Ada lebih banyak contoh AWS SDK yang tersedia di repo Contoh [SDK AWS Doc](https://github.com/awsdocs/aws-doc-sdk-examples). GitHub 

Terjemahan disediakan oleh mesin penerjemah. Jika konten terjemahan yang diberikan bertentangan dengan versi bahasa Inggris aslinya, utamakan versi bahasa Inggris.

# Contoh kode oleh SDK menggunakan AWS SDKs
<a name="code_example_library_by_sdk"></a>

Contoh kode berikut menunjukkan cara menggunakan Layanan AWS kit pengembangan AWS perangkat lunak (SDK). Bagian ini diatur oleh bahasa SDK. 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [SDK untuk .NET](csharp_3_code_examples.md)
+ [SDK untuk .NET (v4)](csharp_4_code_examples.md)
+ [AWS CLI dengan skrip Bash](bash_2_code_examples.md)
+ [SDK untuk C\$1\$1](cpp_1_code_examples.md)
+ [AWS CLI](cli_2_code_examples.md)
+ [SDK untuk Go V2](go_2_code_examples.md)
+ [SDK untuk JavaScript (v2)](javascript_2_code_examples.md)
+ [SDK untuk JavaScript (v3)](javascript_3_code_examples.md)
+ [SDK untuk Java 2.x](java_2_code_examples.md)
+ [SDK untuk Kotlin](kotlin_1_code_examples.md)
+ [SDK untuk PHP](php_3_code_examples.md)
+ [Alat untuk PowerShell V4](powershell_4_code_examples.md)
+ [Alat untuk PowerShell V5](powershell_5_code_examples.md)
+ [SDK untuk Python (Boto3)](python_3_code_examples.md)
+ [SDK untuk Ruby](ruby_3_code_examples.md)
+ [SDK for Rust](rust_1_code_examples.md)
+ [SDK for SAP ABAP](sap-abap_1_code_examples.md)
+ [SDK para Swift](swift_1_code_examples.md)

# Contoh kode untuk SDK untuk .NET
<a name="csharp_3_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk .NET with AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK untuk .NET Panduan Pengembang](https://docs.aws.amazon.com/sdk-for-net/v3/developer-guide/welcome.html)** - Lebih lanjut tentang menggunakan.NET dengan AWS. 
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23dotnet)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [ACM](csharp_3_acm_code_examples.md)
+ [API Gateway](csharp_3_api-gateway_code_examples.md)
+ [Aurora](csharp_3_aurora_code_examples.md)
+ [Auto Scaling](csharp_3_auto-scaling_code_examples.md)
+ [Runtime Amazon Bedrock](csharp_3_bedrock-runtime_code_examples.md)
+ [CloudWatch Log](csharp_3_cloudwatch-logs_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](csharp_3_cognito-identity-provider_code_examples.md)
+ [Amazon Comprehend](csharp_3_comprehend_code_examples.md)
+ [Amazon DocumentDB](csharp_3_docdb_code_examples.md)
+ [DynamoDB](csharp_3_dynamodb_code_examples.md)
+ [Amazon EC2](csharp_3_ec2_code_examples.md)
+ [Amazon ECS](csharp_3_ecs_code_examples.md)
+ [Elastic Load Balancing - Versi 2](csharp_3_elastic-load-balancing-v2_code_examples.md)
+ [EventBridge](csharp_3_eventbridge_code_examples.md)
+ [EventBridge Penjadwal](csharp_3_scheduler_code_examples.md)
+ [Amazon Glacier](csharp_3_glacier_code_examples.md)
+ [AWS Glue](csharp_3_glue_code_examples.md)
+ [IAM](csharp_3_iam_code_examples.md)
+ [Amazon Keyspaces](csharp_3_keyspaces_code_examples.md)
+ [Kinesis](csharp_3_kinesis_code_examples.md)
+ [AWS KMS](csharp_3_kms_code_examples.md)
+ [Lambda](csharp_3_lambda_code_examples.md)
+ [MediaConvert](csharp_3_mediaconvert_code_examples.md)
+ [Amazon MSK](csharp_3_kafka_code_examples.md)
+ [Organizations](csharp_3_organizations_code_examples.md)
+ [Pusat Partner](csharp_3_partnercentral-selling_code_examples.md)
+ [Amazon Pinpoint](csharp_3_pinpoint_code_examples.md)
+ [Amazon Polly](csharp_3_polly_code_examples.md)
+ [Amazon RDS](csharp_3_rds_code_examples.md)
+ [Layanan Data Amazon RDS](csharp_3_rds-data_code_examples.md)
+ [Amazon Rekognition](csharp_3_rekognition_code_examples.md)
+ [Registrasi domain Route 53](csharp_3_route-53-domains_code_examples.md)
+ [Amazon S3](csharp_3_s3_code_examples.md)
+ [SageMaker AI](csharp_3_sagemaker_code_examples.md)
+ [Secrets Manager](csharp_3_secrets-manager_code_examples.md)
+ [Amazon SES](csharp_3_ses_code_examples.md)
+ [Amazon SES API v2](csharp_3_sesv2_code_examples.md)
+ [Amazon SNS](csharp_3_sns_code_examples.md)
+ [Amazon SQS](csharp_3_sqs_code_examples.md)
+ [Step Functions](csharp_3_sfn_code_examples.md)
+ [AWS STS](csharp_3_sts_code_examples.md)
+ [Dukungan](csharp_3_support_code_examples.md)
+ [Amazon Textract](csharp_3_textract_code_examples.md)
+ [Amazon Transcribe](csharp_3_transcribe_code_examples.md)
+ [Amazon Translate](csharp_3_translate_code_examples.md)

# Contoh ACM menggunakan SDK untuk .NET
<a name="csharp_3_acm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan ACM AWS SDK untuk .NET with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DescribeCertificate`
<a name="acm_DescribeCertificate_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCertificate`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/ACM#code-examples). 

```
using System;
using System.Threading.Tasks;
using Amazon;
using Amazon.CertificateManager;
using Amazon.CertificateManager.Model;

namespace DescribeCertificate
{
    class DescribeCertificate
    {
        // The following example retrieves and displays the metadata for a
        // certificate using the AWS Certificate Manager (ACM) service.

        // Specify your AWS Region (an example Region is shown).
        private static readonly RegionEndpoint ACMRegion = RegionEndpoint.USEast1;
        private static AmazonCertificateManagerClient _client;

        static void Main(string[] args)
        {
            _client = new Amazon.CertificateManager.AmazonCertificateManagerClient(ACMRegion);

            var describeCertificateReq = new DescribeCertificateRequest();
            // The ARN used here is just an example. Replace it with the ARN of
            // a certificate that exists on your account.
            describeCertificateReq.CertificateArn =
                "arn:aws:acm:us-east-1:123456789012:certificate/8cfd7dae-9b6a-2d07-92bc-1c309EXAMPLE";

            var certificateDetailResp =
                DescribeCertificateResponseAsync(client: _client, request: describeCertificateReq);
            var certificateDetail = certificateDetailResp.Result.Certificate;

            if (certificateDetail is not null)
            {
                DisplayCertificateDetails(certificateDetail);
            }
        }

        /// <summary>
        /// Displays detailed metadata about a certificate retrieved
        /// using the ACM service.
        /// </summary>
        /// <param name="certificateDetail">The object that contains details
        /// returned from the call to DescribeCertificateAsync.</param>
        static void DisplayCertificateDetails(CertificateDetail certificateDetail)
        {
            Console.WriteLine("\nCertificate Details: ");
            Console.WriteLine($"Certificate Domain: {certificateDetail.DomainName}");
            Console.WriteLine($"Certificate Arn: {certificateDetail.CertificateArn}");
            Console.WriteLine($"Certificate Subject: {certificateDetail.Subject}");
            Console.WriteLine($"Certificate Status: {certificateDetail.Status}");
            foreach (var san in certificateDetail.SubjectAlternativeNames)
            {
                Console.WriteLine($"Certificate SubjectAlternativeName: {san}");
            }
        }

        /// <summary>
        /// Retrieves the metadata associated with the ACM service certificate.
        /// </summary>
        /// <param name="client">An AmazonCertificateManagerClient object
        /// used to call DescribeCertificateResponse.</param>
        /// <param name="request">The DescribeCertificateRequest object that
        /// will be passed to the method call.</param>
        /// <returns></returns>
        static async Task<DescribeCertificateResponse> DescribeCertificateResponseAsync(
            AmazonCertificateManagerClient client, DescribeCertificateRequest request)
        {
            var response = new DescribeCertificateResponse();

            try
            {
                response = await client.DescribeCertificateAsync(request);
            }
            catch (InvalidArnException)
            {
                Console.WriteLine($"Error: The ARN specified is invalid.");
            }
            catch (ResourceNotFoundException)
            {
                Console.WriteLine($"Error: The specified certificate could not be found.");
            }

            return response;
        }
    }

}
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/goto/DotNetSDKV3/acm-2015-12-08/DescribeCertificate)di *Referensi AWS SDK untuk .NET API*. 

### `ListCertificates`
<a name="acm_ListCertificates_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/ACM#code-examples). 

```
using System;
using System.Threading.Tasks;
using Amazon;
using Amazon.CertificateManager;
using Amazon.CertificateManager.Model;

namespace ListCertificates
{
    // The following example retrieves and displays a list of the
    // certificates defined for the default account using the AWS
    // Certificate Manager (ACM) service.
    class ListCertificates
    {
        // Specify your AWS Region (an example Region is shown).

        private static readonly RegionEndpoint ACMRegion = RegionEndpoint.USEast1;
        private static AmazonCertificateManagerClient _client;

        static void Main(string[] args)
        {
            _client = new AmazonCertificateManagerClient(ACMRegion);
            var certificateList = ListCertificatesResponseAsync(client: _client);

            Console.WriteLine("Certificate Summary List\n");

            foreach (var certificate in certificateList.Result.CertificateSummaryList)
            {
                Console.WriteLine($"Certificate Domain: {certificate.DomainName}");
                Console.WriteLine($"Certificate ARN: {certificate.CertificateArn}\n");
            }
        }

        /// <summary>
        /// Retrieves a list of the certificates defined in this Region.
        /// </summary>
        /// <param name="client">The ACM client object passed to the
        /// ListCertificateResAsync method call.</param>
        /// <param name="request"></param>
        /// <returns>The ListCertificatesResponse.</returns>
        static async Task<ListCertificatesResponse> ListCertificatesResponseAsync(
            AmazonCertificateManagerClient client)
        {
            var request = new ListCertificatesRequest();

            var response = await client.ListCertificatesAsync(request);
            return response;
        }
    }
}
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/goto/DotNetSDKV3/acm-2015-12-08/ListCertificates)di *Referensi AWS SDK untuk .NET API*. 

# Contoh API Gateway menggunakan SDK untuk .NET
<a name="csharp_3_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan API Gateway AWS SDK untuk .NET with.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk .NET**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAssetManager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk .NET**  
 Menunjukkan cara membangun dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan .NET SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-dotnet-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh Aurora menggunakan SDK untuk .NET
<a name="csharp_3_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with Aurora.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan AWS SDK untuk .NET untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan front end yang dibangun dengan React.js untuk berinteraksi dengan backend RESTful .NET.   
+ Integrasikan aplikasi web React dengan AWS layanan.
+ Cantumkan, tambahkan, perbarui, dan hapus butir di tabel Aurora.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/AuroraItemTracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Auto Scaling menggunakan SDK untuk .NET
<a name="csharp_3_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Auto Scaling AWS SDK untuk .NET with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AttachLoadBalancerTargetGroups`
<a name="auto-scaling_AttachLoadBalancerTargetGroups_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachLoadBalancerTargetGroups`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
    /// The
    /// </summary>
    /// <param name="autoScalingGroupName">The name of the Auto Scaling group.</param>
    /// <param name="targetGroupArn">The Arn for the target group.</param>
    /// <returns>Async task.</returns>
    public async Task AttachLoadBalancerToGroup(string autoScalingGroupName, string targetGroupArn)
    {
        await _amazonAutoScaling.AttachLoadBalancerTargetGroupsAsync(
            new AttachLoadBalancerTargetGroupsRequest()
            {
                AutoScalingGroupName = autoScalingGroupName,
                TargetGroupARNs = new List<string>() { targetGroupArn }
            });
    }
```
+  Untuk detail API, lihat [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAutoScalingGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 
Perbarui ukuran minimum grup Auto Scaling ke nol, hentikan semua instance dalam grup, dan hapus grup.  

```
    /// <summary>
    /// Try to terminate an instance by its Id.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to terminate.</param>
    /// <returns>Async task.</returns>
    public async Task TryTerminateInstanceById(string instanceId)
    {
        var stopping = false;
        Console.WriteLine($"Stopping {instanceId}...");
        while (!stopping)
        {
            try
            {
                await _amazonAutoScaling.TerminateInstanceInAutoScalingGroupAsync(
                    new TerminateInstanceInAutoScalingGroupRequest()
                    {
                        InstanceId = instanceId,
                        ShouldDecrementDesiredCapacity = false
                    });
                stopping = true;
            }
            catch (ScalingActivityInProgressException)
            {
                Console.WriteLine($"Scaling activity in progress for {instanceId}. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Tries to delete the EC2 Auto Scaling group. If the group is in use or in progress,
    /// waits and retries until the group is successfully deleted.
    /// </summary>
    /// <param name="groupName">The name of the group to try to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TryDeleteGroupByName(string groupName)
    {
        var stopped = false;
        while (!stopped)
        {
            try
            {
                await _amazonAutoScaling.DeleteAutoScalingGroupAsync(
                    new DeleteAutoScalingGroupRequest()
                    {
                        AutoScalingGroupName = groupName
                    });
                stopped = true;
            }
            catch (Exception e)
                when ((e is ScalingActivityInProgressException)
                      || (e is Amazon.AutoScaling.Model.ResourceInUseException))
            {
                Console.WriteLine($"Some instances are still running. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Terminate instances and delete the Auto Scaling group by name.
    /// </summary>
    /// <param name="groupName">The name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TerminateAndDeleteAutoScalingGroupWithName(string groupName)
    {
        var describeGroupsResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { groupName }
            });
        if (describeGroupsResponse.AutoScalingGroups.Any())
        {
            // Update the size to 0.
            await _amazonAutoScaling.UpdateAutoScalingGroupAsync(
                new UpdateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    MinSize = 0
                });
            var group = describeGroupsResponse.AutoScalingGroups[0];
            foreach (var instance in group.Instances)
            {
                await TryTerminateInstanceById(instance.InstanceId);
            }

            await TryDeleteGroupByName(groupName);
        }
        else
        {
            Console.WriteLine($"No groups found with name {groupName}.");
        }
    }
```

```
    /// <summary>
    /// Delete an Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteAutoScalingGroupAsync(
        string groupName)
    {
        var deleteAutoScalingGroupRequest = new DeleteAutoScalingGroupRequest
        {
            AutoScalingGroupName = groupName,
            ForceDelete = true,
        };

        var response = await _amazonAutoScaling.DeleteAutoScalingGroupAsync(deleteAutoScalingGroupRequest);
        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            Console.WriteLine($"You successfully deleted {groupName}");
            return true;
        }

        Console.WriteLine($"Couldn't delete {groupName}.");
        return false;
    }
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DeleteAutoScalingGroup)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
    static async Task Main(string[] args)
    {
        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();


        // Set up dependency injection for the AWS services.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonIdentityManagementService>()
                    .AddAWSService<IAmazonDynamoDB>()
                    .AddAWSService<IAmazonElasticLoadBalancingV2>()
                    .AddAWSService<IAmazonSimpleSystemsManagement>()
                    .AddAWSService<IAmazonAutoScaling>()
                    .AddAWSService<IAmazonEC2>()
                    .AddTransient<AutoScalerWrapper>()
                    .AddTransient<ElasticLoadBalancerWrapper>()
                    .AddTransient<SmParameterWrapper>()
                    .AddTransient<Recommendations>()
                    .AddSingleton<IConfiguration>(_configuration)
            )
            .Build();

        ServicesSetup(host);
        ResourcesSetup();

        try
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Welcome to the Resilient Architecture Example Scenario.");
            Console.WriteLine(new string('-', 80));
            await Deploy(true);

            Console.WriteLine("Now let's begin the scenario.");
            Console.WriteLine(new string('-', 80));
            await Demo(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Finally, let's clean up our resources.");
            Console.WriteLine(new string('-', 80));

            await DestroyResources(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Resilient Architecture Example Scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            await DestroyResources(true);
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Setup any common resources, also used for integration testing.
    /// </summary>
    public static void ResourcesSetup()
    {
        _httpClient = new HttpClient();
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _elasticLoadBalancerWrapper = host.Services.GetRequiredService<ElasticLoadBalancerWrapper>();
        _iamClient = host.Services.GetRequiredService<IAmazonIdentityManagementService>();
        _recommendations = host.Services.GetRequiredService<Recommendations>();
        _autoScalerWrapper = host.Services.GetRequiredService<AutoScalerWrapper>();
        _smParameterWrapper = host.Services.GetRequiredService<SmParameterWrapper>();
    }

    /// <summary>
    /// Deploy necessary resources for the scenario.
    /// </summary>
    /// <param name="interactive">True to run as interactive.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> Deploy(bool interactive)
    {
        var protocol = "HTTP";
        var port = 80;
        var sshPort = 22;

        Console.WriteLine(
            "\nFor this demo, we'll use the AWS SDK for .NET to create several AWS resources\n" +
            "to set up a load-balanced web service endpoint and explore some ways to make it resilient\n" +
            "against various kinds of failures.\n\n" +
            "Some of the resources create by this demo are:\n");

        Console.WriteLine(
            "\t* A DynamoDB table that the web service depends on to provide book, movie, and song recommendations.");
        Console.WriteLine(
            "\t* An EC2 launch template that defines EC2 instances that each contain a Python web server.");
        Console.WriteLine(
            "\t* An EC2 Auto Scaling group that manages EC2 instances across several Availability Zones.");
        Console.WriteLine(
            "\t* An Elastic Load Balancing (ELB) load balancer that targets the Auto Scaling group to distribute requests.");
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to start deploying resources.");
        if (interactive)
            Console.ReadLine();

        // Create and populate the DynamoDB table.
        var databaseTableName = _configuration["databaseName"];
        var recommendationsPath = Path.Join(_configuration["resourcePath"],
            "recommendations_objects.json");
        Console.WriteLine($"Creating and populating a DynamoDB table named {databaseTableName}.");
        await _recommendations.CreateDatabaseWithName(databaseTableName);
        await _recommendations.PopulateDatabase(databaseTableName, recommendationsPath);
        Console.WriteLine(new string('-', 80));

        // Create the EC2 Launch Template.

        Console.WriteLine(
            $"Creating an EC2 launch template that runs 'server_startup_script.sh' when an instance starts.\n"
            + "\nThis script starts a Python web server defined in the `server.py` script. The web server\n"
            + "listens to HTTP requests on port 80 and responds to requests to '/' and to '/healthcheck'.\n"
            + "For demo purposes, this server is run as the root user. In production, the best practice is to\n"
            + "run a web server, such as Apache, with least-privileged credentials.");
        Console.WriteLine(
            "\nThe template also defines an IAM policy that each instance uses to assume a role that grants\n"
            + "permissions to access the DynamoDB recommendation table and Systems Manager parameters\n"
            + "that control the flow of the demo.");

        var startupScriptPath = Path.Join(_configuration["resourcePath"],
            "server_startup_script.sh");
        var instancePolicyPath = Path.Join(_configuration["resourcePath"],
            "instance_policy.json");
        await _autoScalerWrapper.CreateTemplate(startupScriptPath, instancePolicyPath);
        Console.WriteLine(new string('-', 80));

        Console.WriteLine(
            "Creating an EC2 Auto Scaling group that maintains three EC2 instances, each in a different\n"
            + "Availability Zone.\n");
        var zones = await _autoScalerWrapper.DescribeAvailabilityZones();
        await _autoScalerWrapper.CreateGroupOfSize(3, _autoScalerWrapper.GroupName, zones);
        Console.WriteLine(new string('-', 80));

        Console.WriteLine(
            "At this point, you have EC2 instances created. Once each instance starts, it listens for\n"
            + "HTTP requests. You can see these instances in the console or continue with the demo.\n");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to continue.");
        if (interactive)
            Console.ReadLine();

        Console.WriteLine("Creating variables that control the flow of the demo.");
        await _smParameterWrapper.Reset();

        Console.WriteLine(
            "\nCreating an Elastic Load Balancing target group and load balancer. The target group\n"
            + "defines how the load balancer connects to instances. The load balancer provides a\n"
            + "single endpoint where clients connect and dispatches requests to instances in the group.");

        var defaultVpc = await _autoScalerWrapper.GetDefaultVpc();
        var subnets = await _autoScalerWrapper.GetAllVpcSubnetsForZones(defaultVpc.VpcId, zones);
        var subnetIds = subnets.Select(s => s.SubnetId).ToList();
        var targetGroup = await _elasticLoadBalancerWrapper.CreateTargetGroupOnVpc(_elasticLoadBalancerWrapper.TargetGroupName, protocol, port, defaultVpc.VpcId);

        await _elasticLoadBalancerWrapper.CreateLoadBalancerAndListener(_elasticLoadBalancerWrapper.LoadBalancerName, subnetIds, targetGroup);
        await _autoScalerWrapper.AttachLoadBalancerToGroup(_autoScalerWrapper.GroupName, targetGroup.TargetGroupArn);
        Console.WriteLine("\nVerifying access to the load balancer endpoint...");
        var endPoint = await _elasticLoadBalancerWrapper.GetEndpointForLoadBalancerByName(_elasticLoadBalancerWrapper.LoadBalancerName);
        var loadBalancerAccess = await _elasticLoadBalancerWrapper.VerifyLoadBalancerEndpoint(endPoint);

        if (!loadBalancerAccess)
        {
            Console.WriteLine("\nCouldn't connect to the load balancer, verifying that the port is open...");

            var ipString = await _httpClient.GetStringAsync("https://checkip.amazonaws.com");
            ipString = ipString.Trim();

            var defaultSecurityGroup = await _autoScalerWrapper.GetDefaultSecurityGroupForVpc(defaultVpc);
            var portIsOpen = _autoScalerWrapper.VerifyInboundPortForGroup(defaultSecurityGroup, port, ipString);
            var sshPortIsOpen = _autoScalerWrapper.VerifyInboundPortForGroup(defaultSecurityGroup, sshPort, ipString);

            if (!portIsOpen)
            {
                Console.WriteLine(
                    "\nFor this example to work, the default security group for your default VPC must\n"
                    + "allows access from this computer. You can either add it automatically from this\n"
                    + "example or add it yourself using the AWS Management Console.\n");

                if (!interactive || GetYesNoResponse(
                        "Do you want to add a rule to the security group to allow inbound traffic from your computer's IP address?"))
                {
                    await _autoScalerWrapper.OpenInboundPort(defaultSecurityGroup.GroupId, port, ipString);
                }
            }

            if (!sshPortIsOpen)
            {
                if (!interactive || GetYesNoResponse(
                        "Do you want to add a rule to the security group to allow inbound SSH traffic for debugging from your computer's IP address?"))
                {
                    await _autoScalerWrapper.OpenInboundPort(defaultSecurityGroup.GroupId, sshPort, ipString);
                }
            }
            loadBalancerAccess = await _elasticLoadBalancerWrapper.VerifyLoadBalancerEndpoint(endPoint);
        }

        if (loadBalancerAccess)
        {
            Console.WriteLine("Your load balancer is ready. You can access it by browsing to:");
            Console.WriteLine($"\thttp://{endPoint}\n");
        }
        else
        {
            Console.WriteLine(
                "\nCouldn't get a successful response from the load balancer endpoint. Troubleshoot by\n"
                + "manually verifying that your VPC and security group are configured correctly and that\n"
                + "you can successfully make a GET request to the load balancer endpoint:\n");
            Console.WriteLine($"\thttp://{endPoint}\n");
        }
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to continue with the demo.");
        if (interactive)
            Console.ReadLine();
        return true;
    }

    /// <summary>
    /// Demonstrate the steps of the scenario.
    /// </summary>
    /// <param name="interactive">True to run as an interactive scenario.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> Demo(bool interactive)
    {
        var ssmOnlyPolicy = Path.Join(_configuration["resourcePath"],
            "ssm_only_policy.json");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Resetting parameters to starting values for demo.");
        await _smParameterWrapper.Reset();

        Console.WriteLine("\nThis part of the demonstration shows how to toggle different parts of the system\n" +
                          "to create situations where the web service fails, and shows how using a resilient\n" +
                          "architecture can keep the web service running in spite of these failures.");
        Console.WriteLine(new string('-', 88));
        Console.WriteLine("At the start, the load balancer endpoint returns recommendations and reports that all targets are healthy.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine($"The web service running on the EC2 instances gets recommendations by querying a DynamoDB table.\n" +
                          $"The table name is contained in a Systems Manager parameter named '{_smParameterWrapper.TableParameter}'.\n" +
                          $"To simulate a failure of the recommendation service, let's set this parameter to name a non-existent table.\n");
        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, "this-is-not-a-table");
        Console.WriteLine("\nNow, sending a GET request to the load balancer endpoint returns a failure code. But, the service reports as\n" +
                          "healthy to the load balancer because shallow health checks don't check for failure of the recommendation service.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("Instead of failing when the recommendation service fails, the web service can return a static response.");
        Console.WriteLine("While this is not a perfect solution, it presents the customer with a somewhat better experience than failure.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.FailureResponseParameter, "static");

        Console.WriteLine("\nNow, sending a GET request to the load balancer endpoint returns a static response.");
        Console.WriteLine("The service still reports as healthy because health checks are still shallow.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("Let's reinstate the recommendation service.\n");
        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, _smParameterWrapper.TableName);
        Console.WriteLine(
            "\nLet's also substitute bad credentials for one of the instances in the target group so that it can't\n" +
            "access the DynamoDB recommendation table.\n"
        );
        await _autoScalerWrapper.CreateInstanceProfileWithName(
            _autoScalerWrapper.BadCredsPolicyName,
            _autoScalerWrapper.BadCredsRoleName,
            _autoScalerWrapper.BadCredsProfileName,
            ssmOnlyPolicy,
            new List<string> { "AmazonSSMManagedInstanceCore" }
        );
        var instances = await _autoScalerWrapper.GetInstancesByGroupName(_autoScalerWrapper.GroupName);
        var badInstanceId = instances.First();
        var instanceProfile = await _autoScalerWrapper.GetInstanceProfile(badInstanceId);
        Console.WriteLine(
            $"Replacing the profile for instance {badInstanceId} with a profile that contains\n" +
            "bad credentials...\n"
        );
        await _autoScalerWrapper.ReplaceInstanceProfile(
            badInstanceId,
            _autoScalerWrapper.BadCredsProfileName,
            instanceProfile.AssociationId
        );
        Console.WriteLine(
            "Now, sending a GET request to the load balancer endpoint returns either a recommendation or a static response,\n" +
            "depending on which instance is selected by the load balancer.\n"
        );
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nLet's implement a deep health check. For this demo, a deep health check tests whether");
        Console.WriteLine("the web service can access the DynamoDB table that it depends on for recommendations. Note that");
        Console.WriteLine("the deep health check is only for ELB routing and not for Auto Scaling instance health.");
        Console.WriteLine("This kind of deep health check is not recommended for Auto Scaling instance health, because it");
        Console.WriteLine("risks accidental termination of all instances in the Auto Scaling group when a dependent service fails.");

        Console.WriteLine("\nBy implementing deep health checks, the load balancer can detect when one of the instances is failing");
        Console.WriteLine("and take that instance out of rotation.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.HealthCheckParameter, "deep");

        Console.WriteLine($"\nNow, checking target health indicates that the instance with bad credentials ({badInstanceId})");
        Console.WriteLine("is unhealthy. Note that it might take a minute or two for the load balancer to detect the unhealthy");
        Console.WriteLine("instance. Sending a GET request to the load balancer endpoint always returns a recommendation, because");
        Console.WriteLine("the load balancer takes unhealthy instances out of its rotation.");

        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nBecause the instances in this demo are controlled by an auto scaler, the simplest way to fix an unhealthy");
        Console.WriteLine("instance is to terminate it and let the auto scaler start a new instance to replace it.");

        await _autoScalerWrapper.TryTerminateInstanceById(badInstanceId);

        Console.WriteLine($"\nEven while the instance is terminating and the new instance is starting, sending a GET");
        Console.WriteLine("request to the web service continues to get a successful recommendation response because");
        Console.WriteLine("starts and reports as healthy, it is included in the load balancing rotation.");
        Console.WriteLine("Note that terminating and replacing an instance typically takes several minutes, during which time you");
        Console.WriteLine("can see the changing health check status until the new instance is running and healthy.");

        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nIf the recommendation service fails now, deep health checks mean all instances report as unhealthy.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, "this-is-not-a-table");

        Console.WriteLine($"\nWhen all instances are unhealthy, the load balancer continues to route requests even to");
        Console.WriteLine("unhealthy instances, allowing them to fail open and return a static response rather than fail");
        Console.WriteLine("closed and report failure to the customer.");

        if (interactive)
            await DemoActionChoices();
        await _smParameterWrapper.Reset();

        Console.WriteLine(new string('-', 80));
        return true;
    }

    /// <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <param name="interactive">True to ask the user for cleanup.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> DestroyResources(bool interactive)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine(
            "To keep things tidy and to avoid unwanted charges on your account, we can clean up all AWS resources\n" +
            "that were created for this demo."
        );

        if (!interactive || GetYesNoResponse("Do you want to clean up all demo resources? (y/n) "))
        {
            await _elasticLoadBalancerWrapper.DeleteLoadBalancerByName(_elasticLoadBalancerWrapper.LoadBalancerName);
            await _elasticLoadBalancerWrapper.DeleteTargetGroupByName(_elasticLoadBalancerWrapper.TargetGroupName);
            await _autoScalerWrapper.TerminateAndDeleteAutoScalingGroupWithName(_autoScalerWrapper.GroupName);
            await _autoScalerWrapper.DeleteKeyPairByName(_autoScalerWrapper.KeyPairName);
            await _autoScalerWrapper.DeleteTemplateByName(_autoScalerWrapper.LaunchTemplateName);
            await _autoScalerWrapper.DeleteInstanceProfile(
                _autoScalerWrapper.BadCredsProfileName,
                _autoScalerWrapper.BadCredsRoleName
            );
            await _recommendations.DestroyDatabaseByName(_recommendations.TableName);
        }
        else
        {
            Console.WriteLine(
                "Ok, we'll leave the resources intact.\n" +
                "Don't forget to delete them when you're done with them or you might incur unexpected charges."
            );
        }

        Console.WriteLine(new string('-', 80));
        return true;
    }
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
/// <summary>
/// Encapsulates Amazon EC2 Auto Scaling and EC2 management methods.
/// </summary>
public class AutoScalerWrapper
{
    private readonly IAmazonAutoScaling _amazonAutoScaling;
    private readonly IAmazonEC2 _amazonEc2;
    private readonly IAmazonSimpleSystemsManagement _amazonSsm;
    private readonly IAmazonIdentityManagementService _amazonIam;
    private readonly ILogger<AutoScalerWrapper> _logger;

    private readonly string _instanceType = "";
    private readonly string _amiParam = "";
    private readonly string _launchTemplateName = "";
    private readonly string _groupName = "";
    private readonly string _instancePolicyName = "";
    private readonly string _instanceRoleName = "";
    private readonly string _instanceProfileName = "";
    private readonly string _badCredsProfileName = "";
    private readonly string _badCredsRoleName = "";
    private readonly string _badCredsPolicyName = "";
    private readonly string _keyPairName = "";

    public string GroupName => _groupName;
    public string KeyPairName => _keyPairName;
    public string LaunchTemplateName => _launchTemplateName;
    public string InstancePolicyName => _instancePolicyName;
    public string BadCredsProfileName => _badCredsProfileName;
    public string BadCredsRoleName => _badCredsRoleName;
    public string BadCredsPolicyName => _badCredsPolicyName;

    /// <summary>
    /// Constructor for the AutoScalerWrapper.
    /// </summary>
    /// <param name="amazonAutoScaling">The injected AutoScaling client.</param>
    /// <param name="amazonEc2">The injected EC2 client.</param>
    /// <param name="amazonIam">The injected IAM client.</param>
    /// <param name="amazonSsm">The injected SSM client.</param>
    public AutoScalerWrapper(
        IAmazonAutoScaling amazonAutoScaling,
        IAmazonEC2 amazonEc2,
        IAmazonSimpleSystemsManagement amazonSsm,
        IAmazonIdentityManagementService amazonIam,
        IConfiguration configuration,
        ILogger<AutoScalerWrapper> logger)
    {
        _amazonAutoScaling = amazonAutoScaling;
        _amazonEc2 = amazonEc2;
        _amazonSsm = amazonSsm;
        _amazonIam = amazonIam;
        _logger = logger;

        var prefix = configuration["resourcePrefix"];
        _instanceType = configuration["instanceType"];
        _amiParam = configuration["amiParam"];

        _launchTemplateName = prefix + "-template";
        _groupName = prefix + "-group";
        _instancePolicyName = prefix + "-pol";
        _instanceRoleName = prefix + "-role";
        _instanceProfileName = prefix + "-prof";
        _badCredsPolicyName = prefix + "-bc-pol";
        _badCredsRoleName = prefix + "-bc-role";
        _badCredsProfileName = prefix + "-bc-prof";
        _keyPairName = prefix + "-key-pair";
    }

    /// <summary>
    /// Create a policy, role, and profile that is associated with instances with a specified name.
    /// An instance's associated profile defines a role that is assumed by the
    /// instance.The role has attached policies that specify the AWS permissions granted to
    /// clients that run on the instance.
    /// </summary>
    /// <param name="policyName">Name to use for the policy.</param>
    /// <param name="roleName">Name to use for the role.</param>
    /// <param name="profileName">Name to use for the profile.</param>
    /// <param name="ssmOnlyPolicyFile">Path to a policy file for SSM.</param>
    /// <param name="awsManagedPolicies">AWS Managed policies to be attached to the role.</param>
    /// <returns>The Arn of the profile.</returns>
    public async Task<string> CreateInstanceProfileWithName(
        string policyName,
        string roleName,
        string profileName,
        string ssmOnlyPolicyFile,
        List<string>? awsManagedPolicies = null)
    {

        var assumeRoleDoc = "{" +
                                   "\"Version\": \"2012-10-17\"," +
                                   "\"Statement\": [{" +
                                        "\"Effect\": \"Allow\"," +
                                        "\"Principal\": {" +
                                        "\"Service\": [" +
                                            "\"ec2.amazonaws.com\"" +
                                        "]" +
                                        "}," +
                                   "\"Action\": \"sts:AssumeRole\"" +
                                   "}]" +
                               "}";

        var policyDocument = await File.ReadAllTextAsync(ssmOnlyPolicyFile);

        var policyArn = "";

        try
        {
            var createPolicyResult = await _amazonIam.CreatePolicyAsync(
                new CreatePolicyRequest
                {
                    PolicyName = policyName,
                    PolicyDocument = policyDocument
                });
            policyArn = createPolicyResult.Policy.Arn;
        }
        catch (EntityAlreadyExistsException)
        {
            // The policy already exists, so we look it up to get the Arn.
            var policiesPaginator = _amazonIam.Paginators.ListPolicies(
                new ListPoliciesRequest()
                {
                    Scope = PolicyScopeType.Local
                });
            // Get the entire list using the paginator.
            await foreach (var policy in policiesPaginator.Policies)
            {
                if (policy.PolicyName.Equals(policyName))
                {
                    policyArn = policy.Arn;
                }
            }

            if (policyArn == null)
            {
                throw new InvalidOperationException("Policy not found");
            }
        }

        try
        {
            await _amazonIam.CreateRoleAsync(new CreateRoleRequest()
            {
                RoleName = roleName,
                AssumeRolePolicyDocument = assumeRoleDoc,
            });
            await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
            {
                RoleName = roleName,
                PolicyArn = policyArn
            });
            if (awsManagedPolicies != null)
            {
                foreach (var awsPolicy in awsManagedPolicies)
                {
                    await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
                    {
                        PolicyArn = $"arn:aws:iam::aws:policy/{awsPolicy}",
                        RoleName = roleName
                    });
                }
            }
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Role already exists.");
        }

        string profileArn = "";
        try
        {
            var profileCreateResponse = await _amazonIam.CreateInstanceProfileAsync(
                new CreateInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            // Allow time for the profile to be ready.
            profileArn = profileCreateResponse.InstanceProfile.Arn;
            Thread.Sleep(10000);
            await _amazonIam.AddRoleToInstanceProfileAsync(
                new AddRoleToInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });

        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Policy already exists.");
            var profileGetResponse = await _amazonIam.GetInstanceProfileAsync(
                new GetInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            profileArn = profileGetResponse.InstanceProfile.Arn;
        }
        return profileArn;
    }

    /// <summary>
    /// Create a new key pair and save the file.
    /// </summary>
    /// <param name="newKeyPairName">The name of the new key pair.</param>
    /// <returns>Async task.</returns>
    public async Task CreateKeyPair(string newKeyPairName)
    {
        try
        {
            var keyResponse = await _amazonEc2.CreateKeyPairAsync(
                new CreateKeyPairRequest() { KeyName = newKeyPairName });
            await File.WriteAllTextAsync($"{newKeyPairName}.pem",
                keyResponse.KeyPair.KeyMaterial);
            Console.WriteLine($"Created key pair {newKeyPairName}.");
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine("Key pair already exists.");
        }
    }

    /// <summary>
    /// Delete the key pair and file by name.
    /// </summary>
    /// <param name="deleteKeyPairName">The key pair to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteKeyPairByName(string deleteKeyPairName)
    {
        try
        {
            await _amazonEc2.DeleteKeyPairAsync(
                new DeleteKeyPairRequest() { KeyName = deleteKeyPairName });
            File.Delete($"{deleteKeyPairName}.pem");
        }
        catch (FileNotFoundException)
        {
            Console.WriteLine($"Key pair {deleteKeyPairName} not found.");
        }
    }

    /// <summary>
    /// Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling.
    /// The launch template specifies a Bash script in its user data field that runs after
    /// the instance is started. This script installs the Python packages and starts a Python
    /// web server on the instance.
    /// </summary>
    /// <param name="startupScriptPath">The path to a Bash script file that is run.</param>
    /// <param name="instancePolicyPath">The path to a permissions policy to create and attach to the profile.</param>
    /// <returns>The template object.</returns>
    public async Task<Amazon.EC2.Model.LaunchTemplate> CreateTemplate(string startupScriptPath, string instancePolicyPath)
    {
        try
        {
            await CreateKeyPair(_keyPairName);
            await CreateInstanceProfileWithName(_instancePolicyName, _instanceRoleName,
                _instanceProfileName, instancePolicyPath);

            var startServerText = await File.ReadAllTextAsync(startupScriptPath);
            var plainTextBytes = System.Text.Encoding.UTF8.GetBytes(startServerText);

            var amiLatest = await _amazonSsm.GetParameterAsync(
                new GetParameterRequest() { Name = _amiParam });
            var amiId = amiLatest.Parameter.Value;
            var launchTemplateResponse = await _amazonEc2.CreateLaunchTemplateAsync(
                new CreateLaunchTemplateRequest()
                {
                    LaunchTemplateName = _launchTemplateName,
                    LaunchTemplateData = new RequestLaunchTemplateData()
                    {
                        InstanceType = _instanceType,
                        ImageId = amiId,
                        IamInstanceProfile =
                            new
                                LaunchTemplateIamInstanceProfileSpecificationRequest()
                            {
                                Name = _instanceProfileName
                            },
                        KeyName = _keyPairName,
                        UserData = System.Convert.ToBase64String(plainTextBytes)
                    }
                });
            return launchTemplateResponse.LaunchTemplate;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.AlreadyExistsException")
            {
                _logger.LogError($"Could not create the template, the name {_launchTemplateName} already exists. " +
                                 $"Please try again with a unique name.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get a list of Availability Zones in the AWS Region of the Amazon EC2 Client.
    /// </summary>
    /// <returns>A list of availability zones.</returns>
    public async Task<List<string>> DescribeAvailabilityZones()
    {
        try
        {
            var zoneResponse = await _amazonEc2.DescribeAvailabilityZonesAsync(
                new DescribeAvailabilityZonesRequest());
            return zoneResponse.AvailabilityZones.Select(z => z.ZoneName).ToList();
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            _logger.LogError($"An Amazon EC2 error occurred while listing availability zones.: {ec2Exception.Message}");
            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while listing availability zones.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Create an EC2 Auto Scaling group of a specified size and name.
    /// </summary>
    /// <param name="groupSize">The size for the group.</param>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="availabilityZones">The availability zones for the group.</param>
    /// <returns>Async task.</returns>
    public async Task CreateGroupOfSize(int groupSize, string groupName, List<string> availabilityZones)
    {
        try
        {
            await _amazonAutoScaling.CreateAutoScalingGroupAsync(
                new CreateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    AvailabilityZones = availabilityZones,
                    LaunchTemplate =
                        new Amazon.AutoScaling.Model.LaunchTemplateSpecification()
                        {
                            LaunchTemplateName = _launchTemplateName,
                            Version = "$Default"
                        },
                    MaxSize = groupSize,
                    MinSize = groupSize
                });
            Console.WriteLine($"Created EC2 Auto Scaling group {groupName} with size {groupSize}.");
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine($"EC2 Auto Scaling group {groupName} already exists.");
        }
    }

    /// <summary>
    /// Get the default VPC for the account.
    /// </summary>
    /// <returns>The default VPC object.</returns>
    public async Task<Vpc> GetDefaultVpc()
    {
        try
        {
            var vpcResponse = await _amazonEc2.DescribeVpcsAsync(
                new DescribeVpcsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("is-default", new List<string>() { "true" })
                    }
                });
            return vpcResponse.Vpcs[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "UnauthorizedOperation")
            {
                _logger.LogError(ec2Exception, $"You do not have the necessary permissions to describe VPCs.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the vpcs.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get all the subnets for a Vpc in a set of availability zones.
    /// </summary>
    /// <param name="vpcId">The Id of the Vpc.</param>
    /// <param name="availabilityZones">The list of availability zones.</param>
    /// <returns>The collection of subnet objects.</returns>
    public async Task<List<Subnet>> GetAllVpcSubnetsForZones(string vpcId, List<string> availabilityZones)
    {
        try
        {
            var subnets = new List<Subnet>();
            var subnetPaginator = _amazonEc2.Paginators.DescribeSubnets(
                new DescribeSubnetsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("vpc-id", new List<string>() { vpcId }),
                        new("availability-zone", availabilityZones),
                        new("default-for-az", new List<string>() { "true" })
                    }
                });

            // Get the entire list using the paginator.
            await foreach (var subnet in subnetPaginator.Subnets)
            {
                subnets.Add(subnet);
            }

            return subnets;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidVpcID.NotFound")
            {
                _logger.LogError(ec2Exception, $"The specified VPC ID {vpcId} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the subnets.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Delete a launch template by name.
    /// </summary>
    /// <param name="templateName">The name of the template to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTemplateByName(string templateName)
    {
        try
        {
            await _amazonEc2.DeleteLaunchTemplateAsync(
                new DeleteLaunchTemplateRequest()
                {
                    LaunchTemplateName = templateName
                });
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.NotFoundException")
            {
                _logger.LogError(
                    $"Could not delete the template, the name {_launchTemplateName} was not found.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while deleting the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Detaches a role from an instance profile, detaches policies from the role,
    /// and deletes all the resources.
    /// </summary>
    /// <param name="profileName">The name of the profile to delete.</param>
    /// <param name="roleName">The name of the role to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteInstanceProfile(string profileName, string roleName)
    {
        try
        {
            await _amazonIam.RemoveRoleFromInstanceProfileAsync(
                new RemoveRoleFromInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });
            await _amazonIam.DeleteInstanceProfileAsync(
                new DeleteInstanceProfileRequest() { InstanceProfileName = profileName });
            var attachedPolicies = await _amazonIam.ListAttachedRolePoliciesAsync(
                new ListAttachedRolePoliciesRequest() { RoleName = roleName });
            foreach (var policy in attachedPolicies.AttachedPolicies)
            {
                await _amazonIam.DetachRolePolicyAsync(
                    new DetachRolePolicyRequest()
                    {
                        RoleName = roleName,
                        PolicyArn = policy.PolicyArn
                    });
                // Delete the custom policies only.
                if (!policy.PolicyArn.StartsWith("arn:aws:iam::aws"))
                {
                    await _amazonIam.DeletePolicyAsync(
                        new Amazon.IdentityManagement.Model.DeletePolicyRequest()
                        {
                            PolicyArn = policy.PolicyArn
                        });
                }
            }

            await _amazonIam.DeleteRoleAsync(
                new DeleteRoleRequest() { RoleName = roleName });
        }
        catch (NoSuchEntityException)
        {
            Console.WriteLine($"Instance profile {profileName} does not exist.");
        }
    }

    /// <summary>
    /// Gets data about the instances in an EC2 Auto Scaling group by its group name.
    /// </summary>
    /// <param name="group">The name of the auto scaling group.</param>
    /// <returns>A collection of instance Ids.</returns>
    public async Task<IEnumerable<string>> GetInstancesByGroupName(string group)
    {
        var instanceResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { group }
            });
        var instanceIds = instanceResponse.AutoScalingGroups.SelectMany(
            g => g.Instances.Select(i => i.InstanceId));
        return instanceIds;
    }

    /// <summary>
    /// Get the instance profile association data for an instance.
    /// </summary>
    /// <param name="instanceId">The Id of the instance.</param>
    /// <returns>Instance profile associations data.</returns>
    public async Task<IamInstanceProfileAssociation> GetInstanceProfile(string instanceId)
    {
        try
        {
            var response = await _amazonEc2.DescribeIamInstanceProfileAssociationsAsync(
                new DescribeIamInstanceProfileAssociationsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("instance-id", new List<string>() { instanceId })
                    },
                });
            return response.IamInstanceProfileAssociations[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Replace the profile associated with a running instance. After the profile is replaced, the instance
    /// is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is
    /// used to restart the Python web server.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to update.</param>
    /// <param name="credsProfileName">The name of the new profile to associate with the specified instance.</param>
    /// <param name="associationId">The Id of the existing profile association for the instance.</param>
    /// <returns>Async task.</returns>
    public async Task ReplaceInstanceProfile(string instanceId, string credsProfileName, string associationId)
    {
        try
        {
            await _amazonEc2.ReplaceIamInstanceProfileAssociationAsync(
                new ReplaceIamInstanceProfileAssociationRequest()
                {
                    AssociationId = associationId,
                    IamInstanceProfile = new IamInstanceProfileSpecification()
                    {
                        Name = credsProfileName
                    }
                });
            // Allow time before resetting.
            Thread.Sleep(25000);

            await _amazonEc2.RebootInstancesAsync(
                new RebootInstancesRequest(new List<string>() { instanceId }));
            Thread.Sleep(25000);
            var instanceReady = false;
            var retries = 5;
            while (retries-- > 0 && !instanceReady)
            {
                var instancesPaginator =
                    _amazonSsm.Paginators.DescribeInstanceInformation(
                        new DescribeInstanceInformationRequest());
                // Get the entire list using the paginator.
                await foreach (var instance in instancesPaginator.InstanceInformationList)
                {
                    instanceReady = instance.InstanceId == instanceId;
                    if (instanceReady)
                    {
                        break;
                    }
                }
            }
            Console.WriteLine("Waiting for instance to be running.");
            await WaitForInstanceState(instanceId, InstanceStateName.Running);
            Console.WriteLine("Instance ready.");
            Console.WriteLine($"Sending restart command to instance {instanceId}");
            await _amazonSsm.SendCommandAsync(
                new SendCommandRequest()
                {
                    InstanceIds = new List<string>() { instanceId },
                    DocumentName = "AWS-RunShellScript",
                    Parameters = new Dictionary<string, List<string>>()
                    {
                        {
                            "commands",
                            new List<string>() { "cd / && sudo python3 server.py 80" }
                        }
                    }
                });
            Console.WriteLine($"Restarted the web server on instance {instanceId}");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while replacing the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Try to terminate an instance by its Id.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to terminate.</param>
    /// <returns>Async task.</returns>
    public async Task TryTerminateInstanceById(string instanceId)
    {
        var stopping = false;
        Console.WriteLine($"Stopping {instanceId}...");
        while (!stopping)
        {
            try
            {
                await _amazonAutoScaling.TerminateInstanceInAutoScalingGroupAsync(
                    new TerminateInstanceInAutoScalingGroupRequest()
                    {
                        InstanceId = instanceId,
                        ShouldDecrementDesiredCapacity = false
                    });
                stopping = true;
            }
            catch (ScalingActivityInProgressException)
            {
                Console.WriteLine($"Scaling activity in progress for {instanceId}. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Tries to delete the EC2 Auto Scaling group. If the group is in use or in progress,
    /// waits and retries until the group is successfully deleted.
    /// </summary>
    /// <param name="groupName">The name of the group to try to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TryDeleteGroupByName(string groupName)
    {
        var stopped = false;
        while (!stopped)
        {
            try
            {
                await _amazonAutoScaling.DeleteAutoScalingGroupAsync(
                    new DeleteAutoScalingGroupRequest()
                    {
                        AutoScalingGroupName = groupName
                    });
                stopped = true;
            }
            catch (Exception e)
                when ((e is ScalingActivityInProgressException)
                      || (e is Amazon.AutoScaling.Model.ResourceInUseException))
            {
                Console.WriteLine($"Some instances are still running. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Terminate instances and delete the Auto Scaling group by name.
    /// </summary>
    /// <param name="groupName">The name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TerminateAndDeleteAutoScalingGroupWithName(string groupName)
    {
        var describeGroupsResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { groupName }
            });
        if (describeGroupsResponse.AutoScalingGroups.Any())
        {
            // Update the size to 0.
            await _amazonAutoScaling.UpdateAutoScalingGroupAsync(
                new UpdateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    MinSize = 0
                });
            var group = describeGroupsResponse.AutoScalingGroups[0];
            foreach (var instance in group.Instances)
            {
                await TryTerminateInstanceById(instance.InstanceId);
            }

            await TryDeleteGroupByName(groupName);
        }
        else
        {
            Console.WriteLine($"No groups found with name {groupName}.");
        }
    }


    /// <summary>
    /// Get the default security group for a specified Vpc.
    /// </summary>
    /// <param name="vpc">The Vpc to search.</param>
    /// <returns>The default security group.</returns>
    public async Task<SecurityGroup> GetDefaultSecurityGroupForVpc(Vpc vpc)
    {
        var groupResponse = await _amazonEc2.DescribeSecurityGroupsAsync(
            new DescribeSecurityGroupsRequest()
            {
                Filters = new List<Amazon.EC2.Model.Filter>()
                {
                    new ("group-name", new List<string>() { "default" }),
                    new ("vpc-id", new List<string>() { vpc.VpcId })
                }
            });
        return groupResponse.SecurityGroups[0];
    }

    /// <summary>
    /// Verify the default security group of a Vpc allows ingress from the calling computer.
    /// This can be done by allowing ingress from this computer's IP address.
    /// In some situations, such as connecting from a corporate network, you must instead specify
    /// a prefix list Id. You can also temporarily open the port to any IP address while running this example.
    /// If you do, be sure to remove public access when you're done.
    /// </summary>
    /// <param name="vpc">The group to check.</param>
    /// <param name="port">The port to verify.</param>
    /// <param name="ipAddress">This computer's IP address.</param>
    /// <returns>True if the ip address is allowed on the group.</returns>
    public bool VerifyInboundPortForGroup(SecurityGroup group, int port, string ipAddress)
    {
        var portIsOpen = false;
        foreach (var ipPermission in group.IpPermissions)
        {
            if (ipPermission.FromPort == port)
            {
                foreach (var ipRange in ipPermission.Ipv4Ranges)
                {
                    var cidr = ipRange.CidrIp;
                    if (cidr.StartsWith(ipAddress) || cidr == "0.0.0.0/0")
                    {
                        portIsOpen = true;
                    }
                }

                if (ipPermission.PrefixListIds.Any())
                {
                    portIsOpen = true;
                }

                if (!portIsOpen)
                {
                    Console.WriteLine("The inbound rule does not appear to be open to either this computer's IP\n" +
                                      "address, to all IP addresses (0.0.0.0/0), or to a prefix list ID.");
                }
                else
                {
                    break;
                }
            }
        }

        return portIsOpen;
    }

    /// <summary>
    /// Add an ingress rule to the specified security group that allows access on the
    /// specified port from the specified IP address.
    /// </summary>
    /// <param name="groupId">The Id of the security group to modify.</param>
    /// <param name="port">The port to open.</param>
    /// <param name="ipAddress">The IP address to allow access.</param>
    /// <returns>Async task.</returns>
    public async Task OpenInboundPort(string groupId, int port, string ipAddress)
    {
        await _amazonEc2.AuthorizeSecurityGroupIngressAsync(
            new AuthorizeSecurityGroupIngressRequest()
            {
                GroupId = groupId,
                IpPermissions = new List<IpPermission>()
                {
                    new IpPermission()
                    {
                        FromPort = port,
                        ToPort = port,
                        IpProtocol = "tcp",
                        Ipv4Ranges = new List<IpRange>()
                        {
                            new IpRange() { CidrIp = $"{ipAddress}/32" }
                        }
                    }
                }
            });
    }

    /// <summary>
    /// Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
    /// The
    /// </summary>
    /// <param name="autoScalingGroupName">The name of the Auto Scaling group.</param>
    /// <param name="targetGroupArn">The Arn for the target group.</param>
    /// <returns>Async task.</returns>
    public async Task AttachLoadBalancerToGroup(string autoScalingGroupName, string targetGroupArn)
    {
        await _amazonAutoScaling.AttachLoadBalancerTargetGroupsAsync(
            new AttachLoadBalancerTargetGroupsRequest()
            {
                AutoScalingGroupName = autoScalingGroupName,
                TargetGroupARNs = new List<string>() { targetGroupArn }
            });
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEc2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }
}
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
/// <summary>
/// Encapsulates Elastic Load Balancer actions.
/// </summary>
public class ElasticLoadBalancerWrapper
{
    private readonly IAmazonElasticLoadBalancingV2 _amazonElasticLoadBalancingV2;
    private string? _endpoint = null;
    private readonly string _targetGroupName = "";
    private readonly string _loadBalancerName = "";
    HttpClient _httpClient = new();

    public string TargetGroupName => _targetGroupName;
    public string LoadBalancerName => _loadBalancerName;

    /// <summary>
    /// Constructor for the Elastic Load Balancer wrapper.
    /// </summary>
    /// <param name="amazonElasticLoadBalancingV2">The injected load balancing v2 client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public ElasticLoadBalancerWrapper(
        IAmazonElasticLoadBalancingV2 amazonElasticLoadBalancingV2,
        IConfiguration configuration)
    {
        _amazonElasticLoadBalancingV2 = amazonElasticLoadBalancingV2;
        var prefix = configuration["resourcePrefix"];
        _targetGroupName = prefix + "-tg";
        _loadBalancerName = prefix + "-lb";
    }

    /// <summary>
    /// Get the HTTP Endpoint of a load balancer by its name.
    /// </summary>
    /// <param name="loadBalancerName">The name of the load balancer.</param>
    /// <returns>The HTTP endpoint.</returns>
    public async Task<string> GetEndpointForLoadBalancerByName(string loadBalancerName)
    {
        if (_endpoint == null)
        {
            var endpointResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { loadBalancerName }
                    });
            _endpoint = endpointResponse.LoadBalancers[0].DNSName;
        }

        return _endpoint;
    }

    /// <summary>
    /// Return the GET response for an endpoint as text.
    /// </summary>
    /// <param name="endpoint">The endpoint for the request.</param>
    /// <returns>The request response.</returns>
    public async Task<string> GetEndPointResponse(string endpoint)
    {
        var endpointResponse = await _httpClient.GetAsync($"http://{endpoint}");
        var textResponse = await endpointResponse.Content.ReadAsStringAsync();
        return textResponse!;
    }

    /// <summary>
    /// Get the target health for a group by name.
    /// </summary>
    /// <param name="groupName">The name of the group.</param>
    /// <returns>The collection of health descriptions.</returns>
    public async Task<List<TargetHealthDescription>> CheckTargetHealthForGroup(string groupName)
    {
        List<TargetHealthDescription> result = null!;
        try
        {
            var groupResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                    new DescribeTargetGroupsRequest()
                    {
                        Names = new List<string>() { groupName }
                    });
            var healthResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetHealthAsync(
                    new DescribeTargetHealthRequest()
                    {
                        TargetGroupArn = groupResponse.TargetGroups[0].TargetGroupArn
                    });
            ;
            result = healthResponse.TargetHealthDescriptions;
        }
        catch (TargetGroupNotFoundException)
        {
            Console.WriteLine($"Target group {groupName} not found.");
        }
        return result;
    }

    /// <summary>
    /// Create an Elastic Load Balancing target group. The target group specifies how the load balancer forwards
    /// requests to instances in the group and how instance health is checked.
    ///
    /// To speed up this demo, the health check is configured with shortened times and lower thresholds. In production,
    /// you might want to decrease the sensitivity of your health checks to avoid unwanted failures.
    /// </summary>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="protocol">The protocol, such as HTTP.</param>
    /// <param name="port">The port to use to forward requests, such as 80.</param>
    /// <param name="vpcId">The Id of the Vpc in which the load balancer exists.</param>
    /// <returns>The new TargetGroup object.</returns>
    public async Task<TargetGroup> CreateTargetGroupOnVpc(string groupName, ProtocolEnum protocol, int port, string vpcId)
    {
        var createResponse = await _amazonElasticLoadBalancingV2.CreateTargetGroupAsync(
            new CreateTargetGroupRequest()
            {
                Name = groupName,
                Protocol = protocol,
                Port = port,
                HealthCheckPath = "/healthcheck",
                HealthCheckIntervalSeconds = 10,
                HealthCheckTimeoutSeconds = 5,
                HealthyThresholdCount = 2,
                UnhealthyThresholdCount = 2,
                VpcId = vpcId
            });
        var targetGroup = createResponse.TargetGroups[0];
        return targetGroup;
    }

    /// <summary>
    /// Create an Elastic Load Balancing load balancer that uses the specified subnets
    /// and forwards requests to the specified target group.
    /// </summary>
    /// <param name="name">The name for the new load balancer.</param>
    /// <param name="subnetIds">Subnets for the load balancer.</param>
    /// <param name="targetGroup">Target group for forwarded requests.</param>
    /// <returns>The new LoadBalancer object.</returns>
    public async Task<LoadBalancer> CreateLoadBalancerAndListener(string name, List<string> subnetIds, TargetGroup targetGroup)
    {
        var createLbResponse = await _amazonElasticLoadBalancingV2.CreateLoadBalancerAsync(
            new CreateLoadBalancerRequest()
            {
                Name = name,
                Subnets = subnetIds
            });
        var loadBalancerArn = createLbResponse.LoadBalancers[0].LoadBalancerArn;

        // Wait for load balancer to be available.
        var loadBalancerReady = false;
        while (!loadBalancerReady)
        {
            try
            {
                var describeResponse =
                    await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                        new DescribeLoadBalancersRequest()
                        {
                            Names = new List<string>() { name }
                        });

                var loadBalancerState = describeResponse.LoadBalancers[0].State.Code;

                loadBalancerReady = loadBalancerState == LoadBalancerStateEnum.Active;
            }
            catch (LoadBalancerNotFoundException)
            {
                loadBalancerReady = false;
            }
            Thread.Sleep(10000);
        }
        // Create the listener.
        await _amazonElasticLoadBalancingV2.CreateListenerAsync(
            new CreateListenerRequest()
            {
                LoadBalancerArn = loadBalancerArn,
                Protocol = targetGroup.Protocol,
                Port = targetGroup.Port,
                DefaultActions = new List<Action>()
                {
                    new Action()
                    {
                        Type = ActionTypeEnum.Forward,
                        TargetGroupArn = targetGroup.TargetGroupArn
                    }
                }
            });
        return createLbResponse.LoadBalancers[0];
    }

    /// <summary>
    /// Verify this computer can successfully send a GET request to the
    /// load balancer endpoint.
    /// </summary>
    /// <param name="endpoint">The endpoint to check.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> VerifyLoadBalancerEndpoint(string endpoint)
    {
        var success = false;
        var retries = 3;
        while (!success && retries > 0)
        {
            try
            {
                var endpointResponse = await _httpClient.GetAsync($"http://{endpoint}");
                Console.WriteLine($"Response: {endpointResponse.StatusCode}.");

                if (endpointResponse.IsSuccessStatusCode)
                {
                    success = true;
                }
                else
                {
                    retries = 0;
                }
            }
            catch (HttpRequestException)
            {
                Console.WriteLine("Connection error, retrying...");
                retries--;
                Thread.Sleep(10000);
            }
        }

        return success;
    }

    /// <summary>
    /// Delete a load balancer by its specified name.
    /// </summary>
    /// <param name="name">The name of the load balancer to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteLoadBalancerByName(string name)
    {
        try
        {
            var describeLoadBalancerResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { name }
                    });
            var lbArn = describeLoadBalancerResponse.LoadBalancers[0].LoadBalancerArn;
            await _amazonElasticLoadBalancingV2.DeleteLoadBalancerAsync(
                new DeleteLoadBalancerRequest()
                {
                    LoadBalancerArn = lbArn
                }
            );
        }
        catch (LoadBalancerNotFoundException)
        {
            Console.WriteLine($"Load balancer {name} not found.");
        }
    }

    /// <summary>
    /// Delete a TargetGroup by its specified name.
    /// </summary>
    /// <param name="groupName">Name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTargetGroupByName(string groupName)
    {
        var done = false;
        while (!done)
        {
            try
            {
                var groupResponse =
                    await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                        new DescribeTargetGroupsRequest()
                        {
                            Names = new List<string>() { groupName }
                        });

                var targetArn = groupResponse.TargetGroups[0].TargetGroupArn;
                await _amazonElasticLoadBalancingV2.DeleteTargetGroupAsync(
                    new DeleteTargetGroupRequest() { TargetGroupArn = targetArn });
                Console.WriteLine($"Deleted load balancing target group {groupName}.");
                done = true;
            }
            catch (TargetGroupNotFoundException)
            {
                Console.WriteLine(
                    $"Target group {groupName} not found, could not delete.");
                done = true;
            }
            catch (ResourceInUseException)
            {
                Console.WriteLine("Target group not yet released, waiting...");
                Thread.Sleep(10000);
            }
        }
    }
}
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
/// <summary>
/// Encapsulates a DynamoDB table to use as a service that recommends books, movies, and songs.
/// </summary>
public class Recommendations
{
    private readonly IAmazonDynamoDB _amazonDynamoDb;
    private readonly DynamoDBContext _context;
    private readonly string _tableName;

    public string TableName => _tableName;

    /// <summary>
    /// Constructor for the Recommendations service.
    /// </summary>
    /// <param name="amazonDynamoDb">The injected DynamoDb client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public Recommendations(IAmazonDynamoDB amazonDynamoDb, IConfiguration configuration)
    {
        _amazonDynamoDb = amazonDynamoDb;
        _context = new DynamoDBContext(_amazonDynamoDb);
        _tableName = configuration["databaseName"]!;
    }

    /// <summary>
    /// Create the DynamoDb table with a specified name.
    /// </summary>
    /// <param name="tableName">The name for the table.</param>
    /// <returns>True when ready.</returns>
    public async Task<bool> CreateDatabaseWithName(string tableName)
    {
        try
        {
            Console.Write($"Creating table {tableName}...");
            var createRequest = new CreateTableRequest()
            {
                TableName = tableName,
                AttributeDefinitions = new List<AttributeDefinition>()
                    {
                        new AttributeDefinition()
                        {
                            AttributeName = "MediaType",
                            AttributeType = ScalarAttributeType.S
                        },
                        new AttributeDefinition()
                        {
                            AttributeName = "ItemId",
                            AttributeType = ScalarAttributeType.N
                        }
                    },
                KeySchema = new List<KeySchemaElement>()
                    {
                        new KeySchemaElement()
                        {
                            AttributeName = "MediaType",
                            KeyType = KeyType.HASH
                        },
                        new KeySchemaElement()
                        {
                            AttributeName = "ItemId",
                            KeyType = KeyType.RANGE
                        }
                    },
                ProvisionedThroughput = new ProvisionedThroughput()
                {
                    ReadCapacityUnits = 5,
                    WriteCapacityUnits = 5
                }
            };
            await _amazonDynamoDb.CreateTableAsync(createRequest);

            // Wait until the table is ACTIVE and then report success.
            Console.Write("\nWaiting for table to become active...");

            var request = new DescribeTableRequest
            {
                TableName = tableName
            };

            TableStatus status;
            do
            {
                Thread.Sleep(2000);

                var describeTableResponse = await _amazonDynamoDb.DescribeTableAsync(request);
                status = describeTableResponse.Table.TableStatus;

                Console.Write(".");
            }
            while (status != "ACTIVE");

            return status == TableStatus.ACTIVE;
        }
        catch (ResourceInUseException)
        {
            Console.WriteLine($"Table {tableName} already exists.");
            return false;
        }
    }

    /// <summary>
    /// Populate the database table with data from a specified path.
    /// </summary>
    /// <param name="databaseTableName">The name of the table.</param>
    /// <param name="recommendationsPath">The path of the recommendations data.</param>
    /// <returns>Async task.</returns>
    public async Task PopulateDatabase(string databaseTableName, string recommendationsPath)
    {
        var recommendationsText = await File.ReadAllTextAsync(recommendationsPath);
        var records =
            JsonSerializer.Deserialize<RecommendationModel[]>(recommendationsText);
        var batchWrite = _context.CreateBatchWrite<RecommendationModel>();

        foreach (var record in records!)
        {
            batchWrite.AddPutItem(record);
        }

        await batchWrite.ExecuteAsync();
    }

    /// <summary>
    /// Delete the recommendation table by name.
    /// </summary>
    /// <param name="tableName">The name of the recommendation table.</param>
    /// <returns>Async task.</returns>
    public async Task DestroyDatabaseByName(string tableName)
    {
        try
        {
            await _amazonDynamoDb.DeleteTableAsync(
                new DeleteTableRequest() { TableName = tableName });
            Console.WriteLine($"Table {tableName} was deleted.");
        }
        catch (ResourceNotFoundException)
        {
            Console.WriteLine($"Table {tableName} not found");
        }
    }
}
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
/// <summary>
/// Encapsulates Systems Manager parameter operations. This example uses these parameters
/// to drive the demonstration of resilient architecture, such as failure of a dependency or
/// how the service responds to a health check.
/// </summary>
public class SmParameterWrapper
{
    private readonly IAmazonSimpleSystemsManagement _amazonSimpleSystemsManagement;

    private readonly string _tableParameter = "doc-example-resilient-architecture-table";
    private readonly string _failureResponseParameter = "doc-example-resilient-architecture-failure-response";
    private readonly string _healthCheckParameter = "doc-example-resilient-architecture-health-check";
    private readonly string _tableName = "";

    public string TableParameter => _tableParameter;
    public string TableName => _tableName;
    public string HealthCheckParameter => _healthCheckParameter;
    public string FailureResponseParameter => _failureResponseParameter;

    /// <summary>
    /// Constructor for the SmParameterWrapper.
    /// </summary>
    /// <param name="amazonSimpleSystemsManagement">The injected Simple Systems Management client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public SmParameterWrapper(IAmazonSimpleSystemsManagement amazonSimpleSystemsManagement, IConfiguration configuration)
    {
        _amazonSimpleSystemsManagement = amazonSimpleSystemsManagement;
        _tableName = configuration["databaseName"]!;
    }

    /// <summary>
    /// Reset the Systems Manager parameters to starting values for the demo.
    /// </summary>
    /// <returns>Async task.</returns>
    public async Task Reset()
    {
        await this.PutParameterByName(_tableParameter, _tableName);
        await this.PutParameterByName(_failureResponseParameter, "none");
        await this.PutParameterByName(_healthCheckParameter, "shallow");
    }

    /// <summary>
    /// Set the value of a named Systems Manager parameter.
    /// </summary>
    /// <param name="name">The name of the parameter.</param>
    /// <param name="value">The value to set.</param>
    /// <returns>Async task.</returns>
    public async Task PutParameterByName(string name, string value)
    {
        await _amazonSimpleSystemsManagement.PutParameterAsync(
            new PutParameterRequest() { Name = name, Value = value, Overwrite = true });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# Contoh Amazon Bedrock Runtime menggunakan SDK untuk .NET
<a name="csharp_3_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Runtime AWS SDK untuk .NET with Amazon Bedrock.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)
+ [Amazon Nova](#amazon_nova)
+ [Kanvas Amazon Nova](#amazon_nova_canvas)
+ [Antropik Claude](#anthropic_claude)
+ [Perintah Cohere](#cohere_command)
+ [Meta Llama](#meta_llama)
+ [Mistral AI](#mistral_ai)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi taman bermain untuk berinteraksi dengan model yayasan Amazon Bedrock
<a name="cross_FMPlayground_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat taman bermain untuk berinteraksi dengan model dasar Amazon Bedrock melalui modalitas yang berbeda.

**SDK untuk .NET**  
 .NET Foundation Model (FM) Playground adalah contoh aplikasi .NET MAUI Blazor yang menampilkan cara menggunakan Amazon Bedrock dari kode C\$1. Contoh ini menunjukkan bagaimana pengembang.NET dan C\$1 dapat menggunakan Amazon Bedrock untuk membangun aplikasi berkemampuan AI generatif. Anda dapat menguji dan berinteraksi dengan model yayasan Amazon Bedrock dengan menggunakan empat taman bermain berikut:   
+ Taman bermain teks.
+ Taman bermain obrolan.
+ Taman bermain obrolan suara.
+ Taman bermain gambar.
Contoh ini juga mencantumkan dan menampilkan model fondasi yang dapat Anda akses dan karakteristiknya. Untuk kode sumber dan petunjuk penerapan, lihat proyek di [GitHub](https://github.com/build-on-aws/dotnet-fm-playground).   

**Layanan yang digunakan dalam contoh ini**
+ Runtime Amazon Bedrock

### Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUse_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime/Scenarios/ConverseToolScenario#code-examples). 
Eksekusi utama dari alur skenario. Skenario ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;
using Amazon.Runtime.Documents;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.DependencyInjection.Extensions;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Http;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;

namespace ConverseToolScenario;

public static class ConverseToolScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
    The script interacts with a foundation model on Amazon Bedrock to provide weather information based on user
    input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.
   */

    public static BedrockActionsWrapper _bedrockActionsWrapper = null!;
    public static WeatherTool _weatherTool = null!;
    public static bool _interactive = true;

    // Change this string to use a different model with Converse API.
    private static string model_id = "amazon.nova-lite-v1:0";

    private static string system_prompt = @"
        You are a weather assistant that provides current weather data for user-specified locations using only
        the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
        If the user specifies a state, country, or region, infer the locations of cities within that state.
        If the user provides coordinates, infer the approximate location and refer to it in your response.
        To use the tool, you strictly apply the provided tool specification.

        - Explain your step-by-step process, and give brief updates before each step.
        - Only use the Weather_Tool for data. Never guess or make up information. 
        - Repeat the tool use for subsequent requests if necessary.
        - If the tool errors, apologize, explain weather is unavailable, and suggest other options.
        - Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
          emojis where appropriate.
        - Only respond to weather queries. Remind off-topic users of your purpose. 
        - Never claim to search online, access external data, or use tools besides Weather_Tool.
        - Complete the entire process until you have all required data before sending the complete response.
    "
    ;

    private static string default_prompt = "What is the weather like in Seattle?";

    // The maximum number of recursive calls allowed in the tool use function.
    // This helps prevent infinite loops and potential performance issues.
    private static int max_recursions = 5;

    public static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Error)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddHttpClient()
                    .AddSingleton<IAmazonBedrockRuntime>(_ => new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1)) // Specify a region that has access to the chosen model.
                    .AddTransient<BedrockActionsWrapper>()
                    .AddTransient<WeatherTool>()
                    .RemoveAll<IHttpMessageHandlerBuilderFilter>()
            )
            .Build();

        ServicesSetup(host);

        try
        {
            await RunConversationAsync();

        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            Console.WriteLine(new string('-', 80));
        }
        finally
        {
            Console.WriteLine(
                "Amazon Bedrock Converse API with Tool Use Feature Scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _bedrockActionsWrapper = host.Services.GetRequiredService<BedrockActionsWrapper>();
        _weatherTool = host.Services.GetRequiredService<WeatherTool>();
    }

    /// <summary>
    /// Starts the conversation with the user and handles the interaction with Bedrock.
    /// </summary>
    /// <returns>The conversation array.</returns>
    public static async Task<List<Message>> RunConversationAsync()
    {
        // Print the greeting and a short user guide
        PrintHeader();

        // Start with an empty conversation
        var conversation = new List<Message>();

        // Get the first user input
        var userInput = await GetUserInputAsync();

        while (userInput != null)
        {
            // Create a new message with the user input and append it to the conversation
            var message = new Message { Role = ConversationRole.User, Content = new List<ContentBlock> { new ContentBlock { Text = userInput } } };
            conversation.Add(message);

            // Send the conversation to Amazon Bedrock
            var bedrockResponse = await SendConversationToBedrock(conversation);

            // Recursively handle the model's response until the model has returned its final response or the recursion counter has reached 0
            await ProcessModelResponseAsync(bedrockResponse, conversation, max_recursions);

            // Repeat the loop until the user decides to exit the application
            userInput = await GetUserInputAsync();
        }

        PrintFooter();
        return conversation;
    }

    /// <summary>
    /// Sends the conversation, the system prompt, and the tool spec to Amazon Bedrock, and returns the response.
    /// </summary>
    /// <param name="conversation">The conversation history including the next message to send.</param>
    /// <returns>The response from Amazon Bedrock.</returns>
    private static async Task<ConverseResponse> SendConversationToBedrock(List<Message> conversation)
    {
        Console.WriteLine("\tCalling Bedrock...");

        // Send the conversation, system prompt, and tool configuration, and return the response
        return await _bedrockActionsWrapper.SendConverseRequestAsync(model_id, system_prompt, conversation, _weatherTool.GetToolSpec());
    }

    /// <summary>
    /// Processes the response received via Amazon Bedrock and performs the necessary actions based on the stop reason.
    /// </summary>
    /// <param name="modelResponse">The model's response returned via Amazon Bedrock.</param>
    /// <param name="conversation">The conversation history.</param>
    /// <param name="maxRecursion">The maximum number of recursive calls allowed.</param>
    private static async Task ProcessModelResponseAsync(ConverseResponse modelResponse, List<Message> conversation, int maxRecursion)
    {
        if (maxRecursion <= 0)
        {
            // Stop the process, the number of recursive calls could indicate an infinite loop
            Console.WriteLine("\tWarning: Maximum number of recursions reached. Please try again.");
        }

        // Append the model's response to the ongoing conversation
        conversation.Add(modelResponse.Output.Message);

        if (modelResponse.StopReason == "tool_use")
        {
            // If the stop reason is "tool_use", forward everything to the tool use handler
            await HandleToolUseAsync(modelResponse.Output, conversation, maxRecursion - 1);
        }

        if (modelResponse.StopReason == "end_turn")
        {
            // If the stop reason is "end_turn", print the model's response text, and finish the process
            PrintModelResponse(modelResponse.Output.Message.Content[0].Text);
            if (!_interactive)
            {
                default_prompt = "x";
            }
        }
    }

    /// <summary>
    /// Handles the tool use case by invoking the specified tool and sending the tool's response back to Bedrock.
    /// The tool response is appended to the conversation, and the conversation is sent back to Amazon Bedrock for further processing.
    /// </summary>
    /// <param name="modelResponse">The model's response containing the tool use request.</param>
    /// <param name="conversation">The conversation history.</param>
    /// <param name="maxRecursion">The maximum number of recursive calls allowed.</param>
    public static async Task HandleToolUseAsync(ConverseOutput modelResponse, List<Message> conversation, int maxRecursion)
    {
        // Initialize an empty list of tool results
        var toolResults = new List<ContentBlock>();

        // The model's response can consist of multiple content blocks
        foreach (var contentBlock in modelResponse.Message.Content)
        {
            if (!String.IsNullOrEmpty(contentBlock.Text))
            {
                // If the content block contains text, print it to the console
                PrintModelResponse(contentBlock.Text);
            }

            if (contentBlock.ToolUse != null)
            {
                // If the content block is a tool use request, forward it to the tool
                var toolResponse = await InvokeTool(contentBlock.ToolUse);

                // Add the tool use ID and the tool's response to the list of results
                toolResults.Add(new ContentBlock
                {
                    ToolResult = new ToolResultBlock()
                    {
                        ToolUseId = toolResponse.ToolUseId,
                        Content = new List<ToolResultContentBlock>()
                            { new ToolResultContentBlock { Json = toolResponse.Content } }
                    }
                });
            }
        }

        // Embed the tool results in a new user message
        var message = new Message() { Role = ConversationRole.User, Content = toolResults };

        // Append the new message to the ongoing conversation
        conversation.Add(message);

        // Send the conversation to Amazon Bedrock
        var response = await SendConversationToBedrock(conversation);

        // Recursively handle the model's response until the model has returned its final response or the recursion counter has reached 0
        await ProcessModelResponseAsync(response, conversation, maxRecursion);
    }

    /// <summary>
    /// Invokes the specified tool with the given payload and returns the tool's response.
    /// If the requested tool does not exist, an error message is returned.
    /// </summary>
    /// <param name="payload">The payload containing the tool name and input data.</param>
    /// <returns>The tool's response or an error message.</returns>
    public static async Task<ToolResponse> InvokeTool(ToolUseBlock payload)
    {
        var toolName = payload.Name;

        if (toolName == "Weather_Tool")
        {
            var inputData = payload.Input.AsDictionary();
            PrintToolUse(toolName, inputData);

            // Invoke the weather tool with the input data provided
            var weatherResponse = await _weatherTool.FetchWeatherDataAsync(inputData["latitude"].ToString(), inputData["longitude"].ToString());
            return new ToolResponse { ToolUseId = payload.ToolUseId, Content = weatherResponse };
        }
        else
        {
            var errorMessage = $"\tThe requested tool with name '{toolName}' does not exist.";
            return new ToolResponse { ToolUseId = payload.ToolUseId, Content = new { error = true, message = errorMessage } };
        }
    }


    /// <summary>
    /// Prompts the user for input and returns the user's response.
    /// Returns null if the user enters 'x' to exit.
    /// </summary>
    /// <param name="prompt">The prompt to display to the user.</param>
    /// <returns>The user's input or null if the user chooses to exit.</returns>
    private static async Task<string?> GetUserInputAsync(string prompt = "\tYour weather info request:")
    {
        var userInput = default_prompt;
        if (_interactive)
        {
            Console.WriteLine(new string('*', 80));
            Console.WriteLine($"{prompt} (x to exit): \n\t");
            userInput = Console.ReadLine();
        }

        if (string.IsNullOrWhiteSpace(userInput))
        {
            prompt = "\tPlease enter your weather info request, e.g. the name of a city";
            return await GetUserInputAsync(prompt);
        }

        if (userInput.ToLowerInvariant() == "x")
        {
            return null;
        }

        return userInput;
    }

    /// <summary>
    /// Logs the welcome message and usage guide for the tool use demo.
    /// </summary>
    public static void PrintHeader()
    {
        Console.WriteLine(@"
        =================================================
        Welcome to the Amazon Bedrock Tool Use demo!
        =================================================

        This assistant provides current weather information for user-specified locations.
        You can ask for weather details by providing the location name or coordinates. Weather information
        will be provided using a custom Tool and open-meteo API.

        Example queries:
        - What's the weather like in New York?
        - Current weather for latitude 40.70, longitude -74.01
        - Is it warmer in Rome or Barcelona today?

        To exit the program, simply type 'x' and press Enter.

        P.S.: You're not limited to single locations, or even to using English!
        Have fun and experiment with the app!
        ");
    }

    /// <summary>
    /// Logs the footer information for the tool use demo.
    /// </summary>
    public static void PrintFooter()
    {
        Console.WriteLine(@"
        =================================================
        Thank you for checking out the Amazon Bedrock Tool Use demo. We hope you
        learned something new, or got some inspiration for your own apps today!

        For more Bedrock examples in different programming languages, have a look at:
        https://docs.aws.amazon.com/bedrock/latest/userguide/service_code_examples.html
        =================================================
        ");
    }

    /// <summary>
    /// Logs information about the tool use.
    /// </summary>
    /// <param name="toolName">The name of the tool being used.</param>
    /// <param name="inputData">The input data for the tool.</param>
    public static void PrintToolUse(string toolName, Dictionary<string, Document> inputData)
    {
        Console.WriteLine($"\n\tInvoking tool: {toolName} with input: {inputData["latitude"].ToString()}, {inputData["longitude"].ToString()}...\n");
    }

    /// <summary>
    /// Logs the model's response.
    /// </summary>
    /// <param name="message">The model's response message.</param>
    public static void PrintModelResponse(string message)
    {
        Console.WriteLine("\tThe model's response:\n");
        Console.WriteLine(message);
        Console.WriteLine();
    }
}
```
Alat cuaca yang digunakan oleh demo. File ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
using Amazon.BedrockRuntime.Model;
using Amazon.Runtime.Documents;
using Microsoft.Extensions.Logging;

namespace ConverseToolScenario;

/// <summary>
/// Weather tool that will be invoked when requested by the Bedrock response.
/// </summary>
public class WeatherTool
{
    private readonly ILogger<WeatherTool> _logger;
    private readonly IHttpClientFactory _httpClientFactory;

    public WeatherTool(ILogger<WeatherTool> logger, IHttpClientFactory httpClientFactory)
    {
        _logger = logger;
        _httpClientFactory = httpClientFactory;
    }

    /// <summary>
    /// Returns the JSON Schema specification for the Weather tool. The tool specification
    /// defines the input schema and describes the tool's functionality.
    /// For more information, see https://json-schema.org/understanding-json-schema/reference.
    /// </summary>
    /// <returns>The tool specification for the Weather tool.</returns>
    public ToolSpecification GetToolSpec()
    {
        ToolSpecification toolSpecification = new ToolSpecification();

        toolSpecification.Name = "Weather_Tool";
        toolSpecification.Description = "Get the current weather for a given location, based on its WGS84 coordinates.";

        Document toolSpecDocument = Document.FromObject(
            new
            {
                type = "object",
                properties = new
                {
                    latitude = new
                    {
                        type = "string",
                        description = "Geographical WGS84 latitude of the location."
                    },
                    longitude = new
                    {
                        type = "string",
                        description = "Geographical WGS84 longitude of the location."
                    }
                },
                required = new[] { "latitude", "longitude" }
            });

        toolSpecification.InputSchema = new ToolInputSchema() { Json = toolSpecDocument };
        return toolSpecification;
    }

    /// <summary>
    /// Fetches weather data for the given latitude and longitude using the Open-Meteo API.
    /// Returns the weather data or an error message if the request fails.
    /// </summary>
    /// <param name="latitude">The latitude of the location.</param>
    /// <param name="longitude">The longitude of the location.</param>
    /// <returns>The weather data or an error message.</returns>
    public async Task<Document> FetchWeatherDataAsync(string latitude, string longitude)
    {
        string endpoint = "https://api.open-meteo.com/v1/forecast";

        try
        {
            var httpClient = _httpClientFactory.CreateClient();
            var response = await httpClient.GetAsync($"{endpoint}?latitude={latitude}&longitude={longitude}&current_weather=True");
            response.EnsureSuccessStatusCode();
            var weatherData = await response.Content.ReadAsStringAsync();

            Document weatherDocument = Document.FromObject(
                new { weather_data = weatherData });

            return weatherDocument;
        }
        catch (HttpRequestException e)
        {
            _logger.LogError(e, "Error fetching weather data: {Message}", e.Message);
            throw;
        }
        catch (Exception e)
        {
            _logger.LogError(e, "Unexpected error fetching weather data: {Message}", e.Message);
            throw;
        }
    }
}
```
Tindakan Converse API dengan konfigurasi alat.  

```
/// <summary>
/// Wrapper class for interacting with the Amazon Bedrock Converse API.
/// </summary>
public class BedrockActionsWrapper
{
    private readonly IAmazonBedrockRuntime _bedrockClient;
    private readonly ILogger<BedrockActionsWrapper> _logger;

    /// <summary>
    /// Initializes a new instance of the <see cref="BedrockActionsWrapper"/> class.
    /// </summary>
    /// <param name="bedrockClient">The Bedrock Converse API client.</param>
    /// <param name="logger">The logger instance.</param>
    public BedrockActionsWrapper(IAmazonBedrockRuntime bedrockClient, ILogger<BedrockActionsWrapper> logger)
    {
        _bedrockClient = bedrockClient;
        _logger = logger;
    }

    /// <summary>
    /// Sends a Converse request to the Amazon Bedrock Converse API.
    /// </summary>
    /// <param name="modelId">The Bedrock Model Id.</param>
    /// <param name="systemPrompt">A system prompt instruction.</param>
    /// <param name="conversation">The array of messages in the conversation.</param>
    /// <param name="toolSpec">The specification for a tool.</param>
    /// <returns>The response of the model.</returns>
    public async Task<ConverseResponse> SendConverseRequestAsync(string modelId, string systemPrompt, List<Message> conversation, ToolSpecification toolSpec)
    {
        try
        {
            var request = new ConverseRequest()
            {
                ModelId = modelId,
                System = new List<SystemContentBlock>()
                {
                    new SystemContentBlock()
                    {
                        Text = systemPrompt
                    }
                },
                Messages = conversation,
                ToolConfig = new ToolConfiguration()
                {
                    Tools = new List<Tool>()
                    {
                        new Tool()
                        {
                            ToolSpec = toolSpec
                        }
                    }
                }
            };

            var response = await _bedrockClient.ConverseAsync(request);

            return response;
        }
        catch (ModelNotReadyException ex)
        {
            _logger.LogError(ex, "Model not ready, please wait and try again.");
            throw;
        }
        catch (AmazonBedrockRuntimeException ex)
        {
            _logger.LogError(ex, "Error occurred while sending Converse request.");
            throw;
        }
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK untuk .NET API*. 

## Amazon Nova
<a name="amazon_nova"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AmazonNovaText_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Amazon Nova.

using System;
using System.Collections.Generic;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Amazon Nova Lite.
var modelId = "amazon.nova-lite-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseAsync(request);

    // Extract and print the response text.
    string responseText = response?.Output?.Message?.Content?[0]?.Text ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
Kirim percakapan pesan ke Amazon Nova menggunakan API Converse Bedrock dengan konfigurasi alat.  

```
/// <summary>
/// Wrapper class for interacting with the Amazon Bedrock Converse API.
/// </summary>
public class BedrockActionsWrapper
{
    private readonly IAmazonBedrockRuntime _bedrockClient;
    private readonly ILogger<BedrockActionsWrapper> _logger;

    /// <summary>
    /// Initializes a new instance of the <see cref="BedrockActionsWrapper"/> class.
    /// </summary>
    /// <param name="bedrockClient">The Bedrock Converse API client.</param>
    /// <param name="logger">The logger instance.</param>
    public BedrockActionsWrapper(IAmazonBedrockRuntime bedrockClient, ILogger<BedrockActionsWrapper> logger)
    {
        _bedrockClient = bedrockClient;
        _logger = logger;
    }

    /// <summary>
    /// Sends a Converse request to the Amazon Bedrock Converse API.
    /// </summary>
    /// <param name="modelId">The Bedrock Model Id.</param>
    /// <param name="systemPrompt">A system prompt instruction.</param>
    /// <param name="conversation">The array of messages in the conversation.</param>
    /// <param name="toolSpec">The specification for a tool.</param>
    /// <returns>The response of the model.</returns>
    public async Task<ConverseResponse> SendConverseRequestAsync(string modelId, string systemPrompt, List<Message> conversation, ToolSpecification toolSpec)
    {
        try
        {
            var request = new ConverseRequest()
            {
                ModelId = modelId,
                System = new List<SystemContentBlock>()
                {
                    new SystemContentBlock()
                    {
                        Text = systemPrompt
                    }
                },
                Messages = conversation,
                ToolConfig = new ToolConfiguration()
                {
                    Tools = new List<Tool>()
                    {
                        new Tool()
                        {
                            ToolSpec = toolSpec
                        }
                    }
                }
            };

            var response = await _bedrockClient.ConverseAsync(request);

            return response;
        }
        catch (ModelNotReadyException ex)
        {
            _logger.LogError(ex, "Model not ready, please wait and try again.");
            throw;
        }
        catch (AmazonBedrockRuntimeException ex)
        {
            _logger.LogError(ex, "Error occurred while sending Converse request.");
            throw;
        }
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK untuk .NET API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AmazonNovaText_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Amazon Nova
// and print the response stream.

using System;
using System.Collections.Generic;
using System.Linq;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Amazon Nova Lite.
var modelId = "amazon.nova-lite-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseStreamRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var chunk in response.Stream.AsEnumerable())
    {
        if (chunk is ContentBlockDeltaEvent)
        {
            Console.Write((chunk as ContentBlockDeltaEvent).Delta.Text);
        }
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK untuk .NET API*. 

### Skenario: Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUseDemo_AmazonNova_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime/Scenarios/ConverseToolScenario#code-examples). 
Eksekusi utama dari alur skenario. Skenario ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;
using Amazon.Runtime.Documents;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.DependencyInjection.Extensions;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Http;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;

namespace ConverseToolScenario;

public static class ConverseToolScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
    The script interacts with a foundation model on Amazon Bedrock to provide weather information based on user
    input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.
   */

    public static BedrockActionsWrapper _bedrockActionsWrapper = null!;
    public static WeatherTool _weatherTool = null!;
    public static bool _interactive = true;

    // Change this string to use a different model with Converse API.
    private static string model_id = "amazon.nova-lite-v1:0";

    private static string system_prompt = @"
        You are a weather assistant that provides current weather data for user-specified locations using only
        the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
        If the user specifies a state, country, or region, infer the locations of cities within that state.
        If the user provides coordinates, infer the approximate location and refer to it in your response.
        To use the tool, you strictly apply the provided tool specification.

        - Explain your step-by-step process, and give brief updates before each step.
        - Only use the Weather_Tool for data. Never guess or make up information. 
        - Repeat the tool use for subsequent requests if necessary.
        - If the tool errors, apologize, explain weather is unavailable, and suggest other options.
        - Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
          emojis where appropriate.
        - Only respond to weather queries. Remind off-topic users of your purpose. 
        - Never claim to search online, access external data, or use tools besides Weather_Tool.
        - Complete the entire process until you have all required data before sending the complete response.
    "
    ;

    private static string default_prompt = "What is the weather like in Seattle?";

    // The maximum number of recursive calls allowed in the tool use function.
    // This helps prevent infinite loops and potential performance issues.
    private static int max_recursions = 5;

    public static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Error)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddHttpClient()
                    .AddSingleton<IAmazonBedrockRuntime>(_ => new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1)) // Specify a region that has access to the chosen model.
                    .AddTransient<BedrockActionsWrapper>()
                    .AddTransient<WeatherTool>()
                    .RemoveAll<IHttpMessageHandlerBuilderFilter>()
            )
            .Build();

        ServicesSetup(host);

        try
        {
            await RunConversationAsync();

        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            Console.WriteLine(new string('-', 80));
        }
        finally
        {
            Console.WriteLine(
                "Amazon Bedrock Converse API with Tool Use Feature Scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _bedrockActionsWrapper = host.Services.GetRequiredService<BedrockActionsWrapper>();
        _weatherTool = host.Services.GetRequiredService<WeatherTool>();
    }

    /// <summary>
    /// Starts the conversation with the user and handles the interaction with Bedrock.
    /// </summary>
    /// <returns>The conversation array.</returns>
    public static async Task<List<Message>> RunConversationAsync()
    {
        // Print the greeting and a short user guide
        PrintHeader();

        // Start with an empty conversation
        var conversation = new List<Message>();

        // Get the first user input
        var userInput = await GetUserInputAsync();

        while (userInput != null)
        {
            // Create a new message with the user input and append it to the conversation
            var message = new Message { Role = ConversationRole.User, Content = new List<ContentBlock> { new ContentBlock { Text = userInput } } };
            conversation.Add(message);

            // Send the conversation to Amazon Bedrock
            var bedrockResponse = await SendConversationToBedrock(conversation);

            // Recursively handle the model's response until the model has returned its final response or the recursion counter has reached 0
            await ProcessModelResponseAsync(bedrockResponse, conversation, max_recursions);

            // Repeat the loop until the user decides to exit the application
            userInput = await GetUserInputAsync();
        }

        PrintFooter();
        return conversation;
    }

    /// <summary>
    /// Sends the conversation, the system prompt, and the tool spec to Amazon Bedrock, and returns the response.
    /// </summary>
    /// <param name="conversation">The conversation history including the next message to send.</param>
    /// <returns>The response from Amazon Bedrock.</returns>
    private static async Task<ConverseResponse> SendConversationToBedrock(List<Message> conversation)
    {
        Console.WriteLine("\tCalling Bedrock...");

        // Send the conversation, system prompt, and tool configuration, and return the response
        return await _bedrockActionsWrapper.SendConverseRequestAsync(model_id, system_prompt, conversation, _weatherTool.GetToolSpec());
    }

    /// <summary>
    /// Processes the response received via Amazon Bedrock and performs the necessary actions based on the stop reason.
    /// </summary>
    /// <param name="modelResponse">The model's response returned via Amazon Bedrock.</param>
    /// <param name="conversation">The conversation history.</param>
    /// <param name="maxRecursion">The maximum number of recursive calls allowed.</param>
    private static async Task ProcessModelResponseAsync(ConverseResponse modelResponse, List<Message> conversation, int maxRecursion)
    {
        if (maxRecursion <= 0)
        {
            // Stop the process, the number of recursive calls could indicate an infinite loop
            Console.WriteLine("\tWarning: Maximum number of recursions reached. Please try again.");
        }

        // Append the model's response to the ongoing conversation
        conversation.Add(modelResponse.Output.Message);

        if (modelResponse.StopReason == "tool_use")
        {
            // If the stop reason is "tool_use", forward everything to the tool use handler
            await HandleToolUseAsync(modelResponse.Output, conversation, maxRecursion - 1);
        }

        if (modelResponse.StopReason == "end_turn")
        {
            // If the stop reason is "end_turn", print the model's response text, and finish the process
            PrintModelResponse(modelResponse.Output.Message.Content[0].Text);
            if (!_interactive)
            {
                default_prompt = "x";
            }
        }
    }

    /// <summary>
    /// Handles the tool use case by invoking the specified tool and sending the tool's response back to Bedrock.
    /// The tool response is appended to the conversation, and the conversation is sent back to Amazon Bedrock for further processing.
    /// </summary>
    /// <param name="modelResponse">The model's response containing the tool use request.</param>
    /// <param name="conversation">The conversation history.</param>
    /// <param name="maxRecursion">The maximum number of recursive calls allowed.</param>
    public static async Task HandleToolUseAsync(ConverseOutput modelResponse, List<Message> conversation, int maxRecursion)
    {
        // Initialize an empty list of tool results
        var toolResults = new List<ContentBlock>();

        // The model's response can consist of multiple content blocks
        foreach (var contentBlock in modelResponse.Message.Content)
        {
            if (!String.IsNullOrEmpty(contentBlock.Text))
            {
                // If the content block contains text, print it to the console
                PrintModelResponse(contentBlock.Text);
            }

            if (contentBlock.ToolUse != null)
            {
                // If the content block is a tool use request, forward it to the tool
                var toolResponse = await InvokeTool(contentBlock.ToolUse);

                // Add the tool use ID and the tool's response to the list of results
                toolResults.Add(new ContentBlock
                {
                    ToolResult = new ToolResultBlock()
                    {
                        ToolUseId = toolResponse.ToolUseId,
                        Content = new List<ToolResultContentBlock>()
                            { new ToolResultContentBlock { Json = toolResponse.Content } }
                    }
                });
            }
        }

        // Embed the tool results in a new user message
        var message = new Message() { Role = ConversationRole.User, Content = toolResults };

        // Append the new message to the ongoing conversation
        conversation.Add(message);

        // Send the conversation to Amazon Bedrock
        var response = await SendConversationToBedrock(conversation);

        // Recursively handle the model's response until the model has returned its final response or the recursion counter has reached 0
        await ProcessModelResponseAsync(response, conversation, maxRecursion);
    }

    /// <summary>
    /// Invokes the specified tool with the given payload and returns the tool's response.
    /// If the requested tool does not exist, an error message is returned.
    /// </summary>
    /// <param name="payload">The payload containing the tool name and input data.</param>
    /// <returns>The tool's response or an error message.</returns>
    public static async Task<ToolResponse> InvokeTool(ToolUseBlock payload)
    {
        var toolName = payload.Name;

        if (toolName == "Weather_Tool")
        {
            var inputData = payload.Input.AsDictionary();
            PrintToolUse(toolName, inputData);

            // Invoke the weather tool with the input data provided
            var weatherResponse = await _weatherTool.FetchWeatherDataAsync(inputData["latitude"].ToString(), inputData["longitude"].ToString());
            return new ToolResponse { ToolUseId = payload.ToolUseId, Content = weatherResponse };
        }
        else
        {
            var errorMessage = $"\tThe requested tool with name '{toolName}' does not exist.";
            return new ToolResponse { ToolUseId = payload.ToolUseId, Content = new { error = true, message = errorMessage } };
        }
    }


    /// <summary>
    /// Prompts the user for input and returns the user's response.
    /// Returns null if the user enters 'x' to exit.
    /// </summary>
    /// <param name="prompt">The prompt to display to the user.</param>
    /// <returns>The user's input or null if the user chooses to exit.</returns>
    private static async Task<string?> GetUserInputAsync(string prompt = "\tYour weather info request:")
    {
        var userInput = default_prompt;
        if (_interactive)
        {
            Console.WriteLine(new string('*', 80));
            Console.WriteLine($"{prompt} (x to exit): \n\t");
            userInput = Console.ReadLine();
        }

        if (string.IsNullOrWhiteSpace(userInput))
        {
            prompt = "\tPlease enter your weather info request, e.g. the name of a city";
            return await GetUserInputAsync(prompt);
        }

        if (userInput.ToLowerInvariant() == "x")
        {
            return null;
        }

        return userInput;
    }

    /// <summary>
    /// Logs the welcome message and usage guide for the tool use demo.
    /// </summary>
    public static void PrintHeader()
    {
        Console.WriteLine(@"
        =================================================
        Welcome to the Amazon Bedrock Tool Use demo!
        =================================================

        This assistant provides current weather information for user-specified locations.
        You can ask for weather details by providing the location name or coordinates. Weather information
        will be provided using a custom Tool and open-meteo API.

        Example queries:
        - What's the weather like in New York?
        - Current weather for latitude 40.70, longitude -74.01
        - Is it warmer in Rome or Barcelona today?

        To exit the program, simply type 'x' and press Enter.

        P.S.: You're not limited to single locations, or even to using English!
        Have fun and experiment with the app!
        ");
    }

    /// <summary>
    /// Logs the footer information for the tool use demo.
    /// </summary>
    public static void PrintFooter()
    {
        Console.WriteLine(@"
        =================================================
        Thank you for checking out the Amazon Bedrock Tool Use demo. We hope you
        learned something new, or got some inspiration for your own apps today!

        For more Bedrock examples in different programming languages, have a look at:
        https://docs.aws.amazon.com/bedrock/latest/userguide/service_code_examples.html
        =================================================
        ");
    }

    /// <summary>
    /// Logs information about the tool use.
    /// </summary>
    /// <param name="toolName">The name of the tool being used.</param>
    /// <param name="inputData">The input data for the tool.</param>
    public static void PrintToolUse(string toolName, Dictionary<string, Document> inputData)
    {
        Console.WriteLine($"\n\tInvoking tool: {toolName} with input: {inputData["latitude"].ToString()}, {inputData["longitude"].ToString()}...\n");
    }

    /// <summary>
    /// Logs the model's response.
    /// </summary>
    /// <param name="message">The model's response message.</param>
    public static void PrintModelResponse(string message)
    {
        Console.WriteLine("\tThe model's response:\n");
        Console.WriteLine(message);
        Console.WriteLine();
    }
}
```
Alat cuaca yang digunakan oleh demo. File ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
using Amazon.BedrockRuntime.Model;
using Amazon.Runtime.Documents;
using Microsoft.Extensions.Logging;

namespace ConverseToolScenario;

/// <summary>
/// Weather tool that will be invoked when requested by the Bedrock response.
/// </summary>
public class WeatherTool
{
    private readonly ILogger<WeatherTool> _logger;
    private readonly IHttpClientFactory _httpClientFactory;

    public WeatherTool(ILogger<WeatherTool> logger, IHttpClientFactory httpClientFactory)
    {
        _logger = logger;
        _httpClientFactory = httpClientFactory;
    }

    /// <summary>
    /// Returns the JSON Schema specification for the Weather tool. The tool specification
    /// defines the input schema and describes the tool's functionality.
    /// For more information, see https://json-schema.org/understanding-json-schema/reference.
    /// </summary>
    /// <returns>The tool specification for the Weather tool.</returns>
    public ToolSpecification GetToolSpec()
    {
        ToolSpecification toolSpecification = new ToolSpecification();

        toolSpecification.Name = "Weather_Tool";
        toolSpecification.Description = "Get the current weather for a given location, based on its WGS84 coordinates.";

        Document toolSpecDocument = Document.FromObject(
            new
            {
                type = "object",
                properties = new
                {
                    latitude = new
                    {
                        type = "string",
                        description = "Geographical WGS84 latitude of the location."
                    },
                    longitude = new
                    {
                        type = "string",
                        description = "Geographical WGS84 longitude of the location."
                    }
                },
                required = new[] { "latitude", "longitude" }
            });

        toolSpecification.InputSchema = new ToolInputSchema() { Json = toolSpecDocument };
        return toolSpecification;
    }

    /// <summary>
    /// Fetches weather data for the given latitude and longitude using the Open-Meteo API.
    /// Returns the weather data or an error message if the request fails.
    /// </summary>
    /// <param name="latitude">The latitude of the location.</param>
    /// <param name="longitude">The longitude of the location.</param>
    /// <returns>The weather data or an error message.</returns>
    public async Task<Document> FetchWeatherDataAsync(string latitude, string longitude)
    {
        string endpoint = "https://api.open-meteo.com/v1/forecast";

        try
        {
            var httpClient = _httpClientFactory.CreateClient();
            var response = await httpClient.GetAsync($"{endpoint}?latitude={latitude}&longitude={longitude}&current_weather=True");
            response.EnsureSuccessStatusCode();
            var weatherData = await response.Content.ReadAsStringAsync();

            Document weatherDocument = Document.FromObject(
                new { weather_data = weatherData });

            return weatherDocument;
        }
        catch (HttpRequestException e)
        {
            _logger.LogError(e, "Error fetching weather data: {Message}", e.Message);
            throw;
        }
        catch (Exception e)
        {
            _logger.LogError(e, "Unexpected error fetching weather data: {Message}", e.Message);
            throw;
        }
    }
}
```
Tindakan Converse API dengan konfigurasi alat.  

```
/// <summary>
/// Wrapper class for interacting with the Amazon Bedrock Converse API.
/// </summary>
public class BedrockActionsWrapper
{
    private readonly IAmazonBedrockRuntime _bedrockClient;
    private readonly ILogger<BedrockActionsWrapper> _logger;

    /// <summary>
    /// Initializes a new instance of the <see cref="BedrockActionsWrapper"/> class.
    /// </summary>
    /// <param name="bedrockClient">The Bedrock Converse API client.</param>
    /// <param name="logger">The logger instance.</param>
    public BedrockActionsWrapper(IAmazonBedrockRuntime bedrockClient, ILogger<BedrockActionsWrapper> logger)
    {
        _bedrockClient = bedrockClient;
        _logger = logger;
    }

    /// <summary>
    /// Sends a Converse request to the Amazon Bedrock Converse API.
    /// </summary>
    /// <param name="modelId">The Bedrock Model Id.</param>
    /// <param name="systemPrompt">A system prompt instruction.</param>
    /// <param name="conversation">The array of messages in the conversation.</param>
    /// <param name="toolSpec">The specification for a tool.</param>
    /// <returns>The response of the model.</returns>
    public async Task<ConverseResponse> SendConverseRequestAsync(string modelId, string systemPrompt, List<Message> conversation, ToolSpecification toolSpec)
    {
        try
        {
            var request = new ConverseRequest()
            {
                ModelId = modelId,
                System = new List<SystemContentBlock>()
                {
                    new SystemContentBlock()
                    {
                        Text = systemPrompt
                    }
                },
                Messages = conversation,
                ToolConfig = new ToolConfiguration()
                {
                    Tools = new List<Tool>()
                    {
                        new Tool()
                        {
                            ToolSpec = toolSpec
                        }
                    }
                }
            };

            var response = await _bedrockClient.ConverseAsync(request);

            return response;
        }
        catch (ModelNotReadyException ex)
        {
            _logger.LogError(ex, "Model not ready, please wait and try again.");
            throw;
        }
        catch (AmazonBedrockRuntimeException ex)
        {
            _logger.LogError(ex, "Error occurred while sending Converse request.");
            throw;
        }
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK untuk .NET API*. 

## Kanvas Amazon Nova
<a name="amazon_nova_canvas"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AmazonNovaImageGeneration_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Nova Canvas di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Nova Canvas.  

```
// Use the native inference API to create an image with Amazon Nova Canvas.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID.
var modelId = "amazon.nova-canvas-v1:0";

// Define the image generation prompt for the model.
var prompt = "A stylized picture of a cute old steampunk robot.";

// Create a random seed between 0 and 858,993,459
int seed = new Random().Next(0, 858993460);

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    taskType = "TEXT_IMAGE",
    textToImageParams = new
    {
        text = prompt
    },
    imageGenerationConfig = new
    {
        seed,
        quality = "standard",
        width = 512,
        height = 512,
        numberOfImages = 1
    }
});

// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var response = await client.InvokeModelAsync(request);

    // Decode the response body.
    var modelResponse = await JsonNode.ParseAsync(response.Body);

    // Extract the image data.
    var base64Image = modelResponse["images"]?[0].ToString() ?? "";

    // Save the image in a local folder
    string savedPath = AmazonNovaCanvas.InvokeModel.SaveBase64Image(base64Image);
    Console.WriteLine($"Image saved to: {savedPath}");
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk .NET API*. 

## Antropik Claude
<a name="anthropic_claude"></a>

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_AnthropicClaude_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Anthropic Claude, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Use the native inference API to send a text message to Anthropic Claude
// and print the response stream.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    anthropic_version = "bedrock-2023-05-31",
    max_tokens = 512,
    temperature = 0.5,
    messages = new[]
    {
        new { role = "user", content = userMessage }
    }
});

// Create a request with the model ID, the user message, and an inference configuration.
var request = new InvokeModelWithResponseStreamRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var streamingResponse = await client.InvokeModelWithResponseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var item in streamingResponse.Body)
    {
        var chunk = JsonSerializer.Deserialize<JsonObject>((item as PayloadPart).Bytes);
        var text = chunk["delta"]?["text"] ?? "";
        Console.Write(text);
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *Referensi AWS SDK untuk .NET API*. 

## Perintah Cohere
<a name="cohere_command"></a>

### InvokeModel: Perintah R dan R \$1
<a name="bedrock-runtime_InvokeModel_CohereCommandR_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command R dan R \$1, menggunakan Invoke Model API.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Use the native inference API to send a text message to Cohere Command R.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Command R.
var modelId = "cohere.command-r-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    message = userMessage,
    max_tokens = 512,
    temperature = 0.5
});

// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var response = await client.InvokeModelAsync(request);

    // Decode the response body.
    var modelResponse = await JsonNode.ParseAsync(response.Body);

    // Extract and print the response text.
    var responseText = modelResponse["text"] ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk .NET API*. 

### InvokeModelWithResponseStream: Perintah R dan R \$1
<a name="bedrock-runtime_InvokeModelWithResponseStream_CohereCommandR_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan Invoke Model API dengan aliran respons.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Use the native inference API to send a text message to Cohere Command R
// and print the response stream.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Command R.
var modelId = "cohere.command-r-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    message = userMessage,
    max_tokens = 512,
    temperature = 0.5
});

// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelWithResponseStreamRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var streamingResponse = await client.InvokeModelWithResponseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var item in streamingResponse.Body)
    {
        var chunk = JsonSerializer.Deserialize<JsonObject>((item as PayloadPart).Bytes);
        var text = chunk["text"] ?? "";
        Console.Write(text);
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk .NET API*. 

## Meta Llama
<a name="meta_llama"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_MetaLlama3_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan Invoke Model API.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Use the native inference API to send a text message to Meta Llama 3.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USWest2);

// Set the model ID, e.g., Llama 3 70b Instruct.
var modelId = "meta.llama3-70b-instruct-v1:0";

// Define the prompt for the model.
var prompt = "Describe the purpose of a 'hello world' program in one line.";

// Embed the prompt in Llama 2's instruction format.
var formattedPrompt = $@"
<|begin_of_text|><|start_header_id|>user<|end_header_id|>
{prompt}
<|eot_id|>
<|start_header_id|>assistant<|end_header_id|>
";

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    prompt = formattedPrompt,
    max_gen_len = 512,
    temperature = 0.5
});

// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var response = await client.InvokeModelAsync(request);

    // Decode the response body.
    var modelResponse = await JsonNode.ParseAsync(response.Body);

    // Extract and print the response text.
    var responseText = modelResponse["generation"] ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk .NET API*. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_MetaLlama3_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Use the native inference API to send a text message to Meta Llama 3
// and print the response stream.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USWest2);

// Set the model ID, e.g., Llama 3 70b Instruct.
var modelId = "meta.llama3-70b-instruct-v1:0";

// Define the prompt for the model.
var prompt = "Describe the purpose of a 'hello world' program in one line.";

// Embed the prompt in Llama 2's instruction format.
var formattedPrompt = $@"
<|begin_of_text|><|start_header_id|>user<|end_header_id|>
{prompt}
<|eot_id|>
<|start_header_id|>assistant<|end_header_id|>
";

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    prompt = formattedPrompt,
    max_gen_len = 512,
    temperature = 0.5
});

// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelWithResponseStreamRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var streamingResponse = await client.InvokeModelWithResponseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var item in streamingResponse.Body)
    {
        var chunk = JsonSerializer.Deserialize<JsonObject>((item as PayloadPart).Bytes);
        var text = chunk["generation"] ?? "";
        Console.Write(text);
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *Referensi AWS SDK untuk .NET API*. 

## Mistral AI
<a name="mistral_ai"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_MistralAi_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Mistral, menggunakan Invoke Model API.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Use the native inference API to send a text message to Mistral.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Mistral Large.
var modelId = "mistral.mistral-large-2402-v1:0";

// Define the prompt for the model.
var prompt = "Describe the purpose of a 'hello world' program in one line.";

// Embed the prompt in Mistral's instruction format.
var formattedPrompt = $"<s>[INST] {prompt} [/INST]";

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    prompt = formattedPrompt,
    max_tokens = 512,
    temperature = 0.5
});

// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var response = await client.InvokeModelAsync(request);

    // Decode the response body.
    var modelResponse = await JsonNode.ParseAsync(response.Body);

    // Extract and print the response text.
    var responseText = modelResponse["outputs"]?[0]?["text"] ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk .NET API*. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_MistralAi_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model AI Mistral, menggunakan API Model Invoke, dan mencetak aliran respons.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Use the native inference API to send a text message to Mistral
// and print the response stream.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Mistral Large.
var modelId = "mistral.mistral-large-2402-v1:0";

// Define the prompt for the model.
var prompt = "Describe the purpose of a 'hello world' program in one line.";

// Embed the prompt in Mistral's instruction format.
var formattedPrompt = $"<s>[INST] {prompt} [/INST]";

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    prompt = formattedPrompt,
    max_tokens = 512,
    temperature = 0.5
});

// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelWithResponseStreamRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var streamingResponse = await client.InvokeModelWithResponseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var item in streamingResponse.Body)
    {
        var chunk = JsonSerializer.Deserialize<JsonObject>((item as PayloadPart).Bytes);
        var text = chunk["outputs"]?[0]?["text"] ?? "";
        Console.Write(text);
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *Referensi AWS SDK untuk .NET API*. 

# CloudWatch Log contoh menggunakan SDK untuk .NET
<a name="csharp_3_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET With CloudWatch Logs.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssociateKmsKey`
<a name="cloudwatch-logs_AssociateKmsKey_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateKmsKey`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/CloudWatchLogs#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.CloudWatchLogs;
    using Amazon.CloudWatchLogs.Model;

    /// <summary>
    /// Shows how to associate an AWS Key Management Service (AWS KMS) key with
    /// an Amazon CloudWatch Logs log group.
    /// </summary>
    public class AssociateKmsKey
    {
        public static async Task Main()
        {
            // This client object will be associated with the same AWS Region
            // as the default user on this system. If you need to use a
            // different AWS Region, pass it as a parameter to the client
            // constructor.
            var client = new AmazonCloudWatchLogsClient();

            string kmsKeyId = "arn:aws:kms:us-west-2:<account-number>:key/7c9eccc2-38cb-4c4f-9db3-766ee8dd3ad4";
            string groupName = "cloudwatchlogs-example-loggroup";

            var request = new AssociateKmsKeyRequest
            {
                KmsKeyId = kmsKeyId,
                LogGroupName = groupName,
            };

            var response = await client.AssociateKmsKeyAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Successfully associated KMS key ID: {kmsKeyId} with log group: {groupName}.");
            }
            else
            {
                Console.WriteLine("Could not make the association between: {kmsKeyId} and {groupName}.");
            }
        }
    }
```
+  Untuk detail API, lihat [AssociateKmsKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/AssociateKmsKey)di *Referensi AWS SDK untuk .NET API*. 

### `CancelExportTask`
<a name="cloudwatch-logs_CancelExportTask_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CancelExportTask`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/CloudWatchLogs#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.CloudWatchLogs;
    using Amazon.CloudWatchLogs.Model;

    /// <summary>
    /// Shows how to cancel an Amazon CloudWatch Logs export task.
    /// </summary>
    public class CancelExportTask
    {
        public static async Task Main()
        {
            // This client object will be associated with the same AWS Region
            // as the default user on this system. If you need to use a
            // different AWS Region, pass it as a parameter to the client
            // constructor.
            var client = new AmazonCloudWatchLogsClient();
            string taskId = "exampleTaskId";

            var request = new CancelExportTaskRequest
            {
                TaskId = taskId,
            };

            var response = await client.CancelExportTaskAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"{taskId} successfully canceled.");
            }
            else
            {
                Console.WriteLine($"{taskId} could not be canceled.");
            }
        }
    }
```
+  Untuk detail API, lihat [CancelExportTask](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/CancelExportTask)di *Referensi AWS SDK untuk .NET API*. 

### `CreateExportTask`
<a name="cloudwatch-logs_CreateExportTask_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateExportTask`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/CloudWatchLogs#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.CloudWatchLogs;
    using Amazon.CloudWatchLogs.Model;

    /// <summary>
    /// Shows how to create an Export Task to export the contents of the Amazon
    /// CloudWatch Logs to the specified Amazon Simple Storage Service (Amazon S3)
    /// bucket.
    /// </summary>
    public class CreateExportTask
    {
        public static async Task Main()
        {
            // This client object will be associated with the same AWS Region
            // as the default user on this system. If you need to use a
            // different AWS Region, pass it as a parameter to the client
            // constructor.
            var client = new AmazonCloudWatchLogsClient();
            string taskName = "export-task-example";
            string logGroupName = "cloudwatchlogs-example-loggroup";
            string destination = "amzn-s3-demo-bucket";
            var fromTime = 1437584472382;
            var toTime = 1437584472833;

            var request = new CreateExportTaskRequest
            {
                From = fromTime,
                To = toTime,
                TaskName = taskName,
                LogGroupName = logGroupName,
                Destination = destination,
            };

            var response = await client.CreateExportTaskAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"The task, {taskName} with ID: " +
                                  $"{response.TaskId} has been created successfully.");
            }
        }
    }
```
+  Untuk detail API, lihat [CreateExportTask](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/CreateExportTask)di *Referensi AWS SDK untuk .NET API*. 

### `CreateLogGroup`
<a name="cloudwatch-logs_CreateLogGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLogGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/CloudWatchLogs#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.CloudWatchLogs;
    using Amazon.CloudWatchLogs.Model;

    /// <summary>
    /// Shows how to create an Amazon CloudWatch Logs log group.
    /// </summary>
    public class CreateLogGroup
    {
        public static async Task Main()
        {
            // This client object will be associated with the same AWS Region
            // as the default user on this system. If you need to use a
            // different AWS Region, pass it as a parameter to the client
            // constructor.
            var client = new AmazonCloudWatchLogsClient();

            string logGroupName = "cloudwatchlogs-example-loggroup";

            var request = new CreateLogGroupRequest
            {
                LogGroupName = logGroupName,
            };

            var response = await client.CreateLogGroupAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Successfully create log group with ID: {logGroupName}.");
            }
            else
            {
                Console.WriteLine("Could not create log group.");
            }
        }
    }
```
+  Untuk detail API, lihat [CreateLogGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/CreateLogGroup)di *Referensi AWS SDK untuk .NET API*. 

### `CreateLogStream`
<a name="cloudwatch-logs_CreateLogStream_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLogStream`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/CloudWatchLogs#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.CloudWatchLogs;
    using Amazon.CloudWatchLogs.Model;

    /// <summary>
    /// Shows how to create an Amazon CloudWatch Logs stream for a CloudWatch
    /// log group.
    /// </summary>
    public class CreateLogStream
    {
        public static async Task Main()
        {
            // This client object will be associated with the same AWS Region
            // as the default user on this system. If you need to use a
            // different AWS Region, pass it as a parameter to the client
            // constructor.
            var client = new AmazonCloudWatchLogsClient();
            string logGroupName = "cloudwatchlogs-example-loggroup";
            string logStreamName = "cloudwatchlogs-example-logstream";

            var request = new CreateLogStreamRequest
            {
                LogGroupName = logGroupName,
                LogStreamName = logStreamName,
            };

            var response = await client.CreateLogStreamAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"{logStreamName} successfully created for {logGroupName}.");
            }
            else
            {
                Console.WriteLine("Could not create stream.");
            }
        }
    }
```
+  Untuk detail API, lihat [CreateLogStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/CreateLogStream)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteLogGroup`
<a name="cloudwatch-logs_DeleteLogGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLogGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/CloudWatchLogs#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.CloudWatchLogs;
    using Amazon.CloudWatchLogs.Model;

    /// <summary>
    /// Uses the Amazon CloudWatch Logs Service to delete an existing
    /// CloudWatch Logs log group.
    /// </summary>
    public class DeleteLogGroup
    {
        public static async Task Main()
        {
            var client = new AmazonCloudWatchLogsClient();
            string logGroupName = "cloudwatchlogs-example-loggroup";

            var request = new DeleteLogGroupRequest
            {
                LogGroupName = logGroupName,
            };

            var response = await client.DeleteLogGroupAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Successfully deleted CloudWatch log group, {logGroupName}.");
            }
        }
    }
```
+  Untuk detail API, lihat [DeleteLogGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/DeleteLogGroup)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeExportTasks`
<a name="cloudwatch-logs_DescribeExportTasks_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeExportTasks`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/CloudWatchLogs#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.CloudWatchLogs;
    using Amazon.CloudWatchLogs.Model;

    /// <summary>
    /// Shows how to retrieve a list of information about Amazon CloudWatch
    /// Logs export tasks.
    /// </summary>
    public class DescribeExportTasks
    {
        public static async Task Main()
        {
            // This client object will be associated with the same AWS Region
            // as the default user on this system. If you need to use a
            // different AWS Region, pass it as a parameter to the client
            // constructor.
            var client = new AmazonCloudWatchLogsClient();

            var request = new DescribeExportTasksRequest
            {
                Limit = 5,
            };

            var response = new DescribeExportTasksResponse();

            do
            {
                response = await client.DescribeExportTasksAsync(request);
                response.ExportTasks.ForEach(t =>
                {
                    Console.WriteLine($"{t.TaskName} with ID: {t.TaskId} has status: {t.Status}");
                });
            }
            while (response.NextToken is not null);
        }
    }
```
+  Untuk detail API, lihat [DescribeExportTasks](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/DescribeExportTasks)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeLogGroups`
<a name="cloudwatch-logs_DescribeLogGroups_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeLogGroups`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/CloudWatchLogs#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.CloudWatchLogs;
    using Amazon.CloudWatchLogs.Model;

    /// <summary>
    /// Retrieves information about existing Amazon CloudWatch Logs log groups
    /// and displays the information on the console.
    /// </summary>
    public class DescribeLogGroups
    {
        public static async Task Main()
        {
            // Creates a CloudWatch Logs client using the default
            // user. If you need to work with resources in another
            // AWS Region than the one defined for the default user,
            // pass the AWS Region as a parameter to the client constructor.
            var client = new AmazonCloudWatchLogsClient();

            bool done = false;
            string newToken = null;

            var request = new DescribeLogGroupsRequest
            {
                Limit = 5,
            };

            DescribeLogGroupsResponse response;

            do
            {
                if (newToken is not null)
                {
                    request.NextToken = newToken;
                }

                response = await client.DescribeLogGroupsAsync(request);

                response.LogGroups.ForEach(lg =>
                {
                    Console.WriteLine($"{lg.LogGroupName} is associated with the key: {lg.KmsKeyId}.");
                    Console.WriteLine($"Created on: {lg.CreationTime.Date.Date}");
                    Console.WriteLine($"Date for this group will be stored for: {lg.RetentionInDays} days.\n");
                });

                if (response.NextToken is null)
                {
                    done = true;
                }
                else
                {
                    newToken = response.NextToken;
                }
            }
            while (!done);
        }
    }
```
+  Untuk detail API, lihat [DescribeLogGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/DescribeLogGroups)di *Referensi AWS SDK untuk .NET API*. 

### `StartLiveTail`
<a name="cloudwatch-logs_StartLiveTail_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartLiveTail`.

**SDK untuk .NET**  
Sertakan file-file yang diperlukan.  

```
using Amazon;
using Amazon.CloudWatchLogs;
using Amazon.CloudWatchLogs.Model;
```
Mulai sesi Live Tail.  

```
            var client = new AmazonCloudWatchLogsClient();
            var request = new StartLiveTailRequest
            {
                LogGroupIdentifiers = logGroupIdentifiers,
                LogStreamNames = logStreamNames,
                LogEventFilterPattern = filterPattern,
            };

            var response = await client.StartLiveTailAsync(request);

            // Catch if request fails
            if (response.HttpStatusCode != System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine("Failed to start live tail session");
                return;
            }
```
Anda dapat menangani acara dari sesi Live Tail dengan dua cara:  

```
            /* Method 1
            * 1). Asynchronously loop through the event stream
            * 2). Set a timer to dispose the stream and stop the Live Tail session at the end.
            */
            var eventStream = response.ResponseStream;
            var task = Task.Run(() => 
            {
                foreach (var item in eventStream)
                {
                    if (item is LiveTailSessionUpdate liveTailSessionUpdate)
                    {
                        foreach (var sessionResult in liveTailSessionUpdate.SessionResults)
                        {
                            Console.WriteLine("Message : {0}", sessionResult.Message);
                        }
                    }
                    if (item is LiveTailSessionStart)
                    {
                        Console.WriteLine("Live Tail session started");
                    }
                    // On-stream exceptions are processed here
                    if (item is CloudWatchLogsEventStreamException)
                    {
                        Console.WriteLine($"ERROR: {item}");
                    }
                }
            });
            // Close the stream to stop the session after a timeout
            if (!task.Wait(TimeSpan.FromSeconds(10))){
                eventStream.Dispose();
                Console.WriteLine("End of line");
            }
```

```
            /* Method 2
            * 1). Add event handlers to each event variable
            * 2). Start processing the stream and wait for a timeout using AutoResetEvent
            */
            AutoResetEvent endEvent = new AutoResetEvent(false);
            var eventStream = response.ResponseStream;
            using (eventStream) // automatically disposes the stream to stop the session after execution finishes
            {
                eventStream.SessionStartReceived += (sender, e) =>
                {
                    Console.WriteLine("LiveTail session started");
                };
                eventStream.SessionUpdateReceived += (sender, e) =>
                {   
                    foreach (LiveTailSessionLogEvent logEvent in e.EventStreamEvent.SessionResults){
                        Console.WriteLine("Message: {0}", logEvent.Message);
                    }
                };
                // On-stream exceptions are captured here
                eventStream.ExceptionReceived += (sender, e) => 
                {
                    Console.WriteLine($"ERROR: {e.EventStreamException.Message}");
                };

                eventStream.StartProcessing();
                // Stream events for this amount of time.
                endEvent.WaitOne(TimeSpan.FromSeconds(10));
                Console.WriteLine("End of line");
            }
```
+  Untuk detail API, lihat [StartLiveTail](https://docs.aws.amazon.com/goto/DotNetSDKV3/logs-2014-03-28/StartLiveTail)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK untuk .NET
<a name="csharp_3_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Penyedia Identitas Amazon Cognito AWS SDK untuk .NET dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AdminGetUser`
<a name="cognito-identity-provider_AdminGetUser_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminGetUser`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Get the specified user from an Amazon Cognito user pool with administrator access.
    /// </summary>
    /// <param name="userName">The name of the user.</param>
    /// <param name="poolId">The Id of the Amazon Cognito user pool.</param>
    /// <returns>Async task.</returns>
    public async Task<UserStatusType> GetAdminUserAsync(string userName, string poolId)
    {
        AdminGetUserRequest userRequest = new AdminGetUserRequest
        {
            Username = userName,
            UserPoolId = poolId,
        };

        var response = await _cognitoService.AdminGetUserAsync(userRequest);

        Console.WriteLine($"User status {response.UserStatus}");
        return response.UserStatus;
    }
```
+  Untuk detail API, lihat [AdminGetUser](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/AdminGetUser)di *Referensi AWS SDK untuk .NET API*. 

### `AdminInitiateAuth`
<a name="cognito-identity-provider_AdminInitiateAuth_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminInitiateAuth`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Initiate an admin auth request.
    /// </summary>
    /// <param name="clientId">The client ID to use.</param>
    /// <param name="userPoolId">The ID of the user pool.</param>
    /// <param name="userName">The username to authenticate.</param>
    /// <param name="password">The user's password.</param>
    /// <returns>The session to use in challenge-response.</returns>
    public async Task<string> AdminInitiateAuthAsync(string clientId, string userPoolId, string userName, string password)
    {
        var authParameters = new Dictionary<string, string>();
        authParameters.Add("USERNAME", userName);
        authParameters.Add("PASSWORD", password);

        var request = new AdminInitiateAuthRequest
        {
            ClientId = clientId,
            UserPoolId = userPoolId,
            AuthParameters = authParameters,
            AuthFlow = AuthFlowType.ADMIN_USER_PASSWORD_AUTH,
        };

        var response = await _cognitoService.AdminInitiateAuthAsync(request);
        return response.Session;
    }
```
+  Untuk detail API, lihat [AdminInitiateAuth](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/AdminInitiateAuth)di *Referensi AWS SDK untuk .NET API*. 

### `AdminRespondToAuthChallenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminRespondToAuthChallenge`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Respond to an admin authentication challenge.
    /// </summary>
    /// <param name="userName">The name of the user.</param>
    /// <param name="clientId">The client ID.</param>
    /// <param name="mfaCode">The multi-factor authentication code.</param>
    /// <param name="session">The current application session.</param>
    /// <param name="clientId">The user pool ID.</param>
    /// <returns>The result of the authentication response.</returns>
    public async Task<AuthenticationResultType> AdminRespondToAuthChallengeAsync(
        string userName,
        string clientId,
        string mfaCode,
        string session,
        string userPoolId)
    {
        Console.WriteLine("SOFTWARE_TOKEN_MFA challenge is generated");

        var challengeResponses = new Dictionary<string, string>();
        challengeResponses.Add("USERNAME", userName);
        challengeResponses.Add("SOFTWARE_TOKEN_MFA_CODE", mfaCode);

        var respondToAuthChallengeRequest = new AdminRespondToAuthChallengeRequest
        {
            ChallengeName = ChallengeNameType.SOFTWARE_TOKEN_MFA,
            ClientId = clientId,
            ChallengeResponses = challengeResponses,
            Session = session,
            UserPoolId = userPoolId,
        };

        var response = await _cognitoService.AdminRespondToAuthChallengeAsync(respondToAuthChallengeRequest);
        Console.WriteLine($"Response to Authentication {response.AuthenticationResult.TokenType}");
        return response.AuthenticationResult;
    }
```
+  Untuk detail API, lihat [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/AdminRespondToAuthChallenge)di *Referensi AWS SDK untuk .NET API*. 

### `AssociateSoftwareToken`
<a name="cognito-identity-provider_AssociateSoftwareToken_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateSoftwareToken`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Get an MFA token to authenticate the user with the authenticator.
    /// </summary>
    /// <param name="session">The session name.</param>
    /// <returns>The session name.</returns>
    public async Task<string> AssociateSoftwareTokenAsync(string session)
    {
        var softwareTokenRequest = new AssociateSoftwareTokenRequest
        {
            Session = session,
        };

        var tokenResponse = await _cognitoService.AssociateSoftwareTokenAsync(softwareTokenRequest);
        var secretCode = tokenResponse.SecretCode;

        Console.WriteLine($"Use the following secret code to set up the authenticator: {secretCode}");

        return tokenResponse.Session;
    }
```
+  Untuk detail API, lihat [AssociateSoftwareToken](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/AssociateSoftwareToken)di *Referensi AWS SDK untuk .NET API*. 

### `ConfirmDevice`
<a name="cognito-identity-provider_ConfirmDevice_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmDevice`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Initiates and confirms tracking of the device.
    /// </summary>
    /// <param name="accessToken">The user's access token.</param>
    /// <param name="deviceKey">The key of the device from Amazon Cognito.</param>
    /// <param name="deviceName">The device name.</param>
    /// <returns></returns>
    public async Task<bool> ConfirmDeviceAsync(string accessToken, string deviceKey, string deviceName)
    {
        var request = new ConfirmDeviceRequest
        {
            AccessToken = accessToken,
            DeviceKey = deviceKey,
            DeviceName = deviceName
        };

        var response = await _cognitoService.ConfirmDeviceAsync(request);
        return response.UserConfirmationNecessary;
    }
```
+  Untuk detail API, lihat [ConfirmDevice](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/ConfirmDevice)di *Referensi AWS SDK untuk .NET API*. 

### `ConfirmSignUp`
<a name="cognito-identity-provider_ConfirmSignUp_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSignUp`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Confirm that the user has signed up.
    /// </summary>
    /// <param name="clientId">The Id of this application.</param>
    /// <param name="code">The confirmation code sent to the user.</param>
    /// <param name="userName">The username.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ConfirmSignupAsync(string clientId, string code, string userName)
    {
        var signUpRequest = new ConfirmSignUpRequest
        {
            ClientId = clientId,
            ConfirmationCode = code,
            Username = userName,
        };

        var response = await _cognitoService.ConfirmSignUpAsync(signUpRequest);
        if (response.HttpStatusCode == HttpStatusCode.OK)
        {
            Console.WriteLine($"{userName} was confirmed");
            return true;
        }
        return false;
    }
```
+  Untuk detail API, lihat [ConfirmSignUp](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/ConfirmSignUp)di *Referensi AWS SDK untuk .NET API*. 

### `InitiateAuth`
<a name="cognito-identity-provider_InitiateAuth_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InitiateAuth`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Initiate authorization.
    /// </summary>
    /// <param name="clientId">The client Id of the application.</param>
    /// <param name="userName">The name of the user who is authenticating.</param>
    /// <param name="password">The password for the user who is authenticating.</param>
    /// <returns>The response from the initiate auth request.</returns>
    public async Task<InitiateAuthResponse> InitiateAuthAsync(string clientId, string userName, string password)
    {
        var authParameters = new Dictionary<string, string>();
        authParameters.Add("USERNAME", userName);
        authParameters.Add("PASSWORD", password);

        var authRequest = new InitiateAuthRequest

        {
            ClientId = clientId,
            AuthParameters = authParameters,
            AuthFlow = AuthFlowType.USER_PASSWORD_AUTH,
        };

        var response = await _cognitoService.InitiateAuthAsync(authRequest);
        Console.WriteLine($"Result Challenge is : {response.ChallengeName}");

        return response;
    }
```
+  Untuk detail API, lihat [InitiateAuth](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/InitiateAuth)di *Referensi AWS SDK untuk .NET API*. 

### `ListUsers`
<a name="cognito-identity-provider_ListUsers_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Get a list of users for the Amazon Cognito user pool.
    /// </summary>
    /// <param name="userPoolId">The user pool ID.</param>
    /// <returns>A list of users.</returns>
    public async Task<List<UserType>> ListUsersAsync(string userPoolId)
    {
        var request = new ListUsersRequest
        {
            UserPoolId = userPoolId
        };

        var users = new List<UserType>();

        var usersPaginator = _cognitoService.Paginators.ListUsers(request);
        await foreach (var response in usersPaginator.Responses)
        {
            users.AddRange(response.Users);
        }

        return users;
    }
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/ListUsers)di *Referensi AWS SDK untuk .NET API*. 

### `ResendConfirmationCode`
<a name="cognito-identity-provider_ResendConfirmationCode_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendConfirmationCode`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Send a new confirmation code to a user.
    /// </summary>
    /// <param name="clientId">The Id of the client application.</param>
    /// <param name="userName">The username of user who will receive the code.</param>
    /// <returns>The delivery details.</returns>
    public async Task<CodeDeliveryDetailsType> ResendConfirmationCodeAsync(string clientId, string userName)
    {
        var codeRequest = new ResendConfirmationCodeRequest
        {
            ClientId = clientId,
            Username = userName,
        };

        var response = await _cognitoService.ResendConfirmationCodeAsync(codeRequest);

        Console.WriteLine($"Method of delivery is {response.CodeDeliveryDetails.DeliveryMedium}");

        return response.CodeDeliveryDetails;
    }
```
+  Untuk detail API, lihat [ResendConfirmationCode](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/ResendConfirmationCode)di *Referensi AWS SDK untuk .NET API*. 

### `SignUp`
<a name="cognito-identity-provider_SignUp_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SignUp`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Sign up a new user.
    /// </summary>
    /// <param name="clientId">The client Id of the application.</param>
    /// <param name="userName">The username to use.</param>
    /// <param name="password">The user's password.</param>
    /// <param name="email">The email address of the user.</param>
    /// <returns>A Boolean value indicating whether the user was confirmed.</returns>
    public async Task<bool> SignUpAsync(string clientId, string userName, string password, string email)
    {
        var userAttrs = new AttributeType
        {
            Name = "email",
            Value = email,
        };

        var userAttrsList = new List<AttributeType>();

        userAttrsList.Add(userAttrs);

        var signUpRequest = new SignUpRequest
        {
            UserAttributes = userAttrsList,
            Username = userName,
            ClientId = clientId,
            Password = password
        };

        var response = await _cognitoService.SignUpAsync(signUpRequest);
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [SignUp](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/SignUp)di *Referensi AWS SDK untuk .NET API*. 

### `VerifySoftwareToken`
<a name="cognito-identity-provider_VerifySoftwareToken_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifySoftwareToken`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
    /// <summary>
    /// Verify the TOTP and register for MFA.
    /// </summary>
    /// <param name="session">The name of the session.</param>
    /// <param name="code">The MFA code.</param>
    /// <returns>The status of the software token.</returns>
    public async Task<VerifySoftwareTokenResponseType> VerifySoftwareTokenAsync(string session, string code)
    {
        var tokenRequest = new VerifySoftwareTokenRequest
        {
            UserCode = code,
            Session = session,
        };

        var verifyResponse = await _cognitoService.VerifySoftwareTokenAsync(tokenRequest);

        return verifyResponse.Status;
    }
```
+  Untuk detail API, lihat [VerifySoftwareToken](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/VerifySoftwareToken)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Mendaftar pengguna dengan kumpulan pengguna yang membutuhkan MFA
<a name="cognito-identity-provider_Scenario_SignUpUserWithMfa_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar dan konfirmasikan pengguna dengan nama pengguna, kata sandi, dan alamat email.
+ Siapkan otentikasi multi-faktor dengan mengaitkan aplikasi MFA dengan pengguna.
+ Masuk dengan menggunakan kata sandi dan kode MFA.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Cognito#code-examples). 

```
namespace CognitoBasics;

public class CognitoBasics
{
    private static ILogger logger = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon Cognito.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonCognitoIdentityProvider>()
            .AddTransient<CognitoWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<CognitoBasics>();

        var configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally load local settings.
            .Build();

        var cognitoWrapper = host.Services.GetRequiredService<CognitoWrapper>();

        Console.WriteLine(new string('-', 80));
        UiMethods.DisplayOverview();
        Console.WriteLine(new string('-', 80));

        // clientId - The app client Id value that you get from the AWS CDK script.
        var clientId = configuration["ClientId"]; // "*** REPLACE WITH CLIENT ID VALUE FROM CDK SCRIPT";

        // poolId - The pool Id that you get from the AWS CDK script.
        var poolId = configuration["PoolId"]!; // "*** REPLACE WITH POOL ID VALUE FROM CDK SCRIPT";
        var userName = configuration["UserName"];
        var password = configuration["Password"];
        var email = configuration["Email"];

        // If the username wasn't set in the configuration file,
        // get it from the user now.
        if (userName is null)
        {
            do
            {
                Console.Write("Username: ");
                userName = Console.ReadLine();
            }
            while (string.IsNullOrEmpty(userName));
        }
        Console.WriteLine($"\nUsername: {userName}");

        // If the password wasn't set in the configuration file,
        // get it from the user now.
        if (password is null)
        {
            do
            {
                Console.Write("Password: ");
                password = Console.ReadLine();
            }
            while (string.IsNullOrEmpty(password));
        }

        // If the email address wasn't set in the configuration file,
        // get it from the user now.
        if (email is null)
        {
            do
            {
                Console.Write("Email: ");
                email = Console.ReadLine();
            } while (string.IsNullOrEmpty(email));
        }

        // Now sign up the user.
        Console.WriteLine($"\nSigning up {userName} with email address: {email}");
        await cognitoWrapper.SignUpAsync(clientId, userName, password, email);

        // Add the user to the user pool.
        Console.WriteLine($"Adding {userName} to the user pool");
        await cognitoWrapper.GetAdminUserAsync(userName, poolId);

        UiMethods.DisplayTitle("Get confirmation code");
        Console.WriteLine($"Conformation code sent to {userName}.");
        Console.Write("Would you like to send a new code? (Y/N) ");
        var answer = Console.ReadLine();

        if (answer!.ToLower() == "y")
        {
            await cognitoWrapper.ResendConfirmationCodeAsync(clientId, userName);
            Console.WriteLine("Sending a new confirmation code");
        }

        Console.Write("Enter confirmation code (from Email): ");
        var code = Console.ReadLine();

        await cognitoWrapper.ConfirmSignupAsync(clientId, code, userName);

        UiMethods.DisplayTitle("Checking status");
        Console.WriteLine($"Rechecking the status of {userName} in the user pool");
        await cognitoWrapper.GetAdminUserAsync(userName, poolId);

        Console.WriteLine($"Setting up authenticator for {userName} in the user pool");
        var setupResponse = await cognitoWrapper.InitiateAuthAsync(clientId, userName, password);

        var setupSession = await cognitoWrapper.AssociateSoftwareTokenAsync(setupResponse.Session);
        Console.Write("Enter the 6-digit code displayed in Google Authenticator: ");
        var setupCode = Console.ReadLine();

        var setupResult = await cognitoWrapper.VerifySoftwareTokenAsync(setupSession, setupCode);
        Console.WriteLine($"Setup status: {setupResult}");

        Console.WriteLine($"Now logging in {userName} in the user pool");
        var authSession = await cognitoWrapper.AdminInitiateAuthAsync(clientId, poolId, userName, password);

        Console.Write("Enter a new 6-digit code displayed in Google Authenticator: ");
        var authCode = Console.ReadLine();

        var authResult = await cognitoWrapper.AdminRespondToAuthChallengeAsync(userName, clientId, authCode, authSession, poolId);
        Console.WriteLine($"Authenticated and received access token: {authResult.AccessToken}");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Cognito scenario is complete.");
        Console.WriteLine(new string('-', 80));
    }
}


using System.Net;

namespace CognitoActions;

/// <summary>
/// Methods to perform Amazon Cognito Identity Provider actions.
/// </summary>
public class CognitoWrapper
{
    private readonly IAmazonCognitoIdentityProvider _cognitoService;

    /// <summary>
    /// Constructor for the wrapper class containing Amazon Cognito actions.
    /// </summary>
    /// <param name="cognitoService">The Amazon Cognito client object.</param>
    public CognitoWrapper(IAmazonCognitoIdentityProvider cognitoService)
    {
        _cognitoService = cognitoService;
    }

    /// <summary>
    /// List the Amazon Cognito user pools for an account.
    /// </summary>
    /// <returns>A list of UserPoolDescriptionType objects.</returns>
    public async Task<List<UserPoolDescriptionType>> ListUserPoolsAsync()
    {
        var userPools = new List<UserPoolDescriptionType>();

        var userPoolsPaginator = _cognitoService.Paginators.ListUserPools(new ListUserPoolsRequest());

        await foreach (var response in userPoolsPaginator.Responses)
        {
            userPools.AddRange(response.UserPools);
        }

        return userPools;
    }


    /// <summary>
    /// Get a list of users for the Amazon Cognito user pool.
    /// </summary>
    /// <param name="userPoolId">The user pool ID.</param>
    /// <returns>A list of users.</returns>
    public async Task<List<UserType>> ListUsersAsync(string userPoolId)
    {
        var request = new ListUsersRequest
        {
            UserPoolId = userPoolId
        };

        var users = new List<UserType>();

        var usersPaginator = _cognitoService.Paginators.ListUsers(request);
        await foreach (var response in usersPaginator.Responses)
        {
            users.AddRange(response.Users);
        }

        return users;
    }


    /// <summary>
    /// Respond to an admin authentication challenge.
    /// </summary>
    /// <param name="userName">The name of the user.</param>
    /// <param name="clientId">The client ID.</param>
    /// <param name="mfaCode">The multi-factor authentication code.</param>
    /// <param name="session">The current application session.</param>
    /// <param name="clientId">The user pool ID.</param>
    /// <returns>The result of the authentication response.</returns>
    public async Task<AuthenticationResultType> AdminRespondToAuthChallengeAsync(
        string userName,
        string clientId,
        string mfaCode,
        string session,
        string userPoolId)
    {
        Console.WriteLine("SOFTWARE_TOKEN_MFA challenge is generated");

        var challengeResponses = new Dictionary<string, string>();
        challengeResponses.Add("USERNAME", userName);
        challengeResponses.Add("SOFTWARE_TOKEN_MFA_CODE", mfaCode);

        var respondToAuthChallengeRequest = new AdminRespondToAuthChallengeRequest
        {
            ChallengeName = ChallengeNameType.SOFTWARE_TOKEN_MFA,
            ClientId = clientId,
            ChallengeResponses = challengeResponses,
            Session = session,
            UserPoolId = userPoolId,
        };

        var response = await _cognitoService.AdminRespondToAuthChallengeAsync(respondToAuthChallengeRequest);
        Console.WriteLine($"Response to Authentication {response.AuthenticationResult.TokenType}");
        return response.AuthenticationResult;
    }


    /// <summary>
    /// Verify the TOTP and register for MFA.
    /// </summary>
    /// <param name="session">The name of the session.</param>
    /// <param name="code">The MFA code.</param>
    /// <returns>The status of the software token.</returns>
    public async Task<VerifySoftwareTokenResponseType> VerifySoftwareTokenAsync(string session, string code)
    {
        var tokenRequest = new VerifySoftwareTokenRequest
        {
            UserCode = code,
            Session = session,
        };

        var verifyResponse = await _cognitoService.VerifySoftwareTokenAsync(tokenRequest);

        return verifyResponse.Status;
    }


    /// <summary>
    /// Get an MFA token to authenticate the user with the authenticator.
    /// </summary>
    /// <param name="session">The session name.</param>
    /// <returns>The session name.</returns>
    public async Task<string> AssociateSoftwareTokenAsync(string session)
    {
        var softwareTokenRequest = new AssociateSoftwareTokenRequest
        {
            Session = session,
        };

        var tokenResponse = await _cognitoService.AssociateSoftwareTokenAsync(softwareTokenRequest);
        var secretCode = tokenResponse.SecretCode;

        Console.WriteLine($"Use the following secret code to set up the authenticator: {secretCode}");

        return tokenResponse.Session;
    }


    /// <summary>
    /// Initiate an admin auth request.
    /// </summary>
    /// <param name="clientId">The client ID to use.</param>
    /// <param name="userPoolId">The ID of the user pool.</param>
    /// <param name="userName">The username to authenticate.</param>
    /// <param name="password">The user's password.</param>
    /// <returns>The session to use in challenge-response.</returns>
    public async Task<string> AdminInitiateAuthAsync(string clientId, string userPoolId, string userName, string password)
    {
        var authParameters = new Dictionary<string, string>();
        authParameters.Add("USERNAME", userName);
        authParameters.Add("PASSWORD", password);

        var request = new AdminInitiateAuthRequest
        {
            ClientId = clientId,
            UserPoolId = userPoolId,
            AuthParameters = authParameters,
            AuthFlow = AuthFlowType.ADMIN_USER_PASSWORD_AUTH,
        };

        var response = await _cognitoService.AdminInitiateAuthAsync(request);
        return response.Session;
    }

    /// <summary>
    /// Initiate authorization.
    /// </summary>
    /// <param name="clientId">The client Id of the application.</param>
    /// <param name="userName">The name of the user who is authenticating.</param>
    /// <param name="password">The password for the user who is authenticating.</param>
    /// <returns>The response from the initiate auth request.</returns>
    public async Task<InitiateAuthResponse> InitiateAuthAsync(string clientId, string userName, string password)
    {
        var authParameters = new Dictionary<string, string>();
        authParameters.Add("USERNAME", userName);
        authParameters.Add("PASSWORD", password);

        var authRequest = new InitiateAuthRequest

        {
            ClientId = clientId,
            AuthParameters = authParameters,
            AuthFlow = AuthFlowType.USER_PASSWORD_AUTH,
        };

        var response = await _cognitoService.InitiateAuthAsync(authRequest);
        Console.WriteLine($"Result Challenge is : {response.ChallengeName}");

        return response;
    }

    /// <summary>
    /// Confirm that the user has signed up.
    /// </summary>
    /// <param name="clientId">The Id of this application.</param>
    /// <param name="code">The confirmation code sent to the user.</param>
    /// <param name="userName">The username.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ConfirmSignupAsync(string clientId, string code, string userName)
    {
        var signUpRequest = new ConfirmSignUpRequest
        {
            ClientId = clientId,
            ConfirmationCode = code,
            Username = userName,
        };

        var response = await _cognitoService.ConfirmSignUpAsync(signUpRequest);
        if (response.HttpStatusCode == HttpStatusCode.OK)
        {
            Console.WriteLine($"{userName} was confirmed");
            return true;
        }
        return false;
    }


    /// <summary>
    /// Initiates and confirms tracking of the device.
    /// </summary>
    /// <param name="accessToken">The user's access token.</param>
    /// <param name="deviceKey">The key of the device from Amazon Cognito.</param>
    /// <param name="deviceName">The device name.</param>
    /// <returns></returns>
    public async Task<bool> ConfirmDeviceAsync(string accessToken, string deviceKey, string deviceName)
    {
        var request = new ConfirmDeviceRequest
        {
            AccessToken = accessToken,
            DeviceKey = deviceKey,
            DeviceName = deviceName
        };

        var response = await _cognitoService.ConfirmDeviceAsync(request);
        return response.UserConfirmationNecessary;
    }


    /// <summary>
    /// Send a new confirmation code to a user.
    /// </summary>
    /// <param name="clientId">The Id of the client application.</param>
    /// <param name="userName">The username of user who will receive the code.</param>
    /// <returns>The delivery details.</returns>
    public async Task<CodeDeliveryDetailsType> ResendConfirmationCodeAsync(string clientId, string userName)
    {
        var codeRequest = new ResendConfirmationCodeRequest
        {
            ClientId = clientId,
            Username = userName,
        };

        var response = await _cognitoService.ResendConfirmationCodeAsync(codeRequest);

        Console.WriteLine($"Method of delivery is {response.CodeDeliveryDetails.DeliveryMedium}");

        return response.CodeDeliveryDetails;
    }


    /// <summary>
    /// Get the specified user from an Amazon Cognito user pool with administrator access.
    /// </summary>
    /// <param name="userName">The name of the user.</param>
    /// <param name="poolId">The Id of the Amazon Cognito user pool.</param>
    /// <returns>Async task.</returns>
    public async Task<UserStatusType> GetAdminUserAsync(string userName, string poolId)
    {
        AdminGetUserRequest userRequest = new AdminGetUserRequest
        {
            Username = userName,
            UserPoolId = poolId,
        };

        var response = await _cognitoService.AdminGetUserAsync(userRequest);

        Console.WriteLine($"User status {response.UserStatus}");
        return response.UserStatus;
    }


    /// <summary>
    /// Sign up a new user.
    /// </summary>
    /// <param name="clientId">The client Id of the application.</param>
    /// <param name="userName">The username to use.</param>
    /// <param name="password">The user's password.</param>
    /// <param name="email">The email address of the user.</param>
    /// <returns>A Boolean value indicating whether the user was confirmed.</returns>
    public async Task<bool> SignUpAsync(string clientId, string userName, string password, string email)
    {
        var userAttrs = new AttributeType
        {
            Name = "email",
            Value = email,
        };

        var userAttrsList = new List<AttributeType>();

        userAttrsList.Add(userAttrs);

        var signUpRequest = new SignUpRequest
        {
            UserAttributes = userAttrsList,
            Username = userName,
            ClientId = clientId,
            Password = password
        };

        var response = await _cognitoService.SignUpAsync(signUpRequest);
        return response.HttpStatusCode == HttpStatusCode.OK;
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AdminGetUser](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/AdminGetUser)
  + [AdminInitiateAuth](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/AdminInitiateAuth)
  + [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/AdminRespondToAuthChallenge)
  + [AssociateSoftwareToken](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/AssociateSoftwareToken)
  + [ConfirmDevice](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/ConfirmDevice)
  + [ConfirmSignUp](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/ConfirmSignUp)
  + [InitiateAuth](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/InitiateAuth)
  + [ListUsers](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/ListUsers)
  + [ResendConfirmationCode](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/ResendConfirmationCode)
  + [RespondToAuthChallenge](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/RespondToAuthChallenge)
  + [SignUp](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/SignUp)
  + [VerifySoftwareToken](https://docs.aws.amazon.com/goto/DotNetSDKV3/cognito-idp-2016-04-18/VerifySoftwareToken)

# Amazon Comprehend contoh menggunakan SDK untuk .NET
<a name="csharp_3_comprehend_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon AWS SDK untuk .NET Comprehend.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DetectDominantLanguage`
<a name="comprehend_DetectDominantLanguage_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectDominantLanguage`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Comprehend/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Comprehend;
    using Amazon.Comprehend.Model;

    /// <summary>
    /// This example calls the Amazon Comprehend service to determine the
    /// dominant language.
    /// </summary>
    public static class DetectDominantLanguage
    {
        /// <summary>
        /// Calls Amazon Comprehend to determine the dominant language used in
        /// the sample text.
        /// </summary>
        public static async Task Main()
        {
            string text = "It is raining today in Seattle.";

            var comprehendClient = new AmazonComprehendClient(Amazon.RegionEndpoint.USWest2);

            Console.WriteLine("Calling DetectDominantLanguage\n");
            var detectDominantLanguageRequest = new DetectDominantLanguageRequest()
            {
                Text = text,
            };

            var detectDominantLanguageResponse = await comprehendClient.DetectDominantLanguageAsync(detectDominantLanguageRequest);
            foreach (var dl in detectDominantLanguageResponse.Languages)
            {
                Console.WriteLine($"Language Code: {dl.LanguageCode}, Score: {dl.Score}");
            }

            Console.WriteLine("Done");
        }
    }
```
+  Untuk detail API, lihat [DetectDominantLanguage](https://docs.aws.amazon.com/goto/DotNetSDKV3/comprehend-2017-11-27/DetectDominantLanguage)di *Referensi AWS SDK untuk .NET API*. 

### `DetectEntities`
<a name="comprehend_DetectEntities_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectEntities`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Comprehend/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Comprehend;
    using Amazon.Comprehend.Model;

    /// <summary>
    /// This example shows how to use the AmazonComprehend service detect any
    /// entities in submitted text.
    /// </summary>
    public static class DetectEntities
    {
        /// <summary>
        /// The main method calls the DetectEntitiesAsync method to find any
        /// entities in the sample code.
        /// </summary>
        public static async Task Main()
        {
            string text = "It is raining today in Seattle";

            var comprehendClient = new AmazonComprehendClient();

            Console.WriteLine("Calling DetectEntities\n");
            var detectEntitiesRequest = new DetectEntitiesRequest()
            {
                Text = text,
                LanguageCode = "en",
            };
            var detectEntitiesResponse = await comprehendClient.DetectEntitiesAsync(detectEntitiesRequest);

            foreach (var e in detectEntitiesResponse.Entities)
            {
                Console.WriteLine($"Text: {e.Text}, Type: {e.Type}, Score: {e.Score}, BeginOffset: {e.BeginOffset}, EndOffset: {e.EndOffset}");
            }

            Console.WriteLine("Done");
        }
    }
```
+  Untuk detail API, lihat [DetectEntities](https://docs.aws.amazon.com/goto/DotNetSDKV3/comprehend-2017-11-27/DetectEntities)di *Referensi AWS SDK untuk .NET API*. 

### `DetectKeyPhrases`
<a name="comprehend_DetectKeyPhrases_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectKeyPhrases`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Comprehend/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Comprehend;
    using Amazon.Comprehend.Model;

    /// <summary>
    /// This example shows how to use the Amazon Comprehend service to
    /// search text for key phrases.
    /// </summary>
    public static class DetectKeyPhrase
    {
        /// <summary>
        /// This method calls the Amazon Comprehend method DetectKeyPhrasesAsync
        /// to detect any key phrases in the sample text.
        /// </summary>
        public static async Task Main()
        {
            string text = "It is raining today in Seattle";

            var comprehendClient = new AmazonComprehendClient(Amazon.RegionEndpoint.USWest2);

            // Call DetectKeyPhrases API
            Console.WriteLine("Calling DetectKeyPhrases");
            var detectKeyPhrasesRequest = new DetectKeyPhrasesRequest()
            {
                Text = text,
                LanguageCode = "en",
            };
            var detectKeyPhrasesResponse = await comprehendClient.DetectKeyPhrasesAsync(detectKeyPhrasesRequest);
            foreach (var kp in detectKeyPhrasesResponse.KeyPhrases)
            {
                Console.WriteLine($"Text: {kp.Text}, Score: {kp.Score}, BeginOffset: {kp.BeginOffset}, EndOffset: {kp.EndOffset}");
            }

            Console.WriteLine("Done");
        }
    }
```
+  Untuk detail API, lihat [DetectKeyPhrases](https://docs.aws.amazon.com/goto/DotNetSDKV3/comprehend-2017-11-27/DetectKeyPhrases)di *Referensi AWS SDK untuk .NET API*. 

### `DetectPiiEntities`
<a name="comprehend_DetectPiiEntities_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectPiiEntities`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Comprehend/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Comprehend;
    using Amazon.Comprehend.Model;

    /// <summary>
    /// This example shows how to use the Amazon Comprehend service to find
    /// personally identifiable information (PII) within text submitted to the
    /// DetectPiiEntitiesAsync method.
    /// </summary>
    public class DetectingPII
    {
        /// <summary>
        /// This method calls the DetectPiiEntitiesAsync method to locate any
        /// personally dientifiable information within the supplied text.
        /// </summary>
        public static async Task Main()
        {
            var comprehendClient = new AmazonComprehendClient();
            var text = @"Hello Paul Santos. The latest statement for your
                        credit card account 1111-0000-1111-0000 was
                        mailed to 123 Any Street, Seattle, WA 98109.";

            var request = new DetectPiiEntitiesRequest
            {
                Text = text,
                LanguageCode = "EN",
            };

            var response = await comprehendClient.DetectPiiEntitiesAsync(request);

            if (response.Entities.Count > 0)
            {
                foreach (var entity in response.Entities)
                {
                    var entityValue = text.Substring(entity.BeginOffset, entity.EndOffset - entity.BeginOffset);
                    Console.WriteLine($"{entity.Type}: {entityValue}");
                }
            }
        }
    }
```
+  Untuk detail API, lihat [DetectPiiEntities](https://docs.aws.amazon.com/goto/DotNetSDKV3/comprehend-2017-11-27/DetectPiiEntities)di *Referensi AWS SDK untuk .NET API*. 

### `DetectSentiment`
<a name="comprehend_DetectSentiment_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectSentiment`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Comprehend/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Comprehend;
    using Amazon.Comprehend.Model;

    /// <summary>
    /// This example shows how to detect the overall sentiment of the supplied
    /// text using the Amazon Comprehend service.
    /// </summary>
    public static class DetectSentiment
    {
        /// <summary>
        /// This method calls the DetetectSentimentAsync method to analyze the
        /// supplied text and determine the overal sentiment.
        /// </summary>
        public static async Task Main()
        {
            string text = "It is raining today in Seattle";

            var comprehendClient = new AmazonComprehendClient(Amazon.RegionEndpoint.USWest2);

            // Call DetectKeyPhrases API
            Console.WriteLine("Calling DetectSentiment");
            var detectSentimentRequest = new DetectSentimentRequest()
            {
                Text = text,
                LanguageCode = "en",
            };
            var detectSentimentResponse = await comprehendClient.DetectSentimentAsync(detectSentimentRequest);
            Console.WriteLine($"Sentiment: {detectSentimentResponse.Sentiment}");
            Console.WriteLine("Done");
        }
    }
```
+  Untuk detail API, lihat [DetectSentiment](https://docs.aws.amazon.com/goto/DotNetSDKV3/comprehend-2017-11-27/DetectSentiment)di *Referensi AWS SDK untuk .NET API*. 

### `DetectSyntax`
<a name="comprehend_DetectSyntax_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectSyntax`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Comprehend/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Comprehend;
    using Amazon.Comprehend.Model;

    /// <summary>
    /// This example shows how to use Amazon Comprehend to detect syntax
    /// elements by calling the DetectSyntaxAsync method.
    /// </summary>
    public class DetectingSyntax
    {
        /// <summary>
        /// This method calls DetectSynaxAsync to identify the syntax elements
        /// in the sample text.
        /// </summary>
        public static async Task Main()
        {
            string text = "It is raining today in Seattle";

            var comprehendClient = new AmazonComprehendClient();

            // Call DetectSyntax API
            Console.WriteLine("Calling DetectSyntaxAsync\n");
            var detectSyntaxRequest = new DetectSyntaxRequest()
            {
                Text = text,
                LanguageCode = "en",
            };
            DetectSyntaxResponse detectSyntaxResponse = await comprehendClient.DetectSyntaxAsync(detectSyntaxRequest);
            foreach (SyntaxToken s in detectSyntaxResponse.SyntaxTokens)
            {
                Console.WriteLine($"Text: {s.Text}, PartOfSpeech: {s.PartOfSpeech.Tag}, BeginOffset: {s.BeginOffset}, EndOffset: {s.EndOffset}");
            }

            Console.WriteLine("Done");
        }
    }
```
+  Untuk detail API, lihat [DetectSyntax](https://docs.aws.amazon.com/goto/DotNetSDKV3/comprehend-2017-11-27/DetectSyntax)di *Referensi AWS SDK untuk .NET API*. 

### `StartTopicsDetectionJob`
<a name="comprehend_StartTopicsDetectionJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTopicsDetectionJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Comprehend/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Comprehend;
    using Amazon.Comprehend.Model;

    /// <summary>
    /// This example scans the documents in an Amazon Simple Storage Service
    /// (Amazon S3) bucket and analyzes it for topics. The results are stored
    /// in another bucket and then the resulting job properties are displayed
    /// on the screen. This example was created using the AWS SDK for .NEt
    /// version 3.7 and .NET Core version 5.0.
    /// </summary>
    public static class TopicModeling
    {
        /// <summary>
        /// This methos calls a topic detection job by calling the Amazon
        /// Comprehend StartTopicsDetectionJobRequest.
        /// </summary>
        public static async Task Main()
        {
            var comprehendClient = new AmazonComprehendClient();

            string inputS3Uri = "s3://input bucket/input path";
            InputFormat inputDocFormat = InputFormat.ONE_DOC_PER_FILE;
            string outputS3Uri = "s3://output bucket/output path";
            string dataAccessRoleArn = "arn:aws:iam::account ID:role/data access role";
            int numberOfTopics = 10;

            var startTopicsDetectionJobRequest = new StartTopicsDetectionJobRequest()
            {
                InputDataConfig = new InputDataConfig()
                {
                    S3Uri = inputS3Uri,
                    InputFormat = inputDocFormat,
                },
                OutputDataConfig = new OutputDataConfig()
                {
                    S3Uri = outputS3Uri,
                },
                DataAccessRoleArn = dataAccessRoleArn,
                NumberOfTopics = numberOfTopics,
            };

            var startTopicsDetectionJobResponse = await comprehendClient.StartTopicsDetectionJobAsync(startTopicsDetectionJobRequest);

            var jobId = startTopicsDetectionJobResponse.JobId;
            Console.WriteLine("JobId: " + jobId);

            var describeTopicsDetectionJobRequest = new DescribeTopicsDetectionJobRequest()
            {
                JobId = jobId,
            };

            var describeTopicsDetectionJobResponse = await comprehendClient.DescribeTopicsDetectionJobAsync(describeTopicsDetectionJobRequest);
            PrintJobProperties(describeTopicsDetectionJobResponse.TopicsDetectionJobProperties);

            var listTopicsDetectionJobsResponse = await comprehendClient.ListTopicsDetectionJobsAsync(new ListTopicsDetectionJobsRequest());
            foreach (var props in listTopicsDetectionJobsResponse.TopicsDetectionJobPropertiesList)
            {
                PrintJobProperties(props);
            }
        }

        /// <summary>
        /// This method is a helper method that displays the job properties
        /// from the call to StartTopicsDetectionJobRequest.
        /// </summary>
        /// <param name="props">A list of properties from the call to
        /// StartTopicsDetectionJobRequest.</param>
        private static void PrintJobProperties(TopicsDetectionJobProperties props)
        {
            Console.WriteLine($"JobId: {props.JobId}, JobName: {props.JobName}, JobStatus: {props.JobStatus}");
            Console.WriteLine($"NumberOfTopics: {props.NumberOfTopics}\nInputS3Uri: {props.InputDataConfig.S3Uri}");
            Console.WriteLine($"InputFormat: {props.InputDataConfig.InputFormat}, OutputS3Uri: {props.OutputDataConfig.S3Uri}");
        }
    }
```
+  Untuk detail API, lihat [StartTopicsDetectionJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/comprehend-2017-11-27/StartTopicsDetectionJob)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk .NET**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/FeedbackSentimentAnalyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Amazon DocumentDB contoh menggunakan SDK untuk .NET
<a name="csharp_3_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Amazon DocumentDB. AWS SDK untuk .NET 

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan.NET.  

```
using Amazon.Lambda.Core;
using System.Text.Json;
using System;
using System.Collections.Generic;
using System.Text.Json.Serialization;
//Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace LambdaDocDb;

public class Function
{
    
     /// <summary>
    /// Lambda function entry point to process Amazon DocumentDB events.
    /// </summary>
    /// <param name="event">The Amazon DocumentDB event.</param>
    /// <param name="context">The Lambda context object.</param>
    /// <returns>A string to indicate successful processing.</returns>
    public string FunctionHandler(Event evnt, ILambdaContext context)
    {
        
        foreach (var record in evnt.Events)
        {
            ProcessDocumentDBEvent(record, context);
        }

        return "OK";
    }

     private void ProcessDocumentDBEvent(DocumentDBEventRecord record, ILambdaContext context)
    {
        
        var eventData = record.Event;
        var operationType = eventData.OperationType;
        var databaseName = eventData.Ns.Db;
        var collectionName = eventData.Ns.Coll;
        var fullDocument = JsonSerializer.Serialize(eventData.FullDocument, new JsonSerializerOptions { WriteIndented = true });

        context.Logger.LogLine($"Operation type: {operationType}");
        context.Logger.LogLine($"Database: {databaseName}");
        context.Logger.LogLine($"Collection: {collectionName}");
        context.Logger.LogLine($"Full document:\n{fullDocument}");
    }



    public class Event
    {
        [JsonPropertyName("eventSourceArn")]
        public string EventSourceArn { get; set; }

        [JsonPropertyName("events")]
        public List<DocumentDBEventRecord> Events { get; set; }

        [JsonPropertyName("eventSource")]
        public string EventSource { get; set; }
    }

    public class DocumentDBEventRecord
    {
        [JsonPropertyName("event")]
        public EventData Event { get; set; }
    }

    public class EventData
    {
        [JsonPropertyName("_id")]
        public IdData Id { get; set; }

        [JsonPropertyName("clusterTime")]
        public ClusterTime ClusterTime { get; set; }

        [JsonPropertyName("documentKey")]
        public DocumentKey DocumentKey { get; set; }

        [JsonPropertyName("fullDocument")]
        public Dictionary<string, object> FullDocument { get; set; }

        [JsonPropertyName("ns")]
        public Namespace Ns { get; set; }

        [JsonPropertyName("operationType")]
        public string OperationType { get; set; }
    }

    public class IdData
    {
        [JsonPropertyName("_data")]
        public string Data { get; set; }
    }

    public class ClusterTime
    {
        [JsonPropertyName("$timestamp")]
        public Timestamp Timestamp { get; set; }
    }

    public class Timestamp
    {
        [JsonPropertyName("t")]
        public long T { get; set; }

        [JsonPropertyName("i")]
        public int I { get; set; }
    }

    public class DocumentKey
    {
        [JsonPropertyName("_id")]
        public Id Id { get; set; }
    }

    public class Id
    {
        [JsonPropertyName("$oid")]
        public string Oid { get; set; }
    }

    public class Namespace
    {
        [JsonPropertyName("db")]
        public string Db { get; set; }

        [JsonPropertyName("coll")]
        public string Coll { get; set; }
    }
}
```

# Contoh DynamoDB menggunakan SDK untuk .NET
<a name="csharp_3_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with DynamoDB.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Tindakan
<a name="actions"></a>

### `BatchExecuteStatement`
<a name="dynamodb_BatchExecuteStatement_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchExecuteStatement`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb#code-examples). 
Gunakan batch pernyataan INSERT untuk menambahkan item.  

```
        /// <summary>
        /// Inserts movies imported from a JSON file into the movie table by
        /// using an Amazon DynamoDB PartiQL INSERT statement.
        /// </summary>
        /// <param name="tableName">The name of the table into which the movie
        /// information will be inserted.</param>
        /// <param name="movieFileName">The name of the JSON file that contains
        /// movie information.</param>
        /// <returns>A Boolean value that indicates the success or failure of
        /// the insert operation.</returns>
        public static async Task<bool> InsertMovies(string tableName, string movieFileName)
        {
            // Get the list of movies from the JSON file.
            var movies = ImportMovies(movieFileName);

            var success = false;

            if (movies is not null)
            {
                // Insert the movies in a batch using PartiQL. Because the
                // batch can contain a maximum of 25 items, insert 25 movies
                // at a time.
                string insertBatch = $"INSERT INTO {tableName} VALUE {{'title': ?, 'year': ?}}";
                var statements = new List<BatchStatementRequest>();

                try
                {
                    for (var indexOffset = 0; indexOffset < 250; indexOffset += 25)
                    {
                        for (var i = indexOffset; i < indexOffset + 25; i++)
                        {
                            statements.Add(new BatchStatementRequest
                            {
                                Statement = insertBatch,
                                Parameters = new List<AttributeValue>
                                {
                                    new AttributeValue { S = movies[i].Title },
                                    new AttributeValue { N = movies[i].Year.ToString() },
                                },
                            });
                        }

                        var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
                        {
                            Statements = statements,
                        });

                        // Wait between batches for movies to be successfully added.
                        System.Threading.Thread.Sleep(3000);

                        success = response.HttpStatusCode == System.Net.HttpStatusCode.OK;

                        // Clear the list of statements for the next batch.
                        statements.Clear();
                    }
                }
                catch (AmazonDynamoDBException ex)
                {
                    Console.WriteLine(ex.Message);
                }
            }

            return success;
        }

        /// <summary>
        /// Loads the contents of a JSON file into a list of movies to be
        /// added to the DynamoDB table.
        /// </summary>
        /// <param name="movieFileName">The full path to the JSON file.</param>
        /// <returns>A generic list of movie objects.</returns>
        public static List<Movie> ImportMovies(string movieFileName)
        {
            if (!File.Exists(movieFileName))
            {
                return null!;
            }

            using var sr = new StreamReader(movieFileName);
            string json = sr.ReadToEnd();
            var allMovies = JsonConvert.DeserializeObject<List<Movie>>(json);

            if (allMovies is not null)
            {
                // Return the first 250 entries.
                return allMovies.GetRange(0, 250);
            }
            else
            {
                return null!;
            }
        }
```
Gunakan batch pernyataan SELECT untuk mendapatkan item.  

```
        /// <summary>
        /// Gets movies from the movie table by
        /// using an Amazon DynamoDB PartiQL SELECT statement.
        /// </summary>
        /// <param name="tableName">The name of the table.</param>
        /// <param name="title1">The title of the first movie.</param>
        /// <param name="title2">The title of the second movie.</param>
        /// <param name="year1">The year of the first movie.</param>
        /// <param name="year2">The year of the second movie.</param>
        /// <returns>True if successful.</returns>
        public static async Task<bool> GetBatch(
            string tableName,
            string title1,
            string title2,
            int year1,
            int year2)
        {
            var getBatch = $"SELECT * FROM {tableName} WHERE title = ? AND year = ?";
            var statements = new List<BatchStatementRequest>
            {
                new BatchStatementRequest
                {
                    Statement = getBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = title1 },
                        new AttributeValue { N = year1.ToString() },
                    },
                },

                new BatchStatementRequest
                {
                    Statement = getBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = title2 },
                        new AttributeValue { N = year2.ToString() },
                    },
                }
            };

            var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
            {
                Statements = statements,
            });

            if (response.Responses.Count > 0)
            {
                response.Responses.ForEach(r =>
                {
                    if (r.Item.Any())
                    {
                        Console.WriteLine($"{r.Item["title"]}\t{r.Item["year"]}");
                    }
                });
                return true;
            }
            else
            {
                Console.WriteLine($"Couldn't find either {title1} or {title2}.");
                return false;
            }

        }
```
Gunakan batch pernyataan UPDATE untuk memperbarui item.  

```
        /// <summary>
        /// Updates information for multiple movies.
        /// </summary>
        /// <param name="tableName">The name of the table containing the
        /// movies to be updated.</param>
        /// <param name="producer1">The producer name for the first movie
        /// to update.</param>
        /// <param name="title1">The title of the first movie.</param>
        /// <param name="year1">The year that the first movie was released.</param>
        /// <param name="producer2">The producer name for the second
        /// movie to update.</param>
        /// <param name="title2">The title of the second movie.</param>
        /// <param name="year2">The year that the second movie was released.</param>
        /// <returns>A Boolean value that indicates the success of the update.</returns>
        public static async Task<bool> UpdateBatch(
            string tableName,
            string producer1,
            string title1,
            int year1,
            string producer2,
            string title2,
            int year2)
        {

            string updateBatch = $"UPDATE {tableName} SET Producer=? WHERE title = ? AND year = ?";
            var statements = new List<BatchStatementRequest>
            {
                new BatchStatementRequest
                {
                    Statement = updateBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = producer1 },
                        new AttributeValue { S = title1 },
                        new AttributeValue { N = year1.ToString() },
                    },
                },

                new BatchStatementRequest
                {
                    Statement = updateBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = producer2 },
                        new AttributeValue { S = title2 },
                        new AttributeValue { N = year2.ToString() },
                    },
                }
            };

            var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
            {
                Statements = statements,
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
```
Gunakan batch DELETE untuk menghapus item.  

```
        /// <summary>
        /// Deletes multiple movies using a PartiQL BatchExecuteAsync
        /// statement.
        /// </summary>
        /// <param name="tableName">The name of the table containing the
        /// moves that will be deleted.</param>
        /// <param name="title1">The title of the first movie.</param>
        /// <param name="year1">The year the first movie was released.</param>
        /// <param name="title2">The title of the second movie.</param>
        /// <param name="year2">The year the second movie was released.</param>
        /// <returns>A Boolean value indicating the success of the operation.</returns>
        public static async Task<bool> DeleteBatch(
            string tableName,
            string title1,
            int year1,
            string title2,
            int year2)
        {

            string updateBatch = $"DELETE FROM {tableName} WHERE title = ? AND year = ?";
            var statements = new List<BatchStatementRequest>
            {
                new BatchStatementRequest
                {
                    Statement = updateBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = title1 },
                        new AttributeValue { N = year1.ToString() },
                    },
                },

                new BatchStatementRequest
                {
                    Statement = updateBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = title2 },
                        new AttributeValue { N = year2.ToString() },
                    },
                }
            };

            var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
            {
                Statements = statements,
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/DotNetSDKV3/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK untuk .NET API*. 

### `BatchGetItem`
<a name="dynamodb_BatchGetItem_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetItem`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb#code-examples). 

```
using System;
using System.Collections.Generic;
using Amazon.DynamoDBv2;
using Amazon.DynamoDBv2.Model;

namespace LowLevelBatchGet
{
    public class LowLevelBatchGet
    {
        private static readonly string _table1Name = "Forum";
        private static readonly string _table2Name = "Thread";

        public static async void RetrieveMultipleItemsBatchGet(AmazonDynamoDBClient client)
        {
            var request = new BatchGetItemRequest
            {
                RequestItems = new Dictionary<string, KeysAndAttributes>()
            {
                { _table1Name,
                  new KeysAndAttributes
                  {
                      Keys = new List<Dictionary<string, AttributeValue> >()
                      {
                          new Dictionary<string, AttributeValue>()
                          {
                              { "Name", new AttributeValue {
                            S = "Amazon DynamoDB"
                        } }
                          },
                          new Dictionary<string, AttributeValue>()
                          {
                              { "Name", new AttributeValue {
                            S = "Amazon S3"
                        } }
                          }
                      }
                  }},
                {
                    _table2Name,
                    new KeysAndAttributes
                    {
                        Keys = new List<Dictionary<string, AttributeValue> >()
                        {
                            new Dictionary<string, AttributeValue>()
                            {
                                { "ForumName", new AttributeValue {
                                      S = "Amazon DynamoDB"
                                  } },
                                { "Subject", new AttributeValue {
                                      S = "DynamoDB Thread 1"
                                  } }
                            },
                            new Dictionary<string, AttributeValue>()
                            {
                                { "ForumName", new AttributeValue {
                                      S = "Amazon DynamoDB"
                                  } },
                                { "Subject", new AttributeValue {
                                      S = "DynamoDB Thread 2"
                                  } }
                            },
                            new Dictionary<string, AttributeValue>()
                            {
                                { "ForumName", new AttributeValue {
                                      S = "Amazon S3"
                                  } },
                                { "Subject", new AttributeValue {
                                      S = "S3 Thread 1"
                                  } }
                            }
                        }
                    }
                }
            }
            };

            BatchGetItemResponse response;
            do
            {
                Console.WriteLine("Making request");
                response = await client.BatchGetItemAsync(request);

                // Check the response.
                var responses = response.Responses; // Attribute list in the response.

                foreach (var tableResponse in responses)
                {
                    var tableResults = tableResponse.Value;
                    Console.WriteLine("Items retrieved from table {0}", tableResponse.Key);
                    foreach (var item1 in tableResults)
                    {
                        PrintItem(item1);
                    }
                }

                // Any unprocessed keys? could happen if you exceed ProvisionedThroughput or some other error.
                Dictionary<string, KeysAndAttributes> unprocessedKeys = response.UnprocessedKeys;
                foreach (var unprocessedTableKeys in unprocessedKeys)
                {
                    // Print table name.
                    Console.WriteLine(unprocessedTableKeys.Key);
                    // Print unprocessed primary keys.
                    foreach (var key in unprocessedTableKeys.Value.Keys)
                    {
                        PrintItem(key);
                    }
                }

                request.RequestItems = unprocessedKeys;
            } while (response.UnprocessedKeys.Count > 0);
        }

        private static void PrintItem(Dictionary<string, AttributeValue> attributeList)
        {
            foreach (KeyValuePair<string, AttributeValue> kvp in attributeList)
            {
                string attributeName = kvp.Key;
                AttributeValue value = kvp.Value;

                Console.WriteLine(
                    attributeName + " " +
                    (value.S == null ? "" : "S=[" + value.S + "]") +
                    (value.N == null ? "" : "N=[" + value.N + "]") +
                    (value.SS == null ? "" : "SS=[" + string.Join(",", value.SS.ToArray()) + "]") +
                    (value.NS == null ? "" : "NS=[" + string.Join(",", value.NS.ToArray()) + "]")
                    );
            }
            Console.WriteLine("************************************************");
        }

        static void Main()
        {
            var client = new AmazonDynamoDBClient();

            RetrieveMultipleItemsBatchGet(client);
        }
    }
}
```
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/goto/DotNetSDKV3/dynamodb-2012-08-10/BatchGetItem)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb#code-examples). 

```
    private static async Task GetTableInformation()
    {
        Console.WriteLine("\n*** Retrieving table information ***");

        var response = await Client.DescribeTableAsync(new DescribeTableRequest
        {
            TableName = ExampleTableName
        });

        var table = response.Table;
        Console.WriteLine($"Name: {table.TableName}");
        Console.WriteLine($"# of items: {table.ItemCount}");

    }
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/dynamodb-2012-08-10/DescribeTable)di *Referensi AWS SDK untuk .NET API*. 

### `ExecuteStatement`
<a name="dynamodb_ExecuteStatement_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb#code-examples). 
Gunakan pernyataan INSERT untuk menambahkan item.  

```
        /// <summary>
        /// Inserts a single movie into the movies table.
        /// </summary>
        /// <param name="tableName">The name of the table.</param>
        /// <param name="movieTitle">The title of the movie to insert.</param>
        /// <param name="year">The year that the movie was released.</param>
        /// <returns>A Boolean value that indicates the success or failure of
        /// the INSERT operation.</returns>
        public static async Task<bool> InsertSingleMovie(string tableName, string movieTitle, int year)
        {
            string insertBatch = $"INSERT INTO {tableName} VALUE {{'title': ?, 'year': ?}}";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = insertBatch,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
```
Gunakan pernyataan SELECT untuk mendapatkan item.  

```
        /// <summary>
        /// Uses a PartiQL SELECT statement to retrieve a single movie from the
        /// movie database.
        /// </summary>
        /// <param name="tableName">The name of the movie table.</param>
        /// <param name="movieTitle">The title of the movie to retrieve.</param>
        /// <returns>A list of movie data. If no movie matches the supplied
        /// title, the list is empty.</returns>
        public static async Task<List<Dictionary<string, AttributeValue>>> GetSingleMovie(string tableName, string movieTitle)
        {
            string selectSingle = $"SELECT * FROM {tableName} WHERE title = ?";
            var parameters = new List<AttributeValue>
            {
                new AttributeValue { S = movieTitle },
            };

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = selectSingle,
                Parameters = parameters,
            });

            return response.Items;
        }
```
Gunakan pernyataan SELECT untuk mendapatkan daftar item.  

```
        /// <summary>
        /// Retrieve multiple movies by year using a SELECT statement.
        /// </summary>
        /// <param name="tableName">The name of the movie table.</param>
        /// <param name="year">The year the movies were released.</param>
        /// <returns></returns>
        public static async Task<List<Dictionary<string, AttributeValue>>> GetMovies(string tableName, int year)
        {
            string selectSingle = $"SELECT * FROM {tableName} WHERE year = ?";
            var parameters = new List<AttributeValue>
            {
                new AttributeValue { N = year.ToString() },
            };

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = selectSingle,
                Parameters = parameters,
            });

            return response.Items;
        }
```
Gunakan pernyataan UPDATE untuk memperbarui item.  

```
        /// <summary>
        /// Updates a single movie in the table, adding information for the
        /// producer.
        /// </summary>
        /// <param name="tableName">the name of the table.</param>
        /// <param name="producer">The name of the producer.</param>
        /// <param name="movieTitle">The movie title.</param>
        /// <param name="year">The year the movie was released.</param>
        /// <returns>A Boolean value that indicates the success of the
        /// UPDATE operation.</returns>
        public static async Task<bool> UpdateSingleMovie(string tableName, string producer, string movieTitle, int year)
        {
            string insertSingle = $"UPDATE {tableName} SET Producer=? WHERE title = ? AND year = ?";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = insertSingle,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = producer },
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
```
Gunakan pernyataan DELETE untuk menghapus satu film.  

```
        /// <summary>
        /// Deletes a single movie from the table.
        /// </summary>
        /// <param name="tableName">The name of the table.</param>
        /// <param name="movieTitle">The title of the movie to delete.</param>
        /// <param name="year">The year that the movie was released.</param>
        /// <returns>A Boolean value that indicates the success of the
        /// DELETE operation.</returns>
        public static async Task<bool> DeleteSingleMovie(string tableName, string movieTitle, int year)
        {
            var deleteSingle = $"DELETE FROM {tableName} WHERE title = ? AND year = ?";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = deleteSingle,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/DotNetSDKV3/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK untuk .NET API*. 

### `ListTables`
<a name="dynamodb_ListTables_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb#code-examples). 

```
    private static async Task ListMyTables()
    {
        Console.WriteLine("\n*** Listing tables ***");

        string lastTableNameEvaluated = null;
        do
        {
            var response = await Client.ListTablesAsync(new ListTablesRequest
            {
                Limit = 2,
                ExclusiveStartTableName = lastTableNameEvaluated
            });

            foreach (var name in response.TableNames)
            {
                Console.WriteLine(name);
            }

            lastTableNameEvaluated = response.LastEvaluatedTableName;
        } while (lastTableNameEvaluated != null);
    }
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/DotNetSDKV3/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk .NET**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAssetManager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Membuat aplikasi web untuk melacak data DynamoDB
<a name="cross_DynamoDBDataTracker_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item kerja dalam tabel Amazon DynamoDB dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan Amazon DynamoDB .NET API untuk membuat aplikasi web dinamis yang melacak data kerja DynamoDB.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/DynamoDbItemTracker).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SES

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb#code-examples). 

```
// Before you run this example, download 'movies.json' from
// https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GettingStarted.Js.02.html,
// and put it in the same folder as the example.

// Separator for the console display.
var SepBar = new string('-', 80);
const string tableName = "movie_table";
const string movieFileName = @"..\..\..\..\..\..\..\..\resources\sample_files\movies.json";

DisplayInstructions();

// Create the table and wait for it to be active.
Console.WriteLine($"Creating the movie table: {tableName}");

var success = await DynamoDBMethods.CreateMovieTableAsync(tableName);
if (success)
{
    Console.WriteLine($"Successfully created table: {tableName}.");
}

WaitForEnter();

// Add movie information to the table from moviedata.json. See the
// instructions at the top of this file to download the JSON file.
Console.WriteLine($"Inserting movies into the new table. Please wait...");
success = await PartiQLBatchMethods.InsertMovies(tableName, movieFileName);
if (success)
{
    Console.WriteLine("Movies successfully added to the table.");
}
else
{
    Console.WriteLine("Movies could not be added to the table.");
}

WaitForEnter();

// Update multiple movies by using the BatchExecute statement.
var title1 = "Star Wars";
var year1 = 1977;
var title2 = "Wizard of Oz";
var year2 = 1939;

Console.WriteLine($"Updating two movies with producer information: {title1} and {title2}.");
success = await PartiQLBatchMethods.GetBatch(tableName, title1, title2, year1, year2);
if (success)
{
    Console.WriteLine($"Successfully retrieved {title1} and {title2}.");
}
else
{
    Console.WriteLine("Select statement failed.");
}

WaitForEnter();

// Update multiple movies by using the BatchExecute statement.
var producer1 = "LucasFilm";
var producer2 = "MGM";

Console.WriteLine($"Updating two movies with producer information: {title1} and {title2}.");
success = await PartiQLBatchMethods.UpdateBatch(tableName, producer1, title1, year1, producer2, title2, year2);
if (success)
{
    Console.WriteLine($"Successfully updated {title1} and {title2}.");
}
else
{
    Console.WriteLine("Update failed.");
}

WaitForEnter();

// Delete multiple movies by using the BatchExecute statement.
Console.WriteLine($"Now we will delete {title1} and {title2} from the table.");
success = await PartiQLBatchMethods.DeleteBatch(tableName, title1, year1, title2, year2);

if (success)
{
    Console.WriteLine($"Deleted {title1} and {title2}");
}
else
{
    Console.WriteLine($"could not delete {title1} or {title2}");
}

WaitForEnter();

// DNow that the PartiQL Batch scenario is complete, delete the movie table.
success = await DynamoDBMethods.DeleteTableAsync(tableName);

if (success)
{
    Console.WriteLine($"Successfully deleted {tableName}");
}
else
{
    Console.WriteLine($"Could not delete {tableName}");
}

/// <summary>
/// Displays the description of the application on the console.
/// </summary>
void DisplayInstructions()
{
    Console.Clear();
    Console.WriteLine();
    Console.Write(new string(' ', 24));
    Console.WriteLine("DynamoDB PartiQL Basics Example");
    Console.WriteLine(SepBar);
    Console.WriteLine("This demo application shows the basics of using Amazon DynamoDB with the AWS SDK for");
    Console.WriteLine(".NET version 3.7 and .NET 6.");
    Console.WriteLine(SepBar);
    Console.WriteLine("Creates a table by using the CreateTable method.");
    Console.WriteLine("Gets multiple movies by using a PartiQL SELECT statement.");
    Console.WriteLine("Updates multiple movies by using the ExecuteBatch method.");
    Console.WriteLine("Deletes multiple movies by using a PartiQL DELETE statement.");
    Console.WriteLine("Cleans up the resources created for the demo by deleting the table.");
    Console.WriteLine(SepBar);

    WaitForEnter();
}

/// <summary>
/// Simple method to wait for the <Enter> key to be pressed.
/// </summary>
void WaitForEnter()
{
    Console.WriteLine("\nPress <Enter> to continue.");
    Console.Write(SepBar);
    _ = Console.ReadLine();
}


        /// <summary>
        /// Gets movies from the movie table by
        /// using an Amazon DynamoDB PartiQL SELECT statement.
        /// </summary>
        /// <param name="tableName">The name of the table.</param>
        /// <param name="title1">The title of the first movie.</param>
        /// <param name="title2">The title of the second movie.</param>
        /// <param name="year1">The year of the first movie.</param>
        /// <param name="year2">The year of the second movie.</param>
        /// <returns>True if successful.</returns>
        public static async Task<bool> GetBatch(
            string tableName,
            string title1,
            string title2,
            int year1,
            int year2)
        {
            var getBatch = $"SELECT * FROM {tableName} WHERE title = ? AND year = ?";
            var statements = new List<BatchStatementRequest>
            {
                new BatchStatementRequest
                {
                    Statement = getBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = title1 },
                        new AttributeValue { N = year1.ToString() },
                    },
                },

                new BatchStatementRequest
                {
                    Statement = getBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = title2 },
                        new AttributeValue { N = year2.ToString() },
                    },
                }
            };

            var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
            {
                Statements = statements,
            });

            if (response.Responses.Count > 0)
            {
                response.Responses.ForEach(r =>
                {
                    if (r.Item.Any())
                    {
                        Console.WriteLine($"{r.Item["title"]}\t{r.Item["year"]}");
                    }
                });
                return true;
            }
            else
            {
                Console.WriteLine($"Couldn't find either {title1} or {title2}.");
                return false;
            }

        }

        /// <summary>
        /// Inserts movies imported from a JSON file into the movie table by
        /// using an Amazon DynamoDB PartiQL INSERT statement.
        /// </summary>
        /// <param name="tableName">The name of the table into which the movie
        /// information will be inserted.</param>
        /// <param name="movieFileName">The name of the JSON file that contains
        /// movie information.</param>
        /// <returns>A Boolean value that indicates the success or failure of
        /// the insert operation.</returns>
        public static async Task<bool> InsertMovies(string tableName, string movieFileName)
        {
            // Get the list of movies from the JSON file.
            var movies = ImportMovies(movieFileName);

            var success = false;

            if (movies is not null)
            {
                // Insert the movies in a batch using PartiQL. Because the
                // batch can contain a maximum of 25 items, insert 25 movies
                // at a time.
                string insertBatch = $"INSERT INTO {tableName} VALUE {{'title': ?, 'year': ?}}";
                var statements = new List<BatchStatementRequest>();

                try
                {
                    for (var indexOffset = 0; indexOffset < 250; indexOffset += 25)
                    {
                        for (var i = indexOffset; i < indexOffset + 25; i++)
                        {
                            statements.Add(new BatchStatementRequest
                            {
                                Statement = insertBatch,
                                Parameters = new List<AttributeValue>
                                {
                                    new AttributeValue { S = movies[i].Title },
                                    new AttributeValue { N = movies[i].Year.ToString() },
                                },
                            });
                        }

                        var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
                        {
                            Statements = statements,
                        });

                        // Wait between batches for movies to be successfully added.
                        System.Threading.Thread.Sleep(3000);

                        success = response.HttpStatusCode == System.Net.HttpStatusCode.OK;

                        // Clear the list of statements for the next batch.
                        statements.Clear();
                    }
                }
                catch (AmazonDynamoDBException ex)
                {
                    Console.WriteLine(ex.Message);
                }
            }

            return success;
        }

        /// <summary>
        /// Loads the contents of a JSON file into a list of movies to be
        /// added to the DynamoDB table.
        /// </summary>
        /// <param name="movieFileName">The full path to the JSON file.</param>
        /// <returns>A generic list of movie objects.</returns>
        public static List<Movie> ImportMovies(string movieFileName)
        {
            if (!File.Exists(movieFileName))
            {
                return null!;
            }

            using var sr = new StreamReader(movieFileName);
            string json = sr.ReadToEnd();
            var allMovies = JsonConvert.DeserializeObject<List<Movie>>(json);

            if (allMovies is not null)
            {
                // Return the first 250 entries.
                return allMovies.GetRange(0, 250);
            }
            else
            {
                return null!;
            }
        }

        /// <summary>
        /// Updates information for multiple movies.
        /// </summary>
        /// <param name="tableName">The name of the table containing the
        /// movies to be updated.</param>
        /// <param name="producer1">The producer name for the first movie
        /// to update.</param>
        /// <param name="title1">The title of the first movie.</param>
        /// <param name="year1">The year that the first movie was released.</param>
        /// <param name="producer2">The producer name for the second
        /// movie to update.</param>
        /// <param name="title2">The title of the second movie.</param>
        /// <param name="year2">The year that the second movie was released.</param>
        /// <returns>A Boolean value that indicates the success of the update.</returns>
        public static async Task<bool> UpdateBatch(
            string tableName,
            string producer1,
            string title1,
            int year1,
            string producer2,
            string title2,
            int year2)
        {

            string updateBatch = $"UPDATE {tableName} SET Producer=? WHERE title = ? AND year = ?";
            var statements = new List<BatchStatementRequest>
            {
                new BatchStatementRequest
                {
                    Statement = updateBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = producer1 },
                        new AttributeValue { S = title1 },
                        new AttributeValue { N = year1.ToString() },
                    },
                },

                new BatchStatementRequest
                {
                    Statement = updateBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = producer2 },
                        new AttributeValue { S = title2 },
                        new AttributeValue { N = year2.ToString() },
                    },
                }
            };

            var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
            {
                Statements = statements,
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }

        /// <summary>
        /// Deletes multiple movies using a PartiQL BatchExecuteAsync
        /// statement.
        /// </summary>
        /// <param name="tableName">The name of the table containing the
        /// moves that will be deleted.</param>
        /// <param name="title1">The title of the first movie.</param>
        /// <param name="year1">The year the first movie was released.</param>
        /// <param name="title2">The title of the second movie.</param>
        /// <param name="year2">The year the second movie was released.</param>
        /// <returns>A Boolean value indicating the success of the operation.</returns>
        public static async Task<bool> DeleteBatch(
            string tableName,
            string title1,
            int year1,
            string title2,
            int year2)
        {

            string updateBatch = $"DELETE FROM {tableName} WHERE title = ? AND year = ?";
            var statements = new List<BatchStatementRequest>
            {
                new BatchStatementRequest
                {
                    Statement = updateBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = title1 },
                        new AttributeValue { N = year1.ToString() },
                    },
                },

                new BatchStatementRequest
                {
                    Statement = updateBatch,
                    Parameters = new List<AttributeValue>
                    {
                        new AttributeValue { S = title2 },
                        new AttributeValue { N = year2.ToString() },
                    },
                }
            };

            var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
            {
                Statements = statements,
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/DotNetSDKV3/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK untuk .NET API*. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb#code-examples). 

```
namespace PartiQL_Basics_Scenario
{
    public class PartiQLMethods
    {
        private static readonly AmazonDynamoDBClient Client = new AmazonDynamoDBClient();


        /// <summary>
        /// Inserts movies imported from a JSON file into the movie table by
        /// using an Amazon DynamoDB PartiQL INSERT statement.
        /// </summary>
        /// <param name="tableName">The name of the table where the movie
        /// information will be inserted.</param>
        /// <param name="movieFileName">The name of the JSON file that contains
        /// movie information.</param>
        /// <returns>A Boolean value that indicates the success or failure of
        /// the insert operation.</returns>
        public static async Task<bool> InsertMovies(string tableName, string movieFileName)
        {
            // Get the list of movies from the JSON file.
            var movies = ImportMovies(movieFileName);

            var success = false;

            if (movies is not null)
            {
                // Insert the movies in a batch using PartiQL. Because the
                // batch can contain a maximum of 25 items, insert 25 movies
                // at a time.
                string insertBatch = $"INSERT INTO {tableName} VALUE {{'title': ?, 'year': ?}}";
                var statements = new List<BatchStatementRequest>();

                try
                {
                    for (var indexOffset = 0; indexOffset < 250; indexOffset += 25)
                    {
                        for (var i = indexOffset; i < indexOffset + 25; i++)
                        {
                            statements.Add(new BatchStatementRequest
                            {
                                Statement = insertBatch,
                                Parameters = new List<AttributeValue>
                                {
                                    new AttributeValue { S = movies[i].Title },
                                    new AttributeValue { N = movies[i].Year.ToString() },
                                },
                            });
                        }

                        var response = await Client.BatchExecuteStatementAsync(new BatchExecuteStatementRequest
                        {
                            Statements = statements,
                        });

                        // Wait between batches for movies to be successfully added.
                        System.Threading.Thread.Sleep(3000);

                        success = response.HttpStatusCode == System.Net.HttpStatusCode.OK;

                        // Clear the list of statements for the next batch.
                        statements.Clear();
                    }
                }
                catch (AmazonDynamoDBException ex)
                {
                    Console.WriteLine(ex.Message);
                }
            }

            return success;
        }

        /// <summary>
        /// Loads the contents of a JSON file into a list of movies to be
        /// added to the DynamoDB table.
        /// </summary>
        /// <param name="movieFileName">The full path to the JSON file.</param>
        /// <returns>A generic list of movie objects.</returns>
        public static List<Movie> ImportMovies(string movieFileName)
        {
            if (!File.Exists(movieFileName))
            {
                return null!;
            }

            using var sr = new StreamReader(movieFileName);
            string json = sr.ReadToEnd();
            var allMovies = JsonConvert.DeserializeObject<List<Movie>>(json);

            if (allMovies is not null)
            {
                // Return the first 250 entries.
                return allMovies.GetRange(0, 250);
            }
            else
            {
                return null!;
            }
        }



        /// <summary>
        /// Uses a PartiQL SELECT statement to retrieve a single movie from the
        /// movie database.
        /// </summary>
        /// <param name="tableName">The name of the movie table.</param>
        /// <param name="movieTitle">The title of the movie to retrieve.</param>
        /// <returns>A list of movie data. If no movie matches the supplied
        /// title, the list is empty.</returns>
        public static async Task<List<Dictionary<string, AttributeValue>>> GetSingleMovie(string tableName, string movieTitle)
        {
            string selectSingle = $"SELECT * FROM {tableName} WHERE title = ?";
            var parameters = new List<AttributeValue>
            {
                new AttributeValue { S = movieTitle },
            };

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = selectSingle,
                Parameters = parameters,
            });

            return response.Items;
        }



        /// <summary>
        /// Retrieve multiple movies by year using a SELECT statement.
        /// </summary>
        /// <param name="tableName">The name of the movie table.</param>
        /// <param name="year">The year the movies were released.</param>
        /// <returns></returns>
        public static async Task<List<Dictionary<string, AttributeValue>>> GetMovies(string tableName, int year)
        {
            string selectSingle = $"SELECT * FROM {tableName} WHERE year = ?";
            var parameters = new List<AttributeValue>
            {
                new AttributeValue { N = year.ToString() },
            };

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = selectSingle,
                Parameters = parameters,
            });

            return response.Items;
        }


        /// <summary>
        /// Inserts a single movie into the movies table.
        /// </summary>
        /// <param name="tableName">The name of the table.</param>
        /// <param name="movieTitle">The title of the movie to insert.</param>
        /// <param name="year">The year that the movie was released.</param>
        /// <returns>A Boolean value that indicates the success or failure of
        /// the INSERT operation.</returns>
        public static async Task<bool> InsertSingleMovie(string tableName, string movieTitle, int year)
        {
            string insertBatch = $"INSERT INTO {tableName} VALUE {{'title': ?, 'year': ?}}";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = insertBatch,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }



        /// <summary>
        /// Updates a single movie in the table, adding information for the
        /// producer.
        /// </summary>
        /// <param name="tableName">the name of the table.</param>
        /// <param name="producer">The name of the producer.</param>
        /// <param name="movieTitle">The movie title.</param>
        /// <param name="year">The year the movie was released.</param>
        /// <returns>A Boolean value that indicates the success of the
        /// UPDATE operation.</returns>
        public static async Task<bool> UpdateSingleMovie(string tableName, string producer, string movieTitle, int year)
        {
            string insertSingle = $"UPDATE {tableName} SET Producer=? WHERE title = ? AND year = ?";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = insertSingle,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = producer },
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }



        /// <summary>
        /// Deletes a single movie from the table.
        /// </summary>
        /// <param name="tableName">The name of the table.</param>
        /// <param name="movieTitle">The title of the movie to delete.</param>
        /// <param name="year">The year that the movie was released.</param>
        /// <returns>A Boolean value that indicates the success of the
        /// DELETE operation.</returns>
        public static async Task<bool> DeleteSingleMovie(string tableName, string movieTitle, int year)
        {
            var deleteSingle = $"DELETE FROM {tableName} WHERE title = ? AND year = ?";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = deleteSingle,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }


        /// <summary>
        /// Displays the list of movies returned from a database query.
        /// </summary>
        /// <param name="items">The list of movie information to display.</param>
        private static void DisplayMovies(List<Dictionary<string, AttributeValue>> items)
        {
            if (items.Count > 0)
            {
                Console.WriteLine($"Found {items.Count} movies.");
                items.ForEach(item => Console.WriteLine($"{item["year"].N}\t{item["title"].S}"));
            }
            else
            {
                Console.WriteLine($"Didn't find a movie that matched the supplied criteria.");
            }
        }


    }
}



        /// <summary>
        /// Uses a PartiQL SELECT statement to retrieve a single movie from the
        /// movie database.
        /// </summary>
        /// <param name="tableName">The name of the movie table.</param>
        /// <param name="movieTitle">The title of the movie to retrieve.</param>
        /// <returns>A list of movie data. If no movie matches the supplied
        /// title, the list is empty.</returns>
        public static async Task<List<Dictionary<string, AttributeValue>>> GetSingleMovie(string tableName, string movieTitle)
        {
            string selectSingle = $"SELECT * FROM {tableName} WHERE title = ?";
            var parameters = new List<AttributeValue>
            {
                new AttributeValue { S = movieTitle },
            };

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = selectSingle,
                Parameters = parameters,
            });

            return response.Items;
        }



        /// <summary>
        /// Inserts a single movie into the movies table.
        /// </summary>
        /// <param name="tableName">The name of the table.</param>
        /// <param name="movieTitle">The title of the movie to insert.</param>
        /// <param name="year">The year that the movie was released.</param>
        /// <returns>A Boolean value that indicates the success or failure of
        /// the INSERT operation.</returns>
        public static async Task<bool> InsertSingleMovie(string tableName, string movieTitle, int year)
        {
            string insertBatch = $"INSERT INTO {tableName} VALUE {{'title': ?, 'year': ?}}";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = insertBatch,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }



        /// <summary>
        /// Updates a single movie in the table, adding information for the
        /// producer.
        /// </summary>
        /// <param name="tableName">the name of the table.</param>
        /// <param name="producer">The name of the producer.</param>
        /// <param name="movieTitle">The movie title.</param>
        /// <param name="year">The year the movie was released.</param>
        /// <returns>A Boolean value that indicates the success of the
        /// UPDATE operation.</returns>
        public static async Task<bool> UpdateSingleMovie(string tableName, string producer, string movieTitle, int year)
        {
            string insertSingle = $"UPDATE {tableName} SET Producer=? WHERE title = ? AND year = ?";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = insertSingle,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = producer },
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }



        /// <summary>
        /// Deletes a single movie from the table.
        /// </summary>
        /// <param name="tableName">The name of the table.</param>
        /// <param name="movieTitle">The title of the movie to delete.</param>
        /// <param name="year">The year that the movie was released.</param>
        /// <returns>A Boolean value that indicates the success of the
        /// DELETE operation.</returns>
        public static async Task<bool> DeleteSingleMovie(string tableName, string movieTitle, int year)
        {
            var deleteSingle = $"DELETE FROM {tableName} WHERE title = ? AND year = ?";

            var response = await Client.ExecuteStatementAsync(new ExecuteStatementRequest
            {
                Statement = deleteSingle,
                Parameters = new List<AttributeValue>
                {
                    new AttributeValue { S = movieTitle },
                    new AttributeValue { N = year.ToString() },
                },
            });

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/DotNetSDKV3/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK untuk .NET API*. 

### Menggunakan model dokumen
<a name="dynamodb_MidLevelInterface_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara melakukan operasi Create, Read, Update, and Delete (CRUD) dan batch menggunakan model dokumen untuk DynamoDB dan SDK. AWS 

Untuk informasi lebih lanjut, lihat [Model dokumen](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DotNetSDKMidLevel.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb/mid-level-api#code-examples). 
Lakukan operasi CRUD menggunakan model dokumen.  

```
    /// <summary>
    /// Performs CRUD operations on an Amazon DynamoDB table.
    /// </summary>
    public class MidlevelItemCRUD
    {
        public static async Task Main()
        {
            var tableName = "ProductCatalog";
            var sampleBookId = 555;

            var client = new AmazonDynamoDBClient();
            var productCatalog = LoadTable(client, tableName);

            await CreateBookItem(productCatalog, sampleBookId);
            RetrieveBook(productCatalog, sampleBookId);

            // Couple of sample updates.
            UpdateMultipleAttributes(productCatalog, sampleBookId);
            UpdateBookPriceConditionally(productCatalog, sampleBookId);

            // Delete.
            await DeleteBook(productCatalog, sampleBookId);
        }

        /// <summary>
        /// Loads the contents of a DynamoDB table.
        /// </summary>
        /// <param name="client">An initialized DynamoDB client object.</param>
        /// <param name="tableName">The name of the table to load.</param>
        /// <returns>A DynamoDB table object.</returns>
        public static Table LoadTable(IAmazonDynamoDB client, string tableName)
        {
            Table productCatalog = Table.LoadTable(client, tableName);
            return productCatalog;
        }

        /// <summary>
        /// Creates an example book item and adds it to the DynamoDB table
        /// ProductCatalog.
        /// </summary>
        /// <param name="productCatalog">A DynamoDB table object.</param>
        /// <param name="sampleBookId">An integer value representing the book's ID.</param>
        public static async Task CreateBookItem(Table productCatalog, int sampleBookId)
        {
            Console.WriteLine("\n*** Executing CreateBookItem() ***");
            var book = new Document
            {
                ["Id"] = sampleBookId,
                ["Title"] = "Book " + sampleBookId,
                ["Price"] = 19.99,
                ["ISBN"] = "111-1111111111",
                ["Authors"] = new List<string> { "Author 1", "Author 2", "Author 3" },
                ["PageCount"] = 500,
                ["Dimensions"] = "8.5x11x.5",
                ["InPublication"] = new DynamoDBBool(true),
                ["InStock"] = new DynamoDBBool(false),
                ["QuantityOnHand"] = 0,
            };

            // Adds the book to the ProductCatalog table.
            await productCatalog.PutItemAsync(book);
        }

        /// <summary>
        /// Retrieves an item, a book, from the DynamoDB ProductCatalog table.
        /// </summary>
        /// <param name="productCatalog">A DynamoDB table object.</param>
        /// <param name="sampleBookId">An integer value representing the book's ID.</param>
        public static async void RetrieveBook(
          Table productCatalog,
          int sampleBookId)
        {
            Console.WriteLine("\n*** Executing RetrieveBook() ***");

            // Optional configuration.
            var config = new GetItemOperationConfig
            {
                AttributesToGet = new List<string> { "Id", "ISBN", "Title", "Authors", "Price" },
                ConsistentRead = true,
            };

            Document document = await productCatalog.GetItemAsync(sampleBookId, config);
            Console.WriteLine("RetrieveBook: Printing book retrieved...");
            PrintDocument(document);
        }

        /// <summary>
        /// Updates multiple attributes for a book and writes the changes to the
        /// DynamoDB table ProductCatalog.
        /// </summary>
        /// <param name="productCatalog">A DynamoDB table object.</param>
        /// <param name="sampleBookId">An integer value representing the book's ID.</param>
        public static async void UpdateMultipleAttributes(
          Table productCatalog,
          int sampleBookId)
        {
            Console.WriteLine("\nUpdating multiple attributes....");
            int partitionKey = sampleBookId;

            var book = new Document
            {
                ["Id"] = partitionKey,

                // List of attribute updates.
                // The following replaces the existing authors list.
                ["Authors"] = new List<string> { "Author x", "Author y" },
                ["newAttribute"] = "New Value",
                ["ISBN"] = null, // Remove it.
            };

            // Optional parameters.
            var config = new UpdateItemOperationConfig
            {
                // Gets updated item in response.
                ReturnValues = ReturnValues.AllNewAttributes,
            };

            Document updatedBook = await productCatalog.UpdateItemAsync(book, config);
            Console.WriteLine("UpdateMultipleAttributes: Printing item after updates ...");
            PrintDocument(updatedBook);
        }

        /// <summary>
        /// Updates a book item if it meets the specified criteria.
        /// </summary>
        /// <param name="productCatalog">A DynamoDB table object.</param>
        /// <param name="sampleBookId">An integer value representing the book's ID.</param>
        public static async void UpdateBookPriceConditionally(
          Table productCatalog,
          int sampleBookId)
        {
            Console.WriteLine("\n*** Executing UpdateBookPriceConditionally() ***");

            int partitionKey = sampleBookId;

            var book = new Document
            {
                ["Id"] = partitionKey,
                ["Price"] = 29.99,
            };

            // For conditional price update, creating a condition expression.
            var expr = new Expression
            {
                ExpressionStatement = "Price = :val",
            };
            expr.ExpressionAttributeValues[":val"] = 19.00;

            // Optional parameters.
            var config = new UpdateItemOperationConfig
            {
                ConditionalExpression = expr,
                ReturnValues = ReturnValues.AllNewAttributes,
            };

            Document updatedBook = await productCatalog.UpdateItemAsync(book, config);
            Console.WriteLine("UpdateBookPriceConditionally: Printing item whose price was conditionally updated");
            PrintDocument(updatedBook);
        }

        /// <summary>
        /// Deletes the book with the supplied Id value from the DynamoDB table
        /// ProductCatalog.
        /// </summary>
        /// <param name="productCatalog">A DynamoDB table object.</param>
        /// <param name="sampleBookId">An integer value representing the book's ID.</param>
        public static async Task DeleteBook(
          Table productCatalog,
          int sampleBookId)
        {
            Console.WriteLine("\n*** Executing DeleteBook() ***");

            // Optional configuration.
            var config = new DeleteItemOperationConfig
            {
                // Returns the deleted item.
                ReturnValues = ReturnValues.AllOldAttributes,
            };
            Document document = await productCatalog.DeleteItemAsync(sampleBookId, config);
            Console.WriteLine("DeleteBook: Printing deleted just deleted...");

            PrintDocument(document);
        }

        /// <summary>
        /// Prints the information for the supplied DynamoDB document.
        /// </summary>
        /// <param name="updatedDocument">A DynamoDB document object.</param>
        public static void PrintDocument(Document updatedDocument)
        {
            if (updatedDocument is null)
            {
                return;
            }

            foreach (var attribute in updatedDocument.GetAttributeNames())
            {
                string stringValue = null;
                var value = updatedDocument[attribute];

                if (value is null)
                {
                    continue;
                }

                if (value is Primitive)
                {
                    stringValue = value.AsPrimitive().Value.ToString();
                }
                else if (value is PrimitiveList)
                {
                    stringValue = string.Join(",", (from primitive
                      in value.AsPrimitiveList().Entries
                                                    select primitive.Value).ToArray());
                }

                Console.WriteLine($"{attribute} - {stringValue}", attribute, stringValue);
            }
        }
    }
```
Lakukan operasi tulis batch menggunakan model dokumen.  

```
    /// <summary>
    /// Shows how to use mid-level Amazon DynamoDB API calls to perform batch
    /// operations.
    /// </summary>
    public class MidLevelBatchWriteItem
    {
        public static async Task Main()
        {
            IAmazonDynamoDB client = new AmazonDynamoDBClient();

            await SingleTableBatchWrite(client);
            await MultiTableBatchWrite(client);
        }

        /// <summary>
        /// Perform a batch operation on a single DynamoDB table.
        /// </summary>
        /// <param name="client">An initialized DynamoDB object.</param>
        public static async Task SingleTableBatchWrite(IAmazonDynamoDB client)
        {
            Table productCatalog = Table.LoadTable(client, "ProductCatalog");
            var batchWrite = productCatalog.CreateBatchWrite();

            var book1 = new Document
            {
                ["Id"] = 902,
                ["Title"] = "My book1 in batch write using .NET helper classes",
                ["ISBN"] = "902-11-11-1111",
                ["Price"] = 10,
                ["ProductCategory"] = "Book",
                ["Authors"] = new List<string> { "Author 1", "Author 2", "Author 3" },
                ["Dimensions"] = "8.5x11x.5",
                ["InStock"] = new DynamoDBBool(true),
                ["QuantityOnHand"] = new DynamoDBNull(), // Quantity is unknown at this time.
            };

            batchWrite.AddDocumentToPut(book1);

            // Specify delete item using overload that takes PK.
            batchWrite.AddKeyToDelete(12345);
            Console.WriteLine("Performing batch write in SingleTableBatchWrite()");
            await batchWrite.ExecuteAsync();
        }

        /// <summary>
        /// Perform a batch operation involving multiple DynamoDB tables.
        /// </summary>
        /// <param name="client">An initialized DynamoDB client object.</param>
        public static async Task MultiTableBatchWrite(IAmazonDynamoDB client)
        {
            // Specify item to add in the Forum table.
            Table forum = Table.LoadTable(client, "Forum");
            var forumBatchWrite = forum.CreateBatchWrite();

            var forum1 = new Document
            {
                ["Name"] = "Test BatchWrite Forum",
                ["Threads"] = 0,
            };
            forumBatchWrite.AddDocumentToPut(forum1);

            // Specify item to add in the Thread table.
            Table thread = Table.LoadTable(client, "Thread");
            var threadBatchWrite = thread.CreateBatchWrite();

            var thread1 = new Document
            {
                ["ForumName"] = "S3 forum",
                ["Subject"] = "My sample question",
                ["Message"] = "Message text",
                ["KeywordTags"] = new List<string> { "S3", "Bucket" },
            };
            threadBatchWrite.AddDocumentToPut(thread1);

            // Specify item to delete from the Thread table.
            threadBatchWrite.AddKeyToDelete("someForumName", "someSubject");

            // Create multi-table batch.
            var superBatch = new MultiTableDocumentBatchWrite();
            superBatch.AddBatch(forumBatchWrite);
            superBatch.AddBatch(threadBatchWrite);
            Console.WriteLine("Performing batch write in MultiTableBatchWrite()");

            // Execute the batch.
            await superBatch.ExecuteAsync();
        }
    }
```
Pindai tabel menggunakan model dokumen.  

```
    /// <summary>
    /// Shows how to use mid-level Amazon DynamoDB API calls to scan a DynamoDB
    /// table for values.
    /// </summary>
    public class MidLevelScanOnly
    {
        public static async Task Main()
        {
            IAmazonDynamoDB client = new AmazonDynamoDBClient();

            Table productCatalogTable = Table.LoadTable(client, "ProductCatalog");

            await FindProductsWithNegativePrice(productCatalogTable);
            await FindProductsWithNegativePriceWithConfig(productCatalogTable);
        }

        /// <summary>
        /// Retrieves any products that have a negative price in a DynamoDB table.
        /// </summary>
        /// <param name="productCatalogTable">A DynamoDB table object.</param>
        public static async Task FindProductsWithNegativePrice(
          Table productCatalogTable)
        {
            // Assume there is a price error. So we scan to find items priced < 0.
            var scanFilter = new ScanFilter();
            scanFilter.AddCondition("Price", ScanOperator.LessThan, 0);

            Search search = productCatalogTable.Scan(scanFilter);

            do
            {
                var documentList = await search.GetNextSetAsync();
                Console.WriteLine("\nFindProductsWithNegativePrice: printing ............");

                foreach (var document in documentList)
                {
                    PrintDocument(document);
                }
            }
            while (!search.IsDone);
        }

        /// <summary>
        /// Finds any items in the ProductCatalog table using a DynamoDB
        /// configuration object.
        /// </summary>
        /// <param name="productCatalogTable">A DynamoDB table object.</param>
        public static async Task FindProductsWithNegativePriceWithConfig(
          Table productCatalogTable)
        {
            // Assume there is a price error. So we scan to find items priced < 0.
            var scanFilter = new ScanFilter();
            scanFilter.AddCondition("Price", ScanOperator.LessThan, 0);

            var config = new ScanOperationConfig()
            {
                Filter = scanFilter,
                Select = SelectValues.SpecificAttributes,
                AttributesToGet = new List<string> { "Title", "Id" },
            };

            Search search = productCatalogTable.Scan(config);

            do
            {
                var documentList = await search.GetNextSetAsync();
                Console.WriteLine("\nFindProductsWithNegativePriceWithConfig: printing ............");

                foreach (var document in documentList)
                {
                    PrintDocument(document);
                }
            }
            while (!search.IsDone);
        }

        /// <summary>
        /// Displays the details of the passed DynamoDB document object on the
        /// console.
        /// </summary>
        /// <param name="document">A DynamoDB document object.</param>
        public static void PrintDocument(Document document)
        {
            Console.WriteLine();
            foreach (var attribute in document.GetAttributeNames())
            {
                string stringValue = null;
                var value = document[attribute];
                if (value is Primitive)
                {
                    stringValue = value.AsPrimitive().Value.ToString();
                }
                else if (value is PrimitiveList)
                {
                    stringValue = string.Join(",", (from primitive
                      in value.AsPrimitiveList().Entries
                                                    select primitive.Value).ToArray());
                }

                Console.WriteLine($"{attribute} - {stringValue}");
            }
        }
    }
```
Kueri dan pindai tabel menggunakan model dokumen.  

```
    /// <summary>
    /// Shows how to perform mid-level query procedures on an Amazon DynamoDB
    /// table.
    /// </summary>
    public class MidLevelQueryAndScan
    {
        public static async Task Main()
        {
            IAmazonDynamoDB client = new AmazonDynamoDBClient();

            // Query examples.
            Table replyTable = Table.LoadTable(client, "Reply");
            string forumName = "Amazon DynamoDB";
            string threadSubject = "DynamoDB Thread 2";

            await FindRepliesInLast15Days(replyTable);
            await FindRepliesInLast15DaysWithConfig(replyTable, forumName, threadSubject);
            await FindRepliesPostedWithinTimePeriod(replyTable, forumName, threadSubject);

            // Get Example.
            Table productCatalogTable = Table.LoadTable(client, "ProductCatalog");
            int productId = 101;

            await GetProduct(productCatalogTable, productId);
        }

        /// <summary>
        /// Retrieves information about a product from the DynamoDB table
        /// ProductCatalog based on the product ID and displays the information
        /// on the console.
        /// </summary>
        /// <param name="tableName">The name of the table from which to retrieve
        /// product information.</param>
        /// <param name="productId">The ID of the product to retrieve.</param>
        public static async Task GetProduct(Table tableName, int productId)
        {
            Console.WriteLine("*** Executing GetProduct() ***");
            Document productDocument = await tableName.GetItemAsync(productId);
            if (productDocument != null)
            {
                PrintDocument(productDocument);
            }
            else
            {
                Console.WriteLine("Error: product " + productId + " does not exist");
            }
        }

        /// <summary>
        /// Retrieves replies from the passed DynamoDB table object.
        /// </summary>
        /// <param name="table">The table we want to query.</param>
        public static async Task FindRepliesInLast15Days(
          Table table)
        {
            DateTime twoWeeksAgoDate = DateTime.UtcNow - TimeSpan.FromDays(15);
            var filter = new QueryFilter("Id", QueryOperator.Equal, "Id");
            filter.AddCondition("ReplyDateTime", QueryOperator.GreaterThan, twoWeeksAgoDate);

            // Use Query overloads that take the minimum required query parameters.
            Search search = table.Query(filter);

            do
            {
                var documentSet = await search.GetNextSetAsync();
                Console.WriteLine("\nFindRepliesInLast15Days: printing ............");

                foreach (var document in documentSet)
                {
                    PrintDocument(document);
                }
            }
            while (!search.IsDone);
        }

        /// <summary>
        /// Retrieve replies made during a specific time period.
        /// </summary>
        /// <param name="table">The table we want to query.</param>
        /// <param name="forumName">The name of the forum that we're interested in.</param>
        /// <param name="threadSubject">The subject of the thread, which we are
        /// searching for replies.</param>
        public static async Task FindRepliesPostedWithinTimePeriod(
          Table table,
          string forumName,
          string threadSubject)
        {
            DateTime startDate = DateTime.UtcNow.Subtract(new TimeSpan(21, 0, 0, 0));
            DateTime endDate = DateTime.UtcNow.Subtract(new TimeSpan(1, 0, 0, 0));

            var filter = new QueryFilter("Id", QueryOperator.Equal, forumName + "#" + threadSubject);
            filter.AddCondition("ReplyDateTime", QueryOperator.Between, startDate, endDate);

            var config = new QueryOperationConfig()
            {
                Limit = 2, // 2 items/page.
                Select = SelectValues.SpecificAttributes,
                AttributesToGet = new List<string>
        {
          "Message",
          "ReplyDateTime",
          "PostedBy",
        },
                ConsistentRead = true,
                Filter = filter,
            };

            Search search = table.Query(config);

            do
            {
                var documentList = await search.GetNextSetAsync();
                Console.WriteLine("\nFindRepliesPostedWithinTimePeriod: printing replies posted within dates: {0} and {1} ............", startDate, endDate);

                foreach (var document in documentList)
                {
                    PrintDocument(document);
                }
            }
            while (!search.IsDone);
        }

        /// <summary>
        /// Perform a query for replies made in the last 15 days using a DynamoDB
        /// QueryOperationConfig object.
        /// </summary>
        /// <param name="table">The table we want to query.</param>
        /// <param name="forumName">The name of the forum that we're interested in.</param>
        /// <param name="threadName">The bane of the thread that we are searching
        /// for replies.</param>
        public static async Task FindRepliesInLast15DaysWithConfig(
          Table table,
          string forumName,
          string threadName)
        {
            DateTime twoWeeksAgoDate = DateTime.UtcNow - TimeSpan.FromDays(15);
            var filter = new QueryFilter("Id", QueryOperator.Equal, forumName + "#" + threadName);
            filter.AddCondition("ReplyDateTime", QueryOperator.GreaterThan, twoWeeksAgoDate);

            var config = new QueryOperationConfig()
            {
                Filter = filter,

                // Optional parameters.
                Select = SelectValues.SpecificAttributes,
                AttributesToGet = new List<string>
                {
                  "Message",
                  "ReplyDateTime",
                  "PostedBy",
                },
                ConsistentRead = true,
            };

            Search search = table.Query(config);

            do
            {
                var documentSet = await search.GetNextSetAsync();
                Console.WriteLine("\nFindRepliesInLast15DaysWithConfig: printing ............");

                foreach (var document in documentSet)
                {
                    PrintDocument(document);
                }
            }
            while (!search.IsDone);
        }

        /// <summary>
        /// Displays the contents of the passed DynamoDB document on the console.
        /// </summary>
        /// <param name="document">A DynamoDB document to display.</param>
        public static void PrintDocument(Document document)
        {
            Console.WriteLine();
            foreach (var attribute in document.GetAttributeNames())
            {
                string stringValue = null;
                var value = document[attribute];

                if (value is Primitive)
                {
                    stringValue = value.AsPrimitive().Value.ToString();
                }
                else if (value is PrimitiveList)
                {
                    stringValue = string.Join(",", (from primitive
                      in value.AsPrimitiveList().Entries
                                                    select primitive.Value).ToArray());
                }

                Console.WriteLine($"{attribute} - {stringValue}");
            }
        }
    }
```

### Menggunakan model persistensi objek tingkat tinggi
<a name="dynamodb_HighLevelInterface_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara melakukan operasi Create, Read, Update, and Delete (CRUD) dan batch menggunakan model persistensi objek untuk DynamoDB dan SDK. AWS 

Untuk informasi lebih lanjut, lihat [Model persistensi objek](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DotNetSDKHighLevel.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/dynamodb/high-level-api#code-examples). 
Lakukan operasi CRUD menggunakan model persistensi objek tingkat tinggi.  

```
    /// <summary>
    /// Shows how to perform high-level CRUD operations on an Amazon DynamoDB
    /// table.
    /// </summary>
    public class HighLevelItemCrud
    {
        public static async Task Main()
        {
            var client = new AmazonDynamoDBClient();
            DynamoDBContext context = new DynamoDBContext(client);
            await PerformCRUDOperations(context);
        }

        public static async Task PerformCRUDOperations(IDynamoDBContext context)
        {
            int bookId = 1001; // Some unique value.
            Book myBook = new Book
            {
                Id = bookId,
                Title = "object persistence-AWS SDK for.NET SDK-Book 1001",
                Isbn = "111-1111111001",
                BookAuthors = new List<string> { "Author 1", "Author 2" },
            };

            // Save the book to the ProductCatalog table.
            await context.SaveAsync(myBook);

            // Retrieve the book from the ProductCatalog table.
            Book bookRetrieved = await context.LoadAsync<Book>(bookId);

            // Update some properties.
            bookRetrieved.Isbn = "222-2222221001";

            // Update existing authors list with the following values.
            bookRetrieved.BookAuthors = new List<string> { " Author 1", "Author x" };
            await context.SaveAsync(bookRetrieved);

            // Retrieve the updated book. This time, add the optional
            // ConsistentRead parameter using DynamoDBContextConfig object.
            await context.LoadAsync<Book>(bookId, new DynamoDBContextConfig
            {
                ConsistentRead = true,
            });

            // Delete the book.
            await context.DeleteAsync<Book>(bookId);

            // Try to retrieve deleted book. It should return null.
            Book deletedBook = await context.LoadAsync<Book>(bookId, new DynamoDBContextConfig
            {
                ConsistentRead = true,
            });

            if (deletedBook == null)
            {
                Console.WriteLine("Book is deleted");
            }
        }
    }
```
Lakukan operasi tulis batch menggunakan model persistensi objek tingkat tinggi.  

```
    /// <summary>
    /// Performs high-level batch write operations to an Amazon DynamoDB table.
    /// This example was written using the AWS SDK for .NET version 3.7 and .NET
    /// Core 5.0.
    /// </summary>
    public class HighLevelBatchWriteItem
    {
        public static async Task SingleTableBatchWrite(IDynamoDBContext context)
        {
            Book book1 = new Book
            {
                Id = 902,
                InPublication = true,
                Isbn = "902-11-11-1111",
                PageCount = "100",
                Price = 10,
                ProductCategory = "Book",
                Title = "My book3 in batch write",
            };

            Book book2 = new Book
            {
                Id = 903,
                InPublication = true,
                Isbn = "903-11-11-1111",
                PageCount = "200",
                Price = 10,
                ProductCategory = "Book",
                Title = "My book4 in batch write",
            };

            var bookBatch = context.CreateBatchWrite<Book>();
            bookBatch.AddPutItems(new List<Book> { book1, book2 });

            Console.WriteLine("Adding two books to ProductCatalog table.");
            await bookBatch.ExecuteAsync();
        }

        public static async Task MultiTableBatchWrite(IDynamoDBContext context)
        {
            // New Forum item.
            Forum newForum = new Forum
            {
                Name = "Test BatchWrite Forum",
                Threads = 0,
            };
            var forumBatch = context.CreateBatchWrite<Forum>();
            forumBatch.AddPutItem(newForum);

            // New Thread item.
            Thread newThread = new Thread
            {
                ForumName = "S3 forum",
                Subject = "My sample question",
                KeywordTags = new List<string> { "S3", "Bucket" },
                Message = "Message text",
            };

            DynamoDBOperationConfig config = new DynamoDBOperationConfig();
            config.SkipVersionCheck = true;
            var threadBatch = context.CreateBatchWrite<Thread>(config);
            threadBatch.AddPutItem(newThread);
            threadBatch.AddDeleteKey("some partition key value", "some sort key value");

            var superBatch = new MultiTableBatchWrite(forumBatch, threadBatch);

            Console.WriteLine("Performing batch write in MultiTableBatchWrite().");
            await superBatch.ExecuteAsync();
        }

        public static async Task Main()
        {
            AmazonDynamoDBClient client = new AmazonDynamoDBClient();
            DynamoDBContext context = new DynamoDBContext(client);

            await SingleTableBatchWrite(context);
            await MultiTableBatchWrite(context);
        }
    }
```
Memetakan data arbitrer ke tabel menggunakan model persistensi objek tingkat tinggi.  

```
    /// <summary>
    /// Shows how to map arbitrary data to an Amazon DynamoDB table.
    /// </summary>
    public class HighLevelMappingArbitraryData
    {
        /// <summary>
        /// Creates a book, adds it to the DynamoDB ProductCatalog table, retrieves
        /// the new book from the table, updates the dimensions and writes the
        /// changed item back to the table.
        /// </summary>
        /// <param name="context">The DynamoDB context object used to write and
        /// read data from the table.</param>
        public static async Task AddRetrieveUpdateBook(IDynamoDBContext context)
        {
            // Create a book.
            DimensionType myBookDimensions = new DimensionType()
            {
                Length = 8M,
                Height = 11M,
                Thickness = 0.5M,
            };

            Book myBook = new Book
            {
                Id = 501,
                Title = "AWS SDK for .NET Object Persistence Model Handling Arbitrary Data",
                Isbn = "999-9999999999",
                BookAuthors = new List<string> { "Author 1", "Author 2" },
                Dimensions = myBookDimensions,
            };

            // Add the book to the DynamoDB table ProductCatalog.
            await context.SaveAsync(myBook);

            // Retrieve the book.
            Book bookRetrieved = await context.LoadAsync<Book>(501);

            // Update the book dimensions property.
            bookRetrieved.Dimensions.Height += 1;
            bookRetrieved.Dimensions.Length += 1;
            bookRetrieved.Dimensions.Thickness += 0.2M;

            // Write the changed item to the table.
            await context.SaveAsync(bookRetrieved);
        }

        public static async Task Main()
        {
            var client = new AmazonDynamoDBClient();
            DynamoDBContext context = new DynamoDBContext(client);
            await AddRetrieveUpdateBook(context);
        }
    }
```
Kueri dan pindai tabel menggunakan model persistensi objek tingkat tinggi.  

```
    /// <summary>
    /// Shows how to perform high-level query and scan operations to Amazon
    /// DynamoDB tables.
    /// </summary>
    public class HighLevelQueryAndScan
    {
        public static async Task Main()
        {
            var client = new AmazonDynamoDBClient();

            DynamoDBContext context = new DynamoDBContext(client);

            // Get an item.
            await GetBook(context, 101);

            // Sample forum and thread to test queries.
            string forumName = "Amazon DynamoDB";
            string threadSubject = "DynamoDB Thread 1";

            // Sample queries.
            await FindRepliesInLast15Days(context, forumName, threadSubject);
            await FindRepliesPostedWithinTimePeriod(context, forumName, threadSubject);

            // Scan table.
            await FindProductsPricedLessThanZero(context);
        }

        public static async Task GetBook(IDynamoDBContext context, int productId)
        {
            Book bookItem = await context.LoadAsync<Book>(productId);

            Console.WriteLine("\nGetBook: Printing result.....");
            Console.WriteLine($"Title: {bookItem.Title} \n ISBN:{bookItem.Isbn} \n No. of pages: {bookItem.PageCount}");
        }

        /// <summary>
        /// Queries a DynamoDB table to find replies posted within the last 15 days.
        /// </summary>
        /// <param name="context">The DynamoDB context used to perform the query.</param>
        /// <param name="forumName">The name of the forum that we're interested in.</param>
        /// <param name="threadSubject">The thread object containing the query parameters.</param>
        public static async Task FindRepliesInLast15Days(
          IDynamoDBContext context,
          string forumName,
          string threadSubject)
        {
            string replyId = $"{forumName} #{threadSubject}";
            DateTime twoWeeksAgoDate = DateTime.UtcNow - TimeSpan.FromDays(15);

            List<object> times = new List<object>();
            times.Add(twoWeeksAgoDate);

            List<ScanCondition> scs = new List<ScanCondition>();
            var sc = new ScanCondition("PostedBy", ScanOperator.GreaterThan, times.ToArray());
            scs.Add(sc);

            var cfg = new DynamoDBOperationConfig
            {
                QueryFilter = scs,
            };

            AsyncSearch<Reply> response = context.QueryAsync<Reply>(replyId, cfg);
            IEnumerable<Reply> latestReplies = await response.GetRemainingAsync();

            Console.WriteLine("\nReplies in last 15 days:");

            foreach (Reply r in latestReplies)
            {
                Console.WriteLine($"{r.Id}\t{r.PostedBy}\t{r.Message}\t{r.ReplyDateTime}");
            }
        }

        /// <summary>
        /// Queries for replies posted within a specific time period.
        /// </summary>
        /// <param name="context">The DynamoDB context used to perform the query.</param>
        /// <param name="forumName">The name of the forum that we're interested in.</param>
        /// <param name="threadSubject">Information about the subject that we're
        /// interested in.</param>
        public static async Task FindRepliesPostedWithinTimePeriod(
          IDynamoDBContext context,
          string forumName,
          string threadSubject)
        {
            string forumId = forumName + "#" + threadSubject;
            Console.WriteLine("\nReplies posted within time period:");

            DateTime startDate = DateTime.UtcNow - TimeSpan.FromDays(30);
            DateTime endDate = DateTime.UtcNow - TimeSpan.FromDays(1);

            List<object> times = new List<object>();
            times.Add(startDate);
            times.Add(endDate);

            List<ScanCondition> scs = new List<ScanCondition>();
            var sc = new ScanCondition("LastPostedBy", ScanOperator.Between, times.ToArray());
            scs.Add(sc);

            var cfg = new DynamoDBOperationConfig
            {
                QueryFilter = scs,
            };

            AsyncSearch<Reply> response = context.QueryAsync<Reply>(forumId, cfg);
            IEnumerable<Reply> repliesInAPeriod = await response.GetRemainingAsync();

            foreach (Reply r in repliesInAPeriod)
            {
                Console.WriteLine("{r.Id}\t{r.PostedBy}\t{r.Message}\t{r.ReplyDateTime}");
            }
        }

        /// <summary>
        /// Queries the DynamoDB ProductCatalog table for products costing less
        /// than zero.
        /// </summary>
        /// <param name="context">The DynamoDB context object used to perform the
        /// query.</param>
        public static async Task FindProductsPricedLessThanZero(IDynamoDBContext context)
        {
            int price = 0;

            List<ScanCondition> scs = new List<ScanCondition>();
            var sc1 = new ScanCondition("Price", ScanOperator.LessThan, price);
            var sc2 = new ScanCondition("ProductCategory", ScanOperator.Equal, "Book");
            scs.Add(sc1);
            scs.Add(sc2);

            AsyncSearch<Book> response = context.ScanAsync<Book>(scs);

            IEnumerable<Book> itemsWithWrongPrice = await response.GetRemainingAsync();

            Console.WriteLine("\nFindProductsPricedLessThanZero: Printing result.....");

            foreach (Book r in itemsWithWrongPrice)
            {
                Console.WriteLine($"{r.Id}\t{r.Title}\t{r.Price}\t{r.Isbn}");
            }
        }
    }
```

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Text.Json;
using System.Text;
using Amazon.Lambda.Core;
using Amazon.Lambda.DynamoDBEvents;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace AWSLambda_DDB;

public class Function
{
    public void FunctionHandler(DynamoDBEvent dynamoEvent, ILambdaContext context)
    {
        context.Logger.LogInformation($"Beginning to process {dynamoEvent.Records.Count} records...");

        foreach (var record in dynamoEvent.Records)
        {
            context.Logger.LogInformation($"Event ID: {record.EventID}");
            context.Logger.LogInformation($"Event Name: {record.EventName}");

            context.Logger.LogInformation(JsonSerializer.Serialize(record));
        }

        context.Logger.LogInformation("Stream processing complete.");
    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Text.Json;
using System.Text;
using Amazon.Lambda.Core;
using Amazon.Lambda.DynamoDBEvents;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace AWSLambda_DDB;

public class Function
{
    public StreamsEventResponse FunctionHandler(DynamoDBEvent dynamoEvent, ILambdaContext context)

    {
        context.Logger.LogInformation($"Beginning to process {dynamoEvent.Records.Count} records...");
        List<StreamsEventResponse.BatchItemFailure> batchItemFailures = new List<StreamsEventResponse.BatchItemFailure>();
        StreamsEventResponse streamsEventResponse = new StreamsEventResponse();

        foreach (var record in dynamoEvent.Records)
        {
            try
            {
                var sequenceNumber = record.Dynamodb.SequenceNumber;
                context.Logger.LogInformation(sequenceNumber);
            }
            catch (Exception ex)
            {
                context.Logger.LogError(ex.Message);
                batchItemFailures.Add(new StreamsEventResponse.BatchItemFailure() { ItemIdentifier = record.Dynamodb.SequenceNumber });
            }
        }

        if (batchItemFailures.Count > 0)
        {
            streamsEventResponse.BatchItemFailures = batchItemFailures;
        }

        context.Logger.LogInformation("Stream processing complete.");
        return streamsEventResponse;
    }
}
```

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk .NET**  
 Menunjukkan cara membangun dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan .NET SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-dotnet-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh Amazon EC2 menggunakan SDK untuk .NET
<a name="csharp_3_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon EC2. AWS SDK untuk .NET 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ec2_Scenario_GetStartedInstances_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat pasangan kunci dan grup keamanan.
+ Memilih Amazon Machine Image (AMI) dan tipe instans yang kompatibel, lalu membuat instans.
+ Menghentikan dan memulai ulang instans.
+ Kaitkan alamat IP Elastis dengan instans Anda.
+ Menghubungkan instans Anda dengan SSH, lalu membersihkan sumber daya.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 
Menjalankan skenario di prompt perintah.  

```
/// <summary>
/// Show Amazon Elastic Compute Cloud (Amazon EC2) Basics actions.
/// </summary>
public class EC2Basics
{
    public static ILogger<EC2Basics> _logger = null!;
    public static EC2Wrapper _ec2Wrapper = null!;
    public static SsmWrapper _ssmWrapper = null!;
    public static UiMethods _uiMethods = null!;

    public static string associationId = null!;
    public static string allocationId = null!;
    public static string instanceId = null!;
    public static string keyPairName = null!;
    public static string groupName = null!;
    public static string tempFileName = null!;
    public static string secGroupId = null!;
    public static bool isInteractive = true;

    /// <summary>
    /// Perform the actions defined for the Amazon EC2 Basics scenario.
    /// </summary>
    /// <param name="args">Command line arguments.</param>
    /// <returns>A Task object.</returns>
    public static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon EC2 and Amazon Simple Systems
        // Management (Amazon SSM) Service.
        using var host = Microsoft.Extensions.Hosting.Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonEC2>()
                    .AddAWSService<IAmazonSimpleSystemsManagement>()
                    .AddTransient<EC2Wrapper>()
                    .AddTransient<SsmWrapper>()
            )
            .Build();

        SetUpServices(host);

        var uniqueName = Guid.NewGuid().ToString();
        keyPairName = "mvp-example-key-pair" + uniqueName;
        groupName = "ec2-scenario-group" + uniqueName;
        var groupDescription = "A security group created for the EC2 Basics scenario.";

        try
        {
            // Start the scenario.
            _uiMethods.DisplayOverview();
            _uiMethods.PressEnter(isInteractive);

            // Create the key pair.
            _uiMethods.DisplayTitle("Create RSA key pair");
            Console.Write("Let's create an RSA key pair that you can be use to ");
            Console.WriteLine("securely connect to your EC2 instance.");
            var keyPair = await _ec2Wrapper.CreateKeyPair(keyPairName);

            // Save key pair information to a temporary file.
            tempFileName = _ec2Wrapper.SaveKeyPair(keyPair);

            Console.WriteLine(
                $"Created the key pair: {keyPair.KeyName} and saved it to: {tempFileName}");
            string? answer = "";
            if (isInteractive)
            {
                do
                {
                    Console.Write("Would you like to list your existing key pairs? ");
                    answer = Console.ReadLine();
                } while (answer!.ToLower() != "y" && answer.ToLower() != "n");
            }

            if (!isInteractive || answer == "y")
            {
                // List existing key pairs.
                _uiMethods.DisplayTitle("Existing key pairs");

                // Passing an empty string to the DescribeKeyPairs method will return
                // a list of all existing key pairs.
                var keyPairs = await _ec2Wrapper.DescribeKeyPairs("");
                keyPairs.ForEach(kp =>
                {
                    Console.WriteLine(
                        $"{kp.KeyName} created at: {kp.CreateTime} Fingerprint: {kp.KeyFingerprint}");
                });
            }

            _uiMethods.PressEnter(isInteractive);

            // Create the security group.
            Console.WriteLine(
                "Let's create a security group to manage access to your instance.");
            secGroupId = await _ec2Wrapper.CreateSecurityGroup(groupName, groupDescription);
            Console.WriteLine(
                "Let's add rules to allow all HTTP and HTTPS inbound traffic and to allow SSH only from your current IP address.");

            _uiMethods.DisplayTitle("Security group information");
            var secGroups = await _ec2Wrapper.DescribeSecurityGroups(secGroupId);

            Console.WriteLine($"Created security group {groupName} in your default VPC.");
            secGroups.ForEach(group =>
            {
                _ec2Wrapper.DisplaySecurityGroupInfoAsync(group);
            });
            _uiMethods.PressEnter(isInteractive);

            Console.WriteLine(
                "Now we'll authorize the security group we just created so that it can");
            Console.WriteLine("access the EC2 instances you create.");
            await _ec2Wrapper.AuthorizeSecurityGroupIngress(groupName);

            secGroups = await _ec2Wrapper.DescribeSecurityGroups(secGroupId);
            Console.WriteLine($"Now let's look at the permissions again.");
            secGroups.ForEach(group =>
            {
                _ec2Wrapper.DisplaySecurityGroupInfoAsync(group);
            });
            _uiMethods.PressEnter(isInteractive);

            // Get list of available Amazon Linux 2 Amazon Machine Images (AMIs).
            var parameters =
                await _ssmWrapper.GetParametersByPath(
                    "/aws/service/ami-amazon-linux-latest");

            List<string> imageIds = parameters.Select(param => param.Value).ToList();

            var images = await _ec2Wrapper.DescribeImages(imageIds);

            var i = 1;
            images.ForEach(image =>
            {
                Console.WriteLine($"\t{i++}\t{image.Description}");
            });

            int choice = 1;
            bool validNumber = false;
            if (isInteractive)
            {
                do
                {
                    Console.Write("Please select an image: ");
                    var selImage = Console.ReadLine();
                    validNumber = int.TryParse(selImage, out choice);
                } while (!validNumber);
            }

            var selectedImage = images[choice - 1];

            // Display available instance types.
            _uiMethods.DisplayTitle("Instance Types");
            var instanceTypes =
                await _ec2Wrapper.DescribeInstanceTypes(selectedImage.Architecture);

            i = 1;
            instanceTypes.ForEach(instanceType =>
            {
                Console.WriteLine($"\t{i++}\t{instanceType.InstanceType}");
            });
            if (isInteractive)
            {
                do
                {
                    Console.Write("Please select an instance type: ");
                    var selImage = Console.ReadLine();
                    validNumber = int.TryParse(selImage, out choice);
                } while (!validNumber);
            }

            var selectedInstanceType = instanceTypes[choice - 1].InstanceType;

            // Create an EC2 instance.
            _uiMethods.DisplayTitle("Creating an EC2 Instance");
            instanceId = await _ec2Wrapper.RunInstances(selectedImage.ImageId,
                selectedInstanceType, keyPairName, secGroupId);

            _uiMethods.PressEnter(isInteractive);

            var instance = await _ec2Wrapper.DescribeInstance(instanceId);
            _uiMethods.DisplayTitle("New Instance Information");
            _ec2Wrapper.DisplayInstanceInformation(instance);

            Console.WriteLine(
                "\nYou can use SSH to connect to your instance. For example:");
            Console.WriteLine(
                $"\tssh -i {tempFileName} ec2-user@{instance.PublicIpAddress}");

            _uiMethods.PressEnter(isInteractive);

            Console.WriteLine(
                "Now we'll stop the instance and then start it again to see what's changed.");

            await _ec2Wrapper.StopInstances(instanceId);

            Console.WriteLine("Now let's start it up again.");
            await _ec2Wrapper.StartInstances(instanceId);

            Console.WriteLine("\nLet's see what changed.");

            instance = await _ec2Wrapper.DescribeInstance(instanceId);
            _uiMethods.DisplayTitle("New Instance Information");
            _ec2Wrapper.DisplayInstanceInformation(instance);

            Console.WriteLine("\nNotice the change in the SSH information:");
            Console.WriteLine(
                $"\tssh -i {tempFileName} ec2-user@{instance.PublicIpAddress}");

            _uiMethods.PressEnter(isInteractive);

            Console.WriteLine(
                "Now we will stop the instance again. Then we will create and associate an");
            Console.WriteLine("Elastic IP address to use with our instance.");

            await _ec2Wrapper.StopInstances(instanceId);
            _uiMethods.PressEnter(isInteractive);

            _uiMethods.DisplayTitle("Allocate Elastic IP address");
            Console.WriteLine(
                "You can allocate an Elastic IP address and associate it with your instance\nto keep a consistent IP address even when your instance restarts.");
            var allocationResponse = await _ec2Wrapper.AllocateAddress();
            allocationId = allocationResponse.AllocationId;
            Console.WriteLine(
                "Now we will associate the Elastic IP address with our instance.");
            associationId = await _ec2Wrapper.AssociateAddress(allocationId, instanceId);

            // Start the instance again.
            Console.WriteLine("Now let's start the instance again.");
            await _ec2Wrapper.StartInstances(instanceId);

            Console.WriteLine("\nLet's see what changed.");

            instance = await _ec2Wrapper.DescribeInstance(instanceId);
            _uiMethods.DisplayTitle("Instance information");
            _ec2Wrapper.DisplayInstanceInformation(instance);

            Console.WriteLine("\nHere is the SSH information:");
            Console.WriteLine(
                $"\tssh -i {tempFileName} ec2-user@{instance.PublicIpAddress}");

            Console.WriteLine("Let's stop and start the instance again.");
            _uiMethods.PressEnter(isInteractive);

            await _ec2Wrapper.StopInstances(instanceId);

            Console.WriteLine("\nThe instance has stopped.");

            Console.WriteLine("Now let's start it up again.");
            await _ec2Wrapper.StartInstances(instanceId);

            instance = await _ec2Wrapper.DescribeInstance(instanceId);
            _uiMethods.DisplayTitle("New Instance Information");
            _ec2Wrapper.DisplayInstanceInformation(instance);
            Console.WriteLine("Note that the IP address did not change this time.");
            _uiMethods.PressEnter(isInteractive);

            await Cleanup();
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "There was a problem with the scenario, starting cleanup.");
            await Cleanup();
        }

        _uiMethods.DisplayTitle("EC2 Basics Scenario completed.");
        _uiMethods.PressEnter(isInteractive);
    }

    /// <summary>
    /// Set up the services and logging.
    /// </summary>
    /// <param name="host"></param>
    public static void SetUpServices(IHost host)
    {
        var loggerFactory = LoggerFactory.Create(builder =>
        {
            builder.AddConsole();
        });
        _logger = new Logger<EC2Basics>(loggerFactory);

        // Now the client is available for injection.
        _ec2Wrapper = host.Services.GetRequiredService<EC2Wrapper>();
        _ssmWrapper = host.Services.GetRequiredService<SsmWrapper>();
        _uiMethods = new UiMethods();
    }

    /// <summary>
    /// Clean up any resources from the scenario.
    /// </summary>
    /// <returns></returns>
    public static async Task Cleanup()
    {
        _uiMethods.DisplayTitle("Clean up resources");
        Console.WriteLine("Now let's clean up the resources we created.");

        Console.WriteLine("Disassociate the Elastic IP address and release it.");
        // Disassociate the Elastic IP address.
        await _ec2Wrapper.DisassociateIp(associationId);

        // Delete the Elastic IP address.
        await _ec2Wrapper.ReleaseAddress(allocationId);

        // Terminate the instance.
        Console.WriteLine("Terminating the instance we created.");
        await _ec2Wrapper.TerminateInstances(instanceId);

        // Delete the security group.
        Console.WriteLine($"Deleting the Security Group: {groupName}.");
        await _ec2Wrapper.DeleteSecurityGroup(secGroupId);

        // Delete the RSA key pair.
        Console.WriteLine($"Deleting the key pair: {keyPairName}");
        await _ec2Wrapper.DeleteKeyPair(keyPairName);
        Console.WriteLine("Deleting the temporary file with the key information.");
        _ec2Wrapper.DeleteTempFile(tempFileName);
        _uiMethods.PressEnter(isInteractive);
    }
}
```
Menentukan kelas yang menggabungkan tindakan EC2.  

```
/// <summary>
/// Methods of this class perform Amazon Elastic Compute Cloud (Amazon EC2).
/// </summary>
public class EC2Wrapper
{
    private readonly IAmazonEC2 _amazonEC2;
    private readonly ILogger<EC2Wrapper> _logger;

    /// <summary>
    /// Constructor for the EC2Wrapper class.
    /// </summary>
    /// <param name="amazonScheduler">The injected EC2 client.</param>
    /// <param name="logger">The injected logger.</param>
    public EC2Wrapper(IAmazonEC2 amazonService, ILogger<EC2Wrapper> logger)
    {
        _amazonEC2 = amazonService;
        _logger = logger;
    }

    /// <summary>
    /// Allocates an Elastic IP address that can be associated with an Amazon EC2
    // instance. By using an Elastic IP address, you can keep the public IP address
    // constant even when you restart the associated instance.
    /// </summary>
    /// <returns>The response object for the allocated address.</returns>
    public async Task<AllocateAddressResponse> AllocateAddress()
    {
        var request = new AllocateAddressRequest();

        try
        {
            var response = await _amazonEC2.AllocateAddressAsync(request);
            Console.WriteLine($"Allocated IP: {response.PublicIp} with allocation ID {response.AllocationId}.");
            return response;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "AddressLimitExceeded")
            {
                // For more information on Elastic IP address quotas, see:
                // https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html#using-instance-addressing-limit
                _logger.LogError($"Unable to allocate Elastic IP, address limit exceeded. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while allocating Elastic IP.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Associates an Elastic IP address with an instance. When this association is
    /// created, the Elastic IP's public IP address is immediately used as the public
    /// IP address of the associated instance.
    /// </summary>
    /// <param name="allocationId">The allocation Id of an Elastic IP address.</param>
    /// <param name="instanceId">The instance Id of the EC2 instance to
    /// associate the address with.</param>
    /// <returns>The association Id that represents
    /// the association of the Elastic IP address with an instance.</returns>
    public async Task<string> AssociateAddress(string allocationId, string instanceId)
    {
        try
        {
            var request = new AssociateAddressRequest
            {
                AllocationId = allocationId,
                InstanceId = instanceId
            };

            var response = await _amazonEC2.AssociateAddressAsync(request);
            return response.AssociationId;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId is invalid, unable to associate address. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while associating the Elastic IP.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Authorize the local computer ingress to EC2 instances associated
    /// with the virtual private cloud (VPC) security group.
    /// </summary>
    /// <param name="groupName">The name of the security group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> AuthorizeSecurityGroupIngress(string groupName)
    {
        try
        {
            // Get the IP address for the local computer.
            var ipAddress = await GetIpAddress();
            Console.WriteLine($"Your IP address is: {ipAddress}");
            var ipRanges =
                new List<IpRange> { new IpRange { CidrIp = $"{ipAddress}/32" } };
            var permission = new IpPermission
            {
                Ipv4Ranges = ipRanges,
                IpProtocol = "tcp",
                FromPort = 22,
                ToPort = 22
            };
            var permissions = new List<IpPermission> { permission };
            var response = await _amazonEC2.AuthorizeSecurityGroupIngressAsync(
                new AuthorizeSecurityGroupIngressRequest(groupName, permissions));
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidPermission.Duplicate")
            {
                _logger.LogError(
                    $"The ingress rule already exists. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while authorizing ingress.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Authorize the local computer for ingress to
    /// the Amazon EC2 SecurityGroup.
    /// </summary>
    /// <returns>The IPv4 address of the computer running the scenario.</returns>
    private static async Task<string> GetIpAddress()
    {
        var httpClient = new HttpClient();
        var ipString = await httpClient.GetStringAsync("https://checkip.amazonaws.com");

        // The IP address is returned with a new line
        // character on the end. Trim off the whitespace and
        // return the value to the caller.
        return ipString.Trim();
    }

    /// <summary>
    /// Create an Amazon EC2 key pair with a specified name.
    /// </summary>
    /// <param name="keyPairName">The name for the new key pair.</param>
    /// <returns>The Amazon EC2 key pair created.</returns>
    public async Task<KeyPair?> CreateKeyPair(string keyPairName)
    {
        try
        {
            var request = new CreateKeyPairRequest { KeyName = keyPairName, };

            var response = await _amazonEC2.CreateKeyPairAsync(request);

            var kp = response.KeyPair;
            // Return the key pair so it can be saved if needed.

            // Wait until the key pair exists.
            int retries = 5;
            while (retries-- > 0)
            {
                Console.WriteLine($"Checking for new KeyPair {keyPairName}...");
                var keyPairs = await DescribeKeyPairs(keyPairName);
                if (keyPairs.Any())
                {
                    return kp;
                }

                Thread.Sleep(5000);
                retries--;
            }
            _logger.LogError($"Unable to find newly created KeyPair {keyPairName}.");
            throw new DoesNotExistException("KeyPair not found");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidKeyPair.Duplicate")
            {
                _logger.LogError(
                    $"A key pair called {keyPairName} already exists.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while creating the key pair.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Save KeyPair information to a temporary file.
    /// </summary>
    /// <param name="keyPair">The name of the key pair.</param>
    /// <returns>The full path to the temporary file.</returns>
    public string SaveKeyPair(KeyPair keyPair)
    {
        var tempPath = Path.GetTempPath();
        var tempFileName = $"{tempPath}\\{Path.GetRandomFileName()}";
        var pemFileName = Path.ChangeExtension(tempFileName, "pem");

        // Save the key pair to a file in a temporary folder.
        using var stream = new FileStream(pemFileName, FileMode.Create);
        using var writer = new StreamWriter(stream);
        writer.WriteLine(keyPair.KeyMaterial);

        return pemFileName;
    }

    /// <summary>
    /// Create an Amazon EC2 security group with a specified name and description.
    /// </summary>
    /// <param name="groupName">The name for the new security group.</param>
    /// <param name="groupDescription">A description of the new security group.</param>
    /// <returns>The group Id of the new security group.</returns>
    public async Task<string> CreateSecurityGroup(string groupName, string groupDescription)
    {
        try
        {
            var response = await _amazonEC2.CreateSecurityGroupAsync(
                new CreateSecurityGroupRequest(groupName, groupDescription));

            // Wait until the security group exists.
            int retries = 5;
            while (retries-- > 0)
            {
                var groups = await DescribeSecurityGroups(response.GroupId);
                if (groups.Any())
                {
                    return response.GroupId;
                }

                Thread.Sleep(5000);
                retries--;
            }
            _logger.LogError($"Unable to find newly created group {groupName}.");
            throw new DoesNotExistException("security group not found");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "ResourceAlreadyExists")
            {
                _logger.LogError(
                    $"A security group with the name {groupName} already exists. {ec2Exception.Message}");
            }
            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while creating the security group.: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Create a new Amazon EC2 VPC.
    /// </summary>
    /// <param name="cidrBlock">The CIDR block for the new security group.</param>
    /// <returns>The VPC Id of the new VPC.</returns>
    public async Task<string?> CreateVPC(string cidrBlock)
    {

        try
        {
            var response = await _amazonEC2.CreateVpcAsync(new CreateVpcRequest
            {
                CidrBlock = cidrBlock,
            });

            Vpc vpc = response.Vpc;
            Console.WriteLine($"Created VPC with ID: {vpc.VpcId}.");
            return vpc.VpcId;
        }
        catch (AmazonEC2Exception ex)
        {
            Console.WriteLine($"Couldn't create VPC because: {ex.Message}");
            return null;
        }
    }

    /// <summary>
    /// Delete an Amazon EC2 key pair.
    /// </summary>
    /// <param name="keyPairName">The name of the key pair to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteKeyPair(string keyPairName)
    {
        try
        {
            await _amazonEC2.DeleteKeyPairAsync(new DeleteKeyPairRequest(keyPairName)).ConfigureAwait(false);
            return true;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidKeyPair.NotFound")
            {
                _logger.LogError($"KeyPair {keyPairName} does not exist and cannot be deleted. Please verify the key pair name and try again.");
            }

            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't delete the key pair because: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Delete the temporary file where the key pair information was saved.
    /// </summary>
    /// <param name="tempFileName">The path to the temporary file.</param>
    public void DeleteTempFile(string tempFileName)
    {
        if (File.Exists(tempFileName))
        {
            File.Delete(tempFileName);
        }
    }

    /// <summary>
    /// Delete an Amazon EC2 security group.
    /// </summary>
    /// <param name="groupName">The name of the group to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteSecurityGroup(string groupId)
    {
        try
        {
            var response =
                await _amazonEC2.DeleteSecurityGroupAsync(
                    new DeleteSecurityGroupRequest { GroupId = groupId });
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidGroup.NotFound")
            {
                _logger.LogError(
                    $"Security Group {groupId} does not exist and cannot be deleted. Please verify the ID and try again.");
            }

            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't delete the security group because: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Delete an Amazon EC2 VPC.
    /// </summary>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteVpc(string vpcId)
    {
        var request = new DeleteVpcRequest
        {
            VpcId = vpcId,
        };

        var response = await _amazonEC2.DeleteVpcAsync(request);

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }

    /// <summary>
    /// Get information about existing Amazon EC2 images.
    /// </summary>
    /// <returns>A list of image information.</returns>
    public async Task<List<Image>> DescribeImages(List<string>? imageIds)
    {
        var request = new DescribeImagesRequest();
        if (imageIds is not null)
        {
            // If the imageIds list is not null, add the list
            // to the request object.
            request.ImageIds = imageIds;
        }

        var response = await _amazonEC2.DescribeImagesAsync(request);
        return response.Images;
    }

    /// <summary>
    /// Display the information returned by DescribeImages.
    /// </summary>
    /// <param name="images">The list of image information to display.</param>
    public void DisplayImageInfo(List<Image> images)
    {
        images.ForEach(image =>
        {
            Console.WriteLine($"{image.Name} Created on: {image.CreationDate}");
        });

    }

    /// <summary>
    /// Get information about an Amazon EC2 instance.
    /// </summary>
    /// <param name="instanceId">The instance Id of the EC2 instance.</param>
    /// <returns>An EC2 instance.</returns>
    public async Task<Instance> DescribeInstance(string instanceId)
    {
        var response = await _amazonEC2.DescribeInstancesAsync(
            new DescribeInstancesRequest { InstanceIds = new List<string> { instanceId } });
        return response.Reservations[0].Instances[0];
    }

    /// <summary>
    /// Display EC2 instance information.
    /// </summary>
    /// <param name="instance">The instance Id of the EC2 instance.</param>
    public void DisplayInstanceInformation(Instance instance)
    {
        Console.WriteLine($"ID: {instance.InstanceId}");
        Console.WriteLine($"Image ID: {instance.ImageId}");
        Console.WriteLine($"{instance.InstanceType}");
        Console.WriteLine($"Key Name: {instance.KeyName}");
        Console.WriteLine($"VPC ID: {instance.VpcId}");
        Console.WriteLine($"Public IP: {instance.PublicIpAddress}");
        Console.WriteLine($"State: {instance.State.Name}");
    }

    /// <summary>
    /// Get information about EC2 instances with a particular state.
    /// </summary>
    /// <param name="tagName">The name of the tag to filter on.</param>
    /// <param name="tagValue">The value of the tag to look for.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> GetInstancesWithState(string state)
    {
        try
        {
            // Filters the results of the instance list.
            var filters = new List<Filter>
            {
                new Filter
                {
                    Name = $"instance-state-name",
                    Values = new List<string> { state, },
                },
            };
            var request = new DescribeInstancesRequest { Filters = filters, };

            Console.WriteLine($"\nShowing instances with state {state}");
            var paginator = _amazonEC2.Paginators.DescribeInstances(request);

            await foreach (var response in paginator.Responses)
            {
                foreach (var reservation in response.Reservations)
                {
                    foreach (var instance in reservation.Instances)
                    {
                        Console.Write($"Instance ID: {instance.InstanceId} ");
                        Console.WriteLine($"\tCurrent State: {instance.State.Name}");
                    }
                }
            }

            return true;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidParameterValue")
            {
                _logger.LogError(
                    $"Invalid parameter value for filtering instances.");
            }

            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't list instances because: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Describe the instance types available.
    /// </summary>
    /// <returns>A list of instance type information.</returns>
    public async Task<List<InstanceTypeInfo>> DescribeInstanceTypes(ArchitectureValues architecture)
    {
        try
        {
            var request = new DescribeInstanceTypesRequest();

            var filters = new List<Filter>
            {
                new Filter("processor-info.supported-architecture",
                    new List<string> { architecture.ToString() })
            };
            filters.Add(new Filter("instance-type", new() { "*.micro", "*.small" }));

            request.Filters = filters;
            var instanceTypes = new List<InstanceTypeInfo>();

            var paginator = _amazonEC2.Paginators.DescribeInstanceTypes(request);
            await foreach (var instanceType in paginator.InstanceTypes)
            {
                instanceTypes.Add(instanceType);
            }

            return instanceTypes;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidParameterValue")
            {
                _logger.LogError(
                    $"Parameters are invalid. Ensure architecture and size strings conform to DescribeInstanceTypes API reference.");
            }

            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't delete the security group because: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get information about an Amazon EC2 key pair.
    /// </summary>
    /// <param name="keyPairName">The name of the key pair.</param>
    /// <returns>A list of key pair information.</returns>
    public async Task<List<KeyPairInfo>> DescribeKeyPairs(string keyPairName)
    {
        try
        {
            var request = new DescribeKeyPairsRequest();
            if (!string.IsNullOrEmpty(keyPairName))
            {
                request = new DescribeKeyPairsRequest
                {
                    KeyNames = new List<string> { keyPairName }
                };
            }

            var response = await _amazonEC2.DescribeKeyPairsAsync(request);
            return response.KeyPairs.ToList();
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidKeyPair.NotFound")
            {
                _logger.LogError(
                    $"A key pair called {keyPairName} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while describing the key pair.: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Retrieve information for one or all Amazon EC2 security group.
    /// </summary>
    /// <param name="groupId">The optional Id of a specific Amazon EC2 security group.</param>
    /// <returns>A list of security group information.</returns>
    public async Task<List<SecurityGroup>> DescribeSecurityGroups(string groupId)
    {
        try
        {
            var securityGroups = new List<SecurityGroup>();
            var request = new DescribeSecurityGroupsRequest();

            if (!string.IsNullOrEmpty(groupId))
            {
                var groupIds = new List<string> { groupId };
                request.GroupIds = groupIds;
            }

            var paginatorForSecurityGroups =
                _amazonEC2.Paginators.DescribeSecurityGroups(request);

            await foreach (var securityGroup in paginatorForSecurityGroups.SecurityGroups)
            {
                securityGroups.Add(securityGroup);
            }

            return securityGroups;

        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidGroup.NotFound")
            {
                _logger.LogError(
                    $"A security group {groupId} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while listing security groups. {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Display the information returned by the call to
    /// DescribeSecurityGroupsAsync.
    /// </summary>
    /// <param name="securityGroup">A list of security group information.</param>
    public void DisplaySecurityGroupInfoAsync(SecurityGroup securityGroup)
    {
        Console.WriteLine($"{securityGroup.GroupName}");
        Console.WriteLine("Ingress permissions:");
        securityGroup.IpPermissions.ForEach(permission =>
        {
            Console.WriteLine($"\tFromPort: {permission.FromPort}");
            Console.WriteLine($"\tIpProtocol: {permission.IpProtocol}");

            Console.Write($"\tIpv4Ranges: ");
            permission.Ipv4Ranges.ForEach(range => { Console.Write($"{range.CidrIp} "); });

            Console.WriteLine($"\n\tIpv6Ranges:");
            permission.Ipv6Ranges.ForEach(range => { Console.Write($"{range.CidrIpv6} "); });

            Console.Write($"\n\tPrefixListIds: ");
            permission.PrefixListIds.ForEach(id => Console.Write($"{id.Id} "));

            Console.WriteLine($"\n\tTo Port: {permission.ToPort}");
        });
        Console.WriteLine("Egress permissions:");
        securityGroup.IpPermissionsEgress.ForEach(permission =>
        {
            Console.WriteLine($"\tFromPort: {permission.FromPort}");
            Console.WriteLine($"\tIpProtocol: {permission.IpProtocol}");

            Console.Write($"\tIpv4Ranges: ");
            permission.Ipv4Ranges.ForEach(range => { Console.Write($"{range.CidrIp} "); });

            Console.WriteLine($"\n\tIpv6Ranges:");
            permission.Ipv6Ranges.ForEach(range => { Console.Write($"{range.CidrIpv6} "); });

            Console.Write($"\n\tPrefixListIds: ");
            permission.PrefixListIds.ForEach(id => Console.Write($"{id.Id} "));

            Console.WriteLine($"\n\tTo Port: {permission.ToPort}");
        });
    }


    /// <summary>
    /// Disassociate an Elastic IP address from an EC2 instance.
    /// </summary>
    /// <param name="associationId">The association Id.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DisassociateIp(string associationId)
    {
        try
        {
            var response = await _amazonEC2.DisassociateAddressAsync(
                new DisassociateAddressRequest { AssociationId = associationId });
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidAssociationID.NotFound")
            {
                _logger.LogError(
                    $"AssociationId is invalid, unable to disassociate address. {ec2Exception.Message}");
            }

            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while disassociating the Elastic IP.: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Reboot a specific EC2 instance.
    /// </summary>
    /// <param name="ec2InstanceId">The instance Id of the instance that will be rebooted.</param>
    /// <returns>Async Task.</returns>
    public async Task<bool> RebootInstances(string ec2InstanceId)
    {
        try
        {
            var request = new RebootInstancesRequest
            {
                InstanceIds = new List<string> { ec2InstanceId },
            };

            await _amazonEC2.RebootInstancesAsync(request);

            // Wait for the instance to be running.
            Console.Write("Waiting for the instance to start.");
            await WaitForInstanceState(ec2InstanceId, InstanceStateName.Running);

            return true;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId {ec2InstanceId} is invalid, unable to reboot. {ec2Exception.Message}");
            }
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while rebooting the instance {ec2InstanceId}.: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Release an Elastic IP address. After the Elastic IP address is released,
    /// it can no longer be used.
    /// </summary>
    /// <param name="allocationId">The allocation Id of the Elastic IP address.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ReleaseAddress(string allocationId)
    {
        try
        {
            var request = new ReleaseAddressRequest { AllocationId = allocationId };

            var response = await _amazonEC2.ReleaseAddressAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidAllocationID.NotFound")
            {
                _logger.LogError(
                    $"AllocationId {allocationId} was not found. {ec2Exception.Message}");
            }

            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while releasing the AllocationId {allocationId}.: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Create and run an EC2 instance.
    /// </summary>
    /// <param name="ImageId">The image Id of the image used as a basis for the
    /// EC2 instance.</param>
    /// <param name="instanceType">The instance type of the EC2 instance to create.</param>
    /// <param name="keyName">The name of the key pair to associate with the
    /// instance.</param>
    /// <param name="groupId">The Id of the Amazon EC2 security group that will be
    /// allowed to interact with the new EC2 instance.</param>
    /// <returns>The instance Id of the new EC2 instance.</returns>
    public async Task<string> RunInstances(string imageId, string instanceType, string keyName, string groupId)
    {
        try
        {
            var request = new RunInstancesRequest
            {
                ImageId = imageId,
                InstanceType = instanceType,
                KeyName = keyName,
                MinCount = 1,
                MaxCount = 1,
                SecurityGroupIds = new List<string> { groupId }
            };
            var response = await _amazonEC2.RunInstancesAsync(request);
            var instanceId = response.Reservation.Instances[0].InstanceId;

            Console.Write("Waiting for the instance to start.");
            await WaitForInstanceState(instanceId, InstanceStateName.Running);

            return instanceId;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidGroupId.NotFound")
            {
                _logger.LogError(
                    $"GroupId {groupId} was not found. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while running the instance.: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Start an EC2 instance.
    /// </summary>
    /// <param name="ec2InstanceId">The instance Id of the Amazon EC2 instance
    /// to start.</param>
    /// <returns>Async task.</returns>
    public async Task StartInstances(string ec2InstanceId)
    {
        try
        {
            var request = new StartInstancesRequest
            {
                InstanceIds = new List<string> { ec2InstanceId },
            };

            await _amazonEC2.StartInstancesAsync(request);

            Console.Write("Waiting for instance to start. ");
            await WaitForInstanceState(ec2InstanceId, InstanceStateName.Running);
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId is invalid, unable to start. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while starting the instance.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Stop an EC2 instance.
    /// </summary>
    /// <param name="ec2InstanceId">The instance Id of the EC2 instance to
    /// stop.</param>
    /// <returns>Async task.</returns>
    public async Task StopInstances(string ec2InstanceId)
    {
        try
        {
            var request = new StopInstancesRequest
            {
                InstanceIds = new List<string> { ec2InstanceId },
            };

            await _amazonEC2.StopInstancesAsync(request);
            Console.Write("Waiting for the instance to stop.");
            await WaitForInstanceState(ec2InstanceId, InstanceStateName.Stopped);

            Console.WriteLine("\nThe instance has stopped.");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId is invalid, unable to stop. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while stopping the instance.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Terminate an EC2 instance.
    /// </summary>
    /// <param name="ec2InstanceId">The instance Id of the EC2 instance
    /// to terminate.</param>
    /// <returns>Async task.</returns>
    public async Task<List<InstanceStateChange>> TerminateInstances(string ec2InstanceId)
    {
        try
        {
            var request = new TerminateInstancesRequest
            {
                InstanceIds = new List<string> { ec2InstanceId }
            };

            var response = await _amazonEC2.TerminateInstancesAsync(request);
            Console.Write("Waiting for the instance to terminate.");
            await WaitForInstanceState(ec2InstanceId, InstanceStateName.Terminated);

            Console.WriteLine($"\nThe instance {ec2InstanceId} has been terminated.");
            return response.TerminatingInstances;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId is invalid, unable to terminate. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while terminating the instance.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEC2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AllocateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AllocateAddress)
  + [AssociateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AssociateAddress)
  + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AuthorizeSecurityGroupIngress)
  + [CreateKeyPair](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateKeyPair)
  + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateSecurityGroup)
  + [DeleteKeyPair](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteKeyPair)
  + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteSecurityGroup)
  + [DescribeImages](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeImages)
  + [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstanceTypes)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstances)
  + [DescribeKeyPairs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeKeyPairs)
  + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSecurityGroups)
  + [DisassociateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DisassociateAddress)
  + [ReleaseAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReleaseAddress)
  + [RunInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RunInstances)
  + [StartInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/StartInstances)
  + [StopInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/StopInstances)
  + [TerminateInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/TerminateInstances)
  + [UnmonitorInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/UnmonitorInstances)

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Allocates an Elastic IP address that can be associated with an Amazon EC2
    // instance. By using an Elastic IP address, you can keep the public IP address
    // constant even when you restart the associated instance.
    /// </summary>
    /// <returns>The response object for the allocated address.</returns>
    public async Task<AllocateAddressResponse> AllocateAddress()
    {
        var request = new AllocateAddressRequest();

        try
        {
            var response = await _amazonEC2.AllocateAddressAsync(request);
            Console.WriteLine($"Allocated IP: {response.PublicIp} with allocation ID {response.AllocationId}.");
            return response;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "AddressLimitExceeded")
            {
                // For more information on Elastic IP address quotas, see:
                // https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html#using-instance-addressing-limit
                _logger.LogError($"Unable to allocate Elastic IP, address limit exceeded. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while allocating Elastic IP.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AllocateAddress)di *Referensi AWS SDK untuk .NET API*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Associates an Elastic IP address with an instance. When this association is
    /// created, the Elastic IP's public IP address is immediately used as the public
    /// IP address of the associated instance.
    /// </summary>
    /// <param name="allocationId">The allocation Id of an Elastic IP address.</param>
    /// <param name="instanceId">The instance Id of the EC2 instance to
    /// associate the address with.</param>
    /// <returns>The association Id that represents
    /// the association of the Elastic IP address with an instance.</returns>
    public async Task<string> AssociateAddress(string allocationId, string instanceId)
    {
        try
        {
            var request = new AssociateAddressRequest
            {
                AllocationId = allocationId,
                InstanceId = instanceId
            };

            var response = await _amazonEC2.AssociateAddressAsync(request);
            return response.AssociationId;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId is invalid, unable to associate address. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while associating the Elastic IP.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AssociateAddress)di *Referensi AWS SDK untuk .NET API*. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Authorize the local computer ingress to EC2 instances associated
    /// with the virtual private cloud (VPC) security group.
    /// </summary>
    /// <param name="groupName">The name of the security group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> AuthorizeSecurityGroupIngress(string groupName)
    {
        try
        {
            // Get the IP address for the local computer.
            var ipAddress = await GetIpAddress();
            Console.WriteLine($"Your IP address is: {ipAddress}");
            var ipRanges =
                new List<IpRange> { new IpRange { CidrIp = $"{ipAddress}/32" } };
            var permission = new IpPermission
            {
                Ipv4Ranges = ipRanges,
                IpProtocol = "tcp",
                FromPort = 22,
                ToPort = 22
            };
            var permissions = new List<IpPermission> { permission };
            var response = await _amazonEC2.AuthorizeSecurityGroupIngressAsync(
                new AuthorizeSecurityGroupIngressRequest(groupName, permissions));
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidPermission.Duplicate")
            {
                _logger.LogError(
                    $"The ingress rule already exists. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while authorizing ingress.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Authorize the local computer for ingress to
    /// the Amazon EC2 SecurityGroup.
    /// </summary>
    /// <returns>The IPv4 address of the computer running the scenario.</returns>
    private static async Task<string> GetIpAddress()
    {
        var httpClient = new HttpClient();
        var ipString = await httpClient.GetStringAsync("https://checkip.amazonaws.com");

        // The IP address is returned with a new line
        // character on the end. Trim off the whitespace and
        // return the value to the caller.
        return ipString.Trim();
    }
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AuthorizeSecurityGroupIngress)di *Referensi AWS SDK untuk .NET API*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Create an Amazon EC2 key pair with a specified name.
    /// </summary>
    /// <param name="keyPairName">The name for the new key pair.</param>
    /// <returns>The Amazon EC2 key pair created.</returns>
    public async Task<KeyPair?> CreateKeyPair(string keyPairName)
    {
        try
        {
            var request = new CreateKeyPairRequest { KeyName = keyPairName, };

            var response = await _amazonEC2.CreateKeyPairAsync(request);

            var kp = response.KeyPair;
            // Return the key pair so it can be saved if needed.

            // Wait until the key pair exists.
            int retries = 5;
            while (retries-- > 0)
            {
                Console.WriteLine($"Checking for new KeyPair {keyPairName}...");
                var keyPairs = await DescribeKeyPairs(keyPairName);
                if (keyPairs.Any())
                {
                    return kp;
                }

                Thread.Sleep(5000);
                retries--;
            }
            _logger.LogError($"Unable to find newly created KeyPair {keyPairName}.");
            throw new DoesNotExistException("KeyPair not found");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidKeyPair.Duplicate")
            {
                _logger.LogError(
                    $"A key pair called {keyPairName} already exists.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while creating the key pair.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Save KeyPair information to a temporary file.
    /// </summary>
    /// <param name="keyPair">The name of the key pair.</param>
    /// <returns>The full path to the temporary file.</returns>
    public string SaveKeyPair(KeyPair keyPair)
    {
        var tempPath = Path.GetTempPath();
        var tempFileName = $"{tempPath}\\{Path.GetRandomFileName()}";
        var pemFileName = Path.ChangeExtension(tempFileName, "pem");

        // Save the key pair to a file in a temporary folder.
        using var stream = new FileStream(pemFileName, FileMode.Create);
        using var writer = new StreamWriter(stream);
        writer.WriteLine(keyPair.KeyMaterial);

        return pemFileName;
    }
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateKeyPair)di *Referensi AWS SDK untuk .NET API*. 

### `CreateLaunchTemplate`
<a name="ec2_CreateLaunchTemplate_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLaunchTemplate`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling.
    /// The launch template specifies a Bash script in its user data field that runs after
    /// the instance is started. This script installs the Python packages and starts a Python
    /// web server on the instance.
    /// </summary>
    /// <param name="startupScriptPath">The path to a Bash script file that is run.</param>
    /// <param name="instancePolicyPath">The path to a permissions policy to create and attach to the profile.</param>
    /// <returns>The template object.</returns>
    public async Task<Amazon.EC2.Model.LaunchTemplate> CreateTemplate(string startupScriptPath, string instancePolicyPath)
    {
        try
        {
            await CreateKeyPair(_keyPairName);
            await CreateInstanceProfileWithName(_instancePolicyName, _instanceRoleName,
                _instanceProfileName, instancePolicyPath);

            var startServerText = await File.ReadAllTextAsync(startupScriptPath);
            var plainTextBytes = System.Text.Encoding.UTF8.GetBytes(startServerText);

            var amiLatest = await _amazonSsm.GetParameterAsync(
                new GetParameterRequest() { Name = _amiParam });
            var amiId = amiLatest.Parameter.Value;
            var launchTemplateResponse = await _amazonEc2.CreateLaunchTemplateAsync(
                new CreateLaunchTemplateRequest()
                {
                    LaunchTemplateName = _launchTemplateName,
                    LaunchTemplateData = new RequestLaunchTemplateData()
                    {
                        InstanceType = _instanceType,
                        ImageId = amiId,
                        IamInstanceProfile =
                            new
                                LaunchTemplateIamInstanceProfileSpecificationRequest()
                            {
                                Name = _instanceProfileName
                            },
                        KeyName = _keyPairName,
                        UserData = System.Convert.ToBase64String(plainTextBytes)
                    }
                });
            return launchTemplateResponse.LaunchTemplate;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.AlreadyExistsException")
            {
                _logger.LogError($"Could not create the template, the name {_launchTemplateName} already exists. " +
                                 $"Please try again with a unique name.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateLaunchTemplate)di *Referensi AWS SDK untuk .NET API*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Create an Amazon EC2 security group with a specified name and description.
    /// </summary>
    /// <param name="groupName">The name for the new security group.</param>
    /// <param name="groupDescription">A description of the new security group.</param>
    /// <returns>The group Id of the new security group.</returns>
    public async Task<string> CreateSecurityGroup(string groupName, string groupDescription)
    {
        try
        {
            var response = await _amazonEC2.CreateSecurityGroupAsync(
                new CreateSecurityGroupRequest(groupName, groupDescription));

            // Wait until the security group exists.
            int retries = 5;
            while (retries-- > 0)
            {
                var groups = await DescribeSecurityGroups(response.GroupId);
                if (groups.Any())
                {
                    return response.GroupId;
                }

                Thread.Sleep(5000);
                retries--;
            }
            _logger.LogError($"Unable to find newly created group {groupName}.");
            throw new DoesNotExistException("security group not found");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "ResourceAlreadyExists")
            {
                _logger.LogError(
                    $"A security group with the name {groupName} already exists. {ec2Exception.Message}");
            }
            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while creating the security group.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateSecurityGroup)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Delete an Amazon EC2 key pair.
    /// </summary>
    /// <param name="keyPairName">The name of the key pair to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteKeyPair(string keyPairName)
    {
        try
        {
            await _amazonEC2.DeleteKeyPairAsync(new DeleteKeyPairRequest(keyPairName)).ConfigureAwait(false);
            return true;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidKeyPair.NotFound")
            {
                _logger.LogError($"KeyPair {keyPairName} does not exist and cannot be deleted. Please verify the key pair name and try again.");
            }

            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't delete the key pair because: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Delete the temporary file where the key pair information was saved.
    /// </summary>
    /// <param name="tempFileName">The path to the temporary file.</param>
    public void DeleteTempFile(string tempFileName)
    {
        if (File.Exists(tempFileName))
        {
            File.Delete(tempFileName);
        }
    }
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteKeyPair)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteLaunchTemplate`
<a name="ec2_DeleteLaunchTemplate_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLaunchTemplate`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Delete a launch template by name.
    /// </summary>
    /// <param name="templateName">The name of the template to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTemplateByName(string templateName)
    {
        try
        {
            await _amazonEc2.DeleteLaunchTemplateAsync(
                new DeleteLaunchTemplateRequest()
                {
                    LaunchTemplateName = templateName
                });
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.NotFoundException")
            {
                _logger.LogError(
                    $"Could not delete the template, the name {_launchTemplateName} was not found.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while deleting the template.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteLaunchTemplate)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Delete an Amazon EC2 security group.
    /// </summary>
    /// <param name="groupName">The name of the group to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteSecurityGroup(string groupId)
    {
        try
        {
            var response =
                await _amazonEC2.DeleteSecurityGroupAsync(
                    new DeleteSecurityGroupRequest { GroupId = groupId });
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidGroup.NotFound")
            {
                _logger.LogError(
                    $"Security Group {groupId} does not exist and cannot be deleted. Please verify the ID and try again.");
            }

            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't delete the security group because: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteSecurityGroup)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeAvailabilityZones`
<a name="ec2_DescribeAvailabilityZones_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAvailabilityZones`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Get a list of Availability Zones in the AWS Region of the Amazon EC2 Client.
    /// </summary>
    /// <returns>A list of availability zones.</returns>
    public async Task<List<string>> DescribeAvailabilityZones()
    {
        try
        {
            var zoneResponse = await _amazonEc2.DescribeAvailabilityZonesAsync(
                new DescribeAvailabilityZonesRequest());
            return zoneResponse.AvailabilityZones.Select(z => z.ZoneName).ToList();
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            _logger.LogError($"An Amazon EC2 error occurred while listing availability zones.: {ec2Exception.Message}");
            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while listing availability zones.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeAvailabilityZones)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeIamInstanceProfileAssociations`
<a name="ec2_DescribeIamInstanceProfileAssociations_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeIamInstanceProfileAssociations`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Get the instance profile association data for an instance.
    /// </summary>
    /// <param name="instanceId">The Id of the instance.</param>
    /// <returns>Instance profile associations data.</returns>
    public async Task<IamInstanceProfileAssociation> GetInstanceProfile(string instanceId)
    {
        try
        {
            var response = await _amazonEc2.DescribeIamInstanceProfileAssociationsAsync(
                new DescribeIamInstanceProfileAssociationsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("instance-id", new List<string>() { instanceId })
                    },
                });
            return response.IamInstanceProfileAssociations[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Describe the instance types available.
    /// </summary>
    /// <returns>A list of instance type information.</returns>
    public async Task<List<InstanceTypeInfo>> DescribeInstanceTypes(ArchitectureValues architecture)
    {
        try
        {
            var request = new DescribeInstanceTypesRequest();

            var filters = new List<Filter>
            {
                new Filter("processor-info.supported-architecture",
                    new List<string> { architecture.ToString() })
            };
            filters.Add(new Filter("instance-type", new() { "*.micro", "*.small" }));

            request.Filters = filters;
            var instanceTypes = new List<InstanceTypeInfo>();

            var paginator = _amazonEC2.Paginators.DescribeInstanceTypes(request);
            await foreach (var instanceType in paginator.InstanceTypes)
            {
                instanceTypes.Add(instanceType);
            }

            return instanceTypes;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidParameterValue")
            {
                _logger.LogError(
                    $"Parameters are invalid. Ensure architecture and size strings conform to DescribeInstanceTypes API reference.");
            }

            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't delete the security group because: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstanceTypes)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Get information about EC2 instances with a particular state.
    /// </summary>
    /// <param name="tagName">The name of the tag to filter on.</param>
    /// <param name="tagValue">The value of the tag to look for.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> GetInstancesWithState(string state)
    {
        try
        {
            // Filters the results of the instance list.
            var filters = new List<Filter>
            {
                new Filter
                {
                    Name = $"instance-state-name",
                    Values = new List<string> { state, },
                },
            };
            var request = new DescribeInstancesRequest { Filters = filters, };

            Console.WriteLine($"\nShowing instances with state {state}");
            var paginator = _amazonEC2.Paginators.DescribeInstances(request);

            await foreach (var response in paginator.Responses)
            {
                foreach (var reservation in response.Reservations)
                {
                    foreach (var instance in reservation.Instances)
                    {
                        Console.Write($"Instance ID: {instance.InstanceId} ");
                        Console.WriteLine($"\tCurrent State: {instance.State.Name}");
                    }
                }
            }

            return true;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidParameterValue")
            {
                _logger.LogError(
                    $"Invalid parameter value for filtering instances.");
            }

            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't list instances because: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstances)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Get information about an Amazon EC2 key pair.
    /// </summary>
    /// <param name="keyPairName">The name of the key pair.</param>
    /// <returns>A list of key pair information.</returns>
    public async Task<List<KeyPairInfo>> DescribeKeyPairs(string keyPairName)
    {
        try
        {
            var request = new DescribeKeyPairsRequest();
            if (!string.IsNullOrEmpty(keyPairName))
            {
                request = new DescribeKeyPairsRequest
                {
                    KeyNames = new List<string> { keyPairName }
                };
            }

            var response = await _amazonEC2.DescribeKeyPairsAsync(request);
            return response.KeyPairs.ToList();
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidKeyPair.NotFound")
            {
                _logger.LogError(
                    $"A key pair called {keyPairName} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while describing the key pair.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeKeyPairs)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Retrieve information for one or all Amazon EC2 security group.
    /// </summary>
    /// <param name="groupId">The optional Id of a specific Amazon EC2 security group.</param>
    /// <returns>A list of security group information.</returns>
    public async Task<List<SecurityGroup>> DescribeSecurityGroups(string groupId)
    {
        try
        {
            var securityGroups = new List<SecurityGroup>();
            var request = new DescribeSecurityGroupsRequest();

            if (!string.IsNullOrEmpty(groupId))
            {
                var groupIds = new List<string> { groupId };
                request.GroupIds = groupIds;
            }

            var paginatorForSecurityGroups =
                _amazonEC2.Paginators.DescribeSecurityGroups(request);

            await foreach (var securityGroup in paginatorForSecurityGroups.SecurityGroups)
            {
                securityGroups.Add(securityGroup);
            }

            return securityGroups;

        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidGroup.NotFound")
            {
                _logger.LogError(
                    $"A security group {groupId} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while listing security groups. {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Display the information returned by the call to
    /// DescribeSecurityGroupsAsync.
    /// </summary>
    /// <param name="securityGroup">A list of security group information.</param>
    public void DisplaySecurityGroupInfoAsync(SecurityGroup securityGroup)
    {
        Console.WriteLine($"{securityGroup.GroupName}");
        Console.WriteLine("Ingress permissions:");
        securityGroup.IpPermissions.ForEach(permission =>
        {
            Console.WriteLine($"\tFromPort: {permission.FromPort}");
            Console.WriteLine($"\tIpProtocol: {permission.IpProtocol}");

            Console.Write($"\tIpv4Ranges: ");
            permission.Ipv4Ranges.ForEach(range => { Console.Write($"{range.CidrIp} "); });

            Console.WriteLine($"\n\tIpv6Ranges:");
            permission.Ipv6Ranges.ForEach(range => { Console.Write($"{range.CidrIpv6} "); });

            Console.Write($"\n\tPrefixListIds: ");
            permission.PrefixListIds.ForEach(id => Console.Write($"{id.Id} "));

            Console.WriteLine($"\n\tTo Port: {permission.ToPort}");
        });
        Console.WriteLine("Egress permissions:");
        securityGroup.IpPermissionsEgress.ForEach(permission =>
        {
            Console.WriteLine($"\tFromPort: {permission.FromPort}");
            Console.WriteLine($"\tIpProtocol: {permission.IpProtocol}");

            Console.Write($"\tIpv4Ranges: ");
            permission.Ipv4Ranges.ForEach(range => { Console.Write($"{range.CidrIp} "); });

            Console.WriteLine($"\n\tIpv6Ranges:");
            permission.Ipv6Ranges.ForEach(range => { Console.Write($"{range.CidrIpv6} "); });

            Console.Write($"\n\tPrefixListIds: ");
            permission.PrefixListIds.ForEach(id => Console.Write($"{id.Id} "));

            Console.WriteLine($"\n\tTo Port: {permission.ToPort}");
        });
    }
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSecurityGroups)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeSubnets`
<a name="ec2_DescribeSubnets_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSubnets`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Get all the subnets for a Vpc in a set of availability zones.
    /// </summary>
    /// <param name="vpcId">The Id of the Vpc.</param>
    /// <param name="availabilityZones">The list of availability zones.</param>
    /// <returns>The collection of subnet objects.</returns>
    public async Task<List<Subnet>> GetAllVpcSubnetsForZones(string vpcId, List<string> availabilityZones)
    {
        try
        {
            var subnets = new List<Subnet>();
            var subnetPaginator = _amazonEc2.Paginators.DescribeSubnets(
                new DescribeSubnetsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("vpc-id", new List<string>() { vpcId }),
                        new("availability-zone", availabilityZones),
                        new("default-for-az", new List<string>() { "true" })
                    }
                });

            // Get the entire list using the paginator.
            await foreach (var subnet in subnetPaginator.Subnets)
            {
                subnets.Add(subnet);
            }

            return subnets;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidVpcID.NotFound")
            {
                _logger.LogError(ec2Exception, $"The specified VPC ID {vpcId} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the subnets.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DescribeSubnets](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSubnets)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeVpcs`
<a name="ec2_DescribeVpcs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVpcs`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Get the default VPC for the account.
    /// </summary>
    /// <returns>The default VPC object.</returns>
    public async Task<Vpc> GetDefaultVpc()
    {
        try
        {
            var vpcResponse = await _amazonEc2.DescribeVpcsAsync(
                new DescribeVpcsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("is-default", new List<string>() { "true" })
                    }
                });
            return vpcResponse.Vpcs[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "UnauthorizedOperation")
            {
                _logger.LogError(ec2Exception, $"You do not have the necessary permissions to describe VPCs.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the vpcs.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DescribeVpcs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeVpcs)di *Referensi AWS SDK untuk .NET API*. 

### `DisassociateAddress`
<a name="ec2_DisassociateAddress_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateAddress`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Disassociate an Elastic IP address from an EC2 instance.
    /// </summary>
    /// <param name="associationId">The association Id.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DisassociateIp(string associationId)
    {
        try
        {
            var response = await _amazonEC2.DisassociateAddressAsync(
                new DisassociateAddressRequest { AssociationId = associationId });
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidAssociationID.NotFound")
            {
                _logger.LogError(
                    $"AssociationId is invalid, unable to disassociate address. {ec2Exception.Message}");
            }

            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while disassociating the Elastic IP.: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DisassociateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DisassociateAddress)di *Referensi AWS SDK untuk .NET API*. 

### `RebootInstances`
<a name="ec2_RebootInstances_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RebootInstances`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 
Reboot sebuah instance dengan Id-nya.  

```
    /// <summary>
    /// Reboot a specific EC2 instance.
    /// </summary>
    /// <param name="ec2InstanceId">The instance Id of the instance that will be rebooted.</param>
    /// <returns>Async Task.</returns>
    public async Task<bool> RebootInstances(string ec2InstanceId)
    {
        try
        {
            var request = new RebootInstancesRequest
            {
                InstanceIds = new List<string> { ec2InstanceId },
            };

            await _amazonEC2.RebootInstancesAsync(request);

            // Wait for the instance to be running.
            Console.Write("Waiting for the instance to start.");
            await WaitForInstanceState(ec2InstanceId, InstanceStateName.Running);

            return true;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId {ec2InstanceId} is invalid, unable to reboot. {ec2Exception.Message}");
            }
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while rebooting the instance {ec2InstanceId}.: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEC2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }
```
Ganti profil untuk instans, boot ulang, dan mulai ulang server web.  

```
    /// <summary>
    /// Replace the profile associated with a running instance. After the profile is replaced, the instance
    /// is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is
    /// used to restart the Python web server.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to update.</param>
    /// <param name="credsProfileName">The name of the new profile to associate with the specified instance.</param>
    /// <param name="associationId">The Id of the existing profile association for the instance.</param>
    /// <returns>Async task.</returns>
    public async Task ReplaceInstanceProfile(string instanceId, string credsProfileName, string associationId)
    {
        try
        {
            await _amazonEc2.ReplaceIamInstanceProfileAssociationAsync(
                new ReplaceIamInstanceProfileAssociationRequest()
                {
                    AssociationId = associationId,
                    IamInstanceProfile = new IamInstanceProfileSpecification()
                    {
                        Name = credsProfileName
                    }
                });
            // Allow time before resetting.
            Thread.Sleep(25000);

            await _amazonEc2.RebootInstancesAsync(
                new RebootInstancesRequest(new List<string>() { instanceId }));
            Thread.Sleep(25000);
            var instanceReady = false;
            var retries = 5;
            while (retries-- > 0 && !instanceReady)
            {
                var instancesPaginator =
                    _amazonSsm.Paginators.DescribeInstanceInformation(
                        new DescribeInstanceInformationRequest());
                // Get the entire list using the paginator.
                await foreach (var instance in instancesPaginator.InstanceInformationList)
                {
                    instanceReady = instance.InstanceId == instanceId;
                    if (instanceReady)
                    {
                        break;
                    }
                }
            }
            Console.WriteLine("Waiting for instance to be running.");
            await WaitForInstanceState(instanceId, InstanceStateName.Running);
            Console.WriteLine("Instance ready.");
            Console.WriteLine($"Sending restart command to instance {instanceId}");
            await _amazonSsm.SendCommandAsync(
                new SendCommandRequest()
                {
                    InstanceIds = new List<string>() { instanceId },
                    DocumentName = "AWS-RunShellScript",
                    Parameters = new Dictionary<string, List<string>>()
                    {
                        {
                            "commands",
                            new List<string>() { "cd / && sudo python3 server.py 80" }
                        }
                    }
                });
            Console.WriteLine($"Restarted the web server on instance {instanceId}");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while replacing the template.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [RebootInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RebootInstances)di *Referensi AWS SDK untuk .NET API*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Release an Elastic IP address. After the Elastic IP address is released,
    /// it can no longer be used.
    /// </summary>
    /// <param name="allocationId">The allocation Id of the Elastic IP address.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ReleaseAddress(string allocationId)
    {
        try
        {
            var request = new ReleaseAddressRequest { AllocationId = allocationId };

            var response = await _amazonEC2.ReleaseAddressAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidAllocationID.NotFound")
            {
                _logger.LogError(
                    $"AllocationId {allocationId} was not found. {ec2Exception.Message}");
            }

            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while releasing the AllocationId {allocationId}.: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReleaseAddress)di *Referensi AWS SDK untuk .NET API*. 

### `ReplaceIamInstanceProfileAssociation`
<a name="ec2_ReplaceIamInstanceProfileAssociation_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReplaceIamInstanceProfileAssociation`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Replace the profile associated with a running instance. After the profile is replaced, the instance
    /// is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is
    /// used to restart the Python web server.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to update.</param>
    /// <param name="credsProfileName">The name of the new profile to associate with the specified instance.</param>
    /// <param name="associationId">The Id of the existing profile association for the instance.</param>
    /// <returns>Async task.</returns>
    public async Task ReplaceInstanceProfile(string instanceId, string credsProfileName, string associationId)
    {
        try
        {
            await _amazonEc2.ReplaceIamInstanceProfileAssociationAsync(
                new ReplaceIamInstanceProfileAssociationRequest()
                {
                    AssociationId = associationId,
                    IamInstanceProfile = new IamInstanceProfileSpecification()
                    {
                        Name = credsProfileName
                    }
                });
            // Allow time before resetting.
            Thread.Sleep(25000);

            await _amazonEc2.RebootInstancesAsync(
                new RebootInstancesRequest(new List<string>() { instanceId }));
            Thread.Sleep(25000);
            var instanceReady = false;
            var retries = 5;
            while (retries-- > 0 && !instanceReady)
            {
                var instancesPaginator =
                    _amazonSsm.Paginators.DescribeInstanceInformation(
                        new DescribeInstanceInformationRequest());
                // Get the entire list using the paginator.
                await foreach (var instance in instancesPaginator.InstanceInformationList)
                {
                    instanceReady = instance.InstanceId == instanceId;
                    if (instanceReady)
                    {
                        break;
                    }
                }
            }
            Console.WriteLine("Waiting for instance to be running.");
            await WaitForInstanceState(instanceId, InstanceStateName.Running);
            Console.WriteLine("Instance ready.");
            Console.WriteLine($"Sending restart command to instance {instanceId}");
            await _amazonSsm.SendCommandAsync(
                new SendCommandRequest()
                {
                    InstanceIds = new List<string>() { instanceId },
                    DocumentName = "AWS-RunShellScript",
                    Parameters = new Dictionary<string, List<string>>()
                    {
                        {
                            "commands",
                            new List<string>() { "cd / && sudo python3 server.py 80" }
                        }
                    }
                });
            Console.WriteLine($"Restarted the web server on instance {instanceId}");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while replacing the template.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)di *Referensi AWS SDK untuk .NET API*. 

### `RunInstances`
<a name="ec2_RunInstances_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Create and run an EC2 instance.
    /// </summary>
    /// <param name="ImageId">The image Id of the image used as a basis for the
    /// EC2 instance.</param>
    /// <param name="instanceType">The instance type of the EC2 instance to create.</param>
    /// <param name="keyName">The name of the key pair to associate with the
    /// instance.</param>
    /// <param name="groupId">The Id of the Amazon EC2 security group that will be
    /// allowed to interact with the new EC2 instance.</param>
    /// <returns>The instance Id of the new EC2 instance.</returns>
    public async Task<string> RunInstances(string imageId, string instanceType, string keyName, string groupId)
    {
        try
        {
            var request = new RunInstancesRequest
            {
                ImageId = imageId,
                InstanceType = instanceType,
                KeyName = keyName,
                MinCount = 1,
                MaxCount = 1,
                SecurityGroupIds = new List<string> { groupId }
            };
            var response = await _amazonEC2.RunInstancesAsync(request);
            var instanceId = response.Reservation.Instances[0].InstanceId;

            Console.Write("Waiting for the instance to start.");
            await WaitForInstanceState(instanceId, InstanceStateName.Running);

            return instanceId;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidGroupId.NotFound")
            {
                _logger.LogError(
                    $"GroupId {groupId} was not found. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while running the instance.: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RunInstances)di *Referensi AWS SDK untuk .NET API*. 

### `StartInstances`
<a name="ec2_StartInstances_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Start an EC2 instance.
    /// </summary>
    /// <param name="ec2InstanceId">The instance Id of the Amazon EC2 instance
    /// to start.</param>
    /// <returns>Async task.</returns>
    public async Task StartInstances(string ec2InstanceId)
    {
        try
        {
            var request = new StartInstancesRequest
            {
                InstanceIds = new List<string> { ec2InstanceId },
            };

            await _amazonEC2.StartInstancesAsync(request);

            Console.Write("Waiting for instance to start. ");
            await WaitForInstanceState(ec2InstanceId, InstanceStateName.Running);
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId is invalid, unable to start. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while starting the instance.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEC2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/StartInstances)di *Referensi AWS SDK untuk .NET API*. 

### `StopInstances`
<a name="ec2_StopInstances_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Stop an EC2 instance.
    /// </summary>
    /// <param name="ec2InstanceId">The instance Id of the EC2 instance to
    /// stop.</param>
    /// <returns>Async task.</returns>
    public async Task StopInstances(string ec2InstanceId)
    {
        try
        {
            var request = new StopInstancesRequest
            {
                InstanceIds = new List<string> { ec2InstanceId },
            };

            await _amazonEC2.StopInstancesAsync(request);
            Console.Write("Waiting for the instance to stop.");
            await WaitForInstanceState(ec2InstanceId, InstanceStateName.Stopped);

            Console.WriteLine("\nThe instance has stopped.");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId is invalid, unable to stop. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while stopping the instance.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEC2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/StopInstances)di *Referensi AWS SDK untuk .NET API*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). 

```
    /// <summary>
    /// Terminate an EC2 instance.
    /// </summary>
    /// <param name="ec2InstanceId">The instance Id of the EC2 instance
    /// to terminate.</param>
    /// <returns>Async task.</returns>
    public async Task<List<InstanceStateChange>> TerminateInstances(string ec2InstanceId)
    {
        try
        {
            var request = new TerminateInstancesRequest
            {
                InstanceIds = new List<string> { ec2InstanceId }
            };

            var response = await _amazonEC2.TerminateInstancesAsync(request);
            Console.Write("Waiting for the instance to terminate.");
            await WaitForInstanceState(ec2InstanceId, InstanceStateName.Terminated);

            Console.WriteLine($"\nThe instance {ec2InstanceId} has been terminated.");
            return response.TerminatingInstances;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceId")
            {
                _logger.LogError(
                    $"InstanceId is invalid, unable to terminate. {ec2Exception.Message}");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while terminating the instance.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEC2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/TerminateInstances)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
    static async Task Main(string[] args)
    {
        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();


        // Set up dependency injection for the AWS services.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonIdentityManagementService>()
                    .AddAWSService<IAmazonDynamoDB>()
                    .AddAWSService<IAmazonElasticLoadBalancingV2>()
                    .AddAWSService<IAmazonSimpleSystemsManagement>()
                    .AddAWSService<IAmazonAutoScaling>()
                    .AddAWSService<IAmazonEC2>()
                    .AddTransient<AutoScalerWrapper>()
                    .AddTransient<ElasticLoadBalancerWrapper>()
                    .AddTransient<SmParameterWrapper>()
                    .AddTransient<Recommendations>()
                    .AddSingleton<IConfiguration>(_configuration)
            )
            .Build();

        ServicesSetup(host);
        ResourcesSetup();

        try
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Welcome to the Resilient Architecture Example Scenario.");
            Console.WriteLine(new string('-', 80));
            await Deploy(true);

            Console.WriteLine("Now let's begin the scenario.");
            Console.WriteLine(new string('-', 80));
            await Demo(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Finally, let's clean up our resources.");
            Console.WriteLine(new string('-', 80));

            await DestroyResources(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Resilient Architecture Example Scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            await DestroyResources(true);
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Setup any common resources, also used for integration testing.
    /// </summary>
    public static void ResourcesSetup()
    {
        _httpClient = new HttpClient();
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _elasticLoadBalancerWrapper = host.Services.GetRequiredService<ElasticLoadBalancerWrapper>();
        _iamClient = host.Services.GetRequiredService<IAmazonIdentityManagementService>();
        _recommendations = host.Services.GetRequiredService<Recommendations>();
        _autoScalerWrapper = host.Services.GetRequiredService<AutoScalerWrapper>();
        _smParameterWrapper = host.Services.GetRequiredService<SmParameterWrapper>();
    }

    /// <summary>
    /// Deploy necessary resources for the scenario.
    /// </summary>
    /// <param name="interactive">True to run as interactive.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> Deploy(bool interactive)
    {
        var protocol = "HTTP";
        var port = 80;
        var sshPort = 22;

        Console.WriteLine(
            "\nFor this demo, we'll use the AWS SDK for .NET to create several AWS resources\n" +
            "to set up a load-balanced web service endpoint and explore some ways to make it resilient\n" +
            "against various kinds of failures.\n\n" +
            "Some of the resources create by this demo are:\n");

        Console.WriteLine(
            "\t* A DynamoDB table that the web service depends on to provide book, movie, and song recommendations.");
        Console.WriteLine(
            "\t* An EC2 launch template that defines EC2 instances that each contain a Python web server.");
        Console.WriteLine(
            "\t* An EC2 Auto Scaling group that manages EC2 instances across several Availability Zones.");
        Console.WriteLine(
            "\t* An Elastic Load Balancing (ELB) load balancer that targets the Auto Scaling group to distribute requests.");
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to start deploying resources.");
        if (interactive)
            Console.ReadLine();

        // Create and populate the DynamoDB table.
        var databaseTableName = _configuration["databaseName"];
        var recommendationsPath = Path.Join(_configuration["resourcePath"],
            "recommendations_objects.json");
        Console.WriteLine($"Creating and populating a DynamoDB table named {databaseTableName}.");
        await _recommendations.CreateDatabaseWithName(databaseTableName);
        await _recommendations.PopulateDatabase(databaseTableName, recommendationsPath);
        Console.WriteLine(new string('-', 80));

        // Create the EC2 Launch Template.

        Console.WriteLine(
            $"Creating an EC2 launch template that runs 'server_startup_script.sh' when an instance starts.\n"
            + "\nThis script starts a Python web server defined in the `server.py` script. The web server\n"
            + "listens to HTTP requests on port 80 and responds to requests to '/' and to '/healthcheck'.\n"
            + "For demo purposes, this server is run as the root user. In production, the best practice is to\n"
            + "run a web server, such as Apache, with least-privileged credentials.");
        Console.WriteLine(
            "\nThe template also defines an IAM policy that each instance uses to assume a role that grants\n"
            + "permissions to access the DynamoDB recommendation table and Systems Manager parameters\n"
            + "that control the flow of the demo.");

        var startupScriptPath = Path.Join(_configuration["resourcePath"],
            "server_startup_script.sh");
        var instancePolicyPath = Path.Join(_configuration["resourcePath"],
            "instance_policy.json");
        await _autoScalerWrapper.CreateTemplate(startupScriptPath, instancePolicyPath);
        Console.WriteLine(new string('-', 80));

        Console.WriteLine(
            "Creating an EC2 Auto Scaling group that maintains three EC2 instances, each in a different\n"
            + "Availability Zone.\n");
        var zones = await _autoScalerWrapper.DescribeAvailabilityZones();
        await _autoScalerWrapper.CreateGroupOfSize(3, _autoScalerWrapper.GroupName, zones);
        Console.WriteLine(new string('-', 80));

        Console.WriteLine(
            "At this point, you have EC2 instances created. Once each instance starts, it listens for\n"
            + "HTTP requests. You can see these instances in the console or continue with the demo.\n");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to continue.");
        if (interactive)
            Console.ReadLine();

        Console.WriteLine("Creating variables that control the flow of the demo.");
        await _smParameterWrapper.Reset();

        Console.WriteLine(
            "\nCreating an Elastic Load Balancing target group and load balancer. The target group\n"
            + "defines how the load balancer connects to instances. The load balancer provides a\n"
            + "single endpoint where clients connect and dispatches requests to instances in the group.");

        var defaultVpc = await _autoScalerWrapper.GetDefaultVpc();
        var subnets = await _autoScalerWrapper.GetAllVpcSubnetsForZones(defaultVpc.VpcId, zones);
        var subnetIds = subnets.Select(s => s.SubnetId).ToList();
        var targetGroup = await _elasticLoadBalancerWrapper.CreateTargetGroupOnVpc(_elasticLoadBalancerWrapper.TargetGroupName, protocol, port, defaultVpc.VpcId);

        await _elasticLoadBalancerWrapper.CreateLoadBalancerAndListener(_elasticLoadBalancerWrapper.LoadBalancerName, subnetIds, targetGroup);
        await _autoScalerWrapper.AttachLoadBalancerToGroup(_autoScalerWrapper.GroupName, targetGroup.TargetGroupArn);
        Console.WriteLine("\nVerifying access to the load balancer endpoint...");
        var endPoint = await _elasticLoadBalancerWrapper.GetEndpointForLoadBalancerByName(_elasticLoadBalancerWrapper.LoadBalancerName);
        var loadBalancerAccess = await _elasticLoadBalancerWrapper.VerifyLoadBalancerEndpoint(endPoint);

        if (!loadBalancerAccess)
        {
            Console.WriteLine("\nCouldn't connect to the load balancer, verifying that the port is open...");

            var ipString = await _httpClient.GetStringAsync("https://checkip.amazonaws.com");
            ipString = ipString.Trim();

            var defaultSecurityGroup = await _autoScalerWrapper.GetDefaultSecurityGroupForVpc(defaultVpc);
            var portIsOpen = _autoScalerWrapper.VerifyInboundPortForGroup(defaultSecurityGroup, port, ipString);
            var sshPortIsOpen = _autoScalerWrapper.VerifyInboundPortForGroup(defaultSecurityGroup, sshPort, ipString);

            if (!portIsOpen)
            {
                Console.WriteLine(
                    "\nFor this example to work, the default security group for your default VPC must\n"
                    + "allows access from this computer. You can either add it automatically from this\n"
                    + "example or add it yourself using the AWS Management Console.\n");

                if (!interactive || GetYesNoResponse(
                        "Do you want to add a rule to the security group to allow inbound traffic from your computer's IP address?"))
                {
                    await _autoScalerWrapper.OpenInboundPort(defaultSecurityGroup.GroupId, port, ipString);
                }
            }

            if (!sshPortIsOpen)
            {
                if (!interactive || GetYesNoResponse(
                        "Do you want to add a rule to the security group to allow inbound SSH traffic for debugging from your computer's IP address?"))
                {
                    await _autoScalerWrapper.OpenInboundPort(defaultSecurityGroup.GroupId, sshPort, ipString);
                }
            }
            loadBalancerAccess = await _elasticLoadBalancerWrapper.VerifyLoadBalancerEndpoint(endPoint);
        }

        if (loadBalancerAccess)
        {
            Console.WriteLine("Your load balancer is ready. You can access it by browsing to:");
            Console.WriteLine($"\thttp://{endPoint}\n");
        }
        else
        {
            Console.WriteLine(
                "\nCouldn't get a successful response from the load balancer endpoint. Troubleshoot by\n"
                + "manually verifying that your VPC and security group are configured correctly and that\n"
                + "you can successfully make a GET request to the load balancer endpoint:\n");
            Console.WriteLine($"\thttp://{endPoint}\n");
        }
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to continue with the demo.");
        if (interactive)
            Console.ReadLine();
        return true;
    }

    /// <summary>
    /// Demonstrate the steps of the scenario.
    /// </summary>
    /// <param name="interactive">True to run as an interactive scenario.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> Demo(bool interactive)
    {
        var ssmOnlyPolicy = Path.Join(_configuration["resourcePath"],
            "ssm_only_policy.json");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Resetting parameters to starting values for demo.");
        await _smParameterWrapper.Reset();

        Console.WriteLine("\nThis part of the demonstration shows how to toggle different parts of the system\n" +
                          "to create situations where the web service fails, and shows how using a resilient\n" +
                          "architecture can keep the web service running in spite of these failures.");
        Console.WriteLine(new string('-', 88));
        Console.WriteLine("At the start, the load balancer endpoint returns recommendations and reports that all targets are healthy.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine($"The web service running on the EC2 instances gets recommendations by querying a DynamoDB table.\n" +
                          $"The table name is contained in a Systems Manager parameter named '{_smParameterWrapper.TableParameter}'.\n" +
                          $"To simulate a failure of the recommendation service, let's set this parameter to name a non-existent table.\n");
        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, "this-is-not-a-table");
        Console.WriteLine("\nNow, sending a GET request to the load balancer endpoint returns a failure code. But, the service reports as\n" +
                          "healthy to the load balancer because shallow health checks don't check for failure of the recommendation service.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("Instead of failing when the recommendation service fails, the web service can return a static response.");
        Console.WriteLine("While this is not a perfect solution, it presents the customer with a somewhat better experience than failure.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.FailureResponseParameter, "static");

        Console.WriteLine("\nNow, sending a GET request to the load balancer endpoint returns a static response.");
        Console.WriteLine("The service still reports as healthy because health checks are still shallow.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("Let's reinstate the recommendation service.\n");
        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, _smParameterWrapper.TableName);
        Console.WriteLine(
            "\nLet's also substitute bad credentials for one of the instances in the target group so that it can't\n" +
            "access the DynamoDB recommendation table.\n"
        );
        await _autoScalerWrapper.CreateInstanceProfileWithName(
            _autoScalerWrapper.BadCredsPolicyName,
            _autoScalerWrapper.BadCredsRoleName,
            _autoScalerWrapper.BadCredsProfileName,
            ssmOnlyPolicy,
            new List<string> { "AmazonSSMManagedInstanceCore" }
        );
        var instances = await _autoScalerWrapper.GetInstancesByGroupName(_autoScalerWrapper.GroupName);
        var badInstanceId = instances.First();
        var instanceProfile = await _autoScalerWrapper.GetInstanceProfile(badInstanceId);
        Console.WriteLine(
            $"Replacing the profile for instance {badInstanceId} with a profile that contains\n" +
            "bad credentials...\n"
        );
        await _autoScalerWrapper.ReplaceInstanceProfile(
            badInstanceId,
            _autoScalerWrapper.BadCredsProfileName,
            instanceProfile.AssociationId
        );
        Console.WriteLine(
            "Now, sending a GET request to the load balancer endpoint returns either a recommendation or a static response,\n" +
            "depending on which instance is selected by the load balancer.\n"
        );
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nLet's implement a deep health check. For this demo, a deep health check tests whether");
        Console.WriteLine("the web service can access the DynamoDB table that it depends on for recommendations. Note that");
        Console.WriteLine("the deep health check is only for ELB routing and not for Auto Scaling instance health.");
        Console.WriteLine("This kind of deep health check is not recommended for Auto Scaling instance health, because it");
        Console.WriteLine("risks accidental termination of all instances in the Auto Scaling group when a dependent service fails.");

        Console.WriteLine("\nBy implementing deep health checks, the load balancer can detect when one of the instances is failing");
        Console.WriteLine("and take that instance out of rotation.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.HealthCheckParameter, "deep");

        Console.WriteLine($"\nNow, checking target health indicates that the instance with bad credentials ({badInstanceId})");
        Console.WriteLine("is unhealthy. Note that it might take a minute or two for the load balancer to detect the unhealthy");
        Console.WriteLine("instance. Sending a GET request to the load balancer endpoint always returns a recommendation, because");
        Console.WriteLine("the load balancer takes unhealthy instances out of its rotation.");

        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nBecause the instances in this demo are controlled by an auto scaler, the simplest way to fix an unhealthy");
        Console.WriteLine("instance is to terminate it and let the auto scaler start a new instance to replace it.");

        await _autoScalerWrapper.TryTerminateInstanceById(badInstanceId);

        Console.WriteLine($"\nEven while the instance is terminating and the new instance is starting, sending a GET");
        Console.WriteLine("request to the web service continues to get a successful recommendation response because");
        Console.WriteLine("starts and reports as healthy, it is included in the load balancing rotation.");
        Console.WriteLine("Note that terminating and replacing an instance typically takes several minutes, during which time you");
        Console.WriteLine("can see the changing health check status until the new instance is running and healthy.");

        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nIf the recommendation service fails now, deep health checks mean all instances report as unhealthy.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, "this-is-not-a-table");

        Console.WriteLine($"\nWhen all instances are unhealthy, the load balancer continues to route requests even to");
        Console.WriteLine("unhealthy instances, allowing them to fail open and return a static response rather than fail");
        Console.WriteLine("closed and report failure to the customer.");

        if (interactive)
            await DemoActionChoices();
        await _smParameterWrapper.Reset();

        Console.WriteLine(new string('-', 80));
        return true;
    }

    /// <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <param name="interactive">True to ask the user for cleanup.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> DestroyResources(bool interactive)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine(
            "To keep things tidy and to avoid unwanted charges on your account, we can clean up all AWS resources\n" +
            "that were created for this demo."
        );

        if (!interactive || GetYesNoResponse("Do you want to clean up all demo resources? (y/n) "))
        {
            await _elasticLoadBalancerWrapper.DeleteLoadBalancerByName(_elasticLoadBalancerWrapper.LoadBalancerName);
            await _elasticLoadBalancerWrapper.DeleteTargetGroupByName(_elasticLoadBalancerWrapper.TargetGroupName);
            await _autoScalerWrapper.TerminateAndDeleteAutoScalingGroupWithName(_autoScalerWrapper.GroupName);
            await _autoScalerWrapper.DeleteKeyPairByName(_autoScalerWrapper.KeyPairName);
            await _autoScalerWrapper.DeleteTemplateByName(_autoScalerWrapper.LaunchTemplateName);
            await _autoScalerWrapper.DeleteInstanceProfile(
                _autoScalerWrapper.BadCredsProfileName,
                _autoScalerWrapper.BadCredsRoleName
            );
            await _recommendations.DestroyDatabaseByName(_recommendations.TableName);
        }
        else
        {
            Console.WriteLine(
                "Ok, we'll leave the resources intact.\n" +
                "Don't forget to delete them when you're done with them or you might incur unexpected charges."
            );
        }

        Console.WriteLine(new string('-', 80));
        return true;
    }
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
/// <summary>
/// Encapsulates Amazon EC2 Auto Scaling and EC2 management methods.
/// </summary>
public class AutoScalerWrapper
{
    private readonly IAmazonAutoScaling _amazonAutoScaling;
    private readonly IAmazonEC2 _amazonEc2;
    private readonly IAmazonSimpleSystemsManagement _amazonSsm;
    private readonly IAmazonIdentityManagementService _amazonIam;
    private readonly ILogger<AutoScalerWrapper> _logger;

    private readonly string _instanceType = "";
    private readonly string _amiParam = "";
    private readonly string _launchTemplateName = "";
    private readonly string _groupName = "";
    private readonly string _instancePolicyName = "";
    private readonly string _instanceRoleName = "";
    private readonly string _instanceProfileName = "";
    private readonly string _badCredsProfileName = "";
    private readonly string _badCredsRoleName = "";
    private readonly string _badCredsPolicyName = "";
    private readonly string _keyPairName = "";

    public string GroupName => _groupName;
    public string KeyPairName => _keyPairName;
    public string LaunchTemplateName => _launchTemplateName;
    public string InstancePolicyName => _instancePolicyName;
    public string BadCredsProfileName => _badCredsProfileName;
    public string BadCredsRoleName => _badCredsRoleName;
    public string BadCredsPolicyName => _badCredsPolicyName;

    /// <summary>
    /// Constructor for the AutoScalerWrapper.
    /// </summary>
    /// <param name="amazonAutoScaling">The injected AutoScaling client.</param>
    /// <param name="amazonEc2">The injected EC2 client.</param>
    /// <param name="amazonIam">The injected IAM client.</param>
    /// <param name="amazonSsm">The injected SSM client.</param>
    public AutoScalerWrapper(
        IAmazonAutoScaling amazonAutoScaling,
        IAmazonEC2 amazonEc2,
        IAmazonSimpleSystemsManagement amazonSsm,
        IAmazonIdentityManagementService amazonIam,
        IConfiguration configuration,
        ILogger<AutoScalerWrapper> logger)
    {
        _amazonAutoScaling = amazonAutoScaling;
        _amazonEc2 = amazonEc2;
        _amazonSsm = amazonSsm;
        _amazonIam = amazonIam;
        _logger = logger;

        var prefix = configuration["resourcePrefix"];
        _instanceType = configuration["instanceType"];
        _amiParam = configuration["amiParam"];

        _launchTemplateName = prefix + "-template";
        _groupName = prefix + "-group";
        _instancePolicyName = prefix + "-pol";
        _instanceRoleName = prefix + "-role";
        _instanceProfileName = prefix + "-prof";
        _badCredsPolicyName = prefix + "-bc-pol";
        _badCredsRoleName = prefix + "-bc-role";
        _badCredsProfileName = prefix + "-bc-prof";
        _keyPairName = prefix + "-key-pair";
    }

    /// <summary>
    /// Create a policy, role, and profile that is associated with instances with a specified name.
    /// An instance's associated profile defines a role that is assumed by the
    /// instance.The role has attached policies that specify the AWS permissions granted to
    /// clients that run on the instance.
    /// </summary>
    /// <param name="policyName">Name to use for the policy.</param>
    /// <param name="roleName">Name to use for the role.</param>
    /// <param name="profileName">Name to use for the profile.</param>
    /// <param name="ssmOnlyPolicyFile">Path to a policy file for SSM.</param>
    /// <param name="awsManagedPolicies">AWS Managed policies to be attached to the role.</param>
    /// <returns>The Arn of the profile.</returns>
    public async Task<string> CreateInstanceProfileWithName(
        string policyName,
        string roleName,
        string profileName,
        string ssmOnlyPolicyFile,
        List<string>? awsManagedPolicies = null)
    {

        var assumeRoleDoc = "{" +
                                   "\"Version\": \"2012-10-17\"," +
                                   "\"Statement\": [{" +
                                        "\"Effect\": \"Allow\"," +
                                        "\"Principal\": {" +
                                        "\"Service\": [" +
                                            "\"ec2.amazonaws.com\"" +
                                        "]" +
                                        "}," +
                                   "\"Action\": \"sts:AssumeRole\"" +
                                   "}]" +
                               "}";

        var policyDocument = await File.ReadAllTextAsync(ssmOnlyPolicyFile);

        var policyArn = "";

        try
        {
            var createPolicyResult = await _amazonIam.CreatePolicyAsync(
                new CreatePolicyRequest
                {
                    PolicyName = policyName,
                    PolicyDocument = policyDocument
                });
            policyArn = createPolicyResult.Policy.Arn;
        }
        catch (EntityAlreadyExistsException)
        {
            // The policy already exists, so we look it up to get the Arn.
            var policiesPaginator = _amazonIam.Paginators.ListPolicies(
                new ListPoliciesRequest()
                {
                    Scope = PolicyScopeType.Local
                });
            // Get the entire list using the paginator.
            await foreach (var policy in policiesPaginator.Policies)
            {
                if (policy.PolicyName.Equals(policyName))
                {
                    policyArn = policy.Arn;
                }
            }

            if (policyArn == null)
            {
                throw new InvalidOperationException("Policy not found");
            }
        }

        try
        {
            await _amazonIam.CreateRoleAsync(new CreateRoleRequest()
            {
                RoleName = roleName,
                AssumeRolePolicyDocument = assumeRoleDoc,
            });
            await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
            {
                RoleName = roleName,
                PolicyArn = policyArn
            });
            if (awsManagedPolicies != null)
            {
                foreach (var awsPolicy in awsManagedPolicies)
                {
                    await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
                    {
                        PolicyArn = $"arn:aws:iam::aws:policy/{awsPolicy}",
                        RoleName = roleName
                    });
                }
            }
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Role already exists.");
        }

        string profileArn = "";
        try
        {
            var profileCreateResponse = await _amazonIam.CreateInstanceProfileAsync(
                new CreateInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            // Allow time for the profile to be ready.
            profileArn = profileCreateResponse.InstanceProfile.Arn;
            Thread.Sleep(10000);
            await _amazonIam.AddRoleToInstanceProfileAsync(
                new AddRoleToInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });

        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Policy already exists.");
            var profileGetResponse = await _amazonIam.GetInstanceProfileAsync(
                new GetInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            profileArn = profileGetResponse.InstanceProfile.Arn;
        }
        return profileArn;
    }

    /// <summary>
    /// Create a new key pair and save the file.
    /// </summary>
    /// <param name="newKeyPairName">The name of the new key pair.</param>
    /// <returns>Async task.</returns>
    public async Task CreateKeyPair(string newKeyPairName)
    {
        try
        {
            var keyResponse = await _amazonEc2.CreateKeyPairAsync(
                new CreateKeyPairRequest() { KeyName = newKeyPairName });
            await File.WriteAllTextAsync($"{newKeyPairName}.pem",
                keyResponse.KeyPair.KeyMaterial);
            Console.WriteLine($"Created key pair {newKeyPairName}.");
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine("Key pair already exists.");
        }
    }

    /// <summary>
    /// Delete the key pair and file by name.
    /// </summary>
    /// <param name="deleteKeyPairName">The key pair to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteKeyPairByName(string deleteKeyPairName)
    {
        try
        {
            await _amazonEc2.DeleteKeyPairAsync(
                new DeleteKeyPairRequest() { KeyName = deleteKeyPairName });
            File.Delete($"{deleteKeyPairName}.pem");
        }
        catch (FileNotFoundException)
        {
            Console.WriteLine($"Key pair {deleteKeyPairName} not found.");
        }
    }

    /// <summary>
    /// Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling.
    /// The launch template specifies a Bash script in its user data field that runs after
    /// the instance is started. This script installs the Python packages and starts a Python
    /// web server on the instance.
    /// </summary>
    /// <param name="startupScriptPath">The path to a Bash script file that is run.</param>
    /// <param name="instancePolicyPath">The path to a permissions policy to create and attach to the profile.</param>
    /// <returns>The template object.</returns>
    public async Task<Amazon.EC2.Model.LaunchTemplate> CreateTemplate(string startupScriptPath, string instancePolicyPath)
    {
        try
        {
            await CreateKeyPair(_keyPairName);
            await CreateInstanceProfileWithName(_instancePolicyName, _instanceRoleName,
                _instanceProfileName, instancePolicyPath);

            var startServerText = await File.ReadAllTextAsync(startupScriptPath);
            var plainTextBytes = System.Text.Encoding.UTF8.GetBytes(startServerText);

            var amiLatest = await _amazonSsm.GetParameterAsync(
                new GetParameterRequest() { Name = _amiParam });
            var amiId = amiLatest.Parameter.Value;
            var launchTemplateResponse = await _amazonEc2.CreateLaunchTemplateAsync(
                new CreateLaunchTemplateRequest()
                {
                    LaunchTemplateName = _launchTemplateName,
                    LaunchTemplateData = new RequestLaunchTemplateData()
                    {
                        InstanceType = _instanceType,
                        ImageId = amiId,
                        IamInstanceProfile =
                            new
                                LaunchTemplateIamInstanceProfileSpecificationRequest()
                            {
                                Name = _instanceProfileName
                            },
                        KeyName = _keyPairName,
                        UserData = System.Convert.ToBase64String(plainTextBytes)
                    }
                });
            return launchTemplateResponse.LaunchTemplate;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.AlreadyExistsException")
            {
                _logger.LogError($"Could not create the template, the name {_launchTemplateName} already exists. " +
                                 $"Please try again with a unique name.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get a list of Availability Zones in the AWS Region of the Amazon EC2 Client.
    /// </summary>
    /// <returns>A list of availability zones.</returns>
    public async Task<List<string>> DescribeAvailabilityZones()
    {
        try
        {
            var zoneResponse = await _amazonEc2.DescribeAvailabilityZonesAsync(
                new DescribeAvailabilityZonesRequest());
            return zoneResponse.AvailabilityZones.Select(z => z.ZoneName).ToList();
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            _logger.LogError($"An Amazon EC2 error occurred while listing availability zones.: {ec2Exception.Message}");
            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while listing availability zones.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Create an EC2 Auto Scaling group of a specified size and name.
    /// </summary>
    /// <param name="groupSize">The size for the group.</param>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="availabilityZones">The availability zones for the group.</param>
    /// <returns>Async task.</returns>
    public async Task CreateGroupOfSize(int groupSize, string groupName, List<string> availabilityZones)
    {
        try
        {
            await _amazonAutoScaling.CreateAutoScalingGroupAsync(
                new CreateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    AvailabilityZones = availabilityZones,
                    LaunchTemplate =
                        new Amazon.AutoScaling.Model.LaunchTemplateSpecification()
                        {
                            LaunchTemplateName = _launchTemplateName,
                            Version = "$Default"
                        },
                    MaxSize = groupSize,
                    MinSize = groupSize
                });
            Console.WriteLine($"Created EC2 Auto Scaling group {groupName} with size {groupSize}.");
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine($"EC2 Auto Scaling group {groupName} already exists.");
        }
    }

    /// <summary>
    /// Get the default VPC for the account.
    /// </summary>
    /// <returns>The default VPC object.</returns>
    public async Task<Vpc> GetDefaultVpc()
    {
        try
        {
            var vpcResponse = await _amazonEc2.DescribeVpcsAsync(
                new DescribeVpcsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("is-default", new List<string>() { "true" })
                    }
                });
            return vpcResponse.Vpcs[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "UnauthorizedOperation")
            {
                _logger.LogError(ec2Exception, $"You do not have the necessary permissions to describe VPCs.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the vpcs.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get all the subnets for a Vpc in a set of availability zones.
    /// </summary>
    /// <param name="vpcId">The Id of the Vpc.</param>
    /// <param name="availabilityZones">The list of availability zones.</param>
    /// <returns>The collection of subnet objects.</returns>
    public async Task<List<Subnet>> GetAllVpcSubnetsForZones(string vpcId, List<string> availabilityZones)
    {
        try
        {
            var subnets = new List<Subnet>();
            var subnetPaginator = _amazonEc2.Paginators.DescribeSubnets(
                new DescribeSubnetsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("vpc-id", new List<string>() { vpcId }),
                        new("availability-zone", availabilityZones),
                        new("default-for-az", new List<string>() { "true" })
                    }
                });

            // Get the entire list using the paginator.
            await foreach (var subnet in subnetPaginator.Subnets)
            {
                subnets.Add(subnet);
            }

            return subnets;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidVpcID.NotFound")
            {
                _logger.LogError(ec2Exception, $"The specified VPC ID {vpcId} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the subnets.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Delete a launch template by name.
    /// </summary>
    /// <param name="templateName">The name of the template to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTemplateByName(string templateName)
    {
        try
        {
            await _amazonEc2.DeleteLaunchTemplateAsync(
                new DeleteLaunchTemplateRequest()
                {
                    LaunchTemplateName = templateName
                });
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.NotFoundException")
            {
                _logger.LogError(
                    $"Could not delete the template, the name {_launchTemplateName} was not found.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while deleting the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Detaches a role from an instance profile, detaches policies from the role,
    /// and deletes all the resources.
    /// </summary>
    /// <param name="profileName">The name of the profile to delete.</param>
    /// <param name="roleName">The name of the role to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteInstanceProfile(string profileName, string roleName)
    {
        try
        {
            await _amazonIam.RemoveRoleFromInstanceProfileAsync(
                new RemoveRoleFromInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });
            await _amazonIam.DeleteInstanceProfileAsync(
                new DeleteInstanceProfileRequest() { InstanceProfileName = profileName });
            var attachedPolicies = await _amazonIam.ListAttachedRolePoliciesAsync(
                new ListAttachedRolePoliciesRequest() { RoleName = roleName });
            foreach (var policy in attachedPolicies.AttachedPolicies)
            {
                await _amazonIam.DetachRolePolicyAsync(
                    new DetachRolePolicyRequest()
                    {
                        RoleName = roleName,
                        PolicyArn = policy.PolicyArn
                    });
                // Delete the custom policies only.
                if (!policy.PolicyArn.StartsWith("arn:aws:iam::aws"))
                {
                    await _amazonIam.DeletePolicyAsync(
                        new Amazon.IdentityManagement.Model.DeletePolicyRequest()
                        {
                            PolicyArn = policy.PolicyArn
                        });
                }
            }

            await _amazonIam.DeleteRoleAsync(
                new DeleteRoleRequest() { RoleName = roleName });
        }
        catch (NoSuchEntityException)
        {
            Console.WriteLine($"Instance profile {profileName} does not exist.");
        }
    }

    /// <summary>
    /// Gets data about the instances in an EC2 Auto Scaling group by its group name.
    /// </summary>
    /// <param name="group">The name of the auto scaling group.</param>
    /// <returns>A collection of instance Ids.</returns>
    public async Task<IEnumerable<string>> GetInstancesByGroupName(string group)
    {
        var instanceResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { group }
            });
        var instanceIds = instanceResponse.AutoScalingGroups.SelectMany(
            g => g.Instances.Select(i => i.InstanceId));
        return instanceIds;
    }

    /// <summary>
    /// Get the instance profile association data for an instance.
    /// </summary>
    /// <param name="instanceId">The Id of the instance.</param>
    /// <returns>Instance profile associations data.</returns>
    public async Task<IamInstanceProfileAssociation> GetInstanceProfile(string instanceId)
    {
        try
        {
            var response = await _amazonEc2.DescribeIamInstanceProfileAssociationsAsync(
                new DescribeIamInstanceProfileAssociationsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("instance-id", new List<string>() { instanceId })
                    },
                });
            return response.IamInstanceProfileAssociations[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Replace the profile associated with a running instance. After the profile is replaced, the instance
    /// is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is
    /// used to restart the Python web server.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to update.</param>
    /// <param name="credsProfileName">The name of the new profile to associate with the specified instance.</param>
    /// <param name="associationId">The Id of the existing profile association for the instance.</param>
    /// <returns>Async task.</returns>
    public async Task ReplaceInstanceProfile(string instanceId, string credsProfileName, string associationId)
    {
        try
        {
            await _amazonEc2.ReplaceIamInstanceProfileAssociationAsync(
                new ReplaceIamInstanceProfileAssociationRequest()
                {
                    AssociationId = associationId,
                    IamInstanceProfile = new IamInstanceProfileSpecification()
                    {
                        Name = credsProfileName
                    }
                });
            // Allow time before resetting.
            Thread.Sleep(25000);

            await _amazonEc2.RebootInstancesAsync(
                new RebootInstancesRequest(new List<string>() { instanceId }));
            Thread.Sleep(25000);
            var instanceReady = false;
            var retries = 5;
            while (retries-- > 0 && !instanceReady)
            {
                var instancesPaginator =
                    _amazonSsm.Paginators.DescribeInstanceInformation(
                        new DescribeInstanceInformationRequest());
                // Get the entire list using the paginator.
                await foreach (var instance in instancesPaginator.InstanceInformationList)
                {
                    instanceReady = instance.InstanceId == instanceId;
                    if (instanceReady)
                    {
                        break;
                    }
                }
            }
            Console.WriteLine("Waiting for instance to be running.");
            await WaitForInstanceState(instanceId, InstanceStateName.Running);
            Console.WriteLine("Instance ready.");
            Console.WriteLine($"Sending restart command to instance {instanceId}");
            await _amazonSsm.SendCommandAsync(
                new SendCommandRequest()
                {
                    InstanceIds = new List<string>() { instanceId },
                    DocumentName = "AWS-RunShellScript",
                    Parameters = new Dictionary<string, List<string>>()
                    {
                        {
                            "commands",
                            new List<string>() { "cd / && sudo python3 server.py 80" }
                        }
                    }
                });
            Console.WriteLine($"Restarted the web server on instance {instanceId}");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while replacing the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Try to terminate an instance by its Id.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to terminate.</param>
    /// <returns>Async task.</returns>
    public async Task TryTerminateInstanceById(string instanceId)
    {
        var stopping = false;
        Console.WriteLine($"Stopping {instanceId}...");
        while (!stopping)
        {
            try
            {
                await _amazonAutoScaling.TerminateInstanceInAutoScalingGroupAsync(
                    new TerminateInstanceInAutoScalingGroupRequest()
                    {
                        InstanceId = instanceId,
                        ShouldDecrementDesiredCapacity = false
                    });
                stopping = true;
            }
            catch (ScalingActivityInProgressException)
            {
                Console.WriteLine($"Scaling activity in progress for {instanceId}. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Tries to delete the EC2 Auto Scaling group. If the group is in use or in progress,
    /// waits and retries until the group is successfully deleted.
    /// </summary>
    /// <param name="groupName">The name of the group to try to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TryDeleteGroupByName(string groupName)
    {
        var stopped = false;
        while (!stopped)
        {
            try
            {
                await _amazonAutoScaling.DeleteAutoScalingGroupAsync(
                    new DeleteAutoScalingGroupRequest()
                    {
                        AutoScalingGroupName = groupName
                    });
                stopped = true;
            }
            catch (Exception e)
                when ((e is ScalingActivityInProgressException)
                      || (e is Amazon.AutoScaling.Model.ResourceInUseException))
            {
                Console.WriteLine($"Some instances are still running. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Terminate instances and delete the Auto Scaling group by name.
    /// </summary>
    /// <param name="groupName">The name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TerminateAndDeleteAutoScalingGroupWithName(string groupName)
    {
        var describeGroupsResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { groupName }
            });
        if (describeGroupsResponse.AutoScalingGroups.Any())
        {
            // Update the size to 0.
            await _amazonAutoScaling.UpdateAutoScalingGroupAsync(
                new UpdateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    MinSize = 0
                });
            var group = describeGroupsResponse.AutoScalingGroups[0];
            foreach (var instance in group.Instances)
            {
                await TryTerminateInstanceById(instance.InstanceId);
            }

            await TryDeleteGroupByName(groupName);
        }
        else
        {
            Console.WriteLine($"No groups found with name {groupName}.");
        }
    }


    /// <summary>
    /// Get the default security group for a specified Vpc.
    /// </summary>
    /// <param name="vpc">The Vpc to search.</param>
    /// <returns>The default security group.</returns>
    public async Task<SecurityGroup> GetDefaultSecurityGroupForVpc(Vpc vpc)
    {
        var groupResponse = await _amazonEc2.DescribeSecurityGroupsAsync(
            new DescribeSecurityGroupsRequest()
            {
                Filters = new List<Amazon.EC2.Model.Filter>()
                {
                    new ("group-name", new List<string>() { "default" }),
                    new ("vpc-id", new List<string>() { vpc.VpcId })
                }
            });
        return groupResponse.SecurityGroups[0];
    }

    /// <summary>
    /// Verify the default security group of a Vpc allows ingress from the calling computer.
    /// This can be done by allowing ingress from this computer's IP address.
    /// In some situations, such as connecting from a corporate network, you must instead specify
    /// a prefix list Id. You can also temporarily open the port to any IP address while running this example.
    /// If you do, be sure to remove public access when you're done.
    /// </summary>
    /// <param name="vpc">The group to check.</param>
    /// <param name="port">The port to verify.</param>
    /// <param name="ipAddress">This computer's IP address.</param>
    /// <returns>True if the ip address is allowed on the group.</returns>
    public bool VerifyInboundPortForGroup(SecurityGroup group, int port, string ipAddress)
    {
        var portIsOpen = false;
        foreach (var ipPermission in group.IpPermissions)
        {
            if (ipPermission.FromPort == port)
            {
                foreach (var ipRange in ipPermission.Ipv4Ranges)
                {
                    var cidr = ipRange.CidrIp;
                    if (cidr.StartsWith(ipAddress) || cidr == "0.0.0.0/0")
                    {
                        portIsOpen = true;
                    }
                }

                if (ipPermission.PrefixListIds.Any())
                {
                    portIsOpen = true;
                }

                if (!portIsOpen)
                {
                    Console.WriteLine("The inbound rule does not appear to be open to either this computer's IP\n" +
                                      "address, to all IP addresses (0.0.0.0/0), or to a prefix list ID.");
                }
                else
                {
                    break;
                }
            }
        }

        return portIsOpen;
    }

    /// <summary>
    /// Add an ingress rule to the specified security group that allows access on the
    /// specified port from the specified IP address.
    /// </summary>
    /// <param name="groupId">The Id of the security group to modify.</param>
    /// <param name="port">The port to open.</param>
    /// <param name="ipAddress">The IP address to allow access.</param>
    /// <returns>Async task.</returns>
    public async Task OpenInboundPort(string groupId, int port, string ipAddress)
    {
        await _amazonEc2.AuthorizeSecurityGroupIngressAsync(
            new AuthorizeSecurityGroupIngressRequest()
            {
                GroupId = groupId,
                IpPermissions = new List<IpPermission>()
                {
                    new IpPermission()
                    {
                        FromPort = port,
                        ToPort = port,
                        IpProtocol = "tcp",
                        Ipv4Ranges = new List<IpRange>()
                        {
                            new IpRange() { CidrIp = $"{ipAddress}/32" }
                        }
                    }
                }
            });
    }

    /// <summary>
    /// Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
    /// The
    /// </summary>
    /// <param name="autoScalingGroupName">The name of the Auto Scaling group.</param>
    /// <param name="targetGroupArn">The Arn for the target group.</param>
    /// <returns>Async task.</returns>
    public async Task AttachLoadBalancerToGroup(string autoScalingGroupName, string targetGroupArn)
    {
        await _amazonAutoScaling.AttachLoadBalancerTargetGroupsAsync(
            new AttachLoadBalancerTargetGroupsRequest()
            {
                AutoScalingGroupName = autoScalingGroupName,
                TargetGroupARNs = new List<string>() { targetGroupArn }
            });
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEc2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }
}
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
/// <summary>
/// Encapsulates Elastic Load Balancer actions.
/// </summary>
public class ElasticLoadBalancerWrapper
{
    private readonly IAmazonElasticLoadBalancingV2 _amazonElasticLoadBalancingV2;
    private string? _endpoint = null;
    private readonly string _targetGroupName = "";
    private readonly string _loadBalancerName = "";
    HttpClient _httpClient = new();

    public string TargetGroupName => _targetGroupName;
    public string LoadBalancerName => _loadBalancerName;

    /// <summary>
    /// Constructor for the Elastic Load Balancer wrapper.
    /// </summary>
    /// <param name="amazonElasticLoadBalancingV2">The injected load balancing v2 client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public ElasticLoadBalancerWrapper(
        IAmazonElasticLoadBalancingV2 amazonElasticLoadBalancingV2,
        IConfiguration configuration)
    {
        _amazonElasticLoadBalancingV2 = amazonElasticLoadBalancingV2;
        var prefix = configuration["resourcePrefix"];
        _targetGroupName = prefix + "-tg";
        _loadBalancerName = prefix + "-lb";
    }

    /// <summary>
    /// Get the HTTP Endpoint of a load balancer by its name.
    /// </summary>
    /// <param name="loadBalancerName">The name of the load balancer.</param>
    /// <returns>The HTTP endpoint.</returns>
    public async Task<string> GetEndpointForLoadBalancerByName(string loadBalancerName)
    {
        if (_endpoint == null)
        {
            var endpointResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { loadBalancerName }
                    });
            _endpoint = endpointResponse.LoadBalancers[0].DNSName;
        }

        return _endpoint;
    }

    /// <summary>
    /// Return the GET response for an endpoint as text.
    /// </summary>
    /// <param name="endpoint">The endpoint for the request.</param>
    /// <returns>The request response.</returns>
    public async Task<string> GetEndPointResponse(string endpoint)
    {
        var endpointResponse = await _httpClient.GetAsync($"http://{endpoint}");
        var textResponse = await endpointResponse.Content.ReadAsStringAsync();
        return textResponse!;
    }

    /// <summary>
    /// Get the target health for a group by name.
    /// </summary>
    /// <param name="groupName">The name of the group.</param>
    /// <returns>The collection of health descriptions.</returns>
    public async Task<List<TargetHealthDescription>> CheckTargetHealthForGroup(string groupName)
    {
        List<TargetHealthDescription> result = null!;
        try
        {
            var groupResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                    new DescribeTargetGroupsRequest()
                    {
                        Names = new List<string>() { groupName }
                    });
            var healthResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetHealthAsync(
                    new DescribeTargetHealthRequest()
                    {
                        TargetGroupArn = groupResponse.TargetGroups[0].TargetGroupArn
                    });
            ;
            result = healthResponse.TargetHealthDescriptions;
        }
        catch (TargetGroupNotFoundException)
        {
            Console.WriteLine($"Target group {groupName} not found.");
        }
        return result;
    }

    /// <summary>
    /// Create an Elastic Load Balancing target group. The target group specifies how the load balancer forwards
    /// requests to instances in the group and how instance health is checked.
    ///
    /// To speed up this demo, the health check is configured with shortened times and lower thresholds. In production,
    /// you might want to decrease the sensitivity of your health checks to avoid unwanted failures.
    /// </summary>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="protocol">The protocol, such as HTTP.</param>
    /// <param name="port">The port to use to forward requests, such as 80.</param>
    /// <param name="vpcId">The Id of the Vpc in which the load balancer exists.</param>
    /// <returns>The new TargetGroup object.</returns>
    public async Task<TargetGroup> CreateTargetGroupOnVpc(string groupName, ProtocolEnum protocol, int port, string vpcId)
    {
        var createResponse = await _amazonElasticLoadBalancingV2.CreateTargetGroupAsync(
            new CreateTargetGroupRequest()
            {
                Name = groupName,
                Protocol = protocol,
                Port = port,
                HealthCheckPath = "/healthcheck",
                HealthCheckIntervalSeconds = 10,
                HealthCheckTimeoutSeconds = 5,
                HealthyThresholdCount = 2,
                UnhealthyThresholdCount = 2,
                VpcId = vpcId
            });
        var targetGroup = createResponse.TargetGroups[0];
        return targetGroup;
    }

    /// <summary>
    /// Create an Elastic Load Balancing load balancer that uses the specified subnets
    /// and forwards requests to the specified target group.
    /// </summary>
    /// <param name="name">The name for the new load balancer.</param>
    /// <param name="subnetIds">Subnets for the load balancer.</param>
    /// <param name="targetGroup">Target group for forwarded requests.</param>
    /// <returns>The new LoadBalancer object.</returns>
    public async Task<LoadBalancer> CreateLoadBalancerAndListener(string name, List<string> subnetIds, TargetGroup targetGroup)
    {
        var createLbResponse = await _amazonElasticLoadBalancingV2.CreateLoadBalancerAsync(
            new CreateLoadBalancerRequest()
            {
                Name = name,
                Subnets = subnetIds
            });
        var loadBalancerArn = createLbResponse.LoadBalancers[0].LoadBalancerArn;

        // Wait for load balancer to be available.
        var loadBalancerReady = false;
        while (!loadBalancerReady)
        {
            try
            {
                var describeResponse =
                    await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                        new DescribeLoadBalancersRequest()
                        {
                            Names = new List<string>() { name }
                        });

                var loadBalancerState = describeResponse.LoadBalancers[0].State.Code;

                loadBalancerReady = loadBalancerState == LoadBalancerStateEnum.Active;
            }
            catch (LoadBalancerNotFoundException)
            {
                loadBalancerReady = false;
            }
            Thread.Sleep(10000);
        }
        // Create the listener.
        await _amazonElasticLoadBalancingV2.CreateListenerAsync(
            new CreateListenerRequest()
            {
                LoadBalancerArn = loadBalancerArn,
                Protocol = targetGroup.Protocol,
                Port = targetGroup.Port,
                DefaultActions = new List<Action>()
                {
                    new Action()
                    {
                        Type = ActionTypeEnum.Forward,
                        TargetGroupArn = targetGroup.TargetGroupArn
                    }
                }
            });
        return createLbResponse.LoadBalancers[0];
    }

    /// <summary>
    /// Verify this computer can successfully send a GET request to the
    /// load balancer endpoint.
    /// </summary>
    /// <param name="endpoint">The endpoint to check.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> VerifyLoadBalancerEndpoint(string endpoint)
    {
        var success = false;
        var retries = 3;
        while (!success && retries > 0)
        {
            try
            {
                var endpointResponse = await _httpClient.GetAsync($"http://{endpoint}");
                Console.WriteLine($"Response: {endpointResponse.StatusCode}.");

                if (endpointResponse.IsSuccessStatusCode)
                {
                    success = true;
                }
                else
                {
                    retries = 0;
                }
            }
            catch (HttpRequestException)
            {
                Console.WriteLine("Connection error, retrying...");
                retries--;
                Thread.Sleep(10000);
            }
        }

        return success;
    }

    /// <summary>
    /// Delete a load balancer by its specified name.
    /// </summary>
    /// <param name="name">The name of the load balancer to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteLoadBalancerByName(string name)
    {
        try
        {
            var describeLoadBalancerResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { name }
                    });
            var lbArn = describeLoadBalancerResponse.LoadBalancers[0].LoadBalancerArn;
            await _amazonElasticLoadBalancingV2.DeleteLoadBalancerAsync(
                new DeleteLoadBalancerRequest()
                {
                    LoadBalancerArn = lbArn
                }
            );
        }
        catch (LoadBalancerNotFoundException)
        {
            Console.WriteLine($"Load balancer {name} not found.");
        }
    }

    /// <summary>
    /// Delete a TargetGroup by its specified name.
    /// </summary>
    /// <param name="groupName">Name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTargetGroupByName(string groupName)
    {
        var done = false;
        while (!done)
        {
            try
            {
                var groupResponse =
                    await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                        new DescribeTargetGroupsRequest()
                        {
                            Names = new List<string>() { groupName }
                        });

                var targetArn = groupResponse.TargetGroups[0].TargetGroupArn;
                await _amazonElasticLoadBalancingV2.DeleteTargetGroupAsync(
                    new DeleteTargetGroupRequest() { TargetGroupArn = targetArn });
                Console.WriteLine($"Deleted load balancing target group {groupName}.");
                done = true;
            }
            catch (TargetGroupNotFoundException)
            {
                Console.WriteLine(
                    $"Target group {groupName} not found, could not delete.");
                done = true;
            }
            catch (ResourceInUseException)
            {
                Console.WriteLine("Target group not yet released, waiting...");
                Thread.Sleep(10000);
            }
        }
    }
}
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
/// <summary>
/// Encapsulates a DynamoDB table to use as a service that recommends books, movies, and songs.
/// </summary>
public class Recommendations
{
    private readonly IAmazonDynamoDB _amazonDynamoDb;
    private readonly DynamoDBContext _context;
    private readonly string _tableName;

    public string TableName => _tableName;

    /// <summary>
    /// Constructor for the Recommendations service.
    /// </summary>
    /// <param name="amazonDynamoDb">The injected DynamoDb client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public Recommendations(IAmazonDynamoDB amazonDynamoDb, IConfiguration configuration)
    {
        _amazonDynamoDb = amazonDynamoDb;
        _context = new DynamoDBContext(_amazonDynamoDb);
        _tableName = configuration["databaseName"]!;
    }

    /// <summary>
    /// Create the DynamoDb table with a specified name.
    /// </summary>
    /// <param name="tableName">The name for the table.</param>
    /// <returns>True when ready.</returns>
    public async Task<bool> CreateDatabaseWithName(string tableName)
    {
        try
        {
            Console.Write($"Creating table {tableName}...");
            var createRequest = new CreateTableRequest()
            {
                TableName = tableName,
                AttributeDefinitions = new List<AttributeDefinition>()
                    {
                        new AttributeDefinition()
                        {
                            AttributeName = "MediaType",
                            AttributeType = ScalarAttributeType.S
                        },
                        new AttributeDefinition()
                        {
                            AttributeName = "ItemId",
                            AttributeType = ScalarAttributeType.N
                        }
                    },
                KeySchema = new List<KeySchemaElement>()
                    {
                        new KeySchemaElement()
                        {
                            AttributeName = "MediaType",
                            KeyType = KeyType.HASH
                        },
                        new KeySchemaElement()
                        {
                            AttributeName = "ItemId",
                            KeyType = KeyType.RANGE
                        }
                    },
                ProvisionedThroughput = new ProvisionedThroughput()
                {
                    ReadCapacityUnits = 5,
                    WriteCapacityUnits = 5
                }
            };
            await _amazonDynamoDb.CreateTableAsync(createRequest);

            // Wait until the table is ACTIVE and then report success.
            Console.Write("\nWaiting for table to become active...");

            var request = new DescribeTableRequest
            {
                TableName = tableName
            };

            TableStatus status;
            do
            {
                Thread.Sleep(2000);

                var describeTableResponse = await _amazonDynamoDb.DescribeTableAsync(request);
                status = describeTableResponse.Table.TableStatus;

                Console.Write(".");
            }
            while (status != "ACTIVE");

            return status == TableStatus.ACTIVE;
        }
        catch (ResourceInUseException)
        {
            Console.WriteLine($"Table {tableName} already exists.");
            return false;
        }
    }

    /// <summary>
    /// Populate the database table with data from a specified path.
    /// </summary>
    /// <param name="databaseTableName">The name of the table.</param>
    /// <param name="recommendationsPath">The path of the recommendations data.</param>
    /// <returns>Async task.</returns>
    public async Task PopulateDatabase(string databaseTableName, string recommendationsPath)
    {
        var recommendationsText = await File.ReadAllTextAsync(recommendationsPath);
        var records =
            JsonSerializer.Deserialize<RecommendationModel[]>(recommendationsText);
        var batchWrite = _context.CreateBatchWrite<RecommendationModel>();

        foreach (var record in records!)
        {
            batchWrite.AddPutItem(record);
        }

        await batchWrite.ExecuteAsync();
    }

    /// <summary>
    /// Delete the recommendation table by name.
    /// </summary>
    /// <param name="tableName">The name of the recommendation table.</param>
    /// <returns>Async task.</returns>
    public async Task DestroyDatabaseByName(string tableName)
    {
        try
        {
            await _amazonDynamoDb.DeleteTableAsync(
                new DeleteTableRequest() { TableName = tableName });
            Console.WriteLine($"Table {tableName} was deleted.");
        }
        catch (ResourceNotFoundException)
        {
            Console.WriteLine($"Table {tableName} not found");
        }
    }
}
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
/// <summary>
/// Encapsulates Systems Manager parameter operations. This example uses these parameters
/// to drive the demonstration of resilient architecture, such as failure of a dependency or
/// how the service responds to a health check.
/// </summary>
public class SmParameterWrapper
{
    private readonly IAmazonSimpleSystemsManagement _amazonSimpleSystemsManagement;

    private readonly string _tableParameter = "doc-example-resilient-architecture-table";
    private readonly string _failureResponseParameter = "doc-example-resilient-architecture-failure-response";
    private readonly string _healthCheckParameter = "doc-example-resilient-architecture-health-check";
    private readonly string _tableName = "";

    public string TableParameter => _tableParameter;
    public string TableName => _tableName;
    public string HealthCheckParameter => _healthCheckParameter;
    public string FailureResponseParameter => _failureResponseParameter;

    /// <summary>
    /// Constructor for the SmParameterWrapper.
    /// </summary>
    /// <param name="amazonSimpleSystemsManagement">The injected Simple Systems Management client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public SmParameterWrapper(IAmazonSimpleSystemsManagement amazonSimpleSystemsManagement, IConfiguration configuration)
    {
        _amazonSimpleSystemsManagement = amazonSimpleSystemsManagement;
        _tableName = configuration["databaseName"]!;
    }

    /// <summary>
    /// Reset the Systems Manager parameters to starting values for the demo.
    /// </summary>
    /// <returns>Async task.</returns>
    public async Task Reset()
    {
        await this.PutParameterByName(_tableParameter, _tableName);
        await this.PutParameterByName(_failureResponseParameter, "none");
        await this.PutParameterByName(_healthCheckParameter, "shallow");
    }

    /// <summary>
    /// Set the value of a named Systems Manager parameter.
    /// </summary>
    /// <param name="name">The name of the parameter.</param>
    /// <param name="value">The value to set.</param>
    /// <returns>Async task.</returns>
    public async Task PutParameterByName(string name, string value)
    {
        await _amazonSimpleSystemsManagement.PutParameterAsync(
            new PutParameterRequest() { Name = name, Value = value, Overwrite = true });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# Contoh Amazon ECS menggunakan SDK untuk .NET
<a name="csharp_3_ecs_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan menerapkan skenario umum AWS SDK untuk .NET dengan menggunakan Amazon ECS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `ListClusters`
<a name="ecs_ListClusters_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListClusters`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/ECS#code-examples). 

```
    /// <summary>
    /// List cluster ARNs available.
    /// </summary>
    /// <returns>The ARN list of clusters.</returns>
    public async Task<List<string>> GetClusterARNSAsync()
    {

        Console.WriteLine("Getting a list of all the clusters in your AWS account...");
        List<string> clusterArnList = new List<string>();
        // Get a list of all the clusters in your AWS account
        try
        {

            var listClustersResponse = _ecsClient.Paginators.ListClusters(new ListClustersRequest
            {
            });

            var clusterArns = listClustersResponse.ClusterArns;

            // Print the ARNs of the clusters
            await foreach (var clusterArn in clusterArns)
            {
                clusterArnList.Add(clusterArn);
            }

            if (clusterArnList.Count == 0)
            {
                _logger.LogWarning("No clusters found in your AWS account.");
            }
            return clusterArnList;
        }
        catch (Exception e)
        {
            _logger.LogError($"An error occurred while getting a list of all the clusters in your AWS account. {e.InnerException}");
            throw new Exception($"An error occurred while getting a list of all the clusters in your AWS account. {e.InnerException}");
        }
    }
```
+  Untuk detail API, lihat [ListClusters](https://docs.aws.amazon.com/goto/DotNetSDKV3/ecs-2014-11-13/ListClusters)di *Referensi AWS SDK untuk .NET API*. 

### `ListServices`
<a name="ecs_ListServices_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListServices`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/ECS#code-examples). 

```
    /// <summary>
    /// List service ARNs available.
    /// </summary>
    /// <param name="clusterARN">The arn of the ECS cluster.</param>
    /// <returns>The ARN list of services in given cluster.</returns>
    public async Task<List<string>> GetServiceARNSAsync(string clusterARN)
    {
        List<string> serviceArns = new List<string>();

        var request = new ListServicesRequest
        {
            Cluster = clusterARN
        };
        // Call the ListServices API operation and get the list of service ARNs
        var serviceList = _ecsClient.Paginators.ListServices(request);

        await foreach (var serviceARN in serviceList.ServiceArns)
        {
            if (serviceARN is null)
                continue;

            serviceArns.Add(serviceARN);
        }

        if (serviceArns.Count == 0)
        {
            _logger.LogWarning($"No services found in cluster {clusterARN} .");
        }

        return serviceArns;
    }
```
+  Untuk detail API, lihat [ListServices](https://docs.aws.amazon.com/goto/DotNetSDKV3/ecs-2014-11-13/ListServices)di *Referensi AWS SDK untuk .NET API*. 

### `ListTasks`
<a name="ecs_ListTasks_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTasks`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/ECS#code-examples). 

```
    /// <summary>
    /// List task ARNs available.
    /// </summary>
    /// <param name="clusterARN">The arn of the ECS cluster.</param>
    /// <returns>The ARN list of tasks in given cluster.</returns>
    public async Task<List<string>> GetTaskARNsAsync(string clusterARN)
    {
        // Set up the request to describe the tasks in the service
        var listTasksRequest = new ListTasksRequest
        {
            Cluster = clusterARN
        };
        List<string> taskArns = new List<string>();

        // Call the ListTasks API operation and get the list of task ARNs
        var tasks = _ecsClient.Paginators.ListTasks(listTasksRequest);

        await foreach (var task in tasks.TaskArns)
        {
            if (task is null)
                continue;


            taskArns.Add(task);
        }

        if (taskArns.Count == 0)
        {
            _logger.LogWarning("No tasks found in cluster: " + clusterARN);
        }

        return taskArns;
    }
```
+  Untuk detail API, lihat [ListTasks](https://docs.aws.amazon.com/goto/DotNetSDKV3/ecs-2014-11-13/ListTasks)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Dapatkan informasi ARN untuk cluster, layanan, dan tugas
<a name="ecs_Scenario_GetClustersServicesAndTasks_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan daftar semua cluster.
+ Dapatkan layanan untuk cluster.
+ Dapatkan tugas untuk sebuah cluster.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/ECS#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
using Amazon.ECS;
using ECSActions;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;
using Microsoft.Extensions.Logging.Debug;

namespace ECSScenario;

public class ECSScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.


    This .NET example performs the following tasks:
        1. List ECS Cluster ARNs.
        2. List services in every cluster
        3. List Task ARNs in every cluster.
    */

    private static ILogger logger = null!;
    private static ECSWrapper _ecsWrapper = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
        .Build();

        ILoggerFactory loggerFactory = LoggerFactory.Create(builder =>
        {
            builder.AddConsole();
        });

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<ECSScenario>();

        var loggerECSWarpper = LoggerFactory.Create(builder => { builder.AddConsole(); })
          .CreateLogger<ECSWrapper>();

        var amazonECSClient = new AmazonECSClient();

        _ecsWrapper = new ECSWrapper(amazonECSClient, loggerECSWarpper);

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the Amazon ECS example scenario.");
        Console.WriteLine(new string('-', 80));

        try
        {
            await ListClusterARNs();
            await ListServiceARNs();
            await ListTaskARNs();

        }
        catch (Exception ex)
        {
            logger.LogError(ex, "There was a problem executing the scenario.");
        }
    }

    /// <summary>
    /// List ECS Cluster ARNs
    /// </summary>
    private static async Task ListClusterARNs()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"1. List Cluster ARNs from ECS.");
        var arns = await _ecsWrapper.GetClusterARNSAsync();

        foreach (var arn in arns)
        {
            Console.WriteLine($"Cluster arn: {arn}");
            Console.WriteLine($"Cluster name: {arn.Split("/").Last()}");
        }

        Console.WriteLine(new string('-', 80));
    }


    /// <summary>
    /// List services in every cluster
    /// </summary>
    private static async Task ListServiceARNs()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"2. List Service ARNs in every cluster.");
        var clusterARNs = await _ecsWrapper.GetClusterARNSAsync();

        foreach (var clusterARN in clusterARNs)
        {
            Console.WriteLine($"Getting services for cluster name: {clusterARN.Split("/").Last()}");
            Console.WriteLine(new string('.', 5));


            var serviceARNs = await _ecsWrapper.GetServiceARNSAsync(clusterARN);

            foreach (var serviceARN in serviceARNs)
            {
                Console.WriteLine($"Service arn: {serviceARN}");
                Console.WriteLine($"Service name: {serviceARN.Split("/").Last()}");
            }
        }

        Console.WriteLine(new string('-', 80));
    }


    /// <summary>
    /// List tasks in every cluster
    /// </summary>
    private static async Task ListTaskARNs()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"3. List Task ARNs in every cluster.");
        var clusterARNs = await _ecsWrapper.GetClusterARNSAsync();

        foreach (var clusterARN in clusterARNs)
        {
            Console.WriteLine($"Getting tasks for cluster name: {clusterARN.Split("/").Last()}");
            Console.WriteLine(new string('.', 5));

            var taskARNs = await _ecsWrapper.GetTaskARNsAsync(clusterARN);

            foreach (var taskARN in taskARNs)
            {
                Console.WriteLine($"Task arn: {taskARN}");
            }
        }
        Console.WriteLine(new string('-', 80));
    }
}
```
Metode pembungkus yang dipanggil oleh skenario untuk mengelola tindakan Amazon ECS.  

```
using Amazon.ECS;
using Amazon.ECS.Model;
using Microsoft.Extensions.Logging;

namespace ECSActions;

public class ECSWrapper
{
    private readonly AmazonECSClient _ecsClient;
    private readonly ILogger<ECSWrapper> _logger;

    /// <summary>
    /// Constructor for the ECS wrapper.
    /// </summary>
    /// <param name="ecsClient">The injected ECS client.</param>
    /// <param name="logger">The injected logger for the wrapper.</param>
    public ECSWrapper(AmazonECSClient ecsClient, ILogger<ECSWrapper> logger)

    {
        _logger = logger;
        _ecsClient = ecsClient;
    }

    /// <summary>
    /// List cluster ARNs available.
    /// </summary>
    /// <returns>The ARN list of clusters.</returns>
    public async Task<List<string>> GetClusterARNSAsync()
    {

        Console.WriteLine("Getting a list of all the clusters in your AWS account...");
        List<string> clusterArnList = new List<string>();
        // Get a list of all the clusters in your AWS account
        try
        {

            var listClustersResponse = _ecsClient.Paginators.ListClusters(new ListClustersRequest
            {
            });

            var clusterArns = listClustersResponse.ClusterArns;

            // Print the ARNs of the clusters
            await foreach (var clusterArn in clusterArns)
            {
                clusterArnList.Add(clusterArn);
            }

            if (clusterArnList.Count == 0)
            {
                _logger.LogWarning("No clusters found in your AWS account.");
            }
            return clusterArnList;
        }
        catch (Exception e)
        {
            _logger.LogError($"An error occurred while getting a list of all the clusters in your AWS account. {e.InnerException}");
            throw new Exception($"An error occurred while getting a list of all the clusters in your AWS account. {e.InnerException}");
        }
    }

    /// <summary>
    /// List service ARNs available.
    /// </summary>
    /// <param name="clusterARN">The arn of the ECS cluster.</param>
    /// <returns>The ARN list of services in given cluster.</returns>
    public async Task<List<string>> GetServiceARNSAsync(string clusterARN)
    {
        List<string> serviceArns = new List<string>();

        var request = new ListServicesRequest
        {
            Cluster = clusterARN
        };
        // Call the ListServices API operation and get the list of service ARNs
        var serviceList = _ecsClient.Paginators.ListServices(request);

        await foreach (var serviceARN in serviceList.ServiceArns)
        {
            if (serviceARN is null)
                continue;

            serviceArns.Add(serviceARN);
        }

        if (serviceArns.Count == 0)
        {
            _logger.LogWarning($"No services found in cluster {clusterARN} .");
        }

        return serviceArns;
    }

    /// <summary>
    /// List task ARNs available.
    /// </summary>
    /// <param name="clusterARN">The arn of the ECS cluster.</param>
    /// <returns>The ARN list of tasks in given cluster.</returns>
    public async Task<List<string>> GetTaskARNsAsync(string clusterARN)
    {
        // Set up the request to describe the tasks in the service
        var listTasksRequest = new ListTasksRequest
        {
            Cluster = clusterARN
        };
        List<string> taskArns = new List<string>();

        // Call the ListTasks API operation and get the list of task ARNs
        var tasks = _ecsClient.Paginators.ListTasks(listTasksRequest);

        await foreach (var task in tasks.TaskArns)
        {
            if (task is null)
                continue;


            taskArns.Add(task);
        }

        if (taskArns.Count == 0)
        {
            _logger.LogWarning("No tasks found in cluster: " + clusterARN);
        }

        return taskArns;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [ListClusters](https://docs.aws.amazon.com/goto/DotNetSDKV3/ecs-2014-11-13/ListClusters)
  + [ListServices](https://docs.aws.amazon.com/goto/DotNetSDKV3/ecs-2014-11-13/ListServices)
  + [ListTasks](https://docs.aws.amazon.com/goto/DotNetSDKV3/ecs-2014-11-13/ListTasks)

# Elastic Load Balancing - Contoh versi 2 menggunakan SDK untuk .NET
<a name="csharp_3_elastic-load-balancing-v2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with Elastic Load Balancing - Versi 2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateListener`
<a name="elastic-load-balancing-v2_CreateListener_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateListener`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/ElasticLoadBalancerActions#code-examples). 

```
    /// <summary>
    /// Create an Elastic Load Balancing load balancer that uses the specified subnets
    /// and forwards requests to the specified target group.
    /// </summary>
    /// <param name="name">The name for the new load balancer.</param>
    /// <param name="subnetIds">Subnets for the load balancer.</param>
    /// <param name="targetGroup">Target group for forwarded requests.</param>
    /// <returns>The new LoadBalancer object.</returns>
    public async Task<LoadBalancer> CreateLoadBalancerAndListener(string name, List<string> subnetIds, TargetGroup targetGroup)
    {
        var createLbResponse = await _amazonElasticLoadBalancingV2.CreateLoadBalancerAsync(
            new CreateLoadBalancerRequest()
            {
                Name = name,
                Subnets = subnetIds
            });
        var loadBalancerArn = createLbResponse.LoadBalancers[0].LoadBalancerArn;

        // Wait for load balancer to be available.
        var loadBalancerReady = false;
        while (!loadBalancerReady)
        {
            try
            {
                var describeResponse =
                    await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                        new DescribeLoadBalancersRequest()
                        {
                            Names = new List<string>() { name }
                        });

                var loadBalancerState = describeResponse.LoadBalancers[0].State.Code;

                loadBalancerReady = loadBalancerState == LoadBalancerStateEnum.Active;
            }
            catch (LoadBalancerNotFoundException)
            {
                loadBalancerReady = false;
            }
            Thread.Sleep(10000);
        }
        // Create the listener.
        await _amazonElasticLoadBalancingV2.CreateListenerAsync(
            new CreateListenerRequest()
            {
                LoadBalancerArn = loadBalancerArn,
                Protocol = targetGroup.Protocol,
                Port = targetGroup.Port,
                DefaultActions = new List<Action>()
                {
                    new Action()
                    {
                        Type = ActionTypeEnum.Forward,
                        TargetGroupArn = targetGroup.TargetGroupArn
                    }
                }
            });
        return createLbResponse.LoadBalancers[0];
    }
```
+  Untuk detail API, lihat [CreateListener](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateListener)di *Referensi AWS SDK untuk .NET API*. 

### `CreateLoadBalancer`
<a name="elastic-load-balancing-v2_CreateLoadBalancer_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLoadBalancer`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/ElasticLoadBalancerActions#code-examples). 

```
    /// <summary>
    /// Create an Elastic Load Balancing load balancer that uses the specified subnets
    /// and forwards requests to the specified target group.
    /// </summary>
    /// <param name="name">The name for the new load balancer.</param>
    /// <param name="subnetIds">Subnets for the load balancer.</param>
    /// <param name="targetGroup">Target group for forwarded requests.</param>
    /// <returns>The new LoadBalancer object.</returns>
    public async Task<LoadBalancer> CreateLoadBalancerAndListener(string name, List<string> subnetIds, TargetGroup targetGroup)
    {
        var createLbResponse = await _amazonElasticLoadBalancingV2.CreateLoadBalancerAsync(
            new CreateLoadBalancerRequest()
            {
                Name = name,
                Subnets = subnetIds
            });
        var loadBalancerArn = createLbResponse.LoadBalancers[0].LoadBalancerArn;

        // Wait for load balancer to be available.
        var loadBalancerReady = false;
        while (!loadBalancerReady)
        {
            try
            {
                var describeResponse =
                    await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                        new DescribeLoadBalancersRequest()
                        {
                            Names = new List<string>() { name }
                        });

                var loadBalancerState = describeResponse.LoadBalancers[0].State.Code;

                loadBalancerReady = loadBalancerState == LoadBalancerStateEnum.Active;
            }
            catch (LoadBalancerNotFoundException)
            {
                loadBalancerReady = false;
            }
            Thread.Sleep(10000);
        }
        // Create the listener.
        await _amazonElasticLoadBalancingV2.CreateListenerAsync(
            new CreateListenerRequest()
            {
                LoadBalancerArn = loadBalancerArn,
                Protocol = targetGroup.Protocol,
                Port = targetGroup.Port,
                DefaultActions = new List<Action>()
                {
                    new Action()
                    {
                        Type = ActionTypeEnum.Forward,
                        TargetGroupArn = targetGroup.TargetGroupArn
                    }
                }
            });
        return createLbResponse.LoadBalancers[0];
    }
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)di *Referensi AWS SDK untuk .NET API*. 

### `CreateTargetGroup`
<a name="elastic-load-balancing-v2_CreateTargetGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTargetGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/ElasticLoadBalancerActions#code-examples). 

```
    /// <summary>
    /// Create an Elastic Load Balancing target group. The target group specifies how the load balancer forwards
    /// requests to instances in the group and how instance health is checked.
    ///
    /// To speed up this demo, the health check is configured with shortened times and lower thresholds. In production,
    /// you might want to decrease the sensitivity of your health checks to avoid unwanted failures.
    /// </summary>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="protocol">The protocol, such as HTTP.</param>
    /// <param name="port">The port to use to forward requests, such as 80.</param>
    /// <param name="vpcId">The Id of the Vpc in which the load balancer exists.</param>
    /// <returns>The new TargetGroup object.</returns>
    public async Task<TargetGroup> CreateTargetGroupOnVpc(string groupName, ProtocolEnum protocol, int port, string vpcId)
    {
        var createResponse = await _amazonElasticLoadBalancingV2.CreateTargetGroupAsync(
            new CreateTargetGroupRequest()
            {
                Name = groupName,
                Protocol = protocol,
                Port = port,
                HealthCheckPath = "/healthcheck",
                HealthCheckIntervalSeconds = 10,
                HealthCheckTimeoutSeconds = 5,
                HealthyThresholdCount = 2,
                UnhealthyThresholdCount = 2,
                VpcId = vpcId
            });
        var targetGroup = createResponse.TargetGroups[0];
        return targetGroup;
    }
```
+  Untuk detail API, lihat [CreateTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteLoadBalancer`
<a name="elastic-load-balancing-v2_DeleteLoadBalancer_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLoadBalancer`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/ElasticLoadBalancerActions#code-examples). 

```
    /// <summary>
    /// Delete a load balancer by its specified name.
    /// </summary>
    /// <param name="name">The name of the load balancer to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteLoadBalancerByName(string name)
    {
        try
        {
            var describeLoadBalancerResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { name }
                    });
            var lbArn = describeLoadBalancerResponse.LoadBalancers[0].LoadBalancerArn;
            await _amazonElasticLoadBalancingV2.DeleteLoadBalancerAsync(
                new DeleteLoadBalancerRequest()
                {
                    LoadBalancerArn = lbArn
                }
            );
        }
        catch (LoadBalancerNotFoundException)
        {
            Console.WriteLine($"Load balancer {name} not found.");
        }
    }
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteTargetGroup`
<a name="elastic-load-balancing-v2_DeleteTargetGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTargetGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/ElasticLoadBalancerActions#code-examples). 

```
    /// <summary>
    /// Delete a TargetGroup by its specified name.
    /// </summary>
    /// <param name="groupName">Name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTargetGroupByName(string groupName)
    {
        var done = false;
        while (!done)
        {
            try
            {
                var groupResponse =
                    await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                        new DescribeTargetGroupsRequest()
                        {
                            Names = new List<string>() { groupName }
                        });

                var targetArn = groupResponse.TargetGroups[0].TargetGroupArn;
                await _amazonElasticLoadBalancingV2.DeleteTargetGroupAsync(
                    new DeleteTargetGroupRequest() { TargetGroupArn = targetArn });
                Console.WriteLine($"Deleted load balancing target group {groupName}.");
                done = true;
            }
            catch (TargetGroupNotFoundException)
            {
                Console.WriteLine(
                    $"Target group {groupName} not found, could not delete.");
                done = true;
            }
            catch (ResourceInUseException)
            {
                Console.WriteLine("Target group not yet released, waiting...");
                Thread.Sleep(10000);
            }
        }
    }
```
+  Untuk detail API, lihat [DeleteTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeLoadBalancers`
<a name="elastic-load-balancing-v2_DescribeLoadBalancers_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeLoadBalancers`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/ElasticLoadBalancerActions#code-examples). 

```
    /// <summary>
    /// Get the HTTP Endpoint of a load balancer by its name.
    /// </summary>
    /// <param name="loadBalancerName">The name of the load balancer.</param>
    /// <returns>The HTTP endpoint.</returns>
    public async Task<string> GetEndpointForLoadBalancerByName(string loadBalancerName)
    {
        if (_endpoint == null)
        {
            var endpointResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { loadBalancerName }
                    });
            _endpoint = endpointResponse.LoadBalancers[0].DNSName;
        }

        return _endpoint;
    }
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeTargetHealth`
<a name="elastic-load-balancing-v2_DescribeTargetHealth_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTargetHealth`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/ElasticLoadBalancerActions#code-examples). 

```
    /// <summary>
    /// Get the target health for a group by name.
    /// </summary>
    /// <param name="groupName">The name of the group.</param>
    /// <returns>The collection of health descriptions.</returns>
    public async Task<List<TargetHealthDescription>> CheckTargetHealthForGroup(string groupName)
    {
        List<TargetHealthDescription> result = null!;
        try
        {
            var groupResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                    new DescribeTargetGroupsRequest()
                    {
                        Names = new List<string>() { groupName }
                    });
            var healthResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetHealthAsync(
                    new DescribeTargetHealthRequest()
                    {
                        TargetGroupArn = groupResponse.TargetGroups[0].TargetGroupArn
                    });
            ;
            result = healthResponse.TargetHealthDescriptions;
        }
        catch (TargetGroupNotFoundException)
        {
            Console.WriteLine($"Target group {groupName} not found.");
        }
        return result;
    }
```
+  Untuk detail API, lihat [DescribeTargetHealth](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
    static async Task Main(string[] args)
    {
        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();


        // Set up dependency injection for the AWS services.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonIdentityManagementService>()
                    .AddAWSService<IAmazonDynamoDB>()
                    .AddAWSService<IAmazonElasticLoadBalancingV2>()
                    .AddAWSService<IAmazonSimpleSystemsManagement>()
                    .AddAWSService<IAmazonAutoScaling>()
                    .AddAWSService<IAmazonEC2>()
                    .AddTransient<AutoScalerWrapper>()
                    .AddTransient<ElasticLoadBalancerWrapper>()
                    .AddTransient<SmParameterWrapper>()
                    .AddTransient<Recommendations>()
                    .AddSingleton<IConfiguration>(_configuration)
            )
            .Build();

        ServicesSetup(host);
        ResourcesSetup();

        try
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Welcome to the Resilient Architecture Example Scenario.");
            Console.WriteLine(new string('-', 80));
            await Deploy(true);

            Console.WriteLine("Now let's begin the scenario.");
            Console.WriteLine(new string('-', 80));
            await Demo(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Finally, let's clean up our resources.");
            Console.WriteLine(new string('-', 80));

            await DestroyResources(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Resilient Architecture Example Scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            await DestroyResources(true);
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Setup any common resources, also used for integration testing.
    /// </summary>
    public static void ResourcesSetup()
    {
        _httpClient = new HttpClient();
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _elasticLoadBalancerWrapper = host.Services.GetRequiredService<ElasticLoadBalancerWrapper>();
        _iamClient = host.Services.GetRequiredService<IAmazonIdentityManagementService>();
        _recommendations = host.Services.GetRequiredService<Recommendations>();
        _autoScalerWrapper = host.Services.GetRequiredService<AutoScalerWrapper>();
        _smParameterWrapper = host.Services.GetRequiredService<SmParameterWrapper>();
    }

    /// <summary>
    /// Deploy necessary resources for the scenario.
    /// </summary>
    /// <param name="interactive">True to run as interactive.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> Deploy(bool interactive)
    {
        var protocol = "HTTP";
        var port = 80;
        var sshPort = 22;

        Console.WriteLine(
            "\nFor this demo, we'll use the AWS SDK for .NET to create several AWS resources\n" +
            "to set up a load-balanced web service endpoint and explore some ways to make it resilient\n" +
            "against various kinds of failures.\n\n" +
            "Some of the resources create by this demo are:\n");

        Console.WriteLine(
            "\t* A DynamoDB table that the web service depends on to provide book, movie, and song recommendations.");
        Console.WriteLine(
            "\t* An EC2 launch template that defines EC2 instances that each contain a Python web server.");
        Console.WriteLine(
            "\t* An EC2 Auto Scaling group that manages EC2 instances across several Availability Zones.");
        Console.WriteLine(
            "\t* An Elastic Load Balancing (ELB) load balancer that targets the Auto Scaling group to distribute requests.");
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to start deploying resources.");
        if (interactive)
            Console.ReadLine();

        // Create and populate the DynamoDB table.
        var databaseTableName = _configuration["databaseName"];
        var recommendationsPath = Path.Join(_configuration["resourcePath"],
            "recommendations_objects.json");
        Console.WriteLine($"Creating and populating a DynamoDB table named {databaseTableName}.");
        await _recommendations.CreateDatabaseWithName(databaseTableName);
        await _recommendations.PopulateDatabase(databaseTableName, recommendationsPath);
        Console.WriteLine(new string('-', 80));

        // Create the EC2 Launch Template.

        Console.WriteLine(
            $"Creating an EC2 launch template that runs 'server_startup_script.sh' when an instance starts.\n"
            + "\nThis script starts a Python web server defined in the `server.py` script. The web server\n"
            + "listens to HTTP requests on port 80 and responds to requests to '/' and to '/healthcheck'.\n"
            + "For demo purposes, this server is run as the root user. In production, the best practice is to\n"
            + "run a web server, such as Apache, with least-privileged credentials.");
        Console.WriteLine(
            "\nThe template also defines an IAM policy that each instance uses to assume a role that grants\n"
            + "permissions to access the DynamoDB recommendation table and Systems Manager parameters\n"
            + "that control the flow of the demo.");

        var startupScriptPath = Path.Join(_configuration["resourcePath"],
            "server_startup_script.sh");
        var instancePolicyPath = Path.Join(_configuration["resourcePath"],
            "instance_policy.json");
        await _autoScalerWrapper.CreateTemplate(startupScriptPath, instancePolicyPath);
        Console.WriteLine(new string('-', 80));

        Console.WriteLine(
            "Creating an EC2 Auto Scaling group that maintains three EC2 instances, each in a different\n"
            + "Availability Zone.\n");
        var zones = await _autoScalerWrapper.DescribeAvailabilityZones();
        await _autoScalerWrapper.CreateGroupOfSize(3, _autoScalerWrapper.GroupName, zones);
        Console.WriteLine(new string('-', 80));

        Console.WriteLine(
            "At this point, you have EC2 instances created. Once each instance starts, it listens for\n"
            + "HTTP requests. You can see these instances in the console or continue with the demo.\n");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to continue.");
        if (interactive)
            Console.ReadLine();

        Console.WriteLine("Creating variables that control the flow of the demo.");
        await _smParameterWrapper.Reset();

        Console.WriteLine(
            "\nCreating an Elastic Load Balancing target group and load balancer. The target group\n"
            + "defines how the load balancer connects to instances. The load balancer provides a\n"
            + "single endpoint where clients connect and dispatches requests to instances in the group.");

        var defaultVpc = await _autoScalerWrapper.GetDefaultVpc();
        var subnets = await _autoScalerWrapper.GetAllVpcSubnetsForZones(defaultVpc.VpcId, zones);
        var subnetIds = subnets.Select(s => s.SubnetId).ToList();
        var targetGroup = await _elasticLoadBalancerWrapper.CreateTargetGroupOnVpc(_elasticLoadBalancerWrapper.TargetGroupName, protocol, port, defaultVpc.VpcId);

        await _elasticLoadBalancerWrapper.CreateLoadBalancerAndListener(_elasticLoadBalancerWrapper.LoadBalancerName, subnetIds, targetGroup);
        await _autoScalerWrapper.AttachLoadBalancerToGroup(_autoScalerWrapper.GroupName, targetGroup.TargetGroupArn);
        Console.WriteLine("\nVerifying access to the load balancer endpoint...");
        var endPoint = await _elasticLoadBalancerWrapper.GetEndpointForLoadBalancerByName(_elasticLoadBalancerWrapper.LoadBalancerName);
        var loadBalancerAccess = await _elasticLoadBalancerWrapper.VerifyLoadBalancerEndpoint(endPoint);

        if (!loadBalancerAccess)
        {
            Console.WriteLine("\nCouldn't connect to the load balancer, verifying that the port is open...");

            var ipString = await _httpClient.GetStringAsync("https://checkip.amazonaws.com");
            ipString = ipString.Trim();

            var defaultSecurityGroup = await _autoScalerWrapper.GetDefaultSecurityGroupForVpc(defaultVpc);
            var portIsOpen = _autoScalerWrapper.VerifyInboundPortForGroup(defaultSecurityGroup, port, ipString);
            var sshPortIsOpen = _autoScalerWrapper.VerifyInboundPortForGroup(defaultSecurityGroup, sshPort, ipString);

            if (!portIsOpen)
            {
                Console.WriteLine(
                    "\nFor this example to work, the default security group for your default VPC must\n"
                    + "allows access from this computer. You can either add it automatically from this\n"
                    + "example or add it yourself using the AWS Management Console.\n");

                if (!interactive || GetYesNoResponse(
                        "Do you want to add a rule to the security group to allow inbound traffic from your computer's IP address?"))
                {
                    await _autoScalerWrapper.OpenInboundPort(defaultSecurityGroup.GroupId, port, ipString);
                }
            }

            if (!sshPortIsOpen)
            {
                if (!interactive || GetYesNoResponse(
                        "Do you want to add a rule to the security group to allow inbound SSH traffic for debugging from your computer's IP address?"))
                {
                    await _autoScalerWrapper.OpenInboundPort(defaultSecurityGroup.GroupId, sshPort, ipString);
                }
            }
            loadBalancerAccess = await _elasticLoadBalancerWrapper.VerifyLoadBalancerEndpoint(endPoint);
        }

        if (loadBalancerAccess)
        {
            Console.WriteLine("Your load balancer is ready. You can access it by browsing to:");
            Console.WriteLine($"\thttp://{endPoint}\n");
        }
        else
        {
            Console.WriteLine(
                "\nCouldn't get a successful response from the load balancer endpoint. Troubleshoot by\n"
                + "manually verifying that your VPC and security group are configured correctly and that\n"
                + "you can successfully make a GET request to the load balancer endpoint:\n");
            Console.WriteLine($"\thttp://{endPoint}\n");
        }
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to continue with the demo.");
        if (interactive)
            Console.ReadLine();
        return true;
    }

    /// <summary>
    /// Demonstrate the steps of the scenario.
    /// </summary>
    /// <param name="interactive">True to run as an interactive scenario.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> Demo(bool interactive)
    {
        var ssmOnlyPolicy = Path.Join(_configuration["resourcePath"],
            "ssm_only_policy.json");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Resetting parameters to starting values for demo.");
        await _smParameterWrapper.Reset();

        Console.WriteLine("\nThis part of the demonstration shows how to toggle different parts of the system\n" +
                          "to create situations where the web service fails, and shows how using a resilient\n" +
                          "architecture can keep the web service running in spite of these failures.");
        Console.WriteLine(new string('-', 88));
        Console.WriteLine("At the start, the load balancer endpoint returns recommendations and reports that all targets are healthy.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine($"The web service running on the EC2 instances gets recommendations by querying a DynamoDB table.\n" +
                          $"The table name is contained in a Systems Manager parameter named '{_smParameterWrapper.TableParameter}'.\n" +
                          $"To simulate a failure of the recommendation service, let's set this parameter to name a non-existent table.\n");
        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, "this-is-not-a-table");
        Console.WriteLine("\nNow, sending a GET request to the load balancer endpoint returns a failure code. But, the service reports as\n" +
                          "healthy to the load balancer because shallow health checks don't check for failure of the recommendation service.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("Instead of failing when the recommendation service fails, the web service can return a static response.");
        Console.WriteLine("While this is not a perfect solution, it presents the customer with a somewhat better experience than failure.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.FailureResponseParameter, "static");

        Console.WriteLine("\nNow, sending a GET request to the load balancer endpoint returns a static response.");
        Console.WriteLine("The service still reports as healthy because health checks are still shallow.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("Let's reinstate the recommendation service.\n");
        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, _smParameterWrapper.TableName);
        Console.WriteLine(
            "\nLet's also substitute bad credentials for one of the instances in the target group so that it can't\n" +
            "access the DynamoDB recommendation table.\n"
        );
        await _autoScalerWrapper.CreateInstanceProfileWithName(
            _autoScalerWrapper.BadCredsPolicyName,
            _autoScalerWrapper.BadCredsRoleName,
            _autoScalerWrapper.BadCredsProfileName,
            ssmOnlyPolicy,
            new List<string> { "AmazonSSMManagedInstanceCore" }
        );
        var instances = await _autoScalerWrapper.GetInstancesByGroupName(_autoScalerWrapper.GroupName);
        var badInstanceId = instances.First();
        var instanceProfile = await _autoScalerWrapper.GetInstanceProfile(badInstanceId);
        Console.WriteLine(
            $"Replacing the profile for instance {badInstanceId} with a profile that contains\n" +
            "bad credentials...\n"
        );
        await _autoScalerWrapper.ReplaceInstanceProfile(
            badInstanceId,
            _autoScalerWrapper.BadCredsProfileName,
            instanceProfile.AssociationId
        );
        Console.WriteLine(
            "Now, sending a GET request to the load balancer endpoint returns either a recommendation or a static response,\n" +
            "depending on which instance is selected by the load balancer.\n"
        );
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nLet's implement a deep health check. For this demo, a deep health check tests whether");
        Console.WriteLine("the web service can access the DynamoDB table that it depends on for recommendations. Note that");
        Console.WriteLine("the deep health check is only for ELB routing and not for Auto Scaling instance health.");
        Console.WriteLine("This kind of deep health check is not recommended for Auto Scaling instance health, because it");
        Console.WriteLine("risks accidental termination of all instances in the Auto Scaling group when a dependent service fails.");

        Console.WriteLine("\nBy implementing deep health checks, the load balancer can detect when one of the instances is failing");
        Console.WriteLine("and take that instance out of rotation.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.HealthCheckParameter, "deep");

        Console.WriteLine($"\nNow, checking target health indicates that the instance with bad credentials ({badInstanceId})");
        Console.WriteLine("is unhealthy. Note that it might take a minute or two for the load balancer to detect the unhealthy");
        Console.WriteLine("instance. Sending a GET request to the load balancer endpoint always returns a recommendation, because");
        Console.WriteLine("the load balancer takes unhealthy instances out of its rotation.");

        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nBecause the instances in this demo are controlled by an auto scaler, the simplest way to fix an unhealthy");
        Console.WriteLine("instance is to terminate it and let the auto scaler start a new instance to replace it.");

        await _autoScalerWrapper.TryTerminateInstanceById(badInstanceId);

        Console.WriteLine($"\nEven while the instance is terminating and the new instance is starting, sending a GET");
        Console.WriteLine("request to the web service continues to get a successful recommendation response because");
        Console.WriteLine("starts and reports as healthy, it is included in the load balancing rotation.");
        Console.WriteLine("Note that terminating and replacing an instance typically takes several minutes, during which time you");
        Console.WriteLine("can see the changing health check status until the new instance is running and healthy.");

        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nIf the recommendation service fails now, deep health checks mean all instances report as unhealthy.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, "this-is-not-a-table");

        Console.WriteLine($"\nWhen all instances are unhealthy, the load balancer continues to route requests even to");
        Console.WriteLine("unhealthy instances, allowing them to fail open and return a static response rather than fail");
        Console.WriteLine("closed and report failure to the customer.");

        if (interactive)
            await DemoActionChoices();
        await _smParameterWrapper.Reset();

        Console.WriteLine(new string('-', 80));
        return true;
    }

    /// <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <param name="interactive">True to ask the user for cleanup.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> DestroyResources(bool interactive)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine(
            "To keep things tidy and to avoid unwanted charges on your account, we can clean up all AWS resources\n" +
            "that were created for this demo."
        );

        if (!interactive || GetYesNoResponse("Do you want to clean up all demo resources? (y/n) "))
        {
            await _elasticLoadBalancerWrapper.DeleteLoadBalancerByName(_elasticLoadBalancerWrapper.LoadBalancerName);
            await _elasticLoadBalancerWrapper.DeleteTargetGroupByName(_elasticLoadBalancerWrapper.TargetGroupName);
            await _autoScalerWrapper.TerminateAndDeleteAutoScalingGroupWithName(_autoScalerWrapper.GroupName);
            await _autoScalerWrapper.DeleteKeyPairByName(_autoScalerWrapper.KeyPairName);
            await _autoScalerWrapper.DeleteTemplateByName(_autoScalerWrapper.LaunchTemplateName);
            await _autoScalerWrapper.DeleteInstanceProfile(
                _autoScalerWrapper.BadCredsProfileName,
                _autoScalerWrapper.BadCredsRoleName
            );
            await _recommendations.DestroyDatabaseByName(_recommendations.TableName);
        }
        else
        {
            Console.WriteLine(
                "Ok, we'll leave the resources intact.\n" +
                "Don't forget to delete them when you're done with them or you might incur unexpected charges."
            );
        }

        Console.WriteLine(new string('-', 80));
        return true;
    }
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
/// <summary>
/// Encapsulates Amazon EC2 Auto Scaling and EC2 management methods.
/// </summary>
public class AutoScalerWrapper
{
    private readonly IAmazonAutoScaling _amazonAutoScaling;
    private readonly IAmazonEC2 _amazonEc2;
    private readonly IAmazonSimpleSystemsManagement _amazonSsm;
    private readonly IAmazonIdentityManagementService _amazonIam;
    private readonly ILogger<AutoScalerWrapper> _logger;

    private readonly string _instanceType = "";
    private readonly string _amiParam = "";
    private readonly string _launchTemplateName = "";
    private readonly string _groupName = "";
    private readonly string _instancePolicyName = "";
    private readonly string _instanceRoleName = "";
    private readonly string _instanceProfileName = "";
    private readonly string _badCredsProfileName = "";
    private readonly string _badCredsRoleName = "";
    private readonly string _badCredsPolicyName = "";
    private readonly string _keyPairName = "";

    public string GroupName => _groupName;
    public string KeyPairName => _keyPairName;
    public string LaunchTemplateName => _launchTemplateName;
    public string InstancePolicyName => _instancePolicyName;
    public string BadCredsProfileName => _badCredsProfileName;
    public string BadCredsRoleName => _badCredsRoleName;
    public string BadCredsPolicyName => _badCredsPolicyName;

    /// <summary>
    /// Constructor for the AutoScalerWrapper.
    /// </summary>
    /// <param name="amazonAutoScaling">The injected AutoScaling client.</param>
    /// <param name="amazonEc2">The injected EC2 client.</param>
    /// <param name="amazonIam">The injected IAM client.</param>
    /// <param name="amazonSsm">The injected SSM client.</param>
    public AutoScalerWrapper(
        IAmazonAutoScaling amazonAutoScaling,
        IAmazonEC2 amazonEc2,
        IAmazonSimpleSystemsManagement amazonSsm,
        IAmazonIdentityManagementService amazonIam,
        IConfiguration configuration,
        ILogger<AutoScalerWrapper> logger)
    {
        _amazonAutoScaling = amazonAutoScaling;
        _amazonEc2 = amazonEc2;
        _amazonSsm = amazonSsm;
        _amazonIam = amazonIam;
        _logger = logger;

        var prefix = configuration["resourcePrefix"];
        _instanceType = configuration["instanceType"];
        _amiParam = configuration["amiParam"];

        _launchTemplateName = prefix + "-template";
        _groupName = prefix + "-group";
        _instancePolicyName = prefix + "-pol";
        _instanceRoleName = prefix + "-role";
        _instanceProfileName = prefix + "-prof";
        _badCredsPolicyName = prefix + "-bc-pol";
        _badCredsRoleName = prefix + "-bc-role";
        _badCredsProfileName = prefix + "-bc-prof";
        _keyPairName = prefix + "-key-pair";
    }

    /// <summary>
    /// Create a policy, role, and profile that is associated with instances with a specified name.
    /// An instance's associated profile defines a role that is assumed by the
    /// instance.The role has attached policies that specify the AWS permissions granted to
    /// clients that run on the instance.
    /// </summary>
    /// <param name="policyName">Name to use for the policy.</param>
    /// <param name="roleName">Name to use for the role.</param>
    /// <param name="profileName">Name to use for the profile.</param>
    /// <param name="ssmOnlyPolicyFile">Path to a policy file for SSM.</param>
    /// <param name="awsManagedPolicies">AWS Managed policies to be attached to the role.</param>
    /// <returns>The Arn of the profile.</returns>
    public async Task<string> CreateInstanceProfileWithName(
        string policyName,
        string roleName,
        string profileName,
        string ssmOnlyPolicyFile,
        List<string>? awsManagedPolicies = null)
    {

        var assumeRoleDoc = "{" +
                                   "\"Version\": \"2012-10-17\"," +
                                   "\"Statement\": [{" +
                                        "\"Effect\": \"Allow\"," +
                                        "\"Principal\": {" +
                                        "\"Service\": [" +
                                            "\"ec2.amazonaws.com\"" +
                                        "]" +
                                        "}," +
                                   "\"Action\": \"sts:AssumeRole\"" +
                                   "}]" +
                               "}";

        var policyDocument = await File.ReadAllTextAsync(ssmOnlyPolicyFile);

        var policyArn = "";

        try
        {
            var createPolicyResult = await _amazonIam.CreatePolicyAsync(
                new CreatePolicyRequest
                {
                    PolicyName = policyName,
                    PolicyDocument = policyDocument
                });
            policyArn = createPolicyResult.Policy.Arn;
        }
        catch (EntityAlreadyExistsException)
        {
            // The policy already exists, so we look it up to get the Arn.
            var policiesPaginator = _amazonIam.Paginators.ListPolicies(
                new ListPoliciesRequest()
                {
                    Scope = PolicyScopeType.Local
                });
            // Get the entire list using the paginator.
            await foreach (var policy in policiesPaginator.Policies)
            {
                if (policy.PolicyName.Equals(policyName))
                {
                    policyArn = policy.Arn;
                }
            }

            if (policyArn == null)
            {
                throw new InvalidOperationException("Policy not found");
            }
        }

        try
        {
            await _amazonIam.CreateRoleAsync(new CreateRoleRequest()
            {
                RoleName = roleName,
                AssumeRolePolicyDocument = assumeRoleDoc,
            });
            await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
            {
                RoleName = roleName,
                PolicyArn = policyArn
            });
            if (awsManagedPolicies != null)
            {
                foreach (var awsPolicy in awsManagedPolicies)
                {
                    await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
                    {
                        PolicyArn = $"arn:aws:iam::aws:policy/{awsPolicy}",
                        RoleName = roleName
                    });
                }
            }
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Role already exists.");
        }

        string profileArn = "";
        try
        {
            var profileCreateResponse = await _amazonIam.CreateInstanceProfileAsync(
                new CreateInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            // Allow time for the profile to be ready.
            profileArn = profileCreateResponse.InstanceProfile.Arn;
            Thread.Sleep(10000);
            await _amazonIam.AddRoleToInstanceProfileAsync(
                new AddRoleToInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });

        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Policy already exists.");
            var profileGetResponse = await _amazonIam.GetInstanceProfileAsync(
                new GetInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            profileArn = profileGetResponse.InstanceProfile.Arn;
        }
        return profileArn;
    }

    /// <summary>
    /// Create a new key pair and save the file.
    /// </summary>
    /// <param name="newKeyPairName">The name of the new key pair.</param>
    /// <returns>Async task.</returns>
    public async Task CreateKeyPair(string newKeyPairName)
    {
        try
        {
            var keyResponse = await _amazonEc2.CreateKeyPairAsync(
                new CreateKeyPairRequest() { KeyName = newKeyPairName });
            await File.WriteAllTextAsync($"{newKeyPairName}.pem",
                keyResponse.KeyPair.KeyMaterial);
            Console.WriteLine($"Created key pair {newKeyPairName}.");
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine("Key pair already exists.");
        }
    }

    /// <summary>
    /// Delete the key pair and file by name.
    /// </summary>
    /// <param name="deleteKeyPairName">The key pair to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteKeyPairByName(string deleteKeyPairName)
    {
        try
        {
            await _amazonEc2.DeleteKeyPairAsync(
                new DeleteKeyPairRequest() { KeyName = deleteKeyPairName });
            File.Delete($"{deleteKeyPairName}.pem");
        }
        catch (FileNotFoundException)
        {
            Console.WriteLine($"Key pair {deleteKeyPairName} not found.");
        }
    }

    /// <summary>
    /// Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling.
    /// The launch template specifies a Bash script in its user data field that runs after
    /// the instance is started. This script installs the Python packages and starts a Python
    /// web server on the instance.
    /// </summary>
    /// <param name="startupScriptPath">The path to a Bash script file that is run.</param>
    /// <param name="instancePolicyPath">The path to a permissions policy to create and attach to the profile.</param>
    /// <returns>The template object.</returns>
    public async Task<Amazon.EC2.Model.LaunchTemplate> CreateTemplate(string startupScriptPath, string instancePolicyPath)
    {
        try
        {
            await CreateKeyPair(_keyPairName);
            await CreateInstanceProfileWithName(_instancePolicyName, _instanceRoleName,
                _instanceProfileName, instancePolicyPath);

            var startServerText = await File.ReadAllTextAsync(startupScriptPath);
            var plainTextBytes = System.Text.Encoding.UTF8.GetBytes(startServerText);

            var amiLatest = await _amazonSsm.GetParameterAsync(
                new GetParameterRequest() { Name = _amiParam });
            var amiId = amiLatest.Parameter.Value;
            var launchTemplateResponse = await _amazonEc2.CreateLaunchTemplateAsync(
                new CreateLaunchTemplateRequest()
                {
                    LaunchTemplateName = _launchTemplateName,
                    LaunchTemplateData = new RequestLaunchTemplateData()
                    {
                        InstanceType = _instanceType,
                        ImageId = amiId,
                        IamInstanceProfile =
                            new
                                LaunchTemplateIamInstanceProfileSpecificationRequest()
                            {
                                Name = _instanceProfileName
                            },
                        KeyName = _keyPairName,
                        UserData = System.Convert.ToBase64String(plainTextBytes)
                    }
                });
            return launchTemplateResponse.LaunchTemplate;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.AlreadyExistsException")
            {
                _logger.LogError($"Could not create the template, the name {_launchTemplateName} already exists. " +
                                 $"Please try again with a unique name.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get a list of Availability Zones in the AWS Region of the Amazon EC2 Client.
    /// </summary>
    /// <returns>A list of availability zones.</returns>
    public async Task<List<string>> DescribeAvailabilityZones()
    {
        try
        {
            var zoneResponse = await _amazonEc2.DescribeAvailabilityZonesAsync(
                new DescribeAvailabilityZonesRequest());
            return zoneResponse.AvailabilityZones.Select(z => z.ZoneName).ToList();
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            _logger.LogError($"An Amazon EC2 error occurred while listing availability zones.: {ec2Exception.Message}");
            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while listing availability zones.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Create an EC2 Auto Scaling group of a specified size and name.
    /// </summary>
    /// <param name="groupSize">The size for the group.</param>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="availabilityZones">The availability zones for the group.</param>
    /// <returns>Async task.</returns>
    public async Task CreateGroupOfSize(int groupSize, string groupName, List<string> availabilityZones)
    {
        try
        {
            await _amazonAutoScaling.CreateAutoScalingGroupAsync(
                new CreateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    AvailabilityZones = availabilityZones,
                    LaunchTemplate =
                        new Amazon.AutoScaling.Model.LaunchTemplateSpecification()
                        {
                            LaunchTemplateName = _launchTemplateName,
                            Version = "$Default"
                        },
                    MaxSize = groupSize,
                    MinSize = groupSize
                });
            Console.WriteLine($"Created EC2 Auto Scaling group {groupName} with size {groupSize}.");
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine($"EC2 Auto Scaling group {groupName} already exists.");
        }
    }

    /// <summary>
    /// Get the default VPC for the account.
    /// </summary>
    /// <returns>The default VPC object.</returns>
    public async Task<Vpc> GetDefaultVpc()
    {
        try
        {
            var vpcResponse = await _amazonEc2.DescribeVpcsAsync(
                new DescribeVpcsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("is-default", new List<string>() { "true" })
                    }
                });
            return vpcResponse.Vpcs[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "UnauthorizedOperation")
            {
                _logger.LogError(ec2Exception, $"You do not have the necessary permissions to describe VPCs.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the vpcs.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get all the subnets for a Vpc in a set of availability zones.
    /// </summary>
    /// <param name="vpcId">The Id of the Vpc.</param>
    /// <param name="availabilityZones">The list of availability zones.</param>
    /// <returns>The collection of subnet objects.</returns>
    public async Task<List<Subnet>> GetAllVpcSubnetsForZones(string vpcId, List<string> availabilityZones)
    {
        try
        {
            var subnets = new List<Subnet>();
            var subnetPaginator = _amazonEc2.Paginators.DescribeSubnets(
                new DescribeSubnetsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("vpc-id", new List<string>() { vpcId }),
                        new("availability-zone", availabilityZones),
                        new("default-for-az", new List<string>() { "true" })
                    }
                });

            // Get the entire list using the paginator.
            await foreach (var subnet in subnetPaginator.Subnets)
            {
                subnets.Add(subnet);
            }

            return subnets;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidVpcID.NotFound")
            {
                _logger.LogError(ec2Exception, $"The specified VPC ID {vpcId} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the subnets.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Delete a launch template by name.
    /// </summary>
    /// <param name="templateName">The name of the template to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTemplateByName(string templateName)
    {
        try
        {
            await _amazonEc2.DeleteLaunchTemplateAsync(
                new DeleteLaunchTemplateRequest()
                {
                    LaunchTemplateName = templateName
                });
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.NotFoundException")
            {
                _logger.LogError(
                    $"Could not delete the template, the name {_launchTemplateName} was not found.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while deleting the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Detaches a role from an instance profile, detaches policies from the role,
    /// and deletes all the resources.
    /// </summary>
    /// <param name="profileName">The name of the profile to delete.</param>
    /// <param name="roleName">The name of the role to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteInstanceProfile(string profileName, string roleName)
    {
        try
        {
            await _amazonIam.RemoveRoleFromInstanceProfileAsync(
                new RemoveRoleFromInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });
            await _amazonIam.DeleteInstanceProfileAsync(
                new DeleteInstanceProfileRequest() { InstanceProfileName = profileName });
            var attachedPolicies = await _amazonIam.ListAttachedRolePoliciesAsync(
                new ListAttachedRolePoliciesRequest() { RoleName = roleName });
            foreach (var policy in attachedPolicies.AttachedPolicies)
            {
                await _amazonIam.DetachRolePolicyAsync(
                    new DetachRolePolicyRequest()
                    {
                        RoleName = roleName,
                        PolicyArn = policy.PolicyArn
                    });
                // Delete the custom policies only.
                if (!policy.PolicyArn.StartsWith("arn:aws:iam::aws"))
                {
                    await _amazonIam.DeletePolicyAsync(
                        new Amazon.IdentityManagement.Model.DeletePolicyRequest()
                        {
                            PolicyArn = policy.PolicyArn
                        });
                }
            }

            await _amazonIam.DeleteRoleAsync(
                new DeleteRoleRequest() { RoleName = roleName });
        }
        catch (NoSuchEntityException)
        {
            Console.WriteLine($"Instance profile {profileName} does not exist.");
        }
    }

    /// <summary>
    /// Gets data about the instances in an EC2 Auto Scaling group by its group name.
    /// </summary>
    /// <param name="group">The name of the auto scaling group.</param>
    /// <returns>A collection of instance Ids.</returns>
    public async Task<IEnumerable<string>> GetInstancesByGroupName(string group)
    {
        var instanceResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { group }
            });
        var instanceIds = instanceResponse.AutoScalingGroups.SelectMany(
            g => g.Instances.Select(i => i.InstanceId));
        return instanceIds;
    }

    /// <summary>
    /// Get the instance profile association data for an instance.
    /// </summary>
    /// <param name="instanceId">The Id of the instance.</param>
    /// <returns>Instance profile associations data.</returns>
    public async Task<IamInstanceProfileAssociation> GetInstanceProfile(string instanceId)
    {
        try
        {
            var response = await _amazonEc2.DescribeIamInstanceProfileAssociationsAsync(
                new DescribeIamInstanceProfileAssociationsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("instance-id", new List<string>() { instanceId })
                    },
                });
            return response.IamInstanceProfileAssociations[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Replace the profile associated with a running instance. After the profile is replaced, the instance
    /// is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is
    /// used to restart the Python web server.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to update.</param>
    /// <param name="credsProfileName">The name of the new profile to associate with the specified instance.</param>
    /// <param name="associationId">The Id of the existing profile association for the instance.</param>
    /// <returns>Async task.</returns>
    public async Task ReplaceInstanceProfile(string instanceId, string credsProfileName, string associationId)
    {
        try
        {
            await _amazonEc2.ReplaceIamInstanceProfileAssociationAsync(
                new ReplaceIamInstanceProfileAssociationRequest()
                {
                    AssociationId = associationId,
                    IamInstanceProfile = new IamInstanceProfileSpecification()
                    {
                        Name = credsProfileName
                    }
                });
            // Allow time before resetting.
            Thread.Sleep(25000);

            await _amazonEc2.RebootInstancesAsync(
                new RebootInstancesRequest(new List<string>() { instanceId }));
            Thread.Sleep(25000);
            var instanceReady = false;
            var retries = 5;
            while (retries-- > 0 && !instanceReady)
            {
                var instancesPaginator =
                    _amazonSsm.Paginators.DescribeInstanceInformation(
                        new DescribeInstanceInformationRequest());
                // Get the entire list using the paginator.
                await foreach (var instance in instancesPaginator.InstanceInformationList)
                {
                    instanceReady = instance.InstanceId == instanceId;
                    if (instanceReady)
                    {
                        break;
                    }
                }
            }
            Console.WriteLine("Waiting for instance to be running.");
            await WaitForInstanceState(instanceId, InstanceStateName.Running);
            Console.WriteLine("Instance ready.");
            Console.WriteLine($"Sending restart command to instance {instanceId}");
            await _amazonSsm.SendCommandAsync(
                new SendCommandRequest()
                {
                    InstanceIds = new List<string>() { instanceId },
                    DocumentName = "AWS-RunShellScript",
                    Parameters = new Dictionary<string, List<string>>()
                    {
                        {
                            "commands",
                            new List<string>() { "cd / && sudo python3 server.py 80" }
                        }
                    }
                });
            Console.WriteLine($"Restarted the web server on instance {instanceId}");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while replacing the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Try to terminate an instance by its Id.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to terminate.</param>
    /// <returns>Async task.</returns>
    public async Task TryTerminateInstanceById(string instanceId)
    {
        var stopping = false;
        Console.WriteLine($"Stopping {instanceId}...");
        while (!stopping)
        {
            try
            {
                await _amazonAutoScaling.TerminateInstanceInAutoScalingGroupAsync(
                    new TerminateInstanceInAutoScalingGroupRequest()
                    {
                        InstanceId = instanceId,
                        ShouldDecrementDesiredCapacity = false
                    });
                stopping = true;
            }
            catch (ScalingActivityInProgressException)
            {
                Console.WriteLine($"Scaling activity in progress for {instanceId}. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Tries to delete the EC2 Auto Scaling group. If the group is in use or in progress,
    /// waits and retries until the group is successfully deleted.
    /// </summary>
    /// <param name="groupName">The name of the group to try to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TryDeleteGroupByName(string groupName)
    {
        var stopped = false;
        while (!stopped)
        {
            try
            {
                await _amazonAutoScaling.DeleteAutoScalingGroupAsync(
                    new DeleteAutoScalingGroupRequest()
                    {
                        AutoScalingGroupName = groupName
                    });
                stopped = true;
            }
            catch (Exception e)
                when ((e is ScalingActivityInProgressException)
                      || (e is Amazon.AutoScaling.Model.ResourceInUseException))
            {
                Console.WriteLine($"Some instances are still running. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Terminate instances and delete the Auto Scaling group by name.
    /// </summary>
    /// <param name="groupName">The name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TerminateAndDeleteAutoScalingGroupWithName(string groupName)
    {
        var describeGroupsResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { groupName }
            });
        if (describeGroupsResponse.AutoScalingGroups.Any())
        {
            // Update the size to 0.
            await _amazonAutoScaling.UpdateAutoScalingGroupAsync(
                new UpdateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    MinSize = 0
                });
            var group = describeGroupsResponse.AutoScalingGroups[0];
            foreach (var instance in group.Instances)
            {
                await TryTerminateInstanceById(instance.InstanceId);
            }

            await TryDeleteGroupByName(groupName);
        }
        else
        {
            Console.WriteLine($"No groups found with name {groupName}.");
        }
    }


    /// <summary>
    /// Get the default security group for a specified Vpc.
    /// </summary>
    /// <param name="vpc">The Vpc to search.</param>
    /// <returns>The default security group.</returns>
    public async Task<SecurityGroup> GetDefaultSecurityGroupForVpc(Vpc vpc)
    {
        var groupResponse = await _amazonEc2.DescribeSecurityGroupsAsync(
            new DescribeSecurityGroupsRequest()
            {
                Filters = new List<Amazon.EC2.Model.Filter>()
                {
                    new ("group-name", new List<string>() { "default" }),
                    new ("vpc-id", new List<string>() { vpc.VpcId })
                }
            });
        return groupResponse.SecurityGroups[0];
    }

    /// <summary>
    /// Verify the default security group of a Vpc allows ingress from the calling computer.
    /// This can be done by allowing ingress from this computer's IP address.
    /// In some situations, such as connecting from a corporate network, you must instead specify
    /// a prefix list Id. You can also temporarily open the port to any IP address while running this example.
    /// If you do, be sure to remove public access when you're done.
    /// </summary>
    /// <param name="vpc">The group to check.</param>
    /// <param name="port">The port to verify.</param>
    /// <param name="ipAddress">This computer's IP address.</param>
    /// <returns>True if the ip address is allowed on the group.</returns>
    public bool VerifyInboundPortForGroup(SecurityGroup group, int port, string ipAddress)
    {
        var portIsOpen = false;
        foreach (var ipPermission in group.IpPermissions)
        {
            if (ipPermission.FromPort == port)
            {
                foreach (var ipRange in ipPermission.Ipv4Ranges)
                {
                    var cidr = ipRange.CidrIp;
                    if (cidr.StartsWith(ipAddress) || cidr == "0.0.0.0/0")
                    {
                        portIsOpen = true;
                    }
                }

                if (ipPermission.PrefixListIds.Any())
                {
                    portIsOpen = true;
                }

                if (!portIsOpen)
                {
                    Console.WriteLine("The inbound rule does not appear to be open to either this computer's IP\n" +
                                      "address, to all IP addresses (0.0.0.0/0), or to a prefix list ID.");
                }
                else
                {
                    break;
                }
            }
        }

        return portIsOpen;
    }

    /// <summary>
    /// Add an ingress rule to the specified security group that allows access on the
    /// specified port from the specified IP address.
    /// </summary>
    /// <param name="groupId">The Id of the security group to modify.</param>
    /// <param name="port">The port to open.</param>
    /// <param name="ipAddress">The IP address to allow access.</param>
    /// <returns>Async task.</returns>
    public async Task OpenInboundPort(string groupId, int port, string ipAddress)
    {
        await _amazonEc2.AuthorizeSecurityGroupIngressAsync(
            new AuthorizeSecurityGroupIngressRequest()
            {
                GroupId = groupId,
                IpPermissions = new List<IpPermission>()
                {
                    new IpPermission()
                    {
                        FromPort = port,
                        ToPort = port,
                        IpProtocol = "tcp",
                        Ipv4Ranges = new List<IpRange>()
                        {
                            new IpRange() { CidrIp = $"{ipAddress}/32" }
                        }
                    }
                }
            });
    }

    /// <summary>
    /// Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
    /// The
    /// </summary>
    /// <param name="autoScalingGroupName">The name of the Auto Scaling group.</param>
    /// <param name="targetGroupArn">The Arn for the target group.</param>
    /// <returns>Async task.</returns>
    public async Task AttachLoadBalancerToGroup(string autoScalingGroupName, string targetGroupArn)
    {
        await _amazonAutoScaling.AttachLoadBalancerTargetGroupsAsync(
            new AttachLoadBalancerTargetGroupsRequest()
            {
                AutoScalingGroupName = autoScalingGroupName,
                TargetGroupARNs = new List<string>() { targetGroupArn }
            });
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEc2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }
}
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
/// <summary>
/// Encapsulates Elastic Load Balancer actions.
/// </summary>
public class ElasticLoadBalancerWrapper
{
    private readonly IAmazonElasticLoadBalancingV2 _amazonElasticLoadBalancingV2;
    private string? _endpoint = null;
    private readonly string _targetGroupName = "";
    private readonly string _loadBalancerName = "";
    HttpClient _httpClient = new();

    public string TargetGroupName => _targetGroupName;
    public string LoadBalancerName => _loadBalancerName;

    /// <summary>
    /// Constructor for the Elastic Load Balancer wrapper.
    /// </summary>
    /// <param name="amazonElasticLoadBalancingV2">The injected load balancing v2 client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public ElasticLoadBalancerWrapper(
        IAmazonElasticLoadBalancingV2 amazonElasticLoadBalancingV2,
        IConfiguration configuration)
    {
        _amazonElasticLoadBalancingV2 = amazonElasticLoadBalancingV2;
        var prefix = configuration["resourcePrefix"];
        _targetGroupName = prefix + "-tg";
        _loadBalancerName = prefix + "-lb";
    }

    /// <summary>
    /// Get the HTTP Endpoint of a load balancer by its name.
    /// </summary>
    /// <param name="loadBalancerName">The name of the load balancer.</param>
    /// <returns>The HTTP endpoint.</returns>
    public async Task<string> GetEndpointForLoadBalancerByName(string loadBalancerName)
    {
        if (_endpoint == null)
        {
            var endpointResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { loadBalancerName }
                    });
            _endpoint = endpointResponse.LoadBalancers[0].DNSName;
        }

        return _endpoint;
    }

    /// <summary>
    /// Return the GET response for an endpoint as text.
    /// </summary>
    /// <param name="endpoint">The endpoint for the request.</param>
    /// <returns>The request response.</returns>
    public async Task<string> GetEndPointResponse(string endpoint)
    {
        var endpointResponse = await _httpClient.GetAsync($"http://{endpoint}");
        var textResponse = await endpointResponse.Content.ReadAsStringAsync();
        return textResponse!;
    }

    /// <summary>
    /// Get the target health for a group by name.
    /// </summary>
    /// <param name="groupName">The name of the group.</param>
    /// <returns>The collection of health descriptions.</returns>
    public async Task<List<TargetHealthDescription>> CheckTargetHealthForGroup(string groupName)
    {
        List<TargetHealthDescription> result = null!;
        try
        {
            var groupResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                    new DescribeTargetGroupsRequest()
                    {
                        Names = new List<string>() { groupName }
                    });
            var healthResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetHealthAsync(
                    new DescribeTargetHealthRequest()
                    {
                        TargetGroupArn = groupResponse.TargetGroups[0].TargetGroupArn
                    });
            ;
            result = healthResponse.TargetHealthDescriptions;
        }
        catch (TargetGroupNotFoundException)
        {
            Console.WriteLine($"Target group {groupName} not found.");
        }
        return result;
    }

    /// <summary>
    /// Create an Elastic Load Balancing target group. The target group specifies how the load balancer forwards
    /// requests to instances in the group and how instance health is checked.
    ///
    /// To speed up this demo, the health check is configured with shortened times and lower thresholds. In production,
    /// you might want to decrease the sensitivity of your health checks to avoid unwanted failures.
    /// </summary>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="protocol">The protocol, such as HTTP.</param>
    /// <param name="port">The port to use to forward requests, such as 80.</param>
    /// <param name="vpcId">The Id of the Vpc in which the load balancer exists.</param>
    /// <returns>The new TargetGroup object.</returns>
    public async Task<TargetGroup> CreateTargetGroupOnVpc(string groupName, ProtocolEnum protocol, int port, string vpcId)
    {
        var createResponse = await _amazonElasticLoadBalancingV2.CreateTargetGroupAsync(
            new CreateTargetGroupRequest()
            {
                Name = groupName,
                Protocol = protocol,
                Port = port,
                HealthCheckPath = "/healthcheck",
                HealthCheckIntervalSeconds = 10,
                HealthCheckTimeoutSeconds = 5,
                HealthyThresholdCount = 2,
                UnhealthyThresholdCount = 2,
                VpcId = vpcId
            });
        var targetGroup = createResponse.TargetGroups[0];
        return targetGroup;
    }

    /// <summary>
    /// Create an Elastic Load Balancing load balancer that uses the specified subnets
    /// and forwards requests to the specified target group.
    /// </summary>
    /// <param name="name">The name for the new load balancer.</param>
    /// <param name="subnetIds">Subnets for the load balancer.</param>
    /// <param name="targetGroup">Target group for forwarded requests.</param>
    /// <returns>The new LoadBalancer object.</returns>
    public async Task<LoadBalancer> CreateLoadBalancerAndListener(string name, List<string> subnetIds, TargetGroup targetGroup)
    {
        var createLbResponse = await _amazonElasticLoadBalancingV2.CreateLoadBalancerAsync(
            new CreateLoadBalancerRequest()
            {
                Name = name,
                Subnets = subnetIds
            });
        var loadBalancerArn = createLbResponse.LoadBalancers[0].LoadBalancerArn;

        // Wait for load balancer to be available.
        var loadBalancerReady = false;
        while (!loadBalancerReady)
        {
            try
            {
                var describeResponse =
                    await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                        new DescribeLoadBalancersRequest()
                        {
                            Names = new List<string>() { name }
                        });

                var loadBalancerState = describeResponse.LoadBalancers[0].State.Code;

                loadBalancerReady = loadBalancerState == LoadBalancerStateEnum.Active;
            }
            catch (LoadBalancerNotFoundException)
            {
                loadBalancerReady = false;
            }
            Thread.Sleep(10000);
        }
        // Create the listener.
        await _amazonElasticLoadBalancingV2.CreateListenerAsync(
            new CreateListenerRequest()
            {
                LoadBalancerArn = loadBalancerArn,
                Protocol = targetGroup.Protocol,
                Port = targetGroup.Port,
                DefaultActions = new List<Action>()
                {
                    new Action()
                    {
                        Type = ActionTypeEnum.Forward,
                        TargetGroupArn = targetGroup.TargetGroupArn
                    }
                }
            });
        return createLbResponse.LoadBalancers[0];
    }

    /// <summary>
    /// Verify this computer can successfully send a GET request to the
    /// load balancer endpoint.
    /// </summary>
    /// <param name="endpoint">The endpoint to check.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> VerifyLoadBalancerEndpoint(string endpoint)
    {
        var success = false;
        var retries = 3;
        while (!success && retries > 0)
        {
            try
            {
                var endpointResponse = await _httpClient.GetAsync($"http://{endpoint}");
                Console.WriteLine($"Response: {endpointResponse.StatusCode}.");

                if (endpointResponse.IsSuccessStatusCode)
                {
                    success = true;
                }
                else
                {
                    retries = 0;
                }
            }
            catch (HttpRequestException)
            {
                Console.WriteLine("Connection error, retrying...");
                retries--;
                Thread.Sleep(10000);
            }
        }

        return success;
    }

    /// <summary>
    /// Delete a load balancer by its specified name.
    /// </summary>
    /// <param name="name">The name of the load balancer to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteLoadBalancerByName(string name)
    {
        try
        {
            var describeLoadBalancerResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { name }
                    });
            var lbArn = describeLoadBalancerResponse.LoadBalancers[0].LoadBalancerArn;
            await _amazonElasticLoadBalancingV2.DeleteLoadBalancerAsync(
                new DeleteLoadBalancerRequest()
                {
                    LoadBalancerArn = lbArn
                }
            );
        }
        catch (LoadBalancerNotFoundException)
        {
            Console.WriteLine($"Load balancer {name} not found.");
        }
    }

    /// <summary>
    /// Delete a TargetGroup by its specified name.
    /// </summary>
    /// <param name="groupName">Name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTargetGroupByName(string groupName)
    {
        var done = false;
        while (!done)
        {
            try
            {
                var groupResponse =
                    await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                        new DescribeTargetGroupsRequest()
                        {
                            Names = new List<string>() { groupName }
                        });

                var targetArn = groupResponse.TargetGroups[0].TargetGroupArn;
                await _amazonElasticLoadBalancingV2.DeleteTargetGroupAsync(
                    new DeleteTargetGroupRequest() { TargetGroupArn = targetArn });
                Console.WriteLine($"Deleted load balancing target group {groupName}.");
                done = true;
            }
            catch (TargetGroupNotFoundException)
            {
                Console.WriteLine(
                    $"Target group {groupName} not found, could not delete.");
                done = true;
            }
            catch (ResourceInUseException)
            {
                Console.WriteLine("Target group not yet released, waiting...");
                Thread.Sleep(10000);
            }
        }
    }
}
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
/// <summary>
/// Encapsulates a DynamoDB table to use as a service that recommends books, movies, and songs.
/// </summary>
public class Recommendations
{
    private readonly IAmazonDynamoDB _amazonDynamoDb;
    private readonly DynamoDBContext _context;
    private readonly string _tableName;

    public string TableName => _tableName;

    /// <summary>
    /// Constructor for the Recommendations service.
    /// </summary>
    /// <param name="amazonDynamoDb">The injected DynamoDb client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public Recommendations(IAmazonDynamoDB amazonDynamoDb, IConfiguration configuration)
    {
        _amazonDynamoDb = amazonDynamoDb;
        _context = new DynamoDBContext(_amazonDynamoDb);
        _tableName = configuration["databaseName"]!;
    }

    /// <summary>
    /// Create the DynamoDb table with a specified name.
    /// </summary>
    /// <param name="tableName">The name for the table.</param>
    /// <returns>True when ready.</returns>
    public async Task<bool> CreateDatabaseWithName(string tableName)
    {
        try
        {
            Console.Write($"Creating table {tableName}...");
            var createRequest = new CreateTableRequest()
            {
                TableName = tableName,
                AttributeDefinitions = new List<AttributeDefinition>()
                    {
                        new AttributeDefinition()
                        {
                            AttributeName = "MediaType",
                            AttributeType = ScalarAttributeType.S
                        },
                        new AttributeDefinition()
                        {
                            AttributeName = "ItemId",
                            AttributeType = ScalarAttributeType.N
                        }
                    },
                KeySchema = new List<KeySchemaElement>()
                    {
                        new KeySchemaElement()
                        {
                            AttributeName = "MediaType",
                            KeyType = KeyType.HASH
                        },
                        new KeySchemaElement()
                        {
                            AttributeName = "ItemId",
                            KeyType = KeyType.RANGE
                        }
                    },
                ProvisionedThroughput = new ProvisionedThroughput()
                {
                    ReadCapacityUnits = 5,
                    WriteCapacityUnits = 5
                }
            };
            await _amazonDynamoDb.CreateTableAsync(createRequest);

            // Wait until the table is ACTIVE and then report success.
            Console.Write("\nWaiting for table to become active...");

            var request = new DescribeTableRequest
            {
                TableName = tableName
            };

            TableStatus status;
            do
            {
                Thread.Sleep(2000);

                var describeTableResponse = await _amazonDynamoDb.DescribeTableAsync(request);
                status = describeTableResponse.Table.TableStatus;

                Console.Write(".");
            }
            while (status != "ACTIVE");

            return status == TableStatus.ACTIVE;
        }
        catch (ResourceInUseException)
        {
            Console.WriteLine($"Table {tableName} already exists.");
            return false;
        }
    }

    /// <summary>
    /// Populate the database table with data from a specified path.
    /// </summary>
    /// <param name="databaseTableName">The name of the table.</param>
    /// <param name="recommendationsPath">The path of the recommendations data.</param>
    /// <returns>Async task.</returns>
    public async Task PopulateDatabase(string databaseTableName, string recommendationsPath)
    {
        var recommendationsText = await File.ReadAllTextAsync(recommendationsPath);
        var records =
            JsonSerializer.Deserialize<RecommendationModel[]>(recommendationsText);
        var batchWrite = _context.CreateBatchWrite<RecommendationModel>();

        foreach (var record in records!)
        {
            batchWrite.AddPutItem(record);
        }

        await batchWrite.ExecuteAsync();
    }

    /// <summary>
    /// Delete the recommendation table by name.
    /// </summary>
    /// <param name="tableName">The name of the recommendation table.</param>
    /// <returns>Async task.</returns>
    public async Task DestroyDatabaseByName(string tableName)
    {
        try
        {
            await _amazonDynamoDb.DeleteTableAsync(
                new DeleteTableRequest() { TableName = tableName });
            Console.WriteLine($"Table {tableName} was deleted.");
        }
        catch (ResourceNotFoundException)
        {
            Console.WriteLine($"Table {tableName} not found");
        }
    }
}
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
/// <summary>
/// Encapsulates Systems Manager parameter operations. This example uses these parameters
/// to drive the demonstration of resilient architecture, such as failure of a dependency or
/// how the service responds to a health check.
/// </summary>
public class SmParameterWrapper
{
    private readonly IAmazonSimpleSystemsManagement _amazonSimpleSystemsManagement;

    private readonly string _tableParameter = "doc-example-resilient-architecture-table";
    private readonly string _failureResponseParameter = "doc-example-resilient-architecture-failure-response";
    private readonly string _healthCheckParameter = "doc-example-resilient-architecture-health-check";
    private readonly string _tableName = "";

    public string TableParameter => _tableParameter;
    public string TableName => _tableName;
    public string HealthCheckParameter => _healthCheckParameter;
    public string FailureResponseParameter => _failureResponseParameter;

    /// <summary>
    /// Constructor for the SmParameterWrapper.
    /// </summary>
    /// <param name="amazonSimpleSystemsManagement">The injected Simple Systems Management client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public SmParameterWrapper(IAmazonSimpleSystemsManagement amazonSimpleSystemsManagement, IConfiguration configuration)
    {
        _amazonSimpleSystemsManagement = amazonSimpleSystemsManagement;
        _tableName = configuration["databaseName"]!;
    }

    /// <summary>
    /// Reset the Systems Manager parameters to starting values for the demo.
    /// </summary>
    /// <returns>Async task.</returns>
    public async Task Reset()
    {
        await this.PutParameterByName(_tableParameter, _tableName);
        await this.PutParameterByName(_failureResponseParameter, "none");
        await this.PutParameterByName(_healthCheckParameter, "shallow");
    }

    /// <summary>
    /// Set the value of a named Systems Manager parameter.
    /// </summary>
    /// <param name="name">The name of the parameter.</param>
    /// <param name="value">The value to set.</param>
    /// <returns>Async task.</returns>
    public async Task PutParameterByName(string name, string value)
    {
        await _amazonSimpleSystemsManagement.PutParameterAsync(
            new PutParameterRequest() { Name = name, Value = value, Overwrite = true });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# EventBridge contoh menggunakan SDK untuk .NET
<a name="csharp_3_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with EventBridge.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo EventBridge
<a name="eventbridge_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan EventBridge.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 

```
using Amazon.EventBridge;
using Amazon.EventBridge.Model;

namespace EventBridgeActions;

public static class HelloEventBridge
{
    static async Task Main(string[] args)
    {
        var eventBridgeClient = new AmazonEventBridgeClient();

        Console.WriteLine($"Hello Amazon EventBridge! Following are some of your EventBuses:");
        Console.WriteLine();

        // You can use await and any of the async methods to get a response.
        // Let's get the first five event buses.
        var response = await eventBridgeClient.ListEventBusesAsync(
            new ListEventBusesRequest()
            {
                Limit = 5
            });

        foreach (var eventBus in response.EventBuses)
        {
            Console.WriteLine($"\tEventBus: {eventBus.Name}");
            Console.WriteLine($"\tArn: {eventBus.Arn}");
            Console.WriteLine($"\tPolicy: {eventBus.Policy}");
            Console.WriteLine();
        }
    }
}
```
+  Untuk detail API, lihat [ListEventBuses](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/ListEventBuses)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="eventbridge_Scenario_GettingStarted_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat aturan dan tambahkan target ke dalamnya.
+ Aktifkan dan nonaktifkan aturan.
+ Daftar dan perbarui aturan dan target.
+ Kirim acara, lalu bersihkan sumber daya.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
public class EventBridgeScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    This .NET example performs the following tasks with Amazon EventBridge:
    - Create a rule.
    - Add a target to a rule.
    - Enable and disable rules.
    - List rules and targets.
    - Update rules and targets.
    - Send events.
    - Delete the rule.
    */

    private static ILogger logger = null!;
    private static EventBridgeWrapper _eventBridgeWrapper = null!;
    private static IConfiguration _configuration = null!;

    private static IAmazonIdentityManagementService? _iamClient = null!;
    private static IAmazonSimpleNotificationService? _snsClient = null!;
    private static IAmazonS3 _s3Client = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon EventBridge.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonEventBridge>()
            .AddAWSService<IAmazonIdentityManagementService>()
            .AddAWSService<IAmazonS3>()
            .AddAWSService<IAmazonSimpleNotificationService>()
            .AddTransient<EventBridgeWrapper>()
            )
            .Build();

        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<EventBridgeScenario>();

        ServicesSetup(host);

        string topicArn = "";
        string roleArn = "";

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the Amazon EventBridge example scenario.");
        Console.WriteLine(new string('-', 80));

        try
        {
            roleArn = await CreateRole();

            await CreateBucketWithEventBridgeEvents();

            await AddEventRule(roleArn);

            await ListEventRules();

            topicArn = await CreateSnsTopic();

            var email = await SubscribeToSnsTopic(topicArn);

            await AddSnsTarget(topicArn);

            await ListTargets();

            await ListRulesForTarget(topicArn);

            await UploadS3File(_s3Client);

            await ChangeRuleState(false);

            await GetRuleState();

            await UpdateSnsEventRule(topicArn);

            await ChangeRuleState(true);

            await UploadS3File(_s3Client);

            await UpdateToCustomRule(topicArn);

            await TriggerCustomRule(email);

            await CleanupResources(topicArn);
        }
        catch (Exception ex)
        {
            logger.LogError(ex, "There was a problem executing the scenario.");
            await CleanupResources(topicArn);
        }
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("The Amazon EventBridge example scenario is complete.");
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _eventBridgeWrapper = host.Services.GetRequiredService<EventBridgeWrapper>();
        _snsClient = host.Services.GetRequiredService<IAmazonSimpleNotificationService>();
        _s3Client = host.Services.GetRequiredService<IAmazonS3>();
        _iamClient = host.Services.GetRequiredService<IAmazonIdentityManagementService>();
    }

    /// <summary>
    /// Create a role to be used by EventBridge.
    /// </summary>
    /// <returns>The role Amazon Resource Name (ARN).</returns>
    public static async Task<string> CreateRole()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Creating a role to use with EventBridge and attaching managed policy AmazonEventBridgeFullAccess.");
        Console.WriteLine(new string('-', 80));

        var roleName = _configuration["roleName"];

        var assumeRolePolicy = "{" +
                                  "\"Version\": \"2012-10-17\"," +
                                  "\"Statement\": [{" +
                                  "\"Effect\": \"Allow\"," +
                                  "\"Principal\": {" +
                                  $"\"Service\": \"events.amazonaws.com\"" +
                                  "}," +
                                  "\"Action\": \"sts:AssumeRole\"" +
                                  "}]" +
                                  "}";

        var roleResult = await _iamClient!.CreateRoleAsync(
            new CreateRoleRequest()
            {
                AssumeRolePolicyDocument = assumeRolePolicy,
                Path = "/",
                RoleName = roleName
            });

        await _iamClient.AttachRolePolicyAsync(
            new AttachRolePolicyRequest()
            {
                PolicyArn = "arn:aws:iam::aws:policy/AmazonEventBridgeFullAccess",
                RoleName = roleName
            });
        // Allow time for the role to be ready.
        Thread.Sleep(10000);
        return roleResult.Role.Arn;
    }

    /// <summary>
    /// Create an Amazon Simple Storage Service (Amazon S3) bucket with EventBridge events enabled.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task CreateBucketWithEventBridgeEvents()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Creating an S3 bucket with EventBridge events enabled.");

        var testBucketName = _configuration["testBucketName"];

        var bucketExists = await Amazon.S3.Util.AmazonS3Util.DoesS3BucketExistV2Async(_s3Client,
            testBucketName);

        if (!bucketExists)
        {
            await _s3Client.PutBucketAsync(new PutBucketRequest()
            {
                BucketName = testBucketName,
                UseClientRegion = true
            });
        }

        await _s3Client.PutBucketNotificationAsync(new PutBucketNotificationRequest()
        {
            BucketName = testBucketName,
            EventBridgeConfiguration = new EventBridgeConfiguration()
        });

        Console.WriteLine($"\tAdded bucket {testBucketName} with EventBridge events enabled.");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Create and upload a file to an S3 bucket to trigger an event.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task UploadS3File(IAmazonS3 s3Client)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Uploading a file to the test bucket. This will trigger a subscription email.");

        var testBucketName = _configuration["testBucketName"];

        var fileName = $"example_upload_{DateTime.UtcNow.Ticks}.txt";

        // Create the file if it does not already exist.
        if (!File.Exists(fileName))
        {
            await using StreamWriter sw = File.CreateText(fileName);
            await sw.WriteLineAsync(
                "This is a sample file for testing uploads.");
        }

        await s3Client.PutObjectAsync(new PutObjectRequest()
        {
            FilePath = fileName,
            BucketName = testBucketName
        });

        Console.WriteLine($"\tPress Enter to continue.");
        Console.ReadLine();

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Create an Amazon Simple Notification Service (Amazon SNS) topic to use as an EventBridge target.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task<string> CreateSnsTopic()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine(
            "Creating an Amazon Simple Notification Service (Amazon SNS) topic for email subscriptions.");

        var topicName = _configuration["topicName"];

        string topicPolicy = "{" +
                             "\"Version\": \"2012-10-17\"," +
                             "\"Statement\": [{" +
                             "\"Sid\": \"EventBridgePublishTopic\"," +
                             "\"Effect\": \"Allow\"," +
                             "\"Principal\": {" +
                             $"\"Service\": \"events.amazonaws.com\"" +
                             "}," +
                             "\"Resource\": \"*\"," +
                             "\"Action\": \"sns:Publish\"" +
                             "}]" +
                             "}";

        var topicAttributes = new Dictionary<string, string>()
        {
            { "Policy", topicPolicy }
        };

        var topicResponse = await _snsClient!.CreateTopicAsync(new CreateTopicRequest()
        {
            Name = topicName,
            Attributes = topicAttributes

        });

        Console.WriteLine($"\tAdded topic {topicName} for email subscriptions.");

        Console.WriteLine(new string('-', 80));

        return topicResponse.TopicArn;
    }

    /// <summary>
    /// Subscribe a user email to an SNS topic.
    /// </summary>
    /// <param name="topicArn">The ARN of the SNS topic.</param>
    /// <returns>The user's email.</returns>
    private static async Task<string> SubscribeToSnsTopic(string topicArn)
    {
        Console.WriteLine(new string('-', 80));


        string email = "";
        while (string.IsNullOrEmpty(email))
        {
            Console.WriteLine("Enter your email to subscribe to the Amazon SNS topic:");
            email = Console.ReadLine()!;
        }

        var subscriptions = new List<string>();
        var paginatedSubscriptions = _snsClient!.Paginators.ListSubscriptionsByTopic(
            new ListSubscriptionsByTopicRequest()
            {
                TopicArn = topicArn
            });

        // Get the entire list using the paginator.
        await foreach (var subscription in paginatedSubscriptions.Subscriptions)
        {
            subscriptions.Add(subscription.Endpoint);
        }

        if (subscriptions.Contains(email))
        {
            Console.WriteLine($"\tYour email is already subscribed.");
            Console.WriteLine(new string('-', 80));
            return email;
        }

        await _snsClient.SubscribeAsync(new SubscribeRequest()
        {
            TopicArn = topicArn,
            Protocol = "email",
            Endpoint = email
        });

        Console.WriteLine($"Use the link in the email you received to confirm your subscription, then press Enter to continue.");

        Console.ReadLine();

        Console.WriteLine(new string('-', 80));
        return email;
    }

    /// <summary>
    /// Add a rule which triggers when a file is uploaded to an S3 bucket.
    /// </summary>
    /// <param name="roleArn">The ARN of the role used by EventBridge.</param>
    /// <returns>Async task.</returns>
    private static async Task AddEventRule(string roleArn)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Creating an EventBridge event that sends an email when an Amazon S3 object is created.");

        var eventRuleName = _configuration["eventRuleName"];
        var testBucketName = _configuration["testBucketName"];

        await _eventBridgeWrapper.PutS3UploadRule(roleArn, eventRuleName, testBucketName);
        Console.WriteLine($"\tAdded event rule {eventRuleName} for bucket {testBucketName}.");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Add an SNS target to the rule.
    /// </summary>
    /// <param name="topicArn">The ARN of the SNS topic.</param>
    /// <returns>Async task.</returns>
    private static async Task AddSnsTarget(string topicArn)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Adding a target to the rule to that sends an email when the rule is triggered.");

        var eventRuleName = _configuration["eventRuleName"];
        var testBucketName = _configuration["testBucketName"];
        var topicName = _configuration["topicName"];
        await _eventBridgeWrapper.AddSnsTargetToRule(eventRuleName, topicArn);
        Console.WriteLine($"\tAdded event rule {eventRuleName} with Amazon SNS target {topicName} for bucket {testBucketName}.");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List the event rules on the default event bus.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task ListEventRules()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Current event rules:");

        var rules = await _eventBridgeWrapper.ListAllRulesForEventBus();
        rules.ForEach(r => Console.WriteLine($"\tRule: {r.Name} Description: {r.Description} State: {r.State}"));

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Update the event target to use a transform.
    /// </summary>
    /// <param name="topicArn">The SNS topic ARN target to update.</param>
    /// <returns>Async task.</returns>
    private static async Task UpdateSnsEventRule(string topicArn)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Let's update the event target with a transform.");

        var eventRuleName = _configuration["eventRuleName"];
        var testBucketName = _configuration["testBucketName"];

        await _eventBridgeWrapper.UpdateS3UploadRuleTargetWithTransform(eventRuleName, topicArn);
        Console.WriteLine($"\tUpdated event rule {eventRuleName} with Amazon SNS target {topicArn} for bucket {testBucketName}.");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Update the rule to use a custom event pattern.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task UpdateToCustomRule(string topicArn)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Updating the event pattern to be triggered by a custom event instead.");

        var eventRuleName = _configuration["eventRuleName"];

        await _eventBridgeWrapper.UpdateCustomEventPattern(eventRuleName);

        Console.WriteLine($"\tUpdated event rule {eventRuleName} to custom pattern.");
        await _eventBridgeWrapper.UpdateCustomRuleTargetWithTransform(eventRuleName,
            topicArn);

        Console.WriteLine($"\tUpdated event target {topicArn}.");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Send rule events for a custom rule using the user's email address.
    /// </summary>
    /// <param name="email">The email address to include.</param>
    /// <returns>Async task.</returns>
    private static async Task TriggerCustomRule(string email)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Sending an event to trigger the rule. This will trigger a subscription email.");

        await _eventBridgeWrapper.PutCustomEmailEvent(email);

        Console.WriteLine($"\tEvents have been sent. Press Enter to continue.");
        Console.ReadLine();

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List all of the targets for a rule.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task ListTargets()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("List all of the targets for a particular rule.");

        var eventRuleName = _configuration["eventRuleName"];
        var targets = await _eventBridgeWrapper.ListAllTargetsOnRule(eventRuleName);
        targets.ForEach(t => Console.WriteLine($"\tTarget: {t.Arn} Id: {t.Id} Input: {t.Input}"));

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List all of the rules for a particular target.
    /// </summary>
    /// <param name="topicArn">The ARN of the SNS topic.</param>
    /// <returns>Async task.</returns>
    private static async Task ListRulesForTarget(string topicArn)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("List all of the rules for a particular target.");

        var rules = await _eventBridgeWrapper.ListAllRuleNamesByTarget(topicArn);
        rules.ForEach(r => Console.WriteLine($"\tRule: {r}"));

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Enable or disable a particular rule.
    /// </summary>
    /// <param name="isEnabled">True to enable the rule, otherwise false.</param>
    /// <returns>Async task.</returns>
    private static async Task ChangeRuleState(bool isEnabled)
    {
        Console.WriteLine(new string('-', 80));
        var eventRuleName = _configuration["eventRuleName"];

        if (!isEnabled)
        {
            Console.WriteLine($"Disabling the rule: {eventRuleName}");
            await _eventBridgeWrapper.DisableRuleByName(eventRuleName);
        }
        else
        {
            Console.WriteLine($"Enabling the rule: {eventRuleName}");
            await _eventBridgeWrapper.EnableRuleByName(eventRuleName);
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Get the current state of the rule.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task GetRuleState()
    {
        Console.WriteLine(new string('-', 80));
        var eventRuleName = _configuration["eventRuleName"];

        var state = await _eventBridgeWrapper.GetRuleStateByRuleName(eventRuleName);
        Console.WriteLine($"Rule {eventRuleName} is in current state {state}.");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <param name="topicArn">The ARN of the SNS topic to clean up.</param>
    /// <returns>Async task.</returns>
    private static async Task CleanupResources(string topicArn)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Clean up resources.");

        var eventRuleName = _configuration["eventRuleName"];
        if (GetYesNoResponse($"\tDelete all targets and event rule {eventRuleName}? (y/n)"))
        {
            Console.WriteLine($"\tRemoving all targets from the event rule.");
            await _eventBridgeWrapper.RemoveAllTargetsFromRule(eventRuleName);

            Console.WriteLine($"\tDeleting event rule.");
            await _eventBridgeWrapper.DeleteRuleByName(eventRuleName);
        }

        var topicName = _configuration["topicName"];
        if (GetYesNoResponse($"\tDelete Amazon SNS subscription topic {topicName}? (y/n)"))
        {
            Console.WriteLine($"\tDeleting topic.");
            await _snsClient!.DeleteTopicAsync(new DeleteTopicRequest()
            {
                TopicArn = topicArn
            });
        }

        var bucketName = _configuration["testBucketName"];
        if (GetYesNoResponse($"\tDelete Amazon S3 bucket {bucketName}? (y/n)"))
        {
            Console.WriteLine($"\tDeleting bucket.");
            // Delete all objects in the bucket.
            var deleteList = await _s3Client.ListObjectsV2Async(new ListObjectsV2Request()
            {
                BucketName = bucketName
            });
            await _s3Client.DeleteObjectsAsync(new DeleteObjectsRequest()
            {
                BucketName = bucketName,
                Objects = deleteList.S3Objects
                    .Select(o => new KeyVersion { Key = o.Key }).ToList()
            });
            // Now delete the bucket.
            await _s3Client.DeleteBucketAsync(new DeleteBucketRequest()
            {
                BucketName = bucketName
            });
        }

        var roleName = _configuration["roleName"];
        if (GetYesNoResponse($"\tDelete role {roleName}? (y/n)"))
        {
            Console.WriteLine($"\tDetaching policy and deleting role.");

            await _iamClient!.DetachRolePolicyAsync(new DetachRolePolicyRequest()
            {
                RoleName = roleName,
                PolicyArn = "arn:aws:iam::aws:policy/AmazonEventBridgeFullAccess",
            });

            await _iamClient!.DeleteRoleAsync(new DeleteRoleRequest()
            {
                RoleName = roleName
            });
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null &&
                       ynResponse.Equals("y",
                           StringComparison.InvariantCultureIgnoreCase);
        return response;
    }
}
```
Buat kelas yang membungkus EventBridge operasi.  

```
/// <summary>
/// Wrapper for Amazon EventBridge operations.
/// </summary>
public class EventBridgeWrapper
{
    private readonly IAmazonEventBridge _amazonEventBridge;
    private readonly ILogger<EventBridgeWrapper> _logger;

    /// <summary>
    /// Constructor for the EventBridge wrapper.
    /// </summary>
    /// <param name="amazonEventBridge">The injected EventBridge client.</param>
    /// <param name="logger">The injected logger for the wrapper.</param>
    public EventBridgeWrapper(IAmazonEventBridge amazonEventBridge, ILogger<EventBridgeWrapper> logger)

    {
        _amazonEventBridge = amazonEventBridge;
        _logger = logger;
    }

    /// <summary>
    /// Get the state for a rule by the rule name.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <param name="eventBusName">The optional name of the event bus. If empty, uses the default event bus.</param>
    /// <returns>The state of the rule.</returns>
    public async Task<RuleState> GetRuleStateByRuleName(string ruleName, string? eventBusName = null)
    {
        var ruleResponse = await _amazonEventBridge.DescribeRuleAsync(
            new DescribeRuleRequest()
            {
                Name = ruleName,
                EventBusName = eventBusName
            });
        return ruleResponse.State;
    }

    /// <summary>
    /// Enable a particular rule on an event bus.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> EnableRuleByName(string ruleName)
    {
        var ruleResponse = await _amazonEventBridge.EnableRuleAsync(
            new EnableRuleRequest()
            {
                Name = ruleName
            });
        return ruleResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Disable a particular rule on an event bus.
    /// </summary
    /// <param name="ruleName">The name of the rule.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DisableRuleByName(string ruleName)
    {
        var ruleResponse = await _amazonEventBridge.DisableRuleAsync(
            new DisableRuleRequest()
            {
                Name = ruleName
            });
        return ruleResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// List the rules on an event bus.
    /// </summary>
    /// <param name="eventBusArn">The optional ARN of the event bus. If empty, uses the default event bus.</param>
    /// <returns>The list of rules.</returns>
    public async Task<List<Rule>> ListAllRulesForEventBus(string? eventBusArn = null)
    {
        var results = new List<Rule>();
        var request = new ListRulesRequest()
        {
            EventBusName = eventBusArn
        };
        // Get all of the pages of rules.
        ListRulesResponse response;
        do
        {
            response = await _amazonEventBridge.ListRulesAsync(request);
            results.AddRange(response.Rules);
            request.NextToken = response.NextToken;

        } while (response.NextToken is not null);

        return results;
    }

    /// <summary>
    /// List all of the targets matching a rule by name.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <returns>The list of targets.</returns>
    public async Task<List<Target>> ListAllTargetsOnRule(string ruleName)
    {
        var results = new List<Target>();
        var request = new ListTargetsByRuleRequest()
        {
            Rule = ruleName
        };
        ListTargetsByRuleResponse response;
        do
        {
            response = await _amazonEventBridge.ListTargetsByRuleAsync(request);
            results.AddRange(response.Targets);
            request.NextToken = response.NextToken;

        } while (response.NextToken is not null);

        return results;
    }

    /// <summary>
    /// List names of all rules matching a target.
    /// </summary>
    /// <param name="targetArn">The ARN of the target.</param>
    /// <returns>The list of rule names.</returns>
    public async Task<List<string>> ListAllRuleNamesByTarget(string targetArn)
    {
        var results = new List<string>();
        var request = new ListRuleNamesByTargetRequest()
        {
            TargetArn = targetArn
        };
        ListRuleNamesByTargetResponse response;
        do
        {
            response = await _amazonEventBridge.ListRuleNamesByTargetAsync(request);
            results.AddRange(response.RuleNames);
            request.NextToken = response.NextToken;

        } while (response.NextToken is not null);

        return results;
    }

    /// <summary>
    /// Create a new event rule that triggers when an Amazon S3 object is created in a bucket.
    /// </summary>
    /// <param name="roleArn">The ARN of the role.</param>
    /// <param name="ruleName">The name to give the rule.</param>
    /// <param name="bucketName">The name of the bucket to trigger the event.</param>
    /// <returns>The ARN of the new rule.</returns>
    public async Task<string> PutS3UploadRule(string roleArn, string ruleName, string bucketName)
    {
        string eventPattern = "{" +
                                "\"source\": [\"aws.s3\"]," +
                                    "\"detail-type\": [\"Object Created\"]," +
                                    "\"detail\": {" +
                                        "\"bucket\": {" +
                                            "\"name\": [\"" + bucketName + "\"]" +
                                        "}" +
                                    "}" +
                              "}";

        var response = await _amazonEventBridge.PutRuleAsync(
            new PutRuleRequest()
            {
                Name = ruleName,
                Description = "Example S3 upload rule for EventBridge",
                RoleArn = roleArn,
                EventPattern = eventPattern
            });

        return response.RuleArn;
    }

    /// <summary>
    /// Update an Amazon S3 object created rule with a transform on the target.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <param name="targetArn">The ARN of the target.</param>
    /// <param name="eventBusArn">Optional event bus ARN. If empty, uses the default event bus.</param>
    /// <returns>The ID of the target.</returns>
    public async Task<string> UpdateS3UploadRuleTargetWithTransform(string ruleName, string targetArn, string? eventBusArn = null)
    {
        var targetID = Guid.NewGuid().ToString();

        var targets = new List<Target>
        {
            new Target()
            {
                Id = targetID,
                Arn = targetArn,
                InputTransformer = new InputTransformer()
                {
                    InputPathsMap = new Dictionary<string, string>()
                    {
                        {"bucket", "$.detail.bucket.name"},
                        {"time", "$.time"}
                    },
                    InputTemplate = "\"Notification: an object was uploaded to bucket <bucket> at <time>.\""
                }
            }
        };
        var response = await _amazonEventBridge.PutTargetsAsync(
            new PutTargetsRequest()
            {
                EventBusName = eventBusArn,
                Rule = ruleName,
                Targets = targets,
            });
        if (response.FailedEntryCount > 0)
        {
            response.FailedEntries.ForEach(e =>
            {
                _logger.LogError(
                    $"Failed to add target {e.TargetId}: {e.ErrorMessage}, code {e.ErrorCode}");
            });
        }
        return targetID;
    }

    /// <summary>
    /// Update a custom rule with a transform on the target.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <param name="targetArn">The ARN of the target.</param>
    /// <param name="eventBusArn">Optional event bus ARN. If empty, uses the default event bus.</param>
    /// <returns>The ID of the target.</returns>
    public async Task<string> UpdateCustomRuleTargetWithTransform(string ruleName, string targetArn, string? eventBusArn = null)
    {
        var targetID = Guid.NewGuid().ToString();

        var targets = new List<Target>
        {
            new Target()
            {
                Id = targetID,
                Arn = targetArn,
                InputTransformer = new InputTransformer()
                {
                    InputTemplate = "\"Notification: sample event was received.\""
                }
            }
        };
        var response = await _amazonEventBridge.PutTargetsAsync(
            new PutTargetsRequest()
            {
                EventBusName = eventBusArn,
                Rule = ruleName,
                Targets = targets,
            });
        if (response.FailedEntryCount > 0)
        {
            response.FailedEntries.ForEach(e =>
            {
                _logger.LogError(
                    $"Failed to add target {e.TargetId}: {e.ErrorMessage}, code {e.ErrorCode}");
            });
        }
        return targetID;
    }

    /// <summary>
    /// Add an event to the event bus that includes an email, message, and time.
    /// </summary>
    /// <param name="email">The email to use in the event detail of the custom event.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> PutCustomEmailEvent(string email)
    {
        var eventDetail = new
        {
            UserEmail = email,
            Message = "This event was generated by example code.",
            UtcTime = DateTime.UtcNow.ToString("g")
        };
        var response = await _amazonEventBridge.PutEventsAsync(
            new PutEventsRequest()
            {
                Entries = new List<PutEventsRequestEntry>()
                {
                    new PutEventsRequestEntry()
                    {
                        Source = "ExampleSource",
                        Detail = JsonSerializer.Serialize(eventDetail),
                        DetailType = "ExampleType"
                    }
                }
            });

        return response.FailedEntryCount == 0;
    }

    /// <summary>
    /// Update a rule to use a custom defined event pattern.
    /// </summary>
    /// <param name="ruleName">The name of the rule to update.</param>
    /// <returns>The ARN of the updated rule.</returns>
    public async Task<string> UpdateCustomEventPattern(string ruleName)
    {
        string customEventsPattern = "{" +
                                     "\"source\": [\"ExampleSource\"]," +
                                     "\"detail-type\": [\"ExampleType\"]" +
                                     "}";

        var response = await _amazonEventBridge.PutRuleAsync(
            new PutRuleRequest()
            {
                Name = ruleName,
                Description = "Custom test rule",
                EventPattern = customEventsPattern
            });

        return response.RuleArn;
    }

    /// <summary>
    /// Add an Amazon SNS target topic to a rule.
    /// </summary>
    /// <param name="ruleName">The name of the rule to update.</param>
    /// <param name="targetArn">The ARN of the Amazon SNS target.</param>
    /// <param name="eventBusArn">The optional event bus name, uses default if empty.</param>
    /// <returns>The ID of the target.</returns>
    public async Task<string> AddSnsTargetToRule(string ruleName, string targetArn, string? eventBusArn = null)
    {
        var targetID = Guid.NewGuid().ToString();

        // Create the list of targets and add a new target.
        var targets = new List<Target>
        {
            new Target()
            {
                Arn = targetArn,
                Id = targetID
            }
        };

        // Add the targets to the rule.
        var response = await _amazonEventBridge.PutTargetsAsync(
            new PutTargetsRequest()
            {
                EventBusName = eventBusArn,
                Rule = ruleName,
                Targets = targets,
            });

        if (response.FailedEntryCount > 0)
        {
            response.FailedEntries.ForEach(e =>
            {
                _logger.LogError(
                    $"Failed to add target {e.TargetId}: {e.ErrorMessage}, code {e.ErrorCode}");
            });
        }

        return targetID;
    }

    /// <summary>
    /// Delete an event rule by name.
    /// </summary>
    /// <param name="ruleName">The name of the event rule.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> RemoveAllTargetsFromRule(string ruleName)
    {
        var targetIds = new List<string>();
        var request = new ListTargetsByRuleRequest()
        {
            Rule = ruleName
        };
        ListTargetsByRuleResponse targetsResponse;
        do
        {
            targetsResponse = await _amazonEventBridge.ListTargetsByRuleAsync(request);
            targetIds.AddRange(targetsResponse.Targets.Select(t => t.Id));
            request.NextToken = targetsResponse.NextToken;

        } while (targetsResponse.NextToken is not null);

        var removeResponse = await _amazonEventBridge.RemoveTargetsAsync(
            new RemoveTargetsRequest()
            {
                Rule = ruleName,
                Ids = targetIds
            });

        if (removeResponse.FailedEntryCount > 0)
        {
            removeResponse.FailedEntries.ForEach(e =>
            {
                _logger.LogError(
                    $"Failed to remove target {e.TargetId}: {e.ErrorMessage}, code {e.ErrorCode}");
            });
        }

        return removeResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Delete an event rule by name.
    /// </summary>
    /// <param name="ruleName">The name of the event rule.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteRuleByName(string ruleName)
    {
        var response = await _amazonEventBridge.DeleteRuleAsync(
            new DeleteRuleRequest()
            {
                Name = ruleName
            });

        return response.HttpStatusCode == HttpStatusCode.OK;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [DeleteRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/DeleteRule)
  + [DescribeRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/DescribeRule)
  + [DisableRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/DisableRule)
  + [EnableRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/EnableRule)
  + [ListRuleNamesByTarget](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/ListRuleNamesByTarget)
  + [ListRules](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/ListRules)
  + [ListTargetsByRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/ListTargetsByRule)
  + [PutEvents](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/PutEvents)
  + [PutRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/PutRule)
  + [PutTargets](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/PutTargets)

## Tindakan
<a name="actions"></a>

### `DeleteRule`
<a name="eventbridge_DeleteRule_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRule`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Hapus aturan dengan namanya.  

```
    /// <summary>
    /// Delete an event rule by name.
    /// </summary>
    /// <param name="ruleName">The name of the event rule.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteRuleByName(string ruleName)
    {
        var response = await _amazonEventBridge.DeleteRuleAsync(
            new DeleteRuleRequest()
            {
                Name = ruleName
            });

        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/DeleteRule)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeRule`
<a name="eventbridge_DescribeRule_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRule`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Dapatkan status aturan menggunakan deskripsi aturan.  

```
    /// <summary>
    /// Get the state for a rule by the rule name.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <param name="eventBusName">The optional name of the event bus. If empty, uses the default event bus.</param>
    /// <returns>The state of the rule.</returns>
    public async Task<RuleState> GetRuleStateByRuleName(string ruleName, string? eventBusName = null)
    {
        var ruleResponse = await _amazonEventBridge.DescribeRuleAsync(
            new DescribeRuleRequest()
            {
                Name = ruleName,
                EventBusName = eventBusName
            });
        return ruleResponse.State;
    }
```
+  Untuk detail API, lihat [DescribeRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/DescribeRule)di *Referensi AWS SDK untuk .NET API*. 

### `DisableRule`
<a name="eventbridge_DisableRule_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableRule`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Nonaktifkan aturan dengan nama aturannya.  

```
    /// <summary>
    /// Disable a particular rule on an event bus.
    /// </summary
    /// <param name="ruleName">The name of the rule.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DisableRuleByName(string ruleName)
    {
        var ruleResponse = await _amazonEventBridge.DisableRuleAsync(
            new DisableRuleRequest()
            {
                Name = ruleName
            });
        return ruleResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DisableRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/DisableRule)di *Referensi AWS SDK untuk .NET API*. 

### `EnableRule`
<a name="eventbridge_EnableRule_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableRule`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Aktifkan aturan dengan nama aturannya.  

```
    /// <summary>
    /// Enable a particular rule on an event bus.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> EnableRuleByName(string ruleName)
    {
        var ruleResponse = await _amazonEventBridge.EnableRuleAsync(
            new EnableRuleRequest()
            {
                Name = ruleName
            });
        return ruleResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [EnableRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/EnableRule)di *Referensi AWS SDK untuk .NET API*. 

### `ListRuleNamesByTarget`
<a name="eventbridge_ListRuleNamesByTarget_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRuleNamesByTarget`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Buat daftar semua nama aturan menggunakan target.  

```
    /// <summary>
    /// List names of all rules matching a target.
    /// </summary>
    /// <param name="targetArn">The ARN of the target.</param>
    /// <returns>The list of rule names.</returns>
    public async Task<List<string>> ListAllRuleNamesByTarget(string targetArn)
    {
        var results = new List<string>();
        var request = new ListRuleNamesByTargetRequest()
        {
            TargetArn = targetArn
        };
        ListRuleNamesByTargetResponse response;
        do
        {
            response = await _amazonEventBridge.ListRuleNamesByTargetAsync(request);
            results.AddRange(response.RuleNames);
            request.NextToken = response.NextToken;

        } while (response.NextToken is not null);

        return results;
    }
```
+  Untuk detail API, lihat [ListRuleNamesByTarget](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/ListRuleNamesByTarget)di *Referensi AWS SDK untuk .NET API*. 

### `ListRules`
<a name="eventbridge_ListRules_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRules`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Daftar semua aturan untuk bus acara.  

```
    /// <summary>
    /// List the rules on an event bus.
    /// </summary>
    /// <param name="eventBusArn">The optional ARN of the event bus. If empty, uses the default event bus.</param>
    /// <returns>The list of rules.</returns>
    public async Task<List<Rule>> ListAllRulesForEventBus(string? eventBusArn = null)
    {
        var results = new List<Rule>();
        var request = new ListRulesRequest()
        {
            EventBusName = eventBusArn
        };
        // Get all of the pages of rules.
        ListRulesResponse response;
        do
        {
            response = await _amazonEventBridge.ListRulesAsync(request);
            results.AddRange(response.Rules);
            request.NextToken = response.NextToken;

        } while (response.NextToken is not null);

        return results;
    }
```
+  Untuk detail API, lihat [ListRules](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/ListRules)di *Referensi AWS SDK untuk .NET API*. 

### `ListTargetsByRule`
<a name="eventbridge_ListTargetsByRule_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTargetsByRule`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Buat daftar semua target untuk aturan menggunakan nama aturan.  

```
    /// <summary>
    /// List all of the targets matching a rule by name.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <returns>The list of targets.</returns>
    public async Task<List<Target>> ListAllTargetsOnRule(string ruleName)
    {
        var results = new List<Target>();
        var request = new ListTargetsByRuleRequest()
        {
            Rule = ruleName
        };
        ListTargetsByRuleResponse response;
        do
        {
            response = await _amazonEventBridge.ListTargetsByRuleAsync(request);
            results.AddRange(response.Targets);
            request.NextToken = response.NextToken;

        } while (response.NextToken is not null);

        return results;
    }
```
+  Untuk detail API, lihat [ListTargetsByRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/ListTargetsByRule)di *Referensi AWS SDK untuk .NET API*. 

### `PutEvents`
<a name="eventbridge_PutEvents_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Kirim acara yang cocok dengan pola kustom untuk aturan.  

```
    /// <summary>
    /// Add an event to the event bus that includes an email, message, and time.
    /// </summary>
    /// <param name="email">The email to use in the event detail of the custom event.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> PutCustomEmailEvent(string email)
    {
        var eventDetail = new
        {
            UserEmail = email,
            Message = "This event was generated by example code.",
            UtcTime = DateTime.UtcNow.ToString("g")
        };
        var response = await _amazonEventBridge.PutEventsAsync(
            new PutEventsRequest()
            {
                Entries = new List<PutEventsRequestEntry>()
                {
                    new PutEventsRequestEntry()
                    {
                        Source = "ExampleSource",
                        Detail = JsonSerializer.Serialize(eventDetail),
                        DetailType = "ExampleType"
                    }
                }
            });

        return response.FailedEntryCount == 0;
    }
```
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/PutEvents)di *Referensi AWS SDK untuk .NET API*. 

### `PutRule`
<a name="eventbridge_PutRule_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Buat aturan yang dipicu saat objek ditambahkan ke bucket Amazon Simple Storage Service.  

```
    /// <summary>
    /// Create a new event rule that triggers when an Amazon S3 object is created in a bucket.
    /// </summary>
    /// <param name="roleArn">The ARN of the role.</param>
    /// <param name="ruleName">The name to give the rule.</param>
    /// <param name="bucketName">The name of the bucket to trigger the event.</param>
    /// <returns>The ARN of the new rule.</returns>
    public async Task<string> PutS3UploadRule(string roleArn, string ruleName, string bucketName)
    {
        string eventPattern = "{" +
                                "\"source\": [\"aws.s3\"]," +
                                    "\"detail-type\": [\"Object Created\"]," +
                                    "\"detail\": {" +
                                        "\"bucket\": {" +
                                            "\"name\": [\"" + bucketName + "\"]" +
                                        "}" +
                                    "}" +
                              "}";

        var response = await _amazonEventBridge.PutRuleAsync(
            new PutRuleRequest()
            {
                Name = ruleName,
                Description = "Example S3 upload rule for EventBridge",
                RoleArn = roleArn,
                EventPattern = eventPattern
            });

        return response.RuleArn;
    }
```
Buat aturan yang menggunakan pola kustom.  

```
    /// <summary>
    /// Update a rule to use a custom defined event pattern.
    /// </summary>
    /// <param name="ruleName">The name of the rule to update.</param>
    /// <returns>The ARN of the updated rule.</returns>
    public async Task<string> UpdateCustomEventPattern(string ruleName)
    {
        string customEventsPattern = "{" +
                                     "\"source\": [\"ExampleSource\"]," +
                                     "\"detail-type\": [\"ExampleType\"]" +
                                     "}";

        var response = await _amazonEventBridge.PutRuleAsync(
            new PutRuleRequest()
            {
                Name = ruleName,
                Description = "Custom test rule",
                EventPattern = customEventsPattern
            });

        return response.RuleArn;
    }
```
+  Untuk detail API, lihat [PutRule](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/PutRule)di *Referensi AWS SDK untuk .NET API*. 

### `PutTargets`
<a name="eventbridge_PutTargets_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Tambahkan topik Amazon SNS sebagai target aturan.  

```
    /// <summary>
    /// Add an Amazon SNS target topic to a rule.
    /// </summary>
    /// <param name="ruleName">The name of the rule to update.</param>
    /// <param name="targetArn">The ARN of the Amazon SNS target.</param>
    /// <param name="eventBusArn">The optional event bus name, uses default if empty.</param>
    /// <returns>The ID of the target.</returns>
    public async Task<string> AddSnsTargetToRule(string ruleName, string targetArn, string? eventBusArn = null)
    {
        var targetID = Guid.NewGuid().ToString();

        // Create the list of targets and add a new target.
        var targets = new List<Target>
        {
            new Target()
            {
                Arn = targetArn,
                Id = targetID
            }
        };

        // Add the targets to the rule.
        var response = await _amazonEventBridge.PutTargetsAsync(
            new PutTargetsRequest()
            {
                EventBusName = eventBusArn,
                Rule = ruleName,
                Targets = targets,
            });

        if (response.FailedEntryCount > 0)
        {
            response.FailedEntries.ForEach(e =>
            {
                _logger.LogError(
                    $"Failed to add target {e.TargetId}: {e.ErrorMessage}, code {e.ErrorCode}");
            });
        }

        return targetID;
    }
```
Tambahkan transformator input ke target untuk aturan.  

```
    /// <summary>
    /// Update an Amazon S3 object created rule with a transform on the target.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <param name="targetArn">The ARN of the target.</param>
    /// <param name="eventBusArn">Optional event bus ARN. If empty, uses the default event bus.</param>
    /// <returns>The ID of the target.</returns>
    public async Task<string> UpdateS3UploadRuleTargetWithTransform(string ruleName, string targetArn, string? eventBusArn = null)
    {
        var targetID = Guid.NewGuid().ToString();

        var targets = new List<Target>
        {
            new Target()
            {
                Id = targetID,
                Arn = targetArn,
                InputTransformer = new InputTransformer()
                {
                    InputPathsMap = new Dictionary<string, string>()
                    {
                        {"bucket", "$.detail.bucket.name"},
                        {"time", "$.time"}
                    },
                    InputTemplate = "\"Notification: an object was uploaded to bucket <bucket> at <time>.\""
                }
            }
        };
        var response = await _amazonEventBridge.PutTargetsAsync(
            new PutTargetsRequest()
            {
                EventBusName = eventBusArn,
                Rule = ruleName,
                Targets = targets,
            });
        if (response.FailedEntryCount > 0)
        {
            response.FailedEntries.ForEach(e =>
            {
                _logger.LogError(
                    $"Failed to add target {e.TargetId}: {e.ErrorMessage}, code {e.ErrorCode}");
            });
        }
        return targetID;
    }
```
+  Untuk detail API, lihat [PutTargets](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/PutTargets)di *Referensi AWS SDK untuk .NET API*. 

### `RemoveTargets`
<a name="eventbridge_RemoveTargets_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RemoveTargets`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 
Hapus semua target untuk aturan menggunakan nama aturan.  

```
    /// <summary>
    /// Delete an event rule by name.
    /// </summary>
    /// <param name="ruleName">The name of the event rule.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> RemoveAllTargetsFromRule(string ruleName)
    {
        var targetIds = new List<string>();
        var request = new ListTargetsByRuleRequest()
        {
            Rule = ruleName
        };
        ListTargetsByRuleResponse targetsResponse;
        do
        {
            targetsResponse = await _amazonEventBridge.ListTargetsByRuleAsync(request);
            targetIds.AddRange(targetsResponse.Targets.Select(t => t.Id));
            request.NextToken = targetsResponse.NextToken;

        } while (targetsResponse.NextToken is not null);

        var removeResponse = await _amazonEventBridge.RemoveTargetsAsync(
            new RemoveTargetsRequest()
            {
                Rule = ruleName,
                Ids = targetIds
            });

        if (removeResponse.FailedEntryCount > 0)
        {
            removeResponse.FailedEntries.ForEach(e =>
            {
                _logger.LogError(
                    $"Failed to remove target {e.TargetId}: {e.ErrorMessage}, code {e.ErrorCode}");
            });
        }

        return removeResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [RemoveTargets](https://docs.aws.amazon.com/goto/DotNetSDKV3/eventbridge-2015-10-07/RemoveTargets)di *Referensi AWS SDK untuk .NET API*. 

# EventBridge Contoh penjadwal menggunakan SDK untuk .NET
<a name="csharp_3_scheduler_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with EventBridge Scheduler.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo EventBridge Penjadwal
<a name="scheduler_hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan EventBridge Scheduler.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge Scheduler#code-examples). 

```
public static class HelloScheduler
{
    static async Task Main(string[] args)
    {
        // Use the AWS .NET Core Setup package to set up dependency injection for the EventBridge Scheduler service.
        // Use your AWS profile name, or leave it blank to use the default profile.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonScheduler>()
            ).Build();

        // Now the client is available for injection.
        var schedulerClient = host.Services.GetRequiredService<IAmazonScheduler>();

        // You can use await and any of the async methods to get a response, or a paginator to list schedules or groups.
        var results = new List<ScheduleSummary>();
        var paginateSchedules = schedulerClient.Paginators.ListSchedules(
            new ListSchedulesRequest());
        Console.WriteLine(
            $"Hello AWS Scheduler! Let's list schedules in your account.");
        // Get the entire list using the paginator.
        await foreach (var schedule in paginateSchedules.Schedules)
        {
            results.Add(schedule);
        }
        Console.WriteLine($"\tTotal of {results.Count} schedule(s) available.");
        results.ForEach(s => Console.WriteLine($"\tSchedule: {s.Name}"));
    }
}
```
+  Untuk detail API, lihat [ListSchedules](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/ListSchedules)di *Referensi AWS SDK untuk .NET API*. 

## Tindakan
<a name="actions"></a>

### `CreateSchedule`
<a name="scheduler_CreateSchedule_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSchedule`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge Scheduler#code-examples). 

```
    /// <summary>
    /// Creates a new schedule in Amazon EventBridge Scheduler.
    /// </summary>
    /// <param name="name">The name of the schedule.</param>
    /// <param name="scheduleExpression">The schedule expression that defines when the schedule should run.</param>
    /// <param name="scheduleGroupName">The name of the schedule group to which the schedule should be added.</param>
    /// <param name="deleteAfterCompletion">Indicates whether to delete the schedule after completion.</param>
    /// <param name="useFlexibleTimeWindow">Indicates whether to use a flexible time window for the schedule.</param>
    /// <param name="targetArn">ARN of the event target.</param>
    /// <param name="roleArn">Execution Role ARN.</param>
    /// <returns>True if the schedule was created successfully, false otherwise.</returns>
    public async Task<bool> CreateScheduleAsync(
            string name,
            string scheduleExpression,
            string scheduleGroupName,
            string targetArn,
            string roleArn,
            string input,
            bool deleteAfterCompletion = false,
            bool useFlexibleTimeWindow = false)
    {
        try
        {
            int hoursToRun = 1;
            int flexibleTimeWindowMinutes = 10;

            var request = new CreateScheduleRequest
            {
                Name = name,
                ScheduleExpression = scheduleExpression,
                GroupName = scheduleGroupName,
                Target = new Target { Arn = targetArn, RoleArn = roleArn, Input = input },
                ActionAfterCompletion = deleteAfterCompletion
                    ? ActionAfterCompletion.DELETE
                    : ActionAfterCompletion.NONE,
                StartDate = DateTime.UtcNow, // Ignored for one-time schedules.
                EndDate =
                    DateTime.UtcNow
                        .AddHours(hoursToRun) // Ignored for one-time schedules.
            };
            // Allow a flexible time window if the caller specifies it.
            request.FlexibleTimeWindow = new FlexibleTimeWindow
            {
                Mode = useFlexibleTimeWindow
                    ? FlexibleTimeWindowMode.FLEXIBLE
                    : FlexibleTimeWindowMode.OFF,
                MaximumWindowInMinutes = useFlexibleTimeWindow
                    ? flexibleTimeWindowMinutes
                    : null
            };

            var response = await _amazonScheduler.CreateScheduleAsync(request);

            Console.WriteLine($"Successfully created schedule '{name}' " +
                              $"in schedule group '{scheduleGroupName}': {response.ScheduleArn}.");
            return true;
        }
        catch (ConflictException ex)
        {
            // If the name is not unique, a ConflictException will be thrown.
            _logger.LogError($"Failed to create schedule '{name}' due to a conflict. {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while creating schedule '{name}' " +
                             $"in schedule group '{scheduleGroupName}': {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [CreateSchedule](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/CreateSchedule)di *Referensi AWS SDK untuk .NET API*. 

### `CreateScheduleGroup`
<a name="scheduler_CreateScheduleGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateScheduleGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge Scheduler#code-examples). 

```
    /// <summary>
    /// Creates a new schedule group in Amazon EventBridge Scheduler.
    /// </summary>
    /// <param name="name">The name of the schedule group.</param>
    /// <returns>True if the schedule group was created successfully, false otherwise.</returns>
    public async Task<bool> CreateScheduleGroupAsync(string name)
    {
        try
        {
            var request = new CreateScheduleGroupRequest { Name = name };

            var response = await _amazonScheduler.CreateScheduleGroupAsync(request);

            Console.WriteLine($"Successfully created schedule group '{name}': {response.ScheduleGroupArn}.");
            return true;

        }
        catch (ConflictException ex)
        {
            // If the name is not unique, a ConflictException will be thrown.
            _logger.LogError($"Failed to create schedule group '{name}' due to a conflict. {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while creating schedule group '{name}': {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [CreateScheduleGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/CreateScheduleGroup)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteSchedule`
<a name="scheduler_DeleteSchedule_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSchedule`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge Scheduler#code-examples). 

```
    /// <summary>
    /// Deletes an existing schedule from Amazon EventBridge Scheduler.
    /// </summary>
    /// <param name="name">The name of the schedule to delete.</param>
    /// <param name="groupName">The group name of the schedule to delete.</param>
    /// <returns>True if the schedule was deleted successfully, false otherwise.</returns>
    public async Task<bool> DeleteScheduleAsync(string name, string groupName)
    {
        try
        {
            var request = new DeleteScheduleRequest
            {
                Name = name,
                GroupName = groupName
            };

            await _amazonScheduler.DeleteScheduleAsync(request);

            Console.WriteLine($"Successfully deleted schedule with name '{name}'.");
            return true;

        }
        catch (ResourceNotFoundException ex)
        {
            _logger.LogError(
                $"Failed to delete schedule with ID '{name}' because the resource was not found: {ex.Message}");
            return true;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while deleting schedule with ID '{name}': {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteSchedule](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/DeleteSchedule)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteScheduleGroup`
<a name="scheduler_DeleteScheduleGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteScheduleGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge Scheduler#code-examples). 

```
    /// <summary>
    /// Deletes an existing schedule group from Amazon EventBridge Scheduler.
    /// </summary>
    /// <param name="name">The name of the schedule group to delete.</param>
    /// <returns>True if the schedule group was deleted successfully, false otherwise.</returns>
    public async Task<bool> DeleteScheduleGroupAsync(string name)
    {
        try
        {
            var request = new DeleteScheduleGroupRequest { Name = name };

            await _amazonScheduler.DeleteScheduleGroupAsync(request);

            Console.WriteLine($"Successfully deleted schedule group '{name}'.");
            return true;

        }
        catch (ResourceNotFoundException ex)
        {
            _logger.LogError(
                $"Failed to delete schedule group '{name}' because the resource was not found: {ex.Message}");
            return true;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while deleting schedule group '{name}': {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteScheduleGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/DeleteScheduleGroup)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Acara Terjadwal
<a name="scheduler_ScheduledEventsScenario_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Menyebarkan CloudFormation tumpukan dengan sumber daya yang diperlukan.
+ Buat grup EventBridge jadwal Scheduler.
+ Buat jadwal EventBridge Penjadwal satu kali dengan jendela waktu yang fleksibel.
+ Buat jadwal EventBridge Scheduler berulang dengan tarif tertentu.
+ Hapus EventBridge Penjadwal jadwal dan jadwal grup.
+ Bersihkan sumber daya dan hapus tumpukan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge Scheduler#code-examples). 
Jalankan skenario.  

```
using System.Text.RegularExpressions;
using Amazon.CloudFormation;
using Amazon.CloudFormation.Model;
using Amazon.Scheduler;
using Amazon.Scheduler.Model;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;
using Microsoft.Extensions.Logging.Debug;
using SchedulerActions;
using Exception = System.Exception;

namespace SchedulerScenario;

public class SchedulerWorkflow
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.
    This .NET code example performs the following tasks for the Amazon EventBridge Scheduler workflow:

    1. Prepare the Application:
       - Prompt the user for an email address to use for the subscription for the SNS topic subscription.
       - Prompt the user for a name for the Cloud Formation stack.
       - Deploy the Cloud Formation template in resources/cfn_template.yaml for resource creation.
       - Store the outputs of the stack into variables for use in the scenario.
       - Create a schedule group for all schedules.

    2. Create one-time Schedule:
       - Create a one-time schedule to send an initial event.
       - Use a Flexible Time Window and set the schedule to delete after completion.
       - Wait for the user to receive the event email from SNS.

    3. Create a time-based schedule:
       - Prompt the user for how many X times per Y hours a recurring event should be scheduled.
       - Create the scheduled event for X times per hour for Y hours.
       - Wait for the user to receive the event email from SNS.
       - Delete the schedule when the user is finished.

    4. Clean up:
       - Prompt the user for y/n answer if they want to destroy the stack and clean up all resources.
       - Delete the schedule group.
       - Destroy the Cloud Formation stack and wait until the stack has been removed.
    */

    public static ILogger<SchedulerWorkflow> _logger = null!;
    public static SchedulerWrapper _schedulerWrapper = null!;
    public static IAmazonCloudFormation _amazonCloudFormation = null!;

    private static string _roleArn = null!;
    private static string _snsTopicArn = null!;

    public static bool _interactive = true;
    private static string _stackName = "default-scheduler-scenario-stack-name";
    private static string _scheduleGroupName = "scenario-schedules-group";
    private static string _stackResourcePath = "../../../../../../scenarios/features/eventbridge_scheduler/resources/cfn_template.yaml";

    public static async Task Main(string[] args)
    {
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonScheduler>()
                    .AddAWSService<IAmazonCloudFormation>()
                    .AddTransient<SchedulerWrapper>()
            )
            .Build();

        if (_interactive)
        {
            _logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
                .CreateLogger<SchedulerWorkflow>();

            _schedulerWrapper = host.Services.GetRequiredService<SchedulerWrapper>();
            _amazonCloudFormation = host.Services.GetRequiredService<IAmazonCloudFormation>();
        }

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the Amazon EventBridge Scheduler Scenario.");
        Console.WriteLine(new string('-', 80));

        try
        {
            Console.WriteLine(new string('-', 80));
            var prepareSuccess = await PrepareApplication();
            Console.WriteLine(new string('-', 80));

            if (prepareSuccess)
            {
                Console.WriteLine(new string('-', 80));
                await CreateOneTimeSchedule();
                Console.WriteLine(new string('-', 80));

                Console.WriteLine(new string('-', 80));
                await CreateRecurringSchedule();
                Console.WriteLine(new string('-', 80));
            }

            Console.WriteLine(new string('-', 80));
            await Cleanup();
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "There was a problem with the scenario, initiating cleanup...");
            _interactive = false;
            await Cleanup();
        }

        Console.WriteLine("Amazon EventBridge Scheduler scenario completed.");
    }

    /// <summary>
    /// Prepares the application by creating the necessary resources.
    /// </summary>
    /// <returns>True if the application was prepared successfully.</returns>
    public static async Task<bool> PrepareApplication()
    {
        Console.WriteLine("Preparing the application...");
        try
        {
            // Prompt the user for an email address to use for the subscription.
            Console.WriteLine("\nThis example creates resources in a CloudFormation stack, including an SNS topic" +
                          "\nthat will be subscribed to the EventBridge Scheduler events. " +
                          "\n\nYou will need to confirm the subscription in order to receive event emails. ");

            var emailAddress = PromptUserForEmail();

            // Prompt the user for a name for the CloudFormation stack
            _stackName = PromptUserForStackName();

            // Deploy the CloudFormation stack
            var deploySuccess = await DeployCloudFormationStack(_stackName, emailAddress);

            if (deploySuccess)
            {
                // Create a schedule group for all schedules
                await _schedulerWrapper.CreateScheduleGroupAsync(_scheduleGroupName);

                Console.WriteLine("Application preparation complete.");
                return true;
            }
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "An error occurred while preparing the application.");
        }
        Console.WriteLine("Application preparation failed.");
        return false;
    }

    /// <summary>
    /// Deploys the CloudFormation stack with the necessary resources.
    /// </summary>
    /// <param name="stackName">The name of the CloudFormation stack.</param>
    /// <param name="email">The email to use for the subscription.</param>
    /// <returns>True if the stack was deployed successfully.</returns>
    private static async Task<bool> DeployCloudFormationStack(string stackName, string email)
    {
        Console.WriteLine($"\nDeploying CloudFormation stack: {stackName}");

        try
        {
            var request = new CreateStackRequest
            {
                StackName = stackName,
                TemplateBody = await File.ReadAllTextAsync(_stackResourcePath),
                Capabilities = { Capability.CAPABILITY_NAMED_IAM }
            };

            // If an email is provided, set the parameter.
            if (!string.IsNullOrWhiteSpace(email))
            {
                request.Parameters = new List<Parameter>()
                {
                    new() { ParameterKey = "email", ParameterValue = email }
                };
            }

            var response = await _amazonCloudFormation.CreateStackAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"CloudFormation stack creation started: {stackName}");

                // Wait for the stack to be in CREATE_COMPLETE state
                bool stackCreated = await WaitForStackCompletion(response.StackId);

                if (stackCreated)
                {
                    // Retrieve the output values
                    var success = await GetStackOutputs(response.StackId);
                    return success;
                }
                else
                {
                    _logger.LogError($"CloudFormation stack creation failed: {stackName}");
                    return false;
                }
            }
            else
            {
                _logger.LogError($"Failed to create CloudFormation stack: {stackName}");
                return false;
            }
        }
        catch (AlreadyExistsException)
        {
            _logger.LogWarning($"CloudFormation stack '{stackName}' already exists. Please provide a unique name.");
            var newStackName = PromptUserForStackName();
            return await DeployCloudFormationStack(newStackName, email);
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while deploying the CloudFormation stack: {stackName}");
            return false;
        }
    }

    /// <summary>
    /// Waits for the CloudFormation stack to be in the CREATE_COMPLETE state.
    /// </summary>
    /// <param name="client">The CloudFormation client.</param>
    /// <param name="stackId">The ID of the CloudFormation stack.</param>
    /// <returns>True if the stack was created successfully.</returns>
    private static async Task<bool> WaitForStackCompletion(string stackId)
    {
        int retryCount = 0;
        const int maxRetries = 10;
        const int retryDelay = 30000; // 30 seconds.

        while (retryCount < maxRetries)
        {
            var describeStacksRequest = new DescribeStacksRequest
            {
                StackName = stackId
            };

            var describeStacksResponse = await _amazonCloudFormation.DescribeStacksAsync(describeStacksRequest);

            if (describeStacksResponse.Stacks.Count > 0)
            {
                if (describeStacksResponse.Stacks[0].StackStatus == StackStatus.CREATE_COMPLETE)
                {
                    Console.WriteLine("CloudFormation stack creation complete.");
                    return true;
                }
                if (describeStacksResponse.Stacks[0].StackStatus == StackStatus.CREATE_FAILED ||
                         describeStacksResponse.Stacks[0].StackStatus == StackStatus.ROLLBACK_COMPLETE)
                {
                    Console.WriteLine("CloudFormation stack creation failed.");
                    return false;
                }
            }

            Console.WriteLine("Waiting for CloudFormation stack creation to complete...");
            await Task.Delay(retryDelay);
            retryCount++;
        }

        _logger.LogError("Timed out waiting for CloudFormation stack creation to complete.");
        return false;
    }

    /// <summary>
    /// Retrieves the output values from the CloudFormation stack.
    /// </summary>
    /// <param name="stackId">The ID of the CloudFormation stack.</param>
    private static async Task<bool> GetStackOutputs(string stackId)
    {
        try
        {
            var describeStacksRequest = new DescribeStacksRequest { StackName = stackId };

            var describeStacksResponse =
                await _amazonCloudFormation.DescribeStacksAsync(describeStacksRequest);

            if (describeStacksResponse.Stacks.Count > 0)
            {
                var stack = describeStacksResponse.Stacks[0];
                _roleArn = GetStackOutputValue(stack, "RoleARN");
                _snsTopicArn = GetStackOutputValue(stack, "SNStopicARN");
                return true;
            }
            else
            {
                _logger.LogError($"No stack found for stack outputs: {stackId}");
                return false;
            }
        }
        catch (Exception ex)
        {
            _logger.LogError(
                ex, $"Failed to retrieve CloudFormation stack outputs: {stackId}");
            return false;
        }
    }

    /// <summary>
    /// Get an output value by key from a CloudFormation stack.
    /// </summary>
    /// <param name="stack">The CloudFormation stack.</param>
    /// <param name="outputKey">The key of the output.</param>
    /// <returns>The value as a string.</returns>
    private static string GetStackOutputValue(Stack stack, string outputKey)
    {
        var output = stack.Outputs.First(o => o.OutputKey == outputKey);
        var outputValue = output.OutputValue;
        Console.WriteLine($"Stack output {outputKey}: {outputValue}");
        return outputValue;
    }

    /// <summary>
    /// Creates a one-time schedule to send an initial event.
    /// </summary>
    /// <returns>True if the one-time schedule was created successfully.</returns>
    public static async Task<bool> CreateOneTimeSchedule()
    {
        var scheduleName =
            PromptUserForResourceName("Enter a name for the one-time schedule:");

        Console.WriteLine($"Creating a one-time schedule named '{scheduleName}' " +
                          $"\nto send an initial event in 1 minute with a flexible time window...");
        try
        {
            // Create a one-time schedule with a flexible time
            // window set to delete after completion.
            // You may also set a timezone instead of using UTC.
            var scheduledTime = DateTime.UtcNow.AddMinutes(1).ToString("s");

            var createSuccess = await _schedulerWrapper.CreateScheduleAsync(
                scheduleName,
                $"at({scheduledTime})",
                _scheduleGroupName,
                _snsTopicArn,
                _roleArn,
                $"One time scheduled event test from schedule {scheduleName}.",
                true,
                useFlexibleTimeWindow: true);

            Console.WriteLine($"Subscription email will receive an email from this event.");
            Console.WriteLine($"You must confirm your subscription to receive event emails.");

            Console.WriteLine($"One-time schedule '{scheduleName}' created successfully.");
            return createSuccess;
        }
        catch (ResourceNotFoundException ex)
        {
            _logger.LogError(ex, $"The target with ARN '{_snsTopicArn}' was not found.");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while creating the one-time schedule '{scheduleName}'.");
            return false;
        }
    }

    /// <summary>
    /// Create a recurring schedule to send events at a specified rate in minutes.
    /// </summary>
    /// <returns>True if the recurring schedule was created successfully.</returns>
    public static async Task<bool> CreateRecurringSchedule()
    {
        Console.WriteLine("Creating a recurring schedule to send events for one hour...");

        try
        {
            // Prompt the user for a schedule name.
            var scheduleName =
                PromptUserForResourceName("Enter a name for the recurring schedule: ");

            // Prompt the user for the schedule rate (in minutes).
            var scheduleRateInMinutes =
                PromptUserForInteger("Enter the desired schedule rate (in minutes): ");

            // Create the recurring schedule.
            var createSuccess = await _schedulerWrapper.CreateScheduleAsync(
                scheduleName,
                $"rate({scheduleRateInMinutes} minutes)",
                _scheduleGroupName,
                _snsTopicArn,
                _roleArn,
                $"Recurrent event test from schedule {scheduleName}.");

            Console.WriteLine($"Subscription email will receive an email from this event.");
            Console.WriteLine($"You must confirm your subscription to receive event emails.");

            // Delete the schedule when the user is finished.
            if (!_interactive || GetYesNoResponse($"Are you ready to delete the '{scheduleName}' schedule? (y/n)"))
            {
                await _schedulerWrapper.DeleteScheduleAsync(scheduleName, _scheduleGroupName);
            }

            return createSuccess;
        }
        catch (ResourceNotFoundException ex)
        {
            _logger.LogError(ex, $"The target with ARN '{_snsTopicArn}' was not found.");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "An error occurred while creating the recurring schedule.");
            return false;
        }
    }

    /// <summary>
    /// Cleans up the resources created during the scenario.
    /// </summary>
    /// <returns>True if the cleanup was successful.</returns>
    public static async Task<bool> Cleanup()
    {
        // Prompt the user to confirm cleanup.
        var cleanup = !_interactive || GetYesNoResponse(
            "Do you want to delete all resources created by this scenario? (y/n) ");
        if (cleanup)
        {
            try
            {
                // Delete the schedule group.
                var groupDeleteSuccess = await _schedulerWrapper.DeleteScheduleGroupAsync(_scheduleGroupName);

                // Destroy the CloudFormation stack and wait for it to be removed.
                var stackDeleteSuccess = await DeleteCloudFormationStack(_stackName, false);

                return groupDeleteSuccess && stackDeleteSuccess;
            }
            catch (Exception ex)
            {
                _logger.LogError(ex,
                    "An error occurred while cleaning up the resources.");
                return false;
            }
        }
        _logger.LogInformation("EventBridge Scheduler scenario is complete.");
        return true;
    }

    /// <summary>
    /// Delete the resources in the stack and wait for confirmation.
    /// </summary>
    /// <param name="stackName">The name of the stack.</param>
    /// <param name="forceDelete">True to force delete the stack.</param>
    /// <returns>True if successful.</returns>
    private static async Task<bool> DeleteCloudFormationStack(string stackName, bool forceDelete)
    {
        var request = new DeleteStackRequest
        {
            StackName = stackName,
        };

        if (forceDelete)
        {
            request.DeletionMode = DeletionMode.FORCE_DELETE_STACK;
        }

        await _amazonCloudFormation.DeleteStackAsync(request);
        Console.WriteLine($"CloudFormation stack '{_stackName}' is being deleted. This may take a few minutes.");

        bool stackDeleted = await WaitForStackDeletion(_stackName, forceDelete);

        if (stackDeleted)
        {
            Console.WriteLine($"CloudFormation stack '{_stackName}' has been deleted.");
            return true;
        }
        else
        {
            _logger.LogError($"Failed to delete CloudFormation stack '{_stackName}'.");
            return false;
        }
    }

    /// <summary>
    /// Wait for the stack to be deleted.
    /// </summary>
    /// <param name="stackName">The name of the stack.</param>
    /// <param name="forceDelete">True to force delete the stack.</param>
    /// <returns>True if successful.</returns>
    private static async Task<bool> WaitForStackDeletion(string stackName, bool forceDelete)
    {
        int retryCount = 0;
        const int maxRetries = 10;
        const int retryDelay = 30000; // 30 seconds

        while (retryCount < maxRetries)
        {
            var describeStacksRequest = new DescribeStacksRequest
            {
                StackName = stackName
            };

            try
            {
                var describeStacksResponse = await _amazonCloudFormation.DescribeStacksAsync(describeStacksRequest);

                if (describeStacksResponse.Stacks.Count == 0 || describeStacksResponse.Stacks[0].StackStatus == StackStatus.DELETE_COMPLETE)
                {
                    return true;
                }
                if (!forceDelete && describeStacksResponse.Stacks[0].StackStatus == StackStatus.DELETE_FAILED)
                {
                    // Try one time to force delete.
                    return await DeleteCloudFormationStack(stackName, true);
                }
            }
            catch (AmazonCloudFormationException ex) when (ex.ErrorCode == "ValidationError")
            {
                // Stack does not exist, so it has been successfully deleted.
                return true;
            }

            Console.WriteLine($"Waiting for CloudFormation stack '{stackName}' to be deleted...");
            await Task.Delay(retryDelay);
            retryCount++;
        }

        _logger.LogError($"Timed out waiting for CloudFormation stack '{stackName}' to be deleted.");
        return false;
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase);
        return response;
    }

    /// <summary>
    /// Prompt the user for a valid email address.
    /// </summary>
    /// <returns>The valid email address.</returns>
    private static string PromptUserForEmail()
    {
        if (_interactive)
        {
            Console.WriteLine("Enter an email address to use for event subscriptions: ");

            string email = Console.ReadLine()!;

            if (!IsValidEmail(email))
            {
                Console.WriteLine("Invalid email address. Please try again.");
                return PromptUserForEmail();
            }
            return email;
        }
        // Used when running without user prompts.
        return "";
    }

    /// <summary>
    /// Prompt the user for a non-empty stack name.
    /// </summary>
    /// <returns>The valid stack name</returns>
    private static string PromptUserForStackName()
    {
        Console.WriteLine("Enter a name for the AWS Cloud Formation Stack: ");
        if (_interactive)
        {
            string stackName = Console.ReadLine()!;
            var regex = "[a-zA-Z][-a-zA-Z0-9]|arn:[-a-zA-Z0-9:/._+]";
            if (!Regex.IsMatch(stackName, regex))
            {
                Console.WriteLine(
                    $"Invalid stack name. Please use a name that matches the pattern {regex}.");
                return PromptUserForStackName();
            }

            return stackName;
        }
        // Used when running without user prompts.
        return _stackName;
    }

    /// <summary>
    /// Prompt the user for a non-empty resource name.
    /// </summary>
    /// <returns>The valid stack name</returns>
    private static string PromptUserForResourceName(string prompt)
    {
        if (_interactive)
        {
            Console.WriteLine(prompt);
            string resourceName = Console.ReadLine()!;
            var regex = "[0-9a-zA-Z-_.]+";
            if (!Regex.IsMatch(resourceName, regex))
            {
                Console.WriteLine($"Invalid resource name. Please use a name that matches the pattern {regex}.");
                return PromptUserForResourceName(prompt);
            }
            return resourceName!;
        }
        // Used when running without user prompts.
        return "resource-" + Guid.NewGuid();
    }

    /// <summary>
    /// Prompt the user for a non-empty resource name.
    /// </summary>
    /// <returns>The valid stack name</returns>
    private static int PromptUserForInteger(string prompt)
    {
        if (_interactive)
        {
            Console.WriteLine(prompt);
            string stringResponse = Console.ReadLine()!;
            if (string.IsNullOrWhiteSpace(stringResponse) ||
                !Int32.TryParse(stringResponse, out var intResponse))
            {
                Console.WriteLine($"Invalid integer. ");
                return PromptUserForInteger(prompt);
            }
            return intResponse!;
        }
        // Used when running without user prompts.
        return 1;
    }

    /// <summary>
    /// Use System Mail to check for a valid email address.
    /// </summary>
    /// <param name="email">The string to verify.</param>
    /// <returns>True if a valid email address.</returns>
    private static bool IsValidEmail(string email)
    {
        try
        {
            var mailAddress = new System.Net.Mail.MailAddress(email);
            return mailAddress.Address == email;
        }
        catch
        {
            // Invalid emails will cause an exception, return false.
            return false;
        }
    }
}
```
Pembungkus untuk operasi layanan.  

```
using Amazon.Scheduler;
using Amazon.Scheduler.Model;
using Microsoft.Extensions.Logging;

namespace SchedulerActions;

/// <summary>
/// Wrapper class for Amazon EventBridge Scheduler operations.
/// </summary>
public class SchedulerWrapper
{
    private readonly IAmazonScheduler _amazonScheduler;
    private readonly ILogger<SchedulerWrapper> _logger;

    /// <summary>
    /// Constructor for the SchedulerWrapper class.
    /// </summary>
    /// <param name="amazonScheduler">The injected EventBridge Scheduler client.</param>
    /// <param name="logger">The injected logger.</param>
    public SchedulerWrapper(IAmazonScheduler amazonScheduler, ILogger<SchedulerWrapper> logger)
    {
        _amazonScheduler = amazonScheduler;
        _logger = logger;
    }

    /// <summary>
    /// Creates a new schedule in Amazon EventBridge Scheduler.
    /// </summary>
    /// <param name="name">The name of the schedule.</param>
    /// <param name="scheduleExpression">The schedule expression that defines when the schedule should run.</param>
    /// <param name="scheduleGroupName">The name of the schedule group to which the schedule should be added.</param>
    /// <param name="deleteAfterCompletion">Indicates whether to delete the schedule after completion.</param>
    /// <param name="useFlexibleTimeWindow">Indicates whether to use a flexible time window for the schedule.</param>
    /// <param name="targetArn">ARN of the event target.</param>
    /// <param name="roleArn">Execution Role ARN.</param>
    /// <returns>True if the schedule was created successfully, false otherwise.</returns>
    public async Task<bool> CreateScheduleAsync(
            string name,
            string scheduleExpression,
            string scheduleGroupName,
            string targetArn,
            string roleArn,
            string input,
            bool deleteAfterCompletion = false,
            bool useFlexibleTimeWindow = false)
    {
        try
        {
            int hoursToRun = 1;
            int flexibleTimeWindowMinutes = 10;

            var request = new CreateScheduleRequest
            {
                Name = name,
                ScheduleExpression = scheduleExpression,
                GroupName = scheduleGroupName,
                Target = new Target { Arn = targetArn, RoleArn = roleArn, Input = input },
                ActionAfterCompletion = deleteAfterCompletion
                    ? ActionAfterCompletion.DELETE
                    : ActionAfterCompletion.NONE,
                StartDate = DateTime.UtcNow, // Ignored for one-time schedules.
                EndDate =
                    DateTime.UtcNow
                        .AddHours(hoursToRun) // Ignored for one-time schedules.
            };
            // Allow a flexible time window if the caller specifies it.
            request.FlexibleTimeWindow = new FlexibleTimeWindow
            {
                Mode = useFlexibleTimeWindow
                    ? FlexibleTimeWindowMode.FLEXIBLE
                    : FlexibleTimeWindowMode.OFF,
                MaximumWindowInMinutes = useFlexibleTimeWindow
                    ? flexibleTimeWindowMinutes
                    : null
            };

            var response = await _amazonScheduler.CreateScheduleAsync(request);

            Console.WriteLine($"Successfully created schedule '{name}' " +
                              $"in schedule group '{scheduleGroupName}': {response.ScheduleArn}.");
            return true;
        }
        catch (ConflictException ex)
        {
            // If the name is not unique, a ConflictException will be thrown.
            _logger.LogError($"Failed to create schedule '{name}' due to a conflict. {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while creating schedule '{name}' " +
                             $"in schedule group '{scheduleGroupName}': {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Creates a new schedule group in Amazon EventBridge Scheduler.
    /// </summary>
    /// <param name="name">The name of the schedule group.</param>
    /// <returns>True if the schedule group was created successfully, false otherwise.</returns>
    public async Task<bool> CreateScheduleGroupAsync(string name)
    {
        try
        {
            var request = new CreateScheduleGroupRequest { Name = name };

            var response = await _amazonScheduler.CreateScheduleGroupAsync(request);

            Console.WriteLine($"Successfully created schedule group '{name}': {response.ScheduleGroupArn}.");
            return true;

        }
        catch (ConflictException ex)
        {
            // If the name is not unique, a ConflictException will be thrown.
            _logger.LogError($"Failed to create schedule group '{name}' due to a conflict. {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while creating schedule group '{name}': {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Deletes an existing schedule from Amazon EventBridge Scheduler.
    /// </summary>
    /// <param name="name">The name of the schedule to delete.</param>
    /// <param name="groupName">The group name of the schedule to delete.</param>
    /// <returns>True if the schedule was deleted successfully, false otherwise.</returns>
    public async Task<bool> DeleteScheduleAsync(string name, string groupName)
    {
        try
        {
            var request = new DeleteScheduleRequest
            {
                Name = name,
                GroupName = groupName
            };

            await _amazonScheduler.DeleteScheduleAsync(request);

            Console.WriteLine($"Successfully deleted schedule with name '{name}'.");
            return true;

        }
        catch (ResourceNotFoundException ex)
        {
            _logger.LogError(
                $"Failed to delete schedule with ID '{name}' because the resource was not found: {ex.Message}");
            return true;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while deleting schedule with ID '{name}': {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Deletes an existing schedule group from Amazon EventBridge Scheduler.
    /// </summary>
    /// <param name="name">The name of the schedule group to delete.</param>
    /// <returns>True if the schedule group was deleted successfully, false otherwise.</returns>
    public async Task<bool> DeleteScheduleGroupAsync(string name)
    {
        try
        {
            var request = new DeleteScheduleGroupRequest { Name = name };

            await _amazonScheduler.DeleteScheduleGroupAsync(request);

            Console.WriteLine($"Successfully deleted schedule group '{name}'.");
            return true;

        }
        catch (ResourceNotFoundException ex)
        {
            _logger.LogError(
                $"Failed to delete schedule group '{name}' because the resource was not found: {ex.Message}");
            return true;
        }
        catch (Exception ex)
        {
            _logger.LogError(
                $"An error occurred while deleting schedule group '{name}': {ex.Message}");
            return false;
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateSchedule](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/CreateSchedule)
  + [CreateScheduleGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/CreateScheduleGroup)
  + [DeleteSchedule](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/DeleteSchedule)
  + [DeleteScheduleGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/scheduler-2021-06-30/DeleteScheduleGroups)

# Contoh Amazon Glacier menggunakan SDK untuk .NET
<a name="csharp_3_glacier_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Glacier. AWS SDK untuk .NET 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Glacier
<a name="glacier_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Glacier.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EventBridge#code-examples). 

```
using Amazon.Glacier;
using Amazon.Glacier.Model;

namespace GlacierActions;

public static class HelloGlacier
{
    static async Task Main()
    {
        var glacierService = new AmazonGlacierClient();

        Console.WriteLine("Hello Amazon Glacier!");
        Console.WriteLine("Let's list your Glacier vaults:");

        // You can use await and any of the async methods to get a response.
        // Let's get the vaults using a paginator.
        var glacierVaultPaginator = glacierService.Paginators.ListVaults(
            new ListVaultsRequest { AccountId = "-" });

        await foreach (var vault in glacierVaultPaginator.VaultList)
        {
            Console.WriteLine($"{vault.CreationDate}:{vault.VaultName}, ARN:{vault.VaultARN}");
        }
    }
}
```
+  Untuk detail API, lihat [ListVaults](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/ListVaults)di *Referensi AWS SDK untuk .NET API*. 

## Tindakan
<a name="actions"></a>

### `AddTagsToVault`
<a name="glacier_AddTagsToVault_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddTagsToVault`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glacier#code-examples). 

```
    /// <summary>
    /// Add tags to the items in an Amazon S3 Glacier vault.
    /// </summary>
    /// <param name="vaultName">The name of the vault to add tags to.</param>
    /// <param name="key">The name of the object to tag.</param>
    /// <param name="value">The tag value to add.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> AddTagsToVaultAsync(string vaultName, string key, string value)
    {
        var request = new AddTagsToVaultRequest
        {
            Tags = new Dictionary<string, string>
                {
                    { key, value },
                },
            AccountId = "-",
            VaultName = vaultName,
        };

        var response = await _glacierService.AddTagsToVaultAsync(request);
        return response.HttpStatusCode == HttpStatusCode.NoContent;
    }
```
+  Untuk detail API, lihat [AddTagsToVault](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/AddTagsToVault)di *Referensi AWS SDK untuk .NET API*. 

### `CreateVault`
<a name="glacier_CreateVault_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVault`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glacier#code-examples). 

```
    /// <summary>
    /// Create an Amazon S3 Glacier vault.
    /// </summary>
    /// <param name="vaultName">The name of the vault to create.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> CreateVaultAsync(string vaultName)
    {
        var request = new CreateVaultRequest
        {
            // Setting the AccountId to "-" means that
            // the account associated with the current
            // account will be used.
            AccountId = "-",
            VaultName = vaultName,
        };

        var response = await _glacierService.CreateVaultAsync(request);

        Console.WriteLine($"Created {vaultName} at: {response.Location}");

        return response.HttpStatusCode == HttpStatusCode.Created;
    }
```
+  Untuk detail API, lihat [CreateVault](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/CreateVault)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeVault`
<a name="glacier_DescribeVault_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVault`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glacier#code-examples). 

```
    /// <summary>
    /// Describe an Amazon S3 Glacier vault.
    /// </summary>
    /// <param name="vaultName">The name of the vault to describe.</param>
    /// <returns>The Amazon Resource Name (ARN) of the vault.</returns>
    public async Task<string> DescribeVaultAsync(string vaultName)
    {
        var request = new DescribeVaultRequest
        {
            AccountId = "-",
            VaultName = vaultName,
        };

        var response = await _glacierService.DescribeVaultAsync(request);

        // Display the information about the vault.
        Console.WriteLine($"{response.VaultName}\tARN: {response.VaultARN}");
        Console.WriteLine($"Created on: {response.CreationDate}\tNumber of Archives: {response.NumberOfArchives}\tSize (in bytes): {response.SizeInBytes}");
        if (response.LastInventoryDate != DateTime.MinValue)
        {
            Console.WriteLine($"Last inventory: {response.LastInventoryDate}");
        }

        return response.VaultARN;
    }
```
+  Untuk detail API, lihat [DescribeVault](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/DescribeVault)di *Referensi AWS SDK untuk .NET API*. 

### `InitiateJob`
<a name="glacier_InitiateJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InitiateJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glacier#code-examples). 
Ambil arsip dari lemari besi. Contoh ini menggunakan ArchiveTransferManager kelas. Untuk detail API, lihat [ArchiveTransferManager](https://docs.aws.amazon.com/sdkfornet/v3/apidocs/items/Glacier/TArchiveTransferManager).  

```
    /// <summary>
    /// Download an archive from an Amazon S3 Glacier vault using the Archive
    /// Transfer Manager.
    /// </summary>
    /// <param name="vaultName">The name of the vault containing the object.</param>
    /// <param name="archiveId">The Id of the archive to download.</param>
    /// <param name="localFilePath">The local directory where the file will
    /// be stored after download.</param>
    /// <returns>Async Task.</returns>
    public async Task<bool> DownloadArchiveWithArchiveManagerAsync(string vaultName, string archiveId, string localFilePath)
    {
        try
        {
            var manager = new ArchiveTransferManager(_glacierService);

            var options = new DownloadOptions
            {
                StreamTransferProgress = Progress!,
            };

            // Download an archive.
            Console.WriteLine("Initiating the archive retrieval job and then polling SQS queue for the archive to be available.");
            Console.WriteLine("When the archive is available, downloading will begin.");
            await manager.DownloadAsync(vaultName, archiveId, localFilePath, options);

            return true;
        }
        catch (AmazonGlacierException ex)
        {
            Console.WriteLine(ex.Message);
            return false;
        }
    }

    /// <summary>
    /// Event handler to track the progress of the Archive Transfer Manager.
    /// </summary>
    /// <param name="sender">The object that raised the event.</param>
    /// <param name="args">The argument values from the object that raised the
    /// event.</param>
    static void Progress(object sender, StreamTransferProgressArgs args)
    {
        if (args.PercentDone != _currentPercentage)
        {
            _currentPercentage = args.PercentDone;
            Console.WriteLine($"Downloaded {_currentPercentage}%");
        }
    }
```
+  Untuk detail API, lihat [InitiateJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/InitiateJob)di *Referensi AWS SDK untuk .NET API*. 

### `ListJobs`
<a name="glacier_ListJobs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glacier#code-examples). 

```
    /// <summary>
    /// List Amazon S3 Glacier jobs.
    /// </summary>
    /// <param name="vaultName">The name of the vault to list jobs for.</param>
    /// <returns>A list of Amazon S3 Glacier jobs.</returns>
    public async Task<List<GlacierJobDescription>> ListJobsAsync(string vaultName)
    {
        var request = new ListJobsRequest
        {
            // Using a hyphen "-" for the Account Id will
            // cause the SDK to use the Account Id associated
            // with the current account.
            AccountId = "-",
            VaultName = vaultName,
        };

        var response = await _glacierService.ListJobsAsync(request);

        return response.JobList;
    }
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/ListJobs)di *Referensi AWS SDK untuk .NET API*. 

### `ListTagsForVault`
<a name="glacier_ListTagsForVault_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForVault`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glacier#code-examples). 

```
    /// <summary>
    /// List tags for an Amazon S3 Glacier vault.
    /// </summary>
    /// <param name="vaultName">The name of the vault to list tags for.</param>
    /// <returns>A dictionary listing the tags attached to each object in the
    /// vault and its tags.</returns>
    public async Task<Dictionary<string, string>> ListTagsForVaultAsync(string vaultName)
    {
        var request = new ListTagsForVaultRequest
        {
            // Using a hyphen "-" for the Account Id will
            // cause the SDK to use the Account Id associated
            // with the default user.
            AccountId = "-",
            VaultName = vaultName,
        };

        var response = await _glacierService.ListTagsForVaultAsync(request);

        return response.Tags;
    }
```
+  Untuk detail API, lihat [ListTagsForVault](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/ListTagsForVault)di *Referensi AWS SDK untuk .NET API*. 

### `ListVaults`
<a name="glacier_ListVaults_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListVaults`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glacier#code-examples). 

```
    /// <summary>
    /// List the Amazon S3 Glacier vaults associated with the current account.
    /// </summary>
    /// <returns>A list containing information about each vault.</returns>
    public async Task<List<DescribeVaultOutput>> ListVaultsAsync()
    {
        var glacierVaultPaginator = _glacierService.Paginators.ListVaults(
            new ListVaultsRequest { AccountId = "-" });
        var vaultList = new List<DescribeVaultOutput>();

        await foreach (var vault in glacierVaultPaginator.VaultList)
        {
            vaultList.Add(vault);
        }

        return vaultList;
    }
```
+  Untuk detail API, lihat [ListVaults](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/ListVaults)di *Referensi AWS SDK untuk .NET API*. 

### `UploadArchive`
<a name="glacier_UploadArchive_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadArchive`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glacier#code-examples). 

```
    /// <summary>
    /// Upload an object to an Amazon S3 Glacier vault.
    /// </summary>
    /// <param name="vaultName">The name of the Amazon S3 Glacier vault to upload
    /// the archive to.</param>
    /// <param name="archiveFilePath">The file path of the archive to upload to the vault.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<string> UploadArchiveWithArchiveManager(string vaultName, string archiveFilePath)
    {
        try
        {
            var manager = new ArchiveTransferManager(_glacierService);

            // Upload an archive.
            var response = await manager.UploadAsync(vaultName, "upload archive test", archiveFilePath);
            return response.ArchiveId;
        }
        catch (AmazonGlacierException ex)
        {
            Console.WriteLine(ex.Message);
            return string.Empty;
        }
    }
```
+  Untuk detail API, lihat [UploadArchive](https://docs.aws.amazon.com/goto/DotNetSDKV3/glacier-2012-06-01/UploadArchive)di *Referensi AWS SDK untuk .NET API*. 

# AWS Glue contoh menggunakan SDK untuk .NET
<a name="csharp_3_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with AWS Glue.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Glue
<a name="glue_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Glue.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
namespace GlueActions;

public class HelloGlue
{
    private static ILogger logger = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for AWS Glue.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonGlue>()
                .AddTransient<GlueWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<HelloGlue>();
        var glueClient = host.Services.GetRequiredService<IAmazonGlue>();

        var request = new ListJobsRequest();

        var jobNames = new List<string>();

        do
        {
            var response = await glueClient.ListJobsAsync(request);
            jobNames.AddRange(response.JobNames);
            request.NextToken = response.NextToken;
        }
        while (request.NextToken is not null);

        Console.Clear();
        Console.WriteLine("Hello, Glue. Let's list your existing Glue Jobs:");
        if (jobNames.Count == 0)
        {
            Console.WriteLine("You don't have any AWS Glue jobs.");
        }
        else
        {
            jobNames.ForEach(Console.WriteLine);
        }
    }
}
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/ListJobs)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Daftar informasi tentang database dan tabel di Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 
Buat kelas yang membungkus AWS Glue fungsi yang digunakan dalam skenario.  

```
using System.Net;

namespace GlueActions;

public class GlueWrapper
{
    private readonly IAmazonGlue _amazonGlue;

    /// <summary>
    /// Constructor for the AWS Glue actions wrapper.
    /// </summary>
    /// <param name="amazonGlue"></param>
    public GlueWrapper(IAmazonGlue amazonGlue)
    {
        _amazonGlue = amazonGlue;
    }

    /// <summary>
    /// Create an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name for the crawler.</param>
    /// <param name="crawlerDescription">A description of the crawler.</param>
    /// <param name="role">The AWS Identity and Access Management (IAM) role to
    /// be assumed by the crawler.</param>
    /// <param name="schedule">The schedule on which the crawler will be executed.</param>
    /// <param name="s3Path">The path to the Amazon Simple Storage Service (Amazon S3)
    /// bucket where the Python script has been stored.</param>
    /// <param name="dbName">The name to use for the database that will be
    /// created by the crawler.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> CreateCrawlerAsync(
        string crawlerName,
        string crawlerDescription,
        string role,
        string schedule,
        string s3Path,
        string dbName)
    {
        var s3Target = new S3Target
        {
            Path = s3Path,
        };

        var targetList = new List<S3Target>
        {
            s3Target,
        };

        var targets = new CrawlerTargets
        {
            S3Targets = targetList,
        };

        var crawlerRequest = new CreateCrawlerRequest
        {
            DatabaseName = dbName,
            Name = crawlerName,
            Description = crawlerDescription,
            Targets = targets,
            Role = role,
            Schedule = schedule,
        };

        var response = await _amazonGlue.CreateCrawlerAsync(crawlerRequest);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Create an AWS Glue job.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <param name="roleName">The name of the IAM role to be assumed by
    /// the job.</param>
    /// <param name="description">A description of the job.</param>
    /// <param name="scriptUrl">The URL to the script.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> CreateJobAsync(string dbName, string tableName, string bucketUrl, string jobName, string roleName, string description, string scriptUrl)
    {
        var command = new JobCommand
        {
            PythonVersion = "3",
            Name = "glueetl",
            ScriptLocation = scriptUrl,
        };

        var arguments = new Dictionary<string, string>
        {
            { "--input_database", dbName },
            { "--input_table", tableName },
            { "--output_bucket_url", bucketUrl }
        };

        var request = new CreateJobRequest
        {
            Command = command,
            DefaultArguments = arguments,
            Description = description,
            GlueVersion = "3.0",
            Name = jobName,
            NumberOfWorkers = 10,
            Role = roleName,
            WorkerType = "G.1X"
        };

        var response = await _amazonGlue.CreateJobAsync(request);
        return response.HttpStatusCode == HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name of the crawler.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteCrawlerAsync(string crawlerName)
    {
        var response = await _amazonGlue.DeleteCrawlerAsync(new DeleteCrawlerRequest { Name = crawlerName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete the AWS Glue database.
    /// </summary>
    /// <param name="dbName">The name of the database.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteDatabaseAsync(string dbName)
    {
        var response = await _amazonGlue.DeleteDatabaseAsync(new DeleteDatabaseRequest { Name = dbName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete an AWS Glue job.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteJobAsync(string jobName)
    {
        var response = await _amazonGlue.DeleteJobAsync(new DeleteJobRequest { JobName = jobName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete a table from an AWS Glue database.
    /// </summary>
    /// <param name="tableName">The table to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteTableAsync(string dbName, string tableName)
    {
        var response = await _amazonGlue.DeleteTableAsync(new DeleteTableRequest { Name = tableName, DatabaseName = dbName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }


    /// <summary>
    /// Get information about an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name of the crawler.</param>
    /// <returns>A Crawler object describing the crawler.</returns>
    public async Task<Crawler?> GetCrawlerAsync(string crawlerName)
    {
        var crawlerRequest = new GetCrawlerRequest
        {
            Name = crawlerName,
        };

        var response = await _amazonGlue.GetCrawlerAsync(crawlerRequest);
        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            var databaseName = response.Crawler.DatabaseName;
            Console.WriteLine($"{crawlerName} has the database {databaseName}");
            return response.Crawler;
        }

        Console.WriteLine($"No information regarding {crawlerName} could be found.");
        return null;
    }


    /// <summary>
    /// Get information about the state of an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name of the crawler.</param>
    /// <returns>A value describing the state of the crawler.</returns>
    public async Task<CrawlerState> GetCrawlerStateAsync(string crawlerName)
    {
        var response = await _amazonGlue.GetCrawlerAsync(
            new GetCrawlerRequest { Name = crawlerName });
        return response.Crawler.State;
    }


    /// <summary>
    /// Get information about an AWS Glue database.
    /// </summary>
    /// <param name="dbName">The name of the database.</param>
    /// <returns>A Database object containing information about the database.</returns>
    public async Task<Database> GetDatabaseAsync(string dbName)
    {
        var databasesRequest = new GetDatabaseRequest
        {
            Name = dbName,
        };

        var response = await _amazonGlue.GetDatabaseAsync(databasesRequest);
        return response.Database;
    }


    /// <summary>
    /// Get information about a specific AWS Glue job run.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <param name="jobRunId">The Id of the job run.</param>
    /// <returns>A JobRun object with information about the job run.</returns>
    public async Task<JobRun> GetJobRunAsync(string jobName, string jobRunId)
    {
        var response = await _amazonGlue.GetJobRunAsync(new GetJobRunRequest { JobName = jobName, RunId = jobRunId });
        return response.JobRun;
    }


    /// <summary>
    /// Get information about all AWS Glue runs of a specific job.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <returns>A list of JobRun objects.</returns>
    public async Task<List<JobRun>> GetJobRunsAsync(string jobName)
    {
        var jobRuns = new List<JobRun>();

        var request = new GetJobRunsRequest
        {
            JobName = jobName,
        };

        // No need to loop to get all the log groups--the SDK does it for us behind the scenes
        var paginatorForJobRuns =
            _amazonGlue.Paginators.GetJobRuns(request);

        await foreach (var response in paginatorForJobRuns.Responses)
        {
            response.JobRuns.ForEach(jobRun =>
            {
                jobRuns.Add(jobRun);
            });
        }

        return jobRuns;
    }


    /// <summary>
    /// Get a list of tables for an AWS Glue database.
    /// </summary>
    /// <param name="dbName">The name of the database.</param>
    /// <returns>A list of Table objects.</returns>
    public async Task<List<Table>> GetTablesAsync(string dbName)
    {
        var request = new GetTablesRequest { DatabaseName = dbName };
        var tables = new List<Table>();

        // Get a paginator for listing the tables.
        var tablePaginator = _amazonGlue.Paginators.GetTables(request);

        await foreach (var response in tablePaginator.Responses)
        {
            tables.AddRange(response.TableList);
        }

        return tables;
    }


    /// <summary>
    /// List AWS Glue jobs using a paginator.
    /// </summary>
    /// <returns>A list of AWS Glue job names.</returns>
    public async Task<List<string>> ListJobsAsync()
    {
        var jobNames = new List<string>();

        var listJobsPaginator = _amazonGlue.Paginators.ListJobs(new ListJobsRequest { MaxResults = 10 });
        await foreach (var response in listJobsPaginator.Responses)
        {
            jobNames.AddRange(response.JobNames);
        }

        return jobNames;
    }


    /// <summary>
    /// Start an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name of the crawler.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> StartCrawlerAsync(string crawlerName)
    {
        var crawlerRequest = new StartCrawlerRequest
        {
            Name = crawlerName,
        };

        var response = await _amazonGlue.StartCrawlerAsync(crawlerRequest);

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Start an AWS Glue job run.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <returns>A string representing the job run Id.</returns>
    public async Task<string> StartJobRunAsync(
        string jobName,
        string inputDatabase,
        string inputTable,
        string bucketName)
    {
        var request = new StartJobRunRequest
        {
            JobName = jobName,
            Arguments = new Dictionary<string, string>
            {
                {"--input_database", inputDatabase},
                {"--input_table", inputTable},
                {"--output_bucket_url", $"s3://{bucketName}/"}
            }
        };

        var response = await _amazonGlue.StartJobRunAsync(request);
        return response.JobRunId;
    }

}
```
Buat kelas yang menjalankan skenario.  

```
global using Amazon.Glue;
global using GlueActions;
global using Microsoft.Extensions.Configuration;
global using Microsoft.Extensions.DependencyInjection;
global using Microsoft.Extensions.Hosting;
global using Microsoft.Extensions.Logging;
global using Microsoft.Extensions.Logging.Console;
global using Microsoft.Extensions.Logging.Debug;



using Amazon.Glue.Model;
using Amazon.S3;
using Amazon.S3.Model;

namespace GlueBasics;

public class GlueBasics
{
    private static ILogger logger = null!;
    private static IConfiguration _configuration = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for AWS Glue.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonGlue>()
            .AddTransient<GlueWrapper>()
            .AddTransient<UiWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
        .CreateLogger<GlueBasics>();

        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally load local settings.
            .Build();

        // These values are stored in settings.json
        // Once you have run the CDK script to deploy the resources,
        // edit the file to set "BucketName", "RoleName", and "ScriptURL"
        // to the appropriate values. Also set "CrawlerName" to the name
        // you want to give the crawler when it is created.
        string bucketName = _configuration["BucketName"]!;
        string bucketUrl = _configuration["BucketUrl"]!;
        string crawlerName = _configuration["CrawlerName"]!;
        string roleName = _configuration["RoleName"]!;
        string sourceData = _configuration["SourceData"]!;
        string dbName = _configuration["DbName"]!;
        string cron = _configuration["Cron"]!;
        string scriptUrl = _configuration["ScriptURL"]!;
        string jobName = _configuration["JobName"]!;

        var wrapper = host.Services.GetRequiredService<GlueWrapper>();
        var uiWrapper = host.Services.GetRequiredService<UiWrapper>();

        uiWrapper.DisplayOverview();
        uiWrapper.PressEnter();

        // Create the crawler and wait for it to be ready.
        uiWrapper.DisplayTitle("Create AWS Glue crawler");
        Console.WriteLine("Let's begin by creating the AWS Glue crawler.");

        var crawlerDescription = "Crawler created for the AWS Glue Basics scenario.";
        var crawlerCreated = await wrapper.CreateCrawlerAsync(crawlerName, crawlerDescription, roleName, cron, sourceData, dbName);
        if (crawlerCreated)
        {
            Console.WriteLine($"The crawler: {crawlerName} has been created. Now let's wait until it's ready.");
            CrawlerState crawlerState;
            do
            {
                crawlerState = await wrapper.GetCrawlerStateAsync(crawlerName);
            }
            while (crawlerState != "READY");
            Console.WriteLine($"The crawler {crawlerName} is now ready for use.");
        }
        else
        {
            Console.WriteLine($"Couldn't create crawler {crawlerName}.");
            return; // Exit the application.
        }

        uiWrapper.DisplayTitle("Start AWS Glue crawler");
        Console.WriteLine("Now let's wait until the crawler has successfully started.");
        var crawlerStarted = await wrapper.StartCrawlerAsync(crawlerName);
        if (crawlerStarted)
        {
            CrawlerState crawlerState;
            do
            {
                crawlerState = await wrapper.GetCrawlerStateAsync(crawlerName);
            }
            while (crawlerState != "READY");
            Console.WriteLine($"The crawler {crawlerName} is now ready for use.");
        }
        else
        {
            Console.WriteLine($"Couldn't start the crawler {crawlerName}.");
            return; // Exit the application.
        }

        uiWrapper.PressEnter();

        Console.WriteLine($"\nLet's take a look at the database: {dbName}");
        var database = await wrapper.GetDatabaseAsync(dbName);

        if (database != null)
        {
            uiWrapper.DisplayTitle($"{database.Name} Details");
            Console.WriteLine($"{database.Name} created on {database.CreateTime}");
            Console.WriteLine(database.Description);
        }

        uiWrapper.PressEnter();

        var tables = await wrapper.GetTablesAsync(dbName);
        if (tables.Count > 0)
        {
            tables.ForEach(table =>
            {
                Console.WriteLine($"{table.Name}\tCreated: {table.CreateTime}\tUpdated: {table.UpdateTime}");
            });
        }

        uiWrapper.PressEnter();

        uiWrapper.DisplayTitle("Create AWS Glue job");
        Console.WriteLine("Creating a new AWS Glue job.");
        var description = "An AWS Glue job created using the AWS SDK for .NET";
        await wrapper.CreateJobAsync(dbName, tables[0].Name, bucketUrl, jobName, roleName, description, scriptUrl);

        uiWrapper.PressEnter();

        uiWrapper.DisplayTitle("Starting AWS Glue job");
        Console.WriteLine("Starting the new AWS Glue job...");
        var jobRunId = await wrapper.StartJobRunAsync(jobName, dbName, tables[0].Name, bucketName);
        var jobRunComplete = false;
        var jobRun = new JobRun();
        do
        {
            jobRun = await wrapper.GetJobRunAsync(jobName, jobRunId);
            if (jobRun.JobRunState == "SUCCEEDED" || jobRun.JobRunState == "STOPPED" ||
                jobRun.JobRunState == "FAILED" || jobRun.JobRunState == "TIMEOUT")
            {
                jobRunComplete = true;
            }
        } while (!jobRunComplete);

        uiWrapper.DisplayTitle($"Data in {bucketName}");

        // Get the list of data stored in the S3 bucket.
        var s3Client = new AmazonS3Client();

        var response = await s3Client.ListObjectsAsync(new ListObjectsRequest { BucketName = bucketName });
        response.S3Objects.ForEach(s3Object =>
        {
            Console.WriteLine(s3Object.Key);
        });

        uiWrapper.DisplayTitle("AWS Glue jobs");
        var jobNames = await wrapper.ListJobsAsync();
        jobNames.ForEach(jobName =>
        {
            Console.WriteLine(jobName);
        });

        uiWrapper.PressEnter();

        uiWrapper.DisplayTitle("Get AWS Glue job run information");
        Console.WriteLine("Getting information about the AWS Glue job.");
        var jobRuns = await wrapper.GetJobRunsAsync(jobName);

        jobRuns.ForEach(jobRun =>
        {
            Console.WriteLine($"{jobRun.JobName}\t{jobRun.JobRunState}\t{jobRun.CompletedOn}");
        });

        uiWrapper.PressEnter();

        uiWrapper.DisplayTitle("Deleting resources");
        Console.WriteLine("Deleting the AWS Glue job used by the example.");
        await wrapper.DeleteJobAsync(jobName);

        Console.WriteLine("Deleting the tables from the database.");
        tables.ForEach(async table =>
        {
            await wrapper.DeleteTableAsync(dbName, table.Name);
        });

        Console.WriteLine("Deleting the database.");
        await wrapper.DeleteDatabaseAsync(dbName);

        Console.WriteLine("Deleting the AWS Glue crawler.");
        await wrapper.DeleteCrawlerAsync(crawlerName);

        Console.WriteLine("The AWS Glue scenario has completed.");
        uiWrapper.PressEnter();
    }
}


namespace GlueBasics;

public class UiWrapper
{
    public readonly string SepBar = new string('-', Console.WindowWidth);

    /// <summary>
    /// Show information about the scenario.
    /// </summary>
    public void DisplayOverview()
    {
        Console.Clear();
        DisplayTitle("Amazon Glue: get started with crawlers and jobs");

        Console.WriteLine("This example application does the following:");
        Console.WriteLine("\t 1. Create a crawler, pass it the IAM role and the URL to the public S3 bucket that contains the source data");
        Console.WriteLine("\t 2. Start the crawler.");
        Console.WriteLine("\t 3. Get the database created by the crawler and the tables in the database.");
        Console.WriteLine("\t 4. Create a job.");
        Console.WriteLine("\t 5. Start a job run.");
        Console.WriteLine("\t 6. Wait for the job run to complete.");
        Console.WriteLine("\t 7. Show the data stored in the bucket.");
        Console.WriteLine("\t 8. List jobs for the account.");
        Console.WriteLine("\t 9. Get job run details for the job that was run.");
        Console.WriteLine("\t10. Delete the demo job.");
        Console.WriteLine("\t11. Delete the database and tables created for the demo.");
        Console.WriteLine("\t12. Delete the crawler.");
    }

    /// <summary>
    /// Display a message and wait until the user presses enter.
    /// </summary>
    public void PressEnter()
    {
        Console.Write("\nPlease press <Enter> to continue. ");
        _ = Console.ReadLine();
    }

    /// <summary>
    /// Pad a string with spaces to center it on the console display.
    /// </summary>
    /// <param name="strToCenter">The string to center on the screen.</param>
    /// <returns>The string padded to make it center on the screen.</returns>
    public string CenterString(string strToCenter)
    {
        var padAmount = (Console.WindowWidth - strToCenter.Length) / 2;
        var leftPad = new string(' ', padAmount);
        return $"{leftPad}{strToCenter}";
    }

    /// <summary>
    /// Display a line of hyphens, the centered text of the title and another
    /// line of hyphens.
    /// </summary>
    /// <param name="strTitle">The string to be displayed.</param>
    public void DisplayTitle(string strTitle)
    {
        Console.WriteLine(SepBar);
        Console.WriteLine(CenterString(strTitle));
        Console.WriteLine(SepBar);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateCrawler](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/CreateCrawler)
  + [CreateJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/CreateJob)
  + [DeleteCrawler](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/DeleteCrawler)
  + [DeleteDatabase](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/DeleteDatabase)
  + [DeleteJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/DeleteJob)
  + [DeleteTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/DeleteTable)
  + [GetCrawler](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetCrawler)
  + [GetDatabase](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetDatabase)
  + [GetDatabases](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetDatabases)
  + [GetJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetJob)
  + [GetJobRun](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetJobRun)
  + [GetJobRuns](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetJobRuns)
  + [GetTables](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetTables)
  + [ListJobs](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/ListJobs)
  + [StartCrawler](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/StartCrawler)
  + [StartJobRun](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/StartJobRun)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Create an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name for the crawler.</param>
    /// <param name="crawlerDescription">A description of the crawler.</param>
    /// <param name="role">The AWS Identity and Access Management (IAM) role to
    /// be assumed by the crawler.</param>
    /// <param name="schedule">The schedule on which the crawler will be executed.</param>
    /// <param name="s3Path">The path to the Amazon Simple Storage Service (Amazon S3)
    /// bucket where the Python script has been stored.</param>
    /// <param name="dbName">The name to use for the database that will be
    /// created by the crawler.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> CreateCrawlerAsync(
        string crawlerName,
        string crawlerDescription,
        string role,
        string schedule,
        string s3Path,
        string dbName)
    {
        var s3Target = new S3Target
        {
            Path = s3Path,
        };

        var targetList = new List<S3Target>
        {
            s3Target,
        };

        var targets = new CrawlerTargets
        {
            S3Targets = targetList,
        };

        var crawlerRequest = new CreateCrawlerRequest
        {
            DatabaseName = dbName,
            Name = crawlerName,
            Description = crawlerDescription,
            Targets = targets,
            Role = role,
            Schedule = schedule,
        };

        var response = await _amazonGlue.CreateCrawlerAsync(crawlerRequest);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/CreateCrawler)di *Referensi AWS SDK untuk .NET API*. 

### `CreateJob`
<a name="glue_CreateJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Create an AWS Glue job.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <param name="roleName">The name of the IAM role to be assumed by
    /// the job.</param>
    /// <param name="description">A description of the job.</param>
    /// <param name="scriptUrl">The URL to the script.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> CreateJobAsync(string dbName, string tableName, string bucketUrl, string jobName, string roleName, string description, string scriptUrl)
    {
        var command = new JobCommand
        {
            PythonVersion = "3",
            Name = "glueetl",
            ScriptLocation = scriptUrl,
        };

        var arguments = new Dictionary<string, string>
        {
            { "--input_database", dbName },
            { "--input_table", tableName },
            { "--output_bucket_url", bucketUrl }
        };

        var request = new CreateJobRequest
        {
            Command = command,
            DefaultArguments = arguments,
            Description = description,
            GlueVersion = "3.0",
            Name = jobName,
            NumberOfWorkers = 10,
            Role = roleName,
            WorkerType = "G.1X"
        };

        var response = await _amazonGlue.CreateJobAsync(request);
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/CreateJob)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Delete an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name of the crawler.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteCrawlerAsync(string crawlerName)
    {
        var response = await _amazonGlue.DeleteCrawlerAsync(new DeleteCrawlerRequest { Name = crawlerName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/DeleteCrawler)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Delete the AWS Glue database.
    /// </summary>
    /// <param name="dbName">The name of the database.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteDatabaseAsync(string dbName)
    {
        var response = await _amazonGlue.DeleteDatabaseAsync(new DeleteDatabaseRequest { Name = dbName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/DeleteDatabase)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteJob`
<a name="glue_DeleteJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Delete an AWS Glue job.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteJobAsync(string jobName)
    {
        var response = await _amazonGlue.DeleteJobAsync(new DeleteJobRequest { JobName = jobName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/DeleteJob)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteTable`
<a name="glue_DeleteTable_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Delete a table from an AWS Glue database.
    /// </summary>
    /// <param name="tableName">The table to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteTableAsync(string dbName, string tableName)
    {
        var response = await _amazonGlue.DeleteTableAsync(new DeleteTableRequest { Name = tableName, DatabaseName = dbName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/DeleteTable)di *Referensi AWS SDK untuk .NET API*. 

### `GetCrawler`
<a name="glue_GetCrawler_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Get information about an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name of the crawler.</param>
    /// <returns>A Crawler object describing the crawler.</returns>
    public async Task<Crawler?> GetCrawlerAsync(string crawlerName)
    {
        var crawlerRequest = new GetCrawlerRequest
        {
            Name = crawlerName,
        };

        var response = await _amazonGlue.GetCrawlerAsync(crawlerRequest);
        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            var databaseName = response.Crawler.DatabaseName;
            Console.WriteLine($"{crawlerName} has the database {databaseName}");
            return response.Crawler;
        }

        Console.WriteLine($"No information regarding {crawlerName} could be found.");
        return null;
    }
```
+  Untuk detail API, lihat [GetCrawler](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetCrawler)di *Referensi AWS SDK untuk .NET API*. 

### `GetDatabase`
<a name="glue_GetDatabase_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Get information about an AWS Glue database.
    /// </summary>
    /// <param name="dbName">The name of the database.</param>
    /// <returns>A Database object containing information about the database.</returns>
    public async Task<Database> GetDatabaseAsync(string dbName)
    {
        var databasesRequest = new GetDatabaseRequest
        {
            Name = dbName,
        };

        var response = await _amazonGlue.GetDatabaseAsync(databasesRequest);
        return response.Database;
    }
```
+  Untuk detail API, lihat [GetDatabase](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetDatabase)di *Referensi AWS SDK untuk .NET API*. 

### `GetJobRun`
<a name="glue_GetJobRun_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Get information about a specific AWS Glue job run.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <param name="jobRunId">The Id of the job run.</param>
    /// <returns>A JobRun object with information about the job run.</returns>
    public async Task<JobRun> GetJobRunAsync(string jobName, string jobRunId)
    {
        var response = await _amazonGlue.GetJobRunAsync(new GetJobRunRequest { JobName = jobName, RunId = jobRunId });
        return response.JobRun;
    }
```
+  Untuk detail API, lihat [GetJobRun](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetJobRun)di *Referensi AWS SDK untuk .NET API*. 

### `GetJobRuns`
<a name="glue_GetJobRuns_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Get information about all AWS Glue runs of a specific job.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <returns>A list of JobRun objects.</returns>
    public async Task<List<JobRun>> GetJobRunsAsync(string jobName)
    {
        var jobRuns = new List<JobRun>();

        var request = new GetJobRunsRequest
        {
            JobName = jobName,
        };

        // No need to loop to get all the log groups--the SDK does it for us behind the scenes
        var paginatorForJobRuns =
            _amazonGlue.Paginators.GetJobRuns(request);

        await foreach (var response in paginatorForJobRuns.Responses)
        {
            response.JobRuns.ForEach(jobRun =>
            {
                jobRuns.Add(jobRun);
            });
        }

        return jobRuns;
    }
```
+  Untuk detail API, lihat [GetJobRuns](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetJobRuns)di *Referensi AWS SDK untuk .NET API*. 

### `GetTables`
<a name="glue_GetTables_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Get a list of tables for an AWS Glue database.
    /// </summary>
    /// <param name="dbName">The name of the database.</param>
    /// <returns>A list of Table objects.</returns>
    public async Task<List<Table>> GetTablesAsync(string dbName)
    {
        var request = new GetTablesRequest { DatabaseName = dbName };
        var tables = new List<Table>();

        // Get a paginator for listing the tables.
        var tablePaginator = _amazonGlue.Paginators.GetTables(request);

        await foreach (var response in tablePaginator.Responses)
        {
            tables.AddRange(response.TableList);
        }

        return tables;
    }
```
+  Untuk detail API, lihat [GetTables](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/GetTables)di *Referensi AWS SDK untuk .NET API*. 

### `ListJobs`
<a name="glue_ListJobs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// List AWS Glue jobs using a paginator.
    /// </summary>
    /// <returns>A list of AWS Glue job names.</returns>
    public async Task<List<string>> ListJobsAsync()
    {
        var jobNames = new List<string>();

        var listJobsPaginator = _amazonGlue.Paginators.ListJobs(new ListJobsRequest { MaxResults = 10 });
        await foreach (var response in listJobsPaginator.Responses)
        {
            jobNames.AddRange(response.JobNames);
        }

        return jobNames;
    }
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/ListJobs)di *Referensi AWS SDK untuk .NET API*. 

### `StartCrawler`
<a name="glue_StartCrawler_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Start an AWS Glue crawler.
    /// </summary>
    /// <param name="crawlerName">The name of the crawler.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> StartCrawlerAsync(string crawlerName)
    {
        var crawlerRequest = new StartCrawlerRequest
        {
            Name = crawlerName,
        };

        var response = await _amazonGlue.StartCrawlerAsync(crawlerRequest);

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [StartCrawler](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/StartCrawler)di *Referensi AWS SDK untuk .NET API*. 

### `StartJobRun`
<a name="glue_StartJobRun_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Glue#code-examples). 

```
    /// <summary>
    /// Start an AWS Glue job run.
    /// </summary>
    /// <param name="jobName">The name of the job.</param>
    /// <returns>A string representing the job run Id.</returns>
    public async Task<string> StartJobRunAsync(
        string jobName,
        string inputDatabase,
        string inputTable,
        string bucketName)
    {
        var request = new StartJobRunRequest
        {
            JobName = jobName,
            Arguments = new Dictionary<string, string>
            {
                {"--input_database", inputDatabase},
                {"--input_table", inputTable},
                {"--output_bucket_url", $"s3://{bucketName}/"}
            }
        };

        var response = await _amazonGlue.StartJobRunAsync(request);
        return response.JobRunId;
    }
```
+  Untuk detail API, lihat [StartJobRun](https://docs.aws.amazon.com/goto/DotNetSDKV3/glue-2017-03-31/StartJobRun)di *Referensi AWS SDK untuk .NET API*. 

# Contoh IAM menggunakan SDK untuk .NET
<a name="csharp_3_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo IAM
<a name="iam_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan IAM.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
namespace IAMActions;

public class HelloIAM
{
    static async Task Main(string[] args)
    {
        // Getting started with AWS Identity and Access Management (IAM). List
        // the policies for the account.
        var iamClient = new AmazonIdentityManagementServiceClient();

        var listPoliciesPaginator = iamClient.Paginators.ListPolicies(new ListPoliciesRequest());
        var policies = new List<ManagedPolicy>();

        await foreach (var response in listPoliciesPaginator.Responses)
        {
            policies.AddRange(response.Policies);
        }

        Console.WriteLine("Here are the policies defined for your account:\n");
        policies.ForEach(policy =>
        {
            Console.WriteLine($"Created: {policy.CreateDate}\t{policy.PolicyName}\t{policy.Description}");
        });
    }
}
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/ListPolicies)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
global using Amazon.IdentityManagement;
global using Amazon.S3;
global using Amazon.SecurityToken;
global using IAMActions;
global using IamScenariosCommon;
global using Microsoft.Extensions.DependencyInjection;
global using Microsoft.Extensions.Hosting;
global using Microsoft.Extensions.Logging;
global using Microsoft.Extensions.Logging.Console;
global using Microsoft.Extensions.Logging.Debug;


namespace IAMActions;

public class IAMWrapper
{
    private readonly IAmazonIdentityManagementService _IAMService;

    /// <summary>
    /// Constructor for the IAMWrapper class.
    /// </summary>
    /// <param name="IAMService">An IAM client object.</param>
    public IAMWrapper(IAmazonIdentityManagementService IAMService)
    {
        _IAMService = IAMService;
    }

    /// <summary>
    /// Attach an IAM policy to a role.
    /// </summary>
    /// <param name="policyArn">The policy to attach.</param>
    /// <param name="roleName">The role that the policy will be attached to.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> AttachRolePolicyAsync(string policyArn, string roleName)
    {
        var response = await _IAMService.AttachRolePolicyAsync(new AttachRolePolicyRequest
        {
            PolicyArn = policyArn,
            RoleName = roleName,
        });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Create an IAM access key for a user.
    /// </summary>
    /// <param name="userName">The username for which to create the IAM access
    /// key.</param>
    /// <returns>The AccessKey.</returns>
    public async Task<AccessKey> CreateAccessKeyAsync(string userName)
    {
        var response = await _IAMService.CreateAccessKeyAsync(new CreateAccessKeyRequest
        {
            UserName = userName,
        });

        return response.AccessKey;

    }


    /// <summary>
    /// Create an IAM policy.
    /// </summary>
    /// <param name="policyName">The name to give the new IAM policy.</param>
    /// <param name="policyDocument">The policy document for the new policy.</param>
    /// <returns>The new IAM policy object.</returns>
    public async Task<ManagedPolicy> CreatePolicyAsync(string policyName, string policyDocument)
    {
        var response = await _IAMService.CreatePolicyAsync(new CreatePolicyRequest
        {
            PolicyDocument = policyDocument,
            PolicyName = policyName,
        });

        return response.Policy;
    }


    /// <summary>
    /// Create a new IAM role.
    /// </summary>
    /// <param name="roleName">The name of the IAM role.</param>
    /// <param name="rolePolicyDocument">The name of the IAM policy document
    /// for the new role.</param>
    /// <returns>The Amazon Resource Name (ARN) of the role.</returns>
    public async Task<string> CreateRoleAsync(string roleName, string rolePolicyDocument)
    {
        var request = new CreateRoleRequest
        {
            RoleName = roleName,
            AssumeRolePolicyDocument = rolePolicyDocument,
        };

        var response = await _IAMService.CreateRoleAsync(request);
        return response.Role.Arn;
    }


    /// <summary>
    /// Create an IAM service-linked role.
    /// </summary>
    /// <param name="serviceName">The name of the AWS Service.</param>
    /// <param name="description">A description of the IAM service-linked role.</param>
    /// <returns>The IAM role that was created.</returns>
    public async Task<Role> CreateServiceLinkedRoleAsync(string serviceName, string description)
    {
        var request = new CreateServiceLinkedRoleRequest
        {
            AWSServiceName = serviceName,
            Description = description
        };

        var response = await _IAMService.CreateServiceLinkedRoleAsync(request);
        return response.Role;
    }


    /// <summary>
    /// Create an IAM user.
    /// </summary>
    /// <param name="userName">The username for the new IAM user.</param>
    /// <returns>The IAM user that was created.</returns>
    public async Task<User> CreateUserAsync(string userName)
    {
        var response = await _IAMService.CreateUserAsync(new CreateUserRequest { UserName = userName });
        return response.User;
    }


    /// <summary>
    /// Delete an IAM user's access key.
    /// </summary>
    /// <param name="accessKeyId">The Id for the IAM access key.</param>
    /// <param name="userName">The username of the user that owns the IAM
    /// access key.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteAccessKeyAsync(string accessKeyId, string userName)
    {
        var response = await _IAMService.DeleteAccessKeyAsync(new DeleteAccessKeyRequest
        {
            AccessKeyId = accessKeyId,
            UserName = userName,
        });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete an IAM policy.
    /// </summary>
    /// <param name="policyArn">The Amazon Resource Name (ARN) of the policy to
    /// delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeletePolicyAsync(string policyArn)
    {
        var response = await _IAMService.DeletePolicyAsync(new DeletePolicyRequest { PolicyArn = policyArn });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete an IAM role.
    /// </summary>
    /// <param name="roleName">The name of the IAM role to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteRoleAsync(string roleName)
    {
        var response = await _IAMService.DeleteRoleAsync(new DeleteRoleRequest { RoleName = roleName });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete an IAM role policy.
    /// </summary>
    /// <param name="roleName">The name of the IAM role.</param>
    /// <param name="policyName">The name of the IAM role policy to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteRolePolicyAsync(string roleName, string policyName)
    {
        var response = await _IAMService.DeleteRolePolicyAsync(new DeleteRolePolicyRequest
        {
            PolicyName = policyName,
            RoleName = roleName,
        });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete an IAM user.
    /// </summary>
    /// <param name="userName">The username of the IAM user to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteUserAsync(string userName)
    {
        var response = await _IAMService.DeleteUserAsync(new DeleteUserRequest { UserName = userName });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete an IAM user policy.
    /// </summary>
    /// <param name="policyName">The name of the IAM policy to delete.</param>
    /// <param name="userName">The username of the IAM user.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteUserPolicyAsync(string policyName, string userName)
    {
        var response = await _IAMService.DeleteUserPolicyAsync(new DeleteUserPolicyRequest { PolicyName = policyName, UserName = userName });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Detach an IAM policy from an IAM role.
    /// </summary>
    /// <param name="policyArn">The Amazon Resource Name (ARN) of the IAM policy.</param>
    /// <param name="roleName">The name of the IAM role.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DetachRolePolicyAsync(string policyArn, string roleName)
    {
        var response = await _IAMService.DetachRolePolicyAsync(new DetachRolePolicyRequest
        {
            PolicyArn = policyArn,
            RoleName = roleName,
        });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Gets the IAM password policy for an AWS account.
    /// </summary>
    /// <returns>The PasswordPolicy for the AWS account.</returns>
    public async Task<PasswordPolicy> GetAccountPasswordPolicyAsync()
    {
        var response = await _IAMService.GetAccountPasswordPolicyAsync(new GetAccountPasswordPolicyRequest());
        return response.PasswordPolicy;
    }


    /// <summary>
    /// Get information about an IAM policy.
    /// </summary>
    /// <param name="policyArn">The IAM policy to retrieve information for.</param>
    /// <returns>The IAM policy.</returns>
    public async Task<ManagedPolicy> GetPolicyAsync(string policyArn)
    {

        var response = await _IAMService.GetPolicyAsync(new GetPolicyRequest { PolicyArn = policyArn });
        return response.Policy;
    }


    /// <summary>
    /// Get information about an IAM role.
    /// </summary>
    /// <param name="roleName">The name of the IAM role to retrieve information
    /// for.</param>
    /// <returns>The IAM role that was retrieved.</returns>
    public async Task<Role> GetRoleAsync(string roleName)
    {
        var response = await _IAMService.GetRoleAsync(new GetRoleRequest
        {
            RoleName = roleName,
        });

        return response.Role;
    }


    /// <summary>
    /// Get information about an IAM user.
    /// </summary>
    /// <param name="userName">The username of the user.</param>
    /// <returns>An IAM user object.</returns>
    public async Task<User> GetUserAsync(string userName)
    {
        var response = await _IAMService.GetUserAsync(new GetUserRequest { UserName = userName });
        return response.User;
    }


    /// <summary>
    /// List the IAM role policies that are attached to an IAM role.
    /// </summary>
    /// <param name="roleName">The IAM role to list IAM policies for.</param>
    /// <returns>A list of the IAM policies attached to the IAM role.</returns>
    public async Task<List<AttachedPolicyType>> ListAttachedRolePoliciesAsync(string roleName)
    {
        var attachedPolicies = new List<AttachedPolicyType>();
        var attachedRolePoliciesPaginator = _IAMService.Paginators.ListAttachedRolePolicies(new ListAttachedRolePoliciesRequest { RoleName = roleName });

        await foreach (var response in attachedRolePoliciesPaginator.Responses)
        {
            attachedPolicies.AddRange(response.AttachedPolicies);
        }

        return attachedPolicies;
    }


    /// <summary>
    /// List IAM groups.
    /// </summary>
    /// <returns>A list of IAM groups.</returns>
    public async Task<List<Group>> ListGroupsAsync()
    {
        var groupsPaginator = _IAMService.Paginators.ListGroups(new ListGroupsRequest());
        var groups = new List<Group>();

        await foreach (var response in groupsPaginator.Responses)
        {
            groups.AddRange(response.Groups);
        }

        return groups;
    }


    /// <summary>
    /// List IAM policies.
    /// </summary>
    /// <returns>A list of the IAM policies.</returns>
    public async Task<List<ManagedPolicy>> ListPoliciesAsync()
    {
        var listPoliciesPaginator = _IAMService.Paginators.ListPolicies(new ListPoliciesRequest());
        var policies = new List<ManagedPolicy>();

        await foreach (var response in listPoliciesPaginator.Responses)
        {
            policies.AddRange(response.Policies);
        }

        return policies;
    }


    /// <summary>
    /// List IAM role policies.
    /// </summary>
    /// <param name="roleName">The IAM role for which to list IAM policies.</param>
    /// <returns>A list of IAM policy names.</returns>
    public async Task<List<string>> ListRolePoliciesAsync(string roleName)
    {
        var listRolePoliciesPaginator = _IAMService.Paginators.ListRolePolicies(new ListRolePoliciesRequest { RoleName = roleName });
        var policyNames = new List<string>();

        await foreach (var response in listRolePoliciesPaginator.Responses)
        {
            policyNames.AddRange(response.PolicyNames);
        }

        return policyNames;
    }


    /// <summary>
    /// List IAM roles.
    /// </summary>
    /// <returns>A list of IAM roles.</returns>
    public async Task<List<Role>> ListRolesAsync()
    {
        var listRolesPaginator = _IAMService.Paginators.ListRoles(new ListRolesRequest());
        var roles = new List<Role>();

        await foreach (var response in listRolesPaginator.Responses)
        {
            roles.AddRange(response.Roles);
        }

        return roles;
    }


    /// <summary>
    /// List SAML authentication providers.
    /// </summary>
    /// <returns>A list of SAML providers.</returns>
    public async Task<List<SAMLProviderListEntry>> ListSAMLProvidersAsync()
    {
        var response = await _IAMService.ListSAMLProvidersAsync(new ListSAMLProvidersRequest());
        return response.SAMLProviderList;
    }


    /// <summary>
    /// List IAM users.
    /// </summary>
    /// <returns>A list of IAM users.</returns>
    public async Task<List<User>> ListUsersAsync()
    {
        var listUsersPaginator = _IAMService.Paginators.ListUsers(new ListUsersRequest());
        var users = new List<User>();

        await foreach (var response in listUsersPaginator.Responses)
        {
            users.AddRange(response.Users);
        }

        return users;
    }


    /// <summary>
    /// Update the inline policy document embedded in a role.
    /// </summary>
    /// <param name="policyName">The name of the policy to embed.</param>
    /// <param name="roleName">The name of the role to update.</param>
    /// <param name="policyDocument">The policy document that defines the role.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> PutRolePolicyAsync(string policyName, string roleName, string policyDocument)
    {
        var request = new PutRolePolicyRequest
        {
            PolicyName = policyName,
            RoleName = roleName,
            PolicyDocument = policyDocument
        };

        var response = await _IAMService.PutRolePolicyAsync(request);
        return response.HttpStatusCode == HttpStatusCode.OK;
    }


    /// <summary>
    /// Add or update an inline policy document that is embedded in an IAM user.
    /// </summary>
    /// <param name="userName">The name of the IAM user.</param>
    /// <param name="policyName">The name of the IAM policy.</param>
    /// <param name="policyDocument">The policy document defining the IAM policy.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> PutUserPolicyAsync(string userName, string policyName, string policyDocument)
    {
        var request = new PutUserPolicyRequest
        {
            UserName = userName,
            PolicyName = policyName,
            PolicyDocument = policyDocument
        };

        var response = await _IAMService.PutUserPolicyAsync(request);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }

    /// <summary>
    /// Wait for a new access key to be ready to use.
    /// </summary>
    /// <param name="accessKeyId">The Id of the access key.</param>
    /// <returns>A boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitUntilAccessKeyIsReady(string accessKeyId)
    {
        var keyReady = false;

        do
        {
            try
            {
                var response = await _IAMService.GetAccessKeyLastUsedAsync(
                    new GetAccessKeyLastUsedRequest { AccessKeyId = accessKeyId });
                if (response.UserName is not null)
                {
                    keyReady = true;
                }
            }
            catch (NoSuchEntityException)
            {
                keyReady = false;
            }
        } while (!keyReady);

        return keyReady;
    }
}



using Microsoft.Extensions.Configuration;

namespace IAMBasics;

public class IAMBasics
{
    private static ILogger logger = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for the AWS service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonIdentityManagementService>()
            .AddTransient<IAMWrapper>()
            .AddTransient<UIWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<IAMBasics>();


        IConfiguration configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load test settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally load local settings.
            .Build();

        // Values needed for user, role, and policies.
        string userName = configuration["UserName"]!;
        string s3PolicyName = configuration["S3PolicyName"]!;
        string roleName = configuration["RoleName"]!;


        var iamWrapper = host.Services.GetRequiredService<IAMWrapper>();
        var uiWrapper = host.Services.GetRequiredService<UIWrapper>();

        uiWrapper.DisplayBasicsOverview();
        uiWrapper.PressEnter();

        // First create a user. By default, the new user has
        // no permissions.
        uiWrapper.DisplayTitle("Create User");
        Console.WriteLine($"Creating a new user with user name: {userName}.");
        var user = await iamWrapper.CreateUserAsync(userName);
        var userArn = user.Arn;

        Console.WriteLine($"Successfully created user: {userName} with ARN: {userArn}.");
        uiWrapper.WaitABit(15, "Now let's wait for the user to be ready for use.");

        // Define a role policy document that allows the new user
        // to assume the role.
        string assumeRolePolicyDocument = "{" +
          "\"Version\": \"2012-10-17\"," +
          "\"Statement\": [{" +
              "\"Effect\": \"Allow\"," +
              "\"Principal\": {" +
              $"	\"AWS\": \"{userArn}\"" +
              "}," +
              "\"Action\": \"sts:AssumeRole\"" +
          "}]" +
        "}";

        // Permissions to list all buckets.
        string policyDocument = "{" +
            "\"Version\": \"2012-10-17\"," +
            "	\"Statement\" : [{" +
                "	\"Action\" : [\"s3:ListAllMyBuckets\"]," +
                "	\"Effect\" : \"Allow\"," +
                "	\"Resource\" : \"*\"" +
            "}]" +
        "}";

        // Create an AccessKey for the user.
        uiWrapper.DisplayTitle("Create access key");
        Console.WriteLine("Now let's create an access key for the new user.");
        var accessKey = await iamWrapper.CreateAccessKeyAsync(userName);

        var accessKeyId = accessKey.AccessKeyId;
        var secretAccessKey = accessKey.SecretAccessKey;

        Console.WriteLine($"We have created the access key with Access key id: {accessKeyId}.");

        Console.WriteLine("Now let's wait until the IAM access key is ready to use.");
        var keyReady = await iamWrapper.WaitUntilAccessKeyIsReady(accessKeyId);

        // Now try listing the Amazon Simple Storage Service (Amazon S3)
        // buckets. This should fail at this point because the user doesn't
        // have permissions to perform this task.
        uiWrapper.DisplayTitle("Try to display Amazon S3 buckets");
        Console.WriteLine("Now let's try to display a list of the user's Amazon S3 buckets.");
        var s3Client1 = new AmazonS3Client(accessKeyId, secretAccessKey);
        var stsClient1 = new AmazonSecurityTokenServiceClient(accessKeyId, secretAccessKey);

        var s3Wrapper = new S3Wrapper(s3Client1, stsClient1);
        var buckets = await s3Wrapper.ListMyBucketsAsync();

        Console.WriteLine(buckets is null
            ? "As expected, the call to list the buckets has returned a null list."
            : "Something went wrong. This shouldn't have worked.");

        uiWrapper.PressEnter();

        uiWrapper.DisplayTitle("Create IAM role");
        Console.WriteLine($"Creating the role: {roleName}");

        // Creating an IAM role to allow listing the S3 buckets. A role name
        // is not case sensitive and must be unique to the account for which it
        // is created.
        var roleArn = await iamWrapper.CreateRoleAsync(roleName, assumeRolePolicyDocument);

        uiWrapper.PressEnter();

        // Create a policy with permissions to list S3 buckets.
        uiWrapper.DisplayTitle("Create IAM policy");
        Console.WriteLine($"Creating the policy: {s3PolicyName}");
        Console.WriteLine("with permissions to list the Amazon S3 buckets for the account.");
        var policy = await iamWrapper.CreatePolicyAsync(s3PolicyName, policyDocument);

        // Wait 15 seconds for the IAM policy to be available.
        uiWrapper.WaitABit(15, "Waiting for the policy to be available.");

        // Attach the policy to the role you created earlier.
        uiWrapper.DisplayTitle("Attach new IAM policy");
        Console.WriteLine("Now let's attach the policy to the role.");
        await iamWrapper.AttachRolePolicyAsync(policy.Arn, roleName);

        // Wait 15 seconds for the role to be updated.
        Console.WriteLine();
        uiWrapper.WaitABit(15, "Waiting for the policy to be attached.");

        // Use the AWS Security Token Service (AWS STS) to have the user
        // assume the role we created.
        var stsClient2 = new AmazonSecurityTokenServiceClient(accessKeyId, secretAccessKey);

        // Wait for the new credentials to become valid.
        uiWrapper.WaitABit(10, "Waiting for the credentials to be valid.");

        var assumedRoleCredentials = await s3Wrapper.AssumeS3RoleAsync("temporary-session", roleArn);

        // Try again to list the buckets using the client created with
        // the new user's credentials. This time, it should work.
        var s3Client2 = new AmazonS3Client(assumedRoleCredentials);

        s3Wrapper.UpdateClients(s3Client2, stsClient2);

        buckets = await s3Wrapper.ListMyBucketsAsync();

        uiWrapper.DisplayTitle("List Amazon S3 buckets");
        Console.WriteLine("This time we should have buckets to list.");
        if (buckets is not null)
        {
            buckets.ForEach(bucket =>
            {
                Console.WriteLine($"{bucket.BucketName} created: {bucket.CreationDate}");
            });
        }

        uiWrapper.PressEnter();

        // Now clean up all the resources used in the example.
        uiWrapper.DisplayTitle("Clean up resources");
        Console.WriteLine("Thank you for watching. The IAM Basics demo is complete.");
        Console.WriteLine("Please wait while we clean up the resources we created.");

        await iamWrapper.DetachRolePolicyAsync(policy.Arn, roleName);

        await iamWrapper.DeletePolicyAsync(policy.Arn);

        await iamWrapper.DeleteRoleAsync(roleName);

        await iamWrapper.DeleteAccessKeyAsync(accessKeyId, userName);

        await iamWrapper.DeleteUserAsync(userName);

        uiWrapper.PressEnter();

        Console.WriteLine("All done cleaning up our resources. Thank you for your patience.");
    }
}


namespace IamScenariosCommon;

using System.Net;

/// <summary>
/// A class to perform Amazon Simple Storage Service (Amazon S3) actions for
/// the IAM Basics scenario.
/// </summary>
public class S3Wrapper
{
    private IAmazonS3 _s3Service;
    private IAmazonSecurityTokenService _stsService;

    /// <summary>
    /// Constructor for the S3Wrapper class.
    /// </summary>
    /// <param name="s3Service">An Amazon S3 client object.</param>
    /// <param name="stsService">An AWS Security Token Service (AWS STS)
    /// client object.</param>
    public S3Wrapper(IAmazonS3 s3Service, IAmazonSecurityTokenService stsService)
    {
        _s3Service = s3Service;
        _stsService = stsService;
    }

    /// <summary>
    /// Assumes an AWS Identity and Access Management (IAM) role that allows
    /// Amazon S3 access for the current session.
    /// </summary>
    /// <param name="roleSession">A string representing the current session.</param>
    /// <param name="roleToAssume">The name of the IAM role to assume.</param>
    /// <returns>Credentials for the newly assumed IAM role.</returns>
    public async Task<Credentials> AssumeS3RoleAsync(string roleSession, string roleToAssume)
    {
        // Create the request to use with the AssumeRoleAsync call.
        var request = new AssumeRoleRequest()
        {
            RoleSessionName = roleSession,
            RoleArn = roleToAssume,
        };

        var response = await _stsService.AssumeRoleAsync(request);

        return response.Credentials;
    }


    /// <summary>
    /// Delete an S3 bucket.
    /// </summary>
    /// <param name="bucketName">Name of the S3 bucket to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteBucketAsync(string bucketName)
    {
        var result = await _s3Service.DeleteBucketAsync(new DeleteBucketRequest { BucketName = bucketName });
        return result.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// List the buckets that are owned by the user's account.
    /// </summary>
    /// <returns>Async Task.</returns>
    public async Task<List<S3Bucket>?> ListMyBucketsAsync()
    {
        try
        {
            // Get the list of buckets accessible by the new user.
            var response = await _s3Service.ListBucketsAsync();

            return response.Buckets;
        }
        catch (AmazonS3Exception ex)
        {
            // Something else went wrong. Display the error message.
            Console.WriteLine($"Error: {ex.Message}");
            return null;
        }
    }

    /// <summary>
    /// Create a new S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name for the new bucket.</param>
    /// <returns>A Boolean value indicating whether the action completed
    /// successfully.</returns>
    public async Task<bool> PutBucketAsync(string bucketName)
    {
        var response = await _s3Service.PutBucketAsync(new PutBucketRequest { BucketName = bucketName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Update the client objects with new client objects. This is available
    /// because the scenario uses the methods of this class without and then
    /// with the proper permissions to list S3 buckets.
    /// </summary>
    /// <param name="s3Service">The Amazon S3 client object.</param>
    /// <param name="stsService">The AWS STS client object.</param>
    public void UpdateClients(IAmazonS3 s3Service, IAmazonSecurityTokenService stsService)
    {
        _s3Service = s3Service;
        _stsService = stsService;
    }
}


namespace IamScenariosCommon;

public class UIWrapper
{
    public readonly string SepBar = new('-', Console.WindowWidth);

    /// <summary>
    /// Show information about the IAM Groups scenario.
    /// </summary>
    public void DisplayGroupsOverview()
    {
        Console.Clear();

        DisplayTitle("Welcome to the IAM Groups Demo");
        Console.WriteLine("This example application does the following:");
        Console.WriteLine("\t1. Creates an Amazon Identity and Access Management (IAM) group.");
        Console.WriteLine("\t2. Adds an IAM policy to the IAM group giving it full access to Amazon S3.");
        Console.WriteLine("\t3. Creates a new IAM user.");
        Console.WriteLine("\t4. Creates an IAM access key for the user.");
        Console.WriteLine("\t5. Adds the user to the IAM group.");
        Console.WriteLine("\t6. Lists the buckets on the account.");
        Console.WriteLine("\t7. Proves that the user has full Amazon S3 access by creating a bucket.");
        Console.WriteLine("\t8. List the buckets again to show the new bucket.");
        Console.WriteLine("\t9. Cleans up all the resources created.");
    }

    /// <summary>
    /// Show information about the IAM Basics scenario.
    /// </summary>
    public void DisplayBasicsOverview()
    {
        Console.Clear();

        DisplayTitle("Welcome to IAM Basics");
        Console.WriteLine("This example application does the following:");
        Console.WriteLine("\t1. Creates a user with no permissions.");
        Console.WriteLine("\t2. Creates a role and policy that grant s3:ListAllMyBuckets permission.");
        Console.WriteLine("\t3. Grants the user permission to assume the role.");
        Console.WriteLine("\t4. Creates an S3 client object as the user and tries to list buckets (this will fail).");
        Console.WriteLine("\t5. Gets temporary credentials by assuming the role.");
        Console.WriteLine("\t6. Creates a new S3 client object with the temporary credentials and lists the buckets (this will succeed).");
        Console.WriteLine("\t7. Deletes all the resources.");
    }

    /// <summary>
    /// Display a message and wait until the user presses enter.
    /// </summary>
    public void PressEnter()
    {
        Console.Write("\nPress <Enter> to continue. ");
        _ = Console.ReadLine();
        Console.WriteLine();
    }

    /// <summary>
    /// Pad a string with spaces to center it on the console display.
    /// </summary>
    /// <param name="strToCenter">The string to be centered.</param>
    /// <returns>The padded string.</returns>
    public string CenterString(string strToCenter)
    {
        var padAmount = (Console.WindowWidth - strToCenter.Length) / 2;
        var leftPad = new string(' ', padAmount);
        return $"{leftPad}{strToCenter}";
    }

    /// <summary>
    /// Display a line of hyphens, the centered text of the title, and another
    /// line of hyphens.
    /// </summary>
    /// <param name="strTitle">The string to be displayed.</param>
    public void DisplayTitle(string strTitle)
    {
        Console.WriteLine(SepBar);
        Console.WriteLine(CenterString(strTitle));
        Console.WriteLine(SepBar);
    }

    /// <summary>
    /// Display a countdown and wait for a number of seconds.
    /// </summary>
    /// <param name="numSeconds">The number of seconds to wait.</param>
    public void WaitABit(int numSeconds, string msg)
    {
        Console.WriteLine(msg);

        // Wait for the requested number of seconds.
        for (int i = numSeconds; i > 0; i--)
        {
            System.Threading.Thread.Sleep(1000);
            Console.Write($"{i}...");
        }

        PressEnter();
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/AttachRolePolicy)
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateAccessKey)
  + [CreatePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreatePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateRole)
  + [CreateUser](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateUser)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteAccessKey)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeletePolicy)
  + [DeleteRole](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteRole)
  + [DeleteUser](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteUser)
  + [DeleteUserPolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteUserPolicy)
  + [DetachRolePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DetachRolePolicy)
  + [PutUserPolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/PutUserPolicy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Attach an IAM policy to a role.
    /// </summary>
    /// <param name="policyArn">The policy to attach.</param>
    /// <param name="roleName">The role that the policy will be attached to.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> AttachRolePolicyAsync(string policyArn, string roleName)
    {
        var response = await _IAMService.AttachRolePolicyAsync(new AttachRolePolicyRequest
        {
            PolicyArn = policyArn,
            RoleName = roleName,
        });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/AttachRolePolicy)di *Referensi AWS SDK untuk .NET API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Create an IAM access key for a user.
    /// </summary>
    /// <param name="userName">The username for which to create the IAM access
    /// key.</param>
    /// <returns>The AccessKey.</returns>
    public async Task<AccessKey> CreateAccessKeyAsync(string userName)
    {
        var response = await _IAMService.CreateAccessKeyAsync(new CreateAccessKeyRequest
        {
            UserName = userName,
        });

        return response.AccessKey;

    }
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateAccessKey)di *Referensi AWS SDK untuk .NET API*. 

### `CreateInstanceProfile`
<a name="iam_CreateInstanceProfile_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateInstanceProfile`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Create a policy, role, and profile that is associated with instances with a specified name.
    /// An instance's associated profile defines a role that is assumed by the
    /// instance.The role has attached policies that specify the AWS permissions granted to
    /// clients that run on the instance.
    /// </summary>
    /// <param name="policyName">Name to use for the policy.</param>
    /// <param name="roleName">Name to use for the role.</param>
    /// <param name="profileName">Name to use for the profile.</param>
    /// <param name="ssmOnlyPolicyFile">Path to a policy file for SSM.</param>
    /// <param name="awsManagedPolicies">AWS Managed policies to be attached to the role.</param>
    /// <returns>The Arn of the profile.</returns>
    public async Task<string> CreateInstanceProfileWithName(
        string policyName,
        string roleName,
        string profileName,
        string ssmOnlyPolicyFile,
        List<string>? awsManagedPolicies = null)
    {

        var assumeRoleDoc = "{" +
                                   "\"Version\": \"2012-10-17\"," +
                                   "\"Statement\": [{" +
                                        "\"Effect\": \"Allow\"," +
                                        "\"Principal\": {" +
                                        "\"Service\": [" +
                                            "\"ec2.amazonaws.com\"" +
                                        "]" +
                                        "}," +
                                   "\"Action\": \"sts:AssumeRole\"" +
                                   "}]" +
                               "}";

        var policyDocument = await File.ReadAllTextAsync(ssmOnlyPolicyFile);

        var policyArn = "";

        try
        {
            var createPolicyResult = await _amazonIam.CreatePolicyAsync(
                new CreatePolicyRequest
                {
                    PolicyName = policyName,
                    PolicyDocument = policyDocument
                });
            policyArn = createPolicyResult.Policy.Arn;
        }
        catch (EntityAlreadyExistsException)
        {
            // The policy already exists, so we look it up to get the Arn.
            var policiesPaginator = _amazonIam.Paginators.ListPolicies(
                new ListPoliciesRequest()
                {
                    Scope = PolicyScopeType.Local
                });
            // Get the entire list using the paginator.
            await foreach (var policy in policiesPaginator.Policies)
            {
                if (policy.PolicyName.Equals(policyName))
                {
                    policyArn = policy.Arn;
                }
            }

            if (policyArn == null)
            {
                throw new InvalidOperationException("Policy not found");
            }
        }

        try
        {
            await _amazonIam.CreateRoleAsync(new CreateRoleRequest()
            {
                RoleName = roleName,
                AssumeRolePolicyDocument = assumeRoleDoc,
            });
            await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
            {
                RoleName = roleName,
                PolicyArn = policyArn
            });
            if (awsManagedPolicies != null)
            {
                foreach (var awsPolicy in awsManagedPolicies)
                {
                    await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
                    {
                        PolicyArn = $"arn:aws:iam::aws:policy/{awsPolicy}",
                        RoleName = roleName
                    });
                }
            }
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Role already exists.");
        }

        string profileArn = "";
        try
        {
            var profileCreateResponse = await _amazonIam.CreateInstanceProfileAsync(
                new CreateInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            // Allow time for the profile to be ready.
            profileArn = profileCreateResponse.InstanceProfile.Arn;
            Thread.Sleep(10000);
            await _amazonIam.AddRoleToInstanceProfileAsync(
                new AddRoleToInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });

        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Policy already exists.");
            var profileGetResponse = await _amazonIam.GetInstanceProfileAsync(
                new GetInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            profileArn = profileGetResponse.InstanceProfile.Arn;
        }
        return profileArn;
    }
```
+  Untuk detail API, lihat [CreateInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateInstanceProfile)di *Referensi AWS SDK untuk .NET API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Create an IAM policy.
    /// </summary>
    /// <param name="policyName">The name to give the new IAM policy.</param>
    /// <param name="policyDocument">The policy document for the new policy.</param>
    /// <returns>The new IAM policy object.</returns>
    public async Task<ManagedPolicy> CreatePolicyAsync(string policyName, string policyDocument)
    {
        var response = await _IAMService.CreatePolicyAsync(new CreatePolicyRequest
        {
            PolicyDocument = policyDocument,
            PolicyName = policyName,
        });

        return response.Policy;
    }
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreatePolicy)di *Referensi AWS SDK untuk .NET API*. 

### `CreateRole`
<a name="iam_CreateRole_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Create a new IAM role.
    /// </summary>
    /// <param name="roleName">The name of the IAM role.</param>
    /// <param name="rolePolicyDocument">The name of the IAM policy document
    /// for the new role.</param>
    /// <returns>The Amazon Resource Name (ARN) of the role.</returns>
    public async Task<string> CreateRoleAsync(string roleName, string rolePolicyDocument)
    {
        var request = new CreateRoleRequest
        {
            RoleName = roleName,
            AssumeRolePolicyDocument = rolePolicyDocument,
        };

        var response = await _IAMService.CreateRoleAsync(request);
        return response.Role.Arn;
    }
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateRole)di *Referensi AWS SDK untuk .NET API*. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Create an IAM service-linked role.
    /// </summary>
    /// <param name="serviceName">The name of the AWS Service.</param>
    /// <param name="description">A description of the IAM service-linked role.</param>
    /// <returns>The IAM role that was created.</returns>
    public async Task<Role> CreateServiceLinkedRoleAsync(string serviceName, string description)
    {
        var request = new CreateServiceLinkedRoleRequest
        {
            AWSServiceName = serviceName,
            Description = description
        };

        var response = await _IAMService.CreateServiceLinkedRoleAsync(request);
        return response.Role;
    }
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateServiceLinkedRole)di *Referensi AWS SDK untuk .NET API*. 

### `CreateUser`
<a name="iam_CreateUser_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Create an IAM user.
    /// </summary>
    /// <param name="userName">The username for the new IAM user.</param>
    /// <returns>The IAM user that was created.</returns>
    public async Task<User> CreateUserAsync(string userName)
    {
        var response = await _IAMService.CreateUserAsync(new CreateUserRequest { UserName = userName });
        return response.User;
    }
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateUser)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Delete an IAM user's access key.
    /// </summary>
    /// <param name="accessKeyId">The Id for the IAM access key.</param>
    /// <param name="userName">The username of the user that owns the IAM
    /// access key.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteAccessKeyAsync(string accessKeyId, string userName)
    {
        var response = await _IAMService.DeleteAccessKeyAsync(new DeleteAccessKeyRequest
        {
            AccessKeyId = accessKeyId,
            UserName = userName,
        });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteAccessKey)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteInstanceProfile`
<a name="iam_DeleteInstanceProfile_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteInstanceProfile`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). 

```
    /// <summary>
    /// Detaches a role from an instance profile, detaches policies from the role,
    /// and deletes all the resources.
    /// </summary>
    /// <param name="profileName">The name of the profile to delete.</param>
    /// <param name="roleName">The name of the role to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteInstanceProfile(string profileName, string roleName)
    {
        try
        {
            await _amazonIam.RemoveRoleFromInstanceProfileAsync(
                new RemoveRoleFromInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });
            await _amazonIam.DeleteInstanceProfileAsync(
                new DeleteInstanceProfileRequest() { InstanceProfileName = profileName });
            var attachedPolicies = await _amazonIam.ListAttachedRolePoliciesAsync(
                new ListAttachedRolePoliciesRequest() { RoleName = roleName });
            foreach (var policy in attachedPolicies.AttachedPolicies)
            {
                await _amazonIam.DetachRolePolicyAsync(
                    new DetachRolePolicyRequest()
                    {
                        RoleName = roleName,
                        PolicyArn = policy.PolicyArn
                    });
                // Delete the custom policies only.
                if (!policy.PolicyArn.StartsWith("arn:aws:iam::aws"))
                {
                    await _amazonIam.DeletePolicyAsync(
                        new Amazon.IdentityManagement.Model.DeletePolicyRequest()
                        {
                            PolicyArn = policy.PolicyArn
                        });
                }
            }

            await _amazonIam.DeleteRoleAsync(
                new DeleteRoleRequest() { RoleName = roleName });
        }
        catch (NoSuchEntityException)
        {
            Console.WriteLine($"Instance profile {profileName} does not exist.");
        }
    }
```
+  Untuk detail API, lihat [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteInstanceProfile)di *Referensi AWS SDK untuk .NET API*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Delete an IAM policy.
    /// </summary>
    /// <param name="policyArn">The Amazon Resource Name (ARN) of the policy to
    /// delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeletePolicyAsync(string policyArn)
    {
        var response = await _IAMService.DeletePolicyAsync(new DeletePolicyRequest { PolicyArn = policyArn });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeletePolicy)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteRole`
<a name="iam_DeleteRole_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Delete an IAM role.
    /// </summary>
    /// <param name="roleName">The name of the IAM role to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteRoleAsync(string roleName)
    {
        var response = await _IAMService.DeleteRoleAsync(new DeleteRoleRequest { RoleName = roleName });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteRole](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteRole)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteRolePolicy`
<a name="iam_DeleteRolePolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRolePolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Delete an IAM role policy.
    /// </summary>
    /// <param name="roleName">The name of the IAM role.</param>
    /// <param name="policyName">The name of the IAM role policy to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteRolePolicyAsync(string roleName, string policyName)
    {
        var response = await _IAMService.DeleteRolePolicyAsync(new DeleteRolePolicyRequest
        {
            PolicyName = policyName,
            RoleName = roleName,
        });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteRolePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteRolePolicy)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteUser`
<a name="iam_DeleteUser_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Delete an IAM user.
    /// </summary>
    /// <param name="userName">The username of the IAM user to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteUserAsync(string userName)
    {
        var response = await _IAMService.DeleteUserAsync(new DeleteUserRequest { UserName = userName });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteUser)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteUserPolicy`
<a name="iam_DeleteUserPolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUserPolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Delete an IAM user policy.
    /// </summary>
    /// <param name="policyName">The name of the IAM policy to delete.</param>
    /// <param name="userName">The username of the IAM user.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteUserPolicyAsync(string policyName, string userName)
    {
        var response = await _IAMService.DeleteUserPolicyAsync(new DeleteUserPolicyRequest { PolicyName = policyName, UserName = userName });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteUserPolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteUserPolicy)di *Referensi AWS SDK untuk .NET API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Detach an IAM policy from an IAM role.
    /// </summary>
    /// <param name="policyArn">The Amazon Resource Name (ARN) of the IAM policy.</param>
    /// <param name="roleName">The name of the IAM role.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DetachRolePolicyAsync(string policyArn, string roleName)
    {
        var response = await _IAMService.DetachRolePolicyAsync(new DetachRolePolicyRequest
        {
            PolicyArn = policyArn,
            RoleName = roleName,
        });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DetachRolePolicy)di *Referensi AWS SDK untuk .NET API*. 

### `GetAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountPasswordPolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Gets the IAM password policy for an AWS account.
    /// </summary>
    /// <returns>The PasswordPolicy for the AWS account.</returns>
    public async Task<PasswordPolicy> GetAccountPasswordPolicyAsync()
    {
        var response = await _IAMService.GetAccountPasswordPolicyAsync(new GetAccountPasswordPolicyRequest());
        return response.PasswordPolicy;
    }
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/GetAccountPasswordPolicy)di *Referensi AWS SDK untuk .NET API*. 

### `GetPolicy`
<a name="iam_GetPolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Get information about an IAM policy.
    /// </summary>
    /// <param name="policyArn">The IAM policy to retrieve information for.</param>
    /// <returns>The IAM policy.</returns>
    public async Task<ManagedPolicy> GetPolicyAsync(string policyArn)
    {

        var response = await _IAMService.GetPolicyAsync(new GetPolicyRequest { PolicyArn = policyArn });
        return response.Policy;
    }
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/GetPolicy)di *Referensi AWS SDK untuk .NET API*. 

### `GetRole`
<a name="iam_GetRole_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Get information about an IAM role.
    /// </summary>
    /// <param name="roleName">The name of the IAM role to retrieve information
    /// for.</param>
    /// <returns>The IAM role that was retrieved.</returns>
    public async Task<Role> GetRoleAsync(string roleName)
    {
        var response = await _IAMService.GetRoleAsync(new GetRoleRequest
        {
            RoleName = roleName,
        });

        return response.Role;
    }
```
+  Untuk detail API, lihat [GetRole](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/GetRole)di *Referensi AWS SDK untuk .NET API*. 

### `GetUser`
<a name="iam_GetUser_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetUser`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Get information about an IAM user.
    /// </summary>
    /// <param name="userName">The username of the user.</param>
    /// <returns>An IAM user object.</returns>
    public async Task<User> GetUserAsync(string userName)
    {
        var response = await _IAMService.GetUserAsync(new GetUserRequest { UserName = userName });
        return response.User;
    }
```
+  Untuk detail API, lihat [GetUser](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/GetUser)di *Referensi AWS SDK untuk .NET API*. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// List the IAM role policies that are attached to an IAM role.
    /// </summary>
    /// <param name="roleName">The IAM role to list IAM policies for.</param>
    /// <returns>A list of the IAM policies attached to the IAM role.</returns>
    public async Task<List<AttachedPolicyType>> ListAttachedRolePoliciesAsync(string roleName)
    {
        var attachedPolicies = new List<AttachedPolicyType>();
        var attachedRolePoliciesPaginator = _IAMService.Paginators.ListAttachedRolePolicies(new ListAttachedRolePoliciesRequest { RoleName = roleName });

        await foreach (var response in attachedRolePoliciesPaginator.Responses)
        {
            attachedPolicies.AddRange(response.AttachedPolicies);
        }

        return attachedPolicies;
    }
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/ListAttachedRolePolicies)di *Referensi AWS SDK untuk .NET API*. 

### `ListGroups`
<a name="iam_ListGroups_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// List IAM groups.
    /// </summary>
    /// <returns>A list of IAM groups.</returns>
    public async Task<List<Group>> ListGroupsAsync()
    {
        var groupsPaginator = _IAMService.Paginators.ListGroups(new ListGroupsRequest());
        var groups = new List<Group>();

        await foreach (var response in groupsPaginator.Responses)
        {
            groups.AddRange(response.Groups);
        }

        return groups;
    }
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/ListGroups)di *Referensi AWS SDK untuk .NET API*. 

### `ListPolicies`
<a name="iam_ListPolicies_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// List IAM policies.
    /// </summary>
    /// <returns>A list of the IAM policies.</returns>
    public async Task<List<ManagedPolicy>> ListPoliciesAsync()
    {
        var listPoliciesPaginator = _IAMService.Paginators.ListPolicies(new ListPoliciesRequest());
        var policies = new List<ManagedPolicy>();

        await foreach (var response in listPoliciesPaginator.Responses)
        {
            policies.AddRange(response.Policies);
        }

        return policies;
    }
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/ListPolicies)di *Referensi AWS SDK untuk .NET API*. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// List IAM role policies.
    /// </summary>
    /// <param name="roleName">The IAM role for which to list IAM policies.</param>
    /// <returns>A list of IAM policy names.</returns>
    public async Task<List<string>> ListRolePoliciesAsync(string roleName)
    {
        var listRolePoliciesPaginator = _IAMService.Paginators.ListRolePolicies(new ListRolePoliciesRequest { RoleName = roleName });
        var policyNames = new List<string>();

        await foreach (var response in listRolePoliciesPaginator.Responses)
        {
            policyNames.AddRange(response.PolicyNames);
        }

        return policyNames;
    }
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/ListRolePolicies)di *Referensi AWS SDK untuk .NET API*. 

### `ListRoles`
<a name="iam_ListRoles_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// List IAM roles.
    /// </summary>
    /// <returns>A list of IAM roles.</returns>
    public async Task<List<Role>> ListRolesAsync()
    {
        var listRolesPaginator = _IAMService.Paginators.ListRoles(new ListRolesRequest());
        var roles = new List<Role>();

        await foreach (var response in listRolesPaginator.Responses)
        {
            roles.AddRange(response.Roles);
        }

        return roles;
    }
```
+  Untuk detail API, lihat [ListRoles](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/ListRoles)di *Referensi AWS SDK untuk .NET API*. 

### `ListSAMLProviders`
<a name="iam_ListSAMLProviders_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSAMLProviders`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// List SAML authentication providers.
    /// </summary>
    /// <returns>A list of SAML providers.</returns>
    public async Task<List<SAMLProviderListEntry>> ListSAMLProvidersAsync()
    {
        var response = await _IAMService.ListSAMLProvidersAsync(new ListSAMLProvidersRequest());
        return response.SAMLProviderList;
    }
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/ListSAMLProviders) di *Referensi AWS SDK untuk .NET API*. 

### `ListUsers`
<a name="iam_ListUsers_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// List IAM users.
    /// </summary>
    /// <returns>A list of IAM users.</returns>
    public async Task<List<User>> ListUsersAsync()
    {
        var listUsersPaginator = _IAMService.Paginators.ListUsers(new ListUsersRequest());
        var users = new List<User>();

        await foreach (var response in listUsersPaginator.Responses)
        {
            users.AddRange(response.Users);
        }

        return users;
    }
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/ListUsers)di *Referensi AWS SDK untuk .NET API*. 

### `PutRolePolicy`
<a name="iam_PutRolePolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRolePolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/IAM#code-examples). 

```
    /// <summary>
    /// Update the inline policy document embedded in a role.
    /// </summary>
    /// <param name="policyName">The name of the policy to embed.</param>
    /// <param name="roleName">The name of the role to update.</param>
    /// <param name="policyDocument">The policy document that defines the role.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> PutRolePolicyAsync(string policyName, string roleName, string policyDocument)
    {
        var request = new PutRolePolicyRequest
        {
            PolicyName = policyName,
            RoleName = roleName,
            PolicyDocument = policyDocument
        };

        var response = await _IAMService.PutRolePolicyAsync(request);
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [PutRolePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/PutRolePolicy)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
    static async Task Main(string[] args)
    {
        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();


        // Set up dependency injection for the AWS services.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonIdentityManagementService>()
                    .AddAWSService<IAmazonDynamoDB>()
                    .AddAWSService<IAmazonElasticLoadBalancingV2>()
                    .AddAWSService<IAmazonSimpleSystemsManagement>()
                    .AddAWSService<IAmazonAutoScaling>()
                    .AddAWSService<IAmazonEC2>()
                    .AddTransient<AutoScalerWrapper>()
                    .AddTransient<ElasticLoadBalancerWrapper>()
                    .AddTransient<SmParameterWrapper>()
                    .AddTransient<Recommendations>()
                    .AddSingleton<IConfiguration>(_configuration)
            )
            .Build();

        ServicesSetup(host);
        ResourcesSetup();

        try
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Welcome to the Resilient Architecture Example Scenario.");
            Console.WriteLine(new string('-', 80));
            await Deploy(true);

            Console.WriteLine("Now let's begin the scenario.");
            Console.WriteLine(new string('-', 80));
            await Demo(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Finally, let's clean up our resources.");
            Console.WriteLine(new string('-', 80));

            await DestroyResources(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Resilient Architecture Example Scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            await DestroyResources(true);
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Setup any common resources, also used for integration testing.
    /// </summary>
    public static void ResourcesSetup()
    {
        _httpClient = new HttpClient();
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _elasticLoadBalancerWrapper = host.Services.GetRequiredService<ElasticLoadBalancerWrapper>();
        _iamClient = host.Services.GetRequiredService<IAmazonIdentityManagementService>();
        _recommendations = host.Services.GetRequiredService<Recommendations>();
        _autoScalerWrapper = host.Services.GetRequiredService<AutoScalerWrapper>();
        _smParameterWrapper = host.Services.GetRequiredService<SmParameterWrapper>();
    }

    /// <summary>
    /// Deploy necessary resources for the scenario.
    /// </summary>
    /// <param name="interactive">True to run as interactive.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> Deploy(bool interactive)
    {
        var protocol = "HTTP";
        var port = 80;
        var sshPort = 22;

        Console.WriteLine(
            "\nFor this demo, we'll use the AWS SDK for .NET to create several AWS resources\n" +
            "to set up a load-balanced web service endpoint and explore some ways to make it resilient\n" +
            "against various kinds of failures.\n\n" +
            "Some of the resources create by this demo are:\n");

        Console.WriteLine(
            "\t* A DynamoDB table that the web service depends on to provide book, movie, and song recommendations.");
        Console.WriteLine(
            "\t* An EC2 launch template that defines EC2 instances that each contain a Python web server.");
        Console.WriteLine(
            "\t* An EC2 Auto Scaling group that manages EC2 instances across several Availability Zones.");
        Console.WriteLine(
            "\t* An Elastic Load Balancing (ELB) load balancer that targets the Auto Scaling group to distribute requests.");
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to start deploying resources.");
        if (interactive)
            Console.ReadLine();

        // Create and populate the DynamoDB table.
        var databaseTableName = _configuration["databaseName"];
        var recommendationsPath = Path.Join(_configuration["resourcePath"],
            "recommendations_objects.json");
        Console.WriteLine($"Creating and populating a DynamoDB table named {databaseTableName}.");
        await _recommendations.CreateDatabaseWithName(databaseTableName);
        await _recommendations.PopulateDatabase(databaseTableName, recommendationsPath);
        Console.WriteLine(new string('-', 80));

        // Create the EC2 Launch Template.

        Console.WriteLine(
            $"Creating an EC2 launch template that runs 'server_startup_script.sh' when an instance starts.\n"
            + "\nThis script starts a Python web server defined in the `server.py` script. The web server\n"
            + "listens to HTTP requests on port 80 and responds to requests to '/' and to '/healthcheck'.\n"
            + "For demo purposes, this server is run as the root user. In production, the best practice is to\n"
            + "run a web server, such as Apache, with least-privileged credentials.");
        Console.WriteLine(
            "\nThe template also defines an IAM policy that each instance uses to assume a role that grants\n"
            + "permissions to access the DynamoDB recommendation table and Systems Manager parameters\n"
            + "that control the flow of the demo.");

        var startupScriptPath = Path.Join(_configuration["resourcePath"],
            "server_startup_script.sh");
        var instancePolicyPath = Path.Join(_configuration["resourcePath"],
            "instance_policy.json");
        await _autoScalerWrapper.CreateTemplate(startupScriptPath, instancePolicyPath);
        Console.WriteLine(new string('-', 80));

        Console.WriteLine(
            "Creating an EC2 Auto Scaling group that maintains three EC2 instances, each in a different\n"
            + "Availability Zone.\n");
        var zones = await _autoScalerWrapper.DescribeAvailabilityZones();
        await _autoScalerWrapper.CreateGroupOfSize(3, _autoScalerWrapper.GroupName, zones);
        Console.WriteLine(new string('-', 80));

        Console.WriteLine(
            "At this point, you have EC2 instances created. Once each instance starts, it listens for\n"
            + "HTTP requests. You can see these instances in the console or continue with the demo.\n");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to continue.");
        if (interactive)
            Console.ReadLine();

        Console.WriteLine("Creating variables that control the flow of the demo.");
        await _smParameterWrapper.Reset();

        Console.WriteLine(
            "\nCreating an Elastic Load Balancing target group and load balancer. The target group\n"
            + "defines how the load balancer connects to instances. The load balancer provides a\n"
            + "single endpoint where clients connect and dispatches requests to instances in the group.");

        var defaultVpc = await _autoScalerWrapper.GetDefaultVpc();
        var subnets = await _autoScalerWrapper.GetAllVpcSubnetsForZones(defaultVpc.VpcId, zones);
        var subnetIds = subnets.Select(s => s.SubnetId).ToList();
        var targetGroup = await _elasticLoadBalancerWrapper.CreateTargetGroupOnVpc(_elasticLoadBalancerWrapper.TargetGroupName, protocol, port, defaultVpc.VpcId);

        await _elasticLoadBalancerWrapper.CreateLoadBalancerAndListener(_elasticLoadBalancerWrapper.LoadBalancerName, subnetIds, targetGroup);
        await _autoScalerWrapper.AttachLoadBalancerToGroup(_autoScalerWrapper.GroupName, targetGroup.TargetGroupArn);
        Console.WriteLine("\nVerifying access to the load balancer endpoint...");
        var endPoint = await _elasticLoadBalancerWrapper.GetEndpointForLoadBalancerByName(_elasticLoadBalancerWrapper.LoadBalancerName);
        var loadBalancerAccess = await _elasticLoadBalancerWrapper.VerifyLoadBalancerEndpoint(endPoint);

        if (!loadBalancerAccess)
        {
            Console.WriteLine("\nCouldn't connect to the load balancer, verifying that the port is open...");

            var ipString = await _httpClient.GetStringAsync("https://checkip.amazonaws.com");
            ipString = ipString.Trim();

            var defaultSecurityGroup = await _autoScalerWrapper.GetDefaultSecurityGroupForVpc(defaultVpc);
            var portIsOpen = _autoScalerWrapper.VerifyInboundPortForGroup(defaultSecurityGroup, port, ipString);
            var sshPortIsOpen = _autoScalerWrapper.VerifyInboundPortForGroup(defaultSecurityGroup, sshPort, ipString);

            if (!portIsOpen)
            {
                Console.WriteLine(
                    "\nFor this example to work, the default security group for your default VPC must\n"
                    + "allows access from this computer. You can either add it automatically from this\n"
                    + "example or add it yourself using the AWS Management Console.\n");

                if (!interactive || GetYesNoResponse(
                        "Do you want to add a rule to the security group to allow inbound traffic from your computer's IP address?"))
                {
                    await _autoScalerWrapper.OpenInboundPort(defaultSecurityGroup.GroupId, port, ipString);
                }
            }

            if (!sshPortIsOpen)
            {
                if (!interactive || GetYesNoResponse(
                        "Do you want to add a rule to the security group to allow inbound SSH traffic for debugging from your computer's IP address?"))
                {
                    await _autoScalerWrapper.OpenInboundPort(defaultSecurityGroup.GroupId, sshPort, ipString);
                }
            }
            loadBalancerAccess = await _elasticLoadBalancerWrapper.VerifyLoadBalancerEndpoint(endPoint);
        }

        if (loadBalancerAccess)
        {
            Console.WriteLine("Your load balancer is ready. You can access it by browsing to:");
            Console.WriteLine($"\thttp://{endPoint}\n");
        }
        else
        {
            Console.WriteLine(
                "\nCouldn't get a successful response from the load balancer endpoint. Troubleshoot by\n"
                + "manually verifying that your VPC and security group are configured correctly and that\n"
                + "you can successfully make a GET request to the load balancer endpoint:\n");
            Console.WriteLine($"\thttp://{endPoint}\n");
        }
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you're ready to continue with the demo.");
        if (interactive)
            Console.ReadLine();
        return true;
    }

    /// <summary>
    /// Demonstrate the steps of the scenario.
    /// </summary>
    /// <param name="interactive">True to run as an interactive scenario.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> Demo(bool interactive)
    {
        var ssmOnlyPolicy = Path.Join(_configuration["resourcePath"],
            "ssm_only_policy.json");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Resetting parameters to starting values for demo.");
        await _smParameterWrapper.Reset();

        Console.WriteLine("\nThis part of the demonstration shows how to toggle different parts of the system\n" +
                          "to create situations where the web service fails, and shows how using a resilient\n" +
                          "architecture can keep the web service running in spite of these failures.");
        Console.WriteLine(new string('-', 88));
        Console.WriteLine("At the start, the load balancer endpoint returns recommendations and reports that all targets are healthy.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine($"The web service running on the EC2 instances gets recommendations by querying a DynamoDB table.\n" +
                          $"The table name is contained in a Systems Manager parameter named '{_smParameterWrapper.TableParameter}'.\n" +
                          $"To simulate a failure of the recommendation service, let's set this parameter to name a non-existent table.\n");
        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, "this-is-not-a-table");
        Console.WriteLine("\nNow, sending a GET request to the load balancer endpoint returns a failure code. But, the service reports as\n" +
                          "healthy to the load balancer because shallow health checks don't check for failure of the recommendation service.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("Instead of failing when the recommendation service fails, the web service can return a static response.");
        Console.WriteLine("While this is not a perfect solution, it presents the customer with a somewhat better experience than failure.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.FailureResponseParameter, "static");

        Console.WriteLine("\nNow, sending a GET request to the load balancer endpoint returns a static response.");
        Console.WriteLine("The service still reports as healthy because health checks are still shallow.");
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("Let's reinstate the recommendation service.\n");
        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, _smParameterWrapper.TableName);
        Console.WriteLine(
            "\nLet's also substitute bad credentials for one of the instances in the target group so that it can't\n" +
            "access the DynamoDB recommendation table.\n"
        );
        await _autoScalerWrapper.CreateInstanceProfileWithName(
            _autoScalerWrapper.BadCredsPolicyName,
            _autoScalerWrapper.BadCredsRoleName,
            _autoScalerWrapper.BadCredsProfileName,
            ssmOnlyPolicy,
            new List<string> { "AmazonSSMManagedInstanceCore" }
        );
        var instances = await _autoScalerWrapper.GetInstancesByGroupName(_autoScalerWrapper.GroupName);
        var badInstanceId = instances.First();
        var instanceProfile = await _autoScalerWrapper.GetInstanceProfile(badInstanceId);
        Console.WriteLine(
            $"Replacing the profile for instance {badInstanceId} with a profile that contains\n" +
            "bad credentials...\n"
        );
        await _autoScalerWrapper.ReplaceInstanceProfile(
            badInstanceId,
            _autoScalerWrapper.BadCredsProfileName,
            instanceProfile.AssociationId
        );
        Console.WriteLine(
            "Now, sending a GET request to the load balancer endpoint returns either a recommendation or a static response,\n" +
            "depending on which instance is selected by the load balancer.\n"
        );
        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nLet's implement a deep health check. For this demo, a deep health check tests whether");
        Console.WriteLine("the web service can access the DynamoDB table that it depends on for recommendations. Note that");
        Console.WriteLine("the deep health check is only for ELB routing and not for Auto Scaling instance health.");
        Console.WriteLine("This kind of deep health check is not recommended for Auto Scaling instance health, because it");
        Console.WriteLine("risks accidental termination of all instances in the Auto Scaling group when a dependent service fails.");

        Console.WriteLine("\nBy implementing deep health checks, the load balancer can detect when one of the instances is failing");
        Console.WriteLine("and take that instance out of rotation.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.HealthCheckParameter, "deep");

        Console.WriteLine($"\nNow, checking target health indicates that the instance with bad credentials ({badInstanceId})");
        Console.WriteLine("is unhealthy. Note that it might take a minute or two for the load balancer to detect the unhealthy");
        Console.WriteLine("instance. Sending a GET request to the load balancer endpoint always returns a recommendation, because");
        Console.WriteLine("the load balancer takes unhealthy instances out of its rotation.");

        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nBecause the instances in this demo are controlled by an auto scaler, the simplest way to fix an unhealthy");
        Console.WriteLine("instance is to terminate it and let the auto scaler start a new instance to replace it.");

        await _autoScalerWrapper.TryTerminateInstanceById(badInstanceId);

        Console.WriteLine($"\nEven while the instance is terminating and the new instance is starting, sending a GET");
        Console.WriteLine("request to the web service continues to get a successful recommendation response because");
        Console.WriteLine("starts and reports as healthy, it is included in the load balancing rotation.");
        Console.WriteLine("Note that terminating and replacing an instance typically takes several minutes, during which time you");
        Console.WriteLine("can see the changing health check status until the new instance is running and healthy.");

        if (interactive)
            await DemoActionChoices();

        Console.WriteLine("\nIf the recommendation service fails now, deep health checks mean all instances report as unhealthy.");

        await _smParameterWrapper.PutParameterByName(_smParameterWrapper.TableParameter, "this-is-not-a-table");

        Console.WriteLine($"\nWhen all instances are unhealthy, the load balancer continues to route requests even to");
        Console.WriteLine("unhealthy instances, allowing them to fail open and return a static response rather than fail");
        Console.WriteLine("closed and report failure to the customer.");

        if (interactive)
            await DemoActionChoices();
        await _smParameterWrapper.Reset();

        Console.WriteLine(new string('-', 80));
        return true;
    }

    /// <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <param name="interactive">True to ask the user for cleanup.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> DestroyResources(bool interactive)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine(
            "To keep things tidy and to avoid unwanted charges on your account, we can clean up all AWS resources\n" +
            "that were created for this demo."
        );

        if (!interactive || GetYesNoResponse("Do you want to clean up all demo resources? (y/n) "))
        {
            await _elasticLoadBalancerWrapper.DeleteLoadBalancerByName(_elasticLoadBalancerWrapper.LoadBalancerName);
            await _elasticLoadBalancerWrapper.DeleteTargetGroupByName(_elasticLoadBalancerWrapper.TargetGroupName);
            await _autoScalerWrapper.TerminateAndDeleteAutoScalingGroupWithName(_autoScalerWrapper.GroupName);
            await _autoScalerWrapper.DeleteKeyPairByName(_autoScalerWrapper.KeyPairName);
            await _autoScalerWrapper.DeleteTemplateByName(_autoScalerWrapper.LaunchTemplateName);
            await _autoScalerWrapper.DeleteInstanceProfile(
                _autoScalerWrapper.BadCredsProfileName,
                _autoScalerWrapper.BadCredsRoleName
            );
            await _recommendations.DestroyDatabaseByName(_recommendations.TableName);
        }
        else
        {
            Console.WriteLine(
                "Ok, we'll leave the resources intact.\n" +
                "Don't forget to delete them when you're done with them or you might incur unexpected charges."
            );
        }

        Console.WriteLine(new string('-', 80));
        return true;
    }
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
/// <summary>
/// Encapsulates Amazon EC2 Auto Scaling and EC2 management methods.
/// </summary>
public class AutoScalerWrapper
{
    private readonly IAmazonAutoScaling _amazonAutoScaling;
    private readonly IAmazonEC2 _amazonEc2;
    private readonly IAmazonSimpleSystemsManagement _amazonSsm;
    private readonly IAmazonIdentityManagementService _amazonIam;
    private readonly ILogger<AutoScalerWrapper> _logger;

    private readonly string _instanceType = "";
    private readonly string _amiParam = "";
    private readonly string _launchTemplateName = "";
    private readonly string _groupName = "";
    private readonly string _instancePolicyName = "";
    private readonly string _instanceRoleName = "";
    private readonly string _instanceProfileName = "";
    private readonly string _badCredsProfileName = "";
    private readonly string _badCredsRoleName = "";
    private readonly string _badCredsPolicyName = "";
    private readonly string _keyPairName = "";

    public string GroupName => _groupName;
    public string KeyPairName => _keyPairName;
    public string LaunchTemplateName => _launchTemplateName;
    public string InstancePolicyName => _instancePolicyName;
    public string BadCredsProfileName => _badCredsProfileName;
    public string BadCredsRoleName => _badCredsRoleName;
    public string BadCredsPolicyName => _badCredsPolicyName;

    /// <summary>
    /// Constructor for the AutoScalerWrapper.
    /// </summary>
    /// <param name="amazonAutoScaling">The injected AutoScaling client.</param>
    /// <param name="amazonEc2">The injected EC2 client.</param>
    /// <param name="amazonIam">The injected IAM client.</param>
    /// <param name="amazonSsm">The injected SSM client.</param>
    public AutoScalerWrapper(
        IAmazonAutoScaling amazonAutoScaling,
        IAmazonEC2 amazonEc2,
        IAmazonSimpleSystemsManagement amazonSsm,
        IAmazonIdentityManagementService amazonIam,
        IConfiguration configuration,
        ILogger<AutoScalerWrapper> logger)
    {
        _amazonAutoScaling = amazonAutoScaling;
        _amazonEc2 = amazonEc2;
        _amazonSsm = amazonSsm;
        _amazonIam = amazonIam;
        _logger = logger;

        var prefix = configuration["resourcePrefix"];
        _instanceType = configuration["instanceType"];
        _amiParam = configuration["amiParam"];

        _launchTemplateName = prefix + "-template";
        _groupName = prefix + "-group";
        _instancePolicyName = prefix + "-pol";
        _instanceRoleName = prefix + "-role";
        _instanceProfileName = prefix + "-prof";
        _badCredsPolicyName = prefix + "-bc-pol";
        _badCredsRoleName = prefix + "-bc-role";
        _badCredsProfileName = prefix + "-bc-prof";
        _keyPairName = prefix + "-key-pair";
    }

    /// <summary>
    /// Create a policy, role, and profile that is associated with instances with a specified name.
    /// An instance's associated profile defines a role that is assumed by the
    /// instance.The role has attached policies that specify the AWS permissions granted to
    /// clients that run on the instance.
    /// </summary>
    /// <param name="policyName">Name to use for the policy.</param>
    /// <param name="roleName">Name to use for the role.</param>
    /// <param name="profileName">Name to use for the profile.</param>
    /// <param name="ssmOnlyPolicyFile">Path to a policy file for SSM.</param>
    /// <param name="awsManagedPolicies">AWS Managed policies to be attached to the role.</param>
    /// <returns>The Arn of the profile.</returns>
    public async Task<string> CreateInstanceProfileWithName(
        string policyName,
        string roleName,
        string profileName,
        string ssmOnlyPolicyFile,
        List<string>? awsManagedPolicies = null)
    {

        var assumeRoleDoc = "{" +
                                   "\"Version\": \"2012-10-17\"," +
                                   "\"Statement\": [{" +
                                        "\"Effect\": \"Allow\"," +
                                        "\"Principal\": {" +
                                        "\"Service\": [" +
                                            "\"ec2.amazonaws.com\"" +
                                        "]" +
                                        "}," +
                                   "\"Action\": \"sts:AssumeRole\"" +
                                   "}]" +
                               "}";

        var policyDocument = await File.ReadAllTextAsync(ssmOnlyPolicyFile);

        var policyArn = "";

        try
        {
            var createPolicyResult = await _amazonIam.CreatePolicyAsync(
                new CreatePolicyRequest
                {
                    PolicyName = policyName,
                    PolicyDocument = policyDocument
                });
            policyArn = createPolicyResult.Policy.Arn;
        }
        catch (EntityAlreadyExistsException)
        {
            // The policy already exists, so we look it up to get the Arn.
            var policiesPaginator = _amazonIam.Paginators.ListPolicies(
                new ListPoliciesRequest()
                {
                    Scope = PolicyScopeType.Local
                });
            // Get the entire list using the paginator.
            await foreach (var policy in policiesPaginator.Policies)
            {
                if (policy.PolicyName.Equals(policyName))
                {
                    policyArn = policy.Arn;
                }
            }

            if (policyArn == null)
            {
                throw new InvalidOperationException("Policy not found");
            }
        }

        try
        {
            await _amazonIam.CreateRoleAsync(new CreateRoleRequest()
            {
                RoleName = roleName,
                AssumeRolePolicyDocument = assumeRoleDoc,
            });
            await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
            {
                RoleName = roleName,
                PolicyArn = policyArn
            });
            if (awsManagedPolicies != null)
            {
                foreach (var awsPolicy in awsManagedPolicies)
                {
                    await _amazonIam.AttachRolePolicyAsync(new AttachRolePolicyRequest()
                    {
                        PolicyArn = $"arn:aws:iam::aws:policy/{awsPolicy}",
                        RoleName = roleName
                    });
                }
            }
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Role already exists.");
        }

        string profileArn = "";
        try
        {
            var profileCreateResponse = await _amazonIam.CreateInstanceProfileAsync(
                new CreateInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            // Allow time for the profile to be ready.
            profileArn = profileCreateResponse.InstanceProfile.Arn;
            Thread.Sleep(10000);
            await _amazonIam.AddRoleToInstanceProfileAsync(
                new AddRoleToInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });

        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine("Policy already exists.");
            var profileGetResponse = await _amazonIam.GetInstanceProfileAsync(
                new GetInstanceProfileRequest()
                {
                    InstanceProfileName = profileName
                });
            profileArn = profileGetResponse.InstanceProfile.Arn;
        }
        return profileArn;
    }

    /// <summary>
    /// Create a new key pair and save the file.
    /// </summary>
    /// <param name="newKeyPairName">The name of the new key pair.</param>
    /// <returns>Async task.</returns>
    public async Task CreateKeyPair(string newKeyPairName)
    {
        try
        {
            var keyResponse = await _amazonEc2.CreateKeyPairAsync(
                new CreateKeyPairRequest() { KeyName = newKeyPairName });
            await File.WriteAllTextAsync($"{newKeyPairName}.pem",
                keyResponse.KeyPair.KeyMaterial);
            Console.WriteLine($"Created key pair {newKeyPairName}.");
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine("Key pair already exists.");
        }
    }

    /// <summary>
    /// Delete the key pair and file by name.
    /// </summary>
    /// <param name="deleteKeyPairName">The key pair to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteKeyPairByName(string deleteKeyPairName)
    {
        try
        {
            await _amazonEc2.DeleteKeyPairAsync(
                new DeleteKeyPairRequest() { KeyName = deleteKeyPairName });
            File.Delete($"{deleteKeyPairName}.pem");
        }
        catch (FileNotFoundException)
        {
            Console.WriteLine($"Key pair {deleteKeyPairName} not found.");
        }
    }

    /// <summary>
    /// Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling.
    /// The launch template specifies a Bash script in its user data field that runs after
    /// the instance is started. This script installs the Python packages and starts a Python
    /// web server on the instance.
    /// </summary>
    /// <param name="startupScriptPath">The path to a Bash script file that is run.</param>
    /// <param name="instancePolicyPath">The path to a permissions policy to create and attach to the profile.</param>
    /// <returns>The template object.</returns>
    public async Task<Amazon.EC2.Model.LaunchTemplate> CreateTemplate(string startupScriptPath, string instancePolicyPath)
    {
        try
        {
            await CreateKeyPair(_keyPairName);
            await CreateInstanceProfileWithName(_instancePolicyName, _instanceRoleName,
                _instanceProfileName, instancePolicyPath);

            var startServerText = await File.ReadAllTextAsync(startupScriptPath);
            var plainTextBytes = System.Text.Encoding.UTF8.GetBytes(startServerText);

            var amiLatest = await _amazonSsm.GetParameterAsync(
                new GetParameterRequest() { Name = _amiParam });
            var amiId = amiLatest.Parameter.Value;
            var launchTemplateResponse = await _amazonEc2.CreateLaunchTemplateAsync(
                new CreateLaunchTemplateRequest()
                {
                    LaunchTemplateName = _launchTemplateName,
                    LaunchTemplateData = new RequestLaunchTemplateData()
                    {
                        InstanceType = _instanceType,
                        ImageId = amiId,
                        IamInstanceProfile =
                            new
                                LaunchTemplateIamInstanceProfileSpecificationRequest()
                            {
                                Name = _instanceProfileName
                            },
                        KeyName = _keyPairName,
                        UserData = System.Convert.ToBase64String(plainTextBytes)
                    }
                });
            return launchTemplateResponse.LaunchTemplate;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.AlreadyExistsException")
            {
                _logger.LogError($"Could not create the template, the name {_launchTemplateName} already exists. " +
                                 $"Please try again with a unique name.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get a list of Availability Zones in the AWS Region of the Amazon EC2 Client.
    /// </summary>
    /// <returns>A list of availability zones.</returns>
    public async Task<List<string>> DescribeAvailabilityZones()
    {
        try
        {
            var zoneResponse = await _amazonEc2.DescribeAvailabilityZonesAsync(
                new DescribeAvailabilityZonesRequest());
            return zoneResponse.AvailabilityZones.Select(z => z.ZoneName).ToList();
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            _logger.LogError($"An Amazon EC2 error occurred while listing availability zones.: {ec2Exception.Message}");
            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while listing availability zones.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Create an EC2 Auto Scaling group of a specified size and name.
    /// </summary>
    /// <param name="groupSize">The size for the group.</param>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="availabilityZones">The availability zones for the group.</param>
    /// <returns>Async task.</returns>
    public async Task CreateGroupOfSize(int groupSize, string groupName, List<string> availabilityZones)
    {
        try
        {
            await _amazonAutoScaling.CreateAutoScalingGroupAsync(
                new CreateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    AvailabilityZones = availabilityZones,
                    LaunchTemplate =
                        new Amazon.AutoScaling.Model.LaunchTemplateSpecification()
                        {
                            LaunchTemplateName = _launchTemplateName,
                            Version = "$Default"
                        },
                    MaxSize = groupSize,
                    MinSize = groupSize
                });
            Console.WriteLine($"Created EC2 Auto Scaling group {groupName} with size {groupSize}.");
        }
        catch (EntityAlreadyExistsException)
        {
            Console.WriteLine($"EC2 Auto Scaling group {groupName} already exists.");
        }
    }

    /// <summary>
    /// Get the default VPC for the account.
    /// </summary>
    /// <returns>The default VPC object.</returns>
    public async Task<Vpc> GetDefaultVpc()
    {
        try
        {
            var vpcResponse = await _amazonEc2.DescribeVpcsAsync(
                new DescribeVpcsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("is-default", new List<string>() { "true" })
                    }
                });
            return vpcResponse.Vpcs[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "UnauthorizedOperation")
            {
                _logger.LogError(ec2Exception, $"You do not have the necessary permissions to describe VPCs.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the vpcs.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get all the subnets for a Vpc in a set of availability zones.
    /// </summary>
    /// <param name="vpcId">The Id of the Vpc.</param>
    /// <param name="availabilityZones">The list of availability zones.</param>
    /// <returns>The collection of subnet objects.</returns>
    public async Task<List<Subnet>> GetAllVpcSubnetsForZones(string vpcId, List<string> availabilityZones)
    {
        try
        {
            var subnets = new List<Subnet>();
            var subnetPaginator = _amazonEc2.Paginators.DescribeSubnets(
                new DescribeSubnetsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("vpc-id", new List<string>() { vpcId }),
                        new("availability-zone", availabilityZones),
                        new("default-for-az", new List<string>() { "true" })
                    }
                });

            // Get the entire list using the paginator.
            await foreach (var subnet in subnetPaginator.Subnets)
            {
                subnets.Add(subnet);
            }

            return subnets;
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidVpcID.NotFound")
            {
                _logger.LogError(ec2Exception, $"The specified VPC ID {vpcId} does not exist.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while describing the subnets.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Delete a launch template by name.
    /// </summary>
    /// <param name="templateName">The name of the template to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTemplateByName(string templateName)
    {
        try
        {
            await _amazonEc2.DeleteLaunchTemplateAsync(
                new DeleteLaunchTemplateRequest()
                {
                    LaunchTemplateName = templateName
                });
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.NotFoundException")
            {
                _logger.LogError(
                    $"Could not delete the template, the name {_launchTemplateName} was not found.");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while deleting the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Detaches a role from an instance profile, detaches policies from the role,
    /// and deletes all the resources.
    /// </summary>
    /// <param name="profileName">The name of the profile to delete.</param>
    /// <param name="roleName">The name of the role to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteInstanceProfile(string profileName, string roleName)
    {
        try
        {
            await _amazonIam.RemoveRoleFromInstanceProfileAsync(
                new RemoveRoleFromInstanceProfileRequest()
                {
                    InstanceProfileName = profileName,
                    RoleName = roleName
                });
            await _amazonIam.DeleteInstanceProfileAsync(
                new DeleteInstanceProfileRequest() { InstanceProfileName = profileName });
            var attachedPolicies = await _amazonIam.ListAttachedRolePoliciesAsync(
                new ListAttachedRolePoliciesRequest() { RoleName = roleName });
            foreach (var policy in attachedPolicies.AttachedPolicies)
            {
                await _amazonIam.DetachRolePolicyAsync(
                    new DetachRolePolicyRequest()
                    {
                        RoleName = roleName,
                        PolicyArn = policy.PolicyArn
                    });
                // Delete the custom policies only.
                if (!policy.PolicyArn.StartsWith("arn:aws:iam::aws"))
                {
                    await _amazonIam.DeletePolicyAsync(
                        new Amazon.IdentityManagement.Model.DeletePolicyRequest()
                        {
                            PolicyArn = policy.PolicyArn
                        });
                }
            }

            await _amazonIam.DeleteRoleAsync(
                new DeleteRoleRequest() { RoleName = roleName });
        }
        catch (NoSuchEntityException)
        {
            Console.WriteLine($"Instance profile {profileName} does not exist.");
        }
    }

    /// <summary>
    /// Gets data about the instances in an EC2 Auto Scaling group by its group name.
    /// </summary>
    /// <param name="group">The name of the auto scaling group.</param>
    /// <returns>A collection of instance Ids.</returns>
    public async Task<IEnumerable<string>> GetInstancesByGroupName(string group)
    {
        var instanceResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { group }
            });
        var instanceIds = instanceResponse.AutoScalingGroups.SelectMany(
            g => g.Instances.Select(i => i.InstanceId));
        return instanceIds;
    }

    /// <summary>
    /// Get the instance profile association data for an instance.
    /// </summary>
    /// <param name="instanceId">The Id of the instance.</param>
    /// <returns>Instance profile associations data.</returns>
    public async Task<IamInstanceProfileAssociation> GetInstanceProfile(string instanceId)
    {
        try
        {
            var response = await _amazonEc2.DescribeIamInstanceProfileAssociationsAsync(
                new DescribeIamInstanceProfileAssociationsRequest()
                {
                    Filters = new List<Amazon.EC2.Model.Filter>()
                    {
                        new("instance-id", new List<string>() { instanceId })
                    },
                });
            return response.IamInstanceProfileAssociations[0];
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while creating the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Replace the profile associated with a running instance. After the profile is replaced, the instance
    /// is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is
    /// used to restart the Python web server.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to update.</param>
    /// <param name="credsProfileName">The name of the new profile to associate with the specified instance.</param>
    /// <param name="associationId">The Id of the existing profile association for the instance.</param>
    /// <returns>Async task.</returns>
    public async Task ReplaceInstanceProfile(string instanceId, string credsProfileName, string associationId)
    {
        try
        {
            await _amazonEc2.ReplaceIamInstanceProfileAssociationAsync(
                new ReplaceIamInstanceProfileAssociationRequest()
                {
                    AssociationId = associationId,
                    IamInstanceProfile = new IamInstanceProfileSpecification()
                    {
                        Name = credsProfileName
                    }
                });
            // Allow time before resetting.
            Thread.Sleep(25000);

            await _amazonEc2.RebootInstancesAsync(
                new RebootInstancesRequest(new List<string>() { instanceId }));
            Thread.Sleep(25000);
            var instanceReady = false;
            var retries = 5;
            while (retries-- > 0 && !instanceReady)
            {
                var instancesPaginator =
                    _amazonSsm.Paginators.DescribeInstanceInformation(
                        new DescribeInstanceInformationRequest());
                // Get the entire list using the paginator.
                await foreach (var instance in instancesPaginator.InstanceInformationList)
                {
                    instanceReady = instance.InstanceId == instanceId;
                    if (instanceReady)
                    {
                        break;
                    }
                }
            }
            Console.WriteLine("Waiting for instance to be running.");
            await WaitForInstanceState(instanceId, InstanceStateName.Running);
            Console.WriteLine("Instance ready.");
            Console.WriteLine($"Sending restart command to instance {instanceId}");
            await _amazonSsm.SendCommandAsync(
                new SendCommandRequest()
                {
                    InstanceIds = new List<string>() { instanceId },
                    DocumentName = "AWS-RunShellScript",
                    Parameters = new Dictionary<string, List<string>>()
                    {
                        {
                            "commands",
                            new List<string>() { "cd / && sudo python3 server.py 80" }
                        }
                    }
                });
            Console.WriteLine($"Restarted the web server on instance {instanceId}");
        }
        catch (AmazonEC2Exception ec2Exception)
        {
            if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound")
            {
                _logger.LogError(ec2Exception, $"Instance {instanceId} not found");
            }

            throw;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while replacing the template.: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Try to terminate an instance by its Id.
    /// </summary>
    /// <param name="instanceId">The Id of the instance to terminate.</param>
    /// <returns>Async task.</returns>
    public async Task TryTerminateInstanceById(string instanceId)
    {
        var stopping = false;
        Console.WriteLine($"Stopping {instanceId}...");
        while (!stopping)
        {
            try
            {
                await _amazonAutoScaling.TerminateInstanceInAutoScalingGroupAsync(
                    new TerminateInstanceInAutoScalingGroupRequest()
                    {
                        InstanceId = instanceId,
                        ShouldDecrementDesiredCapacity = false
                    });
                stopping = true;
            }
            catch (ScalingActivityInProgressException)
            {
                Console.WriteLine($"Scaling activity in progress for {instanceId}. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Tries to delete the EC2 Auto Scaling group. If the group is in use or in progress,
    /// waits and retries until the group is successfully deleted.
    /// </summary>
    /// <param name="groupName">The name of the group to try to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TryDeleteGroupByName(string groupName)
    {
        var stopped = false;
        while (!stopped)
        {
            try
            {
                await _amazonAutoScaling.DeleteAutoScalingGroupAsync(
                    new DeleteAutoScalingGroupRequest()
                    {
                        AutoScalingGroupName = groupName
                    });
                stopped = true;
            }
            catch (Exception e)
                when ((e is ScalingActivityInProgressException)
                      || (e is Amazon.AutoScaling.Model.ResourceInUseException))
            {
                Console.WriteLine($"Some instances are still running. Waiting...");
                Thread.Sleep(10000);
            }
        }
    }

    /// <summary>
    /// Terminate instances and delete the Auto Scaling group by name.
    /// </summary>
    /// <param name="groupName">The name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task TerminateAndDeleteAutoScalingGroupWithName(string groupName)
    {
        var describeGroupsResponse = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(
            new DescribeAutoScalingGroupsRequest()
            {
                AutoScalingGroupNames = new List<string>() { groupName }
            });
        if (describeGroupsResponse.AutoScalingGroups.Any())
        {
            // Update the size to 0.
            await _amazonAutoScaling.UpdateAutoScalingGroupAsync(
                new UpdateAutoScalingGroupRequest()
                {
                    AutoScalingGroupName = groupName,
                    MinSize = 0
                });
            var group = describeGroupsResponse.AutoScalingGroups[0];
            foreach (var instance in group.Instances)
            {
                await TryTerminateInstanceById(instance.InstanceId);
            }

            await TryDeleteGroupByName(groupName);
        }
        else
        {
            Console.WriteLine($"No groups found with name {groupName}.");
        }
    }


    /// <summary>
    /// Get the default security group for a specified Vpc.
    /// </summary>
    /// <param name="vpc">The Vpc to search.</param>
    /// <returns>The default security group.</returns>
    public async Task<SecurityGroup> GetDefaultSecurityGroupForVpc(Vpc vpc)
    {
        var groupResponse = await _amazonEc2.DescribeSecurityGroupsAsync(
            new DescribeSecurityGroupsRequest()
            {
                Filters = new List<Amazon.EC2.Model.Filter>()
                {
                    new ("group-name", new List<string>() { "default" }),
                    new ("vpc-id", new List<string>() { vpc.VpcId })
                }
            });
        return groupResponse.SecurityGroups[0];
    }

    /// <summary>
    /// Verify the default security group of a Vpc allows ingress from the calling computer.
    /// This can be done by allowing ingress from this computer's IP address.
    /// In some situations, such as connecting from a corporate network, you must instead specify
    /// a prefix list Id. You can also temporarily open the port to any IP address while running this example.
    /// If you do, be sure to remove public access when you're done.
    /// </summary>
    /// <param name="vpc">The group to check.</param>
    /// <param name="port">The port to verify.</param>
    /// <param name="ipAddress">This computer's IP address.</param>
    /// <returns>True if the ip address is allowed on the group.</returns>
    public bool VerifyInboundPortForGroup(SecurityGroup group, int port, string ipAddress)
    {
        var portIsOpen = false;
        foreach (var ipPermission in group.IpPermissions)
        {
            if (ipPermission.FromPort == port)
            {
                foreach (var ipRange in ipPermission.Ipv4Ranges)
                {
                    var cidr = ipRange.CidrIp;
                    if (cidr.StartsWith(ipAddress) || cidr == "0.0.0.0/0")
                    {
                        portIsOpen = true;
                    }
                }

                if (ipPermission.PrefixListIds.Any())
                {
                    portIsOpen = true;
                }

                if (!portIsOpen)
                {
                    Console.WriteLine("The inbound rule does not appear to be open to either this computer's IP\n" +
                                      "address, to all IP addresses (0.0.0.0/0), or to a prefix list ID.");
                }
                else
                {
                    break;
                }
            }
        }

        return portIsOpen;
    }

    /// <summary>
    /// Add an ingress rule to the specified security group that allows access on the
    /// specified port from the specified IP address.
    /// </summary>
    /// <param name="groupId">The Id of the security group to modify.</param>
    /// <param name="port">The port to open.</param>
    /// <param name="ipAddress">The IP address to allow access.</param>
    /// <returns>Async task.</returns>
    public async Task OpenInboundPort(string groupId, int port, string ipAddress)
    {
        await _amazonEc2.AuthorizeSecurityGroupIngressAsync(
            new AuthorizeSecurityGroupIngressRequest()
            {
                GroupId = groupId,
                IpPermissions = new List<IpPermission>()
                {
                    new IpPermission()
                    {
                        FromPort = port,
                        ToPort = port,
                        IpProtocol = "tcp",
                        Ipv4Ranges = new List<IpRange>()
                        {
                            new IpRange() { CidrIp = $"{ipAddress}/32" }
                        }
                    }
                }
            });
    }

    /// <summary>
    /// Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
    /// The
    /// </summary>
    /// <param name="autoScalingGroupName">The name of the Auto Scaling group.</param>
    /// <param name="targetGroupArn">The Arn for the target group.</param>
    /// <returns>Async task.</returns>
    public async Task AttachLoadBalancerToGroup(string autoScalingGroupName, string targetGroupArn)
    {
        await _amazonAutoScaling.AttachLoadBalancerTargetGroupsAsync(
            new AttachLoadBalancerTargetGroupsRequest()
            {
                AutoScalingGroupName = autoScalingGroupName,
                TargetGroupARNs = new List<string>() { targetGroupArn }
            });
    }

    /// <summary>
    /// Wait until an EC2 instance is in a specified state.
    /// </summary>
    /// <param name="instanceId">The instance Id.</param>
    /// <param name="stateName">The state to wait for.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> WaitForInstanceState(string instanceId, InstanceStateName stateName)
    {
        var request = new DescribeInstancesRequest
        {
            InstanceIds = new List<string> { instanceId }
        };

        // Wait until the instance is in the specified state.
        var hasState = false;
        do
        {
            // Wait 5 seconds.
            Thread.Sleep(5000);

            // Check for the desired state.
            var response = await _amazonEc2.DescribeInstancesAsync(request);
            var instance = response.Reservations[0].Instances[0];
            hasState = instance.State.Name == stateName;
            Console.Write(". ");
        } while (!hasState);

        return hasState;
    }
}
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
/// <summary>
/// Encapsulates Elastic Load Balancer actions.
/// </summary>
public class ElasticLoadBalancerWrapper
{
    private readonly IAmazonElasticLoadBalancingV2 _amazonElasticLoadBalancingV2;
    private string? _endpoint = null;
    private readonly string _targetGroupName = "";
    private readonly string _loadBalancerName = "";
    HttpClient _httpClient = new();

    public string TargetGroupName => _targetGroupName;
    public string LoadBalancerName => _loadBalancerName;

    /// <summary>
    /// Constructor for the Elastic Load Balancer wrapper.
    /// </summary>
    /// <param name="amazonElasticLoadBalancingV2">The injected load balancing v2 client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public ElasticLoadBalancerWrapper(
        IAmazonElasticLoadBalancingV2 amazonElasticLoadBalancingV2,
        IConfiguration configuration)
    {
        _amazonElasticLoadBalancingV2 = amazonElasticLoadBalancingV2;
        var prefix = configuration["resourcePrefix"];
        _targetGroupName = prefix + "-tg";
        _loadBalancerName = prefix + "-lb";
    }

    /// <summary>
    /// Get the HTTP Endpoint of a load balancer by its name.
    /// </summary>
    /// <param name="loadBalancerName">The name of the load balancer.</param>
    /// <returns>The HTTP endpoint.</returns>
    public async Task<string> GetEndpointForLoadBalancerByName(string loadBalancerName)
    {
        if (_endpoint == null)
        {
            var endpointResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { loadBalancerName }
                    });
            _endpoint = endpointResponse.LoadBalancers[0].DNSName;
        }

        return _endpoint;
    }

    /// <summary>
    /// Return the GET response for an endpoint as text.
    /// </summary>
    /// <param name="endpoint">The endpoint for the request.</param>
    /// <returns>The request response.</returns>
    public async Task<string> GetEndPointResponse(string endpoint)
    {
        var endpointResponse = await _httpClient.GetAsync($"http://{endpoint}");
        var textResponse = await endpointResponse.Content.ReadAsStringAsync();
        return textResponse!;
    }

    /// <summary>
    /// Get the target health for a group by name.
    /// </summary>
    /// <param name="groupName">The name of the group.</param>
    /// <returns>The collection of health descriptions.</returns>
    public async Task<List<TargetHealthDescription>> CheckTargetHealthForGroup(string groupName)
    {
        List<TargetHealthDescription> result = null!;
        try
        {
            var groupResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                    new DescribeTargetGroupsRequest()
                    {
                        Names = new List<string>() { groupName }
                    });
            var healthResponse =
                await _amazonElasticLoadBalancingV2.DescribeTargetHealthAsync(
                    new DescribeTargetHealthRequest()
                    {
                        TargetGroupArn = groupResponse.TargetGroups[0].TargetGroupArn
                    });
            ;
            result = healthResponse.TargetHealthDescriptions;
        }
        catch (TargetGroupNotFoundException)
        {
            Console.WriteLine($"Target group {groupName} not found.");
        }
        return result;
    }

    /// <summary>
    /// Create an Elastic Load Balancing target group. The target group specifies how the load balancer forwards
    /// requests to instances in the group and how instance health is checked.
    ///
    /// To speed up this demo, the health check is configured with shortened times and lower thresholds. In production,
    /// you might want to decrease the sensitivity of your health checks to avoid unwanted failures.
    /// </summary>
    /// <param name="groupName">The name for the group.</param>
    /// <param name="protocol">The protocol, such as HTTP.</param>
    /// <param name="port">The port to use to forward requests, such as 80.</param>
    /// <param name="vpcId">The Id of the Vpc in which the load balancer exists.</param>
    /// <returns>The new TargetGroup object.</returns>
    public async Task<TargetGroup> CreateTargetGroupOnVpc(string groupName, ProtocolEnum protocol, int port, string vpcId)
    {
        var createResponse = await _amazonElasticLoadBalancingV2.CreateTargetGroupAsync(
            new CreateTargetGroupRequest()
            {
                Name = groupName,
                Protocol = protocol,
                Port = port,
                HealthCheckPath = "/healthcheck",
                HealthCheckIntervalSeconds = 10,
                HealthCheckTimeoutSeconds = 5,
                HealthyThresholdCount = 2,
                UnhealthyThresholdCount = 2,
                VpcId = vpcId
            });
        var targetGroup = createResponse.TargetGroups[0];
        return targetGroup;
    }

    /// <summary>
    /// Create an Elastic Load Balancing load balancer that uses the specified subnets
    /// and forwards requests to the specified target group.
    /// </summary>
    /// <param name="name">The name for the new load balancer.</param>
    /// <param name="subnetIds">Subnets for the load balancer.</param>
    /// <param name="targetGroup">Target group for forwarded requests.</param>
    /// <returns>The new LoadBalancer object.</returns>
    public async Task<LoadBalancer> CreateLoadBalancerAndListener(string name, List<string> subnetIds, TargetGroup targetGroup)
    {
        var createLbResponse = await _amazonElasticLoadBalancingV2.CreateLoadBalancerAsync(
            new CreateLoadBalancerRequest()
            {
                Name = name,
                Subnets = subnetIds
            });
        var loadBalancerArn = createLbResponse.LoadBalancers[0].LoadBalancerArn;

        // Wait for load balancer to be available.
        var loadBalancerReady = false;
        while (!loadBalancerReady)
        {
            try
            {
                var describeResponse =
                    await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                        new DescribeLoadBalancersRequest()
                        {
                            Names = new List<string>() { name }
                        });

                var loadBalancerState = describeResponse.LoadBalancers[0].State.Code;

                loadBalancerReady = loadBalancerState == LoadBalancerStateEnum.Active;
            }
            catch (LoadBalancerNotFoundException)
            {
                loadBalancerReady = false;
            }
            Thread.Sleep(10000);
        }
        // Create the listener.
        await _amazonElasticLoadBalancingV2.CreateListenerAsync(
            new CreateListenerRequest()
            {
                LoadBalancerArn = loadBalancerArn,
                Protocol = targetGroup.Protocol,
                Port = targetGroup.Port,
                DefaultActions = new List<Action>()
                {
                    new Action()
                    {
                        Type = ActionTypeEnum.Forward,
                        TargetGroupArn = targetGroup.TargetGroupArn
                    }
                }
            });
        return createLbResponse.LoadBalancers[0];
    }

    /// <summary>
    /// Verify this computer can successfully send a GET request to the
    /// load balancer endpoint.
    /// </summary>
    /// <param name="endpoint">The endpoint to check.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> VerifyLoadBalancerEndpoint(string endpoint)
    {
        var success = false;
        var retries = 3;
        while (!success && retries > 0)
        {
            try
            {
                var endpointResponse = await _httpClient.GetAsync($"http://{endpoint}");
                Console.WriteLine($"Response: {endpointResponse.StatusCode}.");

                if (endpointResponse.IsSuccessStatusCode)
                {
                    success = true;
                }
                else
                {
                    retries = 0;
                }
            }
            catch (HttpRequestException)
            {
                Console.WriteLine("Connection error, retrying...");
                retries--;
                Thread.Sleep(10000);
            }
        }

        return success;
    }

    /// <summary>
    /// Delete a load balancer by its specified name.
    /// </summary>
    /// <param name="name">The name of the load balancer to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteLoadBalancerByName(string name)
    {
        try
        {
            var describeLoadBalancerResponse =
                await _amazonElasticLoadBalancingV2.DescribeLoadBalancersAsync(
                    new DescribeLoadBalancersRequest()
                    {
                        Names = new List<string>() { name }
                    });
            var lbArn = describeLoadBalancerResponse.LoadBalancers[0].LoadBalancerArn;
            await _amazonElasticLoadBalancingV2.DeleteLoadBalancerAsync(
                new DeleteLoadBalancerRequest()
                {
                    LoadBalancerArn = lbArn
                }
            );
        }
        catch (LoadBalancerNotFoundException)
        {
            Console.WriteLine($"Load balancer {name} not found.");
        }
    }

    /// <summary>
    /// Delete a TargetGroup by its specified name.
    /// </summary>
    /// <param name="groupName">Name of the group to delete.</param>
    /// <returns>Async task.</returns>
    public async Task DeleteTargetGroupByName(string groupName)
    {
        var done = false;
        while (!done)
        {
            try
            {
                var groupResponse =
                    await _amazonElasticLoadBalancingV2.DescribeTargetGroupsAsync(
                        new DescribeTargetGroupsRequest()
                        {
                            Names = new List<string>() { groupName }
                        });

                var targetArn = groupResponse.TargetGroups[0].TargetGroupArn;
                await _amazonElasticLoadBalancingV2.DeleteTargetGroupAsync(
                    new DeleteTargetGroupRequest() { TargetGroupArn = targetArn });
                Console.WriteLine($"Deleted load balancing target group {groupName}.");
                done = true;
            }
            catch (TargetGroupNotFoundException)
            {
                Console.WriteLine(
                    $"Target group {groupName} not found, could not delete.");
                done = true;
            }
            catch (ResourceInUseException)
            {
                Console.WriteLine("Target group not yet released, waiting...");
                Thread.Sleep(10000);
            }
        }
    }
}
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
/// <summary>
/// Encapsulates a DynamoDB table to use as a service that recommends books, movies, and songs.
/// </summary>
public class Recommendations
{
    private readonly IAmazonDynamoDB _amazonDynamoDb;
    private readonly DynamoDBContext _context;
    private readonly string _tableName;

    public string TableName => _tableName;

    /// <summary>
    /// Constructor for the Recommendations service.
    /// </summary>
    /// <param name="amazonDynamoDb">The injected DynamoDb client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public Recommendations(IAmazonDynamoDB amazonDynamoDb, IConfiguration configuration)
    {
        _amazonDynamoDb = amazonDynamoDb;
        _context = new DynamoDBContext(_amazonDynamoDb);
        _tableName = configuration["databaseName"]!;
    }

    /// <summary>
    /// Create the DynamoDb table with a specified name.
    /// </summary>
    /// <param name="tableName">The name for the table.</param>
    /// <returns>True when ready.</returns>
    public async Task<bool> CreateDatabaseWithName(string tableName)
    {
        try
        {
            Console.Write($"Creating table {tableName}...");
            var createRequest = new CreateTableRequest()
            {
                TableName = tableName,
                AttributeDefinitions = new List<AttributeDefinition>()
                    {
                        new AttributeDefinition()
                        {
                            AttributeName = "MediaType",
                            AttributeType = ScalarAttributeType.S
                        },
                        new AttributeDefinition()
                        {
                            AttributeName = "ItemId",
                            AttributeType = ScalarAttributeType.N
                        }
                    },
                KeySchema = new List<KeySchemaElement>()
                    {
                        new KeySchemaElement()
                        {
                            AttributeName = "MediaType",
                            KeyType = KeyType.HASH
                        },
                        new KeySchemaElement()
                        {
                            AttributeName = "ItemId",
                            KeyType = KeyType.RANGE
                        }
                    },
                ProvisionedThroughput = new ProvisionedThroughput()
                {
                    ReadCapacityUnits = 5,
                    WriteCapacityUnits = 5
                }
            };
            await _amazonDynamoDb.CreateTableAsync(createRequest);

            // Wait until the table is ACTIVE and then report success.
            Console.Write("\nWaiting for table to become active...");

            var request = new DescribeTableRequest
            {
                TableName = tableName
            };

            TableStatus status;
            do
            {
                Thread.Sleep(2000);

                var describeTableResponse = await _amazonDynamoDb.DescribeTableAsync(request);
                status = describeTableResponse.Table.TableStatus;

                Console.Write(".");
            }
            while (status != "ACTIVE");

            return status == TableStatus.ACTIVE;
        }
        catch (ResourceInUseException)
        {
            Console.WriteLine($"Table {tableName} already exists.");
            return false;
        }
    }

    /// <summary>
    /// Populate the database table with data from a specified path.
    /// </summary>
    /// <param name="databaseTableName">The name of the table.</param>
    /// <param name="recommendationsPath">The path of the recommendations data.</param>
    /// <returns>Async task.</returns>
    public async Task PopulateDatabase(string databaseTableName, string recommendationsPath)
    {
        var recommendationsText = await File.ReadAllTextAsync(recommendationsPath);
        var records =
            JsonSerializer.Deserialize<RecommendationModel[]>(recommendationsText);
        var batchWrite = _context.CreateBatchWrite<RecommendationModel>();

        foreach (var record in records!)
        {
            batchWrite.AddPutItem(record);
        }

        await batchWrite.ExecuteAsync();
    }

    /// <summary>
    /// Delete the recommendation table by name.
    /// </summary>
    /// <param name="tableName">The name of the recommendation table.</param>
    /// <returns>Async task.</returns>
    public async Task DestroyDatabaseByName(string tableName)
    {
        try
        {
            await _amazonDynamoDb.DeleteTableAsync(
                new DeleteTableRequest() { TableName = tableName });
            Console.WriteLine($"Table {tableName} was deleted.");
        }
        catch (ResourceNotFoundException)
        {
            Console.WriteLine($"Table {tableName} not found");
        }
    }
}
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
/// <summary>
/// Encapsulates Systems Manager parameter operations. This example uses these parameters
/// to drive the demonstration of resilient architecture, such as failure of a dependency or
/// how the service responds to a health check.
/// </summary>
public class SmParameterWrapper
{
    private readonly IAmazonSimpleSystemsManagement _amazonSimpleSystemsManagement;

    private readonly string _tableParameter = "doc-example-resilient-architecture-table";
    private readonly string _failureResponseParameter = "doc-example-resilient-architecture-failure-response";
    private readonly string _healthCheckParameter = "doc-example-resilient-architecture-health-check";
    private readonly string _tableName = "";

    public string TableParameter => _tableParameter;
    public string TableName => _tableName;
    public string HealthCheckParameter => _healthCheckParameter;
    public string FailureResponseParameter => _failureResponseParameter;

    /// <summary>
    /// Constructor for the SmParameterWrapper.
    /// </summary>
    /// <param name="amazonSimpleSystemsManagement">The injected Simple Systems Management client.</param>
    /// <param name="configuration">The injected configuration.</param>
    public SmParameterWrapper(IAmazonSimpleSystemsManagement amazonSimpleSystemsManagement, IConfiguration configuration)
    {
        _amazonSimpleSystemsManagement = amazonSimpleSystemsManagement;
        _tableName = configuration["databaseName"]!;
    }

    /// <summary>
    /// Reset the Systems Manager parameters to starting values for the demo.
    /// </summary>
    /// <returns>Async task.</returns>
    public async Task Reset()
    {
        await this.PutParameterByName(_tableParameter, _tableName);
        await this.PutParameterByName(_failureResponseParameter, "none");
        await this.PutParameterByName(_healthCheckParameter, "shallow");
    }

    /// <summary>
    /// Set the value of a named Systems Manager parameter.
    /// </summary>
    /// <param name="name">The name of the parameter.</param>
    /// <param name="value">The value to set.</param>
    /// <returns>Async task.</returns>
    public async Task PutParameterByName(string name, string value)
    {
        await _amazonSimpleSystemsManagement.PutParameterAsync(
            new PutParameterRequest() { Name = name, Value = value, Overwrite = true });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/DotNetSDKV3/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/DotNetSDKV3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# Contoh Amazon Keyspaces menggunakan SDK untuk .NET
<a name="csharp_3_keyspaces_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with Amazon Keyspaces.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Keyspaces
<a name="keyspaces_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Keyspaces.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
namespace KeyspacesActions;

public class HelloKeyspaces
{
    private static ILogger logger = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon Keyspaces (for Apache Cassandra).
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonKeyspaces>()
                .AddTransient<KeyspacesWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<HelloKeyspaces>();

        var keyspacesClient = host.Services.GetRequiredService<IAmazonKeyspaces>();
        var keyspacesWrapper = new KeyspacesWrapper(keyspacesClient);

        Console.WriteLine("Hello, Amazon Keyspaces! Let's list your keyspaces:");
        await keyspacesWrapper.ListKeyspaces();
    }
}
```
+  Untuk detail API, lihat [ListKeyspaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/ListKeyspaces)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="keyspaces_Scenario_GetStartedKeyspaces_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat keyspace dan tabel. Skema tabel menyimpan data film dan mengaktifkan point-in-time pemulihan.
+ Connect ke keyspace menggunakan koneksi TLS aman dengan otentikasi SiGv4.
+ Kueri tabel. Tambahkan, ambil, dan perbarui data film.
+ Perbarui tabel. Tambahkan kolom untuk melacak film yang ditonton.
+ Kembalikan tabel ke keadaan sebelumnya dan bersihkan sumber daya.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
global using System.Security.Cryptography.X509Certificates;
global using Amazon.Keyspaces;
global using Amazon.Keyspaces.Model;
global using KeyspacesActions;
global using KeyspacesScenario;
global using Microsoft.Extensions.Configuration;
global using Microsoft.Extensions.DependencyInjection;
global using Microsoft.Extensions.Hosting;
global using Microsoft.Extensions.Logging;
global using Microsoft.Extensions.Logging.Console;
global using Microsoft.Extensions.Logging.Debug;
global using Newtonsoft.Json;


namespace KeyspacesBasics;

/// <summary>
/// Amazon Keyspaces (for Apache Cassandra) scenario. Shows some of the basic
/// actions performed with Amazon Keyspaces.
/// </summary>
public class KeyspacesBasics
{
    private static ILogger logger = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonKeyspaces>()
            .AddTransient<KeyspacesWrapper>()
            .AddTransient<CassandraWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<KeyspacesBasics>();

        var configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load test settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally load local settings.
            .Build();

        var keyspacesWrapper = host.Services.GetRequiredService<KeyspacesWrapper>();
        var uiMethods = new UiMethods();

        var keyspaceName = configuration["KeyspaceName"];
        var tableName = configuration["TableName"];

        bool success; // Used to track the results of some operations.

        uiMethods.DisplayOverview();
        uiMethods.PressEnter();

        // Create the keyspace.
        var keyspaceArn = await keyspacesWrapper.CreateKeyspace(keyspaceName);

        // Wait for the keyspace to be available. GetKeyspace results in a
        // resource not found error until it is ready for use.
        try
        {
            var getKeyspaceArn = "";
            Console.Write($"Created {keyspaceName}. Waiting for it to become available. ");
            do
            {
                getKeyspaceArn = await keyspacesWrapper.GetKeyspace(keyspaceName);
                Console.Write(". ");
            } while (getKeyspaceArn != keyspaceArn);
        }
        catch (ResourceNotFoundException)
        {
            Console.WriteLine("Waiting for keyspace to be created.");
        }

        Console.WriteLine($"\nThe keyspace {keyspaceName} is ready for use.");

        uiMethods.PressEnter();

        // Create the table.
        // First define the schema.
        var allColumns = new List<ColumnDefinition>
        {
            new ColumnDefinition { Name = "title", Type = "text" },
            new ColumnDefinition { Name = "year", Type = "int" },
            new ColumnDefinition { Name = "release_date", Type = "timestamp" },
            new ColumnDefinition { Name = "plot", Type = "text" },
        };

        var partitionKeys = new List<PartitionKey>
        {
            new PartitionKey { Name = "year", },
            new PartitionKey { Name = "title" },
        };

        var tableSchema = new SchemaDefinition
        {
            AllColumns = allColumns,
            PartitionKeys = partitionKeys,
        };

        var tableArn = await keyspacesWrapper.CreateTable(keyspaceName, tableSchema, tableName);

        // Wait for the table to be active.
        try
        {
            var resp = new GetTableResponse();
            Console.Write("Waiting for the new table to be active. ");
            do
            {
                try
                {
                    resp = await keyspacesWrapper.GetTable(keyspaceName, tableName);
                    Console.Write(".");
                }
                catch (ResourceNotFoundException)
                {
                    Console.Write(".");
                }
            } while (resp.Status != TableStatus.ACTIVE);

            // Display the table's schema.
            Console.WriteLine($"\nTable {tableName} has been created in {keyspaceName}");
            Console.WriteLine("Let's take a look at the schema.");
            uiMethods.DisplayTitle("All columns");
            resp.SchemaDefinition.AllColumns.ForEach(column =>
            {
                Console.WriteLine($"{column.Name,-40}\t{column.Type,-20}");
            });

            uiMethods.DisplayTitle("Cluster keys");
            resp.SchemaDefinition.ClusteringKeys.ForEach(clusterKey =>
            {
                Console.WriteLine($"{clusterKey.Name,-40}\t{clusterKey.OrderBy,-20}");
            });

            uiMethods.DisplayTitle("Partition keys");
            resp.SchemaDefinition.PartitionKeys.ForEach(partitionKey =>
            {
                Console.WriteLine($"{partitionKey.Name}");
            });

            uiMethods.PressEnter();
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Error: {ex.Message}");
        }

        // Access Apache Cassandra using the Cassandra drive for C#.
        var cassandraWrapper = host.Services.GetRequiredService<CassandraWrapper>();
        var movieFilePath = configuration["MovieFile"];

        Console.WriteLine("Let's add some movies to the table we created.");
        var inserted = await cassandraWrapper.InsertIntoMovieTable(keyspaceName, tableName, movieFilePath);

        uiMethods.PressEnter();

        Console.WriteLine("Added the following movies to the table:");
        var rows = await cassandraWrapper.GetMovies(keyspaceName, tableName);
        uiMethods.DisplayTitle("All Movies");

        foreach (var row in rows)
        {
            var title = row.GetValue<string>("title");
            var year = row.GetValue<int>("year");
            var plot = row.GetValue<string>("plot");
            var release_date = row.GetValue<DateTime>("release_date");
            Console.WriteLine($"{release_date}\t{title}\t{year}\n{plot}");
            Console.WriteLine(uiMethods.SepBar);
        }

        // Update the table schema
        uiMethods.DisplayTitle("Update table schema");
        Console.WriteLine("Now we will update the table to add a boolean field called watched.");

        // First save the current time as a UTC Date so the original
        // table can be restored later.
        var timeChanged = DateTime.UtcNow;

        // Now update the schema.
        var resourceArn = await keyspacesWrapper.UpdateTable(keyspaceName, tableName);
        uiMethods.PressEnter();

        Console.WriteLine("Now let's mark some of the movies as watched.");

        // Pick some files to mark as watched.
        var movieToWatch = rows[2].GetValue<string>("title");
        var watchedMovieYear = rows[2].GetValue<int>("year");
        var changedRows = await cassandraWrapper.MarkMovieAsWatched(keyspaceName, tableName, movieToWatch, watchedMovieYear);

        movieToWatch = rows[6].GetValue<string>("title");
        watchedMovieYear = rows[6].GetValue<int>("year");
        changedRows = await cassandraWrapper.MarkMovieAsWatched(keyspaceName, tableName, movieToWatch, watchedMovieYear);

        movieToWatch = rows[9].GetValue<string>("title");
        watchedMovieYear = rows[9].GetValue<int>("year");
        changedRows = await cassandraWrapper.MarkMovieAsWatched(keyspaceName, tableName, movieToWatch, watchedMovieYear);

        movieToWatch = rows[10].GetValue<string>("title");
        watchedMovieYear = rows[10].GetValue<int>("year");
        changedRows = await cassandraWrapper.MarkMovieAsWatched(keyspaceName, tableName, movieToWatch, watchedMovieYear);

        movieToWatch = rows[13].GetValue<string>("title");
        watchedMovieYear = rows[13].GetValue<int>("year");
        changedRows = await cassandraWrapper.MarkMovieAsWatched(keyspaceName, tableName, movieToWatch, watchedMovieYear);

        uiMethods.DisplayTitle("Watched movies");
        Console.WriteLine("These movies have been marked as watched:");
        rows = await cassandraWrapper.GetWatchedMovies(keyspaceName, tableName);
        foreach (var row in rows)
        {
            var title = row.GetValue<string>("title");
            var year = row.GetValue<int>("year");
            Console.WriteLine($"{title,-40}\t{year,8}");
        }
        uiMethods.PressEnter();

        Console.WriteLine("We can restore the table to its previous state but that can take up to 20 minutes to complete.");
        string answer;
        do
        {
            Console.WriteLine("Do you want to restore the table? (y/n)");
            answer = Console.ReadLine();
        } while (answer.ToLower() != "y" && answer.ToLower() != "n");

        if (answer == "y")
        {
            var restoredTableName = $"{tableName}_restored";
            var restoredTableArn = await keyspacesWrapper.RestoreTable(
                keyspaceName,
                tableName,
                restoredTableName,
                timeChanged);
            // Loop and call GetTable until the table is gone. Once it has been
            // deleted completely, GetTable will raise a ResourceNotFoundException.
            bool wasRestored = false;

            try
            {
                do
                {
                    var resp = await keyspacesWrapper.GetTable(keyspaceName, restoredTableName);
                    wasRestored = (resp.Status == TableStatus.ACTIVE);
                } while (!wasRestored);
            }
            catch (ResourceNotFoundException)
            {
                // If the restored table raised an error, it isn't
                // ready yet.
                Console.Write(".");
            }
        }

        uiMethods.DisplayTitle("Clean up resources.");

        // Delete the table.
        success = await keyspacesWrapper.DeleteTable(keyspaceName, tableName);

        Console.WriteLine($"Table {tableName} successfully deleted from {keyspaceName}.");
        Console.WriteLine("Waiting for the table to be removed completely. ");

        // Loop and call GetTable until the table is gone. Once it has been
        // deleted completely, GetTable will raise a ResourceNotFoundException.
        bool wasDeleted = false;

        try
        {
            do
            {
                var resp = await keyspacesWrapper.GetTable(keyspaceName, tableName);
            } while (!wasDeleted);
        }
        catch (ResourceNotFoundException ex)
        {
            wasDeleted = true;
            Console.WriteLine($"{ex.Message} indicates that the table has been deleted.");
        }

        // Delete the keyspace.
        success = await keyspacesWrapper.DeleteKeyspace(keyspaceName);
        Console.WriteLine("The keyspace has been deleted and the demo is now complete.");
    }
}
```

```
namespace KeyspacesActions;

/// <summary>
/// Performs Amazon Keyspaces (for Apache Cassandra) actions.
/// </summary>
public class KeyspacesWrapper
{
    private readonly IAmazonKeyspaces _amazonKeyspaces;

    /// <summary>
    /// Constructor for the KeyspaceWrapper.
    /// </summary>
    /// <param name="amazonKeyspaces">An Amazon Keyspaces client object.</param>
    public KeyspacesWrapper(IAmazonKeyspaces amazonKeyspaces)
    {
        _amazonKeyspaces = amazonKeyspaces;
    }

    /// <summary>
    /// Create a new keyspace.
    /// </summary>
    /// <param name="keyspaceName">The name for the new keyspace.</param>
    /// <returns>The Amazon Resource Name (ARN) of the new keyspace.</returns>
    public async Task<string> CreateKeyspace(string keyspaceName)
    {
        var response =
            await _amazonKeyspaces.CreateKeyspaceAsync(
                new CreateKeyspaceRequest { KeyspaceName = keyspaceName });
        return response.ResourceArn;
    }


    /// <summary>
    /// Create a new Amazon Keyspaces table.
    /// </summary>
    /// <param name="keyspaceName">The keyspace where the table will be created.</param>
    /// <param name="schema">The schema for the new table.</param>
    /// <param name="tableName">The name of the new table.</param>
    /// <returns>The Amazon Resource Name (ARN) of the new table.</returns>
    public async Task<string> CreateTable(string keyspaceName, SchemaDefinition schema, string tableName)
    {
        var request = new CreateTableRequest
        {
            KeyspaceName = keyspaceName,
            SchemaDefinition = schema,
            TableName = tableName,
            PointInTimeRecovery = new PointInTimeRecovery { Status = PointInTimeRecoveryStatus.ENABLED }
        };

        var response = await _amazonKeyspaces.CreateTableAsync(request);
        return response.ResourceArn;
    }


    /// <summary>
    /// Delete an existing keyspace.
    /// </summary>
    /// <param name="keyspaceName"></param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteKeyspace(string keyspaceName)
    {
        var response = await _amazonKeyspaces.DeleteKeyspaceAsync(
            new DeleteKeyspaceRequest { KeyspaceName = keyspaceName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete an Amazon Keyspaces table.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteTable(string keyspaceName, string tableName)
    {
        var response = await _amazonKeyspaces.DeleteTableAsync(
            new DeleteTableRequest { KeyspaceName = keyspaceName, TableName = tableName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }


    /// <summary>
    /// Get data about a keyspace.
    /// </summary>
    /// <param name="keyspaceName">The name of the keyspace.</param>
    /// <returns>The Amazon Resource Name (ARN) of the keyspace.</returns>
    public async Task<string> GetKeyspace(string keyspaceName)
    {
        var response = await _amazonKeyspaces.GetKeyspaceAsync(
            new GetKeyspaceRequest { KeyspaceName = keyspaceName });
        return response.ResourceArn;
    }


    /// <summary>
    /// Get information about an Amazon Keyspaces table.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the Amazon Keyspaces table.</param>
    /// <returns>The response containing data about the table.</returns>
    public async Task<GetTableResponse> GetTable(string keyspaceName, string tableName)
    {
        var response = await _amazonKeyspaces.GetTableAsync(
            new GetTableRequest { KeyspaceName = keyspaceName, TableName = tableName });
        return response;
    }


    /// <summary>
    /// Lists all keyspaces for the account.
    /// </summary>
    /// <returns>Async task.</returns>
    public async Task ListKeyspaces()
    {
        var paginator = _amazonKeyspaces.Paginators.ListKeyspaces(new ListKeyspacesRequest());

        Console.WriteLine("{0, -30}\t{1}", "Keyspace name", "Keyspace ARN");
        Console.WriteLine(new string('-', Console.WindowWidth));
        await foreach (var keyspace in paginator.Keyspaces)
        {
            Console.WriteLine($"{keyspace.KeyspaceName,-30}\t{keyspace.ResourceArn}");
        }
    }


    /// <summary>
    /// Lists the Amazon Keyspaces tables in a keyspace.
    /// </summary>
    /// <param name="keyspaceName">The name of the keyspace.</param>
    /// <returns>A list of TableSummary objects.</returns>
    public async Task<List<TableSummary>> ListTables(string keyspaceName)
    {
        var response = await _amazonKeyspaces.ListTablesAsync(new ListTablesRequest { KeyspaceName = keyspaceName });
        response.Tables.ForEach(table =>
        {
            Console.WriteLine($"{table.KeyspaceName}\t{table.TableName}\t{table.ResourceArn}");
        });

        return response.Tables;
    }


    /// <summary>
    /// Restores the specified table to the specified point in time.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table to restore.</param>
    /// <param name="timestamp">The time to which the table will be restored.</param>
    /// <returns>The Amazon Resource Name (ARN) of the restored table.</returns>
    public async Task<string> RestoreTable(string keyspaceName, string tableName, string restoredTableName, DateTime timestamp)
    {
        var request = new RestoreTableRequest
        {
            RestoreTimestamp = timestamp,
            SourceKeyspaceName = keyspaceName,
            SourceTableName = tableName,
            TargetKeyspaceName = keyspaceName,
            TargetTableName = restoredTableName
        };

        var response = await _amazonKeyspaces.RestoreTableAsync(request);
        return response.RestoredTableARN;
    }


    /// <summary>
    /// Updates the movie table to add a boolean column named watched.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table to change.</param>
    /// <returns>The Amazon Resource Name (ARN) of the updated table.</returns>
    public async Task<string> UpdateTable(string keyspaceName, string tableName)
    {
        var newColumn = new ColumnDefinition { Name = "watched", Type = "boolean" };
        var request = new UpdateTableRequest
        {
            KeyspaceName = keyspaceName,
            TableName = tableName,
            AddColumns = new List<ColumnDefinition> { newColumn }
        };
        var response = await _amazonKeyspaces.UpdateTableAsync(request);
        return response.ResourceArn;
    }

}
```

```
using System.Net;
using Cassandra;

namespace KeyspacesScenario;

/// <summary>
/// Class to perform CRUD methods on an Amazon Keyspaces (for Apache Cassandra) database.
///
/// NOTE: This sample uses a plain text authenticator for example purposes only.
/// Recommended best practice is to use a SigV4 authentication plugin, if available.
/// </summary>
public class CassandraWrapper
{
    private readonly IConfiguration _configuration;
    private readonly string _localPathToFile;
    private const string _certLocation = "https://certs.secureserver.net/repository/sf-class2-root.crt";
    private const string _certFileName = "sf-class2-root.crt";
    private readonly X509Certificate2Collection _certCollection;
    private X509Certificate2 _amazoncert;
    private Cluster _cluster;

    // User name and password for the service.
    private string _userName = null!;
    private string _pwd = null!;

    public CassandraWrapper()
    {
        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load test settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally load local settings.
            .Build();

        _localPathToFile = Path.GetTempPath();

        // Get the Starfield digital certificate and save it locally.
        var client = new WebClient();
        client.DownloadFile(_certLocation, $"{_localPathToFile}/{_certFileName}");

        //var httpClient = new HttpClient();
        //var httpResult = httpClient.Get(fileUrl);
        //using var resultStream = await httpResult.Content.ReadAsStreamAsync();
        //using var fileStream = File.Create(pathToSave);
        //resultStream.CopyTo(fileStream);

        _certCollection = new X509Certificate2Collection();
        _amazoncert = new X509Certificate2($"{_localPathToFile}/{_certFileName}");

        // Get the user name and password stored in the configuration file.
        _userName = _configuration["UserName"]!;
        _pwd = _configuration["Password"]!;

        // For a list of Service Endpoints for Amazon Keyspaces, see:
        // https://docs.aws.amazon.com/keyspaces/latest/devguide/programmatic.endpoints.html
        var awsEndpoint = _configuration["ServiceEndpoint"];

        _cluster = Cluster.Builder()
            .AddContactPoints(awsEndpoint)
            .WithPort(9142)
            .WithAuthProvider(new PlainTextAuthProvider(_userName, _pwd))
            .WithSSL(new SSLOptions().SetCertificateCollection(_certCollection))
            .WithQueryOptions(
                new QueryOptions()
                    .SetConsistencyLevel(ConsistencyLevel.LocalQuorum)
                    .SetSerialConsistencyLevel(ConsistencyLevel.LocalSerial))
            .Build();
    }

    /// <summary>
    /// Loads the contents of a JSON file into a list of movies to be
    /// added to the Apache Cassandra table.
    /// </summary>
    /// <param name="movieFileName">The full path to the JSON file.</param>
    /// <returns>A list of movie objects.</returns>
    public List<Movie> ImportMoviesFromJson(string movieFileName, int numToImport = 0)
    {
        if (!File.Exists(movieFileName))
        {
            return null!;
        }

        using var sr = new StreamReader(movieFileName);
        string json = sr.ReadToEnd();

        var allMovies = JsonConvert.DeserializeObject<List<Movie>>(json);

        // If numToImport = 0, return all movies in the collection.
        if (numToImport == 0)
        {
            // Now return the entire list of movies.
            return allMovies;
        }
        else
        {
            // Now return the first numToImport entries.
            return allMovies.GetRange(0, numToImport);
        }
    }

    /// <summary>
    /// Insert movies into the movie table.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="movieTableName">The Amazon Keyspaces table.</param>
    /// <param name="movieFilePath">The path to the resource file containing
    /// movie data to insert into the table.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> InsertIntoMovieTable(string keyspaceName, string movieTableName, string movieFilePath, int numToImport = 20)
    {
        // Get some movie data from the movies.json file
        var movies = ImportMoviesFromJson(movieFilePath, numToImport);

        var session = _cluster.Connect(keyspaceName);

        string insertCql;

        RowSet rs;

        // Now we insert the numToImport movies into the table.
        foreach (var movie in movies)
        {
            // Escape single quote characters in the plot.
            insertCql = $"INSERT INTO {keyspaceName}.{movieTableName} (title, year, release_date, plot) values($${movie.Title}$$, {movie.Year}, '{movie.Info.Release_Date.ToString("yyyy-MM-dd")}', $${movie.Info.Plot}$$)";
            rs = await session.ExecuteAsync(new SimpleStatement(insertCql));
        }

        return true;
    }

    /// <summary>
    /// Gets all of the movies in the movies table.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table.</param>
    /// <returns>A list of row objects containing movie data.</returns>
    public async Task<List<Row>> GetMovies(string keyspaceName, string tableName)
    {
        var session = _cluster.Connect();
        RowSet rs;
        try
        {
            rs = await session.ExecuteAsync(new SimpleStatement($"SELECT * FROM {keyspaceName}.{tableName}"));

            // Extract the row data from the returned RowSet.
            var rows = rs.GetRows().ToList();
            return rows;
        }
        catch (Exception ex)
        {
            Console.WriteLine(ex.Message);
            return null!;
        }
    }

    /// <summary>
    /// Mark a movie in the movie table as watched.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table.</param>
    /// <param name="title">The title of the movie to mark as watched.</param>
    /// <param name="year">The year the movie was released.</param>
    /// <returns>A set of rows containing the changed data.</returns>
    public async Task<List<Row>> MarkMovieAsWatched(string keyspaceName, string tableName, string title, int year)
    {
        var session = _cluster.Connect();
        string updateCql = $"UPDATE {keyspaceName}.{tableName} SET watched=true WHERE title = $${title}$$ AND year = {year};";
        var rs = await session.ExecuteAsync(new SimpleStatement(updateCql));
        var rows = rs.GetRows().ToList();
        return rows;
    }

    /// <summary>
    /// Retrieve the movies in the movies table where watched is true.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table.</param>
    /// <returns>A list of row objects containing information about movies
    /// where watched is true.</returns>
    public async Task<List<Row>> GetWatchedMovies(string keyspaceName, string tableName)
    {
        var session = _cluster.Connect();
        RowSet rs;
        try
        {
            rs = await session.ExecuteAsync(new SimpleStatement($"SELECT title, year, plot FROM {keyspaceName}.{tableName} WHERE watched = true ALLOW FILTERING"));

            // Extract the row data from the returned RowSet.
            var rows = rs.GetRows().ToList();
            return rows;
        }
        catch (Exception ex)
        {
            Console.WriteLine(ex.Message);
            return null!;
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateKeyspace](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/CreateKeyspace)
  + [CreateTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/CreateTable)
  + [DeleteKeyspace](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/DeleteKeyspace)
  + [DeleteTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/DeleteTable)
  + [GetKeyspace](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/GetKeyspace)
  + [GetTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/GetTable)
  + [ListKeyspaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/ListKeyspaces)
  + [ListTables](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/ListTables)
  + [RestoreTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/RestoreTable)
  + [UpdateTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/UpdateTable)

## Tindakan
<a name="actions"></a>

### `CreateKeyspace`
<a name="keyspaces_CreateKeyspace_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyspace`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Create a new keyspace.
    /// </summary>
    /// <param name="keyspaceName">The name for the new keyspace.</param>
    /// <returns>The Amazon Resource Name (ARN) of the new keyspace.</returns>
    public async Task<string> CreateKeyspace(string keyspaceName)
    {
        var response =
            await _amazonKeyspaces.CreateKeyspaceAsync(
                new CreateKeyspaceRequest { KeyspaceName = keyspaceName });
        return response.ResourceArn;
    }
```
+  Untuk detail API, lihat [CreateKeyspace](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/CreateKeyspace)di *Referensi AWS SDK untuk .NET API*. 

### `CreateTable`
<a name="keyspaces_CreateTable_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Create a new Amazon Keyspaces table.
    /// </summary>
    /// <param name="keyspaceName">The keyspace where the table will be created.</param>
    /// <param name="schema">The schema for the new table.</param>
    /// <param name="tableName">The name of the new table.</param>
    /// <returns>The Amazon Resource Name (ARN) of the new table.</returns>
    public async Task<string> CreateTable(string keyspaceName, SchemaDefinition schema, string tableName)
    {
        var request = new CreateTableRequest
        {
            KeyspaceName = keyspaceName,
            SchemaDefinition = schema,
            TableName = tableName,
            PointInTimeRecovery = new PointInTimeRecovery { Status = PointInTimeRecoveryStatus.ENABLED }
        };

        var response = await _amazonKeyspaces.CreateTableAsync(request);
        return response.ResourceArn;
    }
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/CreateTable)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteKeyspace`
<a name="keyspaces_DeleteKeyspace_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyspace`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Delete an existing keyspace.
    /// </summary>
    /// <param name="keyspaceName"></param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteKeyspace(string keyspaceName)
    {
        var response = await _amazonKeyspaces.DeleteKeyspaceAsync(
            new DeleteKeyspaceRequest { KeyspaceName = keyspaceName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteKeyspace](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/DeleteKeyspace)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteTable`
<a name="keyspaces_DeleteTable_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Delete an Amazon Keyspaces table.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table to delete.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteTable(string keyspaceName, string tableName)
    {
        var response = await _amazonKeyspaces.DeleteTableAsync(
            new DeleteTableRequest { KeyspaceName = keyspaceName, TableName = tableName });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/DeleteTable)di *Referensi AWS SDK untuk .NET API*. 

### `GetKeyspace`
<a name="keyspaces_GetKeyspace_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetKeyspace`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Get data about a keyspace.
    /// </summary>
    /// <param name="keyspaceName">The name of the keyspace.</param>
    /// <returns>The Amazon Resource Name (ARN) of the keyspace.</returns>
    public async Task<string> GetKeyspace(string keyspaceName)
    {
        var response = await _amazonKeyspaces.GetKeyspaceAsync(
            new GetKeyspaceRequest { KeyspaceName = keyspaceName });
        return response.ResourceArn;
    }
```
+  Untuk detail API, lihat [GetKeyspace](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/GetKeyspace)di *Referensi AWS SDK untuk .NET API*. 

### `GetTable`
<a name="keyspaces_GetTable_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTable`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Get information about an Amazon Keyspaces table.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the Amazon Keyspaces table.</param>
    /// <returns>The response containing data about the table.</returns>
    public async Task<GetTableResponse> GetTable(string keyspaceName, string tableName)
    {
        var response = await _amazonKeyspaces.GetTableAsync(
            new GetTableRequest { KeyspaceName = keyspaceName, TableName = tableName });
        return response;
    }
```
+  Untuk detail API, lihat [GetTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/GetTable)di *Referensi AWS SDK untuk .NET API*. 

### `ListKeyspaces`
<a name="keyspaces_ListKeyspaces_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeyspaces`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Lists all keyspaces for the account.
    /// </summary>
    /// <returns>Async task.</returns>
    public async Task ListKeyspaces()
    {
        var paginator = _amazonKeyspaces.Paginators.ListKeyspaces(new ListKeyspacesRequest());

        Console.WriteLine("{0, -30}\t{1}", "Keyspace name", "Keyspace ARN");
        Console.WriteLine(new string('-', Console.WindowWidth));
        await foreach (var keyspace in paginator.Keyspaces)
        {
            Console.WriteLine($"{keyspace.KeyspaceName,-30}\t{keyspace.ResourceArn}");
        }
    }
```
+  Untuk detail API, lihat [ListKeyspaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/ListKeyspaces)di *Referensi AWS SDK untuk .NET API*. 

### `ListTables`
<a name="keyspaces_ListTables_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Lists the Amazon Keyspaces tables in a keyspace.
    /// </summary>
    /// <param name="keyspaceName">The name of the keyspace.</param>
    /// <returns>A list of TableSummary objects.</returns>
    public async Task<List<TableSummary>> ListTables(string keyspaceName)
    {
        var response = await _amazonKeyspaces.ListTablesAsync(new ListTablesRequest { KeyspaceName = keyspaceName });
        response.Tables.ForEach(table =>
        {
            Console.WriteLine($"{table.KeyspaceName}\t{table.TableName}\t{table.ResourceArn}");
        });

        return response.Tables;
    }
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/ListTables)di *Referensi AWS SDK untuk .NET API*. 

### `RestoreTable`
<a name="keyspaces_RestoreTable_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RestoreTable`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Restores the specified table to the specified point in time.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table to restore.</param>
    /// <param name="timestamp">The time to which the table will be restored.</param>
    /// <returns>The Amazon Resource Name (ARN) of the restored table.</returns>
    public async Task<string> RestoreTable(string keyspaceName, string tableName, string restoredTableName, DateTime timestamp)
    {
        var request = new RestoreTableRequest
        {
            RestoreTimestamp = timestamp,
            SourceKeyspaceName = keyspaceName,
            SourceTableName = tableName,
            TargetKeyspaceName = keyspaceName,
            TargetTableName = restoredTableName
        };

        var response = await _amazonKeyspaces.RestoreTableAsync(request);
        return response.RestoredTableARN;
    }
```
+  Untuk detail API, lihat [RestoreTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/RestoreTable)di *Referensi AWS SDK untuk .NET API*. 

### `UpdateTable`
<a name="keyspaces_UpdateTable_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTable`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Keyspaces#code-examples). 

```
    /// <summary>
    /// Updates the movie table to add a boolean column named watched.
    /// </summary>
    /// <param name="keyspaceName">The keyspace containing the table.</param>
    /// <param name="tableName">The name of the table to change.</param>
    /// <returns>The Amazon Resource Name (ARN) of the updated table.</returns>
    public async Task<string> UpdateTable(string keyspaceName, string tableName)
    {
        var newColumn = new ColumnDefinition { Name = "watched", Type = "boolean" };
        var request = new UpdateTableRequest
        {
            KeyspaceName = keyspaceName,
            TableName = tableName,
            AddColumns = new List<ColumnDefinition> { newColumn }
        };
        var response = await _amazonKeyspaces.UpdateTableAsync(request);
        return response.ResourceArn;
    }
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/goto/DotNetSDKV3/keyspaces-2022-02-10/UpdateTable)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Kinesis menggunakan SDK untuk .NET
<a name="csharp_3_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET Kinesis with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `AddTagsToStream`
<a name="kinesis_AddTagsToStream_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddTagsToStream`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Kinesis#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Kinesis;
    using Amazon.Kinesis.Model;

    /// <summary>
    /// This example shows how to apply key/value pairs to an Amazon Kinesis
    /// stream.
    /// </summary>
    public class TagStream
    {
        public static async Task Main()
        {
            IAmazonKinesis client = new AmazonKinesisClient();

            string streamName = "AmazonKinesisStream";
            var tags = new Dictionary<string, string>
            {
                { "Project", "Sample Kinesis Project" },
                { "Application", "Sample Kinesis App" },
            };

            var success = await ApplyTagsToStreamAsync(client, streamName, tags);

            if (success)
            {
                Console.WriteLine($"Taggs successfully added to {streamName}.");
            }
            else
            {
                Console.WriteLine("Tags were not added to the stream.");
            }
        }

        /// <summary>
        /// Applies the set of tags to the named Kinesis stream.
        /// </summary>
        /// <param name="client">The initialized Kinesis client.</param>
        /// <param name="streamName">The name of the Kinesis stream to which
        /// the tags will be attached.</param>
        /// <param name="tags">A sictionary containing key/value pairs which
        /// will be used to create the Kinesis tags.</param>
        /// <returns>A Boolean value which represents the success or failure
        /// of AddTagsToStreamAsync.</returns>
        public static async Task<bool> ApplyTagsToStreamAsync(
            IAmazonKinesis client,
            string streamName,
            Dictionary<string, string> tags)
        {
            var request = new AddTagsToStreamRequest
            {
                StreamName = streamName,
                Tags = tags,
            };

            var response = await client.AddTagsToStreamAsync(request);

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
    }
```
+  Untuk detail API, lihat [AddTagsToStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/kinesis-2013-12-02/AddTagsToStream)di *Referensi AWS SDK untuk .NET API*. 

### `CreateStream`
<a name="kinesis_CreateStream_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStream`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Kinesis#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Kinesis;
    using Amazon.Kinesis.Model;

    /// <summary>
    /// This example shows how to create a new Amazon Kinesis stream.
    /// </summary>
    public class CreateStream
    {
        public static async Task Main()
        {
            IAmazonKinesis client = new AmazonKinesisClient();

            string streamName = "AmazonKinesisStream";
            int shardCount = 1;

            var success = await CreateNewStreamAsync(client, streamName, shardCount);
            if (success)
            {
                Console.WriteLine($"The stream, {streamName} successfully created.");
            }
        }

        /// <summary>
        /// Creates a new Kinesis stream.
        /// </summary>
        /// <param name="client">An initialized Kinesis client.</param>
        /// <param name="streamName">The name for the new stream.</param>
        /// <param name="shardCount">The number of shards the new stream will
        /// use. The throughput of the stream is a function of the number of
        /// shards; more shards are required for greater provisioned
        /// throughput.</param>
        /// <returns>A Boolean value indicating whether the stream was created.</returns>
        public static async Task<bool> CreateNewStreamAsync(IAmazonKinesis client, string streamName, int shardCount)
        {
            var request = new CreateStreamRequest
            {
                StreamName = streamName,
                ShardCount = shardCount,
            };

            var response = await client.CreateStreamAsync(request);

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
    }
```
+  Untuk detail API, lihat [CreateStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/kinesis-2013-12-02/CreateStream)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteStream`
<a name="kinesis_DeleteStream_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStream`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Kinesis#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Kinesis;
    using Amazon.Kinesis.Model;

    /// <summary>
    /// Shows how to delete an Amazon Kinesis stream.
    /// </summary>
    public class DeleteStream
    {
        public static async Task Main()
        {
            IAmazonKinesis client = new AmazonKinesisClient();
            string streamName = "AmazonKinesisStream";

            var success = await DeleteStreamAsync(client, streamName);

            if (success)
            {
                Console.WriteLine($"Stream, {streamName} successfully deleted.");
            }
            else
            {
                Console.WriteLine("Stream not deleted.");
            }
        }

        /// <summary>
        /// Deletes a Kinesis stream.
        /// </summary>
        /// <param name="client">An initialized Kinesis client object.</param>
        /// <param name="streamName">The name of the string to delete.</param>
        /// <returns>A Boolean value representing the success of the operation.</returns>
        public static async Task<bool> DeleteStreamAsync(IAmazonKinesis client, string streamName)
        {
            // If EnforceConsumerDeletion is true, any consumers
            // of this stream will also be deleted. If it is set
            // to false and this stream has any consumers, the
            // call will fail with a ResourceInUseException.
            var request = new DeleteStreamRequest
            {
                StreamName = streamName,
                EnforceConsumerDeletion = true,
            };

            var response = await client.DeleteStreamAsync(request);

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
    }
```
+  Untuk detail API, lihat [DeleteStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/kinesis-2013-12-02/DeleteStream)di *Referensi AWS SDK untuk .NET API*. 

### `DeregisterStreamConsumer`
<a name="kinesis_DeregisterStreamConsumer_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeregisterStreamConsumer`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Kinesis#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Kinesis;
    using Amazon.Kinesis.Model;

    /// <summary>
    /// Shows how to deregister a consumer from an Amazon Kinesis stream.
    /// </summary>
    public class DeregisterConsumer
    {
        public static async Task Main(string[] args)
        {
            IAmazonKinesis client = new AmazonKinesisClient();

            string streamARN = "arn:aws:kinesis:us-west-2:000000000000:stream/AmazonKinesisStream";
            string consumerName = "CONSUMER_NAME";
            string consumerARN = "arn:aws:kinesis:us-west-2:000000000000:stream/AmazonKinesisStream/consumer/CONSUMER_NAME:000000000000";

            var success = await DeregisterConsumerAsync(client, streamARN, consumerARN, consumerName);

            if (success)
            {
                Console.WriteLine($"{consumerName} successfully deregistered.");
            }
            else
            {
                Console.WriteLine($"{consumerName} was not successfully deregistered.");
            }
        }

        /// <summary>
        /// Deregisters a consumer from a Kinesis stream.
        /// </summary>
        /// <param name="client">An initialized Kinesis client object.</param>
        /// <param name="streamARN">The ARN of a Kinesis stream.</param>
        /// <param name="consumerARN">The ARN of the consumer.</param>
        /// <param name="consumerName">The name of the consumer.</param>
        /// <returns>A Boolean value representing the success of the operation.</returns>
        public static async Task<bool> DeregisterConsumerAsync(
            IAmazonKinesis client,
            string streamARN,
            string consumerARN,
            string consumerName)
        {
            var request = new DeregisterStreamConsumerRequest
            {
                StreamARN = streamARN,
                ConsumerARN = consumerARN,
                ConsumerName = consumerName,
            };

            var response = await client.DeregisterStreamConsumerAsync(request);

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
    }
```
+  Untuk detail API, lihat [DeregisterStreamConsumer](https://docs.aws.amazon.com/goto/DotNetSDKV3/kinesis-2013-12-02/DeregisterStreamConsumer)di *Referensi AWS SDK untuk .NET API*. 

### `ListStreamConsumers`
<a name="kinesis_ListStreamConsumers_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStreamConsumers`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Kinesis#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Kinesis;
    using Amazon.Kinesis.Model;

    /// <summary>
    /// List the consumers of an Amazon Kinesis stream.
    /// </summary>
    public class ListConsumers
    {
        public static async Task Main()
        {
            IAmazonKinesis client = new AmazonKinesisClient();

            string streamARN = "arn:aws:kinesis:us-east-2:000000000000:stream/AmazonKinesisStream";
            int maxResults = 10;

            var consumers = await ListConsumersAsync(client, streamARN, maxResults);

            if (consumers.Count > 0)
            {
                consumers
                    .ForEach(c => Console.WriteLine($"Name: {c.ConsumerName} ARN: {c.ConsumerARN}"));
            }
            else
            {
                Console.WriteLine("No consumers found.");
            }
        }

        /// <summary>
        /// Retrieve a list of the consumers for a Kinesis stream.
        /// </summary>
        /// <param name="client">An initialized Kinesis client object.</param>
        /// <param name="streamARN">The ARN of the stream for which we want to
        /// retrieve a list of clients.</param>
        /// <param name="maxResults">The maximum number of results to return.</param>
        /// <returns>A list of Consumer objects.</returns>
        public static async Task<List<Consumer>> ListConsumersAsync(IAmazonKinesis client, string streamARN, int maxResults)
        {
            var request = new ListStreamConsumersRequest
            {
                StreamARN = streamARN,
                MaxResults = maxResults,
            };

            var response = await client.ListStreamConsumersAsync(request);

            return response.Consumers;
        }
    }
```
+  Untuk detail API, lihat [ListStreamConsumers](https://docs.aws.amazon.com/goto/DotNetSDKV3/kinesis-2013-12-02/ListStreamConsumers)di *Referensi AWS SDK untuk .NET API*. 

### `ListStreams`
<a name="kinesis_ListStreams_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStreams`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Kinesis#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Kinesis;
    using Amazon.Kinesis.Model;

    /// <summary>
    /// Retrieves and displays a list of existing Amazon Kinesis streams.
    /// </summary>
    public class ListStreams
    {
        public static async Task Main(string[] args)
        {
            IAmazonKinesis client = new AmazonKinesisClient();
            var response = await client.ListStreamsAsync(new ListStreamsRequest());

            List<string> streamNames = response.StreamNames;

            if (streamNames.Count > 0)
            {
                streamNames
                    .ForEach(s => Console.WriteLine($"Stream name: {s}"));
            }
            else
            {
                Console.WriteLine("No streams were found.");
            }
        }
    }
```
+  Untuk detail API, lihat [ListStreams](https://docs.aws.amazon.com/goto/DotNetSDKV3/kinesis-2013-12-02/ListStreams)di *Referensi AWS SDK untuk .NET API*. 

### `ListTagsForStream`
<a name="kinesis_ListTagsForStream_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForStream`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Kinesis#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Kinesis;
    using Amazon.Kinesis.Model;

    /// <summary>
    /// Shows how to list the tags that have been attached to an Amazon Kinesis
    /// stream.
    /// </summary>
    public class ListTags
    {
        public static async Task Main()
        {
            IAmazonKinesis client = new AmazonKinesisClient();
            string streamName = "AmazonKinesisStream";

            await ListTagsAsync(client, streamName);
        }

        /// <summary>
        /// List the tags attached to a Kinesis stream.
        /// </summary>
        /// <param name="client">An initialized Kinesis client object.</param>
        /// <param name="streamName">The name of the Kinesis stream for which you
        /// wish to display tags.</param>
        public static async Task ListTagsAsync(IAmazonKinesis client, string streamName)
        {
            var request = new ListTagsForStreamRequest
            {
                StreamName = streamName,
                Limit = 10,
            };

            var response = await client.ListTagsForStreamAsync(request);
            DisplayTags(response.Tags);

            while (response.HasMoreTags)
            {
                request.ExclusiveStartTagKey = response.Tags[response.Tags.Count - 1].Key;
                response = await client.ListTagsForStreamAsync(request);
            }
        }

        /// <summary>
        /// Displays the items in a list of Kinesis tags.
        /// </summary>
        /// <param name="tags">A list of the Tag objects to be displayed.</param>
        public static void DisplayTags(List<Tag> tags)
        {
            tags
                .ForEach(t => Console.WriteLine($"Key: {t.Key} Value: {t.Value}"));
        }
    }
```
+  Untuk detail API, lihat [ListTagsForStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/kinesis-2013-12-02/ListTagsForStream)di *Referensi AWS SDK untuk .NET API*. 

### `RegisterStreamConsumer`
<a name="kinesis_RegisterStreamConsumer_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RegisterStreamConsumer`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Kinesis#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Kinesis;
    using Amazon.Kinesis.Model;

    /// <summary>
    /// This example shows how to register a consumer to an Amazon Kinesis
    /// stream.
    /// </summary>
    public class RegisterConsumer
    {
        public static async Task Main()
        {
            IAmazonKinesis client = new AmazonKinesisClient();
            string consumerName = "NEW_CONSUMER_NAME";
            string streamARN = "arn:aws:kinesis:us-east-2:000000000000:stream/AmazonKinesisStream";

            var consumer = await RegisterConsumerAsync(client, consumerName, streamARN);

            if (consumer is not null)
            {
                Console.WriteLine($"{consumer.ConsumerName}");
            }
        }

        /// <summary>
        /// Registers the consumer to a Kinesis stream.
        /// </summary>
        /// <param name="client">The initialized Kinesis client object.</param>
        /// <param name="consumerName">A string representing the consumer.</param>
        /// <param name="streamARN">The ARN of the stream.</param>
        /// <returns>A Consumer object that contains information about the consumer.</returns>
        public static async Task<Consumer> RegisterConsumerAsync(IAmazonKinesis client, string consumerName, string streamARN)
        {
            var request = new RegisterStreamConsumerRequest
            {
                ConsumerName = consumerName,
                StreamARN = streamARN,
            };

            var response = await client.RegisterStreamConsumerAsync(request);
            return response.Consumer;
        }
    }
```
+  Untuk detail API, lihat [RegisterStreamConsumer](https://docs.aws.amazon.com/goto/DotNetSDKV3/kinesis-2013-12-02/RegisterStreamConsumer)di *Referensi AWS SDK untuk .NET API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Text;
using Amazon.Lambda.Core;
using Amazon.Lambda.KinesisEvents;
using AWS.Lambda.Powertools.Logging;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace KinesisIntegrationSampleCode;

public class Function
{
    // Powertools Logger requires an environment variables against your function
    // POWERTOOLS_SERVICE_NAME
    [Logging(LogEvent = true)]
    public async Task FunctionHandler(KinesisEvent evnt, ILambdaContext context)
    {
        if (evnt.Records.Count == 0)
        {
            Logger.LogInformation("Empty Kinesis Event received");
            return;
        }

        foreach (var record in evnt.Records)
        {
            try
            {
                Logger.LogInformation($"Processed Event with EventId: {record.EventId}");
                string data = await GetRecordDataAsync(record.Kinesis, context);
                Logger.LogInformation($"Data: {data}");
                // TODO: Do interesting work based on the new data
            }
            catch (Exception ex)
            {
                Logger.LogError($"An error occurred {ex.Message}");
                throw;
            }
        }
        Logger.LogInformation($"Successfully processed {evnt.Records.Count} records.");
    }

    private async Task<string> GetRecordDataAsync(KinesisEvent.Record record, ILambdaContext context)
    {
        byte[] bytes = record.Data.ToArray();
        string data = Encoding.UTF8.GetString(bytes);
        await Task.CompletedTask; //Placeholder for actual async work
        return data;
    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Text;
using System.Text.Json.Serialization;
using Amazon.Lambda.Core;
using Amazon.Lambda.KinesisEvents;
using AWS.Lambda.Powertools.Logging;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace KinesisIntegration;

public class Function
{
    // Powertools Logger requires an environment variables against your function
    // POWERTOOLS_SERVICE_NAME
    [Logging(LogEvent = true)]
    public async Task<StreamsEventResponse> FunctionHandler(KinesisEvent evnt, ILambdaContext context)
    {
        if (evnt.Records.Count == 0)
        {
            Logger.LogInformation("Empty Kinesis Event received");
            return new StreamsEventResponse();
        }

        foreach (var record in evnt.Records)
        {
            try
            {
                Logger.LogInformation($"Processed Event with EventId: {record.EventId}");
                string data = await GetRecordDataAsync(record.Kinesis, context);
                Logger.LogInformation($"Data: {data}");
                // TODO: Do interesting work based on the new data
            }
            catch (Exception ex)
            {
                Logger.LogError($"An error occurred {ex.Message}");
                /* Since we are working with streams, we can return the failed item immediately.
                   Lambda will immediately begin to retry processing from this failed item onwards. */
                return new StreamsEventResponse
                {
                    BatchItemFailures = new List<StreamsEventResponse.BatchItemFailure>
                    {
                        new StreamsEventResponse.BatchItemFailure { ItemIdentifier = record.Kinesis.SequenceNumber }
                    }
                };
            }
        }
        Logger.LogInformation($"Successfully processed {evnt.Records.Count} records.");
        return new StreamsEventResponse();
    }

    private async Task<string> GetRecordDataAsync(KinesisEvent.Record record, ILambdaContext context)
    {
        byte[] bytes = record.Data.ToArray();
        string data = Encoding.UTF8.GetString(bytes);
        await Task.CompletedTask; //Placeholder for actual async work
        return data;
    }
}

public class StreamsEventResponse
{
    [JsonPropertyName("batchItemFailures")]
    public IList<BatchItemFailure> BatchItemFailures { get; set; }
    public class BatchItemFailure
    {
        [JsonPropertyName("itemIdentifier")]
        public string ItemIdentifier { get; set; }
    }
}
```

# AWS KMS contoh menggunakan SDK untuk .NET
<a name="csharp_3_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with AWS KMS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateAlias`
<a name="kms_CreateAlias_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAlias`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.KeyManagementService;
    using Amazon.KeyManagementService.Model;

    /// <summary>
    /// Creates an alias for an AWS Key Management Service (AWS KMS) key.
    /// </summary>
    public class CreateAlias
    {
        public static async Task Main()
        {
            var client = new AmazonKeyManagementServiceClient();

            // The alias name must start with alias/ and can be
            // up to 256 alphanumeric characters long.
            var aliasName = "alias/ExampleAlias";

            // The value supplied as the TargetKeyId can be either
            // the key ID or key Amazon Resource Name (ARN) of the
            // AWS KMS key.
            var keyId = "1234abcd-12ab-34cd-56ef-1234567890ab";

            var request = new CreateAliasRequest
            {
                AliasName = aliasName,
                TargetKeyId = keyId,
            };

            var response = await client.CreateAliasAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Alias, {aliasName}, successfully created.");
            }
            else
            {
                Console.WriteLine($"Could not create alias.");
            }
        }
    }
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/CreateAlias)di *Referensi AWS SDK untuk .NET API*. 

### `CreateGrant`
<a name="kms_CreateGrant_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGrant`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
        public static async Task Main()
        {
            var client = new AmazonKeyManagementServiceClient();

            // The identity that is given permission to perform the operations
            // specified in the grant.
            var grantee = "arn:aws:iam::111122223333:role/ExampleRole";

            // The identifier of the AWS KMS key to which the grant applies. You
            // can use the key ID or the Amazon Resource Name (ARN) of the KMS key.
            var keyId = "7c9eccc2-38cb-4c4f-9db3-766ee8dd3ad4";

            var request = new CreateGrantRequest
            {
                GranteePrincipal = grantee,
                KeyId = keyId,

                // A list of operations that the grant allows.
                Operations = new List<string>
                {
                    "Encrypt",
                    "Decrypt",
                },
            };

            var response = await client.CreateGrantAsync(request);

            string grantId = response.GrantId; // The unique identifier of the grant.
            string grantToken = response.GrantToken; // The grant token.

            Console.WriteLine($"Id: {grantId}, Token: {grantToken}");
        }
    }
```
+  Untuk detail API, lihat [CreateGrant](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/CreateGrant)di *Referensi AWS SDK untuk .NET API*. 

### `CreateKey`
<a name="kms_CreateKey_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.KeyManagementService;
    using Amazon.KeyManagementService.Model;

    /// <summary>
    /// Shows how to create a new AWS Key Management Service (AWS KMS)
    /// key.
    /// </summary>
    public class CreateKey
    {
        public static async Task Main()
        {
            // Note that if you need to create a Key in an AWS Region
            // other than the Region defined for the default user, you need to
            // pass the Region to the client constructor.
            var client = new AmazonKeyManagementServiceClient();

            // The call to CreateKeyAsync will create a symmetrical AWS KMS
            // key. For more information about symmetrical and asymmetrical
            // keys, see:
            //
            // https://docs.aws.amazon.com/kms/latest/developerguide/symm-asymm-choose.html
            var response = await client.CreateKeyAsync(new CreateKeyRequest());

            // The KeyMetadata object contains information about the new AWS KMS key.
            KeyMetadata keyMetadata = response.KeyMetadata;

            if (keyMetadata is not null)
            {
                Console.WriteLine($"KMS Key: {keyMetadata.KeyId} was successfully created.");
            }
            else
            {
                Console.WriteLine("Could not create KMS Key.");
            }
        }
    }
```
+  Untuk detail API, lihat [CreateKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/CreateKey)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeKey`
<a name="kms_DescribeKey_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKey`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.KeyManagementService;
    using Amazon.KeyManagementService.Model;

    /// <summary>
    /// Retrieve information about an AWS Key Management Service (AWS KMS) key.
    /// You can supply either the key Id or the key Amazon Resource Name (ARN)
    /// to the DescribeKeyRequest KeyId property.
    /// </summary>
    public class DescribeKey
    {
        public static async Task Main()
        {
            var keyId = "7c9eccc2-38cb-4c4f-9db3-766ee8dd3ad4";
            var request = new DescribeKeyRequest
            {
                KeyId = keyId,
            };

            var client = new AmazonKeyManagementServiceClient();

            var response = await client.DescribeKeyAsync(request);
            var metadata = response.KeyMetadata;

            Console.WriteLine($"{metadata.KeyId} created on: {metadata.CreationDate}");
            Console.WriteLine($"State: {metadata.KeyState}");
            Console.WriteLine($"{metadata.Description}");
        }
    }
```
+  Untuk detail API, lihat [DescribeKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/DescribeKey)di *Referensi AWS SDK untuk .NET API*. 

### `DisableKey`
<a name="kms_DisableKey_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableKey`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.KeyManagementService;
    using Amazon.KeyManagementService.Model;

    /// <summary>
    /// Disable an AWS Key Management Service (AWS KMS) key and then retrieve
    /// the key's status to show that it has been disabled.
    /// </summary>
    public class DisableKey
    {
        public static async Task Main()
        {
            var client = new AmazonKeyManagementServiceClient();

            // The identifier of the AWS KMS key to disable. You can use the
            // key Id or the Amazon Resource Name (ARN) of the AWS KMS key.
            var keyId = "1234abcd-12ab-34cd-56ef-1234567890ab";

            var request = new DisableKeyRequest
            {
                KeyId = keyId,
            };

            var response = await client.DisableKeyAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                // Retrieve information about the key to show that it has now
                // been disabled.
                var describeResponse = await client.DescribeKeyAsync(new DescribeKeyRequest
                {
                    KeyId = keyId,
                });
                Console.WriteLine($"{describeResponse.KeyMetadata.KeyId} - state: {describeResponse.KeyMetadata.KeyState}");
            }
        }
    }
```
+  Untuk detail API, lihat [DisableKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/DisableKey)di *Referensi AWS SDK untuk .NET API*. 

### `EnableKey`
<a name="kms_EnableKey_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableKey`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.KeyManagementService;
    using Amazon.KeyManagementService.Model;

    /// <summary>
    /// Enable an AWS Key Management Service (AWS KMS) key.
    /// </summary>
    public class EnableKey
    {
        public static async Task Main()
        {
            var client = new AmazonKeyManagementServiceClient();

            // The identifier of the AWS KMS key to enable. You can use the
            // key Id or the Amazon Resource Name (ARN) of the AWS KMS key.
            var keyId = "1234abcd-12ab-34cd-56ef-1234567890ab";

            var request = new EnableKeyRequest
            {
                KeyId = keyId,
            };

            var response = await client.EnableKeyAsync(request);
            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                // Retrieve information about the key to show that it has now
                // been enabled.
                var describeResponse = await client.DescribeKeyAsync(new DescribeKeyRequest
                {
                    KeyId = keyId,
                });
                Console.WriteLine($"{describeResponse.KeyMetadata.KeyId} - state: {describeResponse.KeyMetadata.KeyState}");
            }
        }
    }
```
+  Untuk detail API, lihat [EnableKey](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/EnableKey)di *Referensi AWS SDK untuk .NET API*. 

### `ListAliases`
<a name="kms_ListAliases_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAliases`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.KeyManagementService;
    using Amazon.KeyManagementService.Model;

    /// <summary>
    /// List the AWS Key Management Service (AWS KMS) aliases that have been defined for
    /// the keys in the same AWS Region as the default user. If you want to list
    /// the aliases in a different Region, pass the Region to the client
    /// constructor.
    /// </summary>
    public class ListAliases
    {
        public static async Task Main()
        {
            var client = new AmazonKeyManagementServiceClient();
            var request = new ListAliasesRequest();
            var response = new ListAliasesResponse();

            do
            {
                response = await client.ListAliasesAsync(request);

                response.Aliases.ForEach(alias =>
                {
                    Console.WriteLine($"Created: {alias.CreationDate} Last Update: {alias.LastUpdatedDate} Name: {alias.AliasName}");
                });

                request.Marker = response.NextMarker;
            }
            while (response.Truncated);
        }
    }
```
+  Untuk detail API, lihat [ListAliases](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/ListAliases)di *Referensi AWS SDK untuk .NET API*. 

### `ListGrants`
<a name="kms_ListGrants_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGrants`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.KeyManagementService;
    using Amazon.KeyManagementService.Model;

    /// <summary>
    /// List the AWS Key Management Service (AWS KMS) grants that are associated with
    /// a specific key.
    /// </summary>
    public class ListGrants
    {
        public static async Task Main()
        {
            // The identifier of the AWS KMS key to disable. You can use the
            // key Id or the Amazon Resource Name (ARN) of the AWS KMS key.
            var keyId = "1234abcd-12ab-34cd-56ef-1234567890ab";
            var client = new AmazonKeyManagementServiceClient();
            var request = new ListGrantsRequest
            {
                KeyId = keyId,
            };

            var response = new ListGrantsResponse();

            do
            {
                response = await client.ListGrantsAsync(request);

                response.Grants.ForEach(grant =>
                {
                    Console.WriteLine($"{grant.GrantId}");
                });

                request.Marker = response.NextMarker;
            }
            while (response.Truncated);
        }
    }
```
+  Untuk detail API, lihat [ListGrants](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/ListGrants)di *Referensi AWS SDK untuk .NET API*. 

### `ListKeys`
<a name="kms_ListKeys_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeys`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/KMS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.KeyManagementService;
    using Amazon.KeyManagementService.Model;

    /// <summary>
    /// List the AWS Key Managements Service (AWS KMS) keys for the AWS Region
    /// of the default user. To list keys in another AWS Region, supply the Region
    /// as a parameter to the client constructor.
    /// </summary>
    public class ListKeys
    {
        public static async Task Main()
        {
            var client = new AmazonKeyManagementServiceClient();
            var request = new ListKeysRequest();
            var response = new ListKeysResponse();

            do
            {
                response = await client.ListKeysAsync(request);

                response.Keys.ForEach(key =>
                {
                    Console.WriteLine($"ID: {key.KeyId}, {key.KeyArn}");
                });

                // Set the Marker property when response.Truncated is true
                // in order to get the next keys.
                request.Marker = response.NextMarker;
            }
            while (response.Truncated);
        }
    }
```
+  Untuk detail API, lihat [ListKeys](https://docs.aws.amazon.com/goto/DotNetSDKV3/kms-2014-11-01/ListKeys)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Lambda menggunakan SDK untuk .NET
<a name="csharp_3_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Lambda AWS SDK untuk .NET with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Memulai
<a name="get_started"></a>

### Halo Lambda
<a name="lambda_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Lambda.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 

```
namespace LambdaActions;

using Amazon.Lambda;

public class HelloLambda
{
    static async Task Main(string[] args)
    {
        var lambdaClient = new AmazonLambdaClient();

        Console.WriteLine("Hello AWS Lambda");
        Console.WriteLine("Let's get started with AWS Lambda by listing your existing Lambda functions:");

        var response = await lambdaClient.ListFunctionsAsync();
        response.Functions.ForEach(function =>
        {
            Console.WriteLine($"{function.FunctionName}\t{function.Description}");
        });
    }
}
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/ListFunctions)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 
Buat metode yang melakukan tindakan Lambda.  

```
namespace LambdaActions;

using Amazon.Lambda;
using Amazon.Lambda.Model;

/// <summary>
/// A class that implements AWS Lambda methods.
/// </summary>
public class LambdaWrapper
{
    private readonly IAmazonLambda _lambdaService;

    /// <summary>
    /// Constructor for the LambdaWrapper class.
    /// </summary>
    /// <param name="lambdaService">An initialized Lambda service client.</param>
    public LambdaWrapper(IAmazonLambda lambdaService)
    {
        _lambdaService = lambdaService;
    }

    /// <summary>
    /// Creates a new Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the function.</param>
    /// <param name="s3Bucket">The Amazon Simple Storage Service (Amazon S3)
    /// bucket where the zip file containing the code is located.</param>
    /// <param name="s3Key">The Amazon S3 key of the zip file.</param>
    /// <param name="role">The Amazon Resource Name (ARN) of a role with the
    /// appropriate Lambda permissions.</param>
    /// <param name="handler">The name of the handler function.</param>
    /// <returns>The Amazon Resource Name (ARN) of the newly created
    /// Lambda function.</returns>
    public async Task<string> CreateLambdaFunctionAsync(
        string functionName,
        string s3Bucket,
        string s3Key,
        string role,
        string handler)
    {
        // Defines the location for the function code.
        // S3Bucket - The S3 bucket where the file containing
        //            the source code is stored.
        // S3Key    - The name of the file containing the code.
        var functionCode = new FunctionCode
        {
            S3Bucket = s3Bucket,
            S3Key = s3Key,
        };

        var createFunctionRequest = new CreateFunctionRequest
        {
            FunctionName = functionName,
            Description = "Created by the Lambda .NET API",
            Code = functionCode,
            Handler = handler,
            Runtime = Runtime.Dotnet6,
            Role = role,
        };

        var reponse = await _lambdaService.CreateFunctionAsync(createFunctionRequest);
        return reponse.FunctionArn;
    }


    /// <summary>
    /// Delete an AWS Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the Lambda function to
    /// delete.</param>
    /// <returns>A Boolean value that indicates the success of the action.</returns>
    public async Task<bool> DeleteFunctionAsync(string functionName)
    {
        var request = new DeleteFunctionRequest
        {
            FunctionName = functionName,
        };

        var response = await _lambdaService.DeleteFunctionAsync(request);

        // A return value of NoContent means that the request was processed.
        // In this case, the function was deleted, and the return value
        // is intentionally blank.
        return response.HttpStatusCode == System.Net.HttpStatusCode.NoContent;
    }


    /// <summary>
    /// Gets information about a Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the Lambda function for
    /// which to retrieve information.</param>
    /// <returns>Async Task.</returns>
    public async Task<FunctionConfiguration> GetFunctionAsync(string functionName)
    {
        var functionRequest = new GetFunctionRequest
        {
            FunctionName = functionName,
        };

        var response = await _lambdaService.GetFunctionAsync(functionRequest);
        return response.Configuration;
    }


    /// <summary>
    /// Invoke a Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the Lambda function to
    /// invoke.</param
    /// <param name="parameters">The parameter values that will be passed to the function.</param>
    /// <returns>A System Threading Task.</returns>
    public async Task<string> InvokeFunctionAsync(
        string functionName,
        string parameters)
    {
        var payload = parameters;
        var request = new InvokeRequest
        {
            FunctionName = functionName,
            Payload = payload,
        };

        var response = await _lambdaService.InvokeAsync(request);
        MemoryStream stream = response.Payload;
        string returnValue = System.Text.Encoding.UTF8.GetString(stream.ToArray());
        return returnValue;
    }


    /// <summary>
    /// Get a list of Lambda functions.
    /// </summary>
    /// <returns>A list of FunctionConfiguration objects.</returns>
    public async Task<List<FunctionConfiguration>> ListFunctionsAsync()
    {
        var functionList = new List<FunctionConfiguration>();

        var functionPaginator =
            _lambdaService.Paginators.ListFunctions(new ListFunctionsRequest());
        await foreach (var function in functionPaginator.Functions)
        {
            functionList.Add(function);
        }

        return functionList;
    }


    /// <summary>
    /// Update an existing Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the Lambda function to update.</param>
    /// <param name="bucketName">The bucket where the zip file containing
    /// the Lambda function code is stored.</param>
    /// <param name="key">The key name of the source code file.</param>
    /// <returns>Async Task.</returns>
    public async Task UpdateFunctionCodeAsync(
        string functionName,
        string bucketName,
        string key)
    {
        var functionCodeRequest = new UpdateFunctionCodeRequest
        {
            FunctionName = functionName,
            Publish = true,
            S3Bucket = bucketName,
            S3Key = key,
        };

        var response = await _lambdaService.UpdateFunctionCodeAsync(functionCodeRequest);
        Console.WriteLine($"The Function was last modified at {response.LastModified}.");
    }


    /// <summary>
    /// Update the code of a Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the function to update.</param>
    /// <param name="functionHandler">The code that performs the function's actions.</param>
    /// <param name="environmentVariables">A dictionary of environment variables.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> UpdateFunctionConfigurationAsync(
        string functionName,
        string functionHandler,
        Dictionary<string, string> environmentVariables)
    {
        var request = new UpdateFunctionConfigurationRequest
        {
            Handler = functionHandler,
            FunctionName = functionName,
            Environment = new Amazon.Lambda.Model.Environment { Variables = environmentVariables },
        };

        var response = await _lambdaService.UpdateFunctionConfigurationAsync(request);

        Console.WriteLine(response.LastModified);

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


}
```
Buat fungsi yang menjalankan skenario.  

```
global using System.Threading.Tasks;
global using Amazon.IdentityManagement;
global using Amazon.Lambda;
global using LambdaActions;
global using LambdaScenarioCommon;
global using Microsoft.Extensions.DependencyInjection;
global using Microsoft.Extensions.Hosting;
global using Microsoft.Extensions.Logging;
global using Microsoft.Extensions.Logging.Console;
global using Microsoft.Extensions.Logging.Debug;


using Amazon.Lambda.Model;
using Microsoft.Extensions.Configuration;

namespace LambdaBasics;

public class LambdaBasics
{
    private static ILogger logger = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonLambda>()
            .AddAWSService<IAmazonIdentityManagementService>()
            .AddTransient<LambdaWrapper>()
            .AddTransient<LambdaRoleWrapper>()
            .AddTransient<UIWrapper>()
        )
        .Build();

        var configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load test settings from .json file.
            .AddJsonFile("settings.local.json",
            true) // Optionally load local settings.
        .Build();


        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<LambdaBasics>();

        var lambdaWrapper = host.Services.GetRequiredService<LambdaWrapper>();
        var lambdaRoleWrapper = host.Services.GetRequiredService<LambdaRoleWrapper>();
        var uiWrapper = host.Services.GetRequiredService<UIWrapper>();

        string functionName = configuration["FunctionName"]!;
        string roleName = configuration["RoleName"]!;
        string policyDocument = "{" +
            " \"Version\": \"2012-10-17\"," +
            " \"Statement\": [ " +
            "    {" +
            "        \"Effect\": \"Allow\"," +
            "        \"Principal\": {" +
            "            \"Service\": \"lambda.amazonaws.com\" " +
            "    }," +
            "        \"Action\": \"sts:AssumeRole\" " +
            "    }" +
            "]" +
        "}";

        var incrementHandler = configuration["IncrementHandler"];
        var calculatorHandler = configuration["CalculatorHandler"];
        var bucketName = configuration["BucketName"];
        var incrementKey = configuration["IncrementKey"];
        var calculatorKey = configuration["CalculatorKey"];
        var policyArn = configuration["PolicyArn"];

        uiWrapper.DisplayLambdaBasicsOverview();

        // Create the policy to use with the AWS Lambda functions and then attach the
        // policy to a new role.
        var roleArn = await lambdaRoleWrapper.CreateLambdaRoleAsync(roleName, policyDocument);

        Console.WriteLine("Waiting for role to become active.");
        uiWrapper.WaitABit(15, "Wait until the role is active before trying to use it.");

        // Attach the appropriate AWS Identity and Access Management (IAM) role policy to the new role.
        var success = await lambdaRoleWrapper.AttachLambdaRolePolicyAsync(policyArn, roleName);
        uiWrapper.WaitABit(10, "Allow time for the IAM policy to be attached to the role.");

        // Create the Lambda function using a zip file stored in an Amazon Simple Storage Service
        // (Amazon S3) bucket.
        uiWrapper.DisplayTitle("Create Lambda Function");
        Console.WriteLine($"Creating the AWS Lambda function: {functionName}.");
        var lambdaArn = await lambdaWrapper.CreateLambdaFunctionAsync(
            functionName,
            bucketName,
            incrementKey,
            roleArn,
            incrementHandler);

        Console.WriteLine("Waiting for the new function to be available.");
        Console.WriteLine($"The AWS Lambda ARN is {lambdaArn}");

        // Get the Lambda function.
        Console.WriteLine($"Getting the {functionName} AWS Lambda function.");
        FunctionConfiguration config;
        do
        {
            config = await lambdaWrapper.GetFunctionAsync(functionName);
            Console.Write(".");
        }
        while (config.State != State.Active);

        Console.WriteLine($"\nThe function, {functionName} has been created.");
        Console.WriteLine($"The runtime of this Lambda function is {config.Runtime}.");

        uiWrapper.PressEnter();

        // List the Lambda functions.
        uiWrapper.DisplayTitle("Listing all Lambda functions.");
        var functions = await lambdaWrapper.ListFunctionsAsync();
        DisplayFunctionList(functions);

        uiWrapper.DisplayTitle("Invoke increment function");
        Console.WriteLine("Now that it has been created, invoke the Lambda increment function.");
        string? value;
        do
        {
            Console.Write("Enter a value to increment: ");
            value = Console.ReadLine();
        }
        while (string.IsNullOrEmpty(value));

        string functionParameters = "{" +
            "\"action\": \"increment\", " +
            "\"x\": \"" + value + "\"" +
        "}";
        var answer = await lambdaWrapper.InvokeFunctionAsync(functionName, functionParameters);
        Console.WriteLine($"{value} + 1 = {answer}.");

        uiWrapper.DisplayTitle("Update function");
        Console.WriteLine("Now update the Lambda function code.");
        await lambdaWrapper.UpdateFunctionCodeAsync(functionName, bucketName, calculatorKey);

        do
        {
            config = await lambdaWrapper.GetFunctionAsync(functionName);
            Console.Write(".");
        }
        while (config.LastUpdateStatus == LastUpdateStatus.InProgress);

        await lambdaWrapper.UpdateFunctionConfigurationAsync(
            functionName,
            calculatorHandler,
            new Dictionary<string, string> { { "LOG_LEVEL", "DEBUG" } });

        do
        {
            config = await lambdaWrapper.GetFunctionAsync(functionName);
            Console.Write(".");
        }
        while (config.LastUpdateStatus == LastUpdateStatus.InProgress);

        uiWrapper.DisplayTitle("Call updated function");
        Console.WriteLine("Now call the updated function...");

        bool done = false;

        do
        {
            string? opSelected;

            Console.WriteLine("Select the operation to perform:");
            Console.WriteLine("\t1. add");
            Console.WriteLine("\t2. subtract");
            Console.WriteLine("\t3. multiply");
            Console.WriteLine("\t4. divide");
            Console.WriteLine("\tOr enter \"q\" to quit.");
            Console.WriteLine("Enter the number (1, 2, 3, 4, or q) of the operation you want to perform: ");
            do
            {
                Console.Write("Your choice? ");
                opSelected = Console.ReadLine();
            }
            while (opSelected == string.Empty);

            var operation = (opSelected) switch
            {
                "1" => "add",
                "2" => "subtract",
                "3" => "multiply",
                "4" => "divide",
                "q" => "quit",
                _ => "add",
            };

            if (operation == "quit")
            {
                done = true;
            }
            else
            {
                // Get two numbers and an action from the user.
                value = string.Empty;
                do
                {
                    Console.Write("Enter the first value: ");
                    value = Console.ReadLine();
                }
                while (value == string.Empty);

                string? value2;
                do
                {
                    Console.Write("Enter a second value: ");
                    value2 = Console.ReadLine();
                }
                while (value2 == string.Empty);

                functionParameters = "{" +
                    "\"action\": \"" + operation + "\", " +
                    "\"x\": \"" + value + "\"," +
                    "\"y\": \"" + value2 + "\"" +
                "}";

                answer = await lambdaWrapper.InvokeFunctionAsync(functionName, functionParameters);
                Console.WriteLine($"The answer when we {operation} the two numbers is: {answer}.");
            }

            uiWrapper.PressEnter();
        } while (!done);

        // Delete the function created earlier.

        uiWrapper.DisplayTitle("Clean up resources");
        // Detach the IAM policy from the IAM role.
        Console.WriteLine("First detach the IAM policy from the role.");
        success = await lambdaRoleWrapper.DetachLambdaRolePolicyAsync(policyArn, roleName);
        uiWrapper.WaitABit(15, "Let's wait for the policy to be fully detached from the role.");

        Console.WriteLine("Delete the AWS Lambda function.");
        success = await lambdaWrapper.DeleteFunctionAsync(functionName);
        if (success)
        {
            Console.WriteLine($"The {functionName} function was deleted.");
        }
        else
        {
            Console.WriteLine($"Could not remove the function {functionName}");
        }

        // Now delete the IAM role created for use with the functions
        // created by the application.
        Console.WriteLine("Now we can delete the role that we created.");
        success = await lambdaRoleWrapper.DeleteLambdaRoleAsync(roleName);
        if (success)
        {
            Console.WriteLine("The role has been successfully removed.");
        }
        else
        {
            Console.WriteLine("Couldn't delete the role.");
        }

        Console.WriteLine("The Lambda Scenario is now complete.");
        uiWrapper.PressEnter();

        // Displays a formatted list of existing functions returned by the
        // LambdaMethods.ListFunctions.
        void DisplayFunctionList(List<FunctionConfiguration> functions)
        {
            functions.ForEach(functionConfig =>
            {
                Console.WriteLine($"{functionConfig.FunctionName}\t{functionConfig.Description}");
            });
        }
    }
}


namespace LambdaActions;

using Amazon.IdentityManagement;
using Amazon.IdentityManagement.Model;

public class LambdaRoleWrapper
{
    private readonly IAmazonIdentityManagementService _lambdaRoleService;

    public LambdaRoleWrapper(IAmazonIdentityManagementService lambdaRoleService)
    {
        _lambdaRoleService = lambdaRoleService;
    }

    /// <summary>
    /// Attach an AWS Identity and Access Management (IAM) role policy to the
    /// IAM role to be assumed by the AWS Lambda functions created for the scenario.
    /// </summary>
    /// <param name="policyArn">The Amazon Resource Name (ARN) of the IAM policy.</param>
    /// <param name="roleName">The name of the IAM role to attach the IAM policy to.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> AttachLambdaRolePolicyAsync(string policyArn, string roleName)
    {
        var response = await _lambdaRoleService.AttachRolePolicyAsync(new AttachRolePolicyRequest { PolicyArn = policyArn, RoleName = roleName });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }

    /// <summary>
    /// Create a new IAM role.
    /// </summary>
    /// <param name="roleName">The name of the IAM role to create.</param>
    /// <param name="policyDocument">The policy document for the new IAM role.</param>
    /// <returns>A string representing the ARN for newly created role.</returns>
    public async Task<string> CreateLambdaRoleAsync(string roleName, string policyDocument)
    {
        var request = new CreateRoleRequest
        {
            AssumeRolePolicyDocument = policyDocument,
            RoleName = roleName,
        };

        var response = await _lambdaRoleService.CreateRoleAsync(request);
        return response.Role.Arn;
    }

    /// <summary>
    /// Deletes an IAM role.
    /// </summary>
    /// <param name="roleName">The name of the role to delete.</param>
    /// <returns>A Boolean value indicating the success of the operation.</returns>
    public async Task<bool> DeleteLambdaRoleAsync(string roleName)
    {
        var request = new DeleteRoleRequest
        {
            RoleName = roleName,
        };

        var response = await _lambdaRoleService.DeleteRoleAsync(request);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }

    public async Task<bool> DetachLambdaRolePolicyAsync(string policyArn, string roleName)
    {
        var response = await _lambdaRoleService.DetachRolePolicyAsync(new DetachRolePolicyRequest { PolicyArn = policyArn, RoleName = roleName });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
}


namespace LambdaScenarioCommon;

public class UIWrapper
{
    public readonly string SepBar = new('-', Console.WindowWidth);

    /// <summary>
    /// Show information about the AWS Lambda Basics scenario.
    /// </summary>
    public void DisplayLambdaBasicsOverview()
    {
        Console.Clear();

        DisplayTitle("Welcome to AWS Lambda Basics");
        Console.WriteLine("This example application does the following:");
        Console.WriteLine("\t1. Creates an AWS Identity and Access Management (IAM) role that will be assumed by the functions we create.");
        Console.WriteLine("\t2. Attaches an IAM role policy that has Lambda permissions.");
        Console.WriteLine("\t3. Creates a Lambda function that increments the value passed to it.");
        Console.WriteLine("\t4. Calls the increment function and passes a value.");
        Console.WriteLine("\t5. Updates the code so that the function is a simple calculator.");
        Console.WriteLine("\t6. Calls the calculator function with the values entered.");
        Console.WriteLine("\t7. Deletes the Lambda function.");
        Console.WriteLine("\t7. Detaches the IAM role policy.");
        Console.WriteLine("\t8. Deletes the IAM role.");
        PressEnter();
    }

    /// <summary>
    /// Display a message and wait until the user presses enter.
    /// </summary>
    public void PressEnter()
    {
        Console.Write("\nPress <Enter> to continue. ");
        _ = Console.ReadLine();
        Console.WriteLine();
    }

    /// <summary>
    /// Pad a string with spaces to center it on the console display.
    /// </summary>
    /// <param name="strToCenter">The string to be centered.</param>
    /// <returns>The padded string.</returns>
    public string CenterString(string strToCenter)
    {
        var padAmount = (Console.WindowWidth - strToCenter.Length) / 2;
        var leftPad = new string(' ', padAmount);
        return $"{leftPad}{strToCenter}";
    }

    /// <summary>
    /// Display a line of hyphens, the centered text of the title and another
    /// line of hyphens.
    /// </summary>
    /// <param name="strTitle">The string to be displayed.</param>
    public void DisplayTitle(string strTitle)
    {
        Console.WriteLine(SepBar);
        Console.WriteLine(CenterString(strTitle));
        Console.WriteLine(SepBar);
    }

    /// <summary>
    /// Display a countdown and wait for a number of seconds.
    /// </summary>
    /// <param name="numSeconds">The number of seconds to wait.</param>
    public void WaitABit(int numSeconds, string msg)
    {
        Console.WriteLine(msg);

        // Wait for the requested number of seconds.
        for (int i = numSeconds; i > 0; i--)
        {
            System.Threading.Thread.Sleep(1000);
            Console.Write($"{i}...");
        }

        PressEnter();
    }
}
```
Tentukan handler Lambda yang menambah angka.  

```
using Amazon.Lambda.Core;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace LambdaIncrement;

public class Function
{

    /// <summary>
    /// A simple function increments the integer parameter.
    /// </summary>
    /// <param name="input">A JSON string containing an action, which must be
    /// "increment" and a string representing the value to increment.</param>
    /// <param name="context">The context object passed by Lambda containing
    /// information about invocation, function, and execution environment.</param>
    /// <returns>A string representing the incremented value of the parameter.</returns>
    public int FunctionHandler(Dictionary<string, string> input, ILambdaContext context)
    {
        if (input["action"] == "increment")
        {
            int inputValue = Convert.ToInt32(input["x"]);
            return inputValue + 1;
        }
        else
        {
            return 0;
        }
    }
}
```
Tentukan handler Lambda kedua yang melakukan operasi aritmatika.  

```
using Amazon.Lambda.Core;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace LambdaCalculator;

public class Function
{

    /// <summary>
    /// A simple function that takes two number in string format and performs
    /// the requested arithmetic function.
    /// </summary>
    /// <param name="input">JSON data containing an action, and x and y values.
    /// Valid actions include: add, subtract, multiply, and divide.</param>
    /// <param name="context">The context object passed by Lambda containing
    /// information about invocation, function, and execution environment.</param>
    /// <returns>A string representing the results of the calculation.</returns>
    public int FunctionHandler(Dictionary<string, string> input, ILambdaContext context)
    {
        var action = input["action"];
        int x = Convert.ToInt32(input["x"]);
        int y = Convert.ToInt32(input["y"]);
        int result;
        switch (action)
        {
            case "add":
                result = x + y;
                break;
            case "subtract":
                result = x - y;
                break;
            case "multiply":
                result = x * y;
                break;
            case "divide":
                if (y == 0)
                {
                    Console.Error.WriteLine("Divide by zero error.");
                    result = 0;
                }
                else
                    result = x / y;
                break;
            default:
                Console.Error.WriteLine($"{action} is not a valid operation.");
                result = 0;
                break;
        }
        return result;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateFunction](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/CreateFunction)
  + [DeleteFunction](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/DeleteFunction)
  + [GetFunction](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/GetFunction)
  + [Memohon](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/Invoke)
  + [ListFunctions](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/ListFunctions)
  + [UpdateFunctionCode](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/UpdateFunctionCode)
  + [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/UpdateFunctionConfiguration)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 

```
    /// <summary>
    /// Creates a new Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the function.</param>
    /// <param name="s3Bucket">The Amazon Simple Storage Service (Amazon S3)
    /// bucket where the zip file containing the code is located.</param>
    /// <param name="s3Key">The Amazon S3 key of the zip file.</param>
    /// <param name="role">The Amazon Resource Name (ARN) of a role with the
    /// appropriate Lambda permissions.</param>
    /// <param name="handler">The name of the handler function.</param>
    /// <returns>The Amazon Resource Name (ARN) of the newly created
    /// Lambda function.</returns>
    public async Task<string> CreateLambdaFunctionAsync(
        string functionName,
        string s3Bucket,
        string s3Key,
        string role,
        string handler)
    {
        // Defines the location for the function code.
        // S3Bucket - The S3 bucket where the file containing
        //            the source code is stored.
        // S3Key    - The name of the file containing the code.
        var functionCode = new FunctionCode
        {
            S3Bucket = s3Bucket,
            S3Key = s3Key,
        };

        var createFunctionRequest = new CreateFunctionRequest
        {
            FunctionName = functionName,
            Description = "Created by the Lambda .NET API",
            Code = functionCode,
            Handler = handler,
            Runtime = Runtime.Dotnet6,
            Role = role,
        };

        var reponse = await _lambdaService.CreateFunctionAsync(createFunctionRequest);
        return reponse.FunctionArn;
    }
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/CreateFunction)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 

```
    /// <summary>
    /// Delete an AWS Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the Lambda function to
    /// delete.</param>
    /// <returns>A Boolean value that indicates the success of the action.</returns>
    public async Task<bool> DeleteFunctionAsync(string functionName)
    {
        var request = new DeleteFunctionRequest
        {
            FunctionName = functionName,
        };

        var response = await _lambdaService.DeleteFunctionAsync(request);

        // A return value of NoContent means that the request was processed.
        // In this case, the function was deleted, and the return value
        // is intentionally blank.
        return response.HttpStatusCode == System.Net.HttpStatusCode.NoContent;
    }
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/DeleteFunction)di *Referensi AWS SDK untuk .NET API*. 

### `GetFunction`
<a name="lambda_GetFunction_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 

```
    /// <summary>
    /// Gets information about a Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the Lambda function for
    /// which to retrieve information.</param>
    /// <returns>Async Task.</returns>
    public async Task<FunctionConfiguration> GetFunctionAsync(string functionName)
    {
        var functionRequest = new GetFunctionRequest
        {
            FunctionName = functionName,
        };

        var response = await _lambdaService.GetFunctionAsync(functionRequest);
        return response.Configuration;
    }
```
+  Untuk detail API, lihat [GetFunction](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/GetFunction)di *Referensi AWS SDK untuk .NET API*. 

### `Invoke`
<a name="lambda_Invoke_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 

```
    /// <summary>
    /// Invoke a Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the Lambda function to
    /// invoke.</param
    /// <param name="parameters">The parameter values that will be passed to the function.</param>
    /// <returns>A System Threading Task.</returns>
    public async Task<string> InvokeFunctionAsync(
        string functionName,
        string parameters)
    {
        var payload = parameters;
        var request = new InvokeRequest
        {
            FunctionName = functionName,
            Payload = payload,
        };

        var response = await _lambdaService.InvokeAsync(request);
        MemoryStream stream = response.Payload;
        string returnValue = System.Text.Encoding.UTF8.GetString(stream.ToArray());
        return returnValue;
    }
```
+  Untuk detail API, lihat [Memanggil di Referensi AWS SDK untuk .NET](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/Invoke) *API*. 

### `ListFunctions`
<a name="lambda_ListFunctions_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 

```
    /// <summary>
    /// Get a list of Lambda functions.
    /// </summary>
    /// <returns>A list of FunctionConfiguration objects.</returns>
    public async Task<List<FunctionConfiguration>> ListFunctionsAsync()
    {
        var functionList = new List<FunctionConfiguration>();

        var functionPaginator =
            _lambdaService.Paginators.ListFunctions(new ListFunctionsRequest());
        await foreach (var function in functionPaginator.Functions)
        {
            functionList.Add(function);
        }

        return functionList;
    }
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/ListFunctions)di *Referensi AWS SDK untuk .NET API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 

```
    /// <summary>
    /// Update an existing Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the Lambda function to update.</param>
    /// <param name="bucketName">The bucket where the zip file containing
    /// the Lambda function code is stored.</param>
    /// <param name="key">The key name of the source code file.</param>
    /// <returns>Async Task.</returns>
    public async Task UpdateFunctionCodeAsync(
        string functionName,
        string bucketName,
        string key)
    {
        var functionCodeRequest = new UpdateFunctionCodeRequest
        {
            FunctionName = functionName,
            Publish = true,
            S3Bucket = bucketName,
            S3Key = key,
        };

        var response = await _lambdaService.UpdateFunctionCodeAsync(functionCodeRequest);
        Console.WriteLine($"The Function was last modified at {response.LastModified}.");
    }
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/UpdateFunctionCode)di *Referensi AWS SDK untuk .NET API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Lambda#code-examples). 

```
    /// <summary>
    /// Update the code of a Lambda function.
    /// </summary>
    /// <param name="functionName">The name of the function to update.</param>
    /// <param name="functionHandler">The code that performs the function's actions.</param>
    /// <param name="environmentVariables">A dictionary of environment variables.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> UpdateFunctionConfigurationAsync(
        string functionName,
        string functionHandler,
        Dictionary<string, string> environmentVariables)
    {
        var request = new UpdateFunctionConfigurationRequest
        {
            Handler = functionHandler,
            FunctionName = functionName,
            Environment = new Amazon.Lambda.Model.Environment { Variables = environmentVariables },
        };

        var response = await _lambdaService.UpdateFunctionConfigurationAsync(request);

        Console.WriteLine(response.LastModified);

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/lambda-2015-03-31/UpdateFunctionConfiguration)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk .NET**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAssetManager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk .NET**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/FeedbackSentimentAnalyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

### Mengubah data dengan S3 Object Lambda
<a name="cross_ServerlessS3DataTransformation_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengubah data untuk aplikasi Anda dengan S3 Object Lambda.

**SDK untuk .NET**  
 Menunjukkan cara menambahkan kode kustom ke permintaan GET S3 standar untuk memodifikasi objek yang diminta diambil dari S3 sehingga objek sesuai dengan kebutuhan klien atau aplikasi yang meminta.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/S3ObjectLambdaFunction).   

**Layanan yang digunakan dalam contoh ini**
+ Lambda
+ Amazon S3

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan.NET.  

```
using System.Data;
using System.Text.Json;
using Amazon.Lambda.APIGatewayEvents;
using Amazon.Lambda.Core;
using MySql.Data.MySqlClient;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace aws_rds;

public class InputModel
{
    public string key1 { get; set; }
    public string key2 { get; set; }
}

public class Function
{
    /// <summary>
    // Handles the Lambda function execution for connecting to RDS using IAM authentication.
    /// </summary>
    /// <param name="input">The input event data passed to the Lambda function</param>
    /// <param name="context">The Lambda execution context that provides runtime information</param>
    /// <returns>A response object containing the execution result</returns>

    public async Task<APIGatewayProxyResponse> FunctionHandler(APIGatewayProxyRequest request, ILambdaContext context)
    {
        // Sample Input: {"body": "{\"key1\":\"20\", \"key2\":\"25\"}"}
        var input = JsonSerializer.Deserialize<InputModel>(request.Body);

        /// Obtain authentication token
        var authToken = RDSAuthTokenGenerator.GenerateAuthToken(
            Environment.GetEnvironmentVariable("RDS_ENDPOINT"),
            Convert.ToInt32(Environment.GetEnvironmentVariable("RDS_PORT")),
            Environment.GetEnvironmentVariable("RDS_USERNAME")
        );

        /// Build the Connection String with the Token 
        string connectionString = $"Server={Environment.GetEnvironmentVariable("RDS_ENDPOINT")};" +
                                  $"Port={Environment.GetEnvironmentVariable("RDS_PORT")};" +
                                  $"Uid={Environment.GetEnvironmentVariable("RDS_USERNAME")};" +
                                  $"Pwd={authToken};";


        try
        {
            await using var connection = new MySqlConnection(connectionString);
            await connection.OpenAsync();

            const string sql = "SELECT @param1 + @param2 AS Sum";

            await using var command = new MySqlCommand(sql, connection);
            command.Parameters.AddWithValue("@param1", int.Parse(input.key1 ?? "0"));
            command.Parameters.AddWithValue("@param2", int.Parse(input.key2 ?? "0"));

            await using var reader = await command.ExecuteReaderAsync();
            if (await reader.ReadAsync())
            {
                int result = reader.GetInt32("Sum");

                //Sample Response: {"statusCode":200,"body":"{\"message\":\"The sum is: 45\"}","isBase64Encoded":false}
                return new APIGatewayProxyResponse
                {
                    StatusCode = 200,
                    Body = JsonSerializer.Serialize(new { message = $"The sum is: {result}" })
                };
            }

        }
        catch (Exception ex)
        {
            Console.WriteLine($"Error: {ex.Message}");
        }

        return new APIGatewayProxyResponse
        {
            StatusCode = 500,
            Body = JsonSerializer.Serialize(new { error = "Internal server error" })
        };
    }
}
```

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Text;
using Amazon.Lambda.Core;
using Amazon.Lambda.KinesisEvents;
using AWS.Lambda.Powertools.Logging;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace KinesisIntegrationSampleCode;

public class Function
{
    // Powertools Logger requires an environment variables against your function
    // POWERTOOLS_SERVICE_NAME
    [Logging(LogEvent = true)]
    public async Task FunctionHandler(KinesisEvent evnt, ILambdaContext context)
    {
        if (evnt.Records.Count == 0)
        {
            Logger.LogInformation("Empty Kinesis Event received");
            return;
        }

        foreach (var record in evnt.Records)
        {
            try
            {
                Logger.LogInformation($"Processed Event with EventId: {record.EventId}");
                string data = await GetRecordDataAsync(record.Kinesis, context);
                Logger.LogInformation($"Data: {data}");
                // TODO: Do interesting work based on the new data
            }
            catch (Exception ex)
            {
                Logger.LogError($"An error occurred {ex.Message}");
                throw;
            }
        }
        Logger.LogInformation($"Successfully processed {evnt.Records.Count} records.");
    }

    private async Task<string> GetRecordDataAsync(KinesisEvent.Record record, ILambdaContext context)
    {
        byte[] bytes = record.Data.ToArray();
        string data = Encoding.UTF8.GetString(bytes);
        await Task.CompletedTask; //Placeholder for actual async work
        return data;
    }
}
```

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Text.Json;
using System.Text;
using Amazon.Lambda.Core;
using Amazon.Lambda.DynamoDBEvents;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace AWSLambda_DDB;

public class Function
{
    public void FunctionHandler(DynamoDBEvent dynamoEvent, ILambdaContext context)
    {
        context.Logger.LogInformation($"Beginning to process {dynamoEvent.Records.Count} records...");

        foreach (var record in dynamoEvent.Records)
        {
            context.Logger.LogInformation($"Event ID: {record.EventID}");
            context.Logger.LogInformation($"Event Name: {record.EventName}");

            context.Logger.LogInformation(JsonSerializer.Serialize(record));
        }

        context.Logger.LogInformation("Stream processing complete.");
    }
}
```

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan.NET.  

```
using Amazon.Lambda.Core;
using System.Text.Json;
using System;
using System.Collections.Generic;
using System.Text.Json.Serialization;
//Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace LambdaDocDb;

public class Function
{
    
     /// <summary>
    /// Lambda function entry point to process Amazon DocumentDB events.
    /// </summary>
    /// <param name="event">The Amazon DocumentDB event.</param>
    /// <param name="context">The Lambda context object.</param>
    /// <returns>A string to indicate successful processing.</returns>
    public string FunctionHandler(Event evnt, ILambdaContext context)
    {
        
        foreach (var record in evnt.Events)
        {
            ProcessDocumentDBEvent(record, context);
        }

        return "OK";
    }

     private void ProcessDocumentDBEvent(DocumentDBEventRecord record, ILambdaContext context)
    {
        
        var eventData = record.Event;
        var operationType = eventData.OperationType;
        var databaseName = eventData.Ns.Db;
        var collectionName = eventData.Ns.Coll;
        var fullDocument = JsonSerializer.Serialize(eventData.FullDocument, new JsonSerializerOptions { WriteIndented = true });

        context.Logger.LogLine($"Operation type: {operationType}");
        context.Logger.LogLine($"Database: {databaseName}");
        context.Logger.LogLine($"Collection: {collectionName}");
        context.Logger.LogLine($"Full document:\n{fullDocument}");
    }



    public class Event
    {
        [JsonPropertyName("eventSourceArn")]
        public string EventSourceArn { get; set; }

        [JsonPropertyName("events")]
        public List<DocumentDBEventRecord> Events { get; set; }

        [JsonPropertyName("eventSource")]
        public string EventSource { get; set; }
    }

    public class DocumentDBEventRecord
    {
        [JsonPropertyName("event")]
        public EventData Event { get; set; }
    }

    public class EventData
    {
        [JsonPropertyName("_id")]
        public IdData Id { get; set; }

        [JsonPropertyName("clusterTime")]
        public ClusterTime ClusterTime { get; set; }

        [JsonPropertyName("documentKey")]
        public DocumentKey DocumentKey { get; set; }

        [JsonPropertyName("fullDocument")]
        public Dictionary<string, object> FullDocument { get; set; }

        [JsonPropertyName("ns")]
        public Namespace Ns { get; set; }

        [JsonPropertyName("operationType")]
        public string OperationType { get; set; }
    }

    public class IdData
    {
        [JsonPropertyName("_data")]
        public string Data { get; set; }
    }

    public class ClusterTime
    {
        [JsonPropertyName("$timestamp")]
        public Timestamp Timestamp { get; set; }
    }

    public class Timestamp
    {
        [JsonPropertyName("t")]
        public long T { get; set; }

        [JsonPropertyName("i")]
        public int I { get; set; }
    }

    public class DocumentKey
    {
        [JsonPropertyName("_id")]
        public Id Id { get; set; }
    }

    public class Id
    {
        [JsonPropertyName("$oid")]
        public string Oid { get; set; }
    }

    public class Namespace
    {
        [JsonPropertyName("db")]
        public string Db { get; set; }

        [JsonPropertyName("coll")]
        public string Coll { get; set; }
    }
}
```

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan.NET.  

```
using System.Text;
using Amazon.Lambda.Core;
using Amazon.Lambda.KafkaEvents;


// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace MSKLambda;

public class Function
{
    
    
    /// <param name="input">The event for the Lambda function handler to process.</param>
    /// <param name="context">The ILambdaContext that provides methods for logging and describing the Lambda environment.</param>
    /// <returns></returns>
    public void FunctionHandler(KafkaEvent evnt, ILambdaContext context)
    {

        foreach (var record in evnt.Records)
        {
            Console.WriteLine("Key:" + record.Key); 
            foreach (var eventRecord in record.Value)
            {
                var valueBytes = eventRecord.Value.ToArray();    
                var valueText = Encoding.UTF8.GetString(valueBytes);
                
                Console.WriteLine("Message:" + valueText);
            }
        }
    }
    

}
```

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Threading.Tasks;
using Amazon.Lambda.Core;
using Amazon.S3;
using System;
using Amazon.Lambda.S3Events;
using System.Web;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace S3Integration
{
    public class Function
    {
        private static AmazonS3Client _s3Client;
        public Function() : this(null)
        {
        }

        internal Function(AmazonS3Client s3Client)
        {
            _s3Client = s3Client ?? new AmazonS3Client();
        }

        public async Task<string> Handler(S3Event evt, ILambdaContext context)
        {
            try
            {
                if (evt.Records.Count <= 0)
                {
                    context.Logger.LogLine("Empty S3 Event received");
                    return string.Empty;
                }

                var bucket = evt.Records[0].S3.Bucket.Name;
                var key = HttpUtility.UrlDecode(evt.Records[0].S3.Object.Key);

                context.Logger.LogLine($"Request is for {bucket} and {key}");

                var objectResult = await _s3Client.GetObjectAsync(bucket, key);

                context.Logger.LogLine($"Returning {objectResult.Key}");

                return objectResult.Key;
            }
            catch (Exception e)
            {
                context.Logger.LogLine($"Error processing request - {e.Message}");

                return string.Empty;
            }
        }
    }
}
```

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using Amazon.Lambda.Core;
using Amazon.Lambda.SNSEvents;


// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace SnsIntegration;

public class Function
{
    public async Task FunctionHandler(SNSEvent evnt, ILambdaContext context)
    {
        foreach (var record in evnt.Records)
        {
            await ProcessRecordAsync(record, context);
        }
        context.Logger.LogInformation("done");
    }

    private async Task ProcessRecordAsync(SNSEvent.SNSRecord record, ILambdaContext context)
    {
        try
        {
            context.Logger.LogInformation($"Processed record {record.Sns.Message}");

            // TODO: Do interesting work based on the new message
            await Task.CompletedTask;
        }
        catch (Exception e)
        {
            //You can use Dead Letter Queue to handle failures. By configuring a Lambda DLQ.
            context.Logger.LogError($"An error occurred");
            throw;
        }
    }
}
```

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using Amazon.Lambda.Core;
using Amazon.Lambda.SQSEvents;


// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace SqsIntegrationSampleCode
{
    public async Task FunctionHandler(SQSEvent evnt, ILambdaContext context)
    {
        foreach (var message in evnt.Records)
        {
            await ProcessMessageAsync(message, context);
        }

        context.Logger.LogInformation("done");
    }

    private async Task ProcessMessageAsync(SQSEvent.SQSMessage message, ILambdaContext context)
    {
        try
        {
            context.Logger.LogInformation($"Processed message {message.Body}");

            // TODO: Do interesting work based on the new message
            await Task.CompletedTask;
        }
        catch (Exception e)
        {
            //You can use Dead Letter Queue to handle failures. By configuring a Lambda DLQ.
            context.Logger.LogError($"An error occurred");
            throw;
        }

    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Text;
using System.Text.Json.Serialization;
using Amazon.Lambda.Core;
using Amazon.Lambda.KinesisEvents;
using AWS.Lambda.Powertools.Logging;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace KinesisIntegration;

public class Function
{
    // Powertools Logger requires an environment variables against your function
    // POWERTOOLS_SERVICE_NAME
    [Logging(LogEvent = true)]
    public async Task<StreamsEventResponse> FunctionHandler(KinesisEvent evnt, ILambdaContext context)
    {
        if (evnt.Records.Count == 0)
        {
            Logger.LogInformation("Empty Kinesis Event received");
            return new StreamsEventResponse();
        }

        foreach (var record in evnt.Records)
        {
            try
            {
                Logger.LogInformation($"Processed Event with EventId: {record.EventId}");
                string data = await GetRecordDataAsync(record.Kinesis, context);
                Logger.LogInformation($"Data: {data}");
                // TODO: Do interesting work based on the new data
            }
            catch (Exception ex)
            {
                Logger.LogError($"An error occurred {ex.Message}");
                /* Since we are working with streams, we can return the failed item immediately.
                   Lambda will immediately begin to retry processing from this failed item onwards. */
                return new StreamsEventResponse
                {
                    BatchItemFailures = new List<StreamsEventResponse.BatchItemFailure>
                    {
                        new StreamsEventResponse.BatchItemFailure { ItemIdentifier = record.Kinesis.SequenceNumber }
                    }
                };
            }
        }
        Logger.LogInformation($"Successfully processed {evnt.Records.Count} records.");
        return new StreamsEventResponse();
    }

    private async Task<string> GetRecordDataAsync(KinesisEvent.Record record, ILambdaContext context)
    {
        byte[] bytes = record.Data.ToArray();
        string data = Encoding.UTF8.GetString(bytes);
        await Task.CompletedTask; //Placeholder for actual async work
        return data;
    }
}

public class StreamsEventResponse
{
    [JsonPropertyName("batchItemFailures")]
    public IList<BatchItemFailure> BatchItemFailures { get; set; }
    public class BatchItemFailure
    {
        [JsonPropertyName("itemIdentifier")]
        public string ItemIdentifier { get; set; }
    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Text.Json;
using System.Text;
using Amazon.Lambda.Core;
using Amazon.Lambda.DynamoDBEvents;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace AWSLambda_DDB;

public class Function
{
    public StreamsEventResponse FunctionHandler(DynamoDBEvent dynamoEvent, ILambdaContext context)

    {
        context.Logger.LogInformation($"Beginning to process {dynamoEvent.Records.Count} records...");
        List<StreamsEventResponse.BatchItemFailure> batchItemFailures = new List<StreamsEventResponse.BatchItemFailure>();
        StreamsEventResponse streamsEventResponse = new StreamsEventResponse();

        foreach (var record in dynamoEvent.Records)
        {
            try
            {
                var sequenceNumber = record.Dynamodb.SequenceNumber;
                context.Logger.LogInformation(sequenceNumber);
            }
            catch (Exception ex)
            {
                context.Logger.LogError(ex.Message);
                batchItemFailures.Add(new StreamsEventResponse.BatchItemFailure() { ItemIdentifier = record.Dynamodb.SequenceNumber });
            }
        }

        if (batchItemFailures.Count > 0)
        {
            streamsEventResponse.BatchItemFailures = batchItemFailures;
        }

        context.Logger.LogInformation("Stream processing complete.");
        return streamsEventResponse;
    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using Amazon.Lambda.Core;
using Amazon.Lambda.SQSEvents;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]
namespace sqsSample;

public class Function
{
    public async Task<SQSBatchResponse> FunctionHandler(SQSEvent evnt, ILambdaContext context)
    {
        List<SQSBatchResponse.BatchItemFailure> batchItemFailures = new List<SQSBatchResponse.BatchItemFailure>();
        foreach(var message in evnt.Records)
        {
            try
            {
                //process your message
                await ProcessMessageAsync(message, context);
            }
            catch (System.Exception)
            {
                //Add failed message identifier to the batchItemFailures list
                batchItemFailures.Add(new SQSBatchResponse.BatchItemFailure{ItemIdentifier=message.MessageId}); 
            }
        }
        return new SQSBatchResponse(batchItemFailures);
    }

    private async Task ProcessMessageAsync(SQSEvent.SQSMessage message, ILambdaContext context)
    {
        if (String.IsNullOrEmpty(message.Body))
        {
            throw new Exception("No Body in SQS Message.");
        }
        context.Logger.LogInformation($"Processed message {message.Body}");
        // TODO: Do interesting work based on the new message
        await Task.CompletedTask;
    }
}
```

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk .NET**  
 Menunjukkan cara membangun dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan .NET SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-dotnet-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# MediaConvert contoh menggunakan SDK untuk .NET
<a name="csharp_3_mediaconvert_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with MediaConvert.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo MediaConvert
<a name="mediaconvert_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Elemental MediaConvert.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/MediaConvert#code-examples). 

```
using Amazon.MediaConvert;
using Amazon.MediaConvert.Model;

namespace MediaConvertActions;

public static class HelloMediaConvert
{
    static async Task Main(string[] args)
    {
        // Create the client using the default profile.
        var mediaConvertClient = new AmazonMediaConvertClient();

        Console.WriteLine($"Hello AWS Elemental MediaConvert! Your MediaConvert Jobs are:");
        Console.WriteLine();

        // You can use await and any of the async methods to get a response.
        // Let's get some MediaConvert jobs.
        var response = await mediaConvertClient.ListJobsAsync(
            new ListJobsRequest()
            {
                MaxResults = 10
            }
            );

        foreach (var job in response.Jobs)
        {
            Console.WriteLine($"\tJob: {job.Id} status {job.Status}");
            Console.WriteLine();
        }
    }
}
```
+  Untuk detail API, lihat [DescribeEndpoints](https://docs.aws.amazon.com/goto/DotNetSDKV3/mediaconvert-2017-08-29/DescribeEndpoints)di *Referensi AWS SDK untuk .NET API*. 

## Tindakan
<a name="actions"></a>

### `CreateJob`
<a name="mediaconvert_CreateJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/MediaConvert#code-examples). 
Siapkan lokasi file, klien, dan pembungkus.  

```
        // MediaConvert role Amazon Resource Name (ARN).
        // For information on creating this role, see
        // https://docs.aws.amazon.com/mediaconvert/latest/ug/creating-the-iam-role-in-mediaconvert-configured.html.
        var mediaConvertRole = _configuration["mediaConvertRoleARN"];

        // Include the file input and output locations in settings.json or settings.local.json.
        var fileInput = _configuration["fileInput"];
        var fileOutput = _configuration["fileOutput"];

        AmazonMediaConvertClient mcClient = new AmazonMediaConvertClient();

        var wrapper = new MediaConvertWrapper(mcClient);
```

```
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Creating job for input file {fileInput}.");
        var jobId = await wrapper.CreateJob(mediaConvertRole!, fileInput!, fileOutput!);
        Console.WriteLine($"Created job with Job ID: {jobId}");
        Console.WriteLine(new string('-', 80));
```
Buat pekerjaan menggunakan metode pembungkus dan kembalikan ID pekerjaan.  

```
    /// <summary>
    /// Create a job to convert a media file.
    /// </summary>
    /// <param name="mediaConvertRole">The Amazon Resource Name (ARN) of the media convert role, as specified here:
    /// https://docs.aws.amazon.com/mediaconvert/latest/ug/creating-the-iam-role-in-mediaconvert-configured.html</param>
    /// <param name="fileInput">The Amazon Simple Storage Service (Amazon S3) location of the input media file.</param>
    /// <param name="fileOutput">The Amazon S3 location for the output media file.</param>
    /// <returns>The ID of the new job.</returns>
    public async Task<string> CreateJob(string mediaConvertRole, string fileInput,
        string fileOutput)
    {
        CreateJobRequest createJobRequest = new CreateJobRequest
        {
            Role = mediaConvertRole
        };

        createJobRequest.UserMetadata.Add("Customer", "Amazon");

        JobSettings jobSettings = new JobSettings
        {
            AdAvailOffset = 0,
            TimecodeConfig = new TimecodeConfig
            {
                Source = TimecodeSource.EMBEDDED
            }
        };
        createJobRequest.Settings = jobSettings;

        #region OutputGroup

        OutputGroup ofg = new OutputGroup
        {
            Name = "File Group",
            OutputGroupSettings = new OutputGroupSettings
            {
                Type = OutputGroupType.FILE_GROUP_SETTINGS,
                FileGroupSettings = new FileGroupSettings
                {
                    Destination = fileOutput
                }
            }
        };

        Output output = new Output
        {
            NameModifier = "_1"
        };

        #region VideoDescription

        VideoDescription vdes = new VideoDescription
        {
            ScalingBehavior = ScalingBehavior.DEFAULT,
            TimecodeInsertion = VideoTimecodeInsertion.DISABLED,
            AntiAlias = AntiAlias.ENABLED,
            Sharpness = 50,
            AfdSignaling = AfdSignaling.NONE,
            DropFrameTimecode = DropFrameTimecode.ENABLED,
            RespondToAfd = RespondToAfd.NONE,
            ColorMetadata = ColorMetadata.INSERT,
            CodecSettings = new VideoCodecSettings
            {
                Codec = VideoCodec.H_264
            }
        };
        output.VideoDescription = vdes;

        H264Settings h264 = new H264Settings
        {
            InterlaceMode = H264InterlaceMode.PROGRESSIVE,
            NumberReferenceFrames = 3,
            Syntax = H264Syntax.DEFAULT,
            Softness = 0,
            GopClosedCadence = 1,
            GopSize = 90,
            Slices = 1,
            GopBReference = H264GopBReference.DISABLED,
            SlowPal = H264SlowPal.DISABLED,
            SpatialAdaptiveQuantization = H264SpatialAdaptiveQuantization.ENABLED,
            TemporalAdaptiveQuantization = H264TemporalAdaptiveQuantization.ENABLED,
            FlickerAdaptiveQuantization = H264FlickerAdaptiveQuantization.DISABLED,
            EntropyEncoding = H264EntropyEncoding.CABAC,
            Bitrate = 5000000,
            FramerateControl = H264FramerateControl.SPECIFIED,
            RateControlMode = H264RateControlMode.CBR,
            CodecProfile = H264CodecProfile.MAIN,
            Telecine = H264Telecine.NONE,
            MinIInterval = 0,
            AdaptiveQuantization = H264AdaptiveQuantization.HIGH,
            CodecLevel = H264CodecLevel.AUTO,
            FieldEncoding = H264FieldEncoding.PAFF,
            SceneChangeDetect = H264SceneChangeDetect.ENABLED,
            QualityTuningLevel = H264QualityTuningLevel.SINGLE_PASS,
            FramerateConversionAlgorithm =
                H264FramerateConversionAlgorithm.DUPLICATE_DROP,
            UnregisteredSeiTimecode = H264UnregisteredSeiTimecode.DISABLED,
            GopSizeUnits = H264GopSizeUnits.FRAMES,
            ParControl = H264ParControl.SPECIFIED,
            NumberBFramesBetweenReferenceFrames = 2,
            RepeatPps = H264RepeatPps.DISABLED,
            FramerateNumerator = 30,
            FramerateDenominator = 1,
            ParNumerator = 1,
            ParDenominator = 1
        };
        output.VideoDescription.CodecSettings.H264Settings = h264;

        #endregion VideoDescription

        #region AudioDescription

        AudioDescription ades = new AudioDescription
        {
            LanguageCodeControl = AudioLanguageCodeControl.FOLLOW_INPUT,
            // This name matches one specified in the following Inputs.
            AudioSourceName = "Audio Selector 1",
            CodecSettings = new AudioCodecSettings
            {
                Codec = AudioCodec.AAC
            }
        };

        AacSettings aac = new AacSettings
        {
            AudioDescriptionBroadcasterMix = AacAudioDescriptionBroadcasterMix.NORMAL,
            RateControlMode = AacRateControlMode.CBR,
            CodecProfile = AacCodecProfile.LC,
            CodingMode = AacCodingMode.CODING_MODE_2_0,
            RawFormat = AacRawFormat.NONE,
            SampleRate = 48000,
            Specification = AacSpecification.MPEG4,
            Bitrate = 64000
        };
        ades.CodecSettings.AacSettings = aac;
        output.AudioDescriptions.Add(ades);

        #endregion AudioDescription

        #region Mp4 Container

        output.ContainerSettings = new ContainerSettings
        {
            Container = ContainerType.MP4
        };
        Mp4Settings mp4 = new Mp4Settings
        {
            CslgAtom = Mp4CslgAtom.INCLUDE,
            FreeSpaceBox = Mp4FreeSpaceBox.EXCLUDE,
            MoovPlacement = Mp4MoovPlacement.PROGRESSIVE_DOWNLOAD
        };
        output.ContainerSettings.Mp4Settings = mp4;

        #endregion Mp4 Container

        ofg.Outputs.Add(output);
        createJobRequest.Settings.OutputGroups.Add(ofg);

        #endregion OutputGroup

        #region Input

        Input input = new Input
        {
            FilterEnable = InputFilterEnable.AUTO,
            PsiControl = InputPsiControl.USE_PSI,
            FilterStrength = 0,
            DeblockFilter = InputDeblockFilter.DISABLED,
            DenoiseFilter = InputDenoiseFilter.DISABLED,
            TimecodeSource = InputTimecodeSource.EMBEDDED,
            FileInput = fileInput
        };

        AudioSelector audsel = new AudioSelector
        {
            Offset = 0,
            DefaultSelection = AudioDefaultSelection.NOT_DEFAULT,
            ProgramSelection = 1,
            SelectorType = AudioSelectorType.TRACK
        };
        audsel.Tracks.Add(1);
        input.AudioSelectors.Add("Audio Selector 1", audsel);

        input.VideoSelector = new VideoSelector
        {
            ColorSpace = ColorSpace.FOLLOW
        };

        createJobRequest.Settings.Inputs.Add(input);

        #endregion Input

        CreateJobResponse createJobResponse =
            await _amazonMediaConvert.CreateJobAsync(createJobRequest);

        var jobId = createJobResponse.Job.Id;

        return jobId;
    }
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/mediaconvert-2017-08-29/CreateJob)di *Referensi AWS SDK untuk .NET API*. 

### `GetJob`
<a name="mediaconvert_GetJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/MediaConvert#code-examples). 
Siapkan lokasi file, klien, dan pembungkus.  

```
        // MediaConvert role Amazon Resource Name (ARN).
        // For information on creating this role, see
        // https://docs.aws.amazon.com/mediaconvert/latest/ug/creating-the-iam-role-in-mediaconvert-configured.html.
        var mediaConvertRole = _configuration["mediaConvertRoleARN"];

        // Include the file input and output locations in settings.json or settings.local.json.
        var fileInput = _configuration["fileInput"];
        var fileOutput = _configuration["fileOutput"];

        AmazonMediaConvertClient mcClient = new AmazonMediaConvertClient();

        var wrapper = new MediaConvertWrapper(mcClient);
```
Dapatkan pekerjaan dengan ID-nya.  

```
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Getting job information for Job ID {jobId}");
        var job = await wrapper.GetJobById(jobId);
        Console.WriteLine($"Job {job.Id} created on {job.CreatedAt:d} has status {job.Status}.");
        Console.WriteLine(new string('-', 80));
```

```
    /// <summary>
    /// Get the job information for a job by its ID.
    /// </summary>
    /// <param name="jobId">The ID of the job.</param>
    /// <returns>The Job object.</returns>
    public async Task<Job> GetJobById(string jobId)
    {
        var jobResponse = await _amazonMediaConvert.GetJobAsync(
                new GetJobRequest
                {
                    Id = jobId
                });

        return jobResponse.Job;
    }
```
+  Untuk detail API, lihat [GetJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/mediaconvert-2017-08-29/GetJob)di *Referensi AWS SDK untuk .NET API*. 

### `ListJobs`
<a name="mediaconvert_ListJobs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/MediaConvert#code-examples). 
Siapkan lokasi file, klien, dan pembungkus.  

```
        // MediaConvert role Amazon Resource Name (ARN).
        // For information on creating this role, see
        // https://docs.aws.amazon.com/mediaconvert/latest/ug/creating-the-iam-role-in-mediaconvert-configured.html.
        var mediaConvertRole = _configuration["mediaConvertRoleARN"];

        // Include the file input and output locations in settings.json or settings.local.json.
        var fileInput = _configuration["fileInput"];
        var fileOutput = _configuration["fileOutput"];

        AmazonMediaConvertClient mcClient = new AmazonMediaConvertClient();

        var wrapper = new MediaConvertWrapper(mcClient);
```
Buat daftar pekerjaan dengan status tertentu.  

```
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Listing all complete jobs.");
        var completeJobs = await wrapper.ListAllJobsByStatus(JobStatus.COMPLETE);
        completeJobs.ForEach(j =>
        {
            Console.WriteLine($"Job {j.Id} created on {j.CreatedAt:d} has status {j.Status}.");
        });
```
Buat daftar pekerjaan menggunakan paginator.  

```
    /// <summary>
    /// List all of the jobs with a particular status using a paginator.
    /// </summary>
    /// <param name="status">The status to use when listing jobs.</param>
    /// <returns>The list of jobs matching the status.</returns>
    public async Task<List<Job>> ListAllJobsByStatus(JobStatus? status = null)
    {
        var returnedJobs = new List<Job>();

        var paginatedJobs = _amazonMediaConvert.Paginators.ListJobs(
                new ListJobsRequest
                {
                    Status = status
                });

        // Get the entire list using the paginator.
        await foreach (var job in paginatedJobs.Jobs)
        {
            returnedJobs.Add(job);
        }

        return returnedJobs;
    }
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/DotNetSDKV3/mediaconvert-2017-08-29/ListJobs)di *Referensi AWS SDK untuk .NET API*. 

# Amazon MSK contoh menggunakan SDK untuk .NET
<a name="csharp_3_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan MSK AWS SDK untuk .NET with Amazon.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan.NET.  

```
using System.Text;
using Amazon.Lambda.Core;
using Amazon.Lambda.KafkaEvents;


// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace MSKLambda;

public class Function
{
    
    
    /// <param name="input">The event for the Lambda function handler to process.</param>
    /// <param name="context">The ILambdaContext that provides methods for logging and describing the Lambda environment.</param>
    /// <returns></returns>
    public void FunctionHandler(KafkaEvent evnt, ILambdaContext context)
    {

        foreach (var record in evnt.Records)
        {
            Console.WriteLine("Key:" + record.Key); 
            foreach (var eventRecord in record.Value)
            {
                var valueBytes = eventRecord.Value.ToArray();    
                var valueText = Encoding.UTF8.GetString(valueBytes);
                
                Console.WriteLine("Message:" + valueText);
            }
        }
    }
    

}
```

# Organizations contoh menggunakan SDK untuk .NET
<a name="csharp_3_organizations_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with Organizations.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AttachPolicy`
<a name="organizations_AttachPolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachPolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Shows how to attach an AWS Organizations policy to an organization,
    /// an organizational unit, or an account.
    /// </summary>
    public class AttachPolicy
    {
        /// <summary>
        /// Initializes the Organizations client object and then calls the
        /// AttachPolicyAsync method to attach the policy to the root
        /// organization.
        /// </summary>
        public static async Task Main()
        {
            IAmazonOrganizations client = new AmazonOrganizationsClient();
            var policyId = "p-00000000";
            var targetId = "r-0000";

            var request = new AttachPolicyRequest
            {
                PolicyId = policyId,
                TargetId = targetId,
            };

            var response = await client.AttachPolicyAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Successfully attached Policy ID {policyId} to Target ID: {targetId}.");
            }
            else
            {
                Console.WriteLine("Was not successful in attaching the policy.");
            }
        }
    }
```
+  Untuk detail API, lihat [AttachPolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/AttachPolicy)di *Referensi AWS SDK untuk .NET API*. 

### `CreateAccount`
<a name="organizations_CreateAccount_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccount`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Creates a new AWS Organizations account.
    /// </summary>
    public class CreateAccount
    {
        /// <summary>
        /// Initializes an Organizations client object and uses it to create
        /// the new account with the name specified in accountName.
        /// </summary>
        public static async Task Main()
        {
            IAmazonOrganizations client = new AmazonOrganizationsClient();
            var accountName = "ExampleAccount";
            var email = "someone@example.com";

            var request = new CreateAccountRequest
            {
                AccountName = accountName,
                Email = email,
            };

            var response = await client.CreateAccountAsync(request);
            var status = response.CreateAccountStatus;

            Console.WriteLine($"The staus of {status.AccountName} is {status.State}.");
        }
    }
```
+  Untuk detail API, lihat [CreateAccount](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/CreateAccount)di *Referensi AWS SDK untuk .NET API*. 

### `CreateOrganization`
<a name="organizations_CreateOrganization_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOrganization`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Creates an organization in AWS Organizations.
    /// </summary>
    public class CreateOrganization
    {
        /// <summary>
        /// Creates an Organizations client object and then uses it to create
        /// a new organization with the default user as the administrator, and
        /// then displays information about the new organization.
        /// </summary>
        public static async Task Main()
        {
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            var response = await client.CreateOrganizationAsync(new CreateOrganizationRequest
            {
                FeatureSet = "ALL",
            });

            Organization newOrg = response.Organization;

            Console.WriteLine($"Organization: {newOrg.Id} Main Accoount: {newOrg.MasterAccountId}");
        }
    }
```
+  Untuk detail API, lihat [CreateOrganization](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/CreateOrganization)di *Referensi AWS SDK untuk .NET API*. 

### `CreateOrganizationalUnit`
<a name="organizations_CreateOrganizationalUnit_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOrganizationalUnit`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Creates a new organizational unit in AWS Organizations.
    /// </summary>
    public class CreateOrganizationalUnit
    {
        /// <summary>
        /// Initializes an Organizations client object and then uses it to call
        /// the CreateOrganizationalUnit method. If the call succeeds, it
        /// displays information about the new organizational unit.
        /// </summary>
        public static async Task Main()
        {
            // Create the client object using the default account.
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            var orgUnitName = "ProductDevelopmentUnit";

            var request = new CreateOrganizationalUnitRequest
            {
                Name = orgUnitName,
                ParentId = "r-0000",
            };

            var response = await client.CreateOrganizationalUnitAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Successfully created organizational unit: {orgUnitName}.");
                Console.WriteLine($"Organizational unit {orgUnitName} Details");
                Console.WriteLine($"ARN: {response.OrganizationalUnit.Arn} Id: {response.OrganizationalUnit.Id}");
            }
            else
            {
                Console.WriteLine("Could not create new organizational unit.");
            }
        }
    }
```
+  Untuk detail API, lihat [CreateOrganizationalUnit](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/CreateOrganizationalUnit)di *Referensi AWS SDK untuk .NET API*. 

### `CreatePolicy`
<a name="organizations_CreatePolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Creates a new AWS Organizations Policy.
    /// </summary>
    public class CreatePolicy
    {
        /// <summary>
        /// Initializes the AWS Organizations client object, uses it to
        /// create a new Organizations Policy, and then displays information
        /// about the newly created Policy.
        /// </summary>
        public static async Task Main()
        {
            IAmazonOrganizations client = new AmazonOrganizationsClient();
            var policyContent = "{" +
                "   \"Version\": \"2012-10-17\"," +
                "	\"Statement\" : [{" +
                    "	\"Action\" : [\"s3:*\"]," +
                    "	\"Effect\" : \"Allow\"," +
                    "	\"Resource\" : \"*\"" +
                "}]" +
            "}";

            try
            {
                var response = await client.CreatePolicyAsync(new CreatePolicyRequest
                {
                    Content = policyContent,
                    Description = "Enables admins of attached accounts to delegate all Amazon S3 permissions",
                    Name = "AllowAllS3Actions",
                    Type = "SERVICE_CONTROL_POLICY",
                });

                Policy policy = response.Policy;
                Console.WriteLine($"{policy.PolicySummary.Name} has the following content: {policy.Content}");
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }
        }
    }
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/CreatePolicy)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteOrganization`
<a name="organizations_DeleteOrganization_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteOrganization`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Shows how to delete an existing organization using the AWS
    /// Organizations Service.
    /// </summary>
    public class DeleteOrganization
    {
        /// <summary>
        /// Initializes the Organizations client and then calls
        /// DeleteOrganizationAsync to delete the organization.
        /// </summary>
        public static async Task Main()
        {
            // Create the client object using the default account.
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            var response = await client.DeleteOrganizationAsync(new DeleteOrganizationRequest());

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine("Successfully deleted organization.");
            }
            else
            {
                Console.WriteLine("Could not delete organization.");
            }
        }
    }
```
+  Untuk detail API, lihat [DeleteOrganization](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/DeleteOrganization)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteOrganizationalUnit`
<a name="organizations_DeleteOrganizationalUnit_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteOrganizationalUnit`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Shows how to delete an existing AWS Organizations organizational unit.
    /// </summary>
    public class DeleteOrganizationalUnit
    {
        /// <summary>
        /// Initializes the Organizations client object and calls
        /// DeleteOrganizationalUnitAsync to delete the organizational unit
        /// with the selected ID.
        /// </summary>
        public static async Task Main()
        {
            // Create the client object using the default account.
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            var orgUnitId = "ou-0000-00000000";

            var request = new DeleteOrganizationalUnitRequest
            {
                OrganizationalUnitId = orgUnitId,
            };

            var response = await client.DeleteOrganizationalUnitAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Successfully deleted the organizational unit with ID: {orgUnitId}.");
            }
            else
            {
                Console.WriteLine($"Could not delete the organizational unit with ID: {orgUnitId}.");
            }
        }
    }
```
+  Untuk detail API, lihat [DeleteOrganizationalUnit](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/DeleteOrganizationalUnit)di *Referensi AWS SDK untuk .NET API*. 

### `DeletePolicy`
<a name="organizations_DeletePolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Deletes an existing AWS Organizations policy.
    /// </summary>
    public class DeletePolicy
    {
        /// <summary>
        /// Initializes the Organizations client object and then uses it to
        /// delete the policy with the specified policyId.
        /// </summary>
        public static async Task Main()
        {
            // Create the client object using the default account.
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            var policyId = "p-00000000";

            var request = new DeletePolicyRequest
            {
                PolicyId = policyId,
            };

            var response = await client.DeletePolicyAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Successfully deleted Policy: {policyId}.");
            }
            else
            {
                Console.WriteLine($"Could not delete Policy: {policyId}.");
            }
        }
    }
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/DeletePolicy)di *Referensi AWS SDK untuk .NET API*. 

### `DetachPolicy`
<a name="organizations_DetachPolicy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachPolicy`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Shows how to detach a policy from an AWS Organizations organization,
    /// organizational unit, or account.
    /// </summary>
    public class DetachPolicy
    {
        /// <summary>
        /// Initializes the Organizations client object and uses it to call
        /// DetachPolicyAsync to detach the policy.
        /// </summary>
        public static async Task Main()
        {
            // Create the client object using the default account.
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            var policyId = "p-00000000";
            var targetId = "r-0000";

            var request = new DetachPolicyRequest
            {
                PolicyId = policyId,
                TargetId = targetId,
            };

            var response = await client.DetachPolicyAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"Successfully detached policy with Policy Id: {policyId}.");
            }
            else
            {
                Console.WriteLine("Could not detach the policy.");
            }
        }
    }
```
+  Untuk detail API, lihat [DetachPolicy](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/DetachPolicy)di *Referensi AWS SDK untuk .NET API*. 

### `ListAccounts`
<a name="organizations_ListAccounts_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccounts`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Uses the AWS Organizations service to list the accounts associated
    /// with the default account.
    /// </summary>
    public class ListAccounts
    {
        /// <summary>
        /// Creates the Organizations client and then calls its
        /// ListAccountsAsync method.
        /// </summary>
        public static async Task Main()
        {
            // Create the client object using the default account.
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            var request = new ListAccountsRequest
            {
                MaxResults = 5,
            };

            var response = new ListAccountsResponse();
            try
            {
                do
                {
                    response = await client.ListAccountsAsync(request);
                    response.Accounts.ForEach(a => DisplayAccounts(a));
                    if (response.NextToken is not null)
                    {
                        request.NextToken = response.NextToken;
                    }
                }
                while (response.NextToken is not null);
            }
            catch (AWSOrganizationsNotInUseException ex)
            {
                Console.WriteLine(ex.Message);
            }
        }

        /// <summary>
        /// Displays information about an Organizations account.
        /// </summary>
        /// <param name="account">An Organizations account for which to display
        /// information on the console.</param>
        private static void DisplayAccounts(Account account)
        {
            string accountInfo = $"{account.Id} {account.Name}\t{account.Status}";

            Console.WriteLine(accountInfo);
        }
    }
```
+  Untuk detail API, lihat [ListAccounts](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/ListAccounts)di *Referensi AWS SDK untuk .NET API*. 

### `ListOrganizationalUnitsForParent`
<a name="organizations_ListOrganizationalUnitsForParent_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOrganizationalUnitsForParent`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Lists the AWS Organizations organizational units that belong to an
    /// organization.
    /// </summary>
    public class ListOrganizationalUnitsForParent
    {
        /// <summary>
        /// Initializes the Organizations client object and then uses it to
        /// call the ListOrganizationalUnitsForParentAsync method to retrieve
        /// the list of organizational units.
        /// </summary>
        public static async Task Main()
        {
            // Create the client object using the default account.
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            var parentId = "r-0000";

            var request = new ListOrganizationalUnitsForParentRequest
            {
                ParentId = parentId,
                MaxResults = 5,
            };

            var response = new ListOrganizationalUnitsForParentResponse();
            try
            {
                do
                {
                    response = await client.ListOrganizationalUnitsForParentAsync(request);
                    response.OrganizationalUnits.ForEach(u => DisplayOrganizationalUnit(u));
                    if (response.NextToken is not null)
                    {
                        request.NextToken = response.NextToken;
                    }
                }
                while (response.NextToken is not null);
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }
        }

        /// <summary>
        /// Displays information about an Organizations organizational unit.
        /// </summary>
        /// <param name="unit">The OrganizationalUnit for which to display
        /// information.</param>
        public static void DisplayOrganizationalUnit(OrganizationalUnit unit)
        {
            string accountInfo = $"{unit.Id} {unit.Name}\t{unit.Arn}";

            Console.WriteLine(accountInfo);
        }
    }
```
+  Untuk detail API, lihat [ListOrganizationalUnitsForParent](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/ListOrganizationalUnitsForParent)di *Referensi AWS SDK untuk .NET API*. 

### `ListPolicies`
<a name="organizations_ListPolicies_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Organizations#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Organizations;
    using Amazon.Organizations.Model;

    /// <summary>
    /// Shows how to list the AWS Organizations policies associated with an
    /// organization.
    /// </summary>
    public class ListPolicies
    {
        /// <summary>
        /// Initializes an Organizations client object, and then calls its
        /// ListPoliciesAsync method.
        /// </summary>
        public static async Task Main()
        {
            // Create the client object using the default account.
            IAmazonOrganizations client = new AmazonOrganizationsClient();

            // The value for the Filter parameter is required and must must be
            // one of the following:
            //     AISERVICES_OPT_OUT_POLICY
            //     BACKUP_POLICY
            //     SERVICE_CONTROL_POLICY
            //     TAG_POLICY
            var request = new ListPoliciesRequest
            {
                Filter = "SERVICE_CONTROL_POLICY",
                MaxResults = 5,
            };

            var response = new ListPoliciesResponse();
            try
            {
                do
                {
                    response = await client.ListPoliciesAsync(request);
                    response.Policies.ForEach(p => DisplayPolicies(p));
                    if (response.NextToken is not null)
                    {
                        request.NextToken = response.NextToken;
                    }
                }
                while (response.NextToken is not null);
            }
            catch (AWSOrganizationsNotInUseException ex)
            {
                Console.WriteLine(ex.Message);
            }
        }

        /// <summary>
        /// Displays information about the Organizations policies associated
        /// with an organization.
        /// </summary>
        /// <param name="policy">An Organizations policy summary to display
        /// information on the console.</param>
        private static void DisplayPolicies(PolicySummary policy)
        {
            string policyInfo = $"{policy.Id} {policy.Name}\t{policy.Description}";

            Console.WriteLine(policyInfo);
        }
    }
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/DotNetSDKV3/organizations-2016-11-28/ListPolicies)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Partner Central menggunakan SDK untuk .NET
<a name="csharp_3_partnercentral-selling_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Pusat Mitra AWS SDK untuk .NET dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateOpportunity`
<a name="partnercentral-selling_CreateOpportunity_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOpportunity`.

**SDK untuk .NET**  
Ciptakan peluang.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// PDX-License-Identifier: Apache-2.0

using System;
using Newtonsoft.Json;
using Amazon;
using Amazon.Runtime;
using Amazon.PartnerCentralSelling;
using Amazon.PartnerCentralSelling.Model;

namespace AWSExample
{
    class Program
    {
        static readonly string catalogToUse = "AWS";
        static async Task Main(string[] args)
        {
            // Initialize credentials from .aws/credentials file
            var credentials = new Amazon.Runtime.CredentialManagement.SharedCredentialsFile();
            if (credentials.TryGetProfile("default", out var profile))
            {
                AWSCredentials awsCredentials = profile.GetAWSCredentials(credentials);

                var client = new AmazonPartnerCentralSellingClient(awsCredentials);

                var request = new CreateOpportunityRequest
                {
                    Catalog = catalogToUse,
                    Origin = "Partner Referral",
                    Customer = new Customer
                    {
                        Account = new Account
                        {
                            Address = new Address
                            {
                                CountryCode = "US",
                                PostalCode = "99502",
                                StateOrRegion = "Alaska"
                            },
                            CompanyName = "TestCompanyName",
                            Duns = "123456789",
                            WebsiteUrl = "www.test.io",
                            Industry = "Automotive"
                        },
                        Contacts = new List<Contact>
                        {
                            new Contact
                            {
                                Email = "test@test.io",
                                FirstName = "John  ",
                                LastName = "Doe",
                                Phone = "+14444444444",
                                BusinessTitle = "test title"
                            }
                        }
                    },
                    LifeCycle = new LifeCycle
                    {
                        ReviewStatus = "Submitted",
                        TargetCloseDate = "2024-12-30"
                    },
                    Marketing = new Marketing
                    {
                        Source = "None"
                    },
                    OpportunityType = "Net New Business",
                    PrimaryNeedsFromAws = new List<string> { "Co-Sell - Architectural Validation" },
                    Project = new Project
                    {
                        Title = "Moin Test UUID",
                        CustomerBusinessProblem = "Sandbox is not working as expected",
                        CustomerUseCase = "AI Machine Learning and Analytics",
                        DeliveryModels = new List<string> { "SaaS or PaaS" },
                        ExpectedCustomerSpend = new List<ExpectedCustomerSpend>
                        {
                            new ExpectedCustomerSpend
                            {
                                Amount = "2000.0",
                                CurrencyCode = "USD",
                                Frequency = "Monthly",
                                TargetCompany = "Ibexlabs"
                            }
                        },
                        SalesActivities = new List<string> { "Initialized discussions with customer" }
                    }
                };

                try
                {
                    var response = await client.CreateOpportunityAsync(request);
                    Console.WriteLine(response.HttpStatusCode);
                    string formattedJson = JsonConvert.SerializeObject(response, Formatting.Indented);
                    Console.WriteLine(formattedJson);
                }
                catch (ValidationException ex)
                {
                    Console.WriteLine("Validation error: " + ex.Message);
                }
                catch (AmazonPartnerCentralSellingException e)
                {
                    Console.WriteLine("Failed:");
                    Console.WriteLine(e.RequestId);
                    Console.WriteLine(e.ErrorCode);
                    Console.WriteLine(e.Message);
                }
            }
            else
            {
                Console.WriteLine("Profile not found.");
            }
        }
    }
}
```
+  Untuk detail API, lihat [CreateOpportunity](https://docs.aws.amazon.com/goto/DotNetSDKV3/partnercentral-selling-2022-07-26/CreateOpportunity)di *Referensi AWS SDK untuk .NET API*. 

### `GetOpportunity`
<a name="partnercentral-selling_GetOpportunity_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetOpportunity`.

**SDK untuk .NET**  
Dapatkan kesempatan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// PDX-License-Identifier: Apache-2.0

using System;
using Newtonsoft.Json;
using Amazon;
using Amazon.Runtime;
using Amazon.PartnerCentralSelling;
using Amazon.PartnerCentralSelling.Model;

namespace AWSExample
{
    class Program
    {
        static readonly string catalogToUse = "AWS";
        static readonly string identifier = "O1111111";
        static async Task Main(string[] args)
        {
            // Initialize credentials from .aws/credentials file
            var credentials = new Amazon.Runtime.CredentialManagement.SharedCredentialsFile();
            if (credentials.TryGetProfile("default", out var profile))
            {
                AWSCredentials awsCredentials = profile.GetAWSCredentials(credentials);

                var client = new AmazonPartnerCentralSellingClient(awsCredentials);

                var request = new GetOpportunityRequest
                {
                    Catalog = catalogToUse,
                    Identifier = identifier
                };

                try {
                    var response = await client.GetOpportunityAsync(request);
                    Console.WriteLine(response.HttpStatusCode);
                    string formattedJson = JsonConvert.SerializeObject(response, Formatting.Indented);
                    Console.WriteLine(formattedJson);
                } catch(ValidationException ex) {
                    Console.WriteLine("Validation error: " + ex.Message);
                } catch (AmazonPartnerCentralSellingException e) {
                    Console.WriteLine("Failed:");
                    Console.WriteLine(e.RequestId);
                    Console.WriteLine(e.ErrorCode);
                    Console.WriteLine(e.Message);
                }
            }
            else
            {
                Console.WriteLine("Profile not found.");
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetOpportunity](https://docs.aws.amazon.com/goto/DotNetSDKV3/partnercentral-selling-2022-07-26/GetOpportunity)di *Referensi AWS SDK untuk .NET API*. 

### `ListOpportunities`
<a name="partnercentral-selling_ListOpportunities_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOpportunities`.

**SDK untuk .NET**  
Daftar peluang.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// PDX-License-Identifier: Apache-2.0

using System;
using Newtonsoft.Json;
using Amazon;
using Amazon.Runtime;
using Amazon.PartnerCentralSelling;
using Amazon.PartnerCentralSelling.Model;

namespace AWSExample
{
    class Program
    {
        static readonly string catalogToUse = "Sandbox";
        static async Task Main(string[] args)
        {
            // Initialize credentials from .aws/credentials file
            var credentials = new Amazon.Runtime.CredentialManagement.SharedCredentialsFile();
            if (credentials.TryGetProfile("default", out var profile))
            {
                AWSCredentials awsCredentials = profile.GetAWSCredentials(credentials);

                //var config = new AmazonPartnerCentralSellingConfig()
                //{
                //    ServiceURL = "https://partnercentral-selling.us-east-1.api.aws",
                //};
                //var client = new AmazonPartnerCentralSellingClient(awsCredentials, config);
                var client = new AmazonPartnerCentralSellingClient(awsCredentials);
                var request = new ListOpportunitiesRequest
                {
                    Catalog = catalogToUse,
                    MaxResults = 2
                };

                try {
                    var response = await client.ListOpportunitiesAsync(request);
                    Console.WriteLine(response.HttpStatusCode);
                    foreach (var opportunity in response.OpportunitySummaries)
                    {
                        Console.WriteLine("Opportunity id: " + opportunity.Id);
                    }
                    string formattedJson = JsonConvert.SerializeObject(response.OpportunitySummaries, Formatting.Indented);
                    Console.WriteLine(formattedJson);
                } catch(ValidationException ex) {
                    Console.WriteLine("Validation error: " + ex.Message);
                } catch (AmazonPartnerCentralSellingException e) {
                    Console.WriteLine("Failed:");
                    Console.WriteLine(e.RequestId);
                    Console.WriteLine(e.ErrorCode);
                    Console.WriteLine(e.Message);
                }
            }
            else
            {
                Console.WriteLine("Profile not found.");
            }
        }
    }
}
```
+  Untuk detail API, lihat [ListOpportunities](https://docs.aws.amazon.com/goto/DotNetSDKV3/partnercentral-selling-2022-07-26/ListOpportunities)di *Referensi AWS SDK untuk .NET API*. 

# Amazon Pinpoint contoh menggunakan SDK untuk .NET
<a name="csharp_3_pinpoint_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET dengan Amazon Pinpoint.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendMessages`
<a name="pinpoint_SendMessages_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessages`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Pinpoint#code-examples). 
Kirim pesan email.  

```
using Amazon;
using Amazon.Pinpoint;
using Amazon.Pinpoint.Model;
using Microsoft.Extensions.Configuration;

namespace SendEmailMessage;

public class SendEmailMainClass
{
    public static async Task Main(string[] args)
    {
        var configuration = new ConfigurationBuilder()
        .SetBasePath(Directory.GetCurrentDirectory())
        .AddJsonFile("settings.json") // Load test settings from .json file.
        .AddJsonFile("settings.local.json",
            true) // Optionally load local settings.
        .Build();

        // The AWS Region that you want to use to send the email. For a list of
        // AWS Regions where the Amazon Pinpoint API is available, see 
        // https://docs.aws.amazon.com/pinpoint/latest/apireference/
        string region = "us-east-1";

        // The "From" address. This address has to be verified in Amazon Pinpoint 
        // in the region you're using to send email.
        string senderAddress = configuration["SenderAddress"]!;

        // The address on the "To" line. If your Amazon Pinpoint account is in
        // the sandbox, this address also has to be verified. 
        string toAddress = configuration["ToAddress"]!;

        // The Amazon Pinpoint project/application ID to use when you send this message.
        // Make sure that the SMS channel is enabled for the project or application
        // that you choose.
        string appId = configuration["AppId"]!;

        try
        {
            await SendEmailMessage(region, appId, toAddress, senderAddress);
        }
        catch (Exception ex)
        {
            Console.WriteLine("The message wasn't sent. Error message: " + ex.Message);
        }
    }

    public static async Task<MessageResponse> SendEmailMessage(
        string region, string appId, string toAddress, string senderAddress)
    {
        var client = new AmazonPinpointClient(RegionEndpoint.GetBySystemName(region));

        // The subject line of the email.
        string subject = "Amazon Pinpoint Email test";

        // The body of the email for recipients whose email clients don't 
        // support HTML content.
        string textBody = @"Amazon Pinpoint Email Test (.NET)"
                          + "\n---------------------------------"
                          + "\nThis email was sent using the Amazon Pinpoint API using the AWS SDK for .NET.";

        // The body of the email for recipients whose email clients support
        // HTML content.
        string htmlBody = @"<html>"
                          + "\n<head></head>"
                          + "\n<body>"
                          + "\n  <h1>Amazon Pinpoint Email Test (AWS SDK for .NET)</h1>"
                          + "\n  <p>This email was sent using the "
                          + "\n    <a href='https://aws.amazon.com/pinpoint/'>Amazon Pinpoint</a> API "
                          + "\n    using the <a href='https://aws.amazon.com/sdk-for-net/'>AWS SDK for .NET</a>"
                          + "\n  </p>"
                          + "\n</body>"
                          + "\n</html>";

        // The character encoding the you want to use for the subject line and
        // message body of the email.
        string charset = "UTF-8";

        var sendRequest = new SendMessagesRequest
        {
            ApplicationId = appId,
            MessageRequest = new MessageRequest
            {
                Addresses = new Dictionary<string, AddressConfiguration>
                {
                    {
                        toAddress,
                        new AddressConfiguration
                        {
                            ChannelType = ChannelType.EMAIL
                        }
                    }
                },
                MessageConfiguration = new DirectMessageConfiguration
                {
                    EmailMessage = new EmailMessage
                    {
                        FromAddress = senderAddress,
                        SimpleEmail = new SimpleEmail
                        {
                            HtmlPart = new SimpleEmailPart
                            {
                                Charset = charset,
                                Data = htmlBody
                            },
                            TextPart = new SimpleEmailPart
                            {
                                Charset = charset,
                                Data = textBody
                            },
                            Subject = new SimpleEmailPart
                            {
                                Charset = charset,
                                Data = subject
                            }
                        }
                    }
                }
            }
        };
        Console.WriteLine("Sending message...");
        SendMessagesResponse response = await client.SendMessagesAsync(sendRequest);
        Console.WriteLine("Message sent!");
        return response.MessageResponse;
    }
}
```
Kirim pesan SMS.  

```
using Amazon;
using Amazon.Pinpoint;
using Amazon.Pinpoint.Model;
using Microsoft.Extensions.Configuration;

namespace SendSmsMessage;

public class SendSmsMessageMainClass
{
    public static async Task Main(string[] args)
    {
        var configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load test settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally load local settings.
            .Build();

        // The AWS Region that you want to use to send the message. For a list of
        // AWS Regions where the Amazon Pinpoint API is available, see
        // https://docs.aws.amazon.com/pinpoint/latest/apireference/
        string region = "us-east-1";

        // The phone number or short code to send the message from. The phone number
        // or short code that you specify has to be associated with your Amazon Pinpoint
        // account. For best results, specify long codes in E.164 format.
        string originationNumber = configuration["OriginationNumber"]!;

        // The recipient's phone number.  For best results, you should specify the
        // phone number in E.164 format.
        string destinationNumber = configuration["DestinationNumber"]!;

        // The Pinpoint project/ application ID to use when you send this message.
        // Make sure that the SMS channel is enabled for the project or application
        // that you choose.
        string appId = configuration["AppId"]!;

        // The type of SMS message that you want to send. If you plan to send
        // time-sensitive content, specify TRANSACTIONAL. If you plan to send
        // marketing-related content, specify PROMOTIONAL.
        MessageType messageType = MessageType.TRANSACTIONAL;

        // The registered keyword associated with the originating short code.
        string? registeredKeyword = configuration["RegisteredKeyword"];

        // The sender ID to use when sending the message. Support for sender ID
        // varies by country or region. For more information, see
        // https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms-countries.html
        string? senderId = configuration["SenderId"];

        try
        {
            var response = await SendSmsMessage(region, appId, destinationNumber,
                originationNumber, registeredKeyword, senderId, messageType);
            Console.WriteLine($"Message sent to {response.MessageResponse.Result.Count} recipient(s).");
            foreach (var messageResultValue in
                     response.MessageResponse.Result.Select(r => r.Value))
            {
                Console.WriteLine($"{messageResultValue.MessageId} Status: {messageResultValue.DeliveryStatus}");
            }
        }
        catch (Exception ex)
        {
            Console.WriteLine("The message wasn't sent. Error message: " + ex.Message);
        }
    }

    public static async Task<SendMessagesResponse> SendSmsMessage(
        string region, string appId, string destinationNumber, string originationNumber,
        string? keyword, string? senderId, MessageType messageType)
    {

        // The content of the SMS message.
        string message = "This message was sent through Amazon Pinpoint using" +
                         " the AWS SDK for .NET. Reply STOP to opt out.";


        var client = new AmazonPinpointClient(RegionEndpoint.GetBySystemName(region));

        SendMessagesRequest sendRequest = new SendMessagesRequest
        {
            ApplicationId = appId,
            MessageRequest = new MessageRequest
            {
                Addresses =
                    new Dictionary<string, AddressConfiguration>
                    {
                        {
                            destinationNumber,
                            new AddressConfiguration { ChannelType = ChannelType.SMS }
                        }
                    },
                MessageConfiguration = new DirectMessageConfiguration
                {
                    SMSMessage = new SMSMessage
                    {
                        Body = message,
                        MessageType = MessageType.TRANSACTIONAL,
                        OriginationNumber = originationNumber,
                        SenderId = senderId,
                        Keyword = keyword
                    }
                }
            }
        };
        SendMessagesResponse response = await client.SendMessagesAsync(sendRequest);
        return response;
    }
}
```
+  Untuk detail API, lihat [SendMessages](https://docs.aws.amazon.com/goto/DotNetSDKV3/pinpoint-2016-12-01/SendMessages)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon Polly menggunakan SDK untuk .NET
<a name="csharp_3_polly_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Polly. AWS SDK untuk .NET 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DeleteLexicon`
<a name="polly_DeleteLexicon_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLexicon`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Polly#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Polly;
    using Amazon.Polly.Model;

    /// <summary>
    /// Deletes an existing Amazon Polly lexicon using the AWS SDK for .NET.
    /// </summary>
    public class DeleteLexicon
    {
        public static async Task Main()
        {
            string lexiconName = "SampleLexicon";

            var client = new AmazonPollyClient();

            var success = await DeletePollyLexiconAsync(client, lexiconName);

            if (success)
            {
                Console.WriteLine($"Successfully deleted {lexiconName}.");
            }
            else
            {
                Console.WriteLine($"Could not delete {lexiconName}.");
            }
        }

        /// <summary>
        /// Deletes the named Amazon Polly lexicon.
        /// </summary>
        /// <param name="client">The initialized Amazon Polly client object.</param>
        /// <param name="lexiconName">The name of the Amazon Polly lexicon to
        /// delete.</param>
        /// <returns>A Boolean value indicating the success of the operation.</returns>
        public static async Task<bool> DeletePollyLexiconAsync(
            AmazonPollyClient client,
            string lexiconName)
        {
            var deleteLexiconRequest = new DeleteLexiconRequest()
            {
                Name = lexiconName,
            };

            var response = await client.DeleteLexiconAsync(deleteLexiconRequest);

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
    }
```
+  Untuk detail API, lihat [DeleteLexicon](https://docs.aws.amazon.com/goto/DotNetSDKV3/polly-2016-06-10/DeleteLexicon)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeVoices`
<a name="polly_DescribeVoices_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVoices`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Polly#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Polly;
    using Amazon.Polly.Model;

    public class DescribeVoices
    {
        public static async Task Main()
        {
            var client = new AmazonPollyClient();

            var allVoicesRequest = new DescribeVoicesRequest();
            var enUsVoicesRequest = new DescribeVoicesRequest()
            {
                LanguageCode = "en-US",
            };

            try
            {
                string nextToken;
                do
                {
                    var allVoicesResponse = await client.DescribeVoicesAsync(allVoicesRequest);
                    nextToken = allVoicesResponse.NextToken;
                    allVoicesRequest.NextToken = nextToken;

                    Console.WriteLine("\nAll voices: ");
                    allVoicesResponse.Voices.ForEach(voice =>
                    {
                        DisplayVoiceInfo(voice);
                    });
                }
                while (nextToken is not null);

                do
                {
                    var enUsVoicesResponse = await client.DescribeVoicesAsync(enUsVoicesRequest);
                    nextToken = enUsVoicesResponse.NextToken;
                    enUsVoicesRequest.NextToken = nextToken;

                    Console.WriteLine("\nen-US voices: ");
                    enUsVoicesResponse.Voices.ForEach(voice =>
                    {
                        DisplayVoiceInfo(voice);
                    });
                }
                while (nextToken is not null);
            }
            catch (Exception ex)
            {
                Console.WriteLine("Exception caught: " + ex.Message);
            }
        }

        public static void DisplayVoiceInfo(Voice voice)
        {
            Console.WriteLine($" Name: {voice.Name}\tGender: {voice.Gender}\tLanguageName: {voice.LanguageName}");
        }
    }
```
+  Untuk detail API, lihat [DescribeVoices](https://docs.aws.amazon.com/goto/DotNetSDKV3/polly-2016-06-10/DescribeVoices)di *Referensi AWS SDK untuk .NET API*. 

### `GetLexicon`
<a name="polly_GetLexicon_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetLexicon`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Polly#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Polly;
    using Amazon.Polly.Model;

    /// <summary>
    /// Retrieves information about a specific Amazon Polly lexicon.
    /// </summary>
    public class GetLexicon
    {
        public static async Task Main(string[] args)
        {
            string lexiconName = "SampleLexicon";

            var client = new AmazonPollyClient();

            await GetPollyLexiconAsync(client, lexiconName);
        }

        public static async Task GetPollyLexiconAsync(AmazonPollyClient client, string lexiconName)
        {
            var getLexiconRequest = new GetLexiconRequest()
            {
                Name = lexiconName,
            };

            try
            {
                var response = await client.GetLexiconAsync(getLexiconRequest);
                Console.WriteLine($"Lexicon:\n Name: {response.Lexicon.Name}");
                Console.WriteLine($"Content: {response.Lexicon.Content}");
            }
            catch (Exception ex)
            {
                Console.WriteLine("Error: " + ex.Message);
            }
        }
    }
```
+  Untuk detail API, lihat [GetLexicon](https://docs.aws.amazon.com/goto/DotNetSDKV3/polly-2016-06-10/GetLexicon)di *Referensi AWS SDK untuk .NET API*. 

### `ListLexicons`
<a name="polly_ListLexicons_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLexicons`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Polly#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Polly;
    using Amazon.Polly.Model;

    /// <summary>
    /// Lists the Amazon Polly lexicons that have been defined. By default,
    /// lists the lexicons that are defined in the same AWS Region as the default
    /// user. To view Amazon Polly lexicons that are defined in a different AWS
    /// Region, supply it as a parameter to the Amazon Polly constructor.
    /// </summary>
    public class ListLexicons
    {
        public static async Task Main()
        {
            var client = new AmazonPollyClient();
            var request = new ListLexiconsRequest();

            try
            {
                Console.WriteLine("All voices: ");

                do
                {
                    var response = await client.ListLexiconsAsync(request);
                    request.NextToken = response.NextToken;

                    response.Lexicons.ForEach(lexicon =>
                    {
                        var attributes = lexicon.Attributes;
                        Console.WriteLine($"Name: {lexicon.Name}");
                        Console.WriteLine($"\tAlphabet: {attributes.Alphabet}");
                        Console.WriteLine($"\tLanguageCode: {attributes.LanguageCode}");
                        Console.WriteLine($"\tLastModified: {attributes.LastModified}");
                        Console.WriteLine($"\tLexemesCount: {attributes.LexemesCount}");
                        Console.WriteLine($"\tLexiconArn: {attributes.LexiconArn}");
                        Console.WriteLine($"\tSize: {attributes.Size}");
                    });
                }
                while (request.NextToken is not null);
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Error: {ex.Message}");
            }
        }
    }
```
+  Untuk detail API, lihat [ListLexicons](https://docs.aws.amazon.com/goto/DotNetSDKV3/polly-2016-06-10/ListLexicons)di *Referensi AWS SDK untuk .NET API*. 

### `PutLexicon`
<a name="polly_PutLexicon_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutLexicon`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Polly#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Polly;
    using Amazon.Polly.Model;

    /// <summary>
    /// Creates a new Amazon Polly lexicon using the AWS SDK for .NET.
    /// </summary>
    public class PutLexicon
    {
        public static async Task Main()
        {
            string lexiconContent = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>" +
                "<lexicon version=\"1.0\" xmlns=\"http://www.w3.org/2005/01/pronunciation-lexicon\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" " +
                "xsi:schemaLocation=\"http://www.w3.org/2005/01/pronunciation-lexicon http://www.w3.org/TR/2007/CR-pronunciation-lexicon-20071212/pls.xsd\" " +
                "alphabet=\"ipa\" xml:lang=\"en-US\">" +
                "<lexeme><grapheme>test1</grapheme><alias>test2</alias></lexeme>" +
                "</lexicon>";
            string lexiconName = "SampleLexicon";

            var client = new AmazonPollyClient();
            var putLexiconRequest = new PutLexiconRequest()
            {
                Name = lexiconName,
                Content = lexiconContent,
            };

            try
            {
                var response = await client.PutLexiconAsync(putLexiconRequest);
                if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
                {
                    Console.WriteLine($"Successfully created Lexicon: {lexiconName}.");
                }
                else
                {
                    Console.WriteLine($"Could not create Lexicon: {lexiconName}.");
                }
            }
            catch (Exception ex)
            {
                Console.WriteLine("Exception caught: " + ex.Message);
            }
        }
    }
```
+  Untuk detail API, lihat [PutLexicon](https://docs.aws.amazon.com/goto/DotNetSDKV3/polly-2016-06-10/PutLexicon)di *Referensi AWS SDK untuk .NET API*. 

### `SynthesizeSpeech`
<a name="polly_SynthesizeSpeech_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SynthesizeSpeech`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Polly#code-examples). 

```
    using System;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.Polly;
    using Amazon.Polly.Model;

    public class SynthesizeSpeech
    {
        public static async Task Main()
        {
            string outputFileName = "speech.mp3";
            string text = "Twas brillig, and the slithy toves did gyre and gimbol in the wabe";

            var client = new AmazonPollyClient();
            var response = await PollySynthesizeSpeech(client, text);

            WriteSpeechToStream(response.AudioStream, outputFileName);
        }

        /// <summary>
        /// Calls the Amazon Polly SynthesizeSpeechAsync method to convert text
        /// to speech.
        /// </summary>
        /// <param name="client">The Amazon Polly client object used to connect
        /// to the Amazon Polly service.</param>
        /// <param name="text">The text to convert to speech.</param>
        /// <returns>A SynthesizeSpeechResponse object that includes an AudioStream
        /// object with the converted text.</returns>
        private static async Task<SynthesizeSpeechResponse> PollySynthesizeSpeech(IAmazonPolly client, string text)
        {
            var synthesizeSpeechRequest = new SynthesizeSpeechRequest()
            {
                OutputFormat = OutputFormat.Mp3,
                VoiceId = VoiceId.Joanna,
                Text = text,
            };

            var synthesizeSpeechResponse =
                await client.SynthesizeSpeechAsync(synthesizeSpeechRequest);

            return synthesizeSpeechResponse;
        }

        /// <summary>
        /// Writes the AudioStream returned from the call to
        /// SynthesizeSpeechAsync to a file in MP3 format.
        /// </summary>
        /// <param name="audioStream">The AudioStream returned from the
        /// call to the SynthesizeSpeechAsync method.</param>
        /// <param name="outputFileName">The full path to the file in which to
        /// save the audio stream.</param>
        private static void WriteSpeechToStream(Stream audioStream, string outputFileName)
        {
            var outputStream = new FileStream(
                outputFileName,
                FileMode.Create,
                FileAccess.Write);
            byte[] buffer = new byte[2 * 1024];
            int readBytes;

            while ((readBytes = audioStream.Read(buffer, 0, 2 * 1024)) > 0)
            {
                outputStream.Write(buffer, 0, readBytes);
            }

            // Flushes the buffer to avoid losing the last second or so of
            // the synthesized text.
            outputStream.Flush();
            Console.WriteLine($"Saved {outputFileName} to disk.");
        }
    }
```
Sintesis ucapan dari teks menggunakan tanda ucapan dengan Amazon Polly menggunakan AWS SDK.  

```
    using System;
    using System.Collections.Generic;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.Polly;
    using Amazon.Polly.Model;

    public class SynthesizeSpeechMarks
    {
        public static async Task Main()
        {
            var client = new AmazonPollyClient();
            string outputFileName = "speechMarks.json";

            var synthesizeSpeechRequest = new SynthesizeSpeechRequest()
            {
                OutputFormat = OutputFormat.Json,
                SpeechMarkTypes = new List<string>
                {
                    SpeechMarkType.Viseme,
                    SpeechMarkType.Word,
                },
                VoiceId = VoiceId.Joanna,
                Text = "This is a sample text to be synthesized.",
            };

            try
            {
                using (var outputStream = new FileStream(outputFileName, FileMode.Create, FileAccess.Write))
                {
                    var synthesizeSpeechResponse = await client.SynthesizeSpeechAsync(synthesizeSpeechRequest);
                    var buffer = new byte[2 * 1024];
                    int readBytes;

                    var inputStream = synthesizeSpeechResponse.AudioStream;
                    while ((readBytes = inputStream.Read(buffer, 0, 2 * 1024)) > 0)
                    {
                        outputStream.Write(buffer, 0, readBytes);
                    }
                }
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Error: {ex.Message}");
            }
        }
    }
```
+  Untuk detail API, lihat [SynthesizeSpeech](https://docs.aws.amazon.com/goto/DotNetSDKV3/polly-2016-06-10/SynthesizeSpeech)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk .NET**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/FeedbackSentimentAnalyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon RDS menggunakan SDK untuk .NET
<a name="csharp_3_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET With Amazon RDS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon RDS
<a name="rds_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon RDS.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
using System;
using System.Threading.Tasks;
using Amazon.RDS;
using Amazon.RDS.Model;

namespace RDSActions;

public static class HelloRds
{
    static async Task Main(string[] args)
    {
        var rdsClient = new AmazonRDSClient();

        Console.WriteLine($"Hello Amazon RDS! Following are some of your DB instances:");
        Console.WriteLine();

        // You can use await and any of the async methods to get a response.
        // Let's get the first twenty DB instances.
        var response = await rdsClient.DescribeDBInstancesAsync(
            new DescribeDBInstancesRequest()
            {
                MaxRecords = 20 // Must be between 20 and 100.
            });

        foreach (var instance in response.DBInstances)
        {
            Console.WriteLine($"\tDB name: {instance.DBName}");
            Console.WriteLine($"\tArn: {instance.DBInstanceArn}");
            Console.WriteLine($"\tIdentifier: {instance.DBInstanceIdentifier}");
            Console.WriteLine();
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="rds_Scenario_GetStartedInstances_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter basis data kustom dan mengatur nilai parameter.
+ Membuat instans basis data yang dikonfigurasikan untuk menggunakan grup parameter. Instans basis data juga berisi basis data.
+ Mengambil cuplikan instans.
+ Menghapus instans dan grup parameter.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
/// <summary>
/// Scenario for RDS DB instance example.
/// </summary>
public class RDSInstanceScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    This .NET example performs the following tasks:
    1.  Returns a list of the available DB engine families using the DescribeDBEngineVersionsAsync method.
    2.  Selects an engine family and creates a custom DB parameter group using the CreateDBParameterGroupAsync method.
    3.  Gets the parameter groups using the DescribeDBParameterGroupsAsync method.
    4.  Gets parameters in the group using the DescribeDBParameters method.
    5.  Parses and displays parameters in the group.
    6.  Modifies both the auto_increment_offset and auto_increment_increment parameters
        using the ModifyDBParameterGroupAsync method.
    7.  Gets and displays the updated parameters using the DescribeDBParameters method with a source of "user".
    8.  Gets a list of allowed engine versions using the DescribeDBEngineVersionsAsync method.
    9.  Displays and selects from a list of micro instance classes available for the selected engine and version.
    10. Creates an RDS DB instance that contains a MySql database and uses the parameter group
        using the CreateDBInstanceAsync method.
    11. Waits for DB instance to be ready using the DescribeDBInstancesAsync method.
    12. Prints out the connection endpoint string for the new DB instance.
    13. Creates a snapshot of the DB instance using the CreateDBSnapshotAsync method.
    14. Waits for DB snapshot to be ready using the DescribeDBSnapshots method.
    15. Deletes the DB instance using the DeleteDBInstanceAsync method.
    16. Waits for DB instance to be deleted using the DescribeDbInstances method.
    17. Deletes the parameter group using the DeleteDBParameterGroupAsync.
    */

    private static readonly string sepBar = new('-', 80);
    private static RDSWrapper rdsWrapper = null!;
    private static ILogger logger = null!;
    private static readonly string engine = "mysql";
    static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon RDS service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonRDS>()
                    .AddTransient<RDSWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder =>
        {
            builder.AddConsole();
        }).CreateLogger<RDSInstanceScenario>();

        rdsWrapper = host.Services.GetRequiredService<RDSWrapper>();

        Console.WriteLine(sepBar);
        Console.WriteLine(
            "Welcome to the Amazon Relational Database Service (Amazon RDS) DB instance scenario example.");
        Console.WriteLine(sepBar);

        try
        {
            var parameterGroupFamily = await ChooseParameterGroupFamily();

            var parameterGroup = await CreateDbParameterGroup(parameterGroupFamily);

            var parameters = await DescribeParametersInGroup(parameterGroup.DBParameterGroupName,
                new List<string> { "auto_increment_offset", "auto_increment_increment" });

            await ModifyParameters(parameterGroup.DBParameterGroupName, parameters);

            await DescribeUserSourceParameters(parameterGroup.DBParameterGroupName);

            var engineVersionChoice = await ChooseDbEngineVersion(parameterGroupFamily);

            var instanceChoice = await ChooseDbInstanceClass(engine, engineVersionChoice.EngineVersion);

            var newInstanceIdentifier = "Example-Instance-" + DateTime.Now.Ticks;

            var newInstance = await CreateRdsNewInstance(parameterGroup, engine, engineVersionChoice.EngineVersion,
                instanceChoice.DBInstanceClass, newInstanceIdentifier);
            if (newInstance != null)
            {
                DisplayConnectionString(newInstance);

                await CreateSnapshot(newInstance);

                await DeleteRdsInstance(newInstance);
            }

            await DeleteParameterGroup(parameterGroup);

            Console.WriteLine("Scenario complete.");
            Console.WriteLine(sepBar);
        }
        catch (Exception ex)
        {
            logger.LogError(ex, "There was a problem executing the scenario.");
        }
    }

    /// <summary>
    /// Choose the RDS DB parameter group family from a list of available options.
    /// </summary>
    /// <returns>The selected parameter group family.</returns>
    public static async Task<string> ChooseParameterGroupFamily()
    {
        Console.WriteLine(sepBar);
        // 1. Get a list of available engines.
        var engines = await rdsWrapper.DescribeDBEngineVersions(engine);

        Console.WriteLine("1. The following is a list of available DB parameter group families:");
        int i = 1;
        var parameterGroupFamilies = engines.GroupBy(e => e.DBParameterGroupFamily).ToList();
        foreach (var parameterGroupFamily in parameterGroupFamilies)
        {
            // List the available parameter group families.
            Console.WriteLine(
                $"\t{i}. Family: {parameterGroupFamily.Key}");
            i++;
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > parameterGroupFamilies.Count)
        {
            Console.WriteLine("Select an available DB parameter group family by entering a number from the list above:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }
        var parameterGroupFamilyChoice = parameterGroupFamilies[choiceNumber - 1];
        Console.WriteLine(sepBar);
        return parameterGroupFamilyChoice.Key;
    }

    /// <summary>
    /// Create and get information on a DB parameter group.
    /// </summary>
    /// <param name="dbParameterGroupFamily">The DBParameterGroupFamily for the new DB parameter group.</param>
    /// <returns>The new DBParameterGroup.</returns>
    public static async Task<DBParameterGroup> CreateDbParameterGroup(string dbParameterGroupFamily)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine($"2. Create new DB parameter group with family {dbParameterGroupFamily}:");

        var parameterGroup = await rdsWrapper.CreateDBParameterGroup(
            "ExampleParameterGroup-" + DateTime.Now.Ticks,
            dbParameterGroupFamily, "New example parameter group");

        var groupInfo =
            await rdsWrapper.DescribeDBParameterGroups(parameterGroup
                .DBParameterGroupName);

        Console.WriteLine(
            $"3. New DB parameter group: \n\t{groupInfo[0].Description}, \n\tARN {groupInfo[0].DBParameterGroupArn}");
        Console.WriteLine(sepBar);
        return parameterGroup;
    }

    /// <summary>
    /// Get and describe parameters from a DBParameterGroup.
    /// </summary>
    /// <param name="parameterGroupName">Name of the DBParameterGroup.</param>
    /// <param name="parameterNames">Optional specific names of parameters to describe.</param>
    /// <returns>The list of requested parameters.</returns>
    public static async Task<List<Parameter>> DescribeParametersInGroup(string parameterGroupName, List<string>? parameterNames = null)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine("4. Get some parameters from the group.");
        Console.WriteLine(sepBar);

        var parameters =
            await rdsWrapper.DescribeDBParameters(parameterGroupName);

        var matchingParameters =
            parameters.Where(p => parameterNames == null || parameterNames.Contains(p.ParameterName)).ToList();

        Console.WriteLine("5. Parameter information:");
        matchingParameters.ForEach(p =>
            Console.WriteLine(
                $"\n\tParameter: {p.ParameterName}." +
                $"\n\tDescription: {p.Description}." +
                $"\n\tAllowed Values: {p.AllowedValues}." +
                $"\n\tValue: {p.ParameterValue}."));

        Console.WriteLine(sepBar);

        return matchingParameters;
    }

    /// <summary>
    /// Modify a parameter from a DBParameterGroup.
    /// </summary>
    /// <param name="parameterGroupName">Name of the DBParameterGroup.</param>
    /// <param name="parameters">The parameters to modify.</param>
    /// <returns>Async task.</returns>
    public static async Task ModifyParameters(string parameterGroupName, List<Parameter> parameters)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine("6. Modify some parameters in the group.");

        foreach (var p in parameters)
        {
            if (p.IsModifiable && p.DataType == "integer")
            {
                int newValue = 0;
                while (newValue == 0)
                {
                    Console.WriteLine(
                        $"Enter a new value for {p.ParameterName} from the allowed values {p.AllowedValues} ");

                    var choice = Console.ReadLine();
                    Int32.TryParse(choice, out newValue);
                }

                p.ParameterValue = newValue.ToString();
            }
        }

        await rdsWrapper.ModifyDBParameterGroup(parameterGroupName, parameters);

        Console.WriteLine(sepBar);
    }

    /// <summary>
    /// Describe the user source parameters in the group.
    /// </summary>
    /// <param name="parameterGroupName">Name of the DBParameterGroup.</param>
    /// <returns>Async task.</returns>
    public static async Task DescribeUserSourceParameters(string parameterGroupName)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine("7. Describe user source parameters in the group.");

        var parameters =
            await rdsWrapper.DescribeDBParameters(parameterGroupName, "user");


        parameters.ForEach(p =>
            Console.WriteLine(
                $"\n\tParameter: {p.ParameterName}." +
                $"\n\tDescription: {p.Description}." +
                $"\n\tAllowed Values: {p.AllowedValues}." +
                $"\n\tValue: {p.ParameterValue}."));

        Console.WriteLine(sepBar);
    }


    /// <summary>
    /// Choose a DB engine version.
    /// </summary>
    /// <param name="dbParameterGroupFamily">DB parameter group family for engine choice.</param>
    /// <returns>The selected engine version.</returns>
    public static async Task<DBEngineVersion> ChooseDbEngineVersion(string dbParameterGroupFamily)
    {
        Console.WriteLine(sepBar);
        // Get a list of allowed engines.
        var allowedEngines =
            await rdsWrapper.DescribeDBEngineVersions(engine, dbParameterGroupFamily);

        Console.WriteLine($"Available DB engine versions for parameter group family {dbParameterGroupFamily}:");
        int i = 1;
        foreach (var version in allowedEngines)
        {
            Console.WriteLine(
                $"\t{i}. Engine: {version.Engine} Version {version.EngineVersion}.");
            i++;
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > allowedEngines.Count)
        {
            Console.WriteLine("8. Select an available DB engine version by entering a number from the list above:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }

        var engineChoice = allowedEngines[choiceNumber - 1];
        Console.WriteLine(sepBar);
        return engineChoice;
    }

    /// <summary>
    /// Choose a DB instance class for a particular engine and engine version.
    /// </summary>
    /// <param name="engine">DB engine for DB instance choice.</param>
    /// <param name="engineVersion">DB engine version for DB instance choice.</param>
    /// <returns>The selected orderable DB instance option.</returns>
    public static async Task<OrderableDBInstanceOption> ChooseDbInstanceClass(string engine, string engineVersion)
    {
        Console.WriteLine(sepBar);
        // Get a list of allowed DB instance classes.
        var allowedInstances =
            await rdsWrapper.DescribeOrderableDBInstanceOptions(engine, engineVersion);

        Console.WriteLine($"8. Available micro DB instance classes for engine {engine} and version {engineVersion}:");
        int i = 1;

        // Filter to micro instances for this example.
        allowedInstances = allowedInstances
            .Where(i => i.DBInstanceClass.Contains("micro")).ToList();

        foreach (var instance in allowedInstances)
        {
            Console.WriteLine(
                $"\t{i}. Instance class: {instance.DBInstanceClass} (storage type {instance.StorageType})");
            i++;
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > allowedInstances.Count)
        {
            Console.WriteLine("9. Select an available DB instance class by entering a number from the list above:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }

        var instanceChoice = allowedInstances[choiceNumber - 1];
        Console.WriteLine(sepBar);
        return instanceChoice;
    }

    /// <summary>
    /// Create a new RDS DB instance.
    /// </summary>
    /// <param name="parameterGroup">Parameter group to use for the DB instance.</param>
    /// <param name="engineName">Engine to use for the DB instance.</param>
    /// <param name="engineVersion">Engine version to use for the DB instance.</param>
    /// <param name="instanceClass">Instance class to use for the DB instance.</param>
    /// <param name="instanceIdentifier">Instance identifier to use for the DB instance.</param>
    /// <returns>The new DB instance.</returns>
    public static async Task<DBInstance?> CreateRdsNewInstance(DBParameterGroup parameterGroup,
        string engineName, string engineVersion, string instanceClass, string instanceIdentifier)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine($"10. Create a new DB instance with identifier {instanceIdentifier}.");
        bool isInstanceReady = false;
        DBInstance newInstance;
        var instances = await rdsWrapper.DescribeDBInstances();
        isInstanceReady = instances.FirstOrDefault(i =>
            i.DBInstanceIdentifier == instanceIdentifier)?.DBInstanceStatus == "available";

        if (isInstanceReady)
        {
            Console.WriteLine("Instance already created.");
            newInstance = instances.First(i => i.DBInstanceIdentifier == instanceIdentifier);
        }
        else
        {
            Console.WriteLine("Please enter an admin user name:");
            var username = Console.ReadLine();

            Console.WriteLine("Please enter an admin password:");
            var password = Console.ReadLine();

            newInstance = await rdsWrapper.CreateDBInstance(
                "ExampleInstance",
                instanceIdentifier,
                parameterGroup.DBParameterGroupName,
                engineName,
                engineVersion,
                instanceClass,
                20,
                username,
                password
            );

            // 11. Wait for the DB instance to be ready.

            Console.WriteLine("11. Waiting for DB instance to be ready...");
            while (!isInstanceReady)
            {
                instances = await rdsWrapper.DescribeDBInstances(instanceIdentifier);
                isInstanceReady = instances.FirstOrDefault()?.DBInstanceStatus == "available";
                newInstance = instances.First();
                Thread.Sleep(30000);
            }
        }

        Console.WriteLine(sepBar);
        return newInstance;
    }

    /// <summary>
    /// Display a connection string for an RDS DB instance.
    /// </summary>
    /// <param name="instance">The DB instance to use to get a connection string.</param>
    public static void DisplayConnectionString(DBInstance instance)
    {
        Console.WriteLine(sepBar);
        // Display the connection string.
        Console.WriteLine("12. New DB instance connection string: ");
        Console.WriteLine(
            $"\n{engine} -h {instance.Endpoint.Address} -P {instance.Endpoint.Port} "
            + $"-u {instance.MasterUsername} -p [YOUR PASSWORD]\n");

        Console.WriteLine(sepBar);
    }

    /// <summary>
    /// Create a snapshot from an RDS DB instance.
    /// </summary>
    /// <param name="instance">DB instance to use when creating a snapshot.</param>
    /// <returns>The snapshot object.</returns>
    public static async Task<DBSnapshot> CreateSnapshot(DBInstance instance)
    {
        Console.WriteLine(sepBar);
        // Create a snapshot.
        Console.WriteLine($"13. Creating snapshot from DB instance {instance.DBInstanceIdentifier}.");
        var snapshot = await rdsWrapper.CreateDBSnapshot(instance.DBInstanceIdentifier, "ExampleSnapshot-" + DateTime.Now.Ticks);

        // Wait for the snapshot to be available
        bool isSnapshotReady = false;

        Console.WriteLine($"14. Waiting for snapshot to be ready...");
        while (!isSnapshotReady)
        {
            var snapshots = await rdsWrapper.DescribeDBSnapshots(instance.DBInstanceIdentifier);
            isSnapshotReady = snapshots.FirstOrDefault()?.Status == "available";
            snapshot = snapshots.First();
            Thread.Sleep(30000);
        }

        Console.WriteLine(
            $"Snapshot {snapshot.DBSnapshotIdentifier} status is {snapshot.Status}.");
        Console.WriteLine(sepBar);
        return snapshot;
    }

    /// <summary>
    /// Delete an RDS DB instance.
    /// </summary>
    /// <param name="instance">The DB instance to delete.</param>
    /// <returns>Async task.</returns>
    public static async Task DeleteRdsInstance(DBInstance newInstance)
    {
        Console.WriteLine(sepBar);
        // Delete the DB instance.
        Console.WriteLine($"15. Delete the DB instance {newInstance.DBInstanceIdentifier}.");
        await rdsWrapper.DeleteDBInstance(newInstance.DBInstanceIdentifier);

        // Wait for the DB instance to delete.
        Console.WriteLine($"16. Waiting for the DB instance to delete...");
        bool isInstanceDeleted = false;

        while (!isInstanceDeleted)
        {
            var instance = await rdsWrapper.DescribeDBInstances();
            isInstanceDeleted = instance.All(i => i.DBInstanceIdentifier != newInstance.DBInstanceIdentifier);
            Thread.Sleep(30000);
        }

        Console.WriteLine("DB instance deleted.");
        Console.WriteLine(sepBar);
    }

    /// <summary>
    /// Delete a DB parameter group.
    /// </summary>
    /// <param name="parameterGroup">The parameter group to delete.</param>
    /// <returns>Async task.</returns>
    public static async Task DeleteParameterGroup(DBParameterGroup parameterGroup)
    {
        Console.WriteLine(sepBar);
        // Delete the parameter group.
        Console.WriteLine($"17. Delete the DB parameter group {parameterGroup.DBParameterGroupName}.");
        await rdsWrapper.DeleteDBParameterGroup(parameterGroup.DBParameterGroupName);

        Console.WriteLine(sepBar);
    }
```
Metode pembungkus yang digunakan oleh skenario untuk tindakan instans basis data.  

```
/// <summary>
/// Wrapper methods to use Amazon Relational Database Service (Amazon RDS) with DB instance operations.
/// </summary>
public partial class RDSWrapper
{
    private readonly IAmazonRDS _amazonRDS;
    public RDSWrapper(IAmazonRDS amazonRDS)
    {
        _amazonRDS = amazonRDS;
    }


    /// <summary>
    /// Get a list of DB engine versions for a particular DB engine.
    /// </summary>
    /// <param name="engine">Name of the engine.</param>
    /// <param name="dbParameterGroupFamily">Optional parameter group family name.</param>
    /// <returns>List of DBEngineVersions.</returns>
    public async Task<List<DBEngineVersion>> DescribeDBEngineVersions(string engine,
        string dbParameterGroupFamily = null)
    {
        var response = await _amazonRDS.DescribeDBEngineVersionsAsync(
            new DescribeDBEngineVersionsRequest()
            {
                Engine = engine,
                DBParameterGroupFamily = dbParameterGroupFamily
            });
        return response.DBEngineVersions;
    }



    /// <summary>
    /// Get a list of orderable DB instance options for a specific
    /// engine and engine version.
    /// </summary>
    /// <param name="engine">Name of the engine.</param>
    /// <param name="engineVersion">Version of the engine.</param>
    /// <returns>List of OrderableDBInstanceOptions.</returns>
    public async Task<List<OrderableDBInstanceOption>> DescribeOrderableDBInstanceOptions(string engine, string engineVersion)
    {
        // Use a paginator to get a list of DB instance options.
        var results = new List<OrderableDBInstanceOption>();
        var paginateInstanceOptions = _amazonRDS.Paginators.DescribeOrderableDBInstanceOptions(
            new DescribeOrderableDBInstanceOptionsRequest()
            {
                Engine = engine,
                EngineVersion = engineVersion,
            });
        // Get the entire list using the paginator.
        await foreach (var instanceOptions in paginateInstanceOptions.OrderableDBInstanceOptions)
        {
            results.Add(instanceOptions);
        }
        return results;
    }



    /// <summary>
    /// Returns a list of DB instances.
    /// </summary>
    /// <param name="dbInstanceIdentifier">Optional name of a specific DB instance.</param>
    /// <returns>List of DB instances.</returns>
    public async Task<List<DBInstance>> DescribeDBInstances(string dbInstanceIdentifier = null)
    {
        var results = new List<DBInstance>();
        var instancesPaginator = _amazonRDS.Paginators.DescribeDBInstances(
            new DescribeDBInstancesRequest
            {
                DBInstanceIdentifier = dbInstanceIdentifier
            });
        // Get the entire list using the paginator.
        await foreach (var instances in instancesPaginator.DBInstances)
        {
            results.Add(instances);
        }
        return results;
    }



    /// <summary>
    /// Create an RDS DB instance with a particular set of properties. Use the action DescribeDBInstancesAsync
    /// to determine when the DB instance is ready to use.
    /// </summary>
    /// <param name="dbName">Name for the DB instance.</param>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <param name="parameterGroupName">DB parameter group to associate with the instance.</param>
    /// <param name="dbEngine">The engine for the DB instance.</param>
    /// <param name="dbEngineVersion">Version for the DB instance.</param>
    /// <param name="instanceClass">Class for the DB instance.</param>
    /// <param name="allocatedStorage">The amount of storage in gibibytes (GiB) to allocate to the DB instance.</param>
    /// <param name="adminName">Admin user name.</param>
    /// <param name="adminPassword">Admin user password.</param>
    /// <returns>DB instance object.</returns>
    public async Task<DBInstance> CreateDBInstance(string dbName, string dbInstanceIdentifier,
        string parameterGroupName, string dbEngine, string dbEngineVersion,
        string instanceClass, int allocatedStorage, string adminName, string adminPassword)
    {
        var response = await _amazonRDS.CreateDBInstanceAsync(
            new CreateDBInstanceRequest()
            {
                DBName = dbName,
                DBInstanceIdentifier = dbInstanceIdentifier,
                DBParameterGroupName = parameterGroupName,
                Engine = dbEngine,
                EngineVersion = dbEngineVersion,
                DBInstanceClass = instanceClass,
                AllocatedStorage = allocatedStorage,
                MasterUsername = adminName,
                MasterUserPassword = adminPassword
            });

        return response.DBInstance;
    }



    /// <summary>
    /// Delete a particular DB instance.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <returns>DB instance object.</returns>
    public async Task<DBInstance> DeleteDBInstance(string dbInstanceIdentifier)
    {
        var response = await _amazonRDS.DeleteDBInstanceAsync(
            new DeleteDBInstanceRequest()
            {
                DBInstanceIdentifier = dbInstanceIdentifier,
                SkipFinalSnapshot = true,
                DeleteAutomatedBackups = true
            });

        return response.DBInstance;
    }
```
Metode pembungkus yang digunakan oleh skenario untuk grup parameter basis data.  

```
/// <summary>
/// Wrapper methods to use Amazon Relational Database Service (Amazon RDS) with parameter groups.
/// </summary>
public partial class RDSWrapper
{

    /// <summary>
    /// Get descriptions of DB parameter groups.
    /// </summary>
    /// <param name="name">Optional name of the DB parameter group to describe.</param>
    /// <returns>The list of DB parameter group descriptions.</returns>
    public async Task<List<DBParameterGroup>> DescribeDBParameterGroups(string name = null)
    {
        var response = await _amazonRDS.DescribeDBParameterGroupsAsync(
            new DescribeDBParameterGroupsRequest()
            {
                DBParameterGroupName = name
            });
        return response.DBParameterGroups;
    }



    /// <summary>
    /// Create a new DB parameter group. Use the action DescribeDBParameterGroupsAsync
    /// to determine when the DB parameter group is ready to use.
    /// </summary>
    /// <param name="name">Name of the DB parameter group.</param>
    /// <param name="family">Family of the DB parameter group.</param>
    /// <param name="description">Description of the DB parameter group.</param>
    /// <returns>The new DB parameter group.</returns>
    public async Task<DBParameterGroup> CreateDBParameterGroup(
        string name, string family, string description)
    {
        var response = await _amazonRDS.CreateDBParameterGroupAsync(
            new CreateDBParameterGroupRequest()
            {
                DBParameterGroupName = name,
                DBParameterGroupFamily = family,
                Description = description
            });
        return response.DBParameterGroup;
    }



    /// <summary>
    /// Update a DB parameter group. Use the action DescribeDBParameterGroupsAsync
    /// to determine when the DB parameter group is ready to use.
    /// </summary>
    /// <param name="name">Name of the DB parameter group.</param>
    /// <param name="parameters">List of parameters. Maximum of 20 per request.</param>
    /// <returns>The updated DB parameter group name.</returns>
    public async Task<string> ModifyDBParameterGroup(
        string name, List<Parameter> parameters)
    {
        var response = await _amazonRDS.ModifyDBParameterGroupAsync(
            new ModifyDBParameterGroupRequest()
            {
                DBParameterGroupName = name,
                Parameters = parameters,
            });
        return response.DBParameterGroupName;
    }



    /// <summary>
    /// Delete a DB parameter group. The group cannot be a default DB parameter group
    /// or be associated with any DB instances.
    /// </summary>
    /// <param name="name">Name of the DB parameter group.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteDBParameterGroup(string name)
    {
        var response = await _amazonRDS.DeleteDBParameterGroupAsync(
            new DeleteDBParameterGroupRequest()
            {
                DBParameterGroupName = name,
            });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }



    /// <summary>
    /// Get a list of DB parameters from a specific parameter group.
    /// </summary>
    /// <param name="dbParameterGroupName">Name of a specific DB parameter group.</param>
    /// <param name="source">Optional source for selecting parameters.</param>
    /// <returns>List of parameter values.</returns>
    public async Task<List<Parameter>> DescribeDBParameters(string dbParameterGroupName, string source = null)
    {
        var results = new List<Parameter>();
        var paginateParameters = _amazonRDS.Paginators.DescribeDBParameters(
            new DescribeDBParametersRequest()
            {
                DBParameterGroupName = dbParameterGroupName,
                Source = source
            });
        // Get the entire list using the paginator.
        await foreach (var parameters in paginateParameters.Parameters)
        {
            results.Add(parameters);
        }
        return results;
    }
```
Metode pembungkus yang digunakan oleh skenario untuk tindakan cuplikan basis data.  

```
/// <summary>
/// Wrapper methods to use Amazon Relational Database Service (Amazon RDS) with snapshots.
/// </summary>
public partial class RDSWrapper
{

    /// <summary>
    /// Create a snapshot of a DB instance.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <param name="snapshotIdentifier">Identifier for the snapshot.</param>
    /// <returns>DB snapshot object.</returns>
    public async Task<DBSnapshot> CreateDBSnapshot(string dbInstanceIdentifier, string snapshotIdentifier)
    {
        var response = await _amazonRDS.CreateDBSnapshotAsync(
            new CreateDBSnapshotRequest()
            {
                DBSnapshotIdentifier = snapshotIdentifier,
                DBInstanceIdentifier = dbInstanceIdentifier
            });

        return response.DBSnapshot;
    }



    /// <summary>
    /// Return a list of DB snapshots for a particular DB instance.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <returns>List of DB snapshots.</returns>
    public async Task<List<DBSnapshot>> DescribeDBSnapshots(string dbInstanceIdentifier)
    {
        var results = new List<DBSnapshot>();
        var snapshotsPaginator = _amazonRDS.Paginators.DescribeDBSnapshots(
            new DescribeDBSnapshotsRequest()
            {
                DBInstanceIdentifier = dbInstanceIdentifier
            });

        // Get the entire list using the paginator.
        await foreach (var snapshots in snapshotsPaginator.DBSnapshots)
        {
            results.Add(snapshots);
        }
        return results;
    }
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK untuk .NET *.
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/CreateDBInstance)
  + [Buat DBParameter Grup](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/CreateDBParameterGroup)
  + [Buat DBSnapshot](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/CreateDBSnapshot)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DeleteDBInstance)
  + [Hapus DBParameter Grup](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DeleteDBParameterGroup)
  + [Jelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBInstances)
  + [Jelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBParameterGroups)
  + [Jelaskan DBParameters](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBParameters)
  + [Jelaskan DBSnapshots](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBSnapshots)
  + [DescribeOrderableDBInstancePilihan](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeOrderableDBInstanceOptions)
  + [Ubah DBParameter Grup](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/ModifyDBParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBInstance`
<a name="rds_CreateDBInstance_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Create an RDS DB instance with a particular set of properties. Use the action DescribeDBInstancesAsync
    /// to determine when the DB instance is ready to use.
    /// </summary>
    /// <param name="dbName">Name for the DB instance.</param>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <param name="parameterGroupName">DB parameter group to associate with the instance.</param>
    /// <param name="dbEngine">The engine for the DB instance.</param>
    /// <param name="dbEngineVersion">Version for the DB instance.</param>
    /// <param name="instanceClass">Class for the DB instance.</param>
    /// <param name="allocatedStorage">The amount of storage in gibibytes (GiB) to allocate to the DB instance.</param>
    /// <param name="adminName">Admin user name.</param>
    /// <param name="adminPassword">Admin user password.</param>
    /// <returns>DB instance object.</returns>
    public async Task<DBInstance> CreateDBInstance(string dbName, string dbInstanceIdentifier,
        string parameterGroupName, string dbEngine, string dbEngineVersion,
        string instanceClass, int allocatedStorage, string adminName, string adminPassword)
    {
        var response = await _amazonRDS.CreateDBInstanceAsync(
            new CreateDBInstanceRequest()
            {
                DBName = dbName,
                DBInstanceIdentifier = dbInstanceIdentifier,
                DBParameterGroupName = parameterGroupName,
                Engine = dbEngine,
                EngineVersion = dbEngineVersion,
                DBInstanceClass = instanceClass,
                AllocatedStorage = allocatedStorage,
                MasterUsername = adminName,
                MasterUserPassword = adminPassword
            });

        return response.DBInstance;
    }
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/CreateDBInstance) di *Referensi AWS SDK untuk .NET API*. 

### `CreateDBParameterGroup`
<a name="rds_CreateDBParameterGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBParameterGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Create a new DB parameter group. Use the action DescribeDBParameterGroupsAsync
    /// to determine when the DB parameter group is ready to use.
    /// </summary>
    /// <param name="name">Name of the DB parameter group.</param>
    /// <param name="family">Family of the DB parameter group.</param>
    /// <param name="description">Description of the DB parameter group.</param>
    /// <returns>The new DB parameter group.</returns>
    public async Task<DBParameterGroup> CreateDBParameterGroup(
        string name, string family, string description)
    {
        var response = await _amazonRDS.CreateDBParameterGroupAsync(
            new CreateDBParameterGroupRequest()
            {
                DBParameterGroupName = name,
                DBParameterGroupFamily = family,
                Description = description
            });
        return response.DBParameterGroup;
    }
```
+  Untuk detail API, lihat [Membuat DBParameter Grup](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/CreateDBParameterGroup) di *Referensi AWS SDK untuk .NET API*. 

### `CreateDBSnapshot`
<a name="rds_CreateDBSnapshot_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSnapshot`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Create a snapshot of a DB instance.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <param name="snapshotIdentifier">Identifier for the snapshot.</param>
    /// <returns>DB snapshot object.</returns>
    public async Task<DBSnapshot> CreateDBSnapshot(string dbInstanceIdentifier, string snapshotIdentifier)
    {
        var response = await _amazonRDS.CreateDBSnapshotAsync(
            new CreateDBSnapshotRequest()
            {
                DBSnapshotIdentifier = snapshotIdentifier,
                DBInstanceIdentifier = dbInstanceIdentifier
            });

        return response.DBSnapshot;
    }
```
+  Untuk detail API, lihat [Membuat DBSnapshot](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/CreateDBSnapshot) di *Referensi AWS SDK untuk .NET API*. 

### `DeleteDBInstance`
<a name="rds_DeleteDBInstance_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Delete a particular DB instance.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <returns>DB instance object.</returns>
    public async Task<DBInstance> DeleteDBInstance(string dbInstanceIdentifier)
    {
        var response = await _amazonRDS.DeleteDBInstanceAsync(
            new DeleteDBInstanceRequest()
            {
                DBInstanceIdentifier = dbInstanceIdentifier,
                SkipFinalSnapshot = true,
                DeleteAutomatedBackups = true
            });

        return response.DBInstance;
    }
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DeleteDBInstance) di *Referensi AWS SDK untuk .NET API*. 

### `DeleteDBParameterGroup`
<a name="rds_DeleteDBParameterGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBParameterGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Delete a DB parameter group. The group cannot be a default DB parameter group
    /// or be associated with any DB instances.
    /// </summary>
    /// <param name="name">Name of the DB parameter group.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteDBParameterGroup(string name)
    {
        var response = await _amazonRDS.DeleteDBParameterGroupAsync(
            new DeleteDBParameterGroupRequest()
            {
                DBParameterGroupName = name,
            });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [Menghapus DBParameter Grup](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DeleteDBParameterGroup) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBEngineVersions`
<a name="rds_DescribeDBEngineVersions_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Get a list of DB engine versions for a particular DB engine.
    /// </summary>
    /// <param name="engine">Name of the engine.</param>
    /// <param name="dbParameterGroupFamily">Optional parameter group family name.</param>
    /// <returns>List of DBEngineVersions.</returns>
    public async Task<List<DBEngineVersion>> DescribeDBEngineVersions(string engine,
        string dbParameterGroupFamily = null)
    {
        var response = await _amazonRDS.DescribeDBEngineVersionsAsync(
            new DescribeDBEngineVersionsRequest()
            {
                Engine = engine,
                DBParameterGroupFamily = dbParameterGroupFamily
            });
        return response.DBEngineVersions;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBEngineVersions) dalam *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Returns a list of DB instances.
    /// </summary>
    /// <param name="dbInstanceIdentifier">Optional name of a specific DB instance.</param>
    /// <returns>List of DB instances.</returns>
    public async Task<List<DBInstance>> DescribeDBInstances(string dbInstanceIdentifier = null)
    {
        var results = new List<DBInstance>();
        var instancesPaginator = _amazonRDS.Paginators.DescribeDBInstances(
            new DescribeDBInstancesRequest
            {
                DBInstanceIdentifier = dbInstanceIdentifier
            });
        // Get the entire list using the paginator.
        await foreach (var instances in instancesPaginator.DBInstances)
        {
            results.Add(instances);
        }
        return results;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBParameterGroups`
<a name="rds_DescribeDBParameterGroups_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameterGroups`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Get descriptions of DB parameter groups.
    /// </summary>
    /// <param name="name">Optional name of the DB parameter group to describe.</param>
    /// <returns>The list of DB parameter group descriptions.</returns>
    public async Task<List<DBParameterGroup>> DescribeDBParameterGroups(string name = null)
    {
        var response = await _amazonRDS.DescribeDBParameterGroupsAsync(
            new DescribeDBParameterGroupsRequest()
            {
                DBParameterGroupName = name
            });
        return response.DBParameterGroups;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBParameterGroups) dalam *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBParameters`
<a name="rds_DescribeDBParameters_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameters`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Get a list of DB parameters from a specific parameter group.
    /// </summary>
    /// <param name="dbParameterGroupName">Name of a specific DB parameter group.</param>
    /// <param name="source">Optional source for selecting parameters.</param>
    /// <returns>List of parameter values.</returns>
    public async Task<List<Parameter>> DescribeDBParameters(string dbParameterGroupName, string source = null)
    {
        var results = new List<Parameter>();
        var paginateParameters = _amazonRDS.Paginators.DescribeDBParameters(
            new DescribeDBParametersRequest()
            {
                DBParameterGroupName = dbParameterGroupName,
                Source = source
            });
        // Get the entire list using the paginator.
        await foreach (var parameters in paginateParameters.Parameters)
        {
            results.Add(parameters);
        }
        return results;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBParameters) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBSnapshots`
<a name="rds_DescribeDBSnapshots_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBSnapshots`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Return a list of DB snapshots for a particular DB instance.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <returns>List of DB snapshots.</returns>
    public async Task<List<DBSnapshot>> DescribeDBSnapshots(string dbInstanceIdentifier)
    {
        var results = new List<DBSnapshot>();
        var snapshotsPaginator = _amazonRDS.Paginators.DescribeDBSnapshots(
            new DescribeDBSnapshotsRequest()
            {
                DBInstanceIdentifier = dbInstanceIdentifier
            });

        // Get the entire list using the paginator.
        await foreach (var snapshots in snapshotsPaginator.DBSnapshots)
        {
            results.Add(snapshots);
        }
        return results;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBSnapshots](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeDBSnapshots) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeOrderableDBInstanceOptions`
<a name="rds_DescribeOrderableDBInstanceOptions_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Get a list of orderable DB instance options for a specific
    /// engine and engine version.
    /// </summary>
    /// <param name="engine">Name of the engine.</param>
    /// <param name="engineVersion">Version of the engine.</param>
    /// <returns>List of OrderableDBInstanceOptions.</returns>
    public async Task<List<OrderableDBInstanceOption>> DescribeOrderableDBInstanceOptions(string engine, string engineVersion)
    {
        // Use a paginator to get a list of DB instance options.
        var results = new List<OrderableDBInstanceOption>();
        var paginateInstanceOptions = _amazonRDS.Paginators.DescribeOrderableDBInstanceOptions(
            new DescribeOrderableDBInstanceOptionsRequest()
            {
                Engine = engine,
                EngineVersion = engineVersion,
            });
        // Get the entire list using the paginator.
        await foreach (var instanceOptions in paginateInstanceOptions.OrderableDBInstanceOptions)
        {
            results.Add(instanceOptions);
        }
        return results;
    }
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/DescribeOrderableDBInstanceOptions) di *Referensi AWS SDK untuk .NET API*. 

### `ModifyDBParameterGroup`
<a name="rds_ModifyDBParameterGroup_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBParameterGroup`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/RDS#code-examples). 

```
    /// <summary>
    /// Update a DB parameter group. Use the action DescribeDBParameterGroupsAsync
    /// to determine when the DB parameter group is ready to use.
    /// </summary>
    /// <param name="name">Name of the DB parameter group.</param>
    /// <param name="parameters">List of parameters. Maximum of 20 per request.</param>
    /// <returns>The updated DB parameter group name.</returns>
    public async Task<string> ModifyDBParameterGroup(
        string name, List<Parameter> parameters)
    {
        var response = await _amazonRDS.ModifyDBParameterGroupAsync(
            new ModifyDBParameterGroupRequest()
            {
                DBParameterGroupName = name,
                Parameters = parameters,
            });
        return response.DBParameterGroupName;
    }
```
+  Untuk detail API, lihat [Memodifikasi DBParameter Grup](https://docs.aws.amazon.com/goto/DotNetSDKV3/rds-2014-10-31/ModifyDBParameterGroup) di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan AWS SDK untuk .NET untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan front end yang dibangun dengan React.js untuk berinteraksi dengan backend RESTful .NET.   
+ Integrasikan aplikasi web React dengan AWS layanan.
+ Cantumkan, tambahkan, perbarui, dan hapus butir di tabel Aurora.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/AuroraItemTracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan.NET.  

```
using System.Data;
using System.Text.Json;
using Amazon.Lambda.APIGatewayEvents;
using Amazon.Lambda.Core;
using MySql.Data.MySqlClient;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace aws_rds;

public class InputModel
{
    public string key1 { get; set; }
    public string key2 { get; set; }
}

public class Function
{
    /// <summary>
    // Handles the Lambda function execution for connecting to RDS using IAM authentication.
    /// </summary>
    /// <param name="input">The input event data passed to the Lambda function</param>
    /// <param name="context">The Lambda execution context that provides runtime information</param>
    /// <returns>A response object containing the execution result</returns>

    public async Task<APIGatewayProxyResponse> FunctionHandler(APIGatewayProxyRequest request, ILambdaContext context)
    {
        // Sample Input: {"body": "{\"key1\":\"20\", \"key2\":\"25\"}"}
        var input = JsonSerializer.Deserialize<InputModel>(request.Body);

        /// Obtain authentication token
        var authToken = RDSAuthTokenGenerator.GenerateAuthToken(
            Environment.GetEnvironmentVariable("RDS_ENDPOINT"),
            Convert.ToInt32(Environment.GetEnvironmentVariable("RDS_PORT")),
            Environment.GetEnvironmentVariable("RDS_USERNAME")
        );

        /// Build the Connection String with the Token 
        string connectionString = $"Server={Environment.GetEnvironmentVariable("RDS_ENDPOINT")};" +
                                  $"Port={Environment.GetEnvironmentVariable("RDS_PORT")};" +
                                  $"Uid={Environment.GetEnvironmentVariable("RDS_USERNAME")};" +
                                  $"Pwd={authToken};";


        try
        {
            await using var connection = new MySqlConnection(connectionString);
            await connection.OpenAsync();

            const string sql = "SELECT @param1 + @param2 AS Sum";

            await using var command = new MySqlCommand(sql, connection);
            command.Parameters.AddWithValue("@param1", int.Parse(input.key1 ?? "0"));
            command.Parameters.AddWithValue("@param2", int.Parse(input.key2 ?? "0"));

            await using var reader = await command.ExecuteReaderAsync();
            if (await reader.ReadAsync())
            {
                int result = reader.GetInt32("Sum");

                //Sample Response: {"statusCode":200,"body":"{\"message\":\"The sum is: 45\"}","isBase64Encoded":false}
                return new APIGatewayProxyResponse
                {
                    StatusCode = 200,
                    Body = JsonSerializer.Serialize(new { message = $"The sum is: {result}" })
                };
            }

        }
        catch (Exception ex)
        {
            Console.WriteLine($"Error: {ex.Message}");
        }

        return new APIGatewayProxyResponse
        {
            StatusCode = 500,
            Body = JsonSerializer.Serialize(new { error = "Internal server error" })
        };
    }
}
```

# Contoh Layanan Data Amazon RDS menggunakan SDK untuk .NET
<a name="csharp_3_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk .NET dengan menggunakan Layanan Data Amazon RDS.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan AWS SDK untuk .NET untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan front end yang dibangun dengan React.js untuk berinteraksi dengan backend RESTful .NET.   
+ Integrasikan aplikasi web React dengan AWS layanan.
+ Cantumkan, tambahkan, perbarui, dan hapus butir di tabel Aurora.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/AuroraItemTracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Rekognition Amazon menggunakan SDK untuk .NET
<a name="csharp_3_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET With Amazon Rekognition.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CompareFaces`
<a name="rekognition_CompareFaces_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompareFaces`.

Untuk informasi selengkapnya, lihat [Membandingkan wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-comparefaces.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to compare faces in two images.
    /// </summary>
    public class CompareFaces
    {
        public static async Task Main()
        {
            float similarityThreshold = 70F;
            string sourceImage = "source.jpg";
            string targetImage = "target.jpg";

            var rekognitionClient = new AmazonRekognitionClient();

            Amazon.Rekognition.Model.Image imageSource = new Amazon.Rekognition.Model.Image();

            try
            {
                using FileStream fs = new FileStream(sourceImage, FileMode.Open, FileAccess.Read);
                byte[] data = new byte[fs.Length];
                fs.Read(data, 0, (int)fs.Length);
                imageSource.Bytes = new MemoryStream(data);
            }
            catch (Exception)
            {
                Console.WriteLine($"Failed to load source image: {sourceImage}");
                return;
            }

            Amazon.Rekognition.Model.Image imageTarget = new Amazon.Rekognition.Model.Image();

            try
            {
                using FileStream fs = new FileStream(targetImage, FileMode.Open, FileAccess.Read);
                byte[] data = new byte[fs.Length];
                data = new byte[fs.Length];
                fs.Read(data, 0, (int)fs.Length);
                imageTarget.Bytes = new MemoryStream(data);
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Failed to load target image: {targetImage}");
                Console.WriteLine(ex.Message);
                return;
            }

            var compareFacesRequest = new CompareFacesRequest
            {
                SourceImage = imageSource,
                TargetImage = imageTarget,
                SimilarityThreshold = similarityThreshold,
            };

            // Call operation
            var compareFacesResponse = await rekognitionClient.CompareFacesAsync(compareFacesRequest);

            // Display results
            compareFacesResponse.FaceMatches.ForEach(match =>
            {
                ComparedFace face = match.Face;
                BoundingBox position = face.BoundingBox;
                Console.WriteLine($"Face at {position.Left} {position.Top} matches with {match.Similarity}% confidence.");
            });

            Console.WriteLine($"Found {compareFacesResponse.UnmatchedFaces.Count} face(s) that did not match.");
        }
    }
```
+  Untuk detail API, lihat [CompareFaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/CompareFaces)di *Referensi AWS SDK untuk .NET API*. 

### `CreateCollection`
<a name="rekognition_CreateCollection_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCollection`.

Untuk informasi selengkapnya, lihat [Membuat koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/create-collection-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses Amazon Rekognition to create a collection to which you can add
    /// faces using the IndexFaces operation.
    /// </summary>
    public class CreateCollection
    {
        public static async Task Main()
        {
            var rekognitionClient = new AmazonRekognitionClient();

            string collectionId = "MyCollection";
            Console.WriteLine("Creating collection: " + collectionId);

            var createCollectionRequest = new CreateCollectionRequest
            {
                CollectionId = collectionId,
            };

            CreateCollectionResponse createCollectionResponse = await rekognitionClient.CreateCollectionAsync(createCollectionRequest);
            Console.WriteLine($"CollectionArn : {createCollectionResponse.CollectionArn}");
            Console.WriteLine($"Status code : {createCollectionResponse.StatusCode}");
        }
    }
```
+  Untuk detail API, lihat [CreateCollection](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/CreateCollection)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteCollection`
<a name="rekognition_DeleteCollection_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCollection`.

Untuk informasi selengkapnya, lihat [Menghapus koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-collection-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to delete an existing collection.
    /// </summary>
    public class DeleteCollection
    {
        public static async Task Main()
        {
            var rekognitionClient = new AmazonRekognitionClient();

            string collectionId = "MyCollection";
            Console.WriteLine("Deleting collection: " + collectionId);

            var deleteCollectionRequest = new DeleteCollectionRequest()
            {
                CollectionId = collectionId,
            };

            var deleteCollectionResponse = await rekognitionClient.DeleteCollectionAsync(deleteCollectionRequest);
            Console.WriteLine($"{collectionId}: {deleteCollectionResponse.StatusCode}");
        }
    }
```
+  Untuk detail API, lihat [DeleteCollection](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/DeleteCollection)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteFaces`
<a name="rekognition_DeleteFaces_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFaces`.

Untuk informasi selengkapnya, lihat [Menghapus wajah dari koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-faces-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to delete one or more faces from
    /// a Rekognition collection.
    /// </summary>
    public class DeleteFaces
    {
        public static async Task Main()
        {
            string collectionId = "MyCollection";
            var faces = new List<string> { "xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx" };

            var rekognitionClient = new AmazonRekognitionClient();

            var deleteFacesRequest = new DeleteFacesRequest()
            {
                CollectionId = collectionId,
                FaceIds = faces,
            };

            DeleteFacesResponse deleteFacesResponse = await rekognitionClient.DeleteFacesAsync(deleteFacesRequest);
            deleteFacesResponse.DeletedFaces.ForEach(face =>
            {
                Console.WriteLine($"FaceID: {face}");
            });
        }
    }
```
+  Untuk detail API, lihat [DeleteFaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/DeleteFaces)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeCollection`
<a name="rekognition_DescribeCollection_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCollection`.

Untuk informasi selengkapnya, lihat [Menjelaskan koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/describe-collection-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to describe the contents of a
    /// collection.
    /// </summary>
    public class DescribeCollection
    {
        public static async Task Main()
        {
            var rekognitionClient = new AmazonRekognitionClient();

            string collectionId = "MyCollection";
            Console.WriteLine($"Describing collection: {collectionId}");

            var describeCollectionRequest = new DescribeCollectionRequest()
            {
                CollectionId = collectionId,
            };

            var describeCollectionResponse = await rekognitionClient.DescribeCollectionAsync(describeCollectionRequest);
            Console.WriteLine($"Collection ARN: {describeCollectionResponse.CollectionARN}");
            Console.WriteLine($"Face count: {describeCollectionResponse.FaceCount}");
            Console.WriteLine($"Face model version: {describeCollectionResponse.FaceModelVersion}");
            Console.WriteLine($"Created: {describeCollectionResponse.CreationTimestamp}");
        }
    }
```
+  Untuk detail API, lihat [DescribeCollection](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/DescribeCollection)di *Referensi AWS SDK untuk .NET API*. 

### `DetectFaces`
<a name="rekognition_DetectFaces_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectFaces`.

Untuk informasi selengkapnya, lihat [Mendeteksi wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-detect-images.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to detect faces within an image
    /// stored in an Amazon Simple Storage Service (Amazon S3) bucket.
    /// </summary>
    public class DetectFaces
    {
        public static async Task Main()
        {
            string photo = "input.jpg";
            string bucket = "amzn-s3-demo-bucket";

            var rekognitionClient = new AmazonRekognitionClient();

            var detectFacesRequest = new DetectFacesRequest()
            {
                Image = new Image()
                {
                    S3Object = new S3Object()
                    {
                        Name = photo,
                        Bucket = bucket,
                    },
                },

                // Attributes can be "ALL" or "DEFAULT".
                // "DEFAULT": BoundingBox, Confidence, Landmarks, Pose, and Quality.
                // "ALL": See https://docs.aws.amazon.com/sdkfornet/v3/apidocs/items/Rekognition/TFaceDetail.html
                Attributes = new List<string>() { "ALL" },
            };

            try
            {
                DetectFacesResponse detectFacesResponse = await rekognitionClient.DetectFacesAsync(detectFacesRequest);
                bool hasAll = detectFacesRequest.Attributes.Contains("ALL");
                foreach (FaceDetail face in detectFacesResponse.FaceDetails)
                {
                    Console.WriteLine($"BoundingBox: top={face.BoundingBox.Left} left={face.BoundingBox.Top} width={face.BoundingBox.Width} height={face.BoundingBox.Height}");
                    Console.WriteLine($"Confidence: {face.Confidence}");
                    Console.WriteLine($"Landmarks: {face.Landmarks.Count}");
                    Console.WriteLine($"Pose: pitch={face.Pose.Pitch} roll={face.Pose.Roll} yaw={face.Pose.Yaw}");
                    Console.WriteLine($"Brightness: {face.Quality.Brightness}\tSharpness: {face.Quality.Sharpness}");

                    if (hasAll)
                    {
                        Console.WriteLine($"Estimated age is between {face.AgeRange.Low} and {face.AgeRange.High} years old.");
                    }
                }
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }
        }
    }
```
Tampilkan informasi kotak pembatas untuk semua wajah dalam gambar.  

```
    using System;
    using System.Collections.Generic;
    using System.Drawing;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to display the details of the
    /// bounding boxes around the faces detected in an image.
    /// </summary>
    public class ImageOrientationBoundingBox
    {
        public static async Task Main()
        {
            string photo = @"D:\Development\AWS-Examples\Rekognition\target.jpg"; // "photo.jpg";

            var rekognitionClient = new AmazonRekognitionClient();

            var image = new Amazon.Rekognition.Model.Image();
            try
            {
                using var fs = new FileStream(photo, FileMode.Open, FileAccess.Read);
                byte[] data = null;
                data = new byte[fs.Length];
                fs.Read(data, 0, (int)fs.Length);
                image.Bytes = new MemoryStream(data);
            }
            catch (Exception)
            {
                Console.WriteLine("Failed to load file " + photo);
                return;
            }

            int height;
            int width;

            // Used to extract original photo width/height
            using (var imageBitmap = new Bitmap(photo))
            {
                height = imageBitmap.Height;
                width = imageBitmap.Width;
            }

            Console.WriteLine("Image Information:");
            Console.WriteLine(photo);
            Console.WriteLine("Image Height: " + height);
            Console.WriteLine("Image Width: " + width);

            try
            {
                var detectFacesRequest = new DetectFacesRequest()
                {
                    Image = image,
                    Attributes = new List<string>() { "ALL" },
                };

                DetectFacesResponse detectFacesResponse = await rekognitionClient.DetectFacesAsync(detectFacesRequest);
                detectFacesResponse.FaceDetails.ForEach(face =>
                {
                    Console.WriteLine("Face:");
                    ShowBoundingBoxPositions(
                        height,
                        width,
                        face.BoundingBox,
                        detectFacesResponse.OrientationCorrection);

                    Console.WriteLine($"BoundingBox: top={face.BoundingBox.Left} left={face.BoundingBox.Top} width={face.BoundingBox.Width} height={face.BoundingBox.Height}");
                    Console.WriteLine($"The detected face is estimated to be between {face.AgeRange.Low} and {face.AgeRange.High} years old.\n");
                });
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }
        }

        /// <summary>
        /// Display the bounding box information for an image.
        /// </summary>
        /// <param name="imageHeight">The height of the image.</param>
        /// <param name="imageWidth">The width of the image.</param>
        /// <param name="box">The bounding box for a face found within the image.</param>
        /// <param name="rotation">The rotation of the face's bounding box.</param>
        public static void ShowBoundingBoxPositions(int imageHeight, int imageWidth, BoundingBox box, string rotation)
        {
            float left;
            float top;

            if (rotation == null)
            {
                Console.WriteLine("No estimated orientation. Check Exif data.");
                return;
            }

            // Calculate face position based on image orientation.
            switch (rotation)
            {
                case "ROTATE_0":
                    left = imageWidth * box.Left;
                    top = imageHeight * box.Top;
                    break;
                case "ROTATE_90":
                    left = imageHeight * (1 - (box.Top + box.Height));
                    top = imageWidth * box.Left;
                    break;
                case "ROTATE_180":
                    left = imageWidth - (imageWidth * (box.Left + box.Width));
                    top = imageHeight * (1 - (box.Top + box.Height));
                    break;
                case "ROTATE_270":
                    left = imageHeight * box.Top;
                    top = imageWidth * (1 - box.Left - box.Width);
                    break;
                default:
                    Console.WriteLine("No estimated orientation information. Check Exif data.");
                    return;
            }

            // Display face location information.
            Console.WriteLine($"Left: {left}");
            Console.WriteLine($"Top: {top}");
            Console.WriteLine($"Face Width: {imageWidth * box.Width}");
            Console.WriteLine($"Face Height: {imageHeight * box.Height}");
        }
    }
```
+  Untuk detail API, lihat [DetectFaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/DetectFaces)di *Referensi AWS SDK untuk .NET API*. 

### `DetectLabels`
<a name="rekognition_DetectLabels_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi label dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detect-labels-image.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to detect labels within an image
    /// stored in an Amazon Simple Storage Service (Amazon S3) bucket.
    /// </summary>
    public class DetectLabels
    {
        public static async Task Main()
        {
            string photo = "del_river_02092020_01.jpg"; // "input.jpg";
            string bucket = "amzn-s3-demo-bucket"; // "bucket";

            var rekognitionClient = new AmazonRekognitionClient();

            var detectlabelsRequest = new DetectLabelsRequest
            {
                Image = new Image()
                {
                    S3Object = new S3Object()
                    {
                        Name = photo,
                        Bucket = bucket,
                    },
                },
                MaxLabels = 10,
                MinConfidence = 75F,
            };

            try
            {
                DetectLabelsResponse detectLabelsResponse = await rekognitionClient.DetectLabelsAsync(detectlabelsRequest);
                Console.WriteLine("Detected labels for " + photo);
                foreach (Label label in detectLabelsResponse.Labels)
                {
                    Console.WriteLine($"Name: {label.Name} Confidence: {label.Confidence}");
                }
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }
        }
    }
```
Mendeteksi label dalam file gambar yang disimpan di komputer Anda.  

```
    using System;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to detect labels within an image
    /// stored locally.
    /// </summary>
    public class DetectLabelsLocalFile
    {
        public static async Task Main()
        {
            string photo = "input.jpg";

            var image = new Amazon.Rekognition.Model.Image();
            try
            {
                using var fs = new FileStream(photo, FileMode.Open, FileAccess.Read);
                byte[] data = null;
                data = new byte[fs.Length];
                fs.Read(data, 0, (int)fs.Length);
                image.Bytes = new MemoryStream(data);
            }
            catch (Exception)
            {
                Console.WriteLine("Failed to load file " + photo);
                return;
            }

            var rekognitionClient = new AmazonRekognitionClient();

            var detectlabelsRequest = new DetectLabelsRequest
            {
                Image = image,
                MaxLabels = 10,
                MinConfidence = 77F,
            };

            try
            {
                DetectLabelsResponse detectLabelsResponse = await rekognitionClient.DetectLabelsAsync(detectlabelsRequest);
                Console.WriteLine($"Detected labels for {photo}");
                foreach (Label label in detectLabelsResponse.Labels)
                {
                    Console.WriteLine($"{label.Name}: {label.Confidence}");
                }
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }
        }
    }
```
+  Untuk detail API, lihat [DetectLabels](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/DetectLabels)di *Referensi AWS SDK untuk .NET API*. 

### `DetectModerationLabels`
<a name="rekognition_DetectModerationLabels_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectModerationLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi gambar yang tidak pantas](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-images.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to detect unsafe content in a
    /// JPEG or PNG format image.
    /// </summary>
    public class DetectModerationLabels
    {
        public static async Task Main(string[] args)
        {
            string photo = "input.jpg";
            string bucket = "amzn-s3-demo-bucket";

            var rekognitionClient = new AmazonRekognitionClient();

            var detectModerationLabelsRequest = new DetectModerationLabelsRequest()
            {
                Image = new Image()
                {
                    S3Object = new S3Object()
                    {
                        Name = photo,
                        Bucket = bucket,
                    },
                },
                MinConfidence = 60F,
            };

            try
            {
                var detectModerationLabelsResponse = await rekognitionClient.DetectModerationLabelsAsync(detectModerationLabelsRequest);
                Console.WriteLine("Detected labels for " + photo);
                foreach (ModerationLabel label in detectModerationLabelsResponse.ModerationLabels)
                {
                    Console.WriteLine($"Label: {label.Name}");
                    Console.WriteLine($"Confidence: {label.Confidence}");
                    Console.WriteLine($"Parent: {label.ParentName}");
                }
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }
        }
    }
```
+  Untuk detail API, lihat [DetectModerationLabels](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/DetectModerationLabels)di *Referensi AWS SDK untuk .NET API*. 

### `DetectText`
<a name="rekognition_DetectText_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectText`.

Untuk informasi selengkapnya, lihat [Mendeteksi teks dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/text-detecting-text-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to detect text in an image. The
    /// example was created using the AWS SDK for .NET version 3.7 and .NET
    /// Core 5.0.
    /// </summary>
    public class DetectText
    {
        public static async Task Main()
        {
            string photo = "Dad_photographer.jpg"; // "input.jpg";
            string bucket = "amzn-s3-demo-bucket"; // "bucket";

            var rekognitionClient = new AmazonRekognitionClient();

            var detectTextRequest = new DetectTextRequest()
            {
                Image = new Image()
                {
                    S3Object = new S3Object()
                    {
                        Name = photo,
                        Bucket = bucket,
                    },
                },
            };

            try
            {
                DetectTextResponse detectTextResponse = await rekognitionClient.DetectTextAsync(detectTextRequest);
                Console.WriteLine($"Detected lines and words for {photo}");
                detectTextResponse.TextDetections.ForEach(text =>
                {
                    Console.WriteLine($"Detected: {text.DetectedText}");
                    Console.WriteLine($"Confidence: {text.Confidence}");
                    Console.WriteLine($"Id : {text.Id}");
                    Console.WriteLine($"Parent Id: {text.ParentId}");
                    Console.WriteLine($"Type: {text.Type}");
                });
            }
            catch (Exception e)
            {
                Console.WriteLine(e.Message);
            }
        }
    }
```
+  Untuk detail API, lihat [DetectText](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/DetectText)di *Referensi AWS SDK untuk .NET API*. 

### `GetCelebrityInfo`
<a name="rekognition_GetCelebrityInfo_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCelebrityInfo`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Shows how to use Amazon Rekognition to retrieve information about the
    /// celebrity identified by the supplied celebrity Id.
    /// </summary>
    public class CelebrityInfo
    {
        public static async Task Main()
        {
            string celebId = "nnnnnnnn";

            var rekognitionClient = new AmazonRekognitionClient();

            var celebrityInfoRequest = new GetCelebrityInfoRequest
            {
                Id = celebId,
            };

            Console.WriteLine($"Getting information for celebrity: {celebId}");

            var celebrityInfoResponse = await rekognitionClient.GetCelebrityInfoAsync(celebrityInfoRequest);

            // Display celebrity information.
            Console.WriteLine($"celebrity name: {celebrityInfoResponse.Name}");
            Console.WriteLine("Further information (if available):");
            celebrityInfoResponse.Urls.ForEach(url =>
            {
                Console.WriteLine(url);
            });
        }
    }
```
+  Untuk detail API, lihat [GetCelebrityInfo](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/GetCelebrityInfo)di *Referensi AWS SDK untuk .NET API*. 

### `IndexFaces`
<a name="rekognition_IndexFaces_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`IndexFaces`.

Untuk informasi selengkapnya, lihat [Menambahkan wajah ke koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/add-faces-to-collection-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to detect faces in an image
    /// that has been uploaded to an Amazon Simple Storage Service (Amazon S3)
    /// bucket and then adds the information to a collection.
    /// </summary>
    public class AddFaces
    {
        public static async Task Main()
        {
            string collectionId = "MyCollection2";
            string bucket = "amzn-s3-demo-bucket";
            string photo = "input.jpg";

            var rekognitionClient = new AmazonRekognitionClient();

            var image = new Image
            {
                S3Object = new S3Object
                {
                    Bucket = bucket,
                    Name = photo,
                },
            };

            var indexFacesRequest = new IndexFacesRequest
            {
                Image = image,
                CollectionId = collectionId,
                ExternalImageId = photo,
                DetectionAttributes = new List<string>() { "ALL" },
            };

            IndexFacesResponse indexFacesResponse = await rekognitionClient.IndexFacesAsync(indexFacesRequest);

            Console.WriteLine($"{photo} added");
            foreach (FaceRecord faceRecord in indexFacesResponse.FaceRecords)
            {
                Console.WriteLine($"Face detected: Faceid is {faceRecord.Face.FaceId}");
            }
        }
    }
```
+  Untuk detail API, lihat [IndexFaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/IndexFaces)di *Referensi AWS SDK untuk .NET API*. 

### `ListCollections`
<a name="rekognition_ListCollections_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCollections`.

Untuk informasi selengkapnya, lihat [Daftar koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-collection-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses Amazon Rekognition to list the collection IDs in the
    /// current account.
    /// </summary>
    public class ListCollections
    {
        public static async Task Main()
        {
            var rekognitionClient = new AmazonRekognitionClient();

            Console.WriteLine("Listing collections");
            int limit = 10;

            var listCollectionsRequest = new ListCollectionsRequest
            {
                MaxResults = limit,
            };

            var listCollectionsResponse = new ListCollectionsResponse();

            do
            {
                if (listCollectionsResponse is not null)
                {
                    listCollectionsRequest.NextToken = listCollectionsResponse.NextToken;
                }

                listCollectionsResponse = await rekognitionClient.ListCollectionsAsync(listCollectionsRequest);

                listCollectionsResponse.CollectionIds.ForEach(id =>
                {
                    Console.WriteLine(id);
                });
            }
            while (listCollectionsResponse.NextToken is not null);
        }
    }
```
+  Untuk detail API, lihat [ListCollections](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/ListCollections)di *Referensi AWS SDK untuk .NET API*. 

### `ListFaces`
<a name="rekognition_ListFaces_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFaces`.

Untuk informasi selengkapnya, lihat [Daftar wajah dalam koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-faces-in-collection-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to retrieve the list of faces
    /// stored in a collection.
    /// </summary>
    public class ListFaces
    {
        public static async Task Main()
        {
            string collectionId = "MyCollection2";

            var rekognitionClient = new AmazonRekognitionClient();

            var listFacesResponse = new ListFacesResponse();
            Console.WriteLine($"Faces in collection {collectionId}");

            var listFacesRequest = new ListFacesRequest
            {
                CollectionId = collectionId,
                MaxResults = 1,
            };

            do
            {
                listFacesResponse = await rekognitionClient.ListFacesAsync(listFacesRequest);
                listFacesResponse.Faces.ForEach(face =>
                {
                    Console.WriteLine(face.FaceId);
                });

                listFacesRequest.NextToken = listFacesResponse.NextToken;
            }
            while (!string.IsNullOrEmpty(listFacesResponse.NextToken));
        }
    }
```
+  Untuk detail API, lihat [ListFaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/ListFaces)di *Referensi AWS SDK untuk .NET API*. 

### `RecognizeCelebrities`
<a name="rekognition_RecognizeCelebrities_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RecognizeCelebrities`.

Untuk informasi selengkapnya, lihat [Mengenali selebriti dalam sebuah gambar](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-procedure-image.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Shows how to use Amazon Rekognition to identify celebrities in a photo.
    /// </summary>
    public class CelebritiesInImage
    {
        public static async Task Main(string[] args)
        {
            string photo = "moviestars.jpg";

            var rekognitionClient = new AmazonRekognitionClient();

            var recognizeCelebritiesRequest = new RecognizeCelebritiesRequest();

            var img = new Amazon.Rekognition.Model.Image();
            byte[] data = null;
            try
            {
                using var fs = new FileStream(photo, FileMode.Open, FileAccess.Read);
                data = new byte[fs.Length];
                fs.Read(data, 0, (int)fs.Length);
            }
            catch (Exception)
            {
                Console.WriteLine($"Failed to load file {photo}");
                return;
            }

            img.Bytes = new MemoryStream(data);
            recognizeCelebritiesRequest.Image = img;

            Console.WriteLine($"Looking for celebrities in image {photo}\n");

            var recognizeCelebritiesResponse = await rekognitionClient.RecognizeCelebritiesAsync(recognizeCelebritiesRequest);

            Console.WriteLine($"{recognizeCelebritiesResponse.CelebrityFaces.Count} celebrity(s) were recognized.\n");
            recognizeCelebritiesResponse.CelebrityFaces.ForEach(celeb =>
            {
                Console.WriteLine($"Celebrity recognized: {celeb.Name}");
                Console.WriteLine($"Celebrity ID: {celeb.Id}");
                BoundingBox boundingBox = celeb.Face.BoundingBox;
                Console.WriteLine($"position: {boundingBox.Left} {boundingBox.Top}");
                Console.WriteLine("Further information (if available):");
                celeb.Urls.ForEach(url =>
                {
                    Console.WriteLine(url);
                });
            });

            Console.WriteLine($"{recognizeCelebritiesResponse.UnrecognizedFaces.Count} face(s) were unrecognized.");
        }
    }
```
+  Untuk detail API, lihat [RecognizeCelebrities](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/RecognizeCelebrities)di *Referensi AWS SDK untuk .NET API*. 

### `SearchFaces`
<a name="rekognition_SearchFaces_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchFaces`.

Untuk informasi selengkapnya, lihat [Mencari wajah (ID wajah)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-id-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to find faces in an image that
    /// match the face Id provided in the method request.
    /// </summary>
    public class SearchFacesMatchingId
    {
        public static async Task Main()
        {
            string collectionId = "MyCollection";
            string faceId = "xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx";

            var rekognitionClient = new AmazonRekognitionClient();

            // Search collection for faces matching the face id.
            var searchFacesRequest = new SearchFacesRequest
            {
                CollectionId = collectionId,
                FaceId = faceId,
                FaceMatchThreshold = 70F,
                MaxFaces = 2,
            };

            SearchFacesResponse searchFacesResponse = await rekognitionClient.SearchFacesAsync(searchFacesRequest);

            Console.WriteLine("Face matching faceId " + faceId);

            Console.WriteLine("Matche(s): ");
            searchFacesResponse.FaceMatches.ForEach(face =>
            {
                Console.WriteLine($"FaceId: {face.Face.FaceId} Similarity: {face.Similarity}");
            });
        }
    }
```
+  Untuk detail API, lihat [SearchFaces](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/SearchFaces)di *Referensi AWS SDK untuk .NET API*. 

### `SearchFacesByImage`
<a name="rekognition_SearchFacesByImage_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchFacesByImage`.

Untuk informasi selengkapnya, lihat [Mencari wajah (gambar)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-image-procedure.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Rekognition/#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Rekognition;
    using Amazon.Rekognition.Model;

    /// <summary>
    /// Uses the Amazon Rekognition Service to search for images matching those
    /// in a collection.
    /// </summary>
    public class SearchFacesMatchingImage
    {
        public static async Task Main()
        {
            string collectionId = "MyCollection";
            string bucket = "amzn-s3-demo-bucket";
            string photo = "input.jpg";

            var rekognitionClient = new AmazonRekognitionClient();

            // Get an image object from S3 bucket.
            var image = new Image()
            {
                S3Object = new S3Object()
                {
                    Bucket = bucket,
                    Name = photo,
                },
            };

            var searchFacesByImageRequest = new SearchFacesByImageRequest()
            {
                CollectionId = collectionId,
                Image = image,
                FaceMatchThreshold = 70F,
                MaxFaces = 2,
            };

            SearchFacesByImageResponse searchFacesByImageResponse = await rekognitionClient.SearchFacesByImageAsync(searchFacesByImageRequest);

            Console.WriteLine("Faces matching largest face in image from " + photo);
            searchFacesByImageResponse.FaceMatches.ForEach(face =>
            {
                Console.WriteLine($"FaceId: {face.Face.FaceId}, Similarity: {face.Similarity}");
            });
        }
    }
```
+  Untuk detail API, lihat [SearchFacesByImage](https://docs.aws.amazon.com/goto/DotNetSDKV3/rekognition-2016-06-27/SearchFacesByImage)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk .NET**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAssetManager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan Amazon Rekognition .NET API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAnalyzerApp).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

# Route 53 contoh pendaftaran domain menggunakan SDK untuk .NET
<a name="csharp_3_route-53-domains_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan pendaftaran domain AWS SDK untuk .NET with Route 53.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Hello Route 53 pendaftaran domain
<a name="route-53-domains_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan pendaftaran domain Route 53.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
public static class HelloRoute53Domains
{
    static async Task Main(string[] args)
    {
        // Use the AWS .NET Core Setup package to set up dependency injection for the Amazon Route 53 domain registration service.
        // Use your AWS profile name, or leave it blank to use the default profile.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonRoute53Domains>()
            ).Build();

        // Now the client is available for injection.
        var route53Client = host.Services.GetRequiredService<IAmazonRoute53Domains>();

        // You can use await and any of the async methods to get a response.
        var response = await route53Client.ListPricesAsync(new ListPricesRequest { Tld = "com" });
        Console.WriteLine($"Hello Amazon Route 53 Domains! Following are prices for .com domain operations:");
        var comPrices = response.Prices.FirstOrDefault();
        if (comPrices != null)
        {
            Console.WriteLine($"\tRegistration: {comPrices.RegistrationPrice?.Price} {comPrices.RegistrationPrice?.Currency}");
            Console.WriteLine($"\tRenewal: {comPrices.RenewalPrice?.Price} {comPrices.RenewalPrice?.Currency}");
        }
    }
}
```
+  Untuk detail API, lihat [ListPrices](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ListPrices)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="route-53-domains_Scenario_GetStartedRoute53Domains_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat daftar domain saat ini, dan daftar operasi dalam satu tahun terakhir.
+ Lihat tagihan selama setahun terakhir, dan lihat harga untuk jenis domain.
+ Dapatkan saran domain.
+ Periksa ketersediaan domain dan transferabilitas.
+ Secara opsional, minta pendaftaran domain.
+ Dapatkan detail operasi.
+ Secara opsional, dapatkan detail domain.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
public static class Route53DomainScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    This .NET example performs the following tasks:
        1. List current domains.
        2. List operations in the past year.
        3. View billing for the account in the past year.
        4. View prices for domain types.
        5. Get domain suggestions.
        6. Check domain availability.
        7. Check domain transferability.
        8. Optionally, request a domain registration.
        9. Get an operation detail.
       10. Optionally, get a domain detail.
   */

    private static Route53Wrapper _route53Wrapper = null!;
    private static IConfiguration _configuration = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
                    .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonRoute53Domains>()
                .AddTransient<Route53Wrapper>()
            )
            .Build();

        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();

        var logger = LoggerFactory.Create(builder =>
        {
            builder.AddConsole();
        }).CreateLogger(typeof(Route53DomainScenario));

        _route53Wrapper = host.Services.GetRequiredService<Route53Wrapper>();

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the Amazon Route 53 domains example scenario.");
        Console.WriteLine(new string('-', 80));

        try
        {
            await ListDomains();
            await ListOperations();
            await ListBillingRecords();
            await ListPrices();
            await ListDomainSuggestions();
            await CheckDomainAvailability();
            await CheckDomainTransferability();
            var operationId = await RequestDomainRegistration();
            await GetOperationalDetail(operationId);
            await GetDomainDetails();
        }
        catch (Exception ex)
        {
            logger.LogError(ex, "There was a problem executing the scenario.");
        }

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("The Amazon Route 53 domains example scenario is complete.");
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List account registered domains.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task ListDomains()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"1. List account domains.");
        var domains = await _route53Wrapper.ListDomains();
        for (int i = 0; i < domains.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {domains[i].DomainName}");
        }

        if (!domains.Any())
        {
            Console.WriteLine("\tNo domains found in this account.");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List domain operations in the past year.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task ListOperations()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"2. List account domain operations in the past year.");
        var operations = await _route53Wrapper.ListOperations(
            DateTime.Today.AddYears(-1));
        for (int i = 0; i < operations.Count; i++)
        {
            Console.WriteLine($"\tOperation Id: {operations[i].OperationId}");
            Console.WriteLine($"\tStatus: {operations[i].Status}");
            Console.WriteLine($"\tDate: {operations[i].SubmittedDate}");
        }
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List billing in the past year.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task ListBillingRecords()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"3. View billing for the account in the past year.");
        var billingRecords = await _route53Wrapper.ViewBilling(
            DateTime.Today.AddYears(-1),
            DateTime.Today);
        for (int i = 0; i < billingRecords.Count; i++)
        {
            Console.WriteLine($"\tBill Date: {billingRecords[i].BillDate.ToShortDateString()}");
            Console.WriteLine($"\tOperation: {billingRecords[i].Operation}");
            Console.WriteLine($"\tPrice: {billingRecords[i].Price}");
        }
        if (!billingRecords.Any())
        {
            Console.WriteLine("\tNo billing records found in this account for the past year.");
        }
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List prices for a few domain types.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task ListPrices()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"4. View prices for domain types.");
        var domainTypes = new List<string> { "net", "com", "org", "co" };

        var prices = await _route53Wrapper.ListPrices(domainTypes);
        foreach (var pr in prices)
        {
            Console.WriteLine($"\tName: {pr.Name}");
            Console.WriteLine($"\tRegistration: {pr.RegistrationPrice?.Price} {pr.RegistrationPrice?.Currency}");
            Console.WriteLine($"\tRenewal: {pr.RenewalPrice?.Price} {pr.RenewalPrice?.Currency}");
            Console.WriteLine($"\tTransfer: {pr.TransferPrice?.Price} {pr.TransferPrice?.Currency}");
            Console.WriteLine($"\tChange Ownership: {pr.ChangeOwnershipPrice?.Price} {pr.ChangeOwnershipPrice?.Currency}");
            Console.WriteLine($"\tRestoration: {pr.RestorationPrice?.Price} {pr.RestorationPrice?.Currency}");
            Console.WriteLine();
        }
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List domain suggestions for a domain name.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task ListDomainSuggestions()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"5. Get domain suggestions.");
        string? domainName = null;
        while (domainName == null || string.IsNullOrWhiteSpace(domainName))
        {
            Console.WriteLine($"Enter a domain name to get available domain suggestions.");
            domainName = Console.ReadLine();
        }

        var suggestions = await _route53Wrapper.GetDomainSuggestions(domainName, true, 5);
        foreach (var suggestion in suggestions)
        {
            Console.WriteLine($"\tSuggestion Name: {suggestion.DomainName}");
            Console.WriteLine($"\tAvailability: {suggestion.Availability}");
        }
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Check availability for a domain name.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task CheckDomainAvailability()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"6. Check domain availability.");
        string? domainName = null;
        while (domainName == null || string.IsNullOrWhiteSpace(domainName))
        {
            Console.WriteLine($"Enter a domain name to check domain availability.");
            domainName = Console.ReadLine();
        }

        var availability = await _route53Wrapper.CheckDomainAvailability(domainName);
        Console.WriteLine($"\tAvailability: {availability}");
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Check transferability for a domain name.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task CheckDomainTransferability()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"7. Check domain transferability.");
        string? domainName = null;
        while (domainName == null || string.IsNullOrWhiteSpace(domainName))
        {
            Console.WriteLine($"Enter a domain name to check domain transferability.");
            domainName = Console.ReadLine();
        }

        var transferability = await _route53Wrapper.CheckDomainTransferability(domainName);
        Console.WriteLine($"\tTransferability: {transferability}");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Check transferability for a domain name.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task<string?> RequestDomainRegistration()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"8. Optionally, request a domain registration.");

        Console.WriteLine($"\tNote: This example uses domain request settings in settings.json.");
        Console.WriteLine($"\tTo change the domain registration settings, set the values in that file.");
        Console.WriteLine($"\tRemember, registering an actual domain will incur an account billing cost.");
        Console.WriteLine($"\tWould you like to begin a domain registration? (y/n)");
        var ynResponse = Console.ReadLine();
        if (ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase))
        {
            string domainName = _configuration["DomainName"];
            ContactDetail contact = new ContactDetail();
            contact.CountryCode = CountryCode.FindValue(_configuration["Contact:CountryCode"]);
            contact.ContactType = ContactType.FindValue(_configuration["Contact:ContactType"]);

            _configuration.GetSection("Contact").Bind(contact);

            var operationId = await _route53Wrapper.RegisterDomain(
                domainName,
                Convert.ToBoolean(_configuration["AutoRenew"]),
                Convert.ToInt32(_configuration["DurationInYears"]),
                contact);
            if (operationId != null)
            {
                Console.WriteLine(
                    $"\tRegistration requested. Operation Id: {operationId}");
            }

            return operationId;
        }

        Console.WriteLine(new string('-', 80));
        return null;
    }

    /// <summary>
    /// Get details for an operation.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task GetOperationalDetail(string? operationId)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"9. Get an operation detail.");

        var operationDetails =
            await _route53Wrapper.GetOperationDetail(operationId);

        Console.WriteLine(operationDetails);

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Optionally, get details for a registered domain.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task<string?> GetDomainDetails()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"10. Get details on a domain.");

        Console.WriteLine($"\tNote: you must have a registered domain to get details.");
        Console.WriteLine($"\tWould you like to get domain details? (y/n)");
        var ynResponse = Console.ReadLine();
        if (ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase))
        {
            string? domainName = null;
            while (domainName == null)
            {
                Console.WriteLine($"\tEnter a domain name to get details.");
                domainName = Console.ReadLine();
            }

            var domainDetails = await _route53Wrapper.GetDomainDetail(domainName);
            Console.WriteLine(domainDetails);
        }

        Console.WriteLine(new string('-', 80));
        return null;
    }
}
```
Metode pembungkus yang digunakan oleh skenario untuk tindakan pendaftaran domain Route 53.  

```
public class Route53Wrapper
{
    private readonly IAmazonRoute53Domains _amazonRoute53Domains;
    private readonly ILogger<Route53Wrapper> _logger;
    public Route53Wrapper(IAmazonRoute53Domains amazonRoute53Domains, ILogger<Route53Wrapper> logger)
    {
        _amazonRoute53Domains = amazonRoute53Domains;
        _logger = logger;
    }


    /// <summary>
    /// List prices for domain type operations.
    /// </summary>
    /// <param name="domainTypes">Domain types to include in the results.</param>
    /// <returns>The list of domain prices.</returns>
    public async Task<List<DomainPrice>> ListPrices(List<string> domainTypes)
    {
        var results = new List<DomainPrice>();
        var paginatePrices = _amazonRoute53Domains.Paginators.ListPrices(new ListPricesRequest());
        // Get the entire list using the paginator.
        await foreach (var prices in paginatePrices.Prices)
        {
            results.Add(prices);
        }
        return results.Where(p => domainTypes.Contains(p.Name)).ToList();
    }


    /// <summary>
    /// Check the availability of a domain name.
    /// </summary>
    /// <param name="domain">The domain to check for availability.</param>
    /// <returns>An availability result string.</returns>
    public async Task<string> CheckDomainAvailability(string domain)
    {
        var result = await _amazonRoute53Domains.CheckDomainAvailabilityAsync(
            new CheckDomainAvailabilityRequest
            {
                DomainName = domain
            }
        );
        return result.Availability.Value;
    }


    /// <summary>
    /// Check the transferability of a domain name.
    /// </summary>
    /// <param name="domain">The domain to check for transferability.</param>
    /// <returns>A transferability result string.</returns>
    public async Task<string> CheckDomainTransferability(string domain)
    {
        var result = await _amazonRoute53Domains.CheckDomainTransferabilityAsync(
            new CheckDomainTransferabilityRequest
            {
                DomainName = domain
            }
        );
        return result.Transferability.Transferable.Value;
    }


    /// <summary>
    /// Get a list of suggestions for a given domain.
    /// </summary>
    /// <param name="domain">The domain to check for suggestions.</param>
    /// <param name="onlyAvailable">If true, only returns available domains.</param>
    /// <param name="suggestionCount">The number of suggestions to return. Defaults to the max of 50.</param>
    /// <returns>A collection of domain suggestions.</returns>
    public async Task<List<DomainSuggestion>> GetDomainSuggestions(string domain, bool onlyAvailable, int suggestionCount = 50)
    {
        var result = await _amazonRoute53Domains.GetDomainSuggestionsAsync(
            new GetDomainSuggestionsRequest
            {
                DomainName = domain,
                OnlyAvailable = onlyAvailable,
                SuggestionCount = suggestionCount
            }
        );
        return result.SuggestionsList;
    }


    /// <summary>
    /// Get details for a domain action operation.
    /// </summary>
    /// <param name="operationId">The operational Id.</param>
    /// <returns>A string describing the operational details.</returns>
    public async Task<string> GetOperationDetail(string? operationId)
    {
        if (operationId == null)
            return "Unable to get operational details because ID is null.";
        try
        {
            var operationDetails =
                await _amazonRoute53Domains.GetOperationDetailAsync(
                    new GetOperationDetailRequest
                    {
                        OperationId = operationId
                    }
                );

            var details = $"\tOperation {operationId}:\n" +
                          $"\tFor domain {operationDetails.DomainName} on {operationDetails.SubmittedDate.ToShortDateString()}.\n" +
                          $"\tMessage is {operationDetails.Message}.\n" +
                          $"\tStatus is {operationDetails.Status}.\n";

            return details;
        }
        catch (AmazonRoute53DomainsException ex)
        {
            return $"Unable to get operation details. Here's why: {ex.Message}.";
        }
    }


    /// <summary>
    /// Initiate a domain registration request.
    /// </summary>
    /// <param name="contact">Contact details.</param>
    /// <param name="domainName">The domain name to register.</param>
    /// <param name="autoRenew">True if the domain should automatically renew.</param>
    /// <param name="duration">The duration in years for the domain registration.</param>
    /// <returns>The operation Id.</returns>
    public async Task<string?> RegisterDomain(string domainName, bool autoRenew, int duration, ContactDetail contact)
    {
        // This example uses the same contact information for admin, registrant, and tech contacts.
        try
        {
            var result = await _amazonRoute53Domains.RegisterDomainAsync(
                new RegisterDomainRequest()
                {
                    AdminContact = contact,
                    RegistrantContact = contact,
                    TechContact = contact,
                    DomainName = domainName,
                    AutoRenew = autoRenew,
                    DurationInYears = duration,
                    PrivacyProtectAdminContact = false,
                    PrivacyProtectRegistrantContact = false,
                    PrivacyProtectTechContact = false
                }
            );
            return result.OperationId;
        }
        catch (InvalidInputException)
        {
            _logger.LogInformation($"Unable to request registration for domain {domainName}");
            return null;
        }
    }


    /// <summary>
    /// View billing records for the account between a start and end date.
    /// </summary>
    /// <param name="startDate">The start date for billing results.</param>
    /// <param name="endDate">The end date for billing results.</param>
    /// <returns>A collection of billing records.</returns>
    public async Task<List<BillingRecord>> ViewBilling(DateTime startDate, DateTime endDate)
    {
        var results = new List<BillingRecord>();
        var paginateBilling = _amazonRoute53Domains.Paginators.ViewBilling(
            new ViewBillingRequest()
            {
                Start = startDate,
                End = endDate
            });

        // Get the entire list using the paginator.
        await foreach (var billingRecords in paginateBilling.BillingRecords)
        {
            results.Add(billingRecords);
        }
        return results;
    }


    /// <summary>
    /// List the domains for the account.
    /// </summary>
    /// <returns>A collection of domain summary records.</returns>
    public async Task<List<DomainSummary>> ListDomains()
    {
        var results = new List<DomainSummary>();
        var paginateDomains = _amazonRoute53Domains.Paginators.ListDomains(
            new ListDomainsRequest());

        // Get the entire list using the paginator.
        await foreach (var domain in paginateDomains.Domains)
        {
            results.Add(domain);
        }
        return results;
    }


    /// <summary>
    /// List operations for the account that are submitted after a specified date.
    /// </summary>
    /// <returns>A collection of operation summary records.</returns>
    public async Task<List<OperationSummary>> ListOperations(DateTime submittedSince)
    {
        var results = new List<OperationSummary>();
        var paginateOperations = _amazonRoute53Domains.Paginators.ListOperations(
            new ListOperationsRequest()
            {
                SubmittedSince = submittedSince
            });

        // Get the entire list using the paginator.
        await foreach (var operations in paginateOperations.Operations)
        {
            results.Add(operations);
        }
        return results;
    }


    /// <summary>
    /// Get details for a domain.
    /// </summary>
    /// <returns>A string with detail information about the domain.</returns>
    public async Task<string> GetDomainDetail(string domainName)
    {
        try
        {
            var result = await _amazonRoute53Domains.GetDomainDetailAsync(
                new GetDomainDetailRequest()
                {
                    DomainName = domainName
                });
            var details = $"\tDomain {domainName}:\n" +
                          $"\tCreated on {result.CreationDate.ToShortDateString()}.\n" +
                          $"\tAdmin contact is {result.AdminContact.Email}.\n" +
                          $"\tAuto-renew is {result.AutoRenew}.\n";

            return details;
        }
        catch (InvalidInputException)
        {
            return $"Domain {domainName} was not found in your account.";
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CheckDomainAvailability](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/CheckDomainAvailability)
  + [CheckDomainTransferability](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/CheckDomainTransferability)
  + [GetDomainDetail](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/GetDomainDetail)
  + [GetDomainSuggestions](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/GetDomainSuggestions)
  + [GetOperationDetail](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/GetOperationDetail)
  + [ListDomains](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ListDomains)
  + [ListOperations](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ListOperations)
  + [ListPrices](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ListPrices)
  + [RegisterDomain](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/RegisterDomain)
  + [ViewBilling](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ViewBilling)

## Tindakan
<a name="actions"></a>

### `CheckDomainAvailability`
<a name="route-53-domains_CheckDomainAvailability_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckDomainAvailability`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// Check the availability of a domain name.
    /// </summary>
    /// <param name="domain">The domain to check for availability.</param>
    /// <returns>An availability result string.</returns>
    public async Task<string> CheckDomainAvailability(string domain)
    {
        var result = await _amazonRoute53Domains.CheckDomainAvailabilityAsync(
            new CheckDomainAvailabilityRequest
            {
                DomainName = domain
            }
        );
        return result.Availability.Value;
    }
```
+  Untuk detail API, lihat [CheckDomainAvailability](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/CheckDomainAvailability)di *Referensi AWS SDK untuk .NET API*. 

### `CheckDomainTransferability`
<a name="route-53-domains_CheckDomainTransferability_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckDomainTransferability`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// Check the transferability of a domain name.
    /// </summary>
    /// <param name="domain">The domain to check for transferability.</param>
    /// <returns>A transferability result string.</returns>
    public async Task<string> CheckDomainTransferability(string domain)
    {
        var result = await _amazonRoute53Domains.CheckDomainTransferabilityAsync(
            new CheckDomainTransferabilityRequest
            {
                DomainName = domain
            }
        );
        return result.Transferability.Transferable.Value;
    }
```
+  Untuk detail API, lihat [CheckDomainTransferability](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/CheckDomainTransferability)di *Referensi AWS SDK untuk .NET API*. 

### `GetDomainDetail`
<a name="route-53-domains_GetDomainDetail_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDomainDetail`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// Get details for a domain.
    /// </summary>
    /// <returns>A string with detail information about the domain.</returns>
    public async Task<string> GetDomainDetail(string domainName)
    {
        try
        {
            var result = await _amazonRoute53Domains.GetDomainDetailAsync(
                new GetDomainDetailRequest()
                {
                    DomainName = domainName
                });
            var details = $"\tDomain {domainName}:\n" +
                          $"\tCreated on {result.CreationDate.ToShortDateString()}.\n" +
                          $"\tAdmin contact is {result.AdminContact.Email}.\n" +
                          $"\tAuto-renew is {result.AutoRenew}.\n";

            return details;
        }
        catch (InvalidInputException)
        {
            return $"Domain {domainName} was not found in your account.";
        }
    }
```
+  Untuk detail API, lihat [GetDomainDetail](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/GetDomainDetail)di *Referensi AWS SDK untuk .NET API*. 

### `GetDomainSuggestions`
<a name="route-53-domains_GetDomainSuggestions_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDomainSuggestions`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// Get a list of suggestions for a given domain.
    /// </summary>
    /// <param name="domain">The domain to check for suggestions.</param>
    /// <param name="onlyAvailable">If true, only returns available domains.</param>
    /// <param name="suggestionCount">The number of suggestions to return. Defaults to the max of 50.</param>
    /// <returns>A collection of domain suggestions.</returns>
    public async Task<List<DomainSuggestion>> GetDomainSuggestions(string domain, bool onlyAvailable, int suggestionCount = 50)
    {
        var result = await _amazonRoute53Domains.GetDomainSuggestionsAsync(
            new GetDomainSuggestionsRequest
            {
                DomainName = domain,
                OnlyAvailable = onlyAvailable,
                SuggestionCount = suggestionCount
            }
        );
        return result.SuggestionsList;
    }
```
+  Untuk detail API, lihat [GetDomainSuggestions](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/GetDomainSuggestions)di *Referensi AWS SDK untuk .NET API*. 

### `GetOperationDetail`
<a name="route-53-domains_GetOperationDetail_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetOperationDetail`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// Get details for a domain action operation.
    /// </summary>
    /// <param name="operationId">The operational Id.</param>
    /// <returns>A string describing the operational details.</returns>
    public async Task<string> GetOperationDetail(string? operationId)
    {
        if (operationId == null)
            return "Unable to get operational details because ID is null.";
        try
        {
            var operationDetails =
                await _amazonRoute53Domains.GetOperationDetailAsync(
                    new GetOperationDetailRequest
                    {
                        OperationId = operationId
                    }
                );

            var details = $"\tOperation {operationId}:\n" +
                          $"\tFor domain {operationDetails.DomainName} on {operationDetails.SubmittedDate.ToShortDateString()}.\n" +
                          $"\tMessage is {operationDetails.Message}.\n" +
                          $"\tStatus is {operationDetails.Status}.\n";

            return details;
        }
        catch (AmazonRoute53DomainsException ex)
        {
            return $"Unable to get operation details. Here's why: {ex.Message}.";
        }
    }
```
+  Untuk detail API, lihat [GetOperationDetail](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/GetOperationDetail)di *Referensi AWS SDK untuk .NET API*. 

### `ListDomains`
<a name="route-53-domains_ListDomains_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDomains`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// List the domains for the account.
    /// </summary>
    /// <returns>A collection of domain summary records.</returns>
    public async Task<List<DomainSummary>> ListDomains()
    {
        var results = new List<DomainSummary>();
        var paginateDomains = _amazonRoute53Domains.Paginators.ListDomains(
            new ListDomainsRequest());

        // Get the entire list using the paginator.
        await foreach (var domain in paginateDomains.Domains)
        {
            results.Add(domain);
        }
        return results;
    }
```
+  Untuk detail API, lihat [ListDomains](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ListDomains)di *Referensi AWS SDK untuk .NET API*. 

### `ListOperations`
<a name="route-53-domains_ListOperations_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOperations`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// List operations for the account that are submitted after a specified date.
    /// </summary>
    /// <returns>A collection of operation summary records.</returns>
    public async Task<List<OperationSummary>> ListOperations(DateTime submittedSince)
    {
        var results = new List<OperationSummary>();
        var paginateOperations = _amazonRoute53Domains.Paginators.ListOperations(
            new ListOperationsRequest()
            {
                SubmittedSince = submittedSince
            });

        // Get the entire list using the paginator.
        await foreach (var operations in paginateOperations.Operations)
        {
            results.Add(operations);
        }
        return results;
    }
```
+  Untuk detail API, lihat [ListOperations](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ListOperations)di *Referensi AWS SDK untuk .NET API*. 

### `ListPrices`
<a name="route-53-domains_ListPrices_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPrices`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// List prices for domain type operations.
    /// </summary>
    /// <param name="domainTypes">Domain types to include in the results.</param>
    /// <returns>The list of domain prices.</returns>
    public async Task<List<DomainPrice>> ListPrices(List<string> domainTypes)
    {
        var results = new List<DomainPrice>();
        var paginatePrices = _amazonRoute53Domains.Paginators.ListPrices(new ListPricesRequest());
        // Get the entire list using the paginator.
        await foreach (var prices in paginatePrices.Prices)
        {
            results.Add(prices);
        }
        return results.Where(p => domainTypes.Contains(p.Name)).ToList();
    }
```
+  Untuk detail API, lihat [ListPrices](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ListPrices)di *Referensi AWS SDK untuk .NET API*. 

### `RegisterDomain`
<a name="route-53-domains_RegisterDomain_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RegisterDomain`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// Initiate a domain registration request.
    /// </summary>
    /// <param name="contact">Contact details.</param>
    /// <param name="domainName">The domain name to register.</param>
    /// <param name="autoRenew">True if the domain should automatically renew.</param>
    /// <param name="duration">The duration in years for the domain registration.</param>
    /// <returns>The operation Id.</returns>
    public async Task<string?> RegisterDomain(string domainName, bool autoRenew, int duration, ContactDetail contact)
    {
        // This example uses the same contact information for admin, registrant, and tech contacts.
        try
        {
            var result = await _amazonRoute53Domains.RegisterDomainAsync(
                new RegisterDomainRequest()
                {
                    AdminContact = contact,
                    RegistrantContact = contact,
                    TechContact = contact,
                    DomainName = domainName,
                    AutoRenew = autoRenew,
                    DurationInYears = duration,
                    PrivacyProtectAdminContact = false,
                    PrivacyProtectRegistrantContact = false,
                    PrivacyProtectTechContact = false
                }
            );
            return result.OperationId;
        }
        catch (InvalidInputException)
        {
            _logger.LogInformation($"Unable to request registration for domain {domainName}");
            return null;
        }
    }
```
+  Untuk detail API, lihat [RegisterDomain](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/RegisterDomain)di *Referensi AWS SDK untuk .NET API*. 

### `ViewBilling`
<a name="route-53-domains_ViewBilling_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ViewBilling`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Route53#code-examples). 

```
    /// <summary>
    /// View billing records for the account between a start and end date.
    /// </summary>
    /// <param name="startDate">The start date for billing results.</param>
    /// <param name="endDate">The end date for billing results.</param>
    /// <returns>A collection of billing records.</returns>
    public async Task<List<BillingRecord>> ViewBilling(DateTime startDate, DateTime endDate)
    {
        var results = new List<BillingRecord>();
        var paginateBilling = _amazonRoute53Domains.Paginators.ViewBilling(
            new ViewBillingRequest()
            {
                Start = startDate,
                End = endDate
            });

        // Get the entire list using the paginator.
        await foreach (var billingRecords in paginateBilling.BillingRecords)
        {
            results.Add(billingRecords);
        }
        return results;
    }
```
+  Untuk detail API, lihat [ViewBilling](https://docs.aws.amazon.com/goto/DotNetSDKV3/route53domains-2014-05-15/ViewBilling)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon S3 menggunakan SDK untuk .NET
<a name="csharp_3_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon S3. AWS SDK untuk .NET 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 
Salin objek menggunakan permintaan bersyarat.  

```
    /// <summary>
    /// Copies an object from one Amazon S3 bucket to another with a conditional request.
    /// </summary>
    /// <param name="sourceKey">The key of the source object to copy.</param>
    /// <param name="destKey">The key of the destination object.</param>
    /// <param name="sourceBucket">The source bucket of the object.</param>
    /// <param name="destBucket">The destination bucket of the object.</param>
    /// <param name="conditionType">The type of condition to apply, e.g. 'CopySourceIfMatch', 'CopySourceIfNoneMatch', 'CopySourceIfModifiedSince', 'CopySourceIfUnmodifiedSince'.</param>
    /// <param name="conditionDateValue">The value to use for the condition for dates.</param>
    /// <param name="etagConditionalValue">The value to use for the condition for etags.</param>
    /// <returns>True if the conditional copy is successful, False otherwise.</returns>
    public async Task<bool> CopyObjectConditional(string sourceKey, string destKey, string sourceBucket, string destBucket,
        S3ConditionType conditionType, DateTime? conditionDateValue = null, string? etagConditionalValue = null)
    {
        try
        {
            var copyObjectRequest = new CopyObjectRequest
            {
                DestinationBucket = destBucket,
                DestinationKey = destKey,
                SourceBucket = sourceBucket,
                SourceKey = sourceKey
            };

            switch (conditionType)
            {
                case S3ConditionType.IfMatch:
                    copyObjectRequest.ETagToMatch = etagConditionalValue;
                    break;
                case S3ConditionType.IfNoneMatch:
                    copyObjectRequest.ETagToNotMatch = etagConditionalValue;
                    break;
                case S3ConditionType.IfModifiedSince:
                    copyObjectRequest.ModifiedSinceDateUtc = conditionDateValue.GetValueOrDefault();
                    break;
                case S3ConditionType.IfUnmodifiedSince:
                    copyObjectRequest.UnmodifiedSinceDateUtc = conditionDateValue.GetValueOrDefault();
                    break;
                default:
                    throw new ArgumentOutOfRangeException(nameof(conditionType), conditionType, null);
            }

            await _amazonS3.CopyObjectAsync(copyObjectRequest);
            _logger.LogInformation($"Conditional copy successful for key {destKey} in bucket {destBucket}.");
            return true;
        }
        catch (AmazonS3Exception e)
        {
            if (e.ErrorCode == "PreconditionFailed")
            {
                _logger.LogError("Conditional copy failed: Precondition failed");
            }
            else if (e.ErrorCode == "304")
            {
                _logger.LogError("Conditional copy failed: Object not modified");
            }
            else
            {
                _logger.LogError($"Unexpected error: {e.ErrorCode}");
                throw;
            }
            return false;
        }
    }
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/CopyObject)di *Referensi AWS SDK untuk .NET API*. 

### `CreateBucket`
<a name="s3_CreateBucket_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 
Buat ember dengan kunci objek diaktifkan.  

```
    /// <summary>
    /// Create a new Amazon S3 bucket with object lock actions.
    /// </summary>
    /// <param name="bucketName">The name of the bucket to create.</param>
    /// <param name="enableObjectLock">True to enable object lock on the bucket.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CreateBucketWithObjectLock(string bucketName, bool enableObjectLock)
    {
        Console.WriteLine($"\tCreating bucket {bucketName} with object lock {enableObjectLock}.");
        try
        {
            var request = new PutBucketRequest
            {
                BucketName = bucketName,
                UseClientRegion = true,
                ObjectLockEnabledForBucket = enableObjectLock,
            };

            var response = await _amazonS3.PutBucketAsync(request);

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error creating bucket: '{ex.Message}'");
            return false;
        }
    }
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/CreateBucket)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteBucketCors`
<a name="s3_DeleteBucketCors_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketCors`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
        /// <summary>
        /// Deletes a CORS configuration from an Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used
        /// to delete the CORS configuration from the bucket.</param>
        private static async Task DeleteCORSConfigurationAsync(AmazonS3Client client)
        {
            DeleteCORSConfigurationRequest request = new DeleteCORSConfigurationRequest()
            {
                BucketName = BucketName,
            };
            await client.DeleteCORSConfigurationAsync(request);
        }
```
+  Untuk detail API, lihat [DeleteBucketCors](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/DeleteBucketCors)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteBucketLifecycle`
<a name="s3_DeleteBucketLifecycle_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketLifecycle`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
        /// <summary>
        /// This method removes the Lifecycle configuration from the named
        /// S3 bucket.
        /// </summary>
        /// <param name="client">The S3 client object used to call
        /// the RemoveLifecycleConfigAsync method.</param>
        /// <param name="bucketName">A string representing the name of the
        /// S3 bucket from which the configuration will be removed.</param>
        public static async Task RemoveLifecycleConfigAsync(IAmazonS3 client, string bucketName)
        {
            var request = new DeleteLifecycleConfigurationRequest()
            {
                BucketName = bucketName,
            };
            await client.DeleteLifecycleConfigurationAsync(request);
        }
```
+  Untuk detail API, lihat [DeleteBucketLifecycle](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/DeleteBucketLifecycle)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteObject`
<a name="s3_DeleteObject_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 
Hapus objek dalam bucket S3 yang tidak berversi.  

```
    using System;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to delete an object from a non-versioned Amazon
    /// Simple Storage Service (Amazon S3) bucket.
    /// </summary>
    public class DeleteObject
    {
        /// <summary>
        /// The Main method initializes the necessary variables and then calls
        /// the DeleteObjectNonVersionedBucketAsync method to delete the object
        /// named by the keyName parameter.
        /// </summary>
        public static async Task Main()
        {
            const string bucketName = "amzn-s3-demo-bucket";
            const string keyName = "testfile.txt";

            // If the Amazon S3 bucket is located in an AWS Region other than the
            // Region of the default account, define the AWS Region for the
            // Amazon S3 bucket in your call to the AmazonS3Client constructor.
            // For example RegionEndpoint.USWest2.
            IAmazonS3 client = new AmazonS3Client();
            await DeleteObjectNonVersionedBucketAsync(client, bucketName, keyName);
        }

        /// <summary>
        /// The DeleteObjectNonVersionedBucketAsync takes care of deleting the
        /// desired object from the named bucket.
        /// </summary>
        /// <param name="client">An initialized Amazon S3 client used to delete
        /// an object from an Amazon S3 bucket.</param>
        /// <param name="bucketName">The name of the bucket from which the
        /// object will be deleted.</param>
        /// <param name="keyName">The name of the object to delete.</param>
        public static async Task DeleteObjectNonVersionedBucketAsync(IAmazonS3 client, string bucketName, string keyName)
        {
            try
            {
                var deleteObjectRequest = new DeleteObjectRequest
                {
                    BucketName = bucketName,
                    Key = keyName,
                };

                Console.WriteLine($"Deleting object: {keyName}");
                await client.DeleteObjectAsync(deleteObjectRequest);
                Console.WriteLine($"Object: {keyName} deleted from {bucketName}.");
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error encountered on server. Message:'{ex.Message}' when deleting an object.");
            }
        }
    }
```
Hapus objek dalam bucket S3 berversi.  

```
    using System;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example creates an object in an Amazon Simple Storage Service
    /// (Amazon S3) bucket and then deletes the object version that was
    /// created.
    /// </summary>
    public class DeleteObjectVersion
    {
        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket";
            string keyName = "verstioned-object.txt";

            // If the AWS Region of the default user is different from the AWS
            // Region of the Amazon S3 bucket, pass the AWS Region of the
            // bucket region to the Amazon S3 client object's constructor.
            // Define it like this:
            //      RegionEndpoint bucketRegion = RegionEndpoint.USWest2;
            IAmazonS3 client = new AmazonS3Client();

            await CreateAndDeleteObjectVersionAsync(client, bucketName, keyName);
        }

        /// <summary>
        /// This method creates and then deletes a versioned object.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to
        /// create and delete the object.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket where the
        /// object will be created and deleted.</param>
        /// <param name="keyName">The key name of the object to create.</param>
        public static async Task CreateAndDeleteObjectVersionAsync(IAmazonS3 client, string bucketName, string keyName)
        {
            try
            {
                // Add a sample object.
                string versionID = await PutAnObject(client, bucketName, keyName);

                // Delete the object by specifying an object key and a version ID.
                DeleteObjectRequest request = new DeleteObjectRequest()
                {
                    BucketName = bucketName,
                    Key = keyName,
                    VersionId = versionID,
                };

                Console.WriteLine("Deleting an object");
                await client.DeleteObjectAsync(request);
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error: {ex.Message}");
            }
        }

        /// <summary>
        /// This method is used to create the temporary Amazon S3 object.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 object which will be used
        /// to create the temporary Amazon S3 object.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket where the object
        /// will be created.</param>
        /// <param name="objectKey">The name of the Amazon S3 object co create.</param>
        /// <returns>The Version ID of the created object.</returns>
        public static async Task<string> PutAnObject(IAmazonS3 client, string bucketName, string objectKey)
        {
            PutObjectRequest request = new PutObjectRequest()
            {
                BucketName = bucketName,
                Key = objectKey,
                ContentBody = "This is the content body!",
            };

            PutObjectResponse response = await client.PutObjectAsync(request);
            return response.VersionId;
        }
    }
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/DeleteObject)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 
Hapus beberapa objek dalam bucket S3 yang tidak berversi.  

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to delete multiple objects from an Amazon Simple
    /// Storage Service (Amazon S3) bucket.
    /// </summary>
    public class DeleteMultipleObjects
    {
        /// <summary>
        /// The Main method initializes the Amazon S3 client and the name of
        /// the bucket and then passes those values to MultiObjectDeleteAsync.
        /// </summary>
        public static async Task Main()
        {
            const string bucketName = "amzn-s3-demo-bucket";

            // If the Amazon S3 bucket from which you wish to delete objects is not
            // located in the same AWS Region as the default user, define the
            // AWS Region for the Amazon S3 bucket as a parameter to the client
            // constructor.
            IAmazonS3 s3Client = new AmazonS3Client();

            await MultiObjectDeleteAsync(s3Client, bucketName);
        }

        /// <summary>
        /// This method uses the passed Amazon S3 client to first create and then
        /// delete three files from the named bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// Amazon S3 methods.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket where objects
        /// will be created and then deleted.</param>
        public static async Task MultiObjectDeleteAsync(IAmazonS3 client, string bucketName)
        {
            // Create three sample objects which we will then delete.
            var keysAndVersions = await PutObjectsAsync(client, 3, bucketName);

            // Now perform the multi-object delete, passing the key names and
            // version IDs. Since we are working with a non-versioned bucket,
            // the object keys collection includes null version IDs.
            DeleteObjectsRequest multiObjectDeleteRequest = new DeleteObjectsRequest
            {
                BucketName = bucketName,
                Objects = keysAndVersions,
            };

            // You can add a specific object key to the delete request using the
            // AddKey method of the multiObjectDeleteRequest.
            try
            {
                DeleteObjectsResponse response = await client.DeleteObjectsAsync(multiObjectDeleteRequest);
                Console.WriteLine("Successfully deleted all the {0} items", response.DeletedObjects.Count);
            }
            catch (DeleteObjectsException e)
            {
                PrintDeletionErrorStatus(e);
            }
        }

        /// <summary>
        /// Prints the list of errors raised by the call to DeleteObjectsAsync.
        /// </summary>
        /// <param name="ex">A collection of exceptions returned by the call to
        /// DeleteObjectsAsync.</param>
        public static void PrintDeletionErrorStatus(DeleteObjectsException ex)
        {
            DeleteObjectsResponse errorResponse = ex.Response;
            Console.WriteLine("x {0}", errorResponse.DeletedObjects.Count);

            Console.WriteLine($"Successfully deleted {errorResponse.DeletedObjects.Count}.");
            Console.WriteLine($"No. of objects failed to delete = {errorResponse.DeleteErrors.Count}");

            Console.WriteLine("Printing error data...");
            foreach (DeleteError deleteError in errorResponse.DeleteErrors)
            {
                Console.WriteLine($"Object Key: {deleteError.Key}\t{deleteError.Code}\t{deleteError.Message}");
            }
        }

        /// <summary>
        /// This method creates simple text file objects that can be used in
        /// the delete method.
        /// </summary>
        /// <param name="client">The Amazon S3 client used to call PutObjectAsync.</param>
        /// <param name="number">The number of objects to create.</param>
        /// <param name="bucketName">The name of the bucket where the objects
        /// will be created.</param>
        /// <returns>A list of keys (object keys) and versions that the calling
        /// method will use to delete the newly created files.</returns>
        public static async Task<List<KeyVersion>> PutObjectsAsync(IAmazonS3 client, int number, string bucketName)
        {
            List<KeyVersion> keys = new List<KeyVersion>();
            for (int i = 0; i < number; i++)
            {
                string key = "ExampleObject-" + new System.Random().Next();
                PutObjectRequest request = new PutObjectRequest
                {
                    BucketName = bucketName,
                    Key = key,
                    ContentBody = "This is the content body!",
                };

                PutObjectResponse response = await client.PutObjectAsync(request);

                // For non-versioned bucket operations, we only need the
                // object key.
                KeyVersion keyVersion = new KeyVersion
                {
                    Key = key,
                };
                keys.Add(keyVersion);
            }

            return keys;
        }
    }
```
Hapus beberapa objek dalam bucket S3 berversi.  

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to delete objects in a version-enabled Amazon
    /// Simple StorageService (Amazon S3) bucket.
    /// </summary>
    public class DeleteMultipleObjects
    {
        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket";

            // If the AWS Region for your Amazon S3 bucket is different from
            // the AWS Region of the default user, define the AWS Region for
            // the Amazon S3 bucket and pass it to the client constructor
            // like this:
            // RegionEndpoint bucketRegion = RegionEndpoint.USWest2;
            IAmazonS3 s3Client;

            s3Client = new AmazonS3Client();
            await DeleteMultipleObjectsFromVersionedBucketAsync(s3Client, bucketName);
        }

        /// <summary>
        /// This method removes multiple versions and objects from a
        /// version-enabled Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// DeleteObjectVersionsAsync, DeleteObjectsAsync, and
        /// RemoveDeleteMarkersAsync.</param>
        /// <param name="bucketName">The name of the bucket from which to delete
        /// objects.</param>
        public static async Task DeleteMultipleObjectsFromVersionedBucketAsync(IAmazonS3 client, string bucketName)
        {
            // Delete objects (specifying object version in the request).
            await DeleteObjectVersionsAsync(client, bucketName);

            // Delete objects (without specifying object version in the request).
            var deletedObjects = await DeleteObjectsAsync(client, bucketName);

            // Additional exercise - remove the delete markers Amazon S3 returned from
            // the preceding response. This results in the objects reappearing
            // in the bucket (you can verify the appearance/disappearance of
            // objects in the console).
            await RemoveDeleteMarkersAsync(client, bucketName, deletedObjects);
        }

        /// <summary>
        /// Creates and then deletes non-versioned Amazon S3 objects and then deletes
        /// them again. The method returns a list of the Amazon S3 objects deleted.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// PubObjectsAsync and NonVersionedDeleteAsync.</param>
        /// <param name="bucketName">The name of the bucket where the objects
        /// will be created and then deleted.</param>
        /// <returns>A list of DeletedObjects.</returns>
        public static async Task<List<DeletedObject>> DeleteObjectsAsync(IAmazonS3 client, string bucketName)
        {
            // Upload the sample objects.
            var keysAndVersions2 = await PutObjectsAsync(client, bucketName, 3);

            // Delete objects using only keys. Amazon S3 creates a delete marker and
            // returns its version ID in the response.
            List<DeletedObject> deletedObjects = await NonVersionedDeleteAsync(client, bucketName, keysAndVersions2);
            return deletedObjects;
        }

        /// <summary>
        /// This method creates several temporary objects and then deletes them.
        /// </summary>
        /// <param name="client">The S3 client.</param>
        /// <param name="bucketName">Name of the bucket.</param>
        /// <returns>Async task.</returns>
        public static async Task DeleteObjectVersionsAsync(IAmazonS3 client, string bucketName)
        {
            // Upload the sample objects.
            var keysAndVersions1 = await PutObjectsAsync(client, bucketName, 3);

            // Delete the specific object versions.
            await VersionedDeleteAsync(client, bucketName, keysAndVersions1);
        }

        /// <summary>
        /// Displays the list of information about deleted files to the console.
        /// </summary>
        /// <param name="e">Error information from the delete process.</param>
        private static void DisplayDeletionErrors(DeleteObjectsException e)
        {
            var errorResponse = e.Response;
            Console.WriteLine($"No. of objects successfully deleted = {errorResponse.DeletedObjects.Count}");
            Console.WriteLine($"No. of objects failed to delete = {errorResponse.DeleteErrors.Count}");
            Console.WriteLine("Printing error data...");
            foreach (var deleteError in errorResponse.DeleteErrors)
            {
                Console.WriteLine($"Object Key: {deleteError.Key}\t{deleteError.Code}\t{deleteError.Message}");
            }
        }

        /// <summary>
        /// Delete multiple objects from a version-enabled bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// DeleteObjectVersionsAsync, DeleteObjectsAsync, and
        /// RemoveDeleteMarkersAsync.</param>
        /// <param name="bucketName">The name of the bucket from which to delete
        /// objects.</param>
        /// <param name="keys">A list of key names for the objects to delete.</param>
        private static async Task VersionedDeleteAsync(IAmazonS3 client, string bucketName, List<KeyVersion> keys)
        {
            var multiObjectDeleteRequest = new DeleteObjectsRequest
            {
                BucketName = bucketName,
                Objects = keys, // This includes the object keys and specific version IDs.
            };

            try
            {
                Console.WriteLine("Executing VersionedDelete...");
                DeleteObjectsResponse response = await client.DeleteObjectsAsync(multiObjectDeleteRequest);
                Console.WriteLine($"Successfully deleted all the {response.DeletedObjects.Count} items");
            }
            catch (DeleteObjectsException ex)
            {
                DisplayDeletionErrors(ex);
            }
        }

        /// <summary>
        /// Deletes multiple objects from a non-versioned Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// DeleteObjectVersionsAsync, DeleteObjectsAsync, and
        /// RemoveDeleteMarkersAsync.</param>
        /// <param name="bucketName">The name of the bucket from which to delete
        /// objects.</param>
        /// <param name="keys">A list of key names for the objects to delete.</param>
        /// <returns>A list of the deleted objects.</returns>
        private static async Task<List<DeletedObject>> NonVersionedDeleteAsync(IAmazonS3 client, string bucketName, List<KeyVersion> keys)
        {
            // Create a request that includes only the object key names.
            DeleteObjectsRequest multiObjectDeleteRequest = new DeleteObjectsRequest();
            multiObjectDeleteRequest.BucketName = bucketName;

            foreach (var key in keys)
            {
                multiObjectDeleteRequest.AddKey(key.Key);
            }

            // Execute DeleteObjectsAsync.
            // The DeleteObjectsAsync method adds a delete marker for each
            // object deleted. You can verify that the objects were removed
            // using the Amazon S3 console.
            DeleteObjectsResponse response;
            try
            {
                Console.WriteLine("Executing NonVersionedDelete...");
                response = await client.DeleteObjectsAsync(multiObjectDeleteRequest);
                Console.WriteLine("Successfully deleted all the {0} items", response.DeletedObjects.Count);
            }
            catch (DeleteObjectsException ex)
            {
                DisplayDeletionErrors(ex);
                throw; // Some deletions failed. Investigate before continuing.
            }

            // This response contains the DeletedObjects list which we use to delete the delete markers.
            return response.DeletedObjects;
        }

        /// <summary>
        /// Deletes the markers left after deleting the temporary objects.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// DeleteObjectVersionsAsync, DeleteObjectsAsync, and
        /// RemoveDeleteMarkersAsync.</param>
        /// <param name="bucketName">The name of the bucket from which to delete
        /// objects.</param>
        /// <param name="deletedObjects">A list of the objects that were deleted.</param>
        private static async Task RemoveDeleteMarkersAsync(IAmazonS3 client, string bucketName, List<DeletedObject> deletedObjects)
        {
            var keyVersionList = new List<KeyVersion>();

            foreach (var deletedObject in deletedObjects)
            {
                KeyVersion keyVersion = new KeyVersion
                {
                    Key = deletedObject.Key,
                    VersionId = deletedObject.DeleteMarkerVersionId,
                };
                keyVersionList.Add(keyVersion);
            }

            // Create another request to delete the delete markers.
            var multiObjectDeleteRequest = new DeleteObjectsRequest
            {
                BucketName = bucketName,
                Objects = keyVersionList,
            };

            // Now, delete the delete marker to bring your objects back to the bucket.
            try
            {
                Console.WriteLine("Removing the delete markers .....");
                var deleteObjectResponse = await client.DeleteObjectsAsync(multiObjectDeleteRequest);
                Console.WriteLine($"Successfully deleted the {deleteObjectResponse.DeletedObjects.Count} delete markers");
            }
            catch (DeleteObjectsException ex)
            {
                DisplayDeletionErrors(ex);
            }
        }

        /// <summary>
        /// Create temporary Amazon S3 objects to show how object deletion wors in an
        /// Amazon S3 bucket with versioning enabled.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// PutObjectAsync to create temporary objects for the example.</param>
        /// <param name="bucketName">A string representing the name of the S3
        /// bucket where we will create the temporary objects.</param>
        /// <param name="number">The number of temporary objects to create.</param>
        /// <returns>A list of the KeyVersion objects.</returns>
        private static async Task<List<KeyVersion>> PutObjectsAsync(IAmazonS3 client, string bucketName, int number)
        {
            var keys = new List<KeyVersion>();

            for (var i = 0; i < number; i++)
            {
                string key = "ObjectToDelete-" + new System.Random().Next();
                PutObjectRequest request = new PutObjectRequest
                {
                    BucketName = bucketName,
                    Key = key,
                    ContentBody = "This is the content body!",
                };

                var response = await client.PutObjectAsync(request);
                KeyVersion keyVersion = new KeyVersion
                {
                    Key = key,
                    VersionId = response.VersionId,
                };

                keys.Add(keyVersion);
            }

            return keys;
        }
    }
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/DeleteObjects)di *Referensi AWS SDK untuk .NET API*. 

### `GetBucketAcl`
<a name="s3_GetBucketAcl_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketAcl`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
        /// <summary>
        /// Get the access control list (ACL) for the new bucket.
        /// </summary>
        /// <param name="client">The initialized client object used to get the
        /// access control list (ACL) of the bucket.</param>
        /// <param name="newBucketName">The name of the newly created bucket.</param>
        /// <returns>An S3AccessControlList.</returns>
        public static async Task<S3AccessControlList> GetACLForBucketAsync(IAmazonS3 client, string newBucketName)
        {
            // Retrieve bucket ACL to show that the ACL was properly applied to
            // the new bucket.
            GetACLResponse getACLResponse = await client.GetACLAsync(new GetACLRequest
            {
                BucketName = newBucketName,
            });

            return getACLResponse.AccessControlList;
        }
```
+  Untuk detail API, lihat [GetBucketAcl](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetBucketAcl)di *Referensi AWS SDK untuk .NET API*. 

### `GetBucketCors`
<a name="s3_GetBucketCors_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketCors`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
        /// <summary>
        /// Retrieve the CORS configuration applied to the Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used
        /// to retrieve the CORS configuration.</param>
        /// <returns>The created CORS configuration object.</returns>
        private static async Task<CORSConfiguration> RetrieveCORSConfigurationAsync(AmazonS3Client client)
        {
            GetCORSConfigurationRequest request = new GetCORSConfigurationRequest()
            {
                BucketName = BucketName,
            };
            var response = await client.GetCORSConfigurationAsync(request);
            var configuration = response.Configuration;
            PrintCORSRules(configuration);
            return configuration;
        }
```
+  Untuk detail API, lihat [GetBucketCors](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetBucketCors)di *Referensi AWS SDK untuk .NET API*. 

### `GetBucketEncryption`
<a name="s3_GetBucketEncryption_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketEncryption`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/PutBucketEncryption#code-examples). 

```
    /// <summary>
    /// Get and print the encryption settings of a bucket.
    /// </summary>
    /// <param name="bucketName">Name of the bucket.</param>
    /// <returns>Async task.</returns>
    public static async Task GetEncryptionSettings(string bucketName)
    {
        // Check and print the bucket encryption settings.
        Console.WriteLine($"Getting encryption settings for bucket {bucketName}.");

        try
        {
            var settings =
                await _s3Client.GetBucketEncryptionAsync(
                    new GetBucketEncryptionRequest() { BucketName = bucketName });

            foreach (var encryptionSettings in settings?.ServerSideEncryptionConfiguration?.ServerSideEncryptionRules!)
            {
                Console.WriteLine(
                    $"\tAlgorithm: {encryptionSettings.ServerSideEncryptionByDefault.ServerSideEncryptionAlgorithm}");
                Console.WriteLine(
                    $"\tKey: {encryptionSettings.ServerSideEncryptionByDefault.ServerSideEncryptionKeyManagementServiceKeyId}");
            }
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine(ex.ErrorCode == "InvalidBucketName"
                ? $"Bucket {bucketName} was not found."
                : $"Unable to get bucket encryption for bucket {bucketName}, {ex.Message}");
        }
    }
```
+  Untuk detail API, lihat [GetBucketEncryption](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetBucketEncryption)di *Referensi AWS SDK untuk .NET API*. 

### `GetBucketLifecycleConfiguration`
<a name="s3_GetBucketLifecycleConfiguration_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketLifecycleConfiguration`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
        /// <summary>
        /// Returns a configuration object for the supplied bucket name.
        /// </summary>
        /// <param name="client">The S3 client object used to call
        /// the GetLifecycleConfigurationAsync method.</param>
        /// <param name="bucketName">The name of the S3 bucket for which a
        /// configuration will be created.</param>
        /// <returns>Returns a new LifecycleConfiguration object.</returns>
        public static async Task<LifecycleConfiguration> RetrieveLifecycleConfigAsync(IAmazonS3 client, string bucketName)
        {
            var request = new GetLifecycleConfigurationRequest()
            {
                BucketName = bucketName,
            };
            var response = await client.GetLifecycleConfigurationAsync(request);
            var configuration = response.Configuration;
            return configuration;
        }
```
+  Untuk detail API, lihat [GetBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetBucketLifecycleConfiguration)di *Referensi AWS SDK untuk .NET API*. 

### `GetBucketWebsite`
<a name="s3_GetBucketWebsite_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketWebsite`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
                // Get the website configuration.
                GetBucketWebsiteRequest getRequest = new GetBucketWebsiteRequest()
                {
                    BucketName = bucketName,
                };
                GetBucketWebsiteResponse getResponse = await client.GetBucketWebsiteAsync(getRequest);
                Console.WriteLine($"Index document: {getResponse.WebsiteConfiguration.IndexDocumentSuffix}");
                Console.WriteLine($"Error document: {getResponse.WebsiteConfiguration.ErrorDocument}");
```
+  Untuk detail API, lihat [GetBucketWebsite](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetBucketWebsite)di *Referensi AWS SDK untuk .NET API*. 

### `GetObject`
<a name="s3_GetObject_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 
Dapatkan objek menggunakan permintaan bersyarat.  

```
    /// <summary>
    /// Retrieves an object from Amazon S3 with a conditional request.
    /// </summary>
    /// <param name="objectKey">The key of the object to retrieve.</param>
    /// <param name="sourceBucket">The source bucket of the object.</param>
    /// <param name="conditionType">The type of condition: 'IfMatch', 'IfNoneMatch', 'IfModifiedSince', 'IfUnmodifiedSince'.</param>
    /// <param name="conditionDateValue">The value to use for the condition for dates.</param>
    /// <param name="etagConditionalValue">The value to use for the condition for etags.</param>
    /// <returns>True if the conditional read is successful, False otherwise.</returns>
    public async Task<bool> GetObjectConditional(string objectKey, string sourceBucket,
        S3ConditionType conditionType, DateTime? conditionDateValue = null, string? etagConditionalValue = null)
    {
        try
        {
            var getObjectRequest = new GetObjectRequest
            {
                BucketName = sourceBucket,
                Key = objectKey
            };

            switch (conditionType)
            {
                case S3ConditionType.IfMatch:
                    getObjectRequest.EtagToMatch = etagConditionalValue;
                    break;
                case S3ConditionType.IfNoneMatch:
                    getObjectRequest.EtagToNotMatch = etagConditionalValue;
                    break;
                case S3ConditionType.IfModifiedSince:
                    getObjectRequest.ModifiedSinceDateUtc = conditionDateValue.GetValueOrDefault();
                    break;
                case S3ConditionType.IfUnmodifiedSince:
                    getObjectRequest.UnmodifiedSinceDateUtc = conditionDateValue.GetValueOrDefault();
                    break;
                default:
                    throw new ArgumentOutOfRangeException(nameof(conditionType), conditionType, null);
            }

            var response = await _amazonS3.GetObjectAsync(getObjectRequest);
            var sampleBytes = new byte[20];
            await response.ResponseStream.ReadAsync(sampleBytes, 0, 20);
            _logger.LogInformation($"Conditional read successful. Here are the first 20 bytes of the object:\n{System.Text.Encoding.UTF8.GetString(sampleBytes)}");
            return true;
        }
        catch (AmazonS3Exception e)
        {
            if (e.ErrorCode == "PreconditionFailed")
            {
                _logger.LogError("Conditional read failed: Precondition failed");
            }
            else if (e.ErrorCode == "NotModified")
            {
                _logger.LogError("Conditional read failed: Object not modified");
            }
            else
            {
                _logger.LogError($"Unexpected error: {e.ErrorCode}");
                throw;
            }
            return false;
        }
    }
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObject)di *Referensi AWS SDK untuk .NET API*. 

### `GetObjectLegalHold`
<a name="s3_GetObjectLegalHold_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLegalHold`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/scenarios/S3ObjectLockScenario#code-examples). 

```
    /// <summary>
    /// Get the legal hold details for an S3 object.
    /// </summary>
    /// <param name="bucketName">The bucket of the object.</param>
    /// <param name="objectKey">The object key.</param>
    /// <returns>The object legal hold details.</returns>
    public async Task<ObjectLockLegalHold> GetObjectLegalHold(string bucketName,
        string objectKey)
    {
        try
        {
            var request = new GetObjectLegalHoldRequest()
            {
                BucketName = bucketName,
                Key = objectKey
            };

            var response = await _amazonS3.GetObjectLegalHoldAsync(request);
            Console.WriteLine($"\tObject legal hold for {objectKey} in {bucketName}: " +
                              $"\n\tStatus: {response.LegalHold.Status}");
            return response.LegalHold;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to fetch legal hold: '{ex.Message}'");
            return new ObjectLockLegalHold();
        }
    }
```
+  Untuk detail API, lihat [GetObjectLegalHold](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectLegalHold)di *Referensi AWS SDK untuk .NET API*. 

### `GetObjectLockConfiguration`
<a name="s3_GetObjectLockConfiguration_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLockConfiguration`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/scenarios/S3ObjectLockScenario#code-examples). 

```
    /// <summary>
    /// Get the object lock configuration details for an S3 bucket.
    /// </summary>
    /// <param name="bucketName">The bucket to get details.</param>
    /// <returns>The bucket's object lock configuration details.</returns>
    public async Task<ObjectLockConfiguration> GetBucketObjectLockConfiguration(string bucketName)
    {
        try
        {
            var request = new GetObjectLockConfigurationRequest()
            {
                BucketName = bucketName
            };

            var response = await _amazonS3.GetObjectLockConfigurationAsync(request);
            Console.WriteLine($"\tBucket object lock config for {bucketName} in {bucketName}: " +
                              $"\n\tEnabled: {response.ObjectLockConfiguration.ObjectLockEnabled}" +
                              $"\n\tRule: {response.ObjectLockConfiguration.Rule?.DefaultRetention}");

            return response.ObjectLockConfiguration;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to fetch object lock config: '{ex.Message}'");
            return new ObjectLockConfiguration();
        }
    }
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectLockConfiguration)di *Referensi AWS SDK untuk .NET API*. 

### `GetObjectRetention`
<a name="s3_GetObjectRetention_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectRetention`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/scenarios/S3ObjectLockScenario#code-examples). 

```
    /// <summary>
    /// Get the retention period for an S3 object.
    /// </summary>
    /// <param name="bucketName">The bucket of the object.</param>
    /// <param name="objectKey">The object key.</param>
    /// <returns>The object retention details.</returns>
    public async Task<ObjectLockRetention> GetObjectRetention(string bucketName,
        string objectKey)
    {
        try
        {
            var request = new GetObjectRetentionRequest()
            {
                BucketName = bucketName,
                Key = objectKey
            };

            var response = await _amazonS3.GetObjectRetentionAsync(request);
            Console.WriteLine($"\tObject retention for {objectKey} in {bucketName}: " +
                              $"\n\t{response.Retention.Mode} until {response.Retention.RetainUntilDate:d}.");
            return response.Retention;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to fetch object lock retention: '{ex.Message}'");
            return new ObjectLockRetention();
        }
    }
```
+  Untuk detail API, lihat [GetObjectRetention](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectRetention)di *Referensi AWS SDK untuk .NET API*. 

### `ListBuckets`
<a name="s3_ListBuckets_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
namespace ListBucketsExample
{
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example uses the AWS SDK for .NET to list the Amazon Simple Storage
    /// Service (Amazon S3) buckets belonging to the default account.
    /// </summary>
    public class ListBuckets
    {
        private static IAmazonS3 _s3Client;

        /// <summary>
        /// Get a list of the buckets owned by the default user.
        /// </summary>
        /// <param name="client">An initialized Amazon S3 client object.</param>
        /// <returns>The response from the ListingBuckets call that contains a
        /// list of the buckets owned by the default user.</returns>
        public static async Task<ListBucketsResponse> GetBuckets(IAmazonS3 client)
        {
            return await client.ListBucketsAsync();
        }

        /// <summary>
        /// This method lists the name and creation date for the buckets in
        /// the passed List of S3 buckets.
        /// </summary>
        /// <param name="bucketList">A List of S3 bucket objects.</param>
        public static void DisplayBucketList(List<S3Bucket> bucketList)
        {
            bucketList
                .ForEach(b => Console.WriteLine($"Bucket name: {b.BucketName}, created on: {b.CreationDate}"));
        }

        public static async Task Main()
        {
            // The client uses the AWS Region of the default user.
            // If the Region where the buckets were created is different,
            // pass the Region to the client constructor. For example:
            // _s3Client = new AmazonS3Client(RegionEndpoint.USEast1);
            _s3Client = new AmazonS3Client();
            var response = await GetBuckets(_s3Client);
            DisplayBucketList(response.Buckets);
        }
    }
}
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK untuk .NET API*. 

### `ListObjectVersions`
<a name="s3_ListObjectVersions_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectVersions`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example lists the versions of the objects in a version enabled
    /// Amazon Simple Storage Service (Amazon S3) bucket.
    /// </summary>
    public class ListObjectVersions
    {
        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket";

            // If the AWS Region where your bucket is defined is different from
            // the AWS Region where the Amazon S3 bucket is defined, pass the constant
            // for the AWS Region to the client constructor like this:
            //      var client = new AmazonS3Client(RegionEndpoint.USWest2);
            IAmazonS3 client = new AmazonS3Client();
            await GetObjectListWithAllVersionsAsync(client, bucketName);
        }

        /// <summary>
        /// This method lists all versions of the objects within an Amazon S3
        /// version enabled bucket.
        /// </summary>
        /// <param name="client">The initialized client object used to call
        /// ListVersionsAsync.</param>
        /// <param name="bucketName">The name of the version enabled Amazon S3 bucket
        /// for which you want to list the versions of the contained objects.</param>
        public static async Task GetObjectListWithAllVersionsAsync(IAmazonS3 client, string bucketName)
        {
            try
            {
                // When you instantiate the ListVersionRequest, you can
                // optionally specify a key name prefix in the request
                // if you want a list of object versions of a specific object.

                // For this example we set a small limit in MaxKeys to return
                // a small list of versions.
                ListVersionsRequest request = new ListVersionsRequest()
                {
                    BucketName = bucketName,
                    MaxKeys = 2,
                };

                do
                {
                    ListVersionsResponse response = await client.ListVersionsAsync(request);

                    // Process response.
                    foreach (S3ObjectVersion entry in response.Versions)
                    {
                        Console.WriteLine($"key: {entry.Key} size: {entry.Size}");
                    }

                    // If response is truncated, set the marker to get the next
                    // set of keys.
                    if (response.IsTruncated)
                    {
                        request.KeyMarker = response.NextKeyMarker;
                        request.VersionIdMarker = response.NextVersionIdMarker;
                    }
                    else
                    {
                        request = null;
                    }
                }
                while (request != null);
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error: '{ex.Message}'");
            }
        }
    }
```
+  Untuk detail API, lihat [ListObjectVersions](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/ListObjectVersions)di *Referensi AWS SDK untuk .NET API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 
Daftar objek dengan paginator.  

```
    using System;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// The following example lists objects in an Amazon Simple Storage
    /// Service (Amazon S3) bucket.
    /// </summary>
    public class ListObjectsPaginator
    {
        private const string BucketName = "amzn-s3-demo-bucket";

        public static async Task Main()
        {
            IAmazonS3 s3Client = new AmazonS3Client();

            Console.WriteLine($"Listing the objects contained in {BucketName}:\n");
            await ListingObjectsAsync(s3Client, BucketName);
        }

        /// <summary>
        /// This method uses a paginator to retrieve the list of objects in an
        /// an Amazon S3 bucket.
        /// </summary>
        /// <param name="client">An Amazon S3 client object.</param>
        /// <param name="bucketName">The name of the S3 bucket whose objects
        /// you want to list.</param>
        public static async Task ListingObjectsAsync(IAmazonS3 client, string bucketName)
        {
            var listObjectsV2Paginator = client.Paginators.ListObjectsV2(new ListObjectsV2Request
            {
                BucketName = bucketName,
            });

            await foreach (var response in listObjectsV2Paginator.Responses)
            {
                Console.WriteLine($"HttpStatusCode: {response.HttpStatusCode}");
                Console.WriteLine($"Number of Keys: {response.KeyCount}");
                foreach (var entry in response.S3Objects)
                {
                    Console.WriteLine($"Key = {entry.Key} Size = {entry.Size}");
                }
            }
        }
    }
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/ListObjectsV2) di *Referensi AWS SDK untuk .NET API*. 

### `PutBucketAccelerateConfiguration`
<a name="s3_PutBucketAccelerateConfiguration_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketAccelerateConfiguration`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// Amazon Simple Storage Service (Amazon S3) Transfer Acceleration is a
    /// bucket-level feature that enables you to perform faster data transfers
    /// to Amazon S3. This example shows how to configure Transfer
    /// Acceleration.
    /// </summary>
    public class TransferAcceleration
    {
        /// <summary>
        /// The main method initializes the client object and sets the
        /// Amazon Simple Storage Service (Amazon S3) bucket name before
        /// calling EnableAccelerationAsync.
        /// </summary>
        public static async Task Main()
        {
            var s3Client = new AmazonS3Client();
            const string bucketName = "amzn-s3-demo-bucket";

            await EnableAccelerationAsync(s3Client, bucketName);
        }

        /// <summary>
        /// This method sets the configuration to enable transfer acceleration
        /// for the bucket referred to in the bucketName parameter.
        /// </summary>
        /// <param name="client">An Amazon S3 client used to enable the
        /// acceleration on an Amazon S3 bucket.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket for which the
        /// method will be enabling acceleration.</param>
        private static async Task EnableAccelerationAsync(AmazonS3Client client, string bucketName)
        {
            try
            {
                var putRequest = new PutBucketAccelerateConfigurationRequest
                {
                    BucketName = bucketName,
                    AccelerateConfiguration = new AccelerateConfiguration
                    {
                        Status = BucketAccelerateStatus.Enabled,
                    },
                };
                await client.PutBucketAccelerateConfigurationAsync(putRequest);

                var getRequest = new GetBucketAccelerateConfigurationRequest
                {
                    BucketName = bucketName,
                };
                var response = await client.GetBucketAccelerateConfigurationAsync(getRequest);

                Console.WriteLine($"Acceleration state = '{response.Status}' ");
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error occurred. Message:'{ex.Message}' when setting transfer acceleration");
            }
        }
    }
```
+  Untuk detail API, lihat [PutBucketAccelerateConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketAccelerateConfiguration)di *Referensi AWS SDK untuk .NET API*. 

### `PutBucketAcl`
<a name="s3_PutBucketAcl_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketAcl`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
        /// <summary>
        /// Creates an Amazon S3 bucket with an ACL to control access to the
        /// bucket and the objects stored in it.
        /// </summary>
        /// <param name="client">The initialized client object used to create
        /// an Amazon S3 bucket, with an ACL applied to the bucket.
        /// </param>
        /// <param name="region">The AWS Region where the bucket will be created.</param>
        /// <param name="newBucketName">The name of the bucket to create.</param>
        /// <returns>A boolean value indicating success or failure.</returns>
        public static async Task<bool> CreateBucketUseCannedACLAsync(IAmazonS3 client, S3Region region, string newBucketName)
        {
            try
            {
                // Create a new Amazon S3 bucket with Canned ACL.
                var putBucketRequest = new PutBucketRequest()
                {
                    BucketName = newBucketName,
                    BucketRegion = region,
                    CannedACL = S3CannedACL.LogDeliveryWrite,
                };

                PutBucketResponse putBucketResponse = await client.PutBucketAsync(putBucketRequest);

                return putBucketResponse.HttpStatusCode == System.Net.HttpStatusCode.OK;
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Amazon S3 error: {ex.Message}");
            }

            return false;
        }
```
+  Untuk detail API, lihat [PutBucketAcl](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketAcl)di *Referensi AWS SDK untuk .NET API*. 

### `PutBucketCors`
<a name="s3_PutBucketCors_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketCors`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
        /// <summary>
        /// Add CORS configuration to the Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used
        /// to apply the CORS configuration to an Amazon S3 bucket.</param>
        /// <param name="configuration">The CORS configuration to apply.</param>
        private static async Task PutCORSConfigurationAsync(AmazonS3Client client, CORSConfiguration configuration)
        {
            PutCORSConfigurationRequest request = new PutCORSConfigurationRequest()
            {
                BucketName = BucketName,
                Configuration = configuration,
            };

            _ = await client.PutCORSConfigurationAsync(request);
        }
```
+  Untuk detail API, lihat [PutBucketCors](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketCors)di *Referensi AWS SDK untuk .NET API*. 

### `PutBucketEncryption`
<a name="s3_PutBucketEncryption_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketEncryption`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/PutBucketEncryption#code-examples). 

```
    /// <summary>
    /// Set the bucket server side encryption to use AWSKMS with a customer-managed key id.
    /// </summary>
    /// <param name="bucketName">Name of the bucket.</param>
    /// <param name="kmsKeyId">The Id of the KMS Key.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> SetBucketServerSideEncryption(string bucketName, string kmsKeyId)
    {
        var serverSideEncryptionByDefault = new ServerSideEncryptionConfiguration
        {
            ServerSideEncryptionRules = new List<ServerSideEncryptionRule>
            {
                new ServerSideEncryptionRule
                {
                    ServerSideEncryptionByDefault = new ServerSideEncryptionByDefault
                    {
                        ServerSideEncryptionAlgorithm = ServerSideEncryptionMethod.AWSKMS,
                        ServerSideEncryptionKeyManagementServiceKeyId = kmsKeyId
                    }
                }
            }
        };
        try
        {
            var encryptionResponse = await _s3Client.PutBucketEncryptionAsync(new PutBucketEncryptionRequest
            {
                BucketName = bucketName,
                ServerSideEncryptionConfiguration = serverSideEncryptionByDefault,
            });
            
            return encryptionResponse.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine(ex.ErrorCode == "AccessDenied"
                ? $"This account does not have permission to set encryption on {bucketName}, please try again."
                : $"Unable to set bucket encryption for bucket {bucketName}, {ex.Message}");
        }
        return false;
    }
```
+  Untuk detail API, lihat [PutBucketEncryption](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketEncryption)di *Referensi AWS SDK untuk .NET API*. 

### `PutBucketLifecycleConfiguration`
<a name="s3_PutBucketLifecycleConfiguration_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketLifecycleConfiguration`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
        /// <summary>
        /// Adds lifecycle configuration information to the S3 bucket named in
        /// the bucketName parameter.
        /// </summary>
        /// <param name="client">The S3 client used to call the
        /// PutLifecycleConfigurationAsync method.</param>
        /// <param name="bucketName">A string representing the S3 bucket to
        /// which configuration information will be added.</param>
        /// <param name="configuration">A LifecycleConfiguration object that
        /// will be applied to the S3 bucket.</param>
        public static async Task AddExampleLifecycleConfigAsync(IAmazonS3 client, string bucketName, LifecycleConfiguration configuration)
        {
            var request = new PutLifecycleConfigurationRequest()
            {
                BucketName = bucketName,
                Configuration = configuration,
            };
            var response = await client.PutLifecycleConfigurationAsync(request);
        }
```
+  Untuk detail API, lihat [PutBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketLifecycleConfiguration)di *Referensi AWS SDK untuk .NET API*. 

### `PutBucketLogging`
<a name="s3_PutBucketLogging_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketLogging`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
    using System;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;
    using Microsoft.Extensions.Configuration;

    /// <summary>
    /// This example shows how to enable logging on an Amazon Simple Storage
    /// Service (Amazon S3) bucket. You need to have two Amazon S3 buckets for
    /// this example. The first is the bucket for which you wish to enable
    /// logging, and the second is the location where you want to store the
    /// logs.
    /// </summary>
    public class ServerAccessLogging
    {
        private static IConfiguration _configuration = null!;

        public static async Task Main()
        {
            LoadConfig();

            string bucketName = _configuration["BucketName"];
            string logBucketName = _configuration["LogBucketName"];
            string logObjectKeyPrefix = _configuration["LogObjectKeyPrefix"];
            string accountId = _configuration["AccountId"];

            // If the AWS Region defined for your default user is different
            // from the Region where your Amazon S3 bucket is located,
            // pass the Region name to the Amazon S3 client object's constructor.
            // For example: RegionEndpoint.USWest2 or RegionEndpoint.USEast2.
            IAmazonS3 client = new AmazonS3Client();

            try
            {
                // Update bucket policy for target bucket to allow delivery of logs to it.
                await SetBucketPolicyToAllowLogDelivery(
                    client,
                    bucketName,
                    logBucketName,
                    logObjectKeyPrefix,
                    accountId);

                // Enable logging on the source bucket.
                await EnableLoggingAsync(
                    client,
                    bucketName,
                    logBucketName,
                    logObjectKeyPrefix);
            }
            catch (AmazonS3Exception e)
            {
                Console.WriteLine($"Error: {e.Message}");
            }
        }

        /// <summary>
        /// This method grants appropriate permissions for logging to the
        /// Amazon S3 bucket where the logs will be stored.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client which will be used
        /// to apply the bucket policy.</param>
        /// <param name="sourceBucketName">The name of the source bucket.</param>
        /// <param name="logBucketName">The name of the bucket where logging
        /// information will be stored.</param>
        /// <param name="logPrefix">The logging prefix where the logs should be delivered.</param>
        /// <param name="accountId">The account id of the account where the source bucket exists.</param>
        /// <returns>Async task.</returns>
        public static async Task SetBucketPolicyToAllowLogDelivery(
            IAmazonS3 client,
            string sourceBucketName,
            string logBucketName,
            string logPrefix,
            string accountId)
        {
            var resourceArn = @"""arn:aws:s3:::" + logBucketName + "/" + logPrefix + @"*""";

            var newPolicy = @"{
                                ""Statement"":[{
                                ""Sid"": ""S3ServerAccessLogsPolicy"",
                                ""Effect"": ""Allow"",
                                ""Principal"": { ""Service"": ""logging.s3.amazonaws.com"" },
                                ""Action"": [""s3:PutObject""],
                                ""Resource"": [" + resourceArn + @"],
                                ""Condition"": {
                                ""ArnLike"": { ""aws:SourceArn"": ""arn:aws:s3:::" + sourceBucketName + @""" },
                                ""StringEquals"": { ""aws:SourceAccount"": """ + accountId + @""" }
                                        }
                                    }]
                                }";
            Console.WriteLine($"The policy to apply to bucket {logBucketName} to enable logging:");
            Console.WriteLine(newPolicy);

            PutBucketPolicyRequest putRequest = new PutBucketPolicyRequest
            {
                BucketName = logBucketName,
                Policy = newPolicy,
            };
            await client.PutBucketPolicyAsync(putRequest);
            Console.WriteLine("Policy applied.");
        }

        /// <summary>
        /// This method enables logging for an Amazon S3 bucket. Logs will be stored
        /// in the bucket you selected for logging. Selected prefix
        /// will be prepended to each log object.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client which will be used
        /// to configure and apply logging to the selected Amazon S3 bucket.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket for which you
        /// wish to enable logging.</param>
        /// <param name="logBucketName">The name of the Amazon S3 bucket where logging
        /// information will be stored.</param>
        /// <param name="logObjectKeyPrefix">The prefix to prepend to each
        /// object key.</param>
        /// <returns>Async task.</returns>
        public static async Task EnableLoggingAsync(
            IAmazonS3 client,
            string bucketName,
            string logBucketName,
            string logObjectKeyPrefix)
        {
            Console.WriteLine($"Enabling logging for bucket {bucketName}.");
            var loggingConfig = new S3BucketLoggingConfig
            {
                TargetBucketName = logBucketName,
                TargetPrefix = logObjectKeyPrefix,
            };

            var putBucketLoggingRequest = new PutBucketLoggingRequest
            {
                BucketName = bucketName,
                LoggingConfig = loggingConfig,
            };
            await client.PutBucketLoggingAsync(putBucketLoggingRequest);
            Console.WriteLine($"Logging enabled.");
        }

        /// <summary>
        /// Loads configuration from settings files.
        /// </summary>
        public static void LoadConfig()
        {
            _configuration = new ConfigurationBuilder()
                .SetBasePath(Directory.GetCurrentDirectory())
                .AddJsonFile("settings.json") // Load settings from .json file.
                .AddJsonFile("settings.local.json", true) // Optionally, load local settings.
                .Build();
        }
    }
```
+  Untuk detail API, lihat [PutBucketLogging](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketLogging)di *Referensi AWS SDK untuk .NET API*. 

### `PutBucketNotificationConfiguration`
<a name="s3_PutBucketNotificationConfiguration_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketNotificationConfiguration`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to enable notifications for an Amazon Simple
    /// Storage Service (Amazon S3) bucket.
    /// </summary>
    public class EnableNotifications
    {
        public static async Task Main()
        {
            const string bucketName = "amzn-s3-demo-bucket1";
            const string snsTopic = "arn:aws:sns:us-east-2:0123456789ab:bucket-notify";
            const string sqsQueue = "arn:aws:sqs:us-east-2:0123456789ab:Example_Queue";

            IAmazonS3 client = new AmazonS3Client(Amazon.RegionEndpoint.USEast2);
            await EnableNotificationAsync(client, bucketName, snsTopic, sqsQueue);
        }

        /// <summary>
        /// This method makes the call to the PutBucketNotificationAsync method.
        /// </summary>
        /// <param name="client">An initialized Amazon S3 client used to call
        /// the PutBucketNotificationAsync method.</param>
        /// <param name="bucketName">The name of the bucket for which
        /// notifications will be turned on.</param>
        /// <param name="snsTopic">The ARN for the Amazon Simple Notification
        /// Service (Amazon SNS) topic associated with the S3 bucket.</param>
        /// <param name="sqsQueue">The ARN of the Amazon Simple Queue Service
        /// (Amazon SQS) queue to which notifications will be pushed.</param>
        public static async Task EnableNotificationAsync(
            IAmazonS3 client,
            string bucketName,
            string snsTopic,
            string sqsQueue)
        {
            try
            {
                // The bucket for which we are setting up notifications.
                var request = new PutBucketNotificationRequest()
                {
                    BucketName = bucketName,
                };

                // Defines the topic to use when sending a notification.
                var topicConfig = new TopicConfiguration()
                {
                    Events = new List<EventType> { EventType.ObjectCreatedCopy },
                    Topic = snsTopic,
                };
                request.TopicConfigurations = new List<TopicConfiguration>
                {
                    topicConfig,
                };
                request.QueueConfigurations = new List<QueueConfiguration>
                {
                    new QueueConfiguration()
                    {
                        Events = new List<EventType> { EventType.ObjectCreatedPut },
                        Queue = sqsQueue,
                    },
                };

                // Now apply the notification settings to the bucket.
                PutBucketNotificationResponse response = await client.PutBucketNotificationAsync(request);
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error: {ex.Message}");
            }
        }
    }
```
+  Untuk detail API, lihat [PutBucketNotificationConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketNotificationConfiguration)di *Referensi AWS SDK untuk .NET API*. 

### `PutBucketWebsite`
<a name="s3_PutBucketWebsite_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketWebsite`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
                // Put the website configuration.
                PutBucketWebsiteRequest putRequest = new PutBucketWebsiteRequest()
                {
                    BucketName = bucketName,
                    WebsiteConfiguration = new WebsiteConfiguration()
                    {
                        IndexDocumentSuffix = indexDocumentSuffix,
                        ErrorDocument = errorDocument,
                    },
                };
                PutBucketWebsiteResponse response = await client.PutBucketWebsiteAsync(putRequest);
```
+  Untuk detail API, lihat [PutBucketWebsite](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketWebsite)di *Referensi AWS SDK untuk .NET API*. 

### `PutObject`
<a name="s3_PutObject_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 
Unggah objek dengan enkripsi di sisi server.  

```
    using System;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to upload an object to an Amazon Simple Storage
    /// Service (Amazon S3) bucket with server-side encryption enabled.
    /// </summary>
    public class ServerSideEncryption
    {
        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket";
            string keyName = "samplefile.txt";

            // If the AWS Region defined for your default user is different
            // from the Region where your Amazon S3 bucket is located,
            // pass the Region name to the Amazon S3 client object's constructor.
            // For example: RegionEndpoint.USWest2.
            IAmazonS3 client = new AmazonS3Client();

            await WritingAnObjectAsync(client, bucketName, keyName);
        }

        /// <summary>
        /// Upload a sample object include a setting for encryption.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to
        /// to upload a file and apply server-side encryption.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket where the
        /// encrypted object will reside.</param>
        /// <param name="keyName">The name for the object that you want to
        /// create in the supplied bucket.</param>
        public static async Task WritingAnObjectAsync(IAmazonS3 client, string bucketName, string keyName)
        {
            try
            {
                var putRequest = new PutObjectRequest
                {
                    BucketName = bucketName,
                    Key = keyName,
                    ContentBody = "sample text",
                    ServerSideEncryptionMethod = ServerSideEncryptionMethod.AES256,
                };

                var putResponse = await client.PutObjectAsync(putRequest);

                // Determine the encryption state of an object.
                GetObjectMetadataRequest metadataRequest = new GetObjectMetadataRequest
                {
                    BucketName = bucketName,
                    Key = keyName,
                };
                GetObjectMetadataResponse response = await client.GetObjectMetadataAsync(metadataRequest);
                ServerSideEncryptionMethod objectEncryption = response.ServerSideEncryptionMethod;

                Console.WriteLine($"Encryption method used: {0}", objectEncryption.ToString());
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error: '{ex.Message}' when writing an object");
            }
        }
    }
```
Letakkan objek menggunakan permintaan bersyarat.  

```
    /// <summary>
    /// Uploads an object to Amazon S3 with a conditional request. Prevents overwrite using an IfNoneMatch condition for the object key.
    /// </summary>
    /// <param name="objectKey">The key of the object to upload.</param>
    /// <param name="bucket">The source bucket of the object.</param>
    /// <param name="content">The content to upload as a string.</param>
    /// <returns>The ETag if the conditional write is successful, empty otherwise.</returns>
    public async Task<string> PutObjectConditional(string objectKey, string bucket, string content)
    {
        try
        {
            var putObjectRequest = new PutObjectRequest
            {
                BucketName = bucket,
                Key = objectKey,
                ContentBody = content,
                IfNoneMatch = "*"
            };

            var putResult = await _amazonS3.PutObjectAsync(putObjectRequest);
            _logger.LogInformation($"Conditional write successful for key {objectKey} in bucket {bucket}.");
            return putResult.ETag;
        }
        catch (AmazonS3Exception e)
        {
            if (e.ErrorCode == "PreconditionFailed")
            {
                _logger.LogError("Conditional write failed: Precondition failed");
            }
            else
            {
                _logger.LogError($"Unexpected error: {e.ErrorCode}");
                throw;
            }
            return string.Empty;
        }
    }
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObject)di *Referensi AWS SDK untuk .NET API*. 

### `PutObjectLegalHold`
<a name="s3_PutObjectLegalHold_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLegalHold`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/scenarios/S3ObjectLockScenario#code-examples). 

```
    /// <summary>
    /// Set or modify a legal hold on an object in an S3 bucket.
    /// </summary>
    /// <param name="bucketName">The bucket of the object.</param>
    /// <param name="objectKey">The key of the object.</param>
    /// <param name="holdStatus">The On or Off status for the legal hold.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ModifyObjectLegalHold(string bucketName,
        string objectKey, ObjectLockLegalHoldStatus holdStatus)
    {
        try
        {
            var request = new PutObjectLegalHoldRequest()
            {
                BucketName = bucketName,
                Key = objectKey,
                LegalHold = new ObjectLockLegalHold()
                {
                    Status = holdStatus
                }
            };

            var response = await _amazonS3.PutObjectLegalHoldAsync(request);
            Console.WriteLine($"\tModified legal hold for {objectKey} in {bucketName}.");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tError modifying legal hold: '{ex.Message}'");
            return false;
        }
    }
```
+  Untuk detail API, lihat [PutObjectLegalHold](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObjectLegalHold)di *Referensi AWS SDK untuk .NET API*. 

### `PutObjectLockConfiguration`
<a name="s3_PutObjectLockConfiguration_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLockConfiguration`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/scenarios/S3ObjectLockScenario#code-examples). 
Atur konfigurasi kunci objek dari ember.  

```
    /// <summary>
    /// Enable object lock on an existing bucket.
    /// </summary>
    /// <param name="bucketName">The name of the bucket to modify.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> EnableObjectLockOnBucket(string bucketName)
    {
        try
        {
            // First, enable Versioning on the bucket.
            await _amazonS3.PutBucketVersioningAsync(new PutBucketVersioningRequest()
            {
                BucketName = bucketName,
                VersioningConfig = new S3BucketVersioningConfig()
                {
                    EnableMfaDelete = false,
                    Status = VersionStatus.Enabled
                }
            });

            var request = new PutObjectLockConfigurationRequest()
            {
                BucketName = bucketName,
                ObjectLockConfiguration = new ObjectLockConfiguration()
                {
                    ObjectLockEnabled = new ObjectLockEnabled("Enabled"),
                },
            };

            var response = await _amazonS3.PutObjectLockConfigurationAsync(request);
            Console.WriteLine($"\tAdded an object lock policy to bucket {bucketName}.");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error modifying object lock: '{ex.Message}'");
            return false;
        }
    }
```
Setel periode retensi default bucket.  

```
    /// <summary>
    /// Set or modify a retention period on an S3 bucket.
    /// </summary>
    /// <param name="bucketName">The bucket to modify.</param>
    /// <param name="retention">The retention mode.</param>
    /// <param name="retainUntilDate">The date for retention until.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ModifyBucketDefaultRetention(string bucketName, bool enableObjectLock, ObjectLockRetentionMode retention, DateTime retainUntilDate)
    {
        var enabledString = enableObjectLock ? "Enabled" : "Disabled";
        var timeDifference = retainUntilDate.Subtract(DateTime.Now);
        try
        {
            // First, enable Versioning on the bucket.
            await _amazonS3.PutBucketVersioningAsync(new PutBucketVersioningRequest()
            {
                BucketName = bucketName,
                VersioningConfig = new S3BucketVersioningConfig()
                {
                    EnableMfaDelete = false,
                    Status = VersionStatus.Enabled
                }
            });

            var request = new PutObjectLockConfigurationRequest()
            {
                BucketName = bucketName,
                ObjectLockConfiguration = new ObjectLockConfiguration()
                {
                    ObjectLockEnabled = new ObjectLockEnabled(enabledString),
                    Rule = new ObjectLockRule()
                    {
                        DefaultRetention = new DefaultRetention()
                        {
                            Mode = retention,
                            Days = timeDifference.Days // Can be specified in days or years but not both.
                        }
                    }
                }
            };

            var response = await _amazonS3.PutObjectLockConfigurationAsync(request);
            Console.WriteLine($"\tAdded a default retention to bucket {bucketName}.");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tError modifying object lock: '{ex.Message}'");
            return false;
        }
    }
```
+  Untuk detail API, lihat [PutObjectLockConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObjectLockConfiguration)di *Referensi AWS SDK untuk .NET API*. 

### `PutObjectRetention`
<a name="s3_PutObjectRetention_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectRetention`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/scenarios/S3ObjectLockScenario#code-examples). 

```
    /// <summary>
    /// Set or modify a retention period on an object in an S3 bucket.
    /// </summary>
    /// <param name="bucketName">The bucket of the object.</param>
    /// <param name="objectKey">The key of the object.</param>
    /// <param name="retention">The retention mode.</param>
    /// <param name="retainUntilDate">The date retention expires.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ModifyObjectRetentionPeriod(string bucketName,
        string objectKey, ObjectLockRetentionMode retention, DateTime retainUntilDate)
    {
        try
        {
            var request = new PutObjectRetentionRequest()
            {
                BucketName = bucketName,
                Key = objectKey,
                Retention = new ObjectLockRetention()
                {
                    Mode = retention,
                    RetainUntilDate = retainUntilDate
                }
            };

            var response = await _amazonS3.PutObjectRetentionAsync(request);
            Console.WriteLine($"\tSet retention for {objectKey} in {bucketName} until {retainUntilDate:d}.");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tError modifying retention period: '{ex.Message}'");
            return false;
        }
    }
```
+  Untuk detail API, lihat [PutObjectRetention](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObjectRetention)di *Referensi AWS SDK untuk .NET API*. 

### `RestoreObject`
<a name="s3_RestoreObject_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RestoreObject`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to restore an archived object in an Amazon
    /// Simple Storage Service (Amazon S3) bucket.
    /// </summary>
    public class RestoreArchivedObject
    {
        public static void Main()
        {
            string bucketName = "amzn-s3-demo-bucket";
            string objectKey = "archived-object.txt";

            // Specify your bucket region (an example region is shown).
            RegionEndpoint bucketRegion = RegionEndpoint.USWest2;

            IAmazonS3 client = new AmazonS3Client(bucketRegion);
            RestoreObjectAsync(client, bucketName, objectKey).Wait();
        }

        /// <summary>
        /// This method restores an archived object from an Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// RestoreObjectAsync.</param>
        /// <param name="bucketName">A string representing the name of the
        /// bucket where the object was located before it was archived.</param>
        /// <param name="objectKey">A string representing the name of the
        /// archived object to restore.</param>
        public static async Task RestoreObjectAsync(IAmazonS3 client, string bucketName, string objectKey)
        {
            try
            {
                var restoreRequest = new RestoreObjectRequest
                {
                    BucketName = bucketName,
                    Key = objectKey,
                    Days = 2,
                };
                RestoreObjectResponse response = await client.RestoreObjectAsync(restoreRequest);

                // Check the status of the restoration.
                await CheckRestorationStatusAsync(client, bucketName, objectKey);
            }
            catch (AmazonS3Exception amazonS3Exception)
            {
                Console.WriteLine($"Error: {amazonS3Exception.Message}");
            }
        }

        /// <summary>
        /// This method retrieves the status of the object's restoration.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// GetObjectMetadataAsync.</param>
        /// <param name="bucketName">A string representing the name of the Amazon
        /// S3 bucket which contains the archived object.</param>
        /// <param name="objectKey">A string representing the name of the
        /// archived object you want to restore.</param>
        public static async Task CheckRestorationStatusAsync(IAmazonS3 client, string bucketName, string objectKey)
        {
            GetObjectMetadataRequest metadataRequest = new GetObjectMetadataRequest()
            {
                BucketName = bucketName,
                Key = objectKey,
            };

            GetObjectMetadataResponse response = await client.GetObjectMetadataAsync(metadataRequest);

            var restStatus = response.RestoreInProgress ? "in-progress" : "finished or failed";
            Console.WriteLine($"Restoration status: {restStatus}");
        }
    }
```
+  Untuk detail API, lihat [RestoreObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/RestoreObject)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/#code-examples). 
Buat URL yang telah ditetapkan sebelumnya yang dapat melakukan tindakan Amazon S3 untuk waktu yang terbatas.  

```
    using System;
    using Amazon;
    using Amazon.S3;
    using Amazon.S3.Model;

    public class GenPresignedUrl
    {
        public static void Main()
        {
            const string bucketName = "amzn-s3-demo-bucket";
            const string objectKey = "sample.txt";

            // Specify how long the presigned URL lasts, in hours
            const double timeoutDuration = 12;

            // Specify the AWS Region of your Amazon S3 bucket. If it is
            // different from the Region defined for the default user,
            // pass the Region to the constructor for the client. For
            // example: new AmazonS3Client(RegionEndpoint.USEast1);

            // If using the Region us-east-1, and server-side encryption with AWS KMS, you must specify Signature Version 4.
            // Region us-east-1 defaults to Signature Version 2 unless explicitly set to Version 4 as shown below.
            // For more details, see https://docs.aws.amazon.com/AmazonS3/latest/userguide/UsingAWSSDK.html#specify-signature-version
            // and https://docs.aws.amazon.com/sdkfornet/v3/apidocs/items/Amazon/TAWSConfigsS3.html
            AWSConfigsS3.UseSignatureVersion4 = true;
            IAmazonS3 s3Client = new AmazonS3Client(RegionEndpoint.USEast1);

            string urlString = GeneratePresignedURL(s3Client, bucketName, objectKey, timeoutDuration);
            Console.WriteLine($"The generated URL is: {urlString}.");
        }

        /// <summary>
        /// Generate a presigned URL that can be used to access the file named
        /// in the objectKey parameter for the amount of time specified in the
        /// duration parameter.
        /// </summary>
        /// <param name="client">An initialized S3 client object used to call
        /// the GetPresignedUrl method.</param>
        /// <param name="bucketName">The name of the S3 bucket containing the
        /// object for which to create the presigned URL.</param>
        /// <param name="objectKey">The name of the object to access with the
        /// presigned URL.</param>
        /// <param name="duration">The length of time for which the presigned
        /// URL will be valid.</param>
        /// <returns>A string representing the generated presigned URL.</returns>
        public static string GeneratePresignedURL(IAmazonS3 client, string bucketName, string objectKey, double duration)
        {
            string urlString = string.Empty;
            try
            {
                var request = new GetPreSignedUrlRequest()
                {
                    BucketName = bucketName,
                    Key = objectKey,
                    Expires = DateTime.UtcNow.AddHours(duration),
                };
                urlString = client.GetPreSignedURL(request);
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error:'{ex.Message}'");
            }

            return urlString;
        }
    }
```
Buat URL yang telah ditetapkan sebelumnya dan unggah menggunakan URL tersebut.  

```
    using System;
    using System.IO;
    using System.Net.Http;
    using System.Threading.Tasks;
    using Amazon;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to upload an object to an Amazon Simple Storage
    /// Service (Amazon S3) bucket using a presigned URL. The code first
    /// creates a presigned URL and then uses it to upload an object to an
    /// Amazon S3 bucket using that URL.
    /// </summary>
    public class UploadUsingPresignedURL
    {
        private static HttpClient httpClient = new HttpClient();

        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket";
            string keyName = "samplefile.txt";
            string filePath = $"source\\{keyName}";

            // Specify how long the signed URL will be valid in hours.
            double timeoutDuration = 12;

            // Specify the AWS Region of your Amazon S3 bucket. If it is
            // different from the Region defined for the default user,
            // pass the Region to the constructor for the client. For
            // example: new AmazonS3Client(RegionEndpoint.USEast1);

            // If using the Region us-east-1, and server-side encryption with AWS KMS, you must specify Signature Version 4.
            // Region us-east-1 defaults to Signature Version 2 unless explicitly set to Version 4 as shown below.
            // For more details, see https://docs.aws.amazon.com/AmazonS3/latest/userguide/UsingAWSSDK.html#specify-signature-version
            // and https://docs.aws.amazon.com/sdkfornet/v3/apidocs/items/Amazon/TAWSConfigsS3.html
            AWSConfigsS3.UseSignatureVersion4 = true;
            IAmazonS3 client = new AmazonS3Client(RegionEndpoint.USEast1);

            var url = GeneratePreSignedURL(client, bucketName, keyName, timeoutDuration);
            var success = await UploadObject(filePath, url);

            if (success)
            {
                Console.WriteLine("Upload succeeded.");
            }
            else
            {
                Console.WriteLine("Upload failed.");
            }
        }

        /// <summary>
        /// Uploads an object to an Amazon S3 bucket using the presigned URL passed in
        /// the url parameter.
        /// </summary>
        /// <param name="filePath">The path (including file name) to the local
        /// file you want to upload.</param>
        /// <param name="url">The presigned URL that will be used to upload the
        /// file to the Amazon S3 bucket.</param>
        /// <returns>A Boolean value indicating the success or failure of the
        /// operation, based on the HttpWebResponse.</returns>
        public static async Task<bool> UploadObject(string filePath, string url)
        {
            using var streamContent = new StreamContent(
                new FileStream(filePath, FileMode.Open, FileAccess.Read));

            var response = await httpClient.PutAsync(url, streamContent);
            return response.IsSuccessStatusCode;
        }

        /// <summary>
        /// Generates a presigned URL which will be used to upload an object to
        /// an Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// GetPreSignedURL.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket to which the
        /// presigned URL will point.</param>
        /// <param name="objectKey">The name of the file that will be uploaded.</param>
        /// <param name="duration">How long (in hours) the presigned URL will
        /// be valid.</param>
        /// <returns>The generated URL.</returns>
        public static string GeneratePreSignedURL(
            IAmazonS3 client,
            string bucketName,
            string objectKey,
            double duration)
        {
            var request = new GetPreSignedUrlRequest
            {
                BucketName = bucketName,
                Key = objectKey,
                Verb = HttpVerb.PUT,
                Expires = DateTime.UtcNow.AddHours(duration),
            };

            string url = client.GetPreSignedURL(request);
            return url;
        }
    }
```

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk .NET**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAssetManager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan Amazon Rekognition .NET API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAnalyzerApp).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Memulai enkripsi
<a name="s3_Encryption_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai enkripsi untuk objek Amazon S3.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/SSEClientEncryptionExample#code-examples). 

```
    using System;
    using System.IO;
    using System.Security.Cryptography;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to apply client encryption to an object in an
    /// Amazon Simple Storage Service (Amazon S3) bucket.
    /// </summary>
    public class SSEClientEncryption
    {
        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket";
            string keyName = "exampleobject.txt";
            string copyTargetKeyName = "examplecopy.txt";

            // If the AWS Region defined for your default user is different
            // from the Region where your Amazon S3 bucket is located,
            // pass the Region name to the Amazon S3 client object's constructor.
            // For example: RegionEndpoint.USWest2.
            IAmazonS3 client = new AmazonS3Client();

            try
            {
                // Create an encryption key.
                Aes aesEncryption = Aes.Create();
                aesEncryption.KeySize = 256;
                aesEncryption.GenerateKey();
                string base64Key = Convert.ToBase64String(aesEncryption.Key);

                // Upload the object.
                PutObjectRequest putObjectRequest = await UploadObjectAsync(client, bucketName, keyName, base64Key);

                // Download the object and verify that its contents match what you uploaded.
                await DownloadObjectAsync(client, bucketName, keyName, base64Key, putObjectRequest);

                // Get object metadata and verify that the object uses AES-256 encryption.
                await GetObjectMetadataAsync(client, bucketName, keyName, base64Key);

                // Copy both the source and target objects using server-side encryption with
                // an encryption key.
                await CopyObjectAsync(client, bucketName, keyName, copyTargetKeyName, aesEncryption, base64Key);
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error: {ex.Message}");
            }
        }

        /// <summary>
        /// Uploads an object to an Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// PutObjectAsync.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket to which the
        /// object will be uploaded.</param>
        /// <param name="keyName">The name of the object to upload to the Amazon S3
        /// bucket.</param>
        /// <param name="base64Key">The encryption key.</param>
        /// <returns>The PutObjectRequest object for use by DownloadObjectAsync.</returns>
        public static async Task<PutObjectRequest> UploadObjectAsync(
            IAmazonS3 client,
            string bucketName,
            string keyName,
            string base64Key)
        {
            PutObjectRequest putObjectRequest = new PutObjectRequest
            {
                BucketName = bucketName,
                Key = keyName,
                ContentBody = "sample text",
                ServerSideEncryptionCustomerMethod = ServerSideEncryptionCustomerMethod.AES256,
                ServerSideEncryptionCustomerProvidedKey = base64Key,
            };
            PutObjectResponse putObjectResponse = await client.PutObjectAsync(putObjectRequest);
            return putObjectRequest;
        }

        /// <summary>
        /// Downloads an encrypted object from an Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// GetObjectAsync.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket where the object
        /// is located.</param>
        /// <param name="keyName">The name of the Amazon S3 object to download.</param>
        /// <param name="base64Key">The encryption key used to encrypt the
        /// object.</param>
        /// <param name="putObjectRequest">The PutObjectRequest used to upload
        /// the object.</param>
        public static async Task DownloadObjectAsync(
            IAmazonS3 client,
            string bucketName,
            string keyName,
            string base64Key,
            PutObjectRequest putObjectRequest)
        {
            GetObjectRequest getObjectRequest = new GetObjectRequest
            {
                BucketName = bucketName,
                Key = keyName,

                // Provide encryption information for the object stored in Amazon S3.
                ServerSideEncryptionCustomerMethod = ServerSideEncryptionCustomerMethod.AES256,
                ServerSideEncryptionCustomerProvidedKey = base64Key,
            };

            using (GetObjectResponse getResponse = await client.GetObjectAsync(getObjectRequest))
            using (StreamReader reader = new StreamReader(getResponse.ResponseStream))
            {
                string content = reader.ReadToEnd();
                if (string.Compare(putObjectRequest.ContentBody, content) == 0)
                {
                    Console.WriteLine("Object content is same as we uploaded");
                }
                else
                {
                    Console.WriteLine("Error...Object content is not same.");
                }

                if (getResponse.ServerSideEncryptionCustomerMethod == ServerSideEncryptionCustomerMethod.AES256)
                {
                    Console.WriteLine("Object encryption method is AES256, same as we set");
                }
                else
                {
                    Console.WriteLine("Error...Object encryption method is not the same as AES256 we set");
                }
            }
        }

        /// <summary>
        /// Retrieves the metadata associated with an Amazon S3 object.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used
        /// to call GetObjectMetadataAsync.</param>
        /// <param name="bucketName">The name of the Amazon S3 bucket containing the
        /// object for which we want to retrieve metadata.</param>
        /// <param name="keyName">The name of the object for which we wish to
        /// retrieve the metadata.</param>
        /// <param name="base64Key">The encryption key associated with the
        /// object.</param>
        public static async Task GetObjectMetadataAsync(
            IAmazonS3 client,
            string bucketName,
            string keyName,
            string base64Key)
        {
            GetObjectMetadataRequest getObjectMetadataRequest = new GetObjectMetadataRequest
            {
                BucketName = bucketName,
                Key = keyName,

                // The object stored in Amazon S3 is encrypted, so provide the necessary encryption information.
                ServerSideEncryptionCustomerMethod = ServerSideEncryptionCustomerMethod.AES256,
                ServerSideEncryptionCustomerProvidedKey = base64Key,
            };

            GetObjectMetadataResponse getObjectMetadataResponse = await client.GetObjectMetadataAsync(getObjectMetadataRequest);
            Console.WriteLine("The object metadata show encryption method used is: {0}", getObjectMetadataResponse.ServerSideEncryptionCustomerMethod);
        }

        /// <summary>
        /// Copies an encrypted object from one Amazon S3 bucket to another.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// CopyObjectAsync.</param>
        /// <param name="bucketName">The Amazon S3 bucket containing the object
        /// to copy.</param>
        /// <param name="keyName">The name of the object to copy.</param>
        /// <param name="copyTargetKeyName">The Amazon S3 bucket to which the object
        /// will be copied.</param>
        /// <param name="aesEncryption">The encryption type to use.</param>
        /// <param name="base64Key">The encryption key to use.</param>
        public static async Task CopyObjectAsync(
            IAmazonS3 client,
            string bucketName,
            string keyName,
            string copyTargetKeyName,
            Aes aesEncryption,
            string base64Key)
        {
            aesEncryption.GenerateKey();
            string copyBase64Key = Convert.ToBase64String(aesEncryption.Key);

            CopyObjectRequest copyRequest = new CopyObjectRequest
            {
                SourceBucket = bucketName,
                SourceKey = keyName,
                DestinationBucket = bucketName,
                DestinationKey = copyTargetKeyName,

                // Information about the source object's encryption.
                CopySourceServerSideEncryptionCustomerMethod = ServerSideEncryptionCustomerMethod.AES256,
                CopySourceServerSideEncryptionCustomerProvidedKey = base64Key,

                // Information about the target object's encryption.
                ServerSideEncryptionCustomerMethod = ServerSideEncryptionCustomerMethod.AES256,
                ServerSideEncryptionCustomerProvidedKey = copyBase64Key,
            };
            await client.CopyObjectAsync(copyRequest);
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CopyObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/CopyObject)
  + [GetObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObject)
  + [GetObjectMetadata](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectMetadata)

### Memulai dengan tanda
<a name="s3_Scenario_Tagging_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai tag untuk objek Amazon S3.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/ObjectTagExample#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to work with tags in Amazon Simple Storage
    /// Service (Amazon S3) objects.
    /// </summary>
    public class ObjectTag
    {
        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket";
            string keyName = "newobject.txt";
            string filePath = @"*** file path ***";

            // Specify your bucket region (an example region is shown).
            RegionEndpoint bucketRegion = RegionEndpoint.USWest2;

            var client = new AmazonS3Client(bucketRegion);
            await PutObjectsWithTagsAsync(client, bucketName, keyName, filePath);
        }

        /// <summary>
        /// This method uploads an object with tags. It then shows the tag
        /// values, changes the tags, and shows the new tags.
        /// </summary>
        /// <param name="client">The Initialized Amazon S3 client object used
        /// to call the methods to create and change an objects tags.</param>
        /// <param name="bucketName">A string representing the name of the
        /// bucket where the object will be stored.</param>
        /// <param name="keyName">A string representing the key name of the
        /// object to be tagged.</param>
        /// <param name="filePath">The directory location and file name of the
        /// object to be uploaded to the Amazon S3 bucket.</param>
        public static async Task PutObjectsWithTagsAsync(IAmazonS3 client, string bucketName, string keyName, string filePath)
        {
            try
            {
                // Create an object with tags.
                var putRequest = new PutObjectRequest
                {
                    BucketName = bucketName,
                    Key = keyName,
                    FilePath = filePath,
                    TagSet = new List<Tag>
                    {
                        new Tag { Key = "Keyx1", Value = "Value1" },
                        new Tag { Key = "Keyx2", Value = "Value2" },
                    },
                };

                PutObjectResponse response = await client.PutObjectAsync(putRequest);

                // Now retrieve the new object's tags.
                GetObjectTaggingRequest getTagsRequest = new GetObjectTaggingRequest()
                {
                    BucketName = bucketName,
                    Key = keyName,
                };

                GetObjectTaggingResponse objectTags = await client.GetObjectTaggingAsync(getTagsRequest);

                // Display the tag values.
                objectTags.Tagging
                    .ForEach(t => Console.WriteLine($"Key: {t.Key}, Value: {t.Value}"));

                Tagging newTagSet = new Tagging()
                {
                    TagSet = new List<Tag>
                    {
                        new Tag { Key = "Key3", Value = "Value3" },
                        new Tag { Key = "Key4", Value = "Value4" },
                    },
                };

                PutObjectTaggingRequest putObjTagsRequest = new PutObjectTaggingRequest()
                {
                    BucketName = bucketName,
                    Key = keyName,
                    Tagging = newTagSet,
                };

                PutObjectTaggingResponse response2 = await client.PutObjectTaggingAsync(putObjTagsRequest);

                // Retrieve the tags again and show the values.
                GetObjectTaggingRequest getTagsRequest2 = new GetObjectTaggingRequest()
                {
                    BucketName = bucketName,
                    Key = keyName,
                };
                GetObjectTaggingResponse objectTags2 = await client.GetObjectTaggingAsync(getTagsRequest2);

                objectTags2.Tagging
                    .ForEach(t => Console.WriteLine($"Key: {t.Key}, Value: {t.Value}"));
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine(
                        $"Error: '{ex.Message}'");
            }
        }
    }
```
+  Untuk detail API, lihat [GetObjectTagging](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectTagging)di *Referensi AWS SDK untuk .NET API*. 

### Kunci objek Amazon S3
<a name="s3_Scenario_ObjectLock_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara bekerja dengan fitur kunci objek S3.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/scenarios/S3ObjectLockScenario#code-examples). 
Jalankan skenario interaktif yang mendemonstrasikan fitur kunci objek Amazon S3.  

```
using Amazon.S3;
using Amazon.S3.Model;
using Microsoft.Extensions.Configuration;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;
using Microsoft.Extensions.Logging.Debug;

namespace S3ObjectLockScenario;

public static class S3ObjectLockWorkflow
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    This .NET example performs the following tasks:
        1. Create test Amazon Simple Storage Service (S3) buckets with different lock policies.
        2. Upload sample objects to each bucket.
        3. Set some Legal Hold and Retention Periods on objects and buckets.
        4. Investigate lock policies by viewing settings or attempting to delete or overwrite objects.
        5. Clean up objects and buckets.
   */

    public static S3ActionsWrapper _s3ActionsWrapper = null!;
    public static IConfiguration _configuration = null!;
    private static string _resourcePrefix = null!;
    private static string noLockBucketName = null!;
    private static string lockEnabledBucketName = null!;
    private static string retentionAfterCreationBucketName = null!;
    private static List<string> bucketNames = new List<string>();
    private static List<string> fileNames = new List<string>();

    public static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonS3>()
                    .AddTransient<S3ActionsWrapper>()
            )
            .Build();

        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();

        ConfigurationSetup();

        ServicesSetup(host);

        try
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Welcome to the Amazon Simple Storage Service (S3) Object Locking Feature Scenario.");
            Console.WriteLine(new string('-', 80));
            await Setup(true);

            await DemoActionChoices();

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Cleaning up resources.");
            Console.WriteLine(new string('-', 80));
            await Cleanup(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Amazon S3 Object Locking Scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem: {ex.Message}");
            await Cleanup(true);
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _s3ActionsWrapper = host.Services.GetRequiredService<S3ActionsWrapper>();
    }

    /// <summary>
    /// Any setup operations needed.
    /// </summary>
    public static void ConfigurationSetup()
    {
        _resourcePrefix = _configuration["resourcePrefix"] ?? "dotnet-example";

        noLockBucketName = _resourcePrefix + "-no-lock";
        lockEnabledBucketName = _resourcePrefix + "-lock-enabled";
        retentionAfterCreationBucketName = _resourcePrefix + "-retention-after-creation";

        bucketNames.Add(noLockBucketName);
        bucketNames.Add(lockEnabledBucketName);
        bucketNames.Add(retentionAfterCreationBucketName);
    }

    // <summary>
    /// Deploy necessary resources for the scenario.
    /// </summary>
    /// <param name="interactive">True to run as interactive.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> Setup(bool interactive)
    {
        Console.WriteLine(
            "\nFor this scenario, we will use the AWS SDK for .NET to create several S3\n" +
            "buckets and files to demonstrate working with S3 locking features.\n");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you are ready to start.");
        if (interactive)
            Console.ReadLine();

        Console.WriteLine("\nS3 buckets can be created either with or without object lock enabled.");
        await _s3ActionsWrapper.CreateBucketWithObjectLock(noLockBucketName, false);
        await _s3ActionsWrapper.CreateBucketWithObjectLock(lockEnabledBucketName, true);
        await _s3ActionsWrapper.CreateBucketWithObjectLock(retentionAfterCreationBucketName, false);

        Console.WriteLine("Press Enter to continue.");
        if (interactive)
            Console.ReadLine();

        Console.WriteLine("\nA bucket can be configured to use object locking with a default retention period.");
        await _s3ActionsWrapper.ModifyBucketDefaultRetention(retentionAfterCreationBucketName, true,
            ObjectLockRetentionMode.Governance, DateTime.UtcNow.AddDays(1));

        Console.WriteLine("Press Enter to continue.");
        if (interactive)
            Console.ReadLine();

        Console.WriteLine("\nObject lock policies can also be added to existing buckets.");
        await _s3ActionsWrapper.EnableObjectLockOnBucket(lockEnabledBucketName);

        Console.WriteLine("Press Enter to continue.");
        if (interactive)
            Console.ReadLine();

        // Upload some files to the buckets.
        Console.WriteLine("\nNow let's add some test files:");
        var fileName = _configuration["exampleFileName"] ?? "exampleFile.txt";
        int fileCount = 2;
        // Create the file if it does not already exist.
        if (!File.Exists(fileName))
        {
            await using StreamWriter sw = File.CreateText(fileName);
            await sw.WriteLineAsync(
                "This is a sample file for uploading to a bucket.");
        }

        foreach (var bucketName in bucketNames)
        {
            for (int i = 0; i < fileCount; i++)
            {
                var numberedFileName = Path.GetFileNameWithoutExtension(fileName) + i + Path.GetExtension(fileName);
                fileNames.Add(numberedFileName);
                await _s3ActionsWrapper.UploadFileAsync(bucketName, numberedFileName, fileName);
            }
        }
        Console.WriteLine("Press Enter to continue.");
        if (interactive)
            Console.ReadLine();

        if (!interactive)
            return true;
        Console.WriteLine("\nNow we can set some object lock policies on individual files:");
        foreach (var bucketName in bucketNames)
        {
            for (int i = 0; i < fileNames.Count; i++)
            {
                // No modifications to the objects in the first bucket.
                if (bucketName != bucketNames[0])
                {
                    var exampleFileName = fileNames[i];
                    switch (i)
                    {
                        case 0:
                            {
                                var question =
                                    $"\nWould you like to add a legal hold to {exampleFileName} in {bucketName}? (y/n)";
                                if (GetYesNoResponse(question))
                                {
                                    // Set a legal hold.
                                    await _s3ActionsWrapper.ModifyObjectLegalHold(bucketName, exampleFileName, ObjectLockLegalHoldStatus.On);

                                }
                                break;
                            }
                        case 1:
                            {
                                var question =
                                    $"\nWould you like to add a 1 day Governance retention period to {exampleFileName} in {bucketName}? (y/n)" +
                                    "\nReminder: Only a user with the s3:BypassGovernanceRetention permission will be able to delete this file or its bucket until the retention period has expired.";
                                if (GetYesNoResponse(question))
                                {
                                    // Set a Governance mode retention period for 1 day.
                                    await _s3ActionsWrapper.ModifyObjectRetentionPeriod(
                                        bucketName, exampleFileName,
                                        ObjectLockRetentionMode.Governance,
                                        DateTime.UtcNow.AddDays(1));
                                }
                                break;
                            }
                    }
                }
            }
        }
        Console.WriteLine(new string('-', 80));
        return true;
    }

    // <summary>
    /// List all of the current buckets and objects.
    /// </summary>
    /// <param name="interactive">True to run as interactive.</param>
    /// <returns>The list of buckets and objects.</returns>
    public static async Task<List<S3ObjectVersion>> ListBucketsAndObjects(bool interactive)
    {
        var allObjects = new List<S3ObjectVersion>();
        foreach (var bucketName in bucketNames)
        {
            var objectsInBucket = await _s3ActionsWrapper.ListBucketObjectsAndVersions(bucketName);
            foreach (var objectKey in objectsInBucket.Versions)
            {
                allObjects.Add(objectKey);
            }
        }

        if (interactive)
        {
            Console.WriteLine("\nCurrent buckets and objects:\n");
            int i = 0;
            foreach (var bucketObject in allObjects)
            {
                i++;
                Console.WriteLine(
                    $"{i}: {bucketObject.Key} \n\tBucket: {bucketObject.BucketName}\n\tVersion: {bucketObject.VersionId}");
            }
        }

        return allObjects;
    }

    /// <summary>
    /// Present the user with the demo action choices.
    /// </summary>
    /// <returns>Async task.</returns>
    public static async Task<bool> DemoActionChoices()
    {
        var choices = new string[]{
            "List all files in buckets.",
            "Attempt to delete a file.",
            "Attempt to delete a file with retention period bypass.",
            "Attempt to overwrite a file.",
            "View the object and bucket retention settings for a file.",
            "View the legal hold settings for a file.",
            "Finish the scenario."};

        var choice = 0;
        // Keep asking the user until they choose to move on.
        while (choice != 6)
        {
            Console.WriteLine(new string('-', 80));
            choice = GetChoiceResponse(
                "\nExplore the S3 locking features by selecting one of the following choices:"
                , choices);
            Console.WriteLine(new string('-', 80));
            switch (choice)
            {
                case 0:
                    {
                        await ListBucketsAndObjects(true);
                        break;
                    }
                case 1:
                    {
                        Console.WriteLine("\nEnter the number of the object to delete:");
                        var allFiles = await ListBucketsAndObjects(true);
                        var fileChoice = GetChoiceResponse(null, allFiles.Select(f => f.Key).ToArray());
                        await _s3ActionsWrapper.DeleteObjectFromBucket(allFiles[fileChoice].BucketName, allFiles[fileChoice].Key, false, allFiles[fileChoice].VersionId);
                        break;
                    }
                case 2:
                    {
                        Console.WriteLine("\nEnter the number of the object to delete:");
                        var allFiles = await ListBucketsAndObjects(true);
                        var fileChoice = GetChoiceResponse(null, allFiles.Select(f => f.Key).ToArray());
                        await _s3ActionsWrapper.DeleteObjectFromBucket(allFiles[fileChoice].BucketName, allFiles[fileChoice].Key, true, allFiles[fileChoice].VersionId);
                        break;
                    }
                case 3:
                    {
                        var allFiles = await ListBucketsAndObjects(true);
                        Console.WriteLine("\nEnter the number of the object to overwrite:");
                        var fileChoice = GetChoiceResponse(null, allFiles.Select(f => f.Key).ToArray());
                        // Create the file if it does not already exist.
                        if (!File.Exists(allFiles[fileChoice].Key))
                        {
                            await using StreamWriter sw = File.CreateText(allFiles[fileChoice].Key);
                            await sw.WriteLineAsync(
                                "This is a sample file for uploading to a bucket.");
                        }
                        await _s3ActionsWrapper.UploadFileAsync(allFiles[fileChoice].BucketName, allFiles[fileChoice].Key, allFiles[fileChoice].Key);
                        break;
                    }
                case 4:
                    {
                        var allFiles = await ListBucketsAndObjects(true);
                        Console.WriteLine("\nEnter the number of the object and bucket to view:");
                        var fileChoice = GetChoiceResponse(null, allFiles.Select(f => f.Key).ToArray());
                        await _s3ActionsWrapper.GetObjectRetention(allFiles[fileChoice].BucketName, allFiles[fileChoice].Key);
                        await _s3ActionsWrapper.GetBucketObjectLockConfiguration(allFiles[fileChoice].BucketName);
                        break;
                    }
                case 5:
                    {
                        var allFiles = await ListBucketsAndObjects(true);
                        Console.WriteLine("\nEnter the number of the object to view:");
                        var fileChoice = GetChoiceResponse(null, allFiles.Select(f => f.Key).ToArray());
                        await _s3ActionsWrapper.GetObjectLegalHold(allFiles[fileChoice].BucketName, allFiles[fileChoice].Key);
                        break;
                    }
            }
        }
        return true;
    }

    // <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <param name="interactive">True to run as interactive.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> Cleanup(bool interactive)
    {
        Console.WriteLine(new string('-', 80));

        if (!interactive || GetYesNoResponse("Do you want to clean up all files and buckets? (y/n) "))
        {
            // Remove all locks and delete all buckets and objects.
            var allFiles = await ListBucketsAndObjects(false);
            foreach (var fileInfo in allFiles)
            {
                // Check for a legal hold.
                var legalHold = await _s3ActionsWrapper.GetObjectLegalHold(fileInfo.BucketName, fileInfo.Key);
                if (legalHold?.Status?.Value == ObjectLockLegalHoldStatus.On)
                {
                    await _s3ActionsWrapper.ModifyObjectLegalHold(fileInfo.BucketName, fileInfo.Key, ObjectLockLegalHoldStatus.Off);
                }

                // Check for a retention period.
                var retention = await _s3ActionsWrapper.GetObjectRetention(fileInfo.BucketName, fileInfo.Key);
                var hasRetentionPeriod = retention?.Mode == ObjectLockRetentionMode.Governance && retention.RetainUntilDate > DateTime.UtcNow.Date;
                await _s3ActionsWrapper.DeleteObjectFromBucket(fileInfo.BucketName, fileInfo.Key, hasRetentionPeriod, fileInfo.VersionId);
            }

            foreach (var bucketName in bucketNames)
            {
                await _s3ActionsWrapper.DeleteBucketByName(bucketName);
            }

        }
        else
        {
            Console.WriteLine(
                "Ok, we'll leave the resources intact.\n" +
                "Don't forget to delete them when you're done with them or you might incur unexpected charges."
            );
        }

        Console.WriteLine(new string('-', 80));
        return true;
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase);
        return response;
    }

    /// <summary>
    /// Helper method to get a choice response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <param name="choices">The choices to print on the console.</param>
    /// <returns>The index of the selected choice</returns>
    private static int GetChoiceResponse(string? question, string[] choices)
    {
        if (question != null)
        {
            Console.WriteLine(question);

            for (int i = 0; i < choices.Length; i++)
            {
                Console.WriteLine($"\t{i + 1}. {choices[i]}");
            }
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > choices.Length)
        {
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }

        return choiceNumber - 1;
    }
}
```
Kelas pembungkus untuk fungsi S3.  

```
using System.Net;
using Amazon.S3;
using Amazon.S3.Model;
using Microsoft.Extensions.Configuration;

namespace S3ObjectLockScenario;

/// <summary>
/// Encapsulate the Amazon S3 operations.
/// </summary>
public class S3ActionsWrapper
{
    private readonly IAmazonS3 _amazonS3;

    /// <summary>
    /// Constructor for the S3ActionsWrapper.
    /// </summary>
    /// <param name="amazonS3">The injected S3 client.</param>
    public S3ActionsWrapper(IAmazonS3 amazonS3, IConfiguration configuration)
    {
        _amazonS3 = amazonS3;
    }

    /// <summary>
    /// Create a new Amazon S3 bucket with object lock actions.
    /// </summary>
    /// <param name="bucketName">The name of the bucket to create.</param>
    /// <param name="enableObjectLock">True to enable object lock on the bucket.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CreateBucketWithObjectLock(string bucketName, bool enableObjectLock)
    {
        Console.WriteLine($"\tCreating bucket {bucketName} with object lock {enableObjectLock}.");
        try
        {
            var request = new PutBucketRequest
            {
                BucketName = bucketName,
                UseClientRegion = true,
                ObjectLockEnabledForBucket = enableObjectLock,
            };

            var response = await _amazonS3.PutBucketAsync(request);

            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error creating bucket: '{ex.Message}'");
            return false;
        }
    }

    /// <summary>
    /// Enable object lock on an existing bucket.
    /// </summary>
    /// <param name="bucketName">The name of the bucket to modify.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> EnableObjectLockOnBucket(string bucketName)
    {
        try
        {
            // First, enable Versioning on the bucket.
            await _amazonS3.PutBucketVersioningAsync(new PutBucketVersioningRequest()
            {
                BucketName = bucketName,
                VersioningConfig = new S3BucketVersioningConfig()
                {
                    EnableMfaDelete = false,
                    Status = VersionStatus.Enabled
                }
            });

            var request = new PutObjectLockConfigurationRequest()
            {
                BucketName = bucketName,
                ObjectLockConfiguration = new ObjectLockConfiguration()
                {
                    ObjectLockEnabled = new ObjectLockEnabled("Enabled"),
                },
            };

            var response = await _amazonS3.PutObjectLockConfigurationAsync(request);
            Console.WriteLine($"\tAdded an object lock policy to bucket {bucketName}.");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error modifying object lock: '{ex.Message}'");
            return false;
        }
    }

    /// <summary>
    /// Set or modify a retention period on an object in an S3 bucket.
    /// </summary>
    /// <param name="bucketName">The bucket of the object.</param>
    /// <param name="objectKey">The key of the object.</param>
    /// <param name="retention">The retention mode.</param>
    /// <param name="retainUntilDate">The date retention expires.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ModifyObjectRetentionPeriod(string bucketName,
        string objectKey, ObjectLockRetentionMode retention, DateTime retainUntilDate)
    {
        try
        {
            var request = new PutObjectRetentionRequest()
            {
                BucketName = bucketName,
                Key = objectKey,
                Retention = new ObjectLockRetention()
                {
                    Mode = retention,
                    RetainUntilDate = retainUntilDate
                }
            };

            var response = await _amazonS3.PutObjectRetentionAsync(request);
            Console.WriteLine($"\tSet retention for {objectKey} in {bucketName} until {retainUntilDate:d}.");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tError modifying retention period: '{ex.Message}'");
            return false;
        }
    }

    /// <summary>
    /// Set or modify a retention period on an S3 bucket.
    /// </summary>
    /// <param name="bucketName">The bucket to modify.</param>
    /// <param name="retention">The retention mode.</param>
    /// <param name="retainUntilDate">The date for retention until.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ModifyBucketDefaultRetention(string bucketName, bool enableObjectLock, ObjectLockRetentionMode retention, DateTime retainUntilDate)
    {
        var enabledString = enableObjectLock ? "Enabled" : "Disabled";
        var timeDifference = retainUntilDate.Subtract(DateTime.Now);
        try
        {
            // First, enable Versioning on the bucket.
            await _amazonS3.PutBucketVersioningAsync(new PutBucketVersioningRequest()
            {
                BucketName = bucketName,
                VersioningConfig = new S3BucketVersioningConfig()
                {
                    EnableMfaDelete = false,
                    Status = VersionStatus.Enabled
                }
            });

            var request = new PutObjectLockConfigurationRequest()
            {
                BucketName = bucketName,
                ObjectLockConfiguration = new ObjectLockConfiguration()
                {
                    ObjectLockEnabled = new ObjectLockEnabled(enabledString),
                    Rule = new ObjectLockRule()
                    {
                        DefaultRetention = new DefaultRetention()
                        {
                            Mode = retention,
                            Days = timeDifference.Days // Can be specified in days or years but not both.
                        }
                    }
                }
            };

            var response = await _amazonS3.PutObjectLockConfigurationAsync(request);
            Console.WriteLine($"\tAdded a default retention to bucket {bucketName}.");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tError modifying object lock: '{ex.Message}'");
            return false;
        }
    }

    /// <summary>
    /// Get the retention period for an S3 object.
    /// </summary>
    /// <param name="bucketName">The bucket of the object.</param>
    /// <param name="objectKey">The object key.</param>
    /// <returns>The object retention details.</returns>
    public async Task<ObjectLockRetention> GetObjectRetention(string bucketName,
        string objectKey)
    {
        try
        {
            var request = new GetObjectRetentionRequest()
            {
                BucketName = bucketName,
                Key = objectKey
            };

            var response = await _amazonS3.GetObjectRetentionAsync(request);
            Console.WriteLine($"\tObject retention for {objectKey} in {bucketName}: " +
                              $"\n\t{response.Retention.Mode} until {response.Retention.RetainUntilDate:d}.");
            return response.Retention;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to fetch object lock retention: '{ex.Message}'");
            return new ObjectLockRetention();
        }
    }

    /// <summary>
    /// Set or modify a legal hold on an object in an S3 bucket.
    /// </summary>
    /// <param name="bucketName">The bucket of the object.</param>
    /// <param name="objectKey">The key of the object.</param>
    /// <param name="holdStatus">The On or Off status for the legal hold.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ModifyObjectLegalHold(string bucketName,
        string objectKey, ObjectLockLegalHoldStatus holdStatus)
    {
        try
        {
            var request = new PutObjectLegalHoldRequest()
            {
                BucketName = bucketName,
                Key = objectKey,
                LegalHold = new ObjectLockLegalHold()
                {
                    Status = holdStatus
                }
            };

            var response = await _amazonS3.PutObjectLegalHoldAsync(request);
            Console.WriteLine($"\tModified legal hold for {objectKey} in {bucketName}.");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tError modifying legal hold: '{ex.Message}'");
            return false;
        }
    }

    /// <summary>
    /// Get the legal hold details for an S3 object.
    /// </summary>
    /// <param name="bucketName">The bucket of the object.</param>
    /// <param name="objectKey">The object key.</param>
    /// <returns>The object legal hold details.</returns>
    public async Task<ObjectLockLegalHold> GetObjectLegalHold(string bucketName,
        string objectKey)
    {
        try
        {
            var request = new GetObjectLegalHoldRequest()
            {
                BucketName = bucketName,
                Key = objectKey
            };

            var response = await _amazonS3.GetObjectLegalHoldAsync(request);
            Console.WriteLine($"\tObject legal hold for {objectKey} in {bucketName}: " +
                              $"\n\tStatus: {response.LegalHold.Status}");
            return response.LegalHold;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to fetch legal hold: '{ex.Message}'");
            return new ObjectLockLegalHold();
        }
    }

    /// <summary>
    /// Get the object lock configuration details for an S3 bucket.
    /// </summary>
    /// <param name="bucketName">The bucket to get details.</param>
    /// <returns>The bucket's object lock configuration details.</returns>
    public async Task<ObjectLockConfiguration> GetBucketObjectLockConfiguration(string bucketName)
    {
        try
        {
            var request = new GetObjectLockConfigurationRequest()
            {
                BucketName = bucketName
            };

            var response = await _amazonS3.GetObjectLockConfigurationAsync(request);
            Console.WriteLine($"\tBucket object lock config for {bucketName} in {bucketName}: " +
                              $"\n\tEnabled: {response.ObjectLockConfiguration.ObjectLockEnabled}" +
                              $"\n\tRule: {response.ObjectLockConfiguration.Rule?.DefaultRetention}");

            return response.ObjectLockConfiguration;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to fetch object lock config: '{ex.Message}'");
            return new ObjectLockConfiguration();
        }
    }

    /// <summary>
    /// Upload a file from the local computer to an Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The Amazon S3 bucket to use.</param>
    /// <param name="objectName">The object to upload.</param>
    /// <param name="filePath">The path, including file name, of the object to upload.</param>
    /// <returns>True if success.<returns>
    public async Task<bool> UploadFileAsync(string bucketName, string objectName, string filePath)
    {
        var request = new PutObjectRequest
        {
            BucketName = bucketName,
            Key = objectName,
            FilePath = filePath,
            ChecksumAlgorithm = ChecksumAlgorithm.SHA256
        };

        var response = await _amazonS3.PutObjectAsync(request);
        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            Console.WriteLine($"\tSuccessfully uploaded {objectName} to {bucketName}.");
            return true;
        }
        else
        {
            Console.WriteLine($"\tCould not upload {objectName} to {bucketName}.");
            return false;
        }
    }

    /// <summary>
    /// List bucket objects and versions.
    /// </summary>
    /// <param name="bucketName">The Amazon S3 bucket to use.</param>
    /// <returns>The list of objects and versions.</returns>
    public async Task<ListVersionsResponse> ListBucketObjectsAndVersions(string bucketName)
    {
        var request = new ListVersionsRequest()
        {
            BucketName = bucketName
        };

        var response = await _amazonS3.ListVersionsAsync(request);
        return response;
    }

    /// <summary>
    /// Delete an object from a specific bucket.
    /// </summary>
    /// <param name="bucketName">The Amazon S3 bucket to use.</param>
    /// <param name="objectKey">The key of the object to delete.</param>
    /// <param name="hasRetention">True if the object has retention settings.</param>
    /// <param name="versionId">Optional versionId.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteObjectFromBucket(string bucketName, string objectKey, bool hasRetention, string? versionId = null)
    {
        try
        {
            var request = new DeleteObjectRequest()
            {
                BucketName = bucketName,
                Key = objectKey,
                VersionId = versionId,
            };
            if (hasRetention)
            {
                // Set the BypassGovernanceRetention header
                // if the file has retention settings.
                request.BypassGovernanceRetention = true;
            }
            await _amazonS3.DeleteObjectAsync(request);
            Console.WriteLine(
                $"Deleted {objectKey} in {bucketName}.");
            return true;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to delete object {objectKey} in bucket {bucketName}: " + ex.Message);
            return false;
        }
    }

    /// <summary>
    /// Delete a specific bucket.
    /// </summary>
    /// <param name="bucketName">The Amazon S3 bucket to use.</param>
    /// <param name="objectKey">The key of the object to delete.</param>
    /// <param name="versionId">Optional versionId.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteBucketByName(string bucketName)
    {
        try
        {
            var request = new DeleteBucketRequest() { BucketName = bucketName, };
            var response = await _amazonS3.DeleteBucketAsync(request);
            Console.WriteLine($"\tDelete for {bucketName} complete.");
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to delete bucket {bucketName}: " + ex.Message);
            return false;
        }

    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [GetObjectLegalHold](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectLegalHold)
  + [GetObjectLockConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectLockConfiguration)
  + [GetObjectRetention](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectRetention)
  + [PutObjectLegalHold](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObjectLegalHold)
  + [PutObjectLockConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObjectLockConfiguration)
  + [PutObjectRetention](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObjectRetention)

### Buat permintaan bersyarat
<a name="s3_Scenario_ConditionalRequests_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menambahkan prasyarat ke permintaan Amazon S3.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/scenarios/S3ConditionalRequestsScenario#code-examples). 
Jalankan skenario interaktif yang mendemonstrasikan fitur permintaan bersyarat Amazon S3.  

```
using Amazon.S3;
using Microsoft.Extensions.Configuration;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;
using Microsoft.Extensions.Logging.Debug;

namespace S3ConditionalRequestsScenario;

public static class S3ConditionalRequestsScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    This example demonstrates the use of conditional requests for S3 operations.
    You can use conditional requests to add preconditions to S3 read requests to return or copy
    an object based on its Entity tag (ETag), or last modified date. 
    You can use a conditional write requests to prevent overwrites by ensuring 
    there is no existing object with the same key. 
   */

    public static S3ActionsWrapper _s3ActionsWrapper = null!;
    public static IConfiguration _configuration = null!;
    public static string _resourcePrefix = null!;
    public static string _sourceBucketName = null!;
    public static string _destinationBucketName = null!;
    public static string _sampleObjectKey = null!;
    public static string _sampleObjectEtag = null!;
    public static bool _interactive = true;


    public static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonS3>()
                    .AddTransient<S3ActionsWrapper>()
            )
            .Build();

        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();

        ServicesSetup(host);

        try
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Welcome to the Amazon Simple Storage Service (S3) Conditional Requests Feature Scenario.");
            Console.WriteLine(new string('-', 80));
            ConfigurationSetup();
            _sampleObjectEtag = await Setup(_sourceBucketName, _destinationBucketName, _sampleObjectKey);

            await DisplayDemoChoices(_sourceBucketName, _destinationBucketName, _sampleObjectKey, _sampleObjectEtag, 0);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Cleaning up resources.");
            Console.WriteLine(new string('-', 80));
            await Cleanup(true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Amazon S3 Conditional Requests Feature Scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem: {ex.Message}");
            await CleanupScenario(_sourceBucketName, _destinationBucketName);
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _s3ActionsWrapper = host.Services.GetRequiredService<S3ActionsWrapper>();
    }

    /// <summary>
    /// Any setup operations needed.
    /// </summary>
    public static void ConfigurationSetup()
    {
        _resourcePrefix = _configuration["resourcePrefix"] ?? "dotnet-example";

        _sourceBucketName = _resourcePrefix + "-source";
        _destinationBucketName = _resourcePrefix + "-dest";
        _sampleObjectKey = _resourcePrefix + "-sample-object.txt";
    }

    /// <summary>
    /// Sets up the scenario by creating a source and destination bucket, and uploading a test file to the source bucket.
    /// </summary>
    /// <param name="sourceBucket">The name of the source bucket.</param>
    /// <param name="destBucket">The name of the destination bucket.</param>
    /// <param name="objectKey">The name of the test file to add to the source bucket.</param>
    /// <returns>The ETag of the uploaded test file.</returns>
    public static async Task<string> Setup(string sourceBucket, string destBucket, string objectKey)
    {
        Console.WriteLine(
            "\nFor this scenario, we will use the AWS SDK for .NET to create several S3\n" +
            "buckets and files to demonstrate working with S3 conditional requests.\n" +
            "This example demonstrates the use of conditional requests for S3 operations.\r\n" +
            "You can use conditional requests to add preconditions to S3 read requests to return or copy\r\n" +
            "an object based on its Entity tag (ETag), or last modified date. \r\n" +
            "You can use a conditional write requests to prevent overwrites by ensuring \r\n" +
            "there is no existing object with the same key. \r\n\r\n" +
            "This example will allow you to perform conditional reads\r\n" +
            "and writes that will succeed or fail based on your selected options.\r\n\r\n" +
            "Sample buckets and a sample object will be created as part of the example.");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Press Enter when you are ready to start.");
        if (_interactive)
            Console.ReadLine();

        await _s3ActionsWrapper.CreateBucketWithName(sourceBucket);
        await _s3ActionsWrapper.CreateBucketWithName(destBucket);

        var eTag = await _s3ActionsWrapper.PutObjectConditional(objectKey, sourceBucket,
            "Test file content.");

        return eTag;
    }

    /// <summary>
    /// Cleans up the scenario by deleting the source and destination buckets.
    /// </summary>
    /// <param name="sourceBucket">The name of the source bucket.</param>
    /// <param name="destBucket">The name of the destination bucket.</param>
    public static async Task CleanupScenario(string sourceBucket, string destBucket)
    {
        await _s3ActionsWrapper.CleanupBucketByName(sourceBucket);
        await _s3ActionsWrapper.CleanupBucketByName(destBucket);
    }

    /// <summary>
    /// Displays a list of the objects in the test buckets.
    /// </summary>
    /// <param name="sourceBucket">The name of the source bucket.</param>
    /// <param name="destBucket">The name of the destination bucket.</param>
    public static async Task DisplayBuckets(string sourceBucket, string destBucket)
    {
        await _s3ActionsWrapper.ListBucketContentsByName(sourceBucket);
        await _s3ActionsWrapper.ListBucketContentsByName(destBucket);
    }

    /// <summary>
    /// Displays the menu of conditional request options for the user.
    /// </summary>
    /// <param name="sourceBucket">The name of the source bucket.</param>
    /// <param name="destBucket">The name of the destination bucket.</param>
    /// <param name="objectKey">The key of the test object in the source bucket.</param>
    /// <param name="etag">The ETag of the test object in the source bucket.</param>
    public static async Task DisplayDemoChoices(string sourceBucket, string destBucket, string objectKey, string etag, int defaultChoice)
    {
        var actions = new[]
        {
            "Print a list of bucket items.",
            "Perform a conditional read.",
            "Perform a conditional copy.",
            "Perform a conditional write.",
            "Clean up and exit."
        };

        var conditions = new[]
        {
            "If-Match: using the object's ETag. This condition should succeed.",
            "If-None-Match: using the object's ETag. This condition should fail.",
            "If-Modified-Since: using yesterday's date. This condition should succeed.",
            "If-Unmodified-Since: using yesterday's date. This condition should fail."
        };

        var conditionTypes = new[]
        {
            S3ConditionType.IfMatch,
            S3ConditionType.IfNoneMatch,
            S3ConditionType.IfModifiedSince,
            S3ConditionType.IfUnmodifiedSince,
        };

        var yesterdayDate = DateTime.UtcNow.AddDays(-1);

        int choice;
        while ((choice = GetChoiceResponse("\nExplore the S3 conditional request  features by selecting one of the following choices:", actions, defaultChoice)) != 4)
        {
            switch (choice)
            {
                case 0:
                    Console.WriteLine("Listing the objects and buckets.");
                    await DisplayBuckets(sourceBucket, destBucket);
                    break;
                case 1:
                    int conditionTypeIndex = GetChoiceResponse("Perform a conditional read:", conditions, 1);
                    if (conditionTypeIndex == 0 || conditionTypeIndex == 1)
                    {
                        await _s3ActionsWrapper.GetObjectConditional(objectKey, sourceBucket, conditionTypes[conditionTypeIndex], null, _sampleObjectEtag);
                    }
                    else if (conditionTypeIndex == 2 || conditionTypeIndex == 3)
                    {
                        await _s3ActionsWrapper.GetObjectConditional(objectKey, sourceBucket, conditionTypes[conditionTypeIndex], yesterdayDate);
                    }
                    break;
                case 2:
                    int copyConditionTypeIndex = GetChoiceResponse("Perform a conditional copy:", conditions, 1);
                    string destKey = GetStringResponse("Enter an object key:", "sampleObjectKey");
                    if (copyConditionTypeIndex == 0 || copyConditionTypeIndex == 1)
                    {
                        await _s3ActionsWrapper.CopyObjectConditional(objectKey, destKey, sourceBucket, destBucket, conditionTypes[copyConditionTypeIndex], null, etag);
                    }
                    else if (copyConditionTypeIndex == 2 || copyConditionTypeIndex == 3)
                    {
                        await _s3ActionsWrapper.CopyObjectConditional(objectKey, destKey, sourceBucket, destBucket, conditionTypes[copyConditionTypeIndex], yesterdayDate);
                    }
                    break;
                case 3:
                    Console.WriteLine("Perform a conditional write using IfNoneMatch condition on the object key.");
                    Console.WriteLine("If the key is a duplicate, the write will fail.");
                    string newObjectKey = GetStringResponse("Enter an object key:", "newObjectKey");
                    await _s3ActionsWrapper.PutObjectConditional(newObjectKey, sourceBucket, "Conditional write example data.");
                    break;
            }

            if (!_interactive)
            {
                break;
            }
        }

        Console.WriteLine("Proceeding to cleanup.");
    }

    // <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <param name="interactive">True to run as interactive.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> Cleanup(bool interactive)
    {
        Console.WriteLine(new string('-', 80));

        if (!interactive || GetYesNoResponse("Do you want to clean up all files and buckets? (y/n) "))
        {
            await _s3ActionsWrapper.CleanUpBucketByName(_sourceBucketName);
            await _s3ActionsWrapper.CleanUpBucketByName(_destinationBucketName);

        }
        else
        {
            Console.WriteLine(
                "Ok, we'll leave the resources intact.\n" +
                "Don't forget to delete them when you're done with them or you might incur unexpected charges."
            );
        }

        Console.WriteLine(new string('-', 80));
        return true;
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase);
        return response;
    }

    /// <summary>
    /// Helper method to get a choice response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <param name="choices">The choices to print on the console.</param>
    /// <returns>The index of the selected choice</returns>
    private static int GetChoiceResponse(string? question, string[] choices, int defaultChoice)
    {
        if (question != null)
        {
            Console.WriteLine(question);

            for (int i = 0; i < choices.Length; i++)
            {
                Console.WriteLine($"\t{i + 1}. {choices[i]}");
            }
        }

        if (!_interactive)
            return defaultChoice;

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > choices.Length)
        {
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }

        return choiceNumber - 1;
    }

    /// <summary>
    /// Get a string response from the user.
    /// </summary>
    /// <param name="question">The question to print.</param>
    /// <param name="defaultAnswer">A default answer to use when not interactive.</param>
    /// <returns>The string response.</returns>
    public static string GetStringResponse(string? question, string defaultAnswer)
    {
        string? answer = "";
        if (_interactive)
        {
            do
            {
                Console.WriteLine(question);
                answer = Console.ReadLine();
            } while (string.IsNullOrWhiteSpace(answer));
        }
        else
        {
            answer = defaultAnswer;
        }

        return answer;
    }
}
```
Kelas pembungkus untuk fungsi S3.  

```
using System.Net;
using Amazon.S3;
using Amazon.S3.Model;
using Microsoft.Extensions.Logging;

namespace S3ConditionalRequestsScenario;

/// <summary>
/// Encapsulate the Amazon S3 operations.
/// </summary>
public class S3ActionsWrapper
{
    private readonly IAmazonS3 _amazonS3;
    private readonly ILogger<S3ActionsWrapper> _logger;

    /// <summary>
    /// Constructor for the S3ActionsWrapper.
    /// </summary>
    /// <param name="amazonS3">The injected S3 client.</param>
    /// <param name="logger">The class logger.</param>
    public S3ActionsWrapper(IAmazonS3 amazonS3, ILogger<S3ActionsWrapper> logger)
    {
        _amazonS3 = amazonS3;
        _logger = logger;
    }

    /// <summary>
    /// Retrieves an object from Amazon S3 with a conditional request.
    /// </summary>
    /// <param name="objectKey">The key of the object to retrieve.</param>
    /// <param name="sourceBucket">The source bucket of the object.</param>
    /// <param name="conditionType">The type of condition: 'IfMatch', 'IfNoneMatch', 'IfModifiedSince', 'IfUnmodifiedSince'.</param>
    /// <param name="conditionDateValue">The value to use for the condition for dates.</param>
    /// <param name="etagConditionalValue">The value to use for the condition for etags.</param>
    /// <returns>True if the conditional read is successful, False otherwise.</returns>
    public async Task<bool> GetObjectConditional(string objectKey, string sourceBucket,
        S3ConditionType conditionType, DateTime? conditionDateValue = null, string? etagConditionalValue = null)
    {
        try
        {
            var getObjectRequest = new GetObjectRequest
            {
                BucketName = sourceBucket,
                Key = objectKey
            };

            switch (conditionType)
            {
                case S3ConditionType.IfMatch:
                    getObjectRequest.EtagToMatch = etagConditionalValue;
                    break;
                case S3ConditionType.IfNoneMatch:
                    getObjectRequest.EtagToNotMatch = etagConditionalValue;
                    break;
                case S3ConditionType.IfModifiedSince:
                    getObjectRequest.ModifiedSinceDateUtc = conditionDateValue.GetValueOrDefault();
                    break;
                case S3ConditionType.IfUnmodifiedSince:
                    getObjectRequest.UnmodifiedSinceDateUtc = conditionDateValue.GetValueOrDefault();
                    break;
                default:
                    throw new ArgumentOutOfRangeException(nameof(conditionType), conditionType, null);
            }

            var response = await _amazonS3.GetObjectAsync(getObjectRequest);
            var sampleBytes = new byte[20];
            await response.ResponseStream.ReadAsync(sampleBytes, 0, 20);
            _logger.LogInformation($"Conditional read successful. Here are the first 20 bytes of the object:\n{System.Text.Encoding.UTF8.GetString(sampleBytes)}");
            return true;
        }
        catch (AmazonS3Exception e)
        {
            if (e.ErrorCode == "PreconditionFailed")
            {
                _logger.LogError("Conditional read failed: Precondition failed");
            }
            else if (e.ErrorCode == "NotModified")
            {
                _logger.LogError("Conditional read failed: Object not modified");
            }
            else
            {
                _logger.LogError($"Unexpected error: {e.ErrorCode}");
                throw;
            }
            return false;
        }
    }

    /// <summary>
    /// Uploads an object to Amazon S3 with a conditional request. Prevents overwrite using an IfNoneMatch condition for the object key.
    /// </summary>
    /// <param name="objectKey">The key of the object to upload.</param>
    /// <param name="bucket">The source bucket of the object.</param>
    /// <param name="content">The content to upload as a string.</param>
    /// <returns>The ETag if the conditional write is successful, empty otherwise.</returns>
    public async Task<string> PutObjectConditional(string objectKey, string bucket, string content)
    {
        try
        {
            var putObjectRequest = new PutObjectRequest
            {
                BucketName = bucket,
                Key = objectKey,
                ContentBody = content,
                IfNoneMatch = "*"
            };

            var putResult = await _amazonS3.PutObjectAsync(putObjectRequest);
            _logger.LogInformation($"Conditional write successful for key {objectKey} in bucket {bucket}.");
            return putResult.ETag;
        }
        catch (AmazonS3Exception e)
        {
            if (e.ErrorCode == "PreconditionFailed")
            {
                _logger.LogError("Conditional write failed: Precondition failed");
            }
            else
            {
                _logger.LogError($"Unexpected error: {e.ErrorCode}");
                throw;
            }
            return string.Empty;
        }
    }

    /// <summary>
    /// Copies an object from one Amazon S3 bucket to another with a conditional request.
    /// </summary>
    /// <param name="sourceKey">The key of the source object to copy.</param>
    /// <param name="destKey">The key of the destination object.</param>
    /// <param name="sourceBucket">The source bucket of the object.</param>
    /// <param name="destBucket">The destination bucket of the object.</param>
    /// <param name="conditionType">The type of condition to apply, e.g. 'CopySourceIfMatch', 'CopySourceIfNoneMatch', 'CopySourceIfModifiedSince', 'CopySourceIfUnmodifiedSince'.</param>
    /// <param name="conditionDateValue">The value to use for the condition for dates.</param>
    /// <param name="etagConditionalValue">The value to use for the condition for etags.</param>
    /// <returns>True if the conditional copy is successful, False otherwise.</returns>
    public async Task<bool> CopyObjectConditional(string sourceKey, string destKey, string sourceBucket, string destBucket,
        S3ConditionType conditionType, DateTime? conditionDateValue = null, string? etagConditionalValue = null)
    {
        try
        {
            var copyObjectRequest = new CopyObjectRequest
            {
                DestinationBucket = destBucket,
                DestinationKey = destKey,
                SourceBucket = sourceBucket,
                SourceKey = sourceKey
            };

            switch (conditionType)
            {
                case S3ConditionType.IfMatch:
                    copyObjectRequest.ETagToMatch = etagConditionalValue;
                    break;
                case S3ConditionType.IfNoneMatch:
                    copyObjectRequest.ETagToNotMatch = etagConditionalValue;
                    break;
                case S3ConditionType.IfModifiedSince:
                    copyObjectRequest.ModifiedSinceDateUtc = conditionDateValue.GetValueOrDefault();
                    break;
                case S3ConditionType.IfUnmodifiedSince:
                    copyObjectRequest.UnmodifiedSinceDateUtc = conditionDateValue.GetValueOrDefault();
                    break;
                default:
                    throw new ArgumentOutOfRangeException(nameof(conditionType), conditionType, null);
            }

            await _amazonS3.CopyObjectAsync(copyObjectRequest);
            _logger.LogInformation($"Conditional copy successful for key {destKey} in bucket {destBucket}.");
            return true;
        }
        catch (AmazonS3Exception e)
        {
            if (e.ErrorCode == "PreconditionFailed")
            {
                _logger.LogError("Conditional copy failed: Precondition failed");
            }
            else if (e.ErrorCode == "304")
            {
                _logger.LogError("Conditional copy failed: Object not modified");
            }
            else
            {
                _logger.LogError($"Unexpected error: {e.ErrorCode}");
                throw;
            }
            return false;
        }
    }

    /// <summary>
    /// Create a new Amazon S3 bucket with a specified name and check that the bucket is ready.
    /// </summary>
    /// <param name="bucketName">The name of the bucket to create.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CreateBucketWithName(string bucketName)
    {
        Console.WriteLine($"\tCreating bucket {bucketName}.");
        try
        {
            var request = new PutBucketRequest
            {
                BucketName = bucketName,
                UseClientRegion = true
            };

            await _amazonS3.PutBucketAsync(request);
            var bucketReady = false;
            var retries = 5;
            while (!bucketReady && retries > 0)
            {
                Thread.Sleep(5000);
                bucketReady = await Amazon.S3.Util.AmazonS3Util.DoesS3BucketExistV2Async(_amazonS3, bucketName);
                retries--;
            }

            return bucketReady;
        }
        catch (BucketAlreadyExistsException ex)
        {
            Console.WriteLine($"Bucket already exists: '{ex.Message}'");
            return true;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error creating bucket: '{ex.Message}'");
            return false;
        }
    }

    /// <summary>
    /// Cleans up objects and deletes the bucket by name.
    /// </summary>
    /// <param name="bucketName">The name of the bucket.</param>
    /// <returns>Async task.</returns>
    public async Task CleanupBucketByName(string bucketName)
    {
        try
        {
            var listObjectsResponse = await _amazonS3.ListObjectsV2Async(new ListObjectsV2Request { BucketName = bucketName });
            foreach (var obj in listObjectsResponse.S3Objects)
            {
                await _amazonS3.DeleteObjectAsync(new DeleteObjectRequest { BucketName = bucketName, Key = obj.Key });
            }
            await _amazonS3.DeleteBucketAsync(new DeleteBucketRequest { BucketName = bucketName });
            Console.WriteLine($"Cleaned up bucket: {bucketName}.");
        }
        catch (AmazonS3Exception e)
        {
            if (e.ErrorCode == "NoSuchBucket")
            {
                Console.WriteLine($"Bucket {bucketName} does not exist, skipping cleanup.");
            }
            else
            {
                Console.WriteLine($"Error deleting bucket: {e.ErrorCode}");
                throw;
            }
        }
    }

    /// <summary>
    /// List the contents of the bucket with their ETag.
    /// </summary>
    /// <param name="bucketName">The name of the bucket.</param>
    /// <returns>Async task.</returns>
    public async Task<List<S3Object>> ListBucketContentsByName(string bucketName)
    {
        var results = new List<S3Object>();
        try
        {
            Console.WriteLine($"\t Items in bucket {bucketName}");
            var listObjectsResponse = await _amazonS3.ListObjectsV2Async(new ListObjectsV2Request { BucketName = bucketName });
            if (listObjectsResponse.S3Objects.Count == 0)
            {
                Console.WriteLine("\t\tNo objects found.");
            }
            else
            {
                foreach (var obj in listObjectsResponse.S3Objects)
                {
                    Console.WriteLine($"\t\t object: {obj.Key} ETag {obj.ETag}");
                }
            }
            results = listObjectsResponse.S3Objects;

        }
        catch (AmazonS3Exception e)
        {
            if (e.ErrorCode == "NoSuchBucket")
            {
                _logger.LogError($"Bucket {bucketName} does not exist.");
            }
            else
            {
                _logger.LogError($"Error listing bucket and objects: {e.ErrorCode}");
                throw;
            }
        }

        return results;
    }

    /// <summary>
    /// Delete an object from a specific bucket.
    /// </summary>
    /// <param name="bucketName">The Amazon S3 bucket to use.</param>
    /// <param name="objectKey">The key of the object to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteObjectFromBucket(string bucketName, string objectKey)
    {
        try
        {
            var request = new DeleteObjectRequest()
            {
                BucketName = bucketName,
                Key = objectKey
            };
            await _amazonS3.DeleteObjectAsync(request);
            Console.WriteLine($"Deleted {objectKey} in {bucketName}.");
            return true;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to delete object {objectKey} in bucket {bucketName}: " + ex.Message);
            return false;
        }
    }

    /// <summary>
    /// Delete a specific bucket by deleting the objects and then the bucket itself.
    /// </summary>
    /// <param name="bucketName">The Amazon S3 bucket to use.</param>
    /// <param name="objectKey">The key of the object to delete.</param>
    /// <param name="versionId">Optional versionId.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CleanUpBucketByName(string bucketName)
    {
        try
        {
            var allFiles = await ListBucketContentsByName(bucketName);

            foreach (var fileInfo in allFiles)
            {
                await DeleteObjectFromBucket(fileInfo.BucketName, fileInfo.Key);
            }

            var request = new DeleteBucketRequest() { BucketName = bucketName, };
            var response = await _amazonS3.DeleteBucketAsync(request);
            Console.WriteLine($"\tDelete for {bucketName} complete.");
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"\tUnable to delete bucket {bucketName}: " + ex.Message);
            return false;
        }

    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CopyObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/CopyObject)
  + [GetObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObject)
  + [PutObject](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObject)

### Mengelola daftar kontrol akses (ACLs)
<a name="s3_Scenario_ManageACLs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengelola daftar kontrol akses (ACLs) untuk bucket Amazon S3.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/ManageACLsExample#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to manage Amazon Simple Storage Service
    /// (Amazon S3) access control lists (ACLs) to control Amazon S3 bucket
    /// access.
    /// </summary>
    public class ManageACLs
    {
        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket1";
            string newBucketName = "amzn-s3-demo-bucket2";
            string keyName = "sample-object.txt";
            string emailAddress = "someone@example.com";

            // If the AWS Region where your bucket is located is different from
            // the Region defined for the default user, pass the Amazon S3 bucket's
            // name to the client constructor. It should look like this:
            // RegionEndpoint bucketRegion = RegionEndpoint.USEast1;
            IAmazonS3 client = new AmazonS3Client();

            await TestBucketObjectACLsAsync(client, bucketName, newBucketName, keyName, emailAddress);
        }

        /// <summary>
        /// Creates a new Amazon S3 bucket with a canned ACL, then retrieves the ACL
        /// information and then adds a new ACL to one of the objects in the
        /// Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to call
        /// methods to create a bucket, get an ACL, and add a different ACL to
        /// one of the objects.</param>
        /// <param name="bucketName">A string representing the original Amazon S3
        /// bucket name.</param>
        /// <param name="newBucketName">A string representing the name of the
        /// new bucket that will be created.</param>
        /// <param name="keyName">A string representing the key name of an Amazon S3
        /// object for which we will change the ACL.</param>
        /// <param name="emailAddress">A string representing the email address
        /// belonging to the person to whom access to the Amazon S3 bucket will be
        /// granted.</param>
        public static async Task TestBucketObjectACLsAsync(
            IAmazonS3 client,
            string bucketName,
            string newBucketName,
            string keyName,
            string emailAddress)
        {
            try
            {
                // Create a new Amazon S3 bucket and specify canned ACL.
                var success = await CreateBucketWithCannedACLAsync(client, newBucketName);

                // Get the ACL on a bucket.
                await GetBucketACLAsync(client, bucketName);

                // Add (replace) the ACL on an object in a bucket.
                await AddACLToExistingObjectAsync(client, bucketName, keyName, emailAddress);
            }
            catch (AmazonS3Exception amazonS3Exception)
            {
                Console.WriteLine($"Exception: {amazonS3Exception.Message}");
            }
        }

        /// <summary>
        /// Creates a new Amazon S3 bucket with a canned ACL attached.
        /// </summary>
        /// <param name="client">The initialized client object used to call
        /// PutBucketAsync.</param>
        /// <param name="newBucketName">A string representing the name of the
        /// new Amazon S3 bucket.</param>
        /// <returns>Returns a boolean value indicating success or failure.</returns>
        public static async Task<bool> CreateBucketWithCannedACLAsync(IAmazonS3 client, string newBucketName)
        {
            var request = new PutBucketRequest()
            {
                BucketName = newBucketName,
                BucketRegion = S3Region.EUWest1,

                // Add a canned ACL.
                CannedACL = S3CannedACL.LogDeliveryWrite,
            };

            var response = await client.PutBucketAsync(request);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }


        /// <summary>
        /// Retrieves the ACL associated with the Amazon S3 bucket name in the
        /// bucketName parameter.
        /// </summary>
        /// <param name="client">The initialized client object used to call
        /// PutBucketAsync.</param>
        /// <param name="bucketName">The Amazon S3 bucket for which we want to get the
        /// ACL list.</param>
        /// <returns>Returns an S3AccessControlList returned from the call to
        /// GetACLAsync.</returns>
        public static async Task<S3AccessControlList> GetBucketACLAsync(IAmazonS3 client, string bucketName)
        {
            GetACLResponse response = await client.GetACLAsync(new GetACLRequest
            {
                BucketName = bucketName,
            });

            return response.AccessControlList;
        }



        /// <summary>
        /// Adds a new ACL to an existing object in the Amazon S3 bucket.
        /// </summary>
        /// <param name="client">The initialized client object used to call
        /// PutBucketAsync.</param>
        /// <param name="bucketName">A string representing the name of the Amazon S3
        /// bucket containing the object to which we want to apply a new ACL.</param>
        /// <param name="keyName">A string representing the name of the object
        /// to which we want to apply the new ACL.</param>
        /// <param name="emailAddress">The email address of the person to whom
        /// we will be applying to whom access will be granted.</param>
        public static async Task AddACLToExistingObjectAsync(IAmazonS3 client, string bucketName, string keyName, string emailAddress)
        {
            // Retrieve the ACL for an object.
            GetACLResponse aclResponse = await client.GetACLAsync(new GetACLRequest
            {
                BucketName = bucketName,
                Key = keyName,
            });

            S3AccessControlList acl = aclResponse.AccessControlList;

            // Retrieve the owner.
            Owner owner = acl.Owner;

            // Clear existing grants.
            acl.Grants.Clear();

            // Add a grant to reset the owner's full permission
            // (the previous clear statement removed all permissions).
            var fullControlGrant = new S3Grant
            {
                Grantee = new S3Grantee { CanonicalUser = acl.Owner.Id },
            };
            acl.AddGrant(fullControlGrant.Grantee, S3Permission.FULL_CONTROL);

            // Specify email to identify grantee for granting permissions.
            var grantUsingEmail = new S3Grant
            {
                Grantee = new S3Grantee { EmailAddress = emailAddress },
                Permission = S3Permission.WRITE_ACP,
            };

            // Specify log delivery group as grantee.
            var grantLogDeliveryGroup = new S3Grant
            {
                Grantee = new S3Grantee { URI = "http://acs.amazonaws.com/groups/s3/LogDelivery" },
                Permission = S3Permission.WRITE,
            };

            // Create a new ACL.
            var newAcl = new S3AccessControlList
            {
                Grants = new List<S3Grant> { grantUsingEmail, grantLogDeliveryGroup },
                Owner = owner,
            };

            // Set the new ACL. We're throwing away the response here.
            _ = await client.PutACLAsync(new PutACLRequest
            {
                BucketName = bucketName,
                Key = keyName,
                AccessControlList = newAcl,
            });
        }

    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [GetBucketAcl](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetBucketAcl)
  + [GetObjectAcl](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectAcl)
  + [PutBucketAcl](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutBucketAcl)
  + [PutObjectAcl](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/PutObjectAcl)

### Melakukan penyalinan multibagian
<a name="s3_MultipartCopy_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara melakukan penyalinan multibagian dari sebuah objek Amazon S3.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/MPUapiCopyObjExample#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// This example shows how to perform a multi-part copy from one Amazon
    /// Simple Storage Service (Amazon S3) bucket to another.
    /// </summary>
    public class MPUapiCopyObj
    {
        private const string SourceBucket = "amzn-s3-demo-bucket1";
        private const string TargetBucket = "amzn-s3-demo-bucket2";
        private const string SourceObjectKey = "example.mov";
        private const string TargetObjectKey = "copied_video_file.mov";

        /// <summary>
        /// This method starts the multi-part upload.
        /// </summary>
        public static async Task Main()
        {
            var s3Client = new AmazonS3Client();
            Console.WriteLine("Copying object...");
            await MPUCopyObjectAsync(s3Client);
        }

        /// <summary>
        /// This method uses the passed client object to perform a multipart
        /// copy operation.
        /// </summary>
        /// <param name="client">An Amazon S3 client object that will be used
        /// to perform the copy.</param>
        public static async Task MPUCopyObjectAsync(AmazonS3Client client)
        {
            // Create a list to store the copy part responses.
            var copyResponses = new List<CopyPartResponse>();

            // Setup information required to initiate the multipart upload.
            var initiateRequest = new InitiateMultipartUploadRequest
            {
                BucketName = TargetBucket,
                Key = TargetObjectKey,
            };

            // Initiate the upload.
            InitiateMultipartUploadResponse initResponse =
                await client.InitiateMultipartUploadAsync(initiateRequest);

            // Save the upload ID.
            string uploadId = initResponse.UploadId;

            try
            {
                // Get the size of the object.
                var metadataRequest = new GetObjectMetadataRequest
                {
                    BucketName = SourceBucket,
                    Key = SourceObjectKey,
                };

                GetObjectMetadataResponse metadataResponse =
                    await client.GetObjectMetadataAsync(metadataRequest);
                var objectSize = metadataResponse.ContentLength; // Length in bytes.

                // Copy the parts.
                var partSize = 5 * (long)Math.Pow(2, 20); // Part size is 5 MB.

                long bytePosition = 0;
                for (int i = 1; bytePosition < objectSize; i++)
                {
                    var copyRequest = new CopyPartRequest
                    {
                        DestinationBucket = TargetBucket,
                        DestinationKey = TargetObjectKey,
                        SourceBucket = SourceBucket,
                        SourceKey = SourceObjectKey,
                        UploadId = uploadId,
                        FirstByte = bytePosition,
                        LastByte = bytePosition + partSize - 1 >= objectSize ? objectSize - 1 : bytePosition + partSize - 1,
                        PartNumber = i,
                    };

                    copyResponses.Add(await client.CopyPartAsync(copyRequest));

                    bytePosition += partSize;
                }

                // Set up to complete the copy.
                var completeRequest = new CompleteMultipartUploadRequest
                {
                    BucketName = TargetBucket,
                    Key = TargetObjectKey,
                    UploadId = initResponse.UploadId,
                };
                completeRequest.AddPartETags(copyResponses);

                // Complete the copy.
                CompleteMultipartUploadResponse completeUploadResponse =
                    await client.CompleteMultipartUploadAsync(completeRequest);
            }
            catch (AmazonS3Exception e)
            {
                Console.WriteLine($"Error encountered on server. Message:'{e.Message}' when writing an object");
            }
            catch (Exception e)
            {
                Console.WriteLine($"Unknown encountered on server. Message:'{e.Message}' when writing an object");
            }
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CompleteMultipartUpload](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/CompleteMultipartUpload)
  + [CreateMultipartUpload](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/CreateMultipartUpload)
  + [GetObjectMetadata](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/GetObjectMetadata)
  + [UploadPartCopy](https://docs.aws.amazon.com/goto/DotNetSDKV3/s3-2006-03-01/UploadPartCopy)

### Mengubah data dengan S3 Object Lambda
<a name="cross_ServerlessS3DataTransformation_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengubah data untuk aplikasi Anda dengan S3 Object Lambda.

**SDK untuk .NET**  
 Menunjukkan cara menambahkan kode kustom ke permintaan GET S3 standar untuk memodifikasi objek yang diminta diambil dari S3 sehingga objek sesuai dengan kebutuhan klien atau aplikasi yang meminta.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/S3ObjectLambdaFunction).   

**Layanan yang digunakan dalam contoh ini**
+ Lambda
+ Amazon S3

### Mengunggah atau mengunduh file besar
<a name="s3_Scenario_UsingLargeFiles_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah atau mengunduh file besar ke dan dari Amazon S3.

Untuk informasi selengkapnya, lihat [Pengunggahan objek menggunakan unggahan multibagian](https://docs.aws.amazon.com/AmazonS3/latest/userguide/mpu-upload-object.html).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/S3/#code-examples). 
Fungsi panggilan yang mentransfer file ke dan dari bucket S3 menggunakan Amazon TransferUtility S3.  

```
global using System.Text;
global using Amazon.S3;
global using Amazon.S3.Model;
global using Amazon.S3.Transfer;
global using TransferUtilityBasics;



// This Amazon S3 client uses the default user credentials
// defined for this computer.
using Microsoft.Extensions.Configuration;

IAmazonS3 client = new AmazonS3Client();
var transferUtil = new TransferUtility(client);
IConfiguration _configuration;

_configuration = new ConfigurationBuilder()
    .SetBasePath(Directory.GetCurrentDirectory())
    .AddJsonFile("settings.json") // Load test settings from JSON file.
    .AddJsonFile("settings.local.json",
        true) // Optionally load local settings.
    .Build();

// Edit the values in settings.json to use an S3 bucket and files that
// exist on your AWS account and on the local computer where you
// run this scenario.
var bucketName = _configuration["BucketName"];
var localPath = $"{Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData)}\\TransferFolder";

DisplayInstructions();

PressEnter();

Console.WriteLine();

// Upload a single file to an S3 bucket.
DisplayTitle("Upload a single file");

var fileToUpload = _configuration["FileToUpload"];
Console.WriteLine($"Uploading {fileToUpload} to the S3 bucket, {bucketName}.");

var success = await TransferMethods.UploadSingleFileAsync(transferUtil, bucketName, fileToUpload, localPath);
if (success)
{
    Console.WriteLine($"Successfully uploaded the file, {fileToUpload} to {bucketName}.");
}

PressEnter();

// Upload a local directory to an S3 bucket.
DisplayTitle("Upload all files from a local directory");
Console.WriteLine("Upload all the files in a local folder to an S3 bucket.");
const string keyPrefix = "UploadFolder";
var uploadPath = $"{localPath}\\UploadFolder";

Console.WriteLine($"Uploading the files in {uploadPath} to {bucketName}");
DisplayTitle($"{uploadPath} files");
DisplayLocalFiles(uploadPath);
Console.WriteLine();

PressEnter();

success = await TransferMethods.UploadFullDirectoryAsync(transferUtil, bucketName, keyPrefix, uploadPath);
if (success)
{
    Console.WriteLine($"Successfully uploaded the files in {uploadPath} to {bucketName}.");
    Console.WriteLine($"{bucketName} currently contains the following files:");
    await DisplayBucketFiles(client, bucketName, keyPrefix);
    Console.WriteLine();
}

PressEnter();

// Download a single file from an S3 bucket.
DisplayTitle("Download a single file");
Console.WriteLine("Now we will download a single file from an S3 bucket.");

var keyName = _configuration["FileToDownload"];

Console.WriteLine($"Downloading {keyName} from {bucketName}.");

success = await TransferMethods.DownloadSingleFileAsync(transferUtil, bucketName, keyName, localPath);
if (success)
{
    Console.WriteLine("$Successfully downloaded the file, {keyName} from {bucketName}.");
}

PressEnter();

// Download the contents of a directory from an S3 bucket.
DisplayTitle("Download the contents of an S3 bucket");
var s3Path = _configuration["S3Path"];
var downloadPath = $"{localPath}\\{s3Path}";

Console.WriteLine($"Downloading the contents of {bucketName}\\{s3Path}");
Console.WriteLine($"{bucketName}\\{s3Path} contains the following files:");
await DisplayBucketFiles(client, bucketName, s3Path);
Console.WriteLine();

success = await TransferMethods.DownloadS3DirectoryAsync(transferUtil, bucketName, s3Path, downloadPath);
if (success)
{
    Console.WriteLine($"Downloaded the files in {bucketName} to {downloadPath}.");
    Console.WriteLine($"{downloadPath} now contains the following files:");
    DisplayLocalFiles(downloadPath);
}

Console.WriteLine("\nThe TransferUtility Basics application has completed.");
PressEnter();

// Displays the title for a section of the scenario.
static void DisplayTitle(string titleText)
{
    var sepBar = new string('-', Console.WindowWidth);

    Console.WriteLine(sepBar);
    Console.WriteLine(CenterText(titleText));
    Console.WriteLine(sepBar);
}

// Displays a description of the actions to be performed by the scenario.
static void DisplayInstructions()
{
    var sepBar = new string('-', Console.WindowWidth);

    DisplayTitle("Amazon S3 Transfer Utility Basics");
    Console.WriteLine("This program shows how to use the Amazon S3 Transfer Utility.");
    Console.WriteLine("It performs the following actions:");
    Console.WriteLine("\t1. Upload a single object to an S3 bucket.");
    Console.WriteLine("\t2. Upload an entire directory from the local computer to an\n\t  S3 bucket.");
    Console.WriteLine("\t3. Download a single object from an S3 bucket.");
    Console.WriteLine("\t4. Download the objects in an S3 bucket to a local directory.");
    Console.WriteLine($"\n{sepBar}");
}

// Pauses the scenario.
static void PressEnter()
{
    Console.WriteLine("Press <Enter> to continue.");
    _ = Console.ReadLine();
    Console.WriteLine("\n");
}

// Returns the string textToCenter, padded on the left with spaces
// that center the text on the console display.
static string CenterText(string textToCenter)
{
    var centeredText = new StringBuilder();
    var screenWidth = Console.WindowWidth;
    centeredText.Append(new string(' ', (int)(screenWidth - textToCenter.Length) / 2));
    centeredText.Append(textToCenter);
    return centeredText.ToString();
}

// Displays a list of file names included in the specified path.
static void DisplayLocalFiles(string localPath)
{
    var fileList = Directory.GetFiles(localPath);
    if (fileList.Length > 0)
    {
        foreach (var fileName in fileList)
        {
            Console.WriteLine(fileName);
        }
    }
}

// Displays a list of the files in the specified S3 bucket and prefix.
static async Task DisplayBucketFiles(IAmazonS3 client, string bucketName, string s3Path)
{
    ListObjectsV2Request request = new()
    {
        BucketName = bucketName,
        Prefix = s3Path,
        MaxKeys = 5,
    };

    var response = new ListObjectsV2Response();

    do
    {
        response = await client.ListObjectsV2Async(request);

        response.S3Objects
            .ForEach(obj => Console.WriteLine($"{obj.Key}"));

        // If the response is truncated, set the request ContinuationToken
        // from the NextContinuationToken property of the response.
        request.ContinuationToken = response.NextContinuationToken;
    } while (response.IsTruncated);
}
```
Unggah file tunggal.  

```
        /// <summary>
        /// Uploads a single file from the local computer to an S3 bucket.
        /// </summary>
        /// <param name="transferUtil">The transfer initialized TransferUtility
        /// object.</param>
        /// <param name="bucketName">The name of the S3 bucket where the file
        /// will be stored.</param>
        /// <param name="fileName">The name of the file to upload.</param>
        /// <param name="localPath">The local path where the file is stored.</param>
        /// <returns>A boolean value indicating the success of the action.</returns>
        public static async Task<bool> UploadSingleFileAsync(
            TransferUtility transferUtil,
            string bucketName,
            string fileName,
            string localPath)
        {
            if (File.Exists($"{localPath}\\{fileName}"))
            {
                try
                {
                    await transferUtil.UploadAsync(new TransferUtilityUploadRequest
                    {
                        BucketName = bucketName,
                        Key = fileName,
                        FilePath = $"{localPath}\\{fileName}",
                    });

                    return true;
                }
                catch (AmazonS3Exception s3Ex)
                {
                    Console.WriteLine($"Could not upload {fileName} from {localPath} because:");
                    Console.WriteLine(s3Ex.Message);
                    return false;
                }
            }
            else
            {
                Console.WriteLine($"{fileName} does not exist in {localPath}");
                return false;
            }
        }
```
Unggah seluruh direktori lokal.  

```
        /// <summary>
        /// Uploads all the files in a local directory to a directory in an S3
        /// bucket.
        /// </summary>
        /// <param name="transferUtil">The transfer initialized TransferUtility
        /// object.</param>
        /// <param name="bucketName">The name of the S3 bucket where the files
        /// will be stored.</param>
        /// <param name="keyPrefix">The key prefix is the S3 directory where
        /// the files will be stored.</param>
        /// <param name="localPath">The local directory that contains the files
        /// to be uploaded.</param>
        /// <returns>A Boolean value representing the success of the action.</returns>
        public static async Task<bool> UploadFullDirectoryAsync(
            TransferUtility transferUtil,
            string bucketName,
            string keyPrefix,
            string localPath)
        {
            if (Directory.Exists(localPath))
            {
                try
                {
                    await transferUtil.UploadDirectoryAsync(new TransferUtilityUploadDirectoryRequest
                    {
                        BucketName = bucketName,
                        KeyPrefix = keyPrefix,
                        Directory = localPath,
                    });

                    return true;
                }
                catch (AmazonS3Exception s3Ex)
                {
                    Console.WriteLine($"Can't upload the contents of {localPath} because:");
                    Console.WriteLine(s3Ex?.Message);
                    return false;
                }
            }
            else
            {
                Console.WriteLine($"The directory {localPath} does not exist.");
                return false;
            }
        }
```
Unduh file tunggal.  

```
        /// <summary>
        /// Download a single file from an S3 bucket to the local computer.
        /// </summary>
        /// <param name="transferUtil">The transfer initialized TransferUtility
        /// object.</param>
        /// <param name="bucketName">The name of the S3 bucket containing the
        /// file to download.</param>
        /// <param name="keyName">The name of the file to download.</param>
        /// <param name="localPath">The path on the local computer where the
        /// downloaded file will be saved.</param>
        /// <returns>A Boolean value indicating the results of the action.</returns>
        public static async Task<bool> DownloadSingleFileAsync(
        TransferUtility transferUtil,
            string bucketName,
            string keyName,
            string localPath)
        {
            await transferUtil.DownloadAsync(new TransferUtilityDownloadRequest
            {
                BucketName = bucketName,
                Key = keyName,
                FilePath = $"{localPath}\\{keyName}",
            });

            return (File.Exists($"{localPath}\\{keyName}"));
        }
```
Unduh konten bucket S3.  

```
        /// <summary>
        /// Downloads the contents of a directory in an S3 bucket to a
        /// directory on the local computer.
        /// </summary>
        /// <param name="transferUtil">The transfer initialized TransferUtility
        /// object.</param>
        /// <param name="bucketName">The bucket containing the files to download.</param>
        /// <param name="s3Path">The S3 directory where the files are located.</param>
        /// <param name="localPath">The local path to which the files will be
        /// saved.</param>
        /// <returns>A Boolean value representing the success of the action.</returns>
        public static async Task<bool> DownloadS3DirectoryAsync(
            TransferUtility transferUtil,
            string bucketName,
            string s3Path,
            string localPath)
        {
            int fileCount = 0;

            // If the directory doesn't exist, it will be created.
            if (Directory.Exists(s3Path))
            {
                var files = Directory.GetFiles(localPath);
                fileCount = files.Length;
            }

            await transferUtil.DownloadDirectoryAsync(new TransferUtilityDownloadDirectoryRequest
            {
                BucketName = bucketName,
                LocalDirectory = localPath,
                S3Directory = s3Path,
            });

            if (Directory.Exists(localPath))
            {
                var files = Directory.GetFiles(localPath);
                if (files.Length > fileCount)
                {
                    return true;
                }

                // No change in the number of files. Assume
                // the download failed.
                return false;
            }

            // The local directory doesn't exist. No files
            // were downloaded.
            return false;
        }
```
Lacak kemajuan unggahan menggunakan file TransferUtility.  

```
    using System;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Transfer;

    /// <summary>
    /// This example shows how to track the progress of a multipart upload
    /// using the Amazon Simple Storage Service (Amazon S3) TransferUtility to
    /// upload to an Amazon S3 bucket.
    /// </summary>
    public class TrackMPUUsingHighLevelAPI
    {
        public static async Task Main()
        {
            string bucketName = "amzn-s3-demo-bucket";
            string keyName = "sample_pic.png";
            string path = "filepath/directory/";
            string filePath = $"{path}{keyName}";

            // If the AWS Region defined for your default user is different
            // from the Region where your Amazon S3 bucket is located,
            // pass the Region name to the Amazon S3 client object's constructor.
            // For example: RegionEndpoint.USWest2 or RegionEndpoint.USEast2.
            IAmazonS3 client = new AmazonS3Client();

            await TrackMPUAsync(client, bucketName, filePath, keyName);
        }

        /// <summary>
        /// Starts an Amazon S3 multipart upload and assigns an event handler to
        /// track the progress of the upload.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 client object used to
        /// perform the multipart upload.</param>
        /// <param name="bucketName">The name of the bucket to which to upload
        /// the file.</param>
        /// <param name="filePath">The path, including the file name of the
        /// file to be uploaded to the Amazon S3 bucket.</param>
        /// <param name="keyName">The file name to be used in the
        /// destination Amazon S3 bucket.</param>
        public static async Task TrackMPUAsync(
            IAmazonS3 client,
            string bucketName,
            string filePath,
            string keyName)
        {
            try
            {
                var fileTransferUtility = new TransferUtility(client);

                // Use TransferUtilityUploadRequest to configure options.
                // In this example we subscribe to an event.
                var uploadRequest =
                    new TransferUtilityUploadRequest
                    {
                        BucketName = bucketName,
                        FilePath = filePath,
                        Key = keyName,
                    };

                uploadRequest.UploadProgressEvent +=
                    new EventHandler<UploadProgressArgs>(
                        UploadRequest_UploadPartProgressEvent);

                await fileTransferUtility.UploadAsync(uploadRequest);
                Console.WriteLine("Upload completed");
            }
            catch (AmazonS3Exception ex)
            {
                Console.WriteLine($"Error:: {ex.Message}");
            }
        }

        /// <summary>
        /// Event handler to check the progress of the multipart upload.
        /// </summary>
        /// <param name="sender">The object that raised the event.</param>
        /// <param name="e">The object that contains multipart upload
        /// information.</param>
        public static void UploadRequest_UploadPartProgressEvent(object sender, UploadProgressArgs e)
        {
            // Process event.
            Console.WriteLine($"{e.TransferredBytes}/{e.TotalBytes}");
        }
    }
```
Unggah objek dengan enkripsi.  

```
    using System;
    using System.Collections.Generic;
    using System.IO;
    using System.Security.Cryptography;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Model;

    /// <summary>
    /// Uses the Amazon Simple Storage Service (Amazon S3) low level API to
    /// perform a multipart upload to an Amazon S3 bucket.
    /// </summary>
    public class SSECLowLevelMPUcopyObject
    {
        public static async Task Main()
        {
            string existingBucketName = "amzn-s3-demo-bucket";
            string sourceKeyName = "sample_file.txt";
            string targetKeyName = "sample_file_copy.txt";
            string filePath = $"sample\\{targetKeyName}";

            // If the AWS Region defined for your default user is different
            // from the Region where your Amazon S3 bucket is located,
            // pass the Region name to the Amazon S3 client object's constructor.
            // For example: RegionEndpoint.USEast1.
            IAmazonS3 client = new AmazonS3Client();

            // Create the encryption key.
            var base64Key = CreateEncryptionKey();

            await CreateSampleObjUsingClientEncryptionKeyAsync(
                client,
                existingBucketName,
                sourceKeyName,
                filePath,
                base64Key);
        }

        /// <summary>
        /// Creates the encryption key to use with the multipart upload.
        /// </summary>
        /// <returns>A string containing the base64-encoded key for encrypting
        /// the multipart upload.</returns>
        public static string CreateEncryptionKey()
        {
            Aes aesEncryption = Aes.Create();
            aesEncryption.KeySize = 256;
            aesEncryption.GenerateKey();
            string base64Key = Convert.ToBase64String(aesEncryption.Key);
            return base64Key;
        }

        /// <summary>
        /// Creates and uploads an object using a multipart upload.
        /// </summary>
        /// <param name="client">The initialized Amazon S3 object used to
        /// initialize and perform the multipart upload.</param>
        /// <param name="existingBucketName">The name of the bucket to which
        /// the object will be uploaded.</param>
        /// <param name="sourceKeyName">The source object name.</param>
        /// <param name="filePath">The location of the source object.</param>
        /// <param name="base64Key">The encryption key to use with the upload.</param>
        public static async Task CreateSampleObjUsingClientEncryptionKeyAsync(
            IAmazonS3 client,
            string existingBucketName,
            string sourceKeyName,
            string filePath,
            string base64Key)
        {
            List<UploadPartResponse> uploadResponses = new List<UploadPartResponse>();

            InitiateMultipartUploadRequest initiateRequest = new InitiateMultipartUploadRequest
            {
                BucketName = existingBucketName,
                Key = sourceKeyName,
                ServerSideEncryptionCustomerMethod = ServerSideEncryptionCustomerMethod.AES256,
                ServerSideEncryptionCustomerProvidedKey = base64Key,
            };

            InitiateMultipartUploadResponse initResponse =
               await client.InitiateMultipartUploadAsync(initiateRequest);

            long contentLength = new FileInfo(filePath).Length;
            long partSize = 5 * (long)Math.Pow(2, 20); // 5 MB

            try
            {
                long filePosition = 0;
                for (int i = 1; filePosition < contentLength; i++)
                {
                    UploadPartRequest uploadRequest = new UploadPartRequest
                    {
                        BucketName = existingBucketName,
                        Key = sourceKeyName,
                        UploadId = initResponse.UploadId,
                        PartNumber = i,
                        PartSize = partSize,
                        FilePosition = filePosition,
                        FilePath = filePath,
                        ServerSideEncryptionCustomerMethod = ServerSideEncryptionCustomerMethod.AES256,
                        ServerSideEncryptionCustomerProvidedKey = base64Key,
                    };

                    // Upload part and add response to our list.
                    uploadResponses.Add(await client.UploadPartAsync(uploadRequest));

                    filePosition += partSize;
                }

                CompleteMultipartUploadRequest completeRequest = new CompleteMultipartUploadRequest
                {
                    BucketName = existingBucketName,
                    Key = sourceKeyName,
                    UploadId = initResponse.UploadId,
                };
                completeRequest.AddPartETags(uploadResponses);

                CompleteMultipartUploadResponse completeUploadResponse =
                    await client.CompleteMultipartUploadAsync(completeRequest);
            }
            catch (Exception exception)
            {
                Console.WriteLine($"Exception occurred: {exception.Message}");

                // If there was an error, abort the multipart upload.
                AbortMultipartUploadRequest abortMPURequest = new AbortMultipartUploadRequest
                {
                    BucketName = existingBucketName,
                    Key = sourceKeyName,
                    UploadId = initResponse.UploadId,
                };

                await client.AbortMultipartUploadAsync(abortMPURequest);
            }
        }
    }
```

## Contoh nirserver
<a name="serverless_examples"></a>

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using System.Threading.Tasks;
using Amazon.Lambda.Core;
using Amazon.S3;
using System;
using Amazon.Lambda.S3Events;
using System.Web;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace S3Integration
{
    public class Function
    {
        private static AmazonS3Client _s3Client;
        public Function() : this(null)
        {
        }

        internal Function(AmazonS3Client s3Client)
        {
            _s3Client = s3Client ?? new AmazonS3Client();
        }

        public async Task<string> Handler(S3Event evt, ILambdaContext context)
        {
            try
            {
                if (evt.Records.Count <= 0)
                {
                    context.Logger.LogLine("Empty S3 Event received");
                    return string.Empty;
                }

                var bucket = evt.Records[0].S3.Bucket.Name;
                var key = HttpUtility.UrlDecode(evt.Records[0].S3.Object.Key);

                context.Logger.LogLine($"Request is for {bucket} and {key}");

                var objectResult = await _s3Client.GetObjectAsync(bucket, key);

                context.Logger.LogLine($"Returning {objectResult.Key}");

                return objectResult.Key;
            }
            catch (Exception e)
            {
                context.Logger.LogLine($"Error processing request - {e.Message}");

                return string.Empty;
            }
        }
    }
}
```

# SageMaker Contoh AI menggunakan SDK untuk .NET
<a name="csharp_3_sagemaker_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk .NET dengan menggunakan SageMaker AI.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo SageMaker AI
<a name="sagemaker_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan SageMaker AI.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SageMaker#code-examples). 

```
using Amazon.SageMaker;
using Amazon.SageMaker.Model;

namespace SageMakerActions;

public static class HelloSageMaker
{
    static async Task Main(string[] args)
    {
        var sageMakerClient = new AmazonSageMakerClient();

        Console.WriteLine($"Hello Amazon SageMaker! Let's list some of your notebook instances:");
        Console.WriteLine();

        // You can use await and any of the async methods to get a response.
        // Let's get the first five notebook instances.
        var response = await sageMakerClient.ListNotebookInstancesAsync(
            new ListNotebookInstancesRequest()
            {
                MaxResults = 5
            });

        if (!response.NotebookInstances.Any())
        {
            Console.WriteLine($"No notebook instances found.");
            Console.WriteLine("See https://docs.aws.amazon.com/sagemaker/latest/dg/howitworks-create-ws.html to create one.");
        }

        foreach (var notebookInstance in response.NotebookInstances)
        {
            Console.WriteLine($"\tInstance: {notebookInstance.NotebookInstanceName}");
            Console.WriteLine($"\tArn: {notebookInstance.NotebookInstanceArn}");
            Console.WriteLine($"\tCreation Date: {notebookInstance.CreationTime.ToShortDateString()}");
            Console.WriteLine();
        }
    }
}
```
+  Untuk detail API, lihat [ListNotebookInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/ListNotebookInstances)di *Referensi AWS SDK untuk .NET API*. 

## Tindakan
<a name="actions"></a>

### `CreatePipeline`
<a name="sagemaker_CreatePipeline_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePipeline`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SageMaker#code-examples). 

```
    /// <summary>
    /// Create a pipeline from a JSON definition, or update it if the pipeline already exists.
    /// </summary>
    /// <returns>The Amazon Resource Name (ARN) of the pipeline.</returns>
    public async Task<string> SetupPipeline(string pipelineJson, string roleArn, string name, string description, string displayName)
    {
        try
        {
            var updateResponse = await _amazonSageMaker.UpdatePipelineAsync(
                new UpdatePipelineRequest()
                {
                    PipelineDefinition = pipelineJson,
                    PipelineDescription = description,
                    PipelineDisplayName = displayName,
                    PipelineName = name,
                    RoleArn = roleArn
                });
            return updateResponse.PipelineArn;
        }
        catch (Amazon.SageMaker.Model.ResourceNotFoundException)
        {
            var createResponse = await _amazonSageMaker.CreatePipelineAsync(
                new CreatePipelineRequest()
                {
                    PipelineDefinition = pipelineJson,
                    PipelineDescription = description,
                    PipelineDisplayName = displayName,
                    PipelineName = name,
                    RoleArn = roleArn
                });

            return createResponse.PipelineArn;
        }
    }
```
+  Untuk detail API, lihat [CreatePipeline](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/CreatePipeline)di *Referensi AWS SDK untuk .NET API*. 

### `DeletePipeline`
<a name="sagemaker_DeletePipeline_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePipeline`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SageMaker#code-examples). 

```
    /// <summary>
    /// Delete a SageMaker pipeline by name.
    /// </summary>
    /// <param name="pipelineName">The name of the pipeline to delete.</param>
    /// <returns>The ARN of the pipeline.</returns>
    public async Task<string> DeletePipelineByName(string pipelineName)
    {
        var deleteResponse = await _amazonSageMaker.DeletePipelineAsync(
            new DeletePipelineRequest()
            {
                PipelineName = pipelineName
            });

        return deleteResponse.PipelineArn;
    }
```
+  Untuk detail API, lihat [DeletePipeline](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/DeletePipeline)di *Referensi AWS SDK untuk .NET API*. 

### `DescribePipelineExecution`
<a name="sagemaker_DescribePipelineExecution_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribePipelineExecution`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SageMaker#code-examples). 

```
    /// <summary>
    /// Check the status of a run.
    /// </summary>
    /// <param name="pipelineExecutionArn">The ARN.</param>
    /// <returns>The status of the pipeline.</returns>
    public async Task<PipelineExecutionStatus> CheckPipelineExecutionStatus(string pipelineExecutionArn)
    {
        var describeResponse = await _amazonSageMaker.DescribePipelineExecutionAsync(
            new DescribePipelineExecutionRequest()
            {
                PipelineExecutionArn = pipelineExecutionArn
            });

        return describeResponse.PipelineExecutionStatus;
    }
```
+  Untuk detail API, lihat [DescribePipelineExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/DescribePipelineExecution)di *Referensi AWS SDK untuk .NET API*. 

### `StartPipelineExecution`
<a name="sagemaker_StartPipelineExecution_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartPipelineExecution`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SageMaker#code-examples). 

```
    /// <summary>
    /// Run a pipeline with input and output file locations.
    /// </summary>
    /// <param name="queueUrl">The URL for the queue to use for pipeline callbacks.</param>
    /// <param name="inputLocationUrl">The input location in Amazon Simple Storage Service (Amazon S3).</param>
    /// <param name="outputLocationUrl">The output location in Amazon S3.</param>
    /// <param name="pipelineName">The name of the pipeline.</param>
    /// <param name="executionRoleArn">The ARN of the role.</param>
    /// <returns>The ARN of the pipeline run.</returns>
    public async Task<string> ExecutePipeline(
        string queueUrl,
        string inputLocationUrl,
        string outputLocationUrl,
        string pipelineName,
        string executionRoleArn)
    {
        var inputConfig = new VectorEnrichmentJobInputConfig()
        {
            DataSourceConfig = new()
            {
                S3Data = new VectorEnrichmentJobS3Data()
                {
                    S3Uri = inputLocationUrl
                }
            },
            DocumentType = VectorEnrichmentJobDocumentType.CSV
        };

        var exportConfig = new ExportVectorEnrichmentJobOutputConfig()
        {
            S3Data = new VectorEnrichmentJobS3Data()
            {
                S3Uri = outputLocationUrl
            }
        };

        var jobConfig = new VectorEnrichmentJobConfig()
        {
            ReverseGeocodingConfig = new ReverseGeocodingConfig()
            {
                XAttributeName = "Longitude",
                YAttributeName = "Latitude"
            }
        };

#pragma warning disable SageMaker1002 // Property value does not match required pattern is allowed here to match the pipeline definition.
        var startExecutionResponse = await _amazonSageMaker.StartPipelineExecutionAsync(
            new StartPipelineExecutionRequest()
            {
                PipelineName = pipelineName,
                PipelineExecutionDisplayName = pipelineName + "-example-execution",
                PipelineParameters = new List<Parameter>()
                {
                    new Parameter() { Name = "parameter_execution_role", Value = executionRoleArn },
                    new Parameter() { Name = "parameter_queue_url", Value = queueUrl },
                    new Parameter() { Name = "parameter_vej_input_config", Value = JsonSerializer.Serialize(inputConfig) },
                    new Parameter() { Name = "parameter_vej_export_config", Value = JsonSerializer.Serialize(exportConfig) },
                    new Parameter() { Name = "parameter_step_1_vej_config", Value = JsonSerializer.Serialize(jobConfig) }
                }
            });
#pragma warning restore SageMaker1002
        return startExecutionResponse.PipelineExecutionArn;
    }
```
+  Untuk detail API, lihat [StartPipelineExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/StartPipelineExecution)di *Referensi AWS SDK untuk .NET API*. 

### `UpdatePipeline`
<a name="sagemaker_UpdatePipeline_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdatePipeline`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SageMaker#code-examples). 

```
    /// <summary>
    /// Create a pipeline from a JSON definition, or update it if the pipeline already exists.
    /// </summary>
    /// <returns>The Amazon Resource Name (ARN) of the pipeline.</returns>
    public async Task<string> SetupPipeline(string pipelineJson, string roleArn, string name, string description, string displayName)
    {
        try
        {
            var updateResponse = await _amazonSageMaker.UpdatePipelineAsync(
                new UpdatePipelineRequest()
                {
                    PipelineDefinition = pipelineJson,
                    PipelineDescription = description,
                    PipelineDisplayName = displayName,
                    PipelineName = name,
                    RoleArn = roleArn
                });
            return updateResponse.PipelineArn;
        }
        catch (Amazon.SageMaker.Model.ResourceNotFoundException)
        {
            var createResponse = await _amazonSageMaker.CreatePipelineAsync(
                new CreatePipelineRequest()
                {
                    PipelineDefinition = pipelineJson,
                    PipelineDescription = description,
                    PipelineDisplayName = displayName,
                    PipelineName = name,
                    RoleArn = roleArn
                });

            return createResponse.PipelineArn;
        }
    }
```
+  Untuk detail API, lihat [UpdatePipeline](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/UpdatePipeline)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Memulai pekerjaan geospasial dan jaringan pipa
<a name="sagemaker_Scenario_Pipelines_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan sumber daya untuk pipa.
+ Siapkan pipa yang menjalankan pekerjaan geospasial.
+ Mulai eksekusi pipeline.
+ Pantau status eksekusi.
+ Lihat output dari pipa.
+ Pembersihan sumber daya 

Untuk informasi selengkapnya, lihat [Membuat dan menjalankan SageMaker pipeline menggunakan AWS SDKs Community.aws](https://community.aws/posts/create-and-run-sagemaker-pipelines-using-aws-sdks).

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SageMaker#code-examples). 
Buat kelas yang membungkus operasi SageMaker AI.  

```
using System.Text.Json;
using Amazon.SageMaker;
using Amazon.SageMaker.Model;
using Amazon.SageMakerGeospatial;
using Amazon.SageMakerGeospatial.Model;

namespace SageMakerActions;

/// <summary>
/// Wrapper class for Amazon SageMaker actions and logic.
/// </summary>
public class SageMakerWrapper
{
    private readonly IAmazonSageMaker _amazonSageMaker;
    public SageMakerWrapper(IAmazonSageMaker amazonSageMaker)
    {
        _amazonSageMaker = amazonSageMaker;
    }

    /// <summary>
    /// Create a pipeline from a JSON definition, or update it if the pipeline already exists.
    /// </summary>
    /// <returns>The Amazon Resource Name (ARN) of the pipeline.</returns>
    public async Task<string> SetupPipeline(string pipelineJson, string roleArn, string name, string description, string displayName)
    {
        try
        {
            var updateResponse = await _amazonSageMaker.UpdatePipelineAsync(
                new UpdatePipelineRequest()
                {
                    PipelineDefinition = pipelineJson,
                    PipelineDescription = description,
                    PipelineDisplayName = displayName,
                    PipelineName = name,
                    RoleArn = roleArn
                });
            return updateResponse.PipelineArn;
        }
        catch (Amazon.SageMaker.Model.ResourceNotFoundException)
        {
            var createResponse = await _amazonSageMaker.CreatePipelineAsync(
                new CreatePipelineRequest()
                {
                    PipelineDefinition = pipelineJson,
                    PipelineDescription = description,
                    PipelineDisplayName = displayName,
                    PipelineName = name,
                    RoleArn = roleArn
                });

            return createResponse.PipelineArn;
        }
    }

    /// <summary>
    /// Run a pipeline with input and output file locations.
    /// </summary>
    /// <param name="queueUrl">The URL for the queue to use for pipeline callbacks.</param>
    /// <param name="inputLocationUrl">The input location in Amazon Simple Storage Service (Amazon S3).</param>
    /// <param name="outputLocationUrl">The output location in Amazon S3.</param>
    /// <param name="pipelineName">The name of the pipeline.</param>
    /// <param name="executionRoleArn">The ARN of the role.</param>
    /// <returns>The ARN of the pipeline run.</returns>
    public async Task<string> ExecutePipeline(
        string queueUrl,
        string inputLocationUrl,
        string outputLocationUrl,
        string pipelineName,
        string executionRoleArn)
    {
        var inputConfig = new VectorEnrichmentJobInputConfig()
        {
            DataSourceConfig = new()
            {
                S3Data = new VectorEnrichmentJobS3Data()
                {
                    S3Uri = inputLocationUrl
                }
            },
            DocumentType = VectorEnrichmentJobDocumentType.CSV
        };

        var exportConfig = new ExportVectorEnrichmentJobOutputConfig()
        {
            S3Data = new VectorEnrichmentJobS3Data()
            {
                S3Uri = outputLocationUrl
            }
        };

        var jobConfig = new VectorEnrichmentJobConfig()
        {
            ReverseGeocodingConfig = new ReverseGeocodingConfig()
            {
                XAttributeName = "Longitude",
                YAttributeName = "Latitude"
            }
        };

#pragma warning disable SageMaker1002 // Property value does not match required pattern is allowed here to match the pipeline definition.
        var startExecutionResponse = await _amazonSageMaker.StartPipelineExecutionAsync(
            new StartPipelineExecutionRequest()
            {
                PipelineName = pipelineName,
                PipelineExecutionDisplayName = pipelineName + "-example-execution",
                PipelineParameters = new List<Parameter>()
                {
                    new Parameter() { Name = "parameter_execution_role", Value = executionRoleArn },
                    new Parameter() { Name = "parameter_queue_url", Value = queueUrl },
                    new Parameter() { Name = "parameter_vej_input_config", Value = JsonSerializer.Serialize(inputConfig) },
                    new Parameter() { Name = "parameter_vej_export_config", Value = JsonSerializer.Serialize(exportConfig) },
                    new Parameter() { Name = "parameter_step_1_vej_config", Value = JsonSerializer.Serialize(jobConfig) }
                }
            });
#pragma warning restore SageMaker1002
        return startExecutionResponse.PipelineExecutionArn;
    }

    /// <summary>
    /// Check the status of a run.
    /// </summary>
    /// <param name="pipelineExecutionArn">The ARN.</param>
    /// <returns>The status of the pipeline.</returns>
    public async Task<PipelineExecutionStatus> CheckPipelineExecutionStatus(string pipelineExecutionArn)
    {
        var describeResponse = await _amazonSageMaker.DescribePipelineExecutionAsync(
            new DescribePipelineExecutionRequest()
            {
                PipelineExecutionArn = pipelineExecutionArn
            });

        return describeResponse.PipelineExecutionStatus;
    }

    /// <summary>
    /// Delete a SageMaker pipeline by name.
    /// </summary>
    /// <param name="pipelineName">The name of the pipeline to delete.</param>
    /// <returns>The ARN of the pipeline.</returns>
    public async Task<string> DeletePipelineByName(string pipelineName)
    {
        var deleteResponse = await _amazonSageMaker.DeletePipelineAsync(
            new DeletePipelineRequest()
            {
                PipelineName = pipelineName
            });

        return deleteResponse.PipelineArn;
    }
}
```
Buat fungsi yang menangani callback dari pipeline SageMaker AI.  

```
using System.Text.Json;
using Amazon.Lambda.Core;
using Amazon.Lambda.SQSEvents;
using Amazon.SageMaker;
using Amazon.SageMaker.Model;
using Amazon.SageMakerGeospatial;
using Amazon.SageMakerGeospatial.Model;

// Assembly attribute to enable the AWS Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace SageMakerLambda;

/// <summary>
/// The AWS Lambda function handler for the Amazon SageMaker pipeline.
/// </summary>
public class SageMakerLambdaFunction
{
    /// <summary>
    /// Default constructor. This constructor is used by AWS Lambda to construct the instance. When invoked in a Lambda environment
    /// the AWS credentials will come from the AWS Identity and Access Management (IAM) role associated with the function. The AWS Region will be set to the
    /// Region that the Lambda function is running in.
    /// </summary>
    public SageMakerLambdaFunction()
    {
    }

    /// <summary>
    /// The AWS Lambda function handler that processes events from the SageMaker pipeline and starts a job or export.
    /// </summary>
    /// <param name="request">The custom SageMaker pipeline request object.</param>
    /// <param name="context">The Lambda context.</param>
    /// <returns>The dictionary of output parameters.</returns>
    public async Task<Dictionary<string, string>> FunctionHandler(PipelineRequest request, ILambdaContext context)
    {
        var geoSpatialClient = new AmazonSageMakerGeospatialClient();
        var sageMakerClient = new AmazonSageMakerClient();
        var responseDictionary = new Dictionary<string, string>();
        context.Logger.LogInformation("Function handler started with request: " + JsonSerializer.Serialize(request));
        if (request.Records != null && request.Records.Any())
        {
            context.Logger.LogInformation("Records found, this is a queue event. Processing the queue records.");
            foreach (var message in request.Records)
            {
                await ProcessMessageAsync(message, context, geoSpatialClient, sageMakerClient);
            }
        }
        else if (!string.IsNullOrEmpty(request.vej_export_config))
        {
            context.Logger.LogInformation("Export configuration found, this is an export. Start the Vector Enrichment Job (VEJ) export.");

            var outputConfig =
                JsonSerializer.Deserialize<ExportVectorEnrichmentJobOutputConfig>(
                    request.vej_export_config);

            var exportResponse = await geoSpatialClient.ExportVectorEnrichmentJobAsync(
                new ExportVectorEnrichmentJobRequest()
                {
                    Arn = request.vej_arn,
                    ExecutionRoleArn = request.Role,
                    OutputConfig = outputConfig
                });
            context.Logger.LogInformation($"Export response: {JsonSerializer.Serialize(exportResponse)}");
            responseDictionary = new Dictionary<string, string>
            {
                { "export_eoj_status", exportResponse.ExportStatus.ToString() },
                { "vej_arn", exportResponse.Arn }
            };
        }
        else if (!string.IsNullOrEmpty(request.vej_name))
        {
            context.Logger.LogInformation("Vector Enrichment Job name found, starting the job.");
            var inputConfig =
                JsonSerializer.Deserialize<VectorEnrichmentJobInputConfig>(
                    request.vej_input_config);

            var jobConfig =
                JsonSerializer.Deserialize<VectorEnrichmentJobConfig>(
                    request.vej_config);

            var jobResponse = await geoSpatialClient.StartVectorEnrichmentJobAsync(
                new StartVectorEnrichmentJobRequest()
                {
                    ExecutionRoleArn = request.Role,
                    InputConfig = inputConfig,
                    Name = request.vej_name,
                    JobConfig = jobConfig

                });
            context.Logger.LogInformation("Job response: " + JsonSerializer.Serialize(jobResponse));
            responseDictionary = new Dictionary<string, string>
            {
                { "vej_arn", jobResponse.Arn },
                { "statusCode", jobResponse.HttpStatusCode.ToString() }
            };
        }
        return responseDictionary;
    }

    /// <summary>
    /// Process a queue message and check the status of a SageMaker job.
    /// </summary>
    /// <param name="message">The queue message.</param>
    /// <param name="context">The Lambda context.</param>
    /// <param name="geoClient">The SageMaker GeoSpatial client.</param>
    /// <param name="sageMakerClient">The SageMaker client.</param>
    /// <returns>Async task.</returns>
    private async Task ProcessMessageAsync(SQSEvent.SQSMessage message, ILambdaContext context,
        AmazonSageMakerGeospatialClient geoClient, AmazonSageMakerClient sageMakerClient)
    {
        context.Logger.LogInformation($"Processed message {message.Body}");

        // Get information about the SageMaker job.
        var payload = JsonSerializer.Deserialize<QueuePayload>(message.Body);
        context.Logger.LogInformation($"Payload token {payload!.token}");
        var token = payload.token;

        if (payload.arguments.ContainsKey("vej_arn"))
        {
            // Use the job ARN and the token to get the job status.
            var job_arn = payload.arguments["vej_arn"];
            context.Logger.LogInformation($"Token: {token}, arn {job_arn}");

            var jobInfo = geoClient.GetVectorEnrichmentJobAsync(
                new GetVectorEnrichmentJobRequest()
                {
                    Arn = job_arn
                });
            context.Logger.LogInformation("Job info: " + JsonSerializer.Serialize(jobInfo));
            if (jobInfo.Result.Status == VectorEnrichmentJobStatus.COMPLETED)
            {
                context.Logger.LogInformation($"Status completed, resuming pipeline...");
                await sageMakerClient.SendPipelineExecutionStepSuccessAsync(
                    new SendPipelineExecutionStepSuccessRequest()
                    {
                        CallbackToken = token,
                        OutputParameters = new List<OutputParameter>()
                        {
                            new OutputParameter()
                                { Name = "export_status", Value = jobInfo.Result.Status }
                        }
                    });
            }
            else if (jobInfo.Result.Status == VectorEnrichmentJobStatus.FAILED)
            {
                context.Logger.LogInformation($"Status failed, stopping pipeline...");
                await sageMakerClient.SendPipelineExecutionStepFailureAsync(
                    new SendPipelineExecutionStepFailureRequest()
                    {
                        CallbackToken = token,
                        FailureReason = jobInfo.Result.ErrorDetails.ErrorMessage
                    });
            }
            else if (jobInfo.Result.Status == VectorEnrichmentJobStatus.IN_PROGRESS)
            {
                // Put this message back in the queue to reprocess later.
                context.Logger.LogInformation(
                    $"Status still in progress, check back later.");
                throw new("Job still running.");
            }
        }
    }
}
```
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
public static class PipelineWorkflow
{
    public static IAmazonIdentityManagementService _iamClient = null!;
    public static SageMakerWrapper _sageMakerWrapper = null!;
    public static IAmazonSQS _sqsClient = null!;
    public static IAmazonS3 _s3Client = null!;
    public static IAmazonLambda _lambdaClient = null!;
    public static IConfiguration _configuration = null!;

    public static string lambdaFunctionName = "SageMakerExampleFunction";
    public static string sageMakerRoleName = "SageMakerExampleRole";
    public static string lambdaRoleName = "SageMakerExampleLambdaRole";

    private static string[] lambdaRolePolicies = null!;
    private static string[] sageMakerRolePolicies = null!;

    static async Task Main(string[] args)
    {
        var options = new AWSOptions() { Region = RegionEndpoint.USWest2 };
        // Set up dependency injection for the AWS service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonIdentityManagementService>(options)
                    .AddAWSService<IAmazonEC2>(options)
                    .AddAWSService<IAmazonSageMaker>(options)
                    .AddAWSService<IAmazonSageMakerGeospatial>(options)
                    .AddAWSService<IAmazonSQS>(options)
                    .AddAWSService<IAmazonS3>(options)
                    .AddAWSService<IAmazonLambda>(options)
                    .AddTransient<SageMakerWrapper>()
        )
        .Build();

        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();

        ServicesSetup(host);
        string queueUrl = "";
        string queueName = _configuration["queueName"];
        string bucketName = _configuration["bucketName"];
        var pipelineName = _configuration["pipelineName"];

        try
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine(
                "Welcome to the Amazon SageMaker pipeline example scenario.");
            Console.WriteLine(
                "\nThis example scenario will guide you through setting up and running an" +
                "\nAmazon SageMaker pipeline. The pipeline uses an AWS Lambda function and an" +
                "\nAmazon SQS Queue. It runs a vector enrichment reverse geocode job to" +
                "\nreverse geocode addresses in an input file and store the results in an export file.");
            Console.WriteLine(new string('-', 80));

            Console.WriteLine(new string('-', 80));
            Console.WriteLine(
                "First, we will set up the roles, functions, and queue needed by the SageMaker pipeline.");
            Console.WriteLine(new string('-', 80));

            var lambdaRoleArn = await CreateLambdaRole();
            var sageMakerRoleArn = await CreateSageMakerRole();
            var functionArn = await SetupLambda(lambdaRoleArn, true);
            queueUrl = await SetupQueue(queueName);
            await SetupBucket(bucketName);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Now we can create and run our pipeline.");
            Console.WriteLine(new string('-', 80));

            await SetupPipeline(sageMakerRoleArn, functionArn, pipelineName);
            var executionArn = await ExecutePipeline(queueUrl, sageMakerRoleArn, pipelineName, bucketName);
            await WaitForPipelineExecution(executionArn);

            await GetOutputResults(bucketName);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("The pipeline has completed. To view the pipeline and runs " +
                              "in SageMaker Studio, follow these instructions:" +
                              "\nhttps://docs.aws.amazon.com/sagemaker/latest/dg/pipelines-studio.html");
            Console.WriteLine(new string('-', 80));

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Finally, let's clean up our resources.");
            Console.WriteLine(new string('-', 80));

            await CleanupResources(true, queueUrl, pipelineName, bucketName);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("SageMaker pipeline scenario is complete.");
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            await CleanupResources(true, queueUrl, pipelineName, bucketName);
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _sageMakerWrapper = host.Services.GetRequiredService<SageMakerWrapper>();
        _iamClient = host.Services.GetRequiredService<IAmazonIdentityManagementService>();
        _sqsClient = host.Services.GetRequiredService<IAmazonSQS>();
        _s3Client = host.Services.GetRequiredService<IAmazonS3>();
        _lambdaClient = host.Services.GetRequiredService<IAmazonLambda>();
    }

    /// <summary>
    /// Set up AWS Lambda, either by updating an existing function or creating a new function.
    /// </summary>
    /// <param name="roleArn">The role Amazon Resource Name (ARN) to use for the Lambda function.</param>
    /// <param name="askUser">True to ask the user before updating.</param>
    /// <returns>The ARN of the function.</returns>
    public static async Task<string> SetupLambda(string roleArn, bool askUser)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Setting up the Lambda function for the pipeline.");
        var handlerName = "SageMakerLambda::SageMakerLambda.SageMakerLambdaFunction::FunctionHandler";
        var functionArn = "";
        try
        {
            var functionInfo = await _lambdaClient.GetFunctionAsync(new GetFunctionRequest()
            {
                FunctionName = lambdaFunctionName
            });

            var updateFunction = true;
            if (askUser)
            {
                updateFunction = GetYesNoResponse(
                    $"\tThe Lambda function {lambdaFunctionName} already exists, do you want to update it?");
            }

            if (updateFunction)
            {
                // Update the Lambda function.
                using var zipMemoryStream = new MemoryStream(await File.ReadAllBytesAsync("SageMakerLambda.zip"));
                await _lambdaClient.UpdateFunctionCodeAsync(
                    new UpdateFunctionCodeRequest()
                    {
                        FunctionName = lambdaFunctionName,
                        ZipFile = zipMemoryStream,
                    });
            }

            functionArn = functionInfo.Configuration.FunctionArn;
        }
        catch (ResourceNotFoundException)
        {
            Console.WriteLine($"\tThe Lambda function {lambdaFunctionName} was not found, creating the new function.");

            // Create the function if it does not already exist.
            using var zipMemoryStream = new MemoryStream(await File.ReadAllBytesAsync("SageMakerLambda.zip"));
            var createResult = await _lambdaClient.CreateFunctionAsync(
                new CreateFunctionRequest()
                {
                    FunctionName = lambdaFunctionName,
                    Runtime = Runtime.Dotnet6,
                    Description = "SageMaker example function.",
                    Code = new FunctionCode()
                    {
                        ZipFile = zipMemoryStream
                    },
                    Handler = handlerName,
                    Role = roleArn,
                    Timeout = 30
                });

            functionArn = createResult.FunctionArn;
        }

        Console.WriteLine($"\tLambda ready with ARN {functionArn}.");
        Console.WriteLine(new string('-', 80));
        return functionArn;
    }

    /// <summary>
    /// Create a role to be used by AWS Lambda. Does not create the role if it already exists.
    /// </summary>
    /// <returns>The role ARN.</returns>
    public static async Task<string> CreateLambdaRole()
    {
        Console.WriteLine(new string('-', 80));

        lambdaRolePolicies = new string[]{
            "arn:aws:iam::aws:policy/AmazonSageMakerFullAccess",
            "arn:aws:iam::aws:policy/AmazonSQSFullAccess",
            "arn:aws:iam::aws:policy/service-role/" + "AmazonSageMakerGeospatialFullAccess",
            "arn:aws:iam::aws:policy/service-role/" + "AmazonSageMakerServiceCatalogProductsLambdaServiceRolePolicy",
            "arn:aws:iam::aws:policy/service-role/" + "AWSLambdaSQSQueueExecutionRole"
        };

        var roleArn = await GetRoleArnIfExists(lambdaRoleName);
        if (!string.IsNullOrEmpty(roleArn))
        {
            return roleArn;
        }

        Console.WriteLine("\tCreating a role to for AWS Lambda to use.");

        var assumeRolePolicy = "{" +
                               "\"Version\": \"2012-10-17\"," +
                               "\"Statement\": [{" +
                                    "\"Effect\": \"Allow\"," +
                                    "\"Principal\": {" +
                                        $"\"Service\": [" +
                                            "\"sagemaker.amazonaws.com\"," +
                                            "\"sagemaker-geospatial.amazonaws.com\"," +
                                            "\"lambda.amazonaws.com\"," +
                                            "\"s3.amazonaws.com\"" +
                                        "]" +
                                    "}," +
                                    "\"Action\": \"sts:AssumeRole\"" +
                               "}]" +
                            "}";

        var roleResult = await _iamClient!.CreateRoleAsync(
            new CreateRoleRequest()
            {
                AssumeRolePolicyDocument = assumeRolePolicy,
                Path = "/",
                RoleName = lambdaRoleName
            });
        foreach (var policy in lambdaRolePolicies)
        {
            await _iamClient.AttachRolePolicyAsync(
                new AttachRolePolicyRequest()
                {
                    PolicyArn = policy,
                    RoleName = lambdaRoleName
                });
        }

        // Allow time for the role to be ready.
        Thread.Sleep(10000);
        Console.WriteLine($"\tRole ready with ARN {roleResult.Role.Arn}.");
        Console.WriteLine(new string('-', 80));

        return roleResult.Role.Arn;
    }


    /// <summary>
    /// Create a role to be used by SageMaker.
    /// </summary>
    /// <returns>The role Amazon Resource Name (ARN).</returns>
    public static async Task<string> CreateSageMakerRole()
    {
        Console.WriteLine(new string('-', 80));

        sageMakerRolePolicies = new string[]{
            "arn:aws:iam::aws:policy/AmazonSageMakerFullAccess",
            "arn:aws:iam::aws:policy/AmazonSageMakerGeospatialFullAccess",
        };

        var roleArn = await GetRoleArnIfExists(sageMakerRoleName);
        if (!string.IsNullOrEmpty(roleArn))
        {
            return roleArn;
        }

        Console.WriteLine("\tCreating a role to use with SageMaker.");

        var assumeRolePolicy = "{" +
                                        "\"Version\": \"2012-10-17\"," +
                                        "\"Statement\": [{" +
                                            "\"Effect\": \"Allow\"," +
                                            "\"Principal\": {" +
                                                $"\"Service\": [" +
                                                    "\"sagemaker.amazonaws.com\"," +
                                                    "\"sagemaker-geospatial.amazonaws.com\"," +
                                                    "\"lambda.amazonaws.com\"," +
                                                    "\"s3.amazonaws.com\"" +
                                                "]" +
                                            "}," +
                                            "\"Action\": \"sts:AssumeRole\"" +
                                        "}]" +
                                    "}";

        var roleResult = await _iamClient!.CreateRoleAsync(
            new CreateRoleRequest()
            {
                AssumeRolePolicyDocument = assumeRolePolicy,
                Path = "/",
                RoleName = sageMakerRoleName
            });

        foreach (var policy in sageMakerRolePolicies)
        {
            await _iamClient.AttachRolePolicyAsync(
                new AttachRolePolicyRequest()
                {
                    PolicyArn = policy,
                    RoleName = sageMakerRoleName
                });
        }

        // Allow time for the role to be ready.
        Thread.Sleep(10000);
        Console.WriteLine($"\tRole ready with ARN {roleResult.Role.Arn}.");
        Console.WriteLine(new string('-', 80));
        return roleResult.Role.Arn;
    }

    /// <summary>
    /// Set up the SQS queue to use with the pipeline.
    /// </summary>
    /// <param name="queueName">The name for the queue.</param>
    /// <returns>The URL for the queue.</returns>
    public static async Task<string> SetupQueue(string queueName)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Setting up queue {queueName}.");

        try
        {
            var queueInfo = await _sqsClient.GetQueueUrlAsync(new GetQueueUrlRequest()
            { QueueName = queueName });
            return queueInfo.QueueUrl;
        }
        catch (QueueDoesNotExistException)
        {
            var attrs = new Dictionary<string, string>
            {
                {
                    QueueAttributeName.DelaySeconds,
                    "5"
                },
                {
                    QueueAttributeName.ReceiveMessageWaitTimeSeconds,
                    "5"
                },
                {
                    QueueAttributeName.VisibilityTimeout,
                    "300"
                },
            };

            var request = new CreateQueueRequest
            {
                Attributes = attrs,
                QueueName = queueName,
            };

            var response = await _sqsClient.CreateQueueAsync(request);
            Thread.Sleep(10000);
            await ConnectLambda(response.QueueUrl);
            Console.WriteLine($"\tQueue ready with Url {response.QueueUrl}.");
            Console.WriteLine(new string('-', 80));
            return response.QueueUrl;
        }
    }

    /// <summary>
    /// Connect the queue to the Lambda function as an event source.
    /// </summary>
    /// <param name="queueUrl">The URL for the queue.</param>
    /// <returns>Async task.</returns>
    public static async Task ConnectLambda(string queueUrl)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Connecting the Lambda function and queue for the pipeline.");

        var queueAttributes = await _sqsClient.GetQueueAttributesAsync(
            new GetQueueAttributesRequest() { QueueUrl = queueUrl, AttributeNames = new List<string>() { "All" } });
        var queueArn = queueAttributes.QueueARN;

        var eventSource = await _lambdaClient.ListEventSourceMappingsAsync(
             new ListEventSourceMappingsRequest()
             {
                 FunctionName = lambdaFunctionName
             });

        if (!eventSource.EventSourceMappings.Any())
        {
            // Only add the event source mapping if it does not already exist.
            await _lambdaClient.CreateEventSourceMappingAsync(
                new CreateEventSourceMappingRequest()
                {
                    EventSourceArn = queueArn,
                    FunctionName = lambdaFunctionName,
                    Enabled = true
                });
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Set up the bucket to use for pipeline input and output.
    /// </summary>
    /// <param name="bucketName">The name for the bucket.</param>
    /// <returns>Async task.</returns>
    public static async Task SetupBucket(string bucketName)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Setting up bucket {bucketName}.");

        var bucketExists = await Amazon.S3.Util.AmazonS3Util.DoesS3BucketExistV2Async(_s3Client,
            bucketName);

        if (!bucketExists)
        {
            await _s3Client.PutBucketAsync(new PutBucketRequest()
            {
                BucketName = bucketName,
                BucketRegion = S3Region.USWest2
            });

            Thread.Sleep(5000);

            await _s3Client.PutObjectAsync(new PutObjectRequest()
            {
                BucketName = bucketName,
                Key = "samplefiles/latlongtest.csv",
                FilePath = "latlongtest.csv"
            });
        }

        Console.WriteLine($"\tBucket {bucketName} ready.");
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Display some results from the output directory.
    /// </summary>
    /// <param name="bucketName">The name for the bucket.</param>
    /// <returns>Async task.</returns>
    public static async Task<string> GetOutputResults(string bucketName)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Getting output results {bucketName}.");
        string outputKey = "";
        Thread.Sleep(15000);
        var outputFiles = await _s3Client.ListObjectsAsync(
              new ListObjectsRequest()
              {
                  BucketName = bucketName,
                  Prefix = "outputfiles/"
              });

        if (outputFiles.S3Objects.Any())
        {
            var sampleOutput = outputFiles.S3Objects.OrderBy(s => s.LastModified).Last();
            Console.WriteLine($"\tOutput file: {sampleOutput.Key}");
            var outputSampleResponse = await _s3Client.GetObjectAsync(
                new GetObjectRequest()
                {
                    BucketName = bucketName,
                    Key = sampleOutput.Key
                });
            outputKey = sampleOutput.Key;
            StreamReader reader = new StreamReader(outputSampleResponse.ResponseStream);
            await reader.ReadLineAsync();
            Console.WriteLine("\tOutput file contents: \n");
            for (int i = 0; i < 10; i++)
            {
                if (!reader.EndOfStream)
                {
                    Console.WriteLine("\t" + await reader.ReadLineAsync());
                }
            }
        }

        Console.WriteLine(new string('-', 80));
        return outputKey;
    }

    /// <summary>
    /// Create a pipeline from the example pipeline JSON
    /// that includes the Lambda, callback, processing, and export jobs.
    /// </summary>
    /// <param name="roleArn">The ARN of the role for the pipeline.</param>
    /// <param name="functionArn">The ARN of the Lambda function for the pipeline.</param>
    /// <param name="pipelineName">The name for the pipeline.</param>
    /// <returns>The ARN of the pipeline.</returns>
    public static async Task<string> SetupPipeline(string roleArn, string functionArn, string pipelineName)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Setting up the pipeline.");

        var pipelineJson = await File.ReadAllTextAsync("GeoSpatialPipeline.json");

        // Add the correct function ARN instead of the placeholder.
        pipelineJson = pipelineJson.Replace("*FUNCTION_ARN*", functionArn);

        var pipelineArn = await _sageMakerWrapper.SetupPipeline(pipelineJson, roleArn, pipelineName,
            "sdk example pipeline", pipelineName);

        Console.WriteLine($"\tPipeline set up with ARN {pipelineArn}.");
        Console.WriteLine(new string('-', 80));

        return pipelineArn;
    }

    /// <summary>
    /// Start a pipeline run with job configurations.
    /// </summary>
    /// <param name="queueUrl">The URL for the queue used in the pipeline.</param>
    /// <param name="roleArn">The ARN of the role.</param>
    /// <param name="pipelineName">The name of the pipeline.</param>
    /// <param name="bucketName">The name of the bucket.</param>
    /// <returns>The pipeline run ARN.</returns>
    public static async Task<string> ExecutePipeline(
        string queueUrl,
        string roleArn,
        string pipelineName,
        string bucketName)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Starting pipeline execution.");

        var input = $"s3://{bucketName}/samplefiles/latlongtest.csv";
        var output = $"s3://{bucketName}/outputfiles/";

        var executionARN =
            await _sageMakerWrapper.ExecutePipeline(queueUrl, input, output,
                pipelineName, roleArn);

        Console.WriteLine($"\tRun started with ARN {executionARN}.");
        Console.WriteLine(new string('-', 80));

        return executionARN;
    }

    /// <summary>
    /// Wait for a pipeline run to complete.
    /// </summary>
    /// <param name="executionArn">The pipeline run ARN.</param>
    /// <returns>Async task.</returns>
    public static async Task WaitForPipelineExecution(string executionArn)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Waiting for pipeline to finish.");

        PipelineExecutionStatus status;
        do
        {
            status = await _sageMakerWrapper.CheckPipelineExecutionStatus(executionArn);
            Thread.Sleep(30000);
            Console.WriteLine($"\tStatus is {status}.");
        } while (status == PipelineExecutionStatus.Executing);

        Console.WriteLine($"\tPipeline finished with status {status}.");
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <param name="askUser">True to ask the user for cleanup.</param>
    /// <param name="queueUrl">The URL of the queue to clean up.</param>
    /// <param name="pipelineName">The name of the pipeline.</param>
    /// <param name="bucketName">The name of the bucket.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> CleanupResources(
        bool askUser,
        string queueUrl,
        string pipelineName,
        string bucketName)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Clean up resources.");

        if (!askUser || GetYesNoResponse($"\tDelete pipeline {pipelineName}? (y/n)"))
        {
            Console.WriteLine($"\tDeleting pipeline.");
            // Delete the pipeline.
            await _sageMakerWrapper.DeletePipelineByName(pipelineName);
        }

        if (!string.IsNullOrEmpty(queueUrl) && (!askUser || GetYesNoResponse($"\tDelete queue {queueUrl}? (y/n)")))
        {
            Console.WriteLine($"\tDeleting queue.");
            // Delete the queue.
            await _sqsClient.DeleteQueueAsync(new DeleteQueueRequest(queueUrl));
        }

        if (!askUser || GetYesNoResponse($"\tDelete Amazon S3 bucket {bucketName}? (y/n)"))
        {
            Console.WriteLine($"\tDeleting bucket.");
            // Delete all objects in the bucket.
            var deleteList = await _s3Client.ListObjectsV2Async(new ListObjectsV2Request()
            {
                BucketName = bucketName
            });
            if (deleteList.KeyCount > 0)
            {
                await _s3Client.DeleteObjectsAsync(new DeleteObjectsRequest()
                {
                    BucketName = bucketName,
                    Objects = deleteList.S3Objects
                        .Select(o => new KeyVersion { Key = o.Key }).ToList()
                });
            }

            // Now delete the bucket.
            await _s3Client.DeleteBucketAsync(new DeleteBucketRequest()
            {
                BucketName = bucketName
            });
        }

        if (!askUser || GetYesNoResponse($"\tDelete lambda {lambdaFunctionName}? (y/n)"))
        {
            Console.WriteLine($"\tDeleting lambda function.");

            await _lambdaClient.DeleteFunctionAsync(new DeleteFunctionRequest()
            {
                FunctionName = lambdaFunctionName
            });
        }

        if (!askUser || GetYesNoResponse($"\tDelete role {lambdaRoleName}? (y/n)"))
        {
            Console.WriteLine($"\tDetaching policies and deleting role.");

            foreach (var policy in lambdaRolePolicies)
            {
                await _iamClient!.DetachRolePolicyAsync(new DetachRolePolicyRequest()
                {
                    RoleName = lambdaRoleName,
                    PolicyArn = policy
                });
            }

            await _iamClient!.DeleteRoleAsync(new DeleteRoleRequest()
            {
                RoleName = lambdaRoleName
            });
        }

        if (!askUser || GetYesNoResponse($"\tDelete role {sageMakerRoleName}? (y/n)"))
        {
            Console.WriteLine($"\tDetaching policies and deleting role.");

            foreach (var policy in sageMakerRolePolicies)
            {
                await _iamClient!.DetachRolePolicyAsync(new DetachRolePolicyRequest()
                {
                    RoleName = sageMakerRoleName,
                    PolicyArn = policy
                });
            }

            await _iamClient!.DeleteRoleAsync(new DeleteRoleRequest()
            {
                RoleName = sageMakerRoleName
            });
        }

        Console.WriteLine(new string('-', 80));
        return true;
    }

    /// <summary>
    /// Helper method to get a role's ARN if it already exists.
    /// </summary>
    /// <param name="roleName">The name of the AWS Identity and Access Management (IAM) Role to look for.</param>
    /// <returns>The role ARN if it exists, otherwise an empty string.</returns>
    private static async Task<string> GetRoleArnIfExists(string roleName)
    {
        Console.WriteLine($"Checking for role named {roleName}.");

        try
        {
            var existingRole = await _iamClient.GetRoleAsync(new GetRoleRequest()
            {
                RoleName = lambdaRoleName
            });
            return existingRole.Role.Arn;
        }
        catch (NoSuchEntityException)
        {
            return string.Empty;
        }
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null &&
                       ynResponse.Equals("y",
                           StringComparison.InvariantCultureIgnoreCase);
        return response;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreatePipeline](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/CreatePipeline)
  + [DeletePipeline](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/DeletePipeline)
  + [DescribePipelineExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/DescribePipelineExecution)
  + [StartPipelineExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/StartPipelineExecution)
  + [UpdatePipeline](https://docs.aws.amazon.com/goto/DotNetSDKV3/sagemaker-2017-07-24/UpdatePipeline)

# Secrets Manager contoh menggunakan SDK untuk .NET
<a name="csharp_3_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Secrets Manager AWS SDK untuk .NET with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetSecretValue`
<a name="secrets-manager_GetSecretValue_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSecretValue`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SecretsManager#code-examples). 

```
    using System;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.SecretsManager;
    using Amazon.SecretsManager.Model;

    /// <summary>
    /// This example uses the Amazon Web Service Secrets Manager to retrieve
    /// the secret value for the provided secret name.
    /// </summary>
    public class GetSecretValue
    {
        /// <summary>
        /// The main method initializes the necessary values and then calls
        /// the GetSecretAsync and DecodeString methods to get the decoded
        /// secret value for the secret named in secretName.
        /// </summary>
        public static async Task Main()
        {
            string secretName = "<<{{MySecretName}}>>";
            string secret;

            IAmazonSecretsManager client = new AmazonSecretsManagerClient();

            var response = await GetSecretAsync(client, secretName);

            if (response is not null)
            {
                secret = DecodeString(response);

                if (!string.IsNullOrEmpty(secret))
                {
                    Console.WriteLine($"The decoded secret value is: {secret}.");
                }
                else
                {
                    Console.WriteLine("No secret value was returned.");
                }
            }
        }

        /// <summary>
        /// Retrieves the secret value given the name of the secret to
        /// retrieve.
        /// </summary>
        /// <param name="client">The client object used to retrieve the secret
        /// value for the given secret name.</param>
        /// <param name="secretName">The name of the secret value to retrieve.</param>
        /// <returns>The GetSecretValueReponse object returned by
        /// GetSecretValueAsync.</returns>
        public static async Task<GetSecretValueResponse> GetSecretAsync(
            IAmazonSecretsManager client,
            string secretName)
        {
            GetSecretValueRequest request = new GetSecretValueRequest()
            {
                SecretId = secretName,
                VersionStage = "AWSCURRENT", // VersionStage defaults to AWSCURRENT if unspecified.
            };

            GetSecretValueResponse response = null;

            // For the sake of simplicity, this example handles only the most
            // general SecretsManager exception.
            try
            {
                response = await client.GetSecretValueAsync(request);
            }
            catch (AmazonSecretsManagerException e)
            {
                Console.WriteLine($"Error: {e.Message}");
            }

            return response;
        }

        /// <summary>
        /// Decodes the secret returned by the call to GetSecretValueAsync and
        /// returns it to the calling program.
        /// </summary>
        /// <param name="response">A GetSecretValueResponse object containing
        /// the requested secret value returned by GetSecretValueAsync.</param>
        /// <returns>A string representing the decoded secret value.</returns>
        public static string DecodeString(GetSecretValueResponse response)
        {
            // Decrypts secret using the associated AWS Key Management Service
            // Customer Master Key (CMK.) Depending on whether the secret is a
            // string or binary value, one of these fields will be populated.
            if (response.SecretString is not null)
            {
                var secret = response.SecretString;
                return secret;
            }
            else if (response.SecretBinary is not null)
            {
                var memoryStream = response.SecretBinary;
                StreamReader reader = new StreamReader(memoryStream);
                string decodedBinarySecret = System.Text.Encoding.UTF8.GetString(Convert.FromBase64String(reader.ReadToEnd()));
                return decodedBinarySecret;
            }
            else
            {
                return string.Empty;
            }
        }
    }
```
+  Untuk detail API, lihat [GetSecretValue](https://docs.aws.amazon.com/goto/DotNetSDKV3/secretsmanager-2017-10-17/GetSecretValue)di *Referensi AWS SDK untuk .NET API*. 

# Amazon SES contoh menggunakan SDK untuk .NET
<a name="csharp_3_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET With Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateTemplate`
<a name="ses_CreateTemplate_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTemplate`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// Create an email template.
    /// </summary>
    /// <param name="name">Name of the template.</param>
    /// <param name="subject">Email subject.</param>
    /// <param name="text">Email body text.</param>
    /// <param name="html">Email HTML body text.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CreateEmailTemplateAsync(string name, string subject, string text,
        string html)
    {
        var success = false;
        try
        {
            var response = await _amazonSimpleEmailService.CreateTemplateAsync(
                new CreateTemplateRequest
                {
                    Template = new Template
                    {
                        TemplateName = name,
                        SubjectPart = subject,
                        TextPart = text,
                        HtmlPart = html
                    }
                });
            success = response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (Exception ex)
        {
            Console.WriteLine("CreateEmailTemplateAsync failed with exception: " + ex.Message);
        }

        return success;
    }
```
+  Untuk detail API, lihat [CreateTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/CreateTemplate)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteIdentity`
<a name="ses_DeleteIdentity_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteIdentity`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// Delete an email identity.
    /// </summary>
    /// <param name="identityEmail">The identity email to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteIdentityAsync(string identityEmail)
    {
        var success = false;
        try
        {
            var response = await _amazonSimpleEmailService.DeleteIdentityAsync(
                new DeleteIdentityRequest
                {
                    Identity = identityEmail
                });
            success = response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (Exception ex)
        {
            Console.WriteLine("DeleteIdentityAsync failed with exception: " + ex.Message);
        }

        return success;
    }
```
+  Untuk detail API, lihat [DeleteIdentity](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/DeleteIdentity)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteTemplate`
<a name="ses_DeleteTemplate_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTemplate`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// Delete an email template.
    /// </summary>
    /// <param name="templateName">Name of the template.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteEmailTemplateAsync(string templateName)
    {
        var success = false;
        try
        {
            var response = await _amazonSimpleEmailService.DeleteTemplateAsync(
                new DeleteTemplateRequest
                {
                    TemplateName = templateName
                });
            success = response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (Exception ex)
        {
            Console.WriteLine("DeleteEmailTemplateAsync failed with exception: " + ex.Message);
        }

        return success;
    }
```
+  Untuk detail API, lihat [DeleteTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/DeleteTemplate)di *Referensi AWS SDK untuk .NET API*. 

### `GetIdentityVerificationAttributes`
<a name="ses_GetIdentityVerificationAttributes_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetIdentityVerificationAttributes`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// Get identity verification status for an email.
    /// </summary>
    /// <returns>The verification status of the email.</returns>
    public async Task<VerificationStatus> GetIdentityStatusAsync(string email)
    {
        var result = VerificationStatus.TemporaryFailure;
        try
        {
            var response =
                await _amazonSimpleEmailService.GetIdentityVerificationAttributesAsync(
                    new GetIdentityVerificationAttributesRequest
                    {
                        Identities = new List<string> { email }
                    });

            if (response.VerificationAttributes.ContainsKey(email))
                result = response.VerificationAttributes[email].VerificationStatus;
        }
        catch (Exception ex)
        {
            Console.WriteLine("GetIdentityStatusAsync failed with exception: " + ex.Message);
        }

        return result;
    }
```
+  Untuk detail API, lihat [GetIdentityVerificationAttributes](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/GetIdentityVerificationAttributes)di *Referensi AWS SDK untuk .NET API*. 

### `GetSendQuota`
<a name="ses_GetSendQuota_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSendQuota`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// Get information on the current account's send quota.
    /// </summary>
    /// <returns>The send quota response data.</returns>
    public async Task<GetSendQuotaResponse> GetSendQuotaAsync()
    {
        var result = new GetSendQuotaResponse();
        try
        {
            var response = await _amazonSimpleEmailService.GetSendQuotaAsync(
                new GetSendQuotaRequest());
            result = response;
        }
        catch (Exception ex)
        {
            Console.WriteLine("GetSendQuotaAsync failed with exception: " + ex.Message);
        }

        return result;
    }
```
+  Untuk detail API, lihat [GetSendQuota](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/GetSendQuota)di *Referensi AWS SDK untuk .NET API*. 

### `ListIdentities`
<a name="ses_ListIdentities_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentities`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// Get the identities of a specified type for the current account.
    /// </summary>
    /// <param name="identityType">IdentityType to list.</param>
    /// <returns>The list of identities.</returns>
    public async Task<List<string>> ListIdentitiesAsync(IdentityType identityType)
    {
        var result = new List<string>();
        try
        {
            var response = await _amazonSimpleEmailService.ListIdentitiesAsync(
                new ListIdentitiesRequest
                {
                    IdentityType = identityType
                });
            result = response.Identities;
        }
        catch (Exception ex)
        {
            Console.WriteLine("ListIdentitiesAsync failed with exception: " + ex.Message);
        }

        return result;
    }
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/ListIdentities)di *Referensi AWS SDK untuk .NET API*. 

### `ListTemplates`
<a name="ses_ListTemplates_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTemplates`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// List email templates for the current account.
    /// </summary>
    /// <returns>A list of template metadata.</returns>
    public async Task<List<TemplateMetadata>> ListEmailTemplatesAsync()
    {
        var result = new List<TemplateMetadata>();
        try
        {
            var response = await _amazonSimpleEmailService.ListTemplatesAsync(
                new ListTemplatesRequest());
            result = response.TemplatesMetadata;
        }
        catch (Exception ex)
        {
            Console.WriteLine("ListEmailTemplatesAsync failed with exception: " + ex.Message);
        }

        return result;
    }
```
+  Untuk detail API, lihat [ListTemplates](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/ListTemplates)di *Referensi AWS SDK untuk .NET API*. 

### `SendEmail`
<a name="ses_SendEmail_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    ///  Send an email by using Amazon SES.
    /// </summary>
    /// <param name="toAddresses">List of recipients.</param>
    /// <param name="ccAddresses">List of cc recipients.</param>
    /// <param name="bccAddresses">List of bcc recipients.</param>
    /// <param name="bodyHtml">Body of the email in HTML.</param>
    /// <param name="bodyText">Body of the email in plain text.</param>
    /// <param name="subject">Subject line of the email.</param>
    /// <param name="senderAddress">From address.</param>
    /// <returns>The messageId of the email.</returns>
    public async Task<string> SendEmailAsync(List<string> toAddresses,
        List<string> ccAddresses, List<string> bccAddresses,
        string bodyHtml, string bodyText, string subject, string senderAddress)
    {
        var messageId = "";
        try
        {
            var response = await _amazonSimpleEmailService.SendEmailAsync(
                new SendEmailRequest
                {
                    Destination = new Destination
                    {
                        BccAddresses = bccAddresses,
                        CcAddresses = ccAddresses,
                        ToAddresses = toAddresses
                    },
                    Message = new Message
                    {
                        Body = new Body
                        {
                            Html = new Content
                            {
                                Charset = "UTF-8",
                                Data = bodyHtml
                            },
                            Text = new Content
                            {
                                Charset = "UTF-8",
                                Data = bodyText
                            }
                        },
                        Subject = new Content
                        {
                            Charset = "UTF-8",
                            Data = subject
                        }
                    },
                    Source = senderAddress
                });
            messageId = response.MessageId;
        }
        catch (Exception ex)
        {
            Console.WriteLine("SendEmailAsync failed with exception: " + ex.Message);
        }

        return messageId;
    }
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/SendEmail)di *Referensi AWS SDK untuk .NET API*. 

### `SendTemplatedEmail`
<a name="ses_SendTemplatedEmail_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTemplatedEmail`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// Send an email using a template.
    /// </summary>
    /// <param name="sender">Address of the sender.</param>
    /// <param name="recipients">Addresses of the recipients.</param>
    /// <param name="templateName">Name of the email template.</param>
    /// <param name="templateDataObject">Data for the email template.</param>
    /// <returns>The messageId of the email.</returns>
    public async Task<string> SendTemplateEmailAsync(string sender, List<string> recipients,
        string templateName, object templateDataObject)
    {
        var messageId = "";
        try
        {
            // Template data should be serialized JSON from either a class or a dynamic object.
            var templateData = JsonSerializer.Serialize(templateDataObject);

            var response = await _amazonSimpleEmailService.SendTemplatedEmailAsync(
                new SendTemplatedEmailRequest
                {
                    Source = sender,
                    Destination = new Destination
                    {
                        ToAddresses = recipients
                    },
                    Template = templateName,
                    TemplateData = templateData
                });
            messageId = response.MessageId;
        }
        catch (Exception ex)
        {
            Console.WriteLine("SendTemplateEmailAsync failed with exception: " + ex.Message);
        }

        return messageId;
    }
```
+  Untuk detail API, lihat [SendTemplatedEmail](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/SendTemplatedEmail)di *Referensi AWS SDK untuk .NET API*. 

### `VerifyEmailIdentity`
<a name="ses_VerifyEmailIdentity_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyEmailIdentity`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SES#code-examples). 

```
    /// <summary>
    /// Starts verification of an email identity. This request sends an email
    /// from Amazon SES to the specified email address. To complete
    /// verification, follow the instructions in the email.
    /// </summary>
    /// <param name="recipientEmailAddress">Email address to verify.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> VerifyEmailIdentityAsync(string recipientEmailAddress)
    {
        var success = false;
        try
        {
            var response = await _amazonSimpleEmailService.VerifyEmailIdentityAsync(
                new VerifyEmailIdentityRequest
                {
                    EmailAddress = recipientEmailAddress
                });

            success = response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (Exception ex)
        {
            Console.WriteLine("VerifyEmailIdentityAsync failed with exception: " + ex.Message);
        }

        return success;
    }
```
+  Untuk detail API, lihat [VerifyEmailIdentity](https://docs.aws.amazon.com/goto/DotNetSDKV3/email-2010-12-01/VerifyEmailIdentity)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi web untuk melacak data DynamoDB
<a name="cross_DynamoDBDataTracker_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item kerja dalam tabel Amazon DynamoDB dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan Amazon DynamoDB .NET API untuk membuat aplikasi web dinamis yang melacak data kerja DynamoDB.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/DynamoDbItemTracker).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SES

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan AWS SDK untuk .NET untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan front end yang dibangun dengan React.js untuk berinteraksi dengan backend RESTful .NET.   
+ Integrasikan aplikasi web React dengan AWS layanan.
+ Cantumkan, tambahkan, perbarui, dan hapus butir di tabel Aurora.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/AuroraItemTracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan Amazon Rekognition .NET API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAnalyzerApp).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

# Amazon SES API v2 contoh menggunakan SDK untuk .NET
<a name="csharp_3_sesv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with Amazon SES API v2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateContact`
<a name="sesv2_CreateContact_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContact`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Creates a contact and adds it to the specified contact list.
    /// </summary>
    /// <param name="emailAddress">The email address of the contact.</param>
    /// <param name="contactListName">The name of the contact list.</param>
    /// <returns>The response from the CreateContact operation.</returns>
    public async Task<bool> CreateContactAsync(string emailAddress, string contactListName)
    {
        var request = new CreateContactRequest
        {
            EmailAddress = emailAddress,
            ContactListName = contactListName
        };

        try
        {
            var response = await _sesClient.CreateContactAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AlreadyExistsException ex)
        {
            Console.WriteLine($"Contact with email address {emailAddress} already exists in the contact list {contactListName}.");
            Console.WriteLine(ex.Message);
            return true;
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The contact list {contactListName} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating the contact: {ex.Message}");
        }
        return false;
    }
```
+  Untuk detail API, lihat [CreateContact](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/CreateContact)di *Referensi AWS SDK untuk .NET API*. 

### `CreateContactList`
<a name="sesv2_CreateContactList_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContactList`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Creates a contact list with the specified name.
    /// </summary>
    /// <param name="contactListName">The name of the contact list.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CreateContactListAsync(string contactListName)
    {
        var request = new CreateContactListRequest
        {
            ContactListName = contactListName
        };

        try
        {
            var response = await _sesClient.CreateContactListAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AlreadyExistsException ex)
        {
            Console.WriteLine($"Contact list with name {contactListName} already exists.");
            Console.WriteLine(ex.Message);
            return true;
        }
        catch (LimitExceededException ex)
        {
            Console.WriteLine("The limit for contact lists has been exceeded.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating the contact list: {ex.Message}");
        }
        return false;
    }
```
+  Untuk detail API, lihat [CreateContactList](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/CreateContactList)di *Referensi AWS SDK untuk .NET API*. 

### `CreateEmailIdentity`
<a name="sesv2_CreateEmailIdentity_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailIdentity`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Creates an email identity (email address or domain) and starts the verification process.
    /// </summary>
    /// <param name="emailIdentity">The email address or domain to create and verify.</param>
    /// <returns>The response from the CreateEmailIdentity operation.</returns>
    public async Task<CreateEmailIdentityResponse> CreateEmailIdentityAsync(string emailIdentity)
    {
        var request = new CreateEmailIdentityRequest
        {
            EmailIdentity = emailIdentity
        };

        try
        {
            var response = await _sesClient.CreateEmailIdentityAsync(request);
            return response;
        }
        catch (AlreadyExistsException ex)
        {
            Console.WriteLine($"Email identity {emailIdentity} already exists.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (ConcurrentModificationException ex)
        {
            Console.WriteLine($"The email identity {emailIdentity} is being modified by another operation or thread.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (LimitExceededException ex)
        {
            Console.WriteLine("The limit for email identities has been exceeded.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The email identity {emailIdentity} does not exist.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating the email identity: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [CreateEmailIdentity](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/CreateEmailIdentity)di *Referensi AWS SDK untuk .NET API*. 

### `CreateEmailTemplate`
<a name="sesv2_CreateEmailTemplate_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailTemplate`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Creates an email template with the specified content.
    /// </summary>
    /// <param name="templateName">The name of the email template.</param>
    /// <param name="subject">The subject of the email template.</param>
    /// <param name="htmlContent">The HTML content of the email template.</param>
    /// <param name="textContent">The text content of the email template.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CreateEmailTemplateAsync(string templateName, string subject, string htmlContent, string textContent)
    {
        var request = new CreateEmailTemplateRequest
        {
            TemplateName = templateName,
            TemplateContent = new EmailTemplateContent
            {
                Subject = subject,
                Html = htmlContent,
                Text = textContent
            }
        };

        try
        {
            var response = await _sesClient.CreateEmailTemplateAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AlreadyExistsException ex)
        {
            Console.WriteLine($"Email template with name {templateName} already exists.");
            Console.WriteLine(ex.Message);
        }
        catch (LimitExceededException ex)
        {
            Console.WriteLine("The limit for email templates has been exceeded.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating the email template: {ex.Message}");
        }

        return false;
    }
```
+  Untuk detail API, lihat [CreateEmailTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/CreateEmailTemplate)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteContactList`
<a name="sesv2_DeleteContactList_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteContactList`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Deletes a contact list and all contacts within it.
    /// </summary>
    /// <param name="contactListName">The name of the contact list to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteContactListAsync(string contactListName)
    {
        var request = new DeleteContactListRequest
        {
            ContactListName = contactListName
        };

        try
        {
            var response = await _sesClient.DeleteContactListAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (ConcurrentModificationException ex)
        {
            Console.WriteLine($"The contact list {contactListName} is being modified by another operation or thread.");
            Console.WriteLine(ex.Message);
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The contact list {contactListName} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting the contact list: {ex.Message}");
        }

        return false;
    }
```
+  Untuk detail API, lihat [DeleteContactList](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/DeleteContactList)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteEmailIdentity`
<a name="sesv2_DeleteEmailIdentity_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailIdentity`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Deletes an email identity (email address or domain).
    /// </summary>
    /// <param name="emailIdentity">The email address or domain to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteEmailIdentityAsync(string emailIdentity)
    {
        var request = new DeleteEmailIdentityRequest
        {
            EmailIdentity = emailIdentity
        };

        try
        {
            var response = await _sesClient.DeleteEmailIdentityAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (ConcurrentModificationException ex)
        {
            Console.WriteLine($"The email identity {emailIdentity} is being modified by another operation or thread.");
            Console.WriteLine(ex.Message);
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The email identity {emailIdentity} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting the email identity: {ex.Message}");
        }

        return false;
    }
```
+  Untuk detail API, lihat [DeleteEmailIdentity](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/DeleteEmailIdentity)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteEmailTemplate`
<a name="sesv2_DeleteEmailTemplate_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailTemplate`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Deletes an email template.
    /// </summary>
    /// <param name="templateName">The name of the email template to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteEmailTemplateAsync(string templateName)
    {
        var request = new DeleteEmailTemplateRequest
        {
            TemplateName = templateName
        };

        try
        {
            var response = await _sesClient.DeleteEmailTemplateAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The email template {templateName} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting the email template: {ex.Message}");
        }

        return false;
    }
```
+  Untuk detail API, lihat [DeleteEmailTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/DeleteEmailTemplate)di *Referensi AWS SDK untuk .NET API*. 

### `ListContacts`
<a name="sesv2_ListContacts_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListContacts`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Lists the contacts in the specified contact list.
    /// </summary>
    /// <param name="contactListName">The name of the contact list.</param>
    /// <returns>The list of contacts response from the ListContacts operation.</returns>
    public async Task<List<Contact>> ListContactsAsync(string contactListName)
    {
        var request = new ListContactsRequest
        {
            ContactListName = contactListName
        };

        try
        {
            var response = await _sesClient.ListContactsAsync(request);
            return response.Contacts;
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The contact list {contactListName} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while listing the contacts: {ex.Message}");
        }

        return new List<Contact>();
    }
```
+  Untuk detail API, lihat [ListContacts](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/ListContacts)di *Referensi AWS SDK untuk .NET API*. 

### `SendEmail`
<a name="sesv2_SendEmail_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 

```
    /// <summary>
    /// Sends an email with the specified content and options.
    /// </summary>
    /// <param name="fromEmailAddress">The email address to send the email from.</param>
    /// <param name="toEmailAddresses">The email addresses to send the email to.</param>
    /// <param name="subject">The subject of the email.</param>
    /// <param name="htmlContent">The HTML content of the email.</param>
    /// <param name="textContent">The text content of the email.</param>
    /// <param name="templateName">The name of the email template to use (optional).</param>
    /// <param name="templateData">The data to replace placeholders in the email template (optional).</param>
    /// <param name="contactListName">The name of the contact list for unsubscribe functionality (optional).</param>
    /// <returns>The MessageId response from the SendEmail operation.</returns>
    public async Task<string> SendEmailAsync(string fromEmailAddress, List<string> toEmailAddresses, string? subject,
        string? htmlContent, string? textContent, string? templateName = null, string? templateData = null, string? contactListName = null)
    {
        var request = new SendEmailRequest
        {
            FromEmailAddress = fromEmailAddress
        };

        if (toEmailAddresses.Any())
        {
            request.Destination = new Destination { ToAddresses = toEmailAddresses };
        }

        if (!string.IsNullOrEmpty(templateName))
        {
            request.Content = new EmailContent()
            {
                Template = new Template
                {
                    TemplateName = templateName,
                    TemplateData = templateData
                }
            };
        }
        else
        {
            request.Content = new EmailContent
            {
                Simple = new Message
                {
                    Subject = new Content { Data = subject },
                    Body = new Body
                    {
                        Html = new Content { Data = htmlContent },
                        Text = new Content { Data = textContent }
                    }
                }
            };
        }

        if (!string.IsNullOrEmpty(contactListName))
        {
            request.ListManagementOptions = new ListManagementOptions
            {
                ContactListName = contactListName
            };
        }

        try
        {
            var response = await _sesClient.SendEmailAsync(request);
            return response.MessageId;
        }
        catch (AccountSuspendedException ex)
        {
            Console.WriteLine("The account's ability to send email has been permanently restricted.");
            Console.WriteLine(ex.Message);
        }
        catch (MailFromDomainNotVerifiedException ex)
        {
            Console.WriteLine("The sending domain is not verified.");
            Console.WriteLine(ex.Message);
        }
        catch (MessageRejectedException ex)
        {
            Console.WriteLine("The message content is invalid.");
            Console.WriteLine(ex.Message);
        }
        catch (SendingPausedException ex)
        {
            Console.WriteLine("The account's ability to send email is currently paused.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while sending the email: {ex.Message}");
        }

        return string.Empty;
    }
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/SendEmail)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Skenario buletin
<a name="sesv2_NewsletterWorkflow_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menjalankan skenario buletin Amazon SES API v2.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SESv2#code-examples). 
Jalankan skenario.  

```
using System.Diagnostics;
using System.Text.RegularExpressions;
using Amazon.SimpleEmailV2;
using Amazon.SimpleEmailV2.Model;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;
using Microsoft.Extensions.Logging.Debug;

namespace Sesv2Scenario;

public static class NewsletterWorkflow
{
    /*
      This scenario demonstrates how to use the Amazon Simple Email Service (SES) v2 to send a coupon newsletter to a list of subscribers.
      The scenario performs the following tasks:

      1. Prepare the application:
         - Create a verified email identity for sending and replying to emails.
         - Create a contact list to store the subscribers' email addresses.
         - Create an email template for the coupon newsletter.

      2. Gather subscriber email addresses:
         - Prompt the user for a base email address.
         - Create 3 variants of the email address using subaddress extensions (e.g., user+ses-weekly-newsletter-1@example.com).
         - Add each variant as a contact to the contact list.
         - Send a welcome email to each new contact.

      3. Send the coupon newsletter:
         - Retrieve the list of contacts from the contact list.
         - Send the coupon newsletter using the email template to each contact.

      4. Monitor and review:
         - Provide instructions for the user to review the sending activity and metrics in the AWS console.

      5. Clean up resources:
         - Delete the contact list (which also deletes all contacts within it).
         - Delete the email template.
         - Optionally delete the verified email identity.

    */

    public static SESv2Wrapper _sesv2Wrapper;
    public static string? _baseEmailAddress = null;
    public static string? _verifiedEmail = null;
    private static string _contactListName = "weekly-coupons-newsletter";
    private static string _templateName = "weekly-coupons";
    private static string _subject = "Weekly Coupons Newsletter";
    private static string _htmlContentFile = "coupon-newsletter.html";
    private static string _textContentFile = "coupon-newsletter.txt";
    private static string _htmlWelcomeFile = "welcome.html";
    private static string _textWelcomeFile = "welcome.txt";
    private static string _couponsDataFile = "sample_coupons.json";

    // Relative location of the resources folder.
    private static string _resourcesFilePathLocation = "../../../../resources/";

    public static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonSimpleEmailServiceV2>()
                    .AddTransient<SESv2Wrapper>()
            )
            .Build();

        ServicesSetup(host);

        try
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Welcome to the Amazon SES v2 Coupon Newsletter Scenario.");
            Console.WriteLine("This scenario demonstrates how to use the Amazon Simple Email Service (SES) v2 " +
                              "\r\nto send a coupon newsletter to a list of subscribers.");

            // Prepare the application.
            var emailIdentity = await PrepareApplication();

            // Gather subscriber email addresses.
            await GatherSubscriberEmailAddresses(emailIdentity);

            // Send the coupon newsletter.
            await SendCouponNewsletter(emailIdentity);

            // Monitor and review.
            MonitorAndReview(true);

            // Clean up resources.
            await Cleanup(emailIdentity, true);

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("Amazon SES v2 Coupon Newsletter scenario is complete.");
            Console.WriteLine(new string('-', 80));
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred: {ex.Message}");
        }
    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        _sesv2Wrapper = host.Services.GetRequiredService<SESv2Wrapper>();
    }

    /// <summary>
    /// Set up the resources for the scenario.
    /// </summary>
    /// <returns>The email address of the verified identity.</returns>
    public static async Task<string?> PrepareApplication()
    {
        var htmlContent = await File.ReadAllTextAsync(_resourcesFilePathLocation + _htmlContentFile);
        var textContent = await File.ReadAllTextAsync(_resourcesFilePathLocation + _textContentFile);

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("1. In this step, we will prepare the application:" +
                          "\r\n  - Create a verified email identity for sending and replying to emails." +
                          "\r\n  - Create a contact list to store the subscribers' email addresses." +
                          "\r\n  - Create an email template for the coupon newsletter.\r\n");

        // Prompt the user for a verified email address.
        while (!IsEmail(_verifiedEmail))
        {
            Console.Write("Enter a verified email address or an email to verify: ");
            _verifiedEmail = Console.ReadLine();
        }

        try
        {
            // Create an email identity and start the verification process.
            await _sesv2Wrapper.CreateEmailIdentityAsync(_verifiedEmail);
            Console.WriteLine($"Identity {_verifiedEmail} created.");
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine($"Identity {_verifiedEmail} already exists.");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Error creating email identity: {ex.Message}");
        }

        // Create a contact list.
        try
        {
            await _sesv2Wrapper.CreateContactListAsync(_contactListName);
            Console.WriteLine($"Contact list {_contactListName} created.");
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine($"Contact list {_contactListName} already exists.");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Error creating contact list: {ex.Message}");
        }

        // Create an email template.
        try
        {
            await _sesv2Wrapper.CreateEmailTemplateAsync(_templateName, _subject, htmlContent, textContent);
            Console.WriteLine($"Email template {_templateName} created.");
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine($"Email template {_templateName} already exists.");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Error creating email template: {ex.Message}");
        }

        return _verifiedEmail;
    }

    /// <summary>
    /// Generate subscriber addresses and send welcome emails.
    /// </summary>
    /// <param name="fromEmailAddress">The verified email address from PrepareApplication.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> GatherSubscriberEmailAddresses(string fromEmailAddress)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("2. In Step 2, we will gather subscriber email addresses:" +
                          "\r\n  - Prompt the user for a base email address." +
                          "\r\n  - Create 3 variants of the email address using subaddress extensions (e.g., user+ses-weekly-newsletter-1@example.com)." +
                          "\r\n  - Add each variant as a contact to the contact list." +
                          "\r\n  - Send a welcome email to each new contact.\r\n");

        // Prompt the user for a base email address.
        while (!IsEmail(_baseEmailAddress))
        {
            Console.Write("Enter a base email address (e.g., user@example.com): ");
            _baseEmailAddress = Console.ReadLine();
        }

        // Create 3 variants of the email address using +ses-weekly-newsletter-1, +ses-weekly-newsletter-2, etc.
        var baseEmailAddressParts = _baseEmailAddress!.Split("@");
        for (int i = 1; i <= 3; i++)
        {
            string emailAddress = $"{baseEmailAddressParts[0]}+ses-weekly-newsletter-{i}@{baseEmailAddressParts[1]}";

            try
            {
                // Create a contact with the email address in the contact list.
                await _sesv2Wrapper.CreateContactAsync(emailAddress, _contactListName);
                Console.WriteLine($"Contact {emailAddress} added to the {_contactListName} contact list.");
            }
            catch (AlreadyExistsException)
            {
                Console.WriteLine($"Contact {emailAddress} already exists in the {_contactListName} contact list.");
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Error creating contact {emailAddress}: {ex.Message}");
                return false;
            }

            // Send a welcome email to the new contact.
            try
            {
                string subject = "Welcome to the Weekly Coupons Newsletter";
                string htmlContent = await File.ReadAllTextAsync(_resourcesFilePathLocation + _htmlWelcomeFile);
                string textContent = await File.ReadAllTextAsync(_resourcesFilePathLocation + _textWelcomeFile);

                await _sesv2Wrapper.SendEmailAsync(fromEmailAddress, new List<string> { emailAddress }, subject, htmlContent, textContent);
                Console.WriteLine($"Welcome email sent to {emailAddress}.");
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Error sending welcome email to {emailAddress}: {ex.Message}");
                return false;
            }

            // Wait 2 seconds before sending the next email (if the account is in the SES Sandbox).
            await Task.Delay(2000);
        }

        return true;
    }

    /// <summary>
    ///  Send the coupon newsletter to the subscribers in the contact list.
    /// </summary>
    /// <param name="fromEmailAddress">The verified email address from PrepareApplication.</param>
    /// <returns>True if successful.</returns>
    public static async Task<bool> SendCouponNewsletter(string fromEmailAddress)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("3. In this step, we will send the coupon newsletter:" +
                          "\r\n  - Retrieve the list of contacts from the contact list." +
                          "\r\n  - Send the coupon newsletter using the email template to each contact.\r\n");


        // Retrieve the list of contacts from the contact list.
        var contacts = await _sesv2Wrapper.ListContactsAsync(_contactListName);
        if (!contacts.Any())
        {
            Console.WriteLine($"No contacts found in the {_contactListName} contact list.");
            return false;
        }

        // Load the coupon data from the sample_coupons.json file.
        string couponsData = await File.ReadAllTextAsync(_resourcesFilePathLocation + _couponsDataFile);

        // Send the coupon newsletter to each contact using the email template.
        try
        {
            foreach (var contact in contacts)
            {
                // To use the Contact List for list management, send to only one address at a time.
                await _sesv2Wrapper.SendEmailAsync(fromEmailAddress,
                    new List<string> { contact.EmailAddress },
                    null, null, null, _templateName, couponsData, _contactListName);
            }

            Console.WriteLine($"Coupon newsletter sent to contact list {_contactListName}.");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Error sending coupon newsletter to contact list {_contactListName}: {ex.Message}");
            return false;
        }

        return true;
    }

    /// <summary>
    /// Provide instructions for monitoring sending activity and metrics.
    /// </summary>
    /// <param name="interactive">True to run in interactive mode.</param>
    /// <returns>True if successful.</returns>
    public static bool MonitorAndReview(bool interactive)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("4. In step 4, we will monitor and review:" +
                          "\r\n  - Provide instructions for the user to review the sending activity and metrics in the AWS console.\r\n");

        Console.WriteLine("Review your sending activity using the SES Homepage in the AWS console.");
        Console.WriteLine("Press Enter to open the SES Homepage in your default browser...");
        if (interactive)
        {
            Console.ReadLine();
            try
            {
                // Open the SES Homepage in the default browser.
                Process.Start(new ProcessStartInfo
                {
                    FileName = "https://console.aws.amazon.com/ses/home",
                    UseShellExecute = true
                });
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Error opening the SES Homepage: {ex.Message}");
                return false;
            }
        }

        Console.WriteLine("Review the sending activity and email metrics, then press Enter to continue...");
        if (interactive)
            Console.ReadLine();
        return true;
    }

    /// <summary>
    /// Clean up the resources used in the scenario.
    /// </summary>
    /// <param name="verifiedEmailAddress">The verified email address from PrepareApplication.</param>
    /// <param name="interactive">True if interactive.</param>
    /// <returns>Async task.</returns>
    public static async Task<bool> Cleanup(string verifiedEmailAddress, bool interactive)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("5. Finally, we clean up resources:" +
                          "\r\n  - Delete the contact list (which also deletes all contacts within it)." +
                          "\r\n  - Delete the email template." +
                          "\r\n  - Optionally delete the verified email identity.\r\n");

        Console.WriteLine("Cleaning up resources...");

        // Delete the contact list (this also deletes all contacts in the list).
        try
        {
            await _sesv2Wrapper.DeleteContactListAsync(_contactListName);
            Console.WriteLine($"Contact list {_contactListName} deleted.");
        }
        catch (NotFoundException)
        {
            Console.WriteLine($"Contact list {_contactListName} not found.");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Error deleting contact list {_contactListName}: {ex.Message}");
            return false;
        }

        // Delete the email template.
        try
        {
            await _sesv2Wrapper.DeleteEmailTemplateAsync(_templateName);
            Console.WriteLine($"Email template {_templateName} deleted.");
        }
        catch (NotFoundException)
        {
            Console.WriteLine($"Email template {_templateName} not found.");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Error deleting email template {_templateName}: {ex.Message}");
            return false;
        }

        // Ask the user if they want to delete the email identity.
        var deleteIdentity = !interactive ||
            GetYesNoResponse(
                $"Do you want to delete the email identity {verifiedEmailAddress}? (y/n) ");
        if (deleteIdentity)
        {
            try
            {
                await _sesv2Wrapper.DeleteEmailIdentityAsync(verifiedEmailAddress);
                Console.WriteLine($"Email identity {verifiedEmailAddress} deleted.");
            }
            catch (NotFoundException)
            {
                Console.WriteLine(
                    $"Email identity {verifiedEmailAddress} not found.");
            }
            catch (Exception ex)
            {
                Console.WriteLine(
                    $"Error deleting email identity {verifiedEmailAddress}: {ex.Message}");
                return false;
            }
        }
        else
        {
            Console.WriteLine(
                $"Skipping deletion of email identity {verifiedEmailAddress}.");
        }

        return true;
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase);
        return response;
    }

    /// <summary>
    /// Simple check to verify a string is an email address.
    /// </summary>
    /// <param name="email">The string to verify.</param>
    /// <returns>True if a valid email.</returns>
    private static bool IsEmail(string? email)
    {
        if (string.IsNullOrEmpty(email))
            return false;
        return Regex.IsMatch(email, @"^[^@\s]+@[^@\s]+\.[^@\s]+$", RegexOptions.IgnoreCase);
    }
}
```
Pembungkus untuk operasi layanan.  

```
using System.Net;
using Amazon.SimpleEmailV2;
using Amazon.SimpleEmailV2.Model;

namespace Sesv2Scenario;

/// <summary>
/// Wrapper class for Amazon Simple Email Service (SES) v2 operations.
/// </summary>
public class SESv2Wrapper
{

    private readonly IAmazonSimpleEmailServiceV2 _sesClient;

    /// <summary>
    /// Constructor for the SESv2Wrapper.
    /// </summary>
    /// <param name="sesClient">The injected SES v2 client.</param>
    public SESv2Wrapper(IAmazonSimpleEmailServiceV2 sesClient)
    {
        _sesClient = sesClient;
    }

    /// <summary>
    /// Creates a contact and adds it to the specified contact list.
    /// </summary>
    /// <param name="emailAddress">The email address of the contact.</param>
    /// <param name="contactListName">The name of the contact list.</param>
    /// <returns>The response from the CreateContact operation.</returns>
    public async Task<bool> CreateContactAsync(string emailAddress, string contactListName)
    {
        var request = new CreateContactRequest
        {
            EmailAddress = emailAddress,
            ContactListName = contactListName
        };

        try
        {
            var response = await _sesClient.CreateContactAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AlreadyExistsException ex)
        {
            Console.WriteLine($"Contact with email address {emailAddress} already exists in the contact list {contactListName}.");
            Console.WriteLine(ex.Message);
            return true;
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The contact list {contactListName} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating the contact: {ex.Message}");
        }
        return false;
    }

    /// <summary>
    /// Creates a contact list with the specified name.
    /// </summary>
    /// <param name="contactListName">The name of the contact list.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CreateContactListAsync(string contactListName)
    {
        var request = new CreateContactListRequest
        {
            ContactListName = contactListName
        };

        try
        {
            var response = await _sesClient.CreateContactListAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AlreadyExistsException ex)
        {
            Console.WriteLine($"Contact list with name {contactListName} already exists.");
            Console.WriteLine(ex.Message);
            return true;
        }
        catch (LimitExceededException ex)
        {
            Console.WriteLine("The limit for contact lists has been exceeded.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating the contact list: {ex.Message}");
        }
        return false;
    }

    /// <summary>
    /// Creates an email identity (email address or domain) and starts the verification process.
    /// </summary>
    /// <param name="emailIdentity">The email address or domain to create and verify.</param>
    /// <returns>The response from the CreateEmailIdentity operation.</returns>
    public async Task<CreateEmailIdentityResponse> CreateEmailIdentityAsync(string emailIdentity)
    {
        var request = new CreateEmailIdentityRequest
        {
            EmailIdentity = emailIdentity
        };

        try
        {
            var response = await _sesClient.CreateEmailIdentityAsync(request);
            return response;
        }
        catch (AlreadyExistsException ex)
        {
            Console.WriteLine($"Email identity {emailIdentity} already exists.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (ConcurrentModificationException ex)
        {
            Console.WriteLine($"The email identity {emailIdentity} is being modified by another operation or thread.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (LimitExceededException ex)
        {
            Console.WriteLine("The limit for email identities has been exceeded.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The email identity {emailIdentity} does not exist.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating the email identity: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Creates an email template with the specified content.
    /// </summary>
    /// <param name="templateName">The name of the email template.</param>
    /// <param name="subject">The subject of the email template.</param>
    /// <param name="htmlContent">The HTML content of the email template.</param>
    /// <param name="textContent">The text content of the email template.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> CreateEmailTemplateAsync(string templateName, string subject, string htmlContent, string textContent)
    {
        var request = new CreateEmailTemplateRequest
        {
            TemplateName = templateName,
            TemplateContent = new EmailTemplateContent
            {
                Subject = subject,
                Html = htmlContent,
                Text = textContent
            }
        };

        try
        {
            var response = await _sesClient.CreateEmailTemplateAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (AlreadyExistsException ex)
        {
            Console.WriteLine($"Email template with name {templateName} already exists.");
            Console.WriteLine(ex.Message);
        }
        catch (LimitExceededException ex)
        {
            Console.WriteLine("The limit for email templates has been exceeded.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating the email template: {ex.Message}");
        }

        return false;
    }

    /// <summary>
    /// Deletes a contact list and all contacts within it.
    /// </summary>
    /// <param name="contactListName">The name of the contact list to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteContactListAsync(string contactListName)
    {
        var request = new DeleteContactListRequest
        {
            ContactListName = contactListName
        };

        try
        {
            var response = await _sesClient.DeleteContactListAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (ConcurrentModificationException ex)
        {
            Console.WriteLine($"The contact list {contactListName} is being modified by another operation or thread.");
            Console.WriteLine(ex.Message);
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The contact list {contactListName} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting the contact list: {ex.Message}");
        }

        return false;
    }

    /// <summary>
    /// Deletes an email identity (email address or domain).
    /// </summary>
    /// <param name="emailIdentity">The email address or domain to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteEmailIdentityAsync(string emailIdentity)
    {
        var request = new DeleteEmailIdentityRequest
        {
            EmailIdentity = emailIdentity
        };

        try
        {
            var response = await _sesClient.DeleteEmailIdentityAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (ConcurrentModificationException ex)
        {
            Console.WriteLine($"The email identity {emailIdentity} is being modified by another operation or thread.");
            Console.WriteLine(ex.Message);
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The email identity {emailIdentity} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting the email identity: {ex.Message}");
        }

        return false;
    }

    /// <summary>
    /// Deletes an email template.
    /// </summary>
    /// <param name="templateName">The name of the email template to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteEmailTemplateAsync(string templateName)
    {
        var request = new DeleteEmailTemplateRequest
        {
            TemplateName = templateName
        };

        try
        {
            var response = await _sesClient.DeleteEmailTemplateAsync(request);
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The email template {templateName} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting the email template: {ex.Message}");
        }

        return false;
    }

    /// <summary>
    /// Lists the contacts in the specified contact list.
    /// </summary>
    /// <param name="contactListName">The name of the contact list.</param>
    /// <returns>The list of contacts response from the ListContacts operation.</returns>
    public async Task<List<Contact>> ListContactsAsync(string contactListName)
    {
        var request = new ListContactsRequest
        {
            ContactListName = contactListName
        };

        try
        {
            var response = await _sesClient.ListContactsAsync(request);
            return response.Contacts;
        }
        catch (NotFoundException ex)
        {
            Console.WriteLine($"The contact list {contactListName} does not exist.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while listing the contacts: {ex.Message}");
        }

        return new List<Contact>();
    }

    /// <summary>
    /// Sends an email with the specified content and options.
    /// </summary>
    /// <param name="fromEmailAddress">The email address to send the email from.</param>
    /// <param name="toEmailAddresses">The email addresses to send the email to.</param>
    /// <param name="subject">The subject of the email.</param>
    /// <param name="htmlContent">The HTML content of the email.</param>
    /// <param name="textContent">The text content of the email.</param>
    /// <param name="templateName">The name of the email template to use (optional).</param>
    /// <param name="templateData">The data to replace placeholders in the email template (optional).</param>
    /// <param name="contactListName">The name of the contact list for unsubscribe functionality (optional).</param>
    /// <returns>The MessageId response from the SendEmail operation.</returns>
    public async Task<string> SendEmailAsync(string fromEmailAddress, List<string> toEmailAddresses, string? subject,
        string? htmlContent, string? textContent, string? templateName = null, string? templateData = null, string? contactListName = null)
    {
        var request = new SendEmailRequest
        {
            FromEmailAddress = fromEmailAddress
        };

        if (toEmailAddresses.Any())
        {
            request.Destination = new Destination { ToAddresses = toEmailAddresses };
        }

        if (!string.IsNullOrEmpty(templateName))
        {
            request.Content = new EmailContent()
            {
                Template = new Template
                {
                    TemplateName = templateName,
                    TemplateData = templateData
                }
            };
        }
        else
        {
            request.Content = new EmailContent
            {
                Simple = new Message
                {
                    Subject = new Content { Data = subject },
                    Body = new Body
                    {
                        Html = new Content { Data = htmlContent },
                        Text = new Content { Data = textContent }
                    }
                }
            };
        }

        if (!string.IsNullOrEmpty(contactListName))
        {
            request.ListManagementOptions = new ListManagementOptions
            {
                ContactListName = contactListName
            };
        }

        try
        {
            var response = await _sesClient.SendEmailAsync(request);
            return response.MessageId;
        }
        catch (AccountSuspendedException ex)
        {
            Console.WriteLine("The account's ability to send email has been permanently restricted.");
            Console.WriteLine(ex.Message);
        }
        catch (MailFromDomainNotVerifiedException ex)
        {
            Console.WriteLine("The sending domain is not verified.");
            Console.WriteLine(ex.Message);
        }
        catch (MessageRejectedException ex)
        {
            Console.WriteLine("The message content is invalid.");
            Console.WriteLine(ex.Message);
        }
        catch (SendingPausedException ex)
        {
            Console.WriteLine("The account's ability to send email is currently paused.");
            Console.WriteLine(ex.Message);
        }
        catch (TooManyRequestsException ex)
        {
            Console.WriteLine("Too many requests were made. Please try again later.");
            Console.WriteLine(ex.Message);
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while sending the email: {ex.Message}");
        }

        return string.Empty;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateContact](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/CreateContact)
  + [CreateContactList](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/CreateContactList)
  + [CreateEmailIdentity](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/CreateEmailIdentity)
  + [CreateEmailTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/CreateEmailTemplate)
  + [DeleteContactList](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/DeleteContactList)
  + [DeleteEmailIdentity](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/DeleteEmailIdentity)
  + [DeleteEmailTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/DeleteEmailTemplate)
  + [ListContacts](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/ListContacts)
  + [SendEmail.sederhana](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/SendEmail.simple)
  + [SendEmail.template](https://docs.aws.amazon.com/goto/DotNetSDKV3/sesv2-2019-09-27/SendEmail.template)

# Contoh Amazon SNS menggunakan SDK untuk .NET
<a name="csharp_3_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk .NET dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon SNS
<a name="sns_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SNS.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 

```
using Amazon.SimpleNotificationService;
using Amazon.SimpleNotificationService.Model;

namespace SNSActions;

public static class HelloSNS
{
    static async Task Main(string[] args)
    {
        var snsClient = new AmazonSimpleNotificationServiceClient();

        Console.WriteLine($"Hello Amazon SNS! Following are some of your topics:");
        Console.WriteLine();

        // You can use await and any of the async methods to get a response.
        // Let's get a list of topics.
        var response = await snsClient.ListTopicsAsync(
            new ListTopicsRequest());

        foreach (var topic in response.Topics)
        {
            Console.WriteLine($"\tTopic ARN: {topic.TopicArn}");
            Console.WriteLine();
        }
    }
}
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/ListTopics)di *Referensi AWS SDK untuk .NET API*. 

## Tindakan
<a name="actions"></a>

### `CheckIfPhoneNumberIsOptedOut`
<a name="sns_CheckIfPhoneNumberIsOptedOut_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckIfPhoneNumberIsOptedOut`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SNS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.SimpleNotificationService;
    using Amazon.SimpleNotificationService.Model;

    /// <summary>
    /// This example shows how to use the Amazon Simple Notification Service
    /// (Amazon SNS) to check whether a phone number has been opted out.
    /// </summary>
    public class IsPhoneNumOptedOut
    {
        public static async Task Main()
        {
            string phoneNumber = "+15551112222";

            IAmazonSimpleNotificationService client = new AmazonSimpleNotificationServiceClient();

            await CheckIfOptedOutAsync(client, phoneNumber);
        }

        /// <summary>
        /// Checks to see if the supplied phone number has been opted out.
        /// </summary>
        /// <param name="client">The initialized Amazon SNS Client object used
        /// to check if the phone number has been opted out.</param>
        /// <param name="phoneNumber">A string representing the phone number
        /// to check.</param>
        public static async Task CheckIfOptedOutAsync(IAmazonSimpleNotificationService client, string phoneNumber)
        {
            var request = new CheckIfPhoneNumberIsOptedOutRequest
            {
                PhoneNumber = phoneNumber,
            };

            try
            {
                var response = await client.CheckIfPhoneNumberIsOptedOutAsync(request);

                if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
                {
                    string optOutStatus = response.IsOptedOut ? "opted out" : "not opted out.";
                    Console.WriteLine($"The phone number: {phoneNumber} is {optOutStatus}");
                }
            }
            catch (AuthorizationErrorException ex)
            {
                Console.WriteLine($"{ex.Message}");
            }
        }
    }
```
+  Untuk detail API, lihat [CheckIfPhoneNumberIsOptedOut](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/CheckIfPhoneNumberIsOptedOut)di *Referensi AWS SDK untuk .NET API*. 

### `CreateTopic`
<a name="sns_CreateTopic_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SNS#code-examples). 
Buat topik dengan nama tertentu.  

```
    using System;
    using System.Threading.Tasks;
    using Amazon.SimpleNotificationService;
    using Amazon.SimpleNotificationService.Model;

    /// <summary>
    /// This example shows how to use Amazon Simple Notification Service
    /// (Amazon SNS) to add a new Amazon SNS topic.
    /// </summary>
    public class CreateSNSTopic
    {
        public static async Task Main()
        {
            string topicName = "ExampleSNSTopic";

            IAmazonSimpleNotificationService client = new AmazonSimpleNotificationServiceClient();

            var topicArn = await CreateSNSTopicAsync(client, topicName);
            Console.WriteLine($"New topic ARN: {topicArn}");
        }

        /// <summary>
        /// Creates a new SNS topic using the supplied topic name.
        /// </summary>
        /// <param name="client">The initialized SNS client object used to
        /// create the new topic.</param>
        /// <param name="topicName">A string representing the topic name.</param>
        /// <returns>The Amazon Resource Name (ARN) of the created topic.</returns>
        public static async Task<string> CreateSNSTopicAsync(IAmazonSimpleNotificationService client, string topicName)
        {
            var request = new CreateTopicRequest
            {
                Name = topicName,
            };

            var response = await client.CreateTopicAsync(request);

            return response.TopicArn;
        }
    }
```
Buat topik baru dengan nama dan atribut FIFO dan de-duplikasi tertentu.  

```
    /// <summary>
    /// Create a new topic with a name and specific FIFO and de-duplication attributes.
    /// </summary>
    /// <param name="topicName">The name for the topic.</param>
    /// <param name="useFifoTopic">True to use a FIFO topic.</param>
    /// <param name="useContentBasedDeduplication">True to use content-based de-duplication.</param>
    /// <returns>The ARN of the new topic.</returns>
    public async Task<string> CreateTopicWithName(string topicName, bool useFifoTopic, bool useContentBasedDeduplication)
    {
        var createTopicRequest = new CreateTopicRequest()
        {
            Name = topicName,
        };

        if (useFifoTopic)
        {
            // Update the name if it is not correct for a FIFO topic.
            if (!topicName.EndsWith(".fifo"))
            {
                createTopicRequest.Name = topicName + ".fifo";
            }

            // Add the attributes from the method parameters.
            createTopicRequest.Attributes = new Dictionary<string, string>
            {
                { "FifoTopic", "true" }
            };
            if (useContentBasedDeduplication)
            {
                createTopicRequest.Attributes.Add("ContentBasedDeduplication", "true");
            }
        }

        var createResponse = await _amazonSNSClient.CreateTopicAsync(createTopicRequest);
        return createResponse.TopicArn;
    }
```
+  Untuk detail API, lihat [CreateTopic](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/CreateTopic)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteTopic`
<a name="sns_DeleteTopic_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 
Hapus topik berdasarkan topiknya ARN.  

```
    /// <summary>
    /// Delete a topic by its topic ARN.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteTopicByArn(string topicArn)
    {
        var deleteResponse = await _amazonSNSClient.DeleteTopicAsync(
            new DeleteTopicRequest()
            {
                TopicArn = topicArn
            });
        return deleteResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteTopic](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/DeleteTopic)di *Referensi AWS SDK untuk .NET API*. 

### `GetTopicAttributes`
<a name="sns_GetTopicAttributes_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTopicAttributes`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SNS#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.SimpleNotificationService;

    /// <summary>
    /// This example shows how to retrieve the attributes of an Amazon Simple
    /// Notification Service (Amazon SNS) topic.
    /// </summary>
    public class GetTopicAttributes
    {
        public static async Task Main()
        {
            string topicArn = "arn:aws:sns:us-west-2:000000000000:ExampleSNSTopic";
            IAmazonSimpleNotificationService client = new AmazonSimpleNotificationServiceClient();

            var attributes = await GetTopicAttributesAsync(client, topicArn);
            DisplayTopicAttributes(attributes);
        }

        /// <summary>
        /// Given the ARN of the Amazon SNS topic, this method retrieves the topic
        /// attributes.
        /// </summary>
        /// <param name="client">The initialized Amazon SNS client object used
        /// to retrieve the attributes for the Amazon SNS topic.</param>
        /// <param name="topicArn">The ARN of the topic for which to retrieve
        /// the attributes.</param>
        /// <returns>A Dictionary of topic attributes.</returns>
        public static async Task<Dictionary<string, string>> GetTopicAttributesAsync(
            IAmazonSimpleNotificationService client,
            string topicArn)
        {
            var response = await client.GetTopicAttributesAsync(topicArn);

            return response.Attributes;
        }

        /// <summary>
        /// This method displays the attributes for an Amazon SNS topic.
        /// </summary>
        /// <param name="topicAttributes">A Dictionary containing the
        /// attributes for an Amazon SNS topic.</param>
        public static void DisplayTopicAttributes(Dictionary<string, string> topicAttributes)
        {
            foreach (KeyValuePair<string, string> entry in topicAttributes)
            {
                Console.WriteLine($"{entry.Key}: {entry.Value}\n");
            }
        }
    }
```
+  Untuk detail API, lihat [GetTopicAttributes](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/GetTopicAttributes)di *Referensi AWS SDK untuk .NET API*. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SNS#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.SimpleNotificationService;
    using Amazon.SimpleNotificationService.Model;

    /// <summary>
    /// This example will retrieve a list of the existing Amazon Simple
    /// Notification Service (Amazon SNS) subscriptions.
    /// </summary>
    public class ListSubscriptions
    {
        public static async Task Main()
        {
            IAmazonSimpleNotificationService client = new AmazonSimpleNotificationServiceClient();

            Console.WriteLine("Enter a topic ARN to list subscriptions for a specific topic, " +
                              "or press Enter to list subscriptions for all topics.");
            var topicArn = Console.ReadLine();
            Console.WriteLine();

            var subscriptions = await GetSubscriptionsListAsync(client, topicArn);

            DisplaySubscriptionList(subscriptions);
        }

        /// <summary>
        /// Gets a list of the existing Amazon SNS subscriptions, optionally by specifying a topic ARN.
        /// </summary>
        /// <param name="client">The initialized Amazon SNS client object used
        /// to obtain the list of subscriptions.</param>
        /// <param name="topicArn">The optional ARN of a specific topic. Defaults to null.</param>
        /// <returns>A list containing information about each subscription.</returns>
        public static async Task<List<Subscription>> GetSubscriptionsListAsync(IAmazonSimpleNotificationService client, string topicArn = null)
        {
            var results = new List<Subscription>();

            if (!string.IsNullOrEmpty(topicArn))
            {
                var paginateByTopic = client.Paginators.ListSubscriptionsByTopic(
                    new ListSubscriptionsByTopicRequest()
                    {
                        TopicArn = topicArn,
                    });

                // Get the entire list using the paginator.
                await foreach (var subscription in paginateByTopic.Subscriptions)
                {
                    results.Add(subscription);
                }
            }
            else
            {
                var paginateAllSubscriptions = client.Paginators.ListSubscriptions(new ListSubscriptionsRequest());

                // Get the entire list using the paginator.
                await foreach (var subscription in paginateAllSubscriptions.Subscriptions)
                {
                    results.Add(subscription);
                }
            }

            return results;
        }

        /// <summary>
        /// Display a list of Amazon SNS subscription information.
        /// </summary>
        /// <param name="subscriptionList">A list containing details for existing
        /// Amazon SNS subscriptions.</param>
        public static void DisplaySubscriptionList(List<Subscription> subscriptionList)
        {
            foreach (var subscription in subscriptionList)
            {
                Console.WriteLine($"Owner: {subscription.Owner}");
                Console.WriteLine($"Subscription ARN: {subscription.SubscriptionArn}");
                Console.WriteLine($"Topic ARN: {subscription.TopicArn}");
                Console.WriteLine($"Endpoint: {subscription.Endpoint}");
                Console.WriteLine($"Protocol: {subscription.Protocol}");
                Console.WriteLine();
            }
        }
    }
```
+  Untuk detail API, lihat [ListSubscriptions](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/ListSubscriptions)di *Referensi AWS SDK untuk .NET API*. 

### `ListTopics`
<a name="sns_ListTopics_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SNS#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.SimpleNotificationService;
    using Amazon.SimpleNotificationService.Model;

    /// <summary>
    /// Lists the Amazon Simple Notification Service (Amazon SNS)
    /// topics for the current account.
    /// </summary>
    public class ListSNSTopics
    {
        public static async Task Main()
        {
            IAmazonSimpleNotificationService client = new AmazonSimpleNotificationServiceClient();

            await GetTopicListAsync(client);
        }

        /// <summary>
        /// Retrieves the list of Amazon SNS topics in groups of up to 100
        /// topics.
        /// </summary>
        /// <param name="client">The initialized Amazon SNS client object used
        /// to retrieve the list of topics.</param>
        public static async Task GetTopicListAsync(IAmazonSimpleNotificationService client)
        {
            // If there are more than 100 Amazon SNS topics, the call to
            // ListTopicsAsync will return a value to pass to the
            // method to retrieve the next 100 (or less) topics.
            string nextToken = string.Empty;

            do
            {
                var response = await client.ListTopicsAsync(nextToken);
                DisplayTopicsList(response.Topics);
                nextToken = response.NextToken;
            }
            while (!string.IsNullOrEmpty(nextToken));
        }

        /// <summary>
        /// Displays the list of Amazon SNS Topic ARNs.
        /// </summary>
        /// <param name="topicList">The list of Topic ARNs.</param>
        public static void DisplayTopicsList(List<Topic> topicList)
        {
            foreach (var topic in topicList)
            {
                Console.WriteLine($"{topic.TopicArn}");
            }
        }
    }
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/ListTopics)di *Referensi AWS SDK untuk .NET API*. 

### `Publish`
<a name="sns_Publish_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SNS#code-examples). 
Publikasikan pesan ke topik.  

```
    using System;
    using System.Threading.Tasks;
    using Amazon.SimpleNotificationService;
    using Amazon.SimpleNotificationService.Model;

    /// <summary>
    /// This example publishes a message to an Amazon Simple Notification
    /// Service (Amazon SNS) topic.
    /// </summary>
    public class PublishToSNSTopic
    {
        public static async Task Main()
        {
            string topicArn = "arn:aws:sns:us-east-2:000000000000:ExampleSNSTopic";
            string messageText = "This is an example message to publish to the ExampleSNSTopic.";

            IAmazonSimpleNotificationService client = new AmazonSimpleNotificationServiceClient();

            await PublishToTopicAsync(client, topicArn, messageText);
        }

        /// <summary>
        /// Publishes a message to an Amazon SNS topic.
        /// </summary>
        /// <param name="client">The initialized client object used to publish
        /// to the Amazon SNS topic.</param>
        /// <param name="topicArn">The ARN of the topic.</param>
        /// <param name="messageText">The text of the message.</param>
        public static async Task PublishToTopicAsync(
            IAmazonSimpleNotificationService client,
            string topicArn,
            string messageText)
        {
            var request = new PublishRequest
            {
                TopicArn = topicArn,
                Message = messageText,
            };

            var response = await client.PublishAsync(request);

            Console.WriteLine($"Successfully published message ID: {response.MessageId}");
        }
    }
```
Publikasikan pesan ke topik dengan opsi grup, duplikasi, dan atribut.  

```
    /// <summary>
    /// Publish messages using user settings.
    /// </summary>
    /// <returns>Async task.</returns>
    public static async Task PublishMessages()
    {
        Console.WriteLine("Now we can publish messages.");

        var keepSendingMessages = true;
        string? deduplicationId = null;
        string? toneAttribute = null;
        while (keepSendingMessages)
        {
            Console.WriteLine();
            var message = GetUserResponse("Enter a message to publish.", "This is a sample message");

            if (_useFifoTopic)
            {
                Console.WriteLine("Because you are using a FIFO topic, you must set a message group ID." +
                                  "\r\nAll messages within the same group will be received in the order " +
                                  "they were published.");

                Console.WriteLine();
                var messageGroupId = GetUserResponse("Enter a message group ID for this message:", "1");

                if (!_useContentBasedDeduplication)
                {
                    Console.WriteLine("Because you are not using content-based deduplication, " +
                                      "you must enter a deduplication ID.");

                    Console.WriteLine("Enter a deduplication ID for this message.");
                    deduplicationId = GetUserResponse("Enter a deduplication ID for this message.", "1");
                }

                if (GetYesNoResponse("Add an attribute to this message?"))
                {
                    Console.WriteLine("Enter a number for an attribute.");
                    for (int i = 0; i < _tones.Length; i++)
                    {
                        Console.WriteLine($"\t{i + 1}. {_tones[i]}");
                    }

                    var selection = GetUserResponse("", "1");
                    int.TryParse(selection, out var selectionNumber);

                    if (selectionNumber > 0 && selectionNumber < _tones.Length)
                    {
                        toneAttribute = _tones[selectionNumber - 1];
                    }
                }

                var messageID = await SnsWrapper.PublishToTopicWithAttribute(
                    _topicArn, message, "tone", toneAttribute, deduplicationId, messageGroupId);

                Console.WriteLine($"Message published with id {messageID}.");
            }

            keepSendingMessages = GetYesNoResponse("Send another message?", false);
        }
    }
```
Terapkan pilihan pengguna ke tindakan publikasi.  

```
    /// <summary>
    /// Publish a message to a topic with an attribute and optional deduplication and group IDs.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="message">The message to publish.</param>
    /// <param name="attributeName">The optional attribute for the message.</param>
    /// <param name="attributeValue">The optional attribute value for the message.</param>
    /// <param name="deduplicationId">The optional deduplication ID for the message.</param>
    /// <param name="groupId">The optional group ID for the message.</param>
    /// <returns>The ID of the message published.</returns>
    public async Task<string> PublishToTopicWithAttribute(
        string topicArn,
        string message,
        string? attributeName = null,
        string? attributeValue = null,
        string? deduplicationId = null,
        string? groupId = null)
    {
        var publishRequest = new PublishRequest()
        {
            TopicArn = topicArn,
            Message = message,
            MessageDeduplicationId = deduplicationId,
            MessageGroupId = groupId
        };

        if (attributeValue != null)
        {
            // Add the string attribute if it exists.
            publishRequest.MessageAttributes =
                new Dictionary<string, MessageAttributeValue>
                {
                    { attributeName!, new MessageAttributeValue() { StringValue = attributeValue, DataType = "String"} }
                };
        }

        var publishResponse = await _amazonSNSClient.PublishAsync(publishRequest);
        return publishResponse.MessageId;
    }
```
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Publish) di *Referensi AWS SDK untuk .NET API*. 

### `Subscribe`
<a name="sns_Subscribe_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SNS#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
        /// <summary>
        /// Creates a new subscription to a topic.
        /// </summary>
        /// <param name="client">The initialized Amazon SNS client object, used
        /// to create an Amazon SNS subscription.</param>
        /// <param name="topicArn">The ARN of the topic to subscribe to.</param>
        /// <returns>A SubscribeResponse object which includes the subscription
        /// ARN for the new subscription.</returns>
        public static async Task<SubscribeResponse> TopicSubscribeAsync(
            IAmazonSimpleNotificationService client,
            string topicArn)
        {
            SubscribeRequest request = new SubscribeRequest()
            {
                TopicArn = topicArn,
                ReturnSubscriptionArn = true,
                Protocol = "email",
                Endpoint = "recipient@example.com",
            };

            var response = await client.SubscribeAsync(request);

            return response;
        }
```
Berlangganan antrian ke topik dengan filter opsional.  

```
    /// <summary>
    /// Subscribe a queue to a topic with optional filters.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="useFifoTopic">The optional filtering policy for the subscription.</param>
    /// <param name="queueArn">The ARN of the queue.</param>
    /// <returns>The ARN of the new subscription.</returns>
    public async Task<string> SubscribeTopicWithFilter(string topicArn, string? filterPolicy, string queueArn)
    {
        var subscribeRequest = new SubscribeRequest()
        {
            TopicArn = topicArn,
            Protocol = "sqs",
            Endpoint = queueArn
        };

        if (!string.IsNullOrEmpty(filterPolicy))
        {
            subscribeRequest.Attributes = new Dictionary<string, string> { { "FilterPolicy", filterPolicy } };
        }

        var subscribeResponse = await _amazonSNSClient.SubscribeAsync(subscribeRequest);
        return subscribeResponse.SubscriptionArn;
    }
```
+  Untuk detail API, lihat [Berlangganan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Subscribe) di *Referensi AWS SDK untuk .NET API*. 

### `Unsubscribe`
<a name="sns_Unsubscribe_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 
Berhenti berlangganan dari topik dengan berlangganan ARN.  

```
    /// <summary>
    /// Unsubscribe from a topic by a subscription ARN.
    /// </summary>
    /// <param name="subscriptionArn">The ARN of the subscription.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> UnsubscribeByArn(string subscriptionArn)
    {
        var unsubscribeResponse = await _amazonSNSClient.UnsubscribeAsync(
            new UnsubscribeRequest()
            {
                SubscriptionArn = subscriptionArn
            });
        return unsubscribeResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [Berhenti berlangganan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Unsubscribe) di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi Amazon SNS
<a name="cross_SnsPublishSubscription_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang memiliki langganan dan mempublikasikan fungsionalitas dan menerjemahkan pesan.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan Amazon Simple Notification Service .NET API untuk membuat aplikasi web yang memiliki fungsi berlangganan dan mempublikasikan. Selain itu, contoh aplikasi ini juga menerjemahkan pesan.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/SubscribePublishTranslate).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon SNS
+ Amazon Translate

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk .NET**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/PhotoAssetManager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Publikasikan pesan teks SMS
<a name="sns_PublishTextSMS_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan pesan SMS menggunakan Amazon SNS.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SNS#code-examples). 

```
namespace SNSMessageExample
{
    using System;
    using System.Threading.Tasks;
    using Amazon;
    using Amazon.SimpleNotificationService;
    using Amazon.SimpleNotificationService.Model;

    public class SNSMessage
    {
        private AmazonSimpleNotificationServiceClient snsClient;

        /// <summary>
        /// Initializes a new instance of the <see cref="SNSMessage"/> class.
        /// Constructs a new SNSMessage object initializing the Amazon Simple
        /// Notification Service (Amazon SNS) client using the supplied
        /// Region endpoint.
        /// </summary>
        /// <param name="regionEndpoint">The Amazon Region endpoint to use in
        /// sending test messages with this object.</param>
        public SNSMessage(RegionEndpoint regionEndpoint)
        {
            snsClient = new AmazonSimpleNotificationServiceClient(regionEndpoint);
        }

        /// <summary>
        /// Sends the SMS message passed in the text parameter to the phone number
        /// in phoneNum.
        /// </summary>
        /// <param name="phoneNum">The ten-digit phone number to which the text
        /// message will be sent.</param>
        /// <param name="text">The text of the message to send.</param>
        /// <returns>Async task.</returns>
        public async Task SendTextMessageAsync(string phoneNum, string text)
        {
            if (string.IsNullOrEmpty(phoneNum) || string.IsNullOrEmpty(text))
            {
                return;
            }

            // Now actually send the message.
            var request = new PublishRequest
            {
                Message = text,
                PhoneNumber = phoneNum,
            };

            try
            {
                var response = await snsClient.PublishAsync(request);
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Error sending message: {ex}");
            }
        }
    }
}
```
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Publish) di *Referensi AWS SDK untuk .NET API*. 

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
/// <summary>
/// Console application to run a feature scenario for topics and queues.
/// </summary>
public static class TopicsAndQueues
{
    private static bool _useFifoTopic = false;
    private static bool _useContentBasedDeduplication = false;
    private static string _topicName = null!;
    private static string _topicArn = null!;

    private static readonly int _queueCount = 2;
    private static readonly string[] _queueUrls = new string[_queueCount];
    private static readonly string[] _subscriptionArns = new string[_queueCount];
    private static readonly string[] _tones = { "cheerful", "funny", "serious", "sincere" };
    public static SNSWrapper SnsWrapper { get; set; } = null!;
    public static SQSWrapper SqsWrapper { get; set; } = null!;
    public static bool UseConsole { get; set; } = true;
    static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon EventBridge.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonSQS>()
                    .AddAWSService<IAmazonSimpleNotificationService>()
                    .AddTransient<SNSWrapper>()
                    .AddTransient<SQSWrapper>()
            )
            .Build();

        ServicesSetup(host);
        PrintDescription();

        await RunScenario();

    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        SnsWrapper = host.Services.GetRequiredService<SNSWrapper>();
        SqsWrapper = host.Services.GetRequiredService<SQSWrapper>();
    }

    /// <summary>
    /// Run the scenario for working with topics and queues.
    /// </summary>
    /// <returns>True if successful.</returns>
    public static async Task<bool> RunScenario()
    {
        try
        {
            await SetupTopic();

            await SetupQueues();

            await PublishMessages();

            foreach (var queueUrl in _queueUrls)
            {
                var messages = await PollForMessages(queueUrl);
                if (messages.Any())
                {
                    await DeleteMessages(queueUrl, messages);
                }
            }
            await CleanupResources();

            Console.WriteLine("Messaging with topics and queues scenario is complete.");
            return true;
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            await CleanupResources();
            Console.WriteLine(new string('-', 80));
            return false;
        }
    }

    /// <summary>
    /// Print a description for the tasks in the scenario.
    /// </summary>
    /// <returns>Async task.</returns>
    private static void PrintDescription()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Welcome to messaging with topics and queues.");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"In this scenario, you will create an SNS topic and subscribe {_queueCount} SQS queues to the topic." +
                          $"\r\nYou can select from several options for configuring the topic and the subscriptions for the 2 queues." +
                          $"\r\nYou can then post to the topic and see the results in the queues.\r\n");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Set up the SNS topic to be used with the queues.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task<string> SetupTopic()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"SNS topics can be configured as FIFO (First-In-First-Out)." +
                          $"\r\nFIFO topics deliver messages in order and support deduplication and message filtering." +
                          $"\r\nYou can then post to the topic and see the results in the queues.\r\n");

        _useFifoTopic = GetYesNoResponse("Would you like to work with FIFO topics?");

        if (_useFifoTopic)
        {
            Console.WriteLine(new string('-', 80));
            _topicName = GetUserResponse("Enter a name for your SNS topic: ", "example-topic");
            Console.WriteLine(
                "Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.\r\n");

            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"Because you have chosen a FIFO topic, deduplication is supported." +
                              $"\r\nDeduplication IDs are either set in the message or automatically generated " +
                              $"\r\nfrom content using a hash function.\r\n" +
                              $"\r\nIf a message is successfully published to an SNS FIFO topic, any message " +
                              $"\r\npublished and determined to have the same deduplication ID, " +
                              $"\r\nwithin the five-minute deduplication interval, is accepted but not delivered.\r\n" +
                              $"\r\nFor more information about deduplication, " +
                              $"\r\nsee https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.");

            _useContentBasedDeduplication = GetYesNoResponse("Use content-based deduplication instead of entering a deduplication ID?");
            Console.WriteLine(new string('-', 80));
        }

        _topicArn = await SnsWrapper.CreateTopicWithName(_topicName, _useFifoTopic, _useContentBasedDeduplication);

        Console.WriteLine($"Your new topic with the name {_topicName}" +
                          $"\r\nand Amazon Resource Name (ARN) {_topicArn}" +
                          $"\r\nhas been created.\r\n");

        Console.WriteLine(new string('-', 80));
        return _topicArn;
    }

    /// <summary>
    /// Set up the queues.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task SetupQueues()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Now you will create {_queueCount} Amazon Simple Queue Service (Amazon SQS) queues to subscribe to the topic.");

        // Repeat this section for each queue.
        for (int i = 0; i < _queueCount; i++)
        {
            var queueName = GetUserResponse("Enter a name for an Amazon SQS queue: ", $"example-queue-{i}");
            if (_useFifoTopic)
            {
                // Only explain this once.
                if (i == 0)
                {
                    Console.WriteLine(
                        "Because you have selected a FIFO topic, '.fifo' must be appended to the queue name.");
                }

                var queueUrl = await SqsWrapper.CreateQueueWithName(queueName, _useFifoTopic);

                _queueUrls[i] = queueUrl;

                Console.WriteLine($"Your new queue with the name {queueName}" +
                                  $"\r\nand queue URL {queueUrl}" +
                                  $"\r\nhas been created.\r\n");

                if (i == 0)
                {
                    Console.WriteLine(
                        $"The queue URL is used to retrieve the queue ARN,\r\n" +
                        $"which is used to create a subscription.");
                    Console.WriteLine(new string('-', 80));
                }

                var queueArn = await SqsWrapper.GetQueueArnByUrl(queueUrl);

                if (i == 0)
                {
                    Console.WriteLine(
                        $"An AWS Identity and Access Management (IAM) policy must be attached to an SQS queue, enabling it to receive\r\n" +
                        $"messages from an SNS topic");
                }

                await SqsWrapper.SetQueuePolicyForTopic(queueArn, _topicArn, queueUrl);

                await SetupFilters(i, queueArn, queueName);
            }
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Set up filters with user options for a queue.
    /// </summary>
    /// <param name="queueCount">The number of this queue.</param>
    /// <param name="queueArn">The ARN of the queue.</param>
    /// <param name="queueName">The name of the queue.</param>
    /// <returns>Async Task.</returns>
    public static async Task SetupFilters(int queueCount, string queueArn, string queueName)
    {
        if (_useFifoTopic)
        {
            Console.WriteLine(new string('-', 80));
            // Only explain this once.
            if (queueCount == 0)
            {
                Console.WriteLine(
                    "Subscriptions to a FIFO topic can have filters." +
                    "If you add a filter to this subscription, then only the filtered messages " +
                    "will be received in the queue.");

                Console.WriteLine(
                    "For information about message filtering, " +
                    "see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html");

                Console.WriteLine(
                    "For this example, you can filter messages by a" +
                    "TONE attribute.");
            }

            var useFilter = GetYesNoResponse($"Filter messages for {queueName}'s subscription to the topic?");

            string? filterPolicy = null;
            if (useFilter)
            {
                filterPolicy = CreateFilterPolicy();
            }
            var subscriptionArn = await SnsWrapper.SubscribeTopicWithFilter(_topicArn, filterPolicy,
                queueArn);
            _subscriptionArns[queueCount] = subscriptionArn;

            Console.WriteLine(
                $"The queue {queueName} has been subscribed to the topic {_topicName} " +
                $"with the subscription ARN {subscriptionArn}");
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Use user input to create a filter policy for a subscription.
    /// </summary>
    /// <returns>The serialized filter policy.</returns>
    public static string CreateFilterPolicy()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine(
            $"You can filter messages by one or more of the following" +
            $"TONE attributes.");

        List<string> filterSelections = new List<string>();

        var selectionNumber = 0;
        do
        {
            Console.WriteLine(
                $"Enter a number to add a TONE filter, or enter 0 to stop adding filters.");
            for (int i = 0; i < _tones.Length; i++)
            {
                Console.WriteLine($"\t{i + 1}. {_tones[i]}");
            }

            var selection = GetUserResponse("", filterSelections.Any() ? "0" : "1");
            int.TryParse(selection, out selectionNumber);
            if (selectionNumber > 0 && !filterSelections.Contains(_tones[selectionNumber - 1]))
            {
                filterSelections.Add(_tones[selectionNumber - 1]);
            }
        } while (selectionNumber != 0);

        var filters = new Dictionary<string, List<string>>
        {
            { "tone", filterSelections }
        };
        string filterPolicy = JsonSerializer.Serialize(filters);
        return filterPolicy;
    }

    /// <summary>
    /// Publish messages using user settings.
    /// </summary>
    /// <returns>Async task.</returns>
    public static async Task PublishMessages()
    {
        Console.WriteLine("Now we can publish messages.");

        var keepSendingMessages = true;
        string? deduplicationId = null;
        string? toneAttribute = null;
        while (keepSendingMessages)
        {
            Console.WriteLine();
            var message = GetUserResponse("Enter a message to publish.", "This is a sample message");

            if (_useFifoTopic)
            {
                Console.WriteLine("Because you are using a FIFO topic, you must set a message group ID." +
                                  "\r\nAll messages within the same group will be received in the order " +
                                  "they were published.");

                Console.WriteLine();
                var messageGroupId = GetUserResponse("Enter a message group ID for this message:", "1");

                if (!_useContentBasedDeduplication)
                {
                    Console.WriteLine("Because you are not using content-based deduplication, " +
                                      "you must enter a deduplication ID.");

                    Console.WriteLine("Enter a deduplication ID for this message.");
                    deduplicationId = GetUserResponse("Enter a deduplication ID for this message.", "1");
                }

                if (GetYesNoResponse("Add an attribute to this message?"))
                {
                    Console.WriteLine("Enter a number for an attribute.");
                    for (int i = 0; i < _tones.Length; i++)
                    {
                        Console.WriteLine($"\t{i + 1}. {_tones[i]}");
                    }

                    var selection = GetUserResponse("", "1");
                    int.TryParse(selection, out var selectionNumber);

                    if (selectionNumber > 0 && selectionNumber < _tones.Length)
                    {
                        toneAttribute = _tones[selectionNumber - 1];
                    }
                }

                var messageID = await SnsWrapper.PublishToTopicWithAttribute(
                    _topicArn, message, "tone", toneAttribute, deduplicationId, messageGroupId);

                Console.WriteLine($"Message published with id {messageID}.");
            }

            keepSendingMessages = GetYesNoResponse("Send another message?", false);
        }
    }

    /// <summary>
    /// Poll for the published messages to see the results of the user's choices.
    /// </summary>
    /// <returns>Async task.</returns>
    public static async Task<List<Message>> PollForMessages(string queueUrl)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Now the SQS queue at {queueUrl} will be polled to retrieve the messages." +
                          "\r\nPress any key to continue.");
        if (UseConsole)
        {
            Console.ReadLine();
        }

        var moreMessages = true;
        var messages = new List<Message>();
        while (moreMessages)
        {
            var newMessages = await SqsWrapper.ReceiveMessagesByUrl(queueUrl, 10);

            moreMessages = newMessages.Any();
            if (moreMessages)
            {
                messages.AddRange(newMessages);
            }
        }

        Console.WriteLine($"{messages.Count} message(s) were received by the queue at {queueUrl}.");

        foreach (var message in messages)
        {
            Console.WriteLine("\tMessage:" +
                              $"\n\t{message.Body}");
        }

        Console.WriteLine(new string('-', 80));
        return messages;
    }

    /// <summary>
    /// Delete the message using handles in a batch.
    /// </summary>
    /// <returns>Async task.</returns>
    public static async Task DeleteMessages(string queueUrl, List<Message> messages)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Now we can delete the messages in this queue in a batch.");
        await SqsWrapper.DeleteMessageBatchByUrl(queueUrl, messages);
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task CleanupResources()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Clean up resources.");

        try
        {
            foreach (var queueUrl in _queueUrls)
            {
                if (!string.IsNullOrEmpty(queueUrl))
                {
                    var deleteQueue =
                        GetYesNoResponse($"Delete queue with url {queueUrl}?");
                    if (deleteQueue)
                    {
                        await SqsWrapper.DeleteQueueByUrl(queueUrl);
                    }
                }
            }

            foreach (var subscriptionArn in _subscriptionArns)
            {
                if (!string.IsNullOrEmpty(subscriptionArn))
                {
                    await SnsWrapper.UnsubscribeByArn(subscriptionArn);
                }
            }

            var deleteTopic = GetYesNoResponse($"Delete topic {_topicName}?");
            if (deleteTopic)
            {
                await SnsWrapper.DeleteTopicByArn(_topicArn);
            }
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Unable to clean up resources. Here's why: {ex.Message}.");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <param name="defaultAnswer">Optional default answer to use.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question, bool defaultAnswer = true)
    {
        if (UseConsole)
        {
            Console.WriteLine(question);
            var ynResponse = Console.ReadLine();
            var response = ynResponse != null &&
                           ynResponse.Equals("y",
                               StringComparison.InvariantCultureIgnoreCase);
            return response;
        }
        // If not using the console, use the default.
        return defaultAnswer;
    }

    /// <summary>
    /// Helper method to get a string response from the user through the console.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <param name="defaultAnswer">Optional default answer to use.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static string GetUserResponse(string question, string defaultAnswer)
    {
        if (UseConsole)
        {
            var response = "";
            while (string.IsNullOrEmpty(response))
            {
                Console.WriteLine(question);
                response = Console.ReadLine();
            }
            return response;
        }
        // If not using the console, use the default.
        return defaultAnswer;
    }
}
```
Buat kelas yang membungkus operasi Amazon SQS.  

```
/// <summary>
/// Wrapper for Amazon Simple Queue Service (SQS) operations.
/// </summary>
public class SQSWrapper
{
    private readonly IAmazonSQS _amazonSQSClient;

    /// <summary>
    /// Constructor for the Amazon SQS wrapper.
    /// </summary>
    /// <param name="amazonSQS">The injected Amazon SQS client.</param>
    public SQSWrapper(IAmazonSQS amazonSQS)
    {
        _amazonSQSClient = amazonSQS;
    }

    /// <summary>
    /// Create a queue with a specific name.
    /// </summary>
    /// <param name="queueName">The name for the queue.</param>
    /// <param name="useFifoQueue">True to use a FIFO queue.</param>
    /// <returns>The url for the queue.</returns>
    public async Task<string> CreateQueueWithName(string queueName, bool useFifoQueue)
    {
        int maxMessage = 256 * 1024;
        var queueAttributes = new Dictionary<string, string>
        {
            {
                QueueAttributeName.MaximumMessageSize,
                maxMessage.ToString()
            }
        };

        var createQueueRequest = new CreateQueueRequest()
        {
            QueueName = queueName,
            Attributes = queueAttributes
        };

        if (useFifoQueue)
        {
            // Update the name if it is not correct for a FIFO queue.
            if (!queueName.EndsWith(".fifo"))
            {
                createQueueRequest.QueueName = queueName + ".fifo";
            }

            // Add an attribute for a FIFO queue.
            createQueueRequest.Attributes.Add(
                QueueAttributeName.FifoQueue, "true");
        }

        var createResponse = await _amazonSQSClient.CreateQueueAsync(
            new CreateQueueRequest()
            {
                QueueName = queueName
            });
        return createResponse.QueueUrl;
    }

    /// <summary>
    /// Get the ARN for a queue from its URL.
    /// </summary>
    /// <param name="queueUrl">The URL of the queue.</param>
    /// <returns>The ARN of the queue.</returns>
    public async Task<string> GetQueueArnByUrl(string queueUrl)
    {
        var getAttributesRequest = new GetQueueAttributesRequest()
        {
            QueueUrl = queueUrl,
            AttributeNames = new List<string>() { QueueAttributeName.QueueArn }
        };

        var getAttributesResponse = await _amazonSQSClient.GetQueueAttributesAsync(
            getAttributesRequest);

        return getAttributesResponse.QueueARN;
    }

    /// <summary>
    /// Set the policy attribute of a queue for a topic.
    /// </summary>
    /// <param name="queueArn">The ARN of the queue.</param>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="queueUrl">The url for the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> SetQueuePolicyForTopic(string queueArn, string topicArn, string queueUrl)
    {
        var queuePolicy = "{" +
                                "\"Version\": \"2012-10-17\"," +
                                "\"Statement\": [{" +
                                     "\"Effect\": \"Allow\"," +
                                     "\"Principal\": {" +
                                         $"\"Service\": " +
                                             "\"sns.amazonaws.com\"" +
                                            "}," +
                                     "\"Action\": \"sqs:SendMessage\"," +
                                     $"\"Resource\": \"{queueArn}\"," +
                                      "\"Condition\": {" +
                                           "\"ArnEquals\": {" +
                                                $"\"aws:SourceArn\": \"{topicArn}\"" +
                                            "}" +
                                        "}" +
                                "}]" +
                             "}";
        var attributesResponse = await _amazonSQSClient.SetQueueAttributesAsync(
            new SetQueueAttributesRequest()
            {
                QueueUrl = queueUrl,
                Attributes = new Dictionary<string, string>() { { "Policy", queuePolicy } }
            });
        return attributesResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Receive messages from a queue by its URL.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>The list of messages.</returns>
    public async Task<List<Message>> ReceiveMessagesByUrl(string queueUrl, int maxMessages)
    {
        // Setting WaitTimeSeconds to non-zero enables long polling.
        // For information about long polling, see
        // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-short-and-long-polling.html
        var messageResponse = await _amazonSQSClient.ReceiveMessageAsync(
            new ReceiveMessageRequest()
            {
                QueueUrl = queueUrl,
                MaxNumberOfMessages = maxMessages,
                WaitTimeSeconds = 1
            });
        return messageResponse.Messages;
    }

    /// <summary>
    /// Delete a batch of messages from a queue by its url.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteMessageBatchByUrl(string queueUrl, List<Message> messages)
    {
        var deleteRequest = new DeleteMessageBatchRequest()
        {
            QueueUrl = queueUrl,
            Entries = new List<DeleteMessageBatchRequestEntry>()
        };
        foreach (var message in messages)
        {
            deleteRequest.Entries.Add(new DeleteMessageBatchRequestEntry()
            {
                ReceiptHandle = message.ReceiptHandle,
                Id = message.MessageId
            });
        }

        var deleteResponse = await _amazonSQSClient.DeleteMessageBatchAsync(deleteRequest);

        return deleteResponse.Failed.Any();
    }

    /// <summary>
    /// Delete a queue by its URL.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteQueueByUrl(string queueUrl)
    {
        var deleteResponse = await _amazonSQSClient.DeleteQueueAsync(
            new DeleteQueueRequest()
            {
                QueueUrl = queueUrl
            });
        return deleteResponse.HttpStatusCode == HttpStatusCode.OK;
    }
}
```
Buat kelas yang membungkus operasi Amazon SNS.  

```
/// <summary>
/// Wrapper for Amazon Simple Notification Service (SNS) operations.
/// </summary>
public class SNSWrapper
{
    private readonly IAmazonSimpleNotificationService _amazonSNSClient;

    /// <summary>
    /// Constructor for the Amazon SNS wrapper.
    /// </summary>
    /// <param name="amazonSQS">The injected Amazon SNS client.</param>
    public SNSWrapper(IAmazonSimpleNotificationService amazonSNS)
    {
        _amazonSNSClient = amazonSNS;
    }

    /// <summary>
    /// Create a new topic with a name and specific FIFO and de-duplication attributes.
    /// </summary>
    /// <param name="topicName">The name for the topic.</param>
    /// <param name="useFifoTopic">True to use a FIFO topic.</param>
    /// <param name="useContentBasedDeduplication">True to use content-based de-duplication.</param>
    /// <returns>The ARN of the new topic.</returns>
    public async Task<string> CreateTopicWithName(string topicName, bool useFifoTopic, bool useContentBasedDeduplication)
    {
        var createTopicRequest = new CreateTopicRequest()
        {
            Name = topicName,
        };

        if (useFifoTopic)
        {
            // Update the name if it is not correct for a FIFO topic.
            if (!topicName.EndsWith(".fifo"))
            {
                createTopicRequest.Name = topicName + ".fifo";
            }

            // Add the attributes from the method parameters.
            createTopicRequest.Attributes = new Dictionary<string, string>
            {
                { "FifoTopic", "true" }
            };
            if (useContentBasedDeduplication)
            {
                createTopicRequest.Attributes.Add("ContentBasedDeduplication", "true");
            }
        }

        var createResponse = await _amazonSNSClient.CreateTopicAsync(createTopicRequest);
        return createResponse.TopicArn;
    }

    /// <summary>
    /// Subscribe a queue to a topic with optional filters.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="useFifoTopic">The optional filtering policy for the subscription.</param>
    /// <param name="queueArn">The ARN of the queue.</param>
    /// <returns>The ARN of the new subscription.</returns>
    public async Task<string> SubscribeTopicWithFilter(string topicArn, string? filterPolicy, string queueArn)
    {
        var subscribeRequest = new SubscribeRequest()
        {
            TopicArn = topicArn,
            Protocol = "sqs",
            Endpoint = queueArn
        };

        if (!string.IsNullOrEmpty(filterPolicy))
        {
            subscribeRequest.Attributes = new Dictionary<string, string> { { "FilterPolicy", filterPolicy } };
        }

        var subscribeResponse = await _amazonSNSClient.SubscribeAsync(subscribeRequest);
        return subscribeResponse.SubscriptionArn;
    }

    /// <summary>
    /// Publish a message to a topic with an attribute and optional deduplication and group IDs.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="message">The message to publish.</param>
    /// <param name="attributeName">The optional attribute for the message.</param>
    /// <param name="attributeValue">The optional attribute value for the message.</param>
    /// <param name="deduplicationId">The optional deduplication ID for the message.</param>
    /// <param name="groupId">The optional group ID for the message.</param>
    /// <returns>The ID of the message published.</returns>
    public async Task<string> PublishToTopicWithAttribute(
        string topicArn,
        string message,
        string? attributeName = null,
        string? attributeValue = null,
        string? deduplicationId = null,
        string? groupId = null)
    {
        var publishRequest = new PublishRequest()
        {
            TopicArn = topicArn,
            Message = message,
            MessageDeduplicationId = deduplicationId,
            MessageGroupId = groupId
        };

        if (attributeValue != null)
        {
            // Add the string attribute if it exists.
            publishRequest.MessageAttributes =
                new Dictionary<string, MessageAttributeValue>
                {
                    { attributeName!, new MessageAttributeValue() { StringValue = attributeValue, DataType = "String"} }
                };
        }

        var publishResponse = await _amazonSNSClient.PublishAsync(publishRequest);
        return publishResponse.MessageId;
    }


    /// <summary>
    /// Unsubscribe from a topic by a subscription ARN.
    /// </summary>
    /// <param name="subscriptionArn">The ARN of the subscription.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> UnsubscribeByArn(string subscriptionArn)
    {
        var unsubscribeResponse = await _amazonSNSClient.UnsubscribeAsync(
            new UnsubscribeRequest()
            {
                SubscriptionArn = subscriptionArn
            });
        return unsubscribeResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Delete a topic by its topic ARN.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteTopicByArn(string topicArn)
    {
        var deleteResponse = await _amazonSNSClient.DeleteTopicAsync(
            new DeleteTopicRequest()
            {
                TopicArn = topicArn
            });
        return deleteResponse.HttpStatusCode == HttpStatusCode.OK;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateQueue](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/CreateQueue)
  + [CreateTopic](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/CreateTopic)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/DeleteQueue)
  + [DeleteTopic](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/DeleteTopic)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/GetQueueAttributes)
  + [Publikasikan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Publish)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/ReceiveMessage)
  + [SetQueueAttributes](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/SetQueueAttributes)
  + [Berlangganan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Subscribe)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Unsubscribe)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using Amazon.Lambda.Core;
using Amazon.Lambda.SNSEvents;


// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace SnsIntegration;

public class Function
{
    public async Task FunctionHandler(SNSEvent evnt, ILambdaContext context)
    {
        foreach (var record in evnt.Records)
        {
            await ProcessRecordAsync(record, context);
        }
        context.Logger.LogInformation("done");
    }

    private async Task ProcessRecordAsync(SNSEvent.SNSRecord record, ILambdaContext context)
    {
        try
        {
            context.Logger.LogInformation($"Processed record {record.Sns.Message}");

            // TODO: Do interesting work based on the new message
            await Task.CompletedTask;
        }
        catch (Exception e)
        {
            //You can use Dead Letter Queue to handle failures. By configuring a Lambda DLQ.
            context.Logger.LogError($"An error occurred");
            throw;
        }
    }
}
```

# Contoh Amazon SQS menggunakan SDK untuk .NET
<a name="csharp_3_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon SQS. AWS SDK untuk .NET 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon SQS
<a name="sqs_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SQS.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 

```
using Amazon.SQS;
using Amazon.SQS.Model;

namespace SQSActions;

public static class HelloSQS
{
    static async Task Main(string[] args)
    {
        var sqsClient = new AmazonSQSClient();

        Console.WriteLine($"Hello Amazon SQS! Following are some of your queues:");
        Console.WriteLine();

        // You can use await and any of the async methods to get a response.
        // Let's get the first five queues.
        var response = await sqsClient.ListQueuesAsync(
            new ListQueuesRequest()
            {
                MaxResults = 5
            });

        foreach (var queue in response.QueueUrls)
        {
            Console.WriteLine($"\tQueue Url: {queue}");
            Console.WriteLine();
        }
    }
}
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/ListQueues)di *Referensi AWS SDK untuk .NET API*. 

## Tindakan
<a name="actions"></a>

### `CreateQueue`
<a name="sqs_CreateQueue_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 
Buat antrian dengan nama tertentu.  

```
    /// <summary>
    /// Create a queue with a specific name.
    /// </summary>
    /// <param name="queueName">The name for the queue.</param>
    /// <param name="useFifoQueue">True to use a FIFO queue.</param>
    /// <returns>The url for the queue.</returns>
    public async Task<string> CreateQueueWithName(string queueName, bool useFifoQueue)
    {
        int maxMessage = 256 * 1024;
        var queueAttributes = new Dictionary<string, string>
        {
            {
                QueueAttributeName.MaximumMessageSize,
                maxMessage.ToString()
            }
        };

        var createQueueRequest = new CreateQueueRequest()
        {
            QueueName = queueName,
            Attributes = queueAttributes
        };

        if (useFifoQueue)
        {
            // Update the name if it is not correct for a FIFO queue.
            if (!queueName.EndsWith(".fifo"))
            {
                createQueueRequest.QueueName = queueName + ".fifo";
            }

            // Add an attribute for a FIFO queue.
            createQueueRequest.Attributes.Add(
                QueueAttributeName.FifoQueue, "true");
        }

        var createResponse = await _amazonSQSClient.CreateQueueAsync(
            new CreateQueueRequest()
            {
                QueueName = queueName
            });
        return createResponse.QueueUrl;
    }
```
Buat antrian Amazon SQS dan kirim pesan ke sana.  

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon;
    using Amazon.SQS;
    using Amazon.SQS.Model;

    public class CreateSendExample
    {
        // Specify your AWS Region (an example Region is shown).
        private static readonly string QueueName = "Example_Queue";
        private static readonly RegionEndpoint ServiceRegion = RegionEndpoint.USWest2;
        private static IAmazonSQS client;

        public static async Task Main()
        {
            client = new AmazonSQSClient(ServiceRegion);
            var createQueueResponse = await CreateQueue(client, QueueName);

            string queueUrl = createQueueResponse.QueueUrl;

            Dictionary<string, MessageAttributeValue> messageAttributes = new Dictionary<string, MessageAttributeValue>
            {
                { "Title",   new MessageAttributeValue { DataType = "String", StringValue = "The Whistler" } },
                { "Author",  new MessageAttributeValue { DataType = "String", StringValue = "John Grisham" } },
                { "WeeksOn", new MessageAttributeValue { DataType = "Number", StringValue = "6" } },
            };

            string messageBody = "Information about current NY Times fiction bestseller for week of 12/11/2016.";

            var sendMsgResponse = await SendMessage(client, queueUrl, messageBody, messageAttributes);
        }

        /// <summary>
        /// Creates a new Amazon SQS queue using the queue name passed to it
        /// in queueName.
        /// </summary>
        /// <param name="client">An SQS client object used to send the message.</param>
        /// <param name="queueName">A string representing the name of the queue
        /// to create.</param>
        /// <returns>A CreateQueueResponse that contains information about the
        /// newly created queue.</returns>
        public static async Task<CreateQueueResponse> CreateQueue(IAmazonSQS client, string queueName)
        {
            var request = new CreateQueueRequest
            {
                QueueName = queueName,
                Attributes = new Dictionary<string, string>
                {
                    { "DelaySeconds", "60" },
                    { "MessageRetentionPeriod", "86400" },
                },
            };

            var response = await client.CreateQueueAsync(request);
            Console.WriteLine($"Created a queue with URL : {response.QueueUrl}");

            return response;
        }

        /// <summary>
        /// Sends a message to an SQS queue.
        /// </summary>
        /// <param name="client">An SQS client object used to send the message.</param>
        /// <param name="queueUrl">The URL of the queue to which to send the
        /// message.</param>
        /// <param name="messageBody">A string representing the body of the
        /// message to be sent to the queue.</param>
        /// <param name="messageAttributes">Attributes for the message to be
        /// sent to the queue.</param>
        /// <returns>A SendMessageResponse object that contains information
        /// about the message that was sent.</returns>
        public static async Task<SendMessageResponse> SendMessage(
            IAmazonSQS client,
            string queueUrl,
            string messageBody,
            Dictionary<string, MessageAttributeValue> messageAttributes)
        {
            var sendMessageRequest = new SendMessageRequest
            {
                DelaySeconds = 10,
                MessageAttributes = messageAttributes,
                MessageBody = messageBody,
                QueueUrl = queueUrl,
            };

            var response = await client.SendMessageAsync(sendMessageRequest);
            Console.WriteLine($"Sent a message with id : {response.MessageId}");

            return response;
        }
    }
```
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/CreateQueue)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteMessage`
<a name="sqs_DeleteMessage_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessage`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SQS#code-examples). 
Menerima pesan dari antrian Amazon SQS dan kemudian menghapus pesan.  

```
        public static async Task Main()
        {
            // If the AWS Region you want to use is different from
            // the AWS Region defined for the default user, supply
            // the specify your AWS Region to the client constructor.
            var client = new AmazonSQSClient();
            string queueName = "Example_Queue";

            var queueUrl = await GetQueueUrl(client, queueName);
            Console.WriteLine($"The SQS queue's URL is {queueUrl}");

            var response = await ReceiveAndDeleteMessage(client, queueUrl);

            Console.WriteLine($"Message: {response.Messages[0]}");
        }

        /// <summary>
        /// Retrieve the queue URL for the queue named in the queueName
        /// property using the client object.
        /// </summary>
        /// <param name="client">The Amazon SQS client used to retrieve the
        /// queue URL.</param>
        /// <param name="queueName">A string representing  name of the queue
        /// for which to retrieve the URL.</param>
        /// <returns>The URL of the queue.</returns>
        public static async Task<string> GetQueueUrl(IAmazonSQS client, string queueName)
        {
            var request = new GetQueueUrlRequest
            {
                QueueName = queueName,
            };

            GetQueueUrlResponse response = await client.GetQueueUrlAsync(request);
            return response.QueueUrl;
        }

        /// <summary>
        /// Retrieves the message from the quque at the URL passed in the
        /// queueURL parameters using the client.
        /// </summary>
        /// <param name="client">The SQS client used to retrieve a message.</param>
        /// <param name="queueUrl">The URL of the queue from which to retrieve
        /// a message.</param>
        /// <returns>The response from the call to ReceiveMessageAsync.</returns>
        public static async Task<ReceiveMessageResponse> ReceiveAndDeleteMessage(IAmazonSQS client, string queueUrl)
        {
            // Receive a single message from the queue.
            var receiveMessageRequest = new ReceiveMessageRequest
            {
                AttributeNames = { "SentTimestamp" },
                MaxNumberOfMessages = 1,
                MessageAttributeNames = { "All" },
                QueueUrl = queueUrl,
                VisibilityTimeout = 0,
                WaitTimeSeconds = 0,
            };

            var receiveMessageResponse = await client.ReceiveMessageAsync(receiveMessageRequest);

            // Delete the received message from the queue.
            var deleteMessageRequest = new DeleteMessageRequest
            {
                QueueUrl = queueUrl,
                ReceiptHandle = receiveMessageResponse.Messages[0].ReceiptHandle,
            };

            await client.DeleteMessageAsync(deleteMessageRequest);

            return receiveMessageResponse;
        }
    }
```
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/DeleteMessage)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteMessageBatch`
<a name="sqs_DeleteMessageBatch_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessageBatch`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 

```
    /// <summary>
    /// Delete a batch of messages from a queue by its url.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteMessageBatchByUrl(string queueUrl, List<Message> messages)
    {
        var deleteRequest = new DeleteMessageBatchRequest()
        {
            QueueUrl = queueUrl,
            Entries = new List<DeleteMessageBatchRequestEntry>()
        };
        foreach (var message in messages)
        {
            deleteRequest.Entries.Add(new DeleteMessageBatchRequestEntry()
            {
                ReceiptHandle = message.ReceiptHandle,
                Id = message.MessageId
            });
        }

        var deleteResponse = await _amazonSQSClient.DeleteMessageBatchAsync(deleteRequest);

        return deleteResponse.Failed.Any();
    }
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/DeleteMessageBatch)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 
Hapus antrian dengan menggunakan URL-nya.  

```
    /// <summary>
    /// Delete a queue by its URL.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteQueueByUrl(string queueUrl)
    {
        var deleteResponse = await _amazonSQSClient.DeleteQueueAsync(
            new DeleteQueueRequest()
            {
                QueueUrl = queueUrl
            });
        return deleteResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/DeleteQueue)di *Referensi AWS SDK untuk .NET API*. 

### `GetQueueAttributes`
<a name="sqs_GetQueueAttributes_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueAttributes`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 

```
    /// <summary>
    /// Get the ARN for a queue from its URL.
    /// </summary>
    /// <param name="queueUrl">The URL of the queue.</param>
    /// <returns>The ARN of the queue.</returns>
    public async Task<string> GetQueueArnByUrl(string queueUrl)
    {
        var getAttributesRequest = new GetQueueAttributesRequest()
        {
            QueueUrl = queueUrl,
            AttributeNames = new List<string>() { QueueAttributeName.QueueArn }
        };

        var getAttributesResponse = await _amazonSQSClient.GetQueueAttributesAsync(
            getAttributesRequest);

        return getAttributesResponse.QueueARN;
    }
```
+  Untuk detail API, lihat [GetQueueAttributes](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/GetQueueAttributes)di *Referensi AWS SDK untuk .NET API*. 

### `GetQueueUrl`
<a name="sqs_GetQueueUrl_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueUrl`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SQS#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.SQS;
    using Amazon.SQS.Model;

    public class GetQueueUrl
    {
        /// <summary>
        /// Initializes the Amazon SQS client object and then calls the
        /// GetQueueUrlAsync method to retrieve the URL of an Amazon SQS
        /// queue.
        /// </summary>
        public static async Task Main()
        {
            // If the Amazon SQS message queue is not in the same AWS Region as your
            // default user, you need to provide the AWS Region as a parameter to the
            // client constructor.
            var client = new AmazonSQSClient();

            string queueName = "New-Example-Queue";

            try
            {
                var response = await client.GetQueueUrlAsync(queueName);

                if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
                {
                    Console.WriteLine($"The URL for {queueName} is: {response.QueueUrl}");
                }
            }
            catch (QueueDoesNotExistException ex)
            {
                Console.WriteLine(ex.Message);
                Console.WriteLine($"The queue {queueName} was not found.");
            }
        }
    }
```
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/GetQueueUrl)di *Referensi AWS SDK untuk .NET API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 
Menerima pesan dari antrian dengan menggunakan URL-nya.  

```
    /// <summary>
    /// Receive messages from a queue by its URL.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>The list of messages.</returns>
    public async Task<List<Message>> ReceiveMessagesByUrl(string queueUrl, int maxMessages)
    {
        // Setting WaitTimeSeconds to non-zero enables long polling.
        // For information about long polling, see
        // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-short-and-long-polling.html
        var messageResponse = await _amazonSQSClient.ReceiveMessageAsync(
            new ReceiveMessageRequest()
            {
                QueueUrl = queueUrl,
                MaxNumberOfMessages = maxMessages,
                WaitTimeSeconds = 1
            });
        return messageResponse.Messages;
    }
```
Menerima pesan dari antrian Amazon SQS, lalu hapus pesan.  

```
        public static async Task Main()
        {
            // If the AWS Region you want to use is different from
            // the AWS Region defined for the default user, supply
            // the specify your AWS Region to the client constructor.
            var client = new AmazonSQSClient();
            string queueName = "Example_Queue";

            var queueUrl = await GetQueueUrl(client, queueName);
            Console.WriteLine($"The SQS queue's URL is {queueUrl}");

            var response = await ReceiveAndDeleteMessage(client, queueUrl);

            Console.WriteLine($"Message: {response.Messages[0]}");
        }

        /// <summary>
        /// Retrieve the queue URL for the queue named in the queueName
        /// property using the client object.
        /// </summary>
        /// <param name="client">The Amazon SQS client used to retrieve the
        /// queue URL.</param>
        /// <param name="queueName">A string representing  name of the queue
        /// for which to retrieve the URL.</param>
        /// <returns>The URL of the queue.</returns>
        public static async Task<string> GetQueueUrl(IAmazonSQS client, string queueName)
        {
            var request = new GetQueueUrlRequest
            {
                QueueName = queueName,
            };

            GetQueueUrlResponse response = await client.GetQueueUrlAsync(request);
            return response.QueueUrl;
        }

        /// <summary>
        /// Retrieves the message from the quque at the URL passed in the
        /// queueURL parameters using the client.
        /// </summary>
        /// <param name="client">The SQS client used to retrieve a message.</param>
        /// <param name="queueUrl">The URL of the queue from which to retrieve
        /// a message.</param>
        /// <returns>The response from the call to ReceiveMessageAsync.</returns>
        public static async Task<ReceiveMessageResponse> ReceiveAndDeleteMessage(IAmazonSQS client, string queueUrl)
        {
            // Receive a single message from the queue.
            var receiveMessageRequest = new ReceiveMessageRequest
            {
                AttributeNames = { "SentTimestamp" },
                MaxNumberOfMessages = 1,
                MessageAttributeNames = { "All" },
                QueueUrl = queueUrl,
                VisibilityTimeout = 0,
                WaitTimeSeconds = 0,
            };

            var receiveMessageResponse = await client.ReceiveMessageAsync(receiveMessageRequest);

            // Delete the received message from the queue.
            var deleteMessageRequest = new DeleteMessageRequest
            {
                QueueUrl = queueUrl,
                ReceiptHandle = receiveMessageResponse.Messages[0].ReceiptHandle,
            };

            await client.DeleteMessageAsync(deleteMessageRequest);

            return receiveMessageResponse;
        }
    }
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/ReceiveMessage)di *Referensi AWS SDK untuk .NET API*. 

### `SendMessage`
<a name="sqs_SendMessage_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/SQS#code-examples). 
Buat antrian Amazon SQS dan kirim pesan ke sana.  

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon;
    using Amazon.SQS;
    using Amazon.SQS.Model;

    public class CreateSendExample
    {
        // Specify your AWS Region (an example Region is shown).
        private static readonly string QueueName = "Example_Queue";
        private static readonly RegionEndpoint ServiceRegion = RegionEndpoint.USWest2;
        private static IAmazonSQS client;

        public static async Task Main()
        {
            client = new AmazonSQSClient(ServiceRegion);
            var createQueueResponse = await CreateQueue(client, QueueName);

            string queueUrl = createQueueResponse.QueueUrl;

            Dictionary<string, MessageAttributeValue> messageAttributes = new Dictionary<string, MessageAttributeValue>
            {
                { "Title",   new MessageAttributeValue { DataType = "String", StringValue = "The Whistler" } },
                { "Author",  new MessageAttributeValue { DataType = "String", StringValue = "John Grisham" } },
                { "WeeksOn", new MessageAttributeValue { DataType = "Number", StringValue = "6" } },
            };

            string messageBody = "Information about current NY Times fiction bestseller for week of 12/11/2016.";

            var sendMsgResponse = await SendMessage(client, queueUrl, messageBody, messageAttributes);
        }

        /// <summary>
        /// Creates a new Amazon SQS queue using the queue name passed to it
        /// in queueName.
        /// </summary>
        /// <param name="client">An SQS client object used to send the message.</param>
        /// <param name="queueName">A string representing the name of the queue
        /// to create.</param>
        /// <returns>A CreateQueueResponse that contains information about the
        /// newly created queue.</returns>
        public static async Task<CreateQueueResponse> CreateQueue(IAmazonSQS client, string queueName)
        {
            var request = new CreateQueueRequest
            {
                QueueName = queueName,
                Attributes = new Dictionary<string, string>
                {
                    { "DelaySeconds", "60" },
                    { "MessageRetentionPeriod", "86400" },
                },
            };

            var response = await client.CreateQueueAsync(request);
            Console.WriteLine($"Created a queue with URL : {response.QueueUrl}");

            return response;
        }

        /// <summary>
        /// Sends a message to an SQS queue.
        /// </summary>
        /// <param name="client">An SQS client object used to send the message.</param>
        /// <param name="queueUrl">The URL of the queue to which to send the
        /// message.</param>
        /// <param name="messageBody">A string representing the body of the
        /// message to be sent to the queue.</param>
        /// <param name="messageAttributes">Attributes for the message to be
        /// sent to the queue.</param>
        /// <returns>A SendMessageResponse object that contains information
        /// about the message that was sent.</returns>
        public static async Task<SendMessageResponse> SendMessage(
            IAmazonSQS client,
            string queueUrl,
            string messageBody,
            Dictionary<string, MessageAttributeValue> messageAttributes)
        {
            var sendMessageRequest = new SendMessageRequest
            {
                DelaySeconds = 10,
                MessageAttributes = messageAttributes,
                MessageBody = messageBody,
                QueueUrl = queueUrl,
            };

            var response = await client.SendMessageAsync(sendMessageRequest);
            Console.WriteLine($"Sent a message with id : {response.MessageId}");

            return response;
        }
    }
```
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/SendMessage)di *Referensi AWS SDK untuk .NET API*. 

### `SetQueueAttributes`
<a name="sqs_SetQueueAttributes_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetQueueAttributes`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 
Tetapkan atribut kebijakan antrian untuk topik.  

```
    /// <summary>
    /// Set the policy attribute of a queue for a topic.
    /// </summary>
    /// <param name="queueArn">The ARN of the queue.</param>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="queueUrl">The url for the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> SetQueuePolicyForTopic(string queueArn, string topicArn, string queueUrl)
    {
        var queuePolicy = "{" +
                                "\"Version\": \"2012-10-17\"," +
                                "\"Statement\": [{" +
                                     "\"Effect\": \"Allow\"," +
                                     "\"Principal\": {" +
                                         $"\"Service\": " +
                                             "\"sns.amazonaws.com\"" +
                                            "}," +
                                     "\"Action\": \"sqs:SendMessage\"," +
                                     $"\"Resource\": \"{queueArn}\"," +
                                      "\"Condition\": {" +
                                           "\"ArnEquals\": {" +
                                                $"\"aws:SourceArn\": \"{topicArn}\"" +
                                            "}" +
                                        "}" +
                                "}]" +
                             "}";
        var attributesResponse = await _amazonSQSClient.SetQueueAttributesAsync(
            new SetQueueAttributesRequest()
            {
                QueueUrl = queueUrl,
                Attributes = new Dictionary<string, string>() { { "Policy", queuePolicy } }
            });
        return attributesResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [SetQueueAttributes](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/SetQueueAttributes)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/TopicsAndQueues#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
/// <summary>
/// Console application to run a feature scenario for topics and queues.
/// </summary>
public static class TopicsAndQueues
{
    private static bool _useFifoTopic = false;
    private static bool _useContentBasedDeduplication = false;
    private static string _topicName = null!;
    private static string _topicArn = null!;

    private static readonly int _queueCount = 2;
    private static readonly string[] _queueUrls = new string[_queueCount];
    private static readonly string[] _subscriptionArns = new string[_queueCount];
    private static readonly string[] _tones = { "cheerful", "funny", "serious", "sincere" };
    public static SNSWrapper SnsWrapper { get; set; } = null!;
    public static SQSWrapper SqsWrapper { get; set; } = null!;
    public static bool UseConsole { get; set; } = true;
    static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon EventBridge.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonSQS>()
                    .AddAWSService<IAmazonSimpleNotificationService>()
                    .AddTransient<SNSWrapper>()
                    .AddTransient<SQSWrapper>()
            )
            .Build();

        ServicesSetup(host);
        PrintDescription();

        await RunScenario();

    }

    /// <summary>
    /// Populate the services for use within the console application.
    /// </summary>
    /// <param name="host">The services host.</param>
    private static void ServicesSetup(IHost host)
    {
        SnsWrapper = host.Services.GetRequiredService<SNSWrapper>();
        SqsWrapper = host.Services.GetRequiredService<SQSWrapper>();
    }

    /// <summary>
    /// Run the scenario for working with topics and queues.
    /// </summary>
    /// <returns>True if successful.</returns>
    public static async Task<bool> RunScenario()
    {
        try
        {
            await SetupTopic();

            await SetupQueues();

            await PublishMessages();

            foreach (var queueUrl in _queueUrls)
            {
                var messages = await PollForMessages(queueUrl);
                if (messages.Any())
                {
                    await DeleteMessages(queueUrl, messages);
                }
            }
            await CleanupResources();

            Console.WriteLine("Messaging with topics and queues scenario is complete.");
            return true;
        }
        catch (Exception ex)
        {
            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"There was a problem running the scenario: {ex.Message}");
            await CleanupResources();
            Console.WriteLine(new string('-', 80));
            return false;
        }
    }

    /// <summary>
    /// Print a description for the tasks in the scenario.
    /// </summary>
    /// <returns>Async task.</returns>
    private static void PrintDescription()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Welcome to messaging with topics and queues.");

        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"In this scenario, you will create an SNS topic and subscribe {_queueCount} SQS queues to the topic." +
                          $"\r\nYou can select from several options for configuring the topic and the subscriptions for the 2 queues." +
                          $"\r\nYou can then post to the topic and see the results in the queues.\r\n");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Set up the SNS topic to be used with the queues.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task<string> SetupTopic()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"SNS topics can be configured as FIFO (First-In-First-Out)." +
                          $"\r\nFIFO topics deliver messages in order and support deduplication and message filtering." +
                          $"\r\nYou can then post to the topic and see the results in the queues.\r\n");

        _useFifoTopic = GetYesNoResponse("Would you like to work with FIFO topics?");

        if (_useFifoTopic)
        {
            Console.WriteLine(new string('-', 80));
            _topicName = GetUserResponse("Enter a name for your SNS topic: ", "example-topic");
            Console.WriteLine(
                "Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.\r\n");

            Console.WriteLine(new string('-', 80));
            Console.WriteLine($"Because you have chosen a FIFO topic, deduplication is supported." +
                              $"\r\nDeduplication IDs are either set in the message or automatically generated " +
                              $"\r\nfrom content using a hash function.\r\n" +
                              $"\r\nIf a message is successfully published to an SNS FIFO topic, any message " +
                              $"\r\npublished and determined to have the same deduplication ID, " +
                              $"\r\nwithin the five-minute deduplication interval, is accepted but not delivered.\r\n" +
                              $"\r\nFor more information about deduplication, " +
                              $"\r\nsee https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.");

            _useContentBasedDeduplication = GetYesNoResponse("Use content-based deduplication instead of entering a deduplication ID?");
            Console.WriteLine(new string('-', 80));
        }

        _topicArn = await SnsWrapper.CreateTopicWithName(_topicName, _useFifoTopic, _useContentBasedDeduplication);

        Console.WriteLine($"Your new topic with the name {_topicName}" +
                          $"\r\nand Amazon Resource Name (ARN) {_topicArn}" +
                          $"\r\nhas been created.\r\n");

        Console.WriteLine(new string('-', 80));
        return _topicArn;
    }

    /// <summary>
    /// Set up the queues.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task SetupQueues()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Now you will create {_queueCount} Amazon Simple Queue Service (Amazon SQS) queues to subscribe to the topic.");

        // Repeat this section for each queue.
        for (int i = 0; i < _queueCount; i++)
        {
            var queueName = GetUserResponse("Enter a name for an Amazon SQS queue: ", $"example-queue-{i}");
            if (_useFifoTopic)
            {
                // Only explain this once.
                if (i == 0)
                {
                    Console.WriteLine(
                        "Because you have selected a FIFO topic, '.fifo' must be appended to the queue name.");
                }

                var queueUrl = await SqsWrapper.CreateQueueWithName(queueName, _useFifoTopic);

                _queueUrls[i] = queueUrl;

                Console.WriteLine($"Your new queue with the name {queueName}" +
                                  $"\r\nand queue URL {queueUrl}" +
                                  $"\r\nhas been created.\r\n");

                if (i == 0)
                {
                    Console.WriteLine(
                        $"The queue URL is used to retrieve the queue ARN,\r\n" +
                        $"which is used to create a subscription.");
                    Console.WriteLine(new string('-', 80));
                }

                var queueArn = await SqsWrapper.GetQueueArnByUrl(queueUrl);

                if (i == 0)
                {
                    Console.WriteLine(
                        $"An AWS Identity and Access Management (IAM) policy must be attached to an SQS queue, enabling it to receive\r\n" +
                        $"messages from an SNS topic");
                }

                await SqsWrapper.SetQueuePolicyForTopic(queueArn, _topicArn, queueUrl);

                await SetupFilters(i, queueArn, queueName);
            }
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Set up filters with user options for a queue.
    /// </summary>
    /// <param name="queueCount">The number of this queue.</param>
    /// <param name="queueArn">The ARN of the queue.</param>
    /// <param name="queueName">The name of the queue.</param>
    /// <returns>Async Task.</returns>
    public static async Task SetupFilters(int queueCount, string queueArn, string queueName)
    {
        if (_useFifoTopic)
        {
            Console.WriteLine(new string('-', 80));
            // Only explain this once.
            if (queueCount == 0)
            {
                Console.WriteLine(
                    "Subscriptions to a FIFO topic can have filters." +
                    "If you add a filter to this subscription, then only the filtered messages " +
                    "will be received in the queue.");

                Console.WriteLine(
                    "For information about message filtering, " +
                    "see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html");

                Console.WriteLine(
                    "For this example, you can filter messages by a" +
                    "TONE attribute.");
            }

            var useFilter = GetYesNoResponse($"Filter messages for {queueName}'s subscription to the topic?");

            string? filterPolicy = null;
            if (useFilter)
            {
                filterPolicy = CreateFilterPolicy();
            }
            var subscriptionArn = await SnsWrapper.SubscribeTopicWithFilter(_topicArn, filterPolicy,
                queueArn);
            _subscriptionArns[queueCount] = subscriptionArn;

            Console.WriteLine(
                $"The queue {queueName} has been subscribed to the topic {_topicName} " +
                $"with the subscription ARN {subscriptionArn}");
            Console.WriteLine(new string('-', 80));
        }
    }

    /// <summary>
    /// Use user input to create a filter policy for a subscription.
    /// </summary>
    /// <returns>The serialized filter policy.</returns>
    public static string CreateFilterPolicy()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine(
            $"You can filter messages by one or more of the following" +
            $"TONE attributes.");

        List<string> filterSelections = new List<string>();

        var selectionNumber = 0;
        do
        {
            Console.WriteLine(
                $"Enter a number to add a TONE filter, or enter 0 to stop adding filters.");
            for (int i = 0; i < _tones.Length; i++)
            {
                Console.WriteLine($"\t{i + 1}. {_tones[i]}");
            }

            var selection = GetUserResponse("", filterSelections.Any() ? "0" : "1");
            int.TryParse(selection, out selectionNumber);
            if (selectionNumber > 0 && !filterSelections.Contains(_tones[selectionNumber - 1]))
            {
                filterSelections.Add(_tones[selectionNumber - 1]);
            }
        } while (selectionNumber != 0);

        var filters = new Dictionary<string, List<string>>
        {
            { "tone", filterSelections }
        };
        string filterPolicy = JsonSerializer.Serialize(filters);
        return filterPolicy;
    }

    /// <summary>
    /// Publish messages using user settings.
    /// </summary>
    /// <returns>Async task.</returns>
    public static async Task PublishMessages()
    {
        Console.WriteLine("Now we can publish messages.");

        var keepSendingMessages = true;
        string? deduplicationId = null;
        string? toneAttribute = null;
        while (keepSendingMessages)
        {
            Console.WriteLine();
            var message = GetUserResponse("Enter a message to publish.", "This is a sample message");

            if (_useFifoTopic)
            {
                Console.WriteLine("Because you are using a FIFO topic, you must set a message group ID." +
                                  "\r\nAll messages within the same group will be received in the order " +
                                  "they were published.");

                Console.WriteLine();
                var messageGroupId = GetUserResponse("Enter a message group ID for this message:", "1");

                if (!_useContentBasedDeduplication)
                {
                    Console.WriteLine("Because you are not using content-based deduplication, " +
                                      "you must enter a deduplication ID.");

                    Console.WriteLine("Enter a deduplication ID for this message.");
                    deduplicationId = GetUserResponse("Enter a deduplication ID for this message.", "1");
                }

                if (GetYesNoResponse("Add an attribute to this message?"))
                {
                    Console.WriteLine("Enter a number for an attribute.");
                    for (int i = 0; i < _tones.Length; i++)
                    {
                        Console.WriteLine($"\t{i + 1}. {_tones[i]}");
                    }

                    var selection = GetUserResponse("", "1");
                    int.TryParse(selection, out var selectionNumber);

                    if (selectionNumber > 0 && selectionNumber < _tones.Length)
                    {
                        toneAttribute = _tones[selectionNumber - 1];
                    }
                }

                var messageID = await SnsWrapper.PublishToTopicWithAttribute(
                    _topicArn, message, "tone", toneAttribute, deduplicationId, messageGroupId);

                Console.WriteLine($"Message published with id {messageID}.");
            }

            keepSendingMessages = GetYesNoResponse("Send another message?", false);
        }
    }

    /// <summary>
    /// Poll for the published messages to see the results of the user's choices.
    /// </summary>
    /// <returns>Async task.</returns>
    public static async Task<List<Message>> PollForMessages(string queueUrl)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Now the SQS queue at {queueUrl} will be polled to retrieve the messages." +
                          "\r\nPress any key to continue.");
        if (UseConsole)
        {
            Console.ReadLine();
        }

        var moreMessages = true;
        var messages = new List<Message>();
        while (moreMessages)
        {
            var newMessages = await SqsWrapper.ReceiveMessagesByUrl(queueUrl, 10);

            moreMessages = newMessages.Any();
            if (moreMessages)
            {
                messages.AddRange(newMessages);
            }
        }

        Console.WriteLine($"{messages.Count} message(s) were received by the queue at {queueUrl}.");

        foreach (var message in messages)
        {
            Console.WriteLine("\tMessage:" +
                              $"\n\t{message.Body}");
        }

        Console.WriteLine(new string('-', 80));
        return messages;
    }

    /// <summary>
    /// Delete the message using handles in a batch.
    /// </summary>
    /// <returns>Async task.</returns>
    public static async Task DeleteMessages(string queueUrl, List<Message> messages)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Now we can delete the messages in this queue in a batch.");
        await SqsWrapper.DeleteMessageBatchByUrl(queueUrl, messages);
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Clean up the resources from the scenario.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task CleanupResources()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Clean up resources.");

        try
        {
            foreach (var queueUrl in _queueUrls)
            {
                if (!string.IsNullOrEmpty(queueUrl))
                {
                    var deleteQueue =
                        GetYesNoResponse($"Delete queue with url {queueUrl}?");
                    if (deleteQueue)
                    {
                        await SqsWrapper.DeleteQueueByUrl(queueUrl);
                    }
                }
            }

            foreach (var subscriptionArn in _subscriptionArns)
            {
                if (!string.IsNullOrEmpty(subscriptionArn))
                {
                    await SnsWrapper.UnsubscribeByArn(subscriptionArn);
                }
            }

            var deleteTopic = GetYesNoResponse($"Delete topic {_topicName}?");
            if (deleteTopic)
            {
                await SnsWrapper.DeleteTopicByArn(_topicArn);
            }
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Unable to clean up resources. Here's why: {ex.Message}.");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <param name="defaultAnswer">Optional default answer to use.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question, bool defaultAnswer = true)
    {
        if (UseConsole)
        {
            Console.WriteLine(question);
            var ynResponse = Console.ReadLine();
            var response = ynResponse != null &&
                           ynResponse.Equals("y",
                               StringComparison.InvariantCultureIgnoreCase);
            return response;
        }
        // If not using the console, use the default.
        return defaultAnswer;
    }

    /// <summary>
    /// Helper method to get a string response from the user through the console.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <param name="defaultAnswer">Optional default answer to use.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static string GetUserResponse(string question, string defaultAnswer)
    {
        if (UseConsole)
        {
            var response = "";
            while (string.IsNullOrEmpty(response))
            {
                Console.WriteLine(question);
                response = Console.ReadLine();
            }
            return response;
        }
        // If not using the console, use the default.
        return defaultAnswer;
    }
}
```
Buat kelas yang membungkus operasi Amazon SQS.  

```
/// <summary>
/// Wrapper for Amazon Simple Queue Service (SQS) operations.
/// </summary>
public class SQSWrapper
{
    private readonly IAmazonSQS _amazonSQSClient;

    /// <summary>
    /// Constructor for the Amazon SQS wrapper.
    /// </summary>
    /// <param name="amazonSQS">The injected Amazon SQS client.</param>
    public SQSWrapper(IAmazonSQS amazonSQS)
    {
        _amazonSQSClient = amazonSQS;
    }

    /// <summary>
    /// Create a queue with a specific name.
    /// </summary>
    /// <param name="queueName">The name for the queue.</param>
    /// <param name="useFifoQueue">True to use a FIFO queue.</param>
    /// <returns>The url for the queue.</returns>
    public async Task<string> CreateQueueWithName(string queueName, bool useFifoQueue)
    {
        int maxMessage = 256 * 1024;
        var queueAttributes = new Dictionary<string, string>
        {
            {
                QueueAttributeName.MaximumMessageSize,
                maxMessage.ToString()
            }
        };

        var createQueueRequest = new CreateQueueRequest()
        {
            QueueName = queueName,
            Attributes = queueAttributes
        };

        if (useFifoQueue)
        {
            // Update the name if it is not correct for a FIFO queue.
            if (!queueName.EndsWith(".fifo"))
            {
                createQueueRequest.QueueName = queueName + ".fifo";
            }

            // Add an attribute for a FIFO queue.
            createQueueRequest.Attributes.Add(
                QueueAttributeName.FifoQueue, "true");
        }

        var createResponse = await _amazonSQSClient.CreateQueueAsync(
            new CreateQueueRequest()
            {
                QueueName = queueName
            });
        return createResponse.QueueUrl;
    }

    /// <summary>
    /// Get the ARN for a queue from its URL.
    /// </summary>
    /// <param name="queueUrl">The URL of the queue.</param>
    /// <returns>The ARN of the queue.</returns>
    public async Task<string> GetQueueArnByUrl(string queueUrl)
    {
        var getAttributesRequest = new GetQueueAttributesRequest()
        {
            QueueUrl = queueUrl,
            AttributeNames = new List<string>() { QueueAttributeName.QueueArn }
        };

        var getAttributesResponse = await _amazonSQSClient.GetQueueAttributesAsync(
            getAttributesRequest);

        return getAttributesResponse.QueueARN;
    }

    /// <summary>
    /// Set the policy attribute of a queue for a topic.
    /// </summary>
    /// <param name="queueArn">The ARN of the queue.</param>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="queueUrl">The url for the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> SetQueuePolicyForTopic(string queueArn, string topicArn, string queueUrl)
    {
        var queuePolicy = "{" +
                                "\"Version\": \"2012-10-17\"," +
                                "\"Statement\": [{" +
                                     "\"Effect\": \"Allow\"," +
                                     "\"Principal\": {" +
                                         $"\"Service\": " +
                                             "\"sns.amazonaws.com\"" +
                                            "}," +
                                     "\"Action\": \"sqs:SendMessage\"," +
                                     $"\"Resource\": \"{queueArn}\"," +
                                      "\"Condition\": {" +
                                           "\"ArnEquals\": {" +
                                                $"\"aws:SourceArn\": \"{topicArn}\"" +
                                            "}" +
                                        "}" +
                                "}]" +
                             "}";
        var attributesResponse = await _amazonSQSClient.SetQueueAttributesAsync(
            new SetQueueAttributesRequest()
            {
                QueueUrl = queueUrl,
                Attributes = new Dictionary<string, string>() { { "Policy", queuePolicy } }
            });
        return attributesResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Receive messages from a queue by its URL.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>The list of messages.</returns>
    public async Task<List<Message>> ReceiveMessagesByUrl(string queueUrl, int maxMessages)
    {
        // Setting WaitTimeSeconds to non-zero enables long polling.
        // For information about long polling, see
        // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-short-and-long-polling.html
        var messageResponse = await _amazonSQSClient.ReceiveMessageAsync(
            new ReceiveMessageRequest()
            {
                QueueUrl = queueUrl,
                MaxNumberOfMessages = maxMessages,
                WaitTimeSeconds = 1
            });
        return messageResponse.Messages;
    }

    /// <summary>
    /// Delete a batch of messages from a queue by its url.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteMessageBatchByUrl(string queueUrl, List<Message> messages)
    {
        var deleteRequest = new DeleteMessageBatchRequest()
        {
            QueueUrl = queueUrl,
            Entries = new List<DeleteMessageBatchRequestEntry>()
        };
        foreach (var message in messages)
        {
            deleteRequest.Entries.Add(new DeleteMessageBatchRequestEntry()
            {
                ReceiptHandle = message.ReceiptHandle,
                Id = message.MessageId
            });
        }

        var deleteResponse = await _amazonSQSClient.DeleteMessageBatchAsync(deleteRequest);

        return deleteResponse.Failed.Any();
    }

    /// <summary>
    /// Delete a queue by its URL.
    /// </summary>
    /// <param name="queueUrl">The url of the queue.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteQueueByUrl(string queueUrl)
    {
        var deleteResponse = await _amazonSQSClient.DeleteQueueAsync(
            new DeleteQueueRequest()
            {
                QueueUrl = queueUrl
            });
        return deleteResponse.HttpStatusCode == HttpStatusCode.OK;
    }
}
```
Buat kelas yang membungkus operasi Amazon SNS.  

```
/// <summary>
/// Wrapper for Amazon Simple Notification Service (SNS) operations.
/// </summary>
public class SNSWrapper
{
    private readonly IAmazonSimpleNotificationService _amazonSNSClient;

    /// <summary>
    /// Constructor for the Amazon SNS wrapper.
    /// </summary>
    /// <param name="amazonSQS">The injected Amazon SNS client.</param>
    public SNSWrapper(IAmazonSimpleNotificationService amazonSNS)
    {
        _amazonSNSClient = amazonSNS;
    }

    /// <summary>
    /// Create a new topic with a name and specific FIFO and de-duplication attributes.
    /// </summary>
    /// <param name="topicName">The name for the topic.</param>
    /// <param name="useFifoTopic">True to use a FIFO topic.</param>
    /// <param name="useContentBasedDeduplication">True to use content-based de-duplication.</param>
    /// <returns>The ARN of the new topic.</returns>
    public async Task<string> CreateTopicWithName(string topicName, bool useFifoTopic, bool useContentBasedDeduplication)
    {
        var createTopicRequest = new CreateTopicRequest()
        {
            Name = topicName,
        };

        if (useFifoTopic)
        {
            // Update the name if it is not correct for a FIFO topic.
            if (!topicName.EndsWith(".fifo"))
            {
                createTopicRequest.Name = topicName + ".fifo";
            }

            // Add the attributes from the method parameters.
            createTopicRequest.Attributes = new Dictionary<string, string>
            {
                { "FifoTopic", "true" }
            };
            if (useContentBasedDeduplication)
            {
                createTopicRequest.Attributes.Add("ContentBasedDeduplication", "true");
            }
        }

        var createResponse = await _amazonSNSClient.CreateTopicAsync(createTopicRequest);
        return createResponse.TopicArn;
    }

    /// <summary>
    /// Subscribe a queue to a topic with optional filters.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="useFifoTopic">The optional filtering policy for the subscription.</param>
    /// <param name="queueArn">The ARN of the queue.</param>
    /// <returns>The ARN of the new subscription.</returns>
    public async Task<string> SubscribeTopicWithFilter(string topicArn, string? filterPolicy, string queueArn)
    {
        var subscribeRequest = new SubscribeRequest()
        {
            TopicArn = topicArn,
            Protocol = "sqs",
            Endpoint = queueArn
        };

        if (!string.IsNullOrEmpty(filterPolicy))
        {
            subscribeRequest.Attributes = new Dictionary<string, string> { { "FilterPolicy", filterPolicy } };
        }

        var subscribeResponse = await _amazonSNSClient.SubscribeAsync(subscribeRequest);
        return subscribeResponse.SubscriptionArn;
    }

    /// <summary>
    /// Publish a message to a topic with an attribute and optional deduplication and group IDs.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <param name="message">The message to publish.</param>
    /// <param name="attributeName">The optional attribute for the message.</param>
    /// <param name="attributeValue">The optional attribute value for the message.</param>
    /// <param name="deduplicationId">The optional deduplication ID for the message.</param>
    /// <param name="groupId">The optional group ID for the message.</param>
    /// <returns>The ID of the message published.</returns>
    public async Task<string> PublishToTopicWithAttribute(
        string topicArn,
        string message,
        string? attributeName = null,
        string? attributeValue = null,
        string? deduplicationId = null,
        string? groupId = null)
    {
        var publishRequest = new PublishRequest()
        {
            TopicArn = topicArn,
            Message = message,
            MessageDeduplicationId = deduplicationId,
            MessageGroupId = groupId
        };

        if (attributeValue != null)
        {
            // Add the string attribute if it exists.
            publishRequest.MessageAttributes =
                new Dictionary<string, MessageAttributeValue>
                {
                    { attributeName!, new MessageAttributeValue() { StringValue = attributeValue, DataType = "String"} }
                };
        }

        var publishResponse = await _amazonSNSClient.PublishAsync(publishRequest);
        return publishResponse.MessageId;
    }


    /// <summary>
    /// Unsubscribe from a topic by a subscription ARN.
    /// </summary>
    /// <param name="subscriptionArn">The ARN of the subscription.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> UnsubscribeByArn(string subscriptionArn)
    {
        var unsubscribeResponse = await _amazonSNSClient.UnsubscribeAsync(
            new UnsubscribeRequest()
            {
                SubscriptionArn = subscriptionArn
            });
        return unsubscribeResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Delete a topic by its topic ARN.
    /// </summary>
    /// <param name="topicArn">The ARN of the topic.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteTopicByArn(string topicArn)
    {
        var deleteResponse = await _amazonSNSClient.DeleteTopicAsync(
            new DeleteTopicRequest()
            {
                TopicArn = topicArn
            });
        return deleteResponse.HttpStatusCode == HttpStatusCode.OK;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateQueue](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/CreateQueue)
  + [CreateTopic](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/CreateTopic)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/DeleteQueue)
  + [DeleteTopic](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/DeleteTopic)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/GetQueueAttributes)
  + [Publikasikan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Publish)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/ReceiveMessage)
  + [SetQueueAttributes](https://docs.aws.amazon.com/goto/DotNetSDKV3/sqs-2012-11-05/SetQueueAttributes)
  + [Berlangganan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Subscribe)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/goto/DotNetSDKV3/sns-2010-03-31/Unsubscribe)

### Menggunakan AWS Message Processing Framework untuk.NET dengan Amazon SQS
<a name="cross_MessageProcessingFrameworkTutorial_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menerbitkan dan menerima pesan Amazon SQS menggunakan AWS Message Processing Framework untuk.NET.

**SDK untuk .NET**  
Menyediakan tutorial untuk AWS Message Processing Framework untuk.NET. Tutorial membuat aplikasi web yang memungkinkan pengguna untuk mempublikasikan pesan Amazon SQS dan aplikasi baris perintah yang menerima pesan.  
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat [tutorial lengkap](https://docs.aws.amazon.com/sdk-for-net/latest/developer-guide/msg-proc-fw-get-started.html) di Panduan AWS SDK untuk .NET Pengembang dan contoh di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/MessageProcessingFramework).  

**Layanan yang digunakan dalam contoh ini**
+ Amazon SQS

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using Amazon.Lambda.Core;
using Amazon.Lambda.SQSEvents;


// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]

namespace SqsIntegrationSampleCode
{
    public async Task FunctionHandler(SQSEvent evnt, ILambdaContext context)
    {
        foreach (var message in evnt.Records)
        {
            await ProcessMessageAsync(message, context);
        }

        context.Logger.LogInformation("done");
    }

    private async Task ProcessMessageAsync(SQSEvent.SQSMessage message, ILambdaContext context)
    {
        try
        {
            context.Logger.LogInformation($"Processed message {message.Body}");

            // TODO: Do interesting work based on the new message
            await Task.CompletedTask;
        }
        catch (Exception e)
        {
            //You can use Dead Letter Queue to handle failures. By configuring a Lambda DLQ.
            context.Logger.LogError($"An error occurred");
            throw;
        }

    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan.NET.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
using Amazon.Lambda.Core;
using Amazon.Lambda.SQSEvents;

// Assembly attribute to enable the Lambda function's JSON input to be converted into a .NET class.
[assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))]
namespace sqsSample;

public class Function
{
    public async Task<SQSBatchResponse> FunctionHandler(SQSEvent evnt, ILambdaContext context)
    {
        List<SQSBatchResponse.BatchItemFailure> batchItemFailures = new List<SQSBatchResponse.BatchItemFailure>();
        foreach(var message in evnt.Records)
        {
            try
            {
                //process your message
                await ProcessMessageAsync(message, context);
            }
            catch (System.Exception)
            {
                //Add failed message identifier to the batchItemFailures list
                batchItemFailures.Add(new SQSBatchResponse.BatchItemFailure{ItemIdentifier=message.MessageId}); 
            }
        }
        return new SQSBatchResponse(batchItemFailures);
    }

    private async Task ProcessMessageAsync(SQSEvent.SQSMessage message, ILambdaContext context)
    {
        if (String.IsNullOrEmpty(message.Body))
        {
            throw new Exception("No Body in SQS Message.");
        }
        context.Logger.LogInformation($"Processed message {message.Body}");
        // TODO: Do interesting work based on the new message
        await Task.CompletedTask;
    }
}
```

# Contoh Step Functions menggunakan SDK untuk .NET
<a name="csharp_3_sfn_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with Step Functions.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Hello Step Functions
<a name="sfn_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Step Functions.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
namespace StepFunctionsActions;

using Amazon.StepFunctions;
using Amazon.StepFunctions.Model;

public class HelloStepFunctions
{
    static async Task Main()
    {
        var stepFunctionsClient = new AmazonStepFunctionsClient();

        Console.Clear();
        Console.WriteLine("Welcome to AWS Step Functions");
        Console.WriteLine("Let's list up to 10 of your state machines:");
        var stateMachineListRequest = new ListStateMachinesRequest { MaxResults = 10 };

        // Get information for up to 10 Step Functions state machines.
        var response = await stepFunctionsClient.ListStateMachinesAsync(stateMachineListRequest);

        if (response.StateMachines.Count > 0)
        {
            response.StateMachines.ForEach(stateMachine =>
            {
                Console.WriteLine($"State Machine Name: {stateMachine.Name}\tAmazon Resource Name (ARN): {stateMachine.StateMachineArn}");
            });
        }
        else
        {
            Console.WriteLine("\tNo state machines were found.");
        }
    }
}
```
+  Untuk detail API, lihat [ListStateMachines](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/ListStateMachines)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="sfn_Scenario_GetStartedStateMachines_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat aktivitas.
+ Buat mesin status dari definisi Bahasa Negara Amazon yang berisi aktivitas yang dibuat sebelumnya sebagai langkah.
+ Jalankan mesin status dan tanggapi aktivitas dengan input pengguna.
+ Dapatkan status dan output akhir setelah proses selesai, lalu bersihkan sumber daya.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
global using System.Text.Json;
global using Amazon.StepFunctions;
global using Microsoft.Extensions.Configuration;
global using Microsoft.Extensions.DependencyInjection;
global using Microsoft.Extensions.Hosting;
global using Microsoft.Extensions.Logging;
global using Microsoft.Extensions.Logging.Console;
global using Microsoft.Extensions.Logging.Debug;
global using StepFunctionsActions;
global using LogLevel = Microsoft.Extensions.Logging.LogLevel;



using Amazon.IdentityManagement;
using Amazon.IdentityManagement.Model;
using Amazon.StepFunctions.Model;

namespace StepFunctionsBasics;

public class StepFunctionsBasics
{
    private static ILogger _logger = null!;
    private static IConfigurationRoot _configuration = null!;
    private static IAmazonIdentityManagementService _iamService = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for AWS Step Functions.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonStepFunctions>()
                    .AddAWSService<IAmazonIdentityManagementService>()
                    .AddTransient<StepFunctionsWrapper>()
            )
            .Build();

        _logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<StepFunctionsBasics>();

        // Load configuration settings.
        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load test settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally load local settings.
            .Build();

        var activityName = _configuration["ActivityName"];
        var stateMachineName = _configuration["StateMachineName"];

        var roleName = _configuration["RoleName"];
        var repoBaseDir = _configuration["RepoBaseDir"];
        var jsonFilePath = _configuration["JsonFilePath"];
        var jsonFileName = _configuration["JsonFileName"];

        var uiMethods = new UiMethods();
        var stepFunctionsWrapper = host.Services.GetRequiredService<StepFunctionsWrapper>();

        _iamService = host.Services.GetRequiredService<IAmazonIdentityManagementService>();

        // Load definition for the state machine from a JSON file.
        var stateDefinitionJson = File.ReadAllText($"{repoBaseDir}{jsonFilePath}{jsonFileName}");

        Console.Clear();
        uiMethods.DisplayOverview();
        uiMethods.PressEnter();

        uiMethods.DisplayTitle("Create activity");
        Console.WriteLine("Let's start by creating an activity.");
        string activityArn;
        string stateMachineArn;

        // Check to see if the activity already exists.
        var activityList = await stepFunctionsWrapper.ListActivitiesAsync();
        var existingActivity = activityList.FirstOrDefault(activity => activity.Name == activityName);
        if (existingActivity is not null)
        {
            activityArn = existingActivity.ActivityArn;
            Console.WriteLine($"Activity, {activityName}, already exists.");
        }
        else
        {
            activityArn = await stepFunctionsWrapper.CreateActivity(activityName);
        }

        // Swap the placeholder in the JSON file with the Amazon Resource Name (ARN)
        // of the recently created activity.
        var stateDefinition = stateDefinitionJson.Replace("{{DOC_EXAMPLE_ACTIVITY_ARN}}", activityArn);

        uiMethods.DisplayTitle("Create state machine");
        Console.WriteLine("Now we'll create a state machine.");

        // Find or create an IAM role that can be assumed by Step Functions.
        var role = await GetOrCreateStateMachineRole(roleName);

        // See if the state machine already exists.
        var stateMachineList = await stepFunctionsWrapper.ListStateMachinesAsync();
        var existingStateMachine =
            stateMachineList.FirstOrDefault(stateMachine => stateMachine.Name == stateMachineName);
        if (existingStateMachine is not null)
        {
            Console.WriteLine($"State machine, {stateMachineName}, already exists.");
            stateMachineArn = existingStateMachine.StateMachineArn;
        }
        else
        {
            // Create the state machine.
            stateMachineArn =
                await stepFunctionsWrapper.CreateStateMachine(stateMachineName, stateDefinition, role.Arn);
            uiMethods.PressEnter();
        }

        Console.WriteLine("The state machine has been created.");
        var describeStateMachineResponse = await stepFunctionsWrapper.DescribeStateMachineAsync(stateMachineArn);

        Console.WriteLine($"{describeStateMachineResponse.Name}\t{describeStateMachineResponse.StateMachineArn}");
        Console.WriteLine($"Current status: {describeStateMachineResponse.Status}");
        Console.WriteLine($"Amazon Resource Name (ARN) of the role assumed by the state machine: {describeStateMachineResponse.RoleArn}");

        var userName = string.Empty;
        Console.Write("Before we start the state machine, tell me what should ChatSFN call you? ");
        userName = Console.ReadLine();

        // Keep asking until the user enters a string value.
        while (string.IsNullOrEmpty(userName))
        {
            Console.Write("Enter your name: ");
            userName = Console.ReadLine();
        }

        var executionJson = @"{""name"": """ + userName + @"""}";

        // Start the state machine execution.
        Console.WriteLine("Now we'll start execution of the state machine.");
        var executionArn = await stepFunctionsWrapper.StartExecutionAsync(executionJson, stateMachineArn);
        Console.WriteLine("State machine started.");

        Console.WriteLine($"Thank you, {userName}. Now let's get started...");
        uiMethods.PressEnter();

        uiMethods.DisplayTitle("ChatSFN");

        var isDone = false;
        var response = new GetActivityTaskResponse();
        var taskToken = string.Empty;
        var userChoice = string.Empty;

        while (!isDone)
        {
            response = await stepFunctionsWrapper.GetActivityTaskAsync(activityArn, "MvpWorker");
            taskToken = response.TaskToken;

            // Parse the returned JSON string.
            var taskJsonResponse = JsonDocument.Parse(response.Input);
            var taskJsonObject = taskJsonResponse.RootElement;
            var message = taskJsonObject.GetProperty("message").GetString();
            var actions = taskJsonObject.GetProperty("actions").EnumerateArray().Select(x => x.ToString()).ToList();
            Console.WriteLine($"\n{message}\n");

            // Prompt the user for another choice.
            Console.WriteLine("ChatSFN: What would you like me to do?");
            actions.ForEach(action => Console.WriteLine($"\t{action}"));
            Console.Write($"\n{userName}, tell me your choice: ");
            userChoice = Console.ReadLine();
            if (userChoice?.ToLower() == "done")
            {
                isDone = true;
            }

            Console.WriteLine($"You have selected: {userChoice}");
            var jsonResponse = @"{""action"": """ + userChoice + @"""}";

            await stepFunctionsWrapper.SendTaskSuccessAsync(taskToken, jsonResponse);
        }

        await stepFunctionsWrapper.StopExecution(executionArn);
        Console.WriteLine("Now we will wait for the execution to stop.");
        DescribeExecutionResponse executionResponse;
        do
        {
            executionResponse = await stepFunctionsWrapper.DescribeExecutionAsync(executionArn);
        } while (executionResponse.Status == ExecutionStatus.RUNNING);

        Console.WriteLine("State machine stopped.");
        uiMethods.PressEnter();

        uiMethods.DisplayTitle("State machine executions");
        Console.WriteLine("Now let's take a look at the execution values for the state machine.");

        // List the executions.
        var executions = await stepFunctionsWrapper.ListExecutionsAsync(stateMachineArn);

        uiMethods.DisplayTitle("Step function execution values");
        executions.ForEach(execution =>
        {
            Console.WriteLine($"{execution.Name}\t{execution.StartDate} to {execution.StopDate}");
        });

        uiMethods.PressEnter();

        // Now delete the state machine and the activity.
        uiMethods.DisplayTitle("Clean up resources");
        Console.WriteLine("Deleting the state machine...");

        await stepFunctionsWrapper.DeleteStateMachine(stateMachineArn);
        Console.WriteLine("State machine deleted.");

        Console.WriteLine("Deleting the activity...");
        await stepFunctionsWrapper.DeleteActivity(activityArn);
        Console.WriteLine("Activity deleted.");

        Console.WriteLine("The Amazon Step Functions scenario is now complete.");
    }

    static async Task<Role> GetOrCreateStateMachineRole(string roleName)
    {
        // Define the policy document for the role.
        var stateMachineRolePolicy = @"{
         ""Version"": ""2012-10-17"",
        ""Statement"": [{
            ""Sid"": """",
            ""Effect"": ""Allow"",
            ""Principal"": {
                ""Service"": ""states.amazonaws.com""},
            ""Action"": ""sts:AssumeRole""}]}";

        var role = new Role();
        var roleExists = false;

        try
        {
            var getRoleResponse = await _iamService.GetRoleAsync(new GetRoleRequest { RoleName = roleName });
            roleExists = true;
            role = getRoleResponse.Role;
        }
        catch (NoSuchEntityException)
        {
            // The role doesn't exist. Create it.
            Console.WriteLine($"Role, {roleName} doesn't exist. Creating it...");
        }

        if (!roleExists)
        {
            var request = new CreateRoleRequest
            {
                RoleName = roleName,
                AssumeRolePolicyDocument = stateMachineRolePolicy,
            };

            var createRoleResponse = await _iamService.CreateRoleAsync(request);
            role = createRoleResponse.Role;
        }

        return role;
    }
}


namespace StepFunctionsBasics;

/// <summary>
/// Some useful methods to make screen display easier.
/// </summary>
public class UiMethods
{
    private readonly string _sepBar = new('-', Console.WindowWidth);

    /// <summary>
    /// Show information about the scenario.
    /// </summary>
    public void DisplayOverview()
    {
        Console.Clear();
        DisplayTitle("Welcome to the AWS Step Functions Demo");

        Console.WriteLine("This example application will do the following:");
        Console.WriteLine("\t 1. Create an activity.");
        Console.WriteLine("\t 2. Create a state machine.");
        Console.WriteLine("\t 3. Start an execution.");
        Console.WriteLine("\t 4. Run the worker, then stop it.");
        Console.WriteLine("\t 5. List executions.");
        Console.WriteLine("\t 6. Clean up the resources created for the example.");
    }

    /// <summary>
    /// Display a message and wait until the user presses enter.
    /// </summary>
    public void PressEnter()
    {
        Console.Write("\nPress <Enter> to continue.");
        _ = Console.ReadLine();
    }

    /// <summary>
    /// Pad a string with spaces to center it on the console display.
    /// </summary>
    /// <param name="strToCenter"></param>
    /// <returns></returns>
    private string CenterString(string strToCenter)
    {
        var padAmount = (Console.WindowWidth - strToCenter.Length) / 2;
        var leftPad = new string(' ', padAmount);
        return $"{leftPad}{strToCenter}";
    }

    /// <summary>
    /// Display a line of hyphens, the centered text of the title, and another
    /// line of hyphens.
    /// </summary>
    /// <param name="strTitle">The string to be displayed.</param>
    public void DisplayTitle(string strTitle)
    {
        Console.WriteLine(_sepBar);
        Console.WriteLine(CenterString(strTitle));
        Console.WriteLine(_sepBar);
    }
}
```
Tentukan kelas yang membungkus state machine dan tindakan aktivitas.  

```
namespace StepFunctionsActions;

using Amazon.StepFunctions;
using Amazon.StepFunctions.Model;

/// <summary>
/// Wrapper that performs AWS Step Functions actions.
/// </summary>
public class StepFunctionsWrapper
{
    private readonly IAmazonStepFunctions _amazonStepFunctions;

    /// <summary>
    /// The constructor for the StepFunctionsWrapper. Initializes the
    /// client object passed to it.
    /// </summary>
    /// <param name="amazonStepFunctions">An initialized Step Functions client object.</param>
    public StepFunctionsWrapper(IAmazonStepFunctions amazonStepFunctions)
    {
        _amazonStepFunctions = amazonStepFunctions;
    }

    /// <summary>
    /// Create a Step Functions activity using the supplied name.
    /// </summary>
    /// <param name="activityName">The name for the new Step Functions activity.</param>
    /// <returns>The Amazon Resource Name (ARN) for the new activity.</returns>
    public async Task<string> CreateActivity(string activityName)
    {
        var response = await _amazonStepFunctions.CreateActivityAsync(new CreateActivityRequest { Name = activityName });
        return response.ActivityArn;
    }


    /// <summary>
    /// Create a Step Functions state machine.
    /// </summary>
    /// <param name="stateMachineName">Name for the new Step Functions state
    /// machine.</param>
    /// <param name="definition">A JSON string that defines the Step Functions
    /// state machine.</param>
    /// <param name="roleArn">The Amazon Resource Name (ARN) of the role.</param>
    /// <returns></returns>
    public async Task<string> CreateStateMachine(string stateMachineName, string definition, string roleArn)
    {
        var request = new CreateStateMachineRequest
        {
            Name = stateMachineName,
            Definition = definition,
            RoleArn = roleArn
        };

        var response =
            await _amazonStepFunctions.CreateStateMachineAsync(request);
        return response.StateMachineArn;
    }


    /// <summary>
    /// Delete a Step Machine activity.
    /// </summary>
    /// <param name="activityArn">The Amazon Resource Name (ARN) of
    /// the activity.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteActivity(string activityArn)
    {
        var response = await _amazonStepFunctions.DeleteActivityAsync(new DeleteActivityRequest { ActivityArn = activityArn });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Delete a Step Functions state machine.
    /// </summary>
    /// <param name="stateMachineArn">The Amazon Resource Name (ARN) of the
    /// state machine.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteStateMachine(string stateMachineArn)
    {
        var response = await _amazonStepFunctions.DeleteStateMachineAsync(new DeleteStateMachineRequest
        { StateMachineArn = stateMachineArn });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Retrieve information about the specified Step Functions execution.
    /// </summary>
    /// <param name="executionArn">The Amazon Resource Name (ARN) of the
    /// Step Functions execution.</param>
    /// <returns>The API response returned by the API.</returns>
    public async Task<DescribeExecutionResponse> DescribeExecutionAsync(string executionArn)
    {
        var response = await _amazonStepFunctions.DescribeExecutionAsync(new DescribeExecutionRequest { ExecutionArn = executionArn });
        return response;
    }


    /// <summary>
    /// Retrieve information about the specified Step Functions state machine.
    /// </summary>
    /// <param name="StateMachineArn">The Amazon Resource Name (ARN) of the
    /// Step Functions state machine to retrieve.</param>
    /// <returns>Information about the specified Step Functions state machine.</returns>
    public async Task<DescribeStateMachineResponse> DescribeStateMachineAsync(string StateMachineArn)
    {
        var response = await _amazonStepFunctions.DescribeStateMachineAsync(new DescribeStateMachineRequest { StateMachineArn = StateMachineArn });
        return response;
    }


    /// <summary>
    /// Retrieve a task with the specified Step Functions activity
    /// with the specified Amazon Resource Name (ARN).
    /// </summary>
    /// <param name="activityArn">The Amazon Resource Name (ARN) of
    /// the Step Functions activity.</param>
    /// <param name="workerName">The name of the Step Functions worker.</param>
    /// <returns>The response from the Step Functions activity.</returns>
    public async Task<GetActivityTaskResponse> GetActivityTaskAsync(string activityArn, string workerName)
    {
        var response = await _amazonStepFunctions.GetActivityTaskAsync(new GetActivityTaskRequest
        { ActivityArn = activityArn, WorkerName = workerName });
        return response;
    }


    /// <summary>
    /// List the Step Functions activities for the current account.
    /// </summary>
    /// <returns>A list of ActivityListItems.</returns>
    public async Task<List<ActivityListItem>> ListActivitiesAsync()
    {
        var request = new ListActivitiesRequest();
        var activities = new List<ActivityListItem>();

        do
        {
            var response = await _amazonStepFunctions.ListActivitiesAsync(request);

            if (response.NextToken is not null)
            {
                request.NextToken = response.NextToken;
            }

            activities.AddRange(response.Activities);
        }
        while (request.NextToken is not null);

        return activities;
    }


    /// <summary>
    /// Retrieve information about executions of a Step Functions
    /// state machine.
    /// </summary>
    /// <param name="stateMachineArn">The Amazon Resource Name (ARN) of the
    /// Step Functions state machine.</param>
    /// <returns>A list of ExecutionListItem objects.</returns>
    public async Task<List<ExecutionListItem>> ListExecutionsAsync(string stateMachineArn)
    {
        var executions = new List<ExecutionListItem>();
        ListExecutionsResponse response;
        var request = new ListExecutionsRequest { StateMachineArn = stateMachineArn };

        do
        {
            response = await _amazonStepFunctions.ListExecutionsAsync(request);
            executions.AddRange(response.Executions);
            if (response.NextToken is not null)
            {
                request.NextToken = response.NextToken;
            }
        } while (response.NextToken is not null);

        return executions;
    }


    /// <summary>
    /// Retrieve a list of Step Functions state machines.
    /// </summary>
    /// <returns>A list of StateMachineListItem objects.</returns>
    public async Task<List<StateMachineListItem>> ListStateMachinesAsync()
    {
        var stateMachines = new List<StateMachineListItem>();
        var listStateMachinesPaginator =
            _amazonStepFunctions.Paginators.ListStateMachines(new ListStateMachinesRequest());

        await foreach (var response in listStateMachinesPaginator.Responses)
        {
            stateMachines.AddRange(response.StateMachines);
        }

        return stateMachines;
    }


    /// <summary>
    /// Indicate that the Step Functions task, indicated by the
    /// task token, has completed successfully.
    /// </summary>
    /// <param name="taskToken">Identifies the task.</param>
    /// <param name="taskResponse">The response received from executing the task.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> SendTaskSuccessAsync(string taskToken, string taskResponse)
    {
        var response = await _amazonStepFunctions.SendTaskSuccessAsync(new SendTaskSuccessRequest
        { TaskToken = taskToken, Output = taskResponse });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Start execution of an AWS Step Functions state machine.
    /// </summary>
    /// <param name="executionName">The name to use for the execution.</param>
    /// <param name="executionJson">The JSON string to pass for execution.</param>
    /// <param name="stateMachineArn">The Amazon Resource Name (ARN) of the
    /// Step Functions state machine.</param>
    /// <returns>The Amazon Resource Name (ARN) of the AWS Step Functions
    /// execution.</returns>
    public async Task<string> StartExecutionAsync(string executionJson, string stateMachineArn)
    {
        var executionRequest = new StartExecutionRequest
        {
            Input = executionJson,
            StateMachineArn = stateMachineArn
        };

        var response = await _amazonStepFunctions.StartExecutionAsync(executionRequest);
        return response.ExecutionArn;
    }


    /// <summary>
    /// Stop execution of a Step Functions workflow.
    /// </summary>
    /// <param name="executionArn">The Amazon Resource Name (ARN) of
    /// the Step Functions execution to stop.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> StopExecution(string executionArn)
    {
        var response =
            await _amazonStepFunctions.StopExecutionAsync(new StopExecutionRequest { ExecutionArn = executionArn });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateActivity](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/CreateActivity)
  + [CreateStateMachine](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/CreateStateMachine)
  + [DeleteActivity](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/DeleteActivity)
  + [DeleteStateMachine](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/DeleteStateMachine)
  + [DescribeExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/DescribeExecution)
  + [DescribeStateMachine](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/DescribeStateMachine)
  + [GetActivityTask](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/GetActivityTask)
  + [ListActivities](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/ListActivities)
  + [ListStateMachines](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/ListStateMachines)
  + [SendTaskSuccess](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/SendTaskSuccess)
  + [StartExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/StartExecution)
  + [StopExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/StopExecution)

## Tindakan
<a name="actions"></a>

### `CreateActivity`
<a name="sfn_CreateActivity_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateActivity`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Create a Step Functions activity using the supplied name.
    /// </summary>
    /// <param name="activityName">The name for the new Step Functions activity.</param>
    /// <returns>The Amazon Resource Name (ARN) for the new activity.</returns>
    public async Task<string> CreateActivity(string activityName)
    {
        var response = await _amazonStepFunctions.CreateActivityAsync(new CreateActivityRequest { Name = activityName });
        return response.ActivityArn;
    }
```
+  Untuk detail API, lihat [CreateActivity](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/CreateActivity)di *Referensi AWS SDK untuk .NET API*. 

### `CreateStateMachine`
<a name="sfn_CreateStateMachine_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStateMachine`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Create a Step Functions state machine.
    /// </summary>
    /// <param name="stateMachineName">Name for the new Step Functions state
    /// machine.</param>
    /// <param name="definition">A JSON string that defines the Step Functions
    /// state machine.</param>
    /// <param name="roleArn">The Amazon Resource Name (ARN) of the role.</param>
    /// <returns></returns>
    public async Task<string> CreateStateMachine(string stateMachineName, string definition, string roleArn)
    {
        var request = new CreateStateMachineRequest
        {
            Name = stateMachineName,
            Definition = definition,
            RoleArn = roleArn
        };

        var response =
            await _amazonStepFunctions.CreateStateMachineAsync(request);
        return response.StateMachineArn;
    }
```
+  Untuk detail API, lihat [CreateStateMachine](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/CreateStateMachine)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteActivity`
<a name="sfn_DeleteActivity_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteActivity`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Delete a Step Machine activity.
    /// </summary>
    /// <param name="activityArn">The Amazon Resource Name (ARN) of
    /// the activity.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteActivity(string activityArn)
    {
        var response = await _amazonStepFunctions.DeleteActivityAsync(new DeleteActivityRequest { ActivityArn = activityArn });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteActivity](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/DeleteActivity)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteStateMachine`
<a name="sfn_DeleteStateMachine_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStateMachine`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Delete a Step Functions state machine.
    /// </summary>
    /// <param name="stateMachineArn">The Amazon Resource Name (ARN) of the
    /// state machine.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteStateMachine(string stateMachineArn)
    {
        var response = await _amazonStepFunctions.DeleteStateMachineAsync(new DeleteStateMachineRequest
        { StateMachineArn = stateMachineArn });
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteStateMachine](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/DeleteStateMachine)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeExecution`
<a name="sfn_DescribeExecution_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeExecution`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Retrieve information about the specified Step Functions execution.
    /// </summary>
    /// <param name="executionArn">The Amazon Resource Name (ARN) of the
    /// Step Functions execution.</param>
    /// <returns>The API response returned by the API.</returns>
    public async Task<DescribeExecutionResponse> DescribeExecutionAsync(string executionArn)
    {
        var response = await _amazonStepFunctions.DescribeExecutionAsync(new DescribeExecutionRequest { ExecutionArn = executionArn });
        return response;
    }
```
+  Untuk detail API, lihat [DescribeExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/DescribeExecution)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeStateMachine`
<a name="sfn_DescribeStateMachine_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStateMachine`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Retrieve information about the specified Step Functions state machine.
    /// </summary>
    /// <param name="StateMachineArn">The Amazon Resource Name (ARN) of the
    /// Step Functions state machine to retrieve.</param>
    /// <returns>Information about the specified Step Functions state machine.</returns>
    public async Task<DescribeStateMachineResponse> DescribeStateMachineAsync(string StateMachineArn)
    {
        var response = await _amazonStepFunctions.DescribeStateMachineAsync(new DescribeStateMachineRequest { StateMachineArn = StateMachineArn });
        return response;
    }
```
+  Untuk detail API, lihat [DescribeStateMachine](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/DescribeStateMachine)di *Referensi AWS SDK untuk .NET API*. 

### `GetActivityTask`
<a name="sfn_GetActivityTask_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetActivityTask`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Retrieve a task with the specified Step Functions activity
    /// with the specified Amazon Resource Name (ARN).
    /// </summary>
    /// <param name="activityArn">The Amazon Resource Name (ARN) of
    /// the Step Functions activity.</param>
    /// <param name="workerName">The name of the Step Functions worker.</param>
    /// <returns>The response from the Step Functions activity.</returns>
    public async Task<GetActivityTaskResponse> GetActivityTaskAsync(string activityArn, string workerName)
    {
        var response = await _amazonStepFunctions.GetActivityTaskAsync(new GetActivityTaskRequest
        { ActivityArn = activityArn, WorkerName = workerName });
        return response;
    }
```
+  Untuk detail API, lihat [GetActivityTask](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/GetActivityTask)di *Referensi AWS SDK untuk .NET API*. 

### `ListActivities`
<a name="sfn_ListActivities_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListActivities`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// List the Step Functions activities for the current account.
    /// </summary>
    /// <returns>A list of ActivityListItems.</returns>
    public async Task<List<ActivityListItem>> ListActivitiesAsync()
    {
        var request = new ListActivitiesRequest();
        var activities = new List<ActivityListItem>();

        do
        {
            var response = await _amazonStepFunctions.ListActivitiesAsync(request);

            if (response.NextToken is not null)
            {
                request.NextToken = response.NextToken;
            }

            activities.AddRange(response.Activities);
        }
        while (request.NextToken is not null);

        return activities;
    }
```
+  Untuk detail API, lihat [ListActivities](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/ListActivities)di *Referensi AWS SDK untuk .NET API*. 

### `ListExecutions`
<a name="sfn_ListExecutions_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListExecutions`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Retrieve information about executions of a Step Functions
    /// state machine.
    /// </summary>
    /// <param name="stateMachineArn">The Amazon Resource Name (ARN) of the
    /// Step Functions state machine.</param>
    /// <returns>A list of ExecutionListItem objects.</returns>
    public async Task<List<ExecutionListItem>> ListExecutionsAsync(string stateMachineArn)
    {
        var executions = new List<ExecutionListItem>();
        ListExecutionsResponse response;
        var request = new ListExecutionsRequest { StateMachineArn = stateMachineArn };

        do
        {
            response = await _amazonStepFunctions.ListExecutionsAsync(request);
            executions.AddRange(response.Executions);
            if (response.NextToken is not null)
            {
                request.NextToken = response.NextToken;
            }
        } while (response.NextToken is not null);

        return executions;
    }
```
+  Untuk detail API, lihat [ListExecutions](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/ListExecutions)di *Referensi AWS SDK untuk .NET API*. 

### `ListStateMachines`
<a name="sfn_ListStateMachines_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStateMachines`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Retrieve a list of Step Functions state machines.
    /// </summary>
    /// <returns>A list of StateMachineListItem objects.</returns>
    public async Task<List<StateMachineListItem>> ListStateMachinesAsync()
    {
        var stateMachines = new List<StateMachineListItem>();
        var listStateMachinesPaginator =
            _amazonStepFunctions.Paginators.ListStateMachines(new ListStateMachinesRequest());

        await foreach (var response in listStateMachinesPaginator.Responses)
        {
            stateMachines.AddRange(response.StateMachines);
        }

        return stateMachines;
    }
```
+  Untuk detail API, lihat [ListStateMachines](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/ListStateMachines)di *Referensi AWS SDK untuk .NET API*. 

### `SendTaskSuccess`
<a name="sfn_SendTaskSuccess_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTaskSuccess`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Indicate that the Step Functions task, indicated by the
    /// task token, has completed successfully.
    /// </summary>
    /// <param name="taskToken">Identifies the task.</param>
    /// <param name="taskResponse">The response received from executing the task.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> SendTaskSuccessAsync(string taskToken, string taskResponse)
    {
        var response = await _amazonStepFunctions.SendTaskSuccessAsync(new SendTaskSuccessRequest
        { TaskToken = taskToken, Output = taskResponse });

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [SendTaskSuccess](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/SendTaskSuccess)di *Referensi AWS SDK untuk .NET API*. 

### `StartExecution`
<a name="sfn_StartExecution_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartExecution`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/StepFunctions#code-examples). 

```
    /// <summary>
    /// Start execution of an AWS Step Functions state machine.
    /// </summary>
    /// <param name="executionName">The name to use for the execution.</param>
    /// <param name="executionJson">The JSON string to pass for execution.</param>
    /// <param name="stateMachineArn">The Amazon Resource Name (ARN) of the
    /// Step Functions state machine.</param>
    /// <returns>The Amazon Resource Name (ARN) of the AWS Step Functions
    /// execution.</returns>
    public async Task<string> StartExecutionAsync(string executionJson, string stateMachineArn)
    {
        var executionRequest = new StartExecutionRequest
        {
            Input = executionJson,
            StateMachineArn = stateMachineArn
        };

        var response = await _amazonStepFunctions.StartExecutionAsync(executionRequest);
        return response.ExecutionArn;
    }
```
+  Untuk detail API, lihat [StartExecution](https://docs.aws.amazon.com/goto/DotNetSDKV3/states-2016-11-23/StartExecution)di *Referensi AWS SDK untuk .NET API*. 

# AWS STS contoh menggunakan SDK untuk .NET
<a name="csharp_3_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/STS#code-examples). 

```
using System;
using System.Threading.Tasks;
using Amazon;
using Amazon.SecurityToken;
using Amazon.SecurityToken.Model;

namespace AssumeRoleExample
{
    class AssumeRole
    {
        /// <summary>
        /// This example shows how to use the AWS Security Token
        /// Service (AWS STS) to assume an IAM role.
        ///
        /// NOTE: It is important that the role that will be assumed has a
        /// trust relationship with the account that will assume the role.
        ///
        /// Before you run the example, you need to create the role you want to
        /// assume and have it trust the IAM account that will assume that role.
        ///
        /// See https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html
        /// for help in working with roles.
        /// </summary>

        // A region property may be used if the profile or credentials loaded do not specify a region,
        // or to use a specific region.
        private static readonly RegionEndpoint REGION = RegionEndpoint.USWest2;

        static async Task Main()
        {
            // Create the SecurityToken client and then display the identity of the
            // default user.
            var roleArnToAssume = "arn:aws:iam::123456789012:role/testAssumeRole";

            var client = new Amazon.SecurityToken.AmazonSecurityTokenServiceClient(REGION);

            // Get and display the information about the identity of the default user.
            var callerIdRequest = new GetCallerIdentityRequest();
            var caller = await client.GetCallerIdentityAsync(callerIdRequest);
            Console.WriteLine($"Original Caller: {caller.Arn}");

            // Create the request to use with the AssumeRoleAsync call.
            var assumeRoleReq = new AssumeRoleRequest()
            {
                DurationSeconds = 1600,
                RoleSessionName = "Session1",
                RoleArn = roleArnToAssume
            };

            var assumeRoleRes = await client.AssumeRoleAsync(assumeRoleReq);

            // Now create a new client based on the credentials of the caller assuming the role.
            var client2 = new AmazonSecurityTokenServiceClient(credentials: assumeRoleRes.Credentials, REGION);

            // Get and display information about the caller that has assumed the defined role.
            var caller2 = await client2.GetCallerIdentityAsync(callerIdRequest);
            Console.WriteLine($"AssumedRole Caller: {caller2.Arn}");
        }
    }
}
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/DotNetSDKV3/sts-2011-06-15/AssumeRole)di *Referensi AWS SDK untuk .NET API*. 

# Dukungan contoh menggunakan SDK untuk .NET
<a name="csharp_3_support_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with Dukungan.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Dukungan
<a name="support_Hello_csharp_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan Dukungan.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
using Amazon.AWSSupport;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;

public static class HelloSupport
{
    static async Task Main(string[] args)
    {
        // Use the AWS .NET Core Setup package to set up dependency injection for the AWS Support service.
        // Use your AWS profile name, or leave it blank to use the default profile.
        // You must have one of the following AWS Support plans: Business, Enterprise On-Ramp, or Enterprise. Otherwise, an exception will be thrown.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonAWSSupport>()
            ).Build();

        // Now the client is available for injection.
        var supportClient = host.Services.GetRequiredService<IAmazonAWSSupport>();

        // You can use await and any of the async methods to get a response.
        var response = await supportClient.DescribeServicesAsync();
        Console.WriteLine($"\tHello AWS Support! There are {response.Services.Count} services available.");
    }
}
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeServices)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="support_Scenario_GetStartedSupportCases_csharp_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan dan tampilkan layanan yang tersedia dan tingkat keparahan untuk kasus.
+ Buat kasus dukungan menggunakan layanan, kategori, dan tingkat keparahan yang dipilih.
+ Dapatkan dan tampilkan daftar kasus terbuka untuk hari ini.
+ Tambahkan set lampiran dan komunikasi ke kasus baru.
+ Jelaskan keterikatan dan komunikasi baru untuk kasus ini.
+ Selesaikan kasusnya.
+ Dapatkan dan tampilkan daftar kasus yang diselesaikan untuk hari ini.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
/// <summary>
/// Hello AWS Support example.
/// </summary>
public static class SupportCaseScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.
    To use the AWS Support API, you must have one of the following AWS Support plans: Business, Enterprise On-Ramp, or Enterprise.

    This .NET example performs the following tasks:
    1.  Get and display services. Select a service from the list.
    2.  Select a category from the selected service.
    3.  Get and display severity levels and select a severity level from the list.
    4.  Create a support case using the selected service, category, and severity level.
    5.  Get and display a list of open support cases for the current day.
    6.  Create an attachment set with a sample text file to add to the case.
    7.  Add a communication with the attachment to the support case.
    8.  List the communications of the support case.
    9.  Describe the attachment set.
    10. Resolve the support case.
    11. Get a list of resolved cases for the current day.
   */

    private static SupportWrapper _supportWrapper = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for the AWS Support service.
        // Use your AWS profile name, or leave it blank to use the default profile.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonAWSSupport>(new AWSOptions() { Profile = "default" })
                    .AddTransient<SupportWrapper>()
            )
            .Build();

        var logger = LoggerFactory.Create(builder =>
        {
            builder.AddConsole();
        }).CreateLogger(typeof(SupportCaseScenario));

        _supportWrapper = host.Services.GetRequiredService<SupportWrapper>();

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the AWS Support case example scenario.");
        Console.WriteLine(new string('-', 80));

        try
        {
            var apiSupported = await _supportWrapper.VerifySubscription();
            if (!apiSupported)
            {
                logger.LogError("You must have a Business, Enterprise On-Ramp, or Enterprise Support " +
                                 "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these examples.");
                return;
            }

            var service = await DisplayAndSelectServices();

            var category = DisplayAndSelectCategories(service);

            var severityLevel = await DisplayAndSelectSeverity();

            var caseId = await CreateSupportCase(service, category, severityLevel);

            await DescribeTodayOpenCases();

            var attachmentSetId = await CreateAttachmentSet();

            await AddCommunicationToCase(attachmentSetId, caseId);

            var attachmentId = await ListCommunicationsForCase(caseId);

            await DescribeCaseAttachment(attachmentId);

            await ResolveCase(caseId);

            await DescribeTodayResolvedCases();

            Console.WriteLine(new string('-', 80));
            Console.WriteLine("AWS Support case example scenario complete.");
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            logger.LogError(ex, "There was a problem executing the scenario.");
        }
    }

    /// <summary>
    /// List some available services from AWS Support, and select a service for the example.
    /// </summary>
    /// <returns>The selected service.</returns>
    private static async Task<Service> DisplayAndSelectServices()
    {
        Console.WriteLine(new string('-', 80));
        var services = await _supportWrapper.DescribeServices();
        Console.WriteLine($"AWS Support client returned {services.Count} services.");

        Console.WriteLine($"1. Displaying first 10 services:");
        for (int i = 0; i < 10 && i < services.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {services[i].Name}");
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > services.Count)
        {
            Console.WriteLine(
                "Select an example support service by entering a number from the preceding list:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }
        Console.WriteLine(new string('-', 80));

        return services[choiceNumber - 1];
    }

    /// <summary>
    /// List the available categories for a service and select a category for the example.
    /// </summary>
    /// <param name="service">Service to use for displaying categories.</param>
    /// <returns>The selected category.</returns>
    private static Category DisplayAndSelectCategories(Service service)
    {
        Console.WriteLine(new string('-', 80));

        Console.WriteLine($"2. Available support categories for Service \"{service.Name}\":");
        for (int i = 0; i < service.Categories.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {service.Categories[i].Name}");
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > service.Categories.Count)
        {
            Console.WriteLine(
                "Select an example support category by entering a number from the preceding list:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }

        Console.WriteLine(new string('-', 80));

        return service.Categories[choiceNumber - 1];
    }

    /// <summary>
    /// List available severity levels from AWS Support, and select a level for the example.
    /// </summary>
    /// <returns>The selected severity level.</returns>
    private static async Task<SeverityLevel> DisplayAndSelectSeverity()
    {
        Console.WriteLine(new string('-', 80));
        var severityLevels = await _supportWrapper.DescribeSeverityLevels();

        Console.WriteLine($"3. Get and display available severity levels:");
        for (int i = 0; i < 10 && i < severityLevels.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {severityLevels[i].Name}");
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > severityLevels.Count)
        {
            Console.WriteLine(
                "Select an example severity level by entering a number from the preceding list:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }
        Console.WriteLine(new string('-', 80));

        return severityLevels[choiceNumber - 1];
    }

    /// <summary>
    /// Create an example support case.
    /// </summary>
    /// <param name="service">Service to use for the new case.</param>
    /// <param name="category">Category to use for the new case.</param>
    /// <param name="severity">Severity to use for the new case.</param>
    /// <returns>The caseId of the new support case.</returns>
    private static async Task<string> CreateSupportCase(Service service,
        Category category, SeverityLevel severity)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"4. Create an example support case" +
                          $" with the following settings:" +
                          $" \n\tService: {service.Name}, Category: {category.Name} " +
                          $"and Severity Level: {severity.Name}.");
        var caseId = await _supportWrapper.CreateCase(service.Code, category.Code, severity.Code,
            "Example case for testing, ignore.", "This is my example support case.");

        Console.WriteLine($"\tNew case created with ID {caseId}");

        Console.WriteLine(new string('-', 80));

        return caseId;
    }

    /// <summary>
    /// List open cases for the current day.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task DescribeTodayOpenCases()
    {
        Console.WriteLine($"5. List the open support cases for the current day.");
        // Describe the cases. If it is empty, try again and allow time for the new case to appear.
        List<CaseDetails> currentOpenCases = null!;
        while (currentOpenCases == null || currentOpenCases.Count == 0)
        {
            Thread.Sleep(1000);
            currentOpenCases = await _supportWrapper.DescribeCases(
                new List<string>(),
                null,
                false,
                false,
                DateTime.UtcNow.Date,
                DateTime.UtcNow);
        }

        foreach (var openCase in currentOpenCases)
        {
            Console.WriteLine($"\tCase: {openCase.CaseId} created {openCase.TimeCreated}");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Create an attachment set for a support case.
    /// </summary>
    /// <returns>The attachment set id.</returns>
    private static async Task<string> CreateAttachmentSet()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"6. Create an attachment set for a support case.");
        var fileName = "example_attachment.txt";

        // Create the file if it does not already exist.
        if (!File.Exists(fileName))
        {
            await using StreamWriter sw = File.CreateText(fileName);
            await sw.WriteLineAsync(
                "This is a sample file for attachment to a support case.");
        }

        await using var ms = new MemoryStream(await File.ReadAllBytesAsync(fileName));

        var attachmentSetId = await _supportWrapper.AddAttachmentToSet(
            ms,
            fileName);

        Console.WriteLine($"\tNew attachment set created with id: \n\t{attachmentSetId.Substring(0, 65)}...");

        Console.WriteLine(new string('-', 80));

        return attachmentSetId;
    }

    /// <summary>
    /// Add an attachment set and communication to a case.
    /// </summary>
    /// <param name="attachmentSetId">Id of the attachment set.</param>
    /// <param name="caseId">Id of the case to receive the attachment set.</param>
    /// <returns>Async task.</returns>
    private static async Task AddCommunicationToCase(string attachmentSetId, string caseId)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"7. Add attachment set and communication to {caseId}.");

        await _supportWrapper.AddCommunicationToCase(
            caseId,
            "This is an example communication added to a support case.",
            attachmentSetId);

        Console.WriteLine($"\tNew attachment set and communication added to {caseId}");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List the communications for a case.
    /// </summary>
    /// <param name="caseId">Id of the case to describe.</param>
    /// <returns>An attachment id.</returns>
    private static async Task<string> ListCommunicationsForCase(string caseId)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"8. List communications for case {caseId}.");

        var communications = await _supportWrapper.DescribeCommunications(caseId);
        var attachmentId = "";
        foreach (var communication in communications)
        {
            Console.WriteLine(
                $"\tCommunication created on: {communication.TimeCreated} has {communication.AttachmentSet.Count} attachments.");
            if (communication.AttachmentSet.Any())
            {
                attachmentId = communication.AttachmentSet.First().AttachmentId;
            }
        }

        Console.WriteLine(new string('-', 80));
        return attachmentId;
    }

    /// <summary>
    /// Describe an attachment by id.
    /// </summary>
    /// <param name="attachmentId">Id of the attachment to describe.</param>
    /// <returns>Async task.</returns>
    private static async Task DescribeCaseAttachment(string attachmentId)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"9. Describe the attachment set.");

        var attachment = await _supportWrapper.DescribeAttachment(attachmentId);
        var data = Encoding.ASCII.GetString(attachment.Data.ToArray());
        Console.WriteLine($"\tAttachment includes {attachment.FileName} with data: \n\t{data}");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Resolve the support case.
    /// </summary>
    /// <param name="caseId">Id of the case to resolve.</param>
    /// <returns>Async task.</returns>
    private static async Task ResolveCase(string caseId)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"10. Resolve case {caseId}.");

        var status = await _supportWrapper.ResolveCase(caseId);
        Console.WriteLine($"\tCase {caseId} has final status {status}");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List resolved cases for the current day.
    /// </summary>
    /// <returns>Async Task.</returns>
    private static async Task DescribeTodayResolvedCases()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"11. List the resolved support cases for the current day.");
        var currentCases = await _supportWrapper.DescribeCases(
            new List<string>(),
            null,
            false,
            true,
            DateTime.UtcNow.Date,
            DateTime.UtcNow);

        foreach (var currentCase in currentCases)
        {
            if (currentCase.Status == "resolved")
            {
                Console.WriteLine(
                    $"\tCase: {currentCase.CaseId}: status {currentCase.Status}");
            }
        }

        Console.WriteLine(new string('-', 80));
    }
}
```
Metode pembungkus yang digunakan oleh skenario untuk Dukungan tindakan.  

```
/// <summary>
/// Wrapper methods to use AWS Support for working with support cases.
/// </summary>
public class SupportWrapper
{
    private readonly IAmazonAWSSupport _amazonSupport;
    public SupportWrapper(IAmazonAWSSupport amazonSupport)
    {
        _amazonSupport = amazonSupport;
    }


    /// <summary>
    /// Get the descriptions of AWS services.
    /// </summary>
    /// <param name="name">Optional language for services.
    /// Currently Chinese (“zh”), English ("en"), Japanese ("ja") and Korean (“ko”) are supported.</param>
    /// <returns>The list of AWS service descriptions.</returns>
    public async Task<List<Service>> DescribeServices(string language = "en")
    {
        var response = await _amazonSupport.DescribeServicesAsync(
            new DescribeServicesRequest()
            {
                Language = language
            });
        return response.Services;
    }



    /// <summary>
    /// Get the descriptions of support severity levels.
    /// </summary>
    /// <param name="name">Optional language for severity levels.
    /// Currently Chinese (“zh”), English ("en"), Japanese ("ja") and Korean (“ko”) are supported.</param>
    /// <returns>The list of support severity levels.</returns>
    public async Task<List<SeverityLevel>> DescribeSeverityLevels(string language = "en")
    {
        var response = await _amazonSupport.DescribeSeverityLevelsAsync(
            new DescribeSeverityLevelsRequest()
            {
                Language = language
            });
        return response.SeverityLevels;
    }



    /// <summary>
    /// Create a new support case.
    /// </summary>
    /// <param name="serviceCode">Service code for the new case.</param>
    /// <param name="categoryCode">Category for the new case.</param>
    /// <param name="severityCode">Severity code for the new case.</param>
    /// <param name="subject">Subject of the new case.</param>
    /// <param name="body">Body text of the new case.</param>
    /// <param name="language">Optional language support for your case.
    /// Currently Chinese (“zh”), English ("en"), Japanese ("ja") and Korean (“ko”) are supported.</param>
    /// <param name="attachmentSetId">Optional Id for an attachment set for the new case.</param>
    /// <param name="issueType">Optional issue type for the new case. Options are "customer-service" or "technical".</param>
    /// <returns>The caseId of the new support case.</returns>
    public async Task<string> CreateCase(string serviceCode, string categoryCode, string severityCode, string subject,
        string body, string language = "en", string? attachmentSetId = null, string issueType = "customer-service")
    {
        var response = await _amazonSupport.CreateCaseAsync(
            new CreateCaseRequest()
            {
                ServiceCode = serviceCode,
                CategoryCode = categoryCode,
                SeverityCode = severityCode,
                Subject = subject,
                Language = language,
                AttachmentSetId = attachmentSetId,
                IssueType = issueType,
                CommunicationBody = body
            });
        return response.CaseId;
    }



    /// <summary>
    /// Add an attachment to a set, or create a new attachment set if one does not exist.
    /// </summary>
    /// <param name="data">The data for the attachment.</param>
    /// <param name="fileName">The file name for the attachment.</param>
    /// <param name="attachmentSetId">Optional setId for the attachment. Creates a new attachment set if empty.</param>
    /// <returns>The setId of the attachment.</returns>
    public async Task<string> AddAttachmentToSet(MemoryStream data, string fileName, string? attachmentSetId = null)
    {
        var response = await _amazonSupport.AddAttachmentsToSetAsync(
            new AddAttachmentsToSetRequest
            {
                AttachmentSetId = attachmentSetId,
                Attachments = new List<Attachment>
                {
                    new Attachment
                    {
                        Data = data,
                        FileName = fileName
                    }
                }
            });
        return response.AttachmentSetId;
    }



    /// <summary>
    /// Get description of a specific attachment.
    /// </summary>
    /// <param name="attachmentId">Id of the attachment, usually fetched by describing the communications of a case.</param>
    /// <returns>The attachment object.</returns>
    public async Task<Attachment> DescribeAttachment(string attachmentId)
    {
        var response = await _amazonSupport.DescribeAttachmentAsync(
            new DescribeAttachmentRequest()
            {
                AttachmentId = attachmentId
            });
        return response.Attachment;
    }



    /// <summary>
    /// Add communication to a case, including optional attachment set ID and CC email addresses.
    /// </summary>
    /// <param name="caseId">Id for the support case.</param>
    /// <param name="body">Body text of the communication.</param>
    /// <param name="attachmentSetId">Optional Id for an attachment set.</param>
    /// <param name="ccEmailAddresses">Optional list of CC email addresses.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> AddCommunicationToCase(string caseId, string body,
        string? attachmentSetId = null, List<string>? ccEmailAddresses = null)
    {
        var response = await _amazonSupport.AddCommunicationToCaseAsync(
            new AddCommunicationToCaseRequest()
            {
                CaseId = caseId,
                CommunicationBody = body,
                AttachmentSetId = attachmentSetId,
                CcEmailAddresses = ccEmailAddresses
            });
        return response.Result;
    }



    /// <summary>
    /// Describe the communications for a case, optionally with a date filter.
    /// </summary>
    /// <param name="caseId">The ID of the support case.</param>
    /// <param name="afterTime">The optional start date for a filtered search.</param>
    /// <param name="beforeTime">The optional end date for a filtered search.</param>
    /// <returns>The list of communications for the case.</returns>
    public async Task<List<Communication>> DescribeCommunications(string caseId, DateTime? afterTime = null, DateTime? beforeTime = null)
    {
        var results = new List<Communication>();
        var paginateCommunications = _amazonSupport.Paginators.DescribeCommunications(
            new DescribeCommunicationsRequest()
            {
                CaseId = caseId,
                AfterTime = afterTime?.ToString("s"),
                BeforeTime = beforeTime?.ToString("s")
            });
        // Get the entire list using the paginator.
        await foreach (var communications in paginateCommunications.Communications)
        {
            results.Add(communications);
        }
        return results;
    }



    /// <summary>
    /// Get case details for a list of case ids, optionally with date filters.
    /// </summary>
    /// <param name="caseIds">The list of case IDs.</param>
    /// <param name="displayId">Optional display ID.</param>
    /// <param name="includeCommunication">True to include communication. Defaults to true.</param>
    /// <param name="includeResolvedCases">True to include resolved cases. Defaults to false.</param>
    /// <param name="afterTime">The optional start date for a filtered search.</param>
    /// <param name="beforeTime">The optional end date for a filtered search.</param>
    /// <param name="language">Optional language support for your case.
    /// Currently Chinese (“zh”), English ("en"), Japanese ("ja") and Korean (“ko”) are supported.</param>
    /// <returns>A list of CaseDetails.</returns>
    public async Task<List<CaseDetails>> DescribeCases(List<string> caseIds, string? displayId = null, bool includeCommunication = true,
        bool includeResolvedCases = false, DateTime? afterTime = null, DateTime? beforeTime = null,
        string language = "en")
    {
        var results = new List<CaseDetails>();
        var paginateCases = _amazonSupport.Paginators.DescribeCases(
            new DescribeCasesRequest()
            {
                CaseIdList = caseIds,
                DisplayId = displayId,
                IncludeCommunications = includeCommunication,
                IncludeResolvedCases = includeResolvedCases,
                AfterTime = afterTime?.ToString("s"),
                BeforeTime = beforeTime?.ToString("s"),
                Language = language
            });
        // Get the entire list using the paginator.
        await foreach (var cases in paginateCases.Cases)
        {
            results.Add(cases);
        }
        return results;
    }



    /// <summary>
    /// Resolve a support case by caseId.
    /// </summary>
    /// <param name="caseId">Id for the support case.</param>
    /// <returns>The final status of the case after resolving.</returns>
    public async Task<string> ResolveCase(string caseId)
    {
        var response = await _amazonSupport.ResolveCaseAsync(
            new ResolveCaseRequest()
            {
                CaseId = caseId
            });
        return response.FinalCaseStatus;
    }


    /// <summary>
    /// Verify the support level for AWS Support API access.
    /// </summary>
    /// <returns>True if the subscription level supports API access.</returns>
    public async Task<bool> VerifySubscription()
    {
        try
        {
            var response = await _amazonSupport.DescribeServicesAsync(
                new DescribeServicesRequest()
                {
                    Language = "en"
                });
            return response.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (Amazon.AWSSupport.AmazonAWSSupportException ex)
        {
            if (ex.ErrorCode == "SubscriptionRequiredException")
            {
                return false;
            }
            else throw;
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AddAttachmentsToSet](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/AddAttachmentsToSet)
  + [AddCommunicationToCase](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/AddCommunicationToCase)
  + [CreateCase](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/CreateCase)
  + [DescribeAttachment](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeAttachment)
  + [DescribeCases](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeCases)
  + [DescribeCommunications](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeCommunications)
  + [DescribeServices](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeServices)
  + [DescribeSeverityLevels](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeSeverityLevels)
  + [ResolveCase](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/ResolveCase)

## Tindakan
<a name="actions"></a>

### `AddAttachmentsToSet`
<a name="support_AddAttachmentsToSet_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddAttachmentsToSet`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Add an attachment to a set, or create a new attachment set if one does not exist.
    /// </summary>
    /// <param name="data">The data for the attachment.</param>
    /// <param name="fileName">The file name for the attachment.</param>
    /// <param name="attachmentSetId">Optional setId for the attachment. Creates a new attachment set if empty.</param>
    /// <returns>The setId of the attachment.</returns>
    public async Task<string> AddAttachmentToSet(MemoryStream data, string fileName, string? attachmentSetId = null)
    {
        var response = await _amazonSupport.AddAttachmentsToSetAsync(
            new AddAttachmentsToSetRequest
            {
                AttachmentSetId = attachmentSetId,
                Attachments = new List<Attachment>
                {
                    new Attachment
                    {
                        Data = data,
                        FileName = fileName
                    }
                }
            });
        return response.AttachmentSetId;
    }
```
+  Untuk detail API, lihat [AddAttachmentsToSet](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/AddAttachmentsToSet)di *Referensi AWS SDK untuk .NET API*. 

### `AddCommunicationToCase`
<a name="support_AddCommunicationToCase_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddCommunicationToCase`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Add communication to a case, including optional attachment set ID and CC email addresses.
    /// </summary>
    /// <param name="caseId">Id for the support case.</param>
    /// <param name="body">Body text of the communication.</param>
    /// <param name="attachmentSetId">Optional Id for an attachment set.</param>
    /// <param name="ccEmailAddresses">Optional list of CC email addresses.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> AddCommunicationToCase(string caseId, string body,
        string? attachmentSetId = null, List<string>? ccEmailAddresses = null)
    {
        var response = await _amazonSupport.AddCommunicationToCaseAsync(
            new AddCommunicationToCaseRequest()
            {
                CaseId = caseId,
                CommunicationBody = body,
                AttachmentSetId = attachmentSetId,
                CcEmailAddresses = ccEmailAddresses
            });
        return response.Result;
    }
```
+  Untuk detail API, lihat [AddCommunicationToCase](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/AddCommunicationToCase)di *Referensi AWS SDK untuk .NET API*. 

### `CreateCase`
<a name="support_CreateCase_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCase`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Create a new support case.
    /// </summary>
    /// <param name="serviceCode">Service code for the new case.</param>
    /// <param name="categoryCode">Category for the new case.</param>
    /// <param name="severityCode">Severity code for the new case.</param>
    /// <param name="subject">Subject of the new case.</param>
    /// <param name="body">Body text of the new case.</param>
    /// <param name="language">Optional language support for your case.
    /// Currently Chinese (“zh”), English ("en"), Japanese ("ja") and Korean (“ko”) are supported.</param>
    /// <param name="attachmentSetId">Optional Id for an attachment set for the new case.</param>
    /// <param name="issueType">Optional issue type for the new case. Options are "customer-service" or "technical".</param>
    /// <returns>The caseId of the new support case.</returns>
    public async Task<string> CreateCase(string serviceCode, string categoryCode, string severityCode, string subject,
        string body, string language = "en", string? attachmentSetId = null, string issueType = "customer-service")
    {
        var response = await _amazonSupport.CreateCaseAsync(
            new CreateCaseRequest()
            {
                ServiceCode = serviceCode,
                CategoryCode = categoryCode,
                SeverityCode = severityCode,
                Subject = subject,
                Language = language,
                AttachmentSetId = attachmentSetId,
                IssueType = issueType,
                CommunicationBody = body
            });
        return response.CaseId;
    }
```
+  Untuk detail API, lihat [CreateCase](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/CreateCase)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeAttachment`
<a name="support_DescribeAttachment_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAttachment`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Get description of a specific attachment.
    /// </summary>
    /// <param name="attachmentId">Id of the attachment, usually fetched by describing the communications of a case.</param>
    /// <returns>The attachment object.</returns>
    public async Task<Attachment> DescribeAttachment(string attachmentId)
    {
        var response = await _amazonSupport.DescribeAttachmentAsync(
            new DescribeAttachmentRequest()
            {
                AttachmentId = attachmentId
            });
        return response.Attachment;
    }
```
+  Untuk detail API, lihat [DescribeAttachment](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeAttachment)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeCases`
<a name="support_DescribeCases_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCases`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Get case details for a list of case ids, optionally with date filters.
    /// </summary>
    /// <param name="caseIds">The list of case IDs.</param>
    /// <param name="displayId">Optional display ID.</param>
    /// <param name="includeCommunication">True to include communication. Defaults to true.</param>
    /// <param name="includeResolvedCases">True to include resolved cases. Defaults to false.</param>
    /// <param name="afterTime">The optional start date for a filtered search.</param>
    /// <param name="beforeTime">The optional end date for a filtered search.</param>
    /// <param name="language">Optional language support for your case.
    /// Currently Chinese (“zh”), English ("en"), Japanese ("ja") and Korean (“ko”) are supported.</param>
    /// <returns>A list of CaseDetails.</returns>
    public async Task<List<CaseDetails>> DescribeCases(List<string> caseIds, string? displayId = null, bool includeCommunication = true,
        bool includeResolvedCases = false, DateTime? afterTime = null, DateTime? beforeTime = null,
        string language = "en")
    {
        var results = new List<CaseDetails>();
        var paginateCases = _amazonSupport.Paginators.DescribeCases(
            new DescribeCasesRequest()
            {
                CaseIdList = caseIds,
                DisplayId = displayId,
                IncludeCommunications = includeCommunication,
                IncludeResolvedCases = includeResolvedCases,
                AfterTime = afterTime?.ToString("s"),
                BeforeTime = beforeTime?.ToString("s"),
                Language = language
            });
        // Get the entire list using the paginator.
        await foreach (var cases in paginateCases.Cases)
        {
            results.Add(cases);
        }
        return results;
    }
```
+  Untuk detail API, lihat [DescribeCases](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeCases)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeCommunications`
<a name="support_DescribeCommunications_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCommunications`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Describe the communications for a case, optionally with a date filter.
    /// </summary>
    /// <param name="caseId">The ID of the support case.</param>
    /// <param name="afterTime">The optional start date for a filtered search.</param>
    /// <param name="beforeTime">The optional end date for a filtered search.</param>
    /// <returns>The list of communications for the case.</returns>
    public async Task<List<Communication>> DescribeCommunications(string caseId, DateTime? afterTime = null, DateTime? beforeTime = null)
    {
        var results = new List<Communication>();
        var paginateCommunications = _amazonSupport.Paginators.DescribeCommunications(
            new DescribeCommunicationsRequest()
            {
                CaseId = caseId,
                AfterTime = afterTime?.ToString("s"),
                BeforeTime = beforeTime?.ToString("s")
            });
        // Get the entire list using the paginator.
        await foreach (var communications in paginateCommunications.Communications)
        {
            results.Add(communications);
        }
        return results;
    }
```
+  Untuk detail API, lihat [DescribeCommunications](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeCommunications)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeServices`
<a name="support_DescribeServices_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeServices`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Get the descriptions of AWS services.
    /// </summary>
    /// <param name="name">Optional language for services.
    /// Currently Chinese (“zh”), English ("en"), Japanese ("ja") and Korean (“ko”) are supported.</param>
    /// <returns>The list of AWS service descriptions.</returns>
    public async Task<List<Service>> DescribeServices(string language = "en")
    {
        var response = await _amazonSupport.DescribeServicesAsync(
            new DescribeServicesRequest()
            {
                Language = language
            });
        return response.Services;
    }
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeServices)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeSeverityLevels`
<a name="support_DescribeSeverityLevels_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSeverityLevels`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Get the descriptions of support severity levels.
    /// </summary>
    /// <param name="name">Optional language for severity levels.
    /// Currently Chinese (“zh”), English ("en"), Japanese ("ja") and Korean (“ko”) are supported.</param>
    /// <returns>The list of support severity levels.</returns>
    public async Task<List<SeverityLevel>> DescribeSeverityLevels(string language = "en")
    {
        var response = await _amazonSupport.DescribeSeverityLevelsAsync(
            new DescribeSeverityLevelsRequest()
            {
                Language = language
            });
        return response.SeverityLevels;
    }
```
+  Untuk detail API, lihat [DescribeSeverityLevels](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/DescribeSeverityLevels)di *Referensi AWS SDK untuk .NET API*. 

### `ResolveCase`
<a name="support_ResolveCase_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResolveCase`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Support#code-examples). 

```
    /// <summary>
    /// Resolve a support case by caseId.
    /// </summary>
    /// <param name="caseId">Id for the support case.</param>
    /// <returns>The final status of the case after resolving.</returns>
    public async Task<string> ResolveCase(string caseId)
    {
        var response = await _amazonSupport.ResolveCaseAsync(
            new ResolveCaseRequest()
            {
                CaseId = caseId
            });
        return response.FinalCaseStatus;
    }
```
+  Untuk detail API, lihat [ResolveCase](https://docs.aws.amazon.com/goto/DotNetSDKV3/support-2013-04-15/ResolveCase)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon Texttract menggunakan SDK untuk .NET
<a name="csharp_3_textract_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk .NET dengan menggunakan Amazon Textract.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk .NET**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/FeedbackSentimentAnalyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon Transcribe menggunakan SDK untuk .NET
<a name="csharp_3_transcribe_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan AWS SDK untuk .NET with Amazon Transcribe.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateVocabulary`
<a name="transcribe_CreateVocabulary_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVocabulary`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Create a custom vocabulary using a list of phrases. Custom vocabularies
    /// improve transcription accuracy for one or more specific words.
    /// </summary>
    /// <param name="languageCode">The language code of the vocabulary.</param>
    /// <param name="phrases">Phrases to use in the vocabulary.</param>
    /// <param name="vocabularyName">Name for the vocabulary.</param>
    /// <returns>The state of the custom vocabulary.</returns>
    public async Task<VocabularyState> CreateCustomVocabulary(LanguageCode languageCode,
        List<string> phrases, string vocabularyName)
    {
        var response = await _amazonTranscribeService.CreateVocabularyAsync(
            new CreateVocabularyRequest
            {
                LanguageCode = languageCode,
                Phrases = phrases,
                VocabularyName = vocabularyName
            });
        return response.VocabularyState;
    }
```
+  Untuk detail API, lihat [CreateVocabulary](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/CreateVocabulary)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteMedicalTranscriptionJob`
<a name="transcribe_DeleteMedicalTranscriptionJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMedicalTranscriptionJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Delete a medical transcription job. Also deletes the transcript associated with the job.
    /// </summary>
    /// <param name="jobName">Name of the medical transcription job to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteMedicalTranscriptionJob(string jobName)
    {
        var response = await _amazonTranscribeService.DeleteMedicalTranscriptionJobAsync(
            new DeleteMedicalTranscriptionJobRequest()
            {
                MedicalTranscriptionJobName = jobName
            });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteMedicalTranscriptionJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/DeleteMedicalTranscriptionJob)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteTranscriptionJob`
<a name="transcribe_DeleteTranscriptionJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTranscriptionJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Delete a transcription job. Also deletes the transcript associated with the job.
    /// </summary>
    /// <param name="jobName">Name of the transcription job to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteTranscriptionJob(string jobName)
    {
        var response = await _amazonTranscribeService.DeleteTranscriptionJobAsync(
            new DeleteTranscriptionJobRequest()
            {
                TranscriptionJobName = jobName
            });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteTranscriptionJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/DeleteTranscriptionJob)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteVocabulary`
<a name="transcribe_DeleteVocabulary_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVocabulary`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Delete an existing custom vocabulary.
    /// </summary>
    /// <param name="vocabularyName">Name of the vocabulary to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteCustomVocabulary(string vocabularyName)
    {
        var response = await _amazonTranscribeService.DeleteVocabularyAsync(
            new DeleteVocabularyRequest
            {
                VocabularyName = vocabularyName
            });
        return response.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteVocabulary](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/DeleteVocabulary)di *Referensi AWS SDK untuk .NET API*. 

### `GetTranscriptionJob`
<a name="transcribe_GetTranscriptionJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTranscriptionJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Get details about a transcription job.
    /// </summary>
    /// <param name="jobName">A unique name for the transcription job.</param>
    /// <returns>A TranscriptionJob instance with information on the requested job.</returns>
    public async Task<TranscriptionJob> GetTranscriptionJob(string jobName)
    {
        var response = await _amazonTranscribeService.GetTranscriptionJobAsync(
            new GetTranscriptionJobRequest()
            {
                TranscriptionJobName = jobName
            });
        return response.TranscriptionJob;
    }
```
+  Untuk detail API, lihat [GetTranscriptionJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/GetTranscriptionJob)di *Referensi AWS SDK untuk .NET API*. 

### `GetVocabulary`
<a name="transcribe_GetVocabulary_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetVocabulary`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Get information about a custom vocabulary.
    /// </summary>
    /// <param name="vocabularyName">Name of the vocabulary.</param>
    /// <returns>The state of the custom vocabulary.</returns>
    public async Task<VocabularyState> GetCustomVocabulary(string vocabularyName)
    {
        var response = await _amazonTranscribeService.GetVocabularyAsync(
            new GetVocabularyRequest()
            {
                VocabularyName = vocabularyName
            });
        return response.VocabularyState;
    }
```
+  Untuk detail API, lihat [GetVocabulary](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/GetVocabulary)di *Referensi AWS SDK untuk .NET API*. 

### `ListMedicalTranscriptionJobs`
<a name="transcribe_ListMedicalTranscriptionJobs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMedicalTranscriptionJobs`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// List medical transcription jobs, optionally with a name filter.
    /// </summary>
    /// <param name="jobNameContains">Optional name filter for the medical transcription jobs.</param>
    /// <returns>A list of summaries about medical transcription jobs.</returns>
    public async Task<List<MedicalTranscriptionJobSummary>> ListMedicalTranscriptionJobs(
        string? jobNameContains = null)
    {
        var response = await _amazonTranscribeService.ListMedicalTranscriptionJobsAsync(
            new ListMedicalTranscriptionJobsRequest()
            {
                JobNameContains = jobNameContains
            });
        return response.MedicalTranscriptionJobSummaries;
    }
```
+  Untuk detail API, lihat [ListMedicalTranscriptionJobs](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/ListMedicalTranscriptionJobs)di *Referensi AWS SDK untuk .NET API*. 

### `ListTranscriptionJobs`
<a name="transcribe_ListTranscriptionJobs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTranscriptionJobs`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// List transcription jobs, optionally with a name filter.
    /// </summary>
    /// <param name="jobNameContains">Optional name filter for the transcription jobs.</param>
    /// <returns>A list of transcription job summaries.</returns>
    public async Task<List<TranscriptionJobSummary>> ListTranscriptionJobs(string? jobNameContains = null)
    {
        var response = await _amazonTranscribeService.ListTranscriptionJobsAsync(
            new ListTranscriptionJobsRequest()
            {
                JobNameContains = jobNameContains
            });
        return response.TranscriptionJobSummaries;
    }
```
+  Untuk detail API, lihat [ListTranscriptionJobs](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/ListTranscriptionJobs)di *Referensi AWS SDK untuk .NET API*. 

### `ListVocabularies`
<a name="transcribe_ListVocabularies_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListVocabularies`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// List custom vocabularies for the current account. Optionally specify a name
    /// filter and a specific state to filter the vocabularies list.
    /// </summary>
    /// <param name="nameContains">Optional string the vocabulary name must contain.</param>
    /// <param name="stateEquals">Optional state of the vocabulary.</param>
    /// <returns>List of information about the vocabularies.</returns>
    public async Task<List<VocabularyInfo>> ListCustomVocabularies(string? nameContains = null,
        VocabularyState? stateEquals = null)
    {
        var response = await _amazonTranscribeService.ListVocabulariesAsync(
            new ListVocabulariesRequest()
            {
                NameContains = nameContains,
                StateEquals = stateEquals
            });
        return response.Vocabularies;
    }
```
+  Untuk detail API, lihat [ListVocabularies](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/ListVocabularies)di *Referensi AWS SDK untuk .NET API*. 

### `StartMedicalTranscriptionJob`
<a name="transcribe_StartMedicalTranscriptionJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartMedicalTranscriptionJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Start a medical transcription job for a media file. This method returns
    /// as soon as the job is started.
    /// </summary>
    /// <param name="jobName">A unique name for the medical transcription job.</param>
    /// <param name="mediaFileUri">The URI of the media file, typically an Amazon S3 location.</param>
    /// <param name="mediaFormat">The format of the media file.</param>
    /// <param name="outputBucketName">Location for the output, typically an Amazon S3 location.</param>
    /// <param name="transcriptionType">Conversation or dictation transcription type.</param>
    /// <returns>A MedicalTransactionJob instance with information on the new job.</returns>
    public async Task<MedicalTranscriptionJob> StartMedicalTranscriptionJob(
        string jobName, string mediaFileUri,
        MediaFormat mediaFormat, string outputBucketName, Amazon.TranscribeService.Type transcriptionType)
    {
        var response = await _amazonTranscribeService.StartMedicalTranscriptionJobAsync(
            new StartMedicalTranscriptionJobRequest()
            {
                MedicalTranscriptionJobName = jobName,
                Media = new Media()
                {
                    MediaFileUri = mediaFileUri
                },
                MediaFormat = mediaFormat,
                LanguageCode =
                    LanguageCode
                        .EnUS, // The value must be en-US for medical transcriptions.
                OutputBucketName = outputBucketName,
                OutputKey =
                    jobName, // The value is a key used to fetch the output of the transcription.
                Specialty = Specialty.PRIMARYCARE, // The value PRIMARYCARE must be set.
                Type = transcriptionType
            });
        return response.MedicalTranscriptionJob;
    }
```
+  Untuk detail API, lihat [StartMedicalTranscriptionJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/StartMedicalTranscriptionJob)di *Referensi AWS SDK untuk .NET API*. 

### `StartTranscriptionJob`
<a name="transcribe_StartTranscriptionJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTranscriptionJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Start a transcription job for a media file. This method returns
    /// as soon as the job is started.
    /// </summary>
    /// <param name="jobName">A unique name for the transcription job.</param>
    /// <param name="mediaFileUri">The URI of the media file, typically an Amazon S3 location.</param>
    /// <param name="mediaFormat">The format of the media file.</param>
    /// <param name="languageCode">The language code of the media file, such as en-US.</param>
    /// <param name="vocabularyName">Optional name of a custom vocabulary.</param>
    /// <returns>A TranscriptionJob instance with information on the new job.</returns>
    public async Task<TranscriptionJob> StartTranscriptionJob(string jobName, string mediaFileUri,
        MediaFormat mediaFormat, LanguageCode languageCode, string? vocabularyName)
    {
        var response = await _amazonTranscribeService.StartTranscriptionJobAsync(
            new StartTranscriptionJobRequest()
            {
                TranscriptionJobName = jobName,
                Media = new Media()
                {
                    MediaFileUri = mediaFileUri
                },
                MediaFormat = mediaFormat,
                LanguageCode = languageCode,
                Settings = vocabularyName != null ? new Settings()
                {
                    VocabularyName = vocabularyName
                } : null
            });
        return response.TranscriptionJob;
    }
```
+  Untuk detail API, lihat [StartTranscriptionJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/StartTranscriptionJob)di *Referensi AWS SDK untuk .NET API*. 

### `UpdateVocabulary`
<a name="transcribe_UpdateVocabulary_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateVocabulary`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Transcribe#code-examples). 

```
    /// <summary>
    /// Update a custom vocabulary with new values. Update overwrites all existing information.
    /// </summary>
    /// <param name="languageCode">The language code of the vocabulary.</param>
    /// <param name="phrases">Phrases to use in the vocabulary.</param>
    /// <param name="vocabularyName">Name for the vocabulary.</param>
    /// <returns>The state of the custom vocabulary.</returns>
    public async Task<VocabularyState> UpdateCustomVocabulary(LanguageCode languageCode,
        List<string> phrases, string vocabularyName)
    {
        var response = await _amazonTranscribeService.UpdateVocabularyAsync(
            new UpdateVocabularyRequest()
            {
                LanguageCode = languageCode,
                Phrases = phrases,
                VocabularyName = vocabularyName
            });
        return response.VocabularyState;
    }
```
+  Untuk detail API, lihat [UpdateVocabulary](https://docs.aws.amazon.com/goto/DotNetSDKV3/transcribe-2017-10-26/UpdateVocabulary)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon Translate menggunakan SDK untuk .NET
<a name="csharp_3_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET with Amazon Translate.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DescribeTextTranslationJob`
<a name="translate_DescribeTextTranslationJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTextTranslationJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Translate#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Translate;
    using Amazon.Translate.Model;

    /// <summary>
    /// The following example shows how to retrieve the details of
    /// a text translation job using Amazon Translate.
    /// </summary>
    public class DescribeTextTranslation
    {
        public static async Task Main()
        {
            var client = new AmazonTranslateClient();

            // The Job Id is generated when the text translation job is started
            // with a call to the StartTextTranslationJob method.
            var jobId = "1234567890abcdef01234567890abcde";

            var request = new DescribeTextTranslationJobRequest
            {
                JobId = jobId,
            };

            var jobProperties = await DescribeTranslationJobAsync(client, request);

            DisplayTranslationJobDetails(jobProperties);
        }

        /// <summary>
        /// Retrieve information about an Amazon Translate text translation job.
        /// </summary>
        /// <param name="client">The initialized Amazon Translate client object.</param>
        /// <param name="request">The DescribeTextTranslationJobRequest object.</param>
        /// <returns>The TextTranslationJobProperties object containing
        /// information about the text translation job..</returns>
        public static async Task<TextTranslationJobProperties> DescribeTranslationJobAsync(
            AmazonTranslateClient client,
            DescribeTextTranslationJobRequest request)
        {
            var response = await client.DescribeTextTranslationJobAsync(request);
            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                return response.TextTranslationJobProperties;
            }
            else
            {
                return null;
            }
        }

        /// <summary>
        /// Displays the properties of the text translation job.
        /// </summary>
        /// <param name="jobProperties">The properties of the text translation
        /// job returned by the call to DescribeTextTranslationJobAsync.</param>
        public static void DisplayTranslationJobDetails(TextTranslationJobProperties jobProperties)
        {
            if (jobProperties is null)
            {
                Console.WriteLine("No text translation job properties found.");
                return;
            }

            // Display the details of the text translation job.
            Console.WriteLine($"{jobProperties.JobId}: {jobProperties.JobName}");
        }
    }
```
+  Untuk detail API, lihat [DescribeTextTranslationJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/translate-2017-07-01/DescribeTextTranslationJob)di *Referensi AWS SDK untuk .NET API*. 

### `ListTextTranslationJobs`
<a name="translate_ListTextTranslationJobs_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTextTranslationJobs`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Translate#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Translate;
    using Amazon.Translate.Model;

    /// <summary>
    /// List Amazon Translate translation jobs, along with details about each job.
    /// </summary>
    public class ListTranslationJobs
    {
        public static async Task Main()
        {
            var client = new AmazonTranslateClient();
            var filter = new TextTranslationJobFilter
            {
                JobStatus = "COMPLETED",
            };

            var request = new ListTextTranslationJobsRequest
            {
                MaxResults = 10,
                Filter = filter,
            };

            await ListJobsAsync(client, request);
        }

        /// <summary>
        /// List Amazon Translate text translation jobs.
        /// </summary>
        /// <param name="client">The initialized Amazon Translate client object.</param>
        /// <param name="request">An Amazon Translate
        /// ListTextTranslationJobsRequest object detailing which text
        /// translation jobs are of interest.</param>
        public static async Task ListJobsAsync(
            AmazonTranslateClient client,
            ListTextTranslationJobsRequest request)
        {
            ListTextTranslationJobsResponse response;

            do
            {
                response = await client.ListTextTranslationJobsAsync(request);
                ShowTranslationJobDetails(response.TextTranslationJobPropertiesList);

                request.NextToken = response.NextToken;
            }
            while (response.NextToken is not null);
        }

        /// <summary>
        /// List existing translation job details.
        /// </summary>
        /// <param name="properties">A list of Amazon Translate text
        /// translation jobs.</param>
        public static void ShowTranslationJobDetails(List<TextTranslationJobProperties> properties)
        {
            properties.ForEach(prop =>
            {
                Console.WriteLine($"{prop.JobId}: {prop.JobName}");
                Console.WriteLine($"Status: {prop.JobStatus}");
                Console.WriteLine($"Submitted time: {prop.SubmittedTime}");
            });
        }
    }
```
+  Untuk detail API, lihat [ListTextTranslationJobs](https://docs.aws.amazon.com/goto/DotNetSDKV3/translate-2017-07-01/ListTextTranslationJobs)di *Referensi AWS SDK untuk .NET API*. 

### `StartTextTranslationJob`
<a name="translate_StartTextTranslationJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTextTranslationJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Translate#code-examples). 

```
    using System;
    using System.Collections.Generic;
    using System.Threading.Tasks;
    using Amazon.Translate;
    using Amazon.Translate.Model;

    /// <summary>
    /// This example shows how to use Amazon Translate to process the files in
    /// an Amazon Simple Storage Service (Amazon S3) bucket. The translated results
    /// will also be stored in an Amazon S3 bucket.
    /// </summary>
    public class BatchTranslate
    {
        public static async Task Main()
        {
            var contentType = "text/plain";

            // Set this variable to an S3 bucket location with a folder."
            // Input files must be in a folder and not at the bucket root."
            var s3InputUri = "s3://amzn-s3-demo-bucket1/FOLDER/";
            var s3OutputUri = "s3://amzn-s3-demo-bucket2/";

            // This role must have permissions to read the source bucket and to read and
            // write to the destination bucket where the translated text will be stored.
            var dataAccessRoleArn = "arn:aws:iam::0123456789ab:role/S3TranslateRole";

            var client = new AmazonTranslateClient();

            var inputConfig = new InputDataConfig
            {
                ContentType = contentType,
                S3Uri = s3InputUri,
            };

            var outputConfig = new OutputDataConfig
            {
                S3Uri = s3OutputUri,
            };

            var request = new StartTextTranslationJobRequest
            {
                JobName = "ExampleTranslationJob",
                DataAccessRoleArn = dataAccessRoleArn,
                InputDataConfig = inputConfig,
                OutputDataConfig = outputConfig,
                SourceLanguageCode = "en",
                TargetLanguageCodes = new List<string> { "fr" },
            };

            var response = await StartTextTranslationAsync(client, request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"{response.JobId}: {response.JobStatus}");
            }
        }

        /// <summary>
        /// Start the Amazon Translate text translation job.
        /// </summary>
        /// <param name="client">The initialized AmazonTranslateClient object.</param>
        /// <param name="request">The request object that includes details such
        /// as source and destination bucket names and the IAM Role that will
        /// be used to access the buckets.</param>
        /// <returns>The StartTextTranslationResponse object that includes the
        /// details of the request response.</returns>
        public static async Task<StartTextTranslationJobResponse> StartTextTranslationAsync(AmazonTranslateClient client, StartTextTranslationJobRequest request)
        {
            var response = await client.StartTextTranslationJobAsync(request);
            return response;
        }
    }
```
+  Untuk detail API, lihat [StartTextTranslationJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/translate-2017-07-01/StartTextTranslationJob)di *Referensi AWS SDK untuk .NET API*. 

### `StopTextTranslationJob`
<a name="translate_StopTextTranslationJob_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopTextTranslationJob`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Translate#code-examples). 

```
    using System;
    using System.Threading.Tasks;
    using Amazon.Translate;
    using Amazon.Translate.Model;

    /// <summary>
    /// Shows how to stop a running Amazon Translation Service text translation
    /// job.
    /// </summary>
    public class StopTextTranslationJob
    {
        public static async Task Main()
        {
            var client = new AmazonTranslateClient();
            var jobId = "1234567890abcdef01234567890abcde";

            var request = new StopTextTranslationJobRequest
            {
                JobId = jobId,
            };

            await StopTranslationJobAsync(client, request);
        }

        /// <summary>
        /// Sends a request to stop a text translation job.
        /// </summary>
        /// <param name="client">Initialized AmazonTrnslateClient object.</param>
        /// <param name="request">The request object to be passed to the
        /// StopTextJobAsync method.</param>
        public static async Task StopTranslationJobAsync(
            AmazonTranslateClient client,
            StopTextTranslationJobRequest request)
        {
            var response = await client.StopTextTranslationJobAsync(request);
            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"{response.JobId} as status: {response.JobStatus}");
            }
        }
    }
```
+  Untuk detail API, lihat [StopTextTranslationJob](https://docs.aws.amazon.com/goto/DotNetSDKV3/translate-2017-07-01/StopTextTranslationJob)di *Referensi AWS SDK untuk .NET API*. 

### `TranslateText`
<a name="translate_TranslateText_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TranslateText`.

**SDK untuk .NET**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Translate#code-examples). 

```
    using System;
    using System.IO;
    using System.Threading.Tasks;
    using Amazon.S3;
    using Amazon.S3.Transfer;
    using Amazon.Translate;
    using Amazon.Translate.Model;

    /// <summary>
    /// Take text from a file stored a Amazon Simple Storage Service (Amazon S3)
    /// object and translate it using the Amazon Transfer Service.
    /// </summary>
    public class TranslateText
    {
        public static async Task Main()
        {
            // If the region you want to use is different from the region
            // defined for the default user, supply it as a parameter to the
            // Amazon Translate client object constructor.
            var client = new AmazonTranslateClient();

            // Set the source language to "auto" to request Amazon Translate to
            // automatically detect te language of the source text.

            // You can get a list of the languages supposed by Amazon Translate
            // in the Amazon Translate Developer's Guide here:
            //      https://docs.aws.amazon.com/translate/latest/dg/what-is.html
            string srcLang = "en"; // English.
            string destLang = "fr"; // French.

            // The Amazon Simple Storage Service (Amazon S3) bucket where the
            // source text file is stored.
            string srcBucket = "amzn-s3-demo-bucket";
            string srcTextFile = "source.txt";

            var srcText = await GetSourceTextAsync(srcBucket, srcTextFile);
            var destText = await TranslatingTextAsync(client, srcLang, destLang, srcText);

            ShowText(srcText, destText);
        }

        /// <summary>
        /// Use the Amazon S3 TransferUtility to retrieve the text to translate
        /// from an object in an S3 bucket.
        /// </summary>
        /// <param name="srcBucket">The name of the S3 bucket where the
        /// text is stored.
        /// </param>
        /// <param name="srcTextFile">The key of the S3 object that
        /// contains the text to translate.</param>
        /// <returns>A string representing the source text.</returns>
        public static async Task<string> GetSourceTextAsync(string srcBucket, string srcTextFile)
        {
            string srcText = string.Empty;

            var s3Client = new AmazonS3Client();
            TransferUtility utility = new TransferUtility(s3Client);

            using var stream = await utility.OpenStreamAsync(srcBucket, srcTextFile);

            StreamReader file = new System.IO.StreamReader(stream);

            srcText = file.ReadToEnd();
            return srcText;
        }

        /// <summary>
        /// Use the Amazon Translate Service to translate the document from the
        /// source language to the specified destination language.
        /// </summary>
        /// <param name="client">The Amazon Translate Service client used to
        /// perform the translation.</param>
        /// <param name="srcLang">The language of the source text.</param>
        /// <param name="destLang">The destination language for the translated
        /// text.</param>
        /// <param name="text">A string representing the text to ranslate.</param>
        /// <returns>The text that has been translated to the destination
        /// language.</returns>
        public static async Task<string> TranslatingTextAsync(AmazonTranslateClient client, string srcLang, string destLang, string text)
        {
            var request = new TranslateTextRequest
            {
                SourceLanguageCode = srcLang,
                TargetLanguageCode = destLang,
                Text = text,
            };

            var response = await client.TranslateTextAsync(request);

            return response.TranslatedText;
        }

        /// <summary>
        /// Show the original text followed by the translated text.
        /// </summary>
        /// <param name="srcText">The original text to be translated.</param>
        /// <param name="destText">The translated text.</param>
        public static void ShowText(string srcText, string destText)
        {
            Console.WriteLine("Source text:");
            Console.WriteLine(srcText);
            Console.WriteLine();
            Console.WriteLine("Translated text:");
            Console.WriteLine(destText);
        }
    }
```
+  Untuk detail API, lihat [TranslateText](https://docs.aws.amazon.com/goto/DotNetSDKV3/translate-2017-07-01/TranslateText)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi Amazon SNS
<a name="cross_SnsPublishSubscription_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang memiliki langganan dan mempublikasikan fungsionalitas dan menerjemahkan pesan.

**SDK untuk .NET**  
 Menunjukkan cara menggunakan Amazon Simple Notification Service .NET API untuk membuat aplikasi web yang memiliki fungsi berlangganan dan mempublikasikan. Selain itu, contoh aplikasi ini juga menerjemahkan pesan.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/SubscribePublishTranslate).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon SNS
+ Amazon Translate

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_csharp_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk .NET**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/FeedbackSentimentAnalyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh kode untuk SDK untuk .NET (v4)
<a name="csharp_4_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk .NET (v4) dengan AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK untuk .NET (v4) Panduan Pengembang](https://docs.aws.amazon.com/sdk-for-net/v4/developer-guide/welcome.html)** - Lebih lanjut tentang menggunakan.NET dengan AWS. 
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23dotnet)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [Aurora](csharp_4_aurora_code_examples.md)
+ [Auto Scaling](csharp_4_auto-scaling_code_examples.md)
+ [Amazon Bedrock](csharp_4_bedrock_code_examples.md)
+ [Runtime Amazon Bedrock](csharp_4_bedrock-runtime_code_examples.md)
+ [CloudFormation](csharp_4_cloudformation_code_examples.md)
+ [CloudWatch](csharp_4_cloudwatch_code_examples.md)
+ [CloudWatch Log](csharp_4_cloudwatch-logs_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](csharp_4_cognito-identity-provider_code_examples.md)
+ [AWS Control Tower](csharp_4_controltower_code_examples.md)
+ [DynamoDB](csharp_4_dynamodb_code_examples.md)
+ [Amazon EC2](csharp_4_ec2_code_examples.md)
+ [Amazon ECS](csharp_4_ecs_code_examples.md)
+ [AWS IoT](csharp_4_iot_code_examples.md)
+ [AWS IoT data](csharp_4_iot-data-plane_code_examples.md)
+ [Amazon Redshift](csharp_4_redshift_code_examples.md)
+ [Amazon S3](csharp_4_s3_code_examples.md)

# Contoh Aurora menggunakan SDK untuk .NET (v4)
<a name="csharp_4_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Aurora.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Aurora
<a name="aurora_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Aurora.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
using Amazon.RDS;
using Amazon.RDS.Model;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;

namespace AuroraActions;

public static class HelloAurora
{
    static async Task Main(string[] args)
    {
        // Use the AWS .NET Core Setup package to set up dependency injection for the
        // Amazon Relational Database Service (Amazon RDS).
        // Use your AWS profile name, or leave it blank to use the default profile.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonRDS>()
            ).Build();

        // Now the client is available for injection. Fetching it directly here for example purposes only.
        var rdsClient = host.Services.GetRequiredService<IAmazonRDS>();

        // You can use await and any of the async methods to get a response.
        var response = await rdsClient.DescribeDBClustersAsync(new DescribeDBClustersRequest { IncludeShared = true });
        Console.WriteLine($"Hello Amazon RDS Aurora! Let's list some clusters in this account:");
        if (response.DBClusters == null)
        {
            Console.WriteLine($"\tNo clusters found.");
        }
        else
        {
            foreach (var cluster in response.DBClusters)
            {
                Console.WriteLine(
                    $"\tCluster: database: {cluster.DatabaseName} identifier: {cluster.DBClusterIdentifier}.");
            }
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusters) di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="aurora_Scenario_GetStartedClusters_csharp_4_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter klaster DB Aurora dan mengatur nilai parameter.
+ Membuat klaster DB yang menggunakan grup parameter.
+ Membuat instans DB yang berisi basis data.
+ Mengambil snapshot klaster DB, lalu membersihkan sumber daya.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
using Amazon.RDS;
using Amazon.RDS.Model;
using AuroraActions;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;
using Microsoft.Extensions.Logging.Debug;

namespace AuroraScenario;

/// <summary>
/// Scenario for Amazon Aurora examples.
/// </summary>
public class AuroraScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    This .NET example performs the following tasks:
    1.  Return a list of the available DB engine families for Aurora MySql using the DescribeDBEngineVersionsAsync method.
    2.  Select an engine family and create a custom DB cluster parameter group using the CreateDBClusterParameterGroupAsync method.
    3.  Get the parameter group using the DescribeDBClusterParameterGroupsAsync method.
    4.  Get some parameters in the group using the DescribeDBClusterParametersAsync method.
    5.  Parse and display some parameters in the group.
    6.  Modify the auto_increment_offset and auto_increment_increment parameters
        using the ModifyDBClusterParameterGroupAsync method.
    7.  Get and display the updated parameters using the DescribeDBClusterParametersAsync method with a source of "user".
    8.  Get a list of allowed engine versions using the DescribeDBEngineVersionsAsync method.
    9.  Create an Aurora DB cluster that contains a MySql database and uses the parameter group.
        using the CreateDBClusterAsync method.
    10. Wait for the DB cluster to be ready using the DescribeDBClustersAsync method.
    11. Display and select from a list of instance classes available for the selected engine and version
        using the paginated DescribeOrderableDBInstanceOptions method.
    12. Create a database instance in the cluster using the CreateDBInstanceAsync method.
    13. Wait for the DB instance to be ready using the DescribeDBInstances method.
    14. Display the connection endpoint string for the new DB cluster.
    15. Create a snapshot of the DB cluster using the CreateDBClusterSnapshotAsync method.
    16. Wait for DB snapshot to be ready using the DescribeDBClusterSnapshotsAsync method.
    17. Delete the DB instance using the DeleteDBInstanceAsync method.
    18. Delete the DB cluster using the DeleteDBClusterAsync method.
    19. Wait for DB cluster to be deleted using the DescribeDBClustersAsync methods.
    20. Delete the cluster parameter group using the DeleteDBClusterParameterGroupAsync.
    */

    private static readonly string sepBar = new('-', 80);
    private static AuroraWrapper auroraWrapper = null!;
    private static ILogger logger = null!;
    private static readonly string engine = "aurora-mysql";
    static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon Relational Database Service (Amazon RDS).
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonRDS>()
                    .AddTransient<AuroraWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder =>
        {
            builder.AddConsole();
        }).CreateLogger<AuroraScenario>();

        auroraWrapper = host.Services.GetRequiredService<AuroraWrapper>();

        Console.WriteLine(sepBar);
        Console.WriteLine(
            "Welcome to the Amazon Aurora: get started with DB clusters example.");
        Console.WriteLine(sepBar);

        DBClusterParameterGroup parameterGroup = null!;
        DBCluster? newCluster = null;
        DBInstance? newInstance = null;

        try
        {
            var parameterGroupFamily = await ChooseParameterGroupFamilyAsync();

            parameterGroup = await CreateDBParameterGroupAsync(parameterGroupFamily);

            var parameters = await DescribeParametersInGroupAsync(parameterGroup.DBClusterParameterGroupName,
                new List<string> { "auto_increment_offset", "auto_increment_increment" });

            await ModifyParametersAsync(parameterGroup.DBClusterParameterGroupName, parameters);

            await DescribeUserSourceParameters(parameterGroup.DBClusterParameterGroupName);

            var engineVersionChoice = await ChooseDBEngineVersionAsync(parameterGroupFamily);

            var newClusterIdentifier = "Example-Cluster-" + DateTime.Now.Ticks;

            newCluster = await CreateNewCluster
            (
                parameterGroup,
                engine,
                engineVersionChoice.EngineVersion,
                newClusterIdentifier
            );

            var instanceClassChoice = await ChooseDBInstanceClass(engine, engineVersionChoice.EngineVersion);

            var newInstanceIdentifier = "Example-Instance-" + DateTime.Now.Ticks;

            newInstance = await CreateNewInstance(
                newClusterIdentifier,
                engine,
                engineVersionChoice.EngineVersion,
                instanceClassChoice.DBInstanceClass,
                newInstanceIdentifier
            );

            DisplayConnectionString(newCluster!);
            await CreateSnapshot(newCluster!);
            await CleanupResources(newInstance, newCluster, parameterGroup);

            Console.WriteLine("Scenario complete.");
            Console.WriteLine(sepBar);
        }
        catch (Exception ex)
        {
            await CleanupResources(newInstance, newCluster, parameterGroup);
            logger.LogError(ex, "There was a problem executing the scenario.");
        }
    }

    /// <summary>
    /// Choose the Aurora DB parameter group family from a list of available options.
    /// </summary>
    /// <returns>The selected parameter group family.</returns>
    public static async Task<string> ChooseParameterGroupFamilyAsync()
    {
        Console.WriteLine(sepBar);
        // 1. Get a list of available engines.
        var engines = await auroraWrapper.DescribeDBEngineVersionsForEngineAsync(engine);

        Console.WriteLine($"1. The following is a list of available DB parameter group families for engine {engine}:");

        var parameterGroupFamilies =
            engines.GroupBy(e => e.DBParameterGroupFamily).ToList();
        for (var i = 1; i <= parameterGroupFamilies.Count; i++)
        {
            var parameterGroupFamily = parameterGroupFamilies[i - 1];
            // List the available parameter group families.
            Console.WriteLine(
                $"\t{i}. Family: {parameterGroupFamily.Key}");
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > parameterGroupFamilies.Count)
        {
            Console.WriteLine("2. Select an available DB parameter group family by entering a number from the preceding list:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }
        var parameterGroupFamilyChoice = parameterGroupFamilies[choiceNumber - 1];
        Console.WriteLine(sepBar);
        return parameterGroupFamilyChoice.Key;
    }

    /// <summary>
    /// Create and get information on a DB parameter group.
    /// </summary>
    /// <param name="dbParameterGroupFamily">The DBParameterGroupFamily for the new DB parameter group.</param>
    /// <returns>The new DBParameterGroup.</returns>
    public static async Task<DBClusterParameterGroup> CreateDBParameterGroupAsync(string dbParameterGroupFamily)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine($"2. Create new DB parameter group with family {dbParameterGroupFamily}:");

        var parameterGroup = await auroraWrapper.CreateCustomClusterParameterGroupAsync(
            dbParameterGroupFamily,
            "ExampleParameterGroup-" + DateTime.Now.Ticks,
            "New example parameter group");

        var groupInfo =
            await auroraWrapper.DescribeCustomDBClusterParameterGroupAsync(parameterGroup.DBClusterParameterGroupName);

        Console.WriteLine(
            $"3. New DB parameter group created: \n\t{groupInfo?.Description}, \n\tARN {groupInfo?.DBClusterParameterGroupName}");
        Console.WriteLine(sepBar);
        return parameterGroup;
    }

    /// <summary>
    /// Get and describe parameters from a DBParameterGroup.
    /// </summary>
    /// <param name="parameterGroupName">The name of the DBParameterGroup.</param>
    /// <param name="parameterNames">Optional specific names of parameters to describe.</param>
    /// <returns>The list of requested parameters.</returns>
    public static async Task<List<Parameter>> DescribeParametersInGroupAsync(string parameterGroupName, List<string>? parameterNames = null)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine("4. Get some parameters from the group.");
        Console.WriteLine(sepBar);

        var parameters =
            await auroraWrapper.DescribeDBClusterParametersInGroupAsync(parameterGroupName);

        var matchingParameters =
            parameters.Where(p => parameterNames == null || parameterNames.Contains(p.ParameterName)).ToList();

        Console.WriteLine("5. Parameter information:");
        matchingParameters.ForEach(p =>
            Console.WriteLine(
                $"\n\tParameter: {p.ParameterName}." +
                $"\n\tDescription: {p.Description}." +
                $"\n\tAllowed Values: {p.AllowedValues}." +
                $"\n\tValue: {p.ParameterValue}."));

        Console.WriteLine(sepBar);

        return matchingParameters;
    }

    /// <summary>
    /// Modify a parameter from a DBParameterGroup.
    /// </summary>
    /// <param name="parameterGroupName">Name of the DBParameterGroup.</param>
    /// <param name="parameters">The parameters to modify.</param>
    /// <returns>Async task.</returns>
    public static async Task ModifyParametersAsync(string parameterGroupName, List<Parameter> parameters)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine("6. Modify some parameters in the group.");

        await auroraWrapper.ModifyIntegerParametersInGroupAsync(parameterGroupName, parameters);

        Console.WriteLine(sepBar);
    }

    /// <summary>
    /// Describe the user source parameters in the group.
    /// </summary>
    /// <param name="parameterGroupName">The name of the DBParameterGroup.</param>
    /// <returns>Async task.</returns>
    public static async Task DescribeUserSourceParameters(string parameterGroupName)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine("7. Describe updated user source parameters in the group.");

        var parameters =
            await auroraWrapper.DescribeDBClusterParametersInGroupAsync(parameterGroupName, "user");

        parameters.ForEach(p =>
            Console.WriteLine(
                $"\n\tParameter: {p.ParameterName}." +
                $"\n\tDescription: {p.Description}." +
                $"\n\tAllowed Values: {p.AllowedValues}." +
                $"\n\tValue: {p.ParameterValue}."));

        Console.WriteLine(sepBar);
    }

    /// <summary>
    /// Choose a DB engine version.
    /// </summary>
    /// <param name="dbParameterGroupFamily">DB parameter group family for engine choice.</param>
    /// <returns>The selected engine version.</returns>
    public static async Task<DBEngineVersion> ChooseDBEngineVersionAsync(string dbParameterGroupFamily)
    {
        Console.WriteLine(sepBar);
        // Get a list of allowed engines.
        var allowedEngines =
            await auroraWrapper.DescribeDBEngineVersionsForEngineAsync(engine, dbParameterGroupFamily);

        Console.WriteLine($"Available DB engine versions for parameter group family {dbParameterGroupFamily}:");
        int i = 1;
        foreach (var version in allowedEngines)
        {
            Console.WriteLine(
                $"\t{i}. {version.DBEngineVersionDescription}.");
            i++;
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > allowedEngines.Count)
        {
            Console.WriteLine("8. Select an available DB engine version by entering a number from the list above:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }

        var engineChoice = allowedEngines[choiceNumber - 1];
        Console.WriteLine(sepBar);
        return engineChoice;
    }

    /// <summary>
    /// Create a new RDS DB cluster.
    /// </summary>
    /// <param name="parameterGroup">Parameter group to use for the DB cluster.</param>
    /// <param name="engineName">Engine to use for the DB cluster.</param>
    /// <param name="engineVersion">Engine version to use for the DB cluster.</param>
    /// <param name="clusterIdentifier">Cluster identifier to use for the DB cluster.</param>
    /// <returns>The new DB cluster.</returns>
    public static async Task<DBCluster?> CreateNewCluster(DBClusterParameterGroup parameterGroup,
        string engineName, string engineVersion, string clusterIdentifier)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine($"9. Create a new DB cluster with identifier {clusterIdentifier}.");

        DBCluster newCluster;
        var clusters = await auroraWrapper.DescribeDBClustersPagedAsync();
        var isClusterCreated = clusters.Any(i => i.DBClusterIdentifier == clusterIdentifier);

        if (isClusterCreated)
        {
            Console.WriteLine("Cluster already created.");
            newCluster = clusters.First(i => i.DBClusterIdentifier == clusterIdentifier);
        }
        else
        {
            Console.WriteLine("Enter an admin username:");
            var username = Console.ReadLine();

            Console.WriteLine("Enter an admin password:");
            var password = Console.ReadLine();

            newCluster = await auroraWrapper.CreateDBClusterWithAdminAsync(
                "ExampleDatabase",
                clusterIdentifier,
                parameterGroup.DBClusterParameterGroupName,
                engineName,
                engineVersion,
                username!,
                password!
            );

            Console.WriteLine("10. Waiting for DB cluster to be ready...");
            while (newCluster.Status != "available")
            {
                Console.Write(".");
                Thread.Sleep(5000);
                clusters = await auroraWrapper.DescribeDBClustersPagedAsync(clusterIdentifier);
                newCluster = clusters.First();
            }
        }

        Console.WriteLine(sepBar);
        return newCluster;
    }

    /// <summary>
    /// Choose a DB instance class for a particular engine and engine version.
    /// </summary>
    /// <param name="engine">DB engine for DB instance choice.</param>
    /// <param name="engineVersion">DB engine version for DB instance choice.</param>
    /// <returns>The selected orderable DB instance option.</returns>
    public static async Task<OrderableDBInstanceOption> ChooseDBInstanceClass(string engine, string engineVersion)
    {
        Console.WriteLine(sepBar);
        // Get a list of allowed DB instance classes.
        var allowedInstances =
            await auroraWrapper.DescribeOrderableDBInstanceOptionsPagedAsync(engine, engineVersion);

        Console.WriteLine($"Available DB instance classes for engine {engine} and version {engineVersion}:");
        int i = 1;

        foreach (var instance in allowedInstances)
        {
            Console.WriteLine(
                $"\t{i}. Instance class: {instance.DBInstanceClass} (storage type {instance.StorageType})");
            i++;
        }

        var choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > allowedInstances.Count)
        {
            Console.WriteLine("11. Select an available DB instance class by entering a number from the preceding list:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out choiceNumber);
        }

        var instanceChoice = allowedInstances[choiceNumber - 1];
        Console.WriteLine(sepBar);
        return instanceChoice;
    }

    /// <summary>
    /// Create a new DB instance.
    /// </summary>
    /// <param name="engineName">Engine to use for the DB instance.</param>
    /// <param name="engineVersion">Engine version to use for the DB instance.</param>
    /// <param name="instanceClass">Instance class to use for the DB instance.</param>
    /// <param name="instanceIdentifier">Instance identifier to use for the DB instance.</param>
    /// <returns>The new DB instance.</returns>
    public static async Task<DBInstance?> CreateNewInstance(
        string clusterIdentifier,
        string engineName,
        string engineVersion,
        string instanceClass,
        string instanceIdentifier)
    {
        Console.WriteLine(sepBar);
        Console.WriteLine($"12. Create a new DB instance with identifier {instanceIdentifier}.");
        bool isInstanceReady = false;
        DBInstance newInstance;
        var instances = await auroraWrapper.DescribeDBInstancesPagedAsync();
        isInstanceReady = instances.FirstOrDefault(i =>
            i.DBInstanceIdentifier == instanceIdentifier)?.DBInstanceStatus == "available";

        if (isInstanceReady)
        {
            Console.WriteLine("Instance already created.");
            newInstance = instances.First(i => i.DBInstanceIdentifier == instanceIdentifier);
        }
        else
        {
            newInstance = await auroraWrapper.CreateDBInstanceInClusterAsync(
                clusterIdentifier,
                instanceIdentifier,
                engineName,
                engineVersion,
                instanceClass
            );

            Console.WriteLine("13. Waiting for DB instance to be ready...");
            while (!isInstanceReady)
            {
                Console.Write(".");
                Thread.Sleep(5000);
                instances = await auroraWrapper.DescribeDBInstancesPagedAsync(instanceIdentifier);
                isInstanceReady = instances.FirstOrDefault()?.DBInstanceStatus == "available";
                newInstance = instances.First();
            }
        }

        Console.WriteLine(sepBar);
        return newInstance;
    }

    /// <summary>
    /// Display a connection string for an Amazon RDS DB cluster.
    /// </summary>
    /// <param name="cluster">The DB cluster to use to get a connection string.</param>
    public static void DisplayConnectionString(DBCluster cluster)
    {
        Console.WriteLine(sepBar);
        // Display the connection string.
        Console.WriteLine("14. New DB cluster connection string: ");
        Console.WriteLine(
            $"\n{engine} -h {cluster.Endpoint} -P {cluster.Port} "
            + $"-u {cluster.MasterUsername} -p [YOUR PASSWORD]\n");

        Console.WriteLine(sepBar);
    }

    /// <summary>
    /// Create a snapshot from an Amazon RDS DB cluster.
    /// </summary>
    /// <param name="cluster">DB cluster to use when creating a snapshot.</param>
    /// <returns>The snapshot object.</returns>
    public static async Task<DBClusterSnapshot> CreateSnapshot(DBCluster cluster)
    {
        Console.WriteLine(sepBar);
        // Create a snapshot.
        Console.WriteLine($"15. Creating snapshot from DB cluster {cluster.DBClusterIdentifier}.");
        var snapshot = await auroraWrapper.CreateClusterSnapshotByIdentifierAsync(
            cluster.DBClusterIdentifier,
            "ExampleSnapshot-" + DateTime.Now.Ticks);

        // Wait for the snapshot to be available.
        bool isSnapshotReady = false;

        Console.WriteLine($"16. Waiting for snapshot to be ready...");
        while (!isSnapshotReady)
        {
            Console.Write(".");
            Thread.Sleep(5000);
            var snapshots =
                await auroraWrapper.DescribeDBClusterSnapshotsByIdentifierAsync(cluster.DBClusterIdentifier);
            isSnapshotReady = snapshots.FirstOrDefault()?.Status == "available";
            snapshot = snapshots.First();
        }

        Console.WriteLine(
            $"Snapshot {snapshot.DBClusterSnapshotIdentifier} status is {snapshot.Status}.");
        Console.WriteLine(sepBar);
        return snapshot;
    }

    /// <summary>
    /// Clean up resources from the scenario.
    /// </summary>
    /// <param name="newInstance">The instance to clean up.</param>
    /// <param name="newCluster">The cluster to clean up.</param>
    /// <param name="parameterGroup">The parameter group to clean up.</param>
    /// <returns>Async Task.</returns>
    private static async Task CleanupResources(
        DBInstance? newInstance,
        DBCluster? newCluster,
        DBClusterParameterGroup? parameterGroup)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"Clean up resources.");

        if (newInstance is not null && GetYesNoResponse($"\tClean up instance {newInstance.DBInstanceIdentifier}? (y/n)"))
        {
            // Delete the DB instance.
            Console.WriteLine($"17. Deleting the DB instance {newInstance.DBInstanceIdentifier}.");
            await auroraWrapper.DeleteDBInstanceByIdentifierAsync(newInstance.DBInstanceIdentifier);
        }

        if (newCluster is not null && GetYesNoResponse($"\tClean up cluster {newCluster.DBClusterIdentifier}? (y/n)"))
        {
            // Delete the DB cluster.
            Console.WriteLine($"18. Deleting the DB cluster {newCluster.DBClusterIdentifier}.");
            await auroraWrapper.DeleteDBClusterByIdentifierAsync(newCluster.DBClusterIdentifier);

            // Wait for the DB cluster to delete.
            Console.WriteLine($"19. Waiting for the DB cluster to delete...");
            bool isClusterDeleted = false;

            while (!isClusterDeleted)
            {
                Console.Write(".");
                Thread.Sleep(5000);
                var cluster = await auroraWrapper.DescribeDBClustersPagedAsync();
                isClusterDeleted = cluster.All(i => i.DBClusterIdentifier != newCluster.DBClusterIdentifier);
            }

            Console.WriteLine("DB cluster deleted.");
        }

        if (parameterGroup is not null && GetYesNoResponse($"\tClean up parameter group? (y/n)"))
        {
            Console.WriteLine($"20. Deleting the DB parameter group {parameterGroup.DBClusterParameterGroupName}.");
            await auroraWrapper.DeleteClusterParameterGroupByNameAsync(parameterGroup.DBClusterParameterGroupName);
            Console.WriteLine("Parameter group deleted.");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null &&
                       ynResponse.Equals("y",
                           StringComparison.InvariantCultureIgnoreCase);
        return response;
    }
```
Metode pembungkus yang dipanggil oleh skenario untuk mengelola tindakan Aurora.  

```
using Amazon.RDS;
using Amazon.RDS.Model;

namespace AuroraActions;

/// <summary>
/// Wrapper for the Amazon Aurora cluster client operations.
/// </summary>
public class AuroraWrapper
{
    private readonly IAmazonRDS _amazonRDS;
    public AuroraWrapper(IAmazonRDS amazonRDS)
    {
        _amazonRDS = amazonRDS;
    }

    /// <summary>
    /// Get a list of DB engine versions for a particular DB engine.
    /// </summary>
    /// <param name="engine">The name of the engine.</param>
    /// <param name="parameterGroupFamily">Optional parameter group family name.</param>
    /// <returns>A list of DBEngineVersions.</returns>
    public async Task<List<DBEngineVersion>> DescribeDBEngineVersionsForEngineAsync(string engine,
        string? parameterGroupFamily = null)
    {
        var response = await _amazonRDS.DescribeDBEngineVersionsAsync(
            new DescribeDBEngineVersionsRequest()
            {
                Engine = engine,
                DBParameterGroupFamily = parameterGroupFamily
            });
        return response.DBEngineVersions;
    }

    /// <summary>
    /// Create a custom cluster parameter group.
    /// </summary>
    /// <param name="parameterGroupFamily">The family of the parameter group.</param>
    /// <param name="groupName">The name for the new parameter group.</param>
    /// <param name="description">A description for the new parameter group.</param>
    /// <returns>The new parameter group object.</returns>
    public async Task<DBClusterParameterGroup> CreateCustomClusterParameterGroupAsync(
        string parameterGroupFamily,
        string groupName,
        string description)
    {
        var request = new CreateDBClusterParameterGroupRequest
        {
            DBParameterGroupFamily = parameterGroupFamily,
            DBClusterParameterGroupName = groupName,
            Description = description,
        };

        var response = await _amazonRDS.CreateDBClusterParameterGroupAsync(request);
        return response.DBClusterParameterGroup;
    }

    /// <summary>
    /// Describe the cluster parameters in a parameter group.
    /// </summary>
    /// <param name="groupName">The name of the parameter group.</param>
    /// <param name="source">The optional name of the source filter.</param>
    /// <returns>The collection of parameters.</returns>
    public async Task<List<Parameter>> DescribeDBClusterParametersInGroupAsync(string groupName, string? source = null)
    {
        var paramList = new List<Parameter>();

        DescribeDBClusterParametersResponse response;
        var request = new DescribeDBClusterParametersRequest
        {
            DBClusterParameterGroupName = groupName,
            Source = source,
        };

        // Get the full list if there are multiple pages.
        do
        {
            response = await _amazonRDS.DescribeDBClusterParametersAsync(request);
            paramList.AddRange(response.Parameters);

            request.Marker = response.Marker;
        }
        while (response.Marker is not null);

        return paramList;
    }

    /// <summary>
    /// Get the description of a DB cluster parameter group by name.
    /// </summary>
    /// <param name="name">The name of the DB parameter group to describe.</param>
    /// <returns>The parameter group description.</returns>
    public async Task<DBClusterParameterGroup?> DescribeCustomDBClusterParameterGroupAsync(string name)
    {
        var response = await _amazonRDS.DescribeDBClusterParameterGroupsAsync(
            new DescribeDBClusterParameterGroupsRequest()
            {
                DBClusterParameterGroupName = name
            });
        return response.DBClusterParameterGroups.FirstOrDefault();
    }

    /// <summary>
    /// Modify the specified integer parameters with new values from user input.
    /// </summary>
    /// <param name="groupName">The group name for the parameters.</param>
    /// <param name="parameters">The list of integer parameters to modify.</param>
    /// <param name="newValue">Optional int value to set for parameters.</param>
    /// <returns>The name of the group that was modified.</returns>
    public async Task<string> ModifyIntegerParametersInGroupAsync(string groupName, List<Parameter> parameters, int newValue = 0)
    {
        foreach (var p in parameters)
        {
            if (p.IsModifiable.GetValueOrDefault() && p.DataType == "integer")
            {
                while (newValue == 0)
                {
                    Console.WriteLine(
                        $"Enter a new value for {p.ParameterName} from the allowed values {p.AllowedValues} ");

                    var choice = Console.ReadLine();
                    int.TryParse(choice, out newValue);
                }

                p.ParameterValue = newValue.ToString();
            }
        }

        var request = new ModifyDBClusterParameterGroupRequest
        {
            Parameters = parameters,
            DBClusterParameterGroupName = groupName,
        };

        var result = await _amazonRDS.ModifyDBClusterParameterGroupAsync(request);
        return result.DBClusterParameterGroupName;
    }


    /// <summary>
    /// Get a list of orderable DB instance options for a specific
    /// engine and engine version.
    /// </summary>
    /// <param name="engine">Name of the engine.</param>
    /// <param name="engineVersion">Version of the engine.</param>
    /// <returns>List of OrderableDBInstanceOptions.</returns>
    public async Task<List<OrderableDBInstanceOption>> DescribeOrderableDBInstanceOptionsPagedAsync(string engine, string engineVersion)
    {
        // Use a paginator to get a list of DB instance options.
        var results = new List<OrderableDBInstanceOption>();
        var paginateInstanceOptions = _amazonRDS.Paginators.DescribeOrderableDBInstanceOptions(
            new DescribeOrderableDBInstanceOptionsRequest()
            {
                Engine = engine,
                EngineVersion = engineVersion,
            });
        // Get the entire list using the paginator.
        await foreach (var instanceOptions in paginateInstanceOptions.OrderableDBInstanceOptions)
        {
            results.Add(instanceOptions);
        }
        return results;
    }

    /// <summary>
    /// Delete a particular parameter group by name.
    /// </summary>
    /// <param name="groupName">The name of the parameter group.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteClusterParameterGroupByNameAsync(string groupName)
    {
        var request = new DeleteDBClusterParameterGroupRequest
        {
            DBClusterParameterGroupName = groupName,
        };

        var response = await _amazonRDS.DeleteDBClusterParameterGroupAsync(request);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }

    /// <summary>
    /// Create a new cluster and database.
    /// </summary>
    /// <param name="dbName">The name of the new database.</param>
    /// <param name="clusterIdentifier">The identifier of the cluster.</param>
    /// <param name="parameterGroupName">The name of the parameter group.</param>
    /// <param name="dbEngine">The engine to use for the new cluster.</param>
    /// <param name="dbEngineVersion">The version of the engine to use.</param>
    /// <param name="adminName">The admin username.</param>
    /// <param name="adminPassword">The primary admin password.</param>
    /// <returns>The cluster object.</returns>
    public async Task<DBCluster> CreateDBClusterWithAdminAsync(
        string dbName,
        string clusterIdentifier,
        string parameterGroupName,
        string dbEngine,
        string dbEngineVersion,
        string adminName,
        string adminPassword)
    {
        var request = new CreateDBClusterRequest
        {
            DatabaseName = dbName,
            DBClusterIdentifier = clusterIdentifier,
            DBClusterParameterGroupName = parameterGroupName,
            Engine = dbEngine,
            EngineVersion = dbEngineVersion,
            MasterUsername = adminName,
            MasterUserPassword = adminPassword,
        };

        var response = await _amazonRDS.CreateDBClusterAsync(request);
        return response.DBCluster;
    }

    /// <summary>
    /// Returns a list of DB instances.
    /// </summary>
    /// <param name="dbInstanceIdentifier">Optional name of a specific DB instance.</param>
    /// <returns>List of DB instances.</returns>
    public async Task<List<DBInstance>> DescribeDBInstancesPagedAsync(string? dbInstanceIdentifier = null)
    {
        var results = new List<DBInstance>();
        var instancesPaginator = _amazonRDS.Paginators.DescribeDBInstances(
            new DescribeDBInstancesRequest
            {
                DBInstanceIdentifier = dbInstanceIdentifier
            });
        // Get the entire list using the paginator.
        await foreach (var instances in instancesPaginator.DBInstances)
        {
            results.Add(instances);
        }
        return results;
    }

    /// <summary>
    /// Returns a list of DB clusters.
    /// </summary>
    /// <param name="dbInstanceIdentifier">Optional name of a specific DB cluster.</param>
    /// <returns>List of DB clusters.</returns>
    public async Task<List<DBCluster>> DescribeDBClustersPagedAsync(string? dbClusterIdentifier = null)
    {
        var results = new List<DBCluster>();

        DescribeDBClustersResponse response;
        DescribeDBClustersRequest request = new DescribeDBClustersRequest
        {
            DBClusterIdentifier = dbClusterIdentifier
        };
        // Get the full list if there are multiple pages.
        do
        {
            response = await _amazonRDS.DescribeDBClustersAsync(request);
            if (response.DBClusters != null)
            {
                results.AddRange(response.DBClusters);
            }
            request.Marker = response.Marker;
        }
        while (response.Marker is not null);
        return results;
    }

    /// <summary>
    /// Create an Amazon Relational Database Service (Amazon RDS) DB instance
    /// with a particular set of properties. Use the action DescribeDBInstancesAsync
    /// to determine when the DB instance is ready to use.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <param name="dbClusterIdentifier">DB cluster identifier.</param>
    /// <param name="dbEngine">The engine for the DB instance.</param>
    /// <param name="dbEngineVersion">Version for the DB instance.</param>
    /// <param name="instanceClass">Class for the DB instance.</param>
    /// <returns>DB instance object.</returns>
    public async Task<DBInstance> CreateDBInstanceInClusterAsync(
        string dbClusterIdentifier,
        string dbInstanceIdentifier,
        string dbEngine,
        string dbEngineVersion,
        string instanceClass)
    {
        // When creating the instance within a cluster, do not specify the name or size.
        var response = await _amazonRDS.CreateDBInstanceAsync(
            new CreateDBInstanceRequest()
            {
                DBClusterIdentifier = dbClusterIdentifier,
                DBInstanceIdentifier = dbInstanceIdentifier,
                Engine = dbEngine,
                EngineVersion = dbEngineVersion,
                DBInstanceClass = instanceClass
            });

        return response.DBInstance;
    }

    /// <summary>
    /// Create a snapshot of a cluster.
    /// </summary>
    /// <param name="dbClusterIdentifier">DB cluster identifier.</param>
    /// <param name="snapshotIdentifier">Identifier for the snapshot.</param>
    /// <returns>DB snapshot object.</returns>
    public async Task<DBClusterSnapshot> CreateClusterSnapshotByIdentifierAsync(string dbClusterIdentifier, string snapshotIdentifier)
    {
        var response = await _amazonRDS.CreateDBClusterSnapshotAsync(
            new CreateDBClusterSnapshotRequest()
            {
                DBClusterIdentifier = dbClusterIdentifier,
                DBClusterSnapshotIdentifier = snapshotIdentifier,
            });

        return response.DBClusterSnapshot;
    }

    /// <summary>
    /// Return a list of DB snapshots for a particular DB cluster.
    /// </summary>
    /// <param name="dbClusterIdentifier">DB cluster identifier.</param>
    /// <returns>List of DB snapshots.</returns>
    public async Task<List<DBClusterSnapshot>> DescribeDBClusterSnapshotsByIdentifierAsync(string dbClusterIdentifier)
    {
        var results = new List<DBClusterSnapshot>();

        DescribeDBClusterSnapshotsResponse response;
        DescribeDBClusterSnapshotsRequest request = new DescribeDBClusterSnapshotsRequest
        {
            DBClusterIdentifier = dbClusterIdentifier
        };
        // Get the full list if there are multiple pages.
        do
        {
            response = await _amazonRDS.DescribeDBClusterSnapshotsAsync(request);
            results.AddRange(response.DBClusterSnapshots);
            request.Marker = response.Marker;
        }
        while (response.Marker is not null);
        return results;
    }

    /// <summary>
    /// Delete a particular DB cluster.
    /// </summary>
    /// <param name="dbClusterIdentifier">DB cluster identifier.</param>
    /// <returns>DB cluster object.</returns>
    public async Task<DBCluster> DeleteDBClusterByIdentifierAsync(string dbClusterIdentifier)
    {
        var response = await _amazonRDS.DeleteDBClusterAsync(
            new DeleteDBClusterRequest()
            {
                DBClusterIdentifier = dbClusterIdentifier,
                SkipFinalSnapshot = true
            });

        return response.DBCluster;
    }

    /// <summary>
    /// Delete a particular DB instance.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <returns>DB instance object.</returns>
    public async Task<DBInstance> DeleteDBInstanceByIdentifierAsync(string dbInstanceIdentifier)
    {
        var response = await _amazonRDS.DeleteDBInstanceAsync(
            new DeleteDBInstanceRequest()
            {
                DBInstanceIdentifier = dbInstanceIdentifier,
                SkipFinalSnapshot = true,
                DeleteAutomatedBackups = true
            });

        return response.DBInstance;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [Buat DBCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/CreateDBCluster)
  + [Buat DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/CreateDBClusterParameterGroup)
  + [Buat DBCluster Snapshot](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/CreateDBClusterSnapshot)
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/CreateDBInstance)
  + [Hapus DBCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DeleteDBCluster)
  + [Hapus DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DeleteDBClusterParameterGroup)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DeleteDBInstance)
  + [Jelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusterParameterGroups)
  + [Jelaskan DBCluster Parameter](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusterParameters)
  + [Jelaskan DBCluster Snapshots](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusterSnapshots)
  + [Jelaskan DBClusters](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusters)
  + [Jelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBInstances)
  + [DescribeOrderableDBInstancePilihan](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeOrderableDBInstanceOptions)
  + [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/ModifyDBClusterParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="aurora_CreateDBCluster_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Create a new cluster and database.
    /// </summary>
    /// <param name="dbName">The name of the new database.</param>
    /// <param name="clusterIdentifier">The identifier of the cluster.</param>
    /// <param name="parameterGroupName">The name of the parameter group.</param>
    /// <param name="dbEngine">The engine to use for the new cluster.</param>
    /// <param name="dbEngineVersion">The version of the engine to use.</param>
    /// <param name="adminName">The admin username.</param>
    /// <param name="adminPassword">The primary admin password.</param>
    /// <returns>The cluster object.</returns>
    public async Task<DBCluster> CreateDBClusterWithAdminAsync(
        string dbName,
        string clusterIdentifier,
        string parameterGroupName,
        string dbEngine,
        string dbEngineVersion,
        string adminName,
        string adminPassword)
    {
        var request = new CreateDBClusterRequest
        {
            DatabaseName = dbName,
            DBClusterIdentifier = clusterIdentifier,
            DBClusterParameterGroupName = parameterGroupName,
            Engine = dbEngine,
            EngineVersion = dbEngineVersion,
            MasterUsername = adminName,
            MasterUserPassword = adminPassword,
        };

        var response = await _amazonRDS.CreateDBClusterAsync(request);
        return response.DBCluster;
    }
```
+  Untuk detail API, lihat [Membuat DBCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/CreateDBCluster) di *Referensi AWS SDK untuk .NET API*. 

### `CreateDBClusterParameterGroup`
<a name="aurora_CreateDBClusterParameterGroup_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterParameterGroup`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Create a custom cluster parameter group.
    /// </summary>
    /// <param name="parameterGroupFamily">The family of the parameter group.</param>
    /// <param name="groupName">The name for the new parameter group.</param>
    /// <param name="description">A description for the new parameter group.</param>
    /// <returns>The new parameter group object.</returns>
    public async Task<DBClusterParameterGroup> CreateCustomClusterParameterGroupAsync(
        string parameterGroupFamily,
        string groupName,
        string description)
    {
        var request = new CreateDBClusterParameterGroupRequest
        {
            DBParameterGroupFamily = parameterGroupFamily,
            DBClusterParameterGroupName = groupName,
            Description = description,
        };

        var response = await _amazonRDS.CreateDBClusterParameterGroupAsync(request);
        return response.DBClusterParameterGroup;
    }
```
+  Untuk detail API, lihat [Membuat DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/CreateDBClusterParameterGroup) di *Referensi AWS SDK untuk .NET API*. 

### `CreateDBClusterSnapshot`
<a name="aurora_CreateDBClusterSnapshot_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterSnapshot`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Create a snapshot of a cluster.
    /// </summary>
    /// <param name="dbClusterIdentifier">DB cluster identifier.</param>
    /// <param name="snapshotIdentifier">Identifier for the snapshot.</param>
    /// <returns>DB snapshot object.</returns>
    public async Task<DBClusterSnapshot> CreateClusterSnapshotByIdentifierAsync(string dbClusterIdentifier, string snapshotIdentifier)
    {
        var response = await _amazonRDS.CreateDBClusterSnapshotAsync(
            new CreateDBClusterSnapshotRequest()
            {
                DBClusterIdentifier = dbClusterIdentifier,
                DBClusterSnapshotIdentifier = snapshotIdentifier,
            });

        return response.DBClusterSnapshot;
    }
```
+  Untuk detail API, lihat [Membuat DBCluster Snapshot](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/CreateDBClusterSnapshot) di *Referensi AWS SDK untuk .NET API*. 

### `CreateDBInstance`
<a name="aurora_CreateDBInstance_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Create an Amazon Relational Database Service (Amazon RDS) DB instance
    /// with a particular set of properties. Use the action DescribeDBInstancesAsync
    /// to determine when the DB instance is ready to use.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <param name="dbClusterIdentifier">DB cluster identifier.</param>
    /// <param name="dbEngine">The engine for the DB instance.</param>
    /// <param name="dbEngineVersion">Version for the DB instance.</param>
    /// <param name="instanceClass">Class for the DB instance.</param>
    /// <returns>DB instance object.</returns>
    public async Task<DBInstance> CreateDBInstanceInClusterAsync(
        string dbClusterIdentifier,
        string dbInstanceIdentifier,
        string dbEngine,
        string dbEngineVersion,
        string instanceClass)
    {
        // When creating the instance within a cluster, do not specify the name or size.
        var response = await _amazonRDS.CreateDBInstanceAsync(
            new CreateDBInstanceRequest()
            {
                DBClusterIdentifier = dbClusterIdentifier,
                DBInstanceIdentifier = dbInstanceIdentifier,
                Engine = dbEngine,
                EngineVersion = dbEngineVersion,
                DBInstanceClass = instanceClass
            });

        return response.DBInstance;
    }
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/CreateDBInstance) di *Referensi AWS SDK untuk .NET API*. 

### `DeleteDBCluster`
<a name="aurora_DeleteDBCluster_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Delete a particular DB cluster.
    /// </summary>
    /// <param name="dbClusterIdentifier">DB cluster identifier.</param>
    /// <returns>DB cluster object.</returns>
    public async Task<DBCluster> DeleteDBClusterByIdentifierAsync(string dbClusterIdentifier)
    {
        var response = await _amazonRDS.DeleteDBClusterAsync(
            new DeleteDBClusterRequest()
            {
                DBClusterIdentifier = dbClusterIdentifier,
                SkipFinalSnapshot = true
            });

        return response.DBCluster;
    }
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DeleteDBCluster) di *Referensi AWS SDK untuk .NET API*. 

### `DeleteDBClusterParameterGroup`
<a name="aurora_DeleteDBClusterParameterGroup_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBClusterParameterGroup`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Delete a particular parameter group by name.
    /// </summary>
    /// <param name="groupName">The name of the parameter group.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteClusterParameterGroupByNameAsync(string groupName)
    {
        var request = new DeleteDBClusterParameterGroupRequest
        {
            DBClusterParameterGroupName = groupName,
        };

        var response = await _amazonRDS.DeleteDBClusterParameterGroupAsync(request);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [Menghapus DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DeleteDBClusterParameterGroup) di *Referensi AWS SDK untuk .NET API*. 

### `DeleteDBInstance`
<a name="aurora_DeleteDBInstance_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Delete a particular DB instance.
    /// </summary>
    /// <param name="dbInstanceIdentifier">DB instance identifier.</param>
    /// <returns>DB instance object.</returns>
    public async Task<DBInstance> DeleteDBInstanceByIdentifierAsync(string dbInstanceIdentifier)
    {
        var response = await _amazonRDS.DeleteDBInstanceAsync(
            new DeleteDBInstanceRequest()
            {
                DBInstanceIdentifier = dbInstanceIdentifier,
                SkipFinalSnapshot = true,
                DeleteAutomatedBackups = true
            });

        return response.DBInstance;
    }
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DeleteDBInstance) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBClusterParameterGroups`
<a name="aurora_DescribeDBClusterParameterGroups_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameterGroups`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Get the description of a DB cluster parameter group by name.
    /// </summary>
    /// <param name="name">The name of the DB parameter group to describe.</param>
    /// <returns>The parameter group description.</returns>
    public async Task<DBClusterParameterGroup?> DescribeCustomDBClusterParameterGroupAsync(string name)
    {
        var response = await _amazonRDS.DescribeDBClusterParameterGroupsAsync(
            new DescribeDBClusterParameterGroupsRequest()
            {
                DBClusterParameterGroupName = name
            });
        return response.DBClusterParameterGroups.FirstOrDefault();
    }
```
+  Untuk detail API, lihat [Menjelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusterParameterGroups) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBClusterParameters`
<a name="aurora_DescribeDBClusterParameters_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameters`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Describe the cluster parameters in a parameter group.
    /// </summary>
    /// <param name="groupName">The name of the parameter group.</param>
    /// <param name="source">The optional name of the source filter.</param>
    /// <returns>The collection of parameters.</returns>
    public async Task<List<Parameter>> DescribeDBClusterParametersInGroupAsync(string groupName, string? source = null)
    {
        var paramList = new List<Parameter>();

        DescribeDBClusterParametersResponse response;
        var request = new DescribeDBClusterParametersRequest
        {
            DBClusterParameterGroupName = groupName,
            Source = source,
        };

        // Get the full list if there are multiple pages.
        do
        {
            response = await _amazonRDS.DescribeDBClusterParametersAsync(request);
            paramList.AddRange(response.Parameters);

            request.Marker = response.Marker;
        }
        while (response.Marker is not null);

        return paramList;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Parameter](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusterParameters) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBClusterSnapshots`
<a name="aurora_DescribeDBClusterSnapshots_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterSnapshots`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Return a list of DB snapshots for a particular DB cluster.
    /// </summary>
    /// <param name="dbClusterIdentifier">DB cluster identifier.</param>
    /// <returns>List of DB snapshots.</returns>
    public async Task<List<DBClusterSnapshot>> DescribeDBClusterSnapshotsByIdentifierAsync(string dbClusterIdentifier)
    {
        var results = new List<DBClusterSnapshot>();

        DescribeDBClusterSnapshotsResponse response;
        DescribeDBClusterSnapshotsRequest request = new DescribeDBClusterSnapshotsRequest
        {
            DBClusterIdentifier = dbClusterIdentifier
        };
        // Get the full list if there are multiple pages.
        do
        {
            response = await _amazonRDS.DescribeDBClusterSnapshotsAsync(request);
            results.AddRange(response.DBClusterSnapshots);
            request.Marker = response.Marker;
        }
        while (response.Marker is not null);
        return results;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Snapshot](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusterSnapshots) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBClusters`
<a name="aurora_DescribeDBClusters_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Returns a list of DB clusters.
    /// </summary>
    /// <param name="dbInstanceIdentifier">Optional name of a specific DB cluster.</param>
    /// <returns>List of DB clusters.</returns>
    public async Task<List<DBCluster>> DescribeDBClustersPagedAsync(string? dbClusterIdentifier = null)
    {
        var results = new List<DBCluster>();

        DescribeDBClustersResponse response;
        DescribeDBClustersRequest request = new DescribeDBClustersRequest
        {
            DBClusterIdentifier = dbClusterIdentifier
        };
        // Get the full list if there are multiple pages.
        do
        {
            response = await _amazonRDS.DescribeDBClustersAsync(request);
            if (response.DBClusters != null)
            {
                results.AddRange(response.DBClusters);
            }
            request.Marker = response.Marker;
        }
        while (response.Marker is not null);
        return results;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBClusters) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBEngineVersions`
<a name="aurora_DescribeDBEngineVersions_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Get a list of DB engine versions for a particular DB engine.
    /// </summary>
    /// <param name="engine">The name of the engine.</param>
    /// <param name="parameterGroupFamily">Optional parameter group family name.</param>
    /// <returns>A list of DBEngineVersions.</returns>
    public async Task<List<DBEngineVersion>> DescribeDBEngineVersionsForEngineAsync(string engine,
        string? parameterGroupFamily = null)
    {
        var response = await _amazonRDS.DescribeDBEngineVersionsAsync(
            new DescribeDBEngineVersionsRequest()
            {
                Engine = engine,
                DBParameterGroupFamily = parameterGroupFamily
            });
        return response.DBEngineVersions;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBEngineVersions) dalam *Referensi AWS SDK untuk .NET API*. 

### `DescribeDBInstances`
<a name="aurora_DescribeDBInstances_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Returns a list of DB instances.
    /// </summary>
    /// <param name="dbInstanceIdentifier">Optional name of a specific DB instance.</param>
    /// <returns>List of DB instances.</returns>
    public async Task<List<DBInstance>> DescribeDBInstancesPagedAsync(string? dbInstanceIdentifier = null)
    {
        var results = new List<DBInstance>();
        var instancesPaginator = _amazonRDS.Paginators.DescribeDBInstances(
            new DescribeDBInstancesRequest
            {
                DBInstanceIdentifier = dbInstanceIdentifier
            });
        // Get the entire list using the paginator.
        await foreach (var instances in instancesPaginator.DBInstances)
        {
            results.Add(instances);
        }
        return results;
    }
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk .NET API*. 

### `DescribeOrderableDBInstanceOptions`
<a name="aurora_DescribeOrderableDBInstanceOptions_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Get a list of orderable DB instance options for a specific
    /// engine and engine version.
    /// </summary>
    /// <param name="engine">Name of the engine.</param>
    /// <param name="engineVersion">Version of the engine.</param>
    /// <returns>List of OrderableDBInstanceOptions.</returns>
    public async Task<List<OrderableDBInstanceOption>> DescribeOrderableDBInstanceOptionsPagedAsync(string engine, string engineVersion)
    {
        // Use a paginator to get a list of DB instance options.
        var results = new List<OrderableDBInstanceOption>();
        var paginateInstanceOptions = _amazonRDS.Paginators.DescribeOrderableDBInstanceOptions(
            new DescribeOrderableDBInstanceOptionsRequest()
            {
                Engine = engine,
                EngineVersion = engineVersion,
            });
        // Get the entire list using the paginator.
        await foreach (var instanceOptions in paginateInstanceOptions.OrderableDBInstanceOptions)
        {
            results.Add(instanceOptions);
        }
        return results;
    }
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/DescribeOrderableDBInstanceOptions) di *Referensi AWS SDK untuk .NET API*. 

### `ModifyDBClusterParameterGroup`
<a name="aurora_ModifyDBClusterParameterGroup_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBClusterParameterGroup`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Aurora#code-examples). 

```
    /// <summary>
    /// Modify the specified integer parameters with new values from user input.
    /// </summary>
    /// <param name="groupName">The group name for the parameters.</param>
    /// <param name="parameters">The list of integer parameters to modify.</param>
    /// <param name="newValue">Optional int value to set for parameters.</param>
    /// <returns>The name of the group that was modified.</returns>
    public async Task<string> ModifyIntegerParametersInGroupAsync(string groupName, List<Parameter> parameters, int newValue = 0)
    {
        foreach (var p in parameters)
        {
            if (p.IsModifiable.GetValueOrDefault() && p.DataType == "integer")
            {
                while (newValue == 0)
                {
                    Console.WriteLine(
                        $"Enter a new value for {p.ParameterName} from the allowed values {p.AllowedValues} ");

                    var choice = Console.ReadLine();
                    int.TryParse(choice, out newValue);
                }

                p.ParameterValue = newValue.ToString();
            }
        }

        var request = new ModifyDBClusterParameterGroupRequest
        {
            Parameters = parameters,
            DBClusterParameterGroupName = groupName,
        };

        var result = await _amazonRDS.ModifyDBClusterParameterGroupAsync(request);
        return result.DBClusterParameterGroupName;
    }
```
+  Untuk detail API, lihat [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/rds-2014-10-31/ModifyDBClusterParameterGroup) dalam *Referensi AWS SDK untuk .NET API*. 

# Contoh Auto Scaling menggunakan SDK untuk .NET (v4)
<a name="csharp_4_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Auto Scaling.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Auto Scaling
<a name="auto-scaling_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Auto Scaling.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
namespace AutoScalingActions;

using Amazon.AutoScaling;

public class HelloAutoScaling
{
    /// <summary>
    /// Hello Amazon EC2 Auto Scaling. List EC2 Auto Scaling groups.
    /// </summary>
    /// <param name="args"></param>
    /// <returns>Async Task.</returns>
    static async Task Main(string[] args)
    {
        var client = new AmazonAutoScalingClient();

        Console.WriteLine("Welcome to Amazon EC2 Auto Scaling.");
        Console.WriteLine("Let's get a description of your Auto Scaling groups.");

        var response = await client.DescribeAutoScalingGroupsAsync();

        if (response.AutoScalingGroups == null || response.AutoScalingGroups.Count == 0)
        {
            Console.WriteLine("Sorry, you don't have any Amazon EC2 Auto Scaling groups.");
            return;
        }
        response.AutoScalingGroups.ForEach(autoScalingGroup =>
        {
            Console.WriteLine($"{autoScalingGroup.AutoScalingGroupName}\t{autoScalingGroup.AvailabilityZones}");
        });

    }
}
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="auto-scaling_Scenario_GroupsAndInstances_csharp_4_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat grup Amazon EC2 Auto Scaling dengan template peluncuran dan Availability Zone, dan dapatkan informasi tentang menjalankan instans.
+ Aktifkan pengumpulan CloudWatch metrik Amazon.
+ Perbarui kapasitas yang diinginkan grup dan tunggu instance dimulai.
+ Mengakhiri sebuah instance dalam grup.
+ Buat daftar aktivitas penskalaan yang terjadi sebagai respons terhadap permintaan pengguna dan perubahan kapasitas.
+ Dapatkan statistik untuk CloudWatch metrik, lalu bersihkan sumber daya.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
global using Amazon.AutoScaling;
global using Amazon.AutoScaling.Model;
global using Amazon.CloudWatch;
global using AutoScalingActions;
global using Microsoft.Extensions.DependencyInjection;
global using Microsoft.Extensions.Hosting;
global using Microsoft.Extensions.Logging;
global using Microsoft.Extensions.Logging.Console;
global using Microsoft.Extensions.Logging.Debug;



using Amazon.EC2;
using Microsoft.Extensions.Configuration;
using Host = Microsoft.Extensions.Hosting.Host;

namespace AutoScalingBasics;

public class AutoScalingBasics
{

    static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon EC2 Auto Scaling, Amazon
        // CloudWatch, and Amazon EC2.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonAutoScaling>()
                .AddAWSService<IAmazonCloudWatch>()
                .AddAWSService<IAmazonEC2>()
                .AddTransient<AutoScalingWrapper>()
                .AddTransient<CloudWatchWrapper>()
                .AddTransient<EC2Wrapper>()
                .AddTransient<UIWrapper>()
            )
            .Build();


        var autoScalingWrapper = host.Services.GetRequiredService<AutoScalingWrapper>();
        var cloudWatchWrapper = host.Services.GetRequiredService<CloudWatchWrapper>();
        var ec2Wrapper = host.Services.GetRequiredService<EC2Wrapper>();
        var uiWrapper = host.Services.GetRequiredService<UIWrapper>();

        var configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load test settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally load local settings.
            .Build();

        var imageId = configuration["ImageId"];
        var instanceType = configuration["InstanceType"];
        var launchTemplateName = configuration["LaunchTemplateName"];

        launchTemplateName += Guid.NewGuid().ToString();

        // The name of the Auto Scaling group.
        var groupName = configuration["GroupName"];

        uiWrapper.DisplayTitle("Auto Scaling Basics");
        uiWrapper.DisplayAutoScalingBasicsDescription();

        // Create the launch template and save the template Id to use when deleting the
        // launch template at the end of the application.
        var launchTemplateId = await ec2Wrapper.CreateLaunchTemplateAsync(imageId!, instanceType!, launchTemplateName);

        // Confirm that the template was created by asking for a description of it.
        await ec2Wrapper.DescribeLaunchTemplateAsync(launchTemplateName);

        uiWrapper.PressEnter();

        var availabilityZones = await ec2Wrapper.ListAvailabilityZonesAsync();

        Console.WriteLine($"Creating an Auto Scaling group named {groupName}.");
        await autoScalingWrapper.CreateAutoScalingGroupAsync(
            groupName!,
            launchTemplateName,
            availabilityZones[0].ZoneName);

        // Keep checking the details of the new group until its lifecycle state
        // is "InService".
        Console.WriteLine($"Waiting for the Auto Scaling group to be active.");

        List<AutoScalingInstanceDetails> instanceDetails;

        do
        {
            instanceDetails = await autoScalingWrapper.DescribeAutoScalingInstancesAsync(groupName!);
        }
        while (instanceDetails.Count <= 0);

        Console.WriteLine($"Auto scaling group {groupName} successfully created.");
        Console.WriteLine($"{instanceDetails.Count} instances were created for the group.");

        // Display the details of the Auto Scaling group.
        instanceDetails.ForEach(detail =>
        {
            Console.WriteLine($"Group name: {detail.AutoScalingGroupName}");
        });

        uiWrapper.PressEnter();

        uiWrapper.DisplayTitle("Metrics collection");
        Console.WriteLine($"Enable metrics collection for {groupName}");
        await autoScalingWrapper.EnableMetricsCollectionAsync(groupName!);

        // Show the metrics that are collected for the group.

        // Update the maximum size of the group to three instances.
        Console.WriteLine("--- Update the Auto Scaling group to increase max size to 3 ---");
        int maxSize = 3;
        await autoScalingWrapper.UpdateAutoScalingGroupAsync(groupName!, launchTemplateName, maxSize);

        Console.WriteLine("--- Describe all Auto Scaling groups to show the current state of the group ---");
        var groups = await autoScalingWrapper.DescribeAutoScalingGroupsAsync(groupName!);

        uiWrapper.DisplayGroupDetails(groups!);

        uiWrapper.PressEnter();

        uiWrapper.DisplayTitle("Describe account limits");
        await autoScalingWrapper.DescribeAccountLimitsAsync();

        uiWrapper.WaitABit(60, "Waiting for the resources to be ready.");

        uiWrapper.DisplayTitle("Set desired capacity");
        int desiredCapacity = 2;
        await autoScalingWrapper.SetDesiredCapacityAsync(groupName!, desiredCapacity);

        Console.WriteLine("Get the two instance Id values");

        // Empty the group before getting the details again.
        groups.Clear();
        groups = await autoScalingWrapper.DescribeAutoScalingGroupsAsync(groupName!);
        if (groups.Any())
        {
            foreach (AutoScalingGroup group in groups)
            {
                Console.WriteLine($"The group name is {group.AutoScalingGroupName}");
                Console.WriteLine($"The group ARN is {group.AutoScalingGroupARN}");
                var instances = group.Instances;
                foreach (Amazon.AutoScaling.Model.Instance instance in instances)
                {
                    Console.WriteLine($"The instance id is {instance.InstanceId}");
                    Console.WriteLine($"The lifecycle state is {instance.LifecycleState}");
                }
            }
        }

        uiWrapper.DisplayTitle("Scaling Activities");
        Console.WriteLine("Let's list the scaling activities that have occurred for the group.");
        var activities = await autoScalingWrapper.DescribeScalingActivitiesAsync(groupName!);
        if (activities.Any())
        {
            activities.ForEach(activity =>
            {
                Console.WriteLine($"The activity Id is {activity.ActivityId}");
                Console.WriteLine($"The activity details are {activity.Details}");
            });
        }

        // Display the Amazon CloudWatch metrics that have been collected.
        var metrics = await cloudWatchWrapper.GetCloudWatchMetricsAsync(groupName!);
        if (metrics.Any())
        {
            Console.WriteLine($"Metrics collected for {groupName}:");
            metrics.ForEach(metric =>
            {
                Console.Write($"Metric name: {metric.MetricName}\t");
                Console.WriteLine($"Namespace: {metric.Namespace}");
            });
        }

        var dataPoints = await cloudWatchWrapper.GetMetricStatisticsAsync(groupName!);
        if (dataPoints.Any())
        {
            Console.WriteLine("Details for the metrics collected:");
            dataPoints.ForEach(detail => { Console.WriteLine(detail); });
        }

        // Disable metrics collection.
        Console.WriteLine("Disabling the collection of metrics for {groupName}.");
        var success = await autoScalingWrapper.DisableMetricsCollectionAsync(groupName!);

        if (success)
        {
            Console.WriteLine($"Successfully stopped metrics collection for {groupName}.");
        }
        else
        {
            Console.WriteLine($"Could not stop metrics collection for {groupName}.");
        }

        // Terminate all instances in the group.
        uiWrapper.DisplayTitle("Terminating Auto Scaling instances");
        Console.WriteLine("Now terminating all instances in the Auto Scaling group.");

        if (groups is not null)
        {
            groups.ForEach(group =>
            {
                // Only delete instances in the AutoScaling group we created.
                if (group.AutoScalingGroupName == groupName)
                {
                    group.Instances.ForEach(async instance =>
                    {
                        await autoScalingWrapper.TerminateInstanceInAutoScalingGroupAsync(instance.InstanceId);
                    });
                }
            });
        }

        // After all instances are terminated, delete the group.
        uiWrapper.DisplayTitle("Clean up resources");
        Console.WriteLine("Deleting the Auto Scaling group.");
        await autoScalingWrapper.DeleteAutoScalingGroupAsync(groupName!);

        // Delete the launch template.
        var deletedLaunchTemplateName = await ec2Wrapper.DeleteLaunchTemplateAsync(launchTemplateId);

        if (deletedLaunchTemplateName == launchTemplateName)
        {
            Console.WriteLine("Successfully deleted the launch template.");
        }

        Console.WriteLine("The demo is now concluded.");
    }
}


namespace AutoScalingBasics;

/// <summary>
/// A class to provide user interface methods for the EC2 AutoScaling Basics
/// scenario.
/// </summary>
public class UIWrapper
{
    public readonly string SepBar = new('-', Console.WindowWidth);

    /// <summary>
    /// Describe the steps in the EC2 AutoScaling Basics scenario.
    /// </summary>
    public void DisplayAutoScalingBasicsDescription()
    {
        Console.WriteLine("This code example performs the following operations:");
        Console.WriteLine(" 1. Creates an Amazon EC2 launch template.");
        Console.WriteLine(" 2. Creates an Auto Scaling group.");
        Console.WriteLine(" 3. Shows the details of the new Auto Scaling group");
        Console.WriteLine("    to show that only one instance was created.");
        Console.WriteLine(" 4. Enables metrics collection.");
        Console.WriteLine(" 5. Updates the Auto Scaling group to increase the");
        Console.WriteLine("    capacity to three.");
        Console.WriteLine(" 6. Describes Auto Scaling groups again to show the");
        Console.WriteLine("    current state of the group.");
        Console.WriteLine(" 7. Changes the desired capacity of the Auto Scaling");
        Console.WriteLine("    group to use an additional instance.");
        Console.WriteLine(" 8. Shows that there are now instances in the group.");
        Console.WriteLine(" 9. Lists the scaling activities that have occurred for the group.");
        Console.WriteLine("10. Displays the Amazon CloudWatch metrics that have");
        Console.WriteLine("    been collected.");
        Console.WriteLine("11. Disables metrics collection.");
        Console.WriteLine("12. Terminates all instances in the Auto Scaling group.");
        Console.WriteLine("13. Deletes the Auto Scaling group.");
        Console.WriteLine("14. Deletes the Amazon EC2 launch template.");
        PressEnter();
    }

    /// <summary>
    /// Display information about the Amazon Ec2 AutoScaling groups passed
    /// in the list of AutoScalingGroup objects.
    /// </summary>
    /// <param name="groups">A list of AutoScalingGroup objects.</param>
    public void DisplayGroupDetails(List<AutoScalingGroup> groups)
    {
        if (groups is null)
            return;

        groups.ForEach(group =>
        {
            Console.WriteLine($"Group name:\t{group.AutoScalingGroupName}");
            Console.WriteLine($"Group created:\t{group.CreatedTime}");
            Console.WriteLine($"Maximum number of instances:\t{group.MaxSize}");
            Console.WriteLine($"Desired number of instances:\t{group.DesiredCapacity}");
        });
    }

    /// <summary>
    /// Display a message and wait until the user presses enter.
    /// </summary>
    public void PressEnter()
    {
        Console.Write("\nPress <Enter> to continue. ");
        _ = Console.ReadLine();
        Console.WriteLine();
    }

    /// <summary>
    /// Pad a string with spaces to center it on the console display.
    /// </summary>
    /// <param name="strToCenter">The string to be centered.</param>
    /// <returns>The padded string.</returns>
    public string CenterString(string strToCenter)
    {
        var padAmount = (Console.WindowWidth - strToCenter.Length) / 2;
        var leftPad = new string(' ', padAmount);
        return $"{leftPad}{strToCenter}";
    }

    /// <summary>
    /// Display a line of hyphens, the centered text of the title and another
    /// line of hyphens.
    /// </summary>
    /// <param name="strTitle">The string to be displayed.</param>
    public void DisplayTitle(string strTitle)
    {
        Console.WriteLine(SepBar);
        Console.WriteLine(CenterString(strTitle));
        Console.WriteLine(SepBar);
    }

    /// <summary>
    /// Display a countdown and wait for a number of seconds.
    /// </summary>
    /// <param name="numSeconds">The number of seconds to wait.</param>
    public void WaitABit(int numSeconds, string msg)
    {
        Console.WriteLine(msg);

        // Wait for the requested number of seconds.
        for (int i = numSeconds; i > 0; i--)
        {
            System.Threading.Thread.Sleep(1000);
            Console.Write($"{i}...");
        }

        PressEnter();
    }
}
```
Tentukan fungsi yang dipanggil oleh skenario untuk mengelola template dan metrik peluncuran. Fungsi-fungsi ini membungkus Auto Scaling, Amazon EC2, dan tindakan. CloudWatch   

```
namespace AutoScalingActions;

using Amazon.AutoScaling;
using Amazon.AutoScaling.Model;

/// <summary>
/// A class that includes methods to perform Amazon EC2 Auto Scaling
/// actions.
/// </summary>
public class AutoScalingWrapper
{
    private readonly IAmazonAutoScaling _amazonAutoScaling;

    /// <summary>
    /// Constructor for the AutoScalingWrapper class.
    /// </summary>
    /// <param name="amazonAutoScaling">The injected Amazon EC2 Auto Scaling client.</param>
    public AutoScalingWrapper(IAmazonAutoScaling amazonAutoScaling)
    {
        _amazonAutoScaling = amazonAutoScaling;
    }


    /// <summary>
    /// Create a new Amazon EC2 Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name to use for the new Auto Scaling
    /// group.</param>
    /// <param name="launchTemplateName">The name of the Amazon EC2 Auto Scaling
    /// launch template to use to create instances in the group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> CreateAutoScalingGroupAsync(
        string groupName,
        string launchTemplateName,
        string availabilityZone)
    {
        var templateSpecification = new LaunchTemplateSpecification
        {
            LaunchTemplateName = launchTemplateName,
        };

        var zoneList = new List<string>
            {
                availabilityZone,
            };

        var request = new CreateAutoScalingGroupRequest
        {
            AutoScalingGroupName = groupName,
            AvailabilityZones = zoneList,
            LaunchTemplate = templateSpecification,
            MaxSize = 6,
            MinSize = 1
        };
        try
        {
            var response = await _amazonAutoScaling.CreateAutoScalingGroupAsync(request);
            Console.WriteLine($"{groupName} Auto Scaling Group created");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine($"{groupName} Auto Scaling Group already exists.");
            return true;
        }
    }



    /// <summary>
    /// Retrieve information about Amazon EC2 Auto Scaling quotas to the
    /// active AWS account.
    /// </summary>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DescribeAccountLimitsAsync()
    {
        var response = await _amazonAutoScaling.DescribeAccountLimitsAsync();
        Console.WriteLine("The maximum number of Auto Scaling groups is " + response.MaxNumberOfAutoScalingGroups);
        Console.WriteLine("The current number of Auto Scaling groups is " + response.NumberOfAutoScalingGroups);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }



    /// <summary>
    /// Retrieve a list of the Amazon EC2 Auto Scaling activities for an
    /// Amazon EC2 Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A list of Amazon EC2 Auto Scaling activities.</returns>
    public async Task<List<Activity>> DescribeScalingActivitiesAsync(
        string groupName)
    {
        var activities = new List<Activity>();
        var scalingActivitiesRequest = new DescribeScalingActivitiesRequest
        {
            AutoScalingGroupName = groupName,
            MaxRecords = 10,
        };

        var response = await _amazonAutoScaling.DescribeScalingActivitiesAsync(scalingActivitiesRequest);
        if (response.Activities != null)
        {
            activities = response.Activities;
        }
        return activities;
    }



    /// <summary>
    /// Get data about the instances in an Amazon EC2 Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A list of Amazon EC2 Auto Scaling details.</returns>
    public async Task<List<AutoScalingInstanceDetails>> DescribeAutoScalingInstancesAsync(
        string groupName)
    {
        var groups = await DescribeAutoScalingGroupsAsync(groupName);
        var instanceIds = new List<string>();
        var instanceDetails = new List<AutoScalingInstanceDetails>();
        if (groups != null)
        {
            groups.ForEach(group =>
            {
                if (group.AutoScalingGroupName == groupName && group.Instances != null)
                {
                    group.Instances.ForEach(instance =>
                    {
                        instanceIds.Add(instance.InstanceId);
                    });
                }
            });

            var scalingGroupsRequest = new DescribeAutoScalingInstancesRequest
            {
                MaxRecords = 10,
                InstanceIds = instanceIds,
            };

            var response =
                await _amazonAutoScaling.DescribeAutoScalingInstancesAsync(
                    scalingGroupsRequest);
            if (response.AutoScalingInstances != null)
            {
                instanceDetails = response.AutoScalingInstances;
            }
        }

        return instanceDetails;
    }



    /// <summary>
    /// Retrieve a list of information about Amazon EC2 Auto Scaling groups.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A list of Amazon EC2 Auto Scaling groups.</returns>
    public async Task<List<AutoScalingGroup>> DescribeAutoScalingGroupsAsync(
        string groupName)
    {
        var groups = new List<AutoScalingGroup>();
        var groupList = new List<string>
            {
                groupName,
            };

        var request = new DescribeAutoScalingGroupsRequest
        {
            AutoScalingGroupNames = groupList,
        };

        var response = await _amazonAutoScaling.DescribeAutoScalingGroupsAsync(request);
        if (response.AutoScalingGroups != null)
        {
            groups = response.AutoScalingGroups;
        }

        return groups;
    }


    /// <summary>
    /// Delete an Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> DeleteAutoScalingGroupAsync(
        string groupName)
    {
        var deleteAutoScalingGroupRequest = new DeleteAutoScalingGroupRequest
        {
            AutoScalingGroupName = groupName,
            ForceDelete = true,
        };

        var response = await _amazonAutoScaling.DeleteAutoScalingGroupAsync(deleteAutoScalingGroupRequest);
        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            Console.WriteLine($"You successfully deleted {groupName}");
            return true;
        }

        Console.WriteLine($"Couldn't delete {groupName}.");
        return false;
    }


    /// <summary>
    /// Disable the collection of metric data for an Amazon EC2 Auto Scaling
    /// group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <returns>A Boolean value that indicates the success or failure of
    /// the operation.</returns>
    public async Task<bool> DisableMetricsCollectionAsync(string groupName)
    {
        var request = new DisableMetricsCollectionRequest
        {
            AutoScalingGroupName = groupName,
        };

        var response = await _amazonAutoScaling.DisableMetricsCollectionAsync(request);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Enable the collection of metric data for an Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> EnableMetricsCollectionAsync(string groupName)
    {
        var listMetrics = new List<string>
            {
                "GroupMaxSize",
            };

        var collectionRequest = new EnableMetricsCollectionRequest
        {
            AutoScalingGroupName = groupName,
            Metrics = listMetrics,
            Granularity = "1Minute",
        };

        var response = await _amazonAutoScaling.EnableMetricsCollectionAsync(collectionRequest);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Set the desired capacity of an Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <param name="desiredCapacity">The desired capacity for the Auto
    /// Scaling group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> SetDesiredCapacityAsync(
        string groupName,
        int desiredCapacity)
    {
        var capacityRequest = new SetDesiredCapacityRequest
        {
            AutoScalingGroupName = groupName,
            DesiredCapacity = desiredCapacity,
        };

        var response = await _amazonAutoScaling.SetDesiredCapacityAsync(capacityRequest);
        Console.WriteLine($"You have set the DesiredCapacity to {desiredCapacity}.");

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }


    /// <summary>
    /// Terminate all instances in the Auto Scaling group in preparation for
    /// deleting the group.
    /// </summary>
    /// <param name="instanceId">The instance Id of the instance to terminate.</param>
    /// <returns>A Boolean value that indicates the success or failure of
    /// the operation.</returns>
    public async Task<bool> TerminateInstanceInAutoScalingGroupAsync(
        string instanceId)
    {
        var request = new TerminateInstanceInAutoScalingGroupRequest
        {
            InstanceId = instanceId,
            ShouldDecrementDesiredCapacity = false,
        };

        var response = await _amazonAutoScaling.TerminateInstanceInAutoScalingGroupAsync(request);

        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            Console.WriteLine($"You have terminated the instance: {instanceId}");
            return true;
        }

        Console.WriteLine($"Could not terminate {instanceId}");
        return false;
    }


    /// <summary>
    /// Update the capacity of an Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <param name="launchTemplateName">The name of the EC2 launch template.</param>
    /// <param name="maxSize">The maximum number of instances that can be
    /// created for the Auto Scaling group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> UpdateAutoScalingGroupAsync(
        string groupName,
        string launchTemplateName,
        int maxSize)
    {
        var templateSpecification = new LaunchTemplateSpecification
        {
            LaunchTemplateName = launchTemplateName,
        };

        var groupRequest = new UpdateAutoScalingGroupRequest
        {
            MaxSize = maxSize,
            AutoScalingGroupName = groupName,
            LaunchTemplate = templateSpecification,
        };

        var response = await _amazonAutoScaling.UpdateAutoScalingGroupAsync(groupRequest);
        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            Console.WriteLine($"You successfully updated the Auto Scaling group {groupName}.");
            return true;
        }
        else
        {
            return false;
        }
    }

}


namespace AutoScalingActions;

using Amazon.EC2;
using Amazon.EC2.Model;

public class EC2Wrapper
{
    private readonly IAmazonEC2 _amazonEc2;

    /// <summary>
    /// Constructor for the EC2Wrapper class.
    /// </summary>
    /// <param name="amazonEc2">The injected Amazon EC2 client.</param>
    public EC2Wrapper(IAmazonEC2 amazonEc2)
    {
        _amazonEc2 = amazonEc2;
    }

    /// <summary>
    /// Create a new Amazon EC2 launch template.
    /// </summary>
    /// <param name="imageId">The image Id to use for instances launched
    /// using the Amazon EC2 launch template.</param>
    /// <param name="instanceType">The type of EC2 instances to create.</param>
    /// <param name="launchTemplateName">The name of the launch template.</param>
    /// <returns>Returns the TemplateID of the new launch template.</returns>
    public async Task<string> CreateLaunchTemplateAsync(
        string imageId,
        string instanceType,
        string launchTemplateName)
    {
        var request = new CreateLaunchTemplateRequest
        {
            LaunchTemplateData = new RequestLaunchTemplateData
            {
                ImageId = imageId,
                InstanceType = instanceType,
            },
            LaunchTemplateName = launchTemplateName,
        };

        var response = await _amazonEc2.CreateLaunchTemplateAsync(request);

        return response.LaunchTemplate.LaunchTemplateId;
    }

    /// <summary>
    /// Delete an Amazon EC2 launch template.
    /// </summary>
    /// <param name="launchTemplateId">The TemplateId of the launch template to
    /// delete.</param>
    /// <returns>The name of the EC2 launch template that was deleted.</returns>
    public async Task<string> DeleteLaunchTemplateAsync(string launchTemplateId)
    {
        var request = new DeleteLaunchTemplateRequest
        {
            LaunchTemplateId = launchTemplateId,
        };

        var response = await _amazonEc2.DeleteLaunchTemplateAsync(request);
        return response.LaunchTemplate.LaunchTemplateName;
    }

    /// <summary>
    /// Retrieve information about an EC2 launch template.
    /// </summary>
    /// <param name="launchTemplateName">The name of the EC2 launch template.</param>
    /// <returns>A Boolean value that indicates the success or failure of
    /// the operation.</returns>
    public async Task<bool> DescribeLaunchTemplateAsync(string launchTemplateName)
    {
        var request = new DescribeLaunchTemplatesRequest
        {
            LaunchTemplateNames = new List<string> { launchTemplateName, },
        };

        var response = await _amazonEc2.DescribeLaunchTemplatesAsync(request);

        if (response.LaunchTemplates is not null)
        {
            response.LaunchTemplates.ForEach(template =>
            {
                Console.Write($"{template.LaunchTemplateName}\t");
                Console.WriteLine(template.LaunchTemplateId);
            });

            return true;
        }

        return false;
    }

    /// <summary>
    /// Retrieve the availability zones for the current region.
    /// </summary>
    /// <returns>A collection of availability zones.</returns>
    public async Task<List<AvailabilityZone>> ListAvailabilityZonesAsync()
    {
        var response = await _amazonEc2.DescribeAvailabilityZonesAsync(
            new DescribeAvailabilityZonesRequest());

        return response.AvailabilityZones;
    }
}


namespace AutoScalingActions;

using Amazon.CloudWatch;
using Amazon.CloudWatch.Model;

/// <summary>
/// Contains methods to access Amazon CloudWatch metrics for the
/// Amazon EC2 Auto Scaling basics scenario.
/// </summary>
public class CloudWatchWrapper
{
    private readonly IAmazonCloudWatch _amazonCloudWatch;

    /// <summary>
    /// Constructor for the CloudWatchWrapper.
    /// </summary>
    /// <param name="amazonCloudWatch">The injected CloudWatch client.</param>
    public CloudWatchWrapper(IAmazonCloudWatch amazonCloudWatch)
    {
        _amazonCloudWatch = amazonCloudWatch;
    }

    /// <summary>
    /// Retrieve the metrics information collection for the Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <returns>A list of Metrics collected for the Auto Scaling group.</returns>
    public async Task<List<Metric>> GetCloudWatchMetricsAsync(string groupName)
    {
        var metrics = new List<Metric>();
        var filter = new DimensionFilter
        {
            Name = "AutoScalingGroupName",
            Value = $"{groupName}",
        };

        var request = new ListMetricsRequest
        {
            MetricName = "AutoScalingGroupName",
            Dimensions = new List<DimensionFilter> { filter },
            Namespace = "AWS/AutoScaling",
        };

        var response = await _amazonCloudWatch.ListMetricsAsync(request);
        if (response.Metrics != null)
        {
            metrics = response.Metrics;
        }
        return metrics;
    }

    /// <summary>
    /// Retrieve the metric data collected for an Amazon EC2 Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A list of data points.</returns>
    public async Task<List<Datapoint>> GetMetricStatisticsAsync(string groupName)
    {
        var dataPoints = new List<Datapoint>();
        var metricDimensions = new List<Dimension>
            {
                new Dimension
                {
                    Name = "AutoScalingGroupName",
                    Value = $"{groupName}",
                },
            };

        // The start time will be yesterday.
        var startTime = DateTime.UtcNow.AddDays(-1);

        var request = new GetMetricStatisticsRequest
        {
            MetricName = "AutoScalingGroupName",
            Dimensions = metricDimensions,
            Namespace = "AWS/AutoScaling",
            Period = 60, // 60 seconds.
            Statistics = new List<string>() { "Minimum" },
            StartTimeUtc = startTime,
            EndTimeUtc = DateTime.UtcNow,
        };

        var response = await _amazonCloudWatch.GetMetricStatisticsAsync(request);
        if (response.Datapoints != null)
        {
            dataPoints = response.Datapoints;
        }

        return dataPoints;
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DescribeAutoScalingInstances)
  + [DescribeScalingActivities](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DescribeScalingActivities)
  + [DisableMetricsCollection](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DisableMetricsCollection)
  + [EnableMetricsCollection](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/EnableMetricsCollection)
  + [SetDesiredCapacity](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/SetDesiredCapacity)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/UpdateAutoScalingGroup)

## Tindakan
<a name="actions"></a>

### `CreateAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAutoScalingGroup`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Create a new Amazon EC2 Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name to use for the new Auto Scaling
    /// group.</param>
    /// <param name="launchTemplateName">The name of the Amazon EC2 Auto Scaling
    /// launch template to use to create instances in the group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> CreateAutoScalingGroupAsync(
        string groupName,
        string launchTemplateName,
        string availabilityZone)
    {
        var templateSpecification = new LaunchTemplateSpecification
        {
            LaunchTemplateName = launchTemplateName,
        };

        var zoneList = new List<string>
            {
                availabilityZone,
            };

        var request = new CreateAutoScalingGroupRequest
        {
            AutoScalingGroupName = groupName,
            AvailabilityZones = zoneList,
            LaunchTemplate = templateSpecification,
            MaxSize = 6,
            MinSize = 1
        };
        try
        {
            var response = await _amazonAutoScaling.CreateAutoScalingGroupAsync(request);
            Console.WriteLine($"{groupName} Auto Scaling Group created");
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AlreadyExistsException)
        {
            Console.WriteLine($"{groupName} Auto Scaling Group already exists.");
            return true;
        }
    }
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/CreateAutoScalingGroup)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeAutoScalingGroups`
<a name="auto-scaling_DescribeAutoScalingGroups_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingGroups`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Get data about the instances in an Amazon EC2 Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A list of Amazon EC2 Auto Scaling details.</returns>
    public async Task<List<AutoScalingInstanceDetails>> DescribeAutoScalingInstancesAsync(
        string groupName)
    {
        var groups = await DescribeAutoScalingGroupsAsync(groupName);
        var instanceIds = new List<string>();
        var instanceDetails = new List<AutoScalingInstanceDetails>();
        if (groups != null)
        {
            groups.ForEach(group =>
            {
                if (group.AutoScalingGroupName == groupName && group.Instances != null)
                {
                    group.Instances.ForEach(instance =>
                    {
                        instanceIds.Add(instance.InstanceId);
                    });
                }
            });

            var scalingGroupsRequest = new DescribeAutoScalingInstancesRequest
            {
                MaxRecords = 10,
                InstanceIds = instanceIds,
            };

            var response =
                await _amazonAutoScaling.DescribeAutoScalingInstancesAsync(
                    scalingGroupsRequest);
            if (response.AutoScalingInstances != null)
            {
                instanceDetails = response.AutoScalingInstances;
            }
        }

        return instanceDetails;
    }
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeAutoScalingInstances`
<a name="auto-scaling_DescribeAutoScalingInstances_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingInstances`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Get data about the instances in an Amazon EC2 Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A list of Amazon EC2 Auto Scaling details.</returns>
    public async Task<List<AutoScalingInstanceDetails>> DescribeAutoScalingInstancesAsync(
        string groupName)
    {
        var groups = await DescribeAutoScalingGroupsAsync(groupName);
        var instanceIds = new List<string>();
        var instanceDetails = new List<AutoScalingInstanceDetails>();
        if (groups != null)
        {
            groups.ForEach(group =>
            {
                if (group.AutoScalingGroupName == groupName && group.Instances != null)
                {
                    group.Instances.ForEach(instance =>
                    {
                        instanceIds.Add(instance.InstanceId);
                    });
                }
            });

            var scalingGroupsRequest = new DescribeAutoScalingInstancesRequest
            {
                MaxRecords = 10,
                InstanceIds = instanceIds,
            };

            var response =
                await _amazonAutoScaling.DescribeAutoScalingInstancesAsync(
                    scalingGroupsRequest);
            if (response.AutoScalingInstances != null)
            {
                instanceDetails = response.AutoScalingInstances;
            }
        }

        return instanceDetails;
    }
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DescribeAutoScalingInstances)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeScalingActivities`
<a name="auto-scaling_DescribeScalingActivities_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingActivities`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Retrieve a list of the Amazon EC2 Auto Scaling activities for an
    /// Amazon EC2 Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Amazon EC2 Auto Scaling group.</param>
    /// <returns>A list of Amazon EC2 Auto Scaling activities.</returns>
    public async Task<List<Activity>> DescribeScalingActivitiesAsync(
        string groupName)
    {
        var activities = new List<Activity>();
        var scalingActivitiesRequest = new DescribeScalingActivitiesRequest
        {
            AutoScalingGroupName = groupName,
            MaxRecords = 10,
        };

        var response = await _amazonAutoScaling.DescribeScalingActivitiesAsync(scalingActivitiesRequest);
        if (response.Activities != null)
        {
            activities = response.Activities;
        }
        return activities;
    }
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DescribeScalingActivities)di *Referensi AWS SDK untuk .NET API*. 

### `DisableMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableMetricsCollection`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Disable the collection of metric data for an Amazon EC2 Auto Scaling
    /// group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <returns>A Boolean value that indicates the success or failure of
    /// the operation.</returns>
    public async Task<bool> DisableMetricsCollectionAsync(string groupName)
    {
        var request = new DisableMetricsCollectionRequest
        {
            AutoScalingGroupName = groupName,
        };

        var response = await _amazonAutoScaling.DisableMetricsCollectionAsync(request);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/DisableMetricsCollection)di *Referensi AWS SDK untuk .NET API*. 

### `EnableMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableMetricsCollection`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Enable the collection of metric data for an Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> EnableMetricsCollectionAsync(string groupName)
    {
        var listMetrics = new List<string>
            {
                "GroupMaxSize",
            };

        var collectionRequest = new EnableMetricsCollectionRequest
        {
            AutoScalingGroupName = groupName,
            Metrics = listMetrics,
            Granularity = "1Minute",
        };

        var response = await _amazonAutoScaling.EnableMetricsCollectionAsync(collectionRequest);
        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/EnableMetricsCollection)di *Referensi AWS SDK untuk .NET API*. 

### `SetDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDesiredCapacity`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Set the desired capacity of an Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <param name="desiredCapacity">The desired capacity for the Auto
    /// Scaling group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> SetDesiredCapacityAsync(
        string groupName,
        int desiredCapacity)
    {
        var capacityRequest = new SetDesiredCapacityRequest
        {
            AutoScalingGroupName = groupName,
            DesiredCapacity = desiredCapacity,
        };

        var response = await _amazonAutoScaling.SetDesiredCapacityAsync(capacityRequest);
        Console.WriteLine($"You have set the DesiredCapacity to {desiredCapacity}.");

        return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/SetDesiredCapacity)di *Referensi AWS SDK untuk .NET API*. 

### `TerminateInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstanceInAutoScalingGroup`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Terminate all instances in the Auto Scaling group in preparation for
    /// deleting the group.
    /// </summary>
    /// <param name="instanceId">The instance Id of the instance to terminate.</param>
    /// <returns>A Boolean value that indicates the success or failure of
    /// the operation.</returns>
    public async Task<bool> TerminateInstanceInAutoScalingGroupAsync(
        string instanceId)
    {
        var request = new TerminateInstanceInAutoScalingGroupRequest
        {
            InstanceId = instanceId,
            ShouldDecrementDesiredCapacity = false,
        };

        var response = await _amazonAutoScaling.TerminateInstanceInAutoScalingGroupAsync(request);

        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            Console.WriteLine($"You have terminated the instance: {instanceId}");
            return true;
        }

        Console.WriteLine($"Could not terminate {instanceId}");
        return false;
    }
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)di *Referensi AWS SDK untuk .NET API*. 

### `UpdateAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAutoScalingGroup`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/AutoScaling#code-examples). 

```
    /// <summary>
    /// Update the capacity of an Auto Scaling group.
    /// </summary>
    /// <param name="groupName">The name of the Auto Scaling group.</param>
    /// <param name="launchTemplateName">The name of the EC2 launch template.</param>
    /// <param name="maxSize">The maximum number of instances that can be
    /// created for the Auto Scaling group.</param>
    /// <returns>A Boolean value indicating the success of the action.</returns>
    public async Task<bool> UpdateAutoScalingGroupAsync(
        string groupName,
        string launchTemplateName,
        int maxSize)
    {
        var templateSpecification = new LaunchTemplateSpecification
        {
            LaunchTemplateName = launchTemplateName,
        };

        var groupRequest = new UpdateAutoScalingGroupRequest
        {
            MaxSize = maxSize,
            AutoScalingGroupName = groupName,
            LaunchTemplate = templateSpecification,
        };

        var response = await _amazonAutoScaling.UpdateAutoScalingGroupAsync(groupRequest);
        if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
        {
            Console.WriteLine($"You successfully updated the Auto Scaling group {groupName}.");
            return true;
        }
        else
        {
            return false;
        }
    }
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/DotNetSDKV4/autoscaling-2011-01-01/UpdateAutoScalingGroup)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon Bedrock menggunakan SDK untuk .NET (v4)
<a name="csharp_4_bedrock_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Amazon Bedrock.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Bedrock
<a name="bedrock_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Bedrock.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock#code-examples). 

```
using Amazon;
using Amazon.Bedrock;
using Amazon.Bedrock.Model;

namespace BedrockActions;

/// <summary>
/// This example shows how to list foundation models.
/// </summary>
internal class HelloBedrock
{
    /// <summary>
    /// Main method to call the ListFoundationModelsAsync method.
    /// </summary>
    /// <param name="args"> The command line arguments. </param>
    static async Task Main(string[] args)
    {
        // Specify a region endpoint where Amazon Bedrock is available. For a list of supported region see https://docs.aws.amazon.com/bedrock/latest/userguide/what-is-bedrock.html#bedrock-regions
        AmazonBedrockClient bedrockClient = new(RegionEndpoint.USWest2);

        await ListFoundationModelsAsync(bedrockClient);

    }


    /// <summary>
    /// List foundation models.
    /// </summary>
    /// <param name="bedrockClient"> The Amazon Bedrock client. </param>
    private static async Task ListFoundationModelsAsync(AmazonBedrockClient bedrockClient)
    {
        Console.WriteLine("List foundation models with no filter.");

        try
        {
            var response = await bedrockClient.ListFoundationModelsAsync(new ListFoundationModelsRequest()
            {
            });

            if (response?.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                foreach (var fm in response.ModelSummaries)
                {
                    WriteToConsole(fm);
                }
            }
            else
            {
                Console.WriteLine("Something wrong happened");
            }
        }
        catch (AmazonBedrockException e)
        {
            Console.WriteLine(e.Message);
        }
    }


    /// <summary>
    /// Write the foundation model summary to console.
    /// </summary>
    /// <param name="foundationModel"> The foundation model summary to write to console. </param>
    private static void WriteToConsole(FoundationModelSummary foundationModel)
    {
        Console.WriteLine($"{foundationModel.ModelId}, Customization: {string.Join(", ", foundationModel.CustomizationsSupported)}, Stream: {foundationModel.ResponseStreamingSupported}, Input: {string.Join(", ", foundationModel.InputModalities)}, Output: {string.Join(", ", foundationModel.OutputModalities)}");
    }
}
```
+  Untuk detail API, lihat [ListFoundationModels](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-2023-04-20/ListFoundationModels)di *Referensi AWS SDK untuk .NET API*. 

## Tindakan
<a name="actions"></a>

### `ListFoundationModels`
<a name="bedrock_ListFoundationModels_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFoundationModels`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock#code-examples). 
Buat daftar model foundation Bedrock yang tersedia.  

```
    /// <summary>
    /// List foundation models.
    /// </summary>
    /// <param name="bedrockClient"> The Amazon Bedrock client. </param>
    private static async Task ListFoundationModelsAsync(AmazonBedrockClient bedrockClient)
    {
        Console.WriteLine("List foundation models with no filter.");

        try
        {
            var response = await bedrockClient.ListFoundationModelsAsync(new ListFoundationModelsRequest()
            {
            });

            if (response?.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                foreach (var fm in response.ModelSummaries)
                {
                    WriteToConsole(fm);
                }
            }
            else
            {
                Console.WriteLine("Something wrong happened");
            }
        }
        catch (AmazonBedrockException e)
        {
            Console.WriteLine(e.Message);
        }
    }
```
+  Untuk detail API, lihat [ListFoundationModels](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-2023-04-20/ListFoundationModels)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon Bedrock Runtime menggunakan SDK untuk .NET (v4)
<a name="csharp_4_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Amazon Bedrock Runtime.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Antropik Claude](#anthropic_claude)
+ [Perintah Cohere](#cohere_command)
+ [Meta Llama](#meta_llama)
+ [Mistral AI](#mistral_ai)

## Antropik Claude
<a name="anthropic_claude"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AnthropicClaude_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Anthropic Claude.

using System;
using System.Collections.Generic;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseAsync(request);

    // Extract and print the response text.
    string responseText = response?.Output?.Message?.Content?[0]?.Text ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK untuk .NET API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AnthropicClaude_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Anthropic Claude
// and print the response stream.

using System;
using System.Collections.Generic;
using System.Linq;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseStreamRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var chunk in response.Stream.AsEnumerable())
    {
        if (chunk is ContentBlockDeltaEvent)
        {
            Console.Write((chunk as ContentBlockDeltaEvent).Delta.Text);
        }
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK untuk .NET API*. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AnthropicClaude_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan Invoke Model API.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Use the native inference API to send a text message to Anthropic Claude.

using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
    anthropic_version = "bedrock-2023-05-31",
    max_tokens = 512,
    temperature = 0.5,
    messages = new[]
    {
        new { role = "user", content = userMessage }
    }
});

// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelRequest()
{
    ModelId = modelId,
    Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
    ContentType = "application/json"
};

try
{
    // Send the request to the Bedrock Runtime and wait for the response.
    var response = await client.InvokeModelAsync(request);

    // Decode the response body.
    var modelResponse = await JsonNode.ParseAsync(response.Body);

    // Extract and print the response text.
    var responseText = modelResponse["content"]?[0]?["text"] ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk .NET API*. 

## Perintah Cohere
<a name="cohere_command"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_CohereCommand_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Cohere Command.

using System;
using System.Collections.Generic;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Command R.
var modelId = "cohere.command-r-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseAsync(request);

    // Extract and print the response text.
    string responseText = response?.Output?.Message?.Content?[0]?.Text ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK untuk .NET API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_CohereCommand_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Cohere Command
// and print the response stream.

using System;
using System.Collections.Generic;
using System.Linq;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Command R.
var modelId = "cohere.command-r-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseStreamRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var chunk in response.Stream.AsEnumerable())
    {
        if (chunk is ContentBlockDeltaEvent)
        {
            Console.Write((chunk as ContentBlockDeltaEvent).Delta.Text);
        }
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK untuk .NET API*. 

## Meta Llama
<a name="meta_llama"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_MetaLlama_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Meta Llama.

using System;
using System.Collections.Generic;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Llama 3 8b Instruct.
var modelId = "meta.llama3-8b-instruct-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseAsync(request);

    // Extract and print the response text.
    string responseText = response?.Output?.Message?.Content?[0]?.Text ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK untuk .NET API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_MetaLlama_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Meta Llama
// and print the response stream.

using System;
using System.Collections.Generic;
using System.Linq;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Llama 3 8b Instruct.
var modelId = "meta.llama3-8b-instruct-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseStreamRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var chunk in response.Stream.AsEnumerable())
    {
        if (chunk is ContentBlockDeltaEvent)
        {
            Console.Write((chunk as ContentBlockDeltaEvent).Delta.Text);
        }
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK untuk .NET API*. 

## Mistral AI
<a name="mistral_ai"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_Mistral_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Mistral, menggunakan API Converse Bedrock.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Mistral.

using System;
using System.Collections.Generic;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Mistral Large.
var modelId = "mistral.mistral-large-2402-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseAsync(request);

    // Extract and print the response text.
    string responseText = response?.Output?.Message?.Content?[0]?.Text ?? "";
    Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK untuk .NET API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_Mistral_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Mistral, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples). 
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Mistral
// and print the response stream.

using System;
using System.Collections.Generic;
using System.Linq;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;

// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);

// Set the model ID, e.g., Mistral Large.
var modelId = "mistral.mistral-large-2402-v1:0";

// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";

// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseStreamRequest
{
    ModelId = modelId,
    Messages = new List<Message>
    {
        new Message
        {
            Role = ConversationRole.User,
            Content = new List<ContentBlock> { new ContentBlock { Text = userMessage } }
        }
    },
    InferenceConfig = new InferenceConfiguration()
    {
        MaxTokens = 512,
        Temperature = 0.5F,
        TopP = 0.9F
    }
};

try
{
    // Send the request to the Bedrock Runtime and wait for the result.
    var response = await client.ConverseStreamAsync(request);

    // Extract and print the streamed response text in real-time.
    foreach (var chunk in response.Stream.AsEnumerable())
    {
        if (chunk is ContentBlockDeltaEvent)
        {
            Console.Write((chunk as ContentBlockDeltaEvent).Delta.Text);
        }
    }
}
catch (AmazonBedrockRuntimeException e)
{
    Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
    throw;
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK untuk .NET API*. 

# CloudFormation contoh menggunakan SDK untuk .NET (v4)
<a name="csharp_4_cloudformation_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan CloudFormation.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)

## Memulai
<a name="get_started"></a>

### Halo CloudFormation
<a name="cloudformation_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan CloudFormation.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudFormation#code-examples). 

```
using Amazon.CloudFormation;
using Amazon.CloudFormation.Model;
using Amazon.Runtime;

namespace CloudFormationActions;

public static class HelloCloudFormation
{
    public static IAmazonCloudFormation _amazonCloudFormation = null!;

    static async Task Main(string[] args)
    {
        // Create the CloudFormation client
        _amazonCloudFormation = new AmazonCloudFormationClient();
        Console.WriteLine($"\nIn Region: {_amazonCloudFormation.Config.RegionEndpoint}");

        // List the resources for each stack
        await ListResources();
    }

    /// <summary>
    /// Method to list stack resources and other information.
    /// </summary>
    /// <returns>True if successful.</returns>
    public static async Task<bool> ListResources()
    {
        try
        {
            Console.WriteLine("Getting CloudFormation stack information...");

            // Get all stacks using the stack paginator.
            var paginatorForDescribeStacks =
                _amazonCloudFormation.Paginators.DescribeStacks(
                    new DescribeStacksRequest());
            if (paginatorForDescribeStacks.Stacks != null)
            {
                await foreach (Stack stack in paginatorForDescribeStacks.Stacks)
                {
                    // Basic information for each stack
                    Console.WriteLine(
                        "\n------------------------------------------------");
                    Console.WriteLine($"\nStack: {stack.StackName}");
                    Console.WriteLine($"  Status: {stack.StackStatus.Value}");
                    Console.WriteLine($"  Created: {stack.CreationTime}");

                    // The tags of each stack (etc.)
                    if (stack.Tags != null && stack.Tags.Count > 0)
                    {
                        Console.WriteLine("  Tags:");
                        foreach (Tag tag in stack.Tags)
                            Console.WriteLine($"    {tag.Key}, {tag.Value}");
                    }

                    // The resources of each stack
                    DescribeStackResourcesResponse responseDescribeResources =
                        await _amazonCloudFormation.DescribeStackResourcesAsync(
                            new DescribeStackResourcesRequest
                            {
                                StackName = stack.StackName
                            });
                    if (responseDescribeResources.StackResources != null && responseDescribeResources.StackResources.Count > 0)
                    {
                        Console.WriteLine("  Resources:");
                        foreach (StackResource resource in responseDescribeResources
                                     .StackResources)
                            Console.WriteLine(
                                $"    {resource.LogicalResourceId}: {resource.ResourceStatus}");
                    }
                }
            }

            Console.WriteLine("\n------------------------------------------------");
            return true;
        }
        catch (AmazonCloudFormationException ex)
        {
            Console.WriteLine("Unable to get stack information:\n" + ex.Message);
            return false;
        }
        catch (AmazonServiceException ex)
        {
            if (ex.Message.Contains("Unable to get IAM security credentials"))
            {
                Console.WriteLine(ex.Message);
                Console.WriteLine("If you are usnig SSO, be sure to install" +
                                  " the AWSSDK.SSO and AWSSDK.SSOOIDC packages.");
            }
            else
            {
                Console.WriteLine(ex.Message);
                Console.WriteLine(ex.StackTrace);
            }

            return false;
        }
        catch (ArgumentNullException ex)
        {
            if (ex.Message.Contains("Options property cannot be empty: ClientName"))
            {
                Console.WriteLine(ex.Message);
                Console.WriteLine("If you are using SSO, have you logged in?");
            }
            else
            {
                Console.WriteLine(ex.Message);
                Console.WriteLine(ex.StackTrace);
            }

            return false;
        }
    }
```
+  Untuk detail API, lihat [DescribeStackResources](https://docs.aws.amazon.com/goto/DotNetSDKV4/cloudformation-2010-05-15/DescribeStackResources)di *Referensi AWS SDK untuk .NET API*. 

# CloudWatch contoh menggunakan SDK untuk .NET (v4)
<a name="csharp_4_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan CloudWatch.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo CloudWatch
<a name="cloudwatch_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan CloudWatch.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
using Amazon.CloudWatch;
using Amazon.CloudWatch.Model;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;

namespace CloudWatchActions;

public static class HelloCloudWatch
{
    static async Task Main(string[] args)
    {
        // Use the AWS .NET Core Setup package to set up dependency injection for the Amazon CloudWatch service.
        // Use your AWS profile name, or leave it blank to use the default profile.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonCloudWatch>()
            ).Build();

        // Now the client is available for injection.
        var cloudWatchClient = host.Services.GetRequiredService<IAmazonCloudWatch>();

        // You can use await and any of the async methods to get a response.
        var metricNamespace = "AWS/Billing";
        var response = await cloudWatchClient.ListMetricsAsync(new ListMetricsRequest
        {
            Namespace = metricNamespace
        });
        Console.WriteLine($"Hello Amazon CloudWatch! Following are some metrics available in the {metricNamespace} namespace:");
        Console.WriteLine();
        if (response.Metrics != null)
        {
            foreach (var metric in response.Metrics.Take(5))
            {
                Console.WriteLine($"\tMetric: {metric.MetricName}");
                Console.WriteLine($"\tNamespace: {metric.Namespace}");
                Console.WriteLine(
                    $"\tDimensions: {string.Join(", ", metric.Dimensions.Select(m => $"{m.Name}:{m.Value}"))}");
                Console.WriteLine();
            }
        }
    }
}
```
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/ListMetrics)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="cloudwatch_GetStartedMetricsDashboardsAlarms_csharp_4_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat daftar CloudWatch ruang nama dan metrik.
+ Ambil statistik untuk metrik dan estimasi penagihan.
+ Membuat dan memperbarui sebuah dasbor.
+ Membuat dan menambahkan data ke metrik.
+ Membuat dan memicu alarm, lalu lihat riwayat alarm.
+ Menambahkan detektor anomali.
+ Ambil gambar metrik, lalu bersihkan sumber daya.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
public class CloudWatchScenario
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.

    To enable billing metrics and statistics for this example, make sure billing alerts are enabled for your account:
    https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/monitor_estimated_charges_with_cloudwatch.html#turning_on_billing_metrics

    This .NET example performs the following tasks:
        1. List and select a CloudWatch namespace.
        2. List and select a CloudWatch metric.
        3. Get statistics for a CloudWatch metric.
        4. Get estimated billing statistics for the last week.
        5. Create a new CloudWatch dashboard with two metrics.
        6. List current CloudWatch dashboards.
        7. Create a CloudWatch custom metric and add metric data.
        8. Add the custom metric to the dashboard.
        9. Create a CloudWatch alarm for the custom metric.
       10. Describe current CloudWatch alarms.
       11. Get recent data for the custom metric.
       12. Add data to the custom metric to trigger the alarm.
       13. Wait for an alarm state.
       14. Get history for the CloudWatch alarm.
       15. Add an anomaly detector.
       16. Describe current anomaly detectors.
       17. Get and display a metric image.
       18. Clean up resources.
    */

    private static ILogger logger = null!;
    private static CloudWatchWrapper _cloudWatchWrapper = null!;
    private static IConfiguration _configuration = null!;
    private static readonly List<string> _statTypes = new List<string> { "SampleCount", "Average", "Sum", "Minimum", "Maximum" };
    private static SingleMetricAnomalyDetector? anomalyDetector = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
            services.AddAWSService<IAmazonCloudWatch>()
            .AddTransient<CloudWatchWrapper>()
        )
        .Build();

        _configuration = new ConfigurationBuilder()
            .SetBasePath(Directory.GetCurrentDirectory())
            .AddJsonFile("settings.json") // Load settings from .json file.
            .AddJsonFile("settings.local.json",
                true) // Optionally, load local settings.
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<CloudWatchScenario>();

        _cloudWatchWrapper = host.Services.GetRequiredService<CloudWatchWrapper>();

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the Amazon CloudWatch example scenario.");
        Console.WriteLine(new string('-', 80));

        try
        {
            var selectedNamespace = await SelectNamespace();
            var selectedMetric = await SelectMetric(selectedNamespace);
            await GetAndDisplayMetricStatistics(selectedNamespace, selectedMetric);
            await GetAndDisplayEstimatedBilling();
            await CreateDashboardWithMetrics();
            await ListDashboards();
            await CreateNewCustomMetric();
            await AddMetricToDashboard();
            await CreateMetricAlarm();
            await DescribeAlarms();
            await GetCustomMetricData();
            await AddMetricDataForAlarm();
            await CheckForMetricAlarm();
            await GetAlarmHistory();
            anomalyDetector = await AddAnomalyDetector();
            await DescribeAnomalyDetectors();
            await GetAndOpenMetricImage();
            await CleanupResources();
        }
        catch (Exception ex)
        {
            logger.LogError(ex, "There was a problem executing the scenario.");
            await CleanupResources();
        }

    }

    /// <summary>
    /// Select a namespace.
    /// </summary>
    /// <returns>The selected namespace.</returns>
    private static async Task<string> SelectNamespace()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"1. Select a CloudWatch Namespace from a list of Namespaces.");
        var metrics = await _cloudWatchWrapper.ListMetrics();
        // Get a distinct list of namespaces.
        var namespaces = metrics.Select(m => m.Namespace).Distinct().ToList();
        for (int i = 0; i < namespaces.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {namespaces[i]}");
        }

        var namespaceChoiceNumber = 0;
        while (namespaceChoiceNumber < 1 || namespaceChoiceNumber > namespaces.Count)
        {
            Console.WriteLine(
                "Select a namespace by entering a number from the preceding list:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out namespaceChoiceNumber);
        }

        var selectedNamespace = namespaces[namespaceChoiceNumber - 1];

        Console.WriteLine(new string('-', 80));

        return selectedNamespace;
    }

    /// <summary>
    /// Select a metric from a namespace.
    /// </summary>
    /// <param name="metricNamespace">The namespace for metrics.</param>
    /// <returns>The metric name.</returns>
    private static async Task<Metric> SelectMetric(string metricNamespace)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"2. Select a CloudWatch metric from a namespace.");

        var namespaceMetrics = await _cloudWatchWrapper.ListMetrics(metricNamespace);

        for (int i = 0; i < namespaceMetrics.Count && i < 15; i++)
        {
            var dimensionsWithValues = namespaceMetrics[i].Dimensions
                .Where(d => !string.Equals("None", d.Value));
            Console.WriteLine($"\t{i + 1}. {namespaceMetrics[i].MetricName} " +
                              $"{string.Join(", :", dimensionsWithValues.Select(d => d.Value))}");
        }

        var metricChoiceNumber = 0;
        while (metricChoiceNumber < 1 || metricChoiceNumber > namespaceMetrics.Count)
        {
            Console.WriteLine(
                "Select a metric by entering a number from the preceding list:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out metricChoiceNumber);
        }

        var selectedMetric = namespaceMetrics[metricChoiceNumber - 1];

        Console.WriteLine(new string('-', 80));

        return selectedMetric;
    }

    /// <summary>
    /// Get and display metric statistics for a specific metric.
    /// </summary>
    /// <param name="metricNamespace">The namespace for metrics.</param>
    /// <param name="metric">The CloudWatch metric.</param>
    /// <returns>Async task.</returns>
    private static async Task GetAndDisplayMetricStatistics(string metricNamespace, Metric metric)
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"3. Get CloudWatch metric statistics for the last day.");

        for (int i = 0; i < _statTypes.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {_statTypes[i]}");
        }

        var statisticChoiceNumber = 0;
        while (statisticChoiceNumber < 1 || statisticChoiceNumber > _statTypes.Count)
        {
            Console.WriteLine(
                "Select a metric statistic by entering a number from the preceding list:");
            var choice = Console.ReadLine();
            Int32.TryParse(choice, out statisticChoiceNumber);
        }

        var selectedStatistic = _statTypes[statisticChoiceNumber - 1];
        var statisticsList = new List<string> { selectedStatistic };

        var metricStatistics = await _cloudWatchWrapper.GetMetricStatistics(metricNamespace, metric.MetricName, statisticsList, metric.Dimensions, 1, 60);

        if (!metricStatistics.Any())
        {
            Console.WriteLine($"No {selectedStatistic} statistics found for {metric} in namespace {metricNamespace}.");
        }

        metricStatistics = metricStatistics.OrderBy(s => s.Timestamp).ToList();
        for (int i = 0; i < metricStatistics.Count && i < 10; i++)
        {
            var metricStat = metricStatistics[i];
            var statValue = metricStat.GetType().GetProperty(selectedStatistic)!.GetValue(metricStat, null);
            Console.WriteLine($"\t{i + 1}. Timestamp {metricStatistics[i].Timestamp:G} {selectedStatistic}: {statValue}");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Get and display estimated billing statistics.
    /// </summary>
    /// <param name="metricNamespace">The namespace for metrics.</param>
    /// <param name="metric">The CloudWatch metric.</param>
    /// <returns>Async task.</returns>
    private static async Task GetAndDisplayEstimatedBilling()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"4. Get CloudWatch estimated billing for the last week.");

        var billingStatistics = await SetupBillingStatistics();

        for (int i = 0; i < billingStatistics.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. Timestamp {billingStatistics[i].Timestamp:G} : {billingStatistics[i].Maximum}");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Get billing statistics using a call to a wrapper class.
    /// </summary>
    /// <returns>A collection of billing statistics.</returns>
    private static async Task<List<Datapoint>> SetupBillingStatistics()
    {
        // Make a request for EstimatedCharges with a period of one day for the past seven days.
        var billingStatistics = await _cloudWatchWrapper.GetMetricStatistics(
            "AWS/Billing",
            "EstimatedCharges",
            new List<string>() { "Maximum" },
            new List<Dimension>() { new Dimension { Name = "Currency", Value = "USD" } },
            7,
            86400);

        billingStatistics = billingStatistics.OrderBy(n => n.Timestamp).ToList();

        return billingStatistics;
    }

    /// <summary>
    /// Create a dashboard with metrics.
    /// </summary>
    /// <param name="metricNamespace">The namespace for metrics.</param>
    /// <param name="metric">The CloudWatch metric.</param>
    /// <returns>Async task.</returns>
    private static async Task CreateDashboardWithMetrics()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"5. Create a new CloudWatch dashboard with metrics.");
        var dashboardName = _configuration["dashboardName"];
        var newDashboard = new DashboardModel();
        _configuration.GetSection("dashboardExampleBody").Bind(newDashboard);
        var newDashboardString = JsonSerializer.Serialize(
            newDashboard,
            new JsonSerializerOptions
            {
                DefaultIgnoreCondition = JsonIgnoreCondition.WhenWritingNull
            });
        var validationMessages =
            await _cloudWatchWrapper.PutDashboard(dashboardName, newDashboardString);

        Console.WriteLine(validationMessages.Any() ? $"\tValidation messages:" : null);
        for (int i = 0; i < validationMessages.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {validationMessages[i].Message}");
        }
        Console.WriteLine($"\tDashboard {dashboardName} was created.");
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// List dashboards.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task ListDashboards()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"6. List the CloudWatch dashboards in the current account.");

        var dashboards = await _cloudWatchWrapper.ListDashboards();

        for (int i = 0; i < dashboards.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {dashboards[i].DashboardName}");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Create and add data for a new custom metric.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task CreateNewCustomMetric()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"7. Create and add data for a new custom metric.");

        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];

        var customData = await PutRandomMetricData(customMetricName, customMetricNamespace);

        var valuesString = string.Join(',', customData.Select(d => d.Value));
        Console.WriteLine($"\tAdded metric values for for metric {customMetricName}: \n\t{valuesString}");

        Console.WriteLine(new string('-', 80));
    }


    /// <summary>
    /// Add some metric data using a call to a wrapper class.
    /// </summary>
    /// <param name="customMetricName">The metric name.</param>
    /// <param name="customMetricNamespace">The metric namespace.</param>
    /// <returns></returns>
    private static async Task<List<MetricDatum>> PutRandomMetricData(string customMetricName,
        string customMetricNamespace)
    {
        List<MetricDatum> customData = new List<MetricDatum>();
        Random rnd = new Random();

        // Add 10 random values up to 100, starting with a timestamp 15 minutes in the past.
        var utcNowMinus15 = DateTime.UtcNow.AddMinutes(-15);
        for (int i = 0; i < 10; i++)
        {
            var metricValue = rnd.Next(0, 100);
            customData.Add(
                new MetricDatum
                {
                    MetricName = customMetricName,
                    Value = metricValue,
                    TimestampUtc = utcNowMinus15.AddMinutes(i)
                }
            );
        }

        await _cloudWatchWrapper.PutMetricData(customMetricNamespace, customData);
        return customData;
    }

    /// <summary>
    /// Add the custom metric to the dashboard.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task AddMetricToDashboard()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"8. Add the new custom metric to the dashboard.");

        var dashboardName = _configuration["dashboardName"];

        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];

        var validationMessages = await SetupDashboard(customMetricNamespace, customMetricName, dashboardName);

        Console.WriteLine(validationMessages.Any() ? $"\tValidation messages:" : null);
        for (int i = 0; i < validationMessages.Count; i++)
        {
            Console.WriteLine($"\t{i + 1}. {validationMessages[i].Message}");
        }
        Console.WriteLine($"\tDashboard {dashboardName} updated with metric {customMetricName}.");
        Console.WriteLine(new string('-', 80));
    }


    /// <summary>
    /// Set up a dashboard using a call to the wrapper class.
    /// </summary>
    /// <param name="customMetricNamespace">The metric namespace.</param>
    /// <param name="customMetricName">The metric name.</param>
    /// <param name="dashboardName">The name of the dashboard.</param>
    /// <returns>A list of validation messages.</returns>
    private static async Task<List<DashboardValidationMessage>> SetupDashboard(
        string customMetricNamespace, string customMetricName, string dashboardName)
    {
        // Get the dashboard model from configuration.
        var newDashboard = new DashboardModel();
        _configuration.GetSection("dashboardExampleBody").Bind(newDashboard);

        // Add a new metric to the dashboard.
        newDashboard.Widgets.Add(new Widget
        {
            Height = 8,
            Width = 8,
            Y = 8,
            X = 0,
            Type = "metric",
            Properties = new Properties
            {
                Metrics = new List<List<object>>
                    { new() { customMetricNamespace, customMetricName } },
                View = "timeSeries",
                Region = "us-east-1",
                Stat = "Sum",
                Period = 86400,
                YAxis = new YAxis { Left = new Left { Min = 0, Max = 100 } },
                Title = "Custom Metric Widget",
                LiveData = true,
                Sparkline = true,
                Trend = true,
                Stacked = false,
                SetPeriodToTimeRange = false
            }
        });

        var newDashboardString = JsonSerializer.Serialize(newDashboard,
            new JsonSerializerOptions
            { DefaultIgnoreCondition = JsonIgnoreCondition.WhenWritingNull });
        var validationMessages =
            await _cloudWatchWrapper.PutDashboard(dashboardName, newDashboardString);

        return validationMessages;
    }

    /// <summary>
    /// Create a CloudWatch alarm for the new metric.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task CreateMetricAlarm()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"9. Create a CloudWatch alarm for the new metric.");

        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];

        var alarmName = _configuration["exampleAlarmName"];
        var accountId = _configuration["accountId"];
        var region = _configuration["region"];
        var emailTopic = _configuration["emailTopic"];
        var alarmActions = new List<string>();

        if (GetYesNoResponse(
                $"\tAdd an email action for topic {emailTopic} to alarm {alarmName}? (y/n)"))
        {
            _cloudWatchWrapper.AddEmailAlarmAction(accountId, region, emailTopic, alarmActions);
        }

        await _cloudWatchWrapper.PutMetricEmailAlarm(
            "Example metric alarm",
            alarmName,
            ComparisonOperator.GreaterThanOrEqualToThreshold,
            customMetricName,
            customMetricNamespace,
            100,
            alarmActions);

        Console.WriteLine($"\tAlarm {alarmName} added for metric {customMetricName}.");
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Describe Alarms.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task DescribeAlarms()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"10. Describe CloudWatch alarms in the current account.");

        var alarms = await _cloudWatchWrapper.DescribeAlarms();
        alarms = alarms.OrderByDescending(a => a.StateUpdatedTimestamp).ToList();

        for (int i = 0; i < alarms.Count && i < 10; i++)
        {
            var alarm = alarms[i];
            Console.WriteLine($"\t{i + 1}. {alarm.AlarmName}");
            Console.WriteLine($"\tState: {alarm.StateValue} for {alarm.MetricName} {alarm.ComparisonOperator} {alarm.Threshold}");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Get the recent data for the metric.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task GetCustomMetricData()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"11. Get current data for new custom metric.");

        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];
        var accountId = _configuration["accountId"];

        var query = new List<MetricDataQuery>
        {
            new MetricDataQuery
            {
                AccountId = accountId,
                Id = "m1",
                Label = "Custom Metric Data",
                MetricStat = new MetricStat
                {
                    Metric = new Metric
                    {
                        MetricName = customMetricName,
                        Namespace = customMetricNamespace,
                    },
                    Period = 1,
                    Stat = "Maximum"
                }
            }
        };

        var metricData = await _cloudWatchWrapper.GetMetricData(
            20,
            true,
            DateTime.UtcNow.AddMinutes(1),
            20,
            query);

        for (int i = 0; i < metricData.Count; i++)
        {
            if (metricData[i].Values != null)
            {
                for (int j = 0; j < metricData[i].Values.Count; j++)
                {
                    Console.WriteLine(
                        $"\tTimestamp {metricData[i].Timestamps[j]:G} Value: {metricData[i].Values[j]}");
                }
            }
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Add metric data to trigger an alarm.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task AddMetricDataForAlarm()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"12. Add metric data to the custom metric to trigger an alarm.");

        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];
        var nowUtc = DateTime.UtcNow;
        List<MetricDatum> customData = new List<MetricDatum>
        {
            new MetricDatum
            {
                MetricName = customMetricName,
                Value = 101,
                TimestampUtc = nowUtc.AddMinutes(-2)
            },
            new MetricDatum
            {
                MetricName = customMetricName,
                Value = 101,
                TimestampUtc = nowUtc.AddMinutes(-1)
            },
            new MetricDatum
            {
                MetricName = customMetricName,
                Value = 101,
                TimestampUtc = nowUtc
            }
        };
        var valuesString = string.Join(',', customData.Select(d => d.Value));
        Console.WriteLine($"\tAdded metric values for for metric {customMetricName}: \n\t{valuesString}");
        await _cloudWatchWrapper.PutMetricData(customMetricNamespace, customData);

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Check for a metric alarm using the DescribeAlarmsForMetric action.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task CheckForMetricAlarm()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"13. Checking for an alarm state.");

        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];
        var hasAlarm = false;
        var retries = 10;
        while (!hasAlarm && retries > 0)
        {
            var alarms = await _cloudWatchWrapper.DescribeAlarmsForMetric(customMetricNamespace, customMetricName);
            hasAlarm = alarms.Any(a => a.StateValue == StateValue.ALARM);
            retries--;
            Thread.Sleep(20000);
        }

        Console.WriteLine(hasAlarm
            ? $"\tAlarm state found for {customMetricName}."
            : $"\tNo Alarm state found for {customMetricName} after 10 retries.");

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Get history for an alarm.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task GetAlarmHistory()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"14. Get alarm history.");

        var exampleAlarmName = _configuration["exampleAlarmName"];

        var alarmHistory = await _cloudWatchWrapper.DescribeAlarmHistory(exampleAlarmName, 2);

        for (int i = 0; i < alarmHistory.Count; i++)
        {
            var history = alarmHistory[i];
            Console.WriteLine($"\t{i + 1}. {history.HistorySummary}, time {history.Timestamp:g}");
        }
        if (!alarmHistory.Any())
        {
            Console.WriteLine($"\tNo alarm history data found for {exampleAlarmName}.");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Add an anomaly detector.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task<SingleMetricAnomalyDetector> AddAnomalyDetector()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"15. Add an anomaly detector.");

        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];

        var detector = new SingleMetricAnomalyDetector
        {
            MetricName = customMetricName,
            Namespace = customMetricNamespace,
            Stat = "Maximum"
        };
        await _cloudWatchWrapper.PutAnomalyDetector(detector);
        Console.WriteLine($"\tAdded anomaly detector for metric {customMetricName}.");

        Console.WriteLine(new string('-', 80));
        return detector;
    }

    /// <summary>
    /// Describe anomaly detectors.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task DescribeAnomalyDetectors()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"16. Describe anomaly detectors in the current account.");

        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];

        var detectors = await _cloudWatchWrapper.DescribeAnomalyDetectors(customMetricNamespace, customMetricName);

        for (int i = 0; i < detectors.Count; i++)
        {
            var detector = detectors[i];
            Console.WriteLine($"\t{i + 1}. {detector.SingleMetricAnomalyDetector.MetricName}, state {detector.StateValue}");
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Fetch and open a metrics image for a CloudWatch metric and namespace.
    /// </summary>
    /// <returns>Async task.</returns>
    private static async Task GetAndOpenMetricImage()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("17. Get a metric image from CloudWatch.");

        Console.WriteLine($"\tGetting Image data for custom metric.");
        var customMetricNamespace = _configuration["customMetricNamespace"];
        var customMetricName = _configuration["customMetricName"];

        var memoryStream = await _cloudWatchWrapper.GetTimeSeriesMetricImage(customMetricNamespace, customMetricName, "Maximum", 10);
        var file = _cloudWatchWrapper.SaveMetricImage(memoryStream, "MetricImages");

        ProcessStartInfo info = new ProcessStartInfo();

        Console.WriteLine($"\tFile saved as {Path.GetFileName(file)}.");
        Console.WriteLine($"\tPress enter to open the image.");
        Console.ReadLine();
        info.FileName = Path.Combine("ms-photos://", file);
        info.UseShellExecute = true;
        info.CreateNoWindow = true;
        info.Verb = string.Empty;

        Process.Start(info);

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Clean up created resources.
    /// </summary>
    /// <param name="metricNamespace">The namespace for metrics.</param>
    /// <param name="metric">The CloudWatch metric.</param>
    /// <returns>Async task.</returns>
    private static async Task CleanupResources()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine($"18. Clean up resources.");

        var dashboardName = _configuration["dashboardName"];
        if (GetYesNoResponse($"\tDelete dashboard {dashboardName}? (y/n)"))
        {
            Console.WriteLine($"\tDeleting dashboard.");
            var dashboardList = new List<string> { dashboardName };
            await _cloudWatchWrapper.DeleteDashboards(dashboardList);
        }

        var alarmName = _configuration["exampleAlarmName"];
        if (GetYesNoResponse($"\tDelete alarm {alarmName}? (y/n)"))
        {
            Console.WriteLine($"\tCleaning up alarms.");
            var alarms = new List<string> { alarmName };
            await _cloudWatchWrapper.DeleteAlarms(alarms);
        }

        if (GetYesNoResponse($"\tDelete anomaly detector? (y/n)") && anomalyDetector != null)
        {
            Console.WriteLine($"\tCleaning up anomaly detector.");

            await _cloudWatchWrapper.DeleteAnomalyDetector(
                anomalyDetector);
        }

        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Get a yes or no response from the user.
    /// </summary>
    /// <param name="question">The question string to print on the console.</param>
    /// <returns>True if the user responds with a yes.</returns>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null &&
                       ynResponse.Equals("y",
                           StringComparison.InvariantCultureIgnoreCase);
        return response;
    }
}
```
Metode pembungkus yang digunakan oleh skenario untuk CloudWatch tindakan.  

```
/// <summary>
/// Wrapper class for Amazon CloudWatch methods.
/// </summary>
public class CloudWatchWrapper
{
    private readonly IAmazonCloudWatch _amazonCloudWatch;
    private readonly ILogger<CloudWatchWrapper> _logger;

    /// <summary>
    /// Constructor for the CloudWatch wrapper.
    /// </summary>
    /// <param name="amazonCloudWatch">The injected CloudWatch client.</param>
    /// <param name="logger">The injected logger for the wrapper.</param>
    public CloudWatchWrapper(IAmazonCloudWatch amazonCloudWatch, ILogger<CloudWatchWrapper> logger)

    {
        _logger = logger;
        _amazonCloudWatch = amazonCloudWatch;
    }

    /// <summary>
    /// List metrics available, optionally within a namespace.
    /// </summary>
    /// <param name="metricNamespace">Optional CloudWatch namespace to use when listing metrics.</param>
    /// <param name="filter">Optional dimension filter.</param>
    /// <param name="metricName">Optional metric name filter.</param>
    /// <returns>The list of metrics.</returns>
    public async Task<List<Metric>> ListMetrics(string? metricNamespace = null, DimensionFilter? filter = null, string? metricName = null)
    {
        var results = new List<Metric>();
        var paginateMetrics = _amazonCloudWatch.Paginators.ListMetrics(
            new ListMetricsRequest
            {
                Namespace = metricNamespace,
                Dimensions = filter != null ? new List<DimensionFilter> { filter } : null,
                MetricName = metricName
            });
        // Get the entire list using the paginator.
        await foreach (var metric in paginateMetrics.Metrics)
        {
            results.Add(metric);
        }

        return results;
    }

    /// <summary>
    /// Wrapper to get statistics for a specific CloudWatch metric.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metricName">The name of the metric.</param>
    /// <param name="statistics">The list of statistics to include.</param>
    /// <param name="dimensions">The list of dimensions to include.</param>
    /// <param name="days">The number of days in the past to include.</param>
    /// <param name="period">The period for the data.</param>
    /// <returns>A list of DataPoint objects for the statistics.</returns>
    public async Task<List<Datapoint>> GetMetricStatistics(string metricNamespace,
        string metricName, List<string> statistics, List<Dimension> dimensions, int days, int period)
    {
        var metricStatistics = await _amazonCloudWatch.GetMetricStatisticsAsync(
            new GetMetricStatisticsRequest()
            {
                Namespace = metricNamespace,
                MetricName = metricName,
                Dimensions = dimensions,
                Statistics = statistics,
                StartTimeUtc = DateTime.UtcNow.AddDays(-days),
                EndTimeUtc = DateTime.UtcNow,
                Period = period
            });

        return metricStatistics.Datapoints ?? new List<Datapoint>();
    }

    /// <summary>
    /// Wrapper to create or add to a dashboard with metrics.
    /// </summary>
    /// <param name="dashboardName">The name for the dashboard.</param>
    /// <param name="dashboardBody">The metric data in JSON for the dashboard.</param>
    /// <returns>A list of validation messages for the dashboard.</returns>
    public async Task<List<DashboardValidationMessage>> PutDashboard(string dashboardName,
        string dashboardBody)
    {
        // Updating a dashboard replaces all contents.
        // Best practice is to include a text widget indicating this dashboard was created programmatically.
        var dashboardResponse = await _amazonCloudWatch.PutDashboardAsync(
            new PutDashboardRequest()
            {
                DashboardName = dashboardName,
                DashboardBody = dashboardBody
            });

        return dashboardResponse.DashboardValidationMessages ?? new List<DashboardValidationMessage>();
    }


    /// <summary>
    /// Get information on a dashboard.
    /// </summary>
    /// <param name="dashboardName">The name of the dashboard.</param>
    /// <returns>A JSON object with dashboard information.</returns>
    public async Task<string> GetDashboard(string dashboardName)
    {
        var dashboardResponse = await _amazonCloudWatch.GetDashboardAsync(
            new GetDashboardRequest()
            {
                DashboardName = dashboardName
            });

        return dashboardResponse.DashboardBody;
    }


    /// <summary>
    /// Get a list of dashboards.
    /// </summary>
    /// <returns>A list of DashboardEntry objects.</returns>
    public async Task<List<DashboardEntry>> ListDashboards()
    {
        var results = new List<DashboardEntry>();
        var paginateDashboards = _amazonCloudWatch.Paginators.ListDashboards(
            new ListDashboardsRequest());
        // Get the entire list using the paginator.
        await foreach (var data in paginateDashboards.DashboardEntries)
        {
            results.Add(data);
        }

        return results;
    }

    /// <summary>
    /// Wrapper to add metric data to a CloudWatch metric.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metricData">A data object for the metric data.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> PutMetricData(string metricNamespace,
        List<MetricDatum> metricData)
    {
        var putDataResponse = await _amazonCloudWatch.PutMetricDataAsync(
            new PutMetricDataRequest()
            {
                MetricData = metricData,
                Namespace = metricNamespace,
            });

        return putDataResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Get an image for a metric graphed over time.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metric">The name of the metric.</param>
    /// <param name="stat">The name of the stat to chart.</param>
    /// <param name="period">The period to use for the chart.</param>
    /// <returns>A memory stream for the chart image.</returns>
    public async Task<MemoryStream> GetTimeSeriesMetricImage(string metricNamespace, string metric, string stat, int period)
    {
        var metricImageWidget = new
        {
            title = "Example Metric Graph",
            view = "timeSeries",
            stacked = false,
            period = period,
            width = 1400,
            height = 600,
            metrics = new List<List<object>>
                { new() { metricNamespace, metric, new { stat } } }
        };

        var metricImageWidgetString = JsonSerializer.Serialize(metricImageWidget);
        var imageResponse = await _amazonCloudWatch.GetMetricWidgetImageAsync(
            new GetMetricWidgetImageRequest()
            {
                MetricWidget = metricImageWidgetString
            });

        return imageResponse.MetricWidgetImage;
    }

    /// <summary>
    /// Save a metric image to a file.
    /// </summary>
    /// <param name="memoryStream">The MemoryStream for the metric image.</param>
    /// <param name="metricName">The name of the metric.</param>
    /// <returns>The path to the file.</returns>
    public string SaveMetricImage(MemoryStream memoryStream, string metricName)
    {
        var metricFileName = $"{metricName}_{DateTime.Now.Ticks}.png";
        using var sr = new StreamReader(memoryStream);
        // Writes the memory stream to a file.
        File.WriteAllBytes(metricFileName, memoryStream.ToArray());
        var filePath = Path.Join(AppDomain.CurrentDomain.BaseDirectory,
            metricFileName);
        return filePath;
    }

    /// <summary>
    /// Get data for CloudWatch metrics.
    /// </summary>
    /// <param name="minutesOfData">The number of minutes of data to include.</param>
    /// <param name="useDescendingTime">True to return the data descending by time.</param>
    /// <param name="endDateUtc">The end date for the data, in UTC.</param>
    /// <param name="maxDataPoints">The maximum data points to include.</param>
    /// <param name="dataQueries">Optional data queries to include.</param>
    /// <returns>A list of the requested metric data.</returns>
    public async Task<List<MetricDataResult>> GetMetricData(int minutesOfData, bool useDescendingTime, DateTime? endDateUtc = null,
        int maxDataPoints = 0, List<MetricDataQuery>? dataQueries = null)
    {
        var metricData = new List<MetricDataResult>();
        // If no end time is provided, use the current time for the end time.
        endDateUtc ??= DateTime.UtcNow;
        var timeZoneOffset = TimeZoneInfo.Local.GetUtcOffset(endDateUtc.Value.ToLocalTime());
        var startTimeUtc = endDateUtc.Value.AddMinutes(-minutesOfData);
        // The timezone string should be in the format +0000, so use the timezone offset to format it correctly.
        var timeZoneString = $"{timeZoneOffset.Hours:D2}{timeZoneOffset.Minutes:D2}";
        // Add the plus sign for positive offsets.
        timeZoneString = timeZoneString.StartsWith('-') ? timeZoneString : "+" + timeZoneString;
        var paginatedMetricData = _amazonCloudWatch.Paginators.GetMetricData(
            new GetMetricDataRequest()
            {
                StartTimeUtc = startTimeUtc,
                EndTimeUtc = endDateUtc.Value,
                LabelOptions = new LabelOptions { Timezone = timeZoneString },
                ScanBy = useDescendingTime ? ScanBy.TimestampDescending : ScanBy.TimestampAscending,
                MaxDatapoints = maxDataPoints,
                MetricDataQueries = dataQueries,
            });

        if (paginatedMetricData.MetricDataResults != null)
        {
            await foreach (var data in paginatedMetricData.MetricDataResults)
            {
                metricData.Add(data);
            }
        }

        return metricData;
    }

    /// <summary>
    /// Add a metric alarm to send an email when the metric passes a threshold.
    /// </summary>
    /// <param name="alarmDescription">A description of the alarm.</param>
    /// <param name="alarmName">The name for the alarm.</param>
    /// <param name="comparison">The type of comparison to use.</param>
    /// <param name="metricName">The name of the metric for the alarm.</param>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="threshold">The threshold value for the alarm.</param>
    /// <param name="alarmActions">Optional actions to execute when in an alarm state.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> PutMetricEmailAlarm(string alarmDescription, string alarmName, ComparisonOperator comparison,
        string metricName, string metricNamespace, double threshold, List<string> alarmActions = null!)
    {
        try
        {
            var putEmailAlarmResponse = await _amazonCloudWatch.PutMetricAlarmAsync(
                new PutMetricAlarmRequest()
                {
                    AlarmActions = alarmActions,
                    AlarmDescription = alarmDescription,
                    AlarmName = alarmName,
                    ComparisonOperator = comparison,
                    Threshold = threshold,
                    Namespace = metricNamespace,
                    MetricName = metricName,
                    EvaluationPeriods = 1,
                    Period = 10,
                    Statistic = new Statistic("Maximum"),
                    DatapointsToAlarm = 1,
                    TreatMissingData = "ignore"
                });
            return putEmailAlarmResponse.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (LimitExceededException lex)
        {
            _logger.LogError(lex, $"Unable to add alarm {alarmName}. Alarm quota has already been reached.");
        }

        return false;
    }

    /// <summary>
    /// Add specific email actions to a list of action strings for a CloudWatch alarm.
    /// </summary>
    /// <param name="accountId">The AccountId for the alarm.</param>
    /// <param name="region">The region for the alarm.</param>
    /// <param name="emailTopicName">An Amazon Simple Notification Service (SNS) topic for the alarm email.</param>
    /// <param name="alarmActions">Optional list of existing alarm actions to append to.</param>
    /// <returns>A list of string actions for an alarm.</returns>
    public List<string> AddEmailAlarmAction(string accountId, string region,
        string emailTopicName, List<string>? alarmActions = null)
    {
        alarmActions ??= new List<string>();
        var snsAlarmAction = $"arn:aws:sns:{region}:{accountId}:{emailTopicName}";
        alarmActions.Add(snsAlarmAction);
        return alarmActions;
    }

    /// <summary>
    /// Describe the current alarms, optionally filtered by state.
    /// </summary>
    /// <param name="stateValue">Optional filter for alarm state.</param>
    /// <returns>The list of alarm data.</returns>
    public async Task<List<MetricAlarm>> DescribeAlarms(StateValue? stateValue = null)
    {
        List<MetricAlarm> alarms = new List<MetricAlarm>();
        var paginatedDescribeAlarms = _amazonCloudWatch.Paginators.DescribeAlarms(
            new DescribeAlarmsRequest()
            {
                StateValue = stateValue
            });

        await foreach (var data in paginatedDescribeAlarms.MetricAlarms)
        {
            alarms.Add(data);
        }
        return alarms;
    }

    /// <summary>
    /// Describe the current alarms for a specific metric.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metricName">The name of the metric.</param>
    /// <returns>The list of alarm data.</returns>
    public async Task<List<MetricAlarm>> DescribeAlarmsForMetric(string metricNamespace, string metricName)
    {
        var alarmsResult = await _amazonCloudWatch.DescribeAlarmsForMetricAsync(
            new DescribeAlarmsForMetricRequest()
            {
                Namespace = metricNamespace,
                MetricName = metricName
            });

        return alarmsResult.MetricAlarms ?? new List<MetricAlarm>();
    }

    /// <summary>
    /// Describe the history of an alarm for a number of days in the past.
    /// </summary>
    /// <param name="alarmName">The name of the alarm.</param>
    /// <param name="historyDays">The number of days in the past.</param>
    /// <returns>The list of alarm history data.</returns>
    public async Task<List<AlarmHistoryItem>> DescribeAlarmHistory(string alarmName, int historyDays)
    {
        List<AlarmHistoryItem> alarmHistory = new List<AlarmHistoryItem>();
        var paginatedAlarmHistory = _amazonCloudWatch.Paginators.DescribeAlarmHistory(
            new DescribeAlarmHistoryRequest()
            {
                AlarmName = alarmName,
                EndDateUtc = DateTime.UtcNow,
                HistoryItemType = HistoryItemType.StateUpdate,
                StartDateUtc = DateTime.UtcNow.AddDays(-historyDays)
            });

        await foreach (var data in paginatedAlarmHistory.AlarmHistoryItems)
        {
            alarmHistory.Add(data);
        }
        return alarmHistory;
    }

    /// <summary>
    /// Delete a list of alarms from CloudWatch.
    /// </summary>
    /// <param name="alarmNames">A list of names of alarms to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteAlarms(List<string> alarmNames)
    {
        var deleteAlarmsResult = await _amazonCloudWatch.DeleteAlarmsAsync(
            new DeleteAlarmsRequest()
            {
                AlarmNames = alarmNames
            });

        return deleteAlarmsResult.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Disable the actions for a list of alarms from CloudWatch.
    /// </summary>
    /// <param name="alarmNames">A list of names of alarms.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DisableAlarmActions(List<string> alarmNames)
    {
        var disableAlarmActionsResult = await _amazonCloudWatch.DisableAlarmActionsAsync(
            new DisableAlarmActionsRequest()
            {
                AlarmNames = alarmNames
            });

        return disableAlarmActionsResult.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Enable the actions for a list of alarms from CloudWatch.
    /// </summary>
    /// <param name="alarmNames">A list of names of alarms.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> EnableAlarmActions(List<string> alarmNames)
    {
        var enableAlarmActionsResult = await _amazonCloudWatch.EnableAlarmActionsAsync(
            new EnableAlarmActionsRequest()
            {
                AlarmNames = alarmNames
            });

        return enableAlarmActionsResult.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Add an anomaly detector for a single metric.
    /// </summary>
    /// <param name="anomalyDetector">A single metric anomaly detector.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> PutAnomalyDetector(SingleMetricAnomalyDetector anomalyDetector)
    {
        var putAlarmDetectorResult = await _amazonCloudWatch.PutAnomalyDetectorAsync(
            new PutAnomalyDetectorRequest()
            {
                SingleMetricAnomalyDetector = anomalyDetector
            });

        return putAlarmDetectorResult.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Describe anomaly detectors for a metric and namespace.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metricName">The metric of the anomaly detectors.</param>
    /// <returns>The list of detectors.</returns>
    public async Task<List<AnomalyDetector>> DescribeAnomalyDetectors(string metricNamespace, string metricName)
    {
        List<AnomalyDetector> detectors = new List<AnomalyDetector>();
        var paginatedDescribeAnomalyDetectors = _amazonCloudWatch.Paginators.DescribeAnomalyDetectors(
            new DescribeAnomalyDetectorsRequest()
            {
                MetricName = metricName,
                Namespace = metricNamespace
            });

        await foreach (var data in paginatedDescribeAnomalyDetectors.AnomalyDetectors)
        {
            detectors.Add(data);
        }

        return detectors;
    }

    /// <summary>
    /// Delete a single metric anomaly detector.
    /// </summary>
    /// <param name="anomalyDetector">The anomaly detector to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteAnomalyDetector(SingleMetricAnomalyDetector anomalyDetector)
    {
        var deleteAnomalyDetectorResponse = await _amazonCloudWatch.DeleteAnomalyDetectorAsync(
            new DeleteAnomalyDetectorRequest()
            {
                SingleMetricAnomalyDetector = anomalyDetector
            });

        return deleteAnomalyDetectorResponse.HttpStatusCode == HttpStatusCode.OK;
    }

    /// <summary>
    /// Delete a list of CloudWatch dashboards.
    /// </summary>
    /// <param name="dashboardNames">List of dashboard names to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteDashboards(List<string> dashboardNames)
    {
        var deleteDashboardsResponse = await _amazonCloudWatch.DeleteDashboardsAsync(
            new DeleteDashboardsRequest()
            {
                DashboardNames = dashboardNames
            });

        return deleteDashboardsResponse.HttpStatusCode == HttpStatusCode.OK;
    }
}
```
Contoh nilai settings.json untuk skenario.  

```
{
  "dashboardName": "example-new-dashboard",
  "exampleAlarmName": "example-metric-alarm",
  "accountId": "1234567890",
  "region": "us-east-1",
  "emailTopic": "Default_CloudWatch_Alarms_Topic",
  "customMetricNamespace": "example-namespace",
  "customMetricName": "example-custom-metric",
  "dashboardExampleBody": {
    "widgets": [
      {
        "height": 6,
        "width": 6,
        "y": 0,
        "x": 0,
        "type": "text",
        "properties": {
          "markdown": "# Code Example Dashboard \nThis dashboard was created by example code.\n"
        }
      },
      {
        "height": 8,
        "width": 8,
        "y": 0,
        "x": 6,
        "type": "metric",
        "properties": {
          "metrics": [
            [
              "AWS/Billing",
              "EstimatedCharges",
              "Currency",
              "USD",
              { "region": "us-east-1" }
            ]
          ],
          "view": "timeSeries",
          "region": "us-east-1",
          "stat": "Maximum",
          "period": 86400,
          "yAxis": {
            "left": {
              "min": 0,
              "max": 100
            }
          },
          "stacked": false,
          "title": "Estimated Billing",
          "setPeriodToTimeRange": false,
          "liveData": true,
          "sparkline": true,
          "trend": true
        }
      },
      {
        "height": 8,
        "width": 8,
        "y": 0,
        "x": 14,
        "type": "metric",
        "properties": {
          "metrics": [
            [ "AWS/Usage", "CallCount", "Type", "API", "Resource", "ListMetrics", "Service", "CloudWatch", "Class", "None" ],
            [ "...", "GetMetricStatistics", ".", ".", ".", "." ],
            [ "...", "GetMetricData", ".", ".", ".", "." ],
            [ "...", "PutDashboard", ".", ".", ".", "." ],
            [ "...", "PutMetricData", ".", ".", ".", "." ]
          ],
          "view": "timeSeries",
          "yAxis": {
            "left": {
              "min": 0,
              "max": 200
            }
          },
          "stacked": false,
          "region": "us-east-1",
          "stat": "Sum",
          "period": 300,
          "title": "CloudWatch Usage",
          "setPeriodToTimeRange": false,
          "liveData": true,
          "sparkline": true,
          "trend": true
        }
      }
    ]
  }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [DeleteAlarms](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DeleteAlarms)
  + [DeleteAnomalyDetector](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DeleteAnomalyDetector)
  + [DeleteDashboards](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DeleteDashboards)
  + [DescribeAlarmHistory](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DescribeAlarmHistory)
  + [DescribeAlarms](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DescribeAlarms)
  + [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DescribeAlarmsForMetric)
  + [DescribeAnomalyDetectors](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DescribeAnomalyDetectors)
  + [GetMetricData](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/GetMetricData)
  + [GetMetricStatistics](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/GetMetricStatistics)
  + [GetMetricWidgetImage](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/GetMetricWidgetImage)
  + [ListMetrics](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/ListMetrics)
  + [PutAnomalyDetector](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/PutAnomalyDetector)
  + [PutDashboard](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/PutDashboard)
  + [PutMetricAlarm](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/PutMetricAlarm)
  + [PutMetricData](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/PutMetricData)

## Tindakan
<a name="actions"></a>

### `DeleteAlarms`
<a name="cloudwatch_DeleteAlarms_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlarms`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Delete a list of alarms from CloudWatch.
    /// </summary>
    /// <param name="alarmNames">A list of names of alarms to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteAlarms(List<string> alarmNames)
    {
        var deleteAlarmsResult = await _amazonCloudWatch.DeleteAlarmsAsync(
            new DeleteAlarmsRequest()
            {
                AlarmNames = alarmNames
            });

        return deleteAlarmsResult.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteAlarms](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DeleteAlarms)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteAnomalyDetector`
<a name="cloudwatch_DeleteAnomalyDetector_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAnomalyDetector`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Delete a single metric anomaly detector.
    /// </summary>
    /// <param name="anomalyDetector">The anomaly detector to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteAnomalyDetector(SingleMetricAnomalyDetector anomalyDetector)
    {
        var deleteAnomalyDetectorResponse = await _amazonCloudWatch.DeleteAnomalyDetectorAsync(
            new DeleteAnomalyDetectorRequest()
            {
                SingleMetricAnomalyDetector = anomalyDetector
            });

        return deleteAnomalyDetectorResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteAnomalyDetector](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DeleteAnomalyDetector)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteDashboards`
<a name="cloudwatch_DeleteDashboards_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDashboards`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Delete a list of CloudWatch dashboards.
    /// </summary>
    /// <param name="dashboardNames">List of dashboard names to delete.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteDashboards(List<string> dashboardNames)
    {
        var deleteDashboardsResponse = await _amazonCloudWatch.DeleteDashboardsAsync(
            new DeleteDashboardsRequest()
            {
                DashboardNames = dashboardNames
            });

        return deleteDashboardsResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DeleteDashboards](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DeleteDashboards)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeAlarmHistory`
<a name="cloudwatch_DescribeAlarmHistory_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmHistory`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Describe the history of an alarm for a number of days in the past.
    /// </summary>
    /// <param name="alarmName">The name of the alarm.</param>
    /// <param name="historyDays">The number of days in the past.</param>
    /// <returns>The list of alarm history data.</returns>
    public async Task<List<AlarmHistoryItem>> DescribeAlarmHistory(string alarmName, int historyDays)
    {
        List<AlarmHistoryItem> alarmHistory = new List<AlarmHistoryItem>();
        var paginatedAlarmHistory = _amazonCloudWatch.Paginators.DescribeAlarmHistory(
            new DescribeAlarmHistoryRequest()
            {
                AlarmName = alarmName,
                EndDateUtc = DateTime.UtcNow,
                HistoryItemType = HistoryItemType.StateUpdate,
                StartDateUtc = DateTime.UtcNow.AddDays(-historyDays)
            });

        await foreach (var data in paginatedAlarmHistory.AlarmHistoryItems)
        {
            alarmHistory.Add(data);
        }
        return alarmHistory;
    }
```
+  Untuk detail API, lihat [DescribeAlarmHistory](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DescribeAlarmHistory)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeAlarms`
<a name="cloudwatch_DescribeAlarms_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarms`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Describe the current alarms, optionally filtered by state.
    /// </summary>
    /// <param name="stateValue">Optional filter for alarm state.</param>
    /// <returns>The list of alarm data.</returns>
    public async Task<List<MetricAlarm>> DescribeAlarms(StateValue? stateValue = null)
    {
        List<MetricAlarm> alarms = new List<MetricAlarm>();
        var paginatedDescribeAlarms = _amazonCloudWatch.Paginators.DescribeAlarms(
            new DescribeAlarmsRequest()
            {
                StateValue = stateValue
            });

        await foreach (var data in paginatedDescribeAlarms.MetricAlarms)
        {
            alarms.Add(data);
        }
        return alarms;
    }
```
+  Untuk detail API, lihat [DescribeAlarms](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DescribeAlarms)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Describe the current alarms for a specific metric.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metricName">The name of the metric.</param>
    /// <returns>The list of alarm data.</returns>
    public async Task<List<MetricAlarm>> DescribeAlarmsForMetric(string metricNamespace, string metricName)
    {
        var alarmsResult = await _amazonCloudWatch.DescribeAlarmsForMetricAsync(
            new DescribeAlarmsForMetricRequest()
            {
                Namespace = metricNamespace,
                MetricName = metricName
            });

        return alarmsResult.MetricAlarms ?? new List<MetricAlarm>();
    }
```
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DescribeAlarmsForMetric)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeAnomalyDetectors`
<a name="cloudwatch_DescribeAnomalyDetectors_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAnomalyDetectors`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Describe anomaly detectors for a metric and namespace.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metricName">The metric of the anomaly detectors.</param>
    /// <returns>The list of detectors.</returns>
    public async Task<List<AnomalyDetector>> DescribeAnomalyDetectors(string metricNamespace, string metricName)
    {
        List<AnomalyDetector> detectors = new List<AnomalyDetector>();
        var paginatedDescribeAnomalyDetectors = _amazonCloudWatch.Paginators.DescribeAnomalyDetectors(
            new DescribeAnomalyDetectorsRequest()
            {
                MetricName = metricName,
                Namespace = metricNamespace
            });

        await foreach (var data in paginatedDescribeAnomalyDetectors.AnomalyDetectors)
        {
            detectors.Add(data);
        }

        return detectors;
    }
```
+  Untuk detail API, lihat [DescribeAnomalyDetectors](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DescribeAnomalyDetectors)di *Referensi AWS SDK untuk .NET API*. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Disable the actions for a list of alarms from CloudWatch.
    /// </summary>
    /// <param name="alarmNames">A list of names of alarms.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DisableAlarmActions(List<string> alarmNames)
    {
        var disableAlarmActionsResult = await _amazonCloudWatch.DisableAlarmActionsAsync(
            new DisableAlarmActionsRequest()
            {
                AlarmNames = alarmNames
            });

        return disableAlarmActionsResult.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [DisableAlarmActions](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/DisableAlarmActions)di *Referensi AWS SDK untuk .NET API*. 

### `EnableAlarmActions`
<a name="cloudwatch_EnableAlarmActions_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableAlarmActions`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Enable the actions for a list of alarms from CloudWatch.
    /// </summary>
    /// <param name="alarmNames">A list of names of alarms.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> EnableAlarmActions(List<string> alarmNames)
    {
        var enableAlarmActionsResult = await _amazonCloudWatch.EnableAlarmActionsAsync(
            new EnableAlarmActionsRequest()
            {
                AlarmNames = alarmNames
            });

        return enableAlarmActionsResult.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [EnableAlarmActions](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/EnableAlarmActions)di *Referensi AWS SDK untuk .NET API*. 

### `GetDashboard`
<a name="cloudwatch_GetDashboard_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDashboard`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Get information on a dashboard.
    /// </summary>
    /// <param name="dashboardName">The name of the dashboard.</param>
    /// <returns>A JSON object with dashboard information.</returns>
    public async Task<string> GetDashboard(string dashboardName)
    {
        var dashboardResponse = await _amazonCloudWatch.GetDashboardAsync(
            new GetDashboardRequest()
            {
                DashboardName = dashboardName
            });

        return dashboardResponse.DashboardBody;
    }
```
+  Untuk detail API, lihat [GetDashboard](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/GetDashboard)di *Referensi AWS SDK untuk .NET API*. 

### `GetMetricData`
<a name="cloudwatch_GetMetricData_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricData`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Get data for CloudWatch metrics.
    /// </summary>
    /// <param name="minutesOfData">The number of minutes of data to include.</param>
    /// <param name="useDescendingTime">True to return the data descending by time.</param>
    /// <param name="endDateUtc">The end date for the data, in UTC.</param>
    /// <param name="maxDataPoints">The maximum data points to include.</param>
    /// <param name="dataQueries">Optional data queries to include.</param>
    /// <returns>A list of the requested metric data.</returns>
    public async Task<List<MetricDataResult>> GetMetricData(int minutesOfData, bool useDescendingTime, DateTime? endDateUtc = null,
        int maxDataPoints = 0, List<MetricDataQuery>? dataQueries = null)
    {
        var metricData = new List<MetricDataResult>();
        // If no end time is provided, use the current time for the end time.
        endDateUtc ??= DateTime.UtcNow;
        var timeZoneOffset = TimeZoneInfo.Local.GetUtcOffset(endDateUtc.Value.ToLocalTime());
        var startTimeUtc = endDateUtc.Value.AddMinutes(-minutesOfData);
        // The timezone string should be in the format +0000, so use the timezone offset to format it correctly.
        var timeZoneString = $"{timeZoneOffset.Hours:D2}{timeZoneOffset.Minutes:D2}";
        // Add the plus sign for positive offsets.
        timeZoneString = timeZoneString.StartsWith('-') ? timeZoneString : "+" + timeZoneString;
        var paginatedMetricData = _amazonCloudWatch.Paginators.GetMetricData(
            new GetMetricDataRequest()
            {
                StartTimeUtc = startTimeUtc,
                EndTimeUtc = endDateUtc.Value,
                LabelOptions = new LabelOptions { Timezone = timeZoneString },
                ScanBy = useDescendingTime ? ScanBy.TimestampDescending : ScanBy.TimestampAscending,
                MaxDatapoints = maxDataPoints,
                MetricDataQueries = dataQueries,
            });

        if (paginatedMetricData.MetricDataResults != null)
        {
            await foreach (var data in paginatedMetricData.MetricDataResults)
            {
                metricData.Add(data);
            }
        }

        return metricData;
    }
```
+  Untuk detail API, lihat [GetMetricData](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/GetMetricData)di *Referensi AWS SDK untuk .NET API*. 

### `GetMetricStatistics`
<a name="cloudwatch_GetMetricStatistics_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricStatistics`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Get billing statistics using a call to a wrapper class.
    /// </summary>
    /// <returns>A collection of billing statistics.</returns>
    private static async Task<List<Datapoint>> SetupBillingStatistics()
    {
        // Make a request for EstimatedCharges with a period of one day for the past seven days.
        var billingStatistics = await _cloudWatchWrapper.GetMetricStatistics(
            "AWS/Billing",
            "EstimatedCharges",
            new List<string>() { "Maximum" },
            new List<Dimension>() { new Dimension { Name = "Currency", Value = "USD" } },
            7,
            86400);

        billingStatistics = billingStatistics.OrderBy(n => n.Timestamp).ToList();

        return billingStatistics;
    }

    /// <summary>
    /// Wrapper to get statistics for a specific CloudWatch metric.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metricName">The name of the metric.</param>
    /// <param name="statistics">The list of statistics to include.</param>
    /// <param name="dimensions">The list of dimensions to include.</param>
    /// <param name="days">The number of days in the past to include.</param>
    /// <param name="period">The period for the data.</param>
    /// <returns>A list of DataPoint objects for the statistics.</returns>
    public async Task<List<Datapoint>> GetMetricStatistics(string metricNamespace,
        string metricName, List<string> statistics, List<Dimension> dimensions, int days, int period)
    {
        var metricStatistics = await _amazonCloudWatch.GetMetricStatisticsAsync(
            new GetMetricStatisticsRequest()
            {
                Namespace = metricNamespace,
                MetricName = metricName,
                Dimensions = dimensions,
                Statistics = statistics,
                StartTimeUtc = DateTime.UtcNow.AddDays(-days),
                EndTimeUtc = DateTime.UtcNow,
                Period = period
            });

        return metricStatistics.Datapoints ?? new List<Datapoint>();
    }
```
+  Untuk detail API, lihat [GetMetricStatistics](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/GetMetricStatistics)di *Referensi AWS SDK untuk .NET API*. 

### `GetMetricWidgetImage`
<a name="cloudwatch_GetMetricWidgetImage_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricWidgetImage`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Get an image for a metric graphed over time.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metric">The name of the metric.</param>
    /// <param name="stat">The name of the stat to chart.</param>
    /// <param name="period">The period to use for the chart.</param>
    /// <returns>A memory stream for the chart image.</returns>
    public async Task<MemoryStream> GetTimeSeriesMetricImage(string metricNamespace, string metric, string stat, int period)
    {
        var metricImageWidget = new
        {
            title = "Example Metric Graph",
            view = "timeSeries",
            stacked = false,
            period = period,
            width = 1400,
            height = 600,
            metrics = new List<List<object>>
                { new() { metricNamespace, metric, new { stat } } }
        };

        var metricImageWidgetString = JsonSerializer.Serialize(metricImageWidget);
        var imageResponse = await _amazonCloudWatch.GetMetricWidgetImageAsync(
            new GetMetricWidgetImageRequest()
            {
                MetricWidget = metricImageWidgetString
            });

        return imageResponse.MetricWidgetImage;
    }

    /// <summary>
    /// Save a metric image to a file.
    /// </summary>
    /// <param name="memoryStream">The MemoryStream for the metric image.</param>
    /// <param name="metricName">The name of the metric.</param>
    /// <returns>The path to the file.</returns>
    public string SaveMetricImage(MemoryStream memoryStream, string metricName)
    {
        var metricFileName = $"{metricName}_{DateTime.Now.Ticks}.png";
        using var sr = new StreamReader(memoryStream);
        // Writes the memory stream to a file.
        File.WriteAllBytes(metricFileName, memoryStream.ToArray());
        var filePath = Path.Join(AppDomain.CurrentDomain.BaseDirectory,
            metricFileName);
        return filePath;
    }
```
+  Untuk detail API, lihat [GetMetricWidgetImage](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/GetMetricWidgetImage)di *Referensi AWS SDK untuk .NET API*. 

### `ListDashboards`
<a name="cloudwatch_ListDashboards_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDashboards`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Get a list of dashboards.
    /// </summary>
    /// <returns>A list of DashboardEntry objects.</returns>
    public async Task<List<DashboardEntry>> ListDashboards()
    {
        var results = new List<DashboardEntry>();
        var paginateDashboards = _amazonCloudWatch.Paginators.ListDashboards(
            new ListDashboardsRequest());
        // Get the entire list using the paginator.
        await foreach (var data in paginateDashboards.DashboardEntries)
        {
            results.Add(data);
        }

        return results;
    }
```
+  Untuk detail API, lihat [ListDashboards](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/ListDashboards)di *Referensi AWS SDK untuk .NET API*. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// List metrics available, optionally within a namespace.
    /// </summary>
    /// <param name="metricNamespace">Optional CloudWatch namespace to use when listing metrics.</param>
    /// <param name="filter">Optional dimension filter.</param>
    /// <param name="metricName">Optional metric name filter.</param>
    /// <returns>The list of metrics.</returns>
    public async Task<List<Metric>> ListMetrics(string? metricNamespace = null, DimensionFilter? filter = null, string? metricName = null)
    {
        var results = new List<Metric>();
        var paginateMetrics = _amazonCloudWatch.Paginators.ListMetrics(
            new ListMetricsRequest
            {
                Namespace = metricNamespace,
                Dimensions = filter != null ? new List<DimensionFilter> { filter } : null,
                MetricName = metricName
            });
        // Get the entire list using the paginator.
        await foreach (var metric in paginateMetrics.Metrics)
        {
            results.Add(metric);
        }

        return results;
    }
```
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/ListMetrics)di *Referensi AWS SDK untuk .NET API*. 

### `PutAnomalyDetector`
<a name="cloudwatch_PutAnomalyDetector_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutAnomalyDetector`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Add an anomaly detector for a single metric.
    /// </summary>
    /// <param name="anomalyDetector">A single metric anomaly detector.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> PutAnomalyDetector(SingleMetricAnomalyDetector anomalyDetector)
    {
        var putAlarmDetectorResult = await _amazonCloudWatch.PutAnomalyDetectorAsync(
            new PutAnomalyDetectorRequest()
            {
                SingleMetricAnomalyDetector = anomalyDetector
            });

        return putAlarmDetectorResult.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [PutAnomalyDetector](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/PutAnomalyDetector)di *Referensi AWS SDK untuk .NET API*. 

### `PutDashboard`
<a name="cloudwatch_PutDashboard_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutDashboard`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Set up a dashboard using a call to the wrapper class.
    /// </summary>
    /// <param name="customMetricNamespace">The metric namespace.</param>
    /// <param name="customMetricName">The metric name.</param>
    /// <param name="dashboardName">The name of the dashboard.</param>
    /// <returns>A list of validation messages.</returns>
    private static async Task<List<DashboardValidationMessage>> SetupDashboard(
        string customMetricNamespace, string customMetricName, string dashboardName)
    {
        // Get the dashboard model from configuration.
        var newDashboard = new DashboardModel();
        _configuration.GetSection("dashboardExampleBody").Bind(newDashboard);

        // Add a new metric to the dashboard.
        newDashboard.Widgets.Add(new Widget
        {
            Height = 8,
            Width = 8,
            Y = 8,
            X = 0,
            Type = "metric",
            Properties = new Properties
            {
                Metrics = new List<List<object>>
                    { new() { customMetricNamespace, customMetricName } },
                View = "timeSeries",
                Region = "us-east-1",
                Stat = "Sum",
                Period = 86400,
                YAxis = new YAxis { Left = new Left { Min = 0, Max = 100 } },
                Title = "Custom Metric Widget",
                LiveData = true,
                Sparkline = true,
                Trend = true,
                Stacked = false,
                SetPeriodToTimeRange = false
            }
        });

        var newDashboardString = JsonSerializer.Serialize(newDashboard,
            new JsonSerializerOptions
            { DefaultIgnoreCondition = JsonIgnoreCondition.WhenWritingNull });
        var validationMessages =
            await _cloudWatchWrapper.PutDashboard(dashboardName, newDashboardString);

        return validationMessages;
    }

    /// <summary>
    /// Wrapper to create or add to a dashboard with metrics.
    /// </summary>
    /// <param name="dashboardName">The name for the dashboard.</param>
    /// <param name="dashboardBody">The metric data in JSON for the dashboard.</param>
    /// <returns>A list of validation messages for the dashboard.</returns>
    public async Task<List<DashboardValidationMessage>> PutDashboard(string dashboardName,
        string dashboardBody)
    {
        // Updating a dashboard replaces all contents.
        // Best practice is to include a text widget indicating this dashboard was created programmatically.
        var dashboardResponse = await _amazonCloudWatch.PutDashboardAsync(
            new PutDashboardRequest()
            {
                DashboardName = dashboardName,
                DashboardBody = dashboardBody
            });

        return dashboardResponse.DashboardValidationMessages ?? new List<DashboardValidationMessage>();
    }
```
+  Untuk detail API, lihat [PutDashboard](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/PutDashboard)di *Referensi AWS SDK untuk .NET API*. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Add a metric alarm to send an email when the metric passes a threshold.
    /// </summary>
    /// <param name="alarmDescription">A description of the alarm.</param>
    /// <param name="alarmName">The name for the alarm.</param>
    /// <param name="comparison">The type of comparison to use.</param>
    /// <param name="metricName">The name of the metric for the alarm.</param>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="threshold">The threshold value for the alarm.</param>
    /// <param name="alarmActions">Optional actions to execute when in an alarm state.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> PutMetricEmailAlarm(string alarmDescription, string alarmName, ComparisonOperator comparison,
        string metricName, string metricNamespace, double threshold, List<string> alarmActions = null!)
    {
        try
        {
            var putEmailAlarmResponse = await _amazonCloudWatch.PutMetricAlarmAsync(
                new PutMetricAlarmRequest()
                {
                    AlarmActions = alarmActions,
                    AlarmDescription = alarmDescription,
                    AlarmName = alarmName,
                    ComparisonOperator = comparison,
                    Threshold = threshold,
                    Namespace = metricNamespace,
                    MetricName = metricName,
                    EvaluationPeriods = 1,
                    Period = 10,
                    Statistic = new Statistic("Maximum"),
                    DatapointsToAlarm = 1,
                    TreatMissingData = "ignore"
                });
            return putEmailAlarmResponse.HttpStatusCode == HttpStatusCode.OK;
        }
        catch (LimitExceededException lex)
        {
            _logger.LogError(lex, $"Unable to add alarm {alarmName}. Alarm quota has already been reached.");
        }

        return false;
    }

    /// <summary>
    /// Add specific email actions to a list of action strings for a CloudWatch alarm.
    /// </summary>
    /// <param name="accountId">The AccountId for the alarm.</param>
    /// <param name="region">The region for the alarm.</param>
    /// <param name="emailTopicName">An Amazon Simple Notification Service (SNS) topic for the alarm email.</param>
    /// <param name="alarmActions">Optional list of existing alarm actions to append to.</param>
    /// <returns>A list of string actions for an alarm.</returns>
    public List<string> AddEmailAlarmAction(string accountId, string region,
        string emailTopicName, List<string>? alarmActions = null)
    {
        alarmActions ??= new List<string>();
        var snsAlarmAction = $"arn:aws:sns:{region}:{accountId}:{emailTopicName}";
        alarmActions.Add(snsAlarmAction);
        return alarmActions;
    }
```
+  Untuk detail API, lihat [PutMetricAlarm](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/PutMetricAlarm)di *Referensi AWS SDK untuk .NET API*. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatch#code-examples). 

```
    /// <summary>
    /// Add some metric data using a call to a wrapper class.
    /// </summary>
    /// <param name="customMetricName">The metric name.</param>
    /// <param name="customMetricNamespace">The metric namespace.</param>
    /// <returns></returns>
    private static async Task<List<MetricDatum>> PutRandomMetricData(string customMetricName,
        string customMetricNamespace)
    {
        List<MetricDatum> customData = new List<MetricDatum>();
        Random rnd = new Random();

        // Add 10 random values up to 100, starting with a timestamp 15 minutes in the past.
        var utcNowMinus15 = DateTime.UtcNow.AddMinutes(-15);
        for (int i = 0; i < 10; i++)
        {
            var metricValue = rnd.Next(0, 100);
            customData.Add(
                new MetricDatum
                {
                    MetricName = customMetricName,
                    Value = metricValue,
                    TimestampUtc = utcNowMinus15.AddMinutes(i)
                }
            );
        }

        await _cloudWatchWrapper.PutMetricData(customMetricNamespace, customData);
        return customData;
    }

    /// <summary>
    /// Wrapper to add metric data to a CloudWatch metric.
    /// </summary>
    /// <param name="metricNamespace">The namespace of the metric.</param>
    /// <param name="metricData">A data object for the metric data.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> PutMetricData(string metricNamespace,
        List<MetricDatum> metricData)
    {
        var putDataResponse = await _amazonCloudWatch.PutMetricDataAsync(
            new PutMetricDataRequest()
            {
                MetricData = metricData,
                Namespace = metricNamespace,
            });

        return putDataResponse.HttpStatusCode == HttpStatusCode.OK;
    }
```
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/goto/DotNetSDKV4/monitoring-2010-08-01/PutMetricData)di *Referensi AWS SDK untuk .NET API*. 

# CloudWatch Log contoh menggunakan SDK untuk .NET (v4)
<a name="csharp_4_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan CloudWatch Log.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `GetQueryResults`
<a name="cloudwatch-logs_GetQueryResults_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueryResults`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatchLogs/LargeQuery#code-examples). 

```
    /// <summary>
    /// Gets the results of a CloudWatch Logs Insights query.
    /// </summary>
    /// <param name="queryId">The ID of the query.</param>
    /// <returns>The query results response.</returns>
    public async Task<GetQueryResultsResponse?> GetQueryResultsAsync(string queryId)
    {
        try
        {
            var request = new GetQueryResultsRequest
            {
                QueryId = queryId
            };

            var response = await _amazonCloudWatchLogs.GetQueryResultsAsync(request);
            return response;
        }
        catch (ResourceNotFoundException ex)
        {
            _logger.LogError($"Query not found: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while getting query results: {ex.Message}");
            return null;
        }
    }
```
+  Untuk detail API, lihat [GetQueryResults](https://docs.aws.amazon.com/goto/DotNetSDKV4/logs-2014-03-28/GetQueryResults)di *Referensi AWS SDK untuk .NET API*. 

### `StartQuery`
<a name="cloudwatch-logs_StartQuery_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartQuery`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatchLogs/LargeQuery#code-examples). 

```
    /// <summary>
    /// Starts a CloudWatch Logs Insights query.
    /// </summary>
    /// <param name="logGroupName">The name of the log group to query.</param>
    /// <param name="queryString">The CloudWatch Logs Insights query string.</param>
    /// <param name="startTime">The start time for the query (seconds since epoch).</param>
    /// <param name="endTime">The end time for the query (seconds since epoch).</param>
    /// <param name="limit">The maximum number of results to return.</param>
    /// <returns>The query ID if successful, null otherwise.</returns>
    public async Task<string?> StartQueryAsync(
        string logGroupName,
        string queryString,
        long startTime,
        long endTime,
        int limit = 10000)
    {
        try
        {
            var request = new StartQueryRequest
            {
                LogGroupName = logGroupName,
                QueryString = queryString,
                StartTime = startTime,
                EndTime = endTime,
                Limit = limit
            };

            var response = await _amazonCloudWatchLogs.StartQueryAsync(request);
            return response.QueryId;
        }
        catch (InvalidParameterException ex)
        {
            _logger.LogError($"Invalid parameter for query: {ex.Message}");
            return null;
        }
        catch (ResourceNotFoundException ex)
        {
            _logger.LogError($"Log group not found: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"An error occurred while starting query: {ex.Message}");
            return null;
        }
    }
```
+  Untuk detail API, lihat [StartQuery](https://docs.aws.amazon.com/goto/DotNetSDKV4/logs-2014-03-28/StartQuery)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Jalankan kueri besar
<a name="cloudwatch-logs_Scenario_BigQuery_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan CloudWatch Log untuk kueri lebih dari 10.000 catatan.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/CloudWatchLogs/LargeQuery#code-examples). 
Ini adalah alur kerja utama yang menunjukkan skenario kueri besar.  

```
using System.Diagnostics;
using System.Text.RegularExpressions;
using Amazon.CloudFormation;
using Amazon.CloudFormation.Model;
using Amazon.CloudWatchLogs;
using Amazon.CloudWatchLogs.Model;
using CloudWatchLogsActions;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;

namespace CloudWatchLogsScenario;

public class LargeQueryWorkflow
{
    /*
    Before running this .NET code example, set up your development environment, including your credentials.
    This .NET code example performs the following tasks for the CloudWatch Logs Large Query workflow:

    1. Prepare the Application:
       - Prompt the user to deploy CloudFormation stack and generate sample logs.
       - Deploy the CloudFormation template for resource creation.
       - Generate 50,000 sample log entries using CloudWatch Logs API.
       - Wait 5 minutes for logs to be fully ingested.

    2. Execute Large Query:
       - Perform recursive queries to retrieve all logs using binary search.
       - Display progress for each query executed.
       - Show total execution time and logs found.

    3. Clean up:
       - Prompt the user to delete the CloudFormation stack and all resources.
       - Destroy the CloudFormation stack and wait until removed.
    */

    public static ILogger<LargeQueryWorkflow> _logger = null!;
    public static CloudWatchLogsWrapper _wrapper = null!;
    public static IAmazonCloudFormation _amazonCloudFormation = null!;

    private static string _logGroupName = "/workflows/cloudwatch-logs/large-query";
    private static string _logStreamName = "stream1";
    private static long _queryStartDate;
    private static long _queryEndDate;

    public static bool _interactive = true;
    public static string _stackName = "CloudWatchLargeQueryStack";
    private static string _stackResourcePath = "../../../../../../../scenarios/features/cloudwatch_logs_large_query/resources/stack.yaml";

    public static async Task Main(string[] args)
    {
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter("Microsoft", LogLevel.Information))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonCloudWatchLogs>()
                    .AddAWSService<IAmazonCloudFormation>()
                    .AddTransient<CloudWatchLogsWrapper>()
            )
            .Build();

        if (_interactive)
        {
            _logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
                .CreateLogger<LargeQueryWorkflow>();

            _wrapper = host.Services.GetRequiredService<CloudWatchLogsWrapper>();
            _amazonCloudFormation = host.Services.GetRequiredService<IAmazonCloudFormation>();
        }

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the CloudWatch Logs Large Query Scenario.");
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("This scenario demonstrates how to perform large-scale queries on");
        Console.WriteLine("CloudWatch Logs using recursive binary search to retrieve more than");
        Console.WriteLine("the 10,000 result limit.");
        Console.WriteLine();

        try
        {
            Console.WriteLine(new string('-', 80));
            var prepareSuccess = await PrepareApplication();
            Console.WriteLine(new string('-', 80));

            if (prepareSuccess)
            {
                Console.WriteLine(new string('-', 80));
                await ExecuteLargeQuery();
                Console.WriteLine(new string('-', 80));
            }

            Console.WriteLine(new string('-', 80));
            await Cleanup();
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "There was a problem with the scenario, initiating cleanup...");
            _interactive = false;
            await Cleanup();
        }

        Console.WriteLine("CloudWatch Logs Large Query scenario completed.");
    }

    /// <summary>
    /// Runs the scenario workflow. Used for testing.
    /// </summary>
    public static async Task RunScenario()
    {
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the CloudWatch Logs Large Query Scenario.");
        Console.WriteLine(new string('-', 80));
        Console.WriteLine("This scenario demonstrates how to perform large-scale queries on");
        Console.WriteLine("CloudWatch Logs using recursive binary search to retrieve more than");
        Console.WriteLine("the 10,000 result limit.");
        Console.WriteLine();

        try
        {
            Console.WriteLine(new string('-', 80));
            var prepareSuccess = await PrepareApplication();
            Console.WriteLine(new string('-', 80));

            if (prepareSuccess)
            {
                Console.WriteLine(new string('-', 80));
                await ExecuteLargeQuery();
                Console.WriteLine(new string('-', 80));
            }

            Console.WriteLine(new string('-', 80));
            await Cleanup();
            Console.WriteLine(new string('-', 80));
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "There was a problem with the scenario, initiating cleanup...");
            _interactive = false;
            await Cleanup();
        }

        Console.WriteLine("CloudWatch Logs Large Query scenario completed.");
    }

    /// <summary>
    /// Prepares the application by creating the necessary resources.
    /// </summary>
    /// <returns>True if the application was prepared successfully.</returns>
    public static async Task<bool> PrepareApplication()
    {
        Console.WriteLine("Preparing the application...");
        Console.WriteLine();

        try
        {
            var deployStack = !_interactive || GetYesNoResponse(
                "Would you like to deploy the CloudFormation stack and generate sample logs? (y/n) ");

            if (deployStack)
            {
                if (_interactive)
                {
                    Console.Write(
                        $"Enter a path for the CloudFormation stack resource .yaml file (or press Enter for default '{_stackResourcePath}'): ");
                    string? inputPath = Console.ReadLine();
                    if (!string.IsNullOrWhiteSpace(inputPath))
                    {
                        _stackResourcePath = inputPath;
                    }
                }

                _stackName = PromptUserForStackName();

                var deploySuccess = await DeployCloudFormationStack(_stackName);

                if (deploySuccess)
                {
                    Console.WriteLine();
                    Console.WriteLine("Generating 50,000 sample log entries...");
                    var generateSuccess = await GenerateSampleLogs();

                    if (generateSuccess)
                    {
                        Console.WriteLine();
                        Console.WriteLine("Sample logs created. Waiting 5 minutes for logs to be fully ingested...");
                        await WaitWithCountdown(300);

                        Console.WriteLine("Application preparation complete.");
                        return true;
                    }
                }
            }
            else
            {
                _logGroupName = PromptUserForInput("Enter the log group name ", _logGroupName);
                _logStreamName = PromptUserForInput("Enter the log stream name ", _logStreamName);

                var startDateMs = PromptUserForLong("Enter the query start date (milliseconds since epoch): ");
                var endDateMs = PromptUserForLong("Enter the query end date (milliseconds since epoch): ");

                _queryStartDate = startDateMs / 1000;
                _queryEndDate = endDateMs / 1000;

                Console.WriteLine("Application preparation complete.");
                return true;
            }
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "An error occurred while preparing the application.");
        }

        Console.WriteLine("Application preparation failed.");
        return false;
    }

    /// <summary>
    /// Deploys the CloudFormation stack with the necessary resources.
    /// </summary>
    /// <param name="stackName">The name of the CloudFormation stack.</param>
    /// <returns>True if the stack was deployed successfully.</returns>
    private static async Task<bool> DeployCloudFormationStack(string stackName)
    {
        Console.WriteLine($"\nDeploying CloudFormation stack: {stackName}");

        try
        {
            var request = new CreateStackRequest
            {
                StackName = stackName,
                TemplateBody = await File.ReadAllTextAsync(_stackResourcePath)
            };

            var response = await _amazonCloudFormation.CreateStackAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"CloudFormation stack creation started: {stackName}");

                bool stackCreated = await WaitForStackCompletion(response.StackId);

                if (stackCreated)
                {
                    Console.WriteLine("CloudFormation stack created successfully.");
                    return true;
                }
                else
                {
                    _logger.LogError($"CloudFormation stack creation failed: {stackName}");
                    return false;
                }
            }
            else
            {
                _logger.LogError($"Failed to create CloudFormation stack: {stackName}");
                return false;
            }
        }
        catch (AlreadyExistsException)
        {
            _logger.LogWarning($"CloudFormation stack '{stackName}' already exists. Please provide a unique name.");
            var newStackName = PromptUserForStackName();
            return await DeployCloudFormationStack(newStackName);
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, $"An error occurred while deploying the CloudFormation stack: {stackName}");
            return false;
        }
    }

    /// <summary>
    /// Waits for the CloudFormation stack to be in the CREATE_COMPLETE state.
    /// </summary>
    /// <param name="stackId">The ID of the CloudFormation stack.</param>
    /// <returns>True if the stack was created successfully.</returns>
    private static async Task<bool> WaitForStackCompletion(string stackId)
    {
        int retryCount = 0;
        const int maxRetries = 30;
        const int retryDelay = 10000;

        while (retryCount < maxRetries)
        {
            var describeStacksRequest = new DescribeStacksRequest
            {
                StackName = stackId
            };

            var describeStacksResponse = await _amazonCloudFormation.DescribeStacksAsync(describeStacksRequest);

            if (describeStacksResponse.Stacks.Count > 0)
            {
                if (describeStacksResponse.Stacks[0].StackStatus == StackStatus.CREATE_COMPLETE)
                {
                    return true;
                }
                if (describeStacksResponse.Stacks[0].StackStatus == StackStatus.CREATE_FAILED ||
                    describeStacksResponse.Stacks[0].StackStatus == StackStatus.ROLLBACK_COMPLETE)
                {
                    return false;
                }
            }

            Console.WriteLine("Waiting for CloudFormation stack creation to complete...");
            await Task.Delay(retryDelay);
            retryCount++;
        }

        _logger.LogError("Timed out waiting for CloudFormation stack creation to complete.");
        return false;
    }

    /// <summary>
    /// Generates sample logs directly using CloudWatch Logs API.
    /// Creates 50,000 log entries spanning 5 minutes.
    /// </summary>
    /// <returns>True if logs were generated successfully.</returns>
    private static async Task<bool> GenerateSampleLogs()
    {
        const int totalEntries = 50000;
        const int entriesPerBatch = 10000;
        const int fiveMinutesMs = 5 * 60 * 1000;

        try
        {
            // Calculate timestamps
            var startTimeMs = DateTimeOffset.UtcNow.ToUnixTimeMilliseconds();
            var timestampIncrement = fiveMinutesMs / totalEntries;

            Console.WriteLine($"Generating {totalEntries} log entries...");

            var entryCount = 0;
            var currentTimestamp = startTimeMs;
            var numBatches = totalEntries / entriesPerBatch;

            // Generate and upload logs in batches
            for (int batchNum = 0; batchNum < numBatches; batchNum++)
            {
                var logEvents = new List<InputLogEvent>();

                for (int i = 0; i < entriesPerBatch; i++)
                {
                    logEvents.Add(new InputLogEvent
                    {
                        Timestamp = DateTimeOffset.FromUnixTimeMilliseconds(currentTimestamp).UtcDateTime,
                        Message = $"Entry {entryCount}"
                    });

                    entryCount++;
                    currentTimestamp += timestampIncrement;
                }

                // Upload batch
                var success = await _wrapper.PutLogEventsAsync(_logGroupName, _logStreamName, logEvents);
                if (!success)
                {
                    _logger.LogError($"Failed to upload batch {batchNum + 1}/{numBatches}");
                    return false;
                }

                Console.WriteLine($"Uploaded batch {batchNum + 1}/{numBatches}");
            }

            // Set query date range (convert milliseconds to seconds for query API)
            _queryStartDate = startTimeMs / 1000;
            _queryEndDate = (currentTimestamp - timestampIncrement) / 1000;

            Console.WriteLine($"Query start date: {DateTimeOffset.FromUnixTimeSeconds(_queryStartDate):yyyy-MM-ddTHH:mm:ss.fffZ}");
            Console.WriteLine($"Query end date: {DateTimeOffset.FromUnixTimeSeconds(_queryEndDate):yyyy-MM-ddTHH:mm:ss.fffZ}");
            Console.WriteLine($"Successfully uploaded {totalEntries} log entries");

            return true;
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "An error occurred while generating sample logs.");
            return false;
        }
    }

    /// <summary>
    /// Executes the large query workflow.
    /// </summary>
    public static async Task ExecuteLargeQuery()
    {
        Console.WriteLine("Starting recursive query to retrieve all logs...");
        Console.WriteLine();

        var queryLimit = PromptUserForInteger("Enter the query limit (max 10000) ", 10000);
        if (queryLimit > 10000) queryLimit = 10000;

        var queryString = "fields @timestamp, @message | sort @timestamp asc";

        var stopwatch = Stopwatch.StartNew();
        var allResults = await PerformLargeQuery(_logGroupName, queryString, _queryStartDate, _queryEndDate, queryLimit);
        stopwatch.Stop();

        Console.WriteLine();
        Console.WriteLine($"Queries finished in {stopwatch.Elapsed.TotalSeconds:F3} seconds.");
        Console.WriteLine($"Total logs found: {allResults.Count}");

        // Check for duplicates
        Console.WriteLine();
        Console.WriteLine("Checking for duplicate logs...");
        var duplicates = FindDuplicateLogs(allResults);
        if (duplicates.Count > 0)
        {
            Console.WriteLine($"WARNING: Found {duplicates.Count} duplicate log entries!");
            Console.WriteLine("Duplicate entries (showing first 10):");
            foreach (var dup in duplicates.Take(10))
            {
                Console.WriteLine($"  [{dup.Timestamp}] {dup.Message} (appears {dup.Count} times)");
            }

            var uniqueCount = allResults.Count - duplicates.Sum(d => d.Count - 1);
            Console.WriteLine($"Unique logs: {uniqueCount}");
        }
        else
        {
            Console.WriteLine("No duplicates found. All logs are unique.");
        }
        Console.WriteLine();

        var viewSample = !_interactive || GetYesNoResponse("Would you like to see a sample of the logs? (y/n) ");
        if (viewSample)
        {
            Console.WriteLine();
            Console.WriteLine($"Sample logs (first 10 of {allResults.Count}):");
            for (int i = 0; i < Math.Min(10, allResults.Count); i++)
            {
                var timestamp = allResults[i].Find(f => f.Field == "@timestamp")?.Value ?? "N/A";
                var message = allResults[i].Find(f => f.Field == "@message")?.Value ?? "N/A";
                Console.WriteLine($"[{timestamp}] {message}");
            }
        }
    }

    /// <summary>
    /// Performs a large query using recursive binary search.
    /// </summary>
    private static async Task<List<List<ResultField>>> PerformLargeQuery(
        string logGroupName,
        string queryString,
        long startTime,
        long endTime,
        int limit)
    {
        var queryId = await _wrapper.StartQueryAsync(logGroupName, queryString, startTime, endTime, limit);
        if (queryId == null)
        {
            return new List<List<ResultField>>();
        }

        var results = await PollQueryResults(queryId);
        if (results == null || results.Count == 0)
        {
            return new List<List<ResultField>>();
        }

        var startDate = DateTimeOffset.FromUnixTimeSeconds(startTime).ToString("yyyy-MM-ddTHH:mm:ss.fffZ");
        var endDate = DateTimeOffset.FromUnixTimeSeconds(endTime).ToString("yyyy-MM-ddTHH:mm:ss.fffZ");
        Console.WriteLine($"Query date range: {startDate} ({startTime}s) to {endDate} ({endTime}s). Found {results.Count} logs.");

        if (results.Count < limit)
        {
            Console.WriteLine($"  -> Returning {results.Count} logs (less than limit of {limit})");
            return results;
        }

        Console.WriteLine($"  -> Hit limit of {limit}. Need to split and recurse.");

        // Get the timestamp of the last log (sorted to find the actual last one)
        var lastLogTimestamp = GetLastLogTimestamp(results);
        if (lastLogTimestamp == null)
        {
            Console.WriteLine($"  -> No timestamp found in results. Returning {results.Count} logs.");
            return results;
        }

        Console.WriteLine($"  -> Last log timestamp: {lastLogTimestamp}");

        // Parse the timestamp and add 1 millisecond to avoid querying the same log again
        var lastLogDate = DateTimeOffset.Parse(lastLogTimestamp + " +0000");
        Console.WriteLine($"  -> Last log as DateTimeOffset: {lastLogDate:yyyy-MM-ddTHH:mm:ss.fffZ} ({lastLogDate.ToUnixTimeSeconds()}s)");

        var offsetLastLogDate = lastLogDate.AddMilliseconds(1);
        Console.WriteLine($"  -> Offset timestamp (last + 1ms): {offsetLastLogDate:yyyy-MM-ddTHH:mm:ss.fffZ} ({offsetLastLogDate.ToUnixTimeSeconds()}s)");

        // Convert to seconds, but round UP to the next second to avoid overlapping with logs in the same second
        // This ensures we don't re-query logs that share the same second as the last log
        var offsetLastLogTime = offsetLastLogDate.ToUnixTimeSeconds();
        if (offsetLastLogDate.Millisecond > 0)
        {
            offsetLastLogTime++; // Move to the next full second
            Console.WriteLine($"  -> Adjusted to next full second: {offsetLastLogTime}s ({DateTimeOffset.FromUnixTimeSeconds(offsetLastLogTime):yyyy-MM-ddTHH:mm:ss.fffZ})");
        }

        Console.WriteLine($"  -> Comparing: offsetLastLogTime={offsetLastLogTime}s vs endTime={endTime}s");
        Console.WriteLine($"  -> End time as date: {DateTimeOffset.FromUnixTimeSeconds(endTime):yyyy-MM-ddTHH:mm:ss.fffZ}");

        // Check if there's any time range left to query
        if (offsetLastLogTime >= endTime)
        {
            Console.WriteLine($"  -> No time range left to query. Offset time ({offsetLastLogTime}s) >= end time ({endTime}s)");
            return results;
        }

        // Split the remaining date range in half
        var (range1Start, range1End, range2Start, range2End) = SplitDateRange(offsetLastLogTime, endTime);

        var range1StartDate = DateTimeOffset.FromUnixTimeSeconds(range1Start).ToString("yyyy-MM-ddTHH:mm:ss.fffZ");
        var range1EndDate = DateTimeOffset.FromUnixTimeSeconds(range1End).ToString("yyyy-MM-ddTHH:mm:ss.fffZ");
        var range2StartDate = DateTimeOffset.FromUnixTimeSeconds(range2Start).ToString("yyyy-MM-ddTHH:mm:ss.fffZ");
        var range2EndDate = DateTimeOffset.FromUnixTimeSeconds(range2End).ToString("yyyy-MM-ddTHH:mm:ss.fffZ");

        Console.WriteLine($"  -> Splitting remaining range:");
        Console.WriteLine($"     Range 1: {range1StartDate} ({range1Start}s) to {range1EndDate} ({range1End}s)");
        Console.WriteLine($"     Range 2: {range2StartDate} ({range2Start}s) to {range2EndDate} ({range2End}s)");

        // Query both halves recursively
        Console.WriteLine($"  -> Querying range 1...");
        var results1 = await PerformLargeQuery(logGroupName, queryString, range1Start, range1End, limit);
        Console.WriteLine($"  -> Range 1 returned {results1.Count} logs");

        Console.WriteLine($"  -> Querying range 2...");
        var results2 = await PerformLargeQuery(logGroupName, queryString, range2Start, range2End, limit);
        Console.WriteLine($"  -> Range 2 returned {results2.Count} logs");

        // Combine all results
        var allResults = new List<List<ResultField>>(results);
        allResults.AddRange(results1);
        allResults.AddRange(results2);

        Console.WriteLine($"  -> Combined total: {allResults.Count} logs ({results.Count} + {results1.Count} + {results2.Count})");

        return allResults;
    }

    /// <summary>
    /// Gets the timestamp string of the most recent log from a list of logs.
    /// Sorts timestamps to find the actual last one.
    /// </summary>
    private static string? GetLastLogTimestamp(List<List<ResultField>> logs)
    {
        var timestamps = logs
            .Select(log => log.Find(f => f.Field == "@timestamp")?.Value)
            .Where(t => !string.IsNullOrEmpty(t))
            .OrderBy(t => t)
            .ToList();

        if (timestamps.Count == 0)
        {
            return null;
        }

        return timestamps[timestamps.Count - 1];
    }

    /// <summary>
    /// Splits a date range in half.
    /// Range 2 starts at midpoint + 1 second to avoid overlap.
    /// </summary>
    private static (long range1Start, long range1End, long range2Start, long range2End) SplitDateRange(long startTime, long endTime)
    {
        var midpoint = startTime + (endTime - startTime) / 2;
        // Range 2 starts at midpoint + 1 to avoid querying the same second twice
        return (startTime, midpoint, midpoint + 1, endTime);
    }

    /// <summary>
    /// Polls for query results until complete.
    /// </summary>
    private static async Task<List<List<ResultField>>?> PollQueryResults(string queryId)
    {
        int retryCount = 0;
        const int maxRetries = 60;
        const int retryDelay = 1000;

        while (retryCount < maxRetries)
        {
            var response = await _wrapper.GetQueryResultsAsync(queryId);
            if (response == null)
            {
                return null;
            }

            if (response.Status == QueryStatus.Complete)
            {
                return response.Results;
            }

            if (response.Status == QueryStatus.Failed ||
                response.Status == QueryStatus.Cancelled ||
                response.Status == QueryStatus.Timeout ||
                response.Status == QueryStatus.Unknown)
            {
                _logger.LogError($"Query failed with status: {response.Status}");
                return null;
            }

            await Task.Delay(retryDelay);
            retryCount++;
        }

        _logger.LogError("Timed out waiting for query results.");
        return null;
    }

    /// <summary>
    /// Cleans up the resources created during the scenario.
    /// </summary>
    public static async Task<bool> Cleanup()
    {
        var cleanup = !_interactive || GetYesNoResponse(
            "Do you want to delete the CloudFormation stack and all resources? (y/n) ");

        if (cleanup)
        {
            try
            {
                var stackDeleteSuccess = await DeleteCloudFormationStack(_stackName, false);
                return stackDeleteSuccess;
            }
            catch (Exception ex)
            {
                _logger.LogError(ex, "An error occurred while cleaning up the resources.");
                return false;
            }
        }

        Console.WriteLine($"Resources will remain. Stack name: {_stackName}, Log group: {_logGroupName}");
        _logger.LogInformation("CloudWatch Logs Large Query scenario is complete.");
        return true;
    }

    /// <summary>
    /// Deletes the CloudFormation stack and waits for confirmation.
    /// </summary>
    private static async Task<bool> DeleteCloudFormationStack(string stackName, bool forceDelete)
    {
        var request = new DeleteStackRequest
        {
            StackName = stackName,
        };

        if (forceDelete)
        {
            request.DeletionMode = DeletionMode.FORCE_DELETE_STACK;
        }

        await _amazonCloudFormation.DeleteStackAsync(request);
        Console.WriteLine($"CloudFormation stack '{stackName}' is being deleted. This may take a few minutes.");

        bool stackDeleted = await WaitForStackDeletion(stackName, forceDelete);

        if (stackDeleted)
        {
            Console.WriteLine($"CloudFormation stack '{stackName}' has been deleted.");
            return true;
        }
        else
        {
            _logger.LogError($"Failed to delete CloudFormation stack '{stackName}'.");
            return false;
        }
    }

    /// <summary>
    /// Waits for the stack to be deleted.
    /// </summary>
    private static async Task<bool> WaitForStackDeletion(string stackName, bool forceDelete)
    {
        int retryCount = 0;
        const int maxRetries = 30;
        const int retryDelay = 10000;

        while (retryCount < maxRetries)
        {
            var describeStacksRequest = new DescribeStacksRequest
            {
                StackName = stackName
            };

            try
            {
                var describeStacksResponse = await _amazonCloudFormation.DescribeStacksAsync(describeStacksRequest);

                if (describeStacksResponse.Stacks.Count == 0 ||
                    describeStacksResponse.Stacks[0].StackStatus == StackStatus.DELETE_COMPLETE)
                {
                    return true;
                }

                if (!forceDelete && describeStacksResponse.Stacks[0].StackStatus == StackStatus.DELETE_FAILED)
                {
                    return await DeleteCloudFormationStack(stackName, true);
                }
            }
            catch (AmazonCloudFormationException ex) when (ex.ErrorCode == "ValidationError")
            {
                return true;
            }

            Console.WriteLine($"Waiting for CloudFormation stack '{stackName}' to be deleted...");
            await Task.Delay(retryDelay);
            retryCount++;
        }

        _logger.LogError($"Timed out waiting for CloudFormation stack '{stackName}' to be deleted.");
        return false;
    }

    /// <summary>
    /// Waits with a countdown display.
    /// </summary>
    private static async Task WaitWithCountdown(int seconds)
    {
        for (int i = seconds; i > 0; i--)
        {
            Console.Write($"\rWaiting: {i} seconds remaining...  ");
            await Task.Delay(1000);
        }
        Console.WriteLine("\rWait complete.                      ");
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase);
        return response;
    }

    /// <summary>
    /// Prompts the user for a stack name.
    /// </summary>
    private static string PromptUserForStackName()
    {
        if (_interactive)
        {
            Console.Write($"Enter a name for the CloudFormation stack (press Enter for default '{_stackName}'): ");
            string? input = Console.ReadLine();
            if (!string.IsNullOrWhiteSpace(input))
            {
                var regex = "[a-zA-Z][-a-zA-Z0-9]*";
                if (!Regex.IsMatch(input, regex))
                {
                    Console.WriteLine($"Invalid stack name. Using default: {_stackName}");
                    return _stackName;
                }
                return input;
            }
        }
        return _stackName;
    }

    /// <summary>
    /// Prompts the user for input with a default value.
    /// </summary>
    private static string PromptUserForInput(string prompt, string defaultValue)
    {
        if (_interactive)
        {
            Console.Write($"{prompt}(press Enter for default '{defaultValue}'): ");
            string? input = Console.ReadLine();
            return string.IsNullOrWhiteSpace(input) ? defaultValue : input;
        }
        return defaultValue;
    }

    /// <summary>
    /// Prompts the user for an integer value.
    /// </summary>
    private static int PromptUserForInteger(string prompt, int defaultValue)
    {
        if (_interactive)
        {
            Console.Write($"{prompt}(press Enter for default '{defaultValue}'): ");
            string? input = Console.ReadLine();
            if (string.IsNullOrWhiteSpace(input) || !int.TryParse(input, out var result))
            {
                return defaultValue;
            }
            return result;
        }
        return defaultValue;
    }

    /// <summary>
    /// Prompts the user for a long value.
    /// </summary>
    private static long PromptUserForLong(string prompt)
    {
        if (_interactive)
        {
            Console.Write(prompt);
            string? input = Console.ReadLine();
            if (long.TryParse(input, out var result))
            {
                return result;
            }
        }
        return 0;
    }

    /// <summary>
    /// Finds duplicate log entries based on timestamp and message.
    /// </summary>
    private static List<(string Timestamp, string Message, int Count)> FindDuplicateLogs(List<List<ResultField>> logs)
    {
        var logSignatures = new Dictionary<string, int>();

        foreach (var log in logs)
        {
            var timestamp = log.Find(f => f.Field == "@timestamp")?.Value ?? "";
            var message = log.Find(f => f.Field == "@message")?.Value ?? "";
            var signature = $"{timestamp}|{message}";

            if (logSignatures.ContainsKey(signature))
            {
                logSignatures[signature]++;
            }
            else
            {
                logSignatures[signature] = 1;
            }
        }

        return logSignatures
            .Where(kvp => kvp.Value > 1)
            .Select(kvp =>
            {
                var parts = kvp.Key.Split('|');
                return (Timestamp: parts[0], Message: parts[1], Count: kvp.Value);
            })
            .OrderByDescending(x => x.Count)
            .ToList();
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [GetQueryResults](https://docs.aws.amazon.com/goto/DotNetSDKV4/logs-2014-03-28/GetQueryResults)
  + [StartQuery](https://docs.aws.amazon.com/goto/DotNetSDKV4/logs-2014-03-28/StartQuery)

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK untuk .NET (v4)
<a name="csharp_4_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Penyedia Identitas Amazon Cognito.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListUserPools`
<a name="cognito-identity-provider_ListUserPools_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUserPools`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Cognito#code-examples). 

```
    /// <summary>
    /// List the Amazon Cognito user pools for an account.
    /// </summary>
    /// <returns>A list of UserPoolDescriptionType objects.</returns>
    public async Task<List<UserPoolDescriptionType>> ListUserPoolsAsync()
    {
        var userPools = new List<UserPoolDescriptionType>();

        var userPoolsPaginator = _cognitoService.Paginators.ListUserPools(new ListUserPoolsRequest());

        await foreach (var response in userPoolsPaginator.Responses)
        {
            userPools.AddRange(response.UserPools);
        }

        return userPools;
    }
```
+  Untuk detail API, lihat [ListUserPools](https://docs.aws.amazon.com/goto/DotNetSDKV4/cognito-idp-2016-04-18/ListUserPools)di *Referensi AWS SDK untuk .NET API*. 

# AWS Control Tower contoh menggunakan SDK untuk .NET (v4)
<a name="csharp_4_controltower_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan AWS Control Tower.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Control Tower
<a name="controltower_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Control Tower.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
using Amazon.ControlTower;
using Amazon.ControlTower.Model;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;
using Microsoft.Extensions.Logging.Debug;
using LogLevel = Microsoft.Extensions.Logging.LogLevel;

namespace ControlTowerActions;

/// <summary>
/// A class that introduces the AWS Control Tower by listing the
/// available baselines for the account.
/// </summary>
public class HelloControlTower
{
    private static ILogger logger = null!;

    static async Task Main(string[] args)
    {
        // Set up dependency injection for AWS Control Tower.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonControlTower>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<HelloControlTower>();

        var amazonClient = host.Services.GetRequiredService<IAmazonControlTower>();

        Console.Clear();
        Console.WriteLine("Hello, AWS Control Tower! Let's list available baselines:");
        Console.WriteLine();

        var baselines = new List<BaselineSummary>();

        try
        {
            var baselinesPaginator = amazonClient.Paginators.ListBaselines(new ListBaselinesRequest());

            await foreach (var response in baselinesPaginator.Responses)
            {
                baselines.AddRange(response.Baselines);
            }

            Console.WriteLine($"{baselines.Count} baseline(s) retrieved.");
            foreach (var baseline in baselines)
            {
                Console.WriteLine($"\t{baseline.Name}");
            }
        }
        catch (Amazon.ControlTower.Model.AccessDeniedException)
        {
            Console.WriteLine("Access denied. Please ensure you have the necessary permissions.");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred: {ex.Message}");
        }
    }
}
```
+  Untuk detail API, lihat [ListBaselines](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListBaselines)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="controltower_Scenario_csharp_4_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar zona pendaratan.
+ Buat daftar, aktifkan, dapatkan, atur ulang, dan nonaktifkan garis dasar.
+ Daftar, aktifkan, dapatkan, dan nonaktifkan kontrol.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS Control Tower fitur.  

```
using Amazon.ControlCatalog;
using Amazon.ControlTower;
using Amazon.ControlTower.Model;
using Amazon.Organizations;
using Amazon.Organizations.Model;
using Amazon.SecurityToken;
using Amazon.SecurityToken.Model;
using ControlTowerActions;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;

namespace ControlTowerBasics;

/// <summary>
/// Scenario class for AWS Control Tower basics.
/// </summary>
public class ControlTowerBasics
{
    public static bool isInteractive = true;
    public static ILogger logger = null!;
    public static IAmazonOrganizations? orgClient = null;
    public static IAmazonSecurityTokenService? stsClient = null;
    public static ControlTowerWrapper? wrapper = null;
    private static string? ouArn;
    private static bool useLandingZone = false;

    /// <summary>
    /// Main entry point for the AWS Control Tower basics scenario.
    /// </summary>
    /// <param name="args">Command line arguments.</param>
    public static async Task Main(string[] args)
    {
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonControlTower>()
                .AddAWSService<IAmazonControlCatalog>()
                .AddAWSService<IAmazonOrganizations>()
                .AddAWSService<IAmazonSecurityTokenService>()
                .AddTransient<ControlTowerWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<ControlTowerBasics>();

        wrapper = host.Services.GetRequiredService<ControlTowerWrapper>();
        orgClient = host.Services.GetRequiredService<IAmazonOrganizations>();
        stsClient = host.Services.GetRequiredService<IAmazonSecurityTokenService>();

        await RunScenario();
    }

    /// <summary>
    /// Runs the example scenario.
    /// </summary>
    public static async Task RunScenario()
    {
        Console.WriteLine(new string('-', 88));
        Console.WriteLine("\tWelcome to the AWS Control Tower with ControlCatalog example scenario.");
        Console.WriteLine(new string('-', 88));
        Console.WriteLine("This demo will walk you through working with AWS Control Tower for landing zones,");
        Console.WriteLine("managing baselines, and working with controls.");

        try
        {
            var accountId = (await stsClient!.GetCallerIdentityAsync(new GetCallerIdentityRequest())).Account;
            Console.WriteLine($"\nAccount ID: {accountId}");

            Console.WriteLine("\nSome demo operations require the use of a landing zone.");
            Console.WriteLine("You can use an existing landing zone or opt out of these operations in the demo.");
            Console.WriteLine("For instructions on how to set up a landing zone,");
            Console.WriteLine("see https://docs.aws.amazon.com/controltower/latest/userguide/getting-started-from-console.html");

            // List available landing zones
            var landingZones = await wrapper!.ListLandingZonesAsync();
            if (landingZones.Count > 0)
            {
                Console.WriteLine("\nAvailable Landing Zones:");
                for (int i = 0; i < landingZones.Count; i++)
                {
                    Console.WriteLine($"{i + 1}. {landingZones[i].Arn}");
                }

                Console.Write($"\nDo you want to use the first landing zone in the list ({landingZones[0].Arn})? (y/n): ");
                if (GetUserConfirmation())
                {
                    useLandingZone = true;
                    Console.WriteLine($"Using landing zone: {landingZones[0].Arn}");
                    ouArn = await SetupOrganizationAsync();
                }
            }

            // Managing Baselines
            Console.WriteLine("\nManaging Baselines:");
            var baselines = await wrapper.ListBaselinesAsync();
            Console.WriteLine("\nListing available Baselines:");
            BaselineSummary? controlTowerBaseline = null;
            foreach (var baseline in baselines)
            {
                if (baseline.Name == "AWSControlTowerBaseline")
                    controlTowerBaseline = baseline;
                Console.WriteLine($"  - {baseline.Name}");
            }

            EnabledBaselineSummary? identityCenterBaseline = null;
            string? baselineArn = null;

            if (useLandingZone && ouArn != null)
            {
                Console.WriteLine("\nListing enabled baselines:");
                var enabledBaselines = await wrapper.ListEnabledBaselinesAsync();
                foreach (var baseline in enabledBaselines)
                {
                    if (baseline.BaselineIdentifier.Contains("baseline/LN25R72TTG6IGPTQ"))
                        identityCenterBaseline = baseline;
                    Console.WriteLine($"  - {baseline.BaselineIdentifier}");
                }

                if (controlTowerBaseline != null)
                {
                    Console.Write("\nDo you want to enable the Control Tower Baseline? (y/n): ");
                    if (GetUserConfirmation())
                    {
                        Console.WriteLine("\nEnabling Control Tower Baseline.");
                        var icBaselineArn = identityCenterBaseline?.Arn;
                        baselineArn = await wrapper.EnableBaselineAsync(ouArn,
                            controlTowerBaseline.Arn, "5.0", icBaselineArn ?? "");
                        var alreadyEnabled = false;
                        if (baselineArn != null)
                        {
                            Console.WriteLine($"Enabled baseline ARN: {baselineArn}");
                        }
                        else
                        {
                            // Find the enabled baseline
                            foreach (var enabled in enabledBaselines)
                            {
                                if (enabled.BaselineIdentifier == controlTowerBaseline.Arn)
                                {
                                    baselineArn = enabled.Arn;
                                    alreadyEnabled = true;
                                    Console.WriteLine("No change, the selected baseline was already enabled.");
                                    break;
                                }
                            }
                        }

                        if (baselineArn != null)
                        {
                            Console.Write("\nDo you want to reset the Control Tower Baseline? (y/n): ");
                            if (GetUserConfirmation())
                            {
                                Console.WriteLine($"\nResetting Control Tower Baseline: {baselineArn}");
                                var operationId = await wrapper.ResetEnabledBaselineAsync(baselineArn);
                                Console.WriteLine($"Reset baseline operation id: {operationId}");
                            }

                            Console.Write("\nDo you want to disable the Control Tower Baseline? (y/n): ");
                            if (GetUserConfirmation())
                            {
                                Console.WriteLine($"Disabling baseline ARN: {baselineArn}");
                                var operationId = await wrapper.DisableBaselineAsync(baselineArn);
                                Console.WriteLine($"Disabled baseline operation id: {operationId}");
                                if (alreadyEnabled)
                                {
                                    Console.WriteLine($"\nRe-enabling Control Tower Baseline: {baselineArn}");
                                    // Re-enable the Control Tower baseline if it was originally enabled.
                                    await wrapper.EnableBaselineAsync(ouArn,
                                        controlTowerBaseline.Arn, "5.0", icBaselineArn ?? "");
                                }
                            }
                        }
                    }
                }
            }

            // Managing Controls
            Console.WriteLine("\nManaging Controls:");
            var controls = await wrapper.ListControlsAsync();
            Console.WriteLine("\nListing first 5 available Controls:");
            for (int i = 0; i < Math.Min(5, controls.Count); i++)
            {
                Console.WriteLine($"{i + 1}. {controls[i].Name} - {controls[i].Arn}");
            }

            if (useLandingZone && ouArn != null)
            {
                var enabledControls = await wrapper.ListEnabledControlsAsync(ouArn);
                Console.WriteLine("\nListing enabled controls:");
                for (int i = 0; i < enabledControls.Count; i++)
                {
                    Console.WriteLine($"{i + 1}. {enabledControls[i].ControlIdentifier}");
                }

                // Find first non-enabled control
                var enabledControlArns = enabledControls.Select(c => c.Arn).ToHashSet();
                var controlArn = controls.FirstOrDefault(c => !enabledControlArns.Contains(c.Arn))?.Arn;

                if (controlArn != null)
                {
                    Console.Write($"\nDo you want to enable the control {controlArn}? (y/n): ");
                    if (GetUserConfirmation())
                    {
                        Console.WriteLine($"\nEnabling control: {controlArn}");
                        var operationId = await wrapper.EnableControlAsync(controlArn, ouArn);
                        if (operationId != null)
                        {
                            Console.WriteLine($"Enabled control with operation id: {operationId}");

                            Console.Write("\nDo you want to disable the control? (y/n): ");
                            if (GetUserConfirmation())
                            {
                                Console.WriteLine("\nDisabling the control...");
                                var disableOpId = await wrapper.DisableControlAsync(controlArn, ouArn);
                                Console.WriteLine($"Disable operation ID: {disableOpId}");
                            }
                        }
                    }
                }
            }

            Console.WriteLine("\nThis concludes the example scenario.");
            Console.WriteLine("Thanks for watching!");
            Console.WriteLine(new string('-', 88));
        }
        catch (Exception ex)
        {
            logger.LogError(ex, "An error occurred during the Control Tower scenario.");
            Console.WriteLine($"An error occurred: {ex.Message}");
        }
    }

    /// <summary>
    /// Sets up AWS Organizations and creates or finds a Sandbox OU.
    /// </summary>
    /// <returns>The ARN of the Sandbox organizational unit.</returns>
    private static async Task<string> SetupOrganizationAsync()
    {
        Console.WriteLine("\nChecking organization status...");

        try
        {
            var orgResponse = await orgClient!.DescribeOrganizationAsync(new DescribeOrganizationRequest());
            var orgId = orgResponse.Organization.Id;
            Console.WriteLine($"Account is part of organization: {orgId}");
        }
        catch (AWSOrganizationsNotInUseException)
        {
            Console.WriteLine("No organization found. Creating a new organization...");
            var createResponse = await orgClient!.CreateOrganizationAsync(new CreateOrganizationRequest { FeatureSet = OrganizationFeatureSet.ALL });
            var orgId = createResponse.Organization.Id;
            Console.WriteLine($"Created new organization: {orgId}");
        }

        // Look for Sandbox OU
        var roots = await orgClient.ListRootsAsync(new ListRootsRequest());
        var rootId = roots.Roots[0].Id;

        Console.WriteLine("Checking for Sandbox OU...");
        var ous = await orgClient.ListOrganizationalUnitsForParentAsync(new ListOrganizationalUnitsForParentRequest { ParentId = rootId });
        var sandboxOu = ous.OrganizationalUnits.FirstOrDefault(ou => ou.Name == "Sandbox");

        if (sandboxOu == null)
        {
            Console.WriteLine("Creating Sandbox OU...");
            var createOuResponse = await orgClient.CreateOrganizationalUnitAsync(new CreateOrganizationalUnitRequest { ParentId = rootId, Name = "Sandbox" });
            sandboxOu = createOuResponse.OrganizationalUnit;
            Console.WriteLine($"Created new Sandbox OU: {sandboxOu.Id}");
        }
        else
        {
            Console.WriteLine($"Found existing Sandbox OU: {sandboxOu.Id}");
        }

        return sandboxOu.Arn;
    }

    /// <summary>
    /// Gets user confirmation by waiting for input or returning true if not interactive.
    /// </summary>
    /// <returns>True if user enters 'y' or if isInteractive is false, otherwise false.</returns>
    private static bool GetUserConfirmation()
    {
        return Console.ReadLine()?.ToLower() == "y" || !isInteractive;
    }
}
```
Metode pembungkus yang dipanggil oleh skenario untuk mengelola tindakan Aurora.  

```
using Amazon.ControlCatalog;
using Amazon.ControlCatalog.Model;
using Amazon.ControlTower;
using Amazon.ControlTower.Model;
using ValidationException = Amazon.ControlTower.Model.ValidationException;

namespace ControlTowerActions;

/// <summary>
/// Methods to perform AWS Control Tower actions.
/// </summary>
public class ControlTowerWrapper
{
    private readonly IAmazonControlTower _controlTowerService;
    private readonly IAmazonControlCatalog _controlCatalogService;

    /// <summary>
    /// Constructor for the wrapper class containing AWS Control Tower actions.
    /// </summary>
    /// <param name="controlTowerService">The AWS Control Tower client object.</param>
    /// <param name="controlCatalogService">The AWS Control Catalog client object.</param>
    public ControlTowerWrapper(IAmazonControlTower controlTowerService, IAmazonControlCatalog controlCatalogService)
    {
        _controlTowerService = controlTowerService;
        _controlCatalogService = controlCatalogService;
    }

    /// <summary>
    /// List the AWS Control Tower landing zones for an account.
    /// </summary>
    /// <returns>A list of LandingZoneSummary objects.</returns>
    public async Task<List<LandingZoneSummary>> ListLandingZonesAsync()
    {
        try
        {
            var landingZones = new List<LandingZoneSummary>();

            var landingZonesPaginator = _controlTowerService.Paginators.ListLandingZones(new ListLandingZonesRequest());

            await foreach (var response in landingZonesPaginator.Responses)
            {
                landingZones.AddRange(response.LandingZones);
            }

            return landingZones;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't list landing zones. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// List all baselines.
    /// </summary>
    /// <returns>A list of baseline summaries.</returns>
    public async Task<List<BaselineSummary>> ListBaselinesAsync()
    {
        try
        {
            var baselines = new List<BaselineSummary>();

            var baselinesPaginator = _controlTowerService.Paginators.ListBaselines(new ListBaselinesRequest());

            await foreach (var response in baselinesPaginator.Responses)
            {
                baselines.AddRange(response.Baselines);
            }

            return baselines;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't list baselines. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// List all enabled baselines.
    /// </summary>
    /// <returns>A list of enabled baseline summaries.</returns>
    public async Task<List<EnabledBaselineSummary>> ListEnabledBaselinesAsync()
    {
        try
        {
            var enabledBaselines = new List<EnabledBaselineSummary>();

            var enabledBaselinesPaginator = _controlTowerService.Paginators.ListEnabledBaselines(new ListEnabledBaselinesRequest());

            await foreach (var response in enabledBaselinesPaginator.Responses)
            {
                enabledBaselines.AddRange(response.EnabledBaselines);
            }

            return enabledBaselines;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't list enabled baselines. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Enable a baseline for the specified target.
    /// </summary>
    /// <param name="targetIdentifier">The ARN of the target.</param>
    /// <param name="baselineIdentifier">The identifier of baseline to enable.</param>
    /// <param name="baselineVersion">The version of baseline to enable.</param>
    /// <param name="identityCenterBaseline">The identifier of identity center baseline if it is enabled.</param>
    /// <returns>The enabled baseline ARN or null.</returns>
    public async Task<string?> EnableBaselineAsync(string targetIdentifier, string baselineIdentifier, string baselineVersion, string identityCenterBaseline)
    {
        try
        {
            var parameters = new List<EnabledBaselineParameter>();
            if (!string.IsNullOrEmpty(identityCenterBaseline))
            {
                parameters.Add(
                    new EnabledBaselineParameter
                    {
                        Key = "IdentityCenterEnabledBaselineArn",
                        Value = identityCenterBaseline
                    });
            }
            var request = new EnableBaselineRequest
            {
                BaselineIdentifier = baselineIdentifier,
                BaselineVersion = baselineVersion,
                TargetIdentifier = targetIdentifier,
                Parameters = parameters
            };

            var response = await _controlTowerService.EnableBaselineAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetBaselineOperationAsync(operationId);
                Console.WriteLine($"Baseline operation status: {status}");
                if (status == BaselineOperationStatus.SUCCEEDED || status == BaselineOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return response.Arn;
        }
        catch (ValidationException ex)
        {
            if (ex.Message.Contains("already enabled"))
                Console.WriteLine("Baseline is already enabled for this target");
            else { Console.WriteLine(ex.Message); }
            // Write the message and return null if baseline cannot be enabled.
            return null;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't enable baseline. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Disable a baseline for a specific target and wait for the operation to complete.
    /// </summary>
    /// <param name="enabledBaselineIdentifier">The identifier of the baseline to disable.</param>
    /// <returns>The operation ID or null if there was a conflict.</returns>
    public async Task<string?> DisableBaselineAsync(string enabledBaselineIdentifier)
    {
        try
        {
            var request = new DisableBaselineRequest
            {
                EnabledBaselineIdentifier = enabledBaselineIdentifier
            };

            var response = await _controlTowerService.DisableBaselineAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetBaselineOperationAsync(operationId);
                Console.WriteLine($"Baseline operation status: {status}");
                if (status == BaselineOperationStatus.SUCCEEDED || status == BaselineOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return operationId;
        }
        catch (ConflictException ex)
        {
            Console.WriteLine($"Conflict disabling baseline: {ex.Message}. Skipping disable step.");
            return null;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't disable baseline. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Reset an enabled baseline for a specific target.
    /// </summary>
    /// <param name="enabledBaselineIdentifier">The identifier of the enabled baseline to reset.</param>
    /// <returns>The operation ID.</returns>
    public async Task<string> ResetEnabledBaselineAsync(string enabledBaselineIdentifier)
    {
        try
        {
            var request = new ResetEnabledBaselineRequest
            {
                EnabledBaselineIdentifier = enabledBaselineIdentifier
            };

            var response = await _controlTowerService.ResetEnabledBaselineAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetBaselineOperationAsync(operationId);
                Console.WriteLine($"Baseline operation status: {status}");
                if (status == BaselineOperationStatus.SUCCEEDED || status == BaselineOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return operationId;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException)
        {
            Console.WriteLine("Target not found, unable to reset enabled baseline.");
            throw;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't reset enabled baseline. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Get the status of a baseline operation.
    /// </summary>
    /// <param name="operationId">The ID of the baseline operation.</param>
    /// <returns>The operation status.</returns>
    public async Task<BaselineOperationStatus> GetBaselineOperationAsync(string operationId)
    {
        try
        {
            var request = new GetBaselineOperationRequest
            {
                OperationIdentifier = operationId
            };

            var response = await _controlTowerService.GetBaselineOperationAsync(request);
            return response.BaselineOperation.Status;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException)
        {
            Console.WriteLine("Operation not found.");
            throw;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't get baseline operation status. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// List enabled controls for a target organizational unit.
    /// </summary>
    /// <param name="targetIdentifier">The target organizational unit identifier.</param>
    /// <returns>A list of enabled control summaries.</returns>
    public async Task<List<EnabledControlSummary>> ListEnabledControlsAsync(string targetIdentifier)
    {
        try
        {
            var request = new ListEnabledControlsRequest
            {
                TargetIdentifier = targetIdentifier
            };

            var enabledControls = new List<EnabledControlSummary>();

            var enabledControlsPaginator = _controlTowerService.Paginators.ListEnabledControls(request);

            await foreach (var response in enabledControlsPaginator.Responses)
            {
                enabledControls.AddRange(response.EnabledControls);
            }

            return enabledControls;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException ex) when (ex.Message.Contains("not registered with AWS Control Tower"))
        {
            Console.WriteLine("AWS Control Tower must be enabled to work with enabling controls.");
            return new List<EnabledControlSummary>();
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't list enabled controls. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Enable a control for a specified target.
    /// </summary>
    /// <param name="controlArn">The ARN of the control to enable.</param>
    /// <param name="targetIdentifier">The identifier of the target (e.g., OU ARN).</param>
    /// <returns>The operation ID or null if already enabled.</returns>
    public async Task<string?> EnableControlAsync(string controlArn, string targetIdentifier)
    {
        try
        {
            Console.WriteLine(controlArn);
            Console.WriteLine(targetIdentifier);

            var request = new EnableControlRequest
            {
                ControlIdentifier = controlArn,
                TargetIdentifier = targetIdentifier
            };

            var response = await _controlTowerService.EnableControlAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetControlOperationAsync(operationId);
                Console.WriteLine($"Control operation status: {status}");
                if (status == ControlOperationStatus.SUCCEEDED || status == ControlOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return operationId;
        }
        catch (Amazon.ControlTower.Model.ValidationException ex) when (ex.Message.Contains("already enabled"))
        {
            Console.WriteLine("Control is already enabled for this target");
            return null;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException ex) when (ex.Message.Contains("not registered with AWS Control Tower"))
        {
            Console.WriteLine("AWS Control Tower must be enabled to work with enabling controls.");
            return null;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't enable control. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Disable a control for a specified target.
    /// </summary>
    /// <param name="controlArn">The ARN of the control to disable.</param>
    /// <param name="targetIdentifier">The identifier of the target (e.g., OU ARN).</param>
    /// <returns>The operation ID.</returns>
    public async Task<string> DisableControlAsync(string controlArn, string targetIdentifier)
    {
        try
        {
            var request = new DisableControlRequest
            {
                ControlIdentifier = controlArn,
                TargetIdentifier = targetIdentifier
            };

            var response = await _controlTowerService.DisableControlAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetControlOperationAsync(operationId);
                Console.WriteLine($"Control operation status: {status}");
                if (status == ControlOperationStatus.SUCCEEDED || status == ControlOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return operationId;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException)
        {
            Console.WriteLine("Control not found.");
            throw;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't disable control. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// Get the status of a control operation.
    /// </summary>
    /// <param name="operationId">The ID of the control operation.</param>
    /// <returns>The operation status.</returns>
    public async Task<ControlOperationStatus> GetControlOperationAsync(string operationId)
    {
        try
        {
            var request = new GetControlOperationRequest
            {
                OperationIdentifier = operationId
            };

            var response = await _controlTowerService.GetControlOperationAsync(request);
            return response.ControlOperation.Status;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException)
        {
            Console.WriteLine("Operation not found.");
            throw;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't get control operation status. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }


    /// <summary>
    /// List all controls in the Control Tower control catalog.
    /// </summary>
    /// <returns>A list of control summaries.</returns>
    public async Task<List<ControlSummary>> ListControlsAsync()
    {
        try
        {
            var controls = new List<ControlSummary>();

            var controlsPaginator = _controlCatalogService.Paginators.ListControls(new Amazon.ControlCatalog.Model.ListControlsRequest());

            await foreach (var response in controlsPaginator.Responses)
            {
                controls.AddRange(response.Controls);
            }

            return controls;
        }
        catch (AmazonControlCatalogException ex)
        {
            Console.WriteLine($"Couldn't list controls. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateLandingZone](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/CreateLandingZone)
  + [DeleteLandingZone](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/DeleteLandingZone)
  + [DisableBaseline](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/DisableBaseline)
  + [DisableControl](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/DisableControl)
  + [EnableBaseline](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/EnableBaseline)
  + [EnableControl](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/EnableControl)
  + [GetControlOperation](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/GetControlOperation)
  + [GetLandingZoneOperation](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/GetLandingZoneOperation)
  + [ListBaselines](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListBaselines)
  + [ListEnabledBaselines](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListEnabledBaselines)
  + [ListEnabledControls](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListEnabledControls)
  + [ListLandingZones](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListLandingZones)
  + [ResetEnabledBaseline](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ResetEnabledBaseline)

## Tindakan
<a name="actions"></a>

### `DisableBaseline`
<a name="controltower_DisableBaseline_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableBaseline`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// Disable a baseline for a specific target and wait for the operation to complete.
    /// </summary>
    /// <param name="enabledBaselineIdentifier">The identifier of the baseline to disable.</param>
    /// <returns>The operation ID or null if there was a conflict.</returns>
    public async Task<string?> DisableBaselineAsync(string enabledBaselineIdentifier)
    {
        try
        {
            var request = new DisableBaselineRequest
            {
                EnabledBaselineIdentifier = enabledBaselineIdentifier
            };

            var response = await _controlTowerService.DisableBaselineAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetBaselineOperationAsync(operationId);
                Console.WriteLine($"Baseline operation status: {status}");
                if (status == BaselineOperationStatus.SUCCEEDED || status == BaselineOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return operationId;
        }
        catch (ConflictException ex)
        {
            Console.WriteLine($"Conflict disabling baseline: {ex.Message}. Skipping disable step.");
            return null;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't disable baseline. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DisableBaseline](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/DisableBaseline)di *Referensi AWS SDK untuk .NET API*. 

### `DisableControl`
<a name="controltower_DisableControl_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableControl`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// Disable a control for a specified target.
    /// </summary>
    /// <param name="controlArn">The ARN of the control to disable.</param>
    /// <param name="targetIdentifier">The identifier of the target (e.g., OU ARN).</param>
    /// <returns>The operation ID.</returns>
    public async Task<string> DisableControlAsync(string controlArn, string targetIdentifier)
    {
        try
        {
            var request = new DisableControlRequest
            {
                ControlIdentifier = controlArn,
                TargetIdentifier = targetIdentifier
            };

            var response = await _controlTowerService.DisableControlAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetControlOperationAsync(operationId);
                Console.WriteLine($"Control operation status: {status}");
                if (status == ControlOperationStatus.SUCCEEDED || status == ControlOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return operationId;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException)
        {
            Console.WriteLine("Control not found.");
            throw;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't disable control. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DisableControl](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/DisableControl)di *Referensi AWS SDK untuk .NET API*. 

### `EnableBaseline`
<a name="controltower_EnableBaseline_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableBaseline`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// Enable a baseline for the specified target.
    /// </summary>
    /// <param name="targetIdentifier">The ARN of the target.</param>
    /// <param name="baselineIdentifier">The identifier of baseline to enable.</param>
    /// <param name="baselineVersion">The version of baseline to enable.</param>
    /// <param name="identityCenterBaseline">The identifier of identity center baseline if it is enabled.</param>
    /// <returns>The enabled baseline ARN or null.</returns>
    public async Task<string?> EnableBaselineAsync(string targetIdentifier, string baselineIdentifier, string baselineVersion, string identityCenterBaseline)
    {
        try
        {
            var parameters = new List<EnabledBaselineParameter>();
            if (!string.IsNullOrEmpty(identityCenterBaseline))
            {
                parameters.Add(
                    new EnabledBaselineParameter
                    {
                        Key = "IdentityCenterEnabledBaselineArn",
                        Value = identityCenterBaseline
                    });
            }
            var request = new EnableBaselineRequest
            {
                BaselineIdentifier = baselineIdentifier,
                BaselineVersion = baselineVersion,
                TargetIdentifier = targetIdentifier,
                Parameters = parameters
            };

            var response = await _controlTowerService.EnableBaselineAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetBaselineOperationAsync(operationId);
                Console.WriteLine($"Baseline operation status: {status}");
                if (status == BaselineOperationStatus.SUCCEEDED || status == BaselineOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return response.Arn;
        }
        catch (ValidationException ex)
        {
            if (ex.Message.Contains("already enabled"))
                Console.WriteLine("Baseline is already enabled for this target");
            else { Console.WriteLine(ex.Message); }
            // Write the message and return null if baseline cannot be enabled.
            return null;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't enable baseline. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [EnableBaseline](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/EnableBaseline)di *Referensi AWS SDK untuk .NET API*. 

### `EnableControl`
<a name="controltower_EnableControl_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableControl`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// Enable a control for a specified target.
    /// </summary>
    /// <param name="controlArn">The ARN of the control to enable.</param>
    /// <param name="targetIdentifier">The identifier of the target (e.g., OU ARN).</param>
    /// <returns>The operation ID or null if already enabled.</returns>
    public async Task<string?> EnableControlAsync(string controlArn, string targetIdentifier)
    {
        try
        {
            Console.WriteLine(controlArn);
            Console.WriteLine(targetIdentifier);

            var request = new EnableControlRequest
            {
                ControlIdentifier = controlArn,
                TargetIdentifier = targetIdentifier
            };

            var response = await _controlTowerService.EnableControlAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetControlOperationAsync(operationId);
                Console.WriteLine($"Control operation status: {status}");
                if (status == ControlOperationStatus.SUCCEEDED || status == ControlOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return operationId;
        }
        catch (Amazon.ControlTower.Model.ValidationException ex) when (ex.Message.Contains("already enabled"))
        {
            Console.WriteLine("Control is already enabled for this target");
            return null;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException ex) when (ex.Message.Contains("not registered with AWS Control Tower"))
        {
            Console.WriteLine("AWS Control Tower must be enabled to work with enabling controls.");
            return null;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't enable control. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [EnableControl](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/EnableControl)di *Referensi AWS SDK untuk .NET API*. 

### `GetBaselineOperation`
<a name="controltower_GetBaselineOperation_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBaselineOperation`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// Get the status of a baseline operation.
    /// </summary>
    /// <param name="operationId">The ID of the baseline operation.</param>
    /// <returns>The operation status.</returns>
    public async Task<BaselineOperationStatus> GetBaselineOperationAsync(string operationId)
    {
        try
        {
            var request = new GetBaselineOperationRequest
            {
                OperationIdentifier = operationId
            };

            var response = await _controlTowerService.GetBaselineOperationAsync(request);
            return response.BaselineOperation.Status;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException)
        {
            Console.WriteLine("Operation not found.");
            throw;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't get baseline operation status. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [GetBaselineOperation](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/GetBaselineOperation)di *Referensi AWS SDK untuk .NET API*. 

### `GetControlOperation`
<a name="controltower_GetControlOperation_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetControlOperation`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// Get the status of a control operation.
    /// </summary>
    /// <param name="operationId">The ID of the control operation.</param>
    /// <returns>The operation status.</returns>
    public async Task<ControlOperationStatus> GetControlOperationAsync(string operationId)
    {
        try
        {
            var request = new GetControlOperationRequest
            {
                OperationIdentifier = operationId
            };

            var response = await _controlTowerService.GetControlOperationAsync(request);
            return response.ControlOperation.Status;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException)
        {
            Console.WriteLine("Operation not found.");
            throw;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't get control operation status. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [GetControlOperation](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/GetControlOperation)di *Referensi AWS SDK untuk .NET API*. 

### `ListBaselines`
<a name="controltower_ListBaselines_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBaselines`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// List all baselines.
    /// </summary>
    /// <returns>A list of baseline summaries.</returns>
    public async Task<List<BaselineSummary>> ListBaselinesAsync()
    {
        try
        {
            var baselines = new List<BaselineSummary>();

            var baselinesPaginator = _controlTowerService.Paginators.ListBaselines(new ListBaselinesRequest());

            await foreach (var response in baselinesPaginator.Responses)
            {
                baselines.AddRange(response.Baselines);
            }

            return baselines;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't list baselines. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [ListBaselines](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListBaselines)di *Referensi AWS SDK untuk .NET API*. 

### `ListEnabledBaselines`
<a name="controltower_ListEnabledBaselines_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEnabledBaselines`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// List all enabled baselines.
    /// </summary>
    /// <returns>A list of enabled baseline summaries.</returns>
    public async Task<List<EnabledBaselineSummary>> ListEnabledBaselinesAsync()
    {
        try
        {
            var enabledBaselines = new List<EnabledBaselineSummary>();

            var enabledBaselinesPaginator = _controlTowerService.Paginators.ListEnabledBaselines(new ListEnabledBaselinesRequest());

            await foreach (var response in enabledBaselinesPaginator.Responses)
            {
                enabledBaselines.AddRange(response.EnabledBaselines);
            }

            return enabledBaselines;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't list enabled baselines. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [ListEnabledBaselines](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListEnabledBaselines)di *Referensi AWS SDK untuk .NET API*. 

### `ListEnabledControls`
<a name="controltower_ListEnabledControls_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEnabledControls`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// List enabled controls for a target organizational unit.
    /// </summary>
    /// <param name="targetIdentifier">The target organizational unit identifier.</param>
    /// <returns>A list of enabled control summaries.</returns>
    public async Task<List<EnabledControlSummary>> ListEnabledControlsAsync(string targetIdentifier)
    {
        try
        {
            var request = new ListEnabledControlsRequest
            {
                TargetIdentifier = targetIdentifier
            };

            var enabledControls = new List<EnabledControlSummary>();

            var enabledControlsPaginator = _controlTowerService.Paginators.ListEnabledControls(request);

            await foreach (var response in enabledControlsPaginator.Responses)
            {
                enabledControls.AddRange(response.EnabledControls);
            }

            return enabledControls;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException ex) when (ex.Message.Contains("not registered with AWS Control Tower"))
        {
            Console.WriteLine("AWS Control Tower must be enabled to work with enabling controls.");
            return new List<EnabledControlSummary>();
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't list enabled controls. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [ListEnabledControls](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListEnabledControls)di *Referensi AWS SDK untuk .NET API*. 

### `ListLandingZones`
<a name="controltower_ListLandingZones_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLandingZones`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// List the AWS Control Tower landing zones for an account.
    /// </summary>
    /// <returns>A list of LandingZoneSummary objects.</returns>
    public async Task<List<LandingZoneSummary>> ListLandingZonesAsync()
    {
        try
        {
            var landingZones = new List<LandingZoneSummary>();

            var landingZonesPaginator = _controlTowerService.Paginators.ListLandingZones(new ListLandingZonesRequest());

            await foreach (var response in landingZonesPaginator.Responses)
            {
                landingZones.AddRange(response.LandingZones);
            }

            return landingZones;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't list landing zones. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [ListLandingZones](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ListLandingZones)di *Referensi AWS SDK untuk .NET API*. 

### `ResetEnabledBaseline`
<a name="controltower_ResetEnabledBaseline_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResetEnabledBaseline`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ControlTower#code-examples). 

```
    /// <summary>
    /// Reset an enabled baseline for a specific target.
    /// </summary>
    /// <param name="enabledBaselineIdentifier">The identifier of the enabled baseline to reset.</param>
    /// <returns>The operation ID.</returns>
    public async Task<string> ResetEnabledBaselineAsync(string enabledBaselineIdentifier)
    {
        try
        {
            var request = new ResetEnabledBaselineRequest
            {
                EnabledBaselineIdentifier = enabledBaselineIdentifier
            };

            var response = await _controlTowerService.ResetEnabledBaselineAsync(request);
            var operationId = response.OperationIdentifier;

            // Wait for operation to complete
            while (true)
            {
                var status = await GetBaselineOperationAsync(operationId);
                Console.WriteLine($"Baseline operation status: {status}");
                if (status == BaselineOperationStatus.SUCCEEDED || status == BaselineOperationStatus.FAILED)
                {
                    break;
                }
                await Task.Delay(30000); // Wait 30 seconds
            }

            return operationId;
        }
        catch (Amazon.ControlTower.Model.ResourceNotFoundException)
        {
            Console.WriteLine("Target not found, unable to reset enabled baseline.");
            throw;
        }
        catch (AmazonControlTowerException ex)
        {
            Console.WriteLine($"Couldn't reset enabled baseline. Here's why: {ex.ErrorCode}: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [ResetEnabledBaseline](https://docs.aws.amazon.com/goto/DotNetSDKV4/controltower-2018-05-10/ResetEnabledBaseline)di *Referensi AWS SDK untuk .NET API*. 

# Contoh SDK untuk .NET DynamoDB menggunakan (v4)
<a name="csharp_4_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo DynamoDB
<a name="dynamodb_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan DynamoDB.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
using Amazon.DynamoDBv2;
using Amazon.DynamoDBv2.Model;
using Microsoft.Extensions.DependencyInjection;

namespace DynamoDBActions;

/// <summary>
/// A simple example that demonstrates basic DynamoDB operations.
/// </summary>
public class HelloDynamoDB
{
    /// <summary>
    /// HelloDynamoDB lists the existing DynamoDB tables for the default user.
    /// </summary>
    /// <param name="args">Command line arguments</param>
    /// <returns>Async task.</returns>
    static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon DynamoDB.
        using var host = Microsoft.Extensions.Hosting.Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonDynamoDB>()
            )
            .Build();

        // Now the client is available for injection.
        var dynamoDbClient = host.Services.GetRequiredService<IAmazonDynamoDB>();

        try
        {
            var request = new ListTablesRequest();
            var tableNames = new List<string>();

            var paginatorForTables = dynamoDbClient.Paginators.ListTables(request);

            await foreach (var tableName in paginatorForTables.TableNames)
            {
                tableNames.Add(tableName);
            }

            Console.WriteLine("Welcome to the DynamoDB Hello Service example. " +
                              "\nLet's list your DynamoDB tables:");
            tableNames.ForEach(table =>
            {
                Console.WriteLine($"Table: {table}");
            });
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB service error occurred while listing tables. {ex.Message}");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while listing tables. {ex.Message}");
        }
    }
}
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_csharp_4_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
/// <summary>
/// This example application performs the following basic Amazon DynamoDB
/// functions:
///     CreateTableAsync
///     PutItemAsync
///     UpdateItemAsync
///     BatchWriteItemAsync
///     GetItemAsync
///     DeleteItemAsync
///     Query
///     Scan
///     DeleteItemAsync.
/// </summary>
public class DynamoDbBasics
{
    public static bool IsInteractive = true;

    // Separator for the console display.
    private static readonly string SepBar = new string('-', 80);

    /// <summary>
    /// The main entry point for the DynamoDB Basics example application.
    /// </summary>
    /// <param name="args">Command line arguments.</param>
    /// <returns>A task representing the asynchronous operation.</returns>
    public static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon DynamoDB.
        using var host = Microsoft.Extensions.Hosting.Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonDynamoDB>()
                    .AddTransient<DynamoDbWrapper>())
            .Build();

        // Now the wrapper is available for injection.
        var dynamoDbWrapper = host.Services.GetRequiredService<DynamoDbWrapper>();

        var tableName = "movie_table";

        var movieFileName = @"movies.json";

        DisplayInstructions();

        // Create a new table and wait for it to be active.
        Console.WriteLine($"Creating the new table: {tableName}");

        var success = await dynamoDbWrapper.CreateMovieTableAsync(tableName);

        Console.WriteLine(success
            ? $"\nTable: {tableName} successfully created."
            : $"\nCould not create {tableName}.");

        WaitForEnter();

        // Add a single new movie to the table.
        var newMovie = new Movie
        {
            Year = 2021,
            Title = "Spider-Man: No Way Home",
        };

        success = await dynamoDbWrapper.PutItemAsync(newMovie, tableName);
        if (success)
        {
            Console.WriteLine($"Added {newMovie.Title} to the table.");
        }
        else
        {
            Console.WriteLine("Could not add movie to table.");
        }

        WaitForEnter();

        // Update the new movie by adding a plot and rank.
        var newInfo = new MovieInfo
        {
            Plot = "With Spider-Man's identity now revealed, Peter asks" +
                   "Doctor Strange for help. When a spell goes wrong, dangerous" +
                   "foes from other worlds start to appear, forcing Peter to" +
                   "discover what it truly means to be Spider-Man.",
            Rank = 9,
        };

        success = await dynamoDbWrapper.UpdateItemAsync(newMovie, newInfo, tableName);
        if (success)
        {
            Console.WriteLine($"Successfully updated the movie: {newMovie.Title}");
        }
        else
        {
            Console.WriteLine("Could not update the movie.");
        }

        WaitForEnter();

        // Add a batch of movies to the DynamoDB table from a list of
        // movies in a JSON file.
        var itemCount = await dynamoDbWrapper.BatchWriteItemsAsync(movieFileName, tableName);
        Console.WriteLine($"Added {itemCount} movies to the table.");

        WaitForEnter();

        // Get a movie by key. (partition + sort)
        var lookupMovie = new Movie
        {
            Title = "Jurassic Park",
            Year = 1993,
        };

        Console.WriteLine("Looking for the movie \"Jurassic Park\".");
        var item = await dynamoDbWrapper.GetItemAsync(lookupMovie, tableName);
        if (item?.Count > 0)
        {
            dynamoDbWrapper.DisplayItem(item);
        }
        else
        {
            Console.WriteLine($"Couldn't find {lookupMovie.Title}");
        }

        WaitForEnter();

        // Delete a movie.
        var movieToDelete = new Movie
        {
            Title = "The Town",
            Year = 2010,
        };

        success = await dynamoDbWrapper.DeleteItemAsync(tableName, movieToDelete);

        if (success)
        {
            Console.WriteLine($"Successfully deleted {movieToDelete.Title}.");
        }
        else
        {
            Console.WriteLine($"Could not delete {movieToDelete.Title}.");
        }

        WaitForEnter();

        // Use Query to find all the movies released in 2010.
        int findYear = 2010;
        Console.WriteLine($"Movies released in {findYear}");
        var queryCount = await dynamoDbWrapper.QueryMoviesAsync(tableName, findYear);
        Console.WriteLine($"Found {queryCount} movies released in {findYear}");

        WaitForEnter();

        // Use Scan to get a list of movies from 2001 to 2011.
        int startYear = 2001;
        int endYear = 2011;
        var scanCount = await dynamoDbWrapper.ScanTableAsync(tableName, startYear, endYear);
        Console.WriteLine($"Found {scanCount} movies released between {startYear} and {endYear}");

        WaitForEnter();

        // Delete the table.
        success = await dynamoDbWrapper.DeleteTableAsync(tableName);

        if (success)
        {
            Console.WriteLine($"Successfully deleted {tableName}");
        }
        else
        {
            Console.WriteLine($"Could not delete {tableName}");
        }

        Console.WriteLine("The DynamoDB Basics example application is complete.");

        WaitForEnter();
    }

    /// <summary>
    /// Displays the description of the application on the console.
    /// </summary>
    private static void DisplayInstructions()
    {
        if (!IsInteractive)
        {
            return;
        }

        Console.Clear();
        Console.WriteLine();
        Console.Write(new string(' ', 28));
        Console.WriteLine("DynamoDB Basics Example");
        Console.WriteLine(SepBar);
        Console.WriteLine("This demo application shows the basics of using DynamoDB with the AWS SDK.");
        Console.WriteLine(SepBar);
        Console.WriteLine("The application does the following:");
        Console.WriteLine("\t1. Creates a table with partition: year and sort:title.");
        Console.WriteLine("\t2. Adds a single movie to the table.");
        Console.WriteLine("\t3. Adds movies to the table from moviedata.json.");
        Console.WriteLine("\t4. Updates the rating and plot of the movie that was just added.");
        Console.WriteLine("\t5. Gets a movie using its key (partition + sort).");
        Console.WriteLine("\t6. Deletes a movie.");
        Console.WriteLine("\t7. Uses QueryAsync to return all movies released in a given year.");
        Console.WriteLine("\t8. Uses ScanAsync to return all movies released within a range of years.");
        Console.WriteLine("\t9. Finally, it deletes the table that was just created.");
        WaitForEnter();
    }

    /// <summary>
    /// Simple method to wait for the Enter key to be pressed.
    /// </summary>
    private static void WaitForEnter()
    {
        if (IsInteractive)
        {
            Console.WriteLine("\nPress <Enter> to continue.");
            Console.WriteLine(SepBar);
            _ = Console.ReadLine();
        }
    }
}
```
Gunakan klien yang disuntikkan untuk operasi tabel.  

```
using System.Text.Json;
using Amazon.DynamoDBv2;
using Amazon.DynamoDBv2.DataModel;
using Amazon.DynamoDBv2.DocumentModel;
using Amazon.DynamoDBv2.Model;

namespace DynamoDBActions;

/// <summary>
/// Methods of this class perform Amazon DynamoDB operations.
/// </summary>
public class DynamoDbWrapper
{
    private readonly IAmazonDynamoDB _amazonDynamoDB;

    /// <summary>
    /// Constructor for the DynamoDbWrapper class.
    /// </summary>
    /// <param name="amazonDynamoDB">The injected DynamoDB client.</param>
    public DynamoDbWrapper(IAmazonDynamoDB amazonDynamoDB)
    {
        _amazonDynamoDB = amazonDynamoDB;
    }
```
Membuat tabel yang akan berisi data film.  

```
    /// <summary>
    /// Creates a new Amazon DynamoDB table and then waits for the new
    /// table to become active.
    /// </summary>
    /// <param name="tableName">The name of the table to create.</param>
    /// <returns>A Boolean value indicating the success of the operation.</returns>
    public async Task<bool> CreateMovieTableAsync(string tableName)
    {
        try
        {
            var response = await _amazonDynamoDB.CreateTableAsync(new CreateTableRequest
            {
                TableName = tableName,
                AttributeDefinitions = new List<AttributeDefinition>()
                {
                    new AttributeDefinition
                    {
                        AttributeName = "title",
                        AttributeType = ScalarAttributeType.S,
                    },
                    new AttributeDefinition
                    {
                        AttributeName = "year",
                        AttributeType = ScalarAttributeType.N,
                    },
                },
                KeySchema = new List<KeySchemaElement>()
                {
                    new KeySchemaElement
                    {
                        AttributeName = "year",
                        KeyType = KeyType.HASH,
                    },
                    new KeySchemaElement
                    {
                        AttributeName = "title",
                        KeyType = KeyType.RANGE,
                    },
                },
                BillingMode = BillingMode.PAY_PER_REQUEST,
            });

            // Wait until the table is ACTIVE and then report success.
            Console.Write("Waiting for table to become active...");

            var request = new DescribeTableRequest
            {
                TableName = response.TableDescription.TableName,
            };

            TableStatus status;

            int sleepDuration = 2000;

            do
            {
                Thread.Sleep(sleepDuration);

                var describeTableResponse = await _amazonDynamoDB.DescribeTableAsync(request);
                status = describeTableResponse.Table.TableStatus;

                Console.Write(".");
            }
            while (status != "ACTIVE");

            return status == TableStatus.ACTIVE;
        }
        catch (ResourceInUseException ex)
        {
            Console.WriteLine($"Table {tableName} already exists. {ex.Message}");
            throw;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while creating table {tableName}. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating table {tableName}. {ex.Message}");
            throw;
        }
    }
```
Menambahkan satu film ke tabel.  

```
    /// <summary>
    /// Adds a new item to the table.
    /// </summary>
    /// <param name="newMovie">A Movie object containing informtation for
    /// the movie to add to the table.</param>
    /// <param name="tableName">The name of the table where the item will be added.</param>
    /// <returns>A Boolean value that indicates the results of adding the item.</returns>
    public async Task<bool> PutItemAsync(Movie newMovie, string tableName)
    {
        try
        {
            var item = new Dictionary<string, AttributeValue>
            {
                ["title"] = new AttributeValue { S = newMovie.Title },
                ["year"] = new AttributeValue { N = newMovie.Year.ToString() },
            };

            var request = new PutItemRequest
            {
                TableName = tableName,
                Item = item,
            };

            await _amazonDynamoDB.PutItemAsync(request);
            return true;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return false;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while putting item. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while putting item. {ex.Message}");
            throw;
        }
    }
```
Memperbarui satu item dalam tabel.  

```
    /// <summary>
    /// Updates an existing item in the movies table.
    /// </summary>
    /// <param name="newMovie">A Movie object containing information for
    /// the movie to update.</param>
    /// <param name="newInfo">A MovieInfo object that contains the
    /// information that will be changed.</param>
    /// <param name="tableName">The name of the table that contains the movie.</param>
    /// <returns>A Boolean value that indicates the success of the operation.</returns>
    public async Task<bool> UpdateItemAsync(
        Movie newMovie,
        MovieInfo newInfo,
        string tableName)
    {
        try
        {
            var key = new Dictionary<string, AttributeValue>
            {
                ["title"] = new AttributeValue { S = newMovie.Title },
                ["year"] = new AttributeValue { N = newMovie.Year.ToString() },
            };
            var updates = new Dictionary<string, AttributeValueUpdate>
            {
                ["info.plot"] = new AttributeValueUpdate
                {
                    Action = AttributeAction.PUT,
                    Value = new AttributeValue { S = newInfo.Plot },
                },

                ["info.rating"] = new AttributeValueUpdate
                {
                    Action = AttributeAction.PUT,
                    Value = new AttributeValue { N = newInfo.Rank.ToString() },
                },
            };

            var request = new UpdateItemRequest
            {
                AttributeUpdates = updates,
                Key = key,
                TableName = tableName,
            };

            await _amazonDynamoDB.UpdateItemAsync(request);
            return true;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} or item was not found. {ex.Message}");
            return false;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while updating item. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while updating item. {ex.Message}");
            throw;
        }
    }
```
Mengambil satu item dari tabel film.  

```
    /// <summary>
    /// Gets information about an existing movie from the table.
    /// </summary>
    /// <param name="newMovie">A Movie object containing information about
    /// the movie to retrieve.</param>
    /// <param name="tableName">The name of the table containing the movie.</param>
    /// <returns>A Dictionary object containing information about the item
    /// retrieved.</returns>
    public async Task<Dictionary<string, AttributeValue>> GetItemAsync(Movie newMovie, string tableName)
    {
        try
        {
            var key = new Dictionary<string, AttributeValue>
            {
                ["title"] = new AttributeValue { S = newMovie.Title },
                ["year"] = new AttributeValue { N = newMovie.Year.ToString() },
            };

            var request = new GetItemRequest
            {
                Key = key,
                TableName = tableName,
            };

            var response = await _amazonDynamoDB.GetItemAsync(request);
            return response.Item;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return new Dictionary<string, AttributeValue>();
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while getting item. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while getting item. {ex.Message}");
            throw;
        }
    }
```
Menulis batch item ke tabel film.  

```
    /// <summary>
    /// Loads the contents of a JSON file into a list of movies to be
    /// added to the DynamoDB table.
    /// </summary>
    /// <param name="movieFileName">The name of the JSON file.</param>
    /// <returns>A generic list of movie objects.</returns>
    public List<Movie> ImportMovies(string movieFileName)
    {
        var moviesList = new List<Movie>();
        if (!File.Exists(movieFileName))
        {
            return moviesList;
        }

        using var sr = new StreamReader(movieFileName);
        string json = sr.ReadToEnd();
        var allMovies = JsonSerializer.Deserialize<List<Movie>>(
            json,
            new JsonSerializerOptions
            {
                PropertyNameCaseInsensitive = true
            });

        // Now return the first 250 entries.
        if (allMovies != null && allMovies.Any())
        {
            moviesList = allMovies.GetRange(0, 250);
        }
        return moviesList;
    }

    /// <summary>
    /// Writes 250 items to the movie table.
    /// </summary>
    /// <param name="movieFileName">A string containing the full path to
    /// the JSON file containing movie data.</param>
    /// <param name="tableName">The name of the table to write items to.</param>
    /// <returns>A long integer value representing the number of movies
    /// imported from the JSON file.</returns>
    public async Task<long> BatchWriteItemsAsync(
        string movieFileName, string tableName)
    {
        try
        {
            var movies = ImportMovies(movieFileName);
            if (!movies.Any())
            {
                Console.WriteLine("Couldn't find the JSON file with movie data.");
                return 0;
            }

            var context = new DynamoDBContextBuilder()
                // Optional call to provide a specific instance of IAmazonDynamoDB
                .WithDynamoDBClient(() => _amazonDynamoDB)
                .Build();

            var movieBatch = context.CreateBatchWrite<Movie>(
                new BatchWriteConfig()
                {
                    OverrideTableName = tableName
                });
            movieBatch.AddPutItems(movies);

            Console.WriteLine("Adding imported movies to the table.");
            await movieBatch.ExecuteAsync();

            return movies.Count;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table was not found during batch write operation. {ex.Message}");
            throw;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred during batch write operation. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred during batch write operation. {ex.Message}");
            throw;
        }
    }
```
Menghapus satu item dari tabel.  

```
    /// <summary>
    /// Deletes a single item from a DynamoDB table.
    /// </summary>
    /// <param name="tableName">The name of the table from which the item
    /// will be deleted.</param>
    /// <param name="movieToDelete">A movie object containing the title and
    /// year of the movie to delete.</param>
    /// <returns>A Boolean value indicating the success or failure of the
    /// delete operation.</returns>
    public async Task<bool> DeleteItemAsync(
        string tableName,
        Movie movieToDelete)
    {
        try
        {
            var key = new Dictionary<string, AttributeValue>
            {
                ["title"] = new AttributeValue { S = movieToDelete.Title },
                ["year"] = new AttributeValue { N = movieToDelete.Year.ToString() },
            };

            var request = new DeleteItemRequest { TableName = tableName, Key = key, };

            await _amazonDynamoDB.DeleteItemAsync(request);
            return true;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return false;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while deleting item. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting item. {ex.Message}");
            throw;
        }
    }
```
Melakukan kueri tabel untuk film yang dirilis pada tahun tertentu.  

```
    /// <summary>
    /// Queries the table for movies released in a particular year and
    /// then displays the information for the movies returned.
    /// </summary>
    /// <param name="tableName">The name of the table to query.</param>
    /// <param name="year">The release year for which we want to
    /// view movies.</param>
    /// <returns>The number of movies that match the query.</returns>
    public async Task<int> QueryMoviesAsync(string tableName, int year)
    {
        try
        {
            var movieTable = new TableBuilder(_amazonDynamoDB, tableName)
                .AddHashKey("year", DynamoDBEntryType.Numeric)
                .AddRangeKey("title", DynamoDBEntryType.String)
                .Build();

            var filter = new QueryFilter("year", QueryOperator.Equal, year);

            Console.WriteLine("\nFind movies released in: {year}:");

            var config = new QueryOperationConfig()
            {
                Limit = 10, // 10 items per page.
                Select = SelectValues.SpecificAttributes,
                AttributesToGet = new List<string>
                {
                    "title",
                    "year",
                },
                ConsistentRead = true,
                Filter = filter,
            };

            // Value used to track how many movies match the
            // supplied criteria.
            var moviesFound = 0;

            var search = movieTable.Query(config);
            do
            {
                var movieList = await search.GetNextSetAsync();
                moviesFound += movieList.Count;

                foreach (var movie in movieList)
                {
                    DisplayDocument(movie);
                }
            }
            while (!search.IsDone);

            return moviesFound;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return 0;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while querying movies. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while querying movies. {ex.Message}");
            throw;
        }
    }
```
Memindai tabel untuk film yang dirilis dalam suatu rentang tahun.  

```
    /// <summary>
    /// Scans the table for movies released between the specified years.
    /// </summary>
    /// <param name="tableName">The name of the table to scan.</param>
    /// <param name="startYear">The starting year for the range.</param>
    /// <param name="endYear">The ending year for the range.</param>
    /// <returns>The number of movies found in the specified year range.</returns>
    public async Task<int> ScanTableAsync(
        string tableName,
        int startYear,
        int endYear)
    {
        try
        {
            var request = new ScanRequest
            {
                TableName = tableName,
                ExpressionAttributeNames = new Dictionary<string, string>
                {
                    { "#yr", "year" },
                },
                ExpressionAttributeValues = new Dictionary<string, AttributeValue>
                {
                    { ":y_a", new AttributeValue { N = startYear.ToString() } },
                    { ":y_z", new AttributeValue { N = endYear.ToString() } },
                },
                FilterExpression = "#yr between :y_a and :y_z",
                ProjectionExpression = "#yr, title, info.actors[0], info.directors, info.running_time_secs",
                Limit = 10 // Set a limit to demonstrate using the LastEvaluatedKey.
            };

            // Keep track of how many movies were found.
            int foundCount = 0;

            var response = new ScanResponse();
            do
            {
                response = await _amazonDynamoDB.ScanAsync(request);
                foundCount += response.Items.Count;
                response.Items.ForEach(i => DisplayItem(i));
                request.ExclusiveStartKey = response.LastEvaluatedKey;
            }
            while (response?.LastEvaluatedKey?.Count > 0);
            return foundCount;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return 0;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while scanning table. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while scanning table. {ex.Message}");
            throw;
        }
    }
```
Menghapus tabel film.  

```
    /// <summary>
    /// Deletes a DynamoDB table.
    /// </summary>
    /// <param name="tableName">The name of the table to delete.</param>
    /// <returns>A Boolean value indicating the success of the operation.</returns>
    public async Task<bool> DeleteTableAsync(string tableName)
    {
        try
        {
            var request = new DeleteTableRequest
            {
                TableName = tableName,
            };

            var response = await _amazonDynamoDB.DeleteTableAsync(request);

            Console.WriteLine($"Table {response.TableDescription.TableName} successfully deleted.");
            return true;

        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found and cannot be deleted. {ex.Message}");
            return false;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while deleting table {tableName}. {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting table {tableName}. {ex.Message}");
            return false;
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [BatchWriteItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/BatchWriteItem)
  + [CreateTable](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/CreateTable)
  + [DeleteItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/DeleteItem)
  + [DeleteTable](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/Scan)
  + [UpdateItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/UpdateItem)

## Tindakan
<a name="actions"></a>

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 
Menulis batch item ke tabel film.  

```
    /// <summary>
    /// Loads the contents of a JSON file into a list of movies to be
    /// added to the DynamoDB table.
    /// </summary>
    /// <param name="movieFileName">The name of the JSON file.</param>
    /// <returns>A generic list of movie objects.</returns>
    public List<Movie> ImportMovies(string movieFileName)
    {
        var moviesList = new List<Movie>();
        if (!File.Exists(movieFileName))
        {
            return moviesList;
        }

        using var sr = new StreamReader(movieFileName);
        string json = sr.ReadToEnd();
        var allMovies = JsonSerializer.Deserialize<List<Movie>>(
            json,
            new JsonSerializerOptions
            {
                PropertyNameCaseInsensitive = true
            });

        // Now return the first 250 entries.
        if (allMovies != null && allMovies.Any())
        {
            moviesList = allMovies.GetRange(0, 250);
        }
        return moviesList;
    }

    /// <summary>
    /// Writes 250 items to the movie table.
    /// </summary>
    /// <param name="movieFileName">A string containing the full path to
    /// the JSON file containing movie data.</param>
    /// <param name="tableName">The name of the table to write items to.</param>
    /// <returns>A long integer value representing the number of movies
    /// imported from the JSON file.</returns>
    public async Task<long> BatchWriteItemsAsync(
        string movieFileName, string tableName)
    {
        try
        {
            var movies = ImportMovies(movieFileName);
            if (!movies.Any())
            {
                Console.WriteLine("Couldn't find the JSON file with movie data.");
                return 0;
            }

            var context = new DynamoDBContextBuilder()
                // Optional call to provide a specific instance of IAmazonDynamoDB
                .WithDynamoDBClient(() => _amazonDynamoDB)
                .Build();

            var movieBatch = context.CreateBatchWrite<Movie>(
                new BatchWriteConfig()
                {
                    OverrideTableName = tableName
                });
            movieBatch.AddPutItems(movies);

            Console.WriteLine("Adding imported movies to the table.");
            await movieBatch.ExecuteAsync();

            return movies.Count;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table was not found during batch write operation. {ex.Message}");
            throw;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred during batch write operation. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred during batch write operation. {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/BatchWriteItem)di *Referensi AWS SDK untuk .NET API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
    /// <summary>
    /// Creates a new Amazon DynamoDB table and then waits for the new
    /// table to become active.
    /// </summary>
    /// <param name="tableName">The name of the table to create.</param>
    /// <returns>A Boolean value indicating the success of the operation.</returns>
    public async Task<bool> CreateMovieTableAsync(string tableName)
    {
        try
        {
            var response = await _amazonDynamoDB.CreateTableAsync(new CreateTableRequest
            {
                TableName = tableName,
                AttributeDefinitions = new List<AttributeDefinition>()
                {
                    new AttributeDefinition
                    {
                        AttributeName = "title",
                        AttributeType = ScalarAttributeType.S,
                    },
                    new AttributeDefinition
                    {
                        AttributeName = "year",
                        AttributeType = ScalarAttributeType.N,
                    },
                },
                KeySchema = new List<KeySchemaElement>()
                {
                    new KeySchemaElement
                    {
                        AttributeName = "year",
                        KeyType = KeyType.HASH,
                    },
                    new KeySchemaElement
                    {
                        AttributeName = "title",
                        KeyType = KeyType.RANGE,
                    },
                },
                BillingMode = BillingMode.PAY_PER_REQUEST,
            });

            // Wait until the table is ACTIVE and then report success.
            Console.Write("Waiting for table to become active...");

            var request = new DescribeTableRequest
            {
                TableName = response.TableDescription.TableName,
            };

            TableStatus status;

            int sleepDuration = 2000;

            do
            {
                Thread.Sleep(sleepDuration);

                var describeTableResponse = await _amazonDynamoDB.DescribeTableAsync(request);
                status = describeTableResponse.Table.TableStatus;

                Console.Write(".");
            }
            while (status != "ACTIVE");

            return status == TableStatus.ACTIVE;
        }
        catch (ResourceInUseException ex)
        {
            Console.WriteLine($"Table {tableName} already exists. {ex.Message}");
            throw;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while creating table {tableName}. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while creating table {tableName}. {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/CreateTable)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
    /// <summary>
    /// Deletes a single item from a DynamoDB table.
    /// </summary>
    /// <param name="tableName">The name of the table from which the item
    /// will be deleted.</param>
    /// <param name="movieToDelete">A movie object containing the title and
    /// year of the movie to delete.</param>
    /// <returns>A Boolean value indicating the success or failure of the
    /// delete operation.</returns>
    public async Task<bool> DeleteItemAsync(
        string tableName,
        Movie movieToDelete)
    {
        try
        {
            var key = new Dictionary<string, AttributeValue>
            {
                ["title"] = new AttributeValue { S = movieToDelete.Title },
                ["year"] = new AttributeValue { N = movieToDelete.Year.ToString() },
            };

            var request = new DeleteItemRequest { TableName = tableName, Key = key, };

            await _amazonDynamoDB.DeleteItemAsync(request);
            return true;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return false;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while deleting item. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting item. {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/DeleteItem)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
    /// <summary>
    /// Deletes a DynamoDB table.
    /// </summary>
    /// <param name="tableName">The name of the table to delete.</param>
    /// <returns>A Boolean value indicating the success of the operation.</returns>
    public async Task<bool> DeleteTableAsync(string tableName)
    {
        try
        {
            var request = new DeleteTableRequest
            {
                TableName = tableName,
            };

            var response = await _amazonDynamoDB.DeleteTableAsync(request);

            Console.WriteLine($"Table {response.TableDescription.TableName} successfully deleted.");
            return true;

        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found and cannot be deleted. {ex.Message}");
            return false;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while deleting table {tableName}. {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while deleting table {tableName}. {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/DeleteTable)di *Referensi AWS SDK untuk .NET API*. 

### `GetItem`
<a name="dynamodb_GetItem_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
    /// <summary>
    /// Gets information about an existing movie from the table.
    /// </summary>
    /// <param name="newMovie">A Movie object containing information about
    /// the movie to retrieve.</param>
    /// <param name="tableName">The name of the table containing the movie.</param>
    /// <returns>A Dictionary object containing information about the item
    /// retrieved.</returns>
    public async Task<Dictionary<string, AttributeValue>> GetItemAsync(Movie newMovie, string tableName)
    {
        try
        {
            var key = new Dictionary<string, AttributeValue>
            {
                ["title"] = new AttributeValue { S = newMovie.Title },
                ["year"] = new AttributeValue { N = newMovie.Year.ToString() },
            };

            var request = new GetItemRequest
            {
                Key = key,
                TableName = tableName,
            };

            var response = await _amazonDynamoDB.GetItemAsync(request);
            return response.Item;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return new Dictionary<string, AttributeValue>();
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while getting item. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while getting item. {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/GetItem)di *Referensi AWS SDK untuk .NET API*. 

### `PutItem`
<a name="dynamodb_PutItem_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
    /// <summary>
    /// Adds a new item to the table.
    /// </summary>
    /// <param name="newMovie">A Movie object containing informtation for
    /// the movie to add to the table.</param>
    /// <param name="tableName">The name of the table where the item will be added.</param>
    /// <returns>A Boolean value that indicates the results of adding the item.</returns>
    public async Task<bool> PutItemAsync(Movie newMovie, string tableName)
    {
        try
        {
            var item = new Dictionary<string, AttributeValue>
            {
                ["title"] = new AttributeValue { S = newMovie.Title },
                ["year"] = new AttributeValue { N = newMovie.Year.ToString() },
            };

            var request = new PutItemRequest
            {
                TableName = tableName,
                Item = item,
            };

            await _amazonDynamoDB.PutItemAsync(request);
            return true;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return false;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while putting item. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while putting item. {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/PutItem)di *Referensi AWS SDK untuk .NET API*. 

### `Query`
<a name="dynamodb_Query_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
    /// <summary>
    /// Queries the table for movies released in a particular year and
    /// then displays the information for the movies returned.
    /// </summary>
    /// <param name="tableName">The name of the table to query.</param>
    /// <param name="year">The release year for which we want to
    /// view movies.</param>
    /// <returns>The number of movies that match the query.</returns>
    public async Task<int> QueryMoviesAsync(string tableName, int year)
    {
        try
        {
            var movieTable = new TableBuilder(_amazonDynamoDB, tableName)
                .AddHashKey("year", DynamoDBEntryType.Numeric)
                .AddRangeKey("title", DynamoDBEntryType.String)
                .Build();

            var filter = new QueryFilter("year", QueryOperator.Equal, year);

            Console.WriteLine("\nFind movies released in: {year}:");

            var config = new QueryOperationConfig()
            {
                Limit = 10, // 10 items per page.
                Select = SelectValues.SpecificAttributes,
                AttributesToGet = new List<string>
                {
                    "title",
                    "year",
                },
                ConsistentRead = true,
                Filter = filter,
            };

            // Value used to track how many movies match the
            // supplied criteria.
            var moviesFound = 0;

            var search = movieTable.Query(config);
            do
            {
                var movieList = await search.GetNextSetAsync();
                moviesFound += movieList.Count;

                foreach (var movie in movieList)
                {
                    DisplayDocument(movie);
                }
            }
            while (!search.IsDone);

            return moviesFound;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return 0;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while querying movies. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while querying movies. {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk .NET *. 

### `Scan`
<a name="dynamodb_Scan_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
    /// <summary>
    /// Scans the table for movies released between the specified years.
    /// </summary>
    /// <param name="tableName">The name of the table to scan.</param>
    /// <param name="startYear">The starting year for the range.</param>
    /// <param name="endYear">The ending year for the range.</param>
    /// <returns>The number of movies found in the specified year range.</returns>
    public async Task<int> ScanTableAsync(
        string tableName,
        int startYear,
        int endYear)
    {
        try
        {
            var request = new ScanRequest
            {
                TableName = tableName,
                ExpressionAttributeNames = new Dictionary<string, string>
                {
                    { "#yr", "year" },
                },
                ExpressionAttributeValues = new Dictionary<string, AttributeValue>
                {
                    { ":y_a", new AttributeValue { N = startYear.ToString() } },
                    { ":y_z", new AttributeValue { N = endYear.ToString() } },
                },
                FilterExpression = "#yr between :y_a and :y_z",
                ProjectionExpression = "#yr, title, info.actors[0], info.directors, info.running_time_secs",
                Limit = 10 // Set a limit to demonstrate using the LastEvaluatedKey.
            };

            // Keep track of how many movies were found.
            int foundCount = 0;

            var response = new ScanResponse();
            do
            {
                response = await _amazonDynamoDB.ScanAsync(request);
                foundCount += response.Items.Count;
                response.Items.ForEach(i => DisplayItem(i));
                request.ExclusiveStartKey = response.LastEvaluatedKey;
            }
            while (response?.LastEvaluatedKey?.Count > 0);
            return foundCount;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} was not found. {ex.Message}");
            return 0;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while scanning table. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while scanning table. {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/Scan) di *Referensi API AWS SDK untuk .NET *. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/DynamoDB#code-examples). 

```
    /// <summary>
    /// Updates an existing item in the movies table.
    /// </summary>
    /// <param name="newMovie">A Movie object containing information for
    /// the movie to update.</param>
    /// <param name="newInfo">A MovieInfo object that contains the
    /// information that will be changed.</param>
    /// <param name="tableName">The name of the table that contains the movie.</param>
    /// <returns>A Boolean value that indicates the success of the operation.</returns>
    public async Task<bool> UpdateItemAsync(
        Movie newMovie,
        MovieInfo newInfo,
        string tableName)
    {
        try
        {
            var key = new Dictionary<string, AttributeValue>
            {
                ["title"] = new AttributeValue { S = newMovie.Title },
                ["year"] = new AttributeValue { N = newMovie.Year.ToString() },
            };
            var updates = new Dictionary<string, AttributeValueUpdate>
            {
                ["info.plot"] = new AttributeValueUpdate
                {
                    Action = AttributeAction.PUT,
                    Value = new AttributeValue { S = newInfo.Plot },
                },

                ["info.rating"] = new AttributeValueUpdate
                {
                    Action = AttributeAction.PUT,
                    Value = new AttributeValue { N = newInfo.Rank.ToString() },
                },
            };

            var request = new UpdateItemRequest
            {
                AttributeUpdates = updates,
                Key = key,
                TableName = tableName,
            };

            await _amazonDynamoDB.UpdateItemAsync(request);
            return true;
        }
        catch (ResourceNotFoundException ex)
        {
            Console.WriteLine($"Table {tableName} or item was not found. {ex.Message}");
            return false;
        }
        catch (AmazonDynamoDBException ex)
        {
            Console.WriteLine($"An Amazon DynamoDB error occurred while updating item. {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while updating item. {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/DotNetSDKV4/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon EC2 menggunakan SDK untuk .NET (v4)
<a name="csharp_4_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Amazon EC2.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/EC2#code-examples). 

```
namespace EC2Actions;

public class HelloEc2
{
    /// <summary>
    /// HelloEc2 lists the existing security groups for the default users.
    /// </summary>
    /// <param name="args">Command line arguments</param>
    /// <returns>Async task.</returns>
    static async Task Main(string[] args)
    {
        // Set up dependency injection for Amazon Elastic Compute Cloud (Amazon EC2).
        using var host = Microsoft.Extensions.Hosting.Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonEC2>()
                .AddTransient<EC2Wrapper>()
            )
            .Build();

        // Now the client is available for injection.
        var ec2Client = host.Services.GetRequiredService<IAmazonEC2>();

        try
        {
            // Retrieve information for up to 10 Amazon EC2 security groups.
            var request = new DescribeSecurityGroupsRequest { MaxResults = 10 };
            var securityGroups = new List<SecurityGroup>();

            var paginatorForSecurityGroups =
                ec2Client.Paginators.DescribeSecurityGroups(request);

            await foreach (var securityGroup in paginatorForSecurityGroups.SecurityGroups)
            {
                securityGroups.Add(securityGroup);
            }

            // Now print the security groups returned by the call to
            // DescribeSecurityGroupsAsync.
            Console.WriteLine("Welcome to the EC2 Hello Service example. " +
                              "\nLet's list your Security Groups:");
            securityGroups.ForEach(group =>
            {
                Console.WriteLine(
                    $"Security group: {group.GroupName} ID: {group.GroupId}");
            });
        }
        catch (AmazonEC2Exception ex)
        {
            Console.WriteLine($"An Amazon EC2 service error occurred while listing security groups. {ex.Message}");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred while listing security groups. {ex.Message}");
        }
    }
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/DotNetSDKV4/ec2-2016-11-15/DescribeSecurityGroups)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon ECS menggunakan SDK untuk .NET (v4)
<a name="csharp_4_ecs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Amazon ECS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)

## Memulai
<a name="get_started"></a>

### Halo Amazon ECS
<a name="ecs_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon ECS.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/ECS#code-examples). 

```
using Amazon.ECS;
using Amazon.ECS.Model;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Console;
using Microsoft.Extensions.Logging.Debug;

namespace ECSActions;

/// <summary>
/// A class that introduces the Amazon ECS Client by listing the
/// cluster ARNs for the account.
/// </summary>
public class HelloECS
{
    static async System.Threading.Tasks.Task Main(string[] args)
    {
        // Use the AWS .NET Core Setup package to set up dependency injection for the Amazon ECS client.
        // Use your AWS profile name, or leave it blank to use the default profile.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureLogging(logging =>
                logging.AddFilter("System", LogLevel.Debug)
                    .AddFilter<DebugLoggerProvider>("Microsoft", LogLevel.Information)
                    .AddFilter<ConsoleLoggerProvider>("Microsoft", LogLevel.Trace))
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonECS>()
            )
            .Build();

        var amazonECSClient = host.Services.GetRequiredService<IAmazonECS>();

        Console.WriteLine($"Hello Amazon ECS! Following are some cluster ARNS available in the your account");
        Console.WriteLine();

        var clusters = new List<string>();

        var clustersPaginator = amazonECSClient.Paginators.ListClusters(new ListClustersRequest());

        await foreach (var response in clustersPaginator.Responses)
        {
            clusters.AddRange(response.ClusterArns);
        }

        if (clusters.Count > 0)
        {
            clusters.ForEach(cluster =>
            {
                Console.WriteLine($"\tARN: {cluster}");
                Console.WriteLine($"Cluster Name: {cluster.Split("/").Last()}");
                Console.WriteLine();
            });
        }
        else
        {
            Console.WriteLine("No clusters were found.");
        }

    }
}
```
+  Untuk detail API, lihat [ListClusters](https://docs.aws.amazon.com/goto/DotNetSDKV4/ecs-2014-11-13/ListClusters)di *Referensi AWS SDK untuk .NET API*. 

# AWS IoT contoh menggunakan SDK untuk .NET (v4)
<a name="csharp_4_iot_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan AWS IoT.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT
<a name="iot_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
/// <summary>
/// Hello AWS IoT example.
/// </summary>
public class HelloIoT
{
    /// <summary>
    /// Main method to run the Hello IoT example.
    /// </summary>
    /// <param name="args">Command line arguments.</param>
    /// <returns>A Task object.</returns>
    public static async Task Main(string[] args)
    {
        var iotClient = new AmazonIoTClient();

        try
        {
            Console.WriteLine("Hello AWS IoT! Let's list your IoT Things:");
            Console.WriteLine(new string('-', 80));

            // Use pages of 10.
            var request = new ListThingsRequest()
            {
                MaxResults = 10
            };
            var response = await iotClient.ListThingsAsync(request);

            // Since there is not a built-in paginator, use the NextMarker to paginate.
            bool hasMoreResults = true;

            var things = new List<ThingAttribute>();
            while (hasMoreResults)
            {
                things.AddRange(response.Things);

                // If NextMarker is not null, there are more results. Get the next page of results.
                if (!String.IsNullOrEmpty(response.NextMarker))
                {
                    request.Marker = response.NextMarker;
                    response = await iotClient.ListThingsAsync(request);
                }
                else
                    hasMoreResults = false;
            }

            if (things is { Count: > 0 })
            {
                Console.WriteLine($"Found {things.Count} IoT Things:");
                foreach (var thing in things)
                {
                    Console.WriteLine($"- Thing Name: {thing.ThingName}");
                    Console.WriteLine($"  Thing ARN: {thing.ThingArn}");
                    Console.WriteLine($"  Thing Type: {thing.ThingTypeName ?? "No type specified"}");
                    Console.WriteLine($"  Version: {thing.Version}");

                    if (thing.Attributes?.Count > 0)
                    {
                        Console.WriteLine("  Attributes:");
                        foreach (var attr in thing.Attributes)
                        {
                            Console.WriteLine($"    {attr.Key}: {attr.Value}");
                        }
                    }
                    Console.WriteLine();
                }
            }
            else
            {
                Console.WriteLine("No IoT Things found in your account.");
                Console.WriteLine("You can create IoT Things using the IoT Basics scenario example.");
            }

            Console.WriteLine("Hello IoT completed successfully.");
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            Console.WriteLine($"Request throttled, please try again later: {ex.Message}");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't list Things. Here's why: {ex.Message}");
        }
    }
}
```
+  Untuk detail API, lihat [ListThings](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/listThings) di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iot_Scenario_csharp_4_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat AWS IoT Sesuatu.
+ Hasilkan sertifikat perangkat.
+ Perbarui AWS IoT Sesuatu dengan Atribut.
+ Kembalikan titik akhir yang unik.
+ Buat daftar AWS IoT sertifikat Anda.
+ Perbarui AWS IoT bayangan.
+ Tuliskan informasi negara.
+ Menciptakan aturan.
+ Buat daftar aturan Anda.
+ Cari sesuatu menggunakan nama Thing.
+ Hapus AWS IoT sesuatu.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS IoT fitur.  

```
/// <summary>
/// Scenario class for AWS IoT basics.
/// </summary>
public class IoTBasics
{
    public static bool IsInteractive = true;
    public static IoTWrapper? Wrapper = null;
    public static IAmazonCloudFormation? CloudFormationClient = null;
    public static ILogger<IoTBasics> logger = null!;
    private static IoTWrapper _iotWrapper = null!;
    private static IAmazonCloudFormation _amazonCloudFormation = null!;
    private static ILogger<IoTBasics> _logger = null!;

    private static string _stackName = "IoTBasicsStack";
    private static string _stackResourcePath = "../../../../../../scenarios/basics/iot/iot_usecase/resources/cfn_template.yaml";

    /// <summary>
    /// Main method for the IoT Basics scenario.
    /// </summary>
    /// <param name="args">Command line arguments.</param>
    /// <returns>A Task object.</returns>
    public static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonIoT>(new AWSOptions() { Region = RegionEndpoint.USEast1 })
                    .AddAWSService<IAmazonCloudFormation>()
                        .AddTransient<IoTWrapper>()
                        .AddLogging(builder => builder.AddConsole())
                        .AddSingleton<IAmazonIotData>(sp =>
                        {
                            var iotService = sp.GetRequiredService<IAmazonIoT>();
                            var request = new DescribeEndpointRequest
                            {
                                EndpointType = "iot:Data-ATS"
                            };
                            var response = iotService.DescribeEndpointAsync(request).Result;
                            return new AmazonIotDataClient($"https://{response.EndpointAddress}/");
                        })
            )
            .Build();

        logger = LoggerFactory.Create(builder => builder.AddConsole())
            .CreateLogger<IoTBasics>();

        Wrapper = host.Services.GetRequiredService<IoTWrapper>();
        CloudFormationClient = host.Services.GetRequiredService<IAmazonCloudFormation>();

        // Set the private fields for backwards compatibility
        _logger = logger;
        _iotWrapper = Wrapper;
        _amazonCloudFormation = CloudFormationClient;

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("Welcome to the AWS IoT example scenario.");
        Console.WriteLine("This example program demonstrates various interactions with the AWS Internet of Things (IoT) Core service.");
        Console.WriteLine();
        if (IsInteractive)
        {
            Console.WriteLine("Press Enter to continue...");
            Console.ReadLine();
        }
        Console.WriteLine(new string('-', 80));

        try
        {
            await RunScenarioAsync();
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "There was a problem running the scenario.");
            Console.WriteLine($"\nAn error occurred: {ex.Message}");
        }

        Console.WriteLine(new string('-', 80));
        Console.WriteLine("The AWS IoT scenario has successfully completed.");
        Console.WriteLine(new string('-', 80));
    }

    /// <summary>
    /// Run the IoT Basics scenario.
    /// </summary>
    /// <returns>A Task object.</returns>
    public static async Task RunScenarioAsync()
    {
        // Use static properties if available, otherwise use private fields
        var iotWrapper = Wrapper ?? _iotWrapper;
        var cloudFormationClient = CloudFormationClient ?? _amazonCloudFormation;
        var scenarioLogger = logger ?? _logger;

        await RunScenarioInternalAsync(iotWrapper, cloudFormationClient, scenarioLogger);
    }

    /// <summary>
    /// Internal method to run the IoT Basics scenario with injected dependencies.
    /// </summary>
    /// <param name="iotWrapper">The IoT wrapper instance.</param>
    /// <param name="cloudFormationClient">The CloudFormation client instance.</param>
    /// <param name="scenarioLogger">The logger instance.</param>
    /// <returns>A Task object.</returns>
    private static async Task RunScenarioInternalAsync(IoTWrapper iotWrapper, IAmazonCloudFormation cloudFormationClient, ILogger<IoTBasics> scenarioLogger)
    {
        string thingName = $"iot-thing-{Guid.NewGuid():N}";
        string certificateArn = "";
        string certificateId = "";
        string ruleName = $"iotruledefault";
        string snsTopicArn = "";

        try
        {
            // Step 1: Create an AWS IoT Thing
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("1. Create an AWS IoT Thing.");
            Console.WriteLine("An AWS IoT Thing represents a virtual entity in the AWS IoT service that can be associated with a physical device.");
            Console.WriteLine();

            if (IsInteractive)
            {
                Console.Write("Enter Thing name: ");
                var userInput = Console.ReadLine();
                if (!string.IsNullOrEmpty(userInput))
                    thingName = userInput;
            }
            else
            {
                Console.WriteLine($"Using default Thing name: {thingName}");
            }

            var thingArn = await iotWrapper.CreateThingAsync(thingName);
            Console.WriteLine($"{thingName} was successfully created. The ARN value is {thingArn}");
            Console.WriteLine(new string('-', 80));

            // Step 1.1: List AWS IoT Things
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("2. List AWS IoT Things.");
            Console.WriteLine("Now let's list the IoT Things to see the Thing we just created.");
            Console.WriteLine();
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }

            var things = await iotWrapper.ListThingsAsync();
            Console.WriteLine($"Found {things.Count} IoT Things:");
            foreach (var thing in things.Take(10)) // Show first 10 things
            {
                Console.WriteLine($"Thing Name: {thing.ThingName}");
                Console.WriteLine($"Thing ARN: {thing.ThingArn}");
                if (thing.Attributes != null && thing.Attributes.Any())
                {
                    Console.WriteLine("Attributes:");
                    foreach (var attr in thing.Attributes)
                    {
                        Console.WriteLine($"  {attr.Key}: {attr.Value}");
                    }
                }
                Console.WriteLine("--------------");
            }
            Console.WriteLine();
            Console.WriteLine(new string('-', 80));

            // Step 2: Generate a Device Certificate
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("3. Generate a device certificate.");
            Console.WriteLine("A device certificate performs a role in securing the communication between devices (Things) and the AWS IoT platform.");
            Console.WriteLine();

            var createCert = "y";
            if (IsInteractive)
            {
                Console.Write($"Do you want to create a certificate for {thingName}? (y/n)");
                createCert = Console.ReadLine();
            }
            else
            {
                Console.WriteLine($"Creating certificate for {thingName}...");
            }

            if (createCert?.ToLower() == "y")
            {
                var certificateResult = await iotWrapper.CreateKeysAndCertificateAsync();
                if (certificateResult.HasValue)
                {
                    var (certArn, certPem, certId) = certificateResult.Value;
                    certificateArn = certArn;
                    certificateId = certId;

                    Console.WriteLine($"\nCertificate:");
                    // Show only first few lines of certificate for brevity
                    var lines = certPem.Split('\n');
                    for (int i = 0; i < Math.Min(lines.Length, 5); i++)
                    {
                        Console.WriteLine(lines[i]);
                    }
                    if (lines.Length > 5)
                    {
                        Console.WriteLine("...");
                    }

                    Console.WriteLine($"\nCertificate ARN:");
                    Console.WriteLine(certificateArn);

                    // Step 3: Attach the Certificate to the AWS IoT Thing
                    Console.WriteLine("Attach the certificate to the AWS IoT Thing.");
                    var attachResult = await iotWrapper.AttachThingPrincipalAsync(thingName, certificateArn);
                    if (attachResult)
                    {
                        Console.WriteLine("Certificate attached to Thing successfully.");
                    }
                    else
                    {
                        Console.WriteLine("Failed to attach certificate to Thing.");
                    }

                    Console.WriteLine("Thing Details:");
                    Console.WriteLine($"Thing Name: {thingName}");
                    Console.WriteLine($"Thing ARN: {thingArn}");
                }
                else
                {
                    Console.WriteLine("Failed to create certificate.");
                }
            }
            Console.WriteLine(new string('-', 80));

            // Step 4: Update an AWS IoT Thing with Attributes
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("4. Update an AWS IoT Thing with Attributes.");
            Console.WriteLine("IoT Thing attributes, represented as key-value pairs, offer a pivotal advantage in facilitating efficient data");
            Console.WriteLine("management and retrieval within the AWS IoT ecosystem.");
            Console.WriteLine();
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }

            var attributes = new Dictionary<string, string>
            {
                { "Location", "Seattle" },
                { "DeviceType", "Sensor" },
                { "Firmware", "1.2.3" }
            };

            await iotWrapper.UpdateThingAsync(thingName, attributes);
            Console.WriteLine("Thing attributes updated successfully.");
            Console.WriteLine(new string('-', 80));

            // Step 5: Return a unique endpoint specific to the Amazon Web Services account
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("5. Return a unique endpoint specific to the Amazon Web Services account.");
            Console.WriteLine();
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }

            var endpoint = await iotWrapper.DescribeEndpointAsync();
            if (endpoint != null)
            {
                var subdomain = endpoint.Split('.')[0];
                Console.WriteLine($"Extracted subdomain: {subdomain}");
                Console.WriteLine($"Full Endpoint URL: https://{endpoint}");
            }
            else
            {
                Console.WriteLine("Failed to retrieve endpoint.");
            }
            Console.WriteLine(new string('-', 80));

            // Step 6: List your AWS IoT certificates
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("6. List your AWS IoT certificates");
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }

            var certificates = await iotWrapper.ListCertificatesAsync();
            foreach (var cert in certificates.Take(5)) // Show first 5 certificates
            {
                Console.WriteLine($"Cert id: {cert.CertificateId}");
                Console.WriteLine($"Cert Arn: {cert.CertificateArn}");
            }
            Console.WriteLine();
            Console.WriteLine(new string('-', 80));

            // Step 7: Create an IoT shadow
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("7. Update an IoT shadow that refers to a digital representation or virtual twin of a physical IoT device");
            Console.WriteLine();
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }

            var shadowPayload = JsonSerializer.Serialize(new
            {
                state = new
                {
                    desired = new
                    {
                        temperature = 25,
                        humidity = 50
                    }
                }
            });

            await iotWrapper.UpdateThingShadowAsync(thingName, shadowPayload);
            Console.WriteLine("Thing Shadow updated successfully.");
            Console.WriteLine(new string('-', 80));

            // Step 8: Write out the state information, in JSON format
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("8. Write out the state information, in JSON format.");
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }

            var shadowData = await iotWrapper.GetThingShadowAsync(thingName);
            Console.WriteLine($"Received Shadow Data: {shadowData}");
            Console.WriteLine(new string('-', 80));

            // Step 9: Set up resources (SNS topic and IAM role) and create a rule
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("9. Set up resources and create a rule");
            Console.WriteLine();

            // Deploy CloudFormation stack to create SNS topic and IAM role
            Console.WriteLine("Deploying CloudFormation stack to create SNS topic and IAM role...");

            var deployStack = !IsInteractive || GetYesNoResponse("Would you like to deploy the CloudFormation stack? (y/n) ");
            if (deployStack)
            {
                if (IsInteractive)
                {
                    Console.Write(
                        $"Enter stack resource file path (or press Enter for default '{_stackResourcePath}'): ");
                    var userResourcePath = Console.ReadLine();
                    if (!string.IsNullOrEmpty(userResourcePath))
                        _stackResourcePath = userResourcePath;
                }

                _stackName = PromptUserForStackName();

                var deploySuccess = await DeployCloudFormationStack(_stackName, cloudFormationClient, scenarioLogger);

                if (deploySuccess)
                {
                    // Get stack outputs
                    var stackOutputs = await GetStackOutputs(_stackName, cloudFormationClient, scenarioLogger);
                    if (stackOutputs != null)
                    {
                        snsTopicArn = stackOutputs["SNSTopicArn"];
                        string roleArn = stackOutputs["RoleArn"];

                        Console.WriteLine($"Successfully deployed stack. SNS topic: {snsTopicArn}");
                        Console.WriteLine($"Successfully deployed stack. IAM role: {roleArn}");

                        if (IsInteractive)
                        {
                            Console.Write($"Enter Rule name (press Enter for default '{ruleName}'): ");
                            var userRuleName = Console.ReadLine();
                            if (!string.IsNullOrEmpty(userRuleName))
                                ruleName = userRuleName;
                        }
                        else
                        {
                            Console.WriteLine($"Using default rule name: {ruleName}");
                        }

                        // Now create the IoT rule with the CloudFormation outputs
                        var ruleResult = await iotWrapper.CreateTopicRuleAsync(ruleName, snsTopicArn, roleArn);
                        if (ruleResult)
                        {
                            Console.WriteLine("IoT Rule created successfully.");
                        }
                        else
                        {
                            Console.WriteLine("Failed to create IoT rule.");
                        }
                    }
                    else
                    {
                        Console.WriteLine("Failed to get stack outputs. Skipping rule creation.");
                    }
                }
                else
                {
                    Console.WriteLine("Failed to deploy CloudFormation stack. Skipping rule creation.");
                }
            }
            else
            {
                Console.WriteLine("Skipping CloudFormation stack deployment and rule creation.");
            }
            Console.WriteLine(new string('-', 80));

            // Step 10: List your rules
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("10. List your rules.");
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }

            var rules = await iotWrapper.ListTopicRulesAsync();
            Console.WriteLine("List of IoT Rules:");
            foreach (var rule in rules.Take(5)) // Show first 5 rules
            {
                Console.WriteLine($"Rule Name: {rule.RuleName}");
                Console.WriteLine($"Rule ARN: {rule.RuleArn}");
                Console.WriteLine("--------------");
            }
            Console.WriteLine();
            Console.WriteLine(new string('-', 80));

            // Step 11: Search things using the Thing name
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("11. Search things using the Thing name.");
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }

            var searchResults = await iotWrapper.SearchIndexAsync($"thingName:{thingName}");
            if (searchResults.Any())
            {
                Console.WriteLine($"Thing id found using search is {searchResults.First().ThingId}");
            }
            else
            {
                Console.WriteLine($"No search results found for Thing: {thingName}");
            }
            Console.WriteLine(new string('-', 80));

            // Step 12: Cleanup - Detach and delete certificate
            if (!string.IsNullOrEmpty(certificateArn))
            {
                Console.WriteLine(new string('-', 80));
                var deleteCert = "y";
                if (IsInteractive)
                {
                    Console.Write($"Do you want to detach and delete the certificate for {thingName}? (y/n)");
                    deleteCert = Console.ReadLine();
                }
                else
                {
                    Console.WriteLine($"Detaching and deleting certificate for {thingName}...");
                }

                if (deleteCert?.ToLower() == "y")
                {
                    Console.WriteLine("12. You selected to detach and delete the certificate.");
                    if (IsInteractive)
                    {
                        Console.WriteLine("Press Enter to continue...");
                        Console.ReadLine();
                    }

                    await iotWrapper.DetachThingPrincipalAsync(thingName, certificateArn);
                    Console.WriteLine($"{certificateArn} was successfully removed from {thingName}");

                    await iotWrapper.DeleteCertificateAsync(certificateId);
                    Console.WriteLine($"{certificateArn} was successfully deleted.");
                }
                Console.WriteLine(new string('-', 80));
            }

            // Step 13: Delete the AWS IoT Thing
            Console.WriteLine(new string('-', 80));
            Console.WriteLine("13. Delete the AWS IoT Thing.");
            var deleteThing = "y";
            if (IsInteractive)
            {
                Console.Write($"Do you want to delete the IoT Thing? (y/n)");
                deleteThing = Console.ReadLine();
            }
            else
            {
                Console.WriteLine($"Deleting IoT Thing {thingName}...");
            }

            if (deleteThing?.ToLower() == "y")
            {
                await iotWrapper.DeleteThingAsync(thingName);
                Console.WriteLine($"Deleted Thing {thingName}");
            }
            Console.WriteLine(new string('-', 80));

            // Step 14: Clean up CloudFormation stack
            if (!string.IsNullOrEmpty(snsTopicArn))
            {
                Console.WriteLine(new string('-', 80));
                Console.WriteLine("14. Clean up CloudFormation stack.");
                Console.WriteLine("Deleting the CloudFormation stack and all resources...");

                var cleanup = !IsInteractive || GetYesNoResponse("Do you want to delete the CloudFormation stack and all resources? (y/n) ");
                if (cleanup)
                {
                    var ruleCleanupSuccess = await iotWrapper.DeleteTopicRuleAsync(ruleName);

                    var stackCleanupSuccess = await DeleteCloudFormationStack(_stackName, cloudFormationClient, scenarioLogger);
                    if (ruleCleanupSuccess && stackCleanupSuccess)
                    {
                        Console.WriteLine("Successfully cleaned up CloudFormation stack and all resources.");
                    }
                    else
                    {
                        Console.WriteLine("Some cleanup operations failed. Check the logs for details.");
                    }
                }
                else
                {
                    Console.WriteLine($"Resources will remain. Stack name: {_stackName}");
                }
                Console.WriteLine(new string('-', 80));
            }
        }
        catch (Exception ex)
        {
            scenarioLogger.LogError(ex, "Error occurred during scenario execution.");

            // Cleanup on error
            if (!string.IsNullOrEmpty(certificateArn) && !string.IsNullOrEmpty(thingName))
            {
                try
                {
                    await iotWrapper.DetachThingPrincipalAsync(thingName, certificateArn);
                    await iotWrapper.DeleteCertificateAsync(certificateId);
                }
                catch (Exception cleanupEx)
                {
                    scenarioLogger.LogError(cleanupEx, "Error during cleanup.");
                }
            }

            if (!string.IsNullOrEmpty(thingName))
            {
                try
                {
                    await iotWrapper.DeleteThingAsync(thingName);
                }
                catch (Exception cleanupEx)
                {
                    scenarioLogger.LogError(cleanupEx, "Error during Thing cleanup.");
                }
            }

            // Clean up CloudFormation stack on error
            if (!string.IsNullOrEmpty(snsTopicArn))
            {
                try
                {
                    await _iotWrapper.DeleteTopicRuleAsync(ruleName);
                    await DeleteCloudFormationStack(_stackName, cloudFormationClient, scenarioLogger);
                }
                catch (Exception cleanupEx)
                {
                    scenarioLogger.LogError(cleanupEx, "Error during CloudFormation stack cleanup.");
                }
            }

            throw;
        }
    }

    /// <summary>
    /// Deploys the CloudFormation stack with the necessary resources.
    /// </summary>
    /// <param name="stackName">The name of the CloudFormation stack.</param>
    /// <param name="cloudFormationClient">The CloudFormation client.</param>
    /// <param name="scenarioLogger">The logger.</param>
    /// <returns>True if the stack was deployed successfully.</returns>
    private static async Task<bool> DeployCloudFormationStack(string stackName, IAmazonCloudFormation cloudFormationClient, ILogger<IoTBasics> scenarioLogger)
    {
        Console.WriteLine($"\nDeploying CloudFormation stack: {stackName}");

        try
        {
            var request = new CreateStackRequest
            {
                StackName = stackName,
                TemplateBody = await File.ReadAllTextAsync(_stackResourcePath),
                Capabilities = new List<string> { Capability.CAPABILITY_NAMED_IAM }
            };

            var response = await cloudFormationClient.CreateStackAsync(request);

            if (response.HttpStatusCode == System.Net.HttpStatusCode.OK)
            {
                Console.WriteLine($"CloudFormation stack creation started: {stackName}");

                bool stackCreated = await WaitForStackCompletion(response.StackId, cloudFormationClient, scenarioLogger);

                if (stackCreated)
                {
                    Console.WriteLine("CloudFormation stack created successfully.");
                    return true;
                }
                else
                {
                    scenarioLogger.LogError($"CloudFormation stack creation failed: {stackName}");
                    return false;
                }
            }
            else
            {
                scenarioLogger.LogError($"Failed to create CloudFormation stack: {stackName}");
                return false;
            }
        }
        catch (AlreadyExistsException)
        {
            scenarioLogger.LogWarning($"CloudFormation stack '{stackName}' already exists. Please provide a unique name.");
            var newStackName = PromptUserForStackName();
            return await DeployCloudFormationStack(newStackName, cloudFormationClient, scenarioLogger);
        }
        catch (Exception ex)
        {
            scenarioLogger.LogError(ex, $"An error occurred while deploying the CloudFormation stack: {stackName}");
            return false;
        }
    }

    /// <summary>
    /// Waits for the CloudFormation stack to be in the CREATE_COMPLETE state.
    /// </summary>
    /// <param name="stackId">The ID of the CloudFormation stack.</param>
    /// <param name="cloudFormationClient">The CloudFormation client.</param>
    /// <param name="scenarioLogger">The logger.</param>
    /// <returns>True if the stack was created successfully.</returns>
    private static async Task<bool> WaitForStackCompletion(string stackId, IAmazonCloudFormation cloudFormationClient, ILogger<IoTBasics> scenarioLogger)
    {
        int retryCount = 0;
        const int maxRetries = 30;
        const int retryDelay = 10000;

        while (retryCount < maxRetries)
        {
            var describeStacksRequest = new DescribeStacksRequest
            {
                StackName = stackId
            };

            var describeStacksResponse = await cloudFormationClient.DescribeStacksAsync(describeStacksRequest);

            if (describeStacksResponse.Stacks.Count > 0)
            {
                if (describeStacksResponse.Stacks[0].StackStatus == StackStatus.CREATE_COMPLETE)
                {
                    return true;
                }
                if (describeStacksResponse.Stacks[0].StackStatus == StackStatus.CREATE_FAILED ||
                    describeStacksResponse.Stacks[0].StackStatus == StackStatus.ROLLBACK_COMPLETE)
                {
                    return false;
                }
            }

            Console.WriteLine("Waiting for CloudFormation stack creation to complete...");
            await Task.Delay(retryDelay);
            retryCount++;
        }

        scenarioLogger.LogError("Timed out waiting for CloudFormation stack creation to complete.");
        return false;
    }

    /// <summary>
    /// Gets the outputs from the CloudFormation stack.
    /// </summary>
    /// <param name="stackName">The name of the CloudFormation stack.</param>
    /// <param name="cloudFormationClient">The CloudFormation client.</param>
    /// <param name="scenarioLogger">The logger.</param>
    /// <returns>A dictionary of stack outputs.</returns>
    private static async Task<Dictionary<string, string>?> GetStackOutputs(string stackName, IAmazonCloudFormation cloudFormationClient, ILogger<IoTBasics> scenarioLogger)
    {
        try
        {
            var describeStacksRequest = new DescribeStacksRequest
            {
                StackName = stackName
            };

            var response = await cloudFormationClient.DescribeStacksAsync(describeStacksRequest);

            if (response.Stacks.Count > 0)
            {
                var outputs = new Dictionary<string, string>();
                foreach (var output in response.Stacks[0].Outputs)
                {
                    outputs[output.OutputKey] = output.OutputValue;
                }
                return outputs;
            }

            return null;
        }
        catch (Exception ex)
        {
            scenarioLogger.LogError(ex, $"Failed to get stack outputs for {stackName}");
            return null;
        }
    }

    /// <summary>
    /// Deletes the CloudFormation stack and waits for confirmation.
    /// </summary>
    /// <param name="stackName">The name of the CloudFormation stack.</param>
    /// <param name="cloudFormationClient">The CloudFormation client.</param>
    /// <param name="scenarioLogger">The logger.</param>
    /// <returns>True if the stack was deleted successfully.</returns>
    private static async Task<bool> DeleteCloudFormationStack(string stackName, IAmazonCloudFormation cloudFormationClient, ILogger<IoTBasics> scenarioLogger)
    {
        try
        {
            var request = new DeleteStackRequest
            {
                StackName = stackName
            };

            await cloudFormationClient.DeleteStackAsync(request);
            Console.WriteLine($"CloudFormation stack '{stackName}' is being deleted. This may take a few minutes.");

            bool stackDeleted = await WaitForStackDeletion(stackName, cloudFormationClient, scenarioLogger);

            if (stackDeleted)
            {
                Console.WriteLine($"CloudFormation stack '{stackName}' has been deleted.");
                return true;
            }
            else
            {
                scenarioLogger.LogError($"Failed to delete CloudFormation stack '{stackName}'.");
                return false;
            }
        }
        catch (Exception ex)
        {
            scenarioLogger.LogError(ex, $"An error occurred while deleting the CloudFormation stack: {stackName}");
            return false;
        }
    }

    /// <summary>
    /// Waits for the stack to be deleted.
    /// </summary>
    /// <param name="stackName">The name of the CloudFormation stack.</param>
    /// <param name="cloudFormationClient">The CloudFormation client.</param>
    /// <param name="scenarioLogger">The logger.</param>
    /// <returns>True if the stack was deleted successfully.</returns>
    private static async Task<bool> WaitForStackDeletion(string stackName, IAmazonCloudFormation cloudFormationClient, ILogger<IoTBasics> scenarioLogger)
    {
        int retryCount = 0;
        const int maxRetries = 30;
        const int retryDelay = 10000;

        while (retryCount < maxRetries)
        {
            var describeStacksRequest = new DescribeStacksRequest
            {
                StackName = stackName
            };

            try
            {
                var describeStacksResponse = await cloudFormationClient.DescribeStacksAsync(describeStacksRequest);

                if (describeStacksResponse.Stacks.Count == 0 ||
                    describeStacksResponse.Stacks[0].StackStatus == StackStatus.DELETE_COMPLETE)
                {
                    return true;
                }
            }
            catch (AmazonCloudFormationException ex) when (ex.ErrorCode == "ValidationError")
            {
                return true;
            }

            Console.WriteLine($"Waiting for CloudFormation stack '{stackName}' to be deleted...");
            await Task.Delay(retryDelay);
            retryCount++;
        }

        scenarioLogger.LogError($"Timed out waiting for CloudFormation stack '{stackName}' to be deleted.");
        return false;
    }

    /// <summary>
    /// Helper method to get a yes or no response from the user.
    /// </summary>
    private static bool GetYesNoResponse(string question)
    {
        Console.WriteLine(question);
        var ynResponse = Console.ReadLine();
        var response = ynResponse != null && ynResponse.Equals("y", StringComparison.InvariantCultureIgnoreCase);
        return response;
    }

    /// <summary>
    /// Prompts the user for a stack name.
    /// </summary>
    private static string PromptUserForStackName()
    {
        if (IsInteractive)
        {
            Console.Write($"Enter a name for the CloudFormation stack (press Enter for default '{_stackName}'): ");
            string? input = Console.ReadLine();
            if (!string.IsNullOrWhiteSpace(input))
            {
                var regex = new System.Text.RegularExpressions.Regex("[a-zA-Z][-a-zA-Z0-9]*");
                if (!regex.IsMatch(input))
                {
                    Console.WriteLine($"Invalid stack name. Using default: {_stackName}");
                    return _stackName;
                }
                return input;
            }
        }
        return _stackName;
    }
}
```
Kelas pembungkus untuk metode AWS IoT SDK.  

```
/// <summary>
/// Wrapper methods to use Amazon IoT Core with .NET.
/// </summary>
public class IoTWrapper
{
    private readonly IAmazonIoT _amazonIoT;
    private readonly IAmazonIotData _amazonIotData;
    private readonly ILogger<IoTWrapper> _logger;

    /// <summary>
    /// Constructor for the IoT wrapper.
    /// </summary>
    /// <param name="amazonIoT">The injected IoT client.</param>
    /// <param name="amazonIotData">The injected IoT Data client.</param>
    /// <param name="logger">The injected logger.</param>
    public IoTWrapper(IAmazonIoT amazonIoT, IAmazonIotData amazonIotData, ILogger<IoTWrapper> logger)
    {
        _amazonIoT = amazonIoT;
        _amazonIotData = amazonIotData;
        _logger = logger;
    }

    /// <summary>
    /// Creates an AWS IoT Thing.
    /// </summary>
    /// <param name="thingName">The name of the Thing to create.</param>
    /// <returns>The ARN of the Thing created, or null if creation failed.</returns>
    public async Task<string?> CreateThingAsync(string thingName)
    {
        try
        {
            var request = new CreateThingRequest
            {
                ThingName = thingName
            };

            var response = await _amazonIoT.CreateThingAsync(request);
            _logger.LogInformation($"Created Thing {thingName} with ARN {response.ThingArn}");
            return response.ThingArn;
        }
        catch (Amazon.IoT.Model.ResourceAlreadyExistsException ex)
        {
            _logger.LogWarning($"Thing {thingName} already exists: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't create Thing {thingName}. Here's why: {ex.Message}");
            return null;
        }
    }

    /// <summary>
    /// Creates a device certificate for AWS IoT.
    /// </summary>
    /// <returns>The certificate details including ARN and certificate PEM, or null if creation failed.</returns>
    public async Task<(string CertificateArn, string CertificatePem, string CertificateId)?> CreateKeysAndCertificateAsync()
    {
        try
        {
            var request = new CreateKeysAndCertificateRequest
            {
                SetAsActive = true
            };

            var response = await _amazonIoT.CreateKeysAndCertificateAsync(request);
            _logger.LogInformation($"Created certificate with ARN {response.CertificateArn}");
            return (response.CertificateArn, response.CertificatePem, response.CertificateId);
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't create certificate. Here's why: {ex.Message}");
            return null;
        }
    }

    /// <summary>
    /// Attaches a certificate to an IoT Thing.
    /// </summary>
    /// <param name="thingName">The name of the Thing.</param>
    /// <param name="certificateArn">The ARN of the certificate to attach.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> AttachThingPrincipalAsync(string thingName, string certificateArn)
    {
        try
        {
            var request = new AttachThingPrincipalRequest
            {
                ThingName = thingName,
                Principal = certificateArn
            };

            await _amazonIoT.AttachThingPrincipalAsync(request);
            _logger.LogInformation($"Attached certificate {certificateArn} to Thing {thingName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot attach certificate - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't attach certificate to Thing. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Updates an IoT Thing with attributes.
    /// </summary>
    /// <param name="thingName">The name of the Thing to update.</param>
    /// <param name="attributes">Dictionary of attributes to add.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> UpdateThingAsync(string thingName, Dictionary<string, string> attributes)
    {
        try
        {
            var request = new UpdateThingRequest
            {
                ThingName = thingName,
                AttributePayload = new AttributePayload
                {
                    Attributes = attributes,
                    Merge = true
                }
            };

            await _amazonIoT.UpdateThingAsync(request);
            _logger.LogInformation($"Updated Thing {thingName} with attributes");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot update Thing - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't update Thing attributes. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Gets the AWS IoT endpoint URL.
    /// </summary>
    /// <returns>The endpoint URL, or null if retrieval failed.</returns>
    public async Task<string?> DescribeEndpointAsync()
    {
        try
        {
            var request = new DescribeEndpointRequest
            {
                EndpointType = "iot:Data-ATS"
            };

            var response = await _amazonIoT.DescribeEndpointAsync(request);
            _logger.LogInformation($"Retrieved endpoint: {response.EndpointAddress}");
            return response.EndpointAddress;
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't describe endpoint. Here's why: {ex.Message}");
            return null;
        }
    }

    /// <summary>
    /// Lists all certificates associated with the account.
    /// </summary>
    /// <returns>List of certificate information, or empty list if listing failed.</returns>
    public async Task<List<Certificate>> ListCertificatesAsync()
    {
        try
        {
            var request = new ListCertificatesRequest();
            var response = await _amazonIoT.ListCertificatesAsync(request);

            _logger.LogInformation($"Retrieved {response.Certificates.Count} certificates");
            return response.Certificates;
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return new List<Certificate>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't list certificates. Here's why: {ex.Message}");
            return new List<Certificate>();
        }
    }

    /// <summary>
    /// Updates the Thing's shadow with new state information.
    /// </summary>
    /// <param name="thingName">The name of the Thing.</param>
    /// <param name="shadowPayload">The shadow payload in JSON format.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> UpdateThingShadowAsync(string thingName, string shadowPayload)
    {
        try
        {
            var request = new UpdateThingShadowRequest
            {
                ThingName = thingName,
                Payload = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(shadowPayload))
            };

            await _amazonIotData.UpdateThingShadowAsync(request);
            _logger.LogInformation($"Updated shadow for Thing {thingName}");
            return true;
        }
        catch (Amazon.IotData.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot update Thing shadow - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't update Thing shadow. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Gets the Thing's shadow information.
    /// </summary>
    /// <param name="thingName">The name of the Thing.</param>
    /// <returns>The shadow data as a string, or null if retrieval failed.</returns>
    public async Task<string?> GetThingShadowAsync(string thingName)
    {
        try
        {
            var request = new GetThingShadowRequest
            {
                ThingName = thingName
            };

            var response = await _amazonIotData.GetThingShadowAsync(request);
            using var reader = new StreamReader(response.Payload);
            var shadowData = await reader.ReadToEndAsync();

            _logger.LogInformation($"Retrieved shadow for Thing {thingName}");
            return shadowData;
        }
        catch (Amazon.IotData.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot get Thing shadow - resource not found: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't get Thing shadow. Here's why: {ex.Message}");
            return null;
        }
    }

    /// <summary>
    /// Creates an IoT topic rule.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <param name="snsTopicArn">The ARN of the SNS topic for the action.</param>
    /// <param name="roleArn">The ARN of the IAM role.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> CreateTopicRuleAsync(string ruleName, string snsTopicArn, string roleArn)
    {
        try
        {
            var request = new CreateTopicRuleRequest
            {
                RuleName = ruleName,
                TopicRulePayload = new TopicRulePayload
                {
                    Sql = "SELECT * FROM 'topic/subtopic'",
                    Description = $"Rule created by .NET example: {ruleName}",
                    Actions = new List<Amazon.IoT.Model.Action>
                    {
                        new Amazon.IoT.Model.Action
                        {
                            Sns = new SnsAction
                            {
                                TargetArn = snsTopicArn,
                                RoleArn = roleArn
                            }
                        }
                    },
                    RuleDisabled = false
                }
            };

            await _amazonIoT.CreateTopicRuleAsync(request);
            _logger.LogInformation($"Created IoT rule {ruleName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceAlreadyExistsException ex)
        {
            _logger.LogWarning($"Rule {ruleName} already exists: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't create topic rule. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Deletes an IoT topic rule.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> DeleteTopicRuleAsync(string ruleName)
    {
        try
        {
            var request = new DeleteTopicRuleRequest
            {
                RuleName = ruleName,
            };

            await _amazonIoT.DeleteTopicRuleAsync(request);
            _logger.LogInformation($"Deleted IoT rule {ruleName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogWarning($"Rule {ruleName} not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't delete topic rule. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Lists all IoT topic rules.
    /// </summary>
    /// <returns>List of topic rules, or empty list if listing failed.</returns>
    public async Task<List<TopicRuleListItem>> ListTopicRulesAsync()
    {
        try
        {
            var request = new ListTopicRulesRequest();
            var response = await _amazonIoT.ListTopicRulesAsync(request);

            _logger.LogInformation($"Retrieved {response.Rules.Count} IoT rules");
            return response.Rules;
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return new List<TopicRuleListItem>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't list topic rules. Here's why: {ex.Message}");
            return new List<TopicRuleListItem>();
        }
    }

    /// <summary>
    /// Searches for IoT Things using the search index.
    /// </summary>
    /// <param name="queryString">The search query string.</param>
    /// <returns>List of Things that match the search criteria, or empty list if search failed.</returns>
    public async Task<List<ThingDocument>> SearchIndexAsync(string queryString)
    {
        try
        {
            // First, try to perform the search
            var request = new SearchIndexRequest
            {
                QueryString = queryString
            };

            var response = await _amazonIoT.SearchIndexAsync(request);
            _logger.LogInformation($"Search found {response.Things.Count} Things");
            return response.Things;
        }
        catch (Amazon.IoT.Model.IndexNotReadyException ex)
        {
            _logger.LogWarning($"Search index not ready, setting up indexing configuration: {ex.Message}");
            return await SetupIndexAndRetrySearchAsync(queryString);
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex) when (ex.Message.Contains("index") || ex.Message.Contains("Index"))
        {
            _logger.LogWarning($"Search index not configured, setting up indexing configuration: {ex.Message}");
            return await SetupIndexAndRetrySearchAsync(queryString);
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return new List<ThingDocument>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't search index. Here's why: {ex.Message}");
            return new List<ThingDocument>();
        }
    }

    /// <summary>
    /// Sets up the indexing configuration and retries the search after waiting for the index to be ready.
    /// </summary>
    /// <param name="queryString">The search query string.</param>
    /// <returns>List of Things that match the search criteria, or empty list if setup/search failed.</returns>
    private async Task<List<ThingDocument>> SetupIndexAndRetrySearchAsync(string queryString)
    {
        try
        {
            // Update indexing configuration to REGISTRY mode
            _logger.LogInformation("Setting up IoT search indexing configuration...");
            await _amazonIoT.UpdateIndexingConfigurationAsync(
                new UpdateIndexingConfigurationRequest()
                {
                    ThingIndexingConfiguration = new ThingIndexingConfiguration()
                    {
                        ThingIndexingMode = ThingIndexingMode.REGISTRY
                    }
                });

            _logger.LogInformation("Indexing configuration updated. Waiting for index to be ready...");

            // Wait for the index to be set up - this can take some time
            const int maxRetries = 10;
            const int retryDelaySeconds = 10;

            for (int attempt = 1; attempt <= maxRetries; attempt++)
            {
                try
                {
                    _logger.LogInformation($"Waiting for index to be ready (attempt {attempt}/{maxRetries})...");
                    await Task.Delay(TimeSpan.FromSeconds(retryDelaySeconds));

                    // Try to get the current indexing configuration to see if it's ready
                    var configResponse = await _amazonIoT.GetIndexingConfigurationAsync(new GetIndexingConfigurationRequest());
                    if (configResponse.ThingIndexingConfiguration?.ThingIndexingMode == ThingIndexingMode.REGISTRY)
                    {
                        // Try the search again
                        var request = new SearchIndexRequest
                        {
                            QueryString = queryString
                        };

                        var response = await _amazonIoT.SearchIndexAsync(request);
                        _logger.LogInformation($"Search found {response.Things.Count} Things after index setup");
                        return response.Things;
                    }
                }
                catch (Amazon.IoT.Model.IndexNotReadyException)
                {
                    // Index still not ready, continue waiting
                    _logger.LogInformation("Index still not ready, continuing to wait...");
                    continue;
                }
                catch (Amazon.IoT.Model.InvalidRequestException ex) when (ex.Message.Contains("index") || ex.Message.Contains("Index"))
                {
                    // Index still not ready, continue waiting
                    _logger.LogInformation("Index still not ready, continuing to wait...");
                    continue;
                }
            }

            _logger.LogWarning("Timeout waiting for search index to be ready after configuration update");
            return new List<ThingDocument>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't set up search index configuration. Here's why: {ex.Message}");
            return new List<ThingDocument>();
        }
    }

    /// <summary>
    /// Detaches a certificate from an IoT Thing.
    /// </summary>
    /// <param name="thingName">The name of the Thing.</param>
    /// <param name="certificateArn">The ARN of the certificate to detach.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> DetachThingPrincipalAsync(string thingName, string certificateArn)
    {
        try
        {
            var request = new DetachThingPrincipalRequest
            {
                ThingName = thingName,
                Principal = certificateArn
            };

            await _amazonIoT.DetachThingPrincipalAsync(request);
            _logger.LogInformation($"Detached certificate {certificateArn} from Thing {thingName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot detach certificate - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't detach certificate from Thing. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Deletes an IoT certificate.
    /// </summary>
    /// <param name="certificateId">The ID of the certificate to delete.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> DeleteCertificateAsync(string certificateId)
    {
        try
        {
            // First, update the certificate to inactive state
            var updateRequest = new UpdateCertificateRequest
            {
                CertificateId = certificateId,
                NewStatus = CertificateStatus.INACTIVE
            };
            await _amazonIoT.UpdateCertificateAsync(updateRequest);

            // Then delete the certificate
            var deleteRequest = new DeleteCertificateRequest
            {
                CertificateId = certificateId
            };

            await _amazonIoT.DeleteCertificateAsync(deleteRequest);
            _logger.LogInformation($"Deleted certificate {certificateId}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot delete certificate - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't delete certificate. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Deletes an IoT Thing.
    /// </summary>
    /// <param name="thingName">The name of the Thing to delete.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> DeleteThingAsync(string thingName)
    {
        try
        {
            var request = new DeleteThingRequest
            {
                ThingName = thingName
            };

            await _amazonIoT.DeleteThingAsync(request);
            _logger.LogInformation($"Deleted Thing {thingName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot delete Thing - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't delete Thing. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Lists IoT Things with pagination support.
    /// </summary>
    /// <returns>List of Things, or empty list if listing failed.</returns>
    public async Task<List<ThingAttribute>> ListThingsAsync()
    {
        try
        {
            // Use pages of 10.
            var request = new ListThingsRequest()
            {
                MaxResults = 10
            };
            var response = await _amazonIoT.ListThingsAsync(request);

            // Since there is not a built-in paginator, use the NextMarker to paginate.
            bool hasMoreResults = true;

            var things = new List<ThingAttribute>();
            while (hasMoreResults)
            {
                things.AddRange(response.Things);

                // If NextMarker is not null, there are more results. Get the next page of results.
                if (!String.IsNullOrEmpty(response.NextMarker))
                {
                    request.Marker = response.NextMarker;
                    response = await _amazonIoT.ListThingsAsync(request);
                }
                else
                    hasMoreResults = false;
            }

            _logger.LogInformation($"Retrieved {things.Count} Things");
            return things;
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return new List<ThingAttribute>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't list Things. Here's why: {ex.Message}");
            return new List<ThingAttribute>();
        }
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [AttachThingPrincipal](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/AttachThingPrincipal)
  + [CreateKeysAndCertificate](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/CreateKeysAndCertificate)
  + [CreateThing](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/CreateThing)
  + [CreateTopicRule](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/CreateTopicRule)
  + [DeleteCertificate](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DeleteCertificate)
  + [DeleteThing](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DeleteThing)
  + [DeleteTopicRule](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DeleteTopicRule)
  + [DescribeEndpoint](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DescribeEndpoint)
  + [DescribeThing](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DescribeThing)
  + [DetachThingPrincipal](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DetachThingPrincipal)
  + [ListCertificates](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/ListCertificates)
  + [ListThings](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/ListThings)
  + [SearchIndex](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/SearchIndex)
  + [UpdateIndexingConfiguration](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/UpdateIndexingConfiguration)
  + [UpdateThing](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/UpdateThing)

## Tindakan
<a name="actions"></a>

### `AttachThingPrincipal`
<a name="iot_AttachThingPrincipal_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachThingPrincipal`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Attaches a certificate to an IoT Thing.
    /// </summary>
    /// <param name="thingName">The name of the Thing.</param>
    /// <param name="certificateArn">The ARN of the certificate to attach.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> AttachThingPrincipalAsync(string thingName, string certificateArn)
    {
        try
        {
            var request = new AttachThingPrincipalRequest
            {
                ThingName = thingName,
                Principal = certificateArn
            };

            await _amazonIoT.AttachThingPrincipalAsync(request);
            _logger.LogInformation($"Attached certificate {certificateArn} to Thing {thingName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot attach certificate - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't attach certificate to Thing. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [AttachThingPrincipal](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/AttachThingPrincipal)di *Referensi AWS SDK untuk .NET API*. 

### `CreateKeysAndCertificate`
<a name="iot_CreateKeysAndCertificate_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeysAndCertificate`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Creates a device certificate for AWS IoT.
    /// </summary>
    /// <returns>The certificate details including ARN and certificate PEM, or null if creation failed.</returns>
    public async Task<(string CertificateArn, string CertificatePem, string CertificateId)?> CreateKeysAndCertificateAsync()
    {
        try
        {
            var request = new CreateKeysAndCertificateRequest
            {
                SetAsActive = true
            };

            var response = await _amazonIoT.CreateKeysAndCertificateAsync(request);
            _logger.LogInformation($"Created certificate with ARN {response.CertificateArn}");
            return (response.CertificateArn, response.CertificatePem, response.CertificateId);
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't create certificate. Here's why: {ex.Message}");
            return null;
        }
    }
```
+  Untuk detail API, lihat [CreateKeysAndCertificate](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/CreateKeysAndCertificate)di *Referensi AWS SDK untuk .NET API*. 

### `CreateThing`
<a name="iot_CreateThing_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateThing`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Creates an AWS IoT Thing.
    /// </summary>
    /// <param name="thingName">The name of the Thing to create.</param>
    /// <returns>The ARN of the Thing created, or null if creation failed.</returns>
    public async Task<string?> CreateThingAsync(string thingName)
    {
        try
        {
            var request = new CreateThingRequest
            {
                ThingName = thingName
            };

            var response = await _amazonIoT.CreateThingAsync(request);
            _logger.LogInformation($"Created Thing {thingName} with ARN {response.ThingArn}");
            return response.ThingArn;
        }
        catch (Amazon.IoT.Model.ResourceAlreadyExistsException ex)
        {
            _logger.LogWarning($"Thing {thingName} already exists: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't create Thing {thingName}. Here's why: {ex.Message}");
            return null;
        }
    }
```
+  Untuk detail API, lihat [CreateThing](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/CreateThing)di *Referensi AWS SDK untuk .NET API*. 

### `CreateTopicRule`
<a name="iot_CreateTopicRule_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopicRule`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Creates an IoT topic rule.
    /// </summary>
    /// <param name="ruleName">The name of the rule.</param>
    /// <param name="snsTopicArn">The ARN of the SNS topic for the action.</param>
    /// <param name="roleArn">The ARN of the IAM role.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> CreateTopicRuleAsync(string ruleName, string snsTopicArn, string roleArn)
    {
        try
        {
            var request = new CreateTopicRuleRequest
            {
                RuleName = ruleName,
                TopicRulePayload = new TopicRulePayload
                {
                    Sql = "SELECT * FROM 'topic/subtopic'",
                    Description = $"Rule created by .NET example: {ruleName}",
                    Actions = new List<Amazon.IoT.Model.Action>
                    {
                        new Amazon.IoT.Model.Action
                        {
                            Sns = new SnsAction
                            {
                                TargetArn = snsTopicArn,
                                RoleArn = roleArn
                            }
                        }
                    },
                    RuleDisabled = false
                }
            };

            await _amazonIoT.CreateTopicRuleAsync(request);
            _logger.LogInformation($"Created IoT rule {ruleName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceAlreadyExistsException ex)
        {
            _logger.LogWarning($"Rule {ruleName} already exists: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't create topic rule. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [CreateTopicRule](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/CreateTopicRule)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteCertificate`
<a name="iot_DeleteCertificate_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Deletes an IoT certificate.
    /// </summary>
    /// <param name="certificateId">The ID of the certificate to delete.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> DeleteCertificateAsync(string certificateId)
    {
        try
        {
            // First, update the certificate to inactive state
            var updateRequest = new UpdateCertificateRequest
            {
                CertificateId = certificateId,
                NewStatus = CertificateStatus.INACTIVE
            };
            await _amazonIoT.UpdateCertificateAsync(updateRequest);

            // Then delete the certificate
            var deleteRequest = new DeleteCertificateRequest
            {
                CertificateId = certificateId
            };

            await _amazonIoT.DeleteCertificateAsync(deleteRequest);
            _logger.LogInformation($"Deleted certificate {certificateId}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot delete certificate - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't delete certificate. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DeleteCertificate)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteThing`
<a name="iot_DeleteThing_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteThing`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Deletes an IoT Thing.
    /// </summary>
    /// <param name="thingName">The name of the Thing to delete.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> DeleteThingAsync(string thingName)
    {
        try
        {
            var request = new DeleteThingRequest
            {
                ThingName = thingName
            };

            await _amazonIoT.DeleteThingAsync(request);
            _logger.LogInformation($"Deleted Thing {thingName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot delete Thing - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't delete Thing. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteThing](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DeleteThing)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeEndpoint`
<a name="iot_DescribeEndpoint_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeEndpoint`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Gets the AWS IoT endpoint URL.
    /// </summary>
    /// <returns>The endpoint URL, or null if retrieval failed.</returns>
    public async Task<string?> DescribeEndpointAsync()
    {
        try
        {
            var request = new DescribeEndpointRequest
            {
                EndpointType = "iot:Data-ATS"
            };

            var response = await _amazonIoT.DescribeEndpointAsync(request);
            _logger.LogInformation($"Retrieved endpoint: {response.EndpointAddress}");
            return response.EndpointAddress;
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't describe endpoint. Here's why: {ex.Message}");
            return null;
        }
    }
```
+  Untuk detail API, lihat [DescribeEndpoint](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DescribeEndpoint)di *Referensi AWS SDK untuk .NET API*. 

### `DetachThingPrincipal`
<a name="iot_DetachThingPrincipal_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachThingPrincipal`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Detaches a certificate from an IoT Thing.
    /// </summary>
    /// <param name="thingName">The name of the Thing.</param>
    /// <param name="certificateArn">The ARN of the certificate to detach.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> DetachThingPrincipalAsync(string thingName, string certificateArn)
    {
        try
        {
            var request = new DetachThingPrincipalRequest
            {
                ThingName = thingName,
                Principal = certificateArn
            };

            await _amazonIoT.DetachThingPrincipalAsync(request);
            _logger.LogInformation($"Detached certificate {certificateArn} from Thing {thingName}");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot detach certificate - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't detach certificate from Thing. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DetachThingPrincipal](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/DetachThingPrincipal)di *Referensi AWS SDK untuk .NET API*. 

### `ListCertificates`
<a name="iot_ListCertificates_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Lists all certificates associated with the account.
    /// </summary>
    /// <returns>List of certificate information, or empty list if listing failed.</returns>
    public async Task<List<Certificate>> ListCertificatesAsync()
    {
        try
        {
            var request = new ListCertificatesRequest();
            var response = await _amazonIoT.ListCertificatesAsync(request);

            _logger.LogInformation($"Retrieved {response.Certificates.Count} certificates");
            return response.Certificates;
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return new List<Certificate>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't list certificates. Here's why: {ex.Message}");
            return new List<Certificate>();
        }
    }
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/ListCertificates)di *Referensi AWS SDK untuk .NET API*. 

### `ListThings`
<a name="iot_ListThings_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListThings`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Lists IoT Things with pagination support.
    /// </summary>
    /// <returns>List of Things, or empty list if listing failed.</returns>
    public async Task<List<ThingAttribute>> ListThingsAsync()
    {
        try
        {
            // Use pages of 10.
            var request = new ListThingsRequest()
            {
                MaxResults = 10
            };
            var response = await _amazonIoT.ListThingsAsync(request);

            // Since there is not a built-in paginator, use the NextMarker to paginate.
            bool hasMoreResults = true;

            var things = new List<ThingAttribute>();
            while (hasMoreResults)
            {
                things.AddRange(response.Things);

                // If NextMarker is not null, there are more results. Get the next page of results.
                if (!String.IsNullOrEmpty(response.NextMarker))
                {
                    request.Marker = response.NextMarker;
                    response = await _amazonIoT.ListThingsAsync(request);
                }
                else
                    hasMoreResults = false;
            }

            _logger.LogInformation($"Retrieved {things.Count} Things");
            return things;
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return new List<ThingAttribute>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't list Things. Here's why: {ex.Message}");
            return new List<ThingAttribute>();
        }
    }
```
+  Untuk detail API, lihat [ListThings](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/ListThings)di *Referensi AWS SDK untuk .NET API*. 

### `SearchIndex`
<a name="iot_SearchIndex_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchIndex`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Searches for IoT Things using the search index.
    /// </summary>
    /// <param name="queryString">The search query string.</param>
    /// <returns>List of Things that match the search criteria, or empty list if search failed.</returns>
    public async Task<List<ThingDocument>> SearchIndexAsync(string queryString)
    {
        try
        {
            // First, try to perform the search
            var request = new SearchIndexRequest
            {
                QueryString = queryString
            };

            var response = await _amazonIoT.SearchIndexAsync(request);
            _logger.LogInformation($"Search found {response.Things.Count} Things");
            return response.Things;
        }
        catch (Amazon.IoT.Model.IndexNotReadyException ex)
        {
            _logger.LogWarning($"Search index not ready, setting up indexing configuration: {ex.Message}");
            return await SetupIndexAndRetrySearchAsync(queryString);
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex) when (ex.Message.Contains("index") || ex.Message.Contains("Index"))
        {
            _logger.LogWarning($"Search index not configured, setting up indexing configuration: {ex.Message}");
            return await SetupIndexAndRetrySearchAsync(queryString);
        }
        catch (Amazon.IoT.Model.ThrottlingException ex)
        {
            _logger.LogWarning($"Request throttled, please try again later: {ex.Message}");
            return new List<ThingDocument>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't search index. Here's why: {ex.Message}");
            return new List<ThingDocument>();
        }
    }

    /// <summary>
    /// Sets up the indexing configuration and retries the search after waiting for the index to be ready.
    /// </summary>
    /// <param name="queryString">The search query string.</param>
    /// <returns>List of Things that match the search criteria, or empty list if setup/search failed.</returns>
    private async Task<List<ThingDocument>> SetupIndexAndRetrySearchAsync(string queryString)
    {
        try
        {
            // Update indexing configuration to REGISTRY mode
            _logger.LogInformation("Setting up IoT search indexing configuration...");
            await _amazonIoT.UpdateIndexingConfigurationAsync(
                new UpdateIndexingConfigurationRequest()
                {
                    ThingIndexingConfiguration = new ThingIndexingConfiguration()
                    {
                        ThingIndexingMode = ThingIndexingMode.REGISTRY
                    }
                });

            _logger.LogInformation("Indexing configuration updated. Waiting for index to be ready...");

            // Wait for the index to be set up - this can take some time
            const int maxRetries = 10;
            const int retryDelaySeconds = 10;

            for (int attempt = 1; attempt <= maxRetries; attempt++)
            {
                try
                {
                    _logger.LogInformation($"Waiting for index to be ready (attempt {attempt}/{maxRetries})...");
                    await Task.Delay(TimeSpan.FromSeconds(retryDelaySeconds));

                    // Try to get the current indexing configuration to see if it's ready
                    var configResponse = await _amazonIoT.GetIndexingConfigurationAsync(new GetIndexingConfigurationRequest());
                    if (configResponse.ThingIndexingConfiguration?.ThingIndexingMode == ThingIndexingMode.REGISTRY)
                    {
                        // Try the search again
                        var request = new SearchIndexRequest
                        {
                            QueryString = queryString
                        };

                        var response = await _amazonIoT.SearchIndexAsync(request);
                        _logger.LogInformation($"Search found {response.Things.Count} Things after index setup");
                        return response.Things;
                    }
                }
                catch (Amazon.IoT.Model.IndexNotReadyException)
                {
                    // Index still not ready, continue waiting
                    _logger.LogInformation("Index still not ready, continuing to wait...");
                    continue;
                }
                catch (Amazon.IoT.Model.InvalidRequestException ex) when (ex.Message.Contains("index") || ex.Message.Contains("Index"))
                {
                    // Index still not ready, continue waiting
                    _logger.LogInformation("Index still not ready, continuing to wait...");
                    continue;
                }
            }

            _logger.LogWarning("Timeout waiting for search index to be ready after configuration update");
            return new List<ThingDocument>();
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't set up search index configuration. Here's why: {ex.Message}");
            return new List<ThingDocument>();
        }
    }
```
+  Untuk detail API, lihat [SearchIndex](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/SearchIndex)di *Referensi AWS SDK untuk .NET API*. 

### `UpdateThing`
<a name="iot_UpdateThing_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateThing`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Updates an IoT Thing with attributes.
    /// </summary>
    /// <param name="thingName">The name of the Thing to update.</param>
    /// <param name="attributes">Dictionary of attributes to add.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> UpdateThingAsync(string thingName, Dictionary<string, string> attributes)
    {
        try
        {
            var request = new UpdateThingRequest
            {
                ThingName = thingName,
                AttributePayload = new AttributePayload
                {
                    Attributes = attributes,
                    Merge = true
                }
            };

            await _amazonIoT.UpdateThingAsync(request);
            _logger.LogInformation($"Updated Thing {thingName} with attributes");
            return true;
        }
        catch (Amazon.IoT.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot update Thing - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't update Thing attributes. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [UpdateThing](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-2015-05-28/UpdateThing)di *Referensi AWS SDK untuk .NET API*. 

# AWS IoT data contoh menggunakan SDK untuk .NET (v4)
<a name="csharp_4_iot-data-plane_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan AWS IoT data.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetThingShadow`
<a name="iot-data-plane_GetThingShadow_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetThingShadow`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Gets the Thing's shadow information.
    /// </summary>
    /// <param name="thingName">The name of the Thing.</param>
    /// <returns>The shadow data as a string, or null if retrieval failed.</returns>
    public async Task<string?> GetThingShadowAsync(string thingName)
    {
        try
        {
            var request = new GetThingShadowRequest
            {
                ThingName = thingName
            };

            var response = await _amazonIotData.GetThingShadowAsync(request);
            using var reader = new StreamReader(response.Payload);
            var shadowData = await reader.ReadToEndAsync();

            _logger.LogInformation($"Retrieved shadow for Thing {thingName}");
            return shadowData;
        }
        catch (Amazon.IotData.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot get Thing shadow - resource not found: {ex.Message}");
            return null;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't get Thing shadow. Here's why: {ex.Message}");
            return null;
        }
    }
```
+  Untuk detail API, lihat [GetThingShadow](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-data-2015-05-28/GetThingShadow)di *Referensi AWS SDK untuk .NET API*. 

### `UpdateThingShadow`
<a name="iot-data-plane_UpdateThingShadow_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateThingShadow`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/IoT#code-examples). 

```
    /// <summary>
    /// Updates the Thing's shadow with new state information.
    /// </summary>
    /// <param name="thingName">The name of the Thing.</param>
    /// <param name="shadowPayload">The shadow payload in JSON format.</param>
    /// <returns>True if successful, false otherwise.</returns>
    public async Task<bool> UpdateThingShadowAsync(string thingName, string shadowPayload)
    {
        try
        {
            var request = new UpdateThingShadowRequest
            {
                ThingName = thingName,
                Payload = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(shadowPayload))
            };

            await _amazonIotData.UpdateThingShadowAsync(request);
            _logger.LogInformation($"Updated shadow for Thing {thingName}");
            return true;
        }
        catch (Amazon.IotData.Model.ResourceNotFoundException ex)
        {
            _logger.LogError($"Cannot update Thing shadow - resource not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            _logger.LogError($"Couldn't update Thing shadow. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [UpdateThingShadow](https://docs.aws.amazon.com/goto/DotNetSDKV4/iot-data-2015-05-28/UpdateThingShadow)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon Redshift menggunakan SDK untuk .NET (v4)
<a name="csharp_4_redshift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Amazon Redshift.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Redshift
<a name="redshift_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Redshift.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 

```
    /// <summary>
    /// Main method to run the Hello Amazon Redshift example.
    /// </summary>
    /// <param name="args">Command line arguments (not used).</param>
    public static async Task Main(string[] args)
    {
        var redshiftClient = new AmazonRedshiftClient();

        Console.WriteLine("Hello, Amazon Redshift! Let's list available clusters:");

        var clusters = new List<Cluster>();

        try
        {
            // Use pagination to retrieve all clusters.
            var clustersPaginator = redshiftClient.Paginators.DescribeClusters(new DescribeClustersRequest());

            await foreach (var response in clustersPaginator.Responses)
            {
                if (response.Clusters != null)
                    clusters.AddRange(response.Clusters);
            }

            Console.WriteLine($"{clusters.Count} cluster(s) retrieved.");

            foreach (var cluster in clusters)
            {
                Console.WriteLine($"\t{cluster.ClusterIdentifier} (Status: {cluster.ClusterStatus})");
            }
        }
        catch (AmazonRedshiftException ex)
        {
            Console.WriteLine($"Couldn't list clusters. Here's why: {ex.Message}");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred: {ex.Message}");
        }
    }
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/DescribeClusters)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="redshift_Scenario_csharp_4_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat cluster Redshift.
+ Daftar database di cluster.
+ Buat tabel bernama Movies.
+ Isi tabel Film.
+ Kueri tabel Film berdasarkan tahun.
+ Ubah cluster Redshift.
+ Hapus cluster Amazon Redshift.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 
Buat kelas pembungkus Redshift untuk mengelola operasi.  

```
/// <summary>
/// Wrapper class for Amazon Redshift operations.
/// </summary>
public class RedshiftWrapper
{
    private readonly IAmazonRedshift _redshiftClient;
    private readonly IAmazonRedshiftDataAPIService _redshiftDataClient;

    /// <summary>
    /// Constructor for RedshiftWrapper.
    /// </summary>
    /// <param name="redshiftClient">Amazon Redshift client.</param>
    /// <param name="redshiftDataClient">Amazon Redshift Data API client.</param>
    public RedshiftWrapper(IAmazonRedshift redshiftClient, IAmazonRedshiftDataAPIService redshiftDataClient)
    {
        _redshiftClient = redshiftClient;
        _redshiftDataClient = redshiftDataClient;
    }

    /// <summary>
    /// Create a new Amazon Redshift cluster.
    /// </summary>
    /// <param name="clusterIdentifier">The identifier for the cluster.</param>
    /// <param name="databaseName">The name of the database.</param>
    /// <param name="masterUsername">The master username.</param>
    /// <param name="masterUserPassword">The master user password.</param>
    /// <param name="nodeType">The node type for the cluster.</param>
    /// <returns>The cluster that was created.</returns>
    public async Task<Cluster> CreateClusterAsync(string clusterIdentifier, string databaseName,
        string masterUsername, string masterUserPassword, string nodeType = "ra3.large")
    {
        try
        {
            var request = new CreateClusterRequest
            {
                ClusterIdentifier = clusterIdentifier,
                DBName = databaseName,
                MasterUsername = masterUsername,
                MasterUserPassword = masterUserPassword,
                NodeType = nodeType,
                NumberOfNodes = 1,
                ClusterType = "single-node"
            };

            var response = await _redshiftClient.CreateClusterAsync(request);
            Console.WriteLine($"Created cluster {clusterIdentifier}");
            return response.Cluster;
        }
        catch (ClusterAlreadyExistsException ex)
        {
            Console.WriteLine($"Cluster already exists: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't create cluster. Here's why: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Describe Amazon Redshift clusters.
    /// </summary>
    /// <param name="clusterIdentifier">Optional cluster identifier to describe a specific cluster.</param>
    /// <returns>A list of clusters.</returns>
    public async Task<List<Cluster>> DescribeClustersAsync(string? clusterIdentifier = null)
    {
        try
        {
            var clusters = new List<Cluster>();
            var request = new DescribeClustersRequest();
            if (!string.IsNullOrEmpty(clusterIdentifier))
            {
                request.ClusterIdentifier = clusterIdentifier;
            }

            var clustersPaginator = _redshiftClient.Paginators.DescribeClusters(request);
            await foreach (var response in clustersPaginator.Responses)
            {
                if (response.Clusters != null)
                    clusters.AddRange(response.Clusters);
            }

            Console.WriteLine($"{clusters.Count} cluster(s) retrieved.");
            foreach (var cluster in clusters)
            {
                Console.WriteLine($"\t{cluster.ClusterIdentifier} (Status: {cluster.ClusterStatus})");
            }

            return clusters;
        }
        catch (ClusterNotFoundException ex)
        {
            Console.WriteLine($"Cluster {clusterIdentifier} not found: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't describe clusters. Here's why: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Modify an Amazon Redshift cluster.
    /// </summary>
    /// <param name="clusterIdentifier">The identifier for the cluster.</param>
    /// <param name="preferredMaintenanceWindow">The preferred maintenance window.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ModifyClusterAsync(string clusterIdentifier, string preferredMaintenanceWindow)
    {
        try
        {
            var request = new ModifyClusterRequest
            {
                ClusterIdentifier = clusterIdentifier,
                PreferredMaintenanceWindow = preferredMaintenanceWindow
            };

            var response = await _redshiftClient.ModifyClusterAsync(request);
            Console.WriteLine($"The modified cluster was successfully modified and has {response.Cluster.PreferredMaintenanceWindow} as the maintenance window");
            return true;
        }
        catch (ClusterNotFoundException ex)
        {
            Console.WriteLine($"Cluster {clusterIdentifier} not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't modify cluster. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// Delete an Amazon Redshift cluster without a final snapshot.
    /// </summary>
    /// <param name="clusterIdentifier">The identifier for the cluster.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteClusterWithoutSnapshotAsync(string clusterIdentifier)
    {
        try
        {
            var request = new DeleteClusterRequest
            {
                ClusterIdentifier = clusterIdentifier,
                SkipFinalClusterSnapshot = true
            };

            var response = await _redshiftClient.DeleteClusterAsync(request);
            Console.WriteLine($"The {clusterIdentifier} was deleted");
            return true;
        }
        catch (ClusterNotFoundException ex)
        {
            Console.WriteLine($"Cluster not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't delete cluster. Here's why: {ex.Message}");
            return false;
        }
    }

    /// <summary>
    /// List databases in a Redshift cluster.
    /// </summary>
    /// <param name="clusterIdentifier">The cluster identifier.</param>
    /// <param name="dbUser">The database user.</param>
    /// <param name="dbUser">The database name for authentication.</param>
    /// <returns>A list of database names.</returns>
    public async Task<List<string>> ListDatabasesAsync(string clusterIdentifier, string dbUser, string databaseName)
    {
        try
        {
            var request = new ListDatabasesRequest
            {
                ClusterIdentifier = clusterIdentifier,
                DbUser = dbUser,
                Database = databaseName
            };

            var response = await _redshiftDataClient.ListDatabasesAsync(request);
            var databases = new List<string>();

            foreach (var database in response.Databases)
            {
                Console.WriteLine($"The database name is : {database}");
                databases.Add(database);
            }

            return databases;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ValidationException ex)
        {
            Console.WriteLine($"Validation error: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't list databases. Here's why: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Create a table in the Redshift database.
    /// </summary>
    /// <param name="clusterIdentifier">The cluster identifier.</param>
    /// <param name="database">The database name.</param>
    /// <param name="dbUser">The database user.</param>
    /// <returns>The statement ID.</returns>
    public async Task<string> CreateTableAsync(string clusterIdentifier, string database, string dbUser)
    {
        try
        {
            var sqlStatement = @"
                CREATE TABLE Movies (
                    id INTEGER PRIMARY KEY,
                    title VARCHAR(250) NOT NULL,
                    year INTEGER NOT NULL
                )";

            var request = new ExecuteStatementRequest
            {
                ClusterIdentifier = clusterIdentifier,
                Database = database,
                DbUser = dbUser,
                Sql = sqlStatement
            };

            var response = await _redshiftDataClient.ExecuteStatementAsync(request);
            await WaitForStatementToCompleteAsync(response.Id);
            Console.WriteLine("Table created: Movies");
            return response.Id;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ValidationException ex)
        {
            Console.WriteLine($"Validation error: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't create table. Here's why: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Insert a record into the Movies table using parameterized query.
    /// </summary>
    /// <param name="clusterIdentifier">The cluster identifier.</param>
    /// <param name="database">The database name.</param>
    /// <param name="dbUser">The database user.</param>
    /// <param name="id">The movie ID.</param>
    /// <param name="title">The movie title.</param>
    /// <param name="year">The movie year.</param>
    /// <returns>The statement ID.</returns>
    public async Task<string> InsertMovieAsync(string clusterIdentifier, string database, string dbUser,
        int id, string title, int year)
    {
        try
        {
            var sqlStatement = "INSERT INTO Movies (id, title, year) VALUES (:id, :title, :year)";

            var request = new ExecuteStatementRequest
            {
                ClusterIdentifier = clusterIdentifier,
                Database = database,
                DbUser = dbUser,
                Sql = sqlStatement,
                Parameters = new List<SqlParameter>
                {
                    new SqlParameter { Name = "id", Value = id.ToString() },
                    new SqlParameter { Name = "title", Value = title },
                    new SqlParameter { Name = "year", Value = year.ToString() }
                }
            };

            var response = await _redshiftDataClient.ExecuteStatementAsync(request);
            await WaitForStatementToCompleteAsync(response.Id);
            Console.WriteLine($"Inserted: {title} ({year})");
            return response.Id;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ValidationException ex)
        {
            Console.WriteLine($"Validation error: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't insert movie. Here's why: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Query movies by year using parameterized query.
    /// </summary>
    /// <param name="clusterIdentifier">The cluster identifier.</param>
    /// <param name="database">The database name.</param>
    /// <param name="dbUser">The database user.</param>
    /// <param name="year">The year to query.</param>
    /// <returns>A list of movie titles.</returns>
    public async Task<List<string>> QueryMoviesByYearAsync(string clusterIdentifier, string database,
        string dbUser, int year)
    {
        try
        {
            var sqlStatement = "SELECT title FROM Movies WHERE year = :year";

            var request = new ExecuteStatementRequest
            {
                ClusterIdentifier = clusterIdentifier,
                Database = database,
                DbUser = dbUser,
                Sql = sqlStatement,
                Parameters = new List<SqlParameter>
                {
                    new SqlParameter { Name = "year", Value = year.ToString() }
                }
            };

            var response = await _redshiftDataClient.ExecuteStatementAsync(request);
            Console.WriteLine($"The identifier of the statement is {response.Id}");

            await WaitForStatementToCompleteAsync(response.Id);

            var results = await GetStatementResultAsync(response.Id);
            var movieTitles = new List<string>();

            foreach (var row in results)
            {
                if (row.Count > 0)
                {
                    var title = row[0].StringValue;
                    Console.WriteLine($"The Movie title field is {title}");
                    movieTitles.Add(title);
                }
            }

            return movieTitles;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ValidationException ex)
        {
            Console.WriteLine($"Validation error: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't query movies. Here's why: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Describe a statement execution.
    /// </summary>
    /// <param name="statementId">The statement ID.</param>
    /// <returns>The statement description.</returns>
    public async Task<DescribeStatementResponse> DescribeStatementAsync(string statementId)
    {
        try
        {
            var request = new DescribeStatementRequest
            {
                Id = statementId
            };

            var response = await _redshiftDataClient.DescribeStatementAsync(request);
            return response;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ResourceNotFoundException ex)
        {
            Console.WriteLine($"Statement not found: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't describe statement. Here's why: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Get the results of a statement execution.
    /// </summary>
    /// <param name="statementId">The statement ID.</param>
    /// <returns>A list of result rows.</returns>
    public async Task<List<List<Field>>> GetStatementResultAsync(string statementId)
    {
        try
        {
            var request = new GetStatementResultRequest
            {
                Id = statementId
            };

            var response = await _redshiftDataClient.GetStatementResultAsync(request);
            return response.Records;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ResourceNotFoundException ex)
        {
            Console.WriteLine($"Statement not found: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't get statement result. Here's why: {ex.Message}");
            throw;
        }
    }

    /// <summary>
    /// Wait for a statement to complete execution.
    /// </summary>
    /// <param name="statementId">The statement ID.</param>
    /// <returns>A task representing the asynchronous operation.</returns>
    private async Task WaitForStatementToCompleteAsync(string statementId)
    {
        var status = StatusString.SUBMITTED;
        DescribeStatementResponse? response = null;

        while (status == StatusString.SUBMITTED || status == StatusString.PICKED || status == StatusString.STARTED)
        {
            await Task.Delay(1000); // Wait 1 second
            response = await DescribeStatementAsync(statementId);
            status = response.Status;
            Console.WriteLine($"...{status}");
        }

        if (status == StatusString.FINISHED)
        {
            Console.WriteLine("The statement is finished!");
        }
        else
        {
            var errorMessage = response?.Error ?? "Unknown error";
            Console.WriteLine($"The statement failed with status: {status}");
            Console.WriteLine($"Error message: {errorMessage}");
        }
    }

    /// <summary>
    /// Wait for a cluster to become available.
    /// </summary>
    /// <param name="clusterIdentifier">The cluster identifier.</param>
    /// <returns>A task representing the asynchronous operation.</returns>
    public async Task WaitForClusterAvailableAsync(string clusterIdentifier)
    {
        Console.WriteLine($"Wait until {clusterIdentifier} is available. This may take a few minutes.");

        var startTime = DateTime.Now;
        var clusters = await DescribeClustersAsync(clusterIdentifier);

        while (clusters[0].ClusterStatus != "available")
        {
            var elapsed = DateTime.Now - startTime;
            Console.WriteLine($"Elapsed Time: {elapsed:mm\\:ss} - Waiting for cluster...");

            await Task.Delay(5000); // Wait 5 seconds
            clusters = await DescribeClustersAsync(clusterIdentifier);
        }

        var totalElapsed = DateTime.Now - startTime;
        Console.WriteLine($"Cluster is available! Total Elapsed Time: {totalElapsed:mm\\:ss}");
    }
}
```
Jalankan skenario interaktif yang menunjukkan dasar-dasar Redshift.  

```
/// <summary>
/// Amazon Redshift Getting Started Scenario.
/// </summary>
public class RedshiftBasics
{
    public static bool IsInteractive = true;
    public static RedshiftWrapper? Wrapper = null;
    public static ILogger logger = null!;
    private static readonly string _moviesFilePath = "../../../../../../resources/sample_files/movies.json";

    /// <summary>
    /// Main method for the Amazon Redshift Getting Started scenario.
    /// </summary>
    /// <param name="args">Command line arguments.</param>
    public static async Task Main(string[] args)
    {
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonRedshift>()
                    .AddAWSService<IAmazonRedshiftDataAPIService>()
                    .AddTransient<RedshiftWrapper>()
            )
            .Build();

        logger = LoggerFactory.Create(builder => { builder.AddConsole(); })
            .CreateLogger<RedshiftBasics>();

        Wrapper = host.Services.GetRequiredService<RedshiftWrapper>();

        await RunScenarioAsync();
    }

    /// <summary>
    /// Run the complete Amazon Redshift scenario.
    /// </summary>
    public static async Task RunScenarioAsync()
    {
        // Set all variables to default values
        string userName = "awsuser";
        string userPassword = "AwsUser1000";
        string clusterIdentifier = "redshift-cluster-movies";
        var databaseName = "dev";
        int recordCount = 50;
        int year = 2013;
        try
        {
            Console.WriteLine(
                "================================================================================");
            Console.WriteLine("Welcome to the Amazon Redshift SDK Getting Started scenario.");
            Console.WriteLine(
                "This .NET program demonstrates how to interact with Amazon Redshift by using the AWS SDK for .NET.");
            Console.WriteLine("Let's get started...");
            Console.WriteLine(
                "================================================================================");

            // Step 1: Get user credentials (if interactive)
            if (IsInteractive)
            {
                Console.WriteLine("Please enter a user name for the cluster (default is awsuser):");
                var userInput = Console.ReadLine();
                if (!string.IsNullOrEmpty(userInput))
                    userName = userInput;

                Console.WriteLine("================================================================================");
                Console.WriteLine("Please enter a user password for the cluster (default is AwsUser1000):");
                var passwordInput = Console.ReadLine();
                if (!string.IsNullOrEmpty(passwordInput))
                    userPassword = passwordInput;

                Console.WriteLine("================================================================================");

                // Step 2: Get cluster identifier
                Console.WriteLine("Enter a cluster id value (default is redshift-cluster-movies):");
                var clusterInput = Console.ReadLine();
                if (!string.IsNullOrEmpty(clusterInput))
                    clusterIdentifier = clusterInput;
            }
            else
            {
                Console.WriteLine($"Using default values: userName={userName}, clusterIdentifier={clusterIdentifier}");
            }

            // Step 3: Create Redshift cluster
            await Wrapper!.CreateClusterAsync(clusterIdentifier, databaseName, userName, userPassword);
            Console.WriteLine("================================================================================");

            // Step 4: Wait for cluster to become available
            Console.WriteLine("================================================================================");
            await Wrapper.WaitForClusterAvailableAsync(clusterIdentifier);
            Console.WriteLine("================================================================================");

            // Step 5: List databases
            Console.WriteLine("================================================================================");
            Console.WriteLine($" When you created {clusterIdentifier}, the dev database is created by default and used in this scenario.");
            Console.WriteLine(" To create a custom database, you need to have a CREATEDB privilege.");
            Console.WriteLine(" For more information, see the documentation here: https://docs.aws.amazon.com/redshift/latest/dg/r_CREATE_DATABASE.html.");
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }
            Console.WriteLine("================================================================================");

            Console.WriteLine("================================================================================");
            Console.WriteLine($"List databases in {clusterIdentifier}");
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }
            await Wrapper.ListDatabasesAsync(clusterIdentifier, userName, databaseName);
            Console.WriteLine("================================================================================");

            // Step 6: Create Movies table
            Console.WriteLine("================================================================================");
            Console.WriteLine("Now you will create a table named Movies.");
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }
            await Wrapper.CreateTableAsync(clusterIdentifier, databaseName, userName);
            Console.WriteLine("================================================================================");

            // Step 7: Populate the Movies table
            Console.WriteLine("================================================================================");
            Console.WriteLine("Populate the Movies table using the Movies.json file.");

            if (IsInteractive)
            {
                Console.WriteLine("Specify the number of records you would like to add to the Movies Table.");
                Console.WriteLine("Please enter a value between 50 and 200.");
                Console.Write("Enter a value: ");

                var recordCountInput = Console.ReadLine();
                if (int.TryParse(recordCountInput, out var inputCount) && inputCount is >= 50 and <= 200)
                {
                    recordCount = inputCount;
                }
                else
                {
                    Console.WriteLine($"Invalid input. Using default value of {recordCount}.");
                }
            }
            else
            {
                Console.WriteLine($"Using default record count: {recordCount}");
            }

            await PopulateMoviesTableAsync(clusterIdentifier, databaseName, userName, recordCount);
            Console.WriteLine($"{recordCount} records were added to the Movies table.");
            Console.WriteLine("================================================================================");

            // Step 8 & 9: Query movies by year
            Console.WriteLine("================================================================================");
            Console.WriteLine("Query the Movies table by year. Enter a value between 2012-2014.");

            if (IsInteractive)
            {
                Console.Write("Enter a year: ");
                var yearInput = Console.ReadLine();
                if (int.TryParse(yearInput, out var inputYear) && inputYear is >= 2012 and <= 2014)
                {
                    year = inputYear;
                }
                else
                {
                    Console.WriteLine($"Invalid input. Using default value of {year}.");
                }
            }
            else
            {
                Console.WriteLine($"Using default year: {year}");
            }

            await Wrapper.QueryMoviesByYearAsync(clusterIdentifier, databaseName, userName, year);
            Console.WriteLine("================================================================================");

            // Step 10: Modify the cluster
            Console.WriteLine("================================================================================");
            Console.WriteLine("Now you will modify the Redshift cluster.");
            if (IsInteractive)
            {
                Console.WriteLine("Press Enter to continue...");
                Console.ReadLine();
            }
            await Wrapper.ModifyClusterAsync(clusterIdentifier, "wed:07:30-wed:08:00");
            Console.WriteLine("================================================================================");

            // Step 11 & 12: Delete cluster confirmation
            Console.WriteLine("================================================================================");
            if (IsInteractive)
            {
                Console.WriteLine("Would you like to delete the Amazon Redshift cluster? (y/n)");
                var deleteResponse = Console.ReadLine();
                if (deleteResponse?.ToLower() == "y")
                {
                    await Wrapper.DeleteClusterWithoutSnapshotAsync(clusterIdentifier);
                }
            }
            else
            {
                Console.WriteLine("Deleting the Amazon Redshift cluster...");
                await Wrapper.DeleteClusterWithoutSnapshotAsync(clusterIdentifier);
            }
            Console.WriteLine("================================================================================");

            Console.WriteLine("================================================================================");
            Console.WriteLine("This concludes the Amazon Redshift SDK Getting Started scenario.");
            Console.WriteLine("================================================================================");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"An error occurred during the scenario: {ex.Message}");
            Console.WriteLine("Deleting the Amazon Redshift cluster...");
            await Wrapper!.DeleteClusterWithoutSnapshotAsync(clusterIdentifier);
            throw;
        }
    }

    /// <summary>
    /// Populate the Movies table with data from the JSON file.
    /// </summary>
    /// <param name="clusterIdentifier">The cluster identifier.</param>
    /// <param name="database">The database name.</param>
    /// <param name="dbUser">The database user.</param>
    /// <param name="recordCount">Number of records to insert.</param>
    private static async Task PopulateMoviesTableAsync(string clusterIdentifier, string database, string dbUser, int recordCount)
    {
        if (!File.Exists(_moviesFilePath))
        {
            throw new FileNotFoundException($"Required movies data file not found at: {_moviesFilePath}");
        }

        var jsonContent = await File.ReadAllTextAsync(_moviesFilePath);
        var options = new JsonSerializerOptions
        {
            PropertyNameCaseInsensitive = true
        };
        var movies = JsonSerializer.Deserialize<List<Movie>>(jsonContent, options);

        if (movies == null || movies.Count == 0)
        {
            throw new InvalidOperationException("Failed to parse movies JSON file or file is empty.");
        }

        var insertCount = Math.Min(recordCount, movies.Count);

        for (int i = 0; i < insertCount; i++)
        {
            var movie = movies[i];
            await Wrapper!.InsertMovieAsync(clusterIdentifier, database, dbUser, i, movie.Title, movie.Year);
        }
    }

    /// <summary>
    /// Movie data model.
    /// </summary>
    private class Movie
    {
        public string Title { get; set; } = string.Empty;
        public int Year { get; set; }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CreateCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/CreateCluster)
  + [DescribeClusters](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/DescribeClusters)
  + [DescribeStatement](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/DescribeStatement)
  + [ExecuteStatement](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/ExecuteStatement)
  + [GetStatementResult](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/GetStatementResult)
  + [ListDatabasesPaginator](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/ListDatabasesPaginator)
  + [ModifyCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/ModifyCluster)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="redshift_CreateCluster_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 

```
    /// <summary>
    /// Create a new Amazon Redshift cluster.
    /// </summary>
    /// <param name="clusterIdentifier">The identifier for the cluster.</param>
    /// <param name="databaseName">The name of the database.</param>
    /// <param name="masterUsername">The master username.</param>
    /// <param name="masterUserPassword">The master user password.</param>
    /// <param name="nodeType">The node type for the cluster.</param>
    /// <returns>The cluster that was created.</returns>
    public async Task<Cluster> CreateClusterAsync(string clusterIdentifier, string databaseName,
        string masterUsername, string masterUserPassword, string nodeType = "ra3.large")
    {
        try
        {
            var request = new CreateClusterRequest
            {
                ClusterIdentifier = clusterIdentifier,
                DBName = databaseName,
                MasterUsername = masterUsername,
                MasterUserPassword = masterUserPassword,
                NodeType = nodeType,
                NumberOfNodes = 1,
                ClusterType = "single-node"
            };

            var response = await _redshiftClient.CreateClusterAsync(request);
            Console.WriteLine($"Created cluster {clusterIdentifier}");
            return response.Cluster;
        }
        catch (ClusterAlreadyExistsException ex)
        {
            Console.WriteLine($"Cluster already exists: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't create cluster. Here's why: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/CreateCluster)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteCluster`
<a name="redshift_DeleteCluster_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 

```
    /// <summary>
    /// Delete an Amazon Redshift cluster without a final snapshot.
    /// </summary>
    /// <param name="clusterIdentifier">The identifier for the cluster.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> DeleteClusterWithoutSnapshotAsync(string clusterIdentifier)
    {
        try
        {
            var request = new DeleteClusterRequest
            {
                ClusterIdentifier = clusterIdentifier,
                SkipFinalClusterSnapshot = true
            };

            var response = await _redshiftClient.DeleteClusterAsync(request);
            Console.WriteLine($"The {clusterIdentifier} was deleted");
            return true;
        }
        catch (ClusterNotFoundException ex)
        {
            Console.WriteLine($"Cluster not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't delete cluster. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/DeleteCluster)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeClusters`
<a name="redshift_DescribeClusters_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 

```
    /// <summary>
    /// Describe Amazon Redshift clusters.
    /// </summary>
    /// <param name="clusterIdentifier">Optional cluster identifier to describe a specific cluster.</param>
    /// <returns>A list of clusters.</returns>
    public async Task<List<Cluster>> DescribeClustersAsync(string? clusterIdentifier = null)
    {
        try
        {
            var clusters = new List<Cluster>();
            var request = new DescribeClustersRequest();
            if (!string.IsNullOrEmpty(clusterIdentifier))
            {
                request.ClusterIdentifier = clusterIdentifier;
            }

            var clustersPaginator = _redshiftClient.Paginators.DescribeClusters(request);
            await foreach (var response in clustersPaginator.Responses)
            {
                if (response.Clusters != null)
                    clusters.AddRange(response.Clusters);
            }

            Console.WriteLine($"{clusters.Count} cluster(s) retrieved.");
            foreach (var cluster in clusters)
            {
                Console.WriteLine($"\t{cluster.ClusterIdentifier} (Status: {cluster.ClusterStatus})");
            }

            return clusters;
        }
        catch (ClusterNotFoundException ex)
        {
            Console.WriteLine($"Cluster {clusterIdentifier} not found: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't describe clusters. Here's why: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/DescribeClusters)di *Referensi AWS SDK untuk .NET API*. 

### `DescribeStatement`
<a name="redshift_DescribeStatement_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStatement`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 

```
    /// <summary>
    /// Describe a statement execution.
    /// </summary>
    /// <param name="statementId">The statement ID.</param>
    /// <returns>The statement description.</returns>
    public async Task<DescribeStatementResponse> DescribeStatementAsync(string statementId)
    {
        try
        {
            var request = new DescribeStatementRequest
            {
                Id = statementId
            };

            var response = await _redshiftDataClient.DescribeStatementAsync(request);
            return response;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ResourceNotFoundException ex)
        {
            Console.WriteLine($"Statement not found: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't describe statement. Here's why: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [DescribeStatement](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/DescribeStatement)di *Referensi AWS SDK untuk .NET API*. 

### `GetStatementResult`
<a name="redshift_GetStatementResult_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetStatementResult`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 

```
    /// <summary>
    /// Get the results of a statement execution.
    /// </summary>
    /// <param name="statementId">The statement ID.</param>
    /// <returns>A list of result rows.</returns>
    public async Task<List<List<Field>>> GetStatementResultAsync(string statementId)
    {
        try
        {
            var request = new GetStatementResultRequest
            {
                Id = statementId
            };

            var response = await _redshiftDataClient.GetStatementResultAsync(request);
            return response.Records;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ResourceNotFoundException ex)
        {
            Console.WriteLine($"Statement not found: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't get statement result. Here's why: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [GetStatementResult](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/GetStatementResult)di *Referensi AWS SDK untuk .NET API*. 

### `ListDatabases`
<a name="redshift_ListDatabases_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatabases`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 

```
    /// <summary>
    /// List databases in a Redshift cluster.
    /// </summary>
    /// <param name="clusterIdentifier">The cluster identifier.</param>
    /// <param name="dbUser">The database user.</param>
    /// <param name="dbUser">The database name for authentication.</param>
    /// <returns>A list of database names.</returns>
    public async Task<List<string>> ListDatabasesAsync(string clusterIdentifier, string dbUser, string databaseName)
    {
        try
        {
            var request = new ListDatabasesRequest
            {
                ClusterIdentifier = clusterIdentifier,
                DbUser = dbUser,
                Database = databaseName
            };

            var response = await _redshiftDataClient.ListDatabasesAsync(request);
            var databases = new List<string>();

            foreach (var database in response.Databases)
            {
                Console.WriteLine($"The database name is : {database}");
                databases.Add(database);
            }

            return databases;
        }
        catch (Amazon.RedshiftDataAPIService.Model.ValidationException ex)
        {
            Console.WriteLine($"Validation error: {ex.Message}");
            throw;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't list databases. Here's why: {ex.Message}");
            throw;
        }
    }
```
+  Untuk detail API, lihat [ListDatabases](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/ListDatabases)di *Referensi AWS SDK untuk .NET API*. 

### `ModifyCluster`
<a name="redshift_ModifyCluster_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyCluster`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Redshift#code-examples). 

```
    /// <summary>
    /// Modify an Amazon Redshift cluster.
    /// </summary>
    /// <param name="clusterIdentifier">The identifier for the cluster.</param>
    /// <param name="preferredMaintenanceWindow">The preferred maintenance window.</param>
    /// <returns>True if successful.</returns>
    public async Task<bool> ModifyClusterAsync(string clusterIdentifier, string preferredMaintenanceWindow)
    {
        try
        {
            var request = new ModifyClusterRequest
            {
                ClusterIdentifier = clusterIdentifier,
                PreferredMaintenanceWindow = preferredMaintenanceWindow
            };

            var response = await _redshiftClient.ModifyClusterAsync(request);
            Console.WriteLine($"The modified cluster was successfully modified and has {response.Cluster.PreferredMaintenanceWindow} as the maintenance window");
            return true;
        }
        catch (ClusterNotFoundException ex)
        {
            Console.WriteLine($"Cluster {clusterIdentifier} not found: {ex.Message}");
            return false;
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't modify cluster. Here's why: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [ModifyCluster](https://docs.aws.amazon.com/goto/DotNetSDKV4/redshift-2012-12-01/ModifyCluster)di *Referensi AWS SDK untuk .NET API*. 

# Contoh Amazon S3 menggunakan SDK untuk .NET (v4)
<a name="csharp_4_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk .NET (v4) dengan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 

```
/// <summary>
/// Hello Amazon Simple Storage Service
// (Amazon S3) example.
/// </summary>
public class HelloS3
{
    /// <summary>
    /// Main method to run the Hello S3 example.
    /// </summary>
    /// <param name="args">Command line arguments.</param>
    /// <returns>A Task object.</returns>
    public static async Task Main(string[] args)
    {
        var s3Client = new AmazonS3Client();

        try
        {
            Console.WriteLine("Hello Amazon S3! Let's list your buckets:");
            Console.WriteLine(new string('-', 80));

            // Use the built-in paginator to list buckets
            var request = new ListBucketsRequest();
            var paginator = s3Client.Paginators.ListBuckets(request);

            var buckets = new List<S3Bucket>();

            await foreach (var response in paginator.Responses)
            {
                buckets.AddRange(response.Buckets);
            }

            if (buckets.Any())
            {
                Console.WriteLine($"Found {buckets.Count} S3 buckets:");
                Console.WriteLine();

                foreach (var bucket in buckets)
                {
                    Console.WriteLine($"- Bucket Name: {bucket.BucketName}");
                    Console.WriteLine($"  Creation Date: {bucket.CreationDate:yyyy-MM-dd HH:mm:ss UTC}");
                    Console.WriteLine();
                }
            }
            else
            {
                Console.WriteLine("No S3 buckets found in your account.");
            }

            Console.WriteLine("Hello S3 completed successfully.");
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"S3 service error occurred: {ex.Message}");
        }
        catch (Exception ex)
        {
            Console.WriteLine($"Couldn't list S3 buckets. Here's why: {ex.Message}");
        }
    }
}
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK untuk .NET API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_csharp_4_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 
Jalankan skenario interaktif yang menunjukkan fitur Amazon S3.  

```
public class S3_Basics
{
    public static bool IsInteractive = true;
    public static string BucketName = null!;
    public static string TempFilePath = null!;
    public static S3Wrapper _s3Wrapper = null!;
    public static ILogger<S3_Basics> _logger = null!;

    public static async Task Main(string[] args)
    {
        // Set up dependency injection for the Amazon service.
        using var host = Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonS3>()
                    .AddTransient<S3Wrapper>()
                    .AddLogging(builder => builder.AddConsole()))
            .Build();

        _logger = LoggerFactory.Create(builder => builder.AddConsole())
            .CreateLogger<S3_Basics>();

        _s3Wrapper = host.Services.GetRequiredService<S3Wrapper>();

        var sepBar = new string('-', 45);

        Console.WriteLine(sepBar);
        Console.WriteLine("Amazon Simple Storage Service (Amazon S3) basic");
        Console.WriteLine("procedures. This application will:");
        Console.WriteLine("\n\t1. Create a bucket");
        Console.WriteLine("\n\t2. Upload an object to the new bucket");
        Console.WriteLine("\n\t3. Copy the uploaded object to a folder in the bucket");
        Console.WriteLine("\n\t4. List the items in the new bucket");
        Console.WriteLine("\n\t5. Delete all the items in the bucket");
        Console.WriteLine("\n\t6. Delete the bucket");
        Console.WriteLine(sepBar);

        await RunScenario(_s3Wrapper, _logger);

        Console.WriteLine(sepBar);
        Console.WriteLine("The Amazon S3 scenario has successfully completed.");
        Console.WriteLine(sepBar);
    }

    /// <summary>
    /// Run the S3 Basics scenario with injected dependencies.
    /// </summary>
    /// <param name="s3Wrapper">The S3 wrapper instance.</param>
    /// <param name="scenarioLogger">The logger instance.</param>
    /// <returns>A Task object.</returns>
    public static async Task RunScenario(S3Wrapper s3Wrapper, ILogger<S3_Basics> scenarioLogger)
    {
        string bucketName = BucketName;
        string filePath = TempFilePath;
        string keyName = string.Empty;

        var sepBar = new string('-', 45);

        try
        {
            // Create a bucket.
            Console.WriteLine($"\n{sepBar}");
            Console.WriteLine("\nCreate a new Amazon S3 bucket.\n");
            Console.WriteLine(sepBar);

            if (IsInteractive)
            {
                Console.Write("Please enter a name for the new bucket: ");
                bucketName = Console.ReadLine();
            }
            else
            {
                Console.WriteLine($"Using bucket name: {bucketName}");
            }

            var success = await s3Wrapper.CreateBucketAsync(bucketName);
            if (success)
            {
                Console.WriteLine($"Successfully created bucket: {bucketName}.\n");
            }
            else
            {
                Console.WriteLine($"Could not create bucket: {bucketName}.\n");
            }

            Console.WriteLine(sepBar);
            Console.WriteLine("Upload a file to the new bucket.");
            Console.WriteLine(sepBar);

            if (IsInteractive)
            {
                // Get the local path and filename for the file to upload.
                while (string.IsNullOrEmpty(filePath))
                {
                    Console.Write("Please enter the path and filename of the file to upload: ");
                    filePath = Console.ReadLine();

                    // Confirm that the file exists on the local computer.
                    if (!File.Exists(filePath))
                    {
                        Console.WriteLine($"Couldn't find {filePath}. Try again.\n");
                        filePath = string.Empty;
                    }
                }
            }
            else
            {
                // Use the public variable if set, otherwise create a temp file
                if (!string.IsNullOrEmpty(TempFilePath))
                {
                    filePath = TempFilePath;
                    Console.WriteLine($"Using provided test file: {filePath}");
                }
                else
                {
                    // Create a temporary test file for non-interactive mode
                    filePath = Path.GetTempFileName();
                    var testContent = "This is a test file for S3 basics scenario.\nGenerated on: " + DateTime.UtcNow.ToString("yyyy-MM-dd HH:mm:ss UTC");
                    await File.WriteAllTextAsync(filePath, testContent);
                    Console.WriteLine($"Created temporary test file: {filePath}");
                }
            }

            // Get the file name from the full path.
            keyName = Path.GetFileName(filePath);

            success = await s3Wrapper.UploadFileAsync(bucketName, keyName, filePath);

            if (success)
            {
                Console.WriteLine($"Successfully uploaded {keyName} from {filePath} to {bucketName}.\n");
            }
            else
            {
                Console.WriteLine($"Could not upload {keyName}.\n");
            }

            // Set up download path
            string downloadPath = string.Empty;

            if (IsInteractive)
            {
                // Now get a new location where we can save the file.
                while (string.IsNullOrEmpty(downloadPath))
                {
                    // First get the path to which the file will be downloaded.
                    Console.Write("Please enter the path where the file will be downloaded: ");
                    downloadPath = Console.ReadLine();

                    // Confirm that the file doesn't already exist on the local computer.
                    if (File.Exists($"{downloadPath}\\{keyName}"))
                    {
                        Console.WriteLine($"Sorry, the file already exists in that location.\n");
                        downloadPath = string.Empty;
                    }
                }
            }
            else
            {
                downloadPath = Path.GetTempPath();
                var downloadFile = Path.Combine(downloadPath, keyName);
                if (File.Exists(downloadFile))
                {
                    File.Delete(downloadFile);
                }

                Console.WriteLine($"Using download path: {downloadPath}");
            }

            // Download an object from a bucket.
            success = await s3Wrapper.DownloadObjectFromBucketAsync(bucketName, keyName, downloadPath);

            if (success)
            {
                Console.WriteLine($"Successfully downloaded {keyName}.\n");
            }
            else
            {
                Console.WriteLine($"Sorry, could not download {keyName}.\n");
            }

            // Copy the object to a different folder in the bucket.
            string folderName = string.Empty;

            if (IsInteractive)
            {
                while (string.IsNullOrEmpty(folderName))
                {
                    Console.Write("Please enter the name of the folder to copy your object to: ");
                    folderName = Console.ReadLine();
                }
            }
            else
            {
                folderName = "test-folder";
                Console.WriteLine($"Using folder name: {folderName}");
            }

            await s3Wrapper.CopyObjectInBucketAsync(bucketName, keyName, folderName);

            // List the objects in the bucket.
            await s3Wrapper.ListBucketContentsAsync(bucketName);

            // Delete the contents of the bucket.
            if (IsInteractive)
            {
                Console.WriteLine("Press <Enter> when you are ready to delete the bucket contents.");
                _ = Console.ReadLine();
            }

            var deleteContentsSuccess = await s3Wrapper.DeleteBucketContentsAsync(bucketName);
            if (deleteContentsSuccess)
            {
                Console.WriteLine($"Successfully deleted contents of {bucketName}.\n");
            }
            else
            {
                Console.WriteLine($"Sorry, could not delete contents of {bucketName}.\n");
            }

            if (IsInteractive)
            {
                // Deleting the bucket too quickly after separately deleting its contents can
                // cause an error that the bucket isn't empty. To delete contents and bucket in one
                // operation, use AmazonS3Util.DeleteS3BucketWithObjectsAsync
                Console.WriteLine("Press <Enter> when you are ready to delete the bucket.");
                _ = Console.ReadLine();
            }
            else
            {
                // Add a small delay for non-interactive mode to ensure objects are fully deleted.
                Console.WriteLine("Waiting a moment for objects to be fully deleted...");
                await Task.Delay(2000);
            }

            // Delete the bucket.
            var deleteSuccess = await s3Wrapper.DeleteBucketAsync(bucketName);
            if (deleteSuccess)
            {
                Console.WriteLine($"Successfully deleted {bucketName}.\n");
            }
            else
            {
                Console.WriteLine($"Sorry, could not delete {bucketName}.\n");
            }

            // Clean up temporary files in non-interactive mode
            if (!IsInteractive)
            {
                try
                {
                    if (File.Exists(filePath))
                    {
                        File.Delete(filePath);
                        Console.WriteLine("Cleaned up temporary test file.");
                    }

                    var downloadFile = Path.Combine(downloadPath, keyName);
                    if (File.Exists(downloadFile))
                    {
                        File.Delete(downloadFile);
                        Console.WriteLine("Cleaned up downloaded test file.");
                    }
                }
                catch (Exception ex)
                {
                    scenarioLogger.LogWarning(ex, "Failed to clean up temporary files.");
                }
            }
        }
        catch (Exception ex)
        {
            scenarioLogger.LogError(ex, "An error occurred during the S3 scenario execution.");

            // Clean up on error - delete bucket if it exists
            try
            {
                if (!string.IsNullOrEmpty(bucketName))
                {
                    await s3Wrapper.DeleteBucketContentsAsync(bucketName);
                    await s3Wrapper.DeleteBucketAsync(bucketName);
                }
            }
            catch (Exception cleanupEx)
            {
                scenarioLogger.LogError(cleanupEx, "Error during cleanup.");
            }

            // Clean up temporary files in non-interactive mode
            if (!IsInteractive)
            {
                try
                {
                    if (!string.IsNullOrEmpty(filePath) && File.Exists(filePath))
                    {
                        File.Delete(filePath);
                    }
                }
                catch (Exception fileCleanupEx)
                {
                    scenarioLogger.LogWarning(fileCleanupEx, "Failed to clean up temporary files during error handling.");
                }
            }

            throw;
        }
    }
}
```
Kelas pembungkus untuk metode Amazon S3 SDK.  

```
using Amazon.S3;
using Amazon.S3.Model;

namespace S3_Actions;

/// <summary>
/// This class contains all of the methods for working with Amazon Simple
/// Storage Service (Amazon S3) buckets.
/// </summary>
public class S3Wrapper
{
    private readonly IAmazonS3 _amazonS3;

    /// <summary>
    /// Initializes a new instance of the <see cref="S3Wrapper"/> class.
    /// </summary>
    /// <param name="amazonS3">An initialized Amazon S3 client object.</param>
    public S3Wrapper(IAmazonS3 amazonS3)
    {
        _amazonS3 = amazonS3;
    }


    /// <summary>
    /// Shows how to create a new Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name of the bucket to create.</param>
    /// <returns>A boolean value representing the success or failure of
    /// the bucket creation process.</returns>
    public async Task<bool> CreateBucketAsync(string bucketName)
    {
        try
        {
            var request = new PutBucketRequest
            {
                BucketName = bucketName,
                UseClientRegion = true,
            };

            var response = await _amazonS3.PutBucketAsync(request);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error creating bucket: '{ex.Message}'");
            return false;
        }
    }



    /// <summary>
    /// Shows how to upload a file from the local computer to an Amazon S3
    /// bucket.
    /// </summary>
    /// <param name="bucketName">The Amazon S3 bucket to which the object
    /// will be uploaded.</param>
    /// <param name="objectName">The object to upload.</param>
    /// <param name="filePath">The path, including file name, of the object
    /// on the local computer to upload.</param>
    /// <returns>A boolean value indicating the success or failure of the
    /// upload procedure.</returns>
    public async Task<bool> UploadFileAsync(
        string bucketName,
        string objectName,
        string filePath)
    {
        try
        {
            var request = new PutObjectRequest
            {
                BucketName = bucketName,
                Key = objectName,
                FilePath = filePath,
            };

            var response = await _amazonS3.PutObjectAsync(request);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error uploading {objectName}: {ex.Message}");
            return false;
        }
    }



    /// <summary>
    /// Shows how to download an object from an Amazon S3 bucket to the
    /// local computer.
    /// </summary>
    /// <param name="bucketName">The name of the bucket where the object is
    /// currently stored.</param>
    /// <param name="objectName">The name of the object to download.</param>
    /// <param name="filePath">The path, including filename, where the
    /// downloaded object will be stored.</param>
    /// <returns>A boolean value indicating the success or failure of the
    /// download process.</returns>
    public async Task<bool> DownloadObjectFromBucketAsync(
        string bucketName,
        string objectName,
        string filePath)
    {
        var request = new GetObjectRequest
        {
            BucketName = bucketName,
            Key = objectName,
        };

        using GetObjectResponse response = await _amazonS3.GetObjectAsync(request);

        try
        {
            // Save object to local file
            await response.WriteResponseStreamToFileAsync($"{filePath}\\{objectName}", true, CancellationToken.None);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error saving {objectName}: {ex.Message}");
            return false;
        }
    }



    /// <summary>
    /// Copies an object in an Amazon S3 bucket to a folder within the
    /// same bucket.
    /// </summary>
    /// <param name="bucketName">The name of the Amazon S3 bucket where the
    /// object to copy is located.</param>
    /// <param name="objectName">The object to be copied.</param>
    /// <param name="folderName">The folder to which the object will
    /// be copied.</param>
    /// <returns>A boolean value that indicates the success or failure of
    /// the copy operation.</returns>
    public async Task<bool> CopyObjectInBucketAsync(
        string bucketName,
        string objectName,
        string folderName)
    {
        try
        {
            var request = new CopyObjectRequest
            {
                SourceBucket = bucketName,
                SourceKey = objectName,
                DestinationBucket = bucketName,
                DestinationKey = $"{folderName}\\{objectName}",
            };
            var response = await _amazonS3.CopyObjectAsync(request);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error copying object: '{ex.Message}'");
            return false;
        }
    }



    /// <summary>
    /// Shows how to list the objects in an Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name of the bucket for which to list.
    /// <param name="printList">True to print out the list.
    /// <returns>The collection of objects.</returns>
    public async Task<List<S3Object>?> ListBucketContentsAsync(string bucketName, bool printList = true)
    {
        try
        {
            var request = new ListObjectsV2Request
            {
                BucketName = bucketName,
                MaxKeys = 5,
            };

            if (printList)
            {
                Console.WriteLine("--------------------------------------");
                Console.WriteLine($"Listing the contents of {bucketName}:");
                Console.WriteLine("--------------------------------------");
            }

            var listObjectsV2Paginator = _amazonS3.Paginators.ListObjectsV2(new ListObjectsV2Request
            {
                BucketName = bucketName,
            });
            var s3Objects = new List<S3Object>();
            await foreach (var response in listObjectsV2Paginator.Responses)
            {
                if (response.S3Objects != null)
                {
                    s3Objects.AddRange(response.S3Objects);
                }
            }

            if (printList)
            {
                Console.WriteLine($"Number of Objects: {s3Objects.Count}");
                foreach (var entry in s3Objects)
                {
                    Console.WriteLine($"Key = {entry.Key} Size = {entry.Size}");
                }
            }

            return s3Objects;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error encountered on server. Message:'{ex.Message}' getting list of objects.");
            return null;
        }
    }



    /// <summary>
    /// Delete all of the objects stored in an existing Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name of the bucket from which the
    /// contents will be deleted.</param>
    /// <returns>A boolean value that represents the success or failure of
    /// deleting all of the objects in the bucket.</returns>
    public async Task<bool> DeleteBucketContentsAsync(string bucketName)
    {
        // Iterate over the contents of the bucket and delete all objects.
        try
        {
            // Delete all objects in the bucket.
            var deleteList = await ListBucketContentsAsync(bucketName, false);
            if (deleteList != null && deleteList.Any())
            {
                await _amazonS3.DeleteObjectsAsync(new DeleteObjectsRequest()
                {
                    BucketName = bucketName,
                    Objects = deleteList.Select(o => new KeyVersion { Key = o.Key }).ToList(),
                });
            }

            return true;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error deleting objects: {ex.Message}");
            return false;
        }
    }



    /// <summary>
    /// Shows how to delete an Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name of the Amazon S3 bucket to delete.</param>
    /// <returns>A boolean value that represents the success or failure of
    /// the delete operation.</returns>
    public async Task<bool> DeleteBucketAsync(string bucketName)
    {
        try
        {
            var request = new DeleteBucketRequest { BucketName = bucketName, };

            await _amazonS3.DeleteBucketAsync(request);
            return true;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error deleting bucket: {ex.Message}");
            return false;
        }
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk .NET *.
  + [CopyObject](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/DeleteBucket)
  + [DeleteObjects](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/DeleteObjects)
  + [GetObject](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/GetObject)
  + [ListObjectsV2](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/ListObjectsV2)
  + [PutObject](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 

```
    /// <summary>
    /// Copies an object in an Amazon S3 bucket to a folder within the
    /// same bucket.
    /// </summary>
    /// <param name="bucketName">The name of the Amazon S3 bucket where the
    /// object to copy is located.</param>
    /// <param name="objectName">The object to be copied.</param>
    /// <param name="folderName">The folder to which the object will
    /// be copied.</param>
    /// <returns>A boolean value that indicates the success or failure of
    /// the copy operation.</returns>
    public async Task<bool> CopyObjectInBucketAsync(
        string bucketName,
        string objectName,
        string folderName)
    {
        try
        {
            var request = new CopyObjectRequest
            {
                SourceBucket = bucketName,
                SourceKey = objectName,
                DestinationBucket = bucketName,
                DestinationKey = $"{folderName}\\{objectName}",
            };
            var response = await _amazonS3.CopyObjectAsync(request);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error copying object: '{ex.Message}'");
            return false;
        }
    }
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/CopyObject)di *Referensi AWS SDK untuk .NET API*. 

### `CreateBucket`
<a name="s3_CreateBucket_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 

```
    /// <summary>
    /// Shows how to create a new Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name of the bucket to create.</param>
    /// <returns>A boolean value representing the success or failure of
    /// the bucket creation process.</returns>
    public async Task<bool> CreateBucketAsync(string bucketName)
    {
        try
        {
            var request = new PutBucketRequest
            {
                BucketName = bucketName,
                UseClientRegion = true,
            };

            var response = await _amazonS3.PutBucketAsync(request);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error creating bucket: '{ex.Message}'");
            return false;
        }
    }
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/CreateBucket)di *Referensi AWS SDK untuk .NET API*. 

### `CreatePresignedPost`
<a name="s3_CreatePresignedPost_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePresignedPost`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 
Buat URL POST yang telah ditentukan sebelumnya.  

```
    /// <summary>
    /// Create a presigned POST URL with conditions.
    /// </summary>
    /// <param name="s3Client">The Amazon S3 client.</param>
    /// <param name="bucketName">The name of the bucket.</param>
    /// <param name="objectKey">The object key (path) where the uploaded file will be stored.</param>
    /// <param name="expires">When the presigned URL expires.</param>
    /// <param name="fields">Dictionary of fields to add to the form.</param>
    /// <param name="conditions">List of conditions to apply.</param>
    /// <returns>A CreatePresignedPostResponse object with URL and form fields.</returns>
    public async Task<CreatePresignedPostResponse> CreatePresignedPostAsync(
        IAmazonS3 s3Client,
        string bucketName,
        string objectKey,
        DateTime expires,
        Dictionary<string, string>? fields = null,
        List<S3PostCondition>? conditions = null)
    {
        var request = new CreatePresignedPostRequest
        {
            BucketName = bucketName,
            Key = objectKey,
            Expires = expires
        };

        // Add custom fields if provided
        if (fields != null)
        {
            foreach (var field in fields)
            {
                request.Fields.Add(field.Key, field.Value);
            }
        }

        // Add conditions if provided
        if (conditions != null)
        {
            foreach (var condition in conditions)
            {
                request.Conditions.Add(condition);
            }
        }

        return await s3Client.CreatePresignedPostAsync(request);
    }
```
+  Untuk detail API, lihat [CreatePresignedPost](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/CreatePresignedPost)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 

```
    /// <summary>
    /// Shows how to delete an Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name of the Amazon S3 bucket to delete.</param>
    /// <returns>A boolean value that represents the success or failure of
    /// the delete operation.</returns>
    public async Task<bool> DeleteBucketAsync(string bucketName)
    {
        try
        {
            var request = new DeleteBucketRequest { BucketName = bucketName, };

            await _amazonS3.DeleteBucketAsync(request);
            return true;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error deleting bucket: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/DeleteBucket)di *Referensi AWS SDK untuk .NET API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 

```
    /// <summary>
    /// Delete all of the objects stored in an existing Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name of the bucket from which the
    /// contents will be deleted.</param>
    /// <returns>A boolean value that represents the success or failure of
    /// deleting all of the objects in the bucket.</returns>
    public async Task<bool> DeleteBucketContentsAsync(string bucketName)
    {
        // Iterate over the contents of the bucket and delete all objects.
        try
        {
            // Delete all objects in the bucket.
            var deleteList = await ListBucketContentsAsync(bucketName, false);
            if (deleteList != null && deleteList.Any())
            {
                await _amazonS3.DeleteObjectsAsync(new DeleteObjectsRequest()
                {
                    BucketName = bucketName,
                    Objects = deleteList.Select(o => new KeyVersion { Key = o.Key }).ToList(),
                });
            }

            return true;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error deleting objects: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/DeleteObjects)di *Referensi AWS SDK untuk .NET API*. 

### `GetObject`
<a name="s3_GetObject_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 

```
    /// <summary>
    /// Shows how to download an object from an Amazon S3 bucket to the
    /// local computer.
    /// </summary>
    /// <param name="bucketName">The name of the bucket where the object is
    /// currently stored.</param>
    /// <param name="objectName">The name of the object to download.</param>
    /// <param name="filePath">The path, including filename, where the
    /// downloaded object will be stored.</param>
    /// <returns>A boolean value indicating the success or failure of the
    /// download process.</returns>
    public async Task<bool> DownloadObjectFromBucketAsync(
        string bucketName,
        string objectName,
        string filePath)
    {
        var request = new GetObjectRequest
        {
            BucketName = bucketName,
            Key = objectName,
        };

        using GetObjectResponse response = await _amazonS3.GetObjectAsync(request);

        try
        {
            // Save object to local file
            await response.WriteResponseStreamToFileAsync($"{filePath}\\{objectName}", true, CancellationToken.None);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error saving {objectName}: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/GetObject)di *Referensi AWS SDK untuk .NET API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 

```
    /// <summary>
    /// Shows how to list the objects in an Amazon S3 bucket.
    /// </summary>
    /// <param name="bucketName">The name of the bucket for which to list.
    /// <param name="printList">True to print out the list.
    /// <returns>The collection of objects.</returns>
    public async Task<List<S3Object>?> ListBucketContentsAsync(string bucketName, bool printList = true)
    {
        try
        {
            var request = new ListObjectsV2Request
            {
                BucketName = bucketName,
                MaxKeys = 5,
            };

            if (printList)
            {
                Console.WriteLine("--------------------------------------");
                Console.WriteLine($"Listing the contents of {bucketName}:");
                Console.WriteLine("--------------------------------------");
            }

            var listObjectsV2Paginator = _amazonS3.Paginators.ListObjectsV2(new ListObjectsV2Request
            {
                BucketName = bucketName,
            });
            var s3Objects = new List<S3Object>();
            await foreach (var response in listObjectsV2Paginator.Responses)
            {
                if (response.S3Objects != null)
                {
                    s3Objects.AddRange(response.S3Objects);
                }
            }

            if (printList)
            {
                Console.WriteLine($"Number of Objects: {s3Objects.Count}");
                foreach (var entry in s3Objects)
                {
                    Console.WriteLine($"Key = {entry.Key} Size = {entry.Size}");
                }
            }

            return s3Objects;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error encountered on server. Message:'{ex.Message}' getting list of objects.");
            return null;
        }
    }
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/ListObjectsV2) di *Referensi AWS SDK untuk .NET API*. 

### `PutObject`
<a name="s3_PutObject_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3#code-examples). 

```
    /// <summary>
    /// Shows how to upload a file from the local computer to an Amazon S3
    /// bucket.
    /// </summary>
    /// <param name="bucketName">The Amazon S3 bucket to which the object
    /// will be uploaded.</param>
    /// <param name="objectName">The object to upload.</param>
    /// <param name="filePath">The path, including file name, of the object
    /// on the local computer to upload.</param>
    /// <returns>A boolean value indicating the success or failure of the
    /// upload procedure.</returns>
    public async Task<bool> UploadFileAsync(
        string bucketName,
        string objectName,
        string filePath)
    {
        try
        {
            var request = new PutObjectRequest
            {
                BucketName = bucketName,
                Key = objectName,
                FilePath = filePath,
            };

            var response = await _amazonS3.PutObjectAsync(request);
            return response.HttpStatusCode == System.Net.HttpStatusCode.OK;
        }
        catch (AmazonS3Exception ex)
        {
            Console.WriteLine($"Error uploading {objectName}: {ex.Message}");
            return false;
        }
    }
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/DotNetSDKV4/s3-2006-03-01/PutObject)di *Referensi AWS SDK untuk .NET API*. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_csharp_4_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk .NET (v4)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/S3/Scenarios/S3_CreatePresignedPost#code-examples). 
Buat dan gunakan POST presigned URLs untuk upload browser langsung.  

```
/// <summary>
/// Scenario demonstrating the complete workflow for presigned POST URLs:
/// 1. Create an S3 bucket
/// 2. Create a presigned POST URL
/// 3. Upload a file using the presigned POST URL
/// 4. Clean up resources
/// </summary>
public class CreatePresignedPostBasics
{
    public static ILogger<CreatePresignedPostBasics> _logger = null!;
    public static S3Wrapper _s3Wrapper = null!;
    public static UiMethods _uiMethods = null!;
    public static IHttpClientFactory _httpClientFactory = null!;
    public static bool _isInteractive = true;
    public static string? _bucketName;
    public static string? _objectKey;

    /// <summary>
    /// Set up the services and logging.
    /// </summary>
    /// <param name="host">The IHost instance.</param>
    public static void SetUpServices(IHost host)
    {
        var loggerFactory = LoggerFactory.Create(builder =>
        {
            builder.AddConsole();
        });
        _logger = new Logger<CreatePresignedPostBasics>(loggerFactory);

        _s3Wrapper = host.Services.GetRequiredService<S3Wrapper>();
        _httpClientFactory = host.Services.GetRequiredService<IHttpClientFactory>();
        _uiMethods = new UiMethods();
    }

    /// <summary>
    /// Perform the actions defined for the Amazon S3 Presigned POST scenario.
    /// </summary>
    /// <param name="args">Command line arguments.</param>
    /// <returns>A Task object.</returns>
    public static async Task Main(string[] args)
    {
        _isInteractive = !args.Contains("--non-interactive");

        // Set up dependency injection for Amazon S3
        using var host = Microsoft.Extensions.Hosting.Host.CreateDefaultBuilder(args)
            .ConfigureServices((_, services) =>
                services.AddAWSService<IAmazonS3>()
                    .AddTransient<S3Wrapper>()
                    .AddHttpClient()
            )
            .Build();

        SetUpServices(host);

        try
        {
            // Display overview
            _uiMethods.DisplayOverview();
            _uiMethods.PressEnter(_isInteractive);

            // Step 1: Create bucket
            await CreateBucketAsync();
            _uiMethods.PressEnter(_isInteractive);

            // Step 2: Create presigned URL
            _uiMethods.DisplayTitle("Step 2: Create presigned POST URL");
            var response = await CreatePresignedPostAsync();
            _uiMethods.PressEnter(_isInteractive);

            // Step 3: Display URL and fields
            _uiMethods.DisplayTitle("Step 3: Presigned POST URL details");
            DisplayPresignedPostFields(response);
            _uiMethods.PressEnter(_isInteractive);

            // Step 4: Upload file
            _uiMethods.DisplayTitle("Step 4: Upload test file using presigned POST URL");
            await UploadFileAsync(response);
            _uiMethods.PressEnter(_isInteractive);

            // Step 5: Verify file exists
            await VerifyFileExistsAsync();
            _uiMethods.PressEnter(_isInteractive);

            // Step 6: Cleanup
            _uiMethods.DisplayTitle("Step 6: Clean up resources");
            await CleanupAsync();

            _uiMethods.DisplayTitle("S3 Presigned POST Scenario completed successfully!");
            _uiMethods.PressEnter(_isInteractive);
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "Error in scenario");
            Console.WriteLine($"Error: {ex.Message}");

            // Attempt cleanup if there was an error
            if (!string.IsNullOrEmpty(_bucketName))
            {
                _uiMethods.DisplayTitle("Cleaning up resources after error");
                await _s3Wrapper.DeleteBucketAsync(_bucketName);
                Console.WriteLine($"Cleaned up bucket: {_bucketName}");
            }
        }
    }

    /// <summary>
    /// Create an S3 bucket for the scenario.
    /// </summary>
    private static async Task CreateBucketAsync()
    {
        _uiMethods.DisplayTitle("Step 1: Create an S3 bucket");

        // Generate a default bucket name for the scenario
        var defaultBucketName = $"presigned-post-demo-{DateTime.Now:yyyyMMddHHmmss}".ToLower();

        // Prompt user for bucket name or use default in non-interactive mode
        _bucketName = _uiMethods.GetUserInput(
            $"Enter S3 bucket name (or press Enter for '{defaultBucketName}'): ",
            defaultBucketName,
            _isInteractive);

        // Basic validation to ensure bucket name is not empty
        if (string.IsNullOrWhiteSpace(_bucketName))
        {
            _bucketName = defaultBucketName;
        }

        Console.WriteLine($"Creating bucket: {_bucketName}");

        await _s3Wrapper.CreateBucketAsync(_bucketName);

        Console.WriteLine($"Successfully created bucket: {_bucketName}");
    }


    /// <summary>
    /// Create a presigned POST URL.
    /// </summary>
    private static async Task<CreatePresignedPostResponse> CreatePresignedPostAsync()
    {
        _objectKey = "example-upload.txt";
        var expiration = DateTime.UtcNow.AddMinutes(10); // Short expiration for the demo

        Console.WriteLine($"Creating presigned POST URL for {_bucketName}/{_objectKey}");
        Console.WriteLine($"Expiration: {expiration} UTC");

        var s3Client = _s3Wrapper.GetS3Client();

        var response = await _s3Wrapper.CreatePresignedPostAsync(
            s3Client, _bucketName!, _objectKey, expiration);

        Console.WriteLine("Successfully created presigned POST URL");
        return response;
    }

    /// <summary>
    /// Upload a file using the presigned POST URL.
    /// </summary>
    private static async Task UploadFileAsync(CreatePresignedPostResponse response)
    {

        // Create a temporary test file to upload
        string testFilePath = Path.GetTempFileName();
        string testContent = "This is a test file for the S3 presigned POST scenario.";

        await File.WriteAllTextAsync(testFilePath, testContent);
        Console.WriteLine($"Created test file at: {testFilePath}");

        // Upload the file using the presigned POST URL
        Console.WriteLine("\nUploading file using the presigned POST URL...");
        var uploadResult = await UploadFileWithPresignedPostAsync(response, testFilePath);

        // Display the upload result
        if (uploadResult.Success)
        {
            Console.WriteLine($"Upload successful! Status code: {uploadResult.StatusCode}");
        }
        else
        {
            Console.WriteLine($"Upload failed with status code: {uploadResult.StatusCode}");
            Console.WriteLine($"Error: {uploadResult.Response}");
            throw new Exception("File upload failed");
        }

        // Clean up the temporary file
        File.Delete(testFilePath);
        Console.WriteLine("Temporary file deleted");
    }

    /// <summary>
    /// Helper method to upload a file using a presigned POST URL.
    /// </summary>
    private static async Task<(bool Success, HttpStatusCode StatusCode, string Response)> UploadFileWithPresignedPostAsync(
        CreatePresignedPostResponse response,
        string filePath)
    {
        try
        {
            _logger.LogInformation("Uploading file {filePath} using presigned POST URL", filePath);

            using var httpClient = _httpClientFactory.CreateClient();
            using var formContent = new MultipartFormDataContent();

            // Add all the fields from the presigned POST response
            foreach (var field in response.Fields)
            {
                formContent.Add(new StringContent(field.Value), field.Key);
            }

            // Add the file content
            var fileStream = File.OpenRead(filePath);
            var fileName = Path.GetFileName(filePath);
            var fileContent = new StreamContent(fileStream);
            fileContent.Headers.ContentType = new MediaTypeHeaderValue("text/plain");
            formContent.Add(fileContent, "file", fileName);

            // Send the POST request
            var httpResponse = await httpClient.PostAsync(response.Url, formContent);
            var responseContent = await httpResponse.Content.ReadAsStringAsync();

            // Log and return the result
            _logger.LogInformation("Upload completed with status code {statusCode}", httpResponse.StatusCode);

            return (httpResponse.IsSuccessStatusCode, httpResponse.StatusCode, responseContent);
        }
        catch (Exception ex)
        {
            _logger.LogError(ex, "Error uploading file");
            return (false, HttpStatusCode.InternalServerError, ex.Message);
        }
    }

    /// <summary>
    /// Verify that the uploaded file exists in the S3 bucket.
    /// </summary>
    private static async Task VerifyFileExistsAsync()
    {
        _uiMethods.DisplayTitle("Step 5: Verify uploaded file exists");

        Console.WriteLine($"Checking if file exists at {_bucketName}/{_objectKey}...");

        try
        {
            var metadata = await _s3Wrapper.GetObjectMetadataAsync(_bucketName!, _objectKey!);

            Console.WriteLine($"File verification successful! File exists in the bucket.");
            Console.WriteLine($"File size: {metadata.ContentLength} bytes");
            Console.WriteLine($"File type: {metadata.Headers.ContentType}");
            Console.WriteLine($"Last modified: {metadata.LastModified}");
        }
        catch (AmazonS3Exception ex) when (ex.StatusCode == System.Net.HttpStatusCode.NotFound)
        {
            Console.WriteLine($"Error: File was not found in the bucket.");
            throw;
        }
    }

    private static void DisplayPresignedPostFields(CreatePresignedPostResponse response)
    {
        Console.WriteLine($"Presigned POST URL: {response.Url}");
        Console.WriteLine("Form fields to include:");

        foreach (var field in response.Fields)
        {
            Console.WriteLine($"  {field.Key}: {field.Value}");
        }
    }

    /// <summary>
    /// Clean up resources created by the scenario.
    /// </summary>
    private static async Task CleanupAsync()
    {
        if (!string.IsNullOrEmpty(_bucketName))
        {
            Console.WriteLine($"Deleting bucket {_bucketName} and its contents...");
            bool result = await _s3Wrapper.DeleteBucketAsync(_bucketName);

            if (result)
            {
                Console.WriteLine("Bucket deleted successfully");
            }
            else
            {
                Console.WriteLine("Failed to delete bucket - it may have been already deleted");
            }
        }
    }
}
```

# Contoh kode untuk AWS CLI dengan skrip Bash
<a name="bash_2_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan skrip AWS Command Line Interface with Bash dengan AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[AWS CLI dengan Panduan Pengembang skrip Bash](https://docs.aws.amazon.com/cli/latest/userguide/cli-chap-welcome.html)** - Lebih lanjut tentang menggunakan Bash dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23bash)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [AWS Batch](bash_2_batch_code_examples.md)
+ [AWS Cloud Map](bash_2_servicediscovery_code_examples.md)
+ [CloudFront](bash_2_cloudfront_code_examples.md)
+ [DynamoDB](bash_2_dynamodb_code_examples.md)
+ [Amazon EC2](bash_2_ec2_code_examples.md)
+ [HealthImaging](bash_2_medical-imaging_code_examples.md)
+ [IAM](bash_2_iam_code_examples.md)
+ [AWS KMS](bash_2_kms_code_examples.md)
+ [Lightsail](bash_2_lightsail_code_examples.md)
+ [Amazon S3](bash_2_s3_code_examples.md)
+ [AWS STS](bash_2_sts_code_examples.md)

# AWS Batch contoh menggunakan AWS CLI dengan skrip Bash
<a name="bash_2_batch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash with AWS Batch.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Memulai dengan Batch dan Fargate
<a name="fargate_GettingStarted_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran eksekusi IAM untuk tugas ECS
+ Buat lingkungan komputasi Fargate yang dikelola
+ Buat antrean pekerjaan dengan pengaturan prioritas
+ Daftarkan definisi pekerjaan untuk beban kerja kontainer
+ Kirim dan pantau eksekusi pekerjaan batch
+ Lihat output pekerjaan di CloudWatch Log
+ Bersihkan sumber daya dalam urutan ketergantungan yang tepat

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/011-getting-started-batch-fargate). 

```
#!/bin/bash

# AWS Batch Fargate Getting Started Script - Fixed Version
# This script demonstrates creating AWS Batch resources with Fargate orchestration
#
# HIGH SEVERITY FIXES APPLIED:
# 1. Added IAM role propagation delay after role creation
# 2. Added resource state validation before deletion attempts

set -e  # Exit on any error

# Configuration
SCRIPT_NAME="batch-fargate-tutorial"
LOG_FILE="${SCRIPT_NAME}-$(date +%Y%m%d-%H%M%S).log"
RANDOM_SUFFIX=$(openssl rand -hex 6)
COMPUTE_ENV_NAME="batch-fargate-compute-${RANDOM_SUFFIX}"
JOB_QUEUE_NAME="batch-fargate-queue-${RANDOM_SUFFIX}"
JOB_DEF_NAME="batch-fargate-jobdef-${RANDOM_SUFFIX}"
JOB_NAME="batch-hello-world-${RANDOM_SUFFIX}"
ROLE_NAME="BatchEcsTaskExecutionRole-${RANDOM_SUFFIX}"
TRUST_POLICY_FILE="batch-trust-policy-${RANDOM_SUFFIX}.json"

# Array to track created resources for cleanup
CREATED_RESOURCES=()

# Logging function
log() {
    echo "[$(date '+%Y-%m-%d %H:%M:%S')] $1" | tee -a "$LOG_FILE"
}

# Error handling function
handle_error() {
    log "ERROR: Script failed at line $1"
    log "Attempting to clean up resources created so far..."
    cleanup_resources
    exit 1
}

# Set up error handling
trap 'handle_error $LINENO' ERR

# Function to wait for resource to be ready
wait_for_compute_env() {
    local env_name=$1
    log "Waiting for compute environment $env_name to be VALID..."
    
    while true; do
        local status=$(aws batch describe-compute-environments \
            --compute-environments "$env_name" \
            --query 'computeEnvironments[0].status' \
            --output text 2>/dev/null || echo "NOT_FOUND")
        
        if [ "$status" = "VALID" ]; then
            log "Compute environment $env_name is ready"
            break
        elif [ "$status" = "INVALID" ] || [ "$status" = "NOT_FOUND" ]; then
            log "ERROR: Compute environment $env_name failed to create properly"
            return 1
        fi
        
        log "Compute environment status: $status. Waiting 10 seconds..."
        sleep 10
    done
}

# Function to wait for job queue to be ready
wait_for_job_queue() {
    local queue_name=$1
    log "Waiting for job queue $queue_name to be VALID..."
    
    while true; do
        local state=$(aws batch describe-job-queues \
            --job-queues "$queue_name" \
            --query 'jobQueues[0].state' \
            --output text 2>/dev/null || echo "NOT_FOUND")
        
        if [ "$state" = "ENABLED" ]; then
            log "Job queue $queue_name is ready"
            break
        elif [ "$state" = "DISABLED" ] || [ "$state" = "NOT_FOUND" ]; then
            log "ERROR: Job queue $queue_name failed to create properly"
            return 1
        fi
        
        log "Job queue state: $state. Waiting 10 seconds..."
        sleep 10
    done
}

# Function to wait for job completion
wait_for_job() {
    local job_id=$1
    log "Waiting for job $job_id to complete..."
    
    while true; do
        local status=$(aws batch describe-jobs \
            --jobs "$job_id" \
            --query 'jobs[0].status' \
            --output text 2>/dev/null || echo "NOT_FOUND")
        
        if [ "$status" = "SUCCEEDED" ]; then
            log "Job $job_id completed successfully"
            break
        elif [ "$status" = "FAILED" ]; then
            log "ERROR: Job $job_id failed"
            return 1
        fi
        
        log "Job status: $status. Waiting 30 seconds..."
        sleep 30
    done
}

# FIXED: Added function to wait for resource state before deletion
wait_for_resource_state() {
    local resource_type=$1
    local resource_name=$2
    local expected_state=$3
    local max_attempts=30
    local attempt=0
    
    log "Waiting for $resource_type $resource_name to reach state: $expected_state"
    
    while [ $attempt -lt $max_attempts ]; do
        local current_state=""
        
        case $resource_type in
            "JOB_QUEUE")
                current_state=$(aws batch describe-job-queues \
                    --job-queues "$resource_name" \
                    --query 'jobQueues[0].state' \
                    --output text 2>/dev/null || echo "NOT_FOUND")
                ;;
            "COMPUTE_ENV")
                current_state=$(aws batch describe-compute-environments \
                    --compute-environments "$resource_name" \
                    --query 'computeEnvironments[0].status' \
                    --output text 2>/dev/null || echo "NOT_FOUND")
                ;;
        esac
        
        if [ "$current_state" = "$expected_state" ]; then
            log "$resource_type $resource_name is now in state: $expected_state"
            return 0
        fi
        
        log "$resource_type $resource_name state: $current_state (waiting for $expected_state)"
        sleep 10
        ((attempt++))
    done
    
    log "WARNING: $resource_type $resource_name did not reach expected state after $max_attempts attempts"
    return 1
}

# Cleanup function
cleanup_resources() {
    log "Starting cleanup of created resources..."
    
    # Clean up in reverse order of creation
    for ((i=${#CREATED_RESOURCES[@]}-1; i>=0; i--)); do
        local resource="${CREATED_RESOURCES[i]}"
        local resource_type=$(echo "$resource" | cut -d: -f1)
        local resource_name=$(echo "$resource" | cut -d: -f2)
        
        log "Cleaning up $resource_type: $resource_name"
        
        case $resource_type in
            "JOB_QUEUE")
                # FIXED: Validate state before deletion
                aws batch update-job-queue --job-queue "$resource_name" --state DISABLED 2>/dev/null || true
                wait_for_resource_state "JOB_QUEUE" "$resource_name" "DISABLED" || true
                aws batch delete-job-queue --job-queue "$resource_name" 2>/dev/null || true
                ;;
            "COMPUTE_ENV")
                # FIXED: Validate state before deletion
                aws batch update-compute-environment --compute-environment "$resource_name" --state DISABLED 2>/dev/null || true
                wait_for_resource_state "COMPUTE_ENV" "$resource_name" "DISABLED" || true
                aws batch delete-compute-environment --compute-environment "$resource_name" 2>/dev/null || true
                ;;
            "IAM_ROLE")
                aws iam detach-role-policy --role-name "$resource_name" --policy-arn "arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy" 2>/dev/null || true
                aws iam delete-role --role-name "$resource_name" 2>/dev/null || true
                ;;
            "FILE")
                rm -f "$resource_name" 2>/dev/null || true
                ;;
        esac
    done
    
    log "Cleanup completed"
}

# Main script execution
main() {
    log "Starting AWS Batch Fargate tutorial script - Fixed Version"
    log "Log file: $LOG_FILE"
    
    # Get AWS account ID
    log "Getting AWS account ID..."
    ACCOUNT_ID=$(aws sts get-caller-identity --query Account --output text)
    log "Account ID: $ACCOUNT_ID"
    
    # Get default VPC and subnets
    log "Getting default VPC and subnets..."
    DEFAULT_VPC=$(aws ec2 describe-vpcs \
        --filters "Name=is-default,Values=true" \
        --query 'Vpcs[0].VpcId' \
        --output text)
    
    if [ "$DEFAULT_VPC" = "None" ] || [ "$DEFAULT_VPC" = "null" ]; then
        log "ERROR: No default VPC found. Please create a VPC first."
        exit 1
    fi
    
    log "Default VPC: $DEFAULT_VPC"
    
    # Get subnets in the default VPC
    SUBNETS=$(aws ec2 describe-subnets \
        --filters "Name=vpc-id,Values=$DEFAULT_VPC" \
        --query 'Subnets[*].SubnetId' \
        --output text)
    
    if [ -z "$SUBNETS" ]; then
        log "ERROR: No subnets found in default VPC"
        exit 1
    fi
    
    # Convert tab/space-separated subnets to JSON array format
    SUBNET_ARRAY=$(echo "$SUBNETS" | tr '\t ' '\n' | sed 's/^/"/;s/$/"/' | paste -sd ',' -)
    log "Subnets: $SUBNETS"
    log "Subnet array: [$SUBNET_ARRAY]"
    
    # Get default security group for the VPC
    DEFAULT_SG=$(aws ec2 describe-security-groups \
        --filters "Name=vpc-id,Values=$DEFAULT_VPC" "Name=group-name,Values=default" \
        --query 'SecurityGroups[0].GroupId' \
        --output text)
    
    if [ "$DEFAULT_SG" = "None" ] || [ "$DEFAULT_SG" = "null" ]; then
        log "ERROR: No default security group found in VPC"
        exit 1
    fi
    
    log "Default security group: $DEFAULT_SG"
    
    # Step 1: Create IAM execution role
    log "Step 1: Creating IAM execution role..."
    
    # Create trust policy document
    cat > "$TRUST_POLICY_FILE" << EOF
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Principal": {
        "Service": "ecs-tasks.amazonaws.com"
      },
      "Action": "sts:AssumeRole"
    }
  ]
}
EOF
    CREATED_RESOURCES+=("FILE:$TRUST_POLICY_FILE")
    
    # Create the role
    aws iam create-role \
        --role-name "$ROLE_NAME" \
        --assume-role-policy-document "file://$TRUST_POLICY_FILE"
    CREATED_RESOURCES+=("IAM_ROLE:$ROLE_NAME")
    
    # Attach policy
    aws iam attach-role-policy \
        --role-name "$ROLE_NAME" \
        --policy-arn "arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy"
    
    log "IAM role created: $ROLE_NAME"
    
    # FIXED: Wait for IAM role propagation
    log "Waiting for IAM role propagation (15 seconds)..."
    sleep 15
    
    # Step 2: Create compute environment
    log "Step 2: Creating Fargate compute environment..."
    
    aws batch create-compute-environment \
        --compute-environment-name "$COMPUTE_ENV_NAME" \
        --type MANAGED \
        --state ENABLED \
        --compute-resources "{
            \"type\": \"FARGATE\",
            \"maxvCpus\": 256,
            \"subnets\": [$SUBNET_ARRAY],
            \"securityGroupIds\": [\"$DEFAULT_SG\"]
        }"
    CREATED_RESOURCES+=("COMPUTE_ENV:$COMPUTE_ENV_NAME")
    
    # Wait for compute environment to be ready
    wait_for_compute_env "$COMPUTE_ENV_NAME"
    
    # Step 3: Create job queue
    log "Step 3: Creating job queue..."
    
    aws batch create-job-queue \
        --job-queue-name "$JOB_QUEUE_NAME" \
        --state ENABLED \
        --priority 900 \
        --compute-environment-order order=1,computeEnvironment="$COMPUTE_ENV_NAME"
    CREATED_RESOURCES+=("JOB_QUEUE:$JOB_QUEUE_NAME")
    
    # Wait for job queue to be ready
    wait_for_job_queue "$JOB_QUEUE_NAME"
    
    # Step 4: Create job definition
    log "Step 4: Creating job definition..."
    
    aws batch register-job-definition \
        --job-definition-name "$JOB_DEF_NAME" \
        --type container \
        --platform-capabilities FARGATE \
        --container-properties "{
            \"image\": \"busybox\",
            \"resourceRequirements\": [
                {\"type\": \"VCPU\", \"value\": \"0.25\"},
                {\"type\": \"MEMORY\", \"value\": \"512\"}
            ],
            \"command\": [\"echo\", \"hello world\"],
            \"networkConfiguration\": {
                \"assignPublicIp\": \"ENABLED\"
            },
            \"executionRoleArn\": \"arn:aws:iam::${ACCOUNT_ID}:role/${ROLE_NAME}\"
        }"
    
    log "Job definition created: $JOB_DEF_NAME"
    
    # Step 5: Submit job
    log "Step 5: Submitting job..."
    
    JOB_ID=$(aws batch submit-job \
        --job-name "$JOB_NAME" \
        --job-queue "$JOB_QUEUE_NAME" \
        --job-definition "$JOB_DEF_NAME" \
        --query 'jobId' \
        --output text)
    
    log "Job submitted with ID: $JOB_ID"
    
    # Step 6: Wait for job completion and view output
    log "Step 6: Waiting for job completion..."
    wait_for_job "$JOB_ID"
    
    # Get log stream name
    log "Getting job logs..."
    LOG_STREAM=$(aws batch describe-jobs \
        --jobs "$JOB_ID" \
        --query 'jobs[0].attempts[0].taskProperties.containers[0].logStreamName' \
        --output text)
    
    if [ "$LOG_STREAM" != "None" ] && [ "$LOG_STREAM" != "null" ]; then
        log "Log stream: $LOG_STREAM"
        log "Job output:"
        aws logs get-log-events \
            --log-group-name "/aws/batch/job" \
            --log-stream-name "$LOG_STREAM" \
            --query 'events[*].message' \
            --output text | tee -a "$LOG_FILE"
    else
        log "No log stream available for job"
    fi
    
    log "Tutorial completed successfully!"
    
    # Show created resources
    echo ""
    echo "==========================================="
    echo "CREATED RESOURCES"
    echo "==========================================="
    echo "The following resources were created:"
    for resource in "${CREATED_RESOURCES[@]}"; do
        echo "  - $resource"
    done
    echo ""
    echo "==========================================="
    echo "CLEANUP CONFIRMATION"
    echo "==========================================="
    echo "Do you want to clean up all created resources? (y/n): "
    read -r CLEANUP_CHOICE
    
    if [[ "$CLEANUP_CHOICE" =~ ^[Yy]$ ]]; then
        cleanup_resources
        log "All resources have been cleaned up"
    else
        log "Resources left intact. You can clean them up manually later."
        echo "To clean up manually, run the following commands:"
        echo "aws batch update-job-queue --job-queue $JOB_QUEUE_NAME --state DISABLED"
        echo "aws batch delete-job-queue --job-queue $JOB_QUEUE_NAME"
        echo "aws batch update-compute-environment --compute-environment $COMPUTE_ENV_NAME --state DISABLED"
        echo "aws batch delete-compute-environment --compute-environment $COMPUTE_ENV_NAME"
        echo "aws iam detach-role-policy --role-name $ROLE_NAME --policy-arn arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy"
        echo "aws iam delete-role --role-name $ROLE_NAME"
    fi
}

# Run main function
main "$@"
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateComputeEnvironment](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/CreateComputeEnvironment)
  + [CreateJobQueue](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/CreateJobQueue)
  + [DeleteComputeEnvironment](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/DeleteComputeEnvironment)
  + [DeleteJobQueue](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/DeleteJobQueue)
  + [DescribeComputeEnvironments](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/DescribeComputeEnvironments)
  + [DescribeJobQueues](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/DescribeJobQueues)
  + [DescribeJobs](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/DescribeJobs)
  + [RegisterJobDefinition](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/RegisterJobDefinition)
  + [SubmitJob](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/SubmitJob)
  + [UpdateComputeEnvironment](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/UpdateComputeEnvironment)
  + [UpdateJobQueue](https://docs.aws.amazon.com/goto/aws-cli/batch-2016-08-10/UpdateJobQueue)

# AWS Cloud Map contoh menggunakan AWS CLI dengan skrip Bash
<a name="bash_2_servicediscovery_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash with AWS Cloud Map.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Atribut kustom Cloud Map
<a name="cloudmap_CustomAttributes_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat namespace HTTP untuk penemuan layanan berbasis API
+ Buat tabel DynamoDB dan daftarkan sebagai layanan data dengan atribut khusus
+ Buat fungsi Lambda untuk membaca dan menulis data
+ Daftarkan fungsi Lambda sebagai instance layanan dengan atribut khusus untuk penemuan berbasis tindakan
+ Membangun aplikasi klien yang menemukan layanan menggunakan atribut kustom
+ Bersihkan semua sumber daya termasuk fungsi Lambda, tabel DynamoDB, dan layanan Cloud Map

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/004-cloudmap-custom-attributes). 

```
#!/bin/bash

# AWS Cloud Map Tutorial Script
# This script demonstrates how to use AWS Cloud Map for service discovery with custom attributes

# Set up logging
LOG_FILE="cloudmap-tutorial.log"
echo "AWS Cloud Map Tutorial Script" > $LOG_FILE
echo "Started at $(date)" >> $LOG_FILE

# Array to track created resources for cleanup
CREATED_RESOURCES=()

# Function to log commands and their output
log_cmd() {
  echo "$ $1" | tee -a $LOG_FILE
  eval "$1" | tee -a $LOG_FILE
}

# Function to handle errors
handle_error() {
  local LINE=$1
  echo "An error occurred at line $LINE" | tee -a $LOG_FILE
  echo "Resources created so far:" | tee -a $LOG_FILE
  for resource in "${CREATED_RESOURCES[@]}"; do
    echo "- $resource" | tee -a $LOG_FILE
  done
  echo "Attempting to clean up resources..." | tee -a $LOG_FILE
  cleanup
  exit 1
}

# Set up error handling
trap 'handle_error $LINENO' ERR

# Helper function to wait for Cloud Map operations to complete
wait_for_operation() {
  local OPERATION_ID=$1
  local TIMEOUT=300  # 5 minutes timeout
  local START_TIME=$(date +%s)
  
  while true; do
    local STATUS=$(aws servicediscovery get-operation --operation-id $OPERATION_ID --query 'Operation.Status' --output text)
    
    if [ "$STATUS" == "SUCCESS" ]; then
      echo "Operation completed successfully" | tee -a $LOG_FILE
      break
    elif [ "$STATUS" == "FAIL" ]; then
      echo "Operation failed" | tee -a $LOG_FILE
      return 1
    fi
    
    local CURRENT_TIME=$(date +%s)
    if [ $((CURRENT_TIME - START_TIME)) -gt $TIMEOUT ]; then
      echo "Operation timed out" | tee -a $LOG_FILE
      return 1
    fi
    
    sleep 5
  done
  
  return 0
}

# Function to clean up resources
cleanup() {
  echo "Cleaning up resources..." | tee -a $LOG_FILE
  
  # Reverse the order of created resources for proper deletion
  for ((i=${#CREATED_RESOURCES[@]}-1; i>=0; i--)); do
    resource="${CREATED_RESOURCES[$i]}"
    echo "Deleting $resource..." | tee -a $LOG_FILE
    
    if [[ $resource == "instance:"* ]]; then
      # Extract service ID and instance ID
      SERVICE_ID=$(echo $resource | cut -d':' -f2)
      INSTANCE_ID=$(echo $resource | cut -d':' -f3)
      
      # Check if instance exists before trying to deregister
      INSTANCE_EXISTS=$(aws servicediscovery list-instances --service-id $SERVICE_ID --query "Instances[?Id=='$INSTANCE_ID'].Id" --output text 2>/dev/null || echo "")
      if [[ -n "$INSTANCE_EXISTS" ]]; then
        OPERATION_ID=$(aws servicediscovery deregister-instance --service-id $SERVICE_ID --instance-id $INSTANCE_ID --query 'OperationId' --output text)
        
        # Wait for deregistration to complete
        echo "Waiting for instance deregistration to complete..." | tee -a $LOG_FILE
        wait_for_operation $OPERATION_ID
      else
        echo "Instance $INSTANCE_ID already deregistered" | tee -a $LOG_FILE
      fi
    elif [[ $resource == "lambda:"* ]]; then
      # Extract function name
      FUNCTION_NAME=$(echo $resource | cut -d':' -f2)
      aws lambda delete-function --function-name $FUNCTION_NAME
    elif [[ $resource == "role:"* ]]; then
      # Extract role name
      ROLE_NAME=$(echo $resource | cut -d':' -f2)
      
      # Detach all policies first
      for POLICY_ARN in $(aws iam list-attached-role-policies --role-name $ROLE_NAME --query 'AttachedPolicies[*].PolicyArn' --output text); do
        aws iam detach-role-policy --role-name $ROLE_NAME --policy-arn $POLICY_ARN
      done
      
      # Delete the role
      aws iam delete-role --role-name $ROLE_NAME
    elif [[ $resource == "dynamodb:"* ]]; then
      # Extract table name
      TABLE_NAME=$(echo $resource | cut -d':' -f2)
      aws dynamodb delete-table --table-name $TABLE_NAME
      
      # Wait for table deletion to complete
      echo "Waiting for DynamoDB table deletion to complete..." | tee -a $LOG_FILE
      aws dynamodb wait table-not-exists --table-name $TABLE_NAME
    fi
  done
  
  # Handle services separately to ensure all instances are deregistered first
  for ((i=${#CREATED_RESOURCES[@]}-1; i>=0; i--)); do
    resource="${CREATED_RESOURCES[$i]}"
    if [[ $resource == "service:"* ]]; then
      # Extract service ID
      SERVICE_ID=$(echo $resource | cut -d':' -f2)
      echo "Deleting service $SERVICE_ID..." | tee -a $LOG_FILE
      
      # Make sure all instances are deregistered
      INSTANCES=$(aws servicediscovery list-instances --service-id $SERVICE_ID --query 'Instances[*].Id' --output text)
      if [[ -n "$INSTANCES" ]]; then
        echo "Service still has instances. Waiting before deletion..." | tee -a $LOG_FILE
        sleep 10
      fi
      
      # Try to delete the service
      aws servicediscovery delete-service --id $SERVICE_ID
      sleep 5
    fi
  done
  
  # Handle namespaces last to ensure all services are deleted first
  for ((i=${#CREATED_RESOURCES[@]}-1; i>=0; i--)); do
    resource="${CREATED_RESOURCES[$i]}"
    if [[ $resource == "namespace:"* ]]; then
      # Extract namespace ID
      NAMESPACE_ID=$(echo $resource | cut -d':' -f2)
      echo "Deleting namespace $NAMESPACE_ID..." | tee -a $LOG_FILE
      
      # Check if namespace still has services
      SERVICES=$(aws servicediscovery list-services --filters "Name=NAMESPACE_ID,Values=$NAMESPACE_ID,Condition=EQ" --query 'Services[*].Id' --output text)
      if [[ -n "$SERVICES" ]]; then
        echo "Namespace still has services. Deleting them first..." | tee -a $LOG_FILE
        for SERVICE_ID in $SERVICES; do
          echo "Deleting service $SERVICE_ID..." | tee -a $LOG_FILE
          aws servicediscovery delete-service --id $SERVICE_ID
        done
        sleep 5
      fi
      
      # Try to delete the namespace
      OPERATION_ID=$(aws servicediscovery delete-namespace --id $NAMESPACE_ID --query 'OperationId' --output text 2>/dev/null || echo "")
      if [[ -n "$OPERATION_ID" ]]; then
        echo "Waiting for namespace deletion to complete..." | tee -a $LOG_FILE
        wait_for_operation $OPERATION_ID
      else
        echo "Failed to delete namespace or namespace already deleted" | tee -a $LOG_FILE
      fi
    fi
  done
  
  echo "Cleanup complete" | tee -a $LOG_FILE
}

# Step 1: Create an AWS Cloud Map namespace
echo "Step 1: Creating AWS Cloud Map namespace..." | tee -a $LOG_FILE

# Check if namespace already exists
NAMESPACE_ID=$(aws servicediscovery list-namespaces --query "Namespaces[?Name=='cloudmap-tutorial'].Id" --output text)

if [[ -z "$NAMESPACE_ID" || "$NAMESPACE_ID" == "None" ]]; then
  log_cmd "aws servicediscovery create-http-namespace --name cloudmap-tutorial --creator-request-id namespace-request"
  OPERATION_ID=$(aws servicediscovery create-http-namespace --name cloudmap-tutorial --creator-request-id namespace-request --query 'OperationId' --output text)

  # Wait for namespace creation to complete
  echo "Waiting for namespace creation to complete..." | tee -a $LOG_FILE
  wait_for_operation $OPERATION_ID

  # Get the namespace ID
  NAMESPACE_ID=$(aws servicediscovery list-namespaces --query "Namespaces[?Name=='cloudmap-tutorial'].Id" --output text)
  echo "Namespace created with ID: $NAMESPACE_ID" | tee -a $LOG_FILE
else
  echo "Namespace cloudmap-tutorial already exists with ID: $NAMESPACE_ID" | tee -a $LOG_FILE
fi

CREATED_RESOURCES+=("namespace:$NAMESPACE_ID")

# Step 2: Create a DynamoDB table
echo "Step 2: Creating DynamoDB table..." | tee -a $LOG_FILE

# Check if table already exists
TABLE_EXISTS=$(aws dynamodb describe-table --table-name cloudmap 2>&1 || echo "NOT_EXISTS")

if [[ $TABLE_EXISTS == *"ResourceNotFoundException"* || $TABLE_EXISTS == "NOT_EXISTS" ]]; then
  log_cmd "aws dynamodb create-table --table-name cloudmap --attribute-definitions AttributeName=id,AttributeType=S --key-schema AttributeName=id,KeyType=HASH --billing-mode PAY_PER_REQUEST"
  
  # Wait for DynamoDB table to become active
  echo "Waiting for DynamoDB table to become active..." | tee -a $LOG_FILE
  aws dynamodb wait table-exists --table-name cloudmap
else
  echo "DynamoDB table cloudmap already exists" | tee -a $LOG_FILE
fi

CREATED_RESOURCES+=("dynamodb:cloudmap")

# Step 3: Create an AWS Cloud Map data service
echo "Step 3: Creating AWS Cloud Map data service..." | tee -a $LOG_FILE

# Get all services in the namespace
echo "Listing all services in namespace $NAMESPACE_ID..." | tee -a $LOG_FILE
SERVICES=$(aws servicediscovery list-services --filters "Name=NAMESPACE_ID,Values=$NAMESPACE_ID,Condition=EQ" --query 'Services[*].[Id,Name]' --output text)
echo "Services found: $SERVICES" | tee -a $LOG_FILE

# Check if data service already exists
DATA_SERVICE_ID=""
while read -r id name || [[ -n "$id" ]]; do
  echo "Checking service: ID=$id, Name=$name" | tee -a $LOG_FILE
  if [[ "$name" == "data-service" ]]; then
    DATA_SERVICE_ID="$id"
    break
  fi
done <<< "$SERVICES"

if [[ -z "$DATA_SERVICE_ID" ]]; then
  echo "Data service does not exist, creating it..." | tee -a $LOG_FILE
  # Create the service and capture the ID directly
  echo "$ aws servicediscovery create-service --name data-service --namespace-id $NAMESPACE_ID --creator-request-id data-service-request" | tee -a $LOG_FILE
  CREATE_OUTPUT=$(aws servicediscovery create-service --name data-service --namespace-id $NAMESPACE_ID --creator-request-id data-service-request)
  echo "$CREATE_OUTPUT" | tee -a $LOG_FILE
  
  # Extract the service ID using AWS CLI query
  DATA_SERVICE_ID=$(aws servicediscovery list-services --filters "Name=NAMESPACE_ID,Values=$NAMESPACE_ID,Condition=EQ" --query "Services[?Name=='data-service'].Id" --output text)
  echo "Data service created with ID: $DATA_SERVICE_ID" | tee -a $LOG_FILE
else
  echo "Data service already exists with ID: $DATA_SERVICE_ID" | tee -a $LOG_FILE
fi

CREATED_RESOURCES+=("service:$DATA_SERVICE_ID")

# Register DynamoDB table as a service instance
echo "Registering DynamoDB table as a service instance..." | tee -a $LOG_FILE

# Check if instance already exists
INSTANCE_EXISTS=$(aws servicediscovery list-instances --service-id $DATA_SERVICE_ID --query "Instances[?Id=='data-instance'].Id" --output text)

if [[ -z "$INSTANCE_EXISTS" ]]; then
  log_cmd "aws servicediscovery register-instance --service-id $DATA_SERVICE_ID --instance-id data-instance --attributes tablename=cloudmap,region=$(aws configure get region)"
  OPERATION_ID=$(aws servicediscovery register-instance --service-id $DATA_SERVICE_ID --instance-id data-instance --attributes tablename=cloudmap,region=$(aws configure get region) --query 'OperationId' --output text)

  # Wait for instance registration to complete
  echo "Waiting for instance registration to complete..." | tee -a $LOG_FILE
  wait_for_operation $OPERATION_ID
else
  echo "Instance data-instance already exists" | tee -a $LOG_FILE
fi

CREATED_RESOURCES+=("instance:$DATA_SERVICE_ID:data-instance")

# Step 4: Create an IAM role for Lambda
echo "Step 4: Creating IAM role for Lambda..." | tee -a $LOG_FILE

# Create a trust policy for Lambda
cat > lambda-trust-policy.json << EOF
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Principal": {
        "Service": "lambda.amazonaws.com"
      },
      "Action": "sts:AssumeRole"
    }
  ]
}
EOF

# Check if role already exists
echo "Checking if IAM role already exists..." | tee -a $LOG_FILE
ROLE_EXISTS=$(aws iam get-role --role-name cloudmap-tutorial-role 2>&1 || echo "NOT_EXISTS")

if [[ $ROLE_EXISTS == *"NoSuchEntity"* || $ROLE_EXISTS == "NOT_EXISTS" ]]; then
    log_cmd "aws iam create-role --role-name cloudmap-tutorial-role --assume-role-policy-document file://lambda-trust-policy.json"
else
    echo "Role cloudmap-tutorial-role already exists, using existing role" | tee -a $LOG_FILE
fi

# FIXED: Create a custom policy with least privilege instead of using PowerUserAccess
cat > cloudmap-policy.json << EOF
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "logs:CreateLogGroup",
        "logs:CreateLogStream",
        "logs:PutLogEvents"
      ],
      "Resource": "arn:aws:logs:*:*:*"
    },
    {
      "Effect": "Allow",
      "Action": [
        "dynamodb:PutItem",
        "dynamodb:GetItem",
        "dynamodb:Scan"
      ],
      "Resource": "arn:aws:dynamodb:*:*:table/cloudmap"
    },
    {
      "Effect": "Allow",
      "Action": [
        "servicediscovery:DiscoverInstances"
      ],
      "Resource": "*"
    }
  ]
}
EOF

# Check if policy already exists
POLICY_ARN=$(aws iam list-policies --query "Policies[?PolicyName=='CloudMapTutorialPolicy'].Arn" --output text)

if [[ -z "$POLICY_ARN" ]]; then
  echo "Creating CloudMapTutorialPolicy..." | tee -a $LOG_FILE
  echo "$ aws iam create-policy --policy-name CloudMapTutorialPolicy --policy-document file://cloudmap-policy.json" | tee -a $LOG_FILE
  CREATE_OUTPUT=$(aws iam create-policy --policy-name CloudMapTutorialPolicy --policy-document file://cloudmap-policy.json)
  echo "$CREATE_OUTPUT" | tee -a $LOG_FILE
  POLICY_ARN=$(aws iam list-policies --query "Policies[?PolicyName=='CloudMapTutorialPolicy'].Arn" --output text)
else
  echo "Policy CloudMapTutorialPolicy already exists with ARN: $POLICY_ARN" | tee -a $LOG_FILE
fi

echo "$ aws iam attach-role-policy --role-name cloudmap-tutorial-role --policy-arn $POLICY_ARN" | tee -a $LOG_FILE
aws iam attach-role-policy --role-name cloudmap-tutorial-role --policy-arn $POLICY_ARN | tee -a $LOG_FILE

echo "$ aws iam attach-role-policy --role-name cloudmap-tutorial-role --policy-arn arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole" | tee -a $LOG_FILE
aws iam attach-role-policy --role-name cloudmap-tutorial-role --policy-arn arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole | tee -a $LOG_FILE

# Wait for role to propagate
echo "Waiting for IAM role to propagate..." | tee -a $LOG_FILE
sleep 10

ROLE_ARN=$(aws iam get-role --role-name cloudmap-tutorial-role --query 'Role.Arn' --output text)
CREATED_RESOURCES+=("role:cloudmap-tutorial-role")

# Step 5: Create an AWS Cloud Map app service
echo "Step 5: Creating AWS Cloud Map app service..." | tee -a $LOG_FILE

# Get all services in the namespace
SERVICES=$(aws servicediscovery list-services --filters "Name=NAMESPACE_ID,Values=$NAMESPACE_ID,Condition=EQ" --query 'Services[*].[Id,Name]' --output text)

# Check if app service already exists
APP_SERVICE_ID=""
while read -r id name || [[ -n "$id" ]]; do
  if [[ "$name" == "app-service" ]]; then
    APP_SERVICE_ID="$id"
    break
  fi
done <<< "$SERVICES"

if [[ -z "$APP_SERVICE_ID" ]]; then
  echo "App service does not exist, creating it..." | tee -a $LOG_FILE
  # Create the service and capture the ID directly
  echo "$ aws servicediscovery create-service --name app-service --namespace-id $NAMESPACE_ID --creator-request-id app-service-request" | tee -a $LOG_FILE
  CREATE_OUTPUT=$(aws servicediscovery create-service --name app-service --namespace-id $NAMESPACE_ID --creator-request-id app-service-request)
  echo "$CREATE_OUTPUT" | tee -a $LOG_FILE
  
  # Extract the service ID using AWS CLI query
  APP_SERVICE_ID=$(aws servicediscovery list-services --filters "Name=NAMESPACE_ID,Values=$NAMESPACE_ID,Condition=EQ" --query "Services[?Name=='app-service'].Id" --output text)
  echo "App service created with ID: $APP_SERVICE_ID" | tee -a $LOG_FILE
else
  echo "App service already exists with ID: $APP_SERVICE_ID" | tee -a $LOG_FILE
fi

CREATED_RESOURCES+=("service:$APP_SERVICE_ID")

# Step 6: Create a Lambda function to write data
echo "Step 6: Creating Lambda function to write data..." | tee -a $LOG_FILE

# Create Lambda function code
cat > writefunction.py << EOF
import boto3
import json
import random

def lambda_handler(event, context):
    # Use AWS Cloud Map to discover the DynamoDB table
    serviceclient = boto3.client('servicediscovery')
    
    # Discover the data service instance
    response = serviceclient.discover_instances(
        NamespaceName='cloudmap-tutorial',
        ServiceName='data-service'
    )
    
    # Extract table name and region from the instance attributes
    tablename = response['Instances'][0]['Attributes']['tablename']
    region = response['Instances'][0]['Attributes']['region']
    
    # Create DynamoDB client in the specified region
    dynamodb = boto3.resource('dynamodb', region_name=region)
    table = dynamodb.Table(tablename)
    
    # Write data to the table
    table.put_item(
        Item={
            'id': str(random.randint(1,100)),
            'todo': event
        }
    )
    
    return {
        'statusCode': 200,
        'body': json.dumps('Data written successfully!')
    }
EOF

# Zip the function code
log_cmd "zip writefunction.zip writefunction.py"

# Create the Lambda function
FUNCTION_EXISTS=$(aws lambda list-functions --query "Functions[?FunctionName=='writefunction'].FunctionName" --output text)
if [[ -z "$FUNCTION_EXISTS" ]]; then
  log_cmd "aws lambda create-function --function-name writefunction --runtime python3.12 --role $ROLE_ARN --handler writefunction.lambda_handler --zip-file fileb://writefunction.zip --architectures x86_64"

  # Wait for the Lambda function to be active before updating
  echo "Waiting for Lambda function to become active..." | tee -a $LOG_FILE
  function_state="Pending"
  while [ "$function_state" == "Pending" ]; do
      sleep 5
      function_state=$(aws lambda get-function --function-name writefunction --query 'Configuration.State' --output text)
      echo "Current function state: $function_state" | tee -a $LOG_FILE
  done

  # Update the function timeout
  log_cmd "aws lambda update-function-configuration --function-name writefunction --timeout 5"
else
  echo "Lambda function writefunction already exists" | tee -a $LOG_FILE
fi
CREATED_RESOURCES+=("lambda:writefunction")

# Step 7: Register the Lambda write function as an AWS Cloud Map service instance
echo "Step 7: Registering Lambda write function as a service instance..." | tee -a $LOG_FILE

# Check if instance already exists
INSTANCE_EXISTS=$(aws servicediscovery list-instances --service-id $APP_SERVICE_ID --query "Instances[?Id=='write-instance'].Id" --output text)

if [[ -z "$INSTANCE_EXISTS" ]]; then
  log_cmd "aws servicediscovery register-instance --service-id $APP_SERVICE_ID --instance-id write-instance --attributes action=write,functionname=writefunction"
  OPERATION_ID=$(aws servicediscovery register-instance --service-id $APP_SERVICE_ID --instance-id write-instance --attributes action=write,functionname=writefunction --query 'OperationId' --output text)

  # Wait for instance registration to complete
  echo "Waiting for write instance registration to complete..." | tee -a $LOG_FILE
  wait_for_operation $OPERATION_ID
else
  echo "Instance write-instance already exists" | tee -a $LOG_FILE
fi

CREATED_RESOURCES+=("instance:$APP_SERVICE_ID:write-instance")

# Step 8: Create a Lambda function to read data
echo "Step 8: Creating Lambda function to read data..." | tee -a $LOG_FILE

# Create Lambda function code
cat > readfunction.py << EOF
import boto3
import json

def lambda_handler(event, context):
    # Use AWS Cloud Map to discover the DynamoDB table
    serviceclient = boto3.client('servicediscovery')
    
    # Discover the data service instance
    response = serviceclient.discover_instances(
        NamespaceName='cloudmap-tutorial',
        ServiceName='data-service'
    )
    
    # Extract table name and region from the instance attributes
    tablename = response['Instances'][0]['Attributes']['tablename']
    region = response['Instances'][0]['Attributes']['region']
    
    # Create DynamoDB client in the specified region
    dynamodb = boto3.resource('dynamodb', region_name=region)
    table = dynamodb.Table(tablename)
    
    # Read data from the table
    response = table.scan()
    
    return {
        'statusCode': 200,
        'body': json.dumps(response['Items'])
    }
EOF

# Zip the function code
log_cmd "zip readfunction.zip readfunction.py"

# Create the Lambda function
FUNCTION_EXISTS=$(aws lambda list-functions --query "Functions[?FunctionName=='readfunction'].FunctionName" --output text)
if [[ -z "$FUNCTION_EXISTS" ]]; then
  log_cmd "aws lambda create-function --function-name readfunction --runtime python3.12 --role $ROLE_ARN --handler readfunction.lambda_handler --zip-file fileb://readfunction.zip --architectures x86_64"

  # Wait for the Lambda function to be active before updating
  echo "Waiting for Lambda function to become active..." | tee -a $LOG_FILE
  function_state="Pending"
  while [ "$function_state" == "Pending" ]; do
      sleep 5
      function_state=$(aws lambda get-function --function-name readfunction --query 'Configuration.State' --output text)
      echo "Current function state: $function_state" | tee -a $LOG_FILE
  done

  # Update the function timeout
  log_cmd "aws lambda update-function-configuration --function-name readfunction --timeout 5"
else
  echo "Lambda function readfunction already exists" | tee -a $LOG_FILE
fi
CREATED_RESOURCES+=("lambda:readfunction")

# Step 9: Register the Lambda read function as an AWS Cloud Map service instance
echo "Step 9: Registering Lambda read function as a service instance..." | tee -a $LOG_FILE

# Check if instance already exists
INSTANCE_EXISTS=$(aws servicediscovery list-instances --service-id $APP_SERVICE_ID --query "Instances[?Id=='read-instance'].Id" --output text)

if [[ -z "$INSTANCE_EXISTS" ]]; then
  log_cmd "aws servicediscovery register-instance --service-id $APP_SERVICE_ID --instance-id read-instance --attributes action=read,functionname=readfunction"
  OPERATION_ID=$(aws servicediscovery register-instance --service-id $APP_SERVICE_ID --instance-id read-instance --attributes action=read,functionname=readfunction --query 'OperationId' --output text)

  # Wait for read instance registration to complete
  echo "Waiting for read instance registration to complete..." | tee -a $LOG_FILE
  wait_for_operation $OPERATION_ID
else
  echo "Instance read-instance already exists" | tee -a $LOG_FILE
fi

CREATED_RESOURCES+=("instance:$APP_SERVICE_ID:read-instance")

# Step 10: Create Python clients to interact with the services
echo "Step 10: Creating Python clients..." | tee -a $LOG_FILE

cat > writeclient.py << EOF
import boto3

serviceclient = boto3.client('servicediscovery')

response = serviceclient.discover_instances(NamespaceName='cloudmap-tutorial', ServiceName='app-service', QueryParameters={ 'action': 'write' })

functionname = response["Instances"][0]["Attributes"]["functionname"]

lambdaclient = boto3.client('lambda')

resp = lambdaclient.invoke(FunctionName=functionname, Payload='"This is a test data"')

print(resp["Payload"].read())
EOF

cat > readclient.py << EOF
import boto3

serviceclient = boto3.client('servicediscovery')

response = serviceclient.discover_instances(NamespaceName='cloudmap-tutorial', ServiceName='app-service', QueryParameters={ 'action': 'read' })

functionname = response["Instances"][0]["Attributes"]["functionname"]

lambdaclient = boto3.client('lambda')

resp = lambdaclient.invoke(FunctionName=functionname, InvocationType='RequestResponse')

print(resp["Payload"].read())
EOF

echo "Running write client..." | tee -a $LOG_FILE
log_cmd "python3 writeclient.py"

echo "Running read client..." | tee -a $LOG_FILE
log_cmd "python3 readclient.py"

# Step 11: Clean up resources
echo "Resources created:" | tee -a $LOG_FILE
for resource in "${CREATED_RESOURCES[@]}"; do
  echo "- $resource" | tee -a $LOG_FILE
done

echo "" | tee -a $LOG_FILE
echo "==========================================" | tee -a $LOG_FILE
echo "CLEANUP CONFIRMATION" | tee -a $LOG_FILE
echo "==========================================" | tee -a $LOG_FILE
echo "Do you want to clean up all created resources? (y/n): " | tee -a $LOG_FILE
read -r CLEANUP_CONFIRM
if [[ $CLEANUP_CONFIRM == "y" || $CLEANUP_CONFIRM == "Y" ]]; then
  cleanup
else
  echo "Resources were not cleaned up. You can manually clean them up later." | tee -a $LOG_FILE
fi

echo "Script completed at $(date)" | tee -a $LOG_FILE
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateHttpNamespace](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/CreateHttpNamespace)
  + [CreateService](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/CreateService)
  + [DeleteNamespace](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/DeleteNamespace)
  + [DeleteService](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/DeleteService)
  + [DeregisterInstance](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/DeregisterInstance)
  + [GetOperation](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/GetOperation)
  + [ListNamespaces](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/ListNamespaces)
  + [ListServices](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/ListServices)
  + [RegisterInstance](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/RegisterInstance)

### Penemuan layanan Cloud Map
<a name="cloudmap_ServiceDiscovery_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat namespace DNS publik dengan integrasi zona host Route 53
+ Buat layanan yang dapat ditemukan melalui kueri DNS dan panggilan API
+ Daftarkan instance layanan dengan konfigurasi penemuan yang berbeda
+ Temukan layanan menggunakan kueri DNS dan Cloud Map API
+ Verifikasi penemuan layanan menggunakan perintah dig dan panggilan API
+ Bersihkan sumber daya dalam urutan yang tepat (contoh, layanan, namespace)

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/010-cloudmap-service-discovery). 

```
#!/bin/bash

# AWS Cloud Map Private Namespace Tutorial Script
# This script demonstrates how to use AWS Cloud Map for service discovery
# with DNS queries and API calls

# Exit on error
set -e

# Configuration
REGION="us-east-2"
NAMESPACE_NAME="cloudmap-tutorial.com"
LOG_FILE="cloudmap-tutorial.log"
CREATOR_REQUEST_ID=$(date +%s)

# Function to log messages
log() {
    local message="$1"
    echo "$(date '+%Y-%m-%d %H:%M:%S') - $message" | tee -a "$LOG_FILE"
}

# Function to check operation status
check_operation() {
    local operation_id="$1"
    local status=""
    
    log "Checking operation status for $operation_id..."
    
    while [[ "$status" != "SUCCESS" ]]; do
        sleep 5
        status=$(aws servicediscovery get-operation \
            --operation-id "$operation_id" \
            --region "$REGION" \
            --query "Operation.Status" \
            --output text)
        
        log "Operation status: $status"
        
        if [[ "$status" == "FAIL" ]]; then
            log "Operation failed. Exiting."
            exit 1
        fi
    done
    
    log "Operation completed successfully."
}

# Function to clean up resources
cleanup() {
    log "Starting cleanup process..."
    
    if [[ -n "$FIRST_INSTANCE_ID" ]]; then
        log "Deregistering first service instance..."
        aws servicediscovery deregister-instance \
            --service-id "$PUBLIC_SERVICE_ID" \
            --instance-id "$FIRST_INSTANCE_ID" \
            --region "$REGION" || log "Failed to deregister first instance"
    fi
    
    if [[ -n "$SECOND_INSTANCE_ID" ]]; then
        log "Deregistering second service instance..."
        aws servicediscovery deregister-instance \
            --service-id "$BACKEND_SERVICE_ID" \
            --instance-id "$SECOND_INSTANCE_ID" \
            --region "$REGION" || log "Failed to deregister second instance"
    fi
    
    if [[ -n "$PUBLIC_SERVICE_ID" ]]; then
        log "Deleting public service..."
        aws servicediscovery delete-service \
            --id "$PUBLIC_SERVICE_ID" \
            --region "$REGION" || log "Failed to delete public service"
    fi
    
    if [[ -n "$BACKEND_SERVICE_ID" ]]; then
        log "Deleting backend service..."
        aws servicediscovery delete-service \
            --id "$BACKEND_SERVICE_ID" \
            --region "$REGION" || log "Failed to delete backend service"
    fi
    
    if [[ -n "$NAMESPACE_ID" ]]; then
        log "Deleting namespace..."
        aws servicediscovery delete-namespace \
            --id "$NAMESPACE_ID" \
            --region "$REGION" || log "Failed to delete namespace"
    fi
    
    log "Cleanup completed."
}

# Set up trap for cleanup on script exit
trap cleanup EXIT INT TERM

# Initialize log file
> "$LOG_FILE"
log "Starting AWS Cloud Map tutorial script"

# Step 1: Create an AWS Cloud Map namespace
log "Creating AWS Cloud Map namespace: $NAMESPACE_NAME"
OPERATION_RESULT=$(aws servicediscovery create-public-dns-namespace \
    --name "$NAMESPACE_NAME" \
    --creator-request-id "cloudmap-tutorial-$CREATOR_REQUEST_ID" \
    --region "$REGION")

OPERATION_ID=$(echo "$OPERATION_RESULT" | jq -r '.OperationId')
log "Namespace creation initiated. Operation ID: $OPERATION_ID"

# Check operation status
check_operation "$OPERATION_ID"

# Get the namespace ID
log "Getting namespace ID..."
NAMESPACE_ID=$(aws servicediscovery list-namespaces \
    --region "$REGION" \
    --query "Namespaces[?Name=='$NAMESPACE_NAME'].Id" \
    --output text)

log "Namespace ID: $NAMESPACE_ID"

# Get the hosted zone ID
log "Getting Route 53 hosted zone ID..."
HOSTED_ZONE_ID=$(aws route53 list-hosted-zones-by-name \
    --dns-name "$NAMESPACE_NAME" \
    --query "HostedZones[0].Id" \
    --output text | sed 's|/hostedzone/||')

log "Hosted Zone ID: $HOSTED_ZONE_ID"

# Step 2: Create the AWS Cloud Map services
log "Creating public service..."
PUBLIC_SERVICE_RESULT=$(aws servicediscovery create-service \
    --name "public-service" \
    --namespace-id "$NAMESPACE_ID" \
    --dns-config "RoutingPolicy=MULTIVALUE,DnsRecords=[{Type=A,TTL=300}]" \
    --region "$REGION")

PUBLIC_SERVICE_ID=$(echo "$PUBLIC_SERVICE_RESULT" | jq -r '.Service.Id')
log "Public service created. Service ID: $PUBLIC_SERVICE_ID"

log "Creating backend service..."
BACKEND_SERVICE_RESULT=$(aws servicediscovery create-service \
    --name "backend-service" \
    --namespace-id "$NAMESPACE_ID" \
    --type "HTTP" \
    --region "$REGION")

BACKEND_SERVICE_ID=$(echo "$BACKEND_SERVICE_RESULT" | jq -r '.Service.Id')
log "Backend service created. Service ID: $BACKEND_SERVICE_ID"

# Step 3: Register the AWS Cloud Map service instances
log "Registering first service instance..."
FIRST_INSTANCE_RESULT=$(aws servicediscovery register-instance \
    --service-id "$PUBLIC_SERVICE_ID" \
    --instance-id "first" \
    --attributes "AWS_INSTANCE_IPV4=192.168.2.1" \
    --region "$REGION")

FIRST_INSTANCE_ID="first"
FIRST_OPERATION_ID=$(echo "$FIRST_INSTANCE_RESULT" | jq -r '.OperationId')
log "First instance registration initiated. Operation ID: $FIRST_OPERATION_ID"

# Check operation status
check_operation "$FIRST_OPERATION_ID"

log "Registering second service instance..."
SECOND_INSTANCE_RESULT=$(aws servicediscovery register-instance \
    --service-id "$BACKEND_SERVICE_ID" \
    --instance-id "second" \
    --attributes "service-name=backend" \
    --region "$REGION")

SECOND_INSTANCE_ID="second"
SECOND_OPERATION_ID=$(echo "$SECOND_INSTANCE_RESULT" | jq -r '.OperationId')
log "Second instance registration initiated. Operation ID: $SECOND_OPERATION_ID"

# Check operation status
check_operation "$SECOND_OPERATION_ID"

# Step 4: Discover the AWS Cloud Map service instances
log "Getting Route 53 name servers..."
NAME_SERVERS=$(aws route53 get-hosted-zone \
    --id "$HOSTED_ZONE_ID" \
    --query "DelegationSet.NameServers[0]" \
    --output text)

log "Name server: $NAME_SERVERS"

log "Using dig to query DNS records (this will be simulated)..."
log "Command: dig @$NAME_SERVERS public-service.$NAMESPACE_NAME"
log "Expected output would show: public-service.$NAMESPACE_NAME. 300 IN A 192.168.2.1"

log "Using AWS CLI to discover backend service instances..."
DISCOVER_RESULT=$(aws servicediscovery discover-instances \
    --namespace-name "$NAMESPACE_NAME" \
    --service-name "backend-service" \
    --region "$REGION")

log "Discovery result: $(echo "$DISCOVER_RESULT" | jq -c '.')"

# Display created resources
log "Resources created:"
log "- Namespace: $NAMESPACE_NAME (ID: $NAMESPACE_ID)"
log "- Public Service: public-service (ID: $PUBLIC_SERVICE_ID)"
log "- Backend Service: backend-service (ID: $BACKEND_SERVICE_ID)"
log "- Service Instance: first (Service: public-service)"
log "- Service Instance: second (Service: backend-service)"

# Ask user if they want to clean up resources
read -p "Do you want to clean up all created resources? (y/n): " CLEANUP_RESPONSE

if [[ "$CLEANUP_RESPONSE" == "y" || "$CLEANUP_RESPONSE" == "Y" ]]; then
    log "User confirmed cleanup. Proceeding with resource deletion."
    # Cleanup function will be called automatically on exit
else
    log "User chose not to clean up resources. Exiting without cleanup."
    trap - EXIT
    exit 0
fi
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreatePublicDnsNamespace](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/CreatePublicDnsNamespace)
  + [CreateService](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/CreateService)
  + [DeleteNamespace](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/DeleteNamespace)
  + [DeleteService](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/DeleteService)
  + [DeregisterInstance](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/DeregisterInstance)
  + [DiscoverInstances](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/DiscoverInstances)
  + [GetOperation](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/GetOperation)
  + [ListNamespaces](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/ListNamespaces)
  + [RegisterInstance](https://docs.aws.amazon.com/goto/aws-cli/servicediscovery-2017-03-14/RegisterInstance)

# CloudFront contoh menggunakan AWS CLI dengan skrip Bash
<a name="bash_2_cloudfront_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash with CloudFront.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Memulai dengan CloudFront
<a name="cloudfront_GettingStarted_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat bucket Amazon S3 untuk penyimpanan konten
+ Unggah konten sampel ke bucket S3
+ Buat kontrol akses asal (OAC) untuk akses S3 yang aman
+ Buat CloudFront distribusi dengan S3 sebagai asal
+ Perbarui kebijakan bucket S3 untuk mengizinkan akses CloudFront 
+ Tunggu penyebaran distribusi dan uji akses konten
+ Membersihkan sumber daya termasuk distribusi, OAC, dan bucket S3

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/005-cloudfront-gettingstarted). 

```
#!/bin/bash

# CloudFront Getting Started Tutorial Script
# This script creates an S3 bucket, uploads sample content, creates a CloudFront distribution with OAC,
# and demonstrates how to access content through CloudFront.

# Set up logging
LOG_FILE="cloudfront-tutorial.log"
exec > >(tee -a "$LOG_FILE") 2>&1

echo "Starting CloudFront Getting Started Tutorial at $(date)"

# Function to handle errors
handle_error() {
    echo "ERROR: $1"
    echo "Resources created before error:"
    if [ -n "$BUCKET_NAME" ]; then
        echo "- S3 Bucket: $BUCKET_NAME"
    fi
    if [ -n "$OAC_ID" ]; then
        echo "- CloudFront Origin Access Control: $OAC_ID"
    fi
    if [ -n "$DISTRIBUTION_ID" ]; then
        echo "- CloudFront Distribution: $DISTRIBUTION_ID"
    fi
    
    echo "Attempting to clean up resources..."
    cleanup
    exit 1
}

# Function to clean up resources
cleanup() {
    echo "Cleaning up resources..."
    
    if [ -n "$DISTRIBUTION_ID" ]; then
        echo "Disabling CloudFront distribution $DISTRIBUTION_ID..."
        
        # Get the current configuration and ETag
        ETAG=$(aws cloudfront get-distribution-config --id "$DISTRIBUTION_ID" --query 'ETag' --output text)
        if [ $? -ne 0 ]; then
            echo "Failed to get distribution config. Continuing with cleanup..."
        else
            # Create a modified configuration with Enabled=false
            aws cloudfront get-distribution-config --id "$DISTRIBUTION_ID" | \
            jq '.DistributionConfig.Enabled = false' > temp_disabled_config.json
            
            # Update the distribution to disable it
            aws cloudfront update-distribution \
                --id "$DISTRIBUTION_ID" \
                --distribution-config file://<(jq '.DistributionConfig' temp_disabled_config.json) \
                --if-match "$ETAG"
                
            if [ $? -ne 0 ]; then
                echo "Failed to disable distribution. Continuing with cleanup..."
            else
                echo "Waiting for distribution to be disabled (this may take several minutes)..."
                aws cloudfront wait distribution-deployed --id "$DISTRIBUTION_ID"
                
                # Delete the distribution
                ETAG=$(aws cloudfront get-distribution-config --id "$DISTRIBUTION_ID" --query 'ETag' --output text)
                aws cloudfront delete-distribution --id "$DISTRIBUTION_ID" --if-match "$ETAG"
                if [ $? -ne 0 ]; then
                    echo "Failed to delete distribution. You may need to delete it manually."
                else
                    echo "CloudFront distribution deleted."
                fi
            fi
        fi
    fi
    
    if [ -n "$OAC_ID" ]; then
        echo "Deleting Origin Access Control $OAC_ID..."
        OAC_ETAG=$(aws cloudfront get-origin-access-control --id "$OAC_ID" --query 'ETag' --output text 2>/dev/null)
        if [ $? -ne 0 ]; then
            echo "Failed to get Origin Access Control ETag. You may need to delete it manually."
        else
            aws cloudfront delete-origin-access-control --id "$OAC_ID" --if-match "$OAC_ETAG"
            if [ $? -ne 0 ]; then
                echo "Failed to delete Origin Access Control. You may need to delete it manually."
            else
                echo "Origin Access Control deleted."
            fi
        fi
    fi
    
    if [ -n "$BUCKET_NAME" ]; then
        echo "Deleting S3 bucket $BUCKET_NAME and its contents..."
        aws s3 rm "s3://$BUCKET_NAME" --recursive
        if [ $? -ne 0 ]; then
            echo "Failed to remove bucket contents. Continuing with bucket deletion..."
        fi
        
        aws s3 rb "s3://$BUCKET_NAME"
        if [ $? -ne 0 ]; then
            echo "Failed to delete bucket. You may need to delete it manually."
        else
            echo "S3 bucket deleted."
        fi
    fi
    
    # Clean up temporary files
    rm -f temp_disabled_config.json
    rm -rf temp_content
}

# Generate a random identifier for the bucket name
RANDOM_ID=$(openssl rand -hex 6)
BUCKET_NAME="cloudfront-${RANDOM_ID}"
echo "Using bucket name: $BUCKET_NAME"

# Create a temporary directory for content
TEMP_DIR="temp_content"
mkdir -p "$TEMP_DIR/css"
if [ $? -ne 0 ]; then
    handle_error "Failed to create temporary directory"
fi

# Step 1: Create an S3 bucket
echo "Creating S3 bucket: $BUCKET_NAME"
aws s3 mb "s3://$BUCKET_NAME"
if [ $? -ne 0 ]; then
    handle_error "Failed to create S3 bucket"
fi

# Step 2: Create sample content
echo "Creating sample content..."
cat > "$TEMP_DIR/index.html" << 'EOF'
<!DOCTYPE html>
<html>
<head>
    <title>Hello World</title>
    <link rel="stylesheet" type="text/css" href="css/styles.css">
</head>
<body>
    <h1>Hello world!</h1>
</body>
</html>
EOF

cat > "$TEMP_DIR/css/styles.css" << 'EOF'
body {
    font-family: Arial, sans-serif;
    margin: 40px;
    background-color: #f5f5f5;
}
h1 {
    color: #333;
    text-align: center;
}
EOF

# Step 3: Upload content to the S3 bucket
echo "Uploading content to S3 bucket..."
aws s3 cp "$TEMP_DIR/" "s3://$BUCKET_NAME/" --recursive
if [ $? -ne 0 ]; then
    handle_error "Failed to upload content to S3 bucket"
fi

# Step 4: Create Origin Access Control
echo "Creating Origin Access Control..."
OAC_RESPONSE=$(aws cloudfront create-origin-access-control \
    --origin-access-control-config Name="oac-for-$BUCKET_NAME",SigningProtocol=sigv4,SigningBehavior=always,OriginAccessControlOriginType=s3)

if [ $? -ne 0 ]; then
    handle_error "Failed to create Origin Access Control"
fi

OAC_ID=$(echo "$OAC_RESPONSE" | jq -r '.OriginAccessControl.Id')
echo "Created Origin Access Control with ID: $OAC_ID"

# Step 5: Create CloudFront distribution
echo "Creating CloudFront distribution..."

# Get AWS account ID for bucket policy
ACCOUNT_ID=$(aws sts get-caller-identity --query 'Account' --output text)
if [ $? -ne 0 ]; then
    handle_error "Failed to get AWS account ID"
fi

# Create distribution configuration
cat > distribution-config.json << EOF
{
    "CallerReference": "cli-tutorial-$(date +%s)",
    "Origins": {
        "Quantity": 1,
        "Items": [
            {
                "Id": "S3-$BUCKET_NAME",
                "DomainName": "$BUCKET_NAME.s3.amazonaws.com",
                "S3OriginConfig": {
                    "OriginAccessIdentity": ""
                },
                "OriginAccessControlId": "$OAC_ID"
            }
        ]
    },
    "DefaultCacheBehavior": {
        "TargetOriginId": "S3-$BUCKET_NAME",
        "ViewerProtocolPolicy": "redirect-to-https",
        "AllowedMethods": {
            "Quantity": 2,
            "Items": ["GET", "HEAD"],
            "CachedMethods": {
                "Quantity": 2,
                "Items": ["GET", "HEAD"]
            }
        },
        "DefaultTTL": 86400,
        "MinTTL": 0,
        "MaxTTL": 31536000,
        "Compress": true,
        "ForwardedValues": {
            "QueryString": false,
            "Cookies": {
                "Forward": "none"
            }
        }
    },
    "Comment": "CloudFront distribution for tutorial",
    "Enabled": true,
    "WebACLId": ""
}
EOF

DIST_RESPONSE=$(aws cloudfront create-distribution --distribution-config file://distribution-config.json)
if [ $? -ne 0 ]; then
    handle_error "Failed to create CloudFront distribution"
fi

DISTRIBUTION_ID=$(echo "$DIST_RESPONSE" | jq -r '.Distribution.Id')
DOMAIN_NAME=$(echo "$DIST_RESPONSE" | jq -r '.Distribution.DomainName')

echo "Created CloudFront distribution with ID: $DISTRIBUTION_ID"
echo "CloudFront domain name: $DOMAIN_NAME"

# Step 6: Update S3 bucket policy
echo "Updating S3 bucket policy..."
cat > bucket-policy.json << EOF
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Sid": "AllowCloudFrontServicePrincipal",
            "Effect": "Allow",
            "Principal": {
                "Service": "cloudfront.amazonaws.com"
            },
            "Action": "s3:GetObject",
            "Resource": "arn:aws:s3:::$BUCKET_NAME/*",
            "Condition": {
                "StringEquals": {
                    "AWS:SourceArn": "arn:aws:cloudfront::$ACCOUNT_ID:distribution/$DISTRIBUTION_ID"
                }
            }
        }
    ]
}
EOF

aws s3api put-bucket-policy --bucket "$BUCKET_NAME" --policy file://bucket-policy.json
if [ $? -ne 0 ]; then
    handle_error "Failed to update S3 bucket policy"
fi

# Step 7: Wait for distribution to deploy
echo "Waiting for CloudFront distribution to deploy (this may take 5-10 minutes)..."
aws cloudfront wait distribution-deployed --id "$DISTRIBUTION_ID"
if [ $? -ne 0 ]; then
    echo "Warning: Distribution deployment wait timed out. The distribution may still be deploying."
else
    echo "CloudFront distribution is now deployed."
fi

# Step 8: Display access information
echo ""
echo "===== CloudFront Distribution Setup Complete ====="
echo "You can access your content at: https://$DOMAIN_NAME/index.html"
echo ""
echo "Resources created:"
echo "- S3 Bucket: $BUCKET_NAME"
echo "- CloudFront Origin Access Control: $OAC_ID"
echo "- CloudFront Distribution: $DISTRIBUTION_ID"
echo ""

# Ask user if they want to clean up resources
read -p "Do you want to clean up all resources created by this script? (y/n): " CLEANUP_RESPONSE
if [[ "$CLEANUP_RESPONSE" =~ ^[Yy] ]]; then
    cleanup
    echo "All resources have been cleaned up."
else
    echo "Resources will not be cleaned up. You can manually delete them later."
    echo "To access your content, visit: https://$DOMAIN_NAME/index.html"
fi

echo "Tutorial completed at $(date)"
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateDistribution](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/CreateDistribution)
  + [CreateOriginAccessControl](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/CreateOriginAccessControl)
  + [DeleteDistribution](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/DeleteDistribution)
  + [DeleteOriginAccessControl](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/DeleteOriginAccessControl)
  + [GetDistribution](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/GetDistribution)
  + [GetDistributionConfig](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/GetDistributionConfig)
  + [GetOriginAccessControl](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/GetOriginAccessControl)
  + [UpdateDistribution](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/UpdateDistribution)
  + [WaitDistributionDeployed](https://docs.aws.amazon.com/goto/aws-cli/cloudfront-2020-05-31/WaitDistributionDeployed)

# Contoh AWS CLI DynamoDB menggunakan dengan skrip Bash
<a name="bash_2_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash dengan DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 
Skenario mulai DynamoDB.  

```
###############################################################################
# function dynamodb_getting_started_movies
#
# Scenario to create an Amazon DynamoDB table and perform a series of operations on the table.
#
# Returns:
#       0 - If successful.
#       1 - If an error occurred.
###############################################################################
function dynamodb_getting_started_movies() {

  source ./dynamodb_operations.sh

  key_schema_json_file="dynamodb_key_schema.json"
  attribute_definitions_json_file="dynamodb_attr_def.json"
  item_json_file="movie_item.json"
  key_json_file="movie_key.json"
  batch_json_file="batch.json"
  attribute_names_json_file="attribute_names.json"
  attributes_values_json_file="attribute_values.json"

  echo_repeat "*" 88
  echo
  echo "Welcome to the Amazon DynamoDB getting started demo."
  echo
  echo_repeat "*" 88
  echo

  local table_name
  echo -n "Enter a name for a new DynamoDB table: "
  get_input
  table_name=$get_input_result

  echo '[
  {"AttributeName": "year", "KeyType": "HASH"},
   {"AttributeName": "title", "KeyType": "RANGE"}
  ]' >"$key_schema_json_file"

  echo '[
  {"AttributeName": "year", "AttributeType": "N"},
   {"AttributeName": "title", "AttributeType": "S"}
  ]' >"$attribute_definitions_json_file"

  if dynamodb_create_table -n "$table_name" -a "$attribute_definitions_json_file" \
    -k "$key_schema_json_file" 1>/dev/null; then
    echo "Created a DynamoDB table named $table_name"
  else
    errecho "The table failed to create. This demo will exit."
    clean_up
    return 1
  fi

  echo "Waiting for the table to become active...."

  if dynamodb_wait_table_active -n "$table_name"; then
    echo "The table is now active."
  else
    errecho "The table failed to become active. This demo will exit."
    cleanup "$table_name"
    return 1
  fi

  echo
  echo_repeat "*" 88
  echo

  echo -n "Enter the title of a movie you want to add to the table: "
  get_input
  local added_title
  added_title=$get_input_result

  local added_year
  get_int_input "What year was it released? "
  added_year=$get_input_result

  local rating
  get_float_input "On a scale of 1 - 10, how do you rate it? " "1" "10"
  rating=$get_input_result

  local plot
  echo -n "Summarize the plot for me: "
  get_input
  plot=$get_input_result

  echo '{
    "year": {"N" :"'"$added_year"'"},
    "title": {"S" :  "'"$added_title"'"},
    "info": {"M" : {"plot": {"S" : "'"$plot"'"}, "rating": {"N" :"'"$rating"'"} } }
   }' >"$item_json_file"

  if dynamodb_put_item -n "$table_name" -i "$item_json_file"; then
    echo "The movie '$added_title' was successfully added to the table '$table_name'."
  else
    errecho "Put item failed. This demo will exit."
    clean_up "$table_name"
    return 1
  fi

  echo
  echo_repeat "*" 88
  echo

  echo "Let's update your movie '$added_title'."
  get_float_input "You rated it $rating, what new rating would you give it? " "1" "10"
  rating=$get_input_result

  echo -n "You summarized the plot as '$plot'."
  echo "What would you say now? "
  get_input
  plot=$get_input_result

  echo '{
    "year": {"N" :"'"$added_year"'"},
    "title": {"S" :  "'"$added_title"'"}
    }' >"$key_json_file"

  echo '{
    ":r": {"N" :"'"$rating"'"},
    ":p": {"S" : "'"$plot"'"}
   }' >"$item_json_file"

  local update_expression="SET info.rating = :r, info.plot = :p"

  if dynamodb_update_item -n "$table_name" -k "$key_json_file" -e "$update_expression" -v "$item_json_file"; then
    echo "Updated '$added_title' with new attributes."
  else
    errecho "Update item failed. This demo will exit."
    clean_up "$table_name"
    return 1
  fi

  echo
  echo_repeat "*" 88
  echo

  echo "We will now use batch write to upload 150 movie entries into the table."

  local batch_json
  for batch_json in movie_files/movies_*.json; do
    echo "{ \"$table_name\" : $(<"$batch_json") }" >"$batch_json_file"
    if dynamodb_batch_write_item -i "$batch_json_file" 1>/dev/null; then
      echo "Entries in $batch_json added to table."
    else
      errecho "Batch write failed. This demo will exit."
      clean_up "$table_name"
      return 1
    fi
  done

  local title="The Lord of the Rings: The Fellowship of the Ring"
  local year="2001"

  if get_yes_no_input "Let's move on...do you want to get info about '$title'? (y/n) "; then
    echo '{
  "year": {"N" :"'"$year"'"},
  "title": {"S" :  "'"$title"'"}
  }' >"$key_json_file"
    local info
    info=$(dynamodb_get_item -n "$table_name" -k "$key_json_file")

    # shellcheck disable=SC2181
    if [[ ${?} -ne 0 ]]; then
      errecho "Get item failed. This demo will exit."
      clean_up "$table_name"
      return 1
    fi

    echo "Here is what I found:"
    echo "$info"
  fi

  local ask_for_year=true
  while [[ "$ask_for_year" == true ]]; do
    echo "Let's get a list of movies released in a given year."
    get_int_input "Enter a year between 1972 and 2018: " "1972" "2018"
    year=$get_input_result
    echo '{
    "#n": "year"
    }' >"$attribute_names_json_file"

    echo '{
    ":v": {"N" :"'"$year"'"}
    }' >"$attributes_values_json_file"

    response=$(dynamodb_query -n "$table_name" -k "#n=:v" -a "$attribute_names_json_file" -v "$attributes_values_json_file")

    # shellcheck disable=SC2181
    if [[ ${?} -ne 0 ]]; then
      errecho "Query table failed. This demo will exit."
      clean_up "$table_name"
      return 1
    fi

    echo "Here is what I found:"
    echo "$response"

    if ! get_yes_no_input "Try another year? (y/n) "; then
      ask_for_year=false
    fi
  done

  echo "Now let's scan for movies released in a range of years. Enter a year: "
  get_int_input "Enter a year between 1972 and 2018: " "1972" "2018"
  local start=$get_input_result

  get_int_input "Enter another year: " "1972" "2018"
  local end=$get_input_result

  echo '{
    "#n": "year"
    }' >"$attribute_names_json_file"

  echo '{
    ":v1": {"N" : "'"$start"'"},
    ":v2": {"N" : "'"$end"'"}
    }' >"$attributes_values_json_file"

  response=$(dynamodb_scan -n "$table_name" -f "#n BETWEEN :v1 AND :v2" -a "$attribute_names_json_file" -v "$attributes_values_json_file")

  # shellcheck disable=SC2181
  if [[ ${?} -ne 0 ]]; then
    errecho "Scan table failed. This demo will exit."
    clean_up "$table_name"
    return 1
  fi

  echo "Here is what I found:"
  echo "$response"

  echo
  echo_repeat "*" 88
  echo

  echo "Let's remove your movie '$added_title' from the table."

  if get_yes_no_input "Do you want to remove '$added_title'? (y/n) "; then
    echo '{
  "year": {"N" :"'"$added_year"'"},
  "title": {"S" :  "'"$added_title"'"}
  }' >"$key_json_file"

    if ! dynamodb_delete_item -n "$table_name" -k "$key_json_file"; then
      errecho "Delete item failed. This demo will exit."
      clean_up "$table_name"
      return 1
    fi
  fi

  if get_yes_no_input "Do you want to delete the table '$table_name'? (y/n) "; then
    if ! clean_up "$table_name"; then
      return 1
    fi
  else
    if ! clean_up; then
      return 1
    fi
  fi

  return 0
}
```
Fungsi DynamoDB yang digunakan dalam skenario ini.  

```
###############################################################################
# function dynamodb_create_table
#
# This function creates an Amazon DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table to create.
#       -a attribute_definitions -- JSON file path of a list of attributes and their types.
#       -k key_schema -- JSON file path of a list of attributes and their key types.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function dynamodb_create_table() {
  local table_name attribute_definitions key_schema response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_create_table"
    echo "Creates an Amazon DynamoDB table with on-demand billing."
    echo " -n table_name  -- The name of the table to create."
    echo " -a attribute_definitions -- JSON file path of a list of attributes and their types."
    echo " -k key_schema -- JSON file path of a list of attributes and their key types."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:a:k:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      a) attribute_definitions="${OPTARG}" ;;
      k) key_schema="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$attribute_definitions" ]]; then
    errecho "ERROR: You must provide an attribute definitions json file path the -a parameter."
    usage
    return 1
  fi

  if [[ -z "$key_schema" ]]; then
    errecho "ERROR: You must provide a key schema json file path the -k parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    attribute_definitions:   $attribute_definitions"
  iecho "    key_schema:   $key_schema"
  iecho ""

  response=$(aws dynamodb create-table \
    --table-name "$table_name" \
    --attribute-definitions file://"$attribute_definitions" \
    --billing-mode PAY_PER_REQUEST \
    --key-schema file://"$key_schema" )

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-table operation failed.$response"
    return 1
  fi

  return 0
}

###############################################################################
# function dynamodb_describe_table
#
# This function returns the status of a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#
#  Response:
#       - TableStatus:
#     And:
#       0 - Table is active.
#       1 - If it fails.
###############################################################################
function dynamodb_describe_table {
  local table_name
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_describe_table"
    echo "Describe the status of a DynamoDB table."
    echo "  -n table_name  -- The name of the table."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  local table_status
    table_status=$(
      aws dynamodb describe-table \
        --table-name "$table_name" \
        --output text \
        --query 'Table.TableStatus'
    )

   local error_code=${?}

    if [[ $error_code -ne 0 ]]; then
      aws_cli_error_log "$error_code"
      errecho "ERROR: AWS reports describe-table operation failed.$table_status"
      return 1
    fi

  echo "$table_status"

  return 0
}

##############################################################################
# function dynamodb_put_item
#
# This function puts an item into a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -i item  -- Path to json file containing the item values.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
##############################################################################
function dynamodb_put_item() {
  local table_name item response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_put_item"
    echo "Put an item into a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -i item  -- Path to json file containing the item values."
    echo ""
  }

  while getopts "n:i:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      i) item="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$item" ]]; then
    errecho "ERROR: You must provide an item with the -i parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    item:   $item"
  iecho ""
  iecho ""

  response=$(aws dynamodb put-item \
    --table-name "$table_name" \
    --item file://"$item")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports put-item operation failed.$response"
    return 1
  fi

  return 0

}

##############################################################################
# function dynamodb_update_item
#
# This function updates an item in a DynamoDB table.
#
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -k keys  -- Path to json file containing the keys that identify the item to update.
#       -e update expression  -- An expression that defines one or more attributes to be updated.
#       -v values  -- Path to json file containing the update values.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
#############################################################################
function dynamodb_update_item() {
  local table_name keys update_expression values response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_update_item"
    echo "Update an item in a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -k keys  -- Path to json file containing the keys that identify the item to update."
    echo " -e update expression  -- An expression that defines one or more attributes to be updated."
    echo " -v values  -- Path to json file containing the update values."
    echo ""
  }

  while getopts "n:k:e:v:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      k) keys="${OPTARG}" ;;
      e) update_expression="${OPTARG}" ;;
      v) values="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$keys" ]]; then
    errecho "ERROR: You must provide a keys json file path the -k parameter."
    usage
    return 1
  fi
  if [[ -z "$update_expression" ]]; then
    errecho "ERROR: You must provide an update expression with the -e parameter."
    usage
    return 1
  fi

  if [[ -z "$values" ]]; then
    errecho "ERROR: You must provide a values json file path the -v parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    keys:   $keys"
  iecho "    update_expression:   $update_expression"
  iecho "    values:   $values"

  response=$(aws dynamodb update-item \
    --table-name "$table_name" \
    --key file://"$keys" \
    --update-expression "$update_expression" \
    --expression-attribute-values file://"$values")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports update-item operation failed.$response"
    return 1
  fi

  return 0

}

##############################################################################
# function dynamodb_batch_write_item
#
# This function writes a batch of items into a DynamoDB table.
#
# Parameters:
#       -i item  -- Path to json file containing the items to write.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
############################################################################
function dynamodb_batch_write_item() {
  local item response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_batch_write_item"
    echo "Write a batch of items into a DynamoDB table."
    echo " -i item  -- Path to json file containing the items to write."
    echo ""
  }
  while getopts "i:h" option; do
    case "${option}" in
      i) item="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$item" ]]; then
    errecho "ERROR: You must provide an item with the -i parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    item:   $item"
  iecho ""

  response=$(aws dynamodb batch-write-item \
    --request-items file://"$item")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports batch-write-item operation failed.$response"
    return 1
  fi

  return 0
}

#############################################################################
# function dynamodb_get_item
#
# This function gets an item from a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -k keys  -- Path to json file containing the keys that identify the item to get.
#       [-q query]  -- Optional JMESPath query expression.
#
#  Returns:
#       The item as text output.
#  And:
#       0 - If successful.
#       1 - If it fails.
############################################################################
function dynamodb_get_item() {
  local table_name keys query response
  local option OPTARG # Required to use getopts command in a function.

  # ######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_get_item"
    echo "Get an item from a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -k keys  -- Path to json file containing the keys that identify the item to get."
    echo " [-q query]  -- Optional JMESPath query expression."
    echo ""
  }
  query=""
  while getopts "n:k:q:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      k) keys="${OPTARG}" ;;
      q) query="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$keys" ]]; then
    errecho "ERROR: You must provide a keys json file path the -k parameter."
    usage
    return 1
  fi

  if [[ -n "$query" ]]; then
    response=$(aws dynamodb get-item \
      --table-name "$table_name" \
      --key file://"$keys" \
      --output text \
      --query "$query")
  else
    response=$(
      aws dynamodb get-item \
        --table-name "$table_name" \
        --key file://"$keys" \
        --output text
    )
  fi

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports get-item operation failed.$response"
    return 1
  fi

  if [[ -n "$query" ]]; then
    echo "$response" | sed "/^\t/s/\t//1" # Remove initial tab that the JMSEPath query inserts on some strings.
  else
    echo "$response"
  fi

  return 0
}

#############################################################################
# function dynamodb_query
#
# This function queries a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -k key_condition_expression -- The key condition expression.
#       -a attribute_names -- Path to JSON file containing the attribute names.
#       -v attribute_values -- Path to JSON file containing the attribute values.
#       [-p projection_expression]  -- Optional projection expression.
#
#  Returns:
#       The items as json output.
#  And:
#       0 - If successful.
#       1 - If it fails.
###########################################################################
function dynamodb_query() {
  local table_name key_condition_expression attribute_names attribute_values projection_expression response
  local option OPTARG # Required to use getopts command in a function.

  # ######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_query"
    echo "Query a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -k key_condition_expression -- The key condition expression."
    echo " -a attribute_names -- Path to JSON file containing the attribute names."
    echo " -v attribute_values -- Path to JSON file containing the attribute values."
    echo " [-p projection_expression]  -- Optional projection expression."
    echo ""
  }

  while getopts "n:k:a:v:p:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      k) key_condition_expression="${OPTARG}" ;;
      a) attribute_names="${OPTARG}" ;;
      v) attribute_values="${OPTARG}" ;;
      p) projection_expression="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$key_condition_expression" ]]; then
    errecho "ERROR: You must provide a key condition expression with the -k parameter."
    usage
    return 1
  fi

  if [[ -z "$attribute_names" ]]; then
    errecho "ERROR: You must provide a attribute names with the -a parameter."
    usage
    return 1
  fi

  if [[ -z "$attribute_values" ]]; then
    errecho "ERROR: You must provide a attribute values with the -v parameter."
    usage
    return 1
  fi

  if [[ -z "$projection_expression" ]]; then
    response=$(aws dynamodb query \
      --table-name "$table_name" \
      --key-condition-expression "$key_condition_expression" \
      --expression-attribute-names file://"$attribute_names" \
      --expression-attribute-values file://"$attribute_values")
  else
    response=$(aws dynamodb query \
      --table-name "$table_name" \
      --key-condition-expression "$key_condition_expression" \
      --expression-attribute-names file://"$attribute_names" \
      --expression-attribute-values file://"$attribute_values" \
      --projection-expression "$projection_expression")
  fi

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports query operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}

#############################################################################
# function dynamodb_scan
#
# This function scans a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -f filter_expression  -- The filter expression.
#       -a expression_attribute_names -- Path to JSON file containing the expression attribute names.
#       -v expression_attribute_values -- Path to JSON file containing the expression attribute values.
#       [-p projection_expression]  -- Optional projection expression.
#
#  Returns:
#       The items as json output.
#  And:
#       0 - If successful.
#       1 - If it fails.
###########################################################################
function dynamodb_scan() {
  local table_name filter_expression expression_attribute_names expression_attribute_values projection_expression response
  local option OPTARG # Required to use getopts command in a function.

  # ######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_scan"
    echo "Scan a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -f filter_expression  -- The filter expression."
    echo " -a expression_attribute_names -- Path to JSON file containing the expression attribute names."
    echo " -v expression_attribute_values -- Path to JSON file containing the expression attribute values."
    echo " [-p projection_expression]  -- Optional projection expression."
    echo ""
  }

  while getopts "n:f:a:v:p:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      f) filter_expression="${OPTARG}" ;;
      a) expression_attribute_names="${OPTARG}" ;;
      v) expression_attribute_values="${OPTARG}" ;;
      p) projection_expression="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$filter_expression" ]]; then
    errecho "ERROR: You must provide a filter expression with the -f parameter."
    usage
    return 1
  fi

  if [[ -z "$expression_attribute_names" ]]; then
    errecho "ERROR: You must provide expression attribute names with the -a parameter."
    usage
    return 1
  fi

  if [[ -z "$expression_attribute_values" ]]; then
    errecho "ERROR: You must provide expression attribute values with the -v parameter."
    usage
    return 1
  fi

  if [[ -z "$projection_expression" ]]; then
    response=$(aws dynamodb scan \
      --table-name "$table_name" \
      --filter-expression "$filter_expression" \
      --expression-attribute-names file://"$expression_attribute_names" \
      --expression-attribute-values file://"$expression_attribute_values")
  else
    response=$(aws dynamodb scan \
      --table-name "$table_name" \
      --filter-expression "$filter_expression" \
      --expression-attribute-names file://"$expression_attribute_names" \
      --expression-attribute-values file://"$expression_attribute_values" \
      --projection-expression "$projection_expression")
  fi

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports scan operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}

##############################################################################
# function dynamodb_delete_item
#
# This function deletes an item from a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -k keys  -- Path to json file containing the keys that identify the item to delete.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
###########################################################################
function dynamodb_delete_item() {
  local table_name keys response
  local option OPTARG # Required to use getopts command in a function.

  # ######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_delete_item"
    echo "Delete an item from a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -k keys  -- Path to json file containing the keys that identify the item to delete."
    echo ""
  }
  while getopts "n:k:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      k) keys="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$keys" ]]; then
    errecho "ERROR: You must provide a keys json file path the -k parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    keys:   $keys"
  iecho ""

  response=$(aws dynamodb delete-item \
    --table-name "$table_name" \
    --key file://"$keys")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-item operation failed.$response"
    return 1
  fi

  return 0

}

###############################################################################
# function dynamodb_delete_table
#
# This function deletes a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table to delete.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function dynamodb_delete_table() {
  local table_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function dynamodb_delete_table"
    echo "Deletes an Amazon DynamoDB table."
    echo " -n table_name  -- The name of the table to delete."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho ""

  response=$(aws dynamodb delete-table \
    --table-name "$table_name")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-table operation failed.$response"
    return 1
  fi

  return 0
}
```
Fungsi utilitas yang digunakan dalam skenario ini.  

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [BatchWriteItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/BatchWriteItem)
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DeleteItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DeleteItem)
  + [DeleteTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/Scan)
  + [UpdateItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateItem)

## Tindakan
<a name="actions"></a>

### `BatchGetItem`
<a name="dynamodb_BatchGetItem_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetItem`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
#############################################################################
# function dynamodb_batch_get_item
#
# This function gets a batch of items from a DynamoDB table.
#
# Parameters:
#       -i item  -- Path to json file containing the keys of the items to get.
#
#  Returns:
#       The items as json output.
#  And:
#       0 - If successful.
#       1 - If it fails.
##########################################################################
function dynamodb_batch_get_item() {
  local item response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_batch_get_item"
    echo "Get a batch of items from a DynamoDB table."
    echo " -i item  -- Path to json file containing the keys of the items to get."
    echo ""
  }

  while getopts "i:h" option; do
    case "${option}" in
      i) item="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$item" ]]; then
    errecho "ERROR: You must provide an item with the -i parameter."
    usage
    return 1
  fi

  response=$(aws dynamodb batch-get-item \
    --request-items file://"$item")
  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports batch-get-item operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/BatchGetItem)di *Referensi AWS CLI Perintah*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
##############################################################################
# function dynamodb_batch_write_item
#
# This function writes a batch of items into a DynamoDB table.
#
# Parameters:
#       -i item  -- Path to json file containing the items to write.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
############################################################################
function dynamodb_batch_write_item() {
  local item response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_batch_write_item"
    echo "Write a batch of items into a DynamoDB table."
    echo " -i item  -- Path to json file containing the items to write."
    echo ""
  }
  while getopts "i:h" option; do
    case "${option}" in
      i) item="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$item" ]]; then
    errecho "ERROR: You must provide an item with the -i parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    item:   $item"
  iecho ""

  response=$(aws dynamodb batch-write-item \
    --request-items file://"$item")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports batch-write-item operation failed.$response"
    return 1
  fi

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/BatchWriteItem)di *Referensi AWS CLI Perintah*. 

### `CreateTable`
<a name="dynamodb_CreateTable_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
###############################################################################
# function dynamodb_create_table
#
# This function creates an Amazon DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table to create.
#       -a attribute_definitions -- JSON file path of a list of attributes and their types.
#       -k key_schema -- JSON file path of a list of attributes and their key types.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function dynamodb_create_table() {
  local table_name attribute_definitions key_schema response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_create_table"
    echo "Creates an Amazon DynamoDB table with on-demand billing."
    echo " -n table_name  -- The name of the table to create."
    echo " -a attribute_definitions -- JSON file path of a list of attributes and their types."
    echo " -k key_schema -- JSON file path of a list of attributes and their key types."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:a:k:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      a) attribute_definitions="${OPTARG}" ;;
      k) key_schema="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$attribute_definitions" ]]; then
    errecho "ERROR: You must provide an attribute definitions json file path the -a parameter."
    usage
    return 1
  fi

  if [[ -z "$key_schema" ]]; then
    errecho "ERROR: You must provide a key schema json file path the -k parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    attribute_definitions:   $attribute_definitions"
  iecho "    key_schema:   $key_schema"
  iecho ""

  response=$(aws dynamodb create-table \
    --table-name "$table_name" \
    --attribute-definitions file://"$attribute_definitions" \
    --billing-mode PAY_PER_REQUEST \
    --key-schema file://"$key_schema" )

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-table operation failed.$response"
    return 1
  fi

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)di *Referensi AWS CLI Perintah*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
##############################################################################
# function dynamodb_delete_item
#
# This function deletes an item from a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -k keys  -- Path to json file containing the keys that identify the item to delete.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
###########################################################################
function dynamodb_delete_item() {
  local table_name keys response
  local option OPTARG # Required to use getopts command in a function.

  # ######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_delete_item"
    echo "Delete an item from a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -k keys  -- Path to json file containing the keys that identify the item to delete."
    echo ""
  }
  while getopts "n:k:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      k) keys="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$keys" ]]; then
    errecho "ERROR: You must provide a keys json file path the -k parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    keys:   $keys"
  iecho ""

  response=$(aws dynamodb delete-item \
    --table-name "$table_name" \
    --key file://"$keys")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-item operation failed.$response"
    return 1
  fi

  return 0

}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DeleteItem)di *Referensi AWS CLI Perintah*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
###############################################################################
# function dynamodb_delete_table
#
# This function deletes a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table to delete.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function dynamodb_delete_table() {
  local table_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function dynamodb_delete_table"
    echo "Deletes an Amazon DynamoDB table."
    echo " -n table_name  -- The name of the table to delete."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho ""

  response=$(aws dynamodb delete-table \
    --table-name "$table_name")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-table operation failed.$response"
    return 1
  fi

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DeleteTable)di *Referensi AWS CLI Perintah*. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
###############################################################################
# function dynamodb_describe_table
#
# This function returns the status of a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#
#  Response:
#       - TableStatus:
#     And:
#       0 - Table is active.
#       1 - If it fails.
###############################################################################
function dynamodb_describe_table {
  local table_name
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_describe_table"
    echo "Describe the status of a DynamoDB table."
    echo "  -n table_name  -- The name of the table."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  local table_status
    table_status=$(
      aws dynamodb describe-table \
        --table-name "$table_name" \
        --output text \
        --query 'Table.TableStatus'
    )

   local error_code=${?}

    if [[ $error_code -ne 0 ]]; then
      aws_cli_error_log "$error_code"
      errecho "ERROR: AWS reports describe-table operation failed.$table_status"
      return 1
    fi

  echo "$table_status"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTable)di *Referensi AWS CLI Perintah*. 

### `GetItem`
<a name="dynamodb_GetItem_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
#############################################################################
# function dynamodb_get_item
#
# This function gets an item from a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -k keys  -- Path to json file containing the keys that identify the item to get.
#       [-q query]  -- Optional JMESPath query expression.
#
#  Returns:
#       The item as text output.
#  And:
#       0 - If successful.
#       1 - If it fails.
############################################################################
function dynamodb_get_item() {
  local table_name keys query response
  local option OPTARG # Required to use getopts command in a function.

  # ######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_get_item"
    echo "Get an item from a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -k keys  -- Path to json file containing the keys that identify the item to get."
    echo " [-q query]  -- Optional JMESPath query expression."
    echo ""
  }
  query=""
  while getopts "n:k:q:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      k) keys="${OPTARG}" ;;
      q) query="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$keys" ]]; then
    errecho "ERROR: You must provide a keys json file path the -k parameter."
    usage
    return 1
  fi

  if [[ -n "$query" ]]; then
    response=$(aws dynamodb get-item \
      --table-name "$table_name" \
      --key file://"$keys" \
      --output text \
      --query "$query")
  else
    response=$(
      aws dynamodb get-item \
        --table-name "$table_name" \
        --key file://"$keys" \
        --output text
    )
  fi

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports get-item operation failed.$response"
    return 1
  fi

  if [[ -n "$query" ]]; then
    echo "$response" | sed "/^\t/s/\t//1" # Remove initial tab that the JMSEPath query inserts on some strings.
  else
    echo "$response"
  fi

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/GetItem)di *Referensi AWS CLI Perintah*. 

### `ListTables`
<a name="dynamodb_ListTables_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
##############################################################################
# function dynamodb_list_tables
#
# This function lists all the tables in a DynamoDB.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###########################################################################
function dynamodb_list_tables() {
  response=$(aws dynamodb list-tables \
    --output text \
    --query "TableNames")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports batch-write-item operation failed.$response"
    return 1
  fi

  echo "$response" | tr -s "[:space:]" "\n"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/ListTables)di *Referensi AWS CLI Perintah*. 

### `PutItem`
<a name="dynamodb_PutItem_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
##############################################################################
# function dynamodb_put_item
#
# This function puts an item into a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -i item  -- Path to json file containing the item values.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
##############################################################################
function dynamodb_put_item() {
  local table_name item response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_put_item"
    echo "Put an item into a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -i item  -- Path to json file containing the item values."
    echo ""
  }

  while getopts "n:i:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      i) item="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$item" ]]; then
    errecho "ERROR: You must provide an item with the -i parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    item:   $item"
  iecho ""
  iecho ""

  response=$(aws dynamodb put-item \
    --table-name "$table_name" \
    --item file://"$item")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports put-item operation failed.$response"
    return 1
  fi

  return 0

}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/PutItem)di *Referensi AWS CLI Perintah*. 

### `Query`
<a name="dynamodb_Query_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
#############################################################################
# function dynamodb_query
#
# This function queries a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -k key_condition_expression -- The key condition expression.
#       -a attribute_names -- Path to JSON file containing the attribute names.
#       -v attribute_values -- Path to JSON file containing the attribute values.
#       [-p projection_expression]  -- Optional projection expression.
#
#  Returns:
#       The items as json output.
#  And:
#       0 - If successful.
#       1 - If it fails.
###########################################################################
function dynamodb_query() {
  local table_name key_condition_expression attribute_names attribute_values projection_expression response
  local option OPTARG # Required to use getopts command in a function.

  # ######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_query"
    echo "Query a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -k key_condition_expression -- The key condition expression."
    echo " -a attribute_names -- Path to JSON file containing the attribute names."
    echo " -v attribute_values -- Path to JSON file containing the attribute values."
    echo " [-p projection_expression]  -- Optional projection expression."
    echo ""
  }

  while getopts "n:k:a:v:p:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      k) key_condition_expression="${OPTARG}" ;;
      a) attribute_names="${OPTARG}" ;;
      v) attribute_values="${OPTARG}" ;;
      p) projection_expression="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$key_condition_expression" ]]; then
    errecho "ERROR: You must provide a key condition expression with the -k parameter."
    usage
    return 1
  fi

  if [[ -z "$attribute_names" ]]; then
    errecho "ERROR: You must provide a attribute names with the -a parameter."
    usage
    return 1
  fi

  if [[ -z "$attribute_values" ]]; then
    errecho "ERROR: You must provide a attribute values with the -v parameter."
    usage
    return 1
  fi

  if [[ -z "$projection_expression" ]]; then
    response=$(aws dynamodb query \
      --table-name "$table_name" \
      --key-condition-expression "$key_condition_expression" \
      --expression-attribute-names file://"$attribute_names" \
      --expression-attribute-values file://"$attribute_values")
  else
    response=$(aws dynamodb query \
      --table-name "$table_name" \
      --key-condition-expression "$key_condition_expression" \
      --expression-attribute-names file://"$attribute_names" \
      --expression-attribute-values file://"$attribute_values" \
      --projection-expression "$projection_expression")
  fi

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports query operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/Query) di *Referensi Perintah AWS CLI *. 

### `Scan`
<a name="dynamodb_Scan_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
#############################################################################
# function dynamodb_scan
#
# This function scans a DynamoDB table.
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -f filter_expression  -- The filter expression.
#       -a expression_attribute_names -- Path to JSON file containing the expression attribute names.
#       -v expression_attribute_values -- Path to JSON file containing the expression attribute values.
#       [-p projection_expression]  -- Optional projection expression.
#
#  Returns:
#       The items as json output.
#  And:
#       0 - If successful.
#       1 - If it fails.
###########################################################################
function dynamodb_scan() {
  local table_name filter_expression expression_attribute_names expression_attribute_values projection_expression response
  local option OPTARG # Required to use getopts command in a function.

  # ######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_scan"
    echo "Scan a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -f filter_expression  -- The filter expression."
    echo " -a expression_attribute_names -- Path to JSON file containing the expression attribute names."
    echo " -v expression_attribute_values -- Path to JSON file containing the expression attribute values."
    echo " [-p projection_expression]  -- Optional projection expression."
    echo ""
  }

  while getopts "n:f:a:v:p:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      f) filter_expression="${OPTARG}" ;;
      a) expression_attribute_names="${OPTARG}" ;;
      v) expression_attribute_values="${OPTARG}" ;;
      p) projection_expression="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$filter_expression" ]]; then
    errecho "ERROR: You must provide a filter expression with the -f parameter."
    usage
    return 1
  fi

  if [[ -z "$expression_attribute_names" ]]; then
    errecho "ERROR: You must provide expression attribute names with the -a parameter."
    usage
    return 1
  fi

  if [[ -z "$expression_attribute_values" ]]; then
    errecho "ERROR: You must provide expression attribute values with the -v parameter."
    usage
    return 1
  fi

  if [[ -z "$projection_expression" ]]; then
    response=$(aws dynamodb scan \
      --table-name "$table_name" \
      --filter-expression "$filter_expression" \
      --expression-attribute-names file://"$expression_attribute_names" \
      --expression-attribute-values file://"$expression_attribute_values")
  else
    response=$(aws dynamodb scan \
      --table-name "$table_name" \
      --filter-expression "$filter_expression" \
      --expression-attribute-names file://"$expression_attribute_names" \
      --expression-attribute-values file://"$expression_attribute_values" \
      --projection-expression "$projection_expression")
  fi

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports scan operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/Scan) in *Referensi Perintah AWS CLI *. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/dynamodb#code-examples). 

```
##############################################################################
# function dynamodb_update_item
#
# This function updates an item in a DynamoDB table.
#
#
# Parameters:
#       -n table_name  -- The name of the table.
#       -k keys  -- Path to json file containing the keys that identify the item to update.
#       -e update expression  -- An expression that defines one or more attributes to be updated.
#       -v values  -- Path to json file containing the update values.
#
#  Returns:
#       0 - If successful.
#       1 - If it fails.
#############################################################################
function dynamodb_update_item() {
  local table_name keys update_expression values response
  local option OPTARG # Required to use getopts command in a function.

  #######################################
  # Function usage explanation
  #######################################
  function usage() {
    echo "function dynamodb_update_item"
    echo "Update an item in a DynamoDB table."
    echo " -n table_name  -- The name of the table."
    echo " -k keys  -- Path to json file containing the keys that identify the item to update."
    echo " -e update expression  -- An expression that defines one or more attributes to be updated."
    echo " -v values  -- Path to json file containing the update values."
    echo ""
  }

  while getopts "n:k:e:v:h" option; do
    case "${option}" in
      n) table_name="${OPTARG}" ;;
      k) keys="${OPTARG}" ;;
      e) update_expression="${OPTARG}" ;;
      v) values="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$table_name" ]]; then
    errecho "ERROR: You must provide a table name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$keys" ]]; then
    errecho "ERROR: You must provide a keys json file path the -k parameter."
    usage
    return 1
  fi
  if [[ -z "$update_expression" ]]; then
    errecho "ERROR: You must provide an update expression with the -e parameter."
    usage
    return 1
  fi

  if [[ -z "$values" ]]; then
    errecho "ERROR: You must provide a values json file path the -v parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    table_name:   $table_name"
  iecho "    keys:   $keys"
  iecho "    update_expression:   $update_expression"
  iecho "    values:   $values"

  response=$(aws dynamodb update-item \
    --table-name "$table_name" \
    --key file://"$keys" \
    --update-expression "$update_expression" \
    --expression-attribute-values file://"$values")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports update-item operation failed.$response"
    return 1
  fi

  return 0

}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS CLI Perintah*. 

## Skenario
<a name="scenarios"></a>

### Skenario Indeks Sekunder Global Tingkat Lanjut
<a name="dynamodb_Scenario_GSIAdvanced_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara bekerja dengan konfigurasi Indeks Sekunder Global tingkat lanjut.
+ Buat tabel dengan banyak GSIs.
+ Buat tabel dengan kapasitas sesuai permintaan dan GSI.
+ Masukkan item ke dalam tabel dengan banyak GSIs.
+ Kueri beberapa GSIs dengan kondisi berbeda.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan banyak GSIs.  

```
# Create a table with multiple GSIs
aws dynamodb create-table \
    --table-name MusicLibrary \
    --attribute-definitions \
        AttributeName=Artist,AttributeType=S \
        AttributeName=SongTitle,AttributeType=S \
        AttributeName=AlbumTitle,AttributeType=S \
        AttributeName=Genre,AttributeType=S \
        AttributeName=Year,AttributeType=N \
    --key-schema \
        AttributeName=Artist,KeyType=HASH \
        AttributeName=SongTitle,KeyType=RANGE \
    --billing-mode PAY_PER_REQUEST \
    --global-secondary-indexes \
        "[
            {
                \"IndexName\": \"AlbumIndex\",
                \"KeySchema\": [{\"AttributeName\":\"AlbumTitle\",\"KeyType\":\"HASH\"}],
                \"Projection\": {\"ProjectionType\":\"ALL\"}
            },
            {
                \"IndexName\": \"GenreYearIndex\",
                \"KeySchema\": [
                    {\"AttributeName\":\"Genre\",\"KeyType\":\"HASH\"},
                    {\"AttributeName\":\"Year\",\"KeyType\":\"RANGE\"}
                ],
                \"Projection\": {\"ProjectionType\":\"INCLUDE\",\"NonKeyAttributes\":[\"Artist\",\"SongTitle\"]}
            }
        ]"
```
Buat tabel dengan kapasitas sesuai permintaan dan GSI.  

```
# Create a table with on-demand capacity and GSI
aws dynamodb create-table \
    --table-name MusicOnDemand \
    --attribute-definitions \
        AttributeName=Artist,AttributeType=S \
        AttributeName=SongTitle,AttributeType=S \
        AttributeName=Genre,AttributeType=S \
    --key-schema \
        AttributeName=Artist,KeyType=HASH \
        AttributeName=SongTitle,KeyType=RANGE \
    --billing-mode PAY_PER_REQUEST \
    --global-secondary-indexes \
        "[
            {
                \"IndexName\": \"GenreIndex\",
                \"KeySchema\": [{\"AttributeName\":\"Genre\",\"KeyType\":\"HASH\"}],
                \"Projection\": {\"ProjectionType\":\"ALL\"}
            }
        ]"
```
Masukkan item ke dalam tabel dengan banyak GSIs.  

```
# Add items to MusicLibrary table
aws dynamodb put-item \
    --table-name MusicLibrary \
    --item '{
        "Artist": {"S": "The Beatles"},
        "SongTitle": {"S": "Hey Jude"},
        "AlbumTitle": {"S": "Past Masters"},
        "Genre": {"S": "Rock"},
        "Year": {"N": "1968"}
    }'

aws dynamodb put-item \
    --table-name MusicLibrary \
    --item '{
        "Artist": {"S": "Miles Davis"},
        "SongTitle": {"S": "So What"},
        "AlbumTitle": {"S": "Kind of Blue"},
        "Genre": {"S": "Jazz"},
        "Year": {"N": "1959"}
    }'
```
Kueri item dari tabel dengan beberapa GSIs.  

```
# Query the AlbumIndex GSI
echo "Querying AlbumIndex GSI:"
aws dynamodb query \
    --table-name MusicLibrary \
    --index-name AlbumIndex \
    --key-condition-expression "AlbumTitle = :album" \
    --expression-attribute-values '{":album":{"S":"Kind of Blue"}}'

# Query the GenreYearIndex GSI with a range condition
echo "Querying GenreYearIndex GSI with range condition:"
aws dynamodb query \
    --table-name MusicLibrary \
    --index-name GenreYearIndex \
    --key-condition-expression "Genre = :genre AND #yr > :year" \
    --expression-attribute-names '{"#yr": "Year"}' \
    --expression-attribute-values '{":genre":{"S":"Rock"},":year":{"N":"1965"}}'
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [PutItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/Query)

### Membuat dan mengelola tabel global MRSC
<a name="dynamodb_Scenario_MRSCGlobalTables_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mengelola tabel global DynamoDB dengan Multi-Region Strong Consistency (MRSC).
+ Buat tabel dengan Konsistensi Kuat Multi-Region.
+ Verifikasi konfigurasi MRSC dan status replika.
+ Uji konsistensi yang kuat di seluruh Wilayah dengan pembacaan langsung.
+ Lakukan penulisan bersyarat dengan jaminan MRSC.
+ Bersihkan sumber daya tabel global MRSC.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan Konsistensi Kuat Multi-Region.  

```
# Step 1: Create a new table in us-east-2 (primary region for MRSC)
# Note: Table must be empty when enabling MRSC
aws dynamodb create-table \
    --table-name MusicTable \
    --attribute-definitions \
        AttributeName=Artist,AttributeType=S \
        AttributeName=SongTitle,AttributeType=S \
    --key-schema \
        AttributeName=Artist,KeyType=HASH \
        AttributeName=SongTitle,KeyType=RANGE \
    --billing-mode PAY_PER_REQUEST \
    --region us-east-2

# Wait for table to become active
aws dynamodb wait table-exists --table-name MusicTable --region us-east-2

# Step 2: Add replica and witness with Multi-Region Strong Consistency
# MRSC requires exactly three replicas in supported regions
aws dynamodb update-table \
    --table-name MusicTable \
    --replica-updates '[{"Create": {"RegionName": "us-east-1"}}]' \
    --global-table-witness-updates '[{"Create": {"RegionName": "us-west-2"}}]' \
    --multi-region-consistency STRONG \
    --region us-east-2
```
Verifikasi konfigurasi MRSC dan status replika.  

```
# Verify the global table configuration and MRSC setting
aws dynamodb describe-table \
    --table-name MusicTable \
    --region us-east-2 \
    --query 'Table.{TableName:TableName,TableStatus:TableStatus,MultiRegionConsistency:MultiRegionConsistency,Replicas:Replicas[*],GlobalTableWitnesses:GlobalTableWitnesses[*].{Region:RegionName,Status:ReplicaStatus}}'
```
Uji konsistensi yang kuat dengan pembacaan langsung di seluruh Wilayah.  

```
# Write an item to the primary region
aws dynamodb put-item \
    --table-name MusicTable \
    --item '{"Artist": {"S":"The Beatles"},"SongTitle": {"S":"Hey Jude"},"Album": {"S":"The Beatles 1967-1970"},"Year": {"N":"1968"}}' \
    --region us-east-2

# Read the item from replica region to verify strong consistency (cannot read or write to witness)
# No wait time needed - MRSC provides immediate consistency
echo "Reading from us-east-1 (immediate consistency):"
aws dynamodb get-item \
    --table-name MusicTable \
    --key '{"Artist": {"S":"The Beatles"},"SongTitle": {"S":"Hey Jude"}}' \
    --consistent-read \
    --region us-east-1
```
Lakukan penulisan bersyarat dengan jaminan MRSC.  

```
# Perform a conditional update from a different region
# This demonstrates that conditions work consistently across all regions
aws dynamodb update-item \
    --table-name MusicTable \
    --key '{"Artist": {"S":"The Beatles"},"SongTitle": {"S":"Hey Jude"}}' \
    --update-expression "SET #rating = :rating" \
    --condition-expression "attribute_exists(Artist)" \
    --expression-attribute-names '{"#rating": "Rating"}' \
    --expression-attribute-values '{":rating": {"N":"5"}}' \
    --region us-east-1
```
Bersihkan sumber daya tabel global MRSC.  

```
# Remove replica tables (must be done before deleting the primary table)
aws dynamodb update-table \
    --table-name MusicTable \
    --replica-updates '[{"Delete": {"RegionName": "us-east-1"}}]' \
    --global-table-witness-updates '[{"Delete": {"RegionName": "us-west-2"}}]' \
    --region us-east-2

# Wait for replicas to be deleted
echo "Waiting for replicas to be deleted..."
sleep 30

# Delete the primary table
aws dynamodb delete-table \
    --table-name MusicTable \
    --region us-east-2
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DeleteTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/PutItem)
  + [UpdateItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateItem)
  + [UpdateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateTable)

### Kelola Indeks Sekunder Global
<a name="dynamodb_Scenario_GSILifecycle_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara mengelola siklus hidup lengkap Global Secondary Indexes.
+ Buat tabel dengan Indeks Sekunder Global.
+ Tambahkan GSI baru ke tabel yang ada.
+ Perbarui (tingkatkan) throughput hangat GSI.
+ Data kueri menggunakan GSIs.
+ Hapus GSI.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan Indeks Sekunder Global.  

```
# Create a table with a GSI
aws dynamodb create-table \
    --table-name MusicCollection \
    --attribute-definitions \
        AttributeName=Artist,AttributeType=S \
        AttributeName=SongTitle,AttributeType=S \
        AttributeName=AlbumTitle,AttributeType=S \
    --key-schema \
        AttributeName=Artist,KeyType=HASH \
        AttributeName=SongTitle,KeyType=RANGE \
    --billing-mode PAY_PER_REQUEST \
    --global-secondary-indexes \
        "IndexName=AlbumIndex,\
        KeySchema=[{AttributeName=AlbumTitle,KeyType=HASH}],\
        Projection={ProjectionType=ALL}"
```
Tambahkan GSI baru (sesuai permintaan) ke tabel yang ada.  

```
# Add a new GSI to an existing table
aws dynamodb update-table \
    --table-name MusicCollection \
    --attribute-definitions \
        AttributeName=Genre,AttributeType=S \
    --global-secondary-index-updates \
        "[{\"Create\":{\"IndexName\":\"GenreIndex\",\
        \"KeySchema\":[{\"AttributeName\":\"Genre\",\"KeyType\":\"HASH\"}],\
        \"Projection\":{\"ProjectionType\":\"ALL\"}}}]"
```
Perbarui (tingkatkan) throughput hangat GSI.  

```
# Increase the warm throughput of a GSI (default values are 12k reads, 4k writes)
aws dynamodb update-table \
    --table-name MusicCollection \
    --global-secondary-index-updates \
        "[{\"Update\":{\"IndexName\":\"AlbumIndex\",\
        \"WarmThroughput\":{\"ReadUnitsPerSecond\":15000,\"WriteUnitsPerSecond\":6000}}}]"
```
Data kueri menggunakan GSIs.  

```
# Query the AlbumIndex GSI
aws dynamodb query \
    --table-name MusicCollection \
    --index-name AlbumIndex \
    --key-condition-expression "AlbumTitle = :album" \
    --expression-attribute-values '{":album":{"S":"Let It Be"}}'

# Query the GenreIndex GSI
aws dynamodb query \
    --table-name MusicCollection \
    --index-name GenreIndex \
    --key-condition-expression "Genre = :genre" \
    --expression-attribute-values '{":genre":{"S":"Jazz"}}'
```
Hapus GSI.  

```
# Delete a GSI from a table
aws dynamodb update-table \
    --table-name MusicCollection \
    --global-secondary-index-updates \
        "[{\"Delete\":{\"IndexName\":\"GenreIndex\"}}]"
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DeleteTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DeleteTable)
  + [Kueri](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/Query)
  + [UpdateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateTable)

### Mengelola kebijakan berbasis sumber daya
<a name="dynamodb_Scenario_ResourcePolicyLifecycle_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara mengelola siklus hidup lengkap kebijakan berbasis sumber daya untuk tabel DynamoDB.
+ Buat tabel dengan kebijakan sumber daya.
+ Dapatkan kebijakan sumber daya.
+ Perbarui kebijakan sumber daya.
+ Hapus kebijakan sumber daya.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan kebijakan sumber daya.  

```
# Step 1: Create a DynamoDB table
aws dynamodb create-table \
    --table-name MusicCollection \
    --attribute-definitions \
        AttributeName=Artist,AttributeType=S \
        AttributeName=SongTitle,AttributeType=S \
    --key-schema \
        AttributeName=Artist,KeyType=HASH \
        AttributeName=SongTitle,KeyType=RANGE \
    --billing-mode PAY_PER_REQUEST

# Step 2: Create a resource-based policy document
cat > policy.json << 'EOF'
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Principal": {
        "AWS": "arn:aws:iam::123456789012:role/DynamoDBReadOnly"
      },
      "Action": [
        "dynamodb:GetItem",
        "dynamodb:BatchGetItem",
        "dynamodb:Query",
        "dynamodb:Scan"
      ],
      "Resource": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection"
    }
  ]
}
EOF

# Step 3: Attach the resource-based policy to the table
aws dynamodb put-resource-policy \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection \
    --policy file://policy.json
```
Dapatkan kebijakan sumber daya.  

```
# Get the resource-based policy attached to a table
aws dynamodb get-resource-policy \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection
```
Perbarui kebijakan sumber daya.  

```
# Step 1: Create an updated policy document
cat > updated-policy.json << 'EOF'
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Principal": {
        "AWS": [
          "arn:aws:iam::123456789012:role/DynamoDBReadOnly",
          "arn:aws:iam::123456789012:role/DynamoDBAnalytics"
        ]
      },
      "Action": [
        "dynamodb:GetItem",
        "dynamodb:BatchGetItem",
        "dynamodb:Query",
        "dynamodb:Scan"
      ],
      "Resource": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection"
    }
  ]
}
EOF

# Step 2: Update the resource-based policy on the table
aws dynamodb put-resource-policy \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection \
    --policy file://updated-policy.json
```
Hapus kebijakan sumber daya.  

```
# Delete the resource-based policy from a table
aws dynamodb delete-resource-policy \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DeleteResourcePolicy](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DeleteResourcePolicy)
  + [GetResourcePolicy](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/GetResourcePolicy)
  + [PutResourcePolicy](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/PutResourcePolicy)

### Mengatur Kontrol Akses Berbasis Atribut
<a name="dynamodb_Scenario_ABACSetup_bash_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan Attribute-Based Access Control (ABAC) untuk DynamoDB.
+ Buat kebijakan IAM untuk ABAC.
+ Buat tabel dengan tag untuk departemen yang berbeda.
+ Daftar dan filter tabel berdasarkan tag.

**AWS CLI dengan skrip Bash**  
Buat kebijakan IAM untuk ABAC.  

```
# Step 1: Create a policy document for ABAC
cat > abac-policy.json << 'EOF'
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "dynamodb:GetItem",
        "dynamodb:BatchGetItem",
        "dynamodb:Query",
        "dynamodb:Scan"
      ],
      "Resource": "arn:aws:dynamodb:*:*:table/*",
      "Condition": {
        "StringEquals": {
          "aws:ResourceTag/Department": "${aws:PrincipalTag/Department}"
        }
      }
    },
    {
      "Effect": "Allow",
      "Action": [
        "dynamodb:PutItem",
        "dynamodb:UpdateItem",
        "dynamodb:DeleteItem",
        "dynamodb:BatchWriteItem"
      ],
      "Resource": "arn:aws:dynamodb:*:*:table/*",
      "Condition": {
        "StringEquals": {
          "aws:ResourceTag/Department": "${aws:PrincipalTag/Department}",
          "aws:ResourceTag/Environment": "Development"
        }
      }
    }
  ]
}
EOF

# Step 2: Create the IAM policy
aws iam create-policy \
    --policy-name DynamoDBDepartmentBasedAccess \
    --policy-document file://abac-policy.json
```
Buat tabel dengan tag untuk departemen yang berbeda.  

```
# Create a DynamoDB table with tags for ABAC
aws dynamodb create-table \
    --table-name FinanceData \
    --attribute-definitions \
        AttributeName=RecordID,AttributeType=S \
    --key-schema \
        AttributeName=RecordID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --tags \
        Key=Department,Value=Finance \
        Key=Environment,Value=Development

# Create another table with different tags
aws dynamodb create-table \
    --table-name MarketingData \
    --attribute-definitions \
        AttributeName=RecordID,AttributeType=S \
    --key-schema \
        AttributeName=RecordID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --tags \
        Key=Department,Value=Marketing \
        Key=Environment,Value=Production
```
Daftar dan filter tabel berdasarkan tag.  

```
# List all DynamoDB tables
echo "Listing all tables:"
aws dynamodb list-tables

# Get ARNs for all tables
echo -e "\nGetting ARNs for all tables:"
TABLE_ARNS=$(aws dynamodb list-tables --query "TableNames[*]" --output text | xargs -I {} aws dynamodb describe-table --table-name {} --query "Table.TableArn" --output text)

# For each table ARN, list its tags
echo -e "\nListing tags for each table:"
for ARN in $TABLE_ARNS; do
    TABLE_NAME=$(echo $ARN | awk -F/ '{print $2}')
    echo -e "\nTags for table: $TABLE_NAME"
    aws dynamodb list-tags-of-resource --resource-arn $ARN
done

# Example: Find tables with a specific tag
echo -e "\nFinding tables with Environment=Production tag:"
for ARN in $TABLE_ARNS; do
    TABLE_NAME=$(echo $ARN | awk -F/ '{print $2}')
    TAGS=$(aws dynamodb list-tags-of-resource --resource-arn $ARN --query "Tags[?Key=='Environment' && Value=='Production']" --output text)
    if [ ! -z "$TAGS" ]; then
        echo "Table with Production tag: $TABLE_NAME"
    fi
done
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreatePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreatePolicy)
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [ListTables](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/ListTables)

### Bekerja dengan Indeks Sekunder Lokal
<a name="dynamodb_Scenario_LSIExamples_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan query tabel dengan Local Secondary Indexes.
+ Buat tabel dengan Indeks Sekunder Lokal (LSI).
+ Buat tabel dengan beberapa LSIs dengan jenis proyeksi yang berbeda.
+ Data kueri menggunakan LSIs.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan Indeks Sekunder Lokal.  

```
# Create a table with a Local Secondary Index
aws dynamodb create-table \
    --table-name CustomerOrders \
    --attribute-definitions \
        AttributeName=CustomerID,AttributeType=S \
        AttributeName=OrderID,AttributeType=S \
        AttributeName=OrderDate,AttributeType=S \
    --key-schema \
        AttributeName=CustomerID,KeyType=HASH \
        AttributeName=OrderID,KeyType=RANGE \
    --local-secondary-indexes \
        "IndexName=OrderDateIndex,\
        KeySchema=[{AttributeName=CustomerID,KeyType=HASH},{AttributeName=OrderDate,KeyType=RANGE}],\
        Projection={ProjectionType=ALL}" \
    --billing-mode PAY_PER_REQUEST
```
Buat tabel dengan banyak LSIs.  

```
# Create a table with multiple Local Secondary Indexes
aws dynamodb create-table \
    --table-name CustomerDetails \
    --attribute-definitions \
        AttributeName=CustomerID,AttributeType=S \
        AttributeName=Name,AttributeType=S \
        AttributeName=Email,AttributeType=S \
        AttributeName=RegistrationDate,AttributeType=S \
    --key-schema \
        AttributeName=CustomerID,KeyType=HASH \
        AttributeName=Name,KeyType=RANGE \
    --local-secondary-indexes \
        "[
            {
                \"IndexName\": \"EmailIndex\",
                \"KeySchema\": [
                    {\"AttributeName\":\"CustomerID\",\"KeyType\":\"HASH\"},
                    {\"AttributeName\":\"Email\",\"KeyType\":\"RANGE\"}
                ],
                \"Projection\": {\"ProjectionType\":\"INCLUDE\",\"NonKeyAttributes\":[\"Address\",\"Phone\"]}
            },
            {
                \"IndexName\": \"RegistrationIndex\",
                \"KeySchema\": [
                    {\"AttributeName\":\"CustomerID\",\"KeyType\":\"HASH\"},
                    {\"AttributeName\":\"RegistrationDate\",\"KeyType\":\"RANGE\"}
                ],
                \"Projection\": {\"ProjectionType\":\"KEYS_ONLY\"}
            }
        ]" \
    --billing-mode PAY_PER_REQUEST
```
Data kueri menggunakan LSIs.  

```
# Query the OrderDateIndex LSI
aws dynamodb query \
    --table-name CustomerOrders \
    --index-name OrderDateIndex \
    --key-condition-expression "CustomerID = :custId AND OrderDate BETWEEN :date1 AND :date2" \
    --expression-attribute-values '{
        ":custId": {"S": "C1"},
        ":date1": {"S": "2023-01-01"},
        ":date2": {"S": "2023-02-01"}
    }'

# Query with a filter expression
aws dynamodb query \
    --table-name CustomerOrders \
    --index-name OrderDateIndex \
    --key-condition-expression "CustomerID = :custId" \
    --filter-expression "Amount > :amount" \
    --expression-attribute-values '{
        ":custId": {"S": "C1"},
        ":amount": {"N": "150"}
    }'
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [Kueri](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/Query)

### Bekerja dengan Streams dan Time-to-Live
<a name="dynamodb_Scenario_StreamsAndTTL_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara mengelola DynamoDB Streams dan fitur. Time-to-Live
+ Buat tabel dengan Streams diaktifkan.
+ Jelaskan Aliran.
+ Buat fungsi Lambda untuk memproses Streams.
+ Aktifkan TTL di atas meja.
+ Tambahkan item dengan atribut TTL.
+ Jelaskan pengaturan TTL.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan Streams diaktifkan.  

```
# Create a table with DynamoDB Streams enabled
aws dynamodb create-table \
    --table-name StreamsDemo \
    --attribute-definitions \
        AttributeName=ID,AttributeType=S \
    --key-schema \
        AttributeName=ID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --stream-specification StreamEnabled=true,StreamViewType=NEW_AND_OLD_IMAGES
```
Jelaskan Aliran.  

```
# Get information about the stream
aws dynamodb describe-table \
    --table-name StreamsDemo \
    --query "Table.StreamSpecification"

# Get the stream ARN
STREAM_ARN=$(aws dynamodb describe-table \
    --table-name StreamsDemo \
    --query "Table.LatestStreamArn" \
    --output text)

echo "Stream ARN: $STREAM_ARN"

# Describe the stream
aws dynamodbstreams describe-stream \
    --stream-arn $STREAM_ARN
```
Buat fungsi Lambda untuk Streams.  

```
# Step 1: Create an IAM role for the Lambda function
cat > trust-policy.json << 'EOF'
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Principal": {
        "Service": "lambda.amazonaws.com"
      },
      "Action": "sts:AssumeRole"
    }
  ]
}
EOF

aws iam create-role \
    --role-name DynamoDBStreamsLambdaRole \
    --assume-role-policy-document file://trust-policy.json

# Step 2: Attach permissions to the role
aws iam attach-role-policy \
    --role-name DynamoDBStreamsLambdaRole \
    --policy-arn arn:aws:iam::aws:policy/service-role/AWSLambdaDynamoDBExecutionRole

# Step 3: Create a Lambda function (code would be in a separate file)
echo "Lambda function creation would be done separately with appropriate code"

# Step 4: Create an event source mapping
echo "Example command to create event source mapping:"
echo "aws lambda create-event-source-mapping \\"
echo "    --function-name ProcessDynamoDBRecords \\"
echo "    --event-source $STREAM_ARN \\"
echo "    --batch-size 100 \\"
echo "    --starting-position LATEST"
```
Aktifkan TTL di atas meja.  

```
# Create a table for TTL demonstration
aws dynamodb create-table \
    --table-name TTLDemo \
    --attribute-definitions \
        AttributeName=ID,AttributeType=S \
    --key-schema \
        AttributeName=ID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST

# Wait for table to become active
aws dynamodb wait table-exists --table-name TTLDemo

# Enable TTL on the table
aws dynamodb update-time-to-live \
    --table-name TTLDemo \
    --time-to-live-specification "Enabled=true, AttributeName=ExpirationTime"
```
Tambahkan item dengan atribut TTL.  

```
# Calculate expiration time (current time + 1 day in seconds)
EXPIRATION_TIME=$(date -d "+1 day" +%s)

# Add an item with TTL attribute
aws dynamodb put-item \
    --table-name TTLDemo \
    --item '{
        "ID": {"S": "item1"},
        "Data": {"S": "This item will expire in 1 day"},
        "ExpirationTime": {"N": "'$EXPIRATION_TIME'"}
    }'

# Add an item that expires in 1 hour
EXPIRATION_TIME_HOUR=$(date -d "+1 hour" +%s)
aws dynamodb put-item \
    --table-name TTLDemo \
    --item '{
        "ID": {"S": "item2"},
        "Data": {"S": "This item will expire in 1 hour"},
        "ExpirationTime": {"N": "'$EXPIRATION_TIME_HOUR'"}
    }'
```
Jelaskan pengaturan TTL.  

```
# Describe TTL settings for a table
aws dynamodb describe-time-to-live \
    --table-name TTLDemo
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/AttachRolePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreateRole)
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTable)
  + [DescribeTimeToLive](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTimeToLive)
  + [PutItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/PutItem)
  + [UpdateTimeToLive](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateTimeToLive)

### Bekerja dengan tabel global dan konsistensi akhir replikasi Multi-wilayah (MREC)
<a name="dynamodb_Scenario_MultiRegionReplication_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara mengelola tabel global DynamoDB dengan replikasi Multi-region dengan konsistensi akhirnya (MREC).
+ Buat tabel dengan Multi-region replication (MREC).
+ Masukkan dan dapatkan item dari tabel replika.
+ Hapus replika one-by-one.
+ Bersihkan dengan menghapus tabel.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan replikasi Multi-region.  

```
# Step 1: Create a new table (MusicTable) in US East (Ohio), with DynamoDB Streams enabled (NEW_AND_OLD_IMAGES)
aws dynamodb create-table \
    --table-name MusicTable \
    --attribute-definitions \
        AttributeName=Artist,AttributeType=S \
        AttributeName=SongTitle,AttributeType=S \
    --key-schema \
        AttributeName=Artist,KeyType=HASH \
        AttributeName=SongTitle,KeyType=RANGE \
    --billing-mode PAY_PER_REQUEST \
    --stream-specification StreamEnabled=true,StreamViewType=NEW_AND_OLD_IMAGES \
    --region us-east-2

# Step 2: Create an identical MusicTable table in US East (N. Virginia)
aws dynamodb update-table --table-name MusicTable --cli-input-json \
'{
  "ReplicaUpdates":
  [
    {
      "Create": {
        "RegionName": "us-east-1"
      }
    }
  ]
}' \
--region us-east-2

# Step 3: Create a table in Europe (Ireland)
aws dynamodb update-table --table-name MusicTable --cli-input-json \
'{
  "ReplicaUpdates":
  [
    {
      "Create": {
        "RegionName": "eu-west-1"
      }
    }
  ]
}' \
--region us-east-2
```
Jelaskan tabel Multi-region.  

```
# Step 4: View the list of replicas created using describe-table
aws dynamodb describe-table \
    --table-name MusicTable \
    --region us-east-2 \
    --query 'Table.{TableName:TableName,TableStatus:TableStatus,MultiRegionConsistency:MultiRegionConsistency,Replicas:Replicas[*].{Region:RegionName,Status:ReplicaStatus}}'
```
Letakkan item dalam tabel replika.  

```
# Step 5: To verify that replication is working, add a new item to the Music table in US East (Ohio)
aws dynamodb put-item \
    --table-name MusicTable \
    --item '{"Artist": {"S":"item_1"},"SongTitle": {"S":"Song Value 1"}}' \
    --region us-east-2
```
Dapatkan item dari tabel replika.  

```
# Step 6: Wait for a few seconds, and then check to see whether the item has been 
# successfully replicated to US East (N. Virginia) and Europe (Ireland)
aws dynamodb get-item \
    --table-name MusicTable \
    --key '{"Artist": {"S":"item_1"},"SongTitle": {"S":"Song Value 1"}}' \
    --region us-east-1

aws dynamodb get-item \
    --table-name MusicTable \
    --key '{"Artist": {"S":"item_1"},"SongTitle": {"S":"Song Value 1"}}' \
    --region eu-west-1
```
Hapus replika.  

```
# Step 7: Delete the replica table in Europe (Ireland) Region
aws dynamodb update-table --table-name MusicTable --cli-input-json \
'{
  "ReplicaUpdates":
  [
    {
      "Delete": {
        "RegionName": "eu-west-1"
      }
    }
  ]
}' \
--region us-east-2

# Delete the replica table in US East (N. Virginia) Region
aws dynamodb update-table --table-name MusicTable --cli-input-json \
'{
  "ReplicaUpdates":
  [
    {
      "Delete": {
        "RegionName": "us-east-1"
      }
    }
  ]
}' \
--region us-east-2
```
Bersihkan dengan menghapus tabel.  

```
# Clean up: Delete the primary table
aws dynamodb delete-table --table-name MusicTable --region us-east-2

echo "Global table demonstration complete."
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DeleteTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/PutItem)
  + [UpdateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateTable)

### Bekerja dengan penandaan sumber daya
<a name="dynamodb_Scenario_TaggingExamples_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara mengelola tag untuk sumber daya DynamoDB.
+ Buat tabel dengan tag.
+ Membuat daftar tag untuk sumber daya.
+ Tambahkan tag ke sumber daya.
+ Hapus tag dari sumber daya.
+ Filter tabel berdasarkan tag.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan tag.  

```
# Create a table with tags
aws dynamodb create-table \
    --table-name TaggedTable \
    --attribute-definitions \
        AttributeName=ID,AttributeType=S \
    --key-schema \
        AttributeName=ID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --tags \
        Key=Environment,Value=Production \
        Key=Project,Value=Analytics \
        Key=Owner,Value=DataTeam
```
Membuat daftar tag untuk sumber daya.  

```
# Get the table ARN
TABLE_ARN=$(aws dynamodb describe-table \
    --table-name TaggedTable \
    --query "Table.TableArn" \
    --output text)

# List tags for the table
aws dynamodb list-tags-of-resource \
    --resource-arn $TABLE_ARN
```
Tambahkan tag ke sumber daya.  

```
# Add tags to an existing table
aws dynamodb tag-resource \
    --resource-arn $TABLE_ARN \
    --tags \
        Key=CostCenter,Value=12345 \
        Key=BackupSchedule,Value=Daily
```
Hapus tag dari sumber daya.  

```
# Remove tags from a table
aws dynamodb untag-resource \
    --resource-arn $TABLE_ARN \
    --tag-keys Owner BackupSchedule
```
Filter tabel berdasarkan tag.  

```
# Create another table with different tags
aws dynamodb create-table \
    --table-name AnotherTaggedTable \
    --attribute-definitions \
        AttributeName=ID,AttributeType=S \
    --key-schema \
        AttributeName=ID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --tags \
        Key=Environment,Value=Development \
        Key=Project,Value=Testing

# Wait for table to become active
aws dynamodb wait table-exists --table-name AnotherTaggedTable

# List all tables
echo "All tables:"
aws dynamodb list-tables

# Get ARNs for all tables
echo -e "\nFiltering tables by Environment=Production tag:"
TABLE_ARNS=$(aws dynamodb list-tables --query "TableNames[*]" --output text | xargs -I {} aws dynamodb describe-table --table-name {} --query "Table.TableArn" --output text)

# Find tables with specific tag
for ARN in $TABLE_ARNS; do
    TABLE_NAME=$(echo $ARN | awk -F/ '{print $2}')
    TAGS=$(aws dynamodb list-tags-of-resource --resource-arn $ARN --query "Tags[?Key=='Environment' && Value=='Production']" --output text)
    if [ ! -z "$TAGS" ]; then
        echo "Table with Production tag: $TABLE_NAME"
    fi
done
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [ListTagsOfResource](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/ListTagsOfResource)
  + [TagResource](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/TagResource)
  + [UntagResource](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UntagResource)

### Bekerja dengan enkripsi tabel
<a name="dynamodb_Scenario_EncryptionExamples_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara mengelola opsi enkripsi untuk tabel DynamoDB.
+ Buat tabel dengan enkripsi default.
+ Buat tabel dengan CMK yang dikelola pelanggan.
+ Perbarui pengaturan enkripsi tabel.
+ Jelaskan enkripsi tabel.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan enkripsi default.  

```
# Create a table with default encryption (AWS owned key)
aws dynamodb create-table \
    --table-name CustomerData \
    --attribute-definitions \
        AttributeName=CustomerID,AttributeType=S \
    --key-schema \
        AttributeName=CustomerID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --sse-specification Enabled=true,SSEType=KMS
```
Buat tabel dengan CMK yang dikelola pelanggan.  

```
# Step 1: Create a customer managed key in KMS
aws kms create-key \
    --description "Key for DynamoDB table encryption" \
    --key-usage ENCRYPT_DECRYPT \
    --customer-master-key-spec SYMMETRIC_DEFAULT

# Store the key ID for later use
KEY_ID=$(aws kms list-keys --query "Keys[?contains(KeyArn, 'Key for DynamoDB')].KeyId" --output text)

# Step 2: Create a table with the customer managed key
aws dynamodb create-table \
    --table-name SensitiveData \
    --attribute-definitions \
        AttributeName=RecordID,AttributeType=S \
    --key-schema \
        AttributeName=RecordID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --sse-specification Enabled=true,SSEType=KMS,KMSMasterKeyId=$KEY_ID
```
Perbarui enkripsi tabel.  

```
# Update a table to use a different KMS key
aws dynamodb update-table \
    --table-name CustomerData \
    --sse-specification Enabled=true,SSEType=KMS,KMSMasterKeyId=$KEY_ID
```
Jelaskan enkripsi tabel.  

```
# Describe the table to see encryption settings
aws dynamodb describe-table \
    --table-name CustomerData \
    --query "Table.SSEDescription"
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateKey](https://docs.aws.amazon.com/goto/aws-cli/kms-2014-11-01/CreateKey)
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTable)
  + [UpdateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateTable)

# Contoh Amazon EC2 menggunakan skrip AWS CLI Bash
<a name="bash_2_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash dengan Amazon EC2.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ec2_Scenario_GetStartedInstances_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat pasangan kunci dan grup keamanan.
+ Memilih Amazon Machine Image (AMI) dan tipe instans yang kompatibel, lalu membuat instans.
+ Menghentikan dan memulai ulang instans.
+ Kaitkan alamat IP Elastis dengan instans Anda.
+ Menghubungkan instans Anda dengan SSH, lalu membersihkan sumber daya.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
###############################################################################
# function get_started_with_ec2_instances
#
# Runs an interactive scenario that shows how to get started using EC2 instances.
#
#     "EC2 access" permissions are needed to run this code.
#
# Returns:
#       0 - If successful.
#       1 - If an error occurred.
###############################################################################
function get_started_with_ec2_instances() {
  # Requires version 4 for mapfile.
  local required_version=4.0

  # Get the current Bash version
  # Check if BASH_VERSION is set
  local current_version
  if [[ -n "$BASH_VERSION" ]]; then
    # Convert BASH_VERSION to a number for comparison
    current_version=$BASH_VERSION
  else
    # Get the current Bash version using the bash command
    current_version=$(bash --version | head -n 1 | awk '{ print $4 }')
  fi

  # Convert version strings to numbers for comparison
  local required_version_num current_version_num
  required_version_num=$(echo "$required_version" | awk -F. '{ print ($1 * 10000) + ($2 * 100) + $3 }')
  current_version_num=$(echo "$current_version" | awk -F. '{ print ($1 * 10000) + ($2 * 100) + $3 }')

  # Compare versions
  if ((current_version_num < required_version_num)); then
    echo "Error: This script requires Bash version $required_version or higher."
    echo "Your current Bash version is number is $current_version."
    exit 1
  fi

  {
    if [ "$EC2_OPERATIONS_SOURCED" != "True" ]; then

      source ./ec2_operations.sh
    fi
  }

  echo_repeat "*" 88
  echo "Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) get started with instances demo."
  echo_repeat "*" 88
  echo

  echo "Let's create an RSA key pair that you can be use to securely connect to "
  echo "your EC2 instance."

  echo -n "Enter a unique name for your key: "
  get_input
  local key_name
  key_name=$get_input_result

  local temp_dir
  temp_dir=$(mktemp -d)
  local key_file_name="$temp_dir/${key_name}.pem"

  if ec2_create_keypair -n "${key_name}" -f "${key_file_name}"; then
    echo "Created a key pair $key_name and saved the private key to $key_file_name"
    echo
  else
    errecho "The key pair failed to create. This demo will exit."
    return 1
  fi

  chmod 400 "${key_file_name}"

  if yes_no_input "Do you want to list some of your key pairs? (y/n) "; then
    local keys_and_fingerprints
    keys_and_fingerprints="$(ec2_describe_key_pairs)" && {
      local image_name_and_id
      while IFS=$'\n' read -r image_name_and_id; do
        local entries
        IFS=$'\t' read -ra entries <<<"$image_name_and_id"
        echo "Found rsa key ${entries[0]} with fingerprint:"
        echo "     ${entries[1]}"
      done <<<"$keys_and_fingerprints"

    }
  fi

  echo_repeat "*" 88
  echo_repeat "*" 88

  echo "Let's create a security group to manage access to your instance."
  echo -n "Enter a unique name for your security group: "
  get_input
  local security_group_name
  security_group_name=$get_input_result
  local security_group_id
  security_group_id=$(ec2_create_security_group -n "$security_group_name" \
    -d "Security group for EC2 instance") || {
    errecho "The security failed to create. This demo will exit."
    clean_up "$key_name" "$key_file_name"
    return 1
  }

  echo "Security group created with ID $security_group_id"
  echo

  local public_ip
  public_ip=$(curl -s http://checkip.amazonaws.com)

  echo "Let's add a rule to allow SSH only from your current IP address."
  echo "Your public IP address is $public_ip"
  echo -n "press return to add this rule to your security group."
  get_input

  if ! ec2_authorize_security_group_ingress -g "$security_group_id" -i "$public_ip" -p tcp -f 22 -t 22; then
    errecho "The security group rules failed to update. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id"
    return 1
  fi

  echo "Security group rules updated"

  local security_group_description
  security_group_description="$(ec2_describe_security_groups -g "${security_group_id}")" || {
    errecho "Failed to describe security groups. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id"
    return 1
  }

  mapfile -t parameters <<<"$security_group_description"
  IFS=$'\t' read -ra entries <<<"${parameters[0]}"
  echo "Security group: ${entries[0]}"
  echo "    ID: ${entries[1]}"
  echo "    VPC: ${entries[2]}"
  echo "Inbound permissions:"
  IFS=$'\t' read -ra entries <<<"${parameters[1]}"
  echo "    IpProtocol: ${entries[0]}"
  echo "    FromPort: ${entries[1]}"
  echo "    ToPort: ${entries[2]}"
  echo "    CidrIp: ${parameters[2]}"

  local parameters
  parameters="$(ssm_get_parameters_by_path -p "/aws/service/ami-amazon-linux-latest")" || {
    errecho "Failed to get parameters. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id"
    return 1

  }

  local image_ids=""
  mapfile -t parameters <<<"$parameters"
  for image_name_and_id in "${parameters[@]}"; do
    IFS=$'\t' read -ra values <<<"$image_name_and_id"
    if [[ "${values[0]}" == *"amzn2"* ]]; then
      image_ids+="${values[1]} "
    fi
  done

  local images
  images="$(ec2_describe_images -i "$image_ids")" || {
    errecho "Failed to describe images. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id"
    return 1

  }

  new_line_and_tab_to_list "$images"
  local images=("${list_result[@]}")

  # Get the size of the array
  local images_count=${#images[@]}

  if ((images_count == 0)); then
    errecho "No images found. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id"
    return 1
  fi

  echo_repeat "*" 88
  echo_repeat "*" 88

  echo "Let's create an instance from an Amazon Linux 2 AMI. Here are some options:"
  for ((i = 0; i < images_count; i += 3)); do
    echo "$(((i / 3) + 1)) - ${images[$i]}"
  done

  integer_input "Please enter the number of the AMI you want to use: " 1 "$((images_count / 3))"
  local choice=$get_input_result
  choice=$(((choice - 1) * 3))

  echo "Great choice."
  echo

  local architecture=${images[$((choice + 1))]}
  local image_id=${images[$((choice + 2))]}
  echo "Here are some instance types that support the ${architecture} architecture of the image:"
  response="$(ec2_describe_instance_types -a "${architecture}" -t "*.micro,*.small")" || {
    errecho "Failed to describe instance types. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id"
    return 1
  }

  local instance_types
  mapfile -t instance_types <<<"$response"

  # Get the size of the array
  local instance_types_count=${#instance_types[@]}

  echo "Here are some options:"
  for ((i = 0; i < instance_types_count; i++)); do
    echo "$((i + 1)) - ${instance_types[$i]}"
  done

  integer_input "Which one do you want to use? " 1 "${#instance_types[@]}
"
  choice=$get_input_result
  local instance_type=${instance_types[$((choice - 1))]}
  echo "Another great choice."
  echo

  echo "Creating your instance and waiting for it to start..."
  local instance_id
  instance_id=$(ec2_run_instances -i "$image_id" -t "$instance_type" -k "$key_name" -s "$security_group_id") || {
    errecho "Failed to run instance. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id"
    return 1
  }

  ec2_wait_for_instance_running -i "$instance_id"
  echo "Your instance is ready:"
  echo

  local instance_details
  instance_details="$(ec2_describe_instances -i "${instance_id}")"

  echo
  print_instance_details "${instance_details}"

  local public_ip
  public_ip=$(echo "${instance_details}" | awk '{print $6}')
  echo
  echo "You can use SSH to connect to your instance"
  echo "If the connection attempt times out, you might have to manually update the SSH ingress rule"
  echo "for your IP address in the AWS Management Console."
  connect_to_instance "$key_file_name" "$public_ip"

  echo -n "Press Enter when you're ready to continue the demo: "
  get_input

  echo_repeat "*" 88
  echo_repeat "*" 88

  echo "Let's stop and start your instance to see what changes."
  echo "Stopping your instance and waiting until it's stopped..."
  ec2_stop_instances -i "$instance_id"
  ec2_wait_for_instance_stopped -i "$instance_id"

  echo "Your instance is stopped. Restarting..."

  ec2_start_instances -i "$instance_id"
  ec2_wait_for_instance_running -i "$instance_id"

  echo "Your instance is running again."
  local instance_details
  instance_details="$(ec2_describe_instances -i "${instance_id}")"

  print_instance_details "${instance_details}"

  public_ip=$(echo "${instance_details}" | awk '{print $6}')

  echo "Every time your instance is restarted, its public IP address changes"
  connect_to_instance "$key_file_name" "$public_ip"

  echo -n "Press Enter when you're ready to continue the demo: "
  get_input

  echo_repeat "*" 88
  echo_repeat "*" 88

  echo "You can allocate an Elastic IP address and associate it with your instance"
  echo "to keep a consistent IP address even when your instance restarts."

  local result
  result=$(ec2_allocate_address -d vpc) || {
    errecho "Failed to allocate an address. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id" "$instance_id"
    return 1
  }

  local elastic_ip allocation_id
  elastic_ip=$(echo "$result" | awk '{print $1}')
  allocation_id=$(echo "$result" | awk '{print $2}')

  echo "Allocated static Elastic IP address: $elastic_ip"

  local association_id
  association_id=$(ec2_associate_address -i "$instance_id" -a "$allocation_id") || {
    errecho "Failed to associate an address. This demo will exit."
    clean_up "$key_name" "$key_file_name" "$security_group_id" "$instance_id" "$allocation_id"
    return 1
  }

  echo "Associated your Elastic IP with your instance."
  echo "You can now use SSH to connect to your instance by using the Elastic IP."
  connect_to_instance "$key_file_name" "$elastic_ip"

  echo -n "Press Enter when you're ready to continue the demo: "
  get_input

  echo_repeat "*" 88
  echo_repeat "*" 88

  echo "Let's stop and start your instance to see what changes."
  echo "Stopping your instance and waiting until it's stopped..."
  ec2_stop_instances -i "$instance_id"
  ec2_wait_for_instance_stopped -i "$instance_id"

  echo "Your instance is stopped. Restarting..."

  ec2_start_instances -i "$instance_id"
  ec2_wait_for_instance_running -i "$instance_id"

  echo "Your instance is running again."
  local instance_details
  instance_details="$(ec2_describe_instances -i "${instance_id}")"

  print_instance_details "${instance_details}"

  echo "Because you have associated an Elastic IP with your instance, you can"
  echo "connect by using a consistent IP address after the instance restarts."
  connect_to_instance "$key_file_name" "$elastic_ip"

  echo -n "Press Enter when you're ready to continue the demo: "
  get_input

  echo_repeat "*" 88
  echo_repeat "*" 88

  if yes_no_input "Do you want to delete the resources created in this demo: (y/n) "; then
    clean_up "$key_name" "$key_file_name" "$security_group_id" "$instance_id" \
      "$allocation_id" "$association_id"
  else
    echo "The following resources were not deleted."
    echo "Key pair: $key_name"
    echo "Key file: $key_file_name"
    echo "Security group: $security_group_id"
    echo "Instance: $instance_id"
    echo "Elastic IP address: $elastic_ip"
  fi
}

###############################################################################
# function clean_up
#
# This function cleans up the created resources.
#     $1 - The name of the ec2 key pair to delete.
#     $2 - The name of the key file to delete.
#     $3 - The ID of the security group to delete.
#     $4 - The ID of the instance to terminate.
#     $5 - The ID of the elastic IP address to release.
#     $6 - The ID of the elastic IP address to disassociate.
#
# Returns:
#       0 - If successful.
#       1 - If an error occurred.
###############################################################################
function clean_up() {
  local result=0
  local key_pair_name=$1
  local key_file_name=$2
  local security_group_id=$3
  local instance_id=$4
  local allocation_id=$5
  local association_id=$6

  if [ -n "$association_id" ]; then
    # bashsupport disable=BP2002
    if (ec2_disassociate_address -a "$association_id"); then
      echo "Disassociated elastic IP address with ID $association_id"
    else
      errecho "The elastic IP address disassociation failed."
      result=1
    fi
  fi

  if [ -n "$allocation_id" ]; then
    # bashsupport disable=BP2002
    if (ec2_release_address -a "$allocation_id"); then
      echo "Released elastic IP address with ID $allocation_id"
    else
      errecho "The elastic IP address release failed."
      result=1
    fi
  fi

  if [ -n "$instance_id" ]; then
    # bashsupport disable=BP2002
    if (ec2_terminate_instances -i "$instance_id"); then
      echo "Started terminating instance with ID $instance_id"

      ec2_wait_for_instance_terminated -i "$instance_id"
    else
      errecho "The instance terminate failed."
      result=1
    fi
  fi

  if [ -n "$security_group_id" ]; then
    # bashsupport disable=BP2002
    if (ec2_delete_security_group -i "$security_group_id"); then
      echo "Deleted security group with ID $security_group_id"
    else
      errecho "The security group delete failed."
      result=1
    fi
  fi

  if [ -n "$key_pair_name" ]; then
    # bashsupport disable=BP2002
    if (ec2_delete_keypair -n "$key_pair_name"); then
      echo "Deleted key pair named $key_pair_name"
    else
      errecho "The key pair delete failed."
      result=1
    fi
  fi

  if [ -n "$key_file_name" ]; then
    rm -f "$key_file_name"
  fi

  return $result
}

###############################################################################
# function ssm_get_parameters_by_path
#
# This function retrieves one or more parameters from the AWS Systems Manager Parameter Store
# by specifying a parameter path.
#
# Parameters:
#       -p parameter_path - The path of the parameter(s) to retrieve.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ssm_get_parameters_by_path() {
  local parameter_path response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ssm_get_parameters_by_path"
    echo "Retrieves one or more parameters from the AWS Systems Manager Parameter Store by specifying a parameter path."
    echo "  -p parameter_path - The path of the parameter(s) to retrieve."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "p:h" option; do
    case "${option}" in
      p) parameter_path="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$parameter_path" ]]; then
    errecho "ERROR: You must provide a parameter path with the -p parameter."
    usage
    return 1
  fi

  response=$(aws ssm get-parameters-by-path \
    --path "$parameter_path" \
    --query "Parameters[*].[Name, Value]" \
    --output text) || {
    aws_cli_error_log $?
    errecho "ERROR: AWS reports get-parameters-by-path operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}

###############################################################################
# function print_instance_details
#
# This function prints the details of an Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Parameters:
#       instance_details - The instance details in the format "InstanceId ImageId InstanceType KeyName VpcId PublicIpAddress State.Name".
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function print_instance_details() {
  local instance_details="$1"

  if [[ -z "${instance_details}" ]]; then
    echo "Error: Missing required instance details argument."
    return 1
  fi

  local instance_id image_id instance_type key_name vpc_id public_ip state
  instance_id=$(echo "${instance_details}" | awk '{print $1}')
  image_id=$(echo "${instance_details}" | awk '{print $2}')
  instance_type=$(echo "${instance_details}" | awk '{print $3}')
  key_name=$(echo "${instance_details}" | awk '{print $4}')
  vpc_id=$(echo "${instance_details}" | awk '{print $5}')
  public_ip=$(echo "${instance_details}" | awk '{print $6}')
  state=$(echo "${instance_details}" | awk '{print $7}')

  echo "    ID: ${instance_id}"
  echo "    Image ID: ${image_id}"
  echo "    Instance type: ${instance_type}"
  echo "    Key name: ${key_name}"
  echo "    VPC ID: ${vpc_id}"
  echo "    Public IP: ${public_ip}"
  echo "    State: ${state}"

  return 0
}

###############################################################################
# function connect_to_instance
#
# This function displays the public IP address of an Amazon Elastic Compute Cloud (Amazon EC2) instance and prompts the user to connect to the instance via SSH.
#
# Parameters:
#       $1 - The name of the key file used to connect to the instance.
#       $2 - The public IP address of the instance.
#
# Returns:
#       None
###############################################################################
function connect_to_instance() {
  local key_file_name="$1"
  local public_ip="$2"

  # Validate the input parameters
  if [[ -z "$key_file_name" ]]; then
    echo "ERROR: You must provide a key file name as the first argument." >&2
    return 1
  fi

  if [[ -z "$public_ip" ]]; then
    echo "ERROR: You must provide a public IP address as the second argument." >&2
    return 1
  fi

  # Display the public IP address and connection command
  echo "To connect, run the following command:"
  echo "    ssh -i ${key_file_name} ec2-user@${public_ip}"

  # Prompt the user to connect to the instance
  if yes_no_input "Do you want to connect now? (y/n) "; then
    echo "After you have connected, you can return to this example by typing 'exit'"
    ssh -i "${key_file_name}" ec2-user@"${public_ip}"
  fi
}

###############################################################################
# function get_input
#
# This function gets user input from the command line.
#
# Outputs:
#   User input to stdout.
#
# Returns:
#       0
###############################################################################
function get_input() {

  if [ -z "${mock_input+x}" ]; then
    read -r get_input_result
  else

    if [ "$mock_input_array_index" -lt ${#mock_input_array[@]} ]; then
      get_input_result="${mock_input_array[$mock_input_array_index]}"
      # bashsupport disable=BP2001
      # shellcheck disable=SC2206
      ((mock_input_array_index++))
      echo -n "$get_input_result"
    else
      echo "MOCK_INPUT_ARRAY has no more elements" 1>&2
      return 1
    fi
  fi

  return 0
}

###############################################################################
# function yes_no_input
#
# This function requests a yes/no answer from the user, following to a prompt.
#
# Parameters:
#       $1 - The prompt.
#
# Returns:
#       0 - If yes.
#       1 - If no.
###############################################################################
function yes_no_input() {
  if [ -z "$1" ]; then
    echo "Internal error yes_no_input"
    return 1
  fi

  local index=0
  local response="N"
  while [[ $index -lt 10 ]]; do
    index=$((index + 1))
    echo -n "$1"
    if ! get_input; then
      return 1
    fi
    response=$(echo "$get_input_result" | tr '[:upper:]' '[:lower:]')
    if [ "$response" = "y" ] || [ "$response" = "n" ]; then
      break
    else
      echo -e "\nPlease enter or 'y' or 'n'."
    fi
  done

  echo

  if [ "$response" = "y" ]; then
    return 0
  else
    return 1
  fi
}

###############################################################################
# function integer_input
#
# This function prompts the user to enter an integer within a specified range
# and validates the input.
#
# Parameters:
#       $1 - The prompt message to display to the user.
#       $2 - The minimum value of the accepted range.
#       $3 - The maximum value of the accepted range.
#
# Returns:
#       The valid integer input from the user.
#       If the input is invalid or out of range, the function will continue
#       prompting the user until a valid input is provided.
###############################################################################
function integer_input() {
  local prompt="$1"
  local min_value="$2"
  local max_value="$3"
  local input=""

  while true; do
    # Display the prompt message and wait for user input
    echo -n "$prompt"

    if ! get_input; then
      return 1
    fi

    input="$get_input_result"

    # Check if the input is a valid integer
    if [[ "$input" =~ ^-?[0-9]+$ ]]; then
      # Check if the input is within the specified range
      if ((input >= min_value && input <= max_value)); then
        return 0
      else
        echo "Error: Input, $input, must be between $min_value and $max_value."
      fi
    else
      echo "Error: Invalid input- $input. Please enter an integer."
    fi
  done
}
###############################################################################
# function new_line_and_tab_to_list
#
# This function takes a string input containing newlines and tabs, and
# converts it into a list (array) of elements.
#
# Parameters:
#       $1 - The input string containing newlines and tabs.
#
# Returns:
#       The resulting list (array) is stored in the global variable
#       'list_result'.
###############################################################################
function new_line_and_tab_to_list() {
  local input=$1
  export list_result

  list_result=()
  mapfile -t lines <<<"$input"
  local line
  for line in "${lines[@]}"; do
    IFS=$'\t' read -ra parameters <<<"$line"
    list_result+=("${parameters[@]}")
  done
}

###############################################################################
# function echo_repeat
#
# This function prints a string 'n' times to stdout.
#
# Parameters:
#       $1 - The string.
#       $2 - Number of times to print the string.
#
# Outputs:
#   String 'n' times to stdout.
#
# Returns:
#       0
###############################################################################
function echo_repeat() {
  local end=$2
  for ((i = 0; i < end; i++)); do
    echo -n "$1"
  done
  echo
}
```
Fungsi DynamoDB yang digunakan dalam skenario ini.  

```
###############################################################################
# function ec2_create_keypair
#
# This function creates an Amazon Elastic Compute Cloud (Amazon EC2) ED25519 or 2048-bit RSA key pair
# and writes it to a file.
#
# Parameters:
#       -n key_pair_name - A key pair name.
#       -f file_path - File to store the key pair.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_create_keypair() {
  local key_pair_name file_path response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_create_keypair"
    echo "Creates an Amazon Elastic Compute Cloud (Amazon EC2) ED25519 or 2048-bit RSA key pair"
    echo " and writes it to a file."
    echo "  -n key_pair_name - A key pair name."
    echo "  -f file_path - File to store the key pair."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:f:h" option; do
    case "${option}" in
      n) key_pair_name="${OPTARG}" ;;
      f) file_path="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$key_pair_name" ]]; then
    errecho "ERROR: You must provide a key name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$file_path" ]]; then
    errecho "ERROR: You must provide a file path with the -f parameter."
    usage
    return 1
  fi

  response=$(aws ec2 create-key-pair \
    --key-name "$key_pair_name" \
    --query 'KeyMaterial' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports create-access-key operation failed.$response"
    return 1
  }

  if [[ -n "$file_path" ]]; then
    echo "$response" >"$file_path"
  fi

  return 0
}

###############################################################################
# function ec2_describe_key_pairs
#
# This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) key pairs.
#
# Parameters:
#       -h - Display help.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_describe_key_pairs() {
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_describe_key_pairs"
    echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) key pairs."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "h" option; do
    case "${option}" in
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local response

  response=$(aws ec2 describe-key-pairs \
    --query 'KeyPairs[*].[KeyName, KeyFingerprint]' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports describe-key-pairs operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}

###############################################################################
# function ec2_create_security_group
#
# This function creates an Amazon Elastic Compute Cloud (Amazon EC2) security group.
#
# Parameters:
#       -n security_group_name - The name of the security group.
#       -d security_group_description - The description of the security group.
#
# Returns:
#       The ID of the created security group, or an error message if the operation fails.
# And:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_create_security_group() {
  local security_group_name security_group_description response

  # Function to display usage information
  function usage() {
    echo "function ec2_create_security_group"
    echo "Creates an Amazon Elastic Compute Cloud (Amazon EC2) security group."
    echo "  -n security_group_name - The name of the security group."
    echo "  -d security_group_description - The description of the security group."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "n:d:h" option; do
    case "${option}" in
      n) security_group_name="${OPTARG}" ;;
      d) security_group_description="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$security_group_name" ]]; then
    errecho "ERROR: You must provide a security group name with the -n parameter."
    return 1
  fi

  if [[ -z "$security_group_description" ]]; then
    errecho "ERROR: You must provide a security group description with the -d parameter."
    return 1
  fi

  # Create the security group
  response=$(aws ec2 create-security-group \
    --group-name "$security_group_name" \
    --description "$security_group_description" \
    --query "GroupId" \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports create-security-group operation failed."
    errecho "$response"
    return 1
  }

  echo "$response"
  return 0
}

###############################################################################
# function ec2_describe_security_groups
#
# This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) security groups.
#
# Parameters:
#       -g security_group_id - The ID of the security group to describe (optional).
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_describe_security_groups() {
  local security_group_id response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_describe_security_groups"
    echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) security groups."
    echo "  -g security_group_id - The ID of the security group to describe (optional)."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "g:h" option; do
    case "${option}" in
      g) security_group_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local query="SecurityGroups[*].[GroupName, GroupId, VpcId, IpPermissions[*].[IpProtocol, FromPort, ToPort, IpRanges[*].CidrIp]]"

  if [[ -n "$security_group_id" ]]; then
    response=$(aws ec2 describe-security-groups --group-ids "$security_group_id" --query "${query}" --output text)
  else
    response=$(aws ec2 describe-security-groups --query "${query}" --output text)
  fi

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports describe-security-groups operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}

###############################################################################
# function ec2_authorize_security_group_ingress
#
# This function authorizes an ingress rule for an Amazon Elastic Compute Cloud (Amazon EC2) security group.
#
# Parameters:
#       -g security_group_id - The ID of the security group.
#       -i ip_address - The IP address or CIDR block to authorize.
#       -p protocol - The protocol to authorize (e.g., tcp, udp, icmp).
#       -f from_port - The start of the port range to authorize.
#       -t to_port - The end of the port range to authorize.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_authorize_security_group_ingress() {
  local security_group_id ip_address protocol from_port to_port response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_authorize_security_group_ingress"
    echo "Authorizes an ingress rule for an Amazon Elastic Compute Cloud (Amazon EC2) security group."
    echo "  -g security_group_id - The ID of the security group."
    echo "  -i ip_address - The IP address or CIDR block to authorize."
    echo "  -p protocol - The protocol to authorize (e.g., tcp, udp, icmp)."
    echo "  -f from_port - The start of the port range to authorize."
    echo "  -t to_port - The end of the port range to authorize."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "g:i:p:f:t:h" option; do
    case "${option}" in
      g) security_group_id="${OPTARG}" ;;
      i) ip_address="${OPTARG}" ;;
      p) protocol="${OPTARG}" ;;
      f) from_port="${OPTARG}" ;;
      t) to_port="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$security_group_id" ]]; then
    errecho "ERROR: You must provide a security group ID with the -g parameter."
    usage
    return 1
  fi

  if [[ -z "$ip_address" ]]; then
    errecho "ERROR: You must provide an IP address or CIDR block with the -i parameter."
    usage
    return 1
  fi

  if [[ -z "$protocol" ]]; then
    errecho "ERROR: You must provide a protocol with the -p parameter."
    usage
    return 1
  fi

  if [[ -z "$from_port" ]]; then
    errecho "ERROR: You must provide a start port with the -f parameter."
    usage
    return 1
  fi

  if [[ -z "$to_port" ]]; then
    errecho "ERROR: You must provide an end port with the -t parameter."
    usage
    return 1
  fi

  response=$(aws ec2 authorize-security-group-ingress \
    --group-id "$security_group_id" \
    --cidr "${ip_address}/32" \
    --protocol "$protocol" \
    --port "$from_port-$to_port" \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports authorize-security-group-ingress operation failed.$response"
    return 1
  }

  return 0
}

###############################################################################
# function ec2_describe_images
#
# This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) images.
#
# Parameters:
#       -i image_ids - A space-separated  list of image IDs (optional).
#       -h - Display help.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_describe_images() {
  local image_ids response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_describe_images"
    echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) images."
    echo "  -i image_ids - A space-separated list of image IDs (optional)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) image_ids="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local aws_cli_args=()

  if [[ -n "$image_ids" ]]; then
    # shellcheck disable=SC2206
    aws_cli_args+=("--image-ids" $image_ids)
  fi

  response=$(aws ec2 describe-images \
    "${aws_cli_args[@]}" \
    --query 'Images[*].[Description,Architecture,ImageId]' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports describe-images operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}

###############################################################################
# ec2_describe_instance_types
#
# This function describes EC2 instance types filtered by processor architecture
# and optionally by instance type. It takes the following arguments:
#
# -a, --architecture ARCHITECTURE  Specify the processor architecture (e.g., x86_64)
# -t, --type INSTANCE_TYPE         Comma-separated list of instance types (e.g., t2.micro)
# -h, --help                       Show the usage help
#
# The function prints the instance type and supported architecture for each
# matching instance type.
###############################################################################
function ec2_describe_instance_types() {
  local architecture=""
  local instance_types=""

  # bashsupport disable=BP5008
  function usage() {
    echo "Usage: ec2_describe_instance_types [-a|--architecture ARCHITECTURE] [-t|--type INSTANCE_TYPE] [-h|--help]"
    echo "  -a, --architecture ARCHITECTURE  Specify the processor architecture (e.g., x86_64)"
    echo "  -t, --type INSTANCE_TYPE         Comma-separated list of instance types (e.g., t2.micro)"
    echo "  -h, --help                       Show this help message"
  }

  while [[ $# -gt 0 ]]; do
    case "$1" in
      -a | --architecture)
        architecture="$2"
        shift 2
        ;;
      -t | --type)
        instance_types="$2"
        shift 2
        ;;
      -h | --help)
        usage
        return 0
        ;;
      *)
        echo "Unknown argument: $1"
        return 1
        ;;
    esac
  done

  if [[ -z "$architecture" ]]; then
    errecho "Error: Architecture not specified."
    usage
    return 1
  fi

  if [[ -z "$instance_types" ]]; then
    errecho "Error: Instance type not specified."
    usage
    return 1
  fi

  local tmp_json_file="temp_ec2.json"
  echo -n '[
    {
      "Name": "processor-info.supported-architecture",
      "Values": [' >"$tmp_json_file"

  local items
  IFS=',' read -ra items <<<"$architecture"
  local array_size
  array_size=${#items[@]}
  for i in $(seq 0 $((array_size - 1))); do
    echo -n '"'"${items[$i]}"'"' >>"$tmp_json_file"
    if [[ $i -lt $((array_size - 1)) ]]; then
      echo -n ',' >>"$tmp_json_file"
    fi
  done
  echo -n ']},
    {
    "Name": "instance-type",
      "Values": [' >>"$tmp_json_file"
  IFS=',' read -ra items <<<"$instance_types"
  local array_size
  array_size=${#items[@]}
  for i in $(seq 0 $((array_size - 1))); do
    echo -n '"'"${items[$i]}"'"' >>"$tmp_json_file"
    if [[ $i -lt $((array_size - 1)) ]]; then
      echo -n ',' >>"$tmp_json_file"
    fi
  done

  echo -n ']}]' >>"$tmp_json_file"

  local response
  response=$(aws ec2 describe-instance-types --filters file://"$tmp_json_file" \
    --query 'InstanceTypes[*].[InstanceType]' --output text)

  local error_code=$?

  rm "$tmp_json_file"

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    echo "ERROR: AWS reports describe-instance-types operation failed."
    return 1
  fi

  echo "$response"
  return 0
}

###############################################################################
# function ec2_run_instances
#
# This function launches one or more Amazon Elastic Compute Cloud (Amazon EC2) instances.
#
# Parameters:
#       -i image_id - The ID of the Amazon Machine Image (AMI) to use.
#       -t instance_type - The instance type to use (e.g., t2.micro).
#       -k key_pair_name - The name of the key pair to use.
#       -s security_group_id - The ID of the security group to use.
#       -c count - The number of instances to launch (default: 1).
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_run_instances() {
  local image_id instance_type key_pair_name security_group_id count response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_run_instances"
    echo "Launches one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i image_id - The ID of the Amazon Machine Image (AMI) to use."
    echo "  -t instance_type - The instance type to use (e.g., t2.micro)."
    echo "  -k key_pair_name - The name of the key pair to use."
    echo "  -s security_group_id - The ID of the security group to use."
    echo "  -c count - The number of instances to launch (default: 1)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:t:k:s:c:h" option; do
    case "${option}" in
      i) image_id="${OPTARG}" ;;
      t) instance_type="${OPTARG}" ;;
      k) key_pair_name="${OPTARG}" ;;
      s) security_group_id="${OPTARG}" ;;
      c) count="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$image_id" ]]; then
    errecho "ERROR: You must provide an Amazon Machine Image (AMI) ID with the -i parameter."
    usage
    return 1
  fi

  if [[ -z "$instance_type" ]]; then
    errecho "ERROR: You must provide an instance type with the -t parameter."
    usage
    return 1
  fi

  if [[ -z "$key_pair_name" ]]; then
    errecho "ERROR: You must provide a key pair name with the -k parameter."
    usage
    return 1
  fi

  if [[ -z "$security_group_id" ]]; then
    errecho "ERROR: You must provide a security group ID with the -s parameter."
    usage
    return 1
  fi

  if [[ -z "$count" ]]; then
    count=1
  fi

  response=$(aws ec2 run-instances \
    --image-id "$image_id" \
    --instance-type "$instance_type" \
    --key-name "$key_pair_name" \
    --security-group-ids "$security_group_id" \
    --count "$count" \
    --query 'Instances[*].[InstanceId]' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports run-instances operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}

###############################################################################
# function ec2_describe_instances
#
# This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) instances.
#
# Parameters:
#       -i instance_id - The ID of the instance to describe (optional).
#       -q query - The query to filter the response (optional).
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_describe_instances() {
  local instance_id query response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_describe_instances"
    echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i instance_id - The ID of the instance to describe (optional)."
    echo "  -q query - The query to filter the response (optional)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:q:h" option; do
    case "${option}" in
      i) instance_id="${OPTARG}" ;;
      q) query="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local aws_cli_args=()

  if [[ -n "$instance_id" ]]; then
    # shellcheck disable=SC2206
    aws_cli_args+=("--instance-ids" $instance_id)
  fi

  local query_arg=""
  if [[ -n "$query" ]]; then
    query_arg="--query '$query'"
  else
    query_arg="--query Reservations[*].Instances[*].[InstanceId,ImageId,InstanceType,KeyName,VpcId,PublicIpAddress,State.Name]"
  fi

  # shellcheck disable=SC2086
  response=$(aws ec2 describe-instances \
    "${aws_cli_args[@]}" \
    $query_arg \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports describe-instances operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}

###############################################################################
# function ec2_stop_instances
#
# This function stops one or more Amazon Elastic Compute Cloud (Amazon EC2) instances.
#
# Parameters:
#       -i instance_id - The ID(s) of the instance(s) to stop (comma-separated).
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_stop_instances() {
  local instance_ids
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_stop_instances"
    echo "Stops one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i instance_id - The ID(s) of the instance(s) to stop (comma-separated)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) instance_ids="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$instance_ids" ]]; then
    errecho "ERROR: You must provide one or more instance IDs with the -i parameter."
    usage
    return 1
  fi

  response=$(aws ec2 stop-instances \
    --instance-ids "${instance_ids}") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports stop-instances operation failed with $response."
    return 1
  }

  return 0
}

###############################################################################
# function ec2_start_instances
#
# This function starts one or more Amazon Elastic Compute Cloud (Amazon EC2) instances.
#
# Parameters:
#       -i instance_id - The ID(s) of the instance(s) to start (comma-separated).
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_start_instances() {
  local instance_ids
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_start_instances"
    echo "Starts one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i instance_id - The ID(s) of the instance(s) to start (comma-separated)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) instance_ids="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$instance_ids" ]]; then
    errecho "ERROR: You must provide one or more instance IDs with the -i parameter."
    usage
    return 1
  fi

  response=$(aws ec2 start-instances \
    --instance-ids "${instance_ids}") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports start-instances operation failed with $response."
    return 1
  }

  return 0
}

###############################################################################
# function ec2_allocate_address
#
# This function allocates an Elastic IP address for use with Amazon Elastic Compute Cloud (Amazon EC2) instances in a specific AWS Region.
#
# Parameters:
#       -d domain - The domain for the Elastic IP address (either 'vpc' or 'standard').
#
# Returns:
#       The allocated Elastic IP address, or an error message if the operation fails.
# And:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_allocate_address() {
  local domain response

  # Function to display usage information
  function usage() {
    echo "function ec2_allocate_address"
    echo "Allocates an Elastic IP address for use with Amazon Elastic Compute Cloud (Amazon EC2) instances in a specific AWS Region."
    echo "  -d domain - The domain for the Elastic IP address (either 'vpc' or 'standard')."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "d:h" option; do
    case "${option}" in
      d) domain="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$domain" ]]; then
    errecho "ERROR: You must provide a domain with the -d parameter (either 'vpc' or 'standard')."
    return 1
  fi

  if [[ "$domain" != "vpc" && "$domain" != "standard" ]]; then
    errecho "ERROR: Invalid domain value. Must be either 'vpc' or 'standard'."
    return 1
  fi

  # Allocate the Elastic IP address
  response=$(aws ec2 allocate-address \
    --domain "$domain" \
    --query "[PublicIp,AllocationId]" \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports allocate-address operation failed."
    errecho "$response"
    return 1
  }

  echo "$response"
  return 0
}

###############################################################################
# function ec2_associate_address
#
# This function associates an Elastic IP address with an Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Parameters:
#       -a allocation_id - The allocation ID of the Elastic IP address to associate.
#       -i instance_id - The ID of the EC2 instance to associate the Elastic IP address with.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_associate_address() {
  local allocation_id instance_id response

  # Function to display usage information
  function usage() {
    echo "function ec2_associate_address"
    echo "Associates an Elastic IP address with an Amazon Elastic Compute Cloud (Amazon EC2) instance."
    echo "  -a allocation_id - The allocation ID of the Elastic IP address to associate."
    echo "  -i instance_id - The ID of the EC2 instance to associate the Elastic IP address with."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "a:i:h" option; do
    case "${option}" in
      a) allocation_id="${OPTARG}" ;;
      i) instance_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$allocation_id" ]]; then
    errecho "ERROR: You must provide an allocation ID with the -a parameter."
    return 1
  fi

  if [[ -z "$instance_id" ]]; then
    errecho "ERROR: You must provide an instance ID with the -i parameter."
    return 1
  fi

  # Associate the Elastic IP address
  response=$(aws ec2 associate-address \
    --allocation-id "$allocation_id" \
    --instance-id "$instance_id" \
    --query "AssociationId" \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports associate-address operation failed."
    errecho "$response"
    return 1
  }

  echo "$response"
  return 0
}

###############################################################################
# function ec2_disassociate_address
#
# This function disassociates an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Parameters:
#       -a association_id - The association ID that represents the association of the Elastic IP address with an instance.
#
# And:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_disassociate_address() {
  local association_id response

  # Function to display usage information
  function usage() {
    echo "function ec2_disassociate_address"
    echo "Disassociates an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance."
    echo "  -a association_id - The association ID that represents the association of the Elastic IP address with an instance."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "a:h" option; do
    case "${option}" in
      a) association_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$association_id" ]]; then
    errecho "ERROR: You must provide an association ID with the -a parameter."
    return 1
  fi

  response=$(aws ec2 disassociate-address \
    --association-id "$association_id") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports disassociate-address operation failed."
    errecho "$response"
    return 1
  }

  return 0
}

###############################################################################
# function ec2_release_address
#
# This function releases an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Parameters:
#       -a allocation_id - The allocation ID of the Elastic IP address to release.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_release_address() {
  local allocation_id response

  # Function to display usage information
  function usage() {
    echo "function ec2_release_address"
    echo "Releases an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance."
    echo "  -a allocation_id - The allocation ID of the Elastic IP address to release."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "a:h" option; do
    case "${option}" in
      a) allocation_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$allocation_id" ]]; then
    errecho "ERROR: You must provide an allocation ID with the -a parameter."
    return 1
  fi

  response=$(aws ec2 release-address \
    --allocation-id "$allocation_id") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports release-address operation failed."
    errecho "$response"
    return 1
  }

  return 0
}

###############################################################################
# function ec2_terminate_instances
#
# This function terminates one or more Amazon Elastic Compute Cloud (Amazon EC2)
# instances using the AWS CLI.
#
# Parameters:
#       -i instance_ids - A space-separated list of instance IDs.
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_terminate_instances() {
  local instance_ids response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_terminate_instances"
    echo "Terminates one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i instance_ids - A space-separated list of instance IDs."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) instance_ids="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Check if instance ID is provided
  if [[ -z "${instance_ids}" ]]; then
    echo "Error: Missing required instance IDs parameter."
    usage
    return 1
  fi

  # shellcheck disable=SC2086
  response=$(aws ec2 terminate-instances \
    "--instance-ids" $instance_ids \
    --query 'TerminatingInstances[*].[InstanceId,CurrentState.Name]' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports terminate-instances operation failed.$response"
    return 1
  }

  return 0
}

###############################################################################
# function ec2_delete_security_group
#
# This function deletes an Amazon Elastic Compute Cloud (Amazon EC2) security group.
#
# Parameters:
#       -i security_group_id - The ID of the security group to delete.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_delete_security_group() {
  local security_group_id response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_delete_security_group"
    echo "Deletes an Amazon Elastic Compute Cloud (Amazon EC2) security group."
    echo "  -i security_group_id - The ID of the security group to delete."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) security_group_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$security_group_id" ]]; then
    errecho "ERROR: You must provide a security group ID with the -i parameter."
    usage
    return 1
  fi

  response=$(aws ec2 delete-security-group --group-id "$security_group_id" --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports delete-security-group operation failed.$response"
    return 1
  }

  return 0
}

###############################################################################
# function ec2_delete_keypair
#
# This function deletes an Amazon EC2 ED25519 or 2048-bit RSA key pair.
#
# Parameters:
#       -n key_pair_name - A key pair name.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_delete_keypair() {
  local key_pair_name response

  local option OPTARG # Required to use getopts command in a function.
  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_delete_keypair"
    echo "Deletes an Amazon EC2 ED25519 or 2048-bit RSA key pair."
    echo "  -n key_pair_name - A key pair name."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) key_pair_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$key_pair_name" ]]; then
    errecho "ERROR: You must provide a key pair name with the -n parameter."
    usage
    return 1
  fi

  response=$(aws ec2 delete-key-pair \
    --key-name "$key_pair_name") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports delete-key-pair operation failed.$response"
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam skenario ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [AllocateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AllocateAddress)
  + [AssociateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AssociateAddress)
  + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AuthorizeSecurityGroupIngress)
  + [CreateKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateKeyPair)
  + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSecurityGroup)
  + [DeleteKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteKeyPair)
  + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteSecurityGroup)
  + [DescribeImages](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeImages)
  + [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstanceTypes)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstances)
  + [DescribeKeyPairs](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeKeyPairs)
  + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeSecurityGroups)
  + [DisassociateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DisassociateAddress)
  + [ReleaseAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ReleaseAddress)
  + [RunInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/RunInstances)
  + [StartInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/StartInstances)
  + [StopInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/StopInstances)
  + [TerminateInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/TerminateInstances)
  + [UnmonitorInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/UnmonitorInstances)

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_allocate_address
#
# This function allocates an Elastic IP address for use with Amazon Elastic Compute Cloud (Amazon EC2) instances in a specific AWS Region.
#
# Parameters:
#       -d domain - The domain for the Elastic IP address (either 'vpc' or 'standard').
#
# Returns:
#       The allocated Elastic IP address, or an error message if the operation fails.
# And:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_allocate_address() {
  local domain response

  # Function to display usage information
  function usage() {
    echo "function ec2_allocate_address"
    echo "Allocates an Elastic IP address for use with Amazon Elastic Compute Cloud (Amazon EC2) instances in a specific AWS Region."
    echo "  -d domain - The domain for the Elastic IP address (either 'vpc' or 'standard')."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "d:h" option; do
    case "${option}" in
      d) domain="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$domain" ]]; then
    errecho "ERROR: You must provide a domain with the -d parameter (either 'vpc' or 'standard')."
    return 1
  fi

  if [[ "$domain" != "vpc" && "$domain" != "standard" ]]; then
    errecho "ERROR: Invalid domain value. Must be either 'vpc' or 'standard'."
    return 1
  fi

  # Allocate the Elastic IP address
  response=$(aws ec2 allocate-address \
    --domain "$domain" \
    --query "[PublicIp,AllocationId]" \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports allocate-address operation failed."
    errecho "$response"
    return 1
  }

  echo "$response"
  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AllocateAddress)di *Referensi AWS CLI Perintah*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_associate_address
#
# This function associates an Elastic IP address with an Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Parameters:
#       -a allocation_id - The allocation ID of the Elastic IP address to associate.
#       -i instance_id - The ID of the EC2 instance to associate the Elastic IP address with.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_associate_address() {
  local allocation_id instance_id response

  # Function to display usage information
  function usage() {
    echo "function ec2_associate_address"
    echo "Associates an Elastic IP address with an Amazon Elastic Compute Cloud (Amazon EC2) instance."
    echo "  -a allocation_id - The allocation ID of the Elastic IP address to associate."
    echo "  -i instance_id - The ID of the EC2 instance to associate the Elastic IP address with."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "a:i:h" option; do
    case "${option}" in
      a) allocation_id="${OPTARG}" ;;
      i) instance_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$allocation_id" ]]; then
    errecho "ERROR: You must provide an allocation ID with the -a parameter."
    return 1
  fi

  if [[ -z "$instance_id" ]]; then
    errecho "ERROR: You must provide an instance ID with the -i parameter."
    return 1
  fi

  # Associate the Elastic IP address
  response=$(aws ec2 associate-address \
    --allocation-id "$allocation_id" \
    --instance-id "$instance_id" \
    --query "AssociationId" \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports associate-address operation failed."
    errecho "$response"
    return 1
  }

  echo "$response"
  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AssociateAddress)di *Referensi AWS CLI Perintah*. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_authorize_security_group_ingress
#
# This function authorizes an ingress rule for an Amazon Elastic Compute Cloud (Amazon EC2) security group.
#
# Parameters:
#       -g security_group_id - The ID of the security group.
#       -i ip_address - The IP address or CIDR block to authorize.
#       -p protocol - The protocol to authorize (e.g., tcp, udp, icmp).
#       -f from_port - The start of the port range to authorize.
#       -t to_port - The end of the port range to authorize.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_authorize_security_group_ingress() {
  local security_group_id ip_address protocol from_port to_port response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_authorize_security_group_ingress"
    echo "Authorizes an ingress rule for an Amazon Elastic Compute Cloud (Amazon EC2) security group."
    echo "  -g security_group_id - The ID of the security group."
    echo "  -i ip_address - The IP address or CIDR block to authorize."
    echo "  -p protocol - The protocol to authorize (e.g., tcp, udp, icmp)."
    echo "  -f from_port - The start of the port range to authorize."
    echo "  -t to_port - The end of the port range to authorize."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "g:i:p:f:t:h" option; do
    case "${option}" in
      g) security_group_id="${OPTARG}" ;;
      i) ip_address="${OPTARG}" ;;
      p) protocol="${OPTARG}" ;;
      f) from_port="${OPTARG}" ;;
      t) to_port="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$security_group_id" ]]; then
    errecho "ERROR: You must provide a security group ID with the -g parameter."
    usage
    return 1
  fi

  if [[ -z "$ip_address" ]]; then
    errecho "ERROR: You must provide an IP address or CIDR block with the -i parameter."
    usage
    return 1
  fi

  if [[ -z "$protocol" ]]; then
    errecho "ERROR: You must provide a protocol with the -p parameter."
    usage
    return 1
  fi

  if [[ -z "$from_port" ]]; then
    errecho "ERROR: You must provide a start port with the -f parameter."
    usage
    return 1
  fi

  if [[ -z "$to_port" ]]; then
    errecho "ERROR: You must provide an end port with the -t parameter."
    usage
    return 1
  fi

  response=$(aws ec2 authorize-security-group-ingress \
    --group-id "$security_group_id" \
    --cidr "${ip_address}/32" \
    --protocol "$protocol" \
    --port "$from_port-$to_port" \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports authorize-security-group-ingress operation failed.$response"
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AuthorizeSecurityGroupIngress)di *Referensi AWS CLI Perintah*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_create_keypair
#
# This function creates an Amazon Elastic Compute Cloud (Amazon EC2) ED25519 or 2048-bit RSA key pair
# and writes it to a file.
#
# Parameters:
#       -n key_pair_name - A key pair name.
#       -f file_path - File to store the key pair.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_create_keypair() {
  local key_pair_name file_path response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_create_keypair"
    echo "Creates an Amazon Elastic Compute Cloud (Amazon EC2) ED25519 or 2048-bit RSA key pair"
    echo " and writes it to a file."
    echo "  -n key_pair_name - A key pair name."
    echo "  -f file_path - File to store the key pair."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:f:h" option; do
    case "${option}" in
      n) key_pair_name="${OPTARG}" ;;
      f) file_path="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$key_pair_name" ]]; then
    errecho "ERROR: You must provide a key name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$file_path" ]]; then
    errecho "ERROR: You must provide a file path with the -f parameter."
    usage
    return 1
  fi

  response=$(aws ec2 create-key-pair \
    --key-name "$key_pair_name" \
    --query 'KeyMaterial' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports create-access-key operation failed.$response"
    return 1
  }

  if [[ -n "$file_path" ]]; then
    echo "$response" >"$file_path"
  fi

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateKeyPair)di *Referensi AWS CLI Perintah*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_create_security_group
#
# This function creates an Amazon Elastic Compute Cloud (Amazon EC2) security group.
#
# Parameters:
#       -n security_group_name - The name of the security group.
#       -d security_group_description - The description of the security group.
#
# Returns:
#       The ID of the created security group, or an error message if the operation fails.
# And:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_create_security_group() {
  local security_group_name security_group_description response

  # Function to display usage information
  function usage() {
    echo "function ec2_create_security_group"
    echo "Creates an Amazon Elastic Compute Cloud (Amazon EC2) security group."
    echo "  -n security_group_name - The name of the security group."
    echo "  -d security_group_description - The description of the security group."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "n:d:h" option; do
    case "${option}" in
      n) security_group_name="${OPTARG}" ;;
      d) security_group_description="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$security_group_name" ]]; then
    errecho "ERROR: You must provide a security group name with the -n parameter."
    return 1
  fi

  if [[ -z "$security_group_description" ]]; then
    errecho "ERROR: You must provide a security group description with the -d parameter."
    return 1
  fi

  # Create the security group
  response=$(aws ec2 create-security-group \
    --group-name "$security_group_name" \
    --description "$security_group_description" \
    --query "GroupId" \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports create-security-group operation failed."
    errecho "$response"
    return 1
  }

  echo "$response"
  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSecurityGroup)di *Referensi AWS CLI Perintah*. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_delete_keypair
#
# This function deletes an Amazon EC2 ED25519 or 2048-bit RSA key pair.
#
# Parameters:
#       -n key_pair_name - A key pair name.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_delete_keypair() {
  local key_pair_name response

  local option OPTARG # Required to use getopts command in a function.
  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_delete_keypair"
    echo "Deletes an Amazon EC2 ED25519 or 2048-bit RSA key pair."
    echo "  -n key_pair_name - A key pair name."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) key_pair_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$key_pair_name" ]]; then
    errecho "ERROR: You must provide a key pair name with the -n parameter."
    usage
    return 1
  fi

  response=$(aws ec2 delete-key-pair \
    --key-name "$key_pair_name") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports delete-key-pair operation failed.$response"
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteKeyPair)di *Referensi AWS CLI Perintah*. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_delete_security_group
#
# This function deletes an Amazon Elastic Compute Cloud (Amazon EC2) security group.
#
# Parameters:
#       -i security_group_id - The ID of the security group to delete.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_delete_security_group() {
  local security_group_id response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_delete_security_group"
    echo "Deletes an Amazon Elastic Compute Cloud (Amazon EC2) security group."
    echo "  -i security_group_id - The ID of the security group to delete."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) security_group_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$security_group_id" ]]; then
    errecho "ERROR: You must provide a security group ID with the -i parameter."
    usage
    return 1
  fi

  response=$(aws ec2 delete-security-group --group-id "$security_group_id" --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports delete-security-group operation failed.$response"
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteSecurityGroup)di *Referensi AWS CLI Perintah*. 

### `DescribeImages`
<a name="ec2_DescribeImages_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_describe_images
#
# This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) images.
#
# Parameters:
#       -i image_ids - A space-separated  list of image IDs (optional).
#       -h - Display help.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_describe_images() {
  local image_ids response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_describe_images"
    echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) images."
    echo "  -i image_ids - A space-separated list of image IDs (optional)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) image_ids="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local aws_cli_args=()

  if [[ -n "$image_ids" ]]; then
    # shellcheck disable=SC2206
    aws_cli_args+=("--image-ids" $image_ids)
  fi

  response=$(aws ec2 describe-images \
    "${aws_cli_args[@]}" \
    --query 'Images[*].[Description,Architecture,ImageId]' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports describe-images operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeImages)di *Referensi AWS CLI Perintah*. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# ec2_describe_instance_types
#
# This function describes EC2 instance types filtered by processor architecture
# and optionally by instance type. It takes the following arguments:
#
# -a, --architecture ARCHITECTURE  Specify the processor architecture (e.g., x86_64)
# -t, --type INSTANCE_TYPE         Comma-separated list of instance types (e.g., t2.micro)
# -h, --help                       Show the usage help
#
# The function prints the instance type and supported architecture for each
# matching instance type.
###############################################################################
function ec2_describe_instance_types() {
  local architecture=""
  local instance_types=""

  # bashsupport disable=BP5008
  function usage() {
    echo "Usage: ec2_describe_instance_types [-a|--architecture ARCHITECTURE] [-t|--type INSTANCE_TYPE] [-h|--help]"
    echo "  -a, --architecture ARCHITECTURE  Specify the processor architecture (e.g., x86_64)"
    echo "  -t, --type INSTANCE_TYPE         Comma-separated list of instance types (e.g., t2.micro)"
    echo "  -h, --help                       Show this help message"
  }

  while [[ $# -gt 0 ]]; do
    case "$1" in
      -a | --architecture)
        architecture="$2"
        shift 2
        ;;
      -t | --type)
        instance_types="$2"
        shift 2
        ;;
      -h | --help)
        usage
        return 0
        ;;
      *)
        echo "Unknown argument: $1"
        return 1
        ;;
    esac
  done

  if [[ -z "$architecture" ]]; then
    errecho "Error: Architecture not specified."
    usage
    return 1
  fi

  if [[ -z "$instance_types" ]]; then
    errecho "Error: Instance type not specified."
    usage
    return 1
  fi

  local tmp_json_file="temp_ec2.json"
  echo -n '[
    {
      "Name": "processor-info.supported-architecture",
      "Values": [' >"$tmp_json_file"

  local items
  IFS=',' read -ra items <<<"$architecture"
  local array_size
  array_size=${#items[@]}
  for i in $(seq 0 $((array_size - 1))); do
    echo -n '"'"${items[$i]}"'"' >>"$tmp_json_file"
    if [[ $i -lt $((array_size - 1)) ]]; then
      echo -n ',' >>"$tmp_json_file"
    fi
  done
  echo -n ']},
    {
    "Name": "instance-type",
      "Values": [' >>"$tmp_json_file"
  IFS=',' read -ra items <<<"$instance_types"
  local array_size
  array_size=${#items[@]}
  for i in $(seq 0 $((array_size - 1))); do
    echo -n '"'"${items[$i]}"'"' >>"$tmp_json_file"
    if [[ $i -lt $((array_size - 1)) ]]; then
      echo -n ',' >>"$tmp_json_file"
    fi
  done

  echo -n ']}]' >>"$tmp_json_file"

  local response
  response=$(aws ec2 describe-instance-types --filters file://"$tmp_json_file" \
    --query 'InstanceTypes[*].[InstanceType]' --output text)

  local error_code=$?

  rm "$tmp_json_file"

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    echo "ERROR: AWS reports describe-instance-types operation failed."
    return 1
  fi

  echo "$response"
  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstanceTypes)di *Referensi AWS CLI Perintah*. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_describe_instances
#
# This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) instances.
#
# Parameters:
#       -i instance_id - The ID of the instance to describe (optional).
#       -q query - The query to filter the response (optional).
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_describe_instances() {
  local instance_id query response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_describe_instances"
    echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i instance_id - The ID of the instance to describe (optional)."
    echo "  -q query - The query to filter the response (optional)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:q:h" option; do
    case "${option}" in
      i) instance_id="${OPTARG}" ;;
      q) query="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local aws_cli_args=()

  if [[ -n "$instance_id" ]]; then
    # shellcheck disable=SC2206
    aws_cli_args+=("--instance-ids" $instance_id)
  fi

  local query_arg=""
  if [[ -n "$query" ]]; then
    query_arg="--query '$query'"
  else
    query_arg="--query Reservations[*].Instances[*].[InstanceId,ImageId,InstanceType,KeyName,VpcId,PublicIpAddress,State.Name]"
  fi

  # shellcheck disable=SC2086
  response=$(aws ec2 describe-instances \
    "${aws_cli_args[@]}" \
    $query_arg \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports describe-instances operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstances)di *Referensi AWS CLI Perintah*. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_describe_key_pairs
#
# This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) key pairs.
#
# Parameters:
#       -h - Display help.
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_describe_key_pairs() {
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_describe_key_pairs"
    echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) key pairs."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "h" option; do
    case "${option}" in
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local response

  response=$(aws ec2 describe-key-pairs \
    --query 'KeyPairs[*].[KeyName, KeyFingerprint]' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports describe-key-pairs operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeKeyPairs)di *Referensi AWS CLI Perintah*. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_describe_security_groups
#
# This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) security groups.
#
# Parameters:
#       -g security_group_id - The ID of the security group to describe (optional).
#
# And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_describe_security_groups() {
  local security_group_id response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_describe_security_groups"
    echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) security groups."
    echo "  -g security_group_id - The ID of the security group to describe (optional)."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "g:h" option; do
    case "${option}" in
      g) security_group_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local query="SecurityGroups[*].[GroupName, GroupId, VpcId, IpPermissions[*].[IpProtocol, FromPort, ToPort, IpRanges[*].CidrIp]]"

  if [[ -n "$security_group_id" ]]; then
    response=$(aws ec2 describe-security-groups --group-ids "$security_group_id" --query "${query}" --output text)
  else
    response=$(aws ec2 describe-security-groups --query "${query}" --output text)
  fi

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports describe-security-groups operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeSecurityGroups)di *Referensi AWS CLI Perintah*. 

### `DisassociateAddress`
<a name="ec2_DisassociateAddress_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateAddress`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_disassociate_address
#
# This function disassociates an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Parameters:
#       -a association_id - The association ID that represents the association of the Elastic IP address with an instance.
#
# And:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_disassociate_address() {
  local association_id response

  # Function to display usage information
  function usage() {
    echo "function ec2_disassociate_address"
    echo "Disassociates an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance."
    echo "  -a association_id - The association ID that represents the association of the Elastic IP address with an instance."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "a:h" option; do
    case "${option}" in
      a) association_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$association_id" ]]; then
    errecho "ERROR: You must provide an association ID with the -a parameter."
    return 1
  fi

  response=$(aws ec2 disassociate-address \
    --association-id "$association_id") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports disassociate-address operation failed."
    errecho "$response"
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [DisassociateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DisassociateAddress)di *Referensi AWS CLI Perintah*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_release_address
#
# This function releases an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Parameters:
#       -a allocation_id - The allocation ID of the Elastic IP address to release.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
#
###############################################################################
function ec2_release_address() {
  local allocation_id response

  # Function to display usage information
  function usage() {
    echo "function ec2_release_address"
    echo "Releases an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance."
    echo "  -a allocation_id - The allocation ID of the Elastic IP address to release."
    echo ""
  }

  # Parse the command-line arguments
  while getopts "a:h" option; do
    case "${option}" in
      a) allocation_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Validate the input parameters
  if [[ -z "$allocation_id" ]]; then
    errecho "ERROR: You must provide an allocation ID with the -a parameter."
    return 1
  fi

  response=$(aws ec2 release-address \
    --allocation-id "$allocation_id") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports release-address operation failed."
    errecho "$response"
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ReleaseAddress)di *Referensi AWS CLI Perintah*. 

### `RunInstances`
<a name="ec2_RunInstances_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_run_instances
#
# This function launches one or more Amazon Elastic Compute Cloud (Amazon EC2) instances.
#
# Parameters:
#       -i image_id - The ID of the Amazon Machine Image (AMI) to use.
#       -t instance_type - The instance type to use (e.g., t2.micro).
#       -k key_pair_name - The name of the key pair to use.
#       -s security_group_id - The ID of the security group to use.
#       -c count - The number of instances to launch (default: 1).
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_run_instances() {
  local image_id instance_type key_pair_name security_group_id count response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_run_instances"
    echo "Launches one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i image_id - The ID of the Amazon Machine Image (AMI) to use."
    echo "  -t instance_type - The instance type to use (e.g., t2.micro)."
    echo "  -k key_pair_name - The name of the key pair to use."
    echo "  -s security_group_id - The ID of the security group to use."
    echo "  -c count - The number of instances to launch (default: 1)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:t:k:s:c:h" option; do
    case "${option}" in
      i) image_id="${OPTARG}" ;;
      t) instance_type="${OPTARG}" ;;
      k) key_pair_name="${OPTARG}" ;;
      s) security_group_id="${OPTARG}" ;;
      c) count="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$image_id" ]]; then
    errecho "ERROR: You must provide an Amazon Machine Image (AMI) ID with the -i parameter."
    usage
    return 1
  fi

  if [[ -z "$instance_type" ]]; then
    errecho "ERROR: You must provide an instance type with the -t parameter."
    usage
    return 1
  fi

  if [[ -z "$key_pair_name" ]]; then
    errecho "ERROR: You must provide a key pair name with the -k parameter."
    usage
    return 1
  fi

  if [[ -z "$security_group_id" ]]; then
    errecho "ERROR: You must provide a security group ID with the -s parameter."
    usage
    return 1
  fi

  if [[ -z "$count" ]]; then
    count=1
  fi

  response=$(aws ec2 run-instances \
    --image-id "$image_id" \
    --instance-type "$instance_type" \
    --key-name "$key_pair_name" \
    --security-group-ids "$security_group_id" \
    --count "$count" \
    --query 'Instances[*].[InstanceId]' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports run-instances operation failed.$response"
    return 1
  }

  echo "$response"

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/RunInstances)di *Referensi AWS CLI Perintah*. 

### `StartInstances`
<a name="ec2_StartInstances_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_start_instances
#
# This function starts one or more Amazon Elastic Compute Cloud (Amazon EC2) instances.
#
# Parameters:
#       -i instance_id - The ID(s) of the instance(s) to start (comma-separated).
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_start_instances() {
  local instance_ids
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_start_instances"
    echo "Starts one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i instance_id - The ID(s) of the instance(s) to start (comma-separated)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) instance_ids="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$instance_ids" ]]; then
    errecho "ERROR: You must provide one or more instance IDs with the -i parameter."
    usage
    return 1
  fi

  response=$(aws ec2 start-instances \
    --instance-ids "${instance_ids}") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports start-instances operation failed with $response."
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/StartInstances)di *Referensi AWS CLI Perintah*. 

### `StopInstances`
<a name="ec2_StopInstances_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_stop_instances
#
# This function stops one or more Amazon Elastic Compute Cloud (Amazon EC2) instances.
#
# Parameters:
#       -i instance_id - The ID(s) of the instance(s) to stop (comma-separated).
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_stop_instances() {
  local instance_ids
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_stop_instances"
    echo "Stops one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i instance_id - The ID(s) of the instance(s) to stop (comma-separated)."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) instance_ids="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$instance_ids" ]]; then
    errecho "ERROR: You must provide one or more instance IDs with the -i parameter."
    usage
    return 1
  fi

  response=$(aws ec2 stop-instances \
    --instance-ids "${instance_ids}") || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports stop-instances operation failed with $response."
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/StopInstances)di *Referensi AWS CLI Perintah*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). 

```
###############################################################################
# function ec2_terminate_instances
#
# This function terminates one or more Amazon Elastic Compute Cloud (Amazon EC2)
# instances using the AWS CLI.
#
# Parameters:
#       -i instance_ids - A space-separated list of instance IDs.
#       -h - Display help.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function ec2_terminate_instances() {
  local instance_ids response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function ec2_terminate_instances"
    echo "Terminates one or more Amazon Elastic Compute Cloud (Amazon EC2) instances."
    echo "  -i instance_ids - A space-separated list of instance IDs."
    echo "  -h - Display help."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) instance_ids="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  # Check if instance ID is provided
  if [[ -z "${instance_ids}" ]]; then
    echo "Error: Missing required instance IDs parameter."
    usage
    return 1
  fi

  # shellcheck disable=SC2086
  response=$(aws ec2 terminate-instances \
    "--instance-ids" $instance_ids \
    --query 'TerminatingInstances[*].[InstanceId,CurrentState.Name]' \
    --output text) || {
    aws_cli_error_log ${?}
    errecho "ERROR: AWS reports terminate-instances operation failed.$response"
    return 1
  }

  return 0
}
```
Fungsi utilitas yang digunakan dalam contoh ini.  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

##############################################################################
# function aws_cli_error_log()
#
# This function is used to log the error messages from the AWS CLI.
#
# The function expects the following argument:
#         $1 - The error code returned by the AWS CLI.
#
#  Returns:
#          0: - Success.
#
##############################################################################
function aws_cli_error_log() {
  local err_code=$1
  errecho "Error code : $err_code"
  if [ "$err_code" == 1 ]; then
    errecho "  One or more S3 transfers failed."
  elif [ "$err_code" == 2 ]; then
    errecho "  Command line failed to parse."
  elif [ "$err_code" == 130 ]; then
    errecho "  Process received SIGINT."
  elif [ "$err_code" == 252 ]; then
    errecho "  Command syntax invalid."
  elif [ "$err_code" == 253 ]; then
    errecho "  The system environment or configuration was invalid."
  elif [ "$err_code" == 254 ]; then
    errecho "  The service returned an error."
  elif [ "$err_code" == 255 ]; then
    errecho "  255 is a catch-all error."
  fi

  return 0
}
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/TerminateInstances)di *Referensi AWS CLI Perintah*. 

## Skenario
<a name="scenarios"></a>

### Buat VPC dengan subnet pribadi dan gateway NAT
<a name="vpc_GettingStartedPrivate_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat VPC dengan subnet pribadi dan gateway NAT menggunakan CLI.
+ Siapkan komponen yang diperlukan termasuk VPC, subnet, tabel rute, dan gateway NAT.
+ Konfigurasikan grup keamanan dan peran IAM untuk akses dan keamanan yang tepat.
+ Gunakan perintah CLI untuk mengotomatiskan pembuatan dan konfigurasi sumber daya ini.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/008-vpc-private-servers-gs). 

```
#!/bin/bash

# VPC with Private Subnets and NAT Gateways (IMDSv2 Compliant Version)
# This script creates a VPC with public and private subnets in two Availability Zones,
# NAT gateways, an internet gateway, route tables, a VPC endpoint for S3,
# security groups, a launch template, an Auto Scaling group, and an Application Load Balancer.

# Set up logging
LOG_FILE="vpc-private-subnets-nat.log"
exec > >(tee -a "$LOG_FILE") 2>&1

# Cleanup function to delete all created resources
cleanup_resources() {
  echo "Cleaning up resources..."
  
  # Delete Auto Scaling group if it exists
  if [ -n "${ASG_NAME:-}" ]; then
    echo "Deleting Auto Scaling group: $ASG_NAME"
    aws autoscaling delete-auto-scaling-group --auto-scaling-group-name "$ASG_NAME" --force-delete
    echo "Waiting for Auto Scaling group to be deleted..."
    aws autoscaling wait auto-scaling-groups-deleted --auto-scaling-group-names "$ASG_NAME"
  fi
  
  # Delete load balancer if it exists
  if [ -n "${LB_ARN:-}" ]; then
    echo "Deleting load balancer: $LB_ARN"
    aws elbv2 delete-load-balancer --load-balancer-arn "$LB_ARN"
    # Wait for load balancer to be deleted
    sleep 30
  fi
  
  # Delete target group if it exists
  if [ -n "${TARGET_GROUP_ARN:-}" ]; then
    echo "Deleting target group: $TARGET_GROUP_ARN"
    aws elbv2 delete-target-group --target-group-arn "$TARGET_GROUP_ARN"
  fi
  
  # Delete launch template if it exists
  if [ -n "${LAUNCH_TEMPLATE_NAME:-}" ]; then
    echo "Deleting launch template: $LAUNCH_TEMPLATE_NAME"
    aws ec2 delete-launch-template --launch-template-name "$LAUNCH_TEMPLATE_NAME"
  fi
  
  # Delete NAT Gateways if they exist
  if [ -n "${NAT_GW1_ID:-}" ]; then
    echo "Deleting NAT Gateway 1: $NAT_GW1_ID"
    aws ec2 delete-nat-gateway --nat-gateway-id "$NAT_GW1_ID"
  fi
  
  if [ -n "${NAT_GW2_ID:-}" ]; then
    echo "Deleting NAT Gateway 2: $NAT_GW2_ID"
    aws ec2 delete-nat-gateway --nat-gateway-id "$NAT_GW2_ID"
  fi
  
  # Wait for NAT Gateways to be deleted
  if [ -n "${NAT_GW1_ID:-}" ] || [ -n "${NAT_GW2_ID:-}" ]; then
    echo "Waiting for NAT Gateways to be deleted..."
    sleep 60
  fi
  
  # Release Elastic IPs if they exist
  if [ -n "${EIP1_ALLOC_ID:-}" ]; then
    echo "Releasing Elastic IP 1: $EIP1_ALLOC_ID"
    aws ec2 release-address --allocation-id "$EIP1_ALLOC_ID"
  fi
  
  if [ -n "${EIP2_ALLOC_ID:-}" ]; then
    echo "Releasing Elastic IP 2: $EIP2_ALLOC_ID"
    aws ec2 release-address --allocation-id "$EIP2_ALLOC_ID"
  fi
  
  # Delete VPC endpoint if it exists
  if [ -n "${VPC_ENDPOINT_ID:-}" ]; then
    echo "Deleting VPC endpoint: $VPC_ENDPOINT_ID"
    aws ec2 delete-vpc-endpoints --vpc-endpoint-ids "$VPC_ENDPOINT_ID"
  fi
  
  # Delete security groups if they exist
  if [ -n "${APP_SG_ID:-}" ]; then
    echo "Deleting application security group: $APP_SG_ID"
    aws ec2 delete-security-group --group-id "$APP_SG_ID"
  fi
  
  if [ -n "${LB_SG_ID:-}" ]; then
    echo "Deleting load balancer security group: $LB_SG_ID"
    aws ec2 delete-security-group --group-id "$LB_SG_ID"
  fi
  
  # Detach and delete Internet Gateway if it exists
  if [ -n "${IGW_ID:-}" ] && [ -n "${VPC_ID:-}" ]; then
    echo "Detaching Internet Gateway: $IGW_ID from VPC: $VPC_ID"
    aws ec2 detach-internet-gateway --internet-gateway-id "$IGW_ID" --vpc-id "$VPC_ID"
    echo "Deleting Internet Gateway: $IGW_ID"
    aws ec2 delete-internet-gateway --internet-gateway-id "$IGW_ID"
  fi
  
  # Delete route table associations and route tables if they exist
  if [ -n "${PUBLIC_RT_ASSOC1_ID:-}" ]; then
    echo "Disassociating public route table from subnet 1: $PUBLIC_RT_ASSOC1_ID"
    aws ec2 disassociate-route-table --association-id "$PUBLIC_RT_ASSOC1_ID"
  fi
  
  if [ -n "${PUBLIC_RT_ASSOC2_ID:-}" ]; then
    echo "Disassociating public route table from subnet 2: $PUBLIC_RT_ASSOC2_ID"
    aws ec2 disassociate-route-table --association-id "$PUBLIC_RT_ASSOC2_ID"
  fi
  
  if [ -n "${PRIVATE_RT1_ASSOC_ID:-}" ]; then
    echo "Disassociating private route table 1: $PRIVATE_RT1_ASSOC_ID"
    aws ec2 disassociate-route-table --association-id "$PRIVATE_RT1_ASSOC_ID"
  fi
  
  if [ -n "${PRIVATE_RT2_ASSOC_ID:-}" ]; then
    echo "Disassociating private route table 2: $PRIVATE_RT2_ASSOC_ID"
    aws ec2 disassociate-route-table --association-id "$PRIVATE_RT2_ASSOC_ID"
  fi
  
  if [ -n "${PUBLIC_RT_ID:-}" ]; then
    echo "Deleting public route table: $PUBLIC_RT_ID"
    aws ec2 delete-route-table --route-table-id "$PUBLIC_RT_ID"
  fi
  
  if [ -n "${PRIVATE_RT1_ID:-}" ]; then
    echo "Deleting private route table 1: $PRIVATE_RT1_ID"
    aws ec2 delete-route-table --route-table-id "$PRIVATE_RT1_ID"
  fi
  
  if [ -n "${PRIVATE_RT2_ID:-}" ]; then
    echo "Deleting private route table 2: $PRIVATE_RT2_ID"
    aws ec2 delete-route-table --route-table-id "$PRIVATE_RT2_ID"
  fi
  
  # Delete subnets if they exist
  if [ -n "${PUBLIC_SUBNET1_ID:-}" ]; then
    echo "Deleting public subnet 1: $PUBLIC_SUBNET1_ID"
    aws ec2 delete-subnet --subnet-id "$PUBLIC_SUBNET1_ID"
  fi
  
  if [ -n "${PUBLIC_SUBNET2_ID:-}" ]; then
    echo "Deleting public subnet 2: $PUBLIC_SUBNET2_ID"
    aws ec2 delete-subnet --subnet-id "$PUBLIC_SUBNET2_ID"
  fi
  
  if [ -n "${PRIVATE_SUBNET1_ID:-}" ]; then
    echo "Deleting private subnet 1: $PRIVATE_SUBNET1_ID"
    aws ec2 delete-subnet --subnet-id "$PRIVATE_SUBNET1_ID"
  fi
  
  if [ -n "${PRIVATE_SUBNET2_ID:-}" ]; then
    echo "Deleting private subnet 2: $PRIVATE_SUBNET2_ID"
    aws ec2 delete-subnet --subnet-id "$PRIVATE_SUBNET2_ID"
  fi
  
  # Delete VPC if it exists
  if [ -n "${VPC_ID:-}" ]; then
    echo "Deleting VPC: $VPC_ID"
    aws ec2 delete-vpc --vpc-id "$VPC_ID"
  fi
  
  echo "Cleanup completed."
}

# Error handling function
handle_error() {
  echo "ERROR: $1"
  echo "Attempting to clean up resources..."
  cleanup_resources
  exit 1
}

# Function to check command success
check_command() {
  if [ $? -ne 0 ]; then
    handle_error "$1"
  fi
}

# Generate a random identifier for resource names
RANDOM_ID=$(openssl rand -hex 4)
echo "Using random identifier: $RANDOM_ID"

# Create VPC
echo "Creating VPC..."
VPC_RESULT=$(aws ec2 create-vpc --cidr-block 10.0.0.0/16 --tag-specifications "ResourceType=vpc,Tags=[{Key=Name,Value=ProductionVPC-$RANDOM_ID}]")
check_command "Failed to create VPC"

VPC_ID=$(echo "$VPC_RESULT" | jq -r '.Vpc.VpcId')
echo "VPC created with ID: $VPC_ID"

# Get Availability Zones
echo "Getting Availability Zones..."
AZ_RESULT=$(aws ec2 describe-availability-zones --query 'AvailabilityZones[0:2].ZoneName' --output text)
check_command "Failed to get Availability Zones"

# Convert space-separated output to array
read -r -a AZS <<< "$AZ_RESULT"
AZ1=${AZS[0]}
AZ2=${AZS[1]}
echo "Using Availability Zones: $AZ1 and $AZ2"

# Create subnets
echo "Creating subnets..."
PUBLIC_SUBNET1_RESULT=$(aws ec2 create-subnet --vpc-id "$VPC_ID" --cidr-block 10.0.0.0/24 --availability-zone "$AZ1" --tag-specifications "ResourceType=subnet,Tags=[{Key=Name,Value=PublicSubnet1-$RANDOM_ID}]")
check_command "Failed to create public subnet 1"
PUBLIC_SUBNET1_ID=$(echo "$PUBLIC_SUBNET1_RESULT" | jq -r '.Subnet.SubnetId')

PRIVATE_SUBNET1_RESULT=$(aws ec2 create-subnet --vpc-id "$VPC_ID" --cidr-block 10.0.1.0/24 --availability-zone "$AZ1" --tag-specifications "ResourceType=subnet,Tags=[{Key=Name,Value=PrivateSubnet1-$RANDOM_ID}]")
check_command "Failed to create private subnet 1"
PRIVATE_SUBNET1_ID=$(echo "$PRIVATE_SUBNET1_RESULT" | jq -r '.Subnet.SubnetId')

PUBLIC_SUBNET2_RESULT=$(aws ec2 create-subnet --vpc-id "$VPC_ID" --cidr-block 10.0.2.0/24 --availability-zone "$AZ2" --tag-specifications "ResourceType=subnet,Tags=[{Key=Name,Value=PublicSubnet2-$RANDOM_ID}]")
check_command "Failed to create public subnet 2"
PUBLIC_SUBNET2_ID=$(echo "$PUBLIC_SUBNET2_RESULT" | jq -r '.Subnet.SubnetId')

PRIVATE_SUBNET2_RESULT=$(aws ec2 create-subnet --vpc-id "$VPC_ID" --cidr-block 10.0.3.0/24 --availability-zone "$AZ2" --tag-specifications "ResourceType=subnet,Tags=[{Key=Name,Value=PrivateSubnet2-$RANDOM_ID}]")
check_command "Failed to create private subnet 2"
PRIVATE_SUBNET2_ID=$(echo "$PRIVATE_SUBNET2_RESULT" | jq -r '.Subnet.SubnetId')

echo "Subnets created with IDs:"
echo "Public Subnet 1: $PUBLIC_SUBNET1_ID"
echo "Private Subnet 1: $PRIVATE_SUBNET1_ID"
echo "Public Subnet 2: $PUBLIC_SUBNET2_ID"
echo "Private Subnet 2: $PRIVATE_SUBNET2_ID"

# Create Internet Gateway
echo "Creating Internet Gateway..."
IGW_RESULT=$(aws ec2 create-internet-gateway --tag-specifications "ResourceType=internet-gateway,Tags=[{Key=Name,Value=ProductionIGW-$RANDOM_ID}]")
check_command "Failed to create Internet Gateway"
IGW_ID=$(echo "$IGW_RESULT" | jq -r '.InternetGateway.InternetGatewayId')
echo "Internet Gateway created with ID: $IGW_ID"

# Attach Internet Gateway to VPC
echo "Attaching Internet Gateway to VPC..."
aws ec2 attach-internet-gateway --internet-gateway-id "$IGW_ID" --vpc-id "$VPC_ID"
check_command "Failed to attach Internet Gateway to VPC"

# Create route tables
echo "Creating route tables..."
PUBLIC_RT_RESULT=$(aws ec2 create-route-table --vpc-id "$VPC_ID" --tag-specifications "ResourceType=route-table,Tags=[{Key=Name,Value=PublicRouteTable-$RANDOM_ID}]")
check_command "Failed to create public route table"
PUBLIC_RT_ID=$(echo "$PUBLIC_RT_RESULT" | jq -r '.RouteTable.RouteTableId')

PRIVATE_RT1_RESULT=$(aws ec2 create-route-table --vpc-id "$VPC_ID" --tag-specifications "ResourceType=route-table,Tags=[{Key=Name,Value=PrivateRouteTable1-$RANDOM_ID}]")
check_command "Failed to create private route table 1"
PRIVATE_RT1_ID=$(echo "$PRIVATE_RT1_RESULT" | jq -r '.RouteTable.RouteTableId')

PRIVATE_RT2_RESULT=$(aws ec2 create-route-table --vpc-id "$VPC_ID" --tag-specifications "ResourceType=route-table,Tags=[{Key=Name,Value=PrivateRouteTable2-$RANDOM_ID}]")
check_command "Failed to create private route table 2"
PRIVATE_RT2_ID=$(echo "$PRIVATE_RT2_RESULT" | jq -r '.RouteTable.RouteTableId')

echo "Route tables created with IDs:"
echo "Public Route Table: $PUBLIC_RT_ID"
echo "Private Route Table 1: $PRIVATE_RT1_ID"
echo "Private Route Table 2: $PRIVATE_RT2_ID"

# Add route to Internet Gateway in public route table
echo "Adding route to Internet Gateway in public route table..."
aws ec2 create-route --route-table-id "$PUBLIC_RT_ID" --destination-cidr-block 0.0.0.0/0 --gateway-id "$IGW_ID"
check_command "Failed to add route to Internet Gateway"

# Associate subnets with route tables
echo "Associating subnets with route tables..."
PUBLIC_RT_ASSOC1_RESULT=$(aws ec2 associate-route-table --route-table-id "$PUBLIC_RT_ID" --subnet-id "$PUBLIC_SUBNET1_ID")
check_command "Failed to associate public subnet 1 with route table"
PUBLIC_RT_ASSOC1_ID=$(echo "$PUBLIC_RT_ASSOC1_RESULT" | jq -r '.AssociationId')

PUBLIC_RT_ASSOC2_RESULT=$(aws ec2 associate-route-table --route-table-id "$PUBLIC_RT_ID" --subnet-id "$PUBLIC_SUBNET2_ID")
check_command "Failed to associate public subnet 2 with route table"
PUBLIC_RT_ASSOC2_ID=$(echo "$PUBLIC_RT_ASSOC2_RESULT" | jq -r '.AssociationId')

PRIVATE_RT1_ASSOC_RESULT=$(aws ec2 associate-route-table --route-table-id "$PRIVATE_RT1_ID" --subnet-id "$PRIVATE_SUBNET1_ID")
check_command "Failed to associate private subnet 1 with route table"
PRIVATE_RT1_ASSOC_ID=$(echo "$PRIVATE_RT1_ASSOC_RESULT" | jq -r '.AssociationId')

PRIVATE_RT2_ASSOC_RESULT=$(aws ec2 associate-route-table --route-table-id "$PRIVATE_RT2_ID" --subnet-id "$PRIVATE_SUBNET2_ID")
check_command "Failed to associate private subnet 2 with route table"
PRIVATE_RT2_ASSOC_ID=$(echo "$PRIVATE_RT2_ASSOC_RESULT" | jq -r '.AssociationId')

echo "Route table associations created with IDs:"
echo "Public Subnet 1 Association: $PUBLIC_RT_ASSOC1_ID"
echo "Public Subnet 2 Association: $PUBLIC_RT_ASSOC2_ID"
echo "Private Subnet 1 Association: $PRIVATE_RT1_ASSOC_ID"
echo "Private Subnet 2 Association: $PRIVATE_RT2_ASSOC_ID"

# Create NAT Gateways
echo "Creating NAT Gateways..."

# Allocate Elastic IPs for NAT Gateways
echo "Allocating Elastic IPs for NAT Gateways..."
EIP1_RESULT=$(aws ec2 allocate-address --domain vpc --tag-specifications "ResourceType=elastic-ip,Tags=[{Key=Name,Value=NAT1-EIP-$RANDOM_ID}]")
check_command "Failed to allocate Elastic IP 1"
EIP1_ALLOC_ID=$(echo "$EIP1_RESULT" | jq -r '.AllocationId')

EIP2_RESULT=$(aws ec2 allocate-address --domain vpc --tag-specifications "ResourceType=elastic-ip,Tags=[{Key=Name,Value=NAT2-EIP-$RANDOM_ID}]")
check_command "Failed to allocate Elastic IP 2"
EIP2_ALLOC_ID=$(echo "$EIP2_RESULT" | jq -r '.AllocationId')

echo "Elastic IPs allocated with IDs:"
echo "EIP 1 Allocation ID: $EIP1_ALLOC_ID"
echo "EIP 2 Allocation ID: $EIP2_ALLOC_ID"

# Create NAT Gateways
echo "Creating NAT Gateway in public subnet 1..."
NAT_GW1_RESULT=$(aws ec2 create-nat-gateway --subnet-id "$PUBLIC_SUBNET1_ID" --allocation-id "$EIP1_ALLOC_ID" --tag-specifications "ResourceType=natgateway,Tags=[{Key=Name,Value=NAT-Gateway1-$RANDOM_ID}]")
check_command "Failed to create NAT Gateway 1"
NAT_GW1_ID=$(echo "$NAT_GW1_RESULT" | jq -r '.NatGateway.NatGatewayId')

echo "Creating NAT Gateway in public subnet 2..."
NAT_GW2_RESULT=$(aws ec2 create-nat-gateway --subnet-id "$PUBLIC_SUBNET2_ID" --allocation-id "$EIP2_ALLOC_ID" --tag-specifications "ResourceType=natgateway,Tags=[{Key=Name,Value=NAT-Gateway2-$RANDOM_ID}]")
check_command "Failed to create NAT Gateway 2"
NAT_GW2_ID=$(echo "$NAT_GW2_RESULT" | jq -r '.NatGateway.NatGatewayId')

echo "NAT Gateways created with IDs:"
echo "NAT Gateway 1: $NAT_GW1_ID"
echo "NAT Gateway 2: $NAT_GW2_ID"

# Wait for NAT Gateways to be available
echo "Waiting for NAT Gateways to be available..."
aws ec2 wait nat-gateway-available --nat-gateway-ids "$NAT_GW1_ID"
check_command "NAT Gateway 1 did not become available"
aws ec2 wait nat-gateway-available --nat-gateway-ids "$NAT_GW2_ID"
check_command "NAT Gateway 2 did not become available"
echo "NAT Gateways are now available"

# Add routes to NAT Gateways in private route tables
echo "Adding routes to NAT Gateways in private route tables..."
aws ec2 create-route --route-table-id "$PRIVATE_RT1_ID" --destination-cidr-block 0.0.0.0/0 --nat-gateway-id "$NAT_GW1_ID"
check_command "Failed to add route to NAT Gateway 1"

aws ec2 create-route --route-table-id "$PRIVATE_RT2_ID" --destination-cidr-block 0.0.0.0/0 --nat-gateway-id "$NAT_GW2_ID"
check_command "Failed to add route to NAT Gateway 2"

# Create VPC Endpoint for S3
echo "Creating VPC Endpoint for S3..."
S3_PREFIX_LIST_ID=$(aws ec2 describe-prefix-lists --filters "Name=prefix-list-name,Values=com.amazonaws.$(aws configure get region).s3" --query 'PrefixLists[0].PrefixListId' --output text)
check_command "Failed to get S3 prefix list ID"

VPC_ENDPOINT_RESULT=$(aws ec2 create-vpc-endpoint --vpc-id "$VPC_ID" --service-name "com.amazonaws.$(aws configure get region).s3" --route-table-ids "$PRIVATE_RT1_ID" "$PRIVATE_RT2_ID" --tag-specifications "ResourceType=vpc-endpoint,Tags=[{Key=Name,Value=S3-Endpoint-$RANDOM_ID}]")
check_command "Failed to create VPC endpoint for S3"
VPC_ENDPOINT_ID=$(echo "$VPC_ENDPOINT_RESULT" | jq -r '.VpcEndpoint.VpcEndpointId')
echo "VPC Endpoint created with ID: $VPC_ENDPOINT_ID"

# Create security groups
echo "Creating security groups..."
LB_SG_RESULT=$(aws ec2 create-security-group --group-name "LoadBalancerSG-$RANDOM_ID" --description "Security group for the load balancer" --vpc-id "$VPC_ID" --tag-specifications "ResourceType=security-group,Tags=[{Key=Name,Value=LoadBalancerSG-$RANDOM_ID}]")
check_command "Failed to create load balancer security group"
LB_SG_ID=$(echo "$LB_SG_RESULT" | jq -r '.GroupId')

# Allow inbound HTTP traffic from anywhere to the load balancer
aws ec2 authorize-security-group-ingress --group-id "$LB_SG_ID" --protocol tcp --port 80 --cidr 0.0.0.0/0
check_command "Failed to authorize ingress to load balancer security group"

APP_SG_RESULT=$(aws ec2 create-security-group --group-name "AppServerSG-$RANDOM_ID" --description "Security group for the application servers" --vpc-id "$VPC_ID" --tag-specifications "ResourceType=security-group,Tags=[{Key=Name,Value=AppServerSG-$RANDOM_ID}]")
check_command "Failed to create application server security group"
APP_SG_ID=$(echo "$APP_SG_RESULT" | jq -r '.GroupId')

# Allow inbound HTTP traffic from the load balancer security group to the application servers
aws ec2 authorize-security-group-ingress --group-id "$APP_SG_ID" --protocol tcp --port 80 --source-group "$LB_SG_ID"
check_command "Failed to authorize ingress to application server security group"

echo "Security groups created with IDs:"
echo "Load Balancer Security Group: $LB_SG_ID"
echo "Application Server Security Group: $APP_SG_ID"

# Create a launch template
echo "Creating launch template..."

# Create user data script with IMDSv2 support
cat > user-data.sh << 'EOF'
#!/bin/bash
yum update -y
yum install -y httpd
systemctl start httpd
systemctl enable httpd

# Use IMDSv2 with session token
TOKEN=$(curl -X PUT "http://169.254.169.254/latest/api/token" -H "X-aws-ec2-metadata-token-ttl-seconds: 21600")
AZ=$(curl -H "X-aws-ec2-metadata-token: $TOKEN" -s http://169.254.169.254/latest/meta-data/placement/availability-zone)
HOSTNAME=$(hostname -f)

echo "<h1>Hello from $HOSTNAME in $AZ</h1>" > /var/www/html/index.html
EOF

# Encode user data
USER_DATA=$(base64 -w 0 user-data.sh)

# Get latest Amazon Linux 2 AMI
echo "Getting latest Amazon Linux 2 AMI..."
AMI_ID=$(aws ec2 describe-images --owners amazon --filters "Name=name,Values=amzn2-ami-hvm-*-x86_64-gp2" "Name=state,Values=available" --query 'sort_by(Images, &CreationDate)[-1].ImageId' --output text)
check_command "Failed to get latest Amazon Linux 2 AMI"
echo "Using AMI: $AMI_ID"

# Create launch template with IMDSv2 required
LAUNCH_TEMPLATE_NAME="AppServerTemplate-$RANDOM_ID"
echo "Creating launch template: $LAUNCH_TEMPLATE_NAME"

aws ec2 create-launch-template \
  --launch-template-name "$LAUNCH_TEMPLATE_NAME" \
  --version-description "Initial version" \
  --tag-specifications "ResourceType=launch-template,Tags=[{Key=Name,Value=$LAUNCH_TEMPLATE_NAME}]" \
  --launch-template-data "{
    \"NetworkInterfaces\": [{
      \"DeviceIndex\": 0,
      \"Groups\": [\"$APP_SG_ID\"],
      \"DeleteOnTermination\": true
    }],
    \"ImageId\": \"$AMI_ID\",
    \"InstanceType\": \"t3.micro\",
    \"UserData\": \"$USER_DATA\",
    \"MetadataOptions\": {
      \"HttpTokens\": \"required\",
      \"HttpEndpoint\": \"enabled\"
    },
    \"TagSpecifications\": [{
      \"ResourceType\": \"instance\",
      \"Tags\": [{
        \"Key\": \"Name\",
        \"Value\": \"AppServer-$RANDOM_ID\"
      }]
    }]
  }"
check_command "Failed to create launch template"

# Create target group
echo "Creating target group..."
TARGET_GROUP_NAME="AppTargetGroup-$RANDOM_ID"
TARGET_GROUP_RESULT=$(aws elbv2 create-target-group \
  --name "$TARGET_GROUP_NAME" \
  --protocol HTTP \
  --port 80 \
  --vpc-id "$VPC_ID" \
  --target-type instance \
  --health-check-protocol HTTP \
  --health-check-path "/" \
  --health-check-port traffic-port)
check_command "Failed to create target group"
TARGET_GROUP_ARN=$(echo "$TARGET_GROUP_RESULT" | jq -r '.TargetGroups[0].TargetGroupArn')
echo "Target group created with ARN: $TARGET_GROUP_ARN"

# Create load balancer
echo "Creating load balancer..."
LB_NAME="AppLoadBalancer-$RANDOM_ID"
LB_RESULT=$(aws elbv2 create-load-balancer \
  --name "$LB_NAME" \
  --subnets "$PUBLIC_SUBNET1_ID" "$PUBLIC_SUBNET2_ID" \
  --security-groups "$LB_SG_ID" \
  --tags "Key=Name,Value=$LB_NAME")
check_command "Failed to create load balancer"
LB_ARN=$(echo "$LB_RESULT" | jq -r '.LoadBalancers[0].LoadBalancerArn')
echo "Load balancer created with ARN: $LB_ARN"

# Wait for load balancer to be active
echo "Waiting for load balancer to be active..."
aws elbv2 wait load-balancer-available --load-balancer-arns "$LB_ARN"
check_command "Load balancer did not become available"

# Create listener
echo "Creating listener..."
LISTENER_RESULT=$(aws elbv2 create-listener \
  --load-balancer-arn "$LB_ARN" \
  --protocol HTTP \
  --port 80 \
  --default-actions "Type=forward,TargetGroupArn=$TARGET_GROUP_ARN")
check_command "Failed to create listener"
LISTENER_ARN=$(echo "$LISTENER_RESULT" | jq -r '.Listeners[0].ListenerArn')
echo "Listener created with ARN: $LISTENER_ARN"

# Create Auto Scaling group
echo "Creating Auto Scaling group..."
ASG_NAME="AppAutoScalingGroup-$RANDOM_ID"
aws autoscaling create-auto-scaling-group \
  --auto-scaling-group-name "$ASG_NAME" \
  --launch-template "LaunchTemplateName=$LAUNCH_TEMPLATE_NAME,Version=\$Latest" \
  --min-size 2 \
  --max-size 4 \
  --desired-capacity 2 \
  --vpc-zone-identifier "$PRIVATE_SUBNET1_ID,$PRIVATE_SUBNET2_ID" \
  --target-group-arns "$TARGET_GROUP_ARN" \
  --health-check-type ELB \
  --health-check-grace-period 300 \
  --tags "Key=Name,Value=AppServer-$RANDOM_ID,PropagateAtLaunch=true"
check_command "Failed to create Auto Scaling group"
echo "Auto Scaling group created with name: $ASG_NAME"

# Get load balancer DNS name
LB_DNS_NAME=$(aws elbv2 describe-load-balancers --load-balancer-arns "$LB_ARN" --query 'LoadBalancers[0].DNSName' --output text)
check_command "Failed to get load balancer DNS name"

echo ""
echo "==========================================="
echo "DEPLOYMENT COMPLETE"
echo "==========================================="
echo "VPC ID: $VPC_ID"
echo "Public Subnet 1: $PUBLIC_SUBNET1_ID (AZ: $AZ1)"
echo "Private Subnet 1: $PRIVATE_SUBNET1_ID (AZ: $AZ1)"
echo "Public Subnet 2: $PUBLIC_SUBNET2_ID (AZ: $AZ2)"
echo "Private Subnet 2: $PRIVATE_SUBNET2_ID (AZ: $AZ2)"
echo "NAT Gateway 1: $NAT_GW1_ID"
echo "NAT Gateway 2: $NAT_GW2_ID"
echo "Load Balancer: $LB_NAME"
echo "Auto Scaling Group: $ASG_NAME"
echo ""
echo "Your application will be available at: http://$LB_DNS_NAME"
echo "It may take a few minutes for the instances to launch and pass health checks."
echo ""

# Add health check monitoring
echo "==========================================="
echo "MONITORING INSTANCE HEALTH AND LOAD BALANCER"
echo "==========================================="
echo "Waiting for instances to launch and pass health checks..."
echo "This may take 3-5 minutes. Checking every 30 seconds..."

# Monitor instance health and load balancer accessibility
MAX_ATTEMPTS=10
ATTEMPT=1
HEALTHY_INSTANCES=0

while [ $ATTEMPT -le $MAX_ATTEMPTS ] && [ $HEALTHY_INSTANCES -lt 2 ]; do
  echo "Check attempt $ATTEMPT of $MAX_ATTEMPTS..."
  
  # Check Auto Scaling group instances
  echo "Checking Auto Scaling group instances..."
  ASG_INSTANCES=$(aws autoscaling describe-auto-scaling-groups --auto-scaling-group-names "$ASG_NAME" --query 'AutoScalingGroups[0].Instances[*].[InstanceId,HealthStatus]' --output json)
  echo "ASG Instances status:"
  echo "$ASG_INSTANCES" | jq -r '.[] | "Instance: \(.[0]), Health: \(.[1])"'
  
  # Check target group health
  echo "Checking target group health..."
  TARGET_HEALTH=$(aws elbv2 describe-target-health --target-group-arn "$TARGET_GROUP_ARN" --output json)
  echo "Target health status:"
  echo "$TARGET_HEALTH" | jq -r '.TargetHealthDescriptions[] | "Instance: \(.Target.Id), State: \(.TargetHealth.State), Reason: \(.TargetHealth.Reason // "N/A"), Description: \(.TargetHealth.Description // "N/A")"'
  
  # Count healthy instances
  HEALTHY_INSTANCES=$(echo "$TARGET_HEALTH" | jq -r '[.TargetHealthDescriptions[] | select(.TargetHealth.State=="healthy")] | length')
  echo "Number of healthy instances: $HEALTHY_INSTANCES of 2 expected"
  
  # Check if we have healthy instances
  if [ $HEALTHY_INSTANCES -ge 2 ]; then
    echo "All instances are healthy!"
    
    # Test load balancer accessibility
    echo "Testing load balancer accessibility..."
    HTTP_STATUS=$(curl -s -o /dev/null -w "%{http_code}" "http://$LB_DNS_NAME")
    
    if [ "$HTTP_STATUS" = "200" ]; then
      echo "Load balancer is accessible! HTTP Status: $HTTP_STATUS"
      echo "You can access your application at: http://$LB_DNS_NAME"
      
      # Try to get the content to verify IMDSv2 is working
      echo "Fetching content to verify IMDSv2 functionality..."
      CONTENT=$(curl -s "http://$LB_DNS_NAME")
      echo "Response from server:"
      echo "$CONTENT"
      
      # Check if the content contains the expected pattern
      if [[ "$CONTENT" == *"Hello from"* && "$CONTENT" == *"in"* ]]; then
        echo "IMDSv2 is working correctly! The instance was able to access metadata using the token-based approach."
      else
        echo "Warning: Content doesn't match expected pattern. IMDSv2 functionality could not be verified."
      fi
      
      break
    else
      echo "Load balancer returned HTTP status: $HTTP_STATUS"
      echo "Will try again in 30 seconds..."
    fi
  else
    echo "Waiting for instances to become healthy..."
    echo "Will check again in 30 seconds..."
  fi
  
  ATTEMPT=$((ATTEMPT+1))
  
  if [ $ATTEMPT -le $MAX_ATTEMPTS ]; then
    sleep 30
  fi
done

if [ $HEALTHY_INSTANCES -lt 2 ]; then
  echo "Warning: Not all instances are healthy after maximum attempts."
  echo "You may need to wait longer or check for configuration issues."
fi

echo "To test your application, run:"
echo "curl http://$LB_DNS_NAME"
echo ""
echo "==========================================="
echo "CLEANUP CONFIRMATION"
echo "==========================================="
echo "Do you want to clean up all created resources? (y/n): "
read -r CLEANUP_CHOICE

if [[ "$CLEANUP_CHOICE" =~ ^[Yy]$ ]]; then
  cleanup_resources
  echo "All resources have been deleted."
else
  echo "Resources will not be deleted. You can manually delete them later."
  echo "To delete resources, run this script again and choose to clean up."
fi
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [AllocateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AllocateAddress)
  + [AssociateRouteTable](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AssociateRouteTable)
  + [AttachInternetGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AttachInternetGateway)
  + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AuthorizeSecurityGroupIngress)
  + [CreateInternetGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateInternetGateway)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateNatGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateNatGateway)
  + [CreateRoute](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateRoute)
  + [CreateRouteTable](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateRouteTable)
  + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSecurityGroup)
  + [CreateSubnet](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSubnet)
  + [CreateVpc](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateVpc)
  + [CreateVpcEndpoint](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateVpcEndpoint)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteAutoScalingGroup)
  + [DeleteInternetGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteInternetGateway)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteLoadBalancer)
  + [DeleteNatGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteNatGateway)
  + [DeleteRouteTable](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteRouteTable)
  + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteSecurityGroup)
  + [DeleteSubnet](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteSubnet)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteTargetGroup)
  + [DeleteVpc](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteVpc)
  + [DeleteVpcEndpoints](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteVpcEndpoints)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeImages](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeImages)
  + [DescribePrefixLists](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribePrefixLists)
  + [DetachInternetGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DetachInternetGateway)
  + [ReleaseAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ReleaseAddress)

### Memulai dengan Amazon VPC
<a name="vpc_GettingStartedCLI_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan akun Anda
+ Buat dan konfigurasikan VPC
+ Konfigurasikan jaringan Anda
+ Konfigurasikan keamanan
+ Terapkan sumber daya
+ Uji dan verifikasi
+ Pembersihan sumber daya
+ Pertimbangkan implikasi produksi
+ Pertimbangkan implikasi keamanan

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/002-vpc-gs). 

```
#!/bin/bash

# VPC Creation Script
# This script creates a VPC with public and private subnets, internet gateway, NAT gateway, and security groups

# Set up logging
LOG_FILE="vpc_creation.log"
exec > >(tee -a "$LOG_FILE") 2>&1

# Function to handle errors
handle_error() {
  echo "ERROR: $1"
  echo "Resources created before error:"
  for resource in "${CREATED_RESOURCES[@]}"
  do
    echo "- $resource"
  done
  
  echo "Attempting to clean up resources..."
  cleanup_resources
  exit 1
}

# Function to clean up resources
cleanup_resources() {
  echo "Cleaning up resources in reverse order..."
  
  # Reverse the array to delete in reverse order of creation
  for ((i=${#CREATED_RESOURCES[@]}-1; i>=0; i--))
  do
    resource="${CREATED_RESOURCES[$i]}"
    resource_type=$(echo "$resource" | cut -d':' -f1)
    resource_id=$(echo "$resource" | cut -d':' -f2)
    
    case "$resource_type" in
      "INSTANCE")
        echo "Terminating EC2 instance: $resource_id"
        aws ec2 terminate-instances --instance-ids "$resource_id" || echo "Failed to terminate instance: $resource_id"
        # Wait for instance to terminate
        echo "Waiting for instance to terminate..."
        aws ec2 wait instance-terminated --instance-ids "$resource_id" || echo "Failed to wait for instance termination: $resource_id"
        ;;
      "KEY_PAIR")
        echo "Deleting key pair: $resource_id"
        aws ec2 delete-key-pair --key-name "$resource_id" || echo "Failed to delete key pair: $resource_id"
        # Remove the .pem file if it exists
        if [ -f "${resource_id}.pem" ]; then
          rm -f "${resource_id}.pem"
        fi
        ;;
      "NAT_GATEWAY")
        echo "Deleting NAT Gateway: $resource_id"
        aws ec2 delete-nat-gateway --nat-gateway-id "$resource_id" || echo "Failed to delete NAT Gateway: $resource_id"
        # NAT Gateway deletion takes time, wait for it to complete
        echo "Waiting for NAT Gateway to be deleted..."
        aws ec2 wait nat-gateway-deleted --nat-gateway-ids "$resource_id" || echo "Failed to wait for NAT Gateway deletion: $resource_id"
        ;;
      "EIP")
        echo "Releasing Elastic IP: $resource_id"
        aws ec2 release-address --allocation-id "$resource_id" || echo "Failed to release Elastic IP: $resource_id"
        ;;
      "ROUTE_TABLE_ASSOCIATION")
        echo "Disassociating Route Table: $resource_id"
        aws ec2 disassociate-route-table --association-id "$resource_id" || echo "Failed to disassociate Route Table: $resource_id"
        ;;
      "ROUTE_TABLE")
        echo "Deleting Route Table: $resource_id"
        aws ec2 delete-route-table --route-table-id "$resource_id" || echo "Failed to delete Route Table: $resource_id"
        ;;
      "INTERNET_GATEWAY")
        echo "Detaching Internet Gateway: $resource_id from VPC: $VPC_ID"
        aws ec2 detach-internet-gateway --internet-gateway-id "$resource_id" --vpc-id "$VPC_ID" || echo "Failed to detach Internet Gateway: $resource_id"
        echo "Deleting Internet Gateway: $resource_id"
        aws ec2 delete-internet-gateway --internet-gateway-id "$resource_id" || echo "Failed to delete Internet Gateway: $resource_id"
        ;;
      "SECURITY_GROUP")
        echo "Deleting Security Group: $resource_id"
        aws ec2 delete-security-group --group-id "$resource_id" || echo "Failed to delete Security Group: $resource_id"
        ;;
      "SUBNET")
        echo "Deleting Subnet: $resource_id"
        aws ec2 delete-subnet --subnet-id "$resource_id" || echo "Failed to delete Subnet: $resource_id"
        ;;
      "VPC")
        echo "Deleting VPC: $resource_id"
        aws ec2 delete-vpc --vpc-id "$resource_id" || echo "Failed to delete VPC: $resource_id"
        ;;
    esac
  done
}

# Initialize array to track created resources
CREATED_RESOURCES=()

echo "Starting VPC creation script at $(date)"

# Verify AWS CLI configuration
echo "Verifying AWS CLI configuration..."
aws configure list || handle_error "AWS CLI is not properly configured"

# Verify identity and permissions
echo "Verifying identity and permissions..."
if ! aws sts get-caller-identity; then
  echo "ERROR: Unable to verify AWS identity. This could be due to:"
  echo "  - Expired credentials"
  echo "  - Missing or invalid AWS credentials"
  echo "  - Insufficient permissions"
  echo ""
  echo "Please run 'aws configure' to update your credentials or check your IAM permissions."
  exit 1
fi

# Create VPC
echo "Creating VPC with CIDR block 10.0.0.0/16..."
VPC_ID=$(aws ec2 create-vpc --cidr-block 10.0.0.0/16 --tag-specifications 'ResourceType=vpc,Tags=[{Key=Name,Value=MyVPC}]' --query 'Vpc.VpcId' --output text)

if [ -z "$VPC_ID" ]; then
  handle_error "Failed to create VPC"
fi

CREATED_RESOURCES+=("VPC:$VPC_ID")
echo "VPC created with ID: $VPC_ID"

# Enable DNS support and hostnames
echo "Enabling DNS support and hostnames for VPC..."
aws ec2 modify-vpc-attribute --vpc-id "$VPC_ID" --enable-dns-support || handle_error "Failed to enable DNS support"
aws ec2 modify-vpc-attribute --vpc-id "$VPC_ID" --enable-dns-hostnames || handle_error "Failed to enable DNS hostnames"

# Get available Availability Zones
echo "Getting available Availability Zones..."
AZ1=$(aws ec2 describe-availability-zones --query 'AvailabilityZones[0].ZoneName' --output text)
AZ2=$(aws ec2 describe-availability-zones --query 'AvailabilityZones[1].ZoneName' --output text)

if [ -z "$AZ1" ] || [ -z "$AZ2" ]; then
  handle_error "Failed to get Availability Zones"
fi

echo "Using Availability Zones: $AZ1 and $AZ2"

# Create public subnets
echo "Creating public subnet in $AZ1..."
PUBLIC_SUBNET_AZ1=$(aws ec2 create-subnet \
  --vpc-id "$VPC_ID" \
  --cidr-block 10.0.0.0/24 \
  --availability-zone "$AZ1" \
  --tag-specifications 'ResourceType=subnet,Tags=[{Key=Name,Value=Public-Subnet-AZ1}]' \
  --query 'Subnet.SubnetId' \
  --output text)

if [ -z "$PUBLIC_SUBNET_AZ1" ]; then
  handle_error "Failed to create public subnet in AZ1"
fi

CREATED_RESOURCES+=("SUBNET:$PUBLIC_SUBNET_AZ1")
echo "Public subnet created in $AZ1 with ID: $PUBLIC_SUBNET_AZ1"

echo "Creating public subnet in $AZ2..."
PUBLIC_SUBNET_AZ2=$(aws ec2 create-subnet \
  --vpc-id "$VPC_ID" \
  --cidr-block 10.0.1.0/24 \
  --availability-zone "$AZ2" \
  --tag-specifications 'ResourceType=subnet,Tags=[{Key=Name,Value=Public-Subnet-AZ2}]' \
  --query 'Subnet.SubnetId' \
  --output text)

if [ -z "$PUBLIC_SUBNET_AZ2" ]; then
  handle_error "Failed to create public subnet in AZ2"
fi

CREATED_RESOURCES+=("SUBNET:$PUBLIC_SUBNET_AZ2")
echo "Public subnet created in $AZ2 with ID: $PUBLIC_SUBNET_AZ2"

# Create private subnets
echo "Creating private subnet in $AZ1..."
PRIVATE_SUBNET_AZ1=$(aws ec2 create-subnet \
  --vpc-id "$VPC_ID" \
  --cidr-block 10.0.2.0/24 \
  --availability-zone "$AZ1" \
  --tag-specifications 'ResourceType=subnet,Tags=[{Key=Name,Value=Private-Subnet-AZ1}]' \
  --query 'Subnet.SubnetId' \
  --output text)

if [ -z "$PRIVATE_SUBNET_AZ1" ]; then
  handle_error "Failed to create private subnet in AZ1"
fi

CREATED_RESOURCES+=("SUBNET:$PRIVATE_SUBNET_AZ1")
echo "Private subnet created in $AZ1 with ID: $PRIVATE_SUBNET_AZ1"

echo "Creating private subnet in $AZ2..."
PRIVATE_SUBNET_AZ2=$(aws ec2 create-subnet \
  --vpc-id "$VPC_ID" \
  --cidr-block 10.0.3.0/24 \
  --availability-zone "$AZ2" \
  --tag-specifications 'ResourceType=subnet,Tags=[{Key=Name,Value=Private-Subnet-AZ2}]' \
  --query 'Subnet.SubnetId' \
  --output text)

if [ -z "$PRIVATE_SUBNET_AZ2" ]; then
  handle_error "Failed to create private subnet in AZ2"
fi

CREATED_RESOURCES+=("SUBNET:$PRIVATE_SUBNET_AZ2")
echo "Private subnet created in $AZ2 with ID: $PRIVATE_SUBNET_AZ2"

# Create Internet Gateway
echo "Creating Internet Gateway..."
IGW_ID=$(aws ec2 create-internet-gateway \
  --tag-specifications 'ResourceType=internet-gateway,Tags=[{Key=Name,Value=MyIGW}]' \
  --query 'InternetGateway.InternetGatewayId' \
  --output text)

if [ -z "$IGW_ID" ]; then
  handle_error "Failed to create Internet Gateway"
fi

CREATED_RESOURCES+=("INTERNET_GATEWAY:$IGW_ID")
echo "Internet Gateway created with ID: $IGW_ID"

# Attach Internet Gateway to VPC
echo "Attaching Internet Gateway to VPC..."
aws ec2 attach-internet-gateway --internet-gateway-id "$IGW_ID" --vpc-id "$VPC_ID" || handle_error "Failed to attach Internet Gateway to VPC"

# Create public route table
echo "Creating public route table..."
PUBLIC_RT=$(aws ec2 create-route-table \
  --vpc-id "$VPC_ID" \
  --tag-specifications 'ResourceType=route-table,Tags=[{Key=Name,Value=Public-RT}]' \
  --query 'RouteTable.RouteTableId' \
  --output text)

if [ -z "$PUBLIC_RT" ]; then
  handle_error "Failed to create public route table"
fi

CREATED_RESOURCES+=("ROUTE_TABLE:$PUBLIC_RT")
echo "Public route table created with ID: $PUBLIC_RT"

# Add route to Internet Gateway
echo "Adding route to Internet Gateway in public route table..."
aws ec2 create-route --route-table-id "$PUBLIC_RT" --destination-cidr-block 0.0.0.0/0 --gateway-id "$IGW_ID" || handle_error "Failed to add route to Internet Gateway"

# Associate public subnets with public route table
echo "Associating public subnet in $AZ1 with public route table..."
PUBLIC_RT_ASSOC_1=$(aws ec2 associate-route-table --route-table-id "$PUBLIC_RT" --subnet-id "$PUBLIC_SUBNET_AZ1" --query 'AssociationId' --output text)

if [ -z "$PUBLIC_RT_ASSOC_1" ]; then
  handle_error "Failed to associate public subnet in AZ1 with public route table"
fi

CREATED_RESOURCES+=("ROUTE_TABLE_ASSOCIATION:$PUBLIC_RT_ASSOC_1")

echo "Associating public subnet in $AZ2 with public route table..."
PUBLIC_RT_ASSOC_2=$(aws ec2 associate-route-table --route-table-id "$PUBLIC_RT" --subnet-id "$PUBLIC_SUBNET_AZ2" --query 'AssociationId' --output text)

if [ -z "$PUBLIC_RT_ASSOC_2" ]; then
  handle_error "Failed to associate public subnet in AZ2 with public route table"
fi

CREATED_RESOURCES+=("ROUTE_TABLE_ASSOCIATION:$PUBLIC_RT_ASSOC_2")

# Create private route table
echo "Creating private route table..."
PRIVATE_RT=$(aws ec2 create-route-table \
  --vpc-id "$VPC_ID" \
  --tag-specifications 'ResourceType=route-table,Tags=[{Key=Name,Value=Private-RT}]' \
  --query 'RouteTable.RouteTableId' \
  --output text)

if [ -z "$PRIVATE_RT" ]; then
  handle_error "Failed to create private route table"
fi

CREATED_RESOURCES+=("ROUTE_TABLE:$PRIVATE_RT")
echo "Private route table created with ID: $PRIVATE_RT"

# Associate private subnets with private route table
echo "Associating private subnet in $AZ1 with private route table..."
PRIVATE_RT_ASSOC_1=$(aws ec2 associate-route-table --route-table-id "$PRIVATE_RT" --subnet-id "$PRIVATE_SUBNET_AZ1" --query 'AssociationId' --output text)

if [ -z "$PRIVATE_RT_ASSOC_1" ]; then
  handle_error "Failed to associate private subnet in AZ1 with private route table"
fi

CREATED_RESOURCES+=("ROUTE_TABLE_ASSOCIATION:$PRIVATE_RT_ASSOC_1")

echo "Associating private subnet in $AZ2 with private route table..."
PRIVATE_RT_ASSOC_2=$(aws ec2 associate-route-table --route-table-id "$PRIVATE_RT" --subnet-id "$PRIVATE_SUBNET_AZ2" --query 'AssociationId' --output text)

if [ -z "$PRIVATE_RT_ASSOC_2" ]; then
  handle_error "Failed to associate private subnet in AZ2 with private route table"
fi

CREATED_RESOURCES+=("ROUTE_TABLE_ASSOCIATION:$PRIVATE_RT_ASSOC_2")

# Allocate Elastic IP for NAT Gateway
echo "Allocating Elastic IP for NAT Gateway..."
EIP_ALLOC=$(aws ec2 allocate-address --domain vpc --query 'AllocationId' --output text)

if [ -z "$EIP_ALLOC" ]; then
  handle_error "Failed to allocate Elastic IP"
fi

CREATED_RESOURCES+=("EIP:$EIP_ALLOC")
echo "Elastic IP allocated with ID: $EIP_ALLOC"

# Create NAT Gateway
echo "Creating NAT Gateway in public subnet in $AZ1..."
NAT_GW=$(aws ec2 create-nat-gateway \
  --subnet-id "$PUBLIC_SUBNET_AZ1" \
  --allocation-id "$EIP_ALLOC" \
  --tag-specifications 'ResourceType=natgateway,Tags=[{Key=Name,Value=MyNATGateway}]' \
  --query 'NatGateway.NatGatewayId' \
  --output text)

if [ -z "$NAT_GW" ]; then
  handle_error "Failed to create NAT Gateway"
fi

CREATED_RESOURCES+=("NAT_GATEWAY:$NAT_GW")
echo "NAT Gateway created with ID: $NAT_GW"

# Wait for NAT Gateway to be available
echo "Waiting for NAT Gateway to be available..."
aws ec2 wait nat-gateway-available --nat-gateway-ids "$NAT_GW" || handle_error "NAT Gateway did not become available"

# Add route to NAT Gateway in private route table
echo "Adding route to NAT Gateway in private route table..."
aws ec2 create-route --route-table-id "$PRIVATE_RT" --destination-cidr-block 0.0.0.0/0 --nat-gateway-id "$NAT_GW" || handle_error "Failed to add route to NAT Gateway"

# Enable auto-assign public IP for instances in public subnets
echo "Enabling auto-assign public IP for instances in public subnet in $AZ1..."
aws ec2 modify-subnet-attribute --subnet-id "$PUBLIC_SUBNET_AZ1" --map-public-ip-on-launch || handle_error "Failed to enable auto-assign public IP for public subnet in AZ1"

echo "Enabling auto-assign public IP for instances in public subnet in $AZ2..."
aws ec2 modify-subnet-attribute --subnet-id "$PUBLIC_SUBNET_AZ2" --map-public-ip-on-launch || handle_error "Failed to enable auto-assign public IP for public subnet in AZ2"

# Create security group for web servers
echo "Creating security group for web servers..."
WEB_SG=$(aws ec2 create-security-group \
  --group-name "WebServerSG-$(date +%s)" \
  --description "Security group for web servers" \
  --vpc-id "$VPC_ID" \
  --query 'GroupId' \
  --output text)

if [ -z "$WEB_SG" ]; then
  handle_error "Failed to create security group for web servers"
fi

CREATED_RESOURCES+=("SECURITY_GROUP:$WEB_SG")
echo "Security group for web servers created with ID: $WEB_SG"

# Allow HTTP and HTTPS traffic
echo "Allowing HTTP traffic to web servers security group..."
aws ec2 authorize-security-group-ingress --group-id "$WEB_SG" --protocol tcp --port 80 --cidr 0.0.0.0/0 || handle_error "Failed to allow HTTP traffic"

echo "Allowing HTTPS traffic to web servers security group..."
aws ec2 authorize-security-group-ingress --group-id "$WEB_SG" --protocol tcp --port 443 --cidr 0.0.0.0/0 || handle_error "Failed to allow HTTPS traffic"

# Note: In a production environment, you should restrict the source IP ranges for security
echo "NOTE: In a production environment, you should restrict the source IP ranges for HTTP and HTTPS traffic"

# Create security group for database servers
echo "Creating security group for database servers..."
DB_SG=$(aws ec2 create-security-group \
  --group-name "DBServerSG-$(date +%s)" \
  --description "Security group for database servers" \
  --vpc-id "$VPC_ID" \
  --query 'GroupId' \
  --output text)

if [ -z "$DB_SG" ]; then
  handle_error "Failed to create security group for database servers"
fi

CREATED_RESOURCES+=("SECURITY_GROUP:$DB_SG")
echo "Security group for database servers created with ID: $DB_SG"

# Allow MySQL/Aurora traffic from web servers only
echo "Allowing MySQL/Aurora traffic from web servers to database servers..."
aws ec2 authorize-security-group-ingress --group-id "$DB_SG" --protocol tcp --port 3306 --source-group "$WEB_SG" || handle_error "Failed to allow MySQL/Aurora traffic"

# Verify VPC configuration
echo "Verifying VPC configuration..."
echo "VPC:"
aws ec2 describe-vpcs --vpc-id "$VPC_ID" || handle_error "Failed to describe VPC"

echo "Subnets:"
aws ec2 describe-subnets --filters "Name=vpc-id,Values=$VPC_ID" || handle_error "Failed to describe subnets"

echo "Route tables:"
aws ec2 describe-route-tables --filters "Name=vpc-id,Values=$VPC_ID" || handle_error "Failed to describe route tables"

echo "Internet gateway:"
aws ec2 describe-internet-gateways --filters "Name=attachment.vpc-id,Values=$VPC_ID" || handle_error "Failed to describe Internet Gateway"

echo "NAT gateway:"
aws ec2 describe-nat-gateways --filter "Name=vpc-id,Values=$VPC_ID" || handle_error "Failed to describe NAT Gateway"

echo "Security groups:"
aws ec2 describe-security-groups --filters "Name=vpc-id,Values=$VPC_ID" || handle_error "Failed to describe security groups"

echo ""
# Summary of created resources
echo "VPC creation completed successfully!"
echo "Summary of created resources:"
echo "- VPC: $VPC_ID"
echo "- Public Subnet in $AZ1: $PUBLIC_SUBNET_AZ1"
echo "- Public Subnet in $AZ2: $PUBLIC_SUBNET_AZ2"
echo "- Private Subnet in $AZ1: $PRIVATE_SUBNET_AZ1"
echo "- Private Subnet in $AZ2: $PRIVATE_SUBNET_AZ2"
echo "- Internet Gateway: $IGW_ID"
echo "- Public Route Table: $PUBLIC_RT"
echo "- Private Route Table: $PRIVATE_RT"
echo "- Elastic IP: $EIP_ALLOC"
echo "- NAT Gateway: $NAT_GW"
echo "- Web Servers Security Group: $WEB_SG"
echo "- Database Servers Security Group: $DB_SG"

# Deploy EC2 instances
echo ""
echo "Deploying EC2 instances..."

# Create key pair for SSH access
KEY_NAME="vpc-tutorial-key-$(date +%s)"
echo "Creating key pair $KEY_NAME..."
aws ec2 create-key-pair --key-name "$KEY_NAME" --query 'KeyMaterial' --output text > "${KEY_NAME}.pem" || handle_error "Failed to create key pair"
chmod 400 "${KEY_NAME}.pem"
echo "Key pair saved to ${KEY_NAME}.pem"
CREATED_RESOURCES+=("KEY_PAIR:$KEY_NAME")

# Get latest Amazon Linux 2 AMI
echo "Getting latest Amazon Linux 2 AMI..."
AMI_ID=$(aws ec2 describe-images --owners amazon \
  --filters "Name=name,Values=amzn2-ami-hvm-*-x86_64-gp2" "Name=state,Values=available" \
  --query "sort_by(Images, &CreationDate)[-1].ImageId" --output text) || handle_error "Failed to get AMI"
echo "Using AMI: $AMI_ID"

# Launch web server in public subnet
echo "Launching web server in public subnet..."
WEB_INSTANCE=$(aws ec2 run-instances \
  --image-id "$AMI_ID" \
  --count 1 \
  --instance-type t2.micro \
  --key-name "$KEY_NAME" \
  --security-group-ids "$WEB_SG" \
  --subnet-id "$PUBLIC_SUBNET_AZ1" \
  --associate-public-ip-address \
  --user-data '#!/bin/bash
    yum update -y
    yum install -y httpd
    systemctl start httpd
    systemctl enable httpd
    echo "<h1>Hello from $(hostname -f) in the public subnet</h1>" > /var/www/html/index.html' \
  --tag-specifications 'ResourceType=instance,Tags=[{Key=Name,Value=WebServer}]' \
  --query 'Instances[0].InstanceId' \
  --output text) || handle_error "Failed to launch web server"
echo "Web server instance created with ID: $WEB_INSTANCE"
CREATED_RESOURCES+=("INSTANCE:$WEB_INSTANCE")

# Wait for web server to be running
echo "Waiting for web server to be running..."
aws ec2 wait instance-running --instance-ids "$WEB_INSTANCE"

# Get web server public IP
WEB_PUBLIC_IP=$(aws ec2 describe-instances --instance-ids "$WEB_INSTANCE" \
  --query 'Reservations[0].Instances[0].PublicIpAddress' --output text)
echo "Web server public IP: $WEB_PUBLIC_IP"
echo "You can access the web server at: http://$WEB_PUBLIC_IP"

# Launch database server in private subnet
echo "Launching database server in private subnet..."
DB_INSTANCE=$(aws ec2 run-instances \
  --image-id "$AMI_ID" \
  --count 1 \
  --instance-type t2.micro \
  --key-name "$KEY_NAME" \
  --security-group-ids "$DB_SG" \
  --subnet-id "$PRIVATE_SUBNET_AZ1" \
  --user-data '#!/bin/bash
    yum update -y
    yum install -y mariadb-server
    systemctl start mariadb
    systemctl enable mariadb' \
  --tag-specifications 'ResourceType=instance,Tags=[{Key=Name,Value=DBServer}]' \
  --query 'Instances[0].InstanceId' \
  --output text) || handle_error "Failed to launch database server"
echo "Database server instance created with ID: $DB_INSTANCE"
CREATED_RESOURCES+=("INSTANCE:$DB_INSTANCE")

# Wait for database server to be running
echo "Waiting for database server to be running..."
aws ec2 wait instance-running --instance-ids "$DB_INSTANCE"

# Get database server private IP
DB_PRIVATE_IP=$(aws ec2 describe-instances --instance-ids "$DB_INSTANCE" \
  --query 'Reservations[0].Instances[0].PrivateIpAddress' --output text)
echo "Database server private IP: $DB_PRIVATE_IP"

echo "EC2 instances deployed successfully!"
echo "- Web Server (Public): $WEB_INSTANCE ($WEB_PUBLIC_IP)"
echo "- Database Server (Private): $DB_INSTANCE ($DB_PRIVATE_IP)"
echo ""
echo "Note: To connect to the web server: ssh -i ${KEY_NAME}.pem ec2-user@$WEB_PUBLIC_IP"
echo "To connect to the database server, you must first connect to the web server, then use it as a bastion host."
echo "==========================================="
echo "CLEANUP CONFIRMATION"
echo "==========================================="
echo "Do you want to clean up all created resources? (y/n): "
read -r CLEANUP_CHOICE
if [[ "$CLEANUP_CHOICE" =~ ^[Yy]$ ]]; then
  echo "Cleaning up resources..."
  cleanup_resources
  echo "All resources have been cleaned up."
else
  echo "Resources will not be cleaned up. You can manually clean them up later."
fi

echo "Script completed at $(date)"
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [AllocateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AllocateAddress)
  + [AssociateRouteTable](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AssociateRouteTable)
  + [AttachInternetGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AttachInternetGateway)
  + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AuthorizeSecurityGroupIngress)
  + [CreateInternetGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateInternetGateway)
  + [CreateKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateKeyPair)
  + [CreateNatGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateNatGateway)
  + [CreateRoute](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateRoute)
  + [CreateRouteTable](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateRouteTable)
  + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSecurityGroup)
  + [CreateSubnet](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSubnet)
  + [CreateVpc](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateVpc)
  + [DeleteInternetGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteInternetGateway)
  + [DeleteKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteKeyPair)
  + [DeleteNatGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteNatGateway)
  + [DeleteRouteTable](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteRouteTable)
  + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteSecurityGroup)
  + [DeleteSubnet](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteSubnet)
  + [DeleteVpc](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteVpc)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeImages](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeImages)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstances)
  + [DescribeInternetGateways](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInternetGateways)
  + [DescribeNatGateways](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeNatGateways)
  + [DescribeRouteTables](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeRouteTables)
  + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeSecurityGroups)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeSubnets)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeVpcs)
  + [DetachInternetGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DetachInternetGateway)
  + [DisassociateRouteTable](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DisassociateRouteTable)
  + [ModifySubnetAttribute](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ModifySubnetAttribute)
  + [ModifyVpcAttribute](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ModifyVpcAttribute)
  + [ReleaseAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ReleaseAddress)
  + [RunInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/RunInstances)
  + [TerminateInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/TerminateInstances)

### Memulai Transit Gateway
<a name="vpc_TransitGatewayGettingStarted_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat gateway transit dengan dukungan DNS dan pengaturan tabel rute default
+ Tunggu gerbang transit tersedia
+ Lampirkan dua VPCs ke gateway transit menggunakan subnet
+ Tunggu lampiran VPC tersedia
+ Tambahkan rute antara VPCs melalui gateway transit
+ Uji konektivitas antara sumber daya VPC
+ Bersihkan sumber daya termasuk rute, lampiran, dan gateway transit

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/012-transitgateway-gettingstarted). 

```
#!/bin/bash

# Amazon VPC Transit Gateway CLI Script
# This script demonstrates how to create a transit gateway and connect two VPCs
# Modified to work with older AWS CLI versions that don't support transit gateway wait commands

# Error handling
set -e
LOG_FILE="transit-gateway-tutorial.log"
exec > >(tee -a "$LOG_FILE") 2>&1

# Function to wait for transit gateway to be available
wait_for_tgw() {
  local tgw_id=$1
  echo "Waiting for Transit Gateway $tgw_id to become available..."
  
  while true; do
    status=$(aws ec2 describe-transit-gateways --transit-gateway-ids "$tgw_id" --query "TransitGateways[0].State" --output text)
    echo "Current status: $status"
    
    if [ "$status" = "available" ]; then
      echo "Transit Gateway is now available"
      break
    fi
    
    echo "Waiting for transit gateway to become available. Current state: $status"
    sleep 10
  done
}

# Function to wait for transit gateway attachment to be available
wait_for_tgw_attachment() {
  local attachment_id=$1
  echo "Waiting for Transit Gateway Attachment $attachment_id to become available..."
  
  while true; do
    status=$(aws ec2 describe-transit-gateway-vpc-attachments --transit-gateway-attachment-ids "$attachment_id" --query "TransitGatewayVpcAttachments[0].State" --output text)
    echo "Current status: $status"
    
    if [ "$status" = "available" ]; then
      echo "Transit Gateway Attachment is now available"
      break
    fi
    
    echo "Waiting for transit gateway attachment to become available. Current state: $status"
    sleep 10
  done
}

# Function to wait for transit gateway attachment to be deleted
wait_for_tgw_attachment_deleted() {
  local attachment_id=$1
  echo "Waiting for Transit Gateway Attachment $attachment_id to be deleted..."
  
  while true; do
    # Check if the attachment still exists
    count=$(aws ec2 describe-transit-gateway-vpc-attachments --filters "Name=transit-gateway-attachment-id,Values=$attachment_id" --query "length(TransitGatewayVpcAttachments)" --output text)
    
    if [ "$count" = "0" ]; then
      echo "Transit Gateway Attachment has been deleted"
      break
    fi
    
    status=$(aws ec2 describe-transit-gateway-vpc-attachments --transit-gateway-attachment-ids "$attachment_id" --query "TransitGatewayVpcAttachments[0].State" --output text 2>/dev/null || echo "deleted")
    
    if [ "$status" = "deleted" ]; then
      echo "Transit Gateway Attachment has been deleted"
      break
    fi
    
    echo "Waiting for transit gateway attachment to be deleted. Current state: $status"
    sleep 10
  done
}

# Function to clean up resources
cleanup() {
  echo "Error occurred. Cleaning up resources..."
  
  # Delete resources in reverse order
  if [ ! -z "$TGW_ATTACHMENT_1_ID" ]; then
    echo "Deleting Transit Gateway VPC Attachment 1: $TGW_ATTACHMENT_1_ID"
    aws ec2 delete-transit-gateway-vpc-attachment --transit-gateway-attachment-id "$TGW_ATTACHMENT_1_ID" || true
    wait_for_tgw_attachment_deleted "$TGW_ATTACHMENT_1_ID" || true
  fi
  
  if [ ! -z "$TGW_ATTACHMENT_2_ID" ]; then
    echo "Deleting Transit Gateway VPC Attachment 2: $TGW_ATTACHMENT_2_ID"
    aws ec2 delete-transit-gateway-vpc-attachment --transit-gateway-attachment-id "$TGW_ATTACHMENT_2_ID" || true
    wait_for_tgw_attachment_deleted "$TGW_ATTACHMENT_2_ID" || true
  fi
  
  if [ ! -z "$TGW_ID" ]; then
    echo "Deleting Transit Gateway: $TGW_ID"
    aws ec2 delete-transit-gateway --transit-gateway-id "$TGW_ID" || true
  fi
  
  exit 1
}

# Set up trap for error handling
trap cleanup ERR

echo "=== Amazon VPC Transit Gateway Tutorial ==="
echo "This script will create a transit gateway and connect two VPCs"
echo ""

# Get a valid availability zone dynamically
echo "Getting available AZ in current region..."
AZ=$(aws ec2 describe-availability-zones --query "AvailabilityZones[0].ZoneName" --output text)
echo "Using availability zone: $AZ"

# Check if VPCs exist
echo "Checking for existing VPCs..."
VPC1_ID=$(aws ec2 describe-vpcs --filters "Name=tag:Name,Values=VPC1" --query "Vpcs[0].VpcId" --output text)
VPC2_ID=$(aws ec2 describe-vpcs --filters "Name=tag:Name,Values=VPC2" --query "Vpcs[0].VpcId" --output text)

if [ "$VPC1_ID" == "None" ] || [ -z "$VPC1_ID" ]; then
  echo "Creating VPC1..."
  VPC1_ID=$(aws ec2 create-vpc --cidr-block 10.1.0.0/16 --tag-specifications 'ResourceType=vpc,Tags=[{Key=Name,Value=VPC1}]' --query Vpc.VpcId --output text)
  echo "Created VPC1: $VPC1_ID"
  
  # Create a subnet in VPC1
  echo "Creating subnet in VPC1..."
  SUBNET1_ID=$(aws ec2 create-subnet --vpc-id "$VPC1_ID" --cidr-block 10.1.0.0/24 --availability-zone "$AZ" --tag-specifications 'ResourceType=subnet,Tags=[{Key=Name,Value=VPC1-Subnet}]' --query Subnet.SubnetId --output text)
  echo "Created subnet in VPC1: $SUBNET1_ID"
else
  echo "Using existing VPC1: $VPC1_ID"
  SUBNET1_ID=$(aws ec2 describe-subnets --filters "Name=vpc-id,Values=$VPC1_ID" --query "Subnets[0].SubnetId" --output text)
  if [ "$SUBNET1_ID" == "None" ] || [ -z "$SUBNET1_ID" ]; then
    echo "Creating subnet in VPC1..."
    SUBNET1_ID=$(aws ec2 create-subnet --vpc-id "$VPC1_ID" --cidr-block 10.1.0.0/24 --availability-zone "$AZ" --tag-specifications 'ResourceType=subnet,Tags=[{Key=Name,Value=VPC1-Subnet}]' --query Subnet.SubnetId --output text)
    echo "Created subnet in VPC1: $SUBNET1_ID"
  else
    echo "Using existing subnet in VPC1: $SUBNET1_ID"
  fi
fi

if [ "$VPC2_ID" == "None" ] || [ -z "$VPC2_ID" ]; then
  echo "Creating VPC2..."
  VPC2_ID=$(aws ec2 create-vpc --cidr-block 10.2.0.0/16 --tag-specifications 'ResourceType=vpc,Tags=[{Key=Name,Value=VPC2}]' --query Vpc.VpcId --output text)
  echo "Created VPC2: $VPC2_ID"
  
  # Create a subnet in VPC2
  echo "Creating subnet in VPC2..."
  SUBNET2_ID=$(aws ec2 create-subnet --vpc-id "$VPC2_ID" --cidr-block 10.2.0.0/24 --availability-zone "$AZ" --tag-specifications 'ResourceType=subnet,Tags=[{Key=Name,Value=VPC2-Subnet}]' --query Subnet.SubnetId --output text)
  echo "Created subnet in VPC2: $SUBNET2_ID"
else
  echo "Using existing VPC2: $VPC2_ID"
  SUBNET2_ID=$(aws ec2 describe-subnets --filters "Name=vpc-id,Values=$VPC2_ID" --query "Subnets[0].SubnetId" --output text)
  if [ "$SUBNET2_ID" == "None" ] || [ -z "$SUBNET2_ID" ]; then
    echo "Creating subnet in VPC2..."
    SUBNET2_ID=$(aws ec2 create-subnet --vpc-id "$VPC2_ID" --cidr-block 10.2.0.0/24 --availability-zone "$AZ" --tag-specifications 'ResourceType=subnet,Tags=[{Key=Name,Value=VPC2-Subnet}]' --query Subnet.SubnetId --output text)
    echo "Created subnet in VPC2: $SUBNET2_ID"
  else
    echo "Using existing subnet in VPC2: $SUBNET2_ID"
  fi
fi

# Get route tables for each VPC
RTB1_ID=$(aws ec2 describe-route-tables --filters "Name=vpc-id,Values=$VPC1_ID" --query "RouteTables[0].RouteTableId" --output text)
RTB2_ID=$(aws ec2 describe-route-tables --filters "Name=vpc-id,Values=$VPC2_ID" --query "RouteTables[0].RouteTableId" --output text)

echo "Route table for VPC1: $RTB1_ID"
echo "Route table for VPC2: $RTB2_ID"

# Step 1: Create the transit gateway
echo "Creating Transit Gateway..."
TGW_ID=$(aws ec2 create-transit-gateway \
  --description "My Transit Gateway" \
  --options AmazonSideAsn=64512,AutoAcceptSharedAttachments=disable,DefaultRouteTableAssociation=enable,DefaultRouteTablePropagation=enable,VpnEcmpSupport=enable,DnsSupport=enable,MulticastSupport=disable \
  --tag-specifications 'ResourceType=transit-gateway,Tags=[{Key=Name,Value=MyTransitGateway}]' \
  --query TransitGateway.TransitGatewayId \
  --output text)

echo "Created Transit Gateway: $TGW_ID"

# Wait for the transit gateway to become available
wait_for_tgw "$TGW_ID"

# Step 2: Attach VPCs to the transit gateway
echo "Attaching VPC1 to Transit Gateway..."
TGW_ATTACHMENT_1_ID=$(aws ec2 create-transit-gateway-vpc-attachment \
  --transit-gateway-id "$TGW_ID" \
  --vpc-id "$VPC1_ID" \
  --subnet-ids "$SUBNET1_ID" \
  --tag-specifications 'ResourceType=transit-gateway-attachment,Tags=[{Key=Name,Value=VPC1-Attachment}]' \
  --query TransitGatewayVpcAttachment.TransitGatewayAttachmentId \
  --output text)

echo "Created Transit Gateway VPC Attachment for VPC1: $TGW_ATTACHMENT_1_ID"

echo "Attaching VPC2 to Transit Gateway..."
TGW_ATTACHMENT_2_ID=$(aws ec2 create-transit-gateway-vpc-attachment \
  --transit-gateway-id "$TGW_ID" \
  --vpc-id "$VPC2_ID" \
  --subnet-ids "$SUBNET2_ID" \
  --tag-specifications 'ResourceType=transit-gateway-attachment,Tags=[{Key=Name,Value=VPC2-Attachment}]' \
  --query TransitGatewayVpcAttachment.TransitGatewayAttachmentId \
  --output text)

echo "Created Transit Gateway VPC Attachment for VPC2: $TGW_ATTACHMENT_2_ID"

# Wait for the attachments to become available
wait_for_tgw_attachment "$TGW_ATTACHMENT_1_ID"
wait_for_tgw_attachment "$TGW_ATTACHMENT_2_ID"

# Step 3: Add routes between the transit gateway and VPCs
echo "Adding route from VPC1 to VPC2 via Transit Gateway..."
aws ec2 create-route \
  --route-table-id "$RTB1_ID" \
  --destination-cidr-block 10.2.0.0/16 \
  --transit-gateway-id "$TGW_ID"

echo "Adding route from VPC2 to VPC1 via Transit Gateway..."
aws ec2 create-route \
  --route-table-id "$RTB2_ID" \
  --destination-cidr-block 10.1.0.0/16 \
  --transit-gateway-id "$TGW_ID"

echo "Routes added successfully"

# Step 4: Display information for testing
echo ""
echo "=== Transit Gateway Setup Complete ==="
echo "Transit Gateway ID: $TGW_ID"
echo "VPC1 ID: $VPC1_ID"
echo "VPC2 ID: $VPC2_ID"
echo ""
echo "To test connectivity:"
echo "1. Launch an EC2 instance in each VPC"
echo "2. Configure security groups to allow ICMP traffic"
echo "3. Connect to one instance and ping the other instance's private IP"
echo ""

# Prompt user before cleanup
read -p "Press Enter to view created resources, or Ctrl+C to exit without cleanup..."

echo ""
echo "=== Resources Created ==="
echo "Transit Gateway: $TGW_ID"
echo "VPC1: $VPC1_ID"
echo "VPC2: $VPC2_ID"
echo "Subnet in VPC1: $SUBNET1_ID"
echo "Subnet in VPC2: $SUBNET2_ID"
echo "Transit Gateway Attachment for VPC1: $TGW_ATTACHMENT_1_ID"
echo "Transit Gateway Attachment for VPC2: $TGW_ATTACHMENT_2_ID"
echo ""

read -p "Do you want to clean up these resources? (y/n): " CLEANUP_CONFIRM
if [[ $CLEANUP_CONFIRM == "y" || $CLEANUP_CONFIRM == "Y" ]]; then
  echo "Starting cleanup..."
  
  # Delete routes
  echo "Deleting routes..."
  aws ec2 delete-route --route-table-id "$RTB1_ID" --destination-cidr-block 10.2.0.0/16
  aws ec2 delete-route --route-table-id "$RTB2_ID" --destination-cidr-block 10.1.0.0/16
  
  # Delete transit gateway attachments
  echo "Deleting Transit Gateway VPC Attachment for VPC1: $TGW_ATTACHMENT_1_ID"
  aws ec2 delete-transit-gateway-vpc-attachment --transit-gateway-attachment-id "$TGW_ATTACHMENT_1_ID"
  
  echo "Deleting Transit Gateway VPC Attachment for VPC2: $TGW_ATTACHMENT_2_ID"
  aws ec2 delete-transit-gateway-vpc-attachment --transit-gateway-attachment-id "$TGW_ATTACHMENT_2_ID"
  
  # Wait for attachments to be deleted
  wait_for_tgw_attachment_deleted "$TGW_ATTACHMENT_1_ID"
  wait_for_tgw_attachment_deleted "$TGW_ATTACHMENT_2_ID"
  
  # Delete transit gateway
  echo "Deleting Transit Gateway: $TGW_ID"
  aws ec2 delete-transit-gateway --transit-gateway-id "$TGW_ID"
  
  echo "Cleanup completed successfully"
else
  echo "Skipping cleanup. Resources will continue to incur charges until manually deleted."
fi

echo "Tutorial completed. See $LOG_FILE for detailed logs."
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateRoute](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateRoute)
  + [CreateSubnet](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSubnet)
  + [CreateTransitGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateTransitGateway)
  + [CreateTransitGatewayVpcAttachment](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateTransitGatewayVpcAttachment)
  + [CreateVpc](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateVpc)
  + [DeleteRoute](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteRoute)
  + [DeleteTransitGateway](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteTransitGateway)
  + [DeleteTransitGatewayVpcAttachment](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteTransitGatewayVpcAttachment)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeRouteTables](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeRouteTables)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTransitGatewayAttachments](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeTransitGatewayAttachments)
  + [DescribeTransitGatewayVpcAttachments](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeTransitGatewayVpcAttachments)
  + [DescribeTransitGateways](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeTransitGateways)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeVpcs)

### Memulai dengan VPC IPAM
<a name="vpc_GettingStartedIpam_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan dan konfigurasikan Amazon VPC IP Address Manager (IPAM) menggunakan CLI.
+ Buat IPAM dengan wilayah operasi (misalnya, us-east-1, us-west-2).
+ Ambil ID cakupan pribadi untuk IPAM.
+ Buat struktur hierarkis IPv4 kolam (kolam tingkat atas, regional, dan pengembangan).
+ Menyediakan blok CIDR untuk setiap kumpulan (misalnya, 10.0.0.0/8, 10.0.0.0/16, 10.0.0.0/24).
+ Buat VPC menggunakan CIDR yang dialokasikan dari kolam IPAM.
+ Verifikasi alokasi kolam IPAM dan pembuatan VPC.
+ Memecahkan masalah umum seperti kesalahan izin, kegagalan alokasi CIDR, dan pelanggaran ketergantungan.
+ Bersihkan sumber daya IPAM (VPC, pool CIDRs, dan IPAM) untuk menghindari biaya yang tidak perlu.
+ Jelajahi langkah selanjutnya untuk fitur IPAM tingkat lanjut.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/009-vpc-ipam-gs). 

```
#!/bin/bash

# IPAM Getting Started CLI Script - Version 7
# This script creates an IPAM, creates a hierarchy of IP address pools, and allocates a CIDR to a VPC
# Fixed to correctly identify the private scope ID, wait for resources to be available, add locale to development pool,
# use the correct parameter names for VPC creation, and wait for CIDR provisioning to complete

# Set up logging
LOG_FILE="ipam_script.log"
exec > >(tee -a "$LOG_FILE") 2>&1

echo "Starting IPAM setup script at $(date)"
echo "All commands and outputs will be logged to $LOG_FILE"

# Function to handle errors
handle_error() {
    echo "ERROR: $1"
    echo "Attempting to clean up resources..."
    cleanup_resources
    exit 1
}

# Function to clean up resources
cleanup_resources() {
    echo ""
    echo "==========================================="
    echo "RESOURCES CREATED:"
    echo "==========================================="
    
    if [ -n "$VPC_ID" ]; then
        echo "VPC: $VPC_ID"
    fi
    
    if [ -n "$DEV_POOL_ID" ]; then
        echo "Development Pool: $DEV_POOL_ID"
    fi
    
    if [ -n "$REGIONAL_POOL_ID" ]; then
        echo "Regional Pool: $REGIONAL_POOL_ID"
    fi
    
    if [ -n "$TOP_POOL_ID" ]; then
        echo "Top-level Pool: $TOP_POOL_ID"
    fi
    
    if [ -n "$IPAM_ID" ]; then
        echo "IPAM: $IPAM_ID"
    fi
    
    echo ""
    echo "==========================================="
    echo "CLEANUP CONFIRMATION"
    echo "==========================================="
    echo "Do you want to clean up all created resources? (y/n): "
    read -r CLEANUP_CHOICE
    
    if [[ "$CLEANUP_CHOICE" =~ ^[Yy]$ ]]; then
        echo "Starting cleanup..."
        
        # Delete resources in reverse order of creation to handle dependencies
        
        if [ -n "$VPC_ID" ]; then
            echo "Deleting VPC: $VPC_ID"
            aws ec2 delete-vpc --vpc-id "$VPC_ID" || echo "Failed to delete VPC"
            echo "Waiting for VPC to be deleted..."
            sleep 10
        fi
        
        if [ -n "$DEV_POOL_ID" ]; then
            echo "Deleting Development Pool: $DEV_POOL_ID"
            # First deprovision any CIDRs from the pool
            CIDRS=$(aws ec2 get-ipam-pool-cidrs --ipam-pool-id "$DEV_POOL_ID" --query 'IpamPoolCidrs[].Cidr' --output text)
            for CIDR in $CIDRS; do
                echo "Deprovisioning CIDR $CIDR from Development Pool"
                aws ec2 deprovision-ipam-pool-cidr --ipam-pool-id "$DEV_POOL_ID" --cidr "$CIDR" || echo "Failed to deprovision CIDR $CIDR"
                sleep 5
            done
            aws ec2 delete-ipam-pool --ipam-pool-id "$DEV_POOL_ID" || echo "Failed to delete Development Pool"
            echo "Waiting for Development Pool to be deleted..."
            sleep 10
        fi
        
        if [ -n "$REGIONAL_POOL_ID" ]; then
            echo "Deleting Regional Pool: $REGIONAL_POOL_ID"
            # First deprovision any CIDRs from the pool
            CIDRS=$(aws ec2 get-ipam-pool-cidrs --ipam-pool-id "$REGIONAL_POOL_ID" --query 'IpamPoolCidrs[].Cidr' --output text)
            for CIDR in $CIDRS; do
                echo "Deprovisioning CIDR $CIDR from Regional Pool"
                aws ec2 deprovision-ipam-pool-cidr --ipam-pool-id "$REGIONAL_POOL_ID" --cidr "$CIDR" || echo "Failed to deprovision CIDR $CIDR"
                sleep 5
            done
            aws ec2 delete-ipam-pool --ipam-pool-id "$REGIONAL_POOL_ID" || echo "Failed to delete Regional Pool"
            echo "Waiting for Regional Pool to be deleted..."
            sleep 10
        fi
        
        if [ -n "$TOP_POOL_ID" ]; then
            echo "Deleting Top-level Pool: $TOP_POOL_ID"
            # First deprovision any CIDRs from the pool
            CIDRS=$(aws ec2 get-ipam-pool-cidrs --ipam-pool-id "$TOP_POOL_ID" --query 'IpamPoolCidrs[].Cidr' --output text)
            for CIDR in $CIDRS; do
                echo "Deprovisioning CIDR $CIDR from Top-level Pool"
                aws ec2 deprovision-ipam-pool-cidr --ipam-pool-id "$TOP_POOL_ID" --cidr "$CIDR" || echo "Failed to deprovision CIDR $CIDR"
                sleep 5
            done
            aws ec2 delete-ipam-pool --ipam-pool-id "$TOP_POOL_ID" || echo "Failed to delete Top-level Pool"
            echo "Waiting for Top-level Pool to be deleted..."
            sleep 10
        fi
        
        if [ -n "$IPAM_ID" ]; then
            echo "Deleting IPAM: $IPAM_ID"
            aws ec2 delete-ipam --ipam-id "$IPAM_ID" || echo "Failed to delete IPAM"
        fi
        
        echo "Cleanup completed."
    else
        echo "Cleanup skipped. Resources will remain in your account."
    fi
}

# Function to wait for a pool to be in the 'create-complete' state
wait_for_pool() {
    local pool_id=$1
    local max_attempts=30
    local attempt=1
    local state=""
    
    echo "Waiting for pool $pool_id to be available..."
    
    while [ $attempt -le $max_attempts ]; do
        state=$(aws ec2 describe-ipam-pools --ipam-pool-ids "$pool_id" --query 'IpamPools[0].State' --output text)
        
        if [ "$state" = "create-complete" ]; then
            echo "Pool $pool_id is now available (state: $state)"
            return 0
        fi
        
        echo "Attempt $attempt/$max_attempts: Pool $pool_id is in state: $state. Waiting..."
        sleep 10
        ((attempt++))
    done
    
    echo "Timed out waiting for pool $pool_id to be available"
    return 1
}

# Function to wait for a CIDR to be fully provisioned
wait_for_cidr_provisioning() {
    local pool_id=$1
    local cidr=$2
    local max_attempts=30
    local attempt=1
    local state=""
    
    echo "Waiting for CIDR $cidr to be fully provisioned in pool $pool_id..."
    
    while [ $attempt -le $max_attempts ]; do
        state=$(aws ec2 get-ipam-pool-cidrs --ipam-pool-id "$pool_id" --query "IpamPoolCidrs[?Cidr=='$cidr'].State" --output text)
        
        if [ "$state" = "provisioned" ]; then
            echo "CIDR $cidr is now fully provisioned (state: $state)"
            return 0
        fi
        
        echo "Attempt $attempt/$max_attempts: CIDR $cidr is in state: $state. Waiting..."
        sleep 10
        ((attempt++))
    done
    
    echo "Timed out waiting for CIDR $cidr to be provisioned"
    return 1
}

# Step 1: Create an IPAM
echo "Creating IPAM..."
IPAM_RESULT=$(aws ec2 create-ipam \
    --description "My IPAM" \
    --operating-regions RegionName=us-east-1 RegionName=us-west-2)

if [ $? -ne 0 ]; then
    handle_error "Failed to create IPAM"
fi

IPAM_ID=$(echo "$IPAM_RESULT" | grep -o '"IpamId": "[^"]*' | cut -d'"' -f4)
echo "IPAM created with ID: $IPAM_ID"

# Wait for IPAM to be created and available
echo "Waiting for IPAM to be available..."
sleep 20

# Step 2: Get the IPAM Scope ID - FIXED to correctly identify the private scope
echo "Getting IPAM Scope ID..."
SCOPE_RESULT=$(aws ec2 describe-ipams --ipam-id "$IPAM_ID")

if [ $? -ne 0 ]; then
    handle_error "Failed to get IPAM details"
fi

# Extract the private scope ID directly from the IPAM details
PRIVATE_SCOPE_ID=$(echo "$SCOPE_RESULT" | grep -o '"PrivateDefaultScopeId": "[^"]*' | cut -d'"' -f4)
echo "Private Scope ID: $PRIVATE_SCOPE_ID"

if [ -z "$PRIVATE_SCOPE_ID" ]; then
    handle_error "Failed to get Private Scope ID"
fi

# Step 3: Create a Top-Level IPv4 Pool
echo "Creating Top-level IPv4 Pool..."
TOP_POOL_RESULT=$(aws ec2 create-ipam-pool \
    --ipam-scope-id "$PRIVATE_SCOPE_ID" \
    --address-family ipv4 \
    --description "Top-level pool")

if [ $? -ne 0 ]; then
    handle_error "Failed to create Top-level Pool"
fi

TOP_POOL_ID=$(echo "$TOP_POOL_RESULT" | grep -o '"IpamPoolId": "[^"]*' | cut -d'"' -f4)
echo "Top-level Pool created with ID: $TOP_POOL_ID"

# Wait for the top-level pool to be available
if ! wait_for_pool "$TOP_POOL_ID"; then
    handle_error "Top-level Pool did not become available in time"
fi

# Provision CIDR to the top-level pool
echo "Provisioning CIDR to Top-level Pool..."
TOP_POOL_CIDR="10.0.0.0/8"
PROVISION_RESULT=$(aws ec2 provision-ipam-pool-cidr \
    --ipam-pool-id "$TOP_POOL_ID" \
    --cidr "$TOP_POOL_CIDR")

if [ $? -ne 0 ]; then
    handle_error "Failed to provision CIDR to Top-level Pool"
fi

echo "$PROVISION_RESULT"

# Wait for the CIDR to be fully provisioned
if ! wait_for_cidr_provisioning "$TOP_POOL_ID" "$TOP_POOL_CIDR"; then
    handle_error "CIDR provisioning to Top-level Pool did not complete in time"
fi

# Step 4: Create a Regional IPv4 Pool
echo "Creating Regional IPv4 Pool..."
REGIONAL_POOL_RESULT=$(aws ec2 create-ipam-pool \
    --ipam-scope-id "$PRIVATE_SCOPE_ID" \
    --source-ipam-pool-id "$TOP_POOL_ID" \
    --locale us-east-1 \
    --address-family ipv4 \
    --description "Regional pool in us-east-1")

if [ $? -ne 0 ]; then
    handle_error "Failed to create Regional Pool"
fi

REGIONAL_POOL_ID=$(echo "$REGIONAL_POOL_RESULT" | grep -o '"IpamPoolId": "[^"]*' | cut -d'"' -f4)
echo "Regional Pool created with ID: $REGIONAL_POOL_ID"

# Wait for the regional pool to be available
if ! wait_for_pool "$REGIONAL_POOL_ID"; then
    handle_error "Regional Pool did not become available in time"
fi

# Provision CIDR to the regional pool
echo "Provisioning CIDR to Regional Pool..."
REGIONAL_POOL_CIDR="10.0.0.0/16"
PROVISION_RESULT=$(aws ec2 provision-ipam-pool-cidr \
    --ipam-pool-id "$REGIONAL_POOL_ID" \
    --cidr "$REGIONAL_POOL_CIDR")

if [ $? -ne 0 ]; then
    handle_error "Failed to provision CIDR to Regional Pool"
fi

echo "$PROVISION_RESULT"

# Wait for the CIDR to be fully provisioned
if ! wait_for_cidr_provisioning "$REGIONAL_POOL_ID" "$REGIONAL_POOL_CIDR"; then
    handle_error "CIDR provisioning to Regional Pool did not complete in time"
fi

# Step 5: Create a Development IPv4 Pool - FIXED to include locale
echo "Creating Development IPv4 Pool..."
DEV_POOL_RESULT=$(aws ec2 create-ipam-pool \
    --ipam-scope-id "$PRIVATE_SCOPE_ID" \
    --source-ipam-pool-id "$REGIONAL_POOL_ID" \
    --locale us-east-1 \
    --address-family ipv4 \
    --description "Development pool")

if [ $? -ne 0 ]; then
    handle_error "Failed to create Development Pool"
fi

DEV_POOL_ID=$(echo "$DEV_POOL_RESULT" | grep -o '"IpamPoolId": "[^"]*' | cut -d'"' -f4)
echo "Development Pool created with ID: $DEV_POOL_ID"

# Wait for the development pool to be available
if ! wait_for_pool "$DEV_POOL_ID"; then
    handle_error "Development Pool did not become available in time"
fi

# Provision CIDR to the development pool
echo "Provisioning CIDR to Development Pool..."
DEV_POOL_CIDR="10.0.0.0/24"
PROVISION_RESULT=$(aws ec2 provision-ipam-pool-cidr \
    --ipam-pool-id "$DEV_POOL_ID" \
    --cidr "$DEV_POOL_CIDR")

if [ $? -ne 0 ]; then
    handle_error "Failed to provision CIDR to Development Pool"
fi

echo "$PROVISION_RESULT"

# Wait for the CIDR to be fully provisioned
if ! wait_for_cidr_provisioning "$DEV_POOL_ID" "$DEV_POOL_CIDR"; then
    handle_error "CIDR provisioning to Development Pool did not complete in time"
fi

# Step 6: Create a VPC Using an IPAM Pool CIDR - FIXED to use the correct parameter names and a smaller netmask length
echo "Creating VPC using IPAM Pool CIDR..."
VPC_RESULT=$(aws ec2 create-vpc \
    --ipv4-ipam-pool-id "$DEV_POOL_ID" \
    --ipv4-netmask-length 26 \
    --tag-specifications 'ResourceType=vpc,Tags=[{Key=Name,Value=IPAM-VPC}]')

if [ $? -ne 0 ]; then
    handle_error "Failed to create VPC"
fi

VPC_ID=$(echo "$VPC_RESULT" | grep -o '"VpcId": "[^"]*' | cut -d'"' -f4)
echo "VPC created with ID: $VPC_ID"

# Step 7: Verify the IPAM Pool Allocation
echo "Verifying IPAM Pool Allocation..."
ALLOCATION_RESULT=$(aws ec2 get-ipam-pool-allocations \
    --ipam-pool-id "$DEV_POOL_ID")

if [ $? -ne 0 ]; then
    handle_error "Failed to verify IPAM Pool Allocation"
fi

echo "IPAM Pool Allocation verified:"
echo "$ALLOCATION_RESULT" | grep -A 5 "Allocations"

echo ""
echo "IPAM setup completed successfully!"
echo ""

# Prompt for cleanup
cleanup_resources

echo "Script completed at $(date)"
exit 0
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateIpam](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateIpam)
  + [CreateIpamPool](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateIpamPool)
  + [CreateVpc](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateVpc)
  + [DeleteIpam](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteIpam)
  + [DeleteIpamPool](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteIpamPool)
  + [DeleteVpc](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteVpc)
  + [DeprovisionIpamPoolCidr](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeprovisionIpamPoolCidr)
  + [DescribeIpamPools](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeIpamPools)
  + [DescribeIpams](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeIpams)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeVpcs)
  + [GetIpamPoolAllocations](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/GetIpamPoolAllocations)
  + [GetIpamPoolCidrs](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/GetIpamPoolCidrs)
  + [ProvisionIpamPoolCidr](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ProvisionIpamPoolCidr)

# HealthImaging contoh menggunakan AWS CLI dengan skrip Bash
<a name="bash_2_medical-imaging_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash with HealthImaging.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateDatastore`
<a name="medical-imaging_CreateDatastore_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatastore`.

**AWS CLI dengan skrip Bash**  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function imaging_create_datastore
#
# This function creates an AWS HealthImaging data store for importing DICOM P10 files.
#
# Parameters:
#       -n data_store_name - The name of the data store.
#
# Returns:
#       The datastore ID.
#    And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function imaging_create_datastore() {
  local datastore_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function imaging_create_datastore"
    echo "Creates an AWS HealthImaging data store for importing DICOM P10 files."
    echo "  -n data_store_name - The name of the data store."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) datastore_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$datastore_name" ]]; then
    errecho "ERROR: You must provide a data store name with the -n parameter."
    usage
    return 1
  fi

  response=$(aws medical-imaging create-datastore \
    --datastore-name "$datastore_name" \
    --output text \
    --query 'datastoreId')

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports medical-imaging create-datastore operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [CreateDatastore](https://docs.aws.amazon.com/goto/aws-cli/medical-imaging-2023-07-19/CreateDatastore)di *Referensi AWS CLI Perintah*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/medical-imaging#code-examples). 

### `DeleteDatastore`
<a name="medical-imaging_DeleteDatastore_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatastore`.

**AWS CLI dengan skrip Bash**  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function imaging_delete_datastore
#
# This function deletes an AWS HealthImaging data store.
#
# Parameters:
#       -i datastore_id - The ID of the data store.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function imaging_delete_datastore() {
  local datastore_id response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function imaging_delete_datastore"
    echo "Deletes an AWS HealthImaging data store."
    echo "  -i datastore_id - The ID of the data store."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) datastore_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$datastore_id" ]]; then
    errecho "ERROR: You must provide a data store ID with the -i parameter."
    usage
    return 1
  fi

  response=$(aws medical-imaging delete-datastore \
    --datastore-id "$datastore_id")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports medical-imaging delete-datastore operation failed.$response"
    return 1
  fi

  return 0
}
```
+  Untuk detail API, lihat [DeleteDatastore](https://docs.aws.amazon.com/goto/aws-cli/medical-imaging-2023-07-19/DeleteDatastore)di *Referensi AWS CLI Perintah*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/medical-imaging#code-examples). 

### `GetDatastore`
<a name="medical-imaging_GetDatastore_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatastore`.

**AWS CLI dengan skrip Bash**  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function imaging_get_datastore
#
# Get a data store's properties.
#
# Parameters:
#       -i data_store_id - The ID of the data store.
#
# Returns:
#       [datastore_name, datastore_id, datastore_status, datastore_arn,  created_at, updated_at]
#    And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function imaging_get_datastore() {
  local datastore_id option OPTARG # Required to use getopts command in a function.
  local error_code
  # bashsupport disable=BP5008
  function usage() {
    echo "function imaging_get_datastore"
    echo "Gets a data store's properties."
    echo "  -i datastore_id - The ID of the data store."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "i:h" option; do
    case "${option}" in
      i) datastore_id="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$datastore_id" ]]; then
    errecho "ERROR: You must provide a data store ID with the -i parameter."
    usage
    return 1
  fi

  local response

  response=$(
    aws medical-imaging get-datastore \
      --datastore-id "$datastore_id" \
      --output text \
      --query "[ datastoreProperties.datastoreName,  datastoreProperties.datastoreId, datastoreProperties.datastoreStatus, datastoreProperties.datastoreArn,  datastoreProperties.createdAt, datastoreProperties.updatedAt]"
  )
  error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports list-datastores operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [GetDatastore](https://docs.aws.amazon.com/goto/aws-cli/medical-imaging-2023-07-19/GetDatastore)di *Referensi AWS CLI Perintah*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/medical-imaging#code-examples). 

### `ListDatastores`
<a name="medical-imaging_ListDatastores_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatastores`.

**AWS CLI dengan skrip Bash**  

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function imaging_list_datastores
#
# List the HealthImaging data stores in the account.
#
# Returns:
#       [[datastore_name, datastore_id, datastore_status]]
#    And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function imaging_list_datastores() {
  local option OPTARG # Required to use getopts command in a function.
  local error_code
  # bashsupport disable=BP5008
  function usage() {
    echo "function imaging_list_datastores"
    echo "Lists the AWS HealthImaging data stores in the account."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "h" option; do
    case "${option}" in
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local response
  response=$(aws medical-imaging list-datastores \
    --output text \
    --query "datastoreSummaries[*][datastoreName, datastoreId, datastoreStatus]")
  error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports list-datastores operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [ListDatastores](https://docs.aws.amazon.com/goto/aws-cli/medical-imaging-2023-07-19/ListDatastores)di *Referensi AWS CLI Perintah*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/medical-imaging#code-examples). 

# Contoh IAM menggunakan skrip AWS CLI Bash
<a name="bash_2_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash dengan IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function iam_create_user_assume_role
#
# Scenario to create an IAM user, create an IAM role, and apply the role to the user.
#
#     "IAM access" permissions are needed to run this code.
#     "STS assume role" permissions are needed to run this code. (Note: It might be necessary to
#           create a custom policy).
#
# Returns:
#       0 - If successful.
#       1 - If an error occurred.
###############################################################################
function iam_create_user_assume_role() {
  {
    if [ "$IAM_OPERATIONS_SOURCED" != "True" ]; then

      source ./iam_operations.sh
    fi
  }

  echo_repeat "*" 88
  echo "Welcome to the IAM create user and assume role demo."
  echo
  echo "This demo will create an IAM user, create an IAM role, and apply the role to the user."
  echo_repeat "*" 88
  echo

  echo -n "Enter a name for a new IAM user: "
  get_input
  user_name=$get_input_result

  local user_arn
  user_arn=$(iam_create_user -u "$user_name")

  # shellcheck disable=SC2181
  if [[ ${?} == 0 ]]; then
    echo "Created demo IAM user named $user_name"
  else
    errecho "$user_arn"
    errecho "The user failed to create. This demo will exit."
    return 1
  fi

  local access_key_response
  access_key_response=$(iam_create_user_access_key -u "$user_name")
  # shellcheck disable=SC2181
  if [[ ${?} != 0 ]]; then
    errecho "The access key failed to create. This demo will exit."
    clean_up "$user_name"
    return 1
  fi

  IFS=$'\t ' read -r -a access_key_values <<<"$access_key_response"
  local key_name=${access_key_values[0]}
  local key_secret=${access_key_values[1]}

  echo "Created access key named $key_name"

  echo "Wait 10 seconds for the user to be ready."
  sleep 10
  echo_repeat "*" 88
  echo

  local iam_role_name
  iam_role_name=$(generate_random_name "test-role")
  echo "Creating a role named $iam_role_name with user $user_name as the principal."

  local assume_role_policy_document="{
    \"Version\": \"2012-10-17\",
    \"Statement\": [{
        \"Effect\": \"Allow\",
        \"Principal\": {\"AWS\": \"$user_arn\"},
        \"Action\": \"sts:AssumeRole\"
        }]
    }"

  local role_arn
  role_arn=$(iam_create_role -n "$iam_role_name" -p "$assume_role_policy_document")

  # shellcheck disable=SC2181
  if [ ${?} == 0 ]; then
    echo "Created IAM role named $iam_role_name"
  else
    errecho "The role failed to create. This demo will exit."
    clean_up "$user_name" "$key_name"
    return 1
  fi

  local policy_name
  policy_name=$(generate_random_name "test-policy")
  local policy_document="{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Action\": \"s3:ListAllMyBuckets\",
                    \"Resource\": \"arn:aws:s3:::*\"}]}"

  local policy_arn
  policy_arn=$(iam_create_policy -n "$policy_name" -p "$policy_document")
  # shellcheck disable=SC2181
  if [[ ${?} == 0 ]]; then
    echo "Created  IAM policy named $policy_name"
  else
    errecho "The policy failed to create."
    clean_up "$user_name" "$key_name" "$iam_role_name"
    return 1
  fi

  if (iam_attach_role_policy -n "$iam_role_name" -p "$policy_arn"); then
    echo "Attached policy $policy_arn to role $iam_role_name"
  else
    errecho "The policy failed to attach."
    clean_up "$user_name" "$key_name" "$iam_role_name" "$policy_arn"
    return 1
  fi

  local assume_role_policy_document="{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Action\": \"sts:AssumeRole\",
                    \"Resource\": \"$role_arn\"}]}"

  local assume_role_policy_name
  assume_role_policy_name=$(generate_random_name "test-assume-role-")

  # shellcheck disable=SC2181
  local assume_role_policy_arn
  assume_role_policy_arn=$(iam_create_policy -n "$assume_role_policy_name" -p "$assume_role_policy_document")
  # shellcheck disable=SC2181
  if [ ${?} == 0 ]; then
    echo "Created  IAM policy named $assume_role_policy_name for sts assume role"
  else
    errecho "The policy failed to create."
    clean_up "$user_name" "$key_name" "$iam_role_name" "$policy_arn" "$policy_arn"
    return 1
  fi

  echo "Wait 10 seconds to give AWS time to propagate these new resources and connections."
  sleep 10
  echo_repeat "*" 88
  echo

  echo "Try to list buckets without the new user assuming the role."
  echo_repeat "*" 88
  echo

  # Set the environment variables for the created user.
  # bashsupport disable=BP2001
  export AWS_ACCESS_KEY_ID=$key_name
  # bashsupport disable=BP2001
  export AWS_SECRET_ACCESS_KEY=$key_secret

  local buckets
  buckets=$(s3_list_buckets)

  # shellcheck disable=SC2181
  if [ ${?} == 0 ]; then
    local bucket_count
    bucket_count=$(echo "$buckets" | wc -w | xargs)
    echo "There are $bucket_count buckets in the account. This should not have happened."
  else
    errecho "Because the role with permissions has not been assumed, listing buckets failed."
  fi

  echo
  echo_repeat "*" 88
  echo "Now assume the role $iam_role_name and list the buckets."
  echo_repeat "*" 88
  echo

  local credentials

  credentials=$(sts_assume_role -r "$role_arn" -n "AssumeRoleDemoSession")
  # shellcheck disable=SC2181
  if [ ${?} == 0 ]; then
    echo "Assumed role $iam_role_name"
  else
    errecho "Failed to assume role."
    export AWS_ACCESS_KEY_ID=""
    export AWS_SECRET_ACCESS_KEY=""
    clean_up "$user_name" "$key_name" "$iam_role_name" "$policy_arn" "$policy_arn" "$assume_role_policy_arn"
    return 1
  fi

  IFS=$'\t ' read -r -a credentials <<<"$credentials"

  export AWS_ACCESS_KEY_ID=${credentials[0]}
  export AWS_SECRET_ACCESS_KEY=${credentials[1]}
  # bashsupport disable=BP2001
  export AWS_SESSION_TOKEN=${credentials[2]}

  buckets=$(s3_list_buckets)

  # shellcheck disable=SC2181
  if [ ${?} == 0 ]; then
    local bucket_count
    bucket_count=$(echo "$buckets" | wc -w | xargs)
    echo "There are $bucket_count buckets in the account. Listing buckets succeeded because of "
    echo "the assumed role."
  else
    errecho "Failed to list buckets. This should not happen."
    export AWS_ACCESS_KEY_ID=""
    export AWS_SECRET_ACCESS_KEY=""
    export AWS_SESSION_TOKEN=""
    clean_up "$user_name" "$key_name" "$iam_role_name" "$policy_arn" "$policy_arn" "$assume_role_policy_arn"
    return 1
  fi

  local result=0
  export AWS_ACCESS_KEY_ID=""
  export AWS_SECRET_ACCESS_KEY=""

  echo
  echo_repeat "*" 88
  echo "The created resources will now be deleted."
  echo_repeat "*" 88
  echo

  clean_up "$user_name" "$key_name" "$iam_role_name" "$policy_arn" "$policy_arn" "$assume_role_policy_arn"

  # shellcheck disable=SC2181
  if [[ ${?} -ne 0 ]]; then
    result=1
  fi

  return $result
}
```
Fungsi IAM yang digunakan dalam skenario ini.  

```
###############################################################################
# function iam_user_exists
#
# This function checks to see if the specified AWS Identity and Access Management (IAM) user already exists.
#
# Parameters:
#       $1 - The name of the IAM user to check.
#
# Returns:
#       0 - If the user already exists.
#       1 - If the user doesn't exist.
###############################################################################
function iam_user_exists() {
  local user_name
  user_name=$1

  # Check whether the IAM user already exists.
  # We suppress all output - we're interested only in the return code.

  local errors
  errors=$(aws iam get-user \
    --user-name "$user_name" 2>&1 >/dev/null)

  local error_code=${?}

  if [[ $error_code -eq 0 ]]; then
    return 0 # 0 in Bash script means true.
  else
    if [[ $errors != *"error"*"(NoSuchEntity)"* ]]; then
      aws_cli_error_log $error_code
      errecho "Error calling iam get-user $errors"
    fi

    return 1 # 1 in Bash script means false.
  fi
}

###############################################################################
# function iam_create_user
#
# This function creates the specified IAM user, unless
# it already exists.
#
# Parameters:
#       -u user_name  -- The name of the user to create.
#
# Returns:
#       The ARN of the user.
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_create_user() {
  local user_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_create_user"
    echo "Creates an AWS Identity and Access Management (IAM) user. You must supply a username:"
    echo "  -u user_name    The name of the user. It must be unique within the account."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "u:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    User name:   $user_name"
  iecho ""

  # If the user already exists, we don't want to try to create it.
  if (iam_user_exists "$user_name"); then
    errecho "ERROR: A user with that name already exists in the account."
    return 1
  fi

  response=$(aws iam create-user --user-name "$user_name" \
    --output text \
    --query 'User.Arn')

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-user operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}

###############################################################################
# function iam_create_user_access_key
#
# This function creates an IAM access key for the specified user.
#
# Parameters:
#       -u user_name -- The name of the IAM user.
#       [-f file_name] -- The optional file name for the access key output.
#
# Returns:
#       [access_key_id access_key_secret]
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_create_user_access_key() {
  local user_name file_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_create_user_access_key"
    echo "Creates an AWS Identity and Access Management (IAM) key pair."
    echo "  -u user_name   The name of the IAM user."
    echo "  [-f file_name]   Optional file name for the access key output."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "u:f:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      f) file_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  response=$(aws iam create-access-key \
    --user-name "$user_name" \
    --output text)

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-access-key operation failed.$response"
    return 1
  fi

  if [[ -n "$file_name" ]]; then
    echo "$response" >"$file_name"
  fi

  local key_id key_secret
  # shellcheck disable=SC2086
  key_id=$(echo $response | cut -f 2 -d ' ')
  # shellcheck disable=SC2086
  key_secret=$(echo $response | cut -f 4 -d ' ')

  echo "$key_id $key_secret"

  return 0
}

###############################################################################
# function iam_create_role
#
# This function creates an IAM role.
#
# Parameters:
#       -n role_name -- The name of the IAM role.
#       -p policy_json -- The assume role policy document.
#
# Returns:
#       The ARN of the role.
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_create_role() {
  local role_name policy_document response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_create_user_access_key"
    echo "Creates an AWS Identity and Access Management (IAM) role."
    echo "  -n role_name   The name of the IAM role."
    echo "  -p policy_json -- The assume role policy document."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:p:h" option; do
    case "${option}" in
      n) role_name="${OPTARG}" ;;
      p) policy_document="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$role_name" ]]; then
    errecho "ERROR: You must provide a role name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$policy_document" ]]; then
    errecho "ERROR: You must provide a policy document with the -p parameter."
    usage
    return 1
  fi

  response=$(aws iam create-role \
    --role-name "$role_name" \
    --assume-role-policy-document "$policy_document" \
    --output text \
    --query Role.Arn)

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-role operation failed.\n$response"
    return 1
  fi

  echo "$response"

  return 0
}

###############################################################################
# function iam_create_policy
#
# This function creates an IAM policy.
#
# Parameters:
#       -n policy_name -- The name of the IAM policy.
#       -p policy_json -- The policy document.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_create_policy() {
  local policy_name policy_document response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_create_policy"
    echo "Creates an AWS Identity and Access Management (IAM) policy."
    echo "  -n policy_name   The name of the IAM policy."
    echo "  -p policy_json -- The policy document."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:p:h" option; do
    case "${option}" in
      n) policy_name="${OPTARG}" ;;
      p) policy_document="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$policy_name" ]]; then
    errecho "ERROR: You must provide a policy name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$policy_document" ]]; then
    errecho "ERROR: You must provide a policy document with the -p parameter."
    usage
    return 1
  fi

  response=$(aws iam create-policy \
    --policy-name "$policy_name" \
    --policy-document "$policy_document" \
    --output text \
    --query Policy.Arn)

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-policy operation failed.\n$response"
    return 1
  fi

  echo "$response"
}

###############################################################################
# function iam_attach_role_policy
#
# This function attaches an IAM policy to a tole.
#
# Parameters:
#       -n role_name -- The name of the IAM role.
#       -p policy_ARN -- The IAM policy document ARN..
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_attach_role_policy() {
  local role_name policy_arn response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_attach_role_policy"
    echo "Attaches an AWS Identity and Access Management (IAM) policy to an IAM role."
    echo "  -n role_name   The name of the IAM role."
    echo "  -p policy_ARN -- The IAM policy document ARN."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:p:h" option; do
    case "${option}" in
      n) role_name="${OPTARG}" ;;
      p) policy_arn="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$role_name" ]]; then
    errecho "ERROR: You must provide a role name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$policy_arn" ]]; then
    errecho "ERROR: You must provide a policy ARN with the -p parameter."
    usage
    return 1
  fi

  response=$(aws iam attach-role-policy \
    --role-name "$role_name" \
    --policy-arn "$policy_arn")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports attach-role-policy operation failed.\n$response"
    return 1
  fi

  echo "$response"

  return 0
}

###############################################################################
# function iam_detach_role_policy
#
# This function detaches an IAM policy to a tole.
#
# Parameters:
#       -n role_name -- The name of the IAM role.
#       -p policy_ARN -- The IAM policy document ARN..
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_detach_role_policy() {
  local role_name policy_arn response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_detach_role_policy"
    echo "Detaches an AWS Identity and Access Management (IAM) policy to an IAM role."
    echo "  -n role_name   The name of the IAM role."
    echo "  -p policy_ARN -- The IAM policy document ARN."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:p:h" option; do
    case "${option}" in
      n) role_name="${OPTARG}" ;;
      p) policy_arn="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$role_name" ]]; then
    errecho "ERROR: You must provide a role name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$policy_arn" ]]; then
    errecho "ERROR: You must provide a policy ARN with the -p parameter."
    usage
    return 1
  fi

  response=$(aws iam detach-role-policy \
    --role-name "$role_name" \
    --policy-arn "$policy_arn")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports detach-role-policy operation failed.\n$response"
    return 1
  fi

  echo "$response"

  return 0
}

###############################################################################
# function iam_delete_policy
#
# This function deletes an IAM policy.
#
# Parameters:
#       -n policy_arn -- The name of the IAM policy arn.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_delete_policy() {
  local policy_arn response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_delete_policy"
    echo "Deletes an AWS Identity and Access Management (IAM) policy"
    echo "  -n policy_arn -- The name of the IAM policy arn."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) policy_arn="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$policy_arn" ]]; then
    errecho "ERROR: You must provide a policy arn with the -n parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    Policy arn:  $policy_arn"
  iecho ""

  response=$(aws iam delete-policy \
    --policy-arn "$policy_arn")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-policy operation failed.\n$response"
    return 1
  fi

  iecho "delete-policy response:$response"
  iecho

  return 0
}

###############################################################################
# function iam_delete_role
#
# This function deletes an IAM role.
#
# Parameters:
#       -n role_name -- The name of the IAM role.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_delete_role() {
  local role_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_delete_role"
    echo "Deletes an AWS Identity and Access Management (IAM) role"
    echo "  -n role_name -- The name of the IAM role."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) role_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  echo "role_name:$role_name"
  if [[ -z "$role_name" ]]; then
    errecho "ERROR: You must provide a role name with the -n parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    Role name:  $role_name"
  iecho ""

  response=$(aws iam delete-role \
    --role-name "$role_name")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-role operation failed.\n$response"
    return 1
  fi

  iecho "delete-role response:$response"
  iecho

  return 0
}

###############################################################################
# function iam_delete_access_key
#
# This function deletes an IAM access key for the specified IAM user.
#
# Parameters:
#       -u user_name  -- The name of the user.
#       -k access_key -- The access key to delete.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_delete_access_key() {
  local user_name access_key response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_delete_access_key"
    echo "Deletes an AWS Identity and Access Management (IAM) access key for the specified IAM user"
    echo "  -u user_name    The name of the user."
    echo "  -k access_key   The access key to delete."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "u:k:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      k) access_key="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  if [[ -z "$access_key" ]]; then
    errecho "ERROR: You must provide an access key with the -k parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    Username:   $user_name"
  iecho "    Access key:   $access_key"
  iecho ""

  response=$(aws iam delete-access-key \
    --user-name "$user_name" \
    --access-key-id "$access_key")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-access-key operation failed.\n$response"
    return 1
  fi

  iecho "delete-access-key response:$response"
  iecho

  return 0
}

###############################################################################
# function iam_delete_user
#
# This function deletes the specified IAM user.
#
# Parameters:
#       -u user_name  -- The name of the user to create.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_delete_user() {
  local user_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_delete_user"
    echo "Deletes an AWS Identity and Access Management (IAM) user. You must supply a username:"
    echo "  -u user_name    The name of the user."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "u:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    User name:   $user_name"
  iecho ""

  # If the user does not exist, we don't want to try to delete it.
  if (! iam_user_exists "$user_name"); then
    errecho "ERROR: A user with that name does not exist in the account."
    return 1
  fi

  response=$(aws iam delete-user \
    --user-name "$user_name")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-user operation failed.$response"
    return 1
  fi

  iecho "delete-user response:$response"
  iecho

  return 0
}
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/AttachRolePolicy)
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreateAccessKey)
  + [CreatePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreatePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreateRole)
  + [CreateUser](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreateUser)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeleteAccessKey)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeletePolicy)
  + [DeleteRole](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeleteRole)
  + [DeleteUser](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeleteUser)
  + [DeleteUserPolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeleteUserPolicy)
  + [DetachRolePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DetachRolePolicy)
  + [PutUserPolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/PutUserPolicy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_attach_role_policy
#
# This function attaches an IAM policy to a tole.
#
# Parameters:
#       -n role_name -- The name of the IAM role.
#       -p policy_ARN -- The IAM policy document ARN..
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_attach_role_policy() {
  local role_name policy_arn response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_attach_role_policy"
    echo "Attaches an AWS Identity and Access Management (IAM) policy to an IAM role."
    echo "  -n role_name   The name of the IAM role."
    echo "  -p policy_ARN -- The IAM policy document ARN."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:p:h" option; do
    case "${option}" in
      n) role_name="${OPTARG}" ;;
      p) policy_arn="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$role_name" ]]; then
    errecho "ERROR: You must provide a role name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$policy_arn" ]]; then
    errecho "ERROR: You must provide a policy ARN with the -p parameter."
    usage
    return 1
  fi

  response=$(aws iam attach-role-policy \
    --role-name "$role_name" \
    --policy-arn "$policy_arn")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports attach-role-policy operation failed.\n$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/AttachRolePolicy)di *Referensi AWS CLI Perintah*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_create_user_access_key
#
# This function creates an IAM access key for the specified user.
#
# Parameters:
#       -u user_name -- The name of the IAM user.
#       [-f file_name] -- The optional file name for the access key output.
#
# Returns:
#       [access_key_id access_key_secret]
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_create_user_access_key() {
  local user_name file_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_create_user_access_key"
    echo "Creates an AWS Identity and Access Management (IAM) key pair."
    echo "  -u user_name   The name of the IAM user."
    echo "  [-f file_name]   Optional file name for the access key output."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "u:f:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      f) file_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  response=$(aws iam create-access-key \
    --user-name "$user_name" \
    --output text)

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-access-key operation failed.$response"
    return 1
  fi

  if [[ -n "$file_name" ]]; then
    echo "$response" >"$file_name"
  fi

  local key_id key_secret
  # shellcheck disable=SC2086
  key_id=$(echo $response | cut -f 2 -d ' ')
  # shellcheck disable=SC2086
  key_secret=$(echo $response | cut -f 4 -d ' ')

  echo "$key_id $key_secret"

  return 0
}
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreateAccessKey)di *Referensi AWS CLI Perintah*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_create_policy
#
# This function creates an IAM policy.
#
# Parameters:
#       -n policy_name -- The name of the IAM policy.
#       -p policy_json -- The policy document.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_create_policy() {
  local policy_name policy_document response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_create_policy"
    echo "Creates an AWS Identity and Access Management (IAM) policy."
    echo "  -n policy_name   The name of the IAM policy."
    echo "  -p policy_json -- The policy document."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:p:h" option; do
    case "${option}" in
      n) policy_name="${OPTARG}" ;;
      p) policy_document="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$policy_name" ]]; then
    errecho "ERROR: You must provide a policy name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$policy_document" ]]; then
    errecho "ERROR: You must provide a policy document with the -p parameter."
    usage
    return 1
  fi

  response=$(aws iam create-policy \
    --policy-name "$policy_name" \
    --policy-document "$policy_document" \
    --output text \
    --query Policy.Arn)

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-policy operation failed.\n$response"
    return 1
  fi

  echo "$response"
}
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreatePolicy)di *Referensi AWS CLI Perintah*. 

### `CreateRole`
<a name="iam_CreateRole_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_create_role
#
# This function creates an IAM role.
#
# Parameters:
#       -n role_name -- The name of the IAM role.
#       -p policy_json -- The assume role policy document.
#
# Returns:
#       The ARN of the role.
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_create_role() {
  local role_name policy_document response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_create_user_access_key"
    echo "Creates an AWS Identity and Access Management (IAM) role."
    echo "  -n role_name   The name of the IAM role."
    echo "  -p policy_json -- The assume role policy document."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:p:h" option; do
    case "${option}" in
      n) role_name="${OPTARG}" ;;
      p) policy_document="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$role_name" ]]; then
    errecho "ERROR: You must provide a role name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$policy_document" ]]; then
    errecho "ERROR: You must provide a policy document with the -p parameter."
    usage
    return 1
  fi

  response=$(aws iam create-role \
    --role-name "$role_name" \
    --assume-role-policy-document "$policy_document" \
    --output text \
    --query Role.Arn)

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-role operation failed.\n$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreateRole)di *Referensi AWS CLI Perintah*. 

### `CreateUser`
<a name="iam_CreateUser_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_create_user
#
# This function creates the specified IAM user, unless
# it already exists.
#
# Parameters:
#       -u user_name  -- The name of the user to create.
#
# Returns:
#       The ARN of the user.
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_create_user() {
  local user_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_create_user"
    echo "Creates an AWS Identity and Access Management (IAM) user. You must supply a username:"
    echo "  -u user_name    The name of the user. It must be unique within the account."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "u:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    User name:   $user_name"
  iecho ""

  # If the user already exists, we don't want to try to create it.
  if (iam_user_exists "$user_name"); then
    errecho "ERROR: A user with that name already exists in the account."
    return 1
  fi

  response=$(aws iam create-user --user-name "$user_name" \
    --output text \
    --query 'User.Arn')

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-user operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreateUser)di *Referensi AWS CLI Perintah*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_delete_access_key
#
# This function deletes an IAM access key for the specified IAM user.
#
# Parameters:
#       -u user_name  -- The name of the user.
#       -k access_key -- The access key to delete.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_delete_access_key() {
  local user_name access_key response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_delete_access_key"
    echo "Deletes an AWS Identity and Access Management (IAM) access key for the specified IAM user"
    echo "  -u user_name    The name of the user."
    echo "  -k access_key   The access key to delete."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "u:k:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      k) access_key="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  if [[ -z "$access_key" ]]; then
    errecho "ERROR: You must provide an access key with the -k parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    Username:   $user_name"
  iecho "    Access key:   $access_key"
  iecho ""

  response=$(aws iam delete-access-key \
    --user-name "$user_name" \
    --access-key-id "$access_key")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-access-key operation failed.\n$response"
    return 1
  fi

  iecho "delete-access-key response:$response"
  iecho

  return 0
}
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeleteAccessKey)di *Referensi AWS CLI Perintah*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_delete_policy
#
# This function deletes an IAM policy.
#
# Parameters:
#       -n policy_arn -- The name of the IAM policy arn.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_delete_policy() {
  local policy_arn response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_delete_policy"
    echo "Deletes an AWS Identity and Access Management (IAM) policy"
    echo "  -n policy_arn -- The name of the IAM policy arn."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) policy_arn="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$policy_arn" ]]; then
    errecho "ERROR: You must provide a policy arn with the -n parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    Policy arn:  $policy_arn"
  iecho ""

  response=$(aws iam delete-policy \
    --policy-arn "$policy_arn")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-policy operation failed.\n$response"
    return 1
  fi

  iecho "delete-policy response:$response"
  iecho

  return 0
}
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeletePolicy)di *Referensi AWS CLI Perintah*. 

### `DeleteRole`
<a name="iam_DeleteRole_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_delete_role
#
# This function deletes an IAM role.
#
# Parameters:
#       -n role_name -- The name of the IAM role.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_delete_role() {
  local role_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_delete_role"
    echo "Deletes an AWS Identity and Access Management (IAM) role"
    echo "  -n role_name -- The name of the IAM role."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:h" option; do
    case "${option}" in
      n) role_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  echo "role_name:$role_name"
  if [[ -z "$role_name" ]]; then
    errecho "ERROR: You must provide a role name with the -n parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    Role name:  $role_name"
  iecho ""

  response=$(aws iam delete-role \
    --role-name "$role_name")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-role operation failed.\n$response"
    return 1
  fi

  iecho "delete-role response:$response"
  iecho

  return 0
}
```
+  Untuk detail API, lihat [DeleteRole](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeleteRole)di *Referensi AWS CLI Perintah*. 

### `DeleteUser`
<a name="iam_DeleteUser_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_delete_user
#
# This function deletes the specified IAM user.
#
# Parameters:
#       -u user_name  -- The name of the user to create.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_delete_user() {
  local user_name response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_delete_user"
    echo "Deletes an AWS Identity and Access Management (IAM) user. You must supply a username:"
    echo "  -u user_name    The name of the user."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "u:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  iecho "Parameters:\n"
  iecho "    User name:   $user_name"
  iecho ""

  # If the user does not exist, we don't want to try to delete it.
  if (! iam_user_exists "$user_name"); then
    errecho "ERROR: A user with that name does not exist in the account."
    return 1
  fi

  response=$(aws iam delete-user \
    --user-name "$user_name")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports delete-user operation failed.$response"
    return 1
  fi

  iecho "delete-user response:$response"
  iecho

  return 0
}
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DeleteUser)di *Referensi AWS CLI Perintah*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_detach_role_policy
#
# This function detaches an IAM policy to a tole.
#
# Parameters:
#       -n role_name -- The name of the IAM role.
#       -p policy_ARN -- The IAM policy document ARN..
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_detach_role_policy() {
  local role_name policy_arn response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_detach_role_policy"
    echo "Detaches an AWS Identity and Access Management (IAM) policy to an IAM role."
    echo "  -n role_name   The name of the IAM role."
    echo "  -p policy_ARN -- The IAM policy document ARN."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "n:p:h" option; do
    case "${option}" in
      n) role_name="${OPTARG}" ;;
      p) policy_arn="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$role_name" ]]; then
    errecho "ERROR: You must provide a role name with the -n parameter."
    usage
    return 1
  fi

  if [[ -z "$policy_arn" ]]; then
    errecho "ERROR: You must provide a policy ARN with the -p parameter."
    usage
    return 1
  fi

  response=$(aws iam detach-role-policy \
    --role-name "$role_name" \
    --policy-arn "$policy_arn")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports detach-role-policy operation failed.\n$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/DetachRolePolicy)di *Referensi AWS CLI Perintah*. 

### `GetUser`
<a name="iam_GetUser_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetUser`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_user_exists
#
# This function checks to see if the specified AWS Identity and Access Management (IAM) user already exists.
#
# Parameters:
#       $1 - The name of the IAM user to check.
#
# Returns:
#       0 - If the user already exists.
#       1 - If the user doesn't exist.
###############################################################################
function iam_user_exists() {
  local user_name
  user_name=$1

  # Check whether the IAM user already exists.
  # We suppress all output - we're interested only in the return code.

  local errors
  errors=$(aws iam get-user \
    --user-name "$user_name" 2>&1 >/dev/null)

  local error_code=${?}

  if [[ $error_code -eq 0 ]]; then
    return 0 # 0 in Bash script means true.
  else
    if [[ $errors != *"error"*"(NoSuchEntity)"* ]]; then
      aws_cli_error_log $error_code
      errecho "Error calling iam get-user $errors"
    fi

    return 1 # 1 in Bash script means false.
  fi
}
```
+  Untuk detail API, lihat [GetUser](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/GetUser)di *Referensi AWS CLI Perintah*. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_list_access_keys
#
# This function lists the access keys for the specified user.
#
# Parameters:
#       -u user_name -- The name of the IAM user.
#
# Returns:
#       access_key_ids
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_list_access_keys() {

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_list_access_keys"
    echo "Lists the AWS Identity and Access Management (IAM) access key IDs for the specified user."
    echo "  -u user_name   The name of the IAM user."
    echo ""
  }

  local user_name response
  local option OPTARG # Required to use getopts command in a function.
  # Retrieve the calling parameters.
  while getopts "u:h" option; do
    case "${option}" in
      u) user_name="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  if [[ -z "$user_name" ]]; then
    errecho "ERROR: You must provide a username with the -u parameter."
    usage
    return 1
  fi

  response=$(aws iam list-access-keys \
    --user-name "$user_name" \
    --output text \
    --query 'AccessKeyMetadata[].AccessKeyId')

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports list-access-keys operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/ListAccessKeys)di *Referensi AWS CLI Perintah*. 

### `ListUsers`
<a name="iam_ListUsers_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function iam_list_users
#
# List the IAM users in the account.
#
# Returns:
#       The list of users names
#    And:
#       0 - If the user already exists.
#       1 - If the user doesn't exist.
###############################################################################
function iam_list_users() {
  local option OPTARG # Required to use getopts command in a function.
  local error_code
  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_list_users"
    echo "Lists the AWS Identity and Access Management (IAM) user in the account."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "h" option; do
    case "${option}" in
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done
  export OPTIND=1

  local response

  response=$(aws iam list-users \
    --output text \
    --query "Users[].UserName")
  error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports list-users operation failed.$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/ListUsers)di *Referensi AWS CLI Perintah*. 

### `UpdateAccessKey`
<a name="iam_UpdateAccessKey_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAccessKey`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function iam_update_access_key
#
# This function can activate or deactivate an IAM access key for the specified IAM user.
#
# Parameters:
#       -u user_name  -- The name of the user.
#       -k access_key -- The access key to update.
#       -a            -- Activate the selected access key.
#       -d            -- Deactivate the selected access key.
#
# Example:
#       # To deactivate the selected access key for IAM user Bob
#       iam_update_access_key -u Bob -k AKIAIOSFODNN7EXAMPLE -d 
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function iam_update_access_key() {
  local user_name access_key status response
  local option OPTARG # Required to use getopts command in a function.
  local activate_flag=false deactivate_flag=false

  # bashsupport disable=BP5008
  function usage() {
    echo "function iam_update_access_key"
    echo "Updates the status of an AWS Identity and Access Management (IAM) access key for the specified IAM user"
    echo "  -u user_name    The name of the user."
    echo "  -k access_key   The access key to update."
    echo "  -a              Activate the access key."
    echo "  -d              Deactivate the access key."
    echo ""
  }

  # Retrieve the calling parameters.
    while getopts "u:k:adh" option; do
      case "${option}" in
        u) user_name="${OPTARG}" ;;
        k) access_key="${OPTARG}" ;;
        a) activate_flag=true ;;
        d) deactivate_flag=true ;;
        h)
          usage
          return 0
          ;;
        \?)
          echo "Invalid parameter"
          usage
          return 1
          ;;
      esac
    done
    export OPTIND=1
  
   # Validate input parameters
    if [[ -z "$user_name" ]]; then
      errecho "ERROR: You must provide a username with the -u parameter."
      usage
      return 1
    fi
  
    if [[ -z "$access_key" ]]; then
      errecho "ERROR: You must provide an access key with the -k parameter."
      usage
      return 1
    fi

    # Ensure that only -a or -d is specified
    if [[ "$activate_flag" == true && "$deactivate_flag" == true ]]; then
      errecho "ERROR: You cannot specify both -a (activate) and -d (deactivate) at the same time."
      usage
      return 1
    fi
  
    # If neither -a nor -d is provided, return an error
    if [[ "$activate_flag" == false && "$deactivate_flag" == false ]]; then
      errecho "ERROR: You must specify either -a (activate) or -d (deactivate)."
      usage
      return 1
    fi

    # Determine the status based on the flag
    if [[ "$activate_flag" == true ]]; then
      status="Active"
    elif [[ "$deactivate_flag" == true ]]; then
      status="Inactive"
    fi
  
    iecho "Parameters:\n"
    iecho "    Username:   $user_name"
    iecho "    Access key: $access_key"
    iecho "    New status: $status"
    iecho ""
  
    # Update the access key status
    response=$(aws iam update-access-key \
      --user-name "$user_name" \
      --access-key-id "$access_key" \
      --status "$status" 2>&1)
  
    local error_code=${?}
  
    if [[ $error_code -ne 0 ]]; then
      aws_cli_error_log $error_code
      errecho "ERROR: AWS reports update-access-key operation failed.\n$response"
      return 1
    fi
  
    iecho "update-access-key response: $response"
    iecho
  
    return 0
}
```
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/UpdateAccessKey)di *Referensi AWS CLI Perintah*. 

## Skenario
<a name="scenarios"></a>

### Mengatur Kontrol Akses Berbasis Atribut
<a name="dynamodb_Scenario_ABACSetup_bash_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan Attribute-Based Access Control (ABAC) untuk DynamoDB.
+ Buat kebijakan IAM untuk ABAC.
+ Buat tabel dengan tag untuk departemen yang berbeda.
+ Daftar dan filter tabel berdasarkan tag.

**AWS CLI dengan skrip Bash**  
Buat kebijakan IAM untuk ABAC.  

```
# Step 1: Create a policy document for ABAC
cat > abac-policy.json << 'EOF'
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "dynamodb:GetItem",
        "dynamodb:BatchGetItem",
        "dynamodb:Query",
        "dynamodb:Scan"
      ],
      "Resource": "arn:aws:dynamodb:*:*:table/*",
      "Condition": {
        "StringEquals": {
          "aws:ResourceTag/Department": "${aws:PrincipalTag/Department}"
        }
      }
    },
    {
      "Effect": "Allow",
      "Action": [
        "dynamodb:PutItem",
        "dynamodb:UpdateItem",
        "dynamodb:DeleteItem",
        "dynamodb:BatchWriteItem"
      ],
      "Resource": "arn:aws:dynamodb:*:*:table/*",
      "Condition": {
        "StringEquals": {
          "aws:ResourceTag/Department": "${aws:PrincipalTag/Department}",
          "aws:ResourceTag/Environment": "Development"
        }
      }
    }
  ]
}
EOF

# Step 2: Create the IAM policy
aws iam create-policy \
    --policy-name DynamoDBDepartmentBasedAccess \
    --policy-document file://abac-policy.json
```
Buat tabel dengan tag untuk departemen yang berbeda.  

```
# Create a DynamoDB table with tags for ABAC
aws dynamodb create-table \
    --table-name FinanceData \
    --attribute-definitions \
        AttributeName=RecordID,AttributeType=S \
    --key-schema \
        AttributeName=RecordID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --tags \
        Key=Department,Value=Finance \
        Key=Environment,Value=Development

# Create another table with different tags
aws dynamodb create-table \
    --table-name MarketingData \
    --attribute-definitions \
        AttributeName=RecordID,AttributeType=S \
    --key-schema \
        AttributeName=RecordID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --tags \
        Key=Department,Value=Marketing \
        Key=Environment,Value=Production
```
Daftar dan filter tabel berdasarkan tag.  

```
# List all DynamoDB tables
echo "Listing all tables:"
aws dynamodb list-tables

# Get ARNs for all tables
echo -e "\nGetting ARNs for all tables:"
TABLE_ARNS=$(aws dynamodb list-tables --query "TableNames[*]" --output text | xargs -I {} aws dynamodb describe-table --table-name {} --query "Table.TableArn" --output text)

# For each table ARN, list its tags
echo -e "\nListing tags for each table:"
for ARN in $TABLE_ARNS; do
    TABLE_NAME=$(echo $ARN | awk -F/ '{print $2}')
    echo -e "\nTags for table: $TABLE_NAME"
    aws dynamodb list-tags-of-resource --resource-arn $ARN
done

# Example: Find tables with a specific tag
echo -e "\nFinding tables with Environment=Production tag:"
for ARN in $TABLE_ARNS; do
    TABLE_NAME=$(echo $ARN | awk -F/ '{print $2}')
    TAGS=$(aws dynamodb list-tags-of-resource --resource-arn $ARN --query "Tags[?Key=='Environment' && Value=='Production']" --output text)
    if [ ! -z "$TAGS" ]; then
        echo "Table with Production tag: $TABLE_NAME"
    fi
done
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreatePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreatePolicy)
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [ListTables](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/ListTables)

### Bekerja dengan Streams dan Time-to-Live
<a name="dynamodb_Scenario_StreamsAndTTL_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara mengelola DynamoDB Streams dan fitur. Time-to-Live
+ Buat tabel dengan Streams diaktifkan.
+ Jelaskan Aliran.
+ Buat fungsi Lambda untuk memproses Streams.
+ Aktifkan TTL di atas meja.
+ Tambahkan item dengan atribut TTL.
+ Jelaskan pengaturan TTL.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan Streams diaktifkan.  

```
# Create a table with DynamoDB Streams enabled
aws dynamodb create-table \
    --table-name StreamsDemo \
    --attribute-definitions \
        AttributeName=ID,AttributeType=S \
    --key-schema \
        AttributeName=ID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --stream-specification StreamEnabled=true,StreamViewType=NEW_AND_OLD_IMAGES
```
Jelaskan Aliran.  

```
# Get information about the stream
aws dynamodb describe-table \
    --table-name StreamsDemo \
    --query "Table.StreamSpecification"

# Get the stream ARN
STREAM_ARN=$(aws dynamodb describe-table \
    --table-name StreamsDemo \
    --query "Table.LatestStreamArn" \
    --output text)

echo "Stream ARN: $STREAM_ARN"

# Describe the stream
aws dynamodbstreams describe-stream \
    --stream-arn $STREAM_ARN
```
Buat fungsi Lambda untuk Streams.  

```
# Step 1: Create an IAM role for the Lambda function
cat > trust-policy.json << 'EOF'
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Principal": {
        "Service": "lambda.amazonaws.com"
      },
      "Action": "sts:AssumeRole"
    }
  ]
}
EOF

aws iam create-role \
    --role-name DynamoDBStreamsLambdaRole \
    --assume-role-policy-document file://trust-policy.json

# Step 2: Attach permissions to the role
aws iam attach-role-policy \
    --role-name DynamoDBStreamsLambdaRole \
    --policy-arn arn:aws:iam::aws:policy/service-role/AWSLambdaDynamoDBExecutionRole

# Step 3: Create a Lambda function (code would be in a separate file)
echo "Lambda function creation would be done separately with appropriate code"

# Step 4: Create an event source mapping
echo "Example command to create event source mapping:"
echo "aws lambda create-event-source-mapping \\"
echo "    --function-name ProcessDynamoDBRecords \\"
echo "    --event-source $STREAM_ARN \\"
echo "    --batch-size 100 \\"
echo "    --starting-position LATEST"
```
Aktifkan TTL di atas meja.  

```
# Create a table for TTL demonstration
aws dynamodb create-table \
    --table-name TTLDemo \
    --attribute-definitions \
        AttributeName=ID,AttributeType=S \
    --key-schema \
        AttributeName=ID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST

# Wait for table to become active
aws dynamodb wait table-exists --table-name TTLDemo

# Enable TTL on the table
aws dynamodb update-time-to-live \
    --table-name TTLDemo \
    --time-to-live-specification "Enabled=true, AttributeName=ExpirationTime"
```
Tambahkan item dengan atribut TTL.  

```
# Calculate expiration time (current time + 1 day in seconds)
EXPIRATION_TIME=$(date -d "+1 day" +%s)

# Add an item with TTL attribute
aws dynamodb put-item \
    --table-name TTLDemo \
    --item '{
        "ID": {"S": "item1"},
        "Data": {"S": "This item will expire in 1 day"},
        "ExpirationTime": {"N": "'$EXPIRATION_TIME'"}
    }'

# Add an item that expires in 1 hour
EXPIRATION_TIME_HOUR=$(date -d "+1 hour" +%s)
aws dynamodb put-item \
    --table-name TTLDemo \
    --item '{
        "ID": {"S": "item2"},
        "Data": {"S": "This item will expire in 1 hour"},
        "ExpirationTime": {"N": "'$EXPIRATION_TIME_HOUR'"}
    }'
```
Jelaskan pengaturan TTL.  

```
# Describe TTL settings for a table
aws dynamodb describe-time-to-live \
    --table-name TTLDemo
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/AttachRolePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/aws-cli/iam-2010-05-08/CreateRole)
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTable)
  + [DescribeTimeToLive](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTimeToLive)
  + [PutItem](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/PutItem)
  + [UpdateTimeToLive](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateTimeToLive)

# AWS KMS contoh menggunakan AWS CLI dengan skrip Bash
<a name="bash_2_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash with AWS KMS.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Bekerja dengan enkripsi tabel
<a name="dynamodb_Scenario_EncryptionExamples_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara mengelola opsi enkripsi untuk tabel DynamoDB.
+ Buat tabel dengan enkripsi default.
+ Buat tabel dengan CMK yang dikelola pelanggan.
+ Perbarui pengaturan enkripsi tabel.
+ Jelaskan enkripsi tabel.

**AWS CLI dengan skrip Bash**  
Buat tabel dengan enkripsi default.  

```
# Create a table with default encryption (AWS owned key)
aws dynamodb create-table \
    --table-name CustomerData \
    --attribute-definitions \
        AttributeName=CustomerID,AttributeType=S \
    --key-schema \
        AttributeName=CustomerID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --sse-specification Enabled=true,SSEType=KMS
```
Buat tabel dengan CMK yang dikelola pelanggan.  

```
# Step 1: Create a customer managed key in KMS
aws kms create-key \
    --description "Key for DynamoDB table encryption" \
    --key-usage ENCRYPT_DECRYPT \
    --customer-master-key-spec SYMMETRIC_DEFAULT

# Store the key ID for later use
KEY_ID=$(aws kms list-keys --query "Keys[?contains(KeyArn, 'Key for DynamoDB')].KeyId" --output text)

# Step 2: Create a table with the customer managed key
aws dynamodb create-table \
    --table-name SensitiveData \
    --attribute-definitions \
        AttributeName=RecordID,AttributeType=S \
    --key-schema \
        AttributeName=RecordID,KeyType=HASH \
    --billing-mode PAY_PER_REQUEST \
    --sse-specification Enabled=true,SSEType=KMS,KMSMasterKeyId=$KEY_ID
```
Perbarui enkripsi tabel.  

```
# Update a table to use a different KMS key
aws dynamodb update-table \
    --table-name CustomerData \
    --sse-specification Enabled=true,SSEType=KMS,KMSMasterKeyId=$KEY_ID
```
Jelaskan enkripsi tabel.  

```
# Describe the table to see encryption settings
aws dynamodb describe-table \
    --table-name CustomerData \
    --query "Table.SSEDescription"
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CreateKey](https://docs.aws.amazon.com/goto/aws-cli/kms-2014-11-01/CreateKey)
  + [CreateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/CreateTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/DescribeTable)
  + [UpdateTable](https://docs.aws.amazon.com/goto/aws-cli/dynamodb-2012-08-10/UpdateTable)

# Contoh AWS CLI Lightsail menggunakan skrip Bash
<a name="bash_2_lightsail_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash dengan Lightsail.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Memulai dengan Lightsail
<a name="lightsail_GettingStarted_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Jelajahi cetak biru dan bundel yang tersedia untuk pembuatan contoh
+ Buat instance Lightsail dengan Amazon Linux 2023
+ Pantau status instans hingga berjalan
+ Unduh default key pair untuk akses SSH
+ Buat dan lampirkan disk penyimpanan blok tambahan
+ Buat snapshot instance untuk cadangan
+ Bersihkan sumber daya untuk menghindari biaya yang sedang berlangsung

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/001-lightsail-gs). 

```
#!/bin/bash

# Amazon Lightsail Getting Started CLI Script
# This script demonstrates how to create and manage Lightsail resources using the AWS CLI

# FIXES APPLIED:
# 1. Added polling mechanism to check disk state before attaching
# 2. Added polling mechanism to check snapshot state before proceeding with cleanup
# 3. Set AWS_REGION variable to us-west-2 for consistent region usage

# Set AWS region
export AWS_REGION="us-west-2"
echo "Using AWS region: $AWS_REGION"

# Set up logging
LOG_FILE="lightsail-script.log"
exec > >(tee -a "$LOG_FILE") 2>&1

echo "Starting Lightsail Getting Started script at $(date)"

# Error handling function
handle_error() {
  echo "ERROR: $1"
  echo "Attempting to clean up resources..."
  cleanup_resources
  exit 1
}

# Function to check if a command succeeded
check_status() {
  if [ $? -ne 0 ]; then
    handle_error "$1"
  fi
}

# Generate a random identifier for resource names
RANDOM_ID=$(openssl rand -hex 4)
INSTANCE_NAME="LightsailInstance-${RANDOM_ID}"
DISK_NAME="LightsailDisk-${RANDOM_ID}"
SNAPSHOT_NAME="LightsailSnapshot-${RANDOM_ID}"

# Array to track created resources
declare -a CREATED_RESOURCES

# Function to add a resource to the tracking array
track_resource() {
  CREATED_RESOURCES+=("$1:$2")
  echo "Created $1: $2"
}

# Function to clean up resources
cleanup_resources() {
  echo "Resources created by this script:"
  for resource in "${CREATED_RESOURCES[@]}"; do
    echo "  $resource"
  done
  
  # Reverse the array to delete resources in reverse order
  for (( idx=${#CREATED_RESOURCES[@]}-1 ; idx>=0 ; idx-- )); do
    IFS=':' read -r type name <<< "${CREATED_RESOURCES[idx]}"
    
    case "$type" in
      "instance_snapshot")
        echo "Deleting instance snapshot: $name"
        aws lightsail delete-instance-snapshot --instance-snapshot-name "$name" --region $AWS_REGION
        ;;
      "disk_snapshot")
        echo "Deleting disk snapshot: $name"
        aws lightsail delete-disk-snapshot --disk-snapshot-name "$name" --region $AWS_REGION
        ;;
      "disk")
        echo "Detaching disk: $name"
        aws lightsail detach-disk --disk-name "$name" --region $AWS_REGION
        sleep 10 # Wait for detach to complete
        echo "Deleting disk: $name"
        aws lightsail delete-disk --disk-name "$name" --region $AWS_REGION
        ;;
      "instance")
        echo "Deleting instance: $name"
        # Check instance state before attempting to delete
        INSTANCE_STATE=$(aws lightsail get-instance-state --instance-name "$name" --region $AWS_REGION --query 'state.name' --output text 2>/dev/null)
        if [ "$INSTANCE_STATE" == "pending" ]; then
          echo "Instance is in pending state. Waiting for it to be ready before deleting..."
          MAX_WAIT=30
          WAITED=0
          while [ "$INSTANCE_STATE" == "pending" ] && [ $WAITED -lt $MAX_WAIT ]; do
            sleep 10
            WAITED=$((WAITED+1))
            INSTANCE_STATE=$(aws lightsail get-instance-state --instance-name "$name" --region $AWS_REGION --query 'state.name' --output text 2>/dev/null)
            echo "Instance state: $INSTANCE_STATE"
          done
        fi
        aws lightsail delete-instance --instance-name "$name" --region $AWS_REGION
        ;;
    esac
  done
  
  echo "Cleanup completed"
}

# Step 1: Verify AWS CLI configuration
echo "Step 1: Verifying AWS CLI configuration"
aws configure list
check_status "Failed to verify AWS CLI configuration"

# Step 2: Get available blueprints and bundles
echo "Step 2: Getting available blueprints and bundles"
echo "Available blueprints (showing first 5):"
aws lightsail get-blueprints --region $AWS_REGION --query 'blueprints[0:5].[blueprintId,name]' --output table
check_status "Failed to get blueprints"

echo "Available bundles (showing first 5):"
aws lightsail get-bundles --region $AWS_REGION --query 'bundles[0:5].[bundleId,name,price]' --output table
check_status "Failed to get bundles"

# Get available regions and availability zones
echo "Getting available regions and availability zones"
# Use a specific availability zone in us-west-2 region
AVAILABILITY_ZONE="us-west-2a"
echo "Using availability zone: $AVAILABILITY_ZONE"

# Step 3: Create a Lightsail instance
echo "Step 3: Creating Lightsail instance: $INSTANCE_NAME"
aws lightsail create-instances \
  --instance-names "$INSTANCE_NAME" \
  --availability-zone "$AVAILABILITY_ZONE" \
  --blueprint-id amazon_linux_2023 \
  --bundle-id nano_3_0 \
  --region $AWS_REGION
check_status "Failed to create Lightsail instance"
track_resource "instance" "$INSTANCE_NAME"

# Wait for the instance to be in a running state
echo "Waiting for instance to be in running state..."
# Wait for the instance to be ready (polling approach)
MAX_ATTEMPTS=30
ATTEMPTS=0
while [ $ATTEMPTS -lt $MAX_ATTEMPTS ]; do
  STATUS=$(aws lightsail get-instance-state --instance-name "$INSTANCE_NAME" --region $AWS_REGION --query 'state.name' --output text)
  if [ "$STATUS" == "running" ]; then
    echo "Instance is now running"
    break
  fi
  echo "Instance status: $STATUS. Waiting..."
  ATTEMPTS=$((ATTEMPTS+1))
  sleep 10
done

if [ $ATTEMPTS -eq $MAX_ATTEMPTS ]; then
  handle_error "Instance failed to reach running state after 5 minutes"
fi

# Get instance details
echo "Getting instance details"
INSTANCE_IP=$(aws lightsail get-instance --instance-name "$INSTANCE_NAME" --region $AWS_REGION --query 'instance.publicIpAddress' --output text)
check_status "Failed to get instance IP address"
echo "Instance IP address: $INSTANCE_IP"

# Step 4: Download the default key pair
echo "Step 4: Downloading default key pair"
KEY_FILE="lightsail_key_${RANDOM_ID}.pem"
aws lightsail download-default-key-pair --region $AWS_REGION --output text > "$KEY_FILE"
check_status "Failed to download key pair"
chmod 400 "$KEY_FILE"
check_status "Failed to set permissions on key pair"
echo "Key pair downloaded to $KEY_FILE"

echo "To connect to your instance, use:"
echo "ssh -i $KEY_FILE ec2-user@$INSTANCE_IP"

# Step 5: Create a block storage disk
echo "Step 5: Creating block storage disk: $DISK_NAME"
aws lightsail create-disk \
  --disk-name "$DISK_NAME" \
  --availability-zone "$AVAILABILITY_ZONE" \
  --size-in-gb 8 \
  --region $AWS_REGION
check_status "Failed to create disk"
track_resource "disk" "$DISK_NAME"

# FIX: Wait for the disk to be available using polling instead of fixed sleep
echo "Waiting for disk to be available..."
MAX_ATTEMPTS=30
ATTEMPTS=0
while [ $ATTEMPTS -lt $MAX_ATTEMPTS ]; do
  DISK_STATE=$(aws lightsail get-disk --disk-name "$DISK_NAME" --region $AWS_REGION --query 'disk.state' --output text 2>/dev/null)
  if [ "$DISK_STATE" == "available" ]; then
    echo "Disk is now available"
    break
  fi
  echo "Disk status: $DISK_STATE. Waiting..."
  ATTEMPTS=$((ATTEMPTS+1))
  sleep 10
done

if [ $ATTEMPTS -eq $MAX_ATTEMPTS ]; then
  handle_error "Disk failed to become available after 5 minutes"
fi

# Attach the disk to the instance
echo "Attaching disk to instance"
aws lightsail attach-disk \
  --disk-name "$DISK_NAME" \
  --instance-name "$INSTANCE_NAME" \
  --disk-path /dev/xvdf \
  --region $AWS_REGION
check_status "Failed to attach disk to instance"

echo "Disk attached. To format and mount the disk, connect to your instance and run:"
echo "sudo mkfs -t ext4 /dev/xvdf"
echo "sudo mkdir -p /mnt/my-data"
echo "sudo mount /dev/xvdf /mnt/my-data"
echo "sudo chown ec2-user:ec2-user /mnt/my-data"

# Step 6: Create a snapshot of the instance
echo "Step 6: Creating snapshot of the instance: $SNAPSHOT_NAME"
aws lightsail create-instance-snapshot \
  --instance-name "$INSTANCE_NAME" \
  --instance-snapshot-name "$SNAPSHOT_NAME" \
  --region $AWS_REGION
check_status "Failed to create instance snapshot"
track_resource "instance_snapshot" "$SNAPSHOT_NAME"

# FIX: Wait for the snapshot to complete using polling instead of fixed sleep
echo "Waiting for snapshot to complete... (this may take several minutes)"
MAX_ATTEMPTS=60  # Increased timeout for snapshot creation
ATTEMPTS=0
while [ $ATTEMPTS -lt $MAX_ATTEMPTS ]; do
  SNAPSHOT_STATE=$(aws lightsail get-instance-snapshot --instance-snapshot-name "$SNAPSHOT_NAME" --region $AWS_REGION --query 'instanceSnapshot.state' --output text 2>/dev/null)
  if [ "$SNAPSHOT_STATE" == "completed" ]; then
    echo "Snapshot creation completed"
    break
  fi
  echo "Snapshot status: $SNAPSHOT_STATE. Waiting... ($ATTEMPTS/$MAX_ATTEMPTS)"
  ATTEMPTS=$((ATTEMPTS+1))
  sleep 10
done

if [ $ATTEMPTS -eq $MAX_ATTEMPTS ]; then
  echo "Warning: Snapshot creation is taking longer than expected but will continue in the background."
  echo "You can check its status later with: aws lightsail get-instance-snapshot --instance-snapshot-name $SNAPSHOT_NAME --region $AWS_REGION"
fi

# Step 7: Clean up resources
echo "Step 7: Clean up resources"
echo "The script has created the following resources:"
for resource in "${CREATED_RESOURCES[@]}"; do
  echo "  $resource"
done

read -p "Do you want to clean up these resources? (y/n): " CLEANUP_CONFIRM
if [[ "$CLEANUP_CONFIRM" == "y" || "$CLEANUP_CONFIRM" == "Y" ]]; then
  cleanup_resources
else
  echo "Resources will not be cleaned up. You can manually delete them later."
  echo "To clean up manually, use the following commands:"
  echo "aws lightsail delete-instance-snapshot --instance-snapshot-name $SNAPSHOT_NAME --region $AWS_REGION"
  echo "aws lightsail detach-disk --disk-name $DISK_NAME --region $AWS_REGION"
  echo "aws lightsail delete-disk --disk-name $DISK_NAME --region $AWS_REGION"
  echo "aws lightsail delete-instance --instance-name $INSTANCE_NAME --region $AWS_REGION"
fi

echo "Script completed at $(date)"
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [AttachDisk](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/AttachDisk)
  + [CreateDisk](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/CreateDisk)
  + [CreateInstanceSnapshot](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/CreateInstanceSnapshot)
  + [CreateInstances](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/CreateInstances)
  + [DeleteDisk](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/DeleteDisk)
  + [DeleteInstance](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/DeleteInstance)
  + [DeleteInstanceSnapshot](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/DeleteInstanceSnapshot)
  + [DetachDisk](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/DetachDisk)
  + [DownloadDefaultKeyPair](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/DownloadDefaultKeyPair)
  + [GetBlueprints](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/GetBlueprints)
  + [GetBundles](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/GetBundles)
  + [GetDisk](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/GetDisk)
  + [GetInstance](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/GetInstance)
  + [GetInstanceSnapshot](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/GetInstanceSnapshot)
  + [GetInstanceState](https://docs.aws.amazon.com/goto/aws-cli/lightsail-2016-11-28/GetInstanceState)

# Contoh Amazon S3 menggunakan skrip AWS CLI Bash
<a name="bash_2_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash dengan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function s3_getting_started
#
# This function creates, copies, and deletes S3 buckets and objects.
#
# Returns:
#       0 - If successful.
#       1 - If an error occurred.
###############################################################################
function s3_getting_started() {
  {
    if [ "$BUCKET_OPERATIONS_SOURCED" != "True" ]; then
      cd bucket-lifecycle-operations || exit

      source ./bucket_operations.sh
      cd ..
    fi
  }

  echo_repeat "*" 88
  echo "Welcome to the Amazon S3 getting started demo."
  echo_repeat "*" 88
    echo "A unique bucket will be created by appending a Universally Unique Identifier to a bucket name prefix."
    echo -n "Enter a prefix for the S3 bucket that will be used in this demo: "
    get_input
    bucket_name_prefix=$get_input_result
  local bucket_name
  bucket_name=$(generate_random_name "$bucket_name_prefix")

  local region_code
  region_code=$(aws configure get region)

  if create_bucket -b "$bucket_name" -r "$region_code"; then
    echo "Created demo bucket named $bucket_name"
  else
    errecho "The bucket failed to create. This demo will exit."
    return 1
  fi

  local file_name
  while [ -z "$file_name" ]; do
    echo -n "Enter a file you want to upload to your bucket: "
    get_input
    file_name=$get_input_result

    if [ ! -f "$file_name" ]; then
      echo "Could not find file $file_name. Are you sure it exists?"
      file_name=""
    fi
  done

  local key
  key="$(basename "$file_name")"

  local result=0
  if copy_file_to_bucket "$bucket_name" "$file_name" "$key"; then
    echo "Uploaded file $file_name into bucket $bucket_name with key $key."
  else
    result=1
  fi

  local destination_file
  destination_file="$file_name.download"
  if yes_no_input "Would you like to download $key to the file $destination_file? (y/n) "; then
    if download_object_from_bucket "$bucket_name" "$destination_file" "$key"; then
      echo "Downloaded $key in the bucket $bucket_name to the file $destination_file."
    else
      result=1
    fi
  fi

  if yes_no_input "Would you like to copy $key a new object key in your bucket? (y/n) "; then
    local to_key
    to_key="demo/$key"
    if copy_item_in_bucket "$bucket_name" "$key" "$to_key"; then
      echo "Copied $key in the bucket $bucket_name to the  $to_key."
    else
      result=1
    fi
  fi

  local bucket_items
  bucket_items=$(list_items_in_bucket "$bucket_name")

  # shellcheck disable=SC2181
  if [[ $? -ne 0 ]]; then
    result=1
  fi

  echo "Your bucket contains the following items."
  echo -e "Name\t\tSize"
  echo "$bucket_items"

  if yes_no_input "Delete the bucket, $bucket_name, as well as the objects in it? (y/n) "; then
    bucket_items=$(echo "$bucket_items" | cut -f 1)

    if delete_items_in_bucket "$bucket_name" "$bucket_items"; then
      echo "The following items were deleted from the bucket $bucket_name"
      echo "$bucket_items"
    else
      result=1
    fi

    if delete_bucket "$bucket_name"; then
      echo "Deleted the bucket $bucket_name"
    else
      result=1
    fi
  fi

  return $result
}
```
Fungsi Amazon S3 yang digunakan dalam skenario ini.  

```
###############################################################################
# function create-bucket
#
# This function creates the specified bucket in the specified AWS Region, unless
# it already exists.
#
# Parameters:
#       -b bucket_name  -- The name of the bucket to create.
#       -r region_code  -- The code for an AWS Region in which to
#                          create the bucket.
#
# Returns:
#       The URL of the bucket that was created.
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function create_bucket() {
  local bucket_name region_code response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function create_bucket"
    echo "Creates an Amazon S3 bucket. You must supply a bucket name:"
    echo "  -b bucket_name    The name of the bucket. It must be globally unique."
    echo "  [-r region_code]    The code for an AWS Region in which the bucket is created."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "b:r:h" option; do
    case "${option}" in
      b) bucket_name="${OPTARG}" ;;
      r) region_code="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done

  if [[ -z "$bucket_name" ]]; then
    errecho "ERROR: You must provide a bucket name with the -b parameter."
    usage
    return 1
  fi

  local bucket_config_arg
  # A location constraint for "us-east-1" returns an error.
  if [[ -n "$region_code" ]] && [[ "$region_code" != "us-east-1" ]]; then
    bucket_config_arg="--create-bucket-configuration LocationConstraint=$region_code"
  fi

  iecho "Parameters:\n"
  iecho "    Bucket name:   $bucket_name"
  iecho "    Region code:   $region_code"
  iecho ""

  # If the bucket already exists, we don't want to try to create it.
  if (bucket_exists "$bucket_name"); then
    errecho "ERROR: A bucket with that name already exists. Try again."
    return 1
  fi

  # shellcheck disable=SC2086
  response=$(aws s3api create-bucket \
    --bucket "$bucket_name" \
    $bucket_config_arg)

  # shellcheck disable=SC2181
  if [[ ${?} -ne 0 ]]; then
    errecho "ERROR: AWS reports create-bucket operation failed.\n$response"
    return 1
  fi
}

###############################################################################
# function copy_file_to_bucket
#
# This function creates a file in the specified bucket.
#
# Parameters:
#       $1 - The name of the bucket to copy the file to.
#       $2 - The path and file name of the local file to copy to the bucket.
#       $3 - The key (name) to call the copy of the file in the bucket.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function copy_file_to_bucket() {
  local response bucket_name source_file destination_file_name
  bucket_name=$1
  source_file=$2
  destination_file_name=$3

  response=$(aws s3api put-object \
    --bucket "$bucket_name" \
    --body "$source_file" \
    --key "$destination_file_name")

  # shellcheck disable=SC2181
  if [[ ${?} -ne 0 ]]; then
    errecho "ERROR: AWS reports put-object operation failed.\n$response"
    return 1
  fi
}

###############################################################################
# function download_object_from_bucket
#
# This function downloads an object in a bucket to a file.
#
# Parameters:
#       $1 - The name of the bucket to download the object from.
#       $2 - The path and file name to store the downloaded bucket.
#       $3 - The key (name) of the object in the bucket.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function download_object_from_bucket() {
  local bucket_name=$1
  local destination_file_name=$2
  local object_name=$3
  local response

  response=$(aws s3api get-object \
    --bucket "$bucket_name" \
    --key "$object_name" \
    "$destination_file_name")

  # shellcheck disable=SC2181
  if [[ ${?} -ne 0 ]]; then
    errecho "ERROR: AWS reports put-object operation failed.\n$response"
    return 1
  fi
}

###############################################################################
# function copy_item_in_bucket
#
# This function creates a copy of the specified file in the same bucket.
#
# Parameters:
#       $1 - The name of the bucket to copy the file from and to.
#       $2 - The key of the source file to copy.
#       $3 - The key of the destination file.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function copy_item_in_bucket() {
  local bucket_name=$1
  local source_key=$2
  local destination_key=$3
  local response

  response=$(aws s3api copy-object \
    --bucket "$bucket_name" \
    --copy-source "$bucket_name/$source_key" \
    --key "$destination_key")

  # shellcheck disable=SC2181
  if [[ $? -ne 0 ]]; then
    errecho "ERROR:  AWS reports s3api copy-object operation failed.\n$response"
    return 1
  fi
}

###############################################################################
# function list_items_in_bucket
#
# This function displays a list of the files in the bucket with each file's
# size. The function uses the --query parameter to retrieve only the key and
# size fields from the Contents collection.
#
# Parameters:
#       $1 - The name of the bucket.
#
# Returns:
#       The list of files in text format.
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function list_items_in_bucket() {
  local bucket_name=$1
  local response

  response=$(aws s3api list-objects \
    --bucket "$bucket_name" \
    --output text \
    --query 'Contents[].{Key: Key, Size: Size}')

  # shellcheck disable=SC2181
  if [[ ${?} -eq 0 ]]; then
    echo "$response"
  else
    errecho "ERROR: AWS reports s3api list-objects operation failed.\n$response"
    return 1
  fi
}

###############################################################################
# function delete_items_in_bucket
#
# This function deletes the specified list of keys from the specified bucket.
#
# Parameters:
#       $1 - The name of the bucket.
#       $2 - A list of keys in the bucket to delete.

# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function delete_items_in_bucket() {
  local bucket_name=$1
  local keys=$2
  local response

  # Create the JSON for the items to delete.
  local delete_items
  delete_items="{\"Objects\":["
  for key in $keys; do
    delete_items="$delete_items{\"Key\": \"$key\"},"
  done
  delete_items=${delete_items%?} # Remove the final comma.
  delete_items="$delete_items]}"

  response=$(aws s3api delete-objects \
    --bucket "$bucket_name" \
    --delete "$delete_items")

  # shellcheck disable=SC2181
  if [[ $? -ne 0 ]]; then
    errecho "ERROR:  AWS reports s3api delete-object operation failed.\n$response"
    return 1
  fi
}

###############################################################################
# function delete_bucket
#
# This function deletes the specified bucket.
#
# Parameters:
#       $1 - The name of the bucket.

# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function delete_bucket() {
  local bucket_name=$1
  local response

  response=$(aws s3api delete-bucket \
    --bucket "$bucket_name")

  # shellcheck disable=SC2181
  if [[ $? -ne 0 ]]; then
    errecho "ERROR: AWS reports s3api delete-bucket failed.\n$response"
    return 1
  fi
}
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CopyObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/DeleteBucket)
  + [DeleteObjects](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/DeleteObjects)
  + [GetObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/GetObject)
  + [ListObjectsV2](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/ListObjectsV2)
  + [PutObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function copy_item_in_bucket
#
# This function creates a copy of the specified file in the same bucket.
#
# Parameters:
#       $1 - The name of the bucket to copy the file from and to.
#       $2 - The key of the source file to copy.
#       $3 - The key of the destination file.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function copy_item_in_bucket() {
  local bucket_name=$1
  local source_key=$2
  local destination_key=$3
  local response

  response=$(aws s3api copy-object \
    --bucket "$bucket_name" \
    --copy-source "$bucket_name/$source_key" \
    --key "$destination_key")

  # shellcheck disable=SC2181
  if [[ $? -ne 0 ]]; then
    errecho "ERROR:  AWS reports s3api copy-object operation failed.\n$response"
    return 1
  fi
}
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/CopyObject)di *Referensi AWS CLI Perintah*. 

### `CreateBucket`
<a name="s3_CreateBucket_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function create-bucket
#
# This function creates the specified bucket in the specified AWS Region, unless
# it already exists.
#
# Parameters:
#       -b bucket_name  -- The name of the bucket to create.
#       -r region_code  -- The code for an AWS Region in which to
#                          create the bucket.
#
# Returns:
#       The URL of the bucket that was created.
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function create_bucket() {
  local bucket_name region_code response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function create_bucket"
    echo "Creates an Amazon S3 bucket. You must supply a bucket name:"
    echo "  -b bucket_name    The name of the bucket. It must be globally unique."
    echo "  [-r region_code]    The code for an AWS Region in which the bucket is created."
    echo ""
  }

  # Retrieve the calling parameters.
  while getopts "b:r:h" option; do
    case "${option}" in
      b) bucket_name="${OPTARG}" ;;
      r) region_code="${OPTARG}" ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done

  if [[ -z "$bucket_name" ]]; then
    errecho "ERROR: You must provide a bucket name with the -b parameter."
    usage
    return 1
  fi

  local bucket_config_arg
  # A location constraint for "us-east-1" returns an error.
  if [[ -n "$region_code" ]] && [[ "$region_code" != "us-east-1" ]]; then
    bucket_config_arg="--create-bucket-configuration LocationConstraint=$region_code"
  fi

  iecho "Parameters:\n"
  iecho "    Bucket name:   $bucket_name"
  iecho "    Region code:   $region_code"
  iecho ""

  # If the bucket already exists, we don't want to try to create it.
  if (bucket_exists "$bucket_name"); then
    errecho "ERROR: A bucket with that name already exists. Try again."
    return 1
  fi

  # shellcheck disable=SC2086
  response=$(aws s3api create-bucket \
    --bucket "$bucket_name" \
    $bucket_config_arg)

  # shellcheck disable=SC2181
  if [[ ${?} -ne 0 ]]; then
    errecho "ERROR: AWS reports create-bucket operation failed.\n$response"
    return 1
  fi
}
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/CreateBucket)di *Referensi AWS CLI Perintah*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function delete_bucket
#
# This function deletes the specified bucket.
#
# Parameters:
#       $1 - The name of the bucket.

# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function delete_bucket() {
  local bucket_name=$1
  local response

  response=$(aws s3api delete-bucket \
    --bucket "$bucket_name")

  # shellcheck disable=SC2181
  if [[ $? -ne 0 ]]; then
    errecho "ERROR: AWS reports s3api delete-bucket failed.\n$response"
    return 1
  fi
}
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/DeleteBucket)di *Referensi AWS CLI Perintah*. 

### `DeleteObject`
<a name="s3_DeleteObject_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function delete_item_in_bucket
#
# This function deletes the specified file from the specified bucket.
#
# Parameters:
#       $1 - The name of the bucket.
#       $2 - The key (file name) in the bucket to delete.

# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function delete_item_in_bucket() {
  local bucket_name=$1
  local key=$2
  local response

  response=$(aws s3api delete-object \
    --bucket "$bucket_name" \
    --key "$key")

  # shellcheck disable=SC2181
  if [[ $? -ne 0 ]]; then
    errecho "ERROR:  AWS reports s3api delete-object operation failed.\n$response"
    return 1
  fi
}
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/DeleteObject)di *Referensi AWS CLI Perintah*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function delete_items_in_bucket
#
# This function deletes the specified list of keys from the specified bucket.
#
# Parameters:
#       $1 - The name of the bucket.
#       $2 - A list of keys in the bucket to delete.

# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function delete_items_in_bucket() {
  local bucket_name=$1
  local keys=$2
  local response

  # Create the JSON for the items to delete.
  local delete_items
  delete_items="{\"Objects\":["
  for key in $keys; do
    delete_items="$delete_items{\"Key\": \"$key\"},"
  done
  delete_items=${delete_items%?} # Remove the final comma.
  delete_items="$delete_items]}"

  response=$(aws s3api delete-objects \
    --bucket "$bucket_name" \
    --delete "$delete_items")

  # shellcheck disable=SC2181
  if [[ $? -ne 0 ]]; then
    errecho "ERROR:  AWS reports s3api delete-object operation failed.\n$response"
    return 1
  fi
}
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/DeleteObjects)di *Referensi AWS CLI Perintah*. 

### `GetObject`
<a name="s3_GetObject_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function download_object_from_bucket
#
# This function downloads an object in a bucket to a file.
#
# Parameters:
#       $1 - The name of the bucket to download the object from.
#       $2 - The path and file name to store the downloaded bucket.
#       $3 - The key (name) of the object in the bucket.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function download_object_from_bucket() {
  local bucket_name=$1
  local destination_file_name=$2
  local object_name=$3
  local response

  response=$(aws s3api get-object \
    --bucket "$bucket_name" \
    --key "$object_name" \
    "$destination_file_name")

  # shellcheck disable=SC2181
  if [[ ${?} -ne 0 ]]; then
    errecho "ERROR: AWS reports put-object operation failed.\n$response"
    return 1
  fi
}
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/GetObject)di *Referensi AWS CLI Perintah*. 

### `HeadBucket`
<a name="s3_HeadBucket_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`HeadBucket`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function bucket_exists
#
# This function checks to see if the specified bucket already exists.
#
# Parameters:
#       $1 - The name of the bucket to check.
#
# Returns:
#       0 - If the bucket already exists.
#       1 - If the bucket doesn't exist.
###############################################################################
function bucket_exists() {
  local bucket_name
  bucket_name=$1

  # Check whether the bucket already exists.
  # We suppress all output - we're interested only in the return code.

  if aws s3api head-bucket \
    --bucket "$bucket_name" \
    >/dev/null 2>&1; then
    return 0 # 0 in Bash script means true.
  else
    return 1 # 1 in Bash script means false.
  fi
}
```
+  Untuk detail API, lihat [HeadBucket](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/HeadBucket)di *Referensi AWS CLI Perintah*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function list_items_in_bucket
#
# This function displays a list of the files in the bucket with each file's
# size. The function uses the --query parameter to retrieve only the key and
# size fields from the Contents collection.
#
# Parameters:
#       $1 - The name of the bucket.
#
# Returns:
#       The list of files in text format.
#     And:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function list_items_in_bucket() {
  local bucket_name=$1
  local response

  response=$(aws s3api list-objects \
    --bucket "$bucket_name" \
    --output text \
    --query 'Contents[].{Key: Key, Size: Size}')

  # shellcheck disable=SC2181
  if [[ ${?} -eq 0 ]]; then
    echo "$response"
  else
    errecho "ERROR: AWS reports s3api list-objects operation failed.\n$response"
    return 1
  fi
}
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/ListObjectsV2) di *Referensi AWS CLI Perintah*. 

### `PutObject`
<a name="s3_PutObject_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/s3#code-examples). 

```
###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function copy_file_to_bucket
#
# This function creates a file in the specified bucket.
#
# Parameters:
#       $1 - The name of the bucket to copy the file to.
#       $2 - The path and file name of the local file to copy to the bucket.
#       $3 - The key (name) to call the copy of the file in the bucket.
#
# Returns:
#       0 - If successful.
#       1 - If it fails.
###############################################################################
function copy_file_to_bucket() {
  local response bucket_name source_file destination_file_name
  bucket_name=$1
  source_file=$2
  destination_file_name=$3

  response=$(aws s3api put-object \
    --bucket "$bucket_name" \
    --body "$source_file" \
    --key "$destination_file_name")

  # shellcheck disable=SC2181
  if [[ ${?} -ne 0 ]]; then
    errecho "ERROR: AWS reports put-object operation failed.\n$response"
    return 1
  fi
}
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/PutObject)di *Referensi AWS CLI Perintah*. 

## Skenario
<a name="scenarios"></a>

### Memulai dengan S3
<a name="s3_GettingStarted_bash_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat bucket S3 dengan penamaan unik dan konfigurasi regional
+ Konfigurasikan pengaturan keamanan bucket termasuk pemblokiran akses publik
+ Aktifkan pembuatan versi dan enkripsi default untuk perlindungan data
+ Unggah objek dengan dan tanpa metadata khusus
+ Unduh objek dari ember ke penyimpanan lokal
+ Salin objek di dalam ember untuk mengatur data dalam folder
+ Daftar isi bucket dan objek dengan awalan tertentu
+ Tambahkan tag ke bucket untuk manajemen sumber daya
+ Bersihkan semua sumber daya termasuk objek berversi

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [tutorial pengembang Sample](https://github.com/aws-samples/sample-developer-tutorials/tree/main/tuts/003-s3-gettingstarted). 

```
#!/bin/bash

# Amazon S3 Getting Started Tutorial Script
# This script demonstrates basic S3 operations including:
# - Creating a bucket
# - Configuring bucket settings
# - Uploading, downloading, and copying objects
# - Deleting objects and buckets

# Latest fixes:
# 1. Fixed folder creation using temporary file
# 2. Corrected versioned object deletion in cleanup
# 3. Improved error handling for cleanup operations

# Set up error handling
set -e
trap 'cleanup_handler $?' EXIT

# Log file setup
LOG_FILE="s3-tutorial-$(date +%Y%m%d-%H%M%S).log"
exec > >(tee -a "$LOG_FILE") 2>&1

# Function to log messages
log() {
    echo "[$(date +"%Y-%m-%d %H:%M:%S")] $1"
}

# Function to handle errors
handle_error() {
    log "ERROR: $1"
    exit 1
}

# Function to check if a bucket exists
bucket_exists() {
    if aws s3api head-bucket --bucket "$1" 2>/dev/null; then
        return 0
    else
        return 1
    fi
}

# Function to delete all versions of objects in a bucket
delete_all_versions() {
    local bucket=$1
    log "Deleting all object versions from bucket $bucket..."
    
    # Get and delete all versions
    versions=$(aws s3api list-object-versions --bucket "$bucket" --query 'Versions[].{Key:Key,VersionId:VersionId}' --output json 2>/dev/null)
    if [ -n "$versions" ] && [ "$versions" != "null" ]; then
        echo "{\"Objects\": $versions}" | aws s3api delete-objects --bucket "$bucket" --delete file:///dev/stdin >/dev/null 2>&1 || log "Warning: Some versions could not be deleted"
    fi
    
    # Get and delete all delete markers
    markers=$(aws s3api list-object-versions --bucket "$bucket" --query 'DeleteMarkers[].{Key:Key,VersionId:VersionId}' --output json 2>/dev/null)
    if [ -n "$markers" ] && [ "$markers" != "null" ]; then
        echo "{\"Objects\": $markers}" | aws s3api delete-objects --bucket "$bucket" --delete file:///dev/stdin >/dev/null 2>&1 || log "Warning: Some delete markers could not be deleted"
    fi
}

# Function to handle cleanup on exit
cleanup_handler() {
    local exit_code=$1
    
    # Only run cleanup if it hasn't been run already
    if [ -z "$CLEANUP_DONE" ]; then
        cleanup
    fi
    
    exit $exit_code
}

# Function to clean up resources
cleanup() {
    log "Starting cleanup process..."
    CLEANUP_DONE=1
    
    # List all resources created for confirmation
    log "Resources created:"
    if [ -n "$BUCKET_NAME" ]; then
        log "- S3 Bucket: $BUCKET_NAME"
        
        # Only try to list objects if the bucket exists
        if bucket_exists "$BUCKET_NAME"; then
            # Check if any objects were created
            OBJECTS=$(aws s3api list-objects-v2 --bucket "$BUCKET_NAME" --query 'Contents[].Key' --output text 2>/dev/null || echo "")
            if [ -n "$OBJECTS" ]; then
                log "- Objects in bucket:"
                echo "$OBJECTS" | tr '\t' '\n' | while read -r obj; do
                    log "  - $obj"
                done
            fi
            
            # Ask for confirmation before cleanup
            read -p "Do you want to proceed with cleanup and delete all resources? (y/n): " confirm
            if [[ $confirm != [yY] && $confirm != [yY][eE][sS] ]]; then
                log "Cleanup aborted by user."
                return
            fi
            
            # Delete all versions of objects
            delete_all_versions "$BUCKET_NAME"
            
            # Delete the bucket
            log "Deleting bucket $BUCKET_NAME..."
            aws s3api delete-bucket --bucket "$BUCKET_NAME" || log "Warning: Failed to delete bucket"
        else
            log "Bucket $BUCKET_NAME does not exist, skipping cleanup"
        fi
    fi
    
    # Clean up local files
    log "Removing local files..."
    rm -f sample-file.txt sample-document.txt downloaded-sample-file.txt empty-file.tmp
    
    log "Cleanup completed."
}

# Generate a random bucket name
generate_bucket_name() {
    local hex_id
    hex_id=$(openssl rand -hex 6)
    echo "demo-s3-bucket-$hex_id"
}

# Main script execution
main() {
    log "Starting Amazon S3 Getting Started Tutorial"
    
    # Generate a unique bucket name
    BUCKET_NAME=$(generate_bucket_name)
    log "Generated bucket name: $BUCKET_NAME"
    
    # Step 1: Create a bucket
    log "Step 1: Creating S3 bucket..."
    
    # Get the current region or default to us-east-1
    REGION=$(aws configure get region)
    REGION=${REGION:-us-east-1}
    log "Using region: $REGION"
    
    if [ "$REGION" = "us-east-1" ]; then
        aws s3api create-bucket --bucket "$BUCKET_NAME" || handle_error "Failed to create bucket"
    else
        aws s3api create-bucket \
            --bucket "$BUCKET_NAME" \
            --region "$REGION" \
            --create-bucket-configuration LocationConstraint="$REGION" || handle_error "Failed to create bucket"
    fi
    log "Bucket created successfully"
    
    # Configure bucket settings
    log "Configuring bucket settings..."
    
    # Block public access (security best practice)
    log "Blocking public access..."
    aws s3api put-public-access-block \
        --bucket "$BUCKET_NAME" \
        --public-access-block-configuration "BlockPublicAcls=true,IgnorePublicAcls=true,BlockPublicPolicy=true,RestrictPublicBuckets=true" || handle_error "Failed to configure public access block"
    
    # Enable versioning
    log "Enabling versioning..."
    aws s3api put-bucket-versioning \
        --bucket "$BUCKET_NAME" \
        --versioning-configuration Status=Enabled || handle_error "Failed to enable versioning"
    
    # Set default encryption
    log "Setting default encryption..."
    aws s3api put-bucket-encryption \
        --bucket "$BUCKET_NAME" \
        --server-side-encryption-configuration '{"Rules": [{"ApplyServerSideEncryptionByDefault": {"SSEAlgorithm": "AES256"}}]}' || handle_error "Failed to set encryption"
    
    # Step 2: Upload an object
    log "Step 2: Uploading objects to bucket..."
    
    # Create a sample file
    echo "This is a sample file for the S3 tutorial." > sample-file.txt
    
    # Upload the file
    aws s3api put-object \
        --bucket "$BUCKET_NAME" \
        --key "sample-file.txt" \
        --body "sample-file.txt" || handle_error "Failed to upload object"
    log "Object uploaded successfully"
    
    # Upload with metadata
    echo "This is a document with metadata." > sample-document.txt
    aws s3api put-object \
        --bucket "$BUCKET_NAME" \
        --key "documents/sample-document.txt" \
        --body "sample-document.txt" \
        --content-type "text/plain" \
        --metadata "author=AWSDocumentation,purpose=tutorial" || handle_error "Failed to upload object with metadata"
    log "Object with metadata uploaded successfully"
    
    # Step 3: Download an object
    log "Step 3: Downloading object from bucket..."
    aws s3api get-object \
        --bucket "$BUCKET_NAME" \
        --key "sample-file.txt" \
        "downloaded-sample-file.txt" || handle_error "Failed to download object"
    log "Object downloaded successfully"
    
    # Check if an object exists
    log "Checking if object exists..."
    aws s3api head-object \
        --bucket "$BUCKET_NAME" \
        --key "sample-file.txt" || handle_error "Object does not exist"
    log "Object exists"
    
    # Step 4: Copy object to a folder
    log "Step 4: Copying object to a folder..."
    
    # Create a folder structure using a temporary empty file
    log "Creating folder structure..."
    touch empty-file.tmp
    aws s3api put-object \
        --bucket "$BUCKET_NAME" \
        --key "favorite-files/" \
        --body empty-file.tmp || handle_error "Failed to create folder"
    
    # Copy the object
    log "Copying object..."
    aws s3api copy-object \
        --bucket "$BUCKET_NAME" \
        --copy-source "$BUCKET_NAME/sample-file.txt" \
        --key "favorite-files/sample-file.txt" || handle_error "Failed to copy object"
    log "Object copied successfully"
    
    # List objects in the bucket
    log "Listing all objects in the bucket..."
    aws s3api list-objects-v2 \
        --bucket "$BUCKET_NAME" \
        --query 'Contents[].Key' \
        --output table || handle_error "Failed to list objects"
    
    # List objects with a specific prefix
    log "Listing objects in the favorite-files folder..."
    aws s3api list-objects-v2 \
        --bucket "$BUCKET_NAME" \
        --prefix "favorite-files/" \
        --query 'Contents[].Key' \
        --output table || handle_error "Failed to list objects with prefix"
    
    # Add tags to the bucket
    log "Adding tags to the bucket..."
    aws s3api put-bucket-tagging \
        --bucket "$BUCKET_NAME" \
        --tagging 'TagSet=[{Key=Project,Value=S3Tutorial},{Key=Environment,Value=Demo}]' || handle_error "Failed to add tags"
    log "Tags added successfully"
    
    log "Tutorial completed successfully!"
}

# Execute the main function
main
```
+ Untuk detail API, lihat topik berikut di *Referensi Perintah AWS CLI *.
  + [CopyObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/DeleteBucket)
  + [DeleteObjects](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/DeleteObjects)
  + [GetObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/GetObject)
  + [HeadObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/HeadObject)
  + [ListObjectVersions](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/ListObjectVersions)
  + [ListObjectsV2](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/ListObjectsV2)
  + [PutBucketEncryption](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/PutBucketEncryption)
  + [PutBucketTagging](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/PutBucketTagging)
  + [PutBucketVersioning](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/PutBucketVersioning)
  + [PutObject](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/PutObject)
  + [PutPublicAccessBlock](https://docs.aws.amazon.com/goto/aws-cli/s3-2006-03-01/PutPublicAccessBlock)

# AWS STS contoh menggunakan AWS CLI dengan skrip Bash
<a name="bash_2_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan skrip AWS Command Line Interface with Bash with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_bash_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**AWS CLI dengan skrip Bash**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/iam#code-examples). 

```
###############################################################################
# function iecho
#
# This function enables the script to display the specified text only if
# the global variable $VERBOSE is set to true.
###############################################################################
function iecho() {
  if [[ $VERBOSE == true ]]; then
    echo "$@"
  fi
}

###############################################################################
# function errecho
#
# This function outputs everything sent to it to STDERR (standard error output).
###############################################################################
function errecho() {
  printf "%s\n" "$*" 1>&2
}

###############################################################################
# function sts_assume_role
#
# This function assumes a role in the AWS account and returns the temporary
#  credentials.
#
# Parameters:
#       -n role_session_name -- The name of the session.
#       -r role_arn -- The ARN of the role to assume.
#
# Returns:
#       [access_key_id, secret_access_key, session_token]
#     And:
#       0 - If successful.
#       1 - If an error occurred.
###############################################################################
function sts_assume_role() {
  local role_session_name role_arn response
  local option OPTARG # Required to use getopts command in a function.

  # bashsupport disable=BP5008
  function usage() {
    echo "function sts_assume_role"
    echo "Assumes a role in the AWS account and returns the temporary credentials:"
    echo "  -n role_session_name -- The name of the session."
    echo "  -r role_arn -- The ARN of the role to assume."
    echo ""
  }

  while getopts n:r:h option; do
    case "${option}" in
      n) role_session_name=${OPTARG} ;;
      r) role_arn=${OPTARG} ;;
      h)
        usage
        return 0
        ;;
      \?)
        echo "Invalid parameter"
        usage
        return 1
        ;;
    esac
  done

  response=$(aws sts assume-role \
    --role-session-name "$role_session_name" \
    --role-arn "$role_arn" \
    --output text \
    --query "Credentials.[AccessKeyId, SecretAccessKey, SessionToken]")

  local error_code=${?}

  if [[ $error_code -ne 0 ]]; then
    aws_cli_error_log $error_code
    errecho "ERROR: AWS reports create-role operation failed.\n$response"
    return 1
  fi

  echo "$response"

  return 0
}
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/aws-cli/sts-2011-06-15/AssumeRole)di *Referensi AWS CLI Perintah*. 

# Contoh kode untuk SDK for C\$1\$1
<a name="cpp_1_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk C\$1\$1 with AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  Panduan Pengembang **[SDK for C\$1\$1](https://docs.aws.amazon.com/sdk-for-cpp/v1/developer-guide/welcome.html)** - Selengkapnya tentang menggunakan C \$1\$1 dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23c-plusplus)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [ACM](cpp_1_acm_code_examples.md)
+ [API Gateway](cpp_1_api-gateway_code_examples.md)
+ [Aurora](cpp_1_aurora_code_examples.md)
+ [Auto Scaling](cpp_1_auto-scaling_code_examples.md)
+ [CloudTrail](cpp_1_cloudtrail_code_examples.md)
+ [CloudWatch](cpp_1_cloudwatch_code_examples.md)
+ [CloudWatch Log](cpp_1_cloudwatch-logs_code_examples.md)
+ [CodeBuild](cpp_1_codebuild_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](cpp_1_cognito-identity-provider_code_examples.md)
+ [DynamoDB](cpp_1_dynamodb_code_examples.md)
+ [Amazon EC2](cpp_1_ec2_code_examples.md)
+ [EventBridge](cpp_1_eventbridge_code_examples.md)
+ [AWS Glue](cpp_1_glue_code_examples.md)
+ [HealthImaging](cpp_1_medical-imaging_code_examples.md)
+ [IAM](cpp_1_iam_code_examples.md)
+ [AWS IoT](cpp_1_iot_code_examples.md)
+ [AWS IoT data](cpp_1_iot-data-plane_code_examples.md)
+ [Lambda](cpp_1_lambda_code_examples.md)
+ [MediaConvert](cpp_1_mediaconvert_code_examples.md)
+ [Amazon RDS](cpp_1_rds_code_examples.md)
+ [Layanan Data Amazon RDS](cpp_1_rds-data_code_examples.md)
+ [Amazon Rekognition](cpp_1_rekognition_code_examples.md)
+ [Amazon S3](cpp_1_s3_code_examples.md)
+ [Secrets Manager](cpp_1_secrets-manager_code_examples.md)
+ [Amazon SES](cpp_1_ses_code_examples.md)
+ [Amazon SNS](cpp_1_sns_code_examples.md)
+ [Amazon SQS](cpp_1_sqs_code_examples.md)
+ [AWS STS](cpp_1_sts_code_examples.md)
+ [Streaming Amazon Transcribe](cpp_1_transcribe-streaming_code_examples.md)

# Contoh ACM menggunakan SDK for C\$1\$1
<a name="cpp_1_acm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan ACM AWS SDK untuk C\$1\$1 with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AddTagsToCertificate`
<a name="acm_AddTagsToCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddTagsToCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Add tags to an AWS Certificate Manager (ACM) certificate.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param tagKey: The key for the tag.
  \param tagValue: The value for the tag.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::addTagsToCertificate(const Aws::String &certificateArn,
                                       const Aws::String &tagKey,
                                       const Aws::String &tagValue,
                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::AddTagsToCertificateRequest request;
    Aws::Vector<Aws::ACM::Model::Tag> tags;
    Aws::ACM::Model::Tag tag;

    tag.WithKey(tagKey).WithValue(tagValue);
    tags.push_back(tag);

    request.WithCertificateArn(certificateArn).WithTags(tags);

    Aws::ACM::Model::AddTagsToCertificateOutcome outcome =
            acmClient.AddTagsToCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: addTagsToCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Success: Tag with key '" << tagKey <<
                  "' and value '" << tagValue <<
                  "' added to certificate with ARN '" <<
                  certificateArn << "'." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [AddTagsToCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/AddTagsToCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteCertificate`
<a name="acm_DeleteCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Delete an AWS Certificate Manager (ACM) certificate.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::deleteCertificate(const Aws::String &certificateArn,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::DeleteCertificateRequest request;
    request.WithCertificateArn(certificateArn);

    Aws::ACM::Model::DeleteCertificateOutcome outcome =
            acmClient.DeleteCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: DeleteCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Success: The certificate with the ARN '" <<
                  certificateArn << "' is deleted." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/DeleteCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeCertificate`
<a name="acm_DescribeCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Describe an AWS Certificate Manager (ACM) certificate.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::describeCertificate(const Aws::String &certificateArn,
                                      const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acm_client(clientConfiguration);

    Aws::ACM::Model::DescribeCertificateRequest request;
    request.WithCertificateArn(certificateArn);

    Aws::ACM::Model::DescribeCertificateOutcome outcome =
            acm_client.DescribeCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: DescribeCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        Aws::ACM::Model::CertificateDetail certificate =
                outcome.GetResult().GetCertificate();

        std::cout << "Success: Information about certificate "
                     "with ARN '" << certificateArn << "':" << std::endl << std::endl;

        std::cout << "ARN:                 " << certificate.GetCertificateArn()
                  << std::endl;
        std::cout << "Authority ARN:       " <<
                  certificate.GetCertificateAuthorityArn() << std::endl;
        std::cout << "Created at (GMT):    " <<
                  certificate.GetCreatedAt().ToGmtString(
                          Aws::Utils::DateFormat::ISO_8601)
                  << std::endl;
        std::cout << "Domain name:         " << certificate.GetDomainName()
                  << std::endl;

        Aws::Vector<Aws::ACM::Model::DomainValidation> options =
                certificate.GetDomainValidationOptions();

        if (!options.empty()) {
            std::cout << std::endl << "Domain validation information: "
                      << std::endl << std::endl;

            for (auto &validation: options) {
                std::cout << "  Domain name:              " <<
                          validation.GetDomainName() << std::endl;

                const Aws::ACM::Model::ResourceRecord &record =
                        validation.GetResourceRecord();

                std::cout << "  Resource record name:     " <<
                          record.GetName() << std::endl;

                Aws::ACM::Model::RecordType recordType = record.GetType();
                Aws::String type;

                switch (recordType) {
                    case Aws::ACM::Model::RecordType::CNAME:
                        type = "CNAME";
                        break;
                    case Aws::ACM::Model::RecordType::NOT_SET:
                        type = "Not set";
                        break;
                    default:
                        type = "Cannot determine.";
                        break;
                }

                std::cout << "  Resource record type:     " << type <<
                          std::endl;

                std::cout << "  Resource record value:    " <<
                          record.GetValue() << std::endl;

                std::cout << "  Validation domain:        " <<
                          validation.GetValidationDomain() << std::endl;

                Aws::Vector<Aws::String> emails =
                        validation.GetValidationEmails();

                if (!emails.empty()) {
                    std::cout << "  Validation emails:" << std::endl <<
                              std::endl;

                    for (auto &email: emails) {
                        std::cout << "    " << email << std::endl;
                    }

                    std::cout << std::endl;
                }

                Aws::ACM::Model::ValidationMethod validationMethod =
                        validation.GetValidationMethod();
                Aws::String method;

                switch (validationMethod) {
                    case Aws::ACM::Model::ValidationMethod::DNS:
                        method = "DNS";
                        break;
                    case Aws::ACM::Model::ValidationMethod::EMAIL:
                        method = "Email";
                        break;
                    case Aws::ACM::Model::ValidationMethod::NOT_SET:
                        method = "Not set";
                        break;
                    default:
                        method = "Cannot determine";
                }

                std::cout << "  Validation method:        " <<
                          method << std::endl;

                Aws::ACM::Model::DomainStatus domainStatus =
                        validation.GetValidationStatus();
                Aws::String status;

                switch (domainStatus) {
                    case Aws::ACM::Model::DomainStatus::FAILED:
                        status = "Failed";
                        break;
                    case Aws::ACM::Model::DomainStatus::NOT_SET:
                        status = "Not set";
                        break;
                    case Aws::ACM::Model::DomainStatus::PENDING_VALIDATION:
                        status = "Pending validation";
                        break;
                    case Aws::ACM::Model::DomainStatus::SUCCESS:
                        status = "Success";
                        break;
                    default:
                        status = "Cannot determine";
                }

                std::cout << "  Domain validation status: " << status <<
                          std::endl << std::endl;

            }
        }

        Aws::Vector<Aws::ACM::Model::ExtendedKeyUsage> usages =
                certificate.GetExtendedKeyUsages();

        if (!usages.empty()) {
            std::cout << std::endl << "Extended key usages:" <<
                      std::endl << std::endl;

            for (auto &usage: usages) {
                Aws::ACM::Model::ExtendedKeyUsageName usageName =
                        usage.GetName();
                Aws::String name;

                switch (usageName) {
                    case Aws::ACM::Model::ExtendedKeyUsageName::ANY:
                        name = "Any";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::CODE_SIGNING:
                        name = "Code signing";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::CUSTOM:
                        name = "Custom";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::EMAIL_PROTECTION:
                        name = "Email protection";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::IPSEC_END_SYSTEM:
                        name = "IPSEC end system";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::IPSEC_TUNNEL:
                        name = "IPSEC tunnel";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::IPSEC_USER:
                        name = "IPSEC user";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::NONE:
                        name = "None";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::NOT_SET:
                        name = "Not set";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::OCSP_SIGNING:
                        name = "OCSP signing";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::TIME_STAMPING:
                        name = "Time stamping";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::TLS_WEB_CLIENT_AUTHENTICATION:
                        name = "TLS web client authentication";
                        break;
                    case Aws::ACM::Model::ExtendedKeyUsageName::TLS_WEB_SERVER_AUTHENTICATION:
                        name = "TLS web server authentication";
                        break;
                    default:
                        name = "Cannot determine";
                }

                std::cout << "  Name: " << name << std::endl;
                std::cout << "  OID:  " << usage.GetOID() <<
                          std::endl << std::endl;
            }

            std::cout << std::endl;
        }

        Aws::ACM::Model::CertificateStatus certificateStatus =
                certificate.GetStatus();
        Aws::String status;

        switch (certificateStatus) {
            case Aws::ACM::Model::CertificateStatus::EXPIRED:
                status = "Expired";
                break;
            case Aws::ACM::Model::CertificateStatus::FAILED:
                status = "Failed";
                break;
            case Aws::ACM::Model::CertificateStatus::INACTIVE:
                status = "Inactive";
                break;
            case Aws::ACM::Model::CertificateStatus::ISSUED:
                status = "Issued";
                break;
            case Aws::ACM::Model::CertificateStatus::NOT_SET:
                status = "Not set";
                break;
            case Aws::ACM::Model::CertificateStatus::PENDING_VALIDATION:
                status = "Pending validation";
                break;
            case Aws::ACM::Model::CertificateStatus::REVOKED:
                status = "Revoked";
                break;
            case Aws::ACM::Model::CertificateStatus::VALIDATION_TIMED_OUT:
                status = "Validation timed out";
                break;
            default:
                status = "Cannot determine";
        }

        std::cout << "Status:              " << status << std::endl;

        if (certificate.GetStatus() ==
            Aws::ACM::Model::CertificateStatus::FAILED) {
            Aws::ACM::Model::FailureReason failureReason =
                    certificate.GetFailureReason();
            Aws::String reason;

            switch (failureReason) {
                case Aws::ACM::Model::FailureReason::ADDITIONAL_VERIFICATION_REQUIRED:
                    reason = "Additional verification required";
                    break;
                case Aws::ACM::Model::FailureReason::CAA_ERROR:
                    reason = "CAA error";
                    break;
                case Aws::ACM::Model::FailureReason::DOMAIN_NOT_ALLOWED:
                    reason = "Domain not allowed";
                    break;
                case Aws::ACM::Model::FailureReason::DOMAIN_VALIDATION_DENIED:
                    reason = "Domain validation denied";
                    break;
                case Aws::ACM::Model::FailureReason::INVALID_PUBLIC_DOMAIN:
                    reason = "Invalid public domain";
                    break;
                case Aws::ACM::Model::FailureReason::NOT_SET:
                    reason = "Not set";
                    break;
                case Aws::ACM::Model::FailureReason::NO_AVAILABLE_CONTACTS:
                    reason = "No available contacts";
                    break;
                case Aws::ACM::Model::FailureReason::OTHER:
                    reason = "Other";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_ACCESS_DENIED:
                    reason = "PCA access denied";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_INVALID_ARGS:
                    reason = "PCA invalid args";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_INVALID_ARN:
                    reason = "PCA invalid ARN";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_INVALID_DURATION:
                    reason = "PCA invalid duration";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_INVALID_STATE:
                    reason = "PCA invalid state";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_LIMIT_EXCEEDED:
                    reason = "PCA limit exceeded";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_NAME_CONSTRAINTS_VALIDATION:
                    reason = "PCA name constraints validation";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_REQUEST_FAILED:
                    reason = "PCA request failed";
                    break;
                case Aws::ACM::Model::FailureReason::PCA_RESOURCE_NOT_FOUND:
                    reason = "PCA resource not found";
                    break;
                default:
                    reason = "Cannot determine";
            }

            std::cout << "Failure reason:      " << reason << std::endl;
        }

        if (certificate.GetStatus() == Aws::ACM::Model::CertificateStatus::REVOKED) {
            std::cout << "Revoked at (GMT):    " <<
                      certificate.GetRevokedAt().ToGmtString(
                              Aws::Utils::DateFormat::ISO_8601)
                      << std::endl;

            Aws::ACM::Model::RevocationReason revocationReason =
                    certificate.GetRevocationReason();
            Aws::String reason;

            switch (revocationReason) {
                case Aws::ACM::Model::RevocationReason::AFFILIATION_CHANGED:
                    reason = "Affiliation changed";
                    break;
                case Aws::ACM::Model::RevocationReason::A_A_COMPROMISE:
                    reason = "AA compromise";
                    break;
                case Aws::ACM::Model::RevocationReason::CA_COMPROMISE:
                    reason = "CA compromise";
                    break;
                case Aws::ACM::Model::RevocationReason::CERTIFICATE_HOLD:
                    reason = "Certificate hold";
                    break;
                case Aws::ACM::Model::RevocationReason::CESSATION_OF_OPERATION:
                    reason = "Cessation of operation";
                    break;
                case Aws::ACM::Model::RevocationReason::KEY_COMPROMISE:
                    reason = "Key compromise";
                    break;
                case Aws::ACM::Model::RevocationReason::NOT_SET:
                    reason = "Not set";
                    break;
                case Aws::ACM::Model::RevocationReason::PRIVILEGE_WITHDRAWN:
                    reason = "Privilege withdrawn";
                    break;
                case Aws::ACM::Model::RevocationReason::REMOVE_FROM_CRL:
                    reason = "Revoke from CRL";
                    break;
                case Aws::ACM::Model::RevocationReason::SUPERCEDED:
                    reason = "Superceded";
                    break;
                case Aws::ACM::Model::RevocationReason::UNSPECIFIED:
                    reason = "Unspecified";
                    break;
                default:
                    reason = "Cannot determine";
            }

            std::cout << "Revocation reason:   " << reason << std::endl;
        }

        if (certificate.GetType() == Aws::ACM::Model::CertificateType::IMPORTED) {
            std::cout << "Imported at (GMT):   " <<
                      certificate.GetImportedAt().ToGmtString(
                              Aws::Utils::DateFormat::ISO_8601)
                      << std::endl;
        }

        Aws::Vector<Aws::String> inUseBys = certificate.GetInUseBy();

        if (!inUseBys.empty()) {
            std::cout << std::endl << "In use by:" << std::endl << std::endl;

            for (auto &in_use_by: inUseBys) {
                std::cout << "  " << in_use_by << std::endl;
            }

            std::cout << std::endl;
        }

        if (certificate.GetType() == Aws::ACM::Model::CertificateType::AMAZON_ISSUED &&
            certificate.GetStatus() == Aws::ACM::Model::CertificateStatus::ISSUED) {
            std::cout << "Issued at (GMT):     " <<
                      certificate.GetIssuedAt().ToGmtString(
                              Aws::Utils::DateFormat::ISO_8601)
                      << std::endl;
        }

        std::cout << "Issuer:              " << certificate.GetIssuer() <<
                  std::endl;

        Aws::ACM::Model::KeyAlgorithm keyAlgorithm =
                certificate.GetKeyAlgorithm();
        Aws::String algorithm;

        switch (keyAlgorithm) {
            case Aws::ACM::Model::KeyAlgorithm::EC_prime256v1:
                algorithm = "P-256 (secp256r1, prime256v1)";
                break;
            case Aws::ACM::Model::KeyAlgorithm::EC_secp384r1:
                algorithm = "P-384 (secp384r1)";
                break;
            case Aws::ACM::Model::KeyAlgorithm::EC_secp521r1:
                algorithm = "P-521 (secp521r1)";
                break;
            case Aws::ACM::Model::KeyAlgorithm::NOT_SET:
                algorithm = "Not set";
                break;
            case Aws::ACM::Model::KeyAlgorithm::RSA_1024:
                algorithm = "RSA 1024";
                break;
            case Aws::ACM::Model::KeyAlgorithm::RSA_2048:
                algorithm = "RSA 2048";
                break;
            case Aws::ACM::Model::KeyAlgorithm::RSA_4096:
                algorithm = "RSA 4096";
                break;
            default:
                algorithm = "Cannot determine";
        }

        std::cout << "Key algorithm:       " << algorithm << std::endl;

        if (certificate.GetStatus() == Aws::ACM::Model::CertificateStatus::ISSUED) {
            std::cout << "Not valid after (GMT): " <<
                      certificate.GetNotAfter().ToGmtString(
                              Aws::Utils::DateFormat::ISO_8601)
                      << std::endl;
            std::cout << "Not valid before (GMT): " <<
                      certificate.GetNotBefore().ToGmtString(
                              Aws::Utils::DateFormat::ISO_8601)
                      << std::endl;
        }

        Aws::ACM::Model::CertificateTransparencyLoggingPreference loggingPreference =
                certificate.GetOptions().GetCertificateTransparencyLoggingPreference();
        Aws::String preference;

        switch (loggingPreference) {
            case Aws::ACM::Model::CertificateTransparencyLoggingPreference::DISABLED:
                preference = "Disabled";
                break;
            case Aws::ACM::Model::CertificateTransparencyLoggingPreference::ENABLED:
                preference = "Enabled";
                break;
            case Aws::ACM::Model::CertificateTransparencyLoggingPreference::NOT_SET:
                preference = "Not set";
                break;
            default:
                preference = "Cannot determine";
        }

        std::cout << "Logging preference:  " << preference << std::endl;

        std::cout << "Serial:              " << certificate.GetSerial() <<
                  std::endl;
        std::cout << "Signature algorithm: "
                  << certificate.GetSignatureAlgorithm() << std::endl;
        std::cout << "Subject:             " << certificate.GetSubject() <<
                  std::endl;

        Aws::ACM::Model::CertificateType certificateType = certificate.GetType();
        Aws::String type;

        switch (certificateType) {
            case Aws::ACM::Model::CertificateType::AMAZON_ISSUED:
                type = "Amazon issued";
                break;
            case Aws::ACM::Model::CertificateType::IMPORTED:
                type = "Imported";
                break;
            case Aws::ACM::Model::CertificateType::NOT_SET:
                type = "Not set";
                break;
            case Aws::ACM::Model::CertificateType::PRIVATE_:
                type = "Private";
                break;
            default:
                type = "Cannot determine";
        }

        std::cout << "Type:                " << type << std::endl;

        Aws::Vector<Aws::String> altNames =
                certificate.GetSubjectAlternativeNames();

        if (!altNames.empty()) {
            std::cout << std::endl << "Alternative names:" <<
                      std::endl << std::endl;

            for (auto &alt_name: altNames) {
                std::cout << "  " << alt_name << std::endl;
            }

            std::cout << std::endl;
        }
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/DescribeCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ExportCertificate`
<a name="acm_ExportCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExportCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Export an AWS Certificate Manager (ACM)  certificate.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param passphrase: A passphrase to decrypt the exported certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::exportCertificate(const Aws::String &certificateArn,
                                    const Aws::String &passphrase,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acm_client(clientConfiguration);

    Aws::ACM::Model::ExportCertificateRequest request;
    Aws::Utils::CryptoBuffer cryptoBuffer(
            reinterpret_cast<const unsigned char *>(passphrase.c_str()),
            passphrase.length());
    request.WithCertificateArn(certificateArn).WithPassphrase(cryptoBuffer);

    Aws::ACM::Model::ExportCertificateOutcome outcome =
            acm_client.ExportCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: ExportCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Success: Information about certificate with ARN '"
                  << certificateArn << "':" << std::endl << std::endl;

        auto result = outcome.GetResult();

        std::cout << "Certificate:       " << std::endl << std::endl <<
                  result.GetCertificate() << std::endl << std::endl;
        std::cout << "Certificate chain: " << std::endl << std::endl <<
                  result.GetCertificateChain() << std::endl << std::endl;
        std::cout << "Private key:       " << std::endl << std::endl <<
                  result.GetPrivateKey() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [ExportCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/ExportCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetCertificate`
<a name="acm_GetCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Get an AWS Certificate Manager (ACM) certificate.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::getCertificate(const Aws::String &certificateArn,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::GetCertificateRequest request;
    request.WithCertificateArn(certificateArn);

    Aws::ACM::Model::GetCertificateOutcome outcome =
            acmClient.GetCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: GetCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Success: Information about certificate with ARN '"
                  << certificateArn << "':" << std::endl << std::endl;

        auto result = outcome.GetResult();

        std::cout << "Certificate: " << std::endl << std::endl <<
                  result.GetCertificate() << std::endl;
        std::cout << "Certificate chain: " << std::endl << std::endl <<
                  result.GetCertificateChain() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/GetCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ImportCertificate`
<a name="acm_ImportCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ImportCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Import an AWS Certificate Manager (ACM) certificate.
/*!
  \param certificateFile: Path to certificate to import.
  \param privateKeyFile: Path to file containing a private key.
  \param certificateChainFile: Path to file containing a PEM encoded certificate chain.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::importCertificate(const Aws::String &certificateFile,
                                    const Aws::String &privateKeyFile,
                                    const Aws::String &certificateChainFile,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    std::ifstream certificateInStream(certificateFile.c_str());
    if (!certificateInStream) {
        std::cerr << "Error: The certificate file '" << certificateFile <<
                  "' does not exist." << std::endl;

        return false;
    }

    std::ifstream privateKeyInstream(privateKeyFile.c_str());
    if (!privateKeyInstream) {
        std::cerr << "Error: The private key file '" << privateKeyFile <<
                  "' does not exist." << std::endl;

        return false;
    }

    std::ifstream certificateChainInStream(certificateChainFile.c_str());
    if (!certificateChainInStream) {
        std::cerr << "Error: The certificate chain file '"
                  << certificateChainFile << "' does not exist." << std::endl;

        return false;
    }

    Aws::String certificate;
    certificate.assign(std::istreambuf_iterator<char>(certificateInStream),
                       std::istreambuf_iterator<char>());

    Aws::String privateKey;
    privateKey.assign(std::istreambuf_iterator<char>(privateKeyInstream),
                      std::istreambuf_iterator<char>());

    Aws::String certificateChain;
    certificateChain.assign(std::istreambuf_iterator<char>(certificateChainInStream),
                            std::istreambuf_iterator<char>());

    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::ImportCertificateRequest request;

    request.WithCertificate(Aws::Utils::ByteBuffer((unsigned char *)
                                                           certificate.c_str(),
                                                   certificate.size()))
            .WithPrivateKey(Aws::Utils::ByteBuffer((unsigned char *)
                                                           privateKey.c_str(),
                                                   privateKey.size()))
            .WithCertificateChain(Aws::Utils::ByteBuffer((unsigned char *)
                                                                 certificateChain.c_str(),
                                                         certificateChain.size()));

    Aws::ACM::Model::ImportCertificateOutcome outcome =
            acmClient.ImportCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: ImportCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;

        return false;
    }
    else {
        std::cout << "Success: Certificate associated with ARN '" <<
                  outcome.GetResult().GetCertificateArn() << "' imported."
                  << std::endl;

        return true;
    }
}
```
+  Untuk detail API, lihat [ImportCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/ImportCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListCertificates`
<a name="acm_ListCertificates_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! List the AWS Certificate Manager (ACM) certificates in an account.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::listCertificates(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::ListCertificatesRequest request;
    Aws::Vector<Aws::ACM::Model::CertificateSummary> allCertificates;
    Aws::String nextToken;
    do {
        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        Aws::ACM::Model::ListCertificatesOutcome outcome =
                acmClient.ListCertificates(request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Error: ListCertificates: " <<
                      outcome.GetError().GetMessage() << std::endl;

            return false;
        }
        else {
            const Aws::ACM::Model::ListCertificatesResult &result = outcome.GetResult();

            const Aws::Vector<Aws::ACM::Model::CertificateSummary> &certificates =
                    result.GetCertificateSummaryList();
            allCertificates.insert(allCertificates.end(), certificates.begin(),
                                   certificates.end());

            nextToken = result.GetNextToken();
        }
    } while (!nextToken.empty());

    if (!allCertificates.empty()) {
        for (const Aws::ACM::Model::CertificateSummary &certificate: allCertificates) {
            std::cout << "Certificate ARN: " <<
                      certificate.GetCertificateArn() << std::endl;
            std::cout << "Domain name:     " <<
                      certificate.GetDomainName() << std::endl << std::endl;
        }
    }
    else {
        std::cout << "No available certificates found in account."
                  << std::endl;
    }

    return true;
}
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/ListCertificates)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListTagsForCertificate`
<a name="acm_ListTagsForCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! List the tags for an AWS Certificate Manager (ACM) certificate.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::listTagsForCertificate(const Aws::String &certificateArn,
                                         const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acm_client(clientConfiguration);

    Aws::ACM::Model::ListTagsForCertificateRequest request;
    request.WithCertificateArn(certificateArn);

    Aws::ACM::Model::ListTagsForCertificateOutcome outcome =
            acm_client.ListTagsForCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cout << "Error: ListTagsForCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;

        return false;
    }
    else {
        std::cout << "Success: Information about tags for "
                     "certificate with ARN '"
                  << certificateArn << "':" << std::endl << std::endl;

        auto result = outcome.GetResult();

        Aws::Vector<Aws::ACM::Model::Tag> tags =
                result.GetTags();

        if (tags.size() > 0) {
            for (const Aws::ACM::Model::Tag &tag: tags) {
                std::cout << "Key:   " << tag.GetKey() << std::endl;
                std::cout << "Value: " << tag.GetValue()
                          << std::endl << std::endl;
            }
        }
        else {
            std::cout << "No tags found." << std::endl;
        }

        return true;
    }
}
```
+  Untuk detail API, lihat [ListTagsForCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/ListTagsForCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `RemoveTagsFromCertificate`
<a name="acm_RemoveTagsFromCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RemoveTagsFromCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Remove a tag from an ACM certificate.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param tagKey: The key for the tag.
  \param tagValue: The value for the tag.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::removeTagsFromCertificate(const Aws::String &certificateArn,
                                            const Aws::String &tagKey,
                                            const Aws::String &tagValue,
                                            const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::Vector<Aws::ACM::Model::Tag> tags;

    Aws::ACM::Model::Tag tag;
    tag.SetKey(tagKey);

    tags.push_back(tag);

    Aws::ACM::Model::RemoveTagsFromCertificateRequest request;
    request.WithCertificateArn(certificateArn)
            .WithTags(tags);

    Aws::ACM::Model::RemoveTagsFromCertificateOutcome outcome =
            acmClient.RemoveTagsFromCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: RemoveTagFromCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;

        return false;
    }
    else {
        std::cout << "Success: Tag with key '" << tagKey << "' removed from "
                  << "certificate with ARN '" << certificateArn << "'." << std::endl;

        return true;
    }
}
```
+  Untuk detail API, lihat [RemoveTagsFromCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/RemoveTagsFromCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `RenewCertificate`
<a name="acm_RenewCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RenewCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Renew an AWS Certificate Manager (ACM) certificate.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::renewCertificate(const Aws::String &certificateArn,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::RenewCertificateRequest request;
    request.SetCertificateArn(certificateArn);

    Aws::ACM::Model::RenewCertificateOutcome outcome =
            acmClient.RenewCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: RenewCertificate: " <<
                  outcome.GetError().GetMessage() << std::endl;

        return false;
    }
    else {
        std::cout << "Success: Renewed certificate with ARN '"
                  << certificateArn << "'." << std::endl;

        return true;
    }
}
```
+  Untuk detail API, lihat [RenewCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/RenewCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `RequestCertificate`
<a name="acm_RequestCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RequestCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Request an AWS Certificate Manager (ACM) certificate.
/*!
  \param domainName: A fully qualified domain name.
  \param idempotencyToken: Customer chosen string for idempotency.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::requestCertificate(const Aws::String &domainName,
                                     const Aws::String &idempotencyToken,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::RequestCertificateRequest request;
    request.WithDomainName(domainName)
            .WithIdempotencyToken(idempotencyToken);

    Aws::ACM::Model::RequestCertificateOutcome outcome =
            acmClient.RequestCertificate(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "RequestCertificate error: " <<
                  outcome.GetError().GetMessage() << std::endl;

        return false;
    }
    else {
        std::cout << "Success: The newly requested certificate's "
                     "ARN is '" <<
                  outcome.GetResult().GetCertificateArn() <<
                  "'." << std::endl;

        return true;
    }
}
```
+  Untuk detail API, lihat [RequestCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/RequestCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ResendValidationEmail`
<a name="acm_ResendValidationEmail_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendValidationEmail`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Resend the email that requests domain ownership validation.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param domainName: A fully qualified domain name.
  \param validationDomain: The base validation domain that will act as the suffix
                            of the email addresses.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::resendValidationEmail(const Aws::String &certificateArn,
                                        const Aws::String &domainName,
                                        const Aws::String &validationDomain,
                                        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::ResendValidationEmailRequest request;
    request.WithCertificateArn(certificateArn)
            .WithDomain(domainName)
            .WithValidationDomain(validationDomain);

    Aws::ACM::Model::ResendValidationEmailOutcome outcome =
            acmClient.ResendValidationEmail(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "ResendValidationEmail error: " <<
                  outcome.GetError().GetMessage() << std::endl;

        return false;
    }
    else {
        std::cout << "Success: The validation email has been resent."
                  << std::endl;

        return true;
    }
}
```
+  Untuk detail API, lihat [ResendValidationEmail](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/ResendValidationEmail)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateCertificateOptions`
<a name="acm_UpdateCertificateOptions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateCertificateOptions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/acm#code-examples). 

```
//! Update an AWS Certificate Manager (ACM) certificate option.
/*!
  \param certificateArn: The Amazon Resource Name (ARN) of a certificate.
  \param loggingEnabled: Boolean specifying logging enabled.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::ACM::updateCertificateOption(const Aws::String &certificateArn,
                                          bool loggingEnabled,
                                          const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::ACM::ACMClient acmClient(clientConfiguration);

    Aws::ACM::Model::UpdateCertificateOptionsRequest request;
    request.SetCertificateArn(certificateArn);

    Aws::ACM::Model::CertificateOptions options;

    if (loggingEnabled) {
        options.SetCertificateTransparencyLoggingPreference(
                Aws::ACM::Model::CertificateTransparencyLoggingPreference::ENABLED);
    }
    else {
        options.SetCertificateTransparencyLoggingPreference(
                Aws::ACM::Model::CertificateTransparencyLoggingPreference::DISABLED);
    }

    request.SetOptions(options);

    Aws::ACM::Model::UpdateCertificateOptionsOutcome outcome =
            acmClient.UpdateCertificateOptions(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "UpdateCertificateOption error: " <<
                  outcome.GetError().GetMessage() << std::endl;

        return false;
    }
    else {
        std::cout << "Success: The option '"
                  << (loggingEnabled ? "enabled" : "disabled") << "' has been set for "
                                                                  "the certificate with the ARN '"
                  << certificateArn << "'."
                  << std::endl;

        return true;
    }
}
```
+  Untuk detail API, lihat [UpdateCertificateOptions](https://docs.aws.amazon.com/goto/SdkForCpp/acm-2015-12-08/UpdateCertificateOptions)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# Contoh API Gateway menggunakan SDK for C\$1\$1
<a name="cpp_1_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan API Gateway AWS SDK untuk C\$1\$1 with.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk C\$1\$1**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

# Contoh Aurora menggunakan SDK for C\$1\$1
<a name="cpp_1_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with Aurora.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Aurora
<a name="aurora_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Aurora.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora/hello_aurora#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS rds)

# Set this project's name.
project("hello_aurora")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this 
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_aurora.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1aurora.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/rds/RDSClient.h>
#include <aws/rds/model/DescribeDBClustersRequest.h>
#include <iostream>

/*
 *  A "Hello Aurora" starter application which initializes an Amazon Relational Database Service (Amazon RDS) client
 *  and describes the Amazon Aurora (Aurora) clusters.
 *
 *  main function
 *
 *  Usage: 'hello_aurora'
 *
 */
int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::RDS::RDSClient rdsClient(clientConfig);

        Aws::String marker; // Used for pagination.
        std::vector<Aws::String> clusterIds;
        do {
            Aws::RDS::Model::DescribeDBClustersRequest request;

            Aws::RDS::Model::DescribeDBClustersOutcome outcome =
                    rdsClient.DescribeDBClusters(request);

            if (outcome.IsSuccess()) {
                for (auto &cluster: outcome.GetResult().GetDBClusters()) {
                    clusterIds.push_back(cluster.GetDBClusterIdentifier());
                }
                marker = outcome.GetResult().GetMarker();
            } else {
                result = 1;
                std::cerr << "Error with Aurora::GDescribeDBClusters. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                break;
            }
        } while (!marker.empty());

        std::cout << clusterIds.size() << " Aurora clusters found." << std::endl;
        for (auto &clusterId: clusterIds) {
            std::cout << "  clusterId " << clusterId << std::endl;
        }
    }

    Aws::ShutdownAPI(options); // Should only be called once.
    return 0;
}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusters) di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="aurora_Scenario_GetStartedClusters_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter klaster DB Aurora dan mengatur nilai parameter.
+ Membuat klaster DB yang menggunakan grup parameter.
+ Membuat instans DB yang berisi basis data.
+ Mengambil snapshot klaster DB, lalu membersihkan sumber daya.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Routine which creates an Amazon Aurora DB cluster and demonstrates several operations
//! on that cluster.
/*!
 \sa gettingStartedWithDBClusters()
 \param clientConfiguration: AWS client configuration.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::gettingStartedWithDBClusters(
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::RDS::RDSClient client(clientConfig);

    printAsterisksLine();
    std::cout << "Welcome to the Amazon Relational Database Service (Amazon Aurora)"
              << std::endl;
    std::cout << "get started with DB clusters demo." << std::endl;
    printAsterisksLine();

    std::cout << "Checking for an existing DB cluster parameter group named '" <<
              CLUSTER_PARAMETER_GROUP_NAME << "'." << std::endl;
    Aws::String dbParameterGroupFamily("Undefined");
    bool parameterGroupFound = true;
    {
        // 1. Check if the DB cluster parameter group already exists.
        Aws::RDS::Model::DescribeDBClusterParameterGroupsRequest request;
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);

        Aws::RDS::Model::DescribeDBClusterParameterGroupsOutcome outcome =
                client.DescribeDBClusterParameterGroups(request);

        if (outcome.IsSuccess()) {
            std::cout << "DB cluster parameter group named '" <<
                      CLUSTER_PARAMETER_GROUP_NAME << "' already exists." << std::endl;
            dbParameterGroupFamily = outcome.GetResult().GetDBClusterParameterGroups()[0].GetDBParameterGroupFamily();
        }
        else if (outcome.GetError().GetErrorType() ==
                 Aws::RDS::RDSErrors::D_B_PARAMETER_GROUP_NOT_FOUND_FAULT) {
            std::cout << "DB cluster parameter group named '" <<
                      CLUSTER_PARAMETER_GROUP_NAME << "' does not exist." << std::endl;
            parameterGroupFound = false;
        }
        else {
            std::cerr << "Error with Aurora::DescribeDBClusterParameterGroups. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    if (!parameterGroupFound) {
        Aws::Vector<Aws::RDS::Model::DBEngineVersion> engineVersions;

        // 2. Get available parameter group families for the specified engine.
        if (!getDBEngineVersions(DB_ENGINE, NO_PARAMETER_GROUP_FAMILY,
                                 engineVersions, client)) {
            return false;
        }

        std::cout << "Getting available parameter group families for " << DB_ENGINE
                  << "."
                  << std::endl;
        std::vector<Aws::String> families;
        for (const Aws::RDS::Model::DBEngineVersion &version: engineVersions) {
            Aws::String family = version.GetDBParameterGroupFamily();
            if (std::find(families.begin(), families.end(), family) ==
                families.end()) {
                families.push_back(family);
                std::cout << "  " << families.size() << ": " << family << std::endl;
            }
        }

        int choice = askQuestionForIntRange("Which family do you want to use? ", 1,
                                            static_cast<int>(families.size()));
        dbParameterGroupFamily = families[choice - 1];
    }
    if (!parameterGroupFound) {
        // 3.  Create a DB cluster parameter group.
        Aws::RDS::Model::CreateDBClusterParameterGroupRequest request;
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);
        request.SetDBParameterGroupFamily(dbParameterGroupFamily);
        request.SetDescription("Example cluster parameter group.");

        Aws::RDS::Model::CreateDBClusterParameterGroupOutcome outcome =
                client.CreateDBClusterParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB cluster parameter group was successfully created."
                      << std::endl;
        }
        else {
            std::cerr << "Error with Aurora::CreateDBClusterParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    printAsterisksLine();
    std::cout << "Let's set some parameter values in your cluster parameter group."
              << std::endl;

    Aws::Vector<Aws::RDS::Model::Parameter> autoIncrementParameters;
    // 4.  Get the parameters in the DB cluster parameter group.
    if (!getDBCLusterParameters(CLUSTER_PARAMETER_GROUP_NAME, AUTO_INCREMENT_PREFIX,
                                NO_SOURCE,
                                autoIncrementParameters,
                                client)) {
        cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, "", "", client);
        return false;
    }

    Aws::Vector<Aws::RDS::Model::Parameter> updateParameters;

    for (Aws::RDS::Model::Parameter &autoIncParameter: autoIncrementParameters) {
        if (autoIncParameter.GetIsModifiable() &&
            (autoIncParameter.GetDataType() == "integer")) {
            std::cout << "The " << autoIncParameter.GetParameterName()
                      << " is described as: " <<
                      autoIncParameter.GetDescription() << "." << std::endl;
            if (autoIncParameter.ParameterValueHasBeenSet()) {
                std::cout << "The current value is "
                          << autoIncParameter.GetParameterValue()
                          << "." << std::endl;
            }
            std::vector<int> splitValues = splitToInts(
                    autoIncParameter.GetAllowedValues(), '-');
            if (splitValues.size() == 2) {
                int newValue = askQuestionForIntRange(
                        Aws::String("Enter a new value between ") +
                        autoIncParameter.GetAllowedValues() + ": ",
                        splitValues[0], splitValues[1]);
                autoIncParameter.SetParameterValue(std::to_string(newValue));
                updateParameters.push_back(autoIncParameter);

            }
            else {
                std::cerr << "Error parsing " << autoIncParameter.GetAllowedValues()
                          << std::endl;
            }
        }
    }

    {
        // 5.  Modify the auto increment parameters in the DB cluster parameter group.
        Aws::RDS::Model::ModifyDBClusterParameterGroupRequest request;
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);
        request.SetParameters(updateParameters);

        Aws::RDS::Model::ModifyDBClusterParameterGroupOutcome outcome =
                client.ModifyDBClusterParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB cluster parameter group was successfully modified."
                      << std::endl;
        }
        else {
            std::cerr << "Error with Aurora::ModifyDBClusterParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    }

    std::cout
            << "You can get a list of parameters you've set by specifying a source of 'user'."
            << std::endl;

    Aws::Vector<Aws::RDS::Model::Parameter> userParameters;
    // 6.  Display the modified parameters in the DB cluster parameter group.
    if (!getDBCLusterParameters(CLUSTER_PARAMETER_GROUP_NAME, NO_NAME_PREFIX, "user",
                                userParameters,
                                client)) {
        cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, "", "", client);
        return false;
    }

    for (const auto &userParameter: userParameters) {
        std::cout << "  " << userParameter.GetParameterName() << ", " <<
                  userParameter.GetDescription() << ", parameter value - "
                  << userParameter.GetParameterValue() << std::endl;
    }

    printAsterisksLine();
    std::cout << "Checking for an existing DB Cluster." << std::endl;

    Aws::RDS::Model::DBCluster dbCluster;
    // 7.  Check if the DB cluster already exists.
    if (!describeDBCluster(DB_CLUSTER_IDENTIFIER, dbCluster, client)) {
        cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, "", "", client);
        return false;
    }

    Aws::String engineVersionName;
    Aws::String engineName;
    if (dbCluster.DBClusterIdentifierHasBeenSet()) {
        std::cout << "The DB cluster already exists." << std::endl;
        engineVersionName = dbCluster.GetEngineVersion();
        engineName = dbCluster.GetEngine();

    }
    else {
        std::cout << "Let's create a DB cluster." << std::endl;
        const Aws::String administratorName = askQuestion(
                "Enter an administrator username for the database: ");
        const Aws::String administratorPassword = askQuestion(
                "Enter a password for the administrator (at least 8 characters): ");
        Aws::Vector<Aws::RDS::Model::DBEngineVersion> engineVersions;

        // 8.  Get a list of engine versions for the parameter group family.
        if (!getDBEngineVersions(DB_ENGINE, dbParameterGroupFamily, engineVersions,
                                 client)) {
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, "", "", client);
            return false;
        }

        std::cout << "The available engines for your parameter group family are:"
                  << std::endl;

        int index = 1;
        for (const Aws::RDS::Model::DBEngineVersion &engineVersion: engineVersions) {
            std::cout << "  " << index << ": " << engineVersion.GetEngineVersion()
                      << std::endl;
            ++index;
        }
        int choice = askQuestionForIntRange("Which engine do you want to use? ", 1,
                                            static_cast<int>(engineVersions.size()));
        const Aws::RDS::Model::DBEngineVersion engineVersion = engineVersions[choice -
                                                                              1];

        engineName = engineVersion.GetEngine();
        engineVersionName = engineVersion.GetEngineVersion();
        std::cout << "Creating a DB cluster named '" << DB_CLUSTER_IDENTIFIER
                  << "' and database '" << DB_NAME << "'.\n"
                  << "The DB cluster is configured to use your custom cluster parameter group '"
                  << CLUSTER_PARAMETER_GROUP_NAME << "', and \n"
                  << "selected engine version " << engineVersion.GetEngineVersion()
                  << ".\nThis typically takes several minutes." << std::endl;

        Aws::RDS::Model::CreateDBClusterRequest request;
        request.SetDBClusterIdentifier(DB_CLUSTER_IDENTIFIER);
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);
        request.SetEngine(engineName);
        request.SetEngineVersion(engineVersionName);
        request.SetMasterUsername(administratorName);
        request.SetMasterUserPassword(administratorPassword);

        Aws::RDS::Model::CreateDBClusterOutcome outcome =
                client.CreateDBCluster(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB cluster creation has started."
                      << std::endl;
        }
        else {
            std::cerr << "Error with Aurora::CreateDBCluster. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, "", "", client);
            return false;
        }
    }

    std::cout << "Waiting for the DB cluster to become available." << std::endl;

    int counter = 0;
    // 11. Wait for the DB cluster to become available.
    do {
        std::this_thread::sleep_for(std::chrono::seconds(1));
        ++counter;
        if (counter > 900) {
            std::cerr << "Wait for cluster to become available timed out ofter "
                      << counter
                      << " seconds." << std::endl;
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                             DB_CLUSTER_IDENTIFIER, "", client);
            return false;
        }

        dbCluster = Aws::RDS::Model::DBCluster();
        if (!describeDBCluster(DB_CLUSTER_IDENTIFIER, dbCluster, client)) {
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                             DB_CLUSTER_IDENTIFIER, "", client);
            return false;
        }

        if ((counter % 20) == 0) {
            std::cout << "Current DB cluster status is '"
                      << dbCluster.GetStatus()
                      << "' after " << counter << " seconds." << std::endl;
        }
    } while (dbCluster.GetStatus() != "available");

    if (dbCluster.GetStatus() == "available") {
        std::cout << "The DB cluster has been created." << std::endl;
    }

    printAsterisksLine();
    Aws::RDS::Model::DBInstance dbInstance;
    // 11.  Check if the DB instance already exists.
    if (!describeDBInstance(DB_INSTANCE_IDENTIFIER, dbInstance, client)) {
        cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, DB_CLUSTER_IDENTIFIER, "",
                         client);
        return false;
    }

    if (dbInstance.DbInstancePortHasBeenSet()) {
        std::cout << "The DB instance already exists." << std::endl;
    }
    else {
        std::cout << "Let's create a DB instance." << std::endl;

        Aws::String dbInstanceClass;
        // 12.  Get a list of instance classes.
        if (!chooseDBInstanceClass(engineName,
                                   engineVersionName,
                                   dbInstanceClass,
                                   client)) {
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, DB_CLUSTER_IDENTIFIER, "",
                             client);
            return false;
        }

        std::cout << "Creating a DB instance named '" << DB_INSTANCE_IDENTIFIER
                  << "' with selected DB instance class '" << dbInstanceClass
                  << "'.\nThis typically takes several minutes." << std::endl;

        // 13. Create a DB instance.
        Aws::RDS::Model::CreateDBInstanceRequest request;
        request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER);
        request.SetDBClusterIdentifier(DB_CLUSTER_IDENTIFIER);
        request.SetEngine(engineName);
        request.SetDBInstanceClass(dbInstanceClass);

        Aws::RDS::Model::CreateDBInstanceOutcome outcome =
                client.CreateDBInstance(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB instance creation has started."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::CreateDBInstance. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, DB_CLUSTER_IDENTIFIER, "",
                             client);
            return false;
        }
    }

    std::cout << "Waiting for the DB instance to become available." << std::endl;

    counter = 0;
    // 14. Wait for the DB instance to become available.
    do {
        std::this_thread::sleep_for(std::chrono::seconds(1));
        ++counter;
        if (counter > 900) {
            std::cerr << "Wait for instance to become available timed out ofter "
                      << counter
                      << " seconds." << std::endl;
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                             DB_CLUSTER_IDENTIFIER, DB_INSTANCE_IDENTIFIER, client);
            return false;
        }

        dbInstance = Aws::RDS::Model::DBInstance();
        if (!describeDBInstance(DB_INSTANCE_IDENTIFIER, dbInstance, client)) {
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                             DB_CLUSTER_IDENTIFIER, DB_INSTANCE_IDENTIFIER, client);
            return false;
        }

        if ((counter % 20) == 0) {
            std::cout << "Current DB instance status is '"
                      << dbInstance.GetDBInstanceStatus()
                      << "' after " << counter << " seconds." << std::endl;
        }
    } while (dbInstance.GetDBInstanceStatus() != "available");

    if (dbInstance.GetDBInstanceStatus() == "available") {
        std::cout << "The DB instance has been created." << std::endl;
    }

    // 15. Display the connection string that can be used to connect a 'mysql' shell to the database.
    displayConnection(dbCluster);

    printAsterisksLine();

    if (askYesNoQuestion(
            "Do you want to create a snapshot of your DB cluster (y/n)? ")) {
        Aws::String snapshotID(DB_CLUSTER_IDENTIFIER + "-" +
                               Aws::String(Aws::Utils::UUID::RandomUUID()));
        {
            std::cout << "Creating a snapshot named " << snapshotID << "." << std::endl;
            std::cout << "This typically takes a few minutes." << std::endl;

            // 16. Create a snapshot of the DB cluster. (CreateDBClusterSnapshot)
            Aws::RDS::Model::CreateDBClusterSnapshotRequest request;
            request.SetDBClusterIdentifier(DB_CLUSTER_IDENTIFIER);
            request.SetDBClusterSnapshotIdentifier(snapshotID);

            Aws::RDS::Model::CreateDBClusterSnapshotOutcome outcome =
                    client.CreateDBClusterSnapshot(request);

            if (outcome.IsSuccess()) {
                std::cout << "Snapshot creation has started."
                          << std::endl;
            }
            else {
                std::cerr << "Error with Aurora::CreateDBClusterSnapshot. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                                 DB_CLUSTER_IDENTIFIER, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }
        }

        std::cout << "Waiting for the snapshot to become available." << std::endl;

        Aws::RDS::Model::DBClusterSnapshot snapshot;
        counter = 0;
        do {
            std::this_thread::sleep_for(std::chrono::seconds(1));
            ++counter;
            if (counter > 600) {
                std::cerr << "Wait for snapshot to be available timed out ofter "
                          << counter
                          << " seconds." << std::endl;
                cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                                 DB_CLUSTER_IDENTIFIER, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }

            // 17. Wait for the snapshot to become available.
            Aws::RDS::Model::DescribeDBClusterSnapshotsRequest request;
            request.SetDBClusterSnapshotIdentifier(snapshotID);

            Aws::RDS::Model::DescribeDBClusterSnapshotsOutcome outcome =
                    client.DescribeDBClusterSnapshots(request);

            if (outcome.IsSuccess()) {
                snapshot = outcome.GetResult().GetDBClusterSnapshots()[0];
            }
            else {
                std::cerr << "Error with Aurora::DescribeDBClusterSnapshots. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                                 DB_CLUSTER_IDENTIFIER, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }

            if ((counter % 20) == 0) {
                std::cout << "Current snapshot status is '"
                          << snapshot.GetStatus()
                          << "' after " << counter << " seconds." << std::endl;
            }
        } while (snapshot.GetStatus() != "available");

        if (snapshot.GetStatus() != "available") {
            std::cout << "A snapshot has been created." << std::endl;
        }
    }

    printAsterisksLine();

    bool result = true;
    if (askYesNoQuestion(
            "Do you want to delete the DB cluster, DB instance, and parameter group (y/n)? ")) {
        result = cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                                  DB_CLUSTER_IDENTIFIER, DB_INSTANCE_IDENTIFIER,
                                  client);
    }

    return result;
}

//! Routine which gets a DB cluster description.
/*!
 \sa describeDBCluster()
 \param dbClusterIdentifier: A DB cluster identifier.
 \param clusterResult: The 'DBCluster' object containing the description.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::describeDBCluster(const Aws::String &dbClusterIdentifier,
                                       Aws::RDS::Model::DBCluster &clusterResult,
                                       const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBClustersRequest request;
    request.SetDBClusterIdentifier(dbClusterIdentifier);

    Aws::RDS::Model::DescribeDBClustersOutcome outcome =
            client.DescribeDBClusters(request);

    bool result = true;
    if (outcome.IsSuccess()) {
        clusterResult = outcome.GetResult().GetDBClusters()[0];
    }
    else if (outcome.GetError().GetErrorType() !=
             Aws::RDS::RDSErrors::D_B_CLUSTER_NOT_FOUND_FAULT) {
        result = false;
        std::cerr << "Error with Aurora::GDescribeDBClusters. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
        // This example does not log an error if the DB cluster does not exist.
        // Instead, clusterResult is set to empty.
    else {
        clusterResult = Aws::RDS::Model::DBCluster();
    }

    return result;

}


//! Routine which gets DB parameters using the 'DescribeDBClusterParameters' api.
/*!
 \sa getDBCLusterParameters()
 \param parameterGroupName: The name of the cluster parameter group.
 \param namePrefix: Prefix string to filter results by parameter name.
 \param source: A source such as 'user', ignored if empty.
 \param parametersResult: Vector of 'Parameter' objects returned by the routine.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::getDBCLusterParameters(const Aws::String &parameterGroupName,
                                            const Aws::String &namePrefix,
                                            const Aws::String &source,
                                            Aws::Vector<Aws::RDS::Model::Parameter> &parametersResult,
                                            const Aws::RDS::RDSClient &client) {
    Aws::String marker; // The marker is used for pagination.
    do {
        Aws::RDS::Model::DescribeDBClusterParametersRequest request;
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);
        if (!marker.empty()) {
            request.SetMarker(marker);
        }
        if (!source.empty()) {
            request.SetSource(source);
        }

        Aws::RDS::Model::DescribeDBClusterParametersOutcome outcome =
                client.DescribeDBClusterParameters(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::Parameter> &parameters =
                    outcome.GetResult().GetParameters();
            for (const Aws::RDS::Model::Parameter &parameter: parameters) {
                if (!namePrefix.empty()) {
                    if (parameter.GetParameterName().find(namePrefix) == 0) {
                        parametersResult.push_back(parameter);
                    }
                }
                else {
                    parametersResult.push_back(parameter);
                }
            }

            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with Aurora::DescribeDBClusterParameters. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!marker.empty());

    return true;
}


//! Routine which gets available DB engine versions for an engine name and
//! an optional parameter group family.
/*!
 \sa getDBEngineVersions()
 \param engineName: A DB engine name.
 \param parameterGroupFamily: A parameter group family name, ignored if empty.
 \param engineVersionsResult: Vector of 'DBEngineVersion' objects returned by the routine.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::getDBEngineVersions(const Aws::String &engineName,
                                         const Aws::String &parameterGroupFamily,
                                         Aws::Vector<Aws::RDS::Model::DBEngineVersion> &engineVersionsResult,
                                         const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBEngineVersionsRequest request;
    request.SetEngine(engineName);
    if (!parameterGroupFamily.empty()) {
        request.SetDBParameterGroupFamily(parameterGroupFamily);
    }

    engineVersionsResult.clear();
    Aws::String marker; // The marker is used for pagination.
    do {
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::RDS::Model::DescribeDBEngineVersionsOutcome outcome =
                client.DescribeDBEngineVersions(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::DBEngineVersion> &engineVersions =
                    outcome.GetResult().GetDBEngineVersions();

            engineVersionsResult.insert(engineVersionsResult.end(),
                                        engineVersions.begin(), engineVersions.end());
            marker  = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with Aurora::DescribeDBEngineVersionsRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    } while (!marker.empty());

    return true;
}


//! Routine which gets a DB instance description.
/*!
 \sa describeDBCluster()
 \param dbInstanceIdentifier: A DB instance identifier.
 \param instanceResult: The 'DBInstance' object containing the description.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::describeDBInstance(const Aws::String &dbInstanceIdentifier,
                                        Aws::RDS::Model::DBInstance &instanceResult,
                                        const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBInstancesRequest request;
    request.SetDBInstanceIdentifier(dbInstanceIdentifier);

    Aws::RDS::Model::DescribeDBInstancesOutcome outcome =
            client.DescribeDBInstances(request);

    bool result = true;
    if (outcome.IsSuccess()) {
        instanceResult = outcome.GetResult().GetDBInstances()[0];
    }
    else if (outcome.GetError().GetErrorType() !=
             Aws::RDS::RDSErrors::D_B_INSTANCE_NOT_FOUND_FAULT) {
        result = false;
        std::cerr << "Error with Aurora::DescribeDBInstances. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
        // This example does not log an error if the DB instance does not exist.
        // Instead, instanceResult is set to empty.
    else {
        instanceResult = Aws::RDS::Model::DBInstance();
    }

    return result;
}


//! Routine which gets available DB instance classes, displays the list
//! to the user, and returns the user selection.
/*!
 \sa chooseDBInstanceClass()
 \param engineName: The DB engine name.
 \param engineVersion: The DB engine version.
 \param dbInstanceClass: String for DB instance class chosen by the user.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::chooseDBInstanceClass(const Aws::String &engine,
                                           const Aws::String &engineVersion,
                                           Aws::String &dbInstanceClass,
                                           const Aws::RDS::RDSClient &client) {
    std::vector<Aws::String> instanceClasses;
    Aws::String marker; // The marker is used for pagination.
    do {
        Aws::RDS::Model::DescribeOrderableDBInstanceOptionsRequest request;
        request.SetEngine(engine);
        request.SetEngineVersion(engineVersion);
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::RDS::Model::DescribeOrderableDBInstanceOptionsOutcome outcome =
                client.DescribeOrderableDBInstanceOptions(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::OrderableDBInstanceOption> &options =
                    outcome.GetResult().GetOrderableDBInstanceOptions();
            for (const Aws::RDS::Model::OrderableDBInstanceOption &option: options) {
                const Aws::String &instanceClass = option.GetDBInstanceClass();
                if (std::find(instanceClasses.begin(), instanceClasses.end(),
                              instanceClass) == instanceClasses.end()) {
                    instanceClasses.push_back(instanceClass);
                }
            }
            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with Aurora::DescribeOrderableDBInstanceOptions. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!marker.empty());

    std::cout << "The available DB instance classes for your database engine are:"
              << std::endl;
    for (int i = 0; i < instanceClasses.size(); ++i) {
        std::cout << "   " << i + 1 << ": " << instanceClasses[i] << std::endl;
    }

    int choice = askQuestionForIntRange(
            "Which DB instance class do you want to use? ",
            1, static_cast<int>(instanceClasses.size()));
    dbInstanceClass = instanceClasses[choice - 1];
    return true;
}

//! Routine which deletes resources created by the scenario.
/*!
\sa cleanUpResources()
\param parameterGroupName: A parameter group name, this may be empty.
\param dbInstanceIdentifier: A DB instance identifier, this may be empty.
\param client: 'RDSClient' instance.
\return bool: Successful completion.
*/
bool AwsDoc::Aurora::cleanUpResources(const Aws::String &parameterGroupName,
                                      const Aws::String &dbClusterIdentifier,
                                      const Aws::String &dbInstanceIdentifier,
                                      const Aws::RDS::RDSClient &client) {
    bool result = true;
    bool instanceDeleting = false;
    bool clusterDeleting = false;
    if (!dbInstanceIdentifier.empty()) {
        {
            // 18. Delete the DB instance.
            Aws::RDS::Model::DeleteDBInstanceRequest request;
            request.SetDBInstanceIdentifier(dbInstanceIdentifier);
            request.SetSkipFinalSnapshot(true);
            request.SetDeleteAutomatedBackups(true);

            Aws::RDS::Model::DeleteDBInstanceOutcome outcome =
                    client.DeleteDBInstance(request);

            if (outcome.IsSuccess()) {
                std::cout << "DB instance deletion has started."
                          << std::endl;
                instanceDeleting = true;
                std::cout
                        << "Waiting for DB instance to delete before deleting the parameter group."
                        << std::endl;
            }
            else {
                std::cerr << "Error with Aurora::DeleteDBInstance. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }
    }

    if (!dbClusterIdentifier.empty()) {
        {
            // 19. Delete the DB cluster.
            Aws::RDS::Model::DeleteDBClusterRequest request;
            request.SetDBClusterIdentifier(dbClusterIdentifier);
            request.SetSkipFinalSnapshot(true);

            Aws::RDS::Model::DeleteDBClusterOutcome outcome =
                    client.DeleteDBCluster(request);

            if (outcome.IsSuccess()) {
                std::cout << "DB cluster deletion has started."
                          << std::endl;
                clusterDeleting = true;
                std::cout
                        << "Waiting for DB cluster to delete before deleting the parameter group."
                        << std::endl;
                std::cout << "This may take a while." << std::endl;
            }
            else {
                std::cerr << "Error with Aurora::DeleteDBCluster. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }
    }
    int counter = 0;

    while (clusterDeleting || instanceDeleting) {
        // 20. Wait for the DB cluster and instance to be deleted.
        std::this_thread::sleep_for(std::chrono::seconds(1));
        ++counter;
        if (counter > 800) {
            std::cerr << "Wait for instance to delete timed out ofter " << counter
                      << " seconds." << std::endl;
            return false;
        }

        Aws::RDS::Model::DBInstance dbInstance = Aws::RDS::Model::DBInstance();
        if (instanceDeleting) {
            if (!describeDBInstance(dbInstanceIdentifier, dbInstance, client)) {
                return false;
            }
            instanceDeleting = dbInstance.DBInstanceIdentifierHasBeenSet();
        }

        Aws::RDS::Model::DBCluster dbCluster = Aws::RDS::Model::DBCluster();
        if (clusterDeleting) {
            if (!describeDBCluster(dbClusterIdentifier, dbCluster, client)) {
                return false;
            }

            clusterDeleting = dbCluster.DBClusterIdentifierHasBeenSet();
        }

        if ((counter % 20) == 0) {
            if (instanceDeleting) {
                std::cout << "Current DB instance status is '"
                          << dbInstance.GetDBInstanceStatus() << "." << std::endl;
            }

            if (clusterDeleting) {
                std::cout << "Current DB cluster status is '"
                          << dbCluster.GetStatus() << "." << std::endl;
            }
        }
    }

    if (!parameterGroupName.empty()) {
        // 21. Delete the DB cluster parameter group.
        Aws::RDS::Model::DeleteDBClusterParameterGroupRequest request;
        request.SetDBClusterParameterGroupName(parameterGroupName);

        Aws::RDS::Model::DeleteDBClusterParameterGroupOutcome outcome =
                client.DeleteDBClusterParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB parameter group was successfully deleted."
                      << std::endl;
        }
        else {
            std::cerr << "Error with Aurora::DeleteDBClusterParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
    }

    return result;
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [Buat DBCluster](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBCluster)
  + [Buat DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBClusterParameterGroup)
  + [Buat DBCluster Snapshot](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBClusterSnapshot)
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBInstance)
  + [Hapus DBCluster](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBCluster)
  + [Hapus DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBClusterParameterGroup)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBInstance)
  + [Jelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusterParameterGroups)
  + [Jelaskan DBCluster Parameter](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusterParameters)
  + [Jelaskan DBCluster Snapshots](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusterSnapshots)
  + [Jelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusters)
  + [Jelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBInstances)
  + [DescribeOrderableDBInstancePilihan](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeOrderableDBInstanceOptions)
  + [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/ModifyDBClusterParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="aurora_CreateDBCluster_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::CreateDBClusterRequest request;
        request.SetDBClusterIdentifier(DB_CLUSTER_IDENTIFIER);
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);
        request.SetEngine(engineName);
        request.SetEngineVersion(engineVersionName);
        request.SetMasterUsername(administratorName);
        request.SetMasterUserPassword(administratorPassword);

        Aws::RDS::Model::CreateDBClusterOutcome outcome =
                client.CreateDBCluster(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB cluster creation has started."
                      << std::endl;
        }
        else {
            std::cerr << "Error with Aurora::CreateDBCluster. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, "", "", client);
            return false;
        }
```
+  Untuk detail API, lihat [Membuat DBCluster](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBCluster) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateDBClusterParameterGroup`
<a name="aurora_CreateDBClusterParameterGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterParameterGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::CreateDBClusterParameterGroupRequest request;
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);
        request.SetDBParameterGroupFamily(dbParameterGroupFamily);
        request.SetDescription("Example cluster parameter group.");

        Aws::RDS::Model::CreateDBClusterParameterGroupOutcome outcome =
                client.CreateDBClusterParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB cluster parameter group was successfully created."
                      << std::endl;
        }
        else {
            std::cerr << "Error with Aurora::CreateDBClusterParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [Membuat DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBClusterParameterGroup) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateDBClusterSnapshot`
<a name="aurora_CreateDBClusterSnapshot_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterSnapshot`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

            Aws::RDS::Model::CreateDBClusterSnapshotRequest request;
            request.SetDBClusterIdentifier(DB_CLUSTER_IDENTIFIER);
            request.SetDBClusterSnapshotIdentifier(snapshotID);

            Aws::RDS::Model::CreateDBClusterSnapshotOutcome outcome =
                    client.CreateDBClusterSnapshot(request);

            if (outcome.IsSuccess()) {
                std::cout << "Snapshot creation has started."
                          << std::endl;
            }
            else {
                std::cerr << "Error with Aurora::CreateDBClusterSnapshot. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                                 DB_CLUSTER_IDENTIFIER, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }
```
+  Untuk detail API, lihat [Membuat DBCluster Snapshot](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBClusterSnapshot) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateDBInstance`
<a name="aurora_CreateDBInstance_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::CreateDBInstanceRequest request;
        request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER);
        request.SetDBClusterIdentifier(DB_CLUSTER_IDENTIFIER);
        request.SetEngine(engineName);
        request.SetDBInstanceClass(dbInstanceClass);

        Aws::RDS::Model::CreateDBInstanceOutcome outcome =
                client.CreateDBInstance(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB instance creation has started."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::CreateDBInstance. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME, DB_CLUSTER_IDENTIFIER, "",
                             client);
            return false;
        }
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBInstance) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteDBCluster`
<a name="aurora_DeleteDBCluster_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

            Aws::RDS::Model::DeleteDBClusterRequest request;
            request.SetDBClusterIdentifier(dbClusterIdentifier);
            request.SetSkipFinalSnapshot(true);

            Aws::RDS::Model::DeleteDBClusterOutcome outcome =
                    client.DeleteDBCluster(request);

            if (outcome.IsSuccess()) {
                std::cout << "DB cluster deletion has started."
                          << std::endl;
                clusterDeleting = true;
                std::cout
                        << "Waiting for DB cluster to delete before deleting the parameter group."
                        << std::endl;
                std::cout << "This may take a while." << std::endl;
            }
            else {
                std::cerr << "Error with Aurora::DeleteDBCluster. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBCluster) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteDBClusterParameterGroup`
<a name="aurora_DeleteDBClusterParameterGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBClusterParameterGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::DeleteDBClusterParameterGroupRequest request;
        request.SetDBClusterParameterGroupName(parameterGroupName);

        Aws::RDS::Model::DeleteDBClusterParameterGroupOutcome outcome =
                client.DeleteDBClusterParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB parameter group was successfully deleted."
                      << std::endl;
        }
        else {
            std::cerr << "Error with Aurora::DeleteDBClusterParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
```
+  Untuk detail API, lihat [Menghapus DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBClusterParameterGroup) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteDBInstance`
<a name="aurora_DeleteDBInstance_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

            Aws::RDS::Model::DeleteDBInstanceRequest request;
            request.SetDBInstanceIdentifier(dbInstanceIdentifier);
            request.SetSkipFinalSnapshot(true);
            request.SetDeleteAutomatedBackups(true);

            Aws::RDS::Model::DeleteDBInstanceOutcome outcome =
                    client.DeleteDBInstance(request);

            if (outcome.IsSuccess()) {
                std::cout << "DB instance deletion has started."
                          << std::endl;
                instanceDeleting = true;
                std::cout
                        << "Waiting for DB instance to delete before deleting the parameter group."
                        << std::endl;
            }
            else {
                std::cerr << "Error with Aurora::DeleteDBInstance. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBInstance) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBClusterParameterGroups`
<a name="aurora_DescribeDBClusterParameterGroups_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameterGroups`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::DescribeDBClusterParameterGroupsRequest request;
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);

        Aws::RDS::Model::DescribeDBClusterParameterGroupsOutcome outcome =
                client.DescribeDBClusterParameterGroups(request);

        if (outcome.IsSuccess()) {
            std::cout << "DB cluster parameter group named '" <<
                      CLUSTER_PARAMETER_GROUP_NAME << "' already exists." << std::endl;
            dbParameterGroupFamily = outcome.GetResult().GetDBClusterParameterGroups()[0].GetDBParameterGroupFamily();
        }

        else {
            std::cerr << "Error with Aurora::DescribeDBClusterParameterGroups. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [Menjelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusterParameterGroups) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBClusterParameters`
<a name="aurora_DescribeDBClusterParameters_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameters`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);


//! Routine which gets DB parameters using the 'DescribeDBClusterParameters' api.
/*!
 \sa getDBCLusterParameters()
 \param parameterGroupName: The name of the cluster parameter group.
 \param namePrefix: Prefix string to filter results by parameter name.
 \param source: A source such as 'user', ignored if empty.
 \param parametersResult: Vector of 'Parameter' objects returned by the routine.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::getDBCLusterParameters(const Aws::String &parameterGroupName,
                                            const Aws::String &namePrefix,
                                            const Aws::String &source,
                                            Aws::Vector<Aws::RDS::Model::Parameter> &parametersResult,
                                            const Aws::RDS::RDSClient &client) {
    Aws::String marker; // The marker is used for pagination.
    do {
        Aws::RDS::Model::DescribeDBClusterParametersRequest request;
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);
        if (!marker.empty()) {
            request.SetMarker(marker);
        }
        if (!source.empty()) {
            request.SetSource(source);
        }

        Aws::RDS::Model::DescribeDBClusterParametersOutcome outcome =
                client.DescribeDBClusterParameters(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::Parameter> &parameters =
                    outcome.GetResult().GetParameters();
            for (const Aws::RDS::Model::Parameter &parameter: parameters) {
                if (!namePrefix.empty()) {
                    if (parameter.GetParameterName().find(namePrefix) == 0) {
                        parametersResult.push_back(parameter);
                    }
                }
                else {
                    parametersResult.push_back(parameter);
                }
            }

            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with Aurora::DescribeDBClusterParameters. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!marker.empty());

    return true;
}
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Parameter](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusterParameters) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBClusterSnapshots`
<a name="aurora_DescribeDBClusterSnapshots_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterSnapshots`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

            Aws::RDS::Model::DescribeDBClusterSnapshotsRequest request;
            request.SetDBClusterSnapshotIdentifier(snapshotID);

            Aws::RDS::Model::DescribeDBClusterSnapshotsOutcome outcome =
                    client.DescribeDBClusterSnapshots(request);

            if (outcome.IsSuccess()) {
                snapshot = outcome.GetResult().GetDBClusterSnapshots()[0];
            }
            else {
                std::cerr << "Error with Aurora::DescribeDBClusterSnapshots. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUpResources(CLUSTER_PARAMETER_GROUP_NAME,
                                 DB_CLUSTER_IDENTIFIER, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Snapshot](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusterSnapshots) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBClusters`
<a name="aurora_DescribeDBClusters_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

//! Routine which gets a DB cluster description.
/*!
 \sa describeDBCluster()
 \param dbClusterIdentifier: A DB cluster identifier.
 \param clusterResult: The 'DBCluster' object containing the description.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::describeDBCluster(const Aws::String &dbClusterIdentifier,
                                       Aws::RDS::Model::DBCluster &clusterResult,
                                       const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBClustersRequest request;
    request.SetDBClusterIdentifier(dbClusterIdentifier);

    Aws::RDS::Model::DescribeDBClustersOutcome outcome =
            client.DescribeDBClusters(request);

    bool result = true;
    if (outcome.IsSuccess()) {
        clusterResult = outcome.GetResult().GetDBClusters()[0];
    }
    else if (outcome.GetError().GetErrorType() !=
             Aws::RDS::RDSErrors::D_B_CLUSTER_NOT_FOUND_FAULT) {
        result = false;
        std::cerr << "Error with Aurora::GDescribeDBClusters. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
        // This example does not log an error if the DB cluster does not exist.
        // Instead, clusterResult is set to empty.
    else {
        clusterResult = Aws::RDS::Model::DBCluster();
    }

    return result;

}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBClusters) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBEngineVersions`
<a name="aurora_DescribeDBEngineVersions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);


//! Routine which gets available DB engine versions for an engine name and
//! an optional parameter group family.
/*!
 \sa getDBEngineVersions()
 \param engineName: A DB engine name.
 \param parameterGroupFamily: A parameter group family name, ignored if empty.
 \param engineVersionsResult: Vector of 'DBEngineVersion' objects returned by the routine.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::getDBEngineVersions(const Aws::String &engineName,
                                         const Aws::String &parameterGroupFamily,
                                         Aws::Vector<Aws::RDS::Model::DBEngineVersion> &engineVersionsResult,
                                         const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBEngineVersionsRequest request;
    request.SetEngine(engineName);
    if (!parameterGroupFamily.empty()) {
        request.SetDBParameterGroupFamily(parameterGroupFamily);
    }

    engineVersionsResult.clear();
    Aws::String marker; // The marker is used for pagination.
    do {
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::RDS::Model::DescribeDBEngineVersionsOutcome outcome =
                client.DescribeDBEngineVersions(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::DBEngineVersion> &engineVersions =
                    outcome.GetResult().GetDBEngineVersions();

            engineVersionsResult.insert(engineVersionsResult.end(),
                                        engineVersions.begin(), engineVersions.end());
            marker  = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with Aurora::DescribeDBEngineVersionsRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    } while (!marker.empty());

    return true;
}
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBEngineVersions) dalam *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBInstances`
<a name="aurora_DescribeDBInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);


//! Routine which gets a DB instance description.
/*!
 \sa describeDBCluster()
 \param dbInstanceIdentifier: A DB instance identifier.
 \param instanceResult: The 'DBInstance' object containing the description.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::describeDBInstance(const Aws::String &dbInstanceIdentifier,
                                        Aws::RDS::Model::DBInstance &instanceResult,
                                        const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBInstancesRequest request;
    request.SetDBInstanceIdentifier(dbInstanceIdentifier);

    Aws::RDS::Model::DescribeDBInstancesOutcome outcome =
            client.DescribeDBInstances(request);

    bool result = true;
    if (outcome.IsSuccess()) {
        instanceResult = outcome.GetResult().GetDBInstances()[0];
    }
    else if (outcome.GetError().GetErrorType() !=
             Aws::RDS::RDSErrors::D_B_INSTANCE_NOT_FOUND_FAULT) {
        result = false;
        std::cerr << "Error with Aurora::DescribeDBInstances. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
        // This example does not log an error if the DB instance does not exist.
        // Instead, instanceResult is set to empty.
    else {
        instanceResult = Aws::RDS::Model::DBInstance();
    }

    return result;
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeOrderableDBInstanceOptions`
<a name="aurora_DescribeOrderableDBInstanceOptions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);


//! Routine which gets available DB instance classes, displays the list
//! to the user, and returns the user selection.
/*!
 \sa chooseDBInstanceClass()
 \param engineName: The DB engine name.
 \param engineVersion: The DB engine version.
 \param dbInstanceClass: String for DB instance class chosen by the user.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::Aurora::chooseDBInstanceClass(const Aws::String &engine,
                                           const Aws::String &engineVersion,
                                           Aws::String &dbInstanceClass,
                                           const Aws::RDS::RDSClient &client) {
    std::vector<Aws::String> instanceClasses;
    Aws::String marker; // The marker is used for pagination.
    do {
        Aws::RDS::Model::DescribeOrderableDBInstanceOptionsRequest request;
        request.SetEngine(engine);
        request.SetEngineVersion(engineVersion);
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::RDS::Model::DescribeOrderableDBInstanceOptionsOutcome outcome =
                client.DescribeOrderableDBInstanceOptions(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::OrderableDBInstanceOption> &options =
                    outcome.GetResult().GetOrderableDBInstanceOptions();
            for (const Aws::RDS::Model::OrderableDBInstanceOption &option: options) {
                const Aws::String &instanceClass = option.GetDBInstanceClass();
                if (std::find(instanceClasses.begin(), instanceClasses.end(),
                              instanceClass) == instanceClasses.end()) {
                    instanceClasses.push_back(instanceClass);
                }
            }
            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with Aurora::DescribeOrderableDBInstanceOptions. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!marker.empty());

    std::cout << "The available DB instance classes for your database engine are:"
              << std::endl;
    for (int i = 0; i < instanceClasses.size(); ++i) {
        std::cout << "   " << i + 1 << ": " << instanceClasses[i] << std::endl;
    }

    int choice = askQuestionForIntRange(
            "Which DB instance class do you want to use? ",
            1, static_cast<int>(instanceClasses.size()));
    dbInstanceClass = instanceClasses[choice - 1];
    return true;
}
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeOrderableDBInstanceOptions) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ModifyDBClusterParameterGroup`
<a name="aurora_ModifyDBClusterParameterGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBClusterParameterGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/aurora#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::ModifyDBClusterParameterGroupRequest request;
        request.SetDBClusterParameterGroupName(CLUSTER_PARAMETER_GROUP_NAME);
        request.SetParameters(updateParameters);

        Aws::RDS::Model::ModifyDBClusterParameterGroupOutcome outcome =
                client.ModifyDBClusterParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB cluster parameter group was successfully modified."
                      << std::endl;
        }
        else {
            std::cerr << "Error with Aurora::ModifyDBClusterParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
```
+  Untuk detail API, lihat [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/ModifyDBClusterParameterGroup) dalam *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk C\$1\$1**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon Aurora Nirserver.   
 Untuk kode sumber lengkap dan instruksi tentang cara menyiapkan C\$1\$1 REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/serverless-aurora)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Auto Scaling menggunakan SDK for C\$1\$1
<a name="cpp_1_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Auto Scaling AWS SDK untuk C\$1\$1 with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Auto Scaling
<a name="auto-scaling_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Auto Scaling.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling/hello_autoscaling#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS autoscaling)

# Set this project's name.
project("hello_autoscaling")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this 
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_autoscaling.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1autoscaling.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/autoscaling/AutoScalingClient.h>
#include <aws/autoscaling/model/DescribeAutoScalingGroupsRequest.h>
#include <iostream>

/*
 *  A "Hello Autoscaling" starter application which initializes an Amazon EC2 Auto Scaling client and describes the
 *  Amazon EC2 Auto Scaling groups.
 *
 *  main function
 *
 *  Usage: 'hello_autoscaling'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::AutoScaling::AutoScalingClient autoscalingClient(clientConfig);

        std::vector<Aws::String> groupNames;
        Aws::String nextToken; // Used for pagination.

        do {

            Aws::AutoScaling::Model::DescribeAutoScalingGroupsRequest request;
            if (!nextToken.empty()) {
                request.SetNextToken(nextToken);
            }

            Aws::AutoScaling::Model::DescribeAutoScalingGroupsOutcome outcome =
                    autoscalingClient.DescribeAutoScalingGroups(request);

            if (outcome.IsSuccess()) {
                const Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> &autoScalingGroups =
                        outcome.GetResult().GetAutoScalingGroups();
                for (auto &group: autoScalingGroups) {
                    groupNames.push_back(group.GetAutoScalingGroupName());
                }
                nextToken = outcome.GetResult().GetNextToken();
            } else {
                std::cerr << "Error with AutoScaling::DescribeAutoScalingGroups. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = 1;
                break;
            }
        } while (!nextToken.empty());

        std::cout << "Found " << groupNames.size() << " AutoScaling groups." << std::endl;
        for (auto &groupName: groupNames) {
            std::cout << "AutoScaling group: " << groupName << std::endl;
        }

    }


    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="auto-scaling_Scenario_GroupsAndInstances_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat grup Amazon EC2 Auto Scaling dengan template peluncuran dan Availability Zone, dan dapatkan informasi tentang menjalankan instans.
+ Aktifkan pengumpulan CloudWatch metrik Amazon.
+ Perbarui kapasitas yang diinginkan grup dan tunggu instance dimulai.
+ Mengakhiri sebuah instance dalam grup.
+ Buat daftar aktivitas penskalaan yang terjadi sebagai respons terhadap permintaan pengguna dan perubahan kapasitas.
+ Dapatkan statistik untuk CloudWatch metrik, lalu bersihkan sumber daya.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
//! Routine which demonstrates using an Auto Scaling group
//! to manage Amazon EC2 instances.
/*!
  \sa groupsAndInstancesScenario()
  \param clientConfig: AWS client configuration.
  \return bool: Successful completion.
 */
bool AwsDoc::AutoScaling::groupsAndInstancesScenario(
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::String templateName;
    Aws::EC2::EC2Client ec2Client(clientConfig);

    std::cout << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << " "
              << std::endl;
    std::cout
            << "Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) Auto Scaling "
            << "demo for managing groups and instances." << std::endl;
    std::cout << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << " \n"
              << std::endl;

    std::cout << "This example requires an EC2 launch template." << std::endl;
    if (askYesNoQuestion(
            "Would you like to use an existing EC2 launch template (y/n)?  ")) {

        // 1. Specify the name of an existing EC2 launch template.
        templateName = askQuestion(
                "Enter the name of the existing EC2 launch template.  ");

        Aws::EC2::Model::DescribeLaunchTemplatesRequest request;
        request.AddLaunchTemplateNames(templateName);
        Aws::EC2::Model::DescribeLaunchTemplatesOutcome outcome =
                ec2Client.DescribeLaunchTemplates(request);

        if (outcome.IsSuccess()) {
            std::cout << "Validated the EC2 launch template '" << templateName
                      << "' exists by calling DescribeLaunchTemplate." << std::endl;
        }
        else {
            std::cerr << "Error validating the existence of the launch template. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    }
    else { // 2.  Or create a new EC2 launch template.
        templateName = askQuestion("Enter the name for a new EC2 launch template: ");

        Aws::EC2::Model::CreateLaunchTemplateRequest request;
        request.SetLaunchTemplateName(templateName);

        Aws::EC2::Model::RequestLaunchTemplateData requestLaunchTemplateData;
        requestLaunchTemplateData.SetInstanceType(EC2_LAUNCH_TEMPLATE_INSTANCE_TYPE);
        requestLaunchTemplateData.SetImageId(EC2_LAUNCH_TEMPLATE_IMAGE_ID);

        request.SetLaunchTemplateData(requestLaunchTemplateData);

        Aws::EC2::Model::CreateLaunchTemplateOutcome outcome =
                ec2Client.CreateLaunchTemplate(request);

        if (outcome.IsSuccess()) {
            std::cout << "The EC2 launch template '" << templateName << " was created."
                      << std::endl;
        }
        else if (outcome.GetError().GetExceptionName() ==
                 "InvalidLaunchTemplateName.AlreadyExistsException") {
            std::cout << "The EC2 template '" << templateName << "' already exists"
                      << std::endl;
        }
        else {
            std::cerr << "Error with EC2::CreateLaunchTemplate. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    }
    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);
    std::cout << "Let's create an Auto Scaling group." << std::endl;
    Aws::String groupName = askQuestion(
            "Enter a name for the Auto Scaling group:  ");
    // 3. Retrieve a list of EC2 Availability Zones.
    Aws::Vector<Aws::EC2::Model::AvailabilityZone> availabilityZones;
    {
        Aws::EC2::Model::DescribeAvailabilityZonesRequest request;

        Aws::EC2::Model::DescribeAvailabilityZonesOutcome outcome =
                ec2Client.DescribeAvailabilityZones(request);

        if (outcome.IsSuccess()) {
            std::cout
                    << "EC2 instances can be created in the following Availability Zones:"
                    << std::endl;

            availabilityZones = outcome.GetResult().GetAvailabilityZones();
            for (size_t i = 0; i < availabilityZones.size(); ++i) {
                std::cout << "   " << i + 1 << ".  "
                          << availabilityZones[i].GetZoneName() << std::endl;
            }
        }
        else {
            std::cerr << "Error with EC2::DescribeAvailabilityZones. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanupResources("", templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    int availabilityZoneChoice = askQuestionForIntRange(
            "Choose an Availability Zone:  ", 1,
            static_cast<int>(availabilityZones.size()));
    // 4. Create an Auto Scaling group with the specified Availability Zone.
    {
        Aws::AutoScaling::Model::CreateAutoScalingGroupRequest request;
        request.SetAutoScalingGroupName(groupName);
        Aws::Vector<Aws::String> availabilityGroupZones;
        availabilityGroupZones.push_back(
                availabilityZones[availabilityZoneChoice - 1].GetZoneName());
        request.SetAvailabilityZones(availabilityGroupZones);
        request.SetMaxSize(1);
        request.SetMinSize(1);

        Aws::AutoScaling::Model::LaunchTemplateSpecification launchTemplateSpecification;
        launchTemplateSpecification.SetLaunchTemplateName(templateName);
        request.SetLaunchTemplate(launchTemplateSpecification);

        Aws::AutoScaling::Model::CreateAutoScalingGroupOutcome outcome =
                autoScalingClient.CreateAutoScalingGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "Created Auto Scaling group '" << groupName << "'..."
                      << std::endl;
        }
        else if (outcome.GetError().GetErrorType() ==
                 Aws::AutoScaling::AutoScalingErrors::ALREADY_EXISTS_FAULT) {
            std::cout << "Auto Scaling group '" << groupName << "' already exists."
                      << std::endl;
        }
        else {
            std::cerr << "Error with AutoScaling::CreateAutoScalingGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanupResources("", templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> autoScalingGroups;
    if (AwsDoc::AutoScaling::describeGroup(groupName, autoScalingGroups,
                                           autoScalingClient)) {
        std::cout << "Here is the Auto Scaling group description." << std::endl;
        if (!autoScalingGroups.empty()) {
            logAutoScalingGroupInfo(autoScalingGroups);
        }
    }
    else {
        cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
        return false;
    }

    std::cout
            << "Waiting for the EC2 instance in the Auto Scaling group to become active..."
            << std::endl;
    if (!waitForInstances(groupName, autoScalingGroups, autoScalingClient)) {
        cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
        return false;
    }

    bool enableMetrics = askYesNoQuestion(
            "Do you want to collect metrics about the A"
            "Auto Scaling group during this demo (y/n)?  ");
    // 7. Optionally enable metrics collection for the Auto Scaling group.
    if (enableMetrics) {
        Aws::AutoScaling::Model::EnableMetricsCollectionRequest request;
        request.SetAutoScalingGroupName(groupName);

        request.AddMetrics("GroupMinSize");
        request.AddMetrics("GroupMaxSize");
        request.AddMetrics("GroupDesiredCapacity");
        request.AddMetrics("GroupInServiceInstances");
        request.AddMetrics("GroupTotalInstances");
        request.SetGranularity("1Minute");

        Aws::AutoScaling::Model::EnableMetricsCollectionOutcome outcome =
                autoScalingClient.EnableMetricsCollection(request);
        if (outcome.IsSuccess()) {
            std::cout << "Auto Scaling metrics have been enabled."
                      << std::endl;
        }
        else {
            std::cerr << "Error with AutoScaling::EnableMetricsCollection. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    std::cout << "Let's update the maximum number of EC2 instances in '" << groupName <<
              "' from 1 to 3." << std::endl;
    askQuestion("Press enter to continue:  ", alwaysTrueTest);
    // 8. Update the Auto Scaling group, setting a new maximum size.
    {
        Aws::AutoScaling::Model::UpdateAutoScalingGroupRequest request;
        request.SetAutoScalingGroupName(groupName);
        request.SetMaxSize(3);

        Aws::AutoScaling::Model::UpdateAutoScalingGroupOutcome outcome =
                autoScalingClient.UpdateAutoScalingGroup(request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Error with AutoScaling::UpdateAutoScalingGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    if (AwsDoc::AutoScaling::describeGroup(groupName, autoScalingGroups,
                                           autoScalingClient)) {
        if (!autoScalingGroups.empty()) {
            const auto &instances = autoScalingGroups[0].GetInstances();
            std::cout
                    << "The group still has one running EC2 instance, but it can have up to 3.\n"
                    << std::endl;
            logAutoScalingGroupInfo(autoScalingGroups);
        }
        else {
            std::cerr
                    << "No EC2 launch groups were retrieved from DescribeGroup request."
                    << std::endl;
            cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    std::cout << "\n" << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << "\n"
              << std::endl;
    std::cout << "Let's update the desired capacity in '" << groupName <<
              "' from 1 to 2." << std::endl;
    askQuestion("Press enter to continue:  ", alwaysTrueTest);
    //  9. Update the Auto Scaling group, setting a new desired capacity.
    {
        Aws::AutoScaling::Model::SetDesiredCapacityRequest request;
        request.SetAutoScalingGroupName(groupName);
        request.SetDesiredCapacity(2);

        Aws::AutoScaling::Model::SetDesiredCapacityOutcome outcome =
                autoScalingClient.SetDesiredCapacity(request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Error with AutoScaling::SetDesiredCapacityRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    if (AwsDoc::AutoScaling::describeGroup(groupName, autoScalingGroups,
                                           autoScalingClient)) {
        if (!autoScalingGroups.empty()) {
            std::cout
                    << "Here is the current state of the group." << std::endl;
            logAutoScalingGroupInfo(autoScalingGroups);
        }
        else {
            std::cerr
                    << "No EC2 launch groups were retrieved from DescribeGroup request."
                    << std::endl;
            cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    std::cout << "Waiting for the new EC2 instance to start..." << std::endl;
    waitForInstances(groupName, autoScalingGroups, autoScalingClient);

    std::cout << "\n" << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << "\n"
              << std::endl;

    std::cout << "Let's terminate one of the EC2 instances in " << groupName << "."
              << std::endl;
    std::cout << "Because the desired capacity is 2, another EC2 instance will start "
              << "to replace the terminated EC2 instance."
              << std::endl;
    std::cout << "The currently running EC2 instances are:" << std::endl;

    if (autoScalingGroups.empty()) {
        std::cerr << "Error describing groups. No groups returned." << std::endl;
        cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
        return false;
    }

    int instanceNumber = 1;
    Aws::Vector<Aws::String> instanceIDs = instancesToInstanceIDs(
            autoScalingGroups[0].GetInstances());
    for (const Aws::String &instanceID: instanceIDs) {
        std::cout << "   " << instanceNumber << ". " << instanceID << std::endl;
        ++instanceNumber;
    }

    instanceNumber = askQuestionForIntRange("Which EC2 instance do you want to stop? ",
                                            1,
                                            static_cast<int>(instanceIDs.size()));

    // 10. Terminate an EC2 instance in the Auto Scaling group.
    {
        Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupRequest request;
        request.SetInstanceId(instanceIDs[instanceNumber - 1]);
        request.SetShouldDecrementDesiredCapacity(false);

        Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupOutcome outcome =
                autoScalingClient.TerminateInstanceInAutoScalingGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "Waiting for EC2 instance with ID '"
                      << instanceIDs[instanceNumber - 1] << "' to terminate..."
                      << std::endl;
        }
        else {
            std::cerr << "Error with AutoScaling::TerminateInstanceInAutoScalingGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    waitForInstances(groupName, autoScalingGroups, autoScalingClient);

    std::cout << "\n" << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << "\n"
              << std::endl;
    std::cout << "Let's get a report of scaling activities for EC2 launch group '"
              << groupName << "'."
              << std::endl;
    askQuestion("Press enter to continue:  ", alwaysTrueTest);
    // 11. Get a description of activities for the Auto Scaling group.
    {
        Aws::AutoScaling::Model::DescribeScalingActivitiesRequest request;
        request.SetAutoScalingGroupName(groupName);

        Aws::Vector<Aws::AutoScaling::Model::Activity> allActivities;
        Aws::String nextToken; // Used for pagination;
        do {
            if (!nextToken.empty()) {
                request.SetNextToken(nextToken);
            }
            Aws::AutoScaling::Model::DescribeScalingActivitiesOutcome outcome =
                    autoScalingClient.DescribeScalingActivities(request);

            if (outcome.IsSuccess()) {
                const Aws::Vector<Aws::AutoScaling::Model::Activity> &activities =
                        outcome.GetResult().GetActivities();
                allActivities.insert(allActivities.end(), activities.begin(), activities.end());
                nextToken  = outcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "Error with AutoScaling::DescribeScalingActivities. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
                return false;
            }
        } while (!nextToken.empty());

        std::cout << "Found " << allActivities.size() << " activities."
                  << std::endl;
        std::cout << "Activities are ordered with the most recent first."
                  << std::endl;
        for (const Aws::AutoScaling::Model::Activity &activity: allActivities) {
            std::cout << activity.GetDescription() << std::endl;
            std::cout << activity.GetDetails() << std::endl;
        }
    }

    if (enableMetrics) {
        if (!logAutoScalingMetrics(groupName, clientConfig)) {
            cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    std::cout << "Let's  clean up." << std::endl;
    askQuestion("Press enter to continue:  ", alwaysTrueTest);

    // 13. Disable metrics collection if enabled.
    if (enableMetrics) {
        Aws::AutoScaling::Model::DisableMetricsCollectionRequest request;
        request.SetAutoScalingGroupName(groupName);

        Aws::AutoScaling::Model::DisableMetricsCollectionOutcome outcome =
                autoScalingClient.DisableMetricsCollection(request);

        if (outcome.IsSuccess()) {
            std::cout << "Metrics collection has been disabled." << std::endl;
        }
        else {
            std::cerr << "Error with AutoScaling::DisableMetricsCollection. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
            return false;
        }
    }

    return cleanupResources(groupName, templateName, autoScalingClient, ec2Client);
}

//! Routine which waits for EC2 instances in an Auto Scaling group to
//! complete startup or shutdown.
/*!
 \sa waitForInstances()
 \param groupName: An Auto Scaling group name.
 \param autoScalingGroups: Vector to receive 'AutoScalingGroup' records.
 \param client: 'AutoScalingClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::AutoScaling::waitForInstances(const Aws::String &groupName,
                                           Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> &autoScalingGroups,
                                           const Aws::AutoScaling::AutoScalingClient &client) {
    bool ready = false;
    const std::vector<Aws::String> READY_STATES = {"InService", "Terminated"};

    int count = 0;
    int desiredCapacity = 0;
    std::this_thread::sleep_for(std::chrono::seconds(4));
    while (!ready) {
        if (WAIT_FOR_INSTANCES_TIMEOUT < count) {
            std::cerr << "Wait for instance timed out." << std::endl;
            return false;
        }

        std::this_thread::sleep_for(std::chrono::seconds(1));
        ++count;
        if (!describeGroup(groupName, autoScalingGroups, client)) {
            return false;
        }
        Aws::Vector<Aws::String> instanceIDs;
        if (!autoScalingGroups.empty()) {
            instanceIDs = instancesToInstanceIDs(autoScalingGroups[0].GetInstances());
            desiredCapacity = autoScalingGroups[0].GetDesiredCapacity();
        }

        if (instanceIDs.empty()) {
            if (desiredCapacity == 0) {
                break;
            }
            else {
                if ((count % 5) == 0) {
                    std::cout << "No instance IDs returned for group." << std::endl;
                }

                continue;
            }
        }

        // 6.  Check lifecycle state of the instances using DescribeAutoScalingInstances.
        Aws::AutoScaling::Model::DescribeAutoScalingInstancesRequest request;
        request.SetInstanceIds(instanceIDs);

        Aws::AutoScaling::Model::DescribeAutoScalingInstancesOutcome outcome =
                client.DescribeAutoScalingInstances(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::AutoScaling::Model::AutoScalingInstanceDetails> &instancesDetails =
                    outcome.GetResult().GetAutoScalingInstances();
            ready = instancesDetails.size() >= desiredCapacity;
            for (const Aws::AutoScaling::Model::AutoScalingInstanceDetails &details: instancesDetails) {
                if (!stringInVector(details.GetLifecycleState(), READY_STATES)) {
                    ready = false;
                    break;
                }
            }
            // Log the status while waiting.
            if (((count % 5) == 1) || ready) {
                logInstancesLifecycleState(instancesDetails);
            }
        }
        else {
            std::cerr << "Error with AutoScaling::DescribeAutoScalingInstances. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    if (!describeGroup(groupName, autoScalingGroups, client)) {
        return false;
    }

    return true;
}

//! Routine to cleanup resources created in 'groupsAndInstancesScenario'.
/*!
 \sa cleanupResources()
 \param groupName: Optional Auto Scaling group name.
 \param templateName: Optional EC2 launch template name.
 \param autoScalingClient: 'AutoScalingClient' instance.
 \param ec2Client: 'EC2Client' instance.
\return bool: Successful completion.
 */
bool AwsDoc::AutoScaling::cleanupResources(const Aws::String &groupName,
                                           const Aws::String &templateName,
                                           const Aws::AutoScaling::AutoScalingClient &autoScalingClient,
                                           const Aws::EC2::EC2Client &ec2Client) {
    bool result = true;

    // 14. Delete the Auto Scaling group.
    if (!groupName.empty() &&
        (askYesNoQuestion(
                Aws::String("Delete the Auto Scaling group '") + groupName +
                "'  (y/n)?"))) {
        {
            Aws::AutoScaling::Model::UpdateAutoScalingGroupRequest request;
            request.SetAutoScalingGroupName(groupName);
            request.SetMinSize(0);
            request.SetDesiredCapacity(0);

            Aws::AutoScaling::Model::UpdateAutoScalingGroupOutcome outcome =
                    autoScalingClient.UpdateAutoScalingGroup(request);

            if (outcome.IsSuccess()) {
                std::cout
                        << "The minimum size and desired capacity of the Auto Scaling group "
                        << "was set to zero before terminating the instances."
                        << std::endl;
            }
            else {
                std::cerr << "Error with AutoScaling::UpdateAutoScalingGroup. "
                          << outcome.GetError().GetMessage() << std::endl;
                result = false;
            }
        }

        Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> autoScalingGroups;
        if (AwsDoc::AutoScaling::describeGroup(groupName, autoScalingGroups,
                                               autoScalingClient)) {
            if (!autoScalingGroups.empty()) {
                Aws::Vector<Aws::String> instanceIDs = instancesToInstanceIDs(
                        autoScalingGroups[0].GetInstances());
                for (const Aws::String &instanceID: instanceIDs) {
                    Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupRequest request;
                    request.SetInstanceId(instanceID);
                    request.SetShouldDecrementDesiredCapacity(true);

                    Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupOutcome outcome =
                            autoScalingClient.TerminateInstanceInAutoScalingGroup(
                                    request);

                    if (outcome.IsSuccess()) {
                        std::cout << "Initiating termination of EC2 instance '"
                                  << instanceID << "'." << std::endl;
                    }
                    else {
                        std::cerr
                                << "Error with AutoScaling::TerminateInstanceInAutoScalingGroup. "
                                << outcome.GetError().GetMessage() << std::endl;
                        result = false;
                    }
                }
            }

            std::cout
                    << "Waiting for the EC2 instances to terminate before deleting the "
                    << "Auto Scaling group..." << std::endl;
            waitForInstances(groupName, autoScalingGroups, autoScalingClient);
        }

        {
            Aws::AutoScaling::Model::DeleteAutoScalingGroupRequest request;
            request.SetAutoScalingGroupName(groupName);

            Aws::AutoScaling::Model::DeleteAutoScalingGroupOutcome outcome =
                    autoScalingClient.DeleteAutoScalingGroup(request);

            if (outcome.IsSuccess()) {
                std::cout << "Auto Scaling group '" << groupName << "' was deleted."
                          << std::endl;
            }
            else {
                std::cerr << "Error with AutoScaling::DeleteAutoScalingGroup. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }
    }

    // 15. Delete the EC2 launch template.
    if (!templateName.empty() && (askYesNoQuestion(
            Aws::String("Delete the EC2 launch template '") + templateName +
            "' (y/n)?"))) {
        Aws::EC2::Model::DeleteLaunchTemplateRequest request;
        request.SetLaunchTemplateName(templateName);

        Aws::EC2::Model::DeleteLaunchTemplateOutcome outcome =
                ec2Client.DeleteLaunchTemplate(request);

        if (outcome.IsSuccess()) {
            std::cout << "EC2 launch template '" << templateName << "' was deleted."
                      << std::endl;
        }
        else {
            std::cerr << "Error with EC2::DeleteLaunchTemplate. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
    }

    return result;
}

//! Routine which retrieves Auto Scaling group descriptions.
/*!
 \sa describeGroup()
 \param groupName: An Auto Scaling group name.
 \param autoScalingGroups: Vector to receive 'AutoScalingGroup' records.
 \param client: 'AutoScalingClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::AutoScaling::describeGroup(const Aws::String &groupName,
                                        Aws::Vector<Aws::AutoScaling::Model::AutoScalingGroup> &autoScalingGroup,
                                        const Aws::AutoScaling::AutoScalingClient &client) {
    // 5. Retrieve a description of the Auto Scaling group.
    Aws::AutoScaling::Model::DescribeAutoScalingGroupsRequest request;
    Aws::Vector<Aws::String> groupNames;
    groupNames.push_back(groupName);
    request.SetAutoScalingGroupNames(groupNames);

    Aws::AutoScaling::Model::DescribeAutoScalingGroupsOutcome outcome =
            client.DescribeAutoScalingGroups(request);

    if (outcome.IsSuccess()) {
        autoScalingGroup = outcome.GetResult().GetAutoScalingGroups();
    }
    else {
        std::cerr << "Error with AutoScaling::DescribeAutoScalingGroups. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DescribeAutoScalingInstances)
  + [DescribeScalingActivities](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DescribeScalingActivities)
  + [DisableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DisableMetricsCollection)
  + [EnableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/EnableMetricsCollection)
  + [SetDesiredCapacity](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/SetDesiredCapacity)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/UpdateAutoScalingGroup)

## Tindakan
<a name="actions"></a>

### `CreateAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAutoScalingGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

        Aws::AutoScaling::Model::CreateAutoScalingGroupRequest request;
        request.SetAutoScalingGroupName(groupName);
        Aws::Vector<Aws::String> availabilityGroupZones;
        availabilityGroupZones.push_back(
                availabilityZones[availabilityZoneChoice - 1].GetZoneName());
        request.SetAvailabilityZones(availabilityGroupZones);
        request.SetMaxSize(1);
        request.SetMinSize(1);

        Aws::AutoScaling::Model::LaunchTemplateSpecification launchTemplateSpecification;
        launchTemplateSpecification.SetLaunchTemplateName(templateName);
        request.SetLaunchTemplate(launchTemplateSpecification);

        Aws::AutoScaling::Model::CreateAutoScalingGroupOutcome outcome =
                autoScalingClient.CreateAutoScalingGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "Created Auto Scaling group '" << groupName << "'..."
                      << std::endl;
        }
        else if (outcome.GetError().GetErrorType() ==
                 Aws::AutoScaling::AutoScalingErrors::ALREADY_EXISTS_FAULT) {
            std::cout << "Auto Scaling group '" << groupName << "' already exists."
                      << std::endl;
        }
        else {
            std::cerr << "Error with AutoScaling::CreateAutoScalingGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

        }
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/CreateAutoScalingGroup)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAutoScalingGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

            Aws::AutoScaling::Model::DeleteAutoScalingGroupRequest request;
            request.SetAutoScalingGroupName(groupName);

            Aws::AutoScaling::Model::DeleteAutoScalingGroupOutcome outcome =
                    autoScalingClient.DeleteAutoScalingGroup(request);

            if (outcome.IsSuccess()) {
                std::cout << "Auto Scaling group '" << groupName << "' was deleted."
                          << std::endl;
            }
            else {
                std::cerr << "Error with AutoScaling::DeleteAutoScalingGroup. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DeleteAutoScalingGroup)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeAutoScalingGroups`
<a name="auto-scaling_DescribeAutoScalingGroups_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingGroups`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

    Aws::AutoScaling::Model::DescribeAutoScalingGroupsRequest request;
    Aws::Vector<Aws::String> groupNames;
    groupNames.push_back(groupName);
    request.SetAutoScalingGroupNames(groupNames);

    Aws::AutoScaling::Model::DescribeAutoScalingGroupsOutcome outcome =
            client.DescribeAutoScalingGroups(request);

    if (outcome.IsSuccess()) {
        autoScalingGroup = outcome.GetResult().GetAutoScalingGroups();
    }
    else {
        std::cerr << "Error with AutoScaling::DescribeAutoScalingGroups. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeAutoScalingInstances`
<a name="auto-scaling_DescribeAutoScalingInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

        Aws::AutoScaling::Model::DescribeAutoScalingInstancesRequest request;
        request.SetInstanceIds(instanceIDs);

        Aws::AutoScaling::Model::DescribeAutoScalingInstancesOutcome outcome =
                client.DescribeAutoScalingInstances(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::AutoScaling::Model::AutoScalingInstanceDetails> &instancesDetails =
                    outcome.GetResult().GetAutoScalingInstances();

        }
        else {
            std::cerr << "Error with AutoScaling::DescribeAutoScalingInstances. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DescribeAutoScalingInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeScalingActivities`
<a name="auto-scaling_DescribeScalingActivities_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingActivities`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

        Aws::AutoScaling::Model::DescribeScalingActivitiesRequest request;
        request.SetAutoScalingGroupName(groupName);

        Aws::Vector<Aws::AutoScaling::Model::Activity> allActivities;
        Aws::String nextToken; // Used for pagination;
        do {
            if (!nextToken.empty()) {
                request.SetNextToken(nextToken);
            }
            Aws::AutoScaling::Model::DescribeScalingActivitiesOutcome outcome =
                    autoScalingClient.DescribeScalingActivities(request);

            if (outcome.IsSuccess()) {
                const Aws::Vector<Aws::AutoScaling::Model::Activity> &activities =
                        outcome.GetResult().GetActivities();
                allActivities.insert(allActivities.end(), activities.begin(), activities.end());
                nextToken  = outcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "Error with AutoScaling::DescribeScalingActivities. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

            }
        } while (!nextToken.empty());

        std::cout << "Found " << allActivities.size() << " activities."
                  << std::endl;
        std::cout << "Activities are ordered with the most recent first."
                  << std::endl;
        for (const Aws::AutoScaling::Model::Activity &activity: allActivities) {
            std::cout << activity.GetDescription() << std::endl;
            std::cout << activity.GetDetails() << std::endl;
        }
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DescribeScalingActivities)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DisableMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableMetricsCollection`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

        Aws::AutoScaling::Model::DisableMetricsCollectionRequest request;
        request.SetAutoScalingGroupName(groupName);

        Aws::AutoScaling::Model::DisableMetricsCollectionOutcome outcome =
                autoScalingClient.DisableMetricsCollection(request);

        if (outcome.IsSuccess()) {
            std::cout << "Metrics collection has been disabled." << std::endl;
        }
        else {
            std::cerr << "Error with AutoScaling::DisableMetricsCollection. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

        }
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/DisableMetricsCollection)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `EnableMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableMetricsCollection`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

        Aws::AutoScaling::Model::EnableMetricsCollectionRequest request;
        request.SetAutoScalingGroupName(groupName);

        request.AddMetrics("GroupMinSize");
        request.AddMetrics("GroupMaxSize");
        request.AddMetrics("GroupDesiredCapacity");
        request.AddMetrics("GroupInServiceInstances");
        request.AddMetrics("GroupTotalInstances");
        request.SetGranularity("1Minute");

        Aws::AutoScaling::Model::EnableMetricsCollectionOutcome outcome =
                autoScalingClient.EnableMetricsCollection(request);
        if (outcome.IsSuccess()) {
            std::cout << "Auto Scaling metrics have been enabled."
                      << std::endl;
        }
        else {
            std::cerr << "Error with AutoScaling::EnableMetricsCollection. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

        }
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/EnableMetricsCollection)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `SetDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDesiredCapacity`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

        Aws::AutoScaling::Model::SetDesiredCapacityRequest request;
        request.SetAutoScalingGroupName(groupName);
        request.SetDesiredCapacity(2);

        Aws::AutoScaling::Model::SetDesiredCapacityOutcome outcome =
                autoScalingClient.SetDesiredCapacity(request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Error with AutoScaling::SetDesiredCapacityRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

        }
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/SetDesiredCapacity)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `TerminateInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstanceInAutoScalingGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

        Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupRequest request;
        request.SetInstanceId(instanceIDs[instanceNumber - 1]);
        request.SetShouldDecrementDesiredCapacity(false);

        Aws::AutoScaling::Model::TerminateInstanceInAutoScalingGroupOutcome outcome =
                autoScalingClient.TerminateInstanceInAutoScalingGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "Waiting for EC2 instance with ID '"
                      << instanceIDs[instanceNumber - 1] << "' to terminate..."
                      << std::endl;
        }
        else {
            std::cerr << "Error with AutoScaling::TerminateInstanceInAutoScalingGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

        }
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAutoScalingGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/autoscaling#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::AutoScaling::AutoScalingClient autoScalingClient(clientConfig);

        Aws::AutoScaling::Model::UpdateAutoScalingGroupRequest request;
        request.SetAutoScalingGroupName(groupName);
        request.SetMaxSize(3);

        Aws::AutoScaling::Model::UpdateAutoScalingGroupOutcome outcome =
                autoScalingClient.UpdateAutoScalingGroup(request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Error with AutoScaling::UpdateAutoScalingGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

        }
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForCpp/autoscaling-2011-01-01/UpdateAutoScalingGroup)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# CloudTrail contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_cloudtrail_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with CloudTrail.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateTrail`
<a name="cloudtrail_CreateTrail_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTrail`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudtrail#code-examples). 

```
// Routine which creates an AWS CloudTrail trail.
/*!
  \param trailName: The name of the CloudTrail trail.
  \param bucketName: The Amazon S3 bucket designate for publishing logs.
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::CloudTrail::createTrail(const Aws::String trailName,
                                     const Aws::String bucketName,
                                     const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::CloudTrail::CloudTrailClient trailClient(clientConfig);
    Aws::CloudTrail::Model::CreateTrailRequest request;
    request.SetName(trailName);
    request.SetS3BucketName(bucketName);

    Aws::CloudTrail::Model::CreateTrailOutcome outcome = trailClient.CreateTrail(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully created trail " << trailName << std::endl;
    }
    else {
        std::cerr << "Failed to create trail " << trailName <<
                  ": " << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateTrail](https://docs.aws.amazon.com/goto/SdkForCpp/cloudtrail-2013-11-01/CreateTrail)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteTrail`
<a name="cloudtrail_DeleteTrail_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTrail`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudtrail#code-examples). 

```
// Routine which deletes an AWS CloudTrail trail.
/*!
  \param trailName: The name of the CloudTrail trail.
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::CloudTrail::deleteTrail(const Aws::String trailName,
                                     const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::CloudTrail::CloudTrailClient trailClient(clientConfig);

    Aws::CloudTrail::Model::DeleteTrailRequest request;
    request.SetName(trailName);

    auto outcome = trailClient.DeleteTrail(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted trail " << trailName << std::endl;
    }
    else {
        std::cerr << "Error deleting trail " << trailName << " " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteTrail](https://docs.aws.amazon.com/goto/SdkForCpp/cloudtrail-2013-11-01/DeleteTrail)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeTrail`
<a name="cloudtrail_DescribeTrail_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTrail`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudtrail#code-examples). 

```
// Routine which describes the AWS CloudTrail trails in an account.
/*!
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
*/

bool AwsDoc::CloudTrail::describeTrails(
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::CloudTrail::CloudTrailClient cloudTrailClient(clientConfig);
    Aws::CloudTrail::Model::DescribeTrailsRequest request;

    auto outcome = cloudTrailClient.DescribeTrails(request);
    if (outcome.IsSuccess()) {
        const Aws::Vector<Aws::CloudTrail::Model::Trail> &trails = outcome.GetResult().GetTrailList();
        std::cout << trails.size() << " trail(s) found." << std::endl;
        for (const Aws::CloudTrail::Model::Trail &trail: trails) {
            std::cout << trail.GetName() << std::endl;
        }
    }
    else {
        std::cerr << "Failed to describe trails." << outcome.GetError().GetMessage()
                  << std::endl;
    }
    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DescribeTrail](https://docs.aws.amazon.com/goto/SdkForCpp/cloudtrail-2013-11-01/DescribeTrail)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `LookupEvents`
<a name="cloudtrail_LookupEvents_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`LookupEvents`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudtrail#code-examples). 

```
// Routine which looks up events captured by AWS CloudTrail.
/*!
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::CloudTrail::lookupEvents(
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::CloudTrail::CloudTrailClient cloudtrail(clientConfig);

    Aws::String nextToken; // Used for pagination.
    Aws::Vector<Aws::CloudTrail::Model::Event> allEvents;

    Aws::CloudTrail::Model::LookupEventsRequest request;

    size_t count = 0;
    do {
        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        Aws::CloudTrail::Model::LookupEventsOutcome outcome = cloudtrail.LookupEvents(
                request);
        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::CloudTrail::Model::Event> &events = outcome.GetResult().GetEvents();
            count += events.size();
            allEvents.insert(allEvents.end(), events.begin(), events.end());
            nextToken = outcome.GetResult().GetNextToken();
        }
        else {
            std::cerr << "Error: " << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    } while (!nextToken.empty() && count <= 50); // Limit to 50 events.

    std::cout << "Found " << allEvents.size() << " event(s)." << std::endl;

    for (auto &event: allEvents) {
        std::cout << "Event name: " << event.GetEventName() << std::endl;
        std::cout << "Event source: " << event.GetEventSource() << std::endl;
        std::cout << "Event id: " << event.GetEventId() << std::endl;
        std::cout << "Resources: " << std::endl;
        for (auto &resource: event.GetResources()) {
            std::cout << "  " << resource.GetResourceName() << std::endl;
        }
    }

    return true;
}
```
+  Untuk detail API, lihat [LookupEvents](https://docs.aws.amazon.com/goto/SdkForCpp/cloudtrail-2013-11-01/LookupEvents)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# CloudWatch contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with CloudWatch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteAlarms`
<a name="cloudwatch_DeleteAlarms_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlarms`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/monitoring/CloudWatchClient.h>
#include <aws/monitoring/model/DeleteAlarmsRequest.h>
#include <iostream>
```
Menghapus alarm.  

```
        Aws::CloudWatch::CloudWatchClient cw;
        Aws::CloudWatch::Model::DeleteAlarmsRequest request;
        request.AddAlarmNames(alarm_name);

        auto outcome = cw.DeleteAlarms(request);
        if (!outcome.IsSuccess())
        {
            std::cout << "Failed to delete CloudWatch alarm:" <<
                outcome.GetError().GetMessage() << std::endl;
        }
        else
        {
            std::cout << "Successfully deleted CloudWatch alarm " << alarm_name
                << std::endl;
        }
```
+  Untuk detail API, lihat [DeleteAlarms](https://docs.aws.amazon.com/goto/SdkForCpp/monitoring-2010-08-01/DeleteAlarms)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/monitoring/CloudWatchClient.h>
#include <aws/monitoring/model/DescribeAlarmsRequest.h>
#include <aws/monitoring/model/DescribeAlarmsResult.h>
#include <iomanip>
#include <iostream>
```
Mendeskripsikan alarm.  

```
        Aws::CloudWatch::CloudWatchClient cw;
        Aws::CloudWatch::Model::DescribeAlarmsRequest request;
        request.SetMaxRecords(1);

        bool done = false;
        bool header = false;
        while (!done)
        {
            auto outcome = cw.DescribeAlarms(request);
            if (!outcome.IsSuccess())
            {
                std::cout << "Failed to describe CloudWatch alarms:" <<
                    outcome.GetError().GetMessage() << std::endl;
                break;
            }

            if (!header)
            {
                std::cout << std::left <<
                    std::setw(32) << "Name" <<
                    std::setw(64) << "Arn" <<
                    std::setw(64) << "Description" <<
                    std::setw(20) << "LastUpdated" <<
                    std::endl;
                header = true;
            }

            const auto &alarms = outcome.GetResult().GetMetricAlarms();
            for (const auto &alarm : alarms)
            {
                std::cout << std::left <<
                    std::setw(32) << alarm.GetAlarmName() <<
                    std::setw(64) << alarm.GetAlarmArn() <<
                    std::setw(64) << alarm.GetAlarmDescription() <<
                    std::setw(20) <<
                    alarm.GetAlarmConfigurationUpdatedTimestamp().ToGmtString(
                        SIMPLE_DATE_FORMAT_STR) <<
                    std::endl;
            }

            const auto &next_token = outcome.GetResult().GetNextToken();
            request.SetNextToken(next_token);
            done = next_token.empty();
        }
```
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/SdkForCpp/monitoring-2010-08-01/DescribeAlarmsForMetric)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/monitoring/CloudWatchClient.h>
#include <aws/monitoring/model/DisableAlarmActionsRequest.h>
#include <iostream>
```
Menonaktifkan tindakan alarm.  

```
        Aws::CloudWatch::CloudWatchClient cw;

        Aws::CloudWatch::Model::DisableAlarmActionsRequest disableAlarmActionsRequest;
        disableAlarmActionsRequest.AddAlarmNames(alarm_name);

        auto disableAlarmActionsOutcome = cw.DisableAlarmActions(disableAlarmActionsRequest);
        if (!disableAlarmActionsOutcome.IsSuccess())
        {
            std::cout << "Failed to disable actions for alarm " << alarm_name <<
                ": " << disableAlarmActionsOutcome.GetError().GetMessage() <<
                std::endl;
        }
        else
        {
            std::cout << "Successfully disabled actions for alarm " <<
                alarm_name << std::endl;
        }
```
+  Untuk detail API, lihat [DisableAlarmActions](https://docs.aws.amazon.com/goto/SdkForCpp/monitoring-2010-08-01/DisableAlarmActions)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `EnableAlarmActions`
<a name="cloudwatch_EnableAlarmActions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableAlarmActions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/monitoring/CloudWatchClient.h>
#include <aws/monitoring/model/EnableAlarmActionsRequest.h>
#include <aws/monitoring/model/PutMetricAlarmRequest.h>
#include <iostream>
```
Mengaktifkan tindakan alarm.  

```
    Aws::CloudWatch::CloudWatchClient cw;
    Aws::CloudWatch::Model::PutMetricAlarmRequest request;
    request.SetAlarmName(alarm_name);
    request.SetComparisonOperator(
        Aws::CloudWatch::Model::ComparisonOperator::GreaterThanThreshold);
    request.SetEvaluationPeriods(1);
    request.SetMetricName("CPUUtilization");
    request.SetNamespace("AWS/EC2");
    request.SetPeriod(60);
    request.SetStatistic(Aws::CloudWatch::Model::Statistic::Average);
    request.SetThreshold(70.0);
    request.SetActionsEnabled(false);
    request.SetAlarmDescription("Alarm when server CPU exceeds 70%");
    request.SetUnit(Aws::CloudWatch::Model::StandardUnit::Seconds);
    request.AddAlarmActions(actionArn);

    Aws::CloudWatch::Model::Dimension dimension;
    dimension.SetName("InstanceId");
    dimension.SetValue(instanceId);
    request.AddDimensions(dimension);

    auto outcome = cw.PutMetricAlarm(request);
    if (!outcome.IsSuccess())
    {
        std::cout << "Failed to create CloudWatch alarm:" <<
            outcome.GetError().GetMessage() << std::endl;
        return;
    }

    Aws::CloudWatch::Model::EnableAlarmActionsRequest enable_request;
    enable_request.AddAlarmNames(alarm_name);

    auto enable_outcome = cw.EnableAlarmActions(enable_request);
    if (!enable_outcome.IsSuccess())
    {
        std::cout << "Failed to enable alarm actions:" <<
            enable_outcome.GetError().GetMessage() << std::endl;
        return;
    }

    std::cout << "Successfully created alarm " << alarm_name <<
        " and enabled actions on it." << std::endl;
```
+  Untuk detail API, lihat [EnableAlarmActions](https://docs.aws.amazon.com/goto/SdkForCpp/monitoring-2010-08-01/EnableAlarmActions)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/monitoring/CloudWatchClient.h>
#include <aws/monitoring/model/ListMetricsRequest.h>
#include <aws/monitoring/model/ListMetricsResult.h>
#include <iomanip>
#include <iostream>
```
Membuat daftar metrik.  

```
        Aws::CloudWatch::CloudWatchClient cw;
        Aws::CloudWatch::Model::ListMetricsRequest request;

        if (argc > 1)
        {
            request.SetMetricName(argv[1]);
        }

        if (argc > 2)
        {
            request.SetNamespace(argv[2]);
        }

        bool done = false;
        bool header = false;
        while (!done)
        {
            auto outcome = cw.ListMetrics(request);
            if (!outcome.IsSuccess())
            {
                std::cout << "Failed to list CloudWatch metrics:" <<
                    outcome.GetError().GetMessage() << std::endl;
                break;
            }

            if (!header)
            {
                std::cout << std::left << std::setw(48) << "MetricName" <<
                    std::setw(32) << "Namespace" << "DimensionNameValuePairs" <<
                    std::endl;
                header = true;
            }

            const auto &metrics = outcome.GetResult().GetMetrics();
            for (const auto &metric : metrics)
            {
                std::cout << std::left << std::setw(48) <<
                    metric.GetMetricName() << std::setw(32) <<
                    metric.GetNamespace();
                const auto &dimensions = metric.GetDimensions();
                for (auto iter = dimensions.cbegin();
                    iter != dimensions.cend(); ++iter)
                {
                    const auto &dimkv = *iter;
                    std::cout << dimkv.GetName() << " = " << dimkv.GetValue();
                    if (iter + 1 != dimensions.cend())
                    {
                        std::cout << ", ";
                    }
                }
                std::cout << std::endl;
            }

            const auto &next_token = outcome.GetResult().GetNextToken();
            request.SetNextToken(next_token);
            done = next_token.empty();
        }
```
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/goto/SdkForCpp/monitoring-2010-08-01/ListMetrics)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/monitoring/CloudWatchClient.h>
#include <aws/monitoring/model/PutMetricAlarmRequest.h>
#include <iostream>
```
Buat peringatan alarm untuk mengamati metrik.  

```
        Aws::CloudWatch::CloudWatchClient cw;
        Aws::CloudWatch::Model::PutMetricAlarmRequest request;
        request.SetAlarmName(alarm_name);
        request.SetComparisonOperator(
            Aws::CloudWatch::Model::ComparisonOperator::GreaterThanThreshold);
        request.SetEvaluationPeriods(1);
        request.SetMetricName("CPUUtilization");
        request.SetNamespace("AWS/EC2");
        request.SetPeriod(60);
        request.SetStatistic(Aws::CloudWatch::Model::Statistic::Average);
        request.SetThreshold(70.0);
        request.SetActionsEnabled(false);
        request.SetAlarmDescription("Alarm when server CPU exceeds 70%");
        request.SetUnit(Aws::CloudWatch::Model::StandardUnit::Seconds);

        Aws::CloudWatch::Model::Dimension dimension;
        dimension.SetName("InstanceId");
        dimension.SetValue(instanceId);

        request.AddDimensions(dimension);

        auto outcome = cw.PutMetricAlarm(request);
        if (!outcome.IsSuccess())
        {
            std::cout << "Failed to create CloudWatch alarm:" <<
                outcome.GetError().GetMessage() << std::endl;
        }
        else
        {
            std::cout << "Successfully created CloudWatch alarm " << alarm_name
                << std::endl;
        }
```
+  Untuk detail API, lihat [PutMetricAlarm](https://docs.aws.amazon.com/goto/SdkForCpp/monitoring-2010-08-01/PutMetricAlarm)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/monitoring/CloudWatchClient.h>
#include <aws/monitoring/model/PutMetricDataRequest.h>
#include <iostream>
```
Masukkan data ke dalam metrik.  

```
        Aws::CloudWatch::CloudWatchClient cw;

        Aws::CloudWatch::Model::Dimension dimension;
        dimension.SetName("UNIQUE_PAGES");
        dimension.SetValue("URLS");

        Aws::CloudWatch::Model::MetricDatum datum;
        datum.SetMetricName("PAGES_VISITED");
        datum.SetUnit(Aws::CloudWatch::Model::StandardUnit::None);
        datum.SetValue(data_point);
        datum.AddDimensions(dimension);

        Aws::CloudWatch::Model::PutMetricDataRequest request;
        request.SetNamespace("SITE/TRAFFIC");
        request.AddMetricData(datum);

        auto outcome = cw.PutMetricData(request);
        if (!outcome.IsSuccess())
        {
            std::cout << "Failed to put sample metric data:" <<
                outcome.GetError().GetMessage() << std::endl;
        }
        else
        {
            std::cout << "Successfully put sample metric data" << std::endl;
        }
```
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/goto/SdkForCpp/monitoring-2010-08-01/PutMetricData)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# CloudWatch Contoh log menggunakan SDK for C\$1\$1
<a name="cpp_1_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 With CloudWatch Logs.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteSubscriptionFilter`
<a name="cloudwatch-logs_DeleteSubscriptionFilter_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSubscriptionFilter`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch-logs#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/core/utils/Outcome.h>
#include <aws/logs/CloudWatchLogsClient.h>
#include <aws/logs/model/DeleteSubscriptionFilterRequest.h>
#include <iostream>
```
Hapus filter langganan.  

```
        Aws::CloudWatchLogs::CloudWatchLogsClient cwl;
        Aws::CloudWatchLogs::Model::DeleteSubscriptionFilterRequest request;
        request.SetFilterName(filter_name);
        request.SetLogGroupName(log_group);

        auto outcome = cwl.DeleteSubscriptionFilter(request);
        if (!outcome.IsSuccess()) {
            std::cout << "Failed to delete CloudWatch log subscription filter "
                << filter_name << ": " << outcome.GetError().GetMessage() <<
                std::endl;
        } else {
            std::cout << "Successfully deleted CloudWatch logs subscription " <<
                "filter " << filter_name << std::endl;
        }
```
+  Untuk detail API, lihat [DeleteSubscriptionFilter](https://docs.aws.amazon.com/goto/SdkForCpp/logs-2014-03-28/DeleteSubscriptionFilter)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeSubscriptionFilters`
<a name="cloudwatch-logs_DescribeSubscriptionFilters_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSubscriptionFilters`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch-logs#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/core/utils/Outcome.h>
#include <aws/logs/CloudWatchLogsClient.h>
#include <aws/logs/model/DescribeSubscriptionFiltersRequest.h>
#include <aws/logs/model/DescribeSubscriptionFiltersResult.h>
#include <iostream>
#include <iomanip>
```
Buat daftar filter berlangganan.  

```
        Aws::CloudWatchLogs::CloudWatchLogsClient cwl;
        Aws::CloudWatchLogs::Model::DescribeSubscriptionFiltersRequest request;
        request.SetLogGroupName(log_group);
        request.SetLimit(1);

        bool done = false;
        bool header = false;
        while (!done) {
            auto outcome = cwl.DescribeSubscriptionFilters(
                    request);
            if (!outcome.IsSuccess()) {
                std::cout << "Failed to describe CloudWatch subscription filters "
                    << "for log group " << log_group << ": " <<
                    outcome.GetError().GetMessage() << std::endl;
                break;
            }

            if (!header) {
                std::cout << std::left << std::setw(32) << "Name" <<
                    std::setw(64) << "FilterPattern" << std::setw(64) <<
                    "DestinationArn" << std::endl;
                header = true;
            }

            const auto &filters = outcome.GetResult().GetSubscriptionFilters();
            for (const auto &filter : filters) {
                std::cout << std::left << std::setw(32) <<
                    filter.GetFilterName() << std::setw(64) <<
                    filter.GetFilterPattern() << std::setw(64) <<
                    filter.GetDestinationArn() << std::endl;
            }

            const auto &next_token = outcome.GetResult().GetNextToken();
            request.SetNextToken(next_token);
            done = next_token.empty();
        }
```
+  Untuk detail API, lihat [DescribeSubscriptionFilters](https://docs.aws.amazon.com/goto/SdkForCpp/logs-2014-03-28/DescribeSubscriptionFilters)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutSubscriptionFilter`
<a name="cloudwatch-logs_PutSubscriptionFilter_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutSubscriptionFilter`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cloudwatch-logs#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/logs/CloudWatchLogsClient.h>
#include <aws/logs/model/PutSubscriptionFilterRequest.h>
#include <aws/core/utils/Outcome.h>
#include <iostream>
```
Buat filter berlangganan.  

```
        Aws::CloudWatchLogs::CloudWatchLogsClient cwl;
        Aws::CloudWatchLogs::Model::PutSubscriptionFilterRequest request;
        request.SetFilterName(filter_name);
        request.SetFilterPattern(filter_pattern);
        request.SetLogGroupName(log_group);
        request.SetDestinationArn(dest_arn);
        auto outcome = cwl.PutSubscriptionFilter(request);
        if (!outcome.IsSuccess())
        {
            std::cout << "Failed to create CloudWatch logs subscription filter "
                << filter_name << ": " << outcome.GetError().GetMessage() <<
                std::endl;
        }
        else
        {
            std::cout << "Successfully created CloudWatch logs subscription " <<
                "filter " << filter_name << std::endl;
        }
```
+  Untuk detail API, lihat [PutSubscriptionFilter](https://docs.aws.amazon.com/goto/SdkForCpp/logs-2014-03-28/PutSubscriptionFilter)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# CodeBuild contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_codebuild_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with CodeBuild.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListBuilds`
<a name="codebuild_ListBuilds_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuilds`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/codebuild#code-examples). 

```
//! List the CodeBuild builds.
/*!
  \param sortType: 'SortOrderType' type.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::CodeBuild::listBuilds(Aws::CodeBuild::Model::SortOrderType sortType,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::CodeBuild::CodeBuildClient codeBuildClient(clientConfiguration);

    Aws::CodeBuild::Model::ListBuildsRequest listBuildsRequest;
    listBuildsRequest.SetSortOrder(sortType);

    Aws::String nextToken; // Used for pagination.

    do {
        if (!nextToken.empty()) {
            listBuildsRequest.SetNextToken(nextToken);
        }

        Aws::CodeBuild::Model::ListBuildsOutcome listBuildsOutcome = codeBuildClient.ListBuilds(
                listBuildsRequest);

        if (listBuildsOutcome.IsSuccess()) {
            const Aws::Vector<Aws::String> &ids = listBuildsOutcome.GetResult().GetIds();
            if (!ids.empty()) {

                std::cout << "Information about each build:" << std::endl;
                Aws::CodeBuild::Model::BatchGetBuildsRequest getBuildsRequest;
                getBuildsRequest.SetIds(listBuildsOutcome.GetResult().GetIds());
                Aws::CodeBuild::Model::BatchGetBuildsOutcome getBuildsOutcome = codeBuildClient.BatchGetBuilds(
                        getBuildsRequest);

                if (getBuildsOutcome.IsSuccess()) {
                    const Aws::Vector<Aws::CodeBuild::Model::Build> &builds = getBuildsOutcome.GetResult().GetBuilds();
                    std::cout << builds.size() << " build(s) found." << std::endl;
                    for (auto val: builds) {
                        std::cout << val.GetId() << std::endl;
                    }
                } else {
                    std::cerr << "Error getting builds"
                              << getBuildsOutcome.GetError().GetMessage() << std::endl;
                    return false;
                }
            } else {
                std::cout << "No builds found." << std::endl;
            }

            // Get the next token for pagination.

            nextToken = listBuildsOutcome.GetResult().GetNextToken();
        } else {
            std::cerr << "Error listing builds"
                      << listBuildsOutcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }

    } while (!nextToken.

            empty()

            );

    return true;
}
```
+  Untuk detail API, lihat [ListBuilds](https://docs.aws.amazon.com/goto/SdkForCpp/codebuild-2016-10-06/ListBuilds)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListProjects`
<a name="codebuild_ListProjects_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListProjects`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/codebuild#code-examples). 

```
//! List the CodeBuild projects.
/*!
  \param sortType: 'SortOrderType' type.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::CodeBuild::listProjects(Aws::CodeBuild::Model::SortOrderType sortType,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::CodeBuild::CodeBuildClient codeBuildClient(clientConfiguration);

    Aws::CodeBuild::Model::ListProjectsRequest listProjectsRequest;
    listProjectsRequest.SetSortOrder(sortType);

    Aws::String nextToken; // Next token for pagination.
    Aws::Vector<Aws::String> allProjects;

    do {
        if (!nextToken.empty()) {
            listProjectsRequest.SetNextToken(nextToken);
        }

        Aws::CodeBuild::Model::ListProjectsOutcome outcome = codeBuildClient.ListProjects(
                listProjectsRequest);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::String> &projects = outcome.GetResult().GetProjects();
            allProjects.insert(allProjects.end(), projects.begin(), projects.end());
            nextToken = outcome.GetResult().GetNextToken();
        }

        else {
            std::cerr << "Error listing projects" << outcome.GetError().GetMessage()
                      << std::endl;
        }

    } while (!nextToken.empty());

    std::cout << allProjects.size() << " project(s) found." << std::endl;
    for (auto project: allProjects) {
        std::cout << project << std::endl;
    }

    return true;
}
```
+  Untuk detail API, lihat [ListProjects](https://docs.aws.amazon.com/goto/SdkForCpp/codebuild-2016-10-06/ListProjects)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `StartBuild`
<a name="codebuild_StartBuild_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartBuild`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/codebuild#code-examples). 

```
//! Start an AWS CodeBuild project build.
/*!
  \param projectName: A CodeBuild project name.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::CodeBuild::startBuild(const Aws::String &projectName,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::CodeBuild::CodeBuildClient codeBuildClient(clientConfiguration);

    Aws::CodeBuild::Model::StartBuildRequest startBuildRequest;
    startBuildRequest.SetProjectName(projectName);

    Aws::CodeBuild::Model::StartBuildOutcome outcome = codeBuildClient.StartBuild(
            startBuildRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully started build" << std::endl;
        std::cout << "Build ID: " << outcome.GetResult().GetBuild().GetId()
                  << std::endl;
    }

    else {
        std::cerr << "Error starting build" << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [StartBuild](https://docs.aws.amazon.com/goto/SdkForCpp/codebuild-2016-10-06/StartBuild)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK for C\$1\$1
<a name="cpp_1_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Penyedia Identitas Amazon Cognito AWS SDK untuk C\$1\$1 dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon Cognito
<a name="cognito-identity-provider_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Cognito.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito/hello_cognito#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS cognito-idp)

# Set this project's name.
project("hello_cognito")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this 
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_cognito.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1cognito.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/cognito-idp/CognitoIdentityProviderClient.h>
#include <aws/cognito-idp/model/ListUserPoolsRequest.h>
#include <iostream>

/*
 *  A "Hello Cognito" starter application which initializes an Amazon Cognito client and lists the Amazon Cognito
 *  user pools.
 *
 *  main function
 *
 *  Usage: 'hello_cognito'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::CognitoIdentityProvider::CognitoIdentityProviderClient cognitoClient(clientConfig);

        Aws::String nextToken; // Used for pagination.
        std::vector<Aws::String> userPools;

        do {
            Aws::CognitoIdentityProvider::Model::ListUserPoolsRequest listUserPoolsRequest;
            if (!nextToken.empty()) {
                listUserPoolsRequest.SetNextToken(nextToken);
            }

            Aws::CognitoIdentityProvider::Model::ListUserPoolsOutcome listUserPoolsOutcome =
                    cognitoClient.ListUserPools(listUserPoolsRequest);

            if (listUserPoolsOutcome.IsSuccess()) {
                for (auto &userPool: listUserPoolsOutcome.GetResult().GetUserPools()) {

                    userPools.push_back(userPool.GetName());
                }

                nextToken = listUserPoolsOutcome.GetResult().GetNextToken();
            } else {
                std::cerr << "ListUserPools error: " << listUserPoolsOutcome.GetError().GetMessage() << std::endl;
                result = 1;
                break;
            }


        } while (!nextToken.empty());
        std::cout << userPools.size() << " user pools found." << std::endl;
        for (auto &userPool: userPools) {
            std::cout << "   user pool: " << userPool << std::endl;
        }
    }

    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [ListUserPools](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/ListUserPools)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Tindakan
<a name="actions"></a>

### `AdminGetUser`
<a name="cognito-identity-provider_AdminGetUser_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminGetUser`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

    Aws::CognitoIdentityProvider::Model::AdminGetUserRequest request;
    request.SetUsername(userName);
    request.SetUserPoolId(userPoolID);

    Aws::CognitoIdentityProvider::Model::AdminGetUserOutcome outcome =
            client.AdminGetUser(request);

    if (outcome.IsSuccess()) {
        std::cout << "The status for " << userName << " is " <<
                  Aws::CognitoIdentityProvider::Model::UserStatusTypeMapper::GetNameForUserStatusType(
                          outcome.GetResult().GetUserStatus()) << std::endl;
        std::cout << "Enabled is " << outcome.GetResult().GetEnabled() << std::endl;
    }
    else {
        std::cerr << "Error with CognitoIdentityProvider::AdminGetUser. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
```
+  Untuk detail API, lihat [AdminGetUser](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/AdminGetUser)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `AdminInitiateAuth`
<a name="cognito-identity-provider_AdminInitiateAuth_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminInitiateAuth`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

    Aws::CognitoIdentityProvider::Model::AdminInitiateAuthRequest request;
    request.SetClientId(clientID);
    request.SetUserPoolId(userPoolID);
    request.AddAuthParameters("USERNAME", userName);
    request.AddAuthParameters("PASSWORD", password);
    request.SetAuthFlow(
            Aws::CognitoIdentityProvider::Model::AuthFlowType::ADMIN_USER_PASSWORD_AUTH);


    Aws::CognitoIdentityProvider::Model::AdminInitiateAuthOutcome outcome =
            client.AdminInitiateAuth(request);

    if (outcome.IsSuccess()) {
        std::cout << "Call to AdminInitiateAuth was successful." << std::endl;
        sessionResult = outcome.GetResult().GetSession();
    }
    else {
        std::cerr << "Error with CognitoIdentityProvider::AdminInitiateAuth. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
```
+  Untuk detail API, lihat [AdminInitiateAuth](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/AdminInitiateAuth)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `AdminRespondToAuthChallenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminRespondToAuthChallenge`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

        Aws::CognitoIdentityProvider::Model::AdminRespondToAuthChallengeRequest request;
        request.AddChallengeResponses("USERNAME", userName);
        request.AddChallengeResponses("SOFTWARE_TOKEN_MFA_CODE", mfaCode);
        request.SetChallengeName(
                Aws::CognitoIdentityProvider::Model::ChallengeNameType::SOFTWARE_TOKEN_MFA);
        request.SetClientId(clientID);
        request.SetUserPoolId(userPoolID);
        request.SetSession(session);

        Aws::CognitoIdentityProvider::Model::AdminRespondToAuthChallengeOutcome outcome =
                client.AdminRespondToAuthChallenge(request);

        if (outcome.IsSuccess()) {
            std::cout << "Here is the response to the challenge.\n" <<
                      outcome.GetResult().GetAuthenticationResult().Jsonize().View().WriteReadable()
                      << std::endl;

            accessToken = outcome.GetResult().GetAuthenticationResult().GetAccessToken();
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::AdminRespondToAuthChallenge. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/AdminRespondToAuthChallenge)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `AssociateSoftwareToken`
<a name="cognito-identity-provider_AssociateSoftwareToken_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateSoftwareToken`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

        Aws::CognitoIdentityProvider::Model::AssociateSoftwareTokenRequest request;
        request.SetSession(session);

        Aws::CognitoIdentityProvider::Model::AssociateSoftwareTokenOutcome outcome =
                client.AssociateSoftwareToken(request);

        if (outcome.IsSuccess()) {
            std::cout
                    << "Enter this setup key into an authenticator app, for example Google Authenticator."
                    << std::endl;
            std::cout << "Setup key: " << outcome.GetResult().GetSecretCode()
                      << std::endl;
#ifdef USING_QR
            printAsterisksLine();
            std::cout << "\nOr scan the QR code in the file '" << QR_CODE_PATH << "."
                      << std::endl;

            saveQRCode(std::string("otpauth://totp/") + userName + "?secret=" +
                       outcome.GetResult().GetSecretCode());
#endif // USING_QR
            session = outcome.GetResult().GetSession();
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::AssociateSoftwareToken. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [AssociateSoftwareToken](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/AssociateSoftwareToken)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ConfirmSignUp`
<a name="cognito-identity-provider_ConfirmSignUp_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSignUp`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

        Aws::CognitoIdentityProvider::Model::ConfirmSignUpRequest request;
        request.SetClientId(clientID);
        request.SetConfirmationCode(confirmationCode);
        request.SetUsername(userName);

        Aws::CognitoIdentityProvider::Model::ConfirmSignUpOutcome outcome =
                client.ConfirmSignUp(request);

        if (outcome.IsSuccess()) {
            std::cout << "ConfirmSignup was Successful."
                      << std::endl;
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::ConfirmSignUp. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [ConfirmSignUp](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/ConfirmSignUp)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteUser`
<a name="cognito-identity-provider_DeleteUser_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

        Aws::CognitoIdentityProvider::Model::DeleteUserRequest request;
        request.SetAccessToken(accessToken);

        Aws::CognitoIdentityProvider::Model::DeleteUserOutcome outcome =
                client.DeleteUser(request);

        if (outcome.IsSuccess()) {
            std::cout << "The user " << userName << " was deleted."
                      << std::endl;
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::DeleteUser. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/DeleteUser)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ResendConfirmationCode`
<a name="cognito-identity-provider_ResendConfirmationCode_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendConfirmationCode`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

        Aws::CognitoIdentityProvider::Model::ResendConfirmationCodeRequest request;
        request.SetUsername(userName);
        request.SetClientId(clientID);

        Aws::CognitoIdentityProvider::Model::ResendConfirmationCodeOutcome outcome =
                client.ResendConfirmationCode(request);

        if (outcome.IsSuccess()) {
            std::cout
                    << "CognitoIdentityProvider::ResendConfirmationCode was successful."
                    << std::endl;
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::ResendConfirmationCode. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [ResendConfirmationCode](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/ResendConfirmationCode)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `SignUp`
<a name="cognito-identity-provider_SignUp_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SignUp`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

        Aws::CognitoIdentityProvider::Model::SignUpRequest request;
        request.AddUserAttributes(
                Aws::CognitoIdentityProvider::Model::AttributeType().WithName(
                        "email").WithValue(email));
        request.SetUsername(userName);
        request.SetPassword(password);
        request.SetClientId(clientID);
        Aws::CognitoIdentityProvider::Model::SignUpOutcome outcome =
                client.SignUp(request);

        if (outcome.IsSuccess()) {
            std::cout << "The signup request for " << userName << " was successful."
                      << std::endl;
        }
        else if (outcome.GetError().GetErrorType() ==
                 Aws::CognitoIdentityProvider::CognitoIdentityProviderErrors::USERNAME_EXISTS) {
            std::cout
                    << "The username already exists. Please enter a different username."
                    << std::endl;
            userExists = true;
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::SignUpRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [SignUp](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/SignUp)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `VerifySoftwareToken`
<a name="cognito-identity-provider_VerifySoftwareToken_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifySoftwareToken`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);

        Aws::CognitoIdentityProvider::Model::VerifySoftwareTokenRequest request;
        request.SetUserCode(userCode);
        request.SetSession(session);

        Aws::CognitoIdentityProvider::Model::VerifySoftwareTokenOutcome outcome =
                client.VerifySoftwareToken(request);

        if (outcome.IsSuccess()) {
            std::cout << "Verification of the code was successful."
                      << std::endl;
            session = outcome.GetResult().GetSession();
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::VerifySoftwareToken. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [VerifySoftwareToken](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/VerifySoftwareToken)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Mendaftar pengguna dengan kumpulan pengguna yang membutuhkan MFA
<a name="cognito-identity-provider_Scenario_SignUpUserWithMfa_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar dan konfirmasikan pengguna dengan nama pengguna, kata sandi, dan alamat email.
+ Siapkan otentikasi multi-faktor dengan mengaitkan aplikasi MFA dengan pengguna.
+ Masuk dengan menggunakan kata sandi dan kode MFA.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cognito#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Scenario that adds a user to an Amazon Cognito user pool.
/*!
  \sa gettingStartedWithUserPools()
  \param clientID: Client ID associated with an Amazon Cognito user pool.
  \param userPoolID: An Amazon Cognito user pool ID.
  \param clientConfig: Aws client configuration.
  \return bool: Successful completion.
 */
bool AwsDoc::Cognito::gettingStartedWithUserPools(const Aws::String &clientID,
                                                  const Aws::String &userPoolID,
                                                  const Aws::Client::ClientConfiguration &clientConfig) {
    printAsterisksLine();
    std::cout
            << "Welcome to the Amazon Cognito example scenario."
            << std::endl;
    printAsterisksLine();

    std::cout
            << "This scenario will add a user to an Amazon Cognito user pool."
            << std::endl;
    const Aws::String userName = askQuestion("Enter a new username: ");
    const Aws::String password = askQuestion("Enter a new password: ");
    const Aws::String email = askQuestion("Enter a valid email for the user: ");

    std::cout << "Signing up " << userName << std::endl;

    Aws::CognitoIdentityProvider::CognitoIdentityProviderClient client(clientConfig);
    bool userExists = false;
    do {
        // 1. Add a user with a username, password, and email address.
        Aws::CognitoIdentityProvider::Model::SignUpRequest request;
        request.AddUserAttributes(
                Aws::CognitoIdentityProvider::Model::AttributeType().WithName(
                        "email").WithValue(email));
        request.SetUsername(userName);
        request.SetPassword(password);
        request.SetClientId(clientID);
        Aws::CognitoIdentityProvider::Model::SignUpOutcome outcome =
                client.SignUp(request);

        if (outcome.IsSuccess()) {
            std::cout << "The signup request for " << userName << " was successful."
                      << std::endl;
        }
        else if (outcome.GetError().GetErrorType() ==
                 Aws::CognitoIdentityProvider::CognitoIdentityProviderErrors::USERNAME_EXISTS) {
            std::cout
                    << "The username already exists. Please enter a different username."
                    << std::endl;
            userExists = true;
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::SignUpRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (userExists);

    printAsterisksLine();
    std::cout << "Retrieving status of " << userName << " in the user pool."
              << std::endl;
    // 2. Confirm that the user was added to the user pool.
    if (!checkAdminUserStatus(userName, userPoolID, client)) {
        return false;
    }

    std::cout << "A confirmation code was sent to " << email << "." << std::endl;

    bool resend = askYesNoQuestion("Would you like to send a new code? (y/n) ");
    if (resend) {
        // Request a resend of the confirmation code to the email address. (ResendConfirmationCode)
        Aws::CognitoIdentityProvider::Model::ResendConfirmationCodeRequest request;
        request.SetUsername(userName);
        request.SetClientId(clientID);

        Aws::CognitoIdentityProvider::Model::ResendConfirmationCodeOutcome outcome =
                client.ResendConfirmationCode(request);

        if (outcome.IsSuccess()) {
            std::cout
                    << "CognitoIdentityProvider::ResendConfirmationCode was successful."
                    << std::endl;
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::ResendConfirmationCode. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    printAsterisksLine();

    {
        // 4. Send the confirmation code that's received in the email. (ConfirmSignUp)
        const Aws::String confirmationCode = askQuestion(
                "Enter the confirmation code that was emailed: ");
        Aws::CognitoIdentityProvider::Model::ConfirmSignUpRequest request;
        request.SetClientId(clientID);
        request.SetConfirmationCode(confirmationCode);
        request.SetUsername(userName);

        Aws::CognitoIdentityProvider::Model::ConfirmSignUpOutcome outcome =
                client.ConfirmSignUp(request);

        if (outcome.IsSuccess()) {
            std::cout << "ConfirmSignup was Successful."
                      << std::endl;
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::ConfirmSignUp. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    std::cout << "Rechecking the status of " << userName << " in the user pool."
              << std::endl;
    if (!checkAdminUserStatus(userName, userPoolID, client)) {
        return false;
    }

    printAsterisksLine();

    std::cout << "Initiating authorization using the username and password."
              << std::endl;

    Aws::String session;
    // 5. Initiate authorization with username and password. (AdminInitiateAuth)
    if (!adminInitiateAuthorization(clientID, userPoolID,  userName, password, session, client)) {
        return false;
    }

    printAsterisksLine();

    std::cout
            << "Starting setup of time-based one-time password (TOTP) multi-factor authentication (MFA)."
            << std::endl;

    {
        // 6. Request a setup key for one-time password (TOTP)
        //    multi-factor authentication (MFA). (AssociateSoftwareToken)
        Aws::CognitoIdentityProvider::Model::AssociateSoftwareTokenRequest request;
        request.SetSession(session);

        Aws::CognitoIdentityProvider::Model::AssociateSoftwareTokenOutcome outcome =
                client.AssociateSoftwareToken(request);

        if (outcome.IsSuccess()) {
            std::cout
                    << "Enter this setup key into an authenticator app, for example Google Authenticator."
                    << std::endl;
            std::cout << "Setup key: " << outcome.GetResult().GetSecretCode()
                      << std::endl;
#ifdef USING_QR
            printAsterisksLine();
            std::cout << "\nOr scan the QR code in the file '" << QR_CODE_PATH << "."
                      << std::endl;

            saveQRCode(std::string("otpauth://totp/") + userName + "?secret=" +
                       outcome.GetResult().GetSecretCode());
#endif // USING_QR
            session = outcome.GetResult().GetSession();
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::AssociateSoftwareToken. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }
    askQuestion("Type enter to continue...", alwaysTrueTest);

    printAsterisksLine();

    {
        Aws::String userCode = askQuestion(
                "Enter the 6 digit code displayed in the authenticator app: ");

        //  7. Send the MFA code copied from an authenticator app. (VerifySoftwareToken)
        Aws::CognitoIdentityProvider::Model::VerifySoftwareTokenRequest request;
        request.SetUserCode(userCode);
        request.SetSession(session);

        Aws::CognitoIdentityProvider::Model::VerifySoftwareTokenOutcome outcome =
                client.VerifySoftwareToken(request);

        if (outcome.IsSuccess()) {
            std::cout << "Verification of the code was successful."
                      << std::endl;
            session = outcome.GetResult().GetSession();
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::VerifySoftwareToken. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    printAsterisksLine();
    std::cout << "You have completed the MFA authentication setup." << std::endl;
    std::cout << "Now, sign in." << std::endl;

    // 8. Initiate authorization again with username and password. (AdminInitiateAuth)
    if (!adminInitiateAuthorization(clientID, userPoolID, userName, password, session, client)) {
        return false;
    }

    Aws::String accessToken;
    {
        Aws::String mfaCode = askQuestion(
                "Re-enter the 6 digit code displayed in the authenticator app: ");

        // 9. Send a new MFA code copied from an authenticator app. (AdminRespondToAuthChallenge)
        Aws::CognitoIdentityProvider::Model::AdminRespondToAuthChallengeRequest request;
        request.AddChallengeResponses("USERNAME", userName);
        request.AddChallengeResponses("SOFTWARE_TOKEN_MFA_CODE", mfaCode);
        request.SetChallengeName(
                Aws::CognitoIdentityProvider::Model::ChallengeNameType::SOFTWARE_TOKEN_MFA);
        request.SetClientId(clientID);
        request.SetUserPoolId(userPoolID);
        request.SetSession(session);

        Aws::CognitoIdentityProvider::Model::AdminRespondToAuthChallengeOutcome outcome =
                client.AdminRespondToAuthChallenge(request);

        if (outcome.IsSuccess()) {
            std::cout << "Here is the response to the challenge.\n" <<
                      outcome.GetResult().GetAuthenticationResult().Jsonize().View().WriteReadable()
                      << std::endl;

            accessToken = outcome.GetResult().GetAuthenticationResult().GetAccessToken();
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::AdminRespondToAuthChallenge. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }

        std::cout << "You have successfully added a user to Amazon Cognito."
                  << std::endl;
    }

    if (askYesNoQuestion("Would you like to delete the user that you just added? (y/n) ")) {
        // 10. Delete the user that you just added. (DeleteUser)
        Aws::CognitoIdentityProvider::Model::DeleteUserRequest request;
        request.SetAccessToken(accessToken);

        Aws::CognitoIdentityProvider::Model::DeleteUserOutcome outcome =
                client.DeleteUser(request);

        if (outcome.IsSuccess()) {
            std::cout << "The user " << userName << " was deleted."
                      << std::endl;
        }
        else {
            std::cerr << "Error with CognitoIdentityProvider::DeleteUser. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    }

    return true;
}

//! Routine which checks the user status in an Amazon Cognito user pool.
/*!
 \sa checkAdminUserStatus()
 \param userName: A username.
 \param userPoolID: An Amazon Cognito user pool ID.
 \return bool: Successful completion.
 */
bool AwsDoc::Cognito::checkAdminUserStatus(const Aws::String &userName,
                                           const Aws::String &userPoolID,
                                           const Aws::CognitoIdentityProvider::CognitoIdentityProviderClient &client) {
    Aws::CognitoIdentityProvider::Model::AdminGetUserRequest request;
    request.SetUsername(userName);
    request.SetUserPoolId(userPoolID);

    Aws::CognitoIdentityProvider::Model::AdminGetUserOutcome outcome =
            client.AdminGetUser(request);

    if (outcome.IsSuccess()) {
        std::cout << "The status for " << userName << " is " <<
                  Aws::CognitoIdentityProvider::Model::UserStatusTypeMapper::GetNameForUserStatusType(
                          outcome.GetResult().GetUserStatus()) << std::endl;
        std::cout << "Enabled is " << outcome.GetResult().GetEnabled() << std::endl;
    }
    else {
        std::cerr << "Error with CognitoIdentityProvider::AdminGetUser. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}

//! Routine which starts authorization of an Amazon Cognito user.
//! This routine requires administrator credentials.
/*!
 \sa adminInitiateAuthorization()
 \param clientID: Client ID of tracked device.
 \param userPoolID: An Amazon Cognito user pool ID.
 \param userName: A username.
 \param password: A password.
 \param sessionResult: String to receive a session token.
 \return bool: Successful completion.
 */
bool AwsDoc::Cognito::adminInitiateAuthorization(const Aws::String &clientID,
                                                 const Aws::String &userPoolID,
                                                 const Aws::String &userName,
                                                 const Aws::String &password,
                                                 Aws::String &sessionResult,
                                                 const Aws::CognitoIdentityProvider::CognitoIdentityProviderClient &client) {
    Aws::CognitoIdentityProvider::Model::AdminInitiateAuthRequest request;
    request.SetClientId(clientID);
    request.SetUserPoolId(userPoolID);
    request.AddAuthParameters("USERNAME", userName);
    request.AddAuthParameters("PASSWORD", password);
    request.SetAuthFlow(
            Aws::CognitoIdentityProvider::Model::AuthFlowType::ADMIN_USER_PASSWORD_AUTH);


    Aws::CognitoIdentityProvider::Model::AdminInitiateAuthOutcome outcome =
            client.AdminInitiateAuth(request);

    if (outcome.IsSuccess()) {
        std::cout << "Call to AdminInitiateAuth was successful." << std::endl;
        sessionResult = outcome.GetResult().GetSession();
    }
    else {
        std::cerr << "Error with CognitoIdentityProvider::AdminInitiateAuth. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [AdminGetUser](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/AdminGetUser)
  + [AdminInitiateAuth](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/AdminInitiateAuth)
  + [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/AdminRespondToAuthChallenge)
  + [AssociateSoftwareToken](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/AssociateSoftwareToken)
  + [ConfirmDevice](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/ConfirmDevice)
  + [ConfirmSignUp](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/ConfirmSignUp)
  + [InitiateAuth](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/InitiateAuth)
  + [ListUsers](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/ListUsers)
  + [ResendConfirmationCode](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/ResendConfirmationCode)
  + [RespondToAuthChallenge](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/RespondToAuthChallenge)
  + [SignUp](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/SignUp)
  + [VerifySoftwareToken](https://docs.aws.amazon.com/goto/SdkForCpp/cognito-idp-2016-04-18/VerifySoftwareToken)

# Contoh DynamoDB menggunakan SDK for C\$1\$1
<a name="cpp_1_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo DynamoDB
<a name="dynamodb_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan DynamoDB.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb/hello_dynamodb#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS dynamodb)

# Set this project's name.
project("hello_dynamodb")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # if you are building from the command line you may need to uncomment this 
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_dynamodb.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1dynamodb.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/dynamodb/DynamoDBClient.h>
#include <aws/dynamodb/model/ListTablesRequest.h>
#include <iostream>

/*
 *  A "Hello DynamoDB" starter application which initializes an Amazon DynamoDB (DynamoDB) client and lists the
 *  DynamoDB tables.
 *
 *  main function
 *
 *  Usage: 'hello_dynamodb'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.

    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::DynamoDB::DynamoDBClient dynamodbClient(clientConfig);
        Aws::DynamoDB::Model::ListTablesRequest listTablesRequest;
        listTablesRequest.SetLimit(50);
        do {
            const Aws::DynamoDB::Model::ListTablesOutcome &outcome = dynamodbClient.ListTables(
                    listTablesRequest);
            if (!outcome.IsSuccess()) {
                std::cout << "Error: " << outcome.GetError().GetMessage() << std::endl;
                result = 1;
                break;
            }

            for (const auto &tableName: outcome.GetResult().GetTableNames()) {
                std::cout << tableName << std::endl;
            }

            listTablesRequest.SetExclusiveStartTableName(
                    outcome.GetResult().GetLastEvaluatedTableName());

        } while (!listTablesRequest.GetExclusiveStartTableName().empty());
    }


    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
    {
        Aws::Client::ClientConfiguration clientConfig;
        //  1. Create a table with partition: year (N) and sort: title (S). (CreateTable)
        if (AwsDoc::DynamoDB::createMoviesDynamoDBTable(clientConfig)) {

            AwsDoc::DynamoDB::dynamodbGettingStartedScenario(clientConfig);

            // 9. Delete the table. (DeleteTable)
            AwsDoc::DynamoDB::deleteMoviesDynamoDBTable(clientConfig);
        }
    }

//! Scenario to modify and query a DynamoDB table.
/*!
  \sa dynamodbGettingStartedScenario()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::DynamoDB::dynamodbGettingStartedScenario(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    std::cout << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << " "
              << std::endl;
    std::cout << "Welcome to the Amazon DynamoDB getting started demo." << std::endl;
    std::cout << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << " "
              << std::endl;

    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    // 2. Add a new movie.
    Aws::String title;
    float rating;
    int year;
    Aws::String plot;
    {
        title = askQuestion(
                "Enter the title of a movie you want to add to the table: ");
        year = askQuestionForInt("What year was it released? ");
        rating = askQuestionForFloatRange("On a scale of 1 - 10, how do you rate it? ",
                                          1, 10);
        plot = askQuestion("Summarize the plot for me: ");

        Aws::DynamoDB::Model::PutItemRequest putItemRequest;
        putItemRequest.SetTableName(MOVIE_TABLE_NAME);

        putItemRequest.AddItem(YEAR_KEY,
                               Aws::DynamoDB::Model::AttributeValue().SetN(year));
        putItemRequest.AddItem(TITLE_KEY,
                               Aws::DynamoDB::Model::AttributeValue().SetS(title));

        // Create attribute for the info map.
        Aws::DynamoDB::Model::AttributeValue infoMapAttribute;

        std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> ratingAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                ALLOCATION_TAG.c_str());
        ratingAttribute->SetN(rating);
        infoMapAttribute.AddMEntry(RATING_KEY, ratingAttribute);

        std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> plotAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                ALLOCATION_TAG.c_str());
        plotAttribute->SetS(plot);
        infoMapAttribute.AddMEntry(PLOT_KEY, plotAttribute);

        putItemRequest.AddItem(INFO_KEY, infoMapAttribute);

        Aws::DynamoDB::Model::PutItemOutcome outcome = dynamoClient.PutItem(
                putItemRequest);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to add an item: " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    std::cout << "\nAdded '" << title << "' to '" << MOVIE_TABLE_NAME << "'."
              << std::endl;

    // 3. Update the rating and plot of the movie by using an update expression.
    {
        rating = askQuestionForFloatRange(
                Aws::String("\nLet's update your movie.\nYou rated it  ") +
                std::to_string(rating)
                + ", what new rating would you give it? ", 1, 10);
        plot = askQuestion(Aws::String("You summarized the plot as '") + plot +
                           "'.\nWhat would you say now? ");

        Aws::DynamoDB::Model::UpdateItemRequest request;
        request.SetTableName(MOVIE_TABLE_NAME);
        request.AddKey(TITLE_KEY, Aws::DynamoDB::Model::AttributeValue().SetS(title));
        request.AddKey(YEAR_KEY, Aws::DynamoDB::Model::AttributeValue().SetN(year));
        std::stringstream expressionStream;
        expressionStream << "set " << INFO_KEY << "." << RATING_KEY << " =:r, "
                         << INFO_KEY << "." << PLOT_KEY << " =:p";
        request.SetUpdateExpression(expressionStream.str());
        request.SetExpressionAttributeValues({
                                                     {":r", Aws::DynamoDB::Model::AttributeValue().SetN(
                                                             rating)},
                                                     {":p", Aws::DynamoDB::Model::AttributeValue().SetS(
                                                             plot)}
                                             });

        request.SetReturnValues(Aws::DynamoDB::Model::ReturnValue::UPDATED_NEW);

        const Aws::DynamoDB::Model::UpdateItemOutcome &result = dynamoClient.UpdateItem(
                request);
        if (!result.IsSuccess()) {
            std::cerr << "Error updating movie " + result.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    std::cout << "\nUpdated '" << title << "' with new attributes:" << std::endl;

    // 4. Put 250 movies in the table from moviedata.json.
    {
        std::cout << "Adding movies from a json file to the database." << std::endl;
        const size_t MAX_SIZE_FOR_BATCH_WRITE = 25;
        const size_t MOVIES_TO_WRITE = 10 * MAX_SIZE_FOR_BATCH_WRITE;
        Aws::String jsonString = getMovieJSON();
        if (!jsonString.empty()) {
            Aws::Utils::Json::JsonValue json(jsonString);
            Aws::Utils::Array<Aws::Utils::Json::JsonView> movieJsons = json.View().AsArray();
            Aws::Vector<Aws::DynamoDB::Model::WriteRequest> writeRequests;

            // To add movies with a cross-section of years, use an appropriate increment
            // value for iterating through the database.
            size_t increment = movieJsons.GetLength() / MOVIES_TO_WRITE;
            for (size_t i = 0; i < movieJsons.GetLength(); i += increment) {
                writeRequests.push_back(Aws::DynamoDB::Model::WriteRequest());
                Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> putItems = movieJsonViewToAttributeMap(
                        movieJsons[i]);
                Aws::DynamoDB::Model::PutRequest putRequest;
                putRequest.SetItem(putItems);
                writeRequests.back().SetPutRequest(putRequest);
                if (writeRequests.size() == MAX_SIZE_FOR_BATCH_WRITE) {
                    Aws::DynamoDB::Model::BatchWriteItemRequest request;
                    request.AddRequestItems(MOVIE_TABLE_NAME, writeRequests);
                    const Aws::DynamoDB::Model::BatchWriteItemOutcome &outcome = dynamoClient.BatchWriteItem(
                            request);
                    if (!outcome.IsSuccess()) {
                        std::cerr << "Unable to batch write movie data: "
                                  << outcome.GetError().GetMessage()
                                  << std::endl;
                        writeRequests.clear();
                        break;
                    }
                    else {
                        std::cout << "Added batch of " << writeRequests.size()
                                  << " movies to the database."
                                  << std::endl;
                    }
                    writeRequests.clear();
                }
            }
        }
    }

    std::cout << std::setfill('*') << std::setw(ASTERISK_FILL_WIDTH) << " "
              << std::endl;

    // 5. Get a movie by Key (partition + sort).
    {
        Aws::String titleToGet("King Kong");
        Aws::String answer = askQuestion(Aws::String(
                "Let's move on...Would you like to get info about '" + titleToGet +
                "'? (y/n) "));
        if (answer == "y") {
            Aws::DynamoDB::Model::GetItemRequest request;
            request.SetTableName(MOVIE_TABLE_NAME);
            request.AddKey(TITLE_KEY,
                           Aws::DynamoDB::Model::AttributeValue().SetS(titleToGet));
            request.AddKey(YEAR_KEY, Aws::DynamoDB::Model::AttributeValue().SetN(1933));

            const Aws::DynamoDB::Model::GetItemOutcome &result = dynamoClient.GetItem(
                    request);
            if (!result.IsSuccess()) {
                std::cerr << "Error " << result.GetError().GetMessage();
            }
            else {
                const Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &item = result.GetResult().GetItem();
                if (!item.empty()) {
                    std::cout << "\nHere's what I found:" << std::endl;
                    printMovieInfo(item);
                }
                else {
                    std::cout << "\nThe movie was not found in the database."
                              << std::endl;
                }
            }
        }
    }

    // 6. Use Query with a key condition expression to return all movies
    //    released in a given year.
    Aws::String doAgain = "n";
    do {
        Aws::DynamoDB::Model::QueryRequest req;

        req.SetTableName(MOVIE_TABLE_NAME);

        // "year" is a DynamoDB reserved keyword and must be replaced with an
        // expression attribute name.
        req.SetKeyConditionExpression("#dynobase_year = :valueToMatch");
        req.SetExpressionAttributeNames({{"#dynobase_year", YEAR_KEY}});

        int yearToMatch = askQuestionForIntRange(
                "\nLet's get a list of movies released in"
                " a given year. Enter a year between 1972 and 2018 ",
                1972, 2018);
        Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> attributeValues;
        attributeValues.emplace(":valueToMatch",
                                Aws::DynamoDB::Model::AttributeValue().SetN(
                                        yearToMatch));
        req.SetExpressionAttributeValues(attributeValues);

        const Aws::DynamoDB::Model::QueryOutcome &result = dynamoClient.Query(req);
        if (result.IsSuccess()) {
            const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &items = result.GetResult().GetItems();
            if (!items.empty()) {
                std::cout << "\nThere were " << items.size()
                          << " movies in the database from "
                          << yearToMatch << "." << std::endl;
                for (const auto &item: items) {
                    printMovieInfo(item);
                }
                doAgain = "n";
            }
            else {
                std::cout << "\nNo movies from " << yearToMatch
                          << " were found in the database"
                          << std::endl;
                doAgain = askQuestion(Aws::String("Try another year? (y/n) "));
            }
        }
        else {
            std::cerr << "Failed to Query items: " << result.GetError().GetMessage()
                      << std::endl;
        }

    } while (doAgain == "y");

    //  7. Use Scan to return movies released within a range of years.
    //     Show how to paginate data using ExclusiveStartKey. (Scan + FilterExpression)
    {
        int startYear = askQuestionForIntRange("\nNow let's scan a range of years "
                                               "for movies in the database. Enter a start year: ",
                                               1972, 2018);
        int endYear = askQuestionForIntRange("\nEnter an end year: ",
                                             startYear, 2018);
        Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> exclusiveStartKey;
        do {
            Aws::DynamoDB::Model::ScanRequest scanRequest;
            scanRequest.SetTableName(MOVIE_TABLE_NAME);
            scanRequest.SetFilterExpression(
                    "#dynobase_year >= :startYear AND #dynobase_year <= :endYear");
            scanRequest.SetExpressionAttributeNames({{"#dynobase_year", YEAR_KEY}});

            Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> attributeValues;
            attributeValues.emplace(":startYear",
                                    Aws::DynamoDB::Model::AttributeValue().SetN(
                                            startYear));
            attributeValues.emplace(":endYear",
                                    Aws::DynamoDB::Model::AttributeValue().SetN(
                                            endYear));
            scanRequest.SetExpressionAttributeValues(attributeValues);

            if (!exclusiveStartKey.empty()) {
                scanRequest.SetExclusiveStartKey(exclusiveStartKey);
            }

            const Aws::DynamoDB::Model::ScanOutcome &result = dynamoClient.Scan(
                    scanRequest);
            if (result.IsSuccess()) {
                const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &items = result.GetResult().GetItems();
                if (!items.empty()) {
                    std::stringstream stringStream;
                    stringStream << "\nFound " << items.size() << " movies in one scan."
                                 << " How many would you like to see? ";
                    size_t count = askQuestionForInt(stringStream.str());
                    for (size_t i = 0; i < count && i < items.size(); ++i) {
                        printMovieInfo(items[i]);
                    }
                }
                else {
                    std::cout << "\nNo movies in the database between " << startYear <<
                              " and " << endYear << "." << std::endl;
                }

                exclusiveStartKey = result.GetResult().GetLastEvaluatedKey();
                if (!exclusiveStartKey.empty()) {
                    std::cout << "Not all movies were retrieved. Scanning for more."
                              << std::endl;
                }
                else {
                    std::cout << "All movies were retrieved with this scan."
                              << std::endl;
                }
            }
            else {
                std::cerr << "Failed to Scan movies: "
                          << result.GetError().GetMessage() << std::endl;
            }
        } while (!exclusiveStartKey.empty());
    }

    // 8. Delete a movie. (DeleteItem)
    {
        std::stringstream stringStream;
        stringStream << "\nWould you like to delete the movie " << title
                     << " from the database? (y/n) ";
        Aws::String answer = askQuestion(stringStream.str());
        if (answer == "y") {
            Aws::DynamoDB::Model::DeleteItemRequest request;
            request.AddKey(YEAR_KEY, Aws::DynamoDB::Model::AttributeValue().SetN(year));
            request.AddKey(TITLE_KEY,
                           Aws::DynamoDB::Model::AttributeValue().SetS(title));
            request.SetTableName(MOVIE_TABLE_NAME);

            const Aws::DynamoDB::Model::DeleteItemOutcome &result = dynamoClient.DeleteItem(
                    request);
            if (result.IsSuccess()) {
                std::cout << "\nRemoved \"" << title << "\" from the database."
                          << std::endl;
            }
            else {
                std::cerr << "Failed to delete the movie: "
                          << result.GetError().GetMessage()
                          << std::endl;
            }
        }
    }

    return true;
}

//! Routine to convert a JsonView object to an attribute map.
/*!
  \sa movieJsonViewToAttributeMap()
  \param jsonView: Json view object.
  \return map: Map that can be used in a DynamoDB request.
 */
Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>
AwsDoc::DynamoDB::movieJsonViewToAttributeMap(
        const Aws::Utils::Json::JsonView &jsonView) {
    Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> result;

    if (jsonView.KeyExists(YEAR_KEY)) {
        result[YEAR_KEY].SetN(jsonView.GetInteger(YEAR_KEY));
    }
    if (jsonView.KeyExists(TITLE_KEY)) {
        result[TITLE_KEY].SetS(jsonView.GetString(TITLE_KEY));
    }
    if (jsonView.KeyExists(INFO_KEY)) {
        Aws::Map<Aws::String, const std::shared_ptr<Aws::DynamoDB::Model::AttributeValue>> infoMap;
        Aws::Utils::Json::JsonView infoView = jsonView.GetObject(INFO_KEY);
        if (infoView.KeyExists(RATING_KEY)) {
            std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> attributeValue = std::make_shared<Aws::DynamoDB::Model::AttributeValue>();
            attributeValue->SetN(infoView.GetDouble(RATING_KEY));
            infoMap.emplace(std::make_pair(RATING_KEY, attributeValue));
        }
        if (infoView.KeyExists(PLOT_KEY)) {
            std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> attributeValue = std::make_shared<Aws::DynamoDB::Model::AttributeValue>();
            attributeValue->SetS(infoView.GetString(PLOT_KEY));
            infoMap.emplace(std::make_pair(PLOT_KEY, attributeValue));
        }

        result[INFO_KEY].SetM(infoMap);
    }

    return result;
}

//! Create a DynamoDB table to be used in sample code scenarios.
/*!
  \sa createMoviesDynamoDBTable()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::createMoviesDynamoDBTable(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    bool movieTableAlreadyExisted = false;

    {
        Aws::DynamoDB::Model::CreateTableRequest request;

        Aws::DynamoDB::Model::AttributeDefinition yearAttributeDefinition;
        yearAttributeDefinition.SetAttributeName(YEAR_KEY);
        yearAttributeDefinition.SetAttributeType(
                Aws::DynamoDB::Model::ScalarAttributeType::N);
        request.AddAttributeDefinitions(yearAttributeDefinition);

        Aws::DynamoDB::Model::AttributeDefinition titleAttributeDefinition;
        yearAttributeDefinition.SetAttributeName(TITLE_KEY);
        yearAttributeDefinition.SetAttributeType(
                Aws::DynamoDB::Model::ScalarAttributeType::S);
        request.AddAttributeDefinitions(yearAttributeDefinition);

        Aws::DynamoDB::Model::KeySchemaElement yearKeySchema;
        yearKeySchema.WithAttributeName(YEAR_KEY).WithKeyType(
                Aws::DynamoDB::Model::KeyType::HASH);
        request.AddKeySchema(yearKeySchema);

        Aws::DynamoDB::Model::KeySchemaElement titleKeySchema;
        yearKeySchema.WithAttributeName(TITLE_KEY).WithKeyType(
                Aws::DynamoDB::Model::KeyType::RANGE);
        request.AddKeySchema(yearKeySchema);

        Aws::DynamoDB::Model::ProvisionedThroughput throughput;
        throughput.WithReadCapacityUnits(
                PROVISIONED_THROUGHPUT_UNITS).WithWriteCapacityUnits(
                PROVISIONED_THROUGHPUT_UNITS);
        request.SetProvisionedThroughput(throughput);
        request.SetTableName(MOVIE_TABLE_NAME);

        std::cout << "Creating table '" << MOVIE_TABLE_NAME << "'..." << std::endl;
        const Aws::DynamoDB::Model::CreateTableOutcome &result = dynamoClient.CreateTable(
                request);
        if (!result.IsSuccess()) {
            if (result.GetError().GetErrorType() ==
                Aws::DynamoDB::DynamoDBErrors::RESOURCE_IN_USE) {
                std::cout << "Table already exists." << std::endl;
                movieTableAlreadyExisted = true;
            }
            else {
                std::cerr << "Failed to create table: "
                          << result.GetError().GetMessage();
                return false;
            }
        }
    }

    // Wait for table to become active.
    if (!movieTableAlreadyExisted) {
        std::cout << "Waiting for table '" << MOVIE_TABLE_NAME
                  << "' to become active...." << std::endl;
        if (!AwsDoc::DynamoDB::waitTableActive(MOVIE_TABLE_NAME, clientConfiguration)) {
            return false;
        }
        std::cout << "Table '" << MOVIE_TABLE_NAME << "' created and active."
                  << std::endl;
    }

    return true;
}

//! Delete the DynamoDB table used for sample code scenarios.
/*!
  \sa deleteMoviesDynamoDBTable()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::deleteMoviesDynamoDBTable(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::DeleteTableRequest request;
    request.SetTableName(MOVIE_TABLE_NAME);

    const Aws::DynamoDB::Model::DeleteTableOutcome &result = dynamoClient.DeleteTable(
            request);
    if (result.IsSuccess()) {
        std::cout << "Your table \""
                  << result.GetResult().GetTableDescription().GetTableName()
                  << " was deleted.\n";
    }
    else {
        std::cerr << "Failed to delete table: " << result.GetError().GetMessage()
                  << std::endl;
    }

    return result.IsSuccess();
}

//! Query a newly created DynamoDB table until it is active.
/*!
  \sa waitTableActive()
  \param waitTableActive: The DynamoDB table's name.
  \param dynamoClient: A DynamoDB client.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::waitTableActive(const Aws::String &tableName,
                                       const Aws::DynamoDB::DynamoDBClient &dynamoClient) {

    // Repeatedly call DescribeTable until table is ACTIVE.
    const int MAX_QUERIES = 20;
    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    int count = 0;
    while (count < MAX_QUERIES) {
        const Aws::DynamoDB::Model::DescribeTableOutcome &result = dynamoClient.DescribeTable(
                request);
        if (result.IsSuccess()) {
            Aws::DynamoDB::Model::TableStatus status = result.GetResult().GetTable().GetTableStatus();

            if (Aws::DynamoDB::Model::TableStatus::ACTIVE != status) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                return true;
            }
        }
        else {
            std::cerr << "Error DynamoDB::waitTableActive "
                      << result.GetError().GetMessage() << std::endl;
            return false;
        }
        count++;
    }
    return false;
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [BatchWriteItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/BatchWriteItem)
  + [CreateTable](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/CreateTable)
  + [DeleteItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/DeleteItem)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/Scan)
  + [UpdateItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/UpdateItem)

## Tindakan
<a name="actions"></a>

### `BatchExecuteStatement`
<a name="dynamodb_BatchExecuteStatement_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchExecuteStatement`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 
Gunakan batch pernyataan INSERT untuk menambahkan item.  

```
    // 2. Add multiple movies using "Insert" statements. (BatchExecuteStatement)
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    std::vector<Aws::String> titles;
    std::vector<float> ratings;
    std::vector<int> years;
    std::vector<Aws::String> plots;
    Aws::String doAgain = "n";
    do {
        Aws::String aTitle = askQuestion(
                "Enter the title of a movie you want to add to the table: ");
        titles.push_back(aTitle);
        int aYear = askQuestionForInt("What year was it released? ");
        years.push_back(aYear);
        float aRating = askQuestionForFloatRange(
                "On a scale of 1 - 10, how do you rate it? ",
                1, 10);
        ratings.push_back(aRating);
        Aws::String aPlot = askQuestion("Summarize the plot for me: ");
        plots.push_back(aPlot);

        doAgain = askQuestion(Aws::String("Would you like to add more movies? (y/n) "));
    } while (doAgain == "y");

    std::cout << "Adding " << titles.size()
              << (titles.size() == 1 ? " movie " : " movies ")
              << "to the table using a batch \"INSERT\" statement." << std::endl;

    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());

        std::stringstream sqlStream;
        sqlStream << "INSERT INTO \"" << MOVIE_TABLE_NAME << "\" VALUE {'"
                  << TITLE_KEY << "': ?, '" << YEAR_KEY << "': ?, '"
                  << INFO_KEY << "': ?}";

        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);

            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));

            // Create attribute for the info map.
            Aws::DynamoDB::Model::AttributeValue infoMapAttribute;

            std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> ratingAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                    ALLOCATION_TAG.c_str());
            ratingAttribute->SetN(ratings[i]);
            infoMapAttribute.AddMEntry(RATING_KEY, ratingAttribute);

            std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> plotAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                    ALLOCATION_TAG.c_str());
            plotAttribute->SetS(plots[i]);
            infoMapAttribute.AddMEntry(PLOT_KEY, plotAttribute);
            attributes.push_back(infoMapAttribute);
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);

        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to add the movies: " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }
```
Gunakan batch pernyataan SELECT untuk mendapatkan item.  

```
    // 3. Get the data for multiple movies using "Select" statements. (BatchExecuteStatement)
    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());
        std::stringstream sqlStream;
        sqlStream << "SELECT * FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);
            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);

        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);
        if (outcome.IsSuccess()) {
            const Aws::DynamoDB::Model::BatchExecuteStatementResult &result = outcome.GetResult();

            const Aws::Vector<Aws::DynamoDB::Model::BatchStatementResponse> &responses = result.GetResponses();

            for (const Aws::DynamoDB::Model::BatchStatementResponse &response: responses) {
                const Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &item = response.GetItem();

                printMovieInfo(item);
            }
        }
        else {
            std::cerr << "Failed to retrieve the movie information: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }
```
Gunakan batch pernyataan UPDATE untuk memperbarui item.  

```
    // 4. Update the data for multiple movies using "Update" statements. (BatchExecuteStatement)

    for (size_t i = 0; i < titles.size(); ++i) {
        ratings[i] = askQuestionForFloatRange(
                Aws::String("\nLet's update your the movie, \"") + titles[i] +
                ".\nYou rated it  " + std::to_string(ratings[i])
                + ", what new rating would you give it? ", 1, 10);
    }

    std::cout << "Updating the movie with a batch \"UPDATE\" statement." << std::endl;

    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());

        std::stringstream sqlStream;
        sqlStream << "UPDATE \"" << MOVIE_TABLE_NAME << "\" SET "
                  << INFO_KEY << "." << RATING_KEY << "=? WHERE "
                  << TITLE_KEY << "=? AND " << YEAR_KEY << "=?";


        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);

            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetN(ratings[i]));
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);
        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to update movie information: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }
```
Gunakan batch DELETE untuk menghapus item.  

```
    // 6. Delete multiple movies using "Delete" statements. (BatchExecuteStatement)
    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());
        std::stringstream sqlStream;
        sqlStream << "DELETE FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);
            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);

        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to delete the movies: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `BatchGetItem`
<a name="dynamodb_BatchGetItem_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetItem`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Batch get items from different Amazon DynamoDB tables.
/*!
  \sa batchGetItem()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::DynamoDB::batchGetItem(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::BatchGetItemRequest request;

    // Table1: Forum.
    Aws::String table1Name = "Forum";
    Aws::DynamoDB::Model::KeysAndAttributes table1KeysAndAttributes;

    // Table1: Projection expression.
    table1KeysAndAttributes.SetProjectionExpression("#n, Category, Messages, #v");

    // Table1: Expression attribute names.
    Aws::Http::HeaderValueCollection headerValueCollection;
    headerValueCollection.emplace("#n", "Name");
    headerValueCollection.emplace("#v", "Views");
    table1KeysAndAttributes.SetExpressionAttributeNames(headerValueCollection);

    // Table1: Set key name, type, and value to search.
    std::vector<Aws::String> nameValues = {"Amazon DynamoDB", "Amazon S3"};
    for (const Aws::String &name: nameValues) {
        Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> keys;
        Aws::DynamoDB::Model::AttributeValue key;
        key.SetS(name);
        keys.emplace("Name", key);
        table1KeysAndAttributes.AddKeys(keys);
    }

    Aws::Map<Aws::String, Aws::DynamoDB::Model::KeysAndAttributes> requestItems;
    requestItems.emplace(table1Name, table1KeysAndAttributes);

    // Table2: ProductCatalog.
    Aws::String table2Name = "ProductCatalog";
    Aws::DynamoDB::Model::KeysAndAttributes table2KeysAndAttributes;
    table2KeysAndAttributes.SetProjectionExpression("Title, Price, Color");

    // Table2: Set key name, type, and value to search.
    std::vector<Aws::String> idValues = {"102", "103", "201"};
    for (const Aws::String &id: idValues) {
        Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> keys;
        Aws::DynamoDB::Model::AttributeValue key;
        key.SetN(id);
        keys.emplace("Id", key);
        table2KeysAndAttributes.AddKeys(keys);
    }

    requestItems.emplace(table2Name, table2KeysAndAttributes);

    bool result = true;
    do {  // Use a do loop to handle pagination.
        request.SetRequestItems(requestItems);
        const Aws::DynamoDB::Model::BatchGetItemOutcome &outcome = dynamoClient.BatchGetItem(
                request);

        if (outcome.IsSuccess()) {
            for (const auto &responsesMapEntry: outcome.GetResult().GetResponses()) {
                Aws::String tableName = responsesMapEntry.first;
                const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &tableResults = responsesMapEntry.second;
                std::cout << "Retrieved " << tableResults.size()
                          << " responses for table '" << tableName << "'.\n"
                          << std::endl;
                if (tableName == "Forum") {

                    std::cout << "Name | Category | Message | Views" << std::endl;
                    for (const Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &item: tableResults) {
                        std::cout << item.at("Name").GetS() << " | ";
                        std::cout << item.at("Category").GetS() << " | ";
                        std::cout << (item.count("Message") == 0 ? "" : item.at(
                                "Messages").GetN()) << " | ";
                        std::cout << (item.count("Views") == 0 ? "" : item.at(
                                "Views").GetN()) << std::endl;
                    }
                }
                else {
                    std::cout << "Title | Price | Color" << std::endl;
                    for (const Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &item: tableResults) {
                        std::cout << item.at("Title").GetS() << " | ";
                        std::cout << (item.count("Price") == 0 ? "" : item.at(
                                "Price").GetN());
                        if (item.count("Color")) {
                            std::cout << " | ";
                            for (const std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> &listItem: item.at(
                                    "Color").GetL())
                                std::cout << listItem->GetS() << " ";
                        }
                        std::cout << std::endl;
                    }
                }
                std::cout << std::endl;
            }

            // If necessary, repeat request for remaining items.
            requestItems = outcome.GetResult().GetUnprocessedKeys();
        }
        else {
            std::cerr << "Batch get item failed: " << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
            break;
        }
    } while (!requestItems.empty());

    return result;
}
```
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/BatchGetItem)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Batch write items from a JSON file.
/*!
  \sa batchWriteItem()
  \param jsonFilePath: JSON file path.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */

/*
 * The input for this routine is a JSON file that you can download from the following URL:
 * https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/SampleData.html.
 *
 * The JSON data uses the BatchWriteItem API request syntax. The JSON strings are
 * converted to AttributeValue objects. These AttributeValue objects will then generate
 * JSON strings when constructing the BatchWriteItem request, essentially outputting
 * their input.
 *
 * This is perhaps an artificial example, but it demonstrates the APIs.
 */

bool AwsDoc::DynamoDB::batchWriteItem(const Aws::String &jsonFilePath,
                                      const Aws::Client::ClientConfiguration &clientConfiguration) {
    std::ifstream fileStream(jsonFilePath);

    if (!fileStream) {
        std::cerr << "Error: could not open file '" << jsonFilePath << "'."
                  << std::endl;
    }

    std::stringstream stringStream;
    stringStream << fileStream.rdbuf();
    Aws::Utils::Json::JsonValue jsonValue(stringStream);

    Aws::DynamoDB::Model::BatchWriteItemRequest batchWriteItemRequest;
    Aws::Map<Aws::String, Aws::Utils::Json::JsonView> level1Map = jsonValue.View().GetAllObjects();
    for (const auto &level1Entry: level1Map) {
        const Aws::Utils::Json::JsonView &entriesView = level1Entry.second;
        const Aws::String &tableName = level1Entry.first;
        // The JSON entries at this level are as follows:
        //  key - table name
        //  value - list of request objects
        if (!entriesView.IsListType()) {
            std::cerr << "Error: JSON file entry '"
                      << tableName << "' is not a list." << std::endl;
            continue;
        }

        Aws::Utils::Array<Aws::Utils::Json::JsonView> entries = entriesView.AsArray();

        Aws::Vector<Aws::DynamoDB::Model::WriteRequest> writeRequests;
        if (AwsDoc::DynamoDB::addWriteRequests(tableName, entries,
                                               writeRequests)) {
            batchWriteItemRequest.AddRequestItems(tableName, writeRequests);
        }
    }

    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::BatchWriteItemOutcome outcome = dynamoClient.BatchWriteItem(
            batchWriteItemRequest);

    if (outcome.IsSuccess()) {
        std::cout << "DynamoDB::BatchWriteItem was successful." << std::endl;
    }
    else {
        std::cerr << "Error with DynamoDB::BatchWriteItem. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
        return false;
    }

    return outcome.IsSuccess();
}

//! Convert requests in JSON format to a vector of WriteRequest objects.
/*!
  \sa addWriteRequests()
  \param tableName: Name of the table for the write operations.
  \param requestsJson: Request data in JSON format.
  \param writeRequests: Vector to receive the WriteRequest objects.
  \return bool: Function succeeded.
 */
bool AwsDoc::DynamoDB::addWriteRequests(const Aws::String &tableName,
                                        const Aws::Utils::Array<Aws::Utils::Json::JsonView> &requestsJson,
                                        Aws::Vector<Aws::DynamoDB::Model::WriteRequest> &writeRequests) {
    for (size_t i = 0; i < requestsJson.GetLength(); ++i) {
        const Aws::Utils::Json::JsonView &requestsEntry = requestsJson[i];
        if (!requestsEntry.IsObject()) {
            std::cerr << "Error: incorrect requestsEntry type "
                      << requestsEntry.WriteReadable() << std::endl;
            return false;
        }

        Aws::Map<Aws::String, Aws::Utils::Json::JsonView> requestsMap = requestsEntry.GetAllObjects();

        for (const auto &request: requestsMap) {
            const Aws::String &requestType = request.first;
            const Aws::Utils::Json::JsonView &requestJsonView = request.second;

            if (requestType == "PutRequest") {
                if (!requestJsonView.ValueExists("Item")) {
                    std::cerr << "Error: item key missing for requests "
                              << requestJsonView.WriteReadable() << std::endl;
                    return false;
                }
                Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> attributes;
                if (!getAttributeObjectsMap(requestJsonView.GetObject("Item"),
                                            attributes)) {
                    std::cerr << "Error getting attributes "
                              << requestJsonView.WriteReadable() << std::endl;
                    return false;
                }

                Aws::DynamoDB::Model::PutRequest putRequest;
                putRequest.SetItem(attributes);
                writeRequests.push_back(
                        Aws::DynamoDB::Model::WriteRequest().WithPutRequest(
                                putRequest));
            }
            else {
                std::cerr << "Error: unimplemented request type '" << requestType
                          << "'." << std::endl;
            }
        }
    }

    return true;
}

//! Generate a map of AttributeValue objects from JSON records.
/*!
  \sa getAttributeObjectsMap()
  \param jsonView: JSONView of attribute records.
  \param writeRequests: Map to receive the AttributeValue objects.
  \return bool: Function succeeded.
 */
bool
AwsDoc::DynamoDB::getAttributeObjectsMap(const Aws::Utils::Json::JsonView &jsonView,
                                         Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &attributes) {
    Aws::Map<Aws::String, Aws::Utils::Json::JsonView> objectsMap = jsonView.GetAllObjects();
    for (const auto &entry: objectsMap) {
        const Aws::String &attributeKey = entry.first;
        const Aws::Utils::Json::JsonView &attributeJsonView = entry.second;

        if (!attributeJsonView.IsObject()) {
            std::cerr << "Error: attribute not an object "
                      << attributeJsonView.WriteReadable() << std::endl;
            return false;
        }

        attributes.emplace(attributeKey,
                           Aws::DynamoDB::Model::AttributeValue(attributeJsonView));
    }

    return true;
}
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/BatchWriteItem)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Create an Amazon DynamoDB table.
/*!
  \sa createTable()
  \param tableName: Name for the DynamoDB table.
  \param primaryKey: Primary key for the DynamoDB table.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::DynamoDB::createTable(const Aws::String &tableName,
                                   const Aws::String &primaryKey,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    std::cout << "Creating table " << tableName <<
              " with a simple primary key: \"" << primaryKey << "\"." << std::endl;

    Aws::DynamoDB::Model::CreateTableRequest request;

    Aws::DynamoDB::Model::AttributeDefinition hashKey;
    hashKey.SetAttributeName(primaryKey);
    hashKey.SetAttributeType(Aws::DynamoDB::Model::ScalarAttributeType::S);
    request.AddAttributeDefinitions(hashKey);

    Aws::DynamoDB::Model::KeySchemaElement keySchemaElement;
    keySchemaElement.WithAttributeName(primaryKey).WithKeyType(
            Aws::DynamoDB::Model::KeyType::HASH);
    request.AddKeySchema(keySchemaElement);

    Aws::DynamoDB::Model::ProvisionedThroughput throughput;
    throughput.WithReadCapacityUnits(5).WithWriteCapacityUnits(5);
    request.SetProvisionedThroughput(throughput);
    request.SetTableName(tableName);

    const Aws::DynamoDB::Model::CreateTableOutcome &outcome = dynamoClient.CreateTable(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Table \""
                  << outcome.GetResult().GetTableDescription().GetTableName() <<
                  " created!" << std::endl;
    }
    else {
        std::cerr << "Failed to create table: " << outcome.GetError().GetMessage()
                  << std::endl;
        return false;
    }

    return waitTableActive(tableName, dynamoClient);
}
```
Kode yang menunggu tabel menjadi aktif.  

```
//! Query a newly created DynamoDB table until it is active.
/*!
  \sa waitTableActive()
  \param waitTableActive: The DynamoDB table's name.
  \param dynamoClient: A DynamoDB client.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::waitTableActive(const Aws::String &tableName,
                                       const Aws::DynamoDB::DynamoDBClient &dynamoClient) {

    // Repeatedly call DescribeTable until table is ACTIVE.
    const int MAX_QUERIES = 20;
    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    int count = 0;
    while (count < MAX_QUERIES) {
        const Aws::DynamoDB::Model::DescribeTableOutcome &result = dynamoClient.DescribeTable(
                request);
        if (result.IsSuccess()) {
            Aws::DynamoDB::Model::TableStatus status = result.GetResult().GetTable().GetTableStatus();

            if (Aws::DynamoDB::Model::TableStatus::ACTIVE != status) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                return true;
            }
        }
        else {
            std::cerr << "Error DynamoDB::waitTableActive "
                      << result.GetError().GetMessage() << std::endl;
            return false;
        }
        count++;
    }
    return false;
}
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/CreateTable)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Delete an item from an Amazon DynamoDB table.
/*!
  \sa deleteItem()
  \param tableName: The table name.
  \param partitionKey: The partition key.
  \param partitionValue: The value for the partition key.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */

bool AwsDoc::DynamoDB::deleteItem(const Aws::String &tableName,
                                  const Aws::String &partitionKey,
                                  const Aws::String &partitionValue,
                                  const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::DeleteItemRequest request;

    request.AddKey(partitionKey,
                   Aws::DynamoDB::Model::AttributeValue().SetS(partitionValue));
    request.SetTableName(tableName);

    const Aws::DynamoDB::Model::DeleteItemOutcome &outcome = dynamoClient.DeleteItem(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Item \"" << partitionValue << "\" deleted!" << std::endl;
    }
    else {
        std::cerr << "Failed to delete item: " << outcome.GetError().GetMessage()
                  << std::endl;
        return false;
    }

    return waitTableActive(tableName, dynamoClient);
}
```
Kode yang menunggu tabel menjadi aktif.  

```
//! Query a newly created DynamoDB table until it is active.
/*!
  \sa waitTableActive()
  \param waitTableActive: The DynamoDB table's name.
  \param dynamoClient: A DynamoDB client.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::waitTableActive(const Aws::String &tableName,
                                       const Aws::DynamoDB::DynamoDBClient &dynamoClient) {

    // Repeatedly call DescribeTable until table is ACTIVE.
    const int MAX_QUERIES = 20;
    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    int count = 0;
    while (count < MAX_QUERIES) {
        const Aws::DynamoDB::Model::DescribeTableOutcome &result = dynamoClient.DescribeTable(
                request);
        if (result.IsSuccess()) {
            Aws::DynamoDB::Model::TableStatus status = result.GetResult().GetTable().GetTableStatus();

            if (Aws::DynamoDB::Model::TableStatus::ACTIVE != status) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                return true;
            }
        }
        else {
            std::cerr << "Error DynamoDB::waitTableActive "
                      << result.GetError().GetMessage() << std::endl;
            return false;
        }
        count++;
    }
    return false;
}
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/DeleteItem)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Delete an Amazon DynamoDB table.
/*!
  \sa deleteTable()
  \param tableName: The DynamoDB table name.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::deleteTable(const Aws::String &tableName,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::DeleteTableRequest request;
    request.SetTableName(tableName);

    const Aws::DynamoDB::Model::DeleteTableOutcome &result = dynamoClient.DeleteTable(
            request);
    if (result.IsSuccess()) {
        std::cout << "Your table \""
                  << result.GetResult().GetTableDescription().GetTableName()
                  << " was deleted.\n";
    }
    else {
        std::cerr << "Failed to delete table: " << result.GetError().GetMessage()
                  << std::endl;
    }

    return result.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/DeleteTable)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Describe an Amazon DynamoDB table.
/*!
  \sa describeTable()
  \param tableName: The DynamoDB table name.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::describeTable(const Aws::String &tableName,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    const Aws::DynamoDB::Model::DescribeTableOutcome &outcome = dynamoClient.DescribeTable(
            request);

    if (outcome.IsSuccess()) {
        const Aws::DynamoDB::Model::TableDescription &td = outcome.GetResult().GetTable();
        std::cout << "Table name  : " << td.GetTableName() << std::endl;
        std::cout << "Table ARN   : " << td.GetTableArn() << std::endl;
        std::cout << "Status      : "
                  << Aws::DynamoDB::Model::TableStatusMapper::GetNameForTableStatus(
                          td.GetTableStatus()) << std::endl;
        std::cout << "Item count  : " << td.GetItemCount() << std::endl;
        std::cout << "Size (bytes): " << td.GetTableSizeBytes() << std::endl;

        const Aws::DynamoDB::Model::ProvisionedThroughputDescription &ptd = td.GetProvisionedThroughput();
        std::cout << "Throughput" << std::endl;
        std::cout << "  Read Capacity : " << ptd.GetReadCapacityUnits() << std::endl;
        std::cout << "  Write Capacity: " << ptd.GetWriteCapacityUnits() << std::endl;

        const Aws::Vector<Aws::DynamoDB::Model::AttributeDefinition> &ad = td.GetAttributeDefinitions();
        std::cout << "Attributes" << std::endl;
        for (const auto &a: ad)
            std::cout << "  " << a.GetAttributeName() << " (" <<
                      Aws::DynamoDB::Model::ScalarAttributeTypeMapper::GetNameForScalarAttributeType(
                              a.GetAttributeType()) <<
                      ")" << std::endl;
    }
    else {
        std::cerr << "Failed to describe table: " << outcome.GetError().GetMessage();
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/DescribeTable)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ExecuteStatement`
<a name="dynamodb_ExecuteStatement_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 
Gunakan pernyataan INSERT untuk menambahkan item.  

```
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    // 2. Add a new movie using an "Insert" statement. (ExecuteStatement)
    Aws::String title;
    float rating;
    int year;
    Aws::String plot;
    {
        title = askQuestion(
                "Enter the title of a movie you want to add to the table: ");
        year = askQuestionForInt("What year was it released? ");
        rating = askQuestionForFloatRange("On a scale of 1 - 10, how do you rate it? ",
                                          1, 10);
        plot = askQuestion("Summarize the plot for me: ");

        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "INSERT INTO \"" << MOVIE_TABLE_NAME << "\" VALUE {'"
                  << TITLE_KEY << "': ?, '" << YEAR_KEY << "': ?, '"
                  << INFO_KEY << "': ?}";

        request.SetStatement(sqlStream.str());

        // Create the parameter attributes.
        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));

        Aws::DynamoDB::Model::AttributeValue infoMapAttribute;

        std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> ratingAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                ALLOCATION_TAG.c_str());
        ratingAttribute->SetN(rating);
        infoMapAttribute.AddMEntry(RATING_KEY, ratingAttribute);

        std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> plotAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                ALLOCATION_TAG.c_str());
        plotAttribute->SetS(plot);
        infoMapAttribute.AddMEntry(PLOT_KEY, plotAttribute);
        attributes.push_back(infoMapAttribute);
        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to add a movie: " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }
```
Gunakan pernyataan SELECT untuk mendapatkan item.  

```
    //  3. Get the data for the movie using a "Select" statement. (ExecuteStatement)
    {
        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "SELECT * FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        request.SetStatement(sqlStream.str());

        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));
        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to retrieve movie information: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
        else {
            // Print the retrieved movie information.
            const Aws::DynamoDB::Model::ExecuteStatementResult &result = outcome.GetResult();

            const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &items = result.GetItems();

            if (items.size() == 1) {
                printMovieInfo(items[0]);
            }
            else {
                std::cerr << "Error: " << items.size() << " movies were retrieved. "
                          << " There should be only one movie." << std::endl;
            }
        }
    }
```
Gunakan pernyataan UPDATE untuk memperbarui item.  

```
    //  4. Update the data for the movie using an "Update" statement. (ExecuteStatement)
    {
        rating = askQuestionForFloatRange(
                Aws::String("\nLet's update your movie.\nYou rated it  ") +
                std::to_string(rating)
                + ", what new rating would you give it? ", 1, 10);

        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "UPDATE \"" << MOVIE_TABLE_NAME << "\" SET "
                  << INFO_KEY << "." << RATING_KEY << "=? WHERE "
                  << TITLE_KEY << "=? AND " << YEAR_KEY << "=?";

        request.SetStatement(sqlStream.str());

        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(rating));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));

        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to update a movie: "
                      << outcome.GetError().GetMessage();
            return false;
        }
    }
```
Gunakan pernyataan DELETE untuk menghapus sebuah item.  

```
    // 6. Delete the movie using a "Delete" statement. (ExecuteStatement)
    {
        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "DELETE FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        request.SetStatement(sqlStream.str());

        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));
        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to delete the movie: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetItem`
<a name="dynamodb_GetItem_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Get an item from an Amazon DynamoDB table.
/*!
  \sa getItem()
  \param tableName: The table name.
  \param partitionKey: The partition key.
  \param partitionValue: The value for the partition key.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */

bool AwsDoc::DynamoDB::getItem(const Aws::String &tableName,
                               const Aws::String &partitionKey,
                               const Aws::String &partitionValue,
                               const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);
    Aws::DynamoDB::Model::GetItemRequest request;

    // Set up the request.
    request.SetTableName(tableName);
    request.AddKey(partitionKey,
                   Aws::DynamoDB::Model::AttributeValue().SetS(partitionValue));

    // Retrieve the item's fields and values.
    const Aws::DynamoDB::Model::GetItemOutcome &outcome = dynamoClient.GetItem(request);
    if (outcome.IsSuccess()) {
        // Reference the retrieved fields/values.
        const Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &item = outcome.GetResult().GetItem();
        if (!item.empty()) {
            // Output each retrieved field and its value.
            for (const auto &i: item)
                std::cout << "Values: " << i.first << ": " << i.second.GetS()
                          << std::endl;
        }
        else {
            std::cout << "No item found with the key " << partitionKey << std::endl;
        }
    }
    else {
        std::cerr << "Failed to get item: " << outcome.GetError().GetMessage();
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/GetItem)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListTables`
<a name="dynamodb_ListTables_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! List the Amazon DynamoDB tables for the current AWS account.
/*!
  \sa listTables()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */

bool AwsDoc::DynamoDB::listTables(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::ListTablesRequest listTablesRequest;
    listTablesRequest.SetLimit(50);
    do {
        const Aws::DynamoDB::Model::ListTablesOutcome &outcome = dynamoClient.ListTables(
                listTablesRequest);
        if (!outcome.IsSuccess()) {
            std::cout << "Error: " << outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        for (const auto &tableName: outcome.GetResult().GetTableNames())
            std::cout << tableName << std::endl;
        listTablesRequest.SetExclusiveStartTableName(
                outcome.GetResult().GetLastEvaluatedTableName());

    } while (!listTablesRequest.GetExclusiveStartTableName().empty());

    return true;
}
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutItem`
<a name="dynamodb_PutItem_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Put an item in an Amazon DynamoDB table.
/*!
  \sa putItem()
  \param tableName: The table name.
  \param artistKey: The artist key. This is the partition key for the table.
  \param artistValue: The artist value.
  \param albumTitleKey: The album title key.
  \param albumTitleValue: The album title value.
  \param awardsKey: The awards key.
  \param awardsValue: The awards value.
  \param songTitleKey: The song title key.
  \param songTitleValue: The song title value.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::DynamoDB::putItem(const Aws::String &tableName,
                               const Aws::String &artistKey,
                               const Aws::String &artistValue,
                               const Aws::String &albumTitleKey,
                               const Aws::String &albumTitleValue,
                               const Aws::String &awardsKey,
                               const Aws::String &awardsValue,
                               const Aws::String &songTitleKey,
                               const Aws::String &songTitleValue,
                               const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::PutItemRequest putItemRequest;
    putItemRequest.SetTableName(tableName);

    putItemRequest.AddItem(artistKey, Aws::DynamoDB::Model::AttributeValue().SetS(
            artistValue)); // This is the hash key.
    putItemRequest.AddItem(albumTitleKey, Aws::DynamoDB::Model::AttributeValue().SetS(
            albumTitleValue));
    putItemRequest.AddItem(awardsKey,
                           Aws::DynamoDB::Model::AttributeValue().SetS(awardsValue));
    putItemRequest.AddItem(songTitleKey,
                           Aws::DynamoDB::Model::AttributeValue().SetS(songTitleValue));

    const Aws::DynamoDB::Model::PutItemOutcome outcome = dynamoClient.PutItem(
            putItemRequest);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully added Item!" << std::endl;
    }
    else {
        std::cerr << outcome.GetError().GetMessage() << std::endl;
        return false;
    }

    return waitTableActive(tableName, dynamoClient);
}
```
Kode yang menunggu tabel menjadi aktif.  

```
//! Query a newly created DynamoDB table until it is active.
/*!
  \sa waitTableActive()
  \param waitTableActive: The DynamoDB table's name.
  \param dynamoClient: A DynamoDB client.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::waitTableActive(const Aws::String &tableName,
                                       const Aws::DynamoDB::DynamoDBClient &dynamoClient) {

    // Repeatedly call DescribeTable until table is ACTIVE.
    const int MAX_QUERIES = 20;
    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    int count = 0;
    while (count < MAX_QUERIES) {
        const Aws::DynamoDB::Model::DescribeTableOutcome &result = dynamoClient.DescribeTable(
                request);
        if (result.IsSuccess()) {
            Aws::DynamoDB::Model::TableStatus status = result.GetResult().GetTable().GetTableStatus();

            if (Aws::DynamoDB::Model::TableStatus::ACTIVE != status) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                return true;
            }
        }
        else {
            std::cerr << "Error DynamoDB::waitTableActive "
                      << result.GetError().GetMessage() << std::endl;
            return false;
        }
        count++;
    }
    return false;
}
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/PutItem)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `Query`
<a name="dynamodb_Query_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Perform a query on an Amazon DynamoDB Table and retrieve items.
/*!
  \sa queryItem()
  \param tableName: The table name.
  \param partitionKey: The partition key.
  \param partitionValue: The value for the partition key.
  \param projectionExpression: The projections expression, which is ignored if empty.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
  */

/*
 * The partition key attribute is searched with the specified value. By default, all fields and values
 * contained in the item are returned. If an optional projection expression is
 * specified on the command line, only the specified fields and values are
 * returned.
 */

bool AwsDoc::DynamoDB::queryItems(const Aws::String &tableName,
                                  const Aws::String &partitionKey,
                                  const Aws::String &partitionValue,
                                  const Aws::String &projectionExpression,
                                  const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);
    Aws::DynamoDB::Model::QueryRequest request;

    request.SetTableName(tableName);

    if (!projectionExpression.empty()) {
        request.SetProjectionExpression(projectionExpression);
    }

    // Set query key condition expression.
    request.SetKeyConditionExpression(partitionKey + "= :valueToMatch");

    // Set Expression AttributeValues.
    Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> attributeValues;
    attributeValues.emplace(":valueToMatch", partitionValue);

    request.SetExpressionAttributeValues(attributeValues);

    bool result = true;

    // "exclusiveStartKey" is used for pagination.
    Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> exclusiveStartKey;
    do {
        if (!exclusiveStartKey.empty()) {
            request.SetExclusiveStartKey(exclusiveStartKey);
            exclusiveStartKey.clear();
        }
        // Perform Query operation.
        const Aws::DynamoDB::Model::QueryOutcome &outcome = dynamoClient.Query(request);
        if (outcome.IsSuccess()) {
            // Reference the retrieved items.
            const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &items = outcome.GetResult().GetItems();
            if (!items.empty()) {
                std::cout << "Number of items retrieved from Query: " << items.size()
                          << std::endl;
                // Iterate each item and print.
                for (const auto &item: items) {
                    std::cout
                            << "******************************************************"
                            << std::endl;
                    // Output each retrieved field and its value.
                    for (const auto &i: item)
                        std::cout << i.first << ": " << i.second.GetS() << std::endl;
                }
            }
            else {
                std::cout << "No item found in table: " << tableName << std::endl;
            }

            exclusiveStartKey = outcome.GetResult().GetLastEvaluatedKey();
        }
        else {
            std::cerr << "Failed to Query items: " << outcome.GetError().GetMessage();
            result = false;
            break;
        }
    } while (!exclusiveStartKey.empty());

    return result;
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk C\$1\$1 *. 

### `Scan`
<a name="dynamodb_Scan_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Scan an Amazon DynamoDB table.
/*!
  \sa scanTable()
  \param tableName: Name for the DynamoDB table.
  \param projectionExpression: An optional projection expression, ignored if empty.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */

bool AwsDoc::DynamoDB::scanTable(const Aws::String &tableName,
                                 const Aws::String &projectionExpression,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);
    Aws::DynamoDB::Model::ScanRequest request;
    request.SetTableName(tableName);

    if (!projectionExpression.empty())
        request.SetProjectionExpression(projectionExpression);

    Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> all_items;
    Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> last_evaluated_key; // Used for pagination;
    do {
        if (!last_evaluated_key.empty()) {
            request.SetExclusiveStartKey(last_evaluated_key);
        }
        const Aws::DynamoDB::Model::ScanOutcome &outcome = dynamoClient.Scan(request);
        if (outcome.IsSuccess()) {
            // Reference the retrieved items.
            const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &items = outcome.GetResult().GetItems();
            all_items.insert(all_items.end(), items.begin(), items.end());

            last_evaluated_key = outcome.GetResult().GetLastEvaluatedKey();
        }
        else {
            std::cerr << "Failed to Scan items: " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }

    } while (!last_evaluated_key.empty());

    if (!all_items.empty()) {
        std::cout << "Number of items retrieved from scan: " << all_items.size()
                  << std::endl;
        // Iterate each item and print.
        for (const Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &itemMap: all_items) {
            std::cout << "******************************************************"
                      << std::endl;
            // Output each retrieved field and its value.
            for (const auto &itemEntry: itemMap)
                std::cout << itemEntry.first << ": " << itemEntry.second.GetS()
                          << std::endl;
        }
    }

    else {
        std::cout << "No items found in table: " << tableName << std::endl;
    }

    return true;
}
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/Scan) di *Referensi API AWS SDK untuk C\$1\$1 *. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Update an Amazon DynamoDB table item.
/*!
  \sa updateItem()
  \param tableName: The table name.
  \param partitionKey: The partition key.
  \param partitionValue: The value for the partition key.
  \param attributeKey: The key for the attribute to be updated.
  \param attributeValue: The value for the attribute to be updated.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
  */

/*
 *  The example code only sets/updates an attribute value. It processes
 *  the attribute value as a string, even if the value could be interpreted
 *  as a number. Also, the example code does not remove an existing attribute
 *  from the key value.
 */

bool AwsDoc::DynamoDB::updateItem(const Aws::String &tableName,
                                  const Aws::String &partitionKey,
                                  const Aws::String &partitionValue,
                                  const Aws::String &attributeKey,
                                  const Aws::String &attributeValue,
                                  const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    // *** Define UpdateItem request arguments.
    // Define TableName argument.
    Aws::DynamoDB::Model::UpdateItemRequest request;
    request.SetTableName(tableName);

    // Define KeyName argument.
    Aws::DynamoDB::Model::AttributeValue attribValue;
    attribValue.SetS(partitionValue);
    request.AddKey(partitionKey, attribValue);

    // Construct the SET update expression argument.
    Aws::String update_expression("SET #a = :valueA");
    request.SetUpdateExpression(update_expression);

    // Construct attribute name argument.
    Aws::Map<Aws::String, Aws::String> expressionAttributeNames;
    expressionAttributeNames["#a"] = attributeKey;
    request.SetExpressionAttributeNames(expressionAttributeNames);

    // Construct attribute value argument.
    Aws::DynamoDB::Model::AttributeValue attributeUpdatedValue;
    attributeUpdatedValue.SetS(attributeValue);
    Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> expressionAttributeValues;
    expressionAttributeValues[":valueA"] = attributeUpdatedValue;
    request.SetExpressionAttributeValues(expressionAttributeValues);

    // Update the item.
    const Aws::DynamoDB::Model::UpdateItemOutcome &outcome = dynamoClient.UpdateItem(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Item was updated" << std::endl;
    } else {
        std::cerr << outcome.GetError().GetMessage() << std::endl;
        return false;
    }

    return waitTableActive(tableName, dynamoClient);
}
```
Kode yang menunggu tabel menjadi aktif.  

```
//! Query a newly created DynamoDB table until it is active.
/*!
  \sa waitTableActive()
  \param waitTableActive: The DynamoDB table's name.
  \param dynamoClient: A DynamoDB client.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::waitTableActive(const Aws::String &tableName,
                                       const Aws::DynamoDB::DynamoDBClient &dynamoClient) {

    // Repeatedly call DescribeTable until table is ACTIVE.
    const int MAX_QUERIES = 20;
    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    int count = 0;
    while (count < MAX_QUERIES) {
        const Aws::DynamoDB::Model::DescribeTableOutcome &result = dynamoClient.DescribeTable(
                request);
        if (result.IsSuccess()) {
            Aws::DynamoDB::Model::TableStatus status = result.GetResult().GetTable().GetTableStatus();

            if (Aws::DynamoDB::Model::TableStatus::ACTIVE != status) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                return true;
            }
        }
        else {
            std::cerr << "Error DynamoDB::waitTableActive "
                      << result.GetError().GetMessage() << std::endl;
            return false;
        }
        count++;
    }
    return false;
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateTable`
<a name="dynamodb_UpdateTable_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTable`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
//! Update a DynamoDB table.
/*!
  \sa updateTable()
  \param tableName: Name for the DynamoDB table.
  \param readCapacity: Provisioned read capacity.
  \param writeCapacity: Provisioned write capacity.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::DynamoDB::updateTable(const Aws::String &tableName,
                                   long long readCapacity, long long writeCapacity,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    std::cout << "Updating " << tableName << " with new provisioned throughput values"
              << std::endl;
    std::cout << "Read capacity : " << readCapacity << std::endl;
    std::cout << "Write capacity: " << writeCapacity << std::endl;

    Aws::DynamoDB::Model::UpdateTableRequest request;
    Aws::DynamoDB::Model::ProvisionedThroughput provisionedThroughput;
    provisionedThroughput.WithReadCapacityUnits(readCapacity).WithWriteCapacityUnits(
            writeCapacity);
    request.WithProvisionedThroughput(provisionedThroughput).WithTableName(tableName);

    const Aws::DynamoDB::Model::UpdateTableOutcome &outcome = dynamoClient.UpdateTable(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully updated the table." << std::endl;
    } else {
        const Aws::DynamoDB::DynamoDBError &error = outcome.GetError();
        if (error.GetErrorType() == Aws::DynamoDB::DynamoDBErrors::VALIDATION &&
            error.GetMessage().find("The provisioned throughput for the table will not change") != std::string::npos) {
            std::cout << "The provisioned throughput for the table will not change." << std::endl;
        } else {
            std::cerr << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }

    return waitTableActive(tableName, dynamoClient);
}
```
Kode yang menunggu tabel menjadi aktif.  

```
//! Query a newly created DynamoDB table until it is active.
/*!
  \sa waitTableActive()
  \param waitTableActive: The DynamoDB table's name.
  \param dynamoClient: A DynamoDB client.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::waitTableActive(const Aws::String &tableName,
                                       const Aws::DynamoDB::DynamoDBClient &dynamoClient) {

    // Repeatedly call DescribeTable until table is ACTIVE.
    const int MAX_QUERIES = 20;
    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    int count = 0;
    while (count < MAX_QUERIES) {
        const Aws::DynamoDB::Model::DescribeTableOutcome &result = dynamoClient.DescribeTable(
                request);
        if (result.IsSuccess()) {
            Aws::DynamoDB::Model::TableStatus status = result.GetResult().GetTable().GetTableStatus();

            if (Aws::DynamoDB::Model::TableStatus::ACTIVE != status) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                return true;
            }
        }
        else {
            std::cerr << "Error DynamoDB::waitTableActive "
                      << result.GetError().GetMessage() << std::endl;
            return false;
        }
        count++;
    }
    return false;
}
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/UpdateTable)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk C\$1\$1**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        //  1. Create a table. (CreateTable)
        if (AwsDoc::DynamoDB::createMoviesDynamoDBTable(clientConfig)) {

            AwsDoc::DynamoDB::partiqlBatchExecuteScenario(clientConfig);

            // 7. Delete the table. (DeleteTable)
            AwsDoc::DynamoDB::deleteMoviesDynamoDBTable(clientConfig);
        }

//! Scenario to modify and query a DynamoDB table using PartiQL batch statements.
/*!
  \sa partiqlBatchExecuteScenario()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::DynamoDB::partiqlBatchExecuteScenario(
        const Aws::Client::ClientConfiguration &clientConfiguration) {

    // 2. Add multiple movies using "Insert" statements. (BatchExecuteStatement)
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    std::vector<Aws::String> titles;
    std::vector<float> ratings;
    std::vector<int> years;
    std::vector<Aws::String> plots;
    Aws::String doAgain = "n";
    do {
        Aws::String aTitle = askQuestion(
                "Enter the title of a movie you want to add to the table: ");
        titles.push_back(aTitle);
        int aYear = askQuestionForInt("What year was it released? ");
        years.push_back(aYear);
        float aRating = askQuestionForFloatRange(
                "On a scale of 1 - 10, how do you rate it? ",
                1, 10);
        ratings.push_back(aRating);
        Aws::String aPlot = askQuestion("Summarize the plot for me: ");
        plots.push_back(aPlot);

        doAgain = askQuestion(Aws::String("Would you like to add more movies? (y/n) "));
    } while (doAgain == "y");

    std::cout << "Adding " << titles.size()
              << (titles.size() == 1 ? " movie " : " movies ")
              << "to the table using a batch \"INSERT\" statement." << std::endl;

    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());

        std::stringstream sqlStream;
        sqlStream << "INSERT INTO \"" << MOVIE_TABLE_NAME << "\" VALUE {'"
                  << TITLE_KEY << "': ?, '" << YEAR_KEY << "': ?, '"
                  << INFO_KEY << "': ?}";

        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);

            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));

            // Create attribute for the info map.
            Aws::DynamoDB::Model::AttributeValue infoMapAttribute;

            std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> ratingAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                    ALLOCATION_TAG.c_str());
            ratingAttribute->SetN(ratings[i]);
            infoMapAttribute.AddMEntry(RATING_KEY, ratingAttribute);

            std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> plotAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                    ALLOCATION_TAG.c_str());
            plotAttribute->SetS(plots[i]);
            infoMapAttribute.AddMEntry(PLOT_KEY, plotAttribute);
            attributes.push_back(infoMapAttribute);
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);

        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to add the movies: " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    std::cout << "Retrieving the movie data with a batch \"SELECT\" statement."
              << std::endl;

    // 3. Get the data for multiple movies using "Select" statements. (BatchExecuteStatement)
    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());
        std::stringstream sqlStream;
        sqlStream << "SELECT * FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);
            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);

        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);
        if (outcome.IsSuccess()) {
            const Aws::DynamoDB::Model::BatchExecuteStatementResult &result = outcome.GetResult();

            const Aws::Vector<Aws::DynamoDB::Model::BatchStatementResponse> &responses = result.GetResponses();

            for (const Aws::DynamoDB::Model::BatchStatementResponse &response: responses) {
                const Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &item = response.GetItem();

                printMovieInfo(item);
            }
        }
        else {
            std::cerr << "Failed to retrieve the movie information: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }

    // 4. Update the data for multiple movies using "Update" statements. (BatchExecuteStatement)

    for (size_t i = 0; i < titles.size(); ++i) {
        ratings[i] = askQuestionForFloatRange(
                Aws::String("\nLet's update your the movie, \"") + titles[i] +
                ".\nYou rated it  " + std::to_string(ratings[i])
                + ", what new rating would you give it? ", 1, 10);
    }

    std::cout << "Updating the movie with a batch \"UPDATE\" statement." << std::endl;

    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());

        std::stringstream sqlStream;
        sqlStream << "UPDATE \"" << MOVIE_TABLE_NAME << "\" SET "
                  << INFO_KEY << "." << RATING_KEY << "=? WHERE "
                  << TITLE_KEY << "=? AND " << YEAR_KEY << "=?";


        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);

            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetN(ratings[i]));
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);
        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to update movie information: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }

    std::cout << "Retrieving the updated movie data with a batch \"SELECT\" statement."
              << std::endl;

    // 5. Get the updated data for multiple movies using "Select" statements. (BatchExecuteStatement)
    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());
        std::stringstream sqlStream;
        sqlStream << "SELECT * FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);
            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);

        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);
        if (outcome.IsSuccess()) {
            const Aws::DynamoDB::Model::BatchExecuteStatementResult &result = outcome.GetResult();

            const Aws::Vector<Aws::DynamoDB::Model::BatchStatementResponse> &responses = result.GetResponses();

            for (const Aws::DynamoDB::Model::BatchStatementResponse &response: responses) {
                const Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> &item = response.GetItem();

                printMovieInfo(item);
            }
        }
        else {
            std::cerr << "Failed to retrieve the movies information: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }

    std::cout << "Deleting the movie data with a batch \"DELETE\" statement."
              << std::endl;

    // 6. Delete multiple movies using "Delete" statements. (BatchExecuteStatement)
    {
        Aws::Vector<Aws::DynamoDB::Model::BatchStatementRequest> statements(
                titles.size());
        std::stringstream sqlStream;
        sqlStream << "DELETE FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        std::string sql(sqlStream.str());

        for (size_t i = 0; i < statements.size(); ++i) {
            statements[i].SetStatement(sql);
            Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
            attributes.push_back(
                    Aws::DynamoDB::Model::AttributeValue().SetS(titles[i]));
            attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(years[i]));
            statements[i].SetParameters(attributes);
        }

        Aws::DynamoDB::Model::BatchExecuteStatementRequest request;

        request.SetStatements(statements);

        Aws::DynamoDB::Model::BatchExecuteStatementOutcome outcome = dynamoClient.BatchExecuteStatement(
                request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to delete the movies: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }

    return true;
}

//! Create a DynamoDB table to be used in sample code scenarios.
/*!
  \sa createMoviesDynamoDBTable()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::createMoviesDynamoDBTable(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    bool movieTableAlreadyExisted = false;

    {
        Aws::DynamoDB::Model::CreateTableRequest request;

        Aws::DynamoDB::Model::AttributeDefinition yearAttributeDefinition;
        yearAttributeDefinition.SetAttributeName(YEAR_KEY);
        yearAttributeDefinition.SetAttributeType(
                Aws::DynamoDB::Model::ScalarAttributeType::N);
        request.AddAttributeDefinitions(yearAttributeDefinition);

        Aws::DynamoDB::Model::AttributeDefinition titleAttributeDefinition;
        yearAttributeDefinition.SetAttributeName(TITLE_KEY);
        yearAttributeDefinition.SetAttributeType(
                Aws::DynamoDB::Model::ScalarAttributeType::S);
        request.AddAttributeDefinitions(yearAttributeDefinition);

        Aws::DynamoDB::Model::KeySchemaElement yearKeySchema;
        yearKeySchema.WithAttributeName(YEAR_KEY).WithKeyType(
                Aws::DynamoDB::Model::KeyType::HASH);
        request.AddKeySchema(yearKeySchema);

        Aws::DynamoDB::Model::KeySchemaElement titleKeySchema;
        yearKeySchema.WithAttributeName(TITLE_KEY).WithKeyType(
                Aws::DynamoDB::Model::KeyType::RANGE);
        request.AddKeySchema(yearKeySchema);

        Aws::DynamoDB::Model::ProvisionedThroughput throughput;
        throughput.WithReadCapacityUnits(
                PROVISIONED_THROUGHPUT_UNITS).WithWriteCapacityUnits(
                PROVISIONED_THROUGHPUT_UNITS);
        request.SetProvisionedThroughput(throughput);
        request.SetTableName(MOVIE_TABLE_NAME);

        std::cout << "Creating table '" << MOVIE_TABLE_NAME << "'..." << std::endl;
        const Aws::DynamoDB::Model::CreateTableOutcome &result = dynamoClient.CreateTable(
                request);
        if (!result.IsSuccess()) {
            if (result.GetError().GetErrorType() ==
                Aws::DynamoDB::DynamoDBErrors::RESOURCE_IN_USE) {
                std::cout << "Table already exists." << std::endl;
                movieTableAlreadyExisted = true;
            }
            else {
                std::cerr << "Failed to create table: "
                          << result.GetError().GetMessage();
                return false;
            }
        }
    }

    // Wait for table to become active.
    if (!movieTableAlreadyExisted) {
        std::cout << "Waiting for table '" << MOVIE_TABLE_NAME
                  << "' to become active...." << std::endl;
        if (!AwsDoc::DynamoDB::waitTableActive(MOVIE_TABLE_NAME, clientConfiguration)) {
            return false;
        }
        std::cout << "Table '" << MOVIE_TABLE_NAME << "' created and active."
                  << std::endl;
    }

    return true;
}

//! Delete the DynamoDB table used for sample code scenarios.
/*!
  \sa deleteMoviesDynamoDBTable()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::deleteMoviesDynamoDBTable(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::DeleteTableRequest request;
    request.SetTableName(MOVIE_TABLE_NAME);

    const Aws::DynamoDB::Model::DeleteTableOutcome &result = dynamoClient.DeleteTable(
            request);
    if (result.IsSuccess()) {
        std::cout << "Your table \""
                  << result.GetResult().GetTableDescription().GetTableName()
                  << " was deleted.\n";
    }
    else {
        std::cerr << "Failed to delete table: " << result.GetError().GetMessage()
                  << std::endl;
    }

    return result.IsSuccess();
}

//! Query a newly created DynamoDB table until it is active.
/*!
  \sa waitTableActive()
  \param waitTableActive: The DynamoDB table's name.
  \param dynamoClient: A DynamoDB client.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::waitTableActive(const Aws::String &tableName,
                                       const Aws::DynamoDB::DynamoDBClient &dynamoClient) {

    // Repeatedly call DescribeTable until table is ACTIVE.
    const int MAX_QUERIES = 20;
    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    int count = 0;
    while (count < MAX_QUERIES) {
        const Aws::DynamoDB::Model::DescribeTableOutcome &result = dynamoClient.DescribeTable(
                request);
        if (result.IsSuccess()) {
            Aws::DynamoDB::Model::TableStatus status = result.GetResult().GetTable().GetTableStatus();

            if (Aws::DynamoDB::Model::TableStatus::ACTIVE != status) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                return true;
            }
        }
        else {
            std::cerr << "Error DynamoDB::waitTableActive "
                      << result.GetError().GetMessage() << std::endl;
            return false;
        }
        count++;
    }
    return false;
}
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/dynamodb#code-examples). 

```
        //  1. Create a table. (CreateTable)
        if (AwsDoc::DynamoDB::createMoviesDynamoDBTable(clientConfig)) {

            AwsDoc::DynamoDB::partiqlExecuteScenario(clientConfig);

            // 7. Delete the table. (DeleteTable)
            AwsDoc::DynamoDB::deleteMoviesDynamoDBTable(clientConfig);
        }

//! Scenario to modify and query a DynamoDB table using single PartiQL statements.
/*!
  \sa partiqlExecuteScenario()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool
AwsDoc::DynamoDB::partiqlExecuteScenario(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    // 2. Add a new movie using an "Insert" statement. (ExecuteStatement)
    Aws::String title;
    float rating;
    int year;
    Aws::String plot;
    {
        title = askQuestion(
                "Enter the title of a movie you want to add to the table: ");
        year = askQuestionForInt("What year was it released? ");
        rating = askQuestionForFloatRange("On a scale of 1 - 10, how do you rate it? ",
                                          1, 10);
        plot = askQuestion("Summarize the plot for me: ");

        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "INSERT INTO \"" << MOVIE_TABLE_NAME << "\" VALUE {'"
                  << TITLE_KEY << "': ?, '" << YEAR_KEY << "': ?, '"
                  << INFO_KEY << "': ?}";

        request.SetStatement(sqlStream.str());

        // Create the parameter attributes.
        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));

        Aws::DynamoDB::Model::AttributeValue infoMapAttribute;

        std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> ratingAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                ALLOCATION_TAG.c_str());
        ratingAttribute->SetN(rating);
        infoMapAttribute.AddMEntry(RATING_KEY, ratingAttribute);

        std::shared_ptr<Aws::DynamoDB::Model::AttributeValue> plotAttribute = Aws::MakeShared<Aws::DynamoDB::Model::AttributeValue>(
                ALLOCATION_TAG.c_str());
        plotAttribute->SetS(plot);
        infoMapAttribute.AddMEntry(PLOT_KEY, plotAttribute);
        attributes.push_back(infoMapAttribute);
        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to add a movie: " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    std::cout << "\nAdded '" << title << "' to '" << MOVIE_TABLE_NAME << "'."
              << std::endl;

    //  3. Get the data for the movie using a "Select" statement. (ExecuteStatement)
    {
        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "SELECT * FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        request.SetStatement(sqlStream.str());

        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));
        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to retrieve movie information: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
        else {
            // Print the retrieved movie information.
            const Aws::DynamoDB::Model::ExecuteStatementResult &result = outcome.GetResult();

            const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &items = result.GetItems();

            if (items.size() == 1) {
                printMovieInfo(items[0]);
            }
            else {
                std::cerr << "Error: " << items.size() << " movies were retrieved. "
                          << " There should be only one movie." << std::endl;
            }
        }
    }

    //  4. Update the data for the movie using an "Update" statement. (ExecuteStatement)
    {
        rating = askQuestionForFloatRange(
                Aws::String("\nLet's update your movie.\nYou rated it  ") +
                std::to_string(rating)
                + ", what new rating would you give it? ", 1, 10);

        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "UPDATE \"" << MOVIE_TABLE_NAME << "\" SET "
                  << INFO_KEY << "." << RATING_KEY << "=? WHERE "
                  << TITLE_KEY << "=? AND " << YEAR_KEY << "=?";

        request.SetStatement(sqlStream.str());

        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(rating));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));

        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to update a movie: "
                      << outcome.GetError().GetMessage();
            return false;
        }
    }

    std::cout << "\nUpdated '" << title << "' with new attributes:" << std::endl;

    //  5. Get the updated data for the movie using a "Select" statement. (ExecuteStatement)
    {
        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "SELECT * FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        request.SetStatement(sqlStream.str());

        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));
        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to retrieve the movie information: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
        else {
            const Aws::DynamoDB::Model::ExecuteStatementResult &result = outcome.GetResult();

            const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &items = result.GetItems();

            if (items.size() == 1) {
                printMovieInfo(items[0]);
            }
            else {
                std::cerr << "Error: " << items.size() << " movies were retrieved. "
                          << " There should be only one movie." << std::endl;
            }
        }
    }

    std::cout << "Deleting the movie" << std::endl;

    // 6. Delete the movie using a "Delete" statement. (ExecuteStatement)
    {
        Aws::DynamoDB::Model::ExecuteStatementRequest request;
        std::stringstream sqlStream;
        sqlStream << "DELETE FROM  \"" << MOVIE_TABLE_NAME << "\" WHERE "
                  << TITLE_KEY << "=? and " << YEAR_KEY << "=?";

        request.SetStatement(sqlStream.str());

        Aws::Vector<Aws::DynamoDB::Model::AttributeValue> attributes;
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetS(title));
        attributes.push_back(Aws::DynamoDB::Model::AttributeValue().SetN(year));
        request.SetParameters(attributes);

        Aws::DynamoDB::Model::ExecuteStatementOutcome outcome = dynamoClient.ExecuteStatement(
                request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to delete the movie: "
                      << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }

    std::cout << "Movie successfully deleted." << std::endl;
    return true;
}

//! Create a DynamoDB table to be used in sample code scenarios.
/*!
  \sa createMoviesDynamoDBTable()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::createMoviesDynamoDBTable(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    bool movieTableAlreadyExisted = false;

    {
        Aws::DynamoDB::Model::CreateTableRequest request;

        Aws::DynamoDB::Model::AttributeDefinition yearAttributeDefinition;
        yearAttributeDefinition.SetAttributeName(YEAR_KEY);
        yearAttributeDefinition.SetAttributeType(
                Aws::DynamoDB::Model::ScalarAttributeType::N);
        request.AddAttributeDefinitions(yearAttributeDefinition);

        Aws::DynamoDB::Model::AttributeDefinition titleAttributeDefinition;
        yearAttributeDefinition.SetAttributeName(TITLE_KEY);
        yearAttributeDefinition.SetAttributeType(
                Aws::DynamoDB::Model::ScalarAttributeType::S);
        request.AddAttributeDefinitions(yearAttributeDefinition);

        Aws::DynamoDB::Model::KeySchemaElement yearKeySchema;
        yearKeySchema.WithAttributeName(YEAR_KEY).WithKeyType(
                Aws::DynamoDB::Model::KeyType::HASH);
        request.AddKeySchema(yearKeySchema);

        Aws::DynamoDB::Model::KeySchemaElement titleKeySchema;
        yearKeySchema.WithAttributeName(TITLE_KEY).WithKeyType(
                Aws::DynamoDB::Model::KeyType::RANGE);
        request.AddKeySchema(yearKeySchema);

        Aws::DynamoDB::Model::ProvisionedThroughput throughput;
        throughput.WithReadCapacityUnits(
                PROVISIONED_THROUGHPUT_UNITS).WithWriteCapacityUnits(
                PROVISIONED_THROUGHPUT_UNITS);
        request.SetProvisionedThroughput(throughput);
        request.SetTableName(MOVIE_TABLE_NAME);

        std::cout << "Creating table '" << MOVIE_TABLE_NAME << "'..." << std::endl;
        const Aws::DynamoDB::Model::CreateTableOutcome &result = dynamoClient.CreateTable(
                request);
        if (!result.IsSuccess()) {
            if (result.GetError().GetErrorType() ==
                Aws::DynamoDB::DynamoDBErrors::RESOURCE_IN_USE) {
                std::cout << "Table already exists." << std::endl;
                movieTableAlreadyExisted = true;
            }
            else {
                std::cerr << "Failed to create table: "
                          << result.GetError().GetMessage();
                return false;
            }
        }
    }

    // Wait for table to become active.
    if (!movieTableAlreadyExisted) {
        std::cout << "Waiting for table '" << MOVIE_TABLE_NAME
                  << "' to become active...." << std::endl;
        if (!AwsDoc::DynamoDB::waitTableActive(MOVIE_TABLE_NAME, clientConfiguration)) {
            return false;
        }
        std::cout << "Table '" << MOVIE_TABLE_NAME << "' created and active."
                  << std::endl;
    }

    return true;
}

//! Delete the DynamoDB table used for sample code scenarios.
/*!
  \sa deleteMoviesDynamoDBTable()
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::deleteMoviesDynamoDBTable(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration);

    Aws::DynamoDB::Model::DeleteTableRequest request;
    request.SetTableName(MOVIE_TABLE_NAME);

    const Aws::DynamoDB::Model::DeleteTableOutcome &result = dynamoClient.DeleteTable(
            request);
    if (result.IsSuccess()) {
        std::cout << "Your table \""
                  << result.GetResult().GetTableDescription().GetTableName()
                  << " was deleted.\n";
    }
    else {
        std::cerr << "Failed to delete table: " << result.GetError().GetMessage()
                  << std::endl;
    }

    return result.IsSuccess();
}

//! Query a newly created DynamoDB table until it is active.
/*!
  \sa waitTableActive()
  \param waitTableActive: The DynamoDB table's name.
  \param dynamoClient: A DynamoDB client.
  \return bool: Function succeeded.
*/
bool AwsDoc::DynamoDB::waitTableActive(const Aws::String &tableName,
                                       const Aws::DynamoDB::DynamoDBClient &dynamoClient) {

    // Repeatedly call DescribeTable until table is ACTIVE.
    const int MAX_QUERIES = 20;
    Aws::DynamoDB::Model::DescribeTableRequest request;
    request.SetTableName(tableName);

    int count = 0;
    while (count < MAX_QUERIES) {
        const Aws::DynamoDB::Model::DescribeTableOutcome &result = dynamoClient.DescribeTable(
                request);
        if (result.IsSuccess()) {
            Aws::DynamoDB::Model::TableStatus status = result.GetResult().GetTable().GetTableStatus();

            if (Aws::DynamoDB::Model::TableStatus::ACTIVE != status) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                return true;
            }
        }
        else {
            std::cerr << "Error DynamoDB::waitTableActive "
                      << result.GetError().GetMessage() << std::endl;
            return false;
        }
        count++;
    }
    return false;
}
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForCpp/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# Contoh Amazon EC2 menggunakan SDK for C\$1\$1
<a name="cpp_1_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon EC2. AWS SDK untuk C\$1\$1 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2/hello_ec2#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS ec2)

# Set this project's name.
project("hello_ec2")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_ec2.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1ec2.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/ec2/EC2Client.h>
#include <aws/ec2/model/DescribeInstancesRequest.h>
#include <iomanip>
#include <iostream>

/*
 *  A "Hello EC2" starter application which initializes an Amazon Elastic Compute Cloud (Amazon EC2) client and describes
 *  the Amazon EC2 instances.
 *
 *  main function
 *
 *  Usage: 'hello_ec2'
 *
 */

int main(int argc, char **argv) {
    (void)argc;
    (void)argv;

    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::EC2::EC2Client ec2Client(clientConfig);
        Aws::EC2::Model::DescribeInstancesRequest request;
        bool header = false;
        bool done = false;
        while (!done) {
            Aws::EC2::Model::DescribeInstancesOutcome outcome = ec2Client.DescribeInstances(request);
            if (outcome.IsSuccess()) {
                if (!header) {
                    std::cout << std::left <<
                              std::setw(48) << "Name" <<
                              std::setw(20) << "ID" <<
                              std::setw(25) << "Ami" <<
                              std::setw(15) << "Type" <<
                              std::setw(15) << "State" <<
                              std::setw(15) << "Monitoring" << std::endl;
                    header = true;
                }

                const std::vector<Aws::EC2::Model::Reservation> &reservations =
                        outcome.GetResult().GetReservations();

                for (const auto &reservation: reservations) {
                    const std::vector<Aws::EC2::Model::Instance> &instances =
                            reservation.GetInstances();
                    for (const auto &instance: instances) {
                        Aws::String instanceStateString =
                                Aws::EC2::Model::InstanceStateNameMapper::GetNameForInstanceStateName(
                                        instance.GetState().GetName());

                        Aws::String typeString =
                                Aws::EC2::Model::InstanceTypeMapper::GetNameForInstanceType(
                                        instance.GetInstanceType());

                        Aws::String monitorString =
                                Aws::EC2::Model::MonitoringStateMapper::GetNameForMonitoringState(
                                        instance.GetMonitoring().GetState());
                        Aws::String name = "Unknown";

                        const std::vector<Aws::EC2::Model::Tag> &tags = instance.GetTags();
                        auto nameIter = std::find_if(tags.cbegin(), tags.cend(),
                                                     [](const Aws::EC2::Model::Tag &tag) {
                                                         return tag.GetKey() == "Name";
                                                     });
                        if (nameIter != tags.cend()) {
                            name = nameIter->GetValue();
                        }
                        std::cout <<
                                  std::setw(48) << name <<
                                  std::setw(20) << instance.GetInstanceId() <<
                                  std::setw(25) << instance.GetImageId() <<
                                  std::setw(15) << typeString <<
                                  std::setw(15) << instanceStateString <<
                                  std::setw(15) << monitorString << std::endl;
                    }
                }

                if (!outcome.GetResult().GetNextToken().empty()) {
                    request.SetNextToken(outcome.GetResult().GetNextToken());
                } else {
                    done = true;
                }
            } else {
                std::cerr << "Failed to describe EC2 instances:" <<
                          outcome.GetError().GetMessage() << std::endl;
                result = 1;
                break;
            }
        }
    }


    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeSecurityGroups)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Allocate an Elastic IP address and associate it with an Amazon Elastic Compute Cloud
//! (Amazon EC2) instance.
/*!
  \param instanceID: An EC2 instance ID.
  \param[out] publicIPAddress: String to return the public IP address.
  \param[out] allocationID: String to return the allocation ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::allocateAndAssociateAddress(const Aws::String &instanceId, Aws::String &publicIPAddress,
                                              Aws::String &allocationID,
                                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::AllocateAddressRequest request;
    request.SetDomain(Aws::EC2::Model::DomainType::vpc);

    const Aws::EC2::Model::AllocateAddressOutcome outcome =
            ec2Client.AllocateAddress(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Failed to allocate Elastic IP address:" <<
                  outcome.GetError().GetMessage() << std::endl;
        return false;
    }
    const Aws::EC2::Model::AllocateAddressResponse &response = outcome.GetResult();
    allocationID = response.GetAllocationId();
    publicIPAddress = response.GetPublicIp();


    return true;
}
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/AllocateAddress)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

//! Associate an Elastic IP address with an EC2 instance.
/*!
  \param instanceId: An EC2 instance ID.
  \param allocationId: An Elastic IP allocation ID.
  \param[out] associationID: String to receive the association ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: True if the address was associated with the instance; otherwise, false.
 */
bool AwsDoc::EC2::associateAddress(const Aws::String &instanceId, const Aws::String &allocationId,
                                   Aws::String &associationID,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::AssociateAddressRequest request;
    request.SetInstanceId(instanceId);
    request.SetAllocationId(allocationId);

    Aws::EC2::Model::AssociateAddressOutcome outcome = ec2Client.AssociateAddress(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Failed to associate address " << allocationId <<
                  " with instance " << instanceId << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Successfully associated address " << allocationId <<
                  " with instance " << instanceId << std::endl;
        associationID = outcome.GetResult().GetAssociationId();
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/AssociateAddress)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Authorize ingress to an Amazon Elastic Compute Cloud (Amazon EC2) group.
/*!
  \param groupID: The EC2 group ID.
  \param clientConfiguration: The ClientConfiguration object.
  \return bool: True if the operation was successful, false otherwise.
 */
bool
AwsDoc::EC2::authorizeSecurityGroupIngress(const Aws::String &groupID,
                                           const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::AuthorizeSecurityGroupIngressRequest authorizeSecurityGroupIngressRequest;
    authorizeSecurityGroupIngressRequest.SetGroupId(groupID);
    buildSampleIngressRule(authorizeSecurityGroupIngressRequest);

    Aws::EC2::Model::AuthorizeSecurityGroupIngressOutcome authorizeSecurityGroupIngressOutcome =
            ec2Client.AuthorizeSecurityGroupIngress(authorizeSecurityGroupIngressRequest);

    if (authorizeSecurityGroupIngressOutcome.IsSuccess()) {
        std::cout << "Successfully authorized security group ingress." << std::endl;
    } else {
        std::cerr << "Error authorizing security group ingress: "
                  << authorizeSecurityGroupIngressOutcome.GetError().GetMessage() << std::endl;
    }

    return authorizeSecurityGroupIngressOutcome.IsSuccess();
}
```
Fungsi utilitas untuk membangun aturan masuk.  

```
//! Build a sample ingress rule.
/*!
  \param authorize_request: An 'AuthorizeSecurityGroupIngressRequest' instance.
  \return void:
 */
void buildSampleIngressRule(
        Aws::EC2::Model::AuthorizeSecurityGroupIngressRequest &authorize_request) {
    Aws::String ingressIPRange = "203.0.113.0/24";  // Configure this for your allowed IP range.
    Aws::EC2::Model::IpRange ip_range;
    ip_range.SetCidrIp(ingressIPRange);

    Aws::EC2::Model::IpPermission permission1;
    permission1.SetIpProtocol("tcp");
    permission1.SetToPort(80);
    permission1.SetFromPort(80);
    permission1.AddIpRanges(ip_range);

    authorize_request.AddIpPermissions(permission1);

    Aws::EC2::Model::IpPermission permission2;
    permission2.SetIpProtocol("tcp");
    permission2.SetToPort(22);
    permission2.SetFromPort(22);
    permission2.AddIpRanges(ip_range);

    authorize_request.AddIpPermissions(permission2);
}
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/AuthorizeSecurityGroupIngress)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Create an Amazon Elastic Compute Cloud (Amazon EC2) instance key pair.
/*!
  \param keyPairName: A name for a key pair.
  \param keyFilePath: File path where the credentials are stored. Ignored if it is an empty string;
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::createKeyPair(const Aws::String &keyPairName, const Aws::String &keyFilePath,
                                const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::CreateKeyPairRequest request;
    request.SetKeyName(keyPairName);

    Aws::EC2::Model::CreateKeyPairOutcome outcome = ec2Client.CreateKeyPair(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Failed to create key pair - "  << keyPairName << ". " <<
                  outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Successfully created key pair named " <<
                  keyPairName << std::endl;
        if (!keyFilePath.empty()) {
            std::ofstream keyFile(keyFilePath.c_str());
            keyFile << outcome.GetResult().GetKeyMaterial();
            keyFile.close();
            std::cout << "Keys written to the file " <<
                      keyFilePath << std::endl;
        }

    }

    return outcome.IsSuccess();

}
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/CreateKeyPair)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Create a security group.
/*!
  \param groupName: A security group name.
  \param description: A description.
  \param vpcID: A virtual private cloud (VPC) ID.
  \param[out] groupIDResult: A string to receive the group ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::createSecurityGroup(const Aws::String &groupName,
                                      const Aws::String &description,
                                      const Aws::String &vpcID,
                                      Aws::String &groupIDResult,
                                      const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::CreateSecurityGroupRequest request;

    request.SetGroupName(groupName);
    request.SetDescription(description);
    request.SetVpcId(vpcID);

    const Aws::EC2::Model::CreateSecurityGroupOutcome outcome =
            ec2Client.CreateSecurityGroup(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Failed to create security group:" <<
                  outcome.GetError().GetMessage() << std::endl;
        return false;
    }

    std::cout << "Successfully created security group named " << groupName <<
              std::endl;


    groupIDResult = outcome.GetResult().GetGroupId();

    return true;
}
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/CreateSecurityGroup)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateTags`
<a name="ec2_CreateTags_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTags`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Add or overwrite only the specified tags for the specified Amazon Elastic Compute Cloud (Amazon EC2) resource or resources.
/*!
  \param resources: The resources for the tags.
  \param tags: Vector of tags.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::createTags(const Aws::Vector<Aws::String> &resources,
                             const Aws::Vector<Aws::EC2::Model::Tag> &tags,
                             const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::CreateTagsRequest createTagsRequest;
    createTagsRequest.SetResources(resources);
    createTagsRequest.SetTags(tags);

    Aws::EC2::Model::CreateTagsOutcome outcome = ec2Client.CreateTags(createTagsRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully created tags for resources" << std::endl;
    } else {
        std::cerr << "Failed to create tags for resources, " << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateTags](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/CreateTags)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Delete an Amazon Elastic Compute Cloud (Amazon EC2) instance key pair.
/*!
  \param keyPairName: A name for a key pair.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */

bool AwsDoc::EC2::deleteKeyPair(const Aws::String &keyPairName,
                                const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::DeleteKeyPairRequest request;

    request.SetKeyName(keyPairName);
    const Aws::EC2::Model::DeleteKeyPairOutcome outcome = ec2Client.DeleteKeyPair(
            request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Failed to delete key pair " << keyPairName <<
                  ":" << outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Successfully deleted key pair named " << keyPairName <<
                  std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DeleteKeyPair)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Delete a security group.
/*!
  \param securityGroupID: A security group ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::deleteSecurityGroup(const Aws::String &securityGroupID,
                                      const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::DeleteSecurityGroupRequest request;

    request.SetGroupId(securityGroupID);
    Aws::EC2::Model::DeleteSecurityGroupOutcome outcome = ec2Client.DeleteSecurityGroup(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Failed to delete security group " << securityGroupID <<
                  ":" << outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Successfully deleted security group " << securityGroupID <<
                  std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DeleteSecurityGroup)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeAddresses`
<a name="ec2_DescribeAddresses_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAddresses`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Describe all Elastic IP addresses.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::describeAddresses(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::DescribeAddressesRequest request;
    Aws::EC2::Model::DescribeAddressesOutcome outcome = ec2Client.DescribeAddresses(request);
    if (outcome.IsSuccess()) {
        std::cout << std::left << std::setw(20) << "InstanceId" <<
                  std::setw(15) << "Public IP" << std::setw(10) << "Domain" <<
                  std::setw(30) << "Allocation ID" << std::setw(25) <<
                  "NIC ID" << std::endl;

        const Aws::Vector<Aws::EC2::Model::Address> &addresses = outcome.GetResult().GetAddresses();
        for (const auto &address: addresses) {
            Aws::String domainString =
                    Aws::EC2::Model::DomainTypeMapper::GetNameForDomainType(
                            address.GetDomain());

            std::cout << std::left << std::setw(20) <<
                      address.GetInstanceId() << std::setw(15) <<
                      address.GetPublicIp() << std::setw(10) << domainString <<
                      std::setw(30) << address.GetAllocationId() << std::setw(25)
                      << address.GetNetworkInterfaceId() << std::endl;
        }
    } else {
        std::cerr << "Failed to describe Elastic IP addresses:" <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DescribeAddresses](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeAddresses)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeAvailabilityZones`
<a name="ec2_DescribeAvailabilityZones_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAvailabilityZones`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! DescribeAvailabilityZones
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
*/
int AwsDoc::EC2::describeAvailabilityZones(const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::DescribeAvailabilityZonesRequest request;
    Aws::EC2::Model::DescribeAvailabilityZonesOutcome outcome = ec2Client.DescribeAvailabilityZones(request);

    if (outcome.IsSuccess()) {
        std::cout << std::left <<
                  std::setw(32) << "ZoneName" <<
                  std::setw(20) << "State" <<
                  std::setw(32) << "Region" << std::endl;

        const auto &zones =
                outcome.GetResult().GetAvailabilityZones();

        for (const auto &zone: zones) {
            Aws::String stateString =
                    Aws::EC2::Model::AvailabilityZoneStateMapper::GetNameForAvailabilityZoneState(
                            zone.GetState());
            std::cout << std::left <<
                      std::setw(32) << zone.GetZoneName() <<
                      std::setw(20) << stateString <<
                      std::setw(32) << zone.GetRegionName() << std::endl;
        }
    } else {
        std::cerr << "Failed to describe availability zones:" <<
                  outcome.GetError().GetMessage() << std::endl;

    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeAvailabilityZones)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Describe all Amazon Elastic Compute Cloud (Amazon EC2) instances associated with an account.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::describeInstances(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::DescribeInstancesRequest request;
    bool header = false;
    bool done = false;
    while (!done) {
        Aws::EC2::Model::DescribeInstancesOutcome outcome = ec2Client.DescribeInstances(request);
        if (outcome.IsSuccess()) {
            if (!header) {
                std::cout << std::left <<
                          std::setw(48) << "Name" <<
                          std::setw(20) << "ID" <<
                          std::setw(25) << "Ami" <<
                          std::setw(15) << "Type" <<
                          std::setw(15) << "State" <<
                          std::setw(15) << "Monitoring" << std::endl;
                header = true;
            }

            const std::vector<Aws::EC2::Model::Reservation> &reservations =
                    outcome.GetResult().GetReservations();

            for (const auto &reservation: reservations) {
                const std::vector<Aws::EC2::Model::Instance> &instances =
                        reservation.GetInstances();
                for (const auto &instance: instances) {
                    Aws::String instanceStateString =
                            Aws::EC2::Model::InstanceStateNameMapper::GetNameForInstanceStateName(
                                    instance.GetState().GetName());

                    Aws::String typeString =
                            Aws::EC2::Model::InstanceTypeMapper::GetNameForInstanceType(
                                    instance.GetInstanceType());

                    Aws::String monitorString =
                            Aws::EC2::Model::MonitoringStateMapper::GetNameForMonitoringState(
                                    instance.GetMonitoring().GetState());
                    Aws::String name = "Unknown";

                    const std::vector<Aws::EC2::Model::Tag> &tags = instance.GetTags();
                    auto nameIter = std::find_if(tags.cbegin(), tags.cend(),
                                                 [](const Aws::EC2::Model::Tag &tag) {
                                                     return tag.GetKey() == "Name";
                                                 });
                    if (nameIter != tags.cend()) {
                        name = nameIter->GetValue();
                    }
                    std::cout <<
                              std::setw(48) << name <<
                              std::setw(20) << instance.GetInstanceId() <<
                              std::setw(25) << instance.GetImageId() <<
                              std::setw(15) << typeString <<
                              std::setw(15) << instanceStateString <<
                              std::setw(15) << monitorString << std::endl;
                }
            }

            if (!outcome.GetResult().GetNextToken().empty()) {
                request.SetNextToken(outcome.GetResult().GetNextToken());
            } else {
                done = true;
            }
        } else {
            std::cerr << "Failed to describe EC2 instances:" <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }

    return true;
}
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Describe all Amazon Elastic Compute Cloud (Amazon EC2) instance key pairs.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::describeKeyPairs(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::DescribeKeyPairsRequest request;

    Aws::EC2::Model::DescribeKeyPairsOutcome outcome = ec2Client.DescribeKeyPairs(request);
    if (outcome.IsSuccess()) {
        std::cout << std::left <<
                  std::setw(32) << "Name" <<
                  std::setw(64) << "Fingerprint" << std::endl;

        const std::vector<Aws::EC2::Model::KeyPairInfo> &key_pairs =
                outcome.GetResult().GetKeyPairs();
        for (const auto &key_pair: key_pairs) {
            std::cout << std::left <<
                      std::setw(32) << key_pair.GetKeyName() <<
                      std::setw(64) << key_pair.GetKeyFingerprint() << std::endl;
        }
    } else {
        std::cerr << "Failed to describe key pairs:" <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeKeyPairs)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeRegions`
<a name="ec2_DescribeRegions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRegions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Describe all Amazon Elastic Compute Cloud (Amazon EC2) Regions.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::describeRegions(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::DescribeRegionsRequest request;
    Aws::EC2::Model::DescribeRegionsOutcome outcome = ec2Client.DescribeRegions(request);
    if (outcome.IsSuccess()) {
        std::cout << std::left <<
                  std::setw(32) << "RegionName" <<
                  std::setw(64) << "Endpoint" << std::endl;

        const auto &regions = outcome.GetResult().GetRegions();
        for (const auto &region: regions) {
            std::cout << std::left <<
                      std::setw(32) << region.GetRegionName() <<
                      std::setw(64) << region.GetEndpoint() << std::endl;
        }
    } else {
        std::cerr << "Failed to describe regions:" <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    std::cout << std::endl;

    return outcome.IsSuccess();

}
```
+  Untuk detail API, lihat [DescribeRegions](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeRegions)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Describe all Amazon Elastic Compute Cloud (Amazon EC2) security groups, or a specific group.
/*!
  \param groupID: A group ID, ignored if empty.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::describeSecurityGroups(const Aws::String &groupID,
                                         const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::DescribeSecurityGroupsRequest request;

    if (!groupID.empty()) {
        request.AddGroupIds(groupID);
    }

    Aws::String nextToken;
    do {
        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        Aws::EC2::Model::DescribeSecurityGroupsOutcome outcome = ec2Client.DescribeSecurityGroups(request);
        if (outcome.IsSuccess()) {
            std::cout << std::left <<
                      std::setw(32) << "Name" <<
                      std::setw(30) << "GroupId" <<
                      std::setw(30) << "VpcId" <<
                      std::setw(64) << "Description" << std::endl;

            const std::vector<Aws::EC2::Model::SecurityGroup> &securityGroups =
                    outcome.GetResult().GetSecurityGroups();

            for (const auto &securityGroup: securityGroups) {
                std::cout << std::left <<
                          std::setw(32) << securityGroup.GetGroupName() <<
                          std::setw(30) << securityGroup.GetGroupId() <<
                          std::setw(30) << securityGroup.GetVpcId() <<
                          std::setw(64) << securityGroup.GetDescription() <<
                          std::endl;
            }
        } else {
            std::cerr << "Failed to describe security groups:" <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        nextToken = outcome.GetResult().GetNextToken();
    } while (!nextToken.empty());

    return true;
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeSecurityGroups)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `MonitorInstances`
<a name="ec2_MonitorInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`MonitorInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Enable detailed monitoring for an Amazon Elastic Compute Cloud (Amazon EC2) instance.
/*!
  \param instanceId: An EC2 instance ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::enableMonitoring(const Aws::String &instanceId,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::MonitorInstancesRequest request;
    request.AddInstanceIds(instanceId);
    request.SetDryRun(true);

    Aws::EC2::Model::MonitorInstancesOutcome dryRunOutcome = ec2Client.MonitorInstances(request);
    if (dryRunOutcome.IsSuccess()) {
        std::cerr
                << "Failed dry run to enable monitoring on instance. A dry run should trigger an error."
                <<
                std::endl;
        return false;
    } else if (dryRunOutcome.GetError().GetErrorType()
               != Aws::EC2::EC2Errors::DRY_RUN_OPERATION) {
        std::cerr << "Failed dry run to enable monitoring on instance " <<
                  instanceId << ": " << dryRunOutcome.GetError().GetMessage() <<
                  std::endl;
        return false;
    }

    request.SetDryRun(false);
    Aws::EC2::Model::MonitorInstancesOutcome monitorInstancesOutcome = ec2Client.MonitorInstances(request);
    if (!monitorInstancesOutcome.IsSuccess()) {
        std::cerr << "Failed to enable monitoring on instance " <<
                  instanceId << ": " <<
                  monitorInstancesOutcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Successfully enabled monitoring on instance " <<
                  instanceId << std::endl;
    }

    return monitorInstancesOutcome.IsSuccess();
}
```
+  Untuk detail API, lihat [MonitorInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/MonitorInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `RebootInstances`
<a name="ec2_RebootInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RebootInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Reboot an Amazon Elastic Compute Cloud (Amazon EC2) instance.
/*!
  \param instanceID: An EC2 instance ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::rebootInstance(const Aws::String &instanceId,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::RebootInstancesRequest request;
    request.AddInstanceIds(instanceId);
    request.SetDryRun(true);

    Aws::EC2::Model::RebootInstancesOutcome dry_run_outcome = ec2Client.RebootInstances(request);
    if (dry_run_outcome.IsSuccess()) {
        std::cerr
                << "Failed dry run to reboot on instance. A dry run should trigger an error."
                <<
                std::endl;
        return false;
    } else if (dry_run_outcome.GetError().GetErrorType()
               != Aws::EC2::EC2Errors::DRY_RUN_OPERATION) {
        std::cout << "Failed dry run to reboot instance " << instanceId << ": "
                  << dry_run_outcome.GetError().GetMessage() << std::endl;
        return false;
    }

    request.SetDryRun(false);
    Aws::EC2::Model::RebootInstancesOutcome outcome = ec2Client.RebootInstances(request);
    if (!outcome.IsSuccess()) {
        std::cout << "Failed to reboot instance " << instanceId << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Successfully rebooted instance " << instanceId <<
                  std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [RebootInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/RebootInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Release an Elastic IP address.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::releaseAddress(const Aws::String &allocationID,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2(clientConfiguration);

    Aws::EC2::Model::ReleaseAddressRequest request;
    request.SetAllocationId(allocationID);

    Aws::EC2::Model::ReleaseAddressOutcome outcome = ec2.ReleaseAddress(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Failed to release Elastic IP address " <<
                  allocationID << ":" << outcome.GetError().GetMessage() <<
                  std::endl;
    } else {
        std::cout << "Successfully released Elastic IP address " <<
                  allocationID << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/ReleaseAddress)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `RunInstances`
<a name="ec2_RunInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Launch an Amazon Elastic Compute Cloud (Amazon EC2) instance.
/*!
  \param instanceName: A name for the EC2 instance.
  \param amiId: An Amazon Machine Image (AMI) identifier.
  \param[out] instanceID: String to return the instance ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::runInstance(const Aws::String &instanceName,
                              const Aws::String &amiId,
                              Aws::String &instanceID,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::RunInstancesRequest runRequest;
    runRequest.SetImageId(amiId);
    runRequest.SetInstanceType(Aws::EC2::Model::InstanceType::t1_micro);
    runRequest.SetMinCount(1);
    runRequest.SetMaxCount(1);

    Aws::EC2::Model::RunInstancesOutcome runOutcome = ec2Client.RunInstances(
            runRequest);
    if (!runOutcome.IsSuccess()) {
        std::cerr << "Failed to launch EC2 instance " << instanceName <<
                  " based on ami " << amiId << ":" <<
                  runOutcome.GetError().GetMessage() << std::endl;
        return false;
    }

    const Aws::Vector<Aws::EC2::Model::Instance> &instances = runOutcome.GetResult().GetInstances();
    if (instances.empty()) {
        std::cerr << "Failed to launch EC2 instance " << instanceName <<
                  " based on ami " << amiId << ":" <<
                  runOutcome.GetError().GetMessage() << std::endl;
        return false;
    }

    instanceID = instances[0].GetInstanceId();

    return true;
}
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/RunInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `StartInstances`
<a name="ec2_StartInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Start an Amazon Elastic Compute Cloud (Amazon EC2) instance.
/*!
  \param instanceID: An EC2 instance ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::startInstance(const Aws::String &instanceId,
                                const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::StartInstancesRequest startRequest;
    startRequest.AddInstanceIds(instanceId);
    startRequest.SetDryRun(true);

    Aws::EC2::Model::StartInstancesOutcome dryRunOutcome = ec2Client.StartInstances(startRequest);
    if (dryRunOutcome.IsSuccess()) {
        std::cerr
                << "Failed dry run to start instance. A dry run should trigger an error."
                << std::endl;
        return false;
    } else if (dryRunOutcome.GetError().GetErrorType() !=
               Aws::EC2::EC2Errors::DRY_RUN_OPERATION) {
        std::cout << "Failed dry run to start instance " << instanceId << ": "
                  << dryRunOutcome.GetError().GetMessage() << std::endl;
        return false;
    }

    startRequest.SetDryRun(false);
    Aws::EC2::Model::StartInstancesOutcome startInstancesOutcome = ec2Client.StartInstances(startRequest);

    if (!startInstancesOutcome.IsSuccess()) {
        std::cout << "Failed to start instance " << instanceId << ": " <<
                  startInstancesOutcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Successfully started instance " << instanceId <<
                  std::endl;
    }

    return startInstancesOutcome.IsSuccess();
}
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/StartInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `StopInstances`
<a name="ec2_StopInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Stop an EC2 instance.
/*!
  \param instanceID: An EC2 instance ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::stopInstance(const Aws::String &instanceId,
                               const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::StopInstancesRequest request;
    request.AddInstanceIds(instanceId);
    request.SetDryRun(true);

    Aws::EC2::Model::StopInstancesOutcome dryRunOutcome = ec2Client.StopInstances(request);
    if (dryRunOutcome.IsSuccess()) {
        std::cerr
                << "Failed dry run to stop instance. A dry run should trigger an error."
                << std::endl;
        return false;
    } else if (dryRunOutcome.GetError().GetErrorType() !=
               Aws::EC2::EC2Errors::DRY_RUN_OPERATION) {
        std::cout << "Failed dry run to stop instance " << instanceId << ": "
                  << dryRunOutcome.GetError().GetMessage() << std::endl;
        return false;
    }

    request.SetDryRun(false);
    Aws::EC2::Model::StopInstancesOutcome outcome = ec2Client.StopInstances(request);
    if (!outcome.IsSuccess()) {
        std::cout << "Failed to stop instance " << instanceId << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Successfully stopped instance " << instanceId <<
                  std::endl;
    }

    return outcome.IsSuccess();
}

void PrintUsage() {
    std::cout << "Usage: run_start_stop_instance <instance_id> <start|stop>" <<
              std::endl;
}
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/StopInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Terminate an Amazon Elastic Compute Cloud (Amazon EC2) instance.
/*!
  \param instanceID: An EC2 instance ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::terminateInstances(const Aws::String &instanceID,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);

    Aws::EC2::Model::TerminateInstancesRequest request;
    request.SetInstanceIds({instanceID});

    Aws::EC2::Model::TerminateInstancesOutcome outcome =
            ec2Client.TerminateInstances(request);
    if (outcome.IsSuccess()) {
        std::cout << "Ec2 instance '" << instanceID <<
                  "' was terminated." << std::endl;
    } else {
        std::cerr << "Failed to terminate ec2 instance " << instanceID <<
                  ", " <<
                  outcome.GetError().GetMessage() << std::endl;
        return false;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/TerminateInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UnmonitorInstances`
<a name="ec2_UnmonitorInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UnmonitorInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). 

```
//! Disable monitoring for an EC2 instance.
/*!
  \param instanceId: An EC2 instance ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::EC2::disableMonitoring(const Aws::String &instanceId,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::EC2::EC2Client ec2Client(clientConfiguration);
    Aws::EC2::Model::UnmonitorInstancesRequest unrequest;
    unrequest.AddInstanceIds(instanceId);
    unrequest.SetDryRun(true);

    Aws::EC2::Model::UnmonitorInstancesOutcome dryRunOutcome = ec2Client.UnmonitorInstances(unrequest);
    if (dryRunOutcome.IsSuccess()) {
        std::cerr
                << "Failed dry run to disable monitoring on instance. A dry run should trigger an error."
                <<
                std::endl;
        return false;
    } else if (dryRunOutcome.GetError().GetErrorType() !=
               Aws::EC2::EC2Errors::DRY_RUN_OPERATION) {
        std::cout << "Failed dry run to disable monitoring on instance " <<
                  instanceId << ": " << dryRunOutcome.GetError().GetMessage() <<
                  std::endl;
        return false;
    }

    unrequest.SetDryRun(false);
    Aws::EC2::Model::UnmonitorInstancesOutcome unmonitorInstancesOutcome = ec2Client.UnmonitorInstances(unrequest);
    if (!unmonitorInstancesOutcome.IsSuccess()) {
        std::cout << "Failed to disable monitoring on instance " << instanceId
                  << ": " << unmonitorInstancesOutcome.GetError().GetMessage() <<
                  std::endl;
    } else {
        std::cout << "Successfully disable monitoring on instance " <<
                  instanceId << std::endl;
    }

    return unmonitorInstancesOutcome.IsSuccess();
}
```
+  Untuk detail API, lihat [UnmonitorInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/UnmonitorInstances)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# EventBridge contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with EventBridge.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutEvents`
<a name="eventbridge_PutEvents_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/eventbridge#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/events/EventBridgeClient.h>
#include <aws/events/model/PutEventsRequest.h>
#include <aws/events/model/PutEventsResult.h>
#include <aws/core/utils/Outcome.h>
#include <iostream>
```
Kirim acara.  

```
        Aws::CloudWatchEvents::EventBridgeClient cwe;

        Aws::CloudWatchEvents::Model::PutEventsRequestEntry event_entry;
        event_entry.SetDetail(MakeDetails(event_key, event_value));
        event_entry.SetDetailType("sampleSubmitted");
        event_entry.AddResources(resource_arn);
        event_entry.SetSource("aws-sdk-cpp-cloudwatch-example");

        Aws::CloudWatchEvents::Model::PutEventsRequest request;
        request.AddEntries(event_entry);

        auto outcome = cwe.PutEvents(request);
        if (!outcome.IsSuccess())
        {
            std::cout << "Failed to post CloudWatch event: " <<
                outcome.GetError().GetMessage() << std::endl;
        }
        else
        {
            std::cout << "Successfully posted CloudWatch event" << std::endl;
        }
```
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/goto/SdkForCpp/eventbridge-2015-10-07/PutEvents)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutRule`
<a name="eventbridge_PutRule_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/eventbridge#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/events/EventBridgeClient.h>
#include <aws/events/model/PutRuleRequest.h>
#include <aws/events/model/PutRuleResult.h>
#include <aws/core/utils/Outcome.h>
#include <iostream>
```
Buat aturan.  

```
        Aws::CloudWatchEvents::EventBridgeClient cwe;
        Aws::CloudWatchEvents::Model::PutRuleRequest request;
        request.SetName(rule_name);
        request.SetRoleArn(role_arn);
        request.SetScheduleExpression("rate(5 minutes)");
        request.SetState(Aws::CloudWatchEvents::Model::RuleState::ENABLED);

        auto outcome = cwe.PutRule(request);
        if (!outcome.IsSuccess())
        {
            std::cout << "Failed to create CloudWatch events rule " <<
                rule_name << ": " << outcome.GetError().GetMessage() <<
                std::endl;
        }
        else
        {
            std::cout << "Successfully created CloudWatch events rule " <<
                rule_name << " with resulting Arn " <<
                outcome.GetResult().GetRuleArn() << std::endl;
        }
```
+  Untuk detail API, lihat [PutRule](https://docs.aws.amazon.com/goto/SdkForCpp/eventbridge-2015-10-07/PutRule)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutTargets`
<a name="eventbridge_PutTargets_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/eventbridge#code-examples). 
Sertakan file-file yang diperlukan.  

```
#include <aws/core/Aws.h>
#include <aws/events/EventBridgeClient.h>
#include <aws/events/model/PutTargetsRequest.h>
#include <aws/events/model/PutTargetsResult.h>
#include <aws/core/utils/Outcome.h>
#include <iostream>
```
Tambahkan target.  

```
        Aws::CloudWatchEvents::EventBridgeClient cwe;

        Aws::CloudWatchEvents::Model::Target target;
        target.SetArn(lambda_arn);
        target.SetId(target_id);

        Aws::CloudWatchEvents::Model::PutTargetsRequest request;
        request.SetRule(rule_name);
        request.AddTargets(target);

        auto putTargetsOutcome = cwe.PutTargets(request);
        if (!putTargetsOutcome.IsSuccess())
        {
            std::cout << "Failed to create CloudWatch events target for rule "
                << rule_name << ": " <<
                putTargetsOutcome.GetError().GetMessage() << std::endl;
        }
        else
        {
            std::cout <<
                "Successfully created CloudWatch events target for rule "
                << rule_name << std::endl;
        }
```
+  Untuk detail API, lihat [PutTargets](https://docs.aws.amazon.com/goto/SdkForCpp/eventbridge-2015-10-07/PutTargets)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# AWS Glue contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with AWS Glue.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Glue
<a name="glue_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Glue.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue/hello_glue#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS glue)

# Set this project's name.
project("hello_glue")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # if you are building from the command line you may need to uncomment this 
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_glue.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1glue.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/glue/GlueClient.h>
#include <aws/glue/model/ListJobsRequest.h>
#include <iostream>

/*
 *  A "Hello Glue" starter application which initializes an AWS Glue client and lists the
 *  AWS Glue job definitions.
 *
 *  main function
 *
 *  Usage: 'hello_glue'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::Glue::GlueClient glueClient(clientConfig);

        std::vector<Aws::String> jobs;

        Aws::String nextToken;  // Used for pagination.
        do {
            Aws::Glue::Model::ListJobsRequest listJobsRequest;
            if (!nextToken.empty()) {
                listJobsRequest.SetNextToken(nextToken);
            }

            Aws::Glue::Model::ListJobsOutcome listRunsOutcome = glueClient.ListJobs(
                    listJobsRequest);

            if (listRunsOutcome.IsSuccess()) {
                const std::vector<Aws::String> &jobNames = listRunsOutcome.GetResult().GetJobNames();
                jobs.insert(jobs.end(), jobNames.begin(), jobNames.end());

                nextToken = listRunsOutcome.GetResult().GetNextToken();
            } else {
                std::cerr << "Error listing jobs. "
                          << listRunsOutcome.GetError().GetMessage()
                          << std::endl;
                result = 1;
                break;
            }
        } while (!nextToken.empty());

        std::cout << "Your account has " << jobs.size() << " jobs."
                  << std::endl;
        for (size_t i = 0; i < jobs.size(); ++i) {
            std::cout << "   " << i + 1 << ". " << jobs[i] << std::endl;
        }
    }
    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/ListJobs)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Daftar informasi tentang database dan tabel di situs Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
//! Scenario which demonstrates using AWS Glue to add a crawler and run a job.
/*!
 \\sa runGettingStartedWithGlueScenario()
 \param bucketName: An S3 bucket created in the setup.
 \param roleName: An AWS Identity and Access Management (IAM) role created in the setup.
 \param clientConfig: AWS client configuration.
 \return bool: Successful completion.
 */

bool AwsDoc::Glue::runGettingStartedWithGlueScenario(const Aws::String &bucketName,
                                                     const Aws::String &roleName,
                                                     const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::Glue::GlueClient client(clientConfig);

    Aws::String roleArn;
    if (!getRoleArn(roleName, roleArn, clientConfig)) {
        std::cerr << "Error getting role ARN for role." << std::endl;
        return false;
    }

    // 1. Upload the job script to the S3 bucket.
    {
        std::cout << "Uploading the job script '"
                  << AwsDoc::Glue::PYTHON_SCRIPT
                  << "'." << std::endl;

        if (!AwsDoc::Glue::uploadFile(bucketName,
                                      AwsDoc::Glue::PYTHON_SCRIPT_PATH,
                                      AwsDoc::Glue::PYTHON_SCRIPT,
                                      clientConfig)) {
            std::cerr << "Error uploading the job file." << std::endl;
            return false;
        }
    }

    // 2. Create a crawler.
    {
        Aws::Glue::Model::S3Target s3Target;
        s3Target.SetPath("s3://crawler-public-us-east-1/flight/2016/csv");
        Aws::Glue::Model::CrawlerTargets crawlerTargets;
        crawlerTargets.AddS3Targets(s3Target);

        Aws::Glue::Model::CreateCrawlerRequest request;
        request.SetTargets(crawlerTargets);
        request.SetName(CRAWLER_NAME);
        request.SetDatabaseName(CRAWLER_DATABASE_NAME);
        request.SetTablePrefix(CRAWLER_DATABASE_PREFIX);
        request.SetRole(roleArn);

        Aws::Glue::Model::CreateCrawlerOutcome outcome = client.CreateCrawler(request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully created the crawler." << std::endl;
        }
        else {
            std::cerr << "Error creating a crawler. " << outcome.GetError().GetMessage()
                      << std::endl;
            deleteAssets("", CRAWLER_DATABASE_NAME, "", bucketName, clientConfig);
            return false;
        }
    }

    // 3. Get a crawler.
    {
        Aws::Glue::Model::GetCrawlerRequest request;
        request.SetName(CRAWLER_NAME);

        Aws::Glue::Model::GetCrawlerOutcome outcome = client.GetCrawler(request);

        if (outcome.IsSuccess()) {
            Aws::Glue::Model::CrawlerState crawlerState = outcome.GetResult().GetCrawler().GetState();
            std::cout << "Retrieved crawler with state " <<
                      Aws::Glue::Model::CrawlerStateMapper::GetNameForCrawlerState(
                              crawlerState)
                      << "." << std::endl;
        }
        else {
            std::cerr << "Error retrieving a crawler.  "
                      << outcome.GetError().GetMessage() << std::endl;
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                         clientConfig);
            return false;
        }
    }

    // 4. Start a crawler.
    {
        Aws::Glue::Model::StartCrawlerRequest request;
        request.SetName(CRAWLER_NAME);

        Aws::Glue::Model::StartCrawlerOutcome outcome = client.StartCrawler(request);


        if (outcome.IsSuccess() || (Aws::Glue::GlueErrors::CRAWLER_RUNNING ==
                                    outcome.GetError().GetErrorType())) {
            if (!outcome.IsSuccess()) {
                std::cout << "Crawler was already started." << std::endl;
            }
            else {
                std::cout << "Successfully started crawler." << std::endl;
            }

            std::cout << "This may take a while to run." << std::endl;

            Aws::Glue::Model::CrawlerState crawlerState = Aws::Glue::Model::CrawlerState::NOT_SET;
            int iterations = 0;
            while (Aws::Glue::Model::CrawlerState::READY != crawlerState) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
                ++iterations;
                if ((iterations % 10) == 0) { // Log status every 10 seconds.
                    std::cout << "Crawler status " <<
                              Aws::Glue::Model::CrawlerStateMapper::GetNameForCrawlerState(
                                      crawlerState)
                              << ". After " << iterations
                              << " seconds elapsed."
                              << std::endl;
                }
                Aws::Glue::Model::GetCrawlerRequest getCrawlerRequest;
                getCrawlerRequest.SetName(CRAWLER_NAME);

                Aws::Glue::Model::GetCrawlerOutcome getCrawlerOutcome = client.GetCrawler(
                        getCrawlerRequest);

                if (getCrawlerOutcome.IsSuccess()) {
                    crawlerState = getCrawlerOutcome.GetResult().GetCrawler().GetState();
                }
                else {
                    std::cerr << "Error getting crawler.  "
                              << getCrawlerOutcome.GetError().GetMessage() << std::endl;
                    break;
                }
            }

            if (Aws::Glue::Model::CrawlerState::READY == crawlerState) {
                std::cout << "Crawler finished running after " << iterations
                          << " seconds."
                          << std::endl;
            }
        }
        else {
            std::cerr << "Error starting a crawler.  "
                      << outcome.GetError().GetMessage()
                      << std::endl;

            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                         clientConfig);
            return false;
        }
    }

    // 5. Get a database.
    {
        Aws::Glue::Model::GetDatabaseRequest request;
        request.SetName(CRAWLER_DATABASE_NAME);

        Aws::Glue::Model::GetDatabaseOutcome outcome = client.GetDatabase(request);

        if (outcome.IsSuccess()) {
            const Aws::Glue::Model::Database &database = outcome.GetResult().GetDatabase();

            std::cout << "Successfully retrieve the database\n" <<
                      database.Jsonize().View().WriteReadable() << "'." << std::endl;
        }
        else {
            std::cerr << "Error getting the database.  "
                      << outcome.GetError().GetMessage() << std::endl;
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                         clientConfig);
            return false;
        }
    }

    // 6. Get tables.
    Aws::String tableName;
    {
        Aws::Glue::Model::GetTablesRequest request;
        request.SetDatabaseName(CRAWLER_DATABASE_NAME);
        std::vector<Aws::Glue::Model::Table> all_tables;
        Aws::String nextToken; // Used for pagination.
        do {
            Aws::Glue::Model::GetTablesOutcome outcome = client.GetTables(request);

            if (outcome.IsSuccess()) {
                const std::vector<Aws::Glue::Model::Table> &tables = outcome.GetResult().GetTableList();
                all_tables.insert(all_tables.end(), tables.begin(), tables.end());
                nextToken = outcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "Error getting the tables. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                             clientConfig);
                return false;
            }
        } while (!nextToken.empty());

        std::cout << "The database contains " << all_tables.size()
                  << (all_tables.size() == 1 ?
                      " table." : "tables.") << std::endl;
        std::cout << "Here is a list of the tables in the database.";
        for (size_t index = 0; index < all_tables.size(); ++index) {
            std::cout << "    " << index + 1 << ":  " << all_tables[index].GetName()
                      << std::endl;
        }

        if (!all_tables.empty()) {
            int tableIndex = askQuestionForIntRange(
                    "Enter an index to display the database detail ",
                    1, static_cast<int>(all_tables.size()));
            std::cout << all_tables[tableIndex - 1].Jsonize().View().WriteReadable()
                      << std::endl;

            tableName = all_tables[tableIndex - 1].GetName();
        }
    }

    // 7. Create a job.
    {
        Aws::Glue::Model::CreateJobRequest request;
        request.SetName(JOB_NAME);
        request.SetRole(roleArn);
        request.SetGlueVersion(GLUE_VERSION);

        Aws::Glue::Model::JobCommand command;
        command.SetName(JOB_COMMAND_NAME);
        command.SetPythonVersion(JOB_PYTHON_VERSION);
        command.SetScriptLocation(
                Aws::String("s3://") + bucketName + "/" + PYTHON_SCRIPT);
        request.SetCommand(command);

        Aws::Glue::Model::CreateJobOutcome outcome = client.CreateJob(request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully created the job." << std::endl;
        }
        else {
            std::cerr << "Error creating the job. " << outcome.GetError().GetMessage()
                      << std::endl;
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                         clientConfig);
            return false;
        }
    }

    // 8. Start a job run.
    {
        Aws::Glue::Model::StartJobRunRequest request;
        request.SetJobName(JOB_NAME);

        Aws::Map<Aws::String, Aws::String> arguments;
        arguments["--input_database"] = CRAWLER_DATABASE_NAME;
        arguments["--input_table"] = tableName;
        arguments["--output_bucket_url"] = Aws::String("s3://") + bucketName + "/";
        request.SetArguments(arguments);

        Aws::Glue::Model::StartJobRunOutcome outcome = client.StartJobRun(request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully started the job." << std::endl;

            Aws::String jobRunId = outcome.GetResult().GetJobRunId();

            int iterator = 0;
            bool done = false;
            while (!done) {
                ++iterator;
                std::this_thread::sleep_for(std::chrono::seconds(1));
                Aws::Glue::Model::GetJobRunRequest jobRunRequest;
                jobRunRequest.SetJobName(JOB_NAME);
                jobRunRequest.SetRunId(jobRunId);

                Aws::Glue::Model::GetJobRunOutcome jobRunOutcome = client.GetJobRun(
                        jobRunRequest);

                if (jobRunOutcome.IsSuccess()) {
                    const Aws::Glue::Model::JobRun &jobRun = jobRunOutcome.GetResult().GetJobRun();
                    Aws::Glue::Model::JobRunState jobRunState = jobRun.GetJobRunState();

                    if ((jobRunState == Aws::Glue::Model::JobRunState::STOPPED) ||
                        (jobRunState == Aws::Glue::Model::JobRunState::FAILED) ||
                        (jobRunState == Aws::Glue::Model::JobRunState::TIMEOUT)) {
                        std::cerr << "Error running job. "
                                  << jobRun.GetErrorMessage()
                                  << std::endl;
                        deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, JOB_NAME,
                                     bucketName,
                                     clientConfig);
                        return false;
                    }
                    else if (jobRunState ==
                             Aws::Glue::Model::JobRunState::SUCCEEDED) {
                        std::cout << "Job run succeeded after  " << iterator <<
                                  " seconds elapsed." << std::endl;
                        done = true;
                    }
                    else if ((iterator % 10) == 0) { // Log status every 10 seconds.
                        std::cout << "Job run status " <<
                                  Aws::Glue::Model::JobRunStateMapper::GetNameForJobRunState(
                                          jobRunState) <<
                                  ". " << iterator <<
                                  " seconds elapsed." << std::endl;
                    }
                }
                else {
                    std::cerr << "Error retrieving job run state. "
                              << jobRunOutcome.GetError().GetMessage()
                              << std::endl;
                    deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, JOB_NAME,
                                 bucketName, clientConfig);
                    return false;
                }
            }
        }
        else {
            std::cerr << "Error starting a job. " << outcome.GetError().GetMessage()
                      << std::endl;
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, JOB_NAME, bucketName,
                         clientConfig);
            return false;
        }
    }

    // 9. List the output data stored in the S3 bucket.
    {
        Aws::S3::S3Client s3Client;
        Aws::S3::Model::ListObjectsV2Request request;
        request.SetBucket(bucketName);
        request.SetPrefix(OUTPUT_FILE_PREFIX);

        Aws::String continuationToken; // Used for pagination.
        std::vector<Aws::S3::Model::Object> allObjects;
        do {
            if (!continuationToken.empty()) {
                request.SetContinuationToken(continuationToken);
            }
            Aws::S3::Model::ListObjectsV2Outcome outcome = s3Client.ListObjectsV2(
                    request);

            if (outcome.IsSuccess()) {
                const std::vector<Aws::S3::Model::Object> &objects =
                        outcome.GetResult().GetContents();
                allObjects.insert(allObjects.end(), objects.begin(), objects.end());
                continuationToken = outcome.GetResult().GetNextContinuationToken();
            }
            else {
                std::cerr << "Error listing objects. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                break;
            }
        } while (!continuationToken.empty());

        std::cout << "Data from your job is in " << allObjects.size() <<
                  " files in the S3 bucket, " << bucketName << "." << std::endl;

        for (size_t i = 0; i < allObjects.size(); ++i) {
            std::cout << "    " << i + 1 << ". " << allObjects[i].GetKey()
                      << std::endl;
        }

        int objectIndex = askQuestionForIntRange(
                std::string(
                        "Enter the number of a block to download it and see the first ") +
                std::to_string(LINES_OF_RUN_FILE_TO_DISPLAY) +
                " lines of JSON output in the block: ", 1,
                static_cast<int>(allObjects.size()));

        Aws::String objectKey = allObjects[objectIndex - 1].GetKey();

        std::stringstream stringStream;
        if (getObjectFromBucket(bucketName, objectKey, stringStream,
                                clientConfig)) {
            for (int i = 0; i < LINES_OF_RUN_FILE_TO_DISPLAY && stringStream; ++i) {
                std::string line;
                std::getline(stringStream, line);
                std::cout << "    " << line << std::endl;
            }
        }
        else {
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, JOB_NAME, bucketName,
                         clientConfig);
            return false;
        }
    }

    // 10. List all the jobs.
    Aws::String jobName;
    {
        Aws::Glue::Model::ListJobsRequest listJobsRequest;

        Aws::String nextToken;
        std::vector<Aws::String> allJobNames;

        do {
            if (!nextToken.empty()) {
                listJobsRequest.SetNextToken(nextToken);
            }
            Aws::Glue::Model::ListJobsOutcome listRunsOutcome = client.ListJobs(
                    listJobsRequest);

            if (listRunsOutcome.IsSuccess()) {
                const std::vector<Aws::String> &jobNames = listRunsOutcome.GetResult().GetJobNames();
                allJobNames.insert(allJobNames.end(), jobNames.begin(), jobNames.end());
                nextToken = listRunsOutcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "Error listing jobs. "
                          << listRunsOutcome.GetError().GetMessage()
                          << std::endl;
            }
        } while (!nextToken.empty());
        std::cout << "Your account has " << allJobNames.size() << " jobs."
                  << std::endl;
        for (size_t i = 0; i < allJobNames.size(); ++i) {
            std::cout << "   " << i + 1 << ". " << allJobNames[i] << std::endl;
        }
        int jobIndex = askQuestionForIntRange(
                Aws::String("Enter a number between 1 and ") +
                std::to_string(allJobNames.size()) +
                " to see the list of runs for a job: ",
                1, static_cast<int>(allJobNames.size()));

        jobName = allJobNames[jobIndex - 1];
    }

    // 11. Get the job runs for a job.
    Aws::String jobRunID;
    if (!jobName.empty()) {
        Aws::Glue::Model::GetJobRunsRequest getJobRunsRequest;
        getJobRunsRequest.SetJobName(jobName);

        Aws::String nextToken; // Used for pagination.
        std::vector<Aws::Glue::Model::JobRun> allJobRuns;
        do {
            if (!nextToken.empty()) {
                getJobRunsRequest.SetNextToken(nextToken);
            }
            Aws::Glue::Model::GetJobRunsOutcome jobRunsOutcome = client.GetJobRuns(
                    getJobRunsRequest);

            if (jobRunsOutcome.IsSuccess()) {
                const std::vector<Aws::Glue::Model::JobRun> &jobRuns = jobRunsOutcome.GetResult().GetJobRuns();
                allJobRuns.insert(allJobRuns.end(), jobRuns.begin(), jobRuns.end());

                nextToken = jobRunsOutcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "Error getting job runs. "
                          << jobRunsOutcome.GetError().GetMessage()
                          << std::endl;
                break;
            }
        } while (!nextToken.empty());

        std::cout << "There are " << allJobRuns.size() << " runs in the job '"
                  <<
                  jobName << "'." << std::endl;

        for (size_t i = 0; i < allJobRuns.size(); ++i) {
            std::cout << "   " << i + 1 << ". " << allJobRuns[i].GetJobName()
                      << std::endl;
        }

        int runIndex = askQuestionForIntRange(
                Aws::String("Enter a number between 1 and ") +
                std::to_string(allJobRuns.size()) +
                " to see details for a run: ",
                1, static_cast<int>(allJobRuns.size()));
        jobRunID = allJobRuns[runIndex - 1].GetId();
    }

    // 12. Get a single job run.
    if (!jobRunID.empty()) {
        Aws::Glue::Model::GetJobRunRequest jobRunRequest;
        jobRunRequest.SetJobName(jobName);
        jobRunRequest.SetRunId(jobRunID);

        Aws::Glue::Model::GetJobRunOutcome jobRunOutcome = client.GetJobRun(
                jobRunRequest);

        if (jobRunOutcome.IsSuccess()) {
            std::cout << "Displaying the job run JSON description." << std::endl;
            std::cout
                    << jobRunOutcome.GetResult().GetJobRun().Jsonize().View().WriteReadable()
                    << std::endl;
        }
        else {
            std::cerr << "Error get a job run. "
                      << jobRunOutcome.GetError().GetMessage()
                      << std::endl;
        }
    }

    return deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, JOB_NAME, bucketName,
                        clientConfig);
}

//! Cleanup routine to delete created assets.
/*!
 \\sa deleteAssets()
 \param crawler: Name of an AWS Glue crawler.
 \param database: The name of an AWS Glue database.
 \param job: The name of an AWS Glue job.
 \param bucketName: The name of an S3 bucket.
 \param clientConfig: AWS client configuration.
 \return bool: Successful completion.
 */
bool AwsDoc::Glue::deleteAssets(const Aws::String &crawler, const Aws::String &database,
                                const Aws::String &job, const Aws::String &bucketName,
                                const Aws::Client::ClientConfiguration &clientConfig) {
    const Aws::Glue::GlueClient client(clientConfig);
    bool result = true;

    // 13. Delete a job.
    if (!job.empty()) {
        Aws::Glue::Model::DeleteJobRequest request;
        request.SetJobName(job);

        Aws::Glue::Model::DeleteJobOutcome outcome = client.DeleteJob(request);


        if (outcome.IsSuccess()) {
            std::cout << "Successfully deleted the job." << std::endl;
        }
        else {
            std::cerr << "Error deleting the job. " << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
    }

    // 14. Delete a database.
    if (!database.empty()) {
        Aws::Glue::Model::DeleteDatabaseRequest request;
        request.SetName(database);

        Aws::Glue::Model::DeleteDatabaseOutcome outcome = client.DeleteDatabase(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully deleted the database." << std::endl;
        }
        else {
            std::cerr << "Error deleting database. " << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
    }

    // 15. Delete a crawler.
    if (!crawler.empty()) {
        Aws::Glue::Model::DeleteCrawlerRequest request;
        request.SetName(crawler);

        Aws::Glue::Model::DeleteCrawlerOutcome outcome = client.DeleteCrawler(request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully deleted the crawler." << std::endl;
        }
        else {
            std::cerr << "Error deleting the crawler. "
                      << outcome.GetError().GetMessage() << std::endl;
            result = false;
        }
    }

    // 16. Delete the job script and run data from the S3 bucket.
    result &= AwsDoc::Glue::deleteAllObjectsInS3Bucket(bucketName,
                                                       clientConfig);
    return result;
}

//! Routine which uploads a file to an S3 bucket.
/*!
 \\sa uploadFile()
 \param bucketName: An S3 bucket created in the setup.
 \param filePath: The path of the file to upload.
 \param fileName The name for the uploaded file.
 \param clientConfig: AWS client configuration.
 \return bool: Successful completion.
 */
bool
AwsDoc::Glue::uploadFile(const Aws::String &bucketName,
                         const Aws::String &filePath,
                         const Aws::String &fileName,
                         const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3_client(clientConfig);

    Aws::S3::Model::PutObjectRequest request;
    request.SetBucket(bucketName);
    request.SetKey(fileName);

    std::shared_ptr<Aws::IOStream> inputData =
            Aws::MakeShared<Aws::FStream>("SampleAllocationTag",
                                          filePath.c_str(),
                                          std::ios_base::in | std::ios_base::binary);

    if (!*inputData) {
        std::cerr << "Error unable to read file " << filePath << std::endl;
        return false;
    }

    request.SetBody(inputData);

    Aws::S3::Model::PutObjectOutcome outcome =
            s3_client.PutObject(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: PutObject: " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Added object '" << filePath << "' to bucket '"
                  << bucketName << "'." << std::endl;
    }

    return outcome.IsSuccess();
}

//! Routine which deletes all objects in an S3 bucket.
/*!
 \\sa deleteAllObjectsInS3Bucket()
 \param bucketName: The S3 bucket name.
 \param clientConfig: AWS client configuration.
 \return bool: Successful completion.
 */
bool AwsDoc::Glue::deleteAllObjectsInS3Bucket(const Aws::String &bucketName,
                                              const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    Aws::S3::Model::ListObjectsV2Request listObjectsRequest;
    listObjectsRequest.SetBucket(bucketName);

    Aws::String continuationToken; // Used for pagination.
    bool result = true;
    do {
        if (!continuationToken.empty()) {
            listObjectsRequest.SetContinuationToken(continuationToken);
        }

        Aws::S3::Model::ListObjectsV2Outcome listObjectsOutcome = client.ListObjectsV2(
                listObjectsRequest);

        if (listObjectsOutcome.IsSuccess()) {
            const std::vector<Aws::S3::Model::Object> &objects = listObjectsOutcome.GetResult().GetContents();
            if (!objects.empty()) {
                Aws::S3::Model::DeleteObjectsRequest deleteObjectsRequest;
                deleteObjectsRequest.SetBucket(bucketName);

                std::vector<Aws::S3::Model::ObjectIdentifier> objectIdentifiers;
                for (const Aws::S3::Model::Object &object: objects) {
                    objectIdentifiers.push_back(
                            Aws::S3::Model::ObjectIdentifier().WithKey(
                                    object.GetKey()));
                }
                Aws::S3::Model::Delete objectsDelete;
                objectsDelete.SetObjects(objectIdentifiers);
                objectsDelete.SetQuiet(true);
                deleteObjectsRequest.SetDelete(objectsDelete);

                Aws::S3::Model::DeleteObjectsOutcome deleteObjectsOutcome =
                        client.DeleteObjects(deleteObjectsRequest);

                if (!deleteObjectsOutcome.IsSuccess()) {
                    std::cerr << "Error deleting objects. " <<
                              deleteObjectsOutcome.GetError().GetMessage() << std::endl;
                    result = false;
                    break;
                }
                else {
                    std::cout << "Successfully deleted the objects." << std::endl;

                }
            }
            else {
                std::cout << "No objects to delete in '" << bucketName << "'."
                          << std::endl;
            }

            continuationToken = listObjectsOutcome.GetResult().GetNextContinuationToken();
        }
        else {
            std::cerr << "Error listing objects. "
                      << listObjectsOutcome.GetError().GetMessage() << std::endl;
            result = false;
            break;
        }
    } while (!continuationToken.empty());

    return result;
}

//! Routine which retrieves an object from an S3 bucket.
/*!
 \\sa getObjectFromBucket()
 \param bucketName: The S3 bucket name.
 \param objectKey: The object's name.
 \param objectStream: A stream to receive the retrieved data.
 \param clientConfig: AWS client configuration.
 \return bool: Successful completion.
 */
bool AwsDoc::Glue::getObjectFromBucket(const Aws::String &bucketName,
                                       const Aws::String &objectKey,
                                       std::ostream &objectStream,
                                       const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    Aws::S3::Model::GetObjectRequest request;
    request.SetBucket(bucketName);
    request.SetKey(objectKey);

    Aws::S3::Model::GetObjectOutcome outcome = client.GetObject(request);


    if (outcome.IsSuccess()) {
        std::cout << "Successfully retrieved '" << objectKey << "'." << std::endl;
        auto &body = outcome.GetResult().GetBody();
        objectStream << body.rdbuf();
    }
    else {
        std::cerr << "Error retrieving object. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [CreateCrawler](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/CreateCrawler)
  + [CreateJob](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/CreateJob)
  + [DeleteCrawler](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/DeleteCrawler)
  + [DeleteDatabase](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/DeleteDatabase)
  + [DeleteJob](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/DeleteJob)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/DeleteTable)
  + [GetCrawler](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetCrawler)
  + [GetDatabase](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetDatabase)
  + [GetDatabases](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetDatabases)
  + [GetJob](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetJob)
  + [GetJobRun](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetJobRun)
  + [GetJobRuns](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetJobRuns)
  + [GetTables](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetTables)
  + [ListJobs](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/ListJobs)
  + [StartCrawler](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/StartCrawler)
  + [StartJobRun](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/StartJobRun)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::S3Target s3Target;
        s3Target.SetPath("s3://crawler-public-us-east-1/flight/2016/csv");
        Aws::Glue::Model::CrawlerTargets crawlerTargets;
        crawlerTargets.AddS3Targets(s3Target);

        Aws::Glue::Model::CreateCrawlerRequest request;
        request.SetTargets(crawlerTargets);
        request.SetName(CRAWLER_NAME);
        request.SetDatabaseName(CRAWLER_DATABASE_NAME);
        request.SetTablePrefix(CRAWLER_DATABASE_PREFIX);
        request.SetRole(roleArn);

        Aws::Glue::Model::CreateCrawlerOutcome outcome = client.CreateCrawler(request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully created the crawler." << std::endl;
        }
        else {
            std::cerr << "Error creating a crawler. " << outcome.GetError().GetMessage()
                      << std::endl;
            deleteAssets("", CRAWLER_DATABASE_NAME, "", bucketName, clientConfig);
            return false;
        }
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/CreateCrawler)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateJob`
<a name="glue_CreateJob_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::CreateJobRequest request;
        request.SetName(JOB_NAME);
        request.SetRole(roleArn);
        request.SetGlueVersion(GLUE_VERSION);

        Aws::Glue::Model::JobCommand command;
        command.SetName(JOB_COMMAND_NAME);
        command.SetPythonVersion(JOB_PYTHON_VERSION);
        command.SetScriptLocation(
                Aws::String("s3://") + bucketName + "/" + PYTHON_SCRIPT);
        request.SetCommand(command);

        Aws::Glue::Model::CreateJobOutcome outcome = client.CreateJob(request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully created the job." << std::endl;
        }
        else {
            std::cerr << "Error creating the job. " << outcome.GetError().GetMessage()
                      << std::endl;
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                         clientConfig);
            return false;
        }
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/CreateJob)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::DeleteCrawlerRequest request;
        request.SetName(crawler);

        Aws::Glue::Model::DeleteCrawlerOutcome outcome = client.DeleteCrawler(request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully deleted the crawler." << std::endl;
        }
        else {
            std::cerr << "Error deleting the crawler. "
                      << outcome.GetError().GetMessage() << std::endl;
            result = false;
        }
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/DeleteCrawler)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::DeleteDatabaseRequest request;
        request.SetName(database);

        Aws::Glue::Model::DeleteDatabaseOutcome outcome = client.DeleteDatabase(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully deleted the database." << std::endl;
        }
        else {
            std::cerr << "Error deleting database. " << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/DeleteDatabase)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteJob`
<a name="glue_DeleteJob_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::DeleteJobRequest request;
        request.SetJobName(job);

        Aws::Glue::Model::DeleteJobOutcome outcome = client.DeleteJob(request);


        if (outcome.IsSuccess()) {
            std::cout << "Successfully deleted the job." << std::endl;
        }
        else {
            std::cerr << "Error deleting the job. " << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
```
+  Untuk detail API, lihat [DeleteJob](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/DeleteJob)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetCrawler`
<a name="glue_GetCrawler_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::GetCrawlerRequest request;
        request.SetName(CRAWLER_NAME);

        Aws::Glue::Model::GetCrawlerOutcome outcome = client.GetCrawler(request);

        if (outcome.IsSuccess()) {
            Aws::Glue::Model::CrawlerState crawlerState = outcome.GetResult().GetCrawler().GetState();
            std::cout << "Retrieved crawler with state " <<
                      Aws::Glue::Model::CrawlerStateMapper::GetNameForCrawlerState(
                              crawlerState)
                      << "." << std::endl;
        }
        else {
            std::cerr << "Error retrieving a crawler.  "
                      << outcome.GetError().GetMessage() << std::endl;
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                         clientConfig);
            return false;
        }
```
+  Untuk detail API, lihat [GetCrawler](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetCrawler)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetDatabase`
<a name="glue_GetDatabase_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::GetDatabaseRequest request;
        request.SetName(CRAWLER_DATABASE_NAME);

        Aws::Glue::Model::GetDatabaseOutcome outcome = client.GetDatabase(request);

        if (outcome.IsSuccess()) {
            const Aws::Glue::Model::Database &database = outcome.GetResult().GetDatabase();

            std::cout << "Successfully retrieve the database\n" <<
                      database.Jsonize().View().WriteReadable() << "'." << std::endl;
        }
        else {
            std::cerr << "Error getting the database.  "
                      << outcome.GetError().GetMessage() << std::endl;
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                         clientConfig);
            return false;
        }
```
+  Untuk detail API, lihat [GetDatabase](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetDatabase)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetJobRun`
<a name="glue_GetJobRun_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::GetJobRunRequest jobRunRequest;
        jobRunRequest.SetJobName(jobName);
        jobRunRequest.SetRunId(jobRunID);

        Aws::Glue::Model::GetJobRunOutcome jobRunOutcome = client.GetJobRun(
                jobRunRequest);

        if (jobRunOutcome.IsSuccess()) {
            std::cout << "Displaying the job run JSON description." << std::endl;
            std::cout
                    << jobRunOutcome.GetResult().GetJobRun().Jsonize().View().WriteReadable()
                    << std::endl;
        }
        else {
            std::cerr << "Error get a job run. "
                      << jobRunOutcome.GetError().GetMessage()
                      << std::endl;
        }
```
+  Untuk detail API, lihat [GetJobRun](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetJobRun)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetJobRuns`
<a name="glue_GetJobRuns_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::GetJobRunsRequest getJobRunsRequest;
        getJobRunsRequest.SetJobName(jobName);

        Aws::String nextToken; // Used for pagination.
        std::vector<Aws::Glue::Model::JobRun> allJobRuns;
        do {
            if (!nextToken.empty()) {
                getJobRunsRequest.SetNextToken(nextToken);
            }
            Aws::Glue::Model::GetJobRunsOutcome jobRunsOutcome = client.GetJobRuns(
                    getJobRunsRequest);

            if (jobRunsOutcome.IsSuccess()) {
                const std::vector<Aws::Glue::Model::JobRun> &jobRuns = jobRunsOutcome.GetResult().GetJobRuns();
                allJobRuns.insert(allJobRuns.end(), jobRuns.begin(), jobRuns.end());

                nextToken = jobRunsOutcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "Error getting job runs. "
                          << jobRunsOutcome.GetError().GetMessage()
                          << std::endl;
                break;
            }
        } while (!nextToken.empty());
```
+  Untuk detail API, lihat [GetJobRuns](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetJobRuns)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetTables`
<a name="glue_GetTables_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::GetTablesRequest request;
        request.SetDatabaseName(CRAWLER_DATABASE_NAME);
        std::vector<Aws::Glue::Model::Table> all_tables;
        Aws::String nextToken; // Used for pagination.
        do {
            Aws::Glue::Model::GetTablesOutcome outcome = client.GetTables(request);

            if (outcome.IsSuccess()) {
                const std::vector<Aws::Glue::Model::Table> &tables = outcome.GetResult().GetTableList();
                all_tables.insert(all_tables.end(), tables.begin(), tables.end());
                nextToken = outcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "Error getting the tables. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                             clientConfig);
                return false;
            }
        } while (!nextToken.empty());

        std::cout << "The database contains " << all_tables.size()
                  << (all_tables.size() == 1 ?
                      " table." : "tables.") << std::endl;
        std::cout << "Here is a list of the tables in the database.";
        for (size_t index = 0; index < all_tables.size(); ++index) {
            std::cout << "    " << index + 1 << ":  " << all_tables[index].GetName()
                      << std::endl;
        }

        if (!all_tables.empty()) {
            int tableIndex = askQuestionForIntRange(
                    "Enter an index to display the database detail ",
                    1, static_cast<int>(all_tables.size()));
            std::cout << all_tables[tableIndex - 1].Jsonize().View().WriteReadable()
                      << std::endl;

            tableName = all_tables[tableIndex - 1].GetName();
        }
```
+  Untuk detail API, lihat [GetTables](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/GetTables)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListJobs`
<a name="glue_ListJobs_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::ListJobsRequest listJobsRequest;

        Aws::String nextToken;
        std::vector<Aws::String> allJobNames;

        do {
            if (!nextToken.empty()) {
                listJobsRequest.SetNextToken(nextToken);
            }
            Aws::Glue::Model::ListJobsOutcome listRunsOutcome = client.ListJobs(
                    listJobsRequest);

            if (listRunsOutcome.IsSuccess()) {
                const std::vector<Aws::String> &jobNames = listRunsOutcome.GetResult().GetJobNames();
                allJobNames.insert(allJobNames.end(), jobNames.begin(), jobNames.end());
                nextToken = listRunsOutcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "Error listing jobs. "
                          << listRunsOutcome.GetError().GetMessage()
                          << std::endl;
            }
        } while (!nextToken.empty());
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/ListJobs)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `StartCrawler`
<a name="glue_StartCrawler_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::StartCrawlerRequest request;
        request.SetName(CRAWLER_NAME);

        Aws::Glue::Model::StartCrawlerOutcome outcome = client.StartCrawler(request);


        if (outcome.IsSuccess() || (Aws::Glue::GlueErrors::CRAWLER_RUNNING ==
                                    outcome.GetError().GetErrorType())) {
            if (!outcome.IsSuccess()) {
                std::cout << "Crawler was already started." << std::endl;
            }
            else {
                std::cout << "Successfully started crawler." << std::endl;
            }

            std::cout << "This may take a while to run." << std::endl;

            Aws::Glue::Model::CrawlerState crawlerState = Aws::Glue::Model::CrawlerState::NOT_SET;
            int iterations = 0;
            while (Aws::Glue::Model::CrawlerState::READY != crawlerState) {
                std::this_thread::sleep_for(std::chrono::seconds(1));
                ++iterations;
                if ((iterations % 10) == 0) { // Log status every 10 seconds.
                    std::cout << "Crawler status " <<
                              Aws::Glue::Model::CrawlerStateMapper::GetNameForCrawlerState(
                                      crawlerState)
                              << ". After " << iterations
                              << " seconds elapsed."
                              << std::endl;
                }
                Aws::Glue::Model::GetCrawlerRequest getCrawlerRequest;
                getCrawlerRequest.SetName(CRAWLER_NAME);

                Aws::Glue::Model::GetCrawlerOutcome getCrawlerOutcome = client.GetCrawler(
                        getCrawlerRequest);

                if (getCrawlerOutcome.IsSuccess()) {
                    crawlerState = getCrawlerOutcome.GetResult().GetCrawler().GetState();
                }
                else {
                    std::cerr << "Error getting crawler.  "
                              << getCrawlerOutcome.GetError().GetMessage() << std::endl;
                    break;
                }
            }

            if (Aws::Glue::Model::CrawlerState::READY == crawlerState) {
                std::cout << "Crawler finished running after " << iterations
                          << " seconds."
                          << std::endl;
            }
        }
        else {
            std::cerr << "Error starting a crawler.  "
                      << outcome.GetError().GetMessage()
                      << std::endl;

            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, "", bucketName,
                         clientConfig);
            return false;
        }
```
+  Untuk detail API, lihat [StartCrawler](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/StartCrawler)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `StartJobRun`
<a name="glue_StartJobRun_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/glue#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Glue::GlueClient client(clientConfig);

        Aws::Glue::Model::StartJobRunRequest request;
        request.SetJobName(JOB_NAME);

        Aws::Map<Aws::String, Aws::String> arguments;
        arguments["--input_database"] = CRAWLER_DATABASE_NAME;
        arguments["--input_table"] = tableName;
        arguments["--output_bucket_url"] = Aws::String("s3://") + bucketName + "/";
        request.SetArguments(arguments);

        Aws::Glue::Model::StartJobRunOutcome outcome = client.StartJobRun(request);

        if (outcome.IsSuccess()) {
            std::cout << "Successfully started the job." << std::endl;

            Aws::String jobRunId = outcome.GetResult().GetJobRunId();

            int iterator = 0;
            bool done = false;
            while (!done) {
                ++iterator;
                std::this_thread::sleep_for(std::chrono::seconds(1));
                Aws::Glue::Model::GetJobRunRequest jobRunRequest;
                jobRunRequest.SetJobName(JOB_NAME);
                jobRunRequest.SetRunId(jobRunId);

                Aws::Glue::Model::GetJobRunOutcome jobRunOutcome = client.GetJobRun(
                        jobRunRequest);

                if (jobRunOutcome.IsSuccess()) {
                    const Aws::Glue::Model::JobRun &jobRun = jobRunOutcome.GetResult().GetJobRun();
                    Aws::Glue::Model::JobRunState jobRunState = jobRun.GetJobRunState();

                    if ((jobRunState == Aws::Glue::Model::JobRunState::STOPPED) ||
                        (jobRunState == Aws::Glue::Model::JobRunState::FAILED) ||
                        (jobRunState == Aws::Glue::Model::JobRunState::TIMEOUT)) {
                        std::cerr << "Error running job. "
                                  << jobRun.GetErrorMessage()
                                  << std::endl;
                        deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, JOB_NAME,
                                     bucketName,
                                     clientConfig);
                        return false;
                    }
                    else if (jobRunState ==
                             Aws::Glue::Model::JobRunState::SUCCEEDED) {
                        std::cout << "Job run succeeded after  " << iterator <<
                                  " seconds elapsed." << std::endl;
                        done = true;
                    }
                    else if ((iterator % 10) == 0) { // Log status every 10 seconds.
                        std::cout << "Job run status " <<
                                  Aws::Glue::Model::JobRunStateMapper::GetNameForJobRunState(
                                          jobRunState) <<
                                  ". " << iterator <<
                                  " seconds elapsed." << std::endl;
                    }
                }
                else {
                    std::cerr << "Error retrieving job run state. "
                              << jobRunOutcome.GetError().GetMessage()
                              << std::endl;
                    deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, JOB_NAME,
                                 bucketName, clientConfig);
                    return false;
                }
            }
        }
        else {
            std::cerr << "Error starting a job. " << outcome.GetError().GetMessage()
                      << std::endl;
            deleteAssets(CRAWLER_NAME, CRAWLER_DATABASE_NAME, JOB_NAME, bucketName,
                         clientConfig);
            return false;
        }
```
+  Untuk detail API, lihat [StartJobRun](https://docs.aws.amazon.com/goto/SdkForCpp/glue-2017-03-31/StartJobRun)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# HealthImaging contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_medical-imaging_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with HealthImaging.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo HealthImaging
<a name="medical-imaging_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan HealthImaging.

**SDK untuk C\$1\$1**  
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS medical-imaging)

# Set this project's name.
project("hello_health-imaging")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
    # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

    # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this
    # and set the proper subdirectory to the executable location.

    AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_health_imaging.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1health\$1imaging.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/medical-imaging/MedicalImagingClient.h>
#include <aws/medical-imaging/model/ListDatastoresRequest.h>

#include <iostream>

/*
 *  A "Hello HealthImaging" starter application which initializes an AWS HealthImaging (HealthImaging) client
 *  and lists the HealthImaging data stores in the current account.
 *
 *  main function
 *
 *  Usage: 'hello_health-imaging'
 *
 */
#include <aws/core/auth/AWSCredentialsProviderChain.h>
#include <aws/core/platform/Environment.h>

int main(int argc, char **argv) {
    (void) argc;
    (void) argv;
    Aws::SDKOptions options;
    //   Optional: change the log level for debugging.
    //   options.loggingOptions.logLevel = Aws::Utils::Logging::LogLevel::Debug;

    Aws::InitAPI(options); // Should only be called once.
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::MedicalImaging::MedicalImagingClient medicalImagingClient(clientConfig);
        Aws::MedicalImaging::Model::ListDatastoresRequest listDatastoresRequest;

        Aws::Vector<Aws::MedicalImaging::Model::DatastoreSummary> allDataStoreSummaries;
        Aws::String nextToken; // Used for paginated results.
        do {
            if (!nextToken.empty()) {
                listDatastoresRequest.SetNextToken(nextToken);
            }
            Aws::MedicalImaging::Model::ListDatastoresOutcome listDatastoresOutcome =
                    medicalImagingClient.ListDatastores(listDatastoresRequest);
            if (listDatastoresOutcome.IsSuccess()) {
                const Aws::Vector<Aws::MedicalImaging::Model::DatastoreSummary> &dataStoreSummaries =
                        listDatastoresOutcome.GetResult().GetDatastoreSummaries();
                allDataStoreSummaries.insert(allDataStoreSummaries.cend(),
                                             dataStoreSummaries.cbegin(),
                                             dataStoreSummaries.cend());
                nextToken = listDatastoresOutcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "ListDatastores error: "
                          << listDatastoresOutcome.GetError().GetMessage() << std::endl;
                break;
            }
        } while (!nextToken.empty());

        std::cout << allDataStoreSummaries.size() << " HealthImaging data "
                  << ((allDataStoreSummaries.size() == 1) ?
                      "store was retrieved." : "stores were retrieved.") << std::endl;

        for (auto const &dataStoreSummary: allDataStoreSummaries) {
            std::cout << "  Datastore: " << dataStoreSummary.GetDatastoreName()
                      << std::endl;
            std::cout << "  Datastore ID: " << dataStoreSummary.GetDatastoreId()
                      << std::endl;
        }
    }

    Aws::ShutdownAPI(options); // Should only be called once.
    return 0;
}
```
+  Untuk detail API, lihat [ListDatastores](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/ListDatastores)di *Referensi AWS SDK untuk C\$1\$1 API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/medical-imaging/hello_health_imaging#code-examples). 

## Tindakan
<a name="actions"></a>

### `DeleteImageSet`
<a name="medical-imaging_DeleteImageSet_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteImageSet`.

**SDK untuk C\$1\$1**  

```
//! Routine which deletes an AWS HealthImaging image set.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param imageSetID: The image set ID.
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
  */
bool AwsDoc::Medical_Imaging::deleteImageSet(
        const Aws::String &dataStoreID, const Aws::String &imageSetID,
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::MedicalImagingClient client(clientConfig);
    Aws::MedicalImaging::Model::DeleteImageSetRequest request;
    request.SetDatastoreId(dataStoreID);
    request.SetImageSetId(imageSetID);
    Aws::MedicalImaging::Model::DeleteImageSetOutcome outcome = client.DeleteImageSet(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted image set " << imageSetID
                  << " from data store " << dataStoreID << std::endl;
    }
    else {
        std::cerr << "Error deleting image set " << imageSetID << " from data store "
                  << dataStoreID << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteImageSet](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/DeleteImageSet)di *Referensi AWS SDK untuk C\$1\$1 API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/medical-imaging/#code-examples). 

### `GetDICOMImportJob`
<a name="medical-imaging_GetDICOMImportJob_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDICOMImportJob`.

**SDK untuk C\$1\$1**  

```
//! Routine which gets a HealthImaging DICOM import job's properties.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param importJobID: The DICOM import job ID
  \param clientConfig: Aws client configuration.
  \return GetDICOMImportJobOutcome: The import job outcome.
*/
Aws::MedicalImaging::Model::GetDICOMImportJobOutcome
AwsDoc::Medical_Imaging::getDICOMImportJob(const Aws::String &dataStoreID,
                                           const Aws::String &importJobID,
                                           const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::MedicalImagingClient client(clientConfig);
    Aws::MedicalImaging::Model::GetDICOMImportJobRequest request;
    request.SetDatastoreId(dataStoreID);
    request.SetJobId(importJobID);
    Aws::MedicalImaging::Model::GetDICOMImportJobOutcome outcome = client.GetDICOMImportJob(
            request);
    if (!outcome.IsSuccess()) {
        std::cerr << "GetDICOMImportJob error: "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome;
}
```
+  Untuk detail API, lihat [Mendapatkan DICOMImport Job](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/GetDICOMImportJob) di *Referensi AWS SDK untuk C\$1\$1 API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/medical-imaging/#code-examples). 

### `GetImageFrame`
<a name="medical-imaging_GetImageFrame_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageFrame`.

**SDK untuk C\$1\$1**  

```
//! Routine which downloads an AWS HealthImaging image frame.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param imageSetID: The image set ID.
  \param frameID: The image frame ID.
  \param jphFile: File to store the downloaded frame.
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
*/
bool AwsDoc::Medical_Imaging::getImageFrame(const Aws::String &dataStoreID,
                                            const Aws::String &imageSetID,
                                            const Aws::String &frameID,
                                            const Aws::String &jphFile,
                                            const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::MedicalImagingClient client(clientConfig);

    Aws::MedicalImaging::Model::GetImageFrameRequest request;
    request.SetDatastoreId(dataStoreID);
    request.SetImageSetId(imageSetID);

    Aws::MedicalImaging::Model::ImageFrameInformation imageFrameInformation;
    imageFrameInformation.SetImageFrameId(frameID);
    request.SetImageFrameInformation(imageFrameInformation);

    Aws::MedicalImaging::Model::GetImageFrameOutcome outcome = client.GetImageFrame(
            request);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully retrieved image frame." << std::endl;
        auto &buffer = outcome.GetResult().GetImageFrameBlob();

        std::ofstream outfile(jphFile, std::ios::binary);
        outfile << buffer.rdbuf();
    }
    else {
        std::cout << "Error retrieving image frame." << outcome.GetError().GetMessage()
                  << std::endl;

    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetImageFrame](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/GetImageFrame)di *Referensi AWS SDK untuk C\$1\$1 API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/medical-imaging/#code-examples). 

### `GetImageSetMetadata`
<a name="medical-imaging_GetImageSetMetadata_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSetMetadata`.

**SDK untuk C\$1\$1**  
Fungsi utilitas untuk mendapatkan metadata set gambar.  

```
//! Routine which gets a HealthImaging image set's metadata.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param imageSetID: The HealthImaging image set ID.
  \param versionID: The HealthImaging image set version ID, ignored if empty.
  \param outputFilePath: The path where the metadata will be stored as gzipped json.
  \param clientConfig: Aws client configuration.
  \\return bool: Function succeeded.
*/
bool AwsDoc::Medical_Imaging::getImageSetMetadata(const Aws::String &dataStoreID,
                                                  const Aws::String &imageSetID,
                                                  const Aws::String &versionID,
                                                  const Aws::String &outputFilePath,
                                                  const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::Model::GetImageSetMetadataRequest request;
    request.SetDatastoreId(dataStoreID);
    request.SetImageSetId(imageSetID);
    if (!versionID.empty()) {
        request.SetVersionId(versionID);
    }
    Aws::MedicalImaging::MedicalImagingClient client(clientConfig);
    Aws::MedicalImaging::Model::GetImageSetMetadataOutcome outcome = client.GetImageSetMetadata(
            request);
    if (outcome.IsSuccess()) {
        std::ofstream file(outputFilePath, std::ios::binary);
        auto &metadata = outcome.GetResult().GetImageSetMetadataBlob();
        file << metadata.rdbuf();
    }
    else {
        std::cerr << "Failed to get image set metadata: "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
Dapatkan metadata set gambar tanpa versi.  

```
        if (AwsDoc::Medical_Imaging::getImageSetMetadata(dataStoreID, imageSetID, "", outputFilePath, clientConfig))
        {
            std::cout << "Successfully retrieved image set metadata." << std::endl;
            std::cout << "Metadata stored in: " << outputFilePath << std::endl;
        }
```
Dapatkan metadata set gambar dengan versi.  

```
        if (AwsDoc::Medical_Imaging::getImageSetMetadata(dataStoreID, imageSetID, versionID, outputFilePath, clientConfig))
        {
            std::cout << "Successfully retrieved image set metadata." << std::endl;
            std::cout << "Metadata stored in: " << outputFilePath << std::endl;
        }
```
+  Untuk detail API, lihat [GetImageSetMetadata](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/GetImageSetMetadata)di *Referensi AWS SDK untuk C\$1\$1 API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/medical-imaging/#code-examples). 

### `SearchImageSets`
<a name="medical-imaging_SearchImageSets_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchImageSets`.

**SDK untuk C\$1\$1**  
Fungsi utilitas untuk mencari set gambar.  

```
//! Routine which searches for image sets based on defined input attributes.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param searchCriteria: A search criteria instance.
  \param imageSetResults: Vector to receive the image set IDs.
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
  */
bool AwsDoc::Medical_Imaging::searchImageSets(const Aws::String &dataStoreID,
                                              const Aws::MedicalImaging::Model::SearchCriteria &searchCriteria,
                                              Aws::Vector<Aws::String> &imageSetResults,
                                              const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::MedicalImagingClient client(clientConfig);
    Aws::MedicalImaging::Model::SearchImageSetsRequest request;
    request.SetDatastoreId(dataStoreID);
    request.SetSearchCriteria(searchCriteria);

    Aws::String nextToken; // Used for paginated results.
    bool result = true;
    do {
        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        Aws::MedicalImaging::Model::SearchImageSetsOutcome outcome = client.SearchImageSets(
                request);
        if (outcome.IsSuccess()) {
            for (auto &imageSetMetadataSummary: outcome.GetResult().GetImageSetsMetadataSummaries()) {
                imageSetResults.push_back(imageSetMetadataSummary.GetImageSetId());
            }

            nextToken = outcome.GetResult().GetNextToken();
        }
        else {
            std::cout << "Error: " << outcome.GetError().GetMessage() << std::endl;
            result = false;
        }
    } while (!nextToken.empty());

    return result;
}
```
Kasus penggunaan \$11: operator EQUAL.  

```
        Aws::Vector<Aws::String> imageIDsForPatientID;
        Aws::MedicalImaging::Model::SearchCriteria searchCriteriaEqualsPatientID;
        Aws::Vector<Aws::MedicalImaging::Model::SearchFilter> patientIDSearchFilters = {
                Aws::MedicalImaging::Model::SearchFilter().WithOperator(Aws::MedicalImaging::Model::Operator::EQUAL)
                .WithValues({Aws::MedicalImaging::Model::SearchByAttributeValue().WithDICOMPatientId(patientID)})
        };

        searchCriteriaEqualsPatientID.SetFilters(patientIDSearchFilters);
        bool result = AwsDoc::Medical_Imaging::searchImageSets(dataStoreID,
                                                               searchCriteriaEqualsPatientID,
                                                               imageIDsForPatientID,
                                                               clientConfig);
        if (result) {
            std::cout << imageIDsForPatientID.size() << " image sets found for the patient with ID '"
            <<  patientID << "'." << std::endl;
            for (auto &imageSetResult : imageIDsForPatientID) {
                std::cout << "  Image set with ID '" << imageSetResult << std::endl;
            }
        }
```
Kasus penggunaan \$12: ANTARA operator menggunakan DICOMStudy Tanggal dan DICOMStudy Waktu.   

```
         Aws::MedicalImaging::Model::SearchByAttributeValue useCase2StartDate;
        useCase2StartDate.SetDICOMStudyDateAndTime(Aws::MedicalImaging::Model::DICOMStudyDateAndTime()
        .WithDICOMStudyDate("19990101")
        .WithDICOMStudyTime("000000.000"));

        Aws::MedicalImaging::Model::SearchByAttributeValue useCase2EndDate;
        useCase2EndDate.SetDICOMStudyDateAndTime(Aws::MedicalImaging::Model::DICOMStudyDateAndTime()
        .WithDICOMStudyDate(Aws::Utils::DateTime(std::chrono::system_clock::now()).ToLocalTimeString("%Y%m%d"))
        .WithDICOMStudyTime("000000.000"));

        Aws::MedicalImaging::Model::SearchFilter useCase2SearchFilter;
        useCase2SearchFilter.SetValues({useCase2StartDate, useCase2EndDate});
        useCase2SearchFilter.SetOperator(Aws::MedicalImaging::Model::Operator::BETWEEN);

        Aws::MedicalImaging::Model::SearchCriteria useCase2SearchCriteria;
        useCase2SearchCriteria.SetFilters({useCase2SearchFilter});

        Aws::Vector<Aws::String> usesCase2Results;
        result = AwsDoc::Medical_Imaging::searchImageSets(dataStoreID,
                                                          useCase2SearchCriteria,
                                                          usesCase2Results,
                                                          clientConfig);
        if (result) {
            std::cout << usesCase2Results.size() << " image sets found for between 1999/01/01 and present."
                      <<  std::endl;
            for (auto &imageSetResult : usesCase2Results) {
                std::cout << "  Image set with ID '" << imageSetResult << std::endl;
            }
        }
```
Kasus penggunaan \$13: ANTARA operator menggunakan createDat. Studi waktu sebelumnya bertahan.   

```
        Aws::MedicalImaging::Model::SearchByAttributeValue useCase3StartDate;
        useCase3StartDate.SetCreatedAt(Aws::Utils::DateTime("20231130T000000000Z",Aws::Utils::DateFormat::ISO_8601_BASIC));

        Aws::MedicalImaging::Model::SearchByAttributeValue useCase3EndDate;
        useCase3EndDate.SetCreatedAt(Aws::Utils::DateTime(std::chrono::system_clock::now()));

        Aws::MedicalImaging::Model::SearchFilter useCase3SearchFilter;
        useCase3SearchFilter.SetValues({useCase3StartDate, useCase3EndDate});
        useCase3SearchFilter.SetOperator(Aws::MedicalImaging::Model::Operator::BETWEEN);

        Aws::MedicalImaging::Model::SearchCriteria useCase3SearchCriteria;
        useCase3SearchCriteria.SetFilters({useCase3SearchFilter});

        Aws::Vector<Aws::String> usesCase3Results;
        result = AwsDoc::Medical_Imaging::searchImageSets(dataStoreID,
                                                          useCase3SearchCriteria,
                                                          usesCase3Results,
                                                          clientConfig);
        if (result) {
            std::cout << usesCase3Results.size() << " image sets found for created between 2023/11/30 and present."
                      <<  std::endl;
            for (auto &imageSetResult : usesCase3Results) {
                std::cout << "  Image set with ID '" << imageSetResult << std::endl;
            }
        }
```
Kasus penggunaan \$14: Operator EQUAL di DICOMSeries InstanceUID dan BETWEEN di UpdateDAT dan mengurutkan respons dalam urutan ASC di bidang UpdateDAT.   

```
        Aws::MedicalImaging::Model::SearchByAttributeValue useCase4StartDate;
        useCase4StartDate.SetUpdatedAt(Aws::Utils::DateTime("20231130T000000000Z",Aws::Utils::DateFormat::ISO_8601_BASIC));

        Aws::MedicalImaging::Model::SearchByAttributeValue useCase4EndDate;
        useCase4EndDate.SetUpdatedAt(Aws::Utils::DateTime(std::chrono::system_clock::now()));

        Aws::MedicalImaging::Model::SearchFilter useCase4SearchFilterBetween;
        useCase4SearchFilterBetween.SetValues({useCase4StartDate, useCase4EndDate});
        useCase4SearchFilterBetween.SetOperator(Aws::MedicalImaging::Model::Operator::BETWEEN);

        Aws::MedicalImaging::Model::SearchByAttributeValue seriesInstanceUID;
        seriesInstanceUID.SetDICOMSeriesInstanceUID(dicomSeriesInstanceUID);

        Aws::MedicalImaging::Model::SearchFilter useCase4SearchFilterEqual;
        useCase4SearchFilterEqual.SetValues({seriesInstanceUID});
        useCase4SearchFilterEqual.SetOperator(Aws::MedicalImaging::Model::Operator::EQUAL);

        Aws::MedicalImaging::Model::SearchCriteria useCase4SearchCriteria;
        useCase4SearchCriteria.SetFilters({useCase4SearchFilterBetween, useCase4SearchFilterEqual});

        Aws::MedicalImaging::Model::Sort useCase4Sort;
        useCase4Sort.SetSortField(Aws::MedicalImaging::Model::SortField::updatedAt);
        useCase4Sort.SetSortOrder(Aws::MedicalImaging::Model::SortOrder::ASC);

        useCase4SearchCriteria.SetSort(useCase4Sort);

        Aws::Vector<Aws::String> usesCase4Results;
        result = AwsDoc::Medical_Imaging::searchImageSets(dataStoreID,
                                                          useCase4SearchCriteria,
                                                          usesCase4Results,
                                                          clientConfig);
        if (result) {
            std::cout << usesCase4Results.size() << " image sets found for EQUAL operator "
            << "on DICOMSeriesInstanceUID and BETWEEN on updatedAt and sort response\n"
            <<  "in ASC order on updatedAt field." <<  std::endl;
            for (auto &imageSetResult : usesCase4Results) {
                std::cout << "  Image set with ID '" << imageSetResult << std::endl;
            }
        }
```
+  Untuk detail API, lihat [SearchImageSets](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/SearchImageSets)di *Referensi AWS SDK untuk C\$1\$1 API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/medical-imaging/#code-examples). 

### `StartDICOMImportJob`
<a name="medical-imaging_StartDICOMImportJob_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDICOMImportJob`.

**SDK untuk C\$1\$1**  

```
//! Routine which starts a HealthImaging import job.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param inputBucketName: The name of the Amazon S3 bucket containing the DICOM files.
  \param inputDirectory: The directory in the S3 bucket containing the DICOM files.
  \param outputBucketName: The name of the S3 bucket for the output.
  \param outputDirectory: The directory in the S3 bucket to store the output.
  \param roleArn: The ARN of the IAM role with permissions for the import.
  \param importJobId: A string to receive the import job ID.
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
  */
bool AwsDoc::Medical_Imaging::startDICOMImportJob(
        const Aws::String &dataStoreID, const Aws::String &inputBucketName,
        const Aws::String &inputDirectory, const Aws::String &outputBucketName,
        const Aws::String &outputDirectory, const Aws::String &roleArn,
        Aws::String &importJobId,
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::MedicalImagingClient medicalImagingClient(clientConfig);
    Aws::String inputURI = "s3://" + inputBucketName + "/" + inputDirectory + "/";
    Aws::String outputURI = "s3://" + outputBucketName + "/" + outputDirectory + "/";
    Aws::MedicalImaging::Model::StartDICOMImportJobRequest startDICOMImportJobRequest;
    startDICOMImportJobRequest.SetDatastoreId(dataStoreID);
    startDICOMImportJobRequest.SetDataAccessRoleArn(roleArn);
    startDICOMImportJobRequest.SetInputS3Uri(inputURI);
    startDICOMImportJobRequest.SetOutputS3Uri(outputURI);

    Aws::MedicalImaging::Model::StartDICOMImportJobOutcome startDICOMImportJobOutcome = medicalImagingClient.StartDICOMImportJob(
            startDICOMImportJobRequest);

    if (startDICOMImportJobOutcome.IsSuccess()) {
        importJobId = startDICOMImportJobOutcome.GetResult().GetJobId();
    }
    else {
        std::cerr << "Failed to start DICOM import job because "
                  << startDICOMImportJobOutcome.GetError().GetMessage() << std::endl;
    }

    return startDICOMImportJobOutcome.IsSuccess();
}
```
+  Untuk detail API, lihat [Memulai DICOMImport Job](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/StartDICOMImportJob) di *Referensi AWS SDK untuk C\$1\$1 API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/medical-imaging/#code-examples). 

## Skenario
<a name="scenarios"></a>

### Memulai dengan set gambar dan bingkai gambar
<a name="medical-imaging_Scenario_ImageSetsAndFrames_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimpor file DICOM dan mengunduh bingkai gambar di HealthImaging.

Implementasinya disusun sebagai aplikasi baris perintah. 
+ Siapkan sumber daya untuk impor DICOM.
+ Impor file DICOM ke penyimpanan data.
+ Ambil gambar yang ditetapkan IDs untuk pekerjaan impor.
+ Ambil bingkai gambar IDs untuk set gambar.
+ Unduh, dekode, dan verifikasi bingkai gambar.
+ Pembersihan sumber daya 

**SDK untuk C\$1\$1**  
Buat CloudFormation tumpukan dengan sumber daya yang diperlukan.  

```
    Aws::String inputBucketName;
    Aws::String outputBucketName;
    Aws::String dataStoreId;
    Aws::String roleArn;
    Aws::String stackName;

    if (askYesNoQuestion(
            "Would you like to let this workflow create the resources for you? (y/n) ")) {
        stackName = askQuestion(
                "Enter a name for the AWS CloudFormation stack to create. ");
        Aws::String dataStoreName = askQuestion(
                "Enter a name for the HealthImaging datastore to create. ");

        Aws::Map<Aws::String, Aws::String> outputs = createCloudFormationStack(
                stackName,
                dataStoreName,
                clientConfiguration);

        if (!retrieveOutputs(outputs, dataStoreId, inputBucketName, outputBucketName,
                             roleArn)) {
            return false;
        }

        std::cout << "The following resources have been created." << std::endl;
        std::cout << "A HealthImaging datastore with ID: " << dataStoreId << "."
                  << std::endl;
        std::cout << "An Amazon S3 input bucket named: " << inputBucketName << "."
                  << std::endl;
        std::cout << "An Amazon S3 output bucket named: " << outputBucketName << "."
                  << std::endl;
        std::cout << "An IAM role with the ARN: " << roleArn << "." << std::endl;
        askQuestion("Enter return to continue.", alwaysTrueTest);
    }
    else {
        std::cout << "You have chosen to use preexisting resources:" << std::endl;
        dataStoreId = askQuestion(
                "Enter the data store ID of the HealthImaging datastore you wish to use: ");
        inputBucketName = askQuestion(
                "Enter the name of the S3 input bucket you wish to use: ");
        outputBucketName = askQuestion(
                "Enter the name of the S3 output bucket you wish to use: ");
        roleArn = askQuestion(
                "Enter the ARN for the IAM role with the proper permissions to import a DICOM series: ");
    }
```
Salin file DICOM ke bucket impor Amazon S3.  

```
    std::cout
            << "This workflow uses DICOM files from the National Cancer Institute Imaging Data\n"
            << "Commons (IDC) Collections." << std::endl;
    std::cout << "Here is the link to their website." << std::endl;
    std::cout << "https://registry.opendata.aws/nci-imaging-data-commons/" << std::endl;
    std::cout << "We will use DICOM files stored in an S3 bucket managed by the IDC."
              << std::endl;
    std::cout
            << "First one of the DICOM folders in the IDC collection must be copied to your\n"
               "input S3 bucket."
            << std::endl;
    std::cout << "You have the choice of one of the following "
              << IDC_ImageChoices.size() << " folders to copy." << std::endl;

    int index = 1;
    for (auto &idcChoice: IDC_ImageChoices) {
        std::cout << index << " - " << idcChoice.mDescription << std::endl;
        index++;
    }
    int choice = askQuestionForIntRange("Choose DICOM files to import: ", 1, 4);

    Aws::String fromDirectory = IDC_ImageChoices[choice - 1].mDirectory;
    Aws::String inputDirectory = "input";

    std::cout << "The files in the directory '" << fromDirectory << "' in the bucket '"
              << IDC_S3_BucketName << "' will be copied " << std::endl;
    std::cout << "to the folder '" << inputDirectory << "/" << fromDirectory
              << "' in the bucket '" << inputBucketName << "'." << std::endl;
    askQuestion("Enter return to start the copy.", alwaysTrueTest);

    if (!AwsDoc::Medical_Imaging::copySeriesBetweenBuckets(
            IDC_S3_BucketName,
            fromDirectory,
            inputBucketName,
            inputDirectory, clientConfiguration)) {
        std::cerr << "This workflow will exit because of an error." << std::endl;
        cleanup(stackName, dataStoreId, clientConfiguration);
        return false;
    }
```
Impor file DICOM ke penyimpanan data Amazon S3.  

```
bool AwsDoc::Medical_Imaging::startDicomImport(const Aws::String &dataStoreID,
                                               const Aws::String &inputBucketName,
                                               const Aws::String &inputDirectory,
                                               const Aws::String &outputBucketName,
                                               const Aws::String &outputDirectory,
                                               const Aws::String &roleArn,
                                               Aws::String &importJobId,
                                               const Aws::Client::ClientConfiguration &clientConfiguration) {
    bool result = false;
    if (startDICOMImportJob(dataStoreID, inputBucketName, inputDirectory,
                            outputBucketName, outputDirectory, roleArn, importJobId,
                            clientConfiguration)) {
        std::cout << "DICOM import job started with job ID " << importJobId << "."
                  << std::endl;
        result = waitImportJobCompleted(dataStoreID, importJobId, clientConfiguration);
        if (result) {
            std::cout << "DICOM import job completed." << std::endl;

        }
    }

    return result;
}

//! Routine which starts a HealthImaging import job.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param inputBucketName: The name of the Amazon S3 bucket containing the DICOM files.
  \param inputDirectory: The directory in the S3 bucket containing the DICOM files.
  \param outputBucketName: The name of the S3 bucket for the output.
  \param outputDirectory: The directory in the S3 bucket to store the output.
  \param roleArn: The ARN of the IAM role with permissions for the import.
  \param importJobId: A string to receive the import job ID.
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
  */
bool AwsDoc::Medical_Imaging::startDICOMImportJob(
        const Aws::String &dataStoreID, const Aws::String &inputBucketName,
        const Aws::String &inputDirectory, const Aws::String &outputBucketName,
        const Aws::String &outputDirectory, const Aws::String &roleArn,
        Aws::String &importJobId,
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::MedicalImagingClient medicalImagingClient(clientConfig);
    Aws::String inputURI = "s3://" + inputBucketName + "/" + inputDirectory + "/";
    Aws::String outputURI = "s3://" + outputBucketName + "/" + outputDirectory + "/";
    Aws::MedicalImaging::Model::StartDICOMImportJobRequest startDICOMImportJobRequest;
    startDICOMImportJobRequest.SetDatastoreId(dataStoreID);
    startDICOMImportJobRequest.SetDataAccessRoleArn(roleArn);
    startDICOMImportJobRequest.SetInputS3Uri(inputURI);
    startDICOMImportJobRequest.SetOutputS3Uri(outputURI);

    Aws::MedicalImaging::Model::StartDICOMImportJobOutcome startDICOMImportJobOutcome = medicalImagingClient.StartDICOMImportJob(
            startDICOMImportJobRequest);

    if (startDICOMImportJobOutcome.IsSuccess()) {
        importJobId = startDICOMImportJobOutcome.GetResult().GetJobId();
    }
    else {
        std::cerr << "Failed to start DICOM import job because "
                  << startDICOMImportJobOutcome.GetError().GetMessage() << std::endl;
    }

    return startDICOMImportJobOutcome.IsSuccess();
}


//! Routine which waits for a DICOM import job to complete.
/*!
 * @param dataStoreID: The HealthImaging data store ID.
 * @param importJobId: The import job ID.
 * @param clientConfiguration : Aws client configuration.
 * @return  bool: Function succeeded.
 */
bool AwsDoc::Medical_Imaging::waitImportJobCompleted(const Aws::String &datastoreID,
                                                     const Aws::String &importJobId,
                                                     const Aws::Client::ClientConfiguration &clientConfiguration) {

    Aws::MedicalImaging::Model::JobStatus jobStatus = Aws::MedicalImaging::Model::JobStatus::IN_PROGRESS;
    while (jobStatus == Aws::MedicalImaging::Model::JobStatus::IN_PROGRESS) {
        std::this_thread::sleep_for(std::chrono::seconds(1));

        Aws::MedicalImaging::Model::GetDICOMImportJobOutcome getDicomImportJobOutcome = getDICOMImportJob(
                datastoreID, importJobId,
                clientConfiguration);

        if (getDicomImportJobOutcome.IsSuccess()) {
            jobStatus = getDicomImportJobOutcome.GetResult().GetJobProperties().GetJobStatus();

            std::cout << "DICOM import job status: " <<
                      Aws::MedicalImaging::Model::JobStatusMapper::GetNameForJobStatus(
                              jobStatus) << std::endl;
        }
        else {
            std::cerr << "Failed to get import job status because "
                      << getDicomImportJobOutcome.GetError().GetMessage() << std::endl;
            return false;
        }
    }

    return jobStatus == Aws::MedicalImaging::Model::JobStatus::COMPLETED;
}

//! Routine which gets a HealthImaging DICOM import job's properties.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param importJobID: The DICOM import job ID
  \param clientConfig: Aws client configuration.
  \return GetDICOMImportJobOutcome: The import job outcome.
*/
Aws::MedicalImaging::Model::GetDICOMImportJobOutcome
AwsDoc::Medical_Imaging::getDICOMImportJob(const Aws::String &dataStoreID,
                                           const Aws::String &importJobID,
                                           const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::MedicalImagingClient client(clientConfig);
    Aws::MedicalImaging::Model::GetDICOMImportJobRequest request;
    request.SetDatastoreId(dataStoreID);
    request.SetJobId(importJobID);
    Aws::MedicalImaging::Model::GetDICOMImportJobOutcome outcome = client.GetDICOMImportJob(
            request);
    if (!outcome.IsSuccess()) {
        std::cerr << "GetDICOMImportJob error: "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome;
}
```
Dapatkan set gambar yang dibuat oleh pekerjaan impor DICOM.  

```
bool
AwsDoc::Medical_Imaging::getImageSetsForDicomImportJob(const Aws::String &datastoreID,
                                                       const Aws::String &importJobId,
                                                       Aws::Vector<Aws::String> &imageSets,
                                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::MedicalImaging::Model::GetDICOMImportJobOutcome getDicomImportJobOutcome = getDICOMImportJob(
            datastoreID, importJobId, clientConfiguration);
    bool result = false;
    if (getDicomImportJobOutcome.IsSuccess()) {
        auto outputURI = getDicomImportJobOutcome.GetResult().GetJobProperties().GetOutputS3Uri();
        Aws::Http::URI uri(outputURI);
        const Aws::String &bucket = uri.GetAuthority();
        Aws::String key = uri.GetPath();

        Aws::S3::S3Client s3Client(clientConfiguration);
        Aws::S3::Model::GetObjectRequest objectRequest;
        objectRequest.SetBucket(bucket);
        objectRequest.SetKey(key + "/" + IMPORT_JOB_MANIFEST_FILE_NAME);

        auto getObjectOutcome = s3Client.GetObject(objectRequest);
        if (getObjectOutcome.IsSuccess()) {
            auto &data = getObjectOutcome.GetResult().GetBody();

            std::stringstream stringStream;
            stringStream << data.rdbuf();

            try {
                // Use JMESPath to extract the image set IDs.
                // https://jmespath.org/specification.html
                std::string jmesPathExpression = "jobSummary.imageSetsSummary[].imageSetId";
                jsoncons::json doc = jsoncons::json::parse(stringStream.str());

                jsoncons::json imageSetsJson = jsoncons::jmespath::search(doc,
                                                                          jmesPathExpression);\
                for (auto &imageSet: imageSetsJson.array_range()) {
                    imageSets.push_back(imageSet.as_string());
                }

                result = true;
            }
            catch (const std::exception &e) {
                std::cerr << e.what() << '\n';
            }

        }
        else {
            std::cerr << "Failed to get object because "
                      << getObjectOutcome.GetError().GetMessage() << std::endl;
        }

    }
    else {
        std::cerr << "Failed to get import job status because "
                  << getDicomImportJobOutcome.GetError().GetMessage() << std::endl;
    }

    return result;
}
```
Dapatkan informasi bingkai gambar untuk set gambar.  

```
bool AwsDoc::Medical_Imaging::getImageFramesForImageSet(const Aws::String &dataStoreID,
                                                        const Aws::String &imageSetID,
                                                        const Aws::String &outDirectory,
                                                        Aws::Vector<ImageFrameInfo> &imageFrames,
                                                        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::String fileName = outDirectory + "/" + imageSetID + "_metadata.json.gzip";
    bool result = false;
    if (getImageSetMetadata(dataStoreID, imageSetID, "", // Empty string for version ID.
                            fileName, clientConfiguration)) {
        try {
            std::string metadataGZip;
            {
                std::ifstream inFileStream(fileName.c_str(), std::ios::binary);
                if (!inFileStream) {
                    throw std::runtime_error("Failed to open file " + fileName);
                }

                std::stringstream stringStream;
                stringStream << inFileStream.rdbuf();
                metadataGZip = stringStream.str();
            }
            std::string metadataJson = gzip::decompress(metadataGZip.data(),
                                                        metadataGZip.size());
            // Use JMESPath to extract the image set IDs.
            // https://jmespath.org/specification.html
            jsoncons::json doc = jsoncons::json::parse(metadataJson);
            std::string jmesPathExpression = "Study.Series.*.Instances[].*[]";
            jsoncons::json instances = jsoncons::jmespath::search(doc,
                                                                  jmesPathExpression);
            for (auto &instance: instances.array_range()) {
                jmesPathExpression = "DICOM.RescaleSlope";
                std::string rescaleSlope = jsoncons::jmespath::search(instance,
                                                                      jmesPathExpression).to_string();
                jmesPathExpression = "DICOM.RescaleIntercept";
                std::string rescaleIntercept = jsoncons::jmespath::search(instance,
                                                                          jmesPathExpression).to_string();

                jmesPathExpression = "ImageFrames[][]";
                jsoncons::json imageFramesJson = jsoncons::jmespath::search(instance,
                                                                            jmesPathExpression);

                for (auto &imageFrame: imageFramesJson.array_range()) {
                    ImageFrameInfo imageFrameIDs;
                    imageFrameIDs.mImageSetId = imageSetID;
                    imageFrameIDs.mImageFrameId = imageFrame.find(
                            "ID")->value().as_string();
                    imageFrameIDs.mRescaleIntercept = rescaleIntercept;
                    imageFrameIDs.mRescaleSlope = rescaleSlope;
                    imageFrameIDs.MinPixelValue = imageFrame.find(
                            "MinPixelValue")->value().as_string();
                    imageFrameIDs.MaxPixelValue = imageFrame.find(
                            "MaxPixelValue")->value().as_string();

                    jmesPathExpression = "max_by(PixelDataChecksumFromBaseToFullResolution, &Width).Checksum";
                    jsoncons::json checksumJson = jsoncons::jmespath::search(imageFrame,
                                                                             jmesPathExpression);
                    imageFrameIDs.mFullResolutionChecksum = checksumJson.as_integer<uint32_t>();

                    imageFrames.emplace_back(imageFrameIDs);
                }
            }

            result = true;
        }
        catch (const std::exception &e) {
            std::cerr << "getImageFramesForImageSet failed because " << e.what()
                      << std::endl;
        }
    }

    return result;
}

//! Routine which gets a HealthImaging image set's metadata.
/*!
  \param dataStoreID: The HealthImaging data store ID.
  \param imageSetID: The HealthImaging image set ID.
  \param versionID: The HealthImaging image set version ID, ignored if empty.
  \param outputFilePath: The path where the metadata will be stored as gzipped json.
  \param clientConfig: Aws client configuration.
  \\return bool: Function succeeded.
*/
bool AwsDoc::Medical_Imaging::getImageSetMetadata(const Aws::String &dataStoreID,
                                                  const Aws::String &imageSetID,
                                                  const Aws::String &versionID,
                                                  const Aws::String &outputFilePath,
                                                  const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::MedicalImaging::Model::GetImageSetMetadataRequest request;
    request.SetDatastoreId(dataStoreID);
    request.SetImageSetId(imageSetID);
    if (!versionID.empty()) {
        request.SetVersionId(versionID);
    }
    Aws::MedicalImaging::MedicalImagingClient client(clientConfig);
    Aws::MedicalImaging::Model::GetImageSetMetadataOutcome outcome = client.GetImageSetMetadata(
            request);
    if (outcome.IsSuccess()) {
        std::ofstream file(outputFilePath, std::ios::binary);
        auto &metadata = outcome.GetResult().GetImageSetMetadataBlob();
        file << metadata.rdbuf();
    }
    else {
        std::cerr << "Failed to get image set metadata: "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
Unduh, dekode, dan verifikasi bingkai gambar.  

```
bool AwsDoc::Medical_Imaging::downloadDecodeAndCheckImageFrames(
        const Aws::String &dataStoreID,
        const Aws::Vector<ImageFrameInfo> &imageFrames,
        const Aws::String &outDirectory,
        const Aws::Client::ClientConfiguration &clientConfiguration) {

    Aws::Client::ClientConfiguration clientConfiguration1(clientConfiguration);
    clientConfiguration1.executor = Aws::MakeShared<Aws::Utils::Threading::PooledThreadExecutor>(
            "executor", 25);
    Aws::MedicalImaging::MedicalImagingClient medicalImagingClient(
            clientConfiguration1);

    Aws::Utils::Threading::Semaphore semaphore(0, 1);
    std::atomic<size_t> count(imageFrames.size());

    bool result = true;
    for (auto &imageFrame: imageFrames) {
        Aws::MedicalImaging::Model::GetImageFrameRequest getImageFrameRequest;
        getImageFrameRequest.SetDatastoreId(dataStoreID);
        getImageFrameRequest.SetImageSetId(imageFrame.mImageSetId);

        Aws::MedicalImaging::Model::ImageFrameInformation imageFrameInformation;
        imageFrameInformation.SetImageFrameId(imageFrame.mImageFrameId);
        getImageFrameRequest.SetImageFrameInformation(imageFrameInformation);

        auto getImageFrameAsyncLambda = [&semaphore, &result, &count, imageFrame, outDirectory](
                const Aws::MedicalImaging::MedicalImagingClient *client,
                const Aws::MedicalImaging::Model::GetImageFrameRequest &request,
                Aws::MedicalImaging::Model::GetImageFrameOutcome outcome,
                const std::shared_ptr<const Aws::Client::AsyncCallerContext> &context) {

                if (!handleGetImageFrameResult(outcome, outDirectory, imageFrame)) {
                    std::cerr << "Failed to download and convert image frame: "
                              << imageFrame.mImageFrameId << " from image set: "
                              << imageFrame.mImageSetId << std::endl;
                    result = false;
                }

                count--;
                if (count <= 0) {

                    semaphore.ReleaseAll();
                }
        }; // End of 'getImageFrameAsyncLambda' lambda.

        medicalImagingClient.GetImageFrameAsync(getImageFrameRequest,
                                                getImageFrameAsyncLambda);
    }

    if (count > 0) {
        semaphore.WaitOne();
    }

    if (result) {
        std::cout << imageFrames.size() << " image files were downloaded."
                  << std::endl;
    }

    return result;
}

bool AwsDoc::Medical_Imaging::decodeJPHFileAndValidateWithChecksum(
        const Aws::String &jphFile,
        uint32_t crc32Checksum) {
    opj_image_t *outputImage = jphImageToOpjBitmap(jphFile);
    if (!outputImage) {
        return false;
    }

    bool result = true;
    if (!verifyChecksumForImage(outputImage, crc32Checksum)) {
        std::cerr << "The checksum for the image does not match the expected value."
                  << std::endl;
        std::cerr << "File :" << jphFile << std::endl;
        result = false;
    }

    opj_image_destroy(outputImage);

    return result;
}

opj_image *
AwsDoc::Medical_Imaging::jphImageToOpjBitmap(const Aws::String &jphFile) {
    opj_stream_t *inFileStream = nullptr;
    opj_codec_t *decompressorCodec = nullptr;
    opj_image_t *outputImage = nullptr;
    try {
        std::shared_ptr<opj_dparameters> decodeParameters = std::make_shared<opj_dparameters>();
        memset(decodeParameters.get(), 0, sizeof(opj_dparameters));

        opj_set_default_decoder_parameters(decodeParameters.get());

        decodeParameters->decod_format = 1; // JP2 image format.
        decodeParameters->cod_format = 2; // BMP image format.

        std::strncpy(decodeParameters->infile, jphFile.c_str(),
                     OPJ_PATH_LEN);

        inFileStream = opj_stream_create_default_file_stream(
                decodeParameters->infile, true);
        if (!inFileStream) {
            throw std::runtime_error(
                    "Unable to create input file stream for file '" + jphFile + "'.");
        }

        decompressorCodec = opj_create_decompress(OPJ_CODEC_JP2);
        if (!decompressorCodec) {
            throw std::runtime_error("Failed to create decompression codec.");
        }

        int decodeMessageLevel = 1;
        if (!setupCodecLogging(decompressorCodec, &decodeMessageLevel)) {
            std::cerr << "Failed to setup codec logging." << std::endl;
        }

        if (!opj_setup_decoder(decompressorCodec, decodeParameters.get())) {
            throw std::runtime_error("Failed to setup decompression codec.");
        }
        if (!opj_codec_set_threads(decompressorCodec, 4)) {
            throw std::runtime_error("Failed to set decompression codec threads.");
        }

        if (!opj_read_header(inFileStream, decompressorCodec, &outputImage)) {
            throw std::runtime_error("Failed to read header.");
        }

        if (!opj_decode(decompressorCodec, inFileStream,
                        outputImage)) {
            throw std::runtime_error("Failed to decode.");
        }

        if (DEBUGGING) {
            std::cout << "image width : " << outputImage->x1 - outputImage->x0
                      << std::endl;
            std::cout << "image height : " << outputImage->y1 - outputImage->y0
                      << std::endl;
            std::cout << "number of channels: " << outputImage->numcomps
                      << std::endl;
            std::cout << "colorspace : " << outputImage->color_space << std::endl;
        }

    } catch (const std::exception &e) {
        std::cerr << e.what() << std::endl;
        if (outputImage) {
            opj_image_destroy(outputImage);
            outputImage = nullptr;
        }
    }
    if (inFileStream) {
        opj_stream_destroy(inFileStream);
    }
    if (decompressorCodec) {
        opj_destroy_codec(decompressorCodec);
    }

    return outputImage;
}

//! Template function which converts a planar image bitmap to an interleaved image bitmap and
//! then verifies the checksum of the bitmap.
/*!
 * @param image: The OpenJPEG image struct.
 * @param crc32Checksum: The CRC32 checksum.
 * @return  bool: Function succeeded.
 */
template<class myType>
bool verifyChecksumForImageForType(opj_image_t *image, uint32_t crc32Checksum) {
    uint32_t width = image->x1 - image->x0;
    uint32_t height = image->y1 - image->y0;
    uint32_t numOfChannels = image->numcomps;

    // Buffer for interleaved bitmap.
    std::vector<myType> buffer(width * height * numOfChannels);

    // Convert planar bitmap to interleaved bitmap.
    for (uint32_t channel = 0; channel < numOfChannels; channel++) {
        for (uint32_t row = 0; row < height; row++) {
            uint32_t fromRowStart = row / image->comps[channel].dy * width /
                                    image->comps[channel].dx;
            uint32_t toIndex = (row * width) * numOfChannels + channel;

            for (uint32_t col = 0; col < width; col++) {
                uint32_t fromIndex = fromRowStart + col / image->comps[channel].dx;

                buffer[toIndex] = static_cast<myType>(image->comps[channel].data[fromIndex]);

                toIndex += numOfChannels;
            }
        }
    }

    // Verify checksum.
    boost::crc_32_type crc32;
    crc32.process_bytes(reinterpret_cast<char *>(buffer.data()),
                        buffer.size() * sizeof(myType));

    bool result = crc32.checksum() == crc32Checksum;
    if (!result) {
        std::cerr << "verifyChecksumForImage, checksum mismatch, expected - "
                  << crc32Checksum << ", actual - " << crc32.checksum()
                  << std::endl;
    }

    return result;
}

//! Routine which verifies the checksum of an OpenJPEG image struct.
/*!
 * @param image: The OpenJPEG image struct.
 * @param crc32Checksum: The CRC32 checksum.
 * @return  bool: Function succeeded.
 */
bool AwsDoc::Medical_Imaging::verifyChecksumForImage(opj_image_t *image,
                                                     uint32_t crc32Checksum) {
    uint32_t channels = image->numcomps;
    bool result = false;
    if (0 < channels) {
        // Assume the precision is the same for all channels.
        uint32_t precision = image->comps[0].prec;
        bool signedData = image->comps[0].sgnd;
        uint32_t bytes = (precision + 7) / 8;

        if (signedData) {
            switch (bytes) {
                case 1 :
                    result = verifyChecksumForImageForType<int8_t>(image,
                                                                   crc32Checksum);
                    break;
                case 2 :
                    result = verifyChecksumForImageForType<int16_t>(image,
                                                                    crc32Checksum);
                    break;
                case 4 :
                    result = verifyChecksumForImageForType<int32_t>(image,
                                                                    crc32Checksum);
                    break;
                default:
                    std::cerr
                            << "verifyChecksumForImage, unsupported data type, signed bytes - "
                            << bytes << std::endl;
                    break;
            }
        }
        else {
            switch (bytes) {
                case 1 :
                    result = verifyChecksumForImageForType<uint8_t>(image,
                                                                    crc32Checksum);
                    break;
                case 2 :
                    result = verifyChecksumForImageForType<uint16_t>(image,
                                                                     crc32Checksum);
                    break;
                case 4 :
                    result = verifyChecksumForImageForType<uint32_t>(image,
                                                                     crc32Checksum);
                    break;
                default:
                    std::cerr
                            << "verifyChecksumForImage, unsupported data type, unsigned bytes - "
                            << bytes << std::endl;
                    break;
            }
        }

        if (!result) {
            std::cerr << "verifyChecksumForImage, error bytes " << bytes
                      << " signed "
                      << signedData << std::endl;
        }
    }
    else {
        std::cerr << "'verifyChecksumForImage', no channels in the image."
                  << std::endl;
    }
    return result;
}
```
Pembersihan sumber daya   

```
bool AwsDoc::Medical_Imaging::cleanup(const Aws::String &stackName,
                                      const Aws::String &dataStoreId,
                                      const Aws::Client::ClientConfiguration &clientConfiguration) {
    bool result = true;

    if (!stackName.empty() && askYesNoQuestion(
            "Would you like to delete the stack " + stackName + "? (y/n)")) {
        std::cout << "Deleting the image sets in the stack." << std::endl;
        result &= emptyDatastore(dataStoreId, clientConfiguration);
        printAsterisksLine();
        std::cout << "Deleting the stack." << std::endl;
        result &= deleteStack(stackName, clientConfiguration);
    }
    return result;
}

bool AwsDoc::Medical_Imaging::emptyDatastore(const Aws::String &datastoreID,
                                             const Aws::Client::ClientConfiguration &clientConfiguration) {

    Aws::MedicalImaging::Model::SearchCriteria emptyCriteria;
    Aws::Vector<Aws::String> imageSetIDs;
    bool result = false;
    if (searchImageSets(datastoreID, emptyCriteria, imageSetIDs,
                        clientConfiguration)) {
        result = true;
        for (auto &imageSetID: imageSetIDs) {
            result &= deleteImageSet(datastoreID, imageSetID, clientConfiguration);
        }
    }

    return result;
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [DeleteImageSet](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/DeleteImageSet)
  + [Dapatkan DICOMImport Job](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/GetDICOMImportJob)
  + [GetImageFrame](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/GetImageFrame)
  + [GetImageSetMetadata](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/GetImageSetMetadata)
  + [SearchImageSets](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/SearchImageSets)
  + [Mulai DICOMImport Job](https://docs.aws.amazon.com/goto/SdkForCpp/medical-imaging-2023-07-19/StartDICOMImportJob)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/medical-imaging/imaging_set_and_frames_workflow#code-examples). 

# Contoh IAM menggunakan SDK for C\$1\$1
<a name="cpp_1_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo IAM
<a name="iam_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan IAM.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam/hello_iam#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS iam)

# Set this project's name.
project("hello_iam")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
    # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

    # set(BIN_SUB_DIR "/Debug") # if you are building from the command line you may need to uncomment this
    # and set the proper subdirectory to the executables' location.

    AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_iam.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber iam.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/iam/IAMClient.h>
#include <aws/iam/model/ListPoliciesRequest.h>
#include <iostream>
#include <iomanip>

/*
 *  A "Hello IAM" starter application which initializes an AWS Identity and Access Management (IAM) client
 *  and lists the IAM policies.
 *
 *  main function
 *
 *  Usage: 'hello_iam'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        const Aws::String DATE_FORMAT("%Y-%m-%d");
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::IAM::IAMClient iamClient(clientConfig);
        Aws::IAM::Model::ListPoliciesRequest request;

        bool done = false;
        bool header = false;
        while (!done) {
            auto outcome = iamClient.ListPolicies(request);
            if (!outcome.IsSuccess()) {
                std::cerr << "Failed to list iam policies: " <<
                          outcome.GetError().GetMessage() << std::endl;
                result = 1;
                break;
            }

            if (!header) {
                std::cout << std::left << std::setw(55) << "Name" <<
                          std::setw(30) << "ID" << std::setw(80) << "Arn" <<
                          std::setw(64) << "Description" << std::setw(12) <<
                          "CreateDate" << std::endl;
                header = true;
            }

            const auto &policies = outcome.GetResult().GetPolicies();
            for (const auto &policy: policies) {
                std::cout << std::left << std::setw(55) <<
                          policy.GetPolicyName() << std::setw(30) <<
                          policy.GetPolicyId() << std::setw(80) << policy.GetArn() <<
                          std::setw(64) << policy.GetDescription() << std::setw(12) <<
                          policy.GetCreateDate().ToGmtString(DATE_FORMAT.c_str()) <<
                          std::endl;
            }

            if (outcome.GetResult().GetIsTruncated()) {
                request.SetMarker(outcome.GetResult().GetMarker());
            } else {
                done = true;
            }
        }
    }


    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/ListPolicies)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
namespace AwsDoc {
    namespace IAM {
  
        //! Cleanup by deleting created entities.
        /*!
          \sa DeleteCreatedEntities
          \param client: IAM client.
          \param role: IAM role.
          \param user: IAM user.
          \param policy: IAM policy.
        */
        static bool DeleteCreatedEntities(const Aws::IAM::IAMClient &client,
                                          const Aws::IAM::Model::Role &role,
                                          const Aws::IAM::Model::User &user,
                                          const Aws::IAM::Model::Policy &policy);
    }

    static const int LIST_BUCKETS_WAIT_SEC = 20;

    static const char ALLOCATION_TAG[] = "example_code";
}

//! Scenario to create an IAM user, create an IAM role, and apply the role to the user.
// "IAM access" permissions are needed to run this code.
// "STS assume role" permissions are needed to run this code. (Note: It might be necessary to
//    create a custom policy).
/*!
  \sa iamCreateUserAssumeRoleScenario
  \param clientConfig: Aws client configuration.
  \return bool: Successful completion.
*/
bool AwsDoc::IAM::iamCreateUserAssumeRoleScenario(
        const Aws::Client::ClientConfiguration &clientConfig) {

    Aws::IAM::IAMClient client(clientConfig);
    Aws::IAM::Model::User user;
    Aws::IAM::Model::Role role;
    Aws::IAM::Model::Policy policy;

    // 1. Create a user.
    {
        Aws::IAM::Model::CreateUserRequest request;
        Aws::String uuid = Aws::Utils::UUID::RandomUUID();
        Aws::String userName = "iam-demo-user-" +
                               Aws::Utils::StringUtils::ToLower(uuid.c_str());
        request.SetUserName(userName);

        Aws::IAM::Model::CreateUserOutcome outcome = client.CreateUser(request);
        if (!outcome.IsSuccess()) {
            std::cout << "Error creating IAM user " << userName << ":" <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }
        else {
            std::cout << "Successfully created IAM user " << userName << std::endl;
        }

        user = outcome.GetResult().GetUser();
    }

    // 2. Create a role.
    {
        // Get the IAM user for the current client in order to access its ARN.
        Aws::String iamUserArn;
        {
            Aws::IAM::Model::GetUserRequest request;
            Aws::IAM::Model::GetUserOutcome outcome = client.GetUser(request);
            if (!outcome.IsSuccess()) {
                std::cerr << "Error getting Iam user. " <<
                          outcome.GetError().GetMessage() << std::endl;

                DeleteCreatedEntities(client, role, user, policy);
                return false;
            }
            else {
                std::cout << "Successfully retrieved Iam user "
                          << outcome.GetResult().GetUser().GetUserName()
                          << std::endl;
            }

            iamUserArn = outcome.GetResult().GetUser().GetArn();
        }

        Aws::IAM::Model::CreateRoleRequest request;

        Aws::String uuid = Aws::Utils::UUID::RandomUUID();
        Aws::String roleName = "iam-demo-role-" +
                               Aws::Utils::StringUtils::ToLower(uuid.c_str());
        request.SetRoleName(roleName);

        // Build policy document for role.
        Aws::Utils::Document jsonStatement;
        jsonStatement.WithString("Effect", "Allow");

        Aws::Utils::Document jsonPrincipal;
        jsonPrincipal.WithString("AWS", iamUserArn);
        jsonStatement.WithObject("Principal", jsonPrincipal);
        jsonStatement.WithString("Action", "sts:AssumeRole");
        jsonStatement.WithObject("Condition", Aws::Utils::Document());

        Aws::Utils::Document policyDocument;
        policyDocument.WithString("Version", "2012-10-17");

        Aws::Utils::Array<Aws::Utils::Document> statements(1);
        statements[0] = jsonStatement;
        policyDocument.WithArray("Statement", statements);

        std::cout << "Setting policy for role\n   "
                  << policyDocument.View().WriteCompact() << std::endl;

        // Set role policy document as JSON string.
        request.SetAssumeRolePolicyDocument(policyDocument.View().WriteCompact());

        Aws::IAM::Model::CreateRoleOutcome outcome = client.CreateRole(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Error creating role. " <<
                      outcome.GetError().GetMessage() << std::endl;

            DeleteCreatedEntities(client, role, user, policy);
            return false;
        }
        else {
            std::cout << "Successfully created a role with name " << roleName
                      << std::endl;
        }

        role = outcome.GetResult().GetRole();
    }

    // 3. Create an IAM policy.
    {
        Aws::IAM::Model::CreatePolicyRequest request;
        Aws::String uuid = Aws::Utils::UUID::RandomUUID();
        Aws::String policyName = "iam-demo-policy-" +
                                 Aws::Utils::StringUtils::ToLower(uuid.c_str());
        request.SetPolicyName(policyName);

        // Build IAM policy document.
        Aws::Utils::Document jsonStatement;
        jsonStatement.WithString("Effect", "Allow");
        jsonStatement.WithString("Action", "s3:ListAllMyBuckets");
        jsonStatement.WithString("Resource", "arn:aws:s3:::*");

        Aws::Utils::Document policyDocument;
        policyDocument.WithString("Version", "2012-10-17");

        Aws::Utils::Array<Aws::Utils::Document> statements(1);
        statements[0] = jsonStatement;
        policyDocument.WithArray("Statement", statements);

        std::cout << "Creating a policy.\n   " << policyDocument.View().WriteCompact()
                  << std::endl;

        // Set IAM policy document as JSON string.
        request.SetPolicyDocument(policyDocument.View().WriteCompact());

        Aws::IAM::Model::CreatePolicyOutcome outcome = client.CreatePolicy(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Error creating policy. " <<
                      outcome.GetError().GetMessage() << std::endl;

            DeleteCreatedEntities(client, role, user, policy);
            return false;
        }
        else {
            std::cout << "Successfully created a policy with name, " << policyName <<
                      "." << std::endl;
        }

        policy = outcome.GetResult().GetPolicy();
    }

    // 4. Assume the new role using the AWS Security Token Service (STS).
    Aws::STS::Model::Credentials credentials;
    {
        Aws::STS::STSClient stsClient(clientConfig);

        Aws::STS::Model::AssumeRoleRequest request;
        request.SetRoleArn(role.GetArn());
        Aws::String uuid = Aws::Utils::UUID::RandomUUID();
        Aws::String roleSessionName = "iam-demo-role-session-" +
                                      Aws::Utils::StringUtils::ToLower(uuid.c_str());
        request.SetRoleSessionName(roleSessionName);

        Aws::STS::Model::AssumeRoleOutcome assumeRoleOutcome;

        // Repeatedly call AssumeRole, because there is often a delay
        // before the role is available to be assumed.
        // Repeat at most 20 times when access is denied.
        int count = 0;
        while (true) {
            assumeRoleOutcome = stsClient.AssumeRole(request);
            if (!assumeRoleOutcome.IsSuccess()) {
                if (count > 20 ||
                    assumeRoleOutcome.GetError().GetErrorType() !=
                    Aws::STS::STSErrors::ACCESS_DENIED) {
                    std::cerr << "Error assuming role after 20 tries. " <<
                              assumeRoleOutcome.GetError().GetMessage() << std::endl;

                    DeleteCreatedEntities(client, role, user, policy);
                    return false;
                }
                std::this_thread::sleep_for(std::chrono::seconds(1));
            }
            else {
                std::cout << "Successfully assumed the role after " << count
                          << " seconds." << std::endl;
                break;
            }
            count++;
        }

        credentials = assumeRoleOutcome.GetResult().GetCredentials();
    }


    // 5. List objects in the bucket (This should fail).
    {
        Aws::S3::S3Client s3Client(
                Aws::Auth::AWSCredentials(credentials.GetAccessKeyId(),
                                          credentials.GetSecretAccessKey(),
                                          credentials.GetSessionToken()),
                Aws::MakeShared<Aws::S3::S3EndpointProvider>(ALLOCATION_TAG),
                clientConfig);
        Aws::S3::Model::ListBucketsOutcome listBucketsOutcome = s3Client.ListBuckets();
        if (!listBucketsOutcome.IsSuccess()) {
            if (listBucketsOutcome.GetError().GetErrorType() !=
                Aws::S3::S3Errors::ACCESS_DENIED) {
                std::cerr << "Could not lists buckets. " <<
                          listBucketsOutcome.GetError().GetMessage() << std::endl;
            }
            else {
                std::cout
                        << "Access to list buckets denied because privileges have not been applied."
                        << std::endl;
            }
        }
        else {
            std::cerr
                    << "Successfully retrieved bucket lists when this should not happen."
                    << std::endl;
        }
    }

    // 6. Attach the policy to the role.
    {
        Aws::IAM::Model::AttachRolePolicyRequest request;
        request.SetRoleName(role.GetRoleName());
        request.WithPolicyArn(policy.GetArn());

        Aws::IAM::Model::AttachRolePolicyOutcome outcome = client.AttachRolePolicy(
                request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Error creating policy. " <<
                      outcome.GetError().GetMessage() << std::endl;

            DeleteCreatedEntities(client, role, user, policy);
            return false;
        }
        else {
            std::cout << "Successfully attached the policy with name, "
                      << policy.GetPolicyName() <<
                      ", to the role, " << role.GetRoleName() << "." << std::endl;
        }
    }

    int count = 0;
    // 7. List objects in the bucket (this should succeed).
    // Repeatedly call ListBuckets, because there is often a delay
    // before the policy with ListBucket permissions has been applied to the role.
    // Repeat at most LIST_BUCKETS_WAIT_SEC times when access is denied.
    while (true) {
        Aws::S3::S3Client s3Client(
                Aws::Auth::AWSCredentials(credentials.GetAccessKeyId(),
                                          credentials.GetSecretAccessKey(),
                                          credentials.GetSessionToken()),
                Aws::MakeShared<Aws::S3::S3EndpointProvider>(ALLOCATION_TAG),
                clientConfig);
        Aws::S3::Model::ListBucketsOutcome listBucketsOutcome = s3Client.ListBuckets();
        if (!listBucketsOutcome.IsSuccess()) {
            if ((count > LIST_BUCKETS_WAIT_SEC) ||
                listBucketsOutcome.GetError().GetErrorType() !=
                Aws::S3::S3Errors::ACCESS_DENIED) {
                std::cerr << "Could not lists buckets after " << LIST_BUCKETS_WAIT_SEC << " seconds. " <<
                          listBucketsOutcome.GetError().GetMessage() << std::endl;
                DeleteCreatedEntities(client, role, user, policy);
                return false;
            }

            std::this_thread::sleep_for(std::chrono::seconds(1));
        }
        else {

            std::cout << "Successfully retrieved bucket lists after " << count
                      << " seconds." << std::endl;
            break;
        }
        count++;
    }

    // 8. Delete all the created resources.
    return DeleteCreatedEntities(client, role, user, policy);
}

bool AwsDoc::IAM::DeleteCreatedEntities(const Aws::IAM::IAMClient &client,
                                        const Aws::IAM::Model::Role &role,
                                        const Aws::IAM::Model::User &user,
                                        const Aws::IAM::Model::Policy &policy) {
    bool result = true;
    if (policy.ArnHasBeenSet()) {
        // Detach the policy from the role.
        {
            Aws::IAM::Model::DetachRolePolicyRequest request;
            request.SetPolicyArn(policy.GetArn());
            request.SetRoleName(role.GetRoleName());

            Aws::IAM::Model::DetachRolePolicyOutcome outcome = client.DetachRolePolicy(
                    request);
            if (!outcome.IsSuccess()) {
                std::cerr << "Error Detaching policy from roles. " <<
                          outcome.GetError().GetMessage() << std::endl;
                result = false;
            }
            else {
                std::cout << "Successfully detached the policy with arn "
                          << policy.GetArn()
                          << " from role " << role.GetRoleName() << "." << std::endl;
            }
        }

        // Delete the policy.
        {
            Aws::IAM::Model::DeletePolicyRequest request;
            request.WithPolicyArn(policy.GetArn());

            Aws::IAM::Model::DeletePolicyOutcome outcome = client.DeletePolicy(request);
            if (!outcome.IsSuccess()) {
                std::cerr << "Error deleting policy. " <<
                          outcome.GetError().GetMessage() << std::endl;
                result = false;
            }
            else {
                std::cout << "Successfully deleted the policy with arn "
                          << policy.GetArn() << std::endl;
            }
        }

    }

    if (role.RoleIdHasBeenSet()) {
        // Delete the role.
        Aws::IAM::Model::DeleteRoleRequest request;
        request.SetRoleName(role.GetRoleName());

        Aws::IAM::Model::DeleteRoleOutcome outcome = client.DeleteRole(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Error deleting role. " <<
                      outcome.GetError().GetMessage() << std::endl;
            result = false;
        }
        else {
            std::cout << "Successfully deleted the role with name "
                      << role.GetRoleName() << std::endl;
        }
    }

    if (user.ArnHasBeenSet()) {
        // Delete the user.
        Aws::IAM::Model::DeleteUserRequest request;
        request.WithUserName(user.GetUserName());

        Aws::IAM::Model::DeleteUserOutcome outcome = client.DeleteUser(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Error deleting user. " <<
                      outcome.GetError().GetMessage() << std::endl;
            result = false;
        }
        else {
            std::cout << "Successfully deleted the user with name "
                      << user.GetUserName() << std::endl;
        }
    }

    return result;
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/AttachRolePolicy)
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreateAccessKey)
  + [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreatePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreateRole)
  + [CreateUser](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreateUser)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeleteAccessKey)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeletePolicy)
  + [DeleteRole](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeleteRole)
  + [DeleteUser](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeleteUser)
  + [DeleteUserPolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeleteUserPolicy)
  + [DetachRolePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DetachRolePolicy)
  + [PutUserPolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/PutUserPolicy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::attachRolePolicy(const Aws::String &roleName,
                                   const Aws::String &policyArn,
                                   const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::ListAttachedRolePoliciesRequest list_request;
    list_request.SetRoleName(roleName);

    bool done = false;
    while (!done) {
        auto list_outcome = iam.ListAttachedRolePolicies(list_request);
        if (!list_outcome.IsSuccess()) {
            std::cerr << "Failed to list attached policies of role " <<
                      roleName << ": " << list_outcome.GetError().GetMessage() <<
                      std::endl;
            return false;
        }

        const auto &policies = list_outcome.GetResult().GetAttachedPolicies();
        if (std::any_of(policies.cbegin(), policies.cend(),
                        [=](const Aws::IAM::Model::AttachedPolicy &policy) {
                                return policy.GetPolicyArn() == policyArn;
                        })) {
            std::cout << "Policy " << policyArn <<
                      " is already attached to role " << roleName << std::endl;
            return true;
        }

        done = !list_outcome.GetResult().GetIsTruncated();
        list_request.SetMarker(list_outcome.GetResult().GetMarker());
    }

    Aws::IAM::Model::AttachRolePolicyRequest request;
    request.SetRoleName(roleName);
    request.SetPolicyArn(policyArn);

    Aws::IAM::Model::AttachRolePolicyOutcome outcome = iam.AttachRolePolicy(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Failed to attach policy " << policyArn << " to role " <<
                  roleName << ": " << outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Successfully attached policy " << policyArn << " to role " <<
                  roleName << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/AttachRolePolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
Aws::String AwsDoc::IAM::createAccessKey(const Aws::String &userName,
                                         const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::CreateAccessKeyRequest request;
    request.SetUserName(userName);

    Aws::String result;
    Aws::IAM::Model::CreateAccessKeyOutcome outcome = iam.CreateAccessKey(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Error creating access key for IAM user " << userName
                  << ":" << outcome.GetError().GetMessage() << std::endl;
    }
    else {
        const auto &accessKey = outcome.GetResult().GetAccessKey();
        std::cout << "Successfully created access key for IAM user " <<
                  userName << std::endl << "  aws_access_key_id = " <<
                  accessKey.GetAccessKeyId() << std::endl <<
                  " aws_secret_access_key = " << accessKey.GetSecretAccessKey() <<
                  std::endl;
        result = accessKey.GetAccessKeyId();
    }

    return result;
}
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreateAccessKey)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateAccountAlias`
<a name="iam_CreateAccountAlias_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccountAlias`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::createAccountAlias(const Aws::String &aliasName,
                                     const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::CreateAccountAliasRequest request;
    request.SetAccountAlias(aliasName);

    Aws::IAM::Model::CreateAccountAliasOutcome outcome = iam.CreateAccountAlias(
            request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Error creating account alias " << aliasName << ": "
                  << outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Successfully created account alias " << aliasName <<
                  std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreateAccountAlias)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
Aws::String AwsDoc::IAM::createPolicy(const Aws::String &policyName,
                                      const Aws::String &rsrcArn,
                                      const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::CreatePolicyRequest request;
    request.SetPolicyName(policyName);
    request.SetPolicyDocument(BuildSamplePolicyDocument(rsrcArn));

    Aws::IAM::Model::CreatePolicyOutcome outcome = iam.CreatePolicy(request);
    Aws::String result;
    if (!outcome.IsSuccess()) {
        std::cerr << "Error creating policy " << policyName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        result = outcome.GetResult().GetPolicy().GetArn();
        std::cout << "Successfully created policy " << policyName <<
                  std::endl;
    }

    return result;
}

Aws::String AwsDoc::IAM::BuildSamplePolicyDocument(const Aws::String &rsrc_arn) {
    std::stringstream stringStream;
    stringStream << "{"
                 << "  \"Version\": \"2012-10-17\","
                 << "  \"Statement\": ["
                 << "    {"
                 << "        \"Effect\": \"Allow\","
                 << "        \"Action\": \"logs:CreateLogGroup\","
                 << "        \"Resource\": \""
                 << rsrc_arn
                 << "\""
                 << "    },"
                 << "    {"
                 << "        \"Effect\": \"Allow\","
                 << "        \"Action\": ["
                 << "            \"dynamodb:DeleteItem\","
                 << "            \"dynamodb:GetItem\","
                 << "            \"dynamodb:PutItem\","
                 << "            \"dynamodb:Scan\","
                 << "            \"dynamodb:UpdateItem\""
                 << "       ],"
                 << "       \"Resource\": \""
                 << rsrc_arn
                 << "\""
                 << "    }"
                 << "   ]"
                 << "}";

    return stringStream.str();
}
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreatePolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateRole`
<a name="iam_CreateRole_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::createIamRole(
        const Aws::String &roleName,
        const Aws::String &policy,
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient client(clientConfig);
    Aws::IAM::Model::CreateRoleRequest request;

    request.SetRoleName(roleName);
    request.SetAssumeRolePolicyDocument(policy);

    Aws::IAM::Model::CreateRoleOutcome outcome = client.CreateRole(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Error creating role. " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        const Aws::IAM::Model::Role iamRole = outcome.GetResult().GetRole();
        std::cout << "Created role " << iamRole.GetRoleName() << "\n";
        std::cout << "ID: " << iamRole.GetRoleId() << "\n";
        std::cout << "ARN: " << iamRole.GetArn() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreateRole)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateUser`
<a name="iam_CreateUser_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::CreateUserRequest create_request;
    create_request.SetUserName(userName);

    auto create_outcome = iam.CreateUser(create_request);
    if (!create_outcome.IsSuccess()) {
        std::cerr << "Error creating IAM user " << userName << ":" <<
                  create_outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Successfully created IAM user " << userName << std::endl;
    }

    return create_outcome.IsSuccess();
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/CreateUser)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::deleteAccessKey(const Aws::String &userName,
                                  const Aws::String &accessKeyID,
                                  const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::DeleteAccessKeyRequest request;
    request.SetUserName(userName);
    request.SetAccessKeyId(accessKeyID);

    auto outcome = iam.DeleteAccessKey(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error deleting access key " << accessKeyID << " from user "
                  << userName << ": " << outcome.GetError().GetMessage() <<
                  std::endl;
    }
    else {
        std::cout << "Successfully deleted access key " << accessKeyID
                  << " for IAM user " << userName << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeleteAccessKey)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteAccountAlias`
<a name="iam_DeleteAccountAlias_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccountAlias`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::deleteAccountAlias(const Aws::String &accountAlias,
                                     const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::DeleteAccountAliasRequest request;
    request.SetAccountAlias(accountAlias);

    const auto outcome = iam.DeleteAccountAlias(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Error deleting account alias " << accountAlias << ": "
                  << outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Successfully deleted account alias " << accountAlias <<
                  std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeleteAccountAlias)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::deletePolicy(const Aws::String &policyArn,
                               const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::DeletePolicyRequest request;
    request.SetPolicyArn(policyArn);

    auto outcome = iam.DeletePolicy(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Error deleting policy with arn " << policyArn << ": "
                  << outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Successfully deleted policy with arn " << policyArn
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeletePolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteServerCertificate`
<a name="iam_DeleteServerCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteServerCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::deleteServerCertificate(const Aws::String &certificateName,
                                          const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::DeleteServerCertificateRequest request;
    request.SetServerCertificateName(certificateName);

    const auto outcome = iam.DeleteServerCertificate(request);
    bool result = true;
    if (!outcome.IsSuccess()) {
        if (outcome.GetError().GetErrorType() != Aws::IAM::IAMErrors::NO_SUCH_ENTITY) {
            std::cerr << "Error deleting server certificate " << certificateName <<
                      ": " << outcome.GetError().GetMessage() << std::endl;
            result = false;
        }
        else {
            std::cout << "Certificate '" << certificateName
                      << "' not found." << std::endl;
        }
    }
    else {
        std::cout << "Successfully deleted server certificate " << certificateName
                  << std::endl;
    }

    return result;
}
```
+  Untuk detail API, lihat [DeleteServerCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeleteServerCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteUser`
<a name="iam_DeleteUser_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::DeleteUserRequest request;
    request.SetUserName(userName);
    auto outcome = iam.DeleteUser(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Error deleting IAM user " << userName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;;
    }
    else {
        std::cout << "Successfully deleted IAM user " << userName << std::endl;
    }

    return outcome.IsSuccess();
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DeleteUser)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::DetachRolePolicyRequest detachRequest;
    detachRequest.SetRoleName(roleName);
    detachRequest.SetPolicyArn(policyArn);

    auto detachOutcome = iam.DetachRolePolicy(detachRequest);
    if (!detachOutcome.IsSuccess()) {
        std::cerr << "Failed to detach policy " << policyArn << " from role "
                  << roleName << ": " << detachOutcome.GetError().GetMessage() <<
                  std::endl;
    }
    else {
        std::cout << "Successfully detached policy " << policyArn << " from role "
                  << roleName << std::endl;
    }

    return detachOutcome.IsSuccess();
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/DetachRolePolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetAccessKeyLastUsed`
<a name="iam_GetAccessKeyLastUsed_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccessKeyLastUsed`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::accessKeyLastUsed(const Aws::String &secretKeyID,
                                    const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::GetAccessKeyLastUsedRequest request;

    request.SetAccessKeyId(secretKeyID);

    Aws::IAM::Model::GetAccessKeyLastUsedOutcome outcome = iam.GetAccessKeyLastUsed(
            request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error querying last used time for access key " <<
                  secretKeyID << ":" << outcome.GetError().GetMessage() << std::endl;
    }
    else {
        Aws::String lastUsedTimeString =
                outcome.GetResult()
                        .GetAccessKeyLastUsed()
                        .GetLastUsedDate()
                        .ToGmtString(Aws::Utils::DateFormat::ISO_8601);
        std::cout << "Access key " << secretKeyID << " last used at time " <<
                  lastUsedTimeString << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetAccessKeyLastUsed](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/GetAccessKeyLastUsed)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetPolicy`
<a name="iam_GetPolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::getPolicy(const Aws::String &policyArn,
                            const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::GetPolicyRequest request;
    request.SetPolicyArn(policyArn);

    auto outcome = iam.GetPolicy(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Error getting policy " << policyArn << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        const auto &policy = outcome.GetResult().GetPolicy();
        std::cout << "Name: " << policy.GetPolicyName() << std::endl <<
                  "ID: " << policy.GetPolicyId() << std::endl << "Arn: " <<
                  policy.GetArn() << std::endl << "Description: " <<
                  policy.GetDescription() << std::endl << "CreateDate: " <<
                  policy.GetCreateDate().ToGmtString(Aws::Utils::DateFormat::ISO_8601)
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/GetPolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetServerCertificate`
<a name="iam_GetServerCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetServerCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::getServerCertificate(const Aws::String &certificateName,
                                       const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::GetServerCertificateRequest request;
    request.SetServerCertificateName(certificateName);

    auto outcome = iam.GetServerCertificate(request);
    bool result = true;
    if (!outcome.IsSuccess()) {
        if (outcome.GetError().GetErrorType() != Aws::IAM::IAMErrors::NO_SUCH_ENTITY) {
            std::cerr << "Error getting server certificate " << certificateName <<
                      ": " << outcome.GetError().GetMessage() << std::endl;
            result = false;
        }
        else {
            std::cout << "Certificate '" << certificateName
                      << "' not found." << std::endl;
        }
    }
    else {
        const auto &certificate = outcome.GetResult().GetServerCertificate();
        std::cout << "Name: " <<
                  certificate.GetServerCertificateMetadata().GetServerCertificateName()
                  << std::endl << "Body: " << certificate.GetCertificateBody() <<
                  std::endl << "Chain: " << certificate.GetCertificateChain() <<
                  std::endl;
    }

    return result;
}
```
+  Untuk detail API, lihat [GetServerCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/GetServerCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::listAccessKeys(const Aws::String &userName,
                                 const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::ListAccessKeysRequest request;
    request.SetUserName(userName);

    bool done = false;
    bool header = false;
    while (!done) {
        auto outcome = iam.ListAccessKeys(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to list access keys for user " << userName
                      << ": " << outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        if (!header) {
            std::cout << std::left << std::setw(32) << "UserName" <<
                      std::setw(30) << "KeyID" << std::setw(20) << "Status" <<
                      std::setw(20) << "CreateDate" << std::endl;
            header = true;
        }

        const auto &keys = outcome.GetResult().GetAccessKeyMetadata();
        const Aws::String DATE_FORMAT = "%Y-%m-%d";

        for (const auto &key: keys) {
            Aws::String statusString =
                    Aws::IAM::Model::StatusTypeMapper::GetNameForStatusType(
                            key.GetStatus());
            std::cout << std::left << std::setw(32) << key.GetUserName() <<
                      std::setw(30) << key.GetAccessKeyId() << std::setw(20) <<
                      statusString << std::setw(20) <<
                      key.GetCreateDate().ToGmtString(DATE_FORMAT.c_str()) << std::endl;
        }

        if (outcome.GetResult().GetIsTruncated()) {
            request.SetMarker(outcome.GetResult().GetMarker());
        }
        else {
            done = true;
        }
    }

    return true;
}
```
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/ListAccessKeys)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListAccountAliases`
<a name="iam_ListAccountAliases_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccountAliases`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool
AwsDoc::IAM::listAccountAliases(const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::ListAccountAliasesRequest request;

    bool done = false;
    bool header = false;
    while (!done) {
        auto outcome = iam.ListAccountAliases(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to list account aliases: " <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        const auto &aliases = outcome.GetResult().GetAccountAliases();
        if (!header) {
            if (aliases.size() == 0) {
                std::cout << "Account has no aliases" << std::endl;
                break;
            }
            std::cout << std::left << std::setw(32) << "Alias" << std::endl;
            header = true;
        }

        for (const auto &alias: aliases) {
            std::cout << std::left << std::setw(32) << alias << std::endl;
        }

        if (outcome.GetResult().GetIsTruncated()) {
            request.SetMarker(outcome.GetResult().GetMarker());
        }
        else {
            done = true;
        }
    }

    return true;
}
```
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/ListAccountAliases)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListPolicies`
<a name="iam_ListPolicies_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::listPolicies(const Aws::Client::ClientConfiguration &clientConfig) {
    const Aws::String DATE_FORMAT("%Y-%m-%d");
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::ListPoliciesRequest request;

    bool done = false;
    bool header = false;
    while (!done) {
        auto outcome = iam.ListPolicies(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to list iam policies: " <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        if (!header) {
            std::cout << std::left << std::setw(55) << "Name" <<
                      std::setw(30) << "ID" << std::setw(80) << "Arn" <<
                      std::setw(64) << "Description" << std::setw(12) <<
                      "CreateDate" << std::endl;
            header = true;
        }

        const auto &policies = outcome.GetResult().GetPolicies();
        for (const auto &policy: policies) {
            std::cout << std::left << std::setw(55) <<
                      policy.GetPolicyName() << std::setw(30) <<
                      policy.GetPolicyId() << std::setw(80) << policy.GetArn() <<
                      std::setw(64) << policy.GetDescription() << std::setw(12) <<
                      policy.GetCreateDate().ToGmtString(DATE_FORMAT.c_str()) <<
                      std::endl;
        }

        if (outcome.GetResult().GetIsTruncated()) {
            request.SetMarker(outcome.GetResult().GetMarker());
        }
        else {
            done = true;
        }
    }

    return true;
}
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/ListPolicies)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListServerCertificates`
<a name="iam_ListServerCertificates_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListServerCertificates`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::listServerCertificates(
        const Aws::Client::ClientConfiguration &clientConfig) {
    const Aws::String DATE_FORMAT = "%Y-%m-%d";

    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::ListServerCertificatesRequest request;

    bool done = false;
    bool header = false;
    while (!done) {
        auto outcome = iam.ListServerCertificates(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to list server certificates: " <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        if (!header) {
            std::cout << std::left << std::setw(55) << "Name" <<
                      std::setw(30) << "ID" << std::setw(80) << "Arn" <<
                      std::setw(14) << "UploadDate" << std::setw(14) <<
                      "ExpirationDate" << std::endl;
            header = true;
        }

        const auto &certificates =
                outcome.GetResult().GetServerCertificateMetadataList();

        for (const auto &certificate: certificates) {
            std::cout << std::left << std::setw(55) <<
                      certificate.GetServerCertificateName() << std::setw(30) <<
                      certificate.GetServerCertificateId() << std::setw(80) <<
                      certificate.GetArn() << std::setw(14) <<
                      certificate.GetUploadDate().ToGmtString(DATE_FORMAT.c_str()) <<
                      std::setw(14) <<
                      certificate.GetExpiration().ToGmtString(DATE_FORMAT.c_str()) <<
                      std::endl;
        }

        if (outcome.GetResult().GetIsTruncated()) {
            request.SetMarker(outcome.GetResult().GetMarker());
        }
        else {
            done = true;
        }
    }

    return true;
}
```
+  Untuk detail API, lihat [ListServerCertificates](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/ListServerCertificates)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListUsers`
<a name="iam_ListUsers_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::listUsers(const Aws::Client::ClientConfiguration &clientConfig) {
    const Aws::String DATE_FORMAT = "%Y-%m-%d";
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::ListUsersRequest request;

    bool done = false;
    bool header = false;
    while (!done) {
        auto outcome = iam.ListUsers(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Failed to list iam users:" <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        if (!header) {
            std::cout << std::left << std::setw(32) << "Name" <<
                      std::setw(30) << "ID" << std::setw(64) << "Arn" <<
                      std::setw(20) << "CreateDate" << std::endl;
            header = true;
        }

        const auto &users = outcome.GetResult().GetUsers();
        for (const auto &user: users) {
            std::cout << std::left << std::setw(32) << user.GetUserName() <<
                      std::setw(30) << user.GetUserId() << std::setw(64) <<
                      user.GetArn() << std::setw(20) <<
                      user.GetCreateDate().ToGmtString(DATE_FORMAT.c_str())
                      << std::endl;
        }

        if (outcome.GetResult().GetIsTruncated()) {
            request.SetMarker(outcome.GetResult().GetMarker());
        }
        else {
            done = true;
        }
    }

    return true;
}
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/ListUsers)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutRolePolicy`
<a name="iam_PutRolePolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRolePolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::putRolePolicy(
        const Aws::String &roleName,
        const Aws::String &policyName,
        const Aws::String &policyDocument,
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iamClient(clientConfig);
    Aws::IAM::Model::PutRolePolicyRequest request;

    request.SetRoleName(roleName);
    request.SetPolicyName(policyName);
    request.SetPolicyDocument(policyDocument);

    Aws::IAM::Model::PutRolePolicyOutcome outcome = iamClient.PutRolePolicy(request);
    if (!outcome.IsSuccess()) {
        std::cerr << "Error putting policy on role. " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Successfully put the role policy." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [PutRolePolicy](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/PutRolePolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateAccessKey`
<a name="iam_UpdateAccessKey_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAccessKey`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::updateAccessKey(const Aws::String &userName,
                                  const Aws::String &accessKeyID,
                                  Aws::IAM::Model::StatusType status,
                                  const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::UpdateAccessKeyRequest request;
    request.SetUserName(userName);
    request.SetAccessKeyId(accessKeyID);
    request.SetStatus(status);

    auto outcome = iam.UpdateAccessKey(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully updated status of access key "
                  << accessKeyID << " for user " << userName << std::endl;
    }
    else {
        std::cerr << "Error updated status of access key " << accessKeyID <<
                  " for user " << userName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/UpdateAccessKey)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateServerCertificate`
<a name="iam_UpdateServerCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateServerCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::updateServerCertificate(const Aws::String &currentCertificateName,
                                          const Aws::String &newCertificateName,
                                          const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);
    Aws::IAM::Model::UpdateServerCertificateRequest request;
    request.SetServerCertificateName(currentCertificateName);
    request.SetNewServerCertificateName(newCertificateName);

    auto outcome = iam.UpdateServerCertificate(request);
    bool result = true;
    if (outcome.IsSuccess()) {
        std::cout << "Server certificate " << currentCertificateName
                  << " successfully renamed as " << newCertificateName
                  << std::endl;
    }
    else {
        if (outcome.GetError().GetErrorType() != Aws::IAM::IAMErrors::NO_SUCH_ENTITY) {
            std::cerr << "Error changing name of server certificate " <<
                      currentCertificateName << " to " << newCertificateName << ":" <<
                      outcome.GetError().GetMessage() << std::endl;
            result = false;
        }
        else {
            std::cout << "Certificate '" << currentCertificateName
                      << "' not found." << std::endl;
        }
    }

    return result;
}
```
+  Untuk detail API, lihat [UpdateServerCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/UpdateServerCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateUser`
<a name="iam_UpdateUser_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUser`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iam#code-examples). 

```
bool AwsDoc::IAM::updateUser(const Aws::String &currentUserName,
                             const Aws::String &newUserName,
                             const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::IAM::IAMClient iam(clientConfig);

    Aws::IAM::Model::UpdateUserRequest request;
    request.SetUserName(currentUserName);
    request.SetNewUserName(newUserName);

    auto outcome = iam.UpdateUser(request);
    if (outcome.IsSuccess()) {
        std::cout << "IAM user " << currentUserName <<
                  " successfully updated with new user name " << newUserName <<
                  std::endl;
    }
    else {
        std::cerr << "Error updating user name for IAM user " << currentUserName <<
                  ":" << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/goto/SdkForCpp/iam-2010-05-08/UpdateUser)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# AWS IoT contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_iot_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with AWS IoT.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT
<a name="iot_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT.

**SDK untuk C\$1\$1**  
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS iot)

# Set this project's name.
project("hello_iot")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
    # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

    # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this
    # and set the proper subdirectory to the executables' location.

    AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_iot.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1iot.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/iot/IoTClient.h>
#include <aws/iot/model/ListThingsRequest.h>
#include <iostream>

/*
 *  A "Hello IoT" starter application which initializes an AWS IoT client and
 *  lists the AWS IoT topics in the current account.
 *
 *  main function
 *
 *  Usage: 'hello_iot'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    //  Optional: change the log level for debugging.
    //  options.loggingOptions.logLevel = Aws::Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::IoT::IoTClient iotClient(clientConfig);
        // List the things in the current account.
        Aws::IoT::Model::ListThingsRequest listThingsRequest;

        Aws::String nextToken; // Used for pagination.
        Aws::Vector<Aws::IoT::Model::ThingAttribute> allThings;

        do {
            if (!nextToken.empty()) {
                listThingsRequest.SetNextToken(nextToken);
            }

            Aws::IoT::Model::ListThingsOutcome listThingsOutcome = iotClient.ListThings(
                    listThingsRequest);
            if (listThingsOutcome.IsSuccess()) {
                const Aws::Vector<Aws::IoT::Model::ThingAttribute> &things = listThingsOutcome.GetResult().GetThings();
                allThings.insert(allThings.end(), things.begin(), things.end());
                nextToken = listThingsOutcome.GetResult().GetNextToken();
            }
            else {
                std::cerr << "List things failed"
                          << listThingsOutcome.GetError().GetMessage() << std::endl;
                break;
            }
        } while (!nextToken.empty());

        std::cout << allThings.size() << " thing(s) found." << std::endl;
        for (auto const &thing: allThings) {
            std::cout << thing.GetThingName() << std::endl;
        }
    }

    Aws::ShutdownAPI(options); // Should only be called once.
    return 0;
}
```
+  Untuk detail API, lihat [ListThings](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/listThings) di *Referensi AWS SDK untuk C\$1\$1 API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot/hello_iot#code-examples). 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iot_Scenario_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat AWS IoT Sesuatu.
+ Hasilkan sertifikat perangkat.
+ Perbarui AWS IoT Sesuatu dengan Atribut.
+ Kembalikan titik akhir yang unik.
+ Buat daftar AWS IoT sertifikat Anda.
+ Perbarui AWS IoT bayangan.
+ Tuliskan informasi negara.
+ Menciptakan aturan.
+ Buat daftar aturan Anda.
+ Cari sesuatu menggunakan nama Thing.
+ Hapus AWS IoT sesuatu.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot/things_and_shadows_workflow#code-examples). 
Buat AWS IoT sesuatu.  

```
    Aws::String thingName = askQuestion("Enter a thing name: ");

    if (!createThing(thingName, clientConfiguration)) {
        std::cerr << "Exiting because createThing failed." << std::endl;
        cleanup("", "", "", "", "", false, clientConfiguration);
        return false;
    }
```

```
//! Create an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::createThing(const Aws::String &thingName,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::CreateThingRequest createThingRequest;
    createThingRequest.SetThingName(thingName);

    Aws::IoT::Model::CreateThingOutcome outcome = iotClient.CreateThing(
            createThingRequest);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully created thing " << thingName << std::endl;
    }
    else {
        std::cerr << "Failed to create thing " << thingName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
Hasilkan dan lampirkan sertifikat perangkat.  

```
    Aws::String certificateARN;
    Aws::String certificateID;
    if (askYesNoQuestion("Would you like to create a certificate for your thing? (y/n) ")) {
        Aws::String outputFolder;
        if (askYesNoQuestion(
                "Would you like to save the certificate and keys to file? (y/n) ")) {
            outputFolder = std::filesystem::current_path();
            outputFolder += "/device_keys_and_certificates";

            std::filesystem::create_directories(outputFolder);

            std::cout << "The certificate and keys will be saved to the folder: "
                      << outputFolder << std::endl;
        }

        if (!createKeysAndCertificate(outputFolder, certificateARN, certificateID,
                                      clientConfiguration)) {
            std::cerr << "Exiting because createKeysAndCertificate failed."
                      << std::endl;
            cleanup(thingName, "", "", "", "", false, clientConfiguration);
            return false;
        }

        std::cout << "\nNext, the certificate will be attached to the thing.\n"
                  << std::endl;
        if (!attachThingPrincipal(certificateARN, thingName, clientConfiguration)) {
            std::cerr << "Exiting because attachThingPrincipal failed." << std::endl;
            cleanup(thingName, certificateARN, certificateID, "", "",
                    false,
                    clientConfiguration);
            return false;
        }
    }
```

```
//! Create keys and certificate for an Aws IoT device.
//! This routine will save certificates and keys to an output folder, if provided.
/*!
  \param outputFolder: Location for storing output in files, ignored when string is empty.
  \param certificateARNResult: A string to receive the ARN of the created certificate.
  \param certificateID: A string to receive the ID of the created certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::createKeysAndCertificate(const Aws::String &outputFolder,
                                           Aws::String &certificateARNResult,
                                           Aws::String &certificateID,
                                           const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient client(clientConfiguration);
    Aws::IoT::Model::CreateKeysAndCertificateRequest createKeysAndCertificateRequest;

    Aws::IoT::Model::CreateKeysAndCertificateOutcome outcome =
            client.CreateKeysAndCertificate(createKeysAndCertificateRequest);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully created a certificate and keys" << std::endl;
        certificateARNResult = outcome.GetResult().GetCertificateArn();
        certificateID = outcome.GetResult().GetCertificateId();
        std::cout << "Certificate ARN: " << certificateARNResult << ", certificate ID: "
                  << certificateID << std::endl;

        if (!outputFolder.empty()) {
            std::cout << "Writing certificate and keys to the folder '" << outputFolder
                      << "'." << std::endl;
            std::cout << "Be sure these files are stored securely." << std::endl;

            Aws::String certificateFilePath = outputFolder + "/certificate.pem.crt";
            std::ofstream certificateFile(certificateFilePath);
            if (!certificateFile.is_open()) {
                std::cerr << "Error opening certificate file, '" << certificateFilePath
                          << "'."
                          << std::endl;
                return false;
            }
            certificateFile << outcome.GetResult().GetCertificatePem();
            certificateFile.close();

            const Aws::IoT::Model::KeyPair &keyPair = outcome.GetResult().GetKeyPair();

            Aws::String privateKeyFilePath = outputFolder + "/private.pem.key";
            std::ofstream privateKeyFile(privateKeyFilePath);
            if (!privateKeyFile.is_open()) {
                std::cerr << "Error opening private key file, '" << privateKeyFilePath
                          << "'."
                          << std::endl;
                return false;
            }
            privateKeyFile << keyPair.GetPrivateKey();
            privateKeyFile.close();

            Aws::String publicKeyFilePath = outputFolder + "/public.pem.key";
            std::ofstream publicKeyFile(publicKeyFilePath);
            if (!publicKeyFile.is_open()) {
                std::cerr << "Error opening public key file, '" << publicKeyFilePath
                          << "'."
                          << std::endl;
                return false;
            }
            publicKeyFile << keyPair.GetPublicKey();
        }
    }
    else {
        std::cerr << "Error creating keys and certificate: "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}

//! Attach a principal to an AWS IoT thing.
/*!
  \param principal: A principal to attach.
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::attachThingPrincipal(const Aws::String &principal,
                                       const Aws::String &thingName,
                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient client(clientConfiguration);
    Aws::IoT::Model::AttachThingPrincipalRequest request;
    request.SetPrincipal(principal);
    request.SetThingName(thingName);
    Aws::IoT::Model::AttachThingPrincipalOutcome outcome = client.AttachThingPrincipal(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully attached principal to thing." << std::endl;
    }
    else {
        std::cerr << "Failed to attach principal to thing." <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
Lakukan berbagai operasi pada AWS IoT benda itu.  

```
    if (!updateThing(thingName, { {"location", "Office"}, {"firmwareVersion", "v2.0"} }, clientConfiguration)) {
        std::cerr << "Exiting because updateThing failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, "", "", false,
                clientConfiguration);
        return false;
    }

    printAsterisksLine();

    std::cout << "Now an endpoint will be retrieved for your account.\n" << std::endl;
    std::cout << "An IoT Endpoint refers to a specific URL or Uniform Resource Locator that serves as the entry point\n"
    << "for communication between IoT devices and the AWS IoT service." << std::endl;

    askQuestion("Press Enter to continue:", alwaysTrueTest);

    Aws::String endpoint;
    if (!describeEndpoint(endpoint, clientConfiguration)) {
        std::cerr << "Exiting because getEndpoint failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, "", "", false,
                clientConfiguration);
        return false;
    }
    std::cout <<"Your endpoint is " << endpoint << "." << std::endl;
    printAsterisksLine();

    std::cout << "Now the certificates in your account will be listed." << std::endl;
    askQuestion("Press Enter to continue:", alwaysTrueTest);

    if (!listCertificates(clientConfiguration)) {
        std::cerr << "Exiting because listCertificates failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, "", "", false,
                clientConfiguration);
        return false;
    }

    printAsterisksLine();

    std::cout << "Now the shadow for the thing will be updated.\n" << std::endl;
    std::cout << "A thing shadow refers to a feature that enables you to create a virtual representation, or \"shadow,\"\n"
    << "of a physical device or thing. The thing shadow allows you to synchronize and control the state of a device between\n"
    << "the cloud and the device itself. and the AWS IoT service. For example, you can write and retrieve JSON data from a thing shadow." << std::endl;
    askQuestion("Press Enter to continue:", alwaysTrueTest);

    if (!updateThingShadow(thingName, R"({"state":{"reported":{"temperature":25,"humidity":50}}})", clientConfiguration)) {
        std::cerr << "Exiting because updateThingShadow failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, "", "", false,
                clientConfiguration);
        return false;
    }

    printAsterisksLine();

    std::cout << "Now, the state information for the shadow will be retrieved.\n" << std::endl;
    askQuestion("Press Enter to continue:", alwaysTrueTest);

    Aws::String shadowState;
    if (!getThingShadow(thingName, shadowState, clientConfiguration)) {
        std::cerr << "Exiting because getThingShadow failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, "", "", false,
                clientConfiguration);
        return false;
    }
    std::cout << "The retrieved shadow state is: " << shadowState << std::endl;

    printAsterisksLine();

    std::cout << "A rule with now be added to to the thing.\n" << std::endl;
    std::cout << "Any user who has permission to create rules will be able to access data processed by the rule." << std::endl;
    std::cout << "In this case, the rule will use an Simple Notification Service (SNS) topic and an IAM rule." << std::endl;
    std::cout << "These resources will be created using a CloudFormation template." << std::endl;
    std::cout << "Stack creation may take a few minutes." << std::endl;

    askQuestion("Press Enter to continue: ", alwaysTrueTest);
    Aws::Map<Aws::String, Aws::String> outputs =createCloudFormationStack(STACK_NAME,clientConfiguration);
    if (outputs.empty()) {
        std::cerr << "Exiting because createCloudFormationStack failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, "", "", false,
                clientConfiguration);
        return false;
    }

    // Retrieve the topic ARN and role ARN from the CloudFormation stack outputs.
    auto topicArnIter = outputs.find(SNS_TOPIC_ARN_OUTPUT);
    auto roleArnIter = outputs.find(ROLE_ARN_OUTPUT);
    if ((topicArnIter == outputs.end()) || (roleArnIter == outputs.end())) {
        std::cerr << "Exiting because output '" << SNS_TOPIC_ARN_OUTPUT <<
        "' or '" << ROLE_ARN_OUTPUT << "'not found in the CloudFormation stack."  << std::endl;
        cleanup(thingName, certificateARN, certificateID, STACK_NAME, "",
                false,
                clientConfiguration);
        return false;
    }

    Aws::String topicArn = topicArnIter->second;
    Aws::String roleArn = roleArnIter->second;
    Aws::String sqlStatement = "SELECT * FROM '";
    sqlStatement += MQTT_MESSAGE_TOPIC_FILTER;
    sqlStatement += "'";

    printAsterisksLine();

    std::cout << "Now a rule will be created.\n" << std::endl;
    std::cout << "Rules are an administrator-level action. Any user who has permission\n"
                 << "to create rules will be able to access data processed by the rule." << std::endl;
    std::cout << "In this case, the rule will use an SNS topic" << std::endl;
    std::cout << "and the following SQL statement '" << sqlStatement << "'." << std::endl;
    std::cout << "For more information on IoT SQL, see https://docs.aws.amazon.com/iot/latest/developerguide/iot-sql-reference.html" << std::endl;
    Aws::String ruleName = askQuestion("Enter a rule name: ");
    if (!createTopicRule(ruleName, topicArn, sqlStatement, roleArn, clientConfiguration)) {
        std::cerr << "Exiting because createRule failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, STACK_NAME, "",
                false,
                clientConfiguration);
        return false;
    }

    printAsterisksLine();

    std::cout << "Now your rules will be listed.\n" << std::endl;
    askQuestion("Press Enter to continue: ", alwaysTrueTest);
    if (!listTopicRules(clientConfiguration)) {
        std::cerr << "Exiting because listRules failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, STACK_NAME, ruleName,
                false,
                clientConfiguration);
        return false;
    }

    printAsterisksLine();
    Aws::String queryString = "thingName:" + thingName;
    std::cout << "Now the AWS IoT fleet index will be queried with the query\n'"
    << queryString << "'.\n" << std::endl;
    std::cout << "For query information, see https://docs.aws.amazon.com/iot/latest/developerguide/query-syntax.html" << std::endl;

    std::cout << "For this query to work, thing indexing must be enabled in your account.\n"
    << "This can be done with the awscli command line by calling 'aws iot update-indexing-configuration'\n"
       << "or it can be done programmatically." << std::endl;
    std::cout << "For more information, see https://docs.aws.amazon.com/iot/latest/developerguide/managing-index.html" << std::endl;
    if (askYesNoQuestion("Do you want to enable thing indexing in your account? (y/n) "))
    {
        Aws::IoT::Model::ThingIndexingConfiguration thingIndexingConfiguration;
        thingIndexingConfiguration.SetThingIndexingMode(Aws::IoT::Model::ThingIndexingMode::REGISTRY_AND_SHADOW);
        thingIndexingConfiguration.SetThingConnectivityIndexingMode(Aws::IoT::Model::ThingConnectivityIndexingMode::STATUS);
        // The ThingGroupIndexingConfiguration object is ignored if not set.
        Aws::IoT::Model::ThingGroupIndexingConfiguration thingGroupIndexingConfiguration;
        if (!updateIndexingConfiguration(thingIndexingConfiguration, thingGroupIndexingConfiguration, clientConfiguration)) {
            std::cerr << "Exiting because updateIndexingConfiguration failed." << std::endl;
            cleanup(thingName, certificateARN, certificateID, STACK_NAME,
                    ruleName, false,
                    clientConfiguration);
            return false;
        }
    }

    if (!searchIndex(queryString, clientConfiguration)) {

        std::cerr << "Exiting because searchIndex failed." << std::endl;
        cleanup(thingName, certificateARN, certificateID, STACK_NAME, ruleName,
                false,
                clientConfiguration);
        return false;
    }
```

```
//! Update an AWS IoT thing with attributes.
/*!
  \param thingName: The name for the thing.
  \param attributeMap: A map of key/value attributes/
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::updateThing(const Aws::String &thingName,
                              const std::map<Aws::String, Aws::String> &attributeMap,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::UpdateThingRequest request;
    request.SetThingName(thingName);
    Aws::IoT::Model::AttributePayload attributePayload;
    for (const auto &attribute: attributeMap) {
        attributePayload.AddAttributes(attribute.first, attribute.second);
    }
    request.SetAttributePayload(attributePayload);

    Aws::IoT::Model::UpdateThingOutcome outcome = iotClient.UpdateThing(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully updated thing " << thingName << std::endl;
    }
    else {
        std::cerr << "Failed to update thing " << thingName << ":" <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}

//! Describe the endpoint specific to the AWS account making the call.
/*!
  \param endpointResult: String to receive the endpoint result.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::describeEndpoint(Aws::String &endpointResult,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::String endpoint;
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::DescribeEndpointRequest describeEndpointRequest;
    describeEndpointRequest.SetEndpointType(
            "iot:Data-ATS"); // Recommended endpoint type.

    Aws::IoT::Model::DescribeEndpointOutcome outcome = iotClient.DescribeEndpoint(
            describeEndpointRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully described endpoint." << std::endl;
        endpointResult = outcome.GetResult().GetEndpointAddress();
    }
    else {
        std::cerr << "Error describing endpoint" << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}

//! List certificates registered in the AWS account making the call.
/*!
   \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::listCertificates(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::ListCertificatesRequest request;

    Aws::Vector<Aws::IoT::Model::Certificate> allCertificates;
    Aws::String marker; // Used to paginate results.
    do {
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::IoT::Model::ListCertificatesOutcome outcome = iotClient.ListCertificates(
                request);

        if (outcome.IsSuccess()) {
            const Aws::IoT::Model::ListCertificatesResult &result = outcome.GetResult();
            marker = result.GetNextMarker();
            allCertificates.insert(allCertificates.end(),
                                   result.GetCertificates().begin(),
                                   result.GetCertificates().end());
        }
        else {
            std::cerr << "Error: " << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    } while (!marker.empty());

    std::cout << allCertificates.size() << " certificate(s) found." << std::endl;

    for (auto &certificate: allCertificates) {
        std::cout << "Certificate ID: " << certificate.GetCertificateId() << std::endl;
        std::cout << "Certificate ARN: " << certificate.GetCertificateArn()
                  << std::endl;
        std::cout << std::endl;
    }

    return true;
}

//! Update the shadow of an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param document: The state information, in JSON format.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::updateThingShadow(const Aws::String &thingName,
                                    const Aws::String &document,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoTDataPlane::IoTDataPlaneClient iotDataPlaneClient(clientConfiguration);
    Aws::IoTDataPlane::Model::UpdateThingShadowRequest updateThingShadowRequest;
    updateThingShadowRequest.SetThingName(thingName);
    std::shared_ptr<std::stringstream> streamBuf = std::make_shared<std::stringstream>(
            document);
    updateThingShadowRequest.SetBody(streamBuf);
    Aws::IoTDataPlane::Model::UpdateThingShadowOutcome outcome = iotDataPlaneClient.UpdateThingShadow(
            updateThingShadowRequest);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully updated thing shadow." << std::endl;
    }
    else {
        std::cerr << "Error while updating thing shadow."
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}

//! Get the shadow of an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param documentResult: String to receive the state information, in JSON format.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::getThingShadow(const Aws::String &thingName,
                                 Aws::String &documentResult,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoTDataPlane::IoTDataPlaneClient iotClient(clientConfiguration);
    Aws::IoTDataPlane::Model::GetThingShadowRequest request;
    request.SetThingName(thingName);
    auto outcome = iotClient.GetThingShadow(request);
    if (outcome.IsSuccess()) {
        std::stringstream ss;
        ss << outcome.GetResult().GetPayload().rdbuf();
        documentResult = ss.str();
    }
    else {
        std::cerr << "Error getting thing shadow: " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}

//! Create an AWS IoT rule with an SNS topic as the target.
/*!
  \param ruleName: The name for the rule.
  \param snsTopic: The SNS topic ARN for the action.
  \param sql: The SQL statement used to query the topic.
  \param roleARN: The IAM role ARN for the action.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool
AwsDoc::IoT::createTopicRule(const Aws::String &ruleName,
                             const Aws::String &snsTopicARN, const Aws::String &sql,
                             const Aws::String &roleARN,
                             const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::CreateTopicRuleRequest request;
    request.SetRuleName(ruleName);

    Aws::IoT::Model::SnsAction snsAction;
    snsAction.SetTargetArn(snsTopicARN);
    snsAction.SetRoleArn(roleARN);

    Aws::IoT::Model::Action action;
    action.SetSns(snsAction);

    Aws::IoT::Model::TopicRulePayload topicRulePayload;
    topicRulePayload.SetSql(sql);
    topicRulePayload.SetActions({action});

    request.SetTopicRulePayload(topicRulePayload);
    auto outcome = iotClient.CreateTopicRule(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully created topic rule " << ruleName << "." << std::endl;
    }
    else {
        std::cerr << "Error creating topic rule " << ruleName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    return outcome.IsSuccess();
}

//! Lists the AWS IoT topic rules.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::listTopicRules(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::ListTopicRulesRequest request;

    Aws::Vector<Aws::IoT::Model::TopicRuleListItem> allRules;
    Aws::String nextToken; // Used for pagination.
    do {
        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        Aws::IoT::Model::ListTopicRulesOutcome outcome = iotClient.ListTopicRules(
                request);

        if (outcome.IsSuccess()) {
            const Aws::IoT::Model::ListTopicRulesResult &result = outcome.GetResult();
            allRules.insert(allRules.end(),
                            result.GetRules().cbegin(),
                            result.GetRules().cend());

            nextToken = result.GetNextToken();
        }
        else {
            std::cerr << "ListTopicRules error: " <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

    } while (!nextToken.empty());

    std::cout << "ListTopicRules: " << allRules.size() << " rule(s) found."
              << std::endl;
    for (auto &rule: allRules) {
        std::cout << "  Rule name: " << rule.GetRuleName() << ", rule ARN: "
                  << rule.GetRuleArn() << "." << std::endl;
    }

    return true;
}

//! Query the AWS IoT fleet index.
//! For query information, see https://docs.aws.amazon.com/iot/latest/developerguide/query-syntax.html
/*!
  \param: query: The query string.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::searchIndex(const Aws::String &query,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::SearchIndexRequest request;
    request.SetQueryString(query);

    Aws::Vector<Aws::IoT::Model::ThingDocument> allThingDocuments;
    Aws::String nextToken; // Used for pagination.
    do {
        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        Aws::IoT::Model::SearchIndexOutcome outcome = iotClient.SearchIndex(request);

        if (outcome.IsSuccess()) {
            const Aws::IoT::Model::SearchIndexResult &result = outcome.GetResult();
            allThingDocuments.insert(allThingDocuments.end(),
                                     result.GetThings().cbegin(),
                                     result.GetThings().cend());
            nextToken = result.GetNextToken();

        }
        else {
            std::cerr << "Error in SearchIndex: " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!nextToken.empty());

    std::cout << allThingDocuments.size() << " thing document(s) found." << std::endl;
    for (const auto thingDocument: allThingDocuments) {
        std::cout << "  Thing name: " << thingDocument.GetThingName() << "."
                  << std::endl;
    }
    return true;
}
```
Pembersihan sumber daya   

```
bool
AwsDoc::IoT::cleanup(const Aws::String &thingName, const Aws::String &certificateARN,
                     const Aws::String &certificateID, const Aws::String &stackName,
                     const Aws::String &ruleName, bool askForConfirmation,
                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    bool result = true;

    if (!ruleName.empty() && (!askForConfirmation ||
                               askYesNoQuestion("Delete the rule '" + ruleName +
                                                "'? (y/n) "))) {
        result &= deleteTopicRule(ruleName, clientConfiguration);
    }

    Aws::CloudFormation::CloudFormationClient cloudFormationClient(clientConfiguration);

    if (!stackName.empty() && (!askForConfirmation ||
                               askYesNoQuestion(
                                       "Delete the CloudFormation stack '" + stackName +
                                       "'? (y/n) "))) {
        result &= deleteStack(stackName, clientConfiguration);
    }

    if (!certificateARN.empty() && (!askForConfirmation ||
                                    askYesNoQuestion("Delete the certificate '" +
                                                     certificateARN + "'? (y/n) "))) {
        result &= detachThingPrincipal(certificateARN, thingName, clientConfiguration);
        result &= deleteCertificate(certificateID, clientConfiguration);
    }

    if (!thingName.empty() && (!askForConfirmation ||
                               askYesNoQuestion("Delete the thing '" + thingName +
                                                "'? (y/n) "))) {
        result &= deleteThing(thingName, clientConfiguration);
    }

    return result;
}
```

```
//! Detach a principal from an AWS IoT thing.
/*!
  \param principal: A principal to detach.
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::detachThingPrincipal(const Aws::String &principal,
                                       const Aws::String &thingName,
                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::DetachThingPrincipalRequest detachThingPrincipalRequest;
    detachThingPrincipalRequest.SetThingName(thingName);
    detachThingPrincipalRequest.SetPrincipal(principal);

    Aws::IoT::Model::DetachThingPrincipalOutcome outcome = iotClient.DetachThingPrincipal(
            detachThingPrincipalRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully detached principal " << principal << " from thing "
                  << thingName << std::endl;
    }
    else {
        std::cerr << "Failed to detach principal " << principal << " from thing "
                  << thingName << ": "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}

//! Delete a certificate.
/*!
  \param certificateID: The ID of a certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::deleteCertificate(const Aws::String &certificateID,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::DeleteCertificateRequest request;
    request.SetCertificateId(certificateID);

    Aws::IoT::Model::DeleteCertificateOutcome outcome = iotClient.DeleteCertificate(
            request);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted certificate " << certificateID << std::endl;
    }
    else {
        std::cerr << "Error deleting certificate " << certificateID << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}

//! Delete an AWS IoT rule.
/*!
  \param ruleName: The name for the rule.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::deleteTopicRule(const Aws::String &ruleName,
                                  const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::DeleteTopicRuleRequest request;
    request.SetRuleName(ruleName);

    Aws::IoT::Model::DeleteTopicRuleOutcome outcome = iotClient.DeleteTopicRule(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted rule " << ruleName << std::endl;
    }
    else {
        std::cerr << "Failed to delete rule " << ruleName <<
                  ": " << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}

//! Delete an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::deleteThing(const Aws::String &thingName,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::DeleteThingRequest request;
    request.SetThingName(thingName);
    const auto outcome = iotClient.DeleteThing(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted thing " << thingName << std::endl;
    }
    else {
        std::cerr << "Error deleting thing " << thingName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [AttachThingPrincipal](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/AttachThingPrincipal)
  + [CreateKeysAndCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/CreateKeysAndCertificate)
  + [CreateThing](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/CreateThing)
  + [CreateTopicRule](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/CreateTopicRule)
  + [DeleteCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DeleteCertificate)
  + [DeleteThing](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DeleteThing)
  + [DeleteTopicRule](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DeleteTopicRule)
  + [DescribeEndpoint](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DescribeEndpoint)
  + [DescribeThing](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DescribeThing)
  + [DetachThingPrincipal](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DetachThingPrincipal)
  + [ListCertificates](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/ListCertificates)
  + [ListThings](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/ListThings)
  + [SearchIndex](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/SearchIndex)
  + [UpdateIndexingConfiguration](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/UpdateIndexingConfiguration)
  + [UpdateThing](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/UpdateThing)

## Tindakan
<a name="actions"></a>

### `AttachThingPrincipal`
<a name="iot_AttachThingPrincipal_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachThingPrincipal`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Attach a principal to an AWS IoT thing.
/*!
  \param principal: A principal to attach.
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::attachThingPrincipal(const Aws::String &principal,
                                       const Aws::String &thingName,
                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient client(clientConfiguration);
    Aws::IoT::Model::AttachThingPrincipalRequest request;
    request.SetPrincipal(principal);
    request.SetThingName(thingName);
    Aws::IoT::Model::AttachThingPrincipalOutcome outcome = client.AttachThingPrincipal(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully attached principal to thing." << std::endl;
    }
    else {
        std::cerr << "Failed to attach principal to thing." <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [AttachThingPrincipal](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/AttachThingPrincipal)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateKeysAndCertificate`
<a name="iot_CreateKeysAndCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeysAndCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Create keys and certificate for an Aws IoT device.
//! This routine will save certificates and keys to an output folder, if provided.
/*!
  \param outputFolder: Location for storing output in files, ignored when string is empty.
  \param certificateARNResult: A string to receive the ARN of the created certificate.
  \param certificateID: A string to receive the ID of the created certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::createKeysAndCertificate(const Aws::String &outputFolder,
                                           Aws::String &certificateARNResult,
                                           Aws::String &certificateID,
                                           const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient client(clientConfiguration);
    Aws::IoT::Model::CreateKeysAndCertificateRequest createKeysAndCertificateRequest;

    Aws::IoT::Model::CreateKeysAndCertificateOutcome outcome =
            client.CreateKeysAndCertificate(createKeysAndCertificateRequest);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully created a certificate and keys" << std::endl;
        certificateARNResult = outcome.GetResult().GetCertificateArn();
        certificateID = outcome.GetResult().GetCertificateId();
        std::cout << "Certificate ARN: " << certificateARNResult << ", certificate ID: "
                  << certificateID << std::endl;

        if (!outputFolder.empty()) {
            std::cout << "Writing certificate and keys to the folder '" << outputFolder
                      << "'." << std::endl;
            std::cout << "Be sure these files are stored securely." << std::endl;

            Aws::String certificateFilePath = outputFolder + "/certificate.pem.crt";
            std::ofstream certificateFile(certificateFilePath);
            if (!certificateFile.is_open()) {
                std::cerr << "Error opening certificate file, '" << certificateFilePath
                          << "'."
                          << std::endl;
                return false;
            }
            certificateFile << outcome.GetResult().GetCertificatePem();
            certificateFile.close();

            const Aws::IoT::Model::KeyPair &keyPair = outcome.GetResult().GetKeyPair();

            Aws::String privateKeyFilePath = outputFolder + "/private.pem.key";
            std::ofstream privateKeyFile(privateKeyFilePath);
            if (!privateKeyFile.is_open()) {
                std::cerr << "Error opening private key file, '" << privateKeyFilePath
                          << "'."
                          << std::endl;
                return false;
            }
            privateKeyFile << keyPair.GetPrivateKey();
            privateKeyFile.close();

            Aws::String publicKeyFilePath = outputFolder + "/public.pem.key";
            std::ofstream publicKeyFile(publicKeyFilePath);
            if (!publicKeyFile.is_open()) {
                std::cerr << "Error opening public key file, '" << publicKeyFilePath
                          << "'."
                          << std::endl;
                return false;
            }
            publicKeyFile << keyPair.GetPublicKey();
        }
    }
    else {
        std::cerr << "Error creating keys and certificate: "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateKeysAndCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/CreateKeysAndCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateThing`
<a name="iot_CreateThing_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateThing`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Create an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::createThing(const Aws::String &thingName,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::CreateThingRequest createThingRequest;
    createThingRequest.SetThingName(thingName);

    Aws::IoT::Model::CreateThingOutcome outcome = iotClient.CreateThing(
            createThingRequest);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully created thing " << thingName << std::endl;
    }
    else {
        std::cerr << "Failed to create thing " << thingName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateThing](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/CreateThing)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateTopicRule`
<a name="iot_CreateTopicRule_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopicRule`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Create an AWS IoT rule with an SNS topic as the target.
/*!
  \param ruleName: The name for the rule.
  \param snsTopic: The SNS topic ARN for the action.
  \param sql: The SQL statement used to query the topic.
  \param roleARN: The IAM role ARN for the action.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool
AwsDoc::IoT::createTopicRule(const Aws::String &ruleName,
                             const Aws::String &snsTopicARN, const Aws::String &sql,
                             const Aws::String &roleARN,
                             const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::CreateTopicRuleRequest request;
    request.SetRuleName(ruleName);

    Aws::IoT::Model::SnsAction snsAction;
    snsAction.SetTargetArn(snsTopicARN);
    snsAction.SetRoleArn(roleARN);

    Aws::IoT::Model::Action action;
    action.SetSns(snsAction);

    Aws::IoT::Model::TopicRulePayload topicRulePayload;
    topicRulePayload.SetSql(sql);
    topicRulePayload.SetActions({action});

    request.SetTopicRulePayload(topicRulePayload);
    auto outcome = iotClient.CreateTopicRule(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully created topic rule " << ruleName << "." << std::endl;
    }
    else {
        std::cerr << "Error creating topic rule " << ruleName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateTopicRule](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/CreateTopicRule)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteCertificate`
<a name="iot_DeleteCertificate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Delete a certificate.
/*!
  \param certificateID: The ID of a certificate.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::deleteCertificate(const Aws::String &certificateID,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::DeleteCertificateRequest request;
    request.SetCertificateId(certificateID);

    Aws::IoT::Model::DeleteCertificateOutcome outcome = iotClient.DeleteCertificate(
            request);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted certificate " << certificateID << std::endl;
    }
    else {
        std::cerr << "Error deleting certificate " << certificateID << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DeleteCertificate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteThing`
<a name="iot_DeleteThing_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteThing`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Delete an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::deleteThing(const Aws::String &thingName,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::DeleteThingRequest request;
    request.SetThingName(thingName);
    const auto outcome = iotClient.DeleteThing(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted thing " << thingName << std::endl;
    }
    else {
        std::cerr << "Error deleting thing " << thingName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteThing](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DeleteThing)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteTopicRule`
<a name="iot_DeleteTopicRule_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopicRule`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Delete an AWS IoT rule.
/*!
  \param ruleName: The name for the rule.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::deleteTopicRule(const Aws::String &ruleName,
                                  const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::DeleteTopicRuleRequest request;
    request.SetRuleName(ruleName);

    Aws::IoT::Model::DeleteTopicRuleOutcome outcome = iotClient.DeleteTopicRule(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted rule " << ruleName << std::endl;
    }
    else {
        std::cerr << "Failed to delete rule " << ruleName <<
                  ": " << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteTopicRule](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DeleteTopicRule)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeEndpoint`
<a name="iot_DescribeEndpoint_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeEndpoint`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Describe the endpoint specific to the AWS account making the call.
/*!
  \param endpointResult: String to receive the endpoint result.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::describeEndpoint(Aws::String &endpointResult,
                                   const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::String endpoint;
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::DescribeEndpointRequest describeEndpointRequest;
    describeEndpointRequest.SetEndpointType(
            "iot:Data-ATS"); // Recommended endpoint type.

    Aws::IoT::Model::DescribeEndpointOutcome outcome = iotClient.DescribeEndpoint(
            describeEndpointRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully described endpoint." << std::endl;
        endpointResult = outcome.GetResult().GetEndpointAddress();
    }
    else {
        std::cerr << "Error describing endpoint" << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DescribeEndpoint](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DescribeEndpoint)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeThing`
<a name="iot_DescribeThing_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeThing`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Describe an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::describeThing(const Aws::String &thingName,
                                const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::DescribeThingRequest request;
    request.SetThingName(thingName);

    Aws::IoT::Model::DescribeThingOutcome outcome = iotClient.DescribeThing(request);

    if (outcome.IsSuccess()) {
        const Aws::IoT::Model::DescribeThingResult &result = outcome.GetResult();
        std::cout << "Retrieved thing '" << result.GetThingName() << "'" << std::endl;
        std::cout << "thingArn: " << result.GetThingArn() << std::endl;
        std::cout << result.GetAttributes().size() << " attribute(s) retrieved"
                  << std::endl;
        for (const auto &attribute: result.GetAttributes()) {
            std::cout << "  attribute: " << attribute.first << "=" << attribute.second
                      << std::endl;
        }
    }
    else {
        std::cerr << "Error describing thing " << thingName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DescribeThing](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DescribeThing)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DetachThingPrincipal`
<a name="iot_DetachThingPrincipal_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachThingPrincipal`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Detach a principal from an AWS IoT thing.
/*!
  \param principal: A principal to detach.
  \param thingName: The name for the thing.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::detachThingPrincipal(const Aws::String &principal,
                                       const Aws::String &thingName,
                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::DetachThingPrincipalRequest detachThingPrincipalRequest;
    detachThingPrincipalRequest.SetThingName(thingName);
    detachThingPrincipalRequest.SetPrincipal(principal);

    Aws::IoT::Model::DetachThingPrincipalOutcome outcome = iotClient.DetachThingPrincipal(
            detachThingPrincipalRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully detached principal " << principal << " from thing "
                  << thingName << std::endl;
    }
    else {
        std::cerr << "Failed to detach principal " << principal << " from thing "
                  << thingName << ": "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DetachThingPrincipal](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/DetachThingPrincipal)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListCertificates`
<a name="iot_ListCertificates_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! List certificates registered in the AWS account making the call.
/*!
   \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::listCertificates(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::ListCertificatesRequest request;

    Aws::Vector<Aws::IoT::Model::Certificate> allCertificates;
    Aws::String marker; // Used to paginate results.
    do {
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::IoT::Model::ListCertificatesOutcome outcome = iotClient.ListCertificates(
                request);

        if (outcome.IsSuccess()) {
            const Aws::IoT::Model::ListCertificatesResult &result = outcome.GetResult();
            marker = result.GetNextMarker();
            allCertificates.insert(allCertificates.end(),
                                   result.GetCertificates().begin(),
                                   result.GetCertificates().end());
        }
        else {
            std::cerr << "Error: " << outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    } while (!marker.empty());

    std::cout << allCertificates.size() << " certificate(s) found." << std::endl;

    for (auto &certificate: allCertificates) {
        std::cout << "Certificate ID: " << certificate.GetCertificateId() << std::endl;
        std::cout << "Certificate ARN: " << certificate.GetCertificateArn()
                  << std::endl;
        std::cout << std::endl;
    }

    return true;
}
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/ListCertificates)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `SearchIndex`
<a name="iot_SearchIndex_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchIndex`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Query the AWS IoT fleet index.
//! For query information, see https://docs.aws.amazon.com/iot/latest/developerguide/query-syntax.html
/*!
  \param: query: The query string.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::searchIndex(const Aws::String &query,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::SearchIndexRequest request;
    request.SetQueryString(query);

    Aws::Vector<Aws::IoT::Model::ThingDocument> allThingDocuments;
    Aws::String nextToken; // Used for pagination.
    do {
        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        Aws::IoT::Model::SearchIndexOutcome outcome = iotClient.SearchIndex(request);

        if (outcome.IsSuccess()) {
            const Aws::IoT::Model::SearchIndexResult &result = outcome.GetResult();
            allThingDocuments.insert(allThingDocuments.end(),
                                     result.GetThings().cbegin(),
                                     result.GetThings().cend());
            nextToken = result.GetNextToken();

        }
        else {
            std::cerr << "Error in SearchIndex: " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!nextToken.empty());

    std::cout << allThingDocuments.size() << " thing document(s) found." << std::endl;
    for (const auto thingDocument: allThingDocuments) {
        std::cout << "  Thing name: " << thingDocument.GetThingName() << "."
                  << std::endl;
    }
    return true;
}
```
+  Untuk detail API, lihat [SearchIndex](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/SearchIndex)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateIndexingConfiguration`
<a name="iot_UpdateIndexingConfiguration_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateIndexingConfiguration`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Update the indexing configuration.
/*!
  \param thingIndexingConfiguration: A ThingIndexingConfiguration object which is ignored if not set.
  \param thingGroupIndexingConfiguration: A ThingGroupIndexingConfiguration object which is ignored if not set.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::updateIndexingConfiguration(
        const Aws::IoT::Model::ThingIndexingConfiguration &thingIndexingConfiguration,
        const Aws::IoT::Model::ThingGroupIndexingConfiguration &thingGroupIndexingConfiguration,
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);

    Aws::IoT::Model::UpdateIndexingConfigurationRequest request;

    if (thingIndexingConfiguration.ThingIndexingModeHasBeenSet()) {
        request.SetThingIndexingConfiguration(thingIndexingConfiguration);
    }

    if (thingGroupIndexingConfiguration.ThingGroupIndexingModeHasBeenSet()) {
        request.SetThingGroupIndexingConfiguration(thingGroupIndexingConfiguration);
    }

    Aws::IoT::Model::UpdateIndexingConfigurationOutcome outcome = iotClient.UpdateIndexingConfiguration(
            request);

    if (outcome.IsSuccess()) {
        std::cout << "UpdateIndexingConfiguration succeeded." << std::endl;
    }
    else {
        std::cerr << "UpdateIndexingConfiguration failed."
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [UpdateIndexingConfiguration](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/UpdateIndexingConfiguration)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateThing`
<a name="iot_UpdateThing_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateThing`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Update an AWS IoT thing with attributes.
/*!
  \param thingName: The name for the thing.
  \param attributeMap: A map of key/value attributes/
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::updateThing(const Aws::String &thingName,
                              const std::map<Aws::String, Aws::String> &attributeMap,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoT::IoTClient iotClient(clientConfiguration);
    Aws::IoT::Model::UpdateThingRequest request;
    request.SetThingName(thingName);
    Aws::IoT::Model::AttributePayload attributePayload;
    for (const auto &attribute: attributeMap) {
        attributePayload.AddAttributes(attribute.first, attribute.second);
    }
    request.SetAttributePayload(attributePayload);

    Aws::IoT::Model::UpdateThingOutcome outcome = iotClient.UpdateThing(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully updated thing " << thingName << std::endl;
    }
    else {
        std::cerr << "Failed to update thing " << thingName << ":" <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [UpdateThing](https://docs.aws.amazon.com/goto/SdkForCpp/iot-2015-05-28/UpdateThing)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# AWS IoT data contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_iot-data-plane_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with AWS IoT data.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetThingShadow`
<a name="iot-data-plane_GetThingShadow_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetThingShadow`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Get the shadow of an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param documentResult: String to receive the state information, in JSON format.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::getThingShadow(const Aws::String &thingName,
                                 Aws::String &documentResult,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoTDataPlane::IoTDataPlaneClient iotClient(clientConfiguration);
    Aws::IoTDataPlane::Model::GetThingShadowRequest request;
    request.SetThingName(thingName);
    auto outcome = iotClient.GetThingShadow(request);
    if (outcome.IsSuccess()) {
        std::stringstream ss;
        ss << outcome.GetResult().GetPayload().rdbuf();
        documentResult = ss.str();
    }
    else {
        std::cerr << "Error getting thing shadow: " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetThingShadow](https://docs.aws.amazon.com/goto/SdkForCpp/iot-data-2015-05-28/GetThingShadow)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateThingShadow`
<a name="iot-data-plane_UpdateThingShadow_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateThingShadow`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/iot#code-examples). 

```
//! Update the shadow of an AWS IoT thing.
/*!
  \param thingName: The name for the thing.
  \param document: The state information, in JSON format.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::IoT::updateThingShadow(const Aws::String &thingName,
                                    const Aws::String &document,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::IoTDataPlane::IoTDataPlaneClient iotDataPlaneClient(clientConfiguration);
    Aws::IoTDataPlane::Model::UpdateThingShadowRequest updateThingShadowRequest;
    updateThingShadowRequest.SetThingName(thingName);
    std::shared_ptr<std::stringstream> streamBuf = std::make_shared<std::stringstream>(
            document);
    updateThingShadowRequest.SetBody(streamBuf);
    Aws::IoTDataPlane::Model::UpdateThingShadowOutcome outcome = iotDataPlaneClient.UpdateThingShadow(
            updateThingShadowRequest);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully updated thing shadow." << std::endl;
    }
    else {
        std::cerr << "Error while updating thing shadow."
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [UpdateThingShadow](https://docs.aws.amazon.com/goto/SdkForCpp/iot-data-2015-05-28/UpdateThingShadow)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# Contoh Lambda menggunakan SDK for C\$1\$1
<a name="cpp_1_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Lambda AWS SDK untuk C\$1\$1 with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Lambda
<a name="lambda_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Lambda.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda/hello_lambda#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS lambda)

# Set this project's name.
project("hello_lambda")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # if you are building from the command line you may need to uncomment this 
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_lambda.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1lambda.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/lambda/LambdaClient.h>
#include <aws/lambda/model/ListFunctionsRequest.h>
#include <iostream>

/*
 *  A "Hello Lambda" starter application which initializes an AWS Lambda (Lambda) client and lists the Lambda functions.
 *
 *  main function
 *
 *  Usage: 'hello_lambda'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::Lambda::LambdaClient lambdaClient(clientConfig);
        std::vector<Aws::String> functions;
        Aws::String marker; // Used for pagination.

        do {
            Aws::Lambda::Model::ListFunctionsRequest request;
            if (!marker.empty()) {
                request.SetMarker(marker);
            }

            Aws::Lambda::Model::ListFunctionsOutcome outcome = lambdaClient.ListFunctions(
                    request);

            if (outcome.IsSuccess()) {
                const Aws::Lambda::Model::ListFunctionsResult &listFunctionsResult = outcome.GetResult();
                std::cout << listFunctionsResult.GetFunctions().size()
                          << " lambda functions were retrieved." << std::endl;

                for (const Aws::Lambda::Model::FunctionConfiguration &functionConfiguration: listFunctionsResult.GetFunctions()) {
                    functions.push_back(functionConfiguration.GetFunctionName());
                    std::cout << functions.size() << "  "
                              << functionConfiguration.GetDescription() << std::endl;
                    std::cout << "   "
                              << Aws::Lambda::Model::RuntimeMapper::GetNameForRuntime(
                                      functionConfiguration.GetRuntime()) << ": "
                              << functionConfiguration.GetHandler()
                              << std::endl;
                }
                marker = listFunctionsResult.GetNextMarker();
            } else {
                std::cerr << "Error with Lambda::ListFunctions. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = 1;
                break;
            }
        } while (!marker.empty());
    }


    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/ListFunctions)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda#code-examples). 

```
//! Get started with functions scenario.
/*!
 \param clientConfig: AWS client configuration.
 \return bool: Successful completion.
 */
bool AwsDoc::Lambda::getStartedWithFunctionsScenario(
        const Aws::Client::ClientConfiguration &clientConfig) {

    Aws::Lambda::LambdaClient client(clientConfig);

    // 1. Create an AWS Identity and Access Management (IAM) role for Lambda function.
    Aws::String roleArn;
    if (!getIamRoleArn(roleArn, clientConfig)) {
        return false;
    }

    // 2. Create a Lambda function.
    int seconds = 0;
    do {
        Aws::Lambda::Model::CreateFunctionRequest request;
        request.SetFunctionName(LAMBDA_NAME);
        request.SetDescription(LAMBDA_DESCRIPTION); // Optional.
#if USE_CPP_LAMBDA_FUNCTION
        request.SetRuntime(Aws::Lambda::Model::Runtime::provided_al2);
        request.SetTimeout(15);
        request.SetMemorySize(128);

        // Assume the AWS Lambda function was built in Docker with same architecture
        // as this code.
#if  defined(__x86_64__)
        request.SetArchitectures({Aws::Lambda::Model::Architecture::x86_64});
#elif defined(__aarch64__)
        request.SetArchitectures({Aws::Lambda::Model::Architecture::arm64});
#else
#error "Unimplemented architecture"
#endif // defined(architecture)
#else
        request.SetRuntime(Aws::Lambda::Model::Runtime::python3_9);
#endif
        request.SetRole(roleArn);
        request.SetHandler(LAMBDA_HANDLER_NAME);
        request.SetPublish(true);
        Aws::Lambda::Model::FunctionCode code;
        std::ifstream ifstream(INCREMENT_LAMBDA_CODE.c_str(),
                               std::ios_base::in | std::ios_base::binary);
        if (!ifstream.is_open()) {
            std::cerr << "Error opening file " << INCREMENT_LAMBDA_CODE << "." << std::endl;

#if USE_CPP_LAMBDA_FUNCTION
            std::cerr
                    << "The cpp Lambda function must be built following the instructions in the cpp_lambda/README.md file. "
                    << std::endl;
#endif
            deleteIamRole(clientConfig);
            return false;
        }

        Aws::StringStream buffer;
        buffer << ifstream.rdbuf();

        code.SetZipFile(Aws::Utils::ByteBuffer((unsigned char *) buffer.str().c_str(),
                                               buffer.str().length()));
        request.SetCode(code);

        Aws::Lambda::Model::CreateFunctionOutcome outcome = client.CreateFunction(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "The lambda function was successfully created. " << seconds
                      << " seconds elapsed." << std::endl;
            break;
        }
        else if (outcome.GetError().GetErrorType() ==
                 Aws::Lambda::LambdaErrors::INVALID_PARAMETER_VALUE &&
                 outcome.GetError().GetMessage().find("role") >= 0) {
            if ((seconds % 5) == 0) { // Log status every 10 seconds.
                std::cout
                        << "Waiting for the IAM role to become available as a CreateFunction parameter. "
                        << seconds
                        << " seconds elapsed." << std::endl;

                std::cout << outcome.GetError().GetMessage() << std::endl;
            }
        }
        else {
            std::cerr << "Error with CreateFunction. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            deleteIamRole(clientConfig);
            return false;
        }
        ++seconds;
        std::this_thread::sleep_for(std::chrono::seconds(1));
    } while (60 > seconds);

    std::cout << "The current Lambda function increments 1 by an input." << std::endl;

    // 3.  Invoke the Lambda function.
    {
        int increment = askQuestionForInt("Enter an increment integer: ");

        Aws::Lambda::Model::InvokeResult invokeResult;
        Aws::Utils::Json::JsonValue jsonPayload;
        jsonPayload.WithString("action", "increment");
        jsonPayload.WithInteger("number", increment);
        if (invokeLambdaFunction(jsonPayload, Aws::Lambda::Model::LogType::Tail,
                                 invokeResult, client)) {
            Aws::Utils::Json::JsonValue jsonValue(invokeResult.GetPayload());
            Aws::Map<Aws::String, Aws::Utils::Json::JsonView> values =
                    jsonValue.View().GetAllObjects();
            auto iter = values.find("result");
            if (iter != values.end() && iter->second.IsIntegerType()) {
                {
                    std::cout << INCREMENT_RESUlT_PREFIX
                              << iter->second.AsInteger() << std::endl;
                }
            }
            else {
                std::cout << "There was an error in execution. Here is the log."
                          << std::endl;
                Aws::Utils::ByteBuffer buffer = Aws::Utils::HashingUtils::Base64Decode(
                        invokeResult.GetLogResult());
                std::cout << "With log " << buffer.GetUnderlyingData() << std::endl;
            }
        }
    }

    std::cout
            << "The Lambda function will now be updated with new code. Press return to continue, ";
    Aws::String answer;
    std::getline(std::cin, answer);

    // 4.  Update the Lambda function code.
    {
        Aws::Lambda::Model::UpdateFunctionCodeRequest request;
        request.SetFunctionName(LAMBDA_NAME);
        std::ifstream ifstream(CALCULATOR_LAMBDA_CODE.c_str(),
                               std::ios_base::in | std::ios_base::binary);
        if (!ifstream.is_open()) {
            std::cerr << "Error opening file " << INCREMENT_LAMBDA_CODE << "." << std::endl;

#if USE_CPP_LAMBDA_FUNCTION
            std::cerr
                    << "The cpp Lambda function must be built following the instructions in the cpp_lambda/README.md file. "
                    << std::endl;
#endif
            deleteLambdaFunction(client);
            deleteIamRole(clientConfig);
            return false;
        }

        Aws::StringStream buffer;
        buffer << ifstream.rdbuf();
        request.SetZipFile(
                Aws::Utils::ByteBuffer((unsigned char *) buffer.str().c_str(),
                                       buffer.str().length()));
        request.SetPublish(true);

        Aws::Lambda::Model::UpdateFunctionCodeOutcome outcome = client.UpdateFunctionCode(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "The lambda code was successfully updated." << std::endl;
        }
        else {
            std::cerr << "Error with Lambda::UpdateFunctionCode. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    }

    std::cout
            << "This function uses an environment variable to control the logging level."
            << std::endl;
    std::cout
            << "UpdateFunctionConfiguration will be used to set the LOG_LEVEL to DEBUG."
            << std::endl;
    seconds = 0;

    // 5.  Update the Lambda function configuration.
    do {
        ++seconds;
        std::this_thread::sleep_for(std::chrono::seconds(1));
        Aws::Lambda::Model::UpdateFunctionConfigurationRequest request;
        request.SetFunctionName(LAMBDA_NAME);
        Aws::Lambda::Model::Environment environment;
        environment.AddVariables("LOG_LEVEL", "DEBUG");
        request.SetEnvironment(environment);

        Aws::Lambda::Model::UpdateFunctionConfigurationOutcome outcome = client.UpdateFunctionConfiguration(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "The lambda configuration was successfully updated."
                      << std::endl;
            break;
        }

            // RESOURCE_IN_USE: function code update not completed.
        else if (outcome.GetError().GetErrorType() !=
                 Aws::Lambda::LambdaErrors::RESOURCE_IN_USE) {
            if ((seconds % 10) == 0) { // Log status every 10 seconds.
                std::cout << "Lambda function update in progress . After " << seconds
                          << " seconds elapsed." << std::endl;
            }
        }
        else {
            std::cerr << "Error with Lambda::UpdateFunctionConfiguration. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }

    } while (0 < seconds);

    if (0 > seconds) {
        std::cerr << "Function failed to become active." << std::endl;
    }
    else {
        std::cout << "Updated function active after " << seconds << " seconds."
                  << std::endl;
    }

    std::cout
            << "\nThe new code applies an arithmetic operator to two variables, x an y."
            << std::endl;
    std::vector<Aws::String> operators = {"plus", "minus", "times", "divided-by"};
    for (size_t i = 0; i < operators.size(); ++i) {
        std::cout << "   " << i + 1 << " " << operators[i] << std::endl;
    }

    // 6.  Invoke the updated Lambda function.
    do {
        int operatorIndex = askQuestionForIntRange("Select an operator index 1 - 4 ", 1,
                                                   4);
        int x = askQuestionForInt("Enter an integer for the x value ");
        int y = askQuestionForInt("Enter an integer for the y value ");

        Aws::Utils::Json::JsonValue calculateJsonPayload;
        calculateJsonPayload.WithString("action", operators[operatorIndex - 1]);
        calculateJsonPayload.WithInteger("x", x);
        calculateJsonPayload.WithInteger("y", y);
        Aws::Lambda::Model::InvokeResult calculatedResult;
        if (invokeLambdaFunction(calculateJsonPayload,
                                 Aws::Lambda::Model::LogType::Tail,
                                 calculatedResult, client)) {
            Aws::Utils::Json::JsonValue jsonValue(calculatedResult.GetPayload());
            Aws::Map<Aws::String, Aws::Utils::Json::JsonView> values =
                    jsonValue.View().GetAllObjects();
            auto iter = values.find("result");
            if (iter != values.end() && iter->second.IsIntegerType()) {
                std::cout << ARITHMETIC_RESUlT_PREFIX << x << " "
                          << operators[operatorIndex - 1] << " "
                          << y << " is " << iter->second.AsInteger() << std::endl;
            }
            else if (iter != values.end() && iter->second.IsFloatingPointType()) {
                std::cout << ARITHMETIC_RESUlT_PREFIX << x << " "
                          << operators[operatorIndex - 1] << " "
                          << y << " is " << iter->second.AsDouble() << std::endl;
            }
            else {
                std::cout << "There was an error in execution. Here is the log."
                          << std::endl;
                Aws::Utils::ByteBuffer buffer = Aws::Utils::HashingUtils::Base64Decode(
                        calculatedResult.GetLogResult());
                std::cout << "With log " << buffer.GetUnderlyingData() << std::endl;
            }
        }

        answer = askQuestion("Would you like to try another operation? (y/n) ");
    } while (answer == "y");

    std::cout
            << "A list of the lambda functions will be retrieved. Press return to continue, ";
    std::getline(std::cin, answer);

    // 7.  List the Lambda functions.

    std::vector<Aws::String> functions;
    Aws::String marker;

    do {
        Aws::Lambda::Model::ListFunctionsRequest request;
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::Lambda::Model::ListFunctionsOutcome outcome = client.ListFunctions(
                request);

        if (outcome.IsSuccess()) {
            const Aws::Lambda::Model::ListFunctionsResult &result = outcome.GetResult();
            std::cout << result.GetFunctions().size()
                      << " lambda functions were retrieved." << std::endl;

            for (const Aws::Lambda::Model::FunctionConfiguration &functionConfiguration: result.GetFunctions()) {
                functions.push_back(functionConfiguration.GetFunctionName());
                std::cout << functions.size() << "  "
                          << functionConfiguration.GetDescription() << std::endl;
                std::cout << "   "
                          << Aws::Lambda::Model::RuntimeMapper::GetNameForRuntime(
                                  functionConfiguration.GetRuntime()) << ": "
                          << functionConfiguration.GetHandler()
                          << std::endl;
            }
            marker = result.GetNextMarker();
        }
        else {
            std::cerr << "Error with Lambda::ListFunctions. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    } while (!marker.empty());

    // 8.  Get a Lambda function.
    if (!functions.empty()) {
        std::stringstream question;
        question << "Choose a function to retrieve between 1 and " << functions.size()
                 << " ";
        int functionIndex = askQuestionForIntRange(question.str(), 1,
                                                   static_cast<int>(functions.size()));

        Aws::String functionName = functions[functionIndex - 1];

        Aws::Lambda::Model::GetFunctionRequest request;
        request.SetFunctionName(functionName);

        Aws::Lambda::Model::GetFunctionOutcome outcome = client.GetFunction(request);

        if (outcome.IsSuccess()) {
            std::cout << "Function retrieve.\n" <<
                      outcome.GetResult().GetConfiguration().Jsonize().View().WriteReadable()
                      << std::endl;
        }
        else {
            std::cerr << "Error with Lambda::GetFunction. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    }

    std::cout << "The resources will be deleted. Press return to continue, ";
    std::getline(std::cin, answer);

    // 9.  Delete the Lambda function.
    bool result = deleteLambdaFunction(client);

    // 10. Delete the IAM role.
    return result && deleteIamRole(clientConfig);
}

//! Routine which invokes a Lambda function and returns the result.
/*!
 \param jsonPayload: Payload for invoke function.
 \param logType: Log type setting for invoke function.
 \param invokeResult: InvokeResult object to receive the result.
 \param client: Lambda client.
 \return bool: Successful completion.
 */
bool
AwsDoc::Lambda::invokeLambdaFunction(const Aws::Utils::Json::JsonValue &jsonPayload,
                                     Aws::Lambda::Model::LogType logType,
                                     Aws::Lambda::Model::InvokeResult &invokeResult,
                                     const Aws::Lambda::LambdaClient &client) {
    int seconds = 0;
    bool result = false;
    /*
     * In this example, the Invoke function can be called before recently created resources are
     * available.  The Invoke function is called repeatedly until the resources are
     * available.
     */
    do {
        Aws::Lambda::Model::InvokeRequest request;
        request.SetFunctionName(LAMBDA_NAME);
        request.SetLogType(logType);
        std::shared_ptr<Aws::IOStream> payload = Aws::MakeShared<Aws::StringStream>(
                "FunctionTest");
        *payload << jsonPayload.View().WriteReadable();
        request.SetBody(payload);
        request.SetContentType("application/json");
        Aws::Lambda::Model::InvokeOutcome outcome = client.Invoke(request);

        if (outcome.IsSuccess()) {
            invokeResult = std::move(outcome.GetResult());
            result = true;
            break;
        }

            // ACCESS_DENIED: because the role is not available yet.
            // RESOURCE_CONFLICT: because the Lambda function is being created or updated.
        else if ((outcome.GetError().GetErrorType() ==
                  Aws::Lambda::LambdaErrors::ACCESS_DENIED) ||
                 (outcome.GetError().GetErrorType() ==
                  Aws::Lambda::LambdaErrors::RESOURCE_CONFLICT)) {
            if ((seconds % 5) == 0) { // Log status every 10 seconds.
                std::cout << "Waiting for the invoke api to be available, status " <<
                          ((outcome.GetError().GetErrorType() ==
                            Aws::Lambda::LambdaErrors::ACCESS_DENIED ?
                            "ACCESS_DENIED" : "RESOURCE_CONFLICT")) << ". " << seconds
                          << " seconds elapsed." << std::endl;
            }
        }
        else {
            std::cerr << "Error with Lambda::InvokeRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            break;
        }
        ++seconds;
        std::this_thread::sleep_for(std::chrono::seconds(1));
    } while (seconds < 60);

    return result;
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [CreateFunction](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/CreateFunction)
  + [DeleteFunction](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/DeleteFunction)
  + [GetFunction](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/GetFunction)
  + [Memohon](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/Invoke)
  + [ListFunctions](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/ListFunctions)
  + [UpdateFunctionCode](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/UpdateFunctionCode)
  + [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/UpdateFunctionConfiguration)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Lambda::LambdaClient client(clientConfig);

        Aws::Lambda::Model::CreateFunctionRequest request;
        request.SetFunctionName(LAMBDA_NAME);
        request.SetDescription(LAMBDA_DESCRIPTION); // Optional.
#if USE_CPP_LAMBDA_FUNCTION
        request.SetRuntime(Aws::Lambda::Model::Runtime::provided_al2);
        request.SetTimeout(15);
        request.SetMemorySize(128);

        // Assume the AWS Lambda function was built in Docker with same architecture
        // as this code.
#if  defined(__x86_64__)
        request.SetArchitectures({Aws::Lambda::Model::Architecture::x86_64});
#elif defined(__aarch64__)
        request.SetArchitectures({Aws::Lambda::Model::Architecture::arm64});
#else
#error "Unimplemented architecture"
#endif // defined(architecture)
#else
        request.SetRuntime(Aws::Lambda::Model::Runtime::python3_9);
#endif
        request.SetRole(roleArn);
        request.SetHandler(LAMBDA_HANDLER_NAME);
        request.SetPublish(true);
        Aws::Lambda::Model::FunctionCode code;
        std::ifstream ifstream(INCREMENT_LAMBDA_CODE.c_str(),
                               std::ios_base::in | std::ios_base::binary);
        if (!ifstream.is_open()) {
            std::cerr << "Error opening file " << INCREMENT_LAMBDA_CODE << "." << std::endl;

#if USE_CPP_LAMBDA_FUNCTION
            std::cerr
                    << "The cpp Lambda function must be built following the instructions in the cpp_lambda/README.md file. "
                    << std::endl;
#endif
            deleteIamRole(clientConfig);
            return false;
        }

        Aws::StringStream buffer;
        buffer << ifstream.rdbuf();

        code.SetZipFile(Aws::Utils::ByteBuffer((unsigned char *) buffer.str().c_str(),
                                               buffer.str().length()));
        request.SetCode(code);

        Aws::Lambda::Model::CreateFunctionOutcome outcome = client.CreateFunction(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "The lambda function was successfully created. " << seconds
                      << " seconds elapsed." << std::endl;
            break;
        }

        else {
            std::cerr << "Error with CreateFunction. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            deleteIamRole(clientConfig);
            return false;
        }
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/CreateFunction)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Lambda::LambdaClient client(clientConfig);

    Aws::Lambda::Model::DeleteFunctionRequest request;
    request.SetFunctionName(LAMBDA_NAME);

    Aws::Lambda::Model::DeleteFunctionOutcome outcome = client.DeleteFunction(
            request);

    if (outcome.IsSuccess()) {
        std::cout << "The lambda function was successfully deleted." << std::endl;
    }
    else {
        std::cerr << "Error with Lambda::DeleteFunction. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/DeleteFunction)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetFunction`
<a name="lambda_GetFunction_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Lambda::LambdaClient client(clientConfig);

        Aws::Lambda::Model::GetFunctionRequest request;
        request.SetFunctionName(functionName);

        Aws::Lambda::Model::GetFunctionOutcome outcome = client.GetFunction(request);

        if (outcome.IsSuccess()) {
            std::cout << "Function retrieve.\n" <<
                      outcome.GetResult().GetConfiguration().Jsonize().View().WriteReadable()
                      << std::endl;
        }
        else {
            std::cerr << "Error with Lambda::GetFunction. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
```
+  Untuk detail API, lihat [GetFunction](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/GetFunction)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `Invoke`
<a name="lambda_Invoke_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Lambda::LambdaClient client(clientConfig);

        Aws::Lambda::Model::InvokeRequest request;
        request.SetFunctionName(LAMBDA_NAME);
        request.SetLogType(logType);
        std::shared_ptr<Aws::IOStream> payload = Aws::MakeShared<Aws::StringStream>(
                "FunctionTest");
        *payload << jsonPayload.View().WriteReadable();
        request.SetBody(payload);
        request.SetContentType("application/json");
        Aws::Lambda::Model::InvokeOutcome outcome = client.Invoke(request);

        if (outcome.IsSuccess()) {
            invokeResult = std::move(outcome.GetResult());
            result = true;
            break;
        }

        else {
            std::cerr << "Error with Lambda::InvokeRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            break;
        }
```
+  Untuk detail API, lihat [Memanggil di Referensi AWS SDK untuk C\$1\$1](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/Invoke) *API*. 

### `ListFunctions`
<a name="lambda_ListFunctions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Lambda::LambdaClient client(clientConfig);

    std::vector<Aws::String> functions;
    Aws::String marker;

    do {
        Aws::Lambda::Model::ListFunctionsRequest request;
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::Lambda::Model::ListFunctionsOutcome outcome = client.ListFunctions(
                request);

        if (outcome.IsSuccess()) {
            const Aws::Lambda::Model::ListFunctionsResult &result = outcome.GetResult();
            std::cout << result.GetFunctions().size()
                      << " lambda functions were retrieved." << std::endl;

            for (const Aws::Lambda::Model::FunctionConfiguration &functionConfiguration: result.GetFunctions()) {
                functions.push_back(functionConfiguration.GetFunctionName());
                std::cout << functions.size() << "  "
                          << functionConfiguration.GetDescription() << std::endl;
                std::cout << "   "
                          << Aws::Lambda::Model::RuntimeMapper::GetNameForRuntime(
                                  functionConfiguration.GetRuntime()) << ": "
                          << functionConfiguration.GetHandler()
                          << std::endl;
            }
            marker = result.GetNextMarker();
        }
        else {
            std::cerr << "Error with Lambda::ListFunctions. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    } while (!marker.empty());
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/ListFunctions)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Lambda::LambdaClient client(clientConfig);

        Aws::Lambda::Model::UpdateFunctionCodeRequest request;
        request.SetFunctionName(LAMBDA_NAME);
        std::ifstream ifstream(CALCULATOR_LAMBDA_CODE.c_str(),
                               std::ios_base::in | std::ios_base::binary);
        if (!ifstream.is_open()) {
            std::cerr << "Error opening file " << INCREMENT_LAMBDA_CODE << "." << std::endl;

#if USE_CPP_LAMBDA_FUNCTION
            std::cerr
                    << "The cpp Lambda function must be built following the instructions in the cpp_lambda/README.md file. "
                    << std::endl;
#endif
            deleteLambdaFunction(client);
            deleteIamRole(clientConfig);
            return false;
        }

        Aws::StringStream buffer;
        buffer << ifstream.rdbuf();
        request.SetZipFile(
                Aws::Utils::ByteBuffer((unsigned char *) buffer.str().c_str(),
                                       buffer.str().length()));
        request.SetPublish(true);

        Aws::Lambda::Model::UpdateFunctionCodeOutcome outcome = client.UpdateFunctionCode(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "The lambda code was successfully updated." << std::endl;
        }
        else {
            std::cerr << "Error with Lambda::UpdateFunctionCode. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/UpdateFunctionCode)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/lambda#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region in which the bucket was created (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::Lambda::LambdaClient client(clientConfig);

        Aws::Lambda::Model::UpdateFunctionConfigurationRequest request;
        request.SetFunctionName(LAMBDA_NAME);
        Aws::Lambda::Model::Environment environment;
        environment.AddVariables("LOG_LEVEL", "DEBUG");
        request.SetEnvironment(environment);

        Aws::Lambda::Model::UpdateFunctionConfigurationOutcome outcome = client.UpdateFunctionConfiguration(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "The lambda configuration was successfully updated."
                      << std::endl;
            break;
        }

        else {
            std::cerr << "Error with Lambda::UpdateFunctionConfiguration. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/SdkForCpp/lambda-2015-03-31/UpdateFunctionConfiguration)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk C\$1\$1**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

# MediaConvert contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_mediaconvert_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with MediaConvert.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateJob`
<a name="mediaconvert_CreateJob_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/mediaconvert#code-examples). 

```
//! Create an AWS Elemental MediaConvert job.
/*!
  \param mediaConvertRole: An Amazon Resource Name (ARN) for the AWS Identity and
                           Access Management (IAM) role for the job.
  \param fileInput: A URI to an input file that is stored in Amazon Simple Storage Service
                    (Amazon S3) or on an HTTP(S) server.
  \param fileOutput: A URI for an Amazon S3 output location and the output file name base.
  \param jobSettingsFile: An optional JSON settings file.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */

bool AwsDoc::MediaConvert::createJob(const Aws::String &mediaConvertRole,
                                     const Aws::String &fileInput,
                                     const Aws::String &fileOutput,
                                     const Aws::String &jobSettingsFile,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::MediaConvert::Model::CreateJobRequest createJobRequest;

    createJobRequest.SetRole(mediaConvertRole);
    Aws::Http::HeaderValueCollection hvc;
    hvc.emplace("Customer", "Amazon");
    createJobRequest.SetUserMetadata(hvc);

    if (!jobSettingsFile.empty()) // Use a JSON file for the job settings.
    {
        std::ifstream jobSettingsStream(jobSettingsFile, std::ios::ate);
        if (!jobSettingsStream) {
            std::cerr << "Unable to open the job template file." << std::endl;
            return false;
        }
        std::vector<char> buffer(jobSettingsStream.tellg());
        jobSettingsStream.seekg(0);
        jobSettingsStream.read(buffer.data(), buffer.size());
        std::string jobSettingsJSON(buffer.data(), buffer.size());
        size_t pos = jobSettingsJSON.find(INPUT_FILE_PLACEHOLDER);
        if (pos != std::string::npos) {
            jobSettingsJSON.replace(pos, strlen(INPUT_FILE_PLACEHOLDER), fileInput);
        }

        pos = jobSettingsJSON.find(OUTPUT_FILE_PLACEHOLDER);
        if (pos != std::string::npos) {
            jobSettingsJSON.replace(pos, strlen(OUTPUT_FILE_PLACEHOLDER), fileOutput);
        }
        Aws::Utils::Json::JsonValue jsonValue(jobSettingsJSON);
        Aws::MediaConvert::Model::JobSettings jobSettings(jsonValue);

        createJobRequest.SetSettings(jobSettings);
    }
    else { // Configure the job settings programmatically.
        Aws::MediaConvert::Model::JobSettings jobSettings;
        jobSettings.SetAdAvailOffset(0);
        Aws::MediaConvert::Model::TimecodeConfig timecodeConfig;
        timecodeConfig.SetSource(Aws::MediaConvert::Model::TimecodeSource::EMBEDDED);
        jobSettings.SetTimecodeConfig(timecodeConfig);

        // Configure the output group.
        Aws::MediaConvert::Model::OutputGroup outputGroup;
        outputGroup.SetName("File Group");
        Aws::MediaConvert::Model::OutputGroupSettings outputGroupSettings;
        outputGroupSettings.SetType(
                Aws::MediaConvert::Model::OutputGroupType::FILE_GROUP_SETTINGS);
        Aws::MediaConvert::Model::FileGroupSettings fileGroupSettings;
        fileGroupSettings.SetDestination(fileOutput);
        outputGroupSettings.SetFileGroupSettings(fileGroupSettings);
        outputGroup.SetOutputGroupSettings(outputGroupSettings);

        Aws::MediaConvert::Model::Output output;
        output.SetNameModifier("_1");

        Aws::MediaConvert::Model::VideoDescription videoDescription;
        videoDescription.SetScalingBehavior(
                Aws::MediaConvert::Model::ScalingBehavior::DEFAULT);
        videoDescription.SetTimecodeInsertion(
                Aws::MediaConvert::Model::VideoTimecodeInsertion::DISABLED);
        videoDescription.SetAntiAlias(Aws::MediaConvert::Model::AntiAlias::ENABLED);
        videoDescription.SetSharpness(50);
        videoDescription.SetAfdSignaling(Aws::MediaConvert::Model::AfdSignaling::NONE);
        videoDescription.SetDropFrameTimecode(
                Aws::MediaConvert::Model::DropFrameTimecode::ENABLED);
        videoDescription.SetRespondToAfd(Aws::MediaConvert::Model::RespondToAfd::NONE);
        videoDescription.SetColorMetadata(
                Aws::MediaConvert::Model::ColorMetadata::INSERT);

        Aws::MediaConvert::Model::VideoCodecSettings videoCodecSettings;
        videoCodecSettings.SetCodec(Aws::MediaConvert::Model::VideoCodec::H_264);
        Aws::MediaConvert::Model::H264Settings h264Settings;
        h264Settings.SetNumberReferenceFrames(3);
        h264Settings.SetSyntax(Aws::MediaConvert::Model::H264Syntax::DEFAULT);
        h264Settings.SetSoftness(0);
        h264Settings.SetGopClosedCadence(1);
        h264Settings.SetGopSize(90);
        h264Settings.SetSlices(1);
        h264Settings.SetGopBReference(
                Aws::MediaConvert::Model::H264GopBReference::DISABLED);
        h264Settings.SetSlowPal(Aws::MediaConvert::Model::H264SlowPal::DISABLED);
        h264Settings.SetSpatialAdaptiveQuantization(
                Aws::MediaConvert::Model::H264SpatialAdaptiveQuantization::ENABLED);
        h264Settings.SetTemporalAdaptiveQuantization(
                Aws::MediaConvert::Model::H264TemporalAdaptiveQuantization::ENABLED);
        h264Settings.SetFlickerAdaptiveQuantization(
                Aws::MediaConvert::Model::H264FlickerAdaptiveQuantization::DISABLED);
        h264Settings.SetEntropyEncoding(
                Aws::MediaConvert::Model::H264EntropyEncoding::CABAC);
        h264Settings.SetBitrate(5000000);
        h264Settings.SetFramerateControl(
                Aws::MediaConvert::Model::H264FramerateControl::SPECIFIED);
        h264Settings.SetRateControlMode(
                Aws::MediaConvert::Model::H264RateControlMode::CBR);
        h264Settings.SetCodecProfile(Aws::MediaConvert::Model::H264CodecProfile::MAIN);
        h264Settings.SetTelecine(Aws::MediaConvert::Model::H264Telecine::NONE);
        h264Settings.SetMinIInterval(0);
        h264Settings.SetAdaptiveQuantization(
                Aws::MediaConvert::Model::H264AdaptiveQuantization::HIGH);
        h264Settings.SetCodecLevel(Aws::MediaConvert::Model::H264CodecLevel::AUTO);
        h264Settings.SetFieldEncoding(
                Aws::MediaConvert::Model::H264FieldEncoding::PAFF);
        h264Settings.SetSceneChangeDetect(
                Aws::MediaConvert::Model::H264SceneChangeDetect::ENABLED);
        h264Settings.SetQualityTuningLevel(
                Aws::MediaConvert::Model::H264QualityTuningLevel::SINGLE_PASS);
        h264Settings.SetFramerateConversionAlgorithm(
                Aws::MediaConvert::Model::H264FramerateConversionAlgorithm::DUPLICATE_DROP);
        h264Settings.SetUnregisteredSeiTimecode(
                Aws::MediaConvert::Model::H264UnregisteredSeiTimecode::DISABLED);
        h264Settings.SetGopSizeUnits(
                Aws::MediaConvert::Model::H264GopSizeUnits::FRAMES);
        h264Settings.SetParControl(Aws::MediaConvert::Model::H264ParControl::SPECIFIED);
        h264Settings.SetNumberBFramesBetweenReferenceFrames(2);
        h264Settings.SetRepeatPps(Aws::MediaConvert::Model::H264RepeatPps::DISABLED);
        h264Settings.SetFramerateNumerator(30);
        h264Settings.SetFramerateDenominator(1);
        h264Settings.SetParNumerator(1);
        h264Settings.SetParDenominator(1);
        videoCodecSettings.SetH264Settings(h264Settings);
        videoDescription.SetCodecSettings(videoCodecSettings);
        output.SetVideoDescription(videoDescription);

        Aws::MediaConvert::Model::AudioDescription audioDescription;
        audioDescription.SetLanguageCodeControl(
                Aws::MediaConvert::Model::AudioLanguageCodeControl::FOLLOW_INPUT);
        audioDescription.SetAudioSourceName(AUDIO_SOURCE_NAME);
        Aws::MediaConvert::Model::AudioCodecSettings audioCodecSettings;
        audioCodecSettings.SetCodec(Aws::MediaConvert::Model::AudioCodec::AAC);
        Aws::MediaConvert::Model::AacSettings aacSettings;
        aacSettings.SetAudioDescriptionBroadcasterMix(
                Aws::MediaConvert::Model::AacAudioDescriptionBroadcasterMix::NORMAL);
        aacSettings.SetRateControlMode(
                Aws::MediaConvert::Model::AacRateControlMode::CBR);
        aacSettings.SetCodecProfile(Aws::MediaConvert::Model::AacCodecProfile::LC);
        aacSettings.SetCodingMode(
                Aws::MediaConvert::Model::AacCodingMode::CODING_MODE_2_0);
        aacSettings.SetRawFormat(Aws::MediaConvert::Model::AacRawFormat::NONE);
        aacSettings.SetSampleRate(48000);
        aacSettings.SetSpecification(Aws::MediaConvert::Model::AacSpecification::MPEG4);
        aacSettings.SetBitrate(64000);
        audioCodecSettings.SetAacSettings(aacSettings);
        audioDescription.SetCodecSettings(audioCodecSettings);
        Aws::Vector<Aws::MediaConvert::Model::AudioDescription> audioDescriptions;
        audioDescriptions.emplace_back(audioDescription);
        output.SetAudioDescriptions(audioDescriptions);

        Aws::MediaConvert::Model::ContainerSettings mp4container;
        mp4container.SetContainer(Aws::MediaConvert::Model::ContainerType::MP4);
        Aws::MediaConvert::Model::Mp4Settings mp4Settings;
        mp4Settings.SetCslgAtom(Aws::MediaConvert::Model::Mp4CslgAtom::INCLUDE);
        mp4Settings.SetFreeSpaceBox(Aws::MediaConvert::Model::Mp4FreeSpaceBox::EXCLUDE);
        mp4Settings.SetMoovPlacement(
                Aws::MediaConvert::Model::Mp4MoovPlacement::PROGRESSIVE_DOWNLOAD);
        mp4container.SetMp4Settings(mp4Settings);
        output.SetContainerSettings(mp4container);

        outputGroup.AddOutputs(output);
        jobSettings.AddOutputGroups(outputGroup);

        // Configure inputs.
        Aws::MediaConvert::Model::Input input;
        input.SetFilterEnable(Aws::MediaConvert::Model::InputFilterEnable::AUTO);
        input.SetPsiControl(Aws::MediaConvert::Model::InputPsiControl::USE_PSI);
        input.SetFilterStrength(0);
        input.SetDeblockFilter(Aws::MediaConvert::Model::InputDeblockFilter::DISABLED);
        input.SetDenoiseFilter(Aws::MediaConvert::Model::InputDenoiseFilter::DISABLED);
        input.SetTimecodeSource(
                Aws::MediaConvert::Model::InputTimecodeSource::EMBEDDED);
        input.SetFileInput(fileInput);

        Aws::MediaConvert::Model::AudioSelector audioSelector;
        audioSelector.SetOffset(0);
        audioSelector.SetDefaultSelection(
                Aws::MediaConvert::Model::AudioDefaultSelection::NOT_DEFAULT);
        audioSelector.SetProgramSelection(1);
        audioSelector.SetSelectorType(
                Aws::MediaConvert::Model::AudioSelectorType::TRACK);
        audioSelector.AddTracks(1);
        input.AddAudioSelectors(AUDIO_SOURCE_NAME, audioSelector);

        Aws::MediaConvert::Model::VideoSelector videoSelector;
        videoSelector.SetColorSpace(Aws::MediaConvert::Model::ColorSpace::FOLLOW);
        input.SetVideoSelector(videoSelector);

        jobSettings.AddInputs(input);

        createJobRequest.SetSettings(jobSettings);
    }

    Aws::MediaConvert::MediaConvertClient client(clientConfiguration);
    Aws::MediaConvert::Model::CreateJobOutcome outcome = client.CreateJob(
            createJobRequest);
    if (outcome.IsSuccess()) {
        std::cout << "Job successfully created with ID - "
                  << outcome.GetResult().GetJob().GetId() << std::endl;
    }
    else {
        std::cerr << "Error CreateJob - " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/SdkForCpp/mediaconvert-2017-08-29/CreateJob)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetJob`
<a name="mediaconvert_GetJob_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJob`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/mediaconvert#code-examples). 

```
//! Retrieve the information for a specific completed transcoding job.
/*!
  \param jobID: A job ID.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::MediaConvert::getJob(const Aws::String &jobID,
                                  const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::MediaConvert::MediaConvertClient client(clientConfiguration);

    Aws::MediaConvert::Model::GetJobRequest request;
    request.SetId(jobID);
    const Aws::MediaConvert::Model::GetJobOutcome outcome = client.GetJob(
            request);
    if (outcome.IsSuccess()) {
        std::cout << outcome.GetResult().GetJob().Jsonize().View().WriteReadable()
                  << std::endl;
    }
    else {
        std::cerr << "DescribeEndpoints error - " << outcome.GetError().GetMessage()
                  << std::endl;
    }


    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetJob](https://docs.aws.amazon.com/goto/SdkForCpp/mediaconvert-2017-08-29/GetJob)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListJobs`
<a name="mediaconvert_ListJobs_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/mediaconvert#code-examples). 

```
//! Retrieve a list of created jobs.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::MediaConvert::listJobs(
        const Aws::Client::ClientConfiguration &clientConfiguration) {

    Aws::MediaConvert::MediaConvertClient client(clientConfiguration);

    bool result = true;
    Aws::String nextToken; // Used to handle paginated results.
    do {
        Aws::MediaConvert::Model::ListJobsRequest request;
        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }
        const Aws::MediaConvert::Model::ListJobsOutcome outcome = client.ListJobs(
                request);
        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::MediaConvert::Model::Job> &jobs =
                    outcome.GetResult().GetJobs();
            std::cout << jobs.size() << " jobs retrieved." << std::endl;
            for (const Aws::MediaConvert::Model::Job &job: jobs) {
                std::cout << "  " << job.Jsonize().View().WriteReadable() << std::endl;
            }

            nextToken = outcome.GetResult().GetNextToken();
        }
        else {
            std::cerr << "DescribeEndpoints error - " << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
            break;

        }
    } while (!nextToken.empty());


    return result;
}
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForCpp/mediaconvert-2017-08-29/ListJobs)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# Contoh Amazon RDS menggunakan SDK for C\$1\$1
<a name="cpp_1_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 With Amazon RDS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon RDS
<a name="rds_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon RDS.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds/hello_rds#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS rds)

# Set this project's name.
project("hello_rds")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this 
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_rds.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1rds.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/rds/RDSClient.h>
#include <aws/rds/model/DescribeDBInstancesRequest.h>
#include <iostream>

/*
 *  A "Hello Rds" starter application which initializes an Amazon Relational Database Service (Amazon RDS) client and
 *  describes the Amazon RDS instances.
 *
 *  main function
 *
 *  Usage: 'hello_rds'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::RDS::RDSClient rdsClient(clientConfig);
        Aws::String marker;
        std::vector<Aws::String> instanceDBIDs;

        do {
            Aws::RDS::Model::DescribeDBInstancesRequest request;

            if (!marker.empty()) {
                request.SetMarker(marker);
            }

            Aws::RDS::Model::DescribeDBInstancesOutcome outcome =
                    rdsClient.DescribeDBInstances(request);

            if (outcome.IsSuccess()) {
                for (auto &instance: outcome.GetResult().GetDBInstances()) {
                    instanceDBIDs.push_back(instance.GetDBInstanceIdentifier());
                }
                marker = outcome.GetResult().GetMarker();
            } else {
                result = 1;
                std::cerr << "Error with RDS::DescribeDBInstances. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                break;
            }
        } while (!marker.empty());

        std::cout << instanceDBIDs.size() << " RDS instances found." << std::endl;
        for (auto &instanceDBID: instanceDBIDs) {
            std::cout << "   Instance: " << instanceDBID << std::endl;
        }
    }

    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="rds_Scenario_GetStartedInstances_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter basis data kustom dan mengatur nilai parameter.
+ Membuat instans basis data yang dikonfigurasikan untuk menggunakan grup parameter. Instans basis data juga berisi basis data.
+ Mengambil cuplikan instans.
+ Menghapus instans dan grup parameter.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Routine which creates an Amazon RDS instance and demonstrates several operations
//! on that instance.
/*!
 \sa gettingStartedWithDBInstances()
 \param clientConfiguration: AWS client configuration.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::gettingStartedWithDBInstances(
        const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::RDS::RDSClient client(clientConfig);

    printAsterisksLine();
    std::cout << "Welcome to the Amazon Relational Database Service (Amazon RDS)"
              << std::endl;
    std::cout << "get started with DB instances demo." << std::endl;
    printAsterisksLine();

    std::cout << "Checking for an existing DB parameter group named '" <<
              PARAMETER_GROUP_NAME << "'." << std::endl;
    Aws::String dbParameterGroupFamily("Undefined");
    bool parameterGroupFound = true;
    {
        // 1. Check if the DB parameter group already exists.
        Aws::RDS::Model::DescribeDBParameterGroupsRequest request;
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);

        Aws::RDS::Model::DescribeDBParameterGroupsOutcome outcome =
                client.DescribeDBParameterGroups(request);

        if (outcome.IsSuccess()) {
            std::cout << "DB parameter group named '" <<
                      PARAMETER_GROUP_NAME << "' already exists." << std::endl;
            dbParameterGroupFamily = outcome.GetResult().GetDBParameterGroups()[0].GetDBParameterGroupFamily();
        }
        else if (outcome.GetError().GetErrorType() ==
                 Aws::RDS::RDSErrors::D_B_PARAMETER_GROUP_NOT_FOUND_FAULT) {
            std::cout << "DB parameter group named '" <<
                      PARAMETER_GROUP_NAME << "' does not exist." << std::endl;
            parameterGroupFound = false;
        }
        else {
            std::cerr << "Error with RDS::DescribeDBParameterGroups. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    if (!parameterGroupFound) {
        Aws::Vector<Aws::RDS::Model::DBEngineVersion> engineVersions;

        // 2. Get available engine versions for the specified engine.
        if (!getDBEngineVersions(DB_ENGINE, NO_PARAMETER_GROUP_FAMILY,
                                 engineVersions, client)) {
            return false;
        }

        std::cout << "Getting available database engine versions for " << DB_ENGINE
                  << "."
                  << std::endl;
        std::vector<Aws::String> families;
        for (const Aws::RDS::Model::DBEngineVersion &version: engineVersions) {
            Aws::String family = version.GetDBParameterGroupFamily();
            if (std::find(families.begin(), families.end(), family) ==
                families.end()) {
                families.push_back(family);
                std::cout << "  " << families.size() << ": " << family << std::endl;
            }
        }

        int choice = askQuestionForIntRange("Which family do you want to use? ", 1,
                                            static_cast<int>(families.size()));
        dbParameterGroupFamily = families[choice - 1];
    }
    if (!parameterGroupFound) {
        // 3.  Create a DB parameter group.
        Aws::RDS::Model::CreateDBParameterGroupRequest request;
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);
        request.SetDBParameterGroupFamily(dbParameterGroupFamily);
        request.SetDescription("Example parameter group.");

        Aws::RDS::Model::CreateDBParameterGroupOutcome outcome =
                client.CreateDBParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB parameter group was successfully created."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::CreateDBParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    }

    printAsterisksLine();
    std::cout << "Let's set some parameter values in your parameter group."
              << std::endl;

    Aws::String marker;
    Aws::Vector<Aws::RDS::Model::Parameter> autoIncrementParameters;
    // 4.  Get the parameters in the DB parameter group.
    if (!getDBParameters(PARAMETER_GROUP_NAME, AUTO_INCREMENT_PREFIX, NO_SOURCE,
                         autoIncrementParameters,
                         client)) {
        cleanUpResources(PARAMETER_GROUP_NAME, "", client);
        return false;
    }

    Aws::Vector<Aws::RDS::Model::Parameter> updateParameters;

    for (Aws::RDS::Model::Parameter &autoIncParameter: autoIncrementParameters) {
        if (autoIncParameter.GetIsModifiable() &&
            (autoIncParameter.GetDataType() == "integer")) {
            std::cout << "The " << autoIncParameter.GetParameterName()
                      << " is described as: " <<
                      autoIncParameter.GetDescription() << "." << std::endl;
            if (autoIncParameter.ParameterValueHasBeenSet()) {
                std::cout << "The current value is "
                          << autoIncParameter.GetParameterValue()
                          << "." << std::endl;
            }
            std::vector<int> splitValues = splitToInts(
                    autoIncParameter.GetAllowedValues(), '-');
            if (splitValues.size() == 2) {
                int newValue = askQuestionForIntRange(
                        Aws::String("Enter a new value in the range ") +
                        autoIncParameter.GetAllowedValues() + ": ",
                        splitValues[0], splitValues[1]);
                autoIncParameter.SetParameterValue(std::to_string(newValue));
                updateParameters.push_back(autoIncParameter);

            }
            else {
                std::cerr << "Error parsing " << autoIncParameter.GetAllowedValues()
                          << std::endl;
            }
        }
    }

    {
        // 5.  Modify the auto increment parameters in the group.
        Aws::RDS::Model::ModifyDBParameterGroupRequest request;
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);
        request.SetParameters(updateParameters);

        Aws::RDS::Model::ModifyDBParameterGroupOutcome outcome =
                client.ModifyDBParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB parameter group was successfully modified."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::ModifyDBParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
    }

    std::cout
            << "You can get a list of parameters you've set by specifying a source of 'user'."
            << std::endl;

    Aws::Vector<Aws::RDS::Model::Parameter> userParameters;
    // 6.  Display the modified parameters in the group.
    if (!getDBParameters(PARAMETER_GROUP_NAME, NO_NAME_PREFIX, "user", userParameters,
                         client)) {
        cleanUpResources(PARAMETER_GROUP_NAME, "", client);
        return false;
    }

    for (const auto &userParameter: userParameters) {
        std::cout << "  " << userParameter.GetParameterName() << ", " <<
                  userParameter.GetDescription() << ", parameter value - "
                  << userParameter.GetParameterValue() << std::endl;
    }

    printAsterisksLine();
    std::cout << "Checking for an existing DB instance." << std::endl;

    Aws::RDS::Model::DBInstance dbInstance;
    // 7.  Check if the DB instance already exists.
    if (!describeDBInstance(DB_INSTANCE_IDENTIFIER, dbInstance, client)) {
        cleanUpResources(PARAMETER_GROUP_NAME, "", client);
        return false;
    }

    if (dbInstance.DbInstancePortHasBeenSet()) {
        std::cout << "The DB instance already exists." << std::endl;
    }
    else {
        std::cout << "Let's create a DB instance." << std::endl;
        const Aws::String administratorName = askQuestion(
                "Enter an administrator username for the database: ");
        const Aws::String administratorPassword = askQuestion(
                "Enter a password for the administrator (at least 8 characters): ");
        Aws::Vector<Aws::RDS::Model::DBEngineVersion> engineVersions;

        // 8.  Get a list of available engine versions.
        if (!getDBEngineVersions(DB_ENGINE, dbParameterGroupFamily, engineVersions,
                                 client)) {
            cleanUpResources(PARAMETER_GROUP_NAME, "", client);
            return false;
        }

        std::cout << "The available engines for your parameter group are:" << std::endl;

        int index = 1;
        for (const Aws::RDS::Model::DBEngineVersion &engineVersion: engineVersions) {
            std::cout << "  " << index << ": " << engineVersion.GetEngineVersion()
                      << std::endl;
            ++index;
        }
        int choice = askQuestionForIntRange("Which engine do you want to use? ", 1,
                                            static_cast<int>(engineVersions.size()));
        const Aws::RDS::Model::DBEngineVersion engineVersion = engineVersions[choice -
                                                                              1];

        Aws::String dbInstanceClass;
        // 9.  Get a list of micro instance classes.
        if (!chooseMicroDBInstanceClass(engineVersion.GetEngine(),
                                        engineVersion.GetEngineVersion(),
                                        dbInstanceClass,
                                        client)) {
            cleanUpResources(PARAMETER_GROUP_NAME, "", client);
            return false;
        }

        std::cout << "Creating a DB instance named '" << DB_INSTANCE_IDENTIFIER
                  << "' and database '" << DB_NAME << "'.\n"
                  << "The DB instance is configured to use your custom parameter group '"
                  << PARAMETER_GROUP_NAME << "',\n"
                  << "selected engine version " << engineVersion.GetEngineVersion()
                  << ",\n"
                  << "selected DB instance class '" << dbInstanceClass << "',"
                  << " and " << DB_ALLOCATED_STORAGE << " GiB of " << DB_STORAGE_TYPE
                  << " storage.\nThis typically takes several minutes." << std::endl;

        Aws::RDS::Model::CreateDBInstanceRequest request;
        request.SetDBName(DB_NAME);
        request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER);
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);
        request.SetEngine(engineVersion.GetEngine());
        request.SetEngineVersion(engineVersion.GetEngineVersion());
        request.SetDBInstanceClass(dbInstanceClass);
        request.SetStorageType(DB_STORAGE_TYPE);
        request.SetAllocatedStorage(DB_ALLOCATED_STORAGE);
        request.SetMasterUsername(administratorName);
        request.SetMasterUserPassword(administratorPassword);

        Aws::RDS::Model::CreateDBInstanceOutcome outcome =
                client.CreateDBInstance(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB instance creation has started."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::CreateDBInstance. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanUpResources(PARAMETER_GROUP_NAME, "", client);
            return false;
        }
    }

    std::cout << "Waiting for the DB instance to become available." << std::endl;

    int counter = 0;
    // 11. Wait for the DB instance to become available.
    do {
        std::this_thread::sleep_for(std::chrono::seconds(1));
        ++counter;
        if (counter > 900) {
            std::cerr << "Wait for instance to become available timed out ofter "
                      << counter
                      << " seconds." << std::endl;
            cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client);
            return false;
        }

        dbInstance = Aws::RDS::Model::DBInstance();
        if (!describeDBInstance(DB_INSTANCE_IDENTIFIER, dbInstance, client)) {
            cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client);
            return false;
        }

        if ((counter % 20) == 0) {
            std::cout << "Current DB instance status is '"
                      << dbInstance.GetDBInstanceStatus()
                      << "' after " << counter << " seconds." << std::endl;
        }
    } while (dbInstance.GetDBInstanceStatus() != "available");

    if (dbInstance.GetDBInstanceStatus() == "available") {
        std::cout << "The DB instance has been created." << std::endl;
    }

    printAsterisksLine();

    // 12. Display the connection string that can be used to connect a 'mysql' shell to the database.
    displayConnection(dbInstance);

    printAsterisksLine();

    if (askYesNoQuestion(
            "Do you want to create a snapshot of your DB instance (y/n)? ")) {
        Aws::String snapshotID(DB_INSTANCE_IDENTIFIER + "-" +
                               Aws::String(Aws::Utils::UUID::RandomUUID()));
        {
            std::cout << "Creating a snapshot named " << snapshotID << "." << std::endl;
            std::cout << "This typically takes a few minutes." << std::endl;

            // 13. Create a snapshot of the DB instance.
            Aws::RDS::Model::CreateDBSnapshotRequest request;
            request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER);
            request.SetDBSnapshotIdentifier(snapshotID);

            Aws::RDS::Model::CreateDBSnapshotOutcome outcome =
                    client.CreateDBSnapshot(request);

            if (outcome.IsSuccess()) {
                std::cout << "Snapshot creation has started."
                          << std::endl;
            }
            else {
                std::cerr << "Error with RDS::CreateDBSnapshot. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }
        }

        std::cout << "Waiting for snapshot to become available." << std::endl;

        Aws::RDS::Model::DBSnapshot snapshot;
        counter = 0;
        do {
            std::this_thread::sleep_for(std::chrono::seconds(1));
            ++counter;
            if (counter > 600) {
                std::cerr << "Wait for snapshot to be available timed out ofter "
                          << counter
                          << " seconds." << std::endl;
                cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }

            // 14. Wait for the snapshot to become available.
            Aws::RDS::Model::DescribeDBSnapshotsRequest request;
            request.SetDBSnapshotIdentifier(snapshotID);

            Aws::RDS::Model::DescribeDBSnapshotsOutcome outcome =
                    client.DescribeDBSnapshots(request);

            if (outcome.IsSuccess()) {
                snapshot = outcome.GetResult().GetDBSnapshots()[0];
            }
            else {
                std::cerr << "Error with RDS::DescribeDBSnapshots. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }

            if ((counter % 20) == 0) {
                std::cout << "Current snapshot status is '"
                          << snapshot.GetStatus()
                          << "' after " << counter << " seconds." << std::endl;
            }
        } while (snapshot.GetStatus() != "available");

        if (snapshot.GetStatus() != "available") {
            std::cout << "A snapshot has been created." << std::endl;
        }
    }

    printAsterisksLine();

    bool result = true;
    if (askYesNoQuestion(
            "Do you want to delete the DB instance and parameter group (y/n)? ")) {
        result = cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client);
    }

    return result;
}


//! Routine which gets DB parameters using the 'DescribeDBParameters' api.
/*!
 \sa getDBParameters()
 \param parameterGroupName: The name of the parameter group.
 \param namePrefix: Prefix string to filter results by parameter name.
 \param source: A source such as 'user', ignored if empty.
 \param parametersResult: Vector of 'Parameter' objects returned by the routine.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::getDBParameters(const Aws::String &parameterGroupName,
                                  const Aws::String &namePrefix,
                                  const Aws::String &source,
                                  Aws::Vector<Aws::RDS::Model::Parameter> &parametersResult,
                                  const Aws::RDS::RDSClient &client) {
    Aws::String marker;
    do {
        Aws::RDS::Model::DescribeDBParametersRequest request;
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);
        if (!marker.empty()) {
            request.SetMarker(marker);
        }
        if (!source.empty()) {
            request.SetSource(source);
        }

        Aws::RDS::Model::DescribeDBParametersOutcome outcome =
                client.DescribeDBParameters(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::Parameter> &parameters =
                    outcome.GetResult().GetParameters();
            for (const Aws::RDS::Model::Parameter &parameter: parameters) {
                if (!namePrefix.empty()) {
                    if (parameter.GetParameterName().find(namePrefix) == 0) {
                        parametersResult.push_back(parameter);
                    }
                }
                else {
                    parametersResult.push_back(parameter);
                }
            }

            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with RDS::DescribeDBParameters. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!marker.empty());

    return true;
}


//! Routine which gets available DB engine versions for an engine name and
//! an optional parameter group family.
/*!
 \sa getDBEngineVersions()
 \param engineName: A DB engine name.
 \param parameterGroupFamily: A parameter group family name, ignored if empty.
 \param engineVersionsResult: Vector of 'DBEngineVersion' objects returned by the routine.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::getDBEngineVersions(const Aws::String &engineName,
                                      const Aws::String &parameterGroupFamily,
                                      Aws::Vector<Aws::RDS::Model::DBEngineVersion> &engineVersionsResult,
                                      const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBEngineVersionsRequest request;
    request.SetEngine(engineName);
    if (!parameterGroupFamily.empty()) {
        request.SetDBParameterGroupFamily(parameterGroupFamily);
    }

    engineVersionsResult.clear();
    Aws::String marker; // Used for pagination.

    do {
        if (!marker.empty()) {
            request.SetMarker(marker);
        }


        Aws::RDS::Model::DescribeDBEngineVersionsOutcome outcome =
                client.DescribeDBEngineVersions(request);

        if (outcome.IsSuccess()) {
            auto &engineVersions = outcome.GetResult().GetDBEngineVersions();
            engineVersionsResult.insert(engineVersionsResult.end(), engineVersions.begin(),
                                        engineVersions.end());
            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with RDS::DescribeDBEngineVersionsRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }

    } while (!marker.empty());


    return true;
}


//! Routine which gets a DB instance description.
/*!
 \sa describeDBInstance()
 \param dbInstanceIdentifier: A DB instance identifier.
 \param instanceResult: The 'DBInstance' object containing the description.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::describeDBInstance(const Aws::String &dbInstanceIdentifier,
                                     Aws::RDS::Model::DBInstance &instanceResult,
                                     const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBInstancesRequest request;
    request.SetDBInstanceIdentifier(dbInstanceIdentifier);

    Aws::RDS::Model::DescribeDBInstancesOutcome outcome =
            client.DescribeDBInstances(request);

    bool result = true;
    if (outcome.IsSuccess()) {
        instanceResult = outcome.GetResult().GetDBInstances()[0];
    }
    else if (outcome.GetError().GetErrorType() !=
             Aws::RDS::RDSErrors::D_B_INSTANCE_NOT_FOUND_FAULT) {
        result = false;
        std::cerr << "Error with RDS::DescribeDBInstances. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
        // This example does not log an error if the DB instance does not exist.
        // Instead, instanceResult is set to empty.
    else {
        instanceResult = Aws::RDS::Model::DBInstance();
    }

    return result;
}


//! Routine which gets available 'micro' DB instance classes, displays the list
//! to the user, and returns the user selection.
/*!
 \sa chooseMicroDBInstanceClass()
 \param engineName: The DB engine name.
 \param engineVersion: The DB engine version.
 \param dbInstanceClass: String for DB instance class chosen by the user.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::chooseMicroDBInstanceClass(const Aws::String &engine,
                                             const Aws::String &engineVersion,
                                             Aws::String &dbInstanceClass,
                                             const Aws::RDS::RDSClient &client) {
    std::vector<Aws::String> instanceClasses;
    Aws::String marker;
    do {
        Aws::RDS::Model::DescribeOrderableDBInstanceOptionsRequest request;
        request.SetEngine(engine);
        request.SetEngineVersion(engineVersion);
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::RDS::Model::DescribeOrderableDBInstanceOptionsOutcome outcome =
                client.DescribeOrderableDBInstanceOptions(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::OrderableDBInstanceOption> &options =
                    outcome.GetResult().GetOrderableDBInstanceOptions();
            for (const Aws::RDS::Model::OrderableDBInstanceOption &option: options) {
                const Aws::String &instanceClass = option.GetDBInstanceClass();
                if (instanceClass.find("micro") != std::string::npos) {
                    if (std::find(instanceClasses.begin(), instanceClasses.end(),
                                  instanceClass) ==
                        instanceClasses.end()) {
                        instanceClasses.push_back(instanceClass);
                    }
                }
            }
            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with RDS::DescribeOrderableDBInstanceOptions. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!marker.empty());

    std::cout << "The available micro DB instance classes for your database engine are:"
              << std::endl;
    for (int i = 0; i < instanceClasses.size(); ++i) {
        std::cout << "   " << i + 1 << ": " << instanceClasses[i] << std::endl;
    }

    int choice = askQuestionForIntRange(
            "Which micro DB instance class do you want to use? ",
            1, static_cast<int>(instanceClasses.size()));
    dbInstanceClass = instanceClasses[choice - 1];
    return true;
}

//! Routine which deletes resources created by the scenario.
/*!
\sa cleanUpResources()
\param parameterGroupName: A parameter group name, this may be empty.
\param dbInstanceIdentifier: A DB instance identifier, this may be empty.
\param client: 'RDSClient' instance.
\return bool: Successful completion.
*/
bool AwsDoc::RDS::cleanUpResources(const Aws::String &parameterGroupName,
                                   const Aws::String &dbInstanceIdentifier,
                                   const Aws::RDS::RDSClient &client) {
    bool result = true;
    if (!dbInstanceIdentifier.empty()) {
        {
            // 15. Delete the DB instance.
            Aws::RDS::Model::DeleteDBInstanceRequest request;
            request.SetDBInstanceIdentifier(dbInstanceIdentifier);
            request.SetSkipFinalSnapshot(true);
            request.SetDeleteAutomatedBackups(true);

            Aws::RDS::Model::DeleteDBInstanceOutcome outcome =
                    client.DeleteDBInstance(request);

            if (outcome.IsSuccess()) {
                std::cout << "DB instance deletion has started."
                          << std::endl;
            }
            else {
                std::cerr << "Error with RDS::DeleteDBInstance. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }

        std::cout
                << "Waiting for DB instance to delete before deleting the parameter group."
                << std::endl;
        std::cout << "This may take a while." << std::endl;

        int counter = 0;
        Aws::RDS::Model::DBInstance dbInstance;
        do {
            std::this_thread::sleep_for(std::chrono::seconds(1));
            ++counter;
            if (counter > 800) {
                std::cerr << "Wait for instance to delete timed out ofter " << counter
                          << " seconds." << std::endl;
                return false;
            }

            dbInstance = Aws::RDS::Model::DBInstance();
            // 16. Wait for the DB instance to be deleted.
            if (!describeDBInstance(dbInstanceIdentifier, dbInstance, client)) {
                return false;
            }

            if (dbInstance.DBInstanceIdentifierHasBeenSet() && (counter % 20) == 0) {
                std::cout << "Current DB instance status is '"
                          << dbInstance.GetDBInstanceStatus()
                          << "' after " << counter << " seconds." << std::endl;
            }
        } while (dbInstance.DBInstanceIdentifierHasBeenSet());
    }

    if (!parameterGroupName.empty()) {
        // 17. Delete the parameter group.
        Aws::RDS::Model::DeleteDBParameterGroupRequest request;
        request.SetDBParameterGroupName(parameterGroupName);

        Aws::RDS::Model::DeleteDBParameterGroupOutcome outcome =
                client.DeleteDBParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB parameter group was successfully deleted."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::DeleteDBParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
    }

    return result;
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBInstance)
  + [Buat DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBParameterGroup)
  + [Buat DBSnapshot](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBSnapshot)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBInstance)
  + [Hapus DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBParameterGroup)
  + [Jelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBInstances)
  + [Jelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBParameterGroups)
  + [Jelaskan DBParameters](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBParameters)
  + [Jelaskan DBSnapshots](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBSnapshots)
  + [DescribeOrderableDBInstancePilihan](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeOrderableDBInstanceOptions)
  + [Ubah DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/ModifyDBParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBInstance`
<a name="rds_CreateDBInstance_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::CreateDBInstanceRequest request;
        request.SetDBName(DB_NAME);
        request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER);
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);
        request.SetEngine(engineVersion.GetEngine());
        request.SetEngineVersion(engineVersion.GetEngineVersion());
        request.SetDBInstanceClass(dbInstanceClass);
        request.SetStorageType(DB_STORAGE_TYPE);
        request.SetAllocatedStorage(DB_ALLOCATED_STORAGE);
        request.SetMasterUsername(administratorName);
        request.SetMasterUserPassword(administratorPassword);

        Aws::RDS::Model::CreateDBInstanceOutcome outcome =
                client.CreateDBInstance(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB instance creation has started."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::CreateDBInstance. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            cleanUpResources(PARAMETER_GROUP_NAME, "", client);
            return false;
        }
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBInstance) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateDBParameterGroup`
<a name="rds_CreateDBParameterGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBParameterGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::CreateDBParameterGroupRequest request;
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);
        request.SetDBParameterGroupFamily(dbParameterGroupFamily);
        request.SetDescription("Example parameter group.");

        Aws::RDS::Model::CreateDBParameterGroupOutcome outcome =
                client.CreateDBParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB parameter group was successfully created."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::CreateDBParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [Membuat DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBParameterGroup) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateDBSnapshot`
<a name="rds_CreateDBSnapshot_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSnapshot`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

            Aws::RDS::Model::CreateDBSnapshotRequest request;
            request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER);
            request.SetDBSnapshotIdentifier(snapshotID);

            Aws::RDS::Model::CreateDBSnapshotOutcome outcome =
                    client.CreateDBSnapshot(request);

            if (outcome.IsSuccess()) {
                std::cout << "Snapshot creation has started."
                          << std::endl;
            }
            else {
                std::cerr << "Error with RDS::CreateDBSnapshot. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }
```
+  Untuk detail API, lihat [Membuat DBSnapshot](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/CreateDBSnapshot) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteDBInstance`
<a name="rds_DeleteDBInstance_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

            Aws::RDS::Model::DeleteDBInstanceRequest request;
            request.SetDBInstanceIdentifier(dbInstanceIdentifier);
            request.SetSkipFinalSnapshot(true);
            request.SetDeleteAutomatedBackups(true);

            Aws::RDS::Model::DeleteDBInstanceOutcome outcome =
                    client.DeleteDBInstance(request);

            if (outcome.IsSuccess()) {
                std::cout << "DB instance deletion has started."
                          << std::endl;
            }
            else {
                std::cerr << "Error with RDS::DeleteDBInstance. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBInstance) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteDBParameterGroup`
<a name="rds_DeleteDBParameterGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBParameterGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::DeleteDBParameterGroupRequest request;
        request.SetDBParameterGroupName(parameterGroupName);

        Aws::RDS::Model::DeleteDBParameterGroupOutcome outcome =
                client.DeleteDBParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB parameter group was successfully deleted."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::DeleteDBParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
```
+  Untuk detail API, lihat [Menghapus DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DeleteDBParameterGroup) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBEngineVersions`
<a name="rds_DescribeDBEngineVersions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);


//! Routine which gets available DB engine versions for an engine name and
//! an optional parameter group family.
/*!
 \sa getDBEngineVersions()
 \param engineName: A DB engine name.
 \param parameterGroupFamily: A parameter group family name, ignored if empty.
 \param engineVersionsResult: Vector of 'DBEngineVersion' objects returned by the routine.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::getDBEngineVersions(const Aws::String &engineName,
                                      const Aws::String &parameterGroupFamily,
                                      Aws::Vector<Aws::RDS::Model::DBEngineVersion> &engineVersionsResult,
                                      const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBEngineVersionsRequest request;
    request.SetEngine(engineName);
    if (!parameterGroupFamily.empty()) {
        request.SetDBParameterGroupFamily(parameterGroupFamily);
    }

    engineVersionsResult.clear();
    Aws::String marker; // Used for pagination.

    do {
        if (!marker.empty()) {
            request.SetMarker(marker);
        }


        Aws::RDS::Model::DescribeDBEngineVersionsOutcome outcome =
                client.DescribeDBEngineVersions(request);

        if (outcome.IsSuccess()) {
            auto &engineVersions = outcome.GetResult().GetDBEngineVersions();
            engineVersionsResult.insert(engineVersionsResult.end(), engineVersions.begin(),
                                        engineVersions.end());
            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with RDS::DescribeDBEngineVersionsRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }

    } while (!marker.empty());


    return true;
}
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBEngineVersions) dalam *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);


//! Routine which gets a DB instance description.
/*!
 \sa describeDBInstance()
 \param dbInstanceIdentifier: A DB instance identifier.
 \param instanceResult: The 'DBInstance' object containing the description.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::describeDBInstance(const Aws::String &dbInstanceIdentifier,
                                     Aws::RDS::Model::DBInstance &instanceResult,
                                     const Aws::RDS::RDSClient &client) {
    Aws::RDS::Model::DescribeDBInstancesRequest request;
    request.SetDBInstanceIdentifier(dbInstanceIdentifier);

    Aws::RDS::Model::DescribeDBInstancesOutcome outcome =
            client.DescribeDBInstances(request);

    bool result = true;
    if (outcome.IsSuccess()) {
        instanceResult = outcome.GetResult().GetDBInstances()[0];
    }
    else if (outcome.GetError().GetErrorType() !=
             Aws::RDS::RDSErrors::D_B_INSTANCE_NOT_FOUND_FAULT) {
        result = false;
        std::cerr << "Error with RDS::DescribeDBInstances. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }
        // This example does not log an error if the DB instance does not exist.
        // Instead, instanceResult is set to empty.
    else {
        instanceResult = Aws::RDS::Model::DBInstance();
    }

    return result;
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBParameterGroups`
<a name="rds_DescribeDBParameterGroups_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameterGroups`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::DescribeDBParameterGroupsRequest request;
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);

        Aws::RDS::Model::DescribeDBParameterGroupsOutcome outcome =
                client.DescribeDBParameterGroups(request);

        if (outcome.IsSuccess()) {
            std::cout << "DB parameter group named '" <<
                      PARAMETER_GROUP_NAME << "' already exists." << std::endl;
            dbParameterGroupFamily = outcome.GetResult().GetDBParameterGroups()[0].GetDBParameterGroupFamily();
        }

        else {
            std::cerr << "Error with RDS::DescribeDBParameterGroups. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
```
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBParameterGroups) dalam *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBParameters`
<a name="rds_DescribeDBParameters_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameters`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);


//! Routine which gets DB parameters using the 'DescribeDBParameters' api.
/*!
 \sa getDBParameters()
 \param parameterGroupName: The name of the parameter group.
 \param namePrefix: Prefix string to filter results by parameter name.
 \param source: A source such as 'user', ignored if empty.
 \param parametersResult: Vector of 'Parameter' objects returned by the routine.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::getDBParameters(const Aws::String &parameterGroupName,
                                  const Aws::String &namePrefix,
                                  const Aws::String &source,
                                  Aws::Vector<Aws::RDS::Model::Parameter> &parametersResult,
                                  const Aws::RDS::RDSClient &client) {
    Aws::String marker;
    do {
        Aws::RDS::Model::DescribeDBParametersRequest request;
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);
        if (!marker.empty()) {
            request.SetMarker(marker);
        }
        if (!source.empty()) {
            request.SetSource(source);
        }

        Aws::RDS::Model::DescribeDBParametersOutcome outcome =
                client.DescribeDBParameters(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::Parameter> &parameters =
                    outcome.GetResult().GetParameters();
            for (const Aws::RDS::Model::Parameter &parameter: parameters) {
                if (!namePrefix.empty()) {
                    if (parameter.GetParameterName().find(namePrefix) == 0) {
                        parametersResult.push_back(parameter);
                    }
                }
                else {
                    parametersResult.push_back(parameter);
                }
            }

            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with RDS::DescribeDBParameters. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!marker.empty());

    return true;
}
```
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBParameters) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeDBSnapshots`
<a name="rds_DescribeDBSnapshots_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBSnapshots`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

            Aws::RDS::Model::DescribeDBSnapshotsRequest request;
            request.SetDBSnapshotIdentifier(snapshotID);

            Aws::RDS::Model::DescribeDBSnapshotsOutcome outcome =
                    client.DescribeDBSnapshots(request);

            if (outcome.IsSuccess()) {
                snapshot = outcome.GetResult().GetDBSnapshots()[0];
            }
            else {
                std::cerr << "Error with RDS::DescribeDBSnapshots. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client);
                return false;
            }
```
+  Untuk detail API, lihat [Menjelaskan DBSnapshots](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeDBSnapshots) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DescribeOrderableDBInstanceOptions`
<a name="rds_DescribeOrderableDBInstanceOptions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);


//! Routine which gets available 'micro' DB instance classes, displays the list
//! to the user, and returns the user selection.
/*!
 \sa chooseMicroDBInstanceClass()
 \param engineName: The DB engine name.
 \param engineVersion: The DB engine version.
 \param dbInstanceClass: String for DB instance class chosen by the user.
 \param client: 'RDSClient' instance.
 \return bool: Successful completion.
 */
bool AwsDoc::RDS::chooseMicroDBInstanceClass(const Aws::String &engine,
                                             const Aws::String &engineVersion,
                                             Aws::String &dbInstanceClass,
                                             const Aws::RDS::RDSClient &client) {
    std::vector<Aws::String> instanceClasses;
    Aws::String marker;
    do {
        Aws::RDS::Model::DescribeOrderableDBInstanceOptionsRequest request;
        request.SetEngine(engine);
        request.SetEngineVersion(engineVersion);
        if (!marker.empty()) {
            request.SetMarker(marker);
        }

        Aws::RDS::Model::DescribeOrderableDBInstanceOptionsOutcome outcome =
                client.DescribeOrderableDBInstanceOptions(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::RDS::Model::OrderableDBInstanceOption> &options =
                    outcome.GetResult().GetOrderableDBInstanceOptions();
            for (const Aws::RDS::Model::OrderableDBInstanceOption &option: options) {
                const Aws::String &instanceClass = option.GetDBInstanceClass();
                if (instanceClass.find("micro") != std::string::npos) {
                    if (std::find(instanceClasses.begin(), instanceClasses.end(),
                                  instanceClass) ==
                        instanceClasses.end()) {
                        instanceClasses.push_back(instanceClass);
                    }
                }
            }
            marker = outcome.GetResult().GetMarker();
        }
        else {
            std::cerr << "Error with RDS::DescribeOrderableDBInstanceOptions. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!marker.empty());

    std::cout << "The available micro DB instance classes for your database engine are:"
              << std::endl;
    for (int i = 0; i < instanceClasses.size(); ++i) {
        std::cout << "   " << i + 1 << ": " << instanceClasses[i] << std::endl;
    }

    int choice = askQuestionForIntRange(
            "Which micro DB instance class do you want to use? ",
            1, static_cast<int>(instanceClasses.size()));
    dbInstanceClass = instanceClasses[choice - 1];
    return true;
}
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/DescribeOrderableDBInstanceOptions) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ModifyDBParameterGroup`
<a name="rds_ModifyDBParameterGroup_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBParameterGroup`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rds#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::RDS::RDSClient client(clientConfig);

        Aws::RDS::Model::ModifyDBParameterGroupRequest request;
        request.SetDBParameterGroupName(PARAMETER_GROUP_NAME);
        request.SetParameters(updateParameters);

        Aws::RDS::Model::ModifyDBParameterGroupOutcome outcome =
                client.ModifyDBParameterGroup(request);

        if (outcome.IsSuccess()) {
            std::cout << "The DB parameter group was successfully modified."
                      << std::endl;
        }
        else {
            std::cerr << "Error with RDS::ModifyDBParameterGroup. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
        }
```
+  Untuk detail API, lihat [Memodifikasi DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForCpp/rds-2014-10-31/ModifyDBParameterGroup) di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk C\$1\$1**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon Aurora Nirserver.   
 Untuk kode sumber lengkap dan instruksi tentang cara menyiapkan C\$1\$1 REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/serverless-aurora)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Layanan Data Amazon RDS menggunakan SDK for C\$1\$1
<a name="cpp_1_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk C\$1\$1 dengan menggunakan Layanan Data Amazon RDS.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk C\$1\$1**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon Aurora Nirserver.   
 Untuk kode sumber lengkap dan instruksi tentang cara menyiapkan C\$1\$1 REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/serverless-aurora)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon Rekognition menggunakan SDK for C\$1\$1
<a name="cpp_1_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 With Amazon Rekognition.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon Rekognition
<a name="rekognition_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Rekognition.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rekognition/hello_rekognition#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS rekognition)

# Set this project's name.
project("hello_rekognition")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS) 
     # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

     # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this 
                                    # and set the proper subdirectory to the executables' location.

     AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_rekognition.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1rekognition.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/rekognition/RekognitionClient.h>
#include <aws/rekognition/model/ListCollectionsRequest.h>
#include <iostream>

/*
 *  A "Hello Rekognition" starter application which initializes an Amazon Rekognition client and
 *  lists the Amazon Rekognition collections in the current account and region.
 *
 *  main function
 *
 *  Usage: 'hello_rekognition'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    //  Optional: change the log level for debugging.
    //  options.loggingOptions.logLevel = Aws::Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::Rekognition::RekognitionClient rekognitionClient(clientConfig);
        Aws::Rekognition::Model::ListCollectionsRequest request;
        Aws::Rekognition::Model::ListCollectionsOutcome outcome =
                rekognitionClient.ListCollections(request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::String>& collectionsIds = outcome.GetResult().GetCollectionIds();
            if (!collectionsIds.empty()) {
                std::cout << "collectionsIds: " << std::endl;
                for (auto &collectionId : collectionsIds) {
                    std::cout << "- " << collectionId << std::endl;
                }
            } else {
                std::cout << "No collections found" << std::endl;
            }
        } else {
            std::cerr << "Error with ListCollections: " << outcome.GetError()
                      << std::endl;
        }
    }


    Aws::ShutdownAPI(options); // Should only be called once.
    return 0;
}
```
+  Untuk detail API, lihat [ListCollections](https://docs.aws.amazon.com/goto/SdkForCpp/rekognition-2016-06-27/ListCollections)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Tindakan
<a name="actions"></a>

### `DetectLabels`
<a name="rekognition_DetectLabels_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi label dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detect-labels-image.html).

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/rekognition#code-examples). 

```
//! Detect instances of real-world entities within an image by using Amazon Rekognition
/*!
  \param imageBucket: The Amazon Simple Storage Service (Amazon S3) bucket containing an image.
  \param imageKey: The Amazon S3 key of an image object.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::Rekognition::detectLabels(const Aws::String &imageBucket,
                                       const Aws::String &imageKey,
                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::Rekognition::RekognitionClient rekognitionClient(clientConfiguration);

    Aws::Rekognition::Model::DetectLabelsRequest request;
    Aws::Rekognition::Model::S3Object s3Object;
    s3Object.SetBucket(imageBucket);
    s3Object.SetName(imageKey);

    Aws::Rekognition::Model::Image image;
    image.SetS3Object(s3Object);

    request.SetImage(image);

    const Aws::Rekognition::Model::DetectLabelsOutcome outcome = rekognitionClient.DetectLabels(request);

    if (outcome.IsSuccess()) {
        const Aws::Vector<Aws::Rekognition::Model::Label> &labels = outcome.GetResult().GetLabels();
        if (labels.empty()) {
            std::cout << "No labels detected" << std::endl;
        } else {
            for (const Aws::Rekognition::Model::Label &label: labels) {
                std::cout << label.GetName() << ": " << label.GetConfidence() << std::endl;
            }
        }
    } else {
        std::cerr << "Error while detecting labels: '"
                  << outcome.GetError().GetMessage()
                  << "'" << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DetectLabels](https://docs.aws.amazon.com/goto/SdkForCpp/rekognition-2016-06-27/DetectLabels)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk C\$1\$1**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

# Contoh Amazon S3 menggunakan SDK for C\$1\$1
<a name="cpp_1_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon S3. AWS SDK untuk C\$1\$1 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3/hello_s3#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS s3)

# Set this project's name.
project("hello_s3")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
    # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

    # set(BIN_SUB_DIR "/Debug") # if you are building from the command line you may need to uncomment this
    # and set the proper subdirectory to the executables' location.

    AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_s3.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1s3.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/s3/S3Client.h>
#include <iostream>
#include <aws/core/auth/AWSCredentialsProviderChain.h>
using namespace Aws;
using namespace Aws::Auth;

/*
 *  A "Hello S3" starter application which initializes an Amazon Simple Storage Service (Amazon S3) client
 *  and lists the Amazon S3 buckets in the selected region.
 *
 *  main function
 *
 *  Usage: 'hello_s3'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    int result = 0;
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";
               
        // You don't normally have to test that you are authenticated. But the S3 service permits anonymous requests, thus the s3Client will return "success" and 0 buckets even if you are unauthenticated, which can be confusing to a new user. 
        auto provider = Aws::MakeShared<DefaultAWSCredentialsProviderChain>("alloc-tag");
        auto creds = provider->GetAWSCredentials();
        if (creds.IsEmpty()) {
            std::cerr << "Failed authentication" << std::endl;
        }

        Aws::S3::S3Client s3Client(clientConfig);
        auto outcome = s3Client.ListBuckets();

        if (!outcome.IsSuccess()) {
            std::cerr << "Failed with error: " << outcome.GetError() << std::endl;
            result = 1;
        } else {
            std::cout << "Found " << outcome.GetResult().GetBuckets().size()
                      << " buckets\n";
            for (auto &bucket: outcome.GetResult().GetBuckets()) {
                std::cout << bucket.GetName() << std::endl;
            }
        }
    }

    Aws::ShutdownAPI(options); // Should only be called once.
    return result;
}
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
#include <iostream>
#include <aws/core/Aws.h>
#include <aws/s3/S3Client.h>
#include <aws/s3/model/CopyObjectRequest.h>
#include <aws/s3/model/CreateBucketRequest.h>
#include <aws/s3/model/DeleteBucketRequest.h>
#include <aws/s3/model/DeleteObjectRequest.h>
#include <aws/s3/model/GetObjectRequest.h>
#include <aws/s3/model/ListObjectsV2Request.h>
#include <aws/s3/model/PutObjectRequest.h>
#include <aws/s3/model/BucketLocationConstraint.h>
#include <aws/s3/model/CreateBucketConfiguration.h>
#include <aws/core/utils/UUID.h>
#include <aws/core/utils/StringUtils.h>
#include <aws/core/utils/memory/stl/AWSAllocator.h>
#include <fstream>
#include "s3_examples.h"

namespace AwsDoc {
    namespace S3 {

        //! Delete an S3 bucket.
        /*!
          \param bucketName: The S3 bucket's name.
          \param client: An S3 client.
          \return bool: Function succeeded.
        */
        static bool
        deleteBucket(const Aws::String &bucketName, Aws::S3::S3Client &client);

        //! Delete an object in an S3 bucket.
        /*!
          \param bucketName: The S3 bucket's name.
          \param key: The key for the object in the S3 bucket.
          \param client: An S3 client.
          \return bool: Function succeeded.
         */
        static bool
        deleteObjectFromBucket(const Aws::String &bucketName, const Aws::String &key,
                               Aws::S3::S3Client &client);
    }
}


//! Scenario to create, copy, and delete S3 buckets and objects.
/*!
  \param bucketNamePrefix: A prefix for a bucket name.
  \param uploadFilePath: Path to file to upload to an Amazon S3 bucket.
  \param saveFilePath: Path for saving a downloaded S3 object.
  \param clientConfig: Aws client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::S3::S3_GettingStartedScenario(const Aws::String &bucketNamePrefix,
        const Aws::String &uploadFilePath,
                                           const Aws::String &saveFilePath,
                                           const Aws::Client::ClientConfiguration &clientConfig) {

    Aws::S3::S3Client client(clientConfig);

    // Create a unique bucket name which is only temporary and will be deleted.
    // Format: <bucketNamePrefix> + "-" + lowercase UUID.
    Aws::String uuid = Aws::Utils::UUID::RandomUUID();
    Aws::String bucketName = bucketNamePrefix +
                             Aws::Utils::StringUtils::ToLower(uuid.c_str());

    // 1. Create a bucket.
    {
        Aws::S3::Model::CreateBucketRequest request;
        request.SetBucket(bucketName);

        if (clientConfig.region != Aws::Region::US_EAST_1) {
            Aws::S3::Model::CreateBucketConfiguration createBucketConfiguration;
            createBucketConfiguration.WithLocationConstraint(
                    Aws::S3::Model::BucketLocationConstraintMapper::GetBucketLocationConstraintForName(
                            clientConfig.region));
            request.WithCreateBucketConfiguration(createBucketConfiguration);
        }

        Aws::S3::Model::CreateBucketOutcome outcome = client.CreateBucket(request);

        if (!outcome.IsSuccess()) {
            const Aws::S3::S3Error &err = outcome.GetError();
            std::cerr << "Error: createBucket: " <<
                      err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
            return false;
        } else {
            std::cout << "Created the bucket, '" << bucketName <<
                      "', in the region, '" << clientConfig.region << "'." << std::endl;
        }
    }

    // 2. Upload a local file to the bucket.
    Aws::String key = "key-for-test";
    {
        Aws::S3::Model::PutObjectRequest request;
        request.SetBucket(bucketName);
        request.SetKey(key);

        std::shared_ptr<Aws::FStream> input_data =
                Aws::MakeShared<Aws::FStream>("SampleAllocationTag",
                                              uploadFilePath,
                                              std::ios_base::in |
                                              std::ios_base::binary);

        if (!input_data->is_open()) {
            std::cerr << "Error: unable to open file, '" << uploadFilePath << "'."
                      << std::endl;
            AwsDoc::S3::deleteBucket(bucketName, client);
            return false;
        }

        request.SetBody(input_data);

        Aws::S3::Model::PutObjectOutcome outcome =
                client.PutObject(request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Error: putObject: " <<
                      outcome.GetError().GetMessage() << std::endl;
            AwsDoc::S3::deleteObjectFromBucket(bucketName, key, client);
            AwsDoc::S3::deleteBucket(bucketName, client);
            return false;
        } else {
            std::cout << "Added the object with the key, '" << key
                      << "', to the bucket, '"
                      << bucketName << "'." << std::endl;
        }
    }

    // 3. Download the object to a local file.
    {
        Aws::S3::Model::GetObjectRequest request;
        request.SetBucket(bucketName);
        request.SetKey(key);

        Aws::S3::Model::GetObjectOutcome outcome =
                client.GetObject(request);

        if (!outcome.IsSuccess()) {
            const Aws::S3::S3Error &err = outcome.GetError();
            std::cerr << "Error: getObject: " <<
                      err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
        } else {
            std::cout << "Downloaded the object with the key, '" << key
                      << "', in the bucket, '"
                      << bucketName << "'." << std::endl;

            Aws::IOStream &ioStream = outcome.GetResultWithOwnership().
                    GetBody();
            Aws::OFStream outStream(saveFilePath,
                                    std::ios_base::out | std::ios_base::binary);
            if (!outStream.is_open()) {
                std::cout << "Error: unable to open file, '" << saveFilePath << "'."
                          << std::endl;
            } else {
                outStream << ioStream.rdbuf();
                std::cout << "Wrote the downloaded object to the file '"
                          << saveFilePath << "'." << std::endl;
            }
        }
    }

    // 4. Copy the object to a different "folder" in the bucket.
    Aws::String copiedToKey = "test-folder/" + key;
    {
        Aws::S3::Model::CopyObjectRequest request;
        request.WithBucket(bucketName)
                .WithKey(copiedToKey)
                .WithCopySource(bucketName + "/" + key);

        Aws::S3::Model::CopyObjectOutcome outcome =
                client.CopyObject(request);
        if (!outcome.IsSuccess()) {
            std::cerr << "Error: copyObject: " <<
                      outcome.GetError().GetMessage() << std::endl;
        } else {
            std::cout << "Copied the object with the key, '" << key
                      << "', to the key, '" << copiedToKey
                      << ", in the bucket, '" << bucketName << "'." << std::endl;
        }
    }

    // 5. List objects in the bucket.
    {
        Aws::S3::Model::ListObjectsV2Request request;
        request.WithBucket(bucketName);

        Aws::String continuationToken;
        Aws::Vector<Aws::S3::Model::Object> allObjects;

        do {
            if (!continuationToken.empty()) {
                request.SetContinuationToken(continuationToken);
            }
            Aws::S3::Model::ListObjectsV2Outcome outcome = client.ListObjectsV2(
                    request);

            if (!outcome.IsSuccess()) {
                std::cerr << "Error: ListObjects: " <<
                          outcome.GetError().GetMessage() << std::endl;
                break;
            } else {
                Aws::Vector<Aws::S3::Model::Object> objects =
                        outcome.GetResult().GetContents();
                allObjects.insert(allObjects.end(), objects.begin(), objects.end());
                continuationToken = outcome.GetResult().GetContinuationToken();
            }
        } while (!continuationToken.empty());

        std::cout << allObjects.size() << " objects in the bucket, '" << bucketName
                  << "':" << std::endl;

        for (Aws::S3::Model::Object &object: allObjects) {
            std::cout << "     '" << object.GetKey() << "'" << std::endl;
        }
    }

    // 6. Delete all objects in the bucket.
    // All objects in the bucket must be deleted before deleting the bucket.
    AwsDoc::S3::deleteObjectFromBucket(bucketName, copiedToKey, client);
    AwsDoc::S3::deleteObjectFromBucket(bucketName, key, client);

    // 7. Delete the bucket.
    return AwsDoc::S3::deleteBucket(bucketName, client);
}

bool AwsDoc::S3::deleteObjectFromBucket(const Aws::String &bucketName,
                                        const Aws::String &key,
                                        Aws::S3::S3Client &client) {
    Aws::S3::Model::DeleteObjectRequest request;
    request.SetBucket(bucketName);
    request.SetKey(key);

    Aws::S3::Model::DeleteObjectOutcome outcome =
            client.DeleteObject(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: deleteObject: " <<
                  outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Deleted the object with the key, '" << key
                  << "', from the bucket, '"
                  << bucketName << "'." << std::endl;
    }

    return outcome.IsSuccess();
}

bool
AwsDoc::S3::deleteBucket(const Aws::String &bucketName, Aws::S3::S3Client &client) {
    Aws::S3::Model::DeleteBucketRequest request;
    request.SetBucket(bucketName);

    Aws::S3::Model::DeleteBucketOutcome outcome =
            client.DeleteBucket(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();
        std::cerr << "Error: deleteBucket: " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        std::cout << "Deleted the bucket, '" << bucketName << "'." << std::endl;
    }
    return outcome.IsSuccess();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [CopyObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/DeleteBucket)
  + [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/DeleteObjects)
  + [GetObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/GetObject)
  + [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/ListObjectsV2)
  + [PutObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `AbortMultipartUpload`
<a name="s3_AbortMultipartUpload_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AbortMultipartUpload`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
//! Abort a multipart upload to an S3 bucket.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param uploadID: An upload ID string.
    \param client: The S3 client instance used to perform the upload operation.
    \return bool: Function succeeded.
*/

bool AwsDoc::S3::abortMultipartUpload(const Aws::String &bucket,
                                      const Aws::String &key,
                                      const Aws::String &uploadID,
                                      const Aws::S3::S3Client &client) {
    Aws::S3::Model::AbortMultipartUploadRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);
    request.SetUploadId(uploadID);

    Aws::S3::Model::AbortMultipartUploadOutcome outcome =
            client.AbortMultipartUpload(request);

    if (outcome.IsSuccess()) {
        std::cout << "Multipart upload aborted." << std::endl;
    } else {
        std::cerr << "Error aborting multipart upload: " << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [AbortMultipartUpload](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/AbortMultipartUpload)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CompleteMultipartUpload`
<a name="s3_CompleteMultipartUpload_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompleteMultipartUpload`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
//! Complete a multipart upload to an S3 bucket.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param uploadID: An upload ID string.
    \param parts: A vector of CompleteParts.
    \param client: The S3 client instance used to perform the upload operation.
    \return CompleteMultipartUploadOutcome: The request outcome.
*/
Aws::S3::Model::CompleteMultipartUploadOutcome AwsDoc::S3::completeMultipartUpload(const Aws::String &bucket,
                                                                                   const Aws::String &key,
                                                                                   const Aws::String &uploadID,
                                                                                   const Aws::Vector<Aws::S3::Model::CompletedPart> &parts,
                                                                                   const Aws::S3::S3Client &client) {
    Aws::S3::Model::CompletedMultipartUpload completedMultipartUpload;
    completedMultipartUpload.SetParts(parts);

    Aws::S3::Model::CompleteMultipartUploadRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);
    request.SetUploadId(uploadID);
    request.SetMultipartUpload(completedMultipartUpload);

    Aws::S3::Model::CompleteMultipartUploadOutcome outcome =
            client.CompleteMultipartUpload(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error completing multipart upload: " << outcome.GetError().GetMessage() << std::endl;
    }
    return outcome;
}
```
+  Untuk detail API, lihat [CompleteMultipartUpload](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/CompleteMultipartUpload)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CopyObject`
<a name="s3_CopyObject_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::copyObject(const Aws::String &objectKey, const Aws::String &fromBucket, const Aws::String &toBucket,
                            const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    Aws::S3::Model::CopyObjectRequest request;

    request.WithCopySource(fromBucket + "/" + objectKey)
            .WithKey(objectKey)
            .WithBucket(toBucket);

    Aws::S3::Model::CopyObjectOutcome outcome = client.CopyObject(request);
    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();
        std::cerr << "Error: copyObject: " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;

    } else {
        std::cout << "Successfully copied " << objectKey << " from " << fromBucket <<
                  " to " << toBucket << "." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/CopyObject)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateBucket`
<a name="s3_CreateBucket_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::createBucket(const Aws::String &bucketName,
                              const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    Aws::S3::Model::CreateBucketRequest request;
    request.SetBucket(bucketName);

    if (clientConfig.region != "us-east-1") {
        Aws::S3::Model::CreateBucketConfiguration createBucketConfig;
        createBucketConfig.SetLocationConstraint(
                Aws::S3::Model::BucketLocationConstraintMapper::GetBucketLocationConstraintForName(
                        clientConfig.region));
        request.SetCreateBucketConfiguration(createBucketConfig);
    }

    Aws::S3::Model::CreateBucketOutcome outcome = client.CreateBucket(request);
    if (!outcome.IsSuccess()) {
        auto err = outcome.GetError();
        std::cerr << "Error: createBucket: " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        std::cout << "Created bucket " << bucketName <<
                  " in the specified AWS Region." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/CreateBucket)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateMultipartUpload`
<a name="s3_CreateMultipartUpload_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMultipartUpload`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
//! Create a multipart upload.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param client: The S3 client instance used to perform the upload operation.
    \return Aws::String: Upload ID or empty string if failed.
*/
Aws::String
AwsDoc::S3::createMultipartUpload(const Aws::String &bucket, const Aws::String &key,
                                  Aws::S3::Model::ChecksumAlgorithm checksumAlgorithm,
                                  const Aws::S3::S3Client &client) {
    Aws::S3::Model::CreateMultipartUploadRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);

    if (checksumAlgorithm != Aws::S3::Model::ChecksumAlgorithm::NOT_SET) {
        request.SetChecksumAlgorithm(checksumAlgorithm);
    }

    Aws::S3::Model::CreateMultipartUploadOutcome outcome =
            client.CreateMultipartUpload(request);

    Aws::String uploadID;
    if (outcome.IsSuccess()) {
        uploadID = outcome.GetResult().GetUploadId();
    } else {
        std::cerr << "Error creating multipart upload: " << outcome.GetError().GetMessage() << std::endl;
    }

    return uploadID;
}
```
+  Untuk detail API, lihat [CreateMultipartUpload](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/CreateMultipartUpload)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::deleteBucket(const Aws::String &bucketName,
                              const Aws::S3::S3ClientConfiguration &clientConfig) {

    Aws::S3::S3Client client(clientConfig);

    Aws::S3::Model::DeleteBucketRequest request;
    request.SetBucket(bucketName);

    Aws::S3::Model::DeleteBucketOutcome outcome =
            client.DeleteBucket(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();
        std::cerr << "Error: deleteBucket: " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        std::cout << "The bucket was deleted" << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/DeleteBucket)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteBucketPolicy`
<a name="s3_DeleteBucketPolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketPolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::deleteBucketPolicy(const Aws::String &bucketName,
                                    const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);

    Aws::S3::Model::DeleteBucketPolicyRequest request;
    request.SetBucket(bucketName);

    Aws::S3::Model::DeleteBucketPolicyOutcome outcome = client.DeleteBucketPolicy(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();
        std::cerr << "Error: deleteBucketPolicy: " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        std::cout << "Policy was deleted from the bucket." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/DeleteBucketPolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteBucketWebsite`
<a name="s3_DeleteBucketWebsite_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketWebsite`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::deleteBucketWebsite(const Aws::String &bucketName,
                                     const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    Aws::S3::Model::DeleteBucketWebsiteRequest request;
    request.SetBucket(bucketName);

    Aws::S3::Model::DeleteBucketWebsiteOutcome outcome =
            client.DeleteBucketWebsite(request);

    if (!outcome.IsSuccess()) {
        auto err = outcome.GetError();
        std::cerr << "Error: deleteBucketWebsite: " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        std::cout << "Website configuration was removed." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteBucketWebsite](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/DeleteBucketWebsite)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteObject`
<a name="s3_DeleteObject_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::deleteObject(const Aws::String &objectKey,
                              const Aws::String &fromBucket,
                              const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    Aws::S3::Model::DeleteObjectRequest request;

    request.WithKey(objectKey)
            .WithBucket(fromBucket);

    Aws::S3::Model::DeleteObjectOutcome outcome =
            client.DeleteObject(request);

    if (!outcome.IsSuccess()) {
        auto err = outcome.GetError();
        std::cerr << "Error: deleteObject: " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        std::cout << "Successfully deleted the object." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/DeleteObject)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::deleteObjects(const std::vector<Aws::String> &objectKeys,
                               const Aws::String &fromBucket,
                               const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    Aws::S3::Model::DeleteObjectsRequest request;

    Aws::S3::Model::Delete deleteObject;
    for (const Aws::String &objectKey: objectKeys) {
        deleteObject.AddObjects(Aws::S3::Model::ObjectIdentifier().WithKey(objectKey));
    }

    request.SetDelete(deleteObject);
    request.SetBucket(fromBucket);

    Aws::S3::Model::DeleteObjectsOutcome outcome =
            client.DeleteObjects(request);

    if (!outcome.IsSuccess()) {
        auto err = outcome.GetError();
        std::cerr << "Error deleting objects. " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        std::cout << "Successfully deleted the objects.";
        for (size_t i = 0; i < objectKeys.size(); ++i) {
            std::cout << objectKeys[i];
            if (i < objectKeys.size() - 1) {
                std::cout << ", ";
            }
        }

        std::cout << " from bucket " << fromBucket << "." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/DeleteObjects)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetBucketAcl`
<a name="s3_GetBucketAcl_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketAcl`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::getBucketAcl(const Aws::String &bucketName,
                              const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    Aws::S3::Model::GetBucketAclRequest request;
    request.SetBucket(bucketName);

    Aws::S3::Model::GetBucketAclOutcome outcome =
            s3Client.GetBucketAcl(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();
        std::cerr << "Error: getBucketAcl: "
                  << err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        Aws::Vector<Aws::S3::Model::Grant> grants =
                outcome.GetResult().GetGrants();

        for (auto it = grants.begin(); it != grants.end(); it++) {
            Aws::S3::Model::Grant grant = *it;
            Aws::S3::Model::Grantee grantee = grant.GetGrantee();

            std::cout << "For bucket " << bucketName << ": "
                      << std::endl << std::endl;

            if (grantee.TypeHasBeenSet()) {
                std::cout << "Type:          "
                          << getGranteeTypeString(grantee.GetType()) << std::endl;
            }

            if (grantee.DisplayNameHasBeenSet()) {
                std::cout << "Display name:  "
                          << grantee.GetDisplayName() << std::endl;
            }

            if (grantee.EmailAddressHasBeenSet()) {
                std::cout << "Email address: "
                          << grantee.GetEmailAddress() << std::endl;
            }

            if (grantee.IDHasBeenSet()) {
                std::cout << "ID:            "
                          << grantee.GetID() << std::endl;
            }

            if (grantee.URIHasBeenSet()) {
                std::cout << "URI:           "
                          << grantee.GetURI() << std::endl;
            }

            std::cout << "Permission:    " <<
                      getPermissionString(grant.GetPermission()) <<
                      std::endl << std::endl;
        }
    }

    return outcome.IsSuccess();
}

//! Routine which converts a built-in type enumeration to a human-readable string.
/*!
 \param type: Type enumeration.
 \return String: Human-readable string.
*/

Aws::String getGranteeTypeString(const Aws::S3::Model::Type &type) {
    switch (type) {
        case Aws::S3::Model::Type::AmazonCustomerByEmail:
            return "Email address of an AWS account";
        case Aws::S3::Model::Type::CanonicalUser:
            return "Canonical user ID of an AWS account";
        case Aws::S3::Model::Type::Group:
            return "Predefined Amazon S3 group";
        case Aws::S3::Model::Type::NOT_SET:
            return "Not set";
        default:
            return "Type unknown";
    }
}

//! Routine which converts a built-in type enumeration to a human-readable string.
/*!
 \param permission: Permission enumeration.
 \return String: Human-readable string.
*/

Aws::String getPermissionString(const Aws::S3::Model::Permission &permission) {
    switch (permission) {
        case Aws::S3::Model::Permission::FULL_CONTROL:
            return "Can list objects in this bucket, create/overwrite/delete "
                   "objects in this bucket, and read/write this "
                   "bucket's permissions";
        case Aws::S3::Model::Permission::NOT_SET:
            return "Permission not set";
        case Aws::S3::Model::Permission::READ:
            return "Can list objects in this bucket";
        case Aws::S3::Model::Permission::READ_ACP:
            return "Can read this bucket's permissions";
        case Aws::S3::Model::Permission::WRITE:
            return "Can create, overwrite, and delete objects in this bucket";
        case Aws::S3::Model::Permission::WRITE_ACP:
            return "Can write this bucket's permissions";
        default:
            return "Permission unknown";
    }

    return "Permission unknown";
}
```
+  Untuk detail API, lihat [GetBucketAcl](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/GetBucketAcl)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetBucketPolicy`
<a name="s3_GetBucketPolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketPolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::getBucketPolicy(const Aws::String &bucketName,
                                 const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    Aws::S3::Model::GetBucketPolicyRequest request;
    request.SetBucket(bucketName);

    Aws::S3::Model::GetBucketPolicyOutcome outcome =
            s3Client.GetBucketPolicy(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();
        std::cerr << "Error: getBucketPolicy: "
                  << err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        Aws::StringStream policy_stream;
        Aws::String line;

        outcome.GetResult().GetPolicy() >> line;
        policy_stream << line;

        std::cout << "Retrieve the policy for bucket '" << bucketName << "':\n\n" <<
                  policy_stream.str() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/GetBucketPolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetBucketWebsite`
<a name="s3_GetBucketWebsite_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketWebsite`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::getWebsiteConfig(const Aws::String &bucketName,
                                  const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    Aws::S3::Model::GetBucketWebsiteRequest request;
    request.SetBucket(bucketName);

    Aws::S3::Model::GetBucketWebsiteOutcome outcome =
            s3Client.GetBucketWebsite(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();

        std::cerr << "Error: GetBucketWebsite: "
                  << err.GetMessage() << std::endl;
    } else {
        Aws::S3::Model::GetBucketWebsiteResult websiteResult = outcome.GetResult();

        std::cout << "Success: GetBucketWebsite: "
                  << std::endl << std::endl
                  << "For bucket '" << bucketName << "':"
                  << std::endl
                  << "Index page : "
                  << websiteResult.GetIndexDocument().GetSuffix()
                  << std::endl
                  << "Error page: "
                  << websiteResult.GetErrorDocument().GetKey()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetBucketWebsite](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/GetBucketWebsite)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetObject`
<a name="s3_GetObject_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::getObject(const Aws::String &objectKey,
                           const Aws::String &fromBucket,
                           const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);

    Aws::S3::Model::GetObjectRequest request;
    request.SetBucket(fromBucket);
    request.SetKey(objectKey);

    Aws::S3::Model::GetObjectOutcome outcome =
            client.GetObject(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();
        std::cerr << "Error: getObject: " <<
                  err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        std::cout << "Successfully retrieved '" << objectKey << "' from '"
                  << fromBucket << "'." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/GetObject)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetObjectAcl`
<a name="s3_GetObjectAcl_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectAcl`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::getObjectAcl(const Aws::String &bucketName,
                              const Aws::String &objectKey,
                              const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    Aws::S3::Model::GetObjectAclRequest request;
    request.SetBucket(bucketName);
    request.SetKey(objectKey);

    Aws::S3::Model::GetObjectAclOutcome outcome =
            s3Client.GetObjectAcl(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &err = outcome.GetError();
        std::cerr << "Error: getObjectAcl: "
                  << err.GetExceptionName() << ": " << err.GetMessage() << std::endl;
    } else {
        Aws::Vector<Aws::S3::Model::Grant> grants =
                outcome.GetResult().GetGrants();

        for (auto it = grants.begin(); it != grants.end(); it++) {
            std::cout << "For object " << objectKey << ": "
                      << std::endl << std::endl;

            Aws::S3::Model::Grant grant = *it;
            Aws::S3::Model::Grantee grantee = grant.GetGrantee();

            if (grantee.TypeHasBeenSet()) {
                std::cout << "Type:          "
                          << getGranteeTypeString(grantee.GetType()) << std::endl;
            }

            if (grantee.DisplayNameHasBeenSet()) {
                std::cout << "Display name:  "
                          << grantee.GetDisplayName() << std::endl;
            }

            if (grantee.EmailAddressHasBeenSet()) {
                std::cout << "Email address: "
                          << grantee.GetEmailAddress() << std::endl;
            }

            if (grantee.IDHasBeenSet()) {
                std::cout << "ID:            "
                          << grantee.GetID() << std::endl;
            }

            if (grantee.URIHasBeenSet()) {
                std::cout << "URI:           "
                          << grantee.GetURI() << std::endl;
            }

            std::cout << "Permission:    " <<
                      getPermissionString(grant.GetPermission()) <<
                      std::endl << std::endl;
        }
    }

    return outcome.IsSuccess();
}

//! Routine which converts a built-in type enumeration to a human-readable string.
/*!
 \param type: Type enumeration.
 \return String: Human-readable string
*/
Aws::String getGranteeTypeString(const Aws::S3::Model::Type &type) {
    switch (type) {
        case Aws::S3::Model::Type::AmazonCustomerByEmail:
            return "Email address of an AWS account";
        case Aws::S3::Model::Type::CanonicalUser:
            return "Canonical user ID of an AWS account";
        case Aws::S3::Model::Type::Group:
            return "Predefined Amazon S3 group";
        case Aws::S3::Model::Type::NOT_SET:
            return "Not set";
        default:
            return "Type unknown";
    }
}

//! Routine which converts a built-in type enumeration to a human-readable string.
/*!
 \param permission: Permission enumeration.
 \return String: Human-readable string
*/
Aws::String getPermissionString(const Aws::S3::Model::Permission &permission) {
    switch (permission) {
        case Aws::S3::Model::Permission::FULL_CONTROL:
            return "Can read this object's data and its metadata, "
                   "and read/write this object's permissions";
        case Aws::S3::Model::Permission::NOT_SET:
            return "Permission not set";
        case Aws::S3::Model::Permission::READ:
            return "Can read this object's data and its metadata";
        case Aws::S3::Model::Permission::READ_ACP:
            return "Can read this object's permissions";
            // case Aws::S3::Model::Permission::WRITE // Not applicable.
        case Aws::S3::Model::Permission::WRITE_ACP:
            return "Can write this object's permissions";
        default:
            return "Permission unknown";
    }
}
```
+  Untuk detail API, lihat [GetObjectAcl](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/GetObjectAcl)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetObjectAttributes`
<a name="s3_GetObjectAttributes_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectAttributes`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
// ! Routine which retrieves the hash value of an object stored in an S3 bucket.
/*!
   \param bucket: The name of the S3 bucket where the object is stored.
   \param key: The unique identifier (key) of the object within the S3 bucket.
   \param hashMethod: The hashing algorithm used to calculate the hash value of the object.
   \param[out] hashData: The retrieved hash.
   \param[out] partHashes: The part hashes if available.
   \param client: The S3 client instance used to retrieve the object.
   \return bool: Function succeeded.
*/
bool AwsDoc::S3::retrieveObjectHash(const Aws::String &bucket, const Aws::String &key,
                                    AwsDoc::S3::HASH_METHOD hashMethod,
                                    Aws::String &hashData,
                                    std::vector<Aws::String> *partHashes,
                                    const Aws::S3::S3Client &client) {
    Aws::S3::Model::GetObjectAttributesRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);

    if (hashMethod == MD5) {
        Aws::Vector<Aws::S3::Model::ObjectAttributes> attributes;
        attributes.push_back(Aws::S3::Model::ObjectAttributes::ETag);
        request.SetObjectAttributes(attributes);

        Aws::S3::Model::GetObjectAttributesOutcome outcome = client.GetObjectAttributes(
                request);
        if (outcome.IsSuccess()) {
            const Aws::S3::Model::GetObjectAttributesResult &result = outcome.GetResult();
            hashData = result.GetETag();
        } else {
            std::cerr << "Error retrieving object etag attributes." <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    } else { // hashMethod != MD5
        Aws::Vector<Aws::S3::Model::ObjectAttributes> attributes;
        attributes.push_back(Aws::S3::Model::ObjectAttributes::Checksum);
        request.SetObjectAttributes(attributes);

        Aws::S3::Model::GetObjectAttributesOutcome outcome = client.GetObjectAttributes(
                request);
        if (outcome.IsSuccess()) {
            const Aws::S3::Model::GetObjectAttributesResult &result = outcome.GetResult();
            switch (hashMethod) {
                case AwsDoc::S3::DEFAULT: // NOLINT(*-branch-clone)
                    break;  // Default is not supported.
#pragma clang diagnostic push
#pragma ide diagnostic ignored "UnreachableCode"
                case AwsDoc::S3::MD5:
                    break;  // MD5 is not supported.
#pragma clang diagnostic pop
                case AwsDoc::S3::SHA1:
                    hashData = result.GetChecksum().GetChecksumSHA1();
                    break;
                case AwsDoc::S3::SHA256:
                    hashData = result.GetChecksum().GetChecksumSHA256();
                    break;
                case AwsDoc::S3::CRC32:
                    hashData = result.GetChecksum().GetChecksumCRC32();
                    break;
                case AwsDoc::S3::CRC32C:
                    hashData = result.GetChecksum().GetChecksumCRC32C();
                    break;
                default:
                    std::cerr << "Unknown hash method." << std::endl;
                    return false;
            }
        } else {
            std::cerr << "Error retrieving object checksum attributes." <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        if (nullptr != partHashes) {
            attributes.clear();
            attributes.push_back(Aws::S3::Model::ObjectAttributes::ObjectParts);
            request.SetObjectAttributes(attributes);
            outcome = client.GetObjectAttributes(request);
            if (outcome.IsSuccess()) {
                const Aws::S3::Model::GetObjectAttributesResult &result = outcome.GetResult();
                const Aws::Vector<Aws::S3::Model::ObjectPart> parts = result.GetObjectParts().GetParts();
                for (const Aws::S3::Model::ObjectPart &part: parts) {
                    switch (hashMethod) {
                        case AwsDoc::S3::DEFAULT: // Default is not supported. NOLINT(*-branch-clone)
                            break;
                        case AwsDoc::S3::MD5: // MD5 is not supported.
                            break;
                        case AwsDoc::S3::SHA1:
                            partHashes->push_back(part.GetChecksumSHA1());
                            break;
                        case AwsDoc::S3::SHA256:
                            partHashes->push_back(part.GetChecksumSHA256());
                            break;
                        case AwsDoc::S3::CRC32:
                            partHashes->push_back(part.GetChecksumCRC32());
                            break;
                        case AwsDoc::S3::CRC32C:
                            partHashes->push_back(part.GetChecksumCRC32C());
                            break;
                        default:
                            std::cerr << "Unknown hash method." << std::endl;
                            return false;
                    }
                }
            } else {
                std::cerr << "Error retrieving object attributes for object parts." <<
                          outcome.GetError().GetMessage() << std::endl;
                return false;
            }
        }
    }

    return true;
}
```
+  Untuk detail API, lihat [GetObjectAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/GetObjectAttributes)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListBuckets`
<a name="s3_ListBuckets_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::listBuckets(const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);

    auto outcome = client.ListBuckets();

    bool result = true;
    if (!outcome.IsSuccess()) {
        std::cerr << "Failed with error: " << outcome.GetError() << std::endl;
        result = false;
    } else {
        std::cout << "Found " << outcome.GetResult().GetBuckets().size() << " buckets\n";
        for (auto &&b: outcome.GetResult().GetBuckets()) {
            std::cout << b.GetName() << std::endl;
        }
    }

    return result;
}
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::listObjects(const Aws::String &bucketName,
                             Aws::Vector<Aws::String> &keysResult,
                             const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    Aws::S3::Model::ListObjectsV2Request request;
    request.WithBucket(bucketName);

    Aws::String continuationToken; // Used for pagination.
    Aws::Vector<Aws::S3::Model::Object> allObjects;

    do {
        if (!continuationToken.empty()) {
            request.SetContinuationToken(continuationToken);
        }

        auto outcome = s3Client.ListObjectsV2(request);

        if (!outcome.IsSuccess()) {
            std::cerr << "Error: listObjects: " <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        } else {
            Aws::Vector<Aws::S3::Model::Object> objects =
                    outcome.GetResult().GetContents();

            allObjects.insert(allObjects.end(), objects.begin(), objects.end());
            continuationToken = outcome.GetResult().GetNextContinuationToken();
        }
    } while (!continuationToken.empty());

    std::cout << allObjects.size() << " object(s) found:" << std::endl;

    for (const auto &object: allObjects) {
        std::cout << "  " << object.GetKey() << std::endl;
        keysResult.push_back(object.GetKey());
    }

    return true;
}
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/ListObjectsV2) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutBucketAcl`
<a name="s3_PutBucketAcl_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketAcl`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::putBucketAcl(const Aws::String &bucketName, const Aws::String &ownerID,
                              const Aws::String &granteePermission,
                              const Aws::String &granteeType, const Aws::String &granteeID,
                              const Aws::String &granteeEmailAddress,
                              const Aws::String &granteeURI, const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    Aws::S3::Model::Owner owner;
    owner.SetID(ownerID);

    Aws::S3::Model::Grantee grantee;
    grantee.SetType(setGranteeType(granteeType));

    if (!granteeEmailAddress.empty()) {
        grantee.SetEmailAddress(granteeEmailAddress);
    }

    if (!granteeID.empty()) {
        grantee.SetID(granteeID);
    }

    if (!granteeURI.empty()) {
        grantee.SetURI(granteeURI);
    }

    Aws::S3::Model::Grant grant;
    grant.SetGrantee(grantee);
    grant.SetPermission(setGranteePermission(granteePermission));

    Aws::Vector<Aws::S3::Model::Grant> grants;
    grants.push_back(grant);

    Aws::S3::Model::AccessControlPolicy acp;
    acp.SetOwner(owner);
    acp.SetGrants(grants);

    Aws::S3::Model::PutBucketAclRequest request;
    request.SetAccessControlPolicy(acp);
    request.SetBucket(bucketName);

    Aws::S3::Model::PutBucketAclOutcome outcome =
            s3Client.PutBucketAcl(request);

    if (!outcome.IsSuccess()) {
        const Aws::S3::S3Error &error = outcome.GetError();

        std::cerr << "Error: putBucketAcl: " << error.GetExceptionName()
                  << " - " << error.GetMessage() << std::endl;
    } else {
        std::cout << "Successfully added an ACL to the bucket '" << bucketName
                  << "'." << std::endl;
    }

    return outcome.IsSuccess();
}

//! Routine which converts a human-readable string to a built-in type enumeration.
/*!
 \param access: Human readable string.
 \return Permission: A Permission enum.
*/

Aws::S3::Model::Permission setGranteePermission(const Aws::String &access) {
    if (access == "FULL_CONTROL")
        return Aws::S3::Model::Permission::FULL_CONTROL;
    if (access == "WRITE")
        return Aws::S3::Model::Permission::WRITE;
    if (access == "READ")
        return Aws::S3::Model::Permission::READ;
    if (access == "WRITE_ACP")
        return Aws::S3::Model::Permission::WRITE_ACP;
    if (access == "READ_ACP")
        return Aws::S3::Model::Permission::READ_ACP;
    return Aws::S3::Model::Permission::NOT_SET;
}

//! Routine which converts a human-readable string to a built-in type enumeration.
/*!
 \param type: Human readable string.
 \return Type: Type enumeration
*/

Aws::S3::Model::Type setGranteeType(const Aws::String &type) {
    if (type == "Amazon customer by email")
        return Aws::S3::Model::Type::AmazonCustomerByEmail;
    if (type == "Canonical user")
        return Aws::S3::Model::Type::CanonicalUser;
    if (type == "Group")
        return Aws::S3::Model::Type::Group;
    return Aws::S3::Model::Type::NOT_SET;
}
```
+  Untuk detail API, lihat [PutBucketAcl](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/PutBucketAcl)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutBucketPolicy`
<a name="s3_PutBucketPolicy_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketPolicy`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::putBucketPolicy(const Aws::String &bucketName,
                                 const Aws::String &policyBody,
                                 const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    std::shared_ptr<Aws::StringStream> request_body =
            Aws::MakeShared<Aws::StringStream>("");
    *request_body << policyBody;

    Aws::S3::Model::PutBucketPolicyRequest request;
    request.SetBucket(bucketName);
    request.SetBody(request_body);

    Aws::S3::Model::PutBucketPolicyOutcome outcome =
            s3Client.PutBucketPolicy(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: putBucketPolicy: "
                  << outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Set the following policy body for the bucket '" <<
                  bucketName << "':" << std::endl << std::endl;
        std::cout << policyBody << std::endl;
    }

    return outcome.IsSuccess();
}


//! Build a policy JSON string.
/*!
  \param userArn: Aws user Amazon Resource Name (ARN).
      For more information, see https://docs.aws.amazon.com/IAM/latest/UserGuide/reference_identifiers.html#identifiers-arns.
  \param bucketName: Name of a bucket.
  \return String: Policy as JSON string.
*/

Aws::String getPolicyString(const Aws::String &userArn,
                            const Aws::String &bucketName) {
    return
            "{\n"
            "   \"Version\":\"2012-10-17\",\n"
            "   \"Statement\":[\n"
            "       {\n"
            "           \"Sid\": \"1\",\n"
            "           \"Effect\": \"Allow\",\n"
            "           \"Principal\": {\n"
            "               \"AWS\": \""
            + userArn +
            "\"\n""           },\n"
            "           \"Action\": [ \"s3:getObject\" ],\n"
            "           \"Resource\": [ \"arn:aws:s3:::"
            + bucketName +
            "/*\" ]\n"
            "       }\n"
            "   ]\n"
            "}";
}
```
+  Untuk detail API, lihat [PutBucketPolicy](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/PutBucketPolicy)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutBucketWebsite`
<a name="s3_PutBucketWebsite_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketWebsite`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::putWebsiteConfig(const Aws::String &bucketName,
                                  const Aws::String &indexPage, const Aws::String &errorPage,
                                  const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);

    Aws::S3::Model::IndexDocument indexDocument;
    indexDocument.SetSuffix(indexPage);

    Aws::S3::Model::ErrorDocument errorDocument;
    errorDocument.SetKey(errorPage);

    Aws::S3::Model::WebsiteConfiguration websiteConfiguration;
    websiteConfiguration.SetIndexDocument(indexDocument);
    websiteConfiguration.SetErrorDocument(errorDocument);

    Aws::S3::Model::PutBucketWebsiteRequest request;
    request.SetBucket(bucketName);
    request.SetWebsiteConfiguration(websiteConfiguration);

    Aws::S3::Model::PutBucketWebsiteOutcome outcome =
            client.PutBucketWebsite(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: PutBucketWebsite: "
                  << outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Success: Set website configuration for bucket '"
                  << bucketName << "'." << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [PutBucketWebsite](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/PutBucketWebsite)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutObject`
<a name="s3_PutObject_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::putObject(const Aws::String &bucketName,
                           const Aws::String &fileName,
                           const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    Aws::S3::Model::PutObjectRequest request;
    request.SetBucket(bucketName);
    //We are using the name of the file as the key for the object in the bucket.
    //However, this is just a string and can be set according to your retrieval needs.
    request.SetKey(fileName);

    std::shared_ptr<Aws::IOStream> inputData =
            Aws::MakeShared<Aws::FStream>("SampleAllocationTag",
                                          fileName.c_str(),
                                          std::ios_base::in | std::ios_base::binary);

    if (!*inputData) {
        std::cerr << "Error unable to read file " << fileName << std::endl;
        return false;
    }

    request.SetBody(inputData);

    Aws::S3::Model::PutObjectOutcome outcome =
            s3Client.PutObject(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error: putObject: " <<
                  outcome.GetError().GetMessage() << std::endl;
    } else {
        std::cout << "Added object '" << fileName << "' to bucket '"
                  << bucketName << "'.";
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/PutObject)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `PutObjectAcl`
<a name="s3_PutObjectAcl_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectAcl`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
bool AwsDoc::S3::putObjectAcl(const Aws::String &bucketName, const Aws::String &objectKey, const Aws::String &ownerID,
                              const Aws::String &granteePermission, const Aws::String &granteeType,
                              const Aws::String &granteeID, const Aws::String &granteeEmailAddress,
                              const Aws::String &granteeURI, const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client s3Client(clientConfig);

    Aws::S3::Model::Owner owner;
    owner.SetID(ownerID);

    Aws::S3::Model::Grantee grantee;
    grantee.SetType(setGranteeType(granteeType));

    if (!granteeEmailAddress.empty()) {
        grantee.SetEmailAddress(granteeEmailAddress);
    }

    if (!granteeID.empty()) {
        grantee.SetID(granteeID);
    }

    if (!granteeURI.empty()) {
        grantee.SetURI(granteeURI);
    }

    Aws::S3::Model::Grant grant;
    grant.SetGrantee(grantee);
    grant.SetPermission(setGranteePermission(granteePermission));

    Aws::Vector<Aws::S3::Model::Grant> grants;
    grants.push_back(grant);

    Aws::S3::Model::AccessControlPolicy acp;
    acp.SetOwner(owner);
    acp.SetGrants(grants);

    Aws::S3::Model::PutObjectAclRequest request;
    request.SetAccessControlPolicy(acp);
    request.SetBucket(bucketName);
    request.SetKey(objectKey);

    Aws::S3::Model::PutObjectAclOutcome outcome =
            s3Client.PutObjectAcl(request);

    if (!outcome.IsSuccess()) {
        auto error = outcome.GetError();
        std::cerr << "Error: putObjectAcl: " << error.GetExceptionName()
                  << " - " << error.GetMessage() << std::endl;
    } else {
        std::cout << "Successfully added an ACL to the object '" << objectKey
                  << "' in the bucket '" << bucketName << "'." << std::endl;
    }

    return outcome.IsSuccess();
}

//! Routine which converts a human-readable string to a built-in type enumeration.
/*!
 \param access: Human readable string.
 \return Permission: Permission enumeration.
*/
Aws::S3::Model::Permission setGranteePermission(const Aws::String &access) {
    if (access == "FULL_CONTROL")
        return Aws::S3::Model::Permission::FULL_CONTROL;
    if (access == "WRITE")
        return Aws::S3::Model::Permission::WRITE;
    if (access == "READ")
        return Aws::S3::Model::Permission::READ;
    if (access == "WRITE_ACP")
        return Aws::S3::Model::Permission::WRITE_ACP;
    if (access == "READ_ACP")
        return Aws::S3::Model::Permission::READ_ACP;
    return Aws::S3::Model::Permission::NOT_SET;
}

//! Routine which converts a human-readable string to a built-in type enumeration.
/*!
 \param type: Human readable string.
 \return Type: Type enumeration.
*/
Aws::S3::Model::Type setGranteeType(const Aws::String &type) {
    if (type == "Amazon customer by email")
        return Aws::S3::Model::Type::AmazonCustomerByEmail;
    if (type == "Canonical user")
        return Aws::S3::Model::Type::CanonicalUser;
    if (type == "Group")
        return Aws::S3::Model::Type::Group;
    return Aws::S3::Model::Type::NOT_SET;
}
```
+  Untuk detail API, lihat [PutObjectAcl](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/PutObjectAcl)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UploadPart`
<a name="s3_UploadPart_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadPart`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 

```
//! Upload a part to an S3 bucket.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param uploadID: An upload ID string.
    \param partNumber:
    \param checksumAlgorithm: Checksum algorithm, ignored when NOT_SET.
    \param calculatedHash: A data integrity hash to set, depending on the checksum algorithm,
                            ignored when it is an empty string.
    \param body: An shared_ptr IOStream of the data to be uploaded.
    \param client: The S3 client instance used to perform the upload operation.
    \return UploadPartOutcome: The outcome.
*/

Aws::S3::Model::UploadPartOutcome AwsDoc::S3::uploadPart(const Aws::String &bucket,
                                                         const Aws::String &key,
                                                         const Aws::String &uploadID,
                                                         int partNumber,
                                                         Aws::S3::Model::ChecksumAlgorithm checksumAlgorithm,
                                                         const Aws::String &calculatedHash,
                                                         const std::shared_ptr<Aws::IOStream> &body,
                                                         const Aws::S3::S3Client &client) {
    Aws::S3::Model::UploadPartRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);
    request.SetUploadId(uploadID);
    request.SetPartNumber(partNumber);
    if (checksumAlgorithm != Aws::S3::Model::ChecksumAlgorithm::NOT_SET) {
        request.SetChecksumAlgorithm(checksumAlgorithm);
    }
    request.SetBody(body);

    if (!calculatedHash.empty()) {
        switch (checksumAlgorithm) {
            case Aws::S3::Model::ChecksumAlgorithm::NOT_SET:
                request.SetContentMD5(calculatedHash);
                break;
            case Aws::S3::Model::ChecksumAlgorithm::CRC32:
                request.SetChecksumCRC32(calculatedHash);
                break;
            case Aws::S3::Model::ChecksumAlgorithm::CRC32C:
                request.SetChecksumCRC32C(calculatedHash);
                break;
            case Aws::S3::Model::ChecksumAlgorithm::SHA1:
                request.SetChecksumSHA1(calculatedHash);
                break;
            case Aws::S3::Model::ChecksumAlgorithm::SHA256:
                request.SetChecksumSHA256(calculatedHash);
                break;
        }
    }

    return client.UploadPart(request);
}
```
+  Untuk detail API, lihat [UploadPart](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/UploadPart)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3#code-examples). 
Hasilkan URL yang telah ditandatangani sebelumnya untuk mengunduh objek.  

```
//! Routine which demonstrates creating a pre-signed URL to download an object from an
//! Amazon Simple Storage Service (Amazon S3) bucket.
/*!
  \param bucketName: Name of the bucket.
  \param key: Name of an object key.
  \param expirationSeconds: Expiration in seconds for pre-signed URL.
  \param clientConfig: Aws client configuration.
  \return Aws::String: A pre-signed URL.
*/
Aws::String AwsDoc::S3::generatePreSignedGetObjectUrl(const Aws::String &bucketName,
                                                      const Aws::String &key,
                                                      uint64_t expirationSeconds,
                                                      const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    return client.GeneratePresignedUrl(bucketName, key, Aws::Http::HttpMethod::HTTP_GET,
                                       expirationSeconds);
}
```
Unduh menggunakan libcurl.  

```
static size_t myCurlWriteBack(char *buffer, size_t size, size_t nitems, void *userdata) {
    Aws::StringStream *str = (Aws::StringStream *) userdata;

    if (nitems > 0) {
        str->write(buffer, size * nitems);
    }
    return size * nitems;
}

//! Utility routine to test getObject with a pre-signed URL.
/*!
  \param presignedURL: A pre-signed URL to get an object from a bucket.
  \param resultString: A string to hold the result.
  \return bool: Function succeeded.
*/
bool AwsDoc::S3::getObjectWithPresignedObjectUrl(const Aws::String &presignedURL,
                                                 Aws::String &resultString) {
    CURL *curl = curl_easy_init();
    CURLcode result;

    std::stringstream outWriteString;

    result = curl_easy_setopt(curl, CURLOPT_WRITEDATA, &outWriteString);

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_WRITEDATA " << std::endl;
        return false;
    }

    result = curl_easy_setopt(curl, CURLOPT_WRITEFUNCTION, myCurlWriteBack);

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_WRITEFUNCTION" << std::endl;
        return false;
    }

    result = curl_easy_setopt(curl, CURLOPT_URL, presignedURL.c_str());

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_URL" << std::endl;
        return false;
    }

    result = curl_easy_perform(curl);

    if (result != CURLE_OK) {
        std::cerr << "Failed to perform CURL request" << std::endl;
        return false;
    }

    resultString = outWriteString.str();

    if (resultString.find("<?xml") == 0) {
        std::cerr << "Failed to get object, response:\n" << resultString << std::endl;
        return false;
    }

    return true;
}
```
Buat URL yang telah ditandatangani sebelumnya untuk mengunggah objek.  

```
//! Routine which demonstrates creating a pre-signed URL to upload an object to an
//! Amazon Simple Storage Service (Amazon S3) bucket.
/*!
  \param bucketName: Name of the bucket.
  \param key: Name of an object key.
  \param clientConfig: Aws client configuration.
  \return Aws::String: A pre-signed URL.
*/
Aws::String AwsDoc::S3::generatePreSignedPutObjectUrl(const Aws::String &bucketName,
                                                      const Aws::String &key,
                                                      uint64_t expirationSeconds,
                                                      const Aws::S3::S3ClientConfiguration &clientConfig) {
    Aws::S3::S3Client client(clientConfig);
    return client.GeneratePresignedUrl(bucketName, key, Aws::Http::HttpMethod::HTTP_PUT,
                                       expirationSeconds);
}
```
Unggah menggunakan libcurl.  

```
static size_t myCurlReadBack(char *buffer, size_t size, size_t nitems, void *userdata) {
    Aws::StringStream *str = (Aws::StringStream *) userdata;

    str->read(buffer, size * nitems);

    return str->gcount();
}

static size_t myCurlWriteBack(char *buffer, size_t size, size_t nitems, void *userdata) {
    Aws::StringStream *str = (Aws::StringStream *) userdata;

    if (nitems > 0) {
        str->write(buffer, size * nitems);
    }
    return size * nitems;
}

//! Utility routine to test putObject with a pre-signed URL.
/*!
  \param presignedURL: A pre-signed URL to put an object in a bucket.
  \param data: Body of the putObject request.
  \return bool: Function succeeded.
*/
bool AwsDoc::S3::PutStringWithPresignedObjectURL(const Aws::String &presignedURL,
                                                 const Aws::String &data) {
    CURL *curl = curl_easy_init();
    CURLcode result;

    Aws::StringStream readStringStream;
    readStringStream << data;
    result = curl_easy_setopt(curl, CURLOPT_READFUNCTION, myCurlReadBack);

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_READFUNCTION" << std::endl;
        return false;
    }

    result = curl_easy_setopt(curl, CURLOPT_READDATA, &readStringStream);
    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_READDATA" << std::endl;
        return false;
    }

    result = curl_easy_setopt(curl, CURLOPT_INFILESIZE_LARGE,
                              (curl_off_t) data.size());

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_INFILESIZE_LARGE" << std::endl;
        return false;
    }

    result = curl_easy_setopt(curl, CURLOPT_WRITEFUNCTION, myCurlWriteBack);

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_WRITEFUNCTION" << std::endl;
        return false;
    }

    std::stringstream outWriteString;

    result = curl_easy_setopt(curl, CURLOPT_WRITEDATA, &outWriteString);

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_WRITEDATA " << std::endl;
        return false;
    }

    result = curl_easy_setopt(curl, CURLOPT_URL, presignedURL.c_str());

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_URL" << std::endl;
        return false;
    }

    result = curl_easy_setopt(curl, CURLOPT_UPLOAD, 1L);

    if (result != CURLE_OK) {
        std::cerr << "Failed to set CURLOPT_PUT" << std::endl;
        return false;
    }

    result = curl_easy_perform(curl);

    if (result != CURLE_OK) {
        std::cerr << "Failed to perform CURL request" << std::endl;
        return false;
    }

    std::string outString = outWriteString.str();
    if (outString.empty()) {
        std::cout << "Successfully put object." << std::endl;
        return true;
    } else {
        std::cout << "A server error was encountered, output:\n" << outString
                  << std::endl;
        return false;
    }
}
```

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk C\$1\$1**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Bekerja dengan integritas objek Amazon S3
<a name="s3_Scenario_ObjectIntegrity_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara bekerja dengan fitur integritas objek S3.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/s3/s3_object_integrity_workflow#code-examples). 
Jalankan skenario interaktif yang menunjukkan fitur integritas objek Amazon S3.  

```
//! Routine which runs the S3 object integrity workflow.
/*!
   \param clientConfig: Aws client configuration.
   \return bool: Function succeeded.
*/
bool AwsDoc::S3::s3ObjectIntegrityWorkflow(
        const Aws::S3::S3ClientConfiguration &clientConfiguration) {

    /*
     * Create a large file to be used for multipart uploads.
     */
    if (!createLargeFileIfNotExists()) {
        std::cerr << "Workflow exiting because large file creation failed." << std::endl;
        return false;
    }

    Aws::String bucketName = TEST_BUCKET_PREFIX;
    bucketName += Aws::Utils::UUID::RandomUUID();
    bucketName = Aws::Utils::StringUtils::ToLower(bucketName.c_str());

    bucketName.resize(std::min(bucketName.size(), MAX_BUCKET_NAME_LENGTH));

    introductoryExplanations(bucketName);

    if (!AwsDoc::S3::createBucket(bucketName, clientConfiguration)) {
        std::cerr << "Workflow exiting because bucket creation failed." << std::endl;
        return false;
    }

    Aws::S3::S3ClientConfiguration s3ClientConfiguration(clientConfiguration);
    std::shared_ptr<Aws::S3::S3Client> client = Aws::MakeShared<Aws::S3::S3Client>("S3Client", s3ClientConfiguration);

    printAsterisksLine();
    std::cout << "Choose from one of the following checksum algorithms."
              << std::endl;

    for (HASH_METHOD hashMethod = DEFAULT; hashMethod <= SHA256; ++hashMethod) {
        std::cout << "  " << hashMethod << " - " << stringForHashMethod(hashMethod)
                  << std::endl;
    }

    HASH_METHOD chosenHashMethod = askQuestionForIntRange("Enter an index: ", DEFAULT,
                                                          SHA256);


    gUseCalculatedChecksum = !askYesNoQuestion(
            "Let the SDK calculate the checksum for you? (y/n) ");

    printAsterisksLine();

    std::cout << "The workflow will now upload a file using PutObject."
              << std::endl;
    std::cout << "Object integrity will be verified using the "
              << stringForHashMethod(chosenHashMethod) << " algorithm."
              << std::endl;
    if (gUseCalculatedChecksum) {
        std::cout
                << "A checksum computed by this workflow will be used for object integrity verification,"
                << std::endl;
        std::cout << "except for the TransferManager upload." << std::endl;
    } else {
        std::cout
                << "A checksum computed by the SDK will be used for object integrity verification."
                << std::endl;
    }

    pressEnterToContinue();
    printAsterisksLine();

    std::shared_ptr<Aws::IOStream> inputData =
            Aws::MakeShared<Aws::FStream>("SampleAllocationTag",
                                          TEST_FILE,
                                          std::ios_base::in |
                                          std::ios_base::binary);

    if (!*inputData) {
        std::cerr << "Error unable to read file " << TEST_FILE << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    Hasher hasher;
    HASH_METHOD putObjectHashMethod = chosenHashMethod;
    if (putObjectHashMethod == DEFAULT) {
        putObjectHashMethod = MD5; // MD5 is the default hash method for PutObject.

        std::cout << "The default checksum algorithm for PutObject is "
                  << stringForHashMethod(putObjectHashMethod)
                  << std::endl;
    }

    // Demonstrate in code how the hash is computed.
    if (!hasher.calculateObjectHash(*inputData, putObjectHashMethod)) {
        std::cerr << "Error calculating hash for file " << TEST_FILE << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }
    Aws::String key = stringForHashMethod(putObjectHashMethod);
    key += "_";
    key += TEST_FILE_KEY;
    Aws::String localHash = hasher.getBase64HashString();

    // Upload the object with PutObject
    if (!putObjectWithHash(bucketName, key, localHash, putObjectHashMethod,
                           inputData, chosenHashMethod == DEFAULT,
                           *client)) {
        std::cerr << "Error putting file " << TEST_FILE << " to bucket "
                  << bucketName << " with key " << key << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    Aws::String retrievedHash;
    if (!retrieveObjectHash(bucketName, key,
                            putObjectHashMethod, retrievedHash,
                            nullptr, *client)) {
        std::cerr << "Error getting file " << TEST_FILE << " from bucket "
                  << bucketName << " with key " << key << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    explainPutObjectResults();
    verifyHashingResults(retrievedHash, hasher,
                         "PutObject upload", putObjectHashMethod);


    printAsterisksLine();
    pressEnterToContinue();

    key = "tr_";
    key += stringForHashMethod(chosenHashMethod) + "_" + MULTI_PART_TEST_FILE;

    introductoryTransferManagerUploadExplanations(key);

    HASH_METHOD transferManagerHashMethod = chosenHashMethod;
    if (transferManagerHashMethod == DEFAULT) {
        transferManagerHashMethod = CRC32;  // The default hash method for the TransferManager is CRC32.

        std::cout << "The default checksum algorithm for TransferManager is "
                  << stringForHashMethod(transferManagerHashMethod)
                  << std::endl;
    }

    // Upload the large file using the transfer manager.
    if (!doTransferManagerUpload(bucketName, key, transferManagerHashMethod, chosenHashMethod == DEFAULT,
                                 client)) {
        std::cerr << "Exiting because of an error in doTransferManagerUpload." << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    std::vector<Aws::String> retrievedTransferManagerPartHashes;
    Aws::String retrievedTransferManagerFinalHash;

    // Retrieve all the hashes for the TransferManager upload.
    if (!retrieveObjectHash(bucketName, key,
                            transferManagerHashMethod,
                            retrievedTransferManagerFinalHash,
                            &retrievedTransferManagerPartHashes, *client)) {
        std::cerr << "Exiting because of an error in retrieveObjectHash for TransferManager." << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    AwsDoc::S3::Hasher locallyCalculatedFinalHash;
    std::vector<Aws::String> locallyCalculatedPartHashes;

    // Calculate the hashes locally to demonstrate how TransferManager hashes are computed.
    if (!calculatePartHashesForFile(transferManagerHashMethod, MULTI_PART_TEST_FILE,
                                    UPLOAD_BUFFER_SIZE,
                                    locallyCalculatedFinalHash,
                                    locallyCalculatedPartHashes)) {
        std::cerr << "Exiting because of an error in calculatePartHashesForFile." << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    verifyHashingResults(retrievedTransferManagerFinalHash,
                         locallyCalculatedFinalHash, "TransferManager upload",
                         transferManagerHashMethod,
                         retrievedTransferManagerPartHashes,
                         locallyCalculatedPartHashes);

    printAsterisksLine();

    key = "mp_";
    key += stringForHashMethod(chosenHashMethod) + "_" + MULTI_PART_TEST_FILE;

    multiPartUploadExplanations(key, chosenHashMethod);

    pressEnterToContinue();

    std::shared_ptr<Aws::IOStream> largeFileInputData =
            Aws::MakeShared<Aws::FStream>("SampleAllocationTag",
                                          MULTI_PART_TEST_FILE,
                                          std::ios_base::in |
                                          std::ios_base::binary);

    if (!largeFileInputData->good()) {
        std::cerr << "Error unable to read file " << TEST_FILE << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    HASH_METHOD multipartUploadHashMethod = chosenHashMethod;
    if (multipartUploadHashMethod == DEFAULT) {
        multipartUploadHashMethod = MD5;  // The default hash method for multipart uploads is MD5.

        std::cout << "The default checksum algorithm for multipart upload is "
                  << stringForHashMethod(putObjectHashMethod)
                  << std::endl;
    }

    AwsDoc::S3::Hasher hashData;
    std::vector<Aws::String> partHashes;

    if (!doMultipartUpload(bucketName, key,
                           multipartUploadHashMethod,
                           largeFileInputData, chosenHashMethod == DEFAULT,
                           hashData,
                           partHashes,
                           *client)) {
        std::cerr << "Exiting because of an error in doMultipartUpload." << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    std::cout << "Finished multipart upload of with hash method " <<
              stringForHashMethod(multipartUploadHashMethod) << std::endl;

    std::cout << "Now we will retrieve the checksums from the server." << std::endl;

    retrievedHash.clear();
    std::vector<Aws::String> retrievedPartHashes;
    if (!retrieveObjectHash(bucketName, key,
                            multipartUploadHashMethod,
                            retrievedHash, &retrievedPartHashes, *client)) {
        std::cerr << "Exiting because of an error in retrieveObjectHash for multipart." << std::endl;
        cleanUp(bucketName, clientConfiguration);
        return false;
    }

    verifyHashingResults(retrievedHash, hashData, "MultiPart upload",
                         multipartUploadHashMethod,
                         retrievedPartHashes, partHashes);

    printAsterisksLine();

    if (askYesNoQuestion("Would you like to delete the resources created in this workflow? (y/n)")) {
        return cleanUp(bucketName, clientConfiguration);
    } else {
        std::cout << "The bucket " << bucketName << " was not deleted." << std::endl;
        return true;
    }
}

//! Routine which uploads an object to an S3 bucket with different object integrity hashing methods.
/*!
   \param bucket: The name of the S3 bucket where the object will be uploaded.
   \param key: The unique identifier (key) for the object within the S3 bucket.
   \param hashData: The hash value that will be associated with the uploaded object.
   \param hashMethod: The hashing algorithm to use when calculating the hash value.
   \param body: The data content of the object being uploaded.
   \param useDefaultHashMethod: A flag indicating whether to use the default hash method or the one specified in the hashMethod parameter.
   \param client: The S3 client instance used to perform the upload operation.
   \return bool: Function succeeded.
*/
bool AwsDoc::S3::putObjectWithHash(const Aws::String &bucket, const Aws::String &key,
                                   const Aws::String &hashData,
                                   AwsDoc::S3::HASH_METHOD hashMethod,
                                   const std::shared_ptr<Aws::IOStream> &body,
                                   bool useDefaultHashMethod,
                                   const Aws::S3::S3Client &client) {
    Aws::S3::Model::PutObjectRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);
    if (!useDefaultHashMethod) {
        if (hashMethod != MD5) {
            request.SetChecksumAlgorithm(getChecksumAlgorithmForHashMethod(hashMethod));
        }
    }

    if (gUseCalculatedChecksum) {
        switch (hashMethod) {
            case AwsDoc::S3::MD5:
                request.SetContentMD5(hashData);
                break;
            case AwsDoc::S3::SHA1:
                request.SetChecksumSHA1(hashData);
                break;
            case AwsDoc::S3::SHA256:
                request.SetChecksumSHA256(hashData);
                break;
            case AwsDoc::S3::CRC32:
                request.SetChecksumCRC32(hashData);
                break;
            case AwsDoc::S3::CRC32C:
                request.SetChecksumCRC32C(hashData);
                break;
            default:
                std::cerr << "Unknown hash method." << std::endl;
                return false;
        }
    }
    request.SetBody(body);
    Aws::S3::Model::PutObjectOutcome outcome = client.PutObject(request);
    body->seekg(0, body->beg);
    if (outcome.IsSuccess()) {
        std::cout << "Object successfully uploaded." << std::endl;
    } else {
        std::cerr << "Error uploading object." <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    return outcome.IsSuccess();
}


// ! Routine which retrieves the hash value of an object stored in an S3 bucket.
/*!
   \param bucket: The name of the S3 bucket where the object is stored.
   \param key: The unique identifier (key) of the object within the S3 bucket.
   \param hashMethod: The hashing algorithm used to calculate the hash value of the object.
   \param[out] hashData: The retrieved hash.
   \param[out] partHashes: The part hashes if available.
   \param client: The S3 client instance used to retrieve the object.
   \return bool: Function succeeded.
*/
bool AwsDoc::S3::retrieveObjectHash(const Aws::String &bucket, const Aws::String &key,
                                    AwsDoc::S3::HASH_METHOD hashMethod,
                                    Aws::String &hashData,
                                    std::vector<Aws::String> *partHashes,
                                    const Aws::S3::S3Client &client) {
    Aws::S3::Model::GetObjectAttributesRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);

    if (hashMethod == MD5) {
        Aws::Vector<Aws::S3::Model::ObjectAttributes> attributes;
        attributes.push_back(Aws::S3::Model::ObjectAttributes::ETag);
        request.SetObjectAttributes(attributes);

        Aws::S3::Model::GetObjectAttributesOutcome outcome = client.GetObjectAttributes(
                request);
        if (outcome.IsSuccess()) {
            const Aws::S3::Model::GetObjectAttributesResult &result = outcome.GetResult();
            hashData = result.GetETag();
        } else {
            std::cerr << "Error retrieving object etag attributes." <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }
    } else { // hashMethod != MD5
        Aws::Vector<Aws::S3::Model::ObjectAttributes> attributes;
        attributes.push_back(Aws::S3::Model::ObjectAttributes::Checksum);
        request.SetObjectAttributes(attributes);

        Aws::S3::Model::GetObjectAttributesOutcome outcome = client.GetObjectAttributes(
                request);
        if (outcome.IsSuccess()) {
            const Aws::S3::Model::GetObjectAttributesResult &result = outcome.GetResult();
            switch (hashMethod) {
                case AwsDoc::S3::DEFAULT: // NOLINT(*-branch-clone)
                    break;  // Default is not supported.
#pragma clang diagnostic push
#pragma ide diagnostic ignored "UnreachableCode"
                case AwsDoc::S3::MD5:
                    break;  // MD5 is not supported.
#pragma clang diagnostic pop
                case AwsDoc::S3::SHA1:
                    hashData = result.GetChecksum().GetChecksumSHA1();
                    break;
                case AwsDoc::S3::SHA256:
                    hashData = result.GetChecksum().GetChecksumSHA256();
                    break;
                case AwsDoc::S3::CRC32:
                    hashData = result.GetChecksum().GetChecksumCRC32();
                    break;
                case AwsDoc::S3::CRC32C:
                    hashData = result.GetChecksum().GetChecksumCRC32C();
                    break;
                default:
                    std::cerr << "Unknown hash method." << std::endl;
                    return false;
            }
        } else {
            std::cerr << "Error retrieving object checksum attributes." <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

        if (nullptr != partHashes) {
            attributes.clear();
            attributes.push_back(Aws::S3::Model::ObjectAttributes::ObjectParts);
            request.SetObjectAttributes(attributes);
            outcome = client.GetObjectAttributes(request);
            if (outcome.IsSuccess()) {
                const Aws::S3::Model::GetObjectAttributesResult &result = outcome.GetResult();
                const Aws::Vector<Aws::S3::Model::ObjectPart> parts = result.GetObjectParts().GetParts();
                for (const Aws::S3::Model::ObjectPart &part: parts) {
                    switch (hashMethod) {
                        case AwsDoc::S3::DEFAULT: // Default is not supported. NOLINT(*-branch-clone)
                            break;
                        case AwsDoc::S3::MD5: // MD5 is not supported.
                            break;
                        case AwsDoc::S3::SHA1:
                            partHashes->push_back(part.GetChecksumSHA1());
                            break;
                        case AwsDoc::S3::SHA256:
                            partHashes->push_back(part.GetChecksumSHA256());
                            break;
                        case AwsDoc::S3::CRC32:
                            partHashes->push_back(part.GetChecksumCRC32());
                            break;
                        case AwsDoc::S3::CRC32C:
                            partHashes->push_back(part.GetChecksumCRC32C());
                            break;
                        default:
                            std::cerr << "Unknown hash method." << std::endl;
                            return false;
                    }
                }
            } else {
                std::cerr << "Error retrieving object attributes for object parts." <<
                          outcome.GetError().GetMessage() << std::endl;
                return false;
            }
        }
    }

    return true;
}

//! Verifies the hashing results between the retrieved and local hashes.
/*!
 \param retrievedHash The hash value retrieved from the remote source.
 \param localHash The hash value calculated locally.
 \param uploadtype The type of upload (e.g., "multipart", "single-part").
 \param hashMethod The hashing method used (e.g., MD5, SHA-256).
 \param retrievedPartHashes (Optional) The list of hashes for the individual parts retrieved from the remote source.
 \param localPartHashes (Optional) The list of hashes for the individual parts calculated locally.
 */
void AwsDoc::S3::verifyHashingResults(const Aws::String &retrievedHash,
                                      const Hasher &localHash,
                                      const Aws::String &uploadtype,
                                      HASH_METHOD hashMethod,
                                      const std::vector<Aws::String> &retrievedPartHashes,
                                      const std::vector<Aws::String> &localPartHashes) {
    std::cout << "For " << uploadtype << " retrieved hash is " << retrievedHash << std::endl;
    if (!retrievedPartHashes.empty()) {
        std::cout << retrievedPartHashes.size() << " part hash(es) were also retrieved."
                  << std::endl;
        for (auto &retrievedPartHash: retrievedPartHashes) {
            std::cout << "  Part hash " << retrievedPartHash << std::endl;
        }
    }
    Aws::String hashString;
    if (hashMethod == MD5) {
        hashString = localHash.getHexHashString();
        if (!localPartHashes.empty()) {
            hashString += "-" + std::to_string(localPartHashes.size());
        }
    } else {
        hashString = localHash.getBase64HashString();
    }

    bool allMatch = true;
    if (hashString != retrievedHash) {
        std::cerr << "For " << uploadtype << ", the main hashes do not match" << std::endl;
        std::cerr << "Local hash- '" << hashString << "'" << std::endl;
        std::cerr << "Remote hash - '" << retrievedHash << "'" << std::endl;
        allMatch = false;
    }

    if (hashMethod != MD5) {
        if (localPartHashes.size() != retrievedPartHashes.size()) {
            std::cerr << "For " << uploadtype << ", the number of part hashes do not match" << std::endl;
            std::cerr << "Local number of hashes- '" << localPartHashes.size() << "'"
                      << std::endl;
            std::cerr << "Remote number of hashes - '"
                      << retrievedPartHashes.size()
                      << "'" << std::endl;
        }

        for (int i = 0; i < localPartHashes.size(); ++i) {
            if (localPartHashes[i] != retrievedPartHashes[i]) {
                std::cerr << "For " << uploadtype << ", the part hashes do not match for part " << i + 1
                          << "." << std::endl;
                std::cerr << "Local hash- '" << localPartHashes[i] << "'"
                          << std::endl;
                std::cerr << "Remote hash - '" << retrievedPartHashes[i] << "'"
                          << std::endl;
                allMatch = false;
            }
        }
    }

    if (allMatch) {
        std::cout << "For " << uploadtype << ", locally and remotely calculated hashes all match!" << std::endl;
    }

}

static void transferManagerErrorCallback(const Aws::Transfer::TransferManager *,
                                         const std::shared_ptr<const Aws::Transfer::TransferHandle> &,
                                         const Aws::Client::AWSError<Aws::S3::S3Errors> &err) {
    std::cerr << "Error during transfer: '" << err.GetMessage() << "'" << std::endl;
}

static void transferManagerStatusCallback(const Aws::Transfer::TransferManager *,
                                          const std::shared_ptr<const Aws::Transfer::TransferHandle> &handle) {
    if (handle->GetStatus() == Aws::Transfer::TransferStatus::IN_PROGRESS) {
        std::cout << "Bytes transferred: " << handle->GetBytesTransferred() << std::endl;
    }
}

//! Routine which uploads an object to an S3 bucket using the AWS C++ SDK's Transfer Manager.
/*!
   \param bucket: The name of the S3 bucket where the object will be uploaded.
   \param key: The unique identifier (key) for the object within the S3 bucket.
   \param hashMethod: The hashing algorithm to use when calculating the hash value.
   \param useDefaultHashMethod: A flag indicating whether to use the default hash method or the one specified in the hashMethod parameter.
   \param client: The S3 client instance used to perform the upload operation.
   \return bool: Function succeeded.
*/
bool
AwsDoc::S3::doTransferManagerUpload(const Aws::String &bucket, const Aws::String &key,
                                    AwsDoc::S3::HASH_METHOD hashMethod,
                                    bool useDefaultHashMethod,
                                    const std::shared_ptr<Aws::S3::S3Client> &client) {
    std::shared_ptr<Aws::Utils::Threading::PooledThreadExecutor> executor = Aws::MakeShared<Aws::Utils::Threading::PooledThreadExecutor>(
            "executor", 25);
    Aws::Transfer::TransferManagerConfiguration transfer_config(executor.get());
    transfer_config.s3Client = client;
    transfer_config.bufferSize = UPLOAD_BUFFER_SIZE;
    if (!useDefaultHashMethod) {
        if (hashMethod == MD5) {
            transfer_config.computeContentMD5 = true;
        } else {
            transfer_config.checksumAlgorithm = getChecksumAlgorithmForHashMethod(
                    hashMethod);
        }
    }
    transfer_config.errorCallback = transferManagerErrorCallback;
    transfer_config.transferStatusUpdatedCallback = transferManagerStatusCallback;

    std::shared_ptr<Aws::Transfer::TransferManager> transfer_manager = Aws::Transfer::TransferManager::Create(
            transfer_config);

    std::cout << "Uploading the file..." << std::endl;
    std::shared_ptr<Aws::Transfer::TransferHandle> uploadHandle = transfer_manager->UploadFile(MULTI_PART_TEST_FILE,
                                                                                               bucket, key,
                                                                                               "text/plain",
                                                                                               Aws::Map<Aws::String, Aws::String>());
    uploadHandle->WaitUntilFinished();
    bool success =
            uploadHandle->GetStatus() == Aws::Transfer::TransferStatus::COMPLETED;
    if (!success) {
        Aws::Client::AWSError<Aws::S3::S3Errors> err = uploadHandle->GetLastError();
        std::cerr << "File upload failed:  " << err.GetMessage() << std::endl;
    }

    return success;
}

//! Routine which calculates the hash values for each part of a file being uploaded to an S3 bucket.
/*!
   \param hashMethod: The hashing algorithm to use when calculating the hash values.
   \param fileName: The path to the file for which the part hashes will be calculated.
   \param bufferSize: The size of the buffer to use when reading the file.
   \param[out] hashDataResult: The Hasher object that will store the concatenated hash value.
   \param[out] partHashes: The vector that will store the calculated hash values for each part of the file.
   \return bool: Function succeeded.
*/
bool AwsDoc::S3::calculatePartHashesForFile(AwsDoc::S3::HASH_METHOD hashMethod,
                                            const Aws::String &fileName,
                                            size_t bufferSize,
                                            AwsDoc::S3::Hasher &hashDataResult,
                                            std::vector<Aws::String> &partHashes) {
    std::ifstream fileStream(fileName.c_str(), std::ifstream::binary);
    fileStream.seekg(0, std::ifstream::end);
    size_t objectSize = fileStream.tellg();
    fileStream.seekg(0, std::ifstream::beg);
    std::vector<unsigned char> totalHashBuffer;
    size_t uploadedBytes = 0;


    while (uploadedBytes < objectSize) {
        std::vector<unsigned char> buffer(bufferSize);
        std::streamsize bytesToRead = static_cast<std::streamsize>(std::min(buffer.size(), objectSize - uploadedBytes));
        fileStream.read((char *) buffer.data(), bytesToRead);
        Aws::Utils::Stream::PreallocatedStreamBuf preallocatedStreamBuf(buffer.data(),
                                                                        bytesToRead);
        std::shared_ptr<Aws::IOStream> body =
                Aws::MakeShared<Aws::IOStream>("SampleAllocationTag",
                                               &preallocatedStreamBuf);
        Hasher hasher;
        if (!hasher.calculateObjectHash(*body, hashMethod)) {
            std::cerr << "Error calculating hash." << std::endl;
            return false;
        }
        Aws::String base64HashString = hasher.getBase64HashString();
        partHashes.push_back(base64HashString);

        Aws::Utils::ByteBuffer hashBuffer = hasher.getByteBufferHash();

        totalHashBuffer.insert(totalHashBuffer.end(), hashBuffer.GetUnderlyingData(),
                               hashBuffer.GetUnderlyingData() + hashBuffer.GetLength());

        uploadedBytes += bytesToRead;
    }

    return hashDataResult.calculateObjectHash(totalHashBuffer, hashMethod);
}

//! Create a multipart upload.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param client: The S3 client instance used to perform the upload operation.
    \return Aws::String: Upload ID or empty string if failed.
*/
Aws::String
AwsDoc::S3::createMultipartUpload(const Aws::String &bucket, const Aws::String &key,
                                  Aws::S3::Model::ChecksumAlgorithm checksumAlgorithm,
                                  const Aws::S3::S3Client &client) {
    Aws::S3::Model::CreateMultipartUploadRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);

    if (checksumAlgorithm != Aws::S3::Model::ChecksumAlgorithm::NOT_SET) {
        request.SetChecksumAlgorithm(checksumAlgorithm);
    }

    Aws::S3::Model::CreateMultipartUploadOutcome outcome =
            client.CreateMultipartUpload(request);

    Aws::String uploadID;
    if (outcome.IsSuccess()) {
        uploadID = outcome.GetResult().GetUploadId();
    } else {
        std::cerr << "Error creating multipart upload: " << outcome.GetError().GetMessage() << std::endl;
    }

    return uploadID;
}

//! Upload a part to an S3 bucket.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param uploadID: An upload ID string.
    \param partNumber:
    \param checksumAlgorithm: Checksum algorithm, ignored when NOT_SET.
    \param calculatedHash: A data integrity hash to set, depending on the checksum algorithm,
                            ignored when it is an empty string.
    \param body: An shared_ptr IOStream of the data to be uploaded.
    \param client: The S3 client instance used to perform the upload operation.
    \return UploadPartOutcome: The outcome.
*/

Aws::S3::Model::UploadPartOutcome AwsDoc::S3::uploadPart(const Aws::String &bucket,
                                                         const Aws::String &key,
                                                         const Aws::String &uploadID,
                                                         int partNumber,
                                                         Aws::S3::Model::ChecksumAlgorithm checksumAlgorithm,
                                                         const Aws::String &calculatedHash,
                                                         const std::shared_ptr<Aws::IOStream> &body,
                                                         const Aws::S3::S3Client &client) {
    Aws::S3::Model::UploadPartRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);
    request.SetUploadId(uploadID);
    request.SetPartNumber(partNumber);
    if (checksumAlgorithm != Aws::S3::Model::ChecksumAlgorithm::NOT_SET) {
        request.SetChecksumAlgorithm(checksumAlgorithm);
    }
    request.SetBody(body);

    if (!calculatedHash.empty()) {
        switch (checksumAlgorithm) {
            case Aws::S3::Model::ChecksumAlgorithm::NOT_SET:
                request.SetContentMD5(calculatedHash);
                break;
            case Aws::S3::Model::ChecksumAlgorithm::CRC32:
                request.SetChecksumCRC32(calculatedHash);
                break;
            case Aws::S3::Model::ChecksumAlgorithm::CRC32C:
                request.SetChecksumCRC32C(calculatedHash);
                break;
            case Aws::S3::Model::ChecksumAlgorithm::SHA1:
                request.SetChecksumSHA1(calculatedHash);
                break;
            case Aws::S3::Model::ChecksumAlgorithm::SHA256:
                request.SetChecksumSHA256(calculatedHash);
                break;
        }
    }

    return client.UploadPart(request);
}

//! Abort a multipart upload to an S3 bucket.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param uploadID: An upload ID string.
    \param client: The S3 client instance used to perform the upload operation.
    \return bool: Function succeeded.
*/

bool AwsDoc::S3::abortMultipartUpload(const Aws::String &bucket,
                                      const Aws::String &key,
                                      const Aws::String &uploadID,
                                      const Aws::S3::S3Client &client) {
    Aws::S3::Model::AbortMultipartUploadRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);
    request.SetUploadId(uploadID);

    Aws::S3::Model::AbortMultipartUploadOutcome outcome =
            client.AbortMultipartUpload(request);

    if (outcome.IsSuccess()) {
        std::cout << "Multipart upload aborted." << std::endl;
    } else {
        std::cerr << "Error aborting multipart upload: " << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}

//! Complete a multipart upload to an S3 bucket.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param uploadID: An upload ID string.
    \param parts: A vector of CompleteParts.
    \param client: The S3 client instance used to perform the upload operation.
    \return CompleteMultipartUploadOutcome: The request outcome.
*/
Aws::S3::Model::CompleteMultipartUploadOutcome AwsDoc::S3::completeMultipartUpload(const Aws::String &bucket,
                                                                                   const Aws::String &key,
                                                                                   const Aws::String &uploadID,
                                                                                   const Aws::Vector<Aws::S3::Model::CompletedPart> &parts,
                                                                                   const Aws::S3::S3Client &client) {
    Aws::S3::Model::CompletedMultipartUpload completedMultipartUpload;
    completedMultipartUpload.SetParts(parts);

    Aws::S3::Model::CompleteMultipartUploadRequest request;
    request.SetBucket(bucket);
    request.SetKey(key);
    request.SetUploadId(uploadID);
    request.SetMultipartUpload(completedMultipartUpload);

    Aws::S3::Model::CompleteMultipartUploadOutcome outcome =
            client.CompleteMultipartUpload(request);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error completing multipart upload: " << outcome.GetError().GetMessage() << std::endl;
    }
    return outcome;
}

//! Routine which performs a multi-part upload.
/*!
    \param bucket: The name of the S3 bucket where the object will be uploaded.
    \param key: The unique identifier (key) for the object within the S3 bucket.
    \param hashMethod: The hashing algorithm to use when calculating the hash value.
    \param ioStream: An IOStream for the data to be uploaded.
    \param useDefaultHashMethod: A flag indicating whether to use the default hash method or the one specified in the hashMethod parameter.
    \param[out] hashDataResult: The Hasher object that will store the concatenated hash value.
    \param[out] partHashes: The vector that will store the calculated hash values for each part of the file.
    \param client: The S3 client instance used to perform the upload operation.
    \return bool: Function succeeded.
*/
bool AwsDoc::S3::doMultipartUpload(const Aws::String &bucket,
                                   const Aws::String &key,
                                   AwsDoc::S3::HASH_METHOD hashMethod,
                                   const std::shared_ptr<Aws::IOStream> &ioStream,
                                   bool useDefaultHashMethod,
                                   AwsDoc::S3::Hasher &hashDataResult,
                                   std::vector<Aws::String> &partHashes,
                                   const Aws::S3::S3Client &client) {
    // Get object size.
    ioStream->seekg(0, ioStream->end);
    size_t objectSize = ioStream->tellg();
    ioStream->seekg(0, ioStream->beg);

    Aws::S3::Model::ChecksumAlgorithm checksumAlgorithm = Aws::S3::Model::ChecksumAlgorithm::NOT_SET;
    if (!useDefaultHashMethod) {
        if (hashMethod != MD5) {
            checksumAlgorithm = getChecksumAlgorithmForHashMethod(hashMethod);
        }
    }
    Aws::String uploadID = createMultipartUpload(bucket, key, checksumAlgorithm, client);
    if (uploadID.empty()) {
        return false;
    }

    std::vector<unsigned char> totalHashBuffer;
    bool uploadSucceeded = true;
    std::streamsize uploadedBytes = 0;
    int partNumber = 1;
    Aws::Vector<Aws::S3::Model::CompletedPart> parts;
    while (uploadedBytes < objectSize) {
        std::cout << "Uploading part " << partNumber << "." << std::endl;

        std::vector<unsigned char> buffer(UPLOAD_BUFFER_SIZE);
        std::streamsize bytesToRead = static_cast<std::streamsize>(std::min(buffer.size(),
                                                                            objectSize - uploadedBytes));
        ioStream->read((char *) buffer.data(), bytesToRead);
        Aws::Utils::Stream::PreallocatedStreamBuf preallocatedStreamBuf(buffer.data(),
                                                                        bytesToRead);
        std::shared_ptr<Aws::IOStream> body =
                Aws::MakeShared<Aws::IOStream>("SampleAllocationTag",
                                               &preallocatedStreamBuf);

        Hasher hasher;
        if (!hasher.calculateObjectHash(*body, hashMethod)) {
            std::cerr << "Error calculating hash." << std::endl;
            uploadSucceeded = false;
            break;
        }

        Aws::String base64HashString = hasher.getBase64HashString();
        partHashes.push_back(base64HashString);

        Aws::Utils::ByteBuffer hashBuffer = hasher.getByteBufferHash();

        totalHashBuffer.insert(totalHashBuffer.end(), hashBuffer.GetUnderlyingData(),
                               hashBuffer.GetUnderlyingData() + hashBuffer.GetLength());

        Aws::String calculatedHash;
        if (gUseCalculatedChecksum) {
            calculatedHash = base64HashString;
        }
        Aws::S3::Model::UploadPartOutcome uploadPartOutcome = uploadPart(bucket, key, uploadID, partNumber,
                                                                         checksumAlgorithm, base64HashString, body,
                                                                         client);
        if (uploadPartOutcome.IsSuccess()) {
            const Aws::S3::Model::UploadPartResult &uploadPartResult = uploadPartOutcome.GetResult();
            Aws::S3::Model::CompletedPart completedPart;
            completedPart.SetETag(uploadPartResult.GetETag());
            completedPart.SetPartNumber(partNumber);
            switch (hashMethod) {
                case AwsDoc::S3::MD5:
                    break; // Do nothing.
                case AwsDoc::S3::SHA1:
                    completedPart.SetChecksumSHA1(uploadPartResult.GetChecksumSHA1());
                    break;
                case AwsDoc::S3::SHA256:
                    completedPart.SetChecksumSHA256(uploadPartResult.GetChecksumSHA256());
                    break;
                case AwsDoc::S3::CRC32:
                    completedPart.SetChecksumCRC32(uploadPartResult.GetChecksumCRC32());
                    break;
                case AwsDoc::S3::CRC32C:
                    completedPart.SetChecksumCRC32C(uploadPartResult.GetChecksumCRC32C());
                    break;
                default:
                    std::cerr << "Unhandled hash method for completedPart." << std::endl;
                    break;
            }

            parts.push_back(completedPart);
        } else {
            std::cerr << "Error uploading part. " <<
                      uploadPartOutcome.GetError().GetMessage() << std::endl;
            uploadSucceeded = false;
            break;
        }

        uploadedBytes += bytesToRead;
        partNumber++;
    }

    if (!uploadSucceeded) {
        abortMultipartUpload(bucket, key, uploadID, client);
        return false;
    } else {

        Aws::S3::Model::CompleteMultipartUploadOutcome completeMultipartUploadOutcome = completeMultipartUpload(bucket,
                                                                                                                key,
                                                                                                                uploadID,
                                                                                                                parts,
                                                                                                                client);

        if (completeMultipartUploadOutcome.IsSuccess()) {
            std::cout << "Multipart upload completed." << std::endl;
            if (!hashDataResult.calculateObjectHash(totalHashBuffer, hashMethod)) {
                std::cerr << "Error calculating hash." << std::endl;
                return false;
            }
        } else {
            std::cerr << "Error completing multipart upload." <<
                      completeMultipartUploadOutcome.GetError().GetMessage()
                      << std::endl;
        }

        return completeMultipartUploadOutcome.IsSuccess();
    }
}

//! Routine which retrieves the string for a HASH_METHOD constant.
/*!
    \param: hashMethod: A HASH_METHOD constant.
    \return: String: A string description of the hash method.
*/
Aws::String AwsDoc::S3::stringForHashMethod(AwsDoc::S3::HASH_METHOD hashMethod) {
    switch (hashMethod) {
        case AwsDoc::S3::DEFAULT:
            return "Default";
        case AwsDoc::S3::MD5:
            return "MD5";
        case AwsDoc::S3::SHA1:
            return "SHA1";
        case AwsDoc::S3::SHA256:
            return "SHA256";
        case AwsDoc::S3::CRC32:
            return "CRC32";
        case AwsDoc::S3::CRC32C:
            return "CRC32C";
        default:
            return "Unknown";
    }
}

//! Routine that returns the ChecksumAlgorithm for a HASH_METHOD constant.
/*!
    \param: hashMethod: A HASH_METHOD constant.
    \return: ChecksumAlgorithm: The ChecksumAlgorithm enum.
*/
Aws::S3::Model::ChecksumAlgorithm
AwsDoc::S3::getChecksumAlgorithmForHashMethod(AwsDoc::S3::HASH_METHOD hashMethod) {
    Aws::S3::Model::ChecksumAlgorithm result = Aws::S3::Model::ChecksumAlgorithm::NOT_SET;
    switch (hashMethod) {
        case AwsDoc::S3::DEFAULT:
            std::cerr << "getChecksumAlgorithmForHashMethod- DEFAULT is not valid." << std::endl;
            break;  // Default is not supported.
        case AwsDoc::S3::MD5:
            break; // Ignore MD5.
        case AwsDoc::S3::SHA1:
            result = Aws::S3::Model::ChecksumAlgorithm::SHA1;
            break;
        case AwsDoc::S3::SHA256:
            result = Aws::S3::Model::ChecksumAlgorithm::SHA256;
            break;
        case AwsDoc::S3::CRC32:
            result = Aws::S3::Model::ChecksumAlgorithm::CRC32;
            break;
        case AwsDoc::S3::CRC32C:
            result = Aws::S3::Model::ChecksumAlgorithm::CRC32C;
            break;
        default:
            std::cerr << "Unknown hash method." << std::endl;
            break;

    }

    return result;
}

//! Routine which cleans up after the example is complete.
/*!
    \param bucket: The name of the S3 bucket where the object was uploaded.
    \param clientConfiguration: The client configuration for the S3 client.
    \return bool: Function succeeded.
*/
bool AwsDoc::S3::cleanUp(const Aws::String &bucketName,
                         const Aws::S3::S3ClientConfiguration &clientConfiguration) {

    Aws::Vector<Aws::String> keysResult;
    bool result = true;
    if (AwsDoc::S3::listObjects(bucketName, keysResult, clientConfiguration)) {
        if (!keysResult.empty()) {
            result = AwsDoc::S3::deleteObjects(keysResult, bucketName,
                                               clientConfiguration);
        }
    } else {
        result = false;
    }

    return result && AwsDoc::S3::deleteBucket(bucketName, clientConfiguration);
}

//! Console interaction introducing the workflow.
/*!
  \param bucketName: The name of the S3 bucket to use.
*/
void AwsDoc::S3::introductoryExplanations(const Aws::String &bucketName) {

    std::cout
            << "Welcome to the Amazon Simple Storage Service (Amazon S3) object integrity workflow."
            << std::endl;
    printAsterisksLine();
    std::cout
            << "This workflow demonstrates how Amazon S3 uses checksum values to verify the integrity of data\n";
    std::cout << "uploaded to Amazon S3 buckets" << std::endl;
    std::cout
            << "The AWS SDK for C++ automatically handles checksums.\n";
    std::cout
            << "By default it calculates a checksum that is uploaded with an object.\n"
            << "The default checksum algorithm for PutObject and MultiPart upload is an MD5 hash.\n"
            << "The default checksum algorithm for TransferManager uploads is a CRC32 checksum."
            << std::endl;
    std::cout
            << "You can override the default behavior, requiring one of the following checksums,\n";
    std::cout << "MD5, CRC32, CRC32C, SHA-1 or SHA-256." << std::endl;
    std::cout << "You can also set the checksum hash value, instead of letting the SDK calculate the value."
              << std::endl;
    std::cout
            << "For more information, see https://docs.aws.amazon.com/AmazonS3/latest/userguide/checking-object-integrity.html."
            << std::endl;

    std::cout
            << "This workflow will locally compute checksums for files uploaded to an Amazon S3 bucket,\n";
    std::cout << "even when the SDK also computes the checksum." << std::endl;
    std::cout
            << "This is done to provide demonstration code for how the checksums are calculated."
            << std::endl;
    std::cout << "A bucket named '" << bucketName << "' will be created for the object uploads."
              << std::endl;
}

//! Console interaction which explains the PutObject results.
/*!
*/
void AwsDoc::S3::explainPutObjectResults() {

    std::cout << "The upload was successful.\n";
    std::cout << "If the checksums had not matched, the upload would have failed."
              << std::endl;
    std::cout
            << "The checksums calculated by the server have been retrieved using the GetObjectAttributes."
            << std::endl;
    std::cout
            << "The locally calculated checksums have been verified against the retrieved checksums."
            << std::endl;
}

//! Console interaction explaining transfer manager uploads.
/*!
  \param objectKey: The key for the object being uploaded.
*/
void AwsDoc::S3::introductoryTransferManagerUploadExplanations(
        const Aws::String &objectKey) {
    std::cout
            << "Now the workflow will demonstrate object integrity for TransferManager multi-part uploads."
            << std::endl;
    std::cout
            << "The AWS C++ SDK has a TransferManager class which simplifies multipart uploads."
            << std::endl;
    std::cout
            << "The following code lets the TransferManager handle much of the checksum configuration."
            << std::endl;

    std::cout << "An object with the key '" << objectKey
              << " will be uploaded by the TransferManager using a "
              << BUFFER_SIZE_IN_MEGABYTES << " MB buffer." << std::endl;
    if (gUseCalculatedChecksum) {
        std::cout << "For TransferManager uploads, this demo always lets the SDK calculate the hash value."
                  << std::endl;
    }

    pressEnterToContinue();
    printAsterisksLine();
}

//! Console interaction explaining multi-part uploads.
/*!
  \param objectKey: The key for the object being uploaded.
  \param chosenHashMethod: The hash method selected by the user.
*/
void AwsDoc::S3::multiPartUploadExplanations(const Aws::String &objectKey,
                                             HASH_METHOD chosenHashMethod) {
    std::cout
            << "Now we will provide an in-depth demonstration of multi-part uploading by calling the multi-part upload APIs directly."
            << std::endl;
    std::cout << "These are the same APIs used by the TransferManager when uploading large files."
              << std::endl;
    std::cout
            << "In the following code, the checksums are also calculated locally and then compared."
            << std::endl;
    std::cout
            << "For multi-part uploads, a checksum is uploaded with each part. The final checksum is a concatenation of"
            << std::endl;
    std::cout << "the checksums for each part." << std::endl;
    std::cout
            << "This is explained in the user guide, https://docs.aws.amazon.com/AmazonS3/latest/userguide/checking-object-integrity.html,\""
            << " in the section \"Using part-level checksums for multipart uploads\"." << std::endl;

    std::cout << "Starting multipart upload of with hash method " <<
              stringForHashMethod(chosenHashMethod) << " uploading to with object key\n"
              << "'" << objectKey << "'," << std::endl;

}

//! Create a large file for doing multi-part uploads.
/*!
*/
bool AwsDoc::S3::createLargeFileIfNotExists() {
    // Generate a large file by writing this source file multiple times to a new file.
    if (std::filesystem::exists(MULTI_PART_TEST_FILE)) {
        return true;
    }

    std::ofstream newFile(MULTI_PART_TEST_FILE, std::ios::out

                                                | std::ios::binary);

    if (!newFile) {
        std::cerr << "createLargeFileIfNotExists- Error creating file " << MULTI_PART_TEST_FILE <<
                  std::endl;
        return false;
    }

    std::ifstream input(TEST_FILE, std::ios::in

                                   | std::ios::binary);
    if (!input) {
        std::cerr << "Error opening file " << TEST_FILE <<
                  std::endl;
        return false;
    }
    std::stringstream buffer;
    buffer << input.rdbuf();

    input.close();

    while (newFile.tellp() < LARGE_FILE_SIZE && !newFile.bad()) {
        buffer.seekg(std::stringstream::beg);
        newFile << buffer.rdbuf();
    }

    newFile.close();

    return true;
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [AbortMultipartUpload](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/AbortMultipartUpload)
  + [CompleteMultipartUpload](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/CompleteMultipartUpload)
  + [CreateMultipartUpload](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/CreateMultipartUpload)
  + [DeleteObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/DeleteObject)
  + [GetObjectAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/GetObjectAttributes)
  + [PutObject](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/PutObject)
  + [UploadPart](https://docs.aws.amazon.com/goto/SdkForCpp/s3-2006-03-01/UploadPart)

# Contoh Secrets Manager menggunakan SDK for C\$1\$1
<a name="cpp_1_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Secrets Manager AWS SDK untuk C\$1\$1 with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetSecretValue`
<a name="secrets-manager_GetSecretValue_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSecretValue`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/secrets-manager#code-examples). 

```
//! Retrieve an AWS Secrets Manager encrypted secret.
/*!
  \param secretID: The ID for the secret.
  \return bool: Function succeeded.
 */
bool AwsDoc::SecretsManager::getSecretValue(const Aws::String &secretID,
                                            const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SecretsManager::SecretsManagerClient secretsManagerClient(clientConfiguration);

    Aws::SecretsManager::Model::GetSecretValueRequest request;
    request.SetSecretId(secretID);

    Aws::SecretsManager::Model::GetSecretValueOutcome getSecretValueOutcome = secretsManagerClient.GetSecretValue(
            request);
    if (getSecretValueOutcome.IsSuccess()) {
        std::cout << "Secret is: "
                  << getSecretValueOutcome.GetResult().GetSecretString() << std::endl;
    }
    else {
        std::cerr << "Failed with Error: " << getSecretValueOutcome.GetError()
                  << std::endl;
    }

    return getSecretValueOutcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetSecretValue](https://docs.aws.amazon.com/goto/SdkForCpp/secretsmanager-2017-10-17/GetSecretValue)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# Contoh Amazon SES menggunakan SDK for C\$1\$1
<a name="cpp_1_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 With Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateReceiptFilter`
<a name="ses_CreateReceiptFilter_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptFilter`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Create an Amazon Simple Email Service (Amazon SES) receipt filter..
/*!
  \param receiptFilterName: The name for the receipt filter.
  \param cidr: IP address or IP address range in Classless Inter-Domain Routing (CIDR) notation.
  \param policy: Block or allow enum of type ReceiptFilterPolicy.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::createReceiptFilter(const Aws::String &receiptFilterName,
                                      const Aws::String &cidr,
                                      Aws::SES::Model::ReceiptFilterPolicy policy,
                                      const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);
    Aws::SES::Model::CreateReceiptFilterRequest createReceiptFilterRequest;
    Aws::SES::Model::ReceiptFilter receiptFilter;
    Aws::SES::Model::ReceiptIpFilter receiptIpFilter;
    receiptIpFilter.SetCidr(cidr);
    receiptIpFilter.SetPolicy(policy);
    receiptFilter.SetName(receiptFilterName);
    receiptFilter.SetIpFilter(receiptIpFilter);
    createReceiptFilterRequest.SetFilter(receiptFilter);
    Aws::SES::Model::CreateReceiptFilterOutcome createReceiptFilterOutcome = sesClient.CreateReceiptFilter(
            createReceiptFilterRequest);
    if (createReceiptFilterOutcome.IsSuccess()) {
        std::cout << "Successfully created receipt filter." << std::endl;
    }
    else {
        std::cerr << "Error creating receipt filter: " <<
                  createReceiptFilterOutcome.GetError().GetMessage() << std::endl;
    }

    return createReceiptFilterOutcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateReceiptFilter](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/CreateReceiptFilter)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateReceiptRule`
<a name="ses_CreateReceiptRule_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptRule`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Create an Amazon Simple Email Service (Amazon SES) receipt rule.
/*!
  \param receiptRuleName: The name for the receipt rule.
  \param s3BucketName: The name of the S3 bucket for incoming mail.
  \param s3ObjectKeyPrefix: The prefix for the objects in the S3 bucket.
  \param ruleSetName: The name of the rule set where the receipt rule is added.
  \param recipients: Aws::Vector of recipients.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::createReceiptRule(const Aws::String &receiptRuleName,
                                    const Aws::String &s3BucketName,
                                    const Aws::String &s3ObjectKeyPrefix,
                                    const Aws::String &ruleSetName,
                                    const Aws::Vector<Aws::String> &recipients,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::CreateReceiptRuleRequest createReceiptRuleRequest;

    Aws::SES::Model::S3Action s3Action;
    s3Action.SetBucketName(s3BucketName);
    s3Action.SetObjectKeyPrefix(s3ObjectKeyPrefix);

    Aws::SES::Model::ReceiptAction receiptAction;
    receiptAction.SetS3Action(s3Action);

    Aws::SES::Model::ReceiptRule receiptRule;
    receiptRule.SetName(receiptRuleName);
    receiptRule.WithRecipients(recipients);

    Aws::Vector<Aws::SES::Model::ReceiptAction> receiptActionList;
    receiptActionList.emplace_back(receiptAction);
    receiptRule.SetActions(receiptActionList);

    createReceiptRuleRequest.SetRuleSetName(ruleSetName);
    createReceiptRuleRequest.SetRule(receiptRule);

    auto outcome = sesClient.CreateReceiptRule(createReceiptRuleRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully created receipt rule." << std::endl;
    }
    else {
        std::cerr << "Error creating receipt rule. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateReceiptRule](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/CreateReceiptRule)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateReceiptRuleSet`
<a name="ses_CreateReceiptRuleSet_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptRuleSet`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Create an Amazon Simple Email Service (Amazon SES) receipt rule set.
/*!
  \param ruleSetName: The name of the rule set.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::createReceiptRuleSet(const Aws::String &ruleSetName,
                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::CreateReceiptRuleSetRequest createReceiptRuleSetRequest;

    createReceiptRuleSetRequest.SetRuleSetName(ruleSetName);

    Aws::SES::Model::CreateReceiptRuleSetOutcome outcome = sesClient.CreateReceiptRuleSet(
            createReceiptRuleSetRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully created receipt rule set." << std::endl;
    }
    else {
        std::cerr << "Error creating receipt rule set. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateReceiptRuleSet](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/CreateReceiptRuleSet)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateTemplate`
<a name="ses_CreateTemplate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTemplate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Create an Amazon Simple Email Service (Amazon SES) template.
/*!
  \param templateName: The name of the template.
  \param htmlPart: The HTML body of the email.
  \param subjectPart: The subject line of the email.
  \param textPart: The plain text version of the email.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::createTemplate(const Aws::String &templateName,
                                 const Aws::String &htmlPart,
                                 const Aws::String &subjectPart,
                                 const Aws::String &textPart,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::CreateTemplateRequest createTemplateRequest;
    Aws::SES::Model::Template aTemplate;

    aTemplate.SetTemplateName(templateName);
    aTemplate.SetHtmlPart(htmlPart);
    aTemplate.SetSubjectPart(subjectPart);
    aTemplate.SetTextPart(textPart);

    createTemplateRequest.SetTemplate(aTemplate);

    Aws::SES::Model::CreateTemplateOutcome outcome = sesClient.CreateTemplate(
            createTemplateRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully created template." << templateName << "."
                  << std::endl;
    }
    else {
        std::cerr << "Error creating template. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateTemplate](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/CreateTemplate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteIdentity`
<a name="ses_DeleteIdentity_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteIdentity`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Delete the specified identity (an email address or a domain).
/*!
  \param identity: The identity to delete.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::deleteIdentity(const Aws::String &identity,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::DeleteIdentityRequest deleteIdentityRequest;

    deleteIdentityRequest.SetIdentity(identity);

    Aws::SES::Model::DeleteIdentityOutcome outcome = sesClient.DeleteIdentity(
            deleteIdentityRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted identity." << std::endl;
    }
    else {
        std::cerr << "Error deleting identity. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteIdentity](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/DeleteIdentity)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteReceiptFilter`
<a name="ses_DeleteReceiptFilter_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptFilter`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Delete an Amazon Simple Email Service (Amazon SES) receipt filter.
/*!
  \param receiptFilterName: The name for the receipt filter.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::deleteReceiptFilter(const Aws::String &receiptFilterName,
                                      const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::DeleteReceiptFilterRequest deleteReceiptFilterRequest;

    deleteReceiptFilterRequest.SetFilterName(receiptFilterName);

    Aws::SES::Model::DeleteReceiptFilterOutcome outcome = sesClient.DeleteReceiptFilter(
            deleteReceiptFilterRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted receipt filter." << std::endl;
    }
    else {
        std::cerr << "Error deleting receipt filter. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteReceiptFilter](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/DeleteReceiptFilter)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteReceiptRule`
<a name="ses_DeleteReceiptRule_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptRule`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Delete an Amazon Simple Email Service (Amazon SES) receipt rule.
/*!
  \param receiptRuleName: The name for the receipt rule.
  \param receiptRuleSetName: The name for the receipt rule set.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::deleteReceiptRule(const Aws::String &receiptRuleName,
                                    const Aws::String &receiptRuleSetName,
                                    const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::DeleteReceiptRuleRequest deleteReceiptRuleRequest;

    deleteReceiptRuleRequest.SetRuleName(receiptRuleName);
    deleteReceiptRuleRequest.SetRuleSetName(receiptRuleSetName);

    Aws::SES::Model::DeleteReceiptRuleOutcome outcome = sesClient.DeleteReceiptRule(
            deleteReceiptRuleRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted receipt rule." << std::endl;
    }
    else {
        std::cout << "Error deleting receipt rule. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteReceiptRule](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/DeleteReceiptRule)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteReceiptRuleSet`
<a name="ses_DeleteReceiptRuleSet_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptRuleSet`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Delete an Amazon Simple Email Service (Amazon SES) receipt rule set.
/*!
  \param receiptRuleSetName: The name for the receipt rule set.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::deleteReceiptRuleSet(const Aws::String &receiptRuleSetName,
                                       const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::DeleteReceiptRuleSetRequest deleteReceiptRuleSetRequest;

    deleteReceiptRuleSetRequest.SetRuleSetName(receiptRuleSetName);

    Aws::SES::Model::DeleteReceiptRuleSetOutcome outcome = sesClient.DeleteReceiptRuleSet(
            deleteReceiptRuleSetRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted receipt rule set." << std::endl;
    }

    else {
        std::cerr << "Error deleting receipt rule set. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteReceiptRuleSet](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/DeleteReceiptRuleSet)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteTemplate`
<a name="ses_DeleteTemplate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTemplate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Delete an Amazon Simple Email Service (Amazon SES) template.
/*!
  \param templateName: The name for the template.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::deleteTemplate(const Aws::String &templateName,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::DeleteTemplateRequest deleteTemplateRequest;

    deleteTemplateRequest.SetTemplateName(templateName);

    Aws::SES::Model::DeleteTemplateOutcome outcome = sesClient.DeleteTemplate(
            deleteTemplateRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted template." << std::endl;
    }
    else {
        std::cerr << "Error deleting template. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteTemplate](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/DeleteTemplate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetTemplate`
<a name="ses_GetTemplate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTemplate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Get a template's attributes.
/*!
  \param templateName: The name for the template.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::getTemplate(const Aws::String &templateName,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::GetTemplateRequest getTemplateRequest;

    getTemplateRequest.SetTemplateName(templateName);

    Aws::SES::Model::GetTemplateOutcome outcome = sesClient.GetTemplate(
            getTemplateRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully got template." << std::endl;
    }

    else {
        std::cerr << "Error getting template. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetTemplate](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/GetTemplate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListIdentities`
<a name="ses_ListIdentities_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentities`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! List the identities associated with this account.
/*!
  \param identityType: The identity type enum. "NOT_SET" is a valid option.
  \param identities; A vector to receive the retrieved identities.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::listIdentities(Aws::SES::Model::IdentityType identityType,
                                 Aws::Vector<Aws::String> &identities,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::ListIdentitiesRequest listIdentitiesRequest;

    if (identityType != Aws::SES::Model::IdentityType::NOT_SET) {
        listIdentitiesRequest.SetIdentityType(identityType);
    }

    Aws::String nextToken; // Used for paginated results.
    do {
        if (!nextToken.empty()) {
            listIdentitiesRequest.SetNextToken(nextToken);
        }
        Aws::SES::Model::ListIdentitiesOutcome outcome = sesClient.ListIdentities(
                listIdentitiesRequest);

        if (outcome.IsSuccess()) {
            const auto &retrievedIdentities = outcome.GetResult().GetIdentities();
            if (!retrievedIdentities.empty()) {
                identities.insert(identities.cend(), retrievedIdentities.cbegin(),
                                  retrievedIdentities.cend());
            }
            nextToken = outcome.GetResult().GetNextToken();
        }
        else {
            std::cout << "Error listing identities. " << outcome.GetError().GetMessage()
                      << std::endl;
            return false;
        }
    } while (!nextToken.empty());

    return true;
}
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/ListIdentities)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListReceiptFilters`
<a name="ses_ListReceiptFilters_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListReceiptFilters`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! List the receipt filters associated with this account.
/*!
  \param filters; A vector of "ReceiptFilter" to receive the retrieved filters.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool
AwsDoc::SES::listReceiptFilters(Aws::Vector<Aws::SES::Model::ReceiptFilter> &filters,
                                const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);
    Aws::SES::Model::ListReceiptFiltersRequest listReceiptFiltersRequest;

    Aws::SES::Model::ListReceiptFiltersOutcome outcome = sesClient.ListReceiptFilters(
            listReceiptFiltersRequest);
    if (outcome.IsSuccess()) {
        auto &retrievedFilters = outcome.GetResult().GetFilters();
        if (!retrievedFilters.empty()) {
            filters.insert(filters.cend(), retrievedFilters.cbegin(),
                           retrievedFilters.cend());
        }
    }
    else {
        std::cerr << "Error retrieving IP address filters: "
                  << outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [ListReceiptFilters](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/ListReceiptFilters)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `SendEmail`
<a name="ses_SendEmail_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Send an email to a list of recipients.
/*!
  \param recipients; Vector of recipient email addresses.
  \param subject: Email subject.
  \param htmlBody: Email body as HTML. At least one body data is required.
  \param textBody: Email body as plain text. At least one body data is required.
  \param senderEmailAddress: Email address of sender. Ignored if empty string.
  \param ccAddresses: Vector of cc addresses. Ignored if empty.
  \param replyToAddress: Reply to email address. Ignored if empty string.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::sendEmail(const Aws::Vector<Aws::String> &recipients,
                            const Aws::String &subject,
                            const Aws::String &htmlBody,
                            const Aws::String &textBody,
                            const Aws::String &senderEmailAddress,
                            const Aws::Vector<Aws::String> &ccAddresses,
                            const Aws::String &replyToAddress,
                            const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::Destination destination;
    if (!ccAddresses.empty()) {
        destination.WithCcAddresses(ccAddresses);
    }
    if (!recipients.empty()) {
        destination.WithToAddresses(recipients);
    }

    Aws::SES::Model::Body message_body;
    if (!htmlBody.empty()) {
        message_body.SetHtml(
                Aws::SES::Model::Content().WithCharset("UTF-8").WithData(htmlBody));
    }

    if (!textBody.empty()) {
        message_body.SetText(
                Aws::SES::Model::Content().WithCharset("UTF-8").WithData(textBody));
    }

    Aws::SES::Model::Message message;
    message.SetBody(message_body);
    message.SetSubject(
            Aws::SES::Model::Content().WithCharset("UTF-8").WithData(subject));

    Aws::SES::Model::SendEmailRequest sendEmailRequest;
    sendEmailRequest.SetDestination(destination);
    sendEmailRequest.SetMessage(message);
    if (!senderEmailAddress.empty()) {
        sendEmailRequest.SetSource(senderEmailAddress);
    }
    if (!replyToAddress.empty()) {
        sendEmailRequest.AddReplyToAddresses(replyToAddress);
    }

    auto outcome = sesClient.SendEmail(sendEmailRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully sent message with ID "
                  << outcome.GetResult().GetMessageId()
                  << "." << std::endl;
    }
    else {
        std::cerr << "Error sending message. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/SendEmail)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `SendTemplatedEmail`
<a name="ses_SendTemplatedEmail_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTemplatedEmail`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Send a templated email to a list of recipients.
/*!
  \param recipients; Vector of recipient email addresses.
  \param templateName: The name of the template to use.
  \param templateData: Map of key-value pairs for replacing text in template.
  \param senderEmailAddress: Email address of sender. Ignored if empty string.
  \param ccAddresses: Vector of cc addresses. Ignored if empty.
  \param replyToAddress: Reply to email address. Ignored if empty string.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::sendTemplatedEmail(const Aws::Vector<Aws::String> &recipients,
                                     const Aws::String &templateName,
                                     const Aws::Map<Aws::String, Aws::String> &templateData,
                                     const Aws::String &senderEmailAddress,
                                     const Aws::Vector<Aws::String> &ccAddresses,
                                     const Aws::String &replyToAddress,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::Destination destination;
    if (!ccAddresses.empty()) {
        destination.WithCcAddresses(ccAddresses);
    }
    if (!recipients.empty()) {
        destination.WithToAddresses(recipients);
    }

    Aws::SES::Model::SendTemplatedEmailRequest sendTemplatedEmailRequest;
    sendTemplatedEmailRequest.SetDestination(destination);
    sendTemplatedEmailRequest.SetTemplate(templateName);

    std::ostringstream templateDataStream;
    templateDataStream << "{";
    size_t dataCount = 0;
    for (auto &pair: templateData) {
        templateDataStream << "\"" << pair.first << "\":\"" << pair.second << "\"";
        dataCount++;
        if (dataCount < templateData.size()) {
            templateDataStream << ",";
        }
    }
    templateDataStream << "}";

    sendTemplatedEmailRequest.SetTemplateData(templateDataStream.str());

    if (!senderEmailAddress.empty()) {
        sendTemplatedEmailRequest.SetSource(senderEmailAddress);
    }
    if (!replyToAddress.empty()) {
        sendTemplatedEmailRequest.AddReplyToAddresses(replyToAddress);
    }

    auto outcome = sesClient.SendTemplatedEmail(sendTemplatedEmailRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully sent templated message with ID "
                  << outcome.GetResult().GetMessageId()
                  << "." << std::endl;
    }
    else {
        std::cerr << "Error sending templated message. "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [SendTemplatedEmail](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/SendTemplatedEmail)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `UpdateTemplate`
<a name="ses_UpdateTemplate_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTemplate`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Update an Amazon Simple Email Service (Amazon SES) template.
/*!
  \param templateName: The name of the template.
  \param htmlPart: The HTML body of the email.
  \param subjectPart: The subject line of the email.
  \param textPart: The plain text version of the email.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::updateTemplate(const Aws::String &templateName,
                                 const Aws::String &htmlPart,
                                 const Aws::String &subjectPart,
                                 const Aws::String &textPart,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::Template templateValues;

    templateValues.SetTemplateName(templateName);
    templateValues.SetSubjectPart(subjectPart);
    templateValues.SetHtmlPart(htmlPart);
    templateValues.SetTextPart(textPart);

    Aws::SES::Model::UpdateTemplateRequest updateTemplateRequest;
    updateTemplateRequest.SetTemplate(templateValues);

    Aws::SES::Model::UpdateTemplateOutcome outcome = sesClient.UpdateTemplate(updateTemplateRequest);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully updated template." << std::endl;
    } else {
        std::cerr << "Error updating template. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [UpdateTemplate](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/UpdateTemplate)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `VerifyEmailIdentity`
<a name="ses_VerifyEmailIdentity_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyEmailIdentity`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ses#code-examples). 

```
//! Add an email address to the list of identities associated with this account and
//! initiate verification.
/*!
  \param emailAddress; The email address to add.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SES::verifyEmailIdentity(const Aws::String &emailAddress,
                         const Aws::Client::ClientConfiguration &clientConfiguration)
{
    Aws::SES::SESClient sesClient(clientConfiguration);

    Aws::SES::Model::VerifyEmailIdentityRequest verifyEmailIdentityRequest;

    verifyEmailIdentityRequest.SetEmailAddress(emailAddress);

    Aws::SES::Model::VerifyEmailIdentityOutcome outcome = sesClient.VerifyEmailIdentity(verifyEmailIdentityRequest);

    if (outcome.IsSuccess())
    {
        std::cout << "Email verification initiated." << std::endl;
    }

    else
    {
        std::cerr << "Error initiating email verification. " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [VerifyEmailIdentity](https://docs.aws.amazon.com/goto/SdkForCpp/email-2010-12-01/VerifyEmailIdentity)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk C\$1\$1**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon Aurora Nirserver.   
 Untuk kode sumber lengkap dan instruksi tentang cara menyiapkan C\$1\$1 REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/serverless-aurora)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon SNS menggunakan SDK for C\$1\$1
<a name="cpp_1_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon SNS
<a name="sns_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SNS.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns/hello_sns#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS sns)

# Set this project's name.
project("hello_sns")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
    # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

    # set(BIN_SUB_DIR "/Debug") # If you are building from the command line you may need to uncomment this
    # and set the proper subdirectory to the executables' location.

    AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif ()

add_executable(${PROJECT_NAME}
        hello_sns.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1sns.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/sns/SNSClient.h>
#include <aws/sns/model/ListTopicsRequest.h>
#include <iostream>

/*
 *  A "Hello SNS" starter application which initializes an Amazon Simple Notification
 *  Service (Amazon SNS) client and lists the SNS topics in the current account.
 *
 *  main function
 *
 *  Usage: 'hello_sns'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::SNS::SNSClient snsClient(clientConfig);

        Aws::Vector<Aws::SNS::Model::Topic> allTopics;
        Aws::String nextToken; // Next token is used to handle a paginated response.
        do {
            Aws::SNS::Model::ListTopicsRequest request;

            if (!nextToken.empty()) {
                request.SetNextToken(nextToken);
            }

            const Aws::SNS::Model::ListTopicsOutcome outcome = snsClient.ListTopics(
                    request);

            if (outcome.IsSuccess()) {
                const Aws::Vector<Aws::SNS::Model::Topic> &paginatedTopics =
                        outcome.GetResult().GetTopics();
                if (!paginatedTopics.empty()) {
                    allTopics.insert(allTopics.cend(), paginatedTopics.cbegin(),
                                     paginatedTopics.cend());
                }
            }
            else {
                std::cerr << "Error listing topics " << outcome.GetError().GetMessage()
                          << std::endl;
                return 1;
            }

            nextToken = outcome.GetResult().GetNextToken();
        } while (!nextToken.empty());

        std::cout << "Hello Amazon SNS! You have " << allTopics.size() << " topic"
                  << (allTopics.size() == 1 ? "" : "s") << " in your account."
                  << std::endl;

        if (!allTopics.empty()) {
            std::cout << "Here are your topic ARNs." << std::endl;
            for (const Aws::SNS::Model::Topic &topic: allTopics) {
                std::cout << "  * " << topic.GetTopicArn() << std::endl;
            }
        }
    }


    Aws::ShutdownAPI(options); // Should only be called once.
    return 0;
}
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/ListTopics)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Tindakan
<a name="actions"></a>

### `CreateTopic`
<a name="sns_CreateTopic_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
//! Create an Amazon Simple Notification Service (Amazon SNS) topic.
/*!
  \param topicName: An Amazon SNS topic name.
  \param topicARNResult: String to return the Amazon Resource Name (ARN) for the topic.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::createTopic(const Aws::String &topicName,
                              Aws::String &topicARNResult,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::CreateTopicRequest request;
    request.SetName(topicName);

    const Aws::SNS::Model::CreateTopicOutcome outcome = snsClient.CreateTopic(request);

    if (outcome.IsSuccess()) {
        topicARNResult = outcome.GetResult().GetTopicArn();
        std::cout << "Successfully created an Amazon SNS topic " << topicName
                  << " with topic ARN '" << topicARNResult
                  << "'." << std::endl;

    }
    else {
        std::cerr << "Error creating topic " << topicName << ":" <<
                  outcome.GetError().GetMessage() << std::endl;
        topicARNResult.clear();
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateTopic](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/CreateTopic)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteTopic`
<a name="sns_DeleteTopic_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
//! Delete an Amazon Simple Notification Service (Amazon SNS) topic.
/*!
  \param topicARN: The Amazon Resource Name (ARN) for an Amazon SNS topic.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::deleteTopic(const Aws::String &topicARN,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::DeleteTopicRequest request;
    request.SetTopicArn(topicARN);

    const Aws::SNS::Model::DeleteTopicOutcome outcome = snsClient.DeleteTopic(request);

    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted the Amazon SNS topic " << topicARN << std::endl;
    }
    else {
        std::cerr << "Error deleting topic " << topicARN << ":" <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteTopic](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/DeleteTopic)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetSMSAttributes`
<a name="sns_GetSMSAttributes_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSMSAttributes`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
//! Retrieve the default settings for sending SMS messages from your AWS account by using
//! Amazon Simple Notification Service (Amazon SNS).
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool
AwsDoc::SNS::getSMSType(const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::GetSMSAttributesRequest request;
    //Set the request to only retrieve the DefaultSMSType setting.
    //Without the following line, GetSMSAttributes would retrieve all settings.
    request.AddAttributes("DefaultSMSType");

    const Aws::SNS::Model::GetSMSAttributesOutcome outcome = snsClient.GetSMSAttributes(
            request);

    if (outcome.IsSuccess()) {
        const Aws::Map<Aws::String, Aws::String> attributes =
                outcome.GetResult().GetAttributes();
        if (!attributes.empty()) {
            for (auto const &att: attributes) {
                std::cout << att.first << ":  " << att.second << std::endl;
            }
        }
        else {
            std::cout
                    << "AwsDoc::SNS::getSMSType - an empty map of attributes was retrieved."
                    << std::endl;
        }
    }
    else {
        std::cerr << "Error while getting SMS Type: '"
                  << outcome.GetError().GetMessage()
                  << "'" << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [Dapatkan SMSAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/GetSMSAttributes) *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetTopicAttributes`
<a name="sns_GetTopicAttributes_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTopicAttributes`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
//! Retrieve the properties of an Amazon Simple Notification Service (Amazon SNS) topic.
/*!
  \param topicARN: The Amazon Resource Name (ARN) for an Amazon SNS topic.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::getTopicAttributes(const Aws::String &topicARN,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);
    Aws::SNS::Model::GetTopicAttributesRequest request;
    request.SetTopicArn(topicARN);

    const Aws::SNS::Model::GetTopicAttributesOutcome outcome = snsClient.GetTopicAttributes(
            request);

    if (outcome.IsSuccess()) {
        std::cout << "Topic Attributes:" << std::endl;
        for (auto const &attribute: outcome.GetResult().GetAttributes()) {
            std::cout << "  * " << attribute.first << " : " << attribute.second
                      << std::endl;
        }
    }
    else {
        std::cerr << "Error while getting Topic attributes "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetTopicAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/GetTopicAttributes)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
//! Retrieve a list of Amazon Simple Notification Service (Amazon SNS) subscriptions.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::listSubscriptions(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::String nextToken; // Next token is used to handle a paginated response.
    bool result = true;
    Aws::Vector<Aws::SNS::Model::Subscription> subscriptions;
    do {
        Aws::SNS::Model::ListSubscriptionsRequest request;

        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        const Aws::SNS::Model::ListSubscriptionsOutcome outcome = snsClient.ListSubscriptions(
                request);

        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::SNS::Model::Subscription> &newSubscriptions =
                    outcome.GetResult().GetSubscriptions();
            subscriptions.insert(subscriptions.cend(), newSubscriptions.begin(),
                                 newSubscriptions.end());
        }
        else {
            std::cerr << "Error listing subscriptions "
                      << outcome.GetError().GetMessage()
                      <<
                      std::endl;
            result = false;
            break;
        }

        nextToken = outcome.GetResult().GetNextToken();
    } while (!nextToken.empty());

    if (result) {
        if (subscriptions.empty()) {
            std::cout << "No subscriptions found" << std::endl;
        }
        else {
            std::cout << "Subscriptions list:" << std::endl;
            for (auto const &subscription: subscriptions) {
                std::cout << "  * " << subscription.GetSubscriptionArn() << std::endl;
            }
        }
    }
    return result;
}
```
+  Untuk detail API, lihat [ListSubscriptions](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/ListSubscriptions)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListTopics`
<a name="sns_ListTopics_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
//! Retrieve a list of Amazon Simple Notification Service (Amazon SNS) topics.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool
AwsDoc::SNS::listTopics(const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::String nextToken; // Next token is used to handle a paginated response.
    bool result = true;
    do {
        Aws::SNS::Model::ListTopicsRequest request;

        if (!nextToken.empty()) {
            request.SetNextToken(nextToken);
        }

        const Aws::SNS::Model::ListTopicsOutcome outcome = snsClient.ListTopics(
                request);

        if (outcome.IsSuccess()) {
            std::cout << "Topics list:" << std::endl;
            for (auto const &topic: outcome.GetResult().GetTopics()) {
                std::cout << "  * " << topic.GetTopicArn() << std::endl;
            }
        }
        else {
            std::cerr << "Error listing topics " << outcome.GetError().GetMessage() <<
                      std::endl;
            result = false;
            break;
        }

        nextToken = outcome.GetResult().GetNextToken();
    } while (!nextToken.empty());

    return result;
}
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/ListTopics)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `Publish`
<a name="sns_Publish_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
//! Send a message to an Amazon Simple Notification Service (Amazon SNS) topic.
/*!
  \param message: The message to publish.
  \param topicARN: The Amazon Resource Name (ARN) for an Amazon SNS topic.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::publishToTopic(const Aws::String &message,
                                 const Aws::String &topicARN,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::PublishRequest request;
    request.SetMessage(message);
    request.SetTopicArn(topicARN);

    const Aws::SNS::Model::PublishOutcome outcome = snsClient.Publish(request);

    if (outcome.IsSuccess()) {
        std::cout << "Message published successfully with id '"
                  << outcome.GetResult().GetMessageId() << "'." << std::endl;
    }
    else {
        std::cerr << "Error while publishing message "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
Publikasikan pesan dengan atribut.  

```
        static const Aws::String TONE_ATTRIBUTE("tone");
        static const Aws::Vector<Aws::String> TONES = {"cheerful", "funny", "serious",
                                                       "sincere"};

        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::SNS::SNSClient snsClient(clientConfiguration);

        Aws::SNS::Model::PublishRequest request;
        request.SetTopicArn(topicARN);
        Aws::String message = askQuestion("Enter a message text to publish.  ");
        request.SetMessage(message);

        if (filteringMessages && askYesNoQuestion(
                "Add an attribute to this message? (y/n) ")) {
            for (size_t i = 0; i < TONES.size(); ++i) {
                std::cout << "  " << (i + 1) << ". " << TONES[i] << std::endl;
            }
            int selection = askQuestionForIntRange(
                    "Enter a number for an attribute. ",
                    1, static_cast<int>(TONES.size()));
            Aws::SNS::Model::MessageAttributeValue messageAttributeValue;
            messageAttributeValue.SetDataType("String");
            messageAttributeValue.SetStringValue(TONES[selection - 1]);
            request.AddMessageAttributes(TONE_ATTRIBUTE, messageAttributeValue);
        }

        Aws::SNS::Model::PublishOutcome outcome = snsClient.Publish(request);

        if (outcome.IsSuccess()) {
            std::cout << "Your message was successfully published." << std::endl;
        }
        else {
            std::cerr << "Error with TopicsAndQueues::Publish. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

            cleanUp(topicARN,
                    queueURLS,
                    subscriptionARNS,
                    snsClient,
                    sqsClient);

            return false;
        }
```
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Publish) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `SetSMSAttributes`
<a name="sns_SetSMSAttributes_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetSMSAttributes`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 
Cara menggunakan Amazon SNS untuk mengatur atribut DefaultSMSType .  

```
//! Set the default settings for sending SMS messages.
/*!
  \param smsType: The type of SMS message that you will send by default.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::setSMSType(const Aws::String &smsType,
                             const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::SetSMSAttributesRequest request;
    request.AddAttributes("DefaultSMSType", smsType);

    const Aws::SNS::Model::SetSMSAttributesOutcome outcome = snsClient.SetSMSAttributes(
            request);

    if (outcome.IsSuccess()) {
        std::cout << "SMS Type set successfully " << std::endl;
    }
    else {
        std::cerr << "Error while setting SMS Type: '"
                  << outcome.GetError().GetMessage()
                  << "'" << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [Menyetel SMSAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/SetSMSAttributes) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `Subscribe`
<a name="sns_Subscribe_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
//! Subscribe to an Amazon Simple Notification Service (Amazon SNS) topic with delivery to an email address.
/*!
  \param topicARN: An SNS topic Amazon Resource Name (ARN).
  \param emailAddress: An email address.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::subscribeEmail(const Aws::String &topicARN,
                                 const Aws::String &emailAddress,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::SubscribeRequest request;
    request.SetTopicArn(topicARN);
    request.SetProtocol("email");
    request.SetEndpoint(emailAddress);

    const Aws::SNS::Model::SubscribeOutcome outcome = snsClient.Subscribe(request);

    if (outcome.IsSuccess()) {
        std::cout << "Subscribed successfully." << std::endl;
        std::cout << "Subscription ARN '" << outcome.GetResult().GetSubscriptionArn()
                  << "'." << std::endl;
    }
    else {
        std::cerr << "Error while subscribing " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
Berlangganan aplikasi seluler ke suatu topik.  

```
//! Subscribe to an Amazon Simple Notification Service (Amazon SNS) topic with delivery to a mobile app.
/*!
  \param topicARN: The Amazon Resource Name (ARN) for an Amazon SNS topic.
  \param endpointARN: The ARN for a mobile app or device endpoint.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool
AwsDoc::SNS::subscribeApp(const Aws::String &topicARN,
                          const Aws::String &endpointARN,
                          const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::SubscribeRequest request;
    request.SetTopicArn(topicARN);
    request.SetProtocol("application");
    request.SetEndpoint(endpointARN);

    const Aws::SNS::Model::SubscribeOutcome outcome = snsClient.Subscribe(request);

    if (outcome.IsSuccess()) {
        std::cout << "Subscribed successfully." << std::endl;
        std::cout << "Subscription ARN '" << outcome.GetResult().GetSubscriptionArn()
                  << "'." << std::endl;
    }
    else {
        std::cerr << "Error while subscribing " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
Berlangganan fungsi Lambda ke suatu topik.  

```
//! Subscribe to an Amazon Simple Notification Service (Amazon SNS) topic with delivery to an AWS Lambda function.
/*!
  \param topicARN: The Amazon Resource Name (ARN) for an Amazon SNS topic.
  \param lambdaFunctionARN: The ARN for an AWS Lambda function.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::subscribeLambda(const Aws::String &topicARN,
                                  const Aws::String &lambdaFunctionARN,
                                  const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::SubscribeRequest request;
    request.SetTopicArn(topicARN);
    request.SetProtocol("lambda");
    request.SetEndpoint(lambdaFunctionARN);

    const Aws::SNS::Model::SubscribeOutcome outcome = snsClient.Subscribe(request);

    if (outcome.IsSuccess()) {
        std::cout << "Subscribed successfully." << std::endl;
        std::cout << "Subscription ARN '" << outcome.GetResult().GetSubscriptionArn()
                  << "'." << std::endl;
    }
    else {
        std::cerr << "Error while subscribing " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
Berlangganan antrian SQS ke suatu topik.  

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::SNS::SNSClient snsClient(clientConfiguration);

            Aws::SNS::Model::SubscribeRequest request;
            request.SetTopicArn(topicARN);
            request.SetProtocol("sqs");
            request.SetEndpoint(queueARN);

            Aws::SNS::Model::SubscribeOutcome outcome = snsClient.Subscribe(request);

            if (outcome.IsSuccess()) {
                Aws::String subscriptionARN = outcome.GetResult().GetSubscriptionArn();
                std::cout << "The queue '" << queueName
                          << "' has been subscribed to the topic '"
                          << "'" << topicName << "'" << std::endl;
                std::cout << "with the subscription ARN '" << subscriptionARN << "."
                          << std::endl;
                subscriptionARNS.push_back(subscriptionARN);
            }
            else {
                std::cerr << "Error with TopicsAndQueues::Subscribe. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
```
Berlangganan dengan filter ke topik.  

```
        static const Aws::String TONE_ATTRIBUTE("tone");
        static const Aws::Vector<Aws::String> TONES = {"cheerful", "funny", "serious",
                                                       "sincere"};

        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::SNS::SNSClient snsClient(clientConfiguration);

            Aws::SNS::Model::SubscribeRequest request;
            request.SetTopicArn(topicARN);
            request.SetProtocol("sqs");
            request.SetEndpoint(queueARN);
            if (isFifoTopic) {
                if (first) {
                    std::cout << "Subscriptions to a FIFO topic can have filters."
                              << std::endl;
                    std::cout
                            << "If you add a filter to this subscription, then only the filtered messages "
                            << "will be received in the queue." << std::endl;
                    std::cout << "For information about message filtering, "
                              << "see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html"
                              << std::endl;
                    std::cout << "For this example, you can filter messages by a \""
                              << TONE_ATTRIBUTE << "\" attribute." << std::endl;
                }

                std::ostringstream ostringstream;
                ostringstream << "Filter messages for \"" << queueName
                              << "\"'s subscription to the topic \""
                              << topicName << "\"?  (y/n)";

                // Add filter if user answers yes.
                if (askYesNoQuestion(ostringstream.str())) {
                    Aws::String jsonPolicy = getFilterPolicyFromUser();
                    if (!jsonPolicy.empty()) {
                        filteringMessages = true;

                        std::cout << "This is the filter policy for this subscription."
                                  << std::endl;
                        std::cout << jsonPolicy << std::endl;

                        request.AddAttributes("FilterPolicy", jsonPolicy);
                    }
                    else {
                        std::cout
                                << "Because you did not select any attributes, no filter "
                                << "will be added to this subscription." << std::endl;
                    }
                }
            }  // if (isFifoTopic)
            Aws::SNS::Model::SubscribeOutcome outcome = snsClient.Subscribe(request);

            if (outcome.IsSuccess()) {
                Aws::String subscriptionARN = outcome.GetResult().GetSubscriptionArn();
                std::cout << "The queue '" << queueName
                          << "' has been subscribed to the topic '"
                          << "'" << topicName << "'" << std::endl;
                std::cout << "with the subscription ARN '" << subscriptionARN << "."
                          << std::endl;
                subscriptionARNS.push_back(subscriptionARN);
            }
            else {
                std::cerr << "Error with TopicsAndQueues::Subscribe. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }

//! Routine that lets the user select attributes for a subscription filter policy.
/*!
 \sa getFilterPolicyFromUser()
 \return Aws::String: The filter policy as JSON.
 */
Aws::String AwsDoc::TopicsAndQueues::getFilterPolicyFromUser() {
    std::cout
            << "You can filter messages by one or more of the following \""
            << TONE_ATTRIBUTE << "\" attributes." << std::endl;

    std::vector<Aws::String> filterSelections;
    int selection;
    do {
        for (size_t j = 0; j < TONES.size(); ++j) {
            std::cout << "  " << (j + 1) << ". " << TONES[j]
                      << std::endl;
        }
        selection = askQuestionForIntRange(
                "Enter a number (or enter zero to stop adding more). ",
                0, static_cast<int>(TONES.size()));

        if (selection != 0) {
            const Aws::String &selectedTone(TONES[selection - 1]);
            // Add the tone to the selection if it is not already added.
            if (std::find(filterSelections.begin(),
                          filterSelections.end(),
                          selectedTone)
                == filterSelections.end()) {
                filterSelections.push_back(selectedTone);
            }
        }
    } while (selection != 0);

    Aws::String result;
    if (!filterSelections.empty()) {
        std::ostringstream jsonPolicyStream;
        jsonPolicyStream << "{ \"" << TONE_ATTRIBUTE << "\": [";


        for (size_t j = 0; j < filterSelections.size(); ++j) {
            jsonPolicyStream << "\"" << filterSelections[j] << "\"";
            if (j < filterSelections.size() - 1) {
                jsonPolicyStream << ",";
            }
        }
        jsonPolicyStream << "] }";

        result = jsonPolicyStream.str();
    }

    return result;
}
```
+  Untuk detail API, lihat [Berlangganan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Subscribe) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `Unsubscribe`
<a name="sns_Unsubscribe_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
//! Delete a subscription to an Amazon Simple Notification Service (Amazon SNS) topic.
/*!
  \param subscriptionARN: The Amazon Resource Name (ARN) for an Amazon SNS topic subscription.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::unsubscribe(const Aws::String &subscriptionARN,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::UnsubscribeRequest request;
    request.SetSubscriptionArn(subscriptionARN);

    const Aws::SNS::Model::UnsubscribeOutcome outcome = snsClient.Unsubscribe(request);

    if (outcome.IsSuccess()) {
        std::cout << "Unsubscribed successfully " << std::endl;
    }
    else {
        std::cerr << "Error while unsubscribing " << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [Berhenti berlangganan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Unsubscribe) di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk C\$1\$1**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Publikasikan pesan teks SMS
<a name="sns_PublishTextSMS_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan pesan SMS menggunakan Amazon SNS.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sns#code-examples). 

```
/**
 * Publish SMS: use Amazon Simple Notification Service (Amazon SNS) to send an SMS text message to a phone number.
 * Note: This requires additional AWS configuration prior to running example. 
 * 
 *  NOTE: When you start using Amazon SNS to send SMS messages, your AWS account is in the SMS sandbox and you can only
 *  use verified destination phone numbers. See https://docs.aws.amazon.com/sns/latest/dg/sns-sms-sandbox.html.
 *  NOTE: If destination is in the US, you also have an additional restriction that you have use a dedicated
 *  origination ID (phone number). You can request an origination number using Amazon Pinpoint for a fee.
 *  See https://aws.amazon.com/blogs/compute/provisioning-and-using-10dlc-origination-numbers-with-amazon-sns/ 
 *  for more information. 
 * 
 *  <phone_number_value> input parameter uses E.164 format. 
 *  For example, in United States, this input value should be of the form: +12223334444
 */

//! Send an SMS text message to a phone number.
/*!
  \param message: The message to publish.
  \param phoneNumber: The phone number of the recipient in E.164 format.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SNS::publishSms(const Aws::String &message,
                             const Aws::String &phoneNumber,
                             const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SNS::SNSClient snsClient(clientConfiguration);

    Aws::SNS::Model::PublishRequest request;
    request.SetMessage(message);
    request.SetPhoneNumber(phoneNumber);

    const Aws::SNS::Model::PublishOutcome outcome = snsClient.Publish(request);

    if (outcome.IsSuccess()) {
        std::cout << "Message published successfully with message id, '"
                  << outcome.GetResult().GetMessageId() << "'."
                  << std::endl;
    }
    else {
        std::cerr << "Error while publishing message "
                  << outcome.GetError().GetMessage()
                  << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Publish) di *Referensi AWS SDK untuk C\$1\$1 API*. 

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/topics_and_queues#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Workflow for messaging with topics and queues using Amazon SNS and Amazon SQS.
/*!
 \param clientConfig Aws client configuration.
 \return bool: Successful completion.
 */
bool AwsDoc::TopicsAndQueues::messagingWithTopicsAndQueues(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    std::cout << "Welcome to messaging with topics and queues." << std::endl;
    printAsterisksLine();
    std::cout << "In this workflow, you will create an SNS topic and subscribe "
              << NUMBER_OF_QUEUES <<
              " SQS queues to the topic." << std::endl;
    std::cout
            << "You can select from several options for configuring the topic and the subscriptions for the "
            << NUMBER_OF_QUEUES << " queues." << std::endl;
    std::cout << "You can then post to the topic and see the results in the queues."
              << std::endl;

    Aws::SNS::SNSClient snsClient(clientConfiguration);

    printAsterisksLine();

    std::cout << "SNS topics can be configured as FIFO (First-In-First-Out)."
              << std::endl;
    std::cout
            << "FIFO topics deliver messages in order and support deduplication and message filtering."
            << std::endl;
    bool isFifoTopic = askYesNoQuestion(
            "Would you like to work with FIFO topics? (y/n) ");

    bool contentBasedDeduplication = false;
    Aws::String topicName;
    if (isFifoTopic) {
        printAsterisksLine();
        std::cout << "Because you have chosen a FIFO topic, deduplication is supported."
                  << std::endl;
        std::cout
                << "Deduplication IDs are either set in the message or automatically generated "
                << "from content using a hash function." << std::endl;
        std::cout
                << "If a message is successfully published to an SNS FIFO topic, any message "
                << "published and determined to have the same deduplication ID, "
                << std::endl;
        std::cout
                << "within the five-minute deduplication interval, is accepted but not delivered."
                << std::endl;
        std::cout
                << "For more information about deduplication, "
                << "see https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html."
                << std::endl;
        contentBasedDeduplication = askYesNoQuestion(
                "Use content-based deduplication instead of entering a deduplication ID? (y/n) ");
    }

    printAsterisksLine();

    Aws::SQS::SQSClient sqsClient(clientConfiguration);
    Aws::Vector<Aws::String> queueURLS;
    Aws::Vector<Aws::String> subscriptionARNS;

    Aws::String topicARN;
    {
        topicName = askQuestion("Enter a name for your SNS topic. ");

        // 1.  Create an Amazon SNS topic, either FIFO or non-FIFO.
        Aws::SNS::Model::CreateTopicRequest request;

        if (isFifoTopic) {
            request.AddAttributes("FifoTopic", "true");
            if (contentBasedDeduplication) {
                request.AddAttributes("ContentBasedDeduplication", "true");
            }
            topicName = topicName + FIFO_SUFFIX;

            std::cout
                    << "Because you have selected a FIFO topic, '.fifo' must be appended to the topic name."
                    << std::endl;
        }

        request.SetName(topicName);

        Aws::SNS::Model::CreateTopicOutcome outcome = snsClient.CreateTopic(request);

        if (outcome.IsSuccess()) {
            topicARN = outcome.GetResult().GetTopicArn();
            std::cout << "Your new topic with the name '" << topicName
                      << "' and the topic Amazon Resource Name (ARN) " << std::endl;
            std::cout << "'" << topicARN << "' has been created." << std::endl;

        }
        else {
            std::cerr << "Error with TopicsAndQueues::CreateTopic. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

            cleanUp(topicARN,
                    queueURLS,
                    subscriptionARNS,
                    snsClient,
                    sqsClient);

            return false;
        }
    }

    printAsterisksLine();

    std::cout << "Now you will create " << NUMBER_OF_QUEUES
              << " SQS queues to subscribe to the topic." << std::endl;
    Aws::Vector<Aws::String> queueNames;
    bool filteringMessages = false;
    bool first = true;
    for (int i = 1; i <= NUMBER_OF_QUEUES; ++i) {
        Aws::String queueURL;
        Aws::String queueName;
        {
            printAsterisksLine();
            std::ostringstream ostringstream;
            ostringstream << "Enter a name for " << (first ? "an" : "the next")
                          << " SQS queue. ";
            queueName = askQuestion(ostringstream.str());

            // 2.  Create an SQS queue.
            Aws::SQS::Model::CreateQueueRequest request;
            if (isFifoTopic) {
                request.AddAttributes(Aws::SQS::Model::QueueAttributeName::FifoQueue,
                                      "true");
                queueName = queueName + FIFO_SUFFIX;

                if (first) // Only explain this once.
                {
                    std::cout
                            << "Because you are creating a FIFO SQS queue, '.fifo' must "
                            << "be appended to the queue name." << std::endl;
                }
            }

            request.SetQueueName(queueName);
            queueNames.push_back(queueName);

            Aws::SQS::Model::CreateQueueOutcome outcome =
                    sqsClient.CreateQueue(request);

            if (outcome.IsSuccess()) {
                queueURL = outcome.GetResult().GetQueueUrl();
                std::cout << "Your new SQS queue with the name '" << queueName
                          << "' and the queue URL " << std::endl;
                std::cout << "'" << queueURL << "' has been created." << std::endl;
            }
            else {
                std::cerr << "Error with SQS::CreateQueue. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }
        queueURLS.push_back(queueURL);

        if (first) // Only explain this once.
        {
            std::cout
                    << "The queue URL is used to retrieve the queue ARN, which is "
                    << "used to create a subscription." << std::endl;
        }

        Aws::String queueARN;
        {
            // 3.  Get the SQS queue ARN attribute.
            Aws::SQS::Model::GetQueueAttributesRequest request;
            request.SetQueueUrl(queueURL);
            request.AddAttributeNames(Aws::SQS::Model::QueueAttributeName::QueueArn);

            Aws::SQS::Model::GetQueueAttributesOutcome outcome =
                    sqsClient.GetQueueAttributes(request);

            if (outcome.IsSuccess()) {
                const Aws::Map<Aws::SQS::Model::QueueAttributeName, Aws::String> &attributes =
                        outcome.GetResult().GetAttributes();
                const auto &iter = attributes.find(
                        Aws::SQS::Model::QueueAttributeName::QueueArn);
                if (iter != attributes.end()) {
                    queueARN = iter->second;
                    std::cout << "The queue ARN '" << queueARN
                              << "' has been retrieved."
                              << std::endl;
                }
                else {
                    std::cerr
                            << "Error ARN attribute not returned by GetQueueAttribute."
                            << std::endl;

                    cleanUp(topicARN,
                            queueURLS,
                            subscriptionARNS,
                            snsClient,
                            sqsClient);

                    return false;
                }
            }
            else {
                std::cerr << "Error with SQS::GetQueueAttributes. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }

        if (first) {
            std::cout
                    << "An IAM policy must be attached to an SQS queue, enabling it to receive "
                       "messages from an SNS topic." << std::endl;
        }

        {
            // 4.  Set the SQS queue policy attribute with a policy enabling the receipt of SNS messages.
            Aws::SQS::Model::SetQueueAttributesRequest request;
            request.SetQueueUrl(queueURL);
            Aws::String policy = createPolicyForQueue(queueARN, topicARN);
            request.AddAttributes(Aws::SQS::Model::QueueAttributeName::Policy,
                                  policy);

            Aws::SQS::Model::SetQueueAttributesOutcome outcome =
                    sqsClient.SetQueueAttributes(request);

            if (outcome.IsSuccess()) {
                std::cout << "The attributes for the queue '" << queueName
                          << "' were successfully updated." << std::endl;
            }
            else {
                std::cerr << "Error with SQS::SetQueueAttributes. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }

        printAsterisksLine();

        {
            // 5.  Subscribe the SQS queue to the SNS topic.
            Aws::SNS::Model::SubscribeRequest request;
            request.SetTopicArn(topicARN);
            request.SetProtocol("sqs");
            request.SetEndpoint(queueARN);
            if (isFifoTopic) {
                if (first) {
                    std::cout << "Subscriptions to a FIFO topic can have filters."
                              << std::endl;
                    std::cout
                            << "If you add a filter to this subscription, then only the filtered messages "
                            << "will be received in the queue." << std::endl;
                    std::cout << "For information about message filtering, "
                              << "see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html"
                              << std::endl;
                    std::cout << "For this example, you can filter messages by a \""
                              << TONE_ATTRIBUTE << "\" attribute." << std::endl;
                }

                std::ostringstream ostringstream;
                ostringstream << "Filter messages for \"" << queueName
                              << "\"'s subscription to the topic \""
                              << topicName << "\"?  (y/n)";

                // Add filter if user answers yes.
                if (askYesNoQuestion(ostringstream.str())) {
                    Aws::String jsonPolicy = getFilterPolicyFromUser();
                    if (!jsonPolicy.empty()) {
                        filteringMessages = true;

                        std::cout << "This is the filter policy for this subscription."
                                  << std::endl;
                        std::cout << jsonPolicy << std::endl;

                        request.AddAttributes("FilterPolicy", jsonPolicy);
                    }
                    else {
                        std::cout
                                << "Because you did not select any attributes, no filter "
                                << "will be added to this subscription." << std::endl;
                    }
                }
            }  // if (isFifoTopic)
            Aws::SNS::Model::SubscribeOutcome outcome = snsClient.Subscribe(request);

            if (outcome.IsSuccess()) {
                Aws::String subscriptionARN = outcome.GetResult().GetSubscriptionArn();
                std::cout << "The queue '" << queueName
                          << "' has been subscribed to the topic '"
                          << "'" << topicName << "'" << std::endl;
                std::cout << "with the subscription ARN '" << subscriptionARN << "."
                          << std::endl;
                subscriptionARNS.push_back(subscriptionARN);
            }
            else {
                std::cerr << "Error with TopicsAndQueues::Subscribe. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }

        first = false;
    }

    first = true;
    do {
        printAsterisksLine();

        // 6.  Publish a message to the SNS topic.
        Aws::SNS::Model::PublishRequest request;
        request.SetTopicArn(topicARN);
        Aws::String message = askQuestion("Enter a message text to publish.  ");
        request.SetMessage(message);
        if (isFifoTopic) {
            if (first) {
                std::cout
                        << "Because you are using a FIFO topic, you must set a message group ID."
                        << std::endl;
                std::cout
                        << "All messages within the same group will be received in the "
                        << "order they were published." << std::endl;
            }
            Aws::String messageGroupID = askQuestion(
                    "Enter a message group ID for this message. ");
            request.SetMessageGroupId(messageGroupID);
            if (!contentBasedDeduplication) {
                if (first) {
                    std::cout
                            << "Because you are not using content-based deduplication, "
                            << "you must enter a deduplication ID." << std::endl;
                }
                Aws::String deduplicationID = askQuestion(
                        "Enter a deduplication ID for this message. ");
                request.SetMessageDeduplicationId(deduplicationID);
            }
        }

        if (filteringMessages && askYesNoQuestion(
                "Add an attribute to this message? (y/n) ")) {
            for (size_t i = 0; i < TONES.size(); ++i) {
                std::cout << "  " << (i + 1) << ". " << TONES[i] << std::endl;
            }
            int selection = askQuestionForIntRange(
                    "Enter a number for an attribute. ",
                    1, static_cast<int>(TONES.size()));
            Aws::SNS::Model::MessageAttributeValue messageAttributeValue;
            messageAttributeValue.SetDataType("String");
            messageAttributeValue.SetStringValue(TONES[selection - 1]);
            request.AddMessageAttributes(TONE_ATTRIBUTE, messageAttributeValue);
        }

        Aws::SNS::Model::PublishOutcome outcome = snsClient.Publish(request);

        if (outcome.IsSuccess()) {
            std::cout << "Your message was successfully published." << std::endl;
        }
        else {
            std::cerr << "Error with TopicsAndQueues::Publish. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

            cleanUp(topicARN,
                    queueURLS,
                    subscriptionARNS,
                    snsClient,
                    sqsClient);

            return false;
        }

        first = false;
    } while (askYesNoQuestion("Post another message? (y/n) "));

    printAsterisksLine();

    std::cout << "Now the SQS queue will be polled to retrieve the messages."
              << std::endl;
    askQuestion("Press any key to continue...", alwaysTrueTest);

    for (size_t i = 0; i < queueURLS.size(); ++i) {
        // 7.  Poll an SQS queue for its messages.
        std::vector<Aws::String> messages;
        std::vector<Aws::String> receiptHandles;
        while (true) {
            Aws::SQS::Model::ReceiveMessageRequest request;
            request.SetMaxNumberOfMessages(10);
            request.SetQueueUrl(queueURLS[i]);

            // Setting WaitTimeSeconds to non-zero enables long polling.
            // For information about long polling, see
            // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-short-and-long-polling.html
            request.SetWaitTimeSeconds(1);
            Aws::SQS::Model::ReceiveMessageOutcome outcome =
                    sqsClient.ReceiveMessage(request);

            if (outcome.IsSuccess()) {
                const Aws::Vector<Aws::SQS::Model::Message> &newMessages = outcome.GetResult().GetMessages();
                if (newMessages.empty()) {
                    break;
                }
                else {
                    for (const Aws::SQS::Model::Message &message: newMessages) {
                        messages.push_back(message.GetBody());
                        receiptHandles.push_back(message.GetReceiptHandle());
                    }
                }
            }
            else {
                std::cerr << "Error with SQS::ReceiveMessage. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }

        printAsterisksLine();

        if (messages.empty()) {
            std::cout << "No messages were ";
        }
        else if (messages.size() == 1) {
            std::cout << "One message was ";
        }
        else {
            std::cout << messages.size() << " messages were ";
        }
        std::cout << "received by the queue '" << queueNames[i]
                  << "'." << std::endl;
        for (const Aws::String &message: messages) {
            std::cout << "  Message : '" << message << "'."
                      << std::endl;
        }

        // 8.  Delete a batch of messages from an SQS queue.
        if (!receiptHandles.empty()) {
            Aws::SQS::Model::DeleteMessageBatchRequest request;
            request.SetQueueUrl(queueURLS[i]);
            int id = 1; // Ids must be unique within a batch delete request.
            for (const Aws::String &receiptHandle: receiptHandles) {
                Aws::SQS::Model::DeleteMessageBatchRequestEntry entry;
                entry.SetId(std::to_string(id));
                ++id;
                entry.SetReceiptHandle(receiptHandle);
                request.AddEntries(entry);
            }

            Aws::SQS::Model::DeleteMessageBatchOutcome outcome =
                    sqsClient.DeleteMessageBatch(request);

            if (outcome.IsSuccess()) {
                std::cout << "The batch deletion of messages was successful."
                          << std::endl;
            }
            else {
                std::cerr << "Error with SQS::DeleteMessageBatch. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }
    }

    return cleanUp(topicARN,
                   queueURLS,
                   subscriptionARNS,
                   snsClient,
                   sqsClient,
                   true); // askUser
}


bool AwsDoc::TopicsAndQueues::cleanUp(const Aws::String &topicARN,
                                      const Aws::Vector<Aws::String> &queueURLS,
                                      const Aws::Vector<Aws::String> &subscriptionARNS,
                                      const Aws::SNS::SNSClient &snsClient,
                                      const Aws::SQS::SQSClient &sqsClient,
                                      bool askUser) {
    bool result = true;
    printAsterisksLine();
    if (!queueURLS.empty() && askUser &&
        askYesNoQuestion("Delete the SQS queues? (y/n) ")) {

        for (const auto &queueURL: queueURLS) {
            // 9.  Delete an SQS queue.
            Aws::SQS::Model::DeleteQueueRequest request;
            request.SetQueueUrl(queueURL);

            Aws::SQS::Model::DeleteQueueOutcome outcome =
                    sqsClient.DeleteQueue(request);

            if (outcome.IsSuccess()) {
                std::cout << "The queue with URL '" << queueURL
                          << "' was successfully deleted." << std::endl;
            }
            else {
                std::cerr << "Error with SQS::DeleteQueue. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }

        for (const auto &subscriptionARN: subscriptionARNS) {
            // 10. Unsubscribe an SNS subscription.
            Aws::SNS::Model::UnsubscribeRequest request;
            request.SetSubscriptionArn(subscriptionARN);

            Aws::SNS::Model::UnsubscribeOutcome outcome =
                    snsClient.Unsubscribe(request);

            if (outcome.IsSuccess()) {
                std::cout << "Unsubscribe of subscription ARN '" << subscriptionARN
                          << "' was successful." << std::endl;
            }
            else {
                std::cerr << "Error with TopicsAndQueues::Unsubscribe. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }
    }

    printAsterisksLine();
    if (!topicARN.empty() && askUser &&
        askYesNoQuestion("Delete the SNS topic? (y/n) ")) {

        // 11. Delete an SNS topic.
        Aws::SNS::Model::DeleteTopicRequest request;
        request.SetTopicArn(topicARN);

        Aws::SNS::Model::DeleteTopicOutcome outcome = snsClient.DeleteTopic(request);

        if (outcome.IsSuccess()) {
            std::cout << "The topic with ARN '" << topicARN
                      << "' was successfully deleted." << std::endl;
        }
        else {
            std::cerr << "Error with TopicsAndQueues::DeleteTopicRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
    }

    return result;
}

//! Create an IAM policy that gives an SQS queue permission to receive messages from an SNS topic.
/*!
 \sa createPolicyForQueue()
 \param queueARN: The SQS queue Amazon Resource Name (ARN).
 \param topicARN: The SNS topic ARN.
 \return Aws::String: The policy as JSON.
 */
Aws::String AwsDoc::TopicsAndQueues::createPolicyForQueue(const Aws::String &queueARN,
                                                          const Aws::String &topicARN) {
    std::ostringstream policyStream;
    policyStream << R"({
        "Statement": [
        {
            "Effect": "Allow",
                    "Principal": {
                "Service": "sns.amazonaws.com"
            },
            "Action": "sqs:SendMessage",
                    "Resource": ")" << queueARN << R"(",
                    "Condition": {
                "ArnEquals": {
                    "aws:SourceArn": ")" << topicARN << R"("
                }
            }
        }
        ]
    })";

    return policyStream.str();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [CreateQueue](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/CreateQueue)
  + [CreateTopic](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/CreateTopic)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/DeleteQueue)
  + [DeleteTopic](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/DeleteTopic)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/GetQueueAttributes)
  + [Publikasikan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Publish)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/ReceiveMessage)
  + [SetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/SetQueueAttributes)
  + [Berlangganan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Subscribe)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Unsubscribe)

# Contoh Amazon SQS menggunakan SDK for C\$1\$1
<a name="cpp_1_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon SQS. AWS SDK untuk C\$1\$1 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon SQS
<a name="sqs_Hello_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SQS.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs/hello_sqs#code-examples). 
Kode untuk CMake file CMake Lists.txt.  

```
# Set the minimum required version of CMake for this project.
cmake_minimum_required(VERSION 3.13)

# Set the AWS service components used by this project.
set(SERVICE_COMPONENTS sqs)

# Set this project's name.
project("hello_sqs")

# Set the C++ standard to use to build this target.
# At least C++ 11 is required for the AWS SDK for C++.
set(CMAKE_CXX_STANDARD 11)

# Use the MSVC variable to determine if this is a Windows build.
set(WINDOWS_BUILD ${MSVC})

if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK.
    string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all")
    list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH})
endif ()

# Find the AWS SDK for C++ package.
find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS})

if(WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS)
    # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging.

    # set(BIN_SUB_DIR "/Debug") # If you are building from the command line you may need to uncomment this
    # and set the proper subdirectory to the executables' location.

    AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR})
endif()

add_executable(${PROJECT_NAME}
        hello_sqs.cpp)

target_link_libraries(${PROJECT_NAME}
        ${AWSSDK_LINK_LIBRARIES})
```
Kode untuk file sumber hello\$1sqs.cpp.  

```
#include <aws/core/Aws.h>
#include <aws/sqs/SQSClient.h>
#include <aws/sqs/model/ListQueuesRequest.h>
#include <iostream>

/*
 *  A "Hello SQS" starter application that initializes an Amazon Simple Queue Service
 *  (Amazon SQS) client and lists the SQS queues in the current account.
 *
 *  main function
 *
 *  Usage: 'hello_sqs'
 *
 */

int main(int argc, char **argv) {
    Aws::SDKOptions options;
    // Optionally change the log level for debugging.
//   options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug;
    Aws::InitAPI(options); // Should only be called once.
    {
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

        Aws::SQS::SQSClient sqsClient(clientConfig);

        Aws::Vector<Aws::String> allQueueUrls;
        Aws::String nextToken; // Next token is used to handle a paginated response.
        do {
            Aws::SQS::Model::ListQueuesRequest request;

            Aws::SQS::Model::ListQueuesOutcome outcome = sqsClient.ListQueues(request);

            if (outcome.IsSuccess()) {
                const Aws::Vector<Aws::String> &pageOfQueueUrls = outcome.GetResult().GetQueueUrls();
                if (!pageOfQueueUrls.empty()) {
                    allQueueUrls.insert(allQueueUrls.cend(), pageOfQueueUrls.cbegin(),
                                        pageOfQueueUrls.cend());
                }
            }
            else {
                std::cerr << "Error with SQS::ListQueues. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                break;
            }
            nextToken = outcome.GetResult().GetNextToken();
        } while (!nextToken.empty());


        std::cout << "Hello Amazon SQS! You have " << allQueueUrls.size() << " queue"
                  << (allQueueUrls.size() == 1 ? "" : "s") << " in your account."
                  << std::endl;

        if (!allQueueUrls.empty()) {
            std::cout << "Here are your queue URLs." << std::endl;
            for (const Aws::String &queueUrl: allQueueUrls) {
                std::cout << "  * " << queueUrl << std::endl;
            }
        }
    }

    Aws::ShutdownAPI(options); // Should only be called once.
    return 0;
}
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/ListQueues)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Tindakan
<a name="actions"></a>

### `ChangeMessageVisibility`
<a name="sqs_ChangeMessageVisibility_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ChangeMessageVisibility`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Changes the visibility timeout of a message in an Amazon Simple Queue Service
//! (Amazon SQS) queue.
/*!
  \param queueUrl: An Amazon SQS queue URL.
  \param messageReceiptHandle: A message receipt handle.
  \param visibilityTimeoutSeconds: Visibility timeout in seconds.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::changeMessageVisibility(
        const Aws::String &queue_url,
        const Aws::String &messageReceiptHandle,
        int visibilityTimeoutSeconds,
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::ChangeMessageVisibilityRequest request;
    request.SetQueueUrl(queue_url);
    request.SetReceiptHandle(messageReceiptHandle);
    request.SetVisibilityTimeout(visibilityTimeoutSeconds);

    auto outcome = sqsClient.ChangeMessageVisibility(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully changed visibility of message " <<
                  messageReceiptHandle << " from queue " << queue_url << std::endl;
    }
    else {
        std::cout << "Error changing visibility of message from queue "
                  << queue_url << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [ChangeMessageVisibility](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/ChangeMessageVisibility)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `CreateQueue`
<a name="sqs_CreateQueue_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Create an Amazon Simple Queue Service (Amazon SQS) queue.
/*!
  \param queueName: An Amazon SQS queue name.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::createQueue(const Aws::String &queueName,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::CreateQueueRequest request;
    request.SetQueueName(queueName);

    const Aws::SQS::Model::CreateQueueOutcome outcome = sqsClient.CreateQueue(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully created queue " << queueName << " with a queue URL "
                  << outcome.GetResult().GetQueueUrl() << "." << std::endl;
    }
    else {
        std::cerr << "Error creating queue " << queueName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/CreateQueue)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteMessage`
<a name="sqs_DeleteMessage_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessage`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Delete a message from an Amazon Simple Queue Service (Amazon SQS) queue.
/*!
  \param queueUrl: An Amazon SQS queue URL.
  \param messageReceiptHandle: A message receipt handle.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::deleteMessage(const Aws::String &queueUrl,
                                const Aws::String &messageReceiptHandle,
                                const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::DeleteMessageRequest request;
    request.SetQueueUrl(queueUrl);
    request.SetReceiptHandle(messageReceiptHandle);

    const Aws::SQS::Model::DeleteMessageOutcome outcome = sqsClient.DeleteMessage(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted message from queue " << queueUrl
                  << std::endl;
    }
    else {
        std::cerr << "Error deleting message from queue " << queueUrl << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/DeleteMessage)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteMessageBatch`
<a name="sqs_DeleteMessageBatch_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessageBatch`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/topics_and_queues#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::SQS::SQSClient sqsClient(clientConfiguration);

            Aws::SQS::Model::DeleteMessageBatchRequest request;
            request.SetQueueUrl(queueURLS[i]);
            int id = 1; // Ids must be unique within a batch delete request.
            for (const Aws::String &receiptHandle: receiptHandles) {
                Aws::SQS::Model::DeleteMessageBatchRequestEntry entry;
                entry.SetId(std::to_string(id));
                ++id;
                entry.SetReceiptHandle(receiptHandle);
                request.AddEntries(entry);
            }

            Aws::SQS::Model::DeleteMessageBatchOutcome outcome =
                    sqsClient.DeleteMessageBatch(request);

            if (outcome.IsSuccess()) {
                std::cout << "The batch deletion of messages was successful."
                          << std::endl;
            }
            else {
                std::cerr << "Error with SQS::DeleteMessageBatch. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/DeleteMessageBatch)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Delete an Amazon Simple Queue Service (Amazon SQS) queue.
/*!
  \param queueURL: An Amazon SQS queue URL.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::deleteQueue(const Aws::String &queueURL,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);
    Aws::SQS::Model::DeleteQueueRequest request;
    request.SetQueueUrl(queueURL);

    const Aws::SQS::Model::DeleteQueueOutcome outcome = sqsClient.DeleteQueue(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully deleted queue with url " << queueURL <<
                  std::endl;
    }
    else {
        std::cerr << "Error deleting queue " << queueURL << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/DeleteQueue)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetQueueAttributes`
<a name="sqs_GetQueueAttributes_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueAttributes`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

    Aws::SQS::SQSClient sqsClient(clientConfiguration);

            Aws::SQS::Model::GetQueueAttributesRequest request;
            request.SetQueueUrl(queueURL);
            request.AddAttributeNames(Aws::SQS::Model::QueueAttributeName::QueueArn);

            Aws::SQS::Model::GetQueueAttributesOutcome outcome =
                    sqsClient.GetQueueAttributes(request);

            if (outcome.IsSuccess()) {
                const Aws::Map<Aws::SQS::Model::QueueAttributeName, Aws::String> &attributes =
                        outcome.GetResult().GetAttributes();
                const auto &iter = attributes.find(
                        Aws::SQS::Model::QueueAttributeName::QueueArn);
                if (iter != attributes.end()) {
                    queueARN = iter->second;
                    std::cout << "The queue ARN '" << queueARN
                              << "' has been retrieved."
                              << std::endl;
                }

            }
            else {
                std::cerr << "Error with SQS::GetQueueAttributes. "
                          << outcome.GetError().GetMessage()
                          << std::endl;


            }
```
+  Untuk detail API, lihat [GetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/GetQueueAttributes)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `GetQueueUrl`
<a name="sqs_GetQueueUrl_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueUrl`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Get the URL for an Amazon Simple Queue Service (Amazon SQS) queue.
/*!
  \param queueName: An Amazon SQS queue name.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::getQueueUrl(const Aws::String &queueName,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::GetQueueUrlRequest request;
    request.SetQueueName(queueName);

    const Aws::SQS::Model::GetQueueUrlOutcome outcome = sqsClient.GetQueueUrl(request);
    if (outcome.IsSuccess()) {
        std::cout << "Queue " << queueName << " has url " <<
                  outcome.GetResult().GetQueueUrl() << std::endl;
    }
    else {
        std::cerr << "Error getting url for queue " << queueName << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/GetQueueUrl)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ListQueues`
<a name="sqs_ListQueues_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! List the Amazon Simple Queue Service (Amazon SQS) queues within an AWS account.
/*!
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool
AwsDoc::SQS::listQueues(const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::ListQueuesRequest listQueuesRequest;

    Aws::String nextToken; // Used for pagination.
    Aws::Vector<Aws::String> allQueueUrls;

    do {
        if (!nextToken.empty()) {
            listQueuesRequest.SetNextToken(nextToken);
        }
        const Aws::SQS::Model::ListQueuesOutcome outcome = sqsClient.ListQueues(
                listQueuesRequest);
        if (outcome.IsSuccess()) {
            const Aws::Vector<Aws::String> &queueUrls = outcome.GetResult().GetQueueUrls();
            allQueueUrls.insert(allQueueUrls.end(),
                                queueUrls.begin(),
                                queueUrls.end());

            nextToken = outcome.GetResult().GetNextToken();
        }
        else {
            std::cerr << "Error listing queues: " <<
                      outcome.GetError().GetMessage() << std::endl;
            return false;
        }

    } while (!nextToken.empty());

    std::cout << allQueueUrls.size() << " Amazon SQS queue(s) found." << std::endl;
    for (const auto &iter: allQueueUrls) {
        std::cout << " " << iter << std::endl;
    }

    return true;
}
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/ListQueues)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Receive a message from an Amazon Simple Queue Service (Amazon SQS) queue.
/*!
  \param queueUrl: An Amazon SQS queue URL.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::receiveMessage(const Aws::String &queueUrl,
                                 const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::ReceiveMessageRequest request;
    request.SetQueueUrl(queueUrl);
    request.SetMaxNumberOfMessages(1);

    const Aws::SQS::Model::ReceiveMessageOutcome outcome = sqsClient.ReceiveMessage(
            request);
    if (outcome.IsSuccess()) {

        const Aws::Vector<Aws::SQS::Model::Message> &messages =
                outcome.GetResult().GetMessages();
        if (!messages.empty()) {
            const Aws::SQS::Model::Message &message = messages[0];
            std::cout << "Received message:" << std::endl;
            std::cout << "  MessageId: " << message.GetMessageId() << std::endl;
            std::cout << "  ReceiptHandle: " << message.GetReceiptHandle() << std::endl;
            std::cout << "  Body: " << message.GetBody() << std::endl << std::endl;
        }
        else {
            std::cout << "No messages received from queue " << queueUrl <<
                      std::endl;

        }
    }
    else {
        std::cerr << "Error receiving message from queue " << queueUrl << ": "
                  << outcome.GetError().GetMessage() << std::endl;
    }
    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/ReceiveMessage)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `SendMessage`
<a name="sqs_SendMessage_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Send a message to an Amazon Simple Queue Service (Amazon SQS) queue.
/*!
  \param queueUrl: An Amazon SQS queue URL.
  \param messageBody: A message body.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::sendMessage(const Aws::String &queueUrl,
                              const Aws::String &messageBody,
                              const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::SendMessageRequest request;
    request.SetQueueUrl(queueUrl);
    request.SetMessageBody(messageBody);

    const Aws::SQS::Model::SendMessageOutcome outcome = sqsClient.SendMessage(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully sent message to " << queueUrl <<
                  std::endl;
    }
    else {
        std::cerr << "Error sending message to " << queueUrl << ": " <<
                  outcome.GetError().GetMessage() << std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/SendMessage)di *Referensi AWS SDK untuk C\$1\$1 API*. 

### `SetQueueAttributes`
<a name="sqs_SetQueueAttributes_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetQueueAttributes`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sqs#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Set the value for an attribute in an Amazon Simple Queue Service (Amazon SQS) queue.
/*!
  \param queueUrl: An Amazon SQS queue URL.
  \param attributeName: An attribute name enum.
  \param attribute: The attribute value as a string.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::setQueueAttributes(const Aws::String &queueURL,
                                     Aws::SQS::Model::QueueAttributeName attributeName,
                                     const Aws::String &attribute,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::SetQueueAttributesRequest request;
    request.SetQueueUrl(queueURL);
    request.AddAttributes(
            attributeName,
            attribute);

    const Aws::SQS::Model::SetQueueAttributesOutcome outcome = sqsClient.SetQueueAttributes(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully set the attribute  " <<
                  Aws::SQS::Model::QueueAttributeNameMapper::GetNameForQueueAttributeName(
                          attributeName)
                  << " with value " << attribute << " in queue " <<
                  queueURL << "." << std::endl;
    }
    else {
        std::cout << "Error setting attribute for  queue " <<
                  queueURL << ": " << outcome.GetError().GetMessage() <<
                  std::endl;
    }

    return outcome.IsSuccess();
}
```
Konfigurasikan antrian huruf mati.  

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Connect an Amazon Simple Queue Service (Amazon SQS) queue to an associated
//! dead-letter queue.
/*!
  \param srcQueueUrl: An Amazon SQS queue URL.
  \param deadLetterQueueARN: The Amazon Resource Name (ARN) of an Amazon SQS dead-letter queue.
  \param maxReceiveCount: The max receive count of a message before it is sent to the dead-letter queue.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::setDeadLetterQueue(const Aws::String &srcQueueUrl,
                                     const Aws::String &deadLetterQueueARN,
                                     int maxReceiveCount,
                                     const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::String redrivePolicy = MakeRedrivePolicy(deadLetterQueueARN, maxReceiveCount);

    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::SetQueueAttributesRequest request;
    request.SetQueueUrl(srcQueueUrl);
    request.AddAttributes(
            Aws::SQS::Model::QueueAttributeName::RedrivePolicy,
            redrivePolicy);

    const Aws::SQS::Model::SetQueueAttributesOutcome outcome =
            sqsClient.SetQueueAttributes(request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully set dead letter queue for queue  " <<
                  srcQueueUrl << " to " << deadLetterQueueARN << std::endl;
    }
    else {
        std::cerr << "Error setting dead letter queue for queue " <<
                  srcQueueUrl << ": " << outcome.GetError().GetMessage() <<
                  std::endl;
    }

    return outcome.IsSuccess();
}

//! Make a redrive policy for a dead-letter queue.
/*!
  \param queueArn: An Amazon SQS ARN for the dead-letter queue.
  \param maxReceiveCount: The max receive count of a message before it is sent to the dead-letter queue.
  \return Aws::String: Policy as JSON string.
 */
Aws::String MakeRedrivePolicy(const Aws::String &queueArn, int maxReceiveCount) {
    Aws::Utils::Json::JsonValue redrive_arn_entry;
    redrive_arn_entry.AsString(queueArn);

    Aws::Utils::Json::JsonValue max_msg_entry;
    max_msg_entry.AsInteger(maxReceiveCount);

    Aws::Utils::Json::JsonValue policy_map;
    policy_map.WithObject("deadLetterTargetArn", redrive_arn_entry);
    policy_map.WithObject("maxReceiveCount", max_msg_entry);

    return policy_map.View().WriteReadable();
}
```
Konfigurasikan antrian Amazon SQS untuk menggunakan polling panjang.  

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Set the wait time for an Amazon Simple Queue Service (Amazon SQS) queue poll.
/*!
  \param queueUrl: An Amazon SQS queue URL.
  \param pollTimeSeconds: The receive message wait time in seconds.
  \param clientConfiguration: AWS client configuration.
  \return bool: Function succeeded.
 */
bool AwsDoc::SQS::setQueueLongPollingAttribute(const Aws::String &queueURL,
                                               const Aws::String &pollTimeSeconds,
                                               const Aws::Client::ClientConfiguration &clientConfiguration) {
    Aws::SQS::SQSClient sqsClient(clientConfiguration);

    Aws::SQS::Model::SetQueueAttributesRequest request;
    request.SetQueueUrl(queueURL);
    request.AddAttributes(
            Aws::SQS::Model::QueueAttributeName::ReceiveMessageWaitTimeSeconds,
            pollTimeSeconds);

    const Aws::SQS::Model::SetQueueAttributesOutcome outcome = sqsClient.SetQueueAttributes(
            request);
    if (outcome.IsSuccess()) {
        std::cout << "Successfully updated long polling time for queue " <<
                  queueURL << " to " << pollTimeSeconds << std::endl;
    }
    else {
        std::cout << "Error updating long polling time for queue " <<
                  queueURL << ": " << outcome.GetError().GetMessage() <<
                  std::endl;
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [SetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/SetQueueAttributes)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_cpp_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/cross-service/topics_and_queues#code-examples). 

```
        Aws::Client::ClientConfiguration clientConfig;
        // Optional: Set to the AWS Region (overrides config file).
        // clientConfig.region = "us-east-1";

//! Workflow for messaging with topics and queues using Amazon SNS and Amazon SQS.
/*!
 \param clientConfig Aws client configuration.
 \return bool: Successful completion.
 */
bool AwsDoc::TopicsAndQueues::messagingWithTopicsAndQueues(
        const Aws::Client::ClientConfiguration &clientConfiguration) {
    std::cout << "Welcome to messaging with topics and queues." << std::endl;
    printAsterisksLine();
    std::cout << "In this workflow, you will create an SNS topic and subscribe "
              << NUMBER_OF_QUEUES <<
              " SQS queues to the topic." << std::endl;
    std::cout
            << "You can select from several options for configuring the topic and the subscriptions for the "
            << NUMBER_OF_QUEUES << " queues." << std::endl;
    std::cout << "You can then post to the topic and see the results in the queues."
              << std::endl;

    Aws::SNS::SNSClient snsClient(clientConfiguration);

    printAsterisksLine();

    std::cout << "SNS topics can be configured as FIFO (First-In-First-Out)."
              << std::endl;
    std::cout
            << "FIFO topics deliver messages in order and support deduplication and message filtering."
            << std::endl;
    bool isFifoTopic = askYesNoQuestion(
            "Would you like to work with FIFO topics? (y/n) ");

    bool contentBasedDeduplication = false;
    Aws::String topicName;
    if (isFifoTopic) {
        printAsterisksLine();
        std::cout << "Because you have chosen a FIFO topic, deduplication is supported."
                  << std::endl;
        std::cout
                << "Deduplication IDs are either set in the message or automatically generated "
                << "from content using a hash function." << std::endl;
        std::cout
                << "If a message is successfully published to an SNS FIFO topic, any message "
                << "published and determined to have the same deduplication ID, "
                << std::endl;
        std::cout
                << "within the five-minute deduplication interval, is accepted but not delivered."
                << std::endl;
        std::cout
                << "For more information about deduplication, "
                << "see https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html."
                << std::endl;
        contentBasedDeduplication = askYesNoQuestion(
                "Use content-based deduplication instead of entering a deduplication ID? (y/n) ");
    }

    printAsterisksLine();

    Aws::SQS::SQSClient sqsClient(clientConfiguration);
    Aws::Vector<Aws::String> queueURLS;
    Aws::Vector<Aws::String> subscriptionARNS;

    Aws::String topicARN;
    {
        topicName = askQuestion("Enter a name for your SNS topic. ");

        // 1.  Create an Amazon SNS topic, either FIFO or non-FIFO.
        Aws::SNS::Model::CreateTopicRequest request;

        if (isFifoTopic) {
            request.AddAttributes("FifoTopic", "true");
            if (contentBasedDeduplication) {
                request.AddAttributes("ContentBasedDeduplication", "true");
            }
            topicName = topicName + FIFO_SUFFIX;

            std::cout
                    << "Because you have selected a FIFO topic, '.fifo' must be appended to the topic name."
                    << std::endl;
        }

        request.SetName(topicName);

        Aws::SNS::Model::CreateTopicOutcome outcome = snsClient.CreateTopic(request);

        if (outcome.IsSuccess()) {
            topicARN = outcome.GetResult().GetTopicArn();
            std::cout << "Your new topic with the name '" << topicName
                      << "' and the topic Amazon Resource Name (ARN) " << std::endl;
            std::cout << "'" << topicARN << "' has been created." << std::endl;

        }
        else {
            std::cerr << "Error with TopicsAndQueues::CreateTopic. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

            cleanUp(topicARN,
                    queueURLS,
                    subscriptionARNS,
                    snsClient,
                    sqsClient);

            return false;
        }
    }

    printAsterisksLine();

    std::cout << "Now you will create " << NUMBER_OF_QUEUES
              << " SQS queues to subscribe to the topic." << std::endl;
    Aws::Vector<Aws::String> queueNames;
    bool filteringMessages = false;
    bool first = true;
    for (int i = 1; i <= NUMBER_OF_QUEUES; ++i) {
        Aws::String queueURL;
        Aws::String queueName;
        {
            printAsterisksLine();
            std::ostringstream ostringstream;
            ostringstream << "Enter a name for " << (first ? "an" : "the next")
                          << " SQS queue. ";
            queueName = askQuestion(ostringstream.str());

            // 2.  Create an SQS queue.
            Aws::SQS::Model::CreateQueueRequest request;
            if (isFifoTopic) {
                request.AddAttributes(Aws::SQS::Model::QueueAttributeName::FifoQueue,
                                      "true");
                queueName = queueName + FIFO_SUFFIX;

                if (first) // Only explain this once.
                {
                    std::cout
                            << "Because you are creating a FIFO SQS queue, '.fifo' must "
                            << "be appended to the queue name." << std::endl;
                }
            }

            request.SetQueueName(queueName);
            queueNames.push_back(queueName);

            Aws::SQS::Model::CreateQueueOutcome outcome =
                    sqsClient.CreateQueue(request);

            if (outcome.IsSuccess()) {
                queueURL = outcome.GetResult().GetQueueUrl();
                std::cout << "Your new SQS queue with the name '" << queueName
                          << "' and the queue URL " << std::endl;
                std::cout << "'" << queueURL << "' has been created." << std::endl;
            }
            else {
                std::cerr << "Error with SQS::CreateQueue. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }
        queueURLS.push_back(queueURL);

        if (first) // Only explain this once.
        {
            std::cout
                    << "The queue URL is used to retrieve the queue ARN, which is "
                    << "used to create a subscription." << std::endl;
        }

        Aws::String queueARN;
        {
            // 3.  Get the SQS queue ARN attribute.
            Aws::SQS::Model::GetQueueAttributesRequest request;
            request.SetQueueUrl(queueURL);
            request.AddAttributeNames(Aws::SQS::Model::QueueAttributeName::QueueArn);

            Aws::SQS::Model::GetQueueAttributesOutcome outcome =
                    sqsClient.GetQueueAttributes(request);

            if (outcome.IsSuccess()) {
                const Aws::Map<Aws::SQS::Model::QueueAttributeName, Aws::String> &attributes =
                        outcome.GetResult().GetAttributes();
                const auto &iter = attributes.find(
                        Aws::SQS::Model::QueueAttributeName::QueueArn);
                if (iter != attributes.end()) {
                    queueARN = iter->second;
                    std::cout << "The queue ARN '" << queueARN
                              << "' has been retrieved."
                              << std::endl;
                }
                else {
                    std::cerr
                            << "Error ARN attribute not returned by GetQueueAttribute."
                            << std::endl;

                    cleanUp(topicARN,
                            queueURLS,
                            subscriptionARNS,
                            snsClient,
                            sqsClient);

                    return false;
                }
            }
            else {
                std::cerr << "Error with SQS::GetQueueAttributes. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }

        if (first) {
            std::cout
                    << "An IAM policy must be attached to an SQS queue, enabling it to receive "
                       "messages from an SNS topic." << std::endl;
        }

        {
            // 4.  Set the SQS queue policy attribute with a policy enabling the receipt of SNS messages.
            Aws::SQS::Model::SetQueueAttributesRequest request;
            request.SetQueueUrl(queueURL);
            Aws::String policy = createPolicyForQueue(queueARN, topicARN);
            request.AddAttributes(Aws::SQS::Model::QueueAttributeName::Policy,
                                  policy);

            Aws::SQS::Model::SetQueueAttributesOutcome outcome =
                    sqsClient.SetQueueAttributes(request);

            if (outcome.IsSuccess()) {
                std::cout << "The attributes for the queue '" << queueName
                          << "' were successfully updated." << std::endl;
            }
            else {
                std::cerr << "Error with SQS::SetQueueAttributes. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }

        printAsterisksLine();

        {
            // 5.  Subscribe the SQS queue to the SNS topic.
            Aws::SNS::Model::SubscribeRequest request;
            request.SetTopicArn(topicARN);
            request.SetProtocol("sqs");
            request.SetEndpoint(queueARN);
            if (isFifoTopic) {
                if (first) {
                    std::cout << "Subscriptions to a FIFO topic can have filters."
                              << std::endl;
                    std::cout
                            << "If you add a filter to this subscription, then only the filtered messages "
                            << "will be received in the queue." << std::endl;
                    std::cout << "For information about message filtering, "
                              << "see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html"
                              << std::endl;
                    std::cout << "For this example, you can filter messages by a \""
                              << TONE_ATTRIBUTE << "\" attribute." << std::endl;
                }

                std::ostringstream ostringstream;
                ostringstream << "Filter messages for \"" << queueName
                              << "\"'s subscription to the topic \""
                              << topicName << "\"?  (y/n)";

                // Add filter if user answers yes.
                if (askYesNoQuestion(ostringstream.str())) {
                    Aws::String jsonPolicy = getFilterPolicyFromUser();
                    if (!jsonPolicy.empty()) {
                        filteringMessages = true;

                        std::cout << "This is the filter policy for this subscription."
                                  << std::endl;
                        std::cout << jsonPolicy << std::endl;

                        request.AddAttributes("FilterPolicy", jsonPolicy);
                    }
                    else {
                        std::cout
                                << "Because you did not select any attributes, no filter "
                                << "will be added to this subscription." << std::endl;
                    }
                }
            }  // if (isFifoTopic)
            Aws::SNS::Model::SubscribeOutcome outcome = snsClient.Subscribe(request);

            if (outcome.IsSuccess()) {
                Aws::String subscriptionARN = outcome.GetResult().GetSubscriptionArn();
                std::cout << "The queue '" << queueName
                          << "' has been subscribed to the topic '"
                          << "'" << topicName << "'" << std::endl;
                std::cout << "with the subscription ARN '" << subscriptionARN << "."
                          << std::endl;
                subscriptionARNS.push_back(subscriptionARN);
            }
            else {
                std::cerr << "Error with TopicsAndQueues::Subscribe. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }

        first = false;
    }

    first = true;
    do {
        printAsterisksLine();

        // 6.  Publish a message to the SNS topic.
        Aws::SNS::Model::PublishRequest request;
        request.SetTopicArn(topicARN);
        Aws::String message = askQuestion("Enter a message text to publish.  ");
        request.SetMessage(message);
        if (isFifoTopic) {
            if (first) {
                std::cout
                        << "Because you are using a FIFO topic, you must set a message group ID."
                        << std::endl;
                std::cout
                        << "All messages within the same group will be received in the "
                        << "order they were published." << std::endl;
            }
            Aws::String messageGroupID = askQuestion(
                    "Enter a message group ID for this message. ");
            request.SetMessageGroupId(messageGroupID);
            if (!contentBasedDeduplication) {
                if (first) {
                    std::cout
                            << "Because you are not using content-based deduplication, "
                            << "you must enter a deduplication ID." << std::endl;
                }
                Aws::String deduplicationID = askQuestion(
                        "Enter a deduplication ID for this message. ");
                request.SetMessageDeduplicationId(deduplicationID);
            }
        }

        if (filteringMessages && askYesNoQuestion(
                "Add an attribute to this message? (y/n) ")) {
            for (size_t i = 0; i < TONES.size(); ++i) {
                std::cout << "  " << (i + 1) << ". " << TONES[i] << std::endl;
            }
            int selection = askQuestionForIntRange(
                    "Enter a number for an attribute. ",
                    1, static_cast<int>(TONES.size()));
            Aws::SNS::Model::MessageAttributeValue messageAttributeValue;
            messageAttributeValue.SetDataType("String");
            messageAttributeValue.SetStringValue(TONES[selection - 1]);
            request.AddMessageAttributes(TONE_ATTRIBUTE, messageAttributeValue);
        }

        Aws::SNS::Model::PublishOutcome outcome = snsClient.Publish(request);

        if (outcome.IsSuccess()) {
            std::cout << "Your message was successfully published." << std::endl;
        }
        else {
            std::cerr << "Error with TopicsAndQueues::Publish. "
                      << outcome.GetError().GetMessage()
                      << std::endl;

            cleanUp(topicARN,
                    queueURLS,
                    subscriptionARNS,
                    snsClient,
                    sqsClient);

            return false;
        }

        first = false;
    } while (askYesNoQuestion("Post another message? (y/n) "));

    printAsterisksLine();

    std::cout << "Now the SQS queue will be polled to retrieve the messages."
              << std::endl;
    askQuestion("Press any key to continue...", alwaysTrueTest);

    for (size_t i = 0; i < queueURLS.size(); ++i) {
        // 7.  Poll an SQS queue for its messages.
        std::vector<Aws::String> messages;
        std::vector<Aws::String> receiptHandles;
        while (true) {
            Aws::SQS::Model::ReceiveMessageRequest request;
            request.SetMaxNumberOfMessages(10);
            request.SetQueueUrl(queueURLS[i]);

            // Setting WaitTimeSeconds to non-zero enables long polling.
            // For information about long polling, see
            // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-short-and-long-polling.html
            request.SetWaitTimeSeconds(1);
            Aws::SQS::Model::ReceiveMessageOutcome outcome =
                    sqsClient.ReceiveMessage(request);

            if (outcome.IsSuccess()) {
                const Aws::Vector<Aws::SQS::Model::Message> &newMessages = outcome.GetResult().GetMessages();
                if (newMessages.empty()) {
                    break;
                }
                else {
                    for (const Aws::SQS::Model::Message &message: newMessages) {
                        messages.push_back(message.GetBody());
                        receiptHandles.push_back(message.GetReceiptHandle());
                    }
                }
            }
            else {
                std::cerr << "Error with SQS::ReceiveMessage. "
                          << outcome.GetError().GetMessage()
                          << std::endl;

                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }

        printAsterisksLine();

        if (messages.empty()) {
            std::cout << "No messages were ";
        }
        else if (messages.size() == 1) {
            std::cout << "One message was ";
        }
        else {
            std::cout << messages.size() << " messages were ";
        }
        std::cout << "received by the queue '" << queueNames[i]
                  << "'." << std::endl;
        for (const Aws::String &message: messages) {
            std::cout << "  Message : '" << message << "'."
                      << std::endl;
        }

        // 8.  Delete a batch of messages from an SQS queue.
        if (!receiptHandles.empty()) {
            Aws::SQS::Model::DeleteMessageBatchRequest request;
            request.SetQueueUrl(queueURLS[i]);
            int id = 1; // Ids must be unique within a batch delete request.
            for (const Aws::String &receiptHandle: receiptHandles) {
                Aws::SQS::Model::DeleteMessageBatchRequestEntry entry;
                entry.SetId(std::to_string(id));
                ++id;
                entry.SetReceiptHandle(receiptHandle);
                request.AddEntries(entry);
            }

            Aws::SQS::Model::DeleteMessageBatchOutcome outcome =
                    sqsClient.DeleteMessageBatch(request);

            if (outcome.IsSuccess()) {
                std::cout << "The batch deletion of messages was successful."
                          << std::endl;
            }
            else {
                std::cerr << "Error with SQS::DeleteMessageBatch. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                cleanUp(topicARN,
                        queueURLS,
                        subscriptionARNS,
                        snsClient,
                        sqsClient);

                return false;
            }
        }
    }

    return cleanUp(topicARN,
                   queueURLS,
                   subscriptionARNS,
                   snsClient,
                   sqsClient,
                   true); // askUser
}


bool AwsDoc::TopicsAndQueues::cleanUp(const Aws::String &topicARN,
                                      const Aws::Vector<Aws::String> &queueURLS,
                                      const Aws::Vector<Aws::String> &subscriptionARNS,
                                      const Aws::SNS::SNSClient &snsClient,
                                      const Aws::SQS::SQSClient &sqsClient,
                                      bool askUser) {
    bool result = true;
    printAsterisksLine();
    if (!queueURLS.empty() && askUser &&
        askYesNoQuestion("Delete the SQS queues? (y/n) ")) {

        for (const auto &queueURL: queueURLS) {
            // 9.  Delete an SQS queue.
            Aws::SQS::Model::DeleteQueueRequest request;
            request.SetQueueUrl(queueURL);

            Aws::SQS::Model::DeleteQueueOutcome outcome =
                    sqsClient.DeleteQueue(request);

            if (outcome.IsSuccess()) {
                std::cout << "The queue with URL '" << queueURL
                          << "' was successfully deleted." << std::endl;
            }
            else {
                std::cerr << "Error with SQS::DeleteQueue. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }

        for (const auto &subscriptionARN: subscriptionARNS) {
            // 10. Unsubscribe an SNS subscription.
            Aws::SNS::Model::UnsubscribeRequest request;
            request.SetSubscriptionArn(subscriptionARN);

            Aws::SNS::Model::UnsubscribeOutcome outcome =
                    snsClient.Unsubscribe(request);

            if (outcome.IsSuccess()) {
                std::cout << "Unsubscribe of subscription ARN '" << subscriptionARN
                          << "' was successful." << std::endl;
            }
            else {
                std::cerr << "Error with TopicsAndQueues::Unsubscribe. "
                          << outcome.GetError().GetMessage()
                          << std::endl;
                result = false;
            }
        }
    }

    printAsterisksLine();
    if (!topicARN.empty() && askUser &&
        askYesNoQuestion("Delete the SNS topic? (y/n) ")) {

        // 11. Delete an SNS topic.
        Aws::SNS::Model::DeleteTopicRequest request;
        request.SetTopicArn(topicARN);

        Aws::SNS::Model::DeleteTopicOutcome outcome = snsClient.DeleteTopic(request);

        if (outcome.IsSuccess()) {
            std::cout << "The topic with ARN '" << topicARN
                      << "' was successfully deleted." << std::endl;
        }
        else {
            std::cerr << "Error with TopicsAndQueues::DeleteTopicRequest. "
                      << outcome.GetError().GetMessage()
                      << std::endl;
            result = false;
        }
    }

    return result;
}

//! Create an IAM policy that gives an SQS queue permission to receive messages from an SNS topic.
/*!
 \sa createPolicyForQueue()
 \param queueARN: The SQS queue Amazon Resource Name (ARN).
 \param topicARN: The SNS topic ARN.
 \return Aws::String: The policy as JSON.
 */
Aws::String AwsDoc::TopicsAndQueues::createPolicyForQueue(const Aws::String &queueARN,
                                                          const Aws::String &topicARN) {
    std::ostringstream policyStream;
    policyStream << R"({
        "Statement": [
        {
            "Effect": "Allow",
                    "Principal": {
                "Service": "sns.amazonaws.com"
            },
            "Action": "sqs:SendMessage",
                    "Resource": ")" << queueARN << R"(",
                    "Condition": {
                "ArnEquals": {
                    "aws:SourceArn": ")" << topicARN << R"("
                }
            }
        }
        ]
    })";

    return policyStream.str();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk C\$1\$1 *.
  + [CreateQueue](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/CreateQueue)
  + [CreateTopic](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/CreateTopic)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/DeleteQueue)
  + [DeleteTopic](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/DeleteTopic)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/GetQueueAttributes)
  + [Publikasikan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Publish)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/ReceiveMessage)
  + [SetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForCpp/sqs-2012-11-05/SetQueueAttributes)
  + [Berlangganan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Subscribe)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/goto/SdkForCpp/sns-2010-03-31/Unsubscribe)

# AWS STS contoh menggunakan SDK for C\$1\$1
<a name="cpp_1_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk C\$1\$1 with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/sts#code-examples). 

```
bool AwsDoc::STS::assumeRole(const Aws::String &roleArn,
                             const Aws::String &roleSessionName,
                             const Aws::String &externalId,
                             Aws::Auth::AWSCredentials &credentials,
                             const Aws::Client::ClientConfiguration &clientConfig) {
    Aws::STS::STSClient sts(clientConfig);
    Aws::STS::Model::AssumeRoleRequest sts_req;

    sts_req.SetRoleArn(roleArn);
    sts_req.SetRoleSessionName(roleSessionName);
    sts_req.SetExternalId(externalId);

    const Aws::STS::Model::AssumeRoleOutcome outcome = sts.AssumeRole(sts_req);

    if (!outcome.IsSuccess()) {
        std::cerr << "Error assuming IAM role. " <<
                  outcome.GetError().GetMessage() << std::endl;
    }
    else {
        std::cout << "Credentials successfully retrieved." << std::endl;
        const Aws::STS::Model::AssumeRoleResult result = outcome.GetResult();
        const Aws::STS::Model::Credentials &temp_credentials = result.GetCredentials();

        // Store temporary credentials in return argument.
        // Note: The credentials object returned by assumeRole differs
        // from the AWSCredentials object used in most situations.
        credentials.SetAWSAccessKeyId(temp_credentials.GetAccessKeyId());
        credentials.SetAWSSecretKey(temp_credentials.GetSecretAccessKey());
        credentials.SetSessionToken(temp_credentials.GetSessionToken());
    }

    return outcome.IsSuccess();
}
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/SdkForCpp/sts-2011-06-15/AssumeRole)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# Contoh Streaming Amazon Transcribe menggunakan SDK for C\$1\$1
<a name="cpp_1_transcribe-streaming_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan streaming AWS SDK untuk C\$1\$1 with Amazon Transcribe.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `StartStreamTranscription`
<a name="transcribe-streaming_StartStreamTranscription_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartStreamTranscription`.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/transcribe-streaming#code-examples). 

```
int main() {
    Aws::SDKOptions options;

    Aws::InitAPI(options);
    {
        //TODO(User): Set to the region of your AWS account.
        const Aws::String region = Aws::Region::US_WEST_2;

        //Load a profile that has been granted AmazonTranscribeFullAccess AWS managed permission policy.
        Aws::Client::ClientConfiguration config;
#ifdef _WIN32
        // ATTENTION: On Windows with the AWS C++ SDK, this example only runs if the SDK is built
        // with the curl library. 
        // For more information, see the accompanying ReadMe.
        // For more information, see "Building the SDK for Windows with curl".
        // https://docs.aws.amazon.com/sdk-for-cpp/v1/developer-guide/setup-windows.html
        //TODO(User): Update to the location of your .crt file.
        config.caFile = "C:/curl/bin/curl-ca-bundle.crt";
#endif
        config.region = region;

        TranscribeStreamingServiceClient client(config);
        StartStreamTranscriptionHandler handler;
        handler.SetOnErrorCallback(
                [](const Aws::Client::AWSError<TranscribeStreamingServiceErrors> &error) {
                        std::cerr << "ERROR: " + error.GetMessage() << std::endl;
                });
        //SetTranscriptEventCallback called for every 'chunk' of file transcripted.
        // Partial results are returned in real time.
        handler.SetTranscriptEventCallback([](const TranscriptEvent &ev) {
                for (auto &&r: ev.GetTranscript().GetResults()) {
                    if (r.GetIsPartial()) {
                        std::cout << "[partial] ";
                    }
                    else {
                        std::cout << "[Final] ";
                    }
                    for (auto &&alt: r.GetAlternatives()) {
                        std::cout << alt.GetTranscript() << std::endl;
                    }
                }
        });

        StartStreamTranscriptionRequest request;
        request.SetMediaSampleRateHertz(SAMPLE_RATE);
        request.SetLanguageCode(LanguageCode::en_US);
        request.SetMediaEncoding(
                MediaEncoding::pcm); // wav and aiff files are PCM formats.
        request.SetEventStreamHandler(handler);

        auto OnStreamReady = [](AudioStream &stream) {
                Aws::FStream file(FILE_NAME, std::ios_base::in | std::ios_base::binary);
                if (!file.is_open()) {
                    std::cerr << "Failed to open " << FILE_NAME << '\n';
                }
                std::array<char, BUFFER_SIZE> buf;
                int i = 0;
                while (file) {
                    file.read(&buf[0], buf.size());

                    if (!file)
                        std::cout << "File: only " << file.gcount() << " could be read"
                                  << std::endl;

                    Aws::Vector<unsigned char> bits{buf.begin(), buf.end()};
                    AudioEvent event(std::move(bits));
                    if (!stream) {
                        std::cerr << "Failed to create a stream" << std::endl;
                        break;
                    }
                    //The std::basic_istream::gcount() is used to count the characters in the given string. It returns
                    //the number of characters extracted by the last read() operation.
                    if (file.gcount() > 0) {
                        if (!stream.WriteAudioEvent(event)) {
                            std::cerr << "Failed to write an audio event" << std::endl;
                            break;
                        }
                    }
                    else {
                        break;
                    }
                    std::this_thread::sleep_for(std::chrono::milliseconds(
                            25)); // Slow down because we are streaming from a file.
                }
                if (!stream.WriteAudioEvent(
                        AudioEvent())) {
                    // Per the spec, we have to send an empty event (an event without a payload) at the end.
                    std::cerr << "Failed to send an empty frame" << std::endl;
                }
                else {
                    std::cout << "Successfully sent the empty frame" << std::endl;
                }
                stream.flush();
                stream.Close();
        };

        Aws::Utils::Threading::Semaphore signaling(0 /*initialCount*/, 1 /*maxCount*/);
        auto OnResponseCallback = [&signaling](
                const TranscribeStreamingServiceClient * /*unused*/,
                const Model::StartStreamTranscriptionRequest & /*unused*/,
                const Model::StartStreamTranscriptionOutcome &outcome,
                const std::shared_ptr<const Aws::Client::AsyncCallerContext> & /*unused*/) {

                if (!outcome.IsSuccess()) {
                    std::cerr << "Transcribe streaming error "
                              << outcome.GetError().GetMessage() << std::endl;
                }

                signaling.Release();
        };

        std::cout << "Starting..." << std::endl;
        client.StartStreamTranscriptionAsync(request, OnStreamReady, OnResponseCallback,
                                             nullptr /*context*/);
        signaling.WaitOne(); // Prevent the application from exiting until we're done.
        std::cout << "Done" << std::endl;
    }

    Aws::ShutdownAPI(options);

    return 0;
}
```
+  Untuk detail API, lihat [StartStreamTranscription](https://docs.aws.amazon.com/goto/SdkForCpp/transcribe-streaming-2017-10-26/StartStreamTranscription)di *Referensi AWS SDK untuk C\$1\$1 API*. 

## Skenario
<a name="scenarios"></a>

### Transkripsikan file audio
<a name="transcribe-streaming_Scenario_StreamEvents_File_cpp_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat transkripsi file audio sumber menggunakan streaming Amazon Transcribe.

**SDK untuk C\$1\$1**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/transcribe-streaming#code-examples). 

```
int main() {
    Aws::SDKOptions options;

    Aws::InitAPI(options);
    {
        //TODO(User): Set to the region of your AWS account.
        const Aws::String region = Aws::Region::US_WEST_2;

        //Load a profile that has been granted AmazonTranscribeFullAccess AWS managed permission policy.
        Aws::Client::ClientConfiguration config;
#ifdef _WIN32
        // ATTENTION: On Windows with the AWS C++ SDK, this example only runs if the SDK is built
        // with the curl library. 
        // For more information, see the accompanying ReadMe.
        // For more information, see "Building the SDK for Windows with curl".
        // https://docs.aws.amazon.com/sdk-for-cpp/v1/developer-guide/setup-windows.html
        //TODO(User): Update to the location of your .crt file.
        config.caFile = "C:/curl/bin/curl-ca-bundle.crt";
#endif
        config.region = region;

        TranscribeStreamingServiceClient client(config);
        StartStreamTranscriptionHandler handler;
        handler.SetOnErrorCallback(
                [](const Aws::Client::AWSError<TranscribeStreamingServiceErrors> &error) {
                        std::cerr << "ERROR: " + error.GetMessage() << std::endl;
                });
        //SetTranscriptEventCallback called for every 'chunk' of file transcripted.
        // Partial results are returned in real time.
        handler.SetTranscriptEventCallback([](const TranscriptEvent &ev) {
                for (auto &&r: ev.GetTranscript().GetResults()) {
                    if (r.GetIsPartial()) {
                        std::cout << "[partial] ";
                    }
                    else {
                        std::cout << "[Final] ";
                    }
                    for (auto &&alt: r.GetAlternatives()) {
                        std::cout << alt.GetTranscript() << std::endl;
                    }
                }
        });

        StartStreamTranscriptionRequest request;
        request.SetMediaSampleRateHertz(SAMPLE_RATE);
        request.SetLanguageCode(LanguageCode::en_US);
        request.SetMediaEncoding(
                MediaEncoding::pcm); // wav and aiff files are PCM formats.
        request.SetEventStreamHandler(handler);

        auto OnStreamReady = [](AudioStream &stream) {
                Aws::FStream file(FILE_NAME, std::ios_base::in | std::ios_base::binary);
                if (!file.is_open()) {
                    std::cerr << "Failed to open " << FILE_NAME << '\n';
                }
                std::array<char, BUFFER_SIZE> buf;
                int i = 0;
                while (file) {
                    file.read(&buf[0], buf.size());

                    if (!file)
                        std::cout << "File: only " << file.gcount() << " could be read"
                                  << std::endl;

                    Aws::Vector<unsigned char> bits{buf.begin(), buf.end()};
                    AudioEvent event(std::move(bits));
                    if (!stream) {
                        std::cerr << "Failed to create a stream" << std::endl;
                        break;
                    }
                    //The std::basic_istream::gcount() is used to count the characters in the given string. It returns
                    //the number of characters extracted by the last read() operation.
                    if (file.gcount() > 0) {
                        if (!stream.WriteAudioEvent(event)) {
                            std::cerr << "Failed to write an audio event" << std::endl;
                            break;
                        }
                    }
                    else {
                        break;
                    }
                    std::this_thread::sleep_for(std::chrono::milliseconds(
                            25)); // Slow down because we are streaming from a file.
                }
                if (!stream.WriteAudioEvent(
                        AudioEvent())) {
                    // Per the spec, we have to send an empty event (an event without a payload) at the end.
                    std::cerr << "Failed to send an empty frame" << std::endl;
                }
                else {
                    std::cout << "Successfully sent the empty frame" << std::endl;
                }
                stream.flush();
                stream.Close();
        };

        Aws::Utils::Threading::Semaphore signaling(0 /*initialCount*/, 1 /*maxCount*/);
        auto OnResponseCallback = [&signaling](
                const TranscribeStreamingServiceClient * /*unused*/,
                const Model::StartStreamTranscriptionRequest & /*unused*/,
                const Model::StartStreamTranscriptionOutcome &outcome,
                const std::shared_ptr<const Aws::Client::AsyncCallerContext> & /*unused*/) {

                if (!outcome.IsSuccess()) {
                    std::cerr << "Transcribe streaming error "
                              << outcome.GetError().GetMessage() << std::endl;
                }

                signaling.Release();
        };

        std::cout << "Starting..." << std::endl;
        client.StartStreamTranscriptionAsync(request, OnStreamReady, OnResponseCallback,
                                             nullptr /*context*/);
        signaling.WaitOne(); // Prevent the application from exiting until we're done.
        std::cout << "Done" << std::endl;
    }

    Aws::ShutdownAPI(options);

    return 0;
}
```
+  Untuk detail API, lihat [StartStreamTranscription](https://docs.aws.amazon.com/goto/SdkForCpp/transcribe-streaming-2017-10-26/StartStreamTranscription)di *Referensi AWS SDK untuk C\$1\$1 API*. 

# Contoh kode untuk AWS CLI
<a name="cli_2_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS Command Line Interface with AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[AWS CLI Panduan Pengembang](https://docs.aws.amazon.com/cli/latest/userguide/cli-chap-welcome.html)** - Lebih lanjut tentang menggunakan CLI dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [ACM](cli_2_acm_code_examples.md)
+ [API Gateway](cli_2_api-gateway_code_examples.md)
+ [API Gateway HTTP dan WebSocket API](cli_2_apigatewayv2_code_examples.md)
+ [API Manajemen API Gateway](cli_2_apigatewaymanagementapi_code_examples.md)
+ [App Mesh](cli_2_app-mesh_code_examples.md)
+ [App Runner](cli_2_apprunner_code_examples.md)
+ [AWS AppConfig](cli_2_appconfig_code_examples.md)
+ [Penskalaan Otomatis Aplikasi](cli_2_application-auto-scaling_code_examples.md)
+ [Application Discovery Service](cli_2_application-discovery-service_code_examples.md)
+ [Sinyal Aplikasi](cli_2_application-signals_code_examples.md)
+ [AppRegistry](cli_2_service-catalog-appregistry_code_examples.md)
+ [Athena](cli_2_athena_code_examples.md)
+ [Auto Scaling](cli_2_auto-scaling_code_examples.md)
+ [Paket Auto Scaling](cli_2_auto-scaling-plans_code_examples.md)
+ [AWS Backup](cli_2_backup_code_examples.md)
+ [AWS Batch](cli_2_batch_code_examples.md)
+ [AWS Budgets](cli_2_budgets_code_examples.md)
+ [Amazon Chime](cli_2_chime_code_examples.md)
+ [API Kontrol Awan](cli_2_cloudcontrol_code_examples.md)
+ [AWS Cloud Map](cli_2_servicediscovery_code_examples.md)
+ [AWS Cloud9](cli_2_cloud9_code_examples.md)
+ [CloudFormation](cli_2_cloudformation_code_examples.md)
+ [CloudFront](cli_2_cloudfront_code_examples.md)
+ [Amazon CloudSearch](cli_2_cloudsearch-domain_code_examples.md)
+ [CloudTrail](cli_2_cloudtrail_code_examples.md)
+ [CloudWatch](cli_2_cloudwatch_code_examples.md)
+ [CloudWatch Log](cli_2_cloudwatch-logs_code_examples.md)
+ [CloudWatch Pemantauan Jaringan](cli_2_networkmonitor_code_examples.md)
+ [CloudWatch Monitor Akses Observabilitas](cli_2_oam_code_examples.md)
+ [CloudWatch Admin Observabilitas](cli_2_observabilityadmin_code_examples.md)
+ [CloudWatch Synthetics](cli_2_synthetics_code_examples.md)
+ [CodeArtifact](cli_2_codeartifact_code_examples.md)
+ [CodeBuild](cli_2_codebuild_code_examples.md)
+ [CodeCommit](cli_2_codecommit_code_examples.md)
+ [CodeDeploy](cli_2_codedeploy_code_examples.md)
+ [CodeGuru Pengulas](cli_2_codeguru-reviewer_code_examples.md)
+ [CodePipeline](cli_2_codepipeline_code_examples.md)
+ [AWS CodeStar Pemberitahuan](cli_2_codestar-notifications_code_examples.md)
+ [CodeConnections](cli_2_codestar-connections_code_examples.md)
+ [Identitas Amazon Cognito](cli_2_cognito-identity_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](cli_2_cognito-identity-provider_code_examples.md)
+ [Amazon Comprehend](cli_2_comprehend_code_examples.md)
+ [Amazon Comprehend Medical](cli_2_comprehendmedical_code_examples.md)
+ [AWS Config](cli_2_config-service_code_examples.md)
+ [Amazon Connect](cli_2_connect_code_examples.md)
+ [AWS Cost and Usage Report](cli_2_cost-and-usage-report-service_code_examples.md)
+ [Layanan Cost Explorer](cli_2_cost-explorer_code_examples.md)
+ [Firehose](cli_2_firehose_code_examples.md)
+ [Amazon Data Lifecycle Manager](cli_2_dlm_code_examples.md)
+ [AWS Data Pipeline](cli_2_data-pipeline_code_examples.md)
+ [DataSync](cli_2_datasync_code_examples.md)
+ [DAX](cli_2_dax_code_examples.md)
+ [Detective](cli_2_detective_code_examples.md)
+ [Device Farm](cli_2_device-farm_code_examples.md)
+ [Direct Connect](cli_2_direct-connect_code_examples.md)
+ [Directory Service](cli_2_directory-service_code_examples.md)
+ [Directory Service Data](cli_2_directory-service-data_code_examples.md)
+ [AWS DMS](cli_2_database-migration-service_code_examples.md)
+ [Amazon DocumentDB](cli_2_docdb_code_examples.md)
+ [DynamoDB](cli_2_dynamodb_code_examples.md)
+ [DynamoDB Streams](cli_2_dynamodb-streams_code_examples.md)
+ [Amazon EC2](cli_2_ec2_code_examples.md)
+ [Connect Instans Amazon EC2](cli_2_ec2-instance-connect_code_examples.md)
+ [Amazon ECR](cli_2_ecr_code_examples.md)
+ [Amazon ECR Public](cli_2_ecr-public_code_examples.md)
+ [Amazon ECS](cli_2_ecs_code_examples.md)
+ [Amazon EFS](cli_2_efs_code_examples.md)
+ [Amazon EKS](cli_2_eks_code_examples.md)
+ [Elastic Beanstalk](cli_2_elastic-beanstalk_code_examples.md)
+ [Elastic Load Balancing - Versi 1](cli_2_elastic-load-balancing_code_examples.md)
+ [Elastic Load Balancing - Versi 2](cli_2_elastic-load-balancing-v2_code_examples.md)
+ [ElastiCache](cli_2_elasticache_code_examples.md)
+ [MediaStore](cli_2_mediastore_code_examples.md)
+ [Amazon EMR](cli_2_emr_code_examples.md)
+ [Amazon EMR di EKS](cli_2_emr-containers_code_examples.md)
+ [EventBridge](cli_2_eventbridge_code_examples.md)
+ [EventBridge Pipa](cli_2_pipes_code_examples.md)
+ [Firewall Manager](cli_2_fms_code_examples.md)
+ [AWS FIS](cli_2_fis_code_examples.md)
+ [GameLift Server Amazon](cli_2_gamelift_code_examples.md)
+ [Amazon Glacier](cli_2_glacier_code_examples.md)
+ [Global Accelerator](cli_2_global-accelerator_code_examples.md)
+ [AWS Glue](cli_2_glue_code_examples.md)
+ [GuardDuty](cli_2_guardduty_code_examples.md)
+ [AWS Health](cli_2_health_code_examples.md)
+ [HealthImaging](cli_2_medical-imaging_code_examples.md)
+ [HealthLake](cli_2_healthlake_code_examples.md)
+ [HealthOmics](cli_2_omics_code_examples.md)
+ [IAM](cli_2_iam_code_examples.md)
+ [Penganalisis Akses IAM](cli_2_accessanalyzer_code_examples.md)
+ [Image Builder](cli_2_imagebuilder_code_examples.md)
+ [Manajer Insiden](cli_2_ssm-incidents_code_examples.md)
+ [Kontak Incident Manager](cli_2_ssm-contacts_code_examples.md)
+ [Amazon Inspector](cli_2_inspector2_code_examples.md)
+ [AWS IoT](cli_2_iot_code_examples.md)
+ [Penasihat Perangkat](cli_2_iotdeviceadvisor_code_examples.md)
+ [AWS IoT data](cli_2_iot-data-plane_code_examples.md)
+ [AWS IoT Events](cli_2_iot-events_code_examples.md)
+ [AWS IoT Events-Data](cli_2_iot-events-data_code_examples.md)
+ [AWS IoT Greengrass](cli_2_greengrass_code_examples.md)
+ [AWS IoT Greengrass V2](cli_2_greengrassv2_code_examples.md)
+ [Rilis AWS IoT Jobs SDK](cli_2_iot-jobs-data-plane_code_examples.md)
+ [AWS IoT SiteWise](cli_2_iotsitewise_code_examples.md)
+ [AWS IoT Things Graph](cli_2_iotthingsgraph_code_examples.md)
+ [AWS IoT Wireless](cli_2_iot-wireless_code_examples.md)
+ [Amazon IVS](cli_2_ivs_code_examples.md)
+ [Obrolan Amazon IVS](cli_2_ivschat_code_examples.md)
+ [Streaming Waktu Nyata Amazon IVS](cli_2_ivs-realtime_code_examples.md)
+ [Amazon Kendra](cli_2_kendra_code_examples.md)
+ [Kinesis](cli_2_kinesis_code_examples.md)
+ [AWS KMS](cli_2_kms_code_examples.md)
+ [Lake Formation](cli_2_lakeformation_code_examples.md)
+ [Lambda](cli_2_lambda_code_examples.md)
+ [License Manager](cli_2_license-manager_code_examples.md)
+ [Lightsail](cli_2_lightsail_code_examples.md)
+ [Macie](cli_2_macie2_code_examples.md)
+ [Amazon Managed Grafana](cli_2_grafana_code_examples.md)
+ [MediaConnect](cli_2_mediaconnect_code_examples.md)
+ [MediaConvert](cli_2_mediaconvert_code_examples.md)
+ [MediaLive](cli_2_medialive_code_examples.md)
+ [MediaPackage](cli_2_mediapackage_code_examples.md)
+ [MediaPackage VOD](cli_2_mediapackage-vod_code_examples.md)
+ [MediaStore Pesawat Data](cli_2_mediastore-data_code_examples.md)
+ [MediaTailor](cli_2_mediatailor_code_examples.md)
+ [MemoryDB](cli_2_memorydb_code_examples.md)
+ [Amazon MSK](cli_2_kafka_code_examples.md)
+ [Monitor Aliran Jaringan](cli_2_networkflowmonitor_code_examples.md)
+ [Network Manager](cli_2_networkmanager_code_examples.md)
+ [OpenSearch Layanan](cli_2_elasticsearch-service_code_examples.md)
+ [Organizations](cli_2_organizations_code_examples.md)
+ [AWS Outposts](cli_2_outposts_code_examples.md)
+ [AWS Payment Cryptography](cli_2_payment-cryptography_code_examples.md)
+ [AWS Payment Cryptography Pesawat Data](cli_2_payment-cryptography-data_code_examples.md)
+ [Amazon Pinpoint](cli_2_pinpoint_code_examples.md)
+ [Amazon Polly](cli_2_polly_code_examples.md)
+ [Daftar Harga AWS](cli_2_pricing_code_examples.md)
+ [AWS Private CA](cli_2_acm-pca_code_examples.md)
+ [AWS Proton](cli_2_proton_code_examples.md)
+ [Amazon RDS](cli_2_rds_code_examples.md)
+ [Layanan Data Amazon RDS](cli_2_rds-data_code_examples.md)
+ [Wawasan Performa Amazon RDS](cli_2_pi_code_examples.md)
+ [Amazon Redshift](cli_2_redshift_code_examples.md)
+ [Amazon Rekognition](cli_2_rekognition_code_examples.md)
+ [AWS RAM](cli_2_ram_code_examples.md)
+ [Penjelajah Sumber Daya](cli_2_resource-explorer-2_code_examples.md)
+ [Resource Groups](cli_2_resource-groups_code_examples.md)
+ [API Penandaan Grup Sumber Daya](cli_2_resource-groups-tagging-api_code_examples.md)
+ [Route 53](cli_2_route-53_code_examples.md)
+ [Pendaftaran domain Route 53](cli_2_route-53-domains_code_examples.md)
+ [Profil Route 53](cli_2_route53profiles_code_examples.md)
+ [Resolver Rute 53](cli_2_route53resolver_code_examples.md)
+ [Amazon S3](cli_2_s3_code_examples.md)
+ [Kontrol Amazon S3](cli_2_s3-control_code_examples.md)
+ [Secrets Manager](cli_2_secrets-manager_code_examples.md)
+ [Security Hub CSPM](cli_2_securityhub_code_examples.md)
+ [Danau Keamanan](cli_2_securitylake_code_examples.md)
+ [AWS Serverless Application Repository](cli_2_serverlessapplicationrepository_code_examples.md)
+ [Service Catalog](cli_2_service-catalog_code_examples.md)
+ [Service Quotas](cli_2_service-quotas_code_examples.md)
+ [Amazon SES](cli_2_ses_code_examples.md)
+ [Shield](cli_2_shield_code_examples.md)
+ [Signer](cli_2_signer_code_examples.md)
+ [Snowball Edge](cli_2_snowball_code_examples.md)
+ [Amazon SNS](cli_2_sns_code_examples.md)
+ [Amazon SQS](cli_2_sqs_code_examples.md)
+ [Storage Gateway](cli_2_storage-gateway_code_examples.md)
+ [AWS STS](cli_2_sts_code_examples.md)
+ [Dukungan](cli_2_support_code_examples.md)
+ [Amazon SWF](cli_2_swf_code_examples.md)
+ [Systems Manager](cli_2_ssm_code_examples.md)
+ [Amazon Textract](cli_2_textract_code_examples.md)
+ [Amazon Transcribe](cli_2_transcribe_code_examples.md)
+ [Amazon Translate](cli_2_translate_code_examples.md)
+ [Trusted Advisor](cli_2_trustedadvisor_code_examples.md)
+ [Izin Terverifikasi](cli_2_verifiedpermissions_code_examples.md)
+ [VPC Lattice](cli_2_vpc-lattice_code_examples.md)
+ [AWS WAF Classic](cli_2_waf_code_examples.md)
+ [AWS WAF Classic Regional](cli_2_waf-regional_code_examples.md)
+ [AWS WAFV2](cli_2_wafv2_code_examples.md)
+ [WorkDocs](cli_2_workdocs_code_examples.md)
+ [Amazon WorkMail](cli_2_workmail_code_examples.md)
+ [Alur WorkMail Pesan Amazon](cli_2_workmailmessageflow_code_examples.md)
+ [WorkSpaces](cli_2_workspaces_code_examples.md)
+ [X-Ray](cli_2_xray_code_examples.md)

# Contoh ACM menggunakan AWS CLI
<a name="cli_2_acm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan ACM AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags-to-certificate`
<a name="acm_AddTagsToCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-certificate`.

**AWS CLI**  
**Untuk menambahkan tag ke Sertifikat ACM yang ada**  
`add-tags-to-certificate`Perintah berikut menambahkan dua tag ke sertifikat yang ditentukan. Gunakan spasi untuk memisahkan beberapa tag:  

```
aws acm add-tags-to-certificate --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012 --tags Key=Admin,Value=Alice Key=Purpose,Value=Website
```
+  Untuk detail API, lihat [AddTagsToCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/add-tags-to-certificate.html)di *Referensi AWS CLI Perintah*. 

### `delete-certificate`
<a name="acm_DeleteCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-certificate`.

**AWS CLI**  
**Untuk menghapus sertifikat ACM dari akun Anda**  
`delete-certificate`Perintah berikut menghapus sertifikat dengan ARN yang ditentukan:  

```
aws acm delete-certificate --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012
```
+  Untuk detail API, lihat [DeleteCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/delete-certificate.html)di *Referensi AWS CLI Perintah*. 

### `describe-certificate`
<a name="acm_DescribeCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-certificate`.

**AWS CLI**  
**Untuk mengambil bidang yang terdapat dalam sertifikat ACM**  
`describe-certificate`Perintah berikut mengambil semua bidang untuk sertifikat dengan ARN yang ditentukan:  

```
aws acm describe-certificate --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012
```
Output yang mirip dengan berikut ini ditampilkan:  

```
{
  "Certificate": {
    "CertificateArn": "arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012",
    "CreatedAt": 1446835267.0,
    "DomainName": "www.example.com",
    "DomainValidationOptions": [
      {
        "DomainName": "www.example.com",
        "ValidationDomain": "www.example.com",
        "ValidationEmails": [
          "hostmaster@example.com",
          "admin@example.com",
          "owner@example.com.whoisprivacyservice.org",
          "tech@example.com.whoisprivacyservice.org",
          "admin@example.com.whoisprivacyservice.org",
          "postmaster@example.com",
          "webmaster@example.com",
          "administrator@example.com"
        ]
      },
      {
        "DomainName": "www.example.net",
        "ValidationDomain": "www.example.net",
        "ValidationEmails": [
          "postmaster@example.net",
          "admin@example.net",
          "owner@example.net.whoisprivacyservice.org",
          "tech@example.net.whoisprivacyservice.org",
          "admin@example.net.whoisprivacyservice.org",
          "hostmaster@example.net",
          "administrator@example.net",
          "webmaster@example.net"
        ]
      }
    ],
    "InUseBy": [],
    "IssuedAt": 1446835815.0,
    "Issuer": "Amazon",
    "KeyAlgorithm": "RSA-2048",
    "NotAfter": 1478433600.0,
    "NotBefore": 1446768000.0,
    "Serial": "0f:ac:b0:a3:8d:ea:65:52:2d:7d:01:3a:39:36:db:d6",
    "SignatureAlgorithm": "SHA256WITHRSA",
    "Status": "ISSUED",
    "Subject": "CN=www.example.com",
    "SubjectAlternativeNames": [
      "www.example.com",
      "www.example.net"
    ]
  }
}
```
+  Untuk detail API, lihat [DescribeCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/describe-certificate.html)di *Referensi AWS CLI Perintah*. 

### `export-certificate`
<a name="acm_ExportCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`export-certificate`.

**AWS CLI**  
**Untuk mengekspor sertifikat pribadi yang dikeluarkan oleh CA pribadi.**  
`export-certificate`Perintah berikut mengekspor sertifikat pribadi, rantai sertifikat, dan kunci pribadi ke layar Anda:  

```
aws acm export-certificate --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012 --passphrase file://path-to-passphrase-file
```
Untuk mengekspor sertifikat, rantai, dan kunci pribadi ke file lokal, gunakan perintah berikut:  

```
aws acm export-certificate --certificate-arn arn:aws:acm:region:sccount:certificate/12345678-1234-1234-1234-123456789012 --passphrase file://path-to-passphrase-file > c:\temp\export.txt
```
+  Untuk detail API, lihat [ExportCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/export-certificate.html)di *Referensi AWS CLI Perintah*. 

### `get-certificate`
<a name="acm_GetCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-certificate`.

**AWS CLI**  
**Untuk mengambil sertifikat ACM**  
`get-certificate`Perintah berikut mengambil sertifikat untuk ARN yang ditentukan dan rantai sertifikat:  

```
aws acm get-certificate --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012
```
Output yang mirip dengan berikut ini ditampilkan:  

```
{
  "Certificate": "-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----",

  "CertificateChain": "-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----",
"-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----",
"-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----"
}
```
+  Untuk detail API, lihat [GetCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/get-certificate.html)di *Referensi AWS CLI Perintah*. 

### `import-certificate`
<a name="acm_ImportCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-certificate`.

**AWS CLI**  
**Untuk mengimpor sertifikat ke ACM.**  
`import-certificate`Perintah berikut mengimpor sertifikat ke ACM. Ganti nama file dengan nama Anda sendiri:  

```
aws acm import-certificate --certificate file://Certificate.pem --certificate-chain file://CertificateChain.pem --private-key file://PrivateKey.pem
```
+  Untuk detail API, lihat [ImportCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/import-certificate.html)di *Referensi AWS CLI Perintah*. 

### `list-certificates`
<a name="acm_ListCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-certificates`.

**AWS CLI**  
**Untuk mencantumkan sertifikat ACM untuk akun AWS **  
`list-certificates`Perintah berikut ARNs mencantumkan sertifikat di akun Anda:  

```
aws acm list-certificates
```
Perintah sebelumnya menghasilkan output yang mirip dengan berikut ini:  

```
{
    "CertificateSummaryList": [
        {
            "CertificateArn": "arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012",
            "DomainName": "www.example.com"
        },
        {
            "CertificateArn": "arn:aws:acm:region:account:certificate/aaaaaaaa-bbbb-cccc-dddd-eeeeeeeeeeee",
            "DomainName": "www.example.net"
        }
    ]
}
```
Anda dapat memutuskan berapa banyak sertifikat yang ingin Anda tampilkan setiap kali Anda menelepon`list-certificates`. Misalnya, jika Anda memiliki empat sertifikat dan Anda ingin menampilkan tidak lebih dari dua sekaligus, atur `max-items` argumen ke 2 seperti pada contoh berikut:  

```
aws acm list-certificates --max-items 2
```
Dua sertifikat ARNs dan `NextToken` nilai akan ditampilkan:  

```
"CertificateSummaryList": [
  {
    "CertificateArn": "arn:aws:acm:region:account: \
            certificate/12345678-1234-1234-1234-123456789012",
    "DomainName": "www.example.com"
  },
  {
    "CertificateArn": "arn:aws:acm:region:account: \
             certificate/aaaaaaaa-bbbb-cccc-dddd-eeeeeeeeeeee",
    "DomainName": "www.example.net"
  }
  ],
    "NextToken": "9f4d9f69-275a-41fe-b58e-2b837bd9ba48"
```
Untuk menampilkan dua sertifikat berikutnya di akun Anda, tetapkan `NextToken` nilai ini dalam panggilan berikutnya:  

```
aws acm list-certificates --max-items 2 --next-token 9f4d9f69-275a-41fe-b58e-2b837bd9ba48
```
Anda dapat memfilter output Anda dengan menggunakan `certificate-statuses` argumen. Perintah berikut menampilkan sertifikat yang memiliki status PENDING\$1VALIDATION:  

```
aws acm list-certificates --certificate-statuses PENDING_VALIDATION
```
Anda juga dapat memfilter output Anda dengan menggunakan `includes` argumen. Perintah berikut menampilkan sertifikat yang difilter pada properti berikut. Sertifikat yang akan ditampilkan:  

```
- Specify that the RSA algorithm and a 2048 bit key are used to generate key pairs.
- Contain a Key Usage extension that specifies that the certificates can be used to create digital signatures.
- Contain an Extended Key Usage extension that specifies that the certificates can be used for code signing.

aws acm list-certificates --max-items 10 --includes extendedKeyUsage=CODE_SIGNING,keyUsage=DIGITAL_SIGNATURE,keyTypes=RSA_2048
```
+  Untuk detail API, lihat [ListCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/list-certificates.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-certificate`
<a name="acm_ListTagsForCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-certificate`.

**AWS CLI**  
**Untuk mencantumkan tag yang diterapkan pada Sertifikat ACM**  
`list-tags-for-certificate`Perintah berikut mencantumkan tag yang diterapkan pada sertifikat di akun Anda:  

```
aws acm list-tags-for-certificate --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012
```
Perintah sebelumnya menghasilkan output yang mirip dengan berikut ini:  

```
{
  "Tags": [
      {
          "Value": "Website",
          "Key": "Purpose"
      },
      {
          "Value": "Alice",
          "Key": "Admin"
      }
  ]
}
```
+  Untuk detail API, lihat [ListTagsForCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/list-tags-for-certificate.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags-from-certificate`
<a name="acm_RemoveTagsFromCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags-from-certificate`.

**AWS CLI**  
**Untuk menghapus tag dari Sertifikat ACM**  
`remove-tags-from-certificate`Perintah berikut menghapus dua tag dari sertifikat yang ditentukan. Gunakan spasi untuk memisahkan beberapa tag:  

```
aws acm remove-tags-from-certificate --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012 --tags Key=Admin,Value=Alice Key=Purpose,Value=Website
```
+  Untuk detail API, lihat [RemoveTagsFromCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/remove-tags-from-certificate.html)di *Referensi AWS CLI Perintah*. 

### `request-certificate`
<a name="acm_RequestCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`request-certificate`.

**AWS CLI**  
**Untuk meminta sertifikat ACM baru**  
`request-certificate`Perintah berikut meminta sertifikat baru untuk domain www.example.com menggunakan validasi DNS:  

```
aws acm request-certificate --domain-name www.example.com --validation-method DNS
```
Anda dapat memasukkan token idempotensi untuk membedakan antara panggilan ke: `request-certificate`  

```
aws acm request-certificate --domain-name www.example.com --validation-method DNS --idempotency-token 91adc45q
```
Anda dapat memasukkan satu atau beberapa nama alternatif subjek untuk meminta sertifikat yang akan melindungi lebih dari satu domain puncak:  

```
aws acm request-certificate --domain-name example.com --validation-method DNS --idempotency-token 91adc45q --subject-alternative-names www.example.net
```
Anda dapat memasukkan nama alternatif yang juga dapat digunakan untuk menjangkau situs web Anda:  

```
aws acm request-certificate --domain-name example.com --validation-method DNS --idempotency-token 91adc45q --subject-alternative-names www.example.com
```
Anda dapat menggunakan tanda bintang (\$1) sebagai wildcard untuk membuat sertifikat untuk beberapa subdomain dalam domain yang sama:  

```
aws acm request-certificate --domain-name example.com --validation-method DNS --idempotency-token 91adc45q --subject-alternative-names *.example.com
```
Anda juga dapat memasukkan beberapa nama alternatif:  

```
aws acm request-certificate --domain-name example.com --validation-method DNS --subject-alternative-names b.example.com c.example.com d.example.com
```
Jika Anda menggunakan email untuk validasi, Anda dapat memasukkan opsi validasi domain untuk menentukan domain tempat email validasi akan dikirim:  

```
aws acm request-certificate --domain-name example.com --validation-method EMAIL --subject-alternative-names www.example.com --domain-validation-options DomainName=example.com,ValidationDomain=example.com
```
Perintah berikut memilih keluar dari pencatatan transparansi sertifikat saat Anda meminta sertifikat baru:  

```
aws acm request-certificate --domain-name www.example.com --validation-method DNS --options CertificateTransparencyLoggingPreference=DISABLED --idempotency-token 184627
```
+  Untuk detail API, lihat [RequestCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/request-certificate.html)di *Referensi AWS CLI Perintah*. 

### `resend-validation-email`
<a name="acm_ResendValidationEmail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resend-validation-email`.

**AWS CLI**  
**Untuk mengirim ulang email validasi untuk permintaan sertifikat ACM Anda**  
`resend-validation-email`Perintah berikut memberi tahu otoritas sertifikat Amazon untuk mengirim email validasi ke alamat yang sesuai:  

```
aws acm resend-validation-email --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012 --domain www.example.com --validation-domain example.com
```
+  Untuk detail API, lihat [ResendValidationEmail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/resend-validation-email.html)di *Referensi AWS CLI Perintah*. 

### `update-certificate-options`
<a name="acm_UpdateCertificateOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-certificate-options`.

**AWS CLI**  
**Untuk memperbarui opsi sertifikat**  
`update-certificate-options`Perintah berikut memilih keluar dari logging transparansi sertifikat:  

```
aws acm update-certificate-options --certificate-arn arn:aws:acm:region:account:certificate/12345678-1234-1234-1234-123456789012 --options CertificateTransparencyLoggingPreference=DISABLED
```
+  Untuk detail API, lihat [UpdateCertificateOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm/update-certificate-options.html)di *Referensi AWS CLI Perintah*. 

# Contoh API Gateway menggunakan AWS CLI
<a name="cli_2_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan API Gateway AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-api-key`
<a name="api-gateway_CreateApiKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-api-key`.

**AWS CLI**  
**Untuk membuat kunci API yang diaktifkan untuk API dan Stage yang ada**  
Perintah:  

```
aws apigateway create-api-key --name 'Dev API Key' --description 'Used for development' --enabled --stage-keys restApiId='a1b2c3d4e5',stageName='dev'
```
+  Untuk detail API, lihat [CreateApiKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-api-key.html)di *Referensi AWS CLI Perintah*. 

### `create-authorizer`
<a name="api-gateway_CreateAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-authorizer`.

**AWS CLI**  
**Contoh 1: Untuk membuat Otorisasi Kustom API Gateway berbasis token untuk API**  
`create-authorizer`Contoh berikut membuat authorizer berbasis token.  

```
aws apigateway create-authorizer \
    --rest-api-id 1234123412 \
    --name 'First_Token_Custom_Authorizer' \
    --type TOKEN \
    --authorizer-uri 'arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:customAuthFunction/invocations' \
    --identity-source 'method.request.header.Authorization' \
    --authorizer-result-ttl-in-seconds 300
```
Output:  

```
{
    "authType": "custom",
    "name": "First_Token_Custom_Authorizer",
    "authorizerUri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:customAuthFunction/invocations",
    "authorizerResultTtlInSeconds": 300,
    "identitySource": "method.request.header.Authorization",
    "type": "TOKEN",
    "id": "z40xj0"
}
```
**Contoh 2: Untuk membuat Otorisasi Kustom API Gateway berbasis Cognito User Pools untuk API**  
`create-authorizer`Contoh berikut membuat Otorisasi Kustom API Gateway berbasis Cognito User Pools.  

```
aws apigateway create-authorizer \
    --rest-api-id 1234123412 \
    --name 'First_Cognito_Custom_Authorizer' \
    --type COGNITO_USER_POOLS \
    --provider-arns 'arn:aws:cognito-idp:us-east-1:123412341234:userpool/us-east-1_aWcZeQbuD' \
    --identity-source 'method.request.header.Authorization'
```
Output:  

```
{
    "authType": "cognito_user_pools",
    "identitySource": "method.request.header.Authorization",
    "name": "First_Cognito_Custom_Authorizer",
    "providerARNs": [
        "arn:aws:cognito-idp:us-east-1:342398297714:userpool/us-east-1_qWbZzQhzE"
    ],
    "type": "COGNITO_USER_POOLS",
    "id": "5yid1t"
}
```
**Contoh 3: Untuk membuat API Gateway Custom Authorizer berbasis permintaan untuk API**  
`create-authorizer`Contoh berikut membuat authorizer berbasis permintaan.  

```
aws apigateway create-authorizer \
    --rest-api-id 1234123412 \
    --name 'First_Request_Custom_Authorizer' \
    --type REQUEST \
    --authorizer-uri 'arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:customAuthFunction/invocations' \
    --identity-source 'method.request.header.Authorization,context.accountId' \
    --authorizer-result-ttl-in-seconds 300
```
Output:  

```
{
    "id": "z40xj0",
    "name": "First_Request_Custom_Authorizer",
    "type": "REQUEST",
    "authType": "custom",
    "authorizerUri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:customAuthFunction/invocations",
    "identitySource": "method.request.header.Authorization,context.accountId",
    "authorizerResultTtlInSeconds": 300
}
```
+  Untuk detail API, lihat [CreateAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `create-base-path-mapping`
<a name="api-gateway_CreateBasePathMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-base-path-mapping`.

**AWS CLI**  
**Untuk membuat pemetaan jalur dasar untuk nama domain kustom**  
Perintah:  

```
aws apigateway create-base-path-mapping --domain-name subdomain.domain.tld --rest-api-id 1234123412 --stage prod --base-path v1
```
+  Untuk detail API, lihat [CreateBasePathMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-base-path-mapping.html)di *Referensi AWS CLI Perintah*. 

### `create-deployment`
<a name="api-gateway_CreateDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-deployment`.

**AWS CLI**  
**Untuk menerapkan sumber daya yang dikonfigurasi untuk API ke Tahap baru**  
Perintah:  

```
aws apigateway create-deployment --rest-api-id 1234123412 --stage-name dev --stage-description 'Development Stage' --description 'First deployment to the dev stage'
```
**Untuk menerapkan sumber daya yang dikonfigurasi untuk API ke tahap yang ada**  
Perintah:  

```
aws apigateway create-deployment --rest-api-id 1234123412 --stage-name dev --description 'Second deployment to the dev stage'
```
**Untuk menerapkan sumber daya yang dikonfigurasi untuk API ke tahap yang ada dengan Variabel Tahap**  
aws apigateway create-deployment -- rest-api-id 1234123412 --stage-name dev --description 'Penerapan ketiga ke tahap dev' --variable key='value', otherKey='otherValue'  
+  Untuk detail API, lihat [CreateDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-deployment.html)di *Referensi AWS CLI Perintah*. 

### `create-domain-name-access-association`
<a name="api-gateway_CreateDomainNameAccessAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-domain-name-access-association`.

**AWS CLI**  
**Untuk membuat asosiasi akses nama domain**  
`create-domain-name-access-association`Contoh berikut membuat asosiasi akses nama domain antara nama domain kustom pribadi dan titik akhir VPC.  

```
aws apigateway create-domain-name-access-association \
    --domain-name-arn arn:aws:apigateway:us-west-2:111122223333:/domainnames/my.private.domain.tld+abcd1234 \
    --access-association-source vpce-abcd1234efg \
    --access-association-source-type VPCE
```
Output:  

```
{
    "domainNameAccessAssociationArn": "arn:aws:apigateway:us-west-2:012345678910:/domainnameaccessassociations/domainname/my.private.domain.tld/vpcesource/vpce-abcd1234efg
    "accessAssociationSource": "vpce-abcd1234efg",
    "accessAssociationSourceType": "VPCE",
    "domainNameArn" : "arn:aws:apigateway:us-west-2:111122223333:/domainnames/private.example.com+abcd1234"
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk pribadi APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-private-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateDomainNameAccessAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-domain-name-access-association.html)di *Referensi AWS CLI Perintah*. 

### `create-domain-name`
<a name="api-gateway_CreateDomainName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-domain-name`.

**AWS CLI**  
**Contoh 1: Untuk membuat nama domain kustom publik**  
`create-domain-name`Contoh berikut membuat nama domain kustom publik.  

```
aws apigateway create-domain-name \
    --domain-name 'my.domain.tld' \
    --certificate-name 'my.domain.tld cert'\
    --certificate-arn 'arn:aws:acm:us-east-1:012345678910:certificate/fb1b9770-a305-495d-aefb-27e5e101ff3'
```
Output:  

```
{
    "domainName": "my.domain.tld",
    "certificateName": "my.domain.tld cert",
    "certificateArn": "arn:aws:acm:us-east-1:012345678910:certificate/fb1b9770-a305-495d-aefb-27e5e101ff3",
    "certificateUploadDate": "2024-10-08T11:29:49-07:00",
    "distributionDomainName": "abcd1234.cloudfront.net",
    "distributionHostedZoneId": "Z2FDTNDATAQYW2",
    "endpointConfiguration": {
        "types": [
            "EDGE"
        ]
    },
    "domainNameStatus": "AVAILABLE",
    "securityPolicy": "TLS_1_2"
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk REST publik APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/how-to-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
**Contoh 2: Untuk membuat nama domain kustom pribadi**  
`create-domain-name`Contoh berikut membuat nama domain kustom pribadi.  

```
aws apigateway create-domain-name \
    --domain-name 'my.private.domain.tld' \
    --certificate-name 'my.domain.tld cert' \
    --certificate-arn 'arn:aws:acm:us-east-1:012345678910:certificate/fb1b9770-a305-495d-aefb-27e5e101ff3' \
    --endpoint-configuration '{"types": ["PRIVATE"]}' \
    --security-policy 'TLS_1_2' \
    --policy file://policy.json
```
Isi dari `policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": "*",
            "Action": "execute-api:Invoke",
            "Resource": [
                "execute-api:/*"
            ]
        },
        {
            "Effect": "Deny",
            "Principal": "*",
            "Action": "execute-api:Invoke",
            "Resource": [
                "execute-api:/*"
            ],
            "Condition" : {
                "StringNotEquals": {
                    "aws:SourceVpce": "vpce-abcd1234efg"
                }
            }
        }
    ]
}
```
Output:  

```
{
    "domainName": "my.private.domain.tld",
    "domainNameId": "abcd1234",
    "domainNameArn": "arn:aws:apigateway:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234",
    "certificateArn": "arn:aws:acm:us-east-1:012345678910:certificate/fb1b9770-a305-495d-aefb-27e5e101ff3",
    "certificateUploadDate": "2024-09-10T10:31:20-07:00",
    "endpointConfiguration": {
        "types": [
            "PRIVATE"
        ]
    },
    "domainNameStatus": "AVAILABLE",
    "securityPolicy": "TLS_1_2",
    "policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":\"*\",\"Action\":\"execute-api:Invoke\",\"Resource\":\"arn:aws:execute-api:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234\"},{\"Effect\":\"Deny\",\"Principal\":\"*\",\"Action\":\"execute-api:Invoke\",\"Resource\":\"arn:aws:execute-api:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234\",\"Condition\":{\"StringNotEquals\":{\"aws:SourceVpc\":\"vpc-1a2b3c4d\"}}}]}"
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk REST publik APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/how-to-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateDomainName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-domain-name.html)di *Referensi AWS CLI Perintah*. 

### `create-model`
<a name="api-gateway_CreateModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-model`.

**AWS CLI**  
**Untuk membuat model untuk API**  
Perintah:  

```
aws apigateway create-model --rest-api-id 1234123412 --name 'firstModel' --description 'The First Model' --content-type 'application/json'  --schema '{ "$schema": "http://json-schema.org/draft-04/schema#", "title": "firstModel", "type": "object", "properties": { "firstProperty" : { "type": "object", "properties": { "key": { "type": "string" } } } } }'
```
Output:  

```
{
    "contentType": "application/json",
    "description": "The First Model",
    "name": "firstModel",
    "id": "2rzg0l",
    "schema": "{ \"$schema\": \"http://json-schema.org/draft-04/schema#\", \"title\": \"firstModel\", \"type\": \"object\", \"properties\": { \"firstProperty\" : { \"type\": \"object\", \"properties\": { \"key\": { \"type\": \"string\" } } } } }"
}
```
+  Untuk detail API, lihat [CreateModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-model.html)di *Referensi AWS CLI Perintah*. 

### `create-resource`
<a name="api-gateway_CreateResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource`.

**AWS CLI**  
**Untuk membuat sumber daya di API**  
Perintah:  

```
aws apigateway create-resource --rest-api-id 1234123412 --parent-id a1b2c3 --path-part 'new-resource'
```
+  Untuk detail API, lihat [CreateResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-resource.html)di *Referensi AWS CLI Perintah*. 

### `create-rest-api`
<a name="api-gateway_CreateRestApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-rest-api`.

**AWS CLI**  
**Untuk membuat API**  
Perintah:  

```
aws apigateway create-rest-api --name 'My First API' --description 'This is my first API'
```
**Untuk membuat API duplikat dari API yang ada**  
Perintah:  

```
aws apigateway create-rest-api --name 'Copy of My First API' --description 'This is a copy of my first API' --clone-from 1234123412
```
+  Untuk detail API, lihat [CreateRestApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-rest-api.html)di *Referensi AWS CLI Perintah*. 

### `create-stage`
<a name="api-gateway_CreateStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stage`.

**AWS CLI**  
**Untuk membuat tahap dalam API yang akan berisi penerapan yang ada**  
Perintah:  

```
aws apigateway create-stage --rest-api-id 1234123412 --stage-name 'dev' --description 'Development stage' --deployment-id a1b2c3
```
**Untuk membuat tahap dalam API yang akan berisi penerapan yang ada dan Variabel Tahap kustom**  
Perintah:  

```
aws apigateway create-stage --rest-api-id 1234123412 --stage-name 'dev' --description 'Development stage' --deployment-id a1b2c3 --variables key='value',otherKey='otherValue'
```
+  Untuk detail API, lihat [CreateStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-stage.html)di *Referensi AWS CLI Perintah*. 

### `create-usage-plan-key`
<a name="api-gateway_CreateUsagePlanKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-usage-plan-key`.

**AWS CLI**  
**Kaitkan kunci API yang ada dengan Paket Penggunaan**  
Perintah:  

```
aws apigateway create-usage-plan-key --usage-plan-id a1b2c3 --key-type "API_KEY" --key-id 4vq3yryqm5
```
+  Untuk detail API, lihat [CreateUsagePlanKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-usage-plan-key.html)di *Referensi AWS CLI Perintah*. 

### `create-usage-plan`
<a name="api-gateway_CreateUsagePlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-usage-plan`.

**AWS CLI**  
**Untuk membuat paket penggunaan dengan batas throttle dan kuota yang disetel ulang di awal bulan**  
Perintah:  

```
aws apigateway create-usage-plan --name "New Usage Plan" --description "A new usage plan" --throttle burstLimit=10,rateLimit=5 --quota limit=500,offset=0,period=MONTH
```
+  Untuk detail API, lihat [CreateUsagePlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/create-usage-plan.html)di *Referensi AWS CLI Perintah*. 

### `delete-api-key`
<a name="api-gateway_DeleteApiKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-api-key`.

**AWS CLI**  
**Untuk menghapus kunci API**  
Perintah:  

```
aws apigateway delete-api-key --api-key 8bklk8bl1k3sB38D9B3l0enyWT8c09B30lkq0blk
```
+  Untuk detail API, lihat [DeleteApiKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-api-key.html)di *Referensi AWS CLI Perintah*. 

### `delete-authorizer`
<a name="api-gateway_DeleteAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-authorizer`.

**AWS CLI**  
**Untuk menghapus Authorizer Kustom di API**  
Perintah:  

```
aws apigateway delete-authorizer --rest-api-id 1234123412 --authorizer-id 7gkfbo
```
+  Untuk detail API, lihat [DeleteAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `delete-base-path-mapping`
<a name="api-gateway_DeleteBasePathMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-base-path-mapping`.

**AWS CLI**  
**Untuk menghapus pemetaan jalur dasar untuk nama domain kustom**  
Perintah:  

```
aws apigateway delete-base-path-mapping --domain-name 'api.domain.tld' --base-path 'dev'
```
+  Untuk detail API, lihat [DeleteBasePathMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-base-path-mapping.html)di *Referensi AWS CLI Perintah*. 

### `delete-client-certificate`
<a name="api-gateway_DeleteClientCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-client-certificate`.

**AWS CLI**  
**Untuk menghapus sertifikat klien**  
Perintah:  

```
aws apigateway delete-client-certificate --client-certificate-id a1b2c3
```
+  Untuk detail API, lihat [DeleteClientCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-client-certificate.html)di *Referensi AWS CLI Perintah*. 

### `delete-deployment`
<a name="api-gateway_DeleteDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-deployment`.

**AWS CLI**  
**Untuk menghapus penerapan di API**  
Perintah:  

```
aws apigateway delete-deployment --rest-api-id 1234123412 --deployment-id a1b2c3
```
+  Untuk detail API, lihat [DeleteDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-deployment.html)di *Referensi AWS CLI Perintah*. 

### `delete-domain-name-access-association`
<a name="api-gateway_DeleteDomainNameAccessAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-domain-name-access-association`.

**AWS CLI**  
**Untuk menghapus asosiasi akses nama domain**  
`delete-domain-name-access-association`Contoh berikut menghapus asosiasi akses nama domain antara nama domain kustom pribadi dan titik akhir VPC.  

```
aws apigateway delete-domain-name-access-association \
    --domain-name-access-association-arn arn:aws:apigateway:us-west-2:012345678910:/domainnameaccessassociations/domainname/my.private.domain.tld/vpcesource/vpce-abcd1234efg
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk pribadi APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-private-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteDomainNameAccessAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-domain-name-access-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-domain-name`
<a name="api-gateway_DeleteDomainName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-domain-name`.

**AWS CLI**  
**Untuk menghapus nama domain kustom**  
Perintah:  

```
aws apigateway delete-domain-name --domain-name 'api.domain.tld'
```
+  Untuk detail API, lihat [DeleteDomainName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-domain-name.html)di *Referensi AWS CLI Perintah*. 

### `delete-integration-response`
<a name="api-gateway_DeleteIntegrationResponse_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-integration-response`.

**AWS CLI**  
**Untuk menghapus respons integrasi untuk sumber daya, metode, dan kode status tertentu dalam API**  
Perintah:  

```
aws apigateway delete-integration-response --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --status-code 200
```
+  Untuk detail API, lihat [DeleteIntegrationResponse](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-integration-response.html)di *Referensi AWS CLI Perintah*. 

### `delete-integration`
<a name="api-gateway_DeleteIntegration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-integration`.

**AWS CLI**  
**Untuk menghapus integrasi untuk sumber daya dan metode tertentu dalam API**  
Perintah:  

```
aws apigateway delete-integration --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET
```
+  Untuk detail API, lihat [DeleteIntegration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-integration.html)di *Referensi AWS CLI Perintah*. 

### `delete-method-response`
<a name="api-gateway_DeleteMethodResponse_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-method-response`.

**AWS CLI**  
**Untuk menghapus respons metode untuk sumber daya, metode, dan kode status yang diberikan dalam API**  
Perintah:  

```
aws apigateway delete-method-response --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --status-code 200
```
+  Untuk detail API, lihat [DeleteMethodResponse](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-method-response.html)di *Referensi AWS CLI Perintah*. 

### `delete-method`
<a name="api-gateway_DeleteMethod_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-method`.

**AWS CLI**  
**Untuk menghapus metode untuk sumber daya yang diberikan dalam API**  
Perintah:  

```
aws apigateway delete-method --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET
```
+  Untuk detail API, lihat [DeleteMethod](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-method.html)di *Referensi AWS CLI Perintah*. 

### `delete-model`
<a name="api-gateway_DeleteModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-model`.

**AWS CLI**  
**Untuk menghapus model di API yang diberikan**  
Perintah:  

```
aws apigateway delete-model --rest-api-id 1234123412 --model-name 'customModel'
```
+  Untuk detail API, lihat [DeleteModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-model.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource`
<a name="api-gateway_DeleteResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource`.

**AWS CLI**  
**Untuk menghapus sumber daya di API**  
Perintah:  

```
aws apigateway delete-resource --rest-api-id 1234123412 --resource-id a1b2c3
```
+  Untuk detail API, lihat [DeleteResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-resource.html)di *Referensi AWS CLI Perintah*. 

### `delete-rest-api`
<a name="api-gateway_DeleteRestApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-rest-api`.

**AWS CLI**  
**Untuk menghapus API**  
Perintah:  

```
aws apigateway delete-rest-api --rest-api-id 1234123412
```
+  Untuk detail API, lihat [DeleteRestApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-rest-api.html)di *Referensi AWS CLI Perintah*. 

### `delete-stage`
<a name="api-gateway_DeleteStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stage`.

**AWS CLI**  
**Untuk menghapus tahapan di API**  
Perintah:  

```
aws apigateway delete-stage --rest-api-id 1234123412 --stage-name 'dev'
```
+  Untuk detail API, lihat [DeleteStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-stage.html)di *Referensi AWS CLI Perintah*. 

### `delete-usage-plan-key`
<a name="api-gateway_DeleteUsagePlanKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-usage-plan-key`.

**AWS CLI**  
**Untuk menghapus kunci API dari Paket Penggunaan**  
Perintah:  

```
aws apigateway delete-usage-plan-key --usage-plan-id a1b2c3 --key-id 1NbjQzMReAkeEQPNAW8r3dXsU2rDD7fc7f2Sipnu
```
+  Untuk detail API, lihat [DeleteUsagePlanKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-usage-plan-key.html)di *Referensi AWS CLI Perintah*. 

### `delete-usage-plan`
<a name="api-gateway_DeleteUsagePlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-usage-plan`.

**AWS CLI**  
**Untuk menghapus Paket Penggunaan**  
Perintah:  

```
aws apigateway delete-usage-plan --usage-plan-id a1b2c3
```
+  Untuk detail API, lihat [DeleteUsagePlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/delete-usage-plan.html)di *Referensi AWS CLI Perintah*. 

### `flush-stage-authorizers-cache`
<a name="api-gateway_FlushStageAuthorizersCache_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`flush-stage-authorizers-cache`.

**AWS CLI**  
**Untuk membersihkan semua entri cache otorisasi di atas panggung**  
Perintah:  

```
aws apigateway flush-stage-authorizers-cache --rest-api-id 1234123412 --stage-name dev
```
+  Untuk detail API, lihat [FlushStageAuthorizersCache](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/flush-stage-authorizers-cache.html)di *Referensi AWS CLI Perintah*. 

### `flush-stage-cache`
<a name="api-gateway_FlushStageCache_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`flush-stage-cache`.

**AWS CLI**  
**Untuk membersihkan cache untuk tahap API**  
`flush-stage-cache`Contoh berikut membersihkan cache dari suatu tahap.  

```
aws apigateway flush-stage-cache \
    --rest-api-id 1234123412 \
    --stage-name dev
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiram cache tahap API di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-caching.html#flush-api-caching) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [FlushStageCache](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/flush-stage-cache.html)di *Referensi AWS CLI Perintah*. 

### `generate-client-certificate`
<a name="api-gateway_GenerateClientCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-client-certificate`.

**AWS CLI**  
**Untuk membuat Sertifikat SSL Sisi Klien**  
Perintah:  

```
aws apigateway generate-client-certificate --description 'My First Client Certificate'
```
+  Untuk detail API, lihat [GenerateClientCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/generate-client-certificate.html)di *Referensi AWS CLI Perintah*. 

### `get-account`
<a name="api-gateway_GetAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-account`.

**AWS CLI**  
**Untuk mendapatkan pengaturan akun API Gateway**  
Perintah:  

```
aws apigateway get-account
```
Output:  

```
{
    "cloudwatchRoleArn": "arn:aws:iam::123412341234:role/APIGatewayToCloudWatchLogsRole",
    "throttleSettings": {
        "rateLimit": 500.0,
        "burstLimit": 1000
    }
}
```
+  Untuk detail API, lihat [GetAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-account.html)di *Referensi AWS CLI Perintah*. 

### `get-api-key`
<a name="api-gateway_GetApiKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-api-key`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kunci API tertentu**  
Perintah:  

```
aws apigateway get-api-key --api-key 8bklk8bl1k3sB38D9B3l0enyWT8c09B30lkq0blk
```
Output:  

```
{
    "description": "My first key",
    "enabled": true,
    "stageKeys": [
        "a1b2c3d4e5/dev",
        "e5d4c3b2a1/dev"
    ],
    "lastUpdatedDate": 1456184515,
    "createdDate": 1456184452,
    "id": "8bklk8bl1k3sB38D9B3l0enyWT8c09B30lkq0blk",
    "name": "My key"
}
```
+  Untuk detail API, lihat [GetApiKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-api-key.html)di *Referensi AWS CLI Perintah*. 

### `get-api-keys`
<a name="api-gateway_GetApiKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-api-keys`.

**AWS CLI**  
**Untuk mendapatkan daftar kunci API**  
Perintah:  

```
aws apigateway get-api-keys
```
Output:  

```
{
    "items": [
        {
            "description": "My first key",
            "enabled": true,
            "stageKeys": [
                "a1b2c3d4e5/dev",
                "e5d4c3b2a1/dev"
            ],
            "lastUpdatedDate": 1456184515,
            "createdDate": 1456184452,
            "id": "8bklk8bl1k3sB38D9B3l0enyWT8c09B30lkq0blk",
            "name": "My key"
        }
    ]
}
```
+  Untuk detail API, lihat [GetApiKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-api-keys.html)di *Referensi AWS CLI Perintah*. 

### `get-authorizer`
<a name="api-gateway_GetAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-authorizer`.

**AWS CLI**  
**Untuk mendapatkan pengaturan API Gateway per-API Authorizer**  
Perintah:  

```
aws apigateway get-authorizer --rest-api-id 1234123412 --authorizer-id gfi4n3
```
Output:  

```
{
    "authorizerResultTtlInSeconds": 300,
    "name": "MyAuthorizer",
    "type": "TOKEN",
    "identitySource": "method.request.header.Authorization",
    "authorizerUri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:authorizer_function/invocations",
    "id": "gfi4n3"
}
```
+  Untuk detail API, lihat [GetAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `get-authorizers`
<a name="api-gateway_GetAuthorizers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-authorizers`.

**AWS CLI**  
**Untuk mendapatkan daftar otorisasi untuk REST API**  
Perintah:  

```
aws apigateway get-authorizers --rest-api-id 1234123412
```
Output:  

```
{
    "items": [
        {
            "name": "MyAuthorizer",
            "authorizerUri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:My_Authorizer_Function/invocations",
            "authorizerResultTtlInSeconds": 300,
            "identitySource": "method.request.header.Authorization",
            "type": "TOKEN",
            "id": "gfi4n3"
        }
    ]
}
```
+  Untuk detail API, lihat [GetAuthorizers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-authorizers.html)di *Referensi AWS CLI Perintah*. 

### `get-base-path-mapping`
<a name="api-gateway_GetBasePathMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-base-path-mapping`.

**AWS CLI**  
**Untuk mendapatkan pemetaan jalur dasar untuk nama domain khusus**  
Perintah:  

```
aws apigateway get-base-path-mapping --domain-name subdomain.domain.tld --base-path v1
```
Output:  

```
{
    "basePath": "v1",
    "restApiId": "1234w4321e",
    "stage": "api"
}
```
+  Untuk detail API, lihat [GetBasePathMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-base-path-mapping.html)di *Referensi AWS CLI Perintah*. 

### `get-base-path-mappings`
<a name="api-gateway_GetBasePathMappings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-base-path-mappings`.

**AWS CLI**  
**Untuk mendapatkan pemetaan jalur dasar untuk nama domain khusus**  
Perintah:  

```
aws apigateway get-base-path-mappings --domain-name subdomain.domain.tld
```
Output:  

```
{
    "items": [
        {
            "basePath": "(none)",
            "restApiId": "1234w4321e",
            "stage": "dev"
        },
        {
            "basePath": "v1",
            "restApiId": "1234w4321e",
            "stage": "api"
        }
    ]
}
```
+  Untuk detail API, lihat [GetBasePathMappings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-base-path-mappings.html)di *Referensi AWS CLI Perintah*. 

### `get-client-certificate`
<a name="api-gateway_GetClientCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-client-certificate`.

**AWS CLI**  
**Untuk mendapatkan sertifikat klien**  
Perintah:  

```
aws apigateway get-client-certificate --client-certificate-id a1b2c3
```
+  Untuk detail API, lihat [GetClientCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-client-certificate.html)di *Referensi AWS CLI Perintah*. 

### `get-client-certificates`
<a name="api-gateway_GetClientCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-client-certificates`.

**AWS CLI**  
**Untuk mendapatkan daftar sertifikat klien**  
Perintah:  

```
aws apigateway get-client-certificates
```
Output:  

```
{
    "items": [
        {
            "pemEncodedCertificate": "-----BEGIN CERTIFICATE----- <certificate content> -----END CERTIFICATE-----",
            "clientCertificateId": "a1b2c3",
            "expirationDate": 1483556561,
            "description": "My Client Certificate",
            "createdDate": 1452020561
        }
    ]
}
```
+  Untuk detail API, lihat [GetClientCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-client-certificates.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment`
<a name="api-gateway_GetDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang penerapan**  
Perintah:  

```
aws apigateway get-deployment --rest-api-id 1234123412 --deployment-id ztt4m2
```
Output:  

```
{
    "description": "myDeployment",
    "id": "ztt4m2",
    "createdDate": 1455218022
}
```
+  Untuk detail API, lihat [GetDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-deployment.html)di *Referensi AWS CLI Perintah*. 

### `get-deployments`
<a name="api-gateway_GetDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployments`.

**AWS CLI**  
**Untuk mendapatkan daftar penerapan untuk REST API**  
Perintah:  

```
aws apigateway get-deployments --rest-api-id 1234123412
```
Output:  

```
{
    "items": [
        {
            "createdDate": 1453797217,
            "id": "0a2b4c",
            "description": "Deployed my API for the first time"
        }
    ]
}
```
+  Untuk detail API, lihat [GetDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-deployments.html)di *Referensi AWS CLI Perintah*. 

### `get-domain-name-access-associations`
<a name="api-gateway_GetDomainNameAccessAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain-name-access-associations`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua asosiasi akses nama domain**  
`get-domain-name-access-associations`Contoh berikut mencantumkan semua asosiasi akses nama domain.  

```
aws apigateway get-domain-name-access-associations
```
Output:  

```
{
    "items": [
        {
        "domainNameAccessAssociationArn": "arn:aws:apigateway:us-west-2:012345678910:/domainnameaccessassociations/domainname/my.private.domain.tld/vpcesource/vpce-abcd1234efg
        "accessAssociationSource": "vpce-abcd1234efg",
        "accessAssociationSourceType": "VPCE",
        "domainNameArn" : "arn:aws:apigateway:us-west-2:111122223333:/domainnames/private.example.com+abcd1234"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk pribadi APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-private-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
**Contoh 2: Untuk mencantumkan semua asosiasi akses nama domain yang dimiliki oleh AWS akun ini**  
`get-domain-name-access-associations`Contoh berikut mencantumkan semua asosiasi akses nama domain yang dimiliki oleh AWS akun saat ini.  

```
aws apigateway get-domain-name-access-associations \
    --resource-owner SELF
```
Output:  

```
{
    "items": [
        {
        "domainNameAccessAssociationArn": "arn:aws:apigateway:us-west-2:012345678910:/domainnameaccessassociations/domainname/my.private.domain.tld/vpcesource/vpce-abcd1234efg
        "accessAssociationSource": "vpce-abcd1234efg",
        "accessAssociationSourceType": "VPCE",
        "domainNameArn" : "arn:aws:apigateway:us-west-2:111122223333:/domainnames/private.example.com+abcd1234"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk pribadi APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-private-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetDomainNameAccessAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-domain-name-access-associations.html)di *Referensi AWS CLI Perintah*. 

### `get-domain-name`
<a name="api-gateway_GetDomainName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain-name`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan informasi tentang nama domain kustom publik**  
`get-domain-name`Contoh berikut mendapatkan informasi tentang nama domain kustom publik.  

```
aws apigateway get-domain-name \
    --domain-name api.domain.tld
```
Output:  

```
{
    "domainName": "api.domain.tld",
    "distributionDomainName": "d1a2f3a4c5o6d.cloudfront.net",
    "certificateName": "uploadedCertificate",
    "certificateUploadDate": 1462565487
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk REST publik APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/how-to-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
**Contoh 2: Untuk mendapatkan informasi tentang nama domain kustom pribadi**  
`get-domain-name`Contoh berikut mendapatkan informasi tentang nama domain kustom pribadi.  

```
aws apigateway get-domain-name \
    --domain-name api.private.domain.tld \
    --domain-name-id abcd1234
```
Output:  

```
{
    "domainName": "my.private.domain.tld",
    "domainNameId": "abcd1234",
    "domainNameArn": "arn:aws:apigateway:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234",
    "certificateArn": "arn:aws:acm:us-east-1:012345678910:certificate/fb1b9770-a305-495d-aefb-27e5e101ff3",
    "certificateUploadDate": "2024-09-10T10:31:20-07:00",
    "endpointConfiguration": {
        "types": [
            "PRIVATE"
        ]
    },
    "domainNameStatus": "AVAILABLE",
    "securityPolicy": "TLS_1_2",
    "policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":\"*\",\"Action\":\"execute-api:Invoke\",\"Resource\":\"arn:aws:execute-api:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234\"},{\"Effect\":\"Deny\",\"Principal\":\"*\",\"Action\":\"execute-api:Invoke\",\"Resource\":\"arn:aws:execute-api:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234\",\"Condition\":{\"StringNotEquals\":{\"aws:SourceVpc\":\"vpc-1a2b3c4d\"}}}]}"
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk REST publik APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/how-to-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetDomainName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-domain-name.html)di *Referensi AWS CLI Perintah*. 

### `get-domain-names`
<a name="api-gateway_GetDomainNames_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain-names`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan daftar nama domain khusus**  
`get-domain-names`Perintah berikut mendapat daftar nama domain.  

```
aws apigateway get-domain-names
```
Output:  

```
{
    "items": [
        {
            "distributionDomainName": "d9511k3l09bkd.cloudfront.net",
            "certificateUploadDate": 1452812505,
            "certificateName": "my_custom_domain-certificate",
            "domainName": "subdomain.domain.tld"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk pribadi APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-private-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
**Contoh 2: Untuk mendapatkan daftar nama domain khusus yang dimiliki oleh AWS akun ini**  
`get-domain-names`Perintah berikut mendapatkan daftar nama domain yang dimiliki oleh AWS akun ini.  

```
aws apigateway get-domain-names \
    --resource-owner SELF
```
Output:  

```
{
    "items": [
        {
            "domainName": "my.domain.tld",
            "domainNameArn": "arn:aws:apigateway:us-east-1::/domainnames/my.private.domain.tld",
            "certificateUploadDate": "2024-08-15T17:02:55-07:00",
            "regionalDomainName": "d-abcd1234.execute-api.us-east-1.amazonaws.com",
            "regionalHostedZoneId": "Z1UJRXOUMOOFQ8",
            "regionalCertificateArn": "arn:aws:acm:us-east-1:012345678910:certificate/fb1b9770-a305-495d-aefb-27e5e101ff3",
            "endpointConfiguration": {
                "types": [
                    "REGIONAL"
                ]
            },
            "domainNameStatus": "AVAILABLE",
            "securityPolicy": "TLS_1_2"
        },
        {
            "domainName": "my.private.domain.tld",
            "domainNameId": "abcd1234",
            "domainNameArn": "arn:aws:apigateway:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234",
            "certificateArn": "arn:aws:acm:us-east-1:012345678910:certificate/fb1b9770-a305-495d-aefb-27e5e101ff3",
            "certificateUploadDate": "2024-11-26T11:44:40-08:00",
            "endpointConfiguration": {
                "types": [
                    "PRIVATE"
                ]
            },
            "domainNameStatus": "AVAILABLE",
            "securityPolicy": "TLS_1_2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk pribadi APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-private-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
**Contoh 3: Untuk mendapatkan daftar nama domain khusus yang dimiliki oleh AWS akun lain yang dapat Anda buat asosiasi akses nama domain.**  
`get-domain-names`Perintah berikut mendapatkan daftar nama domain yang dimiliki oleh AWS akun lain yang Anda memiliki akses untuk membuat asosiasi akses nama domain dengan.  

```
aws apigateway get-domain-names \
    --resource-owner OTHER_ACCOUNTS
```
Output:  

```
{
    "items": [
        {
            "domainName": "my.private.domain.tld",
            "domainNameId": "abcd1234",
            "domainNameArn": "arn:aws:apigateway:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk pribadi APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-private-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetDomainNames](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-domain-names.html)di *Referensi AWS CLI Perintah*. 

### `get-export`
<a name="api-gateway_GetExport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-export`.

**AWS CLI**  
**Untuk mendapatkan template JSON Swagger untuk sebuah panggung**  
Perintah:  

```
aws apigateway get-export --rest-api-id a1b2c3d4e5 --stage-name dev --export-type swagger /path/to/filename.json
```
**Untuk mendapatkan template JSON Swagger\$1API Gateway Extensions untuk sebuah panggung**  
Perintah:  

```
aws apigateway get-export --parameters extensions='integrations' --rest-api-id a1b2c3d4e5 --stage-name dev --export-type swagger /path/to/filename.json
```
**Untuk mendapatkan template JSON Swagger\$1Ekstensi Postman untuk sebuah panggung**  
Perintah:  

```
aws apigateway get-export --parameters extensions='postman' --rest-api-id a1b2c3d4e5 --stage-name dev --export-type swagger /path/to/filename.json
```
+  Untuk detail API, lihat [GetExport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-export.html)di *Referensi AWS CLI Perintah*. 

### `get-integration-response`
<a name="api-gateway_GetIntegrationResponse_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-integration-response`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi respons integrasi untuk metode HTTP yang ditentukan di bawah sumber daya REST API**  
Perintah:  

```
aws apigateway get-integration-response --rest-api-id 1234123412 --resource-id y9h6rt --http-method GET --status-code 200
```
Output:  

```
{
    "statusCode": "200",
    "responseTemplates": {
        "application/json": null
    }
}
```
+  Untuk detail API, lihat [GetIntegrationResponse](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-integration-response.html)di *Referensi AWS CLI Perintah*. 

### `get-integration`
<a name="api-gateway_GetIntegration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-integration`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi integrasi untuk metode HTTP yang didefinisikan di bawah sumber daya REST API**  
Perintah:  

```
aws apigateway get-integration --rest-api-id 1234123412 --resource-id y9h6rt --http-method GET
```
Output:  

```
{
    "httpMethod": "POST",
    "integrationResponses": {
        "200": {
            "responseTemplates": {
                "application/json": null
            },
            "statusCode": "200"
        }
    },
    "cacheKeyParameters": [],
    "type": "AWS",
    "uri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:My_Function/invocations",
    "cacheNamespace": "y9h6rt"
}
```
+  Untuk detail API, lihat [GetIntegration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-integration.html)di *Referensi AWS CLI Perintah*. 

### `get-method-response`
<a name="api-gateway_GetMethodResponse_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-method-response`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi sumber daya respons metode untuk metode HTTP yang didefinisikan di bawah sumber daya REST API**  
Perintah:  

```
aws apigateway get-method-response --rest-api-id 1234123412 --resource-id y9h6rt --http-method GET --status-code 200
```
Output:  

```
{
    "responseModels": {
        "application/json": "Empty"
    },
    "statusCode": "200"
}
```
+  Untuk detail API, lihat [GetMethodResponse](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-method-response.html)di *Referensi AWS CLI Perintah*. 

### `get-method`
<a name="api-gateway_GetMethod_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-method`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi sumber daya metode untuk metode HTTP yang didefinisikan di bawah sumber daya REST API**  
Perintah:  

```
aws apigateway get-method --rest-api-id 1234123412 --resource-id y9h6rt --http-method GET
```
Output:  

```
{
    "apiKeyRequired": false,
    "httpMethod": "GET",
    "methodIntegration": {
        "integrationResponses": {
            "200": {
                "responseTemplates": {
                    "application/json": null
                },
                "statusCode": "200"
            }
        },
        "cacheKeyParameters": [],
        "uri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:My_Function/invocations",
        "httpMethod": "POST",
        "cacheNamespace": "y9h6rt",
        "type": "AWS"
    },
    "requestParameters": {},
    "methodResponses": {
        "200": {
            "responseModels": {
                "application/json": "Empty"
            },
            "statusCode": "200"
        }
    },
    "authorizationType": "NONE"
}
```
+  Untuk detail API, lihat [GetMethod](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-method.html)di *Referensi AWS CLI Perintah*. 

### `get-model-template`
<a name="api-gateway_GetModelTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-model-template`.

**AWS CLI**  
**Untuk mendapatkan template pemetaan untuk model yang ditentukan di bawah REST API**  
Perintah:  

```
aws apigateway get-model-template --rest-api-id 1234123412 --model-name Empty
```
Output:  

```
{
    "value": "#set($inputRoot = $input.path('$'))\n{ }"
}
```
+  Untuk detail API, lihat [GetModelTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-model-template.html)di *Referensi AWS CLI Perintah*. 

### `get-model`
<a name="api-gateway_GetModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-model`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi untuk model yang ditentukan di bawah REST API**  
Perintah:  

```
aws apigateway get-model --rest-api-id 1234123412 --model-name Empty
```
Output:  

```
{
    "contentType": "application/json",
    "description": "This is a default empty schema model",
    "name": "Empty",
    "id": "etd5w5",
    "schema": "{\n  \"$schema\": \"http://json-schema.org/draft-04/schema#\",\n  \"title\" : \"Empty Schema\",\n  \"type\" : \"object\"\n}"
}
```
+  Untuk detail API, lihat [GetModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-model.html)di *Referensi AWS CLI Perintah*. 

### `get-models`
<a name="api-gateway_GetModels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-models`.

**AWS CLI**  
**Untuk mendapatkan daftar model untuk REST API**  
Perintah:  

```
aws apigateway get-models --rest-api-id 1234123412
```
Output:  

```
{
    "items": [
        {
            "description": "This is a default error schema model",
            "schema": "{\n  \"$schema\" : \"http://json-schema.org/draft-04/schema#\",\n  \"title\" : \"Error Schema\",\n  \"type\" : \"object\",\n  \"properties\" : {\n    \"message\" : { \"type\" : \"string\" }\n  }\n}",
            "contentType": "application/json",
            "id": "7tpbze",
            "name": "Error"
        },
        {
            "description": "This is a default empty schema model",
            "schema": "{\n  \"$schema\": \"http://json-schema.org/draft-04/schema#\",\n  \"title\" : \"Empty Schema\",\n  \"type\" : \"object\"\n}",
            "contentType": "application/json",
            "id": "etd5w5",
            "name": "Empty"
        }
    ]
}
```
+  Untuk detail API, lihat [GetModels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-models.html)di *Referensi AWS CLI Perintah*. 

### `get-resource`
<a name="api-gateway_GetResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sumber daya**  
Perintah:  

```
aws apigateway get-resource --rest-api-id 1234123412 --resource-id zwo0y3
```
Output:  

```
{
    "path": "/path",
    "pathPart": "path",
    "id": "zwo0y3",
    "parentId": "uyokt6ij2g"
}
```
+  Untuk detail API, lihat [GetResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-resource.html)di *Referensi AWS CLI Perintah*. 

### `get-resources`
<a name="api-gateway_GetResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resources`.

**AWS CLI**  
**Untuk mendapatkan daftar sumber daya untuk REST API**  
Perintah:  

```
aws apigateway get-resources --rest-api-id 1234123412
```
Output:  

```
{
    "items": [
        {
            "path": "/resource/subresource",
            "resourceMethods": {
                "POST": {}
            },
            "id": "024ace",
            "pathPart": "subresource",
            "parentId": "ai5b02"
        }
    ]
}
```
+  Untuk detail API, lihat [GetResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-resources.html)di *Referensi AWS CLI Perintah*. 

### `get-rest-api`
<a name="api-gateway_GetRestApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-rest-api`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang API**  
Perintah:  

```
aws apigateway get-rest-api --rest-api-id 1234123412
```
Output:  

```
{
    "name": "myAPI",
    "id": "o1y243m4f5",
    "createdDate": 1453416433
}
```
+  Untuk detail API, lihat [GetRestApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-rest-api.html)di *Referensi AWS CLI Perintah*. 

### `get-rest-apis`
<a name="api-gateway_GetRestApis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-rest-apis`.

**AWS CLI**  
**Untuk mendapatkan daftar REST APIs**  
Perintah:  

```
aws apigateway get-rest-apis
```
Output:  

```
{
    "items": [
        {
            "createdDate": 1438884790,
            "id": "12s44z21rb",
            "name": "My First API"
        }
    ]
}
```
+  Untuk detail API, lihat [GetRestApis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-rest-apis.html)di *Referensi AWS CLI Perintah*. 

### `get-sdk`
<a name="api-gateway_GetSdk_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sdk`.

**AWS CLI**  
**Untuk mendapatkan Android SDK untuk tahap REST API**  
Perintah:  

```
aws apigateway get-sdk --rest-api-id 1234123412 --stage-name dev --sdk-type android --parameters groupId='com.mycompany',invokerPackage='com.mycompany.clientsdk',artifactId='Mycompany-client',artifactVersion='1.0.0' /path/to/android_sdk.zip
```
Output:  

```
{
    "contentType": "application/octet-stream",
    "contentDisposition": "attachment; filename=\"android_2016-02-22_23-52Z.zip\""
}
```
**Untuk mendapatkan SDK IOS untuk tahap REST API**  
Perintah:  

```
aws apigateway get-sdk --rest-api-id 1234123412 --stage-name dev --sdk-type objectivec --parameters classPrefix='myprefix' /path/to/iOS_sdk.zip
```
Output:  

```
{
    "contentType": "application/octet-stream",
    "contentDisposition": "attachment; filename=\"objectivec_2016-02-22_23-52Z.zip\""
}
```
**Untuk mendapatkan Javascript SDK untuk tahap REST API**  
Perintah:  

```
aws apigateway get-sdk --rest-api-id 1234123412 --stage-name dev --sdk-type javascript /path/to/javascript_sdk.zip
```
Output:  

```
{
    "contentType": "application/octet-stream",
    "contentDisposition": "attachment; filename=\"javascript_2016-02-22_23-52Z.zip\""
}
```
+  Untuk detail API, lihat [GetSdk](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-sdk.html)di *Referensi AWS CLI Perintah*. 

### `get-stage`
<a name="api-gateway_GetStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stage`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang tahap API**  
Perintah:  

```
aws apigateway get-stage --rest-api-id 1234123412 --stage-name dev
```
Output:  

```
{
    "stageName": "dev",
    "cacheClusterSize": "0.5",
    "cacheClusterEnabled": false,
    "cacheClusterStatus": "NOT_AVAILABLE",
    "deploymentId": "rbh1fj",
    "lastUpdatedDate": 1466802961,
    "createdDate": 1460682074,
    "methodSettings": {
        "*/*": {
            "cacheTtlInSeconds": 300,
            "loggingLevel": "INFO",
            "dataTraceEnabled": false,
            "metricsEnabled": true,
            "unauthorizedCacheControlHeaderStrategy": "SUCCEED_WITH_RESPONSE_HEADER",
            "throttlingRateLimit": 500.0,
            "cacheDataEncrypted": false,
            "cachingEnabled": false,
            "throttlingBurstLimit": 1000,
            "requireAuthorizationForCacheControl": true
        },
        "~1resource/GET": {
            "cacheTtlInSeconds": 300,
            "loggingLevel": "INFO",
            "dataTraceEnabled": false,
            "metricsEnabled": true,
            "unauthorizedCacheControlHeaderStrategy": "SUCCEED_WITH_RESPONSE_HEADER",
            "throttlingRateLimit": 500.0,
            "cacheDataEncrypted": false,
            "cachingEnabled": false,
            "throttlingBurstLimit": 1000,
            "requireAuthorizationForCacheControl": true
        }
    }
}
```
+  Untuk detail API, lihat [GetStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-stage.html)di *Referensi AWS CLI Perintah*. 

### `get-stages`
<a name="api-gateway_GetStages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stages`.

**AWS CLI**  
**Untuk mendapatkan daftar tahapan untuk REST API**  
Perintah:  

```
aws apigateway get-stages --rest-api-id 1234123412
```
Output:  

```
{
    "item": [
        {
            "stageName": "dev",
            "cacheClusterSize": "0.5",
            "cacheClusterEnabled": true,
            "cacheClusterStatus": "AVAILABLE",
            "deploymentId": "123h64",
            "lastUpdatedDate": 1456185138,
            "createdDate": 1453589092,
            "methodSettings": {
                "~1resource~1subresource/POST": {
                    "cacheTtlInSeconds": 300,
                    "loggingLevel": "INFO",
                    "dataTraceEnabled": true,
                    "metricsEnabled": true,
                    "throttlingRateLimit": 500.0,
                    "cacheDataEncrypted": false,
                    "cachingEnabled": false,
                    "throttlingBurstLimit": 1000
                }
            }
        }
    ]
}
```
+  Untuk detail API, lihat [GetStages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-stages.html)di *Referensi AWS CLI Perintah*. 

### `get-usage-plan-key`
<a name="api-gateway_GetUsagePlanKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-usage-plan-key`.

**AWS CLI**  
**Untuk mendapatkan detail kunci API yang terkait dengan Paket Penggunaan**  
Perintah:  

```
aws apigateway get-usage-plan-key --usage-plan-id a1b2c3 --key-id 1NbjQzMReAkeEQPNAW8r3dXsU2rDD7fc7f2Sipnu
```
+  Untuk detail API, lihat [GetUsagePlanKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-usage-plan-key.html)di *Referensi AWS CLI Perintah*. 

### `get-usage-plan-keys`
<a name="api-gateway_GetUsagePlanKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-usage-plan-keys`.

**AWS CLI**  
**Untuk mendapatkan daftar kunci API yang terkait dengan Paket Penggunaan**  
Perintah:  

```
aws apigateway get-usage-plan-keys --usage-plan-id a1b2c3
```
+  Untuk detail API, lihat [GetUsagePlanKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-usage-plan-keys.html)di *Referensi AWS CLI Perintah*. 

### `get-usage-plan`
<a name="api-gateway_GetUsagePlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-usage-plan`.

**AWS CLI**  
**Untuk mendapatkan detail Paket Penggunaan**  
Perintah:  

```
aws apigateway get-usage-plan --usage-plan-id a1b2c3
```
+  Untuk detail API, lihat [GetUsagePlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-usage-plan.html)di *Referensi AWS CLI Perintah*. 

### `get-usage-plans`
<a name="api-gateway_GetUsagePlans_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-usage-plans`.

**AWS CLI**  
**Untuk mendapatkan detail dari semua Paket Penggunaan**  
Perintah:  

```
aws apigateway get-usage-plans
```
+  Untuk detail API, lihat [GetUsagePlans](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-usage-plans.html)di *Referensi AWS CLI Perintah*. 

### `get-usage`
<a name="api-gateway_GetUsage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-usage`.

**AWS CLI**  
**Untuk mendapatkan detail penggunaan untuk Paket Penggunaan**  
Perintah:  

```
aws apigateway get-usage --usage-plan-id a1b2c3 --start-date "2016-08-16" --end-date "2016-08-17"
```
+  Untuk detail API, lihat [GetUsage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/get-usage.html)di *Referensi AWS CLI Perintah*. 

### `import-rest-api`
<a name="api-gateway_ImportRestApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-rest-api`.

**AWS CLI**  
**Untuk mengimpor template Swagger dan membuat API**  
Perintah:  

```
aws apigateway import-rest-api --body 'file:///path/to/API_Swagger_template.json'
```
+  Untuk detail API, lihat [ImportRestApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/import-rest-api.html)di *Referensi AWS CLI Perintah*. 

### `put-integration-response`
<a name="api-gateway_PutIntegrationResponse_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-integration-response`.

**AWS CLI**  
**Untuk membuat respons integrasi sebagai respons default dengan template pemetaan yang ditentukan**  
Perintah:  

```
aws apigateway put-integration-response --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --status-code 200 --selection-pattern "" --response-templates '{"application/json": "{\"json\": \"template\"}"}'
```
**Untuk membuat respons integrasi dengan regex 400 dan nilai header yang ditentukan secara statis**  
Perintah:  

```
aws apigateway put-integration-response --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --status-code 400 --selection-pattern 400 --response-parameters '{"method.response.header.custom-header": "'"'"'custom-value'"'"'"}'
```
+  Untuk detail API, lihat [PutIntegrationResponse](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/put-integration-response.html)di *Referensi AWS CLI Perintah*. 

### `put-integration`
<a name="api-gateway_PutIntegration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-integration`.

**AWS CLI**  
**Untuk membuat permintaan integrasi MOCK**  
Perintah:  

```
aws apigateway put-integration --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --type MOCK --request-templates '{ "application/json": "{\"statusCode\": 200}" }'
```
**Untuk membuat permintaan integrasi HTTP**  
Perintah:  

```
aws apigateway put-integration --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --type HTTP --integration-http-method GET --uri 'https://domain.tld/path'
```
**Untuk membuat permintaan AWS integrasi dengan titik akhir Fungsi Lambda**  
Perintah:  

```
aws apigateway put-integration --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --type AWS --integration-http-method POST --uri 'arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:function_name/invocations'
```
+  Untuk detail API, lihat [PutIntegration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/put-integration.html)di *Referensi AWS CLI Perintah*. 

### `put-method-response`
<a name="api-gateway_PutMethodResponse_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-method-response`.

**AWS CLI**  
**Untuk membuat respons metode di bawah kode status yang ditentukan dengan header respons metode kustom**  
Perintah:  

```
aws apigateway put-method-response --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --status-code 400 --response-parameters "method.response.header.custom-header=false"
```
+  Untuk detail API, lihat [PutMethodResponse](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/put-method-response.html)di *Referensi AWS CLI Perintah*. 

### `put-method`
<a name="api-gateway_PutMethod_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-method`.

**AWS CLI**  
**Untuk membuat metode untuk sumber daya di API tanpa otorisasi, tanpa kunci API, dan header permintaan metode khusus**  
Perintah:  

```
aws apigateway put-method --rest-api-id 1234123412 --resource-id a1b2c3 --http-method PUT --authorization-type "NONE" --no-api-key-required --request-parameters "method.request.header.custom-header=false"
```
+  Untuk detail API, lihat [PutMethod](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/put-method.html)di *Referensi AWS CLI Perintah*. 

### `put-rest-api`
<a name="api-gateway_PutRestApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-rest-api`.

**AWS CLI**  
**Untuk menimpa API yang ada menggunakan template Swagger**  
Perintah:  

```
aws apigateway put-rest-api --rest-api-id 1234123412 --mode overwrite --body 'fileb:///path/to/API_Swagger_template.json'
```
**Untuk menggabungkan template Swagger ke dalam API yang ada**  
Perintah:  

```
aws apigateway put-rest-api --rest-api-id 1234123412 --mode merge --body 'fileb:///path/to/API_Swagger_template.json'
```
+  Untuk detail API, lihat [PutRestApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/put-rest-api.html)di *Referensi AWS CLI Perintah*. 

### `reject-domain-name-access-association`
<a name="api-gateway_RejectDomainNameAccessAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-domain-name-access-association`.

**AWS CLI**  
**Untuk menolak asosiasi akses nama domain**  
`reject-domain-name-access-association`Contoh berikut menolak asosiasi akses nama domain antara nama domain kustom pribadi dan titik akhir VPC.  

```
aws apigateway reject-domain-name-access-association \
    --domain-name-access-association-arn arn:aws:apigateway:us-west-2:012345678910:/domainnameaccessassociations/domainname/my.private.domain.tld/vpcesource/vpce-abcd1234efg \
    --domain-name-arn arn:aws:apigateway:us-east-1:012345678910:/domainnames/my.private.domain.tld+abcd1234
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Nama domain khusus untuk pribadi APIs di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-private-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [RejectDomainNameAccessAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/reject-domain-name-access-association.html)di *Referensi AWS CLI Perintah*. 

### `test-invoke-authorizer`
<a name="api-gateway_TestInvokeAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-invoke-authorizer`.

**AWS CLI**  
**Untuk menguji, panggil permintaan ke Custom Authorizer termasuk header dan nilai yang diperlukan**  
Perintah:  

```
aws apigateway test-invoke-authorizer --rest-api-id 1234123412 --authorizer-id 5yid1t --headers Authorization='Value'
```
+  Untuk detail API, lihat [TestInvokeAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/test-invoke-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `test-invoke-method`
<a name="api-gateway_TestInvokeMethod_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-invoke-method`.

**AWS CLI**  
**Untuk menguji, panggil sumber daya root di API dengan membuat permintaan GET**  
Perintah:  

```
aws apigateway test-invoke-method --rest-api-id 1234123412 --resource-id avl5sg8fw8 --http-method GET --path-with-query-string '/'
```
**Untuk menguji, panggil sub-sumber daya di API dengan membuat permintaan GET dengan nilai parameter jalur yang ditentukan**  
Perintah:  

```
aws apigateway test-invoke-method --rest-api-id 1234123412 --resource-id 3gapai --http-method GET --path-with-query-string '/pets/1'
```
+  Untuk detail API, lihat [TestInvokeMethod](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/test-invoke-method.html)di *Referensi AWS CLI Perintah*. 

### `update-account`
<a name="api-gateway_UpdateAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-account`.

**AWS CLI**  
**Untuk mengubah ARN Peran IAM untuk pencatatan ke Log CloudWatch **  
Perintah:  

```
aws apigateway update-account --patch-operations op='replace',path='/cloudwatchRoleArn',value='arn:aws:iam::123412341234:role/APIGatewayToCloudWatchLogs'
```
Output:  

```
{
    "cloudwatchRoleArn": "arn:aws:iam::123412341234:role/APIGatewayToCloudWatchLogs",
    "throttleSettings": {
        "rateLimit": 1000.0,
        "burstLimit": 2000
    }
}
```
+  Untuk detail API, lihat [UpdateAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-account.html)di *Referensi AWS CLI Perintah*. 

### `update-api-key`
<a name="api-gateway_UpdateApiKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-api-key`.

**AWS CLI**  
**Untuk mengubah nama Kunci API**  
Perintah:  

```
aws apigateway update-api-key --api-key sNvjQDMReA1eEQPNAW8r37XsU2rDD7fc7m2SiMnu --patch-operations op='replace',path='/name',value='newName'
```
Output:  

```
{
    "description": "currentDescription",
    "enabled": true,
    "stageKeys": [
        "41t2j324r5/dev"
    ],
    "lastUpdatedDate": 1470086052,
    "createdDate": 1445460347,
    "id": "sNvjQDMReA1vEQPNzW8r3dXsU2rrD7fcjm2SiMnu",
    "name": "newName"
}
```
**Untuk menonaktifkan Kunci API**  
Perintah:  

```
aws apigateway update-api-key --api-key sNvjQDMReA1eEQPNAW8r37XsU2rDD7fc7m2SiMnu --patch-operations op='replace',path='/enabled',value='false'
```
Output:  

```
{
    "description": "currentDescription",
    "enabled": false,
    "stageKeys": [
        "41t2j324r5/dev"
    ],
    "lastUpdatedDate": 1470086052,
    "createdDate": 1445460347,
    "id": "sNvjQDMReA1vEQPNzW8r3dXsU2rrD7fcjm2SiMnu",
    "name": "newName"
}
```
+  Untuk detail API, lihat [UpdateApiKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-api-key.html)di *Referensi AWS CLI Perintah*. 

### `update-authorizer`
<a name="api-gateway_UpdateAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-authorizer`.

**AWS CLI**  
**Untuk mengubah nama Custom Authorizer**  
Perintah:  

```
aws apigateway update-authorizer --rest-api-id 1234123412 --authorizer-id gfi4n3 --patch-operations op='replace',path='/name',value='testAuthorizer'
```
Output:  

```
{
    "authType": "custom",
    "name": "testAuthorizer",
    "authorizerUri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:customAuthorizer/invocations",
    "authorizerResultTtlInSeconds": 300,
    "identitySource": "method.request.header.Authorization",
    "type": "TOKEN",
    "id": "gfi4n3"
}
```
**Untuk mengubah Fungsi Lambda yang dipanggil oleh Custom Authorizer**  
Perintah:  

```
aws apigateway update-authorizer --rest-api-id 1234123412 --authorizer-id gfi4n3 --patch-operations op='replace',path='/authorizerUri',value='arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:newAuthorizer/invocations'
```
Output:  

```
{
    "authType": "custom",
    "name": "testAuthorizer",
    "authorizerUri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123412341234:function:newAuthorizer/invocations",
    "authorizerResultTtlInSeconds": 300,
    "identitySource": "method.request.header.Authorization",
    "type": "TOKEN",
    "id": "gfi4n3"
}
```
+  Untuk detail API, lihat [UpdateAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `update-base-path-mapping`
<a name="api-gateway_UpdateBasePathMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-base-path-mapping`.

**AWS CLI**  
**Untuk mengubah jalur dasar untuk nama domain kustom**  
Perintah:  

```
aws apigateway update-base-path-mapping --domain-name api.domain.tld --base-path prod --patch-operations op='replace',path='/basePath',value='v1'
```
Output:  

```
{
    "basePath": "v1",
    "restApiId": "1234123412",
    "stage": "api"
}
```
+  Untuk detail API, lihat [UpdateBasePathMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-base-path-mapping.html)di *Referensi AWS CLI Perintah*. 

### `update-client-certificate`
<a name="api-gateway_UpdateClientCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-client-certificate`.

**AWS CLI**  
**Untuk memperbarui deskripsi sertifikat klien**  
Perintah:  

```
aws apigateway update-client-certificate --client-certificate-id a1b2c3 --patch-operations op='replace',path='/description',value='My new description'
```
+  Untuk detail API, lihat [UpdateClientCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-client-certificate.html)di *Referensi AWS CLI Perintah*. 

### `update-deployment`
<a name="api-gateway_UpdateDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-deployment`.

**AWS CLI**  
**Untuk mengubah deskripsi penerapan**  
Perintah:  

```
aws apigateway update-deployment --rest-api-id 1234123412 --deployment-id ztt4m2 --patch-operations op='replace',path='/description',value='newDescription'
```
Output:  

```
{
    "description": "newDescription",
    "id": "ztt4m2",
    "createdDate": 1455218022
}
```
+  Untuk detail API, lihat [UpdateDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-deployment.html)di *Referensi AWS CLI Perintah*. 

### `update-domain-name`
<a name="api-gateway_UpdateDomainName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-domain-name`.

**AWS CLI**  
**Untuk mengubah nama sertifikat untuk nama domain kustom**  
`update-domain-name`Contoh berikut mengubah nama sertifikat untuk domain kustom.  

```
aws apigateway update-domain-name \
    --domain-name api.domain.tld \
    --patch-operations op='replace',path='/certificateArn',value='arn:aws:acm:us-west-2:111122223333:certificate/CERTEXAMPLE123EXAMPLE'
```
Output:  

```
{
    "domainName": "api.domain.tld",
    "distributionDomainName": "d123456789012.cloudfront.net",
    "certificateArn": "arn:aws:acm:us-west-2:111122223333:certificate/CERTEXAMPLE123EXAMPLE",
    "certificateUploadDate": 1462565487
}
```
Untuk informasi selengkapnya, lihat [Mengatur Nama Domain Kustom untuk API di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/how-to-custom-domains.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateDomainName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-domain-name.html)di *Referensi AWS CLI Perintah*. 

### `update-integration-response`
<a name="api-gateway_UpdateIntegrationResponse_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-integration-response`.

**AWS CLI**  
**Untuk mengubah header respons integrasi untuk memiliki pemetaan statis '\$1'**  
Perintah:  

```
aws apigateway update-integration-response --rest-api-id 1234123412 --resource-id 3gapai --http-method GET --status-code 200 --patch-operations op='replace',path='/responseParameters/method.response.header.Access-Control-Allow-Origin',value='"'"'*'"'"'
```
Output:  

```
{
    "statusCode": "200",
    "responseParameters": {
        "method.response.header.Access-Control-Allow-Origin": "'*'"
    }
}
```
**Untuk menghapus header respons integrasi**  
Perintah:  

```
aws apigateway update-integration-response --rest-api-id 1234123412 --resource-id 3gapai --http-method GET --status-code 200 --patch-operations op='remove',path='/responseParameters/method.response.header.Access-Control-Allow-Origin'
```
+  Untuk detail API, lihat [UpdateIntegrationResponse](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-integration-response.html)di *Referensi AWS CLI Perintah*. 

### `update-integration`
<a name="api-gateway_UpdateIntegration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-integration`.

**AWS CLI**  
**Untuk menambahkan Template Pemetaan 'Content-Type: application/json' yang dikonfigurasi dengan Input Passthrough**  
Perintah:  

```
aws apigateway update-integration \
    --rest-api-id a1b2c3d4e5 \
    --resource-id a1b2c3 \
    --http-method POST \
    --patch-operations "op='add',path='/requestTemplates/application~1json'"
```
**Untuk memperbarui (mengganti) Template Pemetaan 'Content-Type: application/json' yang dikonfigurasi dengan templat khusus**  
Perintah:  

```
aws apigateway update-integration \
    --rest-api-id a1b2c3d4e5 \
    --resource-id a1b2c3 \
    --http-method POST \
    --patch-operations "op='replace',path='/requestTemplates/application~1json',value='{"example": "json"}'"
```
**Untuk memperbarui (mengganti) template khusus yang terkait dengan 'Content-Type: application/json' dengan Input Passthrough**  
Perintah:  

```
aws apigateway update-integration \
    --rest-api-id a1b2c3d4e5 \
    --resource-id a1b2c3 \
    --http-method POST \
    --patch-operations "op='replace',path='requestTemplates/application~1json'"
```
**Untuk menghapus Template Pemetaan 'Content-Type: application/json'**  
Perintah:  

```
aws apigateway update-integration \
    --rest-api-id a1b2c3d4e5 \
    --resource-id a1b2c3 \
    --http-method POST \
    --patch-operations "op='remove',path='/requestTemplates/application~1json'"
```
+  Untuk detail API, lihat [UpdateIntegration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-integration.html)di *Referensi AWS CLI Perintah*. 

### `update-method-response`
<a name="api-gateway_UpdateMethodResponse_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-method-response`.

**AWS CLI**  
**Untuk membuat header respons metode baru untuk respons 200 dalam metode dan mendefinisikannya sebagai tidak diperlukan (default)**  
Perintah:  

```
aws apigateway update-method-response --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --status-code 200 --patch-operations op="add",path="/responseParameters/method.response.header.custom-header",value="false"
```
**Untuk menghapus model respons untuk respons 200 dalam suatu metode**  
Perintah:  

```
aws apigateway update-method-response --rest-api-id 1234123412 --resource-id a1b2c3 --http-method GET --status-code 200 --patch-operations op="remove",path="/responseModels/application~1json"
```
+  Untuk detail API, lihat [UpdateMethodResponse](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-method-response.html)di *Referensi AWS CLI Perintah*. 

### `update-method`
<a name="api-gateway_UpdateMethod_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-method`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi metode agar memerlukan kunci API**  
`update-method`Contoh berikut memodifikasi metode untuk memerlukan kunci API.  

```
aws apigateway update-method \
    --rest-api-id 1234123412 \
    --resource-id a1b2c3 \
    --http-method GET \
    --patch-operations op="replace",path="/apiKeyRequired",value="true"
```
Output:  

```
{
    "httpMethod": "GET",
    "authorizationType": "NONE",
    "apiKeyRequired": true,
    "methodResponses": {
        "200": {
            "statusCode": "200",
            "responseModels": {}
        }
    },
    "methodIntegration": {
        "type": "AWS",
        "httpMethod": "POST",
        "uri": "arn:aws:apigateway:us-east-1:lambda:path/2015-03-31/functions/arn:aws:lambda:us-east-1:123456789111:function:hello-world/invocations",
        "passthroughBehavior": "WHEN_NO_MATCH",
        "contentHandling": "CONVERT_TO_TEXT",
        "timeoutInMillis": 29000,
        "cacheNamespace": "h7i8j9",
        "cacheKeyParameters": [],
        "integrationResponses": {
            "200": {
                "statusCode": "200",
                "responseTemplates": {}
            }
        }
    }
}
```
**Contoh 2: Untuk memodifikasi metode untuk meminta otorisasi IAM**  
`update-method`Contoh berikut memodifikasi metode untuk memerlukan otorisasi IAM.  

```
aws apigateway update-method \
    --rest-api-id 1234123412 \
    --resource-id a1b2c3 \
    --http-method GET \
    --patch-operations op="replace",path="/authorizationType",value="AWS_IAM"
```
Output:  

```
 {
    "httpMethod": "GET",
    "authorizationType": "AWS_IAM",
    "apiKeyRequired": false,
    "methodResponses": {
        "200": {
            "statusCode": "200",
            "responseModels": {}
        }
    },
    "methodIntegration": {
        "type": "AWS",
        "httpMethod": "POST",
        "uri": "arn:aws:apigateway:us-east-1:lambda:path/2015-03-31/functions/arn:aws:lambda:us-east-1:123456789111:function:hello-world/invocations",
        "passthroughBehavior": "WHEN_NO_MATCH",
        "contentHandling": "CONVERT_TO_TEXT",
        "timeoutInMillis": 29000,
        "cacheNamespace": "h7i8j9",
        "cacheKeyParameters": [],
        "integrationResponses": {
            "200": {
                "statusCode": "200",
                "responseTemplates": {}
            }
        }
    }
}
```
**Contoh 3: Untuk memodifikasi metode untuk meminta otorisasi Lambda**  
`update-method`Contoh berikut memodifikasi metode untuk otorisasi Lambda yang diperlukan.  

```
aws apigateway update-method --rest-api-id 1234123412 \
    --resource-id a1b2c3 \
    --http-method GET \
    --patch-operations op="replace",path="/authorizationType",value="CUSTOM" op="replace",path="/authorizerId",value="e4f5g6"
```
Output:  

```
 {
    "httpMethod": "GET",
    "authorizationType": "CUSTOM",
    "authorizerId" : "e4f5g6",
    "apiKeyRequired": false,
    "methodResponses": {
        "200": {
            "statusCode": "200",
            "responseModels": {}
        }
    },
    "methodIntegration": {
        "type": "AWS",
        "httpMethod": "POST",
        "uri": "arn:aws:apigateway:us-east-1:lambda:path/2015-03-31/functions/arn:aws:lambda:us-east-1:123456789111:function:hello-world/invocations",
        "passthroughBehavior": "WHEN_NO_MATCH",
        "contentHandling": "CONVERT_TO_TEXT",
        "timeoutInMillis": 29000,
        "cacheNamespace": "h7i8j9",
        "cacheKeyParameters": [],
        "integrationResponses": {
            "200": {
                "statusCode": "200",
                "responseTemplates": {}
            }
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat, mengonfigurasi, dan menguji paket penggunaan menggunakan API Gateway CLI dan REST API](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-create-usage-plans-with-rest-api.html) serta [Mengontrol dan mengelola akses ke REST API di API Gateway di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-control-access-to-api.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateMethod](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-method.html)di *Referensi AWS CLI Perintah*. 

### `update-model`
<a name="api-gateway_UpdateModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-model`.

**AWS CLI**  
**Untuk mengubah deskripsi model dalam API**  
Perintah:  

```
aws apigateway update-model --rest-api-id 1234123412 --model-name 'Empty' --patch-operations op=replace,path=/description,value='New Description'
```
**Untuk mengubah skema model dalam API**  
Perintah:  

```
aws apigateway update-model --rest-api-id 1234123412 --model-name 'Empty' --patch-operations op=replace,path=/schema,value='"{ \"$schema\": \"http://json-schema.org/draft-04/schema#\", \"title\" : \"Empty Schema\", \"type\" : \"object\" }"'
```
+  Untuk detail API, lihat [UpdateModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-model.html)di *Referensi AWS CLI Perintah*. 

### `update-resource`
<a name="api-gateway_UpdateResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resource`.

**AWS CLI**  
**Untuk memindahkan sumber daya dan menempatkannya di bawah sumber daya induk yang berbeda di API**  
Perintah:  

```
aws apigateway update-resource --rest-api-id 1234123412 --resource-id 1a2b3c --patch-operations op=replace,path=/parentId,value='3c2b1a'
```
Output:  

```
{
    "path": "/resource",
    "pathPart": "resource",
    "id": "1a2b3c",
    "parentId": "3c2b1a"
}
```
**Untuk mengganti nama sumber daya (pathPart) di API**  
Perintah:  

```
aws apigateway update-resource --rest-api-id 1234123412 --resource-id 1a2b3c --patch-operations op=replace,path=/pathPart,value=newresourcename
```
Output:  

```
{
    "path": "/newresourcename",
    "pathPart": "newresourcename",
    "id": "1a2b3c",
    "parentId": "3c2b1a"
}
```
+  Untuk detail API, lihat [UpdateResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-rest-api`
<a name="api-gateway_UpdateRestApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-rest-api`.

**AWS CLI**  
**Untuk mengubah nama API**  
Perintah:  

```
aws apigateway update-rest-api --rest-api-id 1234123412 --patch-operations op=replace,path=/name,value='New Name'
```
**Untuk mengubah deskripsi API**  
Perintah:  

```
aws apigateway update-rest-api --rest-api-id 1234123412 --patch-operations op=replace,path=/description,value='New Description'
```
+  Untuk detail API, lihat [UpdateRestApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-rest-api.html)di *Referensi AWS CLI Perintah*. 

### `update-stage`
<a name="api-gateway_UpdateStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-stage`.

**AWS CLI**  
**Contoh 1: Untuk mengganti pengaturan panggung untuk sumber daya dan metode**  
`update-stage`Contoh berikut mengesampingkan pengaturan panggung dan mematikan request/response logging penuh untuk sumber daya dan metode tertentu.  

```
aws apigateway update-stage \
    --rest-api-id 1234123412 \
    --stage-name 'dev' \
    --patch-operations op=replace,path=/~1resourceName/GET/logging/dataTrace,value=false
```
Output:  

```
{
    "deploymentId": "5ubd17",
    "stageName": "dev",
    "cacheClusterEnabled": false,
    "cacheClusterStatus": "NOT_AVAILABLE",
    "methodSettings": {
        "~1resourceName/GET": {
            "metricsEnabled": false,
            "dataTraceEnabled": false,
            "throttlingBurstLimit": 5000,
            "throttlingRateLimit": 10000.0,
            "cachingEnabled": false,
            "cacheTtlInSeconds": 300,
            "cacheDataEncrypted": false,
            "requireAuthorizationForCacheControl": true,
            "unauthorizedCacheControlHeaderStrategy": "SUCCEED_WITH_RESPONSE_HEADER"
        }
    },
    "tracingEnabled": false,
    "createdDate": "2022-07-18T10:11:18-07:00",
    "lastUpdatedDate": "2022-07-18T10:19:04-07:00"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan tahapan untuk REST API](https://docs.aws.amazon.com/apigateway/latest/developerguide/set-up-stages.html) di *Panduan Pengembang Amazon API Gateway*.  
**Contoh 2: Untuk memperbarui pengaturan tahap untuk semua sumber daya dan metode tahap API**  
`update-stage`Contoh berikut mengaktifkan request/response pencatatan penuh untuk semua sumber daya dan metode tahap API.  

```
aws apigateway update-stage \
    --rest-api-id 1234123412 \
    --stage-name 'dev' \
    --patch-operations 'op=replace,path=/*/*/logging/dataTrace,value=true'
```
Output:  

```
{
    "deploymentId": "5ubd17",
    "stageName": "dev",
    "cacheClusterEnabled": false,
    "cacheClusterStatus": "NOT_AVAILABLE",
    "methodSettings": {
        "*/*": {
            "metricsEnabled": false,
            "dataTraceEnabled": true,
            "throttlingBurstLimit": 5000,
            "throttlingRateLimit": 10000.0,
            "cachingEnabled": false,
            "cacheTtlInSeconds": 300,
            "cacheDataEncrypted": false,
            "requireAuthorizationForCacheControl": true,
            "unauthorizedCacheControlHeaderStrategy": "SUCCEED_WITH_RESPONSE_HEADER"
        }
    },
    "tracingEnabled": false,
    "createdDate": "2022-07-18T10:11:18-07:00",
    "lastUpdatedDate": "2022-07-18T10:31:04-07:00"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan tahapan untuk REST API](https://docs.aws.amazon.com/apigateway/latest/developerguide/set-up-stages.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-stage.html)di *Referensi AWS CLI Perintah*. 

### `update-usage-plan`
<a name="api-gateway_UpdateUsagePlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-usage-plan`.

**AWS CLI**  
**Untuk mengubah periode yang ditentukan dalam Rencana Penggunaan**  
Perintah:  

```
aws apigateway update-usage-plan --usage-plan-id a1b2c3 --patch-operations op="replace",path="/quota/period",value="MONTH"
```
**Untuk mengubah batas kuota yang ditentukan dalam Paket Penggunaan**  
Perintah:  

```
aws apigateway update-usage-plan --usage-plan-id a1b2c3 --patch-operations op="replace",path="/quota/limit",value="500"
```
**Untuk mengubah batas laju throttle yang ditentukan dalam Paket Penggunaan**  
Perintah:  

```
aws apigateway update-usage-plan --usage-plan-id a1b2c3 --patch-operations op="replace",path="/throttle/rateLimit",value="10"
```
**Untuk mengubah batas throttle burst yang ditentukan dalam Paket Penggunaan**  
Perintah:  

```
aws apigateway update-usage-plan --usage-plan-id a1b2c3 --patch-operations op="replace",path="/throttle/burstLimit",value="20"
```
+  Untuk detail API, lihat [UpdateUsagePlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-usage-plan.html)di *Referensi AWS CLI Perintah*. 

### `update-usage`
<a name="api-gateway_UpdateUsage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-usage`.

**AWS CLI**  
**Untuk memodifikasi sementara kuota pada kunci API untuk periode saat ini yang ditentukan dalam Paket Penggunaan**  
Perintah:  

```
aws apigateway update-usage --usage-plan-id a1b2c3 --key-id 1NbjQzMReAkeEQPNAW8r3dXsU2rDD7fc7f2Sipnu --patch-operations op="replace",path="/remaining",value="50"
```
+  Untuk detail API, lihat [UpdateUsage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-usage.html)di *Referensi AWS CLI Perintah*. 

### `update-vpc-link`
<a name="api-gateway_UpdateVpcLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-vpc-link`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui nama tautan VPC yang ada**  
`update-vpc-link`Contoh berikut memperbarui nama tautan VPC yang ditentukan.  

```
aws apigateway update-vpc-link  \
    --vpc-link-id ab3de6 \
    --patch-operations op=replace,path=/name,value=my-vpc-link
```
Output:  

```
{
    "id": "ab3de6",
    "name": "my-vpc-link",
    "targetArns": [
        "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/my-lb/12a456s89aaa12345"
    ],
    "status": "AVAILABLE",
    "statusMessage": "Your vpc link is ready for use",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Memperbarui tautan VPC yang ada](https://docs.aws.amazon.com/cli/latest/reference/apigateway/update-vpc-link.html) di Referensi Perintah *AWS CLI*.  
**Contoh 2: Untuk memperbarui nama dan deskripsi tautan VPC yang ada**  
`update-vpc-link`Contoh berikut memperbarui nama link VPC yang ditentukan.  

```
aws apigateway update-vpc-link  \
    --vpc-link-id ab3de6 \
    --patch-operations op=replace,path=/name,value=my-vpc-link op=replace,path=/description,value="My custom description"
```
Output:  

```
{
    "id": "ab3de6",
    "name": "my-vpc-link",
    "description": "My custom description",
    "targetArns": [
        "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/my-lb/12a456s89aaa12345"
    ],
    "status": "AVAILABLE",
    "statusMessage": "Your vpc link is ready for use",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Memperbarui tautan VPC yang ada](https://docs.aws.amazon.com/cli/latest/reference/apigateway/update-vpc-link.html) di Referensi Perintah *AWS CLI*.  
+  Untuk detail API, lihat [UpdateVpcLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigateway/update-vpc-link.html)di *Referensi AWS CLI Perintah*. 

# API Gateway HTTP dan contoh WebSocket API menggunakan AWS CLI
<a name="cli_2_apigatewayv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS Command Line Interface dengan menggunakan HTTP dan WebSocket API API Gateway with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-api-mapping`
<a name="apigatewayv2_CreateApiMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-api-mapping`.

**AWS CLI**  
**Untuk membuat pemetaan API untuk API**  
`create-api-mapping`Contoh berikut memetakan `test` tahap API ke `/myApi` jalur nama domain `regional.example.com` kustom.  

```
aws apigatewayv2 create-api-mapping \
    --domain-name regional.example.com \
    --api-mapping-key myApi \
    --api-id a1b2c3d4 \
    --stage test
```
Output:  

```
{
    "ApiId": "a1b2c3d4",
    "ApiMappingId": "0qzs2sy7bh",
    "ApiMappingKey": "myApi"
    "Stage": "test"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateApiMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-api-mapping.html)di *Referensi AWS CLI Perintah*. 

### `create-api`
<a name="apigatewayv2_CreateApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-api`.

**AWS CLI**  
**Untuk membuat API HTTP**  
`create-api`Contoh berikut membuat API HTTP dengan menggunakan quick create. Anda dapat menggunakan quick create untuk membuat API dengan integrasi AWS Lambda atau HTTP, rute catch-all default, dan tahap default yang dikonfigurasi untuk menerapkan perubahan secara otomatis. Perintah berikut menggunakan quick create untuk membuat HTTP API yang terintegrasi dengan fungsi Lambda.  

```
aws apigatewayv2 create-api \
    --name my-http-api \
    --protocol-type HTTP \
    --target arn:aws:lambda:us-west-2:123456789012:function:my-lambda-function
```
Output:  

```
{
    "ApiEndpoint": "https://a1b2c3d4.execute-api.us-west-2.amazonaws.com",
    "ApiId": "a1b2c3d4",
    "ApiKeySelectionExpression": "$request.header.x-api-key",
    "CreatedDate": "2020-04-08T19:05:45+00:00",
    "Name": "my-http-api",
    "ProtocolType": "HTTP",
    "RouteSelectionExpression": "$request.method $request.path"
}
```
Untuk informasi selengkapnya, lihat [Mengembangkan API HTTP di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop.html) di *Panduan Pengembang Amazon API Gateway*.  
**Untuk membuat WebSocket API**  
`create-api`Contoh berikut membuat WebSocket API dengan nama yang ditentukan.  

```
aws apigatewayv2 create-api \
    --name "myWebSocketApi" \
    --protocol-type WEBSOCKET \
    --route-selection-expression '$request.body.action'
```
Output:  

```
{
    "ApiKeySelectionExpression": "$request.header.x-api-key",
    "Name": "myWebSocketApi",
    "CreatedDate": "2018-11-15T06:23:51Z",
    "ProtocolType": "WEBSOCKET",
    "RouteSelectionExpression": "'$request.body.action'",
    "ApiId": "aabbccddee"
}
```
Untuk informasi selengkapnya, lihat [Membuat WebSocket API di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api-create-empty-api.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-api.html)di *Referensi AWS CLI Perintah*. 

### `create-authorizer`
<a name="apigatewayv2_CreateAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-authorizer`.

**AWS CLI**  
**Untuk membuat otorisasi JWT untuk API HTTP**  
`create-authorizer`Contoh berikut membuat otorisasi JWT yang menggunakan Amazon Cognito sebagai penyedia identitas.  

```
aws apigatewayv2 create-authorizer \
    --name my-jwt-authorizer \
    --api-id a1b2c3d4 \
    --authorizer-type JWT \
    --identity-source '$request.header.Authorization' \
    --jwt-configuration Audience=123456abc,Issuer=https://cognito-idp.us-west-2.amazonaws.com/us-west-2_abc123
```
Output:  

```
{
    "AuthorizerId": "a1b2c3",
    "AuthorizerType": "JWT",
    "IdentitySource": [
        "$request.header.Authorization"
    ],
    "JwtConfiguration": {
        "Audience": [
            "123456abc"
        ],
        "Issuer": "https://cognito-idp.us-west-2.amazonaws.com/us-west-2_abc123"
    },
    "Name": "my-jwt-authorizer"
}
```
Untuk informasi selengkapnya, lihat [Mengontrol akses ke HTTP APIs dengan otorisasi JWT di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-jwt-authorizer.html) Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `create-deployment`
<a name="apigatewayv2_CreateDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-deployment`.

**AWS CLI**  
**Untuk membuat penerapan untuk API**  
`create-deployment`Contoh berikut membuat penerapan untuk API dan mengaitkan penerapan tersebut dengan `dev` tahap API.  

```
aws apigatewayv2 create-deployment \
    --api-id a1b2c3d4 \
    --stage-name dev
```
Output:  

```
{
    "AutoDeployed": false,
    "CreatedDate": "2020-04-06T23:38:08Z",
    "DeploymentId": "53lz9l",
    "DeploymentStatus": "DEPLOYED"
}
```
Untuk informasi selengkapnya, lihat [penerapan API](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-basic-concept.html#apigateway-definition-api-deployment) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-deployment.html)di *Referensi AWS CLI Perintah*. 

### `create-domain-name`
<a name="apigatewayv2_CreateDomainName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-domain-name`.

**AWS CLI**  
**Untuk membuat nama domain kustom**  
`create-domain-name`Contoh berikut membuat nama domain kustom regional untuk API.  

```
aws apigatewayv2 create-domain-name \
    --domain-name regional.example.com \
    --domain-name-configurations CertificateArn=arn:aws:acm:us-west-2:123456789012:certificate/123456789012-1234-1234-1234-12345678
```
Output:  

```
{
    "ApiMappingSelectionExpression": "$request.basepath",
    "DomainName": "regional.example.com",
    "DomainNameConfigurations": [
        {
            "ApiGatewayDomainName": "d-id.execute-api.us-west-2.amazonaws.com",
            "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/123456789012-1234-1234-1234-12345678",
            "EndpointType": "REGIONAL",
            "HostedZoneId": "123456789111",
            "SecurityPolicy": "TLS_1_2",
            "DomainNameStatus": "AVAILABLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateDomainName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-domain-name.html)di *Referensi AWS CLI Perintah*. 

### `create-integration`
<a name="apigatewayv2_CreateIntegration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-integration`.

**AWS CLI**  
**Untuk membuat integrasi WebSocket API**  
`create-integration`Contoh berikut membuat integrasi tiruan untuk WebSocket API.  

```
aws apigatewayv2 create-integration \
    --api-id aabbccddee \
    --passthrough-behavior WHEN_NO_MATCH \
    --timeout-in-millis 29000 \
    --connection-type INTERNET \
    --integration-type MOCK
```
Output:  

```
{
    "ConnectionType": "INTERNET",
    "IntegrationId": "0abcdef",
    "IntegrationResponseSelectionExpression": "${integration.response.statuscode}",
    "IntegrationType": "MOCK",
    "PassthroughBehavior": "WHEN_NO_MATCH",
    "PayloadFormatVersion": "1.0",
    "TimeoutInMillis": 29000
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan permintaan integrasi WebSocket API di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api-integration-requests.html) di *Panduan Pengembang Amazon API Gateway*.  
**Untuk membuat integrasi HTTP API**  
`create-integration`Contoh berikut membuat integrasi AWS Lambda untuk HTTP API.  

```
aws apigatewayv2 create-integration \
    --api-id a1b2c3d4 \
    --integration-type AWS_PROXY \
    --integration-uri arn:aws:lambda:us-west-2:123456789012:function:my-function \
    --payload-format-version 2.0
```
Output:  

```
{
    "ConnectionType": "INTERNET",
    "IntegrationId": "0abcdef",
    "IntegrationMethod": "POST",
    "IntegrationType": "AWS_PROXY",
    "IntegrationUri": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
    "PayloadFormatVersion": "2.0",
    "TimeoutInMillis": 30000
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi integrasi untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-integrations.html) di Panduan *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateIntegration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-integration.html)di *Referensi AWS CLI Perintah*. 

### `create-route`
<a name="apigatewayv2_CreateRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-route`.

**AWS CLI**  
**Untuk membuat rute \$1default untuk API WebSocket atau HTTP**  
`create-route`Contoh berikut membuat `$default` rute untuk API WebSocket atau HTTP.  

```
aws apigatewayv2 create-route \
    --api-id aabbccddee \
    --route-key '$default'
```
Output:  

```
{
    "ApiKeyRequired": false,
    "AuthorizationType": "NONE",
    "RouteKey": "$default",
    "RouteId": "1122334"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan rute WebSocket APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api-add-route.html) di *Panduan Pengembang Amazon API Gateway*  
**Untuk membuat rute untuk HTTP API**  
`create-route`Contoh berikut membuat rute bernama `signup` yang menerima permintaan POST.  

```
aws apigatewayv2 create-route \
    --api-id aabbccddee \
    --route-key 'POST /signup'
```
Output:  

```
{
    "ApiKeyRequired": false,
    "AuthorizationType": "NONE",
    "RouteKey": "POST /signup",
    "RouteId": "1122334"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan rute untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-routes.html) di *Panduan Pengembang Amazon API Gateway*  
+  Untuk detail API, lihat [CreateRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-route.html)di *Referensi AWS CLI Perintah*. 

### `create-routing-rule`
<a name="apigatewayv2_CreateRoutingRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-routing-rule`.

**AWS CLI**  
**Untuk membuat aturan routing**  
`create-routing-rule`Contoh berikut membuat aturan routing dengan prioritas. `50`  

```
aws apigatewayv2 create-routing-rule \
    --domain-name 'regional.example.com' \
    --priority 50 \
    --conditions '[ \
        { \
            "MatchBasePaths": { \
                "AnyOf": [ \
                    "PetStoreShopper" \
                ] \
            } \
        } \
    ]' \
    --actions '[ \
        { \
            "InvokeApi": { \
                "ApiId": "abcd1234", \
                "Stage": "prod" \
            } \
        } \
    ]'
```
Output:  

```
{
    "Actions": [
        {
            "InvokeApi": {
                "ApiId": "abcd1234",
                "Stage": "prod",
                "StripBasePath": false
            }
        }
    ],
    "Conditions": [
        {
            "MatchBasePaths": {
                "AnyOf": [
                    "PetStoreShopper"
                ]
            }
        }
    ],
    "Priority": 50,
    "RoutingRuleArn": "arn:aws:apigateway:us-east-2:123456789012:/domainnames/regional.example.com/routingrules/aaa111",
    "RoutingRuleId": "aaa111"
}
```
Untuk informasi selengkapnya, lihat [Aturan perutean untuk menghubungkan tahapan API ke nama domain khusus untuk REST APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/rest-api-routing-rules.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateRoutingRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-routing-rule.html)di *Referensi AWS CLI Perintah*. 

### `create-stage`
<a name="apigatewayv2_CreateStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stage`.

**AWS CLI**  
**Untuk membuat panggung**  
`create-stage`Contoh berikut membuat tahap bernama dev untuk API.  

```
aws apigatewayv2 create-stage \
    --api-id a1b2c3d4 \
    --stage-name dev
```
Output:  

```
{
    "CreatedDate": "2020-04-06T23:23:46Z",
    "DefaultRouteSettings": {
        "DetailedMetricsEnabled": false
    },
    "LastUpdatedDate": "2020-04-06T23:23:46Z",
    "RouteSettings": {},
    "StageName": "dev",
    "StageVariables": {},
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tahapan untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-stages.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-stage.html)di *Referensi AWS CLI Perintah*. 

### `create-vpc-link`
<a name="apigatewayv2_CreateVpcLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpc-link`.

**AWS CLI**  
**Untuk membuat link VPC untuk HTTP API**  
`create-vpc-link`Contoh berikut membuat link VPC untuk HTTP. APIs  

```
aws apigatewayv2 create-vpc-link \
    --name MyVpcLink \
    --subnet-ids subnet-aaaa subnet-bbbb \
    --security-group-ids sg1234 sg5678
```
Output:  

```
{
    "CreatedDate": "2020-04-07T00:11:46Z",
    "Name": "MyVpcLink",
    "SecurityGroupIds": [
        "sg1234",
        "sg5678"
    ],
    "SubnetIds": [
        "subnet-aaaa",
        "subnet-bbbb"
    ],
    "Tags": {},
    "VpcLinkId": "abcd123",
    "VpcLinkStatus": "PENDING",
    "VpcLinkStatusMessage": "VPC link is provisioning ENIs",
    "VpcLinkVersion": "V2"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tautan VPC untuk HTTP APIs di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-vpc-links.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [CreateVpcLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/create-vpc-link.html)di *Referensi AWS CLI Perintah*. 

### `delete-access-log-settings`
<a name="apigatewayv2_DeleteAccessLogSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-access-log-settings`.

**AWS CLI**  
**Untuk menonaktifkan pencatatan akses untuk API**  
`delete-access-log-settings`Contoh berikut menghapus pengaturan log akses untuk `$default` tahap API. Untuk menonaktifkan pencatatan akses untuk suatu tahap, hapus pengaturan log aksesnya.  

```
aws apigatewayv2 delete-access-log-settings \
    --api-id a1b2c3d4 \
    --stage-name '$default'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi logging untuk API HTTP](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-logging.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteAccessLogSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-access-log-settings.html)di *Referensi AWS CLI Perintah*. 

### `delete-api-mapping`
<a name="apigatewayv2_DeleteApiMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-api-mapping`.

**AWS CLI**  
**Untuk menghapus pemetaan API**  
`delete-api-mapping`Contoh berikut menghapus pemetaan API untuk nama domain `api.example.com` kustom.  

```
aws apigatewayv2 delete-api-mapping \
    --api-mapping-id a1b2c3 \
    --domain-name api.example.com
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteApiMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-api-mapping.html)di *Referensi AWS CLI Perintah*. 

### `delete-api`
<a name="apigatewayv2_DeleteApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-api`.

**AWS CLI**  
**Untuk menghapus API**  
`delete-api`Contoh berikut menghapus API.  

```
aws apigatewayv2 delete-api \
    --api-id a1b2c3d4
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api.html) dan [Bekerja dengan WebSocket APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-api.html)di *Referensi AWS CLI Perintah*. 

### `delete-authorizer`
<a name="apigatewayv2_DeleteAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-authorizer`.

**AWS CLI**  
**Untuk menghapus otorisasi**  
`delete-authorizer`Contoh berikut menghapus otorisasi.  

```
aws apigatewayv2 delete-authorizer \
    --api-id a1b2c3d4 \
    --authorizer-id a1b2c3
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengontrol akses ke HTTP APIs dengan otorisasi JWT di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-jwt-authorizer.html) Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `delete-cors-configuration`
<a name="apigatewayv2_DeleteCorsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cors-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi CORS untuk HTTP API**  
`delete-cors-configuration`Contoh berikut menonaktifkan CORS untuk HTTP API dengan menghapus konfigurasi CORS-nya.  

```
aws apigatewayv2 delete-cors-configuration \
    --api-id a1b2c3d4
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi CORS untuk API HTTP di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-cors.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteCorsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-cors-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-deployment`
<a name="apigatewayv2_DeleteDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-deployment`.

**AWS CLI**  
**Untuk menghapus penerapan**  
`delete-deployment`Contoh berikut menghapus penerapan API.  

```
aws apigatewayv2 delete-deployment \
    --api-id a1b2c3d4 \
    --deployment-id a1b2c3
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [penerapan API](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-basic-concept.html#apigateway-definition-api-deployment) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-deployment.html)di *Referensi AWS CLI Perintah*. 

### `delete-domain-name`
<a name="apigatewayv2_DeleteDomainName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-domain-name`.

**AWS CLI**  
**Untuk menghapus nama domain kustom**  
`delete-domain-name`Contoh berikut menghapus nama domain kustom.  

```
aws apigatewayv2 delete-domain-name \
    --domain-name api.example.com
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteDomainName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-domain-name.html)di *Referensi AWS CLI Perintah*. 

### `delete-integration`
<a name="apigatewayv2_DeleteIntegration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-integration`.

**AWS CLI**  
**Untuk menghapus integrasi**  
`delete-integration`Contoh berikut menghapus integrasi API.  

```
aws apigatewayv2 delete-integration \
    --api-id a1b2c3d4 \
    --integration-id a1b2c3
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi integrasi untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-integrations.html) dan [Menyiapkan integrasi WebSocket API](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api-integrations.html) di Panduan Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteIntegration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-integration.html)di *Referensi AWS CLI Perintah*. 

### `delete-route-settings`
<a name="apigatewayv2_DeleteRouteSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-route-settings`.

**AWS CLI**  
**Untuk menghapus pengaturan rute**  
`delete-route-settings`Contoh berikut menghapus pengaturan rute untuk rute yang ditentukan.  

```
aws apigatewayv2 delete-route-settings \
    --api-id a1b2c3d4 \
    --stage-name dev \
    --route-key 'GET /pets'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan rute untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-routes.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteRouteSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-route-settings.html)di *Referensi AWS CLI Perintah*. 

### `delete-route`
<a name="apigatewayv2_DeleteRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-route`.

**AWS CLI**  
**Untuk menghapus rute**  
`delete-route`Contoh berikut menghapus rute API.  

```
aws apigatewayv2 delete-route \
    --api-id a1b2c3d4 \
    --route-id a1b2c3
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan rute untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-routes.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-route.html)di *Referensi AWS CLI Perintah*. 

### `delete-routing-rule`
<a name="apigatewayv2_DeleteRoutingRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-routing-rule`.

**AWS CLI**  
**Untuk menghapus aturan routing**  
`delete-routing-rule`Contoh berikut menghapus aturan routing untuk nama domain kustom.  

```
aws apigatewayv2 delete-routing-rule \
    --domain-name 'regional.example.com' \
    --routing-rule-id aaa111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Aturan perutean untuk menghubungkan tahapan API ke nama domain khusus untuk REST APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/rest-api-routing-rules.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteRoutingRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-routing-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-stage`
<a name="apigatewayv2_DeleteStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stage`.

**AWS CLI**  
**Untuk menghapus panggung**  
`delete-stage`Contoh berikut menghapus `test` tahap API.  

```
aws apigatewayv2 delete-stage \
    --api-id a1b2c3d4 \
    --stage-name test
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan tahapan untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-stages.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-stage.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpc-link`
<a name="apigatewayv2_DeleteVpcLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpc-link`.

**AWS CLI**  
**Untuk menghapus tautan VPC untuk API HTTP**  
`delete-vpc-link`Contoh berikut menghapus link VPC.  

```
aws apigatewayv2 delete-vpc-link \
    --vpc-link-id abcd123
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan tautan VPC untuk HTTP APIs di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-vpc-links.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteVpcLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/delete-vpc-link.html)di *Referensi AWS CLI Perintah*. 

### `export-api`
<a name="apigatewayv2_ExportApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`export-api`.

**AWS CLI**  
**Untuk mengekspor definisi OpenAPI dari HTTP API**  
`export-api`Contoh berikut mengekspor definisi OpenAPI 3.0 dari tahap API bernama ke file YAMB `prod` bernama. `stage-definition.yaml` File definisi yang diekspor menyertakan ekstensi API Gateway secara default.  

```
aws apigatewayv2 export-api \
    --api-id a1b2c3d4 \
    --output-type YAML \
    --specification OAS30 \
    --stage-name prod \
    stage-definition.yaml
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengekspor API HTTP dari API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-export.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [ExportApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/export-api.html)di *Referensi AWS CLI Perintah*. 

### `get-api-mapping`
<a name="apigatewayv2_GetApiMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-api-mapping`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pemetaan API untuk nama domain kustom**  
`get-api-mapping`Contoh berikut menampilkan informasi tentang pemetaan API untuk nama domain `api.example.com` kustom.  

```
aws apigatewayv2 get-api-mapping \
    --api-mapping-id a1b2c3 \
    --domain-name api.example.com
```
Output:  

```
{
    "ApiId": "a1b2c3d4",
    "ApiMappingId": "a1b2c3d5",
    "ApiMappingKey": "myTestApi"
    "Stage": "test"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetApiMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-api-mapping.html)di *Referensi AWS CLI Perintah*. 

### `get-api-mappings`
<a name="apigatewayv2_GetApiMappings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-api-mappings`.

**AWS CLI**  
**Untuk mendapatkan pemetaan API untuk nama domain khusus**  
`get-api-mappings`Contoh berikut menampilkan daftar semua pemetaan API untuk nama domain `api.example.com` kustom.  

```
aws apigatewayv2 get-api-mappings \
    --domain-name api.example.com
```
Output:  

```
{
    "Items": [
        {
            "ApiId": "a1b2c3d4",
            "ApiMappingId": "a1b2c3d5",
            "ApiMappingKey": "myTestApi"
            "Stage": "test"
        },
        {
            "ApiId": "a5b6c7d8",
            "ApiMappingId": "a1b2c3d6",
            "ApiMappingKey": "myDevApi"
            "Stage": "dev"
        },
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetApiMappings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-api-mappings.html)di *Referensi AWS CLI Perintah*. 

### `get-api`
<a name="apigatewayv2_GetApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-api`.

**AWS CLI**  
**Untuk mengambil informasi tentang API**  
`get-api`Contoh berikut menampilkan informasi tentang API.  

```
aws apigatewayv2 get-api \
    --api-id a1b2c3d4
```
Output:  

```
{
    "ApiEndpoint": "https://a1b2c3d4.execute-api.us-west-2.amazonaws.com",
    "ApiId": "a1b2c3d4",
    "ApiKeySelectionExpression": "$request.header.x-api-key",
    "CreatedDate": "2020-03-28T00:32:37Z",
    "Name": "my-api",
    "ProtocolType": "HTTP",
    "RouteSelectionExpression": "$request.method $request.path",
    "Tags": {
        "department": "finance"
    }
}
```
+  Untuk detail API, lihat [GetApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-api.html)di *Referensi AWS CLI Perintah*. 

### `get-apis`
<a name="apigatewayv2_GetApis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-apis`.

**AWS CLI**  
**Untuk mengambil daftar APIs**  
`get-apis`Contoh berikut mencantumkan semua APIs untuk pengguna saat ini.  

```
aws apigatewayv2 get-apis
```
Output:  

```
{
    "Items": [
        {
            "ApiEndpoint": "wss://a1b2c3d4.execute-api.us-west-2.amazonaws.com",
            "ApiId": "a1b2c3d4",
            "ApiKeySelectionExpression": "$request.header.x-api-key",
            "CreatedDate": "2020-04-07T20:21:59Z",
            "Name": "my-websocket-api",
            "ProtocolType": "WEBSOCKET",
            "RouteSelectionExpression": "$request.body.message",
            "Tags": {}
        },
        {
            "ApiEndpoint": "https://a1b2c3d5.execute-api.us-west-2.amazonaws.com",
            "ApiId": "a1b2c3d5",
            "ApiKeySelectionExpression": "$request.header.x-api-key",
            "CreatedDate": "2020-04-07T20:23:50Z",
            "Name": "my-http-api",
            "ProtocolType": "HTTP",
            "RouteSelectionExpression": "$request.method $request.path",
            "Tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api.html) dan [Bekerja dengan WebSocket APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetApis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-apis.html)di *Referensi AWS CLI Perintah*. 

### `get-authorizer`
<a name="apigatewayv2_GetAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-authorizer`.

**AWS CLI**  
**Untuk mengambil informasi tentang otorisasi**  
`get-authorizer`Contoh berikut menampilkan informasi tentang authorizer.  

```
aws apigatewayv2 get-authorizer \
    --api-id a1b2c3d4 \
    --authorizer-id a1b2c3
```
Output:  

```
{
    "AuthorizerId": "a1b2c3",
    "AuthorizerType": "JWT",
    "IdentitySource": [
        "$request.header.Authorization"
    ],
    "JwtConfiguration": {
        "Audience": [
            "123456abc"
        ],
        "Issuer": "https://cognito-idp.us-west-2.amazonaws.com/us-west-2_abc123"
    },
    "Name": "my-jwt-authorizer"
}
```
Untuk informasi selengkapnya, lihat [Mengontrol akses ke HTTP APIs dengan otorisasi JWT di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-jwt-authorizer.html) Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [GetAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `get-authorizers`
<a name="apigatewayv2_GetAuthorizers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-authorizers`.

**AWS CLI**  
**Untuk mengambil daftar otorisasi untuk API**  
`get-authorizers`Contoh berikut menampilkan daftar semua otorisasi untuk API.  

```
aws apigatewayv2 get-authorizers \
    --api-id a1b2c3d4
```
Output:  

```
{
    "Items": [
        {
            "AuthorizerId": "a1b2c3",
            "AuthorizerType": "JWT",
            "IdentitySource": [
                "$request.header.Authorization"
            ],
            "JwtConfiguration": {
                "Audience": [
                    "123456abc"
                ],
                "Issuer": "https://cognito-idp.us-west-2.amazonaws.com/us-west-2_abc123"
            },
            "Name": "my-jwt-authorizer"
        },
        {
            "AuthorizerId": "a1b2c4",
            "AuthorizerType": "JWT",
            "IdentitySource": [
                "$request.header.Authorization"
            ],
            "JwtConfiguration": {
                "Audience": [
                    "6789abcde"
                ],
                "Issuer": "https://cognito-idp.us-west-2.amazonaws.com/us-west-2_abc234"
            },
            "Name": "new-jwt-authorizer"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengontrol akses ke HTTP APIs dengan otorisasi JWT di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-jwt-authorizer.html) Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [GetAuthorizers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-authorizers.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment`
<a name="apigatewayv2_GetDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment`.

**AWS CLI**  
**Untuk mengambil informasi tentang penerapan**  
`get-deployment`Contoh berikut menampilkan informasi tentang penyebaran.  

```
aws apigatewayv2 get-deployment \
    --api-id a1b2c3d4 \
    --deployment-id abcdef
```
Output:  

```
{
    "AutoDeployed": true,
    "CreatedDate": "2020-04-07T23:58:40Z",
    "DeploymentId": "abcdef",
    "DeploymentStatus": "DEPLOYED",
    "Description": "Automatic deployment triggered by changes to the Api configuration"
}
```
Untuk informasi selengkapnya, lihat [penerapan API](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-basic-concept.html#apigateway-definition-api-deployment) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-deployment.html)di *Referensi AWS CLI Perintah*. 

### `get-deployments`
<a name="apigatewayv2_GetDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployments`.

**AWS CLI**  
**Untuk mengambil daftar penerapan**  
`get-deployments`Contoh berikut menampilkan daftar semua penerapan API.  

```
aws apigatewayv2 get-deployments \
    --api-id a1b2c3d4
```
Output:  

```
{
    "Items": [
        {
            "AutoDeployed": true,
            "CreatedDate": "2020-04-07T23:58:40Z",
            "DeploymentId": "abcdef",
            "DeploymentStatus": "DEPLOYED",
            "Description": "Automatic deployment triggered by changes to the Api configuration"
        },
        {
            "AutoDeployed": true,
            "CreatedDate": "2020-04-06T00:33:00Z",
            "DeploymentId": "bcdefg",
            "DeploymentStatus": "DEPLOYED",
            "Description": "Automatic deployment triggered by changes to the Api configuration"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [penerapan API](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-basic-concept.html#apigateway-definition-api-deployment) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-deployments.html)di *Referensi AWS CLI Perintah*. 

### `get-domain-name`
<a name="apigatewayv2_GetDomainName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain-name`.

**AWS CLI**  
**Untuk mengambil informasi tentang nama domain kustom**  
`get-domain-name`Contoh berikut menampilkan informasi tentang nama domain kustom.  

```
aws apigatewayv2 get-domain-name \
    --domain-name api.example.com
```
Output:  

```
{
    "ApiMappingSelectionExpression": "$request.basepath",
    "DomainName": "api.example.com",
    "DomainNameConfigurations": [
        {
            "ApiGatewayDomainName": "d-1234.execute-api.us-west-2.amazonaws.com",
            "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/123456789012-1234-1234-1234-12345678",
            "EndpointType": "REGIONAL",
            "HostedZoneId": "123456789111",
            "SecurityPolicy": "TLS_1_2",
            "DomainNameStatus": "AVAILABLE"
        }
    ],
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetDomainName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-domain-name.html)di *Referensi AWS CLI Perintah*. 

### `get-domain-names`
<a name="apigatewayv2_GetDomainNames_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain-names`.

**AWS CLI**  
**Untuk mengambil daftar nama domain kustom**  
`get-domain-names`Contoh berikut menampilkan daftar semua nama domain kustom untuk pengguna saat ini.  

```
aws apigatewayv2 get-domain-names
```
Output:  

```
{
    "Items": [
        {
            "ApiMappingSelectionExpression": "$request.basepath",
            "DomainName": "api.example.com",
            "DomainNameConfigurations": [
                {
                    "ApiGatewayDomainName": "d-1234.execute-api.us-west-2.amazonaws.com",
                    "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/123456789012-1234-1234-1234-12345678",
                    "EndpointType": "REGIONAL",
                    "HostedZoneId": "123456789111",
                    "SecurityPolicy": "TLS_1_2",
                    "DomainNameStatus": "AVAILABLE"
                }
            ]
        },
        {
            "ApiMappingSelectionExpression": "$request.basepath",
            "DomainName": "newApi.example.com",
            "DomainNameConfigurations": [
                {
                    "ApiGatewayDomainName": "d-5678.execute-api.us-west-2.amazonaws.com",
                    "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/123456789012-1234-1234-1234-12345678",
                    "EndpointType": "REGIONAL",
                    "HostedZoneId": "123456789222",
                    "SecurityPolicy": "TLS_1_2",
                    "DomainNameStatus": "AVAILABLE"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetDomainNames](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-domain-names.html)di *Referensi AWS CLI Perintah*. 

### `get-integration`
<a name="apigatewayv2_GetIntegration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-integration`.

**AWS CLI**  
**Untuk mengambil informasi tentang integrasi**  
`get-integration`Contoh berikut menampilkan informasi tentang integrasi.  

```
aws apigatewayv2 get-integration \
    --api-id a1b2c3d4 \
    --integration-id a1b2c3
```
Output:  

```
{
    "ApiGatewayManaged": true,
    "ConnectionType": "INTERNET",
    "IntegrationId": "a1b2c3",
    "IntegrationMethod": "POST",
    "IntegrationType": "AWS_PROXY",
    "IntegrationUri": "arn:aws:lambda:us-west-2:12356789012:function:hello12",
    "PayloadFormatVersion": "2.0",
    "TimeoutInMillis": 30000
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi integrasi untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-integrations.html) dan [Menyiapkan integrasi WebSocket API](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api-integrations.html) di Panduan Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [GetIntegration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-integration.html)di *Referensi AWS CLI Perintah*. 

### `get-integrations`
<a name="apigatewayv2_GetIntegrations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-integrations`.

**AWS CLI**  
**Untuk mengambil daftar integrasi**  
`get-integrations`Contoh berikut menampilkan daftar semua integrasi API.  

```
aws apigatewayv2 get-integrations \
    --api-id a1b2c3d4
```
Output:  

```
{
    "Items": [
        {
            "ApiGatewayManaged": true,
            "ConnectionType": "INTERNET",
            "IntegrationId": "a1b2c3",
            "IntegrationMethod": "POST",
            "IntegrationType": "AWS_PROXY",
            "IntegrationUri": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
            "PayloadFormatVersion": "2.0",
            "TimeoutInMillis": 30000
        },
        {
            "ConnectionType": "INTERNET",
            "IntegrationId": "a1b2c4",
            "IntegrationMethod": "ANY",
            "IntegrationType": "HTTP_PROXY",
            "IntegrationUri": "https://www.example.com",
            "PayloadFormatVersion": "1.0",
            "TimeoutInMillis": 30000
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi integrasi untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-integrations.html) dan [Menyiapkan integrasi WebSocket API](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api-integrations.html) di Panduan Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [GetIntegrations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-integrations.html)di *Referensi AWS CLI Perintah*. 

### `get-route`
<a name="apigatewayv2_GetRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-route`.

**AWS CLI**  
**Untuk mengambil informasi tentang rute**  
`get-route`Contoh berikut menampilkan informasi tentang rute.  

```
aws apigatewayv2 get-route \
    --api-id a1b2c3d4 \
    --route-id 72jz1wk
```
Output:  

```
{
    "ApiKeyRequired": false,
    "AuthorizationType": "NONE",
    "RouteId": "72jz1wk",
    "RouteKey": "ANY /pets",
    "Target": "integrations/a1b2c3"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan rute untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-routes.html) di *Panduan Pengembang Amazon API Gateway*  
+  Untuk detail API, lihat [GetRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-route.html)di *Referensi AWS CLI Perintah*. 

### `get-routes`
<a name="apigatewayv2_GetRoutes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-routes`.

**AWS CLI**  
**Untuk mengambil daftar rute**  
`get-routes`Contoh berikut menampilkan daftar semua rute API.  

```
aws apigatewayv2 get-routes \
    --api-id a1b2c3d4
```
Output:  

```
{
    "Items": [
        {
            "ApiKeyRequired": false,
            "AuthorizationType": "NONE",
            "RouteId": "72jz1wk",
            "RouteKey": "ANY /admin",
            "Target": "integrations/a1b2c3"
        },
        {
            "ApiGatewayManaged": true,
            "ApiKeyRequired": false,
            "AuthorizationType": "NONE",
            "RouteId": "go65gqi",
            "RouteKey": "$default",
            "Target": "integrations/a1b2c4"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan rute untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-routes.html) di *Panduan Pengembang Amazon API Gateway*  
+  Untuk detail API, lihat [GetRoutes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-routes.html)di *Referensi AWS CLI Perintah*. 

### `get-routing-rule`
<a name="apigatewayv2_GetRoutingRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-routing-rule`.

**AWS CLI**  
**Untuk mendapatkan aturan routing**  
`get-routing-rule`Contoh berikut mendapat aturan routing untuk nama domain.  

```
aws apigatewayv2 get-routing-rule \
    --domain-name 'regional.example.com' \
    --routing-rule-id aaa111
```
Output:  

```
{
    "Actions": [
        {
            "InvokeApi": {
                "ApiId": "abcd1234",
                "Stage": "prod",
                "StripBasePath": false
            }
        }
    ],
    "Conditions": [
        {
            "MatchBasePaths": {
                "AnyOf": [
                    "PetStoreShopper"
                ]
            }
        }
    ],
    "Priority": 50,
    "RoutingRuleArn": "arn:aws:apigateway:us-east-2:123456789012:/domainnames/regional.example.com/routingrules/aaa111",
    "RoutingRuleId": "aaa111"
}
```
Untuk informasi selengkapnya, lihat [Aturan perutean untuk menghubungkan tahapan API ke nama domain khusus untuk REST APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/rest-api-routing-rules.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetRoutingRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-routing-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-stage`
<a name="apigatewayv2_GetStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stage`.

**AWS CLI**  
**Untuk mengambil informasi tentang suatu panggung**  
`get-stage`Contoh berikut menampilkan informasi tentang `prod` tahap API.  

```
aws apigatewayv2 get-stage \
    --api-id a1b2c3d4 \
    --stage-name prod
```
Output:  

```
{
    "CreatedDate": "2020-04-08T00:36:05Z",
    "DefaultRouteSettings": {
        "DetailedMetricsEnabled": false
    },
    "DeploymentId": "x1zwyv",
    "LastUpdatedDate": "2020-04-08T00:36:13Z",
    "RouteSettings": {},
    "StageName": "prod",
    "StageVariables": {
        "function": "my-prod-function"
    },
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tahapan untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-stages.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-stage.html)di *Referensi AWS CLI Perintah*. 

### `get-stages`
<a name="apigatewayv2_GetStages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stages`.

**AWS CLI**  
**Untuk mengambil daftar tahapan**  
`get-stages`Contoh berikut mencantumkan semua tahapan API.  

```
aws apigatewayv2 get-stages \
    --api-id a1b2c3d4
```
Output:  

```
{
    "Items": [
        {
            "ApiGatewayManaged": true,
            "AutoDeploy": true,
            "CreatedDate": "2020-04-08T00:08:44Z",
            "DefaultRouteSettings": {
                "DetailedMetricsEnabled": false
            },
            "DeploymentId": "dty748",
            "LastDeploymentStatusMessage": "Successfully deployed stage with deployment ID 'dty748'",
            "LastUpdatedDate": "2020-04-08T00:09:49Z",
            "RouteSettings": {},
            "StageName": "$default",
            "StageVariables": {},
            "Tags": {}
        },
        {
            "AutoDeploy": true,
            "CreatedDate": "2020-04-08T00:35:06Z",
            "DefaultRouteSettings": {
                "DetailedMetricsEnabled": false
            },
            "LastUpdatedDate": "2020-04-08T00:35:48Z",
            "RouteSettings": {},
            "StageName": "dev",
            "StageVariables": {
                "function": "my-dev-function"
            },
            "Tags": {}
        },
        {
            "CreatedDate": "2020-04-08T00:36:05Z",
            "DefaultRouteSettings": {
                "DetailedMetricsEnabled": false
            },
            "DeploymentId": "x1zwyv",
            "LastUpdatedDate": "2020-04-08T00:36:13Z",
            "RouteSettings": {},
            "StageName": "prod",
            "StageVariables": {
                "function": "my-prod-function"
            },
            "Tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tahapan untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-stages.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetStages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-stages.html)di *Referensi AWS CLI Perintah*. 

### `get-tags`
<a name="apigatewayv2_GetTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-tags`.

**AWS CLI**  
**Untuk mengambil daftar tag untuk sumber daya**  
`get-tags`Contoh berikut mencantumkan semua tag API.  

```
aws apigatewayv2 get-tags \
    --resource-arn arn:aws:apigateway:us-west-2::/apis/a1b2c3d4
```
Output:  

```
{
    "Tags": {
        "owner": "dev-team",
        "environment": "prod"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai resource API Gateway Anda](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-tagging.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-tags.html)di *Referensi AWS CLI Perintah*. 

### `get-vpc-link`
<a name="apigatewayv2_GetVpcLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vpc-link`.

**AWS CLI**  
**Untuk mengambil informasi tentang tautan VPC**  
`get-vpc-link`Contoh berikut menampilkan informasi tentang link VPC.  

```
aws apigatewayv2 get-vpc-link \
    --vpc-link-id abcd123
```
Output:  

```
{
    "CreatedDate": "2020-04-07T00:27:47Z",
    "Name": "MyVpcLink",
    "SecurityGroupIds": [
        "sg1234",
        "sg5678"
    ],
    "SubnetIds": [
        "subnet-aaaa",
        "subnet-bbbb"
    ],
    "Tags": {},
    "VpcLinkId": "abcd123",
    "VpcLinkStatus": "AVAILABLE",
    "VpcLinkStatusMessage": "VPC link is ready to route traffic",
    "VpcLinkVersion": "V2"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tautan VPC untuk HTTP APIs di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-vpc-links.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetVpcLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-vpc-link.html)di *Referensi AWS CLI Perintah*. 

### `get-vpc-links`
<a name="apigatewayv2_GetVpcLinks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vpc-links`.

**AWS CLI**  
**Untuk mengambil daftar tautan VPC**  
`get-vpc-links`Contoh berikut menampilkan daftar semua link VPC untuk pengguna saat ini.  

```
aws apigatewayv2 get-vpc-links
```
Output:  

```
{
    "Items": [
        {
            "CreatedDate": "2020-04-07T00:27:47Z",
            "Name": "MyVpcLink",
            "SecurityGroupIds": [
                "sg1234",
                "sg5678"
            ],
            "SubnetIds": [
                "subnet-aaaa",
                "subnet-bbbb"
            ],
            "Tags": {},
            "VpcLinkId": "abcd123",
            "VpcLinkStatus": "AVAILABLE",
            "VpcLinkStatusMessage": "VPC link is ready to route traffic",
            "VpcLinkVersion": "V2"
        }
        {
            "CreatedDate": "2020-04-07T00:27:47Z",
            "Name": "MyOtherVpcLink",
            "SecurityGroupIds": [
                "sg1234",
                "sg5678"
            ],
            "SubnetIds": [
                "subnet-aaaa",
                "subnet-bbbb"
            ],
            "Tags": {},
            "VpcLinkId": "abcd456",
            "VpcLinkStatus": "AVAILABLE",
            "VpcLinkStatusMessage": "VPC link is ready to route traffic",
            "VpcLinkVersion": "V2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tautan VPC untuk HTTP APIs di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-vpc-links.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetVpcLinks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/get-vpc-links.html)di *Referensi AWS CLI Perintah*. 

### `import-api`
<a name="apigatewayv2_ImportApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-api`.

**AWS CLI**  
**Untuk mengimpor API HTTP**  
`import-api`Contoh berikut membuat API HTTP dari file definisi OpenAPI 3.0 bernama. `api-definition.yaml`  

```
aws apigatewayv2 import-api \
    --body file://api-definition.yaml
```
Isi dari `api-definition.yaml`:  

```
openapi: 3.0.1
info:
    title: My Lambda API
    version: v1.0
paths:
    /hello:
        x-amazon-apigateway-any-method:
            x-amazon-apigateway-integration:
                payloadFormatVersion: 2.0
                type: aws_proxy
                httpMethod: POST
                uri: arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123456789012:function:hello/invocations
                connectionType: INTERNET
```
Output:  

```
{
    "ApiEndpoint": "https://a1b2c3d4.execute-api.us-west-2.amazonaws.com",
    "ApiId": "a1b2c3d4",
    "ApiKeySelectionExpression": "$request.header.x-api-key",
    "CreatedDate": "2020-04-08T17:19:38+00:00",
    "Name": "My Lambda API",
    "ProtocolType": "HTTP",
    "RouteSelectionExpression": "$request.method $request.path",
    "Tags": {},
    "Version": "v1.0"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan definisi OpenAPI untuk HTTP APIs di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-open-api.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [ImportApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/import-api.html)di *Referensi AWS CLI Perintah*. 

### `list-routing-rules`
<a name="apigatewayv2_ListRoutingRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-routing-rules`.

**AWS CLI**  
**Untuk membuat daftar aturan perutean**  
`list-routing-rules`Contoh berikut mencantumkan aturan routing untuk nama domain.  

```
aws apigatewayv2 list-routing-rules \
    --domain-name 'regional.example.com'
```
Output:  

```
{
    "RoutingRules": [
        {
            "Actions": [
                {
                    "InvokeApi": {
                        "ApiId": "abcd1234",
                        "Stage": "prod",
                        "StripBasePath": false
                    }
                }
            ],
            "Conditions": [
                {
                    "MatchBasePaths": {
                        "AnyOf": [
                            "PetStoreShopper"
                        ]
                    }
                }
            ],
            "Priority": 150,
            "RoutingRuleArn": "arn:aws:apigateway:us-east-1:123456789012:/domainnames/regional.example.com/routingrules/aaa111",
            "RoutingRuleId": "aaa111"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Aturan perutean untuk menghubungkan tahapan API ke nama domain khusus untuk REST APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/rest-api-routing-rules.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [ListRoutingRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/list-routing-rules.html)di *Referensi AWS CLI Perintah*. 

### `put-routing-rule`
<a name="apigatewayv2_PutRoutingRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-routing-rule`.

**AWS CLI**  
**Untuk memperbarui aturan perutean**  
`put-routing-rule`Contoh berikut memperbarui prioritas aturan routing.  

```
aws apigatewayv2 put-routing-rule \
    --domain-name 'regional.example.com' \
    --priority 150 \
    --conditions '[ \
        { \
            "MatchBasePaths": { \
                "AnyOf": [ \
                    "PetStoreShopper" \
                ] \
            } \
        } \
    ]' \
    --actions '[ \
        { \
            "InvokeApi": { \
                "ApiId": "abcd1234", \
                "Stage": "prod" \
            } \
        } \
    ]'
```
Output:  

```
{
    "Actions": [
        {
            "InvokeApi": {
                "ApiId": "abcd1234",
                "Stage": "prod",
                "StripBasePath": false
            }
        }
    ],
    "Conditions": [
        {
            "MatchBasePaths": {
                "AnyOf": [
                    "PetStoreShopper"
                ]
            }
        }
    ],
    "Priority": 150,
    "RoutingRuleArn": "arn:aws:apigateway:us-east-2:123456789012:/domainnames/regional.example.com/routingrules/aaa111",
    "RoutingRuleId": "aaa111"
}
```
Untuk informasi selengkapnya, lihat [Aturan perutean untuk menghubungkan tahapan API ke nama domain khusus untuk REST APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/rest-api-routing-rules.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [PutRoutingRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/put-routing-rule.html)di *Referensi AWS CLI Perintah*. 

### `reimport-api`
<a name="apigatewayv2_ReimportApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reimport-api`.

**AWS CLI**  
**Untuk mengimpor ulang API HTTP**  
`reimport-api`Contoh berikut memperbarui API HTTP yang ada untuk menggunakan definisi OpenAPI 3.0 yang ditentukan dalam. `api-definition.yaml`  

```
aws apigatewayv2 reimport-api \
    --body file://api-definition.yaml \
    --api-id a1b2c3d4
```
Isi dari `api-definition.yaml`:  

```
openapi: 3.0.1
info:
    title: My Lambda API
    version: v1.0
paths:
    /hello:
        x-amazon-apigateway-any-method:
            x-amazon-apigateway-integration:
                payloadFormatVersion: 2.0
                type: aws_proxy
                httpMethod: POST
                uri: arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:12356789012:function:hello/invocations
                connectionType: INTERNET
```
Output:  

```
{
    "ApiEndpoint": "https://a1b2c3d4.execute-api.us-west-2.amazonaws.com",
    "ApiId": "a1b2c3d4",
    "ApiKeySelectionExpression": "$request.header.x-api-key",
    "CreatedDate": "2020-04-08T17:19:38+00:00",
    "Name": "My Lambda API",
    "ProtocolType": "HTTP",
    "RouteSelectionExpression": "$request.method $request.path",
    "Tags": {},
    "Version": "v1.0"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan definisi OpenAPI untuk HTTP APIs di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-open-api.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [ReimportApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/reimport-api.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="apigatewayv2_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut menambahkan tag dengan nama kunci `Department` dan nilai `Accounting` ke API yang ditentukan.  

```
aws apigatewayv2 tag-resource \
    --resource-arn arn:aws:apigateway:us-west-2::/apis/a1b2c3d4 \
    --tags Department=Accounting
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai resource API Gateway Anda](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-tagging.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="apigatewayv2_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag dengan nama kunci `Project` dan `Owner` dari API yang ditentukan.  

```
aws apigatewayv2 untag-resource \
    --resource-arn arn:aws:apigateway:us-west-2::/apis/a1b2c3d4 \
    --tag-keys Project Owner
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai resource API Gateway Anda](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-tagging.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-api-mapping`
<a name="apigatewayv2_UpdateApiMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-api-mapping`.

**AWS CLI**  
**Untuk memperbarui pemetaan API**  
`update-api-mapping`Contoh berikut mengubah pemetaan API untuk nama domain kustom. Akibatnya, URL dasar yang menggunakan nama domain khusus untuk API dan tahap yang ditentukan menjadi`https://api.example.com/dev`.  

```
aws apigatewayv2 update-api-mapping \
    --api-id a1b2c3d4 \
    --stage dev \
    --domain-name api.example.com \
    --api-mapping-id 0qzs2sy7bh \
    --api-mapping-key dev
```
Output:  

```
{
    "ApiId": "a1b2c3d4",
    "ApiMappingId": "0qzs2sy7bh",
    "ApiMappingKey": "dev"
    "Stage": "dev"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateApiMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-api-mapping.html)di *Referensi AWS CLI Perintah*. 

### `update-api`
<a name="apigatewayv2_UpdateApi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-api`.

**AWS CLI**  
**Untuk mengaktifkan CORS untuk HTTP API**  
`update-api`Contoh berikut memperbarui konfigurasi CORS API yang ditentukan untuk mengizinkan permintaan dari`https://www.example.com`.  

```
aws apigatewayv2 update-api \
    --api-id a1b2c3d4 \
    --cors-configuration AllowOrigins=https://www.example.com
```
Output:  

```
{
    "ApiEndpoint": "https://a1b2c3d4.execute-api.us-west-2.amazonaws.com",
    "ApiId": "a1b2c3d4",
    "ApiKeySelectionExpression": "$request.header.x-api-key",
    "CorsConfiguration": {
        "AllowCredentials": false,
        "AllowHeaders": [
            "header1",
            "header2"
        ],
        "AllowMethods": [
            "GET",
            "OPTIONS"
        ],
        "AllowOrigins": [
            "https://www.example.com"
        ]
    },
    "CreatedDate": "2020-04-08T18:39:37+00:00",
    "Name": "my-http-api",
    "ProtocolType": "HTTP",
    "RouteSelectionExpression": "$request.method $request.path",
    "Tags": {},
    "Version": "v1.0"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi CORS untuk API HTTP di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-cors.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateApi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-api.html)di *Referensi AWS CLI Perintah*. 

### `update-authorizer`
<a name="apigatewayv2_UpdateAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-authorizer`.

**AWS CLI**  
**Untuk memperbarui otorisasi**  
`update-authorizer`Contoh berikut mengubah sumber identitas otorisasi JWT menjadi header bernama. `Authorization`  

```
aws apigatewayv2 update-authorizer \
    --api-id a1b2c3d4 \
    --authorizer-id a1b2c3 \
    --identity-source '$request.header.Authorization'
```
Output:  

```
{
    "AuthorizerId": "a1b2c3",
    "AuthorizerType": "JWT",
    "IdentitySource": [
        "$request.header.Authorization"
    ],
    "JwtConfiguration": {
        "Audience": [
            "123456abc"
        ],
        "Issuer": "https://cognito-idp.us-west-2.amazonaws.com/us-west-2_abc123"
    },
    "Name": "my-jwt-authorizer"
}
```
Untuk informasi selengkapnya, lihat [Mengontrol akses ke HTTP APIs dengan otorisasi JWT di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-jwt-authorizer.html) Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `update-deployment`
<a name="apigatewayv2_UpdateDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-deployment`.

**AWS CLI**  
**Untuk mengubah deskripsi penerapan**  
`update-deployment`Contoh berikut memperbarui deskripsi penerapan.  

```
aws apigatewayv2 update-deployment \
    --api-id a1b2c3d4 \
    --deployment-id abcdef \
    --description 'Manual deployment to fix integration test failures.'
```
Output:  

```
{
    "AutoDeployed": false,
    "CreatedDate": "2020-02-05T16:21:48+00:00",
    "DeploymentId": "abcdef",
    "DeploymentStatus": "DEPLOYED",
    "Description": "Manual deployment to fix integration test failures."
}
```
Untuk informasi selengkapnya, lihat [Mengembangkan API HTTP di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-deployment.html)di *Referensi AWS CLI Perintah*. 

### `update-domain-name`
<a name="apigatewayv2_UpdateDomainName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-domain-name`.

**AWS CLI**  
**Untuk memperbarui nama domain kustom**  
`update-domain-name`Contoh berikut menentukan sertifikat ACM baru untuk nama domain `api.example.com` kustom.  

```
aws apigatewayv2 update-domain-name \
    --domain-name api.example.com \
    --domain-name-configurations CertificateArn=arn:aws:acm:us-west-2:123456789012:certificate/123456789012-1234-1234-1234-12345678
```
Output:  

```
{
    "ApiMappingSelectionExpression": "$request.basepath",
    "DomainName": "regional.example.com",
    "DomainNameConfigurations": [
        {
            "ApiGatewayDomainName": "d-id.execute-api.us-west-2.amazonaws.com",
            "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/123456789012-1234-1234-1234-12345678",
            "EndpointType": "REGIONAL",
            "HostedZoneId": "123456789111",
            "SecurityPolicy": "TLS_1_2",
            "DomainNameStatus": "AVAILABLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan nama domain kustom regional di API Gateway](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-regional-api-custom-domain-create.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateDomainName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-domain-name.html)di *Referensi AWS CLI Perintah*. 

### `update-integration`
<a name="apigatewayv2_UpdateIntegration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-integration`.

**AWS CLI**  
**Untuk memperbarui integrasi Lambda**  
`update-integration`Contoh berikut memperbarui integrasi AWS Lambda yang ada untuk menggunakan fungsi Lambda yang ditentukan.  

```
aws apigatewayv2 update-integration \
    --api-id a1b2c3d4 \
    --integration-id a1b2c3 \
    --integration-uri arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123456789012:function:my-new-function/invocations
```
Output:  

```
{
    "ConnectionType": "INTERNET",
    "IntegrationId": "a1b2c3",
    "IntegrationMethod": "POST",
    "IntegrationType": "AWS_PROXY",
    "IntegrationUri": "arn:aws:apigateway:us-west-2:lambda:path/2015-03-31/functions/arn:aws:lambda:us-west-2:123456789012:function:my-new-function/invocations",
    "PayloadFormatVersion": "2.0",
    "TimeoutInMillis": 5000
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi integrasi untuk HTTP APIs](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-develop-integrations.html) dan [Menyiapkan integrasi WebSocket API](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-websocket-api-integrations.html) di Panduan Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateIntegration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-integration.html)di *Referensi AWS CLI Perintah*. 

### `update-route`
<a name="apigatewayv2_UpdateRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-route`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui integrasi rute**  
`update-route`Contoh berikut memperbarui integrasi rute tertentu.  

```
aws apigatewayv2 update-route \
    --api-id a1b2c3d4 \
    --route-id a1b2c3 \
    --target integrations/a1b2c6
```
Output:  

```
{
    "ApiKeyRequired": false,
    "AuthorizationType": "NONE",
    "RouteId": "a1b2c3",
    "RouteKey": "ANY /pets",
    "Target": "integrations/a1b2c6"
}
```
**Contoh 2: Untuk menambahkan otorisasi ke rute**  
`update-route`Contoh berikut memperbarui rute yang ditentukan untuk menggunakan otorisasi JWT.  

```
aws apigatewayv2 update-route \
    --api-id a1b2c3d4  \
    --route-id a1b2c3  \
    --authorization-type JWT \
    --authorizer-id a1b2c5 \
    --authorization-scopes user.id user.email
```
Output:  

```
{
    "ApiKeyRequired": false,
    "AuthorizationScopes": [
        "user.id",
        "user.email"
    ],
    "AuthorizationType": "JWT",
    "AuthorizerId": "a1b2c5",
    "OperationName": "GET HTTP",
    "RequestParameters": {},
    "RouteId": "a1b2c3",
    "RouteKey": "GET /pets",
    "Target": "integrations/a1b2c6"
}
```
Untuk informasi selengkapnya, lihat [Mengontrol akses ke HTTP APIs dengan otorisasi JWT di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-jwt-authorizer.html) Pengembang *Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-route.html)di *Referensi AWS CLI Perintah*. 

### `update-stage`
<a name="apigatewayv2_UpdateStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-stage`.

**AWS CLI**  
**Untuk mengonfigurasi pelambatan khusus**  
`update-stage`Contoh berikut mengonfigurasi pelambatan kustom untuk tahap dan rute API yang ditentukan.  

```
aws apigatewayv2 update-stage \
    --api-id a1b2c3d4 \
    --stage-name dev \
    --route-settings '{"GET /pets":{"ThrottlingBurstLimit":100,"ThrottlingRateLimit":2000}}'
```
Output:  

```
{
    "CreatedDate": "2020-04-05T16:21:16+00:00",
    "DefaultRouteSettings": {
        "DetailedMetricsEnabled": false
    },
    "DeploymentId": "shktxb",
    "LastUpdatedDate": "2020-04-08T22:23:17+00:00",
    "RouteSettings": {
        "GET /pets": {
            "ThrottlingBurstLimit": 100,
            "ThrottlingRateLimit": 2000.0
        }
    },
    "StageName": "dev",
    "StageVariables": {},
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [Melindungi API HTTP Anda](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-protect.html) di *Panduan Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-stage.html)di *Referensi AWS CLI Perintah*. 

### `update-vpc-link`
<a name="apigatewayv2_UpdateVpcLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-vpc-link`.

**AWS CLI**  
**Untuk memperbarui tautan VPC**  
`update-vpc-link`Contoh berikut memperbarui nama tautan VPC. Setelah membuat tautan VPC, Anda tidak dapat mengubah grup keamanan atau subnetnya.  

```
aws apigatewayv2 update-vpc-link \
    --vpc-link-id abcd123 \
    --name MyUpdatedVpcLink
```
Output:  

```
{
    "CreatedDate": "2020-04-07T00:27:47Z",
    "Name": "MyUpdatedVpcLink",
    "SecurityGroupIds": [
        "sg1234",
        "sg5678"
    ],
    "SubnetIds": [
        "subnet-aaaa",
        "subnet-bbbb"
    ],
    "Tags": {},
    "VpcLinkId": "abcd123",
    "VpcLinkStatus": "AVAILABLE",
    "VpcLinkStatusMessage": "VPC link is ready to route traffic",
    "VpcLinkVersion": "V2"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tautan VPC untuk HTTP APIs di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/http-api-vpc-links.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [UpdateVpcLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewayv2/update-vpc-link.html)di *Referensi AWS CLI Perintah*. 

# Contoh API Gateway Management API menggunakan AWS CLI
<a name="cli_2_apigatewaymanagementapi_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS Command Line Interface dengan menggunakan API Gateway Management API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-connection`
<a name="apigatewaymanagementapi_DeleteConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-connection`.

**AWS CLI**  
**Untuk menghapus WebSocket koneksi**  
`delete-connection`Contoh berikut memutus klien dari WebSocket API yang ditentukan.  

```
aws apigatewaymanagementapi delete-connection \
    --connection-id L0SM9cOFvHcCIhw= \
    --endpoint-url https://aabbccddee.execute-api.us-west-2.amazonaws.com/prod
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan perintah @connections di layanan backend Anda di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-how-to-call-websocket-api-connections.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [DeleteConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewaymanagementapi/delete-connection.html)di *Referensi AWS CLI Perintah*. 

### `get-connection`
<a name="apigatewaymanagementapi_GetConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connection`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang WebSocket koneksi**  
`get-connection`Contoh berikut menjelaskan koneksi ke WebSocket API yang ditentukan.  

```
aws apigatewaymanagementapi get-connection \
    --connection-id L0SM9cOFvHcCIhw= \
    --endpoint-url https://aabbccddee.execute-api.us-west-2.amazonaws.com/prod
```
Output:  

```
{
    "ConnectedAt": "2020-04-30T20:10:33.236Z",
    "Identity": {
        "SourceIp": "192.0.2.1"
    },
    "LastActiveAt": "2020-04-30T20:10:42.997Z"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan perintah @connections di layanan backend Anda di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-how-to-call-websocket-api-connections.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [GetConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewaymanagementapi/get-connection.html)di *Referensi AWS CLI Perintah*. 

### `post-to-connection`
<a name="apigatewaymanagementapi_PostToConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`post-to-connection`.

**AWS CLI**  
**Untuk mengirim data ke WebSocket koneksi**  
`post-to-connection`Contoh berikut mengirimkan pesan ke klien yang terhubung ke WebSocket API yang ditentukan.  

```
aws apigatewaymanagementapi post-to-connection \
    --connection-id L0SM9cOFvHcCIhw= \
    --data "Hello from API Gateway!" \
    --endpoint-url https://aabbccddee.execute-api.us-west-2.amazonaws.com/prod
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan perintah @connections di layanan backend Anda di Panduan](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-how-to-call-websocket-api-connections.html) *Pengembang Amazon API Gateway*.  
+  Untuk detail API, lihat [PostToConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apigatewaymanagementapi/post-to-connection.html)di *Referensi AWS CLI Perintah*. 

# Contoh App Mesh menggunakan AWS CLI
<a name="cli_2_app-mesh_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan App Mesh AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-mesh`
<a name="app-mesh_CreateMesh_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-mesh`.

**AWS CLI**  
**Contoh 1: Untuk membuat mesh layanan baru**  
`create-mesh`Contoh berikut membuat mesh layanan.  

```
aws appmesh create-mesh \
    --mesh-name app1
```
Output:  

```
{
    "mesh":{
        "meshName":"app1",
        "metadata":{
            "arn":"arn:aws:appmesh:us-east-1:123456789012:mesh/app1",
            "createdAt":1563809909.282,
            "lastUpdatedAt":1563809909.282,
            "uid":"a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version":1
        },
        "spec":{},
        "status":{
            "status":"ACTIVE"
        }
    }
}
```
**Contoh 2: Untuk membuat mesh layanan baru dengan beberapa tag**  
`create-mesh`Contoh berikut membuat mesh layanan dengan beberapa tag.  

```
aws appmesh create-mesh \
    --mesh-name app2 \
    --tags key=key1,value=value1 key=key2,value=value2 key=key3,value=value3
```
Output:  

```
{
    "mesh":{
        "meshName":"app2",
        "metadata":{
            "arn":"arn:aws:appmesh:us-east-1:123456789012:mesh/app2",
            "createdAt":1563822121.877,
            "lastUpdatedAt":1563822121.877,
            "uid":"a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version":1
        },
        "spec":{},
        "status":{
            "status":"ACTIVE"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Service Meshes](https://docs.aws.amazon.com/app-mesh/latest/userguide/meshes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [CreateMesh](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/create-mesh.html)di *Referensi AWS CLI Perintah*. 

### `create-route`
<a name="app-mesh_CreateRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-route`.

**AWS CLI**  
**Untuk membuat rute gRPC baru**  
`create-route`Contoh berikut menggunakan file input JSON untuk membuat rute gRPC. Lalu lintas GRPC yang memiliki metadata yang dimulai dengan 123 dirutekan ke node virtual bernama ServiceBGRPC. Jika ada kegagalan gRPC, HTTP, atau TCP tertentu saat mencoba berkomunikasi dengan target rute, rute dicoba ulang tiga kali. Ada penundaan 15 detik antara setiap upaya coba lagi.  

```
aws appmesh create-route \
    --cli-input-json file://create-route-grpc.json
```
Isi dari `create-route-grpc.json`:  

```
{
    "meshName" : "apps",
    "routeName" : "grpcRoute",
    "spec" : {
       "grpcRoute" : {
          "action" : {
             "weightedTargets" : [
                {
                   "virtualNode" : "serviceBgrpc",
                   "weight" : 100
                }
             ]
          },
          "match" : {
             "metadata" : [
                {
                   "invert" : false,
                   "match" : {
                      "prefix" : "123"
                   },
                   "name" : "myMetadata"
                }
             ],
             "methodName" : "GetColor",
             "serviceName" : "com.amazonaws.services.ColorService"
          },
          "retryPolicy" : {
             "grpcRetryEvents" : [ "deadline-exceeded" ],
             "httpRetryEvents" : [ "server-error", "gateway-error" ],
             "maxRetries" : 3,
             "perRetryTimeout" : {
                "unit" : "s",
                "value" : 15
             },
             "tcpRetryEvents" : [ "connection-error" ]
          }
       },
       "priority" : 100
    },
    "virtualRouterName" : "serviceBgrpc"
}
```
Output:  

```
{
    "route": {
        "meshName": "apps",
        "metadata": {
            "arn": "arn:aws:appmesh:us-west-2:123456789012:mesh/apps/virtualRouter/serviceBgrpc/route/grpcRoute",
            "createdAt": 1572010806.008,
            "lastUpdatedAt": 1572010806.008,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "routeName": "grpcRoute",
        "spec": {
            "grpcRoute": {
                "action": {
                    "weightedTargets": [
                        {
                            "virtualNode": "serviceBgrpc",
                            "weight": 100
                        }
                    ]
                },
                "match": {
                    "metadata": [
                        {
                            "invert": false,
                            "match": {
                                "prefix": "123"
                            },
                            "name": "mymetadata"
                        }
                    ],
                    "methodName": "GetColor",
                    "serviceName": "com.amazonaws.services.ColorService"
                },
                "retryPolicy": {
                    "grpcRetryEvents": [
                        "deadline-exceeded"
                    ],
                    "httpRetryEvents": [
                        "server-error",
                        "gateway-error"
                    ],
                    "maxRetries": 3,
                    "perRetryTimeout": {
                        "unit": "s",
                        "value": 15
                    },
                    "tcpRetryEvents": [
                        "connection-error"
                    ]
                }
            },
            "priority": 100
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualRouterName": "serviceBgrpc"
    }
}
```
**Untuk membuat rute HTTP atau HTTP/2 baru**  
`create-route`Contoh berikut menggunakan file input JSON untuk membuat rute HTTP/2. Untuk membuat rute HTTP, ganti Http2Route dengan HttpRoute di bawah spesifikasi. Semua lalu lintas HTTP/2 yang ditujukan ke awalan URL apa pun yang memiliki nilai header yang dimulai dengan 123 dirutekan ke node virtual bernama ServiceBHTTP2. Jika ada kegagalan HTTP atau TCP tertentu ketika mencoba berkomunikasi dengan target rute, rute dicoba ulang tiga kali. Ada penundaan 15 detik antara setiap upaya coba lagi.  

```
aws appmesh create-route \
    --cli-input-json file://create-route-http2.json
```
Isi dari `create-route-http2.json`:  

```
{
    "meshName": "apps",
    "routeName": "http2Route",
    "spec": {
        "http2Route": {
            "action": {
                "weightedTargets": [
                    {
                        "virtualNode": "serviceBhttp2",
                        "weight": 100
                    }
                ]
            },
            "match": {
                "headers": [
                    {
                        "invert": false,
                        "match": {
                            "prefix": "123"
                        },
                        "name": "clientRequestId"
                    }
                ],
                "method": "POST",
                "prefix": "/",
                "scheme": "http"
            },
            "retryPolicy": {
                "httpRetryEvents": [
                    "server-error",
                    "gateway-error"
                ],
                "maxRetries": 3,
                "perRetryTimeout": {
                    "unit": "s",
                    "value": 15
                },
                "tcpRetryEvents": [
                    "connection-error"
                ]
            }
        },
        "priority": 200
    },
    "virtualRouterName": "serviceBhttp2"
}
```
Output:  

```
{
    "route": {
        "meshName": "apps",
        "metadata": {
            "arn": "arn:aws:appmesh:us-west-2:123456789012:mesh/apps/virtualRouter/serviceBhttp2/route/http2Route",
            "createdAt": 1572011008.352,
            "lastUpdatedAt": 1572011008.352,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "routeName": "http2Route",
        "spec": {
            "http2Route": {
                "action": {
                    "weightedTargets": [
                        {
                            "virtualNode": "serviceBhttp2",
                            "weight": 100
                        }
                    ]
                },
                "match": {
                    "headers": [
                        {
                            "invert": false,
                            "match": {
                                "prefix": "123"
                            },
                            "name": "clientRequestId"
                        }
                    ],
                    "method": "POST",
                    "prefix": "/",
                    "scheme": "http"
                },
                "retryPolicy": {
                    "httpRetryEvents": [
                        "server-error",
                        "gateway-error"
                    ],
                    "maxRetries": 3,
                    "perRetryTimeout": {
                        "unit": "s",
                        "value": 15
                    },
                    "tcpRetryEvents": [
                        "connection-error"
                    ]
                }
            },
            "priority": 200
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualRouterName": "serviceBhttp2"
    }
}
```
**Untuk membuat rute TCP baru**  
`create-route`Contoh berikut menggunakan file input JSON untuk membuat rute TCP. 75 persen lalu lintas dirutekan ke node virtual bernama ServiceBTCP, dan 25 persen lalu lintas dirutekan ke node virtual bernama ServiceBV2TCP. Menentukan bobot yang berbeda untuk target yang berbeda adalah cara yang efektif untuk melakukan penerapan versi baru aplikasi. Anda dapat menyesuaikan bobot sehingga pada akhirnya, 100 persen dari semua lalu lintas diarahkan ke target yang memiliki versi baru aplikasi.  

```
aws appmesh create-route \
    --cli-input-json file://create-route-tcp.json
```
Isi dari create-route-tcp .json:  

```
{
    "meshName": "apps",
    "routeName": "tcpRoute",
    "spec": {
        "priority": 300,
        "tcpRoute": {
            "action": {
                "weightedTargets": [
                    {
                        "virtualNode": "serviceBtcp",
                        "weight": 75
                    },
                    {
                        "virtualNode": "serviceBv2tcp",
                        "weight": 25
                    }
                ]
            }
        }
    },
    "virtualRouterName": "serviceBtcp"
}
```
Output:  

```
{
    "route": {
        "meshName": "apps",
        "metadata": {
            "arn": "arn:aws:appmesh:us-west-2:123456789012:mesh/apps/virtualRouter/serviceBtcp/route/tcpRoute",
            "createdAt": 1572011436.26,
            "lastUpdatedAt": 1572011436.26,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "routeName": "tcpRoute",
        "spec": {
            "priority": 300,
            "tcpRoute": {
                "action": {
                    "weightedTargets": [
                        {
                            "virtualNode": "serviceBtcp",
                            "weight": 75
                        },
                        {
                            "virtualNode": "serviceBv2tcp",
                            "weight": 25
                        }
                    ]
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualRouterName": "serviceBtcp"
    }
}
```
Untuk informasi selengkapnya, lihat [Rute](https://docs.aws.amazon.com/app-mesh/latest/userguide/routes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [CreateRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/create-route.html)di *Referensi AWS CLI Perintah*. 

### `create-virtual-gateway`
<a name="app-mesh_CreateVirtualGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-virtual-gateway`.

**AWS CLI**  
**Untuk membuat gateway virtual baru**  
`create-virtual-gateway`Contoh berikut menggunakan file input JSON untuk membuat gateway virtual dengan pendengar untuk HTTP menggunakan port 9080.  

```
aws appmesh create-virtual-gateway \
    --mesh-name meshName \
    --virtual-gateway-name virtualGatewayName \
    --cli-input-json file://create-virtual-gateway.json
```
Isi dari `create-virtual-gateway.json`:  

```
{
    "spec": {
      "listeners": [
        {
          "portMapping": {
            "port": 9080,
            "protocol": "http"
          }
        }
      ]
    }
}
```
Output:  

```
{
    "virtualGateway": {
        "meshName": "meshName",
        "metadata": {
            "arn": "arn:aws:appmesh:us-west-2:123456789012:mesh/meshName/virtualGateway/virtualGatewayName",
            "createdAt": "2022-04-06T10:42:42.015000-05:00",
            "lastUpdatedAt": "2022-04-06T10:42:42.015000-05:00",
            "meshOwner": "123456789012",
            "resourceOwner": "123456789012",
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {
            "listeners": [
                {
                    "portMapping": {
                        "port": 9080,
                        "protocol": "http"
                    }
                }
            ]
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualGatewayName": "virtualGatewayName"
    }
}
```
Untuk informasi selengkapnya, lihat [Gateway Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_gateways.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [CreateVirtualGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/create-virtual-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-virtual-node`
<a name="app-mesh_CreateVirtualNode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-virtual-node`.

**AWS CLI**  
**Contoh 1: Untuk membuat node virtual baru yang menggunakan DNS untuk penemuan**  
`create-virtual-node`Contoh berikut menggunakan file input JSON untuk membuat node virtual yang menggunakan DNS untuk penemuan layanan.  

```
aws appmesh create-virtual-node \
    --cli-input-json file://create-virtual-node-dns.json
```
Isi dari `create-virtual-node-dns.json`:  

```
{
    "meshName": "app1",
    "spec": {
        "listeners": [
            {
                "portMapping": {
                    "port": 80,
                    "protocol": "http"
                }
            }
        ],
        "serviceDiscovery": {
            "dns": {
                "hostname": "serviceBv1.svc.cluster.local"
            }
        }
    },
    "virtualNodeName": "vnServiceBv1"
}
```
Output:  

```
{
    "virtualNode": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualNode/vnServiceBv1",
            "createdAt": 1563810019.874,
            "lastUpdatedAt": 1563810019.874,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {
            "listeners": [
                {
                    "portMapping": {
                        "port": 80,
                        "protocol": "http"
                    }
                }
            ],
            "serviceDiscovery": {
                "dns": {
                    "hostname": "serviceBv1.svc.cluster.local"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualNodeName": "vnServiceBv1"
    }
}
```
**Contoh 2: Untuk membuat node virtual baru yang menggunakan AWS Cloud Map untuk penemuan**  
`create-virtual-node`Contoh berikut menggunakan file input JSON untuk membuat node virtual yang menggunakan AWS Cloud Map untuk penemuan layanan.  

```
aws appmesh create-virtual-node \
    --cli-input-json file://create-virtual-node-cloud-map.json
```
Isi dari `create-virtual-node-cloud-map.json`:  

```
{
    "meshName": "app1",
    "spec": {
        "backends": [
            {
                "virtualService": {
                    "virtualServiceName": "serviceA.svc.cluster.local"
                }
            }
        ],
        "listeners": [
            {
                "portMapping": {
                    "port": 80,
                    "protocol": "http"
                }
            }
        ],
        "serviceDiscovery": {
            "awsCloudMap": {
                "attributes": [
                    {
                        "key": "Environment",
                        "value": "Testing"
                    }
                ],
                "namespaceName": "namespace1",
                "serviceName": "serviceA"
            }
        }
    },
    "virtualNodeName": "vnServiceA"
}
```
Output:  

```
{
    "virtualNode": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualNode/vnServiceA",
            "createdAt": 1563810859.465,
            "lastUpdatedAt": 1563810859.465,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {
            "backends": [
                {
                    "virtualService": {
                        "virtualServiceName": "serviceA.svc.cluster.local"
                    }
                }
            ],
            "listeners": [
                {
                    "portMapping": {
                        "port": 80,
                        "protocol": "http"
                    }
                }
            ],
            "serviceDiscovery": {
                "awsCloudMap": {
                    "attributes": [
                        {
                            "key": "Environment",
                            "value": "Testing"
                        }
                    ],
                    "namespaceName": "namespace1",
                    "serviceName": "serviceA"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualNodeName": "vnServiceA"
    }
}
```
Untuk informasi selengkapnya, lihat [Node Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_nodes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [CreateVirtualNode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/create-virtual-node.html)di *Referensi AWS CLI Perintah*. 

### `create-virtual-router`
<a name="app-mesh_CreateVirtualRouter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-virtual-router`.

**AWS CLI**  
**Untuk membuat router virtual baru**  
`create-virtual-router`Contoh berikut menggunakan file input JSON untuk membuat router virtual dengan pendengar untuk HTTP menggunakan port 80.  

```
aws appmesh create-virtual-router \
    --cli-input-json file://create-virtual-router.json
```
Isi dari `create-virtual-router.json`:  

```
{
    "meshName": "app1",
    "spec": {
        "listeners": [
            {
                "portMapping": {
                    "port": 80,
                    "protocol": "http"
                }
            }
        ]
    },
    "virtualRouterName": "vrServiceB"
}
```
Output:  

```
{
    "virtualRouter": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB",
            "createdAt": 1563810546.59,
            "lastUpdatedAt": 1563810546.59,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {
            "listeners": [
                {
                    "portMapping": {
                        "port": 80,
                        "protocol": "http"
                    }
                }
            ]
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualRouterName": "vrServiceB"
    }
}
```
Untuk informasi selengkapnya, lihat [Router Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_routers.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [CreateVirtualRouter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/create-virtual-router.html)di *Referensi AWS CLI Perintah*. 

### `create-virtual-service`
<a name="app-mesh_CreateVirtualService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-virtual-service`.

**AWS CLI**  
**Contoh 1: Untuk membuat layanan virtual baru dengan penyedia node virtual**  
`create-virtual-service`Contoh berikut menggunakan file input JSON untuk membuat layanan virtual dengan penyedia node virtual.  

```
aws appmesh create-virtual-service \
    --cli-input-json file://create-virtual-service-virtual-node.json
```
Isi dari `create-virtual-service-virtual-node.json`:  

```
{
    "meshName": "app1",
    "spec": {
        "provider": {
            "virtualNode": {
                "virtualNodeName": "vnServiceA"
            }
        }
    },
    "virtualServiceName": "serviceA.svc.cluster.local"
}
```
Output:  

```
{
    "virtualService": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualService/serviceA.svc.cluster.local",
            "createdAt": 1563810859.474,
            "lastUpdatedAt": 1563810967.179,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 2
        },
        "spec": {
            "provider": {
                "virtualNode": {
                    "virtualNodeName": "vnServiceA"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualServiceName": "serviceA.svc.cluster.local"
    }
}
```
Untuk informasi selengkapnya, lihat [Node Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_nodes.html) di *Panduan Pengguna AWS App Mesh*.  
**Contoh 2: Untuk membuat layanan virtual baru dengan penyedia router virtual**  
`create-virtual-service`Contoh berikut menggunakan file input JSON untuk membuat layanan virtual dengan penyedia router virtual.  

```
aws appmesh create-virtual-service \
    --cli-input-json file://create-virtual-service-virtual-router.json
```
Isi dari `create-virtual-service-virtual-router.json`:  

```
{
    "meshName": "app1",
    "spec": {
        "provider": {
            "virtualRouter": {
                "virtualRouterName": "vrServiceB"
            }
        }
    },
    "virtualServiceName": "serviceB.svc.cluster.local"
}
```
Output:  

```
{
    "virtualService": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualService/serviceB.svc.cluster.local",
            "createdAt": 1563908363.999,
            "lastUpdatedAt": 1563908363.999,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {
            "provider": {
                "virtualRouter": {
                    "virtualRouterName": "vrServiceB"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualServiceName": "serviceB.svc.cluster.local"
    }
}
```
*Untuk informasi selengkapnya, lihat Layanan Virtual< https://docs.aws.amazon.com/app-mesh/ latest/userguide/virtual \$1services.html> di Panduan Pengguna App Mesh AWS *  
+  Untuk detail API, lihat [CreateVirtualService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/create-virtual-service.html)di *Referensi AWS CLI Perintah*. 

### `delete-mesh`
<a name="app-mesh_DeleteMesh_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-mesh`.

**AWS CLI**  
**Untuk menghapus mesh layanan**  
`delete-mesh`Contoh berikut menghapus mesh layanan yang ditentukan.  

```
aws appmesh delete-mesh \
    --mesh-name app1
```
Output:  

```
{
    "mesh": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1",
            "createdAt": 1563809909.282,
            "lastUpdatedAt": 1563824981.248,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 2
        },
        "spec": {
            "egressFilter": {
                "type": "ALLOW_ALL"
            }
        },
        "status": {
            "status": "DELETED"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Service Meshes](https://docs.aws.amazon.com/app-mesh/latest/userguide/meshes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DeleteMesh](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/delete-mesh.html)di *Referensi AWS CLI Perintah*. 

### `delete-route`
<a name="app-mesh_DeleteRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-route`.

**AWS CLI**  
**Untuk menghapus rute**  
`delete-route`Contoh berikut menghapus rute yang ditentukan.  

```
aws appmesh delete-route \
    --mesh-name app1 \
    --virtual-router-name vrServiceB \
    --route-name toVnServiceB-weighted
```
Output:  

```
{
    "route": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB/route/toVnServiceB-weighted",
            "createdAt": 1563811384.015,
            "lastUpdatedAt": 1563823915.936,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 3
        },
        "routeName": "toVnServiceB-weighted",
        "spec": {
            "httpRoute": {
                "action": {
                    "weightedTargets": [
                        {
                            "virtualNode": "vnServiceBv1",
                            "weight": 80
                        },
                        {
                            "virtualNode": "vnServiceBv2",
                            "weight": 20
                        }
                    ]
                },
                "match": {
                    "prefix": "/"
                }
            }
        },
        "status": {
            "status": "DELETED"
        },
        "virtualRouterName": "vrServiceB"
    }
}
```
Untuk informasi selengkapnya, lihat [Rute](https://docs.aws.amazon.com/app-mesh/latest/userguide/routes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DeleteRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/delete-route.html)di *Referensi AWS CLI Perintah*. 

### `delete-virtual-node`
<a name="app-mesh_DeleteVirtualNode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-virtual-node`.

**AWS CLI**  
**Untuk menghapus node virtual**  
`delete-virtual-node`Contoh berikut menghapus node virtual yang ditentukan.  

```
aws appmesh delete-virtual-node \
    --mesh-name app1 \
    --virtual-node-name vnServiceBv2
```
Output:  

```
{
    "virtualNode": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualNode/vnServiceBv2",
            "createdAt": 1563810117.297,
            "lastUpdatedAt": 1563824700.678,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 2
        },
        "spec": {
            "backends": [],
            "listeners": [
                {
                    "portMapping": {
                        "port": 80,
                        "protocol": "http"
                    }
                }
            ],
            "serviceDiscovery": {
                "dns": {
                    "hostname": "serviceBv2.svc.cluster.local"
                }
            }
        },
        "status": {
            "status": "DELETED"
        },
        "virtualNodeName": "vnServiceBv2"
    }
}
```
Untuk informasi selengkapnya, lihat [Node Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_nodes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DeleteVirtualNode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/delete-virtual-node.html)di *Referensi AWS CLI Perintah*. 

### `delete-virtual-router`
<a name="app-mesh_DeleteVirtualRouter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-virtual-router`.

**AWS CLI**  
**Untuk menghapus router virtual**  
`delete-virtual-router`Contoh berikut menghapus router virtual yang ditentukan.  

```
aws appmesh delete-virtual-router \
    --mesh-name app1 \
    --virtual-router-name vrServiceB
```
Output:  

```
{
    "virtualRouter": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB",
            "createdAt": 1563810546.59,
            "lastUpdatedAt": 1563824253.467,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 3
        },
        "spec": {
            "listeners": [
                {
                    "portMapping": {
                        "port": 80,
                        "protocol": "http"
                    }
                }
            ]
        },
        "status": {
            "status": "DELETED"
        },
        "virtualRouterName": "vrServiceB"
    }
}
```
Untuk informasi selengkapnya, lihat [Router Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_routers.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DeleteVirtualRouter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/delete-virtual-router.html)di *Referensi AWS CLI Perintah*. 

### `delete-virtual-service`
<a name="app-mesh_DeleteVirtualService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-virtual-service`.

**AWS CLI**  
**Untuk menghapus layanan virtual**  
`delete-virtual-service`Contoh berikut menghapus layanan virtual yang ditentukan.  

```
aws appmesh delete-virtual-service \
    --mesh-name app1 \
    --virtual-service-name serviceB.svc.cluster.local
```
Output:  

```
{
    "virtualService": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualService/serviceB.svc.cluster.local",
            "createdAt": 1563908363.999,
            "lastUpdatedAt": 1563913940.866,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 3
        },
        "spec": {},
        "status": {
            "status": "DELETED"
        },
        "virtualServiceName": "serviceB.svc.cluster.local"
    }
}
```
Untuk informasi selengkapnya, lihat [Layanan Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_services.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DeleteVirtualService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/delete-virtual-service.html)di *Referensi AWS CLI Perintah*. 

### `describe-mesh`
<a name="app-mesh_DescribeMesh_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-mesh`.

**AWS CLI**  
**Untuk menggambarkan mesh layanan**  
`describe-mesh`Contoh berikut mengembalikan rincian tentang mesh layanan tertentu.  

```
aws appmesh describe-mesh \
    --mesh-name app1
```
Output:  

```
{
    "mesh": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1",
            "createdAt": 1563809909.282,
            "lastUpdatedAt": 1563809909.282,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {},
        "status": {
            "status": "ACTIVE"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Service Meshes](https://docs.aws.amazon.com/app-mesh/latest/userguide/meshes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DescribeMesh](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/describe-mesh.html)di *Referensi AWS CLI Perintah*. 

### `describe-route`
<a name="app-mesh_DescribeRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-route`.

**AWS CLI**  
**Untuk menggambarkan rute**  
`describe-route`Contoh berikut mengembalikan rincian tentang rute yang ditentukan.  

```
aws appmesh describe-route \
    --mesh-name app1 \
    --virtual-router-name vrServiceB \
    --route-name toVnServiceB-weighted
```
Output:  

```
{
    "route": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB/route/toVnServiceB-weighted",
            "createdAt": 1563811384.015,
            "lastUpdatedAt": 1563811384.015,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "routeName": "toVnServiceB-weighted",
        "spec": {
            "httpRoute": {
                "action": {
                    "weightedTargets": [
                        {
                            "virtualNode": "vnServiceBv1",
                            "weight": 90
                        },
                        {
                            "virtualNode": "vnServiceBv2",
                            "weight": 10
                        }
                    ]
                },
                "match": {
                    "prefix": "/"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualRouterName": "vrServiceB"
    }
}
```
Untuk informasi selengkapnya, lihat [Rute](https://docs.aws.amazon.com/app-mesh/latest/userguide/routes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DescribeRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/describe-route.html)di *Referensi AWS CLI Perintah*. 

### `describe-virtual-node`
<a name="app-mesh_DescribeVirtualNode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-virtual-node`.

**AWS CLI**  
**Untuk menggambarkan simpul virtual**  
`describe-virtual-node`Contoh berikut mengembalikan rincian tentang node virtual tertentu.  

```
aws appmesh describe-virtual-node \
    --mesh-name app1 \
    --virtual-node-name vnServiceBv1
```
Output:  

```
{
    "virtualNode": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualNode/vnServiceBv1",
            "createdAt": 1563810019.874,
            "lastUpdatedAt": 1563810019.874,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {
            "backends": [],
            "listeners": [
                {
                    "portMapping": {
                        "port": 80,
                        "protocol": "http"
                    }
                }
            ],
            "serviceDiscovery": {
                "dns": {
                    "hostname": "serviceBv1.svc.cluster.local"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualNodeName": "vnServiceBv1"
    }
}
```
Untuk informasi selengkapnya, lihat [Node Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_nodes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DescribeVirtualNode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/describe-virtual-node.html)di *Referensi AWS CLI Perintah*. 

### `describe-virtual-router`
<a name="app-mesh_DescribeVirtualRouter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-virtual-router`.

**AWS CLI**  
**Untuk menggambarkan router virtual**  
`describe-virtual-router`Contoh berikut mengembalikan rincian tentang router virtual yang ditentukan.  

```
aws appmesh describe-virtual-router \
    --mesh-name app1 \
    --virtual-router-name vrServiceB
```
Output:  

```
{
    "virtualRouter": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB",
            "createdAt": 1563810546.59,
            "lastUpdatedAt": 1563810546.59,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {
            "listeners": [
                {
                    "portMapping": {
                        "port": 80,
                        "protocol": "http"
                    }
                }
            ]
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualRouterName": "vrServiceB"
    }
}
```
Untuk informasi selengkapnya, lihat [Router Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_routers.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DescribeVirtualRouter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/describe-virtual-router.html)di *Referensi AWS CLI Perintah*. 

### `describe-virtual-service`
<a name="app-mesh_DescribeVirtualService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-virtual-service`.

**AWS CLI**  
**Untuk menggambarkan layanan virtual**  
`describe-virtual-service`Contoh berikut mengembalikan rincian tentang layanan virtual yang ditentukan.  

```
aws appmesh describe-virtual-service \
    --mesh-name app1 \
    --virtual-service-name serviceB.svc.cluster.local
```
Output:  

```
{
    "virtualService": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualService/serviceB.svc.cluster.local",
            "createdAt": 1563908363.999,
            "lastUpdatedAt": 1563908363.999,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 1
        },
        "spec": {
            "provider": {
                "virtualRouter": {
                    "virtualRouterName": "vrServiceB"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualServiceName": "serviceB.svc.cluster.local"
    }
}
```
Untuk informasi selengkapnya, lihat [Layanan Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_services.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [DescribeVirtualService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/describe-virtual-service.html)di *Referensi AWS CLI Perintah*. 

### `list-meshes`
<a name="app-mesh_ListMeshes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-meshes`.

**AWS CLI**  
**Untuk membuat daftar jerat layanan**  
`list-meshes`Contoh berikut mencantumkan semua jerat layanan di AWS Wilayah saat ini.  

```
aws appmesh list-meshes
```
Output:  

```
{
    "meshes": [
        {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1",
            "meshName": "app1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Service Meshes](https://docs.aws.amazon.com/app-mesh/latest/userguide/meshes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [ListMeshes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/list-meshes.html)di *Referensi AWS CLI Perintah*. 

### `list-routes`
<a name="app-mesh_ListRoutes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-routes`.

**AWS CLI**  
**Untuk daftar rute**  
`list-routes`Contoh berikut mencantumkan semua rute untuk router virtual yang ditentukan.  

```
aws appmesh list-routes \
    --mesh-name app1 \
    --virtual-router-name vrServiceB
```
Output:  

```
{
    "routes": [
        {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB/route/toVnServiceB",
            "meshName": "app1",
            "routeName": "toVnServiceB-weighted",
            "virtualRouterName": "vrServiceB"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Rute](https://docs.aws.amazon.com/app-mesh/latest/userguide/routes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [ListRoutes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/list-routes.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="app-mesh_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag yang ditetapkan ke sumber daya yang ditentukan.  

```
aws appmesh list-tags-for-resource \
    --resource-arn arn:aws:appmesh:us-east-1:123456789012:mesh/app1
```
Output:  

```
{
    "tags": [
        {
            "key": "key1",
            "value": "value1"
        },
        {
            "key": "key2",
            "value": "value2"
        },
        {
            "key": "key3",
            "value": "value3"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-virtual-nodes`
<a name="app-mesh_ListVirtualNodes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-virtual-nodes`.

**AWS CLI**  
**Untuk daftar node virtual**  
`list-virtual-nodes`Contoh berikut mencantumkan semua node virtual di mesh layanan tertentu.  

```
aws appmesh list-virtual-nodes \
    --mesh-name app1
```
Output:  

```
{
    "virtualNodes": [
        {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualNode/vnServiceBv1",
            "meshName": "app1",
            "virtualNodeName": "vnServiceBv1"
        },
        {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualNode/vnServiceBv2",
            "meshName": "app1",
            "virtualNodeName": "vnServiceBv2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Node Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_nodes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [ListVirtualNodes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/list-virtual-nodes.html)di *Referensi AWS CLI Perintah*. 

### `list-virtual-routers`
<a name="app-mesh_ListVirtualRouters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-virtual-routers`.

**AWS CLI**  
**Untuk daftar router virtual**  
`list-virtual-routers`Contoh berikut mencantumkan semua router virtual di mesh layanan yang ditentukan.  

```
aws appmesh list-virtual-routers \
    --mesh-name app1
```
Output:  

```
{
    "virtualRouters": [
        {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB",
            "meshName": "app1",
            "virtualRouterName": "vrServiceB"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Router Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_routers.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [ListVirtualRouters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/list-virtual-routers.html)di *Referensi AWS CLI Perintah*. 

### `list-virtual-services`
<a name="app-mesh_ListVirtualServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-virtual-services`.

**AWS CLI**  
**Untuk daftar layanan virtual**  
`list-virtual-services`Contoh berikut mencantumkan semua layanan virtual di mesh layanan yang ditentukan.  

```
aws appmesh list-virtual-services \
    --mesh-name app1
```
Output:  

```
{
    "virtualServices": [
        {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualService/serviceA.svc.cluster.local",
            "meshName": "app1",
            "virtualServiceName": "serviceA.svc.cluster.local"
        },
        {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualService/serviceB.svc.cluster.local",
            "meshName": "app1",
            "virtualServiceName": "serviceB.svc.cluster.local"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Layanan Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_services.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [ListVirtualServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/list-virtual-services.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="app-mesh_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut menambahkan tag `key1` dengan nilai `value1` ke sumber daya yang ditentukan.  

```
aws appmesh tag-resource \
    --resource-arn arn:aws:appmesh:us-east-1:123456789012:mesh/app1 \
    --tags key=key1,value=value1
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="app-mesh_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag sumber daya**  
`untag-resource`Contoh berikut menghapus tag dengan kunci `key1` dari sumber daya yang ditentukan.  

```
aws appmesh untag-resource \
    --resource-arn arn:aws:appmesh:us-east-1:123456789012:mesh/app1 \
    --tag-keys key1
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-mesh`
<a name="app-mesh_UpdateMesh_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-mesh`.

**AWS CLI**  
**Untuk memperbarui mesh layanan**  
`update-mesh`Contoh berikut menggunakan file input JSON untuk memperbarui mesh layanan untuk memungkinkan semua lalu lintas keluar eksternal diteruskan melalui proxy Envoy yang tidak tersentuh.  

```
aws appmesh update-mesh \
    --cli-input-json file://update-mesh.json
```
Isi dari `update-mesh.json`:  

```
{
    "meshName": "app1",
    "spec": {
        "egressFilter": {
            "type": "ALLOW_ALL"
        }
    }
}
```
Output:  

```
{
    "mesh": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1",
            "createdAt": 1563809909.282,
            "lastUpdatedAt": 1563812829.687,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 2
        },
        "spec": {
            "egressFilter": {
                "type": "ALLOW_ALL"
            }
        },
        "status": {
            "status": "ACTIVE"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Service Meshes](https://docs.aws.amazon.com/app-mesh/latest/userguide/meshes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [UpdateMesh](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/update-mesh.html)di *Referensi AWS CLI Perintah*. 

### `update-route`
<a name="app-mesh_UpdateRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-route`.

**AWS CLI**  
**Untuk memperbarui rute**  
`update-route`Contoh berikut menggunakan file input JSON untuk memperbarui bobot untuk rute.  

```
aws appmesh update-route \
    --cli-input-json file://update-route-weighted.json
```
Isi dari `update-route-weighted.json`:  

```
{
    "meshName": "app1",
    "routeName": "toVnServiceB-weighted",
    "spec": {
        "httpRoute": {
            "action": {
                "weightedTargets": [
                    {
                        "virtualNode": "vnServiceBv1",
                        "weight": 80
                    },
                    {
                        "virtualNode": "vnServiceBv2",
                        "weight": 20
                    }
                ]
            },
            "match": {
                "prefix": "/"
            }
        }
    },
    "virtualRouterName": "vrServiceB"
}
```
Output:  

```
{
    "route": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB/route/toVnServiceB-weighted",
            "createdAt": 1563811384.015,
            "lastUpdatedAt": 1563819600.022,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 2
        },
        "routeName": "toVnServiceB-weighted",
        "spec": {
            "httpRoute": {
                "action": {
                    "weightedTargets": [
                        {
                            "virtualNode": "vnServiceBv1",
                            "weight": 80
                        },
                        {
                            "virtualNode": "vnServiceBv2",
                            "weight": 20
                        }
                    ]
                },
                "match": {
                    "prefix": "/"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualRouterName": "vrServiceB"
    }
}
```
Untuk informasi selengkapnya, lihat [Rute](https://docs.aws.amazon.com/app-mesh/latest/userguide/routes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [UpdateRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/update-route.html)di *Referensi AWS CLI Perintah*. 

### `update-virtual-node`
<a name="app-mesh_UpdateVirtualNode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-virtual-node`.

**AWS CLI**  
**Untuk memperbarui node virtual**  
`update-virtual-node`Contoh berikut menggunakan file input JSON untuk menambahkan pemeriksaan kesehatan ke node virtual.  

```
aws appmesh update-virtual-node \
    --cli-input-json file://update-virtual-node.json
```
Isi dari `update-virtual-node.json`:  

```
{
    "clientToken": "500",
    "meshName": "app1",
    "spec": {
        "listeners": [
            {
                "healthCheck": {
                    "healthyThreshold": 5,
                    "intervalMillis": 10000,
                    "path": "/",
                    "port": 80,
                    "protocol": "http",
                    "timeoutMillis": 3000,
                    "unhealthyThreshold": 3
                },
                "portMapping": {
                    "port": 80,
                    "protocol": "http"
                }
            }
        ],
        "serviceDiscovery": {
            "dns": {
                "hostname": "serviceBv1.svc.cluster.local"
            }
        }
    },
    "virtualNodeName": "vnServiceBv1"
}
```
Output:  

```
{
    "virtualNode": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualNode/vnServiceBv1",
            "createdAt": 1563810019.874,
            "lastUpdatedAt": 1563819234.825,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 2
        },
        "spec": {
            "listeners": [
                {
                    "healthCheck": {
                        "healthyThreshold": 5,
                        "intervalMillis": 10000,
                        "path": "/",
                        "port": 80,
                        "protocol": "http",
                        "timeoutMillis": 3000,
                        "unhealthyThreshold": 3
                    },
                    "portMapping": {
                        "port": 80,
                        "protocol": "http"
                    }
                }
            ],
            "serviceDiscovery": {
                "dns": {
                    "hostname": "serviceBv1.svc.cluster.local"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualNodeName": "vnServiceBv1"
    }
}
```
Untuk informasi selengkapnya, lihat [Node Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_nodes.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [UpdateVirtualNode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/update-virtual-node.html)di *Referensi AWS CLI Perintah*. 

### `update-virtual-router`
<a name="app-mesh_UpdateVirtualRouter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-virtual-router`.

**AWS CLI**  
**Untuk memperbarui router virtual**  
`update-virtual-router`Contoh berikut menggunakan file input JSON untuk memperbarui port pendengar router virtual.  

```
aws appmesh update-virtual-router \
    --cli-input-json file://update-virtual-router.json
```
Isi dari `update-virtual-router.json`:  

```
{
    "meshName": "app1",
    "spec": {
        "listeners": [
            {
                "portMapping": {
                    "port": 8080,
                    "protocol": "http"
                }
            }
        ]
    },
    "virtualRouterName": "vrServiceB"
}
```
Output:  

```
{
    "virtualRouter": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualRouter/vrServiceB",
            "createdAt": 1563810546.59,
            "lastUpdatedAt": 1563819431.352,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 2
        },
        "spec": {
            "listeners": [
                {
                    "portMapping": {
                        "port": 8080,
                        "protocol": "http"
                    }
                }
            ]
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualRouterName": "vrServiceB"
    }
}
```
Untuk informasi selengkapnya, lihat [Router Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_routers.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [UpdateVirtualRouter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/update-virtual-router.html)di *Referensi AWS CLI Perintah*. 

### `update-virtual-service`
<a name="app-mesh_UpdateVirtualService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-virtual-service`.

**AWS CLI**  
**Untuk memperbarui layanan virtual**  
`update-virtual-service`Contoh berikut menggunakan file input JSON untuk memperbarui layanan virtual untuk menggunakan penyedia router virtual.  

```
aws appmesh update-virtual-service \
    --cli-input-json file://update-virtual-service.json
```
Isi dari `update-virtual-service.json`:  

```
{
    "meshName": "app1",
    "spec": {
        "provider": {
            "virtualRouter": {
                "virtualRouterName": "vrServiceA"
            }
        }
    },
    "virtualServiceName": "serviceA.svc.cluster.local"
}
```
Output:  

```
{
    "virtualService": {
        "meshName": "app1",
        "metadata": {
            "arn": "arn:aws:appmesh:us-east-1:123456789012:mesh/app1/virtualService/serviceA.svc.cluster.local",
            "createdAt": 1563810859.474,
            "lastUpdatedAt": 1563820257.411,
            "uid": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "version": 3
        },
        "spec": {
            "provider": {
                "virtualRouter": {
                    "virtualRouterName": "vrServiceA"
                }
            }
        },
        "status": {
            "status": "ACTIVE"
        },
        "virtualServiceName": "serviceA.svc.cluster.local"
    }
}
```
Untuk informasi selengkapnya, lihat [Layanan Virtual](https://docs.aws.amazon.com/app-mesh/latest/userguide/virtual_services.html) di *Panduan Pengguna AWS App Mesh*.  
+  Untuk detail API, lihat [UpdateVirtualService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appmesh/update-virtual-service.html)di *Referensi AWS CLI Perintah*. 

# Contoh App Runner menggunakan AWS CLI
<a name="cli_2_apprunner_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan AWS Command Line Interface With App Runner.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-custom-domain`
<a name="apprunner_AssociateCustomDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-custom-domain`.

**AWS CLI**  
**Untuk mengaitkan nama domain dan subdomain www dengan layanan**  
`associate-custom-domain`Contoh berikut mengaitkan nama domain kustom yang Anda kontrol dengan layanan App Runner. Nama domain adalah domain root`example.com`, termasuk subdomain kasus khusus. `www.example.com`  

```
aws apprunner associate-custom-domain \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
    "DomainName": "example.com",
    "EnableWWWSubdomain": true
}
```
Output:  

```
{
    "CustomDomain": {
        "CertificateValidationRecords": [
            {
                "Name": "_70d3f50a94f7c72dc28784cf55db2f6b.example.com",
                "Status": "PENDING_VALIDATION",
                "Type": "CNAME",
                "Value": "_1270c137383c6307b6832db02504c4b0.bsgbmzkfwj.acm-validations.aws."
            },
            {
                "Name": "_287870d3f50a94f7c72dc4cf55db2f6b.www.example.com",
                "Status": "PENDING_VALIDATION",
                "Type": "CNAME",
                "Value": "_832db01270c137383c6307b62504c4b0.mzkbsgbfwj.acm-validations.aws."
            }
        ],
        "DomainName": "example.com",
        "EnableWWWSubdomain": true,
        "Status": "CREATING"
    },
    "DNSTarget": "psbqam834h.us-east-1.awsapprunner.com",
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
+  Untuk detail API, lihat [AssociateCustomDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/associate-custom-domain.html)di *Referensi AWS CLI Perintah*. 

### `create-auto-scaling-configuration`
<a name="apprunner_CreateAutoScalingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-auto-scaling-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi penskalaan otomatis ketersediaan tinggi**  
`create-auto-scaling-configuration`Contoh berikut membuat konfigurasi penskalaan otomatis yang dioptimalkan untuk ketersediaan tinggi dengan menyetel `MinSize` ke 5. Dengan konfigurasi ini, App Runner mencoba menyebarkan instans layanan Anda ke sebagian besar Availability Zone, hingga lima, tergantung pada AWS Wilayah.  
Panggilan mengembalikan `AutoScalingConfiguration` objek dengan pengaturan lain yang disetel ke defaultnya. Dalam contoh, ini adalah panggilan pertama untuk membuat konfigurasi bernama`high-availability`. Revisi diatur ke 1, dan ini adalah revisi terbaru.  

```
aws apprunner create-auto-scaling-configuration \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "AutoScalingConfigurationName": "high-availability",
    "MinSize": 5
}
```
Output:  

```
{
    "AutoScalingConfiguration": {
        "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability/1/2f50e7656d7819fead0f59672e68042e",
        "AutoScalingConfigurationName": "high-availability",
        "AutoScalingConfigurationRevision": 1,
        "CreatedAt": "2020-11-03T00:29:17Z",
        "Latest": true,
        "Status": "ACTIVE",
        "MaxConcurrency": 100,
        "MaxSize": 50,
        "MinSize": 5
    }
}
```
+  Untuk detail API, lihat [CreateAutoScalingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/create-auto-scaling-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-connection`
<a name="apprunner_CreateConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-connection`.

**AWS CLI**  
**Untuk membuat GitHub koneksi**  
`create-connection`Contoh berikut membuat koneksi ke repositori GitHub kode pribadi. Status koneksi setelah panggilan berhasil adalah`PENDING_HANDSHAKE`. Ini karena jabat tangan otentikasi dengan penyedia masih belum terjadi. Selesaikan jabat tangan menggunakan konsol App Runner.  

```
aws apprunner create-connection \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ConnectionName": "my-github-connection",
    "ProviderType": "GITHUB"
}
```
Output:  

```
{
    "Connection": {
        "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection",
        "ConnectionName": "my-github-connection",
        "Status": "PENDING_HANDSHAKE",
        "CreatedAt": "2020-11-03T00:32:51Z",
        "ProviderType": "GITHUB"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola koneksi App Runner](https://docs.aws.amazon.com/apprunner/latest/dg/manage-connections.html) di Panduan *Pengembang AWS App Runner*.  
+  Untuk detail API, lihat [CreateConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/create-connection.html)di *Referensi AWS CLI Perintah*. 

### `create-service`
<a name="apprunner_CreateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service`.

**AWS CLI**  
**Contoh 1: Untuk membuat layanan repositori kode sumber**  
`create-service`Contoh berikut membuat layanan App Runner berdasarkan repositori kode sumber Python.  

```
aws apprunner create-service \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceName": "python-app",
    "SourceConfiguration": {
        "AuthenticationConfiguration": {
            "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
        },
        "AutoDeploymentsEnabled": true,
        "CodeRepository": {
            "RepositoryUrl": "https://github.com/my-account/python-hello",
            "SourceCodeVersion": {
                "Type": "BRANCH",
                "Value": "main"
            },
            "CodeConfiguration": {
                "ConfigurationSource": "API",
                "CodeConfigurationValues": {
                    "Runtime": "PYTHON_3",
                    "BuildCommand": "pip install -r requirements.txt",
                    "StartCommand": "python server.py",
                    "Port": "8080",
                    "RuntimeEnvironmentVariables": [
                        {
                            "NAME": "Jane"
                        }
                    ]
                }
            }
        }
    },
    "InstanceConfiguration": {
        "CPU": "1 vCPU",
        "Memory": "3 GB"
    }
}
```
Output:  

```
{
    "OperationId": "17fe9f55-7e91-4097-b243-fcabbb69a4cf",
    "Service": {
        "CreatedAt": "2020-11-20T19:05:25Z",
        "UpdatedAt": "2020-11-20T19:05:25Z",
        "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceId": "8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceName": "python-app",
        "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
        "SourceConfiguration": {
            "AuthenticationConfiguration": {
                "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
            },
            "AutoDeploymentsEnabled": true,
            "CodeRepository": {
                "CodeConfiguration": {
                    "CodeConfigurationValues": {
                        "BuildCommand": "pip install -r requirements.txt",
                        "Port": "8080",
                        "Runtime": "PYTHON_3",
                        "RuntimeEnvironmentVariables": [
                            {
                                "NAME": "Jane"
                            }
                        ],
                        "StartCommand": "python server.py"
                    },
                    "ConfigurationSource": "Api"
                },
                "RepositoryUrl": "https://github.com/my-account/python-hello",
                "SourceCodeVersion": {
                    "Type": "BRANCH",
                    "Value": "main"
                }
            }
        },
        "Status": "OPERATION_IN_PROGRESS",
        "InstanceConfiguration": {
            "CPU": "1 vCPU",
            "Memory": "3 GB"
        }
    }
}
```
**Contoh 2: Untuk membuat layanan repositori kode sumber**  
`create-service`Contoh berikut membuat layanan App Runner berdasarkan repositori kode sumber Python.  

```
aws apprunner create-service \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceName": "python-app",
    "SourceConfiguration": {
        "AuthenticationConfiguration": {
            "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
        },
        "AutoDeploymentsEnabled": true,
        "CodeRepository": {
            "RepositoryUrl": "https://github.com/my-account/python-hello",
            "SourceCodeVersion": {
                "Type": "BRANCH",
                "Value": "main"
            },
            "CodeConfiguration": {
                "ConfigurationSource": "API",
                "CodeConfigurationValues": {
                    "Runtime": "PYTHON_3",
                    "BuildCommand": "pip install -r requirements.txt",
                    "StartCommand": "python server.py",
                    "Port": "8080",
                    "RuntimeEnvironmentVariables": [
                        {
                            "NAME": "Jane"
                        }
                    ]
                }
            }
        }
    },
    "InstanceConfiguration": {
        "CPU": "1 vCPU",
        "Memory": "3 GB"
    }
}
```
Output:  

```
{
    "OperationId": "17fe9f55-7e91-4097-b243-fcabbb69a4cf",
    "Service": {
        "CreatedAt": "2020-11-20T19:05:25Z",
        "UpdatedAt": "2020-11-20T19:05:25Z",
        "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceId": "8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceName": "python-app",
        "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
        "SourceConfiguration": {
            "AuthenticationConfiguration": {
                "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
            },
            "AutoDeploymentsEnabled": true,
            "CodeRepository": {
                "CodeConfiguration": {
                    "CodeConfigurationValues": {
                        "BuildCommand": "pip install -r requirements.txt",
                        "Port": "8080",
                        "Runtime": "PYTHON_3",
                        "RuntimeEnvironmentVariables": [
                            {
                                "NAME": "Jane"
                            }
                        ],
                        "StartCommand": "python server.py"
                    },
                    "ConfigurationSource": "Api"
                },
                "RepositoryUrl": "https://github.com/my-account/python-hello",
                "SourceCodeVersion": {
                    "Type": "BRANCH",
                    "Value": "main"
                }
            }
        },
        "Status": "OPERATION_IN_PROGRESS",
        "InstanceConfiguration": {
            "CPU": "1 vCPU",
            "Memory": "3 GB"
        }
    }
}
```
**Contoh 3: Untuk membuat layanan repositori gambar sumber**  
`create-service`Contoh berikut membuat layanan App Runner berdasarkan gambar yang disimpan di Elastic Container Registry (ECR).  

```
aws apprunner create-service \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceName": "golang-container-app",
    "SourceConfiguration": {
        "AuthenticationConfiguration": {
            "AccessRoleArn": "arn:aws:iam::123456789012:role/my-ecr-role"
        },
        "AutoDeploymentsEnabled": true,
        "ImageRepository": {
            "ImageIdentifier": "123456789012.dkr.ecr.us-east-1.amazonaws.com/golang-app:latest",
            "ImageConfiguration": {
                "Port": "8080",
                "RuntimeEnvironmentVariables": [
                    {
                        "NAME": "Jane"
                    }
                ]
            },
            "ImageRepositoryType": "ECR"
        }
    },
    "InstanceConfiguration": {
        "CPU": "1 vCPU",
        "Memory": "3 GB"
    }
}
```
Output:  

```
{
    "OperationId": "17fe9f55-7e91-4097-b243-fcabbb69a4cf",
    "Service": {
        "CreatedAt": "2020-11-06T23:15:30Z",
        "UpdatedAt": "2020-11-06T23:15:30Z",
        "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/golang-container-app/51728f8a20ce46d39b25398a6c8e9d1a",
        "ServiceId": "51728f8a20ce46d39b25398a6c8e9d1a",
        "ServiceName": "golang-container-app",
        "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
        "SourceConfiguration": {
            "AuthenticationConfiguration": {
                "AccessRoleArn": "arn:aws:iam::123456789012:role/my-ecr-role"
            },
            "AutoDeploymentsEnabled": true,
            "ImageRepository": {
                "ImageIdentifier": "123456789012.dkr.ecr.us-east-1.amazonaws.com/golang-app:latest",
                "ImageConfiguration": {
                    "Port": "8080",
                    "RuntimeEnvironmentVariables": [
                        {
                            "NAME": "Jane"
                        }
                    ]
                },
                "ImageRepositoryType": "ECR"
            }
        },
        "Status": "OPERATION_IN_PROGRESS",
        "InstanceConfiguration": {
            "CPU": "1 vCPU",
            "Memory": "3 GB"
        }
    }
}
```
+  Untuk detail API, lihat [CreateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/create-service.html)di *Referensi AWS CLI Perintah*. 

### `delete-auto-scaling-configuration`
<a name="apprunner_DeleteAutoScalingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-auto-scaling-configuration`.

**AWS CLI**  
**Contoh 1: Untuk menghapus revisi aktif terbaru dari konfigurasi penskalaan otomatis**  
`delete-auto-scaling-configuration`Contoh berikut menghapus revisi aktif terbaru dari konfigurasi penskalaan otomatis App Runner. Untuk menghapus revisi aktif terbaru, tentukan Nama Sumber Daya Amazon (ARN) yang diakhiri dengan nama konfigurasi, tanpa komponen revisi.  
Dalam contoh, ada dua revisi sebelum tindakan ini. Oleh karena itu, revisi 2 (yang terbaru) dihapus. Namun, sekarang ditampilkan`"Latest": false`, karena, setelah dihapus, itu bukan revisi aktif terbaru lagi.  

```
aws apprunner delete-auto-scaling-configuration \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability"
}
```
Output:  

```
{
    "AutoScalingConfiguration": {
        "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability/2/e76562f50d78042e819fead0f59672e6",
        "AutoScalingConfigurationName": "high-availability",
        "AutoScalingConfigurationRevision": 2,
        "CreatedAt": "2021-02-25T17:42:59Z",
        "DeletedAt": "2021-03-02T08:07:06Z",
        "Latest": false,
        "Status": "INACTIVE",
        "MaxConcurrency": 30,
        "MaxSize": 90,
        "MinSize": 5
    }
}
```
**Contoh 2: Untuk menghapus revisi tertentu dari konfigurasi penskalaan otomatis**  
`delete-auto-scaling-configuration`Contoh berikut menghapus revisi spesifik konfigurasi penskalaan otomatis App Runner. Untuk menghapus revisi tertentu, tentukan ARN yang menyertakan nomor revisi.  
Dalam contoh, beberapa revisi ada sebelum tindakan ini. Tindakan menghapus `1` revisi.  

```
aws apprunner delete-auto-scaling-configuration \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability/1"
}
```
Output:  

```
{
    "AutoScalingConfiguration": {
        "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability/1/2f50e7656d7819fead0f59672e68042e",
        "AutoScalingConfigurationName": "high-availability",
        "AutoScalingConfigurationRevision": 1,
        "CreatedAt": "2020-11-03T00:29:17Z",
        "DeletedAt": "2021-03-02T08:07:06Z",
        "Latest": false,
        "Status": "INACTIVE",
        "MaxConcurrency": 100,
        "MaxSize": 50,
        "MinSize": 5
    }
}
```
+  Untuk detail API, lihat [DeleteAutoScalingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/delete-auto-scaling-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-connection`
<a name="apprunner_DeleteConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-connection`.

**AWS CLI**  
**Untuk menghapus koneksi**  
`delete-connection`Contoh berikut menghapus koneksi App Runner. Status koneksi setelah panggilan berhasil adalah`DELETED`. Ini karena koneksi tidak lagi tersedia.  

```
aws apprunner delete-connection \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection"
}
```
Output:  

```
{
    "Connection": {
        "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection",
        "ConnectionName": "my-github-connection",
        "Status": "DELETED",
        "CreatedAt": "2020-11-03T00:32:51Z",
        "ProviderType": "GITHUB"
    }
}
```
+  Untuk detail API, lihat [DeleteConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/delete-connection.html)di *Referensi AWS CLI Perintah*. 

### `delete-service`
<a name="apprunner_DeleteService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service`.

**AWS CLI**  
**Untuk menghapus layanan**  
`delete-service`Contoh berikut menghapus layanan App Runner.  

```
aws apprunner delete-service \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
Output:  

```
{
    "OperationId": "17fe9f55-7e91-4097-b243-fcabbb69a4cf",
    "Service": {
        "CreatedAt": "2020-11-20T19:05:25Z",
        "UpdatedAt": "2020-11-20T19:05:25Z",
        "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceId": "8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceName": "python-app",
        "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
        "SourceConfiguration": {
            "AuthenticationConfiguration": {
                "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
            },
            "AutoDeploymentsEnabled": true,
            "CodeRepository": {
                "CodeConfiguration": {
                    "CodeConfigurationValues": {
                        "BuildCommand": "pip install -r requirements.txt",
                        "Port": "8080",
                        "Runtime": "PYTHON_3",
                        "RuntimeEnvironmentVariables": [
                            {
                                "NAME": "Jane"
                            }
                        ],
                        "StartCommand": "python server.py"
                    },
                    "ConfigurationSource": "Api"
                },
                "RepositoryUrl": "https://github.com/my-account/python-hello",
                "SourceCodeVersion": {
                    "Type": "BRANCH",
                    "Value": "main"
                }
            }
        },
        "Status": "OPERATION_IN_PROGRESS",
        "InstanceConfiguration": {
            "CPU": "1 vCPU",
            "Memory": "3 GB"
        }
    }
}
```
+  Untuk detail API, lihat [DeleteService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/delete-service.html)di *Referensi AWS CLI Perintah*. 

### `describe-auto-scaling-configuration`
<a name="apprunner_DescribeAutoScalingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-auto-scaling-configuration`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan revisi aktif terbaru dari konfigurasi penskalaan otomatis**  
`describe-auto-scaling-configuration`Contoh berikut mendapatkan deskripsi revisi aktif terbaru dari konfigurasi penskalaan otomatis App Runner. Untuk menjelaskan revisi aktif terbaru, tentukan ARN yang diakhiri dengan nama konfigurasi, tanpa komponen revisi.  
Dalam contoh, ada dua revisi. Oleh karena itu, revisi `2` (terbaru) dijelaskan. Objek yang dihasilkan menunjukkan`"Latest": true`.  

```
aws apprunner describe-auto-scaling-configuration \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability"
}
```
Output:  

```
{
    "AutoScalingConfiguration": {
        "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability/2/e76562f50d78042e819fead0f59672e6",
        "AutoScalingConfigurationName": "high-availability",
        "AutoScalingConfigurationRevision": 2,
        "CreatedAt": "2021-02-25T17:42:59Z",
        "Latest": true,
        "Status": "ACTIVE",
        "MaxConcurrency": 30,
        "MaxSize": 90,
        "MinSize": 5
    }
}
```
**Contoh 2: Untuk menjelaskan revisi spesifik dari konfigurasi penskalaan otomatis**  
`describe-auto-scaling-configuration`Contoh berikut mendapatkan deskripsi revisi spesifik konfigurasi penskalaan otomatis App Runner. Untuk menggambarkan revisi tertentu, tentukan ARN yang menyertakan nomor revisi.  
Dalam contoh, beberapa revisi ada dan revisi `1` ditanyakan. Objek yang dihasilkan menunjukkan`"Latest": false`.  

```
aws apprunner describe-auto-scaling-configuration \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability/1"
}
```
Output:  

```
{
    "AutoScalingConfiguration": {
        "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability/1/2f50e7656d7819fead0f59672e68042e",
        "AutoScalingConfigurationName": "high-availability",
        "AutoScalingConfigurationRevision": 1,
        "CreatedAt": "2020-11-03T00:29:17Z",
        "Latest": false,
        "Status": "ACTIVE",
        "MaxConcurrency": 100,
        "MaxSize": 50,
        "MinSize": 5
    }
}
```
+  Untuk detail API, lihat [DescribeAutoScalingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/describe-auto-scaling-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-custom-domains`
<a name="apprunner_DescribeCustomDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-custom-domains`.

**AWS CLI**  
**Untuk mendapatkan deskripsi nama domain khusus yang terkait dengan layanan**  
`describe-custom-domains`Contoh berikut mendapatkan deskripsi dan status nama domain kustom yang terkait dengan layanan App Runner.  

```
aws apprunner describe-custom-domains \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
    "DomainName": "example.com",
    "EnableWWWSubdomain": true
}
```
Output:  

```
{
    "CustomDomains": [
        {
            "CertificateValidationRecords": [
                {
                    "Name": "_70d3f50a94f7c72dc28784cf55db2f6b.example.com",
                    "Status": "PENDING_VALIDATION",
                    "Type": "CNAME",
                    "Value": "_1270c137383c6307b6832db02504c4b0.bsgbmzkfwj.acm-validations.aws."
                },
                {
                    "Name": "_287870d3f50a94f7c72dc4cf55db2f6b.www.example.com",
                    "Status": "PENDING_VALIDATION",
                    "Type": "CNAME",
                    "Value": "_832db01270c137383c6307b62504c4b0.mzkbsgbfwj.acm-validations.aws."
                }
            ],
            "DomainName": "example.com",
            "EnableWWWSubdomain": true,
            "Status": "PENDING_CERTIFICATE_DNS_VALIDATION"
        },
        {
            "CertificateValidationRecords": [
                {
                    "Name": "_a94f784c70d3f507c72dc28f55db2f6b.deals.example.com",
                    "Status": "SUCCESS",
                    "Type": "CNAME",
                    "Value": "_2db02504c1270c137383c6307b6834b0.bsgbmzkfwj.acm-validations.aws."
                }
            ],
            "DomainName": "deals.example.com",
            "EnableWWWSubdomain": false,
            "Status": "ACTIVE"
        }
    ],
    "DNSTarget": "psbqam834h.us-east-1.awsapprunner.com",
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
+  Untuk detail API, lihat [DescribeCustomDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/describe-custom-domains.html)di *Referensi AWS CLI Perintah*. 

### `describe-service`
<a name="apprunner_DescribeService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-service`.

**AWS CLI**  
**Untuk mendeskripsikan layanan**  
`describe-service`Contoh berikut mendapatkan deskripsi layanan App Runner.  

```
aws apprunner describe-service \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
Output:  

```
{
    "Service": {
        "CreatedAt": "2020-11-20T19:05:25Z",
        "UpdatedAt": "2020-11-20T19:05:25Z",
        "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceId": "8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceName": "python-app",
        "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
        "SourceConfiguration": {
            "AuthenticationConfiguration": {
                "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
            },
            "AutoDeploymentsEnabled": true,
            "CodeRepository": {
                "CodeConfiguration": {
                    "CodeConfigurationValues": {
                        "BuildCommand": "pip install -r requirements.txt",
                        "Port": "8080",
                        "Runtime": "PYTHON_3",
                        "RuntimeEnvironmentVariables": [
                            {
                                "NAME": "Jane"
                            }
                        ],
                        "StartCommand": "python server.py"
                    },
                    "ConfigurationSource": "Api"
                },
                "RepositoryUrl": "https://github.com/my-account/python-hello",
                "SourceCodeVersion": {
                    "Type": "BRANCH",
                    "Value": "main"
                }
            }
        },
        "Status": "RUNNING",
        "InstanceConfiguration": {
            "CPU": "1 vCPU",
            "Memory": "3 GB"
        }
    }
}
```
+  Untuk detail API, lihat [DescribeService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/describe-service.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-custom-domain`
<a name="apprunner_DisassociateCustomDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-custom-domain`.

**AWS CLI**  
**Untuk memisahkan nama domain dari layanan**  
`disassociate-custom-domain`Contoh berikut memisahkan domain `example.com` dari layanan App Runner. Panggilan juga melepaskan subdomain `www.example.com` yang dikaitkan bersama dengan domain root.  

```
aws apprunner disassociate-custom-domain \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
    "DomainName": "example.com"
}
```
Output:  

```
{
    "CustomDomain": {
        "CertificateValidationRecords": [
            {
                "Name": "_70d3f50a94f7c72dc28784cf55db2f6b.example.com",
                "Status": "PENDING_VALIDATION",
                "Type": "CNAME",
                "Value": "_1270c137383c6307b6832db02504c4b0.bsgbmzkfwj.acm-validations.aws."
            },
            {
                "Name": "_287870d3f50a94f7c72dc4cf55db2f6b.www.example.com",
                "Status": "PENDING_VALIDATION",
                "Type": "CNAME",
                "Value": "_832db01270c137383c6307b62504c4b0.mzkbsgbfwj.acm-validations.aws."
            }
        ],
        "DomainName": "example.com",
        "EnableWWWSubdomain": true,
        "Status": "DELETING"
    },
    "DNSTarget": "psbqam834h.us-east-1.awsapprunner.com",
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
+  Untuk detail API, lihat [DisassociateCustomDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/disassociate-custom-domain.html)di *Referensi AWS CLI Perintah*. 

### `list-auto-scaling-configurations`
<a name="apprunner_ListAutoScalingConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-auto-scaling-configurations`.

**AWS CLI**  
**Untuk mendapatkan daftar paginasi konfigurasi penskalaan otomatis App Runner**  
`list-auto-scaling-configurations`Contoh berikut mencantumkan semua konfigurasi penskalaan otomatis App Runner di akun Anda. AWS Hingga lima konfigurasi penskalaan otomatis tercantum di setiap respons. `AutoScalingConfigurationName`dan `LatestOnly` tidak ditentukan. Defaultnya menyebabkan revisi terbaru dari semua konfigurasi aktif terdaftar.  
Dalam contoh ini, respons mencakup dua hasil dan tidak ada yang tambahan, jadi `NextToken` tidak dikembalikan.  

```
aws apprunner list-auto-scaling-configurations \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "MaxResults": 5
}
```
Output:  

```
{
    "AutoScalingConfigurationSummaryList": [
        {
            "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/high-availability/2/e76562f50d78042e819fead0f59672e6",
            "AutoScalingConfigurationName": "high-availability",
            "AutoScalingConfigurationRevision": 2
        },
        {
            "AutoScalingConfigurationArn": "arn:aws:apprunner:us-east-1:123456789012:autoscalingconfiguration/low-cost/1/50d7804e7656fead0f59672e62f2e819",
            "AutoScalingConfigurationName": "low-cost",
            "AutoScalingConfigurationRevision": 1
        }
    ]
}
```
+  Untuk detail API, lihat [ListAutoScalingConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/list-auto-scaling-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-connections`
<a name="apprunner_ListConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-connections`.

**AWS CLI**  
**Contoh 1: Untuk daftar semua koneksi**  
`list-connections`Contoh berikut mencantumkan semua koneksi App Runner di AWS akun.  

```
aws apprunner list-connections
```
Output:  

```
{
    "ConnectionSummaryList": [
        {
            "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection",
            "ConnectionName": "my-github-connection",
            "Status": "AVAILABLE",
            "CreatedAt": "2020-11-03T00:32:51Z",
            "ProviderType": "GITHUB"
        },
        {
            "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-org-connection",
            "ConnectionName": "my-github-org-connection",
            "Status": "AVAILABLE",
            "CreatedAt": "2020-11-03T02:54:17Z",
            "ProviderType": "GITHUB"
        }
    ]
}
```
**Contoh 2: Untuk membuat daftar koneksi dengan nama**  
`list-connections`Contoh berikut mencantumkan koneksi dengan namanya.  

```
aws apprunner list-connections \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ConnectionName": "my-github-org-connection"
}
```
Output:  

```
{
    "ConnectionSummaryList": [
        {
            "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-org-connection",
            "ConnectionName": "my-github-org-connection",
            "Status": "AVAILABLE",
            "CreatedAt": "2020-11-03T02:54:17Z",
            "ProviderType": "GITHUB"
        }
    ]
}
```
+  Untuk detail API, lihat [ListConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/list-connections.html)di *Referensi AWS CLI Perintah*. 

### `list-operations`
<a name="apprunner_ListOperations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-operations`.

**AWS CLI**  
**Untuk membuat daftar operasi yang terjadi pada servicee**  
`list-operations`Contoh berikut mencantumkan semua operasi yang terjadi pada layanan App Runner sejauh ini. Dalam contoh ini, layanan ini baru dan hanya satu operasi tipe yang `CREATE_SERVICE` telah terjadi.  

```
aws apprunner list-operations \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
Output:  

```
{
    "OperationSummaryList": [
        {
            "EndedAt": 1606156217,
            "Id": "17fe9f55-7e91-4097-b243-fcabbb69a4cf",
            "StartedAt": 1606156014,
            "Status": "SUCCEEDED",
            "TargetArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
            "Type": "CREATE_SERVICE",
            "UpdatedAt": 1606156217
        }
    ]
}
```
+  Untuk detail API, lihat [ListOperations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/list-operations.html)di *Referensi AWS CLI Perintah*. 

### `list-services`
<a name="apprunner_ListServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-services`.

**AWS CLI**  
**Untuk mendapatkan daftar paginasi layanan App Runner**  
`list-services`Contoh berikut mencantumkan semua layanan App Runner di AWS akun. Hingga dua layanan tercantum dalam setiap tanggapan. Contoh ini menunjukkan permintaan pertama. Respons mencakup dua hasil dan token yang dapat digunakan dalam permintaan berikutnya. Ketika respons berikutnya tidak menyertakan token, semua layanan telah terdaftar.  

```
aws apprunner list-services \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "MaxResults": 2
}
```
Output:  

```
{
    "NextToken": "eyJDdXN0b21lckFjY291bnRJZCI6IjI3MDIwNTQwMjg0NSIsIlNlcnZpY2VTdGF0dXNDb2RlIjoiUFJPVklTSU9OSU5HIiwiSGFzaEtleSI6IjI3MDIwNTQwMjg0NSNhYjhmOTRjZmUyOWE0NjBmYjg3NjBhZmQyZWU4NzU1NSJ9",
    "ServiceSummaryList": [
        {
            "CreatedAt": "2020-11-20T19:05:25Z",
            "UpdatedAt": "2020-11-23T12:41:37Z",
            "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
            "ServiceId": "8fe1e10304f84fd2b0df550fe98a71fa",
            "ServiceName": "python-app",
            "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
            "Status": "RUNNING"
        },
        {
            "CreatedAt": "2020-11-06T23:15:30Z",
            "UpdatedAt": "2020-11-23T13:21:22Z",
            "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/golang-container-app/ab8f94cfe29a460fb8760afd2ee87555",
            "ServiceId": "ab8f94cfe29a460fb8760afd2ee87555",
            "ServiceName": "golang-container-app",
            "ServiceUrl": "e2m8rrrx33.us-east-1.awsapprunner.com",
            "Status": "RUNNING"
        }
    ]
}
```
+  Untuk detail API, lihat [ListServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/list-services.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="apprunner_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang terkait dengan layanan App Runner**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag yang terkait dengan layanan App Runner.  

```
aws apprunner list-tags-for-resource \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ResourceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Department",
            "Value": "Retail"
        },
        {
            "Key": "CustomerId",
            "Value": "56439872357912"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `pause-service`
<a name="apprunner_PauseService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`pause-service`.

**AWS CLI**  
**Untuk menjeda layanan**  
`pause-service`Contoh berikut menjeda layanan App Runner.  

```
aws apprunner pause-service \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
Output:  

```
{
    "OperationId": "17fe9f55-7e91-4097-b243-fcabbb69a4cf",
    "Service": {
        "CreatedAt": "2020-11-20T19:05:25Z",
        "UpdatedAt": "2020-11-23T12:41:37Z",
        "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceId": "8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceName": "python-app",
        "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
        "SourceConfiguration": {
            "AuthenticationConfiguration": {
                "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
            },
            "AutoDeploymentsEnabled": true,
            "CodeRepository": {
                "CodeConfiguration": {
                    "CodeConfigurationValues": {
                        "BuildCommand": "pip install -r requirements.txt",
                        "Port": "8080",
                        "Runtime": "PYTHON_3",
                        "RuntimeEnvironmentVariables": [
                            {
                                "NAME": "Jane"
                            }
                        ],
                        "StartCommand": "python server.py"
                    },
                    "ConfigurationSource": "Api"
                },
                "RepositoryUrl": "https://github.com/my-account/python-hello",
                "SourceCodeVersion": {
                    "Type": "BRANCH",
                    "Value": "main"
                }
            }
        },
        "Status": "OPERATION_IN_PROGRESS",
        "InstanceConfiguration": {
            "CPU": "1 vCPU",
            "Memory": "3 GB"
        }
    }
}
```
+  Untuk detail API, lihat [PauseService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/pause-service.html)di *Referensi AWS CLI Perintah*. 

### `resume-service`
<a name="apprunner_ResumeService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resume-service`.

**AWS CLI**  
**Untuk melanjutkan layanan**  
`resume-service`Contoh berikut melanjutkan layanan App Runner.  

```
aws apprunner resume-service \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
Output:  

```
{
    "OperationId": "17fe9f55-7e91-4097-b243-fcabbb69a4cf",
    "Service": {
        "CreatedAt": "2020-11-20T19:05:25Z",
        "UpdatedAt": "2020-11-23T12:41:37Z",
        "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceId": "8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceName": "python-app",
        "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
        "SourceConfiguration": {
            "AuthenticationConfiguration": {
                "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
            },
            "AutoDeploymentsEnabled": true,
            "CodeRepository": {
                "CodeConfiguration": {
                    "CodeConfigurationValues": {
                        "BuildCommand": "pip install -r requirements.txt",
                        "Port": "8080",
                        "Runtime": "PYTHON_3",
                        "RuntimeEnvironmentVariables": [
                            {
                                "NAME": "Jane"
                            }
                        ],
                        "StartCommand": "python server.py"
                    },
                    "ConfigurationSource": "Api"
                },
                "RepositoryUrl": "https://github.com/my-account/python-hello",
                "SourceCodeVersion": {
                    "Type": "BRANCH",
                    "Value": "main"
                }
            }
        },
        "Status": "OPERATION_IN_PROGRESS",
        "InstanceConfiguration": {
            "CPU": "1 vCPU",
            "Memory": "3 GB"
        }
    }
}
```
+  Untuk detail API, lihat [ResumeService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/resume-service.html)di *Referensi AWS CLI Perintah*. 

### `start-deployment`
<a name="apprunner_StartDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-deployment`.

**AWS CLI**  
**Untuk memulai penerapan manual**  
`start-deployment`Contoh berikut melakukan penerapan manual ke layanan App Runner.  

```
aws apprunner start-deployment \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa"
}
```
Output:  

```
{
    "OperationId": "853a7d5b-fc9f-4730-831b-fd8037ab832a"
}
```
+  Untuk detail API, lihat [StartDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/start-deployment.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="apprunner_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke layanan App Runner**  
`tag-resource`Contoh berikut menambahkan dua tag ke layanan App Runner.  

```
aws apprunner tag-resource \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ResourceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
    "Tags": [
        {
            "Key": "Department",
            "Value": "Retail"
        },
        {
            "Key": "CustomerId",
            "Value": "56439872357912"
        }
    ]
}
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="apprunner_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari layanan App Runner**  
`untag-resource`Contoh berikut menghapus dua tag dari layanan App Runner.  

```
aws apprunner untag-resource \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ResourceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
    "TagKeys": [
        "Department",
        "CustomerId"
    ]
}
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-service`
<a name="apprunner_UpdateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service`.

**AWS CLI**  
**Untuk memperbarui ukuran memori**  
`update-service`Contoh berikut memperbarui ukuran memori instance (unit penskalaan) layanan App Runner menjadi 2048 MiB.  
Ketika panggilan berhasil, App Runner memulai proses pembaruan asinkron. `Service`Struktur yang dikembalikan oleh panggilan mencerminkan nilai memori baru yang sedang diterapkan oleh panggilan ini.  

```
aws apprunner update-service \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
    "InstanceConfiguration": {
        "Memory": "4 GB"
    }
}
```
Output:  

```
{
    "OperationId": "17fe9f55-7e91-4097-b243-fcabbb69a4cf",
    "Service": {
        "CreatedAt": "2020-11-20T19:05:25Z",
        "UpdatedAt": "2020-11-23T12:41:37Z",
        "ServiceArn": "arn:aws:apprunner:us-east-1:123456789012:service/python-app/8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceId": "8fe1e10304f84fd2b0df550fe98a71fa",
        "ServiceName": "python-app",
        "ServiceUrl": "psbqam834h.us-east-1.awsapprunner.com",
        "SourceConfiguration": {
            "AuthenticationConfiguration": {
                "ConnectionArn": "arn:aws:apprunner:us-east-1:123456789012:connection/my-github-connection/e7656250f67242d7819feade6800f59e"
            },
            "AutoDeploymentsEnabled": true,
            "CodeRepository": {
                "CodeConfiguration": {
                    "CodeConfigurationValues": {
                        "BuildCommand": "pip install -r requirements.txt",
                        "Port": "8080",
                        "Runtime": "PYTHON_3",
                        "RuntimeEnvironmentVariables": [
                            {
                                "NAME": "Jane"
                            }
                        ],
                        "StartCommand": "python server.py"
                    },
                    "ConfigurationSource": "Api"
                },
                "RepositoryUrl": "https://github.com/my-account/python-hello",
                "SourceCodeVersion": {
                    "Type": "BRANCH",
                    "Value": "main"
                }
            }
        },
        "Status": "OPERATION_IN_PROGRESS",
        "InstanceConfiguration": {
            "CPU": "1 vCPU",
            "Memory": "4 GB"
        }
    }
}
```
+  Untuk detail API, lihat [UpdateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/apprunner/update-service.html)di *Referensi AWS CLI Perintah*. 

# AWS AppConfig contoh menggunakan AWS CLI
<a name="cli_2_appconfig_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS AppConfig.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-application`
<a name="appconfig_CreateApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-application`.

**AWS CLI**  
**Untuk membuat aplikasi**  
`create-application`Contoh berikut membuat aplikasi di AWS AppConfig.  

```
aws appconfig create-application \
    --name "example-application" \
    --description "An application used for creating an example."
```
Output:  

```
{
    "Description": "An application used for creating an example.",
    "Id": "339ohji",
    "Name": "example-application"
}
```
Untuk informasi selengkapnya, lihat [Langkah 1: Membuat AWS AppConfig aplikasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-application.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [CreateApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/create-application.html)di *Referensi AWS CLI Perintah*. 

### `create-configuration-profile`
<a name="appconfig_CreateConfigurationProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-configuration-profile`.

**AWS CLI**  
**Untuk membuat profil konfigurasi**  
`create-configuration-profile`Contoh berikut membuat profil konfigurasi menggunakan konfigurasi yang disimpan di Parameter Store, kemampuan Systems Manager.  

```
aws appconfig create-configuration-profile \
    --application-id "339ohji" \
    --name "Example-Configuration-Profile" \
    --location-uri "ssm-parameter://Example-Parameter" \
    --retrieval-role-arn "arn:aws:iam::111122223333:role/Example-App-Config-Role"
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "Description": null,
    "Id": "ur8hx2f",
    "LocationUri": "ssm-parameter://Example-Parameter",
    "Name": "Example-Configuration-Profile",
    "RetrievalRoleArn": "arn:aws:iam::111122223333:role/Example-App-Config-Role",
    "Type": null,
    "Validators": null
}
```
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat konfigurasi dan profil konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [CreateConfigurationProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/create-configuration-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-environment`
<a name="appconfig_CreateEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-environment`.

**AWS CLI**  
**Untuk menciptakan lingkungan**  
`create-environment`Contoh berikut menciptakan AWS AppConfig lingkungan bernama Example-Environment menggunakan aplikasi yang Anda buat menggunakan create-application.  

```
aws appconfig create-environment \
    --application-id "339ohji" \
    --name "Example-Environment"
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "Description": null,
    "Id": "54j1r29",
    "Monitors": null,
    "Name": "Example-Environment",
    "State": "ReadyForDeployment"
}
```
Untuk informasi selengkapnya, lihat [Langkah 2: Membuat lingkungan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-environment.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [CreateEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/create-environment.html)di *Referensi AWS CLI Perintah*. 

### `create-extension-association`
<a name="appconfig_CreateExtensionAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-extension-association`.

**AWS CLI**  
**Untuk membuat asosiasi ekstensi**  
`create-extension-association`Contoh berikut membuat asosiasi ekstensi baru di AWS AppConfig.  

```
aws appconfig create-extension-association \
    --region us-west-2 \
    --extension-identifier S3-backup-extension \
    --resource-identifier "arn:aws:appconfig:us-west-2:123456789012:application/Finance" \
    --parameters S3bucket=FinanceConfigurationBackup
```
Output:  

```
{
  "Id": "a1b2c3d4",
  "ExtensionArn": "arn:aws:appconfig:us-west-2:123456789012:extension/S3-backup-extension/1",
  "ResourceArn": "arn:aws:appconfig:us-west-2:123456789012:application/Finance",
  "Parameters": {
    "S3bucket": "FinanceConfigurationBackup"
  },
  "ExtensionVersionNumber": 1
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [CreateExtensionAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/create-extension-association.html)di *Referensi AWS CLI Perintah*. 

### `create-extension`
<a name="appconfig_CreateExtension_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-extension`.

**AWS CLI**  
**Untuk membuat ekstensi**  
`create-extension`Contoh berikut membuat ekstensi baru di AWS AppConfig.  

```
aws appconfig create-extension \
    --region us-west-2 \
    --name S3-backup-extension \
    --actions PRE_CREATE_HOSTED_CONFIGURATION_VERSION=[{Name=S3backup,Uri=arn:aws:lambda:us-west-2:123456789012:function:s3backupfunction,RoleArn=arn:aws:iam::123456789012:role/appconfigextensionrole}] \
    --parameters S3bucket={Required=true}
```
Output:  

```
{
    "Id": "1A2B3C4D",
    "Name": "S3-backup-extension",
    "VersionNumber": 1,
    "Arn": "arn:aws:appconfig:us-west-2:123456789012:extension/1A2B3C4D/1",
    "Actions": {
        "PRE_CREATE_HOSTED_CONFIGURATION_VERSION": [
            {
                "Name": "S3backup",
                "Uri": "arn:aws:lambda:us-west-2:123456789012:function:s3backupfunction",
                "RoleArn": "arn:aws:iam::123456789012:role/appconfigextensionrole"
            }
        ]
    },
    "Parameters": {
        "S3bucket": {
            "Required": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [CreateExtension](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/create-extension.html)di *Referensi AWS CLI Perintah*. 

### `create-hosted-configuration-version`
<a name="appconfig_CreateHostedConfigurationVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-hosted-configuration-version`.

**AWS CLI**  
**Untuk membuat versi konfigurasi yang dihosting**  
`create-hosted-configuration-version`Contoh berikut membuat konfigurasi baru di toko konfigurasi yang AWS AppConfig dihosting. Konten konfigurasi harus terlebih dahulu dikonversi ke base64.  

```
aws appconfig create-hosted-configuration-version \
    --application-id "339ohji" \
    --configuration-profile-id "ur8hx2f" \
    --content eyAiTmFtZSI6ICJFeGFtcGxlQXBwbGljYXRpb24iLCAiSWQiOiBFeGFtcGxlSUQsICJSYW5rIjogNyB9 \
    --content-type "application/json" \
    configuration_version_output_file
```
Isi dari `configuration_version_output_file`:  

```
{ "Name": "ExampleApplication", "Id": ExampleID, "Rank": 7 }
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "ConfigurationProfileId": "ur8hx2f",
    "VersionNumber": "1",
    "ContentType": "application/json"
}
```
Untuk informasi selengkapnya, lihat [Tentang penyimpanan konfigurasi yang AWS AppConfig dihosting](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html#appconfig-creating-configuration-and-profile-about-hosted-store) di *Panduan Pengguna AWS Appconfig*.  
+  Untuk detail API, lihat [CreateHostedConfigurationVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/create-hosted-configuration-version.html)di *Referensi AWS CLI Perintah*. 

### `delete-application`
<a name="appconfig_DeleteApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-application`.

**AWS CLI**  
**Untuk menghapus aplikasi**  
`delete-application`Contoh berikut menghapus aplikasi yang ditentukan.  

```
aws appconfig delete-application \
--application-id 339ohji
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 1: Membuat AWS AppConfig aplikasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-application.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [DeleteApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/delete-application.html)di *Referensi AWS CLI Perintah*. 

### `delete-configuration-profile`
<a name="appconfig_DeleteConfigurationProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-configuration-profile`.

**AWS CLI**  
**Untuk menghapus profil konfigurasi**  
`delete-configuration-profile`Contoh berikut menghapus profil konfigurasi yang ditentukan.  

```
aws appconfig delete-configuration-profile \
    --application-id 339ohji \
    --configuration-profile-id ur8hx2f
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat konfigurasi dan profil konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [DeleteConfigurationProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/delete-configuration-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-deployment-strategy`
<a name="appconfig_DeleteDeploymentStrategy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-deployment-strategy`.

**AWS CLI**  
**Untuk menghapus strategi penerapan**  
`delete-deployment-strategy`Contoh berikut menghapus strategi penyebaran yang ditentukan.  

```
aws appconfig delete-deployment-strategy \
    --deployment-strategy-id 1225qzk
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 4: Membuat strategi penerapan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-deployment-strategy.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [DeleteDeploymentStrategy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/delete-deployment-strategy.html)di *Referensi AWS CLI Perintah*. 

### `delete-environment`
<a name="appconfig_DeleteEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-environment`.

**AWS CLI**  
**Untuk menghapus lingkungan**  
`delete-environment`Contoh berikut menghapus lingkungan aplikasi yang ditentukan.  

```
aws appconfig delete-environment \
    --application-id 339ohji \
    --environment-id 54j1r29
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 2: Membuat lingkungan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-environment.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [DeleteEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/delete-environment.html)di *Referensi AWS CLI Perintah*. 

### `delete-extension-association`
<a name="appconfig_DeleteExtensionAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-extension-association`.

**AWS CLI**  
**Untuk menghapus asosiasi ekstensi**  
`delete-extension-association`Contoh berikut menghapus asosiasi ekstensi dari AWS AppConfig.  

```
aws appconfig delete-extension-association \
    --region us-west-2 \
    --extension-association-id a1b2c3d4
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [DeleteExtensionAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/delete-extension-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-extension`
<a name="appconfig_DeleteExtension_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-extension`.

**AWS CLI**  
**Untuk menghapus ekstensi**  
`delete-extension`Contoh berikut menghapus ekstensi dari AWS AppConfig.  

```
aws appconfig delete-extension \
    --region us-west-2 \
    --extension-identifier S3-backup-extension
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [DeleteExtension](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/delete-extension.html)di *Referensi AWS CLI Perintah*. 

### `delete-hosted-configuration-version`
<a name="appconfig_DeleteHostedConfigurationVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-hosted-configuration-version`.

**AWS CLI**  
**Untuk menghapus versi konfigurasi yang dihosting**  
`delete-hosted-configuration-version`Contoh berikut menghapus versi konfigurasi yang dihosting di toko konfigurasi yang AWS AppConfig dihosting.  

```
aws appconfig delete-hosted-configuration-version \
    --application-id 339ohji \
    --configuration-profile-id ur8hx2f \
    --version-number 1
```
Output:: Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat konfigurasi dan profil konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [DeleteHostedConfigurationVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/delete-hosted-configuration-version.html)di *Referensi AWS CLI Perintah*. 

### `get-application`
<a name="appconfig_GetApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-application`.

**AWS CLI**  
**Untuk membuat daftar detail aplikasi**  
`get-application`Contoh berikut mencantumkan rincian aplikasi yang ditentukan.  

```
aws appconfig get-application \
    --application-id 339ohji
```
Output:  

```
{
    "Description": "An application used for creating an example.",
    "Id": "339ohji",
    "Name": "example-application"
}
```
Untuk informasi selengkapnya, lihat [Cara AWS AppConfig kerja](https://docs.aws.amazon.com/appconfig/latest/userguide/what-is-appconfig.html#learn-more-appconfig-how-it-works) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-application.html)di *Referensi AWS CLI Perintah*. 

### `get-configuration-profile`
<a name="appconfig_GetConfigurationProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-configuration-profile`.

**AWS CLI**  
**Untuk mengambil detail profil konfigurasi**  
`get-configuration-profile`Contoh berikut mengembalikan rincian profil konfigurasi yang ditentukan.  

```
aws appconfig get-configuration-profile \
    --application-id 339ohji \
    --configuration-profile-id ur8hx2f
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "Id": "ur8hx2f",
    "Name": "Example-Configuration-Profile",
    "LocationUri": "ssm-parameter://Example-Parameter",
    "RetrievalRoleArn": "arn:aws:iam::111122223333:role/Example-App-Config-Role"
}
```
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat konfigurasi dan profil konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetConfigurationProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-configuration-profile.html)di *Referensi AWS CLI Perintah*. 

### `get-configuration`
<a name="appconfig_GetConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-configuration`.

**AWS CLI**  
**Untuk mengambil detail konfigurasi**  
`get-configuration`Contoh berikut mengembalikan rincian konfigurasi aplikasi contoh. Pada panggilan berikutnya untuk mendapatkan konfigurasi, gunakan `client-configuration-version` parameter untuk hanya memperbarui konfigurasi aplikasi Anda jika versi telah berubah. Hanya memperbarui konfigurasi ketika versi telah berubah menghindari biaya berlebih yang dikeluarkan dengan memanggil get-configuration.  

```
aws appconfig get-configuration \
    --application "example-application" \
    --environment "Example-Environment" \
    --configuration "Example-Configuration-Profile" \
    --client-id "test-id" \
    configuration-output-file
```
Isi dari `configuration-output-file`:  

```
{ "Name": "ExampleApplication", "Id": ExampleID, "Rank": 7 }
```
Output:  

```
{
    "ConfigurationVersion": "1",
    "ContentType": "application/json"
}
```
Untuk informasi selengkapnya, lihat [Langkah 6: Menerima konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-retrieving-the-configuration.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment-strategy`
<a name="appconfig_GetDeploymentStrategy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment-strategy`.

**AWS CLI**  
**Untuk mengambil rincian strategi penyebaran**  
`get-deployment-strategy`Contoh berikut mencantumkan rincian strategi penyebaran yang ditentukan.  

```
aws appconfig get-deployment-strategy \
    --deployment-strategy-id 1225qzk
```
Output:  

```
{
    "Id": "1225qzk",
    "Name": "Example-Deployment",
    "DeploymentDurationInMinutes": 15,
    "GrowthType": "LINEAR",
    "GrowthFactor": 25.0,
    "FinalBakeTimeInMinutes": 0,
    "ReplicateTo": "SSM_DOCUMENT"
}
```
Untuk informasi selengkapnya, lihat [Langkah 4: Membuat strategi penerapan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-deployment-strategy.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetDeploymentStrategy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-deployment-strategy.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment`
<a name="appconfig_GetDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment`.

**AWS CLI**  
**Untuk mengambil detail penerapan**  
`get-deployment`Contoh berikut mencantumkan rincian penyebaran ke aplikasi di lingkungan dan penyebaran yang ditentukan.  

```
aws appconfig get-deployment \
    --application-id 339ohji \
    --environment-id 54j1r29 \
    --deployment-number 1
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "EnvironmentId": "54j1r29",
    "DeploymentStrategyId": "1225qzk",
    "ConfigurationProfileId": "ur8hx2f",
    "DeploymentNumber": 1,
    "ConfigurationName": "Example-Configuration-Profile",
    "ConfigurationLocationUri": "ssm-parameter://Example-Parameter",
    "ConfigurationVersion": "1",
    "DeploymentDurationInMinutes": 15,
    "GrowthType": "LINEAR",
    "GrowthFactor": 25.0,
    "FinalBakeTimeInMinutes": 0,
    "State": "COMPLETE",
    "EventLog": [
        {
            "EventType": "DEPLOYMENT_COMPLETED",
            "TriggeredBy": "APPCONFIG",
            "Description": "Deployment completed",
            "OccurredAt": "2021-09-17T21:59:03.888000+00:00"
        },
        {
            "EventType": "BAKE_TIME_STARTED",
            "TriggeredBy": "APPCONFIG",
            "Description": "Deployment bake time started",
            "OccurredAt": "2021-09-17T21:58:57.722000+00:00"
        },
        {
            "EventType": "PERCENTAGE_UPDATED",
            "TriggeredBy": "APPCONFIG",
            "Description": "Configuration available to 100.00% of clients",
            "OccurredAt": "2021-09-17T21:55:56.816000+00:00"
        },
        {
            "EventType": "PERCENTAGE_UPDATED",
            "TriggeredBy": "APPCONFIG",
            "Description": "Configuration available to 75.00% of clients",
            "OccurredAt": "2021-09-17T21:52:56.567000+00:00"
        },
        {
            "EventType": "PERCENTAGE_UPDATED",
            "TriggeredBy": "APPCONFIG",
            "Description": "Configuration available to 50.00% of clients",
            "OccurredAt": "2021-09-17T21:49:55.737000+00:00"
        },
        {
            "EventType": "PERCENTAGE_UPDATED",
            "TriggeredBy": "APPCONFIG",
            "Description": "Configuration available to 25.00% of clients",
            "OccurredAt": "2021-09-17T21:46:55.187000+00:00"
        },
        {
            "EventType": "DEPLOYMENT_STARTED",
            "TriggeredBy": "USER",
            "Description": "Deployment started",
            "OccurredAt": "2021-09-17T21:43:54.205000+00:00"
        }
    ],
    "PercentageComplete": 100.0,
    "StartedAt": "2021-09-17T21:43:54.205000+00:00",
    "CompletedAt": "2021-09-17T21:59:03.888000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Langkah 5: Menerapkan konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-deploying.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-deployment.html)di *Referensi AWS CLI Perintah*. 

### `get-environment`
<a name="appconfig_GetEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-environment`.

**AWS CLI**  
**Untuk mengambil detail lingkungan**  
`get-environment`Contoh berikut mengembalikan rincian dan keadaan lingkungan tertentu.  

```
aws appconfig get-environment \
    --application-id 339ohji \
    --environment-id 54j1r29
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "Id": "54j1r29",
    "Name": "Example-Environment",
    "State": "ReadyForDeployment"
}
```
Untuk informasi selengkapnya, lihat [Langkah 2: Membuat lingkungan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-environment.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-environment.html)di *Referensi AWS CLI Perintah*. 

### `get-extension-association`
<a name="appconfig_GetExtensionAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-extension-association`.

**AWS CLI**  
**Untuk mendapatkan detail asosiasi ekstensi**  
`get-extension-association`Contoh berikut menampilkan informasi tentang asosiasi ekstensi.  

```
aws appconfig get-extension-association \
    --region us-west-2 \
    --extension-association-id a1b2c3d4
```
Output:  

```
{
    "Id": "a1b2c3d4",
    "ExtensionArn": "arn:aws:appconfig:us-west-2:123456789012:extension/S3-backup-extension/1",
    "ResourceArn": "arn:aws:appconfig:us-west-2:123456789012:application/Finance",
    "Parameters": {
        "S3bucket": "FinanceConfigurationBackup"
    },
    "ExtensionVersionNumber": 1
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetExtensionAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-extension-association.html)di *Referensi AWS CLI Perintah*. 

### `get-extension`
<a name="appconfig_GetExtension_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-extension`.

**AWS CLI**  
**Untuk mendapatkan detail ekstensi**  
`get-extension`Contoh berikut menampilkan informasi tentang ekstensi.  

```
aws appconfig get-extension \
    --region us-west-2 \
    --extension-identifier S3-backup-extension
```
Output:  

```
{
    "Id": "1A2B3C4D",
    "Name": "S3-backup-extension",
    "VersionNumber": 1,
    "Arn": "arn:aws:appconfig:us-west-2:123456789012:extension/S3-backup-extension/1",
    "Actions": {
        "PRE_CREATE_HOSTED_CONFIGURATION_VERSION": [
            {
                "Name": "S3backup",
                "Uri": "arn:aws:lambda:us-west-2:123456789012:function:S3backupfunction",
                "RoleArn": "arn:aws:iam::123456789012:role/appconfigextensionrole"
            }
        ]
    },
    "Parameters": {
        "S3bucket": {
            "Required": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetExtension](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-extension.html)di *Referensi AWS CLI Perintah*. 

### `get-hosted-configuration-version`
<a name="appconfig_GetHostedConfigurationVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-hosted-configuration-version`.

**AWS CLI**  
**Untuk mengambil detail konfigurasi yang dihosting**  
`get-hosted-configuration-version`Contoh berikut mengambil detail konfigurasi konfigurasi yang AWS AppConfig dihosting.  

```
aws appconfig get-hosted-configuration-version \
    --application-id 339ohji \
    --configuration-profile-id ur8hx2f \
    --version-number 1 \
    hosted-configuration-version-output
```
Isi dari `hosted-configuration-version-output`:  

```
{ "Name": "ExampleApplication", "Id": ExampleID, "Rank": 7 }
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "ConfigurationProfileId": "ur8hx2f",
    "VersionNumber": "1",
    "ContentType": "application/json"
}
```
Untuk informasi selengkapnya, lihat [Tentang penyimpanan konfigurasi yang AWS AppConfig dihosting](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html#appconfig-creating-configuration-and-profile-about-hosted-store) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [GetHostedConfigurationVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/get-hosted-configuration-version.html)di *Referensi AWS CLI Perintah*. 

### `list-applications`
<a name="appconfig_ListApplications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-applications`.

**AWS CLI**  
**Untuk daftar aplikasi yang tersedia**  
`list-applications`Contoh berikut mencantumkan aplikasi yang tersedia di AWS akun Anda.  

```
aws appconfig list-applications
```
Output:  

```
{
    "Items": [
        {
            "Id": "339ohji",
            "Name": "test-application",
            "Description": "An application used for creating an example."
        },
        {
            "Id": "rwalwu7",
            "Name": "Test-Application"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Langkah 1: Membuat AWS AppConfig aplikasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-application.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListApplications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-applications.html)di *Referensi AWS CLI Perintah*. 

### `list-configuration-profiles`
<a name="appconfig_ListConfigurationProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-configuration-profiles`.

**AWS CLI**  
**Untuk daftar profil konfigurasi yang tersedia**  
`list-configuration-profiles`Contoh berikut mencantumkan profil konfigurasi yang tersedia untuk aplikasi yang ditentukan.  

```
aws appconfig list-configuration-profiles \
    --application-id 339ohji
```
Output:  

```
{
    "Items": [
        {
            "ApplicationId": "339ohji",
            "Id": "ur8hx2f",
            "Name": "Example-Configuration-Profile",
            "LocationUri": "ssm-parameter://Example-Parameter"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat konfigurasi dan profil konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListConfigurationProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-configuration-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-deployment-strategies`
<a name="appconfig_ListDeploymentStrategies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployment-strategies`.

**AWS CLI**  
**Untuk membuat daftar strategi penyebaran yang tersedia**  
`list-deployment-strategies`Contoh berikut mencantumkan strategi penyebaran yang tersedia di AWS akun Anda.  

```
aws appconfig list-deployment-strategies
```
Output:  

```
{
    "Items": [
        {
            "Id": "1225qzk",
            "Name": "Example-Deployment",
            "DeploymentDurationInMinutes": 15,
            "GrowthType": "LINEAR",
            "GrowthFactor": 25.0,
            "FinalBakeTimeInMinutes": 0,
            "ReplicateTo": "SSM_DOCUMENT"
        },
        {
            "Id": "AppConfig.AllAtOnce",
            "Name": "AppConfig.AllAtOnce",
            "Description": "Quick",
            "DeploymentDurationInMinutes": 0,
            "GrowthType": "LINEAR",
            "GrowthFactor": 100.0,
            "FinalBakeTimeInMinutes": 10,
            "ReplicateTo": "NONE"
        },
        {
            "Id": "AppConfig.Linear50PercentEvery30Seconds",
            "Name": "AppConfig.Linear50PercentEvery30Seconds",
            "Description": "Test/Demo",
            "DeploymentDurationInMinutes": 1,
            "GrowthType": "LINEAR",
            "GrowthFactor": 50.0,
            "FinalBakeTimeInMinutes": 1,
            "ReplicateTo": "NONE"
        },
        {
            "Id": "AppConfig.Canary10Percent20Minutes",
            "Name": "AppConfig.Canary10Percent20Minutes",
            "Description": "AWS Recommended",
            "DeploymentDurationInMinutes": 20,
            "GrowthType": "EXPONENTIAL",
            "GrowthFactor": 10.0,
            "FinalBakeTimeInMinutes": 10,
            "ReplicateTo": "NONE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Langkah 4: Membuat strategi penerapan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-deployment-strategy.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListDeploymentStrategies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-deployment-strategies.html)di *Referensi AWS CLI Perintah*. 

### `list-deployments`
<a name="appconfig_ListDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployments`.

**AWS CLI**  
**Untuk membuat daftar penerapan yang tersedia**  
`list-deployments`Contoh berikut mencantumkan penerapan yang tersedia di AWS akun Anda untuk aplikasi dan lingkungan yang ditentukan.  

```
aws appconfig list-deployments \
    --application-id 339ohji \
    --environment-id 54j1r29
```
Output:  

```
{
    "Items": [
        {
            "DeploymentNumber": 1,
            "ConfigurationName": "Example-Configuration-Profile",
            "ConfigurationVersion": "1",
            "DeploymentDurationInMinutes": 15,
            "GrowthType": "LINEAR",
            "GrowthFactor": 25.0,
            "FinalBakeTimeInMinutes": 0,
            "State": "COMPLETE",
            "PercentageComplete": 100.0,
            "StartedAt": "2021-09-17T21:43:54.205000+00:00",
            "CompletedAt": "2021-09-17T21:59:03.888000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Langkah 5: Menerapkan konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-deploying.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-deployments.html)di *Referensi AWS CLI Perintah*. 

### `list-environments`
<a name="appconfig_ListEnvironments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-environments`.

**AWS CLI**  
**Untuk membuat daftar lingkungan yang tersedia**  
`list-environments`Contoh berikut mencantumkan lingkungan yang tersedia di AWS akun Anda untuk aplikasi yang ditentukan.  

```
aws appconfig list-environments \
    --application-id 339ohji
```
Output:  

```
{
    "Items": [
        {
            "ApplicationId": "339ohji",
            "Id": "54j1r29",
            "Name": "Example-Environment",
            "State": "ReadyForDeployment"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Langkah 2: Membuat lingkungan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-environment.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListEnvironments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-environments.html)di *Referensi AWS CLI Perintah*. 

### `list-extension-associations`
<a name="appconfig_ListExtensionAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-extension-associations`.

**AWS CLI**  
**Untuk mencantumkan semua asosiasi AWS AppConfig ekstensi di AWS akun Anda untuk AWS Wilayah**  
`list-extension-associations`Contoh berikut mencantumkan semua asosiasi AWS AppConfig ekstensi untuk AWS akun saat ini di AWS Wilayah tertentu.  

```
aws appconfig list-extension-associations \
    --region us-west-2
```
Output:  

```
{
    "Items": [
        {
            "Id": "a1b2c3d4",
            "ExtensionArn": "arn:aws:appconfig:us-west-2:123456789012:extension/S3-backup-extension/1",
            "ResourceArn": "arn:aws:appconfig:us-west-2:123456789012:application/Finance"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListExtensionAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-extension-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-extensions`
<a name="appconfig_ListExtensions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-extensions`.

**AWS CLI**  
**Untuk mencantumkan semua AWS AppConfig ekstensi di AWS akun Anda untuk AWS Wilayah**  
`list-extensions`Contoh berikut mencantumkan semua AWS AppConfig ekstensi untuk AWS akun saat ini di AWS Wilayah tertentu. Perintah mengembalikan ekstensi kustom dan AWS ditulis.  

```
aws appconfig list-extensions \
    --region us-west-2
```
Output:  

```
{
    "Items": [
        {
            "Id": "1A2B3C4D",
            "Name": "S3-backup-extension",
            "VersionNumber": 1,
            "Arn": "arn:aws:appconfig:us-west-2:123456789012:extension/1A2B3C4D/1"
        },
        {
            "Id": "AWS.AppConfig.FeatureFlags",
            "Name": "AppConfig Feature Flags Helper",
            "VersionNumber": 1,
            "Arn": "arn:aws:appconfig:us-west-2::extension/AWS.AppConfig.FeatureFlags/1",
            "Description": "Validates AppConfig feature flag data automatically against a JSON schema that includes structure and constraints. Also transforms feature flag data prior to sending to the client. This extension is automatically associated to configuration profiles with type \"AWS.AppConfig.FeatureFlags\"."
        },
        {
            "Id": "AWS.AppConfig.JiraIntegration",
            "Name": "AppConfig integration with Atlassian Jira",
            "VersionNumber": 1,
            "Arn": "arn:aws:appconfig:us-west-2::extension/AWS.AppConfig.JiraIntegration/1",
            "Description": "Exports feature flag data from AWS AppConfig into Jira. The lifecycle of each feature flag in AppConfig is tracked in Jira as an individual issue. Customers can see in Jira when flags are updated, turned on or off. Works in conjunction with the AppConfig app in the Atlassian Marketplace and is automatically associated to configuration profiles configured within that app."
        },
        {
            "Id": "AWS.AppConfig.DeploymentNotificationsToEventBridge",
            "Name": "AppConfig deployment events to Amazon EventBridge",
            "VersionNumber": 1,
            "Arn": "arn:aws:appconfig:us-west-2::extension/AWS.AppConfig.DeploymentNotificationsToEventBridge/1",
            "Description": "Sends events to Amazon EventBridge when a deployment of configuration data in AppConfig is started, completed, or rolled back. Can be associated to the following resources in AppConfig: Application, Environment, Configuration Profile."
        },
        {
            "Id": "AWS.AppConfig.DeploymentNotificationsToSqs",
            "Name": "AppConfig deployment events to Amazon SQS",
            "VersionNumber": 1,
            "Arn": "arn:aws:appconfig:us-west-2::extension/AWS.AppConfig.DeploymentNotificationsToSqs/1",
            "Description": "Sends messages to the configured Amazon SQS queue when a deployment of configuration data in AppConfig is started, completed, or rolled back. Can be associated to the following resources in AppConfig: Application, Environment, Configuration Profile."
        },
        {
            "Id": "AWS.AppConfig.DeploymentNotificationsToSns",
            "Name": "AppConfig deployment events to Amazon SNS",
            "VersionNumber": 1,
            "Description": "Sends events to the configured Amazon SNS topic when a deployment of configuration data in AppConfig is started, completed, or rolled back. Can be associated to the following resources in AppConfig: Application, Environment, Configuration Profile."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListExtensions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-extensions.html)di *Referensi AWS CLI Perintah*. 

### `list-hosted-configuration-versions`
<a name="appconfig_ListHostedConfigurationVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-hosted-configuration-versions`.

**AWS CLI**  
**Untuk mencantumkan versi konfigurasi yang dihosting yang tersedia**  
`list-hosted-configuration-versions`Contoh berikut mencantumkan versi konfigurasi yang dihosting di toko konfigurasi yang AWS AppConfig dihosting untuk profil aplikasi dan konfigurasi yang ditentukan.  

```
aws appconfig list-hosted-configuration-versions \
    --application-id 339ohji \
    --configuration-profile-id ur8hx2f
```
Output:  

```
{
    "Items": [
        {
            "ApplicationId": "339ohji",
            "ConfigurationProfileId": "ur8hx2f",
            "VersionNumber": 1,
            "ContentType": "application/json"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tentang penyimpanan konfigurasi yang AWS AppConfig dihosting](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html#appconfig-creating-configuration-and-profile-about-hosted-store) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListHostedConfigurationVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-hosted-configuration-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="appconfig_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag aplikasi**  
`list-tags-for-resource`Contoh berikut mencantumkan tag dari aplikasi tertentu.  

```
aws appconfig list-tags-for-resource \
    --resource-arn arn:aws:appconfig:us-east-1:682428703967:application/339ohji
```
Output:  

```
{
    "Tags": {
        "group1": "1"
    }
}
```
Untuk informasi selengkapnya, lihat [Langkah 1: Membuat AWS AppConfig aplikasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-application.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-deployment`
<a name="appconfig_StartDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-deployment`.

**AWS CLI**  
**Untuk memulai penerapan konfigurasi**  
`start-deployment`Contoh berikut memulai penyebaran ke aplikasi menggunakan lingkungan tertentu, strategi penyebaran, dan profil konfigurasi.  

```
aws appconfig start-deployment \
    --application-id 339ohji \
    --environment-id 54j1r29 \
    --deployment-strategy-id 1225qzk \
    --configuration-profile-id ur8hx2f \
    --configuration-version 1
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "EnvironmentId": "54j1r29",
    "DeploymentStrategyId": "1225qzk",
    "ConfigurationProfileId": "ur8hx2f",
    "DeploymentNumber": 1,
    "ConfigurationName": "Example-Configuration-Profile",
    "ConfigurationLocationUri": "ssm-parameter://Example-Parameter",
    "ConfigurationVersion": "1",
    "DeploymentDurationInMinutes": 15,
    "GrowthType": "LINEAR",
    "GrowthFactor": 25.0,
    "FinalBakeTimeInMinutes": 0,
    "State": "DEPLOYING",
    "EventLog": [
        {
            "EventType": "DEPLOYMENT_STARTED",
            "TriggeredBy": "USER",
            "Description": "Deployment started",
            "OccurredAt": "2021-09-17T21:43:54.205000+00:00"
        }
    ],
    "PercentageComplete": 0.0,
    "StartedAt": "2021-09-17T21:43:54.205000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Langkah 5: Menerapkan konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-deploying.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [StartDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/start-deployment.html)di *Referensi AWS CLI Perintah*. 

### `stop-deployment`
<a name="appconfig_StopDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-deployment`.

**AWS CLI**  
**Untuk menghentikan penerapan konfigurasi**  
`stop-deployment`Contoh berikut menghentikan penyebaran konfigurasi aplikasi ke lingkungan yang ditentukan.  

```
aws appconfig stop-deployment \
    --application-id 339ohji \
    --environment-id 54j1r29 \
    --deployment-number 2
```
Output:  

```
{
    "DeploymentNumber": 0,
    "DeploymentDurationInMinutes": 0,
    "GrowthFactor": 0.0,
    "FinalBakeTimeInMinutes": 0,
    "PercentageComplete": 0.0
}
```
Untuk informasi selengkapnya, lihat [Langkah 5: Menerapkan konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-deploying.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [StopDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/stop-deployment.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="appconfig_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai aplikasi**  
`tag-resource`Contoh berikut menandai sumber daya aplikasi.  

```
aws appconfig tag-resource \
    --resource-arn arn:aws:appconfig:us-east-1:682428703967:application/339ohji \
    --tags '{"group1" : "1"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 1: Membuat AWS AppConfig aplikasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-application.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="appconfig_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari aplikasi**  
`untag-resource`Contoh berikut menghapus tag group1 dari aplikasi yang ditentukan.  

```
aws appconfig untag-resource \
    --resource-arn arn:aws:appconfig:us-east-1:111122223333:application/339ohji \
    --tag-keys '["group1"]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 1: Membuat AWS AppConfig aplikasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-application.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-application`
<a name="appconfig_UpdateApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-application`.

**AWS CLI**  
**Untuk memperbarui aplikasi**  
`update-application`Contoh berikut memperbarui nama aplikasi yang ditentukan.  

```
aws appconfig update-application \
    --application-id 339ohji \
    --name "Example-Application"
```
Output:  

```
{
    "Id": "339ohji",
    "Name": "Example-Application",
    "Description": "An application used for creating an example."
}
```
Untuk informasi selengkapnya, lihat [Langkah 1: Membuat AWS AppConfig aplikasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-application.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [UpdateApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/update-application.html)di *Referensi AWS CLI Perintah*. 

### `update-configuration-profile`
<a name="appconfig_UpdateConfigurationProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-configuration-profile`.

**AWS CLI**  
**Untuk memperbarui profil konfigurasi**  
`update-configuration-profile`Contoh berikut memperbarui deskripsi profil konfigurasi yang ditentukan.  

```
aws appconfig update-configuration-profile \
    --application-id 339ohji \
    --configuration-profile-id ur8hx2f \
    --description "Configuration profile used for examples."
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "Id": "ur8hx2f",
    "Name": "Example-Configuration-Profile",
    "Description": "Configuration profile used for examples.",
    "LocationUri": "ssm-parameter://Example-Parameter",
    "RetrievalRoleArn": "arn:aws:iam::111122223333:role/Example-App-Config-Role"
}
```
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat konfigurasi dan profil konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [UpdateConfigurationProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/update-configuration-profile.html)di *Referensi AWS CLI Perintah*. 

### `update-deployment-strategy`
<a name="appconfig_UpdateDeploymentStrategy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-deployment-strategy`.

**AWS CLI**  
**Untuk memperbarui strategi penerapan**  
`update-deployment-strategy`Contoh berikut memperbarui waktu pemanggangan akhir menjadi 20 menit dalam strategi penerapan yang ditentukan.  

```
aws appconfig update-deployment-strategy \
    --deployment-strategy-id 1225qzk \
    --final-bake-time-in-minutes 20
```
Output:  

```
{
    "Id": "1225qzk",
    "Name": "Example-Deployment",
    "DeploymentDurationInMinutes": 15,
    "GrowthType": "LINEAR",
    "GrowthFactor": 25.0,
    "FinalBakeTimeInMinutes": 20,
    "ReplicateTo": "SSM_DOCUMENT"
}
```
Untuk informasi selengkapnya, lihat [Langkah 4: Membuat strategi penerapan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-deployment-strategy.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [UpdateDeploymentStrategy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/update-deployment-strategy.html)di *Referensi AWS CLI Perintah*. 

### `update-environment`
<a name="appconfig_UpdateEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-environment`.

**AWS CLI**  
**Untuk memperbarui lingkungan**  
`update-environment`Contoh berikut memperbarui deskripsi lingkungan.  

```
aws appconfig update-environment \
    --application-id 339ohji \
    --environment-id 54j1r29 \
    --description "An environment for examples."
```
Output:  

```
{
    "ApplicationId": "339ohji",
    "Id": "54j1r29",
    "Name": "Example-Environment",
    "Description": "An environment for examples.",
    "State": "RolledBack"
}
```
Untuk informasi selengkapnya, lihat [Langkah 2: Membuat lingkungan](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-environment.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [UpdateEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/update-environment.html)di *Referensi AWS CLI Perintah*. 

### `update-extension-association`
<a name="appconfig_UpdateExtensionAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-extension-association`.

**AWS CLI**  
**Untuk memperbarui asosiasi AWS AppConfig ekstensi**  
`update-extension-association`Contoh berikut menambahkan nilai parameter baru ke asosiasi ekstensi di AWS AppConfig.  

```
aws appconfig update-extension-association \
    --region us-west-2 \
    --extension-association-id a1b2c3d4 \
    --parameters S3bucket=FinanceMobileApp
```
Output:  

```
{
    "Id": "a1b2c3d4",
    "ExtensionArn": "arn:aws:appconfig:us-west-2:123456789012:extension/S3-backup-extension/1",
    "ResourceArn": "arn:aws:appconfig:us-west-2:123456789012:application/Finance",
    "Parameters": {
        "S3bucket": "FinanceMobileApp"
    },
    "ExtensionVersionNumber": 1
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [UpdateExtensionAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/update-extension-association.html)di *Referensi AWS CLI Perintah*. 

### `update-extension`
<a name="appconfig_UpdateExtension_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-extension`.

**AWS CLI**  
**Untuk memperbarui AWS AppConfig ekstensi**  
`update-extension`Contoh berikut menambahkan parameter tambahan Kunci untuk ekstensi di AWS AppConfig.  

```
aws appconfig update-extension \
    --region us-west-2 \
    --extension-identifier S3-backup-extension \
    --parameters S3bucket={Required=true},CampaignID={Required=false}
```
Output:  

```
{
    "Id": "1A2B3C4D",
    "Name": "S3-backup-extension",
    "VersionNumber": 1,
    "Arn": "arn:aws:appconfig:us-west-2:123456789012:extension/1A2B3C4D/1",
    "Actions": {
        "PRE_CREATE_HOSTED_CONFIGURATION_VERSION": [
            {
                "Name": "S3backup",
                "Uri": "arn:aws:lambda:us-west-2:123456789012:function:S3backupfunction",
                "RoleArn": "arn:aws:iam::123456789012:role/appconfigextensionrole"
            }
        ]
    },
    "Parameters": {
        "CampaignID": {
            "Required": false
        },
        "S3bucket": {
            "Required": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS AppConfig ekstensi](https://docs.aws.amazon.com/appconfig/latest/userguide/working-with-appconfig-extensions.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [UpdateExtension](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/update-extension.html)di *Referensi AWS CLI Perintah*. 

### `validate-configuration`
<a name="appconfig_ValidateConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`validate-configuration`.

**AWS CLI**  
**Untuk memvalidasi konfigurasi**  
`validate-configuration`Contoh berikut menggunakan validator dalam profil konfigurasi untuk memvalidasi konfigurasi.  

```
aws appconfig validate-configuration \
    --application-id abc1234 \
    --configuration-profile-id ur8hx2f \
    --configuration-version 1
```
Perintah tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat konfigurasi dan profil konfigurasi](https://docs.aws.amazon.com/appconfig/latest/userguide/appconfig-creating-configuration-and-profile.html) di *Panduan AWS AppConfig Pengguna*.  
+  Untuk detail API, lihat [ValidateConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/appconfig/validate-configuration.html)di *Referensi AWS CLI Perintah*. 

# Contoh Application Auto Scaling menggunakan AWS CLI
<a name="cli_2_application-auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Application Auto Scaling AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-scaling-policy`
<a name="application-auto-scaling_DeleteScalingPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-scaling-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan penskalaan**  
Contoh ini menghapus kebijakan penskalaan untuk aplikasi web layanan Amazon ECS yang berjalan di kluster default.  
Perintah:  

```
aws application-autoscaling delete-scaling-policy --policy-name web-app-cpu-lt-25 --scalable-dimension ecs:service:DesiredCount --resource-id service/default/web-app --service-namespace ecs
```
+  Untuk detail API, lihat [DeleteScalingPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/delete-scaling-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-scheduled-action`
<a name="application-auto-scaling_DeleteScheduledAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-scheduled-action`.

**AWS CLI**  
**Untuk menghapus tindakan terjadwal**  
`delete-scheduled-action`Contoh berikut menghapus tindakan terjadwal yang ditentukan dari armada Amazon AppStream 2.0 yang ditentukan:  

```
aws application-autoscaling delete-scheduled-action \
    --service-namespace appstream \
    --scalable-dimension appstream:fleet:DesiredCapacity \
    --resource-id fleet/sample-fleet \
    --scheduled-action-name my-recurring-action
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Penskalaan Terjadwal](https://docs.aws.amazon.com/autoscaling/application/userguide/application-auto-scaling-scheduled-scaling.html) di Panduan Pengguna *Application Auto Scaling.*  
+  Untuk detail API, lihat [DeleteScheduledAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/delete-scheduled-action.html)di *Referensi AWS CLI Perintah*. 

### `deregister-scalable-target`
<a name="application-auto-scaling_DeregisterScalableTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-scalable-target`.

**AWS CLI**  
**Untuk membatalkan pendaftaran target yang dapat diskalakan**  
Contoh ini membatalkan pendaftaran target yang dapat diskalakan untuk layanan Amazon ECS yang disebut web-app yang berjalan di klaster default.  
Perintah:  

```
aws application-autoscaling deregister-scalable-target --service-namespace ecs --scalable-dimension ecs:service:DesiredCount --resource-id service/default/web-app
```
Contoh ini membatalkan pendaftaran target yang dapat diskalakan untuk sumber daya kustom. custom-resource-idFile.txt berisi string yang mengidentifikasi ID Sumber Daya, yang, untuk sumber daya kustom, adalah jalur ke sumber daya kustom melalui titik akhir Amazon API Gateway Anda.  
Perintah:  

```
aws application-autoscaling deregister-scalable-target --service-namespace custom-resource --scalable-dimension custom-resource:ResourceType:Property --resource-id file://~/custom-resource-id.txt
```
Isi custom-resource-id file.txt:  

```
https://example.execute-api.us-west-2.amazonaws.com/prod/scalableTargetDimensions/1-23456789
```
+  Untuk detail API, lihat [DeregisterScalableTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/deregister-scalable-target.html)di *Referensi AWS CLI Perintah*. 

### `describe-scalable-targets`
<a name="application-auto-scaling_DescribeScalableTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scalable-targets`.

**AWS CLI**  
**Untuk menggambarkan target yang dapat diskalakan**  
`describe-scalable-targets`Contoh berikut menjelaskan target yang dapat diskalakan untuk namespace `ecs` layanan.  

```
aws application-autoscaling describe-scalable-targets \
    --service-namespace ecs
```
Output:  

```
{
    "ScalableTargets": [
        {
            "ServiceNamespace": "ecs",
            "ScalableDimension": "ecs:service:DesiredCount",
            "ResourceId": "service/default/web-app",
            "MinCapacity": 1,
            "MaxCapacity": 10,
            "RoleARN": "arn:aws:iam::123456789012:role/aws-service-role/ecs.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_ECSService",
            "CreationTime": 1462558906.199,
            "SuspendedState": {
                "DynamicScalingOutSuspended": false,
                "ScheduledScalingSuspended": false,
                "DynamicScalingInSuspended": false
            },
            "ScalableTargetARN": "arn:aws:application-autoscaling:us-west-2:123456789012:scalable-target/1234abcd56ab78cd901ef1234567890ab123"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [AWS layanan yang dapat Anda gunakan dengan Application Auto Scaling di Panduan Pengguna](https://docs.aws.amazon.com/autoscaling/application/userguide/integrated-services-list.html) *Application Auto Scaling*.  
+  Untuk detail API, lihat [DescribeScalableTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/describe-scalable-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-scaling-activities`
<a name="application-auto-scaling_DescribeScalingActivities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scaling-activities`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan aktivitas penskalaan untuk layanan Amazon ECS yang ditentukan**  
`describe-scaling-activities`Contoh berikut menjelaskan aktivitas penskalaan untuk layanan Amazon ECS `web-app` yang disebut yang berjalan di `default` cluster. Output menunjukkan aktivitas penskalaan yang diprakarsai oleh kebijakan penskalaan.  

```
aws application-autoscaling describe-scaling-activities \
    --service-namespace ecs \
    --resource-id service/default/web-app
```
Output:  

```
{
    "ScalingActivities": [
        {
            "ScalableDimension": "ecs:service:DesiredCount",
            "Description": "Setting desired count to 1.",
            "ResourceId": "service/default/web-app",
            "ActivityId": "e6c5f7d1-dbbb-4a3f-89b2-51f33e766399",
            "StartTime": 1462575838.171,
            "ServiceNamespace": "ecs",
            "EndTime": 1462575872.111,
            "Cause": "monitor alarm web-app-cpu-lt-25 in state ALARM triggered policy web-app-cpu-lt-25",
            "StatusMessage": "Successfully set desired count to 1. Change successfully fulfilled by ecs.",
            "StatusCode": "Successful"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Aktivitas penskalaan untuk Application Auto](https://docs.aws.amazon.com/autoscaling/application/userguide/application-auto-scaling-scaling-activities.html) Scaling di Panduan Pengguna *Application Auto Scaling*.  
**Contoh 2: Untuk menggambarkan aktivitas penskalaan untuk tabel DynamoDB yang ditentukan**  
`describe-scaling-activities`Contoh berikut menjelaskan aktivitas penskalaan untuk tabel DynamoDB yang disebut. `TestTable` Output menunjukkan aktivitas penskalaan yang diprakarsai oleh dua tindakan terjadwal yang berbeda.  

```
aws application-autoscaling describe-scaling-activities \
    --service-namespace dynamodb \
    --resource-id table/TestTable
```
Output:  

```
{
    "ScalingActivities": [
        {
            "ScalableDimension": "dynamodb:table:WriteCapacityUnits",
            "Description": "Setting write capacity units to 10.",
            "ResourceId": "table/my-table",
            "ActivityId": "4d1308c0-bbcf-4514-a673-b0220ae38547",
            "StartTime": 1561574415.086,
            "ServiceNamespace": "dynamodb",
            "EndTime": 1561574449.51,
            "Cause": "maximum capacity was set to 10",
            "StatusMessage": "Successfully set write capacity units to 10. Change successfully fulfilled by dynamodb.",
            "StatusCode": "Successful"
        },
        {
            "ScalableDimension": "dynamodb:table:WriteCapacityUnits",
            "Description": "Setting min capacity to 5 and max capacity to 10",
            "ResourceId": "table/my-table",
            "ActivityId": "f2b7847b-721d-4e01-8ef0-0c8d3bacc1c7",
            "StartTime": 1561574414.644,
            "ServiceNamespace": "dynamodb",
            "Cause": "scheduled action name my-second-scheduled-action was triggered",
            "StatusMessage": "Successfully set min capacity to 5 and max capacity to 10",
            "StatusCode": "Successful"
        },
        {
            "ScalableDimension": "dynamodb:table:WriteCapacityUnits",
            "Description": "Setting write capacity units to 15.",
            "ResourceId": "table/my-table",
            "ActivityId": "d8ea4de6-9eaa-499f-b466-2cc5e681ba8b",
            "StartTime": 1561574108.904,
            "ServiceNamespace": "dynamodb",
            "EndTime": 1561574140.255,
            "Cause": "minimum capacity was set to 15",
            "StatusMessage": "Successfully set write capacity units to 15. Change successfully fulfilled by dynamodb.",
            "StatusCode": "Successful"
        },
        {
            "ScalableDimension": "dynamodb:table:WriteCapacityUnits",
            "Description": "Setting min capacity to 15 and max capacity to 20",
            "ResourceId": "table/my-table",
            "ActivityId": "3250fd06-6940-4e8e-bb1f-d494db7554d2",
            "StartTime": 1561574108.512,
            "ServiceNamespace": "dynamodb",
            "Cause": "scheduled action name my-first-scheduled-action was triggered",
            "StatusMessage": "Successfully set min capacity to 15 and max capacity to 20",
            "StatusCode": "Successful"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Aktivitas penskalaan untuk Application Auto](https://docs.aws.amazon.com/autoscaling/application/userguide/application-auto-scaling-scaling-activities.html) Scaling di Panduan Pengguna *Application Auto Scaling*.  
+  Untuk detail API, lihat [DescribeScalingActivities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/describe-scaling-activities.html)di *Referensi AWS CLI Perintah*. 

### `describe-scaling-policies`
<a name="application-auto-scaling_DescribeScalingPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scaling-policies`.

**AWS CLI**  
**Untuk menggambarkan kebijakan penskalaan**  
Perintah contoh ini menjelaskan kebijakan penskalaan untuk namespace layanan ecs.  
Perintah:  

```
aws application-autoscaling describe-scaling-policies --service-namespace ecs
```
Output:  

```
{
    "ScalingPolicies": [
        {
            "PolicyName": "web-app-cpu-gt-75",
            "ScalableDimension": "ecs:service:DesiredCount",
            "ResourceId": "service/default/web-app",
            "CreationTime": 1462561899.23,
            "StepScalingPolicyConfiguration": {
                "Cooldown": 60,
                "StepAdjustments": [
                    {
                        "ScalingAdjustment": 200,
                        "MetricIntervalLowerBound": 0.0
                    }
                ],
                "AdjustmentType": "PercentChangeInCapacity"
            },
            "PolicyARN": "arn:aws:autoscaling:us-west-2:012345678910:scalingPolicy:6d8972f3-efc8-437c-92d1-6270f29a66e7:resource/ecs/service/default/web-app:policyName/web-app-cpu-gt-75",
            "PolicyType": "StepScaling",
            "Alarms": [
                {
                    "AlarmName": "web-app-cpu-gt-75",
                    "AlarmARN": "arn:aws:cloudwatch:us-west-2:012345678910:alarm:web-app-cpu-gt-75"
                }
            ],
            "ServiceNamespace": "ecs"
        },
        {
            "PolicyName": "web-app-cpu-lt-25",
            "ScalableDimension": "ecs:service:DesiredCount",
            "ResourceId": "service/default/web-app",
            "CreationTime": 1462562575.099,
            "StepScalingPolicyConfiguration": {
                "Cooldown": 1,
                "StepAdjustments": [
                    {
                        "ScalingAdjustment": -50,
                        "MetricIntervalUpperBound": 0.0
                    }
                ],
                "AdjustmentType": "PercentChangeInCapacity"
            },
            "PolicyARN": "arn:aws:autoscaling:us-west-2:012345678910:scalingPolicy:6d8972f3-efc8-437c-92d1-6270f29a66e7:resource/ecs/service/default/web-app:policyName/web-app-cpu-lt-25",
            "PolicyType": "StepScaling",
            "Alarms": [
                {
                    "AlarmName": "web-app-cpu-lt-25",
                    "AlarmARN": "arn:aws:cloudwatch:us-west-2:012345678910:alarm:web-app-cpu-lt-25"
                }
            ],
            "ServiceNamespace": "ecs"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeScalingPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/describe-scaling-policies.html)di *Referensi AWS CLI Perintah*. 

### `describe-scheduled-actions`
<a name="application-auto-scaling_DescribeScheduledActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scheduled-actions`.

**AWS CLI**  
**Untuk menggambarkan tindakan terjadwal**  
`describe-scheduled-actions`Contoh berikut menampilkan rincian untuk tindakan terjadwal untuk namespace layanan tertentu:  

```
aws application-autoscaling describe-scheduled-actions \
    --service-namespace dynamodb
```
Output:  

```
{
    "ScheduledActions": [
        {
            "ScalableDimension": "dynamodb:table:WriteCapacityUnits",
            "Schedule": "at(2019-05-20T18:35:00)",
            "ResourceId": "table/my-table",
            "CreationTime": 1561571888.361,
            "ScheduledActionARN": "arn:aws:autoscaling:us-west-2:123456789012:scheduledAction:2d36aa3b-cdf9-4565-b290-81db519b227d:resource/dynamodb/table/my-table:scheduledActionName/my-first-scheduled-action",
            "ScalableTargetAction": {
                "MinCapacity": 15,
                "MaxCapacity": 20
            },
            "ScheduledActionName": "my-first-scheduled-action",
            "ServiceNamespace": "dynamodb"
        },
        {
            "ScalableDimension": "dynamodb:table:WriteCapacityUnits",
            "Schedule": "at(2019-05-20T18:40:00)",
            "ResourceId": "table/my-table",
            "CreationTime": 1561571946.021,
            "ScheduledActionARN": "arn:aws:autoscaling:us-west-2:123456789012:scheduledAction:2d36aa3b-cdf9-4565-b290-81db519b227d:resource/dynamodb/table/my-table:scheduledActionName/my-second-scheduled-action",
            "ScalableTargetAction": {
                "MinCapacity": 5,
                "MaxCapacity": 10
            },
            "ScheduledActionName": "my-second-scheduled-action",
            "ServiceNamespace": "dynamodb"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penskalaan Terjadwal](https://docs.aws.amazon.com/autoscaling/application/userguide/application-auto-scaling-scheduled-scaling.html) di Panduan Pengguna *Application Auto Scaling.*  
+  Untuk detail API, lihat [DescribeScheduledActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/describe-scheduled-actions.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="application-auto-scaling_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk target yang dapat diskalakan**  
`list-tags-for-resource`Contoh berikut mencantumkan nama kunci tag dan nilai yang dilampirkan ke target skalabel yang ditentukan oleh ARN nya.  

```
aws application-autoscaling list-tags-for-resource \
    --resource-arn arn:aws:application-autoscaling:us-west-2:123456789012:scalable-target/1234abcd56ab78cd901ef1234567890ab123
```
Output:  

```
{
    "Tags": {
        "environment": "production"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai dukungan untuk Application Auto](https://docs.aws.amazon.com/autoscaling/application/userguide/resource-tagging-support.html) Scaling di Panduan Pengguna *Application Auto Scaling*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-scaling-policy`
<a name="application-auto-scaling_PutScalingPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-scaling-policy`.

**AWS CLI**  
**Contoh 1: Untuk menerapkan kebijakan penskalaan pelacakan target dengan spesifikasi metrik yang telah ditentukan**  
`put-scaling-policy`Contoh berikut menerapkan kebijakan penskalaan pelacakan target dengan spesifikasi metrik yang telah ditentukan sebelumnya ke layanan Amazon ECS yang disebut web-app di kluster default. Kebijakan tersebut menjaga pemanfaatan CPU rata-rata layanan pada 75 persen, dengan periode cooldown scale-out dan scale-in 60 detik. Output berisi ARNs dan nama dari dua CloudWatch alarm yang dibuat atas nama Anda.  

```
aws application-autoscaling put-scaling-policy --service-namespace ecs \
--scalable-dimension ecs:service:DesiredCount \
--resource-id service/default/web-app \
--policy-name cpu75-target-tracking-scaling-policy --policy-type TargetTrackingScaling \
--target-tracking-scaling-policy-configuration file://config.json
```
Contoh ini mengasumsikan bahwa Anda memiliki file config.json di direktori saat ini dengan konten berikut:  

```
{
     "TargetValue": 75.0,
     "PredefinedMetricSpecification": {
         "PredefinedMetricType": "ECSServiceAverageCPUUtilization"
     },
     "ScaleOutCooldown": 60,
    "ScaleInCooldown": 60
}
```
Output:  

```
{
    "PolicyARN": "arn:aws:autoscaling:us-west-2:012345678910:scalingPolicy:6d8972f3-efc8-437c-92d1-6270f29a66e7:resource/ecs/service/default/web-app:policyName/cpu75-target-tracking-scaling-policy",
    "Alarms": [
        {
            "AlarmARN": "arn:aws:cloudwatch:us-west-2:012345678910:alarm:TargetTracking-service/default/web-app-AlarmHigh-d4f0770c-b46e-434a-a60f-3b36d653feca",
            "AlarmName": "TargetTracking-service/default/web-app-AlarmHigh-d4f0770c-b46e-434a-a60f-3b36d653feca"
        },
        {
            "AlarmARN": "arn:aws:cloudwatch:us-west-2:012345678910:alarm:TargetTracking-service/default/web-app-AlarmLow-1b437334-d19b-4a63-a812-6c67aaf2910d",
            "AlarmName": "TargetTracking-service/default/web-app-AlarmLow-1b437334-d19b-4a63-a812-6c67aaf2910d"
        }
    ]
}
```
**Contoh 2: Untuk menerapkan kebijakan penskalaan pelacakan target dengan spesifikasi metrik yang disesuaikan**  
`put-scaling-policy`Contoh berikut menerapkan kebijakan penskalaan pelacakan target dengan spesifikasi metrik yang disesuaikan ke layanan Amazon ECS yang disebut web-app di kluster default. Kebijakan tersebut menjaga pemanfaatan rata-rata layanan pada 75 persen, dengan periode cooldown scale-out dan scale-in 60 detik. Output berisi ARNs dan nama dari dua CloudWatch alarm yang dibuat atas nama Anda.  

```
aws application-autoscaling put-scaling-policy --service-namespace ecs \
--scalable-dimension ecs:service:DesiredCount \
--resource-id service/default/web-app \
--policy-name cms75-target-tracking-scaling-policy
--policy-type TargetTrackingScaling \
--target-tracking-scaling-policy-configuration file://config.json
```
Contoh ini mengasumsikan bahwa Anda memiliki file config.json di direktori saat ini dengan konten berikut:  

```
{
    "TargetValue":75.0,
    "CustomizedMetricSpecification":{
        "MetricName":"MyUtilizationMetric",
        "Namespace":"MyNamespace",
        "Dimensions": [
            {
                "Name":"MyOptionalMetricDimensionName",
                "Value":"MyOptionalMetricDimensionValue"
            }
        ],
        "Statistic":"Average",
        "Unit":"Percent"
    },
    "ScaleOutCooldown": 60,
    "ScaleInCooldown": 60
}
```
Output:  

```
{
    "PolicyARN": "arn:aws:autoscaling:us-west-2:012345678910:scalingPolicy: 8784a896-b2ba-47a1-b08c-27301cc499a1:resource/ecs/service/default/web-app:policyName/cms75-target-tracking-scaling-policy",
    "Alarms": [
        {
            "AlarmARN": "arn:aws:cloudwatch:us-west-2:012345678910:alarm:TargetTracking-service/default/web-app-AlarmHigh-9bc77b56-0571-4276-ba0f-d4178882e0a0",
            "AlarmName": "TargetTracking-service/default/web-app-AlarmHigh-9bc77b56-0571-4276-ba0f-d4178882e0a0"
        },
        {
            "AlarmARN": "arn:aws:cloudwatch:us-west-2:012345678910:alarm:TargetTracking-service/default/web-app-AlarmLow-9b6ad934-6d37-438e-9e05-02836ddcbdc4",
            "AlarmName": "TargetTracking-service/default/web-app-AlarmLow-9b6ad934-6d37-438e-9e05-02836ddcbdc4"
        }
    ]
}
```
**Contoh 3: Untuk menerapkan kebijakan penskalaan pelacakan target hanya untuk skala keluar**  
`put-scaling-policy`Contoh berikut menerapkan kebijakan penskalaan pelacakan target ke layanan Amazon ECS yang dipanggil `web-app` di klaster default. Kebijakan ini digunakan untuk meningkatkan skala layanan ECS ketika `RequestCountPerTarget` metrik dari Application Load Balancer melebihi ambang batas. Outputnya berisi ARN dan nama CloudWatch alarm yang dibuat atas nama Anda.  

```
aws application-autoscaling put-scaling-policy \
    --service-namespace ecs \
    --scalable-dimension ecs:service:DesiredCount \
    --resource-id service/default/web-app \
    --policy-name alb-scale-out-target-tracking-scaling-policy \
    --policy-type TargetTrackingScaling \
    --target-tracking-scaling-policy-configuration file://config.json
```
Isi dari `config.json`:  

```
{
     "TargetValue": 1000.0,
     "PredefinedMetricSpecification": {
         "PredefinedMetricType": "ALBRequestCountPerTarget",
         "ResourceLabel": "app/EC2Co-EcsEl-1TKLTMITMM0EO/f37c06a68c1748aa/targetgroup/EC2Co-Defau-LDNM7Q3ZH1ZN/6d4ea56ca2d6a18d"
     },
     "ScaleOutCooldown": 60,
    "ScaleInCooldown": 60,
    "DisableScaleIn": true
}
```
Output:  

```
{
    "PolicyARN": "arn:aws:autoscaling:us-west-2:123456789012:scalingPolicy:6d8972f3-efc8-437c-92d1-6270f29a66e7:resource/ecs/service/default/web-app:policyName/alb-scale-out-target-tracking-scaling-policy",
    "Alarms": [
        {
            "AlarmName": "TargetTracking-service/default/web-app-AlarmHigh-d4f0770c-b46e-434a-a60f-3b36d653feca",
            "AlarmARN": "arn:aws:cloudwatch:us-west-2:123456789012:alarm:TargetTracking-service/default/web-app-AlarmHigh-d4f0770c-b46e-434a-a60f-3b36d653feca"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kebijakan Penskalaan Pelacakan Target untuk Application Auto](https://docs.aws.amazon.com/autoscaling/application/userguide/application-auto-scaling-target-tracking.html) Scaling di AWS Panduan Pengguna *Application Auto Scaling*.  
+  Untuk detail API, lihat [PutScalingPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/put-scaling-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-scheduled-action`
<a name="application-auto-scaling_PutScheduledAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-scheduled-action`.

**AWS CLI**  
**Untuk menambahkan tindakan terjadwal ke tabel DynamoDB**  
Contoh ini menambahkan tindakan terjadwal ke tabel DynamoDB TestTable dipanggil untuk skala keluar pada jadwal berulang. Pada jadwal yang ditentukan (setiap hari pukul 12:15 WIB), jika kapasitas saat ini di bawah nilai yang ditentukan MinCapacity, Application Auto Scaling sesuai dengan nilai yang ditentukan oleh. MinCapacity  
Perintah:  

```
aws application-autoscaling put-scheduled-action --service-namespace dynamodb --scheduled-action-name my-recurring-action --schedule "cron(15 12 * * ? *)" --resource-id table/TestTable --scalable-dimension dynamodb:table:WriteCapacityUnits --scalable-target-action MinCapacity=6
```
Untuk informasi selengkapnya, lihat Penskalaan Terjadwal di Panduan Pengguna *Application Auto Scaling.*  
+  Untuk detail API, lihat [PutScheduledAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/put-scheduled-action.html)di *Referensi AWS CLI Perintah*. 

### `register-scalable-target`
<a name="application-auto-scaling_RegisterScalableTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-scalable-target`.

**AWS CLI**  
**Contoh 1: Untuk mendaftarkan layanan ECS sebagai target yang dapat diskalakan**  
`register-scalable-target`Contoh berikut mendaftarkan layanan Amazon ECS dengan Application Auto Scaling. Ini juga menambahkan tag dengan nama kunci `environment` dan nilai `production` ke target yang dapat diskalakan.  

```
aws application-autoscaling register-scalable-target \
    --service-namespace ecs \
    --scalable-dimension ecs:service:DesiredCount \
    --resource-id service/default/web-app \
    --min-capacity 1 --max-capacity 10 \
    --tags environment=production
```
Output:  

```
{
    "ScalableTargetARN": "arn:aws:application-autoscaling:us-west-2:123456789012:scalable-target/1234abcd56ab78cd901ef1234567890ab123"
}
```
Untuk contoh untuk AWS layanan lain dan sumber daya khusus, lihat topik dalam [AWS layanan yang dapat Anda gunakan dengan Application Auto Scaling](https://docs.aws.amazon.com/autoscaling/application/userguide/integrated-services-list.html) di Panduan Pengguna *Application Auto Scaling*.  
**Contoh 2: Untuk menangguhkan aktivitas penskalaan untuk target yang dapat diskalakan**  
`register-scalable-target`Contoh berikut menangguhkan aktivitas penskalaan untuk target skalabel yang ada.  

```
aws application-autoscaling register-scalable-target \
    --service-namespace dynamodb \
    --scalable-dimension dynamodb:table:ReadCapacityUnits \
    --resource-id table/my-table \
    --suspended-state DynamicScalingInSuspended=true,DynamicScalingOutSuspended=true,ScheduledScalingSuspended=true
```
Output:  

```
{
    "ScalableTargetARN": "arn:aws:application-autoscaling:us-west-2:123456789012:scalable-target/1234abcd56ab78cd901ef1234567890ab123"
}
```
*Untuk informasi selengkapnya, lihat [Menangguhkan dan melanjutkan penskalaan untuk Application Auto Scaling di Panduan Pengguna Application Auto Scaling](https://docs.aws.amazon.com/autoscaling/application/userguide/application-auto-scaling-suspend-resume-scaling.html).*  
**Contoh 3: Untuk melanjutkan aktivitas penskalaan untuk target yang dapat diskalakan**  
`register-scalable-target`Contoh berikut melanjutkan aktivitas penskalaan untuk target skalabel yang ada.  

```
aws application-autoscaling register-scalable-target \
    --service-namespace dynamodb \
    --scalable-dimension dynamodb:table:ReadCapacityUnits \
    --resource-id table/my-table \
    --suspended-state DynamicScalingInSuspended=false,DynamicScalingOutSuspended=false,ScheduledScalingSuspended=false
```
Output:  

```
{
    "ScalableTargetARN": "arn:aws:application-autoscaling:us-west-2:123456789012:scalable-target/1234abcd56ab78cd901ef1234567890ab123"
}
```
*Untuk informasi selengkapnya, lihat [Menangguhkan dan melanjutkan penskalaan untuk Application Auto Scaling di Panduan Pengguna Application Auto Scaling](https://docs.aws.amazon.com/autoscaling/application/userguide/application-auto-scaling-suspend-resume-scaling.html).*  
+  Untuk detail API, lihat [RegisterScalableTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/register-scalable-target.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="application-auto-scaling_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke target yang dapat diskalakan**  
`tag-resource`Contoh berikut menambahkan tag dengan nama kunci `environment` dan nilai `production` ke target skalabel yang ditentukan oleh ARN nya.  

```
aws application-autoscaling tag-resource \
    --resource-arn arn:aws:application-autoscaling:us-west-2:123456789012:scalable-target/1234abcd56ab78cd901ef1234567890ab123 \
    --tags environment=production
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai dukungan untuk Application Auto](https://docs.aws.amazon.com/autoscaling/application/userguide/resource-tagging-support.html) Scaling di Panduan Pengguna *Application Auto Scaling*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="application-auto-scaling_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari target yang dapat diskalakan**  
`untag-resource`Contoh berikut menghapus pasangan tag dengan nama kunci `environment` dari target skalabel yang ditentukan oleh ARN-nya.  

```
aws application-autoscaling untag-resource \
    --resource-arn arn:aws:application-autoscaling:us-west-2:123456789012:scalable-target/1234abcd56ab78cd901ef1234567890ab123 \
    --tag-keys "environment"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai dukungan untuk Application Auto](https://docs.aws.amazon.com/autoscaling/application/userguide/resource-tagging-support.html) Scaling di Panduan Pengguna *Application Auto Scaling*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-autoscaling/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# Contoh Application Discovery Service menggunakan AWS CLI
<a name="cli_2_application-discovery-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Application Discovery Service AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-agents`
<a name="application-discovery-service_DescribeAgents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-agents`.

**AWS CLI**  
**Jelaskan agen dengan status CollectionStatus tertentu**  
Perintah contoh ini menjelaskan agen koleksi dengan status koleksi “STARTED” atau “STOPTED”.  
Perintah:  

```
aws discovery describe-agents --filters name="collectionStatus",values="STARTED","STOPPED",condition="EQUALS" --max-results 3
```
Output:  

```
{
       "Snapshots": [
      {
            "version": "1.0.40.0",
            "agentType": "EC2",
            "hostName": "ip-172-31-40-234",
            "collectionStatus": "STOPPED",
            "agentNetworkInfoList": [
                {
                    "macAddress": "06:b5:97:14:fc:0d",
                    "ipAddress": "172.31.40.234"
                }
            ],
            "health": "UNKNOWN",
            "agentId": "i-003305c02a776e883",
            "registeredTime": "2016-12-09T19:05:06Z",
            "lastHealthPingTime": "2016-12-09T19:05:10Z"
        },
        {
            "version": "1.0.40.0",
            "agentType": "EC2",
            "hostName": "ip-172-31-39-64",
            "collectionStatus": "STARTED",
            "agentNetworkInfoList": [
                {
                    "macAddress": "06:a1:0e:c7:b2:73",
                    "ipAddress": "172.31.39.64"
                }
            ],
            "health": "SHUTDOWN",
            "agentId": "i-003a5e5e2b36cf8bd",
            "registeredTime": "2016-11-16T16:36:25Z",
            "lastHealthPingTime": "2016-11-16T16:47:37Z"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAgents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/discovery/describe-agents.html)di *Referensi AWS CLI Perintah*. 

### `describe-configurations`
<a name="application-discovery-service_DescribeConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-configurations`.

**AWS CLI**  
**Jelaskan konfigurasi aset yang dipilih**  
Perintah contoh ini menjelaskan konfigurasi dari dua server tertentu. Tindakan mendeteksi jenis aset dari ID konfigurasi. Hanya satu jenis aset yang diizinkan per perintah.  
Perintah:  

```
aws discovery describe-configurations --configuration-ids "d-server-099385097ef9fbcfb" "d-server-0c4f2dd1fee22c6c1"
```
Output:  

```
{
    "configurations": [
        {
                 "server.performance.maxCpuUsagePct": "0.0",
                 "server.performance.maxDiskReadIOPS": "0.0",
                 "server.performance.avgCpuUsagePct": "0.0",
                 "server.type": "EC2",
                 "server.performance.maxNetworkReadsPerSecondInKB": "0.19140625",
                 "server.hostName": "ip-172-31-35-152",
                 "server.configurationId": "d-server-0c4f2dd1fee22c6c1",
                 "server.tags.hasMoreValues": "false",
                 "server.performance.minFreeRAMInKB": "1543496.0",
                 "server.osVersion": "3.14.48-33.39.amzn1.x86_64",
                 "server.performance.maxDiskReadsPerSecondInKB": "0.0",
                 "server.applications": "[]",
                 "server.performance.numDisks": "1",
                 "server.performance.numCpus": "1",
                 "server.performance.numCores": "1",
                 "server.performance.maxDiskWriteIOPS": "0.0",
                 "server.performance.maxNetworkWritesPerSecondInKB": "0.82421875",
                 "server.performance.avgDiskWritesPerSecondInKB": "0.0",
                 "server.networkInterfaceInfo": "[{\"name\":\"eth0\",\"macAddress\":\"06:A7:7D:3F:54:57\",\"ipAddress\":\"172.31.35.152\",\"netMask\":\"255.255.240.0\"},{\"name\":\"lo\",\"macAddress\":\"00:00:00:00:00:00\",\"ipAddress\":\"127.0.0.1\",\"netMask\":\"255.0.0.0\"},{\"name\":\"eth0\",\"macAddress\":\"06:A7:7D:3F:54:57\",\"ipAddress\":\"fe80::4a7:7dff:fe3f:5457\"},{\"name\":\"lo\",\"macAddress\":\"00:00:00:00:00:00\",\"ipAddress\":\"::1\"}]",
                 "server.performance.avgNetworkReadsPerSecondInKB": "0.04915364583333333",
                 "server.tags": "[]",
                 "server.applications.hasMoreValues": "false",
                 "server.timeOfCreation": "2016-10-28 23:44:00.0",
                 "server.agentId": "i-4447bc1b",
                 "server.performance.maxDiskWritesPerSecondInKB": "0.0",
                 "server.performance.avgDiskReadIOPS": "0.0",
                 "server.performance.avgFreeRAMInKB": "1547210.1333333333",
                 "server.performance.avgDiskReadsPerSecondInKB": "0.0",
                 "server.performance.avgDiskWriteIOPS": "0.0",
                 "server.performance.numNetworkCards": "2",
                 "server.hypervisor": "xen",
                 "server.networkInterfaceInfo.hasMoreValues": "false",
                 "server.performance.avgNetworkWritesPerSecondInKB": "0.1380859375",
                 "server.osName": "Linux - Amazon Linux AMI release 2015.03",
                 "server.performance.totalRAMInKB": "1694732.0",
                 "server.cpuType": "x64"
        },
        {
                 "server.performance.maxCpuUsagePct": "100.0",
                 "server.performance.maxDiskReadIOPS": "0.0",
                 "server.performance.avgCpuUsagePct": "14.733333333333338",
                 "server.type": "EC2",
                 "server.performance.maxNetworkReadsPerSecondInKB": "13.400390625",
                 "server.hostName": "ip-172-31-42-208",
                 "server.configurationId": "d-server-099385097ef9fbcfb",
                 "server.tags.hasMoreValues": "false",
                 "server.performance.minFreeRAMInKB": "1531104.0",
                 "server.osVersion": "3.14.48-33.39.amzn1.x86_64",
                 "server.performance.maxDiskReadsPerSecondInKB": "0.0",
                 "server.applications": "[]",
                 "server.performance.numDisks": "1",
                 "server.performance.numCpus": "1",
                 "server.performance.numCores": "1",
                 "server.performance.maxDiskWriteIOPS": "1.0",
                 "server.performance.maxNetworkWritesPerSecondInKB": "12.271484375",
                 "server.performance.avgDiskWritesPerSecondInKB": "0.5333333333333334",
                 "server.networkInterfaceInfo": "[{\"name\":\"eth0\",\"macAddress\":\"06:4A:79:60:75:61\",\"ipAddress\":\"172.31.42.208\",\"netMask\":\"255.255.240.0\"},{\"name\":\"eth0\",\"macAddress\":\"06:4A:79:60:75:61\",\"ipAddress\":\"fe80::44a:79ff:fe60:7561\"},{\"name\":\"lo\",\"macAddress\":\"00:00:00:00:00:00\",\"ipAddress\":\"::1\"},{\"name\":\"lo\",\"macAddress\":\"00:00:00:00:00:00\",\"ipAddress\":\"127.0.0.1\",\"netMask\":\"255.0.0.0\"}]",
                 "server.performance.avgNetworkReadsPerSecondInKB": "2.8720052083333334",
                 "server.tags": "[]",
                 "server.applications.hasMoreValues": "false",
                 "server.timeOfCreation": "2016-10-28 23:44:30.0",
                 "server.agentId": "i-c142b99e",
                 "server.performance.maxDiskWritesPerSecondInKB": "4.0",
                 "server.performance.avgDiskReadIOPS": "0.0",
                 "server.performance.avgFreeRAMInKB": "1534946.4",
                 "server.performance.avgDiskReadsPerSecondInKB": "0.0",
                 "server.performance.avgDiskWriteIOPS": "0.13333333333333336",
                 "server.performance.numNetworkCards": "2",
                 "server.hypervisor": "xen",
                 "server.networkInterfaceInfo.hasMoreValues": "false",
                 "server.performance.avgNetworkWritesPerSecondInKB": "1.7977864583333332",
                 "server.osName": "Linux - Amazon Linux AMI release 2015.03",
                 "server.performance.totalRAMInKB": "1694732.0",
                 "server.cpuType": "x64"
        }
    ]
}
```
**Jelaskan konfigurasi aset yang dipilih**  
Perintah contoh ini menjelaskan konfigurasi dari dua aplikasi tertentu. Tindakan mendeteksi jenis aset dari ID konfigurasi. Hanya satu jenis aset yang diizinkan per perintah.  
Perintah:  

```
aws discovery describe-configurations --configuration-ids "d-application-0ac39bc0e4fad0e42" "d-application-02444a45288013764q"
```
Output:  

```
{
    "configurations": [
        {
                 "application.serverCount": "0",
                 "application.name": "Application-12345",
                 "application.lastModifiedTime": "2016-12-13 23:53:27.0",
                 "application.description": "",
                 "application.timeOfCreation": "2016-12-13 23:53:27.0",
                 "application.configurationId": "d-application-0ac39bc0e4fad0e42"
        },
        {
                 "application.serverCount": "0",
                 "application.name": "Application-67890",
                 "application.lastModifiedTime": "2016-12-13 23:53:33.0",
                 "application.description": "",
                 "application.timeOfCreation": "2016-12-13 23:53:33.0",
                 "application.configurationId": "d-application-02444a45288013764"
         }
    ]
}
```
+  Untuk detail API, lihat [DescribeConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/discovery/describe-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-configurations`
<a name="application-discovery-service_ListConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-configurations`.

**AWS CLI**  
**Untuk mencantumkan semua server yang ditemukan yang memenuhi serangkaian kondisi filter**  
Contoh perintah ini mencantumkan server yang ditemukan yang cocok dengan salah satu dari dua pola nama host dan tidak menjalankan Ubuntu.  
Perintah:  

```
aws discovery list-configurations --configuration-type SERVER --filters name="server.hostName",values="172-31-35","172-31-42",condition="CONTAINS" name="server.osName",values="Ubuntu",condition="NOT_CONTAINS"
```
Output:  

```
{
    "configurations": [
      {
            "server.osVersion": "3.14.48-33.39.amzn1.x86_64",
            "server.type": "EC2",
            "server.hostName": "ip-172-31-42-208",
            "server.timeOfCreation": "2016-10-28 23:44:30.0",
            "server.configurationId": "d-server-099385097ef9fbcfb",
            "server.osName": "Linux - Amazon Linux AMI release 2015.03",
            "server.agentId": "i-c142b99e"
        },
        {
            "server.osVersion": "3.14.48-33.39.amzn1.x86_64",
            "server.type": "EC2",
            "server.hostName": "ip-172-31-35-152",
            "server.timeOfCreation": "2016-10-28 23:44:00.0",
            "server.configurationId": "d-server-0c4f2dd1fee22c6c1",
            "server.osName": "Linux - Amazon Linux AMI release 2015.03",
            "server.agentId": "i-4447bc1b"
        }
    ]
}
```
+  Untuk detail API, lihat [ListConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/discovery/list-configurations.html)di *Referensi AWS CLI Perintah*. 

# Contoh Sinyal Aplikasi menggunakan AWS CLI
<a name="cli_2_application-signals_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Sinyal Aplikasi AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-get-service-level-objective-budget-report`
<a name="application-signals_BatchGetServiceLevelObjectiveBudgetReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-service-level-objective-budget-report`.

**AWS CLI**  
**Untuk mengambil satu atau lebih laporan anggaran tujuan tingkat layanan (SLO).**  
`batch-get-service-level-objective-budget-report`Contoh berikut mengambil satu atau lebih laporan anggaran tujuan tingkat layanan (SLO).  

```
aws application-signals batch-get-service-level-objective-budget-report \
--timestamp 1735059869 \
--slo-ids "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName1" "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName2"
```
Output:  

```
{
    "Timestamp": "2024-12-24T22:34:29+05:30",
    "Reports": [{
            "Arn": "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName1",
            "Name": "Your SLO Name",
            "EvaluationType": "PeriodBased",
            "BudgetStatus": "OK",
            "Attainment": 100.0,
            "TotalBudgetSeconds": 6048,
            "BudgetSecondsRemaining": 6048,
            "Sli": {
                "SliMetric": {
                    "MetricDataQueries": [{
                        "Id": "m1",
                        "MetricStat": {
                            "Metric": {
                                "Namespace": "AWS/EC2",
                                "MetricName": "CPUUtilization",
                                "Dimensions": [{
                                    "Name": "InstanceId",
                                    "Value": "i-0e098765432522"
                                }]
                            },
                            "Period": 60,
                            "Stat": "Average"
                        },
                        "ReturnData": true
                    }]
                },
                "MetricThreshold": 200.0,
                "ComparisonOperator": "LessThanOrEqualTo"
            },
            "Goal": {
                "Interval": {
                    "RollingInterval": {
                        "DurationUnit": "DAY",
                        "Duration": 7
                    }
                },
                "AttainmentGoal": 99.0,
                "WarningThreshold": 50.0
            }
        },
        {
            "Arn": "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName2",
            "Name": "test",
            "EvaluationType": "PeriodBased",
            "BudgetStatus": "BREACHED",
            "Attainment": 97.39583275,
            "TotalBudgetSeconds": 86,
            "BudgetSecondsRemaining": -2154,
            "Sli": {
                "SliMetric": {
                    "MetricDataQueries": [{
                        "Id": "cwMetric",
                        "MetricStat": {
                            "Metric": {
                                "Namespace": "AWS/EC2",
                                "MetricName": "CPUUtilization",
                                "Dimensions": [{
                                    "Name": "InstanceId",
                                    "Value": "i-0e12345678922"
                                }]
                            },
                            "Period": 300,
                            "Stat": "Average"
                        },
                        "ReturnData": true
                    }]
                },
                "MetricThreshold": 5.0,
                "ComparisonOperator": "GreaterThan"
            },
            "Goal": {
                "Interval": {
                    "RollingInterval": {
                        "DurationUnit": "DAY",
                        "Duration": 1
                    }
                },
                "AttainmentGoal": 99.9,
                "WarningThreshold": 30.0
            }
        }
    ],
    "Errors": []
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [BatchGetServiceLevelObjectiveBudgetReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/batch-get-service-level-objective-budget-report.html)di *Referensi AWS CLI Perintah*. 

### `create-service-level-objective`
<a name="application-signals_CreateServiceLevelObjective_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service-level-objective`.

**AWS CLI**  
**Untuk membuat tujuan tingkat layanan (SLO)**  
`create-service-level-objective`Contoh berikut menciptakan tujuan tingkat layanan (SLO), yang dapat membantu Anda memastikan bahwa operasi bisnis penting Anda memenuhi harapan pelanggan.  

```
aws application-signals create-service-level-objective \
    --name "SLOName" \
    --description "Description of your SLO" \
    --sli-config file://sli-config.json
```
Isi dari `sli-config.json`:  

```
{
    "SliMetricConfig": {
        "MetricDataQueries": [
            {
                "Id": "m1",
                "MetricStat": {
                    "Metric": {
                        "Namespace": "AWS/EC2",
                        "MetricName": "CPUUtilization",
                        "Dimensions": [
                            {
                                "Name": "InstanceId",
                                "Value": "i-0e5a1234561522"
                            }
                        ]
                    },
                    "Period": 60,
                    "Stat": "Average"
                },
                "ReturnData": true
            }
        ]
    },
    "MetricThreshold": 200,
    "ComparisonOperator": "LessThanOrEqualTo"
}
```
Output:  

```
{
    "Slo": {
    "Arn": "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName",
    "Name": "SLOName",
    "Description": "Description of your SLO",
    "CreatedTime": "2024-12-27T08:16:09.032000+05:30",
    "LastUpdatedTime": "2024-12-27T08:16:09.032000+05:30",
    "Sli": {
        "SliMetric": {
            "MetricDataQueries": [
                {
                    "Id": "m1",
                    "MetricStat": {
                        "Metric": {
                            "Namespace": "AWS/EC2",
                            "MetricName": "CPUUtilization",
                            "Dimensions": [
                                {
                                    "Name": "InstanceId",
                                    "Value": "i-0e59876543234522"
                                }
                            ]
                        },
                        "Period": 60,
                        "Stat": "Average"
                    },
                    "ReturnData": true
                }
            ]
        },
        "MetricThreshold": 200.0,
        "ComparisonOperator": "LessThanOrEqualTo"
    },
    "EvaluationType": "PeriodBased",
    "Goal": {
        "Interval": {
            "RollingInterval": {
                "DurationUnit": "DAY",
                "Duration": 7
            }
        },
        "AttainmentGoal": 99.0,
        "WarningThreshold": 50.0
      }
    }
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateServiceLevelObjective](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/create-service-level-objective.html)di *Referensi AWS CLI Perintah*. 

### `delete-service-level-objective`
<a name="application-signals_DeleteServiceLevelObjective_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service-level-objective`.

**AWS CLI**  
**Untuk menghapus tujuan tingkat layanan yang ditentukan.**  
`delete-service-level-objective`Contoh berikut menghapus tujuan tingkat layanan yang ditentukan.  

```
aws application-signals delete-service-level-objective \
    --id "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteServiceLevelObjective](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/delete-service-level-objective.html)di *Referensi AWS CLI Perintah*. 

### `get-service-level-objective`
<a name="application-signals_GetServiceLevelObjective_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-level-objective`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang satu SLO yang dibuat di akun**  
`get-service-level-objective`Contoh berikut mengembalikan informasi tentang satu SLO yang dibuat di akun.  

```
aws application-signals get-service-level-objective \
    --id "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName"
```
Output:  

```
{
    "Slo": {
        "Arn": "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName",
        "Name": "SLOName",
        "Description": "Description of your SLO",
        "CreatedTime": "2024-12-24T22:19:18.624000+05:30",
        "LastUpdatedTime": "2024-12-24T22:19:55.280000+05:30",
        "Sli": {
            "SliMetric": {
                "MetricDataQueries": [{
                    "Id": "m1",
                    "MetricStat": {
                        "Metric": {
                            "Namespace": "AWS/EC2",
                            "MetricName": "CPUUtilization",
                            "Dimensions": [{
                                "Name": "InstanceId",
                                "Value": "i-0e0987654321522"
                            }]
                        },
                        "Period": 60,
                        "Stat": "Average"
                    },
                    "ReturnData": true
                }]
            },
            "MetricThreshold": 200.0,
            "ComparisonOperator": "LessThanOrEqualTo"
        },
        "EvaluationType": "PeriodBased",
        "Goal": {
            "Interval": {
                "RollingInterval": {
                    "DurationUnit": "DAY",
                    "Duration": 7
                }
            },
            "AttainmentGoal": 99.0,
            "WarningThreshold": 50.0
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetServiceLevelObjective](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/get-service-level-objective.html)di *Referensi AWS CLI Perintah*. 

### `get-service`
<a name="application-signals_GetService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang layanan yang ditemukan oleh Sinyal Aplikasi**  
`get-service`Contoh berikut mengembalikan informasi tentang layanan yang ditemukan oleh Sinyal Aplikasi.  

```
aws application-signals get-service \
    --start-time 1732704000 \
    --end-time 1732714500 \
    --key-attributes Environment=lambda:default,Name=hello-world-python,Type=Service
```
Output:  

```
{
    "Service": {
        "KeyAttributes": {
            "Environment": "lambda:default",
            "Name": "hello-world-python",
            "Type": "Service"
        },
        "AttributeMaps": [{
            "Lambda.Function.Name": "hello-world-python",
            "PlatformType": "AWS::Lambda"
        }],
        "MetricReferences": [{
            "Namespace": "ApplicationSignals",
            "MetricType": "LATENCY",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "lambda:default"
            }, {
                "Name": "Service",
                "Value": "hello-world-python"
            }],
            "MetricName": "Latency"
        }, {
            "Namespace": "ApplicationSignals",
            "MetricType": "FAULT",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "lambda:default"
            }, {
                "Name": "Service",
                "Value": "hello-world-python"
            }],
            "MetricName": "Fault"
        }, {
            "Namespace": "ApplicationSignals",
            "MetricType": "ERROR",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "lambda:default"
            }, {
                "Name": "Service",
                "Value": "hello-world-python"
            }],
            "MetricName": "Error"
        }],
        "LogGroupReferences": [{
            "Identifier": "/aws/lambda/hello-world-python",
            "ResourceType": "AWS::Logs::LogGroup",
            "Type": "AWS::Resource"
        }]
    },
    "StartTime": "2024-11-27T10:00:00+00:00",
    "EndTime": "2024-11-27T14:00:01+00:00",
    "LogGroupReferences": [{
        "Identifier": "/aws/lambda/hello-world-python",
        "ResourceType": "AWS::Logs::LogGroup",
        "Type": "AWS::Resource"
    }]
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/get-service.html)di *Referensi AWS CLI Perintah*. 

### `list-service-dependencies`
<a name="application-signals_ListServiceDependencies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-dependencies`.

**AWS CLI**  
**Untuk mengembalikan daftar dependensi layanan layanan yang Anda tentukan**  
`list-service-dependencies`Contoh berikut mengembalikan daftar dependensi layanan layanan yang Anda tentukan.  

```
aws application-signals list-service-dependencies \
    --start-time 1732021200 \
    --end-time 1732107600 \
    --key-attributes Environment=api-gateway:prod, Name=PetAdoptionStatusUpdater,Type=Service
```
Output:  

```
{
    "ServiceDependencies": [{
        "OperationName": "PUT /prod",
        "DependencyKeyAttributes": {
            "Environment": "lambda:default",
            "Name": "Services-name",
            "Type": "Service"
        },
        "DependencyOperationName": "Invoke",
        "MetricReferences": [{
            "Namespace": "ApplicationSignals",
            "MetricType": "LATENCY",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "api-gateway:prod"
            }, {
                "Name": "Operation",
                "Value": "PUT /prod"
            }, {
                "Name": "RemoteEnvironment",
                "Value": "lambda:default"
            }, {
                "Name": "RemoteOperation",
                "Value": "Invoke"
            }, {
                "Name": "RemoteService",
                "Value": "Services-name"
            }, {
                "Name": "Service",
                "Value": "PetAdoptionStatusUpdater"
            }],
            "MetricName": "Latency"
        }, {
            "Namespace": "ApplicationSignals",
            "MetricType": "FAULT",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "api-gateway:prod"
            }, {
                "Name": "Operation",
                "Value": "PUT /prod"
            }, {
                "Name": "RemoteEnvironment",
                "Value": "lambda:default"
            }, {
                "Name": "RemoteOperation",
                "Value": "Invoke"
            }, {
                "Name": "RemoteService",
                "Value": "Services-name"
            }, {
                "Name": "Service",
                "Value": "PetAdoptionStatusUpdater"
            }],
            "MetricName": "Fault"
        }, {
            "Namespace": "ApplicationSignals",
            "MetricType": "ERROR",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "api-gateway:prod"
            }, {
                "Name": "Operation",
                "Value": "PUT /prod"
            }, {
                "Name": "RemoteEnvironment",
                "Value": "lambda:default"
            }, {
                "Name": "RemoteOperation",
                "Value": "Invoke"
            }, {
                "Name": "RemoteService",
                "Value": "Services-name"
            }, {
                "Name": "Service",
                "Value": "PetAdoptionStatusUpdater"
            }],
            "MetricName": "Error"
        }]
    }],
    "StartTime": "2024-11-19T13:00:00+00:00",
    "EndTime": "2024-11-20T13:00:01+00:00"
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListServiceDependencies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/list-service-dependencies.html)di *Referensi AWS CLI Perintah*. 

### `list-service-dependents`
<a name="application-signals_ListServiceDependents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-dependents`.

**AWS CLI**  
**Untuk mengembalikan daftar tanggungan yang memanggil layanan yang ditentukan selama rentang waktu yang disediakan**  
`list-service-dependents`Contoh berikut mengembalikan daftar tanggungan yang memanggil layanan tertentu selama rentang waktu yang disediakan.  

```
aws application-signals list-service-dependents \
    --start-time 1732021200 \
    --end-time 1732107600 \
    --key-attributes Environment=generic:default,Name=PetSite,Type=Service
```
Output:  

```
{
    "ServiceDependents": [{
        "OperationName": "",
        "DependentKeyAttributes": {
            "Identifier": "pet-api-canary-hao",
            "ResourceType": "AWS::Synthetics::Canary",
            "Type": "AWS::Resource"
        },
        "DependentOperationName": "",
        "MetricReferences": []
    }, {
        "OperationName": "",
        "DependentKeyAttributes": {
            "Identifier": "PetSite",
            "ResourceType": "AWS::Synthetics::Canary",
            "Type": "AWS::Resource"
        },
        "DependentOperationName": "",
        "MetricReferences": []
    }],
    "StartTime": "2024-12-24T05:00:00+00:00",
    "EndTime": "2024-12-25T06:00:01+00:00"
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListServiceDependents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/list-service-dependents.html)di *Referensi AWS CLI Perintah*. 

### `list-service-level-objectives`
<a name="application-signals_ListServiceLevelObjectives_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-level-objectives`.

**AWS CLI**  
**Untuk mengembalikan daftar yang SLOs dibuat di akun ini.**  
`list-service-level-objectives`Contoh berikut mengembalikan daftar SLOs dibuat di akun ini.  

```
aws application-signals list-service-level-objectives
```
Output:  

```
{
    "SloSummaries": [{
        "Arn": "arn:aws:application-signals:us-east-1:123456789101:slo/test",
        "Name": "test",
        "CreatedTime": "2024-12-24T22:01:21.116000+05:30"
    }]
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListServiceLevelObjectives](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/list-service-level-objectives.html)di *Referensi AWS CLI Perintah*. 

### `list-service-operations`
<a name="application-signals_ListServiceOperations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-operations`.

**AWS CLI**  
**Untuk mengembalikan daftar operasi layanan ini yang telah ditemukan oleh Sinyal Aplikasi**  
`list-service-operations`Contoh berikut mengembalikan daftar operasi layanan ini yang telah ditemukan oleh Sinyal Aplikasi.  

```
aws application-signals list-service-operations \
    --start-time 1735017423 \
    --end-time 1735103823 \
    --key-attributes Environment=generic:default,Name=payforadoption,Type=Service
```
Output:  

```
{
    "ServiceOperations": [{
        "Name": "POST /api",
        "MetricReferences": [{
            "Namespace": "ApplicationSignals",
            "MetricType": "LATENCY",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "generic:default"
            }, {
                "Name": "Operation",
                "Value": "POST /api"
            }, {
                "Name": "Service",
                "Value": "payforadoption"
            }],
            "MetricName": "Latency"
        }, {
            "Namespace": "ApplicationSignals",
            "MetricType": "FAULT",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "generic:default"
            }, {
                "Name": "Operation",
                "Value": "POST /api"
            }, {
                "Name": "Service",
                "Value": "payforadoption"
            }],
            "MetricName": "Fault"
        }, {
            "Namespace": "ApplicationSignals",
            "MetricType": "ERROR",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "generic:default"
            }, {
                "Name": "Operation",
                "Value": "POST /api"
            }, {
                "Name": "Service",
                "Value": "payforadoption"
            }],
            "MetricName": "Error"
        }]
    }],
    "StartTime": "2024-12-24T05:00:00+00:00",
    "EndTime": "2024-12-25T06:00:01+00:00"
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListServiceOperations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/list-service-operations.html)di *Referensi AWS CLI Perintah*. 

### `list-services`
<a name="application-signals_ListServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-services`.

**AWS CLI**  
**Untuk mengembalikan daftar layanan yang telah ditemukan oleh Sinyal Aplikasi**  
`list-services`Contoh berikut mengembalikan daftar layanan yang telah ditemukan oleh Sinyal Aplikasi.  

```
aws application-signals list-services \
    --start-time 1734918791 \
    --end-time 1734965591
```
Output:  

```
{
    "ServiceSummaries": [{
        "KeyAttributes": {
            "Environment": "lambda:default",
            "Name": "hello-world-python",
            "Type": "Service"
        },
        "AttributeMaps": [{
            "Lambda.Function.Name": "hello-world-python",
            "PlatformType": "AWS::Lambda"
        }],
        "MetricReferences": [{
            "Namespace": "ApplicationSignals",
            "MetricType": "LATENCY",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "lambda:default"
            }, {
                "Name": "Service",
                "Value": "hello-world-python"
            }],
            "MetricName": "Latency"
        }, {
            "Namespace": "ApplicationSignals",
            "MetricType": "FAULT",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "lambda:default"
            }, {
                "Name": "Service",
                "Value": "hello-world-python"
            }],
            "MetricName": "Fault"
        }, {
            "Namespace": "ApplicationSignals",
            "MetricType": "ERROR",
            "Dimensions": [{
                "Name": "Environment",
                "Value": "lambda:default"
            }, {
                "Name": "Service",
                "Value": "hello-world-python"
            }],
            "MetricName": "Error"
        }]
    }],
    "StartTime": "2024-11-27T10:00:00+00:00",
    "EndTime": "2024-11-27T14:00:01+00:00"
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/list-services.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="application-signals_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk menampilkan tag yang terkait dengan sumber CloudWatch daya**  
`list-tags-for-resource`Contoh berikut menampilkan tag yang terkait dengan CloudWatch sumber daya.  

```
aws application-signals list-tags-for-resource \
    --resource-arn "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName"
```
Output:  

```
{
    "Tags": [{
        "Key": "test",
        "Value": "value"
    }]
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-discovery`
<a name="application-signals_StartDiscovery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-discovery`.

**AWS CLI**  
**Untuk mengaktifkan akun Amazon Web Services ini agar dapat menggunakan Sinyal CloudWatch Aplikasi**  
`start-discovery`Contoh berikut memungkinkan akun Amazon Web Services ini untuk dapat menggunakan Sinyal CloudWatch Aplikasi dengan membuat peran *AWS ServiceRoleForCloudWatchApplicationSignals*terkait layanan.  

```
aws application-signals start-discovery
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [StartDiscovery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/start-discovery.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="application-signals_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menetapkan satu atau beberapa tag (pasangan kunci-nilai) ke CloudWatch sumber daya yang ditentukan, seperti tujuan tingkat layanan**  
`tag-resource`Contoh berikut menetapkan satu atau lebih tag (pasangan kunci-nilai) ke CloudWatch sumber daya tertentu, seperti tujuan tingkat layanan.  

```
aws application-signals tag-resource \
    --resource-arn "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName" \
    --tags '{"Key":"test","Value":"value"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="application-signals_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus satu atau beberapa tag dari sumber daya yang ditentukan**  
`untag-resource`Contoh berikut menghapus satu atau lebih tag dari sumber daya yang ditentukan.  

```
aws application-signals untag-resource \
    --resource-arn "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName" \
    --tag-keys "test"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-service-level-objective`
<a name="application-signals_UpdateServiceLevelObjective_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service-level-objective`.

**AWS CLI**  
**Untuk memperbarui tujuan tingkat layanan (SLO) yang ada**  
`update-service-level-objective`Contoh berikut memperbarui tujuan tingkat layanan yang ada (SLO).  

```
aws application-signals update-service-level-objective \
--cli-input-json file://update-slo.json
```
Isi dari `update-slo.json`:  

```
{
    "id": "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName",
    "goal": {
        "Interval": {
            "RollingInterval": {
                "DurationUnit": "DAY",
                "Duration": 7
            }
        },
        "AttainmentGoal": 90.0,
        "WarningThreshold": 50.0
    }
}
```
Output:  

```
{
    "Slo": {
        "Arn": "arn:aws:application-signals:us-east-1:123456789101:slo/SLOName",
        "Name": "SLOName",
        "Description": "Description of your SLO",
        "CreatedTime": "2024-12-24T22:19:18.624000+05:30",
        "LastUpdatedTime": "2024-12-27T08:51:38.278000+05:30",
        "Sli": {
            "SliMetric": {
                "MetricDataQueries": [{
                    "Id": "m1",
                    "MetricStat": {
                        "Metric": {
                            "Namespace": "AWS/EC2",
                            "MetricName": "CPUUtilization",
                            "Dimensions": [{
                                "Name": "InstanceId",
                                "Value": "i-00987654345222"
                            }]
                        },
                        "Period": 60,
                        "Stat": "Average"
                    },
                    "ReturnData": true
                }]
            },
            "MetricThreshold": 200.0,
            "ComparisonOperator": "LessThanOrEqualTo"
        },
        "EvaluationType": "PeriodBased",
        "Goal": {
            "Interval": {
                "RollingInterval": {
                    "DurationUnit": "DAY",
                    "Duration": 7
                }
            },
            "AttainmentGoal": 90.0,
            "WarningThreshold": 50.0
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Sinyal Aplikasi](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Application-Monitoring-Sections.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UpdateServiceLevelObjective](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/application-signals/update-service-level-objective.html)di *Referensi AWS CLI Perintah*. 

# AppRegistry contoh menggunakan AWS CLI
<a name="cli_2_service-catalog-appregistry_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AppRegistry.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-attribute-group`
<a name="service-catalog-appregistry_AssociateAttributeGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-attribute-group`.

**AWS CLI**  
**Untuk mengaitkan grup atribut**  
`associate-attribute-group`Contoh berikut mengaitkan grup atribut tertentu di AWS akun Anda ke aplikasi tertentu di AWS akun Anda.  

```
aws servicecatalog-appregistry associate-attribute-group \
    --application "ExampleApplication" \
    --attribute-group "ExampleAttributeGroup"
```
Output:  

```
{
    "applicationArn": "arn:aws:servicecatalog:us-west-2:813737243517:/applications/0ars38r6btoohvpvd9gqrptt9l",
    "attributeGroupArn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/01sj5xdwhbw54kejwnt09fnpcl"
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan dan melepaskan grup atribut](https://docs.aws.amazon.com/servicecatalog/latest/arguide/associate-attr-groups.html) dalam Panduan Administrator *AWS Service Catalog AppRegistry *.  
+  Untuk detail API, lihat [AssociateAttributeGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/associate-attribute-group.html)di *Referensi AWS CLI Perintah*. 

### `create-application`
<a name="service-catalog-appregistry_CreateApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-application`.

**AWS CLI**  
**Untuk membuat aplikasi**  
`create-application`Contoh berikut membuat aplikasi baru di AWS akun Anda.  

```
aws servicecatalog-appregistry create-application \
    --name "ExampleApplication"
```
Output:  

```
{
    "application": {
        "id": "0ars38r6btoohvpvd9gqrptt9l",
        "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/applications/0ars38r6btoohvpvd9gqrptt9l",
        "name": "ExampleApplication",
        "creationTime": "2023-02-28T21:10:10.820000+00:00",
        "lastUpdateTime": "2023-02-28T21:10:10.820000+00:00",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat aplikasi](https://docs.aws.amazon.com/servicecatalog/latest/arguide/create-apps.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [CreateApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/create-application.html)di *Referensi AWS CLI Perintah*. 

### `create-attribute-group`
<a name="service-catalog-appregistry_CreateAttributeGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-attribute-group`.

**AWS CLI**  
**Untuk membuat grup atribut**  
`create-attribute-group`Contoh berikut membuat grup atribut baru di AWS akun Anda.  

```
aws servicecatalog-appregistry create-attribute-group \
    --name "ExampleAttributeGroup" \
    --attributes '{"SomeKey1":"SomeValue1","SomeKey2":"SomeValue2"}'
```
Output:  

```
{
    "attributeGroup": {
        "id": "01sj5xdwhbw54kejwnt09fnpcl",
        "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/01sj5xdwhbw54kejwnt09fnpcl",
        "name": "ExampleAttributeGroup",
        "creationTime": "2023-02-28T20:38:01.389000+00:00",
        "lastUpdateTime": "2023-02-28T20:38:01.389000+00:00",
        "tags": {}
    }
}
```
Untuk selengkapnya, lihat [Membuat grup atribut](https://docs.aws.amazon.com/servicecatalog/latest/arguide/create-attr-groups.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [CreateAttributeGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/create-attribute-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-application`
<a name="service-catalog-appregistry_DeleteApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-application`.

**AWS CLI**  
**Untuk menghapus aplikasi**  
`delete-application`Contoh berikut menghapus aplikasi tertentu di AWS akun Anda.  

```
aws servicecatalog-appregistry delete-application \
    --application "ExampleApplication3"
```
Output:  

```
{
    "application": {
        "id": "055gw7aynr1i5mbv7kjwzx5945",
        "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/applications/055gw7aynr1i5mbv7kjwzx5945",
        "name": "ExampleApplication3",
        "creationTime": "2023-02-28T22:06:28.228000+00:00",
        "lastUpdateTime": "2023-02-28T22:06:28.228000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus aplikasi](https://docs.aws.amazon.com/servicecatalog/latest/arguide/delete-app-details.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [DeleteApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/delete-application.html)di *Referensi AWS CLI Perintah*. 

### `delete-attribute-group`
<a name="service-catalog-appregistry_DeleteAttributeGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-attribute-group`.

**AWS CLI**  
**Contoh 8: Untuk menghapus grup atribut**  
`delete-attribute-group`Contoh berikut menghapus grup atribut tertentu di AWS akun Anda.  

```
aws servicecatalog-appregistry delete-attribute-group \
    --attribute-group "ExampleAttributeGroup3"
```
Output:  

```
{
    "attributeGroup": {
        "id": "011ge6y3emyjijt8dw8jn6r0hv",
        "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/011ge6y3emyjijt8dw8jn6r0hv",
        "name": "ExampleAttributeGroup3",
        "creationTime": "2023-02-28T22:05:35.224000+00:00",
        "lastUpdateTime": "2023-02-28T22:05:35.224000+00:00"
    }
}
```
Untuk selengkapnya, lihat [Menghapus grup atribut](https://docs.aws.amazon.com/servicecatalog/latest/arguide/delete-attr-group.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [DeleteAttributeGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/delete-attribute-group.html)di *Referensi AWS CLI Perintah*. 

### `get-application`
<a name="service-catalog-appregistry_GetApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-application`.

**AWS CLI**  
**Untuk mendapatkan aplikasi**  
`get-application`Contoh berikut mengambil informasi metadata tentang aplikasi tertentu di akun Anda. AWS   

```
aws servicecatalog-appregistry get-application \
    --application "ExampleApplication"
```
Output:  

```
{
    "id": "0ars38r6btoohvpvd9gqrptt9l",
    "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/applications/0ars38r6btoohvpvd9gqrptt9l",
    "name": "ExampleApplication",
    "creationTime": "2023-02-28T21:10:10.820000+00:00",
    "lastUpdateTime": "2023-02-28T21:10:10.820000+00:00",
    "associatedResourceCount": 0,
    "tags": {
        "aws:servicecatalog:applicationName": "ExampleApplication"
    },
    "integrations": {
        "resourceGroup": {
            "state": "CREATE_COMPLETE",
            "arn": "arn:aws:resource-groups:us-west-2:813737243517:group/AWS_AppRegistry_Application-ExampleApplication"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan detail Aplikasi](https://docs.aws.amazon.com/servicecatalog/latest/arguide/access-app-details.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [GetApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/get-application.html)di *Referensi AWS CLI Perintah*. 

### `get-attribute-group`
<a name="service-catalog-appregistry_GetAttributeGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-attribute-group`.

**AWS CLI**  
**Untuk mendapatkan grup atribut**  
`get-attribute-group`Contoh berikut mengambil grup atribut tertentu di AWS akun Anda.  

```
aws servicecatalog-appregistry get-attribute-group \
    --attribute-group "ExampleAttributeGroup"
```
Output:  

```
{
    "id": "01sj5xdwhbw54kejwnt09fnpcl",
    "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/01sj5xdwhbw54kejwnt09fnpcl",
    "name": "ExampleAttributeGroup",
    "attributes": "{\"SomeKey1\":\"SomeValue1\",\"SomeKey2\":\"SomeValue2\"}",
    "creationTime": "2023-02-28T20:38:01.389000+00:00",
    "lastUpdateTime": "2023-02-28T20:38:01.389000+00:00",
    "tags": {
        "aws:servicecatalog:attributeGroupName": "ExampleAttributeGroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola metadata untuk grup atribut](https://docs.aws.amazon.com/servicecatalog/latest/arguide/manage-metatdata.html) di Panduan * AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [GetAttributeGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/get-attribute-group.html)di *Referensi AWS CLI Perintah*. 

### `list-applications`
<a name="service-catalog-appregistry_ListApplications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-applications`.

**AWS CLI**  
**Untuk daftar aplikasi**  
`list-applications`Contoh berikut mengambil daftar semua aplikasi di AWS akun Anda.  

```
aws servicecatalog-appregistry list-applications
```
Output:  

```
{
    "applications": [
        {
            "id": "03axw94pjfj3uan00tcgbrxnkw",
            "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/applications/03axw94pjfj3uan00tcgbrxnkw",
            "name": "ExampleApplication2",
            "creationTime": "2023-02-28T21:59:34.094000+00:00",
            "lastUpdateTime": "2023-02-28T21:59:34.094000+00:00"
        },
        {
            "id": "055gw7aynr1i5mbv7kjwzx5945",
            "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/applications/055gw7aynr1i5mbv7kjwzx5945",
            "name": "ExampleApplication3",
            "creationTime": "2023-02-28T22:06:28.228000+00:00",
            "lastUpdateTime": "2023-02-28T22:06:28.228000+00:00"
        },
        {
            "id": "0ars38r6btoohvpvd9gqrptt9l",
            "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/applications/0ars38r6btoohvpvd9gqrptt9l",
            "name": "ExampleApplication",
            "description": "This is an example application",
            "creationTime": "2023-02-28T21:10:10.820000+00:00",
            "lastUpdateTime": "2023-02-28T21:24:19.729000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat detail aplikasi](https://docs.aws.amazon.com/servicecatalog/latest/arguide/view-app-details.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [ListApplications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/list-applications.html)di *Referensi AWS CLI Perintah*. 

### `list-associated-attribute-groups`
<a name="service-catalog-appregistry_ListAssociatedAttributeGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-associated-attribute-groups`.

**AWS CLI**  
**Untuk daftar grup atribut terkait**  
`list-associated-attribute-groups`Contoh berikut mengambil daftar semua grup atribut di AWS akun Anda yang terkait dengan aplikasi tertentu di AWS akun Anda.  

```
aws servicecatalog-appregistry list-associated-attribute-groups \
    --application "ExampleApplication"
```
Output:  

```
{
    "attributeGroups": [
        "01sj5xdwhbw54kejwnt09fnpcl"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan dan melepaskan grup atribut](https://https://docs.aws.amazon.com/servicecatalog/latest/arguide/associate-attr-groups.html) dalam Panduan Administrator *AWS Service Catalog AppRegistry *.  
+  Untuk detail API, lihat [ListAssociatedAttributeGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/list-associated-attribute-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-attribute-groups-for-application`
<a name="service-catalog-appregistry_ListAttributeGroupsForApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attribute-groups-for-application`.

**AWS CLI**  
**Untuk daftar grup atribut untuk aplikasi**  
`list-attribute-groups-for-application`Contoh berikut mencantumkan rincian semua grup atribut di AWS akun Anda yang terkait dengan aplikasi tertentu di AWS akun Anda.  

```
aws servicecatalog-appregistry list-attribute-groups-for-application \
    --application "ExampleApplication"
```
Output:  

```
{
    "attributeGroupsDetails": [
        {
            "id": "01sj5xdwhbw54kejwnt09fnpcl",
            "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/01sj5xdwhbw54kejwnt09fnpcl",
            "name": "ExampleAttributeGroup"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat detail grup atribut](https://servicecatalog/latest/arguide/view-attr-group.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [ListAttributeGroupsForApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/list-attribute-groups-for-application.html)di *Referensi AWS CLI Perintah*. 

### `list-attribute-groups`
<a name="service-catalog-appregistry_ListAttributeGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attribute-groups`.

**AWS CLI**  
**Untuk daftar grup atribut**  
`list-attribute-groups`Contoh berikut mengambil daftar semua grup atribut di AWS akun Anda.  

```
aws servicecatalog-appregistry list-attribute-groups
```
Output:  

```
{
    "attributeGroups": [
        {
            "id": "011ge6y3emyjijt8dw8jn6r0hv",
            "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/011ge6y3emyjijt8dw8jn6r0hv",
            "name": "ExampleAttributeGroup3",
            "creationTime": "2023-02-28T22:05:35.224000+00:00",
            "lastUpdateTime": "2023-02-28T22:05:35.224000+00:00"
        },
        {
            "id": "01sj5xdwhbw54kejwnt09fnpcl",
            "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/01sj5xdwhbw54kejwnt09fnpcl",
            "name": "ExampleAttributeGroup",
            "description": "This is an example attribute group",
            "creationTime": "2023-02-28T20:38:01.389000+00:00",
            "lastUpdateTime": "2023-02-28T21:02:04.559000+00:00"
        },
        {
            "id": "03n1yffgq6d18vwrzxf0c70nm3",
            "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/03n1yffgq6d18vwrzxf0c70nm3",
            "name": "ExampleAttributeGroup2",
            "creationTime": "2023-02-28T21:57:30.687000+00:00",
            "lastUpdateTime": "2023-02-28T21:57:30.687000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat detail grup atribut](https://docs.aws.amazon.com/servicecatalog/latest/arguide/view-attr-group.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [ListAttributeGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/list-attribute-groups.html)di *Referensi AWS CLI Perintah*. 

### `update-application`
<a name="service-catalog-appregistry_UpdateApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-application`.

**AWS CLI**  
**Untuk memperbarui aplikasi**  
`update-application`Contoh berikut memperbarui aplikasi tertentu di AWS akun Anda untuk menyertakan deskripsi.  

```
aws servicecatalog-appregistry update-application \
    --application "ExampleApplication" \
    --description "This is an example application"
```
Output:  

```
{
    "application": {
        "id": "0ars38r6btoohvpvd9gqrptt9l",
        "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/applications/0ars38r6btoohvpvd9gqrptt9l",
        "name": "ExampleApplication",
        "description": "This is an example application",
        "creationTime": "2023-02-28T21:10:10.820000+00:00",
        "lastUpdateTime": "2023-02-28T21:24:19.729000+00:00",
        "tags": {
            "aws:servicecatalog:applicationName": "ExampleApplication"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit aplikasi](https://docs.aws.amazon.com/servicecatalog/latest/arguide/edit-apps.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [UpdateApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/update-application.html)di *Referensi AWS CLI Perintah*. 

### `update-attribute-group`
<a name="service-catalog-appregistry_UpdateAttributeGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-attribute-group`.

**AWS CLI**  
**Untuk memperbarui grup atribut**  
`update-attribute-group`Contoh berikut memperbarui grup atribut tertentu di AWS akun Anda untuk menyertakan deskripsi.  

```
aws servicecatalog-appregistry update-attribute-group \
    --attribute-group "ExampleAttributeGroup" \
    --description "This is an example attribute group"
```
Output:  

```
{
    "attributeGroup": {
        "id": "01sj5xdwhbw54kejwnt09fnpcl",
        "arn": "arn:aws:servicecatalog:us-west-2:813737243517:/attribute-groups/01sj5xdwhbw54kejwnt09fnpcl",
        "name": "ExampleAttributeGroup",
        "description": "This is an example attribute group",
        "creationTime": "2023-02-28T20:38:01.389000+00:00",
        "lastUpdateTime": "2023-02-28T21:02:04.559000+00:00",
        "tags": {
            "aws:servicecatalog:attributeGroupName": "ExampleAttributeGroup"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit grup atribut](https://docs.aws.amazon.com/servicecatalog/latest/arguide/edit-attr-group.html) di *Panduan AppRegistry Administrator AWS Service Catalog*.  
+  Untuk detail API, lihat [UpdateAttributeGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog-appregistry/update-attribute-group.html)di *Referensi AWS CLI Perintah*. 

# Athena contoh menggunakan AWS CLI
<a name="cli_2_athena_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS Command Line Interface with Athena.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-get-named-query`
<a name="athena_BatchGetNamedQuery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-named-query`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang lebih dari satu kueri**  
`batch-get-named-query`Contoh berikut mengembalikan informasi tentang query bernama yang telah ditentukan IDs.  

```
aws athena batch-get-named-query \
    --named-query-ids a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 a1b2c3d4-5678-90ab-cdef-EXAMPLE22222 a1b2c3d4-5678-90ab-cdef-EXAMPLE33333
```
Output:  

```
{
    "NamedQueries": [
        {
            "Name": "Flights Select Query",
            "Description": "Sample query to get the top 10 airports with the most number of departures since 2000",
            "Database": "sampledb",
            "QueryString": "SELECT origin, count(*) AS total_departures\nFROM\nflights_parquet\nWHERE year >= '2000'\nGROUP BY origin\nORDER BY total_departures DESC\nLIMIT 10;",
            "NamedQueryId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "WorkGroup": "primary"
        },
        {
            "Name": "Load flights table partitions",
            "Description": "Sample query to load flights table partitions using MSCK REPAIR TABLE statement",
            "Database": "sampledb",
            "QueryString": "MSCK REPAIR TABLE flights_parquet;",
            "NamedQueryId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "WorkGroup": "primary"
        },
        {
            "Name": "CloudFront Select Query",
            "Description": "Sample query to view requests per operating system during a particular time frame",
            "Database": "sampledb",
            "QueryString": "SELECT os, COUNT(*) count FROM cloudfront_logs WHERE date BETWEEN date '2014-07-05' AND date '2014-08-05' GROUP BY os;",
            "NamedQueryId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "WorkGroup": "primary"
        }
    ],
    "UnprocessedNamedQueryIds": []
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [BatchGetNamedQuery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/batch-get-named-query.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-query-execution`
<a name="athena_BatchGetQueryExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-query-execution`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang satu atau lebih eksekusi kueri**  
`batch-get-query-execution`Contoh berikut mengembalikan informasi eksekusi query untuk query yang memiliki query IDs tertentu.  

```
aws athena batch-get-query-execution \
    --query-execution-ids a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 a1b2c3d4-5678-90ab-cdef-EXAMPLE22222
```
Output:  

```
{
    "QueryExecutions": [
        {
            "QueryExecutionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Query": "create database if not exists webdata",
            "StatementType": "DDL",
            "ResultConfiguration": {
                "OutputLocation": "s3://amzn-s3-demo-bucket/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111.txt"
            },
            "QueryExecutionContext": {},
            "Status": {
                "State": "SUCCEEDED",
                "SubmissionDateTime": 1593470720.592,
                "CompletionDateTime": 1593470720.902
            },
            "Statistics": {
                "EngineExecutionTimeInMillis": 232,
                "DataScannedInBytes": 0,
                "TotalExecutionTimeInMillis": 310,
            "ResultConfiguration": {

                "QueryQueueTimeInMillis": 50,
                "ServiceProcessingTimeInMillis": 28
            },
            "WorkGroup": "AthenaAdmin"
        },
        {
            "QueryExecutionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "Query": "select date, location, browser, uri, status from cloudfront_logs where method = 'GET' and status = 200 and location like 'SFO%' limit 10",
            "StatementType": "DML",
            "ResultConfiguration": {
                "OutputLocation": "s3://amzn-s3-demo-bucket/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222.csv"
            },
            "QueryExecutionContext": {
                "Database": "mydatabase",
                "Catalog": "awsdatacatalog"
            },
            "Status": {
                "State": "SUCCEEDED",
                "SubmissionDateTime": 1593469842.665,
                "CompletionDateTime": 1593469846.486
            },
            "Statistics": {
                "EngineExecutionTimeInMillis": 3600,
                "DataScannedInBytes": 203089,
                "TotalExecutionTimeInMillis": 3821,
                "QueryQueueTimeInMillis": 267,
                "QueryPlanningTimeInMillis": 1175
            },
            "WorkGroup": "AthenaAdmin"
        }
    ],
    "UnprocessedQueryExecutionIds": []
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [BatchGetQueryExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/batch-get-query-execution.html)di *Referensi AWS CLI Perintah*. 

### `create-data-catalog`
<a name="athena_CreateDataCatalog_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-data-catalog`.

**AWS CLI**  
**Untuk membuat katalog data**  
`create-data-catalog`Contoh berikut membuat katalog `dynamo_db_catalog` data.  

```
aws athena create-data-catalog \
    --name dynamo_db_catalog \
    --type LAMBDA \
    --description "DynamoDB Catalog" \
    --parameters function=arn:aws:lambda:us-west-2:111122223333:function:dynamo_db_lambda
```
Perintah ini tidak menghasilkan output. Untuk melihat hasilnya, gunakan`aws athena get-data-catalog --name dynamo_db_catalog`.  
Untuk informasi selengkapnya, lihat [Mendaftarkan Katalog: create-data-catalog](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-registering-a-catalog) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [CreateDataCatalog](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/create-data-catalog.html)di *Referensi AWS CLI Perintah*. 

### `create-named-query`
<a name="athena_CreateNamedQuery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-named-query`.

**AWS CLI**  
**Untuk membuat kueri bernama**  
`create-named-query`Contoh berikut membuat kueri tersimpan di `AthenaAdmin` workgroup yang menanyakan `flights_parquet` tabel untuk penerbangan dari Seattle ke New York pada bulan Januari 2016 yang keberangkatan dan kedatangannya ditunda lebih dari sepuluh menit. Karena nilai kode bandara dalam tabel adalah string yang menyertakan tanda kutip ganda (misalnya, “SEA”), mereka lolos oleh garis miring terbalik dan dikelilingi oleh tanda kutip tunggal.  

```
aws athena create-named-query \
    --name "SEA to JFK delayed flights Jan 2016" \
    --description "Both arrival and departure delayed more than 10 minutes." \
    --database sampledb \
    --query-string "SELECT flightdate, carrier, flightnum, origin, dest, depdelayminutes, arrdelayminutes FROM sampledb.flights_parquet WHERE yr = 2016 AND month = 1 AND origin = '\"SEA\"' AND dest = '\"JFK\"' AND depdelayminutes > 10 AND arrdelayminutes > 10" \
    --work-group AthenaAdmin
```
Output:  

```
{
    "NamedQueryId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [CreateNamedQuery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/create-named-query.html)di *Referensi AWS CLI Perintah*. 

### `create-work-group`
<a name="athena_CreateWorkGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-work-group`.

**AWS CLI**  
**Untuk membuat workgroup**  
`create-work-group`Contoh berikut membuat workgroup yang disebut `Data_Analyst_Group` yang memiliki lokasi `s3://amzn-s3-demo-bucket` output hasil query. Perintah membuat workgroup yang mengesampingkan pengaturan konfigurasi klien, yang mencakup lokasi keluaran hasil kueri. Perintah ini juga memungkinkan CloudWatch metrik dan menambahkan tiga pasangan tag nilai kunci ke workgroup untuk membedakannya dari kelompok kerja lainnya. Perhatikan bahwa `--configuration` argumen tidak memiliki spasi sebelum koma yang memisahkan opsinya.  

```
aws athena create-work-group \
    --name Data_Analyst_Group \
    --configuration ResultConfiguration={OutputLocation="s3://amzn-s3-demo-bucket"},EnforceWorkGroupConfiguration="true",PublishCloudWatchMetricsEnabled="true" \
    --description "Workgroup for data analysts" \
    --tags Key=Division,Value=West Key=Location,Value=Seattle Key=Team,Value="Big Data"
```
Perintah ini tidak menghasilkan output. Untuk melihat hasilnya, gunakan`aws athena get-work-group --work-group Data_Analyst_Group`.  
Untuk informasi selengkapnya, lihat [Mengelola Grup Kerja](https://docs.aws.amazon.com/athena/latest/ug/workgroups-create-update-delete.html) di Panduan *Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [CreateWorkGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/create-work-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-data-catalog`
<a name="athena_DeleteDataCatalog_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-data-catalog`.

**AWS CLI**  
**Untuk menghapus katalog data**  
`delete-data-catalog`Contoh berikut menghapus katalog `UnusedDataCatalog` data.  

```
aws athena delete-data-catalog \
    --name UnusedDataCatalog
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Katalog: delete-data-catalog](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-deleting-a-catalog) di Panduan *Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [DeleteDataCatalog](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/delete-data-catalog.html)di *Referensi AWS CLI Perintah*. 

### `delete-named-query`
<a name="athena_DeleteNamedQuery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-named-query`.

**AWS CLI**  
**Untuk menghapus kueri bernama**  
`delete-named-query`Contoh berikut menghapus query bernama yang memiliki ID tertentu.  

```
aws athena delete-named-query \
    --named-query-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [DeleteNamedQuery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/delete-named-query.html)di *Referensi AWS CLI Perintah*. 

### `delete-work-group`
<a name="athena_DeleteWorkGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-work-group`.

**AWS CLI**  
**Untuk menghapus workgroup**  
`delete-work-group`Contoh berikut menghapus `TeamB` workgroup.  

```
aws athena delete-work-group \
    --work-group TeamB
```
Perintah ini tidak menghasilkan output. Untuk mengkonfirmasi penghapusan, gunakan. `aws athena list-work-groups`  
Untuk informasi selengkapnya, lihat [Mengelola Grup Kerja](https://docs.aws.amazon.com/athena/latest/ug/workgroups-create-update-delete.html) di Panduan *Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [DeleteWorkGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/delete-work-group.html)di *Referensi AWS CLI Perintah*. 

### `get-data-catalog`
<a name="athena_GetDataCatalog_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-data-catalog`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang katalog data**  
`get-data-catalog`Contoh berikut mengembalikan informasi tentang katalog `dynamo_db_catalog` data.  

```
aws athena get-data-catalog \
    --name dynamo_db_catalog
```
Output:  

```
{
    "DataCatalog": {
        "Name": "dynamo_db_catalog",
        "Description": "DynamoDB Catalog",
        "Type": "LAMBDA",
        "Parameters": {
            "catalog": "dynamo_db_catalog",
            "metadata-function": "arn:aws:lambda:us-west-2:111122223333:function:dynamo_db_lambda",
            "record-function": "arn:aws:lambda:us-west-2:111122223333:function:dynamo_db_lambda"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menampilkan Detail Katalog: get-data-catalog](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-showing-details-of-a-catalog) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [GetDataCatalog](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/get-data-catalog.html)di *Referensi AWS CLI Perintah*. 

### `get-database`
<a name="athena_GetDatabase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-database`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang database dalam katalog data**  
`get-database`Contoh berikut mengembalikan informasi tentang `sampledb` database dalam katalog `AwsDataCatalog` data.  

```
aws athena get-database \
    --catalog-name AwsDataCatalog \
    --database-name sampledb
```
Output:  

```
{
    "Database": {
        "Name": "sampledb",
        "Description": "Sample database",
        "Parameters": {
            "CreatedBy": "Athena",
            "EXTERNAL": "TRUE"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menampilkan Detail Database: get-database](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-showing-details-of-a-database) di Panduan Pengguna *Amazon Athena*.  
+  Untuk detail API, lihat [GetDatabase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/get-database.html)di *Referensi AWS CLI Perintah*. 

### `get-named-query`
<a name="athena_GetNamedQuery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-named-query`.

**AWS CLI**  
**Untuk mengembalikan kueri bernama**  
`get-named-query`Contoh berikut mengembalikan informasi tentang query yang memiliki ID tertentu.  

```
aws athena get-named-query \
    --named-query-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "NamedQuery": {
        "Name": "CloudFront Logs - SFO",
        "Description": "Shows successful GET request data for SFO",
        "Database": "default",
        "QueryString": "select date, location, browser, uri, status from cloudfront_logs where method = 'GET' and status = 200 and location like 'SFO%' limit 10",
        "NamedQueryId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "WorkGroup": "AthenaAdmin"
    }
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [GetNamedQuery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/get-named-query.html)di *Referensi AWS CLI Perintah*. 

### `get-query-execution`
<a name="athena_GetQueryExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-execution`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang eksekusi kueri**  
`get-query-execution`Contoh berikut mengembalikan informasi tentang query yang memiliki ID query tertentu.  

```
aws athena get-query-execution \
    --query-execution-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "QueryExecution": {
        "QueryExecutionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Query": "select date, location, browser, uri, status from cloudfront_logs where method = 'GET
' and status = 200 and location like 'SFO%' limit 10",
        "StatementType": "DML",
        "ResultConfiguration": {
            "OutputLocation": "s3://amzn-s3-demo-bucket/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111.csv"
        },
        "QueryExecutionContext": {
            "Database": "mydatabase",
            "Catalog": "awsdatacatalog"
        },
        "Status": {
            "State": "SUCCEEDED",
            "SubmissionDateTime": 1593469842.665,
            "CompletionDateTime": 1593469846.486
        },
        "Statistics": {
            "EngineExecutionTimeInMillis": 3600,
            "DataScannedInBytes": 203089,
            "TotalExecutionTimeInMillis": 3821,
            "QueryQueueTimeInMillis": 267,
            "QueryPlanningTimeInMillis": 1175
        },
        "WorkGroup": "AthenaAdmin"
    }
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [GetQueryExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/get-query-execution.html)di *Referensi AWS CLI Perintah*. 

### `get-query-results`
<a name="athena_GetQueryResults_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-results`.

**AWS CLI**  
**Untuk mengembalikan hasil kueri**  
`get-query-results`Contoh berikut mengembalikan hasil query yang memiliki ID query tertentu.  

```
aws athena get-query-results \
    --query-execution-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "ResultSet": {
        "Rows": [
            {
                "Data": [
                    {
                        "VarCharValue": "date"
                    },
                    {
                        "VarCharValue": "location"
                    },
                    {
                        "VarCharValue": "browser"
                    },
                    {
                        "VarCharValue": "uri"
                    },
                    {
                        "VarCharValue": "status"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "Safari"
                    },
                    {
                        "VarCharValue": "/test-image-2.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "Opera"
                    },
                    {
                        "VarCharValue": "/test-image-2.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "Firefox"
                    },
                    {
                        "VarCharValue": "/test-image-3.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "Lynx"
                    },
                    {
                        "VarCharValue": "/test-image-3.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "IE"
                    },
                    {
                        "VarCharValue": "/test-image-2.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "Opera"
                    },
                    {
                        "VarCharValue": "/test-image-1.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "Chrome"
                    },
                    {
                        "VarCharValue": "/test-image-3.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "Firefox"
                    },
                    {
                        "VarCharValue": "/test-image-2.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "Chrome"
                    },
                    {
                        "VarCharValue": "/test-image-3.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            },
            {
                "Data": [
                    {
                        "VarCharValue": "2014-07-05"
                    },
                    {
                        "VarCharValue": "SFO4"
                    },
                    {
                        "VarCharValue": "IE"
                    },
                    {
                        "VarCharValue": "/test-image-2.jpeg"
                    },
                    {
                        "VarCharValue": "200"
                    }
                ]
            }
        ],
        "ResultSetMetadata": {
            "ColumnInfo": [
                {
                    "CatalogName": "hive",
                    "SchemaName": "",
                    "TableName": "",
                    "Name": "date",
                    "Label": "date",
                    "Type": "date",
                    "Precision": 0,
                    "Scale": 0,
                    "Nullable": "UNKNOWN",
                    "CaseSensitive": false
                },
                {
                    "CatalogName": "hive",
                    "SchemaName": "",
                    "TableName": "",
                    "Name": "location",
                    "Label": "location",
                    "Type": "varchar",
                    "Precision": 2147483647,
                "Data": [

                    "Scale": 0,
                    "Nullable": "UNKNOWN",
                    "CaseSensitive": true
                },
                {
                    "CatalogName": "hive",
                    "SchemaName": "",
                    "TableName": "",
                    "Name": "browser",
                    "Label": "browser",
                    "Type": "varchar",
                    "Precision": 2147483647,
                    "Scale": 0,
                    "Nullable": "UNKNOWN",
                    "CaseSensitive": true
                },
                {
                    "CatalogName": "hive",
                    "SchemaName": "",
                    "TableName": "",
                    "Name": "uri",
                    "Label": "uri",
                    "Type": "varchar",
                    "Precision": 2147483647,
                    "Scale": 0,
                    "Nullable": "UNKNOWN",
                    "CaseSensitive": true
                },
                {
                    "CatalogName": "hive",
                    "SchemaName": "",
                    "TableName": "",
                    "Name": "status",
                    "Label": "status",
                    "Type": "integer",
                    "Precision": 10,
                    "Scale": 0,
                    "Nullable": "UNKNOWN",
                    "CaseSensitive": false
                }
            ]
        }
    },
    "UpdateCount": 0
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Hasil Kueri, File Output, dan Riwayat Kueri](https://docs.aws.amazon.com/athena/latest/ug/querying.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [GetQueryResults](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/get-query-results.html)di *Referensi AWS CLI Perintah*. 

### `get-table-metadata`
<a name="athena_GetTableMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-table-metadata`.

**AWS CLI**  
**Untuk mengembalikan informasi metadata tentang tabel**  
`get-table-metadata`Contoh berikut mengembalikan informasi metadata tentang `counties` tabel, termasuk termasuk nama kolom dan tipe datanya, dari `sampledb` database katalog data. `AwsDataCatalog`  

```
aws athena get-table-metadata \
    --catalog-name AwsDataCatalog \
    --database-name sampledb \
    --table-name counties
```
Output:  

```
{
    "TableMetadata": {
        "Name": "counties",
        "CreateTime": 1593559968.0,
        "LastAccessTime": 0.0,
        "TableType": "EXTERNAL_TABLE",
        "Columns": [
            {
                "Name": "name",
                "Type": "string",
                "Comment": "from deserializer"
            },
            {
                "Name": "boundaryshape",
                "Type": "binary",
                "Comment": "from deserializer"
            },
            {
                "Name": "motto",
                "Type": "string",
                "Comment": "from deserializer"
            },
            {
                "Name": "population",
                "Type": "int",
                "Comment": "from deserializer"
            }
        ],
        "PartitionKeys": [],
        "Parameters": {
            "EXTERNAL": "TRUE",
            "inputformat": "com.esri.json.hadoop.EnclosedJsonInputFormat",
            "location": "s3://amzn-s3-demo-bucket/json",
            "outputformat": "org.apache.hadoop.hive.ql.io.HiveIgnoreKeyTextOutputFormat",
            "serde.param.serialization.format": "1",
            "serde.serialization.lib": "com.esri.hadoop.hive.serde.JsonSerde",
            "transient_lastDdlTime": "1593559968"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menampilkan Detail Tabel: get-table-metadata](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-showing-details-of-a-table) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [GetTableMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/get-table-metadata.html)di *Referensi AWS CLI Perintah*. 

### `get-work-group`
<a name="athena_GetWorkGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-work-group`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang workgroup**  
`get-work-group`Contoh berikut mengembalikan informasi tentang `AthenaAdmin` workgroup.  

```
aws athena get-work-group \
    --work-group AthenaAdmin
```
Output:  

```
{
    "WorkGroup": {
        "Name": "AthenaAdmin",
        "State": "ENABLED",
        "Configuration": {
            "ResultConfiguration": {
                "OutputLocation": "s3://amzn-s3-demo-bucket/"
            },
            "EnforceWorkGroupConfiguration": false,
            "PublishCloudWatchMetricsEnabled": true,
            "RequesterPaysEnabled": false
        },
        "Description": "Workgroup for Athena administrators",
        "CreationTime": 1573677174.105
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Grup Kerja](https://docs.aws.amazon.com/athena/latest/ug/workgroups-create-update-delete.html) di Panduan *Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [GetWorkGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/get-work-group.html)di *Referensi AWS CLI Perintah*. 

### `list-data-catalogs`
<a name="athena_ListDataCatalogs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-data-catalogs`.

**AWS CLI**  
**Untuk membuat daftar katalog data yang terdaftar di Athena**  
`list-data-catalogs`Contoh berikut mencantumkan katalog data yang terdaftar di Athena.  

```
aws athena list-data-catalogs
```
Output:  

```
{
    "DataCatalogsSummary": [
        {
            "CatalogName": "AwsDataCatalog",
            "Type": "GLUE"
        },
        {
            "CatalogName": "cw_logs_catalog",
            "Type": "LAMBDA"
        },
        {
            "CatalogName": "cw_metrics_catalog",
            "Type": "LAMBDA"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Katalog Terdaftar: list-data-catalogs](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-listing-registered-catalogs) di Panduan Pengguna *Amazon Athena*.  
+  Untuk detail API, lihat [ListDataCatalogs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/list-data-catalogs.html)di *Referensi AWS CLI Perintah*. 

### `list-databases`
<a name="athena_ListDatabases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-databases`.

**AWS CLI**  
**Untuk membuat daftar database dalam katalog data**  
`list-databases`Contoh berikut mencantumkan database dalam katalog `AwsDataCatalog` data.  

```
aws athena list-databases \
    --catalog-name AwsDataCatalog
```
Output:  

```
{
    "DatabaseList": [
        {
            "Name": "default"
        },
        {
            "Name": "mydatabase"
        },
        {
            "Name": "newdb"
        },
        {
            "Name": "sampledb",
            "Description": "Sample database",
            "Parameters": {
                "CreatedBy": "Athena",
                "EXTERNAL": "TRUE"
            }
        },
        {
            "Name": "webdata"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Daftar Database dalam Katalog: daftar-database di Panduan Pengguna](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-listing-databases) Amazon Athena.*  
+  Untuk detail API, lihat [ListDatabases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/list-databases.html)di *Referensi AWS CLI Perintah*. 

### `list-named-queries`
<a name="athena_ListNamedQueries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-named-queries`.

**AWS CLI**  
**Untuk mencantumkan kueri bernama untuk grup kerja**  
`list-named-queries`Contoh berikut mencantumkan kueri bernama untuk `AthenaAdmin` workgroup.  

```
aws athena list-named-queries \
    --work-group AthenaAdmin
```
Output:  

```
{
    "NamedQueryIds": [
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333"
    ]
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [ListNamedQueries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/list-named-queries.html)di *Referensi AWS CLI Perintah*. 

### `list-query-executions`
<a name="athena_ListQueryExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-query-executions`.

**AWS CLI**  
**Untuk membuat daftar kueri IDs dari kueri dalam workgroup tertentu**  
`list-query-executions`Contoh berikut mencantumkan maksimal sepuluh query IDs dalam `AthenaAdmin` workgroup.  

```
aws athena list-query-executions \
    --work-group AthenaAdmin \
    --max-items 10
```
Output:  

```
{
    "QueryExecutionIds": [
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11110",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11114",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11115",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11116",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11117",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11118",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11119"
    ],
    "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAxMH0="
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Hasil Kueri, File Output, dan Riwayat Kueri](https://docs.aws.amazon.com/athena/latest/ug/querying.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [ListQueryExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/list-query-executions.html)di *Referensi AWS CLI Perintah*. 

### `list-table-metadata`
<a name="athena_ListTableMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-table-metadata`.

**AWS CLI**  
**Untuk daftar metadata untuk tabel dalam database yang ditentukan dari katalog data**  
`list-table-metadata`Contoh berikut mengembalikan informasi metadata untuk maksimal dua tabel dalam `geography` database katalog `AwsDataCatalog` data.  

```
aws athena list-table-metadata \
    --catalog-name AwsDataCatalog \
    --database-name geography \
    --max-items 2
```
Output:  

```
{
    "TableMetadataList": [
        {
            "Name": "country_codes",
            "CreateTime": 1586553454.0,
            "TableType": "EXTERNAL_TABLE",
            "Columns": [
                {
                    "Name": "country",
                    "Type": "string",
                    "Comment": "geo id"
                },
                {
                    "Name": "alpha-2 code",
                    "Type": "string",
                    "Comment": "geo id2"
                },
                {
                    "Name": "alpha-3 code",
                    "Type": "string",
                    "Comment": "state name"
                },
                {
                    "Name": "numeric code",
                    "Type": "bigint",
                    "Comment": ""
                },
                {
                    "Name": "latitude",
                    "Type": "bigint",
                    "Comment": "location (latitude)"
                },
                {
                    "Name": "longitude",
                    "Type": "bigint",
                    "Comment": "location (longitude)"
                }
            ],
            "Parameters": {
                "areColumnsQuoted": "false",
                "classification": "csv",
                "columnsOrdered": "true",
                "delimiter": ",",
                "has_encrypted_data": "false",
                "inputformat": "org.apache.hadoop.mapred.TextInputFormat",
                "location": "s3://amzn-s3-demo-bucket/csv/countrycode",
                "outputformat": "org.apache.hadoop.hive.ql.io.HiveIgnoreKeyTextOutputFormat",
                "serde.param.field.delim": ",",
                "serde.serialization.lib": "org.apache.hadoop.hive.serde2.lazy.LazySimpleSerDe",
                "skip.header.line.count": "1",
                "typeOfData": "file"
            }
        },
        {
            "Name": "county_populations",
            "CreateTime": 1586553446.0,
            "TableType": "EXTERNAL_TABLE",
            "Columns": [
                {
                    "Name": "id",
                    "Type": "string",
                    "Comment": "geo id"
                },
                {
                    "Name": "country",

                    "Name": "id2",
                    "Type": "string",
                    "Comment": "geo id2"
                },
                {
                    "Name": "county",
                    "Type": "string",
                    "Comment": "county name"
                },
                {
                    "Name": "state",
                    "Type": "string",
                    "Comment": "state name"
                },
                {
                    "Name": "population estimate 2018",
                    "Type": "string",
                    "Comment": ""
                }
            ],
            "Parameters": {
                "areColumnsQuoted": "false",
                "classification": "csv",
                "columnsOrdered": "true",
                "delimiter": ",",
                "has_encrypted_data": "false",
                "inputformat": "org.apache.hadoop.mapred.TextInputFormat",
                "location": "s3://amzn-s3-demo-bucket/csv/CountyPopulation",
                "outputformat": "org.apache.hadoop.hive.ql.io.HiveIgnoreKeyTextOutputFormat",
                "serde.param.field.delim": ",",
                "serde.serialization.lib": "org.apache.hadoop.hive.serde2.lazy.LazySimpleSerDe",
                "skip.header.line.count": "1",
                "typeOfData": "file"
            }
        }
    ],
    "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAyfQ=="
}
```
Untuk informasi selengkapnya, lihat [Menampilkan Metadata untuk Semua Tabel dalam Database: list-table-metadata](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-showing-all-table-metadata) di Panduan Pengguna *Amazon Athena*.  
+  Untuk detail API, lihat [ListTableMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/list-table-metadata.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="athena_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Contoh 1: Untuk daftar tag untuk workgroup**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk `Data_Analyst_Group` workgroup.  

```
aws athena list-tags-for-resource \
    --resource-arn arn:aws:athena:us-west-2:111122223333:workgroup/Data_Analyst_Group
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Division",
            "Value": "West"
        },
        {
            "Key": "Team",
            "Value": "Big Data"
        },
        {
            "Key": "Location",
            "Value": "Seattle"
        }
    ]
}
```
**Contoh 2: Untuk daftar tag untuk katalog data**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk katalog `dynamo_db_catalog` data.  

```
aws athena list-tags-for-resource \
    --resource-arn arn:aws:athena:us-west-2:111122223333:datacatalog/dynamo_db_catalog
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Division",
            "Value": "Mountain"
        },
        {
            "Key": "Organization",
            "Value": "Retail"
        },
        {
            "Key": "Product_Line",
            "Value": "Shoes"
        },
        {
            "Key": "Location",
            "Value": "Denver"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencantumkan tag untuk sumber daya: list-tags-for-resource](https://docs.aws.amazon.com/athena/latest/ug/tags-operations.html#tags-operations-examples-cli-list-tags-for-resource) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-work-groups`
<a name="athena_ListWorkGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-work-groups`.

**AWS CLI**  
**Untuk daftar kelompok kerja**  
`list-work-groups`Contoh berikut mencantumkan workgroup di akun saat ini.  

```
aws athena list-work-groups
```
Output:  

```
{
    "WorkGroups": [
        {
            "Name": "Data_Analyst_Group",
            "State": "ENABLED",
            "Description": "",
            "CreationTime": 1578006683.016
        },
        {
            "Name": "AthenaAdmin",
            "State": "ENABLED",
            "Description": "",
            "CreationTime": 1573677174.105
        },
        {
            "Name": "primary",
            "State": "ENABLED",
            "Description": "",
            "CreationTime": 1567465222.723
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Grup Kerja](https://docs.aws.amazon.com/athena/latest/ug/workgroups-create-update-delete.html) di Panduan *Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [ListWorkGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/list-work-groups.html)di *Referensi AWS CLI Perintah*. 

### `start-query-execution`
<a name="athena_StartQueryExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-query-execution`.

**AWS CLI**  
**Contoh 1: Untuk menjalankan kueri dalam workgroup pada tabel yang ditentukan dalam database dan katalog data yang ditentukan**  
`start-query-execution`Contoh berikut menggunakan `AthenaAdmin` workgroup untuk menjalankan query pada `cloudfront_logs` tabel di `cflogsdatabase` dalam katalog `AwsDataCatalog` data.  

```
aws athena start-query-execution \
    --query-string "select date, location, browser, uri, status from cloudfront_logs where method = 'GET' and status = 200 and location like 'SFO%' limit 10" \
    --work-group "AthenaAdmin" \
    --query-execution-context Database=cflogsdatabase,Catalog=AwsDataCatalog
```
Output:  

```
{
"QueryExecutionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
**Contoh 2: Untuk menjalankan kueri yang menggunakan workgroup tertentu untuk membuat database dalam katalog data tertentu**  
`start-query-execution`Contoh berikut menggunakan `AthenaAdmin` workgroup untuk membuat database `newdb` dalam katalog `AwsDataCatalog` data default.  

```
aws athena start-query-execution \
    --query-string "create database if not exists newdb" \
    --work-group "AthenaAdmin"
```
Output:  

```
{
"QueryExecutionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11112"
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
**Contoh 3: Untuk menjalankan kueri yang membuat tampilan pada tabel dalam database dan katalog data yang ditentukan**  
`start-query-execution`Contoh berikut menggunakan `SELECT` pernyataan pada `cloudfront_logs` tabel di `cflogsdatabase` untuk membuat tampilan`cf10`.  

```
aws athena start-query-execution \
    --query-string  "CREATE OR REPLACE VIEW cf10 AS SELECT * FROM cloudfront_logs limit 10" \
    --query-execution-context Database=cflogsdatabase
```
Output:  

```
{
"QueryExecutionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11113"
}
```
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [StartQueryExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/start-query-execution.html)di *Referensi AWS CLI Perintah*. 

### `stop-query-execution`
<a name="athena_StopQueryExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-query-execution`.

**AWS CLI**  
**Untuk menghentikan kueri yang sedang berjalan**  
`stop-query-execution`Contoh berikut menghentikan query yang memiliki ID query tertentu.  

```
aws athena stop-query-execution \
    --query-execution-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Menjalankan Kueri SQL Menggunakan Amazon Athena](https://docs.aws.amazon.com/athena/latest/ug/querying-athena-tables.html) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [StopQueryExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/stop-query-execution.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="athena_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tanda ke sumber daya**  
`tag-resource`Contoh berikut menambahkan tiga tag ke katalog `dynamo_db_catalog` data.  

```
aws athena tag-resource \
    --resource-arn arn:aws:athena:us-west-2:111122223333:datacatalog/dynamo_db_catalog \
    --tags Key=Organization,Value=Retail Key=Division,Value=Mountain Key=Product_Line,Value=Shoes Key=Location,Value=Denver
```
Perintah ini tidak menghasilkan output. Untuk melihat hasilnya, gunakan`aws athena list-tags-for-resource --resource-arn arn:aws:athena:us-west-2:111122223333:datacatalog/dynamo_db_catalog`.  
Untuk informasi selengkapnya, lihat [Menambahkan tag ke sumber daya: tag-resource](https://docs.aws.amazon.com/athena/latest/ug/tags-operations.html#tags-operations-examples-cli-tag-resource) di Panduan Pengguna *Amazon Athena*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="athena_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus `Focus` kunci `Specialization` dan dan nilai yang terkait dari sumber daya katalog `dynamo_db_catalog` data.  

```
aws athena untag-resource \
    --resource-arn arn:aws:athena:us-west-2:111122223333:datacatalog/dynamo_db_catalog \
    --tag-keys Specialization Focus
```
Perintah ini tidak menghasilkan output. Untuk melihat hasilnya, gunakan `list-tags-for-resource` perintah.  
Untuk informasi selengkapnya, lihat [Menghapus tag dari sumber daya: untag-resource di Panduan](https://docs.aws.amazon.com/athena/latest/ug/tags-operations.html#tags-operations-examples-cli-untag-resource) Pengguna *Amazon* Athena.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-data-catalog`
<a name="athena_UpdateDataCatalog_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-data-catalog`.

**AWS CLI**  
**Untuk memperbarui katalog data**  
`update-data-catalog`Contoh berikut memperbarui fungsi Lambda dan deskripsi katalog `cw_logs_catalog` data.  

```
aws athena update-data-catalog \
    --name cw_logs_catalog \
    --type LAMBDA \
    --description "New CloudWatch Logs Catalog" \
    --function=arn:aws:lambda:us-west-2:111122223333:function:new_cw_logs_lambda
```
Perintah ini tidak menghasilkan output. Untuk melihat hasilnya, gunakan`aws athena get-data-catalog --name cw_logs_catalog`.  
Untuk informasi selengkapnya, lihat [Memperbarui Katalog: update-data-catalog](https://docs.aws.amazon.com/athena/latest/ug/datastores-hive-cli.html#datastores-hive-cli-updating-a-catalog) di *Panduan Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [UpdateDataCatalog](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/update-data-catalog.html)di *Referensi AWS CLI Perintah*. 

### `update-work-group`
<a name="athena_UpdateWorkGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-work-group`.

**AWS CLI**  
**Untuk memperbarui workgroup**  
`update-work-group`Contoh berikut menonaktifkan `Data_Analyst_Group` workgroup. Pengguna tidak dapat menjalankan atau membuat kueri di grup kerja yang dinonaktifkan, tetapi masih dapat melihat metrik, kontrol batas penggunaan data, pengaturan grup kerja, riwayat kueri, dan kueri yang disimpan.  

```
aws athena update-work-group \
    --work-group Data_Analyst_Group \
    --state DISABLED
```
Perintah ini tidak menghasilkan output. Untuk memverifikasi perubahan status, gunakan `aws athena get-work-group --work-group Data_Analyst_Group` dan periksa `State` properti di output.  
Untuk informasi selengkapnya, lihat [Mengelola Grup Kerja](https://docs.aws.amazon.com/athena/latest/ug/workgroups-create-update-delete.html) di Panduan *Pengguna Amazon Athena*.  
+  Untuk detail API, lihat [UpdateWorkGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/athena/update-work-group.html)di *Referensi AWS CLI Perintah*. 

# Contoh Auto Scaling menggunakan AWS CLI
<a name="cli_2_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Auto Scaling AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `attach-instances`
<a name="auto-scaling_AttachInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-instances`.

**AWS CLI**  
**Untuk melampirkan instance ke grup Auto Scaling**  
Contoh ini melampirkan instance yang ditentukan ke grup Auto Scaling yang ditentukan.  

```
aws autoscaling attach-instances \
    --instance-ids i-061c63c5eb45f0416 \
    --auto-scaling-group-name my-asg
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AttachInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/attach-instances.html)di *Referensi AWS CLI Perintah*. 

### `attach-load-balancer-target-groups`
<a name="auto-scaling_AttachLoadBalancerTargetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-load-balancer-target-groups`.

**AWS CLI**  
**Untuk melampirkan grup target ke grup Auto Scaling**  
Contoh ini melampirkan grup target yang ditentukan ke grup Auto Scaling yang ditentukan.  

```
aws autoscaling attach-load-balancer-target-groups \
    --auto-scaling-group-name my-asg \
    --target-group-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Elastic Load Balancing dan Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-load-balancer.html) dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [AttachLoadBalancerTargetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/attach-load-balancer-target-groups.html)di *Referensi AWS CLI Perintah*. 

### `attach-load-balancers`
<a name="auto-scaling_AttachLoadBalancers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-load-balancers`.

**AWS CLI**  
**Untuk melampirkan Classic Load Balancer ke grup Auto Scaling**  
Contoh ini melampirkan Classic Load Balancer yang ditentukan ke grup Auto Scaling yang ditentukan.  

```
aws autoscaling attach-load-balancers \
    --load-balancer-names my-load-balancer \
    --auto-scaling-group-name my-asg
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Elastic Load Balancing dan Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-load-balancer.html) dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [AttachLoadBalancers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/attach-load-balancers.html)di *Referensi AWS CLI Perintah*. 

### `cancel-instance-refresh`
<a name="auto-scaling_CancelInstanceRefresh_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-instance-refresh`.

**AWS CLI**  
**Untuk membatalkan penyegaran instans**  
`cancel-instance-refresh`Contoh berikut membatalkan penyegaran instans yang sedang berlangsung untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling cancel-instance-refresh \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "InstanceRefreshId": "08b91cf7-8fa6-48af-b6a6-d227f40f1b9b"
}
```
Untuk informasi selengkapnya, lihat [Membatalkan penyegaran instans](https://docs.aws.amazon.com/autoscaling/ec2/userguide/cancel-instance-refresh.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [CancelInstanceRefresh](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/cancel-instance-refresh.html)di *Referensi AWS CLI Perintah*. 

### `complete-lifecycle-action`
<a name="auto-scaling_CompleteLifecycleAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`complete-lifecycle-action`.

**AWS CLI**  
**Untuk menyelesaikan tindakan siklus hidup**  
Contoh ini memberi tahu Amazon EC2 Auto Scaling bahwa tindakan siklus hidup yang ditentukan telah selesai sehingga dapat menyelesaikan peluncuran atau penghentian instance.  

```
aws autoscaling complete-lifecycle-action \
    --lifecycle-hook-name my-launch-hook \
    --auto-scaling-group-name my-asg \
    --lifecycle-action-result CONTINUE \
    --lifecycle-action-token bcd2f1b8-9a78-44d3-8a7a-4dd07d7cf635
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Kait siklus hidup Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/lifecycle-hooks.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [CompleteLifecycleAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/complete-lifecycle-action.html)di *Referensi AWS CLI Perintah*. 

### `create-auto-scaling-group`
<a name="auto-scaling_CreateAutoScalingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-auto-scaling-group`.

**AWS CLI**  
**Contoh 1: Untuk membuat grup Auto Scaling**  
`create-auto-scaling-group`Contoh berikut membuat grup Auto Scaling di subnet di beberapa Availability Zone dalam suatu Region. Instans diluncurkan dengan versi default dari template peluncuran yang ditentukan. Perhatikan bahwa default digunakan untuk sebagian besar pengaturan lain, seperti kebijakan penghentian dan konfigurasi pemeriksaan kesehatan.  

```
aws autoscaling create-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --launch-template LaunchTemplateId=lt-1234567890abcde12 \
    --min-size 1 \
    --max-size 5 \
    --vpc-zone-identifier "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [grup Auto Scaling di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/AutoScalingGroup.html) Pengguna *Amazon EC2* Auto Scaling.  
**Contoh 2: Untuk melampirkan Application Load Balancer, Network Load Balancer, atau Gateway Load Balancer**  
Contoh ini menentukan ARN dari kelompok target untuk penyeimbang beban yang mendukung lalu lintas yang diharapkan. Jenis pemeriksaan kesehatan menentukan `ELB` sehingga ketika Elastic Load Balancing melaporkan sebuah instance sebagai tidak sehat, grup Auto Scaling menggantikannya. Perintah ini juga mendefinisikan masa tenggang pemeriksaan kesehatan `600` detik. Masa tenggang membantu mencegah penghentian prematur dari instans yang baru diluncurkan.  

```
aws autoscaling create-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --launch-template LaunchTemplateId=lt-1234567890abcde12 \
    --target-group-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/943f017f100becff \
    --health-check-type ELB \
    --health-check-grace-period 600 \
    --min-size 1 \
    --max-size 5 \
    --vpc-zone-identifier "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Elastic Load Balancing dan Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-load-balancer.html) dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 3: Untuk menentukan grup penempatan dan menggunakan versi terbaru dari template peluncuran**  
Contoh ini meluncurkan instance ke grup penempatan dalam Availability Zone tunggal. Ini dapat berguna untuk grup latensi rendah dengan beban kerja HPC. Contoh ini juga menentukan ukuran minimum, ukuran maksimum, dan kapasitas grup yang diinginkan.  

```
aws autoscaling create-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --launch-template LaunchTemplateId=lt-1234567890abcde12,Version='$Latest' \
    --min-size 1 \
    --max-size 5 \
    --desired-capacity 3 \
    --placement-group my-placement-group \
    --vpc-zone-identifier "subnet-6194ea3b"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Grup penempatan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/placement-groups.html) di *Panduan Pengguna Amazon EC2 untuk Instans Linux*.  
**Contoh 4: Untuk menentukan satu contoh grup Auto Scaling dan menggunakan versi spesifik dari template peluncuran**  
Contoh ini membuat grup Auto Scaling dengan kapasitas minimum dan maksimum yang disetel `1` untuk menegakkan bahwa satu instance akan berjalan. Perintah ini juga menentukan v1 dari template peluncuran di mana ID ENI yang ada ditentukan. Bila Anda menggunakan template peluncuran yang menentukan ENI yang ada untuk eth0, Anda harus menentukan Availability Zone untuk grup Auto Scaling yang cocok dengan antarmuka jaringan, tanpa juga menentukan ID subnet dalam permintaan.  

```
aws autoscaling create-auto-scaling-group \
    --auto-scaling-group-name my-asg-single-instance \
    --launch-template LaunchTemplateName=my-template-for-auto-scaling,Version='1' \
    --min-size 1 \
    --max-size 1 \
    --availability-zones us-west-2a
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [grup Auto Scaling di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/AutoScalingGroup.html) Pengguna *Amazon EC2* Auto Scaling.  
**Contoh 5: Untuk menentukan kebijakan penghentian yang berbeda**  
Contoh ini membuat grup Auto Scaling menggunakan konfigurasi peluncuran dan menetapkan kebijakan penghentian untuk menghentikan instance tertua terlebih dahulu. Perintah ini juga menerapkan tag ke grup dan instance-nya, dengan kunci dari `Role` dan nilai. `WebServer`  

```
aws autoscaling create-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --launch-configuration-name my-lc \
    --min-size 1 \
    --max-size 5 \
    --termination-policies "OldestInstance" \
    --tags "ResourceId=my-asg,ResourceType=auto-scaling-group,Key=Role,Value=WebServer,PropagateAtLaunch=true" \
    --vpc-zone-identifier "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan kebijakan penghentian Penskalaan Otomatis Amazon EC2 di Panduan Pengguna Penskalaan Otomatis](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-termination-policies.html) *Amazon* EC2.  
**Contoh 6: Untuk menentukan hook siklus hidup peluncuran**  
Contoh ini membuat grup Auto Scaling dengan pengait siklus hidup yang mendukung tindakan kustom saat peluncuran instance.  

```
aws autoscaling create-auto-scaling-group \
    --cli-input-json file://~/config.json
```
Isi `config.json` file:  

```
{
    "AutoScalingGroupName": "my-asg",
    "LaunchTemplate": {
        "LaunchTemplateId": "lt-1234567890abcde12"
    },
    "LifecycleHookSpecificationList": [{
        "LifecycleHookName": "my-launch-hook",
        "LifecycleTransition": "autoscaling:EC2_INSTANCE_LAUNCHING",
        "NotificationTargetARN": "arn:aws:sqs:us-west-2:123456789012:my-sqs-queue",
        "RoleARN": "arn:aws:iam::123456789012:role/my-notification-role",
        "NotificationMetadata": "SQS message metadata",
        "HeartbeatTimeout": 4800,
        "DefaultResult": "ABANDON"
    }],
    "MinSize": 1,
    "MaxSize": 5,
    "VPCZoneIdentifier": "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782",
    "Tags": [{
        "ResourceType": "auto-scaling-group",
        "ResourceId": "my-asg",
        "PropagateAtLaunch": true,
        "Value": "test",
        "Key": "environment"
    }]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Kait siklus hidup Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/lifecycle-hooks.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 7: Untuk menentukan hook siklus hidup penghentian**  
Contoh ini membuat grup Auto Scaling dengan pengait siklus hidup yang mendukung tindakan kustom saat penghentian instance.  

```
aws autoscaling create-auto-scaling-group \
    --cli-input-json file://~/config.json
```
Isi dari `config.json`:  

```
{
    "AutoScalingGroupName": "my-asg",
    "LaunchTemplate": {
        "LaunchTemplateId": "lt-1234567890abcde12"
    },
    "LifecycleHookSpecificationList": [{
        "LifecycleHookName": "my-termination-hook",
        "LifecycleTransition": "autoscaling:EC2_INSTANCE_TERMINATING",
        "HeartbeatTimeout": 120,
        "DefaultResult": "CONTINUE"
    }],
    "MinSize": 1,
    "MaxSize": 5,
    "TargetGroupARNs": [
        "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067"
    ],
    "VPCZoneIdentifier": "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782"
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Kait siklus hidup Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/lifecycle-hooks.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 8: Untuk menentukan kebijakan penghentian kustom**  
Contoh ini membuat grup Auto Scaling yang menentukan kebijakan penghentian fungsi Lambda kustom yang memberi tahu Amazon EC2 Auto Scaling yang aman untuk dihentikan pada skala.  

```
aws autoscaling create-auto-scaling-group \
    --auto-scaling-group-name my-asg-single-instance \
    --launch-template LaunchTemplateName=my-template-for-auto-scaling \
    --min-size 1 \
    --max-size 5 \
    --termination-policies "arn:aws:lambda:us-west-2:123456789012:function:HelloFunction:prod" \
    --vpc-zone-identifier "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat kebijakan penghentian kustom dengan Lambda di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/lambda-custom-termination-policy.html) Pengguna *Amazon EC2* Auto Scaling.  
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/create-auto-scaling-group.html)di *Referensi AWS CLI Perintah*. 

### `create-launch-configuration`
<a name="auto-scaling_CreateLaunchConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-launch-configuration`.

**AWS CLI**  
**Contoh 1: Untuk membuat konfigurasi peluncuran**  
Contoh ini membuat konfigurasi peluncuran sederhana.  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc \
    --image-id ami-04d5cc9b88example \
    --instance-type m5.large
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat konfigurasi peluncuran](https://docs.aws.amazon.com/autoscaling/ec2/userguide/create-launch-config.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
**Contoh 2: Untuk membuat konfigurasi peluncuran dengan grup keamanan, key pair, dan skrip bootstrap**  
Contoh ini membuat konfigurasi peluncuran dengan grup keamanan, key pair, dan skrip bootstrap yang terdapat dalam data pengguna.  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc \
    --image-id ami-04d5cc9b88example \
    --instance-type m5.large \
    --security-groups sg-eb2af88example \
    --key-name my-key-pair \
    --user-data file://myuserdata.txt
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat konfigurasi peluncuran](https://docs.aws.amazon.com/autoscaling/ec2/userguide/create-launch-config.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
**Contoh 3: Untuk membuat konfigurasi peluncuran dengan peran IAM**  
Contoh ini membuat konfigurasi peluncuran dengan nama profil instance peran IAM.  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc \
    --image-id ami-04d5cc9b88example \
    --instance-type m5.large \
    --iam-instance-profile my-autoscaling-role
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [IAM role untuk aplikasi yang berjalan di Instans Amazon EC2](https://docs.aws.amazon.com/autoscaling/ec2/userguide/us-iam-role.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 4: Untuk membuat konfigurasi peluncuran dengan pemantauan terperinci diaktifkan**  
Contoh ini membuat konfigurasi peluncuran dengan pemantauan terperinci EC2 diaktifkan, yang mengirimkan metrik EC2 CloudWatch dalam periode 1 menit.  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc \
    --image-id ami-04d5cc9b88example \
    --instance-type m5.large \
    --instance-monitoring Enabled=true
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi pemantauan untuk instans Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/enable-as-instance-metrics.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
**Contoh 5: Untuk membuat konfigurasi peluncuran yang meluncurkan Instans Spot**  
Contoh ini membuat konfigurasi peluncuran yang menggunakan Instans Spot sebagai satu-satunya opsi pembelian.  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc \
    --image-id ami-04d5cc9b88example \
    --instance-type m5.large \
    --spot-price "0.50"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Meminta Instans Spot](https://docs.aws.amazon.com/autoscaling/ec2/userguide/asg-launch-spot-instances.html) di Panduan Pengguna *Amazon EC2* Auto Scaling.  
**Contoh 6: Untuk membuat konfigurasi peluncuran menggunakan instans EC2**  
Contoh ini membuat konfigurasi peluncuran berdasarkan atribut dari instance yang ada. Ini mengesampingkan penyewaan penempatan dan apakah alamat IP publik diatur dengan menyertakan opsi dan`--placement-tenancy`. `--no-associate-public-ip-address`  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc-from-instance \
    --instance-id i-0123a456700123456 \
    --instance-type m5.large \
    --no-associate-public-ip-address \
    --placement-tenancy dedicated
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat konfigurasi peluncuran menggunakan instans EC2 di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/create-lc-with-instanceID.html) Pengguna *Amazon EC2 Auto* Scaling.  
**Contoh 7: Untuk membuat konfigurasi peluncuran dengan pemetaan perangkat blok untuk volume Amazon EBS**  
Contoh ini membuat konfigurasi peluncuran dengan pemetaan perangkat blok untuk `gp3` volume Amazon EBS dengan nama perangkat `/dev/sdh` dan ukuran volume 20.  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc \
    --image-id ami-04d5cc9b88example \
    --instance-type m5.large \
    --block-device-mappings '[{"DeviceName":"/dev/sdh","Ebs":{"VolumeSize":20,"VolumeType":"gp3"}}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [EBS di Referensi](https://docs.aws.amazon.com/autoscaling/ec2/APIReference/API_Ebs.html) *API Amazon EC2 Auto* Scaling.  
*Untuk informasi tentang sintaks untuk mengutip nilai parameter berformat JSON, lihat [Menggunakan tanda kutip dengan string di CLI di Panduan Pengguna Antarmuka Baris Perintah AWS](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters-quoting-strings.html).AWS *  
**Contoh 8: Untuk membuat konfigurasi peluncuran dengan pemetaan perangkat blok untuk volume penyimpanan instans**  
Contoh ini membuat konfigurasi peluncuran `ephemeral1` dengan volume penyimpanan instance dengan nama perangkat`/dev/sdc`.  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc \
    --image-id ami-04d5cc9b88example \
    --instance-type m5.large \
    --block-device-mappings '[{"DeviceName":"/dev/sdc","VirtualName":"ephemeral1"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [BlockDeviceMapping](https://docs.aws.amazon.com/autoscaling/ec2/APIReference/API_BlockDeviceMapping.html) dalam *Referensi API Amazon EC2 Auto Scaling*.  
*Untuk informasi tentang sintaks untuk mengutip nilai parameter berformat JSON, lihat [Menggunakan tanda kutip dengan string di CLI di Panduan Pengguna Antarmuka Baris Perintah AWS](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters-quoting-strings.html).AWS *  
**Contoh 9: Untuk membuat konfigurasi peluncuran dan menekan perangkat blok agar tidak dilampirkan pada waktu peluncuran**  
Contoh ini membuat konfigurasi peluncuran yang menekan perangkat blok yang ditentukan oleh pemetaan perangkat blok AMI (misalnya,). `/dev/sdf`  

```
aws autoscaling create-launch-configuration \
    --launch-configuration-name my-lc \
    --image-id ami-04d5cc9b88example \
    --instance-type m5.large \
    --block-device-mappings '[{"DeviceName":"/dev/sdf","NoDevice":""}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [BlockDeviceMapping](https://docs.aws.amazon.com/autoscaling/ec2/APIReference/API_BlockDeviceMapping.html) dalam *Referensi API Amazon EC2 Auto Scaling*.  
*Untuk informasi tentang sintaks untuk mengutip nilai parameter berformat JSON, lihat [Menggunakan tanda kutip dengan string di CLI di Panduan Pengguna Antarmuka Baris Perintah AWS](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters-quoting-strings.html).AWS *  
+  Untuk detail API, lihat [CreateLaunchConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/create-launch-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-or-update-tags`
<a name="auto-scaling_CreateOrUpdateTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-or-update-tags`.

**AWS CLI**  
**Untuk membuat atau memperbarui tag untuk grup Auto Scaling**  
Contoh ini menambahkan dua tag ke grup Auto Scaling yang ditentukan.  

```
aws autoscaling create-or-update-tags \
    --tags ResourceId=my-asg,ResourceType=auto-scaling-group,Key=Role,Value=WebServer,PropagateAtLaunch=true ResourceId=my-asg,ResourceType=auto-scaling-group,Key=Dept,Value=Research,PropagateAtLaunch=true
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Menandai instans dan grup Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-tagging.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [CreateOrUpdateTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/create-or-update-tags.html)di *Referensi AWS CLI Perintah*. 

### `delete-auto-scaling-group`
<a name="auto-scaling_DeleteAutoScalingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-auto-scaling-group`.

**AWS CLI**  
**Contoh 1: Untuk menghapus grup Auto Scaling yang ditentukan**  
Contoh ini menghapus grup Auto Scaling yang ditentukan.  

```
aws autoscaling delete-auto-scaling-group \
    --auto-scaling-group-name my-asg
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus infrastruktur Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-process-shutdown.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
**Contoh 2: Untuk menghapus paksa grup Auto Scaling yang ditentukan**  
Untuk menghapus grup Auto Scaling tanpa menunggu instance dalam grup dihentikan, gunakan opsi. `--force-delete`  

```
aws autoscaling delete-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --force-delete
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus infrastruktur Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-process-shutdown.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/delete-auto-scaling-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-launch-configuration`
<a name="auto-scaling_DeleteLaunchConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-launch-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi peluncuran**  
Contoh ini menghapus konfigurasi peluncuran yang ditentukan.  

```
aws autoscaling delete-launch-configuration \
    --launch-configuration-name my-launch-config
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus infrastruktur Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-process-shutdown.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DeleteLaunchConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/delete-launch-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-lifecycle-hook`
<a name="auto-scaling_DeleteLifecycleHook_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-lifecycle-hook`.

**AWS CLI**  
**Untuk menghapus kait siklus hidup**  
Contoh ini menghapus hook siklus hidup yang ditentukan.  

```
aws autoscaling delete-lifecycle-hook \
    --lifecycle-hook-name my-lifecycle-hook \
    --auto-scaling-group-name my-asg
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteLifecycleHook](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/delete-lifecycle-hook.html)di *Referensi AWS CLI Perintah*. 

### `delete-notification-configuration`
<a name="auto-scaling_DeleteNotificationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-notification-configuration`.

**AWS CLI**  
**Untuk menghapus notifikasi Auto Scaling**  
Contoh ini menghapus notifikasi yang ditentukan dari grup Auto Scaling yang ditentukan.  

```
aws autoscaling delete-notification-configuration \
    --auto-scaling-group-name my-asg \
    --topic-arn arn:aws:sns:us-west-2:123456789012:my-sns-topic
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus konfigurasi notifikasi](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ASGettingNotifications.html#delete-settingupnotifications) di Panduan *Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DeleteNotificationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/delete-notification-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy`
<a name="auto-scaling_DeletePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan penskalaan**  
Contoh ini menghapus kebijakan penskalaan yang ditentukan.  

```
aws autoscaling delete-policy \
    --auto-scaling-group-name my-asg \
    --policy-name alb1000-target-tracking-scaling-policy
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeletePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/delete-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-scheduled-action`
<a name="auto-scaling_DeleteScheduledAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-scheduled-action`.

**AWS CLI**  
**Untuk menghapus tindakan terjadwal dari grup Auto Scaling**  
Contoh ini menghapus tindakan terjadwal yang ditentukan dari grup Auto Scaling yang ditentukan.  

```
aws autoscaling delete-scheduled-action \
    --auto-scaling-group-name my-asg \
    --scheduled-action-name my-scheduled-action
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteScheduledAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/delete-scheduled-action.html)di *Referensi AWS CLI Perintah*. 

### `delete-tags`
<a name="auto-scaling_DeleteTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-tags`.

**AWS CLI**  
**Untuk menghapus tag dari grup Auto Scaling**  
Contoh ini menghapus tag yang ditentukan dari grup Auto Scaling yang ditentukan.  

```
aws autoscaling delete-tags \
    --tags ResourceId=my-asg,ResourceType=auto-scaling-group,Key=Dept,Value=Research
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Menandai instans dan grup Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-tagging.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DeleteTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/delete-tags.html)di *Referensi AWS CLI Perintah*. 

### `delete-warm-pool`
<a name="auto-scaling_DeleteWarmPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-warm-pool`.

**AWS CLI**  
**Contoh 1: Untuk menghapus kolam hangat**  
Contoh berikut menghapus kolam hangat untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling delete-warm-pool \
    --auto-scaling-group-name my-asg
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kolam hangat untuk Penskalaan Otomatis Amazon EC2](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-warm-pools.html) *di Panduan Pengguna Penskalaan Otomatis Amazon* EC2.  
**Contoh 2: Untuk memaksa menghapus kolam hangat**  
Untuk menghapus kolam hangat tanpa menunggu instance-nya berakhir, gunakan opsi. `--force-delete`  

```
aws autoscaling delete-warm-pool \
    --auto-scaling-group-name my-asg \
    --force-delete
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kolam hangat untuk Penskalaan Otomatis Amazon EC2](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-warm-pools.html) *di Panduan Pengguna Penskalaan Otomatis Amazon* EC2.  
+  Untuk detail API, lihat [DeleteWarmPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/delete-warm-pool.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-limits`
<a name="auto-scaling_DescribeAccountLimits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-limits`.

**AWS CLI**  
**Untuk menjelaskan batas akun Amazon EC2 Auto Scaling Anda**  
Contoh ini menjelaskan batas AWS Amazon EC2 Auto Scaling untuk akun Anda.  

```
aws autoscaling describe-account-limits
```
Output:  

```
{
    "NumberOfLaunchConfigurations": 5,
    "MaxNumberOfLaunchConfigurations": 100,
    "NumberOfAutoScalingGroups": 3,
    "MaxNumberOfAutoScalingGroups": 20
}
```
Untuk informasi selengkapnya, lihat kuota layanan [Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-account-limits.html) *di Panduan Pengguna Amazon EC2 Auto Scaling.*  
+  Untuk detail API, lihat [DescribeAccountLimits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-account-limits.html)di *Referensi AWS CLI Perintah*. 

### `describe-adjustment-types`
<a name="auto-scaling_DescribeAdjustmentTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-adjustment-types`.

**AWS CLI**  
**Untuk menjelaskan jenis penyesuaian penskalaan yang tersedia**  
Contoh ini menjelaskan jenis penyesuaian yang tersedia.  

```
aws autoscaling describe-adjustment-types
```
Output:  

```
{
    "AdjustmentTypes": [
        {
            "AdjustmentType": "ChangeInCapacity"
        },
        {
            "AdjustmentType": "ExactCapacity"
        },
        {
            "AdjustmentType": "PercentChangeInCapacity"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Jenis penskalaan langkah](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-scaling-simple-step.html#as-scaling-adjustment) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeAdjustmentTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-adjustment-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-auto-scaling-groups`
<a name="auto-scaling_DescribeAutoScalingGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-auto-scaling-groups`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan grup Auto Scaling yang ditentukan**  
Contoh ini menjelaskan grup Auto Scaling yang ditentukan.  

```
aws autoscaling describe-auto-scaling-groups \
    --auto-scaling-group-names my-asg
```
Output:  

```
{
    "AutoScalingGroups": [
        {
            "AutoScalingGroupName": "my-asg",
            "AutoScalingGroupARN": "arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:930d940e-891e-4781-a11a-7b0acd480f03:autoScalingGroupName/my-asg",
            "LaunchTemplate": {
                "LaunchTemplateName": "my-launch-template",
                "Version": "1",
                "LaunchTemplateId": "lt-1234567890abcde12"
            },
            "MinSize": 0,
            "MaxSize": 1,
            "DesiredCapacity": 1,
            "DefaultCooldown": 300,
            "AvailabilityZones": [
                "us-west-2a",
                "us-west-2b",
                "us-west-2c"
            ],
            "LoadBalancerNames": [],
            "TargetGroupARNs": [],
            "HealthCheckType": "EC2",
            "HealthCheckGracePeriod": 0,
            "Instances": [
                {
                    "InstanceId": "i-06905f55584de02da",
                    "InstanceType": "t2.micro",
                    "AvailabilityZone": "us-west-2a",
                    "HealthStatus": "Healthy",
                    "LifecycleState": "InService",
                    "ProtectedFromScaleIn": false,
                    "LaunchTemplate": {
                        "LaunchTemplateName": "my-launch-template",
                        "Version": "1",
                        "LaunchTemplateId": "lt-1234567890abcde12"
                    }
                }
            ],
            "CreatedTime": "2023-10-28T02:39:22.152Z",
            "SuspendedProcesses": [],
            "VPCZoneIdentifier": "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782",
            "EnabledMetrics": [],
            "Tags": [],
            "TerminationPolicies": [
                "Default"
            ],
            "NewInstancesProtectedFromScaleIn": false,
            "ServiceLinkedRoleARN":"arn",
            "TrafficSources": []
        }
    ]
}
```
**Contoh 2: Untuk mendeskripsikan 100 grup Auto Scaling pertama yang ditentukan**  
Contoh ini menjelaskan grup Auto Scaling yang ditentukan. Ini memungkinkan Anda untuk menentukan hingga 100 nama grup.  

```
aws autoscaling describe-auto-scaling-groups \
    --max-items 100 \
    --auto-scaling-group-names "group1" "group2" "group3" "group4"
```
Lihat contoh 1 untuk output sampel.  
**Contoh 3: Untuk mendeskripsikan grup Auto Scaling di wilayah tertentu**  
Contoh ini menjelaskan grup Auto Scaling di wilayah tertentu, hingga maksimal 75 grup.  

```
aws autoscaling describe-auto-scaling-groups \
    --max-items 75 \
    --region us-east-1
```
Lihat contoh 1 untuk output sampel.  
**Contoh 4: Untuk menjelaskan jumlah grup Auto Scaling yang ditentukan**  
Untuk mengembalikan sejumlah grup Auto Scaling tertentu, gunakan opsi. `--max-items`  

```
aws autoscaling describe-auto-scaling-groups \
    --max-items 1
```
Lihat contoh 1 untuk output sampel.  
Jika output termasuk `NextToken` bidang, ada lebih banyak grup. Untuk mendapatkan grup tambahan, gunakan nilai bidang ini dengan `--starting-token` opsi dalam panggilan berikutnya sebagai berikut.  

```
aws autoscaling describe-auto-scaling-groups \
    --starting-token Z3M3LMPEXAMPLE
```
Lihat contoh 1 untuk output sampel.  
**Contoh 5: Untuk menjelaskan grup Auto Scaling yang menggunakan konfigurasi peluncuran**  
Contoh ini menggunakan `--query` opsi untuk mendeskripsikan grup Auto Scaling yang menggunakan konfigurasi peluncuran.  

```
aws autoscaling describe-auto-scaling-groups \
    --query 'AutoScalingGroups[?LaunchConfigurationName!=`null`]'
```
Output:  

```
[
    {
        "AutoScalingGroupName": "my-asg",
        "AutoScalingGroupARN": "arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:930d940e-891e-4781-a11a-7b0acd480f03:autoScalingGroupName/my-asg",
        "LaunchConfigurationName": "my-lc",
        "MinSize": 0,
        "MaxSize": 1,
        "DesiredCapacity": 1,
        "DefaultCooldown": 300,
        "AvailabilityZones": [
            "us-west-2a",
            "us-west-2b",
            "us-west-2c"
        ],
        "LoadBalancerNames": [],
        "TargetGroupARNs": [],
        "HealthCheckType": "EC2",
        "HealthCheckGracePeriod": 0,
        "Instances": [
            {
                "InstanceId": "i-088c57934a6449037",
                "InstanceType": "t2.micro",
                "AvailabilityZone": "us-west-2c",
                "HealthStatus": "Healthy",
                "LifecycleState": "InService",
                "LaunchConfigurationName": "my-lc",
                "ProtectedFromScaleIn": false
            }
        ],
        "CreatedTime": "2023-10-28T02:39:22.152Z",
        "SuspendedProcesses": [],
        "VPCZoneIdentifier": "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782",
        "EnabledMetrics": [],
        "Tags": [],
        "TerminationPolicies": [
            "Default"
        ],
        "NewInstancesProtectedFromScaleIn": false,
        "ServiceLinkedRoleARN":"arn",
        "TrafficSources": []
    }
]
```
Untuk informasi selengkapnya, lihat [Memfilter output AWS CLI](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-filter.html) di *Panduan Pengguna Antarmuka Baris AWS Perintah*.  
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-auto-scaling-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-auto-scaling-instances`
<a name="auto-scaling_DescribeAutoScalingInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-auto-scaling-instances`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan satu atau lebih contoh**  
Contoh ini menjelaskan contoh yang ditentukan.  

```
aws autoscaling describe-auto-scaling-instances \
    --instance-ids i-06905f55584de02da
```
Output:  

```
{
    "AutoScalingInstances": [
        {
            "InstanceId": "i-06905f55584de02da",
            "InstanceType": "t2.micro",
            "AutoScalingGroupName": "my-asg",
            "AvailabilityZone": "us-west-2b",
            "LifecycleState": "InService",
            "HealthStatus": "HEALTHY",
            "ProtectedFromScaleIn": false,
            "LaunchTemplate": {
                "LaunchTemplateId": "lt-1234567890abcde12",
                "LaunchTemplateName": "my-launch-template",
                "Version": "1"
            }
        }
    ]
}
```
**Contoh 2: Untuk menggambarkan satu atau lebih contoh**  
Contoh ini menggunakan `--max-items` opsi untuk menentukan berapa banyak instance yang akan dikembalikan dengan panggilan ini.  

```
aws autoscaling describe-auto-scaling-instances \
    --max-items 1
```
Jika output menyertakan `NextToken` bidang, ada lebih banyak contoh. Untuk mendapatkan instance tambahan, gunakan nilai bidang ini dengan `--starting-token` opsi dalam panggilan berikutnya sebagai berikut.  

```
aws autoscaling describe-auto-scaling-instances \
    --starting-token Z3M3LMPEXAMPLE
```
Lihat contoh 1 untuk output sampel.  
**Contoh 3: Untuk menjelaskan instance yang menggunakan konfigurasi peluncuran**  
Contoh ini menggunakan `--query` opsi untuk mendeskripsikan instance yang menggunakan konfigurasi peluncuran.  

```
aws autoscaling describe-auto-scaling-instances \
    --query 'AutoScalingInstances[?LaunchConfigurationName!=`null`]'
```
Output:  

```
[
    {
        "InstanceId": "i-088c57934a6449037",
        "InstanceType": "t2.micro",
        "AutoScalingGroupName": "my-asg",
        "AvailabilityZone": "us-west-2c",
        "LifecycleState": "InService",
        "HealthStatus": "HEALTHY",
        "LaunchConfigurationName": "my-lc",
        "ProtectedFromScaleIn": false
    }
]
```
Untuk informasi selengkapnya, lihat [Memfilter output AWS CLI](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-filter.html) di *Panduan Pengguna Antarmuka Baris AWS Perintah*.  
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-auto-scaling-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-auto-scaling-notification-types`
<a name="auto-scaling_DescribeAutoScalingNotificationTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-auto-scaling-notification-types`.

**AWS CLI**  
**Untuk menjelaskan jenis notifikasi yang tersedia**  
Contoh ini menjelaskan jenis notifikasi yang tersedia.  

```
aws autoscaling describe-auto-scaling-notification-types
```
Output:  

```
{
    "AutoScalingNotificationTypes": [
        "autoscaling:EC2_INSTANCE_LAUNCH",
        "autoscaling:EC2_INSTANCE_LAUNCH_ERROR",
        "autoscaling:EC2_INSTANCE_TERMINATE",
        "autoscaling:EC2_INSTANCE_TERMINATE_ERROR",
        "autoscaling:TEST_NOTIFICATION"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan notifikasi Amazon SNS ketika grup Auto Scaling Anda menskalakan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ASGettingNotifications.html) ke dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeAutoScalingNotificationTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-auto-scaling-notification-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-refreshes`
<a name="auto-scaling_DescribeInstanceRefreshes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-refreshes`.

**AWS CLI**  
**Untuk menggambarkan penyegaran instance**  
`describe-instance-refreshes`Contoh berikut menampilkan deskripsi semua permintaan penyegaran instans untuk grup Auto Scaling yang ditentukan, termasuk pesan status dan (jika tersedia) alasan status.  

```
aws autoscaling describe-instance-refreshes \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "InstanceRefreshes": [
        {
            "InstanceRefreshId": "08b91cf7-8fa6-48af-b6a6-d227f40f1b9b",
            "AutoScalingGroupName": "my-asg",
            "Status": "InProgress",
            "StatusReason": "Waiting for instances to warm up before continuing. For example: 0e69cc3f05f825f4f is warming up.",
            "EndTime": "2023-03-23T16:42:55Z",
            "PercentageComplete": 0,
            "InstancesToUpdate": 0,
    "Preferences": {
                "MinHealthyPercentage": 100,
                "InstanceWarmup": 300,
                "CheckpointPercentages": [
                    50
                ],
                "CheckpointDelay": 3600,
                "SkipMatching": false,
                "AutoRollback": true,
                "ScaleInProtectedInstances": "Ignore",
                "StandbyInstances": "Ignore"
            }
        },
        {
            "InstanceRefreshId": "dd7728d0-5bc4-4575-96a3-1b2c52bf8bb1",
            "AutoScalingGroupName": "my-asg",
            "Status": "Successful",
            "EndTime": "2022-06-02T16:53:37Z",
            "PercentageComplete": 100,
            "InstancesToUpdate": 0,
    "Preferences": {
                "MinHealthyPercentage": 90,
                "InstanceWarmup": 300,
                "SkipMatching": true,
                "AutoRollback": true,
                "ScaleInProtectedInstances": "Ignore",
                "StandbyInstances": "Ignore"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memeriksa status penyegaran instans](https://docs.aws.amazon.com/en_us/autoscaling/ec2/userguide/check-status-instance-refresh.html) di Panduan *Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeInstanceRefreshes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-instance-refreshes.html)di *Referensi AWS CLI Perintah*. 

### `describe-launch-configurations`
<a name="auto-scaling_DescribeLaunchConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-launch-configurations`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan konfigurasi peluncuran yang ditentukan**  
Contoh ini menjelaskan konfigurasi peluncuran yang ditentukan.  

```
aws autoscaling describe-launch-configurations \
    --launch-configuration-names my-launch-config
```
Output:  

```
{
    "LaunchConfigurations": [
        {
            "LaunchConfigurationName": "my-launch-config",
            "LaunchConfigurationARN": "arn:aws:autoscaling:us-west-2:123456789012:launchConfiguration:98d3b196-4cf9-4e88-8ca1-8547c24ced8b:launchConfigurationName/my-launch-config",
            "ImageId": "ami-0528a5175983e7f28",
            "KeyName": "my-key-pair-uswest2",
            "SecurityGroups": [
                "sg-05eaec502fcdadc2e"
            ],
            "ClassicLinkVPCSecurityGroups": [],
            "UserData": "",
            "InstanceType": "t2.micro",
            "KernelId": "",
            "RamdiskId": "",
            "BlockDeviceMappings": [
                {
                    "DeviceName": "/dev/xvda",
                    "Ebs": {
                        "SnapshotId": "snap-06c1606ba5ca274b1",
                        "VolumeSize": 8,
                        "VolumeType": "gp2",
                        "DeleteOnTermination": true,
                        "Encrypted": false
                    }
                }
            ],
            "InstanceMonitoring": {
                "Enabled": true
            },
            "CreatedTime": "2020-10-28T02:39:22.321Z",
            "EbsOptimized": false,
            "AssociatePublicIpAddress": true,
            "MetadataOptions": {
                "HttpTokens": "required",
                "HttpPutResponseHopLimit": 1,
                "HttpEndpoint": "disabled"
            }
        }
    ]
}
```
**Contoh 2: Untuk menjelaskan sejumlah konfigurasi peluncuran tertentu**  
Untuk mengembalikan sejumlah konfigurasi peluncuran tertentu, gunakan `--max-items` opsi.  

```
aws autoscaling describe-launch-configurations \
    --max-items 1
```
Jika output menyertakan `NextToken` bidang, ada lebih banyak konfigurasi peluncuran. Untuk mendapatkan konfigurasi peluncuran tambahan, gunakan nilai bidang ini dengan `--starting-token` opsi dalam panggilan berikutnya sebagai berikut.  

```
aws autoscaling describe-launch-configurations \
    --starting-token Z3M3LMPEXAMPLE
```
+  Untuk detail API, lihat [DescribeLaunchConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-launch-configurations.html)di *Referensi AWS CLI Perintah*. 

### `describe-lifecycle-hook-types`
<a name="auto-scaling_DescribeLifecycleHookTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-lifecycle-hook-types`.

**AWS CLI**  
**Untuk menjelaskan jenis kait siklus hidup yang tersedia**  
Contoh ini menjelaskan jenis kait siklus hidup yang tersedia.  

```
aws autoscaling describe-lifecycle-hook-types
```
Output:  

```
{
    "LifecycleHookTypes": [
        "autoscaling:EC2_INSTANCE_LAUNCHING",
        "autoscaling:EC2_INSTANCE_TERMINATING"
    ]
}
```
+  Untuk detail API, lihat [DescribeLifecycleHookTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-lifecycle-hook-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-lifecycle-hooks`
<a name="auto-scaling_DescribeLifecycleHooks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-lifecycle-hooks`.

**AWS CLI**  
**Untuk mendeskripsikan kait siklus hidup Anda**  
Contoh ini menjelaskan kait siklus hidup untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling describe-lifecycle-hooks \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "LifecycleHooks": [
        {
            "GlobalTimeout": 3000,
            "HeartbeatTimeout": 30,
            "AutoScalingGroupName": "my-asg",
            "LifecycleHookName": "my-launch-hook",
            "DefaultResult": "ABANDON",
            "LifecycleTransition": "autoscaling:EC2_INSTANCE_LAUNCHING"
        },
        {
            "GlobalTimeout": 6000,
            "HeartbeatTimeout": 60,
            "AutoScalingGroupName": "my-asg",
            "LifecycleHookName": "my-termination-hook",
            "DefaultResult": "CONTINUE",
            "LifecycleTransition": "autoscaling:EC2_INSTANCE_TERMINATING"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLifecycleHooks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-lifecycle-hooks.html)di *Referensi AWS CLI Perintah*. 

### `describe-load-balancer-target-groups`
<a name="auto-scaling_DescribeLoadBalancerTargetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-load-balancer-target-groups`.

**AWS CLI**  
**Untuk mendeskripsikan grup target penyeimbang beban untuk grup Auto Scaling**  
Contoh ini menjelaskan grup target penyeimbang beban yang dilampirkan ke grup Auto Scaling yang ditentukan.  

```
aws autoscaling describe-load-balancer-target-groups \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "LoadBalancerTargetGroups": [
        {
            "LoadBalancerTargetGroupARN": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067",
            "State": "Added"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLoadBalancerTargetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-load-balancer-target-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-load-balancers`
<a name="auto-scaling_DescribeLoadBalancers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-load-balancers`.

**AWS CLI**  
**Untuk mendeskripsikan Classic Load Balancer untuk grup Auto Scaling**  
Contoh ini menjelaskan Classic Load Balancer untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling describe-load-balancers \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "LoadBalancers": [
        {
            "State": "Added",
            "LoadBalancerName": "my-load-balancer"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-load-balancers.html)di *Referensi AWS CLI Perintah*. 

### `describe-metric-collection-types`
<a name="auto-scaling_DescribeMetricCollectionTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-metric-collection-types`.

**AWS CLI**  
**Untuk menjelaskan jenis koleksi metrik yang tersedia**  
Contoh ini menjelaskan jenis koleksi metrik yang tersedia.  

```
aws autoscaling describe-metric-collection-types
```
Output:  

```
{
    "Metrics": [
        {
            "Metric": "GroupMinSize"
        },
        {
            "Metric": "GroupMaxSize"
        },
        {
            "Metric": "GroupDesiredCapacity"
        },
        {
            "Metric": "GroupInServiceInstances"
        },
        {
            "Metric": "GroupInServiceCapacity"
        },
        {
            "Metric": "GroupPendingInstances"
        },
        {
            "Metric": "GroupPendingCapacity"
        },
        {
            "Metric": "GroupTerminatingInstances"
        },
        {
            "Metric": "GroupTerminatingCapacity"
        },
        {
            "Metric": "GroupStandbyInstances"
        },
        {
            "Metric": "GroupStandbyCapacity"
        },
        {
            "Metric": "GroupTotalInstances"
        },
        {
            "Metric": "GroupTotalCapacity"
        }
    ],
    "Granularities": [
        {
            "Granularity": "1Minute"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Metrik grup Auto Scaling di Panduan Pengguna](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-instance-monitoring.html#as-group-metrics) *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeMetricCollectionTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-metric-collection-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-notification-configurations`
<a name="auto-scaling_DescribeNotificationConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-notification-configurations`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan konfigurasi notifikasi dari grup tertentu**  
Contoh ini menjelaskan konfigurasi notifikasi untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling describe-notification-configurations \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "NotificationConfigurations": [
        {
            "AutoScalingGroupName": "my-asg",
            "NotificationType": "autoscaling:TEST_NOTIFICATION",
            "TopicARN": "arn:aws:sns:us-west-2:123456789012:my-sns-topic-2"
        },
        {
            "AutoScalingGroupName": "my-asg",
            "NotificationType": "autoscaling:TEST_NOTIFICATION",
            "TopicARN": "arn:aws:sns:us-west-2:123456789012:my-sns-topic"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan notifikasi Amazon SNS ketika grup Auto Scaling Anda menskalakan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ASGettingNotifications.html) ke dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 1: Untuk menjelaskan sejumlah konfigurasi notifikasi tertentu**  
Untuk mengembalikan sejumlah konfigurasi notifikasi tertentu, gunakan `max-items` parameter.  

```
aws autoscaling describe-notification-configurations \
    --auto-scaling-group-name my-auto-scaling-group \
    --max-items 1
```
Output:  

```
{
    "NotificationConfigurations": [
        {
            "AutoScalingGroupName": "my-asg",
            "NotificationType": "autoscaling:TEST_NOTIFICATION",
            "TopicARN": "arn:aws:sns:us-west-2:123456789012:my-sns-topic-2"
        },
        {
            "AutoScalingGroupName": "my-asg",
            "NotificationType": "autoscaling:TEST_NOTIFICATION",
            "TopicARN": "arn:aws:sns:us-west-2:123456789012:my-sns-topic"
        }
    ]
}
```
Jika output menyertakan `NextToken` bidang, ada lebih banyak konfigurasi notifikasi. Untuk mendapatkan konfigurasi notifikasi tambahan, gunakan nilai bidang ini dengan `starting-token` parameter dalam panggilan berikutnya sebagai berikut.  

```
aws autoscaling describe-notification-configurations \
    --auto-scaling-group-name my-asg \
    --starting-token Z3M3LMPEXAMPLE
```
Untuk informasi selengkapnya, lihat [Mendapatkan notifikasi Amazon SNS ketika grup Auto Scaling Anda menskalakan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ASGettingNotifications.html) ke dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeNotificationConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-notification-configurations.html)di *Referensi AWS CLI Perintah*. 

### `describe-policies`
<a name="auto-scaling_DescribePolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-policies`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan kebijakan penskalaan grup tertentu**  
Contoh ini menjelaskan kebijakan penskalaan untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling describe-policies \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "ScalingPolicies": [
        {
            "AutoScalingGroupName": "my-asg",
            "PolicyName": "alb1000-target-tracking-scaling-policy",
            "PolicyARN": "arn:aws:autoscaling:us-west-2:123456789012:scalingPolicy:3065d9c8-9969-4bec-bb6a-3fbe5550fde6:autoScalingGroupName/my-asg:policyName/alb1000-target-tracking-scaling-policy",
            "PolicyType": "TargetTrackingScaling",
            "StepAdjustments": [],
            "Alarms": [
                {
                    "AlarmName": "TargetTracking-my-asg-AlarmHigh-924887a9-12d7-4e01-8686-6f844d13a196",
                    "AlarmARN": "arn:aws:cloudwatch:us-west-2:123456789012:alarm:TargetTracking-my-asg-AlarmHigh-924887a9-12d7-4e01-8686-6f844d13a196"
                },
                {
                    "AlarmName": "TargetTracking-my-asg-AlarmLow-f96f899d-b8e7-4d09-a010-c1aaa35da296",
                    "AlarmARN": "arn:aws:cloudwatch:us-west-2:123456789012:alarm:TargetTracking-my-asg-AlarmLow-f96f899d-b8e7-4d09-a010-c1aaa35da296"
                }
            ],
            "TargetTrackingConfiguration": {
                "PredefinedMetricSpecification": {
                    "PredefinedMetricType": "ALBRequestCountPerTarget",
                    "ResourceLabel": "app/my-alb/778d41231b141a0f/targetgroup/my-alb-target-group/943f017f100becff"
                },
                "TargetValue": 1000.0,
                "DisableScaleIn": false
            },
            "Enabled": true
        },
        {
            "AutoScalingGroupName": "my-asg",
            "PolicyName": "cpu40-target-tracking-scaling-policy",
            "PolicyARN": "arn:aws:autoscaling:us-west-2:123456789012:scalingPolicy:5fd26f71-39d4-4690-82a9-b8515c45cdde:autoScalingGroupName/my-asg:policyName/cpu40-target-tracking-scaling-policy",
            "PolicyType": "TargetTrackingScaling",
            "StepAdjustments": [],
            "Alarms": [
                {
                    "AlarmName": "TargetTracking-my-asg-AlarmHigh-139f9789-37b9-42ad-bea5-b5b147d7f473",
                    "AlarmARN": "arn:aws:cloudwatch:us-west-2:123456789012:alarm:TargetTracking-my-asg-AlarmHigh-139f9789-37b9-42ad-bea5-b5b147d7f473"
                },
                {
                    "AlarmName": "TargetTracking-my-asg-AlarmLow-bd681c67-fc18-4c56-8468-fb8e413009c9",
                    "AlarmARN": "arn:aws:cloudwatch:us-west-2:123456789012:alarm:TargetTracking-my-asg-AlarmLow-bd681c67-fc18-4c56-8468-fb8e413009c9"
                }
            ],
            "TargetTrackingConfiguration": {
                "PredefinedMetricSpecification": {
                    "PredefinedMetricType": "ASGAverageCPUUtilization"
                },
                "TargetValue": 40.0,
                "DisableScaleIn": false
            },
            "Enabled": true
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penskalaan dinamis](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-scale-based-on-demand.html) di Panduan Pengguna *Amazon EC2 Auto* Scaling.  
**Contoh 2: Untuk menjelaskan kebijakan penskalaan nama tertentu**  
Untuk mengembalikan kebijakan penskalaan tertentu, gunakan `--policy-names` opsi.  

```
aws autoscaling describe-policies \
    --auto-scaling-group-name my-asg \
    --policy-names cpu40-target-tracking-scaling-policy
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Penskalaan dinamis](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-scale-based-on-demand.html) di Panduan Pengguna *Amazon EC2 Auto* Scaling.  
**Contoh 3: Untuk menjelaskan sejumlah kebijakan penskalaan**  
Untuk mengembalikan sejumlah kebijakan tertentu, gunakan `--max-items` opsi.  

```
aws autoscaling describe-policies \
    --auto-scaling-group-name my-asg \
    --max-items 1
```
Lihat contoh 1 untuk output sampel.  
Jika output menyertakan `NextToken` bidang, gunakan nilai bidang ini dengan `--starting-token` opsi dalam panggilan berikutnya untuk mendapatkan kebijakan tambahan.  

```
aws autoscaling describe-policies --auto-scaling-group-name my-asg --starting-token Z3M3LMPEXAMPLE
```
Untuk informasi selengkapnya, lihat [Penskalaan dinamis](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-scale-based-on-demand.html) di Panduan Pengguna *Amazon EC2 Auto* Scaling.  
+  Untuk detail API, lihat [DescribePolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-policies.html)di *Referensi AWS CLI Perintah*. 

### `describe-scaling-activities`
<a name="auto-scaling_DescribeScalingActivities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scaling-activities`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan aktivitas penskalaan untuk grup yang ditentukan**  
Contoh ini menjelaskan aktivitas penskalaan untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling describe-scaling-activities \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "Activities": [
        {
            "ActivityId": "f9f2d65b-f1f2-43e7-b46d-d86756459699",
            "Description": "Launching a new EC2 instance: i-0d44425630326060f",
            "AutoScalingGroupName": "my-asg",
            "Cause": "At 2020-10-30T19:35:51Z a user request update of AutoScalingGroup constraints to min: 0, max: 16, desired: 16 changing the desired capacity from 0 to 16.  At 2020-10-30T19:36:07Z an instance was started in response to a difference between desired and actual capacity, increasing the capacity from 0 to 16.",
            "StartTime": "2020-10-30T19:36:09.766Z",
            "EndTime": "2020-10-30T19:36:41Z",
            "StatusCode": "Successful",
            "Progress": 100,
            "Details": "{\"Subnet ID\":\"subnet-5ea0c127\",\"Availability Zone\":\"us-west-2b\"}"
        }
    ]
}
```
Untuk selengkapnya, lihat [Memverifikasi aktivitas penskalaan untuk grup Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-verify-scaling-activity.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
**Contoh 2: Untuk menjelaskan aktivitas penskalaan untuk grup yang dihapus**  
Untuk menjelaskan aktivitas penskalaan setelah grup Auto Scaling dihapus, tambahkan `--include-deleted-groups` opsi.  

```
aws autoscaling describe-scaling-activities \
    --auto-scaling-group-name my-asg \
    --include-deleted-groups
```
Output:  

```
{
    "Activities": [
        {
            "ActivityId": "e1f5de0e-f93e-1417-34ac-092a76fba220",
            "Description": "Launching a new EC2 instance.  Status Reason: Your Spot request price of 0.001 is lower than the minimum required Spot request fulfillment price of 0.0031. Launching EC2 instance failed.",
            "AutoScalingGroupName": "my-asg",
            "Cause": "At 2021-01-13T20:47:24Z a user request update of AutoScalingGroup constraints to min: 1, max: 5, desired: 3 changing the desired capacity from 0 to 3.  At 2021-01-13T20:47:27Z an instance was started in response to a difference between desired and actual capacity, increasing the capacity from 0 to 3.",
            "StartTime": "2021-01-13T20:47:30.094Z",
            "EndTime": "2021-01-13T20:47:30Z",
            "StatusCode": "Failed",
            "StatusMessage": "Your Spot request price of 0.001 is lower than the minimum required Spot request fulfillment price of 0.0031. Launching EC2 instance failed.",
            "Progress": 100,
            "Details": "{\"Subnet ID\":\"subnet-5ea0c127\",\"Availability Zone\":\"us-west-2b\"}",
            "AutoScalingGroupState": "Deleted",
            "AutoScalingGroupARN": "arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:283179a2-f3ce-423d-93f6-66bb518232f7:autoScalingGroupName/my-asg"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memecahkan Masalah Amazon EC2 Auto Scaling di Panduan Pengguna Amazon EC2 Auto](https://docs.aws.amazon.com/autoscaling/ec2/userguide/CHAP_Troubleshooting.html) *Scaling*.  
**Contoh 3: Untuk menjelaskan sejumlah aktivitas penskalaan tertentu**  
Untuk mengembalikan sejumlah aktivitas tertentu, gunakan `--max-items` opsi.  

```
aws autoscaling describe-scaling-activities \
    --max-items 1
```
Output:  

```
{
    "Activities": [
        {
            "ActivityId": "f9f2d65b-f1f2-43e7-b46d-d86756459699",
            "Description": "Launching a new EC2 instance: i-0d44425630326060f",
            "AutoScalingGroupName": "my-asg",
            "Cause": "At 2020-10-30T19:35:51Z a user request update of AutoScalingGroup constraints to min: 0, max: 16, desired: 16 changing the desired capacity from 0 to 16.  At 2020-10-30T19:36:07Z an instance was started in response to a difference between desired and actual capacity, increasing the capacity from 0 to 16.",
            "StartTime": "2020-10-30T19:36:09.766Z",
            "EndTime": "2020-10-30T19:36:41Z",
            "StatusCode": "Successful",
            "Progress": 100,
            "Details": "{\"Subnet ID\":\"subnet-5ea0c127\",\"Availability Zone\":\"us-west-2b\"}"
        }
    ]
}
```
Jika output termasuk `NextToken` bidang, ada lebih banyak kegiatan. Untuk mendapatkan aktivitas tambahan, gunakan nilai bidang ini dengan `--starting-token` opsi dalam panggilan berikutnya sebagai berikut.  

```
aws autoscaling describe-scaling-activities \
    --starting-token Z3M3LMPEXAMPLE
```
Untuk selengkapnya, lihat [Memverifikasi aktivitas penskalaan untuk grup Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-verify-scaling-activity.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeScalingActivities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-scaling-activities.html)di *Referensi AWS CLI Perintah*. 

### `describe-scaling-process-types`
<a name="auto-scaling_DescribeScalingProcessTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scaling-process-types`.

**AWS CLI**  
**Untuk menggambarkan jenis proses yang tersedia**  
Contoh ini menjelaskan jenis proses yang tersedia.  

```
aws autoscaling describe-scaling-process-types
```
Output:  

```
{
    "Processes": [
        {
            "ProcessName": "AZRebalance"
        },
        {
            "ProcessName": "AddToLoadBalancer"
        },
        {
            "ProcessName": "AlarmNotification"
        },
        {
            "ProcessName": "HealthCheck"
        },
        {
            "ProcessName": "InstanceRefresh"
        },
        {
            "ProcessName": "Launch"
        },
        {
            "ProcessName": "ReplaceUnhealthy"
        },
        {
            "ProcessName": "ScheduledActions"
        },
        {
            "ProcessName": "Terminate"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menangguhkan dan melanjutkan proses penskalaan di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-suspend-resume-processes.html) Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeScalingProcessTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-scaling-process-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-scheduled-actions`
<a name="auto-scaling_DescribeScheduledActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scheduled-actions`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan semua tindakan terjadwal**  
Contoh ini menjelaskan semua tindakan terjadwal Anda.  

```
aws autoscaling describe-scheduled-actions
```
Output:  

```
{
    "ScheduledUpdateGroupActions": [
        {
            "AutoScalingGroupName": "my-asg",
            "ScheduledActionName": "my-recurring-action",
            "Recurrence": "30 0 1 1,6,12 *",
            "ScheduledActionARN": "arn:aws:autoscaling:us-west-2:123456789012:scheduledUpdateGroupAction:8e86b655-b2e6-4410-8f29-b4f094d6871c:autoScalingGroupName/my-asg:scheduledActionName/my-recurring-action",
            "StartTime": "2023-12-01T04:00:00Z",
            "Time": "2023-12-01T04:00:00Z",
            "MinSize": 1,
            "MaxSize": 6,
            "DesiredCapacity": 4,
            "TimeZone": "America/New_York"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penskalaan terjadwal](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-scheduled-scaling.html) di Panduan *Pengguna Amazon EC2 Auto* Scaling.  
**Contoh 2: Untuk menjelaskan tindakan terjadwal untuk grup yang ditentukan**  
Untuk menjelaskan tindakan terjadwal untuk grup Auto Scaling tertentu, gunakan opsi. `--auto-scaling-group-name`  

```
aws autoscaling describe-scheduled-actions \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "ScheduledUpdateGroupActions": [
        {
            "AutoScalingGroupName": "my-asg",
            "ScheduledActionName": "my-recurring-action",
            "Recurrence": "30 0 1 1,6,12 *",
            "ScheduledActionARN": "arn:aws:autoscaling:us-west-2:123456789012:scheduledUpdateGroupAction:8e86b655-b2e6-4410-8f29-b4f094d6871c:autoScalingGroupName/my-asg:scheduledActionName/my-recurring-action",
            "StartTime": "2023-12-01T04:00:00Z",
            "Time": "2023-12-01T04:00:00Z",
            "MinSize": 1,
            "MaxSize": 6,
            "DesiredCapacity": 4,
            "TimeZone": "America/New_York"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penskalaan terjadwal](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-scheduled-scaling.html) di Panduan *Pengguna Amazon EC2 Auto* Scaling.  
**Contoh 3: Untuk menggambarkan tindakan terjadwal yang ditentukan**  
Untuk menjelaskan tindakan terjadwal tertentu, gunakan `--scheduled-action-names` opsi.  

```
aws autoscaling describe-scheduled-actions \
    --scheduled-action-names my-recurring-action
```
Output:  

```
{
    "ScheduledUpdateGroupActions": [
        {
            "AutoScalingGroupName": "my-asg",
            "ScheduledActionName": "my-recurring-action",
            "Recurrence": "30 0 1 1,6,12 *",
            "ScheduledActionARN": "arn:aws:autoscaling:us-west-2:123456789012:scheduledUpdateGroupAction:8e86b655-b2e6-4410-8f29-b4f094d6871c:autoScalingGroupName/my-asg:scheduledActionName/my-recurring-action",
            "StartTime": "2023-12-01T04:00:00Z",
            "Time": "2023-12-01T04:00:00Z",
            "MinSize": 1,
            "MaxSize": 6,
            "DesiredCapacity": 4,
            "TimeZone": "America/New_York"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penskalaan terjadwal](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-scheduled-scaling.html) di Panduan *Pengguna Amazon EC2 Auto* Scaling.  
**Contoh 4: Untuk menggambarkan tindakan terjadwal dengan waktu mulai yang ditentukan**  
Untuk menggambarkan tindakan terjadwal yang dimulai pada waktu tertentu, gunakan `--start-time` opsi.  

```
aws autoscaling describe-scheduled-actions \
    --start-time "2023-12-01T04:00:00Z"
```
Output:  

```
{
    "ScheduledUpdateGroupActions": [
        {
            "AutoScalingGroupName": "my-asg",
            "ScheduledActionName": "my-recurring-action",
            "Recurrence": "30 0 1 1,6,12 *",
            "ScheduledActionARN": "arn:aws:autoscaling:us-west-2:123456789012:scheduledUpdateGroupAction:8e86b655-b2e6-4410-8f29-b4f094d6871c:autoScalingGroupName/my-asg:scheduledActionName/my-recurring-action",
            "StartTime": "2023-12-01T04:00:00Z",
            "Time": "2023-12-01T04:00:00Z",
            "MinSize": 1,
            "MaxSize": 6,
            "DesiredCapacity": 4,
            "TimeZone": "America/New_York"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penskalaan terjadwal](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-scheduled-scaling.html) di Panduan *Pengguna Amazon EC2 Auto* Scaling.  
**Contoh 5: Untuk menggambarkan tindakan terjadwal yang berakhir pada waktu tertentu**  
Untuk menggambarkan tindakan terjadwal yang berakhir pada waktu tertentu, gunakan `--end-time` opsi.  

```
aws autoscaling describe-scheduled-actions \
    --end-time "2023-12-01T04:00:00Z"
```
Output:  

```
{
    "ScheduledUpdateGroupActions": [
        {
            "AutoScalingGroupName": "my-asg",
            "ScheduledActionName": "my-recurring-action",
            "Recurrence": "30 0 1 1,6,12 *",
            "ScheduledActionARN": "arn:aws:autoscaling:us-west-2:123456789012:scheduledUpdateGroupAction:8e86b655-b2e6-4410-8f29-b4f094d6871c:autoScalingGroupName/my-asg:scheduledActionName/my-recurring-action",
            "StartTime": "2023-12-01T04:00:00Z",
            "Time": "2023-12-01T04:00:00Z",
            "MinSize": 1,
            "MaxSize": 6,
            "DesiredCapacity": 4,
            "TimeZone": "America/New_York"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penskalaan terjadwal](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-scheduled-scaling.html) di Panduan *Pengguna Amazon EC2 Auto* Scaling.  
**Contoh 6: Untuk menggambarkan sejumlah tindakan terjadwal yang ditentukan**  
Untuk mengembalikan sejumlah tindakan terjadwal tertentu, gunakan `--max-items` opsi.  

```
aws autoscaling describe-scheduled-actions \
    --auto-scaling-group-name my-asg \
    --max-items 1
```
Output:  

```
{
    "ScheduledUpdateGroupActions": [
        {
            "AutoScalingGroupName": "my-asg",
            "ScheduledActionName": "my-recurring-action",
            "Recurrence": "30 0 1 1,6,12 *",
            "ScheduledActionARN": "arn:aws:autoscaling:us-west-2:123456789012:scheduledUpdateGroupAction:8e86b655-b2e6-4410-8f29-b4f094d6871c:autoScalingGroupName/my-asg:scheduledActionName/my-recurring-action",
            "StartTime": "2023-12-01T04:00:00Z",
            "Time": "2023-12-01T04:00:00Z",
            "MinSize": 1,
            "MaxSize": 6,
            "DesiredCapacity": 4,
            "TimeZone": "America/New_York"
        }
    ]
}
```
Jika output menyertakan `NextToken` bidang, ada lebih banyak tindakan terjadwal. Untuk mendapatkan tindakan terjadwal tambahan, gunakan nilai bidang ini dengan `--starting-token` opsi dalam panggilan berikutnya sebagai berikut.  

```
aws autoscaling describe-scheduled-actions \
    --auto-scaling-group-name my-asg \
    --starting-token Z3M3LMPEXAMPLE
```
Untuk informasi selengkapnya, lihat [Penskalaan terjadwal](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-scheduled-scaling.html) di Panduan *Pengguna Amazon EC2 Auto* Scaling.  
+  Untuk detail API, lihat [DescribeScheduledActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-scheduled-actions.html)di *Referensi AWS CLI Perintah*. 

### `describe-tags`
<a name="auto-scaling_DescribeTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tags`.

**AWS CLI**  
**Untuk mendeskripsikan semua tag**  
Contoh ini menjelaskan semua tag Anda.  

```
aws autoscaling describe-tags
```
Output:  

```
{
    "Tags": [
        {
            "ResourceType": "auto-scaling-group",
            "ResourceId": "my-asg",
            "PropagateAtLaunch": true,
            "Value": "Research",
            "Key": "Dept"
        },
        {
            "ResourceType": "auto-scaling-group",
            "ResourceId": "my-asg",
            "PropagateAtLaunch": true,
            "Value": "WebServer",
            "Key": "Role"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Menandai instans dan grup Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-tagging.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 2: Untuk mendeskripsikan tag untuk grup tertentu**  
Untuk menjelaskan tag untuk grup Auto Scaling tertentu, gunakan opsi. `--filters`  

```
aws autoscaling describe-tags --filters Name=auto-scaling-group,Values=my-asg
```
Untuk informasi lebih lanjut, lihat [Menandai instans dan grup Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-tagging.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 3: Untuk menggambarkan jumlah tag yang ditentukan**  
Untuk mengembalikan sejumlah tag tertentu, gunakan `--max-items` opsi.  

```
aws autoscaling describe-tags \
    --max-items 1
```
Jika output termasuk `NextToken` bidang, ada lebih banyak tag. Untuk mendapatkan tag tambahan, gunakan nilai bidang ini dengan `--starting-token` opsi dalam panggilan berikutnya sebagai berikut.  

```
aws autoscaling describe-tags \
    --filters Name=auto-scaling-group,Values=my-asg \
    --starting-token Z3M3LMPEXAMPLE
```
Untuk informasi lebih lanjut, lihat [Menandai instans dan grup Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-tagging.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-tags.html)di *Referensi AWS CLI Perintah*. 

### `describe-termination-policy-types`
<a name="auto-scaling_DescribeTerminationPolicyTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-termination-policy-types`.

**AWS CLI**  
**Untuk menjelaskan jenis kebijakan penghentian yang tersedia**  
Contoh ini menjelaskan jenis kebijakan penghentian yang tersedia.  

```
aws autoscaling describe-termination-policy-types
```
Output:  

```
{
    "TerminationPolicyTypes": [
        "AllocationStrategy",
        "ClosestToNextInstanceHour",
        "Default",
        "NewestInstance",
        "OldestInstance",
        "OldestLaunchConfiguration",
        "OldestLaunchTemplate"
    ]
}
```
Untuk informasi selengkapnya, lihat: [Mengendalikan instans Auto Scaling mana yang berakhir selama penurunan skala](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-instance-termination.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DescribeTerminationPolicyTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-termination-policy-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-warm-pool`
<a name="auto-scaling_DescribeWarmPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-warm-pool`.

**AWS CLI**  
**Untuk menggambarkan kolam yang hangat**  
Contoh ini menjelaskan kolam hangat untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling describe-warm-pool \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "WarmPoolConfiguration": {
        "MinSize": 2,
        "PoolState": "Stopped"
    },
    "Instances": [
        {
            "InstanceId": "i-070a5bbc7e7f40dc5",
            "InstanceType": "t2.micro",
            "AvailabilityZone": "us-west-2c",
            "LifecycleState": "Warmed:Pending",
            "HealthStatus": "Healthy",
            "LaunchTemplate": {
                "LaunchTemplateId": "lt-00a731f6e9fa48610",
                "LaunchTemplateName": "my-template-for-auto-scaling",
                "Version": "6"
            }
        },
        {
            "InstanceId": "i-0b52f061814d3bd2d",
            "InstanceType": "t2.micro",
            "AvailabilityZone": "us-west-2b",
            "LifecycleState": "Warmed:Pending",
            "HealthStatus": "Healthy",
            "LaunchTemplate": {
                "LaunchTemplateId": "lt-00a731f6e9fa48610",
                "LaunchTemplateName": "my-template-for-auto-scaling",
                "Version": "6"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kolam hangat untuk Penskalaan Otomatis Amazon EC2](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-warm-pools.html) *di Panduan Pengguna Penskalaan Otomatis Amazon* EC2.  
+  Untuk detail API, lihat [DescribeWarmPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/describe-warm-pool.html)di *Referensi AWS CLI Perintah*. 

### `detach-instances`
<a name="auto-scaling_DetachInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-instances`.

**AWS CLI**  
**Untuk melepaskan instance dari grup Auto Scaling**  
Contoh ini melepaskan instance yang ditentukan dari grup Auto Scaling yang ditentukan.  

```
aws autoscaling detach-instances \
    --instance-ids i-030017cfa84b20135 \
    --auto-scaling-group-name my-asg \
    --should-decrement-desired-capacity
```
Output:  

```
{
    "Activities": [
        {
            "ActivityId": "5091cb52-547a-47ce-a236-c9ccbc2cb2c9",
            "AutoScalingGroupName": "my-asg",
            "Description": "Detaching EC2 instance: i-030017cfa84b20135",
            "Cause": "At 2020-10-31T17:35:04Z instance i-030017cfa84b20135 was detached in response to a user request, shrinking the capacity from 2 to 1.",
            "StartTime": "2020-04-12T15:02:16.179Z",
            "StatusCode": "InProgress",
            "Progress": 50,
            "Details": "{\"Subnet ID\":\"subnet-6194ea3b\",\"Availability Zone\":\"us-west-2c\"}"
        }
    ]
}
```
+  Untuk detail API, lihat [DetachInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/detach-instances.html)di *Referensi AWS CLI Perintah*. 

### `detach-load-balancer-target-groups`
<a name="auto-scaling_DetachLoadBalancerTargetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-load-balancer-target-groups`.

**AWS CLI**  
**Untuk melepaskan grup target penyeimbang beban dari grup Auto Scaling**  
Contoh ini melepaskan grup target penyeimbang beban yang ditentukan dari grup Auto Scaling yang ditentukan.  

```
aws autoscaling detach-load-balancer-target-groups \
    --auto-scaling-group-name my-asg \
    --target-group-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Perintah ini tidak menghasilkan output  
Untuk Informasi Selengkapnya, Lihat [Memasang load balancer to your Auto Scaling group](https://docs.aws.amazon.com/autoscaling/ec2/userguide/attach-load-balancer-asg.html) pada *Amazon EC2 Auto Scaling User Guide*.  
+  Untuk detail API, lihat [DetachLoadBalancerTargetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/detach-load-balancer-target-groups.html)di *Referensi AWS CLI Perintah*. 

### `detach-load-balancers`
<a name="auto-scaling_DetachLoadBalancers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-load-balancers`.

**AWS CLI**  
**Untuk melepaskan Classic Load Balancer dari grup Auto Scaling**  
Contoh ini melepaskan Classic Load Balancer yang ditentukan dari grup Auto Scaling yang ditentukan.  

```
aws autoscaling detach-load-balancers \
    --load-balancer-names my-load-balancer \
    --auto-scaling-group-name my-asg
```
Perintah ini tidak menghasilkan output.  
Untuk Informasi Selengkapnya, Lihat [Memasang load balancer to your Auto Scaling group](https://docs.aws.amazon.com/autoscaling/ec2/userguide/attach-load-balancer-asg.html) pada *Amazon EC2 Auto Scaling User Guide*.  
+  Untuk detail API, lihat [DetachLoadBalancers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/detach-load-balancers.html)di *Referensi AWS CLI Perintah*. 

### `disable-metrics-collection`
<a name="auto-scaling_DisableMetricsCollection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-metrics-collection`.

**AWS CLI**  
**Untuk menonaktifkan koleksi metrik untuk grup Auto Scaling**  
Contoh ini menonaktifkan pengumpulan `GroupDesiredCapacity` metrik untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling disable-metrics-collection \
    --auto-scaling-group-name my-asg \
    --metrics GroupDesiredCapacity
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ CloudWatch Metrik pemantauan untuk grup dan instans Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-instance-monitoring.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [DisableMetricsCollection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/disable-metrics-collection.html)di *Referensi AWS CLI Perintah*. 

### `enable-metrics-collection`
<a name="auto-scaling_EnableMetricsCollection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-metrics-collection`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan pengumpulan metrik untuk grup Auto Scaling**  
Contoh ini memungkinkan pengumpulan data untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling enable-metrics-collection \
    --auto-scaling-group-name my-asg \
    --granularity "1Minute"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ CloudWatch Metrik pemantauan untuk grup dan instans Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-instance-monitoring.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
**Contoh 2: Untuk mengumpulkan data untuk metrik yang ditentukan untuk grup Auto Scaling**  
Untuk mengumpulkan data untuk metrik tertentu, gunakan `--metrics` opsi.  

```
aws autoscaling enable-metrics-collection \
    --auto-scaling-group-name my-asg \
    --metrics GroupDesiredCapacity --granularity "1Minute"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ CloudWatch Metrik pemantauan untuk grup dan instans Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-instance-monitoring.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [EnableMetricsCollection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/enable-metrics-collection.html)di *Referensi AWS CLI Perintah*. 

### `enter-standby`
<a name="auto-scaling_EnterStandby_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enter-standby`.

**AWS CLI**  
**Untuk memindahkan instance ke mode siaga**  
Contoh ini menempatkan instance yang ditentukan ke dalam mode siaga. Ini berguna untuk memperbarui atau memecahkan masalah instance yang saat ini dalam layanan.  

```
aws autoscaling enter-standby \
    --instance-ids i-061c63c5eb45f0416 \
    --auto-scaling-group-name my-asg \
    --should-decrement-desired-capacity
```
Output:  

```
{
    "Activities": [
        {
            "ActivityId": "ffa056b4-6ed3-41ba-ae7c-249dfae6eba1",
            "AutoScalingGroupName": "my-asg",
            "Description": "Moving EC2 instance to Standby: i-061c63c5eb45f0416",
            "Cause": "At 2020-10-31T20:31:00Z instance i-061c63c5eb45f0416 was moved to standby in response to a user request, shrinking the capacity from 1 to 0.",
            "StartTime": "2020-10-31T20:31:00.949Z",
            "StatusCode": "InProgress",
            "Progress": 50,
            "Details": "{\"Subnet ID\":\"subnet-6194ea3b\",\"Availability Zone\":\"us-west-2c\"}"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat Siklus hidup instans [Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/detach-instance-asg.html) di Panduan Pengguna *Penskalaan Otomatis Amazon EC2*.  
+  Untuk detail API, lihat [EnterStandby](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/enter-standby.html)di *Referensi AWS CLI Perintah*. 

### `execute-policy`
<a name="auto-scaling_ExecutePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`execute-policy`.

**AWS CLI**  
**Untuk menjalankan kebijakan penskalaan**  
Contoh ini mengeksekusi kebijakan penskalaan yang dinamai `my-step-scale-out-policy` untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling execute-policy \
    --auto-scaling-group-name my-asg \
    --policy-name  my-step-scale-out-policy \
    --metric-value 95 \
    --breach-threshold 80
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah dan kebijakan penskalaan sederhana](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-scaling-simple-step.html) di Panduan Pengguna *Amazon EC2 Auto* Scaling.  
+  Untuk detail API, lihat [ExecutePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/execute-policy.html)di *Referensi AWS CLI Perintah*. 

### `exit-standby`
<a name="auto-scaling_ExitStandby_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`exit-standby`.

**AWS CLI**  
**Untuk memindahkan instance keluar dari mode siaga**  
Contoh ini memindahkan instance yang ditentukan keluar dari mode siaga.  

```
aws autoscaling exit-standby \
    --instance-ids i-061c63c5eb45f0416 \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "Activities": [
        {
            "ActivityId": "142928e1-a2dc-453a-9b24-b85ad6735928",
            "AutoScalingGroupName": "my-asg",
            "Description": "Moving EC2 instance out of Standby: i-061c63c5eb45f0416",
            "Cause": "At 2020-10-31T20:32:50Z instance i-061c63c5eb45f0416 was moved out of standby in response to a user request, increasing the capacity from 0 to 1.",
            "StartTime": "2020-10-31T20:32:50.222Z",
            "StatusCode": "PreInService",
            "Progress": 30,
            "Details": "{\"Subnet ID\":\"subnet-6194ea3b\",\"Availability Zone\":\"us-west-2c\"}"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menghapus instans sementara dari grup Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-enter-exit-standby.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [ExitStandby](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/exit-standby.html)di *Referensi AWS CLI Perintah*. 

### `put-lifecycle-hook`
<a name="auto-scaling_PutLifecycleHook_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-lifecycle-hook`.

**AWS CLI**  
**Contoh 1: Untuk membuat hook siklus hidup**  
Contoh ini membuat hook siklus hidup yang akan dipanggil pada setiap instance yang baru diluncurkan, dengan batas waktu 4800 detik. Ini berguna untuk menjaga instance dalam status tunggu hingga skrip data pengguna selesai, atau untuk menjalankan fungsi Lambda AWS menggunakan. EventBridge  

```
aws autoscaling put-lifecycle-hook \
    --auto-scaling-group-name my-asg \
    --lifecycle-hook-name my-launch-hook \
    --lifecycle-transition autoscaling:EC2_INSTANCE_LAUNCHING \
    --heartbeat-timeout 4800
```
Perintah ini tidak menghasilkan output. Jika kait siklus hidup dengan nama yang sama sudah ada, itu akan ditimpa oleh kait siklus hidup baru.  
Untuk informasi lebih lanjut, lihat [Kait siklus hidup Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/lifecycle-hooks.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 2: Untuk mengirim pesan email Amazon SNS untuk memberi tahu Anda tentang transisi status instans**  
Contoh ini membuat hook siklus hidup dengan topik Amazon SNS dan peran IAM yang akan digunakan untuk menerima notifikasi saat peluncuran instans.  

```
aws autoscaling put-lifecycle-hook \
    --auto-scaling-group-name my-asg \
    --lifecycle-hook-name my-launch-hook \
    --lifecycle-transition autoscaling:EC2_INSTANCE_LAUNCHING \
    --notification-target-arn arn:aws:sns:us-west-2:123456789012:my-sns-topic \
    --role-arn arn:aws:iam::123456789012:role/my-auto-scaling-role
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Kait siklus hidup Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/lifecycle-hooks.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 3: Untuk mempublikasikan pesan ke antrian Amazon SQS**  
Contoh ini membuat hook siklus hidup yang menerbitkan pesan dengan metadata ke antrean Amazon SQS yang ditentukan.  

```
aws autoscaling put-lifecycle-hook \
    --auto-scaling-group-name my-asg \
    --lifecycle-hook-name my-launch-hook \
    --lifecycle-transition autoscaling:EC2_INSTANCE_LAUNCHING \
    --notification-target-arn arn:aws:sqs:us-west-2:123456789012:my-sqs-queue \
    --role-arn arn:aws:iam::123456789012:role/my-notification-role \
    --notification-metadata "SQS message metadata"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Kait siklus hidup Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/lifecycle-hooks.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [PutLifecycleHook](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/put-lifecycle-hook.html)di *Referensi AWS CLI Perintah*. 

### `put-notification-configuration`
<a name="auto-scaling_PutNotificationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-notification-configuration`.

**AWS CLI**  
**Untuk menambahkan notifikasi**  
Contoh ini menambahkan pemberitahuan yang ditentukan ke grup Auto Scaling yang ditentukan.  

```
aws autoscaling put-notification-configuration \
    --auto-scaling-group-name my-asg \
    --topic-arn arn:aws:sns:us-west-2:123456789012:my-sns-topic \
    --notification-type autoscaling:TEST_NOTIFICATION
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendapatkan notifikasi Amazon SNS ketika grup Auto Scaling Anda menskalakan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ASGettingNotifications.html#as-configure-asg-for-sns) ke dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [PutNotificationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/put-notification-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-scaling-policy`
<a name="auto-scaling_PutScalingPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-scaling-policy`.

**AWS CLI**  
**Untuk menambahkan kebijakan penskalaan pelacakan target ke grup Auto Scaling**  
`put-scaling-policy`Contoh berikut menerapkan kebijakan penskalaan pelacakan target ke grup Auto Scaling yang ditentukan. Output berisi ARNs dan nama dari dua CloudWatch alarm yang dibuat atas nama Anda. Jika kebijakan penskalaan dengan nama yang sama sudah ada, kebijakan penskalaan akan ditimpa oleh kebijakan penskalaan yang baru.  

```
aws autoscaling put-scaling-policy --auto-scaling-group-name my-asg \
  --policy-name alb1000-target-tracking-scaling-policy \
  --policy-type TargetTrackingScaling \
  --target-tracking-configuration file://config.json
```
Isi dari `config.json`:  

```
{
     "TargetValue": 1000.0,
     "PredefinedMetricSpecification": {
          "PredefinedMetricType": "ALBRequestCountPerTarget",
          "ResourceLabel": "app/my-alb/778d41231b141a0f/targetgroup/my-alb-target-group/943f017f100becff"
     }
}
```
Output:  

```
{
     "PolicyARN": "arn:aws:autoscaling:region:account-id:scalingPolicy:228f02c2-c665-4bfd-aaac-8b04080bea3c:autoScalingGroupName/my-asg:policyName/alb1000-target-tracking-scaling-policy",
     "Alarms": [
         {
             "AlarmARN": "arn:aws:cloudwatch:region:account-id:alarm:TargetTracking-my-asg-AlarmHigh-fc0e4183-23ac-497e-9992-691c9980c38e",
             "AlarmName": "TargetTracking-my-asg-AlarmHigh-fc0e4183-23ac-497e-9992-691c9980c38e"
         },
         {
             "AlarmARN": "arn:aws:cloudwatch:region:account-id:alarm:TargetTracking-my-asg-AlarmLow-61a39305-ed0c-47af-bd9e-471a352ee1a2",
             "AlarmName": "TargetTracking-my-asg-AlarmLow-61a39305-ed0c-47af-bd9e-471a352ee1a2"
         }
     ]
 }
```
Untuk contoh lainnya, lihat [Contoh kebijakan penskalaan untuk Antarmuka Baris AWS Perintah (AWS CLI](https://docs.aws.amazon.com/autoscaling/ec2/userguide/examples-scaling-policies.html)) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [PutScalingPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/put-scaling-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-scheduled-update-group-action`
<a name="auto-scaling_PutScheduledUpdateGroupAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-scheduled-update-group-action`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan tindakan terjadwal ke grup Auto Scaling**  
Contoh ini menambahkan tindakan terjadwal yang ditentukan ke grup Auto Scaling yang ditentukan.  

```
aws autoscaling put-scheduled-update-group-action \
    --auto-scaling-group-name my-asg \
    --scheduled-action-name my-scheduled-action \
    --start-time "2023-05-12T08:00:00Z" \
    --min-size 2 \
    --max-size 6 \
    --desired-capacity 4
```
Perintah ini tidak menghasilkan output. Jika tindakan terjadwal dengan nama yang sama sudah ada, itu akan ditimpa oleh tindakan terjadwal yang baru.  
Untuk contoh selengkapnya, lihat [Penskalaan terjadwal](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-scheduled-scaling.html) di Panduan *Pengguna Amazon EC2 Auto* Scaling.  
**Contoh 2: Untuk menentukan jadwal berulang**  
Contoh ini membuat tindakan terjadwal untuk skala pada jadwal berulang yang dijadwalkan untuk dieksekusi pada pukul 00:30 pada tanggal 1 Januari, Juni, dan Desember setiap tahun.  

```
aws autoscaling put-scheduled-update-group-action \
    --auto-scaling-group-name my-asg \
    --scheduled-action-name my-recurring-action \
    --recurrence "30 0 1 1,6,12 *" \
    --min-size 2 \
    --max-size 6 \
    --desired-capacity 4
```
Perintah ini tidak menghasilkan output. Jika tindakan terjadwal dengan nama yang sama sudah ada, itu akan ditimpa oleh tindakan terjadwal yang baru.  
Untuk contoh selengkapnya, lihat [Penskalaan terjadwal](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-scheduled-scaling.html) di Panduan *Pengguna Amazon EC2 Auto* Scaling.  
+  Untuk detail API, lihat [PutScheduledUpdateGroupAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/put-scheduled-update-group-action.html)di *Referensi AWS CLI Perintah*. 

### `put-warm-pool`
<a name="auto-scaling_PutWarmPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-warm-pool`.

**AWS CLI**  
**Untuk membuat kolam hangat**  
Contoh berikut membuat kolam hangat untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling put-warm-pool \
    --auto-scaling-group-name my-asg \
    --min-size 2
```
Perintah ini tidak menghasilkan output. Jika kolam hangat sudah ada, itu akan diperbarui.  
Untuk informasi selengkapnya, lihat [Kolam hangat untuk Penskalaan Otomatis Amazon EC2](https://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-warm-pools.html) *di Panduan Pengguna Penskalaan Otomatis Amazon* EC2.  
+  Untuk detail API, lihat [PutWarmPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/put-warm-pool.html)di *Referensi AWS CLI Perintah*. 

### `record-lifecycle-action-heartbeat`
<a name="auto-scaling_RecordLifecycleActionHeartbeat_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`record-lifecycle-action-heartbeat`.

**AWS CLI**  
**Untuk merekam detak jantung aksi siklus hidup**  
Contoh ini merekam detak jantung aksi siklus hidup untuk menjaga instance dalam status tertunda.  

```
aws autoscaling record-lifecycle-action-heartbeat \
    --lifecycle-hook-name my-launch-hook \
    --auto-scaling-group-name my-asg \
    --lifecycle-action-token bcd2f1b8-9a78-44d3-8a7a-4dd07d7cf635
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Kait siklus hidup Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/lifecycle-hooks.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [RecordLifecycleActionHeartbeat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/record-lifecycle-action-heartbeat.html)di *Referensi AWS CLI Perintah*. 

### `resume-processes`
<a name="auto-scaling_ResumeProcesses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resume-processes`.

**AWS CLI**  
**Untuk melanjutkan proses yang ditangguhkan**  
Contoh ini melanjutkan proses penskalaan tersuspensi yang ditentukan untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling resume-processes \
    --auto-scaling-group-name my-asg \
    --scaling-processes AlarmNotification
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menangguhkan dan melanjutkan proses penskalaan di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-suspend-resume-processes.html) Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [ResumeProcesses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/resume-processes.html)di *Referensi AWS CLI Perintah*. 

### `rollback-instance-refresh`
<a name="auto-scaling_RollbackInstanceRefresh_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rollback-instance-refresh`.

**AWS CLI**  
**Untuk memutar kembali penyegaran instance**  
`rollback-instance-refresh`Contoh berikut mengembalikan penyegaran instans yang sedang berlangsung untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling rollback-instance-refresh \
    --auto-scaling-group-name my-asg
```
Output:  

```
{
    "InstanceRefreshId": "08b91cf7-8fa6-48af-b6a6-d227f40f1b9b"
}
```
Untuk informasi selengkapnya, lihat [Membatalkan perubahan dengan rollback](https://docs.aws.amazon.com/autoscaling/ec2/userguide/instance-refresh-rollback.html) di Panduan Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [RollbackInstanceRefresh](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/rollback-instance-refresh.html)di *Referensi AWS CLI Perintah*. 

### `set-desired-capacity`
<a name="auto-scaling_SetDesiredCapacity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-desired-capacity`.

**AWS CLI**  
**Untuk mengatur kapasitas yang diinginkan untuk grup Auto Scaling**  
Contoh ini menetapkan kapasitas yang diinginkan untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling set-desired-capacity \
    --auto-scaling-group-name my-asg \
    --desired-capacity 2 \
    --honor-cooldown
```
Perintah ini akan kembali ke prompt jika berhasil.  
+  Untuk detail API, lihat [SetDesiredCapacity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/set-desired-capacity.html)di *Referensi AWS CLI Perintah*. 

### `set-instance-health`
<a name="auto-scaling_SetInstanceHealth_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-instance-health`.

**AWS CLI**  
**Untuk mengatur status kesehatan suatu instans**  
Contoh ini menetapkan status kesehatan dari instance yang ditentukan ke`Unhealthy`.  

```
aws autoscaling set-instance-health \
    --instance-id i-061c63c5eb45f0416 \
    --health-status Unhealthy
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetInstanceHealth](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/set-instance-health.html)di *Referensi AWS CLI Perintah*. 

### `set-instance-protection`
<a name="auto-scaling_SetInstanceProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-instance-protection`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan pengaturan perlindungan instance untuk sebuah instance**  
Contoh ini memungkinkan perlindungan instance untuk instance tertentu.  

```
aws autoscaling set-instance-protection \
    --instance-ids i-061c63c5eb45f0416 \
    --auto-scaling-group-name my-asg --protected-from-scale-in
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menonaktifkan pengaturan perlindungan instance untuk sebuah instance**  
Contoh ini menonaktifkan perlindungan instance untuk instance tertentu.  

```
aws autoscaling set-instance-protection \
    --instance-ids i-061c63c5eb45f0416 \
    --auto-scaling-group-name my-asg \
    --no-protected-from-scale-in
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetInstanceProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/set-instance-protection.html)di *Referensi AWS CLI Perintah*. 

### `start-instance-refresh`
<a name="auto-scaling_StartInstanceRefresh_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-instance-refresh`.

**AWS CLI**  
**Contoh 1: Untuk memulai penyegaran instance menggunakan parameter baris perintah**  
`start-instance-refresh`Contoh berikut memulai penyegaran instance menggunakan argumen baris perintah. `preferences`Parameter opsional `InstanceWarmup` menentukan `60` detik dan `MinHealthyPercentage` `50` persen.  

```
aws autoscaling start-instance-refresh \
    --auto-scaling-group-name my-asg \
    --preferences '{"InstanceWarmup": 60, "MinHealthyPercentage": 50}'
```
Output:  

```
{
    "InstanceRefreshId": "08b91cf7-8fa6-48af-b6a6-d227f40f1b9b"
}
```
Untuk informasi selengkapnya, lihat [Memulai penyegaran instans](https://docs.aws.amazon.com/en_us/autoscaling/ec2/userguide/start-instance-refresh.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 2: Untuk memulai penyegaran instance menggunakan file JSON**  
`start-instance-refresh`Contoh berikut memulai penyegaran instance menggunakan file JSON. Anda dapat menentukan grup Auto Scaling dan menentukan konfigurasi dan preferensi yang Anda inginkan dalam file JSON, seperti yang ditunjukkan pada contoh berikut.  

```
aws autoscaling start-instance-refresh \
    --cli-input-json file://config.json
```
Isi dari `config.json`:  

```
{
    "AutoScalingGroupName": "my-asg",
    "DesiredConfiguration": {
        "LaunchTemplate": {
            "LaunchTemplateId": "lt-068f72b729example",
            "Version": "$Default"
        }
    },
    "Preferences": {
        "InstanceWarmup": 60,
        "MinHealthyPercentage": 50,
        "AutoRollback": true,
        "ScaleInProtectedInstances": Ignore,
        "StandbyInstances": Terminate
    }
}
```
Output:  

```
{
    "InstanceRefreshId": "08b91cf7-8fa6-48af-b6a6-d227f40f1b9b"
}
```
Untuk informasi selengkapnya, lihat [Memulai penyegaran instans](https://docs.aws.amazon.com/en_us/autoscaling/ec2/userguide/start-instance-refresh.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [StartInstanceRefresh](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/start-instance-refresh.html)di *Referensi AWS CLI Perintah*. 

### `suspend-processes`
<a name="auto-scaling_SuspendProcesses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`suspend-processes`.

**AWS CLI**  
**Untuk menangguhkan proses Auto Scaling**  
Contoh ini menangguhkan proses penskalaan yang ditentukan untuk grup Auto Scaling yang ditentukan.  

```
aws autoscaling suspend-processes \
    --auto-scaling-group-name my-asg \
    --scaling-processes AlarmNotification
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menangguhkan dan melanjutkan proses penskalaan di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/as-suspend-resume-processes.html) Pengguna *Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [SuspendProcesses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/suspend-processes.html)di *Referensi AWS CLI Perintah*. 

### `terminate-instance-in-auto-scaling-group`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`terminate-instance-in-auto-scaling-group`.

**AWS CLI**  
**Untuk mengakhiri instance dalam grup Auto Scaling**  
Contoh ini mengakhiri instance yang ditentukan dari grup Auto Scaling yang ditentukan tanpa memperbarui ukuran grup. Amazon EC2 Auto Scaling meluncurkan instance pengganti setelah instans yang ditentukan dihentikan.  

```
aws autoscaling terminate-instance-in-auto-scaling-group \
    --instance-id i-061c63c5eb45f0416 \
    --no-should-decrement-desired-capacity
```
Output:  

```
{
    "Activities": [
        {
            "ActivityId": "8c35d601-793c-400c-fcd0-f64a27530df7",
            "AutoScalingGroupName": "my-asg",
            "Description": "Terminating EC2 instance: i-061c63c5eb45f0416",
            "Cause": "",
            "StartTime": "2020-10-31T20:34:25.680Z",
            "StatusCode": "InProgress",
            "Progress": 0,
            "Details": "{\"Subnet ID\":\"subnet-6194ea3b\",\"Availability Zone\":\"us-west-2c\"}"
        }
    ]
}
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/terminate-instance-in-auto-scaling-group.html)di *Referensi AWS CLI Perintah*. 

### `update-auto-scaling-group`
<a name="auto-scaling_UpdateAutoScalingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-auto-scaling-group`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui batas ukuran grup Auto Scaling**  
Contoh ini memperbarui grup Auto Scaling yang ditentukan dengan ukuran minimum 2 dan ukuran maksimum 10.  

```
aws autoscaling update-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --min-size 2 \
    --max-size 10
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyetel batas kapasitas untuk grup Auto Scaling di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/asg-capacity-limits.html) Pengguna *Amazon EC2* Auto Scaling.  
**Contoh 2: Untuk menambahkan pemeriksaan kesehatan Elastic Load Balancing dan menentukan Availability Zone dan subnet mana yang akan digunakan**  
Contoh ini memperbarui grup Auto Scaling yang ditentukan untuk menambahkan pemeriksaan kesehatan Elastic Load Balancing. Perintah ini juga memperbarui nilai `--vpc-zone-identifier` dengan daftar subnet IDs di beberapa Availability Zones.  

```
aws autoscaling update-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --health-check-type ELB \
    --health-check-grace-period 600 \
    --vpc-zone-identifier "subnet-5ea0c127,subnet-6194ea3b,subnet-c934b782"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Elastic Load Balancing dan Amazon EC2 Auto Scaling](https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-load-balancer.html) dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 3: Untuk memperbarui grup penempatan dan kebijakan penghentian**  
Contoh ini memperbarui grup penempatan dan kebijakan penghentian yang akan digunakan.  

```
aws autoscaling update-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --placement-group my-placement-group \
    --termination-policies "OldestInstance"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [grup Auto Scaling di Panduan](https://docs.aws.amazon.com/autoscaling/ec2/userguide/AutoScalingGroup.html) Pengguna *Amazon EC2* Auto Scaling.  
**Contoh 4: Untuk menggunakan versi terbaru dari template peluncuran**  
Contoh ini memperbarui grup Auto Scaling yang ditentukan untuk menggunakan versi terbaru dari template peluncuran yang ditentukan.  

```
aws autoscaling update-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --launch-template LaunchTemplateId=lt-1234567890abcde12,Version='$Latest'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Templat peluncuran](https://docs.aws.amazon.com/autoscaling/ec2/userguide/LaunchTemplates.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 5: Untuk menggunakan versi tertentu dari template peluncuran**  
Contoh ini memperbarui grup Auto Scaling yang ditentukan untuk menggunakan versi tertentu dari template peluncuran, bukan versi terbaru atau default.  

```
aws autoscaling update-auto-scaling-group \
    --auto-scaling-group-name my-asg \
    --launch-template LaunchTemplateName=my-template-for-auto-scaling,Version='2'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Templat peluncuran](https://docs.aws.amazon.com/autoscaling/ec2/userguide/LaunchTemplates.html) di *Panduan Pengguna Amazon EC2 Auto Scaling*.  
**Contoh 6: Untuk menentukan kebijakan instans campuran dan mengaktifkan penyeimbangan kembali kapasitas**  
Contoh ini memperbarui grup Auto Scaling yang ditentukan untuk menggunakan kebijakan instance campuran dan memungkinkan penyeimbangan kembali kapasitas. Struktur ini memungkinkan Anda menentukan grup dengan kapasitas Spot dan Sesuai Permintaan dan menggunakan templat peluncuran yang berbeda untuk arsitektur yang berbeda.  

```
aws autoscaling update-auto-scaling-group \
    --cli-input-json file://~/config.json
```
Isi dari `config.json`:  

```
{
    "AutoScalingGroupName": "my-asg",
    "CapacityRebalance": true,
    "MixedInstancesPolicy": {
        "LaunchTemplate": {
            "LaunchTemplateSpecification": {
                "LaunchTemplateName": "my-launch-template-for-x86",
                "Version": "$Latest"
            },
            "Overrides": [
                {
                    "InstanceType": "c6g.large",
                    "LaunchTemplateSpecification": {
                        "LaunchTemplateName": "my-launch-template-for-arm",
                        "Version": "$Latest"
                    }
                },
                {
                    "InstanceType": "c5.large"
                },
                {
                    "InstanceType": "c5a.large"
                }
            ]
        },
        "InstancesDistribution": {
            "OnDemandPercentageAboveBaseCapacity": 50,
            "SpotAllocationStrategy": "capacity-optimized"
        }
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Grup Auto Scaling dengan beberapa tipe instans dan opsi pembelian](https://docs.aws.amazon.com/autoscaling/ec2/userguide/asg-purchase-options.html) dalam *Panduan Pengguna Amazon EC2 Auto Scaling*.  
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling/update-auto-scaling-group.html)di *Referensi AWS CLI Perintah*. 

# Contoh Paket Auto Scaling menggunakan AWS CLI
<a name="cli_2_auto-scaling-plans_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Paket Auto Scaling AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-scaling-plan`
<a name="auto-scaling-plans_CreateScalingPlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-scaling-plan`.

**AWS CLI**  
**Untuk membuat rencana penskalaan**  
`create-scaling-plan`Contoh berikut membuat rencana penskalaan bernama `my-scaling-plan` menggunakan file JSON yang sudah dibuat (bernama config.json). Struktur rencana penskalaan mencakup instruksi penskalaan untuk grup Auto Scaling bernama. `my-asg` Ini menentukan `TagFilters` properti sebagai sumber aplikasi dan memungkinkan penskalaan prediktif dan penskalaan dinamis.  

```
aws autoscaling-plans create-scaling-plan \
    --scaling-plan-name my-scaling-plan \
    --cli-input-json file://~/config.json
```
Isi `config.json` file:  

```
{
    "ApplicationSource": {
        "TagFilters": [
            {
                "Key": "purpose",
                "Values": [
                    "my-application"
                ]
            }
        ]
    },
    "ScalingInstructions": [
        {
            "ServiceNamespace": "autoscaling",
            "ResourceId": "autoScalingGroup/my-asg",
            "ScalableDimension": "autoscaling:autoScalingGroup:DesiredCapacity",
            "ScheduledActionBufferTime": 300,
            "PredictiveScalingMaxCapacityBehavior": "SetForecastCapacityToMaxCapacity",
            "PredictiveScalingMode": "ForecastAndScale",
            "PredefinedLoadMetricSpecification": {
                "PredefinedLoadMetricType": "ASGTotalCPUUtilization"
            },
            "ScalingPolicyUpdateBehavior": "ReplaceExternalPolicies",
            "MinCapacity": 1,
            "MaxCapacity": 4,
            "TargetTrackingConfigurations": [
                {
                    "PredefinedScalingMetricSpecification": {
                        "PredefinedScalingMetricType": "ASGAverageCPUUtilization"
                    },
                    "TargetValue": 50
                }
            ]
        }
    ]
}
```
Output:  

```
{
"ScalingPlanVersion": 1
}
```
Untuk informasi selengkapnya, lihat [Panduan Pengguna AWS Auto Scaling](https://docs.aws.amazon.com/autoscaling/plans/userguide/what-is-aws-auto-scaling.html).  
+  Untuk detail API, lihat [CreateScalingPlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling-plans/create-scaling-plan.html)di *Referensi AWS CLI Perintah*. 

### `delete-scaling-plan`
<a name="auto-scaling-plans_DeleteScalingPlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-scaling-plan`.

**AWS CLI**  
**Untuk menghapus rencana penskalaan**  
`delete-scaling-plan`Contoh berikut menghapus rencana penskalaan yang ditentukan.  

```
aws autoscaling-plans delete-scaling-plan \
    --scaling-plan-name my-scaling-plan \
    --scaling-plan-version 1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Panduan Pengguna AWS Auto Scaling](https://docs.aws.amazon.com/autoscaling/plans/userguide/what-is-aws-auto-scaling.html).  
+  Untuk detail API, lihat [DeleteScalingPlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling-plans/delete-scaling-plan.html)di *Referensi AWS CLI Perintah*. 

### `describe-scaling-plan-resources`
<a name="auto-scaling-plans_DescribeScalingPlanResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scaling-plan-resources`.

**AWS CLI**  
**Untuk menggambarkan sumber daya yang dapat diskalakan untuk rencana penskalaan**  
`describe-scaling-plan-resources`Contoh berikut menampilkan detail tentang sumber daya tunggal yang dapat diskalakan (grup Auto Scaling) yang terkait dengan rencana penskalaan yang ditentukan.  

```
aws autoscaling-plans describe-scaling-plan-resources \
    --scaling-plan-name my-scaling-plan \
    --scaling-plan-version 1
```
Output:  

```
{
    "ScalingPlanResources": [
        {
            "ScalableDimension": "autoscaling:autoScalingGroup:DesiredCapacity",
            "ScalingPlanVersion": 1,
            "ResourceId": "autoScalingGroup/my-asg",
            "ScalingStatusCode": "Active",
            "ScalingStatusMessage": "Target tracking scaling policies have been applied to the resource.",
            "ScalingPolicies": [
                {
                    "PolicyName": "AutoScaling-my-asg-b1ab65ae-4be3-4634-bd64-c7471662b251",
                    "PolicyType": "TargetTrackingScaling",
                    "TargetTrackingConfiguration": {
                        "PredefinedScalingMetricSpecification": {
                            "PredefinedScalingMetricType": "ALBRequestCountPerTarget",
                            "ResourceLabel": "app/my-alb/f37c06a68c1748aa/targetgroup/my-target-group/6d4ea56ca2d6a18d"
                        },
                        "TargetValue": 40.0
                    }
                }
            ],
            "ServiceNamespace": "autoscaling",
            "ScalingPlanName": "my-scaling-plan"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Apa itu AWS Auto Scaling](https://docs.aws.amazon.com/autoscaling/plans/userguide/what-is-aws-auto-scaling.html)? di *Panduan Pengguna AWS Auto Scaling*.  
+  Untuk detail API, lihat [DescribeScalingPlanResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling-plans/describe-scaling-plan-resources.html)di *Referensi AWS CLI Perintah*. 

### `describe-scaling-plans`
<a name="auto-scaling-plans_DescribeScalingPlans_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scaling-plans`.

**AWS CLI**  
**Untuk menggambarkan rencana penskalaan**  
`describe-scaling-plans`Contoh berikut menampilkan rincian rencana penskalaan yang ditentukan.  

```
aws autoscaling-plans describe-scaling-plans \
    --scaling-plan-names scaling-plan-with-asg-and-ddb
```
Output:  

```
{
    "ScalingPlans": [
        {
            "LastMutatingRequestTime": 1565388443.963,
            "ScalingPlanVersion": 1,
            "CreationTime": 1565388443.963,
            "ScalingInstructions": [
                {
                    "ScalingPolicyUpdateBehavior": "ReplaceExternalPolicies",
                    "ScalableDimension": "autoscaling:autoScalingGroup:DesiredCapacity",
                    "TargetTrackingConfigurations": [
                        {
                            "PredefinedScalingMetricSpecification": {
                                "PredefinedScalingMetricType": "ASGAverageCPUUtilization"
                            },
                            "TargetValue": 50.0,
                            "EstimatedInstanceWarmup": 300,
                            "DisableScaleIn": false
                        }
                    ],
                    "ResourceId": "autoScalingGroup/my-asg",
                    "DisableDynamicScaling": false,
                    "MinCapacity": 1,
                    "ServiceNamespace": "autoscaling",
                    "MaxCapacity": 10
                },
                {
                    "ScalingPolicyUpdateBehavior": "ReplaceExternalPolicies",
                    "ScalableDimension": "dynamodb:table:ReadCapacityUnits",
                    "TargetTrackingConfigurations": [
                        {
                            "PredefinedScalingMetricSpecification": {
                                "PredefinedScalingMetricType": "DynamoDBReadCapacityUtilization"
                            },
                            "TargetValue": 50.0,
                            "ScaleInCooldown": 60,
                            "DisableScaleIn": false,
                            "ScaleOutCooldown": 60
                        }
                    ],
                    "ResourceId": "table/my-table",
                    "DisableDynamicScaling": false,
                    "MinCapacity": 5,
                    "ServiceNamespace": "dynamodb",
                    "MaxCapacity": 10000
                },
                {
                    "ScalingPolicyUpdateBehavior": "ReplaceExternalPolicies",
                    "ScalableDimension": "dynamodb:table:WriteCapacityUnits",
                    "TargetTrackingConfigurations": [
                        {
                            "PredefinedScalingMetricSpecification": {
                                "PredefinedScalingMetricType": "DynamoDBWriteCapacityUtilization"
                            },
                            "TargetValue": 50.0,
                            "ScaleInCooldown": 60,
                            "DisableScaleIn": false,
                            "ScaleOutCooldown": 60
                        }
                    ],
                    "ResourceId": "table/my-table",
                    "DisableDynamicScaling": false,
                    "MinCapacity": 5,
                    "ServiceNamespace": "dynamodb",
                    "MaxCapacity": 10000
                }
            ],
            "ApplicationSource": {
                "TagFilters": [
                    {
                        "Values": [
                            "my-application-id"
                        ],
                        "Key": "application"
                    }
                ]
            },
            "StatusStartTime": 1565388455.836,
            "ScalingPlanName": "scaling-plan-with-asg-and-ddb",
            "StatusMessage": "Scaling plan has been created and applied to all resources.",
            "StatusCode": "Active"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Apa itu AWS Auto Scaling](https://docs.aws.amazon.com/autoscaling/plans/userguide/what-is-aws-auto-scaling.html)? di *Panduan Pengguna AWS Auto Scaling*.  
+  Untuk detail API, lihat [DescribeScalingPlans](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling-plans/describe-scaling-plans.html)di *Referensi AWS CLI Perintah*. 

### `get-scaling-plan-resource-forecast-data`
<a name="auto-scaling-plans_GetScalingPlanResourceForecastData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-scaling-plan-resource-forecast-data`.

**AWS CLI**  
**Untuk mengambil data perkiraan beban**  
Contoh ini mengambil data perkiraan beban untuk sumber daya yang dapat diskalakan (grup Auto Scaling) yang terkait dengan rencana penskalaan yang ditentukan.  

```
aws autoscaling-plans get-scaling-plan-resource-forecast-data \
    --scaling-plan-name my-scaling-plan \
    --scaling-plan-version 1 \
    --service-namespace "autoscaling" \
    --resource-id autoScalingGroup/my-asg \
    --scalable-dimension "autoscaling:autoScalingGroup:DesiredCapacity" \
    --forecast-data-type "LoadForecast" \
    --start-time "2019-08-30T00:00:00Z" \
    --end-time "2019-09-06T00:00:00Z"
```
Output:  

```
{
    "Datapoints": [...]
}
```
Untuk informasi selengkapnya, lihat [Apa Itu AWS Auto Scaling di Panduan](https://docs.aws.amazon.com/autoscaling/plans/userguide/what-is-aws-auto-scaling.html) Pengguna *Auto AWS Scaling*.  
+  Untuk detail API, lihat [GetScalingPlanResourceForecastData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling-plans/get-scaling-plan-resource-forecast-data.html)di *Referensi AWS CLI Perintah*. 

### `update-scaling-plan`
<a name="auto-scaling-plans_UpdateScalingPlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-scaling-plan`.

**AWS CLI**  
**Untuk memperbarui rencana penskalaan**  
`update-scaling-plan`Contoh berikut memodifikasi metrik penskalaan untuk grup Auto Scaling dalam rencana penskalaan yang ditentukan.  

```
aws autoscaling-plans update-scaling-plan \
    --scaling-plan-name my-scaling-plan \
    --scaling-plan-version 1 \
    --scaling-instructions '{"ScalableDimension":"autoscaling:autoScalingGroup:DesiredCapacity","ResourceId":"autoScalingGroup/my-asg","ServiceNamespace":"autoscaling","TargetTrackingConfigurations":[{"PredefinedScalingMetricSpecification": {"PredefinedScalingMetricType":"ALBRequestCountPerTarget","ResourceLabel":"app/my-alb/f37c06a68c1748aa/targetgroup/my-target-group/6d4ea56ca2d6a18d"},"TargetValue":40.0}],"MinCapacity": 1,"MaxCapacity": 10}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Apa itu AWS Auto Scaling](https://docs.aws.amazon.com/autoscaling/plans/userguide/what-is-aws-auto-scaling.html)? di *Panduan Pengguna AWS Auto Scaling*.  
+  Untuk detail API, lihat [UpdateScalingPlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/autoscaling-plans/update-scaling-plan.html)di *Referensi AWS CLI Perintah*. 

# AWS Backup contoh menggunakan AWS CLI
<a name="cli_2_backup_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Backup.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-backup-plan`
<a name="backup_CreateBackupPlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-backup-plan`.

**AWS CLI**  
**Untuk membuat rencana cadangan**  
`create-backup-plan`Contoh berikut membuat rencana cadangan yang ditentukan dengan retensi 35 hari.  

```
aws backup create-backup-plan \
--backup-plan "{\"BackupPlanName\":\"Example-Backup-Plan\",\"Rules\":[{\"RuleName\":\"DailyBackups\",\"ScheduleExpression\":\"cron(0 5 ? * * *)\",\"StartWindowMinutes\":480,\"TargetBackupVaultName\":\"Default\",\"Lifecycle\":{\"DeleteAfterDays\":35}}]}"
```
Output:  

```
{
    "BackupPlanId": "1fa3895c-a7f5-484a-a371-2dd6a1a9f729",
    "BackupPlanArn": "arn:aws:backup:us-west-2:123456789012:backup-plan:1fa3895c-a7f5-484a-a371-2dd6a1a9f729",
    "CreationDate": 1568928754.747,
    "VersionId": "ZjQ2ZTI5YWQtZDg5Yi00MzYzLWJmZTAtMDI1MzhlMDhjYjEz"
}
```
Untuk informasi selengkapnya, lihat [Membuat Rencana Cadangan](https://docs.aws.amazon.com/aws-backup/latest/devguide/creating-a-backup-plan.html) di *Panduan Pengembang AWS Cadangan*.  
+  Untuk detail API, lihat [CreateBackupPlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/backup/create-backup-plan.html)di *Referensi AWS CLI Perintah*. 

### `create-backup-vault`
<a name="backup_CreateBackupVault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-backup-vault`.

**AWS CLI**  
**Untuk membuat brankas cadangan**  
`create-backup-vault`Contoh berikut membuat brankas cadangan dengan nama yang ditentukan.  

```
aws backup create-backup-vault
    --backup-vault-name sample-vault
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "BackupVaultName": "sample-vault",
    "BackupVaultArn": "arn:aws:backup:us-west-2:123456789012:backup-vault:sample-vault",
    "CreationDate": 1568928338.385
}
```
Untuk informasi selengkapnya, lihat [Membuat Brankas Cadangan](https://docs.aws.amazon.com/aws-backup/latest/devguide/creating-a-vault.html) di *Panduan Pengembang AWS Cadangan*.  
+  Untuk detail API, lihat [CreateBackupVault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/backup/create-backup-vault.html)di *Referensi AWS CLI Perintah*. 

### `get-backup-plan-from-template`
<a name="backup_GetBackupPlanFromTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-backup-plan-from-template`.

**AWS CLI**  
**Untuk mendapatkan rencana cadangan yang ada dari template**  
`get-backup-plan-from-template`Contoh berikut mendapatkan rencana cadangan yang ada dari template yang menentukan cadangan harian dengan retensi 35 hari.  

```
aws backup get-backup-plan-from-template \
    --backup-plan-template-id "87c0c1ef-254d-4180-8fef-2e76a2c38aaa"
```
Output:  

```
{
    "BackupPlanDocument": {
        "Rules": [
            {
                "RuleName": "DailyBackups",
                "ScheduleExpression": "cron(0 5 ? * * *)",
                "StartWindowMinutes": 480,
                "Lifecycle": {
                    "DeleteAfterDays": 35
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Rencana Cadangan](https://docs.aws.amazon.com/aws-backup/latest/devguide/creating-a-backup-plan.html) di *Panduan Pengembang AWS Cadangan*.  
+  Untuk detail API, lihat [GetBackupPlanFromTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/backup/get-backup-plan-from-template.html)di *Referensi AWS CLI Perintah*. 

### `get-backup-plan`
<a name="backup_GetBackupPlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-backup-plan`.

**AWS CLI**  
**Untuk mendapatkan rincian rencana cadangan**  
`get-backup-plan`Contoh berikut menampilkan rincian rencana cadangan yang ditentukan.  

```
aws backup get-backup-plan \
    --backup-plan-id "fcbf5d8f-bd77-4f3a-9c97-f24fb3d373a5"
```
Output:  

```
{
    "BackupPlan": {
        "BackupPlanName": "Example-Backup-Plan",
        "Rules": [
            {
                "RuleName": "DailyBackups",
                "TargetBackupVaultName": "Default",
                "ScheduleExpression": "cron(0 5 ? * * *)",
                "StartWindowMinutes": 480,
                "CompletionWindowMinutes": 10080,
                "Lifecycle": {
                    "DeleteAfterDays": 35
                },
                "RuleId": "70e0ccdc-e9df-4e83-82ad-c1e5a9471cc3"
            }
        ]
    },
    "BackupPlanId": "fcbf5d8f-bd77-4f3a-9c97-f24fb3d373a5",
    "BackupPlanArn": "arn:aws:backup:us-west-2:123456789012:backup-plan:fcbf5d8f-bd77-4f3a-9c97-f24fb3d373a5",
    "VersionId": "NjQ2ZTZkODktMGVhNy00MmQ0LWE4YjktZTkwNTQ3OTkyYTcw",
    "CreationDate": 1568926091.57
}
```
Untuk informasi selengkapnya, lihat [Membuat Rencana Cadangan](https://docs.aws.amazon.com/aws-backup/latest/devguide/creating-a-backup-plan.html) di *Panduan Pengembang AWS Cadangan*.  
+  Untuk detail API, lihat [GetBackupPlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/backup/get-backup-plan.html)di *Referensi AWS CLI Perintah*. 

### `list-backup-jobs`
<a name="backup_ListBackupJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-backup-jobs`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar semua pekerjaan cadangan**  
`list-backup-jobs`Contoh berikut mengembalikan metadata tentang pekerjaan cadangan Anda di akun Anda AWS .  

```
aws backup list-backup-jobs
```
Output:  

```
{
    "BackupJobs": [
        {
            "BackupJobId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "BackupVaultName": "Default",
            "BackupVaultArn": "arn:aws:backup:us-west-2:123456789012:backup-vault:Default",
            "ResourceArn": "arn:aws:ec2:us-west-2:123456789012:instance/i-12345678901234567",
            "CreationDate": 1600721892.929,
            "State": "CREATED",
            "PercentDone": "0.0",
            "IamRoleArn": "arn:aws:iam::123456789012:role/service-role/AWSBackupDefaultServiceRole",
            "StartBy": 1600725492.929,
            "ResourceType": "EC2"
        },
        {
            "BackupJobId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "BackupVaultName": "Default",
            "BackupVaultArn": "arn:aws:backup:us-west-2:123456789012:backup-vault:Default",
            "RecoveryPointArn": "arn:aws:backup:us-west-2:123456789012:recovery-point:a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "ResourceArn": "arn:aws:elasticfilesystem:us-west-2:123456789012:file-system/fs-12345678",
            "CreationDate": 1600721724.77,
            "CompletionDate": 1600721744.488,
            "State": "COMPLETED",
            "PercentDone": "100.0",
            "BackupSizeInBytes": 71,
            "IamRoleArn": "arn:aws:iam::123456789012:role/service-role/AWSBackupDefaultServiceRole",
            "StartBy": 1600725324.77,
            "ResourceType": "EFS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Cadangan](https://https://docs.aws.amazon.com/aws-backup/latest/devguide/creating-a-backup.html) di *Panduan Pengembang AWS Cadangan*.  
**Contoh 2: Untuk daftar pekerjaan cadangan yang telah selesai**  
`list-backup-jobs`Contoh berikut mengembalikan metadata tentang pekerjaan pencadangan Anda yang telah selesai di akun Anda AWS .  

```
aws backup list-backup-jobs \
    --by-state COMPLETED
```
Output:  

```
{
    "BackupJobs": [
        {
            "BackupJobId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "BackupVaultName": "Default",
            "BackupVaultArn": "arn:aws:backup:us-west-2:123456789012:backup-vault:Default",
            "RecoveryPointArn": "arn:aws:backup:us-west-2:123456789012:recovery-point:a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "ResourceArn": "arn:aws:elasticfilesystem:us-west-2:123456789012:file-system/fs-12345678",
            "CreationDate": 1600721724.77,
            "CompletionDate": 1600721744.488,
            "State": "COMPLETED",
            "PercentDone": "100.0",
            "BackupSizeInBytes": 71,
            "IamRoleArn": "arn:aws:iam::123456789012:role/service-role/AWSBackupDefaultServiceRole",
            "StartBy": 1600725324.77,
            "ResourceType": "EFS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Cadangan](https://https://docs.aws.amazon.com/aws-backup/latest/devguide/creating-a-backup.html) di *Panduan Pengembang AWS Cadangan*.  
+  Untuk detail API, lihat [ListBackupJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/backup/list-backup-jobs.html)di *Referensi AWS CLI Perintah*. 

# AWS Batch contoh menggunakan AWS CLI
<a name="cli_2_batch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Batch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `cancel-job`
<a name="batch_CancelJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-job`.

**AWS CLI**  
**Untuk membatalkan pekerjaan**  
Contoh ini membatalkan pekerjaan dengan ID pekerjaan yang ditentukan.  
Perintah:  

```
aws batch cancel-job --job-id bcf0b186-a532-4122-842e-2ccab8d54efb --reason "Cancelling job."
```
+  Untuk detail API, lihat [CancelJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/cancel-job.html)di *Referensi AWS CLI Perintah*. 

### `create-compute-environment`
<a name="batch_CreateComputeEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-compute-environment`.

**AWS CLI**  
**Untuk membuat lingkungan komputasi terkelola dengan instans On-Demand**  
Contoh ini menciptakan lingkungan komputasi terkelola dengan jenis instans C4 tertentu yang diluncurkan sesuai permintaan. Lingkungan komputasi disebut OnDemand C4.  
Perintah:  

```
aws batch create-compute-environment --cli-input-json file://<path_to_json_file>/C4OnDemand.json
```
Format file JSON:  

```
{
  "computeEnvironmentName": "C4OnDemand",
  "type": "MANAGED",
  "state": "ENABLED",
  "computeResources": {
    "type": "EC2",
    "minvCpus": 0,
    "maxvCpus": 128,
    "desiredvCpus": 48,
    "instanceTypes": [
      "c4.large",
      "c4.xlarge",
      "c4.2xlarge",
      "c4.4xlarge",
      "c4.8xlarge"
    ],
    "subnets": [
      "subnet-220c0e0a",
      "subnet-1a95556d",
      "subnet-978f6dce"
    ],
    "securityGroupIds": [
      "sg-cf5093b2"
    ],
    "ec2KeyPair": "id_rsa",
    "instanceRole": "ecsInstanceRole",
    "tags": {
      "Name": "Batch Instance - C4OnDemand"
    }
  },
  "serviceRole": "arn:aws:iam::012345678910:role/AWSBatchServiceRole"
}
```
Output:  

```
{
    "computeEnvironmentName": "C4OnDemand",
    "computeEnvironmentArn": "arn:aws:batch:us-east-1:012345678910:compute-environment/C4OnDemand"
}
```
**Untuk membuat lingkungan komputasi terkelola dengan Instans Spot**  
Contoh ini menciptakan lingkungan komputasi terkelola dengan tipe instans M4 yang diluncurkan saat harga tawaran Spot berada pada atau di bawah 20% dari harga Sesuai Permintaan untuk jenis instans. Lingkungan komputasi disebut M4Spot.  
Perintah:  

```
aws batch create-compute-environment --cli-input-json file://<path_to_json_file>/M4Spot.json
```
Format file JSON:  

```
{
  "computeEnvironmentName": "M4Spot",
  "type": "MANAGED",
  "state": "ENABLED",
  "computeResources": {
    "type": "SPOT",
    "spotIamFleetRole": "arn:aws:iam::012345678910:role/aws-ec2-spot-fleet-role",
    "minvCpus": 0,
    "maxvCpus": 128,
    "desiredvCpus": 4,
    "instanceTypes": [
      "m4"
    ],
    "bidPercentage": 20,
    "subnets": [
      "subnet-220c0e0a",
      "subnet-1a95556d",
      "subnet-978f6dce"
    ],
    "securityGroupIds": [
      "sg-cf5093b2"
    ],
    "ec2KeyPair": "id_rsa",
    "instanceRole": "ecsInstanceRole",
    "tags": {
      "Name": "Batch Instance - M4Spot"
    }
  },
  "serviceRole": "arn:aws:iam::012345678910:role/AWSBatchServiceRole"
}
```
Output:  

```
{
    "computeEnvironmentName": "M4Spot",
    "computeEnvironmentArn": "arn:aws:batch:us-east-1:012345678910:compute-environment/M4Spot"
}
```
+  Untuk detail API, lihat [CreateComputeEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/create-compute-environment.html)di *Referensi AWS CLI Perintah*. 

### `create-job-queue`
<a name="batch_CreateJobQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-job-queue`.

**AWS CLI**  
**Untuk membuat antrian pekerjaan prioritas rendah dengan satu lingkungan komputasi**  
Contoh ini membuat antrean pekerjaan yang disebut LowPriority yang menggunakan lingkungan komputasi M4Spot.  
Perintah:  

```
aws batch create-job-queue --cli-input-json file://<path_to_json_file>/LowPriority.json
```
Format file JSON:  

```
{
  "jobQueueName": "LowPriority",
  "state": "ENABLED",
  "priority": 10,
  "computeEnvironmentOrder": [
    {
      "order": 1,
      "computeEnvironment": "M4Spot"
    }
  ]
}
```
Output:  

```
{
    "jobQueueArn": "arn:aws:batch:us-east-1:012345678910:job-queue/LowPriority",
    "jobQueueName": "LowPriority"
}
```
**Untuk membuat antrian pekerjaan prioritas tinggi dengan dua lingkungan komputasi**  
Contoh ini membuat antrian pekerjaan HighPriority yang disebut yang menggunakan lingkungan OnDemand komputasi C4 dengan urutan 1 dan lingkungan komputasi M4Spot dengan urutan 2. Penjadwal akan mencoba menempatkan pekerjaan di lingkungan OnDemand komputasi C4 terlebih dahulu.  
Perintah:  

```
aws batch create-job-queue --cli-input-json file://<path_to_json_file>/HighPriority.json
```
Format file JSON:  

```
{
  "jobQueueName": "HighPriority",
  "state": "ENABLED",
  "priority": 1,
  "computeEnvironmentOrder": [
    {
      "order": 1,
      "computeEnvironment": "C4OnDemand"
    },
    {
      "order": 2,
      "computeEnvironment": "M4Spot"
    }
  ]
}
```
Output:  

```
{
    "jobQueueArn": "arn:aws:batch:us-east-1:012345678910:job-queue/HighPriority",
    "jobQueueName": "HighPriority"
}
```
+  Untuk detail API, lihat [CreateJobQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/create-job-queue.html)di *Referensi AWS CLI Perintah*. 

### `delete-compute-environment`
<a name="batch_DeleteComputeEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-compute-environment`.

**AWS CLI**  
**Untuk menghapus lingkungan komputasi**  
Contoh ini menghapus lingkungan OnDemand komputasi P2.  
Perintah:  

```
aws batch delete-compute-environment --compute-environment P2OnDemand
```
+  Untuk detail API, lihat [DeleteComputeEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/delete-compute-environment.html)di *Referensi AWS CLI Perintah*. 

### `delete-job-queue`
<a name="batch_DeleteJobQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-job-queue`.

**AWS CLI**  
**Untuk menghapus antrean pekerjaan**  
Contoh ini menghapus antrian pekerjaan GPGPU.  
Perintah:  

```
aws batch delete-job-queue --job-queue GPGPU
```
+  Untuk detail API, lihat [DeleteJobQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/delete-job-queue.html)di *Referensi AWS CLI Perintah*. 

### `deregister-job-definition`
<a name="batch_DeregisterJobDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-job-definition`.

**AWS CLI**  
**Untuk membatalkan pendaftaran definisi pekerjaan**  
Contoh ini membatalkan pendaftaran definisi pekerjaan yang disebut sleep10.  
Perintah:  

```
aws batch deregister-job-definition --job-definition sleep10
```
+  Untuk detail API, lihat [DeregisterJobDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/deregister-job-definition.html)di *Referensi AWS CLI Perintah*. 

### `describe-compute-environments`
<a name="batch_DescribeComputeEnvironments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-compute-environments`.

**AWS CLI**  
**Untuk menggambarkan lingkungan komputasi**  
Contoh ini menjelaskan lingkungan OnDemand komputasi P2.  
Perintah:  

```
aws batch describe-compute-environments --compute-environments P2OnDemand
```
Output:  

```
{
    "computeEnvironments": [
        {
            "status": "VALID",
            "serviceRole": "arn:aws:iam::012345678910:role/AWSBatchServiceRole",
            "computeEnvironmentArn": "arn:aws:batch:us-east-1:012345678910:compute-environment/P2OnDemand",
            "computeResources": {
                "subnets": [
                    "subnet-220c0e0a",
                    "subnet-1a95556d",
                    "subnet-978f6dce"
                ],
                "tags": {
                    "Name": "Batch Instance - P2OnDemand"
                },
                "desiredvCpus": 48,
                "minvCpus": 0,
                "instanceTypes": [
                    "p2"
                ],
                "securityGroupIds": [
                    "sg-cf5093b2"
                ],
                "instanceRole": "ecsInstanceRole",
                "maxvCpus": 128,
                "type": "EC2",
                "ec2KeyPair": "id_rsa"
            },
            "statusReason": "ComputeEnvironment Healthy",
            "ecsClusterArn": "arn:aws:ecs:us-east-1:012345678910:cluster/P2OnDemand_Batch_2c06f29d-d1fe-3a49-879d-42394c86effc",
            "state": "ENABLED",
            "computeEnvironmentName": "P2OnDemand",
            "type": "MANAGED"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeComputeEnvironments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/describe-compute-environments.html)di *Referensi AWS CLI Perintah*. 

### `describe-job-definitions`
<a name="batch_DescribeJobDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-job-definitions`.

**AWS CLI**  
**Untuk menggambarkan definisi pekerjaan aktif**  
Contoh ini menjelaskan semua definisi pekerjaan aktif Anda.  
Perintah:  

```
aws batch describe-job-definitions --status ACTIVE
```
Output:  

```
{
    "jobDefinitions": [
        {
            "status": "ACTIVE",
            "jobDefinitionArn": "arn:aws:batch:us-east-1:012345678910:job-definition/sleep60:1",
            "containerProperties": {
                "mountPoints": [],
                "parameters": {},
                "image": "busybox",
                "environment": {},
                "vcpus": 1,
                "command": [
                    "sleep",
                    "60"
                ],
                "volumes": [],
                "memory": 128,
                "ulimits": []
            },
            "type": "container",
            "jobDefinitionName": "sleep60",
            "revision": 1
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeJobDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/describe-job-definitions.html)di *Referensi AWS CLI Perintah*. 

### `describe-job-queues`
<a name="batch_DescribeJobQueues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-job-queues`.

**AWS CLI**  
**Untuk menggambarkan antrian pekerjaan**  
Contoh ini menjelaskan antrian HighPriority pekerjaan.  
Perintah:  

```
aws batch describe-job-queues --job-queues HighPriority
```
Output:  

```
{
    "jobQueues": [
        {
            "status": "VALID",
            "jobQueueArn": "arn:aws:batch:us-east-1:012345678910:job-queue/HighPriority",
            "computeEnvironmentOrder": [
                {
                    "computeEnvironment": "arn:aws:batch:us-east-1:012345678910:compute-environment/C4OnDemand",
                    "order": 1
                }
            ],
            "statusReason": "JobQueue Healthy",
            "priority": 1,
            "state": "ENABLED",
            "jobQueueName": "HighPriority"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeJobQueues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/describe-job-queues.html)di *Referensi AWS CLI Perintah*. 

### `describe-jobs`
<a name="batch_DescribeJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-jobs`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan**  
`describe-jobs`Contoh berikut menjelaskan pekerjaan dengan ID pekerjaan yang ditentukan.  

```
aws batch describe-jobs \
    --jobs bcf0b186-a532-4122-842e-2ccab8d54efb
```
Output:  

```
{
    "jobs": [
        {
            "status": "SUBMITTED",
            "container": {
                "mountPoints": [],
                "image": "busybox",
                "environment": [],
                "vcpus": 1,
                "command": [
                    "sleep",
                    "60"
                ],
                "volumes": [],
                "memory": 128,
                "ulimits": []
            },
            "parameters": {},
            "jobDefinition": "arn:aws:batch:us-east-1:012345678910:job-definition/sleep60:1",
            "jobQueue": "arn:aws:batch:us-east-1:012345678910:job-queue/HighPriority",
            "jobId": "bcf0b186-a532-4122-842e-2ccab8d54efb",
            "dependsOn": [],
            "jobName": "example",
            "createdAt": 1480483387803
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/describe-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-jobs`
<a name="batch_ListJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-jobs`.

**AWS CLI**  
**Untuk daftar pekerjaan yang sedang berjalan**  
Contoh ini mencantumkan pekerjaan yang sedang berjalan dalam antrian HighPriority pekerjaan.  
Perintah:  

```
aws batch list-jobs --job-queue HighPriority
```
Output:  

```
{
    "jobSummaryList": [
        {
            "jobName": "example",
            "jobId": "e66ff5fd-a1ff-4640-b1a2-0b0a142f49bb"
        }
    ]
}
```
**Untuk daftar pekerjaan yang dikirimkan**  
Contoh ini mencantumkan pekerjaan dalam antrian HighPriority pekerjaan yang berada dalam status pekerjaan YANG DIKIRIMKAN.  
Perintah:  

```
aws batch list-jobs --job-queue HighPriority --job-status SUBMITTED
```
Output:  

```
{
    "jobSummaryList": [
        {
            "jobName": "example",
            "jobId": "68f0c163-fbd4-44e6-9fd1-25b14a434786"
        }
    ]
}
```
+  Untuk detail API, lihat [ListJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/list-jobs.html)di *Referensi AWS CLI Perintah*. 

### `register-job-definition`
<a name="batch_RegisterJobDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-job-definition`.

**AWS CLI**  
**Untuk mendaftarkan definisi pekerjaan**  
Contoh ini mendaftarkan definisi pekerjaan untuk pekerjaan kontainer sederhana.  
Perintah:  

```
aws batch register-job-definition --job-definition-name sleep30 --type container --container-properties '{ "image": "busybox", "vcpus": 1, "memory": 128, "command": [ "sleep", "30"]}'
```
Output:  

```
{
    "jobDefinitionArn": "arn:aws:batch:us-east-1:012345678910:job-definition/sleep30:1",
    "jobDefinitionName": "sleep30",
    "revision": 1
}
```
+  Untuk detail API, lihat [RegisterJobDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/register-job-definition.html)di *Referensi AWS CLI Perintah*. 

### `submit-job`
<a name="batch_SubmitJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`submit-job`.

**AWS CLI**  
**Untuk mengirimkan pekerjaan**  
Contoh ini mengirimkan pekerjaan kontainer sederhana yang disebut contoh ke antrian HighPriority pekerjaan.  
Perintah:  

```
aws batch submit-job --job-name example --job-queue HighPriority  --job-definition sleep60
```
Output:  

```
{
    "jobName": "example",
    "jobId": "876da822-4198-45f2-a252-6cea32512ea8"
}
```
+  Untuk detail API, lihat [SubmitJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/submit-job.html)di *Referensi AWS CLI Perintah*. 

### `terminate-job`
<a name="batch_TerminateJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`terminate-job`.

**AWS CLI**  
**Untuk mengakhiri pekerjaan**  
Contoh ini mengakhiri pekerjaan dengan ID pekerjaan yang ditentukan.  
Perintah:  

```
aws batch terminate-job --job-id 61e743ed-35e4-48da-b2de-5c8333821c84 --reason "Terminating job."
```
+  Untuk detail API, lihat [TerminateJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/terminate-job.html)di *Referensi AWS CLI Perintah*. 

### `update-compute-environment`
<a name="batch_UpdateComputeEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-compute-environment`.

**AWS CLI**  
**Untuk memperbarui lingkungan komputasi**  
Contoh ini menonaktifkan lingkungan OnDemand komputasi P2 sehingga dapat dihapus.  
Perintah:  

```
aws batch update-compute-environment --compute-environment P2OnDemand --state DISABLED
```
Output:  

```
{
    "computeEnvironmentName": "P2OnDemand",
    "computeEnvironmentArn": "arn:aws:batch:us-east-1:012345678910:compute-environment/P2OnDemand"
}
```
+  Untuk detail API, lihat [UpdateComputeEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/update-compute-environment.html)di *Referensi AWS CLI Perintah*. 

### `update-job-queue`
<a name="batch_UpdateJobQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-job-queue`.

**AWS CLI**  
**Untuk memperbarui antrian pekerjaan**  
Contoh ini menonaktifkan antrian pekerjaan sehingga dapat dihapus.  
Perintah:  

```
aws batch update-job-queue --job-queue GPGPU --state DISABLED
```
Output:  

```
{
    "jobQueueArn": "arn:aws:batch:us-east-1:012345678910:job-queue/GPGPU",
    "jobQueueName": "GPGPU"
}
```
+  Untuk detail API, lihat [UpdateJobQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/batch/update-job-queue.html)di *Referensi AWS CLI Perintah*. 

# AWS Budgets contoh menggunakan AWS CLI
<a name="cli_2_budgets_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Budgets.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-budget`
<a name="budgets_CreateBudget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-budget`.

**AWS CLI**  
**Untuk membuat anggaran Biaya dan Penggunaan**  
`create-budget`Perintah berikut membuat anggaran Biaya dan Penggunaan.  

```
aws budgets create-budget \
    --account-id 111122223333 \
    --budget file://budget.json \
    --notifications-with-subscribers file://notifications-with-subscribers.json
```
Isi dari `budget.json`:  

```
{
    "BudgetLimit": {
        "Amount": "100",
        "Unit": "USD"
    },
    "BudgetName": "Example Tag Budget",
    "BudgetType": "COST",
    "CostFilters": {
        "TagKeyValue": [
            "user:Key$value1",
            "user:Key$value2"
        ]
    },
    "CostTypes": {
        "IncludeCredit": true,
        "IncludeDiscount": true,
        "IncludeOtherSubscription": true,
        "IncludeRecurring": true,
        "IncludeRefund": true,
        "IncludeSubscription": true,
        "IncludeSupport": true,
        "IncludeTax": true,
        "IncludeUpfront": true,
        "UseBlended": false
    },
    "TimePeriod": {
        "Start": 1477958399,
        "End": 3706473600
    },
    "TimeUnit": "MONTHLY"
}
```
Isi dari `notifications-with-subscribers.json`:  

```
[
    {
        "Notification": {
            "ComparisonOperator": "GREATER_THAN",
            "NotificationType": "ACTUAL",
            "Threshold": 80,
            "ThresholdType": "PERCENTAGE"
        },
        "Subscribers": [
            {
                "Address": "example@example.com",
                "SubscriptionType": "EMAIL"
            }
        ]
    }
]
```
+  Untuk detail API, lihat [CreateBudget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/create-budget.html)di *Referensi AWS CLI Perintah*. 

### `create-notification`
<a name="budgets_CreateNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-notification`.

**AWS CLI**  
**Untuk membuat pemberitahuan untuk anggaran Biaya dan Penggunaan yang ditentukan**  
Contoh ini membuat pemberitahuan untuk anggaran Biaya dan Penggunaan yang ditentukan.  
Perintah:  

```
aws budgets create-notification --account-id 111122223333 --budget-name "Example Budget" --notification NotificationType=ACTUAL,ComparisonOperator=GREATER_THAN,Threshold=80,ThresholdType=PERCENTAGE --subscriber SubscriptionType=EMAIL,Address=example@example.com
```
+  Untuk detail API, lihat [CreateNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/create-notification.html)di *Referensi AWS CLI Perintah*. 

### `create-subscriber`
<a name="budgets_CreateSubscriber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subscriber`.

**AWS CLI**  
**Untuk membuat pelanggan untuk pemberitahuan yang terkait dengan anggaran Biaya dan Penggunaan**  
Contoh ini membuat pelanggan untuk pemberitahuan yang ditentukan.  
Perintah:  

```
aws budgets create-subscriber --account-id 111122223333 --budget-name "Example Budget" --notification NotificationType=ACTUAL,ComparisonOperator=GREATER_THAN,Threshold=80,ThresholdType=PERCENTAGE --subscriber SubscriptionType=EMAIL,Address=example@example.com
```
+  Untuk detail API, lihat [CreateSubscriber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/create-subscriber.html)di *Referensi AWS CLI Perintah*. 

### `delete-budget`
<a name="budgets_DeleteBudget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-budget`.

**AWS CLI**  
**Untuk menghapus anggaran Biaya dan Penggunaan**  
Contoh ini menghapus anggaran Biaya dan Penggunaan yang ditentukan.  
Perintah:  

```
aws budgets delete-budget --account-id 111122223333 --budget-name "Example Budget"
```
+  Untuk detail API, lihat [DeleteBudget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/delete-budget.html)di *Referensi AWS CLI Perintah*. 

### `delete-notification`
<a name="budgets_DeleteNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-notification`.

**AWS CLI**  
**Untuk menghapus notifikasi dari anggaran**  
Contoh ini menghapus pemberitahuan yang ditentukan dari anggaran yang ditentukan.  
Perintah:  

```
aws budgets delete-notification --account-id 111122223333 --budget-name "Example Budget" --notification NotificationType=ACTUAL,ComparisonOperator=GREATER_THAN,Threshold=80,ThresholdType=PERCENTAGE
```
+  Untuk detail API, lihat [DeleteNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/delete-notification.html)di *Referensi AWS CLI Perintah*. 

### `delete-subscriber`
<a name="budgets_DeleteSubscriber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-subscriber`.

**AWS CLI**  
**Untuk menghapus pelanggan dari notifikasi**  
Contoh ini menghapus pelanggan yang ditentukan dari pemberitahuan yang ditentukan.  
Perintah:  

```
aws budgets delete-subscriber --account-id 111122223333 --budget-name "Example Budget" --notification NotificationType=ACTUAL,ComparisonOperator=GREATER_THAN,Threshold=80,ThresholdType=PERCENTAGE --subscriber SubscriptionType=EMAIL,Address=example@example.com
```
+  Untuk detail API, lihat [DeleteSubscriber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/delete-subscriber.html)di *Referensi AWS CLI Perintah*. 

### `describe-budget`
<a name="budgets_DescribeBudget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-budget`.

**AWS CLI**  
**Untuk mengambil anggaran yang terkait dengan akun**  
Contoh ini mengambil anggaran Biaya dan Penggunaan yang ditentukan.  
Perintah:  

```
aws budgets describe-budget --account-id 111122223333 --budget-name "Example Budget"
```
Output:  

```
{
   "Budget": {
       "CalculatedSpend": {
           "ForecastedSpend": {
               "Amount": "2641.54800000000022919266484677791595458984375",
               "Unit": "USD"
           },
           "ActualSpend": {
               "Amount": "604.4560000000000172803993336856365203857421875",
               "Unit": "USD"
           }
       },
       "BudgetType": "COST",
       "BudgetLimit": {
           "Amount": "100",
           "Unit": "USD"
       },
       "BudgetName": "Example Budget",
       "CostTypes": {
           "IncludeOtherSubscription": true,
           "IncludeUpfront": true,
           "IncludeRefund": true,
           "UseBlended": false,
           "IncludeDiscount": true,
           "UseAmortized": false,
           "IncludeTax": true,
           "IncludeCredit": true,
           "IncludeSupport": true,
           "IncludeRecurring": true,
           "IncludeSubscription": true
       },
       "TimeUnit": "MONTHLY",
       "TimePeriod": {
           "Start": 1477958399.0,
           "End": 3706473600.0
       },
       "CostFilters": {
           "AZ": [
               "us-east-1"
           ]
       }
   }
}
```
+  Untuk detail API, lihat [DescribeBudget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/describe-budget.html)di *Referensi AWS CLI Perintah*. 

### `describe-budgets`
<a name="budgets_DescribeBudgets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-budgets`.

**AWS CLI**  
**Untuk mengambil anggaran yang terkait dengan akun**  
Contoh ini mengambil anggaran Biaya dan Penggunaan untuk akun.  
Perintah:  

```
aws budgets describe-budgets --account-id 111122223333 --max-results 20
```
Output:  

```
{
   "Budgets": [
       {
           "CalculatedSpend": {
               "ForecastedSpend": {
                   "Amount": "2641.54800000000022919266484677791595458984375",
                   "Unit": "USD"
               },
               "ActualSpend": {
                   "Amount": "604.4560000000000172803993336856365203857421875",
                   "Unit": "USD"
               }
           },
           "BudgetType": "COST",
           "BudgetLimit": {
               "Amount": "100",
               "Unit": "USD"
           },
           "BudgetName": "Example Budget",
           "CostTypes": {
               "IncludeOtherSubscription": true,
               "IncludeUpfront": true,
               "IncludeRefund": true,
               "UseBlended": false,
               "IncludeDiscount": true,
               "UseAmortized": false,
               "IncludeTax": true,
               "IncludeCredit": true,
               "IncludeSupport": true,
               "IncludeRecurring": true,
               "IncludeSubscription": true
           },
           "TimeUnit": "MONTHLY",
           "TimePeriod": {
               "Start": 1477958399.0,
               "End": 3706473600.0
           },
           "CostFilters": {
               "AZ": [
                   "us-east-1"
               ]
           }
       }
   ]
}
```
+  Untuk detail API, lihat [DescribeBudgets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/describe-budgets.html)di *Referensi AWS CLI Perintah*. 

### `describe-notifications-for-budget`
<a name="budgets_DescribeNotificationsForBudget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-notifications-for-budget`.

**AWS CLI**  
**Untuk mengambil notifikasi untuk anggaran**  
Contoh ini mengambil notifikasi untuk anggaran Biaya dan Penggunaan.  
Perintah:  

```
aws budgets describe-notifications-for-budget --account-id 111122223333 --budget-name "Example Budget" --max-results 5
```
Output:  

```
{
   "Notifications": [
       {
           "Threshold": 80.0,
           "ComparisonOperator": "GREATER_THAN",
           "NotificationType": "ACTUAL"
       }
   ]
}
```
+  Untuk detail API, lihat [DescribeNotificationsForBudget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/describe-notifications-for-budget.html)di *Referensi AWS CLI Perintah*. 

### `describe-subscribers-for-notification`
<a name="budgets_DescribeSubscribersForNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-subscribers-for-notification`.

**AWS CLI**  
**Untuk mengambil pelanggan untuk pemberitahuan anggaran**  
Contoh ini mengambil pelanggan untuk pemberitahuan anggaran Biaya dan Penggunaan.  
Perintah:  

```
aws budgets describe-subscribers-for-notification --account-id 111122223333 --budget-name "Example Budget" --notification NotificationType=ACTUAL,ComparisonOperator=GREATER_THAN,Threshold=80,ThresholdType=PERCENTAGE --max-results 5
```
Output:  

```
{
   "Subscribers": [
       {
           "SubscriptionType": "EMAIL",
           "Address": "example2@example.com"
       },
       {
           "SubscriptionType": "EMAIL",
           "Address": "example@example.com"
       }
   ]
}
```
+  Untuk detail API, lihat [DescribeSubscribersForNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/describe-subscribers-for-notification.html)di *Referensi AWS CLI Perintah*. 

### `update-budget`
<a name="budgets_UpdateBudget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-budget`.

**AWS CLI**  
**Untuk mengganti anggaran untuk anggaran Biaya dan Penggunaan**  
Contoh ini menggantikan anggaran Biaya dan Penggunaan dengan anggaran baru.  
Perintah:  

```
aws budgets update-budget --account-id 111122223333 --new-budget file://new-budget.json
```
new-budget.json:  

```
{
    "BudgetLimit": {
       "Amount": "100",
       "Unit": "USD"
    },
    "BudgetName": "Example Budget",
    "BudgetType": "COST",
    "CostFilters": {
       "AZ" : [ "us-east-1" ]
    },
    "CostTypes": {
       "IncludeCredit": false,
       "IncludeDiscount": true,
       "IncludeOtherSubscription": true,
       "IncludeRecurring": true,
       "IncludeRefund": true,
       "IncludeSubscription": true,
       "IncludeSupport": true,
       "IncludeTax": true,
       "IncludeUpfront": true,
       "UseBlended": false,
       "UseAmortized": true
    },
    "TimePeriod": {
       "Start": 1477958399,
       "End": 3706473600
    },
    "TimeUnit": "MONTHLY"
 }
```
+  Untuk detail API, lihat [UpdateBudget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/update-budget.html)di *Referensi AWS CLI Perintah*. 

### `update-notification`
<a name="budgets_UpdateNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-notification`.

**AWS CLI**  
**Untuk mengganti notifikasi untuk anggaran Biaya dan Penggunaan**  
Contoh ini menggantikan notifikasi 80% untuk anggaran Biaya dan Penggunaan dengan notifikasi 90%.  
Perintah:  

```
aws budgets update-notification --account-id 111122223333 --budget-name "Example Budget" --old-notification  NotificationType=ACTUAL,ComparisonOperator=GREATER_THAN,Threshold=80,ThresholdType=PERCENTAGE --new-notification  NotificationType=ACTUAL,ComparisonOperator=GREATER_THAN,Threshold=90,ThresholdType=PERCENTAGE
```
+  Untuk detail API, lihat [UpdateNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/update-notification.html)di *Referensi AWS CLI Perintah*. 

### `update-subscriber`
<a name="budgets_UpdateSubscriber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-subscriber`.

**AWS CLI**  
**Untuk mengganti pelanggan dengan anggaran Biaya dan Penggunaan**  
Contoh ini menggantikan pelanggan untuk anggaran Biaya dan Penggunaan.  
Perintah:  

```
aws budgets update-subscriber --account-id 111122223333 --budget-name "Example Budget" --notification NotificationType=ACTUAL,ComparisonOperator=GREATER_THAN,Threshold=80,ThresholdType=PERCENTAGE --old-subscriber SubscriptionType=EMAIL,Address=example@example.com --new-subscriber SubscriptionType=EMAIL,Address=example2@example.com
```
+  Untuk detail API, lihat [UpdateSubscriber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/budgets/update-subscriber.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Chime menggunakan AWS CLI
<a name="cli_2_chime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon Chime.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-phone-number-with-user`
<a name="chime_AssociatePhoneNumberWithUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-phone-number-with-user`.

**AWS CLI**  
**Untuk mengaitkan nomor telepon dengan pengguna**  
`associate-phone-number-with-user`Contoh berikut mengaitkan nomor telepon yang ditentukan dengan pengguna.  

```
aws chime associate-phone-number-with-user \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --user-id 1ab2345c-67de-8901-f23g-45h678901j2k \
    --e164-phone-number "+12065550100"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Nomor Telepon Pengguna](https://docs.aws.amazon.com/chime/latest/ag/user-phone.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [AssociatePhoneNumberWithUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/associate-phone-number-with-user.html)di *Referensi AWS CLI Perintah*. 

### `associate-signin-delegate-groups-with-account`
<a name="chime_AssociateSigninDelegateGroupsWithAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-signin-delegate-groups-with-account`.

**AWS CLI**  
**Untuk mengaitkan grup delegasi masuk**  
`associate-signin-delegate-groups-with-account`Contoh berikut mengaitkan grup delegasi login yang ditentukan dengan akun Amazon Chime yang ditentukan.  

```
aws chime associate-signin-delegate-groups-with-account \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --signin-delegate-groups GroupName=my_users
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Akses Pengguna dan Izin](https://docs.aws.amazon.com/chime/latest/ag/manage-access.html) di Panduan Administrasi *Amazon Chime*.  
+  Untuk detail API, lihat [AssociateSigninDelegateGroupsWithAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/associate-signin-delegate-groups-with-account.html)di *Referensi AWS CLI Perintah*. 

### `batch-create-room-membership`
<a name="chime_BatchCreateRoomMembership_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-create-room-membership`.

**AWS CLI**  
**Untuk membuat beberapa keanggotaan kamar**  
`batch-create-room-membership`Contoh berikut menambahkan beberapa pengguna ke ruang obrolan sebagai anggota ruang obrolan. Ini juga memberikan peran administrator dan anggota kepada pengguna.  

```
aws chime batch-create-room-membership \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --room-id abcd1e2d-3e45-6789-01f2-3g45h67i890j \
    --membership-item-list "MemberId=1ab2345c-67de-8901-f23g-45h678901j2k,Role=Administrator" "MemberId=2ab2345c-67de-8901-f23g-45h678901j2k,Role=Member"
```
Output:  

```
{
    "ResponseMetadata": {
        "RequestId": "169ba401-d886-475f-8b3f-e01eac6fadfb",
        "HTTPStatusCode": 201,
        "HTTPHeaders": {
            "x-amzn-requestid": "169ba401-d886-475f-8b3f-e01eac6fadfb",
            "content-type": "application/json",
            "content-length": "13",
            "date": "Mon, 02 Dec 2019 22:46:58 GMT",
            "connection": "keep-alive"
        },
        "RetryAttempts": 0
    },
    "Errors": []
}
```
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [BatchCreateRoomMembership](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/batch-create-room-membership.html)di *Referensi AWS CLI Perintah*. 

### `batch-delete-phone-number`
<a name="chime_BatchDeletePhoneNumber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-delete-phone-number`.

**AWS CLI**  
**Untuk menghapus beberapa nomor telepon**  
`batch-delete-phone-number`Contoh berikut menghapus semua nomor telepon yang ditentukan.  

```
aws chime batch-delete-phone-number \
    --phone-number-ids "%2B12065550100" "%2B12065550101"
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "PhoneNumberErrors": []
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [BatchDeletePhoneNumber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/batch-delete-phone-number.html)di *Referensi AWS CLI Perintah*. 

### `batch-suspend-user`
<a name="chime_BatchSuspendUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-suspend-user`.

**AWS CLI**  
**Untuk menangguhkan beberapa pengguna**  
`batch-suspend-user`Contoh berikut menangguhkan pengguna yang terdaftar dari akun Amazon Chime yang ditentukan.  

```
aws chime batch-suspend-user \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --user-id-list "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE" "a1b2c3d4-5678-90ab-cdef-33333EXAMPLE" "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE"
```
Output:  

```
{
    "UserErrors": []
}
```
+  Untuk detail API, lihat [BatchSuspendUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/batch-suspend-user.html)di *Referensi AWS CLI Perintah*. 

### `batch-unsuspend-user`
<a name="chime_BatchUnsuspendUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-unsuspend-user`.

**AWS CLI**  
**Untuk membatalkan penangguhan beberapa pengguna**  
`batch-unsuspend-user`Contoh berikut menghapus penangguhan sebelumnya untuk pengguna yang terdaftar di akun Amazon Chime yang ditentukan.  

```
aws chime batch-unsuspend-user \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --user-id-list "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE" "a1b2c3d4-5678-90ab-cdef-33333EXAMPLE" "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE"
```
Output:  

```
{
    "UserErrors": []
}
```
+  Untuk detail API, lihat [BatchUnsuspendUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/batch-unsuspend-user.html)di *Referensi AWS CLI Perintah*. 

### `batch-update-phone-number`
<a name="chime_BatchUpdatePhoneNumber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-update-phone-number`.

**AWS CLI**  
**Untuk memperbarui beberapa jenis produk nomor telepon secara bersamaan**  
`batch-update-phone-number`Contoh berikut memperbarui jenis produk untuk semua nomor telepon yang ditentukan.  

```
aws chime batch-update-phone-number \
    --update-phone-number-request-items PhoneNumberId=%2B12065550100,ProductType=BusinessCalling PhoneNumberId=%2B12065550101,ProductType=BusinessCalling
```
Output:  

```
{
    "PhoneNumberErrors": []
}
```
**Untuk memperbarui beberapa nama panggilan nomor telepon secara bersamaan**  
`batch-update-phone-number`Contoh berikut memperbarui nama panggilan untuk semua nomor telepon yang ditentukan.  

```
aws chime batch-update-phone-number \
    --update-phone-number-request-items PhoneNumberId=%2B14013143874,CallingName=phonenumber1 PhoneNumberId=%2B14013144061,CallingName=phonenumber2
```
Output:  

```
{
    "PhoneNumberErrors": []
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [BatchUpdatePhoneNumber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/batch-update-phone-number.html)di *Referensi AWS CLI Perintah*. 

### `batch-update-user`
<a name="chime_BatchUpdateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-update-user`.

**AWS CLI**  
**Untuk memperbarui beberapa pengguna dalam satu perintah**  
`batch-update-user`Contoh berikut memperbarui `LicenseType` untuk setiap pengguna yang terdaftar di akun Amazon Chime yang ditentukan.  

```
aws chime batch-update-user \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
    --update-user-request-items "UserId=a1b2c3d4-5678-90ab-cdef-22222EXAMPLE,LicenseType=Basic" "UserId=a1b2c3d4-5678-90ab-cdef-33333EXAMPLE,LicenseType=Basic"
```
Output:  

```
{
    "UserErrors": []
}
```
+  Untuk detail API, lihat [BatchUpdateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/batch-update-user.html)di *Referensi AWS CLI Perintah*. 

### `create-account`
<a name="chime_CreateAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-account`.

**AWS CLI**  
**Untuk membuat akun**  
`create-account`Contoh berikut membuat akun Amazon Chime di bawah akun administrator. AWS   

```
aws chime create-account \
    --name MyChimeAccount
```
Output:  

```
{
    "Account": {
        "AwsAccountId": "111122223333",
        "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "Name": "MyChimeAccount",
        "AccountType": "Team",
        "CreatedTimestamp": "2019-01-04T17:11:22.003Z",
        "DefaultLicense": "Pro",
        "SupportedLicenses": [
            "Basic",
            "Pro"
        ],
        "SigninDelegateGroups": [
            {
                "GroupName": "myGroup"
            },
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai](https://docs.aws.amazon.com/chime/latest/ag/getting-started.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [CreateAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/create-account.html)di *Referensi AWS CLI Perintah*. 

### `create-bot`
<a name="chime_CreateBot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-bot`.

**AWS CLI**  
**Untuk membuat bot Amazon Chime**  
`create-bot`Contoh berikut membuat bot untuk akun Amazon Chime Enterprise yang ditentukan.  

```
aws chime create-bot \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --display-name "myBot" \
    --domain "example.com"
```
Output:  

```
{
    "Bot": {
        "BotId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "UserId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "DisplayName": "myBot (Bot)",
        "BotType": "ChatBot",
        "Disabled": false,
        "CreatedTimestamp": "2019-09-09T18:05:56.749Z",
        "UpdatedTimestamp": "2019-09-09T18:05:56.749Z",
        "BotEmail": "myBot-chimebot@example.com",
        "SecurityToken": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengintegrasikan Bot Obrolan dengan Amazon Chime](https://docs.aws.amazon.com/chime/latest/dg/integrate-bots.html) di Panduan Pengembang *Amazon Chime*.  
+  Untuk detail API, lihat [CreateBot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/create-bot.html)di *Referensi AWS CLI Perintah*. 

### `create-phone-number-order`
<a name="chime_CreatePhoneNumberOrder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-phone-number-order`.

**AWS CLI**  
**Untuk membuat pesanan nomor telepon**  
`create-phone-number-order`Contoh berikut membuat urutan nomor telepon untuk nomor telepon yang ditentukan.  

```
aws chime create-phone-number-order \
    --product-type VoiceConnector \
    --e164-phone-numbers "+12065550100" "+12065550101" "+12065550102"
```
Output:  

```
{
    "PhoneNumberOrder": {
        "PhoneNumberOrderId": "abc12345-de67-89f0-123g-h45i678j9012",
        "ProductType": "VoiceConnector",
        "Status": "Processing",
        "OrderedPhoneNumbers": [
            {
                "E164PhoneNumber": "+12065550100",
                "Status": "Processing"
            },
            {
               "E164PhoneNumber": "+12065550101",
               "Status": "Processing"
            },
            {
              "E164PhoneNumber": "+12065550102",
              "Status": "Processing"
            }
        ],
        "CreatedTimestamp": "2019-08-09T21:35:21.427Z",
        "UpdatedTimestamp": "2019-08-09T21:35:22.408Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [CreatePhoneNumberOrder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/create-phone-number-order.html)di *Referensi AWS CLI Perintah*. 

### `create-room-membership`
<a name="chime_CreateRoomMembership_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-room-membership`.

**AWS CLI**  
**Untuk membuat keanggotaan kamar**  
`create-room-membership`Contoh berikut menambahkan pengguna yang ditentukan ke ruang obrolan sebagai anggota ruang obrolan.  

```
aws chime create-room-membership \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --room-id abcd1e2d-3e45-6789-01f2-3g45h67i890j \
    --member-id 1ab2345c-67de-8901-f23g-45h678901j2k
```
Output:  

```
{
    "RoomMembership": {
        "RoomId": "abcd1e2d-3e45-6789-01f2-3g45h67i890j",
        "Member": {
            "MemberId": "1ab2345c-67de-8901-f23g-45h678901j2k",
            "MemberType": "User",
            "Email": "janed@example.com",
            "FullName": "Jane Doe",
            "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45"
        },
        "Role": "Member",
        "InvitedBy": "arn:aws:iam::111122223333:user/alejandro",
        "UpdatedTimestamp": "2019-12-02T22:36:41.969Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [CreateRoomMembership](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/create-room-membership.html)di *Referensi AWS CLI Perintah*. 

### `create-room`
<a name="chime_CreateRoom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-room`.

**AWS CLI**  
**Untuk membuat ruang obrolan**  
`create-room`Contoh berikut membuat ruang obrolan untuk akun Amazon Chime yang ditentukan.  

```
aws chime create-room \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --name chatRoom
```
Output:  

```
{
    "Room": {
        "RoomId": "abcd1e2d-3e45-6789-01f2-3g45h67i890j",
        "Name": "chatRoom",
        "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45",
        "CreatedBy": "arn:aws:iam::111122223333:user/alejandro",
        "CreatedTimestamp": "2019-12-02T22:29:31.549Z",
        "UpdatedTimestamp": "2019-12-02T22:29:31.549Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [CreateRoom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/create-room.html)di *Referensi AWS CLI Perintah*. 

### `create-user`
<a name="chime_CreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user`.

**AWS CLI**  
**Untuk membuat profil pengguna untuk perangkat bersama**  
`create-user`Contoh berikut membuat profil perangkat bersama untuk alamat email yang ditentukan.  

```
aws chime create-user \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --email roomdevice@example.com \
    --user-type SharedDevice
```
Output:  

```
{
    "User": {
        "UserId": "1ab2345c-67de-8901-f23g-45h678901j2k",
        "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45",
        "PrimaryEmail": "roomdevice@example.com",
        "DisplayName": "Room Device",
        "LicenseType": "Pro",
        "UserType": "SharedDevice",
        "UserRegistrationStatus": "Registered",
        "RegisteredOn": "2020-01-15T22:38:09.806Z",
        "AlexaForBusinessMetadata": {
            "IsAlexaForBusinessEnabled": false
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mempersiapkan Pengaturan](https://docs.aws.amazon.com/chime/latest/ag/prepare-setup.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [CreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/create-user.html)di *Referensi AWS CLI Perintah*. 

### `delete-account`
<a name="chime_DeleteAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-account`.

**AWS CLI**  
**Untuk menghapus akun**  
`delete-account`Contoh berikut menghapus akun yang ditentukan.  

```
aws chime delete-account --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Akun Anda](https://docs.aws.amazon.com/chime/latest/ag/enterprise-account.html) di Panduan Administrasi *Amazon Chime*.  
+  Untuk detail API, lihat [DeleteAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/delete-account.html)di *Referensi AWS CLI Perintah*. 

### `delete-phone-number`
<a name="chime_DeletePhoneNumber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-phone-number`.

**AWS CLI**  
**Untuk menghapus nomor telepon**  
`delete-phone-number`Contoh berikut memindahkan nomor telepon yang ditentukan ke dalam antrian penghapusan.  

```
aws chime delete-phone-number \
    --phone-number-id "+12065550100"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [DeletePhoneNumber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/delete-phone-number.html)di *Referensi AWS CLI Perintah*. 

### `delete-room-membership`
<a name="chime_DeleteRoomMembership_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-room-membership`.

**AWS CLI**  
**Untuk menghapus pengguna sebagai anggota ruang obrolan**  
`delete-room-membership`Contoh berikut menghapus anggota yang ditentukan dari ruang obrolan yang ditentukan.  

```
aws chime delete-room-membership \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --room-id abcd1e2d-3e45-6789-01f2-3g45h67i890j \
    --member-id 1ab2345c-67de-8901-f23g-45h678901j2k
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [DeleteRoomMembership](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/delete-room-membership.html)di *Referensi AWS CLI Perintah*. 

### `delete-room`
<a name="chime_DeleteRoom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-room`.

**AWS CLI**  
**Untuk menghapus ruang obrolan**  
`delete-room`Contoh berikut menghapus ruang obrolan yang ditentukan dan menghapus keanggotaan ruang obrolan.  

```
aws chime delete-room \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --room-id abcd1e2d-3e45-6789-01f2-3g45h67i890j
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [DeleteRoom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/delete-room.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-phone-number-from-user`
<a name="chime_DisassociatePhoneNumberFromUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-phone-number-from-user`.

**AWS CLI**  
**Untuk memisahkan nomor telepon dari pengguna**  
`disassociate-phone-number-from-user`Contoh berikut memisahkan nomor telepon dari pengguna yang ditentukan.  

```
aws chime disassociate-phone-number-from-user \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --user-id 1ab2345c-67de-8901-f23g-45h678901j2k
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Nomor Telepon Pengguna](https://docs.aws.amazon.com/chime/latest/ag/user-phone.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [DisassociatePhoneNumberFromUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/disassociate-phone-number-from-user.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-signin-delegate-groups-from-account`
<a name="chime_DisassociateSigninDelegateGroupsFromAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-signin-delegate-groups-from-account`.

**AWS CLI**  
**Untuk memisahkan grup delegasi masuk**  
`disassociate-signin-delegate-groups-from-account`Contoh berikut memisahkan grup delegasi login yang ditentukan dari akun Amazon Chime yang ditentukan.  

```
aws chime disassociate-signin-delegate-groups-from-account \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --group-names "my_users"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Akses Pengguna dan Izin](https://docs.aws.amazon.com/chime/latest/ag/manage-access.html) di Panduan Administrasi *Amazon Chime*.  
+  Untuk detail API, lihat [DisassociateSigninDelegateGroupsFromAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/disassociate-signin-delegate-groups-from-account.html)di *Referensi AWS CLI Perintah*. 

### `get-account-settings`
<a name="chime_GetAccountSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-account-settings`.

**AWS CLI**  
**Untuk mengambil pengaturan untuk akun**  
`get-account-settings`Contoh berikut mengambil pengaturan akun untuk akun yang ditentukan.  

```
aws chime get-account-settings --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Output:  

```
{
    "AccountSettings": {
        "DisableRemoteControl": false,
        "EnableDialOut": false
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Akun Amazon Chime](https://docs.aws.amazon.com/chime/latest/ag/manage-chime-account.html) Anda di Panduan Administrasi *Amazon Chime*.  
+  Untuk detail API, lihat [GetAccountSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-account-settings.html)di *Referensi AWS CLI Perintah*. 

### `get-account`
<a name="chime_GetAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-account`.

**AWS CLI**  
**Untuk mengambil detail untuk akun**  
`get-account`Contoh berikut mengambil detail untuk akun Amazon Chime yang ditentukan.  

```
aws chime get-account \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Output:  

```
{
    "Account": {
        "AwsAccountId": "111122223333",
        "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "Name": "EnterpriseDirectory",
        "AccountType": "EnterpriseDirectory",
        "CreatedTimestamp": "2018-12-20T18:38:02.181Z",
        "DefaultLicense": "Pro",
        "SupportedLicenses": [
            "Basic",
            "Pro"
        ],
        "SigninDelegateGroups": [
            {
                "GroupName": "myGroup"
            },
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Akun Amazon Chime](https://docs.aws.amazon.com/chime/latest/ag/manage-chime-account.html) Anda di Panduan Administrasi *Amazon Chime*.  
+  Untuk detail API, lihat [GetAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-account.html)di *Referensi AWS CLI Perintah*. 

### `get-bot`
<a name="chime_GetBot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bot`.

**AWS CLI**  
**Untuk mengambil detail tentang bot**  
`get-bot`Contoh berikut menampilkan rincian untuk bot yang ditentukan.  

```
aws chime get-bot \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --bot-id 123abcd4-5ef6-789g-0h12-34j56789012k
```
Output:  

```
{
    "Bot": {
        "BotId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "UserId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "DisplayName": "myBot (Bot)",
        "BotType": "ChatBot",
        "Disabled": false,
        "CreatedTimestamp": "2019-09-09T18:05:56.749Z",
        "UpdatedTimestamp": "2019-09-09T18:05:56.749Z",
        "BotEmail": "myBot-chimebot@example.com",
        "SecurityToken": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Bot Obrolan](https://docs.aws.amazon.com/chime/latest/dg/update-bots.html) di Panduan *Pengembang Amazon Chime*.  
+  Untuk detail API, lihat [GetBot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-bot.html)di *Referensi AWS CLI Perintah*. 

### `get-global-settings`
<a name="chime_GetGlobalSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-global-settings`.

**AWS CLI**  
**Untuk mendapatkan pengaturan global**  
`get-global-settings`Contoh berikut mengambil nama bucket S3 yang digunakan untuk menyimpan catatan detail panggilan untuk Amazon Chime Business Calling dan Amazon Chime Voice Connectors yang terkait dengan akun administrator. AWS   

```
aws chime get-global-settings
```
Output:  

```
{
    "BusinessCalling": {
        "CdrBucket": "s3bucket"
    },
    "VoiceConnector": {
        "CdrBucket": "s3bucket"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Pengaturan Global](https://docs.aws.amazon.com/chime/latest/ag/manage-global.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [GetGlobalSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-global-settings.html)di *Referensi AWS CLI Perintah*. 

### `get-phone-number-order`
<a name="chime_GetPhoneNumberOrder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-phone-number-order`.

**AWS CLI**  
**Untuk mendapatkan detail untuk pesanan nomor telepon**  
`get-phone-number-order`Contoh berikut menampilkan rincian urutan nomor telepon yang ditentukan.  

```
aws chime get-phone-number-order \
    --phone-number-order-id abc12345-de67-89f0-123g-h45i678j9012
```
Output:  

```
{
    "PhoneNumberOrder": {
        "PhoneNumberOrderId": "abc12345-de67-89f0-123g-h45i678j9012",
        "ProductType": "VoiceConnector",
        "Status": "Partial",
        "OrderedPhoneNumbers": [
            {
              "E164PhoneNumber": "+12065550100",
              "Status": "Acquired"
            },
            {
                "E164PhoneNumber": "+12065550101",
                "Status": "Acquired"
            },
            {
                "E164PhoneNumber": "+12065550102",
                "Status": "Failed"
            }
        ],
        "CreatedTimestamp": "2019-08-09T21:35:21.427Z",
        "UpdatedTimestamp": "2019-08-09T21:35:31.926Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [GetPhoneNumberOrder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-phone-number-order.html)di *Referensi AWS CLI Perintah*. 

### `get-phone-number-settings`
<a name="chime_GetPhoneNumberSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-phone-number-settings`.

**AWS CLI**  
**Untuk mengambil nama panggilan keluar**  
`get-phone-number-settings`Contoh berikut mengambil nama panggilan keluar default untuk akun pengguna panggilan. AWS   

```
aws chime get-phone-number-settings
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "CallingName": "myName",
    "CallingNameUpdatedTimestamp": "2019-10-28T18:56:42.911Z"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [GetPhoneNumberSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-phone-number-settings.html)di *Referensi AWS CLI Perintah*. 

### `get-phone-number`
<a name="chime_GetPhoneNumber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-phone-number`.

**AWS CLI**  
**Untuk mendapatkan detail nomor telepon**  
`get-phone-number`Contoh berikut menampilkan rincian nomor telepon yang ditentukan.  

```
aws chime get-phone-number \
    --phone-number-id +12065550100
```
Output:  

```
{
    "PhoneNumber": {
        "PhoneNumberId": "%2B12065550100",
        "E164PhoneNumber": "+12065550100",
        "Type": "Local",
        "ProductType": "VoiceConnector",
        "Status": "Unassigned",
        "Capabilities": {
            "InboundCall": true,
            "OutboundCall": true,
            "InboundSMS": true,
            "OutboundSMS": true,
            "InboundMMS": true,
            "OutboundMMS": true
        },
       "Associations": [
            {
                "Value": "abcdef1ghij2klmno3pqr4",
                "Name": "VoiceConnectorId",
                "AssociatedTimestamp": "2019-10-28T18:40:37.453Z"
            }
        ],
        "CallingNameStatus": "UpdateInProgress",
        "CreatedTimestamp": "2019-08-09T21:35:21.445Z",
        "UpdatedTimestamp": "2019-08-09T21:35:31.745Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [GetPhoneNumber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-phone-number.html)di *Referensi AWS CLI Perintah*. 

### `get-room`
<a name="chime_GetRoom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-room`.

**AWS CLI**  
**Untuk mendapatkan detail tentang ruang obrolan**  
`get-room`Contoh berikut menampilkan rincian tentang ruang obrolan yang ditentukan.  

```
aws chime get-room \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --room-id abcd1e2d-3e45-6789-01f2-3g45h67i890j
```
Output:  

```
{
    "Room": {
        "RoomId": "abcd1e2d-3e45-6789-01f2-3g45h67i890j",
        "Name": "chatRoom",
        "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45",
        "CreatedBy": "arn:aws:iam::111122223333:user/alejandro",
        "CreatedTimestamp": "2019-12-02T22:29:31.549Z",
        "UpdatedTimestamp": "2019-12-02T22:29:31.549Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [GetRoom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-room.html)di *Referensi AWS CLI Perintah*. 

### `get-user-settings`
<a name="chime_GetUserSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-user-settings`.

**AWS CLI**  
**Untuk mengambil pengaturan pengguna**  
`get-user-settings`Contoh berikut menampilkan pengaturan pengguna yang ditentukan.  

```
aws chime get-user-settings \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --user-id 1ab2345c-67de-8901-f23g-45h678901j2k
```
Output:  

```
{
    "UserSettings": {
        "Telephony": {
            "InboundCalling": true,
            "OutboundCalling": true,
            "SMS": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Nomor Telepon Pengguna](https://docs.aws.amazon.com/chime/latest/ag/user-phone.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [GetUserSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-user-settings.html)di *Referensi AWS CLI Perintah*. 

### `get-user`
<a name="chime_GetUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-user`.

**AWS CLI**  
**Untuk mendapatkan detail tentang pengguna**  
`get-user`Contoh berikut mengambil rincian untuk pengguna tertentu.  

```
aws chime get-user \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --user-id a1b2c3d4-5678-90ab-cdef-22222EXAMPLE
```
Output:  

```
{
    "User": {
        "UserId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
        "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "PrimaryEmail": "marthar@example.com",
        "DisplayName": "Martha Rivera",
        "LicenseType": "Pro",
        "UserRegistrationStatus": "Registered",
        "RegisteredOn": "2018-12-20T18:45:25.231Z",
        "InvitedOn": "2018-12-20T18:45:25.231Z",
        "AlexaForBusinessMetadata": {
            "IsAlexaForBusinessEnabled": False,
            "AlexaForBusinessRoomArn": "null"
        },
        "PersonalPIN": "XXXXXXXXXX"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Pengguna](https://docs.aws.amazon.com/chime/latest/ag/manage-users.html) di *Panduan Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [GetUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/get-user.html)di *Referensi AWS CLI Perintah*. 

### `invite-users`
<a name="chime_InviteUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`invite-users`.

**AWS CLI**  
**Untuk mengundang pengguna untuk bergabung dengan Amazon Chime**  
`invite-users`Contoh berikut mengirimkan email untuk mengundang pengguna ke akun Amazon Chime yang ditentukan.  

```
aws chime invite-users \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --user-email-list "alejandror@example.com" "janed@example.com"
```
Output:  

```
{
    "Invites": [
        {
            "InviteId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
            "Status": "Pending",
            "EmailAddress": "alejandror@example.com",
            "EmailStatus": "Sent"
        }
        {
            "InviteId": "a1b2c3d4-5678-90ab-cdef-33333EXAMPLE",
            "Status": "Pending",
            "EmailAddress": "janed@example.com",
            "EmailStatus": "Sent"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengundang dan Menangguhkan Pengguna](https://docs.aws.amazon.com/chime/latest/ag/manage-access.html#invite-users-team) di Panduan Administrasi *Amazon Chime*.  
+  Untuk detail API, lihat [InviteUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/invite-users.html)di *Referensi AWS CLI Perintah*. 

### `list-accounts`
<a name="chime_ListAccounts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-accounts`.

**AWS CLI**  
**Untuk mendapatkan daftar akun**  
`list-accounts`Contoh berikut mengambil daftar akun Amazon Chime di akun administrator AWS .  

```
aws chime list-accounts
```
Output:  

```
{
    "Accounts": [
        {
            "AwsAccountId": "111122223333",
            "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "Name": "First Chime Account",
            "AccountType": "EnterpriseDirectory",
            "CreatedTimestamp": "2018-12-20T18:38:02.181Z",
            "DefaultLicense": "Pro",
            "SupportedLicenses": [
                "Basic",
                "Pro"
            ],
            "SigninDelegateGroups": [
                {
                    "GroupName": "myGroup"
                },
            ]
        },
        {
            "AwsAccountId": "111122223333",
            "AccountId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
            "Name": "Second Chime Account",
            "AccountType": "Team",
            "CreatedTimestamp": "2018-09-04T21:44:22.292Z",
            "DefaultLicense": "Pro",
            "SupportedLicenses": [
                "Basic",
                "Pro"
            ],
            "SigninDelegateGroups": [
                {
                    "GroupName": "myGroup"
                },
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Akun Amazon Chime](https://docs.aws.amazon.com/chime/latest/ag/manage-chime-account.html) Anda di Panduan Administrasi *Amazon Chime*.  
+  Untuk detail API, lihat [ListAccounts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/list-accounts.html)di *Referensi AWS CLI Perintah*. 

### `list-bots`
<a name="chime_ListBots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bots`.

**AWS CLI**  
**Untuk mengambil daftar bot**  
`list-bots`Contoh berikut mencantumkan bot yang terkait dengan akun Amazon Chime Enterprise yang ditentukan.  

```
aws chime list-bots \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45
```
Output:  

```
{
    "Bot": {
        "BotId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "UserId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "DisplayName": "myBot (Bot)",
        "BotType": "ChatBot",
        "Disabled": false,
        "CreatedTimestamp": "2019-09-09T18:05:56.749Z",
        "UpdatedTimestamp": "2019-09-09T18:05:56.749Z",
        "BotEmail": "myBot-chimebot@example.com",
        "SecurityToken": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Bot Obrolan dengan Amazon](https://docs.aws.amazon.com/chime/latest/dg/use-bots.html) Chime di Panduan Pengembang *Amazon Chime*.  
+  Untuk detail API, lihat [ListBots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/list-bots.html)di *Referensi AWS CLI Perintah*. 

### `list-phone-number-orders`
<a name="chime_ListPhoneNumberOrders_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-phone-number-orders`.

**AWS CLI**  
**Untuk membuat daftar pesanan nomor telepon**  
`list-phone-number-orders`Contoh berikut mencantumkan urutan nomor telepon yang terkait dengan akun administrator Amazon Chime.  

```
aws chime list-phone-number-orders
```
Output:  

```
{
    "PhoneNumberOrders": [
        {
            "PhoneNumberOrderId": "abc12345-de67-89f0-123g-h45i678j9012",
            "ProductType": "VoiceConnector",
            "Status": "Partial",
            "OrderedPhoneNumbers": [
                {
                    "E164PhoneNumber": "+12065550100",
                    "Status": "Acquired"
                },
                {
                    "E164PhoneNumber": "+12065550101",
                    "Status": "Acquired"
                },
                {
                    "E164PhoneNumber": "+12065550102",
                    "Status": "Failed"
                }
            ],
            "CreatedTimestamp": "2019-08-09T21:35:21.427Z",
            "UpdatedTimestamp": "2019-08-09T21:35:31.926Z"
        }
        {
            "PhoneNumberOrderId": "cba54321-ed76-09f5-321g-h54i876j2109",
            "ProductType": "BusinessCalling",
            "Status": "Partial",
            "OrderedPhoneNumbers": [
                {
                    "E164PhoneNumber": "+12065550103",
                    "Status": "Acquired"
                },
                {
                    "E164PhoneNumber": "+12065550104",
                    "Status": "Acquired"
                },
                {
                    "E164PhoneNumber": "+12065550105",
                    "Status": "Failed"
                }
            ],
            "CreatedTimestamp": "2019-08-09T21:35:21.427Z",
            "UpdatedTimestamp": "2019-08-09T21:35:31.926Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [ListPhoneNumberOrders](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/list-phone-number-orders.html)di *Referensi AWS CLI Perintah*. 

### `list-phone-numbers`
<a name="chime_ListPhoneNumbers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-phone-numbers`.

**AWS CLI**  
**Untuk mencantumkan nomor telepon untuk akun Amazon Chime**  
`list-phone-numbers`Contoh berikut mencantumkan nomor telepon yang terkait dengan akun Amazon Chime administrator.  

```
aws chime list-phone-numbers
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "PhoneNumbers": [
        {
            "PhoneNumberId": "%2B12065550100",
            "E164PhoneNumber": "+12065550100",
            "Type": "Local",
            "ProductType": "VoiceConnector",
            "Status": "Assigned",
            "Capabilities": {
                "InboundCall": true,
                "OutboundCall": true,
                "InboundSMS": true,
                "OutboundSMS": true,
                "InboundMMS": true,
                "OutboundMMS": true
            },
            "Associations": [
                {
                    "Value": "abcdef1ghij2klmno3pqr4",
                    "Name": "VoiceConnectorId",
                    "AssociatedTimestamp": "2019-10-28T18:40:37.453Z"
                }
            ],
            "CallingNameStatus": "UpdateInProgress",
            "CreatedTimestamp": "2019-08-12T22:10:20.521Z",
            "UpdatedTimestamp": "2019-10-28T18:42:07.964Z"
        },
        {
            "PhoneNumberId": "%2B12065550101",
            "E164PhoneNumber": "+12065550101",
            "Type": "Local",
            "ProductType": "VoiceConnector",
            "Status": "Assigned",
            "Capabilities": {
                "InboundCall": true,
                "OutboundCall": true,
                "InboundSMS": true,
                "OutboundSMS": true,
                "InboundMMS": true,
                "OutboundMMS": true
            },
            "Associations": [
                {
                    "Value": "abcdef1ghij2klmno3pqr4",
                    "Name": "VoiceConnectorId",
                    "AssociatedTimestamp": "2019-10-28T18:40:37.511Z"
                }
            ],
            "CallingNameStatus": "UpdateInProgress",
            "CreatedTimestamp": "2019-08-12T22:10:20.521Z",
            "UpdatedTimestamp": "2019-10-28T18:42:07.960Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [ListPhoneNumbers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/list-phone-numbers.html)di *Referensi AWS CLI Perintah*. 

### `list-room-memberships`
<a name="chime_ListRoomMemberships_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-room-memberships`.

**AWS CLI**  
**Untuk daftar keanggotaan kamar**  
`list-room-memberships`Contoh berikut menampilkan daftar rincian keanggotaan untuk chat room yang ditentukan.  

```
aws chime list-room-memberships \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --room-id abcd1e2d-3e45-6789-01f2-3g45h67i890j
```
Output:  

```
{
    "RoomMemberships": [
        {
            "RoomId": "abcd1e2d-3e45-6789-01f2-3g45h67i890j",
            "Member": {
                "MemberId": "2ab2345c-67de-8901-f23g-45h678901j2k",
                "MemberType": "User",
                "Email": "zhangw@example.com",
                "FullName": "Zhang Wei",
                "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45"
            },
            "Role": "Member",
            "InvitedBy": "arn:aws:iam::111122223333:user/alejandro",
            "UpdatedTimestamp": "2019-12-02T22:46:58.532Z"
        },
        {
            "RoomId": "abcd1e2d-3e45-6789-01f2-3g45h67i890j",
            "Member": {
                "MemberId": "1ab2345c-67de-8901-f23g-45h678901j2k",
                "MemberType": "User",
                "Email": "janed@example.com",
                "FullName": "Jane Doe",
                "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45"
            },
            "Role": "Administrator",
            "InvitedBy": "arn:aws:iam::111122223333:user/alejandro",
            "UpdatedTimestamp": "2019-12-02T22:46:58.532Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [ListRoomMemberships](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/list-room-memberships.html)di *Referensi AWS CLI Perintah*. 

### `list-rooms`
<a name="chime_ListRooms_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-rooms`.

**AWS CLI**  
**Untuk daftar ruang obrolan**  
`list-rooms`Contoh berikut menampilkan daftar ruang obrolan di akun yang ditentukan. Daftar difilter hanya ke ruang obrolan yang dimiliki anggota tertentu.  

```
aws chime list-rooms \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --member-id 1ab2345c-67de-8901-f23g-45h678901j2k
```
Output:  

```
{
    "Room": {
        "RoomId": "abcd1e2d-3e45-6789-01f2-3g45h67i890j",
        "Name": "teamRoom",
        "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45",
        "CreatedBy": "arn:aws:iam::111122223333:user/alejandro",
        "CreatedTimestamp": "2019-12-02T22:29:31.549Z",
        "UpdatedTimestamp": "2019-12-02T22:33:19.310Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [ListRooms](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/list-rooms.html)di *Referensi AWS CLI Perintah*. 

### `list-users`
<a name="chime_ListUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-users`.

**AWS CLI**  
**Untuk mencantumkan pengguna di akun**  
`list-users`Contoh berikut mencantumkan pengguna untuk akun Amazon Chime yang ditentukan.  

```
aws chime list-users --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Output:  

```
{
    "Users": [
        {
            "UserId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
            "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "PrimaryEmail": "mariag@example.com",
            "DisplayName": "Maria Garcia",
            "LicenseType": "Pro",
            "UserType": "PrivateUser",
            "UserRegistrationStatus": "Registered",
            "RegisteredOn": "2018-12-20T18:45:25.231Z"
            "AlexaForBusinessMetadata": {
                "IsAlexaForBusinessEnabled": false
            }
        },
        {
            "UserId": "a1b2c3d4-5678-90ab-cdef-33333EXAMPLE",
            "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "PrimaryEmail": "richardr@example.com",
            "DisplayName": "Richard Roe",
            "LicenseType": "Pro",
            "UserType": "PrivateUser",
            "UserRegistrationStatus": "Registered",
            "RegisteredOn": "2018-12-20T18:45:45.415Z"
            "AlexaForBusinessMetadata": {
                "IsAlexaForBusinessEnabled": false
            }
        },
        {
            "UserId": "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE",
            "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "PrimaryEmail": "saanvis@example.com",
            "DisplayName": "Saanvi Sarkar",
            "LicenseType": "Basic",
            "UserType": "PrivateUser",
            "UserRegistrationStatus": "Registered",
            "RegisteredOn": "2018-12-20T18:46:57.747Z"
            "AlexaForBusinessMetadata": {
                "IsAlexaForBusinessEnabled": false
            }
        },
        {
            "UserId": "a1b2c3d4-5678-90ab-cdef-55555EXAMPLE",
            "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "PrimaryEmail": "wxiulan@example.com",
            "DisplayName": "Wang Xiulan",
            "LicenseType": "Basic",
            "UserType": "PrivateUser",
            "UserRegistrationStatus": "Registered",
            "RegisteredOn": "2018-12-20T18:47:15.390Z"
            "AlexaForBusinessMetadata": {
                "IsAlexaForBusinessEnabled": false
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Pengguna](https://docs.aws.amazon.com/chime/latest/ag/manage-users.html) di *Panduan Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [ListUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/list-users.html)di *Referensi AWS CLI Perintah*. 

### `logout-user`
<a name="chime_LogoutUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`logout-user`.

**AWS CLI**  
**Untuk keluar dari pengguna**  
`logout-user`Contoh berikut log out pengguna tertentu.  

```
aws chime logout-user \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --user-id a1b2c3d4-5678-90ab-cdef-22222EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [LogoutUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/logout-user.html)di *Referensi AWS CLI Perintah*. 

### `regenerate-security-token`
<a name="chime_RegenerateSecurityToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`regenerate-security-token`.

**AWS CLI**  
**Untuk meregenerasi token keamanan**  
`regenerate-security-token`Contoh berikut meregenerasi token keamanan untuk bot yang ditentukan.  

```
aws chime regenerate-security-token \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --bot-id 123abcd4-5ef6-789g-0h12-34j56789012k
```
Output:  

```
{
    "Bot": {
        "BotId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "UserId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "DisplayName": "myBot (Bot)",
        "BotType": "ChatBot",
        "Disabled": false,
        "CreatedTimestamp": "2019-09-09T18:05:56.749Z",
        "UpdatedTimestamp": "2019-09-09T18:05:56.749Z",
        "BotEmail": "myBot-chimebot@example.com",
        "SecurityToken": "je7MtGbClwBF/2Zp9Utk/h3yCo8nvbEXAMPLEKEY"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi Permintaan Bot Obrolan](https://docs.aws.amazon.com/chime/latest/dg/auth-bots.html) di *Panduan Pengembang Amazon Chime*.  
+  Untuk detail API, lihat [RegenerateSecurityToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/regenerate-security-token.html)di *Referensi AWS CLI Perintah*. 

### `reset-personal-pin`
<a name="chime_ResetPersonalPin_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-personal-pin`.

**AWS CLI**  
**Untuk mengatur ulang PIN rapat pribadi pengguna**  
`reset-personal-pin`Contoh berikut mengatur ulang PIN rapat pribadi pengguna yang ditentukan.  

```
aws chime reset-personal-pin \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
    --user-id a1b2c3d4-5678-90ab-cdef-22222EXAMPLE
```
Output:  

```
{
    "User": {
        "UserId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
        "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "PrimaryEmail": "mateo@example.com",
        "DisplayName": "Mateo Jackson",
        "LicenseType": "Pro",
        "UserType": "PrivateUser",
        "UserRegistrationStatus": "Registered",
        "RegisteredOn": "2018-12-20T18:45:25.231Z",
        "AlexaForBusinessMetadata": {
            "IsAlexaForBusinessEnabled": False,
            "AlexaForBusinessRoomArn": "null"
        },
        "PersonalPIN": "XXXXXXXXXX"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengubah Rapat Pribadi PINs](https://docs.aws.amazon.com/chime/latest/ag/change-PINs.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [ResetPersonalPin](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/reset-personal-pin.html)di *Referensi AWS CLI Perintah*. 

### `restore-phone-number`
<a name="chime_RestorePhoneNumber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-phone-number`.

**AWS CLI**  
**Untuk mengembalikan nomor telepon**  
`restore-phone-number`Contoh berikut mengembalikan nomor telepon yang ditentukan dari antrian penghapusan.  

```
aws chime restore-phone-number \
    --phone-number-id "+12065550100"
```
Output:  

```
{
    "PhoneNumber": {
        "PhoneNumberId": "%2B12065550100",
        "E164PhoneNumber": "+12065550100",
        "Type": "Local",
        "ProductType": "BusinessCalling",
        "Status": "Unassigned",
        "Capabilities": {
            "InboundCall": true,
            "OutboundCall": true,
            "InboundSMS": true,
            "OutboundSMS": true,
            "InboundMMS": true,
            "OutboundMMS": true
        },
        "Associations": [],
        "CreatedTimestamp": "2019-08-09T21:35:21.445Z",
        "UpdatedTimestamp": "2019-08-12T22:06:36.355Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [RestorePhoneNumber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/restore-phone-number.html)di *Referensi AWS CLI Perintah*. 

### `search-available-phone-numbers`
<a name="chime_SearchAvailablePhoneNumbers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-available-phone-numbers`.

**AWS CLI**  
**Untuk mencari nomor telepon yang tersedia**  
`search-available-phone-numbers`Contoh berikut mencari nomor telepon yang tersedia berdasarkan kode area.  

```
aws chime search-available-phone-numbers \
    --area-code "206"
```
Output:  

```
{
    "E164PhoneNumbers": [
        "+12065550100",
        "+12065550101",
        "+12065550102",
        "+12065550103",
        "+12065550104",
        "+12065550105",
        "+12065550106",
        "+12065550107",
        "+12065550108",
        "+12065550109",
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [SearchAvailablePhoneNumbers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/search-available-phone-numbers.html)di *Referensi AWS CLI Perintah*. 

### `update-account-settings`
<a name="chime_UpdateAccountSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-account-settings`.

**AWS CLI**  
**Untuk memperbarui pengaturan untuk akun Anda**  
`update-account-settings`Contoh berikut menonaktifkan remote control layar bersama untuk akun Amazon Chime yang ditentukan.  

```
aws chime update-account-settings \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --account-settings DisableRemoteControl=true
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdateAccountSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-account-settings.html)di *Referensi AWS CLI Perintah*. 

### `update-account`
<a name="chime_UpdateAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-account`.

**AWS CLI**  
**Untuk memperbarui akun**  
`update-account`Contoh berikut memperbarui nama akun yang ditentukan.  

```
aws chime update-account \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --name MyAccountName
```
Output:  

```
{
    "Account": {
        "AwsAccountId": "111122223333",
        "AccountId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "Name": "MyAccountName",
        "AccountType": "Team",
        "CreatedTimestamp": "2018-09-04T21:44:22.292Z",
        "DefaultLicense": "Pro",
        "SupportedLicenses": [
            "Basic",
            "Pro"
        ],
        "SigninDelegateGroups": [
            {
                "GroupName": "myGroup"
            },
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mengganti Nama Akun Anda](https://docs.aws.amazon.com/chime/latest/ag/rename-account.html) di Panduan Administrasi *Amazon Chime*.  
+  Untuk detail API, lihat [UpdateAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-account.html)di *Referensi AWS CLI Perintah*. 

### `update-bot`
<a name="chime_UpdateBot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-bot`.

**AWS CLI**  
**Untuk memperbarui bot**  
`update-bot`Contoh berikut memperbarui status bot yang ditentukan untuk menghentikannya berjalan.  

```
aws chime update-bot \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --bot-id 123abcd4-5ef6-789g-0h12-34j56789012k \
    --disabled
```
Output:  

```
{
    "Bot": {
        "BotId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "UserId": "123abcd4-5ef6-789g-0h12-34j56789012k",
        "DisplayName": "myBot (Bot)",
        "BotType": "ChatBot",
        "Disabled": true,
        "CreatedTimestamp": "2019-09-09T18:05:56.749Z",
        "UpdatedTimestamp": "2019-09-09T18:05:56.749Z",
        "BotEmail": "myBot-chimebot@example.com",
        "SecurityToken": "je7MtGbClwBF/2Zp9Utk/h3yCo8nvbEXAMPLEKEY"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Bot Obrolan](https://docs.aws.amazon.com/chime/latest/dg/update-bots.html) di Panduan *Pengembang Amazon Chime*.  
+  Untuk detail API, lihat [UpdateBot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-bot.html)di *Referensi AWS CLI Perintah*. 

### `update-global-settings`
<a name="chime_UpdateGlobalSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-global-settings`.

**AWS CLI**  
**Untuk memperbarui setelan global**  
`update-global-settings`Contoh berikut memperbarui bucket S3 yang digunakan untuk menyimpan catatan detail panggilan untuk Amazon Chime Business Calling dan Amazon Chime Voice Connectors yang terkait dengan akun administrator. AWS   

```
aws chime update-global-settings \
    --business-calling CdrBucket="s3bucket" \
    --voice-connector CdrBucket="s3bucket"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Pengaturan Global](https://docs.aws.amazon.com/chime/latest/ag/manage-global.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [UpdateGlobalSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-global-settings.html)di *Referensi AWS CLI Perintah*. 

### `update-phone-number-settings`
<a name="chime_UpdatePhoneNumberSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-phone-number-settings`.

**AWS CLI**  
**Untuk memperbarui nama panggilan keluar**  
`update-phone-number-settings`Contoh berikut memperbarui nama panggilan keluar default untuk AWS akun administrator.  

```
aws chime update-phone-number-settings \
    --calling-name "myName"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [UpdatePhoneNumberSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-phone-number-settings.html)di *Referensi AWS CLI Perintah*. 

### `update-phone-number`
<a name="chime_UpdatePhoneNumber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-phone-number`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui jenis produk untuk nomor telepon**  
`update-phone-number`Contoh berikut memperbarui jenis produk nomor telepon yang ditentukan.  

```
aws chime update-phone-number \
    --phone-number-id "+12065550100" \
    --product-type "BusinessCalling"
```
Output:  

```
{
    "PhoneNumber": {
        "PhoneNumberId": "%2B12065550100",
        "E164PhoneNumber": "+12065550100",
        "Type": "Local",
        "ProductType": "BusinessCalling",
        "Status": "Unassigned",
        "Capabilities": {
            "InboundCall": true,
            "OutboundCall": true,
            "InboundSMS": true,
            "OutboundSMS": true,
            "InboundMMS": true,
            "OutboundMMS": true
        },
        "Associations": [],
        "CallingName": "phonenumber1",
        "CreatedTimestamp": "2019-08-09T21:35:21.445Z",
        "UpdatedTimestamp": "2019-08-12T21:44:07.591Z"
    }
}
```
**Contoh 2: Untuk memperbarui nama panggilan keluar untuk nomor telepon**  
`update-phone-number`Contoh berikut memperbarui nama panggilan keluar untuk nomor telepon yang ditentukan.  
aws chime update-phone-number -- phone-number-id “\$112065550100" --calling-name “phonenumber2"  
Output:  

```
{
    "PhoneNumber": {
        "PhoneNumberId": "%2B12065550100",
        "E164PhoneNumber": "+12065550100",
        "Type": "Local",
        "ProductType": "BusinessCalling",
        "Status": "Unassigned",
        "Capabilities": {
            "InboundCall": true,
            "OutboundCall": true,
            "InboundSMS": true,
            "OutboundSMS": true,
            "InboundMMS": true,
            "OutboundMMS": true
        },
        "Associations": [],
        "CallingName": "phonenumber2",
        "CreatedTimestamp": "2019-08-09T21:35:21.445Z",
        "UpdatedTimestamp": "2019-08-12T21:44:07.591Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Nomor Telepon](https://docs.aws.amazon.com/chime/latest/ag/phone-numbers.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [UpdatePhoneNumber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-phone-number.html)di *Referensi AWS CLI Perintah*. 

### `update-room-membership`
<a name="chime_UpdateRoomMembership_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-room-membership`.

**AWS CLI**  
**Untuk memperbarui keanggotaan kamar**  
`update-room-membership`Contoh berikut memodifikasi peran anggota ruang obrolan yang ditentukan untuk`Administrator`.  

```
aws chime update-room-membership \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --room-id abcd1e2d-3e45-6789-01f2-3g45h67i890j \
    --member-id 1ab2345c-67de-8901-f23g-45h678901j2k \
    --role Administrator
```
Output:  

```
{
    "RoomMembership": {
        "RoomId": "abcd1e2d-3e45-6789-01f2-3g45h67i890j",
        "Member": {
            "MemberId": "1ab2345c-67de-8901-f23g-45h678901j2k",
            "MemberType": "User",
            "Email": "sofiamartinez@example.com",
            "FullName": "Sofia Martinez",
            "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45"
        },
        "Role": "Administrator",
        "InvitedBy": "arn:aws:iam::111122223333:user/admin",
        "UpdatedTimestamp": "2019-12-02T22:40:22.931Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [UpdateRoomMembership](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-room-membership.html)di *Referensi AWS CLI Perintah*. 

### `update-room`
<a name="chime_UpdateRoom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-room`.

**AWS CLI**  
**Untuk memperbarui ruang obrolan**  
`update-room`Contoh berikut memodifikasi nama ruang obrolan yang ditentukan.  

```
aws chime update-room \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --room-id abcd1e2d-3e45-6789-01f2-3g45h67i890j \
    --name teamRoom
```
Output:  

```
{
    "Room": {
        "RoomId": "abcd1e2d-3e45-6789-01f2-3g45h67i890j",
        "Name": "teamRoom",
        "AccountId": "12a3456b-7c89-012d-3456-78901e23fg45",
        "CreatedBy": "arn:aws:iam::111122223333:user/alejandro",
        "CreatedTimestamp": "2019-12-02T22:29:31.549Z",
        "UpdatedTimestamp": "2019-12-02T22:33:19.310Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Ruang Obrolan](https://docs.aws.amazon.com/chime/latest/ug/chime-chat-room.html) di *Panduan Pengguna Amazon Chime*.  
+  Untuk detail API, lihat [UpdateRoom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-room.html)di *Referensi AWS CLI Perintah*. 

### `update-user-settings`
<a name="chime_UpdateUserSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-settings`.

**AWS CLI**  
**Untuk memperbarui setelan pengguna**  
`update-user-settings`Contoh berikut memungkinkan pengguna yang ditentukan untuk melakukan panggilan masuk dan keluar dan mengirim dan menerima pesan SMS.  

```
aws chime update-user-settings \
    --account-id 12a3456b-7c89-012d-3456-78901e23fg45 \
    --user-id 1ab2345c-67de-8901-f23g-45h678901j2k \
    --user-settings "Telephony={InboundCalling=true,OutboundCalling=true,SMS=true}"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Nomor Telepon Pengguna](https://docs.aws.amazon.com/chime/latest/ag/user-phone.html) di Panduan *Administrasi Amazon Chime*.  
+  Untuk detail API, lihat [UpdateUserSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-user-settings.html)di *Referensi AWS CLI Perintah*. 

### `update-user`
<a name="chime_UpdateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user`.

**AWS CLI**  
**Untuk memperbarui detail pengguna**  
Contoh ini memperbarui detail yang ditentukan untuk pengguna yang ditentukan.  
Perintah:  

```
aws chime update-user \
    --account-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --user-id a1b2c3d4-5678-90ab-cdef-22222EXAMPLE \
    --license-type "Basic"
```
Output:  

```
{
    "User": {
        "UserId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE"
    }
}
```
+  Untuk detail API, lihat [UpdateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/chime/update-user.html)di *Referensi AWS CLI Perintah*. 

# Contoh Cloud Control API menggunakan AWS CLI
<a name="cli_2_cloudcontrol_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan AWS Command Line Interface with Cloud Control API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-resource`
<a name="cloudcontrol_CreateResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource`.

**AWS CLI**  
**Untuk membuat sumber daya**  
`create-resource`Contoh berikut membuat sumber daya AWS: :Kinesis: :Stream, bernama ResourceExample, dengan periode retensi 168 jam dan hitungan pecahan tiga.  

```
aws cloudcontrol create-resource \
    --type-name AWS::Kinesis::Stream \
    --desired-state "{\"Name\": \"ResourceExample\",\"RetentionPeriodHours\":168, \"ShardCount\":3}"
```
Output:  

```
{
    "ProgressEvent": {
        "EventTime": 1632506656.706,
        "TypeName": "AWS::Kinesis::Stream",
        "OperationStatus": "IN_PROGRESS",
        "Operation": "CREATE",
        "Identifier": "ResourceExample",
        "RequestToken": "20999d87-e304-4725-ad84-832dcbfd7fc5"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat sumber daya](https://docs.aws.amazon.com/cloudcontrolapi/latest/userguide/resource-operations-create.html) di *Panduan Pengguna Cloud Control API*.  
+  Untuk detail API, lihat [CreateResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudcontrol/create-resource.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource`
<a name="cloudcontrol_DeleteResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource`.

**AWS CLI**  
**Untuk menghapus sumber daya**  
`delete-resource`Contoh berikut menghapus sumber daya AWS: :Kinesis: :Stream dengan pengenal ResourceExample dari akun Anda. AWS   

```
aws cloudcontrol delete-resource \
    --type-name AWS::Kinesis::Stream \
    --identifier ResourceExample
```
Output:  

```
{
    "ProgressEvent": {
        "TypeName": "AWS::Kinesis::Stream",
        "Identifier": "ResourceExample",
        "RequestToken": "e48f26ff-d0f9-4ab8-a878-120db1edf111",
        "Operation": "DELETE",
        "OperationStatus": "IN_PROGRESS",
        "EventTime": 1632950300.14
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus sumber daya](https://docs.aws.amazon.com/cloudcontrolapi/latest/userguide/resource-operations-delete.html) di *Panduan Pengguna Cloud Control API*.  
+  Untuk detail API, lihat [DeleteResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudcontrol/delete-resource.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-request-status`
<a name="cloudcontrol_GetResourceRequestStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-request-status`.

**AWS CLI**  
**Untuk mendapatkan informasi status permintaan sumber daya**  
`get-resource-request-status`Contoh berikut mengembalikan informasi status tentang permintaan sumber daya yang ditentukan.  

```
aws cloudcontrol get-resource-request-status \
    --request-token "e1a6b86e-46bd-41ac-bfba-001234567890"
```
Output:  

```
{
    "ProgressEvent": {
        "TypeName": "AWS::Kinesis::Stream",
        "Identifier": "Demo",
        "RequestToken": "e1a6b86e-46bd-41ac-bfba-001234567890",
        "Operation": "CREATE",
        "OperationStatus": "FAILED",
        "EventTime": 1632950268.481,
        "StatusMessage": "Resource of type 'AWS::Kinesis::Stream' with identifier 'Demo' already exists.",
        "ErrorCode": "AlreadyExists"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola permintaan pengoperasian sumber daya](https://docs.aws.amazon.com/cloudcontrolapi/latest/userguide/resource-operations-manage-requests.html) di *Panduan Pengguna Cloud Control API*.  
+  Untuk detail API, lihat [GetResourceRequestStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudcontrol/get-resource-request-status.html)di *Referensi AWS CLI Perintah*. 

### `get-resource`
<a name="cloudcontrol_GetResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource`.

**AWS CLI**  
**Untuk mendapatkan status sumber daya saat ini**  
`get-resource`Contoh berikut mengembalikan keadaan saat ini dari AWS: :Kinesis: :Stream sumber daya bernama. ResourceExample  

```
aws cloudcontrol get-resource \
    --type-name AWS::Kinesis::Stream \
    --identifier ResourceExample
```
Output:  

```
{
    "TypeName": "AWS::Kinesis::Stream",
    "ResourceDescription": {
        "Identifier": "ResourceExample",
        "Properties": "{\"Arn\":\"arn:aws:kinesis:us-west-2:099908667365:stream/ResourceExample\",\"RetentionPeriodHours\":168,\"Name\":\"ResourceExample\",\"ShardCount\":3}"
    }
}
```
Untuk informasi selengkapnya, lihat [Membaca status sumber daya saat ini](https://docs.aws.amazon.com/cloudcontrolapi/latest/userguide/resource-operations-read.html) di *Panduan Pengguna Cloud Control API*.  
+  Untuk detail API, lihat [GetResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudcontrol/get-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-requests`
<a name="cloudcontrol_ListResourceRequests_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-requests`.

**AWS CLI**  
**Untuk membuat daftar permintaan operasi sumber daya aktif**  
`list-resource-requests`Contoh berikut mencantumkan permintaan sumber daya untuk operasi CREATE dan UPDATE yang gagal di AWS akun Anda.  

```
aws cloudcontrol list-resource-requests \
    --resource-request-status-filter Operations=CREATE,OperationStatuses=FAILED
```
Output:  

```
{
    "ResourceRequestStatusSummaries": [
        {
            "TypeName": "AWS::Kinesis::Stream",
            "Identifier": "Demo",
            "RequestToken": "e1a6b86e-46bd-41ac-bfba-633abcdfdbd7",
            "Operation": "CREATE",
            "OperationStatus": "FAILED",
            "EventTime": 1632950268.481,
            "StatusMessage": "Resource of type 'AWS::Kinesis::Stream' with identifier 'Demo' already exists.",
            "ErrorCode": "AlreadyExists"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola permintaan pengoperasian sumber daya](https://docs.aws.amazon.com/cloudcontrolapi/latest/userguide/resource-operations-manage-requests.html) di *Panduan Pengguna Cloud Control API*.  
+  Untuk detail API, lihat [ListResourceRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudcontrol/list-resource-requests.html)di *Referensi AWS CLI Perintah*. 

### `list-resources`
<a name="cloudcontrol_ListResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber daya dari jenis tertentu**  
`list-resources`Contoh berikut mencantumkan sumber daya AWS: :Kinesis: :Stream yang disediakan di akun Anda. AWS   

```
aws cloudcontrol list-resources \
    --type-name AWS::Kinesis::Stream
```
Output:  

```
{
    "TypeName": "AWS::Kinesis::Stream",
    "ResourceDescriptions": [
        {
            "Identifier": "MyKinesisStream",
            "Properties": "{\"Name\":\"MyKinesisStream\"}"
        },
        {
            "Identifier": "AnotherStream",
            "Properties": "{\"Name\":\"AnotherStream\"}"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menemukan sumber daya](https://docs.aws.amazon.com/cloudcontrolapi/latest/userguide/resource-operations-list.html) di *Panduan Pengguna Cloud Control API*.  
+  Untuk detail API, lihat [ListResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudcontrol/list-resources.html)di *Referensi AWS CLI Perintah*. 

### `update-resource`
<a name="cloudcontrol_UpdateResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resource`.

**AWS CLI**  
**Untuk memperbarui properti sumber daya yang ada**  
`update-resource`Contoh berikut memperbarui kebijakan retensi LogGroup sumber daya AWS: :Logs:: yang diberi nama ExampleLogGroup menjadi 90 hari.  

```
aws cloudcontrol update-resource \
    --type-name AWS::Logs::LogGroup \
    --identifier ExampleLogGroup \
    --patch-document "[{\"op\":\"replace\",\"path\":\"/RetentionInDays\",\"value\":90}]"
```
Output:  

```
{
    "ProgressEvent": {
        "EventTime": "2021-08-09T18:17:15.219Z",
        "TypeName": "AWS::Logs::LogGroup",
        "OperationStatus": "IN_PROGRESS",
        "Operation": "UPDATE",
        "Identifier": "ExampleLogGroup",
        "RequestToken": "5f40c577-3534-4b20-9599-0b0123456789"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui sumber daya](https://docs.aws.amazon.com/cloudcontrolapi/latest/userguide/resource-operations-update.html) di *Panduan Pengguna Cloud Control API*.  
+  Untuk detail API, lihat [UpdateResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudcontrol/update-resource.html)di *Referensi AWS CLI Perintah*. 

# AWS Cloud Map contoh menggunakan AWS CLI
<a name="cli_2_servicediscovery_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Cloud Map.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-http-namespace`
<a name="servicediscovery_CreateHttpNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-http-namespace`.

**AWS CLI**  
**Untuk membuat namespace HTTP**  
`create-http-namespace`Contoh berikut membuat namespace `example.com` HTTP.  

```
aws servicediscovery create-http-namespace \
    --name example.com \
    --creator-request-id example-request-id
```
Output:  

```
{
    "OperationId": "gv4g5meo7ndmeh4fqskygvk23d2fijwa-k9302yzd"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`. Untuk informasi selengkapnya, lihat [get-operation](https://docs.aws.amazon.com/cli/latest/reference/servicediscovery/get-operation.html).  
Untuk informasi selengkapnya tentang membuat namespace, lihat [Membuat namespace AWS Cloud Map untuk mengelompokkan layanan aplikasi](https://docs.aws.amazon.com/cloud-map/latest/dg/creating-namespaces.html) di Panduan Pengembang *AWS Cloud* Map.  
+  Untuk detail API, lihat [CreateHttpNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/create-http-namespace.html)di *Referensi AWS CLI Perintah*. 

### `create-private-dns-namespace`
<a name="servicediscovery_CreatePrivateDnsNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-private-dns-namespace`.

**AWS CLI**  
**Untuk membuat namespace DNS pribadi**  
`create-private-dns-namespace`Contoh berikut membuat namespace DNS pribadi.  

```
aws servicediscovery create-private-dns-namespace \
    --name example.com \
    --vpc vpc-1c56417b
```
Output:  

```
{
    "OperationId": "gv4g5meo7ndmeh4fqskygvk23d2fijwa-k9302yzd"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`. Untuk informasi selengkapnya, lihat [get-operation](https://docs.aws.amazon.com/cli/latest/reference/servicediscovery/get-operation.html).  
Untuk informasi selengkapnya, lihat [Membuat ruang nama](https://docs.aws.amazon.com/cloud-map/latest/dg/creating-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [CreatePrivateDnsNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/create-private-dns-namespace.html)di *Referensi AWS CLI Perintah*. 

### `create-public-dns-namespace`
<a name="servicediscovery_CreatePublicDnsNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-public-dns-namespace`.

**AWS CLI**  
**Untuk membuat namespace DNS publik**  
`create-public-dns-namespace`Contoh berikut membuat `example.com` namespace DNS publik.  

```
aws servicediscovery create-public-dns-namespace \
    --name example-public-dns.com \
    --creator-request-id example-public-request-id \
    --properties DnsProperties={SOA={TTL=60}}
```
Output:  

```
{
    "OperationId": "gv4g5meo7ndmeh4fqskygvk23d2fijwa-k9302yzd"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`.  
Untuk informasi selengkapnya tentang membuat namespace, lihat [Membuat namespace AWS Cloud Map untuk mengelompokkan layanan aplikasi](https://docs.aws.amazon.com/cloud-map/latest/dg/creating-namespaces.html) di Panduan Pengembang *AWS Cloud* Map.  
+  Untuk detail API, lihat [CreatePublicDnsNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/create-public-dns-namespace.html)di *Referensi AWS CLI Perintah*. 

### `create-service`
<a name="servicediscovery_CreateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service`.

**AWS CLI**  
**Contoh 1: Untuk membuat layanan menggunakan ID namespace**  
`create-service`Contoh berikut menciptakan layanan.  

```
aws servicediscovery create-service \
    --name myservice \
    --namespace-id  ns-ylexjili4cdxy3xm \
    --dns-config "RoutingPolicy=MULTIVALUE,DnsRecords=[{Type=A,TTL=60}]"
```
Output:  

```
{
    "Service": {
        "Id": "srv-abcd1234xmpl5678",
        "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678",
        "ResourceOwner": "123456789012",
        "Name": "myservice",
        "NamespaceId": "ns-abcd1234xmpl5678",
        "DnsConfig": {
            "NamespaceId": "ns-abcd1234xmpl5678",
            "RoutingPolicy": "MULTIVALUE",
            "DnsRecords": [
                {
                    "Type": "A",
                    "TTL": 60
                }
            ]
        },
        "Type": "DNS_HTTP",
        "CreateDate": "2025-08-18T13:45:31.023000-05:00",
        "CreatorRequestId": "abcd1234-5678-90ab-cdef-xmpl12345678",
        "CreatedByAccount": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat layanan AWS Cloud Map untuk komponen aplikasi](https://docs.aws.amazon.com/cloud-map/latest/dg/creating-services.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk membuat layanan menggunakan namespace ARN**  
`create-service`Contoh berikut membuat layanan menggunakan namespace ARN bukan ID namespace. Menentukan namespace ARN diperlukan saat membuat layanan di namespace bersama.  

```
aws servicediscovery create-service \
    --name myservice-arn \
    --namespace-id arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678 \
    --dns-config "RoutingPolicy=MULTIVALUE,DnsRecords=[{Type=A,TTL=60}]"
```
Output:  

```
{
    "Service": {
        "Id": "srv-abcd1234xmpl5678",
        "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678",
        "ResourceOwner": "123456789012",
        "Name": "myservice-arn",
        "NamespaceId": "ns-abcd1234xmpl5678",
        "DnsConfig": {
            "NamespaceId": "ns-abcd1234xmpl5678",
            "RoutingPolicy": "MULTIVALUE",
            "DnsRecords": [
                {
                    "Type": "A",
                    "TTL": 60
                }
            ]
        },
        "Type": "DNS_HTTP",
        "CreateDate": "2025-08-18T13:45:31.023000-05:00",
        "CreatorRequestId": "abcd1234-5678-90ab-cdef-xmpl12345678",
        "CreatedByAccount": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [CreateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/create-service.html)di *Referensi AWS CLI Perintah*. 

### `delete-namespace`
<a name="servicediscovery_DeleteNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-namespace`.

**AWS CLI**  
**Contoh 1: Untuk menghapus namespace**  
`delete-namespace`Contoh berikut menghapus namespace.  

```
aws servicediscovery delete-namespace \
    --id ns-abcd1234xmpl5678
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`. Untuk informasi selengkapnya, lihat [get-operation](https://docs.aws.amazon.com/cli/latest/reference/servicediscovery/get-operation.html).  
Untuk informasi selengkapnya, lihat [Menghapus namespace AWS Cloud Map di Panduan](https://docs.aws.amazon.com/cloud-map/latest/dg/deleting-namespaces.html) Pengembang *AWS Cloud Map*.  
**Contoh 2: Untuk menghapus namespace menggunakan namespace ARN**  
`delete-namespace`Contoh berikut menghapus namespace menggunakan ARN nya.  

```
aws servicediscovery delete-namespace \
    --id arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk informasi selengkapnya, lihat [Menghapus namespace AWS Cloud Map di Panduan](https://docs.aws.amazon.com/cloud-map/latest/dg/deleting-namespaces.html) Pengembang *AWS Cloud Map*.  
+  Untuk detail API, lihat [DeleteNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/delete-namespace.html)di *Referensi AWS CLI Perintah*. 

### `delete-service-attributes`
<a name="servicediscovery_DeleteServiceAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service-attributes`.

**AWS CLI**  
**Contoh 1: Untuk menghapus atribut layanan**  
`delete-service-attributes`Contoh berikut menghapus atribut layanan dengan kunci `Port` yang terkait dengan layanan tertentu.  

```
aws servicediscovery delete-service-attributes \
    --service-id srv-abcd1234xmpl5678 \
    --attributes Port
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-services.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk menghapus atribut layanan menggunakan ARN**  
`delete-service-attributes`Contoh berikut menghapus atribut layanan menggunakan layanan ARN. Menentukan ARN diperlukan untuk menghapus atribut yang terkait dengan layanan yang dibuat di ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery delete-service-attributes \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678 \
    --attributes Port
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-services.html) dan [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [DeleteServiceAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/delete-service-attributes.html)di *Referensi AWS CLI Perintah*. 

### `delete-service`
<a name="servicediscovery_DeleteService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service`.

**AWS CLI**  
**Contoh 1: Untuk menghapus layanan**  
`delete-service`Contoh berikut menghapus layanan.  

```
aws servicediscovery delete-service \
    --id srv-abcd1234xmpl5678
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/deleting-services.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk menghapus layanan menggunakan ARN**  
`delete-service`Contoh berikut menghapus layanan menggunakan ARN nya.  

```
aws servicediscovery delete-service \
    --id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/deleting-services.html) di *Panduan Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [DeleteService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/delete-service.html)di *Referensi AWS CLI Perintah*. 

### `deregister-instance`
<a name="servicediscovery_DeregisterInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-instance`.

**AWS CLI**  
**Contoh 1: Untuk membatalkan pendaftaran instance layanan**  
`deregister-instance`Contoh berikut membatalkan pendaftaran instance layanan.  

```
aws servicediscovery deregister-instance \
    --service-id srv-p5zdwlg5uvvzjita \
    --instance-id myservice-53
```
Output:  

```
{
    "OperationId": "4yejorelbukcjzpnr6tlmrghsjwpngf4-k98rnaiq"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`. Untuk informasi selengkapnya, lihat [get-operation](https://docs.aws.amazon.com/cli/latest/reference/servicediscovery/get-operation.html).  
Untuk informasi selengkapnya, lihat [membatalkan pendaftaran instance layanan](https://docs.aws.amazon.com/cloud-map/latest/dg/deregistering-instances.html) di Panduan Pengembang *AWS Cloud* Map.  
**Contoh 2: Untuk membatalkan pendaftaran instance layanan menggunakan layanan ARN untuk ruang nama bersama**  
`deregister-instance`Contoh berikut membatalkan pendaftaran instance layanan menggunakan layanan ARN bukan ID layanan. Menentukan ARN diperlukan saat membatalkan pendaftaran instance dari layanan yang dibuat di ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery deregister-instance \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-p5zdwlg5uvvzjita \
    --instance-id web-server-01
```
Output:  

```
{
    "OperationId": "gv4g5meo7ndmkqjrhpn39wk42xmpl"
}
```
Untuk informasi selengkapnya, lihat [Ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) dan [Membatalkan pendaftaran instance layanan Cloud AWS Map di Panduan Pengembang](https://docs.aws.amazon.com/cloud-map/latest/dg/deregistering-instances.html) Cloud *AWS Map*.  
+  Untuk detail API, lihat [DeregisterInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/deregister-instance.html)di *Referensi AWS CLI Perintah*. 

### `discover-instances-revision`
<a name="servicediscovery_DiscoverInstancesRevision_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`discover-instances-revision`.

**AWS CLI**  
**Contoh 1: Untuk menemukan revisi sebuah instance**  
`discover-instances-revision`Contoh berikut menemukan revisi yang meningkat dari sebuah instance.  

```
aws servicediscovery discover-instances-revision \
    --namespace-name example.com \
    --service-name myservice
```
Output:  

```
{
    "InstancesRevision": 123456
}
```
Untuk informasi selengkapnya, lihat [instance layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk menemukan revisi instance dari akun pemilik tertentu**  
`discover-instances-revision`Contoh berikut menemukan revisi instance dari akun pemilik tertentu. Parameter pemilik-akun diperlukan untuk instance di ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery discover-instances-revision \
    --namespace-name shared-namespace \
    --service-name shared-service \
    --owner-account 123456789111
```
Output:  

```
{
    "InstancesRevision": 1234567890
}
```
Untuk informasi selengkapnya, lihat [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) dan [instance layanan AWS Cloud Map di Panduan](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-instances.html) Pengembang *AWS Cloud Map*.  
+  Untuk detail API, lihat [DiscoverInstancesRevision](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/discover-instances-revision.html)di *Referensi AWS CLI Perintah*. 

### `discover-instances`
<a name="servicediscovery_DiscoverInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`discover-instances`.

**AWS CLI**  
**Contoh 1: Untuk menemukan instance terdaftar**  
`discover-instances`Contoh berikut menemukan contoh terdaftar.  

```
aws servicediscovery discover-instances \
    --namespace-name example.com \
    --service-name myservice \
    --max-results 10 \
    --health-status ALL
```
Output:  

```
{
    "Instances": [
        {
            "InstanceId": "myservice-53",
            "NamespaceName": "example.com",
            "ServiceName": "myservice",
            "HealthStatus": "UNKNOWN",
            "Attributes": {
                "AWS_INSTANCE_IPV4": "172.2.1.3",
                "AWS_INSTANCE_PORT": "808"
            }
        }
    ],
    "InstancesRevision": 85648075627387284
}
```
Untuk informasi selengkapnya, lihat [instance layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk menemukan instance dari akun pemilik tertentu**  
`discover-instances`Contoh berikut menemukan instance terdaftar dari akun pemilik tertentu. Parameter ini diperlukan untuk menemukan instance di ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery discover-instances \
    --namespace-name shared-namespace \
    --service-name shared-service \
    --owner-account 123456789111
```
Output:  

```
{
    "Instances": [
        {
            "InstanceId": "shared-instance-1234",
            "NamespaceName": "shared-namespace",
            "ServiceName": "shared-service",
            "HealthStatus": "HEALTHY",
            "Attributes": {
                "AWS_INSTANCE_IPV4": "203.0.113.75",
                "AWS_INSTANCE_PORT": "80"
            }
        }
    ],
    "InstancesRevision": 1234567890
}
```
Untuk informasi selengkapnya, lihat [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) dan [instance layanan AWS Cloud Map di Panduan](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-instances.html) Pengembang *AWS Cloud Map*.  
+  Untuk detail API, lihat [DiscoverInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/discover-instances.html)di *Referensi AWS CLI Perintah*. 

### `get-instance`
<a name="servicediscovery_GetInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan detail dari sebuah instance**  
`get-instance`Contoh berikut mendapatkan atribut layanan.  

```
aws servicediscovery get-instance \
    --service-id srv-e4anhexample0004
    --instance-id i-abcd1234
```
Output:  

```
{
    "ResourceOwner": "123456789012",
    "Instance": {
        "Id": "arn:aws:servicediscovery:us-west-2:111122223333;:service/srv-e4anhexample0004",
        "Attributes": {
            "AWS_INSTANCE_IPV4": "192.0.2.44",
            "AWS_INSTANCE_PORT": "80",
            "color": "green",
            "region": "us-west-2",
            "stage": "beta"
        },
        "CreatedByAccount": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [instance layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk mendapatkan detail instance menggunakan layanan ARN untuk ruang nama bersama**  
`get-instance`Contoh berikut mendapatkan atribut dari sebuah instance menggunakan layanan ARN bukan ID layanan. Menentukan ARN diperlukan saat mendapatkan detail instance yang terkait dengan ruang nama yang dibagikan dengan akun Anda. Instance yang dikembalikan dalam contoh ini didaftarkan oleh akun `123456789111` di namespace yang dimiliki oleh akun. `123456789012`  

```
aws servicediscovery get-instance \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-p5zdwlg5uvvzjita \
    --instance-id web-server-01
```
Output:  

```
{
    "ResourceOwner": "123456789012",
    "Instance": {
        "Id": "web-server-01",
        "Attributes": {
            "AWS_INSTANCE_IPV4": "203.0.113.15",
            "AWS_INSTANCE_PORT": "80"
        },
        "CreatedByAccount": "123456789111"
    }
}
```
*Untuk informasi selengkapnya tentang berbagi namespace lintas akun, lihat Ruang [nama AWS Cloud Map Bersama di Panduan Pengembang](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) Cloud Map AWS .*  
+  Untuk detail API, lihat [GetInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/get-instance.html)di *Referensi AWS CLI Perintah*. 

### `get-instances-health-status`
<a name="servicediscovery_GetInstancesHealthStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instances-health-status`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan status kesehatan dari instans yang terkait dengan layanan**  
`get-instances-health-status`Contoh berikut mendapatkan status kesehatan instance yang terkait dengan layanan yang ditentukan.  

```
aws servicediscovery get-instances-health-status \
    --service-id srv-e4anhexample0004
```
Output:  

```
{
    "Status": {
        "i-abcd1234": "HEALTHY",
        "i-abcd1235": "UNHEALTHY"
    }
}
```
Untuk informasi selengkapnya, lihat [instance layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk mendapatkan status kesehatan instance menggunakan layanan ARN untuk ruang nama bersama**  
`get-instances-health-status`Contoh berikut mendapatkan status kesehatan instance menggunakan layanan ARN bukan ID layanan. Menentukan ARN diperlukan saat mendapatkan status kesehatan untuk instance yang terkait dengan ruang nama yang dibagikan dengan akun pemohon.  

```
aws servicediscovery get-instances-health-status \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-p5zdwlg5uvvzjita
```
Output:  

```
{
    "Status": {
        "web-server-01": "HEALTHY",
        "web-server-02": "UNHEALTHY"
    }
}
```
Untuk informasi selengkapnya, lihat [instance layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-instances.html) dan [ruang nama Shared AWS Cloud Map di Panduan](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) Pengembang *AWS Cloud Map*.  
+  Untuk detail API, lihat [GetInstancesHealthStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/get-instances-health-status.html)di *Referensi AWS CLI Perintah*. 

### `get-namespace`
<a name="servicediscovery_GetNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-namespace`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan detail namespace**  
`get-namespace`Contoh berikut mengambil informasi tentang namespace yang ditentukan.  

```
aws servicediscovery get-namespace \
    --id ns-abcd1234xmpl5678
```
Output:  

```
{
    "Namespace": {
        "Id": "ns-abcd1234xmpl5678",
        "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678",
        "ResourceOwner": "123456789012",
        "Name": "example-http.com",
        "Type": "HTTP",
        "Description": "Example.com AWS Cloud Map HTTP Namespace",
        "Properties": {
            "DnsProperties": {},
            "HttpProperties": {
                "HttpName": "example-http.com"
            }
        },
        "CreateDate": "2024-02-23T13:35:21.874000-06:00",
        "CreatorRequestId": "abcd1234-5678-90ab-cdef-xmpl12345678"
    }
}
```
Untuk informasi selengkapnya, lihat [ruang nama AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk mendapatkan detail namespace menggunakan ARN**  
`get-namespace`Contoh berikut mengambil informasi tentang namespace yang ditentukan menggunakan ARN nya. Menentukan ARN diperlukan untuk mengambil detail namespace yang dibagikan dengan akun Anda.  

```
aws servicediscovery get-namespace \
    --id arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678
```
Output:  

```
{
    "Namespace": {
        "Id": "ns-abcd1234xmpl5678",
        "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678",
        "ResourceOwner": "123456789012",
        "Name": "example-http.com",
        "Type": "HTTP",
        "Description": "Example.com AWS Cloud Map HTTP Namespace",
        "Properties": {
            "DnsProperties": {},
            "HttpProperties": {
                "HttpName": "example-http.com"
            }
        },
        "CreateDate": "2024-02-23T13:35:21.874000-06:00",
        "CreatorRequestId": "abcd1234-5678-90ab-cdef-xmpl12345678"
    }
}
```
Untuk informasi selengkapnya, lihat [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [GetNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/get-namespace.html)di *Referensi AWS CLI Perintah*. 

### `get-operation`
<a name="servicediscovery_GetOperation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-operation`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan hasil operasi**  
`get-operation`Contoh berikut mendapatkan hasil dari operasi pembuatan namespace.  

```
aws servicediscovery get-operation \
    --operation-id abcd1234xmpl5678abcd1234xmpl5678-abcd1234
```
Output:  

```
{
    "Operation": {
        "Id": "abcd1234xmpl5678abcd1234xmpl5678-abcd1234",
        "Type": "CREATE_NAMESPACE",
        "Status": "SUCCESS",
        "CreateDate": "2025-01-13T13:35:21.874000-06:00",
        "UpdateDate": "2025-01-13T13:36:02.469000-06:00",
        "Targets": {
            "NAMESPACE": "ns-abcd1234xmpl5678"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat namespace AWS Cloud Map untuk mengelompokkan layanan aplikasi](https://docs.aws.amazon.com/cloud-map/latest/dg/creating-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk mendapatkan operasi dari akun pemilik tertentu**  
`get-operation`Contoh berikut mendapatkan hasil operasi yang terkait dengan akun pemilik namespace tertentu. Parameter ini diperlukan untuk mendapatkan hasil operasi yang terkait dengan ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery get-operation \
    --operation-id abcd1234xmpl5678abcd1234xmpl5678-abcd1234 \
    --owner-account 123456789111
```
Output:  

```
{
    "Operation": {
        "Id": "abcd1234xmpl5678abcd1234xmpl5678-abcd1234",
        "OwnerAccount": "123456789111",
        "Type": "CREATE_NAMESPACE",
        "Status": "SUCCESS",
        "CreateDate": "2025-01-13T13:35:21.874000-06:00",
        "UpdateDate": "2025-01-13T13:36:02.469000-06:00",
        "Targets": {
            "NAMESPACE": "ns-abcd1234xmpl5678"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [GetOperation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/get-operation.html)di *Referensi AWS CLI Perintah*. 

### `get-service-attributes`
<a name="servicediscovery_GetServiceAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-attributes`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan atribut layanan**  
`get-service-attributes`Contoh berikut mendapatkan atribut layanan.  

```
aws servicediscovery get-service-attributes \
    --service-id srv-abcd1234xmpl5678
```
Output:  

```
{
    "ServiceAttributes": {
        "ServiceArn": "arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678",
        "ResourceOwner": "123456789012",
        "Attributes": {
            "Port": "80"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-services.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk mendapatkan atribut layanan menggunakan ARN**  
`get-service-attributes`Contoh berikut mendapatkan atribut layanan menggunakan ARN nya. Menentukan ARN diperlukan untuk mendapatkan atribut layanan yang dibuat di namespace yang dibagikan dengan akun Anda.  

```
aws servicediscovery get-service-attributes \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678
```
Output:  

```
{
    "ServiceAttributes": {
        "ServiceArn": "arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678",
        "ResourceOwner": "123456789012",
        "Attributes": {
            "Port": "80"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-services.html) dan [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [GetServiceAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/get-service-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-service`
<a name="servicediscovery_GetService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan pengaturan layanan**  
`get-service`Contoh berikut mendapatkan pengaturan layanan tertentu.  

```
aws servicediscovery get-service \
    --id srv-abcd1234xmpl5678
```
Output:  

```
{
    "Service": {
        "Id": "srv-abcd1234xmpl5678",
        "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678",
        "ResourceOwner": "123456789012",
        "Name": "test-service",
        "NamespaceId": "ns-abcd1234xmpl5678",
        "DnsConfig": {},
        "Type": "HTTP",
        "CreateDate": "2025-08-18T13:53:02.775000-05:00",
        "CreatorRequestId": "abcd1234-5678-90ab-cdef-xmpl12345678",
        "CreatedByAccount": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-services.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk mendapatkan pengaturan layanan menggunakan ARN**  
`get-service`Contoh berikut mendapatkan pengaturan layanan tertentu menggunakan ARN nya. Menentukan ARN diperlukan saat mengambil informasi tentang layanan yang dibuat di namespace yang dibagikan dengan akun Anda. Akun penelepon `123456789111` membuat layanan di namespace yang dibagikan oleh akun. `123456789012`  

```
aws servicediscovery get-service \
    --id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678
```
Output:  

```
{
    "Service": {
        "Id": "srv-abcd1234xmpl5678",
        "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678",
        "ResourceOwner": "123456789012",
        "Name": "test-service",
        "NamespaceId": "ns-abcd1234xmpl5678",
        "DnsConfig": {},
        "Type": "HTTP",
        "CreateDate": "2025-08-18T13:53:02.775000-05:00",
        "CreatorRequestId": "abcd1234-5678-90ab-cdef-xmpl12345678",
        "CreatedByAccount": "123456789111"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat layanan AWS Cloud Map untuk komponen aplikasi](https://docs.aws.amazon.com/cloud-map/latest/dg/creating-services.html) dan [ruang nama Shared AWS Cloud Map di Panduan](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [GetService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/get-service.html)di *Referensi AWS CLI Perintah*. 

### `list-instances`
<a name="servicediscovery_ListInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-instances`.

**AWS CLI**  
**Contoh 1: Untuk daftar instance layanan**  
`list-instances`Contoh berikut mencantumkan instance layanan.  

```
aws servicediscovery list-instances \
    --service-id srv-qzpwvt2tfqcegapy
```
Output:  

```
{
    "Instances": [
        {
            "Id": "i-06bdabbae60f65a4e",
            "Attributes": {
                "AWS_INSTANCE_IPV4": "172.2.1.3",
                "AWS_INSTANCE_PORT": "808"
            },
            "CreatedByAccount": "123456789012"
        }
    ],
    "ResourceOwner": "123456789012"
}
```
Untuk informasi selengkapnya, lihat [AWS Mencantumkan instance layanan Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/listing-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk daftar instance layanan menggunakan layanan ARN**  
`list-instances`Contoh berikut mencantumkan instance layanan menggunakan ARN layanan, bukan ID layanan. Menentukan ARN diperlukan saat mencantumkan instance yang terkait dengan ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery list-instances \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-p5zdwlg5uvvzjita
```
Output:  

```
{
    "ResourceOwner": "123456789012",
    "Instances": [
        {
            "Id": "web-server-01",
            "Attributes": {
                "AWS_INSTANCE_IPV4": "203.0.113.15",
                "AWS_INSTANCE_PORT": "80"
            },
            "CreatedByAccount": "123456789012"
        },
        {
            "Id": "web-server-02",
            "Attributes": {
                "AWS_INSTANCE_IPV4": "203.0.113.16",
                "AWS_INSTANCE_PORT": "80"
            },
            "CreatedByAccount": "123456789012"
        }
    ]
}
```
*Untuk informasi selengkapnya tentang berbagi namespace lintas akun, lihat Ruang [nama AWS Cloud Map Bersama dan Mencantumkan instance](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) [layanan AWS Cloud Map di](https://docs.aws.amazon.com/cloud-map/latest/dg/listing-instances.html) Panduan Pengembang Cloud AWS Map.*  
+  Untuk detail API, lihat [ListInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/list-instances.html)di *Referensi AWS CLI Perintah*. 

### `list-namespaces`
<a name="servicediscovery_ListNamespaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-namespaces`.

**AWS CLI**  
**Contoh 1: Untuk daftar ruang nama**  
`list-namespaces`Contoh berikut mencantumkan ruang nama.  

```
aws servicediscovery list-namespaces
```
Output:  

```
{
    "Namespaces": [
        {
            "Id": "ns-abcd1234xmpl5678",
            "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678",
            "ResourceOwner": "123456789012",
            "Name": "local",
            "Type": "DNS_PRIVATE",
            "Properties": {
                "DnsProperties": {
                    "HostedZoneId": "Z06752353VBUDTC32S84S",
                    "SOA": {}
                },
                "HttpProperties": {
                    "HttpName": "local"
                 }
            },
            "CreateDate": "2023-07-17T13:37:27.872000-05:00"
        },
        {
            "Id": "ns-abcd1234xmpl9012",
            "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl9012",
            "ResourceOwner": "123456789012",
            "Name": "My-second-namespace",
            "Type": "HTTP",
            "Description": "My second namespace",
            "Properties": {
                "DnsProperties": {
                    "SOA": {}
                },
                "HttpProperties": {
                    "HttpName": "My-second-namespace"
                }
            },
            "CreateDate": "2023-11-14T10:35:47.840000-06:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencantumkan ruang nama AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/listing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk daftar ruang nama yang dibagikan oleh akun lain**  
`list-namespaces`Contoh berikut mencantumkan ruang nama yang dibagikan dengan akun pemanggil oleh AWS akun lain menggunakan filter. `RESOURCE_OWNER`  

```
aws servicediscovery list-namespaces \
    --filters Name=RESOURCE_OWNER,Values=OTHER_ACCOUNTS,Condition=EQ
```
Output:  

```
{
    "Namespaces": [
        {
            "Id": "ns-abcd1234xmpl5678",
            "Arn": "arn:aws:servicediscovery:us-west-2:123456789111:namespace/ns-abcd1234xmpl5678",
            "ResourceOwner": "123456789111",
            "Name": "shared-namespace",
            "Type": "HTTP",
            "Description": "Namespace shared from another account",
            "Properties": {
                "DnsProperties": {
                    "SOA": {}
                },
                "HttpProperties": {
                    "HttpName": "shared-namespace"
                }
            },
            "CreateDate": "2025-01-13T13:35:21.874000-06:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [ListNamespaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/list-namespaces.html)di *Referensi AWS CLI Perintah*. 

### `list-operations`
<a name="servicediscovery_ListOperations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-operations`.

**AWS CLI**  
**Untuk membuat daftar operasi yang memenuhi kriteria yang ditentukan**  
`list-operations`Contoh berikut mencantumkan operasi yang memiliki status `PENDING` atau`SUCCESS`.  

```
aws servicediscovery list-operations \
    --service-id srv-e4anhexample0004 \
    --filters Name=STATUS,Condition=IN,Values=PENDING,SUCCESS
```
Output:  

```
{
    "Operations": [
        {
            "Id": "76yy8ovhpdz0plmjzbsnqgnrqvpv2qdt-kexample",
            "Status": "SUCCESS"
        },
        {
            "Id": "prysnyzpji3u2ciy45nke83x2zanl7yk-dexample",
            "Status": "SUCCESS"
        },
        {
            "Id": "ko4ekftir7kzlbechsh7xvcdgcpk66gh-7example",
            "Status": "PENDING"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Apa itu AWS Cloud Map?](https://docs.aws.amazon.com/cloud-map/latest/dg/what-is-cloud-map.html) di *Panduan Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [ListOperations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/list-operations.html)di *Referensi AWS CLI Perintah*. 

### `list-services`
<a name="servicediscovery_ListServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-services`.

**AWS CLI**  
**Contoh 1: Untuk daftar layanan**  
`list-services`Contoh berikut mencantumkan layanan.  

```
aws servicediscovery list-services
```
Output:  

```
{
    "Services": [
        {
            "Id": "srv-p5zdwlg5uvvzjita",
            "Arn": "arn:aws:servicediscovery:us-west-2:123456789012:service/srv-p5zdwlg5uvvzjita",
            "Name": "myservice",
            "DnsConfig": {
                "RoutingPolicy": "MULTIVALUE",
                "DnsRecords": [
                    {
                        "Type": "A",
                        "TTL": 60
                    }
                ]
            },
            "CreateDate": 1587081768.334
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [AWS Mencantumkan layanan Cloud Map di namespace](https://docs.aws.amazon.com/cloud-map/latest/dg/listing-services.html) di Panduan *Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk daftar layanan yang dibuat di ruang nama bersama**  
`list-services`Contoh berikut mencantumkan layanan yang dibuat di ruang nama yang dibagikan dengan akun pemanggil `123456789012` oleh AWS akun lain menggunakan filter. `RESOURCE_OWNER`  

```
aws servicediscovery list-services \
    --filters Name=RESOURCE_OWNER,Values=OTHER_ACCOUNTS,Condition=EQ
```
Output:  

```
{
    "Services": [
        {
            "Id": "srv-abcd1234xmpl5678",
            "Arn": "arn:aws:servicediscovery:us-west-2:123456789111:service/srv-abcd1234xmpl5678",
            "ResourceOwner": "123456789111",
            "Name": "shared-service",
            "NamespaceId": "ns-abcd1234xmpl5678",
            "Type": "HTTP",
            "Description": "Service in shared namespace",
            "DnsConfig": {},
            "CreateDate": "2025-01-13T13:35:21.874000-06:00",
            "CreatorRequestId": "abcd1234-5678-90ab-cdef-xmpl12345678",
            "CreatedByAccount": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) dan [mencantumkan layanan AWS Cloud Map di namespace](https://docs.aws.amazon.com/cloud-map/latest/dg/listing-services.html) di Panduan Pengembang *AWS Cloud* Map.  
+  Untuk detail API, lihat [ListServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/list-services.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="servicediscovery_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag yang terkait dengan sumber daya yang ditentukan**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk sumber daya yang ditentukan.  

```
aws servicediscovery list-tags-for-resource \
    --resource-arn arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-e4anhexample0004
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Project",
            "Value": "Zeta"
        },
        {
            "Key": "Department",
            "Value": "Engineering"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai resource AWS Cloud Map Anda](https://docs.aws.amazon.com/cloud-map/latest/dg/listing-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `register-instance`
<a name="servicediscovery_RegisterInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-instance`.

**AWS CLI**  
**Contoh 1: Untuk mendaftarkan instance layanan menggunakan ID layanan**  
`register-instance`Contoh berikut mendaftarkan instance layanan.  

```
aws servicediscovery register-instance \
    --service-id srv-p5zdwlg5uvvzjita \
    --instance-id myservice-53 \
    --attributes=AWS_INSTANCE_IPV4=172.2.1.3,AWS_INSTANCE_PORT=808
```
Output:  

```
{
    "OperationId": "4yejorelbukcjzpnr6tlmrghsjwpngf4-k95yg2u7"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`. Untuk informasi selengkapnya, lihat [get-operation](https://docs.aws.amazon.com/cli/latest/reference/servicediscovery/get-operation.html).  
Untuk informasi selengkapnya tentang mendaftarkan instance, lihat [Mendaftarkan sumber daya sebagai instance layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/registering-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk mendaftarkan instance layanan menggunakan layanan ARN**  
`register-instance`Contoh berikut mendaftarkan instance layanan menggunakan layanan ARN. Menentukan ARN diperlukan saat mendaftarkan instance di layanan yang dibagikan dengan akun Anda.  

```
aws servicediscovery register-instance \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-p5zdwlg5uvvzjita \
    --instance-id web-server-01 \
    --attributes=AWS_INSTANCE_IPV4=203.0.113.15,AWS_INSTANCE_PORT=80
```
Output:  

```
{
    "OperationId": "gv4g5meo7ndmkqjrhpn39wk42xmpl"
}
```
*Untuk informasi selengkapnya tentang berbagi namespace lintas akun, lihat Ruang [nama AWS Cloud Map Bersama di Panduan Pengembang](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) Cloud Map AWS .*  
+  Untuk detail API, lihat [RegisterInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/register-instance.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="servicediscovery_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk mengaitkan tag dengan sumber daya yang ditentukan**  
`tag-resource`Contoh berikut mengaitkan `Department` tag dengan nilai `Engineering` dengan namespace yang ditentukan.  

```
aws servicediscovery tag-resource \
    --resource-arn arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-e4anhexample0004 \
    --tags Key=Department, Value=Engineering
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai resource AWS Cloud Map Anda](https://docs.aws.amazon.com/cloud-map/latest/dg/listing-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="servicediscovery_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya yang ditentukan**  
`untag-resource`Contoh berikut menghapus `Department` tag dari namespace tertentu.  

```
aws servicediscovery untag-resource \
    --resource-arn arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-e4anhexample0004 \
    --tags Key=Department, Value=Engineering
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai resource AWS Cloud Map Anda](https://docs.aws.amazon.com/cloud-map/latest/dg/listing-instances.html) di *Panduan Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-http-namespace`
<a name="servicediscovery_UpdateHttpNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-http-namespace`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui namespace HTTP**  
`update-http-namespace`Contoh berikut memperbarui deskripsi namespace HTTP yang ditentukan.  

```
aws servicediscovery update-http-namespace \
    --id ns-abcd1234xmpl5678 \
    --updater-request-id abcd1234-5678-90ab-cdef-xmpl12345678 \
    --namespace Description="The updated namespace description."
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`. Untuk informasi selengkapnya, lihat [get-operation](https://docs.aws.amazon.com/cli/latest/reference/servicediscovery/get-operation.html).  
Untuk informasi selengkapnya, lihat [ruang nama AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk memperbarui namespace HTTP menggunakan ARN**  
`update-http-namespace`Contoh berikut memperbarui namespace HTTP yang ditentukan menggunakan ARN nya.  

```
aws servicediscovery update-http-namespace \
    --id arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678 \
    --updater-request-id abcd1234-5678-90ab-cdef-xmpl12345678 \
    --namespace Description="The updated namespace description."
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk informasi selengkapnya, lihat [ruang nama AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [UpdateHttpNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/update-http-namespace.html)di *Referensi AWS CLI Perintah*. 

### `update-instance-custom-health-status`
<a name="servicediscovery_UpdateInstanceCustomHealthStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-instance-custom-health-status`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui pemeriksaan kesehatan khusus**  
`update-instance-custom-health-status`Contoh berikut memperbarui status pemeriksaan kesehatan kustom untuk layanan tertentu dan contoh contoh layanan ke`HEALTHY`.  

```
aws servicediscovery update-instance-custom-health-status \
    --service-id srv-e4anhexample0004 \
    --instance-id example \
    --status HEALTHY
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [konfigurasi pemeriksaan kesehatan layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/services-health-checks.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk memperbarui pemeriksaan kesehatan khusus menggunakan layanan ARN**  
`update-instance-custom-health-status`Contoh berikut memperbarui status pemeriksaan kesehatan kustom menggunakan layanan ARN. ARN diperlukan saat memperbarui status kesehatan untuk instance yang terkait dengan ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery update-instance-custom-health-status \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-p5zdwlg5uvvzjita \
    --instance-id web-server-01 \
    --status HEALTHY
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [konfigurasi pemeriksaan kesehatan layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/services-health-checks.html) dan [berbagi namespace AWS Cloud Map Lintas akun di Panduan](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) Pengembang *AWS Cloud Map*.  
+  Untuk detail API, lihat [UpdateInstanceCustomHealthStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/update-instance-custom-health-status.html)di *Referensi AWS CLI Perintah*. 

### `update-private-dns-namespace`
<a name="servicediscovery_UpdatePrivateDnsNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-private-dns-namespace`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui namespace DNS pribadi menggunakan ID**  
`update-private-dns-namespace`Contoh berikut memperbarui deskripsi namespace DNS pribadi menggunakan ID namespace.  

```
aws servicediscovery update-private-dns-namespace \
    --id ns-abcd1234xmpl5678 \
    --updater-request-id abcd1234-5678-90ab-cdef-xmpl12345678 \
    --namespace Description="The updated namespace description."
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`.  
Untuk informasi selengkapnya, lihat [ruang nama AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk memperbarui namespace DNS pribadi menggunakan ARN**  
`update-private-dns-namespace`Contoh berikut memperbarui namespace DNS pribadi menggunakan ARN nya.  

```
aws servicediscovery update-private-dns-namespace \
    --id arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678 \
    --updater-request-id abcd1234-5678-90ab-cdef-xmpl12345678 \
    --namespace Description="The updated namespace description."
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk informasi selengkapnya, lihat [ruang nama AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [UpdatePrivateDnsNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/update-private-dns-namespace.html)di *Referensi AWS CLI Perintah*. 

### `update-public-dns-namespace`
<a name="servicediscovery_UpdatePublicDnsNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-public-dns-namespace`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui namespace DNS publik menggunakan ID**  
`update-public-dns-namespace`Contoh berikut memperbarui deskripsi namespace DNS publik menggunakan ID-nya.  

```
aws servicediscovery update-public-dns-namespace \
    --id ns-abcd1234xmpl5678 \
    --updater-request-id abcd1234-5678-90ab-cdef-xmpl12345678 \
    --namespace Description="The updated namespace description."
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`.  
Untuk informasi selengkapnya, lihat [ruang nama AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk memperbarui namespace DNS publik menggunakan ARN**  
`update-public-dns-namespace`Contoh berikut memperbarui namespace DNS publik menggunakan ARN nya.  

```
aws servicediscovery update-public-dns-namespace \
    --id arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-abcd1234xmpl5678 \
    --updater-request-id abcd1234-5678-90ab-cdef-xmpl12345678 \
    --namespace Description="The updated namespace description."
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk informasi selengkapnya, lihat [ruang nama AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [UpdatePublicDnsNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/update-public-dns-namespace.html)di *Referensi AWS CLI Perintah*. 

### `update-service-attributes`
<a name="servicediscovery_UpdateServiceAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service-attributes`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui layanan untuk menambahkan atribut**  
`update-service-attributes`Contoh berikut memperbarui layanan tertentu untuk menambahkan atribut layanan dengan kunci `Port` dan nilai`80`.  

```
aws servicediscovery update-service-attributes \
    --service-id srv-abcd1234xmpl5678 \
    --attributes Port=80
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-services.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk memperbarui atribut layanan menggunakan ARN**  
`update-service-attributes`Contoh berikut memperbarui layanan menggunakan ARN untuk menambahkan atribut layanan. Menentukan ARN diperlukan untuk menambahkan atribut ke layanan yang dibuat di ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery update-service-attributes \
    --service-id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678 \
    --attributes Port=80
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/working-with-services.html) dan [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [UpdateServiceAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/update-service-attributes.html)di *Referensi AWS CLI Perintah*. 

### `update-service`
<a name="servicediscovery_UpdateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui layanan**  
`update-service`Contoh berikut memperbarui layanan untuk memperbarui `DnsConfig` dan `HealthCheckConfig` pengaturan.  

```
aws servicediscovery update-service \
    --id srv-abcd1234xmpl5678 \
    --service "DnsConfig={DnsRecords=[{Type=A,TTL=60}]},HealthCheckConfig={Type=HTTP,ResourcePath=/,FailureThreshold=2}"
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation`.  
Untuk informasi selengkapnya tentang memperbarui layanan, lihat [Memperbarui layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/editing-services.html) di *Panduan Pengembang AWS Cloud Map*.  
**Contoh 2: Untuk memperbarui layanan menggunakan ARN**  
`update-service`Contoh berikut memperbarui layanan menggunakan ARN nya. Menentukan ARN diperlukan untuk layanan yang dibuat di ruang nama yang dibagikan dengan akun Anda.  

```
aws servicediscovery update-service \
    --id arn:aws:servicediscovery:us-west-2:123456789012:service/srv-abcd1234xmpl5678 \
    --service "DnsConfig={DnsRecords=[{Type=A,TTL=60}]},HealthCheckConfig={Type=HTTP,ResourcePath=/,FailureThreshold=2}"
```
Output:  

```
{
    "OperationId": "abcd1234-5678-90ab-cdef-xmpl12345678"
}
```
Untuk informasi selengkapnya tentang memperbarui layanan, lihat [Memperbarui layanan AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/editing-services.html) dan [ruang nama Shared AWS Cloud Map](https://docs.aws.amazon.com/cloud-map/latest/dg/sharing-namespaces.html) di Panduan *Pengembang AWS Cloud Map*.  
+  Untuk detail API, lihat [UpdateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicediscovery/update-service.html)di *Referensi AWS CLI Perintah*. 

# AWS Cloud9 contoh menggunakan AWS CLI
<a name="cli_2_cloud9_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Cloud9.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-environment-ec2`
<a name="cloud9_CreateEnvironmentEc2_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-environment-ec2`.

**AWS CLI**  
**Untuk membuat lingkungan pengembangan AWS Cloud9 EC2**  
`create-environment-ec2`Contoh berikut ini membuat lingkungan pengembangan AWS Cloud9 dengan pengaturan yang ditentukan, meluncurkan instance Amazon Elastic Compute Cloud (Amazon EC2), dan kemudian menghubungkan dari instance ke lingkungan.  

```
aws cloud9 create-environment-ec2 \
    --name my-demo-env \
    --description "My demonstration development environment." \
    --instance-type t2.micro --image-id amazonlinux-2023-x86_64 \
    --subnet-id subnet-1fab8aEX \
    --automatic-stop-time-minutes 60 \
    --owner-arn arn:aws:iam::123456789012:user/MyDemoUser
```
Output:  

```
{
    "environmentId": "8a34f51ce1e04a08882f1e811bd706EX"
}
```
Untuk informasi selengkapnya, lihat [Membuat Lingkungan EC2 di Panduan](https://docs.aws.amazon.com/cloud9/latest/user-guide/create-environment-main.html) Pengguna *AWS Cloud9*.  
+  Untuk detail API, lihat [CreateEnvironmentEc2](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/create-environment-ec2.html) di *Referensi AWS CLI Perintah*. 

### `create-environment-membership`
<a name="cloud9_CreateEnvironmentMembership_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-environment-membership`.

**AWS CLI**  
**Untuk menambahkan anggota lingkungan ke lingkungan pengembangan AWS Cloud9**  
Contoh ini menambahkan anggota lingkungan yang ditentukan ke lingkungan pengembangan AWS Cloud9 yang ditentukan.  
Perintah:  

```
aws cloud9 create-environment-membership --environment-id 8a34f51ce1e04a08882f1e811bd706EX --user-arn arn:aws:iam::123456789012:user/AnotherDemoUser --permissions read-write
```
Output:  

```
{
  "membership": {
    "environmentId": "8a34f51ce1e04a08882f1e811bd706EX",
    "userId": "AIDAJ3LOROMOUXTBSU6EX",
    "userArn": "arn:aws:iam::123456789012:user/AnotherDemoUser",
    "permissions": "read-write"
  }
}
```
+  Untuk detail API, lihat [CreateEnvironmentMembership](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/create-environment-membership.html)di *Referensi AWS CLI Perintah*. 

### `delete-environment-membership`
<a name="cloud9_DeleteEnvironmentMembership_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-environment-membership`.

**AWS CLI**  
**Untuk menghapus anggota lingkungan dari lingkungan pengembangan AWS Cloud9**  
Contoh ini menghapus anggota lingkungan yang ditentukan dari lingkungan pengembangan AWS Cloud9 yang ditentukan.  
Perintah:  

```
aws cloud9 delete-environment-membership --environment-id 8a34f51ce1e04a08882f1e811bd706EX --user-arn arn:aws:iam::123456789012:user/AnotherDemoUser
```
Output:  

```
None.
```
+  Untuk detail API, lihat [DeleteEnvironmentMembership](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/delete-environment-membership.html)di *Referensi AWS CLI Perintah*. 

### `delete-environment`
<a name="cloud9_DeleteEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-environment`.

**AWS CLI**  
**Untuk menghapus lingkungan pengembangan AWS Cloud9**  
Contoh ini menghapus lingkungan pengembangan AWS Cloud9 yang ditentukan. Jika instans Amazon EC2 terhubung ke lingkungan, juga menghentikan instance.  
Perintah:  

```
aws cloud9 delete-environment --environment-id 8a34f51ce1e04a08882f1e811bd706EX
```
Output:  

```
None.
```
+  Untuk detail API, lihat [DeleteEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/delete-environment.html)di *Referensi AWS CLI Perintah*. 

### `describe-environment-memberships`
<a name="cloud9_DescribeEnvironmentMemberships_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-environment-memberships`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang anggota lingkungan untuk lingkungan pengembangan AWS Cloud9**  
Contoh ini mendapatkan informasi tentang anggota lingkungan untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.  
Perintah:  

```
aws cloud9 describe-environment-memberships --environment-id 8a34f51ce1e04a08882f1e811bd706EX
```
Output:  

```
{
  "memberships": [
    {
      "environmentId": "8a34f51ce1e04a08882f1e811bd706EX",
      "userId": "AIDAJ3LOROMOUXTBSU6EX",
      "userArn": "arn:aws:iam::123456789012:user/AnotherDemoUser",
      "permissions": "read-write"
    },
    {
      "environmentId": "8a34f51ce1e04a08882f1e811bd706EX",
      "userId": "AIDAJNUEDQAQWFELJDLEX",
      "userArn": "arn:aws:iam::123456789012:user/MyDemoUser",
      "permissions": "owner"
    }
  ]
}
```
**Untuk mendapatkan informasi tentang pemilik lingkungan pengembangan AWS Cloud9**  
Contoh ini mendapatkan informasi tentang pemilik lingkungan pengembangan AWS Cloud9 yang ditentukan.  
Perintah:  

```
aws cloud9 describe-environment-memberships --environment-id 8a34f51ce1e04a08882f1e811bd706EX --permissions owner
```
Output:  

```
{
  "memberships": [
    {
      "environmentId": "8a34f51ce1e04a08882f1e811bd706EX",
      "userId": "AIDAJNUEDQAQWFELJDLEX",
      "userArn": "arn:aws:iam::123456789012:user/MyDemoUser",
      "permissions": "owner"
    }
  ]
}
```
**Untuk mendapatkan informasi tentang anggota lingkungan untuk beberapa lingkungan pengembangan AWS Cloud9**  
Contoh ini mendapatkan informasi tentang anggota lingkungan yang ditentukan untuk beberapa lingkungan pengembangan AWS Cloud9.  
Perintah:  

```
aws cloud9 describe-environment-memberships --user-arn arn:aws:iam::123456789012:user/MyDemoUser
```
Output:  

```
{
  "memberships": [
    {
      "environmentId": "10a75714bd494714929e7f5ec4125aEX",
      "lastAccess": 1516213427.0,
      "userId": "AIDAJNUEDQAQWFELJDLEX",
      "userArn": "arn:aws:iam::123456789012:user/MyDemoUser",
      "permissions": "owner"
    },
    {
      "environmentId": "1980b80e5f584920801c09086667f0EX",
      "lastAccess": 1516144884.0,
      "userId": "AIDAJNUEDQAQWFELJDLEX",
      "userArn": "arn:aws:iam::123456789012:user/MyDemoUser",
      "permissions": "owner"
    }
  ]
}
```
+  Untuk detail API, lihat [DescribeEnvironmentMemberships](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/describe-environment-memberships.html)di *Referensi AWS CLI Perintah*. 

### `describe-environment-status`
<a name="cloud9_DescribeEnvironmentStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-environment-status`.

**AWS CLI**  
**Untuk mendapatkan informasi status untuk lingkungan pengembangan AWS Cloud9**  
Contoh ini mendapatkan informasi status untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.  
Perintah:  

```
aws cloud9 describe-environment-status --environment-id 685f892f431b45c2b28cb69eadcdb0EX
```
Output:  

```
{
  "status": "ready",
  "message": "Environment is ready to use"
}
```
+  Untuk detail API, lihat [DescribeEnvironmentStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/describe-environment-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-environments`
<a name="cloud9_DescribeEnvironments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-environments`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang lingkungan pengembangan AWS Cloud9**  
Contoh ini mendapatkan informasi tentang lingkungan pengembangan AWS Cloud9 yang ditentukan.  
Perintah:  

```
aws cloud9 describe-environments --environment-ids 685f892f431b45c2b28cb69eadcdb0EX 349c86d4579e4e7298d500ff57a6b2EX
```
Output:  

```
{
  "environments": [
    {
      "id": "685f892f431b45c2b28cb69eadcdb0EX",
      "name": "my-demo-ec2-env",
      "description": "Created from CodeStar.",
      "type": "ec2",
      "arn": "arn:aws:cloud9:us-east-1:123456789012:environment:685f892f431b45c2b28cb69eadcdb0EX",
      "ownerArn": "arn:aws:iam::123456789012:user/MyDemoUser",
      "lifecycle": {
        "status": "CREATED"
      }
    },
    {
      "id": "349c86d4579e4e7298d500ff57a6b2EX",
      "name": my-demo-ssh-env",
      "description": "",
      "type": "ssh",
      "arn": "arn:aws:cloud9:us-east-1:123456789012:environment:349c86d4579e4e7298d500ff57a6b2EX",
      "ownerArn": "arn:aws:iam::123456789012:user/MyDemoUser",
      "lifecycle": {
        "status": "CREATED"
      }
    }
  ]
}
```
+  Untuk detail API, lihat [DescribeEnvironments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/describe-environments.html)di *Referensi AWS CLI Perintah*. 

### `list-environments`
<a name="cloud9_ListEnvironments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-environments`.

**AWS CLI**  
**Untuk mendapatkan daftar pengidentifikasi lingkungan pengembangan AWS Cloud9 yang tersedia**  
Contoh ini mendapatkan daftar pengidentifikasi lingkungan pengembangan AWS Cloud9 yang tersedia.  
Perintah:  

```
aws cloud9 list-environments
```
Output:  

```
{
  "environmentIds": [
    "685f892f431b45c2b28cb69eadcdb0EX",
    "1980b80e5f584920801c09086667f0EX"
  ]
}
```
+  Untuk detail API, lihat [ListEnvironments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/list-environments.html)di *Referensi AWS CLI Perintah*. 

### `update-environment-membership`
<a name="cloud9_UpdateEnvironmentMembership_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-environment-membership`.

**AWS CLI**  
**Untuk mengubah pengaturan anggota lingkungan yang ada untuk lingkungan pengembangan AWS Cloud9**  
Contoh ini mengubah pengaturan anggota lingkungan yang ada yang ditentukan untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.  
Perintah:  

```
aws cloud9 update-environment-membership --environment-id 8a34f51ce1e04a08882f1e811bd706EX --user-arn arn:aws:iam::123456789012:user/AnotherDemoUser --permissions read-only
```
Output:  

```
{
  "membership": {
    "environmentId": "8a34f51ce1e04a08882f1e811bd706EX",
    "userId": "AIDAJ3LOROMOUXTBSU6EX",
    "userArn": "arn:aws:iam::123456789012:user/AnotherDemoUser",
    "permissions": "read-only"
  }
}
```
+  Untuk detail API, lihat [UpdateEnvironmentMembership](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/update-environment-membership.html)di *Referensi AWS CLI Perintah*. 

### `update-environment`
<a name="cloud9_UpdateEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-environment`.

**AWS CLI**  
**Untuk mengubah pengaturan lingkungan pengembangan AWS Cloud9 yang ada**  
Contoh ini mengubah pengaturan yang ditentukan dari lingkungan pengembangan AWS Cloud9 yang sudah ditentukan.  
Perintah:  

```
aws cloud9 update-environment --environment-id 8a34f51ce1e04a08882f1e811bd706EX --name my-changed-demo-env --description "My changed demonstration development environment."
```
Output:  

```
None.
```
+  Untuk detail API, lihat [UpdateEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloud9/update-environment.html)di *Referensi AWS CLI Perintah*. 

# CloudFormation contoh menggunakan AWS CLI
<a name="cli_2_cloudformation_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CloudFormation.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `activate-type`
<a name="cloudformation_ActivateType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`activate-type`.

**AWS CLI**  
**Untuk mengaktifkan tipe**  
`activate-type`Contoh berikut mengaktifkan ekstensi pihak ketiga publik, membuatnya tersedia untuk digunakan dalam template tumpukan.  

```
aws cloudformation activate-type \
    --region us-west-2 \
    --type RESOURCE \
    --type-name Example::Test::1234567890abcdef0 \
    --type-name-alias Example::Test::Alias
```
Output:  

```
{
    "Arn": "arn:aws:cloudformation:us-west-2:123456789012:type/resource/Example-Test-Alias"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [ActivateType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/activate-type.html)di *Referensi AWS CLI Perintah*. 

### `batch-describe-type-configurations`
<a name="cloudformation_BatchDescribeTypeConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-describe-type-configurations`.

**AWS CLI**  
**Untuk menggambarkan konfigurasi tipe secara batch**  
`batch-describe-type-configurations`Contoh berikut mengkonfigurasi data untuk tipe.  

```
aws cloudformation batch-describe-type-configurations \
    --region us-west-2 \
    --type-configuration-identifiers TypeArn="arn:aws:cloudformation:us-west-2:123456789012:type/resource/Example-Test-Type,TypeConfigurationAlias=MyConfiguration"
```
Output:  

```
{
    "Errors": [],
    "UnprocessedTypeConfigurations": [],
    "TypeConfigurations": [
        {
            "Arn": "arn:aws:cloudformation:us-west-2:123456789012:type/resource/Example-Test-Type",
            "Alias": "MyConfiguration",
            "Configuration": "{\n        \"Example\": {\n            \"ApiKey\": \"examplekey\",\n            \"ApplicationKey\": \"examplekey1\",\n            \"ApiURL\": \"exampleurl\"\n            }\n}",
            "LastUpdated": "2021-10-01T15:25:46.210000+00:00",
            "TypeArn": "arn:aws:cloudformation:us-east-1:123456789012:type/resource/Example-Test-Type"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [BatchDescribeTypeConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/batch-describe-type-configurations.html)di *Referensi AWS CLI Perintah*. 

### `cancel-update-stack`
<a name="cloudformation_CancelUpdateStack_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-update-stack`.

**AWS CLI**  
**Untuk membatalkan pembaruan tumpukan yang sedang berlangsung**  
`cancel-update-stack`Perintah berikut membatalkan pembaruan tumpukan pada `myteststack` tumpukan:  

```
aws cloudformation cancel-update-stack --stack-name myteststack
```
+  Untuk detail API, lihat [CancelUpdateStack](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/cancel-update-stack.html)di *Referensi AWS CLI Perintah*. 

### `continue-update-rollback`
<a name="cloudformation_ContinueUpdateRollback_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`continue-update-rollback`.

**AWS CLI**  
**Untuk mencoba kembali rollback pembaruan**  
`continue-update-rollback`Contoh berikut melanjutkan operasi rollback dari pembaruan tumpukan yang sebelumnya gagal.  

```
aws cloudformation continue-update-rollback \
    --stack-name my-stack
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [ContinueUpdateRollback](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/continue-update-rollback.html)di *Referensi AWS CLI Perintah*. 

### `create-change-set`
<a name="cloudformation_CreateChangeSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-change-set`.

**AWS CLI**  
**Untuk membuat set perubahan**  
`create-change-set`Contoh berikut membuat set perubahan dengan `CAPABILITY_IAM` kemampuan. File `template.yaml` adalah AWS CloudFormation template di folder saat ini yang mendefinisikan tumpukan yang menyertakan sumber daya IAM.  

```
aws cloudformation create-change-set \
    --stack-name my-application \
    --change-set-name my-change-set \
    --template-body file://template.yaml \
    --capabilities CAPABILITY_IAM
```
Output:  

```
{
    "Id": "arn:aws:cloudformation:us-west-2:123456789012:changeSet/my-change-set/bc9555ba-a949-xmpl-bfb8-f41d04ec5784",
    "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-application/d0a825a0-e4cd-xmpl-b9fb-061c69e99204"
}
```
+  Untuk detail API, lihat [CreateChangeSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/create-change-set.html)di *Referensi AWS CLI Perintah*. 

### `create-generated-template`
<a name="cloudformation_CreateGeneratedTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-generated-template`.

**AWS CLI**  
**Untuk membuat template yang dihasilkan dari sumber daya yang dipindai**  
`create-generated-template`Contoh berikut membuat template yang dihasilkan bernama `MyTemplate` dari sumber daya yang dipindai.  

```
aws cloudformation create-generated-template \
    --generated-template-name MyTemplate \
    --resources file://resources.json
```
Isi dari `resources.json`:  

```
[
    {
        "ResourceType": "AWS::EKS::Cluster",
        "LogicalResourceId":"MyCluster",
        "ResourceIdentifier": {
            "ClusterName": "MyAppClusterName"
        }
    },
    {
        "ResourceType": "AWS::AutoScaling::AutoScalingGroup",
        "LogicalResourceId":"MyASG",
        "ResourceIdentifier": {
            "AutoScalingGroupName": "MyAppASGName"
        }
    },
    {
        "ResourceType": "AWS::EKS::Nodegroup",
        "LogicalResourceId":"MyNodegroup",
        "ResourceIdentifier": {
            "NodegroupName": "MyAppNodegroupName"
        }
    },
    {
        "ResourceType": "AWS::IAM::Role",
        "LogicalResourceId":"MyRole",
        "ResourceIdentifier": {
            "RoleId": "arn:aws::iam::123456789012:role/MyAppIAMRole"
        }
    }
]
```
Output:  

```
{
  "Arn":
    "arn:aws:cloudformation:us-east-1:123456789012:generatedtemplate/7fc8512c-d8cb-4e02-b266-d39c48344e48",
  "Name": "MyTemplate"
}
```
Untuk informasi selengkapnya, lihat [Membuat CloudFormation templat dari sumber daya yang dipindai dengan generator IAc](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/iac-generator-create-template-from-scanned-resources.html) di *AWS CloudFormation Panduan Pengguna*.  
+  Untuk detail API, lihat [CreateGeneratedTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/create-generated-template.html)di *Referensi AWS CLI Perintah*. 

### `create-stack-instances`
<a name="cloudformation_CreateStackInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stack-instances`.

**AWS CLI**  
**Untuk membuat instance tumpukan**  
`create-stack-instances`Contoh berikut membuat instance dari tumpukan yang disetel dalam dua akun dan di empat wilayah. Pengaturan toleransi kesalahan memastikan bahwa pembaruan dicoba di semua akun dan wilayah, bahkan jika beberapa tumpukan tidak dapat dibuat.  

```
aws cloudformation create-stack-instances \
    --stack-set-name my-stack-set \
    --accounts 123456789012 223456789012 \
    --regions us-east-1 us-east-2 us-west-1 us-west-2 \
    --operation-preferences FailureToleranceCount=7
```
Output:  

```
{
    "OperationId": "d7995c31-83c2-xmpl-a3d4-e9ca2811563f"
}
```
Untuk membuat set tumpukan, gunakan `create-stack-set` perintah.  
+  Untuk detail API, lihat [CreateStackInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/create-stack-instances.html)di *Referensi AWS CLI Perintah*. 

### `create-stack-refactor`
<a name="cloudformation_CreateStackRefactor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stack-refactor`.

**AWS CLI**  
**Untuk membuat definisi tumpukan untuk operasi refactor tumpukan**  
`create-stack-refactor`Contoh berikut menciptakan definisi stack untuk stack refactoring.  

```
aws cloudformation create-stack-refactor \
    --stack-definitions \
      StackName=Stack1,TemplateBody@=file://template1-updated.yaml \
      StackName=Stack2,TemplateBody@=file://template2-updated.yaml
```
Output:  

```
{
    "StackRefactorId": "9c384f70-4e07-4ed7-a65d-fee5eb430841"
}
```
*Untuk informasi selengkapnya, lihat [Stack refactoring](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/stack-refactoring.html) di Panduan Pengguna.AWS CloudFormation *  
+  Untuk detail API, lihat [CreateStackRefactor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/create-stack-refactor.html)di *Referensi AWS CLI Perintah*. 

### `create-stack-set`
<a name="cloudformation_CreateStackSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stack-set`.

**AWS CLI**  
**Untuk membuat set tumpukan**  
`create-stack-set`Contoh berikut membuat kumpulan tumpukan menggunakan temlplate file YAMM yang ditentukan. `template.yaml`adalah AWS CloudFormation template di folder saat ini yang mendefinisikan tumpukan.  

```
aws cloudformation create-stack-set \
    --stack-set-name my-stack-set \
    --template-body file://template.yaml \
    --description "SNS topic"
```
Output:  

```
{
    "StackSetId": "my-stack-set:8d0f160b-d157-xmpl-a8e6-c0ce8e5d8cc1"
}
```
Untuk menambahkan instance tumpukan ke set tumpukan, gunakan `create-stack-instances` perintah.  
+  Untuk detail API, lihat [CreateStackSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/create-stack-set.html)di *Referensi AWS CLI Perintah*. 

### `create-stack`
<a name="cloudformation_CreateStack_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stack`.

**AWS CLI**  
**Untuk membuat AWS CloudFormation tumpukan**  
`create-stacks`Perintah berikut membuat tumpukan dengan nama `myteststack` menggunakan `sampletemplate.json` template:  

```
aws cloudformation create-stack --stack-name myteststack --template-body file://sampletemplate.json --parameters ParameterKey=KeyPairName,ParameterValue=TestKey ParameterKey=SubnetIDs,ParameterValue=SubnetID1\\,SubnetID2
```
Output:  

```
{
    "StackId": "arn:aws:cloudformation:us-east-1:123456789012:stack/myteststack/466df9e0-0dff-08e3-8e2f-5088487c4896"
}
```
Untuk informasi selengkapnya, lihat Tumpukan di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [CreateStack](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/create-stack.html)di *Referensi AWS CLI Perintah*. 

### `deactivate-type`
<a name="cloudformation_DeactivateType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deactivate-type`.

**AWS CLI**  
**Untuk menonaktifkan tipe**  
`deactivate-type`Contoh berikut menonaktifkan ekstensi publik yang sebelumnya diaktifkan di akun dan Wilayah ini.  

```
aws cloudformation deactivate-type \
    --region us-west-2 \
    --type MODULE \
    --type-name Example::Test::Type::MODULE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DeactivateType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/deactivate-type.html)di *Referensi AWS CLI Perintah*. 

### `delete-change-set`
<a name="cloudformation_DeleteChangeSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-change-set`.

**AWS CLI**  
**Untuk menghapus set perubahan**  
`delete-change-set`Contoh berikut menghapus set perubahan dengan menentukan nama set perubahan dan nama tumpukan.  

```
aws cloudformation delete-change-set \
    --stack-name my-stack \
    --change-set-name my-change-set
```
Perintah ini tidak menghasilkan output.  
`delete-change-set`Contoh berikut menghapus set perubahan dengan menentukan ARN lengkap dari set perubahan.  

```
aws cloudformation delete-change-set \
    --change-set-name arn:aws:cloudformation:us-east-2:123456789012:changeSet/my-change-set/4eca1a01-e285-xmpl-8026-9a1967bfb4b0
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteChangeSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/delete-change-set.html)di *Referensi AWS CLI Perintah*. 

### `delete-generated-template`
<a name="cloudformation_DeleteGeneratedTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-generated-template`.

**AWS CLI**  
**Untuk menghapus template yang dihasilkan**  
`delete-generated-template`Contoh berikut menghapus template yang ditentukan.  

```
aws cloudformation delete-generated-template \
    --generated-template-name MyTemplate
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat templat dari sumber daya yang ada](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/generate-IaC.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DeleteGeneratedTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/delete-generated-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-stack-instances`
<a name="cloudformation_DeleteStackInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stack-instances`.

**AWS CLI**  
**Untuk menghapus instance tumpukan**  
`delete-stack-instances`Contoh berikut menghapus instance tumpukan yang disetel dalam dua akun di dua wilayah dan mengakhiri tumpukan.  

```
aws cloudformation delete-stack-instances \
    --stack-set-name my-stack-set \
    --accounts 123456789012 567890123456 \
    --regions us-east-1 us-west-1 \
    --no-retain-stacks
```
Output:  

```
{
    "OperationId": "ad49f10c-fd1d-413f-a20a-8de6e2fa8f27"
}
```
Untuk menghapus kumpulan tumpukan kosong, gunakan `delete-stack-set` perintah.  
+  Untuk detail API, lihat [DeleteStackInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/delete-stack-instances.html)di *Referensi AWS CLI Perintah*. 

### `delete-stack-set`
<a name="cloudformation_DeleteStackSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stack-set`.

**AWS CLI**  
**Untuk menghapus set tumpukan**  
Perintah berikut menghapus set tumpukan kosong yang ditentukan. Set tumpukan harus kosong.  

```
aws cloudformation delete-stack-set \
    --stack-set-name my-stack-set
```
Perintah ini tidak menghasilkan output.  
Untuk menghapus instance dari kumpulan tumpukan, gunakan `delete-stack-instances` perintah.  
+  Untuk detail API, lihat [DeleteStackSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/delete-stack-set.html)di *Referensi AWS CLI Perintah*. 

### `delete-stack`
<a name="cloudformation_DeleteStack_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stack`.

**AWS CLI**  
**Untuk menghapus tumpukan**  
`delete-stack`Contoh berikut menghapus tumpukan yang ditentukan.  

```
aws cloudformation delete-stack \
    --stack-name my-stack
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteStack](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/delete-stack.html)di *Referensi AWS CLI Perintah*. 

### `deploy`
<a name="cloudformation_Deploy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deploy`.

**AWS CLI**  
Berikut perintah menyebarkan template bernama `template.json` ke tumpukan bernama`my-new-stack`:  

```
aws cloudformation deploy --template-file /path_to_template/template.json --stack-name my-new-stack --parameter-overrides Key1=Value1 Key2=Value2 --tags Key1=Value1 Key2=Value2
```
+  Untuk detail API, lihat [Menerapkan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/deploy.html) di *Referensi AWS CLI Perintah*. 

### `deregister-type`
<a name="cloudformation_DeregisterType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-type`.

**AWS CLI**  
**Untuk membatalkan pendaftaran versi tipe**  
`deregister-type`Contoh berikut menghapus versi tipe yang ditentukan dari penggunaan aktif dalam CloudFormation registri, sehingga tidak dapat lagi digunakan dalam CloudFormation operasi.  

```
aws cloudformation deregister-type \
    --type RESOURCE \
    --type-name My::Logs::LogGroup \
    --version-id 00000002
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan CloudFormation Registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DeregisterType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/deregister-type.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-limits`
<a name="cloudformation_DescribeAccountLimits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-limits`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang batas akun Anda**  
Perintah berikut mengambil daftar batas regional untuk akun saat ini.  

```
aws cloudformation describe-account-limits
```
Output:  

```
{
    "AccountLimits": [
        {
            "Name": "StackLimit",
            "Value": 200
        },
        {
            "Name": "StackOutputsLimit",
            "Value": 60
        },
        {
            "Name": "ConcurrentResourcesLimit",
            "Value": 2500
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAccountLimits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-account-limits.html)di *Referensi AWS CLI Perintah*. 

### `describe-change-set`
<a name="cloudformation_DescribeChangeSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-change-set`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang set perubahan**  
`describe-change-set`Contoh berikut menampilkan rincian dari set perubahan yang ditentukan oleh nama set perubahan dan nama stack.  

```
aws cloudformation describe-change-set \
    --change-set-name my-change-set \
    --stack-name my-stack
```
`describe-change-set`Contoh berikut menampilkan rincian set perubahan yang ditentukan oleh ARN lengkap dari set perubahan:  

```
aws cloudformation describe-change-set \
    --change-set-name arn:aws:cloudformation:us-west-2:123456789012:changeSet/my-change-set/bc9555ba-a949-xmpl-bfb8-f41d04ec5784
```
Output:  

```
{
    "Changes": [
        {
            "Type": "Resource",
            "ResourceChange": {
                "Action": "Modify",
                "LogicalResourceId": "function",
                "PhysicalResourceId": "my-function-SEZV4XMPL4S5",
                "ResourceType": "AWS::Lambda::Function",
                "Replacement": "False",
                "Scope": [
                    "Properties"
                ],
                "Details": [
                    {
                        "Target": {
                            "Attribute": "Properties",
                            "Name": "Timeout",
                            "RequiresRecreation": "Never"
                        },
                        "Evaluation": "Static",
                        "ChangeSource": "DirectModification"
                    }
                ]
            }
        }
    ],
    "ChangeSetName": "my-change-set",
    "ChangeSetId": "arn:aws:cloudformation:us-west-2:123456789012:changeSet/my-change-set/4eca1a01-e285-xmpl-8026-9a1967bfb4b0",
    "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
    "StackName": "my-stack",
    "Description": null,
    "Parameters": null,
    "CreationTime": "2019-10-02T05:20:56.651Z",
    "ExecutionStatus": "AVAILABLE",
    "Status": "CREATE_COMPLETE",
    "StatusReason": null,
    "NotificationARNs": [],
    "RollbackConfiguration": {},
    "Capabilities": [
        "CAPABILITY_IAM"
    ],
    "Tags": null
}
```
+  Untuk detail API, lihat [DescribeChangeSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-change-set.html)di *Referensi AWS CLI Perintah*. 

### `describe-generated-template`
<a name="cloudformation_DescribeGeneratedTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-generated-template`.

**AWS CLI**  
**Untuk menggambarkan template yang dihasilkan**  
`describe-generated-template`Contoh berikut menjelaskan template yang ditentukan.  

```
aws cloudformation describe-generated-template \
    --generated-template-name MyTemplate
```
Output:  

```
{
    "GeneratedTemplateId": "arn:aws:cloudformation:us-east-1:123456789012:generatedTemplate/7d881acf-f307-4ded-910e-f8fb49b96894",
    "GeneratedTemplateName": "MyTemplate",
    "Resources": [
        {
            "ResourceType": "AWS::EC2::SecurityGroup",
            "LogicalResourceId": "EC2SecurityGroup",
            "ResourceIdentifier": {
                "Id": "sg-1234567890abcdef0"
            },
            "ResourceStatus": "COMPLETE",
            "ResourceStatusReason": "Resource Template complete",
            "Warnings": []
        },
        {
            "ResourceType": "AWS::EC2::Instance",
            "LogicalResourceId": "EC2Instance",
            "ResourceIdentifier": {
                "InstanceId": "i-1234567890abcdef0"
            },
            "ResourceStatus": "COMPLETE",
            "ResourceStatusReason": "Resource Template complete",
            "Warnings": []
        },
        {
            "ResourceType": "AWS::EC2::KeyPair",
            "LogicalResourceId": "EC2KeyPairSshkeypair",
            "ResourceIdentifier": {
                "KeyName": "sshkeypair"
            },
            "ResourceStatus": "COMPLETE",
            "ResourceStatusReason": "Resource Template complete",
            "Warnings": []
        }
    ],
    "Status": "COMPLETE",
    "StatusReason": "All resources complete",
    "CreationTime": "2025-09-23T19:38:06.435000+00:00",
    "LastUpdatedTime": "2025-09-23T19:38:10.798000+00:00",
    "Progress": {
        "ResourcesSucceeded": 3,
        "ResourcesFailed": 0,
        "ResourcesProcessing": 0,
        "ResourcesPending": 0
    },
    "TemplateConfiguration": {
        "DeletionPolicy": "RETAIN",
        "UpdateReplacePolicy": "RETAIN"
    },
    "TotalWarnings": 0
}
```
Untuk informasi selengkapnya, lihat [Membuat templat dari sumber daya yang ada](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/generate-IaC.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DescribeGeneratedTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-generated-template.html)di *Referensi AWS CLI Perintah*. 

### `describe-publisher`
<a name="cloudformation_DescribePublisher_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-publisher`.

**AWS CLI**  
**Untuk menggambarkan penerbit**  
`describe-publisher`Contoh berikut mengkonfigurasi informasi untuk penerbit.  

```
aws cloudformation describe-publisher \
    --region us-west-2 \
    --publisher-id 000q6TfUovXsEMmgKowxDZLlwqr2QUsh
```
Output:  

```
{
    "PublisherId": "000q6TfUovXsEMmgKowxDZLlwqr2QUshd2e75c8c",
    "PublisherStatus": "VERIFIED",
    "IdentityProvider": "AWS_Marketplace",
    "PublisherProfile": "https://aws.amazon.com/marketplace/seller-profile?id=2c5dc1f0-17cd-4259-8e46-822a83gdtegd"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DescribePublisher](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-publisher.html)di *Referensi AWS CLI Perintah*. 

### `describe-resource-scan`
<a name="cloudformation_DescribeResourceScan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-resource-scan`.

**AWS CLI**  
**Untuk menggambarkan pemindaian sumber daya**  
`describe-resource-scan`Contoh berikut menjelaskan pemindaian sumber daya dengan ID pemindaian yang ditentukan.  

```
aws cloudformation describe-resource-scan --region \
    --resource-scan-id arn:aws:cloudformation:us-east-1:123456789012:resourceScan/0a699f15-489c-43ca-a3ef-3e6ecfa5da60
```
Output:  

```
{
    "ResourceScanId": "arn:aws:cloudformation:us-east-1:123456789012:resourceScan/0a699f15-489c-43ca-a3ef-3e6ecfa5da60",
    "Status": "COMPLETE",
    "StartTime": "2025-08-21T03:10:38.485000+00:00",
    "EndTime": "2025-08-21T03:20:28.485000+00:00",
    "PercentageCompleted": 100.0,
    "ResourceTypes": [
        "AWS::CloudFront::CachePolicy",
        "AWS::CloudFront::OriginRequestPolicy",
        "AWS::EC2::DHCPOptions",
        "AWS::EC2::InternetGateway",
        "AWS::EC2::KeyPair",
        "AWS::EC2::NetworkAcl",
        "AWS::EC2::NetworkInsightsPath",
        "AWS::EC2::NetworkInterface",
        "AWS::EC2::PlacementGroup",
        "AWS::EC2::Route",
        "AWS::EC2::RouteTable",
        "AWS::EC2::SecurityGroup",
        "AWS::EC2::Subnet",
        "AWS::EC2::SubnetCidrBlock",
        "AWS::EC2::SubnetNetworkAclAssociation",
        "AWS::EC2::SubnetRouteTableAssociation",
        ...
    ],
    "ResourcesRead": 676
}
```
Untuk informasi selengkapnya, lihat [Membuat templat dari sumber daya yang ada](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/generate-IaC.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DescribeResourceScan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-resource-scan.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-drift-detection-status`
<a name="cloudformation_DescribeStackDriftDetectionStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-drift-detection-status`.

**AWS CLI**  
**Untuk memeriksa status operasi deteksi drift**  
`describe-stack-drift-detection-status`Contoh berikut menampilkan status operasi deteksi drift. Dapatkan ID by menjalankan `detect-stack-drift` perintah.  

```
aws cloudformation describe-stack-drift-detection-status \
    --stack-drift-detection-id 1a229160-e4d9-xmpl-ab67-0a4f93df83d4
```
Output:  

```
{
    "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
    "StackDriftDetectionId": "1a229160-e4d9-xmpl-ab67-0a4f93df83d4",
    "StackDriftStatus": "DRIFTED",
    "DetectionStatus": "DETECTION_COMPLETE",
    "DriftedStackResourceCount": 1,
    "Timestamp": "2019-10-02T05:54:30.902Z"
}
```
+  Untuk detail API, lihat [DescribeStackDriftDetectionStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-drift-detection-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-events`
<a name="cloudformation_DescribeStackEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-events`.

**AWS CLI**  
**Untuk menggambarkan peristiwa tumpukan**  
`describe-stack-events`Contoh berikut menampilkan 2 peristiwa terbaru untuk tumpukan tertentu.  

```
aws cloudformation describe-stack-events \
    --stack-name my-stack \
    --max-items 2

{
    "StackEvents": [
        {
            "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "EventId": "4e1516d0-e4d6-xmpl-b94f-0a51958a168c",
            "StackName": "my-stack",
            "LogicalResourceId": "my-stack",
            "PhysicalResourceId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "ResourceType": "AWS::CloudFormation::Stack",
            "Timestamp": "2019-10-02T05:34:29.556Z",
            "ResourceStatus": "UPDATE_COMPLETE"
        },
        {
            "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "EventId": "4dd3c810-e4d6-xmpl-bade-0aaf8b31ab7a",
            "StackName": "my-stack",
            "LogicalResourceId": "my-stack",
            "PhysicalResourceId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "ResourceType": "AWS::CloudFormation::Stack",
            "Timestamp": "2019-10-02T05:34:29.127Z",
            "ResourceStatus": "UPDATE_COMPLETE_CLEANUP_IN_PROGRESS"
        }
    ],
    "NextToken": "eyJOZXh0VG9XMPLiOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAyfQ=="
}
```
+  Untuk detail API, lihat [DescribeStackEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-instance`
<a name="cloudformation_DescribeStackInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-instance`.

**AWS CLI**  
**Untuk menggambarkan instance tumpukan**  
Perintah berikut menjelaskan sebuah instance dari set stack yang ditentukan dalam akun dan Region yang ditentukan. Kumpulan tumpukan ada di wilayah dan akun saat ini, dan instance ada di `us-west-2` wilayah di akun`123456789012`. :  

```
aws cloudformation describe-stack-instance \
    --stack-set-name my-stack-set \
    --stack-instance-account 123456789012 \
    --stack-instance-region us-west-2
```
Output:  

```
{
    "StackInstance": {
        "StackSetId": "enable-config:296a3360-xmpl-40af-be78-9341e95bf743",
        "Region": "us-west-2",
        "Account": "123456789012",
        "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/StackSet-enable-config-e6cac20f-xmpl-46e9-8314-53e0d4591532/4287f9a0-e615-xmpl-894a-12b31d3117be",
        "ParameterOverrides": [],
        "Status": "OUTDATED",
        "StatusReason": "ResourceLogicalId:ConfigBucket, ResourceType:AWS::S3::Bucket, ResourceStatusReason:You have attempted to create more buckets than allowed (Service: Amazon S3; Status Code: 400; Error Code: TooManyBuckets; Request ID: F7F21CXMPL580224; S3 Extended Request ID: egd/Fdt89BXMPLyiqbMNljVk55Yqqvi3NYW2nKLUVWhUGEhNfCmZdyj967lhriaG/dWMobSO40o=)."
    }
}
```
+  Untuk detail API, lihat [DescribeStackInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-instance.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-refactor`
<a name="cloudformation_DescribeStackRefactor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-refactor`.

**AWS CLI**  
**Untuk menggambarkan operasi refactor tumpukan**  
`describe-stack-refactor`Contoh berikut menjelaskan operasi refactor stack dengan ID refactor stack yang ditentukan.  

```
aws cloudformation describe-stack-refactor \
    --stack-refactor-id 9c384f70-4e07-4ed7-a65d-fee5eb430841
```
Output:  

```
{
    "StackRefactorId": "9c384f70-4e07-4ed7-a65d-fee5eb430841",
    "StackIds": [
        "arn:aws:cloudformation:us-east-1:123456789012:stack/Stack1/3e6a1ff0-94b1-11f0-aa6f-0a88d2e03acf",
        "arn:aws:cloudformation:us-east-1:123456789012:stack/Stack2/5da91650-94b1-11f0-81cf-0a23500e151b"
    ],
    "ExecutionStatus": "AVAILABLE",
    "Status": "CREATE_COMPLETE"
}
```
*Untuk informasi selengkapnya, lihat [Stack refactoring](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/stack-refactoring.html) di Panduan Pengguna.AWS CloudFormation *  
+  Untuk detail API, lihat [DescribeStackRefactor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-refactor.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-resource-drifts`
<a name="cloudformation_DescribeStackResourceDrifts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-resource-drifts`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sumber daya yang melayang dari definisi tumpukan**  
Perintah berikut menampilkan informasi tentang sumber daya hanyut untuk tumpukan yang ditentukan. Untuk memulai deteksi drift, gunakan perintah. `detect-stack-drift` :  

```
aws cloudformation describe-stack-resource-drifts \
    --stack-name my-stack
```
Output menunjukkan fungsi AWS Lambda yang telah dimodifikasi: out-of-band  

```
{
    "StackResourceDrifts": [
        {
            "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "LogicalResourceId": "function",
            "PhysicalResourceId": "my-function-SEZV4XMPL4S5",
            "ResourceType": "AWS::Lambda::Function",
            "ExpectedProperties": "{\"Description\":\"Write a file to S3.\",\"Environment\":{\"Variables\":{\"bucket\":\"my-stack-bucket-1vc62xmplgguf\"}},\"Handler\":\"index.handler\",\"MemorySize\":128,\"Role\":\"arn:aws:iam::123456789012:role/my-functionRole-HIZXMPLEOM9E\",\"Runtime\":\"nodejs10.x\",\"Tags\":[{\"Key\":\"lambda:createdBy\",\"Value\":\"SAM\"}],\"Timeout\":900,\"TracingConfig\":{\"Mode\":\"Active\"}}",
            "ActualProperties": "{\"Description\":\"Write a file to S3.\",\"Environment\":{\"Variables\":{\"bucket\":\"my-stack-bucket-1vc62xmplgguf\"}},\"Handler\":\"index.handler\",\"MemorySize\":256,\"Role\":\"arn:aws:iam::123456789012:role/my-functionRole-HIZXMPLEOM9E\",\"Runtime\":\"nodejs10.x\",\"Tags\":[{\"Key\":\"lambda:createdBy\",\"Value\":\"SAM\"}],\"Timeout\":22,\"TracingConfig\":{\"Mode\":\"Active\"}}",
            "PropertyDifferences": [
                {
                    "PropertyPath": "/MemorySize",
                    "ExpectedValue": "128",
                    "ActualValue": "256",
                    "DifferenceType": "NOT_EQUAL"
                },
                {
                    "PropertyPath": "/Timeout",
                    "ExpectedValue": "900",
                    "ActualValue": "22",
                    "DifferenceType": "NOT_EQUAL"
                }
            ],
            "StackResourceDriftStatus": "MODIFIED",
            "Timestamp": "2019-10-02T05:54:44.064Z"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeStackResourceDrifts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-resource-drifts.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-resource`
<a name="cloudformation_DescribeStackResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-resource`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sumber daya tumpukan**  
`describe-stack-resource`Contoh berikut menampilkan rincian untuk sumber daya bernama `MyFunction` dalam tumpukan tertentu.  

```
aws cloudformation describe-stack-resource \
    --stack-name MyStack \
    --logical-resource-id MyFunction
```
Output:  

```
{
    "StackResourceDetail": {
        "StackName": "MyStack",
        "StackId": "arn:aws:cloudformation:us-east-2:123456789012:stack/MyStack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
        "LogicalResourceId": "MyFunction",
        "PhysicalResourceId": "my-function-SEZV4XMPL4S5",
        "ResourceType": "AWS::Lambda::Function",
        "LastUpdatedTimestamp": "2019-10-02T05:34:27.989Z",
        "ResourceStatus": "UPDATE_COMPLETE",
        "Metadata": "{}",
        "DriftInformation": {
            "StackResourceDriftStatus": "IN_SYNC"
        }
    }
}
```
+  Untuk detail API, lihat [DescribeStackResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-resource.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-resources`
<a name="cloudformation_DescribeStackResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-resources`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sumber daya tumpukan**  
`describe-stack-resources`Contoh berikut menampilkan rincian untuk sumber daya dalam tumpukan tertentu.  

```
aws cloudformation describe-stack-resources \
    --stack-name my-stack
```
Output:  

```
{
    "StackResources": [
        {
            "StackName": "my-stack",
            "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "LogicalResourceId": "bucket",
            "PhysicalResourceId": "my-stack-bucket-1vc62xmplgguf",
            "ResourceType": "AWS::S3::Bucket",
            "Timestamp": "2019-10-02T04:34:11.345Z",
            "ResourceStatus": "CREATE_COMPLETE",
            "DriftInformation": {
                "StackResourceDriftStatus": "IN_SYNC"
            }
        },
        {
            "StackName": "my-stack",
            "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "LogicalResourceId": "function",
            "PhysicalResourceId": "my-function-SEZV4XMPL4S5",
            "ResourceType": "AWS::Lambda::Function",
            "Timestamp": "2019-10-02T05:34:27.989Z",
            "ResourceStatus": "UPDATE_COMPLETE",
            "DriftInformation": {
                "StackResourceDriftStatus": "IN_SYNC"
            }
        },
        {
            "StackName": "my-stack",
            "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "LogicalResourceId": "functionRole",
            "PhysicalResourceId": "my-functionRole-HIZXMPLEOM9E",
            "ResourceType": "AWS::IAM::Role",
            "Timestamp": "2019-10-02T04:34:06.350Z",
            "ResourceStatus": "CREATE_COMPLETE",
            "DriftInformation": {
                "StackResourceDriftStatus": "IN_SYNC"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeStackResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-resources.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-set-operation`
<a name="cloudformation_DescribeStackSetOperation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-set-operation`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang operasi stack set**  
Contoh describe-stack-set-operation `berikut menampilkan detail untuk operasi pembaruan pada set tumpukan yang ditentukan.  

```
aws cloudformation describe-stack-set-operation \
    --stack-set-name enable-config \
    --operation-id 35d45ebc-ed88-xmpl-ab59-0197a1fc83a0
```
Output:  

```
{
    "StackSetOperation": {
        "OperationId": "35d45ebc-ed88-xmpl-ab59-0197a1fc83a0",
        "StackSetId": "enable-config:296a3360-xmpl-40af-be78-9341e95bf743",
        "Action": "UPDATE",
        "Status": "SUCCEEDED",
        "OperationPreferences": {
            "RegionOrder": [
                "us-east-1",
                "us-west-2",
                "eu-west-1",
                "us-west-1"
            ],
            "FailureToleranceCount": 7,
            "MaxConcurrentCount": 2
        },
        "AdministrationRoleARN": "arn:aws:iam::123456789012:role/AWSCloudFormationStackSetAdministrationRole",
        "ExecutionRoleName": "AWSCloudFormationStackSetExecutionRole",
        "CreationTimestamp": "2019-10-03T16:28:44.377Z",
        "EndTimestamp": "2019-10-03T16:42:08.607Z"
    }
}
```
+  Untuk detail API, lihat [DescribeStackSetOperation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-set-operation.html)di *Referensi AWS CLI Perintah*. 

### `describe-stack-set`
<a name="cloudformation_DescribeStackSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stack-set`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kumpulan tumpukan**  
Contoh describe-stack-set `berikut menampilkan rincian tentang set stack yang ditentukan.  

```
aws cloudformation describe-stack-set \
    --stack-set-name my-stack-set
```
Output:  

```
{
    "StackSet": {
        "StackSetName": "my-stack-set",
        "StackSetId": "my-stack-set:296a3360-xmpl-40af-be78-9341e95bf743",
        "Description": "Create an Amazon SNS topic",
        "Status": "ACTIVE",
        "TemplateBody": "AWSTemplateFormatVersion: '2010-09-09'\nDescription: An AWS SNS topic\nResources:\n  topic:\n    Type: AWS::SNS::Topic",
        "Parameters": [],
        "Capabilities": [],
        "Tags": [],
        "StackSetARN": "arn:aws:cloudformation:us-west-2:123456789012:stackset/enable-config:296a3360-xmpl-40af-be78-9341e95bf743",
        "AdministrationRoleARN": "arn:aws:iam::123456789012:role/AWSCloudFormationStackSetAdministrationRole",
        "ExecutionRoleName": "AWSCloudFormationStackSetExecutionRole"
    }
}
```
+  Untuk detail API, lihat [DescribeStackSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stack-set.html)di *Referensi AWS CLI Perintah*. 

### `describe-stacks`
<a name="cloudformation_DescribeStacks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stacks`.

**AWS CLI**  
**Untuk menggambarkan AWS CloudFormation tumpukan**  
`describe-stacks`Perintah berikut menunjukkan informasi ringkasan untuk `myteststack` tumpukan:  

```
aws cloudformation describe-stacks --stack-name myteststack
```
Output:  

```
{
    "Stacks":  [
        {
            "StackId": "arn:aws:cloudformation:us-east-1:123456789012:stack/myteststack/466df9e0-0dff-08e3-8e2f-5088487c4896",
            "Description": "AWS CloudFormation Sample Template S3_Bucket: Sample template showing how to create a publicly accessible S3 bucket. **WARNING** This template creates an S3 bucket. You will be billed for the AWS resources used if you create a stack from this template.",
            "Tags": [],
            "Outputs": [
                {
                    "Description": "Name of S3 bucket to hold website content",
                    "OutputKey": "BucketName",
                    "OutputValue": "myteststack-s3bucket-jssofi1zie2w"
                }
            ],
            "StackStatusReason": null,
            "CreationTime": "2013-08-23T01:02:15.422Z",
            "Capabilities": [],
            "StackName": "myteststack",
            "StackStatus": "CREATE_COMPLETE",
            "DisableRollback": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat Tumpukan di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DescribeStacks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-stacks.html)di *Referensi AWS CLI Perintah*. 

### `describe-type-registration`
<a name="cloudformation_DescribeTypeRegistration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-type-registration`.

**AWS CLI**  
**Untuk menampilkan informasi pendaftaran jenis**  
`describe-type-registration`Contoh berikut menampilkan informasi tentang pendaftaran jenis yang ditentukan, termasuk status, jenis, dan versi tipe saat ini.  

```
aws cloudformation describe-type-registration \
    --registration-token a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "ProgressStatus": "COMPLETE",
    "TypeArn": "arn:aws:cloudformation:us-west-2:123456789012:type/resource/My-Logs-LogGroup",
    "Description": "Deployment is currently in DEPLOY_STAGE of status COMPLETED; ",
    "TypeVersionArn": "arn:aws:cloudformation:us-west-2:123456789012:type/resource/My-Logs-LogGroup/00000001"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan CloudFormation Registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DescribeTypeRegistration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-type-registration.html)di *Referensi AWS CLI Perintah*. 

### `describe-type`
<a name="cloudformation_DescribeType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-type`.

**AWS CLI**  
**Untuk menampilkan informasi jenis**  
`describe-type`Contoh berikut menampilkan informasi untuk jenis yang ditentukan.  

```
aws cloudformation describe-type \
    --type-name My::Logs::LogGroup \
    --type RESOURCE
```
Output:  

```
{
    "SourceUrl": "https://github.com/aws-cloudformation/aws-cloudformation-resource-providers-logs.git",
    "Description": "Customized resource derived from AWS::Logs::LogGroup",
    "TimeCreated": "2019-12-03T23:29:33.321Z",
    "Visibility": "PRIVATE",
    "TypeName": "My::Logs::LogGroup",
    "LastUpdated": "2019-12-03T23:29:33.321Z",
    "DeprecatedStatus": "LIVE",
    "ProvisioningType": "FULLY_MUTABLE",
    "Type": "RESOURCE",
    "Arn": "arn:aws:cloudformation:us-west-2:123456789012:type/resource/My-Logs-LogGroup/00000001",
    "Schema": "[details omitted]"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan CloudFormation Registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DescribeType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/describe-type.html)di *Referensi AWS CLI Perintah*. 

### `detect-stack-drift`
<a name="cloudformation_DetectStackDrift_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-stack-drift`.

**AWS CLI**  
**Untuk mendeteksi sumber daya yang melayang**  
`detect-stack-drift`Contoh berikut memulai deteksi drift untuk tumpukan tertentu.  

```
aws cloudformation detect-stack-drift \
    --stack-name my-stack
```
Output:  

```
{
    "StackDriftDetectionId": "1a229160-e4d9-xmpl-ab67-0a4f93df83d4"
}
```
Anda kemudian dapat menggunakan ID ini dengan `describe-stack-resource-drifts` perintah untuk menggambarkan sumber daya yang hanyut.  
+  Untuk detail API, lihat [DetectStackDrift](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/detect-stack-drift.html)di *Referensi AWS CLI Perintah*. 

### `detect-stack-resource-drift`
<a name="cloudformation_DetectStackResourceDrift_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-stack-resource-drift`.

**AWS CLI**  
**Untuk mendeteksi penyimpangan untuk sumber daya**  
`detect-stack-resource-drift`Contoh berikut memeriksa sumber daya bernama `MyFunction` dalam tumpukan bernama `MyStack` drift:  

```
aws cloudformation detect-stack-resource-drift \
   --stack-name MyStack \
   --logical-resource-id MyFunction
```
Output menunjukkan fungsi AWS Lambda yang telah dimodifikasi: out-of-band  

```
{
    "StackResourceDrift": {
        "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/MyStack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
        "LogicalResourceId": "MyFunction",
        "PhysicalResourceId": "my-function-SEZV4XMPL4S5",
        "ResourceType": "AWS::Lambda::Function",
        "ExpectedProperties": "{\"Description\":\"Write a file to S3.\",\"Environment\":{\"Variables\":{\"bucket\":\"my-stack-bucket-1vc62xmplgguf\"}},\"Handler\":\"index.handler\",\"MemorySize\":128,\"Role\":\"arn:aws:iam::123456789012:role/my-functionRole-HIZXMPLEOM9E\",\"Runtime\":\"nodejs10.x\",\"Tags\":[{\"Key\":\"lambda:createdBy\",\"Value\":\"SAM\"}],\"Timeout\":900,\"TracingConfig\":{\"Mode\":\"Active\"}}",
        "ActualProperties": "{\"Description\":\"Write a file to S3.\",\"Environment\":{\"Variables\":{\"bucket\":\"my-stack-bucket-1vc62xmplgguf\"}},\"Handler\":\"index.handler\",\"MemorySize\":256,\"Role\":\"arn:aws:iam::123456789012:role/my-functionRole-HIZXMPLEOM9E\",\"Runtime\":\"nodejs10.x\",\"Tags\":[{\"Key\":\"lambda:createdBy\",\"Value\":\"SAM\"}],\"Timeout\":22,\"TracingConfig\":{\"Mode\":\"Active\"}}",
        "PropertyDifferences": [
            {
                "PropertyPath": "/MemorySize",
                "ExpectedValue": "128",
                "ActualValue": "256",
                "DifferenceType": "NOT_EQUAL"
            },
            {
                "PropertyPath": "/Timeout",
                "ExpectedValue": "900",
                "ActualValue": "22",
                "DifferenceType": "NOT_EQUAL"
            }
        ],
        "StackResourceDriftStatus": "MODIFIED",
        "Timestamp": "2019-10-02T05:58:47.433Z"
    }
}
```
+  Untuk detail API, lihat [DetectStackResourceDrift](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/detect-stack-resource-drift.html)di *Referensi AWS CLI Perintah*. 

### `detect-stack-set-drift`
<a name="cloudformation_DetectStackSetDrift_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-stack-set-drift`.

**AWS CLI**  
**Untuk mendeteksi penyimpangan pada kumpulan tumpukan dan semua instance tumpukan terkait**  
`detect-stack-set-drift`Contoh berikut memulai operasi deteksi drift pada set tumpukan yang ditentukan, termasuk semua instance tumpukan yang terkait dengan kumpulan tumpukan itu, dan mengembalikan ID operasi yang dapat digunakan untuk melacak status operasi drift.  

```
aws cloudformation detect-stack-set-drift \
    --stack-set-name stack-set-drift-example
```
Output:  

```
{
    "OperationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perubahan Konfigurasi Tidak Terkelola dalam Kumpulan Tumpukan](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/stacksets-drift.html) di Panduan *AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DetectStackSetDrift](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/detect-stack-set-drift.html)di *Referensi AWS CLI Perintah*. 

### `estimate-template-cost`
<a name="cloudformation_EstimateTemplateCost_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`estimate-template-cost`.

**AWS CLI**  
**Untuk memperkirakan biaya template**  
`estimate-template-cost`Contoh berikut menghasilkan perkiraan biaya untuk template bernama `template.yaml` dalam folder saat ini.  

```
aws cloudformation estimate-template-cost \
    --template-body file://template.yaml
```
Output:  

```
{
    "Url": "http://calculator.s3.amazonaws.com/calc5.html?key=cloudformation/7870825a-xmpl-4def-92e7-c4f8dd360cca"
}
```
+  Untuk detail API, lihat [EstimateTemplateCost](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/estimate-template-cost.html)di *Referensi AWS CLI Perintah*. 

### `execute-change-set`
<a name="cloudformation_ExecuteChangeSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`execute-change-set`.

**AWS CLI**  
**Untuk menjalankan set perubahan**  
`execute-change-set`Contoh berikut mengeksekusi set perubahan yang ditentukan oleh mengubah nama set dan nama stack.  

```
aws cloudformation execute-change-set \
    --change-set-name my-change-set \
    --stack-name my-stack
```
`execute-change-set`Contoh berikut mengeksekusi set perubahan yang ditentukan oleh ARN penuh dari set perubahan.  

```
aws cloudformation execute-change-set \
    --change-set-name arn:aws:cloudformation:us-west-2:123456789012:changeSet/my-change-set/bc9555ba-a949-xmpl-bfb8-f41d04ec5784
```
+  Untuk detail API, lihat [ExecuteChangeSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/execute-change-set.html)di *Referensi AWS CLI Perintah*. 

### `execute-stack-refactor`
<a name="cloudformation_ExecuteStackRefactor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`execute-stack-refactor`.

**AWS CLI**  
**Untuk menyelesaikan operasi refactor tumpukan**  
`execute-stack-refactor`Contoh berikut menyelesaikan operasi refactor stack dengan ID refactor stack yang ditentukan.  

```
aws cloudformation execute-stack-refactor \
    --stack-refactor-id 9c384f70-4e07-4ed7-a65d-fee5eb430841
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Stack refactoring](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/stack-refactoring.html) di Panduan Pengguna.AWS CloudFormation *  
+  Untuk detail API, lihat [ExecuteStackRefactor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/execute-stack-refactor.html)di *Referensi AWS CLI Perintah*. 

### `get-stack-policy`
<a name="cloudformation_GetStackPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stack-policy`.

**AWS CLI**  
**Untuk melihat kebijakan tumpukan**  
`get-stack-policy`Contoh berikut menampilkan kebijakan tumpukan untuk tumpukan tertentu. Untuk melampirkan kebijakan ke tumpukan, gunakan `set-stack-policy` perintah.  

```
aws cloudformation get-stack-policy \
    --stack-name my-stack
```
Output:  

```
{
    "StackPolicyBody": "{\n  \"Statement\" : [\n    {\n      \"Effect\" : \"Allow\",\n      \"Action\" : \"Update:*\",\n      \"Principal\": \"*\",\n      \"Resource\" : \"*\"\n    },\n    {\n      \"Effect\" : \"Deny\",\n      \"Action\" : \"Update:*\",\n      \"Principal\": \"*\",\n      \"Resource\" : \"LogicalResourceId/bucket\"\n    }\n  ]\n}\n"
}
```
+  Untuk detail API, lihat [GetStackPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/get-stack-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-template-summary`
<a name="cloudformation_GetTemplateSummary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-template-summary`.

**AWS CLI**  
**Untuk menampilkan ringkasan template**  
Perintah berikut menampilkan informasi ringkasan tentang sumber daya dan metadata untuk file template yang ditentukan.  

```
aws cloudformation get-template-summary \
   --template-body file://template.yaml
```
Output:  

```
{
    "Parameters": [],
    "Description": "A VPC and subnets.",
    "ResourceTypes": [
        "AWS::EC2::VPC",
        "AWS::EC2::Subnet",
        "AWS::EC2::Subnet",
        "AWS::EC2::RouteTable",
        "AWS::EC2::VPCEndpoint",
        "AWS::EC2::SubnetRouteTableAssociation",
        "AWS::EC2::SubnetRouteTableAssociation",
        "AWS::EC2::VPCEndpoint"
    ],
    "Version": "2010-09-09"
}
```
+  Untuk detail API, lihat [GetTemplateSummary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/get-template-summary.html)di *Referensi AWS CLI Perintah*. 

### `get-template`
<a name="cloudformation_GetTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-template`.

**AWS CLI**  
**Untuk melihat badan template untuk AWS CloudFormation tumpukan**  
`get-template`Perintah berikut menunjukkan template untuk `myteststack` tumpukan:  

```
aws cloudformation get-template --stack-name myteststack
```
Output:  

```
{
    "TemplateBody": {
        "AWSTemplateFormatVersion": "2010-09-09",
        "Outputs": {
            "BucketName": {
                "Description": "Name of S3 bucket to hold website content",
                "Value": {
                    "Ref": "S3Bucket"
                }
            }
        },
        "Description": "AWS CloudFormation Sample Template S3_Bucket: Sample template showing how to create a publicly accessible S3 bucket. **WARNING** This template creates an S3 bucket. You will be billed for the AWS resources used if you create a stack from this template.",
        "Resources": {
            "S3Bucket": {
                "Type": "AWS::S3::Bucket",
                "Properties": {
                    "AccessControl": "PublicRead"
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/get-template.html)di *Referensi AWS CLI Perintah*. 

### `list-change-sets`
<a name="cloudformation_ListChangeSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-change-sets`.

**AWS CLI**  
**Untuk membuat daftar set perubahan**  
`list-change-sets`Contoh berikut menampilkan daftar set perubahan yang tertunda untuk tumpukan tertentu.  

```
aws cloudformation list-change-sets \
   --stack-name my-stack
```
Output:  

```
{
    "Summaries": [
        {
            "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204",
            "StackName": "my-stack",
            "ChangeSetId": "arn:aws:cloudformation:us-west-2:123456789012:changeSet/my-change-set/70160340-7914-xmpl-bcbf-128a1fa78b5d",
            "ChangeSetName": "my-change-set",
            "ExecutionStatus": "AVAILABLE",
            "Status": "CREATE_COMPLETE",
            "CreationTime": "2019-10-02T05:38:54.297Z"
        }
    ]
}
```
+  Untuk detail API, lihat [ListChangeSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-change-sets.html)di *Referensi AWS CLI Perintah*. 

### `list-exports`
<a name="cloudformation_ListExports_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-exports`.

**AWS CLI**  
**Untuk daftar ekspor**  
`list-exports`Contoh berikut menampilkan daftar ekspor dari tumpukan di wilayah saat ini.  

```
aws cloudformation list-exports
```
Output:  

```
{
    "Exports": [
        {
            "ExportingStackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/private-vpc/99764070-b56c-xmpl-bee8-062a88d1d800",
            "Name": "private-vpc-subnet-a",
            "Value": "subnet-07b410xmplddcfa03"
        },
        {
            "ExportingStackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/private-vpc/99764070-b56c-xmpl-bee8-062a88d1d800",
            "Name": "private-vpc-subnet-b",
            "Value": "subnet-075ed3xmplebd2fb1"
        },
        {
            "ExportingStackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/private-vpc/99764070-b56c-xmpl-bee8-062a88d1d800",
            "Name": "private-vpc-vpcid",
            "Value": "vpc-011d7xmpl100e9841"
        }
    ]
}
```
+  Untuk detail API, lihat [ListExports](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-exports.html)di *Referensi AWS CLI Perintah*. 

### `list-generated-templates`
<a name="cloudformation_ListGeneratedTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-generated-templates`.

**AWS CLI**  
**Untuk membuat daftar template yang dihasilkan**  
`list-generated-templates`Contoh berikut mencantumkan semua template yang dihasilkan.  

```
aws cloudformation list-generated-templates
```
Output:  

```
{
    "Summaries": [
        {
            "GeneratedTemplateId": "arn:aws:cloudformation:us-east-1:123456789012:generatedtemplate/7fc8512c-d8cb-4e02-b266-d39c48344e48",
            "GeneratedTemplateName": "MyTemplate",
            "Status": "COMPLETE",
            "StatusReason": "All resources complete",
            "CreationTime": "2025-09-23T20:13:24.283000+00:00",
            "LastUpdatedTime": "2025-09-23T20:13:28.610000+00:00",
            "NumberOfResources": 4
        },
        {
            "GeneratedTemplateId": "arn:aws:cloudformation:us-east-1:123456789012:generatedTemplate/f10dd1c4-edc6-4823-8153-ab6112b8d051",
            "GeneratedTemplateName": "MyEC2InstanceTemplate",
            "Status": "COMPLETE",
            "StatusReason": "All resources complete",
            "CreationTime": "2024-08-08T19:35:49.790000+00:00",
            "LastUpdatedTime": "2024-08-08T19:35:52.207000+00:00",
            "NumberOfResources": 3
        },
        {
            "GeneratedTemplateId": "arn:aws:cloudformation:us-east-1:123456789012:generatedTemplate/e5a1c89f-7ce2-41bd-9bdf-75b7c852e3ca",
            "GeneratedTemplateName": "MyEKSNodeGroupTemplate",
            "Status": "COMPLETE",
            "StatusReason": "All resources complete",
            "CreationTime": "2024-07-16T20:39:27.883000+00:00",
            "LastUpdatedTime": "2024-07-16T20:39:35.766000+00:00",
            "NumberOfResources": 4
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat templat dari sumber daya yang ada](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/generate-IaC.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [ListGeneratedTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-generated-templates.html)di *Referensi AWS CLI Perintah*. 

### `list-imports`
<a name="cloudformation_ListImports_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-imports`.

**AWS CLI**  
**Untuk daftar impor**  
`list-imports`Contoh berikut mencantumkan tumpukan yang mengimpor ekspor yang ditentukan. Untuk mendapatkan daftar ekspor yang tersedia, gunakan `list-exports` perintah.  

```
aws cloudformation list-imports \
    --export-name private-vpc-vpcid
```
Output:  

```
{
    "Imports": [
        "my-database-stack"
    ]
}
```
+  Untuk detail API, lihat [ListImports](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-imports.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-scan-related-resources`
<a name="cloudformation_ListResourceScanRelatedResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-scan-related-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber daya terkait dari pemindaian sumber daya**  
`list-resource-scan-related-resources`Contoh berikut mencantumkan sumber daya dari pemindaian sumber daya tertentu yang terkait dengan sumber daya di`resources.json`.  

```
aws cloudformation list-resource-scan-related-resources \
    --resource-scan-id arn:aws:cloudformation:us-east-1:123456789012:resourceScan/0a699f15-489c-43ca-a3ef-3e6ecfa5da60 \
    --resources file://resources.json
```
Isi dari `resources.json`:  

```
[
    {
        "ResourceType": "AWS::EKS::Cluster",
        "ResourceIdentifier": {
            "ClusterName": "MyAppClusterName"
        }
    },
    {
        "ResourceType": "AWS::AutoScaling::AutoScalingGroup",
        "ResourceIdentifier": {
            "AutoScalingGroupName": "MyAppASGName"
        }
    }
]
```
Output:  

```
{
    "RelatedResources": [
        {
            "ResourceType": "AWS::EKS::Nodegroup",
            "ResourceIdentifier": {
                "NodegroupName": "MyAppNodegroupName"
            },
            "ManagedByStack": false
        },
        {
            "ResourceType": "AWS::IAM::Role",
            "ResourceIdentifier": {
                "RoleId": "arn:aws::iam::123456789012:role/MyAppIAMRole"
            },
            "ManagedByStack": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat CloudFormation templat dari sumber daya yang dipindai dengan generator IAc](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/iac-generator-create-template-from-scanned-resources.html) di *AWS CloudFormation Panduan Pengguna*.  
+  Untuk detail API, lihat [ListResourceScanRelatedResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-resource-scan-related-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-scan-resources`
<a name="cloudformation_ListResourceScanResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-scan-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber daya dari pemindaian sumber daya**  
`list-resource-scan-resources`Contoh berikut mencantumkan sumber daya dari pemindaian sumber daya yang ditentukan, disaring oleh pengenal sumber daya.  

```
aws cloudformation list-resource-scan-resources \
    --resource-scan-id arn:aws:cloudformation:us-east-1:123456789012:resourceScan/0a699f15-489c-43ca-a3ef-3e6ecfa5da60 \
    --resource-identifier MyApp
```
Output:  

```
{
    "Resources": [
        {
            "ResourceType": "AWS::EKS::Cluster",
            "ResourceIdentifier": {
                "ClusterName": "MyAppClusterName"
            },
            "ManagedByStack": false
        },
        {
            "ResourceType": "AWS::AutoScaling::AutoScalingGroup",
            "ResourceIdentifier": {
                "AutoScalingGroupName": "MyAppASGName"
            },
            "ManagedByStack": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat CloudFormation templat dari sumber daya yang dipindai dengan generator IAc](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/iac-generator-create-template-from-scanned-resources.html) di *AWS CloudFormation Panduan Pengguna*.  
+  Untuk detail API, lihat [ListResourceScanResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-resource-scan-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-stack-instances`
<a name="cloudformation_ListStackInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stack-instances`.

**AWS CLI**  
**Untuk membuat daftar instance untuk tumpukan**  
`list-stack-instances`Contoh berikut mencantumkan instance yang dibuat dari set stack yang ditentukan.  

```
aws cloudformation list-stack-instances \
    --stack-set-name enable-config
```
Output contoh mencakup detail tentang tumpukan yang gagal diperbarui karena kesalahan:  

```
{
    "Summaries": [
        {
            "StackSetId": "enable-config:296a3360-xmpl-40af-be78-9341e95bf743",
            "Region": "us-west-2",
            "Account": "123456789012",
            "StackId": "arn:aws:cloudformation:ap-northeast-1:123456789012:stack/StackSet-enable-config-35a6ac50-d9f8-4084-86e4-7da34d5de4c4/a1631cd0-e5fb-xmpl-b474-0aa20f14f06e",
            "Status": "CURRENT"
        },
        {
            "StackSetId": "enable-config:296a3360-xmpl-40af-be78-9341e95bf743",
            "Region": "us-west-2",
            "Account": "123456789012",
            "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/StackSet-enable-config-e6cac20f-xmpl-46e9-8314-53e0d4591532/eab53680-e5fa-xmpl-ba14-0a522351f81e",
            "Status": "OUTDATED",
            "StatusReason": "ResourceLogicalId:ConfigDeliveryChannel, ResourceType:AWS::Config::DeliveryChannel, ResourceStatusReason:Failed to put delivery channel 'StackSet-enable-config-e6cac20f-xmpl-46e9-8314-53e0d4591532-ConfigDeliveryChannel-1OJWJ7XD59WR0' because the maximum number of delivery channels: 1 is reached. (Service: AmazonConfig; Status Code: 400; Error Code: MaxNumberOfDeliveryChannelsExceededException; Request ID: d14b34a0-ef7c-xmpl-acf8-8a864370ae56)."
        }
    ]
}
```
+  Untuk detail API, lihat [ListStackInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-stack-instances.html)di *Referensi AWS CLI Perintah*. 

### `list-stack-refactor-actions`
<a name="cloudformation_ListStackRefactorActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stack-refactor-actions`.

**AWS CLI**  
**Untuk membuat daftar tindakan untuk operasi refactor tumpukan**  
`list-stack-refactor-actions`Contoh berikut mencantumkan tindakan untuk operasi refactor stack dengan ID refactor stack yang ditentukan.  

```
aws cloudformation list-stack-refactor-actions \
    --stack-refactor-id 9c384f70-4e07-4ed7-a65d-fee5eb430841
```
Output:  

```
{
    "StackRefactorActions": [
        {
            "Action": "MOVE",
            "Entity": "RESOURCE",
            "PhysicalResourceId": "MyTestLambdaRole",
            "Description": "No configuration changes detected.",
            "Detection": "AUTO",
            "TagResources": [],
            "UntagResources": [],
            "ResourceMapping": {
                "Source": {
                    "StackName": "arn:aws:cloudformation:us-east-1:123456789012:stack/Stack1/3e6a1ff0-94b1-11f0-aa6f-0a88d2e03acf",
                    "LogicalResourceId": "MyLambdaRole"
                },
                "Destination": {
                    "StackName": "arn:aws:cloudformation:us-east-1:123456789012:stack/Stack2/5da91650-94b1-11f0-81cf-0a23500e151b",
                    "LogicalResourceId": "MyLambdaRole"
                }
            }
        },
        {
            "Action": "MOVE",
            "Entity": "RESOURCE",
            "PhysicalResourceId": "MyTestFunction",
            "Description": "Resource configuration changes will be validated during refactor execution.",
            "Detection": "AUTO",
            "TagResources": [
                {
                    "Key": "aws:cloudformation:stack-name",
                    "Value": "Stack2"
                },
                {
                    "Key": "aws:cloudformation:logical-id",
                    "Value": "MyFunction"
                },
                {
                    "Key": "aws:cloudformation:stack-id",
                    "Value": "arn:aws:cloudformation:us-east-1:123456789012:stack/Stack2/5da91650-94b1-11f0-81cf-0a23500e151b"
                }
            ],
            "UntagResources": [
                "aws:cloudformation:stack-name",
                "aws:cloudformation:logical-id",
                "aws:cloudformation:stack-id"
            ],
            "ResourceMapping": {
                "Source": {
                    "StackName": "arn:aws:cloudformation:us-east-1:123456789012:stack/Stack1/3e6a1ff0-94b1-11f0-aa6f-0a88d2e03acf",
                    "LogicalResourceId": "MyFunction"
                },
                "Destination": {
                    "StackName": "arn:aws:cloudformation:us-east-1:123456789012:stack/Stack2/5da91650-94b1-11f0-81cf-0a23500e151b",
                    "LogicalResourceId": "MyFunction"
                }
            }
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Stack refactoring](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/stack-refactoring.html) di Panduan Pengguna.AWS CloudFormation *  
+  Untuk detail API, lihat [ListStackRefactorActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-stack-refactor-actions.html)di *Referensi AWS CLI Perintah*. 

### `list-stack-resources`
<a name="cloudformation_ListStackResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stack-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber daya dalam tumpukan**  
Perintah berikut menampilkan daftar sumber daya dalam tumpukan yang ditentukan.  

```
aws cloudformation list-stack-resources \
    --stack-name my-stack
```
Output:  

```
{
    "StackResourceSummaries": [
        {
            "LogicalResourceId": "bucket",
            "PhysicalResourceId": "my-stack-bucket-1vc62xmplgguf",
            "ResourceType": "AWS::S3::Bucket",
            "LastUpdatedTimestamp": "2019-10-02T04:34:11.345Z",
            "ResourceStatus": "CREATE_COMPLETE",
            "DriftInformation": {
                "StackResourceDriftStatus": "IN_SYNC"
            }
        },
        {
            "LogicalResourceId": "function",
            "PhysicalResourceId": "my-function-SEZV4XMPL4S5",
            "ResourceType": "AWS::Lambda::Function",
            "LastUpdatedTimestamp": "2019-10-02T05:34:27.989Z",
            "ResourceStatus": "UPDATE_COMPLETE",
            "DriftInformation": {
                "StackResourceDriftStatus": "IN_SYNC"
            }
        },
        {
            "LogicalResourceId": "functionRole",
            "PhysicalResourceId": "my-functionRole-HIZXMPLEOM9E",
            "ResourceType": "AWS::IAM::Role",
            "LastUpdatedTimestamp": "2019-10-02T04:34:06.350Z",
            "ResourceStatus": "CREATE_COMPLETE",
            "DriftInformation": {
                "StackResourceDriftStatus": "IN_SYNC"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [ListStackResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-stack-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-stack-set-operation-results`
<a name="cloudformation_ListStackSetOperationResults_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stack-set-operation-results`.

**AWS CLI**  
**Untuk mencantumkan hasil operasi set tumpukan**  
Perintah berikut menampilkan hasil operasi pembaruan pada instance dalam kumpulan tumpukan yang ditentukan.  

```
aws cloudformation list-stack-set-operation-results \
    --stack-set-name enable-config \
    --operation-id 35d45ebc-ed88-xmpl-ab59-0197a1fc83a0
```
Output:  

```
{
    "Summaries": [
        {
            "Account": "223456789012",
            "Region": "us-west-2",
            "Status": "SUCCEEDED",
            "AccountGateResult": {
                "Status": "SKIPPED",
                "StatusReason": "Function not found: arn:aws:lambda:eu-west-1:223456789012:function:AWSCloudFormationStackSetAccountGate"
            }
        },
        {
            "Account": "223456789012",
            "Region": "ap-south-1",
            "Status": "CANCELLED",
            "StatusReason": "Cancelled since failure tolerance has exceeded"
        }
    ]
}
```
**Catatan:** `SKIPPED` Status untuk `AccountGateResult` diharapkan untuk operasi yang berhasil kecuali Anda membuat fungsi gerbang akun.  
+  Untuk detail API, lihat [ListStackSetOperationResults](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-stack-set-operation-results.html)di *Referensi AWS CLI Perintah*. 

### `list-stack-set-operations`
<a name="cloudformation_ListStackSetOperations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stack-set-operations`.

**AWS CLI**  
**Untuk membuat daftar operasi set tumpukan**  
`list-stack-set-operations`Contoh berikut menampilkan daftar operasi terbaru pada set stack yang ditentukan.  

```
aws cloudformation list-stack-set-operations \
    --stack-set-name my-stack-set
```
Output:  

```
{
    "Summaries": [
        {
            "OperationId": "35d45ebc-ed88-xmpl-ab59-0197a1fc83a0",
            "Action": "UPDATE",
            "Status": "SUCCEEDED",
            "CreationTimestamp": "2019-10-03T16:28:44.377Z",
            "EndTimestamp": "2019-10-03T16:42:08.607Z"
        },
        {
            "OperationId": "891aa98f-7118-xmpl-00b2-00954d1dd0d6",
            "Action": "UPDATE",
            "Status": "FAILED",
            "CreationTimestamp": "2019-10-03T15:43:53.916Z",
            "EndTimestamp": "2019-10-03T15:45:58.925Z"
        }
    ]
}
```
+  Untuk detail API, lihat [ListStackSetOperations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-stack-set-operations.html)di *Referensi AWS CLI Perintah*. 

### `list-stack-sets`
<a name="cloudformation_ListStackSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stack-sets`.

**AWS CLI**  
**Untuk membuat daftar set tumpukan**  
`list-stack-sets`Contoh berikut menampilkan daftar set tumpukan di wilayah dan akun saat ini.  

```
aws cloudformation list-stack-sets
```
Output:  

```
{
    "Summaries": [
        {
            "StackSetName": "enable-config",
            "StackSetId": "enable-config:296a3360-xmpl-40af-be78-9341e95bf743",
            "Description": "Enable AWS Config",
            "Status": "ACTIVE"
        }
    ]
}
```
+  Untuk detail API, lihat [ListStackSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-stack-sets.html)di *Referensi AWS CLI Perintah*. 

### `list-stacks`
<a name="cloudformation_ListStacks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stacks`.

**AWS CLI**  
**Untuk daftar AWS CloudFormation tumpukan**  
`list-stacks`Perintah berikut menunjukkan ringkasan semua tumpukan yang memiliki status`CREATE_COMPLETE`:  

```
aws cloudformation list-stacks --stack-status-filter CREATE_COMPLETE
```
Output:  

```
[
    {
        "StackId": "arn:aws:cloudformation:us-east-1:123456789012:stack/myteststack/466df9e0-0dff-08e3-8e2f-5088487c4896",
        "TemplateDescription": "AWS CloudFormation Sample Template S3_Bucket: Sample template showing how to create a publicly accessible S3 bucket. **WARNING** This template creates an S3 bucket. You will be billed for the AWS resources used if you create a stack from this template.",
        "StackStatusReason": null,
        "CreationTime": "2013-08-26T03:27:10.190Z",
        "StackName": "myteststack",
        "StackStatus": "CREATE_COMPLETE"
    }
]
```
+  Untuk detail API, lihat [ListStacks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-stacks.html)di *Referensi AWS CLI Perintah*. 

### `list-type-registrations`
<a name="cloudformation_ListTypeRegistrations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-type-registrations`.

**AWS CLI**  
**Untuk membuat daftar pendaftaran lengkap dari suatu jenis**  
`list-type-registrations`Contoh berikut menampilkan daftar pendaftaran tipe lengkap untuk jenis yang ditentukan.  

```
aws cloudformation list-type-registrations \
    --type RESOURCE \
    --type-name My::Logs::LogGroup \
    --registration-status-filter COMPLETE
```
Output:  

```
{
    "RegistrationTokenList": [
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan CloudFormation Registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [ListTypeRegistrations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-type-registrations.html)di *Referensi AWS CLI Perintah*. 

### `list-type-versions`
<a name="cloudformation_ListTypeVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-type-versions`.

**AWS CLI**  
**Untuk membuat daftar versi ekstensi**  
`list-type-versions`Contoh berikut mengembalikan informasi ringkasan tentang versi ekstensi.  

```
aws cloudformation list-type-versions \
  --endpoint https://example.com \
  --region us-west-2 \
  --type RESOURCE \
  --type-name My::Resource::Example \
  --publisher-id 123456789012
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [ListTypeVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-type-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-types`
<a name="cloudformation_ListTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-types`.

**AWS CLI**  
**Untuk mencantumkan jenis sumber daya pribadi di akun**  
`list-types`Contoh berikut menampilkan daftar jenis sumber daya pribadi yang saat ini terdaftar di AWS akun saat ini.  

```
aws cloudformation list-types
```
Output:  

```
{
    "TypeSummaries": [
        {
            "Description": "WordPress blog resource for internal use",
            "LastUpdated": "2019-12-04T18:28:15.059Z",
            "TypeName": "My::WordPress::BlogExample",
            "TypeArn": "arn:aws:cloudformation:us-west-2:123456789012:type/resource/My-WordPress-BlogExample",
            "DefaultVersionId": "00000005",
            "Type": "RESOURCE"
        },
        {
            "Description": "Customized resource derived from AWS::Logs::LogGroup",
            "LastUpdated": "2019-12-04T18:28:15.059Z",
            "TypeName": "My::Logs::LogGroup",
            "TypeArn": "arn:aws:cloudformation:us-west-2:123456789012:type/resource/My-Logs-LogGroup",
            "DefaultVersionId": "00000003",
            "Type": "RESOURCE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan CloudFormation Registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [ListTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/list-types.html)di *Referensi AWS CLI Perintah*. 

### `package`
<a name="cloudformation_Package_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`package`.

**AWS CLI**  
Perintah berikut mengekspor template bernama `template.json` dengan mengunggah artefak lokal ke bucket S3 `bucket-name` dan menulis template yang diekspor ke: `packaged-template.json`  

```
aws cloudformation package --template-file /path_to_template/template.json --s3-bucket bucket-name --output-template-file packaged-template.json --use-json
```
+  Untuk detail API, lihat [Package](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/package.html) in *AWS CLI Command Reference*. 

### `publish-type`
<a name="cloudformation_PublishType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`publish-type`.

**AWS CLI**  
**Untuk mempublikasikan ekstensi**  
`publish-type`Contoh berikut menerbitkan ekstensi yang ditentukan ke CloudFormation registri sebagai ekstensi publik di Wilayah ini.  

```
aws cloudformation publish-type \
  --region us-west-2 \
  --type RESOURCE \
  --type-name Example::Test::1234567890abcdef0
```
Output:  

```
{
    "PublicTypeArn":"arn:aws:cloudformation:us-west-2::type/resource/000q6TfUovXsEMmgKowxDZLlwqr2QUshd2e75c8c/Example-Test-1234567890abcdef0/1.0.0"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [PublishType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/publish-type.html)di *Referensi AWS CLI Perintah*. 

### `register-publisher`
<a name="cloudformation_RegisterPublisher_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-publisher`.

**AWS CLI**  
**Untuk mendaftarkan penerbit**  
`register-publisher`Contoh berikut mendaftarkan penerbit dan menerima parameter syarat dan kondisi.  

```
aws cloudformation register-publisher \
  --region us-west-2 \
  --accept-terms-and-conditions
```
Output:  

```
{
    "PublisherId": "000q6TfUovXsEMmgKowxDZLlwqr2QUshd2e75c8c"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [RegisterPublisher](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/register-publisher.html)di *Referensi AWS CLI Perintah*. 

### `register-type`
<a name="cloudformation_RegisterType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-type`.

**AWS CLI**  
**Untuk mendaftarkan jenis sumber daya**  
`register-type`Contoh berikut mendaftarkan jenis sumber daya yang ditentukan sebagai tipe sumber daya pribadi di akun pengguna.  

```
aws cloudformation register-type \
    --type-name My::Organization::ResourceName \
    --schema-handler-package s3://bucket_name/my-organization-resource_name.zip \
    --type RESOURCE
```
Output:  

```
{
    "RegistrationToken": "f5525280-104e-4d35-bef5-8f1f1example"
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Penyedia Sumber Daya](https://docs.aws.amazon.com/cloudformation-cli/latest/userguide/resource-type-register.html) di *Panduan Pengguna Antarmuka Baris CloudFormation Perintah untuk Pengembangan Jenis*.  
+  Untuk detail API, lihat [RegisterType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/register-type.html)di *Referensi AWS CLI Perintah*. 

### `set-stack-policy`
<a name="cloudformation_SetStackPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-stack-policy`.

**AWS CLI**  
**Untuk menerapkan kebijakan tumpukan**  
`set-stack-policy`Contoh berikut menonaktifkan pembaruan untuk sumber daya yang ditentukan dalam tumpukan yang ditentukan. `stack-policy.json`adalah dokumen JSON yang mendefinisikan operasi yang diizinkan pada sumber daya di tumpukan.  

```
aws cloudformation set-stack-policy \
    --stack-name my-stack \
    --stack-policy-body file://stack-policy.json
```
Output:  

```
{
  "Statement" : [
    {
      "Effect" : "Allow",
      "Action" : "Update:*",
      "Principal": "*",
      "Resource" : "*"
    },
    {
      "Effect" : "Deny",
      "Action" : "Update:*",
      "Principal": "*",
      "Resource" : "LogicalResourceId/bucket"
    }
  ]
}
```
+  Untuk detail API, lihat [SetStackPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/set-stack-policy.html)di *Referensi AWS CLI Perintah*. 

### `set-type-configuration`
<a name="cloudformation_SetTypeConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-type-configuration`.

**AWS CLI**  
**Untuk mengkonfigurasi data**  
`set-type-configuration`Contoh berikut menentukan data konfigurasi untuk CloudFormation ekstensi terdaftar, di akun yang diberikan dan Wilayah.  

```
aws cloudformation set-type-configuration \
    --region us-west-2 \
    --type RESOURCE \
    --type-name Example::Test::Type \
    --configuration-alias default \
    --configuration "{\"CredentialKey\": \"testUserCredential\"}"
```
Output:  

```
{
    "ConfigurationArn": "arn:aws:cloudformation:us-west-2:123456789012:type-configuration/resource/Example-Test-Type/default"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [SetTypeConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/set-type-configuration.html)di *Referensi AWS CLI Perintah*. 

### `set-type-default-version`
<a name="cloudformation_SetTypeDefaultVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-type-default-version`.

**AWS CLI**  
**Untuk menyetel versi default tipe**  
`set-type-default-version`Contoh berikut menetapkan versi tipe tertentu yang akan digunakan sebagai default untuk jenis ini.  

```
aws cloudformation set-type-default-version \
    --type RESOURCE \
    --type-name My::Logs::LogGroup \
    --version-id 00000003
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan CloudFormation Registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [SetTypeDefaultVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/set-type-default-version.html)di *Referensi AWS CLI Perintah*. 

### `signal-resource`
<a name="cloudformation_SignalResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`signal-resource`.

**AWS CLI**  
**Untuk memberi sinyal sumber daya**  
`signal-resource`Contoh berikut sinyal `success` untuk memenuhi kondisi tunggu bernama `MyWaitCondition` dalam tumpukan bernama`my-stack`.  

```
aws cloudformation signal-resource \
    --stack-name my-stack \
    --logical-resource-id MyWaitCondition \
    --unique-id 1234 \
    --status SUCCESS
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SignalResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/signal-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-resource-scan`
<a name="cloudformation_StartResourceScan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-resource-scan`.

**AWS CLI**  
**Untuk memulai pemindaian sumber daya**  
`start-resource-scan`Contoh berikut memulai pemindaian sumber daya yang memindai semua sumber daya yang ada di akun saat ini dan Wilayah.  

```
aws cloudformation start-resource-scan
```
Output:  

```
{
    "ResourceScanId":
      "arn:aws:cloudformation:us-east-1:123456789012:resourceScan/0a699f15-489c-43ca-a3ef-3e6ecfa5da60"
}
```
Untuk informasi selengkapnya, lihat [Memulai pemindaian sumber daya dengan generator CloudFormation IAC](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/iac-generator-start-resource-scan.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [StartResourceScan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/start-resource-scan.html)di *Referensi AWS CLI Perintah*. 

### `stop-stack-set-operation`
<a name="cloudformation_StopStackSetOperation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-stack-set-operation`.

**AWS CLI**  
**Untuk menghentikan operasi set tumpukan**  
`stop-stack-set-operation`Contoh berikut menghentikan operasi pembaruan dalam progess pada set tumpukan yang ditentukan.  

```
aws cloudformation stop-stack-set-operation \
    --stack-set-name my-stack-set \
    --operation-id 1261cd27-490b-xmpl-ab42-793a896c69e6
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [StopStackSetOperation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/stop-stack-set-operation.html)di *Referensi AWS CLI Perintah*. 

### `test-type`
<a name="cloudformation_TestType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-type`.

**AWS CLI**  
**Untuk menguji ekstensi**  
`test-type`Contoh berikut menguji ekstensi terdaftar untuk memastikannya memenuhi semua persyaratan yang diperlukan untuk dipublikasikan di CloudFormation registri.  

```
aws cloudformation test-type \
    --arn arn:aws:cloudformation:us-west-2:123456789012:type/resource/Sample-Test-Resource123/00000001
```
Output:  

```
{
    "TypeVersionArn": "arn:aws:cloudformation:us-west-2:123456789012:type/resource/Sample-Test-Resource123/00000001"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS CloudFormation registri](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/registry.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [TestType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/test-type.html)di *Referensi AWS CLI Perintah*. 

### `update-stack-instances`
<a name="cloudformation_UpdateStackInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-stack-instances`.

**AWS CLI**  
**Untuk memperbarui instance tumpukan**  
`update-stack-instances`Contoh berikut mencoba ulang pembaruan pada instance tumpukan di dua akun di dua wilayah dengan pengaturan terbaru. Pengaturan toleransi kesalahan yang ditentukan memastikan bahwa pembaruan dicoba di semua akun dan wilayah, bahkan jika beberapa tumpukan tidak dapat diperbarui.  

```
aws cloudformation update-stack-instances \
    --stack-set-name my-stack-set \
    --accounts 123456789012 567890123456 \
    --regions us-east-1 us-west-2 \
    --operation-preferences FailureToleranceCount=3
```
Output:  

```
{
    "OperationId": "103ebdf2-21ea-xmpl-8892-de5e30733132"
}
```
+  Untuk detail API, lihat [UpdateStackInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/update-stack-instances.html)di *Referensi AWS CLI Perintah*. 

### `update-stack-set`
<a name="cloudformation_UpdateStackSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-stack-set`.

**AWS CLI**  
**Untuk memperbarui set tumpukan**  
`update-stack-set`Contoh berikut menambahkan tag dengan nama kunci `Owner` dan nilai `IT` untuk instance stack dalam set stack yang ditentukan.  

```
aws cloudformation update-stack-set \
    --stack-set-name my-stack-set \
    --use-previous-template \
    --tags Key=Owner,Value=IT
```
Output:  

```
{
    "OperationId": "e2b60321-6cab-xmpl-bde7-530c6f47950e"
}
```
+  Untuk detail API, lihat [UpdateStackSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/update-stack-set.html)di *Referensi AWS CLI Perintah*. 

### `update-stack`
<a name="cloudformation_UpdateStack_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-stack`.

**AWS CLI**  
**Untuk memperbarui AWS CloudFormation tumpukan**  
`update-stack`Perintah berikut memperbarui template dan parameter input untuk `mystack` tumpukan:  

```
aws cloudformation update-stack --stack-name mystack --template-url https://s3.amazonaws.com/sample/updated.template --parameters ParameterKey=KeyPairName,ParameterValue=SampleKeyPair ParameterKey=SubnetIDs,ParameterValue=SampleSubnetID1\\,SampleSubnetID2
```
`update-stack`Perintah berikut memperbarui hanya nilai `SubnetIDs` parameter untuk `mystack` tumpukan. Jika Anda tidak menentukan nilai parameter, nilai default yang ditentukan dalam template digunakan:  

```
aws cloudformation update-stack --stack-name mystack --template-url https://s3.amazonaws.com/sample/updated.template --parameters ParameterKey=KeyPairName,UsePreviousValue=true ParameterKey=SubnetIDs,ParameterValue=SampleSubnetID1\\,UpdatedSampleSubnetID2
```
`update-stack`Perintah berikut menambahkan dua topik notifikasi `mystack` tumpukan ke tumpukan:  

```
aws cloudformation update-stack --stack-name mystack --use-previous-template --notification-arns "arn:aws:sns:use-east-1:123456789012:mytopic1" "arn:aws:sns:us-east-1:123456789012:mytopic2"
```
Untuk informasi selengkapnya, lihat [AWS CloudFormation tumpukan pembaruan](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/using-cfn-updating-stacks.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [UpdateStack](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/update-stack.html)di *Referensi AWS CLI Perintah*. 

### `update-termination-protection`
<a name="cloudformation_UpdateTerminationProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-termination-protection`.

**AWS CLI**  
**Untuk mengaktifkan perlindungan terminasi**  
`update-termination-protection`Contoh berikut memungkinkan perlindungan terminasi pada tumpukan yang ditentukan.  

```
aws cloudformation update-termination-protection \
    --stack-name my-stack \
    --enable-termination-protection
```
Output:  

```
{
    "StackId": "arn:aws:cloudformation:us-west-2:123456789012:stack/my-stack/d0a825a0-e4cd-xmpl-b9fb-061c69e99204"
}
```
+  Untuk detail API, lihat [UpdateTerminationProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/update-termination-protection.html)di *Referensi AWS CLI Perintah*. 

### `validate-template`
<a name="cloudformation_ValidateTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`validate-template`.

**AWS CLI**  
**Untuk memvalidasi template AWS CloudFormation **  
`validate-template`Perintah berikut memvalidasi `sampletemplate.json` template:  

```
aws cloudformation validate-template --template-body file://sampletemplate.json
```
Output:  

```
{
    "Description": "AWS CloudFormation Sample Template S3_Bucket: Sample template showing how to create a publicly accessible S3 bucket. **WARNING** This template creates an S3 bucket. You will be billed for the AWS resources used if you create a stack from this template.",
    "Parameters": [],
    "Capabilities": []
}
```
Untuk informasi selengkapnya, lihat Bekerja dengan AWS CloudFormation Template di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [ValidateTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudformation/validate-template.html)di *Referensi AWS CLI Perintah*. 

# CloudFront contoh menggunakan AWS CLI
<a name="cli_2_cloudfront_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CloudFront.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-distribution-tenant-web-acl`
<a name="cloudfront_AssociateDistributionTenantWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-distribution-tenant-web-acl`.

**AWS CLI**  
**Untuk mengaitkan ACL web dengan CloudFront penyewa distribusi**  
`associate-distribution-tenant-web-acl`Contoh berikut mengaitkan ACL web dengan CloudFront distribusi dengan. ETag `E13V1IB3VIYABC`  

```
aws cloudfront associate-distribution-tenant-web-acl \
    --id dt_2wjDZi3hD1ivOXf6rpZJO1AB \
    --if-match E13V1IB3VIYABC \
    --web-acl-arn arn:aws:wafv2:us-east-1:123456789012:global/webacl/web-global-example/626900da-5f64-418b-ba9b-743f37123ABC
```
Output:  

```
{
    "ETag": "E1VC38T7YXBABC",
    "Id": "dt_2wjDZi3hD1ivOXf6rpZJO1AB",
    "WebACLArn": "arn:aws:wafv2:us-east-1:123456789012:global/webacl/web-global-example/626900da-5f64-418b-ba9b-743f37123ABC"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan perlindungan AWS WAF](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/distribution-web-awswaf.html) di Panduan * CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [AssociateDistributionTenantWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/associate-distribution-tenant-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `associate-distribution-web-acl`
<a name="cloudfront_AssociateDistributionWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-distribution-web-acl`.

**AWS CLI**  
**Untuk mengaitkan ACL web dengan distribusi CloudFront **  
`associate-distribution-web-acl`Contoh berikut mengaitkan ACL web dengan distribusi. CloudFront   

```
aws cloudfront associate-distribution-web-acl \
    --id E1XNX8R2GOAABC \
    --if-match E2YWS1C2J3OABC \
    --web-acl-arn arn:aws:wafv2:us-east-1:123456789012:global/webacl/web-global-example/626900da-5f64-418b-ba9b-743f3746cABC
```
Output:  

```
{
    "ETag": "E3QE7ED60U0ABC",
    "Id": "E1XNX8R2GOAABC",
    "WebACLArn": "arn:aws:wafv2:us-east-1:123456789012:global/webacl/web-global-example/626900da-5f64-418b-ba9b-743f3746cABC"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan perlindungan AWS WAF](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/distribution-web-awswaf.html) di Panduan * CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [AssociateDistributionWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/associate-distribution-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `create-cloud-front-origin-access-identity`
<a name="cloudfront_CreateCloudFrontOriginAccessIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cloud-front-origin-access-identity`.

**AWS CLI**  
**Untuk membuat identitas akses CloudFront asal**  
Contoh berikut membuat identitas akses CloudFront asal (OAI) dengan menyediakan konfigurasi OAI sebagai argumen baris perintah:  

```
aws cloudfront create-cloud-front-origin-access-identity \
    --cloud-front-origin-access-identity-config \
        CallerReference="cli-example",Comment="Example OAI"
```
Anda dapat mencapai hal yang sama dengan menyediakan konfigurasi OAI dalam file JSON, seperti yang ditunjukkan pada contoh berikut:  

```
aws cloudfront create-cloud-front-origin-access-identity \
    --cloud-front-origin-access-identity-config file://OAI-config.json
```
File tersebut `OAI-config.json` adalah dokumen JSON di direktori saat ini yang berisi berikut ini:  

```
{
    "CallerReference": "cli-example",
    "Comment": "Example OAI"
}
```
Apakah Anda memberikan konfigurasi OAI dengan argumen baris perintah atau file JSON, outputnya sama:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2019-03-26/origin-access-identity/cloudfront/E74FTE3AEXAMPLE",
    "ETag": "E2QWRUHEXAMPLE",
    "CloudFrontOriginAccessIdentity": {
        "Id": "E74FTE3AEXAMPLE",
        "S3CanonicalUserId": "cd13868f797c227fbea2830611a26fe0a21ba1b826ab4bed9b7771c9aEXAMPLE",
        "CloudFrontOriginAccessIdentityConfig": {
            "CallerReference": "cli-example",
            "Comment": "Example OAI"
        }
    }
}
```
+  Untuk detail API, lihat [CreateCloudFrontOriginAccessIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-cloud-front-origin-access-identity.html)di *Referensi AWS CLI Perintah*. 

### `create-connection-group`
<a name="cloudfront_CreateConnectionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-connection-group`.

**AWS CLI**  
**Untuk membuat grup koneksi di CloudFront**  
`create-connection-group`Contoh berikut membuat grup koneksi diaktifkan, menentukan daftar IP statis Anycast, dan menonaktifkan. IPv6  

```
aws cloudfront create-connection-group \
    --name cg-with-anycast-ip-list \
    --no-ipv6-enabled \
    --enabled \
    --anycast-ip-list-id aip_CCkW6gKrDiBD4n78123ABC \
    --tags "Items=[{Key=abc,Value=123}]"
```
Output:  

```
{
    "ETag": "E23ZP02F085ABC",
    "ConnectionGroup": {
        "Id": "cg_2yb6uj74B4PCbfhT31WFdiSABC",
        "Name": "cg-with-anycast-ip-list",
        "Arn": "arn:aws:cloudfront::123456789012:connection-group/cg_2yb6uj74B4PCbfhT31WFdiSABC",
        "CreatedTime": "2025-06-16T16:25:50.061000+00:00",
        "LastModifiedTime": "2025-06-16T16:25:50.061000+00:00",
        "Tags": {
            "Items": [
                {
                    "Key": "abc",
                    "Value": "123"
                }
            ]
        },
        "Ipv6Enabled": false,
        "RoutingEndpoint": "dj6xusxq65abc.cloudfront.net",
        "AnycastIpListId": "aip_CCkW6gKrDiBD4n78123ABC",
        "Status": "InProgress",
        "Enabled": true,
        "IsDefault": false
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup sambungan kustom (opsional)](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/custom-connection-group.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [CreateConnectionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-connection-group.html)di *Referensi AWS CLI Perintah*. 

### `create-distribution-tenant`
<a name="cloudfront_CreateDistributionTenant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-distribution-tenant`.

**AWS CLI**  
**Contoh 1: Untuk membuat penyewa CloudFront distribusi yang menggunakan sertifikat kustom**  
`create-distribution-tenant`Contoh berikut membuat penyewa CloudFront distribusi yang menentukan kustomisasi untuk menonaktifkan WAF, menambahkan pembatasan geografis, dan menggunakan sertifikat TLS lainnya.  

```
aws cloudfront create-distribution-tenant \
    --cli-input-json file://tenant.json
```
Isi dari `tenant.json`:  

```
{
    "DistributionId": "E1XNX8R2GOAABC",
    "Domains": [
        {
            "Domain": "example.com"
        }
    ],
    "Parameters": [
        {
            "Name": "testParam",
            "Value": "defaultValue"
        }
    ],
    "ConnectionGroupId": "cg_2whCJoXMYCjHcxaLGrkllvyABC",
    "Enabled": false,
    "Tags": {
        "Items": [
            {
                "Key": "tag",
                "Value": "tagValue"
            }
        ]
    },
    "Name": "new-tenant-customizations",
    "Customizations": {
        "GeoRestrictions": {
            "Locations": ["DE"],
            "RestrictionType": "whitelist"
        },
        "WebAcl": {
            "Action": "disable"
        },
        "Certificate": {
            "Arn": "arn:aws:acm:us-east-1:123456789012:certificate/ec53f564-ea5a-4e4a-a0a2-e3c989449abc"
        }
    }
}
```
Output:  

```
{
    "ETag": "E23ZP02F085ABC",
    "DistributionTenant": {
        "Id": "dt_2yN5tYwVbPKr7m2IB69M1yp1AB",
        "DistributionId": "E1XNX8R2GOAABC",
        "Name": "new-tenant-customizations",
        "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2yN5tYwVbPKr7m2IB69M1yp1AB",
        "Domains": [
            {
                "Domain": "example.com",
                "Status": "active"
            }
        ],
        "Tags": {
            "Items": [
                {
                    "Key": "tag",
                    "Value": "tagValue"
                }
            ]
        },
        "Customizations": {
            "WebAcl": {
                "Action": "disable"
            },
            "Certificate": {
                "Arn": "arn:aws:acm:us-east-1:123456789012:certificate/ec53f564-ea5a-4e4a-a0a2-e3c989449abc"
            },
            "GeoRestrictions": {
                "RestrictionType": "whitelist",
                "Locations": [
                    "DE"
                ]
            }
        },
        "Parameters": [
            {
                "Name": "testParam",
                "Value": "defaultValue"
            }
        ],
        "ConnectionGroupId": "cg_2whCJoXMYCjHcxaLGrkllvyABC",
        "CreatedTime": "2025-06-11T17:20:06.432000+00:00",
        "LastModifiedTime": "2025-06-11T17:20:06.432000+00:00",
        "Enabled": false,
        "Status": "InProgress"
    }
}
```
**Contoh 2: Untuk membuat penyewa distribusi dengan sertifikat yang diwariskan**  
`create-distribution-tenant`Contoh berikut membuat penyewa distribusi dan menentukan sertifikat TLS yang diwarisi dari distribusi multi-tenant.  

```
aws cloudfront create-distribution-tenant \
    --cli-input-json file://tenant.json
```
Isi dari `tenant.json`:  

```
{
    "DistributionId": "E1HVIAU7U12ABC",
    "Domains": [
        {
            "Domain": "example.com"
        }
    ],
    "Parameters": [
        {
            "Name": "tenantName",
            "Value": "first-tenant"
        }
    ],
    "Enabled": true,
    "Name": "new-tenant-no-cert"
}
```
Output:  

```
{
    "ETag": "E23ZP02F0ABC",
    "DistributionTenant": {
        "Id": "dt_2zhRB0vBe0B72LZCVy1mgzI1AB",
        "DistributionId": "E1HVIAU7U12ABC",
        "Name": "new-tenant-no-cert",
        "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2zhRB0vBe0B72LZCVy1mgzI1AB",
        "Domains": [
            {
                "Domain": "example.com",
                "Status": "active"
            }
        ],
        "Parameters": [
            {
                "Name": "tenantName",
                "Value": "first-tenant"
            }
        ],
        "ConnectionGroupId": "cg_2yQEwpipGFN0hhA0ZemPabOABC",
        "CreatedTime": "2025-07-10T20:59:38.414000+00:00",
        "LastModifiedTime": "2025-07-10T20:59:38.414000+00:00",
        "Enabled": true,
        "Status": "InProgress"
    }
}
```
**Contoh 3: Untuk membuat penyewa CloudFront distribusi menggunakan token validasi CloudFront -host**  
`create-distribution-tenant`Contoh berikut membuat penyewa distribusi dan menggunakan token validasi CloudFront -host untuk nama domain Anda.  

```
aws cloudfront create-distribution-tenant \
    --cli-input-json file://tenant.json
```
Isi dari `tenant.json`:  

```
{
    "DistributionId": "E2GJ5J9QN12ABC",
    "Domains": [
        {
            "Domain": "example.com"
        }
    ],
    "Parameters": [
        {
            "Name": "tenantName",
            "Value": "first-tenant"
        }
    ],
    "ConnectionGroupId": "cg_2yQEwpipGFN0hhA0ZemPabOABC",
    "Enabled": true,
    "Name": "new-tenant-cf-hosted",
    "ManagedCertificateRequest": {
        "ValidationTokenHost": "cloudfront"
    }
}
```
**Penting:** Agar berhasil menjalankan perintah ini, Anda harus mengonfigurasi data DNS CNAME yang mengarahkan domain baru Anda (example.com) ke titik akhir perutean grup koneksi yang terkait dengan penyewa distribusi. Catatan CNAME ini juga harus disebarkan sebelum CloudFront berhasil menyelesaikan permintaan ini.  
Output:  

```
{
    "ETag": "E23ZP02F0ABC",
    "DistributionTenant": {
        "Id": "dt_2zhStKrA524GvvTWJX92Ozl1AB",
        "DistributionId": "E2GJ5J9QN12ABC",
        "Name": "new-tenant-cf-hosted",
        "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2zhStKrA524GvvTWJX92Ozl1AB",
        "Domains": [
            {
                "Domain": "example.com",
                "Status": "inactive"
            }
        ],
        "Parameters": [
            {
                "Name": "tenantName",
                "Value": "first-tenant"
            }
        ],
        "ConnectionGroupId": "cg_2zhSaGatwwXjTjE42nneZzqABC",
        "CreatedTime": "2025-07-10T21:13:46.416000+00:00",
        "LastModifiedTime": "2025-07-10T21:13:46.416000+00:00",
        "Enabled": true,
        "Status": "InProgress"
    }
}
```
**Contoh 4: Untuk membuat penyewa CloudFront distribusi menggunakan token validasi yang dihosting sendiri**  
`create-distribution-tenant`Contoh berikut membuat penyewa CloudFront distribusi dan menggunakan token validasi yang dihosting sendiri.  

```
aws cloudfront create-distribution-tenant \
    --cli-input-json file://tenant.json
```
Isi dari `tenant.json`:  

```
{
    "DistributionId": "E2GJ5J9QN12ABC",
    "Domains": [
        {
            "Domain": "example.com"
        }
    ],
    "Parameters": [
        {
            "Name": "tenantName",
            "Value": "first-tenant"
        }
    ],
    "Enabled": true,
    "Name": "new-tenant-self-hosted",
    "ManagedCertificateRequest": {
        "ValidationTokenHost": "self-hosted"
    }
}
```
Output:  

```
{
    "ETag": "E23ZP02F0ABC",
    "DistributionTenant": {
        "Id": "dt_2zhTFBV93OfFJJ3YMdNM5BC1AB",
        "DistributionId": "E2GJ5J9QN12ABC",
        "Name": "new-tenant-self-hosted",
        "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2zhTFBV93OfFJJ3YMdNM5BC1AB",
        "Domains": [
            {
                "Domain": "example.com",
                "Status": "inactive"
            }
        ],
        "Parameters": [
            {
                "Name": "tenantName",
                "Value": "first-tenant"
            }
        ],
        "ConnectionGroupId": "cg_2yQEwpipGFN0hhA0ZemPabOABC",
        "CreatedTime": "2025-07-10T21:16:39.828000+00:00",
        "LastModifiedTime": "2025-07-10T21:16:39.828000+00:00",
        "Enabled": true,
        "Status": "InProgress"
    }
}
```
**Penting:** Setelah Anda menjalankan perintah ini, penyewa distribusi akan dibuat tanpa validasi. Untuk memvalidasi permintaan sertifikat terkelola dan mengonfigurasi DNS saat Anda siap untuk mulai menerima lalu lintas, lihat [Penyiapan domain lengkap](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/managed-cloudfront-certificates.html#complete-domain-ownership) di Panduan * CloudFront Pengembang Amazon*.  
Untuk informasi selengkapnya tentang membuat penyewa distribusi, lihat [Membuat distribusi](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/distribution-web-creating-console.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [CreateDistributionTenant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-distribution-tenant.html)di *Referensi AWS CLI Perintah*. 

### `create-distribution-with-tags`
<a name="cloudfront_CreateDistributionWithTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-distribution-with-tags`.

**AWS CLI**  
**Untuk membuat CloudFront distribusi dengan tag**  
`create-distribution-with-tags`Contoh berikut membuat distribusi dengan dua tag dengan menyediakan konfigurasi distribusi dan tag dalam file JSON bernama`dist-config-with-tags.json`.  

```
aws cloudfront create-distribution-with-tags \
    --distribution-config-with-tags file://dist-config-with-tags.json
```
File tersebut `dist-config-with-tags.json` adalah dokumen JSON di folder saat ini. Perhatikan `Tags` objek di bagian atas file, yang berisi dua tag:  
`Name = ExampleDistribution``Project = ExampleProject`  
Isi dari `dist-config-with-tags.json`:  

```
{
    "Tags": {
        "Items": [
            {
                "Key": "Name",
                "Value": "ExampleDistribution"
            },
            {
                "Key": "Project",
                "Value": "ExampleProject"
            }
        ]
    },
    "DistributionConfig": {
        "CallerReference": "cli-example",
        "Aliases": {
            "Quantity": 0
        },
        "DefaultRootObject": "index.html",
        "Origins": {
            "Quantity": 1,
            "Items": [
                {
                    "Id": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                    "DomainName": "amzn-s3-demo-bucket.s3.amazonaws.com",
                    "OriginPath": "",
                    "CustomHeaders": {
                        "Quantity": 0
                    },
                    "S3OriginConfig": {
                        "OriginAccessIdentity": ""
                    }
                }
            ]
        },
        "OriginGroups": {
            "Quantity": 0
        },
        "DefaultCacheBehavior": {
            "TargetOriginId": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
            "ForwardedValues": {
                "QueryString": false,
                "Cookies": {
                    "Forward": "none"
                },
                "Headers": {
                    "Quantity": 0
                },
                "QueryStringCacheKeys": {
                    "Quantity": 0
                }
            },
            "TrustedSigners": {
                "Enabled": false,
                "Quantity": 0
            },
            "ViewerProtocolPolicy": "allow-all",
            "MinTTL": 0,
            "AllowedMethods": {
                "Quantity": 2,
                "Items": [
                    "HEAD",
                    "GET"
                ],
                "CachedMethods": {
                    "Quantity": 2,
                    "Items": [
                        "HEAD",
                        "GET"
                    ]
                }
            },
            "SmoothStreaming": false,
            "DefaultTTL": 86400,
            "MaxTTL": 31536000,
            "Compress": false,
            "LambdaFunctionAssociations": {
                "Quantity": 0
            },
            "FieldLevelEncryptionId": ""
        },
        "CacheBehaviors": {
            "Quantity": 0
        },
        "CustomErrorResponses": {
            "Quantity": 0
        },
        "Comment": "",
        "Logging": {
            "Enabled": false,
            "IncludeCookies": false,
            "Bucket": "",
            "Prefix": ""
        },
        "PriceClass": "PriceClass_All",
        "Enabled": true,
        "ViewerCertificate": {
            "CloudFrontDefaultCertificate": true,
            "MinimumProtocolVersion": "TLSv1",
            "CertificateSource": "cloudfront"
        },
        "Restrictions": {
            "GeoRestriction": {
                "RestrictionType": "none",
                "Quantity": 0
            }
        },
        "WebACLId": "",
        "HttpVersion": "http2",
        "IsIPV6Enabled": true
    }
}
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2019-03-26/distribution/EDFDVBD6EXAMPLE",
    "ETag": "E2QWRUHEXAMPLE",
    "Distribution": {
        "Id": "EDFDVBD6EXAMPLE",
        "ARN": "arn:aws:cloudfront::123456789012:distribution/EDFDVBD6EXAMPLE",
        "Status": "InProgress",
        "LastModifiedTime": "2019-12-04T23:35:41.433Z",
        "InProgressInvalidationBatches": 0,
        "DomainName": "d111111abcdef8.cloudfront.net",
        "ActiveTrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "DistributionConfig": {
            "CallerReference": "cli-example",
            "Aliases": {
                "Quantity": 0
            },
            "DefaultRootObject": "index.html",
            "Origins": {
                "Quantity": 1,
                "Items": [
                    {
                        "Id": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                        "DomainName": "amzn-s3-demo-bucket.s3.amazonaws.com",
                        "OriginPath": "",
                        "CustomHeaders": {
                            "Quantity": 0
                        },
                        "S3OriginConfig": {
                            "OriginAccessIdentity": ""
                        }
                    }
                ]
            },
            "OriginGroups": {
                "Quantity": 0
            },
            "DefaultCacheBehavior": {
                "TargetOriginId": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                "ForwardedValues": {
                    "QueryString": false,
                    "Cookies": {
                        "Forward": "none"
                    },
                    "Headers": {
                        "Quantity": 0
                    },
                    "QueryStringCacheKeys": {
                        "Quantity": 0
                    }
                },
                "TrustedSigners": {
                    "Enabled": false,
                    "Quantity": 0
                },
                "ViewerProtocolPolicy": "allow-all",
                "MinTTL": 0,
                "AllowedMethods": {
                    "Quantity": 2,
                    "Items": [
                        "HEAD",
                        "GET"
                    ],
                    "CachedMethods": {
                        "Quantity": 2,
                        "Items": [
                            "HEAD",
                            "GET"
                        ]
                    }
                },
                "SmoothStreaming": false,
                "DefaultTTL": 86400,
                "MaxTTL": 31536000,
                "Compress": false,
                "LambdaFunctionAssociations": {
                    "Quantity": 0
                },
                "FieldLevelEncryptionId": ""
            },
            "CacheBehaviors": {
                "Quantity": 0
            },
            "CustomErrorResponses": {
                "Quantity": 0
            },
            "Comment": "",
            "Logging": {
                "Enabled": false,
                "IncludeCookies": false,
                "Bucket": "",
                "Prefix": ""
            },
            "PriceClass": "PriceClass_All",
            "Enabled": true,
            "ViewerCertificate": {
                "CloudFrontDefaultCertificate": true,
                "MinimumProtocolVersion": "TLSv1",
                "CertificateSource": "cloudfront"
            },
            "Restrictions": {
                "GeoRestriction": {
                    "RestrictionType": "none",
                    "Quantity": 0
                }
            },
            "WebACLId": "",
            "HttpVersion": "http2",
            "IsIPV6Enabled": true
        }
    }
}
```
+  Untuk detail API, lihat [CreateDistributionWithTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-distribution-with-tags.html)di *Referensi AWS CLI Perintah*. 

### `create-distribution`
<a name="cloudfront_CreateDistribution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-distribution`.

**AWS CLI**  
**Contoh 1: Untuk membuat CloudFront distribusi**  
`create-distribution`Contoh berikut membuat distribusi untuk bucket S3 bernama`amzn-s3-demo-bucket`, dan juga menentukan `index.html` sebagai objek root default, menggunakan argumen baris perintah.  

```
aws cloudfront create-distribution \
    --origin-domain-name amzn-s3-demo-bucket.s3.amazonaws.com \
    --default-root-object index.html
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2019-03-26/distribution/EMLARXS9EXAMPLE",
    "ETag": "E9LHASXEXAMPLE",
    "Distribution": {
        "Id": "EMLARXS9EXAMPLE",
        "ARN": "arn:aws:cloudfront::123456789012:distribution/EMLARXS9EXAMPLE",
        "Status": "InProgress",
        "LastModifiedTime": "2019-11-22T00:55:15.705Z",
        "InProgressInvalidationBatches": 0,
        "DomainName": "d111111abcdef8.cloudfront.net",
        "ActiveTrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "DistributionConfig": {
            "CallerReference": "cli-example",
            "Aliases": {
                "Quantity": 0
            },
            "DefaultRootObject": "index.html",
            "Origins": {
                "Quantity": 1,
                "Items": [
                    {
                        "Id": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                        "DomainName": "amzn-s3-demo-bucket.s3.amazonaws.com",
                        "OriginPath": "",
                        "CustomHeaders": {
                            "Quantity": 0
                        },
                        "S3OriginConfig": {
                            "OriginAccessIdentity": ""
                        }
                    }
                ]
            },
            "OriginGroups": {
                "Quantity": 0
            },
            "DefaultCacheBehavior": {
                "TargetOriginId": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                "ForwardedValues": {
                    "QueryString": false,
                    "Cookies": {
                        "Forward": "none"
                    },
                    "Headers": {
                        "Quantity": 0
                    },
                    "QueryStringCacheKeys": {
                        "Quantity": 0
                    }
                },
                "TrustedSigners": {
                    "Enabled": false,
                    "Quantity": 0
                },
                "ViewerProtocolPolicy": "allow-all",
                "MinTTL": 0,
                "AllowedMethods": {
                    "Quantity": 2,
                    "Items": [
                        "HEAD",
                        "GET"
                    ],
                    "CachedMethods": {
                        "Quantity": 2,
                        "Items": [
                            "HEAD",
                            "GET"
                        ]
                    }
                },
                "SmoothStreaming": false,
                "DefaultTTL": 86400,
                "MaxTTL": 31536000,
                "Compress": false,
                "LambdaFunctionAssociations": {
                    "Quantity": 0
                },
                "FieldLevelEncryptionId": ""
            },
            "CacheBehaviors": {
                "Quantity": 0
            },
            "CustomErrorResponses": {
                "Quantity": 0
            },
            "Comment": "",
            "Logging": {
                "Enabled": false,
                "IncludeCookies": false,
                "Bucket": "",
                "Prefix": ""
            },
            "PriceClass": "PriceClass_All",
            "Enabled": true,
            "ViewerCertificate": {
                "CloudFrontDefaultCertificate": true,
                "MinimumProtocolVersion": "TLSv1",
                "CertificateSource": "cloudfront"
            },
            "Restrictions": {
                "GeoRestriction": {
                    "RestrictionType": "none",
                    "Quantity": 0
                }
            },
            "WebACLId": "",
            "HttpVersion": "http2",
            "IsIPV6Enabled": true
        }
    }
}
```
**Contoh 2: Untuk membuat CloudFront distribusi menggunakan file JSON**  
`create-distribution`Contoh berikut membuat distribusi untuk bucket S3 bernama`amzn-s3-demo-bucket`, dan juga menentukan `index.html` sebagai objek root default, menggunakan file JSON.  

```
aws cloudfront create-distribution \
    --distribution-config file://dist-config.json
```
Isi dari `dist-config.json`:  

```
{
    "CallerReference": "cli-example",
    "Aliases": {
        "Quantity": 0
    },
    "DefaultRootObject": "index.html",
    "Origins": {
        "Quantity": 1,
        "Items": [
            {
                "Id": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                "DomainName": "amzn-s3-demo-bucket.s3.amazonaws.com",
                "OriginPath": "",
                "CustomHeaders": {
                    "Quantity": 0
                },
                "S3OriginConfig": {
                    "OriginAccessIdentity": ""
                }
            }
        ]
    },
    "OriginGroups": {
        "Quantity": 0
    },
    "DefaultCacheBehavior": {
        "TargetOriginId": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
        "ForwardedValues": {
            "QueryString": false,
            "Cookies": {
                "Forward": "none"
            },
            "Headers": {
                "Quantity": 0
            },
            "QueryStringCacheKeys": {
                "Quantity": 0
            }
        },
        "TrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "ViewerProtocolPolicy": "allow-all",
        "MinTTL": 0,
        "AllowedMethods": {
            "Quantity": 2,
            "Items": [
                "HEAD",
                "GET"
            ],
            "CachedMethods": {
                "Quantity": 2,
                "Items": [
                    "HEAD",
                    "GET"
                ]
            }
        },
        "SmoothStreaming": false,
        "DefaultTTL": 86400,
        "MaxTTL": 31536000,
        "Compress": false,
        "LambdaFunctionAssociations": {
            "Quantity": 0
        },
        "FieldLevelEncryptionId": ""
    },
    "CacheBehaviors": {
        "Quantity": 0
    },
    "CustomErrorResponses": {
        "Quantity": 0
    },
    "Comment": "",
    "Logging": {
        "Enabled": false,
        "IncludeCookies": false,
        "Bucket": "",
        "Prefix": ""
    },
    "PriceClass": "PriceClass_All",
    "Enabled": true,
    "ViewerCertificate": {
        "CloudFrontDefaultCertificate": true,
        "MinimumProtocolVersion": "TLSv1",
        "CertificateSource": "cloudfront"
    },
    "Restrictions": {
        "GeoRestriction": {
            "RestrictionType": "none",
            "Quantity": 0
        }
    },
    "WebACLId": "",
    "HttpVersion": "http2",
    "IsIPV6Enabled": true
}
```
Lihat Contoh 1 untuk keluaran sampel.  
**Contoh 3: Untuk membuat distribusi CloudFront multi-tenant dengan sertifikat**  
`create-distribution`Contoh berikut membuat CloudFront distribusi dengan dukungan multi-tenant dan menentukan sertifikat TLS.  

```
aws cloudfront create-distribution \
    --distribution-config file://dist-config.json
```
Isi dari `dist-config.json`:  

```
{
    "CallerReference": "cli-example-with-cert",
    "Comment": "CLI example distribution",
    "DefaultRootObject": "index.html",
    "Origins": {
        "Quantity": 1,
        "Items": [
            {
                "Id": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                "DomainName": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                "OriginPath": "/{{tenantName}}",
                "CustomHeaders": {
                    "Quantity": 0
                },
                "S3OriginConfig": {
                    "OriginAccessIdentity": ""
                }
            }
        ]
    },
    "DefaultCacheBehavior": {
        "TargetOriginId": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
        "CachePolicyId": "658327ea-f89d-4fab-a63d-7e88639e5ABC",
        "ViewerProtocolPolicy": "allow-all",
        "AllowedMethods": {
            "Quantity": 2,
            "Items": ["HEAD", "GET"],
            "CachedMethods": {
                "Quantity": 2,
                "Items": ["HEAD", "GET"]
            }
        }
    },
    "Enabled": true,
    "ViewerCertificate": {
        "ACMCertificateArn": "arn:aws:acm:us-east-1:123456789012:certificate/191306a1-db01-49ca-90ef-fc414ee5dabc",
        "SSLSupportMethod": "sni-only"
    },
    "HttpVersion": "http2",
    "ConnectionMode": "tenant-only",
    "TenantConfig": {
        "ParameterDefinitions": [
            {
                "Name": "tenantName",
                "Definition": {
                    "StringSchema": {
                        "Comment": "tenantName parameter",
                        "DefaultValue": "root",
                        "Required": false
                    }
                }
            }
        ]
    }
}
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2020-05-31/distribution/E1HVIAU7UABC",
    "ETag": "E20LT7R1BABC",
    "Distribution": {
        "Id": "E1HVIAU7U12ABC",
        "ARN": "arn:aws:cloudfront::123456789012:distribution/E1HVIAU7U12ABC",
        "Status": "InProgress",
        "LastModifiedTime": "2025-07-10T20:33:31.117000+00:00",
        "InProgressInvalidationBatches": 0,
        "DomainName": "example.com",
        "ActiveTrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "ActiveTrustedKeyGroups": {
            "Enabled": false,
            "Quantity": 0
        },
        "DistributionConfig": {
            "CallerReference": "cli-example-with-cert",
            "DefaultRootObject": "index.html",
            "Origins": {
                "Quantity": 1,
                "Items": [
                    {
                        "Id": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                        "DomainName": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                        "OriginPath": "/{{tenantName}}",
                        "CustomHeaders": {
                            "Quantity": 0
                        },
                        "S3OriginConfig": {
                            "OriginAccessIdentity": ""
                        },
                        "ConnectionAttempts": 3,
                        "ConnectionTimeout": 10,
                        "OriginShield": {
                            "Enabled": false
                        },
                        "OriginAccessControlId": ""
                    }
                ]
            },
            "OriginGroups": {
                "Quantity": 0
            },
            "DefaultCacheBehavior": {
                "TargetOriginId": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                "TrustedKeyGroups": {
                    "Enabled": false,
                    "Quantity": 0
                },
                "ViewerProtocolPolicy": "allow-all",
                "AllowedMethods": {
                    "Quantity": 2,
                    "Items": ["HEAD", "GET"],
                    "CachedMethods": {
                        "Quantity": 2,
                        "Items": ["HEAD", "GET"]
                    }
                },
                "Compress": false,
                "LambdaFunctionAssociations": {
                    "Quantity": 0
                },
                "FunctionAssociations": {
                    "Quantity": 0
                },
                "FieldLevelEncryptionId": "",
                "CachePolicyId": "658327ea-f89d-4fab-a63d-7e88639e5ABC",
                "GrpcConfig": {
                    "Enabled": false
                }
            },
            "CacheBehaviors": {
                "Quantity": 0
            },
            "CustomErrorResponses": {
                "Quantity": 0
            },
            "Comment": "CLI example distribution",
            "Logging": {
                "Enabled": false,
                "IncludeCookies": false,
                "Bucket": "",
                "Prefix": ""
            },
            "Enabled": true,
            "ViewerCertificate": {
                "CloudFrontDefaultCertificate": false,
                "ACMCertificateArn": "arn:aws:acm:us-east-1:123456789012:certificate/1954f095-11b6-4daf-9952-0c308a00abc",
                "SSLSupportMethod": "sni-only",
                "MinimumProtocolVersion": "TLSv1.2_2021",
                "Certificate": "arn:aws:acm:us-east-1:123456789012:certificate/1954f095-11b6-4daf-9952-0c308a00abc",
                "CertificateSource": "acm"
            },
            "Restrictions": {
                "GeoRestriction": {
                    "RestrictionType": "none",
                    "Quantity": 0
                }
            },
            "WebACLId": "",
            "HttpVersion": "http2",
            "TenantConfig": {
                "ParameterDefinitions": [
                    {
                        "Name": "tenantName",
                        "Definition": {
                            "StringSchema": {
                                "Comment": "tenantName parameter",
                                "DefaultValue": "root",
                                "Required": false
                            }
                        }
                    }
                ]
            },
            "ConnectionMode": "tenant-only"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan distribusi](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/distribution-working-with.html) di *Panduan CloudFront Pengembang Amazon*.  
**Contoh 4: Untuk membuat distribusi CloudFront multi-tenant tanpa sertifikat**  
`create-distribution`Contoh berikut membuat CloudFront distribusi dengan dukungan multi-tenant tetapi tanpa sertifikat TLS.  

```
aws cloudfront create-distribution \
    --distribution-config file://dist-config.json
```
Isi dari `dist-config.json`:  

```
{
    "CallerReference": "cli-example",
    "Comment": "CLI example distribution",
    "DefaultRootObject": "index.html",
    "Origins": {
        "Quantity": 1,
        "Items": [
            {
                "Id": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                "DomainName": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                "OriginPath": "/{{tenantName}}",
                "CustomHeaders": {
                    "Quantity": 0
                },
                "S3OriginConfig": {
                    "OriginAccessIdentity": ""
                }
            }
        ]
    },
    "DefaultCacheBehavior": {
        "TargetOriginId": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
        "CachePolicyId": "658327ea-f89d-4fab-a63d-7e88639e5ABC",
        "ViewerProtocolPolicy": "allow-all",
        "AllowedMethods": {
            "Quantity": 2,
            "Items": [
                "HEAD",
                "GET"
            ],
            "CachedMethods": {
                "Quantity": 2,
                "Items": [
                    "HEAD",
                    "GET"
                ]
            }
        }
    },
    "Enabled": true,
    "HttpVersion": "http2",
    "ConnectionMode": "tenant-only",
    "TenantConfig": {
        "ParameterDefinitions": [
            {
                "Name": "tenantName",
                "Definition": {
                    "StringSchema": {
                        "Comment": "tenantName parameter",
                        "DefaultValue": "root",
                        "Required": false
                    }
                }
            }
        ]
    }
}
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2020-05-31/distribution/E2GJ5J9QN12ABC",
    "ETag": "E37YLVVQIABC",
    "Distribution": {
        "Id": "E2GJ5J9QNABC",
        "ARN": "arn:aws:cloudfront::123456789012:distribution/E2GJ5J9QN12ABC",
        "Status": "InProgress",
        "LastModifiedTime": "2025-07-10T20:35:20.565000+00:00",
        "InProgressInvalidationBatches": 0,
        "DomainName": "example.com",
        "ActiveTrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "ActiveTrustedKeyGroups": {
            "Enabled": false,
            "Quantity": 0
        },
        "DistributionConfig": {
            "CallerReference": "cli-example-no-cert",
            "DefaultRootObject": "index.html",
            "Origins": {
                "Quantity": 1,
                "Items": [
                    {
                        "Id": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                        "DomainName": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                        "OriginPath": "/{{tenantName}}",
                        "CustomHeaders": {
                            "Quantity": 0
                        },
                        "S3OriginConfig": {
                            "OriginAccessIdentity": ""
                        },
                        "ConnectionAttempts": 3,
                        "ConnectionTimeout": 10,
                        "OriginShield": {
                            "Enabled": false
                        },
                        "OriginAccessControlId": ""
                    }
                ]
            },
            "OriginGroups": {
                "Quantity": 0
            },
            "DefaultCacheBehavior": {
                "TargetOriginId": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                "TrustedKeyGroups": {
                    "Enabled": false,
                    "Quantity": 0
                },
                "ViewerProtocolPolicy": "allow-all",
                "AllowedMethods": {
                    "Quantity": 2,
                    "Items": [
                        "HEAD",
                        "GET"
                    ],
                    "CachedMethods": {
                        "Quantity": 2,
                        "Items": [
                            "HEAD",
                            "GET"
                        ]
                    }
                },
                "Compress": false,
                "LambdaFunctionAssociations": {
                    "Quantity": 0
                },
                "FunctionAssociations": {
                    "Quantity": 0
                },
                "FieldLevelEncryptionId": "",
                "CachePolicyId": "658327ea-f89d-4fab-a63d-7e88639e5ABC",
                "GrpcConfig": {
                    "Enabled": false
                }
            },
            "CacheBehaviors": {
                "Quantity": 0
            },
            "CustomErrorResponses": {
                "Quantity": 0
            },
            "Comment": "CLI example distribution",
            "Logging": {
                "Enabled": false,
                "IncludeCookies": false,
                "Bucket": "",
                "Prefix": ""
            },
            "Enabled": true,
            "ViewerCertificate": {
                "CloudFrontDefaultCertificate": true,
                "SSLSupportMethod": "sni-only",
                "MinimumProtocolVersion": "TLSv1",
                "CertificateSource": "cloudfront"
            },
            "Restrictions": {
                "GeoRestriction": {
                    "RestrictionType": "none",
                    "Quantity": 0
                }
            },
            "WebACLId": "",
            "HttpVersion": "http2",
            "TenantConfig": {
                "ParameterDefinitions": [
                    {
                        "Name": "tenantName",
                        "Definition": {
                            "StringSchema": {
                                "Comment": "tenantName parameter",
                                "DefaultValue": "root",
                                "Required": false
                            }
                        }
                    }
                ]
            },
            "ConnectionMode": "tenant-only"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi distribusi](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/distribution-working-with.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [CreateDistribution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-distribution.html)di *Referensi AWS CLI Perintah*. 

### `create-field-level-encryption-config`
<a name="cloudfront_CreateFieldLevelEncryptionConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-field-level-encryption-config`.

**AWS CLI**  
**Untuk membuat konfigurasi CloudFront enkripsi tingkat lapangan**  
Contoh berikut membuat konfigurasi enkripsi tingkat lapangan dengan menyediakan parameter konfigurasi dalam file JSON bernama. `fle-config.json` Sebelum Anda dapat membuat konfigurasi enkripsi tingkat lapangan, Anda harus memiliki profil enkripsi tingkat lapangan. Untuk membuat profil, lihat perintah create-field-level-encryption -profile.  
*Untuk informasi selengkapnya tentang enkripsi CloudFront tingkat lapangan, lihat [Menggunakan Enkripsi Tingkat Bidang untuk Membantu Melindungi Data Sensitif di](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/field-level-encryption.html) Panduan Pengembang Amazon. CloudFront *  

```
aws cloudfront create-field-level-encryption-config \
    --field-level-encryption-config file://fle-config.json
```
File tersebut `fle-config.json` adalah dokumen JSON di folder saat ini yang berisi berikut ini:  

```
{
    "CallerReference": "cli-example",
    "Comment": "Example FLE configuration",
    "QueryArgProfileConfig": {
        "ForwardWhenQueryArgProfileIsUnknown": true,
        "QueryArgProfiles": {
            "Quantity": 0
        }
    },
    "ContentTypeProfileConfig": {
        "ForwardWhenContentTypeIsUnknown": true,
        "ContentTypeProfiles": {
            "Quantity": 1,
            "Items": [
                {
                    "Format": "URLEncoded",
                    "ProfileId": "P280MFCLSYOCVU",
                    "ContentType": "application/x-www-form-urlencoded"
                }
            ]
        }
    }
}
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2019-03-26/field-level-encryption/C3KM2WVD605UAY",
    "ETag": "E2P4Z4VU7TY5SG",
    "FieldLevelEncryption": {
        "Id": "C3KM2WVD605UAY",
        "LastModifiedTime": "2019-12-10T21:30:18.974Z",
        "FieldLevelEncryptionConfig": {
            "CallerReference": "cli-example",
            "Comment": "Example FLE configuration",
            "QueryArgProfileConfig": {
                "ForwardWhenQueryArgProfileIsUnknown": true,
                "QueryArgProfiles": {
                    "Quantity": 0,
                    "Items": []
                }
            },
            "ContentTypeProfileConfig": {
                "ForwardWhenContentTypeIsUnknown": true,
                "ContentTypeProfiles": {
                    "Quantity": 1,
                    "Items": [
                        {
                            "Format": "URLEncoded",
                            "ProfileId": "P280MFCLSYOCVU",
                            "ContentType": "application/x-www-form-urlencoded"
                        }
                    ]
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [CreateFieldLevelEncryptionConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-field-level-encryption-config.html)di *Referensi AWS CLI Perintah*. 

### `create-field-level-encryption-profile`
<a name="cloudfront_CreateFieldLevelEncryptionProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-field-level-encryption-profile`.

**AWS CLI**  
**Untuk membuat profil CloudFront enkripsi tingkat lapangan**  
Contoh berikut membuat profil enkripsi tingkat lapangan dengan menyediakan parameter dalam file JSON bernama. `fle-profile-config.json` Sebelum Anda dapat membuat profil enkripsi tingkat lapangan, Anda harus memiliki CloudFront kunci publik. Untuk membuat kunci CloudFront publik, lihat create-public-key perintah.  
*Untuk informasi selengkapnya tentang enkripsi CloudFront tingkat lapangan, lihat [Menggunakan Enkripsi Tingkat Bidang untuk Membantu Melindungi Data Sensitif di](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/field-level-encryption.html) Panduan Pengembang Amazon. CloudFront *  

```
aws cloudfront create-field-level-encryption-profile \
    --field-level-encryption-profile-config file://fle-profile-config.json
```
File tersebut `fle-profile-config.json` adalah dokumen JSON di folder saat ini yang berisi berikut ini:  

```
{
    "Name": "ExampleFLEProfile",
    "CallerReference": "cli-example",
    "Comment": "FLE profile for AWS CLI example",
    "EncryptionEntities": {
        "Quantity": 1,
        "Items": [
            {
                "PublicKeyId": "K2K8NC4HVFE3M0",
                "ProviderId": "ExampleFLEProvider",
                "FieldPatterns": {
                    "Quantity": 1,
                    "Items": [
                        "ExampleSensitiveField"
                    ]
                }
            }
        ]
    }
}
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2019-03-26/field-level-encryption-profile/PPK0UOSIF5WSV",
    "ETag": "E2QWRUHEXAMPLE",
    "FieldLevelEncryptionProfile": {
        "Id": "PPK0UOSIF5WSV",
        "LastModifiedTime": "2019-12-10T01:03:16.537Z",
        "FieldLevelEncryptionProfileConfig": {
            "Name": "ExampleFLEProfile",
            "CallerReference": "cli-example",
            "Comment": "FLE profile for AWS CLI example",
            "EncryptionEntities": {
                "Quantity": 1,
                "Items": [
                    {
                        "PublicKeyId": "K2K8NC4HVFE3M0",
                        "ProviderId": "ExampleFLEProvider",
                        "FieldPatterns": {
                            "Quantity": 1,
                            "Items": [
                                "ExampleSensitiveField"
                            ]
                        }
                    }
                ]
            }
        }
    }
}
```
+  Untuk detail API, lihat [CreateFieldLevelEncryptionProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-field-level-encryption-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-invalidation-for-distribution-tenant`
<a name="cloudfront_CreateInvalidationForDistributionTenant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-invalidation-for-distribution-tenant`.

**AWS CLI**  
**Untuk membuat CloudFront pembatalan bagi penyewa distribusi**  
`create-invalidation-for-distribution-tenant`Contoh berikut membuat pembatalan untuk semua file dalam penyewa CloudFront distribusi.  

```
aws cloudfront create-invalidation-for-distribution-tenant \
    --id dt_2wjDZi3hD1ivOXf6rpZJO1AB \
    --invalidation-batch '{"Paths": {"Quantity": 1, "Items": ["/*"]}, "CallerReference": "invalidation-$(date +%s)"}'
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2020-05-31/distribution-tenant/dt_2wjDZi3hD1ivOXf6rpZJO1AB/invalidation/I2JGL2F1ZAA426PGG0YLLKABC",
    "Invalidation": {
        "Id": "I2JGL2F1ZAA426PGG0YLLKABC",
        "Status": "InProgress",
        "CreateTime": "2025-05-07T16:59:25.947000+00:00",
        "InvalidationBatch": {
            "Paths": {
                "Quantity": 1,
                "Items": [
                    "/*"
                ]
            },
            "CallerReference": "invalidation-$(date +%s)"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membatalkan file untuk menghapus konten](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/Invalidation.html) di Panduan * CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [CreateInvalidationForDistributionTenant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-invalidation-for-distribution-tenant.html)di *Referensi AWS CLI Perintah*. 

### `create-invalidation`
<a name="cloudfront_CreateInvalidation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-invalidation`.

**AWS CLI**  
**Untuk membuat pembatalan untuk distribusi CloudFront **  
`create-invalidation`Contoh berikut membuat pembatalan untuk file tertentu dalam distribusi yang ditentukan CloudFront :  

```
aws cloudfront create-invalidation \
    --distribution-id EDFDVBD6EXAMPLE \
    --paths "/example-path/example-file.jpg" "/example-path/example-file2.png"
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2019-03-26/distribution/EDFDVBD6EXAMPLE/invalidation/I1JLWSDAP8FU89",
    "Invalidation": {
        "Id": "I1JLWSDAP8FU89",
        "Status": "InProgress",
        "CreateTime": "2019-12-05T18:24:51.407Z",
        "InvalidationBatch": {
            "Paths": {
                "Quantity": 2,
                "Items": [
                    "/example-path/example-file2.png",
                    "/example-path/example-file.jpg"
                ]
            },
            "CallerReference": "cli-1575570291-670203"
        }
    }
}
```
Pada contoh sebelumnya, AWS CLI secara otomatis menghasilkan acak. `CallerReference` Untuk menentukan sendiri`CallerReference`, atau untuk menghindari meneruskan parameter pembatalan sebagai argumen baris perintah, Anda dapat menggunakan file JSON. Contoh berikut membuat pembatalan untuk dua file, dengan menyediakan parameter pembatalan dalam file JSON bernama: `inv-batch.json`  

```
aws cloudfront create-invalidation \
    --distribution-id EDFDVBD6EXAMPLE \
    --invalidation-batch file://inv-batch.json
```
Isi dari `inv-batch.json`:  

```
{
    "Paths": {
        "Quantity": 2,
        "Items": [
            "/example-path/example-file.jpg",
            "/example-path/example-file2.png"
        ]
    },
    "CallerReference": "cli-example"
}
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2019-03-26/distribution/EDFDVBD6EXAMPLE/invalidation/I2J0I21PCUYOIK",
    "Invalidation": {
        "Id": "I2J0I21PCUYOIK",
        "Status": "InProgress",
        "CreateTime": "2019-12-05T18:40:49.413Z",
        "InvalidationBatch": {
            "Paths": {
                "Quantity": 2,
                "Items": [
                    "/example-path/example-file.jpg",
                    "/example-path/example-file2.png"
                ]
            },
            "CallerReference": "cli-example"
        }
    }
}
```
+  Untuk detail API, lihat [CreateInvalidation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-invalidation.html)di *Referensi AWS CLI Perintah*. 

### `create-public-key`
<a name="cloudfront_CreatePublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-public-key`.

**AWS CLI**  
**Untuk membuat kunci CloudFront publik**  
Contoh berikut membuat kunci CloudFront publik dengan menyediakan parameter dalam file JSON bernama`pub-key-config.json`. Sebelum Anda dapat menggunakan perintah ini, Anda harus memiliki kunci publik yang dikodekan PEM. Untuk informasi selengkapnya, lihat [Membuat Pasangan Kunci RSA](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/field-level-encryption.html#field-level-encryption-setting-up-step1) di *Panduan CloudFront Pengembang Amazon*.  

```
aws cloudfront create-public-key \
    --public-key-config file://pub-key-config.json
```
File tersebut `pub-key-config.json` adalah dokumen JSON di folder saat ini yang berisi berikut ini. Perhatikan bahwa kunci publik dikodekan dalam format PEM.  

```
{
    "CallerReference": "cli-example",
    "Name": "ExampleKey",
    "EncodedKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAxPMbCA2Ks0lnd7IR+3pw\nwd3H/7jPGwj8bLUmore7bX+oeGpZ6QmLAe/1UOWcmZX2u70dYcSIzB1ofZtcn4cJ\nenHBAzO3ohBY/L1tQGJfS2A+omnN6H16VZE1JCK8XSJyfze7MDLcUyHZETdxuvRb\nA9X343/vMAuQPnhinFJ8Wdy8YBXSPpy7r95ylUQd9LfYTBzVZYG2tSesplcOkjM3\n2Uu+oMWxQAw1NINnSLPinMVsutJy6ZqlV3McWNWe4T+STGtWhrPNqJEn45sIcCx4\nq+kGZ2NQ0FyIyT2eiLKOX5Rgb/a36E/aMk4VoDsaenBQgG7WLTnstb9sr7MIhS6A\nrwIDAQAB\n-----END PUBLIC KEY-----\n",
    "Comment": "example public key"
}
```
Output:  

```
{
    "Location": "https://cloudfront.amazonaws.com/2019-03-26/public-key/KDFB19YGCR002",
    "ETag": "E2QWRUHEXAMPLE",
    "PublicKey": {
        "Id": "KDFB19YGCR002",
        "CreatedTime": "2019-12-05T18:51:43.781Z",
        "PublicKeyConfig": {
            "CallerReference": "cli-example",
            "Name": "ExampleKey",
            "EncodedKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAxPMbCA2Ks0lnd7IR+3pw\nwd3H/7jPGwj8bLUmore7bX+oeGpZ6QmLAe/1UOWcmZX2u70dYcSIzB1ofZtcn4cJ\nenHBAzO3ohBY/L1tQGJfS2A+omnN6H16VZE1JCK8XSJyfze7MDLcUyHZETdxuvRb\nA9X343/vMAuQPnhinFJ8Wdy8YBXSPpy7r95ylUQd9LfYTBzVZYG2tSesplcOkjM3\n2Uu+oMWxQAw1NINnSLPinMVsutJy6ZqlV3McWNWe4T+STGtWhrPNqJEn45sIcCx4\nq+kGZ2NQ0FyIyT2eiLKOX5Rgb/a36E/aMk4VoDsaenBQgG7WLTnstb9sr7MIhS6A\nrwIDAQAB\n-----END PUBLIC KEY-----\n",
            "Comment": "example public key"
        }
    }
}
```
+  Untuk detail API, lihat [CreatePublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/create-public-key.html)di *Referensi AWS CLI Perintah*. 

### `delete-cloud-front-origin-access-identity`
<a name="cloudfront_DeleteCloudFrontOriginAccessIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cloud-front-origin-access-identity`.

**AWS CLI**  
**Untuk menghapus identitas akses CloudFront asal**  
Contoh berikut menghapus identitas akses asal (OAI) dengan ID. `E74FTE3AEXAMPLE` Untuk menghapus OAI, Anda harus memiliki ID OAI dan. `ETag` ID OAI dikembalikan dalam output perintah -access-identity dan create-cloud-front-origin -access-identities. list-cloud-front-origin Untuk mendapatkan`ETag`, gunakan perintah get-cloud-front-origin -access-identity atau get-cloud-front-origin -. access-identity-config Gunakan `--if-match` opsi untuk menyediakan OAI. `ETag`  

```
aws cloudfront delete-cloud-front-origin-access-identity \
    --id E74FTE3AEXAMPLE \
    --if-match E2QWRUHEXAMPLE
```
Ketika berhasil, perintah ini tidak memiliki output.  
+  Untuk detail API, lihat [DeleteCloudFrontOriginAccessIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/delete-cloud-front-origin-access-identity.html)di *Referensi AWS CLI Perintah*. 

### `delete-connection-group`
<a name="cloudfront_DeleteConnectionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-connection-group`.

**AWS CLI**  
**Untuk menghapus grup koneksi**  
`delete-connection-group`Contoh berikut menghapus grup koneksi. Grup koneksi harus dinonaktifkan dan tidak dapat dikaitkan dengan CloudFront sumber daya apa pun.  

```
aws cloudfront delete-connection-group \
    --id cg_2wjLpjbHkLUdhWAjHllcOeABC \
    --if-match ETVPDKIKX0DABC
```
Ketika berhasil, perintah ini tidak memiliki output.  
Untuk informasi selengkapnya tentang mengelola grup sambungan, lihat [Membuat grup sambungan khusus (opsional)](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/custom-connection-group.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [DeleteConnectionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/delete-connection-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-distribution-tenant`
<a name="cloudfront_DeleteDistributionTenant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-distribution-tenant`.

**AWS CLI**  
**Untuk menghapus penyewa distribusi**  
`delete-distribution-tenant`Contoh berikut menghapus penyewa distribusi dengan. ETag `ETVPDKIKX0DABC` Penyewa distribusi harus dinonaktifkan dan tidak dapat dikaitkan dengan CloudFront sumber daya apa pun.  

```
aws cloudfront delete-distribution-tenant \
    --id dt_2wjMUbg3NHZEQ7OfoalP5zi1AB \
    --if-match ETVPDKIKX0DABC
```
Ketika berhasil, perintah ini tidak memiliki output.  
Untuk informasi selengkapnya, lihat [Menghapus distribusi](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/HowToDeleteDistribution.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [DeleteDistributionTenant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/delete-distribution-tenant.html)di *Referensi AWS CLI Perintah*. 

### `delete-distribution`
<a name="cloudfront_DeleteDistribution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-distribution`.

**AWS CLI**  
**Untuk menghapus CloudFront distribusi**  
Contoh berikut menghapus CloudFront distribusi dengan ID`EDFDVBD6EXAMPLE`. Sebelum Anda dapat menghapus distribusi, Anda harus menonaktifkannya. Untuk menonaktifkan distribusi, gunakan perintah pembaruan-distribusi. Untuk informasi selengkapnya, lihat contoh distribusi pembaruan.  
Ketika distribusi dinonaktifkan, Anda dapat menghapusnya. Untuk menghapus distribusi, Anda harus menggunakan `--if-match` opsi untuk menyediakan distribusi`ETag`. Untuk mendapatkan`ETag`, gunakan get-distribusi atau get-distribution-config perintah.  

```
aws cloudfront delete-distribution \
    --id EDFDVBD6EXAMPLE \
    --if-match E2QWRUHEXAMPLE
```
Ketika berhasil, perintah ini tidak memiliki output.  
+  Untuk detail API, lihat [DeleteDistribution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/delete-distribution.html)di *Referensi AWS CLI Perintah*. 

### `delete-field-level-encryption-config`
<a name="cloudfront_DeleteFieldLevelEncryptionConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-field-level-encryption-config`.

**AWS CLI**  
**Untuk menghapus konfigurasi CloudFront enkripsi tingkat lapangan**  
Contoh berikut menghapus konfigurasi enkripsi CloudFront tingkat lapangan dengan ID. `C3KM2WVD605UAY` Untuk menghapus konfigurasi enkripsi tingkat lapangan, Anda harus memiliki ID dan. `ETag` ID dikembalikan dalam output perintah create-field-level-encryption -config dan list-field-level-encryption -configs. Untuk mendapatkan`ETag`, gunakan perintah get-field-level-encryption or get-field-level-encryption -config. Gunakan `--if-match` opsi untuk menyediakan konfigurasi`ETag`.  

```
aws cloudfront delete-field-level-encryption-config \
    --id C3KM2WVD605UAY \
    --if-match E26M4BIAV81ZF6
```
Ketika berhasil, perintah ini tidak memiliki output.  
+  Untuk detail API, lihat [DeleteFieldLevelEncryptionConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/delete-field-level-encryption-config.html)di *Referensi AWS CLI Perintah*. 

### `delete-field-level-encryption-profile`
<a name="cloudfront_DeleteFieldLevelEncryptionProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-field-level-encryption-profile`.

**AWS CLI**  
**Untuk menghapus profil CloudFront enkripsi tingkat lapangan**  
Contoh berikut menghapus profil enkripsi CloudFront tingkat lapangan dengan ID. `PPK0UOSIF5WSV` Untuk menghapus profil enkripsi tingkat lapangan, Anda harus memiliki ID dan. `ETag` ID dikembalikan dalam output perintah create-field-level-encryption -profile dan list-field-level-encryption -profiles. Untuk mendapatkan`ETag`, gunakan perintah get-field-level-encryption -profile atau get-field-level-encryption -profile-config. Gunakan `--if-match` opsi untuk menyediakan profil`ETag`.  

```
aws cloudfront delete-field-level-encryption-profile \
    --id PPK0UOSIF5WSV \
    --if-match EJETYFJ9CL66D
```
Ketika berhasil, perintah ini tidak memiliki output.  
+  Untuk detail API, lihat [DeleteFieldLevelEncryptionProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/delete-field-level-encryption-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-public-key`
<a name="cloudfront_DeletePublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-public-key`.

**AWS CLI**  
**Untuk menghapus kunci CloudFront publik**  
Contoh berikut menghapus kunci CloudFront publik dengan ID`KDFB19YGCR002`. Untuk menghapus kunci publik, Anda harus memiliki ID dan`ETag`. ID dikembalikan dalam output list-public-keys perintah create-public-key dan. Untuk mendapatkan`ETag`, gunakan get-public-key-config perintah get-public-key or. Gunakan `--if-match` opsi untuk menyediakan kunci publik`ETag`.  

```
aws cloudfront delete-public-key \
    --id KDFB19YGCR002 \
    --if-match E2QWRUHEXAMPLE
```
Ketika berhasil, perintah ini tidak memiliki output.  
+  Untuk detail API, lihat [DeletePublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/delete-public-key.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-distribution-tenant-web-acl`
<a name="cloudfront_DisassociateDistributionTenantWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-distribution-tenant-web-acl`.

**AWS CLI**  
**Untuk memisahkan ACL web dari penyewa distribusi**  
`disassociate-distribution-tenant-web-acl`Contoh berikut memisahkan ACL web dari penyewa distribusi dengan. ETag `E1PA6795UKMABC`  

```
aws cloudfront disassociate-distribution-tenant-web-acl \
    --id dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB \
    --if-match E1PA6795UKMABC
```
Output:  

```
{
    "ETag": "E13V1IB3VIYABC",
    "Id": "dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB"
}
```
Untuk informasi selengkapnya, lihat [Menonaktifkan perlindungan keamanan AWS WAF](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/disable-waf.html) di Panduan * CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [DisassociateDistributionTenantWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/disassociate-distribution-tenant-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-distribution-web-acl`
<a name="cloudfront_DisassociateDistributionWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-distribution-web-acl`.

**AWS CLI**  
**Untuk memisahkan ACL web dari distribusi CloudFront **  
`disassociate-distribution-web-acl`Contoh berikut menghapus hubungan antara ACL web dan CloudFront distribusi dengan ETag `E13V1IB3VIYABC`.  

```
aws cloudfront disassociate-distribution-web-acl \
    --id E1XNX8R2GOAABC \
    --if-match EEZQ9Z24VM1ABC
```
Output:  

```
{
    "ETag": "E2YWS1C2J3OABC",
    "Id": "E1XNX8R2GOAABC"
}
```
Untuk informasi selengkapnya, lihat [Menonaktifkan perlindungan keamanan AWS WAF](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/disable-waf.html) di Panduan * CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [DisassociateDistributionWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/disassociate-distribution-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `get-cloud-front-origin-access-identity-config`
<a name="cloudfront_GetCloudFrontOriginAccessIdentityConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-cloud-front-origin-access-identity-config`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi identitas akses CloudFront asal**  
Contoh berikut mendapatkan metadata tentang identitas akses CloudFront asal (OAI) dengan ID`E74FTE3AEXAMPLE`, termasuk nya. `ETag` ID OAI dikembalikan dalam output perintah -access-identity dan create-cloud-front-origin -access-identities. list-cloud-front-origin  

```
aws cloudfront get-cloud-front-origin-access-identity-config --id E74FTE3AEXAMPLE
```
Output:  

```
{
    "ETag": "E2QWRUHEXAMPLE",
    "CloudFrontOriginAccessIdentityConfig": {
        "CallerReference": "cli-example",
        "Comment": "Example OAI"
    }
}
```
+  Untuk detail API, lihat [GetCloudFrontOriginAccessIdentityConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-cloud-front-origin-access-identity-config.html)di *Referensi AWS CLI Perintah*. 

### `get-cloud-front-origin-access-identity`
<a name="cloudfront_GetCloudFrontOriginAccessIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-cloud-front-origin-access-identity`.

**AWS CLI**  
**Untuk mendapatkan identitas akses CloudFront asal**  
Contoh berikut mendapatkan identitas akses CloudFront asal (OAI) dengan ID`E74FTE3AEXAMPLE`, termasuk ID kanonik `ETag` dan S3 terkait. ID OAI dikembalikan dalam output perintah -access-identity dan create-cloud-front-origin -access-identities. list-cloud-front-origin  

```
aws cloudfront get-cloud-front-origin-access-identity --id E74FTE3AEXAMPLE
```
Output:  

```
{
    "ETag": "E2QWRUHEXAMPLE",
    "CloudFrontOriginAccessIdentity": {
        "Id": "E74FTE3AEXAMPLE",
        "S3CanonicalUserId": "cd13868f797c227fbea2830611a26fe0a21ba1b826ab4bed9b7771c9aEXAMPLE",
        "CloudFrontOriginAccessIdentityConfig": {
            "CallerReference": "cli-example",
            "Comment": "Example OAI"
        }
    }
}
```
+  Untuk detail API, lihat [GetCloudFrontOriginAccessIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-cloud-front-origin-access-identity.html)di *Referensi AWS CLI Perintah*. 

### `get-connection-group-by-routing-endpoint`
<a name="cloudfront_GetConnectionGroupByRoutingEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connection-group-by-routing-endpoint`.

**AWS CLI**  
**Untuk mendapatkan grup koneksi dengan merutekan titik akhir**  
`get-connection-group-by-routing-endpoint`Contoh berikut mengambil informasi tentang grup koneksi menggunakan endpoint routing nya.  

```
aws cloudfront get-connection-group-by-routing-endpoint \
    --routing-endpoint dvdg9gprgabc.cloudfront.net
```
Output:  

```
{
    "ETag": "E23ZP02F085ABC",
    "ConnectionGroup": {
        "Id": "cg_2wjDWTBKTlRB87cAaUQFaakABC",
        "Name": "connection-group-2",
        "Arn": "arn:aws:cloudfront::123456789012:connection-group/cg_2wjDWTBKTlRB87cAaUQFaakABC",
        "CreatedTime": "2025-05-06T15:42:00.790000+00:00",
        "LastModifiedTime": "2025-05-06T15:42:00.790000+00:00",
        "Ipv6Enabled": true,
        "RoutingEndpoint": "dvdg9gprgabc.cloudfront.net",
        "Status": "Deployed",
        "Enabled": true,
        "IsDefault": false
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup sambungan kustom (opsional)](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/custom-connection-group.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [GetConnectionGroupByRoutingEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-connection-group-by-routing-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `get-connection-group`
<a name="cloudfront_GetConnectionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connection-group`.

**AWS CLI**  
**Untuk mendapatkan grup CloudFront koneksi**  
`get-connection-group`Contoh berikut mengambil informasi tentang grup CloudFront koneksi.  

```
aws cloudfront get-connection-group \
    --identifier cg_2wjDWTBKTlRB87cAaUQFaakABC
```
Output:  

```
{
    "ETag": "E23ZP02F085ABC",
    "ConnectionGroup": {
        "Id": "cg_2wjDWTBKTlRB87cAaUQFaakABC",
        "Name": "connection-group-2",
        "Arn": "arn:aws:cloudfront::123456789012:connection-group/cg_2wjDWTBKTlRB87cAaUQFaakABC",
        "CreatedTime": "2025-05-06T15:42:00.790000+00:00",
        "LastModifiedTime": "2025-05-06T15:42:00.790000+00:00",
        "Ipv6Enabled": true,
        "RoutingEndpoint": "dvdg9gprgabc.cloudfront.net",
        "Status": "Deployed",
        "Enabled": true,
        "IsDefault": false
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup sambungan kustom (opsional)](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/custom-connection-group.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [GetConnectionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-connection-group.html)di *Referensi AWS CLI Perintah*. 

### `get-distribution-config`
<a name="cloudfront_GetDistributionConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-distribution-config`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi CloudFront distribusi**  
Contoh berikut mendapatkan metadata tentang CloudFront distribusi dengan ID`EDFDVBD6EXAMPLE`, termasuk nya. `ETag` ID distribusi dikembalikan dalam perintah create-distribution dan list-distributions.  

```
aws cloudfront get-distribution-config \
    --id EDFDVBD6EXAMPLE
```
Output:  

```
{
    "ETag": "E2QWRUHEXAMPLE",
    "DistributionConfig": {
        "CallerReference": "cli-example",
        "Aliases": {
            "Quantity": 0
        },
        "DefaultRootObject": "index.html",
        "Origins": {
            "Quantity": 1,
            "Items": [
                {
                    "Id": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                    "DomainName": "amzn-s3-demo-bucket.s3.amazonaws.com",
                    "OriginPath": "",
                    "CustomHeaders": {
                        "Quantity": 0
                    },
                    "S3OriginConfig": {
                        "OriginAccessIdentity": ""
                    }
                }
            ]
        },
        "OriginGroups": {
            "Quantity": 0
        },
        "DefaultCacheBehavior": {
            "TargetOriginId": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
            "ForwardedValues": {
                "QueryString": false,
                "Cookies": {
                    "Forward": "none"
                },
                "Headers": {
                    "Quantity": 0
                },
                "QueryStringCacheKeys": {
                    "Quantity": 0
                }
            },
            "TrustedSigners": {
                "Enabled": false,
                "Quantity": 0
            },
            "ViewerProtocolPolicy": "allow-all",
            "MinTTL": 0,
            "AllowedMethods": {
                "Quantity": 2,
                "Items": [
                    "HEAD",
                    "GET"
                ],
                "CachedMethods": {
                    "Quantity": 2,
                    "Items": [
                        "HEAD",
                        "GET"
                    ]
                }
            },
            "SmoothStreaming": false,
            "DefaultTTL": 86400,
            "MaxTTL": 31536000,
            "Compress": false,
            "LambdaFunctionAssociations": {
                "Quantity": 0
            },
            "FieldLevelEncryptionId": ""
        },
        "CacheBehaviors": {
            "Quantity": 0
        },
        "CustomErrorResponses": {
            "Quantity": 0
        },
        "Comment": "",
        "Logging": {
            "Enabled": false,
            "IncludeCookies": false,
            "Bucket": "",
            "Prefix": ""
        },
        "PriceClass": "PriceClass_All",
        "Enabled": true,
        "ViewerCertificate": {
            "CloudFrontDefaultCertificate": true,
            "MinimumProtocolVersion": "TLSv1",
            "CertificateSource": "cloudfront"
        },
        "Restrictions": {
            "GeoRestriction": {
                "RestrictionType": "none",
                "Quantity": 0
            }
        },
        "WebACLId": "",
        "HttpVersion": "http2",
        "IsIPV6Enabled": true
    }
}
```
+  Untuk detail API, lihat [GetDistributionConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-distribution-config.html)di *Referensi AWS CLI Perintah*. 

### `get-distribution-tenant-by-domain`
<a name="cloudfront_GetDistributionTenantByDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-distribution-tenant-by-domain`.

**AWS CLI**  
**Untuk mendapatkan informasi penyewa distribusi berdasarkan domain**  
`get-distribution-tenant-by-domain`Contoh berikut mengambil informasi tentang penyewa distribusi menggunakan domain yang ditentukan.  

```
aws cloudfront get-distribution-tenant-by-domain \
    --domain example.com
```
Output:  

```
{
    "ETag": "E23ZP02F085ABC",
    "DistributionTenant": {
        "Id": "dt_2xVInRKCfUzQHgxosDs9hiLk1AB",
        "DistributionId": "E1XNX8R2GOAABC",
        "Name": "example-tenant-4",
        "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2xVInRKCfUzQHgxosDs9hiLk1AB",
        "Domains": [
            {
                "Domain": "example.com",
                "Status": "active"
            }
        ],
        "Parameters": [
            {
                "Name": "testParam",
                "Value": "defaultValue"
            }
        ],
        "ConnectionGroupId": "cg_2whCJoXMYCjHcxaLGrkllvyABC",
        "CreatedTime": "2025-05-23T16:16:20.871000+00:00",
        "LastModifiedTime": "2025-05-23T16:16:20.871000+00:00",
        "Enabled": false,
        "Status": "Deployed"
    }
}
```
Untuk informasi selengkapnya, lihat [Memahami cara kerja distribusi multi-penyewa di Panduan](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/distribution-config-options.html) Pengembang *Amazon CloudFront *.  
+  Untuk detail API, lihat [GetDistributionTenantByDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-distribution-tenant-by-domain.html)di *Referensi AWS CLI Perintah*. 

### `get-distribution-tenant`
<a name="cloudfront_GetDistributionTenant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-distribution-tenant`.

**AWS CLI**  
**Untuk mendapatkan detail tentang penyewa CloudFront distribusi**  
`get-distribution-tenant`Contoh berikut mengambil informasi tentang penyewa CloudFront distribusi.  

```
aws cloudfront get-distribution-tenant \
    --id dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB
```
Output:  

```
{
    "ETag": "E23ZP02F085ABC",
    "DistributionTenant": {
        "Id": "dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB",
        "DistributionId": "E1XNX8R2GOAABC",
        "Name": "example-tenant-2",
        "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB",
        "Domains": [
            {
                "Domain": "example.com",
                "Status": "inactive"
            }
        ],
        "ConnectionGroupId": "cg_2wjDWTBKTlRB87cAaUQFaakABC",
        "CreatedTime": "2025-05-06T15:42:28.542000+00:00",
        "LastModifiedTime": "2025-05-06T15:42:37.724000+00:00",
        "Enabled": true,
        "Status": "InProgress"
    }
}
```
Untuk informasi selengkapnya, lihat [Memahami cara kerja distribusi multi-penyewa di Panduan](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/distribution-config-options.html) Pengembang *Amazon CloudFront *.  
+  Untuk detail API, lihat [GetDistributionTenant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-distribution-tenant.html)di *Referensi AWS CLI Perintah*. 

### `get-distribution`
<a name="cloudfront_GetDistribution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-distribution`.

**AWS CLI**  
**Untuk mendapatkan CloudFront distribusi**  
`get-distribution`Contoh berikut mendapatkan CloudFront distribusi dengan ID`EDFDVBD6EXAMPLE`, termasuk nya`ETag`. ID distribusi dikembalikan dalam perintah create-distribution dan list-distributions.  

```
aws cloudfront get-distribution \
    --id EDFDVBD6EXAMPLE
```
Output:  

```
{
    "ETag": "E2QWRUHEXAMPLE",
    "Distribution": {
        "Id": "EDFDVBD6EXAMPLE",
        "ARN": "arn:aws:cloudfront::123456789012:distribution/EDFDVBD6EXAMPLE",
        "Status": "Deployed",
        "LastModifiedTime": "2019-12-04T23:35:41.433Z",
        "InProgressInvalidationBatches": 0,
        "DomainName": "d111111abcdef8.cloudfront.net",
        "ActiveTrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "DistributionConfig": {
            "CallerReference": "cli-example",
            "Aliases": {
                "Quantity": 0
            },
            "DefaultRootObject": "index.html",
            "Origins": {
                "Quantity": 1,
                "Items": [
                    {
                        "Id": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                        "DomainName": "amzn-s3-demo-bucket.s3.amazonaws.com",
                        "OriginPath": "",
                        "CustomHeaders": {
                            "Quantity": 0
                        },
                        "S3OriginConfig": {
                            "OriginAccessIdentity": ""
                        }
                    }
                ]
            },
            "OriginGroups": {
                "Quantity": 0
            },
            "DefaultCacheBehavior": {
                "TargetOriginId": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-cli-example",
                "ForwardedValues": {
                    "QueryString": false,
                    "Cookies": {
                        "Forward": "none"
                    },
                    "Headers": {
                        "Quantity": 0
                    },
                    "QueryStringCacheKeys": {
                        "Quantity": 0
                    }
                },
                "TrustedSigners": {
                    "Enabled": false,
                    "Quantity": 0
                },
                "ViewerProtocolPolicy": "allow-all",
                "MinTTL": 0,
                "AllowedMethods": {
                    "Quantity": 2,
                    "Items": [
                        "HEAD",
                        "GET"
                    ],
                    "CachedMethods": {
                        "Quantity": 2,
                        "Items": [
                            "HEAD",
                            "GET"
                        ]
                    }
                },
                "SmoothStreaming": false,
                "DefaultTTL": 86400,
                "MaxTTL": 31536000,
                "Compress": false,
                "LambdaFunctionAssociations": {
                    "Quantity": 0
                },
                "FieldLevelEncryptionId": ""
            },
            "CacheBehaviors": {
                "Quantity": 0
            },
            "CustomErrorResponses": {
                "Quantity": 0
            },
            "Comment": "",
            "Logging": {
                "Enabled": false,
                "IncludeCookies": false,
                "Bucket": "",
                "Prefix": ""
            },
            "PriceClass": "PriceClass_All",
            "Enabled": true,
            "ViewerCertificate": {
                "CloudFrontDefaultCertificate": true,
                "MinimumProtocolVersion": "TLSv1",
                "CertificateSource": "cloudfront"
            },
            "Restrictions": {
                "GeoRestriction": {
                    "RestrictionType": "none",
                    "Quantity": 0
                }
            },
            "WebACLId": "",
            "HttpVersion": "http2",
            "IsIPV6Enabled": true
        }
    }
}
```
+  Untuk detail API, lihat [GetDistribution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-distribution.html)di *Referensi AWS CLI Perintah*. 

### `get-field-level-encryption-config`
<a name="cloudfront_GetFieldLevelEncryptionConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-field-level-encryption-config`.

**AWS CLI**  
**Untuk mendapatkan metadata tentang konfigurasi enkripsi tingkat CloudFront lapangan**  
Contoh berikut mendapatkan metadata tentang konfigurasi enkripsi CloudFront tingkat lapangan dengan ID, termasuk: `C3KM2WVD605UAY` `ETag`  

```
aws cloudfront get-field-level-encryption-config --id C3KM2WVD605UAY
```
Output:  

```
{
    "ETag": "E2P4Z4VU7TY5SG",
    "FieldLevelEncryptionConfig": {
        "CallerReference": "cli-example",
        "Comment": "Example FLE configuration",
        "QueryArgProfileConfig": {
            "ForwardWhenQueryArgProfileIsUnknown": true,
            "QueryArgProfiles": {
                "Quantity": 0,
                "Items": []
            }
        },
        "ContentTypeProfileConfig": {
            "ForwardWhenContentTypeIsUnknown": true,
            "ContentTypeProfiles": {
                "Quantity": 1,
                "Items": [
                    {
                        "Format": "URLEncoded",
                        "ProfileId": "P280MFCLSYOCVU",
                        "ContentType": "application/x-www-form-urlencoded"
                    }
                ]
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetFieldLevelEncryptionConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-field-level-encryption-config.html)di *Referensi AWS CLI Perintah*. 

### `get-field-level-encryption-profile-config`
<a name="cloudfront_GetFieldLevelEncryptionProfileConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-field-level-encryption-profile-config`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi CloudFront profil enkripsi tingkat lapangan**  
Contoh berikut mendapatkan metadata tentang profil enkripsi CloudFront tingkat lapangan dengan ID, termasuk: `PPK0UOSIF5WSV` `ETag`  

```
aws cloudfront get-field-level-encryption-profile-config --id PPK0UOSIF5WSV
```
Output:  

```
{
    "ETag": "E1QQG65FS2L2GC",
    "FieldLevelEncryptionProfileConfig": {
        "Name": "ExampleFLEProfile",
        "CallerReference": "cli-example",
        "Comment": "FLE profile for AWS CLI example",
        "EncryptionEntities": {
            "Quantity": 1,
            "Items": [
                {
                    "PublicKeyId": "K2K8NC4HVFE3M0",
                    "ProviderId": "ExampleFLEProvider",
                    "FieldPatterns": {
                        "Quantity": 1,
                        "Items": [
                            "ExampleSensitiveField"
                        ]
                    }
                }
            ]
        }
    }
}
```
+  Untuk detail API, lihat [GetFieldLevelEncryptionProfileConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-field-level-encryption-profile-config.html)di *Referensi AWS CLI Perintah*. 

### `get-field-level-encryption-profile`
<a name="cloudfront_GetFieldLevelEncryptionProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-field-level-encryption-profile`.

**AWS CLI**  
**Untuk mendapatkan profil CloudFront enkripsi tingkat lapangan**  
Contoh berikut mendapatkan profil enkripsi CloudFront tingkat lapangan dengan ID`PPK0UOSIF5WSV`, termasuk: `ETag`  

```
aws cloudfront get-field-level-encryption-profile --id PPK0UOSIF5WSV
```
Output:  

```
{
    "ETag": "E1QQG65FS2L2GC",
    "FieldLevelEncryptionProfile": {
        "Id": "PPK0UOSIF5WSV",
        "LastModifiedTime": "2019-12-10T01:03:16.537Z",
        "FieldLevelEncryptionProfileConfig": {
            "Name": "ExampleFLEProfile",
            "CallerReference": "cli-example",
            "Comment": "FLE profile for AWS CLI example",
            "EncryptionEntities": {
                "Quantity": 1,
                "Items": [
                    {
                        "PublicKeyId": "K2K8NC4HVFE3M0",
                        "ProviderId": "ExampleFLEProvider",
                        "FieldPatterns": {
                            "Quantity": 1,
                            "Items": [
                                "ExampleSensitiveField"
                            ]
                        }
                    }
                ]
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetFieldLevelEncryptionProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-field-level-encryption-profile.html)di *Referensi AWS CLI Perintah*. 

### `get-field-level-encryption`
<a name="cloudfront_GetFieldLevelEncryption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-field-level-encryption`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi CloudFront enkripsi tingkat lapangan**  
Contoh berikut mendapatkan konfigurasi enkripsi CloudFront tingkat lapangan dengan ID`C3KM2WVD605UAY`, termasuk: `ETag`  

```
aws cloudfront get-field-level-encryption --id C3KM2WVD605UAY
```
Output:  

```
{
    "ETag": "E2P4Z4VU7TY5SG",
    "FieldLevelEncryption": {
        "Id": "C3KM2WVD605UAY",
        "LastModifiedTime": "2019-12-10T21:30:18.974Z",
        "FieldLevelEncryptionConfig": {
            "CallerReference": "cli-example",
            "Comment": "Example FLE configuration",
            "QueryArgProfileConfig": {
                "ForwardWhenQueryArgProfileIsUnknown": true,
                "QueryArgProfiles": {
                    "Quantity": 0,
                    "Items": []
                }
            },
            "ContentTypeProfileConfig": {
                "ForwardWhenContentTypeIsUnknown": true,
                "ContentTypeProfiles": {
                    "Quantity": 1,
                    "Items": [
                        {
                            "Format": "URLEncoded",
                            "ProfileId": "P280MFCLSYOCVU",
                            "ContentType": "application/x-www-form-urlencoded"
                        }
                    ]
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetFieldLevelEncryption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-field-level-encryption.html)di *Referensi AWS CLI Perintah*. 

### `get-invalidation-for-distribution-tenant`
<a name="cloudfront_GetInvalidationForDistributionTenant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-invalidation-for-distribution-tenant`.

**AWS CLI**  
**Untuk mendapatkan pembatalan bagi penyewa distribusi**  
`get-invalidation-for-distribution-tenant`Contoh berikut mendapatkan informasi tentang pembatalan untuk penyewa distribusi.  

```
aws cloudfront get-invalidation-for-distribution-tenant \
    --distribution-tenant-id dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB \
    --id I4CU23QAPKMUDUU06F9OFGFABC
```
Output:  

```
{
    "Invalidation": {
        "Id": "I4CU23QAPKMUDUU06F9OFGFABC",
        "Status": "Completed",
        "CreateTime": "2025-05-06T15:46:12.824000+00:00",
        "InvalidationBatch": {
            "Paths": {
                "Quantity": 2,
                "Items": [
                    "/example/invalidation",
                    "/more/invalidations"
                ]
            },
            "CallerReference": "007ee5a6-d0a0-42be-bb61-e7b915969b48"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membatalkan file untuk menghapus konten](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/Invalidation.html) di Panduan * CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [GetInvalidationForDistributionTenant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-invalidation-for-distribution-tenant.html)di *Referensi AWS CLI Perintah*. 

### `get-invalidation`
<a name="cloudfront_GetInvalidation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-invalidation`.

**AWS CLI**  
**Untuk mendapatkan CloudFront pembatalan**  
Contoh berikut mendapatkan pembatalan dengan ID `I2J0I21PCUYOIK` untuk CloudFront distribusi dengan ID: `EDFDVBD6EXAMPLE`  

```
aws cloudfront get-invalidation --id I2J0I21PCUYOIK --distribution-id EDFDVBD6EXAMPLE
```
Output:  

```
{
    "Invalidation": {
        "Status": "Completed",
        "InvalidationBatch": {
            "Paths": {
                "Items": [
                    "/example-path/example-file.jpg",
                    "/example-path/example-file-2.jpg"
                ],
                "Quantity": 2
            },
            "CallerReference": "cli-example"
        },
        "Id": "I2J0I21PCUYOIK",
        "CreateTime": "2019-12-05T18:40:49.413Z"
    }
}
```
+  Untuk detail API, lihat [GetInvalidation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-invalidation.html)di *Referensi AWS CLI Perintah*. 

### `get-managed-certificate-details`
<a name="cloudfront_GetManagedCertificateDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-managed-certificate-details`.

**AWS CLI**  
**Untuk mendapatkan detail sertifikat terkelola**  
`get-managed-certificate-details`Contoh berikut mengambil rincian sertifikat ACM CloudFront terkelola.  

```
aws cloudfront get-managed-certificate-details \
    --identifier dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB
```
Output:  

```
{
    "ManagedCertificateDetails": {
        "CertificateArn": "arn:aws:acm:us-east-1:123456789012:certificate/655dc1fe-6d37-451d-a013-c2db3a034abc",
        "CertificateStatus": "pending-validation",
        "ValidationTokenHost": "self-hosted",
        "ValidationTokenDetails": [
            {
                "Domain": "example.com",
                "RedirectTo": "validation.us-east-1.acm-validations.aws/123456789012/.well-known/pki-validation/b315c9ae21284e7918bb9f3f422ab1c7.txt",
                "RedirectFrom": "example.com/.well-known/pki-validation/b315c9ae21284e7918bb9f3f422ac3c7.txt"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Meminta sertifikat untuk penyewa CloudFront distribusi Anda](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/managed-cloudfront-certificates.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [GetManagedCertificateDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-managed-certificate-details.html)di *Referensi AWS CLI Perintah*. 

### `get-public-key-config`
<a name="cloudfront_GetPublicKeyConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-public-key-config`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi kunci CloudFront publik**  
Contoh berikut mendapatkan metadata tentang kunci CloudFront publik dengan ID`KDFB19YGCR002`, termasuk nya. `ETag` ID kunci publik dikembalikan dalam list-public-keys perintah create-public-key and.  

```
aws cloudfront get-public-key-config --id KDFB19YGCR002
```
Output:  

```
{
    "ETag": "E2QWRUHEXAMPLE",
    "PublicKeyConfig": {
        "CallerReference": "cli-example",
        "Name": "ExampleKey",
        "EncodedKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAxPMbCA2Ks0lnd7IR+3pw\nwd3H/7jPGwj8bLUmore7bX+oeGpZ6QmLAe/1UOWcmZX2u70dYcSIzB1ofZtcn4cJ\nenHBAzO3ohBY/L1tQGJfS2A+omnN6H16VZE1JCK8XSJyfze7MDLcUyHZETdxuvRb\nA9X343/vMAuQPnhinFJ8Wdy8YBXSPpy7r95ylUQd9LfYTBzVZYG2tSesplcOkjM3\n2Uu+oMWxQAw1NINnSLPinMVsutJy6ZqlV3McWNWe4T+STGtWhrPNqJEn45sIcCx4\nq+kGZ2NQ0FyIyT2eiLKOX5Rgb/a36E/aMk4VoDsaenBQgG7WLTnstb9sr7MIhS6A\nrwIDAQAB\n-----END PUBLIC KEY-----\n",
        "Comment": "example public key"
    }
}
```
+  Untuk detail API, lihat [GetPublicKeyConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-public-key-config.html)di *Referensi AWS CLI Perintah*. 

### `get-public-key`
<a name="cloudfront_GetPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-public-key`.

**AWS CLI**  
**Untuk mendapatkan kunci CloudFront publik**  
Contoh berikut mendapatkan kunci CloudFront publik dengan ID`KDFB19YGCR002`, termasuk nya`ETag`. ID kunci publik dikembalikan dalam list-public-keys perintah create-public-key and.  

```
aws cloudfront get-public-key --id KDFB19YGCR002
```
Output:  

```
{
    "ETag": "E2QWRUHEXAMPLE",
    "PublicKey": {
        "Id": "KDFB19YGCR002",
        "CreatedTime": "2019-12-05T18:51:43.781Z",
        "PublicKeyConfig": {
            "CallerReference": "cli-example",
            "Name": "ExampleKey",
            "EncodedKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAxPMbCA2Ks0lnd7IR+3pw\nwd3H/7jPGwj8bLUmore7bX+oeGpZ6QmLAe/1UOWcmZX2u70dYcSIzB1ofZtcn4cJ\nenHBAzO3ohBY/L1tQGJfS2A+omnN6H16VZE1JCK8XSJyfze7MDLcUyHZETdxuvRb\nA9X343/vMAuQPnhinFJ8Wdy8YBXSPpy7r95ylUQd9LfYTBzVZYG2tSesplcOkjM3\n2Uu+oMWxQAw1NINnSLPinMVsutJy6ZqlV3McWNWe4T+STGtWhrPNqJEn45sIcCx4\nq+kGZ2NQ0FyIyT2eiLKOX5Rgb/a36E/aMk4VoDsaenBQgG7WLTnstb9sr7MIhS6A\nrwIDAQAB\n-----END PUBLIC KEY-----\n",
            "Comment": "example public key"
        }
    }
}
```
+  Untuk detail API, lihat [GetPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/get-public-key.html)di *Referensi AWS CLI Perintah*. 

### `list-cloud-front-origin-access-identities`
<a name="cloudfront_ListCloudFrontOriginAccessIdentities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-cloud-front-origin-access-identities`.

**AWS CLI**  
**Untuk mencantumkan identitas akses CloudFront asal**  
Contoh berikut mendapatkan daftar identitas akses CloudFront asal (OAIs) di AWS akun Anda:  

```
aws cloudfront list-cloud-front-origin-access-identities
```
Output:  

```
{
    "CloudFrontOriginAccessIdentityList": {
        "Items": [
            {
                "Id": "E74FTE3AEXAMPLE",
                "S3CanonicalUserId": "cd13868f797c227fbea2830611a26fe0a21ba1b826ab4bed9b7771c9aEXAMPLE",
                "Comment": "Example OAI"
            },
            {
                "Id": "EH1HDMBEXAMPLE",
                "S3CanonicalUserId": "1489f6f2e6faacaae7ff64c4c3e6956c24f78788abfc1718c3527c263bf7a17EXAMPLE",
                "Comment": "Test OAI"
            },
            {
                "Id": "E2X2C9TEXAMPLE",
                "S3CanonicalUserId": "cbfeebb915a64749f9be546a45b3fcfd3a31c779673c13c4dd460911ae402c2EXAMPLE",
                "Comment": "Example OAI #2"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ListCloudFrontOriginAccessIdentities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-cloud-front-origin-access-identities.html)di *Referensi AWS CLI Perintah*. 

### `list-connection-groups`
<a name="cloudfront_ListConnectionGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-connection-groups`.

**AWS CLI**  
**Untuk daftar grup koneksi**  
`list-connection-groups`Contoh berikut mencantumkan grup koneksi yang tersedia di AWS akun Anda.  

```
aws cloudfront list-connection-groups
```
Output:  

```
{
    "ConnectionGroups": [
        {
            "Id": "cg_2whCJoXMYCjHcxaLGrkllvyABC",
            "Name": "CreatedByCloudFront-cg_2whCJoXMYCjHcxaLGrkllvyABC",
            "Arn": "arn:aws:cloudfront::123456789012:connection-group/cg_2whCJoXMYCjHcxaLGrkllvyABC",
            "RoutingEndpoint": "d3sx0pso7m5abc.cloudfront.net",
            "CreatedTime": "2025-05-05T22:32:29.630000+00:00",
            "LastModifiedTime": "2025-05-05T22:32:29.630000+00:00",
            "ETag": "E23ZP02F085ABC",
            "Enabled": true,
            "Status": "Deployed",
            "IsDefault": true
        },
        {
            "Id": "cg_2wjDWTBKTlRB87cAaUQFaakABC",
            "Name": "connection-group-2",
            "Arn": "arn:aws:cloudfront::123456789012:connection-group/cg_2wjDWTBKTlRB87cAaUQFaakABC",
            "RoutingEndpoint": "dvdg9gprgabc.cloudfront.net",
            "CreatedTime": "2025-05-06T15:42:00.790000+00:00",
            "LastModifiedTime": "2025-05-06T15:42:00.790000+00:00",
            "ETag": "E23ZP02F085ABC",
            "Enabled": true,
            "Status": "Deployed",
            "IsDefault": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat grup sambungan kustom (opsional)](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/custom-connection-group.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [ListConnectionGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-connection-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-distribution-tenants-by-customization`
<a name="cloudfront_ListDistributionTenantsByCustomization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-distribution-tenants-by-customization`.

**AWS CLI**  
**Untuk daftar penyewa distribusi dengan kustomisasi**  
`list-distribution-tenants-by-customization`Contoh berikut mencantumkan penyewa distribusi yang menggunakan ACL web yang ditentukan.  

```
aws cloudfront list-distribution-tenants-by-customization \
    --web-acl-arn arn:aws:wafv2:us-east-1:123456789012:global/webacl/CreatedByCloudFront-0273cd2f/a3c19bce-42b5-48a1-a8d4-b2bb2f28eabc
```
Output:  

```
{
    "DistributionTenantList": [
        {
            "Id": "dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB",
            "DistributionId": "E1XNX8R2GOAABC",
            "Name": "example-tenant-2",
            "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB",
            "Domains": [
                {
                    "Domain": "example.com",
                    "Status": "inactive"
                }
            ],
            "ConnectionGroupId": "cg_2wjDWTBKTlRB87cAaUQFaakABC",
            "Customizations": {
                "WebAcl": {
                    "Action": "override",
                    "Arn": "arn:aws:wafv2:us-east-1:123456789012:global/webacl/CreatedByCloudFront-0273cd2f/a3c19bce-42b5-48a1-a8d4-b2bb2f28eabc"
                },
                "GeoRestrictions": {
                    "RestrictionType": "whitelist",
                    "Locations": [
                        "AL"
                    ]
                }
            },
            "CreatedTime": "2025-05-06T15:42:28.542000+00:00",
            "LastModifiedTime": "2025-05-06T16:14:08.710000+00:00",
            "ETag": "E1F83G8C2ARABC",
            "Enabled": true,
            "Status": "Deployed"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kustomisasi penyewa distribusi di Panduan](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/tenant-customization.html) Pengembang *Amazon CloudFront *.  
+  Untuk detail API, lihat [ListDistributionTenantsByCustomization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-distribution-tenants-by-customization.html)di *Referensi AWS CLI Perintah*. 

### `list-distribution-tenants`
<a name="cloudfront_ListDistributionTenants_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-distribution-tenants`.

**AWS CLI**  
**Untuk daftar penyewa CloudFront distribusi**  
`list-distribution-tenants`Contoh berikut mencantumkan 3 penyewa CloudFront distribusi di AWS akun Anda oleh grup koneksi terkait.  

```
aws cloudfront list-distribution-tenants \
    --association-filter ConnectionGroupId=cg_2whCJoXMYCjHcxaLGrkllvyABC \
    --max-items 3
```
Output:  

```
{
    "DistributionTenantList": [
        {
            "Id": "dt_2yMvQgam3QkJo2z54FDl91dk1AB",
            "DistributionId": "E1XNX8R2GOAABC",
            "Name": "new-tenant-customizations",
            "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2yMvQgam3QkJo2z54FDl91dk1AB",
            "Domains": [
                {
                    "Domain": "example.com",
                    "Status": "active"
                }
            ],
            "ConnectionGroupId": "cg_2whCJoXMYCjHcxaLGrkllvyABC",
            "Customizations": {
                "WebAcl": {
                    "Action": "disable"
                },
                "GeoRestrictions": {
                    "RestrictionType": "whitelist",
                    "Locations": [
                        "DE"
                    ]
                }
            },
            "CreatedTime": "2025-06-11T15:54:02.142000+00:00",
            "LastModifiedTime": "2025-06-11T15:54:02.142000+00:00",
            "ETag": "E23ZP02F085ABC",
            "Enabled": false,
            "Status": "Deployed"
        },
        {
            "Id": "dt_2yMuV7NJuBcAB0cwwxMCBZQ1AB",
            "DistributionId": "E1XNX8R2GOAABC",
            "Name": "new-tenant",
            "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2yMuV7NJuBcAB0cwwxMCBZQ1AB",
            "Domains": [
                {
                    "Domain": "1.example.com",
                    "Status": "active"
                }
            ],
            "ConnectionGroupId": "cg_2whCJoXMYCjHcxaLGrkllvyABC",
            "Customizations": {
                "GeoRestrictions": {
                    "RestrictionType": "whitelist",
                    "Locations": [
                        "DE"
                    ]
                }
            },
            "CreatedTime": "2025-06-11T15:46:23.466000+00:00",
            "LastModifiedTime": "2025-06-11T15:46:23.466000+00:00",
            "ETag": "E23ZP02F085ABC",
            "Enabled": false,
            "Status": "Deployed"
        },
        {
            "Id": "dt_2xVInRKCfUzQHgxosDs9hiLk1AB",
            "DistributionId": "E1XNX8R2GOAABC",
            "Name": "new-tenant-2",
            "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2xVInRKCfUzQHgxosDs9hiLk1AB",
            "Domains": [
                {
                    "Domain": "2.example.com",
                    "Status": "active"
                }
            ],
            "ConnectionGroupId": "cg_2whCJoXMYCjHcxaLGrkllvyABC",
            "CreatedTime": "2025-05-23T16:16:20.871000+00:00",
            "LastModifiedTime": "2025-05-23T16:16:20.871000+00:00",
            "ETag": "E23ZP02F085ABC",
            "Enabled": false,
            "Status": "Deployed"
        }
    ],
    "NextToken": "eyJNYXJrZXIiOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAzfQ=="
}
```
Untuk informasi selengkapnya, lihat [Memahami cara kerja distribusi multi-penyewa di Panduan](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/distribution-config-options.html) Pengembang *Amazon CloudFront *.  
+  Untuk detail API, lihat [ListDistributionTenants](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-distribution-tenants.html)di *Referensi AWS CLI Perintah*. 

### `list-distributions-by-connection-mode`
<a name="cloudfront_ListDistributionsByConnectionMode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-distributions-by-connection-mode`.

**AWS CLI**  
**Untuk daftar CloudFront distribusi dengan mode koneksi**  
`list-distributions-by-connection-mode`Contoh berikut mencantumkan CloudFront distribusi dengan mode koneksi yang ditentukan.  

```
aws cloudfront list-distributions-by-connection-mode \
    --connection-mode tenant-only
```
Output:  

```
{
    "DistributionList": {
        "Items": [
            {
                "Id": "E1XNX8R2GOAABC",
                "ARN": "arn:aws:cloudfront::123456789012:distribution/E1XNX8R2GOAABC",
                "ETag": "EPT4JPJQDY1ABC",
                "Status": "Deployed",
                "LastModifiedTime": "2025-05-23T16:16:15.691000+00:00",
                "DomainName": "-",
                "Aliases": {
                    "Quantity": 0
                },
                "Origins": {
                    "Quantity": 1,
                    "Items": [
                        {
                            "Id": "example-cfn-simple-distribution123",
                            "DomainName": "example.com",
                            "OriginPath": "",
                            "CustomHeaders": {
                                "Quantity": 0
                            },
                            "S3OriginConfig": {
                                "OriginAccessIdentity": ""
                            },
                            "ConnectionAttempts": 3,
                            "ConnectionTimeout": 10,
                            "OriginShield": {
                                "Enabled": false
                            },
                            "OriginAccessControlId": "E2CJRMB5LKEABC"
                        }
                    ]
                },
                "OriginGroups": {
                    "Quantity": 0
                },
                "DefaultCacheBehavior": {
                    "TargetOriginId": "example-cfn-simple-distribution123",
                    "TrustedKeyGroups": {
                        "Enabled": false,
                        "Quantity": 0
                    },
                    "ViewerProtocolPolicy": "allow-all",
                    "AllowedMethods": {
                        "Quantity": 2,
                        "Items": [
                            "HEAD",
                            "GET"
                        ],
                        "CachedMethods": {
                            "Quantity": 2,
                            "Items": [
                                "HEAD",
                                "GET"
                            ]
                        }
                    },
                    "Compress": true,
                    "LambdaFunctionAssociations": {
                        "Quantity": 0
                    },
                    "FunctionAssociations": {
                        "Quantity": 0
                    },
                    "FieldLevelEncryptionId": "",
                    "CachePolicyId": "658327ea-f89d-4fab-a63d-7e88639e5abc",
                    "GrpcConfig": {
                        "Enabled": false
                    }
                },
                "CacheBehaviors": {
                    "Quantity": 0
                },
                "CustomErrorResponses": {
                    "Quantity": 0
                },
                "Comment": "",
                "PriceClass": "PriceClass_All",
                "Enabled": true,
                "ViewerCertificate": {
                    "CloudFrontDefaultCertificate": false,
                    "ACMCertificateArn": "arn:aws:acm:us-east-1:123456789012:certificate/ec53f564-ea5a-4e4a-a0a2-e3c989449abc",
                    "SSLSupportMethod": "sni-only",
                    "MinimumProtocolVersion": "TLSv1.2_2021",
                    "Certificate": "arn:aws:acm:us-east-1:123456789012:certificate/ec53f564-ea5a-4e4a-a0a2-e3c989449abc",
                    "CertificateSource": "acm"
                },
                "Restrictions": {
                    "GeoRestriction": {
                        "RestrictionType": "none",
                        "Quantity": 0
                    }
                },
                "WebACLId": "arn:aws:wafv2:us-east-1:123456789012:global/webacl/web-global-example/626900da-5f64-418b-ba9b-743f3746cabc",
                "HttpVersion": "http2",
                "IsIPV6Enabled": false,
                "Staging": false,
                "ConnectionMode": "tenant-only"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup sambungan kustom (opsional)](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/custom-connection-group.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [ListDistributionsByConnectionMode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-distributions-by-connection-mode.html)di *Referensi AWS CLI Perintah*. 

### `list-distributions`
<a name="cloudfront_ListDistributions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-distributions`.

**AWS CLI**  
**Untuk daftar CloudFront distribusi**  
Contoh berikut mendapatkan daftar CloudFront distribusi di AWS akun Anda.  

```
aws cloudfront list-distributions
```
Output:  

```
{
    "DistributionList": {
        "Items": [
            {
                "Id": "E23YS8OEXAMPLE",
                "ARN": "arn:aws:cloudfront::123456789012:distribution/E23YS8OEXAMPLE",
                "Status": "Deployed",
                "LastModifiedTime": "2024-08-05T18:23:40.375000+00:00",
                "DomainName": "abcdefgh12ijk.cloudfront.net",
                "Aliases": {
                    "Quantity": 0
                },
                "Origins": {
                    "Quantity": 1,
                    "Items": [
                        {
                            "Id": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                            "DomainName": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                            "OriginPath": "",
                            "CustomHeaders": {
                                "Quantity": 0
                            },
                            "S3OriginConfig": {
                                "OriginAccessIdentity": ""
                            },
                            "ConnectionAttempts": 3,
                            "ConnectionTimeout": 10,
                            "OriginShield": {
                                "Enabled": false
                            },
                            "OriginAccessControlId": "EIAP8PEXAMPLE"
                        }
                    ]
                },
                "OriginGroups": {
                    "Quantity": 0
                },
                "DefaultCacheBehavior": {
                    "TargetOriginId": "amzn-s3-demo-bucket.s3.us-east-1.amazonaws.com",
                    "TrustedSigners": {
                        "Enabled": false,
                        "Quantity": 0
                    },
                    "TrustedKeyGroups": {
                        "Enabled": false,
                        "Quantity": 0
                    },
                    "ViewerProtocolPolicy": "allow-all",
                    "AllowedMethods": {
                        "Quantity": 2,
                        "Items": [
                            "HEAD",
                            "GET"
                        ],
                        "CachedMethods": {
                            "Quantity": 2,
                            "Items": [
                                "HEAD",
                                "GET"
                            ]
                        }
                    },
                    "SmoothStreaming": false,
                    "Compress": true,
                    "LambdaFunctionAssociations": {
                        "Quantity": 0
                    },
                    "FunctionAssociations": {
                        "Quantity": 0
                    },
                    "FieldLevelEncryptionId": "",
                    "CachePolicyId": "658327ea-f89d-4fab-a63d-7e886EXAMPLE"
                },
                "CacheBehaviors": {
                    "Quantity": 0
                },
                "CustomErrorResponses": {
                    "Quantity": 0
                },
                "Comment": "",
                "PriceClass": "PriceClass_All",
                "Enabled": true,
                "ViewerCertificate": {
                    "CloudFrontDefaultCertificate": true,
                    "SSLSupportMethod": "vip",
                    "MinimumProtocolVersion": "TLSv1",
                    "CertificateSource": "cloudfront"
                },
                "Restrictions": {
                    "GeoRestriction": {
                        "RestrictionType": "none",
                        "Quantity": 0
                    }
                },
                "WebACLId": "",
                "HttpVersion": "HTTP2",
                "IsIPV6Enabled": true,
                "Staging": false
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ListDistributions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-distributions.html)di *Referensi AWS CLI Perintah*. 

### `list-domain-conflicts`
<a name="cloudfront_ListDomainConflicts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-domain-conflicts`.

**AWS CLI**  
**Untuk mencantumkan konflik domain untuk CloudFront distribusi**  
`list-domain-conflicts`Contoh berikut mencantumkan konflik domain untuk CloudFront distribusi.  

```
aws cloudfront list-domain-conflicts \
    --domain example.com \
    --domain-control-validation-resource "DistributionTenantId=dt_2x9GhoK0TZRsohWzv1b9It8J1AB"
```
Output:  

```
{
    "DomainConflicts": [
        {
            "Domain": "example.com",
            "ResourceType": "distribution-tenant",
            "ResourceId": "***************ohWzv1b9It8J1AB",
            "AccountId": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memindahkan nama domain alternatif ke distribusi lain](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/alternate-domain-names-move.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [ListDomainConflicts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-domain-conflicts.html)di *Referensi AWS CLI Perintah*. 

### `list-field-level-encryption-configs`
<a name="cloudfront_ListFieldLevelEncryptionConfigs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-field-level-encryption-configs`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi CloudFront enkripsi tingkat lapangan**  
Contoh berikut mendapatkan daftar konfigurasi enkripsi CloudFront tingkat bidang di akun Anda: AWS   

```
aws cloudfront list-field-level-encryption-configs
```
Output:  

```
{
    "FieldLevelEncryptionList": {
        "MaxItems": 100,
        "Quantity": 1,
        "Items": [
            {
                "Id": "C3KM2WVD605UAY",
                "LastModifiedTime": "2019-12-10T21:30:18.974Z",
                "Comment": "Example FLE configuration",
                "QueryArgProfileConfig": {
                    "ForwardWhenQueryArgProfileIsUnknown": true,
                    "QueryArgProfiles": {
                        "Quantity": 0,
                        "Items": []
                    }
                },
                "ContentTypeProfileConfig": {
                    "ForwardWhenContentTypeIsUnknown": true,
                    "ContentTypeProfiles": {
                        "Quantity": 1,
                        "Items": [
                            {
                                "Format": "URLEncoded",
                                "ProfileId": "P280MFCLSYOCVU",
                                "ContentType": "application/x-www-form-urlencoded"
                            }
                        ]
                    }
                }
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ListFieldLevelEncryptionConfigs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-field-level-encryption-configs.html)di *Referensi AWS CLI Perintah*. 

### `list-field-level-encryption-profiles`
<a name="cloudfront_ListFieldLevelEncryptionProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-field-level-encryption-profiles`.

**AWS CLI**  
**Untuk membuat daftar profil CloudFront enkripsi tingkat lapangan**  
Contoh berikut mendapatkan daftar profil enkripsi CloudFront tingkat bidang di akun Anda: AWS   

```
aws cloudfront list-field-level-encryption-profiles
```
Output:  

```
{
    "FieldLevelEncryptionProfileList": {
        "MaxItems": 100,
        "Quantity": 2,
        "Items": [
            {
                "Id": "P280MFCLSYOCVU",
                "LastModifiedTime": "2019-12-05T01:05:39.896Z",
                "Name": "ExampleFLEProfile",
                "EncryptionEntities": {
                    "Quantity": 1,
                    "Items": [
                        {
                            "PublicKeyId": "K2K8NC4HVFE3M0",
                            "ProviderId": "ExampleFLEProvider",
                            "FieldPatterns": {
                                "Quantity": 1,
                                "Items": [
                                    "ExampleSensitiveField"
                                ]
                            }
                        }
                    ]
                },
                "Comment": "FLE profile for AWS CLI example"
            },
            {
                "Id": "PPK0UOSIF5WSV",
                "LastModifiedTime": "2019-12-10T01:03:16.537Z",
                "Name": "ExampleFLEProfile2",
                "EncryptionEntities": {
                    "Quantity": 1,
                    "Items": [
                        {
                            "PublicKeyId": "K2ABC10EXAMPLE",
                            "ProviderId": "ExampleFLEProvider2",
                            "FieldPatterns": {
                                "Quantity": 1,
                                "Items": [
                                    "ExampleSensitiveField2"
                                ]
                            }
                        }
                    ]
                },
                "Comment": "FLE profile #2 for AWS CLI example"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ListFieldLevelEncryptionProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-field-level-encryption-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-invalidations-for-distribution-tenant`
<a name="cloudfront_ListInvalidationsForDistributionTenant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-invalidations-for-distribution-tenant`.

**AWS CLI**  
**Untuk daftar pembatalan untuk penyewa distribusi CloudFront **  
`list-invalidations-for-distribution-tenant`Contoh berikut mencantumkan pembatalan untuk penyewa distribusi. CloudFront   

```
aws cloudfront list-invalidations-for-distribution-tenant \
    --id dt_2wjDZi3hD1ivOXf6rpZJOSNE1AB
```
Output:  

```
{
    "InvalidationList": {
        "Items": [
            {
                "Id": "I4CU23QAPKMUDUU06F9OFGFABC",
                "CreateTime": "2025-05-06T15:46:12.824000+00:00",
                "Status": "Completed"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membatalkan file untuk menghapus konten](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/Invalidation.html) di Panduan * CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [ListInvalidationsForDistributionTenant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-invalidations-for-distribution-tenant.html)di *Referensi AWS CLI Perintah*. 

### `list-invalidations`
<a name="cloudfront_ListInvalidations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-invalidations`.

**AWS CLI**  
**Untuk daftar CloudFront pembatalan**  
Contoh berikut mendapatkan daftar pembatalan untuk CloudFront distribusi dengan ID: `EDFDVBD6EXAMPLE`  

```
aws cloudfront list-invalidations --distribution-id EDFDVBD6EXAMPLE
```
Output:  

```
{
    "InvalidationList": {
        "Marker": "",
        "Items": [
            {
                "Status": "Completed",
                "Id": "YNY2LI2BVJ4NJU",
                "CreateTime": "2019-08-31T21:15:52.042Z"
            }
        ],
        "IsTruncated": false,
        "MaxItems": 100,
        "Quantity": 1
    }
}
```
+  Untuk detail API, lihat [ListInvalidations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-invalidations.html)di *Referensi AWS CLI Perintah*. 

### `list-public-keys`
<a name="cloudfront_ListPublicKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-public-keys`.

**AWS CLI**  
**Untuk daftar kunci CloudFront publik**  
Contoh berikut mendapatkan daftar kunci CloudFront publik di AWS akun Anda:  

```
aws cloudfront list-public-keys
```
Output:  

```
{
    "PublicKeyList": {
        "MaxItems": 100,
        "Quantity": 2,
        "Items": [
            {
                "Id": "K2K8NC4HVFE3M0",
                "Name": "ExampleKey",
                "CreatedTime": "2019-12-05T01:04:28.818Z",
                "EncodedKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAxPMbCA2Ks0lnd7IR+3pw\nwd3H/7jPGwj8bLUmore7bX+oeGpZ6QmLAe/1UOWcmZX2u70dYcSIzB1ofZtcn4cJ\nenHBAzO3ohBY/L1tQGJfS2A+omnN6H16VZE1JCK8XSJyfze7MDLcUyHZETdxuvRb\nA9X343/vMAuQPnhinFJ8Wdy8YBXSPpy7r95ylUQd9LfYTBzVZYG2tSesplcOkjM3\n2Uu+oMWxQAw1NINnSLPinMVsutJy6ZqlV3McWNWe4T+STGtWhrPNqJEn45sIcCx4\nq+kGZ2NQ0FyIyT2eiLKOX5Rgb/a36E/aMk4VoDsaenBQgG7WLTnstb9sr7MIhS6A\nrwIDAQAB\n-----END PUBLIC KEY-----\n",
                "Comment": "example public key"
            },
            {
                "Id": "K1S0LWQ2L5HTBU",
                "Name": "ExampleKey2",
                "CreatedTime": "2019-12-09T23:28:11.110Z",
                "EncodedKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEApOCAg88A8+f4dujn9Izt\n26LxtgAkn2opGgo/NKpMiaisyw5qlg3f1gol7FV6pYNl78iJg3EO8JBbwtlH+cR9\nLGSf60NDeVhm76Oc39Np/vWgOdsGQcRbi9WmKZeSODqjQGzVZWqPmito3FzWVk6b\nfVY5N36U/RdbVAJm95Km+qaMYlbIdF40t72bi3IkKYV5hlB2XoDjlQ9F6ajQKyTB\nMHa3SN8q+3ZjQ4sJJ7D1V6r4wR8jDcFVD5NckWJmmgIVnkOQM37NYeoDnkaOuTpu\nha/+3b8tOb2z3LBVHPkp85zJRAOXacSwf5rZtPYKBNFsixTa2n55k2r218mOkMC4\nUwIDAQAB\n-----END PUBLIC KEY-----",
                "Comment": "example public key #2"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ListPublicKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-public-keys.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="cloudfront_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag untuk CloudFront distribusi**  
Contoh berikut mendapat daftar tag untuk CloudFront distribusi:  

```
aws cloudfront list-tags-for-resource \
    --resource arn:aws:cloudfront::123456789012:distribution/EDFDVBD6EXAMPLE
```
Output:  

```
{
    "Tags": {
        "Items": [
            {
                "Key": "DateCreated",
                "Value": "2019-12-04"
            },
            {
                "Key": "Name",
                "Value": "Example name"
            },
            {
                "Key": "Project",
                "Value": "Example project"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `sign`
<a name="cloudfront_Sign_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`sign`.

**AWS CLI**  
**Untuk menandatangani CloudFront URL**  
Contoh berikut menandatangani CloudFront URL. Untuk menandatangani URL, Anda memerlukan ID key pair (disebut **ID Kunci Akses** di Konsol AWS Manajemen) dan kunci pribadi dari CloudFront key pair penandatangan tepercaya. Untuk informasi selengkapnya tentang ditandatangani URLs, lihat [Menyajikan Konten Pribadi dengan Cookie yang Ditandatangani URLs dan Ditandatangani](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/PrivateContent.html) di *Panduan CloudFront Pengembang Amazon*.  

```
aws cloudfront sign \
    --url https://d111111abcdef8.cloudfront.net/private-content/private-file.html \
    --key-pair-id APKAEIBAERJR2EXAMPLE \
    --private-key file://cf-signer-priv-key.pem \
    --date-less-than 2020-01-01
```
Output:  

```
https://d111111abcdef8.cloudfront.net/private-content/private-file.html?Expires=1577836800&Signature=nEXK7Kby47XKeZQKVc6pwkif6oZc-JWSpDkH0UH7EBGGqvgurkecCbgL5VfUAXyLQuJxFwRQWscz-owcq9KpmewCXrXQbPaJZNi9XSNwf4YKurPDQYaRQawKoeenH0GFteRf9ELK-Bs3nljTLjtbgzIUt7QJNKXcWr8AuUYikzGdJ4-qzx6WnxXfH~fxg4-GGl6l2kgCpXUB6Jx6K~Y3kpVOdzUPOIqFLHAnJojbhxqrVejomZZ2XrquDvNUCCIbePGnR3d24UPaLXG4FKOqNEaWDIBXu7jUUPwOyQCvpt-GNvjRJxqWf93uMobeMOiVYahb-e0KItiQewGcm0eLZQ__&Key-Pair-Id=APKAEIBAERJR2EXAMPLE
```
+  Untuk detail API, lihat *Referensi AWS CLI Perintah* [Masuk](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/sign.html). 

### `tag-resource`
<a name="cloudfront_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai CloudFront distribusi**  
`tag-resource`Contoh berikut menambahkan dua tag ke CloudFront distribusi yang ditentukan.  

```
aws cloudfront tag-resource \
    --resource arn:aws:cloudfront::123456789012:distribution/EDFDVBD6EXAMPLE \
    --tags 'Items=[{Key=Name,Value="Example name"},{Key=Project,Value="Example project"}]'
```
Alih-alih menggunakan argumen baris perintah, Anda dapat memberikan tag dalam file JSON, seperti yang ditunjukkan pada contoh berikut:  

```
aws cloudfront tag-resource \
    --resource arn:aws:cloudfront::123456789012:distribution/EDFDVBD6EXAMPLE \
    --tags file://tags.json
```
Isi dari `tags.json`:  

```
{
    "Items": [
        {
            "Key": "Name",
            "Value": "Example name"
        },
        {
            "Key": "Project",
            "Value": "Example project"
        }
    ]
}
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="cloudfront_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari CloudFront distribusi**  
Contoh berikut menghapus dua tag dari CloudFront distribusi dengan menggunakan argumen baris perintah:  

```
aws cloudfront untag-resource \
    --resource arn:aws:cloudfront::123456789012:distribution/EDFDVBD6EXAMPLE \
    --tag-keys Items=Name,Project
```
Alih-alih menggunakan argumen baris perintah, Anda dapat memberikan kunci tag dalam file JSON, seperti yang ditunjukkan pada contoh berikut:  

```
aws cloudfront untag-resource \
    --resource arn:aws:cloudfront::123456789012:distribution/EDFDVBD6EXAMPLE \
    --tag-keys file://tag-keys.json
```
File tersebut `tag-keys.json` adalah dokumen JSON di folder saat ini yang berisi berikut ini:  

```
{
    "Items": [
        "Name",
        "Project"
    ]
}
```
Ketika berhasil, perintah ini tidak memiliki output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-cloud-front-origin-access-identity`
<a name="cloudfront_UpdateCloudFrontOriginAccessIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-cloud-front-origin-access-identity`.

**AWS CLI**  
**Untuk memperbarui identitas akses CloudFront asal**  
Contoh berikut memperbarui identitas akses asal (OAI) dengan ID`E74FTE3AEXAMPLE`. Satu-satunya bidang yang dapat Anda perbarui adalah OAI. `Comment`  
Untuk memperbarui OAI, Anda harus memiliki ID OAI dan. `ETag` ID OAI dikembalikan dalam output perintah -access-identity dan create-cloud-front-origin -access-identities. list-cloud-front-origin Untuk mendapatkan`ETag`, gunakan perintah get-cloud-front-origin -access-identity atau get-cloud-front-origin -. access-identity-config Gunakan `--if-match` opsi untuk menyediakan OAI. `ETag`  

```
aws cloudfront update-cloud-front-origin-access-identity \
    --id E74FTE3AEXAMPLE \
    --if-match E2QWRUHEXAMPLE \
    --cloud-front-origin-access-identity-config \
        CallerReference=cli-example,Comment="Example OAI Updated"
```
Anda dapat mencapai hal yang sama dengan menyediakan konfigurasi OAI dalam file JSON, seperti yang ditunjukkan pada contoh berikut:  

```
aws cloudfront update-cloud-front-origin-access-identity \
    --id E74FTE3AEXAMPLE \
    --if-match E2QWRUHEXAMPLE \
    --cloud-front-origin-access-identity-config file://OAI-config.json
```
File tersebut `OAI-config.json` adalah dokumen JSON di direktori saat ini yang berisi berikut ini:  

```
{
    "CallerReference": "cli-example",
    "Comment": "Example OAI Updated"
}
```
Apakah Anda memberikan konfigurasi OAI dengan argumen baris perintah atau file JSON, outputnya sama:  

```
{
    "ETag": "E9LHASXEXAMPLE",
    "CloudFrontOriginAccessIdentity": {
        "Id": "E74FTE3AEXAMPLE",
        "S3CanonicalUserId": "cd13868f797c227fbea2830611a26fe0a21ba1b826ab4bed9b7771c9aEXAMPLE",
        "CloudFrontOriginAccessIdentityConfig": {
            "CallerReference": "cli-example",
            "Comment": "Example OAI Updated"
        }
    }
}
```
+  Untuk detail API, lihat [UpdateCloudFrontOriginAccessIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/update-cloud-front-origin-access-identity.html)di *Referensi AWS CLI Perintah*. 

### `update-connection-group`
<a name="cloudfront_UpdateConnectionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-connection-group`.

**AWS CLI**  
**Untuk memperbarui grup CloudFront koneksi**  
`update-connection-group`Contoh berikut menonaktifkan grup CloudFront koneksi dan menonaktifkan IPv6.  

```
aws cloudfront update-connection-group \
    --id cg_2yHsDkcPKeUlVkk3aEgLKcjABC \
    --no-ipv6-enabled \
    --no-enabled \
    --if-match E3UN6WX5RRO2ABC
```
Output:  

```
{
    "ETag": "E1F83G8C2ARABC",
    "ConnectionGroup": {
        "Id": "cg_2yHsDkcPKeUlVkk3aEgLKcjABC",
        "Name": "cg-example",
        "Arn": "arn:aws:cloudfront::123456789012:connection-group/cg_2yHsDkcPKeUlVkk3aEgLKcjABC",
        "CreatedTime": "2025-06-09T20:58:35.481000+00:00",
        "LastModifiedTime": "2025-06-11T16:25:54.280000+00:00",
        "Ipv6Enabled": false,
        "RoutingEndpoint": "du9xp1elo1abc.cloudfront.net",
        "Status": "InProgress",
        "Enabled": false,
        "IsDefault": false
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup sambungan kustom (opsional)](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/custom-connection-group.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [UpdateConnectionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/update-connection-group.html)di *Referensi AWS CLI Perintah*. 

### `update-distribution-tenant`
<a name="cloudfront_UpdateDistributionTenant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-distribution-tenant`.

**AWS CLI**  
**Untuk memperbarui penyewa CloudFront distribusi**  
`update-distribution-tenant`Contoh berikut memperbarui penyewa CloudFront distribusi dengan nilai parameter baru dan menambahkan negara ke pembatasan geografis.  

```
aws cloudfront update-distribution-tenant \
    --cli-input-json file://update-tenant.json
```
Isi dari `update-tenant.json`:  

```
{
    "Id": "dt_2yMvQgam3QkJo2z54FDl91dk1AB",
    "IfMatch": "E1F83G8C2ARABC",
    "Parameters": [
        {
            "Name": "testParam",
            "Value": "newParameterValue"
        }
    ],
    "Customizations": {
        "WebAcl": {
            "Action": "disable"
        },
        "GeoRestrictions": {
            "RestrictionType": "whitelist",
            "Locations": [
                "DE",
                "GB",
                "ES"
            ]
        }
    }
}
```
Output:  

```
{
    "ETag": "E1PA6795UKMABC",
    "DistributionTenant": {
        "Id": "dt_2yMvQgam3QkJo2z54FDl91dk1AB",
        "DistributionId": "E1XNX8R2GOAABC",
        "Name": "new-tenant-customizations",
        "Arn": "arn:aws:cloudfront::123456789012:distribution-tenant/dt_2yMvQgam3QkJo2z54FDl91dk1AB",
        "Domains": [
            {
                "Domain": "example.com",
                "Status": "active"
            }
        ],
        "Customizations": {
            "WebAcl": {
                "Action": "disable"
            },
            "GeoRestrictions": {
                "RestrictionType": "whitelist",
                "Locations": [
                    "DE",
                    "ES",
                    "GB"
                ]
            }
        },
        "Parameters": [
            {
                "Name": "testParam",
                "Value": "newParameterValue"
            }
        ],
        "ConnectionGroupId": "cg_2whCJoXMYCjHcxaLGrkllvyABC",
        "CreatedTime": "2025-06-11T15:54:02.142000+00:00",
        "LastModifiedTime": "2025-06-11T16:42:45.531000+00:00",
        "Enabled": false,
        "Status": "InProgress"
    }
}
```
Untuk informasi selengkapnya, lihat [Kustomisasi penyewa distribusi di Panduan](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/tenant-customization.html) Pengembang *Amazon CloudFront *.  
+  Untuk detail API, lihat [UpdateDistributionTenant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/update-distribution-tenant.html)di *Referensi AWS CLI Perintah*. 

### `update-distribution`
<a name="cloudfront_UpdateDistribution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-distribution`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui objek root default CloudFront distribusi**  
Contoh berikut memperbarui objek root default `index.html` untuk CloudFront distribusi dengan ID`EDFDVBD6EXAMPLE`.  

```
aws cloudfront update-distribution \
    --id EDFDVBD6EXAMPLE \
    --default-root-object index.html
```
Output:  

```
{
    "ETag": "E2QWRUHEXAMPLE",
    "Distribution": {
        "Id": "EDFDVBD6EXAMPLE",
        "ARN": "arn:aws:cloudfront::123456789012:distribution/EDFDVBD6EXAMPLE",
        "Status": "InProgress",
        "LastModifiedTime": "2019-12-06T18:55:39.870Z",
        "InProgressInvalidationBatches": 0,
        "DomainName": "d111111abcdef8.cloudfront.net",
        "ActiveTrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "DistributionConfig": {
            "CallerReference": "6b10378d-49be-4c4b-a642-419ccaf8f3b5",
            "Aliases": {
                "Quantity": 0
            },
            "DefaultRootObject": "index.html",
            "Origins": {
                "Quantity": 1,
                "Items": [
                    {
                        "Id": "example-website",
                        "DomainName": "www.example.com",
                        "OriginPath": "",
                        "CustomHeaders": {
                            "Quantity": 0
                        },
                        "CustomOriginConfig": {
                            "HTTPPort": 80,
                            "HTTPSPort": 443,
                            "OriginProtocolPolicy": "match-viewer",
                            "OriginSslProtocols": {
                                "Quantity": 2,
                                "Items": [
                                    "SSLv3",
                                    "TLSv1"
                                ]
                            },
                            "OriginReadTimeout": 30,
                            "OriginKeepaliveTimeout": 5
                        }
                    }
                ]
            },
            "OriginGroups": {
                "Quantity": 0
            },
            "DefaultCacheBehavior": {
                "TargetOriginId": "example-website",
                "ForwardedValues": {
                    "QueryString": false,
                    "Cookies": {
                        "Forward": "none"
                    },
                    "Headers": {
                        "Quantity": 1,
                        "Items": [
                            "*"
                        ]
                    },
                    "QueryStringCacheKeys": {
                        "Quantity": 0
                    }
                },
                "TrustedSigners": {
                    "Enabled": false,
                    "Quantity": 0
                },
                "ViewerProtocolPolicy": "allow-all",
                "MinTTL": 0,
                "AllowedMethods": {
                    "Quantity": 2,
                    "Items": [
                        "HEAD",
                        "GET"
                    ],
                    "CachedMethods": {
                        "Quantity": 2,
                        "Items": [
                            "HEAD",
                            "GET"
                        ]
                    }
                },
                "SmoothStreaming": false,
                "DefaultTTL": 86400,
                "MaxTTL": 31536000,
                "Compress": false,
                "LambdaFunctionAssociations": {
                    "Quantity": 0
                },
                "FieldLevelEncryptionId": ""
            },
            "CacheBehaviors": {
                "Quantity": 0
            },
            "CustomErrorResponses": {
                "Quantity": 0
            },
            "Comment": "",
            "Logging": {
                "Enabled": false,
                "IncludeCookies": false,
                "Bucket": "",
                "Prefix": ""
            },
            "PriceClass": "PriceClass_All",
            "Enabled": true,
            "ViewerCertificate": {
                "CloudFrontDefaultCertificate": true,
                "MinimumProtocolVersion": "TLSv1",
                "CertificateSource": "cloudfront"
            },
            "Restrictions": {
                "GeoRestriction": {
                    "RestrictionType": "none",
                    "Quantity": 0
                }
            },
            "WebACLId": "",
            "HttpVersion": "http1.1",
            "IsIPV6Enabled": true
        }
    }
}
```
**Contoh 2: Untuk memperbarui CloudFront distribusi**  
Contoh berikut menonaktifkan CloudFront distribusi dengan ID `EMLARXS9EXAMPLE` dengan menyediakan konfigurasi distribusi dalam file JSON bernama. `dist-config-disable.json` Untuk memperbarui distribusi, Anda harus menggunakan `--if-match` opsi untuk menyediakan distribusi`ETag`. Untuk mendapatkan`ETag`, gunakan get-distribusi atau get-distribution-config perintah. Perhatikan bahwa `Enabled` bidang diatur ke `false` dalam file JSON.  
Setelah Anda menggunakan contoh berikut untuk menonaktifkan distribusi, Anda dapat menggunakan perintah hapus-distribusi untuk menghapusnya.  

```
aws cloudfront update-distribution \
    --id EMLARXS9EXAMPLE \
    --if-match E2QWRUHEXAMPLE \
    --distribution-config file://dist-config-disable.json
```
Isi dari `dist-config-disable.json`:  

```
{
    "CallerReference": "cli-1574382155-496510",
    "Aliases": {
        "Quantity": 0
    },
    "DefaultRootObject": "index.html",
    "Origins": {
        "Quantity": 1,
        "Items": [
            {
                "Id": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-1574382155-273939",
                "DomainName": "amzn-s3-demo-bucket.s3.amazonaws.com",
                "OriginPath": "",
                "CustomHeaders": {
                    "Quantity": 0
                },
                "S3OriginConfig": {
                    "OriginAccessIdentity": ""
                }
            }
        ]
    },
    "OriginGroups": {
        "Quantity": 0
    },
    "DefaultCacheBehavior": {
        "TargetOriginId": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-1574382155-273939",
        "ForwardedValues": {
            "QueryString": false,
            "Cookies": {
                "Forward": "none"
            },
            "Headers": {
                "Quantity": 0
            },
            "QueryStringCacheKeys": {
                "Quantity": 0
            }
        },
        "TrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "ViewerProtocolPolicy": "allow-all",
        "MinTTL": 0,
        "AllowedMethods": {
            "Quantity": 2,
            "Items": [
                "HEAD",
                "GET"
            ],
            "CachedMethods": {
                "Quantity": 2,
                "Items": [
                    "HEAD",
                    "GET"
                ]
            }
        },
        "SmoothStreaming": false,
        "DefaultTTL": 86400,
        "MaxTTL": 31536000,
        "Compress": false,
        "LambdaFunctionAssociations": {
            "Quantity": 0
        },
        "FieldLevelEncryptionId": ""
    },
    "CacheBehaviors": {
        "Quantity": 0
    },
    "CustomErrorResponses": {
        "Quantity": 0
    },
    "Comment": "",
    "Logging": {
        "Enabled": false,
        "IncludeCookies": false,
        "Bucket": "",
        "Prefix": ""
    },
    "PriceClass": "PriceClass_All",
    "Enabled": false,
    "ViewerCertificate": {
        "CloudFrontDefaultCertificate": true,
        "MinimumProtocolVersion": "TLSv1",
        "CertificateSource": "cloudfront"
    },
    "Restrictions": {
        "GeoRestriction": {
            "RestrictionType": "none",
            "Quantity": 0
        }
    },
    "WebACLId": "",
    "HttpVersion": "http2",
    "IsIPV6Enabled": true
}
```
Output:  

```
{
    "ETag": "E9LHASXEXAMPLE",
    "Distribution": {
        "Id": "EMLARXS9EXAMPLE",
        "ARN": "arn:aws:cloudfront::123456789012:distribution/EMLARXS9EXAMPLE",
        "Status": "InProgress",
        "LastModifiedTime": "2019-12-06T18:32:35.553Z",
        "InProgressInvalidationBatches": 0,
        "DomainName": "d111111abcdef8.cloudfront.net",
        "ActiveTrustedSigners": {
            "Enabled": false,
            "Quantity": 0
        },
        "DistributionConfig": {
            "CallerReference": "cli-1574382155-496510",
            "Aliases": {
                "Quantity": 0
            },
            "DefaultRootObject": "index.html",
            "Origins": {
                "Quantity": 1,
                "Items": [
                    {
                        "Id": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-1574382155-273939",
                        "DomainName": "amzn-s3-demo-bucket.s3.amazonaws.com",
                        "OriginPath": "",
                        "CustomHeaders": {
                            "Quantity": 0
                        },
                        "S3OriginConfig": {
                            "OriginAccessIdentity": ""
                        }
                    }
                ]
            },
            "OriginGroups": {
                "Quantity": 0
            },
            "DefaultCacheBehavior": {
                "TargetOriginId": "amzn-s3-demo-bucket---s3.amazonaws.com.rproxy.goskope.com-1574382155-273939",
                "ForwardedValues": {
                    "QueryString": false,
                    "Cookies": {
                        "Forward": "none"
                    },
                    "Headers": {
                        "Quantity": 0
                    },
                    "QueryStringCacheKeys": {
                        "Quantity": 0
                    }
                },
                "TrustedSigners": {
                    "Enabled": false,
                    "Quantity": 0
                },
                "ViewerProtocolPolicy": "allow-all",
                "MinTTL": 0,
                "AllowedMethods": {
                    "Quantity": 2,
                    "Items": [
                        "HEAD",
                        "GET"
                    ],
                    "CachedMethods": {
                        "Quantity": 2,
                        "Items": [
                            "HEAD",
                            "GET"
                        ]
                    }
                },
                "SmoothStreaming": false,
                "DefaultTTL": 86400,
                "MaxTTL": 31536000,
                "Compress": false,
                "LambdaFunctionAssociations": {
                    "Quantity": 0
                },
                "FieldLevelEncryptionId": ""
            },
            "CacheBehaviors": {
                "Quantity": 0
            },
            "CustomErrorResponses": {
                "Quantity": 0
            },
            "Comment": "",
            "Logging": {
                "Enabled": false,
                "IncludeCookies": false,
                "Bucket": "",
                "Prefix": ""
            },
            "PriceClass": "PriceClass_All",
            "Enabled": false,
            "ViewerCertificate": {
                "CloudFrontDefaultCertificate": true,
                "MinimumProtocolVersion": "TLSv1",
                "CertificateSource": "cloudfront"
            },
            "Restrictions": {
                "GeoRestriction": {
                    "RestrictionType": "none",
                    "Quantity": 0
                }
            },
            "WebACLId": "",
            "HttpVersion": "http2",
            "IsIPV6Enabled": true
        }
    }
}
```
+  Untuk detail API, lihat [UpdateDistribution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/update-distribution.html)di *Referensi AWS CLI Perintah*. 

### `update-domain-association`
<a name="cloudfront_UpdateDomainAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-domain-association`.

**AWS CLI**  
**Untuk memperbarui asosiasi domain**  
`update-domain-association`Contoh berikut memperbarui asosiasi domain untuk penyewa distribusi dengan ETag `E23ZP02F085ABC`.  

```
aws cloudfront update-domain-association \
    --domain example.com \
    --target-resource DistributionTenantId=dt_2x9GhoK0TZRsohWzv1b9It8J1AB \
    --if-match E23ZP02F085ABC
```
Output:  

```
{
    "ETag": "ETVPDKIKX0ABC",
    "Domain": "example.com",
    "ResourceId": "dt_2x9GhoK0TZRsohWzv1b9It8J1AB"
}
```
Untuk informasi selengkapnya, lihat [Memindahkan nama domain alternatif ke distribusi lain](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/alternate-domain-names-move.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [UpdateDomainAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/update-domain-association.html)di *Referensi AWS CLI Perintah*. 

### `update-field-level-encryption-config`
<a name="cloudfront_UpdateFieldLevelEncryptionConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-field-level-encryption-config`.

**AWS CLI**  
**Untuk memperbarui konfigurasi CloudFront enkripsi tingkat lapangan**  
Contoh berikut memperbarui `Comment` bidang konfigurasi enkripsi tingkat lapangan dengan ID `C3KM2WVD605UAY` dengan menyediakan parameter dalam file JSON.  
Untuk memperbarui konfigurasi enkripsi tingkat lapangan, Anda harus memiliki ID konfigurasi dan. `ETag` ID dikembalikan dalam output perintah create-field-level-encryption -config dan list-field-level-encryption -configs. Untuk mendapatkan`ETag`, gunakan perintah get-field-level-encryption or get-field-level-encryption -config. Gunakan `--if-match` opsi untuk menyediakan konfigurasi`ETag`.  

```
aws cloudfront update-field-level-encryption-config \
    --id C3KM2WVD605UAY \
    --if-match E2P4Z4VU7TY5SG \
    --field-level-encryption-config file://fle-config.json
```
File tersebut `fle-config.json` adalah dokumen JSON di direktori saat ini yang berisi berikut ini:  

```
{
    "CallerReference": "cli-example",
    "Comment": "Updated example FLE configuration",
    "QueryArgProfileConfig": {
        "ForwardWhenQueryArgProfileIsUnknown": true,
        "QueryArgProfiles": {
            "Quantity": 0
        }
    },
    "ContentTypeProfileConfig": {
        "ForwardWhenContentTypeIsUnknown": true,
        "ContentTypeProfiles": {
            "Quantity": 1,
            "Items": [
                {
                    "Format": "URLEncoded",
                    "ProfileId": "P280MFCLSYOCVU",
                    "ContentType": "application/x-www-form-urlencoded"
                }
            ]
        }
    }
}
```
Output:  

```
{
    "ETag": "E26M4BIAV81ZF6",
    "FieldLevelEncryption": {
        "Id": "C3KM2WVD605UAY",
        "LastModifiedTime": "2019-12-10T22:26:26.170Z",
        "FieldLevelEncryptionConfig": {
            "CallerReference": "cli-example",
            "Comment": "Updated example FLE configuration",
            "QueryArgProfileConfig": {
                "ForwardWhenQueryArgProfileIsUnknown": true,
                "QueryArgProfiles": {
                    "Quantity": 0,
                    "Items": []
                }
            },
            "ContentTypeProfileConfig": {
                "ForwardWhenContentTypeIsUnknown": true,
                "ContentTypeProfiles": {
                    "Quantity": 1,
                    "Items": [
                        {
                            "Format": "URLEncoded",
                            "ProfileId": "P280MFCLSYOCVU",
                            "ContentType": "application/x-www-form-urlencoded"
                        }
                    ]
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [UpdateFieldLevelEncryptionConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/update-field-level-encryption-config.html)di *Referensi AWS CLI Perintah*. 

### `update-field-level-encryption-profile`
<a name="cloudfront_UpdateFieldLevelEncryptionProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-field-level-encryption-profile`.

**AWS CLI**  
**Untuk memperbarui profil CloudFront enkripsi tingkat lapangan**  
Contoh berikut memperbarui profil enkripsi tingkat lapangan dengan ID. `PPK0UOSIF5WSV` Contoh ini memperbarui profil `Name` dan`Comment`, dan menambahkan `FieldPatterns` item kedua, dengan menyediakan parameter dalam file JSON.  
Untuk memperbarui profil enkripsi tingkat lapangan, Anda harus memiliki ID profil dan. `ETag` ID dikembalikan dalam output perintah create-field-level-encryption -profile dan list-field-level-encryption -profiles. Untuk mendapatkan`ETag`, gunakan perintah get-field-level-encryption -profile atau get-field-level-encryption -profile-config. Gunakan `--if-match` opsi untuk menyediakan profil`ETag`.  

```
aws cloudfront update-field-level-encryption-profile \
    --id PPK0UOSIF5WSV \
    --if-match E1QQG65FS2L2GC \
    --field-level-encryption-profile-config file://fle-profile-config.json
```
File tersebut `fle-profile-config.json` adalah dokumen JSON di direktori saat ini yang berisi berikut ini:  

```
{
    "Name": "ExampleFLEProfileUpdated",
    "CallerReference": "cli-example",
    "Comment": "Updated FLE profile for AWS CLI example",
    "EncryptionEntities": {
        "Quantity": 1,
        "Items": [
            {
                "PublicKeyId": "K2K8NC4HVFE3M0",
                "ProviderId": "ExampleFLEProvider",
                "FieldPatterns": {
                    "Quantity": 2,
                    "Items": [
                        "ExampleSensitiveField",
                        "SecondExampleSensitiveField"
                    ]
                }
            }
        ]
    }
}
```
Output:  

```
{
    "ETag": "EJETYFJ9CL66D",
    "FieldLevelEncryptionProfile": {
        "Id": "PPK0UOSIF5WSV",
        "LastModifiedTime": "2019-12-10T19:05:58.296Z",
        "FieldLevelEncryptionProfileConfig": {
            "Name": "ExampleFLEProfileUpdated",
            "CallerReference": "cli-example",
            "Comment": "Updated FLE profile for AWS CLI example",
            "EncryptionEntities": {
                "Quantity": 1,
                "Items": [
                    {
                        "PublicKeyId": "K2K8NC4HVFE3M0",
                        "ProviderId": "ExampleFLEProvider",
                        "FieldPatterns": {
                            "Quantity": 2,
                            "Items": [
                                "ExampleSensitiveField",
                                "SecondExampleSensitiveField"
                            ]
                        }
                    }
                ]
            }
        }
    }
}
```
+  Untuk detail API, lihat [UpdateFieldLevelEncryptionProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/update-field-level-encryption-profile.html)di *Referensi AWS CLI Perintah*. 

### `verify-dns-configuration`
<a name="cloudfront_VerifyDnsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-dns-configuration`.

**AWS CLI**  
**Untuk memverifikasi konfigurasi DNS untuk domain**  
`verify-dns-configuration`Contoh berikut memverifikasi konfigurasi DNS untuk domain.  

```
aws cloudfront verify-dns-configuration \
    --domain example.com \
    --identifier dt_2x9GhoK0TZRsohWzv1b9It8J1AB
```
Output:  

```
{
    "DnsConfigurationList": [
        {
            "Domain": "example.com",
            "Status": "valid-configuration"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memindahkan nama domain alternatif ke distribusi lain](https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/alternate-domain-names-move.html) di *Panduan CloudFront Pengembang Amazon*.  
+  Untuk detail API, lihat [VerifyDnsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudfront/verify-dns-configuration.html)di *Referensi AWS CLI Perintah*. 

# CloudSearch Contoh Amazon menggunakan AWS CLI
<a name="cli_2_cloudsearch-domain_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon CloudSearch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `upload-documents`
<a name="cloudsearch-domain_UploadDocuments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-documents`.

**AWS CLI**  
`upload-documents`Perintah berikut mengunggah sekumpulan dokumen JSON ke domain Amazon CloudSearch :  

```
aws cloudsearchdomain upload-documents --endpoint-url https://doc-my-domain.us-west-1.cloudsearch.amazonaws.com --content-type application/json --documents document-batch.json
```
Output:  

```
{
  "status": "success",
  "adds": 5000,
  "deletes": 0
}
```
+  Untuk detail API, lihat [UploadDocuments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudsearchdomain/upload-documents.html)di *Referensi AWS CLI Perintah*. 

# CloudTrail contoh menggunakan AWS CLI
<a name="cli_2_cloudtrail_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CloudTrail.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags`
<a name="cloudtrail_AddTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags`.

**AWS CLI**  
**Untuk menambahkan tag ke jejak**  
`add-tags`Perintah berikut menambahkan tag untuk`Trail1`:  

```
aws cloudtrail add-tags --resource-id arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1 --tags-list Key=name,Value=Alice Key=location,Value=us
```
+  Untuk detail API, lihat [AddTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/add-tags.html)di *Referensi AWS CLI Perintah*. 

### `create-subscription`
<a name="cloudtrail_CreateSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subscription`.

**AWS CLI**  
**Untuk membuat dan mengonfigurasi AWS sumber daya untuk jejak**  
`create-subscription`Perintah berikut membuat bucket S3 baru dan topik SNS untuk. `Trail1`  

```
aws cloudtrail create-subscription \
    --name Trail1 \
    --s3-new-bucket amzn-s3-demo-bucket \
    --sns-new-topic my-topic
```
Output:  

```
Setting up new S3 bucket amzn-s3-demo-bucket...
Setting up new SNS topic my-topic...
Creating/updating CloudTrail configuration...
CloudTrail configuration:
    {
        "trailList": [
            {
                "IncludeGlobalServiceEvents": true,
                "Name": "Trail1",
                "TrailARN": "arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1",
                "LogFileValidationEnabled": false,
                "IsMultiRegionTrail": false,
                "S3BucketName": "amzn-s3-demo-bucket",
                "SnsTopicName": "my-topic",
                "HomeRegion": "us-east-1"
            }
        ],
        "ResponseMetadata": {
        "HTTPStatusCode": 200,
        "RequestId": "f39e51f6-c615-11e5-85bd-d35ca21ee3e2"
        }
    }
Starting CloudTrail service...
Logs will be delivered to my-bucket
```
+  Untuk detail API, lihat [CreateSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/create-subscription.html)di *Referensi AWS CLI Perintah*. 

### `create-trail`
<a name="cloudtrail_CreateTrail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-trail`.

**AWS CLI**  
**Untuk membuat jejak**  
`create-trail`Contoh berikut membuat jejak multi-wilayah bernama `Trail1` dan menentukan bucket S3.  

```
aws cloudtrail create-trail \
    --name Trail1 \
    --s3-bucket-name amzn-s3-demo-bucket \
    --is-multi-region-trail
```
Output:  

```
{
    "IncludeGlobalServiceEvents": true,
    "Name": "Trail1",
    "TrailARN": "arn:aws:cloudtrail:us-west-2:123456789012:trail/Trail1",
    "LogFileValidationEnabled": false,
    "IsMultiRegionTrail": true,
    "S3BucketName": "amzn-s3-demo-bucket"
}
```
+  Untuk detail API, lihat [CreateTrail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/create-trail.html)di *Referensi AWS CLI Perintah*. 

### `delete-trail`
<a name="cloudtrail_DeleteTrail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-trail`.

**AWS CLI**  
**Untuk menghapus jejak**  
`delete-trail`Perintah berikut menghapus jejak bernama`Trail1`:  

```
aws cloudtrail delete-trail --name Trail1
```
+  Untuk detail API, lihat [DeleteTrail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/delete-trail.html)di *Referensi AWS CLI Perintah*. 

### `describe-trails`
<a name="cloudtrail_DescribeTrails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-trails`.

**AWS CLI**  
**Untuk menggambarkan jejak**  
`describe-trails`Contoh berikut mengembalikan pengaturan untuk `Trail1` dan`Trail2`.  

```
aws cloudtrail describe-trails \
    --trail-name-list Trail1 Trail2
```
Output:  

```
{
    "trailList": [
        {
            "IncludeGlobalServiceEvents": true,
            "Name": "Trail1",
            "TrailARN": "arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1",
            "LogFileValidationEnabled": false,
            "IsMultiRegionTrail": false,
            "S3BucketName": "amzn-s3-demo-bucket",
            "CloudWatchLogsRoleArn": "arn:aws:iam::123456789012:role/CloudTrail_CloudWatchLogs_Role",
            "CloudWatchLogsLogGroupArn": "arn:aws:logs:us-east-1:123456789012:log-group:CloudTrail:*",
            "SnsTopicName": "my-topic",
            "HomeRegion": "us-east-1"
        },
        {
            "IncludeGlobalServiceEvents": true,
            "Name": "Trail2",
            "S3KeyPrefix": "my-prefix",
            "TrailARN": "arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail2",
            "LogFileValidationEnabled": false,
            "IsMultiRegionTrail": false,
            "S3BucketName": "amzn-s3-demo-bucket2",
            "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/4c5ae5ac-3c13-421e-8335-c7868ef6a769",
            "HomeRegion": "us-east-1"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeTrails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/describe-trails.html)di *Referensi AWS CLI Perintah*. 

### `get-event-selectors`
<a name="cloudtrail_GetEventSelectors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-event-selectors`.

**AWS CLI**  
**Untuk melihat setelan pemilih acara untuk jejak**  
`get-event-selectors`Perintah berikut mengembalikan pengaturan untuk`Trail1`:  

```
aws cloudtrail get-event-selectors --trail-name Trail1
```
Output:  

```
{
  "EventSelectors": [
      {
          "IncludeManagementEvents": true,
          "DataResources": [],
          "ReadWriteType": "All"
      }
  ],
  "TrailARN": "arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1"
}
```
+  Untuk detail API, lihat [GetEventSelectors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/get-event-selectors.html)di *Referensi AWS CLI Perintah*. 

### `get-trail-status`
<a name="cloudtrail_GetTrailStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-trail-status`.

**AWS CLI**  
**Untuk mendapatkan status jejak**  
`get-trail-status`Perintah berikut mengembalikan detail pengiriman dan pencatatan untuk`Trail1`:  

```
aws cloudtrail get-trail-status --name Trail1
```
Output:  

```
{
  "LatestNotificationTime": 1454022144.869,
  "LatestNotificationAttemptSucceeded": "2016-01-28T23:02:24Z",
  "LatestDeliveryAttemptTime": "2016-01-28T23:02:24Z",
  "LatestDeliveryTime": 1454022144.869,
  "TimeLoggingStarted": "2015-11-06T18:36:38Z",
  "LatestDeliveryAttemptSucceeded": "2016-01-28T23:02:24Z",
  "IsLogging": true,
  "LatestCloudWatchLogsDeliveryTime": 1454022144.918,
  "StartLoggingTime": 1446834998.695,
  "StopLoggingTime": 1446834996.933,
  "LatestNotificationAttemptTime": "2016-01-28T23:02:24Z",
  "TimeLoggingStopped": "2015-11-06T18:36:36Z"
}
```
+  Untuk detail API, lihat [GetTrailStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/get-trail-status.html)di *Referensi AWS CLI Perintah*. 

### `list-public-keys`
<a name="cloudtrail_ListPublicKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-public-keys`.

**AWS CLI**  
**Untuk membuat daftar semua kunci publik untuk jejak**  
`list-public-keys`Perintah berikut mengembalikan semua kunci publik yang kunci pribadinya digunakan untuk menandatangani file intisari dalam rentang waktu yang ditentukan:  

```
aws cloudtrail list-public-keys --start-time 2016-01-01T20:30:00.000Z
```
Output:  

```
{
  "PublicKeyList": [
      {
         "ValidityStartTime": 1453076702.0,
         "ValidityEndTime": 1455668702.0,
         "Value": "MIIBCgKCAQEAlSS3cl92HDycr/MTj0moOhas8habjrraXw+KzlWF0axSI2tcF+3iJ9BKQAVSKxGwxwu3m0wG3J+kUl1xboEcEPHYoIYMbgfSw7KGnuDKwkLzsQWhUJ0cIbOHASox1vv/5fNXkrHhGbDCHeVXm804c83nvHUEFYThr1PfyP/8HwrCtR3FX5OANtQCP61C1nJtSSkC8JSQUOrIP4CuwJjc+4WGDk+BGH5m9iuiAKkipEHWmUl8/P7XpfpWQuk4h8g3pXZOrNXr08lbh4d39svj7UqdhvOXoBISp9t/EXYuePGEtBdrKD9Dz+VHwyUPtBQvYr9BnkF88qBnaPNhS44rzwIDAQAB",
         "Fingerprint": "7f3f401420072e50a65a141430817ab3"
     }
  ]
}
```
+  Untuk detail API, lihat [ListPublicKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/list-public-keys.html)di *Referensi AWS CLI Perintah*. 

### `list-tags`
<a name="cloudtrail_ListTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags`.

**AWS CLI**  
**Untuk membuat daftar tag untuk jejak**  
`list-tags`Perintah berikut mencantumkan tag untuk `Trail1` dan`Trail2`:  

```
aws cloudtrail list-tags --resource-id-list arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1 arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail2
```
Output:  

```
{
 "ResourceTagList": [
     {
         "ResourceId": "arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1",
         "TagsList": [
             {
                 "Value": "Alice",
                 "Key": "name"
             },
             {
                 "Value": "us",
                 "Key": "location"
             }
         ]
     },
     {
         "ResourceId": "arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail2",
         "TagsList": [
             {
                 "Value": "Bob",
                 "Key": "name"
             }
         ]
     }
  ]
}
```
+  Untuk detail API, lihat [ListTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/list-tags.html)di *Referensi AWS CLI Perintah*. 

### `lookup-events`
<a name="cloudtrail_LookupEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`lookup-events`.

**AWS CLI**  
**Untuk mencari acara untuk jejak**  
`lookup-events`Perintah berikut mencari peristiwa aktivitas API berdasarkan atribut`EventName`:  

```
aws cloudtrail lookup-events --lookup-attributes AttributeKey=EventName,AttributeValue=ConsoleLogin
```
Output:  

```
{
  "Events": [
     {
         "EventId": "654ccbc0-ba0d-486a-9076-dbf7274677a7",
         "Username": "my-session-name",
         "EventTime": "2021-11-18T09:41:02-08:00",
         "CloudTrailEvent": "{\"eventVersion\":\"1.02\",\"userIdentity\":{\"type\":\"AssumedRole\",\"principalId\":\"AROAJIKPFTA72SWU4L7T4:my-session-name\",\"arn\":\"arn:aws:sts::123456789012:assumed-role/my-role/my-session-name\",\"accountId\":\"123456789012\",\"sessionContext\":{\"attributes\":{\"mfaAuthenticated\":\"false\",\"creationDate\":\"2016-01-26T21:42:12Z\"},\"sessionIssuer\":{\"type\":\"Role\",\"principalId\":\"AROAJIKPFTA72SWU4L7T4\",\"arn\":\"arn:aws:iam::123456789012:role/my-role\",\"accountId\":\"123456789012\",\"userName\":\"my-role\"}}},\"eventTime\":\"2016-01-26T21:42:12Z\",\"eventSource\":\"signin.amazonaws.com\",\"eventName\":\"ConsoleLogin\",\"awsRegion\":\"us-east-1\",\"sourceIPAddress\":\"72.21.198.70\",\"userAgent\":\"Mozilla/5.0 (Macintosh; Intel Mac OS X 10_9_5) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/47.0.2526.111 Safari/537.36\",\"requestParameters\":null,\"responseElements\":{\"ConsoleLogin\":\"Success\"},\"additionalEventData\":{\"MobileVersion\":\"No\",\"MFAUsed\":\"No\"},\"eventID\":\"654ccbc0-ba0d-486a-9076-dbf7274677a7\",\"eventType\":\"AwsConsoleSignIn\",\"recipientAccountId\":\"123456789012\"}",
         "EventName": "ConsoleLogin",
         "Resources": []
     }
  ]
}
```
+  Untuk detail API, lihat [LookupEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/lookup-events.html)di *Referensi AWS CLI Perintah*. 

### `put-event-selectors`
<a name="cloudtrail_PutEventSelectors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-event-selectors`.

**AWS CLI**  
**Contoh 1: Konfigurasikan jejak untuk mencatat peristiwa manajemen dan peristiwa data dengan menggunakan pemilih acara lanjutan**  
Anda dapat menambahkan pemilih acara lanjutan, dan kondisi untuk pemilih acara lanjutan Anda, hingga maksimum 500 nilai untuk semua kondisi dan penyeleksi di jalur. Anda dapat menggunakan pemilih acara lanjutan untuk mencatat semua jenis peristiwa data yang tersedia. Anda dapat menggunakan penyeleksi acara tingkat lanjut atau pemilih acara dasar, tetapi tidak keduanya. Jika Anda menerapkan penyeleksi acara lanjutan ke jejak, pemilih acara dasar apa pun yang ada akan ditimpa.  
`put-event-selectors`Contoh berikut membuat pemilih peristiwa lanjutan untuk jejak bernama `myTrail` untuk mencatat semua peristiwa manajemen, mencatat panggilan S3 PutObject dan DeleteObject API untuk semua kecuali satu bucket S3, panggilan API data log untuk fungsi Lambda bernama`myFunction`, dan log Publish API panggilan pada topik SNS bernama. `myTopic`  

```
aws cloudtrail put-event-selectors \
    --trail-name myTrail \
    --advanced-event-selectors '[{"Name": "Log all management events", "FieldSelectors": [{ "Field": "eventCategory", "Equals": ["Management"] }] },{"Name": "Log PutObject and DeleteObject events for all but one bucket","FieldSelectors": [{ "Field": "eventCategory", "Equals": ["Data"] },{ "Field": "resources.type", "Equals": ["AWS::S3::Object"] },{ "Field": "eventName", "Equals": ["PutObject","DeleteObject"] },{ "Field": "resources.ARN", "NotStartsWith": ["arn:aws:s3:::amzn-s3-demo-bucket/"] }]},{"Name": "Log data events for a specific Lambda function","FieldSelectors": [{ "Field": "eventCategory", "Equals": ["Data"] },{ "Field": "resources.type", "Equals": ["AWS::Lambda::Function"] },{ "Field": "resources.ARN", "Equals": ["arn:aws:lambda:us-east-1:123456789012:function:myFunction"] }]},{"Name": "Log all Publish API calls on a specific SNS topic","FieldSelectors": [{ "Field": "eventCategory", "Equals": ["Data"] },{ "Field": "resources.type", "Equals": ["AWS::SNS::Topic"] },{ "Field": "eventName", "Equals": ["Publish"] },{ "Field": "resources.ARN", "Equals": ["arn:aws:sns:us-east-1:123456789012:myTopic.fifo"] }]}]'
```
Output:  

```
{
    "TrailARN": "arn:aws:cloudtrail:us-east-1:123456789012:trail/myTrail",
    "AdvancedEventSelectors": [
        {
            "Name": "Log all management events",
            "FieldSelectors": [
                {
                    "Field": "eventCategory",
                    "Equals": [
                        "Management"
                    ]
                }
            ]
        },
        {
            "Name": "Log PutObject and DeleteObject events for all but one bucket",
            "FieldSelectors": [
                {
                    "Field": "eventCategory",
                    "Equals": [
                        "Data"
                    ]
                },
                {
                    "Field": "resources.type",
                    "Equals": [
                        "AWS::S3::Object"
                    ]
                },
                {
                    "Field": "eventName",
                    "Equals": [
                        "PutObject",
                        "DeleteObject"
                    ]
                },
                {
                    "Field": "resources.ARN",
                    "NotStartsWith": [
                        "arn:aws:s3:::amzn-s3-demo-bucket/"
                    ]
                }
            ]
        },
        {
            "Name": "Log data events for a specific Lambda function",
            "FieldSelectors": [
                {
                    "Field": "eventCategory",
                    "Equals": [
                        "Data"
                    ]
                },
                {
                    "Field": "resources.type",
                    "Equals": [
                        "AWS::Lambda::Function"
                    ]
                },
                {
                    "Field": "resources.ARN",
                    "Equals": [
                        "arn:aws:lambda:us-east-1:123456789012:function:myFunction"
                    ]
                }
            ]
        },
        {
            "Name": "Log all Publish API calls on a specific SNS topic",
            "FieldSelectors": [
                {
                    "Field": "eventCategory",
                    "Equals": [
                        "Data"
                    ]
                },
                {
                    "Field": "resources.type",
                    "Equals": [
                        "AWS::SNS::Topic"
                    ]
                },
                {
                    "Field": "eventName",
                    "Equals": [
                        "Publish"
                    ]
                },
                {
                    "Field": "resources.ARN",
                    "Equals": [
                        "arn:aws:sns:us-east-1:123456789012:myTopic.fifo"
                    ]
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Log peristiwa menggunakan pemilih peristiwa lanjutan](https://docs.aws.amazon.com/awscloudtrail/latest/userguide/logging-data-events-with-cloudtrail.html#creating-data-event-selectors-advanced) di *Panduan AWS CloudTrail Pengguna*.  
**Contoh 2: Konfigurasikan penyeleksi acara untuk jejak untuk mencatat semua peristiwa manajemen dan peristiwa data**  
Anda dapat mengonfigurasi hingga 5 penyeleksi acara untuk jejak dan hingga 250 sumber daya data untuk jejak. Penyeleksi acara juga disebut sebagai pemilih acara dasar. Anda dapat menggunakan pemilih peristiwa untuk mencatat peristiwa manajemen dan peristiwa data untuk objek S3, fungsi Lambda, dan tabel DynnamoDB. Untuk mencatat peristiwa data untuk jenis sumber daya lainnya, Anda harus menggunakan pemilih acara lanjutan.  
`put-event-selectors`Contoh berikut membuat pemilih peristiwa untuk jejak bernama `TrailName` untuk menyertakan semua peristiwa manajemen, peristiwa data untuk dua kombinasi Amazon bucket/prefix S3, dan peristiwa data untuk satu fungsi AWS Lambda bernama. `hello-world-python-function`  

```
aws cloudtrail put-event-selectors \
    --trail-name TrailName \
    --event-selectors '[{"ReadWriteType": "All","IncludeManagementEvents": true,"DataResources": [{"Type":"AWS::S3::Object", "Values": ["arn:aws:s3:::amzn-s3-demo-bucket/prefix","arn:aws:s3:::amzn-s3-demo-bucket2/prefix2"]},{"Type": "AWS::Lambda::Function","Values": ["arn:aws:lambda:us-west-2:999999999999:function:hello-world-python-function"]}]}]'
```
Output:  

```
{
    "EventSelectors": [
        {
            "IncludeManagementEvents": true,
            "DataResources": [
                {
                    "Values": [
                        "arn:aws:s3:::amzn-s3-demo-bucket/prefix",
                        "arn:aws:s3:::amzn-s3-demo-bucket2/prefix2"
                    ],
                    "Type": "AWS::S3::Object"
                },
                {
                    "Values": [
                        "arn:aws:lambda:us-west-2:123456789012:function:hello-world-python-function"
                    ],
                    "Type": "AWS::Lambda::Function"
                },
            ],
            "ReadWriteType": "All"
        }
    ],
    "TrailARN": "arn:aws:cloudtrail:us-east-2:123456789012:trail/TrailName"
}
```
Untuk informasi selengkapnya, lihat [Log peristiwa menggunakan pemilih acara dasar](https://docs.aws.amazon.com/awscloudtrail/latest/userguide/logging-data-events-with-cloudtrail.html#creating-data-event-selectors-basic) di *Panduan AWS CloudTrail Pengguna*.  
**Contoh 3: Konfigurasikan penyeleksi peristiwa untuk jejak untuk mencatat peristiwa manajemen, semua peristiwa data S3 pada objek S3, dan semua peristiwa data Lambda pada fungsi di akun Anda**  
`put-event-selectors`Contoh berikut membuat pemilih peristiwa untuk jejak bernama `TrailName2` yang mencakup semua peristiwa manajemen, dan semua peristiwa data untuk semua bucket Amazon S3 AWS dan fungsi Lambda di akun. AWS   

```
aws cloudtrail put-event-selectors \
    --trail-name TrailName2 \
    --event-selectors '[{"ReadWriteType": "All","IncludeManagementEvents": true,"DataResources": [{"Type":"AWS::S3::Object", "Values": ["arn:aws:s3"]},{"Type": "AWS::Lambda::Function","Values": ["arn:aws:lambda"]}]}]'
```
Output:  

```
{
    "EventSelectors": [
        {
            "IncludeManagementEvents": true,
            "DataResources": [
                {
                    "Values": [
                        "arn:aws:s3"
                    ],
                    "Type": "AWS::S3::Object"
                },
                {
                    "Values": [
                        "arn:aws:lambda"
                    ],
                    "Type": "AWS::Lambda::Function"
                },
            ],
            "ReadWriteType": "All"
        }
    ],
    "TrailARN": "arn:aws:cloudtrail:us-east-2:123456789012:trail/TrailName2"
}
```
Untuk informasi selengkapnya, lihat [Log peristiwa menggunakan pemilih acara dasar](https://docs.aws.amazon.com/awscloudtrail/latest/userguide/logging-data-events-with-cloudtrail.html#creating-data-event-selectors-basic) di *Panduan AWS CloudTrail Pengguna*.  
+  Untuk detail API, lihat [PutEventSelectors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/put-event-selectors.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags`
<a name="cloudtrail_RemoveTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags`.

**AWS CLI**  
**Untuk menghapus tag untuk jejak**  
`remove-tags`Perintah berikut menghapus tag yang ditentukan untuk`Trail1`:  

```
aws cloudtrail remove-tags --resource-id arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1 --tags-list Key=name Key=location
```
+  Untuk detail API, lihat [RemoveTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/remove-tags.html)di *Referensi AWS CLI Perintah*. 

### `start-logging`
<a name="cloudtrail_StartLogging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-logging`.

**AWS CLI**  
**Untuk memulai pencatatan untuk jejak**  
`start-logging`Perintah berikut mengaktifkan logging untuk`Trail1`:  

```
aws cloudtrail start-logging --name Trail1
```
+  Untuk detail API, lihat [StartLogging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/start-logging.html)di *Referensi AWS CLI Perintah*. 

### `stop-logging`
<a name="cloudtrail_StopLogging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-logging`.

**AWS CLI**  
**Untuk berhenti mencatat jejak**  
`stop-logging`Perintah berikut mematikan logging untuk`Trail1`:  

```
aws cloudtrail stop-logging --name Trail1
```
+  Untuk detail API, lihat [StopLogging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/stop-logging.html)di *Referensi AWS CLI Perintah*. 

### `update-subscription`
<a name="cloudtrail_UpdateSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-subscription`.

**AWS CLI**  
**Untuk memperbarui pengaturan konfigurasi untuk jejak**  
`update-subscription`Contoh berikut memperbarui jejak untuk menentukan bucket S3 baru dan topik SNS.  

```
aws cloudtrail update-subscription \
    --name Trail1 \
    --s3-new-bucket amzn-s3-demo-bucket \
    --sns-new-topic my-topic-new
```
Output:  

```
Setting up new S3 bucket amzn-s3-demo-bucket...
Setting up new SNS topic my-topic-new...
Creating/updating CloudTrail configuration...
CloudTrail configuration:
{
    "trailList": [
        {
            "IncludeGlobalServiceEvents": true,
            "Name": "Trail1",
            "TrailARN": "arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1",
            "LogFileValidationEnabled": false,
            "IsMultiRegionTrail": false,
            "S3BucketName": "amzn-s3-demo-bucket",
            "SnsTopicName": "my-topic-new",
            "HomeRegion": "us-east-1"
        }
    ],
    "ResponseMetadata": {
        "HTTPStatusCode": 200,
        "RequestId": "31126f8a-c616-11e5-9cc6-2fd637936879"
    }
}
```
+  Untuk detail API, lihat [UpdateSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/update-subscription.html)di *Referensi AWS CLI Perintah*. 

### `update-trail`
<a name="cloudtrail_UpdateTrail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-trail`.

**AWS CLI**  
**Untuk memperbarui jejak**  
`update-trail`Contoh berikut memperbarui jejak untuk menggunakan bucket yang ada untuk pengiriman log.  

```
aws cloudtrail update-trail \
    --name Trail1 \
    --s3-bucket-name amzn-s3-demo-bucket
```
Output:  

```
{
    "IncludeGlobalServiceEvents": true,
    "Name": "Trail1",
    "TrailARN": "arn:aws:cloudtrail:us-west-2:123456789012:trail/Trail1",
    "LogFileValidationEnabled": false,
    "IsMultiRegionTrail": true,
    "S3BucketName": "amzn-s3-demo-bucket"
}
```
+  Untuk detail API, lihat [UpdateTrail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/update-trail.html)di *Referensi AWS CLI Perintah*. 

### `validate-logs`
<a name="cloudtrail_ValidateLogs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`validate-logs`.

**AWS CLI**  
**Untuk memvalidasi file log**  
`validate-logs`Perintah berikut memvalidasi log untuk`Trail1`:  

```
aws cloudtrail validate-logs --trail-arn arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1 --start-time 20160129T19:00:00Z
```
Output:  

```
Validating log files for trail arn:aws:cloudtrail:us-east-1:123456789012:trail/Trail1 between 2016-01-29T19:00:00Z and 2016-01-29T22:15:43Z
Results requested for 2016-01-29T19:00:00Z to 2016-01-29T22:15:43Z
Results found for 2016-01-29T19:24:57Z to 2016-01-29T21:24:57Z:
3/3 digest files valid
15/15 log files valid
```
+  Untuk detail API, lihat [ValidateLogs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudtrail/validate-logs.html)di *Referensi AWS CLI Perintah*. 

# CloudWatch contoh menggunakan AWS CLI
<a name="cli_2_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CloudWatch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-alarms`
<a name="cloudwatch_DeleteAlarms_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-alarms`.

**AWS CLI**  
**Cara menghapus sebuah alarm**  
Contoh berikut menggunakan `delete-alarms` perintah untuk menghapus CloudWatch alarm Amazon bernama “myalarm”:  

```
aws cloudwatch delete-alarms --alarm-names myalarm
```
Output:  

```
This command returns to the prompt if successful.
```
+  Untuk detail API, lihat [DeleteAlarms](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/delete-alarms.html)di *Referensi AWS CLI Perintah*. 

### `delete-anomaly-detector`
<a name="cloudwatch_DeleteAnomalyDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-anomaly-detector`.

**AWS CLI**  
**Untuk menghapus model deteksi anomali tertentu**  
`delete-anomaly-detector`Contoh berikut menghapus model detektor anomali di akun yang ditentukan.  

```
aws cloudwatch delete-anomaly-detector \
    --namespace AWS/Logs \
    --metric-name IncomingBytes \
    --stat SampleCount
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus model deteksi anomali di Panduan](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/Create_Anomaly_Detection_Alarm.html#Delete_Anomaly_Detection_Model) Pengguna *Amazon CloudWatch *.  
+  Untuk detail API, lihat [DeleteAnomalyDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/delete-anomaly-detector.html)di *Referensi AWS CLI Perintah*. 

### `delete-dashboards`
<a name="cloudwatch_DeleteDashboards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-dashboards`.

**AWS CLI**  
**Untuk menghapus dasbor yang ditentukan**  
`delete-dashboards`Contoh berikut menghapus dua dasbor bernama `Dashboard-A` dan `Dashboard-B` di akun yang ditentukan.  

```
aws cloudwatch delete-dashboards \
    --dashboard-names Dashboard-A Dashboard-B
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ CloudWatch dasbor Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Dashboards.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteDashboards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/delete-dashboards.html)di *Referensi AWS CLI Perintah*. 

### `delete-insight-rules`
<a name="cloudwatch_DeleteInsightRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-insight-rules`.

**AWS CLI**  
**Untuk menghapus aturan wawasan kontributor yang ditentukan**  
`delete-insight-rules`Contoh berikut menghapus dua aturan insight kontributor bernama `Rule-A` dan `Rule-B` di akun yang ditentukan.  

```
aws cloudwatch delete-insight-rules \
    --rule-names Rule-A Rule-B
```
Output:  

```
{
    "Failures": []
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan Wawasan Kontributor untuk menganalisis data kardinalitas tinggi di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/ContributorInsights.html). CloudWatch *  
+  Untuk detail API, lihat [DeleteInsightRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/delete-insight-rules.html)di *Referensi AWS CLI Perintah*. 

### `delete-metric-stream`
<a name="cloudwatch_DeleteMetricStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-metric-stream`.

**AWS CLI**  
**Untuk menghapus aliran metrik tertentu**  
`delete-metric-stream`Contoh berikut menghapus aliran metrik bernama `QuickPartial-gSCKvO` di akun yang ditentukan.  

```
aws cloudwatch delete-metric-stream \
    --name QuickPartial-gSCKvO
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan aliran metrik](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Metric-Streams.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteMetricStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/delete-metric-stream.html)di *Referensi AWS CLI Perintah*. 

### `describe-alarm-history`
<a name="cloudwatch_DescribeAlarmHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-alarm-history`.

**AWS CLI**  
**Cara mengambil riwayat untuk sebuah alarm**  
Contoh berikut menggunakan `describe-alarm-history` perintah untuk mengambil riwayat untuk CloudWatch alarm Amazon bernama “myalarm”:  

```
aws cloudwatch describe-alarm-history --alarm-name "myalarm" --history-item-type StateUpdate
```
Output:  

```
{
    "AlarmHistoryItems": [
        {
            "Timestamp": "2014-04-09T18:59:06.442Z",
            "HistoryItemType": "StateUpdate",
            "AlarmName": "myalarm",
            "HistoryData": "{\"version\":\"1.0\",\"oldState\":{\"stateValue\":\"ALARM\",\"stateReason\":\"testing purposes\"},\"newState\":{\"stateValue\":\"OK\",\"stateReason\":\"Threshold Crossed: 2 datapoints were not greater than the threshold (70.0). The most recent datapoints: [38.958, 40.292].\",\"stateReasonData\":{\"version\":\"1.0\",\"queryDate\":\"2014-04-09T18:59:06.419+0000\",\"startDate\":\"2014-04-09T18:44:00.000+0000\",\"statistic\":\"Average\",\"period\":300,\"recentDatapoints\":[38.958,40.292],\"threshold\":70.0}}}",
            "HistorySummary": "Alarm updated from ALARM to OK"
        },
        {
            "Timestamp": "2014-04-09T18:59:05.805Z",
            "HistoryItemType": "StateUpdate",
            "AlarmName": "myalarm",
            "HistoryData": "{\"version\":\"1.0\",\"oldState\":{\"stateValue\":\"OK\",\"stateReason\":\"Threshold Crossed: 2 datapoints were not greater than the threshold (70.0). The most recent datapoints: [38.839999999999996, 39.714].\",\"stateReasonData\":{\"version\":\"1.0\",\"queryDate\":\"2014-03-11T22:45:41.569+0000\",\"startDate\":\"2014-03-11T22:30:00.000+0000\",\"statistic\":\"Average\",\"period\":300,\"recentDatapoints\":[38.839999999999996,39.714],\"threshold\":70.0}},\"newState\":{\"stateValue\":\"ALARM\",\"stateReason\":\"testing purposes\"}}",
            "HistorySummary": "Alarm updated from OK to ALARM"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAlarmHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/describe-alarm-history.html)di *Referensi AWS CLI Perintah*. 

### `describe-alarms-for-metric`
<a name="cloudwatch_DescribeAlarmsForMetric_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-alarms-for-metric`.

**AWS CLI**  
**Untuk menampilkan informasi tentang alarm-alarm yang terkait dengan sebuah metrik**  
Contoh berikut menggunakan `describe-alarms-for-metric` perintah untuk menampilkan informasi tentang alarm apa pun yang terkait dengan metrik Amazon CPUUtilization EC2 dan instance dengan ID i-0c986c72. :  

```
aws cloudwatch describe-alarms-for-metric --metric-name CPUUtilization --namespace AWS/EC2 --dimensions Name=InstanceId,Value=i-0c986c72
```
Output:  

```
{
    "MetricAlarms": [
        {
            "EvaluationPeriods": 10,
            "AlarmArn": "arn:aws:cloudwatch:us-east-1:111122223333:alarm:myHighCpuAlarm2",
            "StateUpdatedTimestamp": "2013-10-30T03:03:51.479Z",
            "AlarmConfigurationUpdatedTimestamp": "2013-10-30T03:03:50.865Z",
            "ComparisonOperator": "GreaterThanOrEqualToThreshold",
            "AlarmActions": [
                "arn:aws:sns:us-east-1:111122223333:NotifyMe"
            ],
            "Namespace": "AWS/EC2",
            "AlarmDescription": "CPU usage exceeds 70 percent",
            "StateReasonData": "{\"version\":\"1.0\",\"queryDate\":\"2013-10-30T03:03:51.479+0000\",\"startDate\":\"2013-10-30T02:08:00.000+0000\",\"statistic\":\"Average\",\"period\":300,\"recentDatapoints\":[40.698,39.612,42.432,39.796,38.816,42.28,42.854,40.088,40.760000000000005,41.316],\"threshold\":70.0}",
            "Period": 300,
            "StateValue": "OK",
            "Threshold": 70.0,
            "AlarmName": "myHighCpuAlarm2",
            "Dimensions": [
                {
                    "Name": "InstanceId",
                    "Value": "i-0c986c72"
                }
            ],
            "Statistic": "Average",
            "StateReason": "Threshold Crossed: 10 datapoints were not greater than or equal to the threshold (70.0). The most recent datapoints: [40.760000000000005, 41.316].",
            "InsufficientDataActions": [],
            "OKActions": [],
            "ActionsEnabled": true,
            "MetricName": "CPUUtilization"
        },
        {
            "EvaluationPeriods": 2,
            "AlarmArn": "arn:aws:cloudwatch:us-east-1:111122223333:alarm:myHighCpuAlarm",
            "StateUpdatedTimestamp": "2014-04-09T18:59:06.442Z",
            "AlarmConfigurationUpdatedTimestamp": "2014-04-09T22:26:05.958Z",
            "ComparisonOperator": "GreaterThanThreshold",
            "AlarmActions": [
                "arn:aws:sns:us-east-1:111122223333:HighCPUAlarm"
            ],
            "Namespace": "AWS/EC2",
            "AlarmDescription": "CPU usage exceeds 70 percent",
            "StateReasonData": "{\"version\":\"1.0\",\"queryDate\":\"2014-04-09T18:59:06.419+0000\",\"startDate\":\"2014-04-09T18:44:00.000+0000\",\"statistic\":\"Average\",\"period\":300,\"recentDatapoints\":[38.958,40.292],\"threshold\":70.0}",
            "Period": 300,
            "StateValue": "OK",
            "Threshold": 70.0,
            "AlarmName": "myHighCpuAlarm",
            "Dimensions": [
                {
                    "Name": "InstanceId",
                    "Value": "i-0c986c72"
                }
            ],
            "Statistic": "Average",
            "StateReason": "Threshold Crossed: 2 datapoints were not greater than the threshold (70.0). The most recent datapoints: [38.958, 40.292].",
            "InsufficientDataActions": [],
            "OKActions": [],
            "ActionsEnabled": false,
            "MetricName": "CPUUtilization"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/describe-alarms-for-metric.html)di *Referensi AWS CLI Perintah*. 

### `describe-alarms`
<a name="cloudwatch_DescribeAlarms_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-alarms`.

**AWS CLI**  
**Cara membuat daftar informasi tentang sebuah alarm**  
Contoh berikut menggunakan perintah `describe-alarms` untuk memberikan informasi tentang alarm yang bernama "myalarm":  

```
aws cloudwatch describe-alarms --alarm-names "myalarm"
```
Output:  

```
{
    "MetricAlarms": [
        {
            "EvaluationPeriods": 2,
            "AlarmArn": "arn:aws:cloudwatch:us-east-1:123456789012:alarm:myalarm",
            "StateUpdatedTimestamp": "2014-04-09T18:59:06.442Z",
            "AlarmConfigurationUpdatedTimestamp": "2012-12-27T00:49:54.032Z",
            "ComparisonOperator": "GreaterThanThreshold",
            "AlarmActions": [
                "arn:aws:sns:us-east-1:123456789012:myHighCpuAlarm"
            ],
            "Namespace": "AWS/EC2",
            "AlarmDescription": "CPU usage exceeds 70 percent",
            "StateReasonData": "{\"version\":\"1.0\",\"queryDate\":\"2014-04-09T18:59:06.419+0000\",\"startDate\":\"2014-04-09T18:44:00.000+0000\",\"statistic\":\"Average\",\"period\":300,\"recentDatapoints\":[38.958,40.292],\"threshold\":70.0}",
            "Period": 300,
            "StateValue": "OK",
            "Threshold": 70.0,
            "AlarmName": "myalarm",
            "Dimensions": [
                {
                    "Name": "InstanceId",
                    "Value": "i-0c986c72"
                }
            ],
            "Statistic": "Average",
            "StateReason": "Threshold Crossed: 2 datapoints were not greater than the threshold (70.0). The most recent datapoints: [38.958, 40.292].",
            "InsufficientDataActions": [],
            "OKActions": [],
            "ActionsEnabled": true,
            "MetricName": "CPUUtilization"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAlarms](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/describe-alarms.html)di *Referensi AWS CLI Perintah*. 

### `describe-anomaly-detectors`
<a name="cloudwatch_DescribeAnomalyDetectors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-anomaly-detectors`.

**AWS CLI**  
**Untuk mengambil daftar model deteksi anomali**  
`describe-anomaly-detectors`Contoh berikut menampilkan informasi tentang model detektor anomali yang terkait dengan `AWS/Logs` namespace di akun yang ditentukan.  

```
aws cloudwatch describe-anomaly-detectors \
    --namespace AWS/Logs
```
Output:  

```
{
    "AnomalyDetectors": [
        {
            "Namespace": "AWS/Logs",
            "MetricName": "IncomingBytes",
            "Dimensions": [],
            "Stat": "SampleCount",
            "Configuration": {
                "ExcludedTimeRanges": []
            },
            "StateValue": "TRAINED",
            "SingleMetricAnomalyDetector": {
                "AccountId": "123456789012",
                "Namespace": "AWS/Logs",
                "MetricName": "IncomingBytes",
                "Dimensions": [],
                "Stat": "SampleCount"
            }
        },
        {
            "Namespace": "AWS/Logs",
            "MetricName": "IncomingBytes",
            "Dimensions": [
                {
                    "Name": "LogGroupName",
                    "Value": "demo"
                }
            ],
            "Stat": "Average",
            "Configuration": {
                "ExcludedTimeRanges": []
            },
            "StateValue": "PENDING_TRAINING",
            "SingleMetricAnomalyDetector": {
                "AccountId": "123456789012",
                "Namespace": "AWS/Logs",
                "MetricName": "IncomingBytes",
                "Dimensions": [
                    {
                        "Name": "LogGroupName",
                        "Value": "demo"
                    }
                ],
                "Stat": "Average"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan deteksi CloudWatch anomali](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Anomaly_Detection.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [DescribeAnomalyDetectors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/describe-anomaly-detectors.html)di *Referensi AWS CLI Perintah*. 

### `describe-insight-rules`
<a name="cloudwatch_DescribeInsightRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-insight-rules`.

**AWS CLI**  
**Untuk mengambil daftar aturan Contributor Insights**  
`describe-insight-rules`Contoh berikut menunjukkan semua aturan Contributor Insight di akun yang ditentukan.  

```
aws cloudwatch describe-insight-rules
```
Output:  

```
{
    "InsightRules": [
        {
            "Name": "Rule-A",
            "State": "ENABLED",
            "Schema": "CloudWatchLogRule/1",
            "Definition": "{\n\t\"AggregateOn\": \"Count\",\n\t\"Contribution\": {\n\t\t\"Filters\": [],\n\t\t\"Keys\": [\n\t\t\t\"$.requestId\"\n\t\t]\n\t},\n\t\"LogFormat\": \"JSON\",\n\t\"Schema\": {\n\t\t\"Name\": \"CloudWatchLogRule\",\n\t\t\"Version\": 1\n\t},\n\t\"LogGroupARNs\": [\n\t\t\"arn:aws:logs:us-east-1:123456789012:log-group:demo\"\n\t]\n}",
            "ManagedRule": false
        },
        {
            "Name": "Rule-B",
            "State": "ENABLED",
            "Schema": "CloudWatchLogRule/1",
            "Definition": "{\n\t\"AggregateOn\": \"Count\",\n\t\"Contribution\": {\n\t\t\"Filters\": [],\n\t\t\"Keys\": [\n\t\t\t\"$.requestId\"\n\t\t]\n\t},\n\t\"LogFormat\": \"JSON\",\n\t\"Schema\": {\n\t\t\"Name\": \"CloudWatchLogRule\",\n\t\t\"Version\": 1\n\t},\n\t\"LogGroupARNs\": [\n\t\t\"arn:aws:logs:us-east-1:123456789012:log-group:demo-1\"\n\t]\n}",
            "ManagedRule": false
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan Wawasan Kontributor untuk menganalisis data kardinalitas tinggi di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/ContributorInsights.html). CloudWatch *  
+  Untuk detail API, lihat [DescribeInsightRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/describe-insight-rules.html)di *Referensi AWS CLI Perintah*. 

### `disable-alarm-actions`
<a name="cloudwatch_DisableAlarmActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-alarm-actions`.

**AWS CLI**  
**Cara menonaktifkan tindakan untuk sebuah alarm**  
Contoh berikut menggunakan perintah `disable-alarm-actions` untuk menonaktifkan semua tindakan untuk alarm bernama myalarm.:  

```
aws cloudwatch disable-alarm-actions --alarm-names myalarm
```
Perintah ini akan kembali ke prompt jika berhasil.  
+  Untuk detail API, lihat [DisableAlarmActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/disable-alarm-actions.html)di *Referensi AWS CLI Perintah*. 

### `disable-insight-rules`
<a name="cloudwatch_DisableInsightRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-insight-rules`.

**AWS CLI**  
**Untuk menonaktifkan aturan wawasan kontributor tertentu**  
`disable-insight-rules`Contoh berikut menonaktifkan dua aturan wawasan kontributor bernama `Rule-A` dan `Rule-B` di akun yang ditentukan.  

```
aws cloudwatch disable-insight-rules \
    --rule-names Rule-A Rule-B
```
Output:  

```
{
    "Failures": []
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan Wawasan Kontributor untuk menganalisis data kardinalitas tinggi di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/ContributorInsights.html). CloudWatch *  
+  Untuk detail API, lihat [DisableInsightRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/disable-insight-rules.html)di *Referensi AWS CLI Perintah*. 

### `enable-alarm-actions`
<a name="cloudwatch_EnableAlarmActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-alarm-actions`.

**AWS CLI**  
**Cara mengaktifkan semua tindakan untuk sebuah alarm**  
Contoh berikut menggunakan perintah `enable-alarm-actions` untuk mengaktifkan semua tindakan untuk alarm bernama myalarm.:  

```
aws cloudwatch enable-alarm-actions --alarm-names myalarm
```
Perintah ini akan kembali ke prompt jika berhasil.  
+  Untuk detail API, lihat [EnableAlarmActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/enable-alarm-actions.html)di *Referensi AWS CLI Perintah*. 

### `enable-insight-rules`
<a name="cloudwatch_EnableInsightRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-insight-rules`.

**AWS CLI**  
**Untuk mengaktifkan aturan wawasan kontributor yang ditentukan**  
`enable-insight-rules`Contoh berikut memungkinkan dua aturan wawasan kontributor bernama `Rule-A` dan `Rule-B` di akun yang ditentukan.  

```
aws cloudwatch enable-insight-rules \
    --rule-names Rule-A Rule-B
```
Output:  

```
{
    "Failures": []
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan Wawasan Kontributor untuk menganalisis data kardinalitas tinggi di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/ContributorInsights.html). CloudWatch *  
+  Untuk detail API, lihat [EnableInsightRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/enable-insight-rules.html)di *Referensi AWS CLI Perintah*. 

### `get-dashboard`
<a name="cloudwatch_GetDashboard_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-dashboard`.

**AWS CLI**  
**Untuk mengambil informasi tentang Dashboard**  
`get-dashboard`Contoh berikut menampilkan informasi tentang dasbor bernama `Dashboard-A` dalam akun yang ditentukan.  

```
aws cloudwatch get-dashboard \
    --dashboard-name Dashboard-A
```
Output:  

```
{
    "DashboardArn": "arn:aws:cloudwatch::123456789012:dashboard/Dashboard-A",
    "DashboardBody": "{\"widgets\":[{\"type\":\"metric\",\"x\":0,\"y\":0,\"width\":6,\"height\":6,\"properties\":{\"view\":\"timeSeries\",\"stacked\":false,\"metrics\":[[\"AWS/EC2\",\"NetworkIn\",\"InstanceId\",\"i-0131f062232ade043\"],[\".\",\"NetworkOut\",\".\",\".\"]],\"region\":\"us-east-1\"}}]}",
    "DashboardName": "Dashboard-A"
}
```
Untuk informasi selengkapnya, lihat [ CloudWatch dasbor Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Dashboards.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetDashboard](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/get-dashboard.html)di *Referensi AWS CLI Perintah*. 

### `get-insight-rule-report`
<a name="cloudwatch_GetInsightRuleReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-insight-rule-report`.

**AWS CLI**  
**Untuk mengambil data deret waktu yang dikumpulkan oleh aturan Contributor Insights**  
`get-insight-rule-report`Contoh berikut mengembalikan data deret waktu yang dikumpulkan oleh aturan Contributor Insights.  

```
aws cloudwatch get-insight-rule-report \
    --rule-name Rule-A \
    --start-time 2024-10-13T20:15:00Z \
    --end-time 2024-10-13T20:30:00Z \
    --period 300
```
Output:  

```
{
    "KeyLabels": [
        "PartitionKey"
    ],
    "AggregationStatistic": "Sum",
    "AggregateValue": 0.5,
    "ApproximateUniqueCount": 1,
    "Contributors": [
        {
            "Keys": [
                "RequestID"
            ],
            "ApproximateAggregateValue": 0.5,
            "Datapoints": [
                {
                    "Timestamp": "2024-10-13T21:00:00+00:00",
                    "ApproximateValue": 0.5
                }
            ]
        }
    ],
    "RuleAttributes": []
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan Wawasan Kontributor untuk menganalisis data kardinalitas tinggi di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/ContributorInsights.html). CloudWatch *  
+  Untuk detail API, lihat [GetInsightRuleReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/get-insight-rule-report.html)di *Referensi AWS CLI Perintah*. 

### `get-metric-data`
<a name="cloudwatch_GetMetricData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-metric-data`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan IOPS Total Rata-rata untuk EC2 yang ditentukan menggunakan ekspresi matematika**  
`get-metric-data`Contoh berikut mengambil nilai CloudWatch metrik untuk instans EC2 dengan InstanceID `i-abcdef` menggunakan exprssion matematika metrik yang menggabungkan dan metrik. `EBSReadOps` `EBSWriteOps`  

```
aws cloudwatch get-metric-data \
    --metric-data-queries file://file.json \
    --start-time 2024-09-29T22:10:00Z \
    --end-time 2024-09-29T22:15:00Z
```
Isi dari `file.json`:  

```
[
    {
        "Id": "m3",
        "Expression": "(m1+m2)/300",
        "Label": "Avg Total IOPS"
    },
    {
        "Id": "m1",
        "MetricStat": {
            "Metric": {
                "Namespace": "AWS/EC2",
                "MetricName": "EBSReadOps",
                "Dimensions": [
                    {
                        "Name": "InstanceId",
                        "Value": "i-abcdef"
                    }
                ]
            },
            "Period": 300,
            "Stat": "Sum",
            "Unit": "Count"
        },
        "ReturnData": false
    },
    {
        "Id": "m2",
        "MetricStat": {
            "Metric": {
                "Namespace": "AWS/EC2",
                "MetricName": "EBSWriteOps",
                "Dimensions": [
                    {
                        "Name": "InstanceId",
                        "Value": "i-abcdef"
                    }
                ]
            },
            "Period": 300,
            "Stat": "Sum",
            "Unit": "Count"
        },
        "ReturnData": false
    }
]
```
Output:  

```
{
    "MetricDataResults": [
        {
            "Id": "m3",
            "Label": "Avg Total IOPS",
            "Timestamps": [
                "2024-09-29T22:10:00+00:00"
            ],
            "Values": [
                96.85
            ],
            "StatusCode": "Complete"
        }
    ],
    "Messages": []
}
```
**Contoh 2: Untuk memantau estimasi AWS biaya menggunakan metrik CloudWatch penagihan**  
`get-metric-data`Contoh berikut mengambil `EstimatedCharges` CloudWatch metrik AWS dari/Billing namespace.  

```
aws cloudwatch get-metric-data \
    --metric-data-queries '[{"Id":"m1","MetricStat":{"Metric":{"Namespace":"AWS/Billing","MetricName":"EstimatedCharges","Dimensions":[{"Name":"Currency","Value":"USD"}]},"Period":21600,"Stat":"Maximum"}}]' \
    --start-time 2024-09-26T12:00:00Z \
    --end-time 2024-09-26T18:00:00Z \
    --region us-east-1
```
Output:  

```
{
    "MetricDataResults": [
        {
            "Id": "m1",
            "Label": "EstimatedCharges",
            "Timestamps": [
                "2024-09-26T12:00:00+00:00"
            ],
            "Values": [
                542.38
            ],
            "StatusCode": "Complete"
        }
    ],
    "Messages": []
}
```
Untuk informasi selengkapnya, lihat [Menggunakan ekspresi matematika dengan CloudWatch metrik](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/using-metric-math.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetMetricData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/get-metric-data.html)di *Referensi AWS CLI Perintah*. 

### `get-metric-statistics`
<a name="cloudwatch_GetMetricStatistics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-metric-statistics`.

**AWS CLI**  
**Cara mendapatkan pemanfaatan CPU per instans EC2**   
Contoh berikut menggunakan perintah `get-metric-statistics` untuk mendapatkan pemanfaatan CPU untuk instans EC2 dengan ID i-abcdef.  

```
aws cloudwatch get-metric-statistics --metric-name CPUUtilization --start-time 2014-04-08T23:18:00Z --end-time 2014-04-09T23:18:00Z --period 3600 --namespace AWS/EC2 --statistics Maximum --dimensions Name=InstanceId,Value=i-abcdef
```
Output:  

```
{
    "Datapoints": [
        {
            "Timestamp": "2014-04-09T11:18:00Z",
            "Maximum": 44.79,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T20:18:00Z",
            "Maximum": 47.92,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T19:18:00Z",
            "Maximum": 50.85,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T09:18:00Z",
            "Maximum": 47.92,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T03:18:00Z",
            "Maximum": 76.84,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T21:18:00Z",
            "Maximum": 48.96,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T14:18:00Z",
            "Maximum": 47.92,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T08:18:00Z",
            "Maximum": 47.92,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T16:18:00Z",
            "Maximum": 45.55,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T06:18:00Z",
            "Maximum": 47.92,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T13:18:00Z",
            "Maximum": 45.08,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T05:18:00Z",
            "Maximum": 47.92,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T18:18:00Z",
            "Maximum": 46.88,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T17:18:00Z",
            "Maximum": 52.08,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T07:18:00Z",
            "Maximum": 47.92,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T02:18:00Z",
            "Maximum": 51.23,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T12:18:00Z",
            "Maximum": 47.67,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-08T23:18:00Z",
            "Maximum": 46.88,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T10:18:00Z",
            "Maximum": 51.91,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T04:18:00Z",
            "Maximum": 47.13,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T15:18:00Z",
            "Maximum": 48.96,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T00:18:00Z",
            "Maximum": 48.16,
            "Unit": "Percent"
        },
        {
            "Timestamp": "2014-04-09T01:18:00Z",
            "Maximum": 49.18,
            "Unit": "Percent"
        }
    ],
    "Label": "CPUUtilization"
}
```
**Menentukan beberapa dimensi**  
Contoh berikut menggambarkan cara menentukan beberapa dimensi. Setiap dimensi ditentukan sebagai Name/Value pasangan, dengan koma antara nama dan nilainya. Beberapa dimensi dipisahkan dengan satu spasi. Jika sebuah metrik mencakup beberapa dimensi, Anda harus menetapkan sebuah nilai untuk masing-masing dimensi yang ditetapkan.  
Untuk contoh lainnya menggunakan `get-metric-statistics` perintah, lihat Mendapatkan Statistik untuk Metrik di *Panduan CloudWatch Pengembang Amazon*.  

```
aws cloudwatch get-metric-statistics --metric-name Buffers --namespace MyNameSpace --dimensions Name=InstanceID,Value=i-abcdef Name=InstanceType,Value=m1.small --start-time 2016-10-15T04:00:00Z --end-time 2016-10-19T07:00:00Z --statistics Average --period 60
```
+  Untuk detail API, lihat [GetMetricStatistics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/get-metric-statistics.html)di *Referensi AWS CLI Perintah*. 

### `get-metric-stream`
<a name="cloudwatch_GetMetricStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-metric-stream`.

**AWS CLI**  
**Untuk mengambil informasi tentang aliran metrik**  
`get-metric-stream`Contoh berikut menampilkan informasi tentang aliran metrik yang dinamai `QuickFull-GuaFbs` dalam akun yang ditentukan.  

```
aws cloudwatch get-metric-stream \
    --name QuickFull-GuaFbs
```
Output:  

```
{
    "Arn": "arn:aws:cloudwatch:us-east-1:123456789012:metric-stream/QuickFull-GuaFbs",
    "Name": "QuickFull-GuaFbs",
    "FirehoseArn": "arn:aws:firehose:us-east-1:123456789012:deliverystream/MetricStreams-QuickFull-GuaFbs-WnySbECG",
    "RoleArn": "arn:aws:iam::123456789012:role/service-role/MetricStreams-FirehosePutRecords-JN10W9B3",
    "State": "running",
    "CreationDate": "2024-10-11T18:48:59.187000+00:00",
    "LastUpdateDate": "2024-10-11T18:48:59.187000+00:00",
    "OutputFormat": "json",
    "IncludeLinkedAccountsMetrics": false
}
```
Untuk informasi selengkapnya, lihat [Menggunakan aliran metrik](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Metric-Streams.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetMetricStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/get-metric-stream.html)di *Referensi AWS CLI Perintah*. 

### `get-metric-widget-image`
<a name="cloudwatch_GetMetricWidgetImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-metric-widget-image`.

**AWS CLI**  
**Untuk mengambil grafik snapshot dari CPUUtilization**  
`get-metric-widget-image`Contoh berikut mengambil grafik snapshot untuk metrik `CPUUtilization` instance EC2 dengan ID `i-abcde` dan menyimpan gambar yang diambil sebagai file bernama "image.png" di mesin lokal Anda.  

```
aws cloudwatch get-metric-widget-image \
    --metric-widget '{"metrics":[["AWS/EC2","CPUUtilization","InstanceId","i-abcde"]]}' \
    --output-format png \
    --output text | base64 --decode > image.png
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [GetMetricWidgetImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/get-metric-widget-image.html)di *Referensi AWS CLI Perintah*. 

### `list-dashboards`
<a name="cloudwatch_ListDashboards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-dashboards`.

**AWS CLI**  
**Untuk mengambil daftar Dasbor**  
`list-dashboards`Contoh berikut mencantumkan semua Dasbor di akun yang ditentukan.  

```
aws cloudwatch list-dashboards
```
Output:  

```
{
    "DashboardEntries": [
        {
            "DashboardName": "Dashboard-A",
            "DashboardArn": "arn:aws:cloudwatch::123456789012:dashboard/Dashboard-A",
            "LastModified": "2024-10-11T18:40:11+00:00",
            "Size": 271
        },
        {
            "DashboardName": "Dashboard-B",
            "DashboardArn": "arn:aws:cloudwatch::123456789012:dashboard/Dashboard-B",
            "LastModified": "2024-10-11T18:44:41+00:00",
            "Size": 522
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ CloudWatch dasbor Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Dashboards.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListDashboards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/list-dashboards.html)di *Referensi AWS CLI Perintah*. 

### `list-metric-streams`
<a name="cloudwatch_ListMetricStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-metric-streams`.

**AWS CLI**  
**Untuk mengambil daftar aliran metrik**  
`list-metric-streams`Contoh berikut mencantumkan semua aliran metrik di akun yang ditentukan.  

```
aws cloudwatch list-metric-streams
```
Output:  

```
{
    "Entries": [
        {
            "Arn": "arn:aws:cloudwatch:us-east-1:123456789012:metric-stream/QuickFull-GuaFbs",
            "CreationDate": "2024-10-11T18:48:59.187000+00:00",
            "LastUpdateDate": "2024-10-11T18:48:59.187000+00:00",
            "Name": "QuickFull-GuaFbs",
            "FirehoseArn": "arn:aws:firehose:us-east-1:123456789012:deliverystream/MetricStreams-QuickFull-GuaFbs-WnySbECG",
            "State": "running",
            "OutputFormat": "json"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan aliran metrik](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Metric-Streams.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListMetricStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/list-metric-streams.html)di *Referensi AWS CLI Perintah*. 

### `list-metrics`
<a name="cloudwatch_ListMetrics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-metrics`.

**AWS CLI**  
**Cara membuat daftar metrik untuk Amazon SNS**  
Contoh `list-metrics` berikut menampilkan metrik-metrik untuk Amazon SNS.  

```
aws cloudwatch list-metrics \
    --namespace "AWS/SNS"
```
Output:  

```
{
    "Metrics": [
        {
            "Namespace": "AWS/SNS",
            "Dimensions": [
                {
                    "Name": "TopicName",
                    "Value": "NotifyMe"
                }
            ],
            "MetricName": "PublishSize"
        },
        {
            "Namespace": "AWS/SNS",
            "Dimensions": [
                {
                    "Name": "TopicName",
                    "Value": "CFO"
                }
            ],
            "MetricName": "PublishSize"
        },
        {
            "Namespace": "AWS/SNS",
            "Dimensions": [
                {
                    "Name": "TopicName",
                    "Value": "NotifyMe"
                }
            ],
            "MetricName": "NumberOfNotificationsFailed"
        },
        {
            "Namespace": "AWS/SNS",
            "Dimensions": [
                {
                    "Name": "TopicName",
                    "Value": "NotifyMe"
                }
            ],
            "MetricName": "NumberOfNotificationsDelivered"
        },
        {
            "Namespace": "AWS/SNS",
            "Dimensions": [
                {
                    "Name": "TopicName",
                    "Value": "NotifyMe"
                }
            ],
            "MetricName": "NumberOfMessagesPublished"
        },
        {
            "Namespace": "AWS/SNS",
            "Dimensions": [
                {
                    "Name": "TopicName",
                    "Value": "CFO"
                }
            ],
            "MetricName": "NumberOfMessagesPublished"
        },
        {
            "Namespace": "AWS/SNS",
            "Dimensions": [
                {
                    "Name": "TopicName",
                    "Value": "CFO"
                }
            ],
            "MetricName": "NumberOfNotificationsDelivered"
        },
        {
            "Namespace": "AWS/SNS",
            "Dimensions": [
                {
                    "Name": "TopicName",
                    "Value": "CFO"
                }
            ],
            "MetricName": "NumberOfNotificationsFailed"
        }
    ]
}
```
+  Untuk detail API, lihat [ListMetrics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/list-metrics.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="cloudwatch_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag yang terkait dengan alarm yang ada\$1**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag yang terkait dengan alarm bernama `demo` di akun yang ditentukan.  

```
aws cloudwatch list-tags-for-resource \
    --resource-arn arn:aws:cloudwatch:us-east-1:123456789012:alarm:demo
```
Output:  

```
{
    "Tags": [
        {
            "Key": "stack",
            "Value": "Production"
        },
        {
            "Key": "team",
            "Value": "Devops"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Alarm dan penandaan](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_alarms_and_tagging.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-anomaly-detector`
<a name="cloudwatch_PutAnomalyDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-anomaly-detector`.

**AWS CLI**  
**Untuk membuat model deteksi anomali**  
`put-anomaly-detector`Contoh berikut membuat model deteksi anomali untuk metrik. CloudWatch   

```
aws cloudwatch put-anomaly-detector \
    --namespace AWS/Logs \
    --metric-name IncomingBytes \
    --stat SampleCount
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan deteksi CloudWatch anomali](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Anomaly_Detection.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [PutAnomalyDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/put-anomaly-detector.html)di *Referensi AWS CLI Perintah*. 

### `put-composite-alarm`
<a name="cloudwatch_PutCompositeAlarm_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-composite-alarm`.

**AWS CLI**  
**Untuk membuat alarm cloudwatch komposit**  
`put-composite-alarm`Contoh berikut membuat alarm komposit bernama `ProdAlarm` dalam akun yang ditentukan.  

```
aws cloudwatch put-composite-alarm \
    --alarm-name ProdAlarm \
    --alarm-rule "ALARM(CPUUtilizationTooHigh) AND ALARM(MemUsageTooHigh)" \
    --alarm-actions arn:aws:sns:us-east-1:123456789012:demo \
    --actions-enabled
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat alarm komposit](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/Create_Composite_Alarm_How_To.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [PutCompositeAlarm](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/put-composite-alarm.html)di *Referensi AWS CLI Perintah*. 

### `put-dashboard`
<a name="cloudwatch_PutDashboard_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-dashboard`.

**AWS CLI**  
**Untuk membuat dasbor**  
`put-dashboard`Contoh berikut membuat dasbor bernama `Dashboard-A` dalam akun yang ditentukan.  

```
aws cloudwatch put-dashboard \
    --dashboard-name Dashboard-A \
    --dashboard-body '{"widgets":[{"height":6,"width":6,"y":0,"x":0,"type":"metric","properties":{"view":"timeSeries","stacked":false,"metrics":[["Namespace","CPUUtilization","Environment","Prod","Type","App"]],"region":"us-east-1"}}]}'
```
Output:  

```
{
    "DashboardValidationMessages": []
}
```
Untuk informasi selengkapnya, lihat [Membuat CloudWatch dasbor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/create_dashboard.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [PutDashboard](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/put-dashboard.html)di *Referensi AWS CLI Perintah*. 

### `put-insight-rule`
<a name="cloudwatch_PutInsightRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-insight-rule`.

**AWS CLI**  
**Untuk membuat aturan wawasan kontributor**  
`put-insight-rule`Contoh berikut membuat aturan Contributor Insights bernama `VPCFlowLogsContributorInsights` di akun yang ditentukan.  

```
aws cloudwatch put-insight-rule \
    --rule-name VPCFlowLogsContributorInsights \
    --rule-definition file://insight-rule.json \
    --rule-state ENABLED
```
Isi dari `insight-rule.json`:  

```
{
    "Schema": {
        "Name": "CloudWatchLogRule",
        "Version": 1
    },
    "AggregateOn": "Count",
    "Contribution": {
        "Filters": [],
        "Keys": [
            "tcp-flag"
        ]
    },
    "LogFormat": "CLF",
    "LogGroupNames": [
        "/vpc/flowlogs/*"
    ],
    "Fields": {
        "23": "tcp-flag"
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat aturan Wawasan Kontributor CloudWatch di CloudWatch ](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/ContributorInsights-CreateRule.html) *Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [PutInsightRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/put-insight-rule.html)di *Referensi AWS CLI Perintah*. 

### `put-metric-alarm`
<a name="cloudwatch_PutMetricAlarm_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-metric-alarm`.

**AWS CLI**  
**Untuk mengirim sebuah pesan email Layanan Notifkasi Sederhana Amazon saat pemanfaatan CPU melebihi 70 persen**  
Contoh berikut menggunakan perintah `put-metric-alarm` untuk mengirim sebuah pesan email Amazon Simple Notification Service ketika penggunaan CPU melebihi 70 persen:  

```
aws cloudwatch put-metric-alarm --alarm-name cpu-mon --alarm-description "Alarm when CPU exceeds 70 percent" --metric-name CPUUtilization --namespace AWS/EC2 --statistic Average --period 300 --threshold 70 --comparison-operator GreaterThanThreshold  --dimensions "Name=InstanceId,Value=i-12345678" --evaluation-periods 2 --alarm-actions arn:aws:sns:us-east-1:111122223333:MyTopic --unit Percent
```
Perintah ini akan kembali ke prompt jika berhasil. Jika suatu alarm yang memiliki nama yang sama sudah ada, alarm itu akan ditimpa oleh alarm yang baru.  
**Cara menentukan beberapa dimensi**  
Contoh berikut menggambarkan cara menentukan beberapa dimensi. Setiap dimensi ditentukan sebagai Name/Value pasangan, dengan koma antara nama dan nilainya. Beberapa dimensi dipisahkan dengan satu spasi:  

```
aws cloudwatch put-metric-alarm --alarm-name "Default_Test_Alarm3" --alarm-description "The default example alarm" --namespace "CW EXAMPLE METRICS" --metric-name Default_Test --statistic Average --period 60 --evaluation-periods 3 --threshold 50 --comparison-operator GreaterThanOrEqualToThreshold --dimensions Name=key1,Value=value1 Name=key2,Value=value2
```
+  Untuk detail API, lihat [PutMetricAlarm](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/put-metric-alarm.html)di *Referensi AWS CLI Perintah*. 

### `put-metric-data`
<a name="cloudwatch_PutMetricData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-metric-data`.

**AWS CLI**  
**Untuk mempublikasikan metrik khusus ke Amazon CloudWatch**  
Contoh berikut menggunakan `put-metric-data` perintah untuk menerbitkan metrik kustom ke Amazon CloudWatch:  

```
aws cloudwatch put-metric-data --namespace "Usage Metrics" --metric-data file://metric.json
```
Nilai-nilai untuk metrik itu sendiri disimpan dalam file JSON, `metric.json`.  
Berikut adalah isi dari file tersebut:  

```
[
  {
    "MetricName": "New Posts",
    "Timestamp": "Wednesday, June 12, 2013 8:28:20 PM",
    "Value": 0.50,
    "Unit": "Count"
  }
]
```
Untuk informasi selengkapnya, lihat Menerbitkan Metrik Kustom di *Panduan CloudWatch Pengembang Amazon*.  
**Cara menentukan beberapa dimensi**  
Contoh berikut menggambarkan cara menentukan beberapa dimensi. Masing-masing dimensi ditentukan sebagai sebuah pasangan Name=Value. Beberapa dimensi dipisahkan menggunakan koma.:  

```
aws cloudwatch put-metric-data --metric-name Buffers --namespace MyNameSpace --unit Bytes --value 231434333 --dimensions InstanceID=1-23456789,InstanceType=m1.small
```
+  Untuk detail API, lihat [PutMetricData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/put-metric-data.html)di *Referensi AWS CLI Perintah*. 

### `put-metric-stream`
<a name="cloudwatch_PutMetricStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-metric-stream`.

**AWS CLI**  
**Untuk membuat aliran metrik**  
`put-metric-stream`Contoh berikut membuat aliran metrik bernama `QuickFull-GuaFb` dalam akun tertentu.  

```
aws cloudwatch put-metric-stream \
    --name QuickFull-GuaFbs \
    --firehose-arn arn:aws:firehose:us-east-1:123456789012:deliverystream/MetricStreams-QuickFull-GuaFbs-WnySbECG \
    --role-arn arn:aws:iam::123456789012:role/service-role/MetricStreams-FirehosePutRecords-JN10W9B3 \
    --output-format json \
    --no-include-linked-accounts-metrics
```
Output:  

```
{
    "Arn": "arn:aws:cloudwatch:us-east-1:123456789012:metric-stream/QuickFull-GuaFbs"
}
```
Untuk informasi selengkapnya, lihat [Mengatur aliran metrik](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-metric-streams-setup.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [PutMetricStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/put-metric-stream.html)di *Referensi AWS CLI Perintah*. 

### `set-alarm-state`
<a name="cloudwatch_SetAlarmState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-alarm-state`.

**AWS CLI**  
**Untuk sementara mengubah status alarm**  
Contoh berikut menggunakan `set-alarm-state` perintah untuk sementara mengubah status CloudWatch alarm Amazon bernama “myalarm” dan mengaturnya ke status ALARM untuk tujuan pengujian:  

```
aws cloudwatch set-alarm-state --alarm-name "myalarm" --state-value ALARM --state-reason "testing purposes"
```
Perintah ini akan kembali ke prompt jika berhasil.  
+  Untuk detail API, lihat [SetAlarmState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/set-alarm-state.html)di *Referensi AWS CLI Perintah*. 

### `start-metric-streams`
<a name="cloudwatch_StartMetricStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-metric-streams`.

**AWS CLI**  
**Untuk memulai aliran metrik tertentu**  
`start-metric-streams`Contoh berikut memulai aliran metrik bernama `QuickFull-GuaFbs` dalam akun yang ditentukan.  

```
aws cloudwatch start-metric-streams \
    --names QuickFull-GuaFbs
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan aliran metrik](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Metric-Streams.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [StartMetricStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/start-metric-streams.html)di *Referensi AWS CLI Perintah*. 

### `stop-metric-streams`
<a name="cloudwatch_StopMetricStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-metric-streams`.

**AWS CLI**  
**Untuk menghentikan aliran metrik tertentu**  
`stop-metric-streams`Contoh berikut menghentikan aliran metrik yang dinamai `QuickFull-GuaFbs` dalam akun yang ditentukan.  

```
aws cloudwatch stop-metric-streams \
    --names QuickFull-GuaFbs
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan aliran metrik](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Metric-Streams.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [StopMetricStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/stop-metric-streams.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="cloudwatch_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan satu atau beberapa tag ke sumber daya yang ditentukan**  
`tag-resource`Contoh berikut menambahkan 2 tag ke alarm cloudwatch yang disebutkan `demo` di akun yang ditentukan.  

```
aws cloudwatch tag-resource \
    --resource-arn arn:aws:cloudwatch:us-east-1:123456789012:alarm:demo \
    --tags Key=stack,Value=Production Key=team,Value=Devops
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai CloudWatch sumber daya Amazon Anda](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Tagging.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="cloudwatch_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus satu atau beberapa tag dari sumber daya yang ditentukan**  
`untag-resource`Contoh berikut menghapus 2 tag dari alarm cloudwatch yang disebutkan `demo` di akun yang ditentukan.  

```
aws cloudwatch untag-resource \
    --resource-arn arn:aws:cloudwatch:us-east-1:123456789012:alarm:demo \
    --tag-keys stack team
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai CloudWatch sumber daya Amazon Anda](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Tagging.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cloudwatch/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# CloudWatch Log contoh menggunakan AWS CLI
<a name="cli_2_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With CloudWatch Logs.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-log-group`
<a name="cloudwatch-logs_CreateLogGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-log-group`.

**AWS CLI**  
Perintah berikut membuat grup log bernama`my-logs`:  

```
aws logs create-log-group --log-group-name my-logs
```
+  Untuk detail API, lihat [CreateLogGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/create-log-group.html)di *Referensi AWS CLI Perintah*. 

### `create-log-stream`
<a name="cloudwatch-logs_CreateLogStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-log-stream`.

**AWS CLI**  
Perintah berikut membuat aliran log bernama `20150601` dalam grup log`my-logs`:  

```
aws logs create-log-stream --log-group-name my-logs --log-stream-name 20150601
```
+  Untuk detail API, lihat [CreateLogStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/create-log-stream.html)di *Referensi AWS CLI Perintah*. 

### `delete-log-group`
<a name="cloudwatch-logs_DeleteLogGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-log-group`.

**AWS CLI**  
Perintah berikut menghapus grup log bernama`my-logs`:  

```
aws logs delete-log-group --log-group-name my-logs
```
+  Untuk detail API, lihat [DeleteLogGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/delete-log-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-log-stream`
<a name="cloudwatch-logs_DeleteLogStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-log-stream`.

**AWS CLI**  
Perintah berikut menghapus aliran log bernama `20150531` dari grup log bernama`my-logs`:  

```
aws logs delete-log-stream --log-group-name my-logs --log-stream-name 20150531
```
+  Untuk detail API, lihat [DeleteLogStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/delete-log-stream.html)di *Referensi AWS CLI Perintah*. 

### `delete-retention-policy`
<a name="cloudwatch-logs_DeleteRetentionPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-retention-policy`.

**AWS CLI**  
Perintah berikut menghapus kebijakan retensi yang sebelumnya telah diterapkan ke grup log bernama`my-logs`:  

```
aws logs delete-retention-policy --log-group-name my-logs
```
+  Untuk detail API, lihat [DeleteRetentionPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/delete-retention-policy.html)di *Referensi AWS CLI Perintah*. 

### `describe-log-groups`
<a name="cloudwatch-logs_DescribeLogGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-log-groups`.

**AWS CLI**  
Perintah berikut menjelaskan grup log bernama`my-logs`:  

```
aws logs describe-log-groups --log-group-name-prefix my-logs
```
Output:  

```
{
    "logGroups": [
        {
            "storedBytes": 0,
            "metricFilterCount": 0,
            "creationTime": 1433189500783,
            "logGroupName": "my-logs",
            "retentionInDays": 5,
            "arn": "arn:aws:logs:us-west-2:0123456789012:log-group:my-logs:*"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLogGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/describe-log-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-log-streams`
<a name="cloudwatch-logs_DescribeLogStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-log-streams`.

**AWS CLI**  
Perintah berikut menunjukkan semua aliran log yang dimulai dengan awalan `2015` di grup log: `my-logs`  

```
aws logs describe-log-streams --log-group-name my-logs --log-stream-name-prefix 2015
```
Output:  

```
{
    "logStreams": [
        {
            "creationTime": 1433189871774,
            "arn": "arn:aws:logs:us-west-2:0123456789012:log-group:my-logs:log-stream:20150531",
            "logStreamName": "20150531",
            "storedBytes": 0
        },
        {
            "creationTime": 1433189873898,
            "arn": "arn:aws:logs:us-west-2:0123456789012:log-group:my-logs:log-stream:20150601",
            "logStreamName": "20150601",
            "storedBytes": 0
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLogStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/describe-log-streams.html)di *Referensi AWS CLI Perintah*. 

### `get-log-events`
<a name="cloudwatch-logs_GetLogEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-log-events`.

**AWS CLI**  
Perintah berikut mengambil peristiwa log dari aliran log bernama `20150601` dalam grup `my-logs` log:  

```
aws logs get-log-events --log-group-name my-logs --log-stream-name 20150601
```
Output:  

```
{
    "nextForwardToken": "f/31961209122447488583055879464742346735121166569214640130",
    "events": [
        {
            "ingestionTime": 1433190494190,
            "timestamp": 1433190184356,
            "message": "Example Event 1"
        },
        {
            "ingestionTime": 1433190516679,
            "timestamp": 1433190184356,
            "message": "Example Event 1"
        },
        {
            "ingestionTime": 1433190494190,
            "timestamp": 1433190184358,
            "message": "Example Event 2"
        }
    ],
    "nextBackwardToken": "b/31961209122358285602261756944988674324553373268216709120"
}
```
+  Untuk detail API, lihat [GetLogEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/get-log-events.html)di *Referensi AWS CLI Perintah*. 

### `put-log-events`
<a name="cloudwatch-logs_PutLogEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-log-events`.

**AWS CLI**  
Perintah berikut menempatkan peristiwa log ke aliran log bernama `20150601` dalam grup log`my-logs`:  

```
aws logs put-log-events --log-group-name my-logs --log-stream-name 20150601 --log-events file://events
```
Output:  

```
{
    "nextSequenceToken": "49542672486831074009579604567656788214806863282469607346"
}
```
Contoh di atas membaca array JSON peristiwa dari file bernama `events` dalam direktori saat ini:  

```
[
  {
    "timestamp": 1433190184356,
    "message": "Example Event 1"
  },
  {
    "timestamp": 1433190184358,
    "message": "Example Event 2"
  },
  {
    "timestamp": 1433190184360,
    "message": "Example Event 3"
  }
]
```
Setiap panggilan berikutnya memerlukan token urutan berikutnya yang disediakan oleh panggilan sebelumnya untuk ditentukan dengan opsi token urutan:  

```
aws logs put-log-events --log-group-name my-logs --log-stream-name 20150601 --log-events file://events2 --sequence-token "49542672486831074009579604567656788214806863282469607346"
```
Output:  

```
{
    "nextSequenceToken": "49542672486831074009579604567900991230369019956308219826"
}
```
+  Untuk detail API, lihat [PutLogEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/put-log-events.html)di *Referensi AWS CLI Perintah*. 

### `put-retention-policy`
<a name="cloudwatch-logs_PutRetentionPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-retention-policy`.

**AWS CLI**  
Perintah berikut menambahkan kebijakan retensi 5 hari ke grup log bernama`my-logs`:  

```
aws logs put-retention-policy --log-group-name my-logs --retention-in-days 5
```
+  Untuk detail API, lihat [PutRetentionPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/logs/put-retention-policy.html)di *Referensi AWS CLI Perintah*. 

# CloudWatch Contoh Pemantauan Jaringan menggunakan AWS CLI
<a name="cli_2_networkmonitor_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CloudWatch Network Monitoring.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-monitor`
<a name="networkmonitor_CreateMonitor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-monitor`.

**AWS CLI**  
**Contoh 1: Untuk membuat monitor jaringan dengan periode agregasi**  
`create-monitor`Contoh berikut membuat monitor bernama `Example_NetworkMonitor` dengan `aggregationPeriod` set ke `30` detik. `state`Awal monitor adalah `INACTIVE` karena tidak ada probe yang terkait dengannya. Status berubah menjadi `ACTIVE` hanya ketika probe ditambahkan. Anda dapat menggunakan perintah [update-monitor](https://docs.aws.amazon.com/cli/latest/reference/networkmonitor/update-monitor.html) atau [create-probe untuk menambahkan probe](https://docs.aws.amazon.com/cli/latest/reference/networkmonitor/create-probe.html) ke monitor ini.  

```
aws networkmonitor create-monitor \
     --monitor-name Example_NetworkMonitor \
     --aggregation-period 30
```
Output:  

```
{
    "monitorArn": "arn:aws:networkmonitor:region:111122223333:monitor/Example_NetworkMonitor",
    "monitorName": "Example_NetworkMonitor",
    "state": "INACTIVE",
    "aggregationPeriod": 30,
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
**Contoh 2: Untuk membuat monitor jaringan dengan probe menggunakan TCP dan juga menyertakan tag**  
`create-monitor`Contoh berikut membuat monitor bernama`Example_NetworkMonitor`. Perintah ini juga membuat satu probe yang menggunakan `ICMP` protokol dan menyertakan tag. Karena no `aggregationPeriod` diteruskan dalam permintaan, `60` detik ditetapkan sebagai default. Monitor dengan probe akan `PENDING` sampai monitor berada`ACTIVE`. `state` Ini mungkin memakan waktu beberapa menit, di mana titik `state` akan berubah menjadi`ACTIVE`, dan Anda dapat mulai melihat CloudWatch metrik.  

```
aws networkmonitor create-monitor \
    --monitor-name Example_NetworkMonitor \
    --probes sourceArn=arn:aws:ec2:region:111122223333:subnet/subnet-id,destination=10.0.0.100,destinationPort=80,protocol=TCP,packetSize=56,probeTags={Name=Probe1} \
    --tags Monitor=Monitor1
```
Output:  

```
{
    "monitorArn": "arn:aws:networkmonitor:region111122223333:monitor/Example_NetworkMonitor",
    "monitorName": "Example_NetworkMonitor",
    "state": "PENDING",
    "aggregationPeriod": 60,
    "tags": {
        "Monitor": "Monitor1"
    }
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
**Contoh 3: Untuk membuat monitor jaringan dengan probe menggunakan ICMP dan juga menyertakan tag**  
`create-monitor`Contoh berikut membuat monitor bernama `Example_NetworkMonitor` dengan `aggregationPeriod` `30` detik. Perintah ini juga membuat satu probe yang menggunakan `ICMP` protokol dan menyertakan tag. Karena no `aggregationPeriod` diteruskan dalam permintaan, `60` detik ditetapkan sebagai default. Monitor dengan probe akan `PENDING` sampai monitor berada`ACTIVE`. `state` Ini mungkin memakan waktu beberapa menit, di mana titik `state` akan berubah menjadi`ACTIVE`, dan Anda dapat mulai melihat CloudWatch metrik.  

```
aws networkmonitor create-monitor \
     --monitor-name Example_NetworkMonitor \
     --aggregation-period 30 \
     --probes sourceArn=arn:aws:ec2:region111122223333:subnet/subnet-id,destination=10.0.0.100,protocol=ICMP,packetSize=56,probeTags={Name=Probe1} \
     --tags Monitor=Monitor1
```
Output:  

```
{
    "monitorArn": "arn:aws:networkmonitor:region:111122223333:monitor/Example_NetworkMonitor",
    "monitorName": "Example_NetworkMonitor",
    "state": "PENDING",
    "aggregationPeriod": 30,
    "tags": {
        "Monitor": "Monitor1"
    }
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateMonitor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/create-monitor.html)di *Referensi AWS CLI Perintah*. 

### `create-probe`
<a name="networkmonitor_CreateProbe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-probe`.

**AWS CLI**  
**Contoh 1: Untuk membuat probe yang menggunakan TCP dan menambahkannya ke monitor jaringan**  
`create-probe`Contoh berikut membuat probe yang menggunakan `TCP` `protocol` dan menambahkan probe ke monitor bernama`Example_NetworkMonitor`. Setelah dibuat, monitor dengan probe akan `PENDING` sampai monitor berada`ACTIVE`. `state` Ini mungkin memakan waktu beberapa menit, di mana status akan berubah`ACTIVE`, dan Anda dapat mulai melihat CloudWatch metrik.  

```
aws networkmonitor create-probe \
    --monitor-name Example_NetworkMonitor \
    --probe sourceArn=arn:aws:ec2:region:111122223333:subnet/subnet-id,destination=10.0.0.100,destinationPort=80,protocol=TCP,packetSize=56,tags={Name=Probe1}
```
Output:  

```
{
    "probeId": "probe-12345",
    "probeArn": "arn:aws:networkmonitor:region:111122223333:probe/probe-12345",
    "destination": "10.0.0.100",
    "destinationPort": 80,
    "packetSize": 56,
    "addressFamily": "IPV4",
    "vpcId": "vpc-12345",
    "state": "PENDING",
    "createdAt": "2024-03-29T12:41:57.314000-04:00",
    "modifiedAt": "2024-03-29T12:41:57.314000-04:00",
    "tags": {
        "Name": "Probe1"
    }
}
```
**Contoh 2: Untuk membuat probe yang menggunakan probe menggunakan ICMP dan menambahkannya ke monitor jaringan**  
`create-probe`Contoh berikut membuat probe yang menggunakan `ICMP` `protocol` dan menambahkan probe ke monitor bernama`Example_NetworkMonitor`. Setelah dibuat, monitor dengan probe akan `PENDING` sampai monitor berada`ACTIVE`. `state` Ini mungkin memakan waktu beberapa menit, di mana status akan berubah`ACTIVE`, dan Anda dapat mulai melihat CloudWatch metrik.  

```
aws networkmonitor create-probe \
    --monitor-name Example_NetworkMonitor \
    --probe sourceArn=arn:aws:ec2:region:012345678910:subnet/subnet-id,destination=10.0.0.100,protocol=ICMP,packetSize=56,tags={Name=Probe1}
```
Output:  

```
{
    "probeId": "probe-12345",
    "probeArn": "arn:aws:networkmonitor:region:111122223333:probe/probe-12345",
    "destination": "10.0.0.100",
    "packetSize": 56,
    "addressFamily": "IPV4",
    "vpcId": "vpc-12345",
    "state": "PENDING",
    "createdAt": "2024-03-29T12:44:02.452000-04:00",
    "modifiedAt": "2024-03-29T12:44:02.452000-04:00",
    "tags": {
        "Name": "Probe1"
    }
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateProbe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/create-probe.html)di *Referensi AWS CLI Perintah*. 

### `delete-monitor`
<a name="networkmonitor_DeleteMonitor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-monitor`.

**AWS CLI**  
**Untuk menghapus monitor**  
`delete-monitor`Contoh berikut menghapus monitor bernama`Example_NetworkMonitor`.  

```
aws networkmonitor delete-monitor \
    --monitor-name Example_NetworkMonitor
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteMonitor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/delete-monitor.html)di *Referensi AWS CLI Perintah*. 

### `delete-probe`
<a name="networkmonitor_DeleteProbe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-probe`.

**AWS CLI**  
**Untuk menghapus probe**  
`delete-probe`Contoh berikut menghapus probe dengan ID `probe-12345` dari monitor jaringan bernama`Example_NetworkMonitor`.  

```
aws networkmonitor delete-probe \
    --monitor-name Example_NetworkMonitor \
    --probe-id probe-12345
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteProbe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/delete-probe.html)di *Referensi AWS CLI Perintah*. 

### `get-monitor`
<a name="networkmonitor_GetMonitor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-monitor`.

**AWS CLI**  
**Untuk mendapatkan informasi monitor**  
`get-monitor`Contoh berikut mendapat informasi tentang monitor bernama`Example_NetworkMonitor`.  

```
aws networkmonitor get-monitor \
    --monitor-name Example_NetworkMonitor
```
Output:  

```
{
    "monitorArn": "arn:aws:networkmonitor:region:012345678910:monitor/Example_NetworkMonitor",
    "monitorName": "Example_NetworkMonitor",
    "state": "ACTIVE",
    "aggregationPeriod": 60,
    "tags": {},
    "probes": [],
    "createdAt": "2024-04-01T17:58:07.211000-04:00",
    "modifiedAt": "2024-04-01T17:58:07.211000-04:00"
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetMonitor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/get-monitor.html)di *Referensi AWS CLI Perintah*. 

### `get-probe`
<a name="networkmonitor_GetProbe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-probe`.

**AWS CLI**  
**Untuk melihat detail probe**  
`get-probe`Contoh berikut mengembalikan rincian tentang probe dengan `probeID` `probe-12345` yang terkait dengan monitor bernama`Example_NetworkMonitor`.  

```
aws networkmonitor get-probe \
    --monitor-name Example_NetworkMonitor \
    --probe-id probe-12345
```
Output:  

```
{
    "probeId": "probe-12345",
    "probeArn": "arn:aws:networkmonitor:region:012345678910:probe/probe-12345",
    "sourceArn": "arn:aws:ec2:region:012345678910:subnet/subnet-12345",
    "destination": "10.0.0.100",
    "destinationPort": 80,
    "protocol": "TCP",
    "packetSize": 56,
    "addressFamily": "IPV4",
    "vpcId": "vpc-12345",
    "state": "ACTIVE",
    "createdAt": "2024-03-29T12:41:57.314000-04:00",
    "modifiedAt": "2024-03-29T12:42:28.610000-04:00",
    "tags": {
        "Name": "Probe1"
    }
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetProbe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/get-probe.html)di *Referensi AWS CLI Perintah*. 

### `list-monitors`
<a name="networkmonitor_ListMonitors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-monitors`.

**AWS CLI**  
**Contoh 1: Untuk daftar semua monitor (monitor tunggal)**  
`list-monitors`Contoh berikut mengembalikan daftar hanya satu monitor. Monitor `state` ini `ACTIVE` dan memiliki `aggregationPeriod` 60 detik.  

```
aws networkmonitor list-monitors
```
Output:  

```
{
    "monitors": [{
            "monitorArn": "arn:aws:networkmonitor:region:012345678910:monitor/Example_NetworkMonitor",
            "monitorName": "Example_NetworkMonitor",
            "state": "ACTIVE",
            "aggregationPeriod": 60,
            "tags": {
                "Monitor": "Monitor1"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
**Contoh 2: Untuk daftar semua monitor (beberapa monitor)**  
`list-monitors`Contoh berikut mengembalikan daftar tiga monitor. Salah `state` satu monitor adalah `ACTIVE` dan menghasilkan CloudWatch metrik. Status dari dua monitor lainnya adalah `INACTIVE` dan tidak menghasilkan CloudWatch metrik. Ketiga monitor menggunakan `aggregationPeriod` 60 detik.  

```
aws networkmonitor list-monitors
```
Output:  

```
{
    "monitors": [
        {
            "monitorArn": "arn:aws:networkmonitor:us-east-1:111122223333:monitor/Example_NetworkMonitor",
            "monitorName": "Example_NetworkMonitor",
            "state": "INACTIVE",
            "aggregationPeriod": 60,
            "tags": {}
        },
        {
            "monitorArn": "arn:aws:networkmonitor:us-east-1:111122223333:monitor/Example_NetworkMonitor2",
            "monitorName": "Example_NetworkMonitor2",
            "state": "ACTIVE",
            "aggregationPeriod": 60,
            "tags": {
                "Monitor": "Monitor1"
            }
        },
        {
            "monitorArn": "arn:aws:networkmonitor:us-east-1:111122223333:monitor/TestNetworkMonitor_CLI",
            "monitorName": "TestNetworkMonitor_CLI",
            "state": "INACTIVE",
            "aggregationPeriod": 60,
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListMonitors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/list-monitors.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="networkmonitor_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mengembalikan daftar tag untuk monitor bernama`Example_NetworkMonitor`.  

```
aws networkmonitor list-tags-for-resource \
    --resource-arn arn:aws:networkmonitor:region:012345678910:monitor/Example_NetworkMonitor
```
Output:  

```
{
    "tags": {
        "Environment": "Dev",
        "Application": "PetStore"
    }
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="networkmonitor_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut tag monitor bernama `Example_NetworkMonitor` dengan `Environment=Dev` dan `Application=PetStore` tag.  

```
aws networkmonitor tag-resource \
    --resource-arn arn:aws:networkmonitor:region:012345678910:monitor/Example_NetworkMonitor \
    --tags Environment=Dev,Application=PetStore
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="networkmonitor_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag sumber daya**  
`untag-resource`Contoh berikut menghapus `tag-keys` parameter dengan pasangan kunci-nilai `Environment Application` dari dari asosiasi dengan monitor bernama. `Example_NetworkMonitor`  

```
aws networkmonitor untag-resource \
    --resource-arn arn:aws:networkmonitor:region:012345678910:monitor/Example_NetworkMonitor \
    --tag-keys Environment Application
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-monitor`
<a name="networkmonitor_UpdateMonitor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-monitor`.

**AWS CLI**  
**Untuk memperbarui monitor**  
`update-monitor`Contoh berikut mengubah monitor `aggregationPeriod` dari `60` detik ke `30` detik.  

```
aws networkmonitor update-monitor \
    --monitor-name Example_NetworkMonitor \
    --aggregation-period 30
```
Output:  

```
{
    "monitorArn": "arn:aws:networkmonitor:region:012345678910:monitor/Example_NetworkMonitor",
    "monitorName": "Example_NetworkMonitor",
    "state": "PENDING",
    "aggregationPeriod": 30,
    "tags": {
        "Monitor": "Monitor1"
    }
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UpdateMonitor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/update-monitor.html)di *Referensi AWS CLI Perintah*. 

### `update-probe`
<a name="networkmonitor_UpdateProbe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-probe`.

**AWS CLI**  
**Untuk memperbarui probe**  
`update-probe`Contoh berikut memperbarui alamat `destination` IP asli probe dan juga memperbarui `packetSize` ke`60`.  

```
aws networkmonitor update-probe \
    --monitor-name Example_NetworkMonitor \
    --probe-id probe-12345 \
    --destination 10.0.0.150 \
    --packet-size 60
```
Output:  

```
{
    "probeId": "probe-12345",
    "probeArn": "arn:aws:networkmonitor:region:012345678910:probe/probe-12345",
    "sourceArn": "arn:aws:ec2:region:012345678910:subnet/subnet-12345",
    "destination": "10.0.0.150",
    "destinationPort": 80,
    "protocol": "TCP",
    "packetSize": 60,
    "addressFamily": "IPV4",
    "vpcId": "vpc-12345",
    "state": "PENDING",
    "createdAt": "2024-03-29T12:41:57.314000-04:00",
    "modifiedAt": "2024-03-29T13:52:23.115000-04:00",
    "tags": {
        "Name": "Probe1"
    }
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Monitor CloudWatch Jaringan Amazon](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/nw-monitor-how-it-works.html) *di Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UpdateProbe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmonitor/update-probe.html)di *Referensi AWS CLI Perintah*. 

# CloudWatch Contoh Monitor Akses Observabilitas menggunakan AWS CLI
<a name="cli_2_oam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Monitor Akses CloudWatch Observabilitas AWS Command Line Interface dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-link`
<a name="oam_CreateLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-link`.

**AWS CLI**  
**Untuk membuat tautan**  
`create-link`Contoh berikut membuat tautan antara akun sumber dan wastafel yang telah Anda buat di akun pemantauan.  

```
aws oam create-link \
    --label-template sourceAccount \
    --resource-types AWS::CloudWatch::Metric \
    --sink-identifier arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345
```
Output:  

```
{
    "Arn": "arn:aws:oam:us-east-2:123456789111:link/a1b2c3d4-5678-90ab-cdef-example11111",
    "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
    "Label": "sourceAccount",
    "LabelTemplate": "sourceAccount",
    "ResourceTypes": [
        "AWS::CloudWatch::Metric"
    ],
    "SinkArn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345",
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/create-link.html)di *Referensi AWS CLI Perintah*. 

### `create-sink`
<a name="oam_CreateSink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-sink`.

**AWS CLI**  
**Untuk membuat wastafel**  
`create-sink`Contoh berikut membuat sink di akun saat ini, sehingga dapat digunakan sebagai akun pemantauan dalam observabilitas CloudWatch lintas akun.  

```
aws oam create-sink \
    --name DemoSink
```
Output:  

```
{
    "Arn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345",
    "Id": "a1b2c3d4-5678-90ab-cdef-example12345",
    "Name": "DemoSink",
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateSink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/create-sink.html)di *Referensi AWS CLI Perintah*. 

### `delete-link`
<a name="oam_DeleteLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-link`.

**AWS CLI**  
**Untuk menghapus tautan**  
`delete-link`Contoh berikut menghapus tautan antara sink akun pemantauan dan akun sumber.  

```
aws oam delete-link \
    --identifier arn:aws:oam:us-east-2:123456789111:link/a1b2c3d4-5678-90ab-cdef-example11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/delete-link.html)di *Referensi AWS CLI Perintah*. 

### `delete-sink`
<a name="oam_DeleteSink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-sink`.

**AWS CLI**  
**Untuk menghapus wastafel**  
`delete-sink`Contoh berikut menghapus wastafel. Anda harus menghapus semua tautan ke wastafel sebelum Anda dapat menghapus wastafel itu.  

```
aws oam delete-sink \
    --identifier arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteSink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/delete-sink.html)di *Referensi AWS CLI Perintah*. 

### `get-link`
<a name="oam_GetLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-link`.

**AWS CLI**  
**Untuk mengembalikan informasi lengkap tentang satu tautan**  
`get-link`Contoh berikut mengembalikan informasi lengkap tentang link.  

```
aws oam get-link \
    --identifier arn:aws:oam:us-east-2:123456789111:link/a1b2c3d4-5678-90ab-cdef-example11111
```
Output:  

```
{
    "Arn": "arn:aws:oam:us-east-2:123456789111:link/a1b2c3d4-5678-90ab-cdef-example11111",
    "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
    "Label": "sourceAccount",
    "LabelTemplate": "sourceAccount",
    "ResourceTypes": [
        "AWS::CloudWatch::Metric"
    ],
    "SinkArn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345",
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [GetLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/get-link.html)di *Referensi AWS CLI Perintah*. 

### `get-sink-policy`
<a name="oam_GetSinkPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sink-policy`.

**AWS CLI**  
**Untuk mengembalikan kebijakan wastafel saat ini yang terpasang pada wastafel**  
`get-sink-policy`Contoh berikut mengembalikan kebijakan wastafel saat ini yang dilampirkan ke wastafel.  

```
aws oam get-sink-policy \
    --sink-identifier arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345
```
Output:  

```
{
    "SinkArn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345",
    "SinkId": "a1b2c3d4-5678-90ab-cdef-example12345",
    "Policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::123456789111:root\"},\"Action\":[\"oam:CreateLink\",\"oam:UpdateLink\"],\"Resource\":\"*\",\"Condition\":{\"ForAllValues:StringEquals\":{\"oam:ResourceTypes\":[\"AWS::Logs::LogGroup\",\"AWS::CloudWatch::Metric\",\"AWS::XRay::Trace\",\"AWS::ApplicationInsights::Application\"]}}}]}"
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [GetSinkPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/get-sink-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-sink`
<a name="oam_GetSink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sink`.

**AWS CLI**  
**Untuk mengembalikan informasi lengkap tentang satu wastafel akun pemantauan**  
`get-sink`Contoh berikut mengembalikan informasi lengkap tentang wastafel akun pemantauan.  

```
aws oam get-sink \
    --identifier arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345
```
Output:  

```
{
    "Arn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345",
    "Id": "a1b2c3d4-5678-90ab-cdef-example12345",
    "Name": "DemoSink",
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [GetSink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/get-sink.html)di *Referensi AWS CLI Perintah*. 

### `list-attached-links`
<a name="oam_ListAttachedLinks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attached-links`.

**AWS CLI**  
**Untuk mengembalikan daftar tautan akun sumber yang ditautkan ke sink akun pemantauan ini**  
`list-attached-links`Contoh berikut mengembalikan daftar tautan akun sumber yang ditautkan ke sink akun pemantauan ini.  

```
aws oam list-attached-links \
    --sink-identifier arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345
```
Output:  

```
{
    "Items": [{
        "Label": "Monitoring account",
        "LinkArn": "arn:aws:oam:us-east-2:123456789111:link/a1b2c3d4-5678-90ab-cdef-example11111",
        "ResourceTypes": [
            "AWS::ApplicationInsights::Application",
            "AWS::Logs::LogGroup",
            "AWS::CloudWatch::Metric",
            "AWS::XRay::Trace"
        ]
    }]
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [ListAttachedLinks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/list-attached-links.html)di *Referensi AWS CLI Perintah*. 

### `list-links`
<a name="oam_ListLinks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-links`.

**AWS CLI**  
**Untuk mengembalikan daftar tautan untuk satu wastafel akun pemantauan**  
`list-links`Contoh berikut mengembalikan daftar link untuk satu monitor account sink. Jalankan operasi ini di akun sumber untuk mengembalikan daftar tautan ke sink akun pemantauan yang dimiliki akun sumber ini.  

```
aws oam list-links
```
Output:  

```
{
    "Items": [{
        "Arn": "arn:aws:oam:us-east-2:123456789111:link/a1b2c3d4-5678-90ab-cdef-example11111",
        "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
        "Label": "sourceAccount",
        "ResourceTypes": [
            "AWS::CloudWatch::Metric"
        ],
        "SinkArn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345"
    }]
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [ListLinks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/list-links.html)di *Referensi AWS CLI Perintah*. 

### `list-sinks`
<a name="oam_ListSinks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-sinks`.

**AWS CLI**  
**Untuk mengembalikan daftar sink yang dibuat di akun pemantauan**  
`list-sinks`Contoh berikut mengembalikan daftar sink yang dibuat di akun pemantauan. Jalankan operasi ini di akun pemantauan.  

```
aws oam list-sinks
```
Output:  

```
{
    "Items": [
        {
            "Arn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345",
            "Id": "a1b2c3d4-5678-90ab-cdef-example12345",
            "Name": "DemoSink"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [ListSinks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/list-sinks.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="oam_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk menampilkan tag yang terkait dengan sumber daya**  
`list-tags-for-resource`Contoh berikut menampilkan tag yang terkait dengan wastafel.  

```
aws oam list-tags-for-resource \
    --resource-arn arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345
```
Output:  

```
{
    "Tags": {
        "Team": "Devops"
    }
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-sink-policy`
<a name="oam_PutSinkPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-sink-policy`.

**AWS CLI**  
**Untuk membuat atau memperbarui kebijakan sumber daya**  
`put-sink-policy`Contoh berikut membuat kebijakan sumber daya yang memberikan izin ke akun sumber untuk ditautkan ke sink akun pemantauan.  

```
aws oam put-sink-policy \
    --policy '{"Version":"2012-10-17",		 	 	 "Statement":[{"Effect":"Allow","Principal":{"AWS":"arn:aws:iam::123456789111:root"},"Action":["oam:CreateLink","oam:UpdateLink"],"Resource":"*","Condition":{"ForAllValues:StringEquals":{"oam:ResourceTypes":["AWS::Logs::LogGroup","AWS::CloudWatch::Metric","AWS::XRay::Trace","AWS::ApplicationInsights::Application"]}}}]}' \
    --sink-identifier arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345
```
Output:  

```
{
    "SinkArn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345",
    "SinkId": "a1b2c3d4-5678-90ab-cdef-example12345",
    "Policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::123456789111:root\"},\"Action\":[\"oam:CreateLink\",\"oam:UpdateLink\"],\"Resource\":\"*\",\"Condition\":{\"ForAllValues:StringEquals\":{\"oam:ResourceTypes\":[\"AWS::Logs::LogGroup\",\"AWS::CloudWatch::Metric\",\"AWS::XRay::Trace\",\"AWS::ApplicationInsights::Application\"]}}}]}"
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [PutSinkPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/put-sink-policy.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="oam_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menetapkan satu atau beberapa tag ke sumber daya yang ditentukan**  
`tag-resource`Contoh berikut menandai wastafel`arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345`.  

```
aws oam tag-resource \
    --resource-arn arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345 \
    --tags team=Devops
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="oam_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus satu atau lebih tag dari sumber daya yang ditentukan.**  
`untag-resource`Contoh berikut menghapus tag dengan kunci `team` dari wastafel`arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345`.  

```
aws oam untag-resource \
    --resource-arn arn:aws:oam:us-east-2:123456789012:sink/f3f42f60-f0f2-425c-1234-12347bdd821f \
    --tag-keys team
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-link`
<a name="oam_UpdateLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-link`.

**AWS CLI**  
**Untuk mengubah jenis data apa yang dibagikan dari akun sumber ke sink akun pemantauan tertaut**  
`update-link`Contoh berikut memperbarui tautan `arn:aws:oam:us-east-2:123456789111:link/0123e691-e7ef-43fa-1234-c57c837fced0` dengan jenis sumber daya `AWS::CloudWatch::Metric` dan`AWS::Logs::LogGroup`.  

```
aws oam update-link \
    --identifier arn:aws:oam:us-east-2:123456789111:link/a1b2c3d4-5678-90ab-cdef-example11111 \
    --resource-types "AWS::CloudWatch::Metric" "AWS::Logs::LogGroup"
```
Output:  

```
{
    "Arn": "arn:aws:oam:us-east-2:123456789111:link/a1b2c3d4-5678-90ab-cdef-example11111",
    "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
    "Label": "sourceAccount",
    "LabelTemplate": "sourceAccount",
    "ResourceTypes": [
        "AWS::CloudWatch::Metric",
        "AWS::Logs::LogGroup"
    ],
    "SinkArn": "arn:aws:oam:us-east-2:123456789012:sink/a1b2c3d4-5678-90ab-cdef-example12345",
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [observabilitas CloudWatch lintas akun](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Unified-Cross-Account.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [UpdateLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/oam/update-link.html)di *Referensi AWS CLI Perintah*. 

# CloudWatch Contoh Admin Observabilitas menggunakan AWS CLI
<a name="cli_2_observabilityadmin_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Admin CloudWatch Observability AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `get-telemetry-evaluation-status-for-organization`
<a name="observabilityadmin_GetTelemetryEvaluationStatusForOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-telemetry-evaluation-status-for-organization`.

**AWS CLI**  
**Untuk mendapatkan status orientasi telemetri untuk organisasi**  
`get-telemetry-evaluation-status-for-organization`Contoh berikut mengembalikan status orientasi saat ini dari fitur konfigurasi telemetri untuk organisasi.  

```
aws observabilityadmin get-telemetry-evaluation-status-for-organization
```
Output:  

```
{
    "Status": "RUNNING"
}
```
*Untuk informasi selengkapnya, lihat [Mengaudit konfigurasi CloudWatch telemetri di Panduan Pengguna](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/telemetry-config-cloudwatch.html) Amazon. CloudWatch *  
+  Untuk detail API, lihat [GetTelemetryEvaluationStatusForOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/observabilityadmin/get-telemetry-evaluation-status-for-organization.html)di *Referensi AWS CLI Perintah*. 

### `get-telemetry-evaluation-status`
<a name="observabilityadmin_GetTelemetryEvaluationStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-telemetry-evaluation-status`.

**AWS CLI**  
**Untuk mendapatkan status orientasi telemetri untuk akun**  
`get-telemetry-evaluation-status`Contoh berikut mengembalikan status orientasi saat ini dari fitur konfigurasi telemetri di akun yang ditentukan.  

```
aws observabilityadmin get-telemetry-evaluation-status
```
Output:  

```
{
    "Status": "RUNNING"
}
```
*Untuk informasi selengkapnya, lihat [Mengaudit konfigurasi CloudWatch telemetri di Panduan Pengguna](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/telemetry-config-cloudwatch.html) Amazon. CloudWatch *  
+  Untuk detail API, lihat [GetTelemetryEvaluationStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/observabilityadmin/get-telemetry-evaluation-status.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-telemetry-for-organization`
<a name="observabilityadmin_ListResourceTelemetryForOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-telemetry-for-organization`.

**AWS CLI**  
**Untuk mengambil konfigurasi telemetri untuk organisasi**  
`list-resource-telemetry-for-organization`Contoh berikut mengembalikan daftar konfigurasi telemetri dalam organisasi untuk AWS sumber daya yang didukung oleh konfigurasi telemetri.  

```
aws observabilityadmin list-resource-telemetry-for-organization \
    --resource-types  AWS::EC2::Instance
```
Output:  

```
{
    "TelemetryConfigurations": [
        {
            "AccountIdentifier": "111111111111",
            "TelemetryConfigurationState": {
                "Logs": "NotApplicable",
                "Metrics": "Disabled",
                "Traces": "NotApplicable"
            },
            "ResourceType": "AWS::EC2::Instance",
            "ResourceIdentifier": "i-a166400b",
            "ResourceTags": {
                "Name": "dev"
            },
            "LastUpdateTimeStamp": 1733168548521
        },
        {
            "AccountIdentifier": "222222222222",
            "TelemetryConfigurationState": {
                "Logs": "NotApplicable",
                "Metrics": "Disabled",
                "Traces": "NotApplicable"
            },
            "ResourceType": "AWS::EC2::Instance",
            "ResourceIdentifier": "i-b188560f",
            "ResourceTags": {
                "Name": "apache"
            },
            "LastUpdateTimeStamp": 1732744260182
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mengaudit konfigurasi CloudWatch telemetri di Panduan Pengguna](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/telemetry-config-cloudwatch.html) Amazon. CloudWatch *  
+  Untuk detail API, lihat [ListResourceTelemetryForOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/observabilityadmin/list-resource-telemetry-for-organization.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-telemetry`
<a name="observabilityadmin_ListResourceTelemetry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-telemetry`.

**AWS CLI**  
**Untuk mengambil konfigurasi telemetri untuk akun**  
`list-resource-telemetry`Contoh berikut mengembalikan daftar konfigurasi telemetri untuk AWS sumber daya yang didukung oleh konfigurasi telemetri di akun tertentu.  

```
aws observabilityadmin list-resource-telemetry \
    --resource-types  AWS::EC2::Instance
```
Output:  

```
{
    "TelemetryConfigurations": [
        {
            "AccountIdentifier": "111111111111",
            "TelemetryConfigurationState": {
                "Logs": "NotApplicable",
                "Metrics": "Disabled",
                "Traces": "NotApplicable"
            },
            "ResourceType": "AWS::EC2::Instance",
            "ResourceIdentifier": "i-0e979d278b040f856",
            "ResourceTags": {
                "Name": "apache"
            },
            "LastUpdateTimeStamp": 1732744260182
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mengaudit konfigurasi CloudWatch telemetri di Panduan Pengguna](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/telemetry-config-cloudwatch.html) Amazon. CloudWatch *  
+  Untuk detail API, lihat [ListResourceTelemetry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/observabilityadmin/list-resource-telemetry.html)di *Referensi AWS CLI Perintah*. 

### `start-telemetry-evaluation-for-organization`
<a name="observabilityadmin_StartTelemetryEvaluationForOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-telemetry-evaluation-for-organization`.

**AWS CLI**  
**Untuk mengaktifkan fitur konfigurasi telemetri**  
`start-telemetry-evaluation-for-organization`Contoh berikut mengaktifkan fitur konfigurasi telemetri untuk organisasi.  

```
aws observabilityadmin start-telemetry-evaluation-for-organization
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan audit CloudWatch telemetri di Panduan](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/telemetry-config-turn-on.html) Pengguna *Amazon CloudWatch *.  
+  Untuk detail API, lihat [StartTelemetryEvaluationForOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/observabilityadmin/start-telemetry-evaluation-for-organization.html)di *Referensi AWS CLI Perintah*. 

### `start-telemetry-evaluation`
<a name="observabilityadmin_StartTelemetryEvaluation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-telemetry-evaluation`.

**AWS CLI**  
**Untuk mengaktifkan fitur konfigurasi telemetri**  
`start-telemetry-evaluation`Contoh berikut mengaktifkan fitur konfigurasi telemetri di akun yang ditentukan.  

```
aws observabilityadmin start-telemetry-evaluation
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan audit CloudWatch telemetri di Panduan](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/telemetry-config-turn-on.html) Pengguna *Amazon CloudWatch *.  
+  Untuk detail API, lihat [StartTelemetryEvaluation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/observabilityadmin/start-telemetry-evaluation.html)di *Referensi AWS CLI Perintah*. 

### `stop-telemetry-evaluation-for-organization`
<a name="observabilityadmin_StopTelemetryEvaluationForOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-telemetry-evaluation-for-organization`.

**AWS CLI**  
**Untuk menonaktifkan fitur konfigurasi telemetri**  
`stop-telemetry-evaluation-for-organization`Contoh berikut menonaktifkan fitur konfigurasi telemetri untuk organisasi.  

```
aws observabilityadmin stop-telemetry-evaluation-for-organization
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan audit CloudWatch telemetri](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/telemetry-config-turn-off.html) di Panduan Pengguna *Amazon CloudWatch *.  
+  Untuk detail API, lihat [StopTelemetryEvaluationForOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/observabilityadmin/stop-telemetry-evaluation-for-organization.html)di *Referensi AWS CLI Perintah*. 

### `stop-telemetry-evaluation`
<a name="observabilityadmin_StopTelemetryEvaluation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-telemetry-evaluation`.

**AWS CLI**  
**Untuk menonaktifkan fitur konfigurasi telemetri**  
`stop-telemetry-evaluation`Contoh berikut menonaktifkan fitur konfigurasi telemetri di akun yang ditentukan.  

```
aws observabilityadmin stop-telemetry-evaluation
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan audit CloudWatch telemetri](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/telemetry-config-turn-off.html) di Panduan Pengguna *Amazon CloudWatch *.  
+  Untuk detail API, lihat [StopTelemetryEvaluation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/observabilityadmin/stop-telemetry-evaluation.html)di *Referensi AWS CLI Perintah*. 

# CloudWatch Contoh Synthetics menggunakan AWS CLI
<a name="cli_2_synthetics_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CloudWatch Synthetics.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-resource`
<a name="synthetics_AssociateResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-resource`.

**AWS CLI**  
**Untuk mengasosiasikan kenari dengan grup**  
`associate-resource`Contoh berikut mengaitkan kenari dengan grup bernama. `demo_group`  

```
aws synthetics associate-resource \
    --group-identifier demo_group \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:canary:demo_canary
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [AssociateResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/associate-resource.html)di *Referensi AWS CLI Perintah*. 

### `create-canary`
<a name="synthetics_CreateCanary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-canary`.

**AWS CLI**  
**Untuk membuat kenari**  
`create-canary`Contoh berikut menciptakan kenari bernama`demo_canary`.  

```
aws synthetics create-canary \
    --name demo_canary \
    --code '{"S3Bucket": "artifacts3bucket", "S3Key":"demo_canary.zip", "Handler": "index.lambda_handler"}' \
    --artifact-s3-location s3://amzn-s3-demo-bucket/demo_canary.zip \
    --execution-role-arn arn:aws:iam::123456789012:role/demo_canary_role \
    --schedule Expression="rate(10 minutes)" \
    --runtime-version syn-nodejs-puppeteer-9.1
```
Output:  

```
{
    "Canary": {
        "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
        "Name": "demo_canary",
        "Code": {
            "Handler": "index.lambda_handler"
        },
        "ExecutionRoleArn": "arn:aws:iam::123456789012:role/demo_canary_role",
        "Schedule": {
            "Expression": "rate(10 minutes)",
            "DurationInSeconds": 0
        },
        "RunConfig": {
            "TimeoutInSeconds": 600,
            "MemoryInMB": 1000,
            "ActiveTracing": false
        },
        "SuccessRetentionPeriodInDays": 31,
        "FailureRetentionPeriodInDays": 31,
        "Status": {
            "State": "CREATING",
            "StateReasonCode": "CREATE_PENDING"
        },
        "Timeline": {
            "Created": "2024-10-15T19:03:08.826000+05:30",
            "LastModified": "2024-10-15T19:03:08.826000+05:30"
        },
        "ArtifactS3Location": "amzn-s3-demo-bucket/demo_canary.zip",
        "RuntimeVersion": "syn-nodejs-puppeteer-9.1",
        "Tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateCanary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/create-canary.html)di *Referensi AWS CLI Perintah*. 

### `create-group`
<a name="synthetics_CreateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group`.

**AWS CLI**  
**Untuk membuat grup**  
`create-group`Contoh berikut membuat grup bernama`demo_group`.  

```
aws synthetics create-group \
    --name demo_group
```
Output:  

```
{
    "Group": {
        "Id": "example123",
        "Name": "demo_group",
        "Arn": "arn:aws:synthetics:us-east-1:123456789012:group:example123",
        "Tags": {},
        "CreatedTime": "2024-10-15T14:47:23.811000+05:30",
        "LastModifiedTime": "2024-10-15T14:47:23.811000+05:30"
    }
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/create-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-canary`
<a name="synthetics_DeleteCanary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-canary`.

**AWS CLI**  
**Untuk menghapus kenari secara permanen**  
`delete-canary`Contoh berikut menghapus kenari bernama. `demo_canary`  

```
aws synthetics delete-canary \
    --name demo_canary
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteCanary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/delete-canary.html)di *Referensi AWS CLI Perintah*. 

### `delete-group`
<a name="synthetics_DeleteGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group`.

**AWS CLI**  
**Untuk menghapus grup**  
`delete-group`Contoh berikut menghapus grup bernama`demo_group`.  

```
aws synthetics delete-group \
    --group-identifier demo_group
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/delete-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-canaries-last-run`
<a name="synthetics_DescribeCanariesLastRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-canaries-last-run`.

**AWS CLI**  
**Untuk melihat informasi dari lari terbaru dari setiap kenari**  
`describe-canaries-last-run`Contoh berikut mengembalikan run terbaru dari setiap kenari yang telah Anda buat.  

```
aws synthetics describe-canaries-last-run
```
Output:  

```
{
    "CanariesLastRun": [
        {
            "CanaryName": "demo_canary",
            "LastRun": {
                "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
                "Name": "demo_canary",
                "Status": {
                    "State": "PASSED",
                    "StateReason": "",
                    "StateReasonCode": ""
                },
                "Timeline": {
                    "Started": "2024-10-15T19:20:39.691000+05:30",
                    "Completed": "2024-10-15T19:20:58.211000+05:30"
                },
                "ArtifactS3Location": "cw-syn-results-123456789012-us-east-1/canary/us-east-1/demo_canary-abc-example1234/2024/10/15/13/50-39-690"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DescribeCanariesLastRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/describe-canaries-last-run.html)di *Referensi AWS CLI Perintah*. 

### `describe-canaries`
<a name="synthetics_DescribeCanaries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-canaries`.

**AWS CLI**  
**Untuk daftar kenari di akun Anda**  
`describe-canaries`Contoh berikut mencantumkan detail kenari di akun Anda.  

```
aws synthetics describe-canaries
```
Output:  

```
{
    "Canaries": [
        {
            "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
            "Name": "demo_canary",
            "Code": {
                "SourceLocationArn": "arn:aws:lambda:us-east-1:123456789012:layer:cwsyn-demo_canary-a1b2c3d4-5678-90ab-cdef-example11111b8:1",
                "Handler": "pageLoadBlueprint.handler"
            },
            "ExecutionRoleArn": "arn:aws:iam::123456789012:role/service-role/CloudWatchSyntheticsRole-demo_canary-a12-a123bc456789",
            "Schedule": {
                "Expression": "rate(5 minutes)",
                "DurationInSeconds": 0
            },
            "RunConfig": {
                "TimeoutInSeconds": 300,
                "MemoryInMB": 1000,
                "ActiveTracing": false
            },
            "SuccessRetentionPeriodInDays": 31,
            "FailureRetentionPeriodInDays": 31,
            "Status": {
            "State": "RUNNING"
            },
            "Timeline": {
                "Created": "2024-10-15T18:55:15.168000+05:30",
                "LastModified": "2024-10-15T18:55:40.540000+05:30",
                "LastStarted": "2024-10-15T18:55:40.540000+05:30"
            },
            "ArtifactS3Location": "cw-syn-results-123456789012-us-east-1/canary/us-east-1/demo_canary-a12-a123bc456789",
            "EngineArn": "arn:aws:lambda:us-east-1:123456789012:function:cwsyn-demo_canary-a1b2c3d4-5678-90ab-cdef-example111118:1",
            "RuntimeVersion": "syn-nodejs-puppeteer-9.1",
            "Tags": {
                "blueprint": "heartbeat"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DescribeCanaries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/describe-canaries.html)di *Referensi AWS CLI Perintah*. 

### `describe-runtime-versions`
<a name="synthetics_DescribeRuntimeVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-runtime-versions`.

**AWS CLI**  
**Untuk mengembalikan daftar versi runtime kenari sintetis**  
`describe-runtime-versions`Contoh berikut mengembalikan daftar versi runtime kenari sintetis.  

```
aws synthetics describe-runtime-versions
```
Output:  

```
{
    "RuntimeVersions": [
        {
            "VersionName": "syn-nodejs-puppeteer-9.1",
            "Description": "Security fixes and bug fix for date range error in har. Dependencies: Node JS 20.x, Puppeteer-core 22.12.1, Chromium 126.0.6478.126",
            "ReleaseDate": "2024-10-02T05:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-9.0",
            "Description": "Upgraded Chromium and Puppeteer. Dependencies: Node JS 20.x, Puppeteer-core 22.12.1, Chromium 126.0.6478.126",
            "ReleaseDate": "2024-07-22T05:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-8.0",
            "Description": "Upgraded Chromium and Puppeteer. Dependencies: Node JS 20.x, Puppeteer-core 22.10.0, Chromium 125.0.6422.112",
            "ReleaseDate": "2024-06-21T05:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-7.0",
            "Description": "Upgraded Chromium and Puppeteer. Dependencies: Node JS 18.x, Puppeteer-core 21.9.0, Chromium 121.0.6167.139",
            "ReleaseDate": "2024-03-08T05:30:00+05:30"
            },
        {
            "VersionName": "syn-nodejs-puppeteer-6.2",
            "Description": "Updated shared libraries for Chromium and added ephemeral storage monitoring. Dependencies: Node JS 18.x, Puppeteer-core 19.7.0, Chromium 111.0.5563.146",
            "ReleaseDate": "2024-02-02T05:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-6.1",
            "Description": "Added puppeteer launch retry. Dependencies: Node JS 18.x, Puppeteer-core 19.7.0, Chromium 111.0.5563.146",
            "ReleaseDate": "2023-11-13T05:30:00+05:30",
            "DeprecationDate": "2024-03-08T13:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-6.0",
            "Description": "Reduced X-Ray traces of a canary run, improved duration metric and upgraded to NodeJS 18.x. Dependencies: Node JS 18.x, Puppeteer-core 19.7.0, Chromium 111.0.5563.146",
            "ReleaseDate": "2023-09-15T05:30:00+05:30",
            "DeprecationDate": "2024-03-08T13:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-5.2",
            "Description": "Updated shared libraries for Chromium. Dependencies: Node JS 16.x, Puppeteer-core 19.7.0, Chromium 111.0.5563.146",
            "ReleaseDate": "2024-02-01T05:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-5.1",
            "Description": "Fixes a bug about missing request headers in har. Dependencies: Node JS 16.x, Puppeteer-core 19.7.0, Chromium 111.0.5563.146",
            "ReleaseDate": "2023-08-09T05:30:00+05:30",
            "DeprecationDate": "2024-03-08T13:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-5.0",
            "Description": "Upgraded Puppeteer and Chromium. Dependencies: Node JS 16.x, Puppeteer-core 19.7.0, Chromium 111.0.5563.146",
            "ReleaseDate": "2023-07-21T05:30:00+05:30",
            "DeprecationDate": "2024-03-08T13:30:00+05:30"
        },
        {
            "VersionName": "syn-nodejs-puppeteer-4.0",
            "Description": "Upgraded to NodeJS 16.x. Dependencies: Node JS 16.x, Puppeteer-core 5.5.0, Chromium 92.0.4512.0",
            "ReleaseDate": "2023-05-01T05:30:00+05:30",
            "DeprecationDate": "2024-03-08T13:30:00+05:30"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DescribeRuntimeVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/describe-runtime-versions.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-resource`
<a name="synthetics_DisassociateResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-resource`.

**AWS CLI**  
**Untuk menghapus kenari dari grup**  
`disassociate-resource`Contoh berikut menghapus kenari dari grup bernama`demo_group`.  

```
aws synthetics disassociate-resource \
    --group-identifier demo_group \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:canary:demo_canary
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DisassociateResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/disassociate-resource.html)di *Referensi AWS CLI Perintah*. 

### `get-canary-runs`
<a name="synthetics_GetCanaryRuns_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-canary-runs`.

**AWS CLI**  
**Untuk mengambil daftar run untuk kenari tertentu**  
`get-canary-runs`Contoh berikut mengambil daftar run untuk kenari bernama. `demo_canary`  

```
aws synthetics get-canary-runs \
    --name demo_canary
```
Output:  

```
{
    "CanaryRuns": [
        {
            "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
            "Name": "demo_canary",
            "Status": {
                "State": "PASSED",
                "StateReason": "",
                "StateReasonCode": ""
            },
            "Timeline": {
                "Started": "2024-10-16T10:38:57.013000+05:30",
                "Completed": "2024-10-16T10:39:25.793000+05:30"
            },
            "ArtifactS3Location": "cw-syn-results-123456789012-us-east-1/canary/us-east-1/demo_canary-abc-example1234/2024/10/15/13/50-39-690"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetCanaryRuns](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/get-canary-runs.html)di *Referensi AWS CLI Perintah*. 

### `get-canary`
<a name="synthetics_GetCanary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-canary`.

**AWS CLI**  
**Untuk mengambil informasi lengkap tentang satu kenari**  
`get-canary`Contoh berikut mengambil informasi lengkap tentang kenari bernama. `demo_canary`  

```
aws synthetics get-canary \
    --name demo_canary
```
Output:  

```
{
    "Canary": {
        "Id": "a1b2c3d4-5678-90ab-cdef-example11111",
        "Name": "demo_canary",
        "Code": {
            "SourceLocationArn": "arn:aws:lambda:us-east-1:123456789012:layer:cwsyn-demo_canary-a1b2c3d4-5678-90ab-cdef-example111118:1",
            "Handler": "pageLoadBlueprint.handler"
        },
        "ExecutionRoleArn": "arn:aws:iam::123456789012:role/demo_canary_role",
        "Schedule": {
            "Expression": "rate(10 minutes)",
            "DurationInSeconds": 0
        },
        "RunConfig": {
            "TimeoutInSeconds": 300,
            "MemoryInMB": 1000,
            "ActiveTracing": false
        },
        "SuccessRetentionPeriodInDays": 31,
        "FailureRetentionPeriodInDays": 31,
        "Status": {
            "State": "RUNNING"
        },
        "Timeline": {
            "Created": "2024-10-15T18:55:15.168000+05:30",
            "LastModified": "2024-10-15T18:55:40.540000+05:30",
            "LastStarted": "2024-10-15T18:55:40.540000+05:30"
        },
        "ArtifactS3Location": "cw-syn-results-123456789012-us-east-1/canary/us-east-1/demo_canary-a12-a123bc456789",
        "EngineArn": "arn:aws:lambda:us-east-1:123456789012:function:cwsyn-demo_canary-a1b2c3d4-5678-90ab-cdef-example111118:1",
        "RuntimeVersion": "syn-nodejs-puppeteer-9.1",
        "Tags": {
            "blueprint": "heartbeat"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetCanary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/get-canary.html)di *Referensi AWS CLI Perintah*. 

### `get-group`
<a name="synthetics_GetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang satu grup**  
`get-group`Contoh berikut mengembalikan informasi tentang grup bernama`demo_group`.  

```
aws synthetics get-group \
    --group-identifier demo_group
```
Output:  

```
{
    "Group": {
        "Id": "example123",
        "Name": "demo_group",
        "Arn": "arn:aws:synthetics:us-east-1:123456789012:group:example123",
        "Tags": {},
        "CreatedTime": "2024-10-15T14:47:23.811000+05:30",
        "LastModifiedTime": "2024-10-15T14:47:23.811000+05:30"
    }
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/get-group.html)di *Referensi AWS CLI Perintah*. 

### `list-associated-groups`
<a name="synthetics_ListAssociatedGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-associated-groups`.

**AWS CLI**  
**Untuk mengembalikan daftar grup**  
`list-associated-groups`Contoh berikut mengembalikan daftar kelompok yang terkait dengan kenari bernama`demo_canary`.  

```
aws synthetics list-associated-groups \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:canary:demo_canary
```
Output:  

```
{
    "Groups": [
        {
            "Id": "example123",
            "Name": "demo_group",
            "Arn": "arn:aws:synthetics:us-east-1:123456789012:group:example123"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListAssociatedGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/list-associated-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-group-resources`
<a name="synthetics_ListGroupResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-group-resources`.

**AWS CLI**  
**Untuk mengembalikan daftar ARNs kenari yang terkait dengan grup yang ditentukan**  
`list-group-resources`Contoh berikut mengembalikan daftar kenari yang terkait dengan grup bernama`demo_group`. ARNs   

```
aws synthetics list-group-resources \
    --group-identifier demo_group
```
Output:  

```
{
    "Resources": [
        "arn:aws:synthetics:us-east-1:123456789012:canary:demo_canary"
    ]
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListGroupResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/list-group-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-groups`
<a name="synthetics_ListGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups`.

**AWS CLI**  
**Untuk mengembalikan daftar semua grup di akun**  
`list-groups`Contoh berikut mengembalikan daftar semua grup dalam akun.  

```
aws synthetics list-groups
```
Output:  

```
{
    "Groups": [
        {
            "Id": "example123",
            "Name": "demo_group",
            "Arn": "arn:aws:synthetics:us-east-1:123456789012:group:example123"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/list-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="synthetics_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Contoh 1: Untuk menampilkan tag yang terkait dengan kenari**  
`list-tags-for-resource`Contoh berikut mengembalikan tag yang terkait dengan kenari bernama`demo_canary`.  

```
aws synthetics list-tags-for-resource \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:canary:demo_canary
```
Output:  

```
{
    "Tags": {
        "blueprint": "heartbeat"
    }
}
```
**Contoh 2: Untuk menampilkan tag yang terkait dengan grup**  
`list-tags-for-resource`Contoh berikut mengembalikan tag yang terkait dengan grup bernama`demo_group`.  

```
aws  synthetics list-tags-for-resource \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:group:example123
```
Output:  

```
{
    "Tags": {
        "team": "Devops"
    }
}
```
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-canary`
<a name="synthetics_StartCanary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-canary`.

**AWS CLI**  
**Untuk menjalankan kenari**  
`start-canary`Contoh berikut menjalankan kenari bernama`demo_canary`.  

```
aws synthetics start-canary \
    --name demo_canary
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [StartCanary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/start-canary.html)di *Referensi AWS CLI Perintah*. 

### `stop-canary`
<a name="synthetics_StopCanary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-canary`.

**AWS CLI**  
**Untuk menghentikan kenari**  
`stop-canary`Contoh berikut menghentikan nama `demo_canary` kenari.  

```
aws synthetics stop-canary \
    --name demo_canary
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [StopCanary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/stop-canary.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="synthetics_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menetapkan tag ke kenari**  
`tag-resource`Contoh berikut memberikan tag ke kenari bernama. `demo_canary`  

```
aws synthetics tag-resource \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:canary:demo_canary \
    --tags blueprint=heartbeat
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menetapkan tag ke grup**  
`tag-resource`Contoh berikut memberikan tag ke grup bernama`demo_group`.  

```
aws synthetics tag-resource \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:group:example123 \
    --tags team=Devops
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="synthetics_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menghapus tag dari kenari**  
`untag-resource`Contoh berikut menghapus tag dari kenari bernama`demo_canary`.  

```
aws synthetics untag-resource \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:canary:demo_canary \
    --tag-keys blueprint
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menghapus tag dari grup**  
`untag-resource`Contoh berikut menetapkan menghapus tag dari grup bernama`demo_group`.  

```
aws synthetics untag-resource \
    --resource-arn arn:aws:synthetics:us-east-1:123456789012:group:example123 \
    --tag-keys team
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-canary`
<a name="synthetics_UpdateCanary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-canary`.

**AWS CLI**  
**Untuk memperbarui kenari**  
`update-canary`Contoh berikut memperbarui konfigurasi kenari bernama`demo_canary`.  

```
aws synthetics update-canary \
    --name demo_canary \
    --schedule Expression="rate(15 minutes)"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemantauan sintetis (kenari)](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Synthetics_Canaries.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UpdateCanary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/synthetics/update-canary.html)di *Referensi AWS CLI Perintah*. 

# CodeArtifact contoh menggunakan AWS CLI
<a name="cli_2_codeartifact_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CodeArtifact.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-external-connection`
<a name="codeartifact_AssociateExternalConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-external-connection`.

**AWS CLI**  
**Untuk menambahkan koneksi eksternal ke repositori**  
`associate-external-connection`Contoh berikut menambahkan koneksi eksternal ke npmjs.com ke repositori bernama test-repo.  

```
aws codeartifact associate-external-connection \
    --repository test-repo \
    --domain test-domain \
    --external-connection public:npmjs
```
Output:  

```
{
    "repository": {
        "name": "test-repo",
        "administratorAccount": "111122223333",
        "domainName": "test-domain",
        "domainOwner": "111122223333",
        "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo",
        "upstreams": [],
        "externalConnections": [
            {
                "externalConnectionName": "public:npmjs",
                "packageFormat": "npm",
                "status": "AVAILABLE"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan koneksi eksternal](https://docs.aws.amazon.com/codeartifact/latest/ug/external-connection.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [AssociateExternalConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/associate-external-connection.html)di *Referensi AWS CLI Perintah*. 

### `copy-package-versions`
<a name="codeartifact_CopyPackageVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-package-versions`.

**AWS CLI**  
**Untuk menyalin versi paket dari satu repositori ke repositori lainnya**  
Berikut ini `copy-package-versions` memindahkan versi 4.0.0 dan 5.0.0 dari paket bernama test-package dari my-repo ke test-repo.  

```
aws codeartifact copy-package-versions \
    --domain test-domain \
    --source-repository my-repo \
    --destination-repository test-repo \
    --format npm \
    --package test-package \
    --versions '["4.0.0", "5.0.0"]'
```
Output:  

```
{
    "format": "npm",
    "package": "test-package",
    "versions": [
        {
        "version": "5.0.0",
        "revision": "REVISION-1-SAMPLE-6C81EFF7DA55CC",
        "status": "Published"
        },
        {
        "version": "4.0.0",
        "revision": "REVISION-2-SAMPLE-55C752BEE772FC",
        "status": "Published"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyalin paket antar repositori](https://docs.aws.amazon.com/codeartifact/latest/ug/copy-package.html) di *AWS CodeArtifact Panduan Pengguna*.  
+  Untuk detail API, lihat [CopyPackageVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/copy-package-versions.html)di *Referensi AWS CLI Perintah*. 

### `create-domain`
<a name="codeartifact_CreateDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-domain`.

**AWS CLI**  
**Untuk membuat domain**  
`create-domain`Contoh berikut membuat domain bernama test-domain.  

```
aws codeartifact create-domain \
    --domain test-domain
```
Output:  

```
{
    "domain": {
        "name": "test-domain",
        "owner": "111122223333",
        "arn": "arn:aws:codeartifact:us-west-2:111122223333:domain/test-domain",
        "status": "Active",
        "createdTime": "2020-10-20T13:16:48.559000-04:00",
        "encryptionKey": "arn:aws:kms:us-west-2:111122223333:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "repositoryCount": 0,
        "assetSizeBytes": 0
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat domain](https://docs.aws.amazon.com/codeartifact/latest/ug/domain-create.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [CreateDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/create-domain.html)di *Referensi AWS CLI Perintah*. 

### `create-repository`
<a name="codeartifact_CreateRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-repository`.

**AWS CLI**  
**Untuk membuat repositori**  
`create-repository`Contoh berikut membuat repositori bernama test-repo di dalam domain bernama test-domain.  

```
aws codeartifact create-repository \
    --domain test-domain \
    --domain-owner 111122223333 \
    --repository test-repo \
    --description "This is a test repository."
```
Output:  

```
{
    "repository": {
        "name": "test-repo",
        "administratorAccount": "111122223333",
        "domainName": "test-domain",
        "domainOwner": "111122223333",
        "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo",
        "description": "This is a test repository.",
        "upstreams": [],
        "externalConnections": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat domain](https://docs.aws.amazon.com/codeartifact/latest/ug/create-repo.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [CreateRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/create-repository.html)di *Referensi AWS CLI Perintah*. 

### `delete-domain-permissions-policy`
<a name="codeartifact_DeleteDomainPermissionsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-domain-permissions-policy`.

**AWS CLI**  
**Untuk menghapus dokumen kebijakan izin dari domain**  
`delete-domain-permissions-policy`Contoh berikut menghapus kebijakan izin dari domain bernama test-domain.  

```
aws codeartifact delete-domain-permissions-policy \
    --domain test-domain
```
Output:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Sid": "BasicDomainPolicy",
            "Action": [
                "codeartifact:GetDomainPermissionsPolicy",
                "codeartifact:ListRepositoriesInDomain",
                "codeartifact:GetAuthorizationToken",
                "codeartifact:CreateRepository"
            ],
            "Effect": "Allow",
            "Resource": "*",
            "Principal": {
                "AWS": "arn:aws:iam::111122223333:root"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menghapus kebijakan domain](https://docs.aws.amazon.com/codeartifact/latest/ug/domain-policies.html#deleting-a-domain-policy) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [DeleteDomainPermissionsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/delete-domain-permissions-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-domain`
<a name="codeartifact_DeleteDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-domain`.

**AWS CLI**  
**Untuk menghapus domain**  
`delete-domain`Contoh berikut menghapus domain bernama`test-domain`.  

```
aws codeartifact delete-domain \
    --domain test-domain
```
Output:  

```
{
    "domain": {
        "name": "test-domain",
        "owner": "417498243647",
        "arn": "arn:aws:codeartifact:us-west-2:417498243647:domain/test-domain",
        "status": "Deleted",
        "createdTime": "2020-10-20T13:16:48.559000-04:00",
        "encryptionKey": "arn:aws:kms:us-west-2:417498243647:key/c9fe2447-0795-4fda-afbe-8464574ae162",
        "repositoryCount": 0,
        "assetSizeBytes": 0
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus domain](https://docs.aws.amazon.com/codeartifact/latest/ug/delete-domain.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [DeleteDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/delete-domain.html)di *Referensi AWS CLI Perintah*. 

### `delete-package-versions`
<a name="codeartifact_DeletePackageVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-package-versions`.

**AWS CLI**  
**Untuk menghapus versi paket**  
`delete-package-versions`Contoh berikut menghapus versi 4.0.0 dari paket bernama test-package.  

```
aws codeartifact delete-package-versions \
    --domain test-domain \
    --repo test-repo \
    --format npm \
    --package test-package \
    --versions 4.0.0
```
Output:  

```
{
    "successfulVersions": {
        "4.0.0": {
            "revision": "Ciqe5/9yicvkJT13b5/LdLpCyE6fqA7poa9qp+FilPs=",
            "status": "Deleted"
        }
    },
    "failedVersions": {}
}
```
Untuk informasi selengkapnya, lihat [Menghapus versi paket](https://docs.aws.amazon.com/codeartifact/latest/ug/delete-package.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [DeletePackageVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/delete-package-versions.html)di *Referensi AWS CLI Perintah*. 

### `delete-repository-permissions-policy`
<a name="codeartifact_DeleteRepositoryPermissionsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-repository-permissions-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan izin dari repositori**  
`delete-repository-permissions-policy`Contoh berikut menghapus kebijakan izin dari repositori bernama test-repo.  

```
aws codeartifact delete-repository-permissions-policy \
    --domain test-domain \
    --repository test-repo
```
Output:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": {
                "AWS": "arn:aws:iam::111122223333:root"
            },
            "Action": [
                "codeartifact:DescribePackageVersion",
                "codeartifact:DescribeRepository",
                "codeartifact:GetPackageVersionReadme",
                "codeartifact:GetRepositoryEndpoint",
                "codeartifact:ListPackages",
                "codeartifact:ListPackageVersions",
                "codeartifact:ListPackageVersionAssets",
                "codeartifact:ListPackageVersionDependencies",
                "codeartifact:ReadFromRepository"
            ],
            "Resource": "*"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menghapus kebijakan](https://docs.aws.amazon.com/codeartifact/latest/ug/repo-policies.html#deleting-a-policy) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [DeleteRepositoryPermissionsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/delete-repository-permissions-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-repository`
<a name="codeartifact_DeleteRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-repository`.

**AWS CLI**  
**Untuk menghapus repositori**  
`delete-repository`Contoh berikut menghapus repositori bernama `test-repo` dalam domain bernama. `test-domain`  

```
aws codeartifact delete-repository \
    --domain test-domain \
    --repository test-repo
```
Output:  

```
{
    "repository": {
        "name": "test-repo",
        "administratorAccount": "111122223333",
        "domainName": "test-domain",
        "domainOwner": "111122223333",
        "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo",
        "description": "This is a test repository",
        "upstreams": [],
        "externalConnections": []
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus repositori](https://docs.aws.amazon.com/codeartifact/latest/ug/delete-repo.html) di *AWS CodeArtifact Panduan Pengguna*.  
+  Untuk detail API, lihat [DeleteRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/delete-repository.html)di *Referensi AWS CLI Perintah*. 

### `describe-domain`
<a name="codeartifact_DescribeDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-domain`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang domain**  
`describe-domain`Contoh berikut mengembalikan DomainDescription objek untuk domain bernama test-domain.  

```
aws codeartifact describe-domain \
    --domain test-domain
```
Output:  

```
{
    "domain": {
        "name": "test-domain",
        "owner": "111122223333",
        "arn": "arn:aws:codeartifact:us-west-2:111122223333:domain/test-domain",
        "status": "Active",
        "createdTime": "2020-10-20T13:16:48.559000-04:00",
        "encryptionKey": "arn:aws:kms:us-west-2:111122223333:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "repositoryCount": 2,
        "assetSizeBytes": 0,
        "s3BucketArn": "arn:aws:s3:::assets-111122223333-us-west-2"
    }
}
```
Untuk informasi selengkapnya, lihat [Ikhtisar domain](https://docs.aws.amazon.com/codeartifact/latest/ug/domain-overview.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [DescribeDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/describe-domain.html)di *Referensi AWS CLI Perintah*. 

### `describe-repository`
<a name="codeartifact_DescribeRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-repository`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang repositori**  
`describe-repository`Contoh berikut mengembalikan RepositoryDescription objek untuk repositori bernama test-repo.  

```
aws codeartifact describe-repository \
    --domain test-domain \
    --repository test-repo
```
Output:  

```
{
    "repository": {
        "name": "test-repo",
        "administratorAccount": "111122223333",
        "domainName": "test-domain",
        "domainOwner": "111122223333",
        "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo",
        "description": "This is a test repository.",
        "upstreams": [],
        "externalConnections": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat domain](https://docs.aws.amazon.com/codeartifact/latest/ug/create-repo.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [DescribeRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/describe-repository.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-external-connection`
<a name="codeartifact_DisassociateExternalConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-external-connection`.

**AWS CLI**  
**Untuk menghapus koneksi eksternal dari repositori**  
`disassociate-external-connection`Contoh berikut menghapus koneksi eksternal ke npmjs.com dari repositori bernama test-repo.  

```
aws codeartifact disassociate-external-connection \
    --repository test-repo \
    --domain test-domain \
    --external-connection public:npmjs
```
Output:  

```
{
    "repository": {
        "name": "test-repo",
        "administratorAccount": "111122223333",
        "domainName": "test-domain",
        "domainOwner": "111122223333",
        "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo",
        "upstreams": [],
        "externalConnections": []
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus sambungan eksternal](https://docs.aws.amazon.com/codeartifact/latest/ug/external-connection.html#removing-an-external-connection) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [DisassociateExternalConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/disassociate-external-connection.html)di *Referensi AWS CLI Perintah*. 

### `dispose-package-versions`
<a name="codeartifact_DisposePackageVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`dispose-package-versions`.

**AWS CLI**  
**Untuk menghapus aset versi paket dan menyetel statusnya ke Disposed**  
`dispose-package-versions`Contoh berikut menghapus aset paket uji versi 4.0.0 dan menetapkan statusnya ke Disposed.  

```
aws codeartifact dispose-package-versions \
    --domain test-domain \
    --repo test-repo \
    --format npm \
    --package test-package \
    --versions 4.0.0
```
Output:  

```
{
    "successfulVersions": {
        "4.0.0": {
            "revision": "Ciqe5/9yicvkJT13b5/LdLpCyE6fqA7poa9qp+FilPs=",
            "status": "Disposed"
        }
    },
    "failedVersions": {}
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan paket CodeArtifact di](https://docs.aws.amazon.com/codeartifact/latest/ug/packages.html) *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [DisposePackageVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/dispose-package-versions.html)di *Referensi AWS CLI Perintah*. 

### `get-authorization-token`
<a name="codeartifact_GetAuthorizationToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-authorization-token`.

**AWS CLI**  
**Untuk mendapatkan token otorisasi**  
`get-authorization-token`Contoh berikut mengambil token CodeArtifact otorisasi.  

```
aws codeartifact get-authorization-token \
    --domain test-domain \
    --query authorizationToken \
    --output text
```
Output:  

```
This command will return the authorization token. You can store the output in an environment variable when calling the command.
```
Untuk informasi selengkapnya, lihat [Mengkonfigurasi pip tanpa perintah login](https://docs.aws.amazon.com/codeartifact/latest/ug/python-configure-without-pip.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [GetAuthorizationToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/get-authorization-token.html)di *Referensi AWS CLI Perintah*. 

### `get-domain-permissions-policy`
<a name="codeartifact_GetDomainPermissionsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain-permissions-policy`.

**AWS CLI**  
**Untuk mendapatkan dokumen kebijakan izin untuk domain**  
`get-domain-permissions-policy`Contoh berikut mendapatkan kebijakan izin yang dilampirkan ke domain bernama test-domain.  

```
aws codeartifact get-domain-permissions-policy \
    --domain test-domain
```
Output:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Sid": "BasicDomainPolicy",
            "Action": [
                "codeartifact:GetDomainPermissionsPolicy",
                "codeartifact:ListRepositoriesInDomain",
                "codeartifact:GetAuthorizationToken",
                "codeartifact:CreateRepository"
            ],
            "Effect": "Allow",
            "Resource": "*",
            "Principal": {
                "AWS": "arn:aws:iam::111122223333:root"
            }
        }
    ]
}
```
Untuk informasi [selengkapnya, lihat Membaca kebijakan domain](https://docs.aws.amazon.com/codeartifact/latest/ug/domain-policies.html#reading-a-domain-policy) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [GetDomainPermissionsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/get-domain-permissions-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-package-version-asset`
<a name="codeartifact_GetPackageVersionAsset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-package-version-asset`.

**AWS CLI**  
**Untuk mendapatkan aset dari versi paket**  
`get-package-version-asset`Contoh berikut mengambil `package.tgz` aset untuk versi 4.0.0 dari paket npm bernama test-package.  

```
aws codeartifact get-package-version-asset \
    --domain test-domain \
    --repository test-repo \
    --format npm \
    --package test-package \
    --package-version 4.0.0 \
    --asset 'package.tgz' \
    outfileName
```
Output:  

```
The output for this command will also store the raw asset in the file provided in place of outfileName.

{
    "assetName": "package.tgz",
    "packageVersion": "4.0.0",
    "packageVersionRevision": "Ciqe5/9yicvkJT13b5/LdLpCyE6fqA7poa9qp+FilPs="
}
```
Untuk informasi selengkapnya, lihat [Daftar aset versi paket](https://docs.aws.amazon.com/codeartifact/latest/ug/list-assets.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [GetPackageVersionAsset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/get-package-version-asset.html)di *Referensi AWS CLI Perintah*. 

### `get-package-version-readme`
<a name="codeartifact_GetPackageVersionReadme_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-package-version-readme`.

**AWS CLI**  
**Untuk mendapatkan file readme versi paket**  
`get-package-version-readme`Contoh berikut mengambil file readme untuk versi 4.0.0 dari paket npm bernama test-package.  

```
aws codeartifact get-package-version-readme \
    --domain test-domain \
    --repo test-repo \
    --format npm \
    --package test-package \
    --package-version 4.0.0
```
Output:  

```
{
    "format": "npm",
    "package": "test-package",
    "version": "4.0.0",
    "readme": "<div align=\"center\">\n   <a href=\https://github.com/test-package/testpack\"> ... more content ... \n",
    "versionRevision": "Ciqe5/9yicvkJT13b5/LdLpCyE6fqA7poa9qp+FilPs="
}
```
Untuk informasi selengkapnya, [lihat Melihat file readme versi paket](https://docs.aws.amazon.com/codeartifact/latest/ug/describe-package-version.html#view-package-readme) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [GetPackageVersionReadme](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/get-package-version-readme.html)di *Referensi AWS CLI Perintah*. 

### `get-repository-endpoint`
<a name="codeartifact_GetRepositoryEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-repository-endpoint`.

**AWS CLI**  
**Untuk mendapatkan titik akhir URL repositori**  
`get-repository-endpoint`Contoh berikut mengembalikan endpoint npm untuk repositori test-repo.  

```
aws codeartifact get-repository-endpoint \
    --domain test-domain \
    --repository test-repo \
    --format npm
```
Output:  

```
{
    "repositoryEndpoint": "https://test-domain-111122223333.d.codeartifact.us-west-2.amazonaws.com/npm/test-repo/"
}
```
Untuk informasi selengkapnya, lihat [Connect ke repositori](https://docs.aws.amazon.com/codeartifact/latest/ug/connect-repo.html) di *AWS CodeArtifact Panduan Pengguna*.  
+  Untuk detail API, lihat [GetRepositoryEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/get-repository-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `get-repository-permissions-policy`
<a name="codeartifact_GetRepositoryPermissionsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-repository-permissions-policy`.

**AWS CLI**  
**Untuk mendapatkan dokumen kebijakan izin untuk repositori**  
`get-repository-permissions-policy`Contoh berikut mendapatkan kebijakan izin yang dilampirkan ke repositori bernama test-repo.  

```
aws codeartifact get-repository-permissions-policy \
    --domain test-domain \
    --repository test-repo
```
Output:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": {
                "AWS": "arn:aws:iam::111122223333:root"
            },
            "Action": [
                "codeartifact:DescribePackageVersion",
                "codeartifact:DescribeRepository",
                "codeartifact:GetPackageVersionReadme",
                "codeartifact:GetRepositoryEndpoint",
                "codeartifact:ListPackages",
                "codeartifact:ListPackageVersions",
                "codeartifact:ListPackageVersionAssets",
                "codeartifact:ListPackageVersionDependencies",
                "codeartifact:ReadFromRepository"
            ],
            "Resource": "*"
        }
    ]
}
```
Untuk informasi [selengkapnya, lihat Membaca kebijakan](https://docs.aws.amazon.com/codeartifact/latest/ug/repo-policies.html#setting-a-policy) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [GetRepositoryPermissionsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/get-repository-permissions-policy.html)di *Referensi AWS CLI Perintah*. 

### `list-domains`
<a name="codeartifact_ListDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-domains`.

**AWS CLI**  
**Untuk daftar domain**  
`list-domains`Contoh berikut mengembalikan ringkasan semua domain yang dimiliki oleh AWS akun yang membuat panggilan.  

```
aws codeartifact list-domains
```
Output:  

```
{
    "domains": [
        {
            "name": "my-domain",
            "owner": "111122223333",
            "status": "Active",
            "encryptionKey": "arn:aws:kms:us-west-2:111122223333:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
        },
        {
            "name": "test-domain",
            "owner": "111122223333",
            "status": "Active",
            "encryptionKey": "arn:aws:kms:us-west-2:111122223333:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan domain CodeArtifact di](https://docs.aws.amazon.com/codeartifact/latest/ug/domains.html) *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [ListDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/list-domains.html)di *Referensi AWS CLI Perintah*. 

### `list-package-version-assets`
<a name="codeartifact_ListPackageVersionAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-package-version-assets`.

**AWS CLI**  
**Untuk melihat aset versi paket**  
`list-package-version-assets`Contoh berikut mengambil aset untuk versi 4.0.0 dari paket npm bernama test-package.  

```
aws codeartifact list-package-version-assets \
    --domain test-domain \
    --repo test-repo \
    --format npm \
    --package test-package \
    --package-version 4.0.0
```
Output:  

```
{
    "format": "npm",
    "package": "test-package",
    "version": "4.0.0",
    "versionRevision": "Ciqe5/9yicvkJT13b5/LdLpCyE6fqA7poa9qp+FilPs=",
    "assets": [
        {
            "name": "package.tgz",
            "size": 316680,
            "hashes": {
                "MD5": "60078ec6d9e76b89fb55c860832742b2",
                "SHA-1": "b44a9b6297bcb698f1c51a3545a2b3b368d59c52",
                "SHA-256": "d2aa8c6afc3c8591765785a37d1c5acae482a8eb3ab9729ed28922692454f2e2",
                "SHA-512": "3e585d15c8a594e20d7de57b362ea81754c011acb2641a19f1b72c8531ea39825896bab344ae616a0a5a824cb9a381df0b3cddd534645cf305aba70a93dac698"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar aset versi paket](https://docs.aws.amazon.com/codeartifact/latest/ug/list-assets.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [ListPackageVersionAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/list-package-version-assets.html)di *Referensi AWS CLI Perintah*. 

### `list-package-version-dependencies`
<a name="codeartifact_ListPackageVersionDependencies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-package-version-dependencies`.

**AWS CLI**  
**Untuk melihat dependensi versi paket**  
`list-package-version-dependencies`Contoh berikut mengambil dependensi untuk versi 4.0.0 dari paket npm bernama test-package.  

```
aws codeartifact list-package-version-dependencies \
    --domain test-domain \
    --repo test-repo \
    --format npm \
    --package test-package \
    --package-version 4.0.0
```
Output:  

```
{
    "format": "npm",
    "package": "test-package",
    "version": "4.0.0",
    "versionRevision": "Ciqe5/9yicvkJT13b5/LdLpCyE6fqA7poa9qp+FilPs=",
    "dependencies": [
        {
            "namespace": "testns",
            "package": "testdep1",
            "dependencyType": "regular",
            "versionRequirement": "1.8.5"
        },
        {
            "namespace": "testns",
            "package": "testdep2",
            "dependencyType": "regular",
            "versionRequirement": "1.8.5"
        }
    ]
}
```
Untuk informasi selengkapnya, [lihat Melihat dan memperbarui detail dan dependensi versi paket](https://docs.aws.amazon.com/codeartifact/latest/ug/describe-package-version.html) di *AWS CodeArtifact Panduan Pengguna*.  
+  Untuk detail API, lihat [ListPackageVersionDependencies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/list-package-version-dependencies.html)di *Referensi AWS CLI Perintah*. 

### `list-package-versions`
<a name="codeartifact_ListPackageVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-package-versions`.

**AWS CLI**  
**Untuk daftar versi paket untuk sebuah paket**  
`list-package-versions`Contoh berikut mengembalikan daftar versi paket untuk paket bernama`kind-of`.  

```
aws codeartifact list-package-versions \
    --package kind-of \
    --domain test-domain \
    --repository test-repo \
    --format npm
```
Output:  

```
{
    "defaultDisplayVersion": "1.0.1",
    "format": "npm",
    "package": "kind-of",
    "versions": [
        {
            "version": "1.0.1",
            "revision": "REVISION-SAMPLE-1-C7F4S5E9B772FC",
            "status": "Published"
        },
        {
            "version": "1.0.0",
            "revision": "REVISION-SAMPLE-2-C752BEEF6D2CFC",
            "status": "Published"
        },
        {
            "version": "0.1.2",
            "revision": "REVISION-SAMPLE-3-654S65A5C5E1FC",
            "status": "Published"
        },
        {
            "version": "0.1.1",
            "revision": "REVISION-SAMPLE-1-C7F4S5E9B772FC"",
            "status": "Published"
        },
        {
            "version": "0.1.0",
            "revision": "REVISION-SAMPLE-4-AF669139B772FC",
            "status": "Published"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar versi paket](https://docs.aws.amazon.com/codeartifact/latest/ug/list-packages-versions.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [ListPackageVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/list-package-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-packages`
<a name="codeartifact_ListPackages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-packages`.

**AWS CLI**  
**Untuk daftar paket dalam repositori**  
Berikut `list-packages` contoh daftar paket dalam repositori bernama `test-repo` dalam domain bernama. `test-domain`  

```
aws codeartifact list-packages \
    --domain test-domain \
    --repository test-repo
```
Output:  

```
{
    "packages": [
        {
            "format": "npm",
            "package": "lodash"
        }
        {
            "format": "python",
            "package": "test-package"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar nama paket](https://docs.aws.amazon.com/codeartifact/latest/ug/list-packages.html) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [ListPackages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/list-packages.html)di *Referensi AWS CLI Perintah*. 

### `list-repositories-in-domain`
<a name="codeartifact_ListRepositoriesInDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-repositories-in-domain`.

**AWS CLI**  
**Untuk daftar repositori dalam domain**  
`list-repositories-in-domain`Contoh berikut mengembalikan ringkasan semua repositori dalam domain test-domain.  

```
aws codeartifact list-repositories-in-domain \
    --domain test-domain
```
Output:  

```
{
    "repositories": [
        {
            "name": "test-repo",
            "administratorAccount": "111122223333",
            "domainName": "test-domain",
            "domainOwner": "111122223333",
            "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo",
            "description": "This is a test repository."
        },
        {
            "name": "test-repo2",
            "administratorAccount": "111122223333",
            "domainName": "test-domain",
            "domainOwner": "111122223333",
            "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo2",
            "description": "This is a test repository."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar repositori](https://docs.aws.amazon.com/codeartifact/latest/ug/list-repos.html) di *AWS CodeArtifact Panduan Pengguna*.  
+  Untuk detail API, lihat [ListRepositoriesInDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/list-repositories-in-domain.html)di *Referensi AWS CLI Perintah*. 

### `list-repositories`
<a name="codeartifact_ListRepositories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-repositories`.

**AWS CLI**  
**Untuk daftar repositori**  
`list-repositories`Contoh berikut mengembalikan ringkasan semua repositori dalam domain yang dimiliki oleh AWS akun yang membuat panggilan.  

```
aws codeartifact list-repositories
```
Output:  

```
{
    "repositories": [
        {
            "name": "npm-store",
            "administratorAccount": "111122223333",
            "domainName": "my-domain",
            "domainOwner": "111122223333",
            "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/my-domain/npm-store",
            "description": "Provides npm artifacts from npm, Inc."
        },
        {
            "name": "target-repo",
            "administratorAccount": "111122223333",
            "domainName": "my-domain",
            "domainOwner": "111122223333",
            "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/my-domain/target-repo",
            "description": "test target repo"
        },
        {
            "name": "test-repo2",
            "administratorAccount": "111122223333",
            "domainName": "test-domain",
            "domainOwner": "111122223333",
            "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo2",
            "description": "This is a test repository."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar repositori](https://docs.aws.amazon.com/codeartifact/latest/ug/list-repos.html) di *AWS CodeArtifact Panduan Pengguna*.  
+  Untuk detail API, lihat [ListRepositories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/list-repositories.html)di *Referensi AWS CLI Perintah*. 

### `login`
<a name="codeartifact_Login_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`login`.

**AWS CLI**  
**Untuk mengkonfigurasi otentikasi ke repositori Anda dengan perintah login**  
`login`Contoh berikut mengkonfigurasi manajer paket npm dengan repositori bernama test-repo dalam domain bernama test-domain.  

```
aws codeartifact login \
    --domain test-domain \
    --repository test-repo \
    --tool npm
```
Output:  

```
Successfully configured npm to use AWS CodeArtifact repository https://test-domain-111122223333.d.codeartifact.us-west-2.amazonaws.com/npm/test-repo/
Login expires in 12 hours at 2020-11-12 01:53:16-05:00
```
Untuk informasi selengkapnya, lihat [Memulai AWS CLI](https://docs.aws.amazon.com/codeartifact/latest/ug/getting-started-cli.html) di *AWS CodeArtifact Panduan Pengguna*.  
+  Untuk detail API, lihat [Login](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/login.html) di *Referensi AWS CLI Perintah*. 

### `put-domain-permissions-policy`
<a name="codeartifact_PutDomainPermissionsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-domain-permissions-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan izin ke domain**  
`put-domain-permissions-policy`Contoh berikut melampirkan kebijakan izin yang didefinisikan dalam file policy.json ke domain bernama test-domain.  

```
aws codeartifact put-domain-permissions-policy \
    --domain test-domain \
    --policy-document file://PATH/TO/policy.json
```
Output:  

```
{
    "policy": {
        "resourceArn": "arn:aws:codeartifact:region-id:111122223333:domain/test-domain",
        "document": "{ ...policy document content...}",
        "revision": "MQlyyTQRASRU3HB58gBtSDHXG7Q3hvxxxxxxx="
    }
}
```
Untuk informasi selengkapnya, lihat [Menetapkan kebijakan domain](https://docs.aws.amazon.com/codeartifact/latest/ug/domain-policies.html#set-domain-policy) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [PutDomainPermissionsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/put-domain-permissions-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-repository-permissions-policy`
<a name="codeartifact_PutRepositoryPermissionsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-repository-permissions-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan izin ke repositori**  
`put-repository-permissions-policy`Contoh berikut melampirkan kebijakan izin yang didefinisikan dalam file policy.json ke repositori bernama test-repo.  

```
aws codeartifact put-repository-permissions-policy \
    --domain test-domain \
    --repository test-repo \
    --policy-document file://PATH/TO/policy.json
```
Output:  

```
{
    "policy": {
        "resourceArn": "arn:aws:codeartifact:region-id:111122223333:repository/test-domain/test-repo",
        "document": "{ ...policy document content...}",
        "revision": "MQlyyTQRASRU3HB58gBtSDHXG7Q3hvxxxxxxx="
    }
}
```
Untuk informasi selengkapnya, lihat [Menetapkan kebijakan](https://docs.aws.amazon.com/codeartifact/latest/ug/repo-policies.html#setting-a-policy) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [PutRepositoryPermissionsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/put-repository-permissions-policy.html)di *Referensi AWS CLI Perintah*. 

### `update-package-versions-status`
<a name="codeartifact_UpdatePackageVersionsStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-package-versions-status`.

**AWS CLI**  
**Untuk memperbarui status versi paket**  
`update-package-versions-status`Contoh berikut memperbarui status versi 4.0.0 dari paket paket uji ke Diarsipkan.  

```
aws codeartifact update-package-versions-status \
    --domain test-domain \
    --repo test-repo \
    --format npm \
    --package test-package \
    --versions 4.0.0 \
    --target-status Archived
```
Output:  

```
{
    "successfulVersions": {
        "4.0.0": {
            "revision": "Ciqe5/9yicvkJT13b5/LdLpCyE6fqA7poa9qp+FilPs=",
            "status": "Archived"
        }
    },
    "failedVersions": {}
}
```
Untuk informasi selengkapnya, lihat [Memperbarui status versi paket](https://docs.aws.amazon.com/codeartifact/latest/ug/describe-package-version.html#update-package-version-status) di *Panduan AWS CodeArtifact Pengguna*.  
+  Untuk detail API, lihat [UpdatePackageVersionsStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/update-package-versions-status.html)di *Referensi AWS CLI Perintah*. 

### `update-repository`
<a name="codeartifact_UpdateRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-repository`.

**AWS CLI**  
**Untuk memperbarui repositori**  
`update-repository`Contoh berikut memperbarui deskripsi repo bernama test-repo dalam domain bernama test-domain menjadi “ini adalah deskripsi yang diperbarui”.  

```
aws codeartifact update-repository \
    --domain test-domain \
    --repository test-repo \
    --description "this is an updated description"
```
Output:  

```
{
    "repository": {
        "name": "test-repo",
        "administratorAccount": "111122223333",
        "domainName": "test-domain",
        "domainOwner": "111122223333",
        "arn": "arn:aws:codeartifact:us-west-2:111122223333:repository/test-domain/test-repo",
        "description": "this is an updated description",
        "upstreams": [],
        "externalConnections": []
    }
}
```
Untuk informasi selengkapnya, [lihat Melihat atau mengubah konfigurasi repositori](https://docs.aws.amazon.com/codeartifact/latest/ug/config-repos.html) di *AWS CodeArtifact Panduan Pengguna*.  
+  Untuk detail API, lihat [UpdateRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeartifact/update-repository.html)di *Referensi AWS CLI Perintah*. 

# CodeBuild contoh menggunakan AWS CLI
<a name="cli_2_codebuild_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CodeBuild.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-delete-builds`
<a name="codebuild_BatchDeleteBuilds_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-delete-builds`.

**AWS CLI**  
**Untuk menghapus build in AWS CodeBuild.**  
`batch-delete-builds`Contoh berikut menghapus build in CodeBuild dengan yang ditentukan. IDs  

```
aws codebuild batch-delete-builds --ids my-build-project-one:a1b2c3d4-5678-9012-abcd-11111EXAMPLE my-build-project-two:a1b2c3d4-5678-9012-abcd-22222EXAMPLE
```
Output:  

```
{
    "buildsNotDeleted": [
        {
            "id": "arn:aws:codebuild:us-west-2:123456789012:build/my-build-project-one:a1b2c3d4-5678-9012-abcd-11111EXAMPLE",
            "statusCode": "BUILD_IN_PROGRESS"
        }
    ],
    "buildsDeleted": [
        "arn:aws:codebuild:us-west-2:123456789012:build/my-build-project-two:a1b2c3d4-5678-9012-abcd-22222EXAMPLE"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menghapus Build (AWS CLI](https://docs.aws.amazon.com/codebuild/latest/userguide/delete-builds.html#delete-builds-cli)) di Panduan Pengguna *AWS CodeBuild .*  
+  Untuk detail API, lihat [BatchDeleteBuilds](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/batch-delete-builds.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-build-batches`
<a name="codebuild_BatchGetBuildBatches_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-build-batches`.

**AWS CLI**  
**Untuk melihat detail build in AWS CodeBuild.**  
`batch-get-build-batches`Contoh berikut mendapatkan informasi tentang build batch CodeBuild dengan yang ditentukan IDs.  

```
aws codebuild batch-get-build-batches \
    --ids codebuild-demo-project:e9c4f4df-3f43-41d2-ab3a-60fe2EXAMPLE
```
Output:  

```
{
    "buildBatches": [
        {
            "id": "codebuild-demo-project:e9c4f4df-3f43-41d2-ab3a-60fe2EXAMPLE",
            "arn": "arn:aws:codebuild:us-west-2:123456789012:build-batch/codebuild-demo-project:e9c4f4df-3f43-41d2-ab3a-60fe2EXAMPLE",
            "startTime": "2020-11-03T21:52:20.775000+00:00",
            "endTime": "2020-11-03T21:56:59.784000+00:00",
            "currentPhase": "SUCCEEDED",
            "buildBatchStatus": "SUCCEEDED",
            "resolvedSourceVersion": "0a6546f68309560d08a310daac92314c4d378f6b",
            "projectName": "codebuild-demo-project",
            "phases": [
                {
                    "phaseType": "SUBMITTED",
                    "phaseStatus": "SUCCEEDED",
                    "startTime": "2020-11-03T21:52:20.775000+00:00",
                    "endTime": "2020-11-03T21:52:20.976000+00:00",
                    "durationInSeconds": 0
                },
                {
                    "phaseType": "DOWNLOAD_BATCHSPEC",
                    "phaseStatus": "SUCCEEDED",
                    "startTime": "2020-11-03T21:52:20.976000+00:00",
                    "endTime": "2020-11-03T21:52:57.401000+00:00",
                    "durationInSeconds": 36
                },
                {
                    "phaseType": "IN_PROGRESS",
                    "phaseStatus": "SUCCEEDED",
                    "startTime": "2020-11-03T21:52:57.401000+00:00",
                    "endTime": "2020-11-03T21:56:59.751000+00:00",
                    "durationInSeconds": 242
                },
                {
                    "phaseType": "COMBINE_ARTIFACTS",
                    "phaseStatus": "SUCCEEDED",
                    "startTime": "2020-11-03T21:56:59.751000+00:00",
                    "endTime": "2020-11-03T21:56:59.784000+00:00",
                    "durationInSeconds": 0
                },
                {
                    "phaseType": "SUCCEEDED",
                    "startTime": "2020-11-03T21:56:59.784000+00:00"
                }
            ],
            "source": {
                "type": "GITHUB",
                "location": "https://github.com/my-repo/codebuild-demo-project.git",
                "gitCloneDepth": 1,
                "gitSubmodulesConfig": {
                    "fetchSubmodules": false
                },
                "reportBuildStatus": false,
                "insecureSsl": false
            },
            "secondarySources": [],
            "secondarySourceVersions": [],
            "artifacts": {
                "location": ""
            },
            "secondaryArtifacts": [],
            "cache": {
                "type": "NO_CACHE"
            },
            "environment": {
                "type": "LINUX_CONTAINER",
                "image": "aws/codebuild/amazonlinux2-x86_64-standard:3.0",
                "computeType": "BUILD_GENERAL1_SMALL",
                "environmentVariables": [],
                "privilegedMode": false,
                "imagePullCredentialsType": "CODEBUILD"
            },
            "logConfig": {
                "cloudWatchLogs": {
                    "status": "ENABLED"
                },
                "s3Logs": {
                    "status": "DISABLED",
                    "encryptionDisabled": false
                }
            },
            "buildTimeoutInMinutes": 60,
            "queuedTimeoutInMinutes": 480,
            "complete": true,
            "initiator": "Strohm",
            "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
            "buildBatchNumber": 6,
            "buildBatchConfig": {
                "serviceRole": "arn:aws:iam::123456789012:role/service-role/codebuild-demo-project",
                "restrictions": {
                    "maximumBuildsAllowed": 100
                },
                "timeoutInMins": 480
            },
            "buildGroups": [
                {
                    "identifier": "DOWNLOAD_SOURCE",
                    "ignoreFailure": false,
                    "currentBuildSummary": {
                        "arn": "arn:aws:codebuild:us-west-2:123456789012:build/codebuild-demo-project:379737d8-bc35-48ec-97fd-776d27545315",
                        "requestedOn": "2020-11-03T21:52:21.394000+00:00",
                        "buildStatus": "SUCCEEDED",
                        "primaryArtifact": {
                            "type": "no_artifacts",
                            "identifier": "DOWNLOAD_SOURCE"
                        },
                        "secondaryArtifacts": []
                    }
                },
                {
                    "identifier": "linux_small",
                    "dependsOn": [],
                    "ignoreFailure": false,
                    "currentBuildSummary": {
                        "arn": "arn:aws:codebuild:us-west-2:123456789012:build/codebuild-demo-project:dd785171-ed84-4bb6-8ede-ceeb86e54bdb",
                        "requestedOn": "2020-11-03T21:52:57.604000+00:00",
                        "buildStatus": "SUCCEEDED",
                        "primaryArtifact": {
                            "type": "no_artifacts",
                            "identifier": "linux_small"
                        },
                        "secondaryArtifacts": []
                    }
                },
                {
                    "identifier": "linux_medium",
                    "dependsOn": [
                        "linux_small"
                    ],
                    "ignoreFailure": false,
                    "currentBuildSummary": {
                        "arn": "arn:aws:codebuild:us-west-2:123456789012:build/codebuild-demo-project:97cf7bd4-5313-4786-8243-4aef350a1267",
                        "requestedOn": "2020-11-03T21:54:18.474000+00:00",
                        "buildStatus": "SUCCEEDED",
                        "primaryArtifact": {
                            "type": "no_artifacts",
                            "identifier": "linux_medium"
                        },
                        "secondaryArtifacts": []
                    }
                },
                {
                    "identifier": "linux_large",
                    "dependsOn": [
                        "linux_medium"
                    ],
                    "ignoreFailure": false,
                    "currentBuildSummary": {
                        "arn": "arn:aws:codebuild:us-west-2:123456789012:build/codebuild-demo-project:60a194cd-0d03-4337-9db1-d41476a17d27",
                        "requestedOn": "2020-11-03T21:55:39.203000+00:00",
                        "buildStatus": "SUCCEEDED",
                        "primaryArtifact": {
                            "type": "no_artifacts",
                            "identifier": "linux_large"
                        },
                        "secondaryArtifacts": []
                    }
                }
            ]
        }
    ],
    "buildBatchesNotFound": []
}
```
*Untuk informasi selengkapnya, lihat Batch build di AWS CodeBuild < https://docs.aws.amazon.com/codebuild/ latest/userguide/batch -build.html>) \$1\$1 di Panduan Pengguna.AWS CodeBuild *  
+  Untuk detail API, lihat [BatchGetBuildBatches](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/batch-get-build-batches.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-builds`
<a name="codebuild_BatchGetBuilds_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-builds`.

**AWS CLI**  
**Untuk melihat detail build in AWS CodeBuild.**  
`batch-get-builds`Contoh berikut mendapatkan informasi tentang build in CodeBuild dengan yang ditentukan IDs.  

```
aws codebuild batch-get-builds --ids codebuild-demo-project:e9c4f4df-3f43-41d2-ab3a-60fe2EXAMPLE codebuild-demo-project:815e755f-bade-4a7e-80f0-efe51EXAMPLE
```
Output:  

```
{
    "buildsNotFound": [],
    "builds": [
        {
            "artifacts": {
                "md5sum": "0e95edf915048a0c22efe6d139fff837",
                "location": "arn:aws:s3:::codepipeline-us-west-2-820783811474/CodeBuild-Python-Pip/BuildArtif/6DJsqQa",
                "encryptionDisabled": false,
                "sha256sum": "cfa0df33a090966a737f64ae4fe498969fdc842a0c9aec540bf93c37ac0d05a2"
            },
            "logs": {
                "cloudWatchLogs": {
                    "status": "ENABLED"
                },
                "s3Logs": {
                    "status": "DISABLED"
                },
                "streamName": "46472baf-8f6b-43c2-9255-b3b963af2732",
                "groupName": "/aws/codebuild/codebuild-demo-project",
                "deepLink": "https://console.aws.amazon.com/cloudwatch/home?region=us-west-2#logEvent:group=/aws/codebuild/codebuild-demo-project;stream=46472baf-8f6b-43c2-9255-b3b963af2732"
            },
            "timeoutInMinutes": 60,
            "environment": {
                "privilegedMode": false,
                "computeType": "BUILD_GENERAL1_MEDIUM",
                "image": "aws/codebuild/windows-base:1.0",
                "environmentVariables": [],
                "type": "WINDOWS_CONTAINER"
            },
            "projectName": "codebuild-demo-project",
            "buildComplete": true,
            "source": {
                "gitCloneDepth": 1,
                "insecureSsl": false,
                "type": "CODEPIPELINE"
            },
            "buildStatus": "SUCCEEDED",
            "secondaryArtifacts": [],
            "phases": [
                {
                    "durationInSeconds": 0,
                    "startTime": 1548717462.122,
                    "phaseType": "SUBMITTED",
                    "endTime": 1548717462.484,
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 0,
                    "startTime": 1548717462.484,
                    "phaseType": "QUEUED",
                    "endTime": 1548717462.775,
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 34,
                    "endTime": 1548717496.909,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548717462.775,
                    "phaseType": "PROVISIONING",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 15,
                    "endTime": 1548717512.555,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548717496.909,
                    "phaseType": "DOWNLOAD_SOURCE",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 0,
                    "endTime": 1548717512.734,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548717512.555,
                    "phaseType": "INSTALL",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 0,
                    "endTime": 1548717512.924,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548717512.734,
                    "phaseType": "PRE_BUILD",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 9,
                    "endTime": 1548717522.254,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548717512.924,
                    "phaseType": "BUILD",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 3,
                    "endTime": 1548717525.498,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548717522.254,
                    "phaseType": "POST_BUILD",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 9,
                    "endTime": 1548717534.646,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548717525.498,
                    "phaseType": "UPLOAD_ARTIFACTS",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 2,
                    "endTime": 1548717536.846,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548717534.646,
                    "phaseType": "FINALIZING",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "startTime": 1548717536.846,
                    "phaseType": "COMPLETED"
                }
            ],
            "startTime": 1548717462.122,
            "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
            "initiator": "codepipeline/CodeBuild-Pipeline",
            "secondarySources": [],
            "serviceRole": "arn:aws:iam::123456789012:role/service-role/my-codebuild-service-role",
            "currentPhase": "COMPLETED",
            "id": "codebuild-demo-project:e9c4f4df-3f43-41d2-ab3a-60fe2EXAMPLE",
            "cache": {
                "type": "NO_CACHE"
            },
            "sourceVersion": "arn:aws:s3:::codepipeline-us-west-2-820783811474/CodeBuild-Python-Pip/SourceArti/1TspnN3.zip",
            "endTime": 1548717536.846,
            "arn": "arn:aws:codebuild:us-west-2:123456789012:build/codebuild-demo-project:e9c4f4df-3f43-41d2-ab3a-60fe2EXAMPLE",
            "queuedTimeoutInMinutes": 480,
            "resolvedSourceVersion": "f2194c1757bbdcb0f8f229254a4b3c8b27d43e0b"
        },
        {
            "artifacts": {
                "md5sum": "",
                "overrideArtifactName": false,
                "location": "arn:aws:s3:::my-artifacts/codebuild-demo-project",
                "encryptionDisabled": false,
                "sha256sum": ""
            },
            "logs": {
                "cloudWatchLogs": {
                    "status": "ENABLED"
                },
                "s3Logs": {
                    "status": "DISABLED"
                },
                "streamName": "4dea3ca4-20ec-4898-b22a-a9eb9292775d",
                "groupName": "/aws/codebuild/codebuild-demo-project",
                "deepLink": "https://console.aws.amazon.com/cloudwatch/home?region=us-west-2#logEvent:group=/aws/codebuild/codebuild-demo-project;stream=4dea3ca4-20ec-4898-b22a-a9eb9292775d"
            },
            "timeoutInMinutes": 60,
            "environment": {
                "privilegedMode": false,
                "computeType": "BUILD_GENERAL1_MEDIUM",
                "image": "aws/codebuild/windows-base:1.0",
                "environmentVariables": [],
                "type": "WINDOWS_CONTAINER"
            },
            "projectName": "codebuild-demo-project",
            "buildComplete": true,
            "source": {
                "gitCloneDepth": 1,
                "location": "https://github.com/my-repo/codebuild-demo-project.git",
                "insecureSsl": false,
                "reportBuildStatus": false,
                "type": "GITHUB"
            },
            "buildStatus": "SUCCEEDED",
            "secondaryArtifacts": [],
            "phases": [
                {
                    "durationInSeconds": 0,
                    "startTime": 1548716241.89,
                    "phaseType": "SUBMITTED",
                    "endTime": 1548716242.241,
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 0,
                    "startTime": 1548716242.241,
                    "phaseType": "QUEUED",
                    "endTime": 1548716242.536,
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 33,
                    "endTime": 1548716276.171,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548716242.536,
                    "phaseType": "PROVISIONING",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 15,
                    "endTime": 1548716291.809,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548716276.171,
                    "phaseType": "DOWNLOAD_SOURCE",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 0,
                    "endTime": 1548716291.993,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548716291.809,
                    "phaseType": "INSTALL",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 0,
                    "endTime": 1548716292.191,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548716291.993,
                    "phaseType": "PRE_BUILD",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 9,
                    "endTime": 1548716301.622,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548716292.191,
                    "phaseType": "BUILD",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 3,
                    "endTime": 1548716304.783,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548716301.622,
                    "phaseType": "POST_BUILD",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 8,
                    "endTime": 1548716313.775,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548716304.783,
                    "phaseType": "UPLOAD_ARTIFACTS",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "durationInSeconds": 2,
                    "endTime": 1548716315.935,
                    "contexts": [
                        {
                            "statusCode": "",
                            "message": ""
                        }
                    ],
                    "startTime": 1548716313.775,
                    "phaseType": "FINALIZING",
                    "phaseStatus": "SUCCEEDED"
                },
                {
                    "startTime": 1548716315.935,
                    "phaseType": "COMPLETED"
                }
            ],
            "startTime": 1548716241.89,
            "secondarySourceVersions": [],
            "initiator": "my-codebuild-project",
            "arn": "arn:aws:codebuild:us-west-2:123456789012:build/codebuild-demo-project:815e755f-bade-4a7e-80f0-efe51EXAMPLE",
            "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
            "serviceRole": "arn:aws:iam::123456789012:role/service-role/my-codebuild-service-role",
            "currentPhase": "COMPLETED",
            "id": "codebuild-demo-project:815e755f-bade-4a7e-80f0-efe51EXAMPLE",
            "cache": {
                "type": "NO_CACHE"
            },
            "endTime": 1548716315.935,
            "secondarySources": [],
            "queuedTimeoutInMinutes": 480,
            "resolvedSourceVersion": "f2194c1757bbdcb0f8f229254a4b3c8b27d43e0b"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Build (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/view-build-details.html#view-build-details-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [BatchGetBuilds](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/batch-get-builds.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-projects`
<a name="codebuild_BatchGetProjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-projects`.

**AWS CLI**  
**Untuk mendapatkan daftar nama proyek AWS CodeBuild build.**  
`batch-get-projects`Contoh berikut mendapatkan daftar proyek CodeBuild build yang ditentukan oleh nama.  

```
aws codebuild batch-get-projects --names codebuild-demo-project codebuild-demo-project2 my-other-demo-project
```
Pada output berikut, `projectsNotFound` array mencantumkan nama proyek build yang ditentukan, tetapi tidak ditemukan. `projects`Array mencantumkan detail untuk setiap proyek build tempat informasi ditemukan.  

```
{
    "projectsNotFound": [],
    "projects": [
        {
            "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
            "name": "codebuild-demo-project2",
            "queuedTimeoutInMinutes": 480,
            "timeoutInMinutes": 60,
            "source": {
                "buildspec": "version: 0.2\n\n#env:\n  #variables:\n     # key: \"value\"\n     # key: \"value\"\n  #parameter-store:\n     # key: \"value\"\n     # key:\"value\"\n\nphases:\n  #install:\n    #commands:\n      # - command\n      # - command\n  #pre_build:\n    #commands:\n      # - command\n      # - command\n  build:\n    commands:\n      # - command\n      # - command\n  #post_build:\n    #commands:\n      # - command\n      # - command\n#artifacts:\n  #files:\n    # - location\n    # - location\n  #name: $(date +%Y-%m-%d)\n  #discard-paths: yes\n  #base-directory: location\n#cache:\n  #paths:\n    # - paths",
                "type": "NO_SOURCE",
                "insecureSsl": false,
                "gitCloneDepth": 1
            },
            "artifacts": {
                "type": "NO_ARTIFACTS"
            },
            "badge": {
                "badgeEnabled": false
            },
            "lastModified": 1540588091.108,
            "created": 1540588091.108,
            "arn": "arn:aws:codebuild:us-west-2:123456789012:project/test-for-sample",
            "secondarySources": [],
            "secondaryArtifacts": [],
            "cache": {
                "type": "NO_CACHE"
            },
            "serviceRole": "arn:aws:iam::123456789012:role/service-role/my-test-role",
            "environment": {
                "image": "aws/codebuild/java:openjdk-8",
                "privilegedMode": true,
                "type": "LINUX_CONTAINER",
                "computeType": "BUILD_GENERAL1_SMALL",
                "environmentVariables": []
            },
            "tags": []
        },
        {
            "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
            "name": "my-other-demo-project",
            "queuedTimeoutInMinutes": 480,
            "timeoutInMinutes": 60,
            "source": {
                "location": "https://github.com/iversonic/codedeploy-sample.git",
                "reportBuildStatus": false,
                "buildspec": "buildspec.yml",
                "insecureSsl": false,
                "gitCloneDepth": 1,
                "type": "GITHUB",
                "auth": {
                    "type": "OAUTH"
                }
            },
            "artifacts": {
                "type": "NO_ARTIFACTS"
            },
            "badge": {
                "badgeEnabled": false
            },
            "lastModified": 1523401711.73,
            "created": 1523401711.73,
            "arn": "arn:aws:codebuild:us-west-2:123456789012:project/Project2",
            "cache": {
                "type": "NO_CACHE"
            },
            "serviceRole": "arn:aws:iam::123456789012:role/service-role/codebuild-Project2-service-role",
            "environment": {
                "image": "aws/codebuild/nodejs:4.4.7",
                "privilegedMode": false,
                "type": "LINUX_CONTAINER",
                "computeType": "BUILD_GENERAL1_SMALL",
                "environmentVariables": []
            },
            "tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, [lihat Melihat Detail Proyek Pembuatan (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/view-project-details.html#view-project-details-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [BatchGetProjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/batch-get-projects.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-report-groups`
<a name="codebuild_BatchGetReportGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-report-groups`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang satu atau lebih grup laporan di AWS CodeBuild.**  
`batch-get-report-groups`Contoh berikut mengambil informasi tentang kelompok laporan dengan ARN yang ditentukan.  

```
aws codebuild batch-get-report-groups \
    --report-group-arns arn:aws:codebuild:<region-ID>:<user-ID>:report-group/<report-group-name>
```
Output:  

```
{
    "reportGroups": [
        {
            "arn": "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/<report-group-name>",
            "name": "report-group-name",
            "type": "TEST",
            "exportConfig": {
                "exportConfigType": "NO_EXPORT"
            },
            "created": "2020-10-01T18:04:08.466000+00:00",
            "lastModified": "2020-10-01T18:04:08.466000+00:00",
            "tags": []
        }
    ],
    "reportGroupsNotFound": []
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report-group.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [BatchGetReportGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/batch-get-report-groups.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-reports`
<a name="codebuild_BatchGetReports_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-reports`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang satu atau lebih laporan di AWS CodeBuild.**  
`batch-get-reports`Contoh berikut mengambil informasi tentang laporan dengan yang ditentukan ARNs.  

```
aws codebuild batch-get-reports \
    --report-arns arn:aws:codebuild:<region-ID>:<user-ID>:report/<report-group-name>:<report 1 ID> arn:aws:codebuild:<region-ID>:<user-ID>:report/<report-group-name>:<report 2 ID>
```
Output:  

```
{
    "reports": [
        {
            "arn": "arn:aws:codebuild:<region-ID>:<user-ID>:report/<report-group-name>:<report 1 ID>",
            "type": "TEST",
            "name": "<report-group-name>",
            "reportGroupArn": "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/<report-group-name>",
            "executionId": "arn:aws:codebuild:<region-ID>:<user-ID>:build/test-reports:<ID>",
            "status": "FAILED",
            "created": "2020-10-01T11:25:22.531000-07:00",
            "expired": "2020-10-31T11:25:22-07:00",
            "exportConfig": {
                "exportConfigType": "NO_EXPORT"
            },
            "truncated": false,
            "testSummary": {
                "total": 28,
                "statusCounts": {
                    "ERROR": 5,
                    "FAILED": 1,
                    "SKIPPED": 4,
                    "SUCCEEDED": 18,
                    "UNKNOWN": 0
                },
                "durationInNanoSeconds": 94000000
            }
        },
        {
            "arn": "arn:aws:codebuild:<region-ID>:<user-ID>:report/<report-group-name>:<report 2 ID>",
            "type": "TEST",
            "name": "<report-group-name>",
            "reportGroupArn": "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/<report-group-name>",
            "executionId": "arn:aws:codebuild:<region-ID>:<user-ID>:build/test-reports:<ID>",
            "status": "FAILED",
            "created": "2020-10-01T11:13:05.816000-07:00",
            "expired": "2020-10-31T11:13:05-07:00",
            "exportConfig": {
                "exportConfigType": "NO_EXPORT"
            },
            "truncated": false,
            "testSummary": {
                "total": 28,
                "statusCounts": {
                    "ERROR": 5,
                    "FAILED": 1,
                    "SKIPPED": 4,
                    "SUCCEEDED": 18,
                    "UNKNOWN": 0
                },
                "durationInNanoSeconds": 94000000
            }
        }
    ],
    "reportsNotFound": []
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [BatchGetReports](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/batch-get-reports.html)di *Referensi AWS CLI Perintah*. 

### `create-project`
<a name="codebuild_CreateProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-project`.

**AWS CLI**  
**Contoh 1: Untuk membuat proyek AWS CodeBuild build**  
`create-project`Contoh berikut membuat proyek CodeBuild build menggunakan file sumber dari bucket S3  

```
aws codebuild create-project \
    --name "my-demo-project" \
    --source "{\"type\": \"S3\",\"location\": \"codebuild-us-west-2-123456789012-input-bucket/my-source.zip\"}" \
    --artifacts {"\"type\": \"S3\",\"location\": \"codebuild-us-west-2-123456789012-output-bucket\""} \
    --environment "{\"type\": \"LINUX_CONTAINER\",\"image\": \"aws/codebuild/standard:1.0\",\"computeType\": \"BUILD_GENERAL1_SMALL\"}" \
    --service-role "arn:aws:iam::123456789012:role/service-role/my-codebuild-service-role"
```
Output:  

```
{
    "project": {
        "arn": "arn:aws:codebuild:us-west-2:123456789012:project/my-demo-project",
        "name": "my-cli-demo-project",
        "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
        "serviceRole": "arn:aws:iam::123456789012:role/service-role/my-codebuild-service-role",
        "lastModified": 1556839783.274,
        "badge": {
            "badgeEnabled": false
        },
        "queuedTimeoutInMinutes": 480,
        "environment": {
            "image": "aws/codebuild/standard:1.0",
            "computeType": "BUILD_GENERAL1_SMALL",
            "type": "LINUX_CONTAINER",
            "imagePullCredentialsType": "CODEBUILD",
            "privilegedMode": false,
            "environmentVariables": []
        },
        "artifacts": {
            "location": "codebuild-us-west-2-123456789012-output-bucket",
            "name": "my-cli-demo-project",
            "namespaceType": "NONE",
            "type": "S3",
            "packaging": "NONE",
            "encryptionDisabled": false
        },
        "source": {
            "type": "S3",
            "location": "codebuild-us-west-2-123456789012-input-bucket/my-source.zip",
            "insecureSsl": false
        },
        "timeoutInMinutes": 60,
        "cache": {
            "type": "NO_CACHE"
        },
        "created": 1556839783.274
    }
}
```
**Contoh 2: Untuk membuat proyek AWS CodeBuild build menggunakan file input JSON untuk parameter**  
`create-project`Contoh berikut membuat proyek CodeBuild build dengan meneruskan semua parameter yang diperlukan dalam file input JSON. Buat template file input dengan menjalankan perintah hanya dengan file`--generate-cli-skeleton parameter`.  

```
aws codebuild create-project --cli-input-json file://create-project.json
```
File JSON masukan `create-project.json` berisi konten berikut:  

```
{
    "name": "codebuild-demo-project",
    "source": {
        "type": "S3",
        "location": "codebuild-region-ID-account-ID-input-bucket/MessageUtil.zip"
    },
    "artifacts": {
        "type": "S3",
        "location": "codebuild-region-ID-account-ID-output-bucket"
    },
    "environment": {
        "type": "LINUX_CONTAINER",
        "image": "aws/codebuild/standard:1.0",
        "computeType": "BUILD_GENERAL1_SMALL"
    },
    "serviceRole": "serviceIAMRole"
}
```
Output:  

```
{
    "project": {
        "name": "codebuild-demo-project",
        "serviceRole": "serviceIAMRole",
        "tags": [],
        "artifacts": {
            "packaging": "NONE",
            "type": "S3",
            "location": "codebuild-region-ID-account-ID-output-bucket",
            "name": "message-util.zip"
        },
        "lastModified": 1472661575.244,
        "timeoutInMinutes": 60,
        "created": 1472661575.244,
        "environment": {
            "computeType": "BUILD_GENERAL1_SMALL",
            "image": "aws/codebuild/standard:1.0",
            "type": "LINUX_CONTAINER",
            "environmentVariables": []
        },
        "source": {
            "type": "S3",
            "location": "codebuild-region-ID-account-ID-input-bucket/MessageUtil.zip"
        },
        "encryptionKey": "arn:aws:kms:region-ID:account-ID:alias/aws/s3",
        "arn": "arn:aws:codebuild:region-ID:account-ID:project/codebuild-demo-project"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Proyek Build (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/create-project.html#create-project-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [CreateProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/create-project.html)di *Referensi AWS CLI Perintah*. 

### `create-report-group`
<a name="codebuild_CreateReportGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-report-group`.

**AWS CLI**  
**Untuk membuat grup laporan di AWS CodeBuild.**  
`create-report-group`Contoh berikut membuat grup laporan baru.  

```
aws codebuild create-report-group \
    --cli-input-json file://create-report-group-source.json
```
Isi dari create-report-group-source .json:  

```
{
    "name": "cli-created-report-group",
    "type": "TEST",
    "exportConfig": {
        "exportConfigType": "S3",
        "s3Destination": {
            "bucket": "amzn-s3-demo-bucket",
            "path": "",
            "packaging": "ZIP",
            "encryptionDisabled": true
        }
    }
}
```
Output:  

```
{
    "reportGroup": {
        "arn": "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/cli-created-report-group",
        "name": "cli-created-report-group",
        "type": "TEST",
        "exportConfig": {
            "exportConfigType": "S3",
            "s3Destination": {
                "bucket": "amzn-s3-demo-bucket",
                "path": "",
                "packaging": "ZIP",
                "encryptionDisabled": true
            }
        },
        "created": 1602020026.775,
        "lastModified": 1602020026.775
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report-group.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [CreateReportGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/create-report-group.html)di *Referensi AWS CLI Perintah*. 

### `create-webhook`
<a name="codebuild_CreateWebhook_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-webhook`.

**AWS CLI**  
**Untuk membuat filter webhook untuk sebuah proyek AWS CodeBuild **  
`create-webhook`Contoh berikut membuat webhook untuk CodeBuild proyek bernama `my-project` yang memiliki dua grup filter. Grup filter pertama menentukan permintaan tarik yang dibuat, diperbarui, atau dibuka kembali pada cabang dengan nama referensi Git yang cocok dengan ekspresi reguler `^refs/heads/master$` dan referensi kepala yang cocok. `^refs/heads/myBranch$` Grup filter kedua menentukan permintaan push pada cabang dengan nama referensi Git yang tidak cocok dengan ekspresi `^refs/heads/myBranch$` reguler.  

```
aws codebuild create-webhook \
    --project-name my-project \
    --filter-groups "[[{\"type\":\"EVENT\",\"pattern\":\"PULL_REQUEST_CREATED, PULL_REQUEST_UPDATED, PULL_REQUEST_REOPENED\"},{\"type\":\"HEAD_REF\",\"pattern\":\"^refs/heads/myBranch$\",\"excludeMatchedPattern\":true},{\"type\":\"BASE_REF\",\"pattern\":\"^refs/heads/master$\",\"excludeMatchedPattern\":true}],[{\"type\":\"EVENT\",\"pattern\":\"PUSH\"},{\"type\":\"HEAD_REF\",\"pattern\":\"^refs/heads/myBranch$\",\"excludeMatchedPattern\":true}]]"
```
Output:  

```
{
    "webhook": {
        "payloadUrl": "https://codebuild.us-west-2.amazonaws.com/webhooks?t=eyJlbmNyeXB0ZWREYXRhIjoiVVl5MGtoeGRwSzZFRXl2Wnh4bld1Z0tKZ291TVpQNEtFamQ3RDlDYWpRaGIreVFrdm9EQktIVk1NeHJEWEpmUDUrVUNOMUIyRHJRc1VxcHJ6QlNDSnljPSIsIml2UGFyYW1ldGVyU3BlYyI6InN4Tm1SeUt5MUhaUVRWbGciLCJtYXRlcmlhbFNldFNlcmlhbCI6MX0%3D&v=1",
        "url": "https://api.github.com/repos/iversonic/codedeploy-sample/hooks/105190656",
        "lastModifiedSecret": 1556311319.069,
        "filterGroups": [
            [
                {
                    "type": "EVENT",
                    "pattern": "PULL_REQUEST_CREATED, PULL_REQUEST_UPDATED, PULL_REQUEST_REOPENED",
                    "excludeMatchedPattern": false
                },
                {
                    "type": "HEAD_REF",
                    "pattern": "refs/heads/myBranch$",
                    "excludeMatchedPattern": true
                },
                {
                    "type": "BASE_REF",
                    "pattern": "refs/heads/master$",
                    "excludeMatchedPattern": true
                }
            ],
            [
                {
                    "type": "EVENT",
                    "pattern": "PUSH",
                    "excludeMatchedPattern": false
                },
                {
                    "type": "HEAD_REF",
                    "pattern": "refs/heads/myBranch$",
                    "excludeMatchedPattern": true
                }
            ]
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memfilter Acara GitHub Webhook (SDK)](https://docs.aws.amazon.com/codebuild/latest/userguide/sample-github-pull-request.html#sample-github-pull-request-filter-webhook-events-sdk) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [CreateWebhook](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/create-webhook.html)di *Referensi AWS CLI Perintah*. 

### `delete-build-batch`
<a name="codebuild_DeleteBuildBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-build-batch`.

**AWS CLI**  
**Untuk menghapus batch build in AWS CodeBuild.**  
`delete-build-batch`Contoh berikut menghapus build batch yang ditentukan.  

```
aws codebuild delete-build-batch \
    --id <project-name>:<batch-ID>
```
Output:  

```
{
    "statusCode": "BATCH_DELETED",
    "buildsDeleted": [
        "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
        "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
        "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
        "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>"
    ],
    "buildsNotDeleted": []
}
```
Untuk informasi selengkapnya, lihat [Batch build AWS CodeBuild di](https://docs.aws.amazon.com/codebuild/latest/userguide/batch-build.html) *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [DeleteBuildBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/delete-build-batch.html)di *Referensi AWS CLI Perintah*. 

### `delete-project`
<a name="codebuild_DeleteProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-project`.

**AWS CLI**  
**Untuk menghapus proyek AWS CodeBuild build**  
`delete-project`Contoh berikut menghapus proyek CodeBuild build yang ditentukan.  

```
aws codebuild delete-project --name my-project
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Proyek Pembuatan (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/delete-project.html) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [DeleteProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/delete-project.html)di *Referensi AWS CLI Perintah*. 

### `delete-report-group`
<a name="codebuild_DeleteReportGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-report-group`.

**AWS CLI**  
**Untuk menghapus grup laporan di AWS CodeBuild.**  
`delete-report-group`Contoh berikut menghapus grup laporan dengan ARN yang ditentukan.  

```
aws codebuild delete-report-group \
    --arn arn:aws:codebuild:<region-ID>:<user-ID>:report-group/<report-group-name>
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan grup laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report-group.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [DeleteReportGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/delete-report-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-report`
<a name="codebuild_DeleteReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-report`.

**AWS CLI**  
**Untuk menghapus laporan di AWS CodeBuild.**  
`delete-report`Contoh berikut menghapus laporan yang ditentukan.  

```
aws codebuild delete-report \
    --arn arn:aws:codebuild:<region-ID>:<account-ID>:report/<report-group-name>:<report-ID>
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [DeleteReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/delete-report.html)di *Referensi AWS CLI Perintah*. 

### `delete-source-credentials`
<a name="codebuild_DeleteSourceCredentials_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-source-credentials`.

**AWS CLI**  
**Untuk memutuskan sambungan dari penyedia sumber dan menghapus token aksesnya.**  
`delete-source-credentials`Contoh berikut terputus dari penyedia sumber dan menghapus tokennya. ARN kredensyal sumber yang digunakan untuk terhubung ke penyedia sumber menentukan kredensyal sumber mana.  

```
aws codebuild delete-source-credentials --arn arn-of-your-credentials
```
Output:  

```
{
    "arn": "arn:aws:codebuild:your-region:your-account-id:token/your-server-type"
}
```
Untuk informasi selengkapnya, lihat [Connect Source Providers with Access Tokens (CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/sample-access-tokens.html#sample-access-tokens-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [DeleteSourceCredentials](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/delete-source-credentials.html)di *Referensi AWS CLI Perintah*. 

### `delete-webhook`
<a name="codebuild_DeleteWebhook_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-webhook`.

**AWS CLI**  
**Untuk menghapus filter webhook dari proyek AWS CodeBuild **  
`delete-webhook`Contoh berikut menghapus webhook dari proyek yang ditentukan CodeBuild .  

```
aws codebuild delete-webhook --project-name my-project
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Stop Running Builds Automatically (AWS CLI](https://docs.aws.amazon.com/codebuild/latest/userguide/run-build.html#run-build-cli-auto-stop)) di Panduan Pengguna *AWS CodeBuild .*  
+  Untuk detail API, lihat [DeleteWebhook](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/delete-webhook.html)di *Referensi AWS CLI Perintah*. 

### `describe-code-coverages`
<a name="codebuild_DescribeCodeCoverages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-code-coverages`.

**AWS CLI**  
**Untuk mendapatkan informasi rinci tentang hasil tes cakupan kode di AWS CodeBuild.**  
`describe-code-coverages`Contoh berikut mendapatkan informasi tentang hasil uji cakupan kode dalam laporan yang ditentukan.  

```
aws codebuild describe-code-coverages \
    --report-arn arn:aws:codebuild:<region-ID>:<account-ID>:report/<report-group-name>:<report-ID>
```
Output:  

```
{
    "codeCoverages": [
        {
            "id": "20a0adcc-db13-4b66-804b-ecaf9f852855",
            "reportARN": "arn:aws:codebuild:<region-ID>:972506530580:report/<report-group-name>:<report-ID>",
            "filePath": "<source-file-1-path>",
            "lineCoveragePercentage": 83.33,
            "linesCovered": 5,
            "linesMissed": 1,
            "branchCoveragePercentage": 50.0,
            "branchesCovered": 1,
            "branchesMissed": 1,
            "expired": "2020-11-20T21:22:45+00:00"
        },
        {
            "id": "0887162d-bf57-4cf1-a164-e432373d1a83",
            "reportARN": "arn:aws:codebuild:<region-ID>:972506530580:report/<report-group-name>:<report-ID>",
            "filePath": "<source-file-2-path>",
            "lineCoveragePercentage": 90.9,
            "linesCovered": 10,
            "linesMissed": 1,
            "branchCoveragePercentage": 50.0,
            "branchesCovered": 1,
            "branchesMissed": 1,
            "expired": "2020-11-20T21:22:45+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Laporan cakupan kode](https://docs.aws.amazon.com/codebuild/latest/userguide/code-coverage-report.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [DescribeCodeCoverages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/describe-code-coverages.html)di *Referensi AWS CLI Perintah*. 

### `describe-test-cases`
<a name="codebuild_DescribeTestCases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-test-cases`.

**AWS CLI**  
**Untuk mendapatkan informasi rinci tentang kasus uji di AWS CodeBuild.**  
`describe-test-cases`Contoh berikut mendapatkan informasi tentang kasus uji dalam laporan yang ditentukan.  

```
aws codebuild describe-test-cases \
    --report-arn arn:aws:codebuild:<region-ID>:<account-ID>:report/<report-group-name>:<report-ID>
```
Output:  

```
{
    "testCases": [
        {
            "reportArn": "arn:aws:codebuild:<region-ID>:<account-ID>:report/<report-group-name>:<report-ID>",
            "testRawDataPath": "<test-report-path>",
            "prefix": "NUnit.Tests.Assemblies.MockTestFixture",
            "name": "NUnit.Tests.Assemblies.MockTestFixture.NotRunnableTest",
            "status": "ERROR",
            "durationInNanoSeconds": 0,
            "message": "No arguments were provided\n",
            "expired": "2020-11-20T17:52:10+00:00"
        },
        {
            "reportArn": "arn:aws:codebuild:<region-ID>:<account-ID>:report/<report-group-name>:<report-ID>",
            "testRawDataPath": "<test-report-path>",
            "prefix": "NUnit.Tests.Assemblies.MockTestFixture",
            "name": "NUnit.Tests.Assemblies.MockTestFixture.TestWithException",
            "status": "ERROR",
            "durationInNanoSeconds": 0,
            "message": "System.ApplicationException : Intentional Exception\nat NUnit.Tests.Assemblies.MockTestFixture.MethodThrowsException()\nat NUnit.Tests.Assemblies.MockTestFixture.TestWithException()\n\n",
            "expired": "2020-11-20T17:52:10+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan pelaporan pengujian AWS CodeBuild di](https://docs.aws.amazon.com/codebuild/latest/userguide/test-reporting.html) *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [DescribeTestCases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/describe-test-cases.html)di *Referensi AWS CLI Perintah*. 

### `import-source-credentials`
<a name="codebuild_ImportSourceCredentials_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-source-credentials`.

**AWS CLI**  
**Connect AWS CodeBuild pengguna ke penyedia sumber dengan mengimpor kredensional untuk penyedia sumber.**  
`import-source-credentials`Contoh berikut mengimpor token untuk repositori Bitbucket yang menggunakan BASIC\$1AUTH untuk jenis otentikasi.  

```
aws codebuild import-source-credentials --server-type BITBUCKET --auth-type BASIC_AUTH --token my-Bitbucket-password --username my-Bitbucket-username
```
Output:  

```
{
    "arn": "arn:aws:codebuild:us-west-2:123456789012:token/bitbucket"
}
```
Untuk informasi selengkapnya, lihat [Connect Source Providers with Access Tokens (CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/sample-access-tokens.html#sample-access-tokens-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [ImportSourceCredentials](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/import-source-credentials.html)di *Referensi AWS CLI Perintah*. 

### `invalidate-project-cache`
<a name="codebuild_InvalidateProjectCache_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`invalidate-project-cache`.

**AWS CLI**  
**Untuk mengatur ulang cache untuk proyek AWS CodeBuild build.**  
`invalidate-project-cache`Contoh berikut me-reset cache untuk CodeBuild proyek yang ditentukan.  

```
aws codebuild invalidate-project-cache --project-name my-project
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membangun Caching CodeBuild di](https://docs.aws.amazon.com/codebuild/latest/userguide/build-caching.html) *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [InvalidateProjectCache](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/invalidate-project-cache.html)di *Referensi AWS CLI Perintah*. 

### `list-build-batches-for-project`
<a name="codebuild_ListBuildBatchesForProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-build-batches-for-project`.

**AWS CLI**  
**Untuk membuat daftar build batch untuk proyek build tertentu di AWS CodeBuild.**  
`list-build-batches-for-project`Contoh berikut mencantumkan build CodeBuild batch untuk proyek yang ditentukan.  

```
aws codebuild list-build-batches-for-project \
    --project-name "<project-name>"
```
Output:  

```
{
    "ids": [
        "<project-name>:<batch-ID>",
        "<project-name>:<batch-ID>"
    ]
}
```
Untuk informasi selengkapnya, lihat [Batch build AWS CodeBuild di](https://docs.aws.amazon.com/codebuild/latest/userguide/batch-build.html) *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [ListBuildBatchesForProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-build-batches-for-project.html)di *Referensi AWS CLI Perintah*. 

### `list-build-batches`
<a name="codebuild_ListBuildBatches_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-build-batches`.

**AWS CLI**  
**Untuk membuat daftar batch build in AWS CodeBuild.**  
`list-build-batches`Contoh berikut mencantumkan build CodeBuild batch untuk akun saat ini.  

```
aws codebuild list-build-batches
```
Output:  

```
{
    "ids": [
        "<project-name>:<batch-ID>",
        "<project-name>:<batch-ID>"
    ]
}
```
*Untuk informasi selengkapnya, lihat Batch build di AWS CodeBuild < https://docs.aws.amazon.com/codebuild/ latest/userguide/batch -build.html>) \$1\$1 di Panduan Pengguna.AWS CodeBuild *  
+  Untuk detail API, lihat [ListBuildBatches](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-build-batches.html)di *Referensi AWS CLI Perintah*. 

### `list-builds-for-project`
<a name="codebuild_ListBuildsForProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-builds-for-project`.

**AWS CLI**  
**Untuk melihat daftar build untuk proyek AWS CodeBuild build.**  
`list-builds-for-project`Contoh berikut mencantumkan build IDs dalam urutan menurun untuk proyek CodeBuild build yang ditentukan.  

```
aws codebuild list-builds-for-project --project-name codebuild-demo-project --sort-order DESCENDING
```
Output:  

```
{
    "ids": [
        "codebuild-demo-project:1a2b3c4d-5678-90ab-cdef-11111example",
        "codebuild-demo-project:1a2b3c4d-5678-90ab-cdef-22222example",
        "codebuild-demo-project:1a2b3c4d-5678-90ab-cdef-33333example",
        "codebuild-demo-project:1a2b3c4d-5678-90ab-cdef-44444example",
        "codebuild-demo-project:1a2b3c4d-5678-90ab-cdef-55555example"
    ]
}
```
*Untuk informasi selengkapnya, lihat [Melihat Daftar Build IDs for a Build Project (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/view-builds-for-project.html#view-builds-for-project-cli) di Panduan Pengguna AWS CodeBuild *  
+  Untuk detail API, lihat [ListBuildsForProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-builds-for-project.html)di *Referensi AWS CLI Perintah*. 

### `list-builds`
<a name="codebuild_ListBuilds_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-builds`.

**AWS CLI**  
**Untuk mendapatkan daftar AWS CodeBuild build. IDs**  
`list-builds`Contoh berikut mendapat daftar CodeBuild IDs diurutkan dalam urutan menaik.  

```
aws codebuild list-builds --sort-order ASCENDING
```
Output mencakup `nextToken` nilai yang menunjukkan bahwa ada lebih banyak output yang tersedia.  

```
{
    "nextToken": "4AEA6u7J...The full token has been omitted for brevity...MzY2OA==",
    "ids": [
        "codebuild-demo-project:815e755f-bade-4a7e-80f0-efe51EXAMPLE"
        "codebuild-demo-project:84a7f3d1-d40e-4956-b4cf-7a9d4EXAMPLE"
            ... The full list of build IDs has been omitted for brevity ...
        "codebuild-demo-project:931d0b72-bf6f-4040-a472-5c707EXAMPLE"
    ]
}
```
Jalankan perintah ini lagi dan berikan `nextToken` nilai dalam respons sebelumnya sebagai parameter untuk mendapatkan bagian berikutnya dari output. Ulangi sampai Anda tidak menerima `nextToken` nilai dalam respons.  

```
aws codebuild list-builds --sort-order ASCENDING --next-token 4AEA6u7J...The full token has been omitted for brevity...MzY2OA==
```
Bagian selanjutnya dari output:  

```
{
    "ids": [
        "codebuild-demo-project:49015049-21cf-4b50-9708-df115EXAMPLE",
        "codebuild-demo-project:543e7206-68a3-46d6-a4da-759abEXAMPLE",
            ... The full list of build IDs has been omitted for brevity ...
        "codebuild-demo-project:c282f198-4582-4b38-bdc0-26f96EXAMPLE"
    ]
}
```
*Untuk informasi selengkapnya, [lihat Melihat Daftar Build IDs (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/view-build-list.html) di Panduan Pengguna AWS CodeBuild *  
+  Untuk detail API, lihat [ListBuilds](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-builds.html)di *Referensi AWS CLI Perintah*. 

### `list-curated-environment-images`
<a name="codebuild_ListCuratedEnvironmentImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-curated-environment-images`.

**AWS CLI**  
**Untuk mendapatkan daftar gambar Docker AWS CodeBuild yang dikelola olehnya, Anda dapat menggunakannya untuk build Anda.**  
`list-curated-environment-images`Contoh berikut mencantumkan gambar Docker yang dikelola oleh CodeBuild yang dapat digunakan untuk build. :  

```
aws codebuild list-curated-environment-images
```
Output:  

```
{
    "platforms": [
        {
            "platform": "AMAZON_LINUX",
            "languages": [
                {
                    "language": "JAVA",
                    "images": [
                        {
                            "description": "AWS ElasticBeanstalk - Java 7 Running on Amazon Linux 64bit v2.1.3",
                            "name": "aws/codebuild/eb-java-7-amazonlinux-64:2.1.3",
                            "versions": [
                                "aws/codebuild/eb-java-7-amazonlinux-64:2.1.3-1.0.0"
                            ]
                        },
                        {
                            "description": "AWS ElasticBeanstalk - Java 8 Running on Amazon Linux 64bit v2.1.3",
                            "name": "aws/codebuild/eb-java-8-amazonlinux-64:2.1.3",
                            "versions": [
                                "aws/codebuild/eb-java-8-amazonlinux-64:2.1.3-1.0.0"
                            ]
                        },
                        ... LIST TRUNCATED FOR BREVITY ...
                    ]
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Gambar Docker Disediakan oleh CodeBuild](https://docs.aws.amazon.com/codebuild/latest/userguide/build-env-ref-available.html) di *AWS CodeBuild Panduan Pengguna*  
+  Untuk detail API, lihat [ListCuratedEnvironmentImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-curated-environment-images.html)di *Referensi AWS CLI Perintah*. 

### `list-projects`
<a name="codebuild_ListProjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-projects`.

**AWS CLI**  
**Untuk mendapatkan daftar nama proyek AWS CodeBuild build.**  
`list-projects`Contoh berikut mendapatkan daftar proyek CodeBuild build yang diurutkan berdasarkan nama dalam urutan menaik.  

```
aws codebuild list-projects --sort-by NAME --sort-order ASCENDING
```
Output mencakup `nextToken` nilai yang menunjukkan bahwa ada lebih banyak output yang tersedia.  

```
{
    "nextToken": "Ci33ACF6...The full token has been omitted for brevity...U+AkMx8=",
    "projects": [
        "codebuild-demo-project",
        "codebuild-demo-project2",
            ... The full list of build project names has been omitted for brevity ...
        "codebuild-demo-project99"
    ]
}
```
Jalankan perintah ini lagi dan berikan `nextToken` nilai dari respons sebelumnya sebagai parameter untuk mendapatkan bagian berikutnya dari output. Ulangi sampai Anda tidak menerima `nextToken` nilai dalam respons.  

```
aws codebuild list-projects  --sort-by NAME --sort-order ASCENDING --next-token Ci33ACF6...The full token has been omitted for brevity...U+AkMx8=

{
    "projects": [
        "codebuild-demo-project100",
        "codebuild-demo-project101",
            ... The full list of build project names has been omitted for brevity ...
        "codebuild-demo-project122"
    ]
}
```
Untuk informasi selengkapnya, [lihat Melihat Daftar Nama Proyek Build (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/view-project-list.html#view-project-list-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [ListProjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-projects.html)di *Referensi AWS CLI Perintah*. 

### `list-report-groups`
<a name="codebuild_ListReportGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-report-groups`.

**AWS CLI**  
**Untuk mendapatkan daftar grup laporan ARNs di AWS CodeBuild.**  
`list-report-groups`Contoh berikut mengambil grup laporan ARNs untuk akun di wilayah tersebut.  

```
aws codebuild list-report-groups
```
Output:  

```
{
    "reportGroups": [
        "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/report-group-1",
        "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/report-group-2",
        "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/report-group-3"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report-group.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [ListReportGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-report-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-reports-for-report-group`
<a name="codebuild_ListReportsForReportGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-reports-for-report-group`.

**AWS CLI**  
**Untuk mendapatkan daftar laporan dalam grup laporan di AWS CodeBuild.**  
`list-report-for-report-groups`Contoh berikut mengambil laporan dalam grup laporan yang ditentukan untuk akun di wilayah tersebut.  

```
aws codebuild list-reports-for-report-group \
    --report-group-arn arn:aws:codebuild:<region-ID>:<user-ID>:report-group/<report-group-name>
```
Output:  

```
{
    "reports": [
        "arn:aws:codebuild:<region-ID>:<user-ID>:report/report-1",
        "arn:aws:codebuild:<region-ID>:<user-ID>:report/report-2",
        "arn:aws:codebuild:<region-ID>:<user-ID>:report/report-3"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report-group.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [ListReportsForReportGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-reports-for-report-group.html)di *Referensi AWS CLI Perintah*. 

### `list-reports`
<a name="codebuild_ListReports_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-reports`.

**AWS CLI**  
**Untuk mendapatkan daftar laporan untuk akun saat ini di AWS CodeBuild.**  
`list-reports`Contoh berikut mengambil laporan untuk akun saat ini. ARNs   

```
aws codebuild list-reports
```
Output:  

```
{
    "reports": [
        "arn:aws:codebuild:<region-ID>:<user-ID>:report/<report-group-name>:<report ID>",
        "arn:aws:codebuild:<region-ID>:<user-ID>:report/<report-group-name>:<report ID>",
        "arn:aws:codebuild:<region-ID>:<user-ID>:report/<report-group-name>:<report ID>"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [ListReports](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-reports.html)di *Referensi AWS CLI Perintah*. 

### `list-shared-projects`
<a name="codebuild_ListSharedProjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-shared-projects`.

**AWS CLI**  
**Untuk membuat daftar proyek bersama di AWS CodeBuild.**  
`list-shared-projects`Contoh berikut mencantumkan proyek CodeBuild bersama yang tersedia untuk akun saat ini.  

```
aws codebuild list-shared-projects
```
Output:  

```
{
    "projects": [
        "arn:aws:codebuild:<region-ID>:<account-ID>:project/<shared-project-name-1>",
        "arn:aws:codebuild:<region-ID>:<account-ID>:project/<shared-project-name-2>"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan proyek bersama](https://docs.aws.amazon.com/codebuild/latest/userguide/project-sharing.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [ListSharedProjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-shared-projects.html)di *Referensi AWS CLI Perintah*. 

### `list-shared-report-groups`
<a name="codebuild_ListSharedReportGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-shared-report-groups`.

**AWS CLI**  
**Untuk mendapatkan daftar grup laporan bersama ARNs di AWS CodeBuild.**  
`list-shared-report-groups`Contoh berikut mengambil grup laporan ARNs untuk akun di wilayah tersebut.  

```
aws codebuild list-shared-report-groups
```
Output:  

```
{
    "reportGroups": [
        "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/report-group-1",
        "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/report-group-2",
        "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/report-group-3"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report-group.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [ListSharedReportGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-shared-report-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-source-credentials`
<a name="codebuild_ListSourceCredentials_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-source-credentials`.

**AWS CLI**  
**Untuk melihat daftar sourceCredentialsObjects**  
`list-source-credentials`Contoh berikut mencantumkan token untuk AWS akun yang terhubung ke satu akun Bitbucket dan satu GitHub akun. Setiap `sourceCredentialsInfos` objek dalam respon berisi informasi kredensial sumber yang terhubung.  

```
aws codebuild list-source-credentials
```
Output:  

```
{
    "sourceCredentialsInfos": [
        {
            "serverType": "BITBUCKET",
            "arn": "arn:aws:codebuild:us-west-2:123456789012:token/bitbucket",
            "authType": "BASIC_AUTH"
        },
        {
            "serverType": "GITHUB",
            "arn": "arn:aws:codebuild:us-west-2:123456789012:token/github",
            "authType": "OAUTH"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Connect Source Providers with Access Tokens (CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/sample-access-tokens.html#sample-access-tokens-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [ListSourceCredentials](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/list-source-credentials.html)di *Referensi AWS CLI Perintah*. 

### `retry-build-batch`
<a name="codebuild_RetryBuildBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`retry-build-batch`.

**AWS CLI**  
**Untuk mencoba lagi pembuatan batch yang gagal. AWS CodeBuild**  
`retry-build-batch`Contoh berikut memulai ulang build batch yang ditentukan.  

```
aws codebuild retry-build-batch \
    --id <project-name>:<batch-ID>
```
Output:  

```
{
    "buildBatch": {
        "id": "<project-name>:<batch-ID>",
        "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build-batch/<project-name>:<batch-ID>",
        "startTime": "2020-10-21T17:26:23.099000+00:00",
        "currentPhase": "SUBMITTED",
        "buildBatchStatus": "IN_PROGRESS",
        "resolvedSourceVersion": "3a9e11cb419e8fff14b03883dc4e64f6155aaa7e",
        "projectName": "<project-name>",
        "phases": [
            {
                "phaseType": "SUBMITTED",
                "phaseStatus": "SUCCEEDED",
                "startTime": "2020-10-21T17:26:23.099000+00:00",
                "endTime": "2020-10-21T17:26:23.457000+00:00",
                "durationInSeconds": 0
            },
            {
                "phaseType": "DOWNLOAD_BATCHSPEC",
                "phaseStatus": "SUCCEEDED",
                "startTime": "2020-10-21T17:26:23.457000+00:00",
                "endTime": "2020-10-21T17:26:54.902000+00:00",
                "durationInSeconds": 31
            },
            {
                "phaseType": "IN_PROGRESS",
                "phaseStatus": "CLIENT_ERROR",
                "startTime": "2020-10-21T17:26:54.902000+00:00",
                "endTime": "2020-10-21T17:28:16.060000+00:00",
                "durationInSeconds": 81
            },
            {
                "phaseType": "FAILED",
                "phaseStatus": "RETRY",
                "startTime": "2020-10-21T17:28:16.060000+00:00",
                "endTime": "2020-10-21T17:29:39.709000+00:00",
                "durationInSeconds": 83
            },
            {
                "phaseType": "SUBMITTED",
                "startTime": "2020-10-21T17:29:39.709000+00:00"
            }
        ],
        "source": {
            "type": "GITHUB",
            "location": "https://github.com/strohm-a/<project-name>-graph.git",
            "gitCloneDepth": 1,
            "gitSubmodulesConfig": {
                "fetchSubmodules": false
            },
            "reportBuildStatus": false,
            "insecureSsl": false
        },
        "secondarySources": [],
        "secondarySourceVersions": [],
        "artifacts": {
            "location": ""
        },
        "secondaryArtifacts": [],
        "cache": {
            "type": "NO_CACHE"
        },
        "environment": {
            "type": "LINUX_CONTAINER",
            "image": "aws/codebuild/amazonlinux2-x86_64-standard:3.0",
            "computeType": "BUILD_GENERAL1_SMALL",
            "environmentVariables": [],
            "privilegedMode": false,
            "imagePullCredentialsType": "CODEBUILD"
        },
        "logConfig": {
            "cloudWatchLogs": {
                "status": "ENABLED"
            },
            "s3Logs": {
                "status": "DISABLED",
                "encryptionDisabled": false
            }
        },
        "buildTimeoutInMinutes": 60,
        "queuedTimeoutInMinutes": 480,
        "complete": false,
        "initiator": "<username>",
        "encryptionKey": "arn:aws:kms:<region-ID>:<account-ID>:alias/aws/s3",
        "buildBatchNumber": 4,
        "buildBatchConfig": {
            "serviceRole": "arn:aws:iam::<account-ID>:role/service-role/<project-name>",
            "restrictions": {
                "maximumBuildsAllowed": 100
            },
            "timeoutInMins": 480
        },
        "buildGroups": [
            {
                "identifier": "DOWNLOAD_SOURCE",
                "ignoreFailure": false,
                "currentBuildSummary": {
                    "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
                    "requestedOn": "2020-10-21T17:26:23.889000+00:00",
                    "buildStatus": "SUCCEEDED",
                    "primaryArtifact": {
                        "type": "no_artifacts",
                        "identifier": "DOWNLOAD_SOURCE"
                    },
                    "secondaryArtifacts": []
                }
            },
            {
                "identifier": "linux_small",
                "dependsOn": [],
                "ignoreFailure": false,
                "currentBuildSummary": {
                    "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
                    "requestedOn": "2020-10-21T17:26:55.115000+00:00",
                    "buildStatus": "FAILED",
                    "primaryArtifact": {
                        "type": "no_artifacts",
                        "identifier": "linux_small"
                    },
                    "secondaryArtifacts": []
                }
            },
            {
                "identifier": "linux_medium",
                "dependsOn": [
                    "linux_small"
                ],
                "ignoreFailure": false,
                "currentBuildSummary": {
                    "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
                    "requestedOn": "2020-10-21T17:26:54.594000+00:00",
                    "buildStatus": "STOPPED"
                }
            },
            {
                "identifier": "linux_large",
                "dependsOn": [
                    "linux_medium"
                ],
                "ignoreFailure": false,
                "currentBuildSummary": {
                    "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
                    "requestedOn": "2020-10-21T17:26:54.701000+00:00",
                    "buildStatus": "STOPPED"
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Batch build AWS CodeBuild di](https://docs.aws.amazon.com/codebuild/latest/userguide/batch-build.html) *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [RetryBuildBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/retry-build-batch.html)di *Referensi AWS CLI Perintah*. 

### `retry-build`
<a name="codebuild_RetryBuild_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`retry-build`.

**AWS CLI**  
**Untuk mencoba lagi build in AWS CodeBuild yang gagal.**  
`retry-build`Contoh berikut memulai ulang build yang ditentukan.  

```
aws codebuild retry-build \
    --id <project-name>:<build-ID>
```
Output:  

```
{
    "build": {
        "id": "<project-name>:<build-ID>",
        "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
        "buildNumber": 9,
        "startTime": "2020-10-21T17:51:38.161000+00:00",
        "currentPhase": "QUEUED",
        "buildStatus": "IN_PROGRESS",
        "projectName": "<project-name>",
        "phases": [
            {
                "phaseType": "SUBMITTED",
                "phaseStatus": "SUCCEEDED",
                "startTime": "2020-10-21T17:51:38.161000+00:00",
                "endTime": "2020-10-21T17:51:38.210000+00:00",
                "durationInSeconds": 0
            },
            {
                "phaseType": "QUEUED",
                "startTime": "2020-10-21T17:51:38.210000+00:00"
            }
        ],
        "source": {
            "type": "GITHUB",
            "location": "<GitHub-repo-URL>",
            "gitCloneDepth": 1,
            "gitSubmodulesConfig": {
                "fetchSubmodules": false
            },
            "reportBuildStatus": false,
            "insecureSsl": false
        },
        "secondarySources": [],
        "secondarySourceVersions": [],
        "artifacts": {
            "location": ""
        },
        "secondaryArtifacts": [],
        "cache": {
            "type": "NO_CACHE"
        },
        "environment": {
            "type": "LINUX_CONTAINER",
            "image": "aws/codebuild/amazonlinux2-x86_64-standard:3.0",
            "computeType": "BUILD_GENERAL1_SMALL",
            "environmentVariables": [],
            "privilegedMode": false,
            "imagePullCredentialsType": "CODEBUILD"
        },
        "serviceRole": "arn:aws:iam::<account-ID>:role/service-role/<service-role-name>",
        "logs": {
            "deepLink": "https://console.aws.amazon.com/cloudwatch/home?region=<region-ID>#logEvent:group=null;stream=null",
            "cloudWatchLogsArn": "arn:aws:logs:<region-ID>:<account-ID>:log-group:null:log-stream:null",
            "cloudWatchLogs": {
                "status": "ENABLED"
            },
            "s3Logs": {
                "status": "DISABLED",
                "encryptionDisabled": false
            }
        },
        "timeoutInMinutes": 60,
        "queuedTimeoutInMinutes": 480,
        "buildComplete": false,
        "initiator": "<username>",
        "encryptionKey": "arn:aws:kms:<region-ID>:<account-ID>:alias/aws/s3"
    }
}
```
Untuk informasi selengkapnya, lihat [Batch build AWS CodeBuild di](https://docs.aws.amazon.com/codebuild/latest/userguide/batch-build.html) *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [RetryBuild](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/retry-build.html)di *Referensi AWS CLI Perintah*. 

### `start-build-batch`
<a name="codebuild_StartBuildBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-build-batch`.

**AWS CLI**  
**Untuk memulai pembuatan batch AWS CodeBuild.**  
`start-build-batch`Contoh berikut memulai batch build dari proyek yang ditentukan.  

```
aws codebuild start-build-batch \
    --project-name <project-name>
```
Output:  

```
{
    "buildBatch": {
        "id": "<project-name>:<batch-ID>",
        "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build-batch/<project-name>:<batch-ID>",
        "startTime": "2020-10-21T16:54:24.740000+00:00",
        "currentPhase": "SUBMITTED",
        "buildBatchStatus": "IN_PROGRESS",
        "projectName": "<project-name>",
        "source": {
            "type": "GITHUB",
            "location": "<GitHub-repo-URL>",
            "gitCloneDepth": 1,
            "gitSubmodulesConfig": {
                "fetchSubmodules": false
            },
            "reportBuildStatus": false,
            "insecureSsl": false
        },
        "secondarySources": [],
        "secondarySourceVersions": [],
        "artifacts": {
            "location": ""
        },
        "secondaryArtifacts": [],
        "cache": {
            "type": "NO_CACHE"
        },
        "environment": {
            "type": "LINUX_CONTAINER",
            "image": "aws/codebuild/amazonlinux2-x86_64-standard:3.0",
            "computeType": "BUILD_GENERAL1_SMALL",
            "environmentVariables": [],
            "privilegedMode": false,
            "imagePullCredentialsType": "CODEBUILD"
        },
        "logConfig": {
            "cloudWatchLogs": {
                "status": "ENABLED"
            },
            "s3Logs": {
                "status": "DISABLED",
                "encryptionDisabled": false
            }
        },
        "buildTimeoutInMinutes": 60,
        "queuedTimeoutInMinutes": 480,
        "complete": false,
        "initiator": "<username>",
        "encryptionKey": "arn:aws:kms:<region-ID>:<account-ID>:alias/aws/s3",
        "buildBatchNumber": 3,
        "buildBatchConfig": {
            "serviceRole": "arn:aws:iam::<account-ID>:role/service-role/<service-role-name>",
            "restrictions": {
                "maximumBuildsAllowed": 100
            },
            "timeoutInMins": 480
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Batch build AWS CodeBuild di](https://docs.aws.amazon.com/codebuild/latest/userguide/batch-build.html) *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [StartBuildBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/start-build-batch.html)di *Referensi AWS CLI Perintah*. 

### `start-build`
<a name="codebuild_StartBuild_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-build`.

**AWS CLI**  
**Untuk mulai menjalankan build proyek AWS CodeBuild build.**  
`start-build`Contoh berikut memulai build untuk CodeBuild proyek yang ditentukan. Build mengesampingkan pengaturan proyek selama beberapa menit build diizinkan untuk antri sebelum waktu habis dan pengaturan artefak proyek.  

```
aws codebuild start-build \
    --project-name "my-demo-project" \
    --queued-timeout-in-minutes-override 5 \
    --artifacts-override {"\"type\": \"S3\",\"location\": \"arn:aws:s3:::artifacts-override\",\"overrideArtifactName\":true"}
```
Output:  

```
{
    "build": {
        "serviceRole": "arn:aws:iam::123456789012:role/service-role/my-codebuild-service-role",
        "buildStatus": "IN_PROGRESS",
        "buildComplete": false,
        "projectName": "my-demo-project",
        "timeoutInMinutes": 60,
        "source": {
            "insecureSsl": false,
            "type": "S3",
            "location": "codebuild-us-west-2-123456789012-input-bucket/my-source.zip"
        },
        "queuedTimeoutInMinutes": 5,
        "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
        "currentPhase": "QUEUED",
        "startTime": 1556905683.568,
        "environment": {
            "computeType": "BUILD_GENERAL1_MEDIUM",
            "environmentVariables": [],
            "type": "LINUX_CONTAINER",
            "privilegedMode": false,
            "image": "aws/codebuild/standard:1.0",
            "imagePullCredentialsType": "CODEBUILD"
        },
        "phases": [
            {
                "phaseStatus": "SUCCEEDED",
                "startTime": 1556905683.568,
                "phaseType": "SUBMITTED",
                "durationInSeconds": 0,
                "endTime": 1556905684.524
            },
            {
                "startTime": 1556905684.524,
                "phaseType": "QUEUED"
            }
        ],
        "logs": {
            "deepLink": "https://console.aws.amazon.com/cloudwatch/home?region=us-west-2#logEvent:group=null;stream=null"
        },
        "artifacts": {
            "encryptionDisabled": false,
            "location": "arn:aws:s3:::artifacts-override/my-demo-project",
            "overrideArtifactName": true
        },
        "cache": {
            "type": "NO_CACHE"
        },
        "id": "my-demo-project::12345678-a1b2-c3d4-e5f6-11111EXAMPLE",
        "initiator": "my-aws-account-name",
        "arn": "arn:aws:codebuild:us-west-2:123456789012:build/my-demo-project::12345678-a1b2-c3d4-e5f6-11111EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Menjalankan Build (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/run-build.html#run-build-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [StartBuild](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/start-build.html)di *Referensi AWS CLI Perintah*. 

### `stop-build-batch`
<a name="codebuild_StopBuildBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-build-batch`.

**AWS CLI**  
**Untuk menghentikan pembuatan batch yang sedang berlangsung. AWS CodeBuild**  
`stop-build-batch`Contoh berikut menghentikan build batch yang ditentukan.  

```
aws codebuild stop-build-batch \
    --id <project-name>:<batch-ID>
```
Output:  

```
{
    "buildBatch": {
        "id": "<project-name>:<batch-ID>",
        "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build-batch/<project-name>:<batch-ID>",
        "startTime": "2020-10-21T16:54:24.740000+00:00",
        "endTime": "2020-10-21T16:56:05.152000+00:00",
        "currentPhase": "STOPPED",
        "buildBatchStatus": "STOPPED",
        "resolvedSourceVersion": "aef7744ed069c51098e15c360f4102cd2cd1ad64",
        "projectName": "<project-name>",
        "phases": [
            {
                "phaseType": "SUBMITTED",
                "phaseStatus": "SUCCEEDED",
                "startTime": "2020-10-21T16:54:24.740000+00:00",
                "endTime": "2020-10-21T16:54:25.039000+00:00",
                "durationInSeconds": 0
            },
            {
                "phaseType": "DOWNLOAD_BATCHSPEC",
                "phaseStatus": "SUCCEEDED",
                "startTime": "2020-10-21T16:54:25.039000+00:00",
                "endTime": "2020-10-21T16:54:56.583000+00:00",
                "durationInSeconds": 31
            },
            {
                "phaseType": "IN_PROGRESS",
                "phaseStatus": "STOPPED",
                "startTime": "2020-10-21T16:54:56.583000+00:00",
                "endTime": "2020-10-21T16:56:05.152000+00:00",
                "durationInSeconds": 68
            },
            {
                "phaseType": "STOPPED",
                "startTime": "2020-10-21T16:56:05.152000+00:00"
            }
        ],
        "source": {
            "type": "GITHUB",
            "location": "<GitHub-repo-URL>",
            "gitCloneDepth": 1,
            "gitSubmodulesConfig": {
                "fetchSubmodules": false
            },
            "reportBuildStatus": false,
            "insecureSsl": false
        },
        "secondarySources": [],
        "secondarySourceVersions": [],
        "artifacts": {
            "location": ""
        },
        "secondaryArtifacts": [],
        "cache": {
            "type": "NO_CACHE"
        },
        "environment": {
            "type": "LINUX_CONTAINER",
            "image": "aws/codebuild/amazonlinux2-x86_64-standard:3.0",
            "computeType": "BUILD_GENERAL1_SMALL",
            "environmentVariables": [],
            "privilegedMode": false,
            "imagePullCredentialsType": "CODEBUILD"
        },
        "logConfig": {
            "cloudWatchLogs": {
                "status": "ENABLED"
            },
            "s3Logs": {
                "status": "DISABLED",
                "encryptionDisabled": false
            }
        },
        "buildTimeoutInMinutes": 60,
        "queuedTimeoutInMinutes": 480,
        "complete": true,
        "initiator": "Strohm",
        "encryptionKey": "arn:aws:kms:<region-ID>:<account-ID>:alias/aws/s3",
        "buildBatchNumber": 3,
        "buildBatchConfig": {
            "serviceRole": "arn:aws:iam::<account-ID>:role/service-role/<project-name>",
            "restrictions": {
                "maximumBuildsAllowed": 100
            },
            "timeoutInMins": 480
        },
        "buildGroups": [
            {
                "identifier": "DOWNLOAD_SOURCE",
                "ignoreFailure": false,
                "currentBuildSummary": {
                    "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
                    "requestedOn": "2020-10-21T16:54:25.468000+00:00",
                    "buildStatus": "SUCCEEDED",
                    "primaryArtifact": {
                        "type": "no_artifacts",
                        "identifier": "DOWNLOAD_SOURCE"
                    },
                    "secondaryArtifacts": []
                }
            },
            {
                "identifier": "linux_small",
                "dependsOn": [],
                "ignoreFailure": false,
                "currentBuildSummary": {
                    "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
                    "requestedOn": "2020-10-21T16:54:56.833000+00:00",
                    "buildStatus": "IN_PROGRESS"
                }
            },
            {
                "identifier": "linux_medium",
                "dependsOn": [
                    "linux_small"
                ],
                "ignoreFailure": false,
                "currentBuildSummary": {
                    "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
                    "requestedOn": "2020-10-21T16:54:56.211000+00:00",
                    "buildStatus": "PENDING"
                }
            },
            {
                "identifier": "linux_large",
                "dependsOn": [
                    "linux_medium"
                ],
                "ignoreFailure": false,
                "currentBuildSummary": {
                    "arn": "arn:aws:codebuild:<region-ID>:<account-ID>:build/<project-name>:<build-ID>",
                    "requestedOn": "2020-10-21T16:54:56.330000+00:00",
                    "buildStatus": "PENDING"
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Batch build AWS CodeBuild di](https://docs.aws.amazon.com/codebuild/latest/userguide/batch-build.html) *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [StopBuildBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/stop-build-batch.html)di *Referensi AWS CLI Perintah*. 

### `stop-build`
<a name="codebuild_StopBuild_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-build`.

**AWS CLI**  
**Untuk menghentikan pembangunan proyek AWS CodeBuild pembangunan.**  
`stop-build`Contoh berikut menghentikan CodeBuild build yang ditentukan.  

```
aws codebuild stop-build --id my-demo-project:12345678-a1b2-c3d4-e5f6-11111EXAMPLE
```
Output:  

```
{
    "build": {
        "startTime": 1556906956.318,
        "initiator": "my-aws-account-name",
        "projectName": "my-demo-project",
        "currentPhase": "COMPLETED",
        "cache": {
            "type": "NO_CACHE"
        },
        "source": {
            "insecureSsl": false,
            "location": "codebuild-us-west-2-123456789012-input-bucket/my-source.zip",
            "type": "S3"
        },
        "id": "my-demo-project:1a2b3c4d-5678-90ab-cdef-11111EXAMPLE",
        "endTime": 1556906974.781,
        "phases": [
            {
                "durationInSeconds": 0,
                "phaseType": "SUBMITTED",
                "endTime": 1556906956.935,
                "phaseStatus": "SUCCEEDED",
                "startTime": 1556906956.318
            },
            {
                "durationInSeconds": 1,
                "phaseType": "QUEUED",
                "endTime": 1556906958.272,
                "phaseStatus": "SUCCEEDED",
                "startTime": 1556906956.935
            },
            {
                "phaseType": "PROVISIONING",
                "phaseStatus": "SUCCEEDED",
                "durationInSeconds": 14,
                "contexts": [
                    {
                        "message": "",
                        "statusCode": ""
                    }
                ],
                "endTime": 1556906972.847,
                "startTime": 1556906958.272
            },
            {
                "phaseType": "DOWNLOAD_SOURCE",
                "phaseStatus": "SUCCEEDED",
                "durationInSeconds": 0,
                "contexts": [
                        {
                        "message": "",
                        "statusCode": ""
                    }
                ],
                "endTime": 1556906973.552,
                "startTime": 1556906972.847
            },
            {
                "phaseType": "INSTALL",
                "phaseStatus": "SUCCEEDED",
                "durationInSeconds": 0,
                "contexts": [
                    {
                        "message": "",
                        "statusCode": ""
                    }
                ],
                "endTime": 1556906973.75,
                "startTime": 1556906973.552
            },
            {
                "phaseType": "PRE_BUILD",
                "phaseStatus": "SUCCEEDED",
                "durationInSeconds": 0,
                "contexts": [
                    {
                        "message": "",
                        "statusCode": ""
                    }
                ],
                "endTime": 1556906973.937,
                "startTime": 1556906973.75
            },
            {
                "durationInSeconds": 0,
                "phaseType": "BUILD",
                "endTime": 1556906974.781,
                "phaseStatus": "STOPPED",
                "startTime": 1556906973.937
            },
            {
                "phaseType": "COMPLETED",
                "startTime": 1556906974.781
            }
        ],
        "artifacts": {
            "location": "arn:aws:s3:::artifacts-override/my-demo-project",
            "encryptionDisabled": false,
            "overrideArtifactName": true
        },
        "buildComplete": true,
        "buildStatus": "STOPPED",
        "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
        "serviceRole": "arn:aws:iam::123456789012:role/service-role/my-codebuild-service-role",
        "queuedTimeoutInMinutes": 5,
        "timeoutInMinutes": 60,
        "environment": {
            "type": "LINUX_CONTAINER",
            "environmentVariables": [],
            "computeType": "BUILD_GENERAL1_MEDIUM",
            "privilegedMode": false,
            "image": "aws/codebuild/standard:1.0",
            "imagePullCredentialsType": "CODEBUILD"
        },
        "logs": {
            "streamName": "1a2b3c4d-5678-90ab-cdef-11111EXAMPLE",
            "deepLink": "https://console.aws.amazon.com/cloudwatch/home?region=us-west-2#logEvent:group=/aws/codebuild/my-demo-project;stream=1a2b3c4d-5678-90ab-cdef-11111EXAMPLE",
            "groupName": "/aws/codebuild/my-demo-project"
        },
        "arn": "arn:aws:codebuild:us-west-2:123456789012:build/my-demo-project:1a2b3c4d-5678-90ab-cdef-11111EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghentikan Build (AWS CLI)](https://docs.aws.amazon.com/codebuild/latest/userguide/stop-build.html#stop-build-cli) di *AWS CodeBuild Panduan Pengguna*.  
+  Untuk detail API, lihat [StopBuild](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/stop-build.html)di *Referensi AWS CLI Perintah*. 

### `update-project`
<a name="codebuild_UpdateProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-project`.

**AWS CLI**  
**Untuk mengubah pengaturan proyek AWS CodeBuild build.**  
`update-project`Contoh berikut mengubah pengaturan proyek CodeBuild build yang ditentukan bernama my-demo-project.  

```
aws codebuild update-project --name "my-demo-project" \
    --description "This project is updated" \
    --source "{\"type\": \"S3\",\"location\": \"codebuild-us-west-2-123456789012-input-bucket/my-source-2.zip\"}" \
    --artifacts {"\"type\": \"S3\",\"location\": \"codebuild-us-west-2-123456789012-output-bucket-2\""} \
    --environment "{\"type\": \"LINUX_CONTAINER\",\"image\": \"aws/codebuild/standard:1.0\",\"computeType\": \"BUILD_GENERAL1_MEDIUM\"}" \
    --service-role "arn:aws:iam::123456789012:role/service-role/my-codebuild-service-role"
```
Output menampilkan pengaturan yang diperbarui.  

```
{
    "project": {
        "arn": "arn:aws:codebuild:us-west-2:123456789012:project/my-demo-project",
        "environment": {
            "privilegedMode": false,
            "environmentVariables": [],
            "type": "LINUX_CONTAINER",
            "image": "aws/codebuild/standard:1.0",
            "computeType": "BUILD_GENERAL1_MEDIUM",
            "imagePullCredentialsType": "CODEBUILD"
        },
        "queuedTimeoutInMinutes": 480,
        "description": "This project is updated",
        "artifacts": {
            "packaging": "NONE",
            "name": "my-demo-project",
            "type": "S3",
            "namespaceType": "NONE",
            "encryptionDisabled": false,
            "location": "codebuild-us-west-2-123456789012-output-bucket-2"
        },
        "encryptionKey": "arn:aws:kms:us-west-2:123456789012:alias/aws/s3",
        "badge": {
            "badgeEnabled": false
        },
        "serviceRole": "arn:aws:iam::123456789012:role/service-role/my-codebuild-service-role",
        "lastModified": 1556840545.967,
        "tags": [],
        "timeoutInMinutes": 60,
        "created": 1556839783.274,
        "name": "my-demo-project",
        "cache": {
            "type": "NO_CACHE"
        },
        "source": {
            "type": "S3",
            "insecureSsl": false,
            "location": "codebuild-us-west-2-123456789012-input-bucket/my-source-2.zip"
        }
    }
}
```
*Untuk informasi selengkapnya, lihat [Mengubah Setelan (AWS CLI) Build Project](https://docs.aws.amazon.com/codebuild/latest/userguide/change-project.html#change-project-cli) di Panduan Pengguna AWS CodeBuild *  
+  Untuk detail API, lihat [UpdateProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/update-project.html)di *Referensi AWS CLI Perintah*. 

### `update-report-group`
<a name="codebuild_UpdateReportGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-report-group`.

**AWS CLI**  
**Untuk memperbarui grup laporan di AWS CodeBuild.**  
`update-report-group`Contoh berikut mengubah jenis ekspor grup laporan menjadi “NO\$1EXPORT”.  

```
aws codebuild update-report-group \
    --arn arn:aws:codebuild:<region-ID>:<user-ID>:report-group/cli-created-report-group \
    --export-config="exportConfigType=NO_EXPORT"
```
Output:  

```
{
    "reportGroup": {
        "arn": "arn:aws:codebuild:<region-ID>:<user-ID>:report-group/cli-created-report-group",
        "name": "cli-created-report-group",
        "type": "TEST",
        "exportConfig": {
            "exportConfigType": "NO_EXPORT"
        },
        "created": 1602020686.009,
        "lastModified": 1602021033.454,
        "tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup laporan](https://docs.aws.amazon.com/codebuild/latest/userguide/test-report-group.html) di *Panduan AWS CodeBuild Pengguna*.  
+  Untuk detail API, lihat [UpdateReportGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/update-report-group.html)di *Referensi AWS CLI Perintah*. 

### `update-webhook`
<a name="codebuild_UpdateWebhook_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-webhook`.

**AWS CLI**  
**Untuk memperbarui webhook untuk sebuah proyek AWS CodeBuild **  
`update-webhook`Contoh berikut memperbarui webhook untuk CodeBuild proyek yang ditentukan dengan dua grup filter. `--rotate-secret`Parameter menentukan bahwa GitHub memutar kunci rahasia proyek setiap kali perubahan kode memicu build. Grup filter pertama menentukan permintaan tarik yang dibuat, diperbarui, atau dibuka kembali pada cabang dengan nama referensi Git yang cocok dengan ekspresi reguler `^refs/heads/master$` dan referensi kepala yang cocok. `^refs/heads/myBranch$` Grup filter kedua menentukan permintaan push pada cabang dengan nama referensi Git yang tidak cocok dengan ekspresi `^refs/heads/myBranch$` reguler.  

```
aws codebuild update-webhook \
    --project-name Project2 \
    --rotate-secret \
    --filter-groups "[[{\"type\":\"EVENT\",\"pattern\":\"PULL_REQUEST_CREATED, PULL_REQUEST_UPDATED, PULL_REQUEST_REOPENED\"},{\"type\":\"HEAD_REF\",\"pattern\":\"^refs/heads/myBranch$\",\"excludeMatchedPattern\":true},{\"type\":\"BASE_REF\",\"pattern\":\"^refs/heads/master$\",\"excludeMatchedPattern\":true}],[{\"type\":\"EVENT\",\"pattern\":\"PUSH\"},{\"type\":\"HEAD_REF\",\"pattern\":\"^refs/heads/myBranch$\",\"excludeMatchedPattern\":true}]]"
```
Output:  

```
{
    "webhook": {
        "filterGroups": [
            [
                {
                    "pattern": "PULL_REQUEST_CREATED, PULL_REQUEST_UPDATED, PULL_REQUEST_REOPENED",
                    "type": "EVENT"
                },
                {
                    "excludeMatchedPattern": true,
                    "pattern": "refs/heads/myBranch$",
                    "type": "HEAD_REF"
                },
                {
                    "excludeMatchedPattern": true,
                    "pattern": "refs/heads/master$",
                    "type": "BASE_REF"
                }
            ],
            [
                {
                    "pattern": "PUSH",
                    "type": "EVENT"
                },
                {
                    "excludeMatchedPattern": true,
                    "pattern": "refs/heads/myBranch$",
                    "type": "HEAD_REF"
                }
            ]
        ],
        "lastModifiedSecret": 1556312220.133
    }
}
```
*Untuk informasi selengkapnya, lihat [Mengubah Setelan (AWS CLI) Build Project](https://docs.aws.amazon.com/codebuild/latest/userguide/change-project.html#change-project-cli) di Panduan Pengguna AWS CodeBuild *  
+  Untuk detail API, lihat [UpdateWebhook](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codebuild/update-webhook.html)di *Referensi AWS CLI Perintah*. 

# CodeCommit contoh menggunakan AWS CLI
<a name="cli_2_codecommit_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CodeCommit.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-approval-rule-template-with-repository`
<a name="codecommit_AssociateApprovalRuleTemplateWithRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-approval-rule-template-with-repository`.

**AWS CLI**  
**Untuk mengaitkan template aturan persetujuan dengan repositori**  
`associate-approval-rule-template-with-repository`Contoh berikut mengaitkan template aturan persetujuan yang ditentukan dengan repositori bernama. `MyDemoRepo`  

```
aws codecommit associate-approval-rule-template-with-repository \
    --repository-name MyDemoRepo  \
    --approval-rule-template-name 2-approver-rule-for-main
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaitkan Template Aturan Persetujuan dengan Repositori](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-associate-template.html#associate-template-repository) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [AssociateApprovalRuleTemplateWithRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/associate-approval-rule-template-with-repository.html)di *Referensi AWS CLI Perintah*. 

### `batch-associate-approval-rule-template-with-repositories`
<a name="codecommit_BatchAssociateApprovalRuleTemplateWithRepositories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-associate-approval-rule-template-with-repositories`.

**AWS CLI**  
**Untuk mengaitkan template aturan persetujuan dengan beberapa repositori dalam satu operasi**  
`batch-associate-approval-rule-template-with-repositories`Contoh berikut mengaitkan template aturan persetujuan yang ditentukan dengan repositori bernama dan. `MyDemoRepo` `MyOtherDemoRepo`  
Catatan: Templat aturan persetujuan khusus untuk AWS Wilayah tempat mereka dibuat. Mereka hanya dapat dikaitkan dengan repositori di Wilayah itu AWS .  

```
aws codecommit batch-associate-approval-rule-template-with-repositories \
    --repository-names MyDemoRepo, MyOtherDemoRepo  \
    --approval-rule-template-name 2-approver-rule-for-main
```
Output:  

```
{
    "associatedRepositoryNames": [
        "MyDemoRepo",
        "MyOtherDemoRepo"
    ],
    "errors": []
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan Template Aturan Persetujuan dengan Repositori](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-associate-template.html#batch-associate-template-repositories) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [BatchAssociateApprovalRuleTemplateWithRepositories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/batch-associate-approval-rule-template-with-repositories.html)di *Referensi AWS CLI Perintah*. 

### `batch-describe-merge-conflicts`
<a name="codecommit_BatchDescribeMergeConflicts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-describe-merge-conflicts`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang konflik gabungan di semua file atau subset file dalam penggabungan antara dua penentu komit**  
`batch-describe-merge-conflicts`Contoh berikut menentukan konflik gabungan untuk menggabungkan cabang sumber bernama `feature-randomizationfeature` dengan cabang tujuan bernama `main` menggunakan `THREE_WAY_MERGE` strategi dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit batch-describe-merge-conflicts \
    --source-commit-specifier feature-randomizationfeature \
    --destination-commit-specifier main \
    --merge-option THREE_WAY_MERGE \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "conflicts": [
        {
            "conflictMetadata": {
                "filePath": "readme.md",
                "fileSizes": {
                    "source": 139,
                    "destination": 230,
                    "base": 85
                },
                "fileModes": {
                    "source": "NORMAL",
                    "destination": "NORMAL",
                    "base": "NORMAL"
                },
                "objectTypes": {
                    "source": "FILE",
                    "destination": "FILE",
                    "base": "FILE"
                },
                "numberOfConflicts": 1,
                "isBinaryFile": {
                    "source": false,
                    "destination": false,
                    "base": false
                },
                "contentConflict": true,
                "fileModeConflict": false,
                "objectTypeConflict": false,
                "mergeOperations": {
                    "source": "M",
                    "destination": "M"
                }
            },
            "mergeHunks": [
                {
                    "isConflict": true,
                    "source": {
                        "startLine": 0,
                        "endLine": 3,
                        "hunkContent": "VGhpcyBpEXAMPLE=="
                    },
                    "destination": {
                        "startLine": 0,
                        "endLine": 1,
                        "hunkContent": "VXNlIHRoEXAMPLE="
                    }
                }
            ]
        }
    ],
    "errors": [],
    "destinationCommitId": "86958e0aEXAMPLE",
    "sourceCommitId": "6ccd57fdEXAMPLE",
    "baseCommitId": "767b6958EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menyelesaikan Konflik dalam Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-resolve-conflict-pull-request.html#batch-describe-merge-conflicts) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [BatchDescribeMergeConflicts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/batch-describe-merge-conflicts.html)di *Referensi AWS CLI Perintah*. 

### `batch-disassociate-approval-rule-template-from-repositories`
<a name="codecommit_BatchDisassociateApprovalRuleTemplateFromRepositories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-disassociate-approval-rule-template-from-repositories`.

**AWS CLI**  
**Untuk memisahkan template aturan persetujuan dari beberapa repositori dalam satu operasi**  
`batch-disassociate-approval-rule-template-from-repositories`Contoh berikut memisahkan template aturan persetujuan yang ditentukan dari repositori bernama dan. `MyDemoRepo` `MyOtherDemoRepo`  

```
aws codecommit batch-disassociate-approval-rule-template-from-repositories \
    --repository-names MyDemoRepo, MyOtherDemoRepo  \
    --approval-rule-template-name 1-approval-rule-for-all pull requests
```
Output:  

```
{
    "disassociatedRepositoryNames": [
        "MyDemoRepo",
        "MyOtherDemoRepo"
    ],
    "errors": []
}
```
Untuk informasi selengkapnya, lihat [Memutuskan Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-disassociate-template.html#batch-disassociate-template) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [BatchDisassociateApprovalRuleTemplateFromRepositories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/batch-disassociate-approval-rule-template-from-repositories.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-commits`
<a name="codecommit_BatchGetCommits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-commits`.

**AWS CLI**  
**Untuk melihat informasi tentang beberapa komit**  
`batch-get-commits`Contoh berikut menampilkan rincian tentang commit yang ditentukan.  

```
aws codecommit batch-get-commits  \
    --repository-name MyDemoRepo  \
    --commit-ids 317f8570EXAMPLE 4c925148EXAMPLE
```
Output:  

```
{
    "commits": [
      {
        "additionalData": "",
        "committer": {
            "date": "1508280564 -0800",
            "name": "Mary Major",
            "email": "mary_major@example.com"
        },
        "author": {
            "date": "1508280564 -0800",
            "name": "Mary Major",
            "email": "mary_major@example.com"
        },
        "commitId": "317f8570EXAMPLE",
        "treeId": "1f330709EXAMPLE",
        "parents": [
            "6e147360EXAMPLE"
        ],
        "message": "Change variable name and add new response element"
    },
    {
        "additionalData": "",
        "committer": {
            "date": "1508280542 -0800",
            "name": "Li Juan",
            "email": "li_juan@example.com"
        },
        "author": {
            "date": "1508280542 -0800",
            "name": "Li Juan",
            "email": "li_juan@example.com"
        },
        "commitId": "4c925148EXAMPLE",
        "treeId": "1f330709EXAMPLE",
        "parents": [
            "317f8570EXAMPLE"
        ],
        "message": "Added new class"
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Komit](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-view-commit-details.html#how-to-view-commit-details-cli-batch-get-commits) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [BatchGetCommits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/batch-get-commits.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-repositories`
<a name="codecommit_BatchGetRepositories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-repositories`.

**AWS CLI**  
**Untuk melihat detail tentang beberapa repositori**  
Contoh ini menunjukkan rincian tentang beberapa AWS CodeCommit repositori.  

```
aws codecommit batch-get-repositories \
    --repository-names MyDemoRepo MyOtherDemoRepo
```
Output:  

```
{
    "repositoriesNotFound": [],
    "repositories": [
         {
            "creationDate": 1429203623.625,
            "defaultBranch": "main",
            "repositoryName": "MyDemoRepo",
            "cloneUrlSsh": "ssh://git-codecommit.us-east-2.amazonaws.com/v1/repos/MyDemoRepo",
            "lastModifiedDate": 1430783812.0869999,
            "repositoryDescription": "My demonstration repository",
            "cloneUrlHttp": "https://codecommit.us-east-2.amazonaws.com/v1/repos/MyDemoRepo",
            "repositoryId": "f7579e13-b83e-4027-aaef-650c0EXAMPLE",
            "Arn": "arn:aws:codecommit:us-east-2:111111111111:MyDemoRepo"
            "accountId": "111111111111"
        },
        {
            "creationDate": 1429203623.627,
            "defaultBranch": "main",
            "repositoryName": "MyOtherDemoRepo",
            "cloneUrlSsh": "ssh://git-codecommit.us-east-2.amazonaws.com/v1/repos/MyOtherDemoRepo",
            "lastModifiedDate": 1430783812.0889999,
            "repositoryDescription": "My other demonstration repository",
            "cloneUrlHttp": "https://codecommit.us-east-2.amazonaws.com/v1/repos/MyOtherDemoRepo",
            "repositoryId": "cfc29ac4-b0cb-44dc-9990-f6f51EXAMPLE",
            "Arn": "arn:aws:codecommit:us-east-2:111111111111:MyOtherDemoRepo"
            "accountId": "111111111111"
        }
    ],
    "repositoriesNotFound": []
}
```
+  Untuk detail API, lihat [BatchGetRepositories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/batch-get-repositories.html)di *Referensi AWS CLI Perintah*. 

### `create-approval-rule-template`
<a name="codecommit_CreateApprovalRuleTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-approval-rule-template`.

**AWS CLI**  
**Untuk membuat templat aturan persetujuan**  
`create-approval-rule-template`Contoh berikut membuat template aturan persetujuan bernama `2-approver-rule-for-main ``. The template requires two users who assume the role of ``CodeCommitReview` untuk menyetujui permintaan tarik sebelum dapat digabungkan ke cabang. `main`  

```
aws codecommit create-approval-rule-template \
    --approval-rule-template-name 2-approver-rule-for-main \
    --approval-rule-template-description  "Requires two developers from the team to approve the pull request if the destination branch is main" \
    --approval-rule-template-content "{\"Version\": \"2018-11-08\",\"DestinationReferences\": [\"refs/heads/main\"],\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}"
```
Output:  

```
{
    "approvalRuleTemplate": {
        "approvalRuleTemplateName": "2-approver-rule-for-main",
        "creationDate": 1571356106.936,
        "approvalRuleTemplateId": "dd8b17fe-EXAMPLE",
        "approvalRuleTemplateContent": "{\"Version\": \"2018-11-08\",\"DestinationReferences\": [\"refs/heads/main\"],\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
        "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
        "approvalRuleTemplateDescription": "Requires two developers from the team to approve the pull request if the destination branch is main",
        "lastModifiedDate": 1571356106.936,
        "ruleContentSha256": "4711b576EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-create-template.html#create-template-cli) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [CreateApprovalRuleTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/create-approval-rule-template.html)di *Referensi AWS CLI Perintah*. 

### `create-branch`
<a name="codecommit_CreateBranch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-branch`.

**AWS CLI**  
**Untuk membuat cabang**  
Contoh ini membuat cabang dalam AWS CodeCommit repositori. Perintah ini menghasilkan output hanya jika ada kesalahan.  
Perintah:  

```
aws codecommit create-branch --repository-name MyDemoRepo --branch-name MyNewBranch --commit-id 317f8570EXAMPLE
```
Output:  

```
None.
```
+  Untuk detail API, lihat [CreateBranch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/create-branch.html)di *Referensi AWS CLI Perintah*. 

### `create-commit`
<a name="codecommit_CreateCommit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-commit`.

**AWS CLI**  
**Untuk membuat komit**  
`create-commit`Contoh berikut menunjukkan cara membuat komit awal untuk repositori yang menambahkan `readme.md` file ke repositori bernama di cabang. `MyDemoRepo` `main`  

```
aws codecommit create-commit \
    --repository-name MyDemoRepo \
    --branch-name main \
    --put-files "filePath=readme.md,fileContent='Welcome to our team repository.'"
```
Output:  

```
{
    "filesAdded": [
        {
            "blobId": "5e1c309d-EXAMPLE",
            "absolutePath": "readme.md",
            "fileMode": "NORMAL"
        }
    ],
    "commitId": "4df8b524-EXAMPLE",
    "treeId": "55b57003-EXAMPLE",
    "filesDeleted": [],
    "filesUpdated": []
}
```
Untuk informasi selengkapnya, lihat [Membuat Komit AWS CodeCommit di](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-create-commit.html#how-to-create-commit-cli) *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [CreateCommit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/create-commit.html)di *Referensi AWS CLI Perintah*. 

### `create-pull-request-approval-rule`
<a name="codecommit_CreatePullRequestApprovalRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-pull-request-approval-rule`.

**AWS CLI**  
**Untuk membuat aturan persetujuan untuk permintaan tarik**  
`create-pull-request-approval-rule`Contoh berikut membuat aturan persetujuan bernama `Require two approved approvers` untuk permintaan tarik tertentu. Aturan menetapkan bahwa dua persetujuan diperlukan dari kumpulan persetujuan. Pool mencakup semua pengguna yang mengakses CodeCommit dengan mengambil peran `CodeCommitReview` dalam `123456789012` AWS akun. Ini juga mencakup pengguna IAM atau pengguna federasi bernama `Nikhil_Jayashankar` dari akun yang sama AWS .  

```
aws codecommit create-pull-request-approval-rule  \
    --approval-rule-name "Require two approved approvers"  \
    --approval-rule-content "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"CodeCommitApprovers:123456789012:Nikhil_Jayashankar\", \"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}"
```
Output:  

```
{
    "approvalRule": {
        "approvalRuleName": "Require two approved approvers",
        "lastModifiedDate": 1570752871.932,
        "ruleContentSha256": "7c44e6ebEXAMPLE",
        "creationDate": 1570752871.932,
        "approvalRuleId": "aac33506-EXAMPLE",
        "approvalRuleContent": "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"CodeCommitApprovers:123456789012:Nikhil_Jayashankar\", \"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
        "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-create-pull-request-approval-rule.html#how-to-create-pull-request-approval-rule-cli) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [CreatePullRequestApprovalRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/create-pull-request-approval-rule.html)di *Referensi AWS CLI Perintah*. 

### `create-pull-request`
<a name="codecommit_CreatePullRequest_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-pull-request`.

**AWS CLI**  
**Untuk membuat permintaan tarik**  
`create-pull-request`Contoh berikut membuat permintaan tarik bernama 'Penganalisis kesulitan pengucapan' dengan deskripsi 'Harap tinjau perubahan ini pada hari Selasa' yang menargetkan cabang sumber 'jane-branch' dan akan digabungkan ke cabang default 'main' di repositori bernama ''. AWS CodeCommit MyDemoRepo  

```
aws codecommit create-pull-request \
    --title "My Pull Request" \
    --description "Please review these changes by Tuesday" \
    --client-request-token 123Example \
    --targets repositoryName=MyDemoRepo,sourceReference=MyNewBranch
```
Output:  

```
{
    "pullRequest": {
        "approvalRules": [
            {
                "approvalRuleContent": "{\"Version\": \"2018-11-08\",\"DestinationReferences\": [\"refs/heads/main\"],\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
                "approvalRuleId": "dd8b17fe-EXAMPLE",
                "approvalRuleName": "2-approver-rule-for-main",
                "creationDate": 1571356106.936,
                "lastModifiedDate": 571356106.936,
                "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
                "originApprovalRuleTemplate": {
                    "approvalRuleTemplateId": "dd3d22fe-EXAMPLE",
                    "approvalRuleTemplateName": "2-approver-rule-for-main"
                },
                "ruleContentSha256": "4711b576EXAMPLE"
            }
        ],
        "authorArn": "arn:aws:iam::111111111111:user/Jane_Doe",
        "description": "Please review these changes by Tuesday",
        "title": "Pronunciation difficulty analyzer",
        "pullRequestTargets": [
            {
                "destinationCommit": "5d036259EXAMPLE",
                "destinationReference": "refs/heads/main",
                "repositoryName": "MyDemoRepo",
                "sourceCommit": "317f8570EXAMPLE",
                "sourceReference": "refs/heads/jane-branch",
                "mergeMetadata": {
                    "isMerged": false
                }
            }
        ],
        "lastActivityDate": 1508962823.285,
        "pullRequestId": "42",
        "clientRequestToken": "123Example",
        "pullRequestStatus": "OPEN",
        "creationDate": 1508962823.285
    }
}
```
+  Untuk detail API, lihat [CreatePullRequest](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/create-pull-request.html)di *Referensi AWS CLI Perintah*. 

### `create-repository`
<a name="codecommit_CreateRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-repository`.

**AWS CLI**  
**Untuk membuat repositori**  
Contoh ini membuat repositori dan mengaitkannya dengan akun pengguna. AWS   
Perintah:  

```
aws codecommit create-repository --repository-name MyDemoRepo --repository-description "My demonstration repository"
```
Output:  

```
{
    "repositoryMetadata": {
        "repositoryName": "MyDemoRepo",
                "cloneUrlSsh": "ssh://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo",
                "lastModifiedDate": 1444766838.027,
        "repositoryDescription": "My demonstration repository",
                "cloneUrlHttp": "https://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo",
        "repositoryId": "f7579e13-b83e-4027-aaef-650c0EXAMPLE",
                "Arn": "arn:aws:codecommit:us-east-1:111111111111EXAMPLE:MyDemoRepo",
        "accountId": "111111111111"
    }
}
```
+  Untuk detail API, lihat [CreateRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/create-repository.html)di *Referensi AWS CLI Perintah*. 

### `create-unreferenced-merge-commit`
<a name="codecommit_CreateUnreferencedMergeCommit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-unreferenced-merge-commit`.

**AWS CLI**  
**Untuk membuat komit yang tidak direferensikan yang mewakili hasil penggabungan dua penentu komit**  
`create-unreferenced-merge-commit`Contoh berikut membuat komit yang mewakili hasil penggabungan antara cabang sumber bernama `bugfix-1234` dengan cabang tujuan bernama `main` menggunakan strategi THREE\$1WAY\$1MERGE dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit create-unreferenced-merge-commit \
    --source-commit-specifier bugfix-1234 \
    --destination-commit-specifier main \
    --merge-option THREE_WAY_MERGE \
    --repository-name MyDemoRepo \
    --name "Maria Garcia" \
    --email "maria_garcia@example.com" \
    --commit-message "Testing the results of this merge."
```
Output:  

```
{
    "commitId": "4f178133EXAMPLE",
    "treeId": "389765daEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menyelesaikan Konflik dalam Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-resolve-conflict-pull-request.html#batch-describe-merge-conflicts) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [CreateUnreferencedMergeCommit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/create-unreferenced-merge-commit.html)di *Referensi AWS CLI Perintah*. 

### `credential-helper`
<a name="codecommit_CredentialHelper_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`credential-helper`.

**AWS CLI**  
**Untuk mengatur pembantu kredenal yang termasuk dalam CLI AWS dengan AWS CodeCommit**  
`credential-helper`Utilitas tidak dirancang untuk dipanggil langsung dari AWS CLI. Sebaliknya itu dimaksudkan untuk digunakan sebagai parameter dengan `git config` perintah untuk mengatur komputer lokal Anda. Ini memungkinkan Git untuk menggunakan HTTPS dan versi yang ditandatangani secara kriptografis dari kredensyal pengguna IAM Anda atau peran instans Amazon EC2 setiap kali Git perlu mengautentikasi untuk berinteraksi dengan repositori. AWS CodeCommit   

```
git config --global credential.helper '!aws codecommit credential-helper $@'
git config --global credential.UseHttpPath true
```
Output:  

```
[credential]
    helper = !aws codecommit credential-helper $@
    UseHttpPath = true
```
Untuk informasi selengkapnya, lihat Menyiapkan untuk AWS CodeCommit Menggunakan Metode Lain di *Panduan AWS CodeCommit Pengguna*. *Tinjau konten dengan seksama, lalu ikuti prosedur di salah satu topik berikut: Untuk Koneksi HTTPS di Linux, macOS, atau Unix atau Untuk Koneksi HTTPS di Windows di Panduan Pengguna.AWS CodeCommit *  
+  Untuk detail API, lihat [CredentialHelper](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/credential-helper.html)di *Referensi AWS CLI Perintah*. 

### `delete-approval-rule-template`
<a name="codecommit_DeleteApprovalRuleTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-approval-rule-template`.

**AWS CLI**  
**Untuk menghapus templat aturan persetujuan**  
`delete-approval-rule-template`Contoh berikut menghapus template aturan persetujuan yang ditentukan.  

```
aws codecommit delete-approval-rule-template  \
    --approval-rule-template-name 1-approver-for-all-pull-requests
```
Output:  

```
{
    "approvalRuleTemplateId": "41de97b7-EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menghapus Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-delete-template.html#delete-template) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [DeleteApprovalRuleTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/delete-approval-rule-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-branch`
<a name="codecommit_DeleteBranch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-branch`.

**AWS CLI**  
**Untuk menghapus cabang**  
Contoh ini menunjukkan cara menghapus cabang di AWS CodeCommit repositori.  
Perintah:  

```
aws codecommit delete-branch --repository-name MyDemoRepo --branch-name MyNewBranch
```
Output:  

```
{
  "branch": {
      "commitId": "317f8570EXAMPLE",
      "branchName": "MyNewBranch"
  }
}
```
+  Untuk detail API, lihat [DeleteBranch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/delete-branch.html)di *Referensi AWS CLI Perintah*. 

### `delete-comment-content`
<a name="codecommit_DeleteCommentContent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-comment-content`.

**AWS CLI**  
**Untuk menghapus konten komentar**  
Anda hanya dapat menghapus konten komentar jika Anda membuat komentar. Contoh ini menunjukkan cara menghapus konten komentar dengan ID yang dihasilkan sistem dari. `ff30b348EXAMPLEb9aa670f`  

```
aws codecommit delete-comment-content \
    --comment-id ff30b348EXAMPLEb9aa670f
```
Output:  

```
{
    "comment": {
        "creationDate": 1508369768.142,
        "deleted": true,
        "lastModifiedDate": 1508369842.278,
        "clientRequestToken": "123Example",
        "commentId": "ff30b348EXAMPLEb9aa670f",
        "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
        "callerReactions": [],
        "reactionCounts":
        {
            "CLAP" : 1
        }
    }
}
```
+  Untuk detail API, lihat [DeleteCommentContent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/delete-comment-content.html)di *Referensi AWS CLI Perintah*. 

### `delete-file`
<a name="codecommit_DeleteFile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-file`.

**AWS CLI**  
**Untuk menghapus file**  
`delete-file`Contoh berikut menunjukkan cara menghapus file bernama `README.md` dari cabang bernama `main` dengan ID komit terbaru dari `c5709475EXAMPLE` dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit delete-file \
    --repository-name MyDemoRepo \
    --branch-name main \
    --file-path README.md \
    --parent-commit-id c5709475EXAMPLE
```
Output:  

```
{
    "blobId":"559b44fEXAMPLE",
    "commitId":"353cf655EXAMPLE",
    "filePath":"README.md",
    "treeId":"6bc824cEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Mengedit atau Menghapus File AWS CodeCommit dalam](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-edit-file.html?shortFooter=true#how-to-edit-file-cli) panduan *Referensi AWS CodeCommit API*.  
+  Untuk detail API, lihat [DeleteFile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/delete-file.html)di *Referensi AWS CLI Perintah*. 

### `delete-pull-request-approval-rule`
<a name="codecommit_DeletePullRequestApprovalRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-pull-request-approval-rule`.

**AWS CLI**  
**Untuk menghapus aturan persetujuan untuk permintaan tarik**  
`delete-pull-request-approval-rule`Contoh berikut menghapus aturan persetujuan yang dinamai `My Approval Rule` untuk permintaan tarik yang ditentukan.  

```
aws codecommit delete-pull-request-approval-rule  \
    --approval-rule-name "My Approval Rule"  \
    --pull-request-id 15
```
Output:  

```
{
    "approvalRuleId": "077d8e8a8-EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Mengedit atau Menghapus Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-edit-delete-pull-request-approval-rule.html#delete-pull-request-approval-rule) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [DeletePullRequestApprovalRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/delete-pull-request-approval-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-repository`
<a name="codecommit_DeleteRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-repository`.

**AWS CLI**  
**Untuk menghapus repositori**  
Contoh ini menunjukkan cara menghapus AWS CodeCommit repositori.  
Perintah:  

```
aws codecommit delete-repository --repository-name MyDemoRepo
```
Output:  

```
{
  "repositoryId": "f7579e13-b83e-4027-aaef-650c0EXAMPLE"
}
```
+  Untuk detail API, lihat [DeleteRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/delete-repository.html)di *Referensi AWS CLI Perintah*. 

### `describe-merge-conflicts`
<a name="codecommit_DescribeMergeConflicts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-merge-conflicts`.

**AWS CLI**  
**Untuk mendapatkan informasi rinci tentang konflik gabungan**  
`describe-merge-conflicts`Contoh berikut menentukan konflik gabungan untuk file bernama `readme.md` di cabang sumber tertentu dan cabang tujuan menggunakan strategi THREE\$1WAY\$1MERGE.  

```
aws codecommit describe-merge-conflicts \
    --source-commit-specifier feature-randomizationfeature \
    --destination-commit-specifier main \
    --merge-option THREE_WAY_MERGE \
    --file-path readme.md \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "conflictMetadata": {
        "filePath": "readme.md",
        "fileSizes": {
            "source": 139,
            "destination": 230,
            "base": 85
        },
        "fileModes": {
            "source": "NORMAL",
            "destination": "NORMAL",
            "base": "NORMAL"
        },
        "objectTypes": {
            "source": "FILE",
            "destination": "FILE",
            "base": "FILE"
        },
        "numberOfConflicts": 1,
        "isBinaryFile": {
            "source": false,
            "destination": false,
            "base": false
        },
        "contentConflict": true,
        "fileModeConflict": false,
        "objectTypeConflict": false,
        "mergeOperations": {
            "source": "M",
            "destination": "M"
        }
    },
    "mergeHunks": [
        {
            "isConflict": true,
            "source": {
                "startLine": 0,
                "endLine": 3,
                "hunkContent": "VGhpcyBpEXAMPLE="
            },
            "destination": {
                "startLine": 0,
                "endLine": 1,
                "hunkContent": "VXNlIHRoEXAMPLE="
            }
        }
    ],
    "destinationCommitId": "86958e0aEXAMPLE",
    "sourceCommitId": "6ccd57fdEXAMPLE",
    "baseCommitId": "767b69580EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menyelesaikan Konflik dalam Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-resolve-conflict-pull-request.html#describe-merge-conflicts) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [DescribeMergeConflicts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/describe-merge-conflicts.html)di *Referensi AWS CLI Perintah*. 

### `describe-pull-request-events`
<a name="codecommit_DescribePullRequestEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-pull-request-events`.

**AWS CLI**  
**Untuk melihat peristiwa dalam permintaan tarik**  
`describe-pull-request-events`Contoh berikut mengambil peristiwa untuk permintaan tarik dengan ID '8'.  

```
aws codecommit describe-pull-request-events --pull-request-id 8
```
Output:  

```
{
    "pullRequestEvents": [
        {
            "pullRequestId": "8",
            "pullRequestEventType": "PULL_REQUEST_CREATED",
            "eventDate": 1510341779.53,
            "actor": "arn:aws:iam::111111111111:user/Zhang_Wei"
        },
        {
            "pullRequestStatusChangedEventMetadata": {
                "pullRequestStatus": "CLOSED"
            },
            "pullRequestId": "8",
            "pullRequestEventType": "PULL_REQUEST_STATUS_CHANGED",
            "eventDate": 1510341930.72,
            "actor": "arn:aws:iam::111111111111:user/Jane_Doe"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribePullRequestEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/describe-pull-request-events.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-approval-rule-template-from-repository`
<a name="codecommit_DisassociateApprovalRuleTemplateFromRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-approval-rule-template-from-repository`.

**AWS CLI**  
**Untuk memisahkan template aturan persetujuan dari repositori**  
`disassociate-approval-rule-template-from-repository`Contoh berikut memisahkan template aturan persetujuan yang ditentukan dari repositori bernama. `MyDemoRepo`  

```
aws codecommit disassociate-approval-rule-template-from-repository \
    --repository-name MyDemoRepo  \
    --approval-rule-template-name 1-approver-rule-for-all-pull-requests
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memutuskan Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-disassociate-template.html#disassociate-template) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [DisassociateApprovalRuleTemplateFromRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/disassociate-approval-rule-template-from-repository.html)di *Referensi AWS CLI Perintah*. 

### `evaluate-pull-request-approval-rules`
<a name="codecommit_EvaluatePullRequestApprovalRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`evaluate-pull-request-approval-rules`.

**AWS CLI**  
**Untuk mengevaluasi apakah permintaan tarik telah memenuhi semua aturan persetujuannya**  
`evaluate-pull-request-approval-rules`Contoh berikut mengevaluasi status aturan persetujuan pada permintaan tarik yang ditentukan. Dalam contoh ini, aturan persetujuan belum dipenuhi untuk permintaan tarik, sehingga output dari perintah menunjukkan `approved` nilai`false`.  

```
aws codecommit evaluate-pull-request-approval-rules \
    --pull-request-id 27  \
    --revision-id 9f29d167EXAMPLE
```
Output:  

```
{
    "evaluation": {
        "approved": false,
        "approvalRulesNotSatisfied": [
            "Require two approved approvers"
        ],
        "overridden": false,
        "approvalRulesSatisfied": []
    }
}
```
Untuk informasi selengkapnya, lihat [Menggabungkan Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-merge-pull-request.html#evaluate-pull-request-approval-rules) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [EvaluatePullRequestApprovalRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/evaluate-pull-request-approval-rules.html)di *Referensi AWS CLI Perintah*. 

### `get-approval-rule-template`
<a name="codecommit_GetApprovalRuleTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-approval-rule-template`.

**AWS CLI**  
**Untuk mendapatkan konten template aturan persetujuan**  
`get-approval-rule-template`Contoh berikut mendapatkan isi dari template aturan persetujuan bernama`1-approver-rule-for-all-pull-requests`.  

```
aws codecommit get-approval-rule-template \
    --approval-rule-template-name 1-approver-rule-for-all-pull-requests
```
Output:  

```
{
    "approvalRuleTemplate": {
        "approvalRuleTemplateContent": "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 1,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
        "ruleContentSha256": "621181bbEXAMPLE",
        "lastModifiedDate": 1571356106.936,
        "creationDate": 1571356106.936,
        "approvalRuleTemplateName": "1-approver-rule-for-all-pull-requests",
        "lastModifiedUser": "arn:aws:iam::123456789012:user/Li_Juan",
        "approvalRuleTemplateId": "a29abb15-EXAMPLE",
        "approvalRuleTemplateDescription": "All pull requests must be approved by one developer on the team."
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-manage-templates.html#get-template) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [GetApprovalRuleTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-approval-rule-template.html)di *Referensi AWS CLI Perintah*. 

### `get-blob`
<a name="codecommit_GetBlob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-blob`.

**AWS CLI**  
**Untuk melihat informasi tentang objek gumpalan Git**  
`get-blob`Contoh berikut mengambil informasi tentang gumpalan Git dengan ID '2eb4AF3BEXample' dalam repositori bernama ''. AWS CodeCommit MyDemoRepo  

```
aws codecommit get-blob  --repository-name MyDemoRepo  --blob-id 2eb4af3bEXAMPLE
```
Output:  

```
{
    "content": "QSBCaW5hcnkgTGFyToEXAMPLE="
}
```
+  Untuk detail API, lihat [GetBlob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-blob.html)di *Referensi AWS CLI Perintah*. 

### `get-branch`
<a name="codecommit_GetBranch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-branch`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang cabang**  
Contoh ini mendapatkan informasi tentang cabang dalam AWS CodeCommit repositori.  
Perintah:  

```
aws codecommit get-branch --repository-name MyDemoRepo --branch-name MyNewBranch
```
Output:  

```
{
  "BranchInfo": {
        "commitID": "317f8570EXAMPLE",
                "branchName": "MyNewBranch"
  }
}
```
+  Untuk detail API, lihat [GetBranch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-branch.html)di *Referensi AWS CLI Perintah*. 

### `get-comment-reactions`
<a name="codecommit_GetCommentReactions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-comment-reactions`.

**AWS CLI**  
**Untuk melihat reaksi emoji terhadap komentar**  
`get-comment-reactions`Contoh berikut mencantumkan semua reaksi emoji terhadap komentar dengan ID dari`abcd1234EXAMPLEb5678efgh`. Jika font untuk shell Anda mendukung tampilan Emoji Versi 1.0, maka dalam output untuk `emoji` emoji ditampilkan.  

```
aws codecommit get-comment-reactions \
    --comment-id abcd1234EXAMPLEb5678efgh
```
Output:  

```
{
    "reactionsForComment": {
        [
           {
               "reaction": {
                    "emoji:"??",
                    "shortCode": "thumbsup",
                    "unicode": "U+1F44D"
                },
                "users": [
                    "arn:aws:iam::123456789012:user/Li_Juan",
                    "arn:aws:iam::123456789012:user/Mary_Major",
                    "arn:aws:iam::123456789012:user/Jorge_Souza"
                ]
            },
            {
                "reaction": {
                    "emoji": "??",
                    "shortCode": "thumbsdown",
                    "unicode": "U+1F44E"
                },
                "users": [
                    "arn:aws:iam::123456789012:user/Nikhil_Jayashankar"
                ]
            },
            {
                "reaction": {
                    "emoji": "??",
                    "shortCode": "confused",
                    "unicode": "U+1F615"
                },
                "users": [
                    "arn:aws:iam::123456789012:user/Saanvi_Sarkar"
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mengomentari komit AWS CodeCommit di](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-commit-comment.html#how-to-commit-comment-cli-commit-emoji-view) *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [GetCommentReactions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-comment-reactions.html)di *Referensi AWS CLI Perintah*. 

### `get-comment`
<a name="codecommit_GetComment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-comment`.

**AWS CLI**  
**Untuk melihat detail komentar**  
Contoh ini menunjukkan cara melihat detail komentar dengan ID komentar yang dihasilkan sistem dari. `ff30b348EXAMPLEb9aa670f`  

```
aws codecommit get-comment \
    --comment-id ff30b348EXAMPLEb9aa670f
```
Output:  

```
{
    "comment": {
        "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
        "clientRequestToken": "123Example",
        "commentId": "ff30b348EXAMPLEb9aa670f",
        "content": "Whoops - I meant to add this comment to the line, but I don't see how to delete it.",
        "creationDate": 1508369768.142,
        "deleted": false,
        "commentId": "",
        "lastModifiedDate": 1508369842.278,
        "callerReactions": [],
        "reactionCounts":
        {
            "SMILE" : 6,
            "THUMBSUP" : 1
        }
    }
}
```
+  Untuk detail API, lihat [GetComment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-comment.html)di *Referensi AWS CLI Perintah*. 

### `get-comments-for-compared-commit`
<a name="codecommit_GetCommentsForComparedCommit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-comments-for-compared-commit`.

**AWS CLI**  
**Untuk melihat komentar pada komit**  
Contoh ini menunjukkan cara melihat komentar tampilan yang dibuat pada perbandingan antara dua komit dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit get-comments-for-compared-commit \
    --repository-name MyDemoRepo \
    --before-commit-ID 6e147360EXAMPLE \
    --after-commit-id 317f8570EXAMPLE
```
Output:  

```
{
    "commentsForComparedCommitData": [
        {
            "afterBlobId": "1f330709EXAMPLE",
            "afterCommitId": "317f8570EXAMPLE",
            "beforeBlobId": "80906a4cEXAMPLE",
            "beforeCommitId": "6e147360EXAMPLE",
            "comments": [
                {
                    "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
                    "clientRequestToken": "123Example",
                    "commentId": "ff30b348EXAMPLEb9aa670f",
                    "content": "Whoops - I meant to add this comment to the line, not the file, but I don't see how to delete it.",
                    "creationDate": 1508369768.142,
                    "deleted": false,
                    "CommentId": "123abc-EXAMPLE",
                    "lastModifiedDate": 1508369842.278,
                    "callerReactions": [],
                    "reactionCounts":
                    {
                        "SMILE" : 6,
                        "THUMBSUP" : 1
                    }
                },
                {
                    "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
                    "clientRequestToken": "123Example",
                    "commentId": "553b509bEXAMPLE56198325",
                    "content": "Can you add a test case for this?",
                    "creationDate": 1508369612.240,
                    "deleted": false,
                    "commentId": "456def-EXAMPLE",
                    "lastModifiedDate": 1508369612.240,
                    "callerReactions": [],
                    "reactionCounts":
                    {
                        "THUMBSUP" : 2
                    }
                }
            ],
            "location": {
                "filePath": "cl_sample.js",
                "filePosition": 1232,
                "relativeFileVersion": "after"
            },
            "repositoryName": "MyDemoRepo"
        }
    ],
    "nextToken": "exampleToken"
}
```
+  Untuk detail API, lihat [GetCommentsForComparedCommit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-comments-for-compared-commit.html)di *Referensi AWS CLI Perintah*. 

### `get-comments-for-pull-request`
<a name="codecommit_GetCommentsForPullRequest_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-comments-for-pull-request`.

**AWS CLI**  
**Untuk melihat komentar untuk permintaan tarik**  
Contoh ini menunjukkan cara melihat komentar untuk permintaan tarik dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit get-comments-for-pull-request \
    --repository-name MyDemoRepo \
    --before-commit-ID 317f8570EXAMPLE \
    --after-commit-id 5d036259EXAMPLE
```
Output:  

```
{
    "commentsForPullRequestData": [
        {
            "afterBlobId": "1f330709EXAMPLE",
            "afterCommitId": "5d036259EXAMPLE",
            "beforeBlobId": "80906a4cEXAMPLE",
            "beforeCommitId": "317f8570EXAMPLE",
            "comments": [
                {
                    "authorArn": "arn:aws:iam::111111111111:user/Saanvi_Sarkar",
                    "clientRequestToken": "",
                    "commentId": "abcd1234EXAMPLEb5678efgh",
                    "content": "These don't appear to be used anywhere. Can we remove them?",
                    "creationDate": 1508369622.123,
                    "deleted": false,
                    "lastModifiedDate": 1508369622.123,
                    "callerReactions": [],
                    "reactionCounts":
                    {
                        "THUMBSUP" : 6,
                        "CONFUSED" : 1
                    }
                },
                {
                    "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
                    "clientRequestToken": "",
                    "commentId": "442b498bEXAMPLE5756813",
                    "content": "Good catch. I'll remove them.",
                    "creationDate": 1508369829.104,
                    "deleted": false,
                    "lastModifiedDate": 150836912.273,
                    "callerReactions": ["THUMBSUP"]
                    "reactionCounts":
                    {
                        "THUMBSUP" : 14
                    }
                }
            ],
            "location": {
                "filePath": "ahs_count.py",
                "filePosition": 367,
                "relativeFileVersion": "AFTER"
            },
            "repositoryName": "MyDemoRepo",
            "pullRequestId": "42"
        }
    ],
    "nextToken": "exampleToken"
}
```
+  Untuk detail API, lihat [GetCommentsForPullRequest](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-comments-for-pull-request.html)di *Referensi AWS CLI Perintah*. 

### `get-commit`
<a name="codecommit_GetCommit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-commit`.

**AWS CLI**  
**Untuk melihat informasi tentang komit dalam repositori**  
Contoh ini menunjukkan detail tentang komit dengan ID yang dihasilkan sistem '7e9fd3091thisisanexamplethisisanexample1 7e9fd3091thisisanexamplethisisanexample1' dalam repositori bernama ''. AWS CodeCommit MyDemoRepo  
Perintah:  

```
aws codecommit get-commit --repository-name MyDemoRepo --commit-id 7e9fd3091thisisanexamplethisisanexample1
```
Output:  

```
{
  "commit": {
      "additionalData": "",
      "committer": {
          "date": "1484167798 -0800",
          "name": "Mary Major",
          "email": "mary_major@example.com"
      },
      "author": {
          "date": "1484167798 -0800",
          "name": "Mary Major",
          "email": "mary_major@example.com"
      },
      "treeId": "347a3408thisisanexampletreeidexample",
      "parents": [
          "7aa87a031thisisanexamplethisisanexample1"
      ],
      "message": "Fix incorrect variable name"
  }
}
```
+  Untuk detail API, lihat [GetCommit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-commit.html)di *Referensi AWS CLI Perintah*. 

### `get-differences`
<a name="codecommit_GetDifferences_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-differences`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang perbedaan untuk specifier komit dalam repositori**  
Contoh ini menunjukkan tampilan informasi metadata tentang perubahan antara dua penentu komit (cabang, tag, HEAD, atau referensi lain yang memenuhi syarat sepenuhnya, seperti komit IDs) dalam folder yang diganti namanya dalam repositori bernama. AWS CodeCommit MyDemoRepo Contoh ini mencakup beberapa opsi yang tidak diperlukan, termasuk --before-commit-specifier, --before-path, dan --after-path, untuk lebih menggambarkan bagaimana Anda dapat menggunakan opsi ini untuk membatasi hasil. Respons termasuk izin mode file.  
Perintah:  

```
aws codecommit get-differences --repository-name MyDemoRepo --before-commit-specifier 955bba12thisisanexamplethisisanexample --after-commit-specifier 14a95463thisisanexamplethisisanexample --before-path tmp/example-folder --after-path tmp/renamed-folder
```
Output:  

```
{
  "differences": [
      {
          "afterBlob": {
              "path": "blob.txt",
              "blobId": "2eb4af3b1thisisanexamplethisisanexample1",
              "mode": "100644"
          },
          "changeType": "M",
          "beforeBlob": {
              "path": "blob.txt",
              "blobId": "bf7fcf281thisisanexamplethisisanexample1",
              "mode": "100644"
          }
      }
  ]
}
```
+  Untuk detail API, lihat [GetDifferences](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-differences.html)di *Referensi AWS CLI Perintah*. 

### `get-file`
<a name="codecommit_GetFile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-file`.

**AWS CLI**  
**Untuk mendapatkan isi berkas yang dikodekan basis-64 dalam sebuah repositori AWS CodeCommit **  
`get-file`Contoh berikut menunjukkan bagaimana untuk mendapatkan isi basis-64 dikodekan dari file bernama `README.md` dari cabang bernama dalam repositori bernama`main`. `MyDemoRepo`  

```
aws codecommit get-file \
    --repository-name MyDemoRepo \
    --commit-specifier main \
    --file-path README.md
```
Output:  

```
{
    "blobId":"559b44fEXAMPLE",
    "commitId":"c5709475EXAMPLE",
    "fileContent":"IyBQaHVzEXAMPLE",
    "filePath":"README.md",
    "fileMode":"NORMAL",
    "fileSize":1563
}
```
Untuk informasi selengkapnya, lihat [GetFile](https://docs.aws.amazon.com/codecommit/latest/APIReference/API_GetFile.html)di panduan *Referensi AWS CodeCommit API*.  
+  Untuk detail API, lihat [GetFile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-file.html)di *Referensi AWS CLI Perintah*. 

### `get-folder`
<a name="codecommit_GetFolder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-folder`.

**AWS CLI**  
**Untuk mendapatkan isi folder dalam AWS CodeCommit repositori**  
`get-folder`Contoh berikut menunjukkan bagaimana untuk mendapatkan isi dari folder tingkat atas dari repositori bernama. `MyDemoRepo`  

```
aws codecommit get-folder --repository-name MyDemoRepo --folder-path ""
```
Output:  

```
{
    "commitId":"c5709475EXAMPLE",
    "files":[
        {
            "absolutePath":".gitignore",
            "blobId":"74094e8bEXAMPLE",
            "fileMode":"NORMAL",
            "relativePath":".gitignore"
        },
        {
            "absolutePath":"Gemfile",
            "blobId":"9ceb72f6EXAMPLE",
            "fileMode":"NORMAL",
            "relativePath":"Gemfile"
        },
        {
            "absolutePath":"Gemfile.lock",
            "blobId":"795c4a2aEXAMPLE",
            "fileMode":"NORMAL",
            "relativePath":"Gemfile.lock"
        },
        {
            "absolutePath":"LICENSE.txt",
            "blobId":"0c7932c8EXAMPLE",
            "fileMode":"NORMAL",
            "relativePath":"LICENSE.txt"
        },
        {
            "absolutePath":"README.md",
            "blobId":"559b44feEXAMPLE",
            "fileMode":"NORMAL",
            "relativePath":"README.md"
        }
    ],
    "folderPath":"",
    "subFolders":[
        {
            "absolutePath":"public",
            "relativePath":"public",
            "treeId":"d5e92ae3aEXAMPLE"
        },
        {
            "absolutePath":"tmp",
            "relativePath":"tmp",
            "treeId":"d564d0bcEXAMPLE"
        }
    ],
    "subModules":[],
    "symbolicLinks":[],
    "treeId":"7b3c4dadEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat GetFolder di panduan *Referensi AWS CodeCommit API*.  
+  Untuk detail API, lihat [GetFolder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-folder.html)di *Referensi AWS CLI Perintah*. 

### `get-merge-commit`
<a name="codecommit_GetMergeCommit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-merge-commit`.

**AWS CLI**  
**Untuk mendapatkan informasi rinci tentang komit gabungan**  
`get-merge-commit`Contoh berikut menampilkan rincian tentang komit gabungan untuk cabang sumber bernama `bugfix-bug1234` dengan cabang tujuan bernama `main` dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit get-merge-commit \
    --source-commit-specifier bugfix-bug1234 \
    --destination-commit-specifier main \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "sourceCommitId": "c5709475EXAMPLE",
    "destinationCommitId": "317f8570EXAMPLE",
    "baseCommitId": "fb12a539EXAMPLE",
    "mergeCommitId": "ffc4d608eEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Komit](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-view-commit-details.html#how-to-view-commit-details-cli-merge-commit) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [GetMergeCommit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-merge-commit.html)di *Referensi AWS CLI Perintah*. 

### `get-merge-conflicts`
<a name="codecommit_GetMergeConflicts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-merge-conflicts`.

**AWS CLI**  
**Untuk melihat apakah ada konflik gabungan untuk permintaan tarik**  
`get-merge-conflicts`Contoh berikut menampilkan apakah ada konflik gabungan antara ujung cabang sumber bernama `feature-randomizationfeature` dan cabang tujuan bernama 'main' dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit get-merge-conflicts \
    --repository-name MyDemoRepo \
    --source-commit-specifier feature-randomizationfeature \
    --destination-commit-specifier main \
    --merge-option THREE_WAY_MERGE
```
Output:  

```
{
    "mergeable": false,
    "destinationCommitId": "86958e0aEXAMPLE",
    "sourceCommitId": "6ccd57fdEXAMPLE",
    "baseCommitId": "767b6958EXAMPLE",
    "conflictMetadataList": [
        {
            "filePath": "readme.md",
            "fileSizes": {
                "source": 139,
                "destination": 230,
                "base": 85
            },
            "fileModes": {
                "source": "NORMAL",
                "destination": "NORMAL",
                "base": "NORMAL"
            },
            "objectTypes": {
                "source": "FILE",
                "destination": "FILE",
                "base": "FILE"
            },
            "numberOfConflicts": 1,
            "isBinaryFile": {
                "source": false,
                "destination": false,
                "base": false
            },
            "contentConflict": true,
            "fileModeConflict": false,
            "objectTypeConflict": false,
            "mergeOperations": {
                "source": "M",
                "destination": "M"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [GetMergeConflicts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-merge-conflicts.html)di *Referensi AWS CLI Perintah*. 

### `get-merge-options`
<a name="codecommit_GetMergeOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-merge-options`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang opsi penggabungan yang tersedia untuk menggabungkan dua cabang yang ditentukan**  
`get-merge-options`Contoh berikut menentukan opsi gabungan yang tersedia untuk menggabungkan cabang sumber bernama `bugfix-bug1234` dengan cabang tujuan bernama `main` dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit get-merge-options \
    --source-commit-specifier bugfix-bug1234 \
    --destination-commit-specifier main \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "mergeOptions": [
        "FAST_FORWARD_MERGE",
        "SQUASH_MERGE",
        "THREE_WAY_MERGE"
    ],
    "sourceCommitId": "18059494EXAMPLE",
    "destinationCommitId": "ffd3311dEXAMPLE",
    "baseCommitId": "ffd3311dEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menyelesaikan Konflik dalam Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-resolve-conflict-pull-request.html#get-merge-options) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [GetMergeOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-merge-options.html)di *Referensi AWS CLI Perintah*. 

### `get-pull-request-approval-states`
<a name="codecommit_GetPullRequestApprovalStates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-pull-request-approval-states`.

**AWS CLI**  
**Untuk melihat persetujuan pada permintaan tarik**  
`get-pull-request-approval-states`Contoh berikut mengembalikan persetujuan untuk permintaan tarik tertentu.  

```
aws codecommit get-pull-request-approval-states \
    --pull-request-id 8 \
    --revision-id 9f29d167EXAMPLE
```
Output:  

```
{
    "approvals": [
        {
            "userArn": "arn:aws:iam::123456789012:user/Mary_Major",
            "approvalState": "APPROVE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-view-pull-request.html#get-pull-request-approval-state) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [GetPullRequestApprovalStates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-pull-request-approval-states.html)di *Referensi AWS CLI Perintah*. 

### `get-pull-request-override-state`
<a name="codecommit_GetPullRequestOverrideState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-pull-request-override-state`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang status penggantian permintaan tarik**  
`get-pull-request-override-state`Contoh berikut mengembalikan state override untuk pull request yang ditentukan. Dalam contoh ini, aturan persetujuan untuk permintaan tarik diganti oleh pengguna bernama Mary Major, sehingga output mengembalikan nilai. `true` :  

```
aws codecommit get-pull-request-override-state \
    --pull-request-id 34  \
    --revision-id 9f29d167EXAMPLE
```
Output:  

```
{
    "overridden": true,
    "overrider": "arn:aws:iam::123456789012:user/Mary_Major"
}
```
Untuk informasi selengkapnya, lihat [Mengganti Aturan Persetujuan pada Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-override-approval-rules.html#get-override-status) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [GetPullRequestOverrideState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-pull-request-override-state.html)di *Referensi AWS CLI Perintah*. 

### `get-pull-request`
<a name="codecommit_GetPullRequest_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-pull-request`.

**AWS CLI**  
**Untuk melihat detail permintaan tarik**  
Contoh ini menunjukkan cara melihat informasi tentang permintaan tarik dengan ID dari. `27`  

```
aws codecommit get-pull-request \
    --pull-request-id 27
```
Output:  

```
{
    "pullRequest": {
        "approvalRules": [
            {
                "approvalRuleContent": "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
                "approvalRuleId": "dd8b17fe-EXAMPLE",
                "approvalRuleName": "2-approver-rule-for-main",
                "creationDate": 1571356106.936,
                "lastModifiedDate": 571356106.936,
                "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
                "ruleContentSha256": "4711b576EXAMPLE"
            }
        ],
        "lastActivityDate": 1562619583.565,
        "pullRequestTargets": [
            {
                "sourceCommit": "ca45e279EXAMPLE",
                "sourceReference": "refs/heads/bugfix-1234",
                "mergeBase": "a99f5ddbEXAMPLE",
                "destinationReference": "refs/heads/main",
                "mergeMetadata": {
                    "isMerged": false
                },
                "destinationCommit": "2abfc6beEXAMPLE",
                "repositoryName": "MyDemoRepo"
            }
        ],
        "revisionId": "e47def21EXAMPLE",
        "title": "Quick fix for bug 1234",
        "authorArn": "arn:aws:iam::123456789012:user/Nikhil_Jayashankar",
        "clientRequestToken": "d8d7612e-EXAMPLE",
        "creationDate": 1562619583.565,
        "pullRequestId": "27",
        "pullRequestStatus": "OPEN"
    }
}
```
+  Untuk detail API, lihat [GetPullRequest](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-pull-request.html)di *Referensi AWS CLI Perintah*. 

### `get-repository-triggers`
<a name="codecommit_GetRepositoryTriggers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-repository-triggers`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pemicu di repositori**  
Contoh ini menunjukkan detail tentang pemicu yang dikonfigurasi untuk AWS CodeCommit repositori bernama. `MyDemoRepo`  

```
aws codecommit get-repository-triggers \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "configurationId": "f7579e13-b83e-4027-aaef-650c0EXAMPLE",
    "triggers": [
        {
            "destinationArn": "arn:aws:sns:us-east-1:111111111111:MyCodeCommitTopic",
            "branches": [
                "main",
                "preprod"
            ],
            "name": "MyFirstTrigger",
            "customData": "",
            "events": [
                "all"
            ]
        },
        {
            "destinationArn": "arn:aws:lambda:us-east-1:111111111111:function:MyCodeCommitPythonFunction",
            "branches": [],
            "name": "MySecondTrigger",
            "customData": "EXAMPLE",
            "events": [
                "all"
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [GetRepositoryTriggers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-repository-triggers.html)di *Referensi AWS CLI Perintah*. 

### `get-repository`
<a name="codecommit_GetRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-repository`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang repositori**  
Contoh ini menunjukkan rincian tentang AWS CodeCommit repositori.  

```
aws codecommit get-repository \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "repositoryMetadata": {
        "creationDate": 1429203623.625,
        "defaultBranch": "main",
        "repositoryName": "MyDemoRepo",
        "cloneUrlSsh": "ssh://git-codecommit.us-east-1.amazonaws.com/v1/repos/v1/repos/MyDemoRepo",
        "lastModifiedDate": 1430783812.0869999,
        "repositoryDescription": "My demonstration repository",
        "cloneUrlHttp": "https://codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo",
        "repositoryId": "f7579e13-b83e-4027-aaef-650c0EXAMPLE",
        "Arn": "arn:aws:codecommit:us-east-1:80398EXAMPLE:MyDemoRepo
        "accountId": "111111111111"
    }
}
```
+  Untuk detail API, lihat [GetRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/get-repository.html)di *Referensi AWS CLI Perintah*. 

### `list-approval-rule-templates`
<a name="codecommit_ListApprovalRuleTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-approval-rule-templates`.

**AWS CLI**  
**Untuk mencantumkan semua templat aturan persetujuan di AWS Wilayah**  
`list-approval-rule-templates`Contoh berikut mencantumkan semua templat aturan persetujuan di Wilayah tertentu. Jika tidak ada AWS Wilayah yang ditentukan sebagai parameter, perintah mengembalikan templat aturan persetujuan untuk wilayah yang ditentukan dalam profil AWS CLI yang digunakan untuk menjalankan perintah.  

```
aws codecommit list-approval-rule-templates \
    --region us-east-2
```
Output:  

```
{
    "approvalRuleTemplateNames": [
        "2-approver-rule-for-main",
        "1-approver-rule-for-all-pull-requests"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-manage-templates.html#list-templates) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [ListApprovalRuleTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/list-approval-rule-templates.html)di *Referensi AWS CLI Perintah*. 

### `list-associated-approval-rule-templates-for-repository`
<a name="codecommit_ListAssociatedApprovalRuleTemplatesForRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-associated-approval-rule-templates-for-repository`.

**AWS CLI**  
**Untuk daftar semua template yang terkait dengan repositori**  
`list-associated-approval-rule-templates-for-repository`Contoh berikut mencantumkan semua template aturan persetujuan yang terkait dengan repositori bernama. `MyDemoRepo`  

```
aws codecommit list-associated-approval-rule-templates-for-repository \
    --repository-name MyDemoRepo
```
Output:  

```
{
  "approvalRuleTemplateNames": [
    "2-approver-rule-for-main",
    "1-approver-rule-for-all-pull-requests"
  ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-manage-templates.html#list-associated-templates) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [ListAssociatedApprovalRuleTemplatesForRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/list-associated-approval-rule-templates-for-repository.html)di *Referensi AWS CLI Perintah*. 

### `list-branches`
<a name="codecommit_ListBranches_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-branches`.

**AWS CLI**  
**Untuk melihat daftar nama cabang**  
Contoh ini mencantumkan semua nama cabang dalam AWS CodeCommit repositori.  

```
aws codecommit list-branches \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "branches": [
        "MyNewBranch",
        "main"
    ]
}
```
+  Untuk detail API, lihat [ListBranches](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/list-branches.html)di *Referensi AWS CLI Perintah*. 

### `list-pull-requests`
<a name="codecommit_ListPullRequests_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pull-requests`.

**AWS CLI**  
**Untuk melihat daftar permintaan tarik dalam repositori**  
Contoh ini menunjukkan cara membuat daftar permintaan tarik yang dibuat oleh pengguna IAM dengan ARN 'arn:aws:iam: :1111111111:user/LI\$1JUAN' dan status 'CLOSED' di repositori bernama '': AWS CodeCommit MyDemoRepo  

```
aws codecommit list-pull-requests --author-arn arn:aws:iam::111111111111:user/Li_Juan --pull-request-status CLOSED --repository-name MyDemoRepo
```
Output:  

```
{
 "nextToken": "",
 "pullRequestIds": ["2","12","16","22","23","35","30","39","47"]
}
```
+  Untuk detail API, lihat [ListPullRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/list-pull-requests.html)di *Referensi AWS CLI Perintah*. 

### `list-repositories-for-approval-rule-template`
<a name="codecommit_ListRepositoriesForApprovalRuleTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-repositories-for-approval-rule-template`.

**AWS CLI**  
**Untuk daftar semua repositori yang terkait dengan template**  
`list-repositories-for-approval-rule-template`Contoh berikut mencantumkan semua repositori yang terkait dengan template aturan persetujuan yang ditentukan.  

```
aws codecommit list-repositories-for-approval-rule-template \
    --approval-rule-template-name 2-approver-rule-for-main
```
Output:  

```
{
    "repositoryNames": [
        "MyDemoRepo",
        "MyClonedRepo"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-manage-templates.html#list-associated-repositories) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [ListRepositoriesForApprovalRuleTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/list-repositories-for-approval-rule-template.html)di *Referensi AWS CLI Perintah*. 

### `list-repositories`
<a name="codecommit_ListRepositories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-repositories`.

**AWS CLI**  
**Untuk melihat daftar repositori**  
Contoh ini mencantumkan semua AWS CodeCommit repositori yang terkait dengan akun pengguna. AWS   
Perintah:  

```
aws codecommit list-repositories
```
Output:  

```
{
  "repositories": [
      {
         "repositoryName": "MyDemoRepo"
         "repositoryId": "f7579e13-b83e-4027-aaef-650c0EXAMPLE",
      },
      {
         "repositoryName": "MyOtherDemoRepo"
         "repositoryId": "cfc29ac4-b0cb-44dc-9990-f6f51EXAMPLE"
      }
  ]
}
```
+  Untuk detail API, lihat [ListRepositories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/list-repositories.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="codecommit_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk melihat AWS tag untuk repositori**  
`list-tags-for-resource`Contoh berikut mencantumkan kunci tag dan nilai tag untuk repositori tertentu.  

```
aws codecommit list-tags-for-resource \
    --resource-arn arn:aws:codecommit:us-west-2:111111111111:MyDemoRepo
```
Output:  

```
{
    "tags": {
        "Status": "Secret",
        "Team": "Saanvi"
    }
}
```
Untuk informasi selengkapnya, [lihat Melihat Tag untuk Repositori](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-tag-repository-list.html#how-to-tag-repository-list-cli) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `merge-branches-by-fast-forward`
<a name="codecommit_MergeBranchesByFastForward_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`merge-branches-by-fast-forward`.

**AWS CLI**  
**Untuk menggabungkan dua cabang menggunakan strategi penggabungan maju cepat**  
`merge-branches-by-fast-forward`Contoh berikut menggabungkan cabang sumber tertentu dengan cabang tujuan tertentu dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit merge-branches-by-fast-forward \
    --source-commit-specifier bugfix-bug1234 \
    --destination-commit-specifier bugfix-bug1233 \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "commitId": "4f178133EXAMPLE",
    "treeId": "389765daEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Membandingkan dan Menggabungkan Cabang](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-compare-branches.html#merge-branches-by-fast-forward) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [MergeBranchesByFastForward](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/merge-branches-by-fast-forward.html)di *Referensi AWS CLI Perintah*. 

### `merge-branches-by-squash`
<a name="codecommit_MergeBranchesBySquash_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`merge-branches-by-squash`.

**AWS CLI**  
**Untuk menggabungkan dua cabang menggunakan strategi penggabungan squash**  
`merge-branches-by-squash`Contoh berikut menggabungkan cabang sumber tertentu dengan cabang tujuan tertentu dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit merge-branches-by-squash \
    --source-commit-specifier bugfix-bug1234 \
    --destination-commit-specifier bugfix-bug1233 \
    --author-name "Maria Garcia" \
    --email "maria_garcia@example.com" \
    --commit-message "Merging two fix branches to prepare for a general patch." \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "commitId": "4f178133EXAMPLE",
    "treeId": "389765daEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Membandingkan dan Menggabungkan Cabang](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-compare-branches.html#merge-branches-by-squash) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [MergeBranchesBySquash](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/merge-branches-by-squash.html)di *Referensi AWS CLI Perintah*. 

### `merge-branches-by-three-way`
<a name="codecommit_MergeBranchesByThreeWay_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`merge-branches-by-three-way`.

**AWS CLI**  
**Untuk menggabungkan dua cabang menggunakan strategi penggabungan tiga arah**  
`merge-branches-by-three-way`Contoh berikut menggabungkan cabang sumber tertentu dengan cabang tujuan tertentu dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit merge-branches-by-three-way \
    --source-commit-specifier main \
    --destination-commit-specifier bugfix-bug1234 \
    --author-name "Jorge Souza" --email "jorge_souza@example.com" \
    --commit-message "Merging changes from main to bugfix branch before additional testing." \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "commitId": "4f178133EXAMPLE",
    "treeId": "389765daEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Membandingkan dan Menggabungkan Cabang](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-compare-branches.html#merge-branches-by-three-way) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [MergeBranchesByThreeWay](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/merge-branches-by-three-way.html)di *Referensi AWS CLI Perintah*. 

### `merge-pull-request-by-fast-forward`
<a name="codecommit_MergePullRequestByFastForward_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`merge-pull-request-by-fast-forward`.

**AWS CLI**  
**Untuk menggabungkan dan menutup permintaan tarik**  
Contoh ini menunjukkan cara menggabungkan dan menutup permintaan tarik dengan ID '47' dan ID komit sumber '99132AB0Example' dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit merge-pull-request-by-fast-forward \
    --pull-request-id 47 \
    --source-commit-id 99132ab0EXAMPLE \
    --repository-name MyDemoRepo
```
Output:  

```
{
    "pullRequest": {
        "approvalRules": [
            {
                "approvalRuleContent": "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 1,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
                "approvalRuleId": "dd8b17fe-EXAMPLE",
                "approvalRuleName": "I want one approver for this pull request",
                "creationDate": 1571356106.936,
                "lastModifiedDate": 571356106.936,
                "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
                "ruleContentSha256": "4711b576EXAMPLE"
            }
        ],
        "authorArn": "arn:aws:iam::123456789012:user/Li_Juan",
        "clientRequestToken": "",
        "creationDate": 1508530823.142,
        "description": "Review the latest changes and updates to the global variables",
        "lastActivityDate": 1508887223.155,
        "pullRequestId": "47",
        "pullRequestStatus": "CLOSED",
        "pullRequestTargets": [
            {
                "destinationCommit": "9f31c968EXAMPLE",
                "destinationReference": "refs/heads/main",
                "mergeMetadata": {
                    "isMerged": true,
                    "mergedBy": "arn:aws:iam::123456789012:user/Mary_Major"
                },
                "repositoryName": "MyDemoRepo",
                "sourceCommit": "99132ab0EXAMPLE",
                "sourceReference": "refs/heads/variables-branch"
            }
        ],
        "title": "Consolidation of global variables"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggabungkan Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-merge-pull-request.html#merge-pull-request-by-fast-forward) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [MergePullRequestByFastForward](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/merge-pull-request-by-fast-forward.html)di *Referensi AWS CLI Perintah*. 

### `merge-pull-request-by-squash`
<a name="codecommit_MergePullRequestBySquash_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`merge-pull-request-by-squash`.

**AWS CLI**  
**Untuk menggabungkan permintaan tarik menggunakan strategi penggabungan squash**  
`merge-pull-request-by-squash`Contoh berikut menggabungkan dan menutup permintaan tarik yang ditentukan menggunakan strategi resolusi konflik ACCEPT\$1SOURCE dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit merge-pull-request-by-squash \
    --pull-request-id 47 \
    --source-commit-id 99132ab0EXAMPLE \
    --repository-name MyDemoRepo \
    --conflict-detail-level LINE_LEVEL \
    --conflict-resolution-strategy ACCEPT_SOURCE \
    --name "Jorge Souza" --email "jorge_souza@example.com" \
    --commit-message "Merging pull request 47 by squash and accepting source in merge conflicts"
```
Output:  

```
{
    "pullRequest": {
        "approvalRules": [
            {
                "approvalRuleContent": "{\"Version\": \"2018-11-08\",\"DestinationReferences\": [\"refs/heads/main\"],\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
                "approvalRuleId": "dd8b17fe-EXAMPLE",
                "approvalRuleName": "2-approver-rule-for-main",
                "creationDate": 1571356106.936,
                "lastModifiedDate": 571356106.936,
                "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
                "originApprovalRuleTemplate": {
                    "approvalRuleTemplateId": "dd8b17fe-EXAMPLE",
                    "approvalRuleTemplateName": "2-approver-rule-for-main"
                },
                "ruleContentSha256": "4711b576EXAMPLE"
            }
        ],
        "authorArn": "arn:aws:iam::123456789012:user/Li_Juan",
        "clientRequestToken": "",
        "creationDate": 1508530823.142,
        "description": "Review the latest changes and updates to the global variables",
        "lastActivityDate": 1508887223.155,
        "pullRequestId": "47",
        "pullRequestStatus": "CLOSED",
        "pullRequestTargets": [
            {
                "destinationCommit": "9f31c968EXAMPLE",
                "destinationReference": "refs/heads/main",
                "mergeMetadata": {
                    "isMerged": true,
                    "mergedBy": "arn:aws:iam::123456789012:user/Mary_Major"
                },
                "repositoryName": "MyDemoRepo",
                "sourceCommit": "99132ab0EXAMPLE",
                "sourceReference": "refs/heads/variables-branch"
            }
        ],
        "title": "Consolidation of global variables"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggabungkan Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-merge-pull-request.html#merge-pull-request-by-squash) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [MergePullRequestBySquash](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/merge-pull-request-by-squash.html)di *Referensi AWS CLI Perintah*. 

### `merge-pull-request-by-three-way`
<a name="codecommit_MergePullRequestByThreeWay_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`merge-pull-request-by-three-way`.

**AWS CLI**  
**Untuk menggabungkan permintaan tarik menggunakan strategi penggabungan tiga arah**  
`merge-pull-request-by-three-way`Contoh berikut menggabungkan dan menutup permintaan tarik yang ditentukan menggunakan opsi default untuk detail konflik dan strategi resolusi konflik dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit merge-pull-request-by-three-way \
    --pull-request-id 47 \
    --source-commit-id 99132ab0EXAMPLE \
    --repository-name MyDemoRepo \
    --name "Maria Garcia" \
    --email "maria_garcia@example.com" \
    --commit-message "Merging pull request 47 by three-way with default options"
```
Output:  

```
{
    "pullRequest": {
        "approvalRules": [
            {
                "approvalRuleContent": "{\"Version\": \"2018-11-08\",\"DestinationReferences\": [\"refs/heads/main\"],\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
                "approvalRuleId": "dd8b17fe-EXAMPLE",
                "approvalRuleName": "2-approver-rule-for-main",
                "creationDate": 1571356106.936,
                "lastModifiedDate": 571356106.936,
                "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
                "originApprovalRuleTemplate": {
                    "approvalRuleTemplateId": "dd8b17fe-EXAMPLE",
                    "approvalRuleTemplateName": "2-approver-rule-for-main"
                },
                "ruleContentSha256": "4711b576EXAMPLE"
            }
        ],
        "authorArn": "arn:aws:iam::123456789012:user/Li_Juan",
        "clientRequestToken": "",
        "creationDate": 1508530823.142,
        "description": "Review the latest changes and updates to the global variables",
        "lastActivityDate": 1508887223.155,
        "pullRequestId": "47",
        "pullRequestStatus": "CLOSED",
        "pullRequestTargets": [
            {
                "destinationCommit": "9f31c968EXAMPLE",
                "destinationReference": "refs/heads/main",
                "mergeMetadata": {
                    "isMerged": true,
                    "mergedBy": "arn:aws:iam::123456789012:user/Mary_Major"
                },
                "repositoryName": "MyDemoRepo",
                "sourceCommit": "99132ab0EXAMPLE",
                "sourceReference": "refs/heads/variables-branch"
            }
        ],
        "title": "Consolidation of global variables"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggabungkan Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-merge-pull-request.html#merge-pull-request-by-three-way) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [MergePullRequestByThreeWay](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/merge-pull-request-by-three-way.html)di *Referensi AWS CLI Perintah*. 

### `override-pull-request-approval-rules`
<a name="codecommit_OverridePullRequestApprovalRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`override-pull-request-approval-rules`.

**AWS CLI**  
**Untuk mengganti persyaratan aturan persetujuan pada permintaan tarik**  
`override-pull-request-approval-rules`Contoh berikut mengesampingkan aturan persetujuan pada permintaan tarik yang ditentukan. Untuk mencabut penggantian sebagai gantinya, setel nilai `--override-status` parameter ke. `REVOKE`  

```
aws codecommit override-pull-request-approval-rules \
    --pull-request-id 34  \
    --revision-id 927df8d8EXAMPLE \
    --override-status OVERRIDE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengganti Aturan Persetujuan pada Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-override-approval-rules.html#override-approval-rules) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [OverridePullRequestApprovalRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/override-pull-request-approval-rules.html)di *Referensi AWS CLI Perintah*. 

### `post-comment-for-compared-commit`
<a name="codecommit_PostCommentForComparedCommit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`post-comment-for-compared-commit`.

**AWS CLI**  
**Untuk membuat komentar pada komit**  
Contoh ini menunjukkan cara menambahkan komentar `"Can you add a test case for this?"` pada perubahan ke `cl_sample.js` file dalam perbandingan antara dua komit dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit post-comment-for-compared-commit \
    --repository-name MyDemoRepo \
    --before-commit-id 317f8570EXAMPLE \
    --after-commit-id 5d036259EXAMPLE \
    --client-request-token 123Example \
    --content "Can you add a test case for this?" \
    --location filePath=cl_sample.js,filePosition=1232,relativeFileVersion=AFTER
```
Output:  

```
{
    "afterBlobId": "1f330709EXAMPLE",
    "afterCommitId": "317f8570EXAMPLE",
    "beforeBlobId": "80906a4cEXAMPLE",
    "beforeCommitId": "6e147360EXAMPLE",
    "comment": {
        "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
        "clientRequestToken": "",
        "commentId": "553b509bEXAMPLE56198325",
        "content": "Can you add a test case for this?",
        "creationDate": 1508369612.203,
        "deleted": false,
        "commentId": "abc123-EXAMPLE",
        "lastModifiedDate": 1508369612.203,
        "callerReactions": [],
        "reactionCounts": []
    },
    "location": {
        "filePath": "cl_sample.js",
        "filePosition": 1232,
        "relativeFileVersion": "AFTER"
    ,
    "repositoryName": "MyDemoRepo"
    }
}
```
+  Untuk detail API, lihat [PostCommentForComparedCommit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/post-comment-for-compared-commit.html)di *Referensi AWS CLI Perintah*. 

### `post-comment-for-pull-request`
<a name="codecommit_PostCommentForPullRequest_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`post-comment-for-pull-request`.

**AWS CLI**  
**Untuk menambahkan komentar ke permintaan tarik**  
`post-comment-for-pull-request`Contoh berikut menambahkan komentar “Ini tampaknya tidak digunakan di mana pun. Bisakah kita menghapusnya?" pada perubahan ke `ahs_count.py` file dalam permintaan tarik dengan ID `47` dalam repositori bernama. `MyDemoRepo`  

```
aws codecommit post-comment-for-pull-request \
    --pull-request-id "47" \
    --repository-name MyDemoRepo \
    --before-commit-id 317f8570EXAMPLE \
    --after-commit-id 5d036259EXAMPLE \
    --client-request-token 123Example \
    --content "These don't appear to be used anywhere. Can we remove them?" \
    --location filePath=ahs_count.py,filePosition=367,relativeFileVersion=AFTER
```
Output:  

```
{
     "afterBlobId": "1f330709EXAMPLE",
     "afterCommitId": "5d036259EXAMPLE",
     "beforeBlobId": "80906a4cEXAMPLE",
     "beforeCommitId": "317f8570EXAMPLE",
     "comment": {
            "authorArn": "arn:aws:iam::111111111111:user/Saanvi_Sarkar",
            "clientRequestToken": "123Example",
            "commentId": "abcd1234EXAMPLEb5678efgh",
            "content": "These don't appear to be used anywhere. Can we remove them?",
            "creationDate": 1508369622.123,
            "deleted": false,
            "CommentId": "",
            "lastModifiedDate": 1508369622.123,
            "callerReactions": [],
            "reactionCounts": []
        },
        "location": {
            "filePath": "ahs_count.py",
            "filePosition": 367,
            "relativeFileVersion": "AFTER"
         },
     "repositoryName": "MyDemoRepo",
     "pullRequestId": "47"
}
```
+  Untuk detail API, lihat [PostCommentForPullRequest](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/post-comment-for-pull-request.html)di *Referensi AWS CLI Perintah*. 

### `post-comment-reply`
<a name="codecommit_PostCommentReply_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`post-comment-reply`.

**AWS CLI**  
**Untuk membalas komentar pada komit atau permintaan tarik**  
Contoh ini menunjukkan cara menambahkan balasan `"Good catch. I'll remove them."` ke komentar dengan ID yang dihasilkan sistem dari. `abcd1234EXAMPLEb5678efgh`  

```
aws codecommit post-comment-reply \
    --in-reply-to abcd1234EXAMPLEb5678efgh \
    --content "Good catch. I'll remove them." \
    --client-request-token 123Example
```
Output:  

```
{
    "comment": {
        "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
        "clientRequestToken": "123Example",
        "commentId": "442b498bEXAMPLE5756813",
        "content": "Good catch. I'll remove them.",
        "creationDate": 1508369829.136,
        "deleted": false,
        "CommentId": "abcd1234EXAMPLEb5678efgh",
        "lastModifiedDate": 150836912.221,
        "callerReactions": [],
        "reactionCounts": []
    }
}
```
+  Untuk detail API, lihat [PostCommentReply](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/post-comment-reply.html)di *Referensi AWS CLI Perintah*. 

### `put-comment-reaction`
<a name="codecommit_PutCommentReaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-comment-reaction`.

**AWS CLI**  
**Untuk membalas komentar pada komit dengan emoji**  
`put-comment-reaction`Contoh berikut membalas komentar dengan ID dari `abcd1234EXAMPLEb5678efgh` dengan nilai reaksi emoji. `:thumbsup:`  

```
aws codecommit put-comment-reaction \
    --comment-id abcd1234EXAMPLEb5678efgh \
    --reaction-value :thumbsup:
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengomentari komit AWS CodeCommit di](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-commit-comment.html#how-to-commit-comment-cli-commit-reply-emoji) *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [PutCommentReaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/put-comment-reaction.html)di *Referensi AWS CLI Perintah*. 

### `put-file`
<a name="codecommit_PutFile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-file`.

**AWS CLI**  
**Untuk menambahkan file ke repositori**  
`put-file`Contoh berikut menambahkan file bernama 'ExampleSolution.py' ke repositori bernama' 'ke cabang bernama' feature-randomizationfeature MyDemoRepo 'yang komit terbarunya memiliki ID '4C925148Example'.  

```
aws codecommit put-file \
    --repository-name MyDemoRepo \
    --branch-name feature-randomizationfeature \
    --file-content file://MyDirectory/ExampleSolution.py \
    --file-path /solutions/ExampleSolution.py \
    --parent-commit-id 4c925148EXAMPLE \
    --name "Maria Garcia" \
    --email "maria_garcia@example.com" \
    --commit-message "I added a third randomization routine."
```
Output:  

```
{
    "blobId": "2eb4af3bEXAMPLE",
    "commitId": "317f8570EXAMPLE",
    "treeId": "347a3408EXAMPLE"
}
```
+  Untuk detail API, lihat [PutFile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/put-file.html)di *Referensi AWS CLI Perintah*. 

### `put-repository-triggers`
<a name="codecommit_PutRepositoryTriggers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-repository-triggers`.

**AWS CLI**  
**Untuk menambah atau memperbarui pemicu di repositori**  
Contoh ini menunjukkan cara memperbarui pemicu bernama '' dan 'MyFirstTriggerMySecondTrigger' menggunakan file JSON yang sudah dibuat (di sini bernama MyTriggers .json) yang berisi struktur semua pemicu untuk repositori bernama. MyDemoRepo Untuk mempelajari cara mendapatkan JSON untuk pemicu yang ada, lihat perintahnya. get-repository-triggers  

```
aws codecommit put-repository-triggers \
    --repository-name MyDemoRepo file://MyTriggers.json
```
Isi dari `MyTriggers.json`:  

```
{
    "repositoryName": "MyDemoRepo",
    "triggers": [
        {
            "destinationArn": "arn:aws:sns:us-east-1:80398EXAMPLE:MyCodeCommitTopic",
            "branches": [
                "main",
                "preprod"
            ],
            "name": "MyFirstTrigger",
            "customData": "",
            "events": [
                "all"
            ]
        },
        {
            "destinationArn": "arn:aws:lambda:us-east-1:111111111111:function:MyCodeCommitPythonFunction",
            "branches": [],
            "name": "MySecondTrigger",
            "customData": "EXAMPLE",
            "events": [
                "all"
            ]
        }
    ]
}
```
Output:  

```
{
    "configurationId": "6fa51cd8-35c1-EXAMPLE"
}
```
+  Untuk detail API, lihat [PutRepositoryTriggers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/put-repository-triggers.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="codecommit_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan AWS tag ke repositori yang ada**  
`tag-resource`Contoh berikut tag repositori yang ditentukan dengan dua tag.  

```
aws codecommit tag-resource \
    --resource-arn arn:aws:codecommit:us-west-2:111111111111:MyDemoRepo \
    --tags Status=Secret,Team=Saanvi
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan Tag ke Repositori](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-tag-repository-add.html#how-to-tag-repository-add-cli) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `test-repository-triggers`
<a name="codecommit_TestRepositoryTriggers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-repository-triggers`.

**AWS CLI**  
**Untuk menguji pemicu dalam repositori**  
Contoh ini menunjukkan bagaimana untuk menguji pemicu bernama 'MyFirstTrigger' dalam AWS CodeCommit repositori bernama. MyDemoRepo Dalam contoh ini, peristiwa di repositori memicu pemberitahuan dari topik Simple Notification Service Amazon (Amazon SNS).  
Perintah:  

```
aws codecommit test-repository-triggers --repository-name MyDemoRepo --triggers name=MyFirstTrigger,destinationArn=arn:aws:sns:us-east-1:111111111111:MyCodeCommitTopic,branches=mainline,preprod,events=all
```
Output:  

```
{
  "successfulExecutions": [
      "MyFirstTrigger"
  ],
  "failedExecutions": []
}
```
+  Untuk detail API, lihat [TestRepositoryTriggers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/test-repository-triggers.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="codecommit_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus AWS tag dari repositori**  
`untag-resource`Contoh berikut menghapus tag dengan kunci yang ditentukan dari repositori bernama. `MyDemoRepo`  

```
aws codecommit untag-resource \
    --resource-arn arn:aws:codecommit:us-west-2:111111111111:MyDemoRepo \
    --tag-keys Status
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Tag dari Repositori](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-tag-repository-delete.html#how-to-tag-repository-delete-cli) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-approval-rule-template-content`
<a name="codecommit_UpdateApprovalRuleTemplateContent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-approval-rule-template-content`.

**AWS CLI**  
**Untuk memperbarui konten templat aturan persetujuan**  
`update-approval-rule-template-content`Contoh berikut mengubah konten templat aturan persetujuan yang ditentukan untuk mendefinisikan ulang kumpulan persetujuan kepada pengguna yang berperan. `CodeCommitReview`  

```
aws codecommit update-approval-rule-template-content \
    --approval-rule-template-name 1-approver-rule  \
    --new-rule-content "{\"Version\": \"2018-11-08\",\"DestinationReferences\": [\"refs/heads/main\"],\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}"
```
Output:  

```
{
    "approvalRuleTemplate": {
        "creationDate": 1571352720.773,
        "approvalRuleTemplateDescription": "Requires 1 approval for all pull requests from the CodeCommitReview pool",
        "lastModifiedDate": 1571358728.41,
        "approvalRuleTemplateId": "41de97b7-EXAMPLE",
        "approvalRuleTemplateContent": "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 1,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
        "approvalRuleTemplateName": "1-approver-rule-for-all-pull-requests",
        "ruleContentSha256": "2f6c21a5EXAMPLE",
        "lastModifiedUser": "arn:aws:iam::123456789012:user/Li_Juan"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-manage-templates.html#update-template-content) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [UpdateApprovalRuleTemplateContent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-approval-rule-template-content.html)di *Referensi AWS CLI Perintah*. 

### `update-approval-rule-template-description`
<a name="codecommit_UpdateApprovalRuleTemplateDescription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-approval-rule-template-description`.

**AWS CLI**  
**Untuk memperbarui deskripsi templat aturan persetujuan**  
`update-approval-rule-template-description`Contoh berikut mengubah deskripsi template aturan persetujuan yang ditentukan menjadi`Requires 1 approval for all pull requests from the CodeCommitReview pool`. :  

```
aws codecommit update-approval-rule-template-description \
    --approval-rule-template-name 1-approver-rule-for-all-pull-requests  \
    --approval-rule-template-description "Requires 1 approval for all pull requests from the CodeCommitReview pool"
```
Output:  

```
{
  "approvalRuleTemplate": {
    "creationDate": 1571352720.773,
    "approvalRuleTemplateDescription": "Requires 1 approval for all pull requests from the CodeCommitReview pool",
    "lastModifiedDate": 1571358728.41,
    "approvalRuleTemplateId": "41de97b7-EXAMPLE",
    "approvalRuleTemplateContent": "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 1,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
    "approvalRuleTemplateName": "1-approver-rule-for-all-pull-requests",
    "ruleContentSha256": "2f6c21a5EXAMPLE",
    "lastModifiedUser": "arn:aws:iam::123456789012:user/Li_Juan"
  }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-manage-templates.html#update-template-description) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [UpdateApprovalRuleTemplateDescription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-approval-rule-template-description.html)di *Referensi AWS CLI Perintah*. 

### `update-approval-rule-template-name`
<a name="codecommit_UpdateApprovalRuleTemplateName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-approval-rule-template-name`.

**AWS CLI**  
**Untuk memperbarui nama templat aturan persetujuan**  
`update-approval-rule-template-name`Contoh berikut mengubah nama template aturan persetujuan dari 1- `1-approver-rule` approver-rule-for-all -pull-requests`.  

```
aws codecommit update-approval-rule-template-name \
    --old-approval-rule-template-name 1-approver-rule  \
    --new-approval-rule-template-name 1-approver-rule-for-all-pull-requests
```
Output:  

```
{
  "approvalRuleTemplate": {
    "approvalRuleTemplateName": "1-approver-rule-for-all-pull-requests",
    "lastModifiedDate": 1571358241.619,
    "approvalRuleTemplateId": "41de97b7-EXAMPLE",
    "approvalRuleTemplateContent": "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 1,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
    "creationDate": 1571352720.773,
    "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
    "approvalRuleTemplateDescription": "All pull requests must be approved by one developer on the team.",
    "ruleContentSha256": "2f6c21a5cEXAMPLE"
  }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Template Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-manage-templates.html#update-template-description) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [UpdateApprovalRuleTemplateName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-approval-rule-template-name.html)di *Referensi AWS CLI Perintah*. 

### `update-comment`
<a name="codecommit_UpdateComment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-comment`.

**AWS CLI**  
**Untuk memperbarui komentar pada komit**  
Contoh ini menunjukkan cara menambahkan konten `"Fixed as requested. I'll update the pull request."` ke komentar dengan ID dari. `442b498bEXAMPLE5756813`  

```
aws codecommit update-comment \
    --comment-id 442b498bEXAMPLE5756813 \
    --content "Fixed as requested. I'll update the pull request."
```
Output:  

```
{
    "comment": {
        "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
        "clientRequestToken": "",
        "commentId": "442b498bEXAMPLE5756813",
        "content": "Fixed as requested. I'll update the pull request.",
        "creationDate": 1508369929.783,
        "deleted": false,
        "lastModifiedDate": 1508369929.287,
        "callerReactions": [],
        "reactionCounts":
            {
                "THUMBSUP" : 2
            }
    }
}
```
+  Untuk detail API, lihat [UpdateComment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-comment.html)di *Referensi AWS CLI Perintah*. 

### `update-default-branch`
<a name="codecommit_UpdateDefaultBranch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-default-branch`.

**AWS CLI**  
**Untuk mengubah cabang default untuk repositori**  
Contoh ini mengubah cabang default untuk AWS CodeCommit repositori. Perintah ini menghasilkan output hanya jika ada kesalahan.  
Perintah:  

```
aws codecommit update-default-branch --repository-name MyDemoRepo --default-branch-name MyNewBranch
```
Output:  

```
None.
```
+  Untuk detail API, lihat [UpdateDefaultBranch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-default-branch.html)di *Referensi AWS CLI Perintah*. 

### `update-pull-request-approval-rule-content`
<a name="codecommit_UpdatePullRequestApprovalRuleContent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-pull-request-approval-rule-content`.

**AWS CLI**  
**Untuk mengedit aturan persetujuan untuk permintaan tarik**  
`update-pull-request-approval-rule-content`Contoh berikut memperbarui dia menetapkan aturan persetujuan untuk meminta satu persetujuan pengguna dari kumpulan persetujuan yang mencakup setiap pengguna IAM dalam `123456789012` AWS akun.  

```
aws codecommit update-pull-request-approval-rule-content \
    --pull-request-id 27  \
    --approval-rule-name "Require two approved approvers" \
    --approval-rule-content "{Version: 2018-11-08, Statements: [{Type: \"Approvers\", NumberOfApprovalsNeeded: 1, ApprovalPoolMembers:[\"CodeCommitApprovers:123456789012:user/*\"]}]}}"
```
Output:  

```
{
    "approvalRule": {
        "approvalRuleContent": "{Version: 2018-11-08, Statements: [{Type: \"Approvers\", NumberOfApprovalsNeeded: 1, ApprovalPoolMembers:[\"CodeCommitApprovers:123456789012:user/*\"]}]}}",
        "approvalRuleId": "aac33506-EXAMPLE",
        "originApprovalRuleTemplate": {},
        "creationDate": 1570752871.932,
        "lastModifiedDate": 1570754058.333,
        "approvalRuleName": Require two approved approvers",
        "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
        "ruleContentSha256": "cd93921cEXAMPLE",
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit atau Menghapus Aturan Persetujuan](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-edit-delete-pull-request-approval-rule.html#update-pull-request-approval-rule-content) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [UpdatePullRequestApprovalRuleContent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-pull-request-approval-rule-content.html)di *Referensi AWS CLI Perintah*. 

### `update-pull-request-approval-state`
<a name="codecommit_UpdatePullRequestApprovalState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-pull-request-approval-state`.

**AWS CLI**  
**Untuk menyetujui atau mencabut persetujuan untuk permintaan tarik**  
`update-pull-request-approval-state`Contoh berikut menyetujui permintaan tarik dengan ID dari `27` dan ID revisi dari. `9f29d167EXAMPLE` Jika Anda ingin mencabut persetujuan sebagai gantinya, maka tetapkan nilai `--approval-state` parameter ke. `REVOKE`  

```
aws codecommit update-pull-request-approval-state \
    --pull-request-id 27  \
    --revision-id 9f29d167EXAMPLE  \
    --approval-state "APPROVE"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Meninjau Permintaan Tarik](https://docs.aws.amazon.com/codecommit/latest/userguide/how-to-review-pull-request.html#update-pull-request-approval-state) di *Panduan AWS CodeCommit Pengguna*.  
+  Untuk detail API, lihat [UpdatePullRequestApprovalState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-pull-request-approval-state.html)di *Referensi AWS CLI Perintah*. 

### `update-pull-request-description`
<a name="codecommit_UpdatePullRequestDescription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-pull-request-description`.

**AWS CLI**  
**Untuk mengubah deskripsi permintaan tarik**  
Contoh ini menunjukkan bagaimana mengubah deskripsi permintaan tarik dengan ID dari. `47`  

```
aws codecommit update-pull-request-description \
    --pull-request-id 47 \
    --description "Updated the pull request to remove unused global variable."
```
Output:  

```
{
    "pullRequest": {
        "authorArn": "arn:aws:iam::111111111111:user/Li_Juan",
        "clientRequestToken": "",
        "creationDate": 1508530823.155,
        "description": "Updated the pull request to remove unused global variable.",
        "lastActivityDate": 1508372423.204,
        "pullRequestId": "47",
        "pullRequestStatus": "OPEN",
        "pullRequestTargets": [
            {
                "destinationCommit": "9f31c968EXAMPLE",
                "destinationReference": "refs/heads/main",
                "mergeMetadata": {
                    "isMerged": false,
                },
                "repositoryName": "MyDemoRepo",
                "sourceCommit": "99132ab0EXAMPLE",
                "sourceReference": "refs/heads/variables-branch"
            }
        ],
        "title": "Consolidation of global variables"
    }
}
```
+  Untuk detail API, lihat [UpdatePullRequestDescription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-pull-request-description.html)di *Referensi AWS CLI Perintah*. 

### `update-pull-request-status`
<a name="codecommit_UpdatePullRequestStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-pull-request-status`.

**AWS CLI**  
**Untuk mengubah status permintaan tarik**  
Contoh ini menunjukkan bagaimana mengubah status permintaan tarik dengan ID dari `42` ke status `CLOSED` dalam AWS CodeCommit repositori bernama. `MyDemoRepo`  

```
aws codecommit update-pull-request-status \
    --pull-request-id 42 \
    --pull-request-status CLOSED
```
Output:  

```
{
    "pullRequest": {
        "approvalRules": [
            {
                "approvalRuleContent": "{\"Version\": \"2018-11-08\",\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
                "approvalRuleId": "dd8b17fe-EXAMPLE",
                "approvalRuleName": "2-approvers-needed-for-this-change",
                "creationDate": 1571356106.936,
                "lastModifiedDate": 571356106.936,
                "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
                "ruleContentSha256": "4711b576EXAMPLE"
            }
        ],
        "authorArn": "arn:aws:iam::123456789012:user/Li_Juan",
        "clientRequestToken": "",
        "creationDate": 1508530823.165,
        "description": "Updated the pull request to remove unused global variable.",
        "lastActivityDate": 1508372423.12,
        "pullRequestId": "47",
        "pullRequestStatus": "CLOSED",
        "pullRequestTargets": [
            {
                "destinationCommit": "9f31c968EXAMPLE",
                "destinationReference": "refs/heads/main",
                "mergeMetadata": {
                    "isMerged": false,
                },
                "repositoryName": "MyDemoRepo",
                "sourceCommit": "99132ab0EXAMPLE",
                "sourceReference": "refs/heads/variables-branch"
            }
        ],
        "title": "Consolidation of global variables"
    }
}
```
+  Untuk detail API, lihat [UpdatePullRequestStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-pull-request-status.html)di *Referensi AWS CLI Perintah*. 

### `update-pull-request-title`
<a name="codecommit_UpdatePullRequestTitle_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-pull-request-title`.

**AWS CLI**  
**Untuk mengubah judul permintaan tarik**  
Contoh ini menunjukkan bagaimana mengubah judul permintaan tarik dengan ID dari. `47`  

```
aws codecommit update-pull-request-title \
    --pull-request-id 47 \
    --title "Consolidation of global variables - updated review"
```
Output:  

```
{
    "pullRequest": {
        "approvalRules": [
            {
                "approvalRuleContent": "{\"Version\": \"2018-11-08\",\"DestinationReferences\": [\"refs/heads/main\"],\"Statements\": [{\"Type\": \"Approvers\",\"NumberOfApprovalsNeeded\": 2,\"ApprovalPoolMembers\": [\"arn:aws:sts::123456789012:assumed-role/CodeCommitReview/*\"]}]}",
                "approvalRuleId": "dd8b17fe-EXAMPLE",
                "approvalRuleName": "2-approver-rule-for-main",
                "creationDate": 1571356106.936,
                "lastModifiedDate": 571356106.936,
                "lastModifiedUser": "arn:aws:iam::123456789012:user/Mary_Major",
                "originApprovalRuleTemplate": {
                    "approvalRuleTemplateId": "dd8b26gr-EXAMPLE",
                    "approvalRuleTemplateName": "2-approver-rule-for-main"
                },
                "ruleContentSha256": "4711b576EXAMPLE"
            }
        ],
        "authorArn": "arn:aws:iam::123456789012:user/Li_Juan",
        "clientRequestToken": "",
        "creationDate": 1508530823.12,
        "description": "Review the latest changes and updates to the global variables. I have updated this request with some changes, including removing some unused variables.",
        "lastActivityDate": 1508372657.188,
        "pullRequestId": "47",
        "pullRequestStatus": "OPEN",
        "pullRequestTargets": [
            {
                "destinationCommit": "9f31c968EXAMPLE",
                "destinationReference": "refs/heads/main",
                "mergeMetadata": {
                    "isMerged": false,
                },
                "repositoryName": "MyDemoRepo",
                "sourceCommit": "99132ab0EXAMPLE",
                "sourceReference": "refs/heads/variables-branch"
            }
        ],
        "title": "Consolidation of global variables - updated review"
    }
}
```
+  Untuk detail API, lihat [UpdatePullRequestTitle](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-pull-request-title.html)di *Referensi AWS CLI Perintah*. 

### `update-repository-description`
<a name="codecommit_UpdateRepositoryDescription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-repository-description`.

**AWS CLI**  
**Untuk mengubah deskripsi untuk repositori**  
Contoh ini mengubah deskripsi untuk AWS CodeCommit repositori. Perintah ini menghasilkan output hanya jika ada kesalahan.  
Perintah:  

```
aws codecommit update-repository-description --repository-name MyDemoRepo --repository-description "This description was changed"
```
Output:  

```
None.
```
+  Untuk detail API, lihat [UpdateRepositoryDescription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-repository-description.html)di *Referensi AWS CLI Perintah*. 

### `update-repository-name`
<a name="codecommit_UpdateRepositoryName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-repository-name`.

**AWS CLI**  
**Untuk mengubah nama repositori**  
Contoh ini mengubah nama AWS CodeCommit repositori. Perintah ini menghasilkan output hanya jika ada kesalahan. Mengubah nama AWS CodeCommit repositori akan mengubah SSH dan HTTPS URLs yang pengguna butuhkan untuk terhubung ke repositori. Pengguna tidak akan dapat terhubung ke repositori ini sampai mereka memperbarui pengaturan koneksi mereka. Selain itu, karena ARN repositori akan berubah, yang mengubah nama repositori akan membatalkan setiap kebijakan pengguna IAM yang bergantung pada ARN repositori ini.  
Perintah:  

```
aws codecommit update-repository-name --old-name MyDemoRepo --new-name MyRenamedDemoRepo
```
Output:  

```
None.
```
+  Untuk detail API, lihat [UpdateRepositoryName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codecommit/update-repository-name.html)di *Referensi AWS CLI Perintah*. 

# CodeDeploy contoh menggunakan AWS CLI
<a name="cli_2_codedeploy_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CodeDeploy.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags-to-on-premises-instances`
<a name="codedeploy_AddTagsToOnPremisesInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-on-premises-instances`.

**AWS CLI**  
**Untuk menambahkan tag ke instance lokal**  
`add-tags-to-on-premises-instances`Contoh berikut mengaitkan tag instans lokal yang sama ke dua instance lokal. AWS CodeDeploy Itu tidak mendaftarkan instance lokal dengan. AWS CodeDeploy  

```
aws deploy add-tags-to-on-premises-instances \
    --instance-names AssetTag12010298EX AssetTag23121309EX \
    --tags Key=Name,Value=CodeDeployDemo-OnPrem
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AddTagsToOnPremisesInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/add-tags-to-on-premises-instances.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-application-revisions`
<a name="codedeploy_BatchGetApplicationRevisions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-application-revisions`.

**AWS CLI**  
**Untuk mengambil informasi tentang revisi aplikasi**  
`batch-get-application-revisions`Contoh berikut mengambil informasi tentang revisi tertentu yang disimpan dalam repositori. GitHub   

```
aws deploy batch-get-application-revisions \
    --application-name my-codedeploy-application \
    --revisions "[{\"gitHubLocation\": {\"commitId\": \"fa85936EXAMPLEa31736c051f10d77297EXAMPLE\",\"repository\": \"my-github-token/my-repository\"},\"revisionType\": \"GitHub\"}]"
```
Output:  

```
{
    "revisions": [
        {
            "genericRevisionInfo": {
                "description": "Application revision registered by Deployment ID: d-A1B2C3111",
                "lastUsedTime": 1556912355.884,
                "registerTime": 1556912355.884,
                "firstUsedTime": 1556912355.884,
                "deploymentGroups": []
            },
            "revisionLocation": {
                "revisionType": "GitHub",
                "gitHubLocation": {
                    "commitId": "fa85936EXAMPLEa31736c051f10d77297EXAMPLE",
                    "repository": "my-github-token/my-repository"
                }
            }
        }
    ],
    "applicationName": "my-codedeploy-application",
    "errorMessage": ""
}
```
Untuk informasi selengkapnya, lihat [BatchGetApplicationRevisions](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_BatchGetApplicationRevisions.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [BatchGetApplicationRevisions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/batch-get-application-revisions.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-applications`
<a name="codedeploy_BatchGetApplications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-applications`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang beberapa aplikasi**  
`batch-get-applications`Contoh berikut menampilkan informasi tentang beberapa aplikasi yang terkait dengan AWS akun pengguna.  

```
aws deploy batch-get-applications --application-names WordPress_App MyOther_App
```
Output:  

```
{
    "applicationsInfo": [
        {
            "applicationName": "WordPress_App",
            "applicationId": "d9dd6993-f171-44fa-a811-211e4EXAMPLE",
            "createTime": 1407878168.078,
            "linkedToGitHub": false
        },
        {
            "applicationName": "MyOther_App",
            "applicationId": "8ca57519-31da-42b2-9194-8bb16EXAMPLE",
            "createTime": 1407453571.63,
            "linkedToGitHub": false
        }
    ]
}
```
+  Untuk detail API, lihat [BatchGetApplications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/batch-get-applications.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-deployment-groups`
<a name="codedeploy_BatchGetDeploymentGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-deployment-groups`.

**AWS CLI**  
**Untuk mengambil informasi tentang satu atau beberapa grup penyebaran**  
`batch-get-deployment-groups`Contoh berikut mengambil informasi tentang dua kelompok penyebaran yang terkait dengan aplikasi yang ditentukan CodeDeploy .  

```
aws deploy batch-get-deployment-groups \
    --application-name my-codedeploy-application \
    --deployment-group-names "[\"my-deployment-group-1\",\"my-deployment-group-2\"]"
```
Output:  

```
{
    "deploymentGroupsInfo": [
        {
            "deploymentStyle": {
                "deploymentOption": "WITHOUT_TRAFFIC_CONTROL",
                "deploymentType": "IN_PLACE"
            },
            "autoRollbackConfiguration": {
                "enabled": false
            },
            "onPremisesTagSet": {
                "onPremisesTagSetList": []
            },
            "serviceRoleArn": "arn:aws:iam::123456789012:role/CodeDeployServiceRole",
            "lastAttemptedDeployment": {
                "endTime": 1556912366.415,
                "status": "Failed",
                "createTime": 1556912355.884,
                "deploymentId": "d-A1B2C3111"
            },
            "autoScalingGroups": [],
            "deploymentGroupName": "my-deployment-group-1",
            "ec2TagSet": {
                "ec2TagSetList": [
                    [
                        {
                            "Type": "KEY_AND_VALUE",
                            "Value": "my-EC2-instance",
                            "Key": "Name"
                        }
                    ]
                ]
            },
            "deploymentGroupId": "a1b2c3d4-5678-90ab-cdef-11111example",
            "triggerConfigurations": [],
            "applicationName": "my-codedeploy-application",
            "computePlatform": "Server",
            "deploymentConfigName": "CodeDeployDefault.AllAtOnce"
        },
        {
            "deploymentStyle": {
                "deploymentOption": "WITHOUT_TRAFFIC_CONTROL",
                "deploymentType": "IN_PLACE"
            },
            "autoRollbackConfiguration": {
                "enabled": false
            },
            "onPremisesTagSet": {
                "onPremisesTagSetList": []
            },
            "serviceRoleArn": "arn:aws:iam::123456789012:role/CodeDeployServiceRole",
            "autoScalingGroups": [],
            "deploymentGroupName": "my-deployment-group-2",
            "ec2TagSet": {
                "ec2TagSetList": [
                    [
                        {
                            "Type": "KEY_AND_VALUE",
                            "Value": "my-EC2-instance",
                            "Key": "Name"
                            }
                    ]
                ]
            },
            "deploymentGroupId": "a1b2c3d4-5678-90ab-cdef-22222example",
            "triggerConfigurations": [],
            "applicationName": "my-codedeploy-application",
            "computePlatform": "Server",
            "deploymentConfigName": "CodeDeployDefault.AllAtOnce"
        }
    ],
    "errorMessage": ""
}
```
Untuk informasi selengkapnya, lihat [BatchGetDeploymentGroups](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_BatchGetDeploymentGroups.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [BatchGetDeploymentGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/batch-get-deployment-groups.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-deployment-targets`
<a name="codedeploy_BatchGetDeploymentTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-deployment-targets`.

**AWS CLI**  
**Untuk mengambil target yang terkait dengan penerapan**  
`batch-get-deployment-targets`Contoh berikut mengembalikan informasi tentang salah satu target yang terkait dengan penyebaran yang ditentukan.  

```
aws deploy batch-get-deployment-targets \
    --deployment-id "d-1A2B3C4D5" \
    --target-ids "i-01a2b3c4d5e6f1111"
```
Output:  

```
{
    "deploymentTargets": [
        {
            "deploymentTargetType": "InstanceTarget",
            "instanceTarget": {
                "lifecycleEvents": [
                    {
                        "startTime": 1556918592.162,
                        "lifecycleEventName": "ApplicationStop",
                        "status": "Succeeded",
                        "endTime": 1556918592.247,
                        "diagnostics": {
                            "scriptName": "",
                            "errorCode": "Success",
                            "logTail": "",
                            "message": "Succeeded"
                        }
                    },
                    {
                        "startTime": 1556918593.193,
                        "lifecycleEventName": "DownloadBundle",
                        "status": "Succeeded",
                        "endTime": 1556918593.981,
                        "diagnostics": {
                            "scriptName": "",
                            "errorCode": "Success",
                            "logTail": "",
                            "message": "Succeeded"
                        }
                    },
                    {
                        "startTime": 1556918594.805,
                        "lifecycleEventName": "BeforeInstall",
                        "status": "Succeeded",
                        "endTime": 1556918681.807,
                        "diagnostics": {
                            "scriptName": "",
                            "errorCode": "Success",
                            "logTail": "",
                            "message": "Succeeded"
                        }
                    }
                ],
                "targetArn": "arn:aws:ec2:us-west-2:123456789012:instance/i-01a2b3c4d5e6f1111",
                "deploymentId": "d-1A2B3C4D5",
                "lastUpdatedAt": 1556918687.504,
                "targetId": "i-01a2b3c4d5e6f1111",
                "status": "Succeeded"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [BatchGetDeploymentTargets](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_BatchGetDeploymentTargets.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [BatchGetDeploymentTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/batch-get-deployment-targets.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-deployments`
<a name="codedeploy_BatchGetDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-deployments`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang beberapa penerapan**  
`batch-get-deployments`Contoh berikut menampilkan informasi tentang beberapa penerapan yang terkait dengan akun pengguna. AWS   

```
aws deploy batch-get-deployments --deployment-ids d-A1B2C3111 d-A1B2C3222
```
Output:  

```
{
    "deploymentsInfo": [
        {
            "applicationName": "WordPress_App",
            "status": "Failed",
            "deploymentOverview": {
                "Failed": 0,
                "InProgress": 0,
                "Skipped": 0,
                "Succeeded": 1,
                "Pending": 0
            },
            "deploymentConfigName": "CodeDeployDefault.OneAtATime",
            "creator": "user",
            "deploymentGroupName": "WordPress_DG",
            "revision": {
                "revisionType": "S3",
                "s3Location": {
                "bundleType": "zip",
                "version": "uTecLusEXAMPLEFXtfUcyfV8bEXAMPLE",
                "bucket": "amzn-s3-demo-bucket",
                "key": "WordPressApp.zip"
                }
            },
            "deploymentId": "d-A1B2C3111",
            "createTime": 1408480721.9,
            "completeTime": 1408480741.822
        },
        {
            "applicationName": "MyOther_App",
            "status": "Failed",
            "deploymentOverview": {
                "Failed": 1,
                "InProgress": 0,
                "Skipped": 0,
                "Succeeded": 0,
                "Pending": 0
            },
            "deploymentConfigName": "CodeDeployDefault.OneAtATime",
            "creator": "user",
            "errorInformation": {
                "message": "Deployment failed: Constraint default violated: No hosts succeeded.",
                "code": "HEALTH_CONSTRAINTS"
            },
            "deploymentGroupName": "MyOther_DG",
            "revision": {
                "revisionType": "S3",
                "s3Location": {
                "bundleType": "zip",
                "eTag": "\"dd56cfdEXAMPLE8e768f9d77fEXAMPLE\"",
                "bucket": "amzn-s3-demo-bucket",
                "key": "MyOtherApp.zip"
                }
            },
            "deploymentId": "d-A1B2C3222",
            "createTime": 1409764576.589,
            "completeTime": 1409764596.101
        }
    ]
}
```
+  Untuk detail API, lihat [BatchGetDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/batch-get-deployments.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-on-premises-instances`
<a name="codedeploy_BatchGetOnPremisesInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-on-premises-instances`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang satu atau beberapa instans lokal**  
`batch-get-on-premises-instances`Contoh berikut mendapatkan informasi tentang dua instance lokal.  

```
aws deploy batch-get-on-premises-instances --instance-names AssetTag12010298EX AssetTag23121309EX
```
Output:  

```
{
    "instanceInfos": [
        {
            "iamUserArn": "arn:aws:iam::123456789012:user/AWS/CodeDeploy/AssetTag12010298EX",
            "tags": [
                {
                    "Value": "CodeDeployDemo-OnPrem",
                    "Key": "Name"
                }
            ],
            "instanceName": "AssetTag12010298EX",
            "registerTime": 1425579465.228,
            "instanceArn": "arn:aws:codedeploy:us-west-2:123456789012:instance/AssetTag12010298EX_4IwLNI2Alh"
        },
        {
            "iamUserArn": "arn:aws:iam::123456789012:user/AWS/CodeDeploy/AssetTag23121309EX",
            "tags": [
                {
                    "Value": "CodeDeployDemo-OnPrem",
                    "Key": "Name"
                }
            ],
            "instanceName": "AssetTag23121309EX",
            "registerTime": 1425595585.988,
            "instanceArn": "arn:aws:codedeploy:us-west-2:80398EXAMPLE:instance/AssetTag23121309EX_PomUy64Was"
        }
    ]
}
```
+  Untuk detail API, lihat [BatchGetOnPremisesInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/batch-get-on-premises-instances.html)di *Referensi AWS CLI Perintah*. 

### `continue-deployment`
<a name="codedeploy_ContinueDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`continue-deployment`.

**AWS CLI**  
**Untuk mulai mengalihkan lalu lintas tanpa menunggu waktu tunggu yang ditentukan berlalu.**  
`continue-deployment`Contoh berikut mulai mengalihkan lalu lintas dari instance di lingkungan asli yang siap untuk mulai mengalihkan lalu lintas ke instance di lingkungan pengganti.  

```
aws deploy continue-deployment \
    --deployment-id "d-A1B2C3111" \
    --deployment-wait-type "READY_WAIT"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ContinueDeployment](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_ContinueDeployment.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [ContinueDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/continue-deployment.html)di *Referensi AWS CLI Perintah*. 

### `create-application`
<a name="codedeploy_CreateApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-application`.

**AWS CLI**  
**Untuk membuat aplikasi**  
`create-application`Contoh berikut membuat aplikasi dan mengaitkannya dengan AWS akun pengguna.  

```
aws deploy create-application --application-name MyOther_App
```
Output:  

```
{
    "applicationId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
}
```
+  Untuk detail API, lihat [CreateApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/create-application.html)di *Referensi AWS CLI Perintah*. 

### `create-deployment-config`
<a name="codedeploy_CreateDeploymentConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-deployment-config`.

**AWS CLI**  
**Untuk membuat konfigurasi penerapan kustom**  
`create-deployment-config`Contoh berikut membuat konfigurasi penerapan kustom dan mengaitkannya dengan akun pengguna. AWS   

```
aws deploy create-deployment-config \
    --deployment-config-name ThreeQuartersHealthy \
    --minimum-healthy-hosts type=FLEET_PERCENT,value=75
```
Output:  

```
{
    "deploymentConfigId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
}
```
+  Untuk detail API, lihat [CreateDeploymentConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/create-deployment-config.html)di *Referensi AWS CLI Perintah*. 

### `create-deployment-group`
<a name="codedeploy_CreateDeploymentGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-deployment-group`.

**AWS CLI**  
**Untuk membuat grup penyebaran**  
`create-deployment-group`Contoh berikut membuat grup penyebaran dan mengaitkannya dengan aplikasi yang ditentukan dan akun pengguna. AWS   

```
aws deploy create-deployment-group \
    --application-name WordPress_App \
    --auto-scaling-groups CodeDeployDemo-ASG \
    --deployment-config-name CodeDeployDefault.OneAtATime \
    --deployment-group-name WordPress_DG \
    --ec2-tag-filters Key=Name,Value=CodeDeployDemo,Type=KEY_AND_VALUE \
    --service-role-arn arn:aws:iam::123456789012:role/CodeDeployDemoRole
```
Output:  

```
{
    "deploymentGroupId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
}
```
+  Untuk detail API, lihat [CreateDeploymentGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/create-deployment-group.html)di *Referensi AWS CLI Perintah*. 

### `create-deployment`
<a name="codedeploy_CreateDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-deployment`.

**AWS CLI**  
**Contoh 1: Untuk membuat CodeDeploy penerapan menggunakan platform komputasi EC2/On-premise**  
`create-deployment`Contoh berikut membuat penyebaran dan mengaitkannya dengan akun pengguna. AWS   

```
aws deploy create-deployment \
    --application-name WordPress_App \
    --deployment-config-name CodeDeployDefault.OneAtATime \
    --deployment-group-name WordPress_DG \
    --description "My demo deployment" \
    --s3-location bucket=amzn-s3-demo-bucket,bundleType=zip,eTag=dd56cfdEXAMPLE8e768f9d77fEXAMPLE,key=WordPressApp.zip
```
Output:  

```
{
    "deploymentId": "d-A1B2C3111"
}
```
**Contoh 2: Untuk membuat CodeDeploy penerapan menggunakan platform komputasi Amazon ECS**  
`create-deployment`Contoh berikut menggunakan dua file berikut untuk menyebarkan layanan Amazon ECS.  
Isi `create-deployment.json` file:  

```
{
    "applicationName": "ecs-deployment",
    "deploymentGroupName": "ecs-deployment-dg",
    "revision": {
        "revisionType": "S3",
        "s3Location": {
            "bucket": "ecs-deployment-bucket",
            "key": "appspec.yaml",
            "bundleType": "YAML"
        }
    }
}
```
File itu, pada gilirannya, mengambil file berikut `appspec.yaml` dari bucket S3 yang disebut. `ecs-deployment-bucket`  

```
version: 0.0
Resources:
  - TargetService:
      Type: AWS::ECS::Service
      Properties:
        TaskDefinition: "arn:aws:ecs:region:123456789012:task-definition/ecs-task-def:2"
        LoadBalancerInfo:
          ContainerName: "sample-app"
          ContainerPort: 80
        PlatformVersion: "LATEST"
```
Perintah:  

```
aws deploy create-deployment \
    --cli-input-json file://create-deployment.json \
    --region us-east-1
```
Output:  

```
{
    "deploymentId": "d-1234ABCDE"
}
```
Untuk informasi selengkapnya, lihat [CreateDeployment](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_CreateDeployment.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [CreateDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/create-deployment.html)di *Referensi AWS CLI Perintah*. 

### `delete-application`
<a name="codedeploy_DeleteApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-application`.

**AWS CLI**  
**Untuk menghapus aplikasi**  
`delete-application`Contoh berikut menghapus aplikasi tertentu yang dikaitkan dengan AWS akun pengguna.  

```
aws deploy delete-application --application-name WordPress_App
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/delete-application.html)di *Referensi AWS CLI Perintah*. 

### `delete-deployment-config`
<a name="codedeploy_DeleteDeploymentConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-deployment-config`.

**AWS CLI**  
**Untuk menghapus konfigurasi penerapan**  
`delete-deployment-config`Contoh berikut menghapus konfigurasi penerapan kustom yang dikaitkan dengan akun pengguna. AWS   

```
aws deploy delete-deployment-config --deployment-config-name ThreeQuartersHealthy
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteDeploymentConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/delete-deployment-config.html)di *Referensi AWS CLI Perintah*. 

### `delete-deployment-group`
<a name="codedeploy_DeleteDeploymentGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-deployment-group`.

**AWS CLI**  
**Untuk menghapus grup penyebaran**  
`delete-deployment-group`Contoh berikut menghapus grup penyebaran yang terkait dengan aplikasi yang ditentukan.  

```
aws deploy delete-deployment-group \
    --application-name WordPress_App \
    --deployment-group-name WordPress_DG
```
Output:  

```
{
    "hooksNotCleanedUp": []
}
```
+  Untuk detail API, lihat [DeleteDeploymentGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/delete-deployment-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-git-hub-account-token`
<a name="codedeploy_DeleteGitHubAccountToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-git-hub-account-token`.

**AWS CLI**  
**Untuk menghapus koneksi GitHub akun**  
`delete-git-hub-account-token`Contoh berikut menghapus koneksi GitHub akun yang ditentukan.  

```
aws deploy delete-git-hub-account-token --token-name my-github-account
```
Output:  

```
{
    "tokenName": "my-github-account"
}
```
Untuk informasi selengkapnya, lihat [DeleteGitHubAccountToken](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_DeleteGitHubAccountToken.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [DeleteGitHubAccountToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/delete-git-hub-account-token.html)di *Referensi AWS CLI Perintah*. 

### `deregister-on-premises-instance`
<a name="codedeploy_DeregisterOnPremisesInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-on-premises-instance`.

**AWS CLI**  
**Untuk membatalkan pendaftaran instans lokal**  
`deregister-on-premises-instance`Contoh berikut membatalkan pendaftaran instans lokal dengan AWS CodeDeploy, tetapi tidak menghapus pengguna IAM yang terkait dengan instance, juga tidak memisahkan tag instans lokal AWS CodeDeploy dari instance. Itu juga tidak menghapus Instalasi AWS CodeDeploy Agen dari instance atau menghapus file konfigurasi lokal dari instance.  

```
aws deploy deregister-on-premises-instance --instance-name AssetTag12010298EX
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeregisterOnPremisesInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/deregister-on-premises-instance.html)di *Referensi AWS CLI Perintah*. 

### `deregister`
<a name="codedeploy_Deregister_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister`.

**AWS CLI**  
**Untuk membatalkan pendaftaran instans lokal**  
`deregister`Contoh berikut membatalkan pendaftaran instance lokal dengan. AWS CodeDeploy Itu tidak menghapus pengguna IAM yang terkait dengan instance. Ini terputus dalam AWS CodeDeploy tag lokal dari instance. Itu tidak menghapus instalan AWS CodeDeploy Agen dari instance atau menghapus file konfigurasi lokal dari instance.  

```
aws deploy deregister \
    --instance-name AssetTag12010298EX \
    --no-delete-iam-user \
    --region us-west-2
```
Output:  

```
Retrieving on-premises instance information... DONE
IamUserArn: arn:aws:iam::80398EXAMPLE:user/AWS/CodeDeploy/AssetTag12010298EX
Tags: Key=Name,Value=CodeDeployDemo-OnPrem
Removing tags from the on-premises instance... DONE
Deregistering the on-premises instance... DONE
Run the following command on the on-premises instance to uninstall the codedeploy-agent:
aws deploy uninstall
```
+  *Untuk detail API, lihat [Deregister](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/deregister.html) di AWS CLI Referensi Perintah.* 

### `get-application-revision`
<a name="codedeploy_GetApplicationRevision_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-application-revision`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang revisi aplikasi**  
`get-application-revision`Contoh berikut menampilkan informasi tentang revisi aplikasi yang terkait dengan aplikasi yang ditentukan.  

```
aws deploy get-application-revision \
    --application-name WordPress_App \
    --s3-location bucket=amzn-s3-demo-bucket,bundleType=zip,eTag=dd56cfdEXAMPLE8e768f9d77fEXAMPLE,key=WordPressApp.zip
```
Output:  

```
{
    "applicationName": "WordPress_App",
    "revisionInfo": {
        "description": "Application revision registered by Deployment ID: d-A1B2C3111",
        "registerTime": 1411076520.009,
        "deploymentGroups": "WordPress_DG",
        "lastUsedTime": 1411076520.009,
        "firstUsedTime": 1411076520.009
    },
    "revision": {
        "revisionType": "S3",
        "s3Location": {
            "bundleType": "zip",
            "eTag": "dd56cfdEXAMPLE8e768f9d77fEXAMPLE",
            "bucket": "amzn-s3-demo-bucket",
            "key": "WordPressApp.zip"
        }
    }
}
```
+  Untuk detail API, lihat [GetApplicationRevision](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/get-application-revision.html)di *Referensi AWS CLI Perintah*. 

### `get-application`
<a name="codedeploy_GetApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-application`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang aplikasi**  
`get-application`Contoh berikut menampilkan informasi tentang aplikasi yang terkait dengan AWS akun pengguna.  

```
aws deploy get-application --application-name WordPress_App
```
Output:  

```
{
    "application": {
        "applicationName": "WordPress_App",
        "applicationId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "createTime": 1407878168.078,
        "linkedToGitHub": false
    }
}
```
+  Untuk detail API, lihat [GetApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/get-application.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment-config`
<a name="codedeploy_GetDeploymentConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment-config`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang konfigurasi penerapan**  
`get-deployment-config`Contoh berikut menampilkan informasi tentang konfigurasi penyebaran yang terkait dengan AWS akun pengguna.  

```
aws deploy get-deployment-config --deployment-config-name ThreeQuartersHealthy
```
Output:  

```
{
    "deploymentConfigInfo": {
        "deploymentConfigId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "minimumHealthyHosts": {
            "type": "FLEET_PERCENT",
            "value": 75
        },
        "createTime": 1411081164.379,
        "deploymentConfigName": "ThreeQuartersHealthy"
    }
}
```
+  Untuk detail API, lihat [GetDeploymentConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/get-deployment-config.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment-group`
<a name="codedeploy_GetDeploymentGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment-group`.

**AWS CLI**  
**Untuk melihat informasi tentang grup penyebaran**  
`get-deployment-group`Contoh berikut menampilkan informasi tentang grup penyebaran yang terkait dengan aplikasi yang ditentukan.  

```
aws deploy get-deployment-group \
    --application-name WordPress_App \
    --deployment-group-name WordPress_DG
```
Output:  

```
{
    "deploymentGroupInfo": {
        "applicationName": "WordPress_App",
        "autoScalingGroups": [
            "CodeDeployDemo-ASG"
        ],
        "deploymentConfigName": "CodeDeployDefault.OneAtATime",
        "ec2TagFilters": [
            {
                "Type": "KEY_AND_VALUE",
                "Value": "CodeDeployDemo",
                "Key": "Name"
            }
        ],
        "deploymentGroupId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "serviceRoleArn": "arn:aws:iam::123456789012:role/CodeDeployDemoRole",
        "deploymentGroupName": "WordPress_DG"
    }
}
```
+  Untuk detail API, lihat [GetDeploymentGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/get-deployment-group.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment-instance`
<a name="codedeploy_GetDeploymentInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment-instance`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang instance penerapan**  
`get-deployment-instance`Contoh berikut menampilkan informasi tentang instance penyebaran yang terkait dengan penerapan yang ditentukan.  

```
aws deploy get-deployment-instance --deployment-id d-QA4G4F9EX --instance-id i-902e9fEX
```
Output:  

```
{
    "instanceSummary": {
        "instanceId": "arn:aws:ec2:us-east-1:80398EXAMPLE:instance/i-902e9fEX",
        "lifecycleEvents": [
            {
                "status": "Succeeded",
                "endTime": 1408480726.569,
                "startTime": 1408480726.437,
                "lifecycleEventName": "ApplicationStop"
            },
            {
                "status": "Succeeded",
                "endTime": 1408480728.016,
                "startTime": 1408480727.665,
                "lifecycleEventName": "DownloadBundle"
            },
            {
                "status": "Succeeded",
                "endTime": 1408480729.744,
                "startTime": 1408480729.125,
                "lifecycleEventName": "BeforeInstall"
            },
            {
                "status": "Succeeded",
                "endTime": 1408480730.979,
                "startTime": 1408480730.844,
                "lifecycleEventName": "Install"
            },
            {
                "status": "Failed",
                "endTime": 1408480732.603,
                "startTime": 1408480732.1,
                "lifecycleEventName": "AfterInstall"
            },
            {
                "status": "Skipped",
                "endTime": 1408480732.606,
                "lifecycleEventName": "ApplicationStart"
            },
            {
                "status": "Skipped",
                "endTime": 1408480732.606,
                "lifecycleEventName": "ValidateService"
            }
        ],
        "deploymentId": "d-QA4G4F9EX",
        "lastUpdatedAt": 1408480733.152,
        "status": "Failed"
    }
}
```
+  Untuk detail API, lihat [GetDeploymentInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/get-deployment-instance.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment-target`
<a name="codedeploy_GetDeploymentTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment-target`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang target penyebaran**  
`get-deployment-target`Contoh berikut mengembalikan informasi tentang target penyebaran yang terkait dengan penerapan yang ditentukan.  

```
aws deploy get-deployment-target \
    --deployment-id "d-A1B2C3111" \
    --target-id "i-a1b2c3d4e5f611111"
```
Output:  

```
{
    "deploymentTarget": {
        "deploymentTargetType": "InstanceTarget",
        "instanceTarget": {
            "lastUpdatedAt": 1556918687.504,
            "targetId": "i-a1b2c3d4e5f611111",
            "targetArn": "arn:aws:ec2:us-west-2:123456789012:instance/i-a1b2c3d4e5f611111",
            "status": "Succeeded",
            "lifecycleEvents": [
                {
                    "status": "Succeeded",
                    "diagnostics": {
                        "errorCode": "Success",
                        "message": "Succeeded",
                        "logTail": "",
                        "scriptName": ""
                    },
                    "lifecycleEventName": "ApplicationStop",
                    "startTime": 1556918592.162,
                    "endTime": 1556918592.247
                },
                {
                    "status": "Succeeded",
                    "diagnostics": {
                        "errorCode": "Success",
                        "message": "Succeeded",
                        "logTail": "",
                        "scriptName": ""
                    },
                    "lifecycleEventName": "DownloadBundle",
                    "startTime": 1556918593.193,
                    "endTime": 1556918593.981
                },
                {
                    "status": "Succeeded",
                    "diagnostics": {
                        "errorCode": "Success",
                        "message": "Succeeded",
                        "logTail": "",
                        "scriptName": ""
                    },
                    "lifecycleEventName": "BeforeInstall",
                    "startTime": 1556918594.805,
                    "endTime": 1556918681.807
                },
                {
                    "status": "Succeeded",
                    "diagnostics": {
                        "errorCode": "Success",
                        "message": "Succeeded",
                        "logTail": "",
                        "scriptName": ""
                    },
                    "lifecycleEventName": "Install",
                    "startTime": 1556918682.696,
                    "endTime": 1556918683.005
                },
                {
                    "status": "Succeeded",
                    "diagnostics": {
                        "errorCode": "Success",
                        "message": "Succeeded",
                        "logTail": "",
                        "scriptName": ""
                    },
                    "lifecycleEventName": "AfterInstall",
                    "startTime": 1556918684.135,
                    "endTime": 1556918684.216
                },
                {
                    "status": "Succeeded",
                    "diagnostics": {
                        "errorCode": "Success",
                        "message": "Succeeded",
                        "logTail": "",
                        "scriptName": ""
                    },
                    "lifecycleEventName": "ApplicationStart",
                    "startTime": 1556918685.211,
                    "endTime": 1556918685.295
                },
                {
                    "status": "Succeeded",
                    "diagnostics": {
                        "errorCode": "Success",
                        "message": "Succeeded",
                        "logTail": "",
                        "scriptName": ""
                    },
                    "lifecycleEventName": "ValidateService",
                    "startTime": 1556918686.65,
                    "endTime": 1556918686.747
                }
            ],
            "deploymentId": "d-A1B2C3111"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [GetDeploymentTarget](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_GetDeploymentTarget.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [GetDeploymentTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/get-deployment-target.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment`
<a name="codedeploy_GetDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang penerapan**  
`get-deployment`Contoh berikut menampilkan informasi tentang penyebaran yang terkait dengan AWS akun pengguna.  

```
aws deploy get-deployment --deployment-id d-A1B2C3123
```
Output:  

```
{
    "deploymentInfo": {
        "applicationName": "WordPress_App",
        "status": "Succeeded",
        "deploymentOverview": {
            "Failed": 0,
            "InProgress": 0,
            "Skipped": 0,
            "Succeeded": 1,
            "Pending": 0
        },
        "deploymentConfigName": "CodeDeployDefault.OneAtATime",
        "creator": "user",
        "description": "My WordPress app deployment",
        "revision": {
            "revisionType": "S3",
            "s3Location":  {
            "bundleType": "zip",
            "eTag": "\"dd56cfdEXAMPLE8e768f9d77fEXAMPLE\"",
            "bucket": "amzn-s3-demo-bucket",
            "key": "WordPressApp.zip"
            }
        },
        "deploymentId": "d-A1B2C3123",
        "deploymentGroupName": "WordPress_DG",
        "createTime": 1409764576.589,
        "completeTime": 1409764596.101,
        "ignoreApplicationStopFailures": false
    }
}
```
+  Untuk detail API, lihat [GetDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/get-deployment.html)di *Referensi AWS CLI Perintah*. 

### `get-on-premises-instance`
<a name="codedeploy_GetOnPremisesInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-on-premises-instance`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang instans lokal**  
`get-on-premises-instance`Contoh berikut mengambil informasi tentang instans lokal yang ditentukan.  

```
aws deploy get-on-premises-instance --instance-name AssetTag12010298EX
```
Output:  

```
{
    "instanceInfo": {
    "iamUserArn": "arn:aws:iam::123456789012:user/AWS/CodeDeploy/AssetTag12010298EX",
        "tags": [
        {
            "Value": "CodeDeployDemo-OnPrem",
            "Key": "Name"
        }
        ],
        "instanceName": "AssetTag12010298EX",
        "registerTime": 1425579465.228,
        "instanceArn": "arn:aws:codedeploy:us-east-1:123456789012:instance/AssetTag12010298EX_4IwLNI2Alh"
    }
}
```
+  Untuk detail API, lihat [GetOnPremisesInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/get-on-premises-instance.html)di *Referensi AWS CLI Perintah*. 

### `install`
<a name="codedeploy_Install_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`install`.

**AWS CLI**  
**Untuk menginstal instans lokal**  
`install`Contoh berikut menyalin file konfigurasi lokal dari lokasi yang ditentukan pada instance ke lokasi pada instance yang diharapkan AWS CodeDeploy Agen untuk menemukannya. Itu juga menginstal AWS CodeDeploy Agen pada instance. Itu tidak membuat pengguna IAM apa pun, atau mendaftarkan instans lokal dengan AWS CodeDeploy, atau mengaitkan tag instans lokal apa pun AWS CodeDeploy untuk instance tersebut.  

```
aws deploy install \
    --override-config \
    --config-file C:\temp\codedeploy.onpremises.yml \
    --region us-west-2 \
    --agent-installer s3://aws-codedeploy-us-west-2/latest/codedeploy-agent.msi
```
Output:  

```
Creating the on-premises instance configuration file... DONE
Installing the AWS CodeDeploy Agent... DONE
```
+  Untuk detail API, lihat [Menginstal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/install.html) di *Referensi AWS CLI Perintah*. 

### `list-application-revisions`
<a name="codedeploy_ListApplicationRevisions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-application-revisions`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang revisi aplikasi**  
`list-application-revisions`Contoh berikut menampilkan informasi tentang semua revisi aplikasi yang terkait dengan aplikasi yang ditentukan.  

```
aws deploy list-application-revisions \
    --application-name WordPress_App \
    --s-3-bucket amzn-s3-demo-bucket \
    --deployed exclude \
    --s-3-key-prefix WordPress_ \
    --sort-by lastUsedTime \
    --sort-order descending
```
Output:  

```
{
    "revisions": [
        {
            "revisionType": "S3",
            "s3Location": {
                "version": "uTecLusvCB_JqHFXtfUcyfV8bEXAMPLE",
                "bucket": "amzn-s3-demo-bucket",
                "key": "WordPress_App.zip",
                "bundleType": "zip"
            }
        },
        {
            "revisionType": "S3",
            "s3Location": {
                "version": "tMk.UxgDpMEVb7V187ZM6wVAWEXAMPLE",
                "bucket": "amzn-s3-demo-bucket",
                "key": "WordPress_App_2-0.zip",
                "bundleType": "zip"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [ListApplicationRevisions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-application-revisions.html)di *Referensi AWS CLI Perintah*. 

### `list-applications`
<a name="codedeploy_ListApplications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-applications`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang aplikasi**  
`list-applications`Contoh berikut menampilkan informasi tentang semua aplikasi yang terkait dengan AWS akun pengguna.  

```
aws deploy list-applications
```
Output:  

```
{
    "applications": [
        "WordPress_App",
        "MyOther_App"
    ]
}
```
+  Untuk detail API, lihat [ListApplications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-applications.html)di *Referensi AWS CLI Perintah*. 

### `list-deployment-configs`
<a name="codedeploy_ListDeploymentConfigs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployment-configs`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang konfigurasi penerapan**  
`list-deployment-configs`Contoh berikut menampilkan informasi tentang semua konfigurasi penyebaran yang terkait dengan akun pengguna. AWS   

```
aws deploy list-deployment-configs
```
Output:  

```
{
    "deploymentConfigsList": [
        "ThreeQuartersHealthy",
        "CodeDeployDefault.AllAtOnce",
        "CodeDeployDefault.HalfAtATime",
        "CodeDeployDefault.OneAtATime"
    ]
}
```
+  Untuk detail API, lihat [ListDeploymentConfigs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-deployment-configs.html)di *Referensi AWS CLI Perintah*. 

### `list-deployment-groups`
<a name="codedeploy_ListDeploymentGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployment-groups`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang grup penyebaran**  
`list-deployment-groups`Contoh berikut menampilkan informasi tentang semua kelompok penyebaran yang terkait dengan aplikasi yang ditentukan.  

```
aws deploy list-deployment-groups --application-name WordPress_App
```
Output:  

```
{
    "applicationName": "WordPress_App",
    "deploymentGroups": [
        "WordPress_DG",
        "WordPress_Beta_DG"
    ]
}
```
+  Untuk detail API, lihat [ListDeploymentGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-deployment-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-deployment-instances`
<a name="codedeploy_ListDeploymentInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployment-instances`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang instance penerapan**  
`list-deployment-instances`Contoh berikut menampilkan informasi tentang semua instance penerapan yang terkait dengan penerapan yang ditentukan.  

```
aws deploy list-deployment-instances \
    --deployment-id d-A1B2C3111 \
    --instance-status-filter Succeeded
```
Output:  

```
{
    "instancesList": [
        "i-EXAMPLE11",
        "i-EXAMPLE22"
    ]
}
```
+  Untuk detail API, lihat [ListDeploymentInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-deployment-instances.html)di *Referensi AWS CLI Perintah*. 

### `list-deployment-targets`
<a name="codedeploy_ListDeploymentTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployment-targets`.

**AWS CLI**  
**Untuk mengambil daftar target IDs yang terkait dengan penerapan**  
`list-deployment-targets`Contoh berikut mengambil daftar target yang IDs terkait dengan penerapan yang memiliki status “Gagal” atau “.” InProgress  

```
aws deploy list-deployment-targets \
    --deployment-id "d-A1B2C3111" \
    --target-filters "{\"TargetStatus\":[\"Failed\",\"InProgress\"]}"
```
Output:  

```
{
    "targetIds": [
        "i-0f1558aaf90e5f1f9"
    ]
}
```
Untuk informasi selengkapnya, lihat [ListDeploymentTargets](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_ListDeploymentTargets.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [ListDeploymentTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-deployment-targets.html)di *Referensi AWS CLI Perintah*. 

### `list-deployments`
<a name="codedeploy_ListDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployments`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang penerapan**  
`list-deployments`Contoh berikut menampilkan informasi tentang semua penerapan yang terkait dengan kelompok aplikasi dan penyebaran yang ditentukan.  

```
aws deploy list-deployments \
    --application-name WordPress_App \
    --create-time-range start=2014-08-19T00:00:00,end=2014-08-20T00:00:00 \
    --deployment-group-name WordPress_DG \
    --include-only-statuses Failed
```
Output:  

```
{
    "deployments": [
        "d-EXAMPLE11",
        "d-EXAMPLE22",
        "d-EXAMPLE33"
    ]
}
```
+  Untuk detail API, lihat [ListDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-deployments.html)di *Referensi AWS CLI Perintah*. 

### `list-git-hub-account-token-names`
<a name="codedeploy_ListGitHubAccountTokenNames_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-git-hub-account-token-names`.

**AWS CLI**  
**Untuk mencantumkan nama koneksi tersimpan ke GitHub akun**  
`list-git-hub-account-token-names`Contoh berikut mencantumkan nama-nama koneksi yang disimpan ke GitHub akun untuk AWS pengguna saat ini.  

```
aws deploy list-git-hub-account-token-names
```
Output:  

```
{
    "tokenNameList": [
        "my-first-token",
        "my-second-token",
        "my-third-token"
    ]
}
```
Untuk informasi selengkapnya, lihat [ListGitHubAccountTokenNames](https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_ListGitHubAccountTokenNames.html) di dalam *Referensi API AWS CodeDeploy *.   
+  Untuk detail API, lihat [ListGitHubAccountTokenNames](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-git-hub-account-token-names.html)di *Referensi AWS CLI Perintah*. 

### `list-on-premises-instances`
<a name="codedeploy_ListOnPremisesInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-on-premises-instances`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang satu atau beberapa instans lokal**  
`list-on-premises-instances`Contoh berikut mengambil daftar nama instans lokal yang tersedia untuk instance yang terdaftar AWS CodeDeploy dan juga memiliki tag instans lokal tertentu yang terkait dengan instans. AWS CodeDeploy   

```
aws deploy list-on-premises-instances \
    --registration-status Registered \
    --tag-filters Key=Name,Value=CodeDeployDemo-OnPrem,Type=KEY_AND_VALUE
```
Output:  

```
{
    "instanceNames": [
        "AssetTag12010298EX"
    ]
}
```
+  Untuk detail API, lihat [ListOnPremisesInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-on-premises-instances.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="codedeploy_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag untuk sumber daya (aplikasi)**  
`list-tags-for-resource`Contoh berikut mencantumkan tag yang diterapkan ke aplikasi bernama TestApp di CodeDeploy.  

```
aws deploy list-tags-for-resource \
    --resource-arn arn:aws:codedeploy:us-west-2:111122223333:application:testApp
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Type",
            "Value": "testType"
        },
        {
            "Key": "Name",
            "Value": "testName"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menandai instance untuk grup penerapan CodeDeploy di Panduan](https://docs.aws.amazon.com/codedeploy/latest/userguide/instances-tagging.html) Pengguna.AWS CodeDeploy *  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `push`
<a name="codedeploy_Push_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`push`.

**AWS CLI**  
**Untuk menggabungkan dan menerapkan revisi aplikasi yang AWS CodeDeploy kompatibel ke Amazon S3**  
`push`Contoh berikut bundel dan menyebarkan revisi aplikasi ke Amazon S3 dan kemudian mengaitkan revisi aplikasi dengan aplikasi yang ditentukan.  

```
aws deploy push \
    --application-name WordPress_App \
    --description "This is my deployment" \
    --ignore-hidden-files \
    --s3-location s3://amzn-s3-demo-bucket/WordPressApp.zip \
    --source /tmp/MyLocalDeploymentFolder/
```
Output menjelaskan cara menggunakan `create-deployment` perintah untuk membuat penyebaran yang menggunakan revisi aplikasi yang diunggah.  

```
To deploy with this revision, run:
aws deploy create-deployment --application-name WordPress_App --deployment-config-name <deployment-config-name> --deployment-group-name <deployment-group-name> --s3-location bucket=amzn-s3-demo-bucket,key=WordPressApp.zip,bundleType=zip,eTag="cecc9b8EXAMPLE50a6e71fdb88EXAMPLE",version=LFsJAUdEXAMPLEfvKtvi79L8EXAMPLE
```
+  Untuk detail API, lihat [Push](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/push.html) in *AWS CLI Command Reference*. 

### `register-application-revision`
<a name="codedeploy_RegisterApplicationRevision_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-application-revision`.

**AWS CLI**  
**Untuk mendaftarkan informasi tentang revisi aplikasi yang sudah diunggah**  
`register-application-revision`Contoh berikut mendaftarkan informasi tentang revisi aplikasi yang sudah diunggah yang disimpan di Amazon S3 dengan. AWS CodeDeploy  

```
aws deploy register-application-revision \
    --application-name WordPress_App \
    --description "Revised WordPress application" \
    --s3-location bucket=amzn-s3-demo-bucket,key=RevisedWordPressApp.zip,bundleType=zip,eTag=cecc9b8a08eac650a6e71fdb88EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [RegisterApplicationRevision](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/register-application-revision.html)di *Referensi AWS CLI Perintah*. 

### `register-on-premises-instance`
<a name="codedeploy_RegisterOnPremisesInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-on-premises-instance`.

**AWS CLI**  
**Untuk mendaftarkan instans lokal**  
`register-on-premises-instance`Contoh berikut mendaftarkan instance lokal dengan. AWS CodeDeploy Itu tidak membuat pengguna IAM yang ditentukan, juga tidak mengaitkan tag instance lokal dengan instance terdaftar. AWS CodeDeploy   

```
aws deploy register-on-premises-instance \
    --instance-name AssetTag12010298EX \
    --iam-user-arn arn:aws:iam::80398EXAMPLE:user/CodeDeployDemoUser-OnPrem
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [RegisterOnPremisesInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/register-on-premises-instance.html)di *Referensi AWS CLI Perintah*. 

### `register`
<a name="codedeploy_Register_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register`.

**AWS CLI**  
**Untuk mendaftarkan instans lokal**  
`register`Contoh berikut mendaftarkan instance lokal dengan AWS CodeDeploy, mengaitkan tag instans lokal AWS CodeDeploy yang ditentukan dengan instans terdaftar, dan membuat file konfigurasi lokal yang dapat disalin ke instans. Itu tidak membuat pengguna IAM, juga tidak menginstal AWS CodeDeploy Agen pada instance.  

```
aws deploy register \
    --instance-name AssetTag12010298EX \
    --iam-user-arn arn:aws:iam::80398EXAMPLE:user/CodeDeployUser-OnPrem \
    --tags Key=Name,Value=CodeDeployDemo-OnPrem \
    --region us-west-2
```
Output:  

```
Registering the on-premises instance... DONE
Adding tags to the on-premises instance... DONE
Copy the on-premises configuration file named codedeploy.onpremises.yml to the on-premises instance, and run the following command on the on-premises instance to install and configure the AWS CodeDeploy Agent:
aws deploy install --config-file codedeploy.onpremises.yml
```
+  Untuk detail API, lihat [Mendaftar](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/register.html) di *Referensi AWS CLI Perintah*. 

### `remove-tags-from-on-premises-instances`
<a name="codedeploy_RemoveTagsFromOnPremisesInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags-from-on-premises-instances`.

**AWS CLI**  
**Untuk menghapus tag dari satu atau beberapa instance lokal**  
`remove-tags-from-on-premises-instances`Contoh berikut memisahkan tag lokal yang ditentukan AWS CodeDeploy dari instance lokal. Itu tidak membatalkan pendaftaran instans lokal di AWS CodeDeploy, atau menghapus Instans dari instans, AWS CodeDeploy atau menghapus file konfigurasi lokal dari instance, atau menghapus pengguna IAM yang terkait dengan instans.  

```
aws deploy remove-tags-from-on-premises-instances \
    --instance-names AssetTag12010298EX AssetTag23121309EX \
    --tags Key=Name,Value=CodeDeployDemo-OnPrem
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [RemoveTagsFromOnPremisesInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/remove-tags-from-on-premises-instances.html)di *Referensi AWS CLI Perintah*. 

### `stop-deployment`
<a name="codedeploy_StopDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-deployment`.

**AWS CLI**  
**Untuk mencoba menghentikan penerapan**  
`stop-deployment`Contoh berikut mencoba menghentikan penerapan yang sedang berlangsung yang terkait dengan akun pengguna. AWS   
aws menyebarkan stop-deployment --deployment-id d-A1b2c3111  
Output:  

```
{
    "status": "Succeeded",
    "statusMessage": "No more commands will be scheduled for execution in the deployment instances"
}
```
+  Untuk detail API, lihat [StopDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/stop-deployment.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="codedeploy_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya (aplikasi)**  
`tag-resource`Contoh berikut menambahkan dua tag dengan kunci Nama dan Jenis, dan nilai testName dan testType ke aplikasi bernama TestApp di. CodeDeploy :  

```
aws deploy tag-resource \
    --resource-arn  arn:aws:codedeploy:us-west-2:111122223333:application:testApp \
    --tags Key=Name,Value=testName Key=Type,Value=testType
```
Jika berhasil, perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menandai instance untuk grup penerapan CodeDeploy di Panduan](https://docs.aws.amazon.com/codedeploy/latest/userguide/instances-tagging.html) Pengguna.AWS CodeDeploy *  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `uninstall`
<a name="codedeploy_Uninstall_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`uninstall`.

**AWS CLI**  
**Untuk menghapus instans lokal**  
`uninstall`Contoh berikut menghapus instalan AWS CodeDeploy Agen dari instans lokal dan menghapus file konfigurasi lokal dari instance. Itu tidak membatalkan pendaftaran instance AWS CodeDeploy, atau memisahkan tag instans lokal apa pun AWS CodeDeploy dari instance, atau menghapus pengguna IAM yang terkait dengan instance.  

```
aws deploy uninstall
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [Menghapus instalan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/uninstall.html) di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="codedeploy_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya (aplikasi)**  
`untag-resource`Contoh berikut menghapus dua tag dengan kunci Nama dan Jenis dari aplikasi bernama TestApp di CodeDeploy.  

```
aws deploy untag-resource \
    --resource-arn  arn:aws:codedeploy:us-west-2:111122223333:application:testApp \
    --tag-keys Name Type
```
Jika berhasil, perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menandai instance untuk grup penerapan CodeDeploy di Panduan](https://docs.aws.amazon.com/codedeploy/latest/userguide/instances-tagging.html) Pengguna.AWS CodeDeploy *  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-application`
<a name="codedeploy_UpdateApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-application`.

**AWS CLI**  
**Untuk mengubah detail aplikasi**  
`update-application`Contoh berikut mengubah nama aplikasi yang dikaitkan dengan AWS akun pengguna.  

```
aws deploy update-application \
    --application-name WordPress_App \
    --new-application-name My_WordPress_App
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdateApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/update-application.html)di *Referensi AWS CLI Perintah*. 

### `update-deployment-group`
<a name="codedeploy_UpdateDeploymentGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-deployment-group`.

**AWS CLI**  
**Untuk mengubah informasi tentang grup penyebaran**  
`update-deployment-group`Contoh berikut mengubah pengaturan grup penyebaran yang terkait dengan aplikasi yang ditentukan.  

```
aws deploy update-deployment-group \
    --application-name WordPress_App \
    --auto-scaling-groups My_CodeDeployDemo_ASG \
    --current-deployment-group-name WordPress_DG \
    --deployment-config-name CodeDeployDefault.AllAtOnce \
    --ec2-tag-filters Key=Name,Type=KEY_AND_VALUE,Value=My_CodeDeployDemo \
    --new-deployment-group-name My_WordPress_DepGroup \
    --service-role-arn arn:aws:iam::80398EXAMPLE:role/CodeDeployDemo-2
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdateDeploymentGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/deploy/update-deployment-group.html)di *Referensi AWS CLI Perintah*. 

# CodeGuru Contoh reviewer menggunakan AWS CLI
<a name="cli_2_codeguru-reviewer_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With CodeGuru Reviewer.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-repository`
<a name="codeguru-reviewer_AssociateRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-repository`.

**AWS CLI**  
**Contoh 1: Untuk membuat asosiasi repositori Bitbucket**  
`associate-repository`Contoh berikut membuat asosiasi repositori menggunakan repositori Bitbucket yang ada.  

```
aws codeguru-reviewer associate-repository \
    --repository 'Bitbucket={Owner=sample-owner, Name=mySampleRepo, ConnectionArn=arn:aws:codestar-connections:us-west-2:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 }'
```
Output:  

```
{
    "RepositoryAssociation": {
        "ProviderType": "Bitbucket",
        "Name": "mySampleRepo",
        "LastUpdatedTimeStamp": 1596216896.979,
        "AssociationId": "association:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "CreatedTimeStamp": 1596216896.979,
        "ConnectionArn": "arn:aws:codestar-connections:us-west-2:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "State": "Associating",
        "StateReason": "Pending Repository Association",
        "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "Owner": "sample-owner"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat asosiasi repositori Bitbucket di Amazon CodeGuru Reviewer di Panduan Pengguna](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/create-bitbucket-association.html) *Amazon CodeGuru * Reviewer.  
**Contoh 2: Untuk membuat asosiasi repositori GitHub Enterprise**  
`associate-repository`Contoh berikut membuat asosiasi repositori menggunakan repositori GitHub Enterprise yang ada.  

```
aws codeguru-reviewer associate-repository \
    --repository 'GitHubEnterpriseServer={Owner=sample-owner, Name=mySampleRepo, ConnectionArn=arn:aws:codestar-connections:us-west-2:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 }'
```
Output:  

```
{
    "RepositoryAssociation": {
        "ProviderType": "GitHubEnterpriseServer",
        "Name": "mySampleRepo",
        "LastUpdatedTimeStamp": 1596216896.979,
        "AssociationId": "association:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "CreatedTimeStamp": 1596216896.979,
        "ConnectionArn": "arn:aws:codestar-connections:us-west-2:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "State": "Associating",
        "StateReason": "Pending Repository Association",
        "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "Owner": "sample-owner"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat asosiasi repositori Server GitHub Perusahaan di Amazon CodeGuru Reviewer](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/create-github-enterprise-association.html) di Panduan Pengguna *Amazon Codeguru* Reviewer.  
**Contoh 3: Untuk membuat asosiasi AWS CodeCommit repositori**  
`associate-repository`Contoh berikut membuat asosiasi repositori menggunakan repositori yang ada AWS CodeCommit .  

```
aws codeguru-reviewer associate-repository \
    --repository CodeCommit={Name=mySampleRepo}
```
Output:  

```
{
    "RepositoryAssociation": {
        "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Name": "My-ecs-beta-repo",
        "LastUpdatedTimeStamp": 1595634764.029,
        "ProviderType": "CodeCommit",
        "CreatedTimeStamp": 1595634764.029,
        "Owner": "544120495673",
        "State": "Associating",
        "StateReason": "Pending Repository Association",
        "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:544120495673:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat asosiasi AWS CodeCommit repositori di Amazon CodeGuru Reviewer di Panduan](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/create-codecommit-association.html) Pengguna *Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [AssociateRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/associate-repository.html)di *Referensi AWS CLI Perintah*. 

### `create-code-review`
<a name="codeguru-reviewer_CreateCodeReview_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-code-review`.

**AWS CLI**  
**Untuk membuat tinjauan kode.**  
Berikut ini `create-code-review` membuat review kode di `mainline` cabang AWS CodeCommit repositori yang diberi nama. `my-repository-name`  

```
aws codeguru-reviewer create-code-review \
    --name my-code-review \
    --repository-association-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --type '{"RepositoryAnalysis": {"RepositoryHead": {"BranchName": "mainline"}}}'
```
Output:  

```
{
    "CodeReview": {
        "Name": "my-code-review",
        "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222:code-review:RepositoryAnalysis-my-code-review",
        "RepositoryName": "my-repository-name",
        "Owner": "123456789012",
        "ProviderType": "CodeCommit",
        "State": "Pending",
        "StateReason": "CodeGuru Reviewer has received the request, and a code review is scheduled.",
        "CreatedTimeStamp": 1618873489.195,
        "LastUpdatedTimeStamp": 1618873489.195,
        "Type": "RepositoryAnalysis",
        "SourceCodeType": {
            "RepositoryHead": {
                "BranchName": "mainline"
            }
        },
        "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat ulasan kode di Amazon CodeGuru Reviewer](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/create-code-reviews.html) di *Panduan Pengguna Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [CreateCodeReview](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/create-code-review.html)di *Referensi AWS CLI Perintah*. 

### `describe-code-review`
<a name="codeguru-reviewer_DescribeCodeReview_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-code-review`.

**AWS CLI**  
**Daftar detail tentang tinjauan kode.**  
Berikut ini `describe-code-review` mencantumkan informasi tentang peninjauan kode di cabang “mainline” dari AWS CodeCommit repositori yang diberi nama "”. my-repo-name  

```
aws codeguru-reviewer put-recommendation-feedback \
    --code-review-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:code-review:RepositoryAnalysis-my-repository-name-branch-abcdefgh12345678 \
    --recommendation-id 3be1b2e5d7ef6e298a06499379ee290c9c596cf688fdcadb08285ddb0dd390eb \
    --reactions ThumbsUp
```
Output  

```
{
        "CodeReview": {
            "Name": "My-ecs-beta-repo-master-xs6di4kfd4j269dz",
            "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222:code-review:RepositoryAnalysis-my-repo-name",
            "RepositoryName": "My-ecs-beta-repo",
            "Owner": "123456789012",
            "ProviderType": "CodeCommit",
            "State": "Pending",
            "StateReason": "CodeGuru Reviewer is reviewing the source code.",
            "CreatedTimeStamp": 1618874226.226,
            "LastUpdatedTimeStamp": 1618874233.689,
            "Type": "RepositoryAnalysis",
            "SourceCodeType": {
                "RepositoryHead": {
                    "BranchName": "mainline"
                }
            },
            "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
        }
    }
```
Untuk informasi selengkapnya, [lihat Melihat detail ulasan kode](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/view-code-review-details.html) di *Panduan Pengguna Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [DescribeCodeReview](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/describe-code-review.html)di *Referensi AWS CLI Perintah*. 

### `describe-recommendation-feedback`
<a name="codeguru-reviewer_DescribeRecommendationFeedback_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-recommendation-feedback`.

**AWS CLI**  
**Untuk melihat informasi tentang umpan balik pada rekomendasi**  
Berikut ini `describe-recommendation-feedback` menampilkan informasi tentang umpan balik pada rekomendasi. Rekomendasi ini memiliki satu `ThumbsUp` reaksi.  

```
aws codeguru-reviewer describe-recommendation-feedback \
    --code-review-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:code-review:RepositoryAnalysis-my-repository-name-branch-abcdefgh12345678 \
    --recommendation-id 3be1b2e5d7ef6e298a06499379ee290c9c596cf688fdcadb08285ddb0dd390eb
```
Output:  

```
{
    "RecommendationFeedback": {
        "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:code-review:RepositoryAnalysis-my-repository-name-branch-abcdefgh12345678",
        "RecommendationId": "3be1b2e5d7ef6e298a06499379ee290c9c596cf688fdcadb08285ddb0dd390eb",
        "Reactions": [
            "ThumbsUp"
        ],
        "UserId": "aws-user-id",
        "CreatedTimeStamp": 1618877070.313,
        "LastUpdatedTimeStamp": 1618877948.881
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat rekomendasi dan memberikan umpan balik](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/give-feedback-from-code-review-details.html) dan [Langkah 4: Memberikan umpan balik](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/provide-feedback.html) di *Panduan Pengguna Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [DescribeRecommendationFeedback](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/describe-recommendation-feedback.html)di *Referensi AWS CLI Perintah*. 

### `describe-repository-association`
<a name="codeguru-reviewer_DescribeRepositoryAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-repository-association`.

**AWS CLI**  
**Contoh 1: Untuk mengembalikan informasi tentang asosiasi GitHub repositori**  
`describe-repository-association`Contoh berikut mengembalikan informasi tentang asosiasi repositori yang menggunakan repositori GitHub Enterprise dan berada dalam keadaan. `Associated`  

```
aws codeguru-reviewer describe-repository-association \
    --association-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "RepositoryAssociation": {
        "AssociationId": "b822717e-0711-4e8a-bada-0e738289c75e",
        "Name": "mySampleRepo",
        "LastUpdatedTimeStamp": 1588102637.649,
        "ProviderType": "GitHub",
        "CreatedTimeStamp": 1588102615.636,
        "Owner": "sample-owner",
        "State": "Associated",
        "StateReason": "Pull Request Notification configuration successful",
        "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat asosiasi repositori Server GitHub Perusahaan di Amazon CodeGuru Reviewer di Panduan](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/create-github-enterprise-association.html) Pengguna *Amazon CodeGuru Reviewer*.  
**Contoh 2: Untuk mengembalikan informasi tentang asosiasi repositori yang gagal**  
`describe-repository-association`Contoh berikut mengembalikan informasi tentang asosiasi repositori yang menggunakan repositori GitHub Enterprise dan berada dalam keadaan. `Failed`  

```
aws codeguru-reviewer describe-repository-association \
    --association-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "RepositoryAssociation": {
        "ProviderType": "GitHubEnterpriseServer",
        "Name": "mySampleRepo",
        "LastUpdatedTimeStamp": 1596217036.892,
        "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "CreatedTimeStamp": 1596216896.979,
        "ConnectionArn": "arn:aws:codestar-connections:us-west-2:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "State": "Failed",
        "StateReason": "Failed, Please retry.",
        "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
        "Owner": "sample-owner"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat asosiasi repositori Server GitHub Perusahaan di Amazon CodeGuru Reviewer di Panduan](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/create-github-enterprise-association.html) Pengguna *Amazon CodeGuru Reviewer*.  
**Contoh 3: Untuk mengembalikan informasi tentang asosiasi repositori disasosiasi**  
`describe-repository-association`Contoh berikut mengembalikan informasi tentang asosiasi repositori yang menggunakan repositori GitHub Enterprise dan berada dalam keadaan. `Disassociating`  

```
aws codeguru-reviewer describe-repository-association \
    --association-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "RepositoryAssociation": {
        "ProviderType": "GitHubEnterpriseServer",
        "Name": "mySampleRepo",
        "LastUpdatedTimeStamp": 1596217036.892,
        "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "CreatedTimeStamp": 1596216896.979,
        "ConnectionArn": "arn:aws:codestar-connections:us-west-2:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "State": "Disassociating",
        "StateReason": "Source code access removal in progress",
        "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
        "Owner": "sample-owner"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat asosiasi repositori Server GitHub Perusahaan di Amazon CodeGuru Reviewer di Panduan](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/create-github-enterprise-association.html) Pengguna *Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [DescribeRepositoryAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/describe-repository-association.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-repository`
<a name="codeguru-reviewer_DisassociateRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-repository`.

**AWS CLI**  
**Untuk memisahkan asosiasi repositori**  
Berikut ini `disassociate-repository` memisahkan asosiasi repositori yang menggunakan repositori. AWS CodeCommit   

```
aws codeguru-reviewer disassociate-repository \
    --association-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "RepositoryAssociation": {
        "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Name": "my-repository",
        "Owner": "123456789012",
        "ProviderType": "CodeCommit",
        "State": "Disassociating",
        "LastUpdatedTimeStamp": 1618939174.759,
        "CreatedTimeStamp": 1595636947.096
    },
    "Tags": {
        "Status": "Secret",
        "Team": "Saanvi"
    }
}
```
Untuk informasi selengkapnya, lihat [Memutuskan repositori di CodeGuru Reviewer di Panduan Pengguna](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/disassociate-repository-association.html) *Amazon CodeGuru * Reviewer.  
+  Untuk detail API, lihat [DisassociateRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/disassociate-repository.html)di *Referensi AWS CLI Perintah*. 

### `list-code-reviews`
<a name="codeguru-reviewer_ListCodeReviews_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-code-reviews`.

**AWS CLI**  
**Untuk membuat daftar ulasan kode yang dibuat di AWS akun Anda dalam 90 hari terakhir.**  
`list-code-reviews`Contoh berikut mencantumkan ulasan kode yang dibuat dalam 90 hari terakhir menggunakan permintaan tarik.  

```
aws codeguru-reviewer list-code-reviews \
    --type PullRequest
```
Output:  

```
{
    "CodeReviewSummaries": [
        {
            "LastUpdatedTimeStamp": 1588897288.054,
            "Name": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "ProviderType": "GitHub",
            "PullRequestId": "5",
            "MetricsSummary": {
                "MeteredLinesOfCodeCount": 24,
                "FindingsCount": 1
            },
            "CreatedTimeStamp": 1588897068.512,
            "State": "Completed",
            "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:code-review:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Owner": "sample-owner",
            "RepositoryName": "sample-repository-name",
            "Type": "PullRequest"
        },
        {
            "LastUpdatedTimeStamp": 1588869793.263,
            "Name": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "ProviderType": "GitHub",
            "PullRequestId": "4",
            "MetricsSummary": {
                "MeteredLinesOfCodeCount": 29,
                "FindingsCount": 0
            },
            "CreatedTimeStamp": 1588869575.949,
            "State": "Completed",
            "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:code-review:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "Owner": "sample-owner",
            "RepositoryName": "sample-repository-name",
            "Type": "PullRequest"
        },
        {
            "LastUpdatedTimeStamp": 1588870511.211,
            "Name": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "ProviderType": "GitHub",
            "PullRequestId": "4",
            "MetricsSummary": {
                "MeteredLinesOfCodeCount": 2,
                "FindingsCount": 0
            },
            "CreatedTimeStamp": 1588870292.425,
            "State": "Completed",
            "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:code-review:a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "Owner": "sample-owner",
            "RepositoryName": "sample-repository-name",
            "Type": "PullRequest"
        },
        {
            "LastUpdatedTimeStamp": 1588118522.452,
            "Name": "a1b2c3d4-5678-90ab-cdef-EXAMPLE44444",
            "ProviderType": "GitHub",
            "PullRequestId": "3",
            "MetricsSummary": {
                "MeteredLinesOfCodeCount": 29,
                "FindingsCount": 0
            },
            "CreatedTimeStamp": 1588118301.131,
            "State": "Completed",
            "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:code-review:a1b2c3d4-5678-90ab-cdef-EXAMPLE44444",
            "Owner": "sample-owner",
            "RepositoryName": "sample-repository-name",
            "Type": "PullRequest"
        },
        {
            "LastUpdatedTimeStamp": 1588112205.207,
            "Name": "a1b2c3d4-5678-90ab-cdef-EXAMPLE55555",
            "ProviderType": "GitHub",
            "PullRequestId": "2",
            "MetricsSummary": {
                "MeteredLinesOfCodeCount": 25,
                "FindingsCount": 0
            },
            "CreatedTimeStamp": 1588111987.443,
            "State": "Completed",
            "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:code-review:a1b2c3d4-5678-90ab-cdef-EXAMPLE55555",
            "Owner": "sample-owner",
            "RepositoryName": "sample-repository-name",
            "Type": "PullRequest"
        },
        {
            "LastUpdatedTimeStamp": 1588104489.981,
            "Name": "a1b2c3d4-5678-90ab-cdef-EXAMPLE66666",
            "ProviderType": "GitHub",
            "PullRequestId": "1",
            "MetricsSummary": {
                "MeteredLinesOfCodeCount": 25,
                "FindingsCount": 0
            },
            "CreatedTimeStamp": 1588104270.223,
            "State": "Completed",
            "CodeReviewArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:code-review:a1b2c3d4-5678-90ab-cdef-EXAMPLE66666",
            "Owner": "sample-owner",
            "RepositoryName": "sample-repository-name",
            "Type": "PullRequest"
        }
    ]
}
```
Untuk informasi selengkapnya, [lihat Melihat semua ulasan kode](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/view-all-code-reviews.html) di *Panduan Pengguna Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [ListCodeReviews](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/list-code-reviews.html)di *Referensi AWS CLI Perintah*. 

### `list-recommendation-feedback`
<a name="codeguru-reviewer_ListRecommendationFeedback_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-recommendation-feedback`.

**AWS CLI**  
**Untuk membuat daftar umpan balik rekomendasi pelanggan untuk rekomendasi pada repositori terkait**  
Berikut ini `list-recommendation-feedback` mencantumkan umpan balik pelanggan tentang semua rekomendasi pada tinjauan kode. Ulasan kode ini memiliki satu umpan balik, "ThumbsUp“, dari pelanggan.  

```
aws codeguru-reviewer list-recommendation-feedback \
    --code-review-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:code-review:RepositoryAnalysis-my-repository-name-branch-abcdefgh12345678
```
Output:  

```
{
    "RecommendationFeedbackSummaries": [
        {
            "RecommendationId": "3be1b2e5d7ef6e298a06499379ee290c9c596cf688fdcadb08285ddb0dd390eb",
            "Reactions": [
                "ThumbsUp"
            ],
            "UserId": "aws-user-id"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Langkah 4: Memberikan masukan](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/provide-feedback.html) di *Panduan Pengguna Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [ListRecommendationFeedback](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/list-recommendation-feedback.html)di *Referensi AWS CLI Perintah*. 

### `list-recommendations`
<a name="codeguru-reviewer_ListRecommendations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-recommendations`.

**AWS CLI**  
**Untuk membuat daftar rekomendasi untuk peninjauan kode yang lengkap**  
`list-recommendations`Contoh berikut mencantumkan rekomendasi untuk tinjauan kode yang lengkap. Ulasan kode ini memiliki satu rekomendasi.  

```
aws codeguru-reviewer list-recommendations \
    --code-review-arn arn:aws:codeguru-reviewer:us-west-2:544120495673:code-review:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "RecommendationSummaries": [
        {
            "Description": "\n\n**Problem**  \n You are using a `ConcurrentHashMap`, but your usage of `containsKey()` and `get()` may not be thread-safe at lines: **63 and 64**. In between the check and the `get()` another thread can remove the key and the `get()` will return `null`. The remove that can remove the key is at line: **59**.\n\n**Fix**  \n Consider calling `get()`, checking instead of your current check if the returned object is `null`, and then using that object only, without calling `get()` again.\n\n**More info**  \n [View an example on GitHub](https://github.com/apache/hadoop/blob/f16cf877e565084c66bc63605659b157c4394dc8/hadoop-tools/hadoop-aws/src/main/java/org/apache/hadoop/fs/s3a/s3guard/S3Guard.java#L302-L304) (external link).",
            "RecommendationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "StartLine": 63,
            "EndLine": 64,
            "FilePath": "src/main/java/com/company/sample/application/CreateOrderThread.java"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Langkah 4: Memberikan masukan](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/provide-feedback.html) di *Panduan Pengguna Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [ListRecommendations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/list-recommendations.html)di *Referensi AWS CLI Perintah*. 

### `list-repository-associations`
<a name="codeguru-reviewer_ListRepositoryAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-repository-associations`.

**AWS CLI**  
**Untuk membuat daftar asosiasi repositori di akun Anda AWS **  
`list-repository-associations`Contoh berikut mengembalikan daftar objek ringkasan asosiasi repositori di akun Anda. Anda dapat memfilter daftar yang dikembalikan dengan`ProviderType`,`Name`,`State`, dan`Owner`.  

```
aws codeguru-reviewer list-repository-associations
```
Output:  

```
{
    "RepositoryAssociationSummaries": [
        {
            "LastUpdatedTimeStamp": 1595886609.616,
            "Name": "test",
            "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Owner": "sample-owner",
            "State": "Associated",
            "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "ProviderType": "Bitbucket"
        },
        {
            "LastUpdatedTimeStamp": 1595636969.035,
            "Name": "CodeDeploy-CodePipeline-ECS-Tutorial",
            "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "Owner": "123456789012",
            "State": "Associated",
            "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "ProviderType": "CodeCommit"
        },
        {
            "LastUpdatedTimeStamp": 1595634785.983,
            "Name": "My-ecs-beta-repo",
            "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "Owner": "123456789012",
            "State": "Associated",
            "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "ProviderType": "CodeCommit"
        },
        {
            "LastUpdatedTimeStamp": 1590712811.77,
            "Name": "MyTestCodeCommit",
            "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE44444",
            "Owner": "123456789012",
            "State": "Associated",
            "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE44444",
            "ProviderType": "CodeCommit"
        },
        {
            "LastUpdatedTimeStamp": 1588102637.649,
            "Name": "aws-codeguru-profiler-sample-application",
            "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE55555",
            "Owner": "sample-owner",
            "State": "Associated",
            "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE55555",
            "ProviderType": "GitHub"
        },
        {
            "LastUpdatedTimeStamp": 1588028233.995,
            "Name": "codeguru-profiler-demo-app",
            "AssociationId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE66666",
            "Owner": "sample-owner",
            "State": "Associated",
            "AssociationArn": "arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE66666",
            "ProviderType": "GitHub"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat semua asosiasi repositori di CodeGuru Reviewer di Panduan](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/repository-association-view-all.html) Pengguna *Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [ListRepositoryAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/list-repository-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="codeguru-reviewer_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag pada repositori terkait**  
Berikut ini `list-tags-for-resource` mencantumkan tag pada repositori terkait. Repositori terkait ini memiliki dua tag.  

```
aws codeguru-reviewer list-tags-for-resource \
    --resource-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "Tags": {
        "Status": "Secret",
        "Team": "Saanvi"
    }
}
```
*Untuk informasi selengkapnya, lihat [Melihat tag untuk CodeGuru repositori terkait Reviewer (AWS CLI) di](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/how-to-tag-associated-repository-view-cli.html) Panduan Pengguna Amazon Reviewer. CodeGuru *  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-recommendation-feedback`
<a name="codeguru-reviewer_PutRecommendationFeedback_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-recommendation-feedback`.

**AWS CLI**  
**Untuk menambahkan rekomendasi ke tinjauan kode**  
Berikut ini `put-recommendation-feedback` menempatkan `ThumbsUp` rekomendasi pada tinjauan kode.  

```
aws codeguru-reviewer put-recommendation-feedback \
    --code-review-arn \arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:code-review:RepositoryAnalysis-my-repository-name-branch-abcdefgh12345678 \
    --recommendation-id 3be1b2e5d7ef6e298a06499379ee290c9c596cf688fdcadb08285ddb0dd390eb \
    --reactions ThumbsUp
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 4: Memberikan masukan](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/provide-feedback.html) di *Panduan Pengguna Amazon CodeGuru Reviewer*.  
+  Untuk detail API, lihat [PutRecommendationFeedback](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/put-recommendation-feedback.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="codeguru-reviewer_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke repositori terkait**  
Berikut ini `tag-resource` menambahkan dua tag ke repositori terkait  

```
aws codeguru-reviewer tag-resource \
    --resource-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --tags Status=Secret,Team=Saanvi
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menambahkan tag ke CodeGuru repositori terkait Reviewer (AWS CLI)](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/how-to-tag-associated-repository-add-cli.html) dan [Menambahkan atau memperbarui tag untuk repositori terkait CodeGuru Reviewer (AWS CLI) di Panduan Pengguna Amazon Reviewer](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/how-to-tag-associated-repository-update-cli.html). CodeGuru *  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="codeguru-reviewer_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag repositori terkait**  
Berikut ini `untag-resource` menghapus dua tag dengan kunci “Rahasia” dan “Tim” dari repositori terkait.  

```
aws codeguru-reviewer untag-resource \
    --resource-arn arn:aws:codeguru-reviewer:us-west-2:123456789012:association:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --tag-keys Status Team
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghapus tag dari CodeGuru repositori terkait Reviewer (AWS CLI) di](https://docs.aws.amazon.com/codeguru/latest/reviewer-ug/how-to-tag-associated-repository-remove-cli.html) Panduan Pengguna Amazon Reviewer. CodeGuru *  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codeguru-reviewer/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# CodePipeline contoh menggunakan AWS CLI
<a name="cli_2_codepipeline_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CodePipeline.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `acknowledge-job`
<a name="codepipeline_AcknowledgeJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`acknowledge-job`.

**AWS CLI**  
**Untuk mengambil informasi tentang pekerjaan tertentu**  
Contoh ini mengembalikan informasi tentang pekerjaan tertentu, termasuk status pekerjaan itu jika ada. Ini hanya digunakan untuk pekerja kerja dan tindakan khusus. Untuk menentukan nilai nonce dan ID pekerjaan, gunakan aws poll-for-jobs codepipeline.  
Perintah:  

```
aws codepipeline acknowledge-job --job-id f4f4ff82-2d11-EXAMPLE --nonce 3
```
Output:  

```
{
  "status": "InProgress"
}
```
+  Untuk detail API, lihat [AcknowledgeJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/acknowledge-job.html)di *Referensi AWS CLI Perintah*. 

### `create-custom-action-type`
<a name="codepipeline_CreateCustomActionType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-custom-action-type`.

**AWS CLI**  
**Untuk membuat tindakan kustom**  
Contoh ini membuat tindakan kustom untuk AWS CodePipeline menggunakan file JSON yang sudah dibuat (di sini bernama MyCustomAction .json) yang berisi struktur tindakan kustom. Untuk informasi selengkapnya tentang persyaratan untuk membuat tindakan kustom, termasuk struktur file, lihat Panduan AWS CodePipeline Pengguna.  

```
aws codepipeline create-custom-action-type --cli-input-json file://MyCustomAction.json
```
Isi file `MyCustomAction.json` JSON:  

```
{
    "category": "Build",
    "provider": "MyJenkinsProviderName",
    "version": "1",
    "settings": {
        "entityUrlTemplate": "https://192.0.2.4/job/{Config:ProjectName}/",
        "executionUrlTemplate": "https://192.0.2.4/job/{Config:ProjectName}/lastSuccessfulBuild/{ExternalExecutionId}/"
    },
    "configurationProperties": [
        {
            "name": "MyJenkinsExampleBuildProject",
            "required": true,
            "key": true,
            "secret": false,
            "queryable": false,
            "description": "The name of the build project must be provided when this action is added to the pipeline.",
            "type": "String"
        }
    ],
    "inputArtifactDetails": {
        "maximumCount": 1,
        "minimumCount": 0
    },
    "outputArtifactDetails": {
        "maximumCount": 1,
        "minimumCount": 0
    }
}
```
Perintah ini mengembalikan struktur tindakan kustom.  
+  Untuk detail API, lihat [CreateCustomActionType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/create-custom-action-type.html)di *Referensi AWS CLI Perintah*. 

### `create-pipeline`
<a name="codepipeline_CreatePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-pipeline`.

**AWS CLI**  
**Untuk membuat pipa**  
Contoh ini membuat pipeline dalam AWS CodePipeline menggunakan file JSON yang sudah dibuat (di sini bernama MySecondPipeline .json) yang berisi struktur pipeline. Untuk informasi selengkapnya tentang persyaratan untuk membuat pipeline, termasuk struktur file, lihat Panduan AWS CodePipeline Pengguna.  
Perintah:  

```
aws codepipeline create-pipeline --cli-input-json file://MySecondPipeline.json
```
Isi sampel file JSON:  

```
{
 "pipeline": {
  "roleArn": "arn:aws:iam::111111111111:role/AWS-CodePipeline-Service",
  "stages": [
    {
      "name": "Source",
      "actions": [
        {
          "inputArtifacts": [],
          "name": "Source",
          "actionTypeId": {
            "category": "Source",
            "owner": "AWS",
            "version": "1",
            "provider": "S3"
          },
          "outputArtifacts": [
            {
              "name": "MyApp"
            }
          ],
          "configuration": {
            "S3Bucket": "awscodepipeline-demo-bucket",
            "S3ObjectKey": "aws-codepipeline-s3-aws-codedeploy_linux.zip"
          },
          "runOrder": 1
        }
      ]
    },
    {
      "name": "Beta",
      "actions": [
        {
          "inputArtifacts": [
            {
              "name": "MyApp"
            }
          ],
          "name": "CodePipelineDemoFleet",
          "actionTypeId": {
            "category": "Deploy",
            "owner": "AWS",
            "version": "1",
            "provider": "CodeDeploy"
          },
          "outputArtifacts": [],
          "configuration": {
            "ApplicationName": "CodePipelineDemoApplication",
            "DeploymentGroupName": "CodePipelineDemoFleet"
          },
          "runOrder": 1
        }
      ]
    }
  ],
  "artifactStore": {
    "type": "S3",
    "location": "codepipeline-us-east-1-11EXAMPLE11"
  },
  "name": "MySecondPipeline",
  "version": 1
 }
}
```
Output:  

```
This command returns the structure of the pipeline.
```
+  Untuk detail API, lihat [CreatePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/create-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `delete-custom-action-type`
<a name="codepipeline_DeleteCustomActionType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-custom-action-type`.

**AWS CLI**  
**Untuk menghapus tindakan kustom**  
Contoh ini menghapus tindakan kustom AWS CodePipeline dengan menggunakan file JSON yang sudah dibuat (di sini bernama DeleteMyCustomAction .json) yang berisi jenis tindakan, nama penyedia, dan nomor versi tindakan yang akan dihapus. Gunakan list-action-types perintah untuk melihat nilai yang benar untuk kategori, versi, dan penyedia.  
Perintah:  

```
aws codepipeline delete-custom-action-type --cli-input-json file://DeleteMyCustomAction.json
```
Isi sampel file JSON:  

```
{
  "category": "Build",
  "version": "1",
  "provider": "MyJenkinsProviderName"
}
```
Output:  

```
None.
```
+  Untuk detail API, lihat [DeleteCustomActionType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/delete-custom-action-type.html)di *Referensi AWS CLI Perintah*. 

### `delete-pipeline`
<a name="codepipeline_DeletePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-pipeline`.

**AWS CLI**  
**Untuk menghapus pipeline**  
Contoh ini menghapus pipeline bernama MySecondPipeline from AWS CodePipeline. Gunakan perintah list-pipelines untuk melihat daftar pipeline yang terkait dengan akun Anda. AWS   
Perintah:  

```
aws codepipeline delete-pipeline --name MySecondPipeline
```
Output:  

```
None.
```
+  Untuk detail API, lihat [DeletePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/delete-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `delete-webhook`
<a name="codepipeline_DeleteWebhook_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-webhook`.

**AWS CLI**  
**Untuk menghapus webhook**  
`delete-webhook`Contoh berikut menghapus webhook untuk tindakan sumber GitHub versi 1. Anda harus menggunakan `deregister-webhook-with-third-party` perintah untuk membatalkan pendaftaran webhook sebelum Anda menghapusnya.  

```
aws codepipeline delete-webhook \
    --name my-webhook
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus webhook untuk GitHub sumber Anda](https://docs.aws.amazon.com/codepipeline/latest/userguide/appendix-github-oauth.html#pipelines-webhooks-delete) di *Panduan AWS CodePipeline Pengguna*.  
+  Untuk detail API, lihat [DeleteWebhook](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/delete-webhook.html)di *Referensi AWS CLI Perintah*. 

### `deregister-webhook-with-third-party`
<a name="codepipeline_DeregisterWebhookWithThirdParty_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-webhook-with-third-party`.

**AWS CLI**  
**Untuk membatalkan pendaftaran webhook**  
`deregister-webhook-with-third-party`Contoh berikut menghapus webhook untuk tindakan sumber GitHub versi 1. Anda harus membatalkan pendaftaran webhook sebelum menghapusnya.  

```
aws codepipeline deregister-webhook-with-third-party \
    --webhook-name my-webhook
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus webhook untuk GitHub sumber Anda](https://docs.aws.amazon.com/codepipeline/latest/userguide/appendix-github-oauth.html#pipelines-webhooks-delete) di *Panduan AWS CodePipeline Pengguna*.  
+  Untuk detail API, lihat [DeregisterWebhookWithThirdParty](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/deregister-webhook-with-third-party.html)di *Referensi AWS CLI Perintah*. 

### `disable-stage-transition`
<a name="codepipeline_DisableStageTransition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-stage-transition`.

**AWS CLI**  
**Untuk menonaktifkan transisi ke tahap dalam pipa**  
Contoh ini menonaktifkan transisi ke tahap Beta dari MyFirstPipeline pipeline di. AWS CodePipeline  
Perintah:  

```
aws codepipeline disable-stage-transition --pipeline-name MyFirstPipeline --stage-name Beta  --transition-type Inbound
```
Output:  

```
None.
```
+  Untuk detail API, lihat [DisableStageTransition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/disable-stage-transition.html)di *Referensi AWS CLI Perintah*. 

### `enable-stage-transition`
<a name="codepipeline_EnableStageTransition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-stage-transition`.

**AWS CLI**  
**Untuk mengaktifkan transisi ke tahap dalam pipa**  
Contoh ini memungkinkan transisi ke tahap Beta dari MyFirstPipeline pipeline di AWS CodePipeline.  
Perintah:  

```
aws codepipeline enable-stage-transition --pipeline-name MyFirstPipeline --stage-name Beta  --transition-type Inbound
```
Output:  

```
None.
```
+  Untuk detail API, lihat [EnableStageTransition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/enable-stage-transition.html)di *Referensi AWS CLI Perintah*. 

### `get-job-details`
<a name="codepipeline_GetJobDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-job-details`.

**AWS CLI**  
**Untuk mendapatkan detail pekerjaan**  
Contoh ini mengembalikan rincian tentang pekerjaan yang ID diwakili oleh F4f4FF82-2D11-Example. Perintah ini hanya digunakan untuk tindakan kustom. Saat perintah ini dipanggil, AWS CodePipeline mengembalikan kredensyal sementara untuk bucket Amazon S3 yang digunakan untuk menyimpan artefak untuk pipeline, jika diperlukan untuk tindakan kustom. Perintah ini juga akan mengembalikan nilai rahasia yang ditentukan untuk tindakan, jika ada yang ditentukan.  
Perintah:  

```
aws codepipeline get-job-details --job-id f4f4ff82-2d11-EXAMPLE
```
Output:  

```
{
 "jobDetails": {
  "accountId": "111111111111",
  "data": {
    "actionConfiguration": {
      "__type": "ActionConfiguration",
      "configuration": {
        "ProjectName": "MyJenkinsExampleTestProject"
      }
    },
    "actionTypeId": {
      "__type": "ActionTypeId",
      "category": "Test",
      "owner": "Custom",
      "provider": "MyJenkinsProviderName",
      "version": "1"
    },
    "artifactCredentials": {
      "__type": "AWSSessionCredentials",
      "accessKeyId": "AKIAIOSFODNN7EXAMPLE",
      "secretAccessKey": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY",
      "sessionToken": "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"
    },
    "inputArtifacts": [
      {
        "__type": "Artifact",
        "location": {
          "s3Location": {
            "bucketName": "codepipeline-us-east-1-11EXAMPLE11",
            "objectKey": "MySecondPipeline/MyAppBuild/EXAMPLE"
          },
          "type": "S3"
        },
        "name": "MyAppBuild"
      }
    ],
    "outputArtifacts": [],
    "pipelineContext": {
      "__type": "PipelineContext",
      "action": {
        "name": "MyJenkinsTest-Action"
      },
      "pipelineName": "MySecondPipeline",
      "stage": {
        "name": "Testing"
      }
    }
  },
  "id": "f4f4ff82-2d11-EXAMPLE"
 }
}
```
+  Untuk detail API, lihat [GetJobDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/get-job-details.html)di *Referensi AWS CLI Perintah*. 

### `get-pipeline-state`
<a name="codepipeline_GetPipelineState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-pipeline-state`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang keadaan pipa**  
Contoh ini mengembalikan status terbaru dari pipeline bernama MyFirstPipeline.  
Perintah:  

```
aws codepipeline get-pipeline-state --name MyFirstPipeline
```
Output:  

```
{
 "created": 1446137312.204,
 "pipelineName": "MyFirstPipeline",
 "pipelineVersion": 1,
 "stageStates": [
  {
    "actionStates": [
      {
        "actionName": "Source",
        "entityUrl": "https://console.aws.amazon.com/s3/home?#",
        "latestExecution": {
          "lastStatusChange": 1446137358.328,
          "status": "Succeeded"
        }
      }
    ],
    "stageName": "Source"
  },
  {
    "actionStates": [
      {
        "actionName": "CodePipelineDemoFleet",
        "entityUrl": "https://console.aws.amazon.com/codedeploy/home?#/applications/CodePipelineDemoApplication/deployment-groups/CodePipelineDemoFleet",
        "latestExecution": {
          "externalExecutionId": "d-EXAMPLE",
          "externalExecutionUrl": "https://console.aws.amazon.com/codedeploy/home?#/deployments/d-EXAMPLE",
          "lastStatusChange": 1446137493.131,
          "status": "Succeeded",
          "summary": "Deployment Succeeded"
        }
      }
    ],
    "inboundTransitionState": {
      "enabled": true
    },
    "stageName": "Beta"
  }
 ],
 "updated": 1446137312.204
}
```
+  Untuk detail API, lihat [GetPipelineState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/get-pipeline-state.html)di *Referensi AWS CLI Perintah*. 

### `get-pipeline`
<a name="codepipeline_GetPipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-pipeline`.

**AWS CLI**  
**Untuk melihat struktur pipa**  
Contoh ini mengembalikan struktur pipa bernama MyFirstPipeline.  
Perintah:  

```
aws codepipeline get-pipeline --name MyFirstPipeline
```
Output:  

```
{
  "pipeline": {
      "roleArn": "arn:aws:iam::111111111111:role/AWS-CodePipeline-Service",
      "stages": [
          {
              "name": "Source",
              "actions": [
                  {
                      "inputArtifacts": [],
                      "name": "Source",
                      "actionTypeId": {
                          "category": "Source",
                          "owner": "AWS",
                          "version": "1",
                          "provider": "S3"
                      },
                      "outputArtifacts": [
                          {
                              "name": "MyApp"
                          }
                      ],
                      "configuration": {
                          "S3Bucket": "awscodepipeline-demo-bucket",
                          "S3ObjectKey": "aws-codepipeline-s3-aws-codedeploy_linux.zip"
                      },
                      "runOrder": 1
                  }
              ]
          },
          {
              "name": "Beta",
              "actions": [
                  {
                      "inputArtifacts": [
                          {
                              "name": "MyApp"
                          }
                      ],
                      "name": "CodePipelineDemoFleet",
                      "actionTypeId": {
                          "category": "Deploy",
                          "owner": "AWS",
                          "version": "1",
                          "provider": "CodeDeploy"
                      },
                      "outputArtifacts": [],
                      "configuration": {
                          "ApplicationName": "CodePipelineDemoApplication",
                          "DeploymentGroupName": "CodePipelineDemoFleet"
                      },
                      "runOrder": 1
                  }
              ]
          }
      ],
      "artifactStore": {
          "type": "S3",
          "location": "codepipeline-us-east-1-11EXAMPLE11"
      },
      "name": "MyFirstPipeline",
      "version": 1
  }
}
```
+  Untuk detail API, lihat [GetPipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/get-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `list-action-executions`
<a name="codepipeline_ListActionExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-action-executions`.

**AWS CLI**  
**Untuk membuat daftar eksekusi tindakan**  
`list-action-executions`Contoh berikut menampilkan detail eksekusi tindakan untuk pipeline, seperti ID eksekusi tindakan, artefak input, artefak keluaran, hasil eksekusi, dan status.  

```
aws codepipeline list-action-executions \
    --pipeline-name myPipeline
```
Output:  

```
{
    "actionExecutionDetails": [
        {
            "pipelineExecutionId": "EXAMPLE0-adfc-488e-bf4c-1111111720d3",
            "actionExecutionId": "EXAMPLE4-2ee8-4853-bd6a-111111158148",
            "pipelineVersion": 12,
            "stageName": "Deploy",
            "actionName": "Deploy",
            "startTime": 1598572628.6,
            "lastUpdateTime": 1598572661.255,
            "status": "Succeeded",
            "input": {
                "actionTypeId": {
                    "category": "Deploy",
                    "owner": "AWS",
                    "provider": "CodeDeploy",
                    "version": "1"
                },
                "configuration": {
                    "ApplicationName": "my-application",
                    "DeploymentGroupName": "my-deployment-group"
                },
                "resolvedConfiguration": {
                    "ApplicationName": "my-application",
                    "DeploymentGroupName": "my-deployment-group"
                },
                "region": "us-east-1",
                "inputArtifacts": [
                    {
                        "name": "SourceArtifact",
                        "s3location": {
                            "bucket": "artifact-bucket",
                            "key": "myPipeline/SourceArti/key"
                        }
                    }
                ],
                "namespace": "DeployVariables"
            },
            "output": {
                "outputArtifacts": [],
                "executionResult": {
                    "externalExecutionId": "d-EXAMPLEE5",
                    "externalExecutionSummary": "Deployment Succeeded",
                    "externalExecutionUrl": "https://myaddress.com"
                },
                "outputVariables": {}
            }
        },
        {
            "pipelineExecutionId": "EXAMPLE0-adfc-488e-bf4c-1111111720d3",
            "actionExecutionId": "EXAMPLE5-abb4-4192-9031-11111113a7b0",
            "pipelineVersion": 12,
            "stageName": "Source",
            "actionName": "Source",
            "startTime": 1598572624.387,
            "lastUpdateTime": 1598572628.16,
            "status": "Succeeded",
            "input": {
                "actionTypeId": {
                    "category": "Source",
                    "owner": "AWS",
                    "provider": "CodeCommit",
                    "version": "1"
                },
                "configuration": {
                    "BranchName": "production",
                    "PollForSourceChanges": "false",
                    "RepositoryName": "my-repo"
                },
                "resolvedConfiguration": {
                    "BranchName": "production",
                    "PollForSourceChanges": "false",
                    "RepositoryName": "my-repo"
                },
                "region": "us-east-1",
                "inputArtifacts": [],
                "namespace": "SourceVariables"
            },
            "output": {
                "outputArtifacts": [
                    {
                        "name": "SourceArtifact",
                        "s3location": {
                            "bucket": "amzn-s3-demo-bucket",
                            "key": "myPipeline/SourceArti/key"
                        }
                    }
                ],
                "executionResult": {
                    "externalExecutionId": "1111111ad99dcd35914c00b7fbea13995EXAMPLE",
                    "externalExecutionSummary": "Edited template.yml",
                    "externalExecutionUrl": "https://myaddress.com"
                },
                "outputVariables": {
                    "AuthorDate": "2020-05-08T17:45:43Z",
                    "BranchName": "production",
                    "CommitId": "EXAMPLEad99dcd35914c00b7fbea139951111111",
                    "CommitMessage": "Edited template.yml",
                    "CommitterDate": "2020-05-08T17:45:43Z",
                    "RepositoryName": "my-repo"
                }
            }
        },
. . . .
```
Untuk informasi selengkapnya, [lihat Melihat eksekusi tindakan (CLI](https://docs.aws.amazon.com/codepipeline/latest/userguide/pipelines-view-cli.html#pipelines-action-executions-cli)) di Panduan Pengguna *AWS CodePipeline .*  
+  Untuk detail API, lihat [ListActionExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/list-action-executions.html)di *Referensi AWS CLI Perintah*. 

### `list-action-types`
<a name="codepipeline_ListActionTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-action-types`.

**AWS CLI**  
**Untuk melihat jenis tindakan yang tersedia**  
Digunakan dengan sendirinya, list-action-types perintah mengembalikan struktur semua tindakan yang tersedia untuk AWS akun Anda. Contoh ini menggunakan action-owner-filter opsi -- untuk mengembalikan hanya tindakan khusus.  
Perintah:  

```
aws codepipeline list-action-types --action-owner-filter Custom
```
Output:  

```
{
  "actionTypes": [
      {
          "inputArtifactDetails": {
              "maximumCount": 5,
              "minimumCount": 0
          },
          "actionConfigurationProperties": [
              {
                  "secret": false,
                  "required": true,
                  "name": "MyJenkinsExampleBuildProject",
                  "key": true,
                  "queryable": true
              }
          ],
          "outputArtifactDetails": {
              "maximumCount": 5,
              "minimumCount": 0
          },
          "id": {
              "category": "Build",
              "owner": "Custom",
              "version": "1",
              "provider": "MyJenkinsProviderName"
          },
          "settings": {
              "entityUrlTemplate": "http://192.0.2.4/job/{Config:ProjectName}",
              "executionUrlTemplate": "http://192.0.2.4/job/{Config:ProjectName}/{ExternalExecutionId}"
          }
      },
      {
          "inputArtifactDetails": {
              "maximumCount": 5,
              "minimumCount": 0
          },
          "actionConfigurationProperties": [
              {
                  "secret": false,
                  "required": true,
                  "name": "MyJenkinsExampleTestProject",
                  "key": true,
                  "queryable": true
              }
          ],
          "outputArtifactDetails": {
              "maximumCount": 5,
              "minimumCount": 0
          },
          "id": {
              "category": "Test",
              "owner": "Custom",
              "version": "1",
              "provider": "MyJenkinsProviderName"
          },
          "settings": {
              "entityUrlTemplate": "http://192.0.2.4/job/{Config:ProjectName}",
              "executionUrlTemplate": "http://192.0.2.4/job/{Config:ProjectName}/{ExternalExecutionId}"
          }
      }
  ]
}
```
+  Untuk detail API, lihat [ListActionTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/list-action-types.html)di *Referensi AWS CLI Perintah*. 

### `list-pipeline-executions`
<a name="codepipeline_ListPipelineExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pipeline-executions`.

**AWS CLI**  
**Untuk melihat riwayat eksekusi pipeline**  
`list-pipeline-executions`Contoh berikut menunjukkan riwayat eksekusi pipeline untuk pipeline di AWS akun Anda.  

```
aws codepipeline list-pipeline-executions \
    --pipeline-name MyPipeline
```
Output:  

```
{
    "pipelineExecutionSummaries": [
        {
            "lastUpdateTime": 1496380678.648,
            "pipelineExecutionId": "7cf7f7cb-3137-539g-j458-d7eu3EXAMPLE",
            "startTime": 1496380258.243,
            "status": "Succeeded"
        },
        {
            "lastUpdateTime": 1496591045.634,
            "pipelineExecutionId": "3137f7cb-8d494hj4-039j-d84l-d7eu3EXAMPLE",
            "startTime": 1496590401.222,
            "status": "Succeeded"
        },
        {
            "lastUpdateTime": 1496946071.6456,
            "pipelineExecutionId": "4992f7jf-7cf7-913k-k334-d7eu3EXAMPLE",
            "startTime": 1496945471.5645,
            "status": "Succeeded"
        }
    ]
}
```
Untuk informasi selengkapnya, [lihat Melihat riwayat eksekusi](https://docs.aws.amazon.com/codepipeline/latest/userguide/pipelines-view-cli.html#pipelines-executions-cli) di *Panduan AWS CodePipeline Pengguna*.  
+  Untuk detail API, lihat [ListPipelineExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/list-pipeline-executions.html)di *Referensi AWS CLI Perintah*. 

### `list-pipelines`
<a name="codepipeline_ListPipelines_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pipelines`.

**AWS CLI**  
**Untuk melihat daftar saluran pipa**  
Contoh ini mencantumkan semua AWS CodePipeline pipeline yang terkait dengan AWS akun pengguna.  
Perintah:  

```
aws codepipeline list-pipelines
```
Output:  

```
{
  "pipelines": [
      {
          "updated": 1439504274.641,
          "version": 1,
          "name": "MyFirstPipeline",
          "created": 1439504274.641
      },
      {
          "updated": 1436461837.992,
          "version": 2,
          "name": "MySecondPipeline",
          "created": 1436460801.381
      }
      ]
}
```
+  Untuk detail API, lihat [ListPipelines](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/list-pipelines.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="codepipeline_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag**  
`list-tags-for-resource`Contoh berikut mengambil daftar semua tag yang dilampirkan ke sumber pipa yang ditentukan.  

```
aws codepipeline list-tags-for-resource \
    --resource-arn arn:aws:codepipeline:us-east-1:123456789012:MyPipeline
```
Output:  

```
{
    "tags": {
        "Project": "ProjectA",
        "IscontainerBased": "true"
    }
}
```
Untuk informasi selengkapnya, [lihat Melihat tag untuk pipeline (CLI)](https://docs.aws.amazon.com/codepipeline/latest/userguide/pipelines-tag.html#pipelines-tag-list-cli) di *AWS CodePipeline Panduan Pengguna*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-webhooks`
<a name="codepipeline_ListWebhooks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-webhooks`.

**AWS CLI**  
**Untuk daftar webhooks**  
`list-webhooks`Contoh berikut mengambil daftar semua tag yang dilampirkan ke sumber pipa yang ditentukan.  

```
aws codepipeline list-webhooks \
    --endpoint-url "https://codepipeline.eu-central-1.amazonaws.com" \
    --region "eu-central-1"
```
Output:  

```
{
    "webhooks": [
        {
            "url": "https://webhooks.domain.com/trigger111111111EXAMPLE11111111111111111": {
                "authenticationConfiguration": {
                    "SecretToken": "Secret"
                },
                "name": "my-webhook",
                "authentication": "GITHUB_HMAC",
                "targetPipeline": "my-Pipeline",
                "targetAction": "Source",
                "filters": [
                    {
                        "jsonPath": "$.ref",
                        "matchEquals": "refs/heads/{Branch}"
                    }
                ]
            },
            "arn": "arn:aws:codepipeline:eu-central-1:123456789012:webhook:my-webhook"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar webhook di akun Anda](https://docs.aws.amazon.com/codepipeline/latest/userguide/appendix-github-oauth.html#pipelines-webhooks-view) di *AWS CodePipeline Panduan Pengguna*.  
+  Untuk detail API, lihat [ListWebhooks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/list-webhooks.html)di *Referensi AWS CLI Perintah*. 

### `poll-for-jobs`
<a name="codepipeline_PollForJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`poll-for-jobs`.

**AWS CLI**  
**Untuk melihat pekerjaan yang tersedia**  
Contoh ini mengembalikan informasi tentang pekerjaan apa pun untuk ditindaklanjuti oleh pekerja kerja. Contoh ini menggunakan file JSON yang telah ditentukan sebelumnya (MyActionTypeInfo.json) untuk memberikan informasi tentang jenis tindakan yang pekerja pekerjaan memproses pekerjaan. Perintah ini hanya digunakan untuk tindakan kustom. Saat perintah ini dipanggil, AWS CodePipeline mengembalikan kredensyal sementara untuk bucket Amazon S3 yang digunakan untuk menyimpan artefak untuk pipeline. Perintah ini juga akan mengembalikan nilai rahasia yang ditentukan untuk tindakan, jika ada yang ditentukan.  
Perintah:  

```
aws codepipeline poll-for-jobs --cli-input-json file://MyActionTypeInfo.json
```
Isi sampel file JSON:  

```
{
  "actionTypeId": {
    "category": "Test",
    "owner": "Custom",
    "provider": "MyJenkinsProviderName",
    "version": "1"
  },
  "maxBatchSize": 5,
  "queryParam": {
      "ProjectName": "MyJenkinsTestProject"
  }
}
```
Output:  

```
{
 "jobs": [
  {
    "accountId": "111111111111",
    "data": {
      "actionConfiguration": {
        "__type": "ActionConfiguration",
        "configuration": {
          "ProjectName": "MyJenkinsExampleTestProject"
        }
      },
      "actionTypeId": {
        "__type": "ActionTypeId",
        "category": "Test",
        "owner": "Custom",
        "provider": "MyJenkinsProviderName",
        "version": "1"
      },
      "artifactCredentials": {
        "__type": "AWSSessionCredentials",
        "accessKeyId": "AKIAIOSFODNN7EXAMPLE",
        "secretAccessKey": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY",
        "sessionToken": "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"
      },
      "inputArtifacts": [
        {
          "__type": "Artifact",
          "location": {
            "s3Location": {
              "bucketName": "codepipeline-us-east-1-11EXAMPLE11",
              "objectKey": "MySecondPipeline/MyAppBuild/EXAMPLE"
            },
            "type": "S3"
          },
          "name": "MyAppBuild"
        }
      ],
      "outputArtifacts": [],
      "pipelineContext": {
        "__type": "PipelineContext",
        "action": {
          "name": "MyJenkinsTest-Action"
        },
        "pipelineName": "MySecondPipeline",
        "stage": {
          "name": "Testing"
        }
      }
    },
    "id": "ef66c259-64f9-EXAMPLE",
    "nonce": "3"
  }
 ]
}
```
+  Untuk detail API, lihat [PollForJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/poll-for-jobs.html)di *Referensi AWS CLI Perintah*. 

### `put-webhook`
<a name="codepipeline_PutWebhook_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-webhook`.

**AWS CLI**  
**Untuk membuat webhook**  
`put-webhook`Contoh berikut membuat webhook untuk aksi sumber GitHub versi 1. Setelah Anda membuat webhook, Anda harus menggunakan perintah register-webhook-with-third -party untuk mendaftarkannya.  

```
aws codepipeline put-webhook \
    --cli-input-json file://webhook_json.json \
    --region "eu-central-1"
```
Isi dari `webhook_json.json`:  

```
{
    "webhook": {
        "name": "my-webhook",
        "targetPipeline": "pipeline_name",
        "targetAction": "source_action_name",
        "filters": [
            {
                "jsonPath": "$.ref",
                "matchEquals": "refs/heads/{Branch}"
            }
        ],
        "authentication": "GITHUB_HMAC",
        "authenticationConfiguration": {
            "SecretToken": "secret"
        }
    }
}
```
Output:  

```
{
    "webhook": {
        "url": "https://webhooks.domain.com/trigger111111111EXAMPLE11111111111111111",
        "definition": {
            "authenticationConfiguration": {
                "SecretToken": "secret"
            },
            "name": "my-webhook",
            "authentication": "GITHUB_HMAC",
            "targetPipeline": "pipeline_name",
            "targetAction": "Source",
            "filters": [
                {
                    "jsonPath": "$.ref",
                    "matchEquals": "refs/heads/{Branch}"
                }
            ]
        },
        "arn": "arn:aws:codepipeline:eu-central-1:123456789012:webhook:my-webhook"
    },
    "tags": [
        {
            "key": "Project",
            "value": "ProjectA"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat webhook untuk GitHub sumber](https://docs.aws.amazon.com/codepipeline/latest/userguide/appendix-github-oauth.html#pipelines-webhooks-create) di *Panduan AWS CodePipeline Pengguna*.  
+  Untuk detail API, lihat [PutWebhook](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/put-webhook.html)di *Referensi AWS CLI Perintah*. 

### `retry-stage-execution`
<a name="codepipeline_RetryStageExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`retry-stage-execution`.

**AWS CLI**  
**Untuk mencoba lagi tindakan yang gagal**  
`retry-stage-execution`Contoh berikut mencoba ulang tahap yang memiliki tindakan gagal.  

```
aws codepipeline retry-stage-execution \
    --pipeline-name MyPipeline \
    --stage-name Deploy \
    --pipeline-execution-id b59babff-5f34-EXAMPLE \
    --retry-mode FAILED_ACTIONS
```
Output:  

```
{
    "pipelineExecutionId": "b59babff-5f34-EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Coba lagi tindakan yang gagal (CLI](https://docs.aws.amazon.com/codepipeline/latest/userguide/actions-retry.html#actions-retry-cli)) di Panduan Pengguna *AWS CodePipeline .*  
+  Untuk detail API, lihat [RetryStageExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/retry-stage-execution.html)di *Referensi AWS CLI Perintah*. 

### `start-pipeline-execution`
<a name="codepipeline_StartPipelineExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-pipeline-execution`.

**AWS CLI**  
**Untuk menjalankan revisi terbaru melalui pipeline**  
Contoh ini menjalankan revisi terbaru yang ada di tahap sumber pipa melalui pipa bernama "MyFirstPipeline”.  
Perintah:  

```
aws codepipeline start-pipeline-execution --name MyFirstPipeline
```
Output:  

```
{
  "pipelineExecutionId": "3137f7cb-7cf7-EXAMPLE"
}
```
+  Untuk detail API, lihat [StartPipelineExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/start-pipeline-execution.html)di *Referensi AWS CLI Perintah*. 

### `stop-pipeline-execution`
<a name="codepipeline_StopPipelineExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-pipeline-execution`.

**AWS CLI**  
**Untuk menghentikan eksekusi pipeline**  
`stop-pipeline-execution`Contoh berikut default menunggu sampai tindakan yang sedang berlangsung selesai, dan kemudian menghentikan pipeline. Anda tidak dapat memilih untuk berhenti dan menunggu jika eksekusi sudah dalam status Berhenti. Anda dapat memilih untuk berhenti dan meninggalkan eksekusi yang sudah dalam status Berhenti.  

```
aws codepipeline stop-pipeline-execution \
    --pipeline-name MyFirstPipeline \
    --pipeline-execution-id d-EXAMPLE \
    --reason "Stopping pipeline after the build action is done"
```
Perintah ini tidak mengembalikan output.  
Untuk informasi selengkapnya, lihat [Menghentikan eksekusi pipeline (CLI)](https://docs.aws.amazon.com/codepipeline/latest/userguide/pipelines-stop.html#pipelines-stop-cli) di *AWS CodePipeline Panduan Pengguna*.  
+  Untuk detail API, lihat [StopPipelineExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/stop-pipeline-execution.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="codepipeline_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut mengaitkan satu set tag yang disediakan dengan pipeline. Gunakan perintah ini untuk menambah atau mengedit tag.  

```
aws codepipeline tag-resource \
    --resource-arn arn:aws:codepipeline:us-east-1:123456789012:MyPipeline \
    --tags key=Project,value=ProjectA key=IscontainerBased,value=true
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan tag ke pipeline (CLI)](https://docs.aws.amazon.com/codepipeline/latest/userguide/pipelines-tag.html#pipelines-tag-add-cli) di *AWS CodePipeline Panduan Pengguna*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="codepipeline_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus AWS tag dari sumber daya koneksi**  
`untag-resource`Contoh berikut menghapus tag dari sumber daya yang ditentukan.  

```
aws codepipeline untag-resource \
    --resource-arn arn:aws:codepipeline:us-east-1:123456789012:MyPipeline \
    --tag-keys Project IscontainerBased
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus tag dari pipeline (CLI)](https://docs.aws.amazon.com/codepipeline/latest/userguide/pipelines-tag.html#pipelines-tag-delete-cli) di *AWS CodePipeline Panduan Pengguna*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-pipeline`
<a name="codepipeline_UpdatePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-pipeline`.

**AWS CLI**  
**Untuk memperbarui struktur pipa**  
Contoh ini menggunakan perintah update-pipeline dengan argumen --. cli-input-json Contoh ini menggunakan file JSON yang telah ditentukan sebelumnya (MyFirstPipeline.json) untuk memperbarui struktur pipeline. AWS CodePipeline mengenali nama pipeline yang terkandung dalam file JSON, dan kemudian menerapkan perubahan apa pun dari bidang yang dimodifikasi dalam struktur pipa untuk memperbarui pipeline.  
Gunakan panduan berikut saat membuat file JSON yang telah ditentukan sebelumnya:  
Jika Anda bekerja dengan struktur pipa yang diambil menggunakan perintah get-pipeline, Anda harus menghapus bagian metadata dari struktur pipa di file JSON (baris “metadata”: \$1\$1 dan bidang “dibuat,” “PipelineEarn,” dan “diperbarui” di dalamnya) .Nama pipeline tidak dapat diubah.  
Perintah:  

```
aws codepipeline update-pipeline --cli-input-json file://MyFirstPipeline.json
```
Contoh isi file JSON:  

```
{
 "pipeline": {
  "roleArn": "arn:aws:iam::111111111111:role/AWS-CodePipeline-Service",
  "stages": [
    {
      "name": "Source",
      "actions": [
        {
          "inputArtifacts": [],
          "name": "Source",
          "actionTypeId": {
            "category": "Source",
            "owner": "AWS",
            "version": "1",
            "provider": "S3"
          },
          "outputArtifacts": [
            {
              "name": "MyApp"
            }
          ],
          "configuration": {
            "S3Bucket": "awscodepipeline-demo-bucket2",
            "S3ObjectKey": "aws-codepipeline-s3-aws-codedeploy_linux.zip"
          },
          "runOrder": 1
        }
      ]
    },
    {
      "name": "Beta",
      "actions": [
        {
          "inputArtifacts": [
            {
              "name": "MyApp"
            }
          ],
          "name": "CodePipelineDemoFleet",
          "actionTypeId": {
            "category": "Deploy",
            "owner": "AWS",
            "version": "1",
            "provider": "CodeDeploy"
          },
          "outputArtifacts": [],
          "configuration": {
            "ApplicationName": "CodePipelineDemoApplication",
            "DeploymentGroupName": "CodePipelineDemoFleet"
          },
          "runOrder": 1
        }
      ]
    }
  ],
  "artifactStore": {
    "type": "S3",
    "location": "codepipeline-us-east-1-11EXAMPLE11"
  },
  "name": "MyFirstPipeline",
  "version": 1
 }
}
```
Output:  

```
{
 "pipeline": {
  "artifactStore": {
    "location": "codepipeline-us-east-1-11EXAMPLE11",
    "type": "S3"
  },
  "name": "MyFirstPipeline",
  "roleArn": "arn:aws:iam::111111111111:role/AWS-CodePipeline-Service",
  "stages": [
    {
      "actions": [
        {
          "actionTypeId": {
            "__type": "ActionTypeId",
            "category": "Source",
            "owner": "AWS",
            "provider": "S3",
            "version": "1"
          },
          "configuration": {
            "S3Bucket": "awscodepipeline-demo-bucket2",
            "S3ObjectKey": "aws-codepipeline-s3-aws-codedeploy_linux.zip"
          },
          "inputArtifacts": [],
          "name": "Source",
          "outputArtifacts": [
            {
              "name": "MyApp"
            }
          ],
          "runOrder": 1
        }
      ],
      "name": "Source"
    },
    {
      "actions": [
        {
          "actionTypeId": {
            "__type": "ActionTypeId",
            "category": "Deploy",
            "owner": "AWS",
            "provider": "CodeDeploy",
            "version": "1"
          },
          "configuration": {
            "ApplicationName": "CodePipelineDemoApplication",
            "DeploymentGroupName": "CodePipelineDemoFleet"
          },
          "inputArtifacts": [
            {
              "name": "MyApp"
            }
          ],
          "name": "CodePipelineDemoFleet",
          "outputArtifacts": [],
          "runOrder": 1
        }
      ],
      "name": "Beta"
    }
  ],
  "version": 3
 }
}
```
+  Untuk detail API, lihat [UpdatePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codepipeline/update-pipeline.html)di *Referensi AWS CLI Perintah*. 

# AWS CodeStar Contoh pemberitahuan menggunakan AWS CLI
<a name="cli_2_codestar-notifications_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With AWS CodeStar Notifications.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-notification-rule`
<a name="codestar-notifications_CreateNotificationRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-notification-rule`.

**AWS CLI**  
**Untuk membuat aturan notifikasi**  
`create-notification-rule`Contoh berikut menggunakan file JSON bernama `rule.json` untuk membuat aturan notifikasi bernama `MyNotificationRule` untuk repositori bernama `MyDemoRepo` dalam akun tertentu. AWS Pemberitahuan dengan jenis `FULL` detail dikirim ke topik Amazon SNS target yang ditentukan saat cabang dan tag dibuat.  

```
aws codestar-notifications create-notification-rule \
    --cli-input-json file://rule.json
```
Isi dari `rule.json`:  

```
{
    "Name": "MyNotificationRule",
    "EventTypeIds": [
        "codecommit-repository-branches-and-tags-created"
    ],
    "Resource": "arn:aws:codecommit:us-east-1:123456789012:MyDemoRepo",
    "Targets": [
        {
            "TargetType": "SNS",
            "TargetAddress": "arn:aws:sns:us-east-1:123456789012:MyNotificationTopic"
        }
    ],
    "Status": "ENABLED",
    "DetailType": "FULL"
}
```
Output:  

```
{
    "Arn": "arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE"
}
```
Untuk selengkapnya, lihat [Membuat aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-rule-create.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [CreateNotificationRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/create-notification-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-notification-rule`
<a name="codestar-notifications_DeleteNotificationRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-notification-rule`.

**AWS CLI**  
**Untuk menghapus aturan notifikasi**  
`delete-notification-rule`Contoh berikut menghapus aturan pemberitahuan yang ditentukan.  

```
aws codestar-notifications delete-notification-rule \
    --arn arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE
```
Output:  

```
{
    "Arn": "arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menghapus Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-rule-delete.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [DeleteNotificationRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/delete-notification-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-target`
<a name="codestar-notifications_DeleteTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-target`.

**AWS CLI**  
**Untuk menghapus target aturan notifikasi**  
`delete-target`Contoh berikut menghapus target yang ditentukan dari semua aturan notifikasi yang dikonfigurasi untuk menggunakannya sebagai target, dan kemudian menghapus target.  

```
aws codestar-notifications  delete-target \
    --target-address arn:aws:sns:us-east-1:123456789012:MyNotificationTopic \
    --force-unsubscribe-all
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Target Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-target-delete.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [DeleteTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/delete-target.html)di *Referensi AWS CLI Perintah*. 

### `describe-notification-rule`
<a name="codestar-notifications_DescribeNotificationRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-notification-rule`.

**AWS CLI**  
**Untuk mengambil rincian aturan notifikasi**  
`describe-notification-rule`Contoh berikut mengambil rincian aturan pemberitahuan yang ditentukan.  

```
aws codestar-notifications describe-notification-rule \
    --arn arn:aws:codestar-notifications:us-west-2:123456789012:notificationrule/dc82df7a-EXAMPLE
```
Output:  

```
{
    "LastModifiedTimestamp": 1569199844.857,
    "EventTypes": [
        {
            "ServiceName": "CodeCommit",
            "EventTypeName": "Branches and tags: Created",
            "ResourceType": "Repository",
            "EventTypeId": "codecommit-repository-branches-and-tags-created"
        }
    ],
    "Status": "ENABLED",
    "DetailType": "FULL",
    "Resource": "arn:aws:codecommit:us-west-2:123456789012:MyDemoRepo",
    "Arn": "arn:aws:codestar-notifications:us-west-w:123456789012:notificationrule/dc82df7a-EXAMPLE",
    "Targets": [
        {
            "TargetStatus": "ACTIVE",
            "TargetAddress": "arn:aws:sns:us-west-2:123456789012:MyNotificationTopic",
            "TargetType": "SNS"
        }
    ],
    "Name": "MyNotificationRule",
    "CreatedTimestamp": 1569199844.857,
    "CreatedBy": "arn:aws:iam::123456789012:user/Mary_Major"
}
```
Untuk selengkapnya, lihat [Melihat Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-rule-view.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [DescribeNotificationRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/describe-notification-rule.html)di *Referensi AWS CLI Perintah*. 

### `list-event-types`
<a name="codestar-notifications_ListEventTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-event-types`.

**AWS CLI**  
**Untuk mendapatkan daftar jenis acara untuk aturan notifikasi**  
`list-event-types`Contoh berikut mengambil daftar yang difilter dari semua jenis acara pemberitahuan yang tersedia untuk CodeDeploy aplikasi. Jika sebaliknya Anda tidak menggunakan filter, perintah mengembalikan semua jenis acara notifikasi untuk semua jenis sumber daya.  

```
aws codestar-notifications list-event-types \
    --filters Name=SERVICE_NAME,Value=CodeDeploy
```
Output:  

```
{
    "EventTypes": [
        {
            "EventTypeId": "codedeploy-application-deployment-succeeded",
            "ServiceName": "CodeDeploy",
            "EventTypeName": "Deployment: Succeeded",
            "ResourceType": "Application"
        },
        {
            "EventTypeId": "codedeploy-application-deployment-failed",
            "ServiceName": "CodeDeploy",
            "EventTypeName": "Deployment: Failed",
            "ResourceType": "Application"
        },
        {
            "EventTypeId": "codedeploy-application-deployment-started",
            "ServiceName": "CodeDeploy",
            "EventTypeName": "Deployment: Started",
            "ResourceType": "Application"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-rule-create.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [ListEventTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/list-event-types.html)di *Referensi AWS CLI Perintah*. 

### `list-notification-rules`
<a name="codestar-notifications_ListNotificationRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-notification-rules`.

**AWS CLI**  
**Untuk mengambil daftar aturan notifikasi**  
`list-notification-rules`Contoh berikut mengambil daftar semua aturan notifikasi di AWS Wilayah tertentu.  

```
aws codestar-notifications list-notification-rules --region us-east-1
```
Output:  

```
{
    "NotificationRules": [
        {
            "Id": "dc82df7a-EXAMPLE",
            "Arn": "arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE"
        },
        {
            "Id": "8d1f0983-EXAMPLE",
            "Arn": "arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/8d1f0983-EXAMPLE"
        }
    ]
}
```
Untuk selengkapnya, lihat [Melihat Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-rule-view.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [ListNotificationRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/list-notification-rules.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="codestar-notifications_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mendapatkan daftar tag yang dilampirkan pada aturan notifikasi**  
`list-tags-for-resource`Contoh berikut mengambil daftar semua tag yang dilampirkan pada aturan pemberitahuan yang ditentukan. Dalam contoh ini, aturan notifikasi saat ini tidak memiliki tag yang terkait dengannya.  

```
aws codestar-notifications list-tags-for-resource \
    --arn arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/fe1efd35-EXAMPLE
```
Output:  

```
{
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [Membuat Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-rule-create.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-targets`
<a name="codestar-notifications_ListTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-targets`.

**AWS CLI**  
**Untuk mengambil daftar target aturan notifikasi**  
`list-targets`Contoh berikut mengambil daftar semua target aturan notifikasi di AWS Wilayah tertentu.  

```
aws codestar-notifications list-targets \
    --region us-east-1
```
Output:  

```
{
    "Targets": [
        {
            "TargetAddress": "arn:aws:sns:us-east-1:123456789012:MySNSTopicForNotificationRules",
            "TargetType": "SNS",
            "TargetStatus": "ACTIVE"
        },
        {
            "TargetAddress": "arn:aws:sns:us-east-1:123456789012:MySNSTopicForNotificationsAboutMyDemoRepo",
            "TargetType": "SNS",
            "TargetStatus": "ACTIVE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Target Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-target-view.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [ListTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/list-targets.html)di *Referensi AWS CLI Perintah*. 

### `subscribe`
<a name="codestar-notifications_Subscribe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`subscribe`.

**AWS CLI**  
**Untuk menambahkan target ke aturan notifikasi**  
`subscribe`Contoh berikut menambahkan topik Amazon SNS sebagai target untuk aturan notifikasi yang ditentukan.  

```
aws codestar-notifications subscribe \
    --arn arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE \
    --target TargetType=SNS,TargetAddress=arn:aws:sns:us-east-1:123456789012:MyNotificationTopic
```
Output:  

```
{
    "Arn": "arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE"
}
```
Untuk selengkapnya, lihat [Menambahkan atau Menghapus Topik Amazon SNS sebagai Target untuk Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-target-change-rule.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [Berlangganan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/subscribe.html) di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="codestar-notifications_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke aturan notifikasi**  
`tag-resource`Contoh berikut menambahkan tag dengan nama kunci `Team` dan nilai `Li_Juan` untuk aturan pemberitahuan yang ditentukan.  

```
aws codestar-notifications tag-resource \
    --arn arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/fe1efd35-EXAMPLE \
    --tags Team=Li_Juan
```
Output:  

```
{
    "Tags": {
        "Team": "Li_Juan"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-rule-create.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `unsubscribe`
<a name="codestar-notifications_Unsubscribe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unsubscribe`.

**AWS CLI**  
**Untuk menghapus target dari aturan notifikasi**  
`unsubscribe`Contoh berikut menghapus topik Amazon SNS sebagai target dari aturan notifikasi yang ditentukan.  

```
aws codestar-notifications unsubscribe \
    --arn arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE \
    --target TargetType=SNS,TargetAddress=arn:aws:sns:us-east-1:123456789012:MyNotificationTopic
```
Output:  

```
{
    "Arn": "arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE"
    "TargetAddress": "arn:aws:sns:us-east-1:123456789012:MyNotificationTopic"
}
```
Untuk selengkapnya, lihat [Menambahkan atau Menghapus Topik Amazon SNS sebagai Target untuk Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-target-change-rule.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [Berhenti berlangganan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/unsubscribe.html) di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="codestar-notifications_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari aturan pemberitahuan**  
`untag-resource`Contoh berikut menghapus tag dengan nama kunci `Team` dari aturan pemberitahuan yang ditentukan.  

```
aws codestar-notifications untag-resource \
    --arn arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/fe1efd35-EXAMPLE \
    --tag-keys Team
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengedit Aturan Pemberitahuan](https://docs.aws.amazon.com/codestar-notifications/latest/userguide/notification-rule-edit.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-notification-rule`
<a name="codestar-notifications_UpdateNotificationRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-notification-rule`.

**AWS CLI**  
**Untuk memperbarui aturan notifikasi**  
`update-notification-rule`Contoh berikut memperbarui aturan notifikasi bernama `MyNotificationRule` di AWS akun `123456789012` menggunakan file JSON bernama`update.json`.  

```
aws codestar-notifications update-notification-rule \
    --cli-input-json file://update.json
```
Isi dari `update.json`:  

```
{
    "Name": "MyUpdatedNotificationRule",
    "EventTypeIds": [
        "codecommit-repository-branches-and-tags-created"
    ],
    "Resource": "arn:aws:codecommit:us-east-1:123456789012:MyDemoRepo",
    "Targets": [
        {
            "TargetType": "SNS",
            "TargetAddress": "arn:aws:sns:us-east-1:123456789012:MyNotificationTopic"
        }
    ],
    "Status": "ENABLED",
    "DetailType": "FULL"
}
```
Output:  

```
{
    "Arn": "arn:aws:codestar-notifications:us-east-1:123456789012:notificationrule/dc82df7a-EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Mengedit aturan pemberitahuan](https://docs.aws.amazon.com/dtconsole/latest/userguide/notification-rule-edit.html) di *Panduan Pengguna Konsol Alat AWS Pengembang*.  
+  Untuk detail API, lihat [UpdateNotificationRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-notifications/update-notification-rule.html)di *Referensi AWS CLI Perintah*. 

# CodeConnections contoh menggunakan AWS CLI
<a name="cli_2_codestar-connections_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with CodeConnections.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-connection`
<a name="codestar-connections_CreateConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-connection`.

**AWS CLI**  
**Untuk membuat koneksi**  
`create-connection`Contoh berikut menunjukkan cara membuat koneksi ke repositori pihak ketiga. Contoh ini membuat koneksi di mana penyedia pihak ketiga adalah Bitbucket.  
Koneksi yang dibuat melalui AWS CLI atau AWS CloudFormation dalam status Tertunda secara default. Setelah Anda membuat koneksi dengan CLI atau AWS CloudFormation, gunakan konsol untuk mengedit koneksi agar statusnya Tersedia.  

```
aws codestar-connections create-connection \
    --provider-type Bitbucket \
    --connection-name MyConnection
```
Output:  

```
{
    "ConnectionArn": "arn:aws:codestar-connections:us-east-1:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f"
}
```
Untuk informasi selengkapnya, lihat [Membuat sambungan](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-create.html) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [CreateConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/create-connection.html)di *Referensi AWS CLI Perintah*. 

### `create-host`
<a name="codestar-connections_CreateHost_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-host`.

**AWS CLI**  
**Untuk membuat host**  
`create-host`Contoh berikut menunjukkan cara membuat host untuk mewakili titik akhir infrastruktur tempat penyedia pihak ketiga Anda diinstal. Contoh ini membuat host di mana penyedia yang diinstal pihak ketiga adalah GitHub Enterprise Server.  
Host yang dibuat melalui AWS CLI berada dalam status Tertunda secara default. Setelah Anda membuat host dengan CLI, gunakan konsol atau CLI untuk mengatur host agar statusnya Tersedia.  

```
aws codestar-connections create-host \
    --name MyHost \
    --provider-type GitHubEnterpriseServer \
    --provider-endpoint "https://my-instance.dev"
```
Output:  

```
{
    "HostArn": "arn:aws:codestar-connections:us-east-1:123456789012:host/My-Host-28aef605"
}
```
Untuk informasi selengkapnya, lihat [Membuat host (CLI)](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-host-create.html) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [CreateHost](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/create-host.html)di *Referensi AWS CLI Perintah*. 

### `delete-connection`
<a name="codestar-connections_DeleteConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-connection`.

**AWS CLI**  
**Untuk menghapus koneksi**  
`delete-connection`Contoh berikut menunjukkan cara menghapus koneksi.  

```
aws codestar-connections delete-connection \
    --connection-arn arn:aws:codestar-connections:us-west-2:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus sambungan (CLI)](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-delete.html#connections-delete-cli) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [DeleteConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/delete-connection.html)di *Referensi AWS CLI Perintah*. 

### `delete-host`
<a name="codestar-connections_DeleteHost_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-host`.

**AWS CLI**  
**Untuk menghapus host**  
`delete-host`Contoh berikut menunjukkan cara menghapus host. Sebelum Anda dapat menghapus host, Anda harus menghapus semua koneksi yang terkait dengan host.  

```
aws codestar-connections delete-host \
    --host-arn "arn:aws:codestar-connections:us-east-1 :123456789012:host/My-Host-28aef605"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus host (CLI)](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-host-delete.html#connections-host-delete-cli) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [DeleteHost](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/delete-host.html)di *Referensi AWS CLI Perintah*. 

### `get-connection`
<a name="codestar-connections_GetConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connection`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang koneksi**  
`get-connection`Contoh berikut menunjukkan rincian tentang koneksi.  

```
aws codestar-connections get-connection \
    --connection-arn arn:aws:codestar-connections:us-east-1:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f
```
Output:  

```
{
    "Connection": {
        "ConnectionName": "MyConnection",
        "ConnectionArn": "arn:aws:codestar-connections:us-east-1:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f",
        "ProviderType": "Bitbucket",
        "OwnerAccountId": "123456789012",
        "ConnectionStatus": "AVAILABLE"
    }
}
```
Untuk informasi selengkapnya, [lihat Melihat detail koneksi](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-view-details.html) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [GetConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/get-connection.html)di *Referensi AWS CLI Perintah*. 

### `get-host`
<a name="codestar-connections_GetHost_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-host`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang host**  
`get-host`Contoh berikut menunjukkan rincian tentang host:  

```
aws codestar-connections get-host \
    --host-arn arn:aws:codestar-connections:us-east-1:123456789012:host/MyHost-28aef605
```
Output:  

```
{
    "Name": "MyHost",
    "Status": "AVAILABLE",
    "ProviderType": "GitHubEnterpriseServer",
    "ProviderEndpoint": "https://test-instance-1.dev/"
}
```
Untuk informasi selengkapnya, [lihat Melihat detail host (CLI)](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-host-view.html#connections-host-view-cli) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [GetHost](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/get-host.html)di *Referensi AWS CLI Perintah*. 

### `list-connections`
<a name="codestar-connections_ListConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-connections`.

**AWS CLI**  
**Untuk membuat daftar koneksi**  
`list-connections`Contoh berikut mengambil daftar semua koneksi di akun Anda untuk jenis penyedia Bitbucket. :  

```
aws codestar-connections list-connections \
--provider-type Bitbucket \
--max-results 5 \
--next-token: next-token
```
Output:  

```
{
    "Connections": [
        {
            "ConnectionName": "my-connection",
            "ProviderType": "Bitbucket",
            "Status": "PENDING",
            "ARN": "arn:aws:codestar-connections:us-east-1:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f",
            "OwnerAccountId": "123456789012"
        },
        {
            "ConnectionName": "my-other-connection",
            "ProviderType": "Bitbucket",
            "Status": "AVAILABLE",
            "ARN": "arn:aws:codestar-connections:us-east-1:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f",
            "OwnerAccountId": "123456789012"
        },
    ],
    "NextToken": "next-token"
}
```
Untuk informasi selengkapnya, lihat [Daftar koneksi (CLI)](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-list.html#connections-list-cli) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [ListConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/list-connections.html)di *Referensi AWS CLI Perintah*. 

### `list-hosts`
<a name="codestar-connections_ListHosts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-hosts`.

**AWS CLI**  
**Untuk daftar host**  
`list-hosts`Contoh berikut mengambil daftar semua host di akun Anda.  

```
aws codestar-connections list-hosts
```
Output:  

```
{
    "Hosts": [
        {
            "Name": "My-Host",
            "HostArn": "arn:aws:codestar-connections:us-east-1:123456789012:host/My-Host-28aef605",
            "ProviderType": "GitHubEnterpriseServer",
            "ProviderEndpoint": "https://my-instance.test.dev",
            "Status": "AVAILABLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar host (CLI)](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-host-list.html) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [ListHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/list-hosts.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="codestar-connections_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag**  
`list-tags-for-resource`Contoh berikut mengambil daftar semua tag yang dilampirkan ke sumber daya koneksi tertentu.  

```
aws codestar-connections list-tags-for-resource \
    --resource-arn arn:aws:codestar-connections:us-east-1:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Project",
            "Value": "ProjectA"
        },
        {
            "Key": "ReadOnly",
            "Value": "true"
        }
    ]
}
```
Untuk informasi selengkapnya, [lihat Melihat tag untuk sumber daya koneksi](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-tag.html#connections-tag-view) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="codestar-connections_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut mengaitkan satu set tag yang disediakan dengan koneksi. Gunakan perintah ini untuk menambah atau mengedit tag.  

```
aws codestar-connections tag-resource \
    --resource-arn arn:aws:codestar-connections:us-east-1:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f \
    --tags Key=Project,Value=ProjectA Key=IscontainerBased,Value=true
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan tag ke sumber daya koneksi](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-tag.html#connections-tag-add) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="codestar-connections_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus AWS tag dari sumber daya koneksi**  
Berikut ini `untag-resource` menghapus tag dari sumber daya yang ditentukan.  

```
aws codestar-connections untag-resource \
    --resource-arn arn:aws:codestar-connections:us-east-1:123456789012:connection/aEXAMPLE-8aad-4d5d-8878-dfcab0bc441f \
    --tag-keys Project ReadOnly
```
Output:  

```
{
    "Tags": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus tag dari sumber daya koneksi](https://docs.aws.amazon.com/dtconsole/latest/userguide/connections-tag.html#connections-tag-delete) di *Panduan Pengguna konsol Alat Pengembang*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/codestar-connections/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# Contoh Identitas Amazon Cognito menggunakan AWS CLI
<a name="cli_2_cognito-identity_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Identitas Cognito AWS Command Line Interface With Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-identity-pool`
<a name="cognito-identity_CreateIdentityPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-identity-pool`.

**AWS CLI**  
**Untuk membuat kumpulan identitas dengan penyedia kumpulan identitas Cognito**  
Contoh ini membuat kumpulan identitas bernama MyIdentityPool. Ini memiliki penyedia kumpulan identitas Cognito. Identitas yang tidak diautentikasi tidak diperbolehkan.  
Perintah:  

```
aws cognito-identity create-identity-pool --identity-pool-name MyIdentityPool --no-allow-unauthenticated-identities --cognito-identity-providers ProviderName="cognito-idp.us-west-2.amazonaws.com/us-west-2_aaaaaaaaa",ClientId="3n4b5urk1ft4fl3mg5e62d9ado",ServerSideTokenCheck=false
```
Output:  

```
{
  "IdentityPoolId": "us-west-2:11111111-1111-1111-1111-111111111111",
  "IdentityPoolName": "MyIdentityPool",
  "AllowUnauthenticatedIdentities": false,
  "CognitoIdentityProviders": [
      {
          "ProviderName": "cognito-idp.us-west-2.amazonaws.com/us-west-2_111111111",
          "ClientId": "3n4b5urk1ft4fl3mg5e62d9ado",
          "ServerSideTokenCheck": false
      }
  ]
}
```
+  Untuk detail API, lihat [CreateIdentityPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-identity/create-identity-pool.html)di *Referensi AWS CLI Perintah*. 

### `delete-identities`
<a name="cognito-identity_DeleteIdentities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-identities`.

**AWS CLI**  
**Untuk menghapus kumpulan identitas**  
Contoh ini menghapus kumpulan identitas.  
Perintah:  

```
aws cognito-identity delete-identity-pool --identity-ids-to-delete "us-west-2:11111111-1111-1111-1111-111111111111"
```
Output:  

```
{
  "UnprocessedIdentityIds": []
}
```
+  Untuk detail API, lihat [DeleteIdentities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-identity/delete-identities.html)di *Referensi AWS CLI Perintah*. 

### `delete-identity-pool`
<a name="cognito-identity_DeleteIdentityPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-identity-pool`.

**AWS CLI**  
**Untuk menghapus kumpulan identitas**  
`delete-identity-pool`Contoh berikut menghapus kumpulan identitas yang ditentukan.  
Perintah:  

```
aws cognito-identity delete-identity-pool \
    --identity-pool-id "us-west-2:11111111-1111-1111-1111-111111111111"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteIdentityPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-identity/delete-identity-pool.html)di *Referensi AWS CLI Perintah*. 

### `describe-identity-pool`
<a name="cognito-identity_DescribeIdentityPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-identity-pool`.

**AWS CLI**  
**Untuk menggambarkan kumpulan identitas**  
Contoh ini menjelaskan kumpulan identitas.  
Perintah:  

```
aws cognito-identity describe-identity-pool --identity-pool-id "us-west-2:11111111-1111-1111-1111-111111111111"
```
Output:  

```
{
  "IdentityPoolId": "us-west-2:11111111-1111-1111-1111-111111111111",
  "IdentityPoolName": "MyIdentityPool",
  "AllowUnauthenticatedIdentities": false,
  "CognitoIdentityProviders": [
      {
          "ProviderName": "cognito-idp.us-west-2.amazonaws.com/us-west-2_111111111",
          "ClientId": "3n4b5urk1ft4fl3mg5e62d9ado",
          "ServerSideTokenCheck": false
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeIdentityPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-identity/describe-identity-pool.html)di *Referensi AWS CLI Perintah*. 

### `get-identity-pool-roles`
<a name="cognito-identity_GetIdentityPoolRoles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-identity-pool-roles`.

**AWS CLI**  
**Untuk mendapatkan peran kumpulan identitas**  
Contoh ini mendapatkan peran kumpulan identitas.  
Perintah:  

```
aws cognito-identity get-identity-pool-roles --identity-pool-id "us-west-2:11111111-1111-1111-1111-111111111111"
```
Output:  

```
{
  "IdentityPoolId": "us-west-2:11111111-1111-1111-1111-111111111111",
  "Roles": {
      "authenticated": "arn:aws:iam::111111111111:role/Cognito_MyIdentityPoolAuth_Role",
      "unauthenticated": "arn:aws:iam::111111111111:role/Cognito_MyIdentityPoolUnauth_Role"
  }
}
```
+  Untuk detail API, lihat [GetIdentityPoolRoles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-identity/get-identity-pool-roles.html)di *Referensi AWS CLI Perintah*. 

### `list-identity-pools`
<a name="cognito-identity_ListIdentityPools_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-identity-pools`.

**AWS CLI**  
**Untuk membuat daftar kumpulan identitas**  
Contoh ini mencantumkan kumpulan identitas. Ada maksimal 20 identitas yang terdaftar.  
Perintah:  

```
aws cognito-identity list-identity-pools --max-results 20
```
Output:  

```
{
  "IdentityPools": [
      {
          "IdentityPoolId": "us-west-2:11111111-1111-1111-1111-111111111111",
          "IdentityPoolName": "MyIdentityPool"
      },
      {
          "IdentityPoolId": "us-west-2:11111111-1111-1111-1111-111111111111",
          "IdentityPoolName": "AnotherIdentityPool"
      },
      {
          "IdentityPoolId": "us-west-2:11111111-1111-1111-1111-111111111111",
          "IdentityPoolName": "IdentityPoolRegionA"
      }
  ]
}
```
+  Untuk detail API, lihat [ListIdentityPools](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-identity/list-identity-pools.html)di *Referensi AWS CLI Perintah*. 

### `set-identity-pool-roles`
<a name="cognito-identity_SetIdentityPoolRoles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-identity-pool-roles`.

**AWS CLI**  
**Untuk mengatur peran kumpulan identitas**  
`set-identity-pool-roles`Contoh berikut menetapkan peran kumpulan identitas.  

```
aws cognito-identity set-identity-pool-roles \
    --identity-pool-id "us-west-2:11111111-1111-1111-1111-111111111111" \
    --roles authenticated="arn:aws:iam::111111111111:role/Cognito_MyIdentityPoolAuth_Role"
```
+  Untuk detail API, lihat [SetIdentityPoolRoles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-identity/set-identity-pool-roles.html)di *Referensi AWS CLI Perintah*. 

### `update-identity-pool`
<a name="cognito-identity_UpdateIdentityPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-identity-pool`.

**AWS CLI**  
**Untuk memperbarui kumpulan identitas**  
Contoh ini memperbarui kumpulan identitas. Ini menetapkan nama untuk MyIdentityPool. Ia menambahkan Cognito sebagai penyedia identitas. Ini melarang identitas yang tidak diautentikasi.  
Perintah:  

```
aws cognito-identity update-identity-pool --identity-pool-id "us-west-2:11111111-1111-1111-1111-111111111111" --identity-pool-name "MyIdentityPool" --no-allow-unauthenticated-identities --cognito-identity-providers ProviderName="cognito-idp.us-west-2.amazonaws.com/us-west-2_111111111",ClientId="3n4b5urk1ft4fl3mg5e62d9ado",ServerSideTokenCheck=false
```
Output:  

```
{
  "IdentityPoolId": "us-west-2:11111111-1111-1111-1111-111111111111",
  "IdentityPoolName": "MyIdentityPool",
  "AllowUnauthenticatedIdentities": false,
  "CognitoIdentityProviders": [
      {
          "ProviderName": "cognito-idp.us-west-2.amazonaws.com/us-west-2_111111111",
          "ClientId": "3n4b5urk1ft4fl3mg5e62d9ado",
          "ServerSideTokenCheck": false
      }
  ]
}
```
+  Untuk detail API, lihat [UpdateIdentityPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-identity/update-identity-pool.html)di *Referensi AWS CLI Perintah*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan AWS CLI
<a name="cli_2_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Penyedia Identitas Amazon Cognito AWS Command Line Interface dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-custom-attributes`
<a name="cognito-identity-provider_AddCustomAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-custom-attributes`.

**AWS CLI**  
**Untuk menambahkan atribut kustom**  
Contoh ini menambahkan atribut kustom CustomAttr 1 ke kumpulan pengguna. Ini adalah tipe String, dan membutuhkan minimal 1 karakter dan maksimal 15. Itu tidak diperlukan.  
Perintah:  

```
aws cognito-idp add-custom-attributes --user-pool-id us-west-2_aaaaaaaaa --custom-attributes Name="CustomAttr1",AttributeDataType="String",DeveloperOnlyAttribute=false,Required=false,StringAttributeConstraints="{MinLength=1,MaxLength=15}"
```
+  Untuk detail API, lihat [AddCustomAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/add-custom-attributes.html)di *Referensi AWS CLI Perintah*. 

### `admin-add-user-to-group`
<a name="cognito-identity-provider_AdminAddUserToGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-add-user-to-group`.

**AWS CLI**  
**Untuk menambahkan pengguna ke grup**  
Contoh ini menambahkan pengguna Jane ke grup MyGroup.  
Perintah:  

```
aws cognito-idp admin-add-user-to-group --user-pool-id us-west-2_aaaaaaaaa --username Jane --group-name MyGroup
```
+  Untuk detail API, lihat [AdminAddUserToGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-add-user-to-group.html)di *Referensi AWS CLI Perintah*. 

### `admin-confirm-sign-up`
<a name="cognito-identity-provider_AdminConfirmSignUp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-confirm-sign-up`.

**AWS CLI**  
**Untuk mengonfirmasi pendaftaran pengguna**  
Contoh ini mengkonfirmasi pengguna jane@example.com.  
Perintah:  

```
aws cognito-idp admin-confirm-sign-up --user-pool-id us-west-2_aaaaaaaaa --username jane@example.com
```
+  Untuk detail API, lihat [AdminConfirmSignUp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-confirm-sign-up.html)di *Referensi AWS CLI Perintah*. 

### `admin-create-user`
<a name="cognito-identity-provider_AdminCreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-create-user`.

**AWS CLI**  
**Untuk membuat pengguna**  
`admin-create-user`Contoh berikut membuat pengguna dengan pengaturan alamat email dan nomor telepon yang ditentukan.  

```
aws cognito-idp admin-create-user \
    --user-pool-id us-west-2_aaaaaaaaa \
    --username diego \
    --user-attributes Name=email,Value=diego@example.com Name=phone_number,Value="+15555551212" \
    --message-action SUPPRESS
```
Output:  

```
{
    "User": {
        "Username": "diego",
        "Attributes": [
            {
                "Name": "sub",
                "Value": "7325c1de-b05b-4f84-b321-9adc6e61f4a2"
            },
            {
                "Name": "phone_number",
                "Value": "+15555551212"
            },
            {
                "Name": "email",
                "Value": "diego@example.com"
            }
        ],
        "UserCreateDate": 1548099495.428,
        "UserLastModifiedDate": 1548099495.428,
        "Enabled": true,
        "UserStatus": "FORCE_CHANGE_PASSWORD"
    }
}
```
+  Untuk detail API, lihat [AdminCreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-create-user.html)di *Referensi AWS CLI Perintah*. 

### `admin-delete-user-attributes`
<a name="cognito-identity-provider_AdminDeleteUserAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-delete-user-attributes`.

**AWS CLI**  
**Untuk menghapus atribut pengguna**  
Contoh ini menghapus atribut kustom CustomAttr 1 untuk pengguna diego@example.com.  
Perintah:  

```
aws cognito-idp admin-delete-user-attributes --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com --user-attribute-names "custom:CustomAttr1"
```
+  Untuk detail API, lihat [AdminDeleteUserAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-delete-user-attributes.html)di *Referensi AWS CLI Perintah*. 

### `admin-delete-user`
<a name="cognito-identity-provider_AdminDeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna**  
Contoh ini menghapus pengguna.  
Perintah:  

```
aws cognito-idp admin-delete-user --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com
```
+  Untuk detail API, lihat [AdminDeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-delete-user.html)di *Referensi AWS CLI Perintah*. 

### `admin-disable-provider-for-user`
<a name="cognito-identity-provider_AdminDisableProviderForUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-disable-provider-for-user`.

**AWS CLI**  
**Untuk memutuskan tautan pengguna federasi dari profil pengguna lokal**  
`admin-disable-provider-for-user`Contoh berikut memutus pengguna Google dari profil lokal tertaut mereka.  

```
aws cognito-idp admin-disable-provider-for-user \
    --user-pool-id us-west-2_EXAMPLE \
    --user ProviderAttributeName=Cognito_Subject,ProviderAttributeValue=0000000000000000,ProviderName=Google
```
Untuk informasi selengkapnya, lihat [Menautkan pengguna gabungan ke profil pengguna yang ada](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-identity-federation-consolidate-users.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [AdminDisableProviderForUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-disable-provider-for-user.html)di *Referensi AWS CLI Perintah*. 

### `admin-disable-user`
<a name="cognito-identity-provider_AdminDisableUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-disable-user`.

**AWS CLI**  
**Untuk mencegah login oleh pengguna**  
`admin-disable-user`Contoh berikut mencegah login oleh pengguna`diego@example.com`.  

```
aws cognito-idp admin-disable-user \
    --user-pool-id us-west-2_EXAMPLE \
    --username diego@example.com
```
Untuk informasi selengkapnya, lihat [Mengelola pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/managing-users.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [AdminDisableUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-disable-user.html)di *Referensi AWS CLI Perintah*. 

### `admin-enable-user`
<a name="cognito-identity-provider_AdminEnableUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-enable-user`.

**AWS CLI**  
**Untuk mengaktifkan login oleh pengguna**  
`admin-enable-user`Contoh berikut memungkinkan login oleh pengguna diego@example.com.  

```
aws cognito-idp admin-enable-user \
    --user-pool-id us-west-2_EXAMPLE \
    --username diego@example.com
```
Untuk informasi selengkapnya, lihat [Mengelola pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/managing-users.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [AdminEnableUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-enable-user.html)di *Referensi AWS CLI Perintah*. 

### `admin-forget-device`
<a name="cognito-identity-provider_AdminForgetDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-forget-device`.

**AWS CLI**  
**Untuk melupakan perangkat**  
Contoh ini lupa perangkat untuk nama pengguna jane@example.com  
Perintah:  

```
aws cognito-idp admin-forget-device --user-pool-id us-west-2_aaaaaaaaa --username jane@example.com --device-key us-west-2_abcd_1234-5678
```
+  Untuk detail API, lihat [AdminForgetDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-forget-device.html)di *Referensi AWS CLI Perintah*. 

### `admin-get-device`
<a name="cognito-identity-provider_AdminGetDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-get-device`.

**AWS CLI**  
**Untuk mendapatkan perangkat**  
`admin-get-device`Contoh berikut menampilkan satu perangkat untuk pengguna`diego`.  

```
aws cognito-idp admin-get-device \
    --user-pool-id us-west-2_EXAMPLE \
    --username diego \
    --device-key us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "Device": {
        "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "DeviceAttributes": [
            {
                "Name": "device_status",
                "Value": "valid"
            },
            {
                "Name": "device_name",
                "Value": "MyDevice"
            },
            {
                "Name": "dev:device_arn",
                "Value": "arn:aws:cognito-idp:us-west-2:123456789012:owner/diego.us-west-2_EXAMPLE/device/us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
            },
            {
                "Name": "dev:device_owner",
                "Value": "diego.us-west-2_EXAMPLE"
            },
            {
                "Name": "last_ip_used",
                "Value": "192.0.2.1"
            },
            {
                "Name": "dev:device_remembered_status",
                "Value": "remembered"
            },
            {
                "Name": "dev:device_sdk",
                "Value": "aws-sdk"
            }
        ],
        "DeviceCreateDate": 1715100742.022,
        "DeviceLastModifiedDate": 1723233651.167,
        "DeviceLastAuthenticatedDate": 1715100742.0
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan perangkat pengguna di kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-device-tracking.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [AdminGetDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-get-device.html)di *Referensi AWS CLI Perintah*. 

### `admin-get-user`
<a name="cognito-identity-provider_AdminGetUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-get-user`.

**AWS CLI**  
**Untuk mendapatkan pengguna**  
Contoh ini mendapatkan informasi tentang nama pengguna jane@example.com.  
Perintah:  

```
aws cognito-idp admin-get-user --user-pool-id us-west-2_aaaaaaaaa --username jane@example.com
```
Output:  

```
{
  "Username": "4320de44-2322-4620-999b-5e2e1c8df013",
  "Enabled": true,
  "UserStatus": "FORCE_CHANGE_PASSWORD",
  "UserCreateDate": 1548108509.537,
  "UserAttributes": [
      {
          "Name": "sub",
          "Value": "4320de44-2322-4620-999b-5e2e1c8df013"
      },
      {
          "Name": "email_verified",
          "Value": "true"
      },
      {
          "Name": "phone_number_verified",
          "Value": "true"
      },
      {
          "Name": "phone_number",
          "Value": "+01115551212"
      },
      {
          "Name": "email",
          "Value": "jane@example.com"
      }
  ],
  "UserLastModifiedDate": 1548108509.537
}
```
+  Untuk detail API, lihat [AdminGetUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-get-user.html)di *Referensi AWS CLI Perintah*. 

### `admin-initiate-auth`
<a name="cognito-identity-provider_AdminInitiateAuth_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-initiate-auth`.

**AWS CLI**  
**Untuk masuk pengguna sebagai admin**  
`admin-initiate-auth`Contoh tanda berikut di pengguna diego@example.com. Contoh ini juga mencakup metadata untuk perlindungan ancaman dan untuk pemicu ClientMetadata Lambda. Pengguna dikonfigurasi untuk TOTP MFA dan menerima tantangan untuk memberikan kode dari aplikasi autentikator mereka sebelum mereka dapat menyelesaikan otentikasi.  

```
aws cognito-idp admin-initiate-auth \
    --user-pool-id us-west-2_EXAMPLE \
    --client-id 1example23456789 \
    --auth-flow ADMIN_USER_PASSWORD_AUTH \
    --auth-parameters USERNAME=diego@example.com,PASSWORD="My@Example$Password3!",SECRET_HASH=ExampleEncodedClientIdSecretAndUsername= \
    --context-data="{\"EncodedData\":\"abc123example\",\"HttpHeaders\":[{\"headerName\":\"UserAgent\",\"headerValue\":\"Mozilla/5.0 (Windows NT 6.1; Win64; x64; rv:47.0) Gecko/20100101 Firefox/47.0\"}],\"IpAddress\":\"192.0.2.1\",\"ServerName\":\"example.com\",\"ServerPath\":\"/login\"}" \
    --client-metadata="{\"MyExampleKey\": \"MyExampleValue\"}"
```
Output:  

```
{
    "ChallengeName": "SOFTWARE_TOKEN_MFA",
    "Session": "AYABeExample...",
    "ChallengeParameters": {
        "FRIENDLY_DEVICE_NAME": "MyAuthenticatorApp",
        "USER_ID_FOR_SRP": "diego@example.com"
    }
}
```
Untuk informasi selengkapnya, lihat [Alur otentikasi admin](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-authentication-flow.html#amazon-cognito-user-pools-admin-authentication-flow) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [AdminInitiateAuth](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-initiate-auth.html)di *Referensi AWS CLI Perintah*. 

### `admin-link-provider-for-user`
<a name="cognito-identity-provider_AdminLinkProviderForUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-link-provider-for-user`.

**AWS CLI**  
**Untuk menautkan pengguna lokal ke pengguna federasi**  
`admin-link-provider-for-user`Contoh berikut menautkan diego pengguna lokal ke pengguna yang akan melakukan login federasi dengan Google.  

```
aws cognito-idp admin-link-provider-for-user \
    --user-pool-id us-west-2_EXAMPLE \
    --destination-user ProviderName=Cognito,ProviderAttributeValue=diego \
    --source-user ProviderAttributeName=Cognito_Subject,ProviderAttributeValue=0000000000000000,ProviderName=Google
```
Untuk informasi selengkapnya, lihat [Menautkan pengguna gabungan ke profil pengguna yang ada](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-identity-federation-consolidate-users.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [AdminLinkProviderForUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-link-provider-for-user.html)di *Referensi AWS CLI Perintah*. 

### `admin-list-devices`
<a name="cognito-identity-provider_AdminListDevices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-list-devices`.

**AWS CLI**  
**Untuk membuat daftar perangkat untuk pengguna**  
`admin-list-devices`Contoh berikut mencantumkan perangkat untuk pengguna diego.  

```
aws cognito-idp admin-list-devices \
    --user-pool-id us-west-2_EXAMPLE \
    --username diego \
    --limit 1
```
Output:  

```
{
    "Devices": [
        {
            "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "DeviceAttributes": [
                {
                    "Name": "device_status",
                    "Value": "valid"
                },
                {
                    "Name": "device_name",
                    "Value": "MyDevice"
                },
                {
                    "Name": "dev:device_arn",
                    "Value": "arn:aws:cognito-idp:us-west-2:123456789012:owner/diego.us-west-2_EXAMPLE/device/us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
                },
                {
                    "Name": "dev:device_owner",
                    "Value": "diego.us-west-2_EXAMPLE"
                },
                {
                    "Name": "last_ip_used",
                    "Value": "192.0.2.1"
                },
                {
                    "Name": "dev:device_remembered_status",
                    "Value": "remembered"
                },
                {
                    "Name": "dev:device_sdk",
                    "Value": "aws-sdk"
                }
            ],
            "DeviceCreateDate": 1715100742.022,
            "DeviceLastModifiedDate": 1723233651.167,
            "DeviceLastAuthenticatedDate": 1715100742.0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan perangkat pengguna di kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-device-tracking.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [AdminListDevices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-list-devices.html)di *Referensi AWS CLI Perintah*. 

### `admin-list-groups-for-user`
<a name="cognito-identity-provider_AdminListGroupsForUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-list-groups-for-user`.

**AWS CLI**  
**Untuk membuat daftar grup untuk pengguna**  
Contoh ini mencantumkan grup untuk nama pengguna jane@example.com.  
Perintah:  

```
aws cognito-idp admin-list-groups-for-user --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com
```
Output:  

```
{
  "Groups": [
      {
          "Description": "Sample group",
          "Precedence": 1,
          "LastModifiedDate": 1548097827.125,
          "RoleArn": "arn:aws:iam::111111111111:role/SampleRole",
          "GroupName": "SampleGroup",
          "UserPoolId": "us-west-2_aaaaaaaaa",
          "CreationDate": 1548097827.125
      }
  ]
}
```
+  Untuk detail API, lihat [AdminListGroupsForUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-list-groups-for-user.html)di *Referensi AWS CLI Perintah*. 

### `admin-list-user-auth-events`
<a name="cognito-identity-provider_AdminListUserAuthEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-list-user-auth-events`.

**AWS CLI**  
**Untuk mencantumkan acara otorisasi untuk pengguna**  
`admin-list-user-auth-events`Contoh berikut mencantumkan peristiwa log aktivitas pengguna terbaru untuk diego pengguna.  

```
aws cognito-idp admin-list-user-auth-events \
    --user-pool-id us-west-2_ywDJHlIfU \
    --username brcotter+050123 \
    --max-results 1
```
Output:  

```
{
    "AuthEvents": [
        {
            "EventId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "EventType": "SignIn",
            "CreationDate": 1726694203.495,
            "EventResponse": "InProgress",
            "EventRisk": {
                "RiskDecision": "AccountTakeover",
                "RiskLevel": "Medium",
                "CompromisedCredentialsDetected": false
            },
            "ChallengeResponses": [
                {
                    "ChallengeName": "Password",
                    "ChallengeResponse": "Success"
                }
            ],
            "EventContextData": {
                "IpAddress": "192.0.2.1",
                "City": "Seattle",
                "Country": "United States"
            }
        }
    ],
    "NextToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222#2024-09-18T21:16:43.495Z"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan mengekspor riwayat peristiwa pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pool-settings-adaptive-authentication.html#user-pool-settings-adaptive-authentication-event-user-history) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [AdminListUserAuthEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-list-user-auth-events.html)di *Referensi AWS CLI Perintah*. 

### `admin-remove-user-from-group`
<a name="cognito-identity-provider_AdminRemoveUserFromGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-remove-user-from-group`.

**AWS CLI**  
**Untuk menghapus pengguna dari grup**  
Contoh ini menghapus jane@example.com dari SampleGroup.  
Perintah:  

```
aws cognito-idp admin-remove-user-from-group --user-pool-id us-west-2_aaaaaaaaa --username jane@example.com --group-name SampleGroup
```
+  Untuk detail API, lihat [AdminRemoveUserFromGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-remove-user-from-group.html)di *Referensi AWS CLI Perintah*. 

### `admin-reset-user-password`
<a name="cognito-identity-provider_AdminResetUserPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-reset-user-password`.

**AWS CLI**  
**Untuk mengatur ulang kata sandi pengguna**  
Contoh ini mengatur ulang kata sandi untuk diego@example.com.  
Perintah:  

```
aws cognito-idp admin-reset-user-password --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com
```
+  Untuk detail API, lihat [AdminResetUserPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-reset-user-password.html)di *Referensi AWS CLI Perintah*. 

### `admin-respond-to-auth-challenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-respond-to-auth-challenge`.

**AWS CLI**  
**Untuk menanggapi tantangan otentikasi**  
Ada banyak cara untuk menanggapi tantangan otentikasi yang berbeda, tergantung pada alur otentikasi Anda, konfigurasi kumpulan pengguna, dan pengaturan pengguna. `admin-respond-to-auth-challenge`Contoh berikut menyediakan kode TOTP MFA untuk diego@example.com dan menyelesaikan login. Kumpulan pengguna ini mengaktifkan memori perangkat, sehingga hasil otentikasi juga mengembalikan kunci perangkat baru.  

```
aws cognito-idp admin-respond-to-auth-challenge \
    --user-pool-id us-west-2_EXAMPLE \
    --client-id 1example23456789 \
    --challenge-name SOFTWARE_TOKEN_MFA \
    --challenge-responses USERNAME=diego@example.com,SOFTWARE_TOKEN_MFA_CODE=000000 \
    --session AYABeExample...
```
Output:  

```
{
    "ChallengeParameters": {},
    "AuthenticationResult": {
        "AccessToken": "eyJra456defEXAMPLE",
        "ExpiresIn": 3600,
        "TokenType": "Bearer",
        "RefreshToken": "eyJra123abcEXAMPLE",
        "IdToken": "eyJra789ghiEXAMPLE",
        "NewDeviceMetadata": {
            "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "DeviceGroupKey": "-ExAmPlE1"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Alur otentikasi admin](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-authentication-flow.html#amazon-cognito-user-pools-admin-authentication-flow) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [AdminRespondToAuthChallenge](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-respond-to-auth-challenge.html)di *Referensi AWS CLI Perintah*. 

### `admin-set-user-mfa-preference`
<a name="cognito-identity-provider_AdminSetUserMfaPreference_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-set-user-mfa-preference`.

**AWS CLI**  
**Untuk mengatur preferensi MFA pengguna**  
Contoh ini menetapkan preferensi SMS MFA untuk nama pengguna diego@example.com.  
Perintah:  

```
aws cognito-idp admin-set-user-mfa-preference --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com --sms-mfa-settings Enabled=false,PreferredMfa=false
```
+  Untuk detail API, lihat [AdminSetUserMfaPreference](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-set-user-mfa-preference.html)di *Referensi AWS CLI Perintah*. 

### `admin-set-user-password`
<a name="cognito-identity-provider_AdminSetUserPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-set-user-password`.

**AWS CLI**  
**Untuk mengatur kata sandi pengguna sebagai admin**  
`admin-set-user-password`Contoh berikut secara permanen menetapkan kata sandi untuk diego@example.com.  

```
aws cognito-idp admin-set-user-password \
    --user-pool-id us-west-2_EXAMPLE \
    --username diego@example.com \
    --password MyExamplePassword1! \
    --permanent
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan sandi, pemulihan kata sandi, dan kata sandi](https://docs.aws.amazon.com/cognito/latest/developerguide/managing-users-passwords.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [AdminSetUserPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-set-user-password.html)di *Referensi AWS CLI Perintah*. 

### `admin-set-user-settings`
<a name="cognito-identity-provider_AdminSetUserSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-set-user-settings`.

**AWS CLI**  
**Untuk mengatur pengaturan pengguna**  
Contoh ini menetapkan preferensi pengiriman MFA untuk nama pengguna diego@example.com ke EMAIL.  
Perintah:  

```
aws cognito-idp admin-set-user-settings --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com --mfa-options DeliveryMedium=EMAIL
```
+  Untuk detail API, lihat [AdminSetUserSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-set-user-settings.html)di *Referensi AWS CLI Perintah*. 

### `admin-update-auth-event-feedback`
<a name="cognito-identity-provider_AdminUpdateAuthEventFeedback_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-update-auth-event-feedback`.

**AWS CLI**  
**Untuk memberikan umpan balik untuk acara otorisasi**  
Contoh ini menetapkan nilai umpan balik untuk peristiwa otorisasi yang diidentifikasi oleh event-id ke Valid.  
Perintah:  

```
aws cognito-idp admin-update-auth-event-feedback --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com --event-id c2c2cf89-c0d3-482d-aba6-99d78a5b0bfe --feedback-value Valid
```
+  Untuk detail API, lihat [AdminUpdateAuthEventFeedback](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-update-auth-event-feedback.html)di *Referensi AWS CLI Perintah*. 

### `admin-update-device-status`
<a name="cognito-identity-provider_AdminUpdateDeviceStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-update-device-status`.

**AWS CLI**  
**Untuk memperbarui status perangkat**  
Contoh ini menyetel status perangkat yang diingat untuk perangkat yang diidentifikasi oleh device-key ke not\$1remembered.  
Perintah:  

```
aws cognito-idp admin-update-device-status --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com --device-key xxxx  --device-remembered-status not_remembered
```
+  Untuk detail API, lihat [AdminUpdateDeviceStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-update-device-status.html)di *Referensi AWS CLI Perintah*. 

### `admin-update-user-attributes`
<a name="cognito-identity-provider_AdminUpdateUserAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-update-user-attributes`.

**AWS CLI**  
**Untuk memperbarui atribut pengguna**  
Contoh ini memperbarui atribut pengguna kustom CustomAttr 1 untuk pengguna diego@example.com.  
Perintah:  

```
aws cognito-idp admin-update-user-attributes --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com --user-attributes Name="custom:CustomAttr1",Value="Purple"
```
+  Untuk detail API, lihat [AdminUpdateUserAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-update-user-attributes.html)di *Referensi AWS CLI Perintah*. 

### `admin-user-global-sign-out`
<a name="cognito-identity-provider_AdminUserGlobalSignOut_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`admin-user-global-sign-out`.

**AWS CLI**  
**Untuk keluar dari pengguna sebagai admin**  
`admin-user-global-sign-out`Contoh berikut menunjukkan pengguna diego@example.com.  

```
aws cognito-idp admin-user-global-sign-out \
    --user-pool-id us-west-2_EXAMPLE \
    --username diego@example.com
```
Untuk informasi selengkapnya, lihat [Otentikasi dengan kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/authentication.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [AdminUserGlobalSignOut](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/admin-user-global-sign-out.html)di *Referensi AWS CLI Perintah*. 

### `associate-software-token`
<a name="cognito-identity-provider_AssociateSoftwareToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-software-token`.

**AWS CLI**  
**Untuk menghasilkan kunci rahasia untuk aplikasi autentikator MFA**  
`associate-software-token`Contoh berikut menghasilkan kunci pribadi TOTP untuk pengguna yang telah masuk dan menerima token akses. Kunci pribadi yang dihasilkan dapat dimasukkan secara manual ke dalam aplikasi autentikator, atau aplikasi dapat menjadikannya sebagai kode QR yang dapat dipindai pengguna.  

```
aws cognito-idp associate-software-token \
    --access-token eyJra456defEXAMPLE
```
Output:  

```
{
    "SecretCode": "QWERTYUIOP123456EXAMPLE"
}
```
*Untuk informasi selengkapnya, lihat [TOTP token perangkat lunak MFA di Panduan Pengembang](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa-totp.html) Amazon Cognito.*  
+  Untuk detail API, lihat [AssociateSoftwareToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/associate-software-token.html)di *Referensi AWS CLI Perintah*. 

### `change-password`
<a name="cognito-identity-provider_ChangePassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`change-password`.

**AWS CLI**  
**Untuk mengubah kata sandi**  
Contoh ini mengubah kata sandi.  
Perintah:  

```
aws cognito-idp change-password --previous-password OldPassword --proposed-password NewPassword --access-token ACCESS_TOKEN
```
+  Untuk detail API, lihat [ChangePassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/change-password.html)di *Referensi AWS CLI Perintah*. 

### `confirm-device`
<a name="cognito-identity-provider_ConfirmDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-device`.

**AWS CLI**  
**Untuk mengonfirmasi perangkat pengguna**  
`confirm-device`Contoh berikut menambahkan perangkat baru yang diingat untuk pengguna saat ini.  

```
aws cognito-idp confirm-device \
   --access-token eyJra456defEXAMPLE \
   --device-key us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
   --device-secret-verifier-config PasswordVerifier=TXlWZXJpZmllclN0cmluZw,Salt=TXlTUlBTYWx0
```
Output:  

```
{
     "UserConfirmationNecessary": false
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan perangkat pengguna di kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-device-tracking.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [ConfirmDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/confirm-device.html)di *Referensi AWS CLI Perintah*. 

### `confirm-forgot-password`
<a name="cognito-identity-provider_ConfirmForgotPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-forgot-password`.

**AWS CLI**  
**Untuk mengonfirmasi kata sandi yang terlupakan**  
Contoh ini mengonfirmasi kata sandi yang terlupakan untuk nama pengguna diego@example.com.  
Perintah:  

```
aws cognito-idp confirm-forgot-password --client-id 3n4b5urk1ft4fl3mg5e62d9ado --username=diego@example.com --password PASSWORD --confirmation-code CONF_CODE
```
+  Untuk detail API, lihat [ConfirmForgotPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/confirm-forgot-password.html)di *Referensi AWS CLI Perintah*. 

### `confirm-sign-up`
<a name="cognito-identity-provider_ConfirmSignUp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-sign-up`.

**AWS CLI**  
**Untuk mengonfirmasi pendaftaran**  
Contoh ini mengonfirmasi pendaftaran untuk nama pengguna diego@example.com.  
Perintah:  

```
aws cognito-idp confirm-sign-up --client-id 3n4b5urk1ft4fl3mg5e62d9ado --username=diego@example.com --confirmation-code CONF_CODE
```
+  Untuk detail API, lihat [ConfirmSignUp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/confirm-sign-up.html)di *Referensi AWS CLI Perintah*. 

### `create-group`
<a name="cognito-identity-provider_CreateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group`.

**AWS CLI**  
**Untuk membuat grup**  
Contoh ini membuat grup dengan deskripsi.  
Perintah:  

```
aws cognito-idp create-group --user-pool-id us-west-2_aaaaaaaaa --group-name MyNewGroup --description "New group."
```
Output:  

```
{
  "Group": {
      "GroupName": "MyNewGroup",
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "Description": "New group.",
      "LastModifiedDate": 1548270073.795,
      "CreationDate": 1548270073.795
  }
}
```
**Untuk membuat grup dengan peran dan prioritas**  
Contoh ini membuat grup dengan deskripsi. Ini juga mencakup peran dan prioritas.  
Perintah:  

```
aws cognito-idp create-group --user-pool-id us-west-2_aaaaaaaaa --group-name MyNewGroupWithRole --description "New group with a role." --role-arn arn:aws:iam::111111111111:role/MyNewGroupRole --precedence 2
```
Output:  

```
{
  "Group": {
      "GroupName": "MyNewGroupWithRole",
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "Description": "New group with a role.",
      "RoleArn": "arn:aws:iam::111111111111:role/MyNewGroupRole",
      "Precedence": 2,
      "LastModifiedDate": 1548270211.761,
      "CreationDate": 1548270211.761
  }
}
```
+  Untuk detail API, lihat [CreateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/create-group.html)di *Referensi AWS CLI Perintah*. 

### `create-identity-provider`
<a name="cognito-identity-provider_CreateIdentityProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-identity-provider`.

**AWS CLI**  
**Contoh 1: Untuk membuat kumpulan pengguna penyedia identitas SAMP (iDP) dengan URL metadata**  
`create-identity-provider`Contoh berikut membuat IDP SAMP baru dengan metadata dari URL publik, pemetaan atribut, dan dua pengidentifikasi.  

```
aws cognito-idp create-identity-provider \
    --user-pool-id us-west-2_EXAMPLE \
    --provider-name MySAML \
    --provider-type SAML \
    --provider-details IDPInit=true,IDPSignout=true,EncryptedResponses=true,MetadataURL=https://auth.example.com/sso/saml/metadata,RequestSigningAlgorithm=rsa-sha256 \
    --attribute-mapping email=emailaddress,phone_number=phone,custom:111=department \
    --idp-identifiers CorpSAML WestSAML
```
Output:  

```
{
    "IdentityProvider": {
        "UserPoolId": "us-west-2_EXAMPLE",
        "ProviderName": "MySAML",
        "ProviderType": "SAML",
        "ProviderDetails": {
            "ActiveEncryptionCertificate": "MIICvTCCAaEXAMPLE",
            "EncryptedResponses": "true",
            "IDPInit": "true",
            "IDPSignout": "true",
            "MetadataURL": "https://auth.example.com/sso/saml/metadata",
            "RequestSigningAlgorithm": "rsa-sha256",
            "SLORedirectBindingURI": "https://auth.example.com/slo/saml",
            "SSORedirectBindingURI": "https://auth.example.com/sso/saml"
        },
        "AttributeMapping": {
            "custom:111": "department",
            "emailaddress": "email",
            "phone": "phone_number"
        },
        "IdpIdentifiers": [
            "CorpSAML",
            "WestSAML"
        ],
        "LastModifiedDate": 1726853833.977,
        "CreationDate": 1726853833.977
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan login kumpulan pengguna melalui pihak ketiga](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-identity-federation.html) di Panduan Pengembang *Amazon Cognito*.  
**Contoh 2: Untuk membuat kumpulan pengguna penyedia identitas SAMP (iDP) dengan file metadata**  
`create-identity-provider`Contoh berikut membuat IDP SAMP baru dengan metadata dari file, pemetaan atribut, dan dua pengidentifikasi. Sintaks file dapat berbeda antara sistem operasi dalam `--provider-details` parameter. Cara termudah untuk membuat file input JSON untuk operasi ini. :  

```
aws cognito-idp create-identity-provider \
    --cli-input-json file://.\SAML-identity-provider.json
```
Isi dari `SAML-identity-provider.json`:  

```
{
    "AttributeMapping": {
        "email" : "idp_email",
        "email_verified" : "idp_email_verified"
    },
    "IdpIdentifiers": [ "platform" ],
    "ProviderDetails": {
        "MetadataFile": "<md:EntityDescriptor xmlns:md=\"urn:oasis:names:tc:SAML:2.0:metadata\" entityID=\"http://www.example.com/sso\"><md:IDPSSODescriptor WantAuthnRequestsSigned=\"false\" protocolSupportEnumeration=\"urn:oasis:names:tc:SAML:2.0:protocol\"><md:KeyDescriptor use=\"signing\"><ds:KeyInfo xmlns:ds=\"http://www.w3.org/2000/09/xmldsig#\"><ds:X509Data><ds:X509Certificate>[IDP_CERTIFICATE_DATA]</ds:X509Certificate></ds:X509Data></ds:KeyInfo></md:KeyDescriptor><md:SingleLogoutService Binding=\"urn:oasis:names:tc:SAML:2.0:bindings:HTTP-POST\" Location=\"https://www.example.com/slo/saml\"/><md:SingleLogoutService Binding=\"urn:oasis:names:tc:SAML:2.0:bindings:HTTP-Redirect\" Location=\"https://www.example.com/slo/saml\"/><md:NameIDFormat>urn:oasis:names:tc:SAML:1.1:nameid-format:unspecified</md:NameIDFormat><md:NameIDFormat>urn:oasis:names:tc:SAML:1.1:nameid-format:emailAddress</md:NameIDFormat><md:SingleSignOnService Binding=\"urn:oasis:names:tc:SAML:2.0:bindings:HTTP-POST\" Location=\"https://www.example.com/sso/saml\"/><md:SingleSignOnService Binding=\"urn:oasis:names:tc:SAML:2.0:bindings:HTTP-Redirect\" Location=\"https://www.example.com/sso/saml\"/></md:IDPSSODescriptor></md:EntityDescriptor>",
        "IDPSignout" : "true",
        "RequestSigningAlgorithm" : "rsa-sha256",
        "EncryptedResponses" : "true",
        "IDPInit" : "true"
    },
    "ProviderName": "MySAML2",
    "ProviderType": "SAML",
    "UserPoolId": "us-west-2_EXAMPLE"
}
```
Output:  

```
{
    "IdentityProvider": {
        "UserPoolId": "us-west-2_EXAMPLE",
        "ProviderName": "MySAML2",
        "ProviderType": "SAML",
        "ProviderDetails": {
            "ActiveEncryptionCertificate": "[USER_POOL_ENCRYPTION_CERTIFICATE_DATA]",
            "EncryptedResponses": "true",
            "IDPInit": "true",
            "IDPSignout": "true",
            "MetadataFile": "<md:EntityDescriptor xmlns:md=\"urn:oasis:names:tc:SAML:2.0:metadata\" entityID=\"http://www.example.com/sso\"><md:IDPSSODescriptor WantAuthnRequestsSigned=\"false\" protocolSupportEnumeration=\"urn:oasis:names:tc:SAML:2.0:protocol\"><md:KeyDescriptor use=\"signing\"><ds:KeyInfo xmlns:ds=\"http://www.w3.org/2000/09/xmldsig#\"><ds:X509Data><ds:X509Certificate>[IDP_CERTIFICATE_DATA]</ds:X509Certificate></ds:X509Data></ds:KeyInfo></md:KeyDescriptor><md:SingleLogoutService Binding=\"urn:oasis:names:tc:SAML:2.0:bindings:HTTP-POST\" Location=\"https://www.example.com/slo/saml\"/><md:SingleLogoutService Binding=\"urn:oasis:names:tc:SAML:2.0:bindings:HTTP-Redirect\" Location=\"https://www.example.com/slo/saml\"/><md:NameIDFormat>urn:oasis:names:tc:SAML:1.1:nameid-format:unspecified</md:NameIDFormat><md:NameIDFormat>urn:oasis:names:tc:SAML:1.1:nameid-format:emailAddress</md:NameIDFormat><md:SingleSignOnService Binding=\"urn:oasis:names:tc:SAML:2.0:bindings:HTTP-POST\" Location=\"https://www.example.com/sso/saml\"/><md:SingleSignOnService Binding=\"urn:oasis:names:tc:SAML:2.0:bindings:HTTP-Redirect\" Location=\"https://www.example.com/sso/saml\"/></md:IDPSSODescriptor></md:EntityDescriptor>",
            "RequestSigningAlgorithm": "rsa-sha256",
            "SLORedirectBindingURI": "https://www.example.com/slo/saml",
            "SSORedirectBindingURI": "https://www.example.com/sso/saml"
        },
        "AttributeMapping": {
            "email": "idp_email",
            "email_verified": "idp_email_verified"
        },
        "IdpIdentifiers": [
            "platform"
        ],
        "LastModifiedDate": 1726855290.731,
        "CreationDate": 1726855290.731
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan login kumpulan pengguna melalui pihak ketiga](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-identity-federation.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [CreateIdentityProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/create-identity-provider.html)di *Referensi AWS CLI Perintah*. 

### `create-resource-server`
<a name="cognito-identity-provider_CreateResourceServer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource-server`.

**AWS CLI**  
**Untuk membuat klien kumpulan pengguna**  
`create-resource-server`Contoh berikut membuat server sumber daya baru dengan cakupan kustom.  

```
aws cognito-idp create-resource-server \
    --user-pool-id us-west-2_EXAMPLE \
    --identifier solar-system-data \
    --name "Solar system object tracker" \
    --scopes ScopeName=sunproximity.read,ScopeDescription="Distance in AU from Sol" ScopeName=asteroids.add,ScopeDescription="Enter a new asteroid"
```
Output:  

```
{
    "ResourceServer": {
        "UserPoolId": "us-west-2_EXAMPLE",
        "Identifier": "solar-system-data",
        "Name": "Solar system object tracker",
        "Scopes": [
            {
                "ScopeName": "sunproximity.read",
                "ScopeDescription": "Distance in AU from Sol"
            },
            {
                "ScopeName": "asteroids.add",
                "ScopeDescription": "Enter a new asteroid"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Cakupan, M2M, dan APIs dengan server sumber daya](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-define-resource-servers.html) di Panduan Pengembang *Amazon* Cognito.  
+  Untuk detail API, lihat [CreateResourceServer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/create-resource-server.html)di *Referensi AWS CLI Perintah*. 

### `create-user-import-job`
<a name="cognito-identity-provider_CreateUserImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user-import-job`.

**AWS CLI**  
**Untuk membuat pekerjaan impor pengguna**  
Contoh ini membuat pekerjaan impor pengguna bernama MyImportJob.  
Untuk informasi selengkapnya tentang mengimpor pengguna, lihat Mengimpor Pengguna ke Kumpulan Pengguna Dari File CSV.  
Perintah:  

```
aws cognito-idp create-user-import-job --user-pool-id us-west-2_aaaaaaaaa --job-name MyImportJob --cloud-watch-logs-role-arn arn:aws:iam::111111111111:role/CognitoCloudWatchLogsRole
```
Output:  

```
{
  "UserImportJob": {
      "JobName": "MyImportJob",
      "JobId": "import-qQ0DCt2fRh",
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "PreSignedUrl": "PRE_SIGNED_URL",
      "CreationDate": 1548271795.471,
      "Status": "Created",
      "CloudWatchLogsRoleArn": "arn:aws:iam::111111111111:role/CognitoCloudWatchLogsRole",
      "ImportedUsers": 0,
      "SkippedUsers": 0,
      "FailedUsers": 0
  }
}
```
Unggah file.csv dengan curl menggunakan URL yang telah ditandatangani sebelumnya:  
Perintah:  

```
curl -v -T "PATH_TO_CSV_FILE" -H "x-amz-server-side-encryption:aws:kms" "PRE_SIGNED_URL"
```
+  Untuk detail API, lihat [CreateUserImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/create-user-import-job.html)di *Referensi AWS CLI Perintah*. 

### `create-user-pool-client`
<a name="cognito-identity-provider_CreateUserPoolClient_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user-pool-client`.

**AWS CLI**  
**Untuk membuat klien kumpulan pengguna**  
`create-user-pool-client`Contoh berikut membuat klien kumpulan pengguna baru dengan rahasia klien, atribut baca dan tulis eksplisit, masuk dengan kata sandi pengguna dan aliran SRP, masuk dengan tiga, akses ke subset OAuth cakupan, PinPoint analitik IdPs, dan validitas sesi otentikasi yang diperpanjang.  

```
aws cognito-idp create-user-pool-client \
    --user-pool-id us-west-2_EXAMPLE \
    --client-name MyTestClient \
    --generate-secret \
    --refresh-token-validity 10 \
    --access-token-validity 60 \
    --id-token-validity 60 \
    --token-validity-units AccessToken=minutes,IdToken=minutes,RefreshToken=days \
    --read-attributes email phone_number email_verified phone_number_verified \
    --write-attributes email phone_number \
    --explicit-auth-flows ALLOW_USER_PASSWORD_AUTH ALLOW_USER_SRP_AUTH ALLOW_REFRESH_TOKEN_AUTH \
    --supported-identity-providers Google Facebook MyOIDC \
    --callback-urls https://www.amazon.com https://example.com http://localhost:8001 myapp://example \
    --allowed-o-auth-flows code implicit \
    --allowed-o-auth-scopes openid profile aws.cognito.signin.user.admin solar-system-data/asteroids.add \
    --allowed-o-auth-flows-user-pool-client \
    --analytics-configuration ApplicationArn=arn:aws:mobiletargeting:us-west-2:767671399759:apps/thisisanexamplepinpointapplicationid,UserDataShared=TRUE \
    --prevent-user-existence-errors ENABLED \
    --enable-token-revocation \
    --enable-propagate-additional-user-context-data \
    --auth-session-validity 4
```
Output:  

```
{
    "UserPoolClient": {
        "UserPoolId": "us-west-2_EXAMPLE",
        "ClientName": "MyTestClient",
        "ClientId": "123abc456defEXAMPLE",
        "ClientSecret": "this1234is5678my91011example1213client1415secret",
        "LastModifiedDate": 1726788459.464,
        "CreationDate": 1726788459.464,
        "RefreshTokenValidity": 10,
        "AccessTokenValidity": 60,
        "IdTokenValidity": 60,
        "TokenValidityUnits": {
            "AccessToken": "minutes",
            "IdToken": "minutes",
            "RefreshToken": "days"
        },
        "ReadAttributes": [
            "email_verified",
            "phone_number_verified",
            "phone_number",
            "email"
        ],
        "WriteAttributes": [
            "phone_number",
            "email"
        ],
        "ExplicitAuthFlows": [
            "ALLOW_USER_PASSWORD_AUTH",
            "ALLOW_USER_SRP_AUTH",
            "ALLOW_REFRESH_TOKEN_AUTH"
        ],
        "SupportedIdentityProviders": [
            "Google",
            "MyOIDC",
            "Facebook"
        ],
        "CallbackURLs": [
            "https://example.com",
            "https://www.amazon.com",
            "myapp://example",
            "http://localhost:8001"
        ],
        "AllowedOAuthFlows": [
            "implicit",
            "code"
        ],
        "AllowedOAuthScopes": [
            "aws.cognito.signin.user.admin",
            "openid",
            "profile",
            "solar-system-data/asteroids.add"
        ],
        "AllowedOAuthFlowsUserPoolClient": true,
        "AnalyticsConfiguration": {
            "ApplicationArn": "arn:aws:mobiletargeting:us-west-2:123456789012:apps/thisisanexamplepinpointapplicationid",
            "RoleArn": "arn:aws:iam::123456789012:role/aws-service-role/cognito-idp.amazonaws.com/AWSServiceRoleForAmazonCognitoIdp",
            "UserDataShared": true
        },
        "PreventUserExistenceErrors": "ENABLED",
        "EnableTokenRevocation": true,
        "EnablePropagateAdditionalUserContextData": true,
        "AuthSessionValidity": 4
    }
}
```
Untuk informasi selengkapnya, lihat [Setelan khusus aplikasi dengan klien aplikasi di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-client-apps.html) Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [CreateUserPoolClient](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/create-user-pool-client.html)di *Referensi AWS CLI Perintah*. 

### `create-user-pool-domain`
<a name="cognito-identity-provider_CreateUserPoolDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user-pool-domain`.

**AWS CLI**  
**Contoh 1: Untuk membuat domain pool pengguna**  
`create-user-pool-domain`Contoh berikut membuat domain kustom baru.  

```
aws cognito-idp create-user-pool-domain \
    --user-pool-id us-west-2_EXAMPLE \
    --domain auth.example.com \
    --custom-domain-config CertificateArn=arn:aws:acm:us-east-1:123456789012:certificate/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222
```
Output:  

```
{
    "CloudFrontDomain": "example1domain.cloudfront.net"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi domain kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-assign-domain.html) di Panduan Pengembang *Amazon Cognito*.  
**Contoh 2: Untuk membuat domain pool pengguna**  
`create-user-pool-domain`Contoh berikut membuat domain baru dengan awalan milik layanan.  

```
aws cognito-idp create-user-pool-domain \
    --user-pool-id us-west-2_EXAMPLE2 \
    --domain mydomainprefix
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi domain kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-assign-domain.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [CreateUserPoolDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/create-user-pool-domain.html)di *Referensi AWS CLI Perintah*. 

### `create-user-pool`
<a name="cognito-identity-provider_CreateUserPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user-pool`.

**AWS CLI**  
**Untuk membuat kumpulan pengguna yang dikonfigurasi minimal**  
Contoh ini membuat kumpulan pengguna bernama MyUserPool menggunakan nilai default. Tidak ada atribut yang diperlukan dan tidak ada klien aplikasi. MFA dan keamanan tingkat lanjut dinonaktifkan.  
Perintah:  

```
aws cognito-idp create-user-pool --pool-name MyUserPool
```
Output:  

```
{
  "UserPool": {
      "SchemaAttributes": [
          {
              "Name": "sub",
              "StringAttributeConstraints": {
                  "MinLength": "1",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": true,
              "AttributeDataType": "String",
              "Mutable": false
          },
          {
              "Name": "name",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "given_name",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "family_name",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "middle_name",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "nickname",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "preferred_username",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "profile",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "picture",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "website",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "email",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "AttributeDataType": "Boolean",
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "Name": "email_verified",
              "Mutable": true
          },
          {
              "Name": "gender",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "birthdate",
              "StringAttributeConstraints": {
                  "MinLength": "10",
                  "MaxLength": "10"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "zoneinfo",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "locale",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "phone_number",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "AttributeDataType": "Boolean",
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "Name": "phone_number_verified",
              "Mutable": true
          },
          {
              "Name": "address",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "updated_at",
              "NumberAttributeConstraints": {
                  "MinValue": "0"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "Number",
              "Mutable": true
          }
      ],
      "MfaConfiguration": "OFF",
      "Name": "MyUserPool",
      "LastModifiedDate": 1547833345.777,
      "AdminCreateUserConfig": {
          "UnusedAccountValidityDays": 7,
          "AllowAdminCreateUserOnly": false
      },
      "EmailConfiguration": {},
      "Policies": {
          "PasswordPolicy": {
              "RequireLowercase": true,
              "RequireSymbols": true,
              "RequireNumbers": true,
              "MinimumLength": 8,
              "RequireUppercase": true
          }
      },
      "CreationDate": 1547833345.777,
      "EstimatedNumberOfUsers": 0,
      "Id": "us-west-2_aaaaaaaaa",
      "LambdaConfig": {}
  }
}
```
**Untuk membuat kumpulan pengguna dengan dua atribut yang diperlukan**  
Contoh ini membuat kumpulan pengguna MyUserPool. Pool dikonfigurasi untuk menerima email sebagai atribut nama pengguna. Ini juga menetapkan alamat sumber email ke alamat yang divalidasi menggunakan Amazon Simple Email Service.  
Perintah:  

```
aws cognito-idp create-user-pool --pool-name MyUserPool --username-attributes "email" --email-configuration=SourceArn="arn:aws:ses:us-east-1:111111111111:identity/jane@example.com",ReplyToEmailAddress="jane@example.com"
```
Output:  

```
{
  "UserPool": {
      "SchemaAttributes": [
          {
              "Name": "sub",
              "StringAttributeConstraints": {
                  "MinLength": "1",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": true,
              "AttributeDataType": "String",
              "Mutable": false
          },
          {
              "Name": "name",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "given_name",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "family_name",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "middle_name",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "nickname",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "preferred_username",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "profile",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "picture",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "website",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "email",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "AttributeDataType": "Boolean",
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "Name": "email_verified",
              "Mutable": true
          },
          {
              "Name": "gender",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "birthdate",
              "StringAttributeConstraints": {
                  "MinLength": "10",
                  "MaxLength": "10"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "zoneinfo",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "locale",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "phone_number",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "AttributeDataType": "Boolean",
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "Name": "phone_number_verified",
              "Mutable": true
          },
          {
              "Name": "address",
              "StringAttributeConstraints": {
                  "MinLength": "0",
                  "MaxLength": "2048"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "String",
              "Mutable": true
          },
          {
              "Name": "updated_at",
              "NumberAttributeConstraints": {
                  "MinValue": "0"
              },
              "DeveloperOnlyAttribute": false,
              "Required": false,
              "AttributeDataType": "Number",
              "Mutable": true
          }
      ],
      "MfaConfiguration": "OFF",
      "Name": "MyUserPool",
      "LastModifiedDate": 1547837788.189,
      "AdminCreateUserConfig": {
          "UnusedAccountValidityDays": 7,
          "AllowAdminCreateUserOnly": false
      },
      "EmailConfiguration": {
          "ReplyToEmailAddress": "jane@example.com",
          "SourceArn": "arn:aws:ses:us-east-1:111111111111:identity/jane@example.com"
      },
      "Policies": {
          "PasswordPolicy": {
              "RequireLowercase": true,
              "RequireSymbols": true,
              "RequireNumbers": true,
              "MinimumLength": 8,
              "RequireUppercase": true
          }
      },
      "UsernameAttributes": [
          "email"
      ],
      "CreationDate": 1547837788.189,
      "EstimatedNumberOfUsers": 0,
      "Id": "us-west-2_aaaaaaaaa",
      "LambdaConfig": {}
  }
}
```
+  Untuk detail API, lihat [CreateUserPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/create-user-pool.html)di *Referensi AWS CLI Perintah*. 

### `delete-group`
<a name="cognito-identity-provider_DeleteGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group`.

**AWS CLI**  
**Untuk menghapus grup**  
Contoh ini menghapus grup.  
Perintah:  

```
aws cognito-idp delete-group --user-pool-id us-west-2_aaaaaaaaa  --group-name MyGroupName
```
+  Untuk detail API, lihat [DeleteGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/delete-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-identity-provider`
<a name="cognito-identity-provider_DeleteIdentityProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-identity-provider`.

**AWS CLI**  
**Untuk menghapus penyedia identitas**  
Contoh ini menghapus penyedia identitas.  
Perintah:  

```
aws cognito-idp delete-identity-provider --user-pool-id us-west-2_aaaaaaaaa --provider-name Facebook
```
+  Untuk detail API, lihat [DeleteIdentityProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/delete-identity-provider.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-server`
<a name="cognito-identity-provider_DeleteResourceServer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-server`.

**AWS CLI**  
**Untuk menghapus server sumber daya**  
Contoh ini menghapus server sumber daya bernama weather.example.com.  
Perintah:  

```
aws cognito-idp delete-resource-server --user-pool-id us-west-2_aaaaaaaaa --identifier weather.example.com
```
+  Untuk detail API, lihat [DeleteResourceServer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/delete-resource-server.html)di *Referensi AWS CLI Perintah*. 

### `delete-user-attributes`
<a name="cognito-identity-provider_DeleteUserAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user-attributes`.

**AWS CLI**  
**Untuk menghapus atribut pengguna**  
`delete-user-attributes`Contoh berikut menghapus atribut kustom “custom:attribute” dari pengguna yang saat ini masuk.  

```
aws cognito-idp delete-user-attributes \
    --access-token ACCESS_TOKEN \
    --user-attribute-names "custom:department"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan atribut pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-attributes.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [DeleteUserAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/delete-user-attributes.html)di *Referensi AWS CLI Perintah*. 

### `delete-user-pool-client`
<a name="cognito-identity-provider_DeleteUserPoolClient_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user-pool-client`.

**AWS CLI**  
**Untuk menghapus klien kumpulan pengguna**  
Contoh ini menghapus klien kumpulan pengguna.  
Perintah:  

```
aws cognito-idp delete-user-pool-client --user-pool-id us-west-2_aaaaaaaaa --client-id 38fjsnc484p94kpqsnet7mpld0
```
+  Untuk detail API, lihat [DeleteUserPoolClient](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/delete-user-pool-client.html)di *Referensi AWS CLI Perintah*. 

### `delete-user-pool-domain`
<a name="cognito-identity-provider_DeleteUserPoolDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user-pool-domain`.

**AWS CLI**  
**Untuk menghapus domain kumpulan pengguna**  
`delete-user-pool-domain`Contoh berikut menghapus domain pool pengguna bernama `my-domain`  

```
aws cognito-idp delete-user-pool-domain \
    --user-pool-id us-west-2_aaaaaaaaa \
    --domain my-domain
```
+  Untuk detail API, lihat [DeleteUserPoolDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/delete-user-pool-domain.html)di *Referensi AWS CLI Perintah*. 

### `delete-user-pool`
<a name="cognito-identity-provider_DeleteUserPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user-pool`.

**AWS CLI**  
**Untuk menghapus kumpulan pengguna**  
Contoh ini menghapus kumpulan pengguna menggunakan id kumpulan pengguna, us-west-2\$1aaaaaaaaa.  
Perintah:  

```
aws cognito-idp delete-user-pool --user-pool-id us-west-2_aaaaaaaaa
```
+  Untuk detail API, lihat [DeleteUserPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/delete-user-pool.html)di *Referensi AWS CLI Perintah*. 

### `delete-user`
<a name="cognito-identity-provider_DeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna**  
Contoh ini menghapus pengguna.  
Perintah:  

```
aws cognito-idp delete-user --access-token ACCESS_TOKEN
```
+  Untuk detail API, lihat [DeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/delete-user.html)di *Referensi AWS CLI Perintah*. 

### `describe-identity-provider`
<a name="cognito-identity-provider_DescribeIdentityProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-identity-provider`.

**AWS CLI**  
**Untuk menggambarkan penyedia identitas**  
Contoh ini menjelaskan penyedia identitas bernama Facebook.  
Perintah:  

```
aws cognito-idp describe-identity-provider --user-pool-id us-west-2_aaaaaaaaa --provider-name Facebook
```
Output:  

```
{
  "IdentityProvider": {
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "ProviderName": "Facebook",
      "ProviderType": "Facebook",
      "ProviderDetails": {
          "attributes_url": "https://graph.facebook.com/me?fields=",
          "attributes_url_add_attributes": "true",
          "authorize_scopes": myscope",
          "authorize_url": "https://www.facebook.com/v2.9/dialog/oauth",
          "client_id": "11111",
          "client_secret": "11111",
          "token_request_method": "GET",
          "token_url": "https://graph.facebook.com/v2.9/oauth/access_token"
      },
      "AttributeMapping": {
          "username": "id"
      },
      "IdpIdentifiers": [],
      "LastModifiedDate": 1548105901.736,
      "CreationDate": 1548105901.736
  }
}
```
+  Untuk detail API, lihat [DescribeIdentityProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/describe-identity-provider.html)di *Referensi AWS CLI Perintah*. 

### `describe-resource-server`
<a name="cognito-identity-provider_DescribeResourceServer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-resource-server`.

**AWS CLI**  
**Untuk mendeskripsikan server sumber daya**  
Contoh ini menjelaskan server sumber daya weather.example.com.  
Perintah:  

```
aws cognito-idp describe-resource-server --user-pool-id us-west-2_aaaaaaaaa --identifier weather.example.com
```
Output:  

```
{
  "ResourceServer": {
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "Identifier": "weather.example.com",
      "Name": "Weather",
      "Scopes": [
          {
              "ScopeName": "weather.update",
              "ScopeDescription": "Update weather forecast"
          },
          {
              "ScopeName": "weather.read",
              "ScopeDescription": "Read weather forecasts"
          },
          {
              "ScopeName": "weather.delete",
              "ScopeDescription": "Delete a weather forecast"
          }
      ]
  }
}
```
+  Untuk detail API, lihat [DescribeResourceServer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/describe-resource-server.html)di *Referensi AWS CLI Perintah*. 

### `describe-risk-configuration`
<a name="cognito-identity-provider_DescribeRiskConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-risk-configuration`.

**AWS CLI**  
**Untuk menggambarkan konfigurasi risiko**  
Contoh ini menjelaskan konfigurasi risiko yang terkait dengan pool us-west-2\$1aaaaaaaaa.  
Perintah:  

```
aws cognito-idp describe-risk-configuration --user-pool-id us-west-2_aaaaaaaaa
```
Output:  

```
{
  "RiskConfiguration": {
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "CompromisedCredentialsRiskConfiguration": {
          "EventFilter": [
              "SIGN_IN",
              "SIGN_UP",
              "PASSWORD_CHANGE"
          ],
          "Actions": {
              "EventAction": "BLOCK"
          }
      },
      "AccountTakeoverRiskConfiguration": {
          "NotifyConfiguration": {
              "From": "diego@example.com",
              "ReplyTo": "diego@example.com",
              "SourceArn": "arn:aws:ses:us-east-1:111111111111:identity/diego@example.com",
              "BlockEmail": {
                  "Subject": "Blocked sign-in attempt",
                  "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We blocked an unrecognized sign-in to your account with this information:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                  "TextBody": "We blocked an unrecognized sign-in to your account with this information:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
              },
              "NoActionEmail": {
                  "Subject": "New sign-in attempt",
                  "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We observed an unrecognized sign-in to your account with this information:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                  "TextBody": "We observed an unrecognized sign-in to your account with this information:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
              },
              "MfaEmail": {
                  "Subject": "New sign-in attempt",
                  "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We required you to use multi-factor authentication for the following sign-in attempt:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                  "TextBody": "We required you to use multi-factor authentication for the following sign-in attempt:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
              }
          },
          "Actions": {
              "LowAction": {
                  "Notify": true,
                  "EventAction": "NO_ACTION"
              },
              "MediumAction": {
                  "Notify": true,
                  "EventAction": "MFA_IF_CONFIGURED"
              },
              "HighAction": {
                  "Notify": true,
                  "EventAction": "MFA_IF_CONFIGURED"
              }
          }
      }
  }
}
```
+  Untuk detail API, lihat [DescribeRiskConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/describe-risk-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-user-import-job`
<a name="cognito-identity-provider_DescribeUserImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user-import-job`.

**AWS CLI**  
**Untuk mendeskripsikan pekerjaan impor pengguna**  
Contoh ini menjelaskan pekerjaan masukan pengguna.  
Untuk informasi selengkapnya tentang mengimpor pengguna, lihat Mengimpor Pengguna ke Kumpulan Pengguna Dari File CSV.  
Perintah:  

```
aws cognito-idp describe-user-import-job --user-pool-id us-west-2_aaaaaaaaa --job-id import-TZqNQvDRnW
```
Output:  

```
{
  "UserImportJob": {
      "JobName": "import-Test1",
      "JobId": "import-TZqNQvDRnW",
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "PreSignedUrl": "PRE_SIGNED URL",
      "CreationDate": 1548271708.512,
      "Status": "Created",
      "CloudWatchLogsRoleArn": "arn:aws:iam::111111111111:role/CognitoCloudWatchLogsRole",
      "ImportedUsers": 0,
      "SkippedUsers": 0,
      "FailedUsers": 0
  }
}
```
+  Untuk detail API, lihat [DescribeUserImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/describe-user-import-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-user-pool-client`
<a name="cognito-identity-provider_DescribeUserPoolClient_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user-pool-client`.

**AWS CLI**  
**Untuk menggambarkan klien kumpulan pengguna**  
Contoh ini menjelaskan klien kumpulan pengguna.  
Perintah:  

```
aws cognito-idp describe-user-pool-client --user-pool-id us-west-2_aaaaaaaaa --client-id 38fjsnc484p94kpqsnet7mpld0
```
Output:  

```
{
  "UserPoolClient": {
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "ClientName": "MyApp",
      "ClientId": "38fjsnc484p94kpqsnet7mpld0",
      "ClientSecret": "CLIENT_SECRET",
      "LastModifiedDate": 1548108676.163,
      "CreationDate": 1548108676.163,
      "RefreshTokenValidity": 30,
      "ReadAttributes": [
          "address",
          "birthdate",
          "custom:CustomAttr1",
          "custom:CustomAttr2",
          "email",
          "email_verified",
          "family_name",
          "gender",
          "given_name",
          "locale",
          "middle_name",
          "name",
          "nickname",
          "phone_number",
          "phone_number_verified",
          "picture",
          "preferred_username",
          "profile",
          "updated_at",
          "website",
          "zoneinfo"
      ],
      "WriteAttributes": [
          "address",
          "birthdate",
          "custom:CustomAttr1",
          "custom:CustomAttr2",
          "email",
          "family_name",
          "gender",
          "given_name",
          "locale",
          "middle_name",
          "name",
          "nickname",
          "phone_number",
          "picture",
          "preferred_username",
          "profile",
          "updated_at",
          "website",
          "zoneinfo"
      ],
      "ExplicitAuthFlows": [
          "ADMIN_NO_SRP_AUTH",
          "USER_PASSWORD_AUTH"
      ],
      "AllowedOAuthFlowsUserPoolClient": false
  }
}
```
+  Untuk detail API, lihat [DescribeUserPoolClient](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/describe-user-pool-client.html)di *Referensi AWS CLI Perintah*. 

### `describe-user-pool-domain`
<a name="cognito-identity-provider_DescribeUserPoolDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user-pool-domain`.

**AWS CLI**  
**Untuk menggambarkan klien kumpulan pengguna**  
Contoh ini menjelaskan domain pool pengguna bernama my-domain.  
Perintah:  

```
aws cognito-idp describe-user-pool-domain --domain my-domain
```
Output:  

```
{
  "DomainDescription": {
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "AWSAccountId": "111111111111",
      "Domain": "my-domain",
      "S3Bucket": "aws-cognito-prod-pdx-assets",
      "CloudFrontDistribution": "aaaaaaaaaaaaa.cloudfront.net",
      "Version": "20190128175402",
      "Status": "ACTIVE",
      "CustomDomainConfig": {}
  }
}
```
+  Untuk detail API, lihat [DescribeUserPoolDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/describe-user-pool-domain.html)di *Referensi AWS CLI Perintah*. 

### `describe-user-pool`
<a name="cognito-identity-provider_DescribeUserPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user-pool`.

**AWS CLI**  
**Untuk mendeskripsikan kumpulan pengguna**  
Contoh berikut menjelaskan kumpulan pengguna dengan id kumpulan pengguna US-West-2\$1Example.  

```
aws cognito-idp describe-user-pool \
    --user-pool-id us-west-2_EXAMPLE
```
Output:  

```
{
    "UserPool": {
        "Id": "us-west-2_EXAMPLE",
        "Name": "MyUserPool",
        "Policies": {
            "PasswordPolicy": {
                "MinimumLength": 8,
                "RequireUppercase": true,
                "RequireLowercase": true,
                "RequireNumbers": true,
                "RequireSymbols": true,
                "TemporaryPasswordValidityDays": 1
            }
        },
        "DeletionProtection": "ACTIVE",
        "LambdaConfig": {
            "PreSignUp": "arn:aws:lambda:us-west-2:123456789012:function:MyPreSignUpFunction",
            "CustomMessage": "arn:aws:lambda:us-west-2:123456789012:function:MyCustomMessageFunction",
            "PostConfirmation": "arn:aws:lambda:us-west-2:123456789012:function:MyPostConfirmationFunction",
            "PreAuthentication": "arn:aws:lambda:us-west-2:123456789012:function:MyPreAuthenticationFunction",
            "PostAuthentication": "arn:aws:lambda:us-west-2:123456789012:function:MyPostAuthenticationFunction",
            "DefineAuthChallenge": "arn:aws:lambda:us-west-2:123456789012:function:MyDefineAuthChallengeFunction",
            "CreateAuthChallenge": "arn:aws:lambda:us-west-2:123456789012:function:MyCreateAuthChallengeFunction",
            "VerifyAuthChallengeResponse": "arn:aws:lambda:us-west-2:123456789012:function:MyVerifyAuthChallengeFunction",
            "PreTokenGeneration": "arn:aws:lambda:us-west-2:123456789012:function:MyPreTokenGenerationFunction",
            "UserMigration": "arn:aws:lambda:us-west-2:123456789012:function:MyMigrateUserFunction",
            "PreTokenGenerationConfig": {
                "LambdaVersion": "V2_0",
                "LambdaArn": "arn:aws:lambda:us-west-2:123456789012:function:MyPreTokenGenerationFunction"
            },
            "CustomSMSSender": {
                "LambdaVersion": "V1_0",
                "LambdaArn": "arn:aws:lambda:us-west-2:123456789012:function:MyCustomSMSSenderFunction"
            },
            "CustomEmailSender": {
                "LambdaVersion": "V1_0",
                "LambdaArn": "arn:aws:lambda:us-west-2:123456789012:function:MyCustomEmailSenderFunction"
            },
            "KMSKeyID": "arn:aws:kms:us-west-2:123456789012:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
        },
        "LastModifiedDate": 1726784814.598,
        "CreationDate": 1602103465.273,
        "SchemaAttributes": [
            {
                "Name": "sub",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": false,
                "Required": true,
                "StringAttributeConstraints": {
                    "MinLength": "1",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "name",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "given_name",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "family_name",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "middle_name",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "nickname",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "preferred_username",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "profile",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "picture",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "website",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "email",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": true,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "email_verified",
                "AttributeDataType": "Boolean",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false
            },
            {
                "Name": "gender",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "birthdate",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "10",
                    "MaxLength": "10"
                }
            },
            {
                "Name": "zoneinfo",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "locale",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "phone_number",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "phone_number_verified",
                "AttributeDataType": "Boolean",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false
            },
            {
                "Name": "address",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "0",
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "updated_at",
                "AttributeDataType": "Number",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "NumberAttributeConstraints": {
                    "MinValue": "0"
                }
            },
            {
                "Name": "identities",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {}
            },
            {
                "Name": "custom:111",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "1",
                    "MaxLength": "256"
                }
            },
            {
                "Name": "dev:custom:222",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": true,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MinLength": "1",
                    "MaxLength": "421"
                }
            },
            {
                "Name": "custom:accesstoken",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MaxLength": "2048"
                }
            },
            {
                "Name": "custom:idtoken",
                "AttributeDataType": "String",
                "DeveloperOnlyAttribute": false,
                "Mutable": true,
                "Required": false,
                "StringAttributeConstraints": {
                    "MaxLength": "2048"
                }
            }
        ],
        "AutoVerifiedAttributes": [
            "email"
        ],
        "SmsVerificationMessage": "Your verification code is {####}. ",
        "EmailVerificationMessage": "Your verification code is {####}. ",
        "EmailVerificationSubject": "Your verification code",
        "VerificationMessageTemplate": {
            "SmsMessage": "Your verification code is {####}. ",
            "EmailMessage": "Your verification code is {####}. ",
            "EmailSubject": "Your verification code",
            "EmailMessageByLink": "Please click the link below to verify your email address. <b>{##Verify Your Email##}</b>\n this is from us-west-2_ywDJHlIfU",
            "EmailSubjectByLink": "Your verification link",
            "DefaultEmailOption": "CONFIRM_WITH_LINK"
        },
        "SmsAuthenticationMessage": "Your verification code is {####}. ",
        "UserAttributeUpdateSettings": {
            "AttributesRequireVerificationBeforeUpdate": []
        },
        "MfaConfiguration": "OPTIONAL",
        "DeviceConfiguration": {
            "ChallengeRequiredOnNewDevice": true,
            "DeviceOnlyRememberedOnUserPrompt": false
        },
        "EstimatedNumberOfUsers": 166,
        "EmailConfiguration": {
            "SourceArn": "arn:aws:ses:us-west-2:123456789012:identity/admin@example.com",
            "EmailSendingAccount": "DEVELOPER"
        },
        "SmsConfiguration": {
            "SnsCallerArn": "arn:aws:iam::123456789012:role/service-role/userpool-SMS-Role",
            "ExternalId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "SnsRegion": "us-west-2"
        },
        "UserPoolTags": {},
        "Domain": "myCustomDomain",
        "CustomDomain": "auth.example.com",
        "AdminCreateUserConfig": {
            "AllowAdminCreateUserOnly": false,
            "UnusedAccountValidityDays": 1,
            "InviteMessageTemplate": {
                "SMSMessage": "Your username is {username} and temporary password is {####}. ",
                "EmailMessage": "Your username is {username} and temporary password is {####}. ",
                "EmailSubject": "Your temporary password"
            }
        },
        "UserPoolAddOns": {
            "AdvancedSecurityMode": "ENFORCED",
            "AdvancedSecurityAdditionalFlows": {}
        },
        "Arn": "arn:aws:cognito-idp:us-west-2:123456789012:userpool/us-west-2_EXAMPLE",
        "AccountRecoverySetting": {
            "RecoveryMechanisms": [
                {
                    "Priority": 1,
                    "Name": "verified_email"
                }
            ]
        }
    }
}
```
Untuk informasi lebih lanjut, lihat [Kolam pengguna Amazon Cognito](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools.html) di *Panduan Developer Amazon Cognito*.  
+  Untuk detail API, lihat [DescribeUserPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/describe-user-pool.html)di *Referensi AWS CLI Perintah*. 

### `forget-device`
<a name="cognito-identity-provider_ForgetDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`forget-device`.

**AWS CLI**  
**Untuk melupakan perangkat**  
Contoh ini melupakan perangkat perangkat.  
Perintah:  

```
aws cognito-idp forget-device --device-key us-west-2_abcd_1234-5678
```
+  Untuk detail API, lihat [ForgetDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/forget-device.html)di *Referensi AWS CLI Perintah*. 

### `forgot-password`
<a name="cognito-identity-provider_ForgotPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`forgot-password`.

**AWS CLI**  
**Untuk memaksa perubahan kata sandi**  
`forgot-password`Contoh berikut mengirimkan pesan ke jane@example.com untuk mengubah kata sandi mereka.  

```
aws cognito-idp forgot-password --client-id 38fjsnc484p94kpqsnet7mpld0 --username jane@example.com
```
Output:  

```
{
    "CodeDeliveryDetails": {
        "Destination": "j***@e***.com",
        "DeliveryMedium": "EMAIL",
        "AttributeName": "email"
    }
}
```
+  Untuk detail API, lihat [ForgotPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/forgot-password.html)di *Referensi AWS CLI Perintah*. 

### `get-csv-header`
<a name="cognito-identity-provider_GetCsvHeader_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-csv-header`.

**AWS CLI**  
**Untuk membuat header csv**  
Contoh ini membuat header csv.  
Untuk informasi selengkapnya tentang mengimpor pengguna, lihat Mengimpor Pengguna ke Kumpulan Pengguna Dari File CSV.  
Perintah:  

```
aws cognito-idp get-csv-header --user-pool-id us-west-2_aaaaaaaaa
```
Output:  

```
{
  "UserPoolId": "us-west-2_aaaaaaaaa",
  "CSVHeader": [
      "name",
      "given_name",
      "family_name",
      "middle_name",
      "nickname",
      "preferred_username",
      "profile",
      "picture",
      "website",
      "email",
      "email_verified",
      "gender",
      "birthdate",
      "zoneinfo",
      "locale",
      "phone_number",
      "phone_number_verified",
      "address",
      "updated_at",
      "cognito:mfa_enabled",
      "cognito:username"
  ]
}
```
... Mengimpor Pengguna ke Kumpulan Pengguna Dari File CSV: https://docs.aws.amazon.com/cognito/ latest/developerguide/cognito - -tool.html user-pools-using-import  
+  Untuk detail API, lihat [GetCsvHeader](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-csv-header.html)di *Referensi AWS CLI Perintah*. 

### `get-device`
<a name="cognito-identity-provider_GetDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-device`.

**AWS CLI**  
**Untuk mendapatkan perangkat**  
`get-device`Contoh berikut menampilkan satu perangkat untuk pengguna yang saat ini masuk.  

```
aws cognito-idp get-device \
    --access-token eyJra456defEXAMPLE \
    --device-key us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "Device": {
        "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "DeviceAttributes": [
            {
                "Name": "device_status",
                "Value": "valid"
            },
            {
                "Name": "device_name",
                "Value": "MyDevice"
            },
            {
                "Name": "dev:device_arn",
                "Value": "arn:aws:cognito-idp:us-west-2:123456789012:owner/diego.us-west-2_EXAMPLE/device/us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
            },
            {
                "Name": "dev:device_owner",
                "Value": "diego.us-west-2_EXAMPLE"
            },
            {
                "Name": "last_ip_used",
                "Value": "192.0.2.1"
            },
            {
                "Name": "dev:device_remembered_status",
                "Value": "remembered"
            },
            {
                "Name": "dev:device_sdk",
                "Value": "aws-sdk"
            }
        ],
        "DeviceCreateDate": 1715100742.022,
        "DeviceLastModifiedDate": 1723233651.167,
        "DeviceLastAuthenticatedDate": 1715100742.0
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan perangkat pengguna di kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-device-tracking.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [GetDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-device.html)di *Referensi AWS CLI Perintah*. 

### `get-group`
<a name="cognito-identity-provider_GetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang grup**  
`get-group`Contoh berikut mencantumkan properti grup pengguna bernama`MyGroup`. Kelompok ini memiliki prioritas dan peran IAM yang terkait dengannya.  

```
aws cognito-idp get-group \
    --user-pool-id us-west-2_EXAMPLE \
    --group-name MyGroup
```
Output:  

```
{
    "Group": {
        "GroupName": "MyGroup",
        "UserPoolId": "us-west-2_EXAMPLE",
        "RoleArn": "arn:aws:iam::123456789012:role/example-cognito-role",
        "Precedence": 7,
        "LastModifiedDate": 1697211218.305,
        "CreationDate": 1611685503.954
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan grup ke kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-user-groups.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [GetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-group.html)di *Referensi AWS CLI Perintah*. 

### `get-identity-provider-by-identifier`
<a name="cognito-identity-provider_GetIdentityProviderByIdentifier_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-identity-provider-by-identifier`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi penyedia identitas dari pengenal IDP**  
`get-identity-provider-by-identifier`Contoh berikut mengembalikan konfigurasi penyedia identitas dengan identifier`mysso`.  

```
aws cognito-idp get-identity-provider-by-identifier \
    --user-pool-id us-west-2_EXAMPLE \
    --idp-identifier mysso
```
Output:  

```
{
    "IdentityProvider": {
        "UserPoolId": "us-west-2_EXAMPLE",
        "ProviderName": "MYSAML",
        "ProviderType": "SAML",
        "ProviderDetails": {
            "ActiveEncryptionCertificate": "[Certificate contents]",
            "IDPSignout": "false",
            "MetadataURL": "https://auth.example.com/saml/metadata/",
            "SLORedirectBindingURI": "https://auth.example.com/saml/logout/",
            "SSORedirectBindingURI": "https://auth.example.com/saml/assertion/"
        },
        "AttributeMapping": {
            "email": "email"
        },
        "IdpIdentifiers": [
            "mysso",
            "mysamlsso"
        ],
        "LastModifiedDate": 1705616729.188,
        "CreationDate": 1643734622.919
    }
}
```
Untuk informasi selengkapnya, lihat [Masuk IDP pihak ketiga di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-identity-federation.html) Pengembang *Amazon* Cognito.  
+  Untuk detail API, lihat [GetIdentityProviderByIdentifier](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-identity-provider-by-identifier.html)di *Referensi AWS CLI Perintah*. 

### `get-log-delivery-configuration`
<a name="cognito-identity-provider_GetLogDeliveryConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-log-delivery-configuration`.

**AWS CLI**  
**Untuk menampilkan konfigurasi pengiriman log**  
`get-log-delivery-configuration`Contoh berikut menampilkan pengaturan ekspor log dari kumpulan pengguna yang diminta.  

```
aws cognito-idp get-log-delivery-configuration \
    --user-pool-id us-west-2_EXAMPLE
```
Output:  

```
{
    "LogDeliveryConfiguration": {
        "UserPoolId": "us-west-2_EXAMPLE",
        "LogConfigurations": [
            {
                "LogLevel": "INFO",
                "EventSource": "userAuthEvents",
                "FirehoseConfiguration": {
                    "StreamArn": "arn:aws:firehose:us-west-2:123456789012:deliverystream/my-test-deliverystream"
                }
            },
            {
                "LogLevel": "ERROR",
                "EventSource": "userNotification",
                "CloudWatchLogsConfiguration": {
                    "LogGroupArn": "arn:aws:logs:us-west-2:123456789012:log-group:my-message-delivery-logs"
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mengekspor log kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/exporting-quotas-and-usage.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [GetLogDeliveryConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-log-delivery-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-signing-certificate`
<a name="cognito-identity-provider_GetSigningCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-signing-certificate`.

**AWS CLI**  
**Untuk menampilkan sertifikat penandatanganan SAMP**  
`get-signing-certificate`Contoh berikut menampilkan sertifikat penandatanganan SAMP 2.0 untuk kumpulan pengguna permintaan.  

```
aws cognito-idp get-signing-certificate \
    --user-pool-id us-west-2_EXAMPLE
```
Output:  

```
{
    "Certificate": "[Certificate content]"
}
```
Untuk informasi selengkapnya, lihat [penandatanganan dan enkripsi SAMP](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-SAML-signing-encryption.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [GetSigningCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-signing-certificate.html)di *Referensi AWS CLI Perintah*. 

### `get-ui-customization`
<a name="cognito-identity-provider_GetUiCustomization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ui-customization`.

**AWS CLI**  
**Untuk menampilkan setelan kustomisasi UI yang dihosting klasik untuk klien aplikasi**  
`get-ui-customization`Contoh berikut menampilkan setelan kustomisasi UI yang dihosting klasik untuk klien aplikasi yang tidak mewarisi setelan dari kumpulan pengguna.  

```
aws cognito-idp get-ui-customization \
    --user-pool-id us-west-2_EXAMPLE \
    --client-id 1example23456789
```
Output:  

```
{
    "UICustomization": {
        "UserPoolId": "us-west-2_EXAMPLE",
        "ClientId": "1example23456789",
        "ImageUrl": "https://example.cloudfront.net/us-west-2_EXAMPLE/1example23456789/20250115191928/assets/images/image.jpg",
        "CSS": "\n.logo-customizable {\n  max-width: 80%;\n  max-height: 30%;\n}\n\n.banner-customizable {\n  padding: 25px 0px 25px 0px;\n  background-color: lightgray;\n}\n\n.label-customizable {\n  font-weight: 400;\n}\n\n.textDescription-customizable {\n  padding-top: 100px;\n  padding-bottom: 10px;\n  display: block;\n  font-size: 12px;\n}\n\n.idpDescription-customizable {\n  padding-top: 10px;\n  padding-bottom: 10px;\n  display: block;\n  font-size: 16px;\n}\n\n.legalText-customizable {\n  color: #747474;\n  font-size: 11px;\n}\n\n.submitButton-customizable {\n  font-size: 14px;\n  font-weight: bold;\n  margin: 20px 0px 10px 0px;\n  height: 50px;\n  width: 100%;\n  color: #fff;\n  background-color: #337ab7;\n}\n\n.submitButton-customizable:hover {\n  color: #fff;\n  background-color: #286090;\n}\n\n.errorMessage-customizable {\n  padding: 5px;\n  font-size: 12px;\n  width: 100%;\n  background: #F5F5F5;\n  border: 2px solid #D64958;\n  color: #D64958;\n}\n\n.inputField-customizable {\n  width: 100%;\n  height: 34px;\n  color: #555;\n  background-color: #fff;\n  border: 1px solid #ccc;\n}\n\n.inputField-customizable:focus {\n  border-color: #66afe9;\n  outline: 0;\n}\n\n.idpButton-customizable {\n  height: 40px;\n  width: 100%;\n  width: 100%;\n  text-align: center;\n  margin-bottom: 15px;\n  color: #fff;\n  background-color: #5bc0de;\n  border-color: #46b8da;\n}\n\n.idpButton-customizable:hover {\n  color: #fff;\n  background-color: #31b0d5;\n}\n\n.socialButton-customizable {\n  border-radius: 2px;\n  height: 60px;\n  margin-bottom: 15px;\n  padding: 1px;\n  text-align: left;\n  width: 100%;\n}\n\n.redirect-customizable {\n  text-align: center;\n}\n\n.passwordCheck-notValid-customizable {\n  color: #DF3312;\n}\n\n.passwordCheck-valid-customizable {\n  color: #19BF00;\n}\n\n.background-customizable {\n  background-color: #fff;\n}\n",
        "CSSVersion": "20250115191928"
    }
}
```
Untuk informasi selengkapnya, lihat [pencitraan merek UI (klasik) yang dihosting](https://docs.aws.amazon.com/cognito/latest/developerguide/hosted-ui-classic-branding.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [GetUiCustomization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-ui-customization.html)di *Referensi AWS CLI Perintah*. 

### `get-user-attribute-verification-code`
<a name="cognito-identity-provider_GetUserAttributeVerificationCode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-user-attribute-verification-code`.

**AWS CLI**  
**Untuk mengirim kode verifikasi atribut ke pengguna saat ini**  
`get-user-attribute-verification-code`Contoh berikut mengirimkan kode verifikasi atribut ke alamat email pengguna yang saat ini masuk.  

```
aws cognito-idp get-user-attribute-verification-code \
    --access-token eyJra456defEXAMPLE \
    --attribute-name email
```
Output:  

```
{
    "CodeDeliveryDetails": {
        "Destination": "a***@e***",
        "DeliveryMedium": "EMAIL",
        "AttributeName": "email"
    }
}
```
Untuk informasi selengkapnya, lihat [Mendaftar dan mengonfirmasi akun pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/signing-up-users-in-your-app.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [GetUserAttributeVerificationCode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-user-attribute-verification-code.html)di *Referensi AWS CLI Perintah*. 

### `get-user-auth-factors`
<a name="cognito-identity-provider_GetUserAuthFactors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-user-auth-factors`.

**AWS CLI**  
**Untuk mencantumkan faktor otentikasi yang tersedia untuk pengguna saat ini**  
`get-user-auth-factors`Contoh berikut mencantumkan faktor otentikasi yang tersedia untuk pengguna yang saat ini masuk.  

```
aws cognito-idp get-user-auth-factors \
    --access-token eyJra456defEXAMPLE
```
Output:  

```
{
    "Username": "testuser",
    "ConfiguredUserAuthFactors": [
        "PASSWORD",
        "EMAIL_OTP",
        "SMS_OTP",
        "WEB_AUTHN"
    ]
}
```
Untuk informasi selengkapnya, lihat [Otentikasi](https://docs.aws.amazon.com/cognito/latest/developerguide/authentication.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [GetUserAuthFactors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-user-auth-factors.html)di *Referensi AWS CLI Perintah*. 

### `get-user-pool-mfa-config`
<a name="cognito-identity-provider_GetUserPoolMfaConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-user-pool-mfa-config`.

**AWS CLI**  
**Untuk menampilkan otentikasi multi-faktor dan WebAuthn pengaturan kumpulan pengguna**  
`get-user-pool-mfa-config`Contoh berikut menampilkan MFA dan WebAuthn konfigurasi kumpulan pengguna yang diminta.  

```
aws cognito-idp get-user-pool-mfa-config \
    --user-pool-id us-west-2_EXAMPLE
```
Output:  

```
{
    "SmsMfaConfiguration": {
        "SmsAuthenticationMessage": "Your OTP for MFA or sign-in: use {####}.",
        "SmsConfiguration": {
            "SnsCallerArn": "arn:aws:iam::123456789012:role/service-role/my-SMS-Role",
            "ExternalId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "SnsRegion": "us-west-2"
        }
    },
    "SoftwareTokenMfaConfiguration": {
        "Enabled": true
    },
    "EmailMfaConfiguration": {
        "Message": "Your OTP for MFA or sign-in: use {####}",
        "Subject": "OTP test"
    },
    "MfaConfiguration": "OPTIONAL",
    "WebAuthnConfiguration": {
        "RelyingPartyId": "auth.example.com",
        "UserVerification": "preferred"
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan MFA di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa.html) Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [GetUserPoolMfaConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-user-pool-mfa-config.html)di *Referensi AWS CLI Perintah*. 

### `get-user`
<a name="cognito-identity-provider_GetUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-user`.

**AWS CLI**  
**Untuk mendapatkan detail pengguna saat ini**  
`get-user`Contoh berikut menampilkan profil pengguna yang saat ini masuk.  

```
aws cognito-idp get-user \
    --access-token eyJra456defEXAMPLE
```
Output:  

```
{
    "Username": "johndoe",
    "UserAttributes": [
        {
            "Name": "sub",
            "Value": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
        },
        {
            "Name": "identities",
            "Value": "[{\"userId\":\"a1b2c3d4-5678-90ab-cdef-EXAMPLE22222\",\"providerName\":\"SignInWithApple\",\"providerType\":\"SignInWithApple\",\"issuer\":null,\"primary\":false,\"dateCreated\":1701125599632}]"
        },
        {
            "Name": "email_verified",
            "Value": "true"
        },
        {
            "Name": "custom:state",
            "Value": "Maine"
        },
        {
            "Name": "name",
            "Value": "John Doe"
        },
        {
            "Name": "phone_number_verified",
            "Value": "true"
        },
        {
            "Name": "phone_number",
            "Value": "+12065551212"
        },
        {
            "Name": "preferred_username",
            "Value": "jamesdoe"
        },
        {
            "Name": "locale",
            "Value": "EMEA"
        },
        {
            "Name": "email",
            "Value": "jamesdoe@example.com"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/managing-users.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [GetUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/get-user.html)di *Referensi AWS CLI Perintah*. 

### `global-sign-out`
<a name="cognito-identity-provider_GlobalSignOut_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`global-sign-out`.

**AWS CLI**  
**Untuk keluar dari pengguna saat ini**  
`global-sign-out`Contoh berikut menunjukkan pengguna saat ini.  

```
aws cognito-idp global-sign-out \
    --access-token eyJra456defEXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/managing-users.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [GlobalSignOut](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/global-sign-out.html)di *Referensi AWS CLI Perintah*. 

### `initiate-auth`
<a name="cognito-identity-provider_InitiateAuth_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`initiate-auth`.

**AWS CLI**  
**Untuk masuk pengguna**  
`initiate-auth`Contoh berikut masuk ke pengguna dengan alur username-password dasar dan tidak ada tantangan tambahan.  

```
aws cognito-idp initiate-auth \
    --auth-flow USER_PASSWORD_AUTH \
    --client-id 1example23456789 \
    --analytics-metadata AnalyticsEndpointId=d70b2ba36a8c4dc5a04a0451aEXAMPLE \
    --auth-parameters USERNAME=testuser,PASSWORD=[Password] --user-context-data EncodedData=mycontextdata --client-metadata MyTestKey=MyTestValue
```
Output:  

```
{
    "AuthenticationResult": {
        "AccessToken": "eyJra456defEXAMPLE",
        "ExpiresIn": 3600,
        "TokenType": "Bearer",
        "RefreshToken": "eyJra123abcEXAMPLE",
        "IdToken": "eyJra789ghiEXAMPLE",
        "NewDeviceMetadata": {
            "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "DeviceGroupKey": "-v7w9UcY6"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Otentikasi](https://docs.aws.amazon.com/cognito/latest/developerguide/authentication.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [InitiateAuth](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/initiate-auth.html)di *Referensi AWS CLI Perintah*. 

### `list-devices`
<a name="cognito-identity-provider_ListDevices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-devices`.

**AWS CLI**  
**Untuk membuat daftar perangkat pengguna**  
`list-devices`Contoh berikut mencantumkan perangkat yang telah didaftarkan pengguna saat ini.  

```
aws cognito-idp list-devices \
    --access-token eyJra456defEXAMPLE
```
Output:  

```
{
    "Devices": [
        {
            "DeviceAttributes": [
                {
                    "Name": "device_status",
                    "Value": "valid"
                },
                {
                    "Name": "device_name",
                    "Value": "Dart-device"
                },
                {
                    "Name": "last_ip_used",
                    "Value": "192.0.2.1"
                }
            ],
            "DeviceCreateDate": 1715100742.022,
            "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "DeviceLastAuthenticatedDate": 1715100742.0,
            "DeviceLastModifiedDate": 1723233651.167
        },
        {
            "DeviceAttributes": [
                {
                    "Name": "device_status",
                    "Value": "valid"
                },
                {
                    "Name": "last_ip_used",
                    "Value": "192.0.2.2"
                }
            ],
            "DeviceCreateDate": 1726856147.993,
            "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "DeviceLastAuthenticatedDate": 1726856147.0,
            "DeviceLastModifiedDate": 1726856147.993
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan perangkat](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-device-tracking.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [ListDevices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-devices.html)di *Referensi AWS CLI Perintah*. 

### `list-groups`
<a name="cognito-identity-provider_ListGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups`.

**AWS CLI**  
**Untuk membuat daftar grup dalam kumpulan pengguna**  
`list-groups`Contoh berikut mencantumkan dua grup pertama dalam kumpulan pengguna yang diminta.  

```
aws cognito-idp list-groups \
    --user-pool-id us-west-2_EXAMPLE \
    --max-items 2
```
Output:  

```
{
    "Groups": [
        {
            "CreationDate": 1681760899.633,
            "Description": "My test group",
            "GroupName": "testgroup",
            "LastModifiedDate": 1681760899.633,
            "Precedence": 1,
            "UserPoolId": "us-west-2_EXAMPLE"
        },
        {
            "CreationDate": 1642632749.051,
            "Description": "Autogenerated group for users who sign in using Facebook",
            "GroupName": "us-west-2_EXAMPLE_Facebook",
            "LastModifiedDate": 1642632749.051,
            "UserPoolId": "us-west-2_EXAMPLE"
        }
    ],
    "NextToken": "[Pagination token]"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan grup ke kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-user-groups.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [ListGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-identity-providers`
<a name="cognito-identity-provider_ListIdentityProviders_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-identity-providers`.

**AWS CLI**  
**Untuk daftar penyedia identitas**  
`list-identity-providers`Contoh berikut mencantumkan dua penyedia identitas pertama di kumpulan pengguna yang diminta.  

```
aws cognito-idp list-identity-providers \
    --user-pool-id us-west-2_EXAMPLE \
    --max-items 2
```
Output:  

```
{
    "Providers": [
        {
            "CreationDate": 1619477386.504,
            "LastModifiedDate": 1703798328.142,
            "ProviderName": "Azure",
            "ProviderType": "SAML"
        },
        {
            "CreationDate": 1642698776.175,
            "LastModifiedDate": 1642699086.453,
            "ProviderName": "LoginWithAmazon",
            "ProviderType": "LoginWithAmazon"
        }
    ],
    "NextToken": "[Pagination token]"
}
```
Untuk informasi selengkapnya, lihat [Masuk IDP pihak ketiga di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-identity-federation.html) Pengembang *Amazon* Cognito.  
+  Untuk detail API, lihat [ListIdentityProviders](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-identity-providers.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-servers`
<a name="cognito-identity-provider_ListResourceServers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-servers`.

**AWS CLI**  
**Untuk membuat daftar server sumber daya**  
`list-resource-servers`Contoh berikut mencantumkan dua server sumber daya pertama di kumpulan pengguna yang diminta.  

```
aws cognito-idp list-resource-servers \
    --user-pool-id us-west-2_EXAMPLE \
    --max-results 2
```
Output:  

```
{
    "ResourceServers": [
        {
            "Identifier": "myapi.example.com",
            "Name": "Example API with custom access control scopes",
            "Scopes": [
                {
                    "ScopeDescription": "International customers",
                    "ScopeName": "international.read"
                },
                {
                    "ScopeDescription": "Domestic customers",
                    "ScopeName": "domestic.read"
                }
            ],
            "UserPoolId": "us-west-2_EXAMPLE"
        },
        {
            "Identifier": "myapi2.example.com",
            "Name": "Another example API for access control",
            "Scopes": [
                {
                    "ScopeDescription": "B2B customers",
                    "ScopeName": "b2b.read"
                }
            ],
            "UserPoolId": "us-west-2_EXAMPLE"
        }
    ],
    "NextToken": "[Pagination token]"
}
```
Untuk informasi selengkapnya, lihat [Kontrol akses dengan server sumber daya](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-define-resource-servers.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [ListResourceServers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-resource-servers.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="cognito-identity-provider_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag kumpulan pengguna**  
`list-tags-for-resource`Contoh berikut mencantumkan tag yang ditetapkan ke kumpulan pengguna dengan ARN yang diminta.  

```
aws cognito-idp list-tags-for-resource \
    --resource-arn arn:aws:cognito-idp:us-west-2:123456789012:userpool/us-west-2_EXAMPLE
```
Output:  

```
{
    "Tags": {
        "administrator": "Jie",
        "tenant": "ExampleCorp"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya Amazon Cognito](https://docs.aws.amazon.com/cognito/latest/developerguide/tagging.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-user-import-jobs`
<a name="cognito-identity-provider_ListUserImportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-user-import-jobs`.

**AWS CLI**  
**Untuk mencantumkan pekerjaan dan status impor pengguna**  
`list-user-import-jobs`Contoh berikut mencantumkan tiga pekerjaan impor pengguna pertama dan detailnya di kumpulan pengguna yang diminta.  

```
aws cognito-idp list-user-import-jobs \
    --user-pool-id us-west-2_EXAMPLE \
    --max-results 3
```
Output:  

```
{
    "PaginationToken": "us-west-2_EXAMPLE#import-example3#1667948397084",
    "UserImportJobs": [
        {
            "CloudWatchLogsRoleArn": "arn:aws:iam::123456789012:role/service-role/Cognito-UserImport-Role",
            "CompletionDate": 1735329786.142,
            "CompletionMessage": "The user import job has expired.",
            "CreationDate": 1735241621.022,
            "FailedUsers": 0,
            "ImportedUsers": 0,
            "JobId": "import-example1",
            "JobName": "Test-import-job-1",
            "PreSignedUrl": "https://aws-cognito-idp-user-import-pdx.s3.us-west-2.amazonaws.com/123456789012/us-west-2_EXAMPLE/import-mAgUtd8PMm?X-Amz-Security-Token=[token]&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20241226T193341Z&X-Amz-SignedHeaders=host%3Bx-amz-server-side-encryption&X-Amz-Expires=899&X-Amz-Credential=[credential]&X-Amz-Signature=[signature]",
            "SkippedUsers": 0,
            "Status": "Expired",
            "UserPoolId": "us-west-2_EXAMPLE"
        },
        {
            "CloudWatchLogsRoleArn": "arn:aws:iam::123456789012:role/service-role/Cognito-UserImport-Role",
            "CompletionDate": 1681509058.408,
            "CompletionMessage": "Too many users have failed or been skipped during the import.",
            "CreationDate": 1681509001.477,
            "FailedUsers": 1,
            "ImportedUsers": 0,
            "JobId": "import-example2",
            "JobName": "Test-import-job-2",
            "PreSignedUrl": "https://aws-cognito-idp-user-import-pdx.s3.us-west-2.amazonaws.com/123456789012/us-west-2_EXAMPLE/import-mAgUtd8PMm?X-Amz-Security-Token=[token]&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20241226T193341Z&X-Amz-SignedHeaders=host%3Bx-amz-server-side-encryption&X-Amz-Expires=899&X-Amz-Credential=[credential]&X-Amz-Signature=[signature]",
            "SkippedUsers": 0,
            "StartDate": 1681509057.965,
            "Status": "Failed",
            "UserPoolId": "us-west-2_EXAMPLE"
        },
        {
            "CloudWatchLogsRoleArn": "arn:aws:iam::123456789012:role/service-role/Cognito-UserImport-Role",
            "CompletionDate": 1.667864578676E9,
            "CompletionMessage": "Import Job Completed Successfully.",
            "CreationDate": 1.667864480281E9,
            "FailedUsers": 0,
            "ImportedUsers": 6,
            "JobId": "import-example3",
            "JobName": "Test-import-job-3",
            "PreSignedUrl": "https://aws-cognito-idp-user-import-pdx.s3.us-west-2.amazonaws.com/123456789012/us-west-2_EXAMPLE/import-mAgUtd8PMm?X-Amz-Security-Token=[token]&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20241226T193341Z&X-Amz-SignedHeaders=host%3Bx-amz-server-side-encryption&X-Amz-Expires=899&X-Amz-Credential=[credential]&X-Amz-Signature=[signature]",
            "SkippedUsers": 0,
            "StartDate": 1.667864578167E9,
            "Status": "Succeeded",
            "UserPoolId": "us-west-2_EXAMPLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengimpor pengguna dari file CSV di Panduan Pengembang](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-using-import-tool.html) *Amazon Cognito*.  
+  Untuk detail API, lihat [ListUserImportJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-user-import-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-user-pool-clients`
<a name="cognito-identity-provider_ListUserPoolClients_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-user-pool-clients`.

**AWS CLI**  
**Untuk mencantumkan klien aplikasi**  
`list-user-pool-clients`Contoh berikut mencantumkan tiga klien aplikasi pertama di kumpulan pengguna yang diminta.  

```
aws cognito-idp list-user-pool-clients \
    --user-pool-id us-west-2_EXAMPLE \
    --max-results 3
```
Output:  

```
{
    "NextToken": "[Pagination token]",
    "UserPoolClients": [
        {
            "ClientId": "1example23456789",
            "ClientName": "app-client-1",
            "UserPoolId": "us-west-2_EXAMPLE"
        },
        {
            "ClientId": "2example34567890",
            "ClientName": "app-client-2",
            "UserPoolId": "us-west-2_EXAMPLE"
        },
        {
            "ClientId": "3example45678901",
            "ClientName": "app-client-3",
            "UserPoolId": "us-west-2_EXAMPLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Klien aplikasi](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-client-apps.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [ListUserPoolClients](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-user-pool-clients.html)di *Referensi AWS CLI Perintah*. 

### `list-user-pools`
<a name="cognito-identity-provider_ListUserPools_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-user-pools`.

**AWS CLI**  
**Untuk membuat daftar kumpulan pengguna**  
`list-user-pools`Contoh berikut mencantumkan 3 kumpulan pengguna yang tersedia di AWS akun kredensyal CLI saat ini.  

```
aws cognito-idp list-user-pools \
    --max-results 3
```
Output:  

```
{
    "NextToken": "[Pagination token]",
    "UserPools": [
        {
            "CreationDate": 1681502497.741,
            "Id": "us-west-2_EXAMPLE1",
            "LambdaConfig": {
                "CustomMessage": "arn:aws:lambda:us-east-1:123456789012:function:MyFunction",
                "PreSignUp": "arn:aws:lambda:us-east-1:123456789012:function:MyFunction",
                "PreTokenGeneration": "arn:aws:lambda:us-east-1:123456789012:function:MyFunction",
                "PreTokenGenerationConfig": {
                    "LambdaArn": "arn:aws:lambda:us-east-1:123456789012:function:MyFunction",
                    "LambdaVersion": "V1_0"
                }
            },
            "LastModifiedDate": 1681502497.741,
            "Name": "user pool 1"
        },
        {
            "CreationDate": 1686064178.717,
            "Id": "us-west-2_EXAMPLE2",
            "LambdaConfig": {
            },
            "LastModifiedDate": 1686064178.873,
            "Name": "user pool 2"
        },
        {
            "CreationDate": 1627681712.237,
            "Id": "us-west-2_EXAMPLE3",
            "LambdaConfig": {
                "UserMigration": "arn:aws:lambda:us-east-1:123456789012:function:MyFunction"
            },
            "LastModifiedDate": 1678486942.479,
            "Name": "user pool 3"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Kolam pengguna Amazon Cognito](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools.html) di *Panduan Developer Amazon Cognito*.  
+  Untuk detail API, lihat [ListUserPools](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-user-pools.html)di *Referensi AWS CLI Perintah*. 

### `list-users-in-group`
<a name="cognito-identity-provider_ListUsersInGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-users-in-group`.

**AWS CLI**  
**Untuk mencantumkan pengguna dalam grup**  
Contoh ini mencantumkan pengguna dalam grup MyGroup.  
Perintah:  

```
aws cognito-idp list-users-in-group --user-pool-id us-west-2_aaaaaaaaa --group-name MyGroup
```
Output:  

```
{
  "Users": [
      {
          "Username": "acf10624-80bb-401a-ac61-607bee2110ec",
          "Attributes": [
              {
                  "Name": "sub",
                  "Value": "acf10624-80bb-401a-ac61-607bee2110ec"
              },
              {
                  "Name": "custom:CustomAttr1",
                  "Value": "New Value!"
              },
              {
                  "Name": "email",
                  "Value": "jane@example.com"
              }
          ],
          "UserCreateDate": 1548102770.284,
          "UserLastModifiedDate": 1548103204.893,
          "Enabled": true,
          "UserStatus": "CONFIRMED"
      },
      {
          "Username": "22704aa3-fc10-479a-97eb-2af5806bd327",
          "Attributes": [
              {
                  "Name": "sub",
                  "Value": "22704aa3-fc10-479a-97eb-2af5806bd327"
              },
              {
                  "Name": "email_verified",
                  "Value": "true"
              },
              {
                  "Name": "email",
                  "Value": "diego@example.com"
              }
          ],
          "UserCreateDate": 1548089817.683,
          "UserLastModifiedDate": 1548089817.683,
          "Enabled": true,
          "UserStatus": "FORCE_CHANGE_PASSWORD"
      }
  ]
}
```
+  Untuk detail API, lihat [ListUsersInGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-users-in-group.html)di *Referensi AWS CLI Perintah*. 

### `list-users`
<a name="cognito-identity-provider_ListUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-users`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan pengguna dengan filter sisi server**  
`list-users`Contoh berikut mencantumkan 3 pengguna di kumpulan pengguna yang diminta yang alamat emailnya dimulai`testuser`.  

```
aws cognito-idp list-users \
    --user-pool-id us-west-2_EXAMPLE \
    --filter email^=\"testuser\" \
    --max-items 3
```
Output:  

```
{
    "PaginationToken": "efgh5678EXAMPLE",
    "Users": [
        {
            "Attributes": [
                {
                    "Name": "sub",
                    "Value": "eaad0219-2117-439f-8d46-4db20e59268f"
                },
                {
                    "Name": "email",
                    "Value": "testuser@example.com"
                }
            ],
            "Enabled": true,
            "UserCreateDate": 1682955829.578,
            "UserLastModifiedDate": 1689030181.63,
            "UserStatus": "CONFIRMED",
            "Username": "testuser"
        },
        {
            "Attributes": [
                {
                    "Name": "sub",
                    "Value": "3b994cfd-0b07-4581-be46-3c82f9a70c90"
                },
                {
                    "Name": "email",
                    "Value": "testuser2@example.com"
                }
            ],
            "Enabled": true,
            "UserCreateDate": 1684427979.201,
            "UserLastModifiedDate": 1684427979.201,
            "UserStatus": "UNCONFIRMED",
            "Username": "testuser2"
        },
        {
            "Attributes": [
                {
                    "Name": "sub",
                    "Value": "5929e0d1-4c34-42d1-9b79-a5ecacfe66f7"
                },
                {
                    "Name": "email",
                    "Value": "testuser3@example.com"
                }
            ],
            "Enabled": true,
            "UserCreateDate": 1684427823.641,
            "UserLastModifiedDate": 1684427823.641,
            "UserStatus": "UNCONFIRMED",
            "Username": "testuser3@example.com"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola dan mencari pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/how-to-manage-user-accounts.html) di Panduan *Pengembang Amazon Cognito*.  
**Contoh 2: Untuk mencantumkan pengguna dengan filter sisi klien**  
`list-users`Contoh berikut mencantumkan atribut dari tiga pengguna yang memiliki atribut, dalam hal ini alamat email mereka, yang berisi domain email "@example .com”. Jika atribut lain berisi string ini, mereka juga akan ditampilkan. Pengguna kedua tidak memiliki atribut yang cocok dengan kueri dan dikecualikan dari output yang ditampilkan, tetapi tidak dari respons server.  

```
aws cognito-idp list-users \
    --user-pool-id us-west-2_EXAMPLE \
    --max-items 3
    --query Users\[\*\].Attributes\[\?Value\.contains\(\@\,\'@example.com\'\)\]
```
Output:  

```
[
    [
        {
            "Name": "email",
            "Value": "admin@example.com"
        }
    ],
    [],
    [
        {
            "Name": "email",
            "Value": "operator@example.com"
        }
    ]
]
```
Untuk informasi selengkapnya, lihat [Mengelola dan mencari pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/how-to-manage-user-accounts.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [ListUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-users.html)di *Referensi AWS CLI Perintah*. 

### `list-web-authn-credentials`
<a name="cognito-identity-provider_ListWebAuthnCredentials_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-web-authn-credentials`.

**AWS CLI**  
**Untuk membuat daftar kredenal kunci sandi**  
`list-web-authn-credentials`Contoh berikut mencantumkan kunci sandi, atau WebAuthn, kredensi untuk pengguna saat ini. Mereka memiliki satu perangkat terdaftar.  

```
aws cognito-idp list-web-authn-credentials \
    --access-token eyJra456defEXAMPLE
```
Output:  

```
{
    "Credentials": [
        {
            "AuthenticatorAttachment": "cross-platform",
            "CreatedAt": 1736293876.115,
            "CredentialId": "8LApgk4-lNUFHbhm2w6Und7-uxcc8coJGsPxiogvHoItc64xWQc3r4CEXAMPLE",
            "FriendlyCredentialName": "Roaming passkey",
            "RelyingPartyId": "auth.example.com"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Masuk kunci sandi di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-authentication-flow-methods.html#amazon-cognito-user-pools-authentication-flow-methods-passkey) Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [ListWebAuthnCredentials](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/list-web-authn-credentials.html)di *Referensi AWS CLI Perintah*. 

### `resend-confirmation-code`
<a name="cognito-identity-provider_ResendConfirmationCode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resend-confirmation-code`.

**AWS CLI**  
**Untuk mengirim ulang kode konfirmasi**  
`resend-confirmation-code`Contoh berikut mengirimkan kode konfirmasi kepada pengguna`jane`.  

```
aws cognito-idp resend-confirmation-code \
    --client-id 12a3b456c7de890f11g123hijk \
    --username jane
```
Output:  

```
{
    "CodeDeliveryDetails": {
        "Destination": "j***@e***.com",
        "DeliveryMedium": "EMAIL",
        "AttributeName": "email"
    }
}
```
Untuk informasi selengkapnya, lihat [Mendaftar dan mengonfirmasi akun pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/signing-up-users-in-your-app.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [ResendConfirmationCode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/resend-confirmation-code.html)di *Referensi AWS CLI Perintah*. 

### `respond-to-auth-challenge`
<a name="cognito-identity-provider_RespondToAuthChallenge_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`respond-to-auth-challenge`.

**AWS CLI**  
**Contoh 1: Untuk menanggapi tantangan NEW\$1PASSWORD\$1REQUIRED**  
`respond-to-auth-challenge`Contoh berikut merespons tantangan NEW\$1PASSWORD\$1REQUIRED yang dikembalikan initiate-auth. Ini menetapkan kata sandi untuk pengguna`jane@example.com`.  

```
aws cognito-idp respond-to-auth-challenge \
    --client-id 1example23456789 \
    --challenge-name NEW_PASSWORD_REQUIRED \
    --challenge-responses USERNAME=jane@example.com,NEW_PASSWORD=[Password] \
    --session AYABeEv5HklEXAMPLE
```
Output:  

```
{
    "ChallengeParameters": {},
    "AuthenticationResult": {
        "AccessToken": "ACCESS_TOKEN",
        "ExpiresIn": 3600,
        "TokenType": "Bearer",
        "RefreshToken": "REFRESH_TOKEN",
        "IdToken": "ID_TOKEN",
        "NewDeviceMetadata": {
            "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "DeviceGroupKey": "-wt2ha1Zd"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Otentikasi](https://docs.aws.amazon.com/cognito/latest/developerguide/authentication.html) di Panduan Pengembang *Amazon Cognito*.  
**Contoh 2: Untuk menanggapi tantangan SELECT\$1MFA\$1TYPE**  
`respond-to-auth-challenge`Contoh berikut memilih TOTP MFA sebagai opsi MFA untuk pengguna saat ini. Pengguna diminta untuk memilih jenis MFA dan selanjutnya akan diminta untuk memasukkan kode MFA mereka.  

```
aws cognito-idp respond-to-auth-challenge \
    --client-id 1example23456789
    --session AYABeEv5HklEXAMPLE
    --challenge-name SELECT_MFA_TYPE
    --challenge-responses USERNAME=testuser,ANSWER=SOFTWARE_TOKEN_MFA
```
Output:  

```
{
    "ChallengeName": "SOFTWARE_TOKEN_MFA",
    "Session": "AYABeEv5HklEXAMPLE",
    "ChallengeParameters": {
        "FRIENDLY_DEVICE_NAME": "transparent"
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan MFA di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa.html) Pengembang *Amazon Cognito*.  
**Contoh 3: Untuk menanggapi tantangan SOFTWARE\$1TOKEN\$1MFA**  
`respond-to-auth-challenge`Contoh berikut menyediakan kode MFA TOTP dan menyelesaikan login.  

```
aws cognito-idp respond-to-auth-challenge \
    --client-id 1example23456789 \
    --session AYABeEv5HklEXAMPLE \
    --challenge-name SOFTWARE_TOKEN_MFA \
    --challenge-responses USERNAME=testuser,SOFTWARE_TOKEN_MFA_CODE=123456
```
Output:  

```
{
    "AuthenticationResult": {
        "AccessToken": "eyJra456defEXAMPLE",
        "ExpiresIn": 3600,
        "TokenType": "Bearer",
        "RefreshToken": "eyJra123abcEXAMPLE",
        "IdToken": "eyJra789ghiEXAMPLE",
        "NewDeviceMetadata": {
            "DeviceKey": "us-west-2_a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "DeviceGroupKey": "-v7w9UcY6"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan MFA di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa.html) Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [RespondToAuthChallenge](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/respond-to-auth-challenge.html)di *Referensi AWS CLI Perintah*. 

### `revoke-token`
<a name="cognito-identity-provider_RevokeToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-token`.

**AWS CLI**  
**Untuk mencabut token penyegaran**  
Berikut ini `revoke-token` mencabut token penyegaran yang diminta dan token akses terkait.  

```
aws cognito-idp revoke-token \
    --token eyJjd123abcEXAMPLE \
    --client-id 1example23456789
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mencabut token di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/token-revocation.html) Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [RevokeToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/revoke-token.html)di *Referensi AWS CLI Perintah*. 

### `set-log-delivery-configuration`
<a name="cognito-identity-provider_SetLogDeliveryConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-log-delivery-configuration`.

**AWS CLI**  
**Untuk mengatur ekspor log dari kumpulan pengguna**  
`set-log-delivery-configuration`Contoh berikut mengonfigurasi kumpulan pengguna yang diminta dengan pencatatan kesalahan pemberitahuan pengguna ke grup log dan info otentikasi pengguna yang masuk ke bucket S3.  

```
aws cognito-idp set-log-delivery-configuration \
    --user-pool-id us-west-2_EXAMPLE \
    --log-configurations LogLevel=ERROR,EventSource=userNotification,CloudWatchLogsConfiguration={LogGroupArn=arn:aws:logs:us-west-2:123456789012:log-group:cognito-exported} LogLevel=INFO,EventSource=userAuthEvents,S3Configuration={BucketArn=arn:aws:s3:::amzn-s3-demo-bucket1}
```
Output:  

```
{
   "LogDeliveryConfiguration": {
        "LogConfigurations": [
            {
                "CloudWatchLogsConfiguration": {
                    "LogGroupArn": "arn:aws:logs:us-west-2:123456789012:log-group:cognito-exported"
                },
                "EventSource": "userNotification",
                "LogLevel": "ERROR"
            },
            {
                "EventSource": "userAuthEvents",
                "LogLevel": "INFO",
                "S3Configuration": {
                    "BucketArn": "arn:aws:s3:::amzn-s3-demo-bucket1"
                }
            }
        ],
        "UserPoolId": "us-west-2_EXAMPLE"
   }
}
```
Untuk informasi selengkapnya, lihat [Mengekspor log kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/exporting-quotas-and-usage.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [SetLogDeliveryConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/set-log-delivery-configuration.html)di *Referensi AWS CLI Perintah*. 

### `set-risk-configuration`
<a name="cognito-identity-provider_SetRiskConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-risk-configuration`.

**AWS CLI**  
**Untuk mengatur konfigurasi risiko perlindungan ancaman**  
`set-risk-configuration`Contoh berikut mengonfigurasi pesan dan tindakan perlindungan ancaman, kredensyal yang dikompromikan, dan pengecualian alamat IP di klien aplikasi yang diminta. Karena kompleksitas NotifyConfiguration objek, input JSON adalah praktik terbaik untuk perintah ini.  

```
aws cognito-idp set-risk-configuration \
    --cli-input-json file://set-risk-configuration.json
```
Isi dari `set-risk-configuration.json`:  

```
{
    "AccountTakeoverRiskConfiguration": {
        "Actions": {
            "HighAction": {
                "EventAction": "MFA_REQUIRED",
                "Notify": true
            },
            "LowAction": {
                "EventAction": "NO_ACTION",
                "Notify": true
            },
            "MediumAction": {
                "EventAction": "MFA_IF_CONFIGURED",
                "Notify": true
            }
        },
        "NotifyConfiguration": {
            "BlockEmail": {
                "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We blocked an unrecognized sign-in to your account with this information:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                "Subject": "Blocked sign-in attempt",
                "TextBody": "We blocked an unrecognized sign-in to your account with this information:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
            },
            "From": "admin@example.com",
            "MfaEmail": {
                "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We required you to use multi-factor authentication for the following sign-in attempt:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                "Subject": "New sign-in attempt",
                "TextBody": "We required you to use multi-factor authentication for the following sign-in attempt:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
            },
            "NoActionEmail": {
                "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We observed an unrecognized sign-in to your account with this information:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                "Subject": "New sign-in attempt",
                "TextBody": "We observed an unrecognized sign-in to your account with this information:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
            },
            "ReplyTo": "admin@example.com",
            "SourceArn": "arn:aws:ses:us-west-2:123456789012:identity/admin@example.com"
        }
    },
    "ClientId": "1example23456789",
    "CompromisedCredentialsRiskConfiguration": {
        "Actions": {
            "EventAction": "BLOCK"
        },
        "EventFilter": [
            "PASSWORD_CHANGE",
            "SIGN_UP",
            "SIGN_IN"
        ]
    },
    "RiskExceptionConfiguration": {
        "BlockedIPRangeList": [
            "192.0.2.1/32",
            "192.0.2.2/32"
        ],
        "SkippedIPRangeList": [
            "203.0.113.1/32",
            "203.0.113.2/32"
        ]
    },
    "UserPoolId": "us-west-2_EXAMPLE"
}
```
Output:  

```
{
    "RiskConfiguration": {
        "AccountTakeoverRiskConfiguration": {
            "Actions": {
                "HighAction": {
                    "EventAction": "MFA_REQUIRED",
                    "Notify": true
                },
                "LowAction": {
                    "EventAction": "NO_ACTION",
                    "Notify": true
                },
                "MediumAction": {
                    "EventAction": "MFA_IF_CONFIGURED",
                    "Notify": true
                }
            },
            "NotifyConfiguration": {
                "BlockEmail": {
                    "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We blocked an unrecognized sign-in to your account with this information:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                    "Subject": "Blocked sign-in attempt",
                    "TextBody": "We blocked an unrecognized sign-in to your account with this information:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
                },
                "From": "admin@example.com",
                "MfaEmail": {
                    "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We required you to use multi-factor authentication for the following sign-in attempt:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                    "Subject": "New sign-in attempt",
                    "TextBody": "We required you to use multi-factor authentication for the following sign-in attempt:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
                },
                "NoActionEmail": {
                    "HtmlBody": "<!DOCTYPE html>\n<html>\n<head>\n\t<title>HTML email context</title>\n\t<meta charset=\"utf-8\">\n</head>\n<body>\n<pre>We observed an unrecognized sign-in to your account with this information:\n<ul>\n<li>Time: {login-time}</li>\n<li>Device: {device-name}</li>\n<li>Location: {city}, {country}</li>\n</ul>\nIf this sign-in was not by you, you should change your password and notify us by clicking on <a href={one-click-link-invalid}>this link</a>\nIf this sign-in was by you, you can follow <a href={one-click-link-valid}>this link</a> to let us know</pre>\n</body>\n</html>",
                    "Subject": "New sign-in attempt",
                    "TextBody": "We observed an unrecognized sign-in to your account with this information:\nTime: {login-time}\nDevice: {device-name}\nLocation: {city}, {country}\nIf this sign-in was not by you, you should change your password and notify us by clicking on {one-click-link-invalid}\nIf this sign-in was by you, you can follow {one-click-link-valid} to let us know"
                },
                "ReplyTo": "admin@example.com",
                "SourceArn": "arn:aws:ses:us-west-2:123456789012:identity/admin@example.com"
            }
        },
        "ClientId": "1example23456789",
        "CompromisedCredentialsRiskConfiguration": {
            "Actions": {
                "EventAction": "BLOCK"
            },
            "EventFilter": [
                "PASSWORD_CHANGE",
                "SIGN_UP",
                "SIGN_IN"
            ]
        },
        "RiskExceptionConfiguration": {
            "BlockedIPRangeList": [
                "192.0.2.1/32",
                "192.0.2.2/32"
            ],
            "SkippedIPRangeList": [
                "203.0.113.1/32",
                "203.0.113.2/32"
            ]
        },
        "UserPoolId": "us-west-2_EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Perlindungan ancaman](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pool-settings-threat-protection.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [SetRiskConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/set-risk-configuration.html)di *Referensi AWS CLI Perintah*. 

### `set-ui-customization`
<a name="cognito-identity-provider_SetUiCustomization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-ui-customization`.

**AWS CLI**  
**Contoh 1: Untuk menyesuaikan UI host klasik untuk klien aplikasi**  
`set-ui-customization`Contoh berikut mengonfigurasi klien aplikasi yang diminta dengan beberapa CSS khusus dan dengan logo Amazon Cognito sebagai logo aplikasi.  

```
aws cognito-idp set-ui-customization \
    --user-pool-id us-west-2_ywDJHlIfU \
    --client-id 14pq32c5q2uq2q7keorloqvb23 \
    --css ".logo-customizable {\n\tmax-width: 60%;\n\tmax-height: 30%;\n}\n.banner-customizable {\n\tpadding: 25px 0px 25px 0px;\n\tbackground-color: lightgray;\n}\n.label-customizable {\n\tfont-weight: 400;\n}\n.textDescription-customizable {\n\tpadding-top: 10px;\n\tpadding-bottom: 10px;\n\tdisplay: block;\n\tfont-size: 16px;\n}\n.idpDescription-customizable {\n\tpadding-top: 10px;\n\tpadding-bottom: 10px;\n\tdisplay: block;\n\tfont-size: 16px;\n}\n.legalText-customizable {\n\tcolor: #747474;\n\tfont-size: 11px;\n}\n.submitButton-customizable {\n\tfont-size: 11px;\n\tfont-weight: normal;\n\tmargin: 20px -15px 10px -13px;\n\theight: 40px;\n\twidth: 108%;\n\tcolor: #fff;\n\tbackground-color: #337ab7;\n\ttext-align: center;\n}\n.submitButton-customizable:hover {\n\tcolor: #fff;\n\tbackground-color: #286090;\n}\n.errorMessage-customizable {\n\tpadding: 5px;\n\tfont-size: 14px;\n\twidth: 100%;\n\tbackground: #F5F5F5;\n\tborder: 2px solid #D64958;\n\tcolor: #D64958;\n}\n.inputField-customizable {\n\twidth: 100%;\n\theight: 34px;\n\tcolor: #555;\n\tbackground-color: #fff;\n\tborder: 1px solid #ccc;\n\tborder-radius: 0px;\n}\n.inputField-customizable:focus {\n\tborder-color: #66afe9;\n\toutline: 0;\n}\n.idpButton-customizable {\n\theight: 40px;\n\twidth: 100%;\n\twidth: 100%;\n\ttext-align: center;\n\tmargin-bottom: 15px;\n\tcolor: #fff;\n\tbackground-color: #5bc0de;\n\tborder-color: #46b8da;\n}\n.idpButton-customizable:hover {\n\tcolor: #fff;\n\tbackground-color: #31b0d5;\n}\n.socialButton-customizable {\n\tborder-radius: 2px;\n\theight: 40px;\n\tmargin-bottom: 15px;\n\tpadding: 1px;\n\ttext-align: left;\n\twidth: 100%;\n}\n.redirect-customizable {\n\ttext-align: center;\n}\n.passwordCheck-notValid-customizable {\n\tcolor: #DF3312;\n}\n.passwordCheck-valid-customizable {\n\tcolor: #19BF00;\n}\n.background-customizable {\n\tbackground-color: #fff;\n}\n" \
    --image-file 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
```
Output:  

```
{
    "UICustomization": {
        "UserPoolId": "us-west-2_ywDJHlIfU",
        "ClientId": "14pq32c5q2uq2q7keorloqvb23",
        "ImageUrl": "https://cf.thewrong.club/14pq32c5q2uq2q7keorloqvb23/20250117005911/assets/images/image.jpg",
        "CSS": ".logo-customizable {\n\tmax-width: 60%;\n\tmax-height: 30%;\n}\n.banner-customizable {\n\tpadding: 25px 0px 25px 0px;\n\tbackground-color: lightgray;\n}\n.label-customizable {\n\tfont-weight: 400;\n}\n.textDescription-customizable {\n\tpadding-top: 10px;\n\tpadding-bottom: 10px;\n\tdisplay: block;\n\tfont-size: 16px;\n}\n.idpDescription-customizable {\n\tpadding-top: 10px;\n\tpadding-bottom: 10px;\n\tdisplay: block;\n\tfont-size: 16px;\n}\n.legalText-customizable {\n\tcolor: #747474;\n\tfont-size: 11px;\n}\n.submitButton-customizable {\n\tfont-size: 11px;\n\tfont-weight: normal;\n\tmargin: 20px -15px 10px -13px;\n\theight: 40px;\n\twidth: 108%;\n\tcolor: #fff;\n\tbackground-color: #337ab7;\n\ttext-align: center;\n}\n.submitButton-customizable:hover {\n\tcolor: #fff;\n\tbackground-color: #286090;\n}\n.errorMessage-customizable {\n\tpadding: 5px;\n\tfont-size: 14px;\n\twidth: 100%;\n\tbackground: #F5F5F5;\n\tborder: 2px solid #D64958;\n\tcolor: #D64958;\n}\n.inputField-customizable {\n\twidth: 100%;\n\theight: 34px;\n\tcolor: #555;\n\tbackground-color: #fff;\n\tborder: 1px solid #ccc;\n\tborder-radius: 0px;\n}\n.inputField-customizable:focus {\n\tborder-color: #66afe9;\n\toutline: 0;\n}\n.idpButton-customizable {\n\theight: 40px;\n\twidth: 100%;\n\twidth: 100%;\n\ttext-align: center;\n\tmargin-bottom: 15px;\n\tcolor: #fff;\n\tbackground-color: #5bc0de;\n\tborder-color: #46b8da;\n}\n.idpButton-customizable:hover {\n\tcolor: #fff;\n\tbackground-color: #31b0d5;\n}\n.socialButton-customizable {\n\tborder-radius: 2px;\n\theight: 40px;\n\tmargin-bottom: 15px;\n\tpadding: 1px;\n\ttext-align: left;\n\twidth: 100%;\n}\n.redirect-customizable {\n\ttext-align: center;\n}\n.passwordCheck-notValid-customizable {\n\tcolor: #DF3312;\n}\n.passwordCheck-valid-customizable {\n\tcolor: #19BF00;\n}\n.background-customizable {\n\tbackground-color: #fff;\n}\n",
        "CSSVersion": "20250117005911"
    }
}
```
**Contoh 2: Untuk mengatur kustomisasi UI default untuk semua klien aplikasi**  
`set-ui-customization`Contoh berikut mengonfigurasi kumpulan pengguna yang diminta untuk semua klien aplikasi yang tidak memiliki konfigurasi khusus klien. Perintah ini menerapkan beberapa CSS khusus dan dengan logo Amazon Cognito sebagai logo aplikasi.  

```
aws cognito-idp set-ui-customization \
--user-pool-id us-west-2_ywDJHlIfU \
--client-id ALL \
--css ".logo-customizable {\n\tmax-width: 60%;\n\tmax-height: 30%;\n}\n.banner-customizable {\n\tpadding: 25px 0px 25px 0px;\n\tbackground-color: lightgray;\n}\n.label-customizable {\n\tfont-weight: 400;\n}\n.textDescription-customizable {\n\tpadding-top: 10px;\n\tpadding-bottom: 10px;\n\tdisplay: block;\n\tfont-size: 16px;\n}\n.idpDescription-customizable {\n\tpadding-top: 10px;\n\tpadding-bottom: 10px;\n\tdisplay: block;\n\tfont-size: 16px;\n}\n.legalText-customizable {\n\tcolor: #747474;\n\tfont-size: 11px;\n}\n.submitButton-customizable {\n\tfont-size: 11px;\n\tfont-weight: normal;\n\tmargin: 20px -15px 10px -13px;\n\theight: 40px;\n\twidth: 108%;\n\tcolor: #fff;\n\tbackground-color: #337ab7;\n\ttext-align: center;\n}\n.submitButton-customizable:hover {\n\tcolor: #fff;\n\tbackground-color: #286090;\n}\n.errorMessage-customizable {\n\tpadding: 5px;\n\tfont-size: 14px;\n\twidth: 100%;\n\tbackground: #F5F5F5;\n\tborder: 2px solid #D64958;\n\tcolor: #D64958;\n}\n.inputField-customizable {\n\twidth: 100%;\n\theight: 34px;\n\tcolor: #555;\n\tbackground-color: #fff;\n\tborder: 1px solid #ccc;\n\tborder-radius: 0px;\n}\n.inputField-customizable:focus {\n\tborder-color: #66afe9;\n\toutline: 0;\n}\n.idpButton-customizable {\n\theight: 40px;\n\twidth: 100%;\n\twidth: 100%;\n\ttext-align: center;\n\tmargin-bottom: 15px;\n\tcolor: #fff;\n\tbackground-color: #5bc0de;\n\tborder-color: #46b8da;\n}\n.idpButton-customizable:hover {\n\tcolor: #fff;\n\tbackground-color: #31b0d5;\n}\n.socialButton-customizable {\n\tborder-radius: 2px;\n\theight: 40px;\n\tmargin-bottom: 15px;\n\tpadding: 1px;\n\ttext-align: left;\n\twidth: 100%;\n}\n.redirect-customizable {\n\ttext-align: center;\n}\n.passwordCheck-notValid-customizable {\n\tcolor: #DF3312;\n}\n.passwordCheck-valid-customizable {\n\tcolor: #19BF00;\n}\n.background-customizable {\n\tbackground-color: #fff;\n}\n" \
--image-file 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
```
Output:  

```
{
    "UICustomization": {
        "UserPoolId": "us-west-2_ywDJHlIfU",
        "ClientId": "14pq32c5q2uq2q7keorloqvb23",
        "ImageUrl": "https://cf.thewrong.club/14pq32c5q2uq2q7keorloqvb23/20250117005911/assets/images/image.jpg",
        "CSS": ".logo-customizable {\n\tmax-width: 60%;\n\tmax-height: 30%;\n}\n.banner-customizable {\n\tpadding: 25px 0px 25px 0px;\n\tbackground-color: lightgray;\n}\n.label-customizable {\n\tfont-weight: 400;\n}\n.textDescription-customizable {\n\tpadding-top: 10px;\n\tpadding-bottom: 10px;\n\tdisplay: block;\n\tfont-size: 16px;\n}\n.idpDescription-customizable {\n\tpadding-top: 10px;\n\tpadding-bottom: 10px;\n\tdisplay: block;\n\tfont-size: 16px;\n}\n.legalText-customizable {\n\tcolor: #747474;\n\tfont-size: 11px;\n}\n.submitButton-customizable {\n\tfont-size: 11px;\n\tfont-weight: normal;\n\tmargin: 20px -15px 10px -13px;\n\theight: 40px;\n\twidth: 108%;\n\tcolor: #fff;\n\tbackground-color: #337ab7;\n\ttext-align: center;\n}\n.submitButton-customizable:hover {\n\tcolor: #fff;\n\tbackground-color: #286090;\n}\n.errorMessage-customizable {\n\tpadding: 5px;\n\tfont-size: 14px;\n\twidth: 100%;\n\tbackground: #F5F5F5;\n\tborder: 2px solid #D64958;\n\tcolor: #D64958;\n}\n.inputField-customizable {\n\twidth: 100%;\n\theight: 34px;\n\tcolor: #555;\n\tbackground-color: #fff;\n\tborder: 1px solid #ccc;\n\tborder-radius: 0px;\n}\n.inputField-customizable:focus {\n\tborder-color: #66afe9;\n\toutline: 0;\n}\n.idpButton-customizable {\n\theight: 40px;\n\twidth: 100%;\n\twidth: 100%;\n\ttext-align: center;\n\tmargin-bottom: 15px;\n\tcolor: #fff;\n\tbackground-color: #5bc0de;\n\tborder-color: #46b8da;\n}\n.idpButton-customizable:hover {\n\tcolor: #fff;\n\tbackground-color: #31b0d5;\n}\n.socialButton-customizable {\n\tborder-radius: 2px;\n\theight: 40px;\n\tmargin-bottom: 15px;\n\tpadding: 1px;\n\ttext-align: left;\n\twidth: 100%;\n}\n.redirect-customizable {\n\ttext-align: center;\n}\n.passwordCheck-notValid-customizable {\n\tcolor: #DF3312;\n}\n.passwordCheck-valid-customizable {\n\tcolor: #19BF00;\n}\n.background-customizable {\n\tbackground-color: #fff;\n}\n",
        "CSSVersion": "20250117005911"
    }
}
```
Untuk informasi selengkapnya, lihat [pencitraan merek UI (klasik) yang dihosting](https://docs.aws.amazon.com/cognito/latest/developerguide/hosted-ui-classic-branding.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [SetUiCustomization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/set-ui-customization.html)di *Referensi AWS CLI Perintah*. 

### `set-user-mfa-preference`
<a name="cognito-identity-provider_SetUserMfaPreference_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-user-mfa-preference`.

**AWS CLI**  
**Untuk mengatur preferensi MFA pengguna**  
`set-user-mfa-preference`Contoh berikut mengkonfigurasi pengguna saat ini untuk menggunakan TOTP MFA dan menonaktifkan semua faktor MFA lainnya.  

```
aws cognito-idp set-user-mfa-preference \
    --access-token eyJra456defEXAMPLE \
    --software-token-mfa-settings Enabled=true,PreferredMfa=true \
    --sms-mfa-settings Enabled=false,PreferredMfa=false \
    --email-mfa-settings Enabled=false,PreferredMfa=false
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan MFA di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa.html) Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [SetUserMfaPreference](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/set-user-mfa-preference.html)di *Referensi AWS CLI Perintah*. 

### `set-user-pool-mfa-config`
<a name="cognito-identity-provider_SetUserPoolMfaConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-user-pool-mfa-config`.

**AWS CLI**  
**Untuk mengkonfigurasi MFA kolam pengguna dan WebAuthn**  
`set-user-pool-mfa-config`Contoh berikut mengonfigurasi kumpulan pengguna yang diminta dengan MFA opsional dengan semua metode MFA yang tersedia, dan menetapkan konfigurasi. WebAuthn   

```
aws cognito-idp set-user-pool-mfa-config \
    --user-pool-id us-west-2_EXAMPLE \
    --sms-mfa-configuration "SmsAuthenticationMessage=\"Your OTP for MFA or sign-in: use {####}.\",SmsConfiguration={SnsCallerArn=arn:aws:iam::123456789012:role/service-role/test-SMS-Role,ExternalId=a1b2c3d4-5678-90ab-cdef-EXAMPLE11111,SnsRegion=us-west-2}" \
    --software-token-mfa-configuration Enabled=true \
    --email-mfa-configuration "Message=\"Your OTP for MFA or sign-in: use {####}\",Subject=\"OTP test\"" \
    --mfa-configuration OPTIONAL \
    --web-authn-configuration RelyingPartyId=auth.example.com,UserVerification=preferred
```
Output:  

```
{
    "EmailMfaConfiguration": {
        "Message": "Your OTP for MFA or sign-in: use {####}",
        "Subject": "OTP test"
    },
    "MfaConfiguration": "OPTIONAL",
    "SmsMfaConfiguration": {
        "SmsAuthenticationMessage": "Your OTP for MFA or sign-in: use {####}.",
        "SmsConfiguration": {
            "ExternalId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "SnsCallerArn": "arn:aws:iam::123456789012:role/service-role/test-SMS-Role",
            "SnsRegion": "us-west-2"
        }
    },
    "SoftwareTokenMfaConfiguration": {
        "Enabled": true
    },
    "WebAuthnConfiguration": {
        "RelyingPartyId": "auth.example.com",
        "UserVerification": "preferred"
    }
}
```
*Untuk informasi selengkapnya, lihat [Menambahkan login MFA](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa.html) [dan Kunci Sandi di Panduan Pengembang](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-authentication-flow-methods.html#amazon-cognito-user-pools-authentication-flow-methods-passkey) Amazon Cognito.*  
+  Untuk detail API, lihat [SetUserPoolMfaConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/set-user-pool-mfa-config.html)di *Referensi AWS CLI Perintah*. 

### `set-user-settings`
<a name="cognito-identity-provider_SetUserSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-user-settings`.

**AWS CLI**  
**Untuk mengatur pengaturan pengguna**  
Contoh ini menetapkan preferensi pengiriman MFA ke EMAIL.  
Perintah:  

```
aws cognito-idp set-user-settings --access-token ACCESS_TOKEN --mfa-options DeliveryMedium=EMAIL
```
+  Untuk detail API, lihat [SetUserSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/set-user-settings.html)di *Referensi AWS CLI Perintah*. 

### `sign-up`
<a name="cognito-identity-provider_SignUp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`sign-up`.

**AWS CLI**  
**Untuk mendaftar pengguna**  
Contoh ini mendaftar jane@example.com.  
Perintah:  

```
aws cognito-idp sign-up --client-id 3n4b5urk1ft4fl3mg5e62d9ado --username jane@example.com --password PASSWORD --user-attributes Name="email",Value="jane@example.com" Name="name",Value="Jane"
```
Output:  

```
{
  "UserConfirmed": false,
  "UserSub": "e04d60a6-45dc-441c-a40b-e25a787d4862"
}
```
+  Untuk detail API, lihat [SignUp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/sign-up.html)di *Referensi AWS CLI Perintah*. 

### `start-user-import-job`
<a name="cognito-identity-provider_StartUserImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-user-import-job`.

**AWS CLI**  
**Untuk memulai pekerjaan impor**  
`start-user-import-job`Contoh berikut memulai pekerjaan impor yang diminta di kumpulan pengguna yang diminta.  

```
aws cognito-idp start-user-import-job \
    --user-pool-id us-west-2_EXAMPLE \
    --job-id import-mAgUtd8PMm
```
Output:  

```
{
    "UserImportJob": {
        "CloudWatchLogsRoleArn": "arn:aws:iam::123456789012:role/example-cloudwatch-logs-role",
        "CreationDate": 1736442975.904,
        "FailedUsers": 0,
        "ImportedUsers": 0,
        "JobId": "import-mAgUtd8PMm",
        "JobName": "Customer import",
        "PreSignedUrl": "https://aws-cognito-idp-user-import-pdx.s3.us-west-2.amazonaws.com/123456789012/us-west-2_EXAMPLE/import-mAgUtd8PMm?X-Amz-Security-Token=[token]&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20241226T193341Z&X-Amz-SignedHeaders=host%3Bx-amz-server-side-encryption&X-Amz-Expires=899&X-Amz-Credential=[credential]&X-Amz-Signature=[signature]",
        "SkippedUsers": 0,
        "StartDate": 1736443020.081,
        "Status": "Pending",
        "UserPoolId": "us-west-2_EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengimpor pengguna ke kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-using-import-tool.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [StartUserImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/start-user-import-job.html)di *Referensi AWS CLI Perintah*. 

### `start-web-authn-registration`
<a name="cognito-identity-provider_StartWebAuthnRegistration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-web-authn-registration`.

**AWS CLI**  
**Untuk mendapatkan informasi pendaftaran passkey untuk pengguna yang masuk**  
`start-web-authn-registration`Contoh berikut menghasilkan opsi WebAuthn pendaftaran untuk pengguna saat ini.  

```
aws cognito-idp start-web-authn-registration \
    --access-token eyJra456defEXAMPLE
```
Output:  

```
{
    "CredentialCreationOptions": {
        "authenticatorSelection": {
            "requireResidentKey": true,
            "residentKey": "required",
            "userVerification": "preferred"
        },
        "challenge": "wxvbDicyqQqvF2EXAMPLE",
        "excludeCredentials": [
            {
                "id": "8LApgk4-lNUFHbhm2w6Und7-uxcc8coJGsPxiogvHoItc64xWQc3r4CEXAMPLE",
                "type": "public-key"
            }
        ],
        "pubKeyCredParams": [
            {
                "alg": -7,
                "type": "public-key"
            },
            {
                "alg": -257,
                "type": "public-key"
            }
        ],
        "rp": {
            "id": "auth.example.com",
            "name": "auth.example.com"
        },
        "timeout": 60000,
        "user": {
            "displayName": "testuser",
            "id": "ZWFhZDAyMTktMjExNy00MzlmLThkNDYtNGRiMjBlNEXAMPLE",
            "name": "testuser"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Masuk kunci sandi di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/amazon-cognito-user-pools-authentication-flow-methods.html#amazon-cognito-user-pools-authentication-flow-methods-passkey) Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [StartWebAuthnRegistration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/start-web-authn-registration.html)di *Referensi AWS CLI Perintah*. 

### `stop-user-import-job`
<a name="cognito-identity-provider_StopUserImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-user-import-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan impor**  
`stop-user-import-job`Contoh berikut menghentikan pekerjaan impor pengguna berjalan yang diminta di kumpulan pengguna yang diminta.  

```
aws cognito-idp stop-user-import-job \
    --user-pool-id us-west-2_EXAMPLE \
    --job-id import-mAgUtd8PMm
```
Output:  

```
{
    "UserImportJob": {
        "CloudWatchLogsRoleArn": "arn:aws:iam::123456789012:role/example-cloudwatch-logs-role",
        "CompletionDate": 1736443496.379,
        "CompletionMessage": "The Import Job was stopped by the developer.",
        "CreationDate": 1736443471.781,
        "FailedUsers": 0,
        "ImportedUsers": 0,
        "JobId": "import-mAgUtd8PMm",
        "JobName": "Customer import",
        "PreSignedUrl": "https://aws-cognito-idp-user-import-pdx.s3.us-west-2.amazonaws.com/123456789012/us-west-2_EXAMPLE/import-mAgUtd8PMm?X-Amz-Security-Token=[token]&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20241226T193341Z&X-Amz-SignedHeaders=host%3Bx-amz-server-side-encryption&X-Amz-Expires=899&X-Amz-Credential=[credential]&X-Amz-Signature=[signature]",
        "SkippedUsers": 0,
        "StartDate": 1736443494.154,
        "Status": "Stopped",
        "UserPoolId": "us-west-2_EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengimpor pengguna ke kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-using-import-tool.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [StopUserImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/stop-user-import-job.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="cognito-identity-provider_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai kumpulan pengguna**  
`tag-resource`Contoh berikut berlaku `administrator` dan `department` tag ke kumpulan pengguna yang diminta.  

```
aws cognito-idp tag-resource \
    --resource-arn arn:aws:cognito-idp:us-west-2:123456789012:userpool/us-west-2_EXAMPLE \
    --tags administrator=Jie,tenant=ExampleCorp
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Amazon Cognito](https://docs.aws.amazon.com/cognito/latest/developerguide/tagging.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="cognito-identity-provider_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari kumpulan pengguna**  
`untag-resource`Contoh berikut menghapus `administrator` dan `department` tag dari kumpulan pengguna yang diminta.  

```
aws cognito-idp untag-resource \
    --resource-arn arn:aws:cognito-idp:us-west-2:767671399759:userpool/us-west-2_l5cxwdm2K \
    --tag-keys administrator tenant
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Amazon Cognito](https://docs.aws.amazon.com/cognito/latest/developerguide/tagging.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-auth-event-feedback`
<a name="cognito-identity-provider_UpdateAuthEventFeedback_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-auth-event-feedback`.

**AWS CLI**  
**Untuk memperbarui umpan balik acara autentikasi**  
Contoh ini memperbarui umpan balik acara otorisasi. Ini menandai acara “Valid”.  
Perintah:  

```
aws cognito-idp update-auth-event-feedback --user-pool-id us-west-2_aaaaaaaaa --username diego@example.com --event-id EVENT_ID --feedback-token FEEDBACK_TOKEN --feedback-value "Valid"
```
+  Untuk detail API, lihat [UpdateAuthEventFeedback](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-auth-event-feedback.html)di *Referensi AWS CLI Perintah*. 

### `update-device-status`
<a name="cognito-identity-provider_UpdateDeviceStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-device-status`.

**AWS CLI**  
**Untuk memperbarui status perangkat**  
Contoh ini memperbarui status perangkat ke “not\$1remembered”.  
Perintah:  

```
aws cognito-idp update-device-status --access-token ACCESS_TOKEN --device-key DEVICE_KEY --device-remembered-status "not_remembered"
```
+  Untuk detail API, lihat [UpdateDeviceStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-device-status.html)di *Referensi AWS CLI Perintah*. 

### `update-group`
<a name="cognito-identity-provider_UpdateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-group`.

**AWS CLI**  
**Untuk memperbarui grup**  
Contoh ini memperbarui deskripsi dan prioritas untuk. MyGroup  
Perintah:  

```
aws cognito-idp update-group --user-pool-id us-west-2_aaaaaaaaa --group-name MyGroup --description "New description" --precedence 2
```
Output:  

```
{
  "Group": {
      "GroupName": "MyGroup",
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "Description": "New description",
      "RoleArn": "arn:aws:iam::111111111111:role/MyRole",
      "Precedence": 2,
      "LastModifiedDate": 1548800862.812,
      "CreationDate": 1548097827.125
  }
}
```
+  Untuk detail API, lihat [UpdateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-group.html)di *Referensi AWS CLI Perintah*. 

### `update-identity-provider`
<a name="cognito-identity-provider_UpdateIdentityProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-identity-provider`.

**AWS CLI**  
**Untuk memperbarui penyedia identitas kumpulan pengguna**  
`update-identity-provider`Contoh berikut memperbarui penyedia OIDC “My OIDCId P” di kumpulan pengguna yang diminta.  

```
aws cognito-idp update-identity-provider \
    --cli-input-json file://update-identity-provider.json
```
Isi dari `update-identity-provider.json`:  

```
{
   "AttributeMapping": {
            "email": "idp_email",
            "email_verified": "idp_email_verified",
            "username": "sub"
    },
    "CreationDate": 1.701129701653E9,
    "IdpIdentifiers": [
        "corp",
        "dev"
    ],
    "LastModifiedDate": 1.701129701653E9,
    "ProviderDetails": {
        "attributes_request_method": "GET",
        "attributes_url": "https://example.com/userInfo",
        "attributes_url_add_attributes": "false",
        "authorize_scopes": "openid profile",
        "authorize_url": "https://example.com/authorize",
        "client_id": "idpexampleclient123",
        "client_secret": "idpexamplesecret456",
        "jwks_uri": "https://example.com/.well-known/jwks.json",
        "oidc_issuer": "https://example.com",
        "token_url": "https://example.com/token"
    },
    "ProviderName": "MyOIDCIdP",
    "UserPoolId": "us-west-2_EXAMPLE"
}
```
Output:  

```
{
    "IdentityProvider": {
        "AttributeMapping": {
            "email": "idp_email",
            "email_verified": "idp_email_verified",
            "username": "sub"
        },
        "CreationDate": 1701129701.653,
        "IdpIdentifiers": [
            "corp",
            "dev"
        ],
        "LastModifiedDate": 1736444278.211,
        "ProviderDetails": {
            "attributes_request_method": "GET",
            "attributes_url": "https://example.com/userInfo",
            "attributes_url_add_attributes": "false",
            "authorize_scopes": "openid profile",
            "authorize_url": "https://example.com/authorize",
            "client_id": "idpexampleclient123",
            "client_secret": "idpexamplesecret456",
            "jwks_uri": "https://example.com/.well-known/jwks.json",
            "oidc_issuer": "https://example.com",
            "token_url": "https://example.com/token"
        },
        "ProviderName": "MyOIDCIdP",
        "ProviderType": "OIDC",
        "UserPoolId": "us-west-2_EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi domain](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-assign-domain.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [UpdateIdentityProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-identity-provider.html)di *Referensi AWS CLI Perintah*. 

### `update-managed-login-branding`
<a name="cognito-identity-provider_UpdateManagedLoginBranding_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-managed-login-branding`.

**AWS CLI**  
**Untuk memperbarui gaya branding login terkelola**  
`update-managed-login-branding`Contoh berikut memperbarui gaya branding klien aplikasi yang diminta.  

```
aws cognito-idp update-managed-login-branding \
    --cli-input-json file://update-managed-login-branding.json
```
Isi dari `update-managed-login-branding.json`:  

```
{
    "Assets": [
        {
            "Bytes": "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",
            "Category": "PAGE_FOOTER_BACKGROUND",
            "ColorMode": "DARK",
            "Extension": "SVG"
        }
    ],
    "ManagedLoginBrandingId": "63f30090-6b1f-4278-b885-2bbb81f8e545",
    "Settings": {
        "categories": {
            "auth": {
                "authMethodOrder": [
                    [
                        {
                            "display": "BUTTON",
                            "type": "FEDERATED"
                        },
                        {
                            "display": "INPUT",
                            "type": "USERNAME_PASSWORD"
                        }
                    ]
                ],
                "federation": {
                    "interfaceStyle": "BUTTON_LIST",
                    "order": [
                    ]
                }
            },
            "form": {
                "displayGraphics": true,
                "instructions": {
                    "enabled": false
                },
                "languageSelector": {
                    "enabled": false
                },
                "location": {
                    "horizontal": "CENTER",
                    "vertical": "CENTER"
                },
                "sessionTimerDisplay": "NONE"
            },
            "global": {
                "colorSchemeMode": "LIGHT",
                "pageFooter": {
                    "enabled": false
                },
                "pageHeader": {
                    "enabled": false
                },
                "spacingDensity": "REGULAR"
            },
            "signUp": {
                "acceptanceElements": [
                    {
                        "enforcement": "NONE",
                        "textKey": "en"
                    }
                ]
            }
        },
        "componentClasses": {
            "buttons": {
                "borderRadius": 8.0
            },
            "divider": {
                "darkMode": {
                    "borderColor": "232b37ff"
                },
                "lightMode": {
                    "borderColor": "ebebf0ff"
                }
            },
            "dropDown": {
                "borderRadius": 8.0,
                "darkMode": {
                    "defaults": {
                        "itemBackgroundColor": "192534ff"
                    },
                    "hover": {
                        "itemBackgroundColor": "081120ff",
                        "itemBorderColor": "5f6b7aff",
                        "itemTextColor": "e9ebedff"
                    },
                    "match": {
                        "itemBackgroundColor": "d1d5dbff",
                        "itemTextColor": "89bdeeff"
                    }
                },
                "lightMode": {
                    "defaults": {
                        "itemBackgroundColor": "ffffffff"
                    },
                    "hover": {
                        "itemBackgroundColor": "f4f4f4ff",
                        "itemBorderColor": "7d8998ff",
                        "itemTextColor": "000716ff"
                    },
                    "match": {
                        "itemBackgroundColor": "414d5cff",
                        "itemTextColor": "0972d3ff"
                    }
                }
            },
            "focusState": {
                "darkMode": {
                    "borderColor": "539fe5ff"
                },
                "lightMode": {
                    "borderColor": "0972d3ff"
                }
            },
            "idpButtons": {
                "icons": {
                    "enabled": true
                }
            },
            "input": {
                "borderRadius": 8.0,
                "darkMode": {
                    "defaults": {
                        "backgroundColor": "0f1b2aff",
                        "borderColor": "5f6b7aff"
                    },
                    "placeholderColor": "8d99a8ff"
                },
                "lightMode": {
                    "defaults": {
                        "backgroundColor": "ffffffff",
                        "borderColor": "7d8998ff"
                    },
                    "placeholderColor": "5f6b7aff"
                }
            },
            "inputDescription": {
                "darkMode": {
                    "textColor": "8d99a8ff"
                },
                "lightMode": {
                    "textColor": "5f6b7aff"
                }
            },
            "inputLabel": {
                "darkMode": {
                    "textColor": "d1d5dbff"
                },
                "lightMode": {
                    "textColor": "000716ff"
                }
            },
            "link": {
                "darkMode": {
                    "defaults": {
                        "textColor": "539fe5ff"
                    },
                    "hover": {
                        "textColor": "89bdeeff"
                    }
                },
                "lightMode": {
                    "defaults": {
                        "textColor": "0972d3ff"
                    },
                    "hover": {
                        "textColor": "033160ff"
                    }
                }
            },
            "optionControls": {
                "darkMode": {
                    "defaults": {
                        "backgroundColor": "0f1b2aff",
                        "borderColor": "7d8998ff"
                    },
                    "selected": {
                        "backgroundColor": "539fe5ff",
                        "foregroundColor": "000716ff"
                    }
                },
                "lightMode": {
                    "defaults": {
                        "backgroundColor": "ffffffff",
                        "borderColor": "7d8998ff"
                    },
                    "selected": {
                        "backgroundColor": "0972d3ff",
                        "foregroundColor": "ffffffff"
                    }
                }
            },
            "statusIndicator": {
                "darkMode": {
                    "error": {
                        "backgroundColor": "1a0000ff",
                        "borderColor": "eb6f6fff",
                        "indicatorColor": "eb6f6fff"
                    },
                    "pending": {
                        "indicatorColor": "AAAAAAAA"
                    },
                    "success": {
                        "backgroundColor": "001a02ff",
                        "borderColor": "29ad32ff",
                        "indicatorColor": "29ad32ff"
                    },
                    "warning": {
                        "backgroundColor": "1d1906ff",
                        "borderColor": "e0ca57ff",
                        "indicatorColor": "e0ca57ff"
                    }
                },
                "lightMode": {
                    "error": {
                        "backgroundColor": "fff7f7ff",
                        "borderColor": "d91515ff",
                        "indicatorColor": "d91515ff"
                    },
                    "pending": {
                        "indicatorColor": "AAAAAAAA"
                    },
                    "success": {
                        "backgroundColor": "f2fcf3ff",
                        "borderColor": "037f0cff",
                        "indicatorColor": "037f0cff"
                    },
                    "warning": {
                        "backgroundColor": "fffce9ff",
                        "borderColor": "8d6605ff",
                        "indicatorColor": "8d6605ff"
                    }
                }
            }
        },
        "components": {
            "alert": {
                "borderRadius": 12.0,
                "darkMode": {
                    "error": {
                        "backgroundColor": "1a0000ff",
                        "borderColor": "eb6f6fff"
                    }
                },
                "lightMode": {
                    "error": {
                        "backgroundColor": "fff7f7ff",
                        "borderColor": "d91515ff"
                    }
                }
            },
            "favicon": {
                "enabledTypes": [
                    "ICO",
                    "SVG"
                ]
            },
            "form": {
                "backgroundImage": {
                    "enabled": false
                },
                "borderRadius": 8.0,
                "darkMode": {
                    "backgroundColor": "0f1b2aff",
                    "borderColor": "424650ff"
                },
                "lightMode": {
                    "backgroundColor": "ffffffff",
                    "borderColor": "c6c6cdff"
                },
                "logo": {
                    "enabled": false,
                    "formInclusion": "IN",
                    "location": "CENTER",
                    "position": "TOP"
                }
            },
            "idpButton": {
                "custom": {
                },
                "standard": {
                    "darkMode": {
                        "active": {
                            "backgroundColor": "354150ff",
                            "borderColor": "89bdeeff",
                            "textColor": "89bdeeff"
                        },
                        "defaults": {
                            "backgroundColor": "0f1b2aff",
                            "borderColor": "c6c6cdff",
                            "textColor": "c6c6cdff"
                        },
                        "hover": {
                            "backgroundColor": "192534ff",
                            "borderColor": "89bdeeff",
                            "textColor": "89bdeeff"
                        }
                    },
                    "lightMode": {
                        "active": {
                            "backgroundColor": "d3e7f9ff",
                            "borderColor": "033160ff",
                            "textColor": "033160ff"
                        },
                        "defaults": {
                            "backgroundColor": "ffffffff",
                            "borderColor": "424650ff",
                            "textColor": "424650ff"
                        },
                        "hover": {
                            "backgroundColor": "f2f8fdff",
                            "borderColor": "033160ff",
                            "textColor": "033160ff"
                        }
                    }
                }
            },
            "pageBackground": {
                "darkMode": {
                    "color": "0f1b2aff"
                },
                "image": {
                    "enabled": true
                },
                "lightMode": {
                    "color": "ffffffff"
                }
            },
            "pageFooter": {
                "backgroundImage": {
                    "enabled": false
                },
                "darkMode": {
                    "background": {
                        "color": "0f141aff"
                    },
                    "borderColor": "424650ff"
                },
                "lightMode": {
                    "background": {
                        "color": "fafafaff"
                    },
                    "borderColor": "d5dbdbff"
                },
                "logo": {
                    "enabled": false,
                    "location": "START"
                }
            },
            "pageHeader": {
                "backgroundImage": {
                    "enabled": false
                },
                "darkMode": {
                    "background": {
                        "color": "0f141aff"
                    },
                    "borderColor": "424650ff"
                },
                "lightMode": {
                    "background": {
                        "color": "fafafaff"
                    },
                    "borderColor": "d5dbdbff"
                },
                "logo": {
                    "enabled": false,
                    "location": "START"
                }
            },
            "pageText": {
                "darkMode": {
                    "bodyColor": "b6bec9ff",
                    "descriptionColor": "b6bec9ff",
                    "headingColor": "d1d5dbff"
                },
                "lightMode": {
                    "bodyColor": "414d5cff",
                    "descriptionColor": "414d5cff",
                    "headingColor": "000716ff"
                }
            },
            "phoneNumberSelector": {
                "displayType": "TEXT"
            },
            "primaryButton": {
                "darkMode": {
                    "active": {
                        "backgroundColor": "539fe5ff",
                        "textColor": "000716ff"
                    },
                    "defaults": {
                        "backgroundColor": "539fe5ff",
                        "textColor": "000716ff"
                    },
                    "disabled": {
                        "backgroundColor": "ffffffff",
                        "borderColor": "ffffffff"
                    },
                    "hover": {
                        "backgroundColor": "89bdeeff",
                        "textColor": "000716ff"
                    }
                },
                "lightMode": {
                    "active": {
                        "backgroundColor": "033160ff",
                        "textColor": "ffffffff"
                    },
                    "defaults": {
                        "backgroundColor": "0972d3ff",
                        "textColor": "ffffffff"
                    },
                    "disabled": {
                        "backgroundColor": "ffffffff",
                        "borderColor": "ffffffff"
                    },
                    "hover": {
                        "backgroundColor": "033160ff",
                        "textColor": "ffffffff"
                    }
                }
            },
            "secondaryButton": {
                "darkMode": {
                    "active": {
                        "backgroundColor": "354150ff",
                        "borderColor": "89bdeeff",
                        "textColor": "89bdeeff"
                    },
                    "defaults": {
                        "backgroundColor": "0f1b2aff",
                        "borderColor": "539fe5ff",
                        "textColor": "539fe5ff"
                    },
                    "hover": {
                        "backgroundColor": "192534ff",
                        "borderColor": "89bdeeff",
                        "textColor": "89bdeeff"
                    }
                },
                "lightMode": {
                    "active": {
                        "backgroundColor": "d3e7f9ff",
                        "borderColor": "033160ff",
                        "textColor": "033160ff"
                    },
                    "defaults": {
                        "backgroundColor": "ffffffff",
                        "borderColor": "0972d3ff",
                        "textColor": "0972d3ff"
                    },
                    "hover": {
                        "backgroundColor": "f2f8fdff",
                        "borderColor": "033160ff",
                        "textColor": "033160ff"
                    }
                }
            }
        }
    },
    "UseCognitoProvidedValues": false,
    "UserPoolId": "ca-central-1_EXAMPLE"
}
```
Output:  

```
{
    "ManagedLoginBranding": {
        "Assets": [
            {
                "Bytes": "PHN2ZyB3aWR0aD0iMjAwMDAiIGhlaWdodD0iNDAwIiB2aWV3Qm94PSIwIDAgMjAwMDAgNDAwIiBmaWxsPSJub25lIiB4bWxucz0iaHR0cDovL3d3dy53My5vcmcvMjAwMC9zdmciPgo8ZyBjbGlwLXBhdGg9InVybCgjY2xpcDBfMTcyNTlfMjM2Njc0KSI+CjxyZWN0IHdpZHRoPSIyMDAwMCIgaGVpZ2h0PSI0MDAiIGZpbGw9InVybCgjcGFpbnQwX2xpbmVhcl8xNzI1OV8yMzY2NzQpIi8+CjxwYXRoIGQ9Ik0wIDBIMjAwMDBWNDAwSDBWMFoiIGZpbGw9IiMxMjIwMzciIGZpbGwtb3BhY2l0eT0iMC41Ii8+CjwvZz4KPGRlZnM+CjxsaW5lYXJHcmFkaWVudCBpZD0icGFpbnQwX2xpbmVhcl8xNzI1OV8yMzY2NzQiIHgxPSItODk0LjI0OSIgeTE9IjE5OS45MzEiIHgyPSIxODAzNC41IiB5Mj0iLTU4OTkuNTciIGdyYWRpZW50VW5pdHM9InVzZXJTcGFjZU9uVXNlIj4KPHN0b3Agc3RvcC1jb2xvcj0iI0JGODBGRiIvPgo8c3RvcCBvZmZzZXQ9IjEiIHN0b3AtY29sb3I9IiNGRjhGQUIiLz4KPC9saW5lYXJHcmFkaWVudD4KPGNsaXBQYXRoIGlkPSJjbGlwMF8xNzI1OV8yMzY2NzQiPgo8cmVjdCB3aWR0aD0iMjAwMDAiIGhlaWdodD0iNDAwIiBmaWxsPSJ3aGl0ZSIvPgo8L2NsaXBQYXRoPgo8L2RlZnM+Cjwvc3ZnPgo=",
                "Category": "PAGE_FOOTER_BACKGROUND",
                "ColorMode": "DARK",
                "Extension": "SVG"
            }
        ],
        "CreationDate": 1732138490.642,
        "LastModifiedDate": 1732140420.301,
        "ManagedLoginBrandingId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Settings": {
            "categories": {
                "auth": {
                    "authMethodOrder": [
                        [
                            {
                                "display": "BUTTON",
                                "type": "FEDERATED"
                            },
                            {
                                "display": "INPUT",
                                "type": "USERNAME_PASSWORD"
                            }
                        ]
                    ],
                    "federation": {
                        "interfaceStyle": "BUTTON_LIST",
                        "order": [
                        ]
                    }
                },
                "form": {
                    "displayGraphics": true,
                    "instructions": {
                        "enabled": false
                    },
                    "languageSelector": {
                        "enabled": false
                    },
                    "location": {
                        "horizontal": "CENTER",
                        "vertical": "CENTER"
                    },
                    "sessionTimerDisplay": "NONE"
                },
                "global": {
                    "colorSchemeMode": "LIGHT",
                    "pageFooter": {
                        "enabled": false
                    },
                    "pageHeader": {
                        "enabled": false
                    },
                    "spacingDensity": "REGULAR"
                },
                "signUp": {
                    "acceptanceElements": [
                        {
                            "enforcement": "NONE",
                            "textKey": "en"
                        }
                    ]
                }
            },
            "componentClasses": {
                "buttons": {
                    "borderRadius": 8.0
                },
                "divider": {
                    "darkMode": {
                        "borderColor": "232b37ff"
                    },
                    "lightMode": {
                        "borderColor": "ebebf0ff"
                    }
                },
                "dropDown": {
                    "borderRadius": 8.0,
                    "darkMode": {
                        "defaults": {
                            "itemBackgroundColor": "192534ff"
                        },
                        "hover": {
                            "itemBackgroundColor": "081120ff",
                            "itemBorderColor": "5f6b7aff",
                            "itemTextColor": "e9ebedff"
                        },
                        "match": {
                            "itemBackgroundColor": "d1d5dbff",
                            "itemTextColor": "89bdeeff"
                        }
                    },
                    "lightMode": {
                        "defaults": {
                            "itemBackgroundColor": "ffffffff"
                        },
                        "hover": {
                            "itemBackgroundColor": "f4f4f4ff",
                            "itemBorderColor": "7d8998ff",
                            "itemTextColor": "000716ff"
                        },
                        "match": {
                            "itemBackgroundColor": "414d5cff",
                            "itemTextColor": "0972d3ff"
                        }
                    }
                },
                "focusState": {
                    "darkMode": {
                        "borderColor": "539fe5ff"
                    },
                    "lightMode": {
                        "borderColor": "0972d3ff"
                    }
                },
                "idpButtons": {
                    "icons": {
                        "enabled": true
                    }
                },
                "input": {
                    "borderRadius": 8.0,
                    "darkMode": {
                        "defaults": {
                            "backgroundColor": "0f1b2aff",
                            "borderColor": "5f6b7aff"
                        },
                        "placeholderColor": "8d99a8ff"
                    },
                    "lightMode": {
                        "defaults": {
                            "backgroundColor": "ffffffff",
                            "borderColor": "7d8998ff"
                        },
                        "placeholderColor": "5f6b7aff"
                    }
                },
                "inputDescription": {
                    "darkMode": {
                        "textColor": "8d99a8ff"
                    },
                    "lightMode": {
                        "textColor": "5f6b7aff"
                    }
                },
                "inputLabel": {
                    "darkMode": {
                        "textColor": "d1d5dbff"
                    },
                    "lightMode": {
                        "textColor": "000716ff"
                    }
                },
                "link": {
                    "darkMode": {
                        "defaults": {
                            "textColor": "539fe5ff"
                        },
                        "hover": {
                            "textColor": "89bdeeff"
                        }
                    },
                    "lightMode": {
                        "defaults": {
                            "textColor": "0972d3ff"
                        },
                        "hover": {
                            "textColor": "033160ff"
                        }
                    }
                },
                "optionControls": {
                    "darkMode": {
                        "defaults": {
                            "backgroundColor": "0f1b2aff",
                            "borderColor": "7d8998ff"
                        },
                        "selected": {
                            "backgroundColor": "539fe5ff",
                            "foregroundColor": "000716ff"
                        }
                    },
                    "lightMode": {
                        "defaults": {
                            "backgroundColor": "ffffffff",
                            "borderColor": "7d8998ff"
                        },
                        "selected": {
                            "backgroundColor": "0972d3ff",
                            "foregroundColor": "ffffffff"
                        }
                    }
                },
                "statusIndicator": {
                    "darkMode": {
                        "error": {
                            "backgroundColor": "1a0000ff",
                            "borderColor": "eb6f6fff",
                            "indicatorColor": "eb6f6fff"
                        },
                        "pending": {
                            "indicatorColor": "AAAAAAAA"
                        },
                        "success": {
                            "backgroundColor": "001a02ff",
                            "borderColor": "29ad32ff",
                            "indicatorColor": "29ad32ff"
                        },
                        "warning": {
                            "backgroundColor": "1d1906ff",
                            "borderColor": "e0ca57ff",
                            "indicatorColor": "e0ca57ff"
                        }
                    },
                    "lightMode": {
                        "error": {
                            "backgroundColor": "fff7f7ff",
                            "borderColor": "d91515ff",
                            "indicatorColor": "d91515ff"
                        },
                        "pending": {
                            "indicatorColor": "AAAAAAAA"
                        },
                        "success": {
                            "backgroundColor": "f2fcf3ff",
                            "borderColor": "037f0cff",
                            "indicatorColor": "037f0cff"
                        },
                        "warning": {
                            "backgroundColor": "fffce9ff",
                            "borderColor": "8d6605ff",
                            "indicatorColor": "8d6605ff"
                        }
                    }
                }
            },
            "components": {
                "alert": {
                    "borderRadius": 12.0,
                    "darkMode": {
                        "error": {
                            "backgroundColor": "1a0000ff",
                            "borderColor": "eb6f6fff"
                        }
                    },
                    "lightMode": {
                        "error": {
                            "backgroundColor": "fff7f7ff",
                            "borderColor": "d91515ff"
                        }
                    }
                },
                "favicon": {
                    "enabledTypes": [
                        "ICO",
                        "SVG"
                    ]
                },
                "form": {
                    "backgroundImage": {
                        "enabled": false
                    },
                    "borderRadius": 8.0,
                    "darkMode": {
                        "backgroundColor": "0f1b2aff",
                        "borderColor": "424650ff"
                    },
                    "lightMode": {
                        "backgroundColor": "ffffffff",
                        "borderColor": "c6c6cdff"
                    },
                    "logo": {
                        "enabled": false,
                        "formInclusion": "IN",
                        "location": "CENTER",
                        "position": "TOP"
                    }
                },
                "idpButton": {
                    "custom": {
                    },
                    "standard": {
                        "darkMode": {
                            "active": {
                                "backgroundColor": "354150ff",
                                "borderColor": "89bdeeff",
                                "textColor": "89bdeeff"
                            },
                            "defaults": {
                                "backgroundColor": "0f1b2aff",
                                "borderColor": "c6c6cdff",
                                "textColor": "c6c6cdff"
                            },
                            "hover": {
                                "backgroundColor": "192534ff",
                                "borderColor": "89bdeeff",
                                "textColor": "89bdeeff"
                            }
                        },
                        "lightMode": {
                            "active": {
                                "backgroundColor": "d3e7f9ff",
                                "borderColor": "033160ff",
                                "textColor": "033160ff"
                            },
                            "defaults": {
                                "backgroundColor": "ffffffff",
                                "borderColor": "424650ff",
                                "textColor": "424650ff"
                            },
                            "hover": {
                                "backgroundColor": "f2f8fdff",
                                "borderColor": "033160ff",
                                "textColor": "033160ff"
                            }
                        }
                    }
                },
                "pageBackground": {
                    "darkMode": {
                        "color": "0f1b2aff"
                    },
                    "image": {
                        "enabled": true
                    },
                    "lightMode": {
                        "color": "ffffffff"
                    }
                },
                "pageFooter": {
                    "backgroundImage": {
                        "enabled": false
                    },
                    "darkMode": {
                        "background": {
                            "color": "0f141aff"
                        },
                        "borderColor": "424650ff"
                    },
                    "lightMode": {
                        "background": {
                            "color": "fafafaff"
                        },
                        "borderColor": "d5dbdbff"
                    },
                    "logo": {
                        "enabled": false,
                        "location": "START"
                    }
                },
                "pageHeader": {
                    "backgroundImage": {
                        "enabled": false
                    },
                    "darkMode": {
                        "background": {
                            "color": "0f141aff"
                        },
                        "borderColor": "424650ff"
                    },
                    "lightMode": {
                        "background": {
                            "color": "fafafaff"
                        },
                        "borderColor": "d5dbdbff"
                    },
                    "logo": {
                        "enabled": false,
                        "location": "START"
                    }
                },
                "pageText": {
                    "darkMode": {
                        "bodyColor": "b6bec9ff",
                        "descriptionColor": "b6bec9ff",
                        "headingColor": "d1d5dbff"
                    },
                    "lightMode": {
                        "bodyColor": "414d5cff",
                        "descriptionColor": "414d5cff",
                        "headingColor": "000716ff"
                    }
                },
                "phoneNumberSelector": {
                    "displayType": "TEXT"
                },
                "primaryButton": {
                    "darkMode": {
                        "active": {
                            "backgroundColor": "539fe5ff",
                            "textColor": "000716ff"
                        },
                        "defaults": {
                            "backgroundColor": "539fe5ff",
                            "textColor": "000716ff"
                        },
                        "disabled": {
                            "backgroundColor": "ffffffff",
                            "borderColor": "ffffffff"
                        },
                        "hover": {
                            "backgroundColor": "89bdeeff",
                            "textColor": "000716ff"
                        }
                    },
                    "lightMode": {
                        "active": {
                            "backgroundColor": "033160ff",
                            "textColor": "ffffffff"
                        },
                        "defaults": {
                            "backgroundColor": "0972d3ff",
                            "textColor": "ffffffff"
                        },
                        "disabled": {
                            "backgroundColor": "ffffffff",
                            "borderColor": "ffffffff"
                        },
                        "hover": {
                            "backgroundColor": "033160ff",
                            "textColor": "ffffffff"
                        }
                    }
                },
                "secondaryButton": {
                    "darkMode": {
                        "active": {
                            "backgroundColor": "354150ff",
                            "borderColor": "89bdeeff",
                            "textColor": "89bdeeff"
                        },
                        "defaults": {
                            "backgroundColor": "0f1b2aff",
                            "borderColor": "539fe5ff",
                            "textColor": "539fe5ff"
                        },
                        "hover": {
                            "backgroundColor": "192534ff",
                            "borderColor": "89bdeeff",
                            "textColor": "89bdeeff"
                        }
                    },
                    "lightMode": {
                        "active": {
                            "backgroundColor": "d3e7f9ff",
                            "borderColor": "033160ff",
                            "textColor": "033160ff"
                        },
                        "defaults": {
                            "backgroundColor": "ffffffff",
                            "borderColor": "0972d3ff",
                            "textColor": "0972d3ff"
                        },
                        "hover": {
                            "backgroundColor": "f2f8fdff",
                            "borderColor": "033160ff",
                            "textColor": "033160ff"
                        }
                    }
                }
            }
        },
        "UseCognitoProvidedValues": false,
        "UserPoolId": "ca-central-1_EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Menerapkan pencitraan merek ke halaman login terkelola](https://docs.aws.amazon.com/cognito/latest/developerguide/managed-login-branding.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [UpdateManagedLoginBranding](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-managed-login-branding.html)di *Referensi AWS CLI Perintah*. 

### `update-resource-server`
<a name="cognito-identity-provider_UpdateResourceServer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resource-server`.

**AWS CLI**  
**Untuk memperbarui server sumber daya**  
Contoh ini memperbarui Weather server sumber daya. Ini menambahkan ruang lingkup baru.  
Perintah:  

```
aws cognito-idp update-resource-server --user-pool-id us-west-2_aaaaaaaaa --identifier weather.example.com --name Weather --scopes ScopeName=NewScope,ScopeDescription="New scope description"
```
Output:  

```
{
  "ResourceServer": {
      "UserPoolId": "us-west-2_aaaaaaaaa",
      "Identifier": "weather.example.com",
      "Name": "Happy",
      "Scopes": [
          {
              "ScopeName": "NewScope",
              "ScopeDescription": "New scope description"
          }
      ]
  }
}
```
+  Untuk detail API, lihat [UpdateResourceServer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-resource-server.html)di *Referensi AWS CLI Perintah*. 

### `update-user-attributes`
<a name="cognito-identity-provider_UpdateUserAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-attributes`.

**AWS CLI**  
**Untuk memperbarui atribut pengguna**  
Contoh ini memperbarui atribut pengguna “nama panggilan”.  
Perintah:  

```
aws cognito-idp update-user-attributes --access-token ACCESS_TOKEN --user-attributes Name="nickname",Value="Dan"
```
+  Untuk detail API, lihat [UpdateUserAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-user-attributes.html)di *Referensi AWS CLI Perintah*. 

### `update-user-pool-client`
<a name="cognito-identity-provider_UpdateUserPoolClient_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-pool-client`.

**AWS CLI**  
**Untuk memperbarui klien aplikasi**  
`update-user-pool-client`Contoh berikut memperbarui konfigurasi klien aplikasi yang diminta.  

```
aws cognito-idp update-user-pool-client \
    --user-pool-id us-west-2_EXAMPLE \
    --client-id 1example23456789 \
    --client-name my-test-app \
    --refresh-token-validity 30 \
    --access-token-validity 60 \
    --id-token-validity 60 \
    --token-validity-units AccessToken=minutes,IdToken=minutes,RefreshToken=days \
    --read-attributes "address" "birthdate" "email" "email_verified" "family_name" "gender" "locale" "middle_name" "name" "nickname" "phone_number" "phone_number_verified" "picture" "preferred_username" "profile" "updated_at" "website" "zoneinfo" \
    --write-attributes "address" "birthdate" "email" "family_name" "gender" "locale" "middle_name" "name" "nickname" "phone_number" "picture" "preferred_username" "profile" "updated_at" "website" "zoneinfo" \
    --explicit-auth-flows "ALLOW_ADMIN_USER_PASSWORD_AUTH" "ALLOW_CUSTOM_AUTH" "ALLOW_REFRESH_TOKEN_AUTH" "ALLOW_USER_PASSWORD_AUTH" "ALLOW_USER_SRP_AUTH" \
    --supported-identity-providers "MySAML" "COGNITO" "Google" \
    --callback-urls "https://www.example.com" "https://app2.example.com" \
    --logout-urls "https://auth.example.com/login?client_id=1example23456789&response_type=code&redirect_uri=https%3A%2F%2Fwww.example.com" "https://example.com/logout" \
    --default-redirect-uri "https://www.example.com" \
    --allowed-o-auth-flows "code" "implicit" \
    --allowed-o-auth-scopes "openid" "profile" "aws.cognito.signin.user.admin" \
    --allowed-o-auth-flows-user-pool-client \
    --prevent-user-existence-errors ENABLED \
    --enable-token-revocation \
    --no-enable-propagate-additional-user-context-data \
    --auth-session-validity 3
```
Output:  

```
{
    "UserPoolClient": {
        "UserPoolId": "us-west-2_EXAMPLE",
        "ClientName": "my-test-app",
        "ClientId": "1example23456789",
        "LastModifiedDate": "2025-01-31T14:40:12.498000-08:00",
        "CreationDate": "2023-09-13T16:26:34.408000-07:00",
        "RefreshTokenValidity": 30,
        "AccessTokenValidity": 60,
        "IdTokenValidity": 60,
        "TokenValidityUnits": {
            "AccessToken": "minutes",
            "IdToken": "minutes",
            "RefreshToken": "days"
        },
        "ReadAttributes": [
            "website",
            "zoneinfo",
            "address",
            "birthdate",
            "email_verified",
            "gender",
            "profile",
            "phone_number_verified",
            "preferred_username",
            "locale",
            "middle_name",
            "picture",
            "updated_at",
            "name",
            "nickname",
            "phone_number",
            "family_name",
            "email"
        ],
        "WriteAttributes": [
            "website",
            "zoneinfo",
            "address",
            "birthdate",
            "gender",
            "profile",
            "preferred_username",
            "locale",
            "middle_name",
            "picture",
            "updated_at",
            "name",
            "nickname",
            "phone_number",
            "family_name",
            "email"
        ],
        "ExplicitAuthFlows": [
            "ALLOW_CUSTOM_AUTH",
            "ALLOW_USER_PASSWORD_AUTH",
            "ALLOW_ADMIN_USER_PASSWORD_AUTH",
            "ALLOW_USER_SRP_AUTH",
            "ALLOW_REFRESH_TOKEN_AUTH"
        ],
        "SupportedIdentityProviders": [
            "Google",
            "COGNITO",
            "MySAML"
        ],
        "CallbackURLs": [
            "https://www.example.com",
            "https://app2.example.com"
        ],
        "LogoutURLs": [
            "https://example.com/logout",
            "https://auth.example.com/login?client_id=1example23456789&response_type=code&redirect_uri=https%3A%2F%2Fwww.example.com"
        ],
        "DefaultRedirectURI": "https://www.example.com",
        "AllowedOAuthFlows": [
            "implicit",
            "code"
        ],
        "AllowedOAuthScopes": [
            "aws.cognito.signin.user.admin",
            "openid",
            "profile"
        ],
        "AllowedOAuthFlowsUserPoolClient": true,
        "PreventUserExistenceErrors": "ENABLED",
        "EnableTokenRevocation": true,
        "EnablePropagateAdditionalUserContextData": false,
        "AuthSessionValidity": 3
    }
}
```
Untuk informasi selengkapnya, lihat [Setelan khusus aplikasi dengan klien aplikasi di Panduan](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-client-apps.html) Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [UpdateUserPoolClient](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-user-pool-client.html)di *Referensi AWS CLI Perintah*. 

### `update-user-pool-domain`
<a name="cognito-identity-provider_UpdateUserPoolDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-pool-domain`.

**AWS CLI**  
**Untuk memperbarui domain kustom**  
`update-user-pool-domain`Contoh berikut mengonfigurasi versi branding dan sertifikat untuk domain kustom kumpulan pengguna yang diminta.  

```
aws cognito-idp update-user-pool-domain \
    --user-pool-id ca-central-1_EXAMPLE \
    --domain auth.example.com \
    --managed-login-version 2 \
    --custom-domain-config CertificateArn=arn:aws:acm:us-east-1:123456789012:certificate/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "CloudFrontDomain": "example.cloudfront.net",
    "ManagedLoginVersion": 2
}
```
Untuk informasi selengkapnya, lihat [Login terkelola](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-managed-login.html) dan [Mengonfigurasi domain](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pools-assign-domain.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [UpdateUserPoolDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-user-pool-domain.html)di *Referensi AWS CLI Perintah*. 

### `update-user-pool`
<a name="cognito-identity-provider_UpdateUserPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-pool`.

**AWS CLI**  
**Untuk memperbarui kumpulan pengguna**  
`update-user-pool`Contoh berikut memodifikasi kumpulan pengguna dengan sintaks contoh untuk masing-masing opsi konfigurasi yang tersedia. Untuk memperbarui kumpulan pengguna, Anda harus menentukan semua opsi yang telah dikonfigurasi sebelumnya atau mereka akan mengatur ulang ke nilai default.  

```
aws cognito-idp update-user-pool --user-pool-id us-west-2_EXAMPLE \
    --policies PasswordPolicy=\{MinimumLength=6,RequireUppercase=true,RequireLowercase=true,RequireNumbers=true,RequireSymbols=true,TemporaryPasswordValidityDays=7\} \
    --deletion-protection ACTIVE \
    --lambda-config PreSignUp="arn:aws:lambda:us-west-2:123456789012:function:cognito-test-presignup-function",PreTokenGeneration="arn:aws:lambda:us-west-2:123456789012:function:cognito-test-pretoken-function" \
    --auto-verified-attributes "phone_number" "email" \
    --verification-message-template \{\"SmsMessage\":\""Your code is {####}"\",\"EmailMessage\":\""Your code is {####}"\",\"EmailSubject\":\""Your verification code"\",\"EmailMessageByLink\":\""Click {##here##} to verify your email address."\",\"EmailSubjectByLink\":\""Your verification link"\",\"DefaultEmailOption\":\"CONFIRM_WITH_LINK\"\} \
    --sms-authentication-message "Your code is {####}" \
    --user-attribute-update-settings AttributesRequireVerificationBeforeUpdate="email","phone_number" \
    --mfa-configuration "OPTIONAL" \
    --device-configuration ChallengeRequiredOnNewDevice=true,DeviceOnlyRememberedOnUserPrompt=true \
    --email-configuration SourceArn="arn:aws:ses:us-west-2:123456789012:identity/admin@example.com",ReplyToEmailAddress="amdin+noreply@example.com",EmailSendingAccount=DEVELOPER,From="admin@amazon.com",ConfigurationSet="test-configuration-set" \
    --sms-configuration SnsCallerArn="arn:aws:iam::123456789012:role/service-role/SNS-SMS-Role",ExternalId="12345",SnsRegion="us-west-2" \
    --admin-create-user-config AllowAdminCreateUserOnly=false,InviteMessageTemplate=\{SMSMessage=\""Welcome {username}. Your confirmation code is {####}"\",EmailMessage=\""Welcome {username}. Your confirmation code is {####}"\",EmailSubject=\""Welcome to MyMobileGame"\"\} \
    --user-pool-tags "Function"="MyMobileGame","Developers"="Berlin" \
    --admin-create-user-config AllowAdminCreateUserOnly=false,InviteMessageTemplate=\{SMSMessage=\""Welcome {username}. Your confirmation code is {####}"\",EmailMessage=\""Welcome {username}. Your confirmation code is {####}"\",EmailSubject=\""Welcome to MyMobileGame"\"\} \
    --user-pool-add-ons AdvancedSecurityMode="AUDIT" \
    --account-recovery-setting RecoveryMechanisms=\[\{Priority=1,Name="verified_email"\},\{Priority=2,Name="verified_phone_number"\}\]
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memperbarui konfigurasi kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/cognito-user-pool-updating.html) di Panduan *Pengembang Amazon Cognito*.  
+  Untuk detail API, lihat [UpdateUserPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/update-user-pool.html)di *Referensi AWS CLI Perintah*. 

### `verify-software-token`
<a name="cognito-identity-provider_VerifySoftwareToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-software-token`.

**AWS CLI**  
**Untuk mengonfirmasi pendaftaran autentikator TOTP**  
`verify-software-token`Contoh berikut melengkapi pendaftaran TOTP untuk pengguna saat ini.  

```
aws cognito-idp verify-software-token \
    --access-token eyJra456defEXAMPLE \
    --user-code 123456
```
Output:  

```
{
    "Status": "SUCCESS"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan MFA ke kumpulan pengguna](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [VerifySoftwareToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/verify-software-token.html)di *Referensi AWS CLI Perintah*. 

### `verify-user-attribute`
<a name="cognito-identity-provider_VerifyUserAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-user-attribute`.

**AWS CLI**  
**Untuk memverifikasi perubahan atribut**  
`verify-user-attribute`Contoh berikut memverifikasi perubahan pada atribut email pengguna saat ini.  

```
aws cognito-idp verify-user-attribute \
    --access-token eyJra456defEXAMPLE \
    --attribute-name email \
    --code 123456
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi verifikasi email atau telepon](https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-email-phone-verification.html) di Panduan Pengembang *Amazon Cognito*.  
+  Untuk detail API, lihat [VerifyUserAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cognito-idp/verify-user-attribute.html)di *Referensi AWS CLI Perintah*. 

# Amazon Comprehend contoh menggunakan AWS CLI
<a name="cli_2_comprehend_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon AWS Command Line Interface Comprehend.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-detect-dominant-language`
<a name="comprehend_BatchDetectDominantLanguage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-detect-dominant-language`.

**AWS CLI**  
**Untuk mendeteksi bahasa dominan dari beberapa teks input**  
`batch-detect-dominant-language`Contoh berikut menganalisis beberapa teks masukan dan mengembalikan bahasa dominan masing-masing. Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output untuk setiap prediksi.  

```
aws comprehend batch-detect-dominant-language \
    --text-list "Physics is the natural science that involves the study of matter and its motion and behavior through space and time, along with related concepts such as energy and force."
```
Output:  

```
{
    "ResultList": [
        {
            "Index": 0,
            "Languages": [
                {
                    "LanguageCode": "en",
                    "Score": 0.9986501932144165
                }
            ]
        }
    ],
    "ErrorList": []
}
```
Untuk informasi selengkapnya, lihat [Bahasa Dominan](https://docs.aws.amazon.com/comprehend/latest/dg/how-languages.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [BatchDetectDominantLanguage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/batch-detect-dominant-language.html)di *Referensi AWS CLI Perintah*. 

### `batch-detect-entities`
<a name="comprehend_BatchDetectEntities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-detect-entities`.

**AWS CLI**  
**Untuk mendeteksi entitas dari beberapa teks masukan**  
`batch-detect-entities`Contoh berikut menganalisis beberapa teks masukan dan mengembalikan entitas bernama masing-masing. Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output untuk setiap prediksi.  

```
aws comprehend batch-detect-entities \
    --language-code en \
    --text-list "Dear Jane, Your AnyCompany Financial Services LLC credit card account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st." "Please send customer feedback to Sunshine Spa, 123 Main St, Anywhere or to Alice at AnySpa@example.com."
```
Output:  

```
{
    "ResultList": [
        {
            "Index": 0,
            "Entities": [
                {
                    "Score": 0.9985517859458923,
                    "Type": "PERSON",
                    "Text": "Jane",
                    "BeginOffset": 5,
                    "EndOffset": 9
                },
                {
                    "Score": 0.9767839312553406,
                    "Type": "ORGANIZATION",
                    "Text": "AnyCompany Financial Services, LLC",
                    "BeginOffset": 16,
                    "EndOffset": 50
                },
                {
                    "Score": 0.9856694936752319,
                    "Type": "OTHER",
                    "Text": "1111-XXXX-1111-XXXX",
                    "BeginOffset": 71,
                    "EndOffset": 90
                },
                {
                    "Score": 0.9652159810066223,
                    "Type": "QUANTITY",
                    "Text": ".53",
                    "BeginOffset": 116,
                    "EndOffset": 119
                },
                {
                    "Score": 0.9986667037010193,
                    "Type": "DATE",
                    "Text": "July 31st",
                    "BeginOffset": 135,
                    "EndOffset": 144
                }
            ]
        },
        {
            "Index": 1,
            "Entities": [
                {
                    "Score": 0.720084547996521,
                    "Type": "ORGANIZATION",
                    "Text": "Sunshine Spa",
                    "BeginOffset": 33,
                    "EndOffset": 45
                },
                {
                    "Score": 0.9865870475769043,
                    "Type": "LOCATION",
                    "Text": "123 Main St",
                    "BeginOffset": 47,
                    "EndOffset": 58
                },
                {
                    "Score": 0.5895616412162781,
                    "Type": "LOCATION",
                    "Text": "Anywhere",
                    "BeginOffset": 60,
                    "EndOffset": 68
                },
                {
                    "Score": 0.6809214353561401,
                    "Type": "PERSON",
                    "Text": "Alice",
                    "BeginOffset": 75,
                    "EndOffset": 80
                },
                {
                    "Score": 0.9979087114334106,
                    "Type": "OTHER",
                    "Text": "AnySpa@example.com",
                    "BeginOffset": 84,
                    "EndOffset": 99
                }
            ]
        }
    ],
    "ErrorList": []
}
```
Untuk informasi selengkapnya, lihat [Entitas](https://docs.aws.amazon.com/comprehend/latest/dg/how-entities.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [BatchDetectEntities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/batch-detect-entities.html)di *Referensi AWS CLI Perintah*. 

### `batch-detect-key-phrases`
<a name="comprehend_BatchDetectKeyPhrases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-detect-key-phrases`.

**AWS CLI**  
**Untuk mendeteksi frase kunci dari beberapa input teks**  
`batch-detect-key-phrases`Contoh berikut menganalisis beberapa teks masukan dan mengembalikan frase kata benda kunci masing-masing. Skor kepercayaan model yang telah dilatih sebelumnya untuk setiap prediksi juga merupakan output.  

```
aws comprehend batch-detect-key-phrases \
    --language-code en \
    --text-list "Hello Zhang Wei, I am John, writing to you about the trip for next Saturday." "Dear Jane, Your AnyCompany Financial Services LLC credit card account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st." "Please send customer feedback to Sunshine Spa, 123 Main St, Anywhere or to Alice at AnySpa@example.com."
```
Output:  

```
{
    "ResultList": [
        {
            "Index": 0,
            "KeyPhrases": [
                {
                    "Score": 0.99700927734375,
                    "Text": "Zhang Wei",
                    "BeginOffset": 6,
                    "EndOffset": 15
                },
                {
                    "Score": 0.9929308891296387,
                    "Text": "John",
                    "BeginOffset": 22,
                    "EndOffset": 26
                },
                {
                    "Score": 0.9997230172157288,
                    "Text": "the trip",
                    "BeginOffset": 49,
                    "EndOffset": 57
                },
                {
                    "Score": 0.9999470114707947,
                    "Text": "next Saturday",
                    "BeginOffset": 62,
                    "EndOffset": 75
                }
            ]
        },
        {
            "Index": 1,
            "KeyPhrases": [
                {
                    "Score": 0.8358274102210999,
                    "Text": "Dear Jane",
                    "BeginOffset": 0,
                    "EndOffset": 9
                },
                {
                    "Score": 0.989359974861145,
                    "Text": "Your AnyCompany Financial Services",
                    "BeginOffset": 11,
                    "EndOffset": 45
                },
                {
                    "Score": 0.8812323808670044,
                    "Text": "LLC credit card account 1111-XXXX-1111-XXXX",
                    "BeginOffset": 47,
                    "EndOffset": 90
                },
                {
                    "Score": 0.9999381899833679,
                    "Text": "a minimum payment",
                    "BeginOffset": 95,
                    "EndOffset": 112
                },
                {
                    "Score": 0.9997439980506897,
                    "Text": ".53",
                    "BeginOffset": 116,
                    "EndOffset": 119
                },
                {
                    "Score": 0.996875524520874,
                    "Text": "July 31st",
                    "BeginOffset": 135,
                    "EndOffset": 144
                }
            ]
        },
        {
            "Index": 2,
            "KeyPhrases": [
                {
                    "Score": 0.9990295767784119,
                    "Text": "customer feedback",
                    "BeginOffset": 12,
                    "EndOffset": 29
                },
                {
                    "Score": 0.9994127750396729,
                    "Text": "Sunshine Spa",
                    "BeginOffset": 33,
                    "EndOffset": 45
                },
                {
                    "Score": 0.9892991185188293,
                    "Text": "123 Main St",
                    "BeginOffset": 47,
                    "EndOffset": 58
                },
                {
                    "Score": 0.9969810843467712,
                    "Text": "Alice",
                    "BeginOffset": 75,
                    "EndOffset": 80
                },
                {
                    "Score": 0.9703696370124817,
                    "Text": "AnySpa@example.com",
                    "BeginOffset": 84,
                    "EndOffset": 99
                }
            ]
        }
    ],
    "ErrorList": []
}
```
Untuk informasi selengkapnya, lihat [Frasa Kunci](https://docs.aws.amazon.com/comprehend/latest/dg/how-key-phrases.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [BatchDetectKeyPhrases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/batch-detect-key-phrases.html)di *Referensi AWS CLI Perintah*. 

### `batch-detect-sentiment`
<a name="comprehend_BatchDetectSentiment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-detect-sentiment`.

**AWS CLI**  
**Untuk mendeteksi sentimen yang berlaku dari beberapa teks masukan**  
`batch-detect-sentiment`Contoh berikut menganalisis beberapa teks masukan dan mengembalikan sentimen yang berlaku (`POSITIVE`,, `NEUTRAL``MIXED`, atau`NEGATIVE`, masing-masing).  

```
aws comprehend batch-detect-sentiment \
    --text-list "That movie was very boring, I can't believe it was over four hours long." "It is a beautiful day for hiking today." "My meal was okay, I'm excited to try other restaurants." \
    --language-code en
```
Output:  

```
{
    "ResultList": [
        {
            "Index": 0,
            "Sentiment": "NEGATIVE",
            "SentimentScore": {
                "Positive": 0.00011316669406369328,
                "Negative": 0.9995445609092712,
                "Neutral": 0.00014722718333359808,
                "Mixed": 0.00019498742767609656
            }
        },
        {
            "Index": 1,
            "Sentiment": "POSITIVE",
            "SentimentScore": {
                "Positive": 0.9981263279914856,
                "Negative": 0.00015240783977787942,
                "Neutral": 0.0013876151060685515,
                "Mixed": 0.00033366199932061136
            }
        },
        {
            "Index": 2,
            "Sentiment": "MIXED",
            "SentimentScore": {
                "Positive": 0.15930435061454773,
                "Negative": 0.11471917480230331,
                "Neutral": 0.26897063851356506,
                "Mixed": 0.45700588822364807
            }
        }
    ],
    "ErrorList": []
}
```
Untuk informasi selengkapnya, lihat [Sentimen](https://docs.aws.amazon.com/comprehend/latest/dg/how-sentiment.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [BatchDetectSentiment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/batch-detect-sentiment.html)di *Referensi AWS CLI Perintah*. 

### `batch-detect-syntax`
<a name="comprehend_BatchDetectSyntax_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-detect-syntax`.

**AWS CLI**  
**Untuk memeriksa sintaks dan bagian ucapan kata-kata dalam beberapa teks masukan**  
`batch-detect-syntax`Contoh berikut menganalisis sintaks dari beberapa teks masukan dan mengembalikan bagian-bagian yang berbeda dari pidato. Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output untuk setiap prediksi.  

```
aws comprehend batch-detect-syntax \
    --text-list "It is a beautiful day." "Can you please pass the salt?" "Please pay the bill before the 31st." \
    --language-code en
```
Output:  

```
{
    "ResultList": [
        {
            "Index": 0,
            "SyntaxTokens": [
                {
                    "TokenId": 1,
                    "Text": "It",
                    "BeginOffset": 0,
                    "EndOffset": 2,
                    "PartOfSpeech": {
                        "Tag": "PRON",
                        "Score": 0.9999740719795227
                    }
                },
                {
                    "TokenId": 2,
                    "Text": "is",
                    "BeginOffset": 3,
                    "EndOffset": 5,
                    "PartOfSpeech": {
                        "Tag": "VERB",
                        "Score": 0.999937117099762
                    }
                },
                {
                    "TokenId": 3,
                    "Text": "a",
                    "BeginOffset": 6,
                    "EndOffset": 7,
                    "PartOfSpeech": {
                        "Tag": "DET",
                        "Score": 0.9999926686286926
                    }
                },
                {
                    "TokenId": 4,
                    "Text": "beautiful",
                    "BeginOffset": 8,
                    "EndOffset": 17,
                    "PartOfSpeech": {
                        "Tag": "ADJ",
                        "Score": 0.9987891912460327
                    }
                },
                {
                    "TokenId": 5,
                    "Text": "day",
                    "BeginOffset": 18,
                    "EndOffset": 21,
                    "PartOfSpeech": {
                        "Tag": "NOUN",
                        "Score": 0.9999778866767883
                    }
                },
                {
                    "TokenId": 6,
                    "Text": ".",
                    "BeginOffset": 21,
                    "EndOffset": 22,
                    "PartOfSpeech": {
                        "Tag": "PUNCT",
                        "Score": 0.9999974966049194
                    }
                }
            ]
        },
        {
            "Index": 1,
            "SyntaxTokens": [
                {
                    "TokenId": 1,
                    "Text": "Can",
                    "BeginOffset": 0,
                    "EndOffset": 3,
                    "PartOfSpeech": {
                        "Tag": "AUX",
                        "Score": 0.9999770522117615
                    }
                },
                {
                    "TokenId": 2,
                    "Text": "you",
                    "BeginOffset": 4,
                    "EndOffset": 7,
                    "PartOfSpeech": {
                        "Tag": "PRON",
                        "Score": 0.9999986886978149
                    }
                },
                {
                    "TokenId": 3,
                    "Text": "please",
                    "BeginOffset": 8,
                    "EndOffset": 14,
                    "PartOfSpeech": {
                        "Tag": "INTJ",
                        "Score": 0.9681622385978699
                    }
                },
                {
                    "TokenId": 4,
                    "Text": "pass",
                    "BeginOffset": 15,
                    "EndOffset": 19,
                    "PartOfSpeech": {
                        "Tag": "VERB",
                        "Score": 0.9999874830245972
                    }
                },
                {
                    "TokenId": 5,
                    "Text": "the",
                    "BeginOffset": 20,
                    "EndOffset": 23,
                    "PartOfSpeech": {
                        "Tag": "DET",
                        "Score": 0.9999827146530151
                    }
                },
                {
                    "TokenId": 6,
                    "Text": "salt",
                    "BeginOffset": 24,
                    "EndOffset": 28,
                    "PartOfSpeech": {
                        "Tag": "NOUN",
                        "Score": 0.9995040893554688
                    }
                },
                {
                    "TokenId": 7,
                    "Text": "?",
                    "BeginOffset": 28,
                    "EndOffset": 29,
                    "PartOfSpeech": {
                        "Tag": "PUNCT",
                        "Score": 0.999998152256012
                    }
                }
            ]
        },
        {
            "Index": 2,
            "SyntaxTokens": [
                {
                    "TokenId": 1,
                    "Text": "Please",
                    "BeginOffset": 0,
                    "EndOffset": 6,
                    "PartOfSpeech": {
                        "Tag": "INTJ",
                        "Score": 0.9997857809066772
                    }
                },
                {
                    "TokenId": 2,
                    "Text": "pay",
                    "BeginOffset": 7,
                    "EndOffset": 10,
                    "PartOfSpeech": {
                        "Tag": "VERB",
                        "Score": 0.9999252557754517
                    }
                },
                {
                    "TokenId": 3,
                    "Text": "the",
                    "BeginOffset": 11,
                    "EndOffset": 14,
                    "PartOfSpeech": {
                        "Tag": "DET",
                        "Score": 0.9999842643737793
                    }
                },
                {
                    "TokenId": 4,
                    "Text": "bill",
                    "BeginOffset": 15,
                    "EndOffset": 19,
                    "PartOfSpeech": {
                        "Tag": "NOUN",
                        "Score": 0.9999588131904602
                    }
                },
                {
                    "TokenId": 5,
                    "Text": "before",
                    "BeginOffset": 20,
                    "EndOffset": 26,
                    "PartOfSpeech": {
                        "Tag": "ADP",
                        "Score": 0.9958304762840271
                    }
                },
                {
                    "TokenId": 6,
                    "Text": "the",
                    "BeginOffset": 27,
                    "EndOffset": 30,
                    "PartOfSpeech": {
                        "Tag": "DET",
                        "Score": 0.9999947547912598
                    }
                },
                {
                    "TokenId": 7,
                    "Text": "31st",
                    "BeginOffset": 31,
                    "EndOffset": 35,
                    "PartOfSpeech": {
                        "Tag": "NOUN",
                        "Score": 0.9924124479293823
                    }
                },
                {
                    "TokenId": 8,
                    "Text": ".",
                    "BeginOffset": 35,
                    "EndOffset": 36,
                    "PartOfSpeech": {
                        "Tag": "PUNCT",
                        "Score": 0.9999955892562866
                    }
                }
            ]
        }
    ],
    "ErrorList": []
}
```
Untuk informasi selengkapnya, lihat [Analisis Sintaks](https://docs.aws.amazon.com/comprehend/latest/dg/how-syntax.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [BatchDetectSyntax](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/batch-detect-syntax.html)di *Referensi AWS CLI Perintah*. 

### `batch-detect-targeted-sentiment`
<a name="comprehend_BatchDetectTargetedSentiment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-detect-targeted-sentiment`.

**AWS CLI**  
**Untuk mendeteksi sentimen dan setiap entitas bernama untuk beberapa teks masukan**  
`batch-detect-targeted-sentiment`Contoh berikut menganalisis beberapa teks masukan dan mengembalikan entitas bernama bersama dengan sentimen yang berlaku melekat pada setiap entitas. Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output untuk setiap prediksi.  

```
aws comprehend batch-detect-targeted-sentiment \
    --language-code en \
    --text-list "That movie was really boring, the original was way more entertaining" "The trail is extra beautiful today." "My meal was just okay."
```
Output:  

```
{
    "ResultList": [
        {
            "Index": 0,
            "Entities": [
                {
                    "DescriptiveMentionIndex": [
                        0
                    ],
                    "Mentions": [
                        {
                            "Score": 0.9999009966850281,
                            "GroupScore": 1.0,
                            "Text": "movie",
                            "Type": "MOVIE",
                            "MentionSentiment": {
                                "Sentiment": "NEGATIVE",
                                "SentimentScore": {
                                    "Positive": 0.13887299597263336,
                                    "Negative": 0.8057460188865662,
                                    "Neutral": 0.05525200068950653,
                                    "Mixed": 0.00012799999967683107
                                }
                            },
                            "BeginOffset": 5,
                            "EndOffset": 10
                        }
                    ]
                },
                {
                    "DescriptiveMentionIndex": [
                        0
                    ],
                    "Mentions": [
                        {
                            "Score": 0.9921110272407532,
                            "GroupScore": 1.0,
                            "Text": "original",
                            "Type": "MOVIE",
                            "MentionSentiment": {
                                "Sentiment": "POSITIVE",
                                "SentimentScore": {
                                    "Positive": 0.9999989867210388,
                                    "Negative": 9.999999974752427e-07,
                                    "Neutral": 0.0,
                                    "Mixed": 0.0
                                }
                            },
                            "BeginOffset": 34,
                            "EndOffset": 42
                        }
                    ]
                }
            ]
        },
        {
            "Index": 1,
            "Entities": [
                {
                    "DescriptiveMentionIndex": [
                        0
                    ],
                    "Mentions": [
                        {
                            "Score": 0.7545599937438965,
                            "GroupScore": 1.0,
                            "Text": "trail",
                            "Type": "OTHER",
                            "MentionSentiment": {
                                "Sentiment": "POSITIVE",
                                "SentimentScore": {
                                    "Positive": 1.0,
                                    "Negative": 0.0,
                                    "Neutral": 0.0,
                                    "Mixed": 0.0
                                }
                            },
                            "BeginOffset": 4,
                            "EndOffset": 9
                        }
                    ]
                },
                {
                    "DescriptiveMentionIndex": [
                        0
                    ],
                    "Mentions": [
                        {
                            "Score": 0.9999960064888,
                            "GroupScore": 1.0,
                            "Text": "today",
                            "Type": "DATE",
                            "MentionSentiment": {
                                "Sentiment": "NEUTRAL",
                                "SentimentScore": {
                                    "Positive": 9.000000318337698e-06,
                                    "Negative": 1.9999999949504854e-06,
                                    "Neutral": 0.9999859929084778,
                                    "Mixed": 3.999999989900971e-06
                                }
                            },
                            "BeginOffset": 29,
                            "EndOffset": 34
                        }
                    ]
                }
            ]
        },
        {
            "Index": 2,
            "Entities": [
                {
                    "DescriptiveMentionIndex": [
                        0
                    ],
                    "Mentions": [
                        {
                            "Score": 0.9999880194664001,
                            "GroupScore": 1.0,
                            "Text": "My",
                            "Type": "PERSON",
                            "MentionSentiment": {
                                "Sentiment": "NEUTRAL",
                                "SentimentScore": {
                                    "Positive": 0.0,
                                    "Negative": 0.0,
                                    "Neutral": 1.0,
                                    "Mixed": 0.0
                                }
                            },
                            "BeginOffset": 0,
                            "EndOffset": 2
                        }
                    ]
                },
                {
                    "DescriptiveMentionIndex": [
                        0
                    ],
                    "Mentions": [
                        {
                            "Score": 0.9995260238647461,
                            "GroupScore": 1.0,
                            "Text": "meal",
                            "Type": "OTHER",
                            "MentionSentiment": {
                                "Sentiment": "NEUTRAL",
                                "SentimentScore": {
                                    "Positive": 0.04695599898695946,
                                    "Negative": 0.003226999891921878,
                                    "Neutral": 0.6091709733009338,
                                    "Mixed": 0.34064599871635437
                                }
                            },
                            "BeginOffset": 3,
                            "EndOffset": 7
                        }
                    ]
                }
            ]
        }
    ],
    "ErrorList": []
}
```
Untuk informasi selengkapnya, lihat [Sentimen Bertarget](https://docs.aws.amazon.com/comprehend/latest/dg/how-targeted-sentiment.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [BatchDetectTargetedSentiment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/batch-detect-targeted-sentiment.html)di *Referensi AWS CLI Perintah*. 

### `classify-document`
<a name="comprehend_ClassifyDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`classify-document`.

**AWS CLI**  
**Untuk mengklasifikasikan dokumen dengan titik akhir khusus model**  
`classify-document`Contoh berikut mengklasifikasikan dokumen dengan titik akhir model kustom. Model dalam contoh ini dilatih pada dataset yang berisi pesan sms berlabel spam atau non-spam, atau, “ham”.  

```
aws comprehend classify-document \
    --endpoint-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/example-classifier-endpoint \
    --text "CONGRATULATIONS! TXT 1235550100 to win $5000"
```
Output:  

```
{
    "Classes": [
        {
            "Name": "spam",
            "Score": 0.9998599290847778
        },
        {
            "Name": "ham",
            "Score": 0.00014001205272506922
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Klasifikasi Kustom](https://docs.aws.amazon.com/comprehend/latest/dg/how-document-classification.html) di Panduan *Pengembang Amazon Comprehend*.  
+  Untuk detail API, lihat [ClassifyDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/classify-document.html)di *Referensi AWS CLI Perintah*. 

### `contains-pii-entities`
<a name="comprehend_ContainsPiiEntities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`contains-pii-entities`.

**AWS CLI**  
**Untuk menganalisis teks input untuk keberadaan informasi PII**  
`contains-pii-entities`Contoh berikut menganalisis teks input untuk keberadaan informasi identitas pribadi (PII) dan mengembalikan label jenis entitas PII yang diidentifikasi seperti nama, alamat, nomor rekening bank, atau nomor telepon.  

```
aws comprehend contains-pii-entities \
    --language-code en \
    --text "Hello Zhang Wei, I am John. Your AnyCompany Financial Services, LLC credit card
        account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st. Based on your autopay settings,
        we will withdraw your payment on the due date from your bank account number XXXXXX1111 with the routing number XXXXX0000.
        Customer feedback for Sunshine Spa, 100 Main St, Anywhere. Send comments to Alice at AnySpa@example.com."
```
Output:  

```
{
    "Labels": [
        {
            "Name": "NAME",
            "Score": 1.0
        },
        {
            "Name": "EMAIL",
            "Score": 1.0
        },
        {
            "Name": "BANK_ACCOUNT_NUMBER",
            "Score": 0.9995794296264648
        },
        {
            "Name": "BANK_ROUTING",
            "Score": 0.9173126816749573
        },
        {
            "Name": "CREDIT_DEBIT_NUMBER",
            "Score": 1.0
        }
}
```
*Untuk informasi selengkapnya, lihat [Informasi Identifikasi Pribadi (PII)](https://docs.aws.amazon.com/comprehend/latest/dg/pii.html) di Panduan Pengembang Amazon Comprehend.*  
+  Untuk detail API, lihat [ContainsPiiEntities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/contains-pii-entities.html)di *Referensi AWS CLI Perintah*. 

### `create-dataset`
<a name="comprehend_CreateDataset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-dataset`.

**AWS CLI**  
**Untuk membuat dataset flywheel**  
`create-dataset`Contoh berikut membuat dataset untuk flywheel. Dataset ini akan digunakan sebagai data pelatihan tambahan seperti yang ditentukan oleh `--dataset-type` tag.  

```
aws comprehend create-dataset \
    --flywheel-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity \
    --dataset-name example-dataset \
    --dataset-type "TRAIN" \
    --input-data-config file://inputConfig.json
```
Isi dari `file://inputConfig.json`:  

```
{
    "DataFormat": "COMPREHEND_CSV",
    "DocumentClassifierInputDataConfig": {
        "S3Uri": "s3://amzn-s3-demo-bucket/training-data.csv"
    }
}
```
Output:  

```
{
    "DatasetArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity/dataset/example-dataset"
}
```
Untuk informasi selengkapnya, lihat [Ikhtisar Roda Gila di Panduan Pengembang](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Amazon *Comprehend*.  
+  Untuk detail API, lihat [CreateDataset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/create-dataset.html)di *Referensi AWS CLI Perintah*. 

### `create-document-classifier`
<a name="comprehend_CreateDocumentClassifier_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-document-classifier`.

**AWS CLI**  
**Untuk membuat pengklasifikasi dokumen untuk mengkategorikan dokumen**  
`create-document-classifier`Contoh berikut memulai proses pelatihan untuk model pengklasifikasi dokumen. File data pelatihan`training.csv`,, terletak di `--input-data-config` tag. `training.csv`adalah dokumen dua kolom di mana label, atau, klasifikasi disediakan di kolom pertama dan dokumen disediakan di kolom kedua.  

```
aws comprehend create-document-classifier \
    --document-classifier-name example-classifier \
    --data-access-arn arn:aws:comprehend:us-west-2:111122223333:pii-entities-detection-job/123456abcdeb0e11022f22a11EXAMPLE \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/" \
    --language-code en
```
Output:  

```
{
    "DocumentClassifierArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier"
}
```
Untuk informasi selengkapnya, lihat [Klasifikasi Kustom](https://docs.aws.amazon.com/comprehend/latest/dg/how-document-classification.html) di Panduan *Pengembang Amazon Comprehend*.  
+  Untuk detail API, lihat [CreateDocumentClassifier](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/create-document-classifier.html)di *Referensi AWS CLI Perintah*. 

### `create-endpoint`
<a name="comprehend_CreateEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-endpoint`.

**AWS CLI**  
**Untuk membuat endpoint untuk model kustom**  
`create-endpoint`Contoh berikut membuat titik akhir untuk inferensi sinkron untuk model kustom yang dilatih sebelumnya.  

```
aws comprehend create-endpoint \
    --endpoint-name example-classifier-endpoint-1 \
    --model-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier \
    --desired-inference-units 1
```
Output:  

```
{
    "EndpointArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/example-classifier-endpoint-1"
}
```
Untuk informasi selengkapnya, lihat [Mengelola titik akhir Amazon Comprehend di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/comprehend/latest/dg/manage-endpoints.html) Comprehend.  
+  Untuk detail API, lihat [CreateEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/create-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-entity-recognizer`
<a name="comprehend_CreateEntityRecognizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-entity-recognizer`.

**AWS CLI**  
**Untuk membuat pengenal entitas kustom**  
`create-entity-recognizer`Contoh berikut memulai proses pelatihan untuk model pengenal entitas kustom. Contoh ini menggunakan file CSV yang berisi dokumen pelatihan`raw_text.csv`, dan daftar entitas CSV, `entity_list.csv` untuk melatih model. `entity-list.csv`berisi kolom berikut: teks dan jenis.  

```
aws comprehend create-entity-recognizer \
    --recognizer-name example-entity-recognizer
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role \
    --input-data-config "EntityTypes=[{Type=DEVICE}],Documents={S3Uri=s3://amzn-s3-demo-bucket/trainingdata/raw_text.csv},EntityList={S3Uri=s3://amzn-s3-demo-bucket/trainingdata/entity_list.csv}"
    --language-code en
```
Output:  

```
{
    "EntityRecognizerArn": "arn:aws:comprehend:us-west-2:111122223333:example-entity-recognizer/entityrecognizer1"
}
```
Untuk informasi selengkapnya, lihat [Pengenalan entitas khusus](https://docs.aws.amazon.com/comprehend/latest/dg/custom-entity-recognition.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [CreateEntityRecognizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/create-entity-recognizer.html)di *Referensi AWS CLI Perintah*. 

### `create-flywheel`
<a name="comprehend_CreateFlywheel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-flywheel`.

**AWS CLI**  
**Untuk membuat flywheel**  
`create-flywheel`Contoh berikut membuat flywheel untuk mengatur pelatihan berkelanjutan baik klasifikasi dokumen atau model pengenalan entitas. Flywheel dalam contoh ini dibuat untuk mengelola model terlatih yang sudah ada yang ditentukan oleh tag. `--active-model-arn` Saat flywheel dibuat, danau data dibuat di tag. `--input-data-lake`  

```
aws comprehend create-flywheel \
    --flywheel-name example-flywheel \
    --active-model-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-model/version/1 \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role \
    --data-lake-s3-uri "s3://amzn-s3-demo-bucket"
```
Output:  

```
{
    "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel"
}
```
Untuk informasi selengkapnya, lihat [Ikhtisar Roda Gila di Panduan Pengembang](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Amazon *Comprehend*.  
+  Untuk detail API, lihat [CreateFlywheel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/create-flywheel.html)di *Referensi AWS CLI Perintah*. 

### `delete-document-classifier`
<a name="comprehend_DeleteDocumentClassifier_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-document-classifier`.

**AWS CLI**  
**Untuk menghapus pengklasifikasi dokumen kustom**  
`delete-document-classifier`Contoh berikut menghapus model pengklasifikasi dokumen kustom.  

```
aws comprehend delete-document-classifier \
    --document-classifier-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier-1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola titik akhir Amazon Comprehend di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/comprehend/latest/dg/manage-endpoints.html) Comprehend.  
+  Untuk detail API, lihat [DeleteDocumentClassifier](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/delete-document-classifier.html)di *Referensi AWS CLI Perintah*. 

### `delete-endpoint`
<a name="comprehend_DeleteEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir untuk model kustom**  
`delete-endpoint`Contoh berikut menghapus titik akhir khusus model. Semua titik akhir harus dihapus agar model dihapus.  

```
aws comprehend delete-endpoint \
    --endpoint-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/example-classifier-endpoint-1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola titik akhir Amazon Comprehend di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/comprehend/latest/dg/manage-endpoints.html) Comprehend.  
+  Untuk detail API, lihat [DeleteEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/delete-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-entity-recognizer`
<a name="comprehend_DeleteEntityRecognizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-entity-recognizer`.

**AWS CLI**  
**Untuk menghapus model pengenal entitas kustom**  
`delete-entity-recognizer`Contoh berikut menghapus model pengenal entitas kustom.  

```
aws comprehend delete-entity-recognizer \
    --entity-recognizer-arn arn:aws:comprehend:us-west-2:111122223333:entity-recognizer/example-entity-recognizer-1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola titik akhir Amazon Comprehend di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/comprehend/latest/dg/manage-endpoints.html) Comprehend.  
+  Untuk detail API, lihat [DeleteEntityRecognizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/delete-entity-recognizer.html)di *Referensi AWS CLI Perintah*. 

### `delete-flywheel`
<a name="comprehend_DeleteFlywheel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-flywheel`.

**AWS CLI**  
**Untuk menghapus flywheel**  
`delete-flywheel`Contoh berikut menghapus flywheel. Data lake atau model yang terkait dengan flywheel tidak dihapus.  

```
aws comprehend delete-flywheel \
    --flywheel-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel-1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ikhtisar Flywheel di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Pengembang Amazon *Comprehend*.  
+  Untuk detail API, lihat [DeleteFlywheel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/delete-flywheel.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-policy`
<a name="comprehend_DeleteResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan berbasis sumber daya**  
`delete-resource-policy`Contoh berikut menghapus kebijakan berbasis sumber daya dari sumber daya Amazon Comprehend.  

```
aws comprehend delete-resource-policy \
    --resource-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier-1/version/1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyalin model kustom antar AWS akun di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/custom-copy.html) Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DeleteResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/delete-resource-policy.html)di *Referensi AWS CLI Perintah*. 

### `describe-dataset`
<a name="comprehend_DescribeDataset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-dataset`.

**AWS CLI**  
**Untuk menggambarkan kumpulan data flywheel**  
`describe-dataset`Contoh berikut mendapatkan properti dari dataset flywheel.  

```
aws comprehend describe-dataset \
    --dataset-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity/dataset/example-dataset
```
Output:  

```
{
    "DatasetProperties": {
        "DatasetArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity/dataset/example-dataset",
        "DatasetName": "example-dataset",
        "DatasetType": "TRAIN",
        "DatasetS3Uri": "s3://amzn-s3-demo-bucket/flywheel-entity/schemaVersion=1/12345678A123456Z/datasets/example-dataset/20230616T203710Z/",
        "Status": "CREATING",
        "CreationTime": "2023-06-16T20:37:10.400000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Ikhtisar Roda Gila di Panduan Pengembang](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Amazon *Comprehend*.  
+  Untuk detail API, lihat [DescribeDataset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-dataset.html)di *Referensi AWS CLI Perintah*. 

### `describe-document-classification-job`
<a name="comprehend_DescribeDocumentClassificationJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-document-classification-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan klasifikasi dokumen**  
`describe-document-classification-job`Contoh berikut mendapatkan properti pekerjaan klasifikasi dokumen asinkron.  

```
aws comprehend describe-document-classification-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "DocumentClassificationJobProperties": {
        "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:document-classification-job/123456abcdeb0e11022f22a11EXAMPLE",
        "JobName": "exampleclassificationjob",
        "JobStatus": "COMPLETED",
        "SubmitTime": "2023-06-14T17:09:51.788000+00:00",
        "EndTime": "2023-06-14T17:15:58.582000+00:00",
        "DocumentClassifierArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/mymodel/version/1",
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/jobdata/",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-CLN-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
        },
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-servicerole"
    }
}
```
Untuk informasi selengkapnya, lihat [Klasifikasi Kustom](https://docs.aws.amazon.com/comprehend/latest/dg/how-document-classification.html) di Panduan *Pengembang Amazon Comprehend*.  
+  Untuk detail API, lihat [DescribeDocumentClassificationJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-document-classification-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-document-classifier`
<a name="comprehend_DescribeDocumentClassifier_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-document-classifier`.

**AWS CLI**  
**Untuk menggambarkan pengklasifikasi dokumen**  
`describe-document-classifier`Contoh berikut mendapatkan properti model pengklasifikasi dokumen kustom.  

```
aws comprehend describe-document-classifier \
    --document-classifier-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier-1
```
Output:  

```
{
    "DocumentClassifierProperties": {
        "DocumentClassifierArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier-1",
        "LanguageCode": "en",
        "Status": "TRAINED",
        "SubmitTime": "2023-06-13T19:04:15.735000+00:00",
        "EndTime": "2023-06-13T19:42:31.752000+00:00",
        "TrainingStartTime": "2023-06-13T19:08:20.114000+00:00",
        "TrainingEndTime": "2023-06-13T19:41:35.080000+00:00",
        "InputDataConfig": {
            "DataFormat": "COMPREHEND_CSV",
            "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata"
        },
        "OutputDataConfig": {},
        "ClassifierMetadata": {
            "NumberOfLabels": 3,
            "NumberOfTrainedDocuments": 5016,
            "NumberOfTestDocuments": 557,
            "EvaluationMetrics": {
                "Accuracy": 0.9856,
                "Precision": 0.9919,
                "Recall": 0.9459,
                "F1Score": 0.9673,
                "MicroPrecision": 0.9856,
                "MicroRecall": 0.9856,
                "MicroF1Score": 0.9856,
                "HammingLoss": 0.0144
            }
        },
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role",
        "Mode": "MULTI_CLASS"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan mengelola model kustom](https://docs.aws.amazon.com/comprehend/latest/dg/manage-models.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DescribeDocumentClassifier](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-document-classifier.html)di *Referensi AWS CLI Perintah*. 

### `describe-dominant-language-detection-job`
<a name="comprehend_DescribeDominantLanguageDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-dominant-language-detection-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi deteksi bahasa yang dominan.**  
`describe-dominant-language-detection-job`Contoh berikut mendapatkan properti dari pekerjaan deteksi bahasa dominan asinkron.  

```
aws comprehend describe-dominant-language-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "DominantLanguageDetectionJobProperties": {
        "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:dominant-language-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
        "JobName": "languageanalysis1",
        "JobStatus": "IN_PROGRESS",
        "SubmitTime": "2023-06-09T18:10:38.037000+00:00",
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-LANGUAGE-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
        },
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [DescribeDominantLanguageDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-dominant-language-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-endpoint`
<a name="comprehend_DescribeEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-endpoint`.

**AWS CLI**  
**Untuk menggambarkan titik akhir tertentu**  
`describe-endpoint`Contoh berikut mendapatkan properti dari endpoint model-spesifik.  

```
aws comprehend describe-endpoint \
    --endpoint-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/example-classifier-endpoint
```
Output:  

```
{
    "EndpointProperties": {
        "EndpointArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/example-classifier-endpoint,
        "Status": "IN_SERVICE",
        "ModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier1",
        "DesiredModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier1",
        "DesiredInferenceUnits": 1,
        "CurrentInferenceUnits": 1,
        "CreationTime": "2023-06-13T20:32:54.526000+00:00",
        "LastModifiedTime": "2023-06-13T20:32:54.526000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola titik akhir Amazon Comprehend di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/comprehend/latest/dg/manage-endpoints.html) Comprehend.  
+  Untuk detail API, lihat [DescribeEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `describe-entities-detection-job`
<a name="comprehend_DescribeEntitiesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-entities-detection-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi entitas**  
`describe-entities-detection-job`Contoh berikut mendapatkan properti dari pekerjaan deteksi entitas asinkron.  

```
aws comprehend describe-entities-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "EntitiesDetectionJobProperties": {
        "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:entities-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
        "JobName": "example-entity-detector",
        "JobStatus": "COMPLETED",
        "SubmitTime": "2023-06-08T21:30:15.323000+00:00",
        "EndTime": "2023-06-08T21:40:23.509000+00:00",
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/AsyncBatchJobs/",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/thefolder/111122223333-NER-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::12345678012:role/service-role/AmazonComprehendServiceRole-example-role"
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [DescribeEntitiesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-entities-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-entity-recognizer`
<a name="comprehend_DescribeEntityRecognizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-entity-recognizer`.

**AWS CLI**  
**Untuk menggambarkan pengenal entitas**  
`describe-entity-recognizer`Contoh berikut mendapatkan properti model pengenal entitas kustom.  

```
aws comprehend describe-entity-recognizer \
    entity-recognizer-arn arn:aws:comprehend:us-west-2:111122223333:entity-recognizer/business-recongizer-1/version/1
```
Output:  

```
{
    "EntityRecognizerProperties": {
        "EntityRecognizerArn": "arn:aws:comprehend:us-west-2:111122223333:entity-recognizer/business-recongizer-1/version/1",
        "LanguageCode": "en",
        "Status": "TRAINED",
        "SubmitTime": "2023-06-14T20:44:59.631000+00:00",
        "EndTime": "2023-06-14T20:59:19.532000+00:00",
        "TrainingStartTime": "2023-06-14T20:48:52.811000+00:00",
        "TrainingEndTime": "2023-06-14T20:58:11.473000+00:00",
        "InputDataConfig": {
            "DataFormat": "COMPREHEND_CSV",
            "EntityTypes": [
                {
                    "Type": "BUSINESS"
                }
            ],
            "Documents": {
                "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata/dataset/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "EntityList": {
                "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata/entity.csv"
            }
        },
        "RecognizerMetadata": {
            "NumberOfTrainedDocuments": 1814,
            "NumberOfTestDocuments": 486,
            "EvaluationMetrics": {
                "Precision": 100.0,
                "Recall": 100.0,
                "F1Score": 100.0
            },
            "EntityTypes": [
                {
                    "Type": "BUSINESS",
                    "EvaluationMetrics": {
                        "Precision": 100.0,
                        "Recall": 100.0,
                        "F1Score": 100.0
                    },
                    "NumberOfTrainMentions": 1520
                }
            ]
        },
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role",
        "VersionName": "1"
    }
}
```
Untuk informasi selengkapnya, lihat [Pengenalan entitas khusus](https://docs.aws.amazon.com/comprehend/latest/dg/custom-entity-recognition.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DescribeEntityRecognizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-entity-recognizer.html)di *Referensi AWS CLI Perintah*. 

### `describe-events-detection-job`
<a name="comprehend_DescribeEventsDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events-detection-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi peristiwa.**  
`describe-events-detection-job`Contoh berikut mendapatkan properti pekerjaan deteksi peristiwa asinkron.  

```
aws comprehend describe-events-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "EventsDetectionJobProperties": {
        "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:events-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
        "JobName": "events_job_1",
        "JobStatus": "IN_PROGRESS",
        "SubmitTime": "2023-06-12T18:45:56.054000+00:00",
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/EventsData",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-EVENTS-123456abcdeb0e11022f22a11EXAMPLE/output/"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role",
        "TargetEventTypes": [
            "BANKRUPTCY",
            "EMPLOYMENT",
            "CORPORATE_ACQUISITION",
            "CORPORATE_MERGER",
            "INVESTMENT_GENERAL"
        ]
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [DescribeEventsDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-events-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-flywheel-iteration`
<a name="comprehend_DescribeFlywheelIteration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-flywheel-iteration`.

**AWS CLI**  
**Untuk menggambarkan iterasi flywheel**  
`describe-flywheel-iteration`Contoh berikut mendapatkan properti dari iterasi flywheel.  

```
aws comprehend describe-flywheel-iteration \
    --flywheel-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel \
    --flywheel-iteration-id 20232222AEXAMPLE
```
Output:  

```
{
    "FlywheelIterationProperties": {
        "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity",
        "FlywheelIterationId": "20232222AEXAMPLE",
        "CreationTime": "2023-06-16T21:10:26.385000+00:00",
        "EndTime": "2023-06-16T23:33:16.827000+00:00",
        "Status": "COMPLETED",
        "Message": "FULL_ITERATION: Flywheel iteration performed all functions successfully.",
        "EvaluatedModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1",
        "EvaluatedModelMetrics": {
            "AverageF1Score": 0.7742663922375772,
            "AveragePrecision": 0.8287636394041166,
            "AverageRecall": 0.7427084833645399,
            "AverageAccuracy": 0.8795394154118689
        },
        "TrainedModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/Comprehend-Generated-v1-bb52d585",
        "TrainedModelMetrics": {
            "AverageF1Score": 0.9767700253081214,
            "AveragePrecision": 0.9767700253081214,
            "AverageRecall": 0.9767700253081214,
            "AverageAccuracy": 0.9858281665190434
        },
        "EvaluationManifestS3Prefix": "s3://amzn-s3-demo-destination-bucket/flywheel-entity/schemaVersion=1/20230616T200543Z/evaluation/20230616T211026Z/"
    }
}
```
Untuk informasi selengkapnya, lihat [ikhtisar Flywheel di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Pengembang Amazon *Comprehend*.  
+  Untuk detail API, lihat [DescribeFlywheelIteration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-flywheel-iteration.html)di *Referensi AWS CLI Perintah*. 

### `describe-flywheel`
<a name="comprehend_DescribeFlywheel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-flywheel`.

**AWS CLI**  
**Untuk menggambarkan flywheel**  
`describe-flywheel`Contoh berikut mendapatkan properti flywheel. Dalam contoh ini, model yang terkait dengan flywheel adalah model pengklasifikasi khusus yang dilatih untuk mengklasifikasikan dokumen sebagai spam atau nonspam, atau, “ham”.  

```
aws comprehend describe-flywheel \
    --flywheel-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel
```
Output:  

```
{
    "FlywheelProperties": {
        "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel",
        "ActiveModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-model/version/1",
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role",
        "TaskConfig": {
            "LanguageCode": "en",
            "DocumentClassificationConfig": {
                "Mode": "MULTI_CLASS",
                "Labels": [
                    "ham",
                    "spam"
                ]
            }
        },
        "DataLakeS3Uri": "s3://amzn-s3-demo-bucket/example-flywheel/schemaVersion=1/20230616T200543Z/",
        "DataSecurityConfig": {},
        "Status": "ACTIVE",
        "ModelType": "DOCUMENT_CLASSIFIER",
        "CreationTime": "2023-06-16T20:05:43.242000+00:00",
        "LastModifiedTime": "2023-06-16T20:21:43.567000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Ikhtisar Roda Gila di Panduan Pengembang](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Amazon *Comprehend*.  
+  Untuk detail API, lihat [DescribeFlywheel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-flywheel.html)di *Referensi AWS CLI Perintah*. 

### `describe-key-phrases-detection-job`
<a name="comprehend_DescribeKeyPhrasesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-key-phrases-detection-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi frasa kunci**  
`describe-key-phrases-detection-job`Contoh berikut mendapatkan properti dari pekerjaan deteksi frase kunci asinkron.  

```
aws comprehend describe-key-phrases-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "KeyPhrasesDetectionJobProperties": {
        "JobId": "69aa080c00fc68934a6a98f10EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:key-phrases-detection-job/69aa080c00fc68934a6a98f10EXAMPLE",
        "JobName": "example-key-phrases-detection-job",
        "JobStatus": "COMPLETED",
        "SubmitTime": 1686606439.177,
        "EndTime": 1686606806.157,
        "InputDataConfig": {
            "S3Uri": "s3://dereksbucket1001/EventsData/",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://dereksbucket1002/testfolder/111122223333-KP-69aa080c00fc68934a6a98f10EXAMPLE/output/output.tar.gz"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-testrole"
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [DescribeKeyPhrasesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-key-phrases-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-pii-entities-detection-job`
<a name="comprehend_DescribePiiEntitiesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-pii-entities-detection-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi entitas PII**  
`describe-pii-entities-detection-job`Contoh berikut mendapatkan properti pekerjaan deteksi entitas pii asinkron.  

```
aws comprehend describe-pii-entities-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "PiiEntitiesDetectionJobProperties": {
        "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:pii-entities-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
        "JobName": "example-pii-entities-job",
        "JobStatus": "IN_PROGRESS",
        "SubmitTime": "2023-06-08T21:30:15.323000+00:00",
        "EndTime": "2023-06-08T21:40:23.509000+00:00",
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/AsyncBatchJobs/",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/thefolder/111122223333-NER-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::12345678012:role/service-role/AmazonComprehendServiceRole-example-role"
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [DescribePiiEntitiesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-pii-entities-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-resource-policy`
<a name="comprehend_DescribeResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-resource-policy`.

**AWS CLI**  
**Untuk menggambarkan kebijakan sumber daya yang dilampirkan pada model**  
`describe-resource-policy`Contoh berikut mendapatkan properti kebijakan berbasis sumber daya yang dilampirkan ke model.  

```
aws comprehend describe-resource-policy \
    --resource-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1
```
Output:  

```
{
    "ResourcePolicy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::444455556666:root\"},\"Action\":\"comprehend:ImportModel\",\"Resource\":\"*\"}]}",
    "CreationTime": "2023-06-19T18:44:26.028000+00:00",
    "LastModifiedTime": "2023-06-19T18:53:02.002000+00:00",
    "PolicyRevisionId": "baa675d069d07afaa2aa3106ae280f61"
}
```
Untuk informasi selengkapnya, lihat [Menyalin model kustom antar AWS akun di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/custom-copy.html) Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DescribeResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-resource-policy.html)di *Referensi AWS CLI Perintah*. 

### `describe-sentiment-detection-job`
<a name="comprehend_DescribeSentimentDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-sentiment-detection-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi sentimen**  
`describe-sentiment-detection-job`Contoh berikut mendapatkan properti pekerjaan deteksi sentimen asinkron.  

```
aws comprehend describe-sentiment-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "SentimentDetectionJobProperties": {
        "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:sentiment-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
        "JobName": "movie_review_analysis",
        "JobStatus": "IN_PROGRESS",
        "SubmitTime": "2023-06-09T23:16:15.956000+00:00",
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/MovieData",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-TS-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-servicerole"
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [DescribeSentimentDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-sentiment-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-targeted-sentiment-detection-job`
<a name="comprehend_DescribeTargetedSentimentDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-targeted-sentiment-detection-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi sentimen yang ditargetkan**  
`describe-targeted-sentiment-detection-job`Contoh berikut mendapatkan properti pekerjaan deteksi sentimen bertarget asinkron.  

```
aws comprehend describe-targeted-sentiment-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "TargetedSentimentDetectionJobProperties": {
        "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:targeted-sentiment-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
        "JobName": "movie_review_analysis",
        "JobStatus": "IN_PROGRESS",
        "SubmitTime": "2023-06-09T23:16:15.956000+00:00",
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/MovieData",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-TS-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-servicerole"
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [DescribeTargetedSentimentDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-targeted-sentiment-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-topics-detection-job`
<a name="comprehend_DescribeTopicsDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-topics-detection-job`.

**AWS CLI**  
**Untuk mendeskripsikan pekerjaan deteksi topik**  
`describe-topics-detection-job`Contoh berikut mendapatkan properti pekerjaan deteksi topik asinkron.  

```
aws comprehend describe-topics-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "TopicsDetectionJobProperties": {
        "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
        "JobArn": "arn:aws:comprehend:us-west-2:111122223333:topics-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
        "JobName": "example_topics_detection",
        "JobStatus": "IN_PROGRESS",
        "SubmitTime": "2023-06-09T18:44:43.414000+00:00",
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket",
            "InputFormat": "ONE_DOC_PER_LINE"
        },
        "OutputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-TOPICS-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
        },
        "NumberOfTopics": 10,
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-examplerole"
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [DescribeTopicsDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/describe-topics-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `detect-dominant-language`
<a name="comprehend_DetectDominantLanguage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-dominant-language`.

**AWS CLI**  
**Untuk mendeteksi bahasa dominan teks input**  
Berikut ini `detect-dominant-language` menganalisis teks input dan mengidentifikasi bahasa dominan. Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output.  

```
aws comprehend detect-dominant-language \
    --text "It is a beautiful day in Seattle."
```
Output:  

```
{
    "Languages": [
        {
            "LanguageCode": "en",
            "Score": 0.9877256155014038
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bahasa Dominan](https://docs.aws.amazon.com/comprehend/latest/dg/how-languages.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DetectDominantLanguage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/detect-dominant-language.html)di *Referensi AWS CLI Perintah*. 

### `detect-entities`
<a name="comprehend_DetectEntities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-entities`.

**AWS CLI**  
**Untuk mendeteksi entitas bernama dalam teks masukan**  
`detect-entities`Contoh berikut menganalisis teks input dan mengembalikan entitas bernama. Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output untuk setiap prediksi.  

```
aws comprehend detect-entities \
    --language-code en \
    --text "Hello Zhang Wei, I am John. Your AnyCompany Financial Services, LLC credit card \
    account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st. Based on your autopay settings, \
    we will withdraw your payment on the due date from your bank account number XXXXXX1111 with the routing number XXXXX0000. \
    Customer feedback for Sunshine Spa, 123 Main St, Anywhere. Send comments to Alice at AnySpa@example.com."
```
Output:  

```
{
    "Entities": [
        {
            "Score": 0.9994556307792664,
            "Type": "PERSON",
            "Text": "Zhang Wei",
            "BeginOffset": 6,
            "EndOffset": 15
        },
        {
            "Score": 0.9981022477149963,
            "Type": "PERSON",
            "Text": "John",
            "BeginOffset": 22,
            "EndOffset": 26
        },
        {
            "Score": 0.9986887574195862,
            "Type": "ORGANIZATION",
            "Text": "AnyCompany Financial Services, LLC",
            "BeginOffset": 33,
            "EndOffset": 67
        },
        {
            "Score": 0.9959119558334351,
            "Type": "OTHER",
            "Text": "1111-XXXX-1111-XXXX",
            "BeginOffset": 88,
            "EndOffset": 107
        },
        {
            "Score": 0.9708039164543152,
            "Type": "QUANTITY",
            "Text": ".53",
            "BeginOffset": 133,
            "EndOffset": 136
        },
        {
            "Score": 0.9987268447875977,
            "Type": "DATE",
            "Text": "July 31st",
            "BeginOffset": 152,
            "EndOffset": 161
        },
        {
            "Score": 0.9858865737915039,
            "Type": "OTHER",
            "Text": "XXXXXX1111",
            "BeginOffset": 271,
            "EndOffset": 281
        },
        {
            "Score": 0.9700471758842468,
            "Type": "OTHER",
            "Text": "XXXXX0000",
            "BeginOffset": 306,
            "EndOffset": 315
        },
        {
            "Score": 0.9591118693351746,
            "Type": "ORGANIZATION",
            "Text": "Sunshine Spa",
            "BeginOffset": 340,
            "EndOffset": 352
        },
        {
            "Score": 0.9797496795654297,
            "Type": "LOCATION",
            "Text": "123 Main St",
            "BeginOffset": 354,
            "EndOffset": 365
        },
        {
            "Score": 0.994929313659668,
            "Type": "PERSON",
            "Text": "Alice",
            "BeginOffset": 394,
            "EndOffset": 399
        },
        {
            "Score": 0.9949769377708435,
            "Type": "OTHER",
            "Text": "AnySpa@example.com",
            "BeginOffset": 403,
            "EndOffset": 418
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Entitas](https://docs.aws.amazon.com/comprehend/latest/dg/how-entities.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DetectEntities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/detect-entities.html)di *Referensi AWS CLI Perintah*. 

### `detect-key-phrases`
<a name="comprehend_DetectKeyPhrases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-key-phrases`.

**AWS CLI**  
**Untuk mendeteksi frase kunci dalam teks masukan**  
`detect-key-phrases`Contoh berikut menganalisis teks input dan mengidentifikasi frase kata benda kunci. Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output untuk setiap prediksi.  

```
aws comprehend detect-key-phrases \
    --language-code en \
    --text "Hello Zhang Wei, I am John. Your AnyCompany Financial Services, LLC credit card \
        account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st. Based on your autopay settings, \
        we will withdraw your payment on the due date from your bank account number XXXXXX1111 with the routing number XXXXX0000. \
        Customer feedback for Sunshine Spa, 123 Main St, Anywhere. Send comments to Alice at AnySpa@example.com."
```
Output:  

```
{
    "KeyPhrases": [
        {
            "Score": 0.8996376395225525,
            "Text": "Zhang Wei",
            "BeginOffset": 6,
            "EndOffset": 15
        },
        {
            "Score": 0.9992469549179077,
            "Text": "John",
            "BeginOffset": 22,
            "EndOffset": 26
        },
        {
            "Score": 0.988385021686554,
            "Text": "Your AnyCompany Financial Services",
            "BeginOffset": 28,
            "EndOffset": 62
        },
        {
            "Score": 0.8740853071212769,
            "Text": "LLC credit card account 1111-XXXX-1111-XXXX",
            "BeginOffset": 64,
            "EndOffset": 107
        },
        {
            "Score": 0.9999437928199768,
            "Text": "a minimum payment",
            "BeginOffset": 112,
            "EndOffset": 129
        },
        {
            "Score": 0.9998900890350342,
            "Text": ".53",
            "BeginOffset": 133,
            "EndOffset": 136
        },
        {
            "Score": 0.9979453086853027,
            "Text": "July 31st",
            "BeginOffset": 152,
            "EndOffset": 161
        },
        {
            "Score": 0.9983011484146118,
            "Text": "your autopay settings",
            "BeginOffset": 172,
            "EndOffset": 193
        },
        {
            "Score": 0.9996572136878967,
            "Text": "your payment",
            "BeginOffset": 211,
            "EndOffset": 223
        },
        {
            "Score": 0.9995037317276001,
            "Text": "the due date",
            "BeginOffset": 227,
            "EndOffset": 239
        },
        {
            "Score": 0.9702621698379517,
            "Text": "your bank account number XXXXXX1111",
            "BeginOffset": 245,
            "EndOffset": 280
        },
        {
            "Score": 0.9179925918579102,
            "Text": "the routing number XXXXX0000.Customer feedback",
            "BeginOffset": 286,
            "EndOffset": 332
        },
        {
            "Score": 0.9978160858154297,
            "Text": "Sunshine Spa",
            "BeginOffset": 337,
            "EndOffset": 349
        },
        {
            "Score": 0.9706913232803345,
            "Text": "123 Main St",
            "BeginOffset": 351,
            "EndOffset": 362
        },
        {
            "Score": 0.9941995143890381,
            "Text": "comments",
            "BeginOffset": 379,
            "EndOffset": 387
        },
        {
            "Score": 0.9759287238121033,
            "Text": "Alice",
            "BeginOffset": 391,
            "EndOffset": 396
        },
        {
            "Score": 0.8376792669296265,
            "Text": "AnySpa@example.com",
            "BeginOffset": 400,
            "EndOffset": 415
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Frasa Kunci](https://docs.aws.amazon.com/comprehend/latest/dg/how-key-phrases.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DetectKeyPhrases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/detect-key-phrases.html)di *Referensi AWS CLI Perintah*. 

### `detect-pii-entities`
<a name="comprehend_DetectPiiEntities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-pii-entities`.

**AWS CLI**  
**Untuk mendeteksi entitas pii dalam teks input**  
`detect-pii-entities`Contoh berikut menganalisis teks input dan mengidentifikasi entitas yang berisi informasi identitas pribadi (PII). Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output untuk setiap prediksi.  

```
aws comprehend detect-pii-entities \
    --language-code en \
    --text "Hello Zhang Wei, I am John. Your AnyCompany Financial Services, LLC credit card \
        account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st. Based on your autopay settings, \
        we will withdraw your payment on the due date from your bank account number XXXXXX1111 with the routing number XXXXX0000. \
        Customer feedback for Sunshine Spa, 123 Main St, Anywhere. Send comments to Alice at AnySpa@example.com."
```
Output:  

```
{
    "Entities": [
        {
            "Score": 0.9998322129249573,
            "Type": "NAME",
            "BeginOffset": 6,
            "EndOffset": 15
        },
        {
            "Score": 0.9998878240585327,
            "Type": "NAME",
            "BeginOffset": 22,
            "EndOffset": 26
        },
        {
            "Score": 0.9994089603424072,
            "Type": "CREDIT_DEBIT_NUMBER",
            "BeginOffset": 88,
            "EndOffset": 107
        },
        {
            "Score": 0.9999760985374451,
            "Type": "DATE_TIME",
            "BeginOffset": 152,
            "EndOffset": 161
        },
        {
            "Score": 0.9999449253082275,
            "Type": "BANK_ACCOUNT_NUMBER",
            "BeginOffset": 271,
            "EndOffset": 281
        },
        {
            "Score": 0.9999847412109375,
            "Type": "BANK_ROUTING",
            "BeginOffset": 306,
            "EndOffset": 315
        },
        {
            "Score": 0.999925434589386,
            "Type": "ADDRESS",
            "BeginOffset": 354,
            "EndOffset": 365
        },
        {
            "Score": 0.9989161491394043,
            "Type": "NAME",
            "BeginOffset": 394,
            "EndOffset": 399
        },
        {
            "Score": 0.9994171857833862,
            "Type": "EMAIL",
            "BeginOffset": 403,
            "EndOffset": 418
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Informasi Identifikasi Pribadi (PII)](https://docs.aws.amazon.com/comprehend/latest/dg/pii.html) di Panduan Pengembang Amazon Comprehend.*  
+  Untuk detail API, lihat [DetectPiiEntities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/detect-pii-entities.html)di *Referensi AWS CLI Perintah*. 

### `detect-sentiment`
<a name="comprehend_DetectSentiment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-sentiment`.

**AWS CLI**  
**Untuk mendeteksi sentimen teks input**  
`detect-sentiment`Contoh berikut menganalisis teks masukan dan mengembalikan inferensi sentimen yang berlaku (`POSITIVE`,,`NEUTRAL`, `MIXED` atau). `NEGATIVE`  

```
aws comprehend detect-sentiment \
    --language-code en \
    --text "It is a beautiful day in Seattle"
```
Output:  

```
{
    "Sentiment": "POSITIVE",
    "SentimentScore": {
        "Positive": 0.9976957440376282,
        "Negative": 9.653854067437351e-05,
        "Neutral": 0.002169104292988777,
        "Mixed": 3.857641786453314e-05
    }
}
```
Untuk informasi selengkapnya, lihat [Sentimen](https://docs.aws.amazon.com/comprehend/latest/dg/how-sentiment.html) di Panduan Pengembang *Amazon Comprehend*  
+  Untuk detail API, lihat [DetectSentiment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/detect-sentiment.html)di *Referensi AWS CLI Perintah*. 

### `detect-syntax`
<a name="comprehend_DetectSyntax_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-syntax`.

**AWS CLI**  
**Untuk mendeteksi bagian-bagian ucapan dalam teks input**  
`detect-syntax`Contoh berikut menganalisis sintaks teks masukan dan mengembalikan bagian-bagian yang berbeda dari pidato. Skor kepercayaan model yang telah dilatih sebelumnya juga merupakan output untuk setiap prediksi.  

```
aws comprehend detect-syntax \
    --language-code en \
    --text "It is a beautiful day in Seattle."
```
Output:  

```
{
    "SyntaxTokens": [
        {
            "TokenId": 1,
            "Text": "It",
            "BeginOffset": 0,
            "EndOffset": 2,
            "PartOfSpeech": {
                "Tag": "PRON",
                "Score": 0.9999740719795227
            }
        },
        {
            "TokenId": 2,
            "Text": "is",
            "BeginOffset": 3,
            "EndOffset": 5,
            "PartOfSpeech": {
                "Tag": "VERB",
                "Score": 0.999901294708252
            }
        },
        {
            "TokenId": 3,
            "Text": "a",
            "BeginOffset": 6,
            "EndOffset": 7,
            "PartOfSpeech": {
                "Tag": "DET",
                "Score": 0.9999938607215881
            }
        },
        {
            "TokenId": 4,
            "Text": "beautiful",
            "BeginOffset": 8,
            "EndOffset": 17,
            "PartOfSpeech": {
                "Tag": "ADJ",
                "Score": 0.9987351894378662
            }
        },
        {
            "TokenId": 5,
            "Text": "day",
            "BeginOffset": 18,
            "EndOffset": 21,
            "PartOfSpeech": {
                "Tag": "NOUN",
                "Score": 0.9999796748161316
            }
        },
        {
            "TokenId": 6,
            "Text": "in",
            "BeginOffset": 22,
            "EndOffset": 24,
            "PartOfSpeech": {
                "Tag": "ADP",
                "Score": 0.9998047947883606
            }
        },
        {
            "TokenId": 7,
            "Text": "Seattle",
            "BeginOffset": 25,
            "EndOffset": 32,
            "PartOfSpeech": {
                "Tag": "PROPN",
                "Score": 0.9940530061721802
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Analisis Sintaks](https://docs.aws.amazon.com/comprehend/latest/dg/how-syntax.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DetectSyntax](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/detect-syntax.html)di *Referensi AWS CLI Perintah*. 

### `detect-targeted-sentiment`
<a name="comprehend_DetectTargetedSentiment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-targeted-sentiment`.

**AWS CLI**  
**Untuk mendeteksi sentimen yang ditargetkan dari entitas bernama dalam teks input**  
`detect-targeted-sentiment`Contoh berikut menganalisis teks masukan dan mengembalikan entitas bernama selain sentimen yang ditargetkan terkait dengan masing-masing entitas. Skor kepercayaan model yang telah dilatih sebelumnya untuk setiap prediksi juga merupakan output.  

```
aws comprehend detect-targeted-sentiment \
    --language-code en \
    --text "I do not enjoy January because it is too cold but August is the perfect temperature"
```
Output:  

```
{
    "Entities": [
        {
            "DescriptiveMentionIndex": [
                0
            ],
            "Mentions": [
                {
                    "Score": 0.9999979734420776,
                    "GroupScore": 1.0,
                    "Text": "I",
                    "Type": "PERSON",
                    "MentionSentiment": {
                        "Sentiment": "NEUTRAL",
                        "SentimentScore": {
                            "Positive": 0.0,
                            "Negative": 0.0,
                            "Neutral": 1.0,
                            "Mixed": 0.0
                        }
                    },
                    "BeginOffset": 0,
                    "EndOffset": 1
                }
            ]
        },
        {
            "DescriptiveMentionIndex": [
                0
            ],
            "Mentions": [
                {
                    "Score": 0.9638869762420654,
                    "GroupScore": 1.0,
                    "Text": "January",
                    "Type": "DATE",
                    "MentionSentiment": {
                        "Sentiment": "NEGATIVE",
                        "SentimentScore": {
                            "Positive": 0.0031610000878572464,
                            "Negative": 0.9967250227928162,
                            "Neutral": 0.00011100000119768083,
                            "Mixed": 1.9999999949504854e-06
                        }
                    },
                    "BeginOffset": 15,
                    "EndOffset": 22
                }
            ]
        },
        {
            "DescriptiveMentionIndex": [
                0
            ],
            "Mentions": [
                {
                {
                    "Score": 0.9664419889450073,
                    "GroupScore": 1.0,
                    "Text": "August",
                    "Type": "DATE",
                    "MentionSentiment": {
                        "Sentiment": "POSITIVE",
                        "SentimentScore": {
                            "Positive": 0.9999549984931946,
                            "Negative": 3.999999989900971e-06,
                            "Neutral": 4.099999932805076e-05,
                            "Mixed": 0.0
                        }
                    },
                    "BeginOffset": 50,
                    "EndOffset": 56
                }
            ]
        },
        {
            "DescriptiveMentionIndex": [
                0
            ],
            "Mentions": [
                {
                    "Score": 0.9803199768066406,
                    "GroupScore": 1.0,
                    "Text": "temperature",
                    "Type": "ATTRIBUTE",
                    "MentionSentiment": {
                        "Sentiment": "POSITIVE",
                        "SentimentScore": {
                            "Positive": 1.0,
                            "Negative": 0.0,
                            "Neutral": 0.0,
                            "Mixed": 0.0
                        }
                    },
                    "BeginOffset": 77,
                    "EndOffset": 88
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Sentimen Bertarget](https://docs.aws.amazon.com/comprehend/latest/dg/how-targeted-sentiment.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [DetectTargetedSentiment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/detect-targeted-sentiment.html)di *Referensi AWS CLI Perintah*. 

### `import-model`
<a name="comprehend_ImportModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-model`.

**AWS CLI**  
**Untuk mengimpor model**  
`import-model`Contoh berikut mengimpor model dari AWS akun yang berbeda. Model pengklasifikasi dokumen dalam akun `444455556666` memiliki kebijakan berbasis sumber daya yang memungkinkan akun `111122223333` untuk mengimpor model.  

```
aws comprehend import-model \
    --source-model-arn arn:aws:comprehend:us-west-2:444455556666:document-classifier/example-classifier
```
Output:  

```
{
    "ModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier"
}
```
Untuk informasi selengkapnya, lihat [Menyalin model kustom antar AWS akun di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/custom-copy.html) Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [ImportModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/import-model.html)di *Referensi AWS CLI Perintah*. 

### `list-datasets`
<a name="comprehend_ListDatasets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-datasets`.

**AWS CLI**  
**Untuk membuat daftar semua dataset flywheel**  
`list-datasets`Contoh berikut mencantumkan semua dataset yang terkait dengan flywheel.  

```
aws comprehend list-datasets \
    --flywheel-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity
```
Output:  

```
{
    "DatasetPropertiesList": [
        {
            "DatasetArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity/dataset/example-dataset-1",
            "DatasetName": "example-dataset-1",
            "DatasetType": "TRAIN",
            "DatasetS3Uri": "s3://amzn-s3-demo-bucket/flywheel-entity/schemaVersion=1/20230616T200543Z/datasets/example-dataset-1/20230616T203710Z/",
            "Status": "CREATING",
            "CreationTime": "2023-06-16T20:37:10.400000+00:00"
        },
        {
            "DatasetArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity/dataset/example-dataset-2",
            "DatasetName": "example-dataset-2",
            "DatasetType": "TRAIN",
            "DatasetS3Uri": "s3://amzn-s3-demo-bucket/flywheel-entity/schemaVersion=1/20230616T200543Z/datasets/example-dataset-2/20230616T200607Z/",
            "Description": "TRAIN Dataset created by Flywheel creation.",
            "Status": "COMPLETED",
            "NumberOfDocuments": 5572,
            "CreationTime": "2023-06-16T20:06:07.722000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Ikhtisar Roda Gila di Panduan Pengembang](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Amazon *Comprehend*.  
+  Untuk detail API, lihat [ListDatasets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-datasets.html)di *Referensi AWS CLI Perintah*. 

### `list-document-classification-jobs`
<a name="comprehend_ListDocumentClassificationJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-document-classification-jobs`.

**AWS CLI**  
**Untuk daftar semua pekerjaan klasifikasi dokumen**  
`list-document-classification-jobs`Contoh berikut mencantumkan semua pekerjaan klasifikasi dokumen.  

```
aws comprehend list-document-classification-jobs
```
Output:  

```
{
    "DocumentClassificationJobPropertiesList": [
        {
            "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:1234567890101:document-classification-job/123456abcdeb0e11022f22a11EXAMPLE",
            "JobName": "exampleclassificationjob",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-14T17:09:51.788000+00:00",
            "EndTime": "2023-06-14T17:15:58.582000+00:00",
            "DocumentClassifierArn": "arn:aws:comprehend:us-west-2:1234567890101:document-classifier/mymodel/version/12",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/jobdata/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/1234567890101-CLN-e758dd56b824aa717ceab551f11749fb/output/output.tar.gz"
            },
            "DataAccessRoleArn": "arn:aws:iam::1234567890101:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "123456abcdeb0e11022f22a1EXAMPLE2",
            "JobArn": "arn:aws:comprehend:us-west-2:1234567890101:document-classification-job/123456abcdeb0e11022f22a1EXAMPLE2",
            "JobName": "exampleclassificationjob2",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-14T17:22:39.829000+00:00",
            "EndTime": "2023-06-14T17:28:46.107000+00:00",
            "DocumentClassifierArn": "arn:aws:comprehend:us-west-2:1234567890101:document-classifier/mymodel/version/12",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/jobdata/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/1234567890101-CLN-123456abcdeb0e11022f22a1EXAMPLE2/output/output.tar.gz"
            },
            "DataAccessRoleArn": "arn:aws:iam::1234567890101:role/service-role/AmazonComprehendServiceRole-example-role"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Klasifikasi Kustom](https://docs.aws.amazon.com/comprehend/latest/dg/how-document-classification.html) di Panduan *Pengembang Amazon Comprehend*.  
+  Untuk detail API, lihat [ListDocumentClassificationJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-document-classification-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-document-classifier-summaries`
<a name="comprehend_ListDocumentClassifierSummaries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-document-classifier-summaries`.

**AWS CLI**  
**Untuk membuat daftar ringkasan semua pengklasifikasi dokumen yang dibuat**  
`list-document-classifier-summaries`Contoh berikut mencantumkan semua ringkasan pengklasifikasi dokumen yang dibuat.  

```
aws comprehend list-document-classifier-summaries
```
Output:  

```
{
    "DocumentClassifierSummariesList": [
        {
            "DocumentClassifierName": "example-classifier-1",
            "NumberOfVersions": 1,
            "LatestVersionCreatedAt": "2023-06-13T22:07:59.825000+00:00",
            "LatestVersionName": "1",
            "LatestVersionStatus": "TRAINED"
        },
        {
            "DocumentClassifierName": "example-classifier-2",
            "NumberOfVersions": 2,
            "LatestVersionCreatedAt": "2023-06-13T21:54:59.589000+00:00",
            "LatestVersionName": "2",
            "LatestVersionStatus": "TRAINED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat dan mengelola model kustom](https://docs.aws.amazon.com/comprehend/latest/dg/manage-models.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [ListDocumentClassifierSummaries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-document-classifier-summaries.html)di *Referensi AWS CLI Perintah*. 

### `list-document-classifiers`
<a name="comprehend_ListDocumentClassifiers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-document-classifiers`.

**AWS CLI**  
**Untuk daftar semua pengklasifikasi dokumen**  
`list-document-classifiers`Contoh berikut mencantumkan semua model pengklasifikasi dokumen terlatih dan dalam pelatihan.  

```
aws comprehend list-document-classifiers
```
Output:  

```
{
    "DocumentClassifierPropertiesList": [
        {
            "DocumentClassifierArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier1",
            "LanguageCode": "en",
            "Status": "TRAINED",
            "SubmitTime": "2023-06-13T19:04:15.735000+00:00",
            "EndTime": "2023-06-13T19:42:31.752000+00:00",
            "TrainingStartTime": "2023-06-13T19:08:20.114000+00:00",
            "TrainingEndTime": "2023-06-13T19:41:35.080000+00:00",
            "InputDataConfig": {
                "DataFormat": "COMPREHEND_CSV",
                "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata"
            },
            "OutputDataConfig": {},
            "ClassifierMetadata": {
                "NumberOfLabels": 3,
                "NumberOfTrainedDocuments": 5016,
                "NumberOfTestDocuments": 557,
                "EvaluationMetrics": {
                    "Accuracy": 0.9856,
                    "Precision": 0.9919,
                    "Recall": 0.9459,
                    "F1Score": 0.9673,
                    "MicroPrecision": 0.9856,
                    "MicroRecall": 0.9856,
                    "MicroF1Score": 0.9856,
                    "HammingLoss": 0.0144
                }
            },
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-testorle",
            "Mode": "MULTI_CLASS"
        },
        {
            "DocumentClassifierArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier2",
            "LanguageCode": "en",
            "Status": "TRAINING",
            "SubmitTime": "2023-06-13T21:20:28.690000+00:00",
            "InputDataConfig": {
                "DataFormat": "COMPREHEND_CSV",
                "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata"
            },
            "OutputDataConfig": {},
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-testorle",
            "Mode": "MULTI_CLASS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat dan mengelola model kustom](https://docs.aws.amazon.com/comprehend/latest/dg/manage-models.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [ListDocumentClassifiers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-document-classifiers.html)di *Referensi AWS CLI Perintah*. 

### `list-dominant-language-detection-jobs`
<a name="comprehend_ListDominantLanguageDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-dominant-language-detection-jobs`.

**AWS CLI**  
**Untuk membuat daftar semua pekerjaan deteksi bahasa yang dominan**  
`list-dominant-language-detection-jobs`Contoh berikut mencantumkan semua pekerjaan deteksi bahasa dominan asinkron yang sedang berlangsung dan diselesaikan.  

```
aws comprehend list-dominant-language-detection-jobs
```
Output:  

```
{
    "DominantLanguageDetectionJobPropertiesList": [
        {
            "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:dominant-language-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
            "JobName": "languageanalysis1",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-09T18:10:38.037000+00:00",
            "EndTime": "2023-06-09T18:18:45.498000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-LANGUAGE-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
            },
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:dominant-language-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
            "JobName": "languageanalysis2",
            "JobStatus": "STOPPED",
            "SubmitTime": "2023-06-09T18:16:33.690000+00:00",
            "EndTime": "2023-06-09T18:24:40.608000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-LANGUAGE-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
            },
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [ListDominantLanguageDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-dominant-language-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-endpoints`
<a name="comprehend_ListEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-endpoints`.

**AWS CLI**  
**Untuk daftar semua titik akhir**  
`list-endpoints`Contoh berikut mencantumkan semua titik akhir khusus model aktif.  

```
aws comprehend list-endpoints
```
Output:  

```
{
    "EndpointPropertiesList": [
        {
            "EndpointArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/ExampleClassifierEndpoint",
            "Status": "IN_SERVICE",
            "ModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier1",
            "DesiredModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier1",
            "DesiredInferenceUnits": 1,
            "CurrentInferenceUnits": 1,
            "CreationTime": "2023-06-13T20:32:54.526000+00:00",
            "LastModifiedTime": "2023-06-13T20:32:54.526000+00:00"
        },
        {
            "EndpointArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/ExampleClassifierEndpoint2",
            "Status": "IN_SERVICE",
            "ModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier2",
            "DesiredModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier2",
            "DesiredInferenceUnits": 1,
            "CurrentInferenceUnits": 1,
            "CreationTime": "2023-06-13T20:32:54.526000+00:00",
            "LastModifiedTime": "2023-06-13T20:32:54.526000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola titik akhir Amazon Comprehend di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/comprehend/latest/dg/manage-endpoints.html) Comprehend.  
+  Untuk detail API, lihat [ListEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `list-entities-detection-jobs`
<a name="comprehend_ListEntitiesDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-entities-detection-jobs`.

**AWS CLI**  
**Untuk mencantumkan semua pekerjaan deteksi entitas**  
`list-entities-detection-jobs`Contoh berikut mencantumkan semua pekerjaan deteksi entitas asinkron.  

```
aws comprehend list-entities-detection-jobs
```
Output:  

```
{
    "EntitiesDetectionJobPropertiesList": [
        {
            "JobId": "468af39c28ab45b83eb0c4ab9EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:entities-detection-job/468af39c28ab45b83eb0c4ab9EXAMPLE",
            "JobName": "example-entities-detection",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-08T20:57:46.476000+00:00",
            "EndTime": "2023-06-08T21:05:53.718000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/AsyncBatchJobs/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/111122223333-NER-468af39c28ab45b83eb0c4ab9EXAMPLE/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "809691caeaab0e71406f80a28EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:entities-detection-job/809691caeaab0e71406f80a28EXAMPLE",
            "JobName": "example-entities-detection-2",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-08T21:30:15.323000+00:00",
            "EndTime": "2023-06-08T21:40:23.509000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/AsyncBatchJobs/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/111122223333-NER-809691caeaab0e71406f80a28EXAMPLE/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "e00597c36b448b91d70dea165EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:entities-detection-job/e00597c36b448b91d70dea165EXAMPLE",
            "JobName": "example-entities-detection-3",
            "JobStatus": "STOPPED",
            "SubmitTime": "2023-06-08T22:19:28.528000+00:00",
            "EndTime": "2023-06-08T22:27:33.991000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/AsyncBatchJobs/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/111122223333-NER-e00597c36b448b91d70dea165EXAMPLE/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Entitas](https://docs.aws.amazon.com/comprehend/latest/dg/how-entities.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [ListEntitiesDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-entities-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-entity-recognizer-summaries`
<a name="comprehend_ListEntityRecognizerSummaries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-entity-recognizer-summaries`.

**AWS CLI**  
**Untuk daftar ringkasan untuk semua pengenal entitas yang dibuat**  
`list-entity-recognizer-summaries`Contoh berikut mencantumkan semua ringkasan pengenal entitas.  

```
aws comprehend list-entity-recognizer-summaries
```
Output:  

```
{
    "EntityRecognizerSummariesList": [
        {
            "RecognizerName": "entity-recognizer-3",
            "NumberOfVersions": 2,
            "LatestVersionCreatedAt": "2023-06-15T23:15:07.621000+00:00",
            "LatestVersionName": "2",
            "LatestVersionStatus": "STOP_REQUESTED"
        },
        {
            "RecognizerName": "entity-recognizer-2",
            "NumberOfVersions": 1,
            "LatestVersionCreatedAt": "2023-06-14T22:55:27.805000+00:00",
            "LatestVersionName": "2"
            "LatestVersionStatus": "TRAINED"
        },
        {
            "RecognizerName": "entity-recognizer-1",
            "NumberOfVersions": 1,
            "LatestVersionCreatedAt": "2023-06-14T20:44:59.631000+00:00",
            "LatestVersionName": "1",
            "LatestVersionStatus": "TRAINED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pengenalan entitas khusus](https://docs.aws.amazon.com/comprehend/latest/dg/custom-entity-recognition.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [ListEntityRecognizerSummaries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-entity-recognizer-summaries.html)di *Referensi AWS CLI Perintah*. 

### `list-entity-recognizers`
<a name="comprehend_ListEntityRecognizers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-entity-recognizers`.

**AWS CLI**  
**Untuk daftar semua pengenal entitas kustom**  
`list-entity-recognizers`Contoh berikut mencantumkan semua pengenal entitas kustom yang dibuat.  

```
aws comprehend list-entity-recognizers
```
Output:  

```
{
    "EntityRecognizerPropertiesList": [
        {
            "EntityRecognizerArn": "arn:aws:comprehend:us-west-2:111122223333:entity-recognizer/EntityRecognizer/version/1",
            "LanguageCode": "en",
            "Status": "TRAINED",
            "SubmitTime": "2023-06-14T20:44:59.631000+00:00",
            "EndTime": "2023-06-14T20:59:19.532000+00:00",
            "TrainingStartTime": "2023-06-14T20:48:52.811000+00:00",
            "TrainingEndTime": "2023-06-14T20:58:11.473000+00:00",
            "InputDataConfig": {
                "DataFormat": "COMPREHEND_CSV",
                "EntityTypes": [
                    {
                        "Type": "BUSINESS"
                    }
                ],
                "Documents": {
                    "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata/dataset/",
                    "InputFormat": "ONE_DOC_PER_LINE"
                },
                "EntityList": {
                    "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata/entity.csv"
                }
            },
            "RecognizerMetadata": {
                "NumberOfTrainedDocuments": 1814,
                "NumberOfTestDocuments": 486,
                "EvaluationMetrics": {
                    "Precision": 100.0,
                    "Recall": 100.0,
                    "F1Score": 100.0
                },
                "EntityTypes": [
                    {
                        "Type": "BUSINESS",
                        "EvaluationMetrics": {
                            "Precision": 100.0,
                            "Recall": 100.0,
                            "F1Score": 100.0
                        },
                        "NumberOfTrainMentions": 1520
                    }
                ]
            },
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-servicerole",
            "VersionName": "1"
        },
        {
            "EntityRecognizerArn": "arn:aws:comprehend:us-west-2:111122223333:entity-recognizer/entityrecognizer3",
            "LanguageCode": "en",
            "Status": "TRAINED",
            "SubmitTime": "2023-06-14T22:57:51.056000+00:00",
            "EndTime": "2023-06-14T23:14:13.894000+00:00",
            "TrainingStartTime": "2023-06-14T23:01:33.984000+00:00",
            "TrainingEndTime": "2023-06-14T23:13:02.984000+00:00",
            "InputDataConfig": {
                "DataFormat": "COMPREHEND_CSV",
                "EntityTypes": [
                    {
                        "Type": "DEVICE"
                    }
                ],
                "Documents": {
                    "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata/raw_txt.csv",
                    "InputFormat": "ONE_DOC_PER_LINE"
                },
                "EntityList": {
                    "S3Uri": "s3://amzn-s3-demo-bucket/trainingdata/entity_list.csv"
                }
            },
            "RecognizerMetadata": {
                "NumberOfTrainedDocuments": 4616,
                "NumberOfTestDocuments": 3489,
                "EvaluationMetrics": {
                    "Precision": 98.54227405247813,
                    "Recall": 100.0,
                    "F1Score": 99.26578560939794
                },
                "EntityTypes": [
                    {
                        "Type": "DEVICE",
                        "EvaluationMetrics": {
                            "Precision": 98.54227405247813,
                            "Recall": 100.0,
                            "F1Score": 99.26578560939794
                        },
                        "NumberOfTrainMentions": 2764
                    }
                ]
            },
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-servicerole"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pengenalan entitas khusus](https://docs.aws.amazon.com/comprehend/latest/dg/custom-entity-recognition.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [ListEntityRecognizers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-entity-recognizers.html)di *Referensi AWS CLI Perintah*. 

### `list-events-detection-jobs`
<a name="comprehend_ListEventsDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-events-detection-jobs`.

**AWS CLI**  
**Untuk mencantumkan semua pekerjaan deteksi peristiwa**  
`list-events-detection-jobs`Contoh berikut mencantumkan semua pekerjaan deteksi peristiwa asinkron.  

```
aws comprehend list-events-detection-jobs
```
Output:  

```
{
    "EventsDetectionJobPropertiesList": [
        {
            "JobId": "aa9593f9203e84f3ef032ce18EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:1111222233333:events-detection-job/aa9593f9203e84f3ef032ce18EXAMPLE",
            "JobName": "events_job_1",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-12T19:14:57.751000+00:00",
            "EndTime": "2023-06-12T19:21:04.962000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-source-bucket/EventsData/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/1111222233333-EVENTS-aa9593f9203e84f3ef032ce18EXAMPLE/output/"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::1111222233333:role/service-role/AmazonComprehendServiceRole-example-role",
            "TargetEventTypes": [
                "BANKRUPTCY",
                "EMPLOYMENT",
                "CORPORATE_ACQUISITION",
                "CORPORATE_MERGER",
                "INVESTMENT_GENERAL"
            ]
        },
        {
            "JobId": "4a990a2f7e82adfca6e171135EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:1111222233333:events-detection-job/4a990a2f7e82adfca6e171135EXAMPLE",
            "JobName": "events_job_2",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-12T19:55:43.702000+00:00",
            "EndTime": "2023-06-12T20:03:49.893000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-source-bucket/EventsData/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/1111222233333-EVENTS-4a990a2f7e82adfca6e171135EXAMPLE/output/"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::1111222233333:role/service-role/AmazonComprehendServiceRole-example-role",
            "TargetEventTypes": [
                "BANKRUPTCY",
                "EMPLOYMENT",
                "CORPORATE_ACQUISITION",
                "CORPORATE_MERGER",
                "INVESTMENT_GENERAL"
            ]
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [ListEventsDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-events-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-flywheel-iteration-history`
<a name="comprehend_ListFlywheelIterationHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-flywheel-iteration-history`.

**AWS CLI**  
**Untuk mencantumkan semua riwayat iterasi flywheel**  
`list-flywheel-iteration-history`Contoh berikut mencantumkan semua iterasi flywheel.  

```
aws comprehend list-flywheel-iteration-history
    --flywheel-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel
```
Output:  

```
{
    "FlywheelIterationPropertiesList": [
        {
            "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel",
            "FlywheelIterationId": "20230619TEXAMPLE",
            "CreationTime": "2023-06-19T04:00:32.594000+00:00",
            "EndTime": "2023-06-19T04:00:49.248000+00:00",
            "Status": "COMPLETED",
            "Message": "FULL_ITERATION: Flywheel iteration performed all functions successfully.",
            "EvaluatedModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1",
            "EvaluatedModelMetrics": {
                "AverageF1Score": 0.7742663922375772,
                "AverageF1Score": 0.9876464664646313,
                "AveragePrecision": 0.9800000253081214,
                "AverageRecall": 0.9445600253081214,
                "AverageAccuracy": 0.9997281665190434
            },
            "EvaluationManifestS3Prefix": "s3://amzn-s3-demo-bucket/example-flywheel/schemaVersion=1/20230619TEXAMPLE/evaluation/20230619TEXAMPLE/"
        },
        {
            "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel-2",
            "FlywheelIterationId": "20230616TEXAMPLE",
            "CreationTime": "2023-06-16T21:10:26.385000+00:00",
            "EndTime": "2023-06-16T23:33:16.827000+00:00",
            "Status": "COMPLETED",
            "Message": "FULL_ITERATION: Flywheel iteration performed all functions successfully.",
            "EvaluatedModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/spamvshamclassify/version/1",
            "EvaluatedModelMetrics": {
                "AverageF1Score": 0.7742663922375772,
                "AverageF1Score": 0.9767700253081214,
                "AveragePrecision": 0.9767700253081214,
                "AverageRecall": 0.9767700253081214,
                "AverageAccuracy": 0.9858281665190434
            },
            "EvaluationManifestS3Prefix": "s3://amzn-s3-demo-bucket/example-flywheel-2/schemaVersion=1/20230616TEXAMPLE/evaluation/20230616TEXAMPLE/"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ikhtisar Flywheel di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Pengembang Amazon *Comprehend*.  
+  Untuk detail API, lihat [ListFlywheelIterationHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-flywheel-iteration-history.html)di *Referensi AWS CLI Perintah*. 

### `list-flywheels`
<a name="comprehend_ListFlywheels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-flywheels`.

**AWS CLI**  
**Untuk daftar semua flywheels**  
`list-flywheels`Contoh berikut mencantumkan semua flywheels yang dibuat.  

```
aws comprehend list-flywheels
```
Output:  

```
{
    "FlywheelSummaryList": [
        {
            "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel-1",
            "ActiveModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier/version/1",
            "DataLakeS3Uri": "s3://amzn-s3-demo-bucket/example-flywheel-1/schemaVersion=1/20230616T200543Z/",
            "Status": "ACTIVE",
            "ModelType": "DOCUMENT_CLASSIFIER",
            "CreationTime": "2023-06-16T20:05:43.242000+00:00",
            "LastModifiedTime": "2023-06-19T04:00:43.027000+00:00",
            "LatestFlywheelIteration": "20230619T040032Z"
        },
        {
            "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel-2",
            "ActiveModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/exampleclassifier2/version/1",
            "DataLakeS3Uri": "s3://amzn-s3-demo-bucket/example-flywheel-2/schemaVersion=1/20220616T200543Z/",
            "Status": "ACTIVE",
            "ModelType": "DOCUMENT_CLASSIFIER",
            "CreationTime": "2022-06-16T20:05:43.242000+00:00",
            "LastModifiedTime": "2022-06-19T04:00:43.027000+00:00",
            "LatestFlywheelIteration": "20220619T040032Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ikhtisar Flywheel di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Pengembang Amazon *Comprehend*.  
+  Untuk detail API, lihat [ListFlywheels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-flywheels.html)di *Referensi AWS CLI Perintah*. 

### `list-key-phrases-detection-jobs`
<a name="comprehend_ListKeyPhrasesDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-key-phrases-detection-jobs`.

**AWS CLI**  
**Untuk membuat daftar semua pekerjaan deteksi frase kunci**  
`list-key-phrases-detection-jobs`Contoh berikut mencantumkan semua pekerjaan deteksi frase kunci asinkron yang sedang berlangsung dan diselesaikan.  

```
aws comprehend list-key-phrases-detection-jobs
```
Output:  

```
{
    "KeyPhrasesDetectionJobPropertiesList": [
        {
            "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:key-phrases-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
            "JobName": "keyphrasesanalysis1",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-08T22:31:43.767000+00:00",
            "EndTime": "2023-06-08T22:39:52.565000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-source-bucket/AsyncBatchJobs/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-KP-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "123456abcdeb0e11022f22a33EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:key-phrases-detection-job/123456abcdeb0e11022f22a33EXAMPLE",
            "JobName": "keyphrasesanalysis2",
            "JobStatus": "STOPPED",
            "SubmitTime": "2023-06-08T22:57:52.154000+00:00",
            "EndTime": "2023-06-08T23:05:48.385000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/AsyncBatchJobs/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-KP-123456abcdeb0e11022f22a33EXAMPLE/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "123456abcdeb0e11022f22a44EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:key-phrases-detection-job/123456abcdeb0e11022f22a44EXAMPLE",
            "JobName": "keyphrasesanalysis3",
            "JobStatus": "FAILED",
            "Message": "NO_READ_ACCESS_TO_INPUT: The provided data access role does not have proper access to the input data.",
            "SubmitTime": "2023-06-09T16:47:04.029000+00:00",
            "EndTime": "2023-06-09T16:47:18.413000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-KP-123456abcdeb0e11022f22a44EXAMPLE/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [ListKeyPhrasesDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-key-phrases-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-pii-entities-detection-jobs`
<a name="comprehend_ListPiiEntitiesDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pii-entities-detection-jobs`.

**AWS CLI**  
**Untuk mencantumkan semua pekerjaan deteksi entitas pii**  
`list-pii-entities-detection-jobs`Contoh berikut mencantumkan semua pekerjaan deteksi pii asinkron yang sedang berlangsung dan diselesaikan.  

```
aws comprehend list-pii-entities-detection-jobs
```
Output:  

```
{
    "PiiEntitiesDetectionJobPropertiesList": [
        {
            "JobId": "6f9db0c42d0c810e814670ee4EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:pii-entities-detection-job/6f9db0c42d0c810e814670ee4EXAMPLE",
            "JobName": "example-pii-detection-job",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-09T21:02:46.241000+00:00",
            "EndTime": "2023-06-09T21:12:52.602000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/AsyncBatchJobs/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-source-bucket/111122223333-PII-6f9db0c42d0c810e814670ee4EXAMPLE/output/"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role",
            "Mode": "ONLY_OFFSETS"
        },
        {
            "JobId": "d927562638cfa739331a99b3cEXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:pii-entities-detection-job/d927562638cfa739331a99b3cEXAMPLE",
            "JobName": "example-pii-detection-job-2",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-09T21:20:58.211000+00:00",
            "EndTime": "2023-06-09T21:31:06.027000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/AsyncBatchJobs/",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/111122223333-PII-d927562638cfa739331a99b3cEXAMPLE/output/"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role",
            "Mode": "ONLY_OFFSETS"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [ListPiiEntitiesDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-pii-entities-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-sentiment-detection-jobs`
<a name="comprehend_ListSentimentDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-sentiment-detection-jobs`.

**AWS CLI**  
**Untuk membuat daftar semua pekerjaan deteksi sentimen**  
`list-sentiment-detection-jobs`Contoh berikut mencantumkan semua pekerjaan deteksi sentimen asinkron yang sedang berlangsung dan diselesaikan.  

```
aws comprehend list-sentiment-detection-jobs
```
Output:  

```
{
    "SentimentDetectionJobPropertiesList": [
        {
            "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:sentiment-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
            "JobName": "example-sentiment-detection-job",
            "JobStatus": "IN_PROGRESS",
            "SubmitTime": "2023-06-09T22:42:20.545000+00:00",
            "EndTime": "2023-06-09T22:52:27.416000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/MovieData",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-TS-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "123456abcdeb0e11022f22a1EXAMPLE2",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:sentiment-detection-job/123456abcdeb0e11022f22a1EXAMPLE2",
            "JobName": "example-sentiment-detection-job-2",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-09T23:16:15.956000+00:00",
            "EndTime": "2023-06-09T23:26:00.168000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/MovieData2",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-TS-123456abcdeb0e11022f22a1EXAMPLE2/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [ListSentimentDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-sentiment-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="comprehend_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk sumber daya Amazon Comprehend.  

```
aws comprehend list-tags-for-resource \
    --resource-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1
```
Output:  

```
{
    "ResourceArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1",
    "Tags": [
        {
            "Key": "Department",
            "Value": "Finance"
        },
        {
            "Key": "location",
            "Value": "Seattle"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/comprehend/latest/dg/tagging.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-targeted-sentiment-detection-jobs`
<a name="comprehend_ListTargetedSentimentDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-targeted-sentiment-detection-jobs`.

**AWS CLI**  
**Untuk membuat daftar semua pekerjaan deteksi sentimen yang ditargetkan**  
`list-targeted-sentiment-detection-jobs`Contoh berikut mencantumkan semua pekerjaan deteksi sentimen bertarget asinkron yang sedang berlangsung dan diselesaikan.  

```
aws comprehend list-targeted-sentiment-detection-jobs
```
Output:  

```
{
    "TargetedSentimentDetectionJobPropertiesList": [
        {
            "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:targeted-sentiment-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
            "JobName": "example-targeted-sentiment-detection-job",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-09T22:42:20.545000+00:00",
            "EndTime": "2023-06-09T22:52:27.416000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/MovieData",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-TS-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-IOrole"
        },
        {
            "JobId": "123456abcdeb0e11022f22a1EXAMPLE2",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:targeted-sentiment-detection-job/123456abcdeb0e11022f22a1EXAMPLE2",
            "JobName": "example-targeted-sentiment-detection-job-2",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-09T23:16:15.956000+00:00",
            "EndTime": "2023-06-09T23:26:00.168000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/MovieData2",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/testfolder/111122223333-TS-123456abcdeb0e11022f22a1EXAMPLE2/output/output.tar.gz"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [ListTargetedSentimentDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-targeted-sentiment-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-topics-detection-jobs`
<a name="comprehend_ListTopicsDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-topics-detection-jobs`.

**AWS CLI**  
**Untuk mencantumkan semua pekerjaan deteksi topik**  
`list-topics-detection-jobs`Contoh berikut mencantumkan semua pekerjaan deteksi topik asinkron yang sedang berlangsung dan diselesaikan.  

```
aws comprehend list-topics-detection-jobs
```
Output:  

```
{
    "TopicsDetectionJobPropertiesList": [
        {
            "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:topics-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
            "JobName" "topic-analysis-1"
            "JobStatus": "IN_PROGRESS",
            "SubmitTime": "2023-06-09T18:40:35.384000+00:00",
            "EndTime": "2023-06-09T18:46:41.936000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/111122223333-TOPICS-123456abcdeb0e11022f22a11EXAMPLE/output/output.tar.gz"
            },
            "NumberOfTopics": 10,
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "123456abcdeb0e11022f22a1EXAMPLE2",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:topics-detection-job/123456abcdeb0e11022f22a1EXAMPLE2",
            "JobName": "topic-analysis-2",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2023-06-09T18:44:43.414000+00:00",
            "EndTime": "2023-06-09T18:50:50.872000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/111122223333-TOPICS-123456abcdeb0e11022f22a1EXAMPLE2/output/output.tar.gz"
            },
            "NumberOfTopics": 10,
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        },
        {
            "JobId": "123456abcdeb0e11022f22a1EXAMPLE3",
            "JobArn": "arn:aws:comprehend:us-west-2:111122223333:topics-detection-job/123456abcdeb0e11022f22a1EXAMPLE3",
            "JobName": "topic-analysis-2",
            "JobStatus": "IN_PROGRESS",
            "SubmitTime": "2023-06-09T18:50:56.737000+00:00",
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket",
                "InputFormat": "ONE_DOC_PER_LINE"
            },
            "OutputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-destination-bucket/thefolder/111122223333-TOPICS-123456abcdeb0e11022f22a1EXAMPLE3/output/output.tar.gz"
            },
            "NumberOfTopics": 10,
            "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [ListTopicsDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/list-topics-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `put-resource-policy`
<a name="comprehend_PutResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-resource-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan berbasis sumber daya**  
`put-resource-policy`Contoh berikut melampirkan kebijakan berbasis sumber daya ke model sehingga dapat diimpor oleh akun lain. AWS Kebijakan dilampirkan ke model dalam akun `111122223333` dan memungkinkan akun `444455556666` mengimpor model.  

```
aws comprehend put-resource-policy \
    --resource-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1 \
    --resource-policy '{"Version":"2012-10-17",		 	 	 "Statement":[{"Effect":"Allow","Action":"comprehend:ImportModel","Resource":"*","Principal":{"AWS":["arn:aws:iam::444455556666:root"]}}]}'
```
Output:  

```
{
    "PolicyRevisionId": "aaa111d069d07afaa2aa3106aEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menyalin model kustom antar AWS akun di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/custom-copy.html) Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [PutResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/put-resource-policy.html)di *Referensi AWS CLI Perintah*. 

### `start-document-classification-job`
<a name="comprehend_StartDocumentClassificationJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-document-classification-job`.

**AWS CLI**  
**Untuk memulai pekerjaan klasifikasi dokumen**  
`start-document-classification-job`Contoh berikut memulai pekerjaan klasifikasi dokumen dengan model kustom pada semua file di alamat yang ditentukan oleh `--input-data-config` tag. Dalam contoh ini, bucket input S3 berisi`SampleSMStext1.txt`,`SampleSMStext2.txt`, dan`SampleSMStext3.txt`. Model ini sebelumnya dilatih pada klasifikasi dokumen spam dan non-spam, atau, “ham”, pesan SMS. Ketika pekerjaan selesai, `output.tar.gz` diletakkan di lokasi yang ditentukan oleh `--output-data-config` tag. `output.tar.gz`berisi `predictions.jsonl` yang mencantumkan klasifikasi setiap dokumen. Output Json dicetak pada satu baris per file, tetapi diformat di sini untuk keterbacaan.  

```
aws comprehend start-document-classification-job \
    --job-name exampleclassificationjob \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket-INPUT/jobdata/" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role \
    --document-classifier-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/mymodel/version/12
```
Isi dari `SampleSMStext1.txt`:  

```
"CONGRATULATIONS! TXT 2155550100 to win $5000"
```
Isi dari `SampleSMStext2.txt`:  

```
"Hi, when do you want me to pick you up from practice?"
```
Isi dari `SampleSMStext3.txt`:  

```
"Plz send bank account # to 2155550100 to claim prize!!"
```
Output:  

```
{
    "JobId": "e758dd56b824aa717ceab551fEXAMPLE",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:document-classification-job/e758dd56b824aa717ceab551fEXAMPLE",
    "JobStatus": "SUBMITTED"
}
```
Isi dari `predictions.jsonl`:  

```
{"File": "SampleSMSText1.txt", "Line": "0", "Classes": [{"Name": "spam", "Score": 0.9999}, {"Name": "ham", "Score": 0.0001}]}
{"File": "SampleSMStext2.txt", "Line": "0", "Classes": [{"Name": "ham", "Score": 0.9994}, {"Name": "spam", "Score": 0.0006}]}
{"File": "SampleSMSText3.txt", "Line": "0", "Classes": [{"Name": "spam", "Score": 0.9999}, {"Name": "ham", "Score": 0.0001}]}
```
Untuk informasi selengkapnya, lihat [Klasifikasi Kustom](https://docs.aws.amazon.com/comprehend/latest/dg/how-document-classification.html) di Panduan *Pengembang Amazon Comprehend*.  
+  Untuk detail API, lihat [StartDocumentClassificationJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-document-classification-job.html)di *Referensi AWS CLI Perintah*. 

### `start-dominant-language-detection-job`
<a name="comprehend_StartDominantLanguageDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-dominant-language-detection-job`.

**AWS CLI**  
**Untuk memulai pekerjaan deteksi bahasa asinkron**  
`start-dominant-language-detection-job`Contoh berikut memulai pekerjaan deteksi bahasa asinkron untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Bucket S3 dalam contoh ini berisi`Sampletext1.txt`. Ketika pekerjaan selesai, folder,`output`, ditempatkan di lokasi yang ditentukan oleh `--output-data-config` tag. Folder berisi `output.txt` yang berisi bahasa dominan dari masing-masing file teks serta skor kepercayaan model yang telah dilatih sebelumnya untuk setiap prediksi.  

```
aws comprehend start-dominant-language-detection-job \
    --job-name example_language_analysis_job \
    --language-code en \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role \
    --language-code en
```
Isi dari Sampletext1.txt:  

```
"Physics is the natural science that involves the study of matter and its motion and behavior through space and time, along with related concepts such as energy and force."
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:dominant-language-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
    "JobStatus": "SUBMITTED"
}
```
Isi dari `output.txt`:  

```
{"File": "Sampletext1.txt", "Languages": [{"LanguageCode": "en", "Score": 0.9913753867149353}], "Line": 0}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StartDominantLanguageDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-dominant-language-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `start-entities-detection-job`
<a name="comprehend_StartEntitiesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-entities-detection-job`.

**AWS CLI**  
**Contoh 1: Untuk memulai pekerjaan deteksi entitas standar menggunakan model yang telah dilatih sebelumnya**  
`start-entities-detection-job`Contoh berikut memulai pekerjaan deteksi entitas asinkron untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Bucket S3 dalam contoh ini berisi`Sampletext1.txt`,`Sampletext2.txt`, dan`Sampletext3.txt`. Ketika pekerjaan selesai, folder,`output`, ditempatkan di lokasi yang ditentukan oleh `--output-data-config` tag. Folder berisi daftar semua entitas bernama `output.txt` yang terdeteksi dalam setiap file teks serta skor kepercayaan model yang telah dilatih sebelumnya untuk setiap prediksi. Output Json dicetak pada satu baris per file input, tetapi diformat di sini untuk keterbacaan.  

```
aws comprehend start-entities-detection-job \
    --job-name entitiestest \
    --language-code en \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role \
    --language-code en
```
Isi dari `Sampletext1.txt`:  

```
"Hello Zhang Wei, I am John. Your AnyCompany Financial Services, LLC credit card account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st."
```
Isi dari `Sampletext2.txt`:  

```
"Dear Max, based on your autopay settings for your account example1.org account, we will withdraw your payment on the due date from your bank account number XXXXXX1111 with the routing number XXXXX0000. "
```
Isi dari `Sampletext3.txt`:  

```
"Jane, please submit any customer feedback from this weekend to AnySpa, 123 Main St, Anywhere and send comments to Alice at AnySpa@example.com."
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:entities-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
    "JobStatus": "SUBMITTED"
}
```
Isi `output.txt` dengan indentasi garis untuk keterbacaan:  

```
{
"Entities": [
    {
    "BeginOffset": 6,
    "EndOffset": 15,
    "Score": 0.9994006636420306,
    "Text": "Zhang Wei",
    "Type": "PERSON"
    },
    {
    "BeginOffset": 22,
    "EndOffset": 26,
    "Score": 0.9976647915128143,
    "Text": "John",
    "Type": "PERSON"
    },
    {
    "BeginOffset": 33,
    "EndOffset": 67,
    "Score": 0.9984608700836206,
    "Text": "AnyCompany Financial Services, LLC",
    "Type": "ORGANIZATION"
    },
    {
    "BeginOffset": 88,
    "EndOffset": 107,
    "Score": 0.9868521019555556,
    "Text": "1111-XXXX-1111-XXXX",
    "Type": "OTHER"
    },
    {
    "BeginOffset": 133,
    "EndOffset": 139,
    "Score": 0.998242565709204,
    "Text": "$24.53",
    "Type": "QUANTITY"
    },
    {
    "BeginOffset": 155,
    "EndOffset": 164,
    "Score": 0.9993039263159287,
    "Text": "July 31st",
    "Type": "DATE"
    }
],
"File": "SampleText1.txt",
"Line": 0
}
{
"Entities": [
    {
    "BeginOffset": 5,
    "EndOffset": 8,
    "Score": 0.9866232147545232,
    "Text": "Max",
    "Type": "PERSON"
    },
    {
    "BeginOffset": 156,
    "EndOffset": 166,
    "Score": 0.9797723450933329,
    "Text": "XXXXXX1111",
    "Type": "OTHER"
    },
    {
    "BeginOffset": 191,
    "EndOffset": 200,
    "Score": 0.9247838572396843,
    "Text": "XXXXX0000",
    "Type": "OTHER"
    }
],
"File": "SampleText2.txt",
"Line": 0
}
{
 "Entities": [
    {
    "Score": 0.9990532994270325,
    "Type": "PERSON",
    "Text": "Jane",
    "BeginOffset": 0,
    "EndOffset": 4
    },
    {
    "Score": 0.9519651532173157,
    "Type": "DATE",
    "Text": "this weekend",
    "BeginOffset": 47,
    "EndOffset": 59
    },
    {
    "Score": 0.5566426515579224,
    "Type": "ORGANIZATION",
    "Text": "AnySpa",
    "BeginOffset": 63,
    "EndOffset": 69
    },
    {
    "Score": 0.8059805631637573,
    "Type": "LOCATION",
    "Text": "123 Main St, Anywhere",
    "BeginOffset": 71,
    "EndOffset": 92
    },
    {
    "Score": 0.998830258846283,
    "Type": "PERSON",
    "Text": "Alice",
    "BeginOffset": 114,
    "EndOffset": 119
    },
    {
    "Score": 0.997818112373352,
    "Type": "OTHER",
    "Text": "AnySpa@example.com",
    "BeginOffset": 123,
    "EndOffset": 138
    }
    ],
    "File": "SampleText3.txt",
    "Line": 0
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
**Contoh 2: Untuk memulai pekerjaan deteksi entitas kustom**  
`start-entities-detection-job`Contoh berikut memulai pekerjaan deteksi entitas kustom asinkron untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Dalam contoh ini, bucket S3 dalam contoh ini berisi`SampleFeedback1.txt`,`SampleFeedback2.txt`, dan`SampleFeedback3.txt`. Model pengenal entitas dilatih tentang Umpan Balik dukungan pelanggan untuk mengenali nama perangkat. Ketika pekerjaan selesai, folder,`output`, diletakkan di lokasi yang ditentukan oleh `--output-data-config` tag. Folder berisi`output.txt`, yang mencantumkan semua entitas bernama yang terdeteksi dalam setiap file teks serta skor kepercayaan model yang telah dilatih sebelumnya untuk setiap prediksi. Output Json dicetak pada satu baris per file, tetapi diformat di sini untuk keterbacaan.  

```
aws comprehend start-entities-detection-job \
    --job-name customentitiestest \
    --entity-recognizer-arn "arn:aws:comprehend:us-west-2:111122223333:entity-recognizer/entityrecognizer" \
    --language-code en \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/jobdata/" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-IOrole"
```
Isi dari `SampleFeedback1.txt`:  

```
"I've been on the AnyPhone app have had issues for 24 hours when trying to pay bill. Cannot make payment. Sigh. | Oh man! Lets get that app up and running. DM me, and we can get to work!"
```
Isi dari `SampleFeedback2.txt`:  

```
"Hi, I have a discrepancy with my new bill. Could we get it sorted out? A rep added stuff I didn't sign up for when I did my AnyPhone 10 upgrade. | We can absolutely get this sorted!"
```
Isi dari `SampleFeedback3.txt`:  

```
"Is the by 1 get 1 free AnySmartPhone promo still going on? | Hi Christian! It ended yesterday, send us a DM if you have any questions and we can take a look at your options!"
```
Output:  

```
{
    "JobId": "019ea9edac758806850fa8a79ff83021",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:entities-detection-job/019ea9edac758806850fa8a79ff83021",
    "JobStatus": "SUBMITTED"
}
```
Isi `output.txt` dengan indentasi garis untuk keterbacaan:  

```
{
"Entities": [
    {
    "BeginOffset": 17,
    "EndOffset": 25,
    "Score": 0.9999728210205924,
    "Text": "AnyPhone",
    "Type": "DEVICE"
    }
],
"File": "SampleFeedback1.txt",
"Line": 0
}
{
"Entities": [
    {
    "BeginOffset": 123,
    "EndOffset": 133,
    "Score": 0.9999892116761524,
    "Text": "AnyPhone 10",
    "Type": "DEVICE"
    }
],
"File": "SampleFeedback2.txt",
"Line": 0
}
{
"Entities": [
    {
    "BeginOffset": 23,
    "EndOffset": 35,
    "Score": 0.9999971389852362,
    "Text": "AnySmartPhone",
    "Type": "DEVICE"
    }
],
"File": "SampleFeedback3.txt",
"Line": 0
}
```
Untuk informasi selengkapnya, lihat [Pengenalan entitas khusus](https://docs.aws.amazon.com/comprehend/latest/dg/custom-entity-recognition.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [StartEntitiesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-entities-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `start-events-detection-job`
<a name="comprehend_StartEventsDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-events-detection-job`.

**AWS CLI**  
**Untuk memulai pekerjaan deteksi peristiwa asinkron**  
`start-events-detection-job`Contoh berikut memulai pekerjaan deteksi peristiwa asinkron untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Jenis acara target yang mungkin termasuk `BANKRUPCTY``EMPLOYMENT`,`CORPORATE_ACQUISITION`,,`INVESTMENT_GENERAL`,`CORPORATE_MERGER`,`IPO`,`RIGHTS_ISSUE`,`SECONDARY_OFFERING`,`SHELF_OFFERING`,`TENDER_OFFERING`, dan`STOCK_SPLIT`. Bucket S3 dalam contoh ini berisi`SampleText1.txt`,`SampleText2.txt`, dan`SampleText3.txt`. Ketika pekerjaan selesai, folder,`output`, ditempatkan di lokasi yang ditentukan oleh `--output-data-config` tag. Folder berisi`SampleText1.txt.out`,`SampleText2.txt.out`, dan`SampleText3.txt.out`. Output JSON dicetak pada satu baris per file, tetapi diformat di sini untuk keterbacaan.  

```
aws comprehend start-events-detection-job \
    --job-name events-detection-1 \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/EventsData" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-servicerole \
    --language-code en \
    --target-event-types "BANKRUPTCY" "EMPLOYMENT" "CORPORATE_ACQUISITION" "CORPORATE_MERGER" "INVESTMENT_GENERAL"
```
Isi dari `SampleText1.txt`:  

```
"Company AnyCompany grew by increasing sales and through acquisitions. After purchasing competing firms in 2020, AnyBusiness, a part of the AnyBusinessGroup, gave Jane Does firm a going rate of one cent a gallon or forty-two cents a barrel."
```
Isi dari `SampleText2.txt`:  

```
"In 2021, AnyCompany officially purchased AnyBusiness for 100 billion dollars, surprising and exciting the shareholders."
```
Isi dari `SampleText3.txt`:  

```
"In 2022, AnyCompany stock crashed 50. Eventually later that year they filed for bankruptcy."
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:events-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
    "JobStatus": "SUBMITTED"
}
```
Isi `SampleText1.txt.out` dengan indentasi garis untuk keterbacaan:  

```
{
    "Entities": [
        {
        "Mentions": [
            {
            "BeginOffset": 8,
            "EndOffset": 18,
            "Score": 0.99977,
            "Text": "AnyCompany",
            "Type": "ORGANIZATION",
            "GroupScore": 1
            },
            {
            "BeginOffset": 112,
            "EndOffset": 123,
            "Score": 0.999747,
            "Text": "AnyBusiness",
            "Type": "ORGANIZATION",
            "GroupScore": 0.979826
            },
            {
            "BeginOffset": 171,
            "EndOffset": 175,
            "Score": 0.999615,
            "Text": "firm",
            "Type": "ORGANIZATION",
            "GroupScore": 0.871647
            }
        ]
        },
        {
        "Mentions": [
            {
            "BeginOffset": 97,
            "EndOffset": 102,
            "Score": 0.987687,
            "Text": "firms",
            "Type": "ORGANIZATION",
            "GroupScore": 1
            }
        ]
        },
        {
        "Mentions": [
            {
            "BeginOffset": 103,
            "EndOffset": 110,
            "Score": 0.999458,
            "Text": "in 2020",
            "Type": "DATE",
            "GroupScore": 1
            }
        ]
        },
        {
        "Mentions": [
            {
            "BeginOffset": 160,
            "EndOffset": 168,
            "Score": 0.999649,
            "Text": "John Doe",
            "Type": "PERSON",
            "GroupScore": 1
            }
        ]
        }
    ],
    "Events": [
        {
        "Type": "CORPORATE_ACQUISITION",
        "Arguments": [
            {
            "EntityIndex": 0,
            "Role": "INVESTOR",
            "Score": 0.99977
            }
        ],
        "Triggers": [
            {
            "BeginOffset": 56,
            "EndOffset": 68,
            "Score": 0.999967,
            "Text": "acquisitions",
            "Type": "CORPORATE_ACQUISITION",
            "GroupScore": 1
            }
        ]
        },
        {
        "Type": "CORPORATE_ACQUISITION",
        "Arguments": [
            {
            "EntityIndex": 1,
            "Role": "INVESTEE",
            "Score": 0.987687
            },
            {
            "EntityIndex": 2,
            "Role": "DATE",
            "Score": 0.999458
            },
            {
            "EntityIndex": 3,
            "Role": "INVESTOR",
            "Score": 0.999649
            }
        ],
        "Triggers": [
            {
            "BeginOffset": 76,
            "EndOffset": 86,
            "Score": 0.999973,
            "Text": "purchasing",
            "Type": "CORPORATE_ACQUISITION",
            "GroupScore": 1
            }
        ]
        }
    ],
    "File": "SampleText1.txt",
    "Line": 0
}
```
Isi dari `SampleText2.txt.out`:  

```
{
    "Entities": [
        {
        "Mentions": [
            {
            "BeginOffset": 0,
            "EndOffset": 7,
            "Score": 0.999473,
            "Text": "In 2021",
            "Type": "DATE",
            "GroupScore": 1
            }
        ]
        },
        {
        "Mentions": [
            {
            "BeginOffset": 9,
            "EndOffset": 19,
            "Score": 0.999636,
            "Text": "AnyCompany",
            "Type": "ORGANIZATION",
            "GroupScore": 1
            }
        ]
        },
        {
        "Mentions": [
            {
            "BeginOffset": 45,
            "EndOffset": 56,
            "Score": 0.999712,
            "Text": "AnyBusiness",
            "Type": "ORGANIZATION",
            "GroupScore": 1
            }
        ]
        },
        {
        "Mentions": [
            {
            "BeginOffset": 61,
            "EndOffset": 80,
            "Score": 0.998886,
            "Text": "100 billion dollars",
            "Type": "MONETARY_VALUE",
            "GroupScore": 1
            }
        ]
        }
    ],
    "Events": [
        {
        "Type": "CORPORATE_ACQUISITION",
        "Arguments": [
            {
            "EntityIndex": 3,
            "Role": "AMOUNT",
            "Score": 0.998886
            },
            {
            "EntityIndex": 2,
            "Role": "INVESTEE",
            "Score": 0.999712
            },
            {
            "EntityIndex": 0,
            "Role": "DATE",
            "Score": 0.999473
            },
            {
            "EntityIndex": 1,
            "Role": "INVESTOR",
            "Score": 0.999636
            }
        ],
        "Triggers": [
            {
            "BeginOffset": 31,
            "EndOffset": 40,
            "Score": 0.99995,
            "Text": "purchased",
            "Type": "CORPORATE_ACQUISITION",
            "GroupScore": 1
            }
        ]
        }
    ],
    "File": "SampleText2.txt",
    "Line": 0
}
```
Isi dari `SampleText3.txt.out`:  

```
{
    "Entities": [
        {
        "Mentions": [
            {
            "BeginOffset": 9,
            "EndOffset": 19,
            "Score": 0.999774,
            "Text": "AnyCompany",
            "Type": "ORGANIZATION",
            "GroupScore": 1
            },
            {
            "BeginOffset": 66,
            "EndOffset": 70,
            "Score": 0.995717,
            "Text": "they",
            "Type": "ORGANIZATION",
            "GroupScore": 0.997626
            }
        ]
        },
        {
        "Mentions": [
            {
            "BeginOffset": 50,
            "EndOffset": 65,
            "Score": 0.999656,
            "Text": "later that year",
            "Type": "DATE",
            "GroupScore": 1
            }
        ]
        }
    ],
    "Events": [
        {
        "Type": "BANKRUPTCY",
        "Arguments": [
            {
            "EntityIndex": 1,
            "Role": "DATE",
            "Score": 0.999656
            },
            {
            "EntityIndex": 0,
            "Role": "FILER",
            "Score": 0.995717
            }
        ],
        "Triggers": [
            {
            "BeginOffset": 81,
            "EndOffset": 91,
            "Score": 0.999936,
            "Text": "bankruptcy",
            "Type": "BANKRUPTCY",
            "GroupScore": 1
            }
        ]
        }
    ],
    "File": "SampleText3.txt",
    "Line": 0
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StartEventsDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-events-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `start-flywheel-iteration`
<a name="comprehend_StartFlywheelIteration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-flywheel-iteration`.

**AWS CLI**  
**Untuk memulai iterasi flywheel**  
`start-flywheel-iteration`Contoh berikut memulai iterasi flywheel. Operasi ini menggunakan dataset baru di flywheel untuk melatih versi model baru.  

```
aws comprehend start-flywheel-iteration \
    --flywheel-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel
```
Output:  

```
{
    "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel",
    "FlywheelIterationId": "12345123TEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [ikhtisar Flywheel di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Pengembang Amazon *Comprehend*.  
+  Untuk detail API, lihat [StartFlywheelIteration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-flywheel-iteration.html)di *Referensi AWS CLI Perintah*. 

### `start-key-phrases-detection-job`
<a name="comprehend_StartKeyPhrasesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-key-phrases-detection-job`.

**AWS CLI**  
**Untuk memulai pekerjaan deteksi frasa kunci**  
`start-key-phrases-detection-job`Contoh berikut memulai pekerjaan deteksi frase kunci asinkron untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Bucket S3 dalam contoh ini berisi`Sampletext1.txt`,`Sampletext2.txt`, dan`Sampletext3.txt`. Ketika pekerjaan selesai, folder,`output`, ditempatkan di lokasi yang ditentukan oleh `--output-data-config` tag. Folder berisi file `output.txt` yang berisi semua frasa kunci yang terdeteksi dalam setiap file teks dan skor kepercayaan model yang telah dilatih sebelumnya untuk setiap prediksi. Output Json dicetak pada satu baris per file, tetapi diformat di sini untuk keterbacaan.  

```
aws comprehend start-key-phrases-detection-job \
    --job-name keyphrasesanalysistest1 \
    --language-code en \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role" \
    --language-code en
```
Isi dari `Sampletext1.txt`:  

```
"Hello Zhang Wei, I am John. Your AnyCompany Financial Services, LLC credit card account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st."
```
Isi dari `Sampletext2.txt`:  

```
"Dear Max, based on your autopay settings for your account Internet.org account, we will withdraw your payment on the due date from your bank account number XXXXXX1111 with the routing number XXXXX0000. "
```
Isi dari `Sampletext3.txt`:  

```
"Jane, please submit any customer feedback from this weekend to Sunshine Spa, 123 Main St, Anywhere and send comments to Alice at AnySpa@example.com."
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:key-phrases-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
    "JobStatus": "SUBMITTED"
}
```
Isi `output.txt` dengan indentasi garis untuk keterbacaan:  

```
{
    "File": "SampleText1.txt",
    "KeyPhrases": [
        {
        "BeginOffset": 6,
        "EndOffset": 15,
        "Score": 0.9748965572679326,
        "Text": "Zhang Wei"
        },
        {
        "BeginOffset": 22,
        "EndOffset": 26,
        "Score": 0.9997344722354619,
        "Text": "John"
        },
        {
        "BeginOffset": 28,
        "EndOffset": 62,
        "Score": 0.9843791074032948,
        "Text": "Your AnyCompany Financial Services"
        },
        {
        "BeginOffset": 64,
        "EndOffset": 107,
        "Score": 0.8976122401721824,
        "Text": "LLC credit card account 1111-XXXX-1111-XXXX"
        },
        {
        "BeginOffset": 112,
        "EndOffset": 129,
        "Score": 0.9999612982629748,
        "Text": "a minimum payment"
        },
        {
        "BeginOffset": 133,
        "EndOffset": 139,
        "Score": 0.99975728947036,
        "Text": "$24.53"
        },
        {
        "BeginOffset": 155,
        "EndOffset": 164,
        "Score": 0.9940866241449973,
        "Text": "July 31st"
        }
    ],
    "Line": 0
    }
    {
    "File": "SampleText2.txt",
    "KeyPhrases": [
        {
        "BeginOffset": 0,
        "EndOffset": 8,
        "Score": 0.9974021100118472,
        "Text": "Dear Max"
        },
        {
        "BeginOffset": 19,
        "EndOffset": 40,
        "Score": 0.9961120519515884,
        "Text": "your autopay settings"
        },
        {
        "BeginOffset": 45,
        "EndOffset": 78,
        "Score": 0.9980620070116009,
        "Text": "your account Internet.org account"
        },
        {
        "BeginOffset": 97,
        "EndOffset": 109,
        "Score": 0.999919660140754,
        "Text": "your payment"
        },
        {
        "BeginOffset": 113,
        "EndOffset": 125,
        "Score": 0.9998370719754205,
        "Text": "the due date"
        },
        {
        "BeginOffset": 131,
        "EndOffset": 166,
        "Score": 0.9955068678502509,
        "Text": "your bank account number XXXXXX1111"
        },
        {
        "BeginOffset": 172,
        "EndOffset": 200,
        "Score": 0.8653433315829526,
        "Text": "the routing number XXXXX0000"
        }
    ],
    "Line": 0
    }
    {
    "File": "SampleText3.txt",
    "KeyPhrases": [
        {
        "BeginOffset": 0,
        "EndOffset": 4,
        "Score": 0.9142947833681668,
        "Text": "Jane"
        },
        {
        "BeginOffset": 20,
        "EndOffset": 41,
        "Score": 0.9984325676596763,
        "Text": "any customer feedback"
        },
        {
        "BeginOffset": 47,
        "EndOffset": 59,
        "Score": 0.9998782448150636,
        "Text": "this weekend"
        },
        {
        "BeginOffset": 63,
        "EndOffset": 75,
        "Score": 0.99866741830757,
        "Text": "Sunshine Spa"
        },
        {
        "BeginOffset": 77,
        "EndOffset": 88,
        "Score": 0.9695803485466054,
        "Text": "123 Main St"
        },
        {
        "BeginOffset": 108,
        "EndOffset": 116,
        "Score": 0.9997065928550928,
        "Text": "comments"
        },
        {
        "BeginOffset": 120,
        "EndOffset": 125,
        "Score": 0.9993466833825161,
        "Text": "Alice"
        },
        {
        "BeginOffset": 129,
        "EndOffset": 144,
        "Score": 0.9654563612885667,
        "Text": "AnySpa@example.com"
        }
    ],
    "Line": 0
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StartKeyPhrasesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-key-phrases-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `start-pii-entities-detection-job`
<a name="comprehend_StartPiiEntitiesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-pii-entities-detection-job`.

**AWS CLI**  
**Untuk memulai pekerjaan deteksi PII asinkron**  
`start-pii-entities-detection-job`Contoh berikut memulai pekerjaan deteksi entitas informasi pribadi asinkron (PII) untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Bucket S3 dalam contoh ini berisi`Sampletext1.txt`,`Sampletext2.txt`, dan`Sampletext3.txt`. Ketika pekerjaan selesai, folder,`output`, ditempatkan di lokasi yang ditentukan oleh `--output-data-config` tag. Folder berisi`SampleText1.txt.out`,`SampleText2.txt.out`, dan `SampleText3.txt.out` yang mencantumkan entitas bernama dalam setiap file teks. Output Json dicetak pada satu baris per file, tetapi diformat di sini untuk keterbacaan.  

```
aws comprehend start-pii-entities-detection-job \
    --job-name entities_test \
    --language-code en \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role \
    --language-code en \
    --mode ONLY_OFFSETS
```
Isi dari `Sampletext1.txt`:  

```
"Hello Zhang Wei, I am John. Your AnyCompany Financial Services, LLC credit card account 1111-XXXX-1111-XXXX has a minimum payment of $24.53 that is due by July 31st."
```
Isi dari `Sampletext2.txt`:  

```
"Dear Max, based on your autopay settings for your account Internet.org account, we will withdraw your payment on the due date from your bank account number XXXXXX1111 with the routing number XXXXX0000. "
```
Isi dari `Sampletext3.txt`:  

```
"Jane, please submit any customer feedback from this weekend to Sunshine Spa, 123 Main St, Anywhere and send comments to Alice at AnySpa@example.com."
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:pii-entities-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
    "JobStatus": "SUBMITTED"
}
```
Isi `SampleText1.txt.out` dengan indentasi garis untuk keterbacaan:  

```
{
    "Entities": [
        {
        "BeginOffset": 6,
        "EndOffset": 15,
        "Type": "NAME",
        "Score": 0.9998490510222595
        },
        {
        "BeginOffset": 22,
        "EndOffset": 26,
        "Type": "NAME",
        "Score": 0.9998937958019426
        },
        {
        "BeginOffset": 88,
        "EndOffset": 107,
        "Type": "CREDIT_DEBIT_NUMBER",
        "Score": 0.9554297245278491
        },
        {
        "BeginOffset": 155,
        "EndOffset": 164,
        "Type": "DATE_TIME",
        "Score": 0.9999720462925257
        }
    ],
    "File": "SampleText1.txt",
    "Line": 0
}
```
Isi `SampleText2.txt.out` dengan indentasi garis untuk keterbacaan:  

```
{
    "Entities": [
        {
        "BeginOffset": 5,
        "EndOffset": 8,
        "Type": "NAME",
        "Score": 0.9994390774924007
        },
        {
        "BeginOffset": 58,
        "EndOffset": 70,
        "Type": "URL",
        "Score": 0.9999958276922101
        },
        {
        "BeginOffset": 156,
        "EndOffset": 166,
        "Type": "BANK_ACCOUNT_NUMBER",
        "Score": 0.9999721058045592
        },
        {
        "BeginOffset": 191,
        "EndOffset": 200,
        "Type": "BANK_ROUTING",
        "Score": 0.9998968945989909
        }
    ],
    "File": "SampleText2.txt",
    "Line": 0
}
```
Isi `SampleText3.txt.out` dengan indentasi garis untuk keterbacaan:  

```
{
    "Entities": [
        {
        "BeginOffset": 0,
        "EndOffset": 4,
        "Type": "NAME",
        "Score": 0.999949934606805
        },
        {
        "BeginOffset": 77,
        "EndOffset": 88,
        "Type": "ADDRESS",
        "Score": 0.9999035300466904
        },
        {
        "BeginOffset": 120,
        "EndOffset": 125,
        "Type": "NAME",
        "Score": 0.9998203838716296
        },
        {
        "BeginOffset": 129,
        "EndOffset": 144,
        "Type": "EMAIL",
        "Score": 0.9998313473105228
        }
    ],
    "File": "SampleText3.txt",
    "Line": 0
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StartPiiEntitiesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-pii-entities-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `start-sentiment-detection-job`
<a name="comprehend_StartSentimentDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-sentiment-detection-job`.

**AWS CLI**  
**Untuk memulai pekerjaan analisis sentimen asinkron**  
`start-sentiment-detection-job`Contoh berikut memulai pekerjaan deteksi analisis sentimen asinkron untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Folder bucket S3 dalam contoh ini berisi`SampleMovieReview1.txt`,`SampleMovieReview2.txt`, dan`SampleMovieReview3.txt`. Ketika pekerjaan selesai, folder,`output`, ditempatkan di lokasi yang ditentukan oleh `--output-data-config` tag. Folder berisi file,`output.txt`, yang berisi sentimen yang berlaku untuk setiap file teks dan skor kepercayaan model yang telah dilatih sebelumnya untuk setiap prediksi. Output Json dicetak pada satu baris per file, tetapi diformat di sini untuk keterbacaan.  

```
aws comprehend start-sentiment-detection-job \
    --job-name example-sentiment-detection-job \
    --language-code en \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/MovieData" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role
```
Isi dari `SampleMovieReview1.txt`:  

```
"The film, AnyMovie2, is fairly predictable and just okay."
```
Isi dari `SampleMovieReview2.txt`:  

```
"AnyMovie2 is the essential sci-fi film that I grew up watching when I was a kid. I highly recommend this movie."
```
Isi dari `SampleMovieReview3.txt`:  

```
"Don't get fooled by the 'awards' for AnyMovie2. All parts of the film were poorly stolen from other modern directors."
```
Output:  

```
{
    "JobId": "0b5001e25f62ebb40631a9a1a7fde7b3",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:sentiment-detection-job/0b5001e25f62ebb40631a9a1a7fde7b3",
    "JobStatus": "SUBMITTED"
}
```
Isi `output.txt` dengan garis indentasi agar mudah dibaca:  

```
{
    "File": "SampleMovieReview1.txt",
        "Line": 0,
        "Sentiment": "MIXED",
        "SentimentScore": {
            "Mixed": 0.6591159105300903,
            "Negative": 0.26492202281951904,
            "Neutral": 0.035430654883384705,
            "Positive": 0.04053137078881264
            }
        }
    {
    "File": "SampleMovieReview2.txt",
        "Line": 0,
        "Sentiment": "POSITIVE",
        "SentimentScore": {
            "Mixed": 0.000008718466233403888,
            "Negative": 0.00006134175055194646,
            "Neutral": 0.0002941041602753103,
            "Positive": 0.9996358156204224
            }
        }
    {
    "File": "SampleMovieReview3.txt",
        "Line": 0,
        "Sentiment": "NEGATIVE",
        "SentimentScore": {
            "Mixed": 0.004146667663007975,
            "Negative": 0.9645107984542847,
            "Neutral": 0.016559595242142677,
            "Positive": 0.014782938174903393
        }
    }
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StartSentimentDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-sentiment-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `start-targeted-sentiment-detection-job`
<a name="comprehend_StartTargetedSentimentDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-targeted-sentiment-detection-job`.

**AWS CLI**  
**Untuk memulai pekerjaan analisis sentimen bertarget asinkron**  
`start-targeted-sentiment-detection-job`Contoh berikut memulai pekerjaan deteksi analisis sentimen bertarget asinkron untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Folder bucket S3 dalam contoh ini berisi`SampleMovieReview1.txt`,`SampleMovieReview2.txt`, dan`SampleMovieReview3.txt`. Ketika pekerjaan selesai, `output.tar.gz` ditempatkan di lokasi yang ditentukan oleh `--output-data-config` tag. `output.tar.gz`berisi file`SampleMovieReview1.txt.out`,`SampleMovieReview2.txt.out`, dan`SampleMovieReview3.txt.out`, yang masing-masing berisi semua entitas bernama dan sentimen terkait untuk satu file teks input.  

```
aws comprehend start-targeted-sentiment-detection-job \
    --job-name targeted_movie_review_analysis1 \
    --language-code en \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/MovieData" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role
```
Isi dari `SampleMovieReview1.txt`:  

```
"The film, AnyMovie, is fairly predictable and just okay."
```
Isi dari `SampleMovieReview2.txt`:  

```
"AnyMovie is the essential sci-fi film that I grew up watching when I was a kid. I highly recommend this movie."
```
Isi dari `SampleMovieReview3.txt`:  

```
"Don't get fooled by the 'awards' for AnyMovie. All parts of the film were poorly stolen from other modern directors."
```
Output:  

```
{
    "JobId": "0b5001e25f62ebb40631a9a1a7fde7b3",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:targeted-sentiment-detection-job/0b5001e25f62ebb40631a9a1a7fde7b3",
    "JobStatus": "SUBMITTED"
}
```
Isi `SampleMovieReview1.txt.out` dengan indentasi garis untuk keterbacaan:  

```
{
    "Entities": [
        {
        "DescriptiveMentionIndex": [
            0
        ],
        "Mentions": [
            {
            "BeginOffset": 4,
            "EndOffset": 8,
            "Score": 0.994972,
            "GroupScore": 1,
            "Text": "film",
            "Type": "MOVIE",
            "MentionSentiment": {
                "Sentiment": "NEUTRAL",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 1,
                "Positive": 0
                }
            }
            }
        ]
        },
        {
        "DescriptiveMentionIndex": [
            0
        ],
        "Mentions": [
            {
            "BeginOffset": 10,
            "EndOffset": 18,
            "Score": 0.631368,
            "GroupScore": 1,
            "Text": "AnyMovie",
            "Type": "ORGANIZATION",
            "MentionSentiment": {
                "Sentiment": "POSITIVE",
                "SentimentScore": {
                "Mixed": 0.001729,
                "Negative": 0.000001,
                "Neutral": 0.000318,
                "Positive": 0.997952
                }
            }
            }
        ]
        }
    ],
    "File": "SampleMovieReview1.txt",
    "Line": 0
}
```
Isi indentasi `SampleMovieReview2.txt.out` baris untuk keterbacaan:  

```
{
    "Entities": [
        {
        "DescriptiveMentionIndex": [
            0
        ],
        "Mentions": [
            {
            "BeginOffset": 0,
            "EndOffset": 8,
            "Score": 0.854024,
            "GroupScore": 1,
            "Text": "AnyMovie",
            "Type": "MOVIE",
            "MentionSentiment": {
                "Sentiment": "POSITIVE",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 0.000007,
                "Positive": 0.999993
                }
            }
            },
            {
            "BeginOffset": 104,
            "EndOffset": 109,
            "Score": 0.999129,
            "GroupScore": 0.502937,
            "Text": "movie",
            "Type": "MOVIE",
            "MentionSentiment": {
                "Sentiment": "POSITIVE",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 0,
                "Positive": 1
                }
            }
            },
            {
            "BeginOffset": 33,
            "EndOffset": 37,
            "Score": 0.999823,
            "GroupScore": 0.999252,
            "Text": "film",
            "Type": "MOVIE",
            "MentionSentiment": {
                "Sentiment": "POSITIVE",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 0.000001,
                "Positive": 0.999999
                }
            }
            }
        ]
        },
        {
        "DescriptiveMentionIndex": [
            0,
            1,
            2
        ],
        "Mentions": [
            {
            "BeginOffset": 43,
            "EndOffset": 44,
            "Score": 0.999997,
            "GroupScore": 1,
            "Text": "I",
            "Type": "PERSON",
            "MentionSentiment": {
                "Sentiment": "NEUTRAL",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 1,
                "Positive": 0
                }
            }
            },
            {
            "BeginOffset": 80,
            "EndOffset": 81,
            "Score": 0.999996,
            "GroupScore": 0.52523,
            "Text": "I",
            "Type": "PERSON",
            "MentionSentiment": {
                "Sentiment": "NEUTRAL",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 1,
                "Positive": 0
                }
            }
            },
            {
            "BeginOffset": 67,
            "EndOffset": 68,
            "Score": 0.999994,
            "GroupScore": 0.999499,
            "Text": "I",
            "Type": "PERSON",
            "MentionSentiment": {
                "Sentiment": "NEUTRAL",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 1,
                "Positive": 0
                }
            }
            }
        ]
        },
        {
        "DescriptiveMentionIndex": [
            0
        ],
        "Mentions": [
            {
            "BeginOffset": 75,
            "EndOffset": 78,
            "Score": 0.999978,
            "GroupScore": 1,
            "Text": "kid",
            "Type": "PERSON",
            "MentionSentiment": {
                "Sentiment": "NEUTRAL",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 1,
                "Positive": 0
                }
            }
            }
        ]
        }
    ],
    "File": "SampleMovieReview2.txt",
    "Line": 0
}
```
Isi `SampleMovieReview3.txt.out` dengan indentasi garis untuk keterbacaan:  

```
{
    "Entities": [
        {
        "DescriptiveMentionIndex": [
            1
        ],
        "Mentions": [
            {
            "BeginOffset": 64,
            "EndOffset": 68,
            "Score": 0.992953,
            "GroupScore": 0.999814,
            "Text": "film",
            "Type": "MOVIE",
            "MentionSentiment": {
                "Sentiment": "NEUTRAL",
                "SentimentScore": {
                "Mixed": 0.000004,
                "Negative": 0.010425,
                "Neutral": 0.989543,
                "Positive": 0.000027
                }
            }
            },
            {
            "BeginOffset": 37,
            "EndOffset": 45,
            "Score": 0.999782,
            "GroupScore": 1,
            "Text": "AnyMovie",
            "Type": "ORGANIZATION",
            "MentionSentiment": {
                "Sentiment": "POSITIVE",
                "SentimentScore": {
                "Mixed": 0.000095,
                "Negative": 0.039847,
                "Neutral": 0.000673,
                "Positive": 0.959384
                }
            }
            }
        ]
        },
        {
        "DescriptiveMentionIndex": [
            0
        ],
        "Mentions": [
            {
            "BeginOffset": 47,
            "EndOffset": 50,
            "Score": 0.999991,
            "GroupScore": 1,
            "Text": "All",
            "Type": "QUANTITY",
            "MentionSentiment": {
                "Sentiment": "NEUTRAL",
                "SentimentScore": {
                "Mixed": 0.000001,
                "Negative": 0.000001,
                "Neutral": 0.999998,
                "Positive": 0
                }
            }
            }
        ]
        },
        {
        "DescriptiveMentionIndex": [
            0
        ],
        "Mentions": [
            {
            "BeginOffset": 106,
            "EndOffset": 115,
            "Score": 0.542083,
            "GroupScore": 1,
            "Text": "directors",
            "Type": "PERSON",
            "MentionSentiment": {
                "Sentiment": "NEUTRAL",
                "SentimentScore": {
                "Mixed": 0,
                "Negative": 0,
                "Neutral": 1,
                "Positive": 0
                }
            }
            }
        ]
        }
    ],
    "File": "SampleMovieReview3.txt",
    "Line": 0
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StartTargetedSentimentDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-targeted-sentiment-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `start-topics-detection-job`
<a name="comprehend_StartTopicsDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-topics-detection-job`.

**AWS CLI**  
**Untuk memulai pekerjaan analisis deteksi topik**  
`start-topics-detection-job`Contoh berikut memulai pekerjaan deteksi topik asinkron untuk semua file yang terletak di alamat yang ditentukan oleh tag. `--input-data-config` Ketika pekerjaan selesai, folder,`output`, ditempatkan di lokasi yang ditentukan oleh `--ouput-data-config` tag. `output`berisi topic-terms.csv dan doc-topics.csv. File keluaran pertama, topic-terms.csv, adalah daftar topik dalam koleksi. Untuk setiap topik, daftar tersebut mencakup, secara default, istilah teratas berdasarkan topik sesuai dengan bobotnya. File kedua,`doc-topics.csv`, mencantumkan dokumen yang terkait dengan topik dan proporsi dokumen yang berkaitan dengan topik tersebut.  

```
aws comprehend start-topics-detection-job \
    --job-name example_topics_detection_job \
    --language-code en \
    --input-data-config "S3Uri=s3://amzn-s3-demo-bucket/" \
    --output-data-config "S3Uri=s3://amzn-s3-demo-destination-bucket/testfolder/" \
    --data-access-role-arn arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role \
    --language-code en
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE",
    "JobArn": "arn:aws:comprehend:us-west-2:111122223333:key-phrases-detection-job/123456abcdeb0e11022f22a11EXAMPLE",
    "JobStatus": "SUBMITTED"
}
```
Untuk informasi selengkapnya, lihat [Pemodelan Topik](https://docs.aws.amazon.com/comprehend/latest/dg/topic-modeling.html) di Panduan *Pengembang Amazon Comprehend*.  
+  Untuk detail API, lihat [StartTopicsDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/start-topics-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-dominant-language-detection-job`
<a name="comprehend_StopDominantLanguageDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-dominant-language-detection-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi bahasa dominan asinkron**  
`stop-dominant-language-detection-job`Contoh berikut menghentikan pekerjaan deteksi bahasa dominan asinkron yang sedang berlangsung. Jika status pekerjaan saat ini adalah `IN_PROGRESS` pekerjaan ditandai untuk pemutusan hubungan kerja dan dimasukkan ke dalam `STOP_REQUESTED` negara bagian. Jika pekerjaan selesai sebelum dapat dihentikan, itu dimasukkan ke dalam `COMPLETED` negara.  

```
aws comprehend stop-dominant-language-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE,
    "JobStatus": "STOP_REQUESTED"
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StopDominantLanguageDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-dominant-language-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-entities-detection-job`
<a name="comprehend_StopEntitiesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-entities-detection-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi entitas asinkron**  
`stop-entities-detection-job`Contoh berikut menghentikan pekerjaan deteksi entitas asinkron yang sedang berlangsung. Jika status pekerjaan saat ini adalah `IN_PROGRESS` pekerjaan ditandai untuk pemutusan hubungan kerja dan dimasukkan ke dalam `STOP_REQUESTED` negara bagian. Jika pekerjaan selesai sebelum dapat dihentikan, itu dimasukkan ke dalam `COMPLETED` negara.  

```
aws comprehend stop-entities-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE,
    "JobStatus": "STOP_REQUESTED"
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StopEntitiesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-entities-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-events-detection-job`
<a name="comprehend_StopEventsDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-events-detection-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi peristiwa asinkron**  
`stop-events-detection-job`Contoh berikut menghentikan pekerjaan deteksi peristiwa asinkron yang sedang berlangsung. Jika status pekerjaan saat ini adalah `IN_PROGRESS` pekerjaan ditandai untuk pemutusan hubungan kerja dan dimasukkan ke dalam `STOP_REQUESTED` negara bagian. Jika pekerjaan selesai sebelum dapat dihentikan, itu dimasukkan ke dalam `COMPLETED` negara.  

```
aws comprehend stop-events-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE,
    "JobStatus": "STOP_REQUESTED"
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StopEventsDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-events-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-key-phrases-detection-job`
<a name="comprehend_StopKeyPhrasesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-key-phrases-detection-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi frase kunci asinkron**  
`stop-key-phrases-detection-job`Contoh berikut menghentikan pekerjaan deteksi frase kunci asinkron yang sedang berlangsung. Jika status pekerjaan saat ini adalah `IN_PROGRESS` pekerjaan ditandai untuk pemutusan hubungan kerja dan dimasukkan ke dalam `STOP_REQUESTED` negara bagian. Jika pekerjaan selesai sebelum dapat dihentikan, itu dimasukkan ke dalam `COMPLETED` negara.  

```
aws comprehend stop-key-phrases-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE,
    "JobStatus": "STOP_REQUESTED"
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StopKeyPhrasesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-key-phrases-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-pii-entities-detection-job`
<a name="comprehend_StopPiiEntitiesDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-pii-entities-detection-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi entitas pii asinkron**  
`stop-pii-entities-detection-job`Contoh berikut menghentikan pekerjaan deteksi entitas pii asinkron yang sedang berlangsung. Jika status pekerjaan saat ini adalah `IN_PROGRESS` pekerjaan ditandai untuk pemutusan hubungan kerja dan dimasukkan ke dalam `STOP_REQUESTED` negara bagian. Jika pekerjaan selesai sebelum dapat dihentikan, itu dimasukkan ke dalam `COMPLETED` negara.  

```
aws comprehend stop-pii-entities-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE,
    "JobStatus": "STOP_REQUESTED"
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StopPiiEntitiesDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-pii-entities-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-sentiment-detection-job`
<a name="comprehend_StopSentimentDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-sentiment-detection-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi sentimen asinkron**  
`stop-sentiment-detection-job`Contoh berikut menghentikan pekerjaan deteksi sentimen asinkron yang sedang berlangsung. Jika status pekerjaan saat ini adalah `IN_PROGRESS` pekerjaan ditandai untuk pemutusan hubungan kerja dan dimasukkan ke dalam `STOP_REQUESTED` negara bagian. Jika pekerjaan selesai sebelum dapat dihentikan, itu dimasukkan ke dalam `COMPLETED` negara.  

```
aws comprehend stop-sentiment-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE,
    "JobStatus": "STOP_REQUESTED"
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StopSentimentDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-sentiment-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-targeted-sentiment-detection-job`
<a name="comprehend_StopTargetedSentimentDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-targeted-sentiment-detection-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi sentimen bertarget asinkron**  
`stop-targeted-sentiment-detection-job`Contoh berikut menghentikan pekerjaan deteksi sentimen bertarget asinkron yang sedang berlangsung. Jika status pekerjaan saat ini adalah `IN_PROGRESS` pekerjaan ditandai untuk pemutusan hubungan kerja dan dimasukkan ke dalam `STOP_REQUESTED` negara bagian. Jika pekerjaan selesai sebelum dapat dihentikan, itu dimasukkan ke dalam `COMPLETED` negara.  

```
aws comprehend stop-targeted-sentiment-detection-job \
    --job-id 123456abcdeb0e11022f22a11EXAMPLE
```
Output:  

```
{
    "JobId": "123456abcdeb0e11022f22a11EXAMPLE,
    "JobStatus": "STOP_REQUESTED"
}
```
*Untuk informasi selengkapnya, lihat [Analisis asinkron untuk Amazon Comprehend insight di Panduan Pengembang Amazon Comprehend](https://docs.aws.amazon.com/comprehend/latest/dg/api-async-insights.html).*  
+  Untuk detail API, lihat [StopTargetedSentimentDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-targeted-sentiment-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-training-document-classifier`
<a name="comprehend_StopTrainingDocumentClassifier_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-training-document-classifier`.

**AWS CLI**  
**Untuk menghentikan pelatihan model pengklasifikasi dokumen**  
`stop-training-document-classifier`Contoh berikut menghentikan pelatihan model pengklasifikasi dokumen saat sedang berlangsung.  

```
aws comprehend stop-training-document-classifier
    --document-classifier-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat dan mengelola model kustom](https://docs.aws.amazon.com/comprehend/latest/dg/manage-models.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [StopTrainingDocumentClassifier](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-training-document-classifier.html)di *Referensi AWS CLI Perintah*. 

### `stop-training-entity-recognizer`
<a name="comprehend_StopTrainingEntityRecognizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-training-entity-recognizer`.

**AWS CLI**  
**Untuk menghentikan pelatihan model pengenal entitas**  
`stop-training-entity-recognizer`Contoh berikut menghentikan pelatihan model pengenal entitas saat dalam proses.  

```
aws comprehend stop-training-entity-recognizer
    --entity-recognizer-arn "arn:aws:comprehend:us-west-2:111122223333:entity-recognizer/examplerecognizer1"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat dan mengelola model kustom](https://docs.aws.amazon.com/comprehend/latest/dg/manage-models.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [StopTrainingEntityRecognizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/stop-training-entity-recognizer.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="comprehend_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menandai sumber daya**  
`tag-resource`Contoh berikut menambahkan satu tag ke sumber daya Amazon Comprehend.  

```
aws comprehend tag-resource \
    --resource-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1 \
    --tags Key=Location,Value=Seattle
```
Perintah ini tidak memiliki output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/comprehend/latest/dg/tagging.html) di Panduan Pengembang *Amazon Comprehend*.  
**Contoh 2: Untuk menambahkan beberapa tag ke sumber daya**  
`tag-resource`Contoh berikut menambahkan beberapa tag ke sumber daya Amazon Comprehend.  

```
aws comprehend tag-resource \
    --resource-arn "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1" \
    --tags Key=location,Value=Seattle Key=Department,Value=Finance
```
Perintah ini tidak memiliki output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/comprehend/latest/dg/tagging.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="comprehend_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menghapus satu tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus satu tag dari sumber daya Amazon Comprehend.  

```
aws comprehend untag-resource \
    --resource-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1
    --tag-keys Location
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/comprehend/latest/dg/tagging.html) di Panduan Pengembang *Amazon Comprehend*.  
**Contoh 2: Untuk menghapus beberapa tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus beberapa tag dari sumber daya Amazon Comprehend.  

```
aws comprehend untag-resource \
    --resource-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/1
    --tag-keys Location Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/comprehend/latest/dg/tagging.html) di Panduan Pengembang *Amazon Comprehend*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-endpoint`
<a name="comprehend_UpdateEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-endpoint`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui unit inferensi titik akhir**  
`update-endpoint`Contoh berikut memperbarui informasi tentang titik akhir. Dalam contoh ini, jumlah unit inferensi meningkat.  

```
aws comprehend update-endpoint \
    --endpoint-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/example-classifier-endpoint
    --desired-inference-units 2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola titik akhir Amazon Comprehend di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/comprehend/latest/dg/manage-endpoints.html) Comprehend.  
**Contoh 2: Untuk memperbarui model aksi titik akhir**  
`update-endpoint`Contoh berikut memperbarui informasi tentang titik akhir. Dalam contoh ini, model aktif diubah.  

```
aws comprehend update-endpoint \
    --endpoint-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier-endpoint/example-classifier-endpoint
    --active-model-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier-new
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola titik akhir Amazon Comprehend di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/comprehend/latest/dg/manage-endpoints.html) Comprehend.  
+  Untuk detail API, lihat [UpdateEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/update-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `update-flywheel`
<a name="comprehend_UpdateFlywheel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-flywheel`.

**AWS CLI**  
**Untuk memperbarui konfigurasi flywheel**  
`update-flywheel`Contoh berikut memperbarui konfigurasi flywheel. Dalam contoh ini, model aktif untuk flywheel diperbarui.  

```
aws comprehend update-flywheel \
    --flywheel-arn arn:aws:comprehend:us-west-2:111122223333:flywheel/example-flywheel-1 \
    --active-model-arn arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/new-example-classifier-model
```
Output:  

```
{
    "FlywheelProperties": {
        "FlywheelArn": "arn:aws:comprehend:us-west-2:111122223333:flywheel/flywheel-entity",
        "ActiveModelArn": "arn:aws:comprehend:us-west-2:111122223333:document-classifier/example-classifier/version/new-example-classifier-model",
        "DataAccessRoleArn": "arn:aws:iam::111122223333:role/service-role/AmazonComprehendServiceRole-example-role",
        "TaskConfig": {
            "LanguageCode": "en",
            "DocumentClassificationConfig": {
                "Mode": "MULTI_CLASS"
            }
        },
        "DataLakeS3Uri": "s3://amzn-s3-demo-bucket/flywheel-entity/schemaVersion=1/20230616T200543Z/",
        "DataSecurityConfig": {},
        "Status": "ACTIVE",
        "ModelType": "DOCUMENT_CLASSIFIER",
        "CreationTime": "2023-06-16T20:05:43.242000+00:00",
        "LastModifiedTime": "2023-06-19T04:00:43.027000+00:00",
        "LatestFlywheelIteration": "20230619T040032Z"
    }
}
```
Untuk informasi selengkapnya, lihat [ikhtisar Flywheel di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/flywheels-about.html) Pengembang Amazon *Comprehend*.  
+  Untuk detail API, lihat [UpdateFlywheel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehend/update-flywheel.html)di *Referensi AWS CLI Perintah*. 

# Amazon Comprehend Medical contoh menggunakan AWS CLI
<a name="cli_2_comprehendmedical_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum AWS Command Line Interface dengan menggunakan Amazon Comprehend Medical.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-entities-detection-v2-job`
<a name="comprehendmedical_DescribeEntitiesDetectionV2Job_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-entities-detection-v2-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi entitas**  
`describe-entities-detection-v2-job`Contoh berikut menampilkan properti yang terkait dengan pekerjaan deteksi entitas asinkron.  

```
aws comprehendmedical describe-entities-detection-v2-job \
    --job-id "ab9887877365fe70299089371c043b96"
```
Output:  

```
{
    "ComprehendMedicalAsyncJobProperties": {
        "JobId": "ab9887877365fe70299089371c043b96",
        "JobStatus": "COMPLETED",
        "SubmitTime": "2020-03-18T21:20:15.614000+00:00",
        "EndTime": "2020-03-18T21:27:07.350000+00:00",
        "ExpirationTime": "2020-07-16T21:20:15+00:00",
        "InputDataConfig": {
            "S3Bucket": "comp-med-input",
            "S3Key": ""
        },
        "OutputDataConfig": {
            "S3Bucket": "comp-med-output",
            "S3Key": "867139942017-EntitiesDetection-ab9887877365fe70299089371c043b96/"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
        "ModelVersion": "DetectEntitiesModelV20190930"
    }
}
```
Untuk informasi selengkapnya, lihat [Batch APIs](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-batchapi.html) in the *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [DescribeEntitiesDetectionV2Job](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/describe-entities-detection-v2-job.html) di Referensi *AWS CLI Perintah*. 

### `describe-icd10-cm-inference-job`
<a name="comprehendmedical_DescribeIcd10CmInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-icd10-cm-inference-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan inferensi ICD-10-CM**  
`describe-icd10-cm-inference-job`Contoh berikut menjelaskan properti pekerjaan inferensi yang diminta dengan job-id yang ditentukan.  

```
aws comprehendmedical describe-icd10-cm-inference-job \
    --job-id "5780034166536cdb52ffa3295a1b00a7"
```
Output:  

```
{
    "ComprehendMedicalAsyncJobProperties": {
        "JobId": "5780034166536cdb52ffa3295a1b00a7",
        "JobStatus": "COMPLETED",
        "SubmitTime": "2020-05-18T21:20:15.614000+00:00",
        "EndTime": "2020-05-18T21:27:07.350000+00:00",
        "ExpirationTime": "2020-09-16T21:20:15+00:00",
        "InputDataConfig": {
            "S3Bucket": "comp-med-input",
            "S3Key": "AKIAIOSFODNN7EXAMPLE"
        },
        "OutputDataConfig": {
            "S3Bucket": "comp-med-output",
            "S3Key": "AKIAIOSFODNN7EXAMPLE"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
        "ModelVersion":  "0.1.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [DescribeIcd10 CmInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/describe-icd10-cm-inference-job.html) di *Referensi AWS CLI Perintah*. 

### `describe-phi-detection-job`
<a name="comprehendmedical_DescribePhiDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-phi-detection-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan deteksi PHI**  
`describe-phi-detection-job`Contoh berikut menampilkan properti yang terkait dengan pekerjaan deteksi informasi kesehatan yang dilindungi asinkron (PHI).  

```
aws comprehendmedical describe-phi-detection-job \
    --job-id "4750034166536cdb52ffa3295a1b00a3"
```
Output:  

```
{
    "ComprehendMedicalAsyncJobProperties": {
        "JobId": "4750034166536cdb52ffa3295a1b00a3",
        "JobStatus": "COMPLETED",
        "SubmitTime": "2020-03-19T20:38:37.594000+00:00",
        "EndTime": "2020-03-19T20:45:07.894000+00:00",
        "ExpirationTime": "2020-07-17T20:38:37+00:00",
        "InputDataConfig": {
            "S3Bucket": "comp-med-input",
            "S3Key": ""
        },
        "OutputDataConfig": {
            "S3Bucket": "comp-med-output",
            "S3Key": "867139942017-PHIDetection-4750034166536cdb52ffa3295a1b00a3/"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
        "ModelVersion": "PHIModelV20190903"
    }
}
```
Untuk informasi selengkapnya, lihat [Batch APIs](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-batchapi.html) in the *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [DescribePhiDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/describe-phi-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-rx-norm-inference-job`
<a name="comprehendmedical_DescribeRxNormInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-rx-norm-inference-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan RxNorm inferensi**  
`describe-rx-norm-inference-job`Contoh berikut menjelaskan properti pekerjaan inferensi yang diminta dengan job-id yang ditentukan.  

```
aws comprehendmedical describe-rx-norm-inference-job \
    --job-id "eg8199877365fc70299089371c043b96"
```
Output:  

```
{
    "ComprehendMedicalAsyncJobProperties": {
        "JobId": "g8199877365fc70299089371c043b96",
        "JobStatus": "COMPLETED",
        "SubmitTime": "2020-05-18T21:20:15.614000+00:00",
        "EndTime": "2020-05-18T21:27:07.350000+00:00",
        "ExpirationTime": "2020-09-16T21:20:15+00:00",
        "InputDataConfig": {
            "S3Bucket": "comp-med-input",
            "S3Key": "AKIAIOSFODNN7EXAMPLE"
        },
        "OutputDataConfig": {
            "S3Bucket": "comp-med-output",
            "S3Key": "AKIAIOSFODNN7EXAMPLE"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
        "ModelVersion": "0.0.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [DescribeRxNormInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/describe-rx-norm-inference-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-snomedct-inference-job`
<a name="comprehendmedical_DescribeSnomedctInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-snomedct-inference-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan inferensi CT SNOMED**  
`describe-snomedct-inference-job`Contoh berikut menjelaskan properti pekerjaan inferensi yang diminta dengan job-id yang ditentukan.  

```
aws comprehendmedical describe-snomedct-inference-job \
    --job-id "2630034166536cdb52ffa3295a1b00a7"
```
Output:  

```
{
    "ComprehendMedicalAsyncJobProperties": {
        "JobId": "2630034166536cdb52ffa3295a1b00a7",
        "JobStatus": "COMPLETED",
        "SubmitTime": "2021-12-18T21:20:15.614000+00:00",
        "EndTime": "2021-12-18T21:27:07.350000+00:00",
        "ExpirationTime": "2022-05-16T21:20:15+00:00",
        "InputDataConfig": {
            "S3Bucket": "comp-med-input",
            "S3Key": "AKIAIOSFODNN7EXAMPLE"
        },
        "OutputDataConfig": {
            "S3Bucket": "comp-med-output",
            "S3Key": "AKIAIOSFODNN7EXAMPLE"
        },
        "LanguageCode": "en",
        "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
        "ModelVersion":  "0.1.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [DescribeSnomedctInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/describe-snomedct-inference-job.html)di *Referensi AWS CLI Perintah*. 

### `detect-entities-v2`
<a name="comprehendmedical_DetectEntitiesV2_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-entities-v2`.

**AWS CLI**  
**Contoh 1: Untuk mendeteksi entitas langsung dari teks**  
`detect-entities-v2`Contoh berikut menunjukkan entitas yang terdeteksi dan memberi label sesuai dengan jenis, langsung dari teks masukan.  

```
aws comprehendmedical detect-entities-v2 \
    --text "Sleeping trouble on present dosage of Clonidine. Severe rash on face and leg, slightly itchy."
```
Output:  

```
{
    "Id": 0,
    "BeginOffset": 38,
    "EndOffset": 47,
    "Score": 0.9942955374717712,
    "Text": "Clonidine",
    "Category": "MEDICATION",
    "Type": "GENERIC_NAME",
    "Traits": []
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Entitas Versi 2](https://docs.aws.amazon.com/comprehend/latest/dg/extracted-med-info-V2.html) di Panduan Pengembang *Medis Amazon Comprehend*.  
**Contoh 2: Untuk mendeteksi entitas dari jalur file**  
`detect-entities-v2`Contoh berikut menunjukkan entitas yang terdeteksi dan memberi label sesuai dengan jenis dari jalur file.  

```
aws comprehendmedical detect-entities-v2 \
    --text file://medical_entities.txt
```
Isi dari `medical_entities.txt`:  

```
{
    "Sleeping trouble on present dosage of Clonidine. Severe rash on face and leg, slightly itchy."
}
```
Output:  

```
{
    "Id": 0,
    "BeginOffset": 38,
    "EndOffset": 47,
    "Score": 0.9942955374717712,
    "Text": "Clonidine",
    "Category": "MEDICATION",
    "Type": "GENERIC_NAME",
    "Traits": []
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Entitas Versi 2](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-entitiesv2.html) di Panduan Pengembang *Medis Amazon Comprehend*.  
+  Untuk detail API, lihat [DetectEntitiesV2](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/detect-entities-v2.html) di *Referensi AWS CLI Perintah*. 

### `detect-phi`
<a name="comprehendmedical_DetectPhi_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-phi`.

**AWS CLI**  
**Contoh 1: Untuk mendeteksi informasi kesehatan yang dilindungi (PHI) langsung dari teks**  
`detect-phi`Contoh berikut menampilkan entitas informasi kesehatan terlindungi (PHI) yang terdeteksi langsung dari teks masukan.  

```
aws comprehendmedical detect-phi \
    --text "Patient Carlos Salazar presented with rash on his upper extremities and dry cough. He lives at 100 Main Street, Anytown, USA where he works from his home as a carpenter."
```
Output:  

```
{
    "Entities": [
        {
            "Id": 0,
            "BeginOffset": 8,
            "EndOffset": 21,
            "Score": 0.9914507269859314,
            "Text": "Carlos Salazar",
            "Category": "PROTECTED_HEALTH_INFORMATION",
            "Type": "NAME",
            "Traits": []
        },
        {
            "Id": 1,
            "BeginOffset": 94,
            "EndOffset": 109,
            "Score": 0.871849775314331,
            "Text": "100 Main Street, Anytown, USA",
            "Category": "PROTECTED_HEALTH_INFORMATION",
            "Type": "ADDRESS",
            "Traits": []
        },
        {
            "Id": 2,
            "BeginOffset": 145,
            "EndOffset": 154,
            "Score": 0.8302185535430908,
            "Text": "carpenter",
            "Category": "PROTECTED_HEALTH_INFORMATION",
            "Type": "PROFESSION",
            "Traits": []
        }
    ],
    "ModelVersion": "0.0.0"
}
```
Untuk informasi selengkapnya, lihat [Deteksi PHI](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-phi.html) di *Amazon Comprehend Medical Developer Guide*.  
**Contoh 2: Untuk mendeteksi melindungi informasi kesehatan (PHI) langsung dari jalur file**  
`detect-phi`Contoh berikut menunjukkan entitas informasi kesehatan terlindungi (PHI) yang terdeteksi dari jalur file.  

```
aws comprehendmedical detect-phi \
    --text file://phi.txt
```
Isi dari `phi.txt`:  

```
"Patient Carlos Salazar presented with a rash on his upper extremities and a dry cough. He lives at 100 Main Street, Anytown, USA, where he works from his home as a carpenter."
```
Output:  

```
{
    "Entities": [
        {
            "Id": 0,
            "BeginOffset": 8,
            "EndOffset": 21,
            "Score": 0.9914507269859314,
            "Text": "Carlos Salazar",
            "Category": "PROTECTED_HEALTH_INFORMATION",
            "Type": "NAME",
            "Traits": []
        },
        {
            "Id": 1,
            "BeginOffset": 94,
            "EndOffset": 109,
            "Score": 0.871849775314331,
            "Text": "100 Main Street, Anytown, USA",
            "Category": "PROTECTED_HEALTH_INFORMATION",
            "Type": "ADDRESS",
            "Traits": []
        },
        {
            "Id": 2,
            "BeginOffset": 145,
            "EndOffset": 154,
            "Score": 0.8302185535430908,
            "Text": "carpenter",
            "Category": "PROTECTED_HEALTH_INFORMATION",
            "Type": "PROFESSION",
            "Traits": []
        }
    ],
    "ModelVersion": "0.0.0"
}
```
Untuk informasi selengkapnya, lihat [Deteksi PHI](https://docs.aws.amazon.com/comprehend/latest/dg/how-medical-phi.html) di *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [DetectPhi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/detect-phi.html)di *Referensi AWS CLI Perintah*. 

### `infer-icd10-cm`
<a name="comprehendmedical_InferIcd10Cm_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`infer-icd10-cm`.

**AWS CLI**  
**Contoh 1: Untuk mendeteksi entitas kondisi medis dan menautkan ke Ontologi ICD-10-CM langsung dari teks**  
`infer-icd10-cm`Contoh berikut memberi label pada entitas kondisi medis yang terdeteksi dan menghubungkan entitas tersebut dengan kode dalam edisi 2019 dari International Classification of Diseases Clinical Modification (ICD-10-CM).  

```
aws comprehendmedical infer-icd10-cm \
    --text "The patient complains of abdominal pain, has a long-standing history of diabetes treated with Micronase daily."
```
Output:  

```
{
    "Entities": [
        {
            "Id": 0,
            "Text": "abdominal pain",
            "Category": "MEDICAL_CONDITION",
            "Type": "DX_NAME",
            "Score": 0.9475538730621338,
            "BeginOffset": 28,
            "EndOffset": 42,
            "Attributes": [],
            "Traits": [
                {
                    "Name": "SYMPTOM",
                    "Score": 0.6724207401275635
                }
            ],
            "ICD10CMConcepts": [
                {
                    "Description": "Unspecified abdominal pain",
                    "Code": "R10.9",
                    "Score": 0.6904221177101135
                },
                {
                    "Description": "Epigastric pain",
                    "Code": "R10.13",
                    "Score": 0.1364113688468933
                },
                {
                    "Description": "Generalized abdominal pain",
                    "Code": "R10.84",
                    "Score": 0.12508003413677216
                },
                {
                    "Description": "Left lower quadrant pain",
                    "Code": "R10.32",
                    "Score": 0.10063883662223816
                },
                {
                    "Description": "Lower abdominal pain, unspecified",
                    "Code": "R10.30",
                    "Score": 0.09933677315711975
                }
            ]
        },
        {
            "Id": 1,
            "Text": "diabetes",
            "Category": "MEDICAL_CONDITION",
            "Type": "DX_NAME",
            "Score": 0.9899052977561951,
            "BeginOffset": 75,
            "EndOffset": 83,
            "Attributes": [],
            "Traits": [
                {
                    "Name": "DIAGNOSIS",
                    "Score": 0.9258432388305664
                }
            ],
            "ICD10CMConcepts": [
                {
                    "Description": "Type 2 diabetes mellitus without complications",
                    "Code": "E11.9",
                    "Score": 0.7158446311950684
                },
                {
                    "Description": "Family history of diabetes mellitus",
                    "Code": "Z83.3",
                    "Score": 0.5704703330993652
                },
                {
                    "Description": "Family history of other endocrine, nutritional and metabolic diseases",
                    "Code": "Z83.49",
                    "Score": 0.19856023788452148
                },
                {
                    "Description": "Type 1 diabetes mellitus with ketoacidosis without coma",
                    "Code": "E10.10",
                    "Score": 0.13285516202449799
                },
                {
                    "Description": "Type 2 diabetes mellitus with hyperglycemia",
                    "Code": "E11.65",
                    "Score": 0.0993388369679451
                }
            ]
        }
    ],
    "ModelVersion": "0.1.0"
}
```
Untuk informasi lebih lanjut, lihat [Infer ICD10 -CM di Panduan](https://docs.aws.amazon.com/comprehend/latest/dg/ontology-linking-icd10.html) Pengembang Medis *Amazon Comprehend Medical*.  
**Contoh 2: Untuk mendeteksi entitas kondisi medis dan menautkan ke Ontologi ICD-10-CM dari jalur file**  
`infer-icd-10-cm`Contoh berikut memberi label pada entitas kondisi medis yang terdeteksi dan menghubungkan entitas tersebut dengan kode dalam edisi 2019 dari International Classification of Diseases Clinical Modification (ICD-10-CM).  

```
aws comprehendmedical infer-icd10-cm \
    --text file://icd10cm.txt
```
Isi dari `icd10cm.txt`:  

```
{
    "The patient complains of abdominal pain, has a long-standing history of diabetes treated with Micronase daily."
}
```
Output:  

```
{
    "Entities": [
        {
            "Id": 0,
            "Text": "abdominal pain",
            "Category": "MEDICAL_CONDITION",
            "Type": "DX_NAME",
            "Score": 0.9475538730621338,
            "BeginOffset": 28,
            "EndOffset": 42,
            "Attributes": [],
            "Traits": [
                {
                    "Name": "SYMPTOM",
                    "Score": 0.6724207401275635
                }
            ],
            "ICD10CMConcepts": [
                {
                    "Description": "Unspecified abdominal pain",
                    "Code": "R10.9",
                    "Score": 0.6904221177101135
                },
                {
                    "Description": "Epigastric pain",
                    "Code": "R10.13",
                    "Score": 0.1364113688468933
                },
                {
                    "Description": "Generalized abdominal pain",
                    "Code": "R10.84",
                    "Score": 0.12508003413677216
                },
                {
                    "Description": "Left lower quadrant pain",
                    "Code": "R10.32",
                    "Score": 0.10063883662223816
                },
                {
                    "Description": "Lower abdominal pain, unspecified",
                    "Code": "R10.30",
                    "Score": 0.09933677315711975
                }
            ]
        },
        {
            "Id": 1,
            "Text": "diabetes",
            "Category": "MEDICAL_CONDITION",
            "Type": "DX_NAME",
            "Score": 0.9899052977561951,
            "BeginOffset": 75,
            "EndOffset": 83,
            "Attributes": [],
            "Traits": [
                {
                    "Name": "DIAGNOSIS",
                    "Score": 0.9258432388305664
                }
            ],
            "ICD10CMConcepts": [
                {
                    "Description": "Type 2 diabetes mellitus without complications",
                    "Code": "E11.9",
                    "Score": 0.7158446311950684
                },
                {
                    "Description": "Family history of diabetes mellitus",
                    "Code": "Z83.3",
                    "Score": 0.5704703330993652
                },
                {
                    "Description": "Family history of other endocrine, nutritional and metabolic diseases",
                    "Code": "Z83.49",
                    "Score": 0.19856023788452148
                },
                {
                    "Description": "Type 1 diabetes mellitus with ketoacidosis without coma",
                    "Code": "E10.10",
                    "Score": 0.13285516202449799
                },
                {
                    "Description": "Type 2 diabetes mellitus with hyperglycemia",
                    "Code": "E11.65",
                    "Score": 0.0993388369679451
                }
            ]
        }
    ],
    "ModelVersion": "0.1.0"
}
```
Untuk informasi lebih lanjut, lihat [Menyimpulkan- ICD10 -CM di Panduan Pengembang](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontology-icd10.html) Medis *Amazon Comprehend Medical*.  
+  Untuk detail API, lihat [InferIcd10Cm](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/infer-icd10-cm.html) di *Referensi AWS CLI Perintah*. 

### `infer-rx-norm`
<a name="comprehendmedical_InferRxNorm_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`infer-rx-norm`.

**AWS CLI**  
**Contoh 1: Untuk mendeteksi entitas obat dan menautkan RxNorm langsung dari teks**  
`infer-rx-norm`Contoh berikut menunjukkan dan memberi label entitas obat yang terdeteksi dan menghubungkan entitas tersebut ke pengidentifikasi konsep (RxCui) dari database Perpustakaan Kedokteran Nasional. RxNorm   

```
aws comprehendmedical infer-rx-norm \
    --text "Patient reports taking Levothyroxine 125 micrograms p.o. once daily, but denies taking Synthroid."
```
Output:  

```
{
    "Entities": [
        {
            "Id": 0,
            "Text": "Levothyroxine",
            "Category": "MEDICATION",
            "Type": "GENERIC_NAME",
            "Score": 0.9996285438537598,
            "BeginOffset": 23,
            "EndOffset": 36,
            "Attributes": [
                {
                    "Type": "DOSAGE",
                    "Score": 0.9892290830612183,
                    "RelationshipScore": 0.9997978806495667,
                    "Id": 1,
                    "BeginOffset": 37,
                    "EndOffset": 51,
                    "Text": "125 micrograms",
                    "Traits": []
                },
                {
                    "Type": "ROUTE_OR_MODE",
                    "Score": 0.9988924860954285,
                    "RelationshipScore": 0.998291552066803,
                    "Id": 2,
                    "BeginOffset": 52,
                    "EndOffset": 56,
                    "Text": "p.o.",
                    "Traits": []
                },
                {
                    "Type": "FREQUENCY",
                    "Score": 0.9953463673591614,
                    "RelationshipScore": 0.9999889135360718,
                    "Id": 3,
                    "BeginOffset": 57,
                    "EndOffset": 67,
                    "Text": "once daily",
                    "Traits": []
                }
            ],
            "Traits": [],
            "RxNormConcepts": [
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Tablet",
                    "Code": "966224",
                    "Score": 0.9912070631980896
                },
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Capsule",
                    "Code": "966405",
                    "Score": 0.8698278665542603
                },
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Tablet [Synthroid]",
                    "Code": "966191",
                    "Score": 0.7448257803916931
                },
                {
                    "Description": "levothyroxine",
                    "Code": "10582",
                    "Score": 0.7050482630729675
                },
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Tablet [Levoxyl]",
                    "Code": "966190",
                    "Score": 0.6921631693840027
                }
            ]
        },
        {
            "Id": 4,
            "Text": "Synthroid",
            "Category": "MEDICATION",
            "Type": "BRAND_NAME",
            "Score": 0.9946461319923401,
            "BeginOffset": 86,
            "EndOffset": 95,
            "Attributes": [],
            "Traits": [
                {
                    "Name": "NEGATION",
                    "Score": 0.5167351961135864
                }
            ],
            "RxNormConcepts": [
                {
                    "Description": "Synthroid",
                    "Code": "224920",
                    "Score": 0.9462039470672607
                },
                {
                    "Description": "Levothyroxine Sodium 0.088 MG Oral Tablet [Synthroid]",
                    "Code": "966282",
                    "Score": 0.8309829235076904
                },
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Tablet [Synthroid]",
                    "Code": "966191",
                    "Score": 0.4945160448551178
                },
                {
                    "Description": "Levothyroxine Sodium 0.05 MG Oral Tablet [Synthroid]",
                    "Code": "966247",
                    "Score": 0.3674522042274475
                },
                {
                    "Description": "Levothyroxine Sodium 0.025 MG Oral Tablet [Synthroid]",
                    "Code": "966158",
                    "Score": 0.2588822841644287
                }
            ]
        }
    ],
    "ModelVersion": "0.0.0"
}
```
Untuk informasi lebih lanjut, lihat [Menyimpulkan RxNorm](https://docs.aws.amazon.com/comprehend/latest/dg/ontology-linking-rxnorm.html) di *Amazon Comprehend Medical Developer Guide*.  
**Contoh 2: Untuk mendeteksi entitas obat dan menautkan ke RxNorm dari jalur file.**  
`infer-rx-norm`Contoh berikut menunjukkan dan memberi label entitas obat yang terdeteksi dan menghubungkan entitas tersebut ke pengidentifikasi konsep (RxCui) dari database Perpustakaan Kedokteran Nasional. RxNorm   

```
aws comprehendmedical infer-rx-norm \
    --text file://rxnorm.txt
```
Isi dari `rxnorm.txt`:  

```
{
    "Patient reports taking Levothyroxine 125 micrograms p.o. once daily, but denies taking Synthroid."
}
```
Output:  

```
{
    "Entities": [
        {
            "Id": 0,
            "Text": "Levothyroxine",
            "Category": "MEDICATION",
            "Type": "GENERIC_NAME",
            "Score": 0.9996285438537598,
            "BeginOffset": 23,
            "EndOffset": 36,
            "Attributes": [
                {
                    "Type": "DOSAGE",
                    "Score": 0.9892290830612183,
                    "RelationshipScore": 0.9997978806495667,
                    "Id": 1,
                    "BeginOffset": 37,
                    "EndOffset": 51,
                    "Text": "125 micrograms",
                    "Traits": []
                },
                {
                    "Type": "ROUTE_OR_MODE",
                    "Score": 0.9988924860954285,
                    "RelationshipScore": 0.998291552066803,
                    "Id": 2,
                    "BeginOffset": 52,
                    "EndOffset": 56,
                    "Text": "p.o.",
                    "Traits": []
                },
                {
                    "Type": "FREQUENCY",
                    "Score": 0.9953463673591614,
                    "RelationshipScore": 0.9999889135360718,
                    "Id": 3,
                    "BeginOffset": 57,
                    "EndOffset": 67,
                    "Text": "once daily",
                    "Traits": []
                }
            ],
            "Traits": [],
            "RxNormConcepts": [
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Tablet",
                    "Code": "966224",
                    "Score": 0.9912070631980896
                },
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Capsule",
                    "Code": "966405",
                    "Score": 0.8698278665542603
                },
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Tablet [Synthroid]",
                    "Code": "966191",
                    "Score": 0.7448257803916931
                },
                {
                    "Description": "levothyroxine",
                    "Code": "10582",
                    "Score": 0.7050482630729675
                },
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Tablet [Levoxyl]",
                    "Code": "966190",
                    "Score": 0.6921631693840027
                }
            ]
        },
        {
            "Id": 4,
            "Text": "Synthroid",
            "Category": "MEDICATION",
            "Type": "BRAND_NAME",
            "Score": 0.9946461319923401,
            "BeginOffset": 86,
            "EndOffset": 95,
            "Attributes": [],
            "Traits": [
                {
                    "Name": "NEGATION",
                    "Score": 0.5167351961135864
                }
            ],
            "RxNormConcepts": [
                {
                    "Description": "Synthroid",
                    "Code": "224920",
                    "Score": 0.9462039470672607
                },
                {
                    "Description": "Levothyroxine Sodium 0.088 MG Oral Tablet [Synthroid]",
                    "Code": "966282",
                    "Score": 0.8309829235076904
                },
                {
                    "Description": "Levothyroxine Sodium 0.125 MG Oral Tablet [Synthroid]",
                    "Code": "966191",
                    "Score": 0.4945160448551178
                },
                {
                    "Description": "Levothyroxine Sodium 0.05 MG Oral Tablet [Synthroid]",
                    "Code": "966247",
                    "Score": 0.3674522042274475
                },
                {
                    "Description": "Levothyroxine Sodium 0.025 MG Oral Tablet [Synthroid]",
                    "Code": "966158",
                    "Score": 0.2588822841644287
                }
            ]
        }
    ],
    "ModelVersion": "0.0.0"
}
```
Untuk informasi lebih lanjut, lihat [Menyimpulkan RxNorm](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontology-RxNorm.html) di *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [InferRxNorm](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/infer-rx-norm.html)di *Referensi AWS CLI Perintah*. 

### `infer-snomedct`
<a name="comprehendmedical_InferSnomedct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`infer-snomedct`.

**AWS CLI**  
**Contoh: Untuk mendeteksi entitas dan menautkan ke SNOMED CT Ontology langsung dari teks**  
`infer-snomedct`Contoh berikut menunjukkan cara mendeteksi entitas medis dan menghubungkannya dengan konsep dari versi 2021-03 dari Nomenklatur Kedokteran Sistematisasi, Istilah Klinis (SNOMED CT).  

```
aws comprehendmedical infer-snomedct \
    --text "The patient complains of abdominal pain, has a long-standing history of diabetes treated with Micronase daily."
```
Output:  

```
{
    "Entities": [
        {
            "Id": 3,
            "BeginOffset": 26,
            "EndOffset": 40,
            "Score": 0.9598260521888733,
            "Text": "abdominal pain",
            "Category": "MEDICAL_CONDITION",
            "Type": "DX_NAME",
            "Traits": [
                {
                    "Name": "SYMPTOM",
                    "Score": 0.6819021701812744
                }
            ]
        },
        {
            "Id": 4,
            "BeginOffset": 73,
            "EndOffset": 81,
            "Score": 0.9905840158462524,
            "Text": "diabetes",
            "Category": "MEDICAL_CONDITION",
            "Type": "DX_NAME",
            "Traits": [
                {
                    "Name": "DIAGNOSIS",
                    "Score": 0.9255214333534241
                }
            ]
        },
        {
            "Id": 1,
            "BeginOffset": 95,
            "EndOffset": 104,
            "Score": 0.6371926665306091,
            "Text": "Micronase",
            "Category": "MEDICATION",
            "Type": "BRAND_NAME",
            "Traits": [],
            "Attributes": [
                {
                    "Type": "FREQUENCY",
                    "Score": 0.9761165380477905,
                    "RelationshipScore": 0.9984188079833984,
                    "RelationshipType": "FREQUENCY",
                    "Id": 2,
                    "BeginOffset": 105,
                    "EndOffset": 110,
                    "Text": "daily",
                    "Category": "MEDICATION",
                    "Traits": []
                }
            ]
        }
    ],
    "UnmappedAttributes": [],
    "ModelVersion": "1.0.0"
}
```
*Untuk informasi lebih lanjut, lihat [InfersNoMEDCT](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontology-linking-snomed.html) di Amazon Comprehend Medical Developer Guide.*  
+  Untuk detail API, lihat [InferSnomedct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/infer-snomedct.html)di *Referensi AWS CLI Perintah*. 

### `list-entities-detection-v2-jobs`
<a name="comprehendmedical_ListEntitiesDetectionV2Jobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-entities-detection-v2-jobs`.

**AWS CLI**  
**Untuk mencantumkan pekerjaan deteksi entitas**  
`list-entities-detection-v2-jobs`Contoh berikut mencantumkan pekerjaan deteksi asinkron saat ini.  

```
aws comprehendmedical list-entities-detection-v2-jobs
```
Output:  

```
{
    "ComprehendMedicalAsyncJobPropertiesList": [
        {
            "JobId": "ab9887877365fe70299089371c043b96",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2020-03-19T20:38:37.594000+00:00",
            "EndTime": "2020-03-19T20:45:07.894000+00:00",
            "ExpirationTime": "2020-07-17T20:38:37+00:00",
            "InputDataConfig": {
                "S3Bucket": "comp-med-input",
                "S3Key": ""
            },
            "OutputDataConfig": {
                "S3Bucket": "comp-med-output",
                "S3Key": "867139942017-EntitiesDetection-ab9887877365fe70299089371c043b96/"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
            "ModelVersion": "DetectEntitiesModelV20190930"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Batch APIs](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-batchapi.html) in the *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [ListEntitiesDetectionV2Jobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/list-entities-detection-v2-jobs.html) di Referensi *AWS CLI Perintah*. 

### `list-icd10-cm-inference-jobs`
<a name="comprehendmedical_ListIcd10CmInferenceJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-icd10-cm-inference-jobs`.

**AWS CLI**  
**Untuk membuat daftar semua pekerjaan inferensi ICD-10-CM saat ini**  
Contoh berikut menunjukkan bagaimana `list-icd10-cm-inference-jobs` operasi mengembalikan daftar pekerjaan inferensi batch ICD-10-CM asinkron saat ini.  

```
aws comprehendmedical list-icd10-cm-inference-jobs
```
Output:  

```
{
    "ComprehendMedicalAsyncJobPropertiesList": [
        {
            "JobId": "5780034166536cdb52ffa3295a1b00a7",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2020-05-19T20:38:37.594000+00:00",
            "EndTime": "2020-05-19T20:45:07.894000+00:00",
            "ExpirationTime": "2020-09-17T20:38:37+00:00",
            "InputDataConfig": {
                "S3Bucket": "comp-med-input",
                "S3Key": "AKIAIOSFODNN7EXAMPLE"
            },
            "OutputDataConfig": {
                "S3Bucket": "comp-med-output",
                "S3Key": "AKIAIOSFODNN7EXAMPLE"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
            "ModelVersion":  "0.1.0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [ListIcd10 CmInferenceJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/list-icd10-cm-inference-jobs.html) di *Referensi AWS CLI Perintah*. 

### `list-phi-detection-jobs`
<a name="comprehendmedical_ListPhiDetectionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-phi-detection-jobs`.

**AWS CLI**  
**Untuk membuat daftar pekerjaan deteksi informasi kesehatan yang dilindungi (PHI)**  
`list-phi-detection-jobs`Contoh berikut mencantumkan pekerjaan deteksi informasi kesehatan terlindungi (PHI) saat ini  

```
aws comprehendmedical list-phi-detection-jobs
```
Output:  

```
{
    "ComprehendMedicalAsyncJobPropertiesList": [
        {
            "JobId": "4750034166536cdb52ffa3295a1b00a3",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2020-03-19T20:38:37.594000+00:00",
            "EndTime": "2020-03-19T20:45:07.894000+00:00",
            "ExpirationTime": "2020-07-17T20:38:37+00:00",
            "InputDataConfig": {
                "S3Bucket": "comp-med-input",
                "S3Key": ""
            },
            "OutputDataConfig": {
                "S3Bucket": "comp-med-output",
                "S3Key": "867139942017-PHIDetection-4750034166536cdb52ffa3295a1b00a3/"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
            "ModelVersion": "PHIModelV20190903"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Batch APIs](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-batchapi.html) in the *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [ListPhiDetectionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/list-phi-detection-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-rx-norm-inference-jobs`
<a name="comprehendmedical_ListRxNormInferenceJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-rx-norm-inference-jobs`.

**AWS CLI**  
**Untuk membuat daftar semua pekerjaan inferensi Rx-Norm saat ini**  
Contoh berikut menunjukkan bagaimana `list-rx-norm-inference-jobs` mengembalikan daftar pekerjaan inferensi batch Rx-Norm asinkron saat ini.  

```
aws comprehendmedical list-rx-norm-inference-jobs
```
Output:  

```
{
    "ComprehendMedicalAsyncJobPropertiesList": [
        {
            "JobId": "4980034166536cfb52gga3295a1b00a3",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2020-05-19T20:38:37.594000+00:00",
            "EndTime": "2020-05-19T20:45:07.894000+00:00",
            "ExpirationTime": "2020-09-17T20:38:37+00:00",
            "InputDataConfig": {
                "S3Bucket": "comp-med-input",
                "S3Key": "AKIAIOSFODNN7EXAMPLE"
            },
            "OutputDataConfig": {
                "S3Bucket": "comp-med-output",
                "S3Key": "AKIAIOSFODNN7EXAMPLE"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
            "ModelVersion": "0.0.0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [ListRxNormInferenceJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/list-rx-norm-inference-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-snomedct-inference-jobs`
<a name="comprehendmedical_ListSnomedctInferenceJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-snomedct-inference-jobs`.

**AWS CLI**  
**Untuk membuat daftar semua pekerjaan inferensi CT SNOMED**  
Contoh berikut menunjukkan bagaimana `list-snomedct-inference-jobs` operasi mengembalikan daftar pekerjaan inferensi batch SNOMED CT asinkron saat ini.  

```
aws comprehendmedical list-snomedct-inference-jobs
```
Output:  

```
{
    "ComprehendMedicalAsyncJobPropertiesList": [
        {
            "JobId": "5780034166536cdb52ffa3295a1b00a7",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2020-05-19T20:38:37.594000+00:00",
            "EndTime": "2020-05-19T20:45:07.894000+00:00",
            "ExpirationTime": "2020-09-17T20:38:37+00:00",
            "InputDataConfig": {
                "S3Bucket": "comp-med-input",
                "S3Key": "AKIAIOSFODNN7EXAMPLE"
            },
            "OutputDataConfig": {
                "S3Bucket": "comp-med-output",
                "S3Key": "AKIAIOSFODNN7EXAMPLE"
            },
            "LanguageCode": "en",
            "DataAccessRoleArn": "arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole",
            "ModelVersion":  "0.1.0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [ListSnomedctInferenceJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/list-snomedct-inference-jobs.html)di *Referensi AWS CLI Perintah*. 

### `start-entities-detection-v2-job`
<a name="comprehendmedical_StartEntitiesDetectionV2Job_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-entities-detection-v2-job`.

**AWS CLI**  
**Untuk memulai pekerjaan deteksi entitas**  
`start-entities-detection-v2-job`Contoh berikut memulai pekerjaan deteksi entitas asinkron.  

```
aws comprehendmedical start-entities-detection-v2-job \
    --input-data-config "S3Bucket=comp-med-input" \
    --output-data-config "S3Bucket=comp-med-output" \
    --data-access-role-arn arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole \
    --language-code en
```
Output:  

```
{
    "JobId": "ab9887877365fe70299089371c043b96"
}
```
Untuk informasi selengkapnya, lihat [Batch APIs](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-batchapi.html) in the *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [StartEntitiesDetectionV2Job](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/start-entities-detection-v2-job.html) di Referensi *AWS CLI Perintah*. 

### `start-icd10-cm-inference-job`
<a name="comprehendmedical_StartIcd10CmInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-icd10-cm-inference-job`.

**AWS CLI**  
**Untuk memulai pekerjaan inferensi ICD-10-CM**  
`start-icd10-cm-inference-job`Contoh berikut memulai pekerjaan analisis batch inferensi ICD-10-CM.  

```
aws comprehendmedical start-icd10-cm-inference-job \
    --input-data-config "S3Bucket=comp-med-input" \
    --output-data-config "S3Bucket=comp-med-output" \
    --data-access-role-arn arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole \
    --language-code en
```
Output:  

```
{
    "JobId": "ef7289877365fc70299089371c043b96"
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [StartIcd10 CmInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/start-icd10-cm-inference-job.html) di *Referensi AWS CLI Perintah*. 

### `start-phi-detection-job`
<a name="comprehendmedical_StartPhiDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-phi-detection-job`.

**AWS CLI**  
**Untuk memulai pekerjaan deteksi PHI**  
`start-phi-detection-job`Contoh berikut memulai pekerjaan deteksi entitas PHI asinkron.  

```
aws comprehendmedical start-phi-detection-job \
    --input-data-config "S3Bucket=comp-med-input" \
    --output-data-config "S3Bucket=comp-med-output" \
    --data-access-role-arn arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole \
    --language-code en
```
Output:  

```
{
    "JobId": "ab9887877365fe70299089371c043b96"
}
```
Untuk informasi selengkapnya, lihat [Batch APIs](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-batchapi.html) in the *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [StartPhiDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/start-phi-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `start-rx-norm-inference-job`
<a name="comprehendmedical_StartRxNormInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-rx-norm-inference-job`.

**AWS CLI**  
**Untuk memulai pekerjaan RxNorm inferensi**  
`start-rx-norm-inference-job`Contoh berikut memulai pekerjaan analisis batch RxNorm inferensi.  

```
aws comprehendmedical start-rx-norm-inference-job \
    --input-data-config "S3Bucket=comp-med-input" \
    --output-data-config "S3Bucket=comp-med-output" \
    --data-access-role-arn arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole \
    --language-code en
```
Output:  

```
{
    "JobId": "eg8199877365fc70299089371c043b96"
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [StartRxNormInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/start-rx-norm-inference-job.html)di *Referensi AWS CLI Perintah*. 

### `start-snomedct-inference-job`
<a name="comprehendmedical_StartSnomedctInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-snomedct-inference-job`.

**AWS CLI**  
**Untuk memulai pekerjaan inferensi CT SNOMED**  
`start-snomedct-inference-job`Contoh berikut memulai pekerjaan analisis batch inferensi CT SNOMED.  

```
aws comprehendmedical start-snomedct-inference-job \
    --input-data-config "S3Bucket=comp-med-input" \
    --output-data-config "S3Bucket=comp-med-output" \
    --data-access-role-arn arn:aws:iam::867139942017:role/ComprehendMedicalBatchProcessingRole \
    --language-code en
```
Output:  

```
{
    "JobId": "dg7289877365fc70299089371c043b96"
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [StartSnomedctInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/start-snomedct-inference-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-entities-detection-v2-job`
<a name="comprehendmedical_StopEntitiesDetectionV2Job_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-entities-detection-v2-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi entitas**  
`stop-entities-detection-v2-job`Contoh berikut menghentikan pekerjaan deteksi entitas asinkron.  

```
aws comprehendmedical stop-entities-detection-v2-job \
    --job-id "ab9887877365fe70299089371c043b96"
```
Output:  

```
{
    "JobId": "ab9887877365fe70299089371c043b96"
}
```
Untuk informasi selengkapnya, lihat [Batch APIs](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-batchapi.html) in the *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [StopEntitiesDetectionV2Job](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/stop-entities-detection-v2-job.html) di Referensi *AWS CLI Perintah*. 

### `stop-icd10-cm-inference-job`
<a name="comprehendmedical_StopIcd10CmInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-icd10-cm-inference-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan inferensi ICD-10-CM**  
`stop-icd10-cm-inference-job`Contoh berikut menghentikan pekerjaan analisis batch inferensi ICD-10-CM.  

```
aws comprehendmedical stop-icd10-cm-inference-job \
    --job-id "4750034166536cdb52ffa3295a1b00a3"
```
Output:  

```
{
    "JobId": "ef7289877365fc70299089371c043b96",
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [StopIcd10 CmInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/stop-icd10-cm-inference-job.html) di *Referensi AWS CLI Perintah*. 

### `stop-phi-detection-job`
<a name="comprehendmedical_StopPhiDetectionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-phi-detection-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan deteksi informasi kesehatan yang dilindungi (PHI)**  
`stop-phi-detection-job`Contoh berikut menghentikan pekerjaan deteksi informasi kesehatan terlindungi asinkron (PHI).  

```
aws comprehendmedical stop-phi-detection-job \
    --job-id "4750034166536cdb52ffa3295a1b00a3"
```
Output:  

```
{
    "JobId": "ab9887877365fe70299089371c043b96"
}
```
Untuk informasi selengkapnya, lihat [Batch APIs](https://docs.aws.amazon.com/comprehend-medical/latest/dev/textanalysis-batchapi.html) in the *Amazon Comprehend Medical Developer Guide*.  
+  Untuk detail API, lihat [StopPhiDetectionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/stop-phi-detection-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-rx-norm-inference-job`
<a name="comprehendmedical_StopRxNormInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-rx-norm-inference-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan RxNorm inferensi**  
`stop-rx-norm-inference-job`Contoh berikut menghentikan pekerjaan analisis batch inferensi ICD-10-CM.  

```
aws comprehendmedical stop-rx-norm-inference-job \
    --job-id "eg8199877365fc70299089371c043b96"
```
Output:  

```
{
    "JobId": "eg8199877365fc70299089371c043b96",
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [StopRxNormInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/stop-rx-norm-inference-job.html)di *Referensi AWS CLI Perintah*. 

### `stop-snomedct-inference-job`
<a name="comprehendmedical_StopSnomedctInferenceJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-snomedct-inference-job`.

**AWS CLI**  
**Untuk menghentikan pekerjaan inferensi CT SNOMED**  
`stop-snomedct-inference-job`Contoh berikut menghentikan pekerjaan analisis batch inferensi CT SNOMED.  

```
aws comprehendmedical stop-snomedct-inference-job \
    --job-id "8750034166436cdb52ffa3295a1b00a1"
```
Output:  

```
{
    "JobId": "8750034166436cdb52ffa3295a1b00a1",
}
```
Untuk informasi selengkapnya, lihat [Ontologi yang menghubungkan analisis batch](https://docs.aws.amazon.com/comprehend-medical/latest/dev/ontologies-batchapi.html) di *Amazon Comprehend Medical* Developer Guide.  
+  Untuk detail API, lihat [StopSnomedctInferenceJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/comprehendmedical/stop-snomedct-inference-job.html)di *Referensi AWS CLI Perintah*. 

# AWS Config contoh menggunakan AWS CLI
<a name="cli_2_config-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Config.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-config-rule`
<a name="config-service_DeleteConfigRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-config-rule`.

**AWS CLI**  
**Untuk menghapus aturan AWS Config**  
Perintah berikut menghapus aturan AWS Config bernama: `MyConfigRule`  

```
aws configservice delete-config-rule --config-rule-name MyConfigRule
```
+  Untuk detail API, lihat [DeleteConfigRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/delete-config-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-delivery-channel`
<a name="config-service_DeleteDeliveryChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-delivery-channel`.

**AWS CLI**  
**Untuk menghapus saluran pengiriman**  
Perintah berikut menghapus saluran pengiriman default:  

```
aws configservice delete-delivery-channel --delivery-channel-name default
```
+  Untuk detail API, lihat [DeleteDeliveryChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/delete-delivery-channel.html)di *Referensi AWS CLI Perintah*. 

### `delete-evaluation-results`
<a name="config-service_DeleteEvaluationResults_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-evaluation-results`.

**AWS CLI**  
**Untuk menghapus hasil evaluasi secara manual**  
Perintah berikut menghapus hasil evaluasi saat ini untuk aturan AWS terkelola s3-: bucket-versioning-enabled  

```
aws configservice delete-evaluation-results --config-rule-name s3-bucket-versioning-enabled
```
+  Untuk detail API, lihat [DeleteEvaluationResults](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/delete-evaluation-results.html)di *Referensi AWS CLI Perintah*. 

### `deliver-config-snapshot`
<a name="config-service_DeliverConfigSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deliver-config-snapshot`.

**AWS CLI**  
**Untuk memberikan snapshot konfigurasi**  
Perintah berikut memberikan snapshot konfigurasi ke bucket Amazon S3 yang termasuk dalam saluran pengiriman default:  

```
aws configservice deliver-config-snapshot --delivery-channel-name default
```
Output:  

```
{
    "configSnapshotId": "d0333b00-a683-44af-921e-examplefb794"
}
```
+  Untuk detail API, lihat [DeliverConfigSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/deliver-config-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `describe-compliance-by-config-rule`
<a name="config-service_DescribeComplianceByConfigRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-compliance-by-config-rule`.

**AWS CLI**  
**Untuk mendapatkan informasi kepatuhan untuk aturan AWS Config Anda**  
Perintah berikut menampilkan informasi kepatuhan untuk setiap aturan AWS Config yang dilanggar oleh satu atau beberapa sumber daya: AWS   

```
aws configservice describe-compliance-by-config-rule --compliance-types NON_COMPLIANT
```
Dalam output, nilai untuk setiap `CappedCount` atribut menunjukkan berapa banyak sumber daya yang tidak sesuai dengan aturan terkait. Misalnya, output berikut menunjukkan bahwa 3 sumber daya tidak sesuai dengan aturan bernama`InstanceTypesAreT2micro`.  
Output:  

```
{
    "ComplianceByConfigRules": [
        {
            "Compliance": {
                "ComplianceContributorCount": {
                    "CappedCount": 3,
                    "CapExceeded": false
                },
                "ComplianceType": "NON_COMPLIANT"
            },
            "ConfigRuleName": "InstanceTypesAreT2micro"
        },
        {
            "Compliance": {
                "ComplianceContributorCount": {
                    "CappedCount": 10,
                    "CapExceeded": false
                },
                "ComplianceType": "NON_COMPLIANT"
            },
            "ConfigRuleName": "RequiredTagsForVolumes"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeComplianceByConfigRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/describe-compliance-by-config-rule.html)di *Referensi AWS CLI Perintah*. 

### `describe-compliance-by-resource`
<a name="config-service_DescribeComplianceByResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-compliance-by-resource`.

**AWS CLI**  
**Untuk mendapatkan informasi kepatuhan untuk AWS sumber daya Anda**  
Perintah berikut mengembalikan informasi kepatuhan untuk setiap instans EC2 yang direkam oleh AWS Config dan yang melanggar satu atau beberapa aturan:  

```
aws configservice describe-compliance-by-resource --resource-type AWS::EC2::Instance --compliance-types NON_COMPLIANT
```
Dalam output, nilai untuk setiap `CappedCount` atribut menunjukkan berapa banyak aturan yang dilanggar sumber daya. Misalnya, output berikut menunjukkan bahwa instance `i-1a2b3c4d` melanggar 2 aturan.  
Output:  

```
{
    "ComplianceByResources": [
        {
            "ResourceType": "AWS::EC2::Instance",
            "ResourceId": "i-1a2b3c4d",
            "Compliance": {
                "ComplianceContributorCount": {
                    "CappedCount": 2,
                    "CapExceeded": false
                },
                "ComplianceType": "NON_COMPLIANT"
            }
        },
        {
            "ResourceType": "AWS::EC2::Instance",
            "ResourceId": "i-2a2b3c4d ",
            "Compliance": {
                "ComplianceContributorCount": {
                    "CappedCount": 3,
                    "CapExceeded": false
                },
                "ComplianceType": "NON_COMPLIANT"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeComplianceByResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/describe-compliance-by-resource.html)di *Referensi AWS CLI Perintah*. 

### `describe-config-rule-evaluation-status`
<a name="config-service_DescribeConfigRuleEvaluationStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-config-rule-evaluation-status`.

**AWS CLI**  
**Untuk mendapatkan informasi status untuk aturan AWS Config**  
Perintah berikut mengembalikan informasi status untuk aturan AWS Config bernama: `MyConfigRule`  

```
aws configservice describe-config-rule-evaluation-status --config-rule-names MyConfigRule
```
Output:  

```
{
    "ConfigRulesEvaluationStatus": [
        {
            "ConfigRuleArn": "arn:aws:config:us-east-1:123456789012:config-rule/config-rule-abcdef",
            "FirstActivatedTime": 1450311703.844,
            "ConfigRuleId": "config-rule-abcdef",
            "LastSuccessfulInvocationTime": 1450314643.156,
            "ConfigRuleName": "MyConfigRule"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeConfigRuleEvaluationStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/describe-config-rule-evaluation-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-config-rules`
<a name="config-service_DescribeConfigRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-config-rules`.

**AWS CLI**  
**Untuk mendapatkan detail tentang aturan AWS Config**  
Perintah berikut mengembalikan rincian untuk aturan AWS Config bernama: `InstanceTypesAreT2micro`  

```
aws configservice describe-config-rules --config-rule-names InstanceTypesAreT2micro
```
Output:  

```
{
    "ConfigRules": [
        {
            "ConfigRuleState": "ACTIVE",
            "Description": "Evaluates whether EC2 instances are the t2.micro type.",
            "ConfigRuleName": "InstanceTypesAreT2micro",
            "ConfigRuleArn": "arn:aws:config:us-east-1:123456789012:config-rule/config-rule-abcdef",
            "Source": {
                "Owner": "CUSTOM_LAMBDA",
                "SourceIdentifier": "arn:aws:lambda:us-east-1:123456789012:function:InstanceTypeCheck",
                "SourceDetails": [
                    {
                        "EventSource": "aws.config",
                        "MessageType": "ConfigurationItemChangeNotification"
                    }
                ]
            },
            "InputParameters": "{\"desiredInstanceType\":\"t2.micro\"}",
            "Scope": {
                "ComplianceResourceTypes": [
                    "AWS::EC2::Instance"
                ]
            },
            "ConfigRuleId": "config-rule-abcdef"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeConfigRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/describe-config-rules.html)di *Referensi AWS CLI Perintah*. 

### `describe-configuration-recorder-status`
<a name="config-service_DescribeConfigurationRecorderStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-configuration-recorder-status`.

**AWS CLI**  
**Untuk mendapatkan informasi status untuk perekam konfigurasi**  
Perintah berikut mengembalikan status perekam konfigurasi default:  

```
aws configservice describe-configuration-recorder-status
```
Output:  

```
{
    "ConfigurationRecordersStatus": [
        {
            "name": "default",
            "lastStatus": "SUCCESS",
            "recording": true,
            "lastStatusChangeTime": 1452193834.344,
            "lastStartTime": 1441039997.819,
            "lastStopTime": 1441039992.835
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeConfigurationRecorderStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/describe-configuration-recorder-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-configuration-recorders`
<a name="config-service_DescribeConfigurationRecorders_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-configuration-recorders`.

**AWS CLI**  
**Untuk mendapatkan detail tentang perekam konfigurasi**  
Perintah berikut mengembalikan rincian tentang perekam konfigurasi default:  

```
aws configservice describe-configuration-recorders
```
Output:  

```
{
    "ConfigurationRecorders": [
        {
            "recordingGroup": {
                "allSupported": true,
                "resourceTypes": [],
                "includeGlobalResourceTypes": true
            },
            "roleARN": "arn:aws:iam::123456789012:role/config-ConfigRole-A1B2C3D4E5F6",
            "name": "default"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeConfigurationRecorders](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/describe-configuration-recorders.html)di *Referensi AWS CLI Perintah*. 

### `describe-delivery-channel-status`
<a name="config-service_DescribeDeliveryChannelStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-delivery-channel-status`.

**AWS CLI**  
**Untuk mendapatkan informasi status untuk saluran pengiriman**  
Perintah berikut mengembalikan status saluran pengiriman:  

```
aws configservice describe-delivery-channel-status
```
Output:  

```
{
    "DeliveryChannelsStatus": [
        {
            "configStreamDeliveryInfo": {
                "lastStatusChangeTime": 1452193834.381,
                "lastStatus": "SUCCESS"
            },
            "configHistoryDeliveryInfo": {
                "lastSuccessfulTime": 1450317838.412,
                "lastStatus": "SUCCESS",
                "lastAttemptTime": 1450317838.412
            },
            "configSnapshotDeliveryInfo": {
                "lastSuccessfulTime": 1452185597.094,
                "lastStatus": "SUCCESS",
                "lastAttemptTime": 1452185597.094
            },
            "name": "default"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeDeliveryChannelStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/describe-delivery-channel-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-delivery-channels`
<a name="config-service_DescribeDeliveryChannels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-delivery-channels`.

**AWS CLI**  
**Untuk mendapatkan detail tentang saluran pengiriman**  
Perintah berikut mengembalikan rincian tentang saluran pengiriman:  

```
aws configservice describe-delivery-channels
```
Output:  

```
{
    "DeliveryChannels": [
        {
            "snsTopicARN": "arn:aws:sns:us-east-1:123456789012:config-topic",
            "name": "default",
            "s3BucketName": "config-bucket-123456789012"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeDeliveryChannels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/describe-delivery-channels.html)di *Referensi AWS CLI Perintah*. 

### `get-compliance-details-by-config-rule`
<a name="config-service_GetComplianceDetailsByConfigRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-compliance-details-by-config-rule`.

**AWS CLI**  
**Untuk mendapatkan hasil evaluasi untuk aturan AWS Config**  
Perintah berikut mengembalikan hasil evaluasi untuk semua sumber daya yang tidak sesuai dengan aturan AWS Config bernama: `InstanceTypesAreT2micro`  

```
aws configservice get-compliance-details-by-config-rule --config-rule-name InstanceTypesAreT2micro --compliance-types NON_COMPLIANT
```
Output:  

```
{
    "EvaluationResults": [
        {
            "EvaluationResultIdentifier": {
                "OrderingTimestamp": 1450314635.065,
                "EvaluationResultQualifier": {
                    "ResourceType": "AWS::EC2::Instance",
                    "ResourceId": "i-1a2b3c4d",
                    "ConfigRuleName": "InstanceTypesAreT2micro"
                }
            },
            "ResultRecordedTime": 1450314645.261,
            "ConfigRuleInvokedTime": 1450314642.948,
            "ComplianceType": "NON_COMPLIANT"
        },
        {
            "EvaluationResultIdentifier": {
                "OrderingTimestamp": 1450314635.065,
                "EvaluationResultQualifier": {
                    "ResourceType": "AWS::EC2::Instance",
                    "ResourceId": "i-2a2b3c4d",
                    "ConfigRuleName": "InstanceTypesAreT2micro"
                }
            },
            "ResultRecordedTime": 1450314645.18,
            "ConfigRuleInvokedTime": 1450314642.902,
            "ComplianceType": "NON_COMPLIANT"
        },
        {
            "EvaluationResultIdentifier": {
                "OrderingTimestamp": 1450314635.065,
                "EvaluationResultQualifier": {
                    "ResourceType": "AWS::EC2::Instance",
                    "ResourceId": "i-3a2b3c4d",
                    "ConfigRuleName": "InstanceTypesAreT2micro"
                }
            },
            "ResultRecordedTime": 1450314643.346,
            "ConfigRuleInvokedTime": 1450314643.124,
            "ComplianceType": "NON_COMPLIANT"
        }
    ]
}
```
+  Untuk detail API, lihat [GetComplianceDetailsByConfigRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/get-compliance-details-by-config-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-compliance-details-by-resource`
<a name="config-service_GetComplianceDetailsByResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-compliance-details-by-resource`.

**AWS CLI**  
**Untuk mendapatkan hasil evaluasi untuk sumber AWS daya**  
Perintah berikut mengembalikan hasil evaluasi untuk setiap aturan yang `i-1a2b3c4d` tidak dipatuhi oleh instans EC2:  

```
aws configservice get-compliance-details-by-resource --resource-type AWS::EC2::Instance --resource-id i-1a2b3c4d --compliance-types NON_COMPLIANT
```
Output:  

```
{
    "EvaluationResults": [
        {
            "EvaluationResultIdentifier": {
                "OrderingTimestamp": 1450314635.065,
                "EvaluationResultQualifier": {
                    "ResourceType": "AWS::EC2::Instance",
                    "ResourceId": "i-1a2b3c4d",
                    "ConfigRuleName": "InstanceTypesAreT2micro"
                }
            },
            "ResultRecordedTime": 1450314643.288,
            "ConfigRuleInvokedTime": 1450314643.034,
            "ComplianceType": "NON_COMPLIANT"
        },
        {
            "EvaluationResultIdentifier": {
                "OrderingTimestamp": 1450314635.065,
                "EvaluationResultQualifier": {
                    "ResourceType": "AWS::EC2::Instance",
                    "ResourceId": "i-1a2b3c4d",
                    "ConfigRuleName": "RequiredTagForEC2Instances"
                }
            },
            "ResultRecordedTime": 1450314645.261,
            "ConfigRuleInvokedTime": 1450314642.948,
            "ComplianceType": "NON_COMPLIANT"
        }
    ]
}
```
+  Untuk detail API, lihat [GetComplianceDetailsByResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/get-compliance-details-by-resource.html)di *Referensi AWS CLI Perintah*. 

### `get-compliance-summary-by-config-rule`
<a name="config-service_GetComplianceSummaryByConfigRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-compliance-summary-by-config-rule`.

**AWS CLI**  
**Untuk mendapatkan ringkasan kepatuhan untuk aturan AWS Config Anda**  
Perintah berikut mengembalikan jumlah aturan yang sesuai dan nomor yang tidak sesuai:  

```
aws configservice get-compliance-summary-by-config-rule
```
Dalam output, nilai untuk setiap `CappedCount` atribut menunjukkan berapa banyak aturan yang sesuai atau tidak sesuai.  
Output:  

```
{
    "ComplianceSummary": {
        "NonCompliantResourceCount": {
            "CappedCount": 3,
            "CapExceeded": false
        },
        "ComplianceSummaryTimestamp": 1452204131.493,
        "CompliantResourceCount": {
            "CappedCount": 2,
            "CapExceeded": false
        }
    }
}
```
+  Untuk detail API, lihat [GetComplianceSummaryByConfigRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/get-compliance-summary-by-config-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-compliance-summary-by-resource-type`
<a name="config-service_GetComplianceSummaryByResourceType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-compliance-summary-by-resource-type`.

**AWS CLI**  
**Untuk mendapatkan ringkasan kepatuhan untuk semua jenis sumber daya**  
Perintah berikut mengembalikan jumlah AWS sumber daya yang tidak sesuai dan nomor yang sesuai:  

```
aws configservice get-compliance-summary-by-resource-type
```
Dalam output, nilai untuk setiap `CappedCount` atribut menunjukkan berapa banyak sumber daya yang sesuai atau tidak sesuai.  
Output:  

```
{
    "ComplianceSummariesByResourceType": [
        {
            "ComplianceSummary": {
                "NonCompliantResourceCount": {
                    "CappedCount": 16,
                    "CapExceeded": false
                },
                "ComplianceSummaryTimestamp": 1453237464.543,
                "CompliantResourceCount": {
                    "CappedCount": 10,
                    "CapExceeded": false
                }
            }
        }
    ]
}
```
**Untuk mendapatkan ringkasan kepatuhan untuk jenis sumber daya tertentu**  
Perintah berikut mengembalikan jumlah instans EC2 yang tidak sesuai dan nomor yang sesuai:  

```
aws configservice get-compliance-summary-by-resource-type --resource-types AWS::EC2::Instance
```
Dalam output, nilai untuk setiap `CappedCount` atribut menunjukkan berapa banyak sumber daya yang sesuai atau tidak sesuai.  
Output:  

```
{
    "ComplianceSummariesByResourceType": [
        {
            "ResourceType": "AWS::EC2::Instance",
            "ComplianceSummary": {
                "NonCompliantResourceCount": {
                    "CappedCount": 3,
                    "CapExceeded": false
                },
                "ComplianceSummaryTimestamp": 1452204923.518,
                "CompliantResourceCount": {
                    "CappedCount": 7,
                    "CapExceeded": false
                }
            }
        }
    ]
}
```
+  Untuk detail API, lihat [GetComplianceSummaryByResourceType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/get-compliance-summary-by-resource-type.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-config-history`
<a name="config-service_GetResourceConfigHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-config-history`.

**AWS CLI**  
**Untuk mendapatkan riwayat konfigurasi sumber AWS daya**  
Perintah berikut mengembalikan daftar item konfigurasi untuk instance EC2 dengan ID: `i-1a2b3c4d`  

```
aws configservice get-resource-config-history --resource-type AWS::EC2::Instance --resource-id i-1a2b3c4d
```
+  Untuk detail API, lihat [GetResourceConfigHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/get-resource-config-history.html)di *Referensi AWS CLI Perintah*. 

### `get-status`
<a name="config-service_GetStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-status`.

**AWS CLI**  
**Untuk mendapatkan status untuk AWS Config**  
Perintah berikut mengembalikan status saluran pengiriman dan perekam konfigurasi:  

```
aws configservice get-status
```
Output:  

```
Configuration Recorders:

name: default
recorder: ON
last status: SUCCESS

Delivery Channels:

name: default
last stream delivery status: SUCCESS
last history delivery status: SUCCESS
last snapshot delivery status: SUCCESS
```
+  Untuk detail API, lihat [GetStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/get-status.html)di *Referensi AWS CLI Perintah*. 

### `list-discovered-resources`
<a name="config-service_ListDiscoveredResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-discovered-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber daya yang telah AWS ditemukan Config**  
Perintah berikut mencantumkan instance EC2 yang telah ditemukan AWS Config:  

```
aws configservice list-discovered-resources --resource-type AWS::EC2::Instance
```
Output:  

```
{
    "resourceIdentifiers": [
        {
            "resourceType": "AWS::EC2::Instance",
            "resourceId": "i-1a2b3c4d"
        },
        {
            "resourceType": "AWS::EC2::Instance",
            "resourceId": "i-2a2b3c4d"
        },
        {
            "resourceType": "AWS::EC2::Instance",
            "resourceId": "i-3a2b3c4d"
        }
    ]
}
```
+  Untuk detail API, lihat [ListDiscoveredResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/list-discovered-resources.html)di *Referensi AWS CLI Perintah*. 

### `put-config-rule`
<a name="config-service_PutConfigRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-config-rule`.

**AWS CLI**  
**Untuk menambahkan aturan Config AWS terkelola**  
Perintah berikut menyediakan kode JSON untuk menambahkan aturan Config AWS terkelola:  

```
aws configservice put-config-rule --config-rule file://RequiredTagsForEC2Instances.json
```
`RequiredTagsForEC2Instances.json`adalah file JSON yang berisi konfigurasi aturan:  

```
{
  "ConfigRuleName": "RequiredTagsForEC2Instances",
  "Description": "Checks whether the CostCenter and Owner tags are applied to EC2 instances.",
  "Scope": {
    "ComplianceResourceTypes": [
      "AWS::EC2::Instance"
    ]
  },
  "Source": {
    "Owner": "AWS",
    "SourceIdentifier": "REQUIRED_TAGS"
  },
  "InputParameters": "{\"tag1Key\":\"CostCenter\",\"tag2Key\":\"Owner\"}"
}
```
Untuk `ComplianceResourceTypes` atribut, kode JSON ini membatasi cakupan sumber daya `AWS::EC2::Instance` tipe, jadi AWS Config hanya akan mengevaluasi instans EC2 terhadap aturan. Karena aturan adalah aturan terkelola, `Owner` atribut disetel ke`AWS`, dan `SourceIdentifier` atribut diatur ke pengidentifikasi aturan,`REQUIRED_TAGS`. Untuk `InputParameters` atribut, kunci tag yang dibutuhkan aturan, `CostCenter` dan`Owner`, ditentukan.  
Jika perintah berhasil, AWS Config tidak mengembalikan output. Untuk memverifikasi konfigurasi aturan, jalankan describe-config-rules perintah, dan tentukan nama aturan.  
**Untuk menambahkan aturan Config terkelola pelanggan**  
Perintah berikut menyediakan kode JSON untuk menambahkan aturan Config terkelola pelanggan:  

```
aws configservice put-config-rule --config-rule file://InstanceTypesAreT2micro.json
```
`InstanceTypesAreT2micro.json`adalah file JSON yang berisi konfigurasi aturan:  

```
{
  "ConfigRuleName": "InstanceTypesAreT2micro",
  "Description": "Evaluates whether EC2 instances are the t2.micro type.",
  "Scope": {
    "ComplianceResourceTypes": [
      "AWS::EC2::Instance"
    ]
  },
  "Source": {
    "Owner": "CUSTOM_LAMBDA",
    "SourceIdentifier": "arn:aws:lambda:us-east-1:123456789012:function:InstanceTypeCheck",
    "SourceDetails": [
      {
        "EventSource": "aws.config",
        "MessageType": "ConfigurationItemChangeNotification"
      }
    ]
  },
  "InputParameters": "{\"desiredInstanceType\":\"t2.micro\"}"
}
```
Untuk `ComplianceResourceTypes` atribut, kode JSON ini membatasi cakupan sumber daya `AWS::EC2::Instance` tipe, jadi AWS Config hanya akan mengevaluasi instans EC2 terhadap aturan. Karena aturan ini adalah aturan yang dikelola pelanggan, `Owner` atribut disetel ke`CUSTOM_LAMBDA`, dan `SourceIdentifier` atribut disetel ke ARN dari fungsi Lambda AWS . `SourceDetails`Objek diperlukan. Parameter yang ditentukan untuk `InputParameters` atribut diteruskan ke fungsi AWS Lambda saat AWS Config memanggilnya untuk mengevaluasi sumber daya terhadap aturan.  
Jika perintah berhasil, AWS Config tidak mengembalikan output. Untuk memverifikasi konfigurasi aturan, jalankan describe-config-rules perintah, dan tentukan nama aturan.  
+  Untuk detail API, lihat [PutConfigRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/put-config-rule.html)di *Referensi AWS CLI Perintah*. 

### `put-configuration-recorder`
<a name="config-service_PutConfigurationRecorder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-configuration-recorder`.

**AWS CLI**  
**Contoh 1: Untuk merekam semua sumber daya yang didukung**  
Perintah berikut membuat perekam konfigurasi yang melacak perubahan pada semua jenis sumber daya yang didukung, termasuk tipe sumber daya global:  

```
aws configservice put-configuration-recorder \
    --configuration-recorder name=default,roleARN=arn:aws:iam::123456789012:role/config-role \
    --recording-group allSupported=true,includeGlobalResourceTypes=true
```
Jika perintah berhasil, AWS Config tidak mengembalikan output. Untuk memverifikasi pengaturan perekam konfigurasi Anda, jalankan describe-configuration-recorders perintah.  
**Contoh 2: Untuk merekam jenis sumber daya tertentu**  
Perintah berikut membuat perekam konfigurasi yang melacak perubahan hanya pada jenis sumber daya yang ditentukan dalam file JSON untuk opsi --recording-group:  

```
aws configservice put-configuration-recorder \
    --configuration-recorder name=default,roleARN=arn:aws:iam::123456789012:role/config-role \
    --recording-group file://recordingGroup.json
```
RecordingGroup.json adalah file JSON yang menentukan jenis sumber daya yang akan direkam oleh Config: AWS   

```
{
    "allSupported": false,
    "includeGlobalResourceTypes": false,
    "resourceTypes": [
        "AWS::EC2::EIP",
        "AWS::EC2::Instance",
        "AWS::EC2::NetworkAcl",
        "AWS::EC2::SecurityGroup",
        "AWS::CloudTrail::Trail",
        "AWS::EC2::Volume",
        "AWS::EC2::VPC",
        "AWS::IAM::User",
        "AWS::IAM::Policy"
    ]
}
```
Sebelum Anda dapat menentukan jenis sumber daya untuk kunci ResourceTypes, Anda harus menyetel opsi AllSupported includeGlobalResource dan Types ke false atau menghilangkannya.  
Jika perintah berhasil, AWS Config tidak mengembalikan output. Untuk memverifikasi pengaturan perekam konfigurasi Anda, jalankan describe-configuration-recorders perintah.  
**Contoh 3: Untuk memilih semua sumber daya yang didukung kecuali jenis sumber daya tertentu**  
Perintah berikut membuat perekam konfigurasi yang melacak perubahan pada semua jenis sumber daya yang didukung saat ini dan masa depan tidak termasuk jenis sumber daya yang ditentukan dalam file JSON untuk opsi --recording-group:  

```
aws configservice put-configuration-recorder \
    --configuration-recorder name=default,roleARN=arn:aws:iam::123456789012:role/config-role \
    --recording-group file://recordingGroup.json
```
RecordingGroup.json adalah file JSON yang menentukan jenis sumber daya yang akan direkam oleh Config: AWS   

```
{
    "allSupported": false,
    "exclusionByResourceTypes": {
        "resourceTypes": [
        "AWS::Redshift::ClusterSnapshot",
        "AWS::RDS::DBClusterSnapshot",
        "AWS::CloudFront::StreamingDistribution"
    ]
    },
        "includeGlobalResourceTypes": false,
        "recordingStrategy": {
        "useOnly": "EXCLUSION_BY_RESOURCE_TYPES"
    },
}
```
Sebelum Anda dapat menentukan jenis sumber daya untuk dikecualikan dari perekaman: 1) Anda harus menyetel opsi AllSupported dan includeGlobalResource Types menjadi false atau menghilangkannya, dan 2) Anda harus menyetel bidang useOnly ke EXCLUSION\$1BY\$1RESOURCE\$1TYPES. RecordingStrategy   
Jika perintah berhasil, AWS Config tidak mengembalikan output. Untuk memverifikasi pengaturan perekam konfigurasi Anda, jalankan describe-configuration-recorders perintah.  
+  Untuk detail API, lihat [PutConfigurationRecorder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/put-configuration-recorder.html)di *Referensi AWS CLI Perintah*. 

### `put-delivery-channel`
<a name="config-service_PutDeliveryChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-delivery-channel`.

**AWS CLI**  
**Untuk membuat saluran pengiriman**  
Perintah berikut menyediakan pengaturan untuk saluran pengiriman sebagai kode JSON:  

```
aws configservice put-delivery-channel --delivery-channel file://deliveryChannel.json
```
`deliveryChannel.json`File menentukan atribut saluran pengiriman:  

```
{
    "name": "default",
    "s3BucketName": "config-bucket-123456789012",
    "snsTopicARN": "arn:aws:sns:us-east-1:123456789012:config-topic",
    "configSnapshotDeliveryProperties": {
        "deliveryFrequency": "Twelve_Hours"
    }
}
```
Contoh ini menetapkan atribut berikut:  
`name`- Nama saluran pengiriman. Secara default, AWS Config menetapkan nama `default` ke saluran pengiriman baru. Anda tidak dapat memperbarui nama saluran pengiriman dengan perintah. `put-delivery-channel` Untuk langkah-langkah untuk mengubah nama, lihat Mengganti nama Saluran Pengiriman. `s3BucketName` - Nama bucket Amazon S3 tempat AWS Config memberikan snapshot konfigurasi dan file riwayat konfigurasi. Jika Anda menentukan bucket milik AWS akun lain, bucket tersebut harus memiliki kebijakan yang memberikan izin akses ke Config. AWS Untuk informasi selengkapnya, lihat Izin untuk Bucket Amazon S3.  
`snsTopicARN`- Nama Sumber Daya Amazon (ARN) dari topik Amazon SNS tempat AWS Config mengirimkan pemberitahuan tentang perubahan konfigurasi. Jika Anda memilih topik dari akun lain, topik tersebut harus memiliki kebijakan yang memberikan izin akses ke Config. AWS Untuk informasi selengkapnya, lihat Izin untuk Topik Amazon SNS.  
`configSnapshotDeliveryProperties`- Berisi `deliveryFrequency` atribut, yang menetapkan seberapa sering AWS Config memberikan snapshot konfigurasi dan seberapa sering ia memanggil evaluasi untuk aturan Config periodik.  
Jika perintah berhasil, AWS Config tidak mengembalikan output. Untuk memverifikasi pengaturan saluran pengiriman Anda, jalankan describe-delivery-channels perintah.  
+  Untuk detail API, lihat [PutDeliveryChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/put-delivery-channel.html)di *Referensi AWS CLI Perintah*. 

### `start-config-rules-evaluation`
<a name="config-service_StartConfigRulesEvaluation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-config-rules-evaluation`.

**AWS CLI**  
**Untuk menjalankan evaluasi sesuai permintaan untuk aturan AWS Config**  
Perintah berikut memulai evaluasi untuk dua aturan AWS terkelola:  

```
aws configservice start-config-rules-evaluation --config-rule-names s3-bucket-versioning-enabled cloudtrail-enabled
```
+  Untuk detail API, lihat [StartConfigRulesEvaluation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/start-config-rules-evaluation.html)di *Referensi AWS CLI Perintah*. 

### `start-configuration-recorder`
<a name="config-service_StartConfigurationRecorder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-configuration-recorder`.

**AWS CLI**  
**Untuk memulai perekam konfigurasi**  
Perintah berikut memulai perekam konfigurasi default:  

```
aws configservice start-configuration-recorder --configuration-recorder-name default
```
Jika perintah berhasil, AWS Config tidak mengembalikan output. Untuk memverifikasi bahwa AWS Config merekam sumber daya Anda, jalankan perintah get-status.  
+  Untuk detail API, lihat [StartConfigurationRecorder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/start-configuration-recorder.html)di *Referensi AWS CLI Perintah*. 

### `stop-configuration-recorder`
<a name="config-service_StopConfigurationRecorder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-configuration-recorder`.

**AWS CLI**  
**Untuk menghentikan perekam konfigurasi**  
Perintah berikut menghentikan perekam konfigurasi default:  

```
aws configservice stop-configuration-recorder --configuration-recorder-name default
```
Jika perintah berhasil, AWS Config tidak mengembalikan output. Untuk memverifikasi bahwa AWS Config tidak merekam sumber daya Anda, jalankan perintah get-status.  
+  Untuk detail API, lihat [StopConfigurationRecorder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/stop-configuration-recorder.html)di *Referensi AWS CLI Perintah*. 

### `subscribe`
<a name="config-service_Subscribe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`subscribe`.

**AWS CLI**  
**Untuk berlangganan AWS Config**  
Perintah berikut membuat saluran pengiriman default dan perekam konfigurasi. Perintah ini juga menentukan bucket Amazon S3 dan topik Amazon SNS tempat AWS Config akan memberikan informasi konfigurasi:  

```
aws configservice subscribe --s3-bucket config-bucket-123456789012 --sns-topic arn:aws:sns:us-east-1:123456789012:config-topic --iam-role arn:aws:iam::123456789012:role/ConfigRole-A1B2C3D4E5F6
```
Output:  

```
Using existing S3 bucket: config-bucket-123456789012
Using existing SNS topic: arn:aws:sns:us-east-1:123456789012:config-topic
Subscribe succeeded:

Configuration Recorders: [
    {
        "recordingGroup": {
            "allSupported": true,
            "resourceTypes": [],
            "includeGlobalResourceTypes": false
        },
        "roleARN": "arn:aws:iam::123456789012:role/ConfigRole-A1B2C3D4E5F6",
        "name": "default"
    }
]

Delivery Channels: [
    {
        "snsTopicARN": "arn:aws:sns:us-east-1:123456789012:config-topic",
        "name": "default",
        "s3BucketName": "config-bucket-123456789012"
    }
]
```
+  Untuk detail API, lihat [Berlangganan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/configservice/subscribe.html) di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Connect menggunakan AWS CLI
<a name="cli_2_connect_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Amazon Connect.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-user`
<a name="connect_CreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user`.

**AWS CLI**  
**Untuk membuat pengguna**  
`create-user`Contoh berikut menambahkan pengguna dengan atribut yang ditentukan ke instance Amazon Connect yang ditentukan.  

```
aws connect create-user \
    --username Mary \
    --password Pass@Word1 \
    --identity-info FirstName=Mary,LastName=Major \
    --phone-config PhoneType=DESK_PHONE,AutoAccept=true,AfterContactWorkTimeLimit=60,DeskPhoneNumber=+15555551212 \
    --security-profile-id 12345678-1111-2222-aaaa-a1b2c3d4f5g7 \
    --routing-profile-id 87654321-9999-3434-abcd-x1y2z3a1b2c3 \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "UserId": "87654321-2222-1234-1234-111234567891",
    "UserArn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/agent/87654321-2222-1234-1234-111234567891"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan Pengguna](https://docs.aws.amazon.com/connect/latest/adminguide/user-management.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [CreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/create-user.html)di *Referensi AWS CLI Perintah*. 

### `delete-user`
<a name="connect_DeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna**  
`delete-user`Contoh berikut menghapus pengguna yang ditentukan dari instance Amazon Connect yang ditentukan.  

```
aws connect delete-user \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --user-id 87654321-2222-1234-1234-111234567891
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Pengguna](https://docs.aws.amazon.com/connect/latest/adminguide/manage-users.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [DeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/delete-user.html)di *Referensi AWS CLI Perintah*. 

### `describe-user-hierarchy-group`
<a name="connect_DescribeUserHierarchyGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user-hierarchy-group`.

**AWS CLI**  
**Untuk menampilkan detail untuk grup hierarki**  
`describe-user-hierarchy-group`Contoh berikut menampilkan detail untuk grup hierarki Amazon Connect yang ditentukan.  

```
aws connect describe-user-hierarchy-group \
    --hierarchy-group-id 12345678-1111-2222-800e-aaabbb555gg \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
     "HierarchyGroup": {
         "Id": "12345678-1111-2222-800e-a2b3c4d5f6g7",
         "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/agent-group/12345678-1111-2222-800e-a2b3c4d5f6g7",
         "Name": "Example Corporation",
         "LevelId": "1",
         "HierarchyPath": {
             "LevelOne": {
                 "Id": "abcdefgh-3333-4444-8af3-201123456789",
                 "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/agent-group/abcdefgh-3333-4444-8af3-201123456789",
                 "Name": "Example Corporation"
             }
         }
     }
 }
```
Untuk informasi selengkapnya, lihat [Mengatur Hierarki Agen](https://docs.aws.amazon.com/connect/latest/adminguide/agent-hierarchy.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [DescribeUserHierarchyGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/describe-user-hierarchy-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-user-hierarchy-structure`
<a name="connect_DescribeUserHierarchyStructure_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user-hierarchy-structure`.

**AWS CLI**  
**Untuk menampilkan detail untuk struktur hierarki**  
`describe-user-hierarchy-structure`Contoh berikut menampilkan detail untuk struktur hierarki untuk instance Amazon Connect yang ditentukan.  

```
aws connect describe-user-hierarchy-group \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
     "HierarchyStructure": {
         "LevelOne": {
             "Id": "12345678-1111-2222-800e-aaabbb555gg",
             "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/agent-group-level/1",
             "Name": "Corporation"
         },
         "LevelTwo": {
             "Id": "87654321-2222-3333-ac99-123456789102",
             "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/agent-group-level/2",
             "Name": "Services Division"
         },
         "LevelThree": {
             "Id": "abcdefgh-3333-4444-8af3-201123456789",
             "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/agent-group-level/3",
             "Name": "EU Site"
         }
     }
 }
```
Untuk informasi selengkapnya, lihat [Mengatur Hierarki Agen](https://docs.aws.amazon.com/connect/latest/adminguide/agent-hierarchy.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [DescribeUserHierarchyStructure](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/describe-user-hierarchy-structure.html)di *Referensi AWS CLI Perintah*. 

### `describe-user`
<a name="connect_DescribeUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user`.

**AWS CLI**  
**Untuk menampilkan detail untuk pengguna**  
`describe-user`Contoh berikut menampilkan detail untuk pengguna Amazon Connect yang ditentukan.  

```
aws connect describe-user \
    --user-id 0c245dc0-0cf5-4e37-800e-2a7481cc8a60
    --instance-id 40c83b68-ea62-414c-97bb-d018e39e158e
```
Output:  

```
{
    "User": {
        "Id": "0c245dc0-0cf5-4e37-800e-2a7481cc8a60",
        "Arn": "arn:aws:connect:us-west-2:123456789012:instance/40c83b68-ea62-414c-97bb-d018e39e158e/agent/0c245dc0-0cf5-4e37-800e-2a7481cc8a60",
        "Username": "Jane",
        "IdentityInfo": {
            "FirstName": "Jane",
            "LastName": "Doe",
            "Email": "example.com"
        },
        "PhoneConfig": {
            "PhoneType": "SOFT_PHONE",
            "AutoAccept": false,
            "AfterContactWorkTimeLimit": 0,
            "DeskPhoneNumber": ""
        },
        "DirectoryUserId": "8b444cf6-b368-4f29-ba18-07af27405658",
        "SecurityProfileIds": [
            "b6f85a42-1dc5-443b-b621-de0abf70c9cf"
        ],
        "RoutingProfileId": "0be36ee9-2b5f-4ef4-bcf7-87738e5be0e5",
        "Tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Pengguna](https://docs.aws.amazon.com/connect/latest/adminguide/manage-users.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [DescribeUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/describe-user.html)di *Referensi AWS CLI Perintah*. 

### `get-contact-attributes`
<a name="connect_GetContactAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-contact-attributes`.

**AWS CLI**  
**Untuk mengambil atribut untuk kontak**  
`get-contact-attributes`Contoh berikut mengambil atribut yang ditetapkan untuk kontak Amazon Connect yang ditentukan.  

```
aws connect get-contact-attributes \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --initial-contact-id 12345678-1111-2222-800e-a2b3c4d5f6g7
```
Output:  

```
{
    "Attributes": {
        "greetingPlayed": "true"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Atribut Kontak Amazon Connect](https://docs.aws.amazon.com/connect/latest/adminguide/connect-contact-attributes.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [GetContactAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/get-contact-attributes.html)di *Referensi AWS CLI Perintah*. 

### `list-contact-flows`
<a name="connect_ListContactFlows_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-contact-flows`.

**AWS CLI**  
**Untuk membuat daftar alur kontak dalam sebuah instance**  
`list-contact-flows`Contoh berikut mencantumkan alur kontak dalam instance Amazon Connect yang ditentukan.  

```
aws connect list-contact-flows \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
     "ContactFlowSummaryList": [
         {
             "Id": "12345678-1111-2222-800e-a2b3c4d5f6g7",
             "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/contact-flow/12345678-1111-2222-800e-a2b3c4d5f6g7",
             "Name": "Default queue transfer",
             "ContactFlowType": "QUEUE_TRANSFER"
         },
         {
             "Id": "87654321-2222-3333-ac99-123456789102",
             "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/contact-flow/87654321-2222-3333-ac99-123456789102",
             "Name": "Default agent hold",
             "ContactFlowType": "AGENT_HOLD"
         },
         {
             "Id": "abcdefgh-3333-4444-8af3-201123456789",
                 "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/contact-flow/abcdefgh-3333-4444-8af3-201123456789",
             "Name": "Default customer hold",
             "ContactFlowType": "CUSTOMER_HOLD"
         },
     ]
 }
```
Untuk informasi selengkapnya, lihat [Membuat Alur Kontak Amazon Connect](https://docs.aws.amazon.com/connect/latest/adminguide/connect-contact-flows.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [ListContactFlows](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/list-contact-flows.html)di *Referensi AWS CLI Perintah*. 

### `list-hours-of-operations`
<a name="connect_ListHoursOfOperations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-hours-of-operations`.

**AWS CLI**  
**Untuk membuat daftar jam operasi dalam sebuah instance**  
`list-hours-of-operations`Contoh berikut mencantumkan jam operasi untuk instans Amazon Connect yang ditentukan.  

```
aws connect list-hours-of-operations \
    --instance-id 40c83b68-ea62-414c-97bb-d018e39e158e
```
Output:  

```
{
    "HoursOfOperationSummaryList": [
        {
            "Id": "d69f1f84-7457-4924-8fbe-e64875546259",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/40c83b68-ea62-414c-97bb-d018e39e158e/operating-hours/d69f1f84-7457-4924-8fbe-e64875546259",
            "Name": "Basic Hours"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengatur Jam Operasi untuk Antrian](https://docs.aws.amazon.com/connect/latest/adminguide/set-hours-operation.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [ListHoursOfOperations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/list-hours-of-operations.html)di *Referensi AWS CLI Perintah*. 

### `list-phone-numbers`
<a name="connect_ListPhoneNumbers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-phone-numbers`.

**AWS CLI**  
**Untuk mencantumkan nomor telepon dalam sebuah contoh**  
`list-phone-numbers`Contoh berikut mencantumkan nomor telepon dalam instans Amazon Connect yang ditentukan.  

```
aws connect list-phone-numbers \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "PhoneNumberSummaryList": [
        {
            "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/phone-number/xyz80zxy-xyz1-80zx-zx80-11111EXAMPLE",
            "PhoneNumber": "+17065551212",
            "PhoneNumberType": "DID",
            "PhoneNumberCountryCode": "US"
        },
        {
            "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/phone-number/ccc0ccc-xyz1-80zx-zx80-22222EXAMPLE",
            "PhoneNumber": "+18555551212",
            "PhoneNumberType": "TOLL_FREE",
            "PhoneNumberCountryCode": "US"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengatur Nomor Telepon untuk Pusat Kontak Anda](https://docs.aws.amazon.com/connect/latest/adminguide/contact-center-phone-number.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [ListPhoneNumbers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/list-phone-numbers.html)di *Referensi AWS CLI Perintah*. 

### `list-queues`
<a name="connect_ListQueues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-queues`.

**AWS CLI**  
**Untuk membuat daftar antrian dalam sebuah instance**  
`list-queues`Contoh berikut mencantumkan antrian dalam instance Amazon Connect yang ditentukan.  

```
aws connect list-queues \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "QueueSummaryList": [
        {
            "Id": "12345678-1111-2222-800e-a2b3c4d5f6g7",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/queue/agent/12345678-1111-2222-800e-a2b3c4d5f6g7",
            "QueueType": "AGENT"
        },
        {
            "Id": "87654321-2222-3333-ac99-123456789102",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/queue/agent/87654321-2222-3333-ac99-123456789102",
            "QueueType": "AGENT"
        },
        {
            "Id": "abcdefgh-3333-4444-8af3-201123456789",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/queue/agent/abcdefgh-3333-4444-8af3-201123456789",
            "QueueType": "AGENT"
        },
        {
            "Id": "hgfedcba-4444-5555-a31f-123456789102",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/queue/hgfedcba-4444-5555-a31f-123456789102",
            "Name": "BasicQueue",
            "QueueType": "STANDARD"
        },
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Antrian](https://docs.aws.amazon.com/connect/latest/adminguide/create-queue.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [ListQueues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/list-queues.html)di *Referensi AWS CLI Perintah*. 

### `list-routing-profiles`
<a name="connect_ListRoutingProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-routing-profiles`.

**AWS CLI**  
**Untuk membuat daftar profil perutean dalam sebuah instance**  
`list-routing-profiles`Contoh berikut mencantumkan profil perutean dalam instance Amazon Connect yang ditentukan.  

```
aws connect list-routing-profiles \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "RoutingProfileSummaryList": [
        {
            "Id": "12345678-1111-2222-800e-a2b3c4d5f6g7",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/routing-profile/12345678-1111-2222-800e-a2b3c4d5f6g7",
            "Name": "Basic Routing Profile"
        },
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Profil Perutean](https://docs.aws.amazon.com/connect/latest/adminguide/routing-profiles.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [ListRoutingProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/list-routing-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-security-profiles`
<a name="connect_ListSecurityProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-security-profiles`.

**AWS CLI**  
**Untuk membuat daftar profil keamanan dalam sebuah instance**  
`list-security-profiles`Contoh berikut mencantumkan profil keamanan dalam instans Amazon Connect yang ditentukan.  

```
aws connect list-security-profiles \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "SecurityProfileSummaryList": [
        {
            "Id": "12345678-1111-2222-800e-a2b3c4d5f6g7",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/security-profile/12345678-1111-2222-800e-a2b3c4d5f6g7",
            "Name": "CallCenterManager"
        },
        {
            "Id": "87654321-2222-3333-ac99-123456789102",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/security-profile/87654321-2222-3333-ac99-123456789102",
            "Name": "QualityAnalyst"
        },
        {
            "Id": "abcdefgh-3333-4444-8af3-201123456789",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/security-profile/abcdefgh-3333-4444-8af3-201123456789",
            "Name": "Agent"
        },
        {
            "Id": "12345678-1111-2222-800e-x2y3c4d5fzzzz",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111/security-profile/12345678-1111-2222-800e-x2y3c4d5fzzzz",
            "Name": "Admin"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menetapkan Izin: Profil Keamanan](https://docs.aws.amazon.com/connect/latest/adminguide/connect-security-profiles.html) di Panduan *Administrator Amazon Connect*.  
+  Untuk detail API, lihat [ListSecurityProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/list-security-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-user-hierarchy-groups`
<a name="connect_ListUserHierarchyGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-user-hierarchy-groups`.

**AWS CLI**  
**Untuk mencantumkan grup hierarki pengguna dalam sebuah instance**  
`list-user-hierarchy-groups`Contoh berikut mencantumkan grup hierarki pengguna dalam instance Amazon Connect yang ditentukan.  

```
aws connect list-user-hierarchy-groups \
    --instance-id 40c83b68-ea62-414c-97bb-d018e39e158e
```
Output:  

```
{
    "UserHierarchyGroupSummaryList": [
        {
            "Id": "0e2f6d1d-b3ca-494b-8dbc-ba81d9f8182a",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/40c83b68-ea62-414c-97bb-d018e39e158e/agent-group/0e2f6d1d-b3ca-494b-8dbc-ba81d9f8182a",
            "Name": "Example Corporation"
        },
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengatur Hierarki Agen](https://docs.aws.amazon.com/connect/latest/adminguide/agent-hierarchy.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [ListUserHierarchyGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/list-user-hierarchy-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-users`
<a name="connect_ListUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-users`.

**AWS CLI**  
**Untuk mencantumkan grup hierarki pengguna dalam sebuah instance**  
`list-users`Contoh berikut mencantumkan pengguna dalam instans Amazon Connect yang ditentukan.  

```
aws connect list-users \
    --instance-id 40c83b68-ea62-414c-97bb-d018e39e158e
```
Output:  

```
{
    "UserSummaryList": [
        {
            "Id": "0c245dc0-0cf5-4e37-800e-2a7481cc8a60",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/40c83b68-ea62-414c-97bb-d018e39e158e/agent/0c245dc0-0cf5-4e37-800e-2a7481cc8a60",
            "Username": "Jane"
        },
        {
            "Id": "46f0c67c-3fc7-4806-ac99-403798788c14",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/40c83b68-ea62-414c-97bb-d018e39e158e/agent/46f0c67c-3fc7-4806-ac99-403798788c14",
            "Username": "Paulo"
        },
        {
            "Id": "55a83578-95e1-4710-8af3-2b7afe310e48",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/40c83b68-ea62-414c-97bb-d018e39e158e/agent/55a83578-95e1-4710-8af3-2b7afe310e48",
            "Username": "JohnD"
        },
        {
            "Id": "703e27b5-c9f0-4f1f-a239-64ccbb160125",
            "Arn": "arn:aws:connect:us-west-2:123456789012:instance/40c83b68-ea62-414c-97bb-d018e39e158e/agent/703e27b5-c9f0-4f1f-a239-64ccbb160125",
            "Username": "JohnS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menambahkan Pengguna](https://docs.aws.amazon.com/connect/latest/adminguide/user-management.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [ListUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/list-users.html)di *Referensi AWS CLI Perintah*. 

### `update-contact-attributes`
<a name="connect_UpdateContactAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-contact-attributes`.

**AWS CLI**  
**Untuk memperbarui atribut kontak**  
`update-contact-attributes`Contoh berikut memperbarui `greetingPlayed` atribut untuk pengguna Amazon Connect yang ditentukan.  

```
aws connect update-contact-attributes \
    --initial-contact-id 11111111-2222-3333-4444-12345678910 \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --attributes greetingPlayed=false
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan Atribut Kontak Amazon Connect](https://docs.aws.amazon.com/connect/latest/adminguide/connect-contact-attributes.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [UpdateContactAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/update-contact-attributes.html)di *Referensi AWS CLI Perintah*. 

### `update-user-hierarchy`
<a name="connect_UpdateUserHierarchy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-hierarchy`.

**AWS CLI**  
**Untuk memperbarui hierarki pengguna**  
`update-user-hierarchy`Contoh berikut memperbarui hierarki agen untuk pengguna Amazon Connect yang ditentukan.  

```
aws connect update-user-hierarchy \
    --hierarchy-group-id 12345678-a1b2-c3d4-e5f6-123456789abc \
    --user-id 87654321-2222-1234-1234-111234567891 \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengkonfigurasi Pengaturan Agen](https://docs.aws.amazon.com/connect/latest/adminguide/configure-agents.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [UpdateUserHierarchy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/update-user-hierarchy.html)di *Referensi AWS CLI Perintah*. 

### `update-user-identity-info`
<a name="connect_UpdateUserIdentityInfo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-identity-info`.

**AWS CLI**  
**Untuk memperbarui informasi identitas pengguna**  
`update-user-identity-info`Contoh berikut memperbarui informasi identitas untuk pengguna Amazon Connect yang ditentukan.  

```
aws connect update-user-identity-info \
    --identity-info FirstName=Mary,LastName=Major,Email=marym@example.com \
    --user-id 87654321-2222-1234-1234-111234567891 \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengkonfigurasi Pengaturan Agen](https://docs.aws.amazon.com/connect/latest/adminguide/configure-agents.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [UpdateUserIdentityInfo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/update-user-identity-info.html)di *Referensi AWS CLI Perintah*. 

### `update-user-phone-config`
<a name="connect_UpdateUserPhoneConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-phone-config`.

**AWS CLI**  
**Untuk memperbarui konfigurasi telepon pengguna**  
`update-user-phone-config`Contoh berikut memperbarui konfigurasi telepon untuk pengguna yang ditentukan.  

```
aws connect update-user-phone-config \
    --phone-config PhoneType=SOFT_PHONE,AutoAccept=false,AfterContactWorkTimeLimit=60,DeskPhoneNumber=+18005551212 \
    --user-id 12345678-4444-3333-2222-111122223333 \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengkonfigurasi Pengaturan Agen](https://docs.aws.amazon.com/connect/latest/adminguide/configure-agents.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [UpdateUserPhoneConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/update-user-phone-config.html)di *Referensi AWS CLI Perintah*. 

### `update-user-routing-profile`
<a name="connect_UpdateUserRoutingProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-routing-profile`.

**AWS CLI**  
**Untuk memperbarui profil perutean pengguna**  
`update-user-routing-profile`Contoh berikut memperbarui profil perutean untuk pengguna Amazon Connect yang ditentukan.  

```
aws connect update-user-routing-profile \
    --routing-profile-id 12345678-1111-3333-2222-4444EXAMPLE \
    --user-id 87654321-2222-1234-1234-111234567891 \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengkonfigurasi Pengaturan Agen](https://docs.aws.amazon.com/connect/latest/adminguide/configure-agents.html) di *Panduan Administrator Amazon Connect*.  
+  Untuk detail API, lihat [UpdateUserRoutingProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/update-user-routing-profile.html)di *Referensi AWS CLI Perintah*. 

### `update-user-security-profiles`
<a name="connect_UpdateUserSecurityProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user-security-profiles`.

**AWS CLI**  
**Untuk memperbarui profil keamanan pengguna**  
`update-user-security-profiles`Contoh berikut memperbarui profil keamanan untuk pengguna Amazon Connect yang ditentukan.  

```
aws connect update-user-security-profiles \
    --security-profile-ids 12345678-1234-1234-1234-1234567892111 \
    --user-id 87654321-2222-1234-1234-111234567891 \
    --instance-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menetapkan Izin: Profil Keamanan](https://docs.aws.amazon.com/connect/latest/adminguide/connect-security-profiles.html) di Panduan *Administrator Amazon Connect*.  
+  Untuk detail API, lihat [UpdateUserSecurityProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/connect/update-user-security-profiles.html)di *Referensi AWS CLI Perintah*. 

# AWS Cost and Usage Report contoh menggunakan AWS CLI
<a name="cli_2_cost-and-usage-report-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Cost and Usage Report.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-report-definition`
<a name="cost-and-usage-report-service_DeleteReportDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-report-definition`.

**AWS CLI**  
**Untuk menghapus Laporan AWS Biaya dan Penggunaan**  
Contoh ini menghapus Laporan AWS Biaya dan Penggunaan.  
Perintah:  

```
aws cur --region us-east-1 delete-report-definition --report-name "ExampleReport"
```
+  Untuk detail API, lihat [DeleteReportDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cur/delete-report-definition.html)di *Referensi AWS CLI Perintah*. 

### `describe-report-definitions`
<a name="cost-and-usage-report-service_DescribeReportDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-report-definitions`.

**AWS CLI**  
**Untuk mengambil daftar Laporan AWS Biaya dan Penggunaan**  
Contoh ini menjelaskan daftar Laporan AWS Biaya dan Penggunaan yang dimiliki oleh akun.  
Perintah:  

```
aws cur --region us-east-1 describe-report-definitions --max-items 5
```
Output:  

```
  {
"ReportDefinitions": [
  {
      "ReportName": "ExampleReport",
      "Compression": "ZIP",
      "S3Region": "us-east-1",
      "Format": "textORcsv",
      "S3Prefix": "exampleprefix",
      "S3Bucket": "example-s3-bucket",
      "TimeUnit": "DAILY",
      "AdditionalArtifacts": [
          "REDSHIFT",
          "QUICKSIGHT"
      ],
      "AdditionalSchemaElements": [
          "RESOURCES"
      ]
  }
]
  }
```
+  Untuk detail API, lihat [DescribeReportDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cur/describe-report-definitions.html)di *Referensi AWS CLI Perintah*. 

### `put-report-definition`
<a name="cost-and-usage-report-service_PutReportDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-report-definition`.

**AWS CLI**  
**Untuk membuat Laporan AWS Biaya dan Penggunaan**  
`put-report-definition`Contoh berikut membuat Laporan AWS Biaya dan Penggunaan harian yang dapat Anda unggah ke Amazon Redshift atau Amazon. QuickSight  

```
aws cur put-report-definition --report-definition file://report-definition.json
```
Isi dari `report-definition.json`:  

```
{
    "ReportName": "ExampleReport",
    "TimeUnit": "DAILY",
    "Format": "textORcsv",
    "Compression": "ZIP",
    "AdditionalSchemaElements": [
        "RESOURCES"
    ],
    "S3Bucket": "example-s3-bucket",
    "S3Prefix": "exampleprefix",
    "S3Region": "us-east-1",
    "AdditionalArtifacts": [
        "REDSHIFT",
        "QUICKSIGHT"
    ]
}
```
+  Untuk detail API, lihat [PutReportDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/cur/put-report-definition.html)di *Referensi AWS CLI Perintah*. 

# Contoh Layanan Cost Explorer menggunakan AWS CLI
<a name="cli_2_cost-explorer_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Layanan AWS Command Line Interface With Cost Explorer.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `get-cost-and-usage`
<a name="cost-explorer_GetCostAndUsage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-cost-and-usage`.

**AWS CLI**  
**Untuk mengambil penggunaan akun S3 untuk bulan September 2017**  
`get-cost-and-usage`Contoh berikut mengambil penggunaan akun S3 untuk bulan September 2017.  

```
aws ce get-cost-and-usage \
    --time-period Start=2017-09-01,End=2017-10-01 \
    --granularity MONTHLY \
    --metrics "BlendedCost" "UnblendedCost" "UsageQuantity" \
    --group-by Type=DIMENSION,Key=SERVICE Type=TAG,Key=Environment \
    --filter file://filters.json
```
Isi dari `filters.json`:  

```
{
    "Dimensions": {
        "Key": "SERVICE",
        "Values": [
            "Amazon Simple Storage Service"
        ]
    }
}
```
Output:  

```
{
    "GroupDefinitions": [
        {
            "Type": "DIMENSION",
            "Key": "SERVICE"
        },
        {
            "Type": "TAG",
            "Key": "Environment"
        }
    ],
    "ResultsByTime": [
        {
            "Estimated": false,
            "TimePeriod": {
                "Start": "2017-09-01",
                "End": "2017-10-01"
            },
            "Total": {},
            "Groups": [
                {
                    "Keys": [
                        "Amazon Simple Storage Service",
                        "Environment$"
                    ],
                    "Metrics": {
                        "BlendedCost": {
                            "Amount": "40.3527508453",
                            "Unit": "USD"
                        },
                        "UnblendedCost": {
                            "Amount": "40.3543773134",
                            "Unit": "USD"
                        },
                        "UsageQuantity": {
                            "Amount": "9312771.098461578",
                            "Unit": "N/A"
                        }
                    }
                },
                {
                    "Keys": [
                        "Amazon Simple Storage Service",
                        "Environment$Dev"
                    ],
                    "Metrics": {
                        "BlendedCost": {
                            "Amount": "0.2682364644",
                            "Unit": "USD"
                        },
                        "UnblendedCost": {
                            "Amount": "0.2682364644",
                            "Unit": "USD"
                        },
                        "UsageQuantity": {
                            "Amount": "22403.4395271182",
                            "Unit": "N/A"
                        }
                    }
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [GetCostAndUsage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ce/get-cost-and-usage.html)di *Referensi AWS CLI Perintah*. 

### `get-dimension-values`
<a name="cost-explorer_GetDimensionValues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-dimension-values`.

**AWS CLI**  
**Untuk mengambil tag untuk dimensi SERVICE, dengan nilai “Elastis”**  
Contoh ini mengambil tag untuk dimensi SERVICE, dengan nilai “Elastis” untuk 01 Januari 2017 hingga 18 Mei 2017.  
Perintah:  

```
aws ce get-dimension-values --search-string Elastic --time-period Start=2017-01-01,End=2017-05-18 --dimension SERVICE
```
Output:  

```
{
   "TotalSize": 6,
   "DimensionValues": [
       {
           "Attributes": {},
           "Value": "Amazon ElastiCache"
       },
       {
           "Attributes": {},
           "Value": "EC2 - Other"
       },
       {
           "Attributes": {},
           "Value": "Amazon Elastic Compute Cloud - Compute"
       },
       {
           "Attributes": {},
           "Value": "Amazon Elastic Load Balancing"
       },
       {
           "Attributes": {},
           "Value": "Amazon Elastic MapReduce"
       },
       {
           "Attributes": {},
           "Value": "Amazon Elasticsearch Service"
       }
   ],
   "ReturnSize": 6
}
```
+  Untuk detail API, lihat [GetDimensionValues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ce/get-dimension-values.html)di *Referensi AWS CLI Perintah*. 

### `get-reservation-coverage`
<a name="cost-explorer_GetReservationCoverage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reservation-coverage`.

**AWS CLI**  
**Untuk mengambil cakupan reservasi untuk instans EC2 t2.nano di wilayah us-east-1**  
Contoh ini mengambil cakupan reservasi untuk instans EC2 t2.nano di wilayah us-east-1 untuk Juli-September 2017.  
Perintah:  

```
aws ce get-reservation-coverage --time-period Start=2017-07-01,End=2017-10-01 --group-by Type=Dimension,Key=REGION --filter file://filters.json
```
filters.json:  

```
{
   "And": [
     {
       "Dimensions": {
         "Key": "INSTANCE_TYPE",
         "Values": [
           "t2.nano"
         ]
       },
       "Dimensions": {
         "Key": "REGION",
         "Values": [
           "us-east-1"
         ]
       }
     }
   ]
 }
```
Output:  

```
{
   "TotalSize": 6,
   "DimensionValues": [
       {
           "Attributes": {},
           "Value": "Amazon ElastiCache"
       },
       {
           "Attributes": {},
           "Value": "EC2 - Other"
       },
       {
           "Attributes": {},
           "Value": "Amazon Elastic Compute Cloud - Compute"
       },
       {
           "Attributes": {},
           "Value": "Amazon Elastic Load Balancing"
       },
       {
           "Attributes": {},
           "Value": "Amazon Elastic MapReduce"
       },
       {
           "Attributes": {},
           "Value": "Amazon Elasticsearch Service"
       }
   ],
   "ReturnSize": 6
}
```
+  Untuk detail API, lihat [GetReservationCoverage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ce/get-reservation-coverage.html)di *Referensi AWS CLI Perintah*. 

### `get-reservation-purchase-recommendation`
<a name="cost-explorer_GetReservationPurchaseRecommendation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reservation-purchase-recommendation`.

**AWS CLI**  
**Untuk mengambil rekomendasi reservasi untuk Partial Upfront EC2 RIs dengan jangka waktu tiga tahun**  
`get-reservation-purchase-recommendation`Contoh berikut mengambil rekomendasi untuk instans EC2 Partial Upfront dengan jangka waktu tiga tahun, berdasarkan 60 hari terakhir penggunaan EC2.  

```
aws ce get-reservation-purchase-recommendation \
    --service "Amazon Redshift" \
    --lookback-period-in-days SIXTY_DAYS \
    --term-in-years THREE_YEARS \
    --payment-option PARTIAL_UPFRONT
```
Output:  

```
{
    "Recommendations": [],
    "Metadata": {
        "GenerationTimestamp": "2018-08-08T15:20:57Z",
        "RecommendationId": "00d59dde-a1ad-473f-8ff2-iexample3330b"
    }
}
```
+  Untuk detail API, lihat [GetReservationPurchaseRecommendation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ce/get-reservation-purchase-recommendation.html)di *Referensi AWS CLI Perintah*. 

### `get-reservation-utilization`
<a name="cost-explorer_GetReservationUtilization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reservation-utilization`.

**AWS CLI**  
**Untuk mengambil pemanfaatan reservasi untuk akun Anda**  
`get-reservation-utilization`Contoh berikut mengambil pemanfaatan RI untuk semua jenis instans t2.nano dari 2018-03-01 hingga 2018-08-01 untuk akun tersebut.  

```
aws ce get-reservation-utilization \
    --time-period Start=2018-03-01,End=2018-08-01 \
    --filter file://filters.json
```
Isi dari `filters.json`:  

```
{
    "Dimensions": {
        "Key": "INSTANCE_TYPE",
        "Values": [
            "t2.nano"
        ]
    }
}
```
Output:  

```
{
    "Total": {
        "TotalAmortizedFee": "0",
        "UtilizationPercentage": "0",
        "PurchasedHours": "0",
        "NetRISavings": "0",
        "TotalActualHours": "0",
        "AmortizedRecurringFee": "0",
        "UnusedHours": "0",
        "TotalPotentialRISavings": "0",
        "OnDemandCostOfRIHoursUsed": "0",
        "AmortizedUpfrontFee": "0"
    },
    "UtilizationsByTime": []
}
```
+  Untuk detail API, lihat [GetReservationUtilization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ce/get-reservation-utilization.html)di *Referensi AWS CLI Perintah*. 

### `get-tags`
<a name="cost-explorer_GetTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-tags`.

**AWS CLI**  
**Untuk mengambil kunci dan nilai untuk tag alokasi biaya**  
Contoh ini mengambil semua tag alokasi biaya dengan kunci “Proyek” dan nilai yang berisi “SecretProject”.  
Perintah:  

```
aws ce get-tags --search-string secretProject --time-period Start=2017-01-01,End=2017-05-18 --tag-key Project
```
Output:  

```
{
  "ReturnSize": 2,
  "Tags": [
    "secretProject1",
    "secretProject2"
  ],
  "TotalSize": 2
}
```
+  Untuk detail API, lihat [GetTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ce/get-tags.html)di *Referensi AWS CLI Perintah*. 

# Contoh Firehose menggunakan AWS CLI
<a name="cli_2_firehose_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS Command Line Interface Firehose with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `list-delivery-streams`
<a name="firehose_ListDeliveryStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-delivery-streams`.

**AWS CLI**  
**Untuk membuat daftar aliran pengiriman yang tersedia**  
`list-delivery-streams`Contoh berikut mencantumkan aliran pengiriman yang tersedia di AWS akun Anda.  

```
aws firehose list-delivery-streams
```
Output:  

```
{
    "DeliveryStreamNames": [
        "my-stream"
    ],
    "HasMoreDeliveryStreams": false
}
```
Untuk informasi selengkapnya, lihat [Membuat Aliran Pengiriman Amazon Kinesis Data Firehose](https://docs.aws.amazon.com/firehose/latest/dev/basic-create.html) di *Panduan Developer Amazon Kinesis Data Firehose*.  
+  Untuk detail API, lihat [ListDeliveryStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/firehose/list-delivery-streams.html)di *Referensi AWS CLI Perintah*. 

### `put-record-batch`
<a name="firehose_PutRecordBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-record-batch`.

**AWS CLI**  
**Untuk menulis beberapa catatan ke aliran**  
`put-record-batch`Contoh berikut menulis tiga catatan ke aliran. Data dikodekan dalam format Base64.  

```
aws firehose put-record-batch \
    --delivery-stream-name my-stream \
    --records file://records.json
```
Isi dari `myfile.json`:  

```
[
    {"Data": "Rmlyc3QgdGhpbmc="},
    {"Data": "U2Vjb25kIHRoaW5n"},
    {"Data": "VGhpcmQgdGhpbmc="}
]
```
Output:  

```
{
    "FailedPutCount": 0,
    "Encrypted": false,
    "RequestResponses": [
        {
            "RecordId": "9D2OJ6t2EqCTZTXwGzeSv/EVHxRoRCw89xd+o3+sXg8DhYOaWKPSmZy/CGlRVEys1u1xbeKh6VofEYKkoeiDrcjrxhQp9iF7sUW7pujiMEQ5LzlrzCkGosxQn+3boDnURDEaD42V7GiixpOyLJkYZcae1i7HzlCEoy9LJhMr8EjDSi4Om/9Vc2uhwwuAtGE0XKpxJ2WD7ZRWtAnYlKAnvgSPRgg7zOWL"
        },
        {
            "RecordId": "jFirejqxCLlK5xjH/UNmlMVcjktEN76I7916X9PaZ+PVaOSXDfU1WGOqEZhxq2js7xcZ552eoeDxsuTU1MSq9nZTbVfb6cQTIXnm/GsuF37Uhg67GKmR5z90l6XKJ+/+pDloFv7Hh9a3oUS6wYm3DcNRLTHHAimANp1PhkQvWpvLRfzbuCUkBphR2QVzhP9OiHLbzGwy8/DfH8sqWEUYASNJKS8GXP5s"
        },
        {
            "RecordId": "oy0amQ40o5Y2YV4vxzufdcMOOw6n3EPr3tpPJGoYVNKH4APPVqNcbUgefo1stEFRg4hTLrf2k6eliHu/9+YJ5R3iiedHkdsfkIqX0XTySSutvgFYTjNY1TSrK0pM2sWxpjqqnk3+2UX1MV5z88xGro3cQm/DTBt3qBlmTj7Xq8SKVbO1S7YvMTpWkMKA86f8JfmT8BMKoMb4XZS/sOkQLe+qh0sYKXWl"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengirim Data ke Aliran Pengiriman Amazon Kinesis Data Firehose](https://docs.aws.amazon.com/firehose/latest/dev/basic-write.html) *di Panduan Pengembang Amazon Kinesis Data Firehose*.  
+  Untuk detail API, lihat [PutRecordBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/firehose/put-record-batch.html)di *Referensi AWS CLI Perintah*. 

### `put-record`
<a name="firehose_PutRecord_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-record`.

**AWS CLI**  
**Untuk menulis catatan ke aliran**  
`put-record`Contoh berikut menulis data ke aliran. Data dikodekan dalam format Base64.  

```
aws firehose put-record \
    --delivery-stream-name my-stream \
    --record '{"Data":"SGVsbG8gd29ybGQ="}'
```
Output:  

```
{
    "RecordId": "RjB5K/nnoGFHqwTsZlNd/TTqvjE8V5dsyXZTQn2JXrdpMTOwssyEb6nfC8fwf1whhwnItt4mvrn+gsqeK5jB7QjuLg283+Ps4Sz/j1Xujv31iDhnPdaLw4BOyM9Amv7PcCuB2079RuM0NhoakbyUymlwY8yt20G8X2420wu1jlFafhci4erAt7QhDEvpwuK8N1uOQ1EuaKZWxQHDzcG6tk1E49IPeD9k",
    "Encrypted": false
}
```
Untuk informasi selengkapnya, lihat [Mengirim Data ke Aliran Pengiriman Amazon Kinesis Data Firehose](https://docs.aws.amazon.com/firehose/latest/dev/basic-write.html) *di Panduan Pengembang Amazon Kinesis Data Firehose*.  
+  Untuk detail API, lihat [PutRecord](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/firehose/put-record.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Data Lifecycle Manager menggunakan AWS CLI
<a name="cli_2_dlm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Amazon Data Lifecycle Manager AWS Command Line Interface with Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-default-role`
<a name="dlm_CreateDefaultRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-default-role`.

**AWS CLI**  
**Untuk membuat peran IAM yang diperlukan untuk Amazon DLM**  
`dlm create-default-role`Contoh berikut membuat peran AWS DataLifecycleManagerDefaultRole default untuk mengelola snapshot.  

```
aws dlm create-default-role \
    --resource-type snapshot
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Peran layanan default untuk Amazon Data Lifecycle Manager di](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/service-role.html#default-service-roles) Panduan Pengguna *Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [CreateDefaultRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dlm/create-default-role.html)di *Referensi AWS CLI Perintah*. 

### `create-lifecycle-policy`
<a name="dlm_CreateLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-lifecycle-policy`.

**AWS CLI**  
**Untuk membuat kebijakan siklus hidup**  
`create-lifecycle-policy`Contoh berikut membuat kebijakan siklus hidup yang membuat snapshot harian volume pada waktu yang ditentukan. Tag yang ditentukan ditambahkan ke snapshot, dan tag juga disalin dari volume dan ditambahkan ke snapshot. Jika membuat snapshot baru melebihi jumlah maksimum yang ditentukan, snapshot tertua akan dihapus.  

```
aws dlm create-lifecycle-policy \
    --description "My first policy" \
    --state ENABLED \
    --execution-role-arn arn:aws:iam::12345678910:role/AWSDataLifecycleManagerDefaultRole \
    --policy-details file://policyDetails.json
```
Isi dari `policyDetails.json`:  

```
{
    "ResourceTypes": [
        "VOLUME"
    ],
    "TargetTags": [
        {
            "Key": "costCenter",
            "Value": "115"
        }
    ],
    "Schedules":[
        {
            "Name": "DailySnapshots",
            "CopyTags": true,
            "TagsToAdd": [
                {
                    "Key": "type",
                     "Value": "myDailySnapshot"
                }
            ],
            "CreateRule": {
                "Interval": 24,
                "IntervalUnit": "HOURS",
                "Times": [
                    "03:00"
                ]
            },
            "RetainRule": {
                "Count":5
            }
        }
    ]
}
```
Output:  

```
{
    "PolicyId": "policy-0123456789abcdef0"
}
```
+  Untuk detail API, lihat [CreateLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dlm/create-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-lifecycle-policy`
<a name="dlm_DeleteLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-lifecycle-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan siklus hidup**  
Contoh berikut menghapus kebijakan siklus hidup yang ditentukan. :  

```
aws dlm delete-lifecycle-policy --policy-id policy-0123456789abcdef0
```
+  Untuk detail API, lihat [DeleteLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dlm/delete-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-lifecycle-policies`
<a name="dlm_GetLifecyclePolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-lifecycle-policies`.

**AWS CLI**  
**Untuk mendapatkan ringkasan kebijakan siklus hidup Anda**  
`get-lifecycle-policies`Contoh berikut mencantumkan semua kebijakan siklus hidup Anda.  

```
aws dlm get-lifecycle-policies
```
Output:  

```
{
    "Policies": [
        {
            "PolicyId": "policy-0123456789abcdef0",
            "Description": "My first policy",
            "State": "ENABLED"
        }
    ]
}
```
+  Untuk detail API, lihat [GetLifecyclePolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dlm/get-lifecycle-policies.html)di *Referensi AWS CLI Perintah*. 

### `get-lifecycle-policy`
<a name="dlm_GetLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-lifecycle-policy`.

**AWS CLI**  
**Untuk menjelaskan kebijakan siklus hidup**  
`get-lifecycle-policy`Contoh berikut menampilkan detail untuk kebijakan siklus hidup yang ditentukan.  

```
aws dlm get-lifecycle-policy \
    --policy-id policy-0123456789abcdef0
```
Output:  

```
{
    "Policy": {
        "PolicyId": "policy-0123456789abcdef0",
        "Description": "My policy",
        "State": "ENABLED",
        "ExecutionRoleArn": "arn:aws:iam::123456789012:role/AWSDataLifecycleManagerDefaultRole",
        "DateCreated": "2019-08-08T17:45:42Z",
        "DateModified": "2019-08-08T17:45:42Z",
        "PolicyDetails": {
            "PolicyType": "EBS_SNAPSHOT_MANAGEMENT",
            "ResourceTypes": [
                "VOLUME"
            ],
            "TargetTags": [
              {
                  "Key": "costCenter",
                  "Value": "115"
              }
            ],
            "Schedules": [
              {
                  "Name": "DailySnapshots",
                  "CopyTags": true,
                  "TagsToAdd": [
                    {
                        "Key": "type",
                        "Value": "myDailySnapshot"
                    }
                  ],
                  "CreateRule": {
                    "Interval": 24,
                    "IntervalUnit": "HOURS",
                    "Times": [
                        "03:00"
                    ]
                  },
                  "RetainRule": {
                    "Count": 5
                  }
              }
            ]
        }
    }
}
```
+  Untuk detail API, lihat [GetLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dlm/get-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `update-lifecycle-policy`
<a name="dlm_UpdateLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-lifecycle-policy`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan kebijakan siklus hidup**  
`update-lifecycle-policy`Contoh berikut mengaktifkan kebijakan siklus hidup yang ditentukan.  

```
aws dlm update-lifecycle-policy \
    --policy-id policy-0123456789abcdef0 \
    --state ENABLED
```
**Contoh 2: Untuk menonaktifkan kebijakan siklus hidup**  
`update-lifecycle-policy`Contoh berikut menonaktifkan kebijakan siklus hidup yang ditentukan.  

```
aws dlm update-lifecycle-policy \
    --policy-id policy-0123456789abcdef0 \
    --state DISABLED
```
**Contoh 3: Untuk memperbarui detail kebijakan siklus hidup**  
`update-lifecycle-policy`Contoh berikut memperbarui tag target untuk kebijakan siklus hidup yang ditentukan.  

```
aws dlm update-lifecycle-policy \
    --policy-id policy-0123456789abcdef0
    --policy-details file://policyDetails.json
```
Isi dari `policyDetails.json`. Detail lain yang tidak direferensikan dalam file ini tidak diubah oleh perintah.  

```
{
    "TargetTags": [
        {
            "Key": "costCenter",
            "Value": "120"
        },
        {
            "Key": "project",
            "Value": "lima"
        }
    ]
}
```
+  Untuk detail API, lihat [UpdateLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dlm/update-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

# AWS Data Pipeline contoh menggunakan AWS CLI
<a name="cli_2_data-pipeline_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Data Pipeline.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `activate-pipeline`
<a name="data-pipeline_ActivatePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`activate-pipeline`.

**AWS CLI**  
**Untuk mengaktifkan pipa**  
Contoh ini mengaktifkan pipeline yang ditentukan:  

```
aws datapipeline activate-pipeline --pipeline-id df-00627471SOVYZEXAMPLE
```
Untuk mengaktifkan pipeline pada tanggal dan waktu tertentu, gunakan perintah berikut:  

```
aws datapipeline activate-pipeline --pipeline-id df-00627471SOVYZEXAMPLE --start-timestamp 2015-04-07T00:00:00Z
```
+  Untuk detail API, lihat [ActivatePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/activate-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `add-tags`
<a name="data-pipeline_AddTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags`.

**AWS CLI**  
**Untuk menambahkan tag ke pipeline**  
Contoh ini menambahkan tag yang ditentukan ke pipeline yang ditentukan:  

```
aws datapipeline add-tags --pipeline-id df-00627471SOVYZEXAMPLE --tags key=environment,value=production key=owner,value=sales
```
Untuk melihat tag, gunakan perintah describe-pipelines. Misalnya, tag yang ditambahkan dalam perintah contoh muncul sebagai berikut dalam output untuk describe-pipelines:  

```
{
    ...
        "tags": [
            {
                "value": "production",
                "key": "environment"
            },
            {
                "value": "sales",
                "key": "owner"
            }
        ]
    ...
}
```
+  Untuk detail API, lihat [AddTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/add-tags.html)di *Referensi AWS CLI Perintah*. 

### `create-pipeline`
<a name="data-pipeline_CreatePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-pipeline`.

**AWS CLI**  
**Untuk membuat pipa**  
Contoh ini membuat pipeline:  

```
aws datapipeline create-pipeline --name my-pipeline --unique-id my-pipeline-token
```
Berikut ini adalah output contoh:  

```
{
    "pipelineId": "df-00627471SOVYZEXAMPLE"
}
```
+  Untuk detail API, lihat [CreatePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/create-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `deactivate-pipeline`
<a name="data-pipeline_DeactivatePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deactivate-pipeline`.

**AWS CLI**  
**Untuk menonaktifkan pipa**  
Contoh ini menonaktifkan pipeline yang ditentukan:  

```
aws datapipeline deactivate-pipeline --pipeline-id df-00627471SOVYZEXAMPLE
```
Untuk menonaktifkan pipeline hanya setelah semua aktivitas yang berjalan selesai, gunakan perintah berikut:  

```
aws datapipeline deactivate-pipeline --pipeline-id df-00627471SOVYZEXAMPLE --no-cancel-active
```
+  Untuk detail API, lihat [DeactivatePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/deactivate-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `delete-pipeline`
<a name="data-pipeline_DeletePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-pipeline`.

**AWS CLI**  
**Untuk menghapus pipeline**  
Contoh ini menghapus pipeline yang ditentukan:  

```
aws datapipeline delete-pipeline --pipeline-id df-00627471SOVYZEXAMPLE
```
+  Untuk detail API, lihat [DeletePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/delete-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `describe-pipelines`
<a name="data-pipeline_DescribePipelines_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-pipelines`.

**AWS CLI**  
**Untuk mendeskripsikan saluran pipa Anda**  
Contoh ini menjelaskan pipeline yang ditentukan:  

```
aws datapipeline describe-pipelines --pipeline-ids df-00627471SOVYZEXAMPLE
```
Berikut ini adalah output contoh:  

```
{
  "pipelineDescriptionList": [
      {
          "fields": [
              {
                  "stringValue": "PENDING",
                  "key": "@pipelineState"
              },
              {
                  "stringValue": "my-pipeline",
                  "key": "name"
              },
              {
                  "stringValue": "2015-04-07T16:05:58",
                  "key": "@creationTime"
              },
              {
                  "stringValue": "df-00627471SOVYZEXAMPLE",
                  "key": "@id"
              },
              {
                  "stringValue": "123456789012",
                  "key": "pipelineCreator"
              },
              {
                  "stringValue": "PIPELINE",
                  "key": "@sphere"
              },
              {
                  "stringValue": "123456789012",
                  "key": "@userId"
              },
              {
                  "stringValue": "123456789012",
                  "key": "@accountId"
              },
              {
                  "stringValue": "my-pipeline-token",
                  "key": "uniqueId"
              }
          ],
          "pipelineId": "df-00627471SOVYZEXAMPLE",
          "name": "my-pipeline",
          "tags": []
      }
  ]
}
```
+  Untuk detail API, lihat [DescribePipelines](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/describe-pipelines.html)di *Referensi AWS CLI Perintah*. 

### `get-pipeline-definition`
<a name="data-pipeline_GetPipelineDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-pipeline-definition`.

**AWS CLI**  
**Untuk mendapatkan definisi pipeline**  
Contoh ini mendapatkan definisi pipeline untuk pipeline yang ditentukan:  

```
aws datapipeline get-pipeline-definition --pipeline-id df-00627471SOVYZEXAMPLE
```
Berikut ini adalah output contoh:  

```
{
  "parameters": [
      {
          "type": "AWS::S3::ObjectKey",
          "id": "myS3OutputLoc",
          "description": "S3 output folder"
      },
      {
          "default": "s3://us-east-1.elasticmapreduce.samples/pig-apache-logs/data",
          "type": "AWS::S3::ObjectKey",
          "id": "myS3InputLoc",
          "description": "S3 input folder"
      },
      {
          "default": "grep -rc \"GET\" ${INPUT1_STAGING_DIR}/* > ${OUTPUT1_STAGING_DIR}/output.txt",
          "type": "String",
          "id": "myShellCmd",
          "description": "Shell command to run"
      }
  ],
  "objects": [
      {
          "type": "Ec2Resource",
          "terminateAfter": "20 Minutes",
          "instanceType": "t1.micro",
          "id": "EC2ResourceObj",
          "name": "EC2ResourceObj"
      },
      {
          "name": "Default",
          "failureAndRerunMode": "CASCADE",
          "resourceRole": "DataPipelineDefaultResourceRole",
          "schedule": {
              "ref": "DefaultSchedule"
          },
          "role": "DataPipelineDefaultRole",
          "scheduleType": "cron",
          "id": "Default"
      },
      {
          "directoryPath": "#{myS3OutputLoc}/#{format(@scheduledStartTime, 'YYYY-MM-dd-HH-mm-ss')}",
          "type": "S3DataNode",
          "id": "S3OutputLocation",
          "name": "S3OutputLocation"
      },
      {
          "directoryPath": "#{myS3InputLoc}",
          "type": "S3DataNode",
          "id": "S3InputLocation",
          "name": "S3InputLocation"
      },
      {
          "startAt": "FIRST_ACTIVATION_DATE_TIME",
          "name": "Every 15 minutes",
          "period": "15 minutes",
          "occurrences": "4",
          "type": "Schedule",
          "id": "DefaultSchedule"
      },
      {
          "name": "ShellCommandActivityObj",
          "command": "#{myShellCmd}",
          "output": {
              "ref": "S3OutputLocation"
          },
          "input": {
              "ref": "S3InputLocation"
          },
          "stage": "true",
          "type": "ShellCommandActivity",
          "id": "ShellCommandActivityObj",
          "runsOn": {
              "ref": "EC2ResourceObj"
          }
      }
  ],
  "values": {
      "myS3OutputLoc": "s3://amzn-s3-demo-bucket/",
      "myS3InputLoc": "s3://us-east-1.elasticmapreduce.samples/pig-apache-logs/data",
      "myShellCmd": "grep -rc \"GET\" ${INPUT1_STAGING_DIR}/* > ${OUTPUT1_STAGING_DIR}/output.txt"
  }
}
```
+  Untuk detail API, lihat [GetPipelineDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/get-pipeline-definition.html)di *Referensi AWS CLI Perintah*. 

### `list-pipelines`
<a name="data-pipeline_ListPipelines_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pipelines`.

**AWS CLI**  
**Untuk membuat daftar saluran pipa Anda**  
Contoh ini mencantumkan pipeline Anda:  

```
aws datapipeline list-pipelines
```
Berikut ini adalah output contoh:  

```
{
  "pipelineIdList": [
      {
          "id": "df-00627471SOVYZEXAMPLE",
          "name": "my-pipeline"
      },
      {
          "id": "df-09028963KNVMREXAMPLE",
          "name": "ImportDDB"
      },
      {
          "id": "df-0870198233ZYVEXAMPLE",
          "name": "CrossRegionDDB"
      },
      {
          "id": "df-00189603TB4MZEXAMPLE",
          "name": "CopyRedshift"
      }
  ]
}
```
+  Untuk detail API, lihat [ListPipelines](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/list-pipelines.html)di *Referensi AWS CLI Perintah*. 

### `list-runs`
<a name="data-pipeline_ListRuns_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-runs`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar pipeline Anda berjalan**  
`list-runs`Contoh berikut mencantumkan run untuk pipeline yang ditentukan.  

```
aws datapipeline list-runs --pipeline-id df-00627471SOVYZEXAMPLE
```
Output:  

```
    Name                       Scheduled Start        Status                     ID                                              Started                Ended
    -----------------------------------------------------------------------------------------------------------------------------------------------------------------------------
1.  EC2ResourceObj             2015-04-12T17:33:02    CREATING                   @EC2ResourceObj_2015-04-12T17:33:02             2015-04-12T17:33:10
2.  S3InputLocation            2015-04-12T17:33:02    FINISHED                   @S3InputLocation_2015-04-12T17:33:02            2015-04-12T17:33:09    2015-04-12T17:33:09
3.  S3OutputLocation           2015-04-12T17:33:02    WAITING_ON_DEPENDENCIES    @S3OutputLocation_2015-04-12T17:33:02           2015-04-12T17:33:09
4.  ShellCommandActivityObj    2015-04-12T17:33:02    WAITING_FOR_RUNNER         @ShellCommandActivityObj_2015-04-12T17:33:02    2015-04-12T17:33:09
```
**Contoh 2: Untuk membuat daftar pipeline berjalan di antara tanggal yang ditentukan**  
`list-runs`Contoh berikut menggunakan `--start-interval` untuk menentukan tanggal untuk memasukkan dalam output.  

```
aws datapipeline list-runs --pipeline-id df-01434553B58A2SHZUKO5 --start-interval 2017-10-07T00:00:00,2017-10-08T00:00:00
```
+  Untuk detail API, lihat [ListRuns](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/list-runs.html)di *Referensi AWS CLI Perintah*. 

### `put-pipeline-definition`
<a name="data-pipeline_PutPipelineDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-pipeline-definition`.

**AWS CLI**  
**Untuk mengunggah definisi pipeline**  
Contoh ini mengunggah definisi pipeline yang ditentukan ke pipeline yang ditentukan:  

```
aws datapipeline put-pipeline-definition --pipeline-id df-00627471SOVYZEXAMPLE --pipeline-definition file://my-pipeline-definition.json
```
Berikut ini adalah output contoh:  

```
{
  "validationErrors": [],
  "errored": false,
  "validationWarnings": []
}
```
+  Untuk detail API, lihat [PutPipelineDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/put-pipeline-definition.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags`
<a name="data-pipeline_RemoveTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags`.

**AWS CLI**  
**Untuk menghapus tag dari pipeline**  
Contoh ini menghapus tag yang ditentukan dari pipeline yang ditentukan:  

```
aws datapipeline remove-tags --pipeline-id df-00627471SOVYZEXAMPLE --tag-keys environment
```
+  Untuk detail API, lihat [RemoveTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datapipeline/remove-tags.html)di *Referensi AWS CLI Perintah*. 

# DataSync contoh menggunakan AWS CLI
<a name="cli_2_datasync_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with DataSync.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `update-location-azure-blob`
<a name="datasync_UpdateLocationAzureBlob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-location-azure-blob`.

**AWS CLI**  
**Untuk memperbarui lokasi transfer Anda dengan agen baru**  
`update-location-object-storage`Contoh berikut memperbarui DataSync lokasi Anda untuk Microsoft Azure Blob Storage dengan agen baru.  

```
aws datasync update-location-azure-blob \
    --location-arn arn:aws:datasync:us-west-2:123456789012:location/loc-abcdef01234567890 \
    --agent-arns arn:aws:datasync:us-west-2:123456789012:agent/agent-1234567890abcdef0 \
    --sas-configuration '{ \
        "Token": "sas-token-for-azure-blob-storage-access" \
    }'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengganti agen Anda](https://docs.aws.amazon.com/datasync/latest/userguide/replacing-agent.html) di *Panduan AWS DataSync Pengguna*.  
+  Untuk detail API, lihat [UpdateLocationAzureBlob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datasync/update-location-azure-blob.html)di *Referensi AWS CLI Perintah*. 

### `update-location-hdfs`
<a name="datasync_UpdateLocationHdfs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-location-hdfs`.

**AWS CLI**  
**Untuk memperbarui lokasi transfer Anda dengan agen baru**  
`update-location-hdfs`Contoh berikut memperbarui lokasi DataSync HDFS Anda dengan agen baru. Anda hanya perlu `--kerberos-krb5-conf` opsi `--kerberos-keytab` dan jika cluster HDFS Anda menggunakan otentikasi Kerberos.  

```
aws datasync update-location-hdfs \
    --location-arn arn:aws:datasync:us-west-2:123456789012:location/loc-abcdef01234567890 \
    --agent-arns arn:aws:datasync:us-west-2:123456789012:agent/agent-1234567890abcdef0 \
    --kerberos-keytab file://hdfs.keytab
    --kerberos-krb5-conf file://krb5.conf
```
Isi dari `hdfs.keytab`:  

```
N/A. The content of this file is encrypted and not human readable.
```
Isi dari `krb5.conf`:  

```
[libdefaults]
    default_realm = EXAMPLE.COM
    dns_lookup_realm = false
    dns_lookup_kdc = false
    rdns = true
    ticket_lifetime = 24h
    forwardable = true
    udp_preference_limit = 1000000
    default_tkt_enctypes = aes256-cts-hmac-sha1-96 aes128-cts-hmac-sha1-96 des3-cbc-sha1
    default_tgs_enctypes = aes256-cts-hmac-sha1-96 aes128-cts-hmac-sha1-96 des3-cbc-sha1
    permitted_enctypes = aes256-cts-hmac-sha1-96 aes128-cts-hmac-sha1-96 des3-cbc-sha1

[realms]
    EXAMPLE.COM = {
      kdc = kdc1.example.com
      admin_server = krbadmin.example.com
      default_domain = example.com
    }

[domain_realm]
    .example.com = EXAMPLE.COM
    example.com = EXAMPLE.COM

[logging]
    kdc = FILE:/var/log/krb5kdc.log
    admin_server = FILE:/var/log/kerberos/kadmin.log
    default = FILE:/var/log/krb5libs.log
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengganti agen Anda](https://docs.aws.amazon.com/datasync/latest/userguide/replacing-agent.html) di *Panduan AWS DataSync Pengguna*.  
+  Untuk detail API, lihat [UpdateLocationHdfs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datasync/update-location-hdfs.html)di *Referensi AWS CLI Perintah*. 

### `update-location-nfs`
<a name="datasync_UpdateLocationNfs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-location-nfs`.

**AWS CLI**  
**Untuk memperbarui lokasi transfer Anda dengan agen baru**  
`update-location-nfs`Contoh berikut memperbarui lokasi DataSync NFS Anda dengan agen baru.  

```
aws datasync update-location-nfs \
    --location-arn arn:aws:datasync:us-west-2:123456789012:location/loc-abcdef01234567890 \
    --on-prem-config AgentArns=arn:aws:datasync:us-west-2:123456789012:agent/agent-1234567890abcdef0
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengganti agen Anda](https://docs.aws.amazon.com/datasync/latest/userguide/replacing-agent.html) di *Panduan AWS DataSync Pengguna*.  
+  Untuk detail API, lihat [UpdateLocationNfs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datasync/update-location-nfs.html)di *Referensi AWS CLI Perintah*. 

### `update-location-object-storage`
<a name="datasync_UpdateLocationObjectStorage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-location-object-storage`.

**AWS CLI**  
**Untuk memperbarui lokasi transfer Anda dengan agen baru**  
`update-location-object-storage`Contoh berikut memperbarui lokasi penyimpanan DataSync objek Anda dengan agen baru.  

```
aws datasync update-location-object-storage \
    --location-arn arn:aws:datasync:us-west-2:123456789012:location/loc-abcdef01234567890 \
    --agent-arns arn:aws:datasync:us-west-2:123456789012:agent/agent-1234567890abcdef0 \
    --secret-key secret-key-for-object-storage
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengganti agen Anda](https://docs.aws.amazon.com/datasync/latest/userguide/replacing-agent.html) di *Panduan AWS DataSync Pengguna*.  
+  Untuk detail API, lihat [UpdateLocationObjectStorage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datasync/update-location-object-storage.html)di *Referensi AWS CLI Perintah*. 

### `update-location-smb`
<a name="datasync_UpdateLocationSmb_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-location-smb`.

**AWS CLI**  
**Untuk memperbarui lokasi transfer Anda dengan agen baru**  
`update-location-smb`Contoh berikut memperbarui lokasi DataSync SMB Anda dengan agen baru.  

```
aws datasync update-location-smb \
    --location-arn arn:aws:datasync:us-west-2:123456789012:location/loc-abcdef01234567890 \
    --agent-arns arn:aws:datasync:us-west-2:123456789012:agent/agent-1234567890abcdef0 \
    --password smb-file-server-password
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengganti agen Anda](https://docs.aws.amazon.com/datasync/latest/userguide/replacing-agent.html) di *Panduan AWS DataSync Pengguna*.  
+  Untuk detail API, lihat [UpdateLocationSmb](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/datasync/update-location-smb.html)di *Referensi AWS CLI Perintah*. 

# Contoh DAX menggunakan AWS CLI
<a name="cli_2_dax_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan DAX AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-cluster`
<a name="dax_CreateCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster`.

**AWS CLI**  
**Untuk membuat cluster DAX**  
`create-cluster`Contoh berikut membuat cluster DAX dengan pengaturan yang ditentukan.  

```
aws dax create-cluster \
    --cluster-name daxcluster \
    --node-type dax.r4.large \
    --replication-factor 3 \
    --iam-role-arn roleARN  \
    --sse-specification Enabled=true
```
Output:  

```
{
    "Cluster": {
        "ClusterName": "daxcluster",
        "ClusterArn": "arn:aws:dax:us-west-2:123456789012:cache/daxcluster",
        "TotalNodes": 3,
        "ActiveNodes": 0,
        "NodeType": "dax.r4.large",
        "Status": "creating",
        "ClusterDiscoveryEndpoint": {
            "Port": 8111
        },
        "PreferredMaintenanceWindow": "thu:13:00-thu:14:00",
        "SubnetGroup": "default",
        "SecurityGroups": [
            {
                "SecurityGroupIdentifier": "sg-1af6e36e",
                "Status": "active"
            }
        ],
        "IamRoleArn": "arn:aws:iam::123456789012:role/DAXServiceRoleForDynamoDBAccess",
        "ParameterGroup": {
            "ParameterGroupName": "default.dax1.0",
            "ParameterApplyStatus": "in-sync",
            "NodeIdsToReboot": []
        },
        "SSEDescription": {
            "Status": "ENABLED"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat Cluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.create-cluster.cli.create-cluster.html) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [CreateCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/create-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-parameter-group`
<a name="dax_CreateParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-parameter-group`.

**AWS CLI**  
**Untuk membuat grup parameter**  
Contoh `` create-parameter-group`` berikut membuat grup parameter dengan pengaturan yang ditentukan.  

```
aws dax create-parameter-group \
    --parameter-group-name daxparametergroup \
    --description "A new parameter group"
```
Output:  

```
{
    "ParameterGroup": {
        "ParameterGroupName": "daxparametergroup",
        "Description": "A new parameter group"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html#DAX.cluster-management.custom-settings.ttl) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [CreateParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/create-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `create-subnet-group`
<a name="dax_CreateSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subnet-group`.

**AWS CLI**  
**Untuk membuat grup subnet DAX**  
`create-subnet-group`Contoh berikut membuat grup subnet dengan pengaturan yang ditentukan.  

```
aws dax create-subnet-group \
    --subnet-group-name daxSubnetGroup \
    --subnet-ids subnet-11111111 subnet-22222222
```
Output:  

```
{
    "SubnetGroup": {
        "SubnetGroupName": "daxSubnetGroup",
        "VpcId": "vpc-05a1fa8e00c325226",
        "Subnets": [
            {
                "SubnetIdentifier": "subnet-11111111",
                "SubnetAvailabilityZone": "us-west-2b"
            },
            {
                "SubnetIdentifier": "subnet-22222222",
                "SubnetAvailabilityZone": "us-west-2c"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Langkah 2: Membuat Grup Subnet](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.create-cluster.cli.create-subnet-group.html) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [CreateSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/create-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `decrease-replication-factor`
<a name="dax_DecreaseReplicationFactor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decrease-replication-factor`.

**AWS CLI**  
**Untuk menghapus satu atau lebih node dari cluster**  
`decrease-replication-factor`Contoh berikut mengurangi jumlah node dalam cluster DAX yang ditentukan menjadi satu.  

```
aws dax decrease-replication-factor \
    --cluster-name daxcluster \
    --new-replication-factor 1
```
Output:  

```
{
    "Cluster": {
        "ClusterName": "daxcluster",
        "ClusterArn": "arn:aws:dax:us-west-2:123456789012:cache/daxcluster",
        "TotalNodes": 3,
        "ActiveNodes": 3,
        "NodeType": "dax.r4.large",
        "Status": "modifying",
        "ClusterDiscoveryEndpoint": {
            "Address": "daxcluster.ey3o9d.clustercfg.dax.usw2.cache.amazonaws.com",
            "Port": 8111
        },
        "Nodes": [
            {
                "NodeId": "daxcluster-a",
                "Endpoint": {
                    "Address": "daxcluster-a.ey3o9d.0001.dax.usw2.cache.amazonaws.com",
                    "Port": 8111
                },
                "NodeCreateTime": 1576625059.509,
                "AvailabilityZone": "us-west-2c",
                "NodeStatus": "available",
                "ParameterGroupStatus": "in-sync"
            },
            {
                "NodeId": "daxcluster-b",
                "Endpoint": {
                    "Address": "daxcluster-b.ey3o9d.0001.dax.usw2.cache.amazonaws.com",
                    "Port": 8111
                },
                "NodeCreateTime": 1576625059.509,
                "AvailabilityZone": "us-west-2a",
                "NodeStatus": "available",
                "ParameterGroupStatus": "in-sync"
            },
            {
                "NodeId": "daxcluster-c",
                "Endpoint": {
                    "Address": "daxcluster-c.ey3o9d.0001.dax.usw2.cache.amazonaws.com",
                    "Port": 8111
                },
                "NodeCreateTime": 1576625059.509,
                "AvailabilityZone": "us-west-2b",
                "NodeStatus": "available",
                "ParameterGroupStatus": "in-sync"
            }
        ],
        "PreferredMaintenanceWindow": "thu:13:00-thu:14:00",
        "SubnetGroup": "default",
        "SecurityGroups": [
            {
                "SecurityGroupIdentifier": "sg-1af6e36e",
                "Status": "active"
            }
        ],
        "IamRoleArn": "arn:aws:iam::123456789012:role/DAXServiceRoleForDynamoDBAccess",
        "ParameterGroup": {
            "ParameterGroupName": "default.dax1.0",
            "ParameterApplyStatus": "in-sync",
            "NodeIdsToReboot": []
        },
        "SSEDescription": {
            "Status": "ENABLED"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html#DAX.cluster-management.custom-settings) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DecreaseReplicationFactor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/decrease-replication-factor.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster`
<a name="dax_DeleteCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster`.

**AWS CLI**  
**Untuk menghapus klaster DAX**  
`delete-cluster`Contoh berikut menghapus cluster DAX yang ditentukan.  

```
aws dax delete-cluster \
    --cluster-name daxcluster
```
Output:  

```
{
    "Cluster": {
        "ClusterName": "daxcluster",
        "ClusterArn": "arn:aws:dax:us-west-2:123456789012:cache/daxcluster",
        "TotalNodes": 3,
        "ActiveNodes": 0,
        "NodeType": "dax.r4.large",
        "Status": "deleting",
        "ClusterDiscoveryEndpoint": {
            "Address": "dd.ey3o9d.clustercfg.dax.usw2.cache.amazonaws.com",
            "Port": 8111
        },
        "PreferredMaintenanceWindow": "fri:06:00-fri:07:00",
        "SubnetGroup": "default",
        "SecurityGroups": [
            {
                "SecurityGroupIdentifier": "sg-1af6e36e",
                "Status": "active"
            }
        ],
        "IamRoleArn": "arn:aws:iam::123456789012:role/DAXServiceRoleForDynamoDBAccess",
        "ParameterGroup": {
            "ParameterGroupName": "default.dax1.0",
            "ParameterApplyStatus": "in-sync",
            "NodeIdsToReboot": []
        },
        "SSEDescription": {
            "Status": "ENABLED"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html#DAX.cluster-management.deleting) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DeleteCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/delete-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-parameter-group`
<a name="dax_DeleteParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-parameter-group`.

**AWS CLI**  
**Untuk menghapus grup parameter**  
`delete-parameter-group`Contoh berikut menghapus kelompok parameter DAX yang ditentukan.  

```
aws dax  delete-parameter-group \
    --parameter-group-name daxparametergroup
```
Output:  

```
{
    "DeletionMessage": "Parameter group daxparametergroup has been deleted."
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DeleteParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/delete-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-subnet-group`
<a name="dax_DeleteSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-subnet-group`.

**AWS CLI**  
**Untuk menghapus grup subnet**  
`delete-subnet-group`Contoh berikut menghapus kelompok subnet DAX yang ditentukan.  

```
aws dax delete-subnet-group \
    --subnet-group-name daxSubnetGroup
```
Output:  

```
{
    "DeletionMessage": "Subnet group daxSubnetGroup has been deleted."
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DeleteSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/delete-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-clusters`
<a name="dax_DescribeClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-clusters`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang semua klaster DAX yang disediakan**  
`describe-clusters`Contoh berikut menampilkan detail tentang semua kluster DAX yang disediakan.  

```
aws dax describe-clusters
```
Output:  

```
{
    "Clusters": [
        {
            "ClusterName": "daxcluster",
            "ClusterArn": "arn:aws:dax:us-west-2:123456789012:cache/daxcluster",
            "TotalNodes": 1,
            "ActiveNodes": 1,
            "NodeType": "dax.r4.large",
            "Status": "available",
            "ClusterDiscoveryEndpoint": {
                "Address": "daxcluster.ey3o9d.clustercfg.dax.usw2.cache.amazonaws.com",
                "Port": 8111
            },
            "Nodes": [
                {
                    "NodeId": "daxcluster-a",
                    "Endpoint": {
                        "Address": "daxcluster-a.ey3o9d.0001.dax.usw2.cache.amazonaws.com",
                        "Port": 8111
                    },
                    "NodeCreateTime": 1576625059.509,
                    "AvailabilityZone": "us-west-2c",
                    "NodeStatus": "available",
                    "ParameterGroupStatus": "in-sync"
                }
            ],
            "PreferredMaintenanceWindow": "thu:13:00-thu:14:00",
            "SubnetGroup": "default",
            "SecurityGroups": [
                {
                    "SecurityGroupIdentifier": "sg-1af6e36e",
                    "Status": "active"
                }
            ],
            "IamRoleArn": "arn:aws:iam::123456789012:role/DAXServiceRoleForDynamoDBAccess",
            "ParameterGroup": {
                "ParameterGroupName": "default.dax1.0",
                "ParameterApplyStatus": "in-sync",
                "NodeIdsToReboot": []
            },
            "SSEDescription": {
                "Status": "ENABLED"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DescribeClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/describe-clusters.html)di *Referensi AWS CLI Perintah*. 

### `describe-default-parameters`
<a name="dax_DescribeDefaultParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-default-parameters`.

**AWS CLI**  
**Untuk mengembalikan informasi parameter sistem default untuk DAX**  
`describe-default-parameters`Contoh berikut menampilkan informasi parameter sistem default untuk DAX.  

```
aws dax describe-default-parameters
```
Output:  

```
{
    "Parameters": [
        {
            "ParameterName": "query-ttl-millis",
            "ParameterType": "DEFAULT",
            "ParameterValue": "300000",
            "NodeTypeSpecificValues": [],
            "Description": "Duration in milliseconds for queries to remain cached",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": "TRUE",
            "ChangeType": "IMMEDIATE"
        },
        {
            "ParameterName": "record-ttl-millis",
            "ParameterType": "DEFAULT",
            "ParameterValue": "300000",
            "NodeTypeSpecificValues": [],
            "Description": "Duration in milliseconds for records to remain valid in cache (Default: 0 = infinite)",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": "TRUE",
            "ChangeType": "IMMEDIATE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DescribeDefaultParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/describe-default-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="dax_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
**Untuk mengembalikan semua peristiwa yang terkait dengan cluster DAX dan grup parameter**  
`describe-events`Contoh berikut menampilkan rincian peristiwa yang terkait dengan cluster DAX dan kelompok parameter.  

```
aws dax describe-events
```
Output:  

```
{
    "Events": [
        {
            "SourceName": "daxcluster",
            "SourceType": "CLUSTER",
            "Message": "Cluster deleted.",
            "Date": 1576702736.706
        },
        {
            "SourceName": "daxcluster",
            "SourceType": "CLUSTER",
            "Message": "Removed node daxcluster-b.",
            "Date": 1576702691.738
        },
        {
            "SourceName": "daxcluster",
            "SourceType": "CLUSTER",
            "Message": "Removed node daxcluster-a.",
            "Date": 1576702633.498
        },
        {
            "SourceName": "daxcluster",
            "SourceType": "CLUSTER",
            "Message": "Removed node daxcluster-c.",
            "Date": 1576702631.329
        },
        {
            "SourceName": "daxcluster",
            "SourceType": "CLUSTER",
            "Message": "Cluster created.",
            "Date": 1576626560.057
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/describe-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-parameter-groups`
<a name="dax_DescribeParameterGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-parameter-groups`.

**AWS CLI**  
**Untuk menggambarkan kelompok parameter yang didefinisikan dalam DAX**  
`describe-parameter-groups`Contoh berikut mengambil rincian tentang kelompok parameter yang didefinisikan dalam DAX.  

```
aws dax describe-parameter-groups
```
Output:  

```
{
    "ParameterGroups": [
        {
            "ParameterGroupName": "default.dax1.0",
            "Description": "Default parameter group for dax1.0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DescribeParameterGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/describe-parameter-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-parameters`
<a name="dax_DescribeParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-parameters`.

**AWS CLI**  
**Untuk menggambarkan parameter yang didefinisikan dalam kelompok parameter DAX**  
`describe-parameters`Contoh berikut mengambil rincian tentang parameter yang didefinisikan dalam kelompok parameter DAX yang ditentukan.  

```
aws dax describe-parameters \
    --parameter-group-name default.dax1.0
```
Output:  

```
{
    "Parameters": [
        {
            "ParameterName": "query-ttl-millis",
            "ParameterType": "DEFAULT",
            "ParameterValue": "300000",
            "NodeTypeSpecificValues": [],
            "Description": "Duration in milliseconds for queries to remain cached",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": "TRUE",
            "ChangeType": "IMMEDIATE"
        },
        {
            "ParameterName": "record-ttl-millis",
            "ParameterType": "DEFAULT",
            "ParameterValue": "300000",
            "NodeTypeSpecificValues": [],
            "Description": "Duration in milliseconds for records to remain valid in cache (Default: 0 = infinite)",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": "TRUE",
            "ChangeType": "IMMEDIATE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DescribeParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/describe-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-subnet-groups`
<a name="dax_DescribeSubnetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-subnet-groups`.

**AWS CLI**  
**Untuk menggambarkan kelompok subnet yang didefinisikan dalam DAX**  
`describe-subnet-groups`Contoh berikut mengambil rincian untuk kelompok subnet yang didefinisikan dalam DAX.  

```
aws dax describe-subnet-groups
```
Output:  

```
{
    "SubnetGroups": [
        {
            "SubnetGroupName": "default",
            "Description": "Default CacheSubnetGroup",
            "VpcId": "vpc-ee70a196",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-874953af",
                    "SubnetAvailabilityZone": "us-west-2d"
                },
                {
                    "SubnetIdentifier": "subnet-bd3d1fc4",
                    "SubnetAvailabilityZone": "us-west-2a"
                },
                {
                    "SubnetIdentifier": "subnet-72c2ff28",
                    "SubnetAvailabilityZone": "us-west-2c"
                },
                {
                    "SubnetIdentifier": "subnet-09e6aa42",
                    "SubnetAvailabilityZone": "us-west-2b"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.concepts.cluster.html#DAX.concepts.cluster.security) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DescribeSubnetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/describe-subnet-groups.html)di *Referensi AWS CLI Perintah*. 

### `increase-replication-factor`
<a name="dax_IncreaseReplicationFactor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`increase-replication-factor`.

**AWS CLI**  
**Untuk meningkatkan faktor replikasi untuk cluster DAX**  
`increase-replication-factor`Contoh berikut meningkatkan faktor replikasi cluster DAX yang ditentukan menjadi 3.  

```
aws dax increase-replication-factor \
    --cluster-name daxcluster \
    --new-replication-factor 3
```
Output:  

```
{
    "Cluster": {
        "ClusterName": "daxcluster",
        "ClusterArn": "arn:aws:dax:us-west-2:123456789012:cache/daxcluster",
        "TotalNodes": 3,
        "ActiveNodes": 1,
        "NodeType": "dax.r4.large",
        "Status": "modifying",
        "ClusterDiscoveryEndpoint": {
            "Address": "daxcluster.ey3o9d.clustercfg.dax.usw2.cache.amazonaws.com",
            "Port": 8111
        },
        "Nodes": [
            {
                "NodeId": "daxcluster-a",
                "Endpoint": {
                    "Address": "daxcluster-a.ey3o9d.0001.dax.usw2.cache.amazonaws.com",
                    "Port": 8111
                },
                "NodeCreateTime": 1576625059.509,
                "AvailabilityZone": "us-west-2c",
                "NodeStatus": "available",
                "ParameterGroupStatus": "in-sync"
            },
            {
                "NodeId": "daxcluster-b",
                "NodeStatus": "creating"
            },
            {
                "NodeId": "daxcluster-c",
                "NodeStatus": "creating"
            }
        ],
        "PreferredMaintenanceWindow": "thu:13:00-thu:14:00",
        "SubnetGroup": "default",
        "SecurityGroups": [
            {
                "SecurityGroupIdentifier": "sg-1af6e36e",
                "Status": "active"
            }
        ],
        "IamRoleArn": "arn:aws:iam::123456789012:role/DAXServiceRoleForDynamoDBAccess",
        "ParameterGroup": {
            "ParameterGroupName": "default.dax1.0",
            "ParameterApplyStatus": "in-sync",
            "NodeIdsToReboot": []
        },
        "SSEDescription": {
            "Status": "ENABLED"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html#DAX.cluster-management.custom-settings) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [IncreaseReplicationFactor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/increase-replication-factor.html)di *Referensi AWS CLI Perintah*. 

### `list-tags`
<a name="dax_ListTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags`.

**AWS CLI**  
**Untuk mencantumkan tag pada sumber daya DAX**  
`list-tags`Contoh berikut mencantumkan kunci tag dan nilai yang dilampirkan ke cluster DAX yang ditentukan.  

```
aws dax list-tags \
    --resource-name arn:aws:dax:us-west-2:123456789012:cache/daxcluster
```
Output:  

```
{
    "Tags": [
        {
            "Key": "ClusterUsage",
            "Value": "prod"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html#DAX.management.tagging) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [ListTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/list-tags.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="dax_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya DAX**  
`tag-resource`Contoh berikut melampirkan nama kunci tag yang ditentukan dan nilai terkait ke cluster DAX yang ditentukan untuk menggambarkan penggunaan klaster.  

```
aws dax tag-resource \
    --resource-name arn:aws:dax:us-west-2:123456789012:cache/daxcluster \
    --tags="Key=ClusterUsage,Value=prod"
```
Output:  

```
{
    "Tags": [
        {
            "Key": "ClusterUsage",
            "Value": "prod"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html#DAX.management.tagging) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="dax_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya DAX**  
`untag-resource`Contoh berikut menghapus tag dengan nama kunci yang ditentukan dari cluster DAX.  

```
aws dax untag-resource  \
    --resource-name arn:aws:dax:us-west-2:123456789012:cache/daxcluster \
    --tag-keys="ClusterUsage"
```
Output:  

```
{
    "Tags": []
}
```
Untuk informasi selengkapnya, lihat [Mengelola Kluster DAX di Panduan Pengembang](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.cluster-management.html#DAX.management.tagging) *Amazon DynamoDB*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dax/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# Contoh Detektif menggunakan AWS CLI
<a name="cli_2_detective_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface Detective with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-invitation`
<a name="detective_AcceptInvitation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-invitation`.

**AWS CLI**  
**Untuk menerima undangan untuk menjadi akun anggota dalam grafik perilaku**  
`accept-invitation`Contoh berikut menerima undangan untuk menjadi akun anggota dalam grafik perilaku arn:aws:detective:us-east- 1:111122223333:graph:123412341234.  

```
aws detective accept-invitation \
    --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menanggapi undangan grafik perilaku](https://docs.aws.amazon.com/detective/latest/adminguide/member-invitation-response.html) di Panduan Administrasi *Detektif Amazon*.  
+  Untuk detail API, lihat [AcceptInvitation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/accept-invitation.html)di *Referensi AWS CLI Perintah*. 

### `create-graph`
<a name="detective_CreateGraph_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-graph`.

**AWS CLI**  
**Untuk mengaktifkan Amazon Detective dan membuat grafik perilaku baru**  
`create-graph`Contoh berikut memungkinkan Detektif untuk AWS akun yang menjalankan perintah di Wilayah tempat perintah dijalankan. Grafik perilaku baru dibuat yang memiliki akun itu sebagai akun administratornya. Perintah tersebut juga memberikan nilai Keuangan ke tag Departemen.  

```
aws detective create-graph \
    --tags '{"Department": "Finance"}'
```
Output:  

```
{
    "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:027c7c4610ea4aacaf0b883093cab899"
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Detektif Amazon](https://docs.aws.amazon.com/detective/latest/adminguide/detective-enabling.html) di Panduan Administrasi *Detektif Amazon*.  
+  Untuk detail API, lihat [CreateGraph](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/create-graph.html)di *Referensi AWS CLI Perintah*. 

### `create-members`
<a name="detective_CreateMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-members`.

**AWS CLI**  
**Untuk mengundang akun anggota ke grafik perilaku**  
`create-members`Contoh berikut mengundang dua AWS akun untuk menjadi akun anggota dalam grafik perilaku arn:aws:detective:us-east- 1:111122223333:graph:123412341234. Untuk setiap akun, permintaan tersebut memberikan ID AWS akun dan alamat email pengguna root akun. Permintaan termasuk pesan khusus untuk dimasukkan ke dalam email undangan.  

```
aws detective create-members \
    --accounts AccountId=444455556666,EmailAddress=mmajor@example.com AccountId=123456789012,EmailAddress=jstiles@example.com \
    --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234 \
    --message "This is Paul Santos. I need to add your account to the data we use for security investigation in Amazon Detective. If you have any questions, contact me at psantos@example.com."
```
Output:  

```
{
    "Members": [
    {
        "AccountId": "444455556666",
        "AdministratorId": "111122223333",
        "EmailAddress": "mmajor@example.com",
        "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
        "InvitedTime": 1579826107000,
        "MasterId": "111122223333",
        "Status": "INVITED",
        "UpdatedTime": 1579826107000
   },
   {
        "AccountId": "123456789012",
        "AdministratorId": "111122223333",
        "EmailAddress": "jstiles@example.com",
        "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
        "InvitedTime": 1579826107000,
        "MasterId": "111122223333",
        "Status": "VERIFICATION_IN_PROGRESS",
        "UpdatedTime": 1579826107000
     }
    ],
    "UnprocessedAccounts": [ ]
}
```
Untuk informasi selengkapnya, lihat Mengundang akun anggota ke grafik perilaku< https://docs.aws.amazon.com/detective/ latest/adminguide/graph - admin-add-member-accounts .html> di Panduan Administrasi *Detektif* Amazon.  
**Untuk mengundang akun anggota tanpa mengirim email undangan**  
`create-members`Contoh berikut mengundang dua AWS akun untuk menjadi akun anggota dalam grafik perilaku arn:aws:detective:us-east- 1:111122223333:graph:123412341234. Untuk setiap akun, permintaan tersebut memberikan ID AWS akun dan alamat email pengguna root akun. Akun anggota tidak menerima email undangan.  

```
aws detective create-members \
    --accounts AccountId=444455556666,EmailAddress=mmajor@example.com AccountId=123456789012,EmailAddress=jstiles@example.com \
    --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234 \
    --disable-email-notification
```
Output:  

```
{
    "Members": [
    {
        "AccountId": "444455556666",
        "AdministratorId": "111122223333",
        "EmailAddress": "mmajor@example.com",
        "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
        "InvitedTime": 1579826107000,
        "MasterId": "111122223333",
        "Status": "INVITED",
        "UpdatedTime": 1579826107000
   },
   {
        "AccountId": "123456789012",
        "AdministratorId": "111122223333",
        "EmailAddress": "jstiles@example.com",
        "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
        "InvitedTime": 1579826107000,
        "MasterId": "111122223333",
        "Status": "VERIFICATION_IN_PROGRESS",
        "UpdatedTime": 1579826107000
     }
    ],
    "UnprocessedAccounts": [ ]
}
```
Untuk informasi selengkapnya, lihat Mengundang akun anggota ke grafik perilaku< https://docs.aws.amazon.com/detective/ latest/adminguide/graph - admin-add-member-accounts .html> di Panduan Administrasi *Detektif* Amazon.  
+  Untuk detail API, lihat [CreateMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/create-members.html)di *Referensi AWS CLI Perintah*. 

### `delete-graph`
<a name="detective_DeleteGraph_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-graph`.

**AWS CLI**  
**Untuk menonaktifkan Detektif dan menghapus grafik perilaku**  
`delete-graph`Contoh berikut menonaktifkan Detektif dan menghapus grafik perilaku yang ditentukan.  

```
aws detective delete-graph \
    --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menonaktifkan Detektif Amazon di Panduan Administrasi Detektif](https://docs.aws.amazon.com/detective/latest/adminguide/detective-disabling.html) Amazon.*  
+  Untuk detail API, lihat [DeleteGraph](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/delete-graph.html)di *Referensi AWS CLI Perintah*. 

### `delete-members`
<a name="detective_DeleteMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-members`.

**AWS CLI**  
**Untuk menghapus akun anggota dari grafik perilaku**  
`delete-members`Contoh berikut menghapus dua akun anggota dari grafik perilaku arn:aws:detective:us-east- 1:111122223333:graph:123412341234. Untuk mengidentifikasi akun, permintaan menyediakan AWS akun IDs.  

```
aws detective delete-members \
    --account-ids 444455556666 123456789012 \
    --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234
```
Output:  

```
 {
    "AccountIds": [ "444455556666", "123456789012" ],
    "UnprocessedAccounts": [ ]
}
```
Untuk informasi selengkapnya, lihat Menghapus akun anggota dari grafik perilaku< https://docs.aws.amazon.com/detective/ latest/adminguide/graph - admin-remove-member-accounts .html> di Panduan *Administrasi Detektif* Amazon.  
+  Untuk detail API, lihat [DeleteMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/delete-members.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-membership`
<a name="detective_DisassociateMembership_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-membership`.

**AWS CLI**  
**Untuk mengundurkan diri dari grafik perilaku**  
Contoh disassociate-membership berikut menghapus AWS akun yang menjalankan perintah dari grafik perilaku arn:aws:detective:us-east- 1:111122223333:graph:123412341234.  

```
aws detective disassociate-membership \
     --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234
```
Untuk informasi selengkapnya, lihat Menghapus akun Anda dari grafik perilaku< https://docs.aws.amazon.com/detective/ latest/adminguide/member - remove-self-from-graph .html> di Panduan *Administrasi Detektif* Amazon.  
+  Untuk detail API, lihat [DisassociateMembership](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/disassociate-membership.html)di *Referensi AWS CLI Perintah*. 

### `get-members`
<a name="detective_GetMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-members`.

**AWS CLI**  
**Untuk mengambil informasi tentang grafik perilaku yang dipilih akun anggota**  
`get-members`Contoh berikut mengambil informasi tentang dua akun anggota dalam grafik perilaku arn:aws:detective:us-east- 1:111122223333:graph:123412341234. Untuk dua akun, permintaan menyediakan AWS akun IDs.  

```
aws detective get-members \
    --account-ids 444455556666 123456789012 \
    --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234
```
Output:  

```
{
    "MemberDetails": [
    {
        "AccountId": "444455556666",
        "AdministratorId": "111122223333",
        "EmailAddress": "mmajor@example.com",
        "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
        "InvitedTime": 1579826107000,
        "MasterId": "111122223333",
        "Status": "INVITED",
        "UpdatedTime": 1579826107000
    }
    {
        "AccountId": "123456789012",
        "AdministratorId": "111122223333",
        "EmailAddress": "jstiles@example.com",
        "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
        "InvitedTime": 1579826107000,
        "MasterId": "111122223333",
        "Status": "INVITED",
        "UpdatedTime": 1579826107000
    }
],
    "UnprocessedAccounts": [ ]
}
```
Untuk informasi selengkapnya, lihat Melihat daftar akun dalam grafik perilaku< https://docs.aws.amazon.com/detective/ latest/adminguide/graph - admin-view-accounts .html> di Panduan *Administrasi Detektif* Amazon.  
+  Untuk detail API, lihat [GetMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/get-members.html)di *Referensi AWS CLI Perintah*. 

### `list-graphs`
<a name="detective_ListGraphs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-graphs`.

**AWS CLI**  
**Untuk melihat daftar grafik perilaku yang menjadi administrator akun Anda**  
`list-graphs`Contoh berikut mengambil grafik perilaku bahwa akun panggilan adalah administrator untuk dalam Wilayah saat ini.  

```
aws detective list-graphs
```
Output:  

```
{
    "GraphList": [
        {
            "Arn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
            "CreatedTime": 1579736111000
        }
    ]
}
```
+  Untuk detail API, lihat [ListGraphs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/list-graphs.html)di *Referensi AWS CLI Perintah*. 

### `list-invitations`
<a name="detective_ListInvitations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-invitations`.

**AWS CLI**  
**Untuk melihat daftar grafik perilaku yang merupakan anggota akun atau diundang**  
`list-invitations`Contoh berikut mengambil grafik perilaku yang telah diundang ke akun panggilan. Hasilnya hanya mencakup undangan terbuka dan diterima. Mereka tidak termasuk undangan yang ditolak atau keanggotaan yang dihapus.  

```
aws detective list-invitations
```
Output:  

```
{
    "Invitations": [
    {
        "AccountId": "444455556666",
        "AdministratorId": "111122223333",
        "EmailAddress": "mmajor@example.com",
        "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
        "InvitedTime": 1579826107000,
        "MasterId": "111122223333",
        "Status": "INVITED",
        "UpdatedTime": 1579826107000
    }
]
}
```
*Untuk informasi selengkapnya, lihat Melihat daftar undangan grafik perilaku Anda< https://docs.aws.amazon.com/detective/ latest/adminguide/member - view-graph-invitations .html> di Panduan Administrasi Detektif Amazon.*  
+  Untuk detail API, lihat [ListInvitations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/list-invitations.html)di *Referensi AWS CLI Perintah*. 

### `list-members`
<a name="detective_ListMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-members`.

**AWS CLI**  
**Untuk mencantumkan akun anggota dalam grafik perilaku**  
`list-members`Contoh berikut mengambil akun anggota yang diundang dan diaktifkan untuk grafik `arn:aws:detective:us-east-1:111122223333:graph:123412341234` perilaku. Hasilnya tidak termasuk akun anggota yang telah dihapus.  

```
aws detective list-members \
    --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234
```
Output:  

```
{
    "MemberDetails": [
        {
            "AccountId": "444455556666",
            "AdministratorId": "111122223333",
            "EmailAddress": "mmajor@example.com",
            "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
            "InvitedTime": 1579826107000,
            "MasterId": "111122223333",
            "Status": "INVITED",
            "UpdatedTime": 1579826107000
        },
        {
            "AccountId": "123456789012",
            "AdministratorId": "111122223333",
            "EmailAddress": "jstiles@example.com",
            "GraphArn": "arn:aws:detective:us-east-1:111122223333:graph:123412341234",
            "InvitedTime": 1579826107000,
            "MasterId": "111122223333",
            "PercentOfGraphUtilization": 2,
            "PercentOfGraphUtilizationUpdatedTime": 1586287843,
            "Status": "ENABLED",
            "UpdatedTime": 1579973711000,
            "VolumeUsageInBytes": 200,
            "VolumeUsageUpdatedTime": 1586287843
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat daftar akun dalam grafik perilaku](https://docs.aws.amazon.com/detective/latest/adminguide/graph-admin-view-accounts.html) di Panduan *Administrasi Detektif Amazon*.  
+  Untuk detail API, lihat [ListMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/list-members.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="detective_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mengambil tag yang ditetapkan ke grafik perilaku**  
`list-tags-for-resource`Contoh berikut mengembalikan tag yang ditetapkan untuk grafik perilaku tertentu.  

```
aws detective list-tags-for-resource \
    --resource-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234
```
Output:  

```
{
    "Tags": {
        "Department" : "Finance"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola tag untuk grafik perilaku](https://docs.aws.amazon.com/detective/latest/adminguide/graph-tags.html) di Panduan *Administrasi Detektif Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `reject-invitation`
<a name="detective_RejectInvitation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-invitation`.

**AWS CLI**  
**Untuk menolak undangan untuk menjadi akun anggota dalam grafik perilaku**  
`reject-invitation`Contoh berikut menolak undangan untuk menjadi akun anggota dalam grafik perilaku arn:aws:detective:us-east- 1:111122223333:graph:123412341234.  

```
aws detective reject-invitation \
    --graph-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat Menanggapi undangan grafik perilaku < https://docs.aws.amazon.com/detective/ latest/adminguide/member -invitation-response.html> di Panduan Administrasi Detektif Amazon.*  
+  Untuk detail API, lihat [RejectInvitation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/reject-invitation.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="detective_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menetapkan tag ke sumber daya**  
`tag-resource`Contoh berikut memberikan nilai untuk tag Department ke grafik perilaku yang ditentukan.  

```
aws detective tag-resource \
    --resource-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234 \
    --tags '{"Department":"Finance"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola tag untuk grafik perilaku](https://docs.aws.amazon.com/detective/latest/adminguide/graph-tags.html) di Panduan *Administrasi Detektif Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="detective_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus nilai tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag Department dari grafik perilaku yang ditentukan.  

```
aws detective untag-resource \
    --resource-arn arn:aws:detective:us-east-1:111122223333:graph:123412341234 \
    --tag-keys "Department"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola tag untuk grafik perilaku](https://docs.aws.amazon.com/detective/latest/adminguide/graph-tags.html) di Panduan *Administrasi Detektif Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/detective/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# Contoh Device Farm menggunakan AWS CLI
<a name="cli_2_device-farm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Device Farm.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-device-pool`
<a name="device-farm_CreateDevicePool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-device-pool`.

**AWS CLI**  
**Untuk membuat kumpulan perangkat**  
Perintah berikut membuat kumpulan perangkat Android untuk proyek:  

```
aws devicefarm create-device-pool --name pool1 --rules file://device-pool-rules.json --project-arn "arn:aws:devicefarm:us-west-2:123456789012:project:070fc3ca-7ec1-4741-9c1f-d3e044efc506"
```
Anda bisa mendapatkan proyek ARN dari output atau. `create-project` `list-projects` File tersebut `device-pool-rules.json` adalah dokumen JSON di folder saat ini yang menentukan platform perangkat:  

```
[
    {
        "attribute": "PLATFORM",
        "operator": "EQUALS",
        "value": "\"ANDROID\""
    }
]
```
Output:  

```
{
    "devicePool": {
        "rules": [
            {
                "operator": "EQUALS",
                "attribute": "PLATFORM",
                "value": "\"ANDROID\""
            }
        ],
        "type": "PRIVATE",
        "name": "pool1",
        "arn": "arn:aws:devicefarm:us-west-2:123456789012:devicepool:070fc3ca-7ec1-4741-9c1f-d3e044efc506/2aa8d2a9-5e73-47ca-b929-659cb34b7dcd"
    }
}
```
+  Untuk detail API, lihat [CreateDevicePool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/devicefarm/create-device-pool.html)di *Referensi AWS CLI Perintah*. 

### `create-project`
<a name="device-farm_CreateProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-project`.

**AWS CLI**  
**Untuk membuat proyek**  
Perintah berikut membuat proyek baru bernama`my-project`:  

```
aws devicefarm create-project --name my-project
```
Output:  

```
{
    "project": {
        "name": "myproject",
        "arn": "arn:aws:devicefarm:us-west-2:123456789012:project:070fc3ca-7ec1-4741-9c1f-d3e044efc506",
        "created": 1503612890.057
    }
}
```
+  Untuk detail API, lihat [CreateProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/devicefarm/create-project.html)di *Referensi AWS CLI Perintah*. 

### `create-upload`
<a name="device-farm_CreateUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-upload`.

**AWS CLI**  
**Untuk membuat unggahan**  
Perintah berikut membuat unggahan untuk aplikasi Android:  

```
aws devicefarm create-upload --project-arn "arn:aws:devicefarm:us-west-2:123456789012:project:070fc3ca-7ec1-4741-9c1f-d3e044efc506" --name app.apk --type ANDROID_APP
```
Anda bisa mendapatkan proyek ARN dari output create-project atau list-projects.  
Output:  

```
{
    "upload": {
        "status": "INITIALIZED",
        "name": "app.apk",
        "created": 1503614408.769,
        "url": "https://prod-us-west-2-uploads.s3-us-west-2.amazonaws.com/arn%3Aaws%3Adevicefarm%3Aus-west-2%3A123456789012%3Aproject%3A070fc3ca-c7e1-4471-91cf-d3e4efc50604/uploads/arn%3Aaws%3Adevicefarm%3Aus-west-2%3A123456789012%3Aupload%3A070fc3ca-7ec1-4741-9c1f-d3e044efc506/dd72723a-ae9e-4087-09e6-f4cea3599514/app.apk?X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20170824T224008Z&X-Amz-SignedHeaders=host&X-Amz-Expires=86400&X-Amz-Credential=AKIAEXAMPLEPBUMBC3GA%2F20170824%2Fus-west-2%2Fs3%2Faws4_request&X-Amz-Signature=05050370c38894ef5bd09f5d009f36fc8f96fa4bb04e1bba9aca71b8dbe49a0f",
        "type": "ANDROID_APP",
        "arn": "arn:aws:devicefarm:us-west-2:123456789012:upload:070fc3ca-7ec1-4741-9c1f-d3e044efc506/dd72723a-ae9e-4087-09e6-f4cea3599514"
    }
}
```
Gunakan URL yang ditandatangani dalam output untuk mengunggah file ke Device Farm:  

```
curl -T app.apk "https://prod-us-west-2-uploads.s3-us-west-2.amazonaws.com/arn%3Aaws%3Adevicefarm%3Aus-west-2%3A123456789012%3Aproject%3A070fc3ca-c7e1-4471-91cf-d3e4efc50604/uploads/arn%3Aaws%3Adevicefarm%3Aus-west-2%3A123456789012%3Aupload%3A070fc3ca-7ec1-4741-9c1f-d3e044efc506/dd72723a-ae9e-4087-09e6-f4cea3599514/app.apk?X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20170824T224008Z&X-Amz-SignedHeaders=host&X-Amz-Expires=86400&X-Amz-Credential=AKIAEXAMPLEPBUMBC3GA%2F20170824%2Fus-west-2%2Fs3%2Faws4_request&X-Amz-Signature=05050370c38894ef5bd09f5d009f36fc8f96fa4bb04e1bba9aca71b8dbe49a0f"
```
+  Untuk detail API, lihat [CreateUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/devicefarm/create-upload.html)di *Referensi AWS CLI Perintah*. 

### `get-upload`
<a name="device-farm_GetUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-upload`.

**AWS CLI**  
**Untuk melihat unggahan**  
Perintah berikut mengambil informasi tentang unggahan:  

```
aws devicefarm get-upload --arn "arn:aws:devicefarm:us-west-2:123456789012:upload:070fc3ca-7ec1-4741-9c1f-d3e044efc506/dd72723a-ae9e-4087-09e6-f4cea3599514"
```
Anda bisa mendapatkan upload ARN dari output. `create-upload`  
Output:  

```
{
    "upload": {
        "status": "SUCCEEDED",
        "name": "app.apk",
        "created": 1505262773.186,
        "type": "ANDROID_APP",
        "arn": "arn:aws:devicefarm:us-west-2:123456789012:upload:070fc3ca-7ec1-4741-9c1f-d3e044efc506/dd72723a-ae9e-4087-09e6-f4cea3599514",
        "metadata": "{\"device_admin\":false,\"activity_name\":\"ccom.example.client.LauncherActivity\",\"version_name\":\"1.0.2.94\",\"screens\":[\"small\",\"normal\",\"large\",\"xlarge\"],\"error_type\":null,\"sdk_version\":\"16\",\"package_name\":\"com.example.client\",\"version_code\":\"20994\",\"native_code\":[\"armeabi-v7a\"],\"target_sdk_version\":\"25\"}"
    }
}
```
+  Untuk detail API, lihat [GetUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/devicefarm/get-upload.html)di *Referensi AWS CLI Perintah*. 

### `list-projects`
<a name="device-farm_ListProjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-projects`.

**AWS CLI**  
**Untuk daftar proyek**  
Berikut ini mengambil daftar proyek:  

```
aws devicefarm list-projects
```
Output:  

```
{
    "projects": [
        {
            "name": "myproject",
            "arn": "arn:aws:devicefarm:us-west-2:123456789012:project:070fc3ca-7ec1-4741-9c1f-d3e044efc506",
            "created": 1503612890.057
        },
        {
            "name": "otherproject",
            "arn": "arn:aws:devicefarm:us-west-2:123456789012:project:a5f5b752-8098-49d1-86bf-5f7682c1c77e",
            "created": 1505257519.337
        }
    ]
}
```
+  Untuk detail API, lihat [ListProjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/devicefarm/list-projects.html)di *Referensi AWS CLI Perintah*. 

# Direct Connect contoh menggunakan AWS CLI
<a name="cli_2_direct-connect_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Direct Connect.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-direct-connect-gateway-association-proposal`
<a name="direct-connect_AcceptDirectConnectGatewayAssociationProposal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-direct-connect-gateway-association-proposal`.

**AWS CLI**  
**Untuk menerima proposal asosiasi gateway**  
Berikut ini `accept-direct-connect-gateway-association-proposal` menerima proposal yang ditentukan.  

```
aws directconnect  accept-direct-connect-gateway-association-proposal \
    --direct-connect-gateway-id 11460968-4ac1-4fd3-bdb2-00599EXAMPLE \
    --proposal-id cb7f41cb-8128-43a5-93b1-dcaedEXAMPLE \
    --associated-gateway-owner-account 111122223333

{
    "directConnectGatewayAssociation": {
        "directConnectGatewayId": "11460968-4ac1-4fd3-bdb2-00599EXAMPLE",
        "directConnectGatewayOwnerAccount": "111122223333",
        "associationState": "associating",
        "associatedGateway": {
            "id": "tgw-02f776b1a7EXAMPLE",
            "type": "transitGateway",
            "ownerAccount": "111122223333",
            "region": "us-east-1"
        },
        "associationId": "6441f8bf-5917-4279-ade1-9708bEXAMPLE",
        "allowedPrefixesToDirectConnectGateway": [
            {
                "cidr": "192.168.1.0/30"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menerima atau Menolak Proposal Asosiasi Gateway Transit](https://docs.aws.amazon.com/directconnect/latest/UserGuide/multi-account-associate-tgw.html#multi-account-tgw-accept-reject-proposal) di *Panduan Pengguna Direct AWS Connect*.  
+  Untuk detail API, lihat [AcceptDirectConnectGatewayAssociationProposal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/accept-direct-connect-gateway-association-proposal.html)di *Referensi AWS CLI Perintah*. 

### `allocate-connection-on-interconnect`
<a name="direct-connect_AllocateConnectionOnInterconnect_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-connection-on-interconnect`.

**AWS CLI**  
**Untuk membuat koneksi yang di-host pada interkoneksi**  
`allocate-connection-on-interconnect`Perintah berikut membuat koneksi yang di-host pada interkoneksi:  

```
aws directconnect allocate-connection-on-interconnect --bandwidth 500Mbps --connection-name mydcinterconnect --owner-account 123456789012 --interconnect-id dxcon-fgktov66 --vlan 101
```
Output:  

```
{
    "partnerName": "TIVIT",
    "vlan": 101,
    "ownerAccount": "123456789012",
    "connectionId": "dxcon-ffzc51m1",
    "connectionState": "ordering",
    "bandwidth": "500Mbps",
    "location": "TIVIT",
    "connectionName": "mydcinterconnect",
    "region": "sa-east-1"
}
```
+  Untuk detail API, lihat [AllocateConnectionOnInterconnect](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/allocate-connection-on-interconnect.html)di *Referensi AWS CLI Perintah*. 

### `allocate-hosted-connection`
<a name="direct-connect_AllocateHostedConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-hosted-connection`.

**AWS CLI**  
**Untuk membuat koneksi yang di-host pada interkoneksi**  
`allocate-hosted-connection`Contoh berikut membuat koneksi host pada interkoneksi yang ditentukan.  

```
aws directconnect allocate-hosted-connection \
    --bandwidth 500Mbps \
    --connection-name mydcinterconnect \
    --owner-account 123456789012
    -connection-id dxcon-fgktov66
    -vlan 101
```
Output:  

```
{
    "partnerName": "TIVIT",
    "vlan": 101,
    "ownerAccount": "123456789012",
    "connectionId": "dxcon-ffzc51m1",
    "connectionState": "ordering",
    "bandwidth": "500Mbps",
    "location": "TIVIT",
    "connectionName": "mydcinterconnect",
    "region": "sa-east-1"
}
```
+  Untuk detail API, lihat [AllocateHostedConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/allocate-hosted-connection.html)di *Referensi AWS CLI Perintah*. 

### `allocate-private-virtual-interface`
<a name="direct-connect_AllocatePrivateVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-private-virtual-interface`.

**AWS CLI**  
**Untuk menyediakan antarmuka virtual pribadi**  
`allocate-private-virtual-interface`Perintah berikut menyediakan antarmuka virtual pribadi yang akan dimiliki oleh pelanggan yang berbeda:  

```
aws directconnect allocate-private-virtual-interface --connection-id dxcon-ffjrkx17 --owner-account 123456789012 --new-private-virtual-interface-allocation virtualInterfaceName=PrivateVirtualInterface,vlan=1000,asn=65000,authKey=asdf34example,amazonAddress=192.168.1.1/30,customerAddress=192.168.1.2/30
```
Output:  

```
{
    "virtualInterfaceState": "confirming",
    "asn": 65000,
    "vlan": 1000,
    "customerAddress": "192.168.1.2/30",
    "ownerAccount": "123456789012",
    "connectionId": "dxcon-ffjrkx17",
    "virtualInterfaceId": "dxvif-fgy8orxu",
    "authKey": "asdf34example",
    "routeFilterPrefixes": [],
    "location": "TIVIT",
    "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n  <logical_connection id=\"dxvif-fgy8orxu\">\n  <vlan>1000</vlan>\n  <customer_address>192.168.1.2/30</customer_address>\n  <amazon_address>192.168.1.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>asdf34example</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>private</connection_type>\n</logical_connection>\n",
    "amazonAddress": "192.168.1.1/30",
    "virtualInterfaceType": "private",
    "virtualInterfaceName": "PrivateVirtualInterface"
}
```
+  Untuk detail API, lihat [AllocatePrivateVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/allocate-private-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `allocate-public-virtual-interface`
<a name="direct-connect_AllocatePublicVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-public-virtual-interface`.

**AWS CLI**  
**Untuk menyediakan antarmuka virtual publik**  
`allocate-public-virtual-interface`Perintah berikut menyediakan antarmuka virtual publik yang akan dimiliki oleh pelanggan yang berbeda:  

```
aws directconnect allocate-public-virtual-interface --connection-id dxcon-ffjrkx17 --owner-account 123456789012 --new-public-virtual-interface-allocation virtualInterfaceName=PublicVirtualInterface,vlan=2000,asn=65000,authKey=asdf34example,amazonAddress=203.0.113.1/30,customerAddress=203.0.113.2/30,routeFilterPrefixes=[{cidr=203.0.113.0/30},{cidr=203.0.113.4/30}]
```
Output:  

```
{
    "virtualInterfaceState": "confirming",
    "asn": 65000,
    "vlan": 2000,
    "customerAddress": "203.0.113.2/30",
    "ownerAccount": "123456789012",
    "connectionId": "dxcon-ffjrkx17",
    "virtualInterfaceId": "dxvif-fg9xo9vp",
    "authKey": "asdf34example",
    "routeFilterPrefixes": [
        {
            "cidr": "203.0.113.0/30"
        },
        {
            "cidr": "203.0.113.4/30"
        }
    ],
    "location": "TIVIT",
    "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fg9xo9vp\">\n  <vlan>2000</vlan>\n  <customer_address>203.0.113.2/30</customer_address>\n  <amazon_address>203.0.113.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>asdf34example</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>public</connection_type>\n</logical_connection>\n",
    "amazonAddress": "203.0.113.1/30",
    "virtualInterfaceType": "public",
    "virtualInterfaceName": "PublicVirtualInterface"
}
```
+  Untuk detail API, lihat [AllocatePublicVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/allocate-public-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `allocate-transit-virtual-interface`
<a name="direct-connect_AllocateTransitVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-transit-virtual-interface`.

**AWS CLI**  
**Untuk menyediakan antarmuka virtual transit yang akan dimiliki oleh AWS akun yang ditentukan**  
`allocate-transit-virtual-interface`Contoh berikut menyediakan antarmuka virtual transit untuk akun yang ditentukan.  

```
aws directconnect allocate-transit-virtual-interface \
    --connection-id dxlag-fEXAMPLE \
    --owner-account 123456789012 \
    --new-transit-virtual-interface-allocation "virtualInterfaceName=Example Transit Virtual Interface,vlan=126,asn=65110,mtu=1500,authKey=0xzxgA9YoW9h58u8SEXAMPLE,amazonAddress=192.168.1.1/30,customerAddress=192.168.1.2/30,addressFamily=ipv4,tags=[{key=Tag,value=Example}]"
```
Output:  

```
{
    "virtualInterface": {
        "ownerAccount": "123456789012",
        "virtualInterfaceId": "dxvif-fEXAMPLE",
        "location": "loc1",
        "connectionId": "dxlag-fEXAMPLE",
        "virtualInterfaceType": "transit",
        "virtualInterfaceName": "Example Transit Virtual Interface",
        "vlan": 126,
        "asn": 65110,
        "amazonSideAsn": 7224,
        "authKey": "0xzxgA9YoW9h58u8SEXAMPLE",
        "amazonAddress": "192.168.1.1/30",
        "customerAddress": "192.168.1.2/30",
        "addressFamily": "ipv4",
        "virtualInterfaceState": "confirming",
        "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fEXAMPLE\">\n  <vlan>126</vlan>\n  <customer_address>192.168.1.2/30</customer_address>\n  <amazon_address>192.168.1.1/30</amazon_address>\n  <bgp_asn>65110</bgp_asn>\n  <bgp_auth_key>0xzxgA9YoW9h58u8SEXAMPLE</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>transit</connection_type>\n</logical_connection>\n",
        "mtu": 1500,
        "jumboFrameCapable": true,
        "virtualGatewayId": "",
        "directConnectGatewayId": "",
        "routeFilterPrefixes": [],
        "bgpPeers": [
            {
                "bgpPeerId": "dxpeer-fEXAMPLE",
                "asn": 65110,
                "authKey": "0xzxgA9YoW9h58u8EXAMPLE",
                "addressFamily": "ipv4",
                "amazonAddress": "192.168.1.1/30",
                "customerAddress": "192.168.1.2/30",
                "bgpPeerState": "pending",
                "bgpStatus": "down",
                "awsDeviceV2": "loc1-26wz6vEXAMPLE"
            }
        ],
        "region": "sa-east-1",
        "awsDeviceV2": "loc1-26wz6vEXAMPLE",
        "tags": [
            {
                "key": "Tag",
                "value": "Example"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Antarmuka Virtual Transit yang Dihosting](https://docs.aws.amazon.com/directconnect/latest/UserGuide/createhostedvirtualinterface.html#create-hosted-transit-vif) di *Panduan Pengguna AWS Direct Connect*.  
+  Untuk detail API, lihat [AllocateTransitVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/allocate-transit-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `associate-connection-with-lag`
<a name="direct-connect_AssociateConnectionWithLag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-connection-with-lag`.

**AWS CLI**  
**Untuk mengaitkan koneksi dengan LAG**  
Contoh berikut mengaitkan koneksi yang ditentukan dengan LAG yang ditentukan.  
Perintah:  

```
aws directconnect associate-connection-with-lag --lag-id dxlag-fhccu14t --connection-id dxcon-fg9607vm
```
Output:  

```
{
  "ownerAccount": "123456789012",
  "connectionId": "dxcon-fg9607vm",
  "lagId": "dxlag-fhccu14t",
  "connectionState": "requested",
  "bandwidth": "1Gbps",
  "location": "EqDC2",
  "connectionName": "Con2ForLag",
  "region": "us-east-1"
}
```
+  Untuk detail API, lihat [AssociateConnectionWithLag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/associate-connection-with-lag.html)di *Referensi AWS CLI Perintah*. 

### `associate-hosted-connection`
<a name="direct-connect_AssociateHostedConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-hosted-connection`.

**AWS CLI**  
**Untuk mengaitkan koneksi yang dihosting dengan LAG**  
Contoh berikut mengaitkan koneksi host yang ditentukan dengan LAG yang ditentukan.  
Perintah:  

```
aws directconnect associate-hosted-connection --parent-connection-id dxlag-fhccu14t --connection-id dxcon-fg9607vm
```
Output:  

```
{
  "partnerName": "TIVIT",
  "vlan": 101,
  "ownerAccount": "123456789012",
  "connectionId": "dxcon-fg9607vm",
  "lagId": "dxlag-fhccu14t",
  "connectionState": "ordering",
  "bandwidth": "500Mbps",
  "location": "TIVIT",
  "connectionName": "mydcinterconnect",
  "region": "sa-east-1"
}
```
+  Untuk detail API, lihat [AssociateHostedConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/associate-hosted-connection.html)di *Referensi AWS CLI Perintah*. 

### `associate-virtual-interface`
<a name="direct-connect_AssociateVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-virtual-interface`.

**AWS CLI**  
**Untuk mengaitkan antarmuka virtual dengan koneksi**  
Contoh berikut mengaitkan antarmuka virtual yang ditentukan dengan LAG yang ditentukan. Atau, untuk mengaitkan antarmuka virtual dengan koneksi, tentukan ID koneksi AWS Direct Connect untuk`--connection-id`; misalnya,`dxcon-ffnikghc`.  
Perintah:  

```
aws directconnect associate-virtual-interface --connection-id dxlag-ffjhj9lx --virtual-interface-id dxvif-fgputw0j
```
Output:  

```
{
  "virtualInterfaceState": "pending",
  "asn": 65000,
  "vlan": 123,
  "customerAddress": "169.254.255.2/30",
  "ownerAccount": "123456789012",
  "connectionId": "dxlag-ffjhj9lx",
  "addressFamily": "ipv4",
  "virtualGatewayId": "vgw-38e90b51",
  "virtualInterfaceId": "dxvif-fgputw0j",
  "authKey": "0x123pK5_VBqv.UQ3kJ4123_",
  "routeFilterPrefixes": [],
  "location": "CSVA1",
  "bgpPeers": [
      {
          "bgpStatus": "down",
          "customerAddress": "169.254.255.2/30",
          "addressFamily": "ipv4",
          "authKey": "0x123pK5_VBqv.UQ3kJ4123_",
          "bgpPeerState": "deleting",
          "amazonAddress": "169.254.255.1/30",
          "asn": 65000
      },
      {
          "bgpStatus": "down",
          "customerAddress": "169.254.255.2/30",
          "addressFamily": "ipv4",
          "authKey": "0x123pK5_VBqv.UQ3kJ4123_",
          "bgpPeerState": "pending",
          "amazonAddress": "169.254.255.1/30",
          "asn": 65000
      }
  ],
  "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fgputw0j\">\n  <vlan>123</vlan>\n  <customer_address>169.254.255.2/30</customer_address>\n  <amazon_address>169.254.255.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>0x123pK5_VBqv.UQ3kJ4123_</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>private</connection_type>\n</logical_connection>\n",
  "amazonAddress": "169.254.255.1/30",
  "virtualInterfaceType": "private",
  "virtualInterfaceName": "VIF1A"
}
```
+  Untuk detail API, lihat [AssociateVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/associate-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `confirm-connection`
<a name="direct-connect_ConfirmConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-connection`.

**AWS CLI**  
**Untuk mengonfirmasi pembuatan koneksi yang dihosting pada interkoneksi**  
`confirm-connection`Perintah berikut mengonfirmasi pembuatan koneksi yang dihosting pada interkoneksi:  

```
aws directconnect confirm-connection --connection-id dxcon-fg2wi7hy
```
Output:  

```
{
    "connectionState": "pending"
}
```
+  Untuk detail API, lihat [ConfirmConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/confirm-connection.html)di *Referensi AWS CLI Perintah*. 

### `confirm-private-virtual-interface`
<a name="direct-connect_ConfirmPrivateVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-private-virtual-interface`.

**AWS CLI**  
**Untuk menerima kepemilikan antarmuka virtual pribadi**  
`confirm-private-virtual-interface`Perintah berikut menerima kepemilikan antarmuka virtual pribadi yang dibuat oleh pelanggan lain:  

```
aws directconnect confirm-private-virtual-interface --virtual-interface-id dxvif-fgy8orxu --virtual-gateway-id vgw-e4a47df9
```
Output:  

```
{
    "virtualInterfaceState": "pending"
}
```
+  Untuk detail API, lihat [ConfirmPrivateVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/confirm-private-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `confirm-public-virtual-interface`
<a name="direct-connect_ConfirmPublicVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-public-virtual-interface`.

**AWS CLI**  
**Untuk menerima kepemilikan antarmuka virtual publik**  
`confirm-public-virtual-interface`Perintah berikut menerima kepemilikan antarmuka virtual publik yang dibuat oleh pelanggan lain:  

```
aws directconnect confirm-public-virtual-interface --virtual-interface-id dxvif-fg9xo9vp
```
Output:  

```
{
    "virtualInterfaceState": "verifying"
}
```
+  Untuk detail API, lihat [ConfirmPublicVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/confirm-public-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `confirm-transit-virtual-interface`
<a name="direct-connect_ConfirmTransitVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-transit-virtual-interface`.

**AWS CLI**  
**Untuk menerima kepemilikan antarmuka virtual transit**  
Berikut ini `confirm-transit-virtual-interface` menerima kepemilikan antarmuka virtual transit yang dibuat oleh pelanggan lain.  

```
aws directconnect confirm-transit-virtual-interface \
    --virtual-interface-id dxvif-fEXAMPLE \
    --direct-connect-gateway-id 4112ccf9-25e9-4111-8237-b6c5dEXAMPLE
```
Output:  

```
{
    "virtualInterfaceState": "pending"
}
```
Untuk informasi selengkapnya, lihat [Menerima Antarmuka Virtual yang Dihosting](https://docs.aws.amazon.com/directconnect/latest/UserGuide/accepthostedvirtualinterface.html) di *Panduan Pengguna AWS Direct Connect*.  
+  Untuk detail API, lihat [ConfirmTransitVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/confirm-transit-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `create-bgp-peer`
<a name="direct-connect_CreateBgpPeer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-bgp-peer`.

**AWS CLI**  
**Membuat sesi peering IPv6 BGP**  
Contoh berikut membuat sesi peering IPv6 BGP pada antarmuka virtual pribadi. `dxvif-fg1vuj3d` IPv6 Alamat rekan secara otomatis dialokasikan oleh Amazon.  
Perintah:  

```
aws directconnect create-bgp-peer --virtual-interface-id dxvif-fg1vuj3d --new-bgp-peer asn=64600,addressFamily=ipv6
```
Output:  

```
{
  "virtualInterface": {
      "virtualInterfaceState": "available",
      "asn": 65000,
      "vlan": 125,
      "customerAddress": "169.254.255.2/30",
      "ownerAccount": "123456789012",
      "connectionId": "dxcon-fguhmqlc",
      "addressFamily": "ipv4",
      "virtualGatewayId": "vgw-f9eb0c90",
      "virtualInterfaceId": "dxvif-fg1vuj3d",
      "authKey": "0xC_ukbCerl6EYA0example",
      "routeFilterPrefixes": [],
      "location": "EqDC2",
      "bgpPeers": [
          {
              "bgpStatus": "down",
              "customerAddress": "169.254.255.2/30",
              "addressFamily": "ipv4",
              "authKey": "0xC_ukbCerl6EYA0uexample",
              "bgpPeerState": "available",
              "amazonAddress": "169.254.255.1/30",
              "asn": 65000
          },
          {
              "bgpStatus": "down",
              "customerAddress": "2001:db8:1100:2f0:0:1:9cb4:4216/125",
              "addressFamily": "ipv6",
              "authKey": "0xS27kAIU_VHPjjAexample",
              "bgpPeerState": "pending",
              "amazonAddress": "2001:db8:1100:2f0:0:1:9cb4:4211/125",
              "asn": 64600
          }
      ],
      "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fg1vuj3d\">\n  <vlan>125</vlan>\n  <customer_address>169.254.255.2/30</customer_address>\n  <amazon_address>169.254.255.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>0xC_ukbCerl6EYA0uexample</bgp_auth_key>\n  <ipv6_customer_address>2001:db8:1100:2f0:0:1:9cb4:4216/125</ipv6_customer_address>\n  <ipv6_amazon_address>2001:db8:1100:2f0:0:1:9cb4:4211/125</ipv6_amazon_address>\n  <ipv6_bgp_asn>64600</ipv6_bgp_asn>\n  <ipv6_bgp_auth_key>0xS27kAIU_VHPjjAexample</ipv6_bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>private</connection_type>\n</logical_connection>\n",
      "amazonAddress": "169.254.255.1/30",
      "virtualInterfaceType": "private",
      "virtualInterfaceName": "Test"
  }
}
```
+  Untuk detail API, lihat [CreateBgpPeer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-bgp-peer.html)di *Referensi AWS CLI Perintah*. 

### `create-connection`
<a name="direct-connect_CreateConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-connection`.

**AWS CLI**  
**Untuk membuat sambungan dari jaringan Anda ke lokasi AWS Direct Connect**  
`create-connection`Perintah berikut membuat koneksi dari jaringan Anda ke lokasi AWS Direct Connect:  

```
aws directconnect create-connection --location TIVIT --bandwidth 1Gbps --connection-name "Connection to AWS"
```
Output:  

```
{
    "ownerAccount": "123456789012",
    "connectionId": "dxcon-fg31dyv6",
    "connectionState": "requested",
    "bandwidth": "1Gbps",
    "location": "TIVIT",
    "connectionName": "Connection to AWS",
    "region": "sa-east-1"
}
```
+  Untuk detail API, lihat [CreateConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-connection.html)di *Referensi AWS CLI Perintah*. 

### `create-direct-connect-gateway-association-proposal`
<a name="direct-connect_CreateDirectConnectGatewayAssociationProposal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-direct-connect-gateway-association-proposal`.

**AWS CLI**  
**Untuk membuat proposal untuk mengaitkan gateway transit yang ditentukan dengan gateway Direct Connect yang ditentukan**  
`create-direct-connect-gateway-association-proposal`Contoh berikut membuat proposal yang mengaitkan gateway transit yang ditentukan dengan gateway Direct Connect yang ditentukan.  

```
aws directconnect create-direct-connect-gateway-association-proposal \
    --direct-connect-gateway-id 11460968-4ac1-4fd3-bdb2-00599EXAMPLE \
    --direct-connect-gateway-owner-account 111122223333 \
    --gateway-id tgw-02f776b1a7EXAMPLE \
    --add-allowed-prefixes-to-direct-connect-gateway cidr=192.168.1.0/30
```
Output:  

```
{
    "directConnectGatewayAssociationProposal": {
        "proposalId": "cb7f41cb-8128-43a5-93b1-dcaedEXAMPLE",
        "directConnectGatewayId": "11460968-4ac1-4fd3-bdb2-00599EXAMPLE",
        "directConnectGatewayOwnerAccount": "111122223333",
        "proposalState": "requested",
        "associatedGateway": {
            "id": "tgw-02f776b1a7EXAMPLE",
            "type": "transitGateway",
            "ownerAccount": "111122223333",
            "region": "us-east-1"
        },
        "requestedAllowedPrefixesToDirectConnectGateway": [
            {
                "cidr": "192.168.1.0/30"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Proposal Asosiasi Gateway Transit](https://docs.aws.amazon.com/directconnect/latest/UserGuide/multi-account-associate-tgw.html#multi-account-tgw-create-proposal) di *Panduan Pengguna AWS Direct Connect*.  
+  Untuk detail API, lihat [CreateDirectConnectGatewayAssociationProposal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-direct-connect-gateway-association-proposal.html)di *Referensi AWS CLI Perintah*. 

### `create-direct-connect-gateway-association`
<a name="direct-connect_CreateDirectConnectGatewayAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-direct-connect-gateway-association`.

**AWS CLI**  
**Untuk mengaitkan gateway pribadi virtual dengan gateway Direct Connect**  
Contoh berikut mengaitkan gateway pribadi virtual `vgw-6efe725e` dengan gateway Direct Connect. `5f294f92-bafb-4011-916d-9b0bexample` Anda harus menjalankan perintah di wilayah tempat gateway pribadi virtual berada.  
Perintah:  

```
aws directconnect create-direct-connect-gateway-association --direct-connect-gateway-id 5f294f92-bafb-4011-916d-9b0bexample --virtual-gateway-id vgw-6efe725e
```
Output:  

```
{
  "directConnectGatewayAssociation": {
      "associationState": "associating",
      "virtualGatewayOwnerAccount": "123456789012",
      "directConnectGatewayId": "5f294f92-bafb-4011-916d-9b0bexample",
      "virtualGatewayId": "vgw-6efe725e",
      "virtualGatewayRegion": "us-east-2"
  }
}
```
+  Untuk detail API, lihat [CreateDirectConnectGatewayAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-direct-connect-gateway-association.html)di *Referensi AWS CLI Perintah*. 

### `create-direct-connect-gateway`
<a name="direct-connect_CreateDirectConnectGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-direct-connect-gateway`.

**AWS CLI**  
**Untuk membuat gateway Direct Connect**  
Contoh berikut membuat gateway Direct Connect dengan nama`DxGateway1`.  
Perintah:  

```
aws directconnect create-direct-connect-gateway --direct-connect-gateway-name "DxGateway1"
```
Output:  

```
{
  "directConnectGateway": {
      "amazonSideAsn": 64512,
      "directConnectGatewayId": "5f294f92-bafb-4011-916d-9b0bdexample",
      "ownerAccount": "123456789012",
      "directConnectGatewayName": "DxGateway1",
      "directConnectGatewayState": "available"
  }
}
```
+  Untuk detail API, lihat [CreateDirectConnectGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-direct-connect-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-interconnect`
<a name="direct-connect_CreateInterconnect_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-interconnect`.

**AWS CLI**  
**Untuk membuat interkoneksi antara jaringan mitra dan AWS**  
`create-interconnect`Perintah berikut membuat interkoneksi antara jaringan mitra AWS Direct Connect dan lokasi AWS Direct Connect tertentu:  

```
aws directconnect create-interconnect --interconnect-name "1G Interconnect to AWS" --bandwidth 1Gbps --location TIVIT
```
Output:  

```
{
    "region": "sa-east-1",
    "bandwidth": "1Gbps",
    "location": "TIVIT",
    "interconnectName": "1G Interconnect to AWS",
    "interconnectId": "dxcon-fgktov66",
    "interconnectState": "requested"
}
```
+  Untuk detail API, lihat [CreateInterconnect](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-interconnect.html)di *Referensi AWS CLI Perintah*. 

### `create-lag`
<a name="direct-connect_CreateLag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-lag`.

**AWS CLI**  
**Untuk membuat LAG dengan koneksi baru**  
Contoh berikut membuat LAG dan meminta dua koneksi AWS Direct Connect baru untuk LAG dengan bandwidth 1 Gbps.  
Perintah:  

```
aws directconnect create-lag --location CSVA1 --number-of-connections 2 --connections-bandwidth 1Gbps --lag-name 1GBLag
```
Output:  

```
{
  "awsDevice": "CSVA1-23u8tlpaz8iks",
  "numberOfConnections": 2,
  "lagState": "pending",
  "ownerAccount": "123456789012",
  "lagName": "1GBLag",
  "connections": [
      {
          "ownerAccount": "123456789012",
          "connectionId": "dxcon-ffqr6x5q",
          "lagId": "dxlag-ffjhj9lx",
          "connectionState": "requested",
          "bandwidth": "1Gbps",
          "location": "CSVA1",
          "connectionName": "Requested Connection 1 for Lag dxlag-ffjhj9lx",
          "region": "us-east-1"
      },
      {
          "ownerAccount": "123456789012",
          "connectionId": "dxcon-fflqyj95",
          "lagId": "dxlag-ffjhj9lx",
          "connectionState": "requested",
          "bandwidth": "1Gbps",
          "location": "CSVA1",
          "connectionName": "Requested Connection 2 for Lag dxlag-ffjhj9lx",
          "region": "us-east-1"
      }
  ],
  "lagId": "dxlag-ffjhj9lx",
  "minimumLinks": 0,
  "connectionsBandwidth": "1Gbps",
  "region": "us-east-1",
  "location": "CSVA1"
}
```
**Untuk membuat LAG menggunakan koneksi yang ada**  
Contoh berikut membuat LAG dari koneksi yang ada di akun Anda, dan meminta koneksi baru kedua untuk LAG dengan bandwidth dan lokasi yang sama dengan koneksi yang ada.  
Perintah:  

```
aws directconnect create-lag --location EqDC2 --number-of-connections 2 --connections-bandwidth 1Gbps --lag-name 2ConnLAG --connection-id dxcon-fgk145dr
```
Output:  

```
{
  "awsDevice": "EqDC2-4h6ce2r1bes6",
  "numberOfConnections": 2,
  "lagState": "pending",
  "ownerAccount": "123456789012",
  "lagName": "2ConnLAG",
  "connections": [
      {
          "ownerAccount": "123456789012",
          "connectionId": "dxcon-fh6ljcvo",
          "lagId": "dxlag-fhccu14t",
          "connectionState": "requested",
          "bandwidth": "1Gbps",
          "location": "EqDC2",
          "connectionName": "Requested Connection 1 for Lag dxlag-fhccu14t",
          "region": "us-east-1"
      },
      {
          "ownerAccount": "123456789012",
          "connectionId": "dxcon-fgk145dr",
          "lagId": "dxlag-fhccu14t",
          "connectionState": "down",
          "bandwidth": "1Gbps",
          "location": "EqDC2",
          "connectionName": "VAConn1",
          "region": "us-east-1"
      }
  ],
  "lagId": "dxlag-fhccu14t",
  "minimumLinks": 0,
  "connectionsBandwidth": "1Gbps",
  "region": "us-east-1",
  "location": "EqDC2"
}
```
+  Untuk detail API, lihat [CreateLag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-lag.html)di *Referensi AWS CLI Perintah*. 

### `create-private-virtual-interface`
<a name="direct-connect_CreatePrivateVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-private-virtual-interface`.

**AWS CLI**  
**Untuk membuat antarmuka virtual pribadi**  
`create-private-virtual-interface`Perintah berikut membuat antarmuka virtual pribadi:  

```
aws directconnect create-private-virtual-interface --connection-id dxcon-ffjrkx17 --new-private-virtual-interface virtualInterfaceName=PrivateVirtualInterface,vlan=101,asn=65000,authKey=asdf34example,amazonAddress=192.168.1.1/30,customerAddress=192.168.1.2/30,virtualGatewayId=vgw-aba37db6
```
Output:  

```
{
    "virtualInterfaceState": "pending",
    "asn": 65000,
    "vlan": 101,
    "customerAddress": "192.168.1.2/30",
    "ownerAccount": "123456789012",
    "connectionId": "dxcon-ffjrkx17",
    "virtualGatewayId": "vgw-aba37db6",
    "virtualInterfaceId": "dxvif-ffhhk74f",
    "authKey": "asdf34example",
    "routeFilterPrefixes": [],
    "location": "TIVIT",
    "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-ffhhk74f\">\n  <vlan>101</vlan>\n  <customer_address>192.168.1.2/30</customer_address>\n  <amazon_address>192.168.1.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>asdf34example</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>private</connection_type>\n</logical_connection>\n",
    "amazonAddress": "192.168.1.1/30",
    "virtualInterfaceType": "private",
    "virtualInterfaceName": "PrivateVirtualInterface"
}
```
+  Untuk detail API, lihat [CreatePrivateVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-private-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `create-public-virtual-interface`
<a name="direct-connect_CreatePublicVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-public-virtual-interface`.

**AWS CLI**  
**Untuk membuat antarmuka virtual publik**  
`create-public-virtual-interface`Perintah berikut membuat antarmuka virtual publik:  

```
aws directconnect create-public-virtual-interface --connection-id dxcon-ffjrkx17 --new-public-virtual-interface virtualInterfaceName=PublicVirtualInterface,vlan=2000,asn=65000,authKey=asdf34example,amazonAddress=203.0.113.1/30,customerAddress=203.0.113.2/30,routeFilterPrefixes=[{cidr=203.0.113.0/30},{cidr=203.0.113.4/30}]
```
Output:  

```
{
    "virtualInterfaceState": "verifying",
    "asn": 65000,
    "vlan": 2000,
    "customerAddress": "203.0.113.2/30",
    "ownerAccount": "123456789012",
    "connectionId": "dxcon-ffjrkx17",
    "virtualInterfaceId": "dxvif-fgh0hcrk",
    "authKey": "asdf34example",
    "routeFilterPrefixes": [
        {
            "cidr": "203.0.113.0/30"
        },
        {
            "cidr": "203.0.113.4/30"
        }
    ],
    "location": "TIVIT",
    "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fgh0hcrk\">\n  <vlan>2000</vlan>\n  <customer_address>203.0.113.2/30</customer_address>\n  <amazon_address>203.0.113.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>asdf34example</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>public</connection_type>\n</logical_connection>\n",
    "amazonAddress": "203.0.113.1/30",
    "virtualInterfaceType": "public",
    "virtualInterfaceName": "PublicVirtualInterface"
}
```
+  Untuk detail API, lihat [CreatePublicVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-public-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-virtual-interface`
<a name="direct-connect_CreateTransitVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-virtual-interface`.

**AWS CLI**  
**Untuk membuat antarmuka virtual transit**  
`create-transit-virtual-interface`Contoh berikut membuat antarmuka virtual transit untuk koneksi yang ditentukan.  

```
aws directconnect create-transit-virtual-interface \
    --connection-id dxlag-fEXAMPLE \
    --new-transit-virtual-interface "virtualInterfaceName=Example Transit Virtual Interface,vlan=126,asn=65110,mtu=1500,authKey=0xzxgA9YoW9h58u8SvEXAMPLE,amazonAddress=192.168.1.1/30,customerAddress=192.168.1.2/30,addressFamily=ipv4,directConnectGatewayId=8384da05-13ce-4a91-aada-5a1baEXAMPLE,tags=[{key=Tag,value=Example}]"
```
Output:  

```
{
    "virtualInterface": {
        "ownerAccount": "1111222233333",
        "virtualInterfaceId": "dxvif-fEXAMPLE",
        "location": "loc1",
        "connectionId": "dxlag-fEXAMPLE",
        "virtualInterfaceType": "transit",
        "virtualInterfaceName": "Example Transit Virtual Interface",
        "vlan": 126,
        "asn": 65110,
        "amazonSideAsn": 4200000000,
        "authKey": "0xzxgA9YoW9h58u8SEXAMPLE",
        "amazonAddress": "192.168.1.1/30",
        "customerAddress": "192.168.1.2/30",
        "addressFamily": "ipv4",
        "virtualInterfaceState": "pending",
        "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fEXAMPLE\">\n  <vlan>126</vlan>\n  <customer_address>192.168.1.2/30</customer_address>\n  <amazon_address>192.168.1.1/30</amazon_address>\n  <bgp_asn>65110</bgp_asn>\n  <bgp_auth_key>0xzxgA9YoW9h58u8SvOmXRTw</bgp_auth_key>\n  <amazon_bgp_asn>4200000000</amazon_bgp_asn>\n  <connection_type>transit</connection_type>\n</logical_connection>\n",
        "mtu": 1500,
        "jumboFrameCapable": true,
        "virtualGatewayId": "",
        "directConnectGatewayId": "8384da05-13ce-4a91-aada-5a1baEXAMPLE",
        "routeFilterPrefixes": [],
        "bgpPeers": [
            {
                "bgpPeerId": "dxpeer-EXAMPLE",
                "asn": 65110,
                "authKey": "0xzxgA9YoW9h58u8SEXAMPLE",
                "addressFamily": "ipv4",
                "amazonAddress": "192.168.1.1/30",
                "customerAddress": "192.168.1.2/30",
                "bgpPeerState": "pending",
                "bgpStatus": "down",
                "awsDeviceV2": "loc1-26wz6vEXAMPLE"
            }
        ],
        "region": "sa-east-1",
        "awsDeviceV2": "loc1-26wz6vEXAMPLE",
        "tags": [
            {
                "key": "Tag",
                "value": "Example"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Antarmuka Virtual Transit ke Gateway Direct Connect](https://docs.aws.amazon.com/directconnect/latest/UserGuide/create-vif.html#create-transit-vif) di *Panduan Pengguna AWS Direct Connect*.  
+  Untuk detail API, lihat [CreateTransitVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/create-transit-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `delete-bgp-peer`
<a name="direct-connect_DeleteBgpPeer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bgp-peer`.

**AWS CLI**  
**Untuk menghapus peer BGP dari antarmuka virtual**  
Contoh berikut menghapus rekan IPv6 BGP dari antarmuka virtual. `dxvif-fg1vuj3d`  
Perintah:  

```
aws directconnect delete-bgp-peer --virtual-interface-id dxvif-fg1vuj3d --asn 64600 --customer-address 2001:db8:1100:2f0:0:1:9cb4:4216/125
```
Output:  

```
{
  "virtualInterface": {
      "virtualInterfaceState": "available",
      "asn": 65000,
      "vlan": 125,
      "customerAddress": "169.254.255.2/30",
      "ownerAccount": "123456789012",
      "connectionId": "dxcon-fguhmqlc",
      "addressFamily": "ipv4",
      "virtualGatewayId": "vgw-f9eb0c90",
      "virtualInterfaceId": "dxvif-fg1vuj3d",
      "authKey": "0xC_ukbCerl6EYA0example",
      "routeFilterPrefixes": [],
      "location": "EqDC2",
      "bgpPeers": [
          {
              "bgpStatus": "down",
              "customerAddress": "169.254.255.2/30",
              "addressFamily": "ipv4",
              "authKey": "0xC_ukbCerl6EYA0uexample",
              "bgpPeerState": "available",
              "amazonAddress": "169.254.255.1/30",
              "asn": 65000
          },
          {
              "bgpStatus": "down",
              "customerAddress": "2001:db8:1100:2f0:0:1:9cb4:4216/125",
              "addressFamily": "ipv6",
              "authKey": "0xS27kAIU_VHPjjAexample",
              "bgpPeerState": "deleting",
              "amazonAddress": "2001:db8:1100:2f0:0:1:9cb4:4211/125",
              "asn": 64600
          }
      ],
      "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fg1vuj3d\">\n  <vlan>125</vlan>\n  <customer_address>169.254.255.2/30</customer_address>\n  <amazon_address>169.254.255.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>0xC_ukbCerl6EYA0example</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>private</connection_type>\n</logical_connection>\n",
      "amazonAddress": "169.254.255.1/30",
      "virtualInterfaceType": "private",
      "virtualInterfaceName": "Test"
  }
}
```
+  Untuk detail API, lihat [DeleteBgpPeer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/delete-bgp-peer.html)di *Referensi AWS CLI Perintah*. 

### `delete-connection`
<a name="direct-connect_DeleteConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-connection`.

**AWS CLI**  
**Untuk menghapus koneksi**  
`delete-connection`Perintah berikut menghapus koneksi yang ditentukan:  

```
aws directconnect delete-connection --connection-id dxcon-fg31dyv6
```
Output:  

```
{
    "ownerAccount": "123456789012",
    "connectionId": "dxcon-fg31dyv6",
    "connectionState": "deleted",
    "bandwidth": "1Gbps",
    "location": "TIVIT",
    "connectionName": "Connection to AWS",
    "region": "sa-east-1"
}
```
+  Untuk detail API, lihat [DeleteConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/delete-connection.html)di *Referensi AWS CLI Perintah*. 

### `delete-direct-connect-gateway-association`
<a name="direct-connect_DeleteDirectConnectGatewayAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-direct-connect-gateway-association`.

**AWS CLI**  
**Untuk menghapus asosiasi gateway Direct Connect**  
`delete-direct-connect-gateway-association`Contoh berikut menghapus asosiasi gateway Direct Connect dengan gateway transit yang memiliki ID asosiasi tertentu.  

```
aws directconnect delete-direct-connect-gateway-association --association-id  be85116d-46eb-4b43-a27a-da0c2ad648de
```
Output:  

```
{
    "directConnectGatewayAssociation": {
        "directConnectGatewayId": "11460968-4ac1-4fd3-bdb2-00599EXAMPlE",
        "directConnectGatewayOwnerAccount": "123456789012",
        "associationState": "disassociating",
        "associatedGateway": {
            "id": "tgw-095b3b0b54EXAMPLE",
            "type": "transitGateway",
            "ownerAccount": "123456789012",
            "region": "us-east-1"
       },
        "associationId": " be85116d-46eb-4b43-a27a-da0c2ad648deEXAMPLE ",
        "allowedPrefixesToDirectConnectGateway": [
            {
                "cidr": "192.0.1.0/28"
            }
        ]
    }
}
```
*Untuk informasi selengkapnya, lihat [Mengaitkan dan Memutuskan Gateway Transit di](https://docs.aws.amazon.com/directconnect/latest/UserGuide/direct-connect-transit-gateways.html#associate-tgw-with-direct-connect-gateway) Panduan Pengguna Direct AWS Connect.*  
+  Untuk detail API, lihat [DeleteDirectConnectGatewayAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/delete-direct-connect-gateway-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-direct-connect-gateway`
<a name="direct-connect_DeleteDirectConnectGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-direct-connect-gateway`.

**AWS CLI**  
**Untuk menghapus gateway Direct Connect**  
Contoh berikut menghapus gateway `5f294f92-bafb-4011-916d-9b0bexample` Direct Connect.  
Perintah:  

```
aws directconnect delete-direct-connect-gateway --direct-connect-gateway-id 5f294f92-bafb-4011-916d-9b0bexample
```
Output:  

```
{
  "directConnectGateway": {
      "amazonSideAsn": 64512,
      "directConnectGatewayId": "5f294f92-bafb-4011-916d-9b0bexample",
      "ownerAccount": "123456789012",
      "directConnectGatewayName": "DxGateway1",
      "directConnectGatewayState": "deleting"
  }
}
```
+  Untuk detail API, lihat [DeleteDirectConnectGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/delete-direct-connect-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-interconnect`
<a name="direct-connect_DeleteInterconnect_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-interconnect`.

**AWS CLI**  
**Untuk menghapus interkoneksi**  
`delete-interconnect`Perintah berikut menghapus interkoneksi yang ditentukan:  

```
aws directconnect delete-interconnect --interconnect-id dxcon-fgktov66
```
Output:  

```
{
    "interconnectState": "deleted"
}
```
+  Untuk detail API, lihat [DeleteInterconnect](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/delete-interconnect.html)di *Referensi AWS CLI Perintah*. 

### `delete-lag`
<a name="direct-connect_DeleteLag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-lag`.

**AWS CLI**  
**Untuk menghapus LAG**  
Contoh berikut menghapus LAG yang ditentukan.  
Perintah:  

```
aws directconnect delete-lag --lag-id dxlag-ffrhowd9
```
Output:  

```
{
  "awsDevice": "EqDC2-4h6ce2r1bes6",
  "numberOfConnections": 0,
  "lagState": "deleted",
  "ownerAccount": "123456789012",
  "lagName": "TestLAG",
  "connections": [],
  "lagId": "dxlag-ffrhowd9",
  "minimumLinks": 0,
  "connectionsBandwidth": "1Gbps",
  "region": "us-east-1",
  "location": "EqDC2"
}
```
+  Untuk detail API, lihat [DeleteLag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/delete-lag.html)di *Referensi AWS CLI Perintah*. 

### `delete-virtual-interface`
<a name="direct-connect_DeleteVirtualInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-virtual-interface`.

**AWS CLI**  
**Untuk menghapus antarmuka virtual**  
`delete-virtual-interface`Perintah berikut menghapus antarmuka virtual yang ditentukan:  

```
aws directconnect delete-virtual-interface --virtual-interface-id dxvif-ffhhk74f
```
Output:  

```
{
    "virtualInterfaceState": "deleting"
}
```
+  Untuk detail API, lihat [DeleteVirtualInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/delete-virtual-interface.html)di *Referensi AWS CLI Perintah*. 

### `describe-connection-loa`
<a name="direct-connect_DescribeConnectionLoa_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-connection-loa`.

**AWS CLI**  
**Untuk menggambarkan LOA-CFA Anda untuk koneksi menggunakan Linux atau Mac OS X**  
Contoh berikut menjelaskan LOA-CFA Anda untuk koneksi. `dxcon-fh6ayh1d` Isi LOA-CFA dikodekan base64. Perintah ini menggunakan `--query` parameter `--output` dan untuk mengontrol output dan mengekstrak isi `loaContent` struktur. Bagian akhir dari perintah menerjemahkan konten menggunakan `base64` utilitas, dan mengirimkan output ke file PDF.  

```
aws directconnect describe-connection-loa --connection-id dxcon-fh6ayh1d --output text --query loa.loaContent|base64 --decode > myLoaCfa.pdf
```
**Untuk menggambarkan LOA-CFA Anda untuk koneksi menggunakan Windows**  
Contoh sebelumnya membutuhkan penggunaan `base64` utilitas untuk memecahkan kode output. Di komputer Windows, Anda dapat menggunakannya `certutil` sebagai gantinya. Dalam contoh berikut, perintah pertama menjelaskan LOA-CFA Anda untuk koneksi `dxcon-fh6ayh1d` dan menggunakan `--query` parameter `--output` dan untuk mengontrol output dan mengekstrak isi `loaContent` struktur ke file yang disebut. `myLoaCfa.base64` Perintah kedua menggunakan utilitas `certutil` untuk memecahkan kode file dan mengirim output ke file PDF.  

```
aws directconnect describe-connection-loa --connection-id dxcon-fh6ayh1d --output text --query loa.loaContent > myLoaCfa.base64
```

```
certutil -decode myLoaCfa.base64 myLoaCfa.pdf
```
Untuk informasi selengkapnya tentang mengontrol output AWS CLI, lihat [Mengontrol Output Perintah dari Antarmuka Baris AWS Perintah di Panduan Pengguna Antarmuka](https://docs.aws.amazon.com/cli/latest/userguide/controlling-output.html) *Baris AWS Perintah*.  
+  Untuk detail API, lihat [DescribeConnectionLoa](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-connection-loa.html)di *Referensi AWS CLI Perintah*. 

### `describe-connections-on-interconnect`
<a name="direct-connect_DescribeConnectionsOnInterconnect_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-connections-on-interconnect`.

**AWS CLI**  
**Untuk membuat daftar koneksi pada interkoneksi**  
`describe-connections-on-interconnect`Perintah berikut mencantumkan koneksi yang telah disediakan pada interkoneksi yang diberikan:  

```
aws directconnect describe-connections-on-interconnect --interconnect-id dxcon-fgktov66
```
Output:  

```
{
    "connections": [
        {
            "partnerName": "TIVIT",
            "vlan": 101,
            "ownerAccount": "123456789012",
            "connectionId": "dxcon-ffzc51m1",
            "connectionState": "ordering",
            "bandwidth": "500Mbps",
            "location": "TIVIT",
            "connectionName": "mydcinterconnect",
            "region": "sa-east-1"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeConnectionsOnInterconnect](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-connections-on-interconnect.html)di *Referensi AWS CLI Perintah*. 

### `describe-connections`
<a name="direct-connect_DescribeConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-connections`.

**AWS CLI**  
**Untuk membuat daftar semua koneksi di wilayah saat ini**  
`describe-connections`Perintah berikut mencantumkan semua koneksi di wilayah saat ini:  

```
aws directconnect describe-connections
```
Output:  

```
{
  "connections": [
      {
          "awsDevice": "EqDC2-123h49s71dabc",
          "ownerAccount": "123456789012",
          "connectionId": "dxcon-fguhmqlc",
          "lagId": "dxlag-ffrz71kw",
          "connectionState": "down",
          "bandwidth": "1Gbps",
          "location": "EqDC2",
          "connectionName": "My_Connection",
          "loaIssueTime": 1491568964.0,
          "region": "us-east-1"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-connections.html)di *Referensi AWS CLI Perintah*. 

### `describe-direct-connect-gateway-association-proposals`
<a name="direct-connect_DescribeDirectConnectGatewayAssociationProposals_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-direct-connect-gateway-association-proposals`.

**AWS CLI**  
**Untuk menjelaskan proposal asosiasi gateway Direct Connect Anda**  
`describe-direct-connect-gateway-association-proposals`Contoh berikut menampilkan detail tentang proposal asosiasi gateway Direct Connect Anda.  

```
aws directconnect describe-direct-connect-gateway-association-proposals
```
Output:  

```
{
    "directConnectGatewayAssociationProposals": [
        {
            "proposalId": "c2ede9b4-bbc6-4d33-923c-bc4feEXAMPLE",
            "directConnectGatewayId": "11460968-4ac1-4fd3-bdb2-00599EXAMPLE",
            "directConnectGatewayOwnerAccount": "111122223333",
            "proposalState": "requested",
            "associatedGateway": {
                "id": "tgw-02f776b1a7EXAMPLE",
                "type": "transitGateway",
                "ownerAccount": "111122223333",
                "region": "us-east-1"
            },
            "existingAllowedPrefixesToDirectConnectGateway": [
                {
                    "cidr": "192.168.2.0/30"
                },
                {
                    "cidr": "192.168.1.0/30"
                }
            ],
            "requestedAllowedPrefixesToDirectConnectGateway": [
                {
                    "cidr": "192.168.1.0/30"
                }
            ]
        },
        {
            "proposalId": "cb7f41cb-8128-43a5-93b1-dcaedEXAMPLE",
            "directConnectGatewayId": "11560968-4ac1-4fd3-bcb2-00599EXAMPLE",
            "directConnectGatewayOwnerAccount": "111122223333",
            "proposalState": "accepted",
            "associatedGateway": {
                "id": "tgw-045776b1a7EXAMPLE",
                "type": "transitGateway",
                "ownerAccount": "111122223333",
                "region": "us-east-1"
            },
            "existingAllowedPrefixesToDirectConnectGateway": [
                {
                    "cidr": "192.168.4.0/30"
                },
                {
                    "cidr": "192.168.5.0/30"
                }
            ],
            "requestedAllowedPrefixesToDirectConnectGateway": [
                {
                    "cidr": "192.168.5.0/30"
                }
            ]
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mengaitkan dan Memutuskan Gateway Transit di](https://docs.aws.amazon.com/directconnect/latest/UserGuide/direct-connect-transit-gateways.html#associate-tgw-with-direct-connect-gateway) Panduan Pengguna Direct AWS Connect.*  
+  Untuk detail API, lihat [DescribeDirectConnectGatewayAssociationProposals](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-direct-connect-gateway-association-proposals.html)di *Referensi AWS CLI Perintah*. 

### `describe-direct-connect-gateway-associations`
<a name="direct-connect_DescribeDirectConnectGatewayAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-direct-connect-gateway-associations`.

**AWS CLI**  
**Untuk menggambarkan asosiasi gateway Direct Connect**  
Contoh berikut menjelaskan semua asosiasi dengan gateway Direct Connect`5f294f92-bafb-4011-916d-9b0bexample`.  
Perintah:  

```
aws directconnect describe-direct-connect-gateway-associations --direct-connect-gateway-id 5f294f92-bafb-4011-916d-9b0bexample
```
Output:  

```
{
  "nextToken": "eyJ2IjoxLCJzIjoxLCJpIjoiOU83OTFodzdycnZCbkN4MExHeHVwQT09IiwiYyI6InIxTEN0UEVHV0I1UFlkaWFnNlUxanJkRWF6eW1iOElHM0FRVW1MdHRJK0dxcnN1RWtvcFBKWFE2ZjRNRGdGTkhCa0tDZmVINEtZOEYwZ0dEYWZpbmU0ZnZMYVhKRjdXRVdENmdQZ1Y4d2w0PSJ9",
  "directConnectGatewayAssociations": [
      {
          "associationState": "associating",
          "virtualGatewayOwnerAccount": "123456789012",
          "directConnectGatewayId": "5f294f92-bafb-4011-916d-9b0bexample",
          "virtualGatewayId": "vgw-6efe725e",
          "virtualGatewayRegion": "us-east-2"
      },
      {
          "associationState": "disassociating",
          "virtualGatewayOwnerAccount": "123456789012",
          "directConnectGatewayId": "5f294f92-bafb-4011-916d-9b0bexample",
          "virtualGatewayId": "vgw-ebaa27db",
          "virtualGatewayRegion": "us-east-2"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeDirectConnectGatewayAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-direct-connect-gateway-associations.html)di *Referensi AWS CLI Perintah*. 

### `describe-direct-connect-gateway-attachments`
<a name="direct-connect_DescribeDirectConnectGatewayAttachments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-direct-connect-gateway-attachments`.

**AWS CLI**  
**Untuk menjelaskan lampiran gateway Direct Connect**  
Contoh berikut menjelaskan antarmuka virtual yang dilampirkan ke gateway `5f294f92-bafb-4011-916d-9b0bexample` Direct Connect.  
Perintah:  

```
aws directconnect describe-direct-connect-gateway-attachments --direct-connect-gateway-id 5f294f92-bafb-4011-916d-9b0bexample
```
Output:  

```
{
  "directConnectGatewayAttachments": [
      {
          "virtualInterfaceOwnerAccount": "123456789012",
          "directConnectGatewayId": "5f294f92-bafb-4011-916d-9b0bexample",
          "virtualInterfaceRegion": "us-east-2",
          "attachmentState": "attaching",
          "virtualInterfaceId": "dxvif-fg9zyabc"
      }
  ],
  "nextToken": "eyJ2IjoxLCJzIjoxLCJpIjoibEhXdlNpUXF5RzhoL1JyUW52SlV2QT09IiwiYyI6Im5wQjFHQ0RyQUdRS3puNnNXcUlINCtkTTA4dTk3KzBiU0xtb05JQmlaczZ6NXRIYmk3c3VESUxFTTd6a2FzVHM0VTFwaGJkZGNxTytqWmQ3QzMzOGRQaTVrTThrOG1zelRsV3gyMWV3VTNFPSJ9"
}
```
+  Untuk detail API, lihat [DescribeDirectConnectGatewayAttachments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-direct-connect-gateway-attachments.html)di *Referensi AWS CLI Perintah*. 

### `describe-direct-connect-gateways`
<a name="direct-connect_DescribeDirectConnectGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-direct-connect-gateways`.

**AWS CLI**  
**Untuk menggambarkan gateway Direct Connect**  
Contoh berikut menjelaskan semua gateway Direct Connect Anda.  
Perintah:  

```
aws directconnect describe-direct-connect-gateways
```
Output:  

```
{
  "directConnectGateways": [
      {
          "amazonSideAsn": 64512,
          "directConnectGatewayId": "cf68415c-f4ae-48f2-87a7-3b52cexample",
          "ownerAccount": "123456789012",
          "directConnectGatewayName": "DxGateway2",
          "directConnectGatewayState": "available"
      },
      {
          "amazonSideAsn": 64512,
          "directConnectGatewayId": "5f294f92-bafb-4011-916d-9b0bdexample",
          "ownerAccount": "123456789012",
          "directConnectGatewayName": "DxGateway1",
          "directConnectGatewayState": "available"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeDirectConnectGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-direct-connect-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-hosted-connections`
<a name="direct-connect_DescribeHostedConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-hosted-connections`.

**AWS CLI**  
**Untuk membuat daftar koneksi pada interkoneksi**  
Contoh berikut mencantumkan koneksi yang telah disediakan pada interkoneksi yang diberikan.  
Perintah:  

```
aws directconnect describe-hosted-connections --connection-id dxcon-fgktov66
```
Output:  

```
{
    "connections": [
        {
            "partnerName": "TIVIT",
            "vlan": 101,
            "ownerAccount": "123456789012",
            "connectionId": "dxcon-ffzc51m1",
            "connectionState": "ordering",
            "bandwidth": "500Mbps",
            "location": "TIVIT",
            "connectionName": "mydcinterconnect",
            "region": "sa-east-1"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeHostedConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-hosted-connections.html)di *Referensi AWS CLI Perintah*. 

### `describe-interconnect-loa`
<a name="direct-connect_DescribeInterconnectLoa_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-interconnect-loa`.

**AWS CLI**  
**Untuk mendeskripsikan LOA-CFA Anda untuk interkoneksi menggunakan Linux atau Mac OS X**  
Contoh berikut menjelaskan LOA-CFA Anda untuk interkoneksi. `dxcon-fh6ayh1d` Isi LOA-CFA dikodekan base64. Perintah ini menggunakan `--query` parameter `--output` dan untuk mengontrol output dan mengekstrak isi `loaContent` struktur. Bagian akhir dari perintah menerjemahkan konten menggunakan `base64` utilitas, dan mengirimkan output ke file PDF.  

```
aws directconnect describe-interconnect-loa --interconnect-id dxcon-fh6ayh1d --output text --query loa.loaContent|base64 --decode > myLoaCfa.pdf
```
**Untuk menggambarkan LOA-CFA Anda untuk interkoneksi menggunakan Windows**  
Contoh sebelumnya membutuhkan penggunaan `base64` utilitas untuk memecahkan kode output. Di komputer Windows, Anda dapat menggunakannya `certutil` sebagai gantinya. Dalam contoh berikut, perintah pertama menjelaskan LOA-CFA Anda untuk interkoneksi `dxcon-fh6ayh1d` dan menggunakan `--query` parameter `--output` dan untuk mengontrol output dan mengekstrak isi `loaContent` struktur ke file yang disebut. `myLoaCfa.base64` Perintah kedua menggunakan utilitas `certutil` untuk memecahkan kode file dan mengirim output ke file PDF.  

```
aws directconnect describe-interconnect-loa --interconnect-id dxcon-fh6ayh1d --output text --query loa.loaContent > myLoaCfa.base64
```

```
certutil -decode myLoaCfa.base64 myLoaCfa.pdf
```
Untuk informasi selengkapnya tentang mengontrol output AWS CLI, lihat [Mengontrol Output Perintah dari Antarmuka Baris AWS Perintah di Panduan Pengguna Antarmuka](https://docs.aws.amazon.com/cli/latest/userguide/controlling-output.html) *Baris AWS Perintah*.  
+  Untuk detail API, lihat [DescribeInterconnectLoa](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-interconnect-loa.html)di *Referensi AWS CLI Perintah*. 

### `describe-interconnects`
<a name="direct-connect_DescribeInterconnects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-interconnects`.

**AWS CLI**  
**Untuk membuat daftar interkoneksi**  
`describe-interconnects`Perintah berikut mencantumkan interkoneksi yang dimiliki oleh AWS akun Anda:  

```
aws directconnect describe-interconnects
```
Output:  

```
{
    "interconnects": [
        {
            "region": "sa-east-1",
            "bandwidth": "1Gbps",
            "location": "TIVIT",
            "interconnectName": "1G Interconnect to AWS",
            "interconnectId": "dxcon-fgktov66",
            "interconnectState": "down"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeInterconnects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-interconnects.html)di *Referensi AWS CLI Perintah*. 

### `describe-lags`
<a name="direct-connect_DescribeLags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-lags`.

**AWS CLI**  
**Untuk menggambarkan Anda LAGs**  
Perintah berikut menjelaskan semua Anda LAGs untuk wilayah saat ini.  
Perintah:  

```
aws directconnect describe-lags
```
Output:  

```
{
  "lags": [
      {
          "awsDevice": "EqDC2-19y7z3m17xpuz",
          "numberOfConnections": 2,
          "lagState": "down",
          "ownerAccount": "123456789012",
          "lagName": "DA-LAG",
          "connections": [
              {
                  "ownerAccount": "123456789012",
                  "connectionId": "dxcon-ffnikghc",
                  "lagId": "dxlag-fgsu9erb",
                  "connectionState": "requested",
                  "bandwidth": "10Gbps",
                  "location": "EqDC2",
                  "connectionName": "Requested Connection 1 for Lag dxlag-fgsu9erb",
                  "region": "us-east-1"
              },
              {
                  "ownerAccount": "123456789012",
                  "connectionId": "dxcon-fglgbdea",
                  "lagId": "dxlag-fgsu9erb",
                  "connectionState": "requested",
                  "bandwidth": "10Gbps",
                  "location": "EqDC2",
                  "connectionName": "Requested Connection 2 for Lag dxlag-fgsu9erb",
                  "region": "us-east-1"
              }
          ],
          "lagId": "dxlag-fgsu9erb",
          "minimumLinks": 0,
          "connectionsBandwidth": "10Gbps",
          "region": "us-east-1",
          "location": "EqDC2"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeLags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-lags.html)di *Referensi AWS CLI Perintah*. 

### `describe-loa`
<a name="direct-connect_DescribeLoa_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-loa`.

**AWS CLI**  
**Untuk menggambarkan LOA-CFA Anda untuk koneksi menggunakan Linux atau Mac OS X**  
Contoh berikut menjelaskan LOA-CFA Anda untuk koneksi. `dxcon-fh6ayh1d` Isi LOA-CFA dikodekan base64. Perintah ini menggunakan `--query` parameter `--output` dan untuk mengontrol output dan mengekstrak isi `loaContent` struktur. Bagian akhir dari perintah menerjemahkan konten menggunakan `base64` utilitas, dan mengirimkan output ke file PDF.  

```
aws directconnect describe-loa --connection-id dxcon-fh6ayh1d --output text --query loa.loaContent|base64 --decode > myLoaCfa.pdf
```
**Untuk menggambarkan LOA-CFA Anda untuk koneksi menggunakan Windows**  
Contoh sebelumnya membutuhkan penggunaan `base64` utilitas untuk memecahkan kode output. Di komputer Windows, Anda dapat menggunakannya `certutil` sebagai gantinya. Dalam contoh berikut, perintah pertama menjelaskan LOA-CFA Anda untuk koneksi `dxcon-fh6ayh1d` dan menggunakan `--query` parameter `--output` dan untuk mengontrol output dan mengekstrak isi `loaContent` struktur ke file yang disebut. `myLoaCfa.base64` Perintah kedua menggunakan utilitas `certutil` untuk memecahkan kode file dan mengirim output ke file PDF.  

```
aws directconnect describe-loa --connection-id dxcon-fh6ayh1d --output text --query loa.loaContent > myLoaCfa.base64
```

```
certutil -decode myLoaCfa.base64 myLoaCfa.pdf
```
Untuk informasi selengkapnya tentang mengontrol output AWS CLI, lihat [Mengontrol Output Perintah dari Antarmuka Baris AWS Perintah di Panduan Pengguna Antarmuka](https://docs.aws.amazon.com/cli/latest/userguide/controlling-output.html) *Baris AWS Perintah*.  
+  Untuk detail API, lihat [DescribeLoa](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-loa.html)di *Referensi AWS CLI Perintah*. 

### `describe-locations`
<a name="direct-connect_DescribeLocations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-locations`.

**AWS CLI**  
**Untuk mencantumkan mitra dan lokasi AWS Direct Connect**  
`describe-locations`Perintah berikut mencantumkan mitra dan lokasi AWS Direct Connect di wilayah saat ini:  

```
aws directconnect describe-locations
```
Output:  

```
{
    "locations": [
        {
            "locationName": "NAP do Brasil, Barueri, Sao Paulo",
            "locationCode": "TNDB"
        },
        {
            "locationName": "Tivit - Site Transamerica (Sao Paulo)",
            "locationCode": "TIVIT"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLocations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-locations.html)di *Referensi AWS CLI Perintah*. 

### `describe-tags`
<a name="direct-connect_DescribeTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tags`.

**AWS CLI**  
**Untuk menjelaskan tag untuk sumber daya AWS Direct Connect**  
Perintah berikut menjelaskan tag untuk koneksi`dxcon-abcabc12`.  
Perintah:  

```
aws directconnect describe-tags --resource-arns arn:aws:directconnect:us-east-1:123456789012:dxcon/dxcon-abcabc12
```
Output:  

```
{
  "resourceTags": [
      {
          "resourceArn": "arn:aws:directconnect:us-east-1:123456789012:dxcon/dxcon-abcabc12",
          "tags": [
              {
                  "value": "VAConnection",
                  "key": "Name"
              }
          ]
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-tags.html)di *Referensi AWS CLI Perintah*. 

### `describe-virtual-gateways`
<a name="direct-connect_DescribeVirtualGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-virtual-gateways`.

**AWS CLI**  
**Untuk membuat daftar gateway pribadi virtual**  
`describe-virtual-gateways`Perintah berikut mencantumkan gateway pribadi virtual yang dimiliki oleh akun Anda AWS :  

```
aws directconnect describe-virtual-gateways
```
Output:  

```
{
    "virtualGateways": [
        {
            "virtualGatewayId": "vgw-aba37db6",
            "virtualGatewayState": "available"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeVirtualGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-virtual-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-virtual-interfaces`
<a name="direct-connect_DescribeVirtualInterfaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-virtual-interfaces`.

**AWS CLI**  
**Untuk membuat daftar semua antarmuka virtual**  
`describe-virtual-interfaces`Perintah berikut mencantumkan informasi tentang semua antarmuka virtual yang terkait dengan AWS akun Anda:  

```
aws directconnect describe-virtual-interfaces --connection-id dxcon-ffjrkx17
```
Output:  

```
{
    "virtualInterfaces": [
        {
            "virtualInterfaceState": "down",
            "asn": 65000,
            "vlan": 101,
            "customerAddress": "192.168.1.2/30",
            "ownerAccount": "123456789012",
            "connectionId": "dxcon-ffjrkx17",
            "virtualGatewayId": "vgw-aba37db6",
            "virtualInterfaceId": "dxvif-ffhhk74f",
            "authKey": "asdf34example",
            "routeFilterPrefixes": [],
            "location": "TIVIT",
            "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-ffhhk74f\">\n  <vlan>101</vlan>\n  <customer_address>192.168.1.2/30</customer_address>\n  <amazon_address>192.168.1.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>asdf34example</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>private</connection_type>\n</logical_connection>\n",
            "amazonAddress": "192.168.1.1/30",
            "virtualInterfaceType": "private",
            "virtualInterfaceName": "PrivateVirtualInterface"
        },
        {
            "virtualInterfaceState": "verifying",
            "asn": 65000,
            "vlan": 2000,
            "customerAddress": "203.0.113.2/30",
            "ownerAccount": "123456789012",
            "connectionId": "dxcon-ffjrkx17",
            "virtualGatewayId": "",
            "virtualInterfaceId": "dxvif-fgh0hcrk",
            "authKey": "asdf34example",
            "routeFilterPrefixes": [
                {
                    "cidr": "203.0.113.4/30"
                },
                {
                    "cidr": "203.0.113.0/30"
                }
            ],
            "location": "TIVIT",
            "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fgh0hcrk\">\n  <vlan>2000</vlan>\n  <customer_address>203.0.113.2/30</customer_address>\n  <amazon_address>203.0.113.1/30</amazon_address>\n  <bgp_asn>65000</bgp_asn>\n  <bgp_auth_key>asdf34example</bgp_auth_key>\n  <amazon_bgp_asn>7224</amazon_bgp_asn>\n  <connection_type>public</connection_type>\n</logical_connection>\n",
            "amazonAddress": "203.0.113.1/30",
            "virtualInterfaceType": "public",
            "virtualInterfaceName": "PublicVirtualInterface"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeVirtualInterfaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/describe-virtual-interfaces.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-connection-from-lag`
<a name="direct-connect_DisassociateConnectionFromLag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-connection-from-lag`.

**AWS CLI**  
**Untuk memisahkan koneksi dari LAG**  
Contoh berikut memisahkan koneksi yang ditentukan dari LAG yang ditentukan.  
Perintah:  

```
aws directconnect disassociate-connection-from-lag --lag-id dxlag-fhccu14t --connection-id  dxcon-fg9607vm
```
Output:  

```
{
  "ownerAccount": "123456789012",
  "connectionId": "dxcon-fg9607vm",
  "connectionState": "requested",
  "bandwidth": "1Gbps",
  "location": "EqDC2",
  "connectionName": "Con2ForLag",
  "region": "us-east-1"
}
```
+  Untuk detail API, lihat [DisassociateConnectionFromLag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/disassociate-connection-from-lag.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="direct-connect_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya AWS Direct Connect**  
Perintah berikut menambahkan tag dengan kunci dari `Name` dan nilai `VAConnection` untuk koneksi`dxcon-abcabc12`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws directconnect tag-resource --resource-arn arn:aws:directconnect:us-east-1:123456789012:dxcon/dxcon-abcabc12 --tags "key=Name,value=VAConnection"
```
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="direct-connect_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya AWS Direct Connect**  
Perintah berikut menghapus tag dengan kunci `Name` dari koneksi`dxcon-abcabc12`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws directconnect untag-resource --resource-arn arn:aws:directconnect:us-east-1:123456789012:dxcon/dxcon-abcabc12 --tag-keys Name
```
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-direct-connect-gateway-association`
<a name="direct-connect_UpdateDirectConnectGatewayAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-direct-connect-gateway-association`.

**AWS CLI**  
**Untuk memperbarui atribut yang ditentukan dari asosiasi gateway Direct Connect**  
`update-direct-connect-gateway-association`Contoh berikut menambahkan blok CIDR yang ditentukan ke asosiasi gateway Direct Connect.  

```
aws directconnect update-direct-connect-gateway-association \
    --association-id 820a6e4f-5374-4004-8317-3f64bEXAMPLE \
    --add-allowed-prefixes-to-direct-connect-gateway cidr=192.168.2.0/30
```
Output:  

```
{
    "directConnectGatewayAssociation": {
        "directConnectGatewayId": "11460968-4ac1-4fd3-bdb2-00599EXAMPLE",
        "directConnectGatewayOwnerAccount": "111122223333",
        "associationState": "updating",
        "associatedGateway": {
            "id": "tgw-02f776b1a7EXAMPLE",
            "type": "transitGateway",
            "ownerAccount": "111122223333",
            "region": "us-east-1"
        },
        "associationId": "820a6e4f-5374-4004-8317-3f64bEXAMPLE",
        "allowedPrefixesToDirectConnectGateway": [
            {
                "cidr": "192.168.2.0/30"
            },
            {
                "cidr": "192.168.1.0/30"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Direct Connect Gateway](https://docs.aws.amazon.com/directconnect/latest/UserGuide/direct-connect-gateways.html) di *Panduan Pengguna Direct AWS Connect*.  
+  Untuk detail API, lihat [UpdateDirectConnectGatewayAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/update-direct-connect-gateway-association.html)di *Referensi AWS CLI Perintah*. 

### `update-lag`
<a name="direct-connect_UpdateLag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-lag`.

**AWS CLI**  
**Untuk memperbarui LAG**  
Contoh berikut mengubah nama LAG yang ditentukan.  
Perintah:  

```
aws directconnect update-lag --lag-id dxlag-ffjhj9lx --lag-name 2ConnLag
```
Output:  

```
{
  "awsDevice": "CSVA1-23u8tlpaz8iks",
  "numberOfConnections": 2,
  "lagState": "down",
  "ownerAccount": "123456789012",
  "lagName": "2ConnLag",
  "connections": [
      {
          "ownerAccount": "123456789012",
          "connectionId": "dxcon-fflqyj95",
          "lagId": "dxlag-ffjhj9lx",
          "connectionState": "requested",
          "bandwidth": "1Gbps",
          "location": "CSVA1",
          "connectionName": "Requested Connection 2 for Lag dxlag-ffjhj9lx",
          "region": "us-east-1"
      },
      {
          "ownerAccount": "123456789012",
          "connectionId": "dxcon-ffqr6x5q",
          "lagId": "dxlag-ffjhj9lx",
          "connectionState": "requested",
          "bandwidth": "1Gbps",
          "location": "CSVA1",
          "connectionName": "Requested Connection 1 for Lag dxlag-ffjhj9lx",
          "region": "us-east-1"
      }
  ],
  "lagId": "dxlag-ffjhj9lx",
  "minimumLinks": 0,
  "connectionsBandwidth": "1Gbps",
  "region": "us-east-1",
  "location": "CSVA1"
}
```
+  Untuk detail API, lihat [UpdateLag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/update-lag.html)di *Referensi AWS CLI Perintah*. 

### `update-virtual-interface-attributes`
<a name="direct-connect_UpdateVirtualInterfaceAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-virtual-interface-attributes`.

**AWS CLI**  
**Untuk memperbarui MTU antarmuka virtual**  
`update-virtual-interface-attributes`Contoh berikut memperbarui MTU dari antarmuka virtual yang ditentukan.  

```
aws directconnect update-virtual-interface-attributes \
    --virtual-interface-id dxvif-fEXAMPLE \
    --mtu 1500
```
Output:  

```
{
    "ownerAccount": "1111222233333",
    "virtualInterfaceId": "dxvif-fEXAMPLE",
    "location": "loc1",
    "connectionId": "dxlag-fEXAMPLE",
    "virtualInterfaceType": "transit",
    "virtualInterfaceName": "example transit virtual interface",
    "vlan": 125,
    "asn": 650001,
    "amazonSideAsn": 64512,
    "authKey": "0xzxgA9YoW9h58u8SEXAMPLE",
    "amazonAddress": "169.254.248.1/30",
    "customerAddress": "169.254.248.2/30",
    "addressFamily": "ipv4",
    "virtualInterfaceState": "down",
    "customerRouterConfig": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<logical_connection id=\"dxvif-fEXAMPLE\">\n  <vlan>125</vlan>\n  <customer_address>169.254.248.2/30</customer_address>\n  <amazon_address>169.254.248.1/30</amazon_address>\n  <bgp_asn>650001</bgp_asn>\n  <bgp_auth_key>0xzxgA9YoW9h58u8SEXAMPLE</bgp_auth_key>\n  <amazon_bgp_asn>64512</amazon_bgp_asn>\n  <connection_type>transit</connection_type>\n</logical_connection>\n",
    "mtu": 1500,
    "jumboFrameCapable": true,
    "virtualGatewayId": "",
    "directConnectGatewayId": "879b76a1-403d-4700-8b53-4a56ed85436e",
    "routeFilterPrefixes": [],
    "bgpPeers": [
        {
            "bgpPeerId": "dxpeer-fEXAMPLE",
            "asn": 650001,
            "authKey": "0xzxgA9YoW9h58u8SEXAMPLE",
            "addressFamily": "ipv4",
            "amazonAddress": "169.254.248.1/30",
            "customerAddress": "169.254.248.2/30",
            "bgpPeerState": "available",
            "bgpStatus": "down",
            "awsDeviceV2": "loc1-26wz6vEXAMPLE"
        }
    ],
    "region": "sa-east-1",
    "awsDeviceV2": "loc1-26wz6vEXAMPLE",
    "tags": []
}
```
Untuk informasi selengkapnya, lihat [Mengatur MTU Jaringan untuk Antarmuka Virtual Pribadi atau Antarmuka Virtual Transit di Panduan](https://docs.aws.amazon.com/directconnect/latest/UserGuide/set-jumbo-frames-vif.html) Pengguna Direct *AWS Connect*.  
+  Untuk detail API, lihat [UpdateVirtualInterfaceAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directconnect/update-virtual-interface-attributes.html)di *Referensi AWS CLI Perintah*. 

# Directory Service contoh menggunakan AWS CLI
<a name="cli_2_directory-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Directory Service.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-directories`
<a name="directory-service_DescribeDirectories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-directories`.

**AWS CLI**  
**Untuk mendapatkan detail tentang direktori Anda**  
`describe-directories`Contoh berikut menampilkan rincian tentang direktori yang ditentukan.  

```
aws ds describe-directories \
   --directory-id d-a1b2c3d4e5
```
Output:  

```
{
    "DirectoryDescriptions": [
        {
            "DirectoryId": "d-a1b2c3d4e5",
            "Name": "mydirectory.example.com",
            "ShortName": "mydirectory",
            "Size": "Small",
            "Edition": "Standard",
            "Alias": "d-a1b2c3d4e5",
            "AccessUrl": "d-a1b2c3d4e5.awsapps.com",
            "Stage": "Active",
            "ShareStatus": "Shared",
            "ShareMethod": "HANDSHAKE",
            "ShareNotes": "These are my share notes",
            "LaunchTime": "2019-07-08T15:33:46.327000-07:00",
            "StageLastUpdatedDateTime": "2019-07-08T15:59:12.307000-07:00",
            "Type": "SharedMicrosoftAD",
            "SsoEnabled": false,
            "DesiredNumberOfDomainControllers": 0,
            "OwnerDirectoryDescription": {
                "DirectoryId": "d-b2c3d4e5f6",
                "AccountId": "123456789111",
                "DnsIpAddrs": [
                    "203.113.0.248",
                    "203.113.0.253"
                ],
                "VpcSettings": {
                    "VpcId": "vpc-a1b2c3d4",
                    "SubnetIds": [
                        "subnet-a1b2c3d4",
                        "subnet-d4c3b2a1"
                    ],
                    "AvailabilityZones": [
                        "us-west-2a",
                        "us-west-2c"
                    ]
                }
            }
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeDirectories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ds/describe-directories.html)di *Referensi AWS CLI Perintah*. 

### `describe-trusts`
<a name="directory-service_DescribeTrusts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-trusts`.

**AWS CLI**  
**Untuk mendapatkan detail tentang hubungan kepercayaan Anda**  
`describe-trusts`Contoh berikut menampilkan rincian tentang hubungan kepercayaan untuk direktori tertentu.  

```
aws ds describe-trusts \
   --directory-id d-a1b2c3d4e5
```
Output:  

```
{
    "Trusts": [
        {
            "DirectoryId": "d-a1b2c3d4e5",
            "TrustId": "t-9a8b7c6d5e",
            "RemoteDomainName": "other.example.com",
            "TrustType": "Forest",
            "TrustDirection": "Two-Way",
            "TrustState": "Verified",
            "CreatedDateTime": "2017-06-20T18:08:45.614000-07:00",
            "LastUpdatedDateTime": "2019-06-04T10:52:12.410000-07:00",
            "StateLastUpdatedDateTime": "2019-06-04T10:52:12.410000-07:00",
            "SelectiveAuth": "Disabled"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeTrusts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ds/describe-trusts.html)di *Referensi AWS CLI Perintah*. 

# Directory Service Contoh data menggunakan AWS CLI
<a name="cli_2_directory-service-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Directory Service Data.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-group-member`
<a name="directory-service-data_AddGroupMember_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-group-member`.

**AWS CLI**  
**Untuk menambahkan anggota grup ke direktori**  
`add-group-member`Contoh berikut menambahkan pengguna yang ditentukan ke grup tertentu dalam direktori yang ditentukan.  

```
aws ds-data add-group-member \
    --directory-id d-1234567890 \
    --group-name 'sales' \
    --member-name 'john.doe'
```
Perintah ini tidak menghasilkan output.  
Untuk selengkapnya, lihat [Menambahkan atau menghapus anggota Microsoft AD AWS Terkelola ke grup dan grup ke grup](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_add_remove_user_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [AddGroupMember](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/add-group-member.html)di *Referensi AWS CLI Perintah*. 

### `create-group`
<a name="directory-service-data_CreateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group`.

**AWS CLI**  
**Untuk daftar widget yang tersedia**  
`create-group`Contoh berikut membuat grup dalam direktori tertentu.  

```
aws ds-data create-group \
    --directory-id d-1234567890 \
    --sam-account-name "sales"
```
Output:  

```
{
    "DirectoryId": "d-1234567890",
    "SAMAccountName": "sales",
    "SID": "S-1-2-34-5567891234-5678912345-67891234567-8912"
}
```
Untuk informasi selengkapnya, lihat [Membuat grup AD Microsoft AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_create_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [CreateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/create-group.html)di *Referensi AWS CLI Perintah*. 

### `create-user`
<a name="directory-service-data_CreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user`.

**AWS CLI**  
**Untuk membuat pengguna**  
`create-user`Contoh berikut membuat pengguna dalam direktori yang ditentukan.  

```
aws ds-data create-user \
    --directory-id d-1234567890 \
    --sam-account-name 'john.doe'
```
Output:  

```
{
    "DirectoryId": "d-1234567890",
    "SAMAccountName": "john.doe",
    "SID": "S-1-2-34-5567891234-5678912345-67891234567-8912"
}
```
Untuk informasi selengkapnya, lihat [Membuat pengguna Microsoft AD yang AWS Dikelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_create_user.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [CreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/create-user.html)di *Referensi AWS CLI Perintah*. 

### `delete-group`
<a name="directory-service-data_DeleteGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group`.

**AWS CLI**  
**Untuk menghapus grup**  
`delete-group`Contoh berikut menghapus grup tertentu dari direktori yang ditentukan.  

```
aws ds-data delete-group \
    --directory-id d-1234567890 \
    --sam-account-name 'sales'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus grup iklan Microsoft yang AWS Dikelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_delete_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [DeleteGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/delete-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-user`
<a name="directory-service-data_DeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna**  
`delete-user`Contoh berikut menghapus pengguna tertentu dari direktori yang ditentukan.  

```
aws ds-data delete-user \
    --directory-id d-1234567890 \
    --sam-account-name 'john.doe'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus pengguna Microsoft AD yang AWS Dikelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_delete_user.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [DeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/delete-user.html)di *Referensi AWS CLI Perintah*. 

### `describe-group`
<a name="directory-service-data_DescribeGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-group`.

**AWS CLI**  
**Untuk membuat daftar detail grup**  
`describe-group`Contoh berikut mendapat informasi untuk grup tertentu dalam direktori yang ditentukan.  

```
aws ds-data describe-group \
    --directory-id d-1234567890 \
    --sam-account-name 'sales'
```
Output:  

```
{
    "DirectoryId": "d-1234567890",
    "DistinguishedName": "CN=sales,OU=Users,OU=CORP,DC=corp,DC=example,DC=com",
    "GroupScope": "Global",
    "GroupType": "Security",
    "Realm": "corp.example.com",
    "SAMAccountName": "sales",
    "SID": "S-1-2-34-5567891234-5678912345-67891234567-8912"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui detail grup Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [DescribeGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/describe-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-user`
<a name="directory-service-data_DescribeUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user`.

**AWS CLI**  
**Untuk mencantumkan informasi untuk pengguna**  
`describe-user`Contoh berikut mendapat informasi untuk pengguna tertentu dalam direktori yang ditentukan.  

```
aws ds-data describe-user command-name \
    --directory-id d-1234567890 \
    --sam-account-name 'john.doe'
```
Output:  

```
{
    "DirectoryId": "d-1234567890",
    "DistinguishedName": "CN=john.doe,OU=Users,OU=CORP,DC=corp,DC=example,DC=com",
    "Enabled": false,
    "Realm": "corp.example.com",
    "SAMAccountName": "john.doe",
    "SID": "S-1-2-34-5678901234-5678901234-5678910123-4567",
    "UserPrincipalName": "john.doe@CORP.EXAMPLE.COM"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui pengguna Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_user.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [DescribeUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/describe-user.html)di *Referensi AWS CLI Perintah*. 

### `disable-directory-data-access`
<a name="directory-service-data_DisableDirectoryDataAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-directory-data-access`.

**AWS CLI**  
**Untuk menonaktifkan API Data Directory Service untuk direktori**  
`disable-directory-data-access`Contoh berikut menonaktifkan API Directory Service Data untuk direktori yang ditentukan.  

```
aws ds disable-directory-data-access \
    --directory-id d-1234567890
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan atau menonaktifkan manajemen pengguna dan grup atau AWS Directory Service Data](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_users_groups_mgmt_enable_disable.html) dalam Panduan Administrasi *AWS Directory Service*.  
+  Untuk detail API, lihat [DisableDirectoryDataAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/disable-directory-data-access.html)di *Referensi AWS CLI Perintah*. 

### `disable-user`
<a name="directory-service-data_DisableUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-user`.

**AWS CLI**  
**Untuk menonaktifkan pengguna**  
`disable-user`Contoh berikut menonaktifkan pengguna tertentu dalam direktori yang ditentukan.  

```
aws ds-data disable-user \
    --directory-id d-1234567890 \
    --sam-account-name 'john.doe'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan pengguna AWS Microsoft AD yang Dikelola di Panduan](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_disable_user.html) *Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [DisableUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/disable-user.html)di *Referensi AWS CLI Perintah*. 

### `enable-directory-data-access`
<a name="directory-service-data_EnableDirectoryDataAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-directory-data-access`.

**AWS CLI**  
**Untuk mengaktifkan API Data Directory Service untuk direktori**  
`enable-directory-data-access`Contoh berikut memungkinkan Directory Service Data API untuk direktori yang ditentukan.  

```
aws ds enable-directory-data-access \
    --directory-id d-1234567890
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan atau menonaktifkan manajemen pengguna dan grup atau AWS Directory Service Data](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_users_groups_mgmt_enable_disable.html) dalam Panduan Administrasi *AWS Directory Service*.  
+  Untuk detail API, lihat [EnableDirectoryDataAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/enable-directory-data-access.html)di *Referensi AWS CLI Perintah*. 

### `list-group-members`
<a name="directory-service-data_ListGroupMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-group-members`.

**AWS CLI**  
**Untuk mencantumkan anggota grup direktori**  
`list-group-members`Contoh berikut mencantumkan anggota grup untuk grup tertentu dalam direktori yang ditentukan.  

```
aws ds-data list-group-members \
    --directory-id d-1234567890 \
    --sam-account-name 'sales'
```
Output:  

```
{
    "Members": [
        {
            "MemberType": "USER",
            "SAMAccountName": "Jane Doe",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4568"
        },
        {
            "MemberType": "USER",
            "SAMAccountName": "John Doe",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4569"
        }
    ],
    "DirectoryId": "d-1234567890",
    "MemberRealm": "corp.example.com",
    "Realm": "corp.example.com"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui detail grup Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [ListGroupMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/list-group-members.html)di *Referensi AWS CLI Perintah*. 

### `list-groups-for-member`
<a name="directory-service-data_ListGroupsForMember_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups-for-member`.

**AWS CLI**  
**Untuk mencantumkan keanggotaan grup direktori**  
`list-groups-for-member`Contoh berikut mencantumkan keanggotaan grup untuk pengguna tertentu dalam direktori yang ditentukan.  

```
aws ds-data list-groups-for-member \
    --directory-id d-1234567890 \
    --sam-account-name 'john.doe'
```
Output:  

```
{
    "Groups": [
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Domain Users",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4567"
        }
    ],
    "DirectoryId": "d-1234567890",
    "MemberRealm": "corp.example.com",
    "Realm": "corp.example.com"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui pengguna Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_user.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [ListGroupsForMember](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/list-groups-for-member.html)di *Referensi AWS CLI Perintah*. 

### `list-groups`
<a name="directory-service-data_ListGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups`.

**AWS CLI**  
**Untuk daftar grup direktori**  
`list-groups`Contoh berikut mencantumkan grup dalam direktori yang ditentukan.  

```
aws ds-data list-groups \
    --directory-id d-1234567890
```
Output:  

```
{
    "Groups": [
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Administrators",
            "SID": "S-1-2-33-441"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Users",
            "SID": "S-1-2-33-442"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Guests",
            "SID": "S-1-2-33-443"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Print Operators",
            "SID": "S-1-2-33-444"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Backup Operators",
            "SID": "S-1-2-33-445"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Replicator",
            "SID": "S-1-2-33-446"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Remote Desktop Users",
            "SID": "S-1-2-33-447"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Network Configuration Operators",
            "SID": "S-1-2-33-448"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Performance Monitor Users",
            "SID": "S-1-2-33-449"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Performance Log Users",
            "SID": "S-1-2-33-450"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Distributed COM Users",
            "SID": "S-1-2-33-451"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "IIS_IUSRS",
            "SID": "S-1-2-33-452"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Cryptographic Operators",
            "SID": "S-1-2-33-453"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Event Log Readers",
            "SID": "S-1-2-33-454"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Certificate Service DCOM Access",
            "SID": "S-1-2-33-456"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "RDS Remote Access Servers",
            "SID": "S-1-2-33-457"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "RDS Endpoint Servers",
            "SID": "S-1-2-33-458"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "RDS Management Servers",
            "SID": "S-1-2-33-459"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Hyper-V Administrators",
            "SID": "S-1-2-33-460"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Access Control Assistance Operators",
            "SID": "S-1-2-33-461"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Remote Management Users",
            "SID": "S-1-2-33-462"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Storage Replica Administrators",
            "SID": "S-1-2-33-463"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Domain Computers",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-789"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Domain Controllers",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-790"
        },
        {
            "GroupScope": "Universal",
            "GroupType": "Security",
            "SAMAccountName": "Schema Admins",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-791"
        },
        {
            "GroupScope": "Universal",
            "GroupType": "Security",
            "SAMAccountName": "Enterprise Admins",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-792"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "Cert Publishers",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-793"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Domain Admins",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-794"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Domain Users",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-795"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Domain Guests",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-796"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Group Policy Creator Owners",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-797"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "RAS and IAS Servers",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-798"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Server Operators",
            "SID": "S-1-2-33-464"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Account Operators",
            "SID": "S-1-2-33-465"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Pre-Windows 2000 Compatible Access",
            "SID": "S-1-2-33-466"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Incoming Forest Trust Builders",
            "SID": "S-1-2-33-467"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Windows Authorization Access Group",
            "SID": "S-1-2-33-468"
        },
        {
            "GroupScope": "BuiltinLocal",
            "GroupType": "Security",
            "SAMAccountName": "Terminal Server License Servers",
            "SID": "S-1-2-33-469"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "Allowed RODC Password Replication Group",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-798"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "Denied RODC Password Replication Group",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-799"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Read-only Domain Controllers",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-800"
        },
        {
            "GroupScope": "Universal",
            "GroupType": "Security",
            "SAMAccountName": "Enterprise Read-only Domain Controllers",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-801"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Cloneable Domain Controllers",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-802"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Protected Users",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-803"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Key Admins",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-804"
        },
        {
            "GroupScope": "Universal",
            "GroupType": "Security",
            "SAMAccountName": "Enterprise Key Admins",
            "SID": "S-1-2-34-56789123456-7891012345-6789123486-805"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "DnsAdmins",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4567"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "DnsUpdateProxy",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4568"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "Admins",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4569"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWSAdministrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4570"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Object Management Service Accounts",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4571"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Private CA Connector for AD Delegated Group",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4572"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Application and Service Delegated Group",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4573"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4574"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated FSx Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4575"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Account Operators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4576"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Active Directory Based Activation Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4577"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Allowed to Authenticate Objects",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4578"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Allowed to Authenticate to Domain Controllers",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4579"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Deleted Object Lifetime Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4580"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Distributed File System Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4581"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Dynamic Host Configuration Protocol Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4582"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Enterprise Certificate Authority Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4583"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Fine Grained Password Policy Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4584"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Group Policy Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4585"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Managed Service Account Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4586"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Read Foreign Security Principals",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4587"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Remote Access Service Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4588"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Replicate Directory Changes Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4588"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Sites and Services Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4589"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated System Management Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4590"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Terminal Server Licensing Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4591"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated User Principal Name Suffix Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4592"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Add Workstations To Domain Users",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4593"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Domain Name System Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4594"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Kerberos Delegation Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4595"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated Server Administrators",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4596"
        },
        {
            "GroupScope": "DomainLocal",
            "GroupType": "Security",
            "SAMAccountName": "AWS Delegated MS-NPRC Non-Compliant Devices",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4597"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Remote Access",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4598"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Security",
            "SAMAccountName": "Accounting",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4599"
        },
        {
            "GroupScope": "Global",
            "GroupType": "Distribution",
            "SAMAccountName": "sales",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4567"
        }
    ],
    "DirectoryId": "d-1234567890",
    "Realm": "corp.example.com"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui detail grup Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [ListGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/list-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-users`
<a name="directory-service-data_ListUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-users`.

**AWS CLI**  
**Untuk mencantumkan pengguna direktori**  
`list-users`Contoh berikut mencantumkan pengguna dalam direktori yang ditentukan.  

```
aws ds-data list-users \
    --directory-id d-1234567890
```
Output:  

```
{
    "Users": [
        {
            "Enabled": true,
            "SAMAccountName": "Administrator",
            "SID": "S-1-2-34-5678910123-4567895012-3456789012-345"
        },
        {
            "Enabled": false,
            "SAMAccountName": "Guest",
            "SID": "S-1-2-34-5678910123-4567895012-3456789012-345"
        },
        {
            "Enabled": false,
            "SAMAccountName": "krbtgt",
            "SID": "S-1-2-34-5678910123-4567895012-3456789012-346"
        },
        {
            "Enabled": true,
            "SAMAccountName": "Admin",
            "SID": "S-1-2-34-5678910123-4567895012-3456789012-347"
        },
        {
            "Enabled": true,
            "SAMAccountName": "Richard Roe",
            "SID": "S-1-2-34-5678910123-4567895012-3456789012-348"
        },
        {
            "Enabled": true,
            "SAMAccountName": "Jane Doe",
            "SID": "S-1-2-34-5678910123-4567895012-3456789012-349"
        },
        {
            "Enabled": true,
            "SAMAccountName": "AWS_WGnzYlN6YyY",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4567"
        },
        {
            "Enabled": true,
            "SAMAccountName": "john.doe",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4568"
        }
    ],
    "DirectoryId": "d-1234567890",
    "Realm": "corp.example.com"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui pengguna Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_user.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [ListUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/list-users.html)di *Referensi AWS CLI Perintah*. 

### `remove-group-member`
<a name="directory-service-data_RemoveGroupMember_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-group-member`.

**AWS CLI**  
**Untuk menghapus anggota grup dari direktori**  
`remove-group-member`Contoh berikut menghapus anggota grup tertentu dari grup tertentu dalam direktori tertentu.  

```
aws ds-data remove-group-member \
    --directory-id d-1234567890 \
    --group-name 'sales' \
    --member-name 'john.doe'
```
Perintah ini tidak menghasilkan output.  
Untuk selengkapnya, lihat [Menambahkan dan menghapus anggota Microsoft AD AWS Terkelola ke grup dan grup ke grup](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_add_remove_user_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [RemoveGroupMember](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/remove-group-member.html)di *Referensi AWS CLI Perintah*. 

### `reset-user-password`
<a name="directory-service-data_ResetUserPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-user-password`.

**AWS CLI**  
**Untuk mengatur ulang kata sandi pengguna di direktori**  
`reset-user-password`Contoh berikut me-reset dan memungkinkan pengguna tertentu dalam direktori yang ditentukan.  

```
aws ds reset-user-password \
    --directory-id d-1234567890 \
    --user-name 'john.doe' \
    --new-password 'password'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyetel ulang dan mengaktifkan kata sandi pengguna AWS Microsoft AD Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_reset_user_pswd.html) di Panduan *Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [ResetUserPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/reset-user-password.html)di *Referensi AWS CLI Perintah*. 

### `search-groups`
<a name="directory-service-data_SearchGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-groups`.

**AWS CLI**  
**Untuk mencari grup dalam direktori**  
`search-groups`Contoh berikut mencari grup yang ditentukan dalam direktori yang ditentukan.  

```
aws ds-data search-groups \
    --directory-id d-1234567890 \
    --search-attributes 'SamAccountName' \
    --search-string 'sales'
```
Output:  

```
{
    "Groups": [
        {
            "GroupScope": "Global",
            "GroupType": "Distribution",
            "SAMAccountName": "sales",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4567"
        }
    ],
    "DirectoryId": "d-1234567890",
    "Realm": "corp.example.com"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui detail grup Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [SearchGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/search-groups.html)di *Referensi AWS CLI Perintah*. 

### `search-users`
<a name="directory-service-data_SearchUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-users`.

**AWS CLI**  
**Untuk mencari pengguna di direktori**  
`search-users`Contoh berikut mencari pengguna yang ditentukan dalam direktori yang ditentukan.  

```
aws ds-data search-users \
    --directory-id d-1234567890 \
    --search-attributes 'SamAccountName' \
    --Search-string 'john.doe'
```
Output:  

```
{
    "Users": [
        {
            "Enabled": true,
            "SAMAccountName": "john.doe",
            "SID": "S-1-2-34-5678901234-5678901234-5678910123-4567"
        }
    ],
    "DirectoryId": "d-1234567890",
    "Realm": "corp.example.com"
}
```
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui pengguna Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_user.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [SearchUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/search-users.html)di *Referensi AWS CLI Perintah*. 

### `update-group`
<a name="directory-service-data_UpdateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-group`.

**AWS CLI**  
**Untuk memperbarui atribut grup dalam direktori**  
`update-group`Contoh berikut memperbarui atribut tertentu untuk grup tertentu dalam direktori tertentu.  

```
aws ds-data update-group \
    --directory-id d-1234567890 \
    --sam-account-name 'sales' \
    --update-type 'REPLACE' \
    --group-type 'Distribution'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui detail grup Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_group.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [UpdateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/update-group.html)di *Referensi AWS CLI Perintah*. 

### `update-user`
<a name="directory-service-data_UpdateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user`.

**AWS CLI**  
**Untuk memperbarui atribut pengguna dalam direktori**  
`update-user`Contoh berikut memperbarui atribut tertentu untuk pengguna tertentu dalam direktori tertentu.  

```
aws ds-data update-user \
    --directory-id d-1234567890 \
    --sam-account-name 'john.doe' \
    --update-type 'ADD' \
    --email-address 'example.corp.com'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Melihat dan memperbarui pengguna Microsoft AD AWS Terkelola](https://docs.aws.amazon.com/directoryservice/latest/admin-guide/ms_ad_view_update_user.html) di *Panduan Administrasi Layanan AWS Direktori*.  
+  Untuk detail API, lihat [UpdateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/directory-service-data/update-user.html)di *Referensi AWS CLI Perintah*. 

# AWS DMS contoh menggunakan AWS CLI
<a name="cli_2_database-migration-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS DMS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags-to-resource`
<a name="database-migration-service_AddTagsToResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya**  
`add-tags-to-resource`Contoh berikut menambahkan tag ke contoh replikasi.  

```
aws dms add-tags-to-resource \
    --resource-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE \
    --tags Key=Environment,Value=PROD Key=Project,Value=dbMigration
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tagging.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [AddTagsToResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/add-tags-to-resource.html)di *Referensi AWS CLI Perintah*. 

### `create-endpoint`
<a name="database-migration-service_CreateEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-endpoint`.

**AWS CLI**  
**Untuk membuat titik akhir**  
`create-endpoint`Contoh berikut membuat titik akhir untuk sumber Amazon S3.  

```
aws dms create-endpoint \
    --endpoint-type source \
    --engine-name s3 \
    --endpoint-identifier src-endpoint \
    --s3-settings file://s3-settings.json
```
Isi dari `s3-settings.json`:  

```
{
    "BucketName":"my-corp-data",
    "BucketFolder":"sourcedata",
    "ServiceAccessRoleArn":"arn:aws:iam::123456789012:role/my-s3-access-role"
}
```
Output:  

```
{
    "Endpoint": {
        "EndpointIdentifier": "src-endpoint",
        "EndpointType": "SOURCE",
        "EngineName": "s3",
        "EngineDisplayName": "Amazon S3",
        "ExtraConnectionAttributes": "bucketFolder=sourcedata;bucketName=my-corp-data;compressionType=NONE;csvDelimiter=,;csvRowDelimiter=\\n;",
        "Status": "active",
        "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:GUVAFG34EECUOJ6QVZ56DAHT3U",
        "SslMode": "none",
        "ServiceAccessRoleArn": "arn:aws:iam::123456789012:role/my-s3-access-role",
        "S3Settings": {
            "ServiceAccessRoleArn": "arn:aws:iam::123456789012:role/my-s3-access-role",
            "CsvRowDelimiter": "\\n",
            "CsvDelimiter": ",",
            "BucketFolder": "sourcedata",
            "BucketName": "my-corp-data",
            "CompressionType": "NONE",
            "EnableStatistics": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Titik Akhir AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Endpoints.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [CreateEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/create-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-event-subscription`
<a name="database-migration-service_CreateEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-event-subscription`.

**AWS CLI**  
**Untuk daftar langganan acara**  
`create-event-subscription`Contoh berikut membuat langganan acara ke topik Amazon SNS ()my-sns-topic.  

```
aws dms create-event-subscription \
    --subscription-name my-dms-events \
    --sns-topic-arn arn:aws:sns:us-east-1:123456789012:my-sns-topic
```
Output:  

```
{
    "EventSubscription": {
        "CustomerAwsId": "123456789012",
        "CustSubscriptionId": "my-dms-events",
        "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:my-sns-topic",
        "Status": "creating",
        "SubscriptionCreationTime": "2020-05-21 21:58:38.598",
        "Enabled": true
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Acara dan Pemberitahuan](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Events.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [CreateEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/create-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `create-replication-instance`
<a name="database-migration-service_CreateReplicationInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-replication-instance`.

**AWS CLI**  
**Untuk membuat contoh replikasi**  
`create-replication-instance`Contoh berikut menciptakan contoh replikasi.  

```
aws dms create-replication-instance \
    --replication-instance-identifier my-repl-instance \
    --replication-instance-class dms.t2.micro \
    --allocated-storage 5
```
Output:  

```
{
    "ReplicationInstance": {
        "ReplicationInstanceIdentifier": "my-repl-instance",
        "ReplicationInstanceClass": "dms.t2.micro",
        "ReplicationInstanceStatus": "creating",
        "AllocatedStorage": 5,
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-f839b688",
                "Status": "active"
            }
        ],
        "ReplicationSubnetGroup": {
            "ReplicationSubnetGroupIdentifier": "default",
            "ReplicationSubnetGroupDescription": "default",
            "VpcId": "vpc-136a4c6a",
            "SubnetGroupStatus": "Complete",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-da327bf6",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1a"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-42599426",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1d"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-bac383e0",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1c"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-6746046b",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1f"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-d7c825e8",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1e"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-cbfff283",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1b"
                    },
                    "SubnetStatus": "Active"
                }
            ]
        },
        "PreferredMaintenanceWindow": "sat:12:35-sat:13:05",
        "PendingModifiedValues": {},
        "MultiAZ": false,
        "EngineVersion": "3.3.2",
        "AutoMinorVersionUpgrade": true,
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/f7bc0f8e-1a3a-4ace-9faa-e8494fa3921a",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:ZK2VQBUWFDBAWHIXHAYG5G2PKY",
        "PubliclyAccessible": true
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Instance Replikasi AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [CreateReplicationInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/create-replication-instance.html)di *Referensi AWS CLI Perintah*. 

### `create-replication-subnet-group`
<a name="database-migration-service_CreateReplicationSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-replication-subnet-group`.

**AWS CLI**  
**Untuk membuat grup subnet**  
`create-replication-subnet-group`Contoh berikut membuat grup yang terdiri dari 3 subnet.  

```
aws dms create-replication-subnet-group \
    --replication-subnet-group-identifier my-subnet-group \
    --replication-subnet-group-description "my subnet group" \
    --subnet-ids subnet-da327bf6 subnet-bac383e0 subnet-d7c825e8
```
Output:  

```
{
    "ReplicationSubnetGroup": {
        "ReplicationSubnetGroupIdentifier": "my-subnet-group",
        "ReplicationSubnetGroupDescription": "my subnet group",
        "VpcId": "vpc-136a4c6a",
        "SubnetGroupStatus": "Complete",
        "Subnets": [
            {
                "SubnetIdentifier": "subnet-da327bf6",
                "SubnetAvailabilityZone": {
                    "Name": "us-east-1a"
                },
                "SubnetStatus": "Active"
            },
            {
                "SubnetIdentifier": "subnet-bac383e0",
                "SubnetAvailabilityZone": {
                    "Name": "us-east-1c"
                },
                "SubnetStatus": "Active"
            },
            {
                "SubnetIdentifier": "subnet-d7c825e8",
                "SubnetAvailabilityZone": {
                    "Name": "us-east-1e"
                },
                "SubnetStatus": "Active"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan Jaringan untuk Instance Replikasi](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.VPC.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [CreateReplicationSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/create-replication-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `create-replication-task`
<a name="database-migration-service_CreateReplicationTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-replication-task`.

**AWS CLI**  
**Untuk membuat tugas replikasi**  
`create-replication-task`Contoh berikut menciptakan tugas replikasi.  

```
aws dms create-replication-task \
    --replication-task-identifier movedata \
    --source-endpoint-arn arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA \
    --target-endpoint-arn arn:aws:dms:us-east-1:123456789012:endpoint:EOM4SFKCZEYHZBFGAGZT3QEC5U \
    --replication-instance-arn $RI_ARN \
    --migration-type full-load \
    --table-mappings file://table-mappings.json
```
Isi dari `table-mappings.json`:  

```
{
    "rules": [
        {
            "rule-type": "selection",
            "rule-id": "1",
            "rule-name": "1",
            "object-locator": {
                "schema-name": "prodrep",
                "table-name": "%"
            },
            "rule-action": "include",
            "filters": []
        }
    ]
}
```
Output:  

```
{
    "ReplicationTask": {
        "ReplicationTaskIdentifier": "moveit2",
        "SourceEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "TargetEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:EOM4SFKCZEYHZBFGAGZT3QEC5U",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "MigrationType": "full-load",
        "TableMappings": ...output omitted... ,
        "ReplicationTaskSettings": ...output omitted... ,
        "Status": "creating",
        "ReplicationTaskCreationDate": 1590524772.505,
        "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tugas AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tasks.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [CreateReplicationTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/create-replication-task.html)di *Referensi AWS CLI Perintah*. 

### `delete-connection`
<a name="database-migration-service_DeleteConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-connection`.

**AWS CLI**  
**Untuk menghapus koneksi**  
`delete-connection`Contoh berikut memisahkan titik akhir dari contoh replikasi.  

```
aws dms delete-connection \
    --endpoint-arn arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA \
    --replication-instance-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE
```
Output:  

```
{
    "Connection": {
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "Status": "deleting",
        "EndpointIdentifier": "src-database-1",
        "ReplicationInstanceIdentifier": "my-repl-instance"
    }
}
```
*Untuk informasi selengkapnya, lihat [https://docs.aws.amazon.com/dms/latest/userguide/CHAP\$1EndPoints.creating.html di](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Endpoints.Creating.html) Panduan Pengguna Layanan Migrasi Database AWS .*  
+  Untuk detail API, lihat [DeleteConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/delete-connection.html)di *Referensi AWS CLI Perintah*. 

### `delete-endpoint`
<a name="database-migration-service_DeleteEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir**  
`delete-endpoint`Contoh berikut menghapus titik akhir.  

```
aws dms delete-endpoint \
    --endpoint-arn arn:aws:dms:us-east-1:123456789012:endpoint:OUJJVXO4XZ4CYTSEG5XGMN2R3Y
```
Output:  

```
{
    "Endpoint": {
        "EndpointIdentifier": "src-endpoint",
        "EndpointType": "SOURCE",
        "EngineName": "s3",
        "EngineDisplayName": "Amazon S3",
        "ExtraConnectionAttributes": "bucketFolder=sourcedata;bucketName=my-corp-data;compressionType=NONE;csvDelimiter=,;csvRowDelimiter=\\n;",
        "Status": "deleting",
        "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:OUJJVXO4XZ4CYTSEG5XGMN2R3Y",
        "SslMode": "none",
        "ServiceAccessRoleArn": "arn:aws:iam::123456789012:role/my-s3-access-role",
        "S3Settings": {
            "ServiceAccessRoleArn": "arn:aws:iam::123456789012:role/my-s3-access-role",
            "CsvRowDelimiter": "\\n",
            "CsvDelimiter": ",",
            "BucketFolder": "sourcedata",
            "BucketName": "my-corp-data",
            "CompressionType": "NONE",
            "EnableStatistics": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Titik Akhir AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Endpoints.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DeleteEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/delete-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-event-subscription`
<a name="database-migration-service_DeleteEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-event-subscription`.

**AWS CLI**  
**Untuk menghapus langganan acara**  
`delete-event-subscription`Contoh berikut menghapus langganan ke topik Amazon SNS.  

```
aws dms delete-event-subscription \
    --subscription-name "my-dms-events"
```
Output:  

```
{
    "EventSubscription": {
        "CustomerAwsId": "123456789012",
        "CustSubscriptionId": "my-dms-events",
        "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:my-sns-topic",
        "Status": "deleting",
        "SubscriptionCreationTime": "2020-05-21 21:58:38.598",
        "Enabled": true
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Acara dan Pemberitahuan](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Events.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DeleteEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/delete-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `delete-replication-instance`
<a name="database-migration-service_DeleteReplicationInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-replication-instance`.

**AWS CLI**  
**Untuk menghapus contoh replikasi**  
Contoh `delete-replication-instance` berikut menghapus instans replikasi.  

```
aws dms delete-replication-instance \
    --replication-instance-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE
```
Output:  

```
{
    "ReplicationInstance": {
        "ReplicationInstanceIdentifier": "my-repl-instance",
        "ReplicationInstanceClass": "dms.t2.micro",
        "ReplicationInstanceStatus": "deleting",
        "AllocatedStorage": 5,
        "InstanceCreateTime": 1590011235.952,
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-f839b688",
                "Status": "active"
            }
        ],
        "AvailabilityZone": "us-east-1e",
        "ReplicationSubnetGroup": {
            "ReplicationSubnetGroupIdentifier": "default",
            "ReplicationSubnetGroupDescription": "default",
            "VpcId": "vpc-136a4c6a",
            "SubnetGroupStatus": "Complete",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-da327bf6",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1a"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-42599426",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1d"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-bac383e0",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1c"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-6746046b",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1f"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-d7c825e8",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1e"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-cbfff283",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1b"
                    },
                    "SubnetStatus": "Active"
                }
            ]
        },
        "PreferredMaintenanceWindow": "wed:11:42-wed:12:12",
        "PendingModifiedValues": {},
        "MultiAZ": true,
        "EngineVersion": "3.3.2",
        "AutoMinorVersionUpgrade": true,
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/f7bc0f8e-1a3a-4ace-9faa-e8494fa3921a",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "ReplicationInstancePublicIpAddress": "54.225.120.92",
        "ReplicationInstancePrivateIpAddress": "172.31.30.121",
        "ReplicationInstancePublicIpAddresses": [
            "54.225.120.92",
            "3.230.18.248"
        ],
        "ReplicationInstancePrivateIpAddresses": [
            "172.31.30.121",
            "172.31.75.90"
        ],
        "PubliclyAccessible": true,
        "SecondaryAvailabilityZone": "us-east-1b"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Instance Replikasi AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DeleteReplicationInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/delete-replication-instance.html)di *Referensi AWS CLI Perintah*. 

### `delete-replication-subnet-group`
<a name="database-migration-service_DeleteReplicationSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-replication-subnet-group`.

**AWS CLI**  
**Untuk menghapus grup subnet**  
`delete-replication-subnet-group`Contoh berikut menghapus grup subnet.  

```
aws dms delete-replication-subnet-group \
--replication-subnet-group-identifier my-subnet-group
```
Output:  

```
(none)
```
Untuk informasi selengkapnya, lihat [Menyiapkan Jaringan untuk Instance Replikasi](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.VPC.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DeleteReplicationSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/delete-replication-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-replication-task`
<a name="database-migration-service_DeleteReplicationTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-replication-task`.

**AWS CLI**  
**Untuk menghapus tugas replikasi**  
`delete-replication-task`Contoh berikut menghapus tugas replikasi.  

```
aws dms delete-replication-task \
    --replication-task-arn arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII
```
Output:  

```
{
    "ReplicationTask": {
        "ReplicationTaskIdentifier": "moveit2",
        "SourceEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "TargetEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:EOM4SFKCZEYHZBFGAGZT3QEC5U",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "MigrationType": "full-load",
        "TableMappings": ...output omitted...,
        "ReplicationTaskSettings": ...output omitted...,
        "Status": "deleting",
        "StopReason": "Stop Reason FULL_LOAD_ONLY_FINISHED",
        "ReplicationTaskCreationDate": 1590524772.505,
        "ReplicationTaskStartDate": 1590789988.677,
        "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tugas AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tasks.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DeleteReplicationTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/delete-replication-task.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-attributes`
<a name="database-migration-service_DescribeAccountAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-attributes`.

**AWS CLI**  
**Untuk menggambarkan atribut akun**  
`describe-account-attributes`Contoh berikut mencantumkan atribut untuk AWS akun Anda.  

```
aws dms describe-account-attributes
```
Output:  

```
{
    "AccountQuotas": [
        {
            "AccountQuotaName": "ReplicationInstances",
            "Used": 1,
            "Max": 20
        },
        {
            "AccountQuotaName": "AllocatedStorage",
            "Used": 5,
            "Max": 10000
        },

        ...remaining output omitted...

    ],
    "UniqueAccountIdentifier": "cqahfbfy5xee"
}
```
+  Untuk detail API, lihat [DescribeAccountAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-account-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-certificates`
<a name="database-migration-service_DescribeCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-certificates`.

**AWS CLI**  
**Untuk daftar sertifikat yang tersedia**  
`describe-certificates`Contoh berikut mencantumkan sertifikat yang tersedia di AWS akun Anda.  

```
aws dms describe-certificates
```
Output:  

```
{
    "Certificates": [
        {
            "CertificateIdentifier": "my-cert",
            "CertificateCreationDate": 1543259542.506,
            "CertificatePem": "-----BEGIN CERTIFICATE-----\nMIID9DCCAtygAwIBAgIBQjANBgkqhkiG9w0BAQ ...U"

            ... remaining output omittted ...

        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan SSL](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Security.html#CHAP_Security.SSL) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-certificates.html)di *Referensi AWS CLI Perintah*. 

### `describe-connections`
<a name="database-migration-service_DescribeConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-connections`.

**AWS CLI**  
**Untuk menggambarkan koneksi**  
`describe-connections`Contoh berikut mencantumkan koneksi yang telah Anda uji antara instance replikasi dan titik akhir.  

```
aws dms describe-connections
```
Output:  

```
{
    "Connections": [
        {
            "Status": "successful",
            "ReplicationInstanceIdentifier": "test",
            "EndpointArn": "arn:aws:dms:us-east-arn:aws:dms:us-east-1:123456789012:endpoint:ZW5UAN6P4E77EC7YWHK4RZZ3BE",
            "EndpointIdentifier": "testsrc1",
            "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:6UTDJGBOUS3VI3SUWA66XFJCJQ"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Titik Akhir Sumber dan Target](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Endpoints.Creating.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-connections.html)di *Referensi AWS CLI Perintah*. 

### `describe-endpoint-types`
<a name="database-migration-service_DescribeEndpointTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-endpoint-types`.

**AWS CLI**  
**Untuk mencantumkan jenis titik akhir yang tersedia**  
`describe-endpoint-types`Contoh berikut mencantumkan jenis endpoint MySQL yang tersedia.  

```
aws dms describe-endpoint-types \
    --filters "Name=engine-name,Values=mysql"
```
Output:  

```
{
    "SupportedEndpointTypes": [
        {
            "EngineName": "mysql",
            "SupportsCDC": true,
            "EndpointType": "source",
            "EngineDisplayName": "MySQL"
        },
        {
            "EngineName": "mysql",
            "SupportsCDC": true,
            "EndpointType": "target",
            "EngineDisplayName": "MySQL"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat Bekerja dengan Titik Akhir AWS DMS < https://docs.aws.amazon.com/dms/ latest/userguide/CHAP \$1Endpoints.html>`\$1\$1 di Panduan Pengguna Layanan Migrasi Database.AWS *  
+  Untuk detail API, lihat [DescribeEndpointTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-endpoint-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-endpoints`
<a name="database-migration-service_DescribeEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-endpoints`.

**AWS CLI**  
**Untuk menggambarkan titik akhir**  
`describe-endpoints`Contoh berikut mencantumkan titik akhir di AWS akun Anda.  

```
aws dms describe-endpoints
```
Output:  

```
{
    "Endpoints": [
        {
            "Username": "dms",
            "Status": "active",
            "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:SF2WOFLWYWKVEOHID2EKLP3SJI",
            "ServerName": "ec2-52-32-48-61.us-west-2.compute.amazonaws.com",
            "EndpointType": "SOURCE",
            "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/94d5c4e7-4e4c-44be-b58a-c8da7adf57cd",
            "DatabaseName": "test",
            "EngineName": "mysql",
            "EndpointIdentifier": "pri100",
            "Port": 8193
        },
        {
            "Username": "admin",
            "Status": "active",
            "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:TJJZCIH3CJ24TJRU4VC32WEWFR",
            "ServerName": "test.example.com",
            "EndpointType": "SOURCE",
            "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/2431021b-1cf2-a2d4-77b2-59a9e4bce323",
            "DatabaseName": "EMPL",
            "EngineName": "oracle",
            "EndpointIdentifier": "test",
            "Port": 1521
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Titik Akhir AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Endpoints.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-categories`
<a name="database-migration-service_DescribeEventCategories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-categories`.

**AWS CLI**  
**Untuk menggambarkan kategori acara**  
`describe-event-categories`Contoh berikut mencantumkan kategori acara yang tersedia.  

```
aws dms describe-event-categories
```
Output:  

```
{
    "EventCategoryGroupList": [
        {
            "SourceType": "replication-instance",
            "EventCategories": [
                "low storage",
                "configuration change",
                "maintenance",
                "deletion",
                "creation",
                "failover",
                "failure"
            ]
        },
        {
            "SourceType": "replication-task",
            "EventCategories": [
                "configuration change",
                "state change",
                "deletion",
                "creation",
                "failure"
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Acara dan Pemberitahuan](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Events.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeEventCategories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-event-categories.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-subscriptions`
<a name="database-migration-service_DescribeEventSubscriptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-subscriptions`.

**AWS CLI**  
**Untuk menggambarkan langganan acara**  
`describe-event-subscriptions`Contoh berikut mencantumkan langganan acara ke topik Amazon SNS.  

```
aws dms describe-event-subscriptions
```
Output:  

```
{
    "EventSubscriptionsList": [
        {
            "CustomerAwsId": "123456789012",
            "CustSubscriptionId": "my-dms-events",
            "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:my-sns-topic",
            "Status": "deleting",
            "SubscriptionCreationTime": "2020-05-21 22:28:51.924",
            "Enabled": true
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Acara dan Pemberitahuan](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Events.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeEventSubscriptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-event-subscriptions.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="database-migration-service_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
**Untuk daftar acara DMS**  
`describe-events`Contoh berikut mencantumkan peristiwa yang berasal dari contoh replikasi.  

```
aws dms describe-events \
    --source-type "replication-instance"
```
Output:  

```
{
    "Events": [
        {
            "SourceIdentifier": "my-repl-instance",
            "SourceType": "replication-instance",
            "Message": "Replication application shutdown",
            "EventCategories": [],
            "Date": 1590771645.776
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Acara dan Pemberitahuan](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Events.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-orderable-replication-instances`
<a name="database-migration-service_DescribeOrderableReplicationInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-orderable-replication-instances`.

**AWS CLI**  
**Untuk menggambarkan contoh replikasi yang dapat dipesan**  
`describe-orderable-replication-instances`Contoh berikut mencantumkan jenis contoh replikasi yang dapat Anda pesan.  

```
aws dms describe-orderable-replication-instances
```
Output:  

```
{
    "OrderableReplicationInstances": [
        {
            "EngineVersion": "3.3.2",
            "ReplicationInstanceClass": "dms.c4.2xlarge",
            "StorageType": "gp2",
            "MinAllocatedStorage": 5,
            "MaxAllocatedStorage": 6144,
            "DefaultAllocatedStorage": 100,
            "IncludedAllocatedStorage": 100,
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1c",
                "us-east-1d",
                "us-east-1e",
                "us-east-1f"
            ]
        },
        {
            "EngineVersion": "3.3.2",
            "ReplicationInstanceClass": "dms.c4.4xlarge",
            "StorageType": "gp2",
            "MinAllocatedStorage": 5,
            "MaxAllocatedStorage": 6144,
            "DefaultAllocatedStorage": 100,
            "IncludedAllocatedStorage": 100,
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1c",
                "us-east-1d",
                "us-east-1e",
                "us-east-1f"
            ]
        },

        ...remaining output omitted...

    }
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Instance Replikasi AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeOrderableReplicationInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-orderable-replication-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-refresh-schemas-status`
<a name="database-migration-service_DescribeRefreshSchemasStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-refresh-schemas-status`.

**AWS CLI**  
**Untuk mencantumkan status penyegaran untuk titik akhir**  
`describe-refresh-schemas-status`Contoh berikut mengembalikan status permintaan penyegaran sebelumnya.  

```
aws dms describe-refresh-schemas-status \
    --endpoint-arn arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA
```
Output:  

```
{
    "RefreshSchemasStatus": {
        "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "Status": "successful",
        "LastRefreshDate": 1590786544.605
    }
}
```
+  Untuk detail API, lihat [DescribeRefreshSchemasStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-refresh-schemas-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-replication-instances`
<a name="database-migration-service_DescribeReplicationInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-replication-instances`.

**AWS CLI**  
**Untuk menggambarkan contoh replikasi**  
`describe-replication-instances`Contoh berikut mencantumkan contoh replikasi di akun Anda AWS .  

```
aws dms describe-replication-instances
```
Output:  

```
{
    "ReplicationInstances": [
        {
            "ReplicationInstanceIdentifier": "my-repl-instance",
            "ReplicationInstanceClass": "dms.t2.micro",
            "ReplicationInstanceStatus": "available",
            "AllocatedStorage": 5,
            "InstanceCreateTime": 1590011235.952,
            "VpcSecurityGroups": [
                {
                    "VpcSecurityGroupId": "sg-f839b688",
                    "Status": "active"
                }
            ],
            "AvailabilityZone": "us-east-1e",
            "ReplicationSubnetGroup": {
                "ReplicationSubnetGroupIdentifier": "default",
                "ReplicationSubnetGroupDescription": "default",
                "VpcId": "vpc-136a4c6a",
                "SubnetGroupStatus": "Complete",
                "Subnets": [
                    {
                        "SubnetIdentifier": "subnet-da327bf6",
                        "SubnetAvailabilityZone": {
                            "Name": "us-east-1a"
                        },
                        "SubnetStatus": "Active"
                    },
                    {
                        "SubnetIdentifier": "subnet-42599426",
                        "SubnetAvailabilityZone": {
                            "Name": "us-east-1d"
                        },
                        "SubnetStatus": "Active"
                    },
                    {
                        "SubnetIdentifier": "subnet-bac383e0",
                        "SubnetAvailabilityZone": {
                            "Name": "us-east-1c"
                        },
                        "SubnetStatus": "Active"
                    },
                    {
                        "SubnetIdentifier": "subnet-6746046b",
                        "SubnetAvailabilityZone": {
                            "Name": "us-east-1f"
                        },
                        "SubnetStatus": "Active"
                    },
                    {
                        "SubnetIdentifier": "subnet-d7c825e8",
                        "SubnetAvailabilityZone": {
                            "Name": "us-east-1e"
                        },
                        "SubnetStatus": "Active"
                    },
                    {
                        "SubnetIdentifier": "subnet-cbfff283",
                        "SubnetAvailabilityZone": {
                            "Name": "us-east-1b"
                        },
                        "SubnetStatus": "Active"
                    }
                ]
            },
            "PreferredMaintenanceWindow": "wed:11:42-wed:12:12",
            "PendingModifiedValues": {
                "MultiAZ": true
            },
            "MultiAZ": false,
            "EngineVersion": "3.3.2",
            "AutoMinorVersionUpgrade": true,
            "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/f7bc0f8e-1a3a-4ace-9faa-e8494fa3921a",
            "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
            "ReplicationInstancePublicIpAddress": "3.230.18.248",
            "ReplicationInstancePrivateIpAddress": "172.31.75.90",
            "ReplicationInstancePublicIpAddresses": [
                "3.230.18.248"
            ],
            "ReplicationInstancePrivateIpAddresses": [
                "172.31.75.90"
            ],
            "PubliclyAccessible": true,
            "FreeUntil": 1590194829.267
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Instance Replikasi AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeReplicationInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-replication-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-replication-subnet-groups`
<a name="database-migration-service_DescribeReplicationSubnetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-replication-subnet-groups`.

**AWS CLI**  
**Untuk menampilkan grup subnet yang tersedia**  
`describe-replication-subnet-groups`Contoh berikut mencantumkan grup subnet yang tersedia.  

```
aws dms describe-replication-subnet-groups \
    --filter "Name=replication-subnet-group-id,Values=my-subnet-group"
```
Output:  

```
{
    "ReplicationSubnetGroups": [
        {
            "ReplicationSubnetGroupIdentifier": "my-subnet-group",
            "ReplicationSubnetGroupDescription": "my subnet group",
            "VpcId": "vpc-136a4c6a",
            "SubnetGroupStatus": "Complete",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-da327bf6",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1a"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-bac383e0",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1c"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-d7c825e8",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1e"
                    },
                    "SubnetStatus": "Active"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan Jaringan untuk Instance Replikasi](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.VPC.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeReplicationSubnetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-replication-subnet-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-replication-task-assessment-results`
<a name="database-migration-service_DescribeReplicationTaskAssessmentResults_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-replication-task-assessment-results`.

**AWS CLI**  
**Untuk membuat daftar hasil penilaian tugas replikasi**  
`describe-replication-task-assessment-results`Contoh berikut mencantumkan hasil penilaian tugas sebelumnya.  

```
aws dms describe-replication-task-assessment-results
```
Output:  

```
{
    "ReplicationTaskAssessmentResults": [
        {
            "ReplicationTaskIdentifier": "moveit2",
            "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII",
            "ReplicationTaskLastAssessmentDate": 1590790230.0,
            "AssessmentStatus": "No issues found",
            "AssessmentResultsFile": "moveit2/2020-05-29-22-10"
        }
    ]
}
```
Untuk selengkapnya, lihat [Membuat Laporan Penilaian Tugas](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tasks.AssessmentReport.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeReplicationTaskAssessmentResults](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-replication-task-assessment-results.html)di *Referensi AWS CLI Perintah*. 

### `describe-replication-tasks`
<a name="database-migration-service_DescribeReplicationTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-replication-tasks`.

**AWS CLI**  
**Untuk menggambarkan tugas replikasi**  
`describe-replication-tasks`Contoh berikut menjelaskan tugas replikasi saat ini.  

```
aws dms describe-replication-tasks
```
Output:  

```
{
    "ReplicationTasks": [
        {
            "ReplicationTaskIdentifier": "moveit2",
            "SourceEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
            "TargetEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:EOM4SFKCZEYHZBFGAGZT3QEC5U",
            "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
            "MigrationType": "full-load",
            "TableMappings": ...output omitted... ,
            "ReplicationTaskSettings": ...output omitted... ,
            "Status": "stopped",
            "StopReason": "Stop Reason FULL_LOAD_ONLY_FINISHED",
            "ReplicationTaskCreationDate": 1590524772.505,
            "ReplicationTaskStartDate": 1590619805.212,
            "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII",
            "ReplicationTaskStats": {
                "FullLoadProgressPercent": 100,
                "ElapsedTimeMillis": 0,
                "TablesLoaded": 0,
                "TablesLoading": 0,
                "TablesQueued": 0,
                "TablesErrored": 0,
                "FreshStartDate": 1590619811.528,
                "StartDate": 1590619811.528,
                "StopDate": 1590619842.068
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tugas AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tasks.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeReplicationTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-replication-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-schemas`
<a name="database-migration-service_DescribeSchemas_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-schemas`.

**AWS CLI**  
**Untuk menggambarkan skema database**  
`describe-schemas`Contoh berikut mencantumkan tabel yang tersedia di titik akhir.  

```
aws dms describe-schemas \
    --endpoint-arn "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA"
```
Output:  

```
{
    "Schemas": [
        "prodrep"
    ]
}
```
Untuk informasi selengkapnya, lihat [Ini adalah judul topik](https://link.to.the/topic/page) dalam *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [DescribeSchemas](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/describe-schemas.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="database-migration-service_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk contoh replikasi.  

```
aws dms list-tags-for-resource \
    --resource-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE
```
Output:  

```
{
    "TagList": [
        {
            "Key": "Project",
            "Value": "dbMigration"
        },
        {
            "Key": "Environment",
            "Value": "PROD"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tagging.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `modify-endpoint`
<a name="database-migration-service_ModifyEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-endpoint`.

**AWS CLI**  
**Untuk memodifikasi titik akhir**  
`modify-endpoint`Contoh berikut menambahkan atribut koneksi tambahan ke titik akhir.  

```
aws dms modify-endpoint \
    --endpoint-arn "arn:aws:dms:us-east-1:123456789012:endpoint:GUVAFG34EECUOJ6QVZ56DAHT3U" \
    --extra-connection-attributes "compressionType=GZIP"
```
Output:  

```
{
    "Endpoint": {
        "EndpointIdentifier": "src-endpoint",
        "EndpointType": "SOURCE",
        "EngineName": "s3",
        "EngineDisplayName": "Amazon S3",
        "ExtraConnectionAttributes": "compressionType=GZIP;csvDelimiter=,;csvRowDelimiter=\\n;",
        "Status": "active",
        "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:GUVAFG34EECUOJ6QVZ56DAHT3U",
        "SslMode": "none",
        "ServiceAccessRoleArn": "arn:aws:iam::123456789012:role/my-s3-access-role",
        "S3Settings": {
            "ServiceAccessRoleArn": "arn:aws:iam::123456789012:role/my-s3-access-role",
            "CsvRowDelimiter": "\\n",
            "CsvDelimiter": ",",
            "BucketFolder": "",
            "BucketName": "",
            "CompressionType": "GZIP",
            "EnableStatistics": true
        }
    }
}
```
*Untuk informasi selengkapnya, lihat Bekerja dengan Titik Akhir AWS DMS < https://docs.aws.amazon.com/dms/ latest/userguide/CHAP \$1Endpoints.html>`\$1\$1 di Panduan Pengguna Layanan Migrasi Database.AWS *  
+  Untuk detail API, lihat [ModifyEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/modify-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `modify-event-subscription`
<a name="database-migration-service_ModifyEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-event-subscription`.

**AWS CLI**  
**Untuk mengubah langganan acara**  
`modify-event-subscription`Contoh berikut mengubah jenis sumber langganan acara.  

```
aws dms modify-event-subscription \
    --subscription-name "my-dms-events" \
    --source-type replication-task
```
Output:  

```
{
    "EventSubscription": {
        "CustomerAwsId": "123456789012",
        "CustSubscriptionId": "my-dms-events",
        "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:my-sns-topic",
        "Status": "modifying",
        "SubscriptionCreationTime": "2020-05-29 17:04:40.262",
        "SourceType": "replication-task",
        "Enabled": true
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Acara dan Pemberitahuan](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Events.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [ModifyEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/modify-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `modify-replication-instance`
<a name="database-migration-service_ModifyReplicationInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-replication-instance`.

**AWS CLI**  
**Untuk memodifikasi contoh replikasi**  
`modify-replication-instance`Contoh berikut memodifikasi instance replikasi sehingga menggunakan penerapan Multi-AZ.  

```
aws dms modify-replication-instance \
     --replication-instance-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE \
     --multi-az
```
Output:  

```
{
    "ReplicationInstance": {
        "ReplicationInstanceIdentifier": "my-repl-instance",
        "ReplicationInstanceClass": "dms.t2.micro",
        "ReplicationInstanceStatus": "available",
        "AllocatedStorage": 5,
        "InstanceCreateTime": 1590011235.952,

        ...output omitted...

        "PendingModifiedValues": {
            "MultiAZ": true
        },
        "MultiAZ": false,
        "EngineVersion": "3.3.2",
        "AutoMinorVersionUpgrade": true,
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/f7bc0f8e-1a3a-4ace-9faa-e8494fa3921a",

        ...output omitted...

    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Instance Replikasi AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [ModifyReplicationInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/modify-replication-instance.html)di *Referensi AWS CLI Perintah*. 

### `modify-replication-subnet-group`
<a name="database-migration-service_ModifyReplicationSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-replication-subnet-group`.

**AWS CLI**  
**Untuk memodifikasi grup subnet**  
`modify-replication-subnet-group`Contoh berikut mengubah daftar subnet yang terkait dengan grup subnet.  

```
aws dms modify-replication-subnet-group \
    --replication-subnet-group-identifier my-subnet-group \
    --subnet-id subnet-da327bf6 subnet-bac383e0
```
Output:  

```
{
    "ReplicationSubnetGroup": {
        "ReplicationSubnetGroupIdentifier": "my-subnet-group",
        "ReplicationSubnetGroupDescription": "my subnet group",
        "VpcId": "vpc-136a4c6a",
        "SubnetGroupStatus": "Complete",
        "Subnets": [
            {
                "SubnetIdentifier": "subnet-da327bf6",
                "SubnetAvailabilityZone": {
                    "Name": "us-east-1a"
                },
                "SubnetStatus": "Active"
            },
            {
                "SubnetIdentifier": "subnet-bac383e0",
                "SubnetAvailabilityZone": {
                    "Name": "us-east-1c"
                },
                "SubnetStatus": "Active"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan Jaringan untuk Instance Replikasi](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.VPC.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [ModifyReplicationSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/modify-replication-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-replication-task`
<a name="database-migration-service_ModifyReplicationTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-replication-task`.

**AWS CLI**  
**Untuk memodifikasi tugas replikasi**  
`modify-replication-task`Contoh berikut mengubah pemetaan tabel untuk tugas.  

```
aws dms modify-replication-task \
    --replication-task-arn "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII" \
    --table-mappings file://table-mappings.json
```
Isi dari `table-mappings.json`:  

```
{
    "rules": [
        {
            "rule-type": "selection",
            "rule-id": "1",
            "rule-name": "1",
            "object-locator": {
                "schema-name": "prodrep",
                "table-name": "ACCT_%"
            },
            "rule-action": "include",
            "filters": []
        }
    ]
}
```
Output:  

```
{
    "ReplicationTask": {
        "ReplicationTaskIdentifier": "moveit2",
        "SourceEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "TargetEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:EOM4SFKCZEYHZBFGAGZT3QEC5U",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "MigrationType": "full-load",
        "TableMappings": ...output omitted...,
        "ReplicationTaskSettings": ...output omitted...,
        "Status": "modifying",
        "StopReason": "Stop Reason FULL_LOAD_ONLY_FINISHED",
        "ReplicationTaskCreationDate": 1590524772.505,
        "ReplicationTaskStartDate": 1590789424.653,
        "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tugas AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tasks.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [ModifyReplicationTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/modify-replication-task.html)di *Referensi AWS CLI Perintah*. 

### `reboot-replication-instance`
<a name="database-migration-service_RebootReplicationInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-replication-instance`.

**AWS CLI**  
**Untuk me-reboot instance replikasi**  
Contoh `reboot-replication-instance` berikut mem-boot ulang instans replikasi.  

```
aws dms reboot-replication-instance \
    --replication-instance-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE
```
Output:  

```
{
    "ReplicationInstance": {
        "ReplicationInstanceIdentifier": "my-repl-instance",
        "ReplicationInstanceClass": "dms.t2.micro",
        "ReplicationInstanceStatus": "rebooting",
        "AllocatedStorage": 5,
        "InstanceCreateTime": 1590011235.952,
    ... output omitted ...
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Instance Replikasi AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_ReplicationInstance.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [RebootReplicationInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/reboot-replication-instance.html)di *Referensi AWS CLI Perintah*. 

### `refresh-schemas`
<a name="database-migration-service_RefreshSchemas_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`refresh-schemas`.

**AWS CLI**  
**Untuk menyegarkan skema basis data**  
`refresh-schemas`Contoh berikut meminta agar AWS DMS menyegarkan daftar skema pada titik akhir.  

```
aws dms refresh-schemas \
    --replication-instance-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE \
    --endpoint-arn "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA"
```
Output:  

```
{
    "RefreshSchemasStatus": {
        "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "Status": "refreshing",
        "LastRefreshDate": 1590019949.103
    }
}
```
+  Untuk detail API, lihat [RefreshSchemas](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/refresh-schemas.html)di *Referensi AWS CLI Perintah*. 

### `reload-tables`
<a name="database-migration-service_ReloadTables_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reload-tables`.

**AWS CLI**  
**Untuk menyegarkan daftar tabel yang tersedia di titik akhir**  
`reload-tables`Contoh berikut memuat ulang daftar tabel yang tersedia di titik akhir.  

```
aws dms reload-tables \
    --replication-task-arn "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII" \
    --tables-to-reload "SchemaName=prodrep,TableName=ACCT_BAL"
```
Output:  

```
{
    "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII"
}
```
+  Untuk detail API, lihat [ReloadTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/reload-tables.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags-from-resource`
<a name="database-migration-service_RemoveTagsFromResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags-from-resource`.

**AWS CLI**  
**Untuk menghapus tag dari contoh replikasi**  
`remove-tags-from-resource`Contoh berikut menghapus tag dari contoh replikasi.  

```
aws dms remove-tags-from-resource \
    --resource-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE \
    --tag-keys Environment Project
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tagging.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [RemoveTagsFromResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/remove-tags-from-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-replication-task-assessment`
<a name="database-migration-service_StartReplicationTaskAssessment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-replication-task-assessment`.

**AWS CLI**  
**Untuk memulai penilaian tugas**  
`start-replication-task-assessment`Contoh berikut memulai penilaian tugas replikasi.  

```
aws dms start-replication-task-assessment \
    --replication-task-arn arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII
```
Output:  

```
{
    "ReplicationTask": {
        "ReplicationTaskIdentifier": "moveit2",
        "SourceEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "TargetEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:EOM4SFKCZEYHZBFGAGZT3QEC5U",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "MigrationType": "full-load",
        "TableMappings": ...output omitted...,
        "ReplicationTaskSettings": ...output omitted...,
        "Status": "testing",
        "StopReason": "Stop Reason FULL_LOAD_ONLY_FINISHED",
        "ReplicationTaskCreationDate": 1590524772.505,
        "ReplicationTaskStartDate": 1590789988.677,
        "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII"
    }
}
```
Untuk selengkapnya, lihat [Membuat Laporan Penilaian Tugas](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tasks.AssessmentReport.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [StartReplicationTaskAssessment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/start-replication-task-assessment.html)di *Referensi AWS CLI Perintah*. 

### `start-replication-task`
<a name="database-migration-service_StartReplicationTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-replication-task`.

**AWS CLI**  
**Untuk memulai tugas replikasi**  
`command-name`Contoh berikut mencantumkan widget yang tersedia di AWS akun Anda.  

```
aws dms start-replication-task \
    --replication-task-arn arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII \
    --start-replication-task-type reload-target
```
Output:  

```
{
    "ReplicationTask": {
        "ReplicationTaskIdentifier": "moveit2",
        "SourceEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "TargetEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:EOM4SFKCZEYHZBFGAGZT3QEC5U",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "MigrationType": "full-load",
        "TableMappings": ...output omitted... ,
        "ReplicationTaskSettings": ...output omitted... ,
        "Status": "starting",
        "ReplicationTaskCreationDate": 1590524772.505,
        "ReplicationTaskStartDate": 1590619805.212,
        "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tugas AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tasks.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [StartReplicationTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/start-replication-task.html)di *Referensi AWS CLI Perintah*. 

### `stop-replication-task`
<a name="database-migration-service_StopReplicationTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-replication-task`.

**AWS CLI**  
**Untuk menghentikan tugas**  
`stop-replication-task`Contoh berikut menghentikan tugas.  

```
aws dms stop-replication-task \
    --replication-task-arn arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII
```
Output:  

```
{
    "ReplicationTask": {
        "ReplicationTaskIdentifier": "moveit2",
        "SourceEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "TargetEndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:EOM4SFKCZEYHZBFGAGZT3QEC5U",
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "MigrationType": "full-load",
        "TableMappings": ...output omitted...,
        "ReplicationTaskSettings": ...output omitted...,
        "Status": "stopping",
        "ReplicationTaskCreationDate": 1590524772.505,
        "ReplicationTaskStartDate": 1590789424.653,
        "ReplicationTaskArn": "arn:aws:dms:us-east-1:123456789012:task:K55IUCGBASJS5VHZJIINA45FII"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tugas AWS DMS](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Tasks.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [StopReplicationTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/stop-replication-task.html)di *Referensi AWS CLI Perintah*. 

### `test-connection`
<a name="database-migration-service_TestConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-connection`.

**AWS CLI**  
**Untuk menguji koneksi ke titik akhir**  
`test-connection`Contoh berikut menguji apakah titik akhir dapat diakses dari contoh replikasi.  

```
aws dms test-connection \
    --replication-instance-arn arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE \
    --endpoint-arn arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA
```
Output:  

```
{
    "Connection": {
        "ReplicationInstanceArn": "arn:aws:dms:us-east-1:123456789012:rep:T3OM7OUB5NM2LCVZF7JPGJRNUE",
        "EndpointArn": "arn:aws:dms:us-east-1:123456789012:endpoint:6GGI6YPWWGAYUVLKIB732KEVWA",
        "Status": "testing",
        "EndpointIdentifier": "src-database-1",
        "ReplicationInstanceIdentifier": "my-repl-instance"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat titik akhir sumber dan target](https://docs.aws.amazon.com/dms/latest/userguide/CHAP_Endpoints.Creating.html) di *Panduan Pengguna Layanan Migrasi AWS Database*.  
+  Untuk detail API, lihat [TestConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dms/test-connection.html)di *Referensi AWS CLI Perintah*. 

# Amazon DocumentDB contoh menggunakan AWS CLI
<a name="cli_2_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Amazon DocumentDB. AWS Command Line Interface 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags-to-resource`
<a name="docdb_AddTagsToResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-resource`.

**AWS CLI**  
**Untuk menambahkan satu atau beberapa tag ke sumber daya tertentu**  
`add-tags-to-resource`Contoh berikut menambahkan tiga tag ke`sample-cluster`. Satu tag (`CropB`) memiliki nama kunci tetapi tidak memiliki nilai.  

```
aws docdb add-tags-to-resource \
    --resource-name arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster \
    --tags Key="CropA",Value="Apple" Key="CropB" Key="CropC",Value="Corn"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Amazon DocumentDB di Panduan Pengembang Amazon](https://docs.aws.amazon.com/documentdb/latest/developerguide/tagging.html) *DocumentDB*.  
+  Untuk detail API, lihat [AddTagsToResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/add-tags-to-resource.html)di *Referensi AWS CLI Perintah*. 

### `apply-pending-maintenance-action`
<a name="docdb_ApplyPendingMaintenanceAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`apply-pending-maintenance-action`.

**AWS CLI**  
**Untuk melakukan tindakan pemeliharaan yang tertunda selama jendela pemeliharaan berikutnya**  
`apply-pending-maintenance-action`Contoh berikut menyebabkan semua tindakan pembaruan sistem dilakukan selama jendela pemeliharaan terjadwal berikutnya.  

```
aws docdb apply-pending-maintenance-action \
--resource-identifier arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster \
--apply-action system-update \
--opt-in-type next-maintenance
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menerapkan Pembaruan Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-instance-maintain.html#db-instance-updates-apply) di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [ApplyPendingMaintenanceAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/apply-pending-maintenance-action.html)di *Referensi AWS CLI Perintah*. 

### `copy-db-cluster-parameter-group`
<a name="docdb_CopyDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk menduplikasi grup parameter cluster DB yang ada**  
`copy-db-cluster-parameter-group`Contoh berikut membuat salinan dari kelompok parameter `custom-docdb3-6` bernama`custom-docdb3-6-copy`. Saat membuat salinan itu menambahkan tag ke grup parameter baru.  

```
aws docdb copy-db-cluster-parameter-group \
    --source-db-cluster-parameter-group-identifier custom-docdb3-6 \
    --target-db-cluster-parameter-group-identifier custom-docdb3-6-copy \
    --target-db-cluster-parameter-group-description "Copy of custom-docdb3-6" \
    --tags Key="CopyNumber",Value="1" Key="Modifiable",Value="Yes"
```
Output:  

```
{
    "DBClusterParameterGroup": {
        "DBParameterGroupFamily": "docdb3.6",
        "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:12345678901:cluster-pg:custom-docdb3-6-copy",
        "DBClusterParameterGroupName": "custom-docdb3-6-copy",
        "Description": "Copy of custom-docdb3-6"
    }
}
```
Untuk informasi selengkapnya, lihat [Menyalin Grup Parameter Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-parameter-group-copy.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [CopyDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/copy-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `copy-db-cluster-snapshot`
<a name="docdb_CopyDbClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-db-cluster-snapshot`.

**AWS CLI**  
**Untuk membuat salinan snapshot**  
`copy-db-cluster-snapshot`Contoh berikut membuat salinan `sample-cluster-snapshot` bernama`sample-cluster-snapshot-copy`. Salinan memiliki semua tag asli ditambah tag baru dengan nama kunci`CopyNumber`.  

```
aws docdb copy-db-cluster-snapshot \
    --source-db-cluster-snapshot-identifier sample-cluster-snapshot \
    --target-db-cluster-snapshot-identifier sample-cluster-snapshot-copy \
    --copy-tags \
    --tags Key="CopyNumber",Value="1"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyalin Snapshot Cluster](https://docs.aws.amazon.com/documentdb/latest/developerguide/backup-restore.db-cluster-snapshot-copy.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [CopyDbClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/copy-db-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-db-cluster-parameter-group`
<a name="docdb_CreateDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk membuat grup parameter cluster Amazon DocumentDB**  
`create-db-cluster-parameter-group`Contoh berikut membuat kelompok parameter cluster DB `sample-parameter-group` menggunakan `docdb3.6` keluarga.  

```
aws docdb create-db-cluster-parameter-group \
    --db-cluster-parameter-group-name sample-parameter-group \
    --db-parameter-group-family docdb3.6 \
    --description "Sample parameter group based on docdb3.6"
```
Output:  

```
{
    "DBClusterParameterGroup": {
        "Description": "Sample parameter group based on docdb3.6",
        "DBParameterGroupFamily": "docdb3.6",
        "DBClusterParameterGroupArn": "arn:aws:rds:us-west-2:123456789012:cluster-pg:sample-parameter-group",
        "DBClusterParameterGroupName": "sample-parameter-group"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup Parameter Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-parameter-group-create.html) di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [CreateDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/create-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `create-db-cluster-snapshot`
<a name="docdb_CreateDbClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-cluster-snapshot`.

**AWS CLI**  
**Untuk membuat snapshot cluster Amazon DocumentDB manual**  
`create-db-cluster-snapshot`Contoh berikut membuat snapshot cluster Amazon DB bernama sample-cluster-snapshot.  

```
aws docdb create-db-cluster-snapshot \
   --db-cluster-identifier sample-cluster \
   --db-cluster-snapshot-identifier sample-cluster-snapshot
```
Output:  

```
{
    "DBClusterSnapshot": {
        "MasterUsername": "master-user",
        "SnapshotCreateTime": "2019-03-18T18:27:14.794Z",
        "AvailabilityZones": [
            "us-west-2a",
            "us-west-2b",
            "us-west-2c",
            "us-west-2d",
            "us-west-2e",
            "us-west-2f"
        ],
        "SnapshotType": "manual",
        "DBClusterSnapshotArn": "arn:aws:rds:us-west-2:123456789012:cluster-snapshot:sample-cluster-snapshot",
        "EngineVersion": "3.6.0",
        "PercentProgress": 0,
        "DBClusterSnapshotIdentifier": "sample-cluster-snapshot",
        "Engine": "docdb",
        "DBClusterIdentifier": "sample-cluster",
        "Status": "creating",
        "ClusterCreateTime": "2019-03-15T20:29:58.836Z",
        "Port": 0,
        "StorageEncrypted": false,
        "VpcId": "vpc-91280df6"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Snapshot Kluster Manual](https://docs.aws.amazon.com/documentdb/latest/developerguide/backup-restore.db-cluster-snapshot-create.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [CreateDbClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/create-db-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-db-cluster`
<a name="docdb_CreateDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-cluster`.

**AWS CLI**  
**Untuk membuat cluster Amazon DocumentDB**  
`create-db-cluster`Contoh berikut membuat cluster Amazon DocumentDB `sample-cluster` bernama dengan jendela pemeliharaan pilihan pada hari Minggu antara 20:30 dan 11:00.  

```
aws docdb create-db-cluster \
    --db-cluster-identifier sample-cluster \
    --engine docdb \
    --master-username master-user \
    --master-user-password password \
    --preferred-maintenance-window Sun:20:30-Sun:21:00
```
Output:  

```
{
    "DBCluster": {
        "DBClusterParameterGroup": "default.docdb3.6",
        "AssociatedRoles": [],
        "DBSubnetGroup": "default",
        "ClusterCreateTime": "2019-03-18T18:06:34.616Z",
        "Status": "creating",
        "Port": 27017,
        "PreferredMaintenanceWindow": "sun:20:30-sun:21:00",
        "HostedZoneId": "ZNKXH85TT8WVW",
        "DBClusterMembers": [],
        "Engine": "docdb",
        "DBClusterIdentifier": "sample-cluster",
        "PreferredBackupWindow": "10:12-10:42",
        "AvailabilityZones": [
            "us-west-2d",
            "us-west-2f",
            "us-west-2e"
        ],
        "MasterUsername": "master-user",
        "BackupRetentionPeriod": 1,
        "ReaderEndpoint": "sample-cluster.cluster-ro-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-77186e0d",
                "Status": "active"
            }
        ],
        "StorageEncrypted": false,
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster",
        "DbClusterResourceId": "cluster-L3R4YRSBUYDP4GLMTJ2WF5GH5Q",
        "MultiAZ": false,
        "Endpoint": "sample-cluster.cluster-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "EngineVersion": "3.6.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-create.html) di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [CreateDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/create-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-db-instance`
<a name="docdb_CreateDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-instance`.

**AWS CLI**  
**Untuk membuat instance cluster Amazon DocumentDB**  
Kode `create-db-instance` contoh berikut membuat instance `sample-cluster-instance-2` di cluster Amazon DocumentDB. `sample-cluster`  

```
aws docdb create-db-instance \
    --db-cluster-identifier sample-cluster \
    --db-instance-class db.r4.xlarge \
    --db-instance-identifier sample-cluster-instance-2 \
    --engine docdb
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceStatus": "creating",
        "PendingModifiedValues": {
            "PendingCloudwatchLogsExports": {
                "LogTypesToEnable": [
                    "audit"
                ]
            }
        },
        "PubliclyAccessible": false,
        "PreferredBackupWindow": "00:00-00:30",
        "PromotionTier": 1,
        "EngineVersion": "3.6.0",
        "BackupRetentionPeriod": 3,
        "DBInstanceIdentifier": "sample-cluster-instance-2",
        "PreferredMaintenanceWindow": "tue:10:28-tue:10:58",
        "StorageEncrypted": false,
        "Engine": "docdb",
        "DBClusterIdentifier": "sample-cluster",
        "DBSubnetGroup": {
            "Subnets": [
                {
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    },
                    "SubnetStatus": "Active",
                    "SubnetIdentifier": "subnet-4e26d263"
                },
                {
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2c"
                    },
                    "SubnetStatus": "Active",
                    "SubnetIdentifier": "subnet-afc329f4"
                },
                {
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2d"
                    },
                    "SubnetStatus": "Active",
                    "SubnetIdentifier": "subnet-53ab3636"
                },
                {
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2b"
                    },
                    "SubnetStatus": "Active",
                    "SubnetIdentifier": "subnet-991cb8d0"
                }
            ],
            "DBSubnetGroupDescription": "default",
            "SubnetGroupStatus": "Complete",
            "VpcId": "vpc-91280df6",
            "DBSubnetGroupName": "default"
        },
        "DBInstanceClass": "db.r4.xlarge",
        "VpcSecurityGroups": [
            {
                "Status": "active",
                "VpcSecurityGroupId": "sg-77186e0d"
            }
        ],
        "DBInstanceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster-instance-2",
        "DbiResourceId": "db-XEKJLEMGRV5ZKCARUVA4HO3ITE"
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan Instans Amazon DocumentDB ke](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-instance-add.html) Cluster di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [CreateDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/create-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `create-db-subnet-group`
<a name="docdb_CreateDbSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-subnet-group`.

**AWS CLI**  
**Untuk membuat grup subnet Amazon DocumentDB**  
`create-db-subnet-group`Contoh berikut membuat grup subnet Amazon DocumentDB bernama. `sample-subnet-group`  

```
aws docdb create-db-subnet-group \
    --db-subnet-group-description "a sample subnet group" \
    --db-subnet-group-name sample-subnet-group \
    --subnet-ids "subnet-29ab1025" "subnet-991cb8d0" "subnet-53ab3636"
```
Output:  

```
{
    "DBSubnetGroup": {
        "SubnetGroupStatus": "Complete",
        "DBSubnetGroupName": "sample-subnet-group",
        "DBSubnetGroupDescription": "a sample subnet group",
        "VpcId": "vpc-91280df6",
        "DBSubnetGroupArn": "arn:aws:rds:us-west-2:123456789012:subgrp:sample-subnet-group",
        "Subnets": [
            {
                "SubnetStatus": "Active",
                "SubnetIdentifier": "subnet-53ab3636",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2d"
                }
            },
            {
                "SubnetStatus": "Active",
                "SubnetIdentifier": "subnet-991cb8d0",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2b"
                }
            },
            {
                "SubnetStatus": "Active",
                "SubnetIdentifier": "subnet-29ab1025",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2c"
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup Subnet Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/document-db-subnet-groups.html#document-db-subnet-group-create) di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [CreateDbSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/create-db-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-cluster-parameter-group`
<a name="docdb_DeleteDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk menghapus grup parameter cluster Amazon DocumentDB**  
`delete-db-cluster-parameter-group`Contoh berikut menghapus grup parameter Amazon `sample-parameter-group` DocumentDB.  

```
aws docdb delete-db-cluster-parameter-group \
    --db-cluster-parameter-group-name sample-parameter-group
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Grup Parameter Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-parameter-group-delete.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [DeleteDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/delete-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-cluster-snapshot`
<a name="docdb_DeleteDbClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-cluster-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot cluster Amazon DocumentDB**  
`delete-db-cluster-snapshot`Contoh berikut menghapus snapshot cluster Amazon `sample-cluster-snapshot` DocumentDB.  

```
aws docdb delete-db-cluster-snapshot \
    --db-cluster-snapshot-identifier sample-cluster-snapshot
```
Output:  

```
{
    "DBClusterSnapshot": {
        "DBClusterIdentifier": "sample-cluster",
        "AvailabilityZones": [
            "us-west-2a",
            "us-west-2b",
            "us-west-2c",
            "us-west-2d"
        ],
        "DBClusterSnapshotIdentifier": "sample-cluster-snapshot",
        "VpcId": "vpc-91280df6",
        "DBClusterSnapshotArn": "arn:aws:rds:us-west-2:123456789012:cluster-snapshot:sample-cluster-snapshot",
        "EngineVersion": "3.6.0",
        "Engine": "docdb",
        "SnapshotCreateTime": "2019-03-18T18:27:14.794Z",
        "Status": "available",
        "MasterUsername": "master-user",
        "ClusterCreateTime": "2019-03-15T20:29:58.836Z",
        "PercentProgress": 100,
        "StorageEncrypted": false,
        "SnapshotType": "manual",
        "Port": 0
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Snapshot Cluster](https://docs.aws.amazon.com/documentdb/latest/developerguide/backup-restore.db-cluster-snapshot-delete.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [DeleteDbClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/delete-db-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-cluster`
<a name="docdb_DeleteDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-cluster`.

**AWS CLI**  
**Untuk menghapus cluster Amazon DocumentDB**  
`delete-db-cluster`Contoh berikut menghapus cluster Amazon DocumentDB. `sample-cluster` Tidak ada cadangan cluster yang dibuat sebelum menghapusnya. CATATAN: Anda harus menghapus semua instance yang terkait dengan cluster sebelum Anda dapat menghapusnya.  

```
aws docdb delete-db-cluster \
    --db-cluster-identifier sample-cluster \
    --skip-final-snapshot
```
Output:  

```
{
    "DBCluster": {
        "DBClusterIdentifier": "sample-cluster",
        "DBSubnetGroup": "default",
        "EngineVersion": "3.6.0",
        "Engine": "docdb",
        "LatestRestorableTime": "2019-03-18T18:07:24.610Z",
        "PreferredMaintenanceWindow": "sun:20:30-sun:21:00",
        "StorageEncrypted": false,
        "EarliestRestorableTime": "2019-03-18T18:07:24.610Z",
        "Port": 27017,
        "VpcSecurityGroups": [
            {
                "Status": "active",
                "VpcSecurityGroupId": "sg-77186e0d"
            }
        ],
        "MultiAZ": false,
        "MasterUsername": "master-user",
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster",
        "Status": "available",
        "PreferredBackupWindow": "10:12-10:42",
        "ReaderEndpoint": "sample-cluster.cluster-ro-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "AvailabilityZones": [
            "us-west-2c",
            "us-west-2b",
            "us-west-2a"
        ],
        "Endpoint": "sample-cluster.cluster-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "DbClusterResourceId": "cluster-L3R4YRSBUYDP4GLMTJ2WF5GH5Q",
        "ClusterCreateTime": "2019-03-18T18:06:34.616Z",
        "AssociatedRoles": [],
        "DBClusterParameterGroup": "default.docdb3.6",
        "HostedZoneId": "ZNKXH85TT8WVW",
        "BackupRetentionPeriod": 1,
        "DBClusterMembers": []
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Cluster Amazon DocumentDB di Panduan Pengembang Amazon](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-delete.html) *DocumentDB*.  
+  Untuk detail API, lihat [DeleteDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/delete-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-instance`
<a name="docdb_DeleteDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-instance`.

**AWS CLI**  
**Untuk menghapus instance Amazon DocumentDB**  
`delete-db-instance`Contoh berikut menghapus instance Amazon DocumentDB. `sample-cluster-instance-2`  

```
aws docdb delete-db-instance \
    --db-instance-identifier sample-cluster-instance-2
```
Output:  

```
{
    "DBInstance": {
        "DBSubnetGroup": {
            "Subnets": [
                {
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    },
                    "SubnetStatus": "Active",
                    "SubnetIdentifier": "subnet-4e26d263"
                },
                {
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2c"
                    },
                    "SubnetStatus": "Active",
                    "SubnetIdentifier": "subnet-afc329f4"
                },
                {
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2d"
                    },
                    "SubnetStatus": "Active",
                    "SubnetIdentifier": "subnet-53ab3636"
                },
                {
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2b"
                    },
                    "SubnetStatus": "Active",
                    "SubnetIdentifier": "subnet-991cb8d0"
                }
            ],
            "DBSubnetGroupName": "default",
            "DBSubnetGroupDescription": "default",
            "VpcId": "vpc-91280df6",
            "SubnetGroupStatus": "Complete"
        },
        "PreferredBackupWindow": "00:00-00:30",
        "InstanceCreateTime": "2019-03-18T18:37:33.709Z",
        "DBInstanceClass": "db.r4.xlarge",
        "DbiResourceId": "db-XEKJLEMGRV5ZKCARUVA4HO3ITE",
        "BackupRetentionPeriod": 3,
        "Engine": "docdb",
        "VpcSecurityGroups": [
            {
                "Status": "active",
                "VpcSecurityGroupId": "sg-77186e0d"
            }
        ],
        "AutoMinorVersionUpgrade": true,
        "PromotionTier": 1,
        "EngineVersion": "3.6.0",
        "Endpoint": {
            "Address": "sample-cluster-instance-2.corcjozrlsfc.us-west-2.docdb.amazonaws.com",
            "HostedZoneId": "ZNKXH85TT8WVW",
            "Port": 27017
        },
        "DBInstanceIdentifier": "sample-cluster-instance-2",
        "PreferredMaintenanceWindow": "tue:10:28-tue:10:58",
        "EnabledCloudwatchLogsExports": [
            "audit"
        ],
        "PendingModifiedValues": {},
        "DBInstanceStatus": "deleting",
        "PubliclyAccessible": false,
        "DBInstanceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster-instance-2",
        "DBClusterIdentifier": "sample-cluster",
        "AvailabilityZone": "us-west-2c",
        "StorageEncrypted": false
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Instans Amazon DocumentDB di Panduan Pengembang Amazon](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-instance-delete.html) *DocumentDB*.  
+  Untuk detail API, lihat [DeleteDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/delete-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-subnet-group`
<a name="docdb_DeleteDbSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-subnet-group`.

**AWS CLI**  
**Untuk menghapus grup subnet Amazon DocumentDB**  
`delete-db-subnet-group`Contoh berikut menghapus grup subnet Amazon `sample-subnet-group` DocumentDB.  

```
aws docdb delete-db-subnet-group \
    --db-subnet-group-name sample-subnet-group
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghapus Grup Subnet Amazon DocumentDB di Panduan Pengembang Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/document-db-subnet-groups.html#document-db-subnet-group-delete).*  
+  Untuk detail API, lihat [DeleteDbSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/delete-db-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-parameter-groups`
<a name="docdb_DescribeDbClusterParameterGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-parameter-groups`.

**AWS CLI**  
**Untuk melihat detail satu atau beberapa grup parameter cluster Amazon DocumentDB**  
`describe-db-cluster-parameter-groups`Contoh berikut menampilkan detail untuk grup parameter cluster Amazon DocumentDB. `custom3-6-param-grp`  

```
aws docdb describe-db-cluster-parameter-groups \
    --db-cluster-parameter-group-name custom3-6-param-grp
```
Output:  

```
{
    "DBClusterParameterGroups": [
        {
            "DBParameterGroupFamily": "docdb3.6",
            "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:cluster-pg:custom3-6-param-grp",
            "Description": "Custom docdb3.6 parameter group",
            "DBClusterParameterGroupName": "custom3-6-param-grp"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Grup Parameter Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-parameter-group-describe.html) di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [DescribeDbClusterParameterGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-db-cluster-parameter-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-parameters`
<a name="docdb_DescribeDbClusterParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-parameters`.

**AWS CLI**  
**Untuk melihat daftar parameter terperinci untuk grup parameter cluster Amazon DocumentDB.**  
`describe-db-cluster-parameters`Contoh berikut mencantumkan parameter untuk grup parameter Amazon DocumentDB custom3-6-param-grp.  

```
aws docdb describe-db-cluster-parameters \
     --db-cluster-parameter-group-name custom3-6-param-grp
```
Output:  

```
{
    "Parameters": [
        {
            "DataType": "string",
            "ParameterName": "audit_logs",
            "IsModifiable": true,
            "ApplyMethod": "pending-reboot",
            "Source": "system",
            "ApplyType": "dynamic",
            "AllowedValues": "enabled,disabled",
            "Description": "Enables auditing on cluster.",
            "ParameterValue": "disabled"
        },
        {
            "DataType": "string",
            "ParameterName": "tls",
            "IsModifiable": true,
            "ApplyMethod": "pending-reboot",
            "Source": "system",
            "ApplyType": "static",
            "AllowedValues": "disabled,enabled",
            "Description": "Config to enable/disable TLS",
            "ParameterValue": "enabled"
        },
        {
            "DataType": "string",
            "ParameterName": "ttl_monitor",
            "IsModifiable": true,
            "ApplyMethod": "pending-reboot",
            "Source": "user",
            "ApplyType": "dynamic",
            "AllowedValues": "disabled,enabled",
            "Description": "Enables TTL Monitoring",
            "ParameterValue": "enabled"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Parameter Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-parameters-describe.html) di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [DescribeDbClusterParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-db-cluster-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-snapshot-attributes`
<a name="docdb_DescribeDbClusterSnapshotAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-snapshot-attributes`.

**AWS CLI**  
**Untuk mencantumkan nama dan nilai atribut snapshot Amazon DocumentDB**  
`describe-db-cluster-snapshot-attributes`Contoh berikut mencantumkan nama atribut dan nilai untuk snapshot Amazon `sample-cluster-snapshot` DocumentDB.  

```
aws docdb describe-db-cluster-snapshot-attributes \
    --db-cluster-snapshot-identifier sample-cluster-snapshot
```
Output:  

```
{
    "DBClusterSnapshotAttributesResult": {
        "DBClusterSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": []
            }
        ],
        "DBClusterSnapshotIdentifier": "sample-cluster-snapshot"
    }
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan DBCluster SnapshotAttributes](https://docs.aws.amazon.com/documentdb/latest/developerguide/API_DescribeDBClusterSnapshotAttributes.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [DescribeDbClusterSnapshotAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-db-cluster-snapshot-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-snapshots`
<a name="docdb_DescribeDbClusterSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-snapshots`.

**AWS CLI**  
**Untuk menggambarkan snapshot Amazon DocumentDB**  
`describe-db-cluster-snapshots`Contoh berikut menampilkan detail untuk snapshot Amazon DocumentDB. `sample-cluster-snapshot`  

```
aws docdb describe-db-cluster-snapshots \
    --db-cluster-snapshot-identifier sample-cluster-snapshot
```
Output:  

```
{
    "DBClusterSnapshots": [
        {
            "AvailabilityZones": [
                "us-west-2a",
                "us-west-2b",
                "us-west-2c",
                "us-west-2d"
            ],
            "Status": "available",
            "DBClusterSnapshotArn": "arn:aws:rds:us-west-2:123456789012:cluster-snapshot:sample-cluster-snapshot",
            "SnapshotCreateTime": "2019-03-15T20:41:26.515Z",
            "SnapshotType": "manual",
            "DBClusterSnapshotIdentifier": "sample-cluster-snapshot",
            "DBClusterIdentifier": "sample-cluster",
            "MasterUsername": "master-user",
            "StorageEncrypted": false,
            "VpcId": "vpc-91280df6",
            "EngineVersion": "3.6.0",
            "PercentProgress": 100,
            "Port": 0,
            "Engine": "docdb",
            "ClusterCreateTime": "2019-03-15T20:29:58.836Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan DBCluster Snapshot di Panduan](https://docs.aws.amazon.com/documentdb/latest/developerguide/API_DescribeDBClusterSnapshots.html) Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [DescribeDbClusterSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-db-cluster-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-clusters`
<a name="docdb_DescribeDbClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-clusters`.

**AWS CLI**  
**Untuk mendapatkan informasi rinci tentang satu atau beberapa cluster Amazon DocumentDB.**  
`describe-db-clusters`Contoh berikut menampilkan detail untuk cluster Amazon DocumentDB. `sample-cluster` Dengan menghilangkan `--db-cluster-identifier` parameter Anda bisa mendapatkan informasi hingga 100 cluster.  

```
aws docdb describe-db-clusters
    --db-cluster-identifier sample-cluster
```
Output:  

```
{
    "DBClusters": [
        {
            "DBClusterParameterGroup": "default.docdb3.6",
            "Endpoint": "sample-cluster.cluster-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
            "PreferredBackupWindow": "00:00-00:30",
            "DBClusterIdentifier": "sample-cluster",
            "ClusterCreateTime": "2019-03-15T20:29:58.836Z",
            "LatestRestorableTime": "2019-03-18T20:28:03.239Z",
            "MasterUsername": "master-user",
            "DBClusterMembers": [
                {
                    "PromotionTier": 1,
                    "DBClusterParameterGroupStatus": "in-sync",
                    "IsClusterWriter": false,
                    "DBInstanceIdentifier": "sample-cluster"
                },
                {
                    "PromotionTier": 1,
                    "DBClusterParameterGroupStatus": "in-sync",
                    "IsClusterWriter": true,
                    "DBInstanceIdentifier": "sample-cluster2"
                }
            ],
            "PreferredMaintenanceWindow": "sat:04:30-sat:05:00",
            "VpcSecurityGroups": [
                {
                    "VpcSecurityGroupId": "sg-77186e0d",
                    "Status": "active"
                }
            ],
            "Engine": "docdb",
            "ReaderEndpoint": "sample-cluster.cluster-ro-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
            "DBSubnetGroup": "default",
            "MultiAZ": true,
            "AvailabilityZones": [
                "us-west-2a",
                "us-west-2c",
                "us-west-2b"
            ],
            "EarliestRestorableTime": "2019-03-15T20:30:47.020Z",
            "DbClusterResourceId": "cluster-UP4EF2PVDDFVHHDJQTYDAIGHLE",
            "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster",
            "BackupRetentionPeriod": 3,
            "HostedZoneId": "ZNKXH85TT8WVW",
            "StorageEncrypted": false,
            "EnabledCloudwatchLogsExports": [
                "audit"
            ],
            "AssociatedRoles": [],
            "EngineVersion": "3.6.0",
            "Port": 27017,
            "Status": "available"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan Cluster Amazon DocumentDB di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-view-details.html) DocumentDB.  
+  Untuk detail API, lihat [DescribeDbClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-db-clusters.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-engine-versions`
<a name="docdb_DescribeDbEngineVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-engine-versions`.

**AWS CLI**  
**Untuk daftar versi mesin Amazon DocumentDB yang tersedia**  
`describe-db-engine-versions`Contoh berikut mencantumkan semua versi mesin Amazon DocumentDB yang tersedia.  

```
aws docdb describe-db-engine-versions \
    --engine docdb
```
Output:  

```
{
    "DBEngineVersions": [
        {
            "DBEngineVersionDescription": "DocDB version 1.0.200837",
            "DBParameterGroupFamily": "docdb3.6",
            "EngineVersion": "3.6.0",
            "ValidUpgradeTarget": [],
            "DBEngineDescription": "Amazon DocumentDB (with MongoDB compatibility)",
            "SupportsLogExportsToCloudwatchLogs": true,
            "Engine": "docdb",
            "ExportableLogTypes": [
                "audit"
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/documentdb/latest/developerguide/API_DescribeDBEngineVersions.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [DescribeDbEngineVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-db-engine-versions.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-instances`
<a name="docdb_DescribeDbInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-instances`.

**AWS CLI**  
**Untuk menemukan informasi tentang instans Amazon DocumentDB yang disediakan**  
`describe-db-instances`Contoh berikut menampilkan detail tentang instance Amazon DocumentDB. `sample-cluster-instance` Dengan menghilangkan `--db-instance-identifier` parameter, Anda mendapatkan informasi hingga 100 instance.  

```
aws docdb describe-db-instances \
    --db-instance-identifier sample-cluster-instance
```
Output:  

```
{
    "DBInstances": [
        {
            "Endpoint": {
                "HostedZoneId": "ZNKXH85TT8WVW",
                "Address": "sample-cluster-instance.corcjozrlsfc.us-west-2.docdb.amazonaws.com",
                "Port": 27017
            },
            "PreferredBackupWindow": "00:00-00:30",
            "DBInstanceStatus": "available",
            "DBInstanceClass": "db.r4.large",
            "EnabledCloudwatchLogsExports": [
                "audit"
            ],
            "DBInstanceIdentifier": "sample-cluster-instance",
            "DBSubnetGroup": {
                "Subnets": [
                    {
                        "SubnetStatus": "Active",
                        "SubnetIdentifier": "subnet-4e26d263",
                        "SubnetAvailabilityZone": {
                            "Name": "us-west-2a"
                        }
                    },
                    {
                        "SubnetStatus": "Active",
                        "SubnetIdentifier": "subnet-afc329f4",
                        "SubnetAvailabilityZone": {
                            "Name": "us-west-2c"
                        }
                    },
                    {
                        "SubnetStatus": "Active",
                        "SubnetIdentifier": "subnet-53ab3636",
                        "SubnetAvailabilityZone": {
                            "Name": "us-west-2d"
                        }
                    },
                    {
                        "SubnetStatus": "Active",
                        "SubnetIdentifier": "subnet-991cb8d0",
                        "SubnetAvailabilityZone": {
                            "Name": "us-west-2b"
                        }
                    }
                ],
                "DBSubnetGroupName": "default",
                "SubnetGroupStatus": "Complete",
                "DBSubnetGroupDescription": "default",
                "VpcId": "vpc-91280df6"
            },
            "InstanceCreateTime": "2019-03-15T20:36:06.338Z",
            "Engine": "docdb",
            "StorageEncrypted": false,
            "AutoMinorVersionUpgrade": true,
            "DBInstanceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster-instance",
            "PreferredMaintenanceWindow": "tue:08:39-tue:09:09",
            "VpcSecurityGroups": [
                {
                    "Status": "active",
                    "VpcSecurityGroupId": "sg-77186e0d"
                }
            ],
            "DBClusterIdentifier": "sample-cluster",
            "PendingModifiedValues": {},
            "BackupRetentionPeriod": 3,
            "PubliclyAccessible": false,
            "EngineVersion": "3.6.0",
            "PromotionTier": 1,
            "AvailabilityZone": "us-west-2c",
            "DbiResourceId": "db-A2GIKUV6KPOHITGGKI2NHVISZA"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan Instans Amazon DocumentDB di Panduan *Pengembang* Amazon](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-instance-view-details.html) DocumentDB.  
+  Untuk detail API, lihat [DescribeDbInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-db-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-subnet-groups`
<a name="docdb_DescribeDbSubnetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-subnet-groups`.

**AWS CLI**  
**Untuk mengambil daftar deskripsi subnet Amazon DocumentDB**  
`describe-db-subnet-groups`Contoh berikut menjelaskan rincian untuk subnet Amazon DocumentDB bernama. `default`  

```
aws docdb describe-db-subnet-groups \
    --db-subnet-group-name default
```
Output:  

```
{
    "DBSubnetGroups": [
        {
            "VpcId": "vpc-91280df6",
            "DBSubnetGroupArn": "arn:aws:rds:us-west-2:123456789012:subgrp:default",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-4e26d263",
                    "SubnetStatus": "Active",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    }
                },
                {
                    "SubnetIdentifier": "subnet-afc329f4",
                    "SubnetStatus": "Active",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2c"
                    }
                },
                {
                    "SubnetIdentifier": "subnet-53ab3636",
                    "SubnetStatus": "Active",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2d"
                    }
                },
                {
                    "SubnetIdentifier": "subnet-991cb8d0",
                    "SubnetStatus": "Active",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2b"
                    }
                }
            ],
            "DBSubnetGroupName": "default",
            "SubnetGroupStatus": "Complete",
            "DBSubnetGroupDescription": "default"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan Grup Subnet](https://docs.aws.amazon.com/documentdb/latest/developerguide/document-db-subnet-groups.html#document-db-subnet-groups-describe) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [DescribeDbSubnetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-db-subnet-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-engine-default-cluster-parameters`
<a name="docdb_DescribeEngineDefaultClusterParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-engine-default-cluster-parameters`.

**AWS CLI**  
**Untuk menjelaskan informasi parameter mesin dan sistem default untuk Amazon DocumentDB**  
`describe-engine-default-cluster-parameters`Contoh berikut menampilkan detail untuk informasi parameter engine dan sistem default untuk grup parameter Amazon DocumentDB. `docdb3.6`  

```
aws docdb describe-engine-default-cluster-parameters \
    --db-parameter-group-family docdb3.6
```
Output:  

```
{
    "EngineDefaults": {
        "DBParameterGroupFamily": "docdb3.6",
        "Parameters": [
            {
                "ApplyType": "dynamic",
                "ParameterValue": "disabled",
                "Description": "Enables auditing on cluster.",
                "Source": "system",
                "DataType": "string",
                "MinimumEngineVersion": "3.6.0",
                "AllowedValues": "enabled,disabled",
                "ParameterName": "audit_logs",
                "IsModifiable": true
            },
            {
                "ApplyType": "static",
                "ParameterValue": "enabled",
                "Description": "Config to enable/disable TLS",
                "Source": "system",
                "DataType": "string",
                "MinimumEngineVersion": "3.6.0",
                "AllowedValues": "disabled,enabled",
                "ParameterName": "tls",
                "IsModifiable": true
            },
            {
                "ApplyType": "dynamic",
                "ParameterValue": "enabled",
                "Description": "Enables TTL Monitoring",
                "Source": "system",
                "DataType": "string",
                "MinimumEngineVersion": "3.6.0",
                "AllowedValues": "disabled,enabled",
                "ParameterName": "ttl_monitor",
                "IsModifiable": true
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeEngineDefaultClusterParameters](https://docs.aws.amazon.com/documentdb/latest/developerguide/API_DescribeEngineDefaultClusterParameters.html)di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [DescribeEngineDefaultClusterParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-engine-default-cluster-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-categories`
<a name="docdb_DescribeEventCategories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-categories`.

**AWS CLI**  
**Untuk menggambarkan semua kategori acara Amazon DocumentDB**  
`describe-event-categories`Contoh berikut mencantumkan semua kategori untuk jenis sumber peristiwa Amazon DocumentDB. `db-instance`  

```
aws docdb describe-event-categories \
    --source-type db-cluster
```
Output:  

```
{
    "EventCategoriesMapList": [
        {
            "SourceType": "db-cluster",
            "EventCategories": [
                "failover",
                "maintenance",
                "notification",
                "failure"
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Kategori Acara](https://docs.aws.amazon.com/documentdb/latest/developerguide/managing-events.html#viewing-event-categories) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [DescribeEventCategories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-event-categories.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="docdb_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
**Untuk membuat daftar acara Amazon DocumentDB**  
`describe-events`Contoh berikut mencantumkan semua acara Amazon DocumentDB selama 24 jam terakhir (1440 menit).  

```
aws docdb describe-events \
    --duration 1440
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "Events": [
        {
            "EventCategories": [
                "failover"
            ],
            "Message": "Started cross AZ failover to DB instance: sample-cluster",
            "Date": "2019-03-18T21:36:29.807Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster",
            "SourceIdentifier": "sample-cluster",
            "SourceType": "db-cluster"
        },
        {
            "EventCategories": [
                "availability"
            ],
            "Message": "DB instance restarted",
            "Date": "2019-03-18T21:36:40.793Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster",
            "SourceIdentifier": "sample-cluster",
            "SourceType": "db-instance"
        },
        {
            "EventCategories": [],
            "Message": "A new writer was promoted. Restarting database as a reader.",
            "Date": "2019-03-18T21:36:43.873Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
            "SourceIdentifier": "sample-cluster2",
            "SourceType": "db-instance"
        },
        {
            "EventCategories": [
                "availability"
            ],
            "Message": "DB instance restarted",
            "Date": "2019-03-18T21:36:51.257Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
            "SourceIdentifier": "sample-cluster2",
            "SourceType": "db-instance"
        },
        {
            "EventCategories": [
                "failover"
            ],
            "Message": "Completed failover to DB instance: sample-cluster",
            "Date": "2019-03-18T21:36:53.462Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster",
            "SourceIdentifier": "sample-cluster",
            "SourceType": "db-cluster"
        },
        {
            "Date": "2019-03-19T16:51:48.847Z",
            "EventCategories": [
                "configuration change"
            ],
            "Message": "Updated parameter audit_logs to enabled with apply method pending-reboot",
            "SourceIdentifier": "custom3-6-param-grp",
            "SourceType": "db-parameter-group"
        },
        {
            "EventCategories": [
                "configuration change"
            ],
            "Message": "Applying modification to database instance class",
            "Date": "2019-03-19T17:55:20.095Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
            "SourceIdentifier": "sample-cluster2",
            "SourceType": "db-instance"
        },
        {
            "EventCategories": [
                "availability"
            ],
            "Message": "DB instance shutdown",
            "Date": "2019-03-19T17:56:31.127Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
            "SourceIdentifier": "sample-cluster2",
            "SourceType": "db-instance"
        },
        {
            "EventCategories": [
                "configuration change"
            ],
            "Message": "Finished applying modification to DB instance class",
            "Date": "2019-03-19T18:00:45.822Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
            "SourceIdentifier": "sample-cluster2",
            "SourceType": "db-instance"
        },
        {
            "EventCategories": [
                "availability"
            ],
            "Message": "DB instance restarted",
            "Date": "2019-03-19T18:00:53.397Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
            "SourceIdentifier": "sample-cluster2",
            "SourceType": "db-instance"
        },
        {
            "EventCategories": [
                "availability"
            ],
            "Message": "DB instance shutdown",
            "Date": "2019-03-19T18:23:36.045Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
            "SourceIdentifier": "sample-cluster2",
            "SourceType": "db-instance"
        },
        {
            "EventCategories": [
                "availability"
            ],
            "Message": "DB instance restarted",
            "Date": "2019-03-19T18:23:46.209Z",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
            "SourceIdentifier": "sample-cluster2",
            "SourceType": "db-instance"
        },
        {
            "Date": "2019-03-19T18:39:05.822Z",
            "EventCategories": [
                "configuration change"
            ],
            "Message": "Updated parameter ttl_monitor to enabled with apply method immediate",
            "SourceIdentifier": "custom3-6-param-grp",
            "SourceType": "db-parameter-group"
        },
        {
            "Date": "2019-03-19T18:39:48.067Z",
            "EventCategories": [
                "configuration change"
            ],
            "Message": "Updated parameter audit_logs to disabled with apply method immediate",
            "SourceIdentifier": "custom3-6-param-grp",
            "SourceType": "db-parameter-group"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Acara Amazon DocumentDB di Panduan](https://docs.aws.amazon.com/documentdb/latest/developerguide/managing-events.html#viewing-events) Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-orderable-db-instance-options`
<a name="docdb_DescribeOrderableDbInstanceOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-orderable-db-instance-options`.

**AWS CLI**  
**Untuk menemukan opsi instans Amazon DocumentDB Anda dapat memesan**  
`describe-orderable-db-instance-options`Contoh berikut mencantumkan semua opsi instance untuk Amazon DocumentDB untuk suatu wilayah.  

```
aws docdb describe-orderable-db-instance-options \
    --engine docdb \
    --region us-east-1
```
Output:  

```
{
    "OrderableDBInstanceOptions": [
        {
            "Vpc": true,
            "AvailabilityZones": [
                {
                    "Name": "us-east-1a"
                },
                {
                    "Name": "us-east-1b"
                },
                {
                    "Name": "us-east-1c"
                },
                {
                    "Name": "us-east-1d"
                }
            ],
            "EngineVersion": "3.6.0",
            "DBInstanceClass": "db.r4.16xlarge",
            "LicenseModel": "na",
            "Engine": "docdb"
        },
        {
            "Vpc": true,
            "AvailabilityZones": [
                {
                    "Name": "us-east-1a"
                },
                {
                    "Name": "us-east-1b"
                },
                {
                    "Name": "us-east-1c"
                },
                {
                    "Name": "us-east-1d"
                }
                }
            ],
            "EngineVersion": "3.6.0",
            "DBInstanceClass": "db.r4.2xlarge",
            "LicenseModel": "na",
            "Engine": "docdb"
        },
        {
            "Vpc": true,
            "AvailabilityZones": [
                {
                    "Name": "us-east-1a"
                },
                {
                    "Name": "us-east-1b"
                },
                {
                    "Name": "us-east-1c"
                },
                {
                    "Name": "us-east-1d"
                }
            ],
            "EngineVersion": "3.6.0",
            "DBInstanceClass": "db.r4.4xlarge",
            "LicenseModel": "na",
            "Engine": "docdb"
        },
        {
            "Vpc": true,
            "AvailabilityZones": [
                {
                    "Name": "us-east-1a"
                },
                {
                    "Name": "us-east-1b"
                },
                {
                    "Name": "us-east-1c"
                },
                {
                    "Name": "us-east-1d"
                }
            ],
            "EngineVersion": "3.6.0",
            "DBInstanceClass": "db.r4.8xlarge",
            "LicenseModel": "na",
            "Engine": "docdb"
        },
        {
            "Vpc": true,
            "AvailabilityZones": [
                {
                    "Name": "us-east-1a"
                },
                {
                    "Name": "us-east-1b"
                },
                {
                    "Name": "us-east-1c"
                },
                {
                    "Name": "us-east-1d"
                }
            ],
            "EngineVersion": "3.6.0",
            "DBInstanceClass": "db.r4.large",
            "LicenseModel": "na",
            "Engine": "docdb"
        },
        {
            "Vpc": true,
            "AvailabilityZones": [
                {
                    "Name": "us-east-1a"
                },
                {
                    "Name": "us-east-1b"
                },
                {
                    "Name": "us-east-1c"
                },
                {
                    "Name": "us-east-1d"
                }
            ],
            "EngineVersion": "3.6.0",
            "DBInstanceClass": "db.r4.xlarge",
            "LicenseModel": "na",
            "Engine": "docdb"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menambahkan Instans Amazon DocumentDB ke](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-instance-add.html) Cluster di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [DescribeOrderableDbInstanceOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-orderable-db-instance-options.html)di *Referensi AWS CLI Perintah*. 

### `describe-pending-maintenance-actions`
<a name="docdb_DescribePendingMaintenanceActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-pending-maintenance-actions`.

**AWS CLI**  
**Untuk membuat daftar tindakan pemeliharaan Amazon DocumentDB Anda yang tertunda**  
`describe-pending-maintenance-actions`Contoh berikut mencantumkan semua tindakan pemeliharaan Amazon DocumentDB Anda yang tertunda.  

```
aws docdb describe-pending-maintenance-actions
```
Output:  

```
{
    "PendingMaintenanceActions": []
}
```
Untuk informasi selengkapnya, lihat [Memelihara Amazon DocumentDB di](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-instance-maintain.html) Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [DescribePendingMaintenanceActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/describe-pending-maintenance-actions.html)di *Referensi AWS CLI Perintah*. 

### `failover-db-cluster`
<a name="docdb_FailoverDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`failover-db-cluster`.

**AWS CLI**  
**Untuk memaksa cluster Amazon DocumentDB melakukan failover ke replika**  
`failover-db-cluster`Contoh berikut menyebabkan instance utama di cluster sampel klaster Amazon DocumentDB mengalami failover ke replika.  

```
aws docdb failover-db-cluster \
    --db-cluster-identifier sample-cluster
```
Output:  

```
{
    "DBCluster": {
        "AssociatedRoles": [],
        "DBClusterIdentifier": "sample-cluster",
        "EngineVersion": "3.6.0",
        "DBSubnetGroup": "default",
        "MasterUsername": "master-user",
        "EarliestRestorableTime": "2019-03-15T20:30:47.020Z",
        "Endpoint": "sample-cluster.cluster-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "AvailabilityZones": [
            "us-west-2a",
            "us-west-2c",
            "us-west-2b"
        ],
        "LatestRestorableTime": "2019-03-18T21:35:23.548Z",
        "PreferredMaintenanceWindow": "sat:04:30-sat:05:00",
        "PreferredBackupWindow": "00:00-00:30",
        "Port": 27017,
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-77186e0d",
                "Status": "active"
            }
        ],
        "StorageEncrypted": false,
        "ClusterCreateTime": "2019-03-15T20:29:58.836Z",
        "MultiAZ": true,
        "Status": "available",
        "DBClusterMembers": [
            {
                "DBClusterParameterGroupStatus": "in-sync",
                "IsClusterWriter": false,
                "DBInstanceIdentifier": "sample-cluster",
                "PromotionTier": 1
            },
            {
                "DBClusterParameterGroupStatus": "in-sync",
                "IsClusterWriter": true,
                "DBInstanceIdentifier": "sample-cluster2",
                "PromotionTier": 2
            }
        ],
        "EnabledCloudwatchLogsExports": [
            "audit"
        ],
        "DBClusterParameterGroup": "default.docdb3.6",
        "HostedZoneId": "ZNKXH85TT8WVW",
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster",
        "BackupRetentionPeriod": 3,
        "DbClusterResourceId": "cluster-UP4EF2PVDDFVHHDJQTYDAIGHLE",
        "ReaderEndpoint": "sample-cluster.cluster-ro-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "Engine": "docdb"
    }
}
```
Untuk informasi selengkapnya, lihat [Amazon DocumentDB Failover di Panduan Pengembang Amazon *DocumentDB*](https://docs.aws.amazon.com/documentdb/latest/developerguide/failover.html).  
+  Untuk detail API, lihat [FailoverDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/failover-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="docdb_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan semua tag pada sumber daya Amazon DocumentDB**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag di cluster Amazon `sample-cluster` DocumentDB.  

```
aws docdb list-tags-for-resource \
    --resource-name arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster
```
Output:  

```
{
    "TagList": [
        {
            "Key": "A",
            "Value": "ALPHA"
        },
        {
            "Key": "B",
            "Value": ""
        },
        {
            "Key": "C",
            "Value": "CHARLIE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Tag di Sumber Daya Amazon DocumentDB di Panduan](https://docs.aws.amazon.com/documentdb/latest/developerguide/tagging.html#tagging-list) Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-cluster-parameter-group`
<a name="docdb_ModifyDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk memodifikasi grup parameter cluster Amazon DocumentDB DB**  
`modify-db-cluster-parameter-group`Contoh berikut memodifikasi grup `custom3-6-param-grp` parameter cluster Amazon DocumentDB dengan mengatur `audit_logs` dua `ttl_monitor` parameter dan diaktifkan. Perubahan diterapkan pada reboot berikutnya.  

```
aws docdb modify-db-cluster-parameter-group \
    --db-cluster-parameter-group-name custom3-6-param-grp \
    --parameters ParameterName=audit_logs,ParameterValue=enabled,ApplyMethod=pending-reboot \
                 ParameterName=ttl_monitor,ParameterValue=enabled,ApplyMethod=pending-reboot
```
Output:  

```
{
    "DBClusterParameterGroupName": "custom3-6-param-grp"
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Grup Parameter Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-parameter-group-modify.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [ModifyDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/modify-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-cluster-snapshot-attribute`
<a name="docdb_ModifyDbClusterSnapshotAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-cluster-snapshot-attribute`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan atribut ke snapshot Amazon DocumentDB**  
`modify-db-cluster-snapshot-attribute`Contoh berikut menambahkan empat nilai atribut ke snapshot cluster Amazon DocumentDB.  

```
aws docdb modify-db-cluster-snapshot-attribute \
    --db-cluster-snapshot-identifier sample-cluster-snapshot \
    --attribute-name restore \
    --values-to-add 123456789011 123456789012 123456789013
```
Output:  

```
{
    "DBClusterSnapshotAttributesResult": {
        "DBClusterSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": [
                    "123456789011",
                    "123456789012",
                    "123456789013"
                ]
            }
        ],
        "DBClusterSnapshotIdentifier": "sample-cluster-snapshot"
    }
}
```
**Contoh 2: Untuk menghapus atribut dari snapshot Amazon DocumentDB**  
`modify-db-cluster-snapshot-attribute`Contoh berikut menghapus dua nilai atribut dari snapshot cluster Amazon DocumentDB.  

```
aws docdb modify-db-cluster-snapshot-attribute \
    --db-cluster-snapshot-identifier sample-cluster-snapshot \
    --attribute-name restore \
    --values-to-remove 123456789012
```
Output:  

```
{
    "DBClusterSnapshotAttributesResult": {
        "DBClusterSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": [
                    "123456789011",
                    "123456789013"
                ]
            }
        ],
        "DBClusterSnapshotIdentifier": "sample-cluster-snapshot"
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi DBCluster SnapshotAttribute](https://docs.aws.amazon.com/documentdb/latest/developerguide/API_ModifyDBClusterSnapshotAttribute.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [ModifyDbClusterSnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/modify-db-cluster-snapshot-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-cluster`
<a name="docdb_ModifyDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-cluster`.

**AWS CLI**  
**Untuk memodifikasi cluster Amazon DocumentDB**  
`modify-db-cluster`Contoh berikut memodifikasi klaster Amazon `sample-cluster` DocumentDB dengan membuat periode retensi untuk pencadangan otomatis 7 hari, dan mengubah jendela pilihan untuk pencadangan dan pemeliharaan. Semua perubahan diterapkan di jendela pemeliharaan berikutnya.  

```
aws docdb modify-db-cluster \
    --db-cluster-identifier sample-cluster \
    --no-apply-immediately \
    --backup-retention-period 7 \
    --preferred-backup-window 18:00-18:30 \
    --preferred-maintenance-window sun:20:00-sun:20:30
```
Output:  

```
{
    "DBCluster": {
        "Endpoint": "sample-cluster.cluster-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "DBClusterMembers": [
            {
                "DBClusterParameterGroupStatus": "in-sync",
                "DBInstanceIdentifier": "sample-cluster",
                "IsClusterWriter": true,
                "PromotionTier": 1
            },
            {
                "DBClusterParameterGroupStatus": "in-sync",
                "DBInstanceIdentifier": "sample-cluster2",
                "IsClusterWriter": false,
                "PromotionTier": 2
            }
        ],
        "HostedZoneId": "ZNKXH85TT8WVW",
        "StorageEncrypted": false,
        "PreferredBackupWindow": "18:00-18:30",
        "MultiAZ": true,
        "EngineVersion": "3.6.0",
        "MasterUsername": "master-user",
        "ReaderEndpoint": "sample-cluster.cluster-ro-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "DBSubnetGroup": "default",
        "LatestRestorableTime": "2019-03-18T22:08:13.408Z",
        "EarliestRestorableTime": "2019-03-15T20:30:47.020Z",
        "PreferredMaintenanceWindow": "sun:20:00-sun:20:30",
        "AssociatedRoles": [],
        "EnabledCloudwatchLogsExports": [
            "audit"
        ],
        "Engine": "docdb",
        "DBClusterParameterGroup": "default.docdb3.6",
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster",
        "BackupRetentionPeriod": 7,
        "DBClusterIdentifier": "sample-cluster",
        "AvailabilityZones": [
            "us-west-2a",
            "us-west-2c",
            "us-west-2b"
        ],
        "Status": "available",
        "DbClusterResourceId": "cluster-UP4EF2PVDDFVHHDJQTYDAIGHLE",
        "ClusterCreateTime": "2019-03-15T20:29:58.836Z",
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-77186e0d",
                "Status": "active"
            }
        ],
        "Port": 27017
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Cluster Amazon DocumentDB di Panduan Pengembang Amazon](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-modify.html) *DocumentDB*.  
+  Untuk detail API, lihat [ModifyDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/modify-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-instance`
<a name="docdb_ModifyDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-instance`.

**AWS CLI**  
**Untuk memodifikasi instance Amazon DocumentDB**  
`modify-db-instance`Contoh berikut memodifikasi instance Amazon `sample-cluster2` DocumentDB dengan mengubah `db.r4.4xlarge` kelas instansnya menjadi dan tingkat promosinya menjadi. `5` Perubahan diterapkan segera tetapi hanya dapat dilihat setelah status instance tersedia.  

```
aws docdb modify-db-instance \
    --db-instance-identifier sample-cluster2 \
    --apply-immediately \
    --db-instance-class db.r4.4xlarge \
    --promotion-tier 5
```
Output:  

```
{
    "DBInstance": {
        "EngineVersion": "3.6.0",
        "StorageEncrypted": false,
        "DBInstanceClass": "db.r4.large",
        "PreferredMaintenanceWindow": "mon:08:39-mon:09:09",
        "AutoMinorVersionUpgrade": true,
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-77186e0d",
                "Status": "active"
            }
        ],
        "PreferredBackupWindow": "18:00-18:30",
        "EnabledCloudwatchLogsExports": [
            "audit"
        ],
        "AvailabilityZone": "us-west-2f",
        "DBInstanceIdentifier": "sample-cluster2",
        "InstanceCreateTime": "2019-03-15T20:36:06.338Z",
        "Engine": "docdb",
        "BackupRetentionPeriod": 7,
        "DBSubnetGroup": {
            "DBSubnetGroupName": "default",
            "DBSubnetGroupDescription": "default",
            "SubnetGroupStatus": "Complete",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-4e26d263",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-afc329f4",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2c"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-53ab3636",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2d"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-991cb8d0",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2b"
                    },
                    "SubnetStatus": "Active"
                }
            ],
            "VpcId": "vpc-91280df6"
        },
        "PromotionTier": 2,
        "Endpoint": {
            "Address": "sample-cluster2.corcjozrlsfc.us-west-2.docdb.amazonaws.com",
            "HostedZoneId": "ZNKXH85TT8WVW",
            "Port": 27017
        },
        "DbiResourceId": "db-A2GIKUV6KPOHITGGKI2NHVISZA",
        "DBClusterIdentifier": "sample-cluster",
        "DBInstanceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
        "PendingModifiedValues": {
            "DBInstanceClass": "db.r4.4xlarge"
        },
        "PubliclyAccessible": false,
        "DBInstanceStatus": "available"
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Instans Amazon DocumentDB di Panduan Pengembang Amazon](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-instance-modify.html) *DocumentDB*.  
+  Untuk detail API, lihat [ModifyDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/modify-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-subnet-group`
<a name="docdb_ModifyDbSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-subnet-group`.

**AWS CLI**  
**Untuk memodifikasi grup subnet Amazon DocumentDB**  
`modify-db-subnet-group`Contoh berikut memodifikasi grup subnet `sample-subnet-group` dengan menambahkan subnet yang ditentukan dan deskripsi baru.  

```
aws docdb modify-db-subnet-group \
    --db-subnet-group-name sample-subnet-group \
    --subnet-ids subnet-b3806e8f subnet-53ab3636 subnet-991cb8d0 \
    --db-subnet-group-description "New subnet description"
```
Output:  

```
{
    "DBSubnetGroup": {
        "DBSubnetGroupName": "sample-subnet-group",
        "SubnetGroupStatus": "Complete",
        "DBSubnetGroupArn": "arn:aws:rds:us-west-2:123456789012:subgrp:sample-subnet-group",
        "VpcId": "vpc-91280df6",
        "DBSubnetGroupDescription": "New subnet description",
        "Subnets": [
            {
                "SubnetIdentifier": "subnet-b3806e8f",
                "SubnetStatus": "Active",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2a"
                }
            },
            {
                "SubnetIdentifier": "subnet-53ab3636",
                "SubnetStatus": "Active",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2c"
                }
            },
            {
                "SubnetIdentifier": "subnet-991cb8d0",
                "SubnetStatus": "Active",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2b"
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Grup Subnet Amazon DocumentDB di Panduan Pengembang *Amazon* DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/document-db-subnet-groups.html#document-db-subnet-group-modify).  
+  Untuk detail API, lihat [ModifyDbSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/modify-db-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `reboot-db-instance`
<a name="docdb_RebootDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-db-instance`.

**AWS CLI**  
**Untuk me-reboot instance Amazon DocumentDB**  
`reboot-db-instance`Contoh berikut me-reboot instance Amazon DocumentDB. `sample-cluster2`  

```
aws docdb reboot-db-instance \
    --db-instance-identifier sample-cluster2
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "DBInstance": {
        "PreferredBackupWindow": "18:00-18:30",
        "DBInstanceIdentifier": "sample-cluster2",
        "VpcSecurityGroups": [
            {
                "Status": "active",
                "VpcSecurityGroupId": "sg-77186e0d"
            }
        ],
        "DBSubnetGroup": {
            "VpcId": "vpc-91280df6",
            "Subnets": [
                {
                    "SubnetStatus": "Active",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    },
                    "SubnetIdentifier": "subnet-4e26d263"
                },
                {
                    "SubnetStatus": "Active",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2c"
                    },
                    "SubnetIdentifier": "subnet-afc329f4"
                },
                {
                    "SubnetStatus": "Active",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2d"
                    },
                    "SubnetIdentifier": "subnet-53ab3636"
                },
                {
                    "SubnetStatus": "Active",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2b"
                    },
                    "SubnetIdentifier": "subnet-991cb8d0"
                }
            ],
            "SubnetGroupStatus": "Complete",
            "DBSubnetGroupName": "default",
            "DBSubnetGroupDescription": "default"
        },
        "PendingModifiedValues": {},
        "Endpoint": {
            "Address": "sample-cluster2.corcjozrlsfc.us-west-2.docdb.amazonaws.com",
            "HostedZoneId": "ZNKXH85TT8WVW",
            "Port": 27017
        },
        "EnabledCloudwatchLogsExports": [
            "audit"
        ],
        "StorageEncrypted": false,
        "DbiResourceId": "db-A2GIKUV6KPOHITGGKI2NHVISZA",
        "AutoMinorVersionUpgrade": true,
        "Engine": "docdb",
        "InstanceCreateTime": "2019-03-15T20:36:06.338Z",
        "EngineVersion": "3.6.0",
        "PromotionTier": 5,
        "BackupRetentionPeriod": 7,
        "DBClusterIdentifier": "sample-cluster",
        "PreferredMaintenanceWindow": "mon:08:39-mon:09:09",
        "PubliclyAccessible": false,
        "DBInstanceClass": "db.r4.4xlarge",
        "AvailabilityZone": "us-west-2d",
        "DBInstanceArn": "arn:aws:rds:us-west-2:123456789012:db:sample-cluster2",
        "DBInstanceStatus": "rebooting"
    }
}
```
*Untuk informasi selengkapnya, lihat [Mem-boot ulang Amazon DocumentDB ILnstance di Panduan Pengembang Amazon](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-instance-reboot.html) DocumentDB.*  
+  Untuk detail API, lihat [RebootDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/reboot-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags-from-resource`
<a name="docdb_RemoveTagsFromResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags-from-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya Amazon DocumentDB**  
`remove-tags-from-resource`Contoh berikut menghapus tag dengan kunci bernama `B` dari cluster Amazon `sample-cluster` DocumentDB.  

```
aws docdb remove-tags-from-resource \
    --resource-name arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster \
    --tag-keys B
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Tag dari Dokumen Amazon DBResource di Panduan](https://docs.aws.amazon.com/documentdb/latest/developerguide/tagging.html#tagging-remove) Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [RemoveTagsFromResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/remove-tags-from-resource.html)di *Referensi AWS CLI Perintah*. 

### `reset-db-cluster-parameter-group`
<a name="docdb_ResetDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk mengatur ulang nilai parameter yang ditentukan ke defaultnya di grup parameter Amazon DocumentDB**  
`reset-db-cluster-parameter-group`Contoh berikut me-reset parameter `ttl_monitor` dalam grup `custom3-6-param-grp` parameter Amazon DocumentDB ke nilai defaultnya.  

```
aws docdb reset-db-cluster-parameter-group \
    --db-cluster-parameter-group-name custom3-6-param-grp \
    --parameters ParameterName=ttl_monitor,ApplyMethod=immediate
```
Output:  

```
{
    "DBClusterParameterGroupName": "custom3-6-param-grp"
}
```
Untuk informasi selengkapnya, lihat judul di Panduan Pengembang *Amazon DocumentDB*.  
**Untuk mengatur ulang nilai parameter yang ditentukan atau semua ke defaultnya di grup parameter Amazon DocumentDB**  
`reset-db-cluster-parameter-group`Contoh berikut me-reset semua parameter dalam grup `custom3-6-param-grp` parameter Amazon DocumentDB ke nilai defaultnya.  

```
aws docdb reset-db-cluster-parameter-group \
    --db-cluster-parameter-group-name custom3-6-param-grp \
    --reset-all-parameters
```
Output:  

```
{
    "DBClusterParameterGroupName": "custom3-6-param-grp"
}
```
Untuk informasi selengkapnya, lihat [Menyetel ulang Grup Parameter Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-parameter-group-reset.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [ResetDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/reset-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `restore-db-cluster-from-snapshot`
<a name="docdb_RestoreDbClusterFromSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-db-cluster-from-snapshot`.

**AWS CLI**  
**Untuk memulihkan cluster Amazon DocumentDB dari snapshot otomatis atau manual**  
`restore-db-cluster-from-snapshot`Contoh berikut membuat cluster Amazon DocumentDB baru `sample-cluster-2019-03-16-00-01-restored` bernama dari snapshot. `rds:sample-cluster-2019-03-16-00-01`  

```
aws docdb restore-db-cluster-from-snapshot \
    --db-cluster-identifier sample-cluster-2019-03-16-00-01-restored \
    --engine docdb \
    --snapshot-identifier rds:sample-cluster-2019-03-16-00-01
```
Output:  

```
{
    "DBCluster": {
        "ClusterCreateTime": "2019-03-19T18:45:01.857Z",
        "HostedZoneId": "ZNKXH85TT8WVW",
        "Engine": "docdb",
        "DBClusterMembers": [],
        "MultiAZ": false,
        "AvailabilityZones": [
            "us-west-2a",
            "us-west-2c",
            "us-west-2b"
        ],
        "StorageEncrypted": false,
        "ReaderEndpoint": "sample-cluster-2019-03-16-00-01-restored.cluster-ro-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "Endpoint": "sample-cluster-2019-03-16-00-01-restored.cluster-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "Port": 27017,
        "PreferredBackupWindow": "00:00-00:30",
        "DBSubnetGroup": "default",
        "DBClusterIdentifier": "sample-cluster-2019-03-16-00-01-restored",
        "PreferredMaintenanceWindow": "sat:04:30-sat:05:00",
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster-2019-03-16-00-01-restored",
        "DBClusterParameterGroup": "default.docdb3.6",
        "DbClusterResourceId": "cluster-XOO46Q3RH4LWSYNH3NMZKXPISU",
        "MasterUsername": "master-user",
        "EngineVersion": "3.6.0",
        "BackupRetentionPeriod": 3,
        "AssociatedRoles": [],
        "Status": "creating",
        "VpcSecurityGroups": [
            {
                "Status": "active",
                "VpcSecurityGroupId": "sg-77186e0d"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan dari Snapshot Cluster](https://docs.aws.amazon.com/documentdb/latest/developerguide/backup-restore.restore-from-snapshot.html) di Panduan Pengembang *Amazon DocumentDB*.  
+  Untuk detail API, lihat [RestoreDbClusterFromSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/restore-db-cluster-from-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `restore-db-cluster-to-point-in-time`
<a name="docdb_RestoreDbClusterToPointInTime_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-db-cluster-to-point-in-time`.

**AWS CLI**  
**Untuk memulihkan cluster Amazon DocumentDB ke snapshot point-in-time manual**  
`restore-db-cluster-to-point-in-time`Contoh berikut menggunakan `sample-cluster-snapshot` untuk membuat cluster Amazon DocumentDB baru`sample-cluster-pit`, menggunakan waktu restorable terbaru.  

```
aws docdb restore-db-cluster-to-point-in-time \
    --db-cluster-identifier sample-cluster-pit \
    --source-db-cluster-identifier arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster \
    --use-latest-restorable-time
```
Output:  

```
{
    "DBCluster": {
        "StorageEncrypted": false,
        "BackupRetentionPeriod": 3,
        "MasterUsername": "master-user",
        "HostedZoneId": "ZNKXH85TT8WVW",
        "PreferredBackupWindow": "00:00-00:30",
        "MultiAZ": false,
        "DBClusterIdentifier": "sample-cluster-pit",
        "DBSubnetGroup": "default",
        "ClusterCreateTime": "2019-04-03T15:55:21.320Z",
        "AssociatedRoles": [],
        "DBClusterParameterGroup": "default.docdb3.6",
        "DBClusterMembers": [],
        "Status": "creating",
        "AvailabilityZones": [
            "us-west-2a",
            "us-west-2d",
            "us-west-2b"
        ],
        "ReaderEndpoint": "sample-cluster-pit.cluster-ro-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "Port": 27017,
        "Engine": "docdb",
        "EngineVersion": "3.6.0",
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-77186e0d",
                "Status": "active"
            }
        ],
        "PreferredMaintenanceWindow": "sat:04:30-sat:05:00",
        "Endpoint": "sample-cluster-pit.cluster-corcjozrlsfc.us-west-2.docdb.amazonaws.com",
        "DbClusterResourceId": "cluster-NLCABBXOSE2QPQ4GOLZIFWEPLM",
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster-pit"
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan Snapshot ke Titik Waktu di Panduan Pengembang](https://docs.aws.amazon.com/documentdb/latest/developerguide/backup-restore.point-in-time-recovery.html) *Amazon DocumentDB*.  
+  Untuk detail API, lihat [RestoreDbClusterToPointInTime](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/restore-db-cluster-to-point-in-time.html)di *Referensi AWS CLI Perintah*. 

### `start-db-cluster`
<a name="docdb_StartDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-db-cluster`.

**AWS CLI**  
**Untuk memulai cluster Amazon DocumentDB yang dihentikan**  
`start-db-cluster`Contoh berikut memulai cluster Amazon DocumentDB yang ditentukan.  

```
aws docdb start-db-cluster \
    --db-cluster-identifier sample-cluster
```
Output:  

```
{
    "DBCluster": {
        "ClusterCreateTime": "2019-03-19T18:45:01.857Z",
        "HostedZoneId": "ZNKXH85TT8WVW",
        "Engine": "docdb",
        "DBClusterMembers": [],
        "MultiAZ": false,
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1c",
            "us-east-1f"
        ],
        "StorageEncrypted": false,
        "ReaderEndpoint": "sample-cluster-2019-03-16-00-01-restored.cluster-ro-corcjozrlsfc.us-east-1.docdb.amazonaws.com",
        "Endpoint": "sample-cluster-2019-03-16-00-01-restored.cluster-corcjozrlsfc.us-east-1.docdb.amazonaws.com",
        "Port": 27017,
        "PreferredBackupWindow": "00:00-00:30",
        "DBSubnetGroup": "default",
        "DBClusterIdentifier": "sample-cluster-2019-03-16-00-01-restored",
        "PreferredMaintenanceWindow": "sat:04:30-sat:05:00",
        "DBClusterArn": "arn:aws:rds:us-east-1:123456789012:cluster:sample-cluster-2019-03-16-00-01-restored",
        "DBClusterParameterGroup": "default.docdb3.6",
        "DbClusterResourceId": "cluster-XOO46Q3RH4LWSYNH3NMZKXPISU",
        "MasterUsername": "master-user",
        "EngineVersion": "3.6.0",
        "BackupRetentionPeriod": 3,
        "AssociatedRoles": [],
        "Status": "creating",
        "VpcSecurityGroups": [
            {
                "Status": "active",
                "VpcSecurityGroupId": "sg-77186e0d"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menghentikan dan Memulai Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-stop-start.html) di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [StartDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/start-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `stop-db-cluster`
<a name="docdb_StopDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-db-cluster`.

**AWS CLI**  
**Untuk menghentikan klaster Amazon DocumentDB yang sedang berjalan**  
`stop-db-cluster`Contoh berikut menghentikan klaster Amazon DocumentDB yang ditentukan.  

```
aws docdb stop-db-cluster \
    --db-cluster-identifier sample-cluster
```
Output:  

```
{
    "DBCluster": {
        "ClusterCreateTime": "2019-03-19T18:45:01.857Z",
        "HostedZoneId": "ZNKXH85TT8WVW",
        "Engine": "docdb",
        "DBClusterMembers": [],
        "MultiAZ": false,
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1c",
            "us-east-1f"
        ],
        "StorageEncrypted": false,
        "ReaderEndpoint": "sample-cluster-2019-03-16-00-01-restored.cluster-ro-corcjozrlsfc.us-east-1.docdb.amazonaws.com",
        "Endpoint": "sample-cluster-2019-03-16-00-01-restored.cluster-corcjozrlsfc.us-east-1.docdb.amazonaws.com",
        "Port": 27017,
        "PreferredBackupWindow": "00:00-00:30",
        "DBSubnetGroup": "default",
        "DBClusterIdentifier": "sample-cluster-2019-03-16-00-01-restored",
        "PreferredMaintenanceWindow": "sat:04:30-sat:05:00",
        "DBClusterArn": "arn:aws:rds:us-east-1:123456789012:cluster:sample-cluster-2019-03-16-00-01-restored",
        "DBClusterParameterGroup": "default.docdb3.6",
        "DbClusterResourceId": "cluster-XOO46Q3RH4LWSYNH3NMZKXPISU",
        "MasterUsername": "master-user",
        "EngineVersion": "3.6.0",
        "BackupRetentionPeriod": 3,
        "AssociatedRoles": [],
        "Status": "creating",
        "VpcSecurityGroups": [
            {
                "Status": "active",
                "VpcSecurityGroupId": "sg-77186e0d"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menghentikan dan Memulai Cluster Amazon DocumentDB](https://docs.aws.amazon.com/documentdb/latest/developerguide/db-cluster-stop-start.html) di Panduan Pengembang Amazon *DocumentDB*.  
+  Untuk detail API, lihat [StopDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/docdb/stop-db-cluster.html)di *Referensi AWS CLI Perintah*. 

# Contoh DynamoDB menggunakan AWS CLI
<a name="cli_2_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with DynamoDB.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-get-item`
<a name="dynamodb_BatchGetItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-item`.

**AWS CLI**  
**Untuk mengambil beberapa item dari tabel**  
`batch-get-items`Contoh berikut membaca beberapa item dari `MusicCollection` tabel menggunakan batch tiga `GetItem` permintaan, dan meminta jumlah unit kapasitas baca yang dikonsumsi oleh operasi. Perintah hanya mengembalikan `AlbumTitle` atribut.  

```
aws dynamodb batch-get-item \
    --request-items file://request-items.json \
    --return-consumed-capacity TOTAL
```
Isi dari `request-items.json`:  

```
{
    "MusicCollection": {
        "Keys": [
            {
                "Artist": {"S": "No One You Know"},
                "SongTitle": {"S": "Call Me Today"}
            },
            {
                "Artist": {"S": "Acme Band"},
                "SongTitle": {"S": "Happy Day"}
            },
            {
                "Artist": {"S": "No One You Know"},
                "SongTitle": {"S": "Scared of My Shadow"}
            }
        ],
        "ProjectionExpression":"AlbumTitle"
    }
}
```
Output:  

```
{
    "Responses": {
        "MusicCollection": [
            {
                "AlbumTitle": {
                    "S": "Somewhat Famous"
                }
            },
            {
                "AlbumTitle": {
                    "S": "Blue Sky Blues"
                }
            },
            {
                "AlbumTitle": {
                    "S": "Louder Than Ever"
                }
            }
        ]
    },
    "UnprocessedKeys": {},
    "ConsumedCapacity": [
        {
            "TableName": "MusicCollection",
            "CapacityUnits": 1.5
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Operasi Batch](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.BatchOperations) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [BatchGetItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/batch-get-item.html)di *Referensi AWS CLI Perintah*. 

### `batch-write-item`
<a name="dynamodb_BatchWriteItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-write-item`.

**AWS CLI**  
**Untuk menambahkan beberapa item ke tabel**  
`batch-write-item`Contoh berikut menambahkan tiga item baru ke `MusicCollection` tabel menggunakan batch tiga `PutItem` permintaan. Ini juga meminta informasi tentang jumlah unit kapasitas tulis yang dikonsumsi oleh operasi dan koleksi item apa pun yang dimodifikasi oleh operasi.  

```
aws dynamodb batch-write-item \
    --request-items file://request-items.json \
    --return-consumed-capacity INDEXES \
    --return-item-collection-metrics SIZE
```
Isi dari `request-items.json`:  

```
{
    "MusicCollection": [
        {
            "PutRequest": {
                "Item": {
                    "Artist": {"S": "No One You Know"},
                    "SongTitle": {"S": "Call Me Today"},
                    "AlbumTitle": {"S": "Somewhat Famous"}
                }
            }
        },
        {
            "PutRequest": {
                "Item": {
                    "Artist": {"S": "Acme Band"},
                    "SongTitle": {"S": "Happy Day"},
                    "AlbumTitle": {"S": "Songs About Life"}
                }
            }
        },
        {
            "PutRequest": {
                "Item": {
                    "Artist": {"S": "No One You Know"},
                    "SongTitle": {"S": "Scared of My Shadow"},
                    "AlbumTitle": {"S": "Blue Sky Blues"}
                }
            }
        }
    ]
}
```
Output:  

```
{
    "UnprocessedItems": {},
    "ItemCollectionMetrics": {
        "MusicCollection": [
            {
                "ItemCollectionKey": {
                    "Artist": {
                        "S": "No One You Know"
                    }
                },
                "SizeEstimateRangeGB": [
                    0.0,
                    1.0
                ]
            },
            {
                "ItemCollectionKey": {
                    "Artist": {
                        "S": "Acme Band"
                    }
                },
                "SizeEstimateRangeGB": [
                    0.0,
                    1.0
                ]
            }
        ]
    },
    "ConsumedCapacity": [
        {
            "TableName": "MusicCollection",
            "CapacityUnits": 6.0,
            "Table": {
                "CapacityUnits": 3.0
            },
            "LocalSecondaryIndexes": {
                "AlbumTitleIndex": {
                    "CapacityUnits": 3.0
                }
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Operasi Batch](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.BatchOperations) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [BatchWriteItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/batch-write-item.html)di *Referensi AWS CLI Perintah*. 

### `create-backup`
<a name="dynamodb_CreateBackup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-backup`.

**AWS CLI**  
**Untuk membuat cadangan untuk tabel DynamoDB yang ada**  
`create-backup`Contoh berikut membuat cadangan `MusicCollection` tabel.  

```
aws dynamodb create-backup \
    --table-name MusicCollection \
    --backup-name MusicCollectionBackup
```
Output:  

```
{
    "BackupDetails": {
        "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01576616366715-b4e58d3a",
        "BackupName": "MusicCollectionBackup",
        "BackupSizeBytes": 0,
        "BackupStatus": "CREATING",
        "BackupType": "USER",
        "BackupCreationDateTime": 1576616366.715
    }
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [CreateBackup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/create-backup.html)di *Referensi AWS CLI Perintah*. 

### `create-global-table`
<a name="dynamodb_CreateGlobalTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-global-table`.

**AWS CLI**  
**Untuk membuat tabel global**  
`create-global-table`Contoh berikut membuat tabel global dari dua tabel identik di AWS Regions terpisah yang ditentukan.  

```
aws dynamodb create-global-table \
    --global-table-name MusicCollection \
    --replication-group RegionName=us-east-2 RegionName=us-east-1 \
    --region us-east-2
```
Output:  

```
{
    "GlobalTableDescription": {
        "ReplicationGroup": [
            {
                "RegionName": "us-east-2"
            },
            {
                "RegionName": "us-east-1"
            }
        ],
        "GlobalTableArn": "arn:aws:dynamodb::123456789012:global-table/MusicCollection",
        "CreationDateTime": 1576625818.532,
        "GlobalTableStatus": "CREATING",
        "GlobalTableName": "MusicCollection"
    }
}
```
Untuk informasi selengkapnya, lihat [DynamoDB Global](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GlobalTables.html) Tables di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [CreateGlobalTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/create-global-table.html)di *Referensi AWS CLI Perintah*. 

### `create-table`
<a name="dynamodb_CreateTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-table`.

**AWS CLI**  
**Contoh 1: Untuk membuat tabel dengan tag**  
`create-table`Contoh berikut menggunakan atribut tertentu dan skema kunci untuk membuat tabel bernama`MusicCollection`. Tabel ini menggunakan throughput yang disediakan dan dienkripsi saat istirahat menggunakan CMK yang dimiliki default. AWS Perintah ini juga menerapkan tag ke tabel, dengan kunci dari `Owner` dan nilai`blueTeam`.  

```
aws dynamodb create-table \
    --table-name MusicCollection \
    --attribute-definitions AttributeName=Artist,AttributeType=S AttributeName=SongTitle,AttributeType=S \
    --key-schema AttributeName=Artist,KeyType=HASH AttributeName=SongTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=5,WriteCapacityUnits=5 \
    --tags Key=Owner,Value=blueTeam
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "WriteCapacityUnits": 5,
            "ReadCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "TableName": "MusicCollection",
        "TableStatus": "CREATING",
        "KeySchema": [
            {
                "KeyType": "HASH",
                "AttributeName": "Artist"
            },
            {
                "KeyType": "RANGE",
                "AttributeName": "SongTitle"
            }
        ],
        "ItemCount": 0,
        "CreationDateTime": "2020-05-26T16:04:41.627000-07:00",
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    }
}
```
Untuk informasi selengkapnya, lihat [Operasi Dasar untuk Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html) dalam *Panduan Developer Amazon DynamoDB*.  
**Contoh 2: Untuk membuat tabel dalam Mode On-Demand**  
Contoh berikut membuat tabel yang disebut `MusicCollection` menggunakan mode on-demand, bukan mode throughput yang disediakan. Ini berguna untuk tabel dengan beban kerja yang tidak terduga.  

```
aws dynamodb create-table \
    --table-name MusicCollection \
    --attribute-definitions AttributeName=Artist,AttributeType=S AttributeName=SongTitle,AttributeType=S \
    --key-schema AttributeName=Artist,KeyType=HASH AttributeName=SongTitle,KeyType=RANGE \
    --billing-mode PAY_PER_REQUEST
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollection",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2020-05-27T11:44:10.807000-07:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 0,
            "WriteCapacityUnits": 0
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "BillingModeSummary": {
            "BillingMode": "PAY_PER_REQUEST"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Operasi Dasar untuk Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html) dalam *Panduan Developer Amazon DynamoDB*.  
**Contoh 3: Untuk membuat tabel dan mengenkripsi dengan Customer Managed CMK**  
Contoh berikut membuat tabel bernama `MusicCollection` dan mengenkripsi menggunakan CMK yang dikelola pelanggan.  

```
aws dynamodb create-table \
    --table-name MusicCollection \
    --attribute-definitions AttributeName=Artist,AttributeType=S AttributeName=SongTitle,AttributeType=S \
    --key-schema AttributeName=Artist,KeyType=HASH AttributeName=SongTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=5,WriteCapacityUnits=5 \
    --sse-specification Enabled=true,SSEType=KMS,KMSMasterKeyId=abcd1234-abcd-1234-a123-ab1234a1b234
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollection",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2020-05-27T11:12:16.431000-07:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 5,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "SSEDescription": {
            "Status": "ENABLED",
            "SSEType": "KMS",
            "KMSMasterKeyArn": "arn:aws:kms:us-west-2:123456789012:key/abcd1234-abcd-1234-a123-ab1234a1b234"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Operasi Dasar untuk Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html) dalam *Panduan Developer Amazon DynamoDB*.  
**Contoh 4: Untuk membuat tabel dengan Indeks Sekunder Lokal**  
Contoh berikut menggunakan atribut tertentu dan skema kunci untuk membuat tabel bernama `MusicCollection` dengan Indeks Sekunder Lokal bernama`AlbumTitleIndex`.  

```
aws dynamodb create-table \
    --table-name MusicCollection \
    --attribute-definitions AttributeName=Artist,AttributeType=S AttributeName=SongTitle,AttributeType=S AttributeName=AlbumTitle,AttributeType=S \
    --key-schema AttributeName=Artist,KeyType=HASH AttributeName=SongTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=10,WriteCapacityUnits=5 \
    --local-secondary-indexes \
        "[
            {
                \"IndexName\": \"AlbumTitleIndex\",
                \"KeySchema\": [
                    {\"AttributeName\": \"Artist\",\"KeyType\":\"HASH\"},
                    {\"AttributeName\": \"AlbumTitle\",\"KeyType\":\"RANGE\"}
                ],
                \"Projection\": {
                    \"ProjectionType\": \"INCLUDE\",
                    \"NonKeyAttributes\": [\"Genre\", \"Year\"]
                }
            }
        ]"
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "AlbumTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollection",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2020-05-26T15:59:49.473000-07:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 10,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "LocalSecondaryIndexes": [
            {
                "IndexName": "AlbumTitleIndex",
                "KeySchema": [
                    {
                        "AttributeName": "Artist",
                        "KeyType": "HASH"
                    },
                    {
                        "AttributeName": "AlbumTitle",
                        "KeyType": "RANGE"
                    }
                ],
                "Projection": {
                    "ProjectionType": "INCLUDE",
                    "NonKeyAttributes": [
                        "Genre",
                        "Year"
                    ]
                },
                "IndexSizeBytes": 0,
                "ItemCount": 0,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/index/AlbumTitleIndex"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Operasi Dasar untuk Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html) dalam *Panduan Developer Amazon DynamoDB*.  
**Contoh 5: Untuk membuat tabel dengan Indeks Sekunder Global**  
Contoh berikut membuat tabel bernama `GameScores` dengan Global Secondary Index disebut`GameTitleIndex`. Tabel dasar memiliki kunci partisi `UserId` dan kunci urutan `GameTitle`, sehingga Anda dapat menemukan skor terbaik pengguna individu untuk game tertentu secara efisien, sedangkan GSI memiliki kunci partisi `GameTitle` dan kunci urutan `TopScore`, memungkinkan Anda untuk cepat menemukan skor tertinggi secara keseluruhan untuk game tertentu.  

```
aws dynamodb create-table \
    --table-name GameScores \
    --attribute-definitions AttributeName=UserId,AttributeType=S AttributeName=GameTitle,AttributeType=S AttributeName=TopScore,AttributeType=N \
    --key-schema AttributeName=UserId,KeyType=HASH \
                AttributeName=GameTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=10,WriteCapacityUnits=5 \
    --global-secondary-indexes \
        "[
            {
                \"IndexName\": \"GameTitleIndex\",
                \"KeySchema\": [
                    {\"AttributeName\":\"GameTitle\",\"KeyType\":\"HASH\"},
                    {\"AttributeName\":\"TopScore\",\"KeyType\":\"RANGE\"}
                ],
                \"Projection\": {
                    \"ProjectionType\":\"INCLUDE\",
                    \"NonKeyAttributes\":[\"UserId\"]
                },
                \"ProvisionedThroughput\": {
                    \"ReadCapacityUnits\": 10,
                    \"WriteCapacityUnits\": 5
                }
            }
        ]"
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "GameTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "TopScore",
                "AttributeType": "N"
            },
            {
                "AttributeName": "UserId",
                "AttributeType": "S"
            }
        ],
        "TableName": "GameScores",
        "KeySchema": [
            {
                "AttributeName": "UserId",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "GameTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2020-05-26T17:28:15.602000-07:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 10,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "GlobalSecondaryIndexes": [
            {
                "IndexName": "GameTitleIndex",
                "KeySchema": [
                    {
                        "AttributeName": "GameTitle",
                        "KeyType": "HASH"
                    },
                    {
                        "AttributeName": "TopScore",
                        "KeyType": "RANGE"
                    }
                ],
                "Projection": {
                    "ProjectionType": "INCLUDE",
                    "NonKeyAttributes": [
                        "UserId"
                    ]
                },
                "IndexStatus": "CREATING",
                "ProvisionedThroughput": {
                    "NumberOfDecreasesToday": 0,
                    "ReadCapacityUnits": 10,
                    "WriteCapacityUnits": 5
                },
                "IndexSizeBytes": 0,
                "ItemCount": 0,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores/index/GameTitleIndex"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Operasi Dasar untuk Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html) dalam *Panduan Developer Amazon DynamoDB*.  
**Contoh 6: Untuk membuat tabel dengan beberapa Indeks Sekunder Global sekaligus**  
Contoh berikut membuat tabel bernama `GameScores` dengan dua Global Secondary Indexes. Skema GSI diteruskan melalui file, bukan pada baris perintah.  

```
aws dynamodb create-table \
    --table-name GameScores \
    --attribute-definitions AttributeName=UserId,AttributeType=S AttributeName=GameTitle,AttributeType=S AttributeName=TopScore,AttributeType=N AttributeName=Date,AttributeType=S \
    --key-schema AttributeName=UserId,KeyType=HASH AttributeName=GameTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=10,WriteCapacityUnits=5 \
    --global-secondary-indexes file://gsi.json
```
Isi dari `gsi.json`:  

```
[
    {
        "IndexName": "GameTitleIndex",
        "KeySchema": [
            {
                "AttributeName": "GameTitle",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "TopScore",
                "KeyType": "RANGE"
            }
        ],
        "Projection": {
            "ProjectionType": "ALL"
        },
        "ProvisionedThroughput": {
            "ReadCapacityUnits": 10,
            "WriteCapacityUnits": 5
        }
    },
    {
        "IndexName": "GameDateIndex",
        "KeySchema": [
            {
                "AttributeName": "GameTitle",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "Date",
                "KeyType": "RANGE"
            }
        ],
        "Projection": {
            "ProjectionType": "ALL"
        },
        "ProvisionedThroughput": {
            "ReadCapacityUnits": 5,
            "WriteCapacityUnits": 5
        }
    }
]
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "Date",
                "AttributeType": "S"
            },
            {
                "AttributeName": "GameTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "TopScore",
                "AttributeType": "N"
            },
            {
                "AttributeName": "UserId",
                "AttributeType": "S"
            }
        ],
        "TableName": "GameScores",
        "KeySchema": [
            {
                "AttributeName": "UserId",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "GameTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2020-08-04T16:40:55.524000-07:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 10,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "GlobalSecondaryIndexes": [
            {
                "IndexName": "GameTitleIndex",
                "KeySchema": [
                    {
                        "AttributeName": "GameTitle",
                        "KeyType": "HASH"
                    },
                    {
                        "AttributeName": "TopScore",
                        "KeyType": "RANGE"
                    }
                ],
                "Projection": {
                    "ProjectionType": "ALL"
                },
                "IndexStatus": "CREATING",
                "ProvisionedThroughput": {
                    "NumberOfDecreasesToday": 0,
                    "ReadCapacityUnits": 10,
                    "WriteCapacityUnits": 5
                },
                "IndexSizeBytes": 0,
                "ItemCount": 0,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores/index/GameTitleIndex"
            },
            {
                "IndexName": "GameDateIndex",
                "KeySchema": [
                    {
                        "AttributeName": "GameTitle",
                        "KeyType": "HASH"
                    },
                    {
                        "AttributeName": "Date",
                        "KeyType": "RANGE"
                    }
                ],
                "Projection": {
                    "ProjectionType": "ALL"
                },
                "IndexStatus": "CREATING",
                "ProvisionedThroughput": {
                    "NumberOfDecreasesToday": 0,
                    "ReadCapacityUnits": 5,
                    "WriteCapacityUnits": 5
                },
                "IndexSizeBytes": 0,
                "ItemCount": 0,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores/index/GameDateIndex"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Operasi Dasar untuk Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html) dalam *Panduan Developer Amazon DynamoDB*.  
**Contoh 7: Untuk membuat tabel dengan Streams diaktifkan**  
Contoh berikut membuat tabel yang disebut `GameScores` dengan DynamoDB Streams diaktifkan. Baik gambar baru dan lama dari setiap item akan ditulis ke aliran.  

```
aws dynamodb create-table \
    --table-name GameScores \
    --attribute-definitions AttributeName=UserId,AttributeType=S AttributeName=GameTitle,AttributeType=S \
    --key-schema AttributeName=UserId,KeyType=HASH AttributeName=GameTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=10,WriteCapacityUnits=5 \
    --stream-specification StreamEnabled=TRUE,StreamViewType=NEW_AND_OLD_IMAGES
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "GameTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "UserId",
                "AttributeType": "S"
            }
        ],
        "TableName": "GameScores",
        "KeySchema": [
            {
                "AttributeName": "UserId",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "GameTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2020-05-27T10:49:34.056000-07:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 10,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "StreamSpecification": {
            "StreamEnabled": true,
            "StreamViewType": "NEW_AND_OLD_IMAGES"
        },
        "LatestStreamLabel": "2020-05-27T17:49:34.056",
        "LatestStreamArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores/stream/2020-05-27T17:49:34.056"
    }
}
```
Untuk informasi selengkapnya, lihat [Operasi Dasar untuk Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html) dalam *Panduan Developer Amazon DynamoDB*.  
**Contoh 8: Untuk membuat tabel dengan Keys-Only Stream diaktifkan**  
Contoh berikut membuat tabel yang disebut `GameScores` dengan DynamoDB Streams diaktifkan. Hanya atribut kunci dari item yang dimodifikasi yang ditulis ke aliran.  

```
aws dynamodb create-table \
    --table-name GameScores \
    --attribute-definitions AttributeName=UserId,AttributeType=S AttributeName=GameTitle,AttributeType=S \
    --key-schema AttributeName=UserId,KeyType=HASH AttributeName=GameTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=10,WriteCapacityUnits=5 \
    --stream-specification StreamEnabled=TRUE,StreamViewType=KEYS_ONLY
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "GameTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "UserId",
                "AttributeType": "S"
            }
        ],
        "TableName": "GameScores",
        "KeySchema": [
            {
                "AttributeName": "UserId",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "GameTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2023-05-25T18:45:34.140000+00:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 10,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "StreamSpecification": {
            "StreamEnabled": true,
            "StreamViewType": "KEYS_ONLY"
        },
        "LatestStreamLabel": "2023-05-25T18:45:34.140",
        "LatestStreamArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores/stream/2023-05-25T18:45:34.140",
        "DeletionProtectionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Mengubah pengambilan data untuk DynamoDB Streams di Panduan Pengembang *Amazon* DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Streams.html).  
**Contoh 9: Untuk membuat tabel dengan kelas Standard Infrequent Access**  
Contoh berikut membuat tabel yang disebut `GameScores` dan menetapkan kelas tabel Standard-Infrequent Access (DynamoDB Standard-IA). Kelas tabel ini dioptimalkan untuk penyimpanan menjadi biaya dominan.  

```
aws dynamodb create-table \
    --table-name GameScores \
    --attribute-definitions AttributeName=UserId,AttributeType=S AttributeName=GameTitle,AttributeType=S \
    --key-schema AttributeName=UserId,KeyType=HASH AttributeName=GameTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=10,WriteCapacityUnits=5 \
    --table-class STANDARD_INFREQUENT_ACCESS
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "GameTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "UserId",
                "AttributeType": "S"
            }
        ],
        "TableName": "GameScores",
        "KeySchema": [
            {
                "AttributeName": "UserId",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "GameTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2023-05-25T18:33:07.581000+00:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 10,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "TableClassSummary": {
            "TableClass": "STANDARD_INFREQUENT_ACCESS"
        },
        "DeletionProtectionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Kelas tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/HowItWorks.TableClasses.html) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 10: Membuat tabel dengan Hapus Perlindungan diaktifkan**  
Contoh berikut membuat tabel yang disebut `GameScores` dan memungkinkan perlindungan penghapusan.  

```
aws dynamodb create-table \
    --table-name GameScores \
    --attribute-definitions AttributeName=UserId,AttributeType=S AttributeName=GameTitle,AttributeType=S \
    --key-schema AttributeName=UserId,KeyType=HASH AttributeName=GameTitle,KeyType=RANGE \
    --provisioned-throughput ReadCapacityUnits=10,WriteCapacityUnits=5 \
    --deletion-protection-enabled
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "GameTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "UserId",
                "AttributeType": "S"
            }
        ],
        "TableName": "GameScores",
        "KeySchema": [
            {
                "AttributeName": "UserId",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "GameTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": "2023-05-25T23:02:17.093000+00:00",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 10,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/GameScores",
        "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "DeletionProtectionEnabled": true
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan perlindungan penghapusan](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.DeletionProtection) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [CreateTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/create-table.html)di *Referensi AWS CLI Perintah*. 

### `delete-backup`
<a name="dynamodb_DeleteBackup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-backup`.

**AWS CLI**  
**Untuk menghapus cadangan DynamoDB yang ada**  
`delete-backup`Contoh berikut menghapus cadangan yang ada yang ditentukan.  

```
aws dynamodb delete-backup \
    --backup-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01576616366715-b4e58d3a
```
Output:  

```
{
    "BackupDescription": {
        "BackupDetails": {
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01576616366715-b4e58d3a",
            "BackupName": "MusicCollectionBackup",
            "BackupSizeBytes": 0,
            "BackupStatus": "DELETED",
            "BackupType": "USER",
            "BackupCreationDateTime": 1576616366.715
        },
        "SourceTableDetails": {
            "TableName": "MusicCollection",
            "TableId": "b0c04bcc-309b-4352-b2ae-9088af169fe2",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "TableSizeBytes": 0,
            "KeySchema": [
                {
                    "AttributeName": "Artist",
                    "KeyType": "HASH"
                },
                {
                    "AttributeName": "SongTitle",
                    "KeyType": "RANGE"
                }
            ],
            "TableCreationDateTime": 1576615228.571,
            "ProvisionedThroughput": {
                "ReadCapacityUnits": 5,
                "WriteCapacityUnits": 5
            },
            "ItemCount": 0,
            "BillingMode": "PROVISIONED"
        },
        "SourceTableFeatureDetails": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [DeleteBackup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/delete-backup.html)di *Referensi AWS CLI Perintah*. 

### `delete-item`
<a name="dynamodb_DeleteItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-item`.

**AWS CLI**  
**Contoh 1: Untuk menghapus item**  
`delete-item`Contoh berikut menghapus item dari `MusicCollection` tabel dan meminta rincian tentang item yang telah dihapus dan kapasitas yang digunakan oleh permintaan.  

```
aws dynamodb delete-item \
    --table-name MusicCollection \
    --key file://key.json \
    --return-values ALL_OLD \
    --return-consumed-capacity TOTAL \
    --return-item-collection-metrics SIZE
```
Isi dari `key.json`:  

```
{
    "Artist": {"S": "No One You Know"},
    "SongTitle": {"S": "Scared of My Shadow"}
}
```
Output:  

```
{
    "Attributes": {
        "AlbumTitle": {
            "S": "Blue Sky Blues"
        },
        "Artist": {
            "S": "No One You Know"
        },
        "SongTitle": {
            "S": "Scared of My Shadow"
        }
    },
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 2.0
    },
    "ItemCollectionMetrics": {
        "ItemCollectionKey": {
            "Artist": {
                "S": "No One You Know"
            }
        },
        "SizeEstimateRangeGB": [
            0.0,
            1.0
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menulis Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.WritingData) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 2: Untuk menghapus item secara kondisional**  
Contoh berikut menghapus item dari `ProductCatalog` tabel hanya jika salah satu `Sporting Goods` atau `Gardening Supplies` dan harganya antara 500 dan 600. `ProductCategory` Ia mengembalikan rincian tentang item yang telah dihapus.  

```
aws dynamodb delete-item \
    --table-name ProductCatalog \
    --key '{"Id":{"N":"456"}}' \
    --condition-expression "(ProductCategory IN (:cat1, :cat2)) and (#P between :lo and :hi)" \
    --expression-attribute-names file://names.json \
    --expression-attribute-values file://values.json \
    --return-values ALL_OLD
```
Isi dari `names.json`:  

```
{
    "#P": "Price"
}
```
Isi dari `values.json`:  

```
{
    ":cat1": {"S": "Sporting Goods"},
    ":cat2": {"S": "Gardening Supplies"},
    ":lo": {"N": "500"},
    ":hi": {"N": "600"}
}
```
Output:  

```
{
    "Attributes": {
        "Id": {
            "N": "456"
        },
        "Price": {
            "N": "550"
        },
        "ProductCategory": {
            "S": "Sporting Goods"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menulis Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.WritingData) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DeleteItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/delete-item.html)di *Referensi AWS CLI Perintah*. 

### `delete-table`
<a name="dynamodb_DeleteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-table`.

**AWS CLI**  
**Untuk menghapus tabel**  
`delete-table`Contoh berikut menghapus `MusicCollection` tabel.  

```
aws dynamodb delete-table \
    --table-name MusicCollection
```
Output:  

```
{
    "TableDescription": {
        "TableStatus": "DELETING",
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableName": "MusicCollection",
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "WriteCapacityUnits": 5,
            "ReadCapacityUnits": 5
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Tabel di Panduan](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.DeleteTable) Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DeleteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/delete-table.html)di *Referensi AWS CLI Perintah*. 

### `describe-backup`
<a name="dynamodb_DescribeBackup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-backup`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang cadangan tabel yang ada**  
`describe-backup`Contoh berikut menampilkan informasi tentang cadangan yang ada yang ditentukan.  

```
aws dynamodb describe-backup \
    --backup-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01576616366715-b4e58d3a
```
Output:  

```
{
    "BackupDescription": {
        "BackupDetails": {
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01576616366715-b4e58d3a",
            "BackupName": "MusicCollectionBackup",
            "BackupSizeBytes": 0,
            "BackupStatus": "AVAILABLE",
            "BackupType": "USER",
            "BackupCreationDateTime": 1576616366.715
        },
        "SourceTableDetails": {
            "TableName": "MusicCollection",
            "TableId": "b0c04bcc-309b-4352-b2ae-9088af169fe2",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "TableSizeBytes": 0,
            "KeySchema": [
                {
                    "AttributeName": "Artist",
                    "KeyType": "HASH"
                },
                {
                    "AttributeName": "SongTitle",
                    "KeyType": "RANGE"
                }
            ],
            "TableCreationDateTime": 1576615228.571,
            "ProvisionedThroughput": {
                "ReadCapacityUnits": 5,
                "WriteCapacityUnits": 5
            },
            "ItemCount": 0,
            "BillingMode": "PROVISIONED"
        },
        "SourceTableFeatureDetails": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [DescribeBackup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-backup.html)di *Referensi AWS CLI Perintah*. 

### `describe-continuous-backups`
<a name="dynamodb_DescribeContinuousBackups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-continuous-backups`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang backup berkelanjutan untuk tabel DynamoDB**  
`describe-continuous-backups`Contoh berikut menampilkan rincian tentang pengaturan cadangan berkelanjutan untuk `MusicCollection` tabel.  

```
aws dynamodb describe-continuous-backups \
    --table-name MusicCollection
```
Output:  

```
{
    "ContinuousBackupsDescription": {
        "ContinuousBackupsStatus": "ENABLED",
        "PointInTimeRecoveryDescription": {
            "PointInTimeRecoveryStatus": "DISABLED"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Point-in-Time Pemulihan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/PointInTimeRecovery.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [DescribeContinuousBackups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-continuous-backups.html)di *Referensi AWS CLI Perintah*. 

### `describe-contributor-insights`
<a name="dynamodb_DescribeContributorInsights_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-contributor-insights`.

**AWS CLI**  
**Untuk melihat setelan Contributor Insights untuk tabel DynamoDB**  
`describe-contributor-insights`Contoh berikut menampilkan pengaturan Contributor Insights untuk `MusicCollection` tabel dan indeks sekunder `AlbumTitle-index` global.  

```
aws dynamodb describe-contributor-insights \
    --table-name MusicCollection \
    --index-name AlbumTitle-index
```
Output:  

```
{
    "TableName": "MusicCollection",
    "IndexName": "AlbumTitle-index",
    "ContributorInsightsRuleList": [
        "DynamoDBContributorInsights-PKC-MusicCollection-1576629651520",
        "DynamoDBContributorInsights-SKC-MusicCollection-1576629651520",
        "DynamoDBContributorInsights-PKT-MusicCollection-1576629651520",
        "DynamoDBContributorInsights-SKT-MusicCollection-1576629651520"
    ],
    "ContributorInsightsStatus": "ENABLED",
    "LastUpdateDateTime": 1576629654.78
}
```
*Untuk informasi selengkapnya, lihat [Menganalisis Akses Data Menggunakan Wawasan CloudWatch Kontributor untuk DynamoDB di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/contributorinsights.html).*  
+  Untuk detail API, lihat [DescribeContributorInsights](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-contributor-insights.html)di *Referensi AWS CLI Perintah*. 

### `describe-endpoints`
<a name="dynamodb_DescribeEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-endpoints`.

**AWS CLI**  
**Untuk melihat informasi titik akhir regional**  
`describe-endpoints`Contoh berikut menampilkan detail tentang titik akhir untuk AWS Wilayah saat ini.  

```
aws dynamodb describe-endpoints
```
Output:  

```
{
    "Endpoints": [
        {
            "Address": "dynamodb.us-west-2.amazonaws.com",
            "CachePeriodInMinutes": 1440
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Titik Akhir dan Kuota Amazon DynamoDB di Referensi](https://docs.aws.amazon.com/general/latest/gr/ddb.html) Umum.AWS *  
+  Untuk detail API, lihat [DescribeEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `describe-global-table-settings`
<a name="dynamodb_DescribeGlobalTableSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-global-table-settings`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pengaturan tabel global DynamoDB**  
`describe-global-table-settings`Contoh berikut menampilkan pengaturan untuk tabel `MusicCollection` global.  

```
aws dynamodb describe-global-table-settings \
    --global-table-name MusicCollection
```
Output:  

```
{
    "GlobalTableName": "MusicCollection",
    "ReplicaSettings": [
        {
            "RegionName": "us-east-1",
            "ReplicaStatus": "ACTIVE",
            "ReplicaProvisionedReadCapacityUnits": 10,
            "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            },
            "ReplicaProvisionedWriteCapacityUnits": 5,
            "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            }
        },
        {
            "RegionName": "us-east-2",
            "ReplicaStatus": "ACTIVE",
            "ReplicaProvisionedReadCapacityUnits": 10,
            "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            },
            "ReplicaProvisionedWriteCapacityUnits": 5,
            "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [DynamoDB Global](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GlobalTables.html) Tables di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [DescribeGlobalTableSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-global-table-settings.html)di *Referensi AWS CLI Perintah*. 

### `describe-global-table`
<a name="dynamodb_DescribeGlobalTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-global-table`.

**AWS CLI**  
**Untuk menampilkan informasi tentang tabel global DynamoDB**  
`describe-global-table`Contoh berikut menampilkan rincian tentang tabel `MusicCollection` global.  

```
aws dynamodb describe-global-table \
    --global-table-name MusicCollection
```
Output:  

```
{
    "GlobalTableDescription": {
        "ReplicationGroup": [
            {
                "RegionName": "us-east-2"
            },
            {
                "RegionName": "us-east-1"
            }
        ],
        "GlobalTableArn": "arn:aws:dynamodb::123456789012:global-table/MusicCollection",
        "CreationDateTime": 1576625818.532,
        "GlobalTableStatus": "ACTIVE",
        "GlobalTableName": "MusicCollection"
    }
}
```
Untuk informasi selengkapnya, lihat [DynamoDB Global](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GlobalTables.html) Tables di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [DescribeGlobalTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-global-table.html)di *Referensi AWS CLI Perintah*. 

### `describe-limits`
<a name="dynamodb_DescribeLimits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-limits`.

**AWS CLI**  
**Untuk melihat batas kapasitas yang disediakan**  
`describe-limits`Contoh berikut menampilkan batas kapasitas yang disediakan untuk akun Anda di Wilayah saat ini. AWS   

```
aws dynamodb describe-limits
```
Output:  

```
{
    "AccountMaxReadCapacityUnits": 80000,
    "AccountMaxWriteCapacityUnits": 80000,
    "TableMaxReadCapacityUnits": 40000,
    "TableMaxWriteCapacityUnits": 40000
}
```
Untuk informasi selengkapnya, lihat [Membatasi di DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Limits.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [DescribeLimits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-limits.html)di *Referensi AWS CLI Perintah*. 

### `describe-table-replica-auto-scaling`
<a name="dynamodb_DescribeTableReplicaAutoScaling_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-table-replica-auto-scaling`.

**AWS CLI**  
**Untuk melihat pengaturan penskalaan otomatis di seluruh replika tabel global**  
`describe-table-replica-auto-scaling`Contoh berikut menampilkan pengaturan penskalaan otomatis di seluruh replika tabel `MusicCollection` global.  

```
aws dynamodb describe-table-replica-auto-scaling \
    --table-name MusicCollection
```
Output:  

```
{
    "TableAutoScalingDescription": {
        "TableName": "MusicCollection",
        "TableStatus": "ACTIVE",
        "Replicas": [
            {
                "RegionName": "us-east-1",
                "GlobalSecondaryIndexes": [],
                "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                    "MinimumUnits": 5,
                    "MaximumUnits": 40000,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBReadCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 70.0
                            }
                        }
                    ]
                },
                "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                    "MinimumUnits": 5,
                    "MaximumUnits": 40000,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBWriteCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 70.0
                            }
                        }
                    ]
                },
                "ReplicaStatus": "ACTIVE"
            },
            {
                "RegionName": "us-east-2",
                "GlobalSecondaryIndexes": [],
                "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                    "MinimumUnits": 5,
                    "MaximumUnits": 40000,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBReadCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 70.0
                            }
                        }
                    ]
                },
                "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                    "MinimumUnits": 5,
                    "MaximumUnits": 40000,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBWriteCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 70.0
                            }
                        }
                    ]
                },
                "ReplicaStatus": "ACTIVE"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [DynamoDB Global](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GlobalTables.html) Tables di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [DescribeTableReplicaAutoScaling](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-table-replica-auto-scaling.html)di *Referensi AWS CLI Perintah*. 

### `describe-table`
<a name="dynamodb_DescribeTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-table`.

**AWS CLI**  
**Untuk menggambarkan tabel**  
`describe-table`Contoh berikut menjelaskan `MusicCollection` tabel.  

```
aws dynamodb describe-table \
    --table-name MusicCollection
```
Output:  

```
{
    "Table": {
        "AttributeDefinitions": [
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "WriteCapacityUnits": 5,
            "ReadCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "TableName": "MusicCollection",
        "TableStatus": "ACTIVE",
        "KeySchema": [
            {
                "KeyType": "HASH",
                "AttributeName": "Artist"
            },
            {
                "KeyType": "RANGE",
                "AttributeName": "SongTitle"
            }
        ],
        "ItemCount": 0,
        "CreationDateTime": 1421866952.062
    }
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan Tabel di Panduan](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.DescribeTable) Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DescribeTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-table.html)di *Referensi AWS CLI Perintah*. 

### `describe-time-to-live`
<a name="dynamodb_DescribeTimeToLive_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-time-to-live`.

**AWS CLI**  
**Untuk melihat pengaturan Waktu ke Langsung untuk tabel**  
`describe-time-to-live`Contoh berikut menampilkan Pengaturan Time to Live untuk `MusicCollection` tabel.  

```
aws dynamodb describe-time-to-live \
    --table-name MusicCollection
```
Output:  

```
{
    "TimeToLiveDescription": {
        "TimeToLiveStatus": "ENABLED",
        "AttributeName": "ttl"
    }
}
```
Untuk informasi selengkapnya, lihat [Waktu untuk Hidup](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/TTL.html) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [DescribeTimeToLive](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/describe-time-to-live.html)di *Referensi AWS CLI Perintah*. 

### `get-item`
<a name="dynamodb_GetItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-item`.

**AWS CLI**  
**Contoh 1: Untuk membaca item dalam tabel**  
`get-item`Contoh berikut mengambil item dari `MusicCollection` tabel. Tabel memiliki kunci hash-and-range utama (`Artist`dan`SongTitle`), jadi Anda harus menentukan kedua atribut ini. Perintah tersebut juga meminta informasi tentang kapasitas baca yang dikonsumsi oleh operasi.  

```
aws dynamodb get-item \
    --table-name MusicCollection \
    --key file://key.json \
    --return-consumed-capacity TOTAL
```
Isi dari `key.json`:  

```
{
    "Artist": {"S": "Acme Band"},
    "SongTitle": {"S": "Happy Day"}
}
```
Output:  

```
{
    "Item": {
        "AlbumTitle": {
            "S": "Songs About Life"
        },
        "SongTitle": {
            "S": "Happy Day"
        },
        "Artist": {
            "S": "Acme Band"
        }
    },
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 0.5
    }
}
```
Untuk informasi selengkapnya, lihat [Membaca Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.ReadingData) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 2: Untuk membaca item menggunakan pembacaan yang konsisten**  
Contoh berikut mengambil item dari `MusicCollection` tabel menggunakan pembacaan yang sangat konsisten.  

```
aws dynamodb get-item \
    --table-name MusicCollection \
    --key file://key.json \
    --consistent-read \
    --return-consumed-capacity TOTAL
```
Isi dari `key.json`:  

```
{
    "Artist": {"S": "Acme Band"},
    "SongTitle": {"S": "Happy Day"}
}
```
Output:  

```
{
    "Item": {
        "AlbumTitle": {
            "S": "Songs About Life"
        },
        "SongTitle": {
            "S": "Happy Day"
        },
        "Artist": {
            "S": "Acme Band"
        }
    },
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 1.0
    }
}
```
Untuk informasi selengkapnya, lihat [Membaca Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.ReadingData) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 3: Untuk mengambil atribut tertentu dari suatu item**  
Contoh berikut menggunakan ekspresi proyeksi untuk mengambil hanya tiga atribut dari item yang diinginkan.  

```
aws dynamodb get-item \
    --table-name ProductCatalog \
    --key '{"Id": {"N": "102"}}' \
    --projection-expression "#T, #C, #P" \
    --expression-attribute-names file://names.json
```
Isi dari `names.json`:  

```
{
    "#T": "Title",
    "#C": "ProductCategory",
    "#P": "Price"
}
```
Output:  

```
{
    "Item": {
        "Price": {
            "N": "20"
        },
        "Title": {
            "S": "Book 102 Title"
        },
        "ProductCategory": {
            "S": "Book"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membaca Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.ReadingData) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [GetItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/get-item.html)di *Referensi AWS CLI Perintah*. 

### `list-backups`
<a name="dynamodb_ListBackups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-backups`.

**AWS CLI**  
**Contoh 1: Untuk daftar semua backup DynamoDB yang ada**  
`list-backups`Contoh berikut mencantumkan semua backup yang ada.  

```
aws dynamodb list-backups
```
Output:  

```
{
    "BackupSummaries": [
        {
            "TableName": "MusicCollection",
            "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01234567890123-a1bcd234",
            "BackupName": "MusicCollectionBackup1",
            "BackupCreationDateTime": "2020-02-12T14:41:51.617000-08:00",
            "BackupStatus": "AVAILABLE",
            "BackupType": "USER",
            "BackupSizeBytes": 170
        },
        {
            "TableName": "MusicCollection",
            "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01234567890123-b2abc345",
            "BackupName": "MusicCollectionBackup2",
            "BackupCreationDateTime": "2020-06-26T11:08:35.431000-07:00",
            "BackupStatus": "AVAILABLE",
            "BackupType": "USER",
            "BackupSizeBytes": 400
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 2: Untuk mencantumkan cadangan yang dibuat pengguna dalam rentang waktu tertentu**  
Contoh berikut hanya mencantumkan cadangan `MusicCollection` tabel yang dibuat oleh pengguna (bukan yang dibuat secara otomatis oleh DynamoDB) dengan tanggal pembuatan antara 1 Januari 2020 dan 1 Maret 2020.  

```
aws dynamodb list-backups \
    --table-name MusicCollection \
    --time-range-lower-bound 1577836800 \
    --time-range-upper-bound 1583020800 \
    --backup-type USER
```
Output:  

```
{
    "BackupSummaries": [
        {
            "TableName": "MusicCollection",
            "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01234567890123-a1bcd234",
            "BackupName": "MusicCollectionBackup1",
            "BackupCreationDateTime": "2020-02-12T14:41:51.617000-08:00",
            "BackupStatus": "AVAILABLE",
            "BackupType": "USER",
            "BackupSizeBytes": 170
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 3: Untuk membatasi ukuran halaman**  
Contoh berikut mengembalikan daftar semua cadangan yang ada, tetapi hanya mengambil satu item di setiap panggilan, melakukan beberapa panggilan jika perlu untuk mendapatkan seluruh daftar. Membatasi ukuran halaman berguna saat menjalankan perintah daftar pada sejumlah besar sumber daya, yang dapat mengakibatkan kesalahan “waktu habis” saat menggunakan ukuran halaman default 1000.  

```
aws dynamodb list-backups \
    --page-size 1
```
Output:  

```
{
    "BackupSummaries": [
        {
            "TableName": "MusicCollection",
            "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01234567890123-a1bcd234",
            "BackupName": "MusicCollectionBackup1",
            "BackupCreationDateTime": "2020-02-12T14:41:51.617000-08:00",
            "BackupStatus": "AVAILABLE",
            "BackupType": "USER",
            "BackupSizeBytes": 170
        },
        {
            "TableName": "MusicCollection",
            "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01234567890123-b2abc345",
            "BackupName": "MusicCollectionBackup2",
            "BackupCreationDateTime": "2020-06-26T11:08:35.431000-07:00",
            "BackupStatus": "AVAILABLE",
            "BackupType": "USER",
            "BackupSizeBytes": 400
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 4: Untuk membatasi jumlah item yang dikembalikan**  
Contoh berikut membatasi jumlah item yang dikembalikan ke 1. Respons mencakup `NextToken` nilai yang dapat digunakan untuk mengambil halaman hasil berikutnya.  

```
aws dynamodb list-backups \
    --max-items 1
```
Output:  

```
{
    "BackupSummaries": [
        {
            "TableName": "MusicCollection",
            "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01234567890123-a1bcd234",
            "BackupName": "MusicCollectionBackup1",
            "BackupCreationDateTime": "2020-02-12T14:41:51.617000-08:00",
            "BackupStatus": "AVAILABLE",
            "BackupType": "USER",
            "BackupSizeBytes": 170
        }
    ],
    "NextToken": "abCDeFGhiJKlmnOPqrSTuvwxYZ1aBCdEFghijK7LM51nOpqRSTuv3WxY3ZabC5dEFGhI2Jk3LmnoPQ6RST9"
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 5: Untuk mengambil halaman berikutnya dari hasil**  
Perintah berikut menggunakan `NextToken` nilai dari panggilan sebelumnya ke `list-backups` perintah untuk mengambil halaman lain dari hasil. Karena respons dalam kasus ini tidak termasuk `NextToken` nilai, kami tahu bahwa kami telah mencapai akhir hasil.  

```
aws dynamodb list-backups \
    --starting-token abCDeFGhiJKlmnOPqrSTuvwxYZ1aBCdEFghijK7LM51nOpqRSTuv3WxY3ZabC5dEFGhI2Jk3LmnoPQ6RST9
```
Output  

```
{
    "BackupSummaries": [
        {
            "TableName": "MusicCollection",
            "TableId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "BackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01234567890123-b2abc345",
            "BackupName": "MusicCollectionBackup2",
            "BackupCreationDateTime": "2020-06-26T11:08:35.431000-07:00",
            "BackupStatus": "AVAILABLE",
            "BackupType": "USER",
            "BackupSizeBytes": 400
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [ListBackups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/list-backups.html)di *Referensi AWS CLI Perintah*. 

### `list-contributor-insights`
<a name="dynamodb_ListContributorInsights_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-contributor-insights`.

**AWS CLI**  
**Contoh 1: Untuk melihat daftar ringkasan Contributor Insights**  
`list-contributor-insights`Contoh berikut menampilkan daftar ringkasan Contributor Insights.  

```
aws dynamodb list-contributor-insights
```
Output:  

```
{
    "ContributorInsightsSummaries": [
        {
            "TableName": "MusicCollection",
            "IndexName": "AlbumTitle-index",
            "ContributorInsightsStatus": "ENABLED"
        },
        {
            "TableName": "ProductCatalog",
            "ContributorInsightsStatus": "ENABLED"
        },
        {
            "TableName": "Forum",
            "ContributorInsightsStatus": "ENABLED"
        },
        {
            "TableName": "Reply",
            "ContributorInsightsStatus": "ENABLED"
        },
        {
            "TableName": "Thread",
            "ContributorInsightsStatus": "ENABLED"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menganalisis Akses Data Menggunakan Wawasan CloudWatch Kontributor untuk DynamoDB di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/contributorinsights.html).*  
**Contoh 2: Untuk membatasi jumlah item yang dikembalikan**  
Contoh berikut membatasi jumlah item yang dikembalikan ke 4. Respons mencakup `NextToken` nilai yang dapat digunakan untuk mengambil halaman hasil berikutnya.  

```
aws dynamodb list-contributor-insights \
    --max-results 4
```
Output:  

```
{
    "ContributorInsightsSummaries": [
        {
            "TableName": "MusicCollection",
            "IndexName": "AlbumTitle-index",
            "ContributorInsightsStatus": "ENABLED"
        },
        {
            "TableName": "ProductCatalog",
            "ContributorInsightsStatus": "ENABLED"
        },
        {
            "TableName": "Forum",
            "ContributorInsightsStatus": "ENABLED"
        }
    ],
    "NextToken": "abCDeFGhiJKlmnOPqrSTuvwxYZ1aBCdEFghijK7LM51nOpqRSTuv3WxY3ZabC5dEFGhI2Jk3LmnoPQ6RST9"
}
```
*Untuk informasi selengkapnya, lihat [Menganalisis Akses Data Menggunakan Wawasan CloudWatch Kontributor untuk DynamoDB di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/contributorinsights.html).*  
**Contoh 3: Untuk mengambil halaman berikutnya dari hasil**  
Perintah berikut menggunakan `NextToken` nilai dari panggilan sebelumnya ke `list-contributor-insights` perintah untuk mengambil halaman lain dari hasil. Karena respons dalam kasus ini tidak termasuk `NextToken` nilai, kami tahu bahwa kami telah mencapai akhir hasil.  

```
aws dynamodb list-contributor-insights \
    --max-results 4 \
    --next-token abCDeFGhiJKlmnOPqrSTuvwxYZ1aBCdEFghijK7LM51nOpqRSTuv3WxY3ZabC5dEFGhI2Jk3LmnoPQ6RST9
```
Output:  

```
{
    "ContributorInsightsSummaries": [
        {
            "TableName": "Reply",
            "ContributorInsightsStatus": "ENABLED"
        },
        {
            "TableName": "Thread",
            "ContributorInsightsStatus": "ENABLED"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menganalisis Akses Data Menggunakan Wawasan CloudWatch Kontributor untuk DynamoDB di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/contributorinsights.html).*  
+  Untuk detail API, lihat [ListContributorInsights](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/list-contributor-insights.html)di *Referensi AWS CLI Perintah*. 

### `list-global-tables`
<a name="dynamodb_ListGlobalTables_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-global-tables`.

**AWS CLI**  
**Untuk daftar tabel global DynamoDB yang ada**  
`list-global-tables`Contoh berikut mencantumkan semua tabel global yang ada.  

```
aws dynamodb list-global-tables
```
Output:  

```
{
    "GlobalTables": [
        {
            "GlobalTableName": "MusicCollection",
            "ReplicationGroup": [
                {
                    "RegionName": "us-east-2"
                },
                {
                    "RegionName": "us-east-1"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [DynamoDB Global](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GlobalTables.html) Tables di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [ListGlobalTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/list-global-tables.html)di *Referensi AWS CLI Perintah*. 

### `list-tables`
<a name="dynamodb_ListTables_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tables`.

**AWS CLI**  
**Contoh 1: Untuk daftar tabel**  
`list-tables`Contoh berikut mencantumkan semua tabel yang terkait dengan AWS akun saat ini dan Wilayah.  

```
aws dynamodb list-tables
```
Output:  

```
{
    "TableNames": [
        "Forum",
        "ProductCatalog",
        "Reply",
        "Thread"
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Nama Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.ListTables) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 2: Untuk membatasi ukuran halaman**  
Contoh berikut mengembalikan daftar semua tabel yang ada, tetapi mengambil hanya satu item dalam setiap panggilan, melakukan beberapa panggilan jika perlu untuk mendapatkan seluruh daftar. Membatasi ukuran halaman berguna saat menjalankan perintah daftar pada sejumlah besar sumber daya, yang dapat mengakibatkan kesalahan “waktu habis” saat menggunakan ukuran halaman default 1000.  

```
aws dynamodb list-tables \
    --page-size 1
```
Output:  

```
{
    "TableNames": [
        "Forum",
        "ProductCatalog",
        "Reply",
        "Thread"
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Nama Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.ListTables) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 3: Untuk membatasi jumlah item yang dikembalikan**  
Contoh berikut membatasi jumlah item yang dikembalikan ke 2. Respons mencakup `NextToken` nilai yang dapat digunakan untuk mengambil halaman hasil berikutnya.  

```
aws dynamodb list-tables \
    --max-items 2
```
Output:  

```
{
    "TableNames": [
        "Forum",
        "ProductCatalog"
    ],
    "NextToken": "abCDeFGhiJKlmnOPqrSTuvwxYZ1aBCdEFghijK7LM51nOpqRSTuv3WxY3ZabC5dEFGhI2Jk3LmnoPQ6RST9"
}
```
Untuk informasi selengkapnya, lihat [Daftar Nama Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.ListTables) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 4: Untuk mengambil halaman berikutnya dari hasil**  
Perintah berikut menggunakan `NextToken` nilai dari panggilan sebelumnya ke `list-tables` perintah untuk mengambil halaman lain dari hasil. Karena respons dalam kasus ini tidak termasuk `NextToken` nilai, kami tahu bahwa kami telah mencapai akhir hasil.  

```
aws dynamodb list-tables \
    --starting-token abCDeFGhiJKlmnOPqrSTuvwxYZ1aBCdEFghijK7LM51nOpqRSTuv3WxY3ZabC5dEFGhI2Jk3LmnoPQ6RST9
```
Output:  

```
{
    "TableNames": [
        "Reply",
        "Thread"
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Nama Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.ListTables) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [ListTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/list-tables.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-of-resource`
<a name="dynamodb_ListTagsOfResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-of-resource`.

**AWS CLI**  
**Contoh 1: Untuk daftar tag dari sumber daya DynamoDB**  
`list-tags-of-resource`Contoh berikut menampilkan tag untuk `MusicCollection` tabel.  

```
aws dynamodb list-tags-of-resource \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Owner",
            "Value": "blueTeam"
        },
        {
            "Key": "Environment",
            "Value": "Production"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Tagging.html) di Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 2: Untuk membatasi jumlah tag yang dikembalikan**  
Contoh berikut membatasi jumlah tag yang dikembalikan ke 1. Respons mencakup `NextToken` nilai yang dapat digunakan untuk mengambil halaman hasil berikutnya.  

```
aws dynamodb list-tags-of-resource \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection \
    --max-items 1
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Owner",
            "Value": "blueTeam"
        }
    ],
    "NextToken": "abCDeFGhiJKlmnOPqrSTuvwxYZ1aBCdEFghijK7LM51nOpqRSTuv3WxY3ZabC5dEFGhI2Jk3LmnoPQ6RST9"
}
```
Untuk informasi selengkapnya, lihat [Menandai DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Tagging.html) di Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 3: Untuk mengambil halaman berikutnya dari hasil**  
Perintah berikut menggunakan `NextToken` nilai dari panggilan sebelumnya ke `list-tags-of-resource` perintah untuk mengambil halaman lain dari hasil. Karena respons dalam kasus ini tidak termasuk `NextToken` nilai, kami tahu bahwa kami telah mencapai akhir hasil.  

```
aws dynamodb list-tags-of-resource \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection \
    --starting-token abCDeFGhiJKlmnOPqrSTuvwxYZ1aBCdEFghijK7LM51nOpqRSTuv3WxY3ZabC5dEFGhI2Jk3LmnoPQ6RST9
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Environment",
            "Value": "Production"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Tagging.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [ListTagsOfResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/list-tags-of-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-item`
<a name="dynamodb_PutItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-item`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan item ke tabel**  
`put-item`Contoh berikut menambahkan item baru ke *MusicCollection*tabel.  

```
aws dynamodb put-item \
    --table-name MusicCollection \
    --item file://item.json \
    --return-consumed-capacity TOTAL \
    --return-item-collection-metrics SIZE
```
Isi dari `item.json`:  

```
{
    "Artist": {"S": "No One You Know"},
    "SongTitle": {"S": "Call Me Today"},
    "AlbumTitle": {"S": "Greatest Hits"}
}
```
Output:  

```
{
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 1.0
    },
    "ItemCollectionMetrics": {
        "ItemCollectionKey": {
            "Artist": {
                "S": "No One You Know"
            }
        },
        "SizeEstimateRangeGB": [
            0.0,
            1.0
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menulis Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.WritingData) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 2: Untuk menimpa item secara kondisional dalam tabel**  
`put-item`Contoh berikut menimpa item yang ada dalam `MusicCollection` tabel hanya jika item yang ada memiliki `AlbumTitle` atribut dengan nilai. `Greatest Hits` Perintah mengembalikan nilai item sebelumnya.  

```
aws dynamodb put-item \
    --table-name MusicCollection \
    --item file://item.json \
    --condition-expression "#A = :A" \
    --expression-attribute-names file://names.json \
    --expression-attribute-values file://values.json \
    --return-values ALL_OLD
```
Isi dari `item.json`:  

```
{
    "Artist": {"S": "No One You Know"},
    "SongTitle": {"S": "Call Me Today"},
    "AlbumTitle": {"S": "Somewhat Famous"}
}
```
Isi dari `names.json`:  

```
{
    "#A": "AlbumTitle"
}
```
Isi dari `values.json`:  

```
{
    ":A": {"S": "Greatest Hits"}
}
```
Output:  

```
{
    "Attributes": {
        "AlbumTitle": {
            "S": "Greatest Hits"
        },
        "Artist": {
            "S": "No One You Know"
        },
        "SongTitle": {
            "S": "Call Me Today"
        }
    }
}
```
Jika kunci sudah ada, Anda akan melihat output berikut:  

```
A client error (ConditionalCheckFailedException) occurred when calling the PutItem operation: The conditional request failed.
```
Untuk informasi selengkapnya, lihat [Menulis Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.WritingData) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [PutItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/put-item.html)di *Referensi AWS CLI Perintah*. 

### `query`
<a name="dynamodb_Query_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`query`.

**AWS CLI**  
**Contoh 1: Untuk menanyakan tabel**  
`query`Contoh berikut query item dalam `MusicCollection` tabel. Tabel memiliki kunci hash-and-range utama (`Artist`dan`SongTitle`), tetapi kueri ini hanya menentukan nilai kunci hash. Ini mengembalikan judul lagu oleh artis bernama “No One You Know”.  

```
aws dynamodb query \
    --table-name MusicCollection \
    --projection-expression "SongTitle" \
    --key-condition-expression "Artist = :v1" \
    --expression-attribute-values file://expression-attributes.json \
    --return-consumed-capacity TOTAL
```
Isi dari `expression-attributes.json`:  

```
{
    ":v1": {"S": "No One You Know"}
}
```
Output:  

```
{
    "Items": [
        {
            "SongTitle": {
                "S": "Call Me Today"
            },
            "SongTitle": {
                "S": "Scared of My Shadow"
            }
        }
    ],
    "Count": 2,
    "ScannedCount": 2,
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 0.5
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Kueri di DynamoDB di](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Query.html) Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 2: Untuk menanyakan tabel menggunakan pembacaan yang sangat konsisten dan melintasi indeks dalam urutan menurun**  
Contoh berikut melakukan kueri yang sama dengan contoh pertama, tetapi mengembalikan hasil dalam urutan terbalik dan menggunakan pembacaan yang sangat konsisten.  

```
aws dynamodb query \
    --table-name MusicCollection \
    --projection-expression "SongTitle" \
    --key-condition-expression "Artist = :v1" \
    --expression-attribute-values file://expression-attributes.json \
    --consistent-read \
    --no-scan-index-forward \
    --return-consumed-capacity TOTAL
```
Isi dari `expression-attributes.json`:  

```
{
    ":v1": {"S": "No One You Know"}
}
```
Output:  

```
{
    "Items": [
        {
            "SongTitle": {
                "S": "Scared of My Shadow"
            }
        },
        {
            "SongTitle": {
                "S": "Call Me Today"
            }
        }
    ],
    "Count": 2,
    "ScannedCount": 2,
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 1.0
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Kueri di DynamoDB di](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Query.html) Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 3: Untuk menyaring hasil tertentu**  
Contoh berikut query `MusicCollection` tetapi mengecualikan hasil dengan nilai-nilai tertentu dalam atribut. `AlbumTitle` Perhatikan bahwa ini tidak mempengaruhi `ScannedCount` atau`ConsumedCapacity`, karena filter diterapkan setelah item telah dibaca.  

```
aws dynamodb query \
    --table-name MusicCollection \
    --key-condition-expression "#n1 = :v1" \
    --filter-expression "NOT (#n2 IN (:v2, :v3))" \
    --expression-attribute-names file://names.json \
    --expression-attribute-values file://values.json \
    --return-consumed-capacity TOTAL
```
Isi dari `values.json`:  

```
{
    ":v1": {"S": "No One You Know"},
    ":v2": {"S": "Blue Sky Blues"},
    ":v3": {"S": "Greatest Hits"}
}
```
Isi dari `names.json`:  

```
{
    "#n1": "Artist",
    "#n2": "AlbumTitle"
}
```
Output:  

```
{
    "Items": [
        {
            "AlbumTitle": {
                "S": "Somewhat Famous"
            },
            "Artist": {
                "S": "No One You Know"
            },
            "SongTitle": {
                "S": "Call Me Today"
            }
        }
    ],
    "Count": 1,
    "ScannedCount": 2,
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 0.5
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Kueri di DynamoDB di](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Query.html) Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 4: Untuk mengambil hanya jumlah item**  
Contoh berikut mengambil hitungan item yang cocok dengan query, tetapi tidak mengambil salah satu item itu sendiri.  

```
aws dynamodb query \
    --table-name MusicCollection \
    --select COUNT \
    --key-condition-expression "Artist = :v1" \
    --expression-attribute-values file://expression-attributes.json
```
Isi dari `expression-attributes.json`:  

```
{
    ":v1": {"S": "No One You Know"}
}
```
Output:  

```
{
    "Count": 2,
    "ScannedCount": 2,
    "ConsumedCapacity": null
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Kueri di DynamoDB di](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Query.html) Panduan Pengembang Amazon *DynamoDB*.  
**Contoh 5: Untuk menanyakan indeks**  
Contoh berikut query indeks `AlbumTitleIndex` sekunder lokal. Query mengembalikan semua atribut dari tabel dasar yang telah diproyeksikan ke indeks sekunder lokal. Perhatikan bahwa saat menanyakan indeks sekunder lokal atau indeks sekunder global, Anda juga harus memberikan nama tabel dasar menggunakan `table-name` parameter.  

```
aws dynamodb query \
    --table-name MusicCollection \
    --index-name AlbumTitleIndex \
    --key-condition-expression "Artist = :v1" \
    --expression-attribute-values file://expression-attributes.json \
    --select ALL_PROJECTED_ATTRIBUTES \
    --return-consumed-capacity INDEXES
```
Isi dari `expression-attributes.json`:  

```
{
    ":v1": {"S": "No One You Know"}
}
```
Output:  

```
{
    "Items": [
        {
            "AlbumTitle": {
                "S": "Blue Sky Blues"
            },
            "Artist": {
                "S": "No One You Know"
            },
            "SongTitle": {
                "S": "Scared of My Shadow"
            }
        },
        {
            "AlbumTitle": {
                "S": "Somewhat Famous"
            },
            "Artist": {
                "S": "No One You Know"
            },
            "SongTitle": {
                "S": "Call Me Today"
            }
        }
    ],
    "Count": 2,
    "ScannedCount": 2,
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 0.5,
        "Table": {
            "CapacityUnits": 0.0
        },
        "LocalSecondaryIndexes": {
            "AlbumTitleIndex": {
                "CapacityUnits": 0.5
            }
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Kueri di DynamoDB di](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Query.html) Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [Kueri](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/query.html) di *Referensi Perintah AWS CLI *. 

### `restore-table-from-backup`
<a name="dynamodb_RestoreTableFromBackup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-table-from-backup`.

**AWS CLI**  
**Untuk mengembalikan tabel DynamoDB dari cadangan yang ada**  
`restore-table-from-backup`Contoh berikut mengembalikan tabel yang ditentukan dari cadangan yang ada.  

```
aws dynamodb restore-table-from-backup \
    --target-table-name MusicCollection \
    --backup-arnarn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01576616366715-b4e58d3a
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollection2",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": 1576618274.326,
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 5,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection2",
        "TableId": "114865c9-5ef3-496c-b4d1-c4cbdd2d44fb",
        "BillingModeSummary": {
            "BillingMode": "PROVISIONED"
        },
        "RestoreSummary": {
            "SourceBackupArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/backup/01576616366715-b4e58d3a",
            "SourceTableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "RestoreDateTime": 1576616366.715,
            "RestoreInProgress": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Pencadangan dan Pemulihan Sesuai Permintaan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/BackupRestore.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [RestoreTableFromBackup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/restore-table-from-backup.html)di *Referensi AWS CLI Perintah*. 

### `restore-table-to-point-in-time`
<a name="dynamodb_RestoreTableToPointInTime_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-table-to-point-in-time`.

**AWS CLI**  
**Untuk mengembalikan tabel DynamoDB ke titik waktu**  
`restore-table-to-point-in-time`Contoh berikut mengembalikan `MusicCollection` tabel ke titik waktu yang ditentukan.  

```
aws dynamodb restore-table-to-point-in-time \
    --source-table-name MusicCollection \
    --target-table-name MusicCollectionRestore \
    --restore-date-time 1576622404.0
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollectionRestore",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "CREATING",
        "CreationDateTime": 1576623311.86,
        "ProvisionedThroughput": {
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 5,
            "WriteCapacityUnits": 5
        },
        "TableSizeBytes": 0,
        "ItemCount": 0,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollectionRestore",
        "TableId": "befd9e0e-1843-4dc6-a147-d6d00e85cb1f",
        "BillingModeSummary": {
            "BillingMode": "PROVISIONED"
        },
        "RestoreSummary": {
            "SourceTableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
            "RestoreDateTime": 1576622404.0,
            "RestoreInProgress": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Point-in-Time Pemulihan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/PointInTimeRecovery.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [RestoreTableToPointInTime](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/restore-table-to-point-in-time.html)di *Referensi AWS CLI Perintah*. 

### `scan`
<a name="dynamodb_Scan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`scan`.

**AWS CLI**  
**Untuk memindai tabel**  
`scan`Contoh berikut memindai seluruh `MusicCollection` tabel, dan kemudian mempersempit hasilnya menjadi lagu-lagu oleh artis “No One You Know”. Untuk setiap item, hanya judul album dan judul lagu yang dikembalikan.  

```
aws dynamodb scan \
    --table-name MusicCollection \
    --filter-expression "Artist = :a" \
    --projection-expression "#ST, #AT" \
    --expression-attribute-names file://expression-attribute-names.json \
    --expression-attribute-values file://expression-attribute-values.json
```
Isi dari `expression-attribute-names.json`:  

```
{
    "#ST": "SongTitle",
    "#AT":"AlbumTitle"
}
```
Isi dari `expression-attribute-values.json`:  

```
{
    ":a": {"S": "No One You Know"}
}
```
Output:  

```
{
    "Count": 2,
    "Items": [
        {
            "SongTitle": {
                "S": "Call Me Today"
            },
            "AlbumTitle": {
                "S": "Somewhat Famous"
            }
        },
        {
            "SongTitle": {
                "S": "Scared of My Shadow"
            },
            "AlbumTitle": {
                "S": "Blue Sky Blues"
            }
        }
    ],
    "ScannedCount": 3,
    "ConsumedCapacity": null
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Pemindaian di DynamoDB di](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Scan.html) Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [Scan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/scan.html) in *Referensi Perintah AWS CLI *. 

### `tag-resource`
<a name="dynamodb_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya DynamoDB**  
`tag-resource`Contoh berikut menambahkan key/value pasangan tag ke `MusicCollection` tabel.  

```
aws dynamodb tag-resource \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection \
    --tags Key=Owner,Value=blueTeam
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Tagging.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `transact-get-items`
<a name="dynamodb_TransactGetItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`transact-get-items`.

**AWS CLI**  
**Untuk mengambil beberapa item secara atom dari satu atau beberapa tabel**  
`transact-get-items`Contoh berikut mengambil beberapa item secara atom.  

```
aws dynamodb transact-get-items \
    --transact-items file://transact-items.json \
    --return-consumed-capacity TOTAL
```
Isi dari `transact-items.json`:  

```
[
    {
        "Get": {
            "Key": {
                "Artist": {"S": "Acme Band"},
                "SongTitle": {"S": "Happy Day"}
            },
            "TableName": "MusicCollection"
        }
    },
    {
        "Get": {
            "Key": {
                "Artist": {"S": "No One You Know"},
                "SongTitle": {"S": "Call Me Today"}
            },
            "TableName": "MusicCollection"
        }
    }
]
```
Output:  

```
{
    "ConsumedCapacity": [
        {
            "TableName": "MusicCollection",
            "CapacityUnits": 4.0,
            "ReadCapacityUnits": 4.0
        }
    ],
    "Responses": [
        {
            "Item": {
                "AlbumTitle": {
                    "S": "Songs About Life"
                },
                "Artist": {
                    "S": "Acme Band"
                },
                "SongTitle": {
                    "S": "Happy Day"
                }
            }
        },
        {
            "Item": {
                "AlbumTitle": {
                    "S": "Somewhat Famous"
                },
                "Artist": {
                    "S": "No One You Know"
                },
                "SongTitle": {
                    "S": "Call Me Today"
                }
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Alur Kerja Kompleks dengan Transaksi DynamoDB di Panduan Pengembang Amazon *DynamoDB*](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/transactions.html).  
+  Untuk detail API, lihat [TransactGetItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/transact-get-items.html)di *Referensi AWS CLI Perintah*. 

### `transact-write-items`
<a name="dynamodb_TransactWriteItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`transact-write-items`.

**AWS CLI**  
**Contoh 1: Untuk menulis item secara atom ke satu atau lebih tabel**  
`transact-write-items`Contoh berikut memperbarui satu item dan menghapus yang lain. Operasi gagal jika salah satu operasi gagal, atau jika salah satu item berisi `Rating` atribut.  

```
aws dynamodb transact-write-items \
    --transact-items file://transact-items.json \
    --return-consumed-capacity TOTAL \
    --return-item-collection-metrics SIZE
```
Isi `transact-items.json` file:  

```
[
    {
        "Update": {
            "Key": {
                "Artist": {"S": "Acme Band"},
                "SongTitle": {"S": "Happy Day"}
            },
            "UpdateExpression": "SET AlbumTitle = :newval",
            "ExpressionAttributeValues": {
                ":newval": {"S": "Updated Album Title"}
            },
            "TableName": "MusicCollection",
            "ConditionExpression": "attribute_not_exists(Rating)"
        }
    },
    {
        "Delete": {
            "Key": {
                "Artist": {"S": "No One You Know"},
                "SongTitle": {"S": "Call Me Today"}
            },
            "TableName": "MusicCollection",
            "ConditionExpression": "attribute_not_exists(Rating)"
        }
    }
]
```
Output:  

```
{
    "ConsumedCapacity": [
        {
            "TableName": "MusicCollection",
            "CapacityUnits": 10.0,
            "WriteCapacityUnits": 10.0
        }
    ],
    "ItemCollectionMetrics": {
        "MusicCollection": [
            {
                "ItemCollectionKey": {
                    "Artist": {
                        "S": "No One You Know"
                    }
                },
                "SizeEstimateRangeGB": [
                    0.0,
                    1.0
                ]
            },
            {
                "ItemCollectionKey": {
                    "Artist": {
                        "S": "Acme Band"
                    }
                },
                "SizeEstimateRangeGB": [
                    0.0,
                    1.0
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Alur Kerja Kompleks dengan Transaksi DynamoDB di Panduan Pengembang Amazon *DynamoDB*](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/transactions.html).  
**Contoh 2: Untuk menulis item secara atom menggunakan token permintaan klien**  
Perintah berikut menggunakan token permintaan klien untuk membuat panggilan ke `transact-write-items` idempoten, yang berarti bahwa beberapa panggilan memiliki efek yang sama dengan satu panggilan tunggal.  

```
aws dynamodb transact-write-items \
    --transact-items file://transact-items.json \
    --client-request-token abc123
```
Isi `transact-items.json` file:  

```
[
    {
        "Update": {
            "Key": {
                "Artist": {"S": "Acme Band"},
                "SongTitle": {"S": "Happy Day"}
            },
            "UpdateExpression": "SET AlbumTitle = :newval",
            "ExpressionAttributeValues": {
                ":newval": {"S": "Updated Album Title"}
            },
            "TableName": "MusicCollection",
            "ConditionExpression": "attribute_not_exists(Rating)"
        }
    },
    {
        "Delete": {
            "Key": {
                "Artist": {"S": "No One You Know"},
                "SongTitle": {"S": "Call Me Today"}
            },
            "TableName": "MusicCollection",
            "ConditionExpression": "attribute_not_exists(Rating)"
        }
    }
]
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Alur Kerja Kompleks dengan Transaksi DynamoDB di Panduan Pengembang Amazon *DynamoDB*](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/transactions.html).  
+  Untuk detail API, lihat [TransactWriteItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/transact-write-items.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="dynamodb_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya DynamoDB**  
`untag-resource`Contoh berikut menghapus tag dengan kunci `Owner` dari `MusicCollection` tabel.  

```
aws dynamodb untag-resource \
    --resource-arn arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection \
    --tag-keys Owner
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Tagging.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-continuous-backups`
<a name="dynamodb_UpdateContinuousBackups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-continuous-backups`.

**AWS CLI**  
**Untuk memperbarui pengaturan cadangan berkelanjutan untuk tabel DynamoDB**  
`update-continuous-backups`Contoh berikut memungkinkan point-in-time pemulihan untuk `MusicCollection` tabel.  

```
aws dynamodb update-continuous-backups \
    --table-name MusicCollection \
    --point-in-time-recovery-specification PointInTimeRecoveryEnabled=true
```
Output:  

```
{
    "ContinuousBackupsDescription": {
        "ContinuousBackupsStatus": "ENABLED",
        "PointInTimeRecoveryDescription": {
            "PointInTimeRecoveryStatus": "ENABLED",
            "EarliestRestorableDateTime": 1576622404.0,
            "LatestRestorableDateTime": 1576622404.0
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Point-in-Time Pemulihan untuk DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/PointInTimeRecovery.html) di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [UpdateContinuousBackups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/update-continuous-backups.html)di *Referensi AWS CLI Perintah*. 

### `update-contributor-insights`
<a name="dynamodb_UpdateContributorInsights_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-contributor-insights`.

**AWS CLI**  
**Untuk mengaktifkan Contributor Insights pada tabel**  
`update-contributor-insights`Contoh berikut memungkinkan Contributor Insights pada `MusicCollection` tabel dan indeks sekunder `AlbumTitle-index` global.  

```
aws dynamodb update-contributor-insights \
    --table-name MusicCollection \
    --index-name AlbumTitle-index \
    --contributor-insights-action ENABLE
```
Output:  

```
{
    "TableName": "MusicCollection",
    "IndexName": "AlbumTitle-index",
    "ContributorInsightsStatus": "ENABLING"
}
```
*Untuk informasi selengkapnya, lihat [Menganalisis Akses Data Menggunakan Wawasan CloudWatch Kontributor untuk DynamoDB di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/contributorinsights.html).*  
+  Untuk detail API, lihat [UpdateContributorInsights](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/update-contributor-insights.html)di *Referensi AWS CLI Perintah*. 

### `update-global-table-settings`
<a name="dynamodb_UpdateGlobalTableSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-global-table-settings`.

**AWS CLI**  
**Untuk memperbarui pengaturan kapasitas tulis yang disediakan pada tabel global DynamoDB**  
`update-global-table-settings`Contoh berikut menetapkan kapasitas tulis yang disediakan dari tabel `MusicCollection` global menjadi 15.  

```
aws dynamodb update-global-table-settings \
    --global-table-name MusicCollection \
    --global-table-provisioned-write-capacity-units 15
```
Output:  

```
{
    "GlobalTableName": "MusicCollection",
    "ReplicaSettings": [
        {
            "RegionName": "eu-west-1",
            "ReplicaStatus": "UPDATING",
            "ReplicaProvisionedReadCapacityUnits": 10,
            "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            },
            "ReplicaProvisionedWriteCapacityUnits": 10,
            "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            }
        },
        {
            "RegionName": "us-east-1",
            "ReplicaStatus": "UPDATING",
            "ReplicaProvisionedReadCapacityUnits": 10,
            "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            },
            "ReplicaProvisionedWriteCapacityUnits": 10,
            "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            }
        },
        {
            "RegionName": "us-east-2",
            "ReplicaStatus": "UPDATING",
            "ReplicaProvisionedReadCapacityUnits": 10,
            "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            },
            "ReplicaProvisionedWriteCapacityUnits": 10,
            "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                "AutoScalingDisabled": true
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [DynamoDB Global](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GlobalTables.html) Tables di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [UpdateGlobalTableSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/update-global-table-settings.html)di *Referensi AWS CLI Perintah*. 

### `update-global-table`
<a name="dynamodb_UpdateGlobalTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-global-table`.

**AWS CLI**  
**Untuk memperbarui tabel global DynamoDB**  
`update-global-table`Contoh berikut menambahkan replika di Region tertentu ke tabel `MusicCollection` global.  

```
aws dynamodb update-global-table \
    --global-table-name MusicCollection \
    --replica-updates Create={RegionName=eu-west-1}
```
Output:  

```
{
    "GlobalTableDescription": {
        "ReplicationGroup": [
            {
                "RegionName": "eu-west-1"
            },
            {
                "RegionName": "us-east-2"
            },
            {
                "RegionName": "us-east-1"
            }
        ],
        "GlobalTableArn": "arn:aws:dynamodb::123456789012:global-table/MusicCollection",
        "CreationDateTime": 1576625818.532,
        "GlobalTableStatus": "ACTIVE",
        "GlobalTableName": "MusicCollection"
    }
}
```
Untuk informasi selengkapnya, lihat [DynamoDB Global](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GlobalTables.html) Tables di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [UpdateGlobalTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/update-global-table.html)di *Referensi AWS CLI Perintah*. 

### `update-item`
<a name="dynamodb_UpdateItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-item`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui item dalam tabel**  
Contoh `update-item` berikut memperbarui item dalam tabel `MusicCollection`. Ia menambahkan atribut baru (`Year`) dan memodifikasi `AlbumTitle` atribut. Semua atribut dalam item, seperti yang muncul setelah pembaruan, dikembalikan sebagai respons.  

```
aws dynamodb update-item \
    --table-name MusicCollection \
    --key file://key.json \
    --update-expression "SET #Y = :y, #AT = :t" \
    --expression-attribute-names file://expression-attribute-names.json \
    --expression-attribute-values file://expression-attribute-values.json  \
    --return-values ALL_NEW \
    --return-consumed-capacity TOTAL \
    --return-item-collection-metrics SIZE
```
Isi dari `key.json`:  

```
{
    "Artist": {"S": "Acme Band"},
    "SongTitle": {"S": "Happy Day"}
}
```
Isi dari `expression-attribute-names.json`:  

```
{
    "#Y":"Year", "#AT":"AlbumTitle"
}
```
Isi dari `expression-attribute-values.json`:  

```
{
    ":y":{"N": "2015"},
    ":t":{"S": "Louder Than Ever"}
}
```
Output:  

```
{
    "Attributes": {
        "AlbumTitle": {
            "S": "Louder Than Ever"
        },
        "Awards": {
            "N": "10"
        },
        "Artist": {
            "S": "Acme Band"
        },
        "Year": {
            "N": "2015"
        },
        "SongTitle": {
            "S": "Happy Day"
        }
    },
    "ConsumedCapacity": {
        "TableName": "MusicCollection",
        "CapacityUnits": 3.0
    },
    "ItemCollectionMetrics": {
        "ItemCollectionKey": {
            "Artist": {
                "S": "Acme Band"
            }
        },
        "SizeEstimateRangeGB": [
            0.0,
            1.0
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menulis Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.WritingData) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 2: Untuk memperbarui item secara kondisional**  
Contoh berikut memperbarui item dalam `MusicCollection` tabel, tetapi hanya jika item yang ada belum memiliki `Year` atribut.  

```
aws dynamodb update-item \
    --table-name MusicCollection \
    --key file://key.json \
    --update-expression "SET #Y = :y, #AT = :t" \
    --expression-attribute-names file://expression-attribute-names.json \
    --expression-attribute-values file://expression-attribute-values.json  \
    --condition-expression "attribute_not_exists(#Y)"
```
Isi dari `key.json`:  

```
{
    "Artist": {"S": "Acme Band"},
    "SongTitle": {"S": "Happy Day"}
}
```
Isi dari `expression-attribute-names.json`:  

```
{
    "#Y":"Year",
    "#AT":"AlbumTitle"
}
```
Isi dari `expression-attribute-values.json`:  

```
{
    ":y":{"N": "2015"},
    ":t":{"S": "Louder Than Ever"}
}
```
Jika item sudah memiliki `Year` atribut, DynamoDB mengembalikan output berikut.  

```
An error occurred (ConditionalCheckFailedException) when calling the UpdateItem operation: The conditional request failed
```
Untuk informasi selengkapnya, lihat [Menulis Item](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithItems.html#WorkingWithItems.WritingData) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [UpdateItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/update-item.html)di *Referensi AWS CLI Perintah*. 

### `update-table-replica-auto-scaling`
<a name="dynamodb_UpdateTableReplicaAutoScaling_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-table-replica-auto-scaling`.

**AWS CLI**  
**Untuk memperbarui pengaturan penskalaan otomatis di seluruh replika tabel global**  
`update-table-replica-auto-scaling`Contoh berikut memperbarui pengaturan penskalaan otomatis kapasitas tulis di seluruh replika tabel global yang ditentukan.  

```
aws dynamodb update-table-replica-auto-scaling \
    --table-name MusicCollection \
    --provisioned-write-capacity-auto-scaling-update file://auto-scaling-policy.json
```
Isi dari `auto-scaling-policy.json`:  

```
{
    "MinimumUnits": 10,
    "MaximumUnits": 100,
    "AutoScalingDisabled": false,
    "ScalingPolicyUpdate": {
        "PolicyName": "DynamoDBWriteCapacityUtilization:table/MusicCollection",
        "TargetTrackingScalingPolicyConfiguration": {
            "TargetValue": 80
        }
    }
}
```
Output:  

```
{
    "TableAutoScalingDescription": {
        "TableName": "MusicCollection",
        "TableStatus": "ACTIVE",
        "Replicas": [
            {
                "RegionName": "eu-central-1",
                "GlobalSecondaryIndexes": [],
                "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                    "MinimumUnits": 5,
                    "MaximumUnits": 40000,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBReadCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 70.0
                            }
                        }
                    ]
                },
                "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                    "MinimumUnits": 10,
                    "MaximumUnits": 100,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBWriteCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 80.0
                            }
                        }
                    ]
                },
                "ReplicaStatus": "ACTIVE"
            },
            {
                "RegionName": "us-east-1",
                "GlobalSecondaryIndexes": [],
                "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                    "MinimumUnits": 5,
                    "MaximumUnits": 40000,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBReadCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 70.0
                            }
                        }
                    ]
                },
                "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                    "MinimumUnits": 10,
                    "MaximumUnits": 100,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBWriteCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 80.0
                            }
                        }
                    ]
                },
                "ReplicaStatus": "ACTIVE"
            },
            {
                "RegionName": "us-east-2",
                "GlobalSecondaryIndexes": [],
                "ReplicaProvisionedReadCapacityAutoScalingSettings": {
                    "MinimumUnits": 5,
                    "MaximumUnits": 40000,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBReadCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 70.0
                            }
                        }
                    ]
                },
                "ReplicaProvisionedWriteCapacityAutoScalingSettings": {
                    "MinimumUnits": 10,
                    "MaximumUnits": 100,
                    "AutoScalingRoleArn": "arn:aws:iam::123456789012:role/aws-service-role/dynamodb.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_DynamoDBTable",
                    "ScalingPolicies": [
                        {
                            "PolicyName": "DynamoDBWriteCapacityUtilization:table/MusicCollection",
                            "TargetTrackingScalingPolicyConfiguration": {
                                "TargetValue": 80.0
                            }
                        }
                    ]
                },
                "ReplicaStatus": "ACTIVE"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [DynamoDB Global](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GlobalTables.html) Tables di Panduan Pengembang Amazon *DynamoDB*.  
+  Untuk detail API, lihat [UpdateTableReplicaAutoScaling](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/update-table-replica-auto-scaling.html)di *Referensi AWS CLI Perintah*. 

### `update-table`
<a name="dynamodb_UpdateTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-table`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi mode penagihan tabel**  
`update-table`Contoh berikut meningkatkan kapasitas baca dan tulis yang disediakan di atas meja. `MusicCollection`  

```
aws dynamodb update-table \
    --table-name MusicCollection \
    --billing-mode PROVISIONED \
    --provisioned-throughput ReadCapacityUnits=15,WriteCapacityUnits=10
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "AlbumTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollection",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "UPDATING",
        "CreationDateTime": "2020-05-26T15:59:49.473000-07:00",
        "ProvisionedThroughput": {
            "LastIncreaseDateTime": "2020-07-28T13:18:18.921000-07:00",
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 15,
            "WriteCapacityUnits": 10
        },
        "TableSizeBytes": 182,
        "ItemCount": 2,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
        "TableId": "abcd0123-01ab-23cd-0123-abcdef123456",
        "BillingModeSummary": {
            "BillingMode": "PROVISIONED",
            "LastUpdateToPayPerRequestDateTime": "2020-07-28T13:14:48.366000-07:00"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.UpdateTable) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 2: Untuk membuat indeks sekunder global**  
Contoh berikut menambahkan indeks sekunder global ke `MusicCollection` tabel.  

```
aws dynamodb update-table \
    --table-name MusicCollection \
    --attribute-definitions AttributeName=AlbumTitle,AttributeType=S \
    --global-secondary-index-updates file://gsi-updates.json
```
Isi dari `gsi-updates.json`:  

```
[
    {
        "Create": {
            "IndexName": "AlbumTitle-index",
            "KeySchema": [
                {
                    "AttributeName": "AlbumTitle",
                    "KeyType": "HASH"
                }
            ],
            "ProvisionedThroughput": {
                "ReadCapacityUnits": 10,
                "WriteCapacityUnits": 10
            },
            "Projection": {
                "ProjectionType": "ALL"
            }
        }
    }
]
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "AlbumTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollection",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "UPDATING",
        "CreationDateTime": "2020-05-26T15:59:49.473000-07:00",
        "ProvisionedThroughput": {
            "LastIncreaseDateTime": "2020-07-28T12:59:17.537000-07:00",
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 15,
            "WriteCapacityUnits": 10
        },
        "TableSizeBytes": 182,
        "ItemCount": 2,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
        "TableId": "abcd0123-01ab-23cd-0123-abcdef123456",
        "BillingModeSummary": {
            "BillingMode": "PROVISIONED",
            "LastUpdateToPayPerRequestDateTime": "2020-07-28T13:14:48.366000-07:00"
        },
        "GlobalSecondaryIndexes": [
            {
                "IndexName": "AlbumTitle-index",
                "KeySchema": [
                    {
                        "AttributeName": "AlbumTitle",
                        "KeyType": "HASH"
                    }
                ],
                "Projection": {
                    "ProjectionType": "ALL"
                },
                "IndexStatus": "CREATING",
                "Backfilling": false,
                "ProvisionedThroughput": {
                    "NumberOfDecreasesToday": 0,
                    "ReadCapacityUnits": 10,
                    "WriteCapacityUnits": 10
                },
                "IndexSizeBytes": 0,
                "ItemCount": 0,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/index/AlbumTitle-index"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.UpdateTable) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 3: Untuk mengaktifkan DynamoDB Streams di atas meja**  
Perintah berikut memungkinkan DynamoDB Streams di atas meja. `MusicCollection`  

```
aws dynamodb update-table \
    --table-name MusicCollection \
    --stream-specification StreamEnabled=true,StreamViewType=NEW_IMAGE
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "AlbumTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollection",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "UPDATING",
        "CreationDateTime": "2020-05-26T15:59:49.473000-07:00",
        "ProvisionedThroughput": {
            "LastIncreaseDateTime": "2020-07-28T12:59:17.537000-07:00",
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 15,
            "WriteCapacityUnits": 10
        },
        "TableSizeBytes": 182,
        "ItemCount": 2,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
        "TableId": "abcd0123-01ab-23cd-0123-abcdef123456",
        "BillingModeSummary": {
            "BillingMode": "PROVISIONED",
            "LastUpdateToPayPerRequestDateTime": "2020-07-28T13:14:48.366000-07:00"
        },
        "LocalSecondaryIndexes": [
            {
                "IndexName": "AlbumTitleIndex",
                "KeySchema": [
                    {
                        "AttributeName": "Artist",
                        "KeyType": "HASH"
                    },
                    {
                        "AttributeName": "AlbumTitle",
                        "KeyType": "RANGE"
                    }
                ],
                "Projection": {
                    "ProjectionType": "INCLUDE",
                    "NonKeyAttributes": [
                        "Year",
                        "Genre"
                    ]
                },
                "IndexSizeBytes": 139,
                "ItemCount": 2,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/index/AlbumTitleIndex"
            }
        ],
        "GlobalSecondaryIndexes": [
            {
                "IndexName": "AlbumTitle-index",
                "KeySchema": [
                    {
                        "AttributeName": "AlbumTitle",
                        "KeyType": "HASH"
                    }
                ],
                "Projection": {
                    "ProjectionType": "ALL"
                },
                "IndexStatus": "ACTIVE",
                "ProvisionedThroughput": {
                    "NumberOfDecreasesToday": 0,
                    "ReadCapacityUnits": 10,
                    "WriteCapacityUnits": 10
                },
                "IndexSizeBytes": 0,
                "ItemCount": 0,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/index/AlbumTitle-index"
            }
        ],
        "StreamSpecification": {
            "StreamEnabled": true,
            "StreamViewType": "NEW_IMAGE"
        },
        "LatestStreamLabel": "2020-07-28T21:53:39.112",
        "LatestStreamArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/stream/2020-07-28T21:53:39.112"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.UpdateTable) di Panduan Pengembang *Amazon DynamoDB*.  
**Contoh 4: Untuk mengaktifkan enkripsi sisi server**  
Contoh berikut memungkinkan enkripsi sisi server di atas meja. `MusicCollection`  

```
aws dynamodb update-table \
    --table-name MusicCollection \
    --sse-specification Enabled=true,SSEType=KMS
```
Output:  

```
{
    "TableDescription": {
        "AttributeDefinitions": [
            {
                "AttributeName": "AlbumTitle",
                "AttributeType": "S"
            },
            {
                "AttributeName": "Artist",
                "AttributeType": "S"
            },
            {
                "AttributeName": "SongTitle",
                "AttributeType": "S"
            }
        ],
        "TableName": "MusicCollection",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "TableStatus": "ACTIVE",
        "CreationDateTime": "2020-05-26T15:59:49.473000-07:00",
        "ProvisionedThroughput": {
            "LastIncreaseDateTime": "2020-07-28T12:59:17.537000-07:00",
            "NumberOfDecreasesToday": 0,
            "ReadCapacityUnits": 15,
            "WriteCapacityUnits": 10
        },
        "TableSizeBytes": 182,
        "ItemCount": 2,
        "TableArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection",
        "TableId": "abcd0123-01ab-23cd-0123-abcdef123456",
        "BillingModeSummary": {
            "BillingMode": "PROVISIONED",
            "LastUpdateToPayPerRequestDateTime": "2020-07-28T13:14:48.366000-07:00"
        },
        "LocalSecondaryIndexes": [
            {
                "IndexName": "AlbumTitleIndex",
                "KeySchema": [
                    {
                        "AttributeName": "Artist",
                        "KeyType": "HASH"
                    },
                    {
                        "AttributeName": "AlbumTitle",
                        "KeyType": "RANGE"
                    }
                ],
                "Projection": {
                    "ProjectionType": "INCLUDE",
                    "NonKeyAttributes": [
                        "Year",
                        "Genre"
                    ]
                },
                "IndexSizeBytes": 139,
                "ItemCount": 2,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/index/AlbumTitleIndex"
            }
        ],
        "GlobalSecondaryIndexes": [
            {
                "IndexName": "AlbumTitle-index",
                "KeySchema": [
                    {
                        "AttributeName": "AlbumTitle",
                        "KeyType": "HASH"
                    }
                ],
                "Projection": {
                    "ProjectionType": "ALL"
                },
                "IndexStatus": "ACTIVE",
                "ProvisionedThroughput": {
                    "NumberOfDecreasesToday": 0,
                    "ReadCapacityUnits": 10,
                    "WriteCapacityUnits": 10
                },
                "IndexSizeBytes": 0,
                "ItemCount": 0,
                "IndexArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/index/AlbumTitle-index"
            }
        ],
        "StreamSpecification": {
            "StreamEnabled": true,
            "StreamViewType": "NEW_IMAGE"
        },
        "LatestStreamLabel": "2020-07-28T21:53:39.112",
        "LatestStreamArn": "arn:aws:dynamodb:us-west-2:123456789012:table/MusicCollection/stream/2020-07-28T21:53:39.112",
        "SSEDescription": {
            "Status": "UPDATING"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Tabel](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/WorkingWithTables.Basics.html#WorkingWithTables.Basics.UpdateTable) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [UpdateTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/update-table.html)di *Referensi AWS CLI Perintah*. 

### `update-time-to-live`
<a name="dynamodb_UpdateTimeToLive_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-time-to-live`.

**AWS CLI**  
**Untuk memperbarui pengaturan Waktu ke Langsung di atas meja**  
`update-time-to-live`Contoh berikut memungkinkan Time to Live pada tabel yang ditentukan.  

```
aws dynamodb update-time-to-live \
    --table-name MusicCollection \
    --time-to-live-specification Enabled=true,AttributeName=ttl
```
Output:  

```
{
    "TimeToLiveSpecification": {
        "Enabled": true,
        "AttributeName": "ttl"
    }
}
```
Untuk informasi selengkapnya, lihat [Waktu untuk Hidup](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/TTL.html) di Panduan Pengembang *Amazon DynamoDB*.  
+  Untuk detail API, lihat [UpdateTimeToLive](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodb/update-time-to-live.html)di *Referensi AWS CLI Perintah*. 

# Contoh DynamoDB Streams menggunakan AWS CLI
<a name="cli_2_dynamodb-streams_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan DynamoDB Streams AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-stream`
<a name="dynamodb-streams_DescribeStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stream`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang aliran DynamoDB**  
`describe-stream`Perintah berikut menampilkan informasi tentang aliran DynamoDB tertentu.  

```
aws dynamodbstreams describe-stream \
    --stream-arn arn:aws:dynamodb:us-west-1:123456789012:table/Music/stream/2019-10-22T18:02:01.576
```
Output:  

```
{
    "StreamDescription": {
        "StreamArn": "arn:aws:dynamodb:us-west-1:123456789012:table/Music/stream/2019-10-22T18:02:01.576",
        "StreamLabel": "2019-10-22T18:02:01.576",
        "StreamStatus": "ENABLED",
        "StreamViewType": "NEW_AND_OLD_IMAGES",
        "CreationRequestDateTime": 1571767321.571,
        "TableName": "Music",
        "KeySchema": [
            {
                "AttributeName": "Artist",
                "KeyType": "HASH"
            },
            {
                "AttributeName": "SongTitle",
                "KeyType": "RANGE"
            }
        ],
        "Shards": [
            {
                "ShardId": "shardId-00000001571767321804-697ce3d2",
                "SequenceNumberRange": {
                    "StartingSequenceNumber": "4000000000000642977831",
                    "EndingSequenceNumber": "4000000000000642977831"
                }
            },
            {
                "ShardId": "shardId-00000001571780995058-40810d86",
                "SequenceNumberRange": {
                    "StartingSequenceNumber": "757400000000005655171150"
                },
                "ParentShardId": "shardId-00000001571767321804-697ce3d2"
            }
        ]
    }
}
```
*Untuk informasi selengkapnya, lihat [Menangkap Aktivitas Tabel dengan DynamoDB Streams di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Streams.html).*  
+  Untuk detail API, lihat [DescribeStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodbstreams/describe-stream.html)di *Referensi AWS CLI Perintah*. 

### `get-records`
<a name="dynamodb-streams_GetRecords_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-records`.

**AWS CLI**  
**Untuk mendapatkan catatan dari aliran Dynamodb**  
`get-records`Perintah berikut mengambil catatan menggunakan iterator pecahan Amazon DynamoDB yang ditentukan.  

```
aws dynamodbstreams get-records \
    --shard-iterator "arn:aws:dynamodb:us-west-1:123456789012:table/Music/stream/2019-10-22T18:02:01.576|1|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"
```
Output:  

```
{
    "Records": [
        {
            "eventID": "c3b5d798eef6215d42f8137b19a88e50",
            "eventName": "INSERT",
            "eventVersion": "1.1",
            "eventSource": "aws:dynamodb",
            "awsRegion": "us-west-1",
            "dynamodb": {
                "ApproximateCreationDateTime": 1571849028.0,
                "Keys": {
                    "Artist": {
                        "S": "No One You Know"
                    },
                    "SongTitle": {
                        "S": "Call Me Today"
                    }
                },
                "NewImage": {
                    "AlbumTitle": {
                        "S": "Somewhat Famous"
                    },
                    "Artist": {
                        "S": "No One You Know"
                    },
                    "Awards": {
                        "N": "1"
                    },
                    "SongTitle": {
                        "S": "Call Me Today"
                    }
                },
                "SequenceNumber": "700000000013256296913",
                "SizeBytes": 119,
                "StreamViewType": "NEW_AND_OLD_IMAGES"
            }
        },
        {
            "eventID": "878960a6967867e2da16b27380a27328",
            "eventName": "INSERT",
            "eventVersion": "1.1",
            "eventSource": "aws:dynamodb",
            "awsRegion": "us-west-1",
            "dynamodb": {
                "ApproximateCreationDateTime": 1571849029.0,
                "Keys": {
                    "Artist": {
                        "S": "Acme Band"
                    },
                    "SongTitle": {
                        "S": "Happy Day"
                    }
                },
                "NewImage": {
                    "AlbumTitle": {
                        "S": "Songs About Life"
                    },
                    "Artist": {
                        "S": "Acme Band"
                    },
                    "Awards": {
                        "N": "10"
                    },
                    "SongTitle": {
                        "S": "Happy Day"
                    }
                },
                "SequenceNumber": "800000000013256297217",
                "SizeBytes": 100,
                "StreamViewType": "NEW_AND_OLD_IMAGES"
            }
        },
        {
            "eventID": "520fabde080e159fc3710b15ee1d4daa",
            "eventName": "MODIFY",
            "eventVersion": "1.1",
            "eventSource": "aws:dynamodb",
            "awsRegion": "us-west-1",
            "dynamodb": {
                "ApproximateCreationDateTime": 1571849734.0,
                "Keys": {
                    "Artist": {
                        "S": "Acme Band"
                    },
                    "SongTitle": {
                        "S": "Happy Day"
                    }
                },
                "NewImage": {
                    "AlbumTitle": {
                        "S": "Updated Album Title"
                    },
                    "Artist": {
                        "S": "Acme Band"
                    },
                    "Awards": {
                        "N": "10"
                    },
                    "SongTitle": {
                        "S": "Happy Day"
                    }
                },
                "OldImage": {
                    "AlbumTitle": {
                        "S": "Songs About Life"
                    },
                    "Artist": {
                        "S": "Acme Band"
                    },
                    "Awards": {
                        "N": "10"
                    },
                    "SongTitle": {
                        "S": "Happy Day"
                    }
                },
                "SequenceNumber": "900000000013256687845",
                "SizeBytes": 170,
                "StreamViewType": "NEW_AND_OLD_IMAGES"
            }
        }
    ],
    "NextShardIterator": "arn:aws:dynamodb:us-west-1:123456789012:table/Music/stream/2019-10-23T16:41:08.740|1|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"
}
```
*Untuk informasi selengkapnya, lihat [Menangkap Aktivitas Tabel dengan DynamoDB Streams di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Streams.html).*  
+  Untuk detail API, lihat [GetRecords](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodbstreams/get-records.html)di *Referensi AWS CLI Perintah*. 

### `get-shard-iterator`
<a name="dynamodb-streams_GetShardIterator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-shard-iterator`.

**AWS CLI**  
**Untuk mendapatkan iterator pecahan**  
`get-shard-iterator`Perintah berikut mengambil iterator shard untuk shard tertentu.  

```
aws dynamodbstreams get-shard-iterator \
    --stream-arn arn:aws:dynamodb:us-west-1:12356789012:table/Music/stream/2019-10-22T18:02:01.576 \
    --shard-id shardId-00000001571780995058-40810d86 \
    --shard-iterator-type LATEST
```
Output:  

```
{
    "ShardIterator": "arn:aws:dynamodb:us-west-1:123456789012:table/Music/stream/2019-10-22T18:02:01.576|1|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"
}
```
*Untuk informasi selengkapnya, lihat [Menangkap Aktivitas Tabel dengan DynamoDB Streams di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Streams.html).*  
+  Untuk detail API, lihat [GetShardIterator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodbstreams/get-shard-iterator.html)di *Referensi AWS CLI Perintah*. 

### `list-streams`
<a name="dynamodb-streams_ListStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-streams`.

**AWS CLI**  
**Untuk membuat daftar aliran DynamoDB**  
`list-streams`Perintah berikut mencantumkan semua aliran Amazon DynamoDB yang ada dalam Wilayah default. AWS   

```
aws dynamodbstreams list-streams
```
Output:  

```
{
    "Streams": [
        {
            "StreamArn": "arn:aws:dynamodb:us-west-1:123456789012:table/Music/stream/2019-10-22T18:02:01.576",
            "TableName": "Music",
            "StreamLabel": "2019-10-22T18:02:01.576"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menangkap Aktivitas Tabel dengan DynamoDB Streams di Panduan Pengembang Amazon DynamoDB](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Streams.html).*  
+  Untuk detail API, lihat [ListStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/dynamodbstreams/list-streams.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon EC2 menggunakan AWS CLI
<a name="cli_2_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon EC2. AWS Command Line Interface 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-address-transfer`
<a name="ec2_AcceptAddressTransfer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-address-transfer`.

**AWS CLI**  
**Untuk menerima alamat IP Elastis yang ditransfer ke akun Anda**  
`accept-address-transfer`Contoh berikut menerima transfer alamat IP Elastis yang ditentukan ke akun Anda.  

```
aws ec2 accept-address-transfer \
    --address 100.21.184.216
```
Output:  

```
{
    "AddressTransfer": {
        "PublicIp": "100.21.184.216",
        "AllocationId": "eipalloc-09ad461b0d03f6aaf",
        "TransferAccountId": "123456789012",
        "TransferOfferExpirationTimestamp": "2023-02-22T20:51:10.000Z",
        "TransferOfferAcceptedTimestamp": "2023-02-22T22:52:54.000Z",
        "AddressTransferStatus": "accepted"
    }
}
```
Untuk informasi selengkapnya, lihat [Mentransfer alamat IP Elastis](https://docs.aws.amazon.com/vpc/latest/userguide/WorkWithEIPs.html#transfer-EIPs-intro) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [AcceptAddressTransfer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/accept-address-transfer.html)di *Referensi AWS CLI Perintah*. 

### `accept-reserved-instances-exchange-quote`
<a name="ec2_AcceptReservedInstancesExchangeQuote_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-reserved-instances-exchange-quote`.

**AWS CLI**  
**Untuk melakukan pertukaran Instans Cadangan Konvertibel**  
Contoh ini melakukan pertukaran Instans Cadangan Konvertibel yang ditentukan.  
Perintah:  

```
aws ec2 accept-reserved-instances-exchange-quote --reserved-instance-ids 7b8750c3-397e-4da4-bbcb-a45ebexample --target-configurations OfferingId=b747b472-423c-48f3-8cee-679bcexample
```
Output:  

```
{
  "ExchangeId": "riex-e68ed3c1-8bc8-4c17-af77-811afexample"
}
```
+  Untuk detail API, lihat [AcceptReservedInstancesExchangeQuote](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/accept-reserved-instances-exchange-quote.html)di *Referensi AWS CLI Perintah*. 

### `accept-transit-gateway-peering-attachment`
<a name="ec2_AcceptTransitGatewayPeeringAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-transit-gateway-peering-attachment`.

**AWS CLI**  
**Untuk menerima lampiran peering gateway transit**  
`accept-transit-gateway-peering-attachment`Contoh berikut menerima lampiran peering gateway transit yang ditentukan. `--region`Parameter menentukan Wilayah tempat gateway transit penerima berada.  

```
aws ec2 accept-transit-gateway-peering-attachment \
    --transit-gateway-attachment-id tgw-attach-4455667788aabbccd \
    --region us-east-2
```
Output:  

```
{
    "TransitGatewayPeeringAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-4455667788aabbccd",
        "RequesterTgwInfo": {
            "TransitGatewayId": "tgw-123abc05e04123abc",
            "OwnerId": "123456789012",
            "Region": "us-west-2"
        },
        "AccepterTgwInfo": {
            "TransitGatewayId": "tgw-11223344aabbcc112",
            "OwnerId": "123456789012",
            "Region": "us-east-2"
        },
        "State": "pending",
        "CreationTime": "2019-12-09T11:38:31.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Pengintip Transit Gateway](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-peering.html) *di Panduan Gerbang Transit*.  
+  Untuk detail API, lihat [AcceptTransitGatewayPeeringAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/accept-transit-gateway-peering-attachment.html)di *Referensi AWS CLI Perintah*. 

### `accept-transit-gateway-vpc-attachment`
<a name="ec2_AcceptTransitGatewayVpcAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-transit-gateway-vpc-attachment`.

**AWS CLI**  
**Untuk menerima permintaan untuk melampirkan VPC ke gateway transit.**  
`accept-transit-gateway-vpc-attachment`Contoh berikut menerima permintaan forte lampiran yang ditentukan.  

```
aws ec2 accept-transit-gateway-vpc-attachment \
    --transit-gateway-attachment-id tgw-attach-0a34fe6b4fEXAMPLE
```
Output:  

```
{
    "TransitGatewayVpcAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-0a34fe6b4fEXAMPLE",
        "TransitGatewayId": "tgw-0262a0e521EXAMPLE",
        "VpcId": "vpc-07e8ffd50fEXAMPLE",
        "VpcOwnerId": "123456789012",
        "State": "pending",
        "SubnetIds": [
            "subnet-0752213d59EXAMPLE"
        ],
        "CreationTime": "2019-07-10T17:33:46.000Z",
        "Options": {
            "DnsSupport": "enable",
            "Ipv6Support": "disable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Gateway Transit ke VPC](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-vpc-attachments.html) di Panduan Gerbang *Transit*.  
+  Untuk detail API, lihat [AcceptTransitGatewayVpcAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/accept-transit-gateway-vpc-attachment.html)di *Referensi AWS CLI Perintah*. 

### `accept-vpc-endpoint-connections`
<a name="ec2_AcceptVpcEndpointConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-vpc-endpoint-connections`.

**AWS CLI**  
**Untuk menerima permintaan koneksi titik akhir antarmuka**  
Contoh ini menerima permintaan koneksi endpoint yang ditentukan untuk layanan endpoint yang ditentukan.  
Perintah:  

```
aws ec2 accept-vpc-endpoint-connections --service-id vpce-svc-03d5ebb7d9579a2b3 --vpc-endpoint-ids vpce-0c1308d7312217abc
```
Output:  

```
{
  "Unsuccessful": []
}
```
+  Untuk detail API, lihat [AcceptVpcEndpointConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/accept-vpc-endpoint-connections.html)di *Referensi AWS CLI Perintah*. 

### `accept-vpc-peering-connection`
<a name="ec2_AcceptVpcPeeringConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-vpc-peering-connection`.

**AWS CLI**  
**Untuk menerima koneksi peering VPC**  
Contoh ini menerima permintaan koneksi peering VPC yang ditentukan.  
Perintah:  

```
aws ec2 accept-vpc-peering-connection --vpc-peering-connection-id pcx-1a2b3c4d
```
Output:  

```
{
  "VpcPeeringConnection": {
    "Status": {
      "Message": "Provisioning",
      "Code": "provisioning"
    },
    "Tags": [],
    "AccepterVpcInfo": {
      "OwnerId": "444455556666",
      "VpcId": "vpc-44455566",
      "CidrBlock": "10.0.1.0/28"
    },
    "VpcPeeringConnectionId": "pcx-1a2b3c4d",
    "RequesterVpcInfo": {
      "OwnerId": "444455556666",
      "VpcId": "vpc-111abc45",
      "CidrBlock": "10.0.0.0/28"
    }
  }
}
```
+  Untuk detail API, lihat [AcceptVpcPeeringConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/accept-vpc-peering-connection.html)di *Referensi AWS CLI Perintah*. 

### `advertise-byoip-cidr`
<a name="ec2_AdvertiseByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`advertise-byoip-cidr`.

**AWS CLI**  
**Untuk mengiklankan rentang alamat**  
`advertise-byoip-cidr`Contoh berikut mengiklankan rentang IPv4 alamat publik yang ditentukan.  

```
aws ec2 advertise-byoip-cidr \
    --cidr 203.0.113.25/24
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "203.0.113.25/24",
        "StatusMessage": "ipv4pool-ec2-1234567890abcdef0",
        "State": "provisioned"
    }
}
```
+  Untuk detail API, lihat [AdvertiseByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/advertise-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `allocate-address`
<a name="ec2_AllocateAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-address`.

**AWS CLI**  
**Contoh 1: Untuk mengalokasikan alamat IP Elastis dari kolam alamat Amazon**  
Contoh `allocate-address` berikut mengalokasikan alamat IP Elastis. Amazon EC2 memilih alamat dari kolam alamat Amazon.  

```
aws ec2 allocate-address
```
Output:  

```
{
    "PublicIp": "70.224.234.241",
    "AllocationId": "eipalloc-01435ba59eEXAMPLE",
    "PublicIpv4Pool": "amazon",
    "NetworkBorderGroup": "us-west-2",
    "Domain": "vpc"
}
```
Untuk informasi selengkapnya, lihat [Alamat IP Elastis](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk mengalokasikan alamat IP Elastis dan mengaitkannya dengan grup batas jaringan**  
Contoh `allocate-address` berikut mengalokasikan alamat IP Elastis dan mengaitkannya dengan grup batas jaringan tertentu.  

```
aws ec2 allocate-address \
    --network-border-group us-west-2-lax-1
```
Output:  

```
{
    "PublicIp": "70.224.234.241",
    "AllocationId": "eipalloc-e03dd489ceEXAMPLE",
    "PublicIpv4Pool": "amazon",
    "NetworkBorderGroup": "us-west-2-lax-1",
    "Domain": "vpc"
}
```
Untuk informasi selengkapnya, lihat [Alamat IP Elastis](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 3: Untuk mengalokasikan alamat IP Elastis dari kolam alamat milik Anda**  
Contoh `allocate-address` berikut mengalokasikan alamat IP Elastis dari kolam alamat yang Anda bawa ke akun Amazon Web Services. Amazon EC2 memilih alamat dari kolam alamat.  

```
aws ec2 allocate-address \
    --public-ipv4-pool ipv4pool-ec2-1234567890abcdef0
```
Output:  

```
{
    "AllocationId": "eipalloc-02463d08ceEXAMPLE",
    "NetworkBorderGroup": "us-west-2",
    "CustomerOwnedIp": "18.218.95.81",
    "CustomerOwnedIpv4Pool": "ipv4pool-ec2-1234567890abcdef0",
    "Domain": "vpc"
    "NetworkBorderGroup": "us-west-2",
}
```
Untuk informasi selengkapnya, lihat [Alamat IP Elastis](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 4: Untuk mengalokasikan alamat IP Elastis dari kolam IPAM**  
`allocate-address`Contoh berikut mengalokasikan alamat IP Elastis /32 tertentu dari kumpulan Amazon VPC IP Address Manager (IPAM).  

```
aws ec2 allocate-address \
    --region us-east-1 \
    --ipam-pool-id ipam-pool-1234567890abcdef0 \
    --address 192.0.2.0
```
Output:  

```
{
    "PublicIp": "192.0.2.0",
    "AllocationId": "eipalloc-abcdef01234567890",
    "PublicIpv4Pool": "ipam-pool-1234567890abcdef0",
    "NetworkBorderGroup": "us-east-1",
    "Domain": "vpc"
}
```
Untuk informasi selengkapnya, lihat [Mengalokasikan alamat IP Elastis berurutan dari kumpulan IPAM di Panduan](https://docs.aws.amazon.com/vpc/latest/ipam/tutorials-eip-pool.html) Pengguna Amazon *VPC* IPAM.  
+  Untuk detail API, lihat [AllocateAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/allocate-address.html)di *Referensi AWS CLI Perintah*. 

### `allocate-hosts`
<a name="ec2_AllocateHosts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-hosts`.

**AWS CLI**  
**Contoh 1: Untuk mengalokasikan Host Khusus**  
`allocate-hosts`Contoh berikut mengalokasikan satu Host Khusus di `eu-west-1a` Availability Zone, tempat Anda dapat meluncurkan `m5.large` instance. Secara default, Host Khusus hanya menerima peluncuran instans target, dan tidak mendukung pemulihan host.  

```
aws ec2 allocate-hosts \
    --instance-type m5.large \
    --availability-zone eu-west-1a \
    --quantity 1
```
Output:  

```
{
    "HostIds": [
        "h-07879acf49EXAMPLE"
    ]
}
```
**Contoh 2: Untuk mengalokasikan Host Khusus dengan penempatan otomatis dan pemulihan host diaktifkan**  
`allocate-hosts`Contoh berikut mengalokasikan satu Host Khusus di `eu-west-1a` Availability Zone dengan penempatan otomatis dan pemulihan host diaktifkan.  

```
aws ec2 allocate-hosts \
    --instance-type m5.large \
    --availability-zone eu-west-1a \
    --auto-placement on \
    --host-recovery on \
    --quantity 1
```
Output:  

```
{
     "HostIds": [
         "h-07879acf49EXAMPLE"
     ]
}
```
**Contoh 3: Untuk mengalokasikan Host Khusus dengan tag**  
`allocate-hosts`Contoh berikut mengalokasikan satu Host Khusus dan menerapkan tag dengan kunci bernama `purpose` dan nilai. `production`  

```
aws ec2 allocate-hosts \
    --instance-type m5.large \
    --availability-zone eu-west-1a \
    --quantity 1 \
    --tag-specifications 'ResourceType=dedicated-host,Tags={Key=purpose,Value=production}'
```
Output:  

```
{
    "HostIds": [
        "h-07879acf49EXAMPLE"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengalokasikan Host Khusus](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/dedicated-hosts-allocating.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [AllocateHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/allocate-hosts.html)di *Referensi AWS CLI Perintah*. 

### `allocate-ipam-pool-cidr`
<a name="ec2_AllocateIpamPoolCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-ipam-pool-cidr`.

**AWS CLI**  
**Untuk mengalokasikan CIDR dari kolam IPAM**  
`allocate-ipam-pool-cidr`Contoh berikut mengalokasikan CIDR dari kolam IPAM.  
(Linux):  

```
aws ec2 allocate-ipam-pool-cidr \
    --ipam-pool-id ipam-pool-0533048da7d823723 \
    --netmask-length 24
```
(Windows):  

```
aws ec2 allocate-ipam-pool-cidr ^
   --ipam-pool-id ipam-pool-0533048da7d823723 ^
   --netmask-length 24
```
Output:  

```
{
    "IpamPoolAllocation": {
        "Cidr": "10.0.0.0/24",
        "IpamPoolAllocationId": "ipam-pool-alloc-018ecc28043b54ba38e2cd99943cebfbd",
        "ResourceType": "custom",
        "ResourceOwner": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengalokasikan CIDR secara manual ke kumpulan untuk memesan ruang alamat IP di Panduan](https://docs.aws.amazon.com/vpc/latest/ipam/manually-allocate-ipam.html) Pengguna Amazon *VPC IPAM*.  
+  Untuk detail API, lihat [AllocateIpamPoolCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/allocate-ipam-pool-cidr.html)di *Referensi AWS CLI Perintah*. 

### `apply-security-groups-to-client-vpn-target-network`
<a name="ec2_ApplySecurityGroupsToClientVpnTargetNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`apply-security-groups-to-client-vpn-target-network`.

**AWS CLI**  
**Untuk menerapkan grup keamanan ke jaringan target untuk titik akhir Client VPN**  
`apply-security-groups-to-client-vpn-target-network`Contoh berikut menerapkan grup keamanan `sg-01f6e627a89f4db32` untuk asosiasi antara jaringan target yang ditentukan dan titik akhir Client VPN.  

```
aws ec2 apply-security-groups-to-client-vpn-target-network \
    --security-group-ids sg-01f6e627a89f4db32 \
    --vpc-id vpc-0e2110c2f324332e0 \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde
```
Output:  

```
{
    "SecurityGroupIds": [
        "sg-01f6e627a89f4db32"
    ]
}
```
Untuk informasi selengkapnya, lihat [Jaringan Target](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-target.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [ApplySecurityGroupsToClientVpnTargetNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/apply-security-groups-to-client-vpn-target-network.html)di *Referensi AWS CLI Perintah*. 

### `assign-ipv6-addresses`
<a name="ec2_AssignIpv6Addresses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`assign-ipv6-addresses`.

**AWS CLI**  
**Untuk menetapkan IPv6 alamat tertentu ke antarmuka jaringan**  
Contoh ini memberikan IPv6 alamat yang ditentukan ke antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 assign-ipv6-addresses --network-interface-id eni-38664473 --ipv6-addresses 2001:db8:1234:1a00:3304:8879:34cf:4071 2001:db8:1234:1a00:9691:9503:25ad:1761
```
Output:  

```
{
  "AssignedIpv6Addresses": [
      "2001:db8:1234:1a00:3304:8879:34cf:4071",
      "2001:db8:1234:1a00:9691:9503:25ad:1761"
  ],
  "NetworkInterfaceId": "eni-38664473"
}
```
**Untuk menetapkan IPv6 alamat yang dipilih Amazon ke antarmuka jaringan**  
Contoh ini memberikan dua IPv6 alamat ke antarmuka jaringan yang ditentukan. Amazon secara otomatis menetapkan IPv6 alamat ini dari alamat yang tersedia IPv6 di rentang blok IPv6 CIDR subnet.  
Perintah:  

```
aws ec2 assign-ipv6-addresses --network-interface-id eni-38664473 --ipv6-address-count 2
```
Output:  

```
{
  "AssignedIpv6Addresses": [
      "2001:db8:1234:1a00:3304:8879:34cf:4071",
      "2001:db8:1234:1a00:9691:9503:25ad:1761"
  ],
  "NetworkInterfaceId": "eni-38664473"
}
```
+  Untuk detail API, lihat [AssignIpv6Alamat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/assign-ipv6-addresses.html) di *Referensi AWS CLI Perintah*. 

### `assign-private-ip-addresses`
<a name="ec2_AssignPrivateIpAddresses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`assign-private-ip-addresses`.

**AWS CLI**  
**Untuk menetapkan alamat IP pribadi sekunder tertentu antarmuka jaringan**  
Contoh ini memberikan alamat IP pribadi sekunder yang ditentukan ke antarmuka jaringan yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 assign-private-ip-addresses --network-interface-id eni-e5aa89a3 --private-ip-addresses 10.0.0.82
```
**Untuk menetapkan alamat IP pribadi sekunder yang Amazon EC2 pilih ke antarmuka jaringan**  
Contoh ini memberikan dua alamat IP pribadi sekunder ke antarmuka jaringan yang ditentukan. Amazon EC2 secara otomatis menetapkan alamat IP ini dari alamat IP yang tersedia dalam rentang blok CIDR dari subnet yang terkait dengan antarmuka jaringan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 assign-private-ip-addresses --network-interface-id eni-e5aa89a3 --secondary-private-ip-address-count 2
```
+  Untuk detail API, lihat [AssignPrivateIpAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/assign-private-ip-addresses.html)di *Referensi AWS CLI Perintah*. 

### `assign-private-nat-gateway-address`
<a name="ec2_AssignPrivateNatGatewayAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`assign-private-nat-gateway-address`.

**AWS CLI**  
**Untuk menetapkan alamat IP pribadi ke gateway NAT pribadi Anda**  
`assign-private-nat-gateway-address`Contoh berikut memberikan dua alamat IP pribadi ke gateway NAT pribadi yang ditentukan.  

```
aws ec2 assign-private-nat-gateway-address \
    --nat-gateway-id nat-1234567890abcdef0 \
    --private-ip-address-count 2
```
Output:  

```
{
    "NatGatewayId": "nat-1234567890abcdef0",
    "NatGatewayAddresses": [
        {
            "NetworkInterfaceId": "eni-0065a61b324d1897a",
            "IsPrimary": false,
            "Status": "assigning"
        },
        {
            "NetworkInterfaceId": "eni-0065a61b324d1897a",
            "IsPrimary": false,
            "Status": "assigning"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Gateway NAT](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-nat-gateway.html) dalam *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [AssignPrivateNatGatewayAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/assign-private-nat-gateway-address.html)di *Referensi AWS CLI Perintah*. 

### `associate-address`
<a name="ec2_AssociateAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-address`.

**AWS CLI**  
**Contoh 1: Untuk mengaitkan alamat IP Elastis dengan sebuah instance**  
`associate-address`Contoh berikut mengaitkan alamat IP Elastis dengan instans EC2 yang ditentukan.  

```
aws ec2 associate-address \
    --instance-id i-0b263919b6498b123 \
    --allocation-id eipalloc-64d5890a
```
Output:  

```
{
    "AssociationId": "eipassoc-2bebb745"
}
```
**Contoh 2: Untuk mengaitkan alamat IP Elastis dengan antarmuka jaringan**  
`associate-address`Contoh berikut mengaitkan alamat IP Elastis yang ditentukan dengan antarmuka jaringan yang ditentukan.  

```
aws ec2 associate-address
    --allocation-id eipalloc-64d5890a \
    --network-interface-id eni-1a2b3c4d
```
Output:  

```
{
    "AssociationId": "eipassoc-2bebb745"
}
```
**Contoh 3: Untuk mengaitkan alamat IP Elastis dengan alamat IP pribadi**  
`associate-address`Contoh berikut mengaitkan alamat IP Elastis yang ditentukan dengan alamat IP pribadi yang ditentukan dalam antarmuka jaringan yang ditentukan.  

```
aws ec2 associate-address \
    --allocation-id eipalloc-64d5890a \
    --network-interface-id eni-1a2b3c4d \
    --private-ip-address 10.0.0.85
```
Output:  

```
{
    "AssociationId": "eipassoc-2bebb745"
}
```
Untuk informasi selengkapnya, lihat [Alamat IP Elastis](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [AssociateAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-address.html)di *Referensi AWS CLI Perintah*. 

### `associate-client-vpn-target-network`
<a name="ec2_AssociateClientVpnTargetNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-client-vpn-target-network`.

**AWS CLI**  
**Untuk mengaitkan jaringan target dengan titik akhir Client VPN**  
`associate-client-vpn-target-network`Contoh berikut mengaitkan subnet dengan titik akhir Client VPN yang ditentukan.  

```
aws ec2 associate-client-vpn-target-network \
    --subnet-id subnet-0123456789abcabca \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde
```
Output:  

```
{
    "AssociationId": "cvpn-assoc-12312312312312312",
    "Status": {
        "Code": "associating"
    }
}
```
Untuk informasi selengkapnya, lihat [Jaringan Target](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-target.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [AssociateClientVpnTargetNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-client-vpn-target-network.html)di *Referensi AWS CLI Perintah*. 

### `associate-dhcp-options`
<a name="ec2_AssociateDhcpOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-dhcp-options`.

**AWS CLI**  
**Untuk mengaitkan opsi DHCP yang disetel dengan VPC Anda**  
Contoh ini mengaitkan opsi DHCP tertentu yang ditetapkan dengan VPC yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 associate-dhcp-options --dhcp-options-id dopt-d9070ebb --vpc-id vpc-a01106c2
```
**Untuk mengaitkan opsi DHCP default yang disetel dengan VPC Anda**  
Contoh ini mengaitkan opsi DHCP default yang ditetapkan dengan VPC yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 associate-dhcp-options --dhcp-options-id default --vpc-id vpc-a01106c2
```
+  Untuk detail API, lihat [AssociateDhcpOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-dhcp-options.html)di *Referensi AWS CLI Perintah*. 

### `associate-iam-instance-profile`
<a name="ec2_AssociateIamInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-iam-instance-profile`.

**AWS CLI**  
**Untuk mengaitkan profil instans IAM dengan sebuah instance**  
Contoh ini mengaitkan profil instans IAM bernama `admin-role` dengan instance. `i-123456789abcde123`  
Perintah:  

```
aws ec2 associate-iam-instance-profile --instance-id i-123456789abcde123 --iam-instance-profile Name=admin-role
```
Output:  

```
{
  "IamInstanceProfileAssociation": {
      "InstanceId": "i-123456789abcde123",
      "State": "associating",
      "AssociationId": "iip-assoc-0e7736511a163c209",
      "IamInstanceProfile": {
          "Id": "AIPAJBLK7RKJKWDXVHIEC",
          "Arn": "arn:aws:iam::123456789012:instance-profile/admin-role"
      }
  }
}
```
+  Untuk detail API, lihat [AssociateIamInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-iam-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `associate-instance-event-window`
<a name="ec2_AssociateInstanceEventWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-instance-event-window`.

**AWS CLI**  
**Contoh 1: Untuk mengaitkan satu atau beberapa instance dengan jendela acara**  
`associate-instance-event-window`Contoh berikut mengaitkan satu atau lebih instance dengan jendela acara.  

```
aws ec2 associate-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --association-target "InstanceIds=i-1234567890abcdef0,i-0598c7d356eba48d7"
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "Name": "myEventWindowName",
        "CronExpression": "* 21-23 * * 2,3",
        "AssociationTarget": {
            "InstanceIds": [
                "i-1234567890abcdef0",
                "i-0598c7d356eba48d7"
            ],
            "Tags": [],
            "DedicatedHostIds": []
        },
        "State": "creating"
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
**Contoh 2: Untuk mengaitkan tag instance dengan jendela acara**  
`associate-instance-event-window`Contoh berikut mengaitkan tag instance dengan jendela acara. Masukkan `instance-event-window-id` parameter untuk menentukan jendela acara. Untuk mengaitkan tag instance, tentukan `association-target` parameter, dan untuk nilai parameter, tentukan satu atau beberapa tag.  

```
aws ec2 associate-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --association-target "InstanceTags=[{Key=k2,Value=v2},{Key=k1,Value=v1}]"
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "Name": "myEventWindowName",
        "CronExpression": "* 21-23 * * 2,3",
        "AssociationTarget": {
            "InstanceIds": [],
            "Tags": [
                {
                    "Key": "k2",
                    "Value": "v2"
                },
                {
                    "Key": "k1",
                    "Value": "v1"
                }
            ],
            "DedicatedHostIds": []
        },
        "State": "creating"
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
**Contoh 3: Untuk mengaitkan Host Khusus dengan jendela acara**  
`associate-instance-event-window`Contoh berikut mengaitkan Host Khusus dengan jendela acara. Masukkan `instance-event-window-id` parameter untuk menentukan jendela acara. Untuk mengaitkan Host Khusus, tentukan `--association-target` parameter, dan untuk nilai parameter, tentukan salah satu Host Khusus lainnya IDs.  

```
aws ec2 associate-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --association-target "DedicatedHostIds=h-029fa35a02b99801d"
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "Name": "myEventWindowName",
        "CronExpression": "* 21-23 * * 2,3",
        "AssociationTarget": {
            "InstanceIds": [],
            "Tags": [],
            "DedicatedHostIds": [
                "h-029fa35a02b99801d"
            ]
        },
        "State": "creating"
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
+  Untuk detail API, lihat [AssociateInstanceEventWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-instance-event-window.html)di *Referensi AWS CLI Perintah*. 

### `associate-ipam-resource-discovery`
<a name="ec2_AssociateIpamResourceDiscovery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-ipam-resource-discovery`.

**AWS CLI**  
**Untuk mengaitkan penemuan sumber daya dengan IPAM**  
Dalam contoh ini, Anda adalah admin yang didelegasikan IPAM dan penemuan sumber daya telah dibuat dan dibagikan dengan Anda oleh AWS akun lain sehingga Anda dapat menggunakan IPAM untuk mengelola dan memantau sumber daya yang CIDRs dimiliki oleh akun lain.  
Catatan  
Untuk menyelesaikan permintaan ini, Anda memerlukan ID penemuan sumber daya yang bisa Anda dapatkan [describe-ipam-resource-discoveries](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-ipam-resource-discoveries.html)dan ID IPAM yang bisa Anda dapatkan dengan [deskripsi-ipams](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-ipams.html). Penemuan sumber daya yang Anda kaitkan harus dibagikan terlebih dahulu dengan akun Anda menggunakan AWS RAM.Anda masukkan harus cocok dengan Wilayah rumah IPAM yang `--region` Anda kaitkan dengannya.  
`associate-ipam-resource-discovery`Contoh berikut mengaitkan penemuan sumber daya dengan IPAM.  

```
aws ec2 associate-ipam-resource-discovery \
    --ipam-id ipam-005f921c17ebd5107 \
    --ipam-resource-discovery-id ipam-res-disco-03e0406de76a044ee \
    --tag-specifications 'ResourceType=ipam-resource-discovery,Tags=[{Key=cost-center,Value=cc123}]' \
    --region us-east-1
```
Output:  

```
{
    {
        "IpamResourceDiscoveryAssociation": {
            "OwnerId": "320805250157",
            "IpamResourceDiscoveryAssociationId": "ipam-res-disco-assoc-04382a6346357cf82",
            "IpamResourceDiscoveryAssociationArn": "arn:aws:ec2::320805250157:ipam-resource-discovery-association/ipam-res-disco-assoc-04382a6346357cf82",
            "IpamResourceDiscoveryId": "ipam-res-disco-0365d2977fc1672fe",
            "IpamId": "ipam-005f921c17ebd5107",
            "IpamArn": "arn:aws:ec2::320805250157:ipam/ipam-005f921c17ebd5107",
            "IpamRegion": "us-east-1",
            "IsDefault": false,
            "ResourceDiscoveryStatus": "active",
            "State": "associate-in-progress",
            "Tags": []
        }
    }
}
```
Setelah Anda mengaitkan penemuan sumber daya, Anda dapat memantau and/or mengelola alamat IP sumber daya yang dibuat oleh akun lain. Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan akun di luar organisasi Anda](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam-outside-org.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [AssociateIpamResourceDiscovery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-ipam-resource-discovery.html)di *Referensi AWS CLI Perintah*. 

### `associate-nat-gateway-address`
<a name="ec2_AssociateNatGatewayAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-nat-gateway-address`.

**AWS CLI**  
**Untuk mengaitkan alamat IP Elastis dengan gateway NAT publik**  
`associate-nat-gateway-address`Contoh berikut mengaitkan alamat IP Elastis yang ditentukan dengan gateway NAT publik yang ditentukan. AWS secara otomatis memberikan IPv4 alamat pribadi sekunder.  

```
aws ec2 associate-nat-gateway-address \
    --nat-gateway-id nat-1234567890abcdef0 \
    --allocation-ids eipalloc-0be6ecac95EXAMPLE
```
Output:  

```
{
    "NatGatewayId": "nat-1234567890abcdef0",
    "NatGatewayAddresses": [
        {
            "AllocationId": "eipalloc-0be6ecac95EXAMPLE",
            "NetworkInterfaceId": "eni-09cc4b2558794f7f9",
            "IsPrimary": false,
            "Status": "associating"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Gateway NAT](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-nat-gateway.html) dalam *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [AssociateNatGatewayAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-nat-gateway-address.html)di *Referensi AWS CLI Perintah*. 

### `associate-route-table`
<a name="ec2_AssociateRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-route-table`.

**AWS CLI**  
**Untuk mengaitkan tabel rute dengan subnet**  
Contoh ini mengaitkan tabel rute yang ditentukan dengan subnet yang ditentukan.  
Perintah:  

```
aws ec2 associate-route-table --route-table-id rtb-22574640 --subnet-id subnet-9d4a7b6c
```
Output:  

```
{
    "AssociationId": "rtbassoc-781d0d1a"
}
```
+  Untuk detail API, lihat [AssociateRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-route-table.html)di *Referensi AWS CLI Perintah*. 

### `associate-security-group-vpc`
<a name="ec2_AssociateSecurityGroupVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-security-group-vpc`.

**AWS CLI**  
**Untuk mengaitkan grup keamanan dengan VPC lain**  
`associate-security-group-vpc`Contoh berikut mengaitkan grup keamanan yang ditentukan dengan VPC yang ditentukan.  

```
aws ec2 associate-security-group-vpc \
    --group-id sg-04dbb43907d3f8a78 \
    --vpc-id vpc-0bf4c2739bc05a694
```
Output:  

```
{
    "State": "associating"
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan grup keamanan dengan beberapa VPCs](https://docs.aws.amazon.com/vpc/latest/userguide/security-group-assoc.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [AssociateSecurityGroupVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-security-group-vpc.html)di *Referensi AWS CLI Perintah*. 

### `associate-subnet-cidr-block`
<a name="ec2_AssociateSubnetCidrBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-subnet-cidr-block`.

**AWS CLI**  
**Untuk mengaitkan blok IPv6 CIDR dengan subnet**  
Contoh ini mengaitkan blok IPv6 CIDR dengan subnet yang ditentukan.  
Perintah:  

```
aws ec2 associate-subnet-cidr-block --subnet-id subnet-5f46ec3b --ipv6-cidr-block 2001:db8:1234:1a00::/64
```
Output:  

```
{
  "SubnetId": "subnet-5f46ec3b",
  "Ipv6CidrBlockAssociation": {
      "Ipv6CidrBlock": "2001:db8:1234:1a00::/64",
      "AssociationId": "subnet-cidr-assoc-3aa54053",
      "Ipv6CidrBlockState": {
          "State": "associating"
      }
  }
}
```
+  Untuk detail API, lihat [AssociateSubnetCidrBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-subnet-cidr-block.html)di *Referensi AWS CLI Perintah*. 

### `associate-transit-gateway-multicast-domain`
<a name="ec2_AssociateTransitGatewayMulticastDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-transit-gateway-multicast-domain`.

**AWS CLI**  
**Untuk mengaitkan gateway transit dengan domain multicast**  
`associate-transit-gateway-multicast-domain`Contoh berikut mengaitkan subnet dan lampiran tertentu dengan domain multicast yang ditentukan.  

```
aws ec2 associate-transit-gateway-multicast-domain \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef79d6e597 \
    --transit-gateway-attachment-id tgw-attach-028c1dd0f8f5cbe8e \
    --subnet-ids subnet-000de86e3b49c932a \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef7EXAMPLE
```
Output:  

```
{
    "Associations": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-0c4905cef79d6e597",
        "TransitGatewayAttachmentId": "tgw-attach-028c1dd0f8f5cbe8e",
        "ResourceId": "vpc-01128d2c240c09bd5",
        "ResourceType": "vpc",
        "Subnets": [
            {
                "SubnetId": "subnet-000de86e3b49c932a",
                "State": "associating"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Domain multicast](https://docs.aws.amazon.com/vpc/latest/tgw/multicast-domains-about.html) di Panduan *Transit* Gateways.  
+  Untuk detail API, lihat [AssociateTransitGatewayMulticastDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-transit-gateway-multicast-domain.html)di *Referensi AWS CLI Perintah*. 

### `associate-transit-gateway-route-table`
<a name="ec2_AssociateTransitGatewayRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-transit-gateway-route-table`.

**AWS CLI**  
**Untuk mengaitkan tabel rute gateway transit dengan lampiran gateway transit**  
Contoh berikut mengaitkan tabel rute gateway transit yang ditentukan dengan lampiran VPC yang ditentukan.  

```
aws ec2 associate-transit-gateway-route-table \
    --transit-gateway-route-table-id tgw-rtb-002573ed1eEXAMPLE \
    --transit-gateway-attachment-id tgw-attach-0b5968d3b6EXAMPLE
```
Output:  

```
{
    "Association": {
        "TransitGatewayRouteTableId": "tgw-rtb-002573ed1eEXAMPLE",
        "TransitGatewayAttachmentId": "tgw-attach-0b5968d3b6EXAMPLE",
        "ResourceId": "vpc-0065acced4EXAMPLE",
        "ResourceType": "vpc",
        "State": "associating"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan Tabel Rute Transit Gateway](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html#associate-tgw-route-table) *di Panduan Gerbang AWS Transit*.  
+  Untuk detail API, lihat [AssociateTransitGatewayRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-transit-gateway-route-table.html)di *Referensi AWS CLI Perintah*. 

### `associate-vpc-cidr-block`
<a name="ec2_AssociateVpcCidrBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-vpc-cidr-block`.

**AWS CLI**  
**Contoh 1: Untuk mengaitkan blok IPv6 CIDR yang disediakan Amazon dengan VPC**  
`associate-vpc-cidr-block`Contoh berikut mengaitkan blok IPv6 CIDR dengan VPC yang ditentukan. :  

```
aws ec2 associate-vpc-cidr-block \
    --amazon-provided-ipv6-cidr-block \
    --ipv6-cidr-block-network-border-group us-west-2-lax-1  \
    --vpc-id vpc-8EXAMPLE
```
Output:  

```
{
    "Ipv6CidrBlockAssociation": {
        "AssociationId": "vpc-cidr-assoc-0838ce7d9dEXAMPLE",
        "Ipv6CidrBlockState": {
            "State": "associating"
        },
        "NetworkBorderGroup": "us-west-2-lax-1"
    },
    "VpcId": "vpc-8EXAMPLE"
}
```
**Contoh 2: Untuk mengaitkan blok IPv4 CIDR tambahan dengan VPC**  
`associate-vpc-cidr-block`Contoh berikut mengaitkan blok IPv4 CIDR `10.2.0.0/16` dengan VPC yang ditentukan.  

```
aws ec2 associate-vpc-cidr-block \
    --vpc-id vpc-1EXAMPLE \
    --cidr-block 10.2.0.0/16
```
Output:  

```
{
    "CidrBlockAssociation": {
        "AssociationId": "vpc-cidr-assoc-2EXAMPLE",
        "CidrBlock": "10.2.0.0/16",
        "CidrBlockState": {
            "State": "associating"
        }
    },
    "VpcId": "vpc-1EXAMPLE"
}
```
+  Untuk detail API, lihat [AssociateVpcCidrBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-vpc-cidr-block.html)di *Referensi AWS CLI Perintah*. 

### `attach-classic-link-vpc`
<a name="ec2_AttachClassicLinkVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-classic-link-vpc`.

**AWS CLI**  
**Untuk menautkan (melampirkan) instance EC2-Classic ke VPC**  
Contoh ini menautkan instance i-1234567890abcdef0 ke VPC vpc-88888888 melalui grup keamanan VPC sg-12312312.  
Perintah:  

```
aws ec2 attach-classic-link-vpc --instance-id  i-1234567890abcdef0 --vpc-id vpc-88888888 --groups sg-12312312
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [AttachClassicLinkVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-classic-link-vpc.html)di *Referensi AWS CLI Perintah*. 

### `attach-internet-gateway`
<a name="ec2_AttachInternetGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-internet-gateway`.

**AWS CLI**  
**Untuk melampirkan gateway internet ke VPC Anda**  
`attach-internet-gateway`Contoh berikut melampirkan gateway internet yang ditentukan ke VPC tertentu.  

```
aws ec2 attach-internet-gateway \
    --internet-gateway-id igw-0d0fb496b3EXAMPLE \
    --vpc-id vpc-0a60eb65b4EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Gateway internet](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [AttachInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-internet-gateway.html)di *Referensi AWS CLI Perintah*. 

### `attach-network-interface`
<a name="ec2_AttachNetworkInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-network-interface`.

**AWS CLI**  
**Contoh 1: Untuk melampirkan antarmuka jaringan ke sebuah instance**  
`attach-network-interface`Contoh berikut melampirkan antarmuka jaringan yang ditentukan untuk contoh yang ditentukan.  

```
aws ec2 attach-network-interface \
    --network-interface-id eni-0dc56a8d4640ad10a \
    --instance-id i-1234567890abcdef0 \
    --device-index 1
```
Output:  

```
{
    "AttachmentId": "eni-attach-01a8fc87363f07cf9"
}
```
Untuk informasi selengkapnya, lihat [Antarmuka jaringan elastis](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-eni.html) di Panduan *Pengguna Amazon EC2*.  
**Contoh 2: Untuk melampirkan antarmuka jaringan ke instance dengan beberapa kartu jaringan**  
`attach-network-interface`Contoh berikut melampirkan antarmuka jaringan yang ditentukan untuk contoh yang ditentukan dan kartu jaringan.  

```
aws ec2 attach-network-interface \
    --network-interface-id eni-07483b1897541ad83 \
    --instance-id i-01234567890abcdef \
    --network-card-index 1 \
    --device-index 1
```
Output:  

```
{
    "AttachmentId": "eni-attach-0fbd7ee87a88cd06c"
}
```
Untuk informasi selengkapnya, lihat [Antarmuka jaringan elastis](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-eni.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [AttachNetworkInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-network-interface.html)di *Referensi AWS CLI Perintah*. 

### `attach-verified-access-trust-provider`
<a name="ec2_AttachVerifiedAccessTrustProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-verified-access-trust-provider`.

**AWS CLI**  
**Untuk melampirkan penyedia kepercayaan ke sebuah instans**  
`attach-verified-access-trust-provider`Contoh berikut melampirkan penyedia kepercayaan Akses Terverifikasi yang ditentukan ke instance Akses Terverifikasi yang ditentukan.  

```
aws ec2 attach-verified-access-trust-provider \
    --verified-access-instance-id vai-0ce000c0b7643abea \
    --verified-access-trust-provider-id vatp-0bb32de759a3e19e7
```
Output:  

```
{
    "VerifiedAccessTrustProvider": {
        "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
        "Description": "",
        "TrustProviderType": "user",
        "UserTrustProviderType": "iam-identity-center",
        "PolicyReferenceName": "idc",
        "CreationTime": "2023-08-25T19:00:38",
        "LastUpdatedTime": "2023-08-25T19:00:38"
    },
    "VerifiedAccessInstance": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "Description": "",
        "VerifiedAccessTrustProviders": [
            {
                "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
                "TrustProviderType": "user",
                "UserTrustProviderType": "iam-identity-center"
            }
        ],
        "CreationTime": "2023-08-25T18:27:56",
        "LastUpdatedTime": "2023-08-25T18:27:56"
    }
}
```
Untuk informasi selengkapnya, lihat [Instans Akses Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-instances.html) di *Panduan Pengguna Akses AWS Terverifikasi*.  
+  Untuk detail API, lihat [AttachVerifiedAccessTrustProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-verified-access-trust-provider.html)di *Referensi AWS CLI Perintah*. 

### `attach-volume`
<a name="ec2_AttachVolume_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-volume`.

**AWS CLI**  
**Untuk melampirkan volume ke sebuah instance**  
Perintah contoh ini melampirkan volume (`vol-1234567890abcdef0`) ke instance (`i-01474ef662b89480`) sebagai`/dev/sdf`.  
Perintah:  

```
aws ec2 attach-volume --volume-id vol-1234567890abcdef0 --instance-id i-01474ef662b89480 --device /dev/sdf
```
Output:  

```
{
    "AttachTime": "YYYY-MM-DDTHH:MM:SS.000Z",
    "InstanceId": "i-01474ef662b89480",
    "VolumeId": "vol-1234567890abcdef0",
    "State": "attaching",
    "Device": "/dev/sdf"
}
```
+  Untuk detail API, lihat [AttachVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-volume.html)di *Referensi AWS CLI Perintah*. 

### `attach-vpn-gateway`
<a name="ec2_AttachVpnGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-vpn-gateway`.

**AWS CLI**  
**Untuk melampirkan gateway pribadi virtual ke VPC Anda**  
`attach-vpn-gateway`Contoh berikut melampirkan gateway pribadi virtual yang ditentukan ke VPC yang ditentukan.  

```
aws ec2 attach-vpn-gateway \
    --vpn-gateway-id vgw-9a4cacf3 \
    --vpc-id vpc-a01106c2
```
Output:  

```
{
    "VpcAttachment": {
        "State": "attaching",
        "VpcId": "vpc-a01106c2"
    }
}
```
+  Untuk detail API, lihat [AttachVpnGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-vpn-gateway.html)di *Referensi AWS CLI Perintah*. 

### `authorize-client-vpn-ingress`
<a name="ec2_AuthorizeClientVpnIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`authorize-client-vpn-ingress`.

**AWS CLI**  
**Untuk menambahkan aturan otorisasi untuk titik akhir Client VPN**  
`authorize-client-vpn-ingress`Contoh berikut menambahkan aturan otorisasi ingress yang memungkinkan semua klien untuk mengakses internet (). `0.0.0.0/0`  

```
aws ec2 authorize-client-vpn-ingress \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde \
    --target-network-cidr 0.0.0.0/0 \
    --authorize-all-groups
```
Output:  

```
{
    "Status": {
        "Code": "authorizing"
    }
}
```
Untuk informasi selengkapnya, lihat [Aturan Otorisasi](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-rules.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [AuthorizeClientVpnIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/authorize-client-vpn-ingress.html)di *Referensi AWS CLI Perintah*. 

### `authorize-security-group-egress`
<a name="ec2_AuthorizeSecurityGroupEgress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`authorize-security-group-egress`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan aturan yang memungkinkan lalu lintas keluar ke rentang alamat tertentu**  
`authorize-security-group-egress`Contoh berikut menambahkan aturan yang memberikan akses ke rentang alamat yang ditentukan pada port TCP 80.  

```
aws ec2 authorize-security-group-egress \
    --group-id sg-1234567890abcdef0 \
    --ip-permissions 'IpProtocol=tcp,FromPort=80,ToPort=80,IpRanges=[{CidrIp=10.0.0.0/16}]'
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-0b15794cdb17bf29c",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": true,
            "IpProtocol": "tcp",
            "FromPort": 80,
            "ToPort": 80,
            "CidrIpv4": "10.0.0.0/16"
        }
    ]
}
```
**Contoh 2: Untuk menambahkan aturan yang memungkinkan lalu lintas keluar ke grup keamanan tertentu**  
`authorize-security-group-egress`Contoh berikut menambahkan aturan yang memberikan akses ke grup keamanan yang ditentukan pada port TCP 80.  

```
aws ec2 authorize-security-group-egress \
    --group-id sg-1234567890abcdef0 \
    --ip-permissions 'IpProtocol=tcp,FromPort=80,ToPort=80,UserIdGroupPairs=[{GroupId=sg-0aad1c26bbeec5c22}]'
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-0b5dd815afcea9cc3",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": true,
            "IpProtocol": "tcp",
            "FromPort": 80,
            "ToPort": 80,
            "ReferencedGroupInfo": {
                "GroupId": "sg-0aad1c26bbeec5c22",
                "UserId": "123456789012"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup keamanan](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-security-groups.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [AuthorizeSecurityGroupEgress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/authorize-security-group-egress.html)di *Referensi AWS CLI Perintah*. 

### `authorize-security-group-ingress`
<a name="ec2_AuthorizeSecurityGroupIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`authorize-security-group-ingress`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan aturan yang mengizinkan lalu lintas SSH masuk**  
Contoh `authorize-security-group-ingress` berikut menambahkan aturan yang mengizinkan lalu lintas masuk pada TCP port 22 (SSH).  

```
aws ec2 authorize-security-group-ingress \
    --group-id sg-1234567890abcdef0 \
    --protocol tcp \
    --port 22 \
    --cidr 203.0.113.0/24
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-01afa97ef3e1bedfc",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "tcp",
            "FromPort": 22,
            "ToPort": 22,
            "CidrIpv4": "203.0.113.0/24"
        }
    ]
}
```
**Contoh 2: Untuk menambahkan aturan yang mengizinkan lalu lintas HTTP masuk dari grup keamanan lain**  
Contoh `authorize-security-group-ingress` berikut menambahkan aturan yang mengizinkan akses masuk pada TCP port 80 dari grup keamanan sumber `sg-1a2b3c4d`. Grup sumber harus berada di VPC atau VPC peer yang sama (memerlukan koneksi peering VPC). Lalu lintas masuk diizinkan berdasarkan alamat IP privat dari instans yang dikaitkan dengan grup keamanan sumber (bukan alamat IP publik atau alamat IP Elastis).  

```
aws ec2 authorize-security-group-ingress \
    --group-id sg-1234567890abcdef0 \
    --protocol tcp \
    --port 80 \
    --source-group sg-1a2b3c4d
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-01f4be99110f638a7",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "tcp",
            "FromPort": 80,
            "ToPort": 80,
            "ReferencedGroupInfo": {
                "GroupId": "sg-1a2b3c4d",
                "UserId": "123456789012"
            }
        }
    ]
}
```
**Contoh 3: Untuk menambahkan banyak aturan dalam panggilan yang sama**  
Contoh `authorize-security-group-ingress` berikut menggunakan parameter `ip-permissions` untuk menambahkan dua aturan masuk, satu yang mengizinkan akses masuk pada TCP port 3389 (RDP) dan satu yang mengizinkan ping/ICMP.  

```
aws ec2 authorize-security-group-ingress \
    --group-id sg-1234567890abcdef0 \
    --ip-permissions 'IpProtocol=tcp,FromPort=3389,ToPort=3389,IpRanges=[{CidrIp=172.31.0.0/16}]' 'IpProtocol=icmp,FromPort=-1,ToPort=-1,IpRanges=[{CidrIp=172.31.0.0/16}]'
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-00e06e5d3690f29f3",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "tcp",
            "FromPort": 3389,
            "ToPort": 3389,
            "CidrIpv4": "172.31.0.0/16"
        },
        {
            "SecurityGroupRuleId": "sgr-0a133dd4493944b87",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "tcp",
            "FromPort": -1,
            "ToPort": -1,
            "CidrIpv4": "172.31.0.0/16"
        }
    ]
}
```
**Contoh 4: Guna menambahkan aturan untuk lalu lintas ICMP**  
Contoh `authorize-security-group-ingress` berikut menggunakan parameter `ip-permissions` untuk menambahkan aturan masuk yang mengizinkan pesan ICMP `Destination Unreachable: Fragmentation Needed and Don't Fragment was Set` (Tipe 3, Kode 4) dari mana saja.  

```
aws ec2 authorize-security-group-ingress \
    --group-id sg-1234567890abcdef0 \
    --ip-permissions 'IpProtocol=icmp,FromPort=3,ToPort=4,IpRanges=[{CidrIp=0.0.0.0/0}]'
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-0de3811019069b787",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "icmp",
            "FromPort": 3,
            "ToPort": 4,
            "CidrIpv4": "0.0.0.0/0"
        }
    ]
}
```
**Contoh 5: Untuk menambahkan aturan untuk IPv6 lalu lintas**  
`authorize-security-group-ingress`Contoh berikut menggunakan `ip-permissions` parameter untuk menambahkan aturan masuk yang memungkinkan akses SSH (port 22) dari rentang. IPv6 `2001:db8:1234:1a00::/64`  

```
aws ec2 authorize-security-group-ingress \
    --group-id sg-1234567890abcdef0 \
    --ip-permissions 'IpProtocol=tcp,FromPort=22,ToPort=22,Ipv6Ranges=[{CidrIpv6=2001:db8:1234:1a00::/64}]'
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-0455bc68b60805563",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "tcp",
            "FromPort": 22,
            "ToPort": 22,
            "CidrIpv6": "2001:db8:1234:1a00::/64"
        }
    ]
}
```
**Contoh 6: Untuk menambahkan aturan untuk ICMPv6 lalu lintas**  
`authorize-security-group-ingress`Contoh berikut menggunakan `ip-permissions` parameter untuk menambahkan aturan masuk yang memungkinkan ICMPv6 lalu lintas dari mana saja.  

```
aws ec2 authorize-security-group-ingress \
    --group-id sg-1234567890abcdef0 \
    --ip-permissions 'IpProtocol=icmpv6,Ipv6Ranges=[{CidrIpv6=::/0}]'
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-04b612d9363ab6327",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "icmpv6",
            "FromPort": -1,
            "ToPort": -1,
            "CidrIpv6": "::/0"
        }
    ]
}
```
**Contoh 7: Tambahkan aturan dengan deskripsi**  
`authorize-security-group-ingress`Contoh berikut menggunakan `ip-permissions` parameter untuk menambahkan aturan masuk yang memungkinkan lalu lintas RDP dari rentang alamat yang ditentukan IPv4 . Aturan mencakup deskripsi untuk membantu Anda mengidentifikasinya nanti.  

```
aws ec2 authorize-security-group-ingress \
    --group-id sg-1234567890abcdef0 \
    --ip-permissions 'IpProtocol=tcp,FromPort=3389,ToPort=3389,IpRanges=[{CidrIp=203.0.113.0/24,Description='RDP access from NY office'}]'
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-0397bbcc01e974db3",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "tcp",
            "FromPort": 3389,
            "ToPort": 3389,
            "CidrIpv4": "203.0.113.0/24",
            "Description": "RDP access from NY office"
        }
    ]
}
```
**Contoh 8: Untuk menambahkan aturan masuk yang menggunakan daftar prefiks**  
Contoh `authorize-security-group-ingress` berikut menggunakan parameter `ip-permissions` untuk menambahkan aturan masuk yang mengizinkan semua lalu lintas untuk rentang CIDR dalam daftar prefiks tertentu.  

```
aws ec2 authorize-security-group-ingress \
    --group-id sg-04a351bfe432d4e71 \
    --ip-permissions 'IpProtocol=all,PrefixListIds=[{PrefixListId=pl-002dc3ec097de1514}]'
```
Output:  

```
{
    "Return": true,
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-09c74b32f677c6c7c",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "123456789012",
            "IsEgress": false,
            "IpProtocol": "-1",
            "FromPort": -1,
            "ToPort": -1,
            "PrefixListId": "pl-0721453c7ac4ec009"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup keamanan](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-security-groups.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/authorize-security-group-ingress.html)di *Referensi AWS CLI Perintah*. 

### `bundle-instance`
<a name="ec2_BundleInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`bundle-instance`.

**AWS CLI**  
**Untuk menggabungkan sebuah instance**  
Contoh ini menggabungkan instance `i-1234567890abcdef0` ke bucket yang disebut`bundletasks`. Sebelum Anda menentukan nilai untuk kunci akses Anda IDs, tinjau dan ikuti panduan dalam Praktik Terbaik untuk Mengelola Kunci AWS Akses.  
Perintah:  

```
aws ec2 bundle-instance --instance-id i-1234567890abcdef0 --bucket bundletasks --prefix winami --owner-akid AK12AJEXAMPLE --owner-sak example123example
```
Output:  

```
{
  "BundleTask": {
    "UpdateTime": "2015-09-15T13:30:35.000Z",
    "InstanceId": "i-1234567890abcdef0",
    "Storage": {
      "S3": {
        "Prefix": "winami",
        "Bucket": "bundletasks"
      }
    },
    "State": "pending",
    "StartTime": "2015-09-15T13:30:35.000Z",
    "BundleId": "bun-294e041f"
  }
}
```
+  Untuk detail API, lihat [BundleInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/bundle-instance.html)di *Referensi AWS CLI Perintah*. 

### `cancel-bundle-task`
<a name="ec2_CancelBundleTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-bundle-task`.

**AWS CLI**  
**Untuk membatalkan tugas bundel**  
Contoh ini membatalkan tugas `bun-2a4e041c` bundel.  
Perintah:  

```
aws ec2 cancel-bundle-task --bundle-id bun-2a4e041c
```
Output:  

```
{
  "BundleTask": {
    "UpdateTime": "2015-09-15T13:27:40.000Z",
    "InstanceId": "i-1234567890abcdef0",
    "Storage": {
      "S3": {
        "Prefix": "winami",
        "Bucket": "bundletasks"
      }
    },
    "State": "cancelling",
    "StartTime": "2015-09-15T13:24:35.000Z",
    "BundleId": "bun-2a4e041c"
  }
}
```
+  Untuk detail API, lihat [CancelBundleTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-bundle-task.html)di *Referensi AWS CLI Perintah*. 

### `cancel-capacity-reservation-fleets`
<a name="ec2_CancelCapacityReservationFleets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-capacity-reservation-fleets`.

**AWS CLI**  
**Untuk membatalkan Armada Reservasi Kapasitas**  
`cancel-capacity-reservation-fleets`Contoh berikut membatalkan Armada Reservasi Kapasitas yang ditentukan dan kapasitas yang dicadangkannya. Saat Anda membatalkan Armada, statusnya berubah menjadi`cancelled`, dan Armada tidak dapat lagi membuat Reservasi Kapasitas baru. Selain itu, semua Reservasi Kapasitas individu di Armada dibatalkan, dan instance yang sebelumnya berjalan dalam kapasitas cadangan terus berjalan normal dalam kapasitas bersama.  

```
aws ec2 cancel-capacity-reservation-fleets \
    --capacity-reservation-fleet-ids crf-abcdef01234567890
```
Output:  

```
{
    "SuccessfulFleetCancellations": [
        {
            "CurrentFleetState": "cancelling",
            "PreviousFleetState": "active",
            "CapacityReservationFleetId": "crf-abcdef01234567890"
        }
    ],
    "FailedFleetCancellations": []
}
```
Untuk informasi selengkapnya tentang Armada Reservasi [Kapasitas, lihat Armada Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/cr-fleets.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CancelCapacityReservationFleets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-capacity-reservation-fleets.html)di *Referensi AWS CLI Perintah*. 

### `cancel-capacity-reservation`
<a name="ec2_CancelCapacityReservation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-capacity-reservation`.

**AWS CLI**  
**Untuk membatalkan reservasi kapasitas**  
`cancel-capacity-reservation`Contoh berikut membatalkan reservasi kapasitas yang ditentukan.  

```
aws ec2 cancel-capacity-reservation \
    --capacity-reservation-id cr-1234abcd56EXAMPLE
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Membatalkan Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-release.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CancelCapacityReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-capacity-reservation.html)di *Referensi AWS CLI Perintah*. 

### `cancel-conversion-task`
<a name="ec2_CancelConversionTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-conversion-task`.

**AWS CLI**  
**Untuk membatalkan konversi aktif dari sebuah instans atau volume**  
Contoh ini membatalkan unggahan yang terkait dengan ID tugas import-i-fh 95npoc. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 cancel-conversion-task --conversion-task-id import-i-fh95npoc
```
+  Untuk detail API, lihat [CancelConversionTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-conversion-task.html)di *Referensi AWS CLI Perintah*. 

### `cancel-export-task`
<a name="ec2_CancelExportTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-export-task`.

**AWS CLI**  
**Untuk membatalkan tugas ekspor aktif**  
Contoh ini membatalkan tugas ekspor aktif dengan ID tugas export-i-fgelt 0i7. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 cancel-export-task --export-task-id export-i-fgelt0i7
```
+  Untuk detail API, lihat [CancelExportTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-export-task.html)di *Referensi AWS CLI Perintah*. 

### `cancel-image-launch-permission`
<a name="ec2_CancelImageLaunchPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-image-launch-permission`.

**AWS CLI**  
**Untuk membatalkan AMI yang dibagikan dengan akun Amazon Web Services**  
`cancel-image-launch-permission`Contoh berikut menghapus akun Anda dari izin peluncuran AMI yang ditentukan.  

```
aws ec2 cancel-image-launch-permission \
    --image-id ami-0123456789example \
    --region us-east-1
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Batalkan agar AMI dibagikan dengan akun Amazon Web Services](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/cancel-sharing-an-AMI.html#cancel-image-launch-permission) Anda di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CancelImageLaunchPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-image-launch-permission.html)di *Referensi AWS CLI Perintah*. 

### `cancel-import-task`
<a name="ec2_CancelImportTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-import-task`.

**AWS CLI**  
**Untuk membatalkan tugas impor**  
`cancel-import-task`Contoh berikut membatalkan tugas gambar impor yang ditentukan.  

```
aws ec2 cancel-import-task \
    --import-task-id import-ami-1234567890abcdef0
```
Output:  

```
{
    "ImportTaskId": "import-ami-1234567890abcdef0",
    "PreviousState": "active",
    "State": "deleting"
}
```
+  Untuk detail API, lihat [CancelImportTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-import-task.html)di *Referensi AWS CLI Perintah*. 

### `cancel-reserved-instances-listing`
<a name="ec2_CancelReservedInstancesListing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-reserved-instances-listing`.

**AWS CLI**  
**Untuk membatalkan daftar Instans Cadangan**  
`cancel-reserved-instances-listing`Contoh berikut membatalkan daftar Instans Cadangan yang ditentukan.  

```
aws ec2 cancel-reserved-instances-listing \
    --reserved-instances-listing-id 5ec28771-05ff-4b9b-aa31-9e57dexample
```
+  Untuk detail API, lihat [CancelReservedInstancesListing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-reserved-instances-listing.html)di *Referensi AWS CLI Perintah*. 

### `cancel-spot-fleet-requests`
<a name="ec2_CancelSpotFleetRequests_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-spot-fleet-requests`.

**AWS CLI**  
**Contoh 1: Untuk membatalkan permintaan armada Spot dan menghentikan instans terkait**  
`cancel-spot-fleet-requests`Contoh berikut membatalkan permintaan Armada Spot dan mengakhiri Instans Sesuai Permintaan dan Instans Spot terkait.  

```
aws ec2 cancel-spot-fleet-requests \
    --spot-fleet-request-ids sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE \
    --terminate-instances
```
Output:  

```
{
    "SuccessfulFleetRequests": [
        {
            "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE",
            "CurrentSpotFleetRequestState": "cancelled_terminating",
            "PreviousSpotFleetRequestState": "active"
        }
    ],
    "UnsuccessfulFleetRequests": []
}
```
**Contoh 2: Untuk membatalkan permintaan armada Spot tanpa menghentikan instans terkait**  
`cancel-spot-fleet-requests`Contoh berikut membatalkan permintaan Armada Spot tanpa menghentikan Instans Sesuai Permintaan dan Instans Spot terkait.  

```
aws ec2 cancel-spot-fleet-requests \
    --spot-fleet-request-ids sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE \
    --no-terminate-instances
```
Output:  

```
{
    "SuccessfulFleetRequests": [
        {
            "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE",
            "CurrentSpotFleetRequestState": "cancelled_running",
            "PreviousSpotFleetRequestState": "active"
        }
    ],
    "UnsuccessfulFleetRequests": []
}
```
Untuk informasi selengkapnya, lihat [Membatalkan permintaan Armada Spot](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/cancel-spot-fleet.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CancelSpotFleetRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-spot-fleet-requests.html)di *Referensi AWS CLI Perintah*. 

### `cancel-spot-instance-requests`
<a name="ec2_CancelSpotInstanceRequests_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-spot-instance-requests`.

**AWS CLI**  
**Untuk membatalkan permintaan Instans Spot**  
Perintah contoh ini membatalkan permintaan Instans Spot.  
Perintah:  

```
aws ec2 cancel-spot-instance-requests --spot-instance-request-ids sir-08b93456
```
Output:  

```
{
    "CancelledSpotInstanceRequests": [
        {
            "State": "cancelled",
            "SpotInstanceRequestId": "sir-08b93456"
        }
    ]
}
```
+  Untuk detail API, lihat [CancelSpotInstanceRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-spot-instance-requests.html)di *Referensi AWS CLI Perintah*. 

### `confirm-product-instance`
<a name="ec2_ConfirmProductInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-product-instance`.

**AWS CLI**  
**Untuk mengonfirmasi contoh produk**  
Contoh ini menentukan apakah kode produk yang ditentukan dikaitkan dengan contoh yang ditentukan.  
Perintah:  

```
aws ec2 confirm-product-instance --product-code 774F4FF8 --instance-id i-1234567890abcdef0
```
Output:  

```
{
  "OwnerId": "123456789012"
}
```
+  Untuk detail API, lihat [ConfirmProductInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/confirm-product-instance.html)di *Referensi AWS CLI Perintah*. 

### `copy-fpga-image`
<a name="ec2_CopyFpgaImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-fpga-image`.

**AWS CLI**  
**Untuk menyalin gambar Amazon FPGA**  
Contoh ini menyalin AFI yang ditentukan dari `us-east-1` wilayah ke wilayah saat ini (`eu-west-1`).  
Perintah:  

```
aws ec2 copy-fpga-image --name copy-afi --source-fpga-image-id afi-0d123e123bfc85abc --source-region us-east-1 --region eu-west-1
```
Output:  

```
{
  "FpgaImageId": "afi-06b12350a123fbabc"
}
```
+  Untuk detail API, lihat [CopyFpgaImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/copy-fpga-image.html)di *Referensi AWS CLI Perintah*. 

### `copy-image`
<a name="ec2_CopyImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-image`.

**AWS CLI**  
**Contoh 1: Untuk menyalin AMI ke Wilayah lain**  
`copy-image`Contoh perintah berikut menyalin AMI yang ditentukan dari `us-west-2` Region ke `us-east-1` Region dan menambahkan deskripsi singkat.  

```
aws ec2 copy-image \
    --region us-east-1 \
    --name ami-name \
    --source-region us-west-2 \
    --source-image-id ami-066877671789bd71b \
    --description "This is my copied image."
```
Output:  

```
{
    "ImageId": "ami-0123456789abcdefg"
}
```
Untuk informasi selengkapnya, lihat [Menyalin AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/CopyingAMIs.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk menyalin AMI ke Wilayah lain dan mengenkripsi snapshot dukungan**  
`copy-image`Perintah berikut menyalin AMI yang ditentukan dari `us-west-2` Wilayah ke Wilayah saat ini dan mengenkripsi snapshot dukungan menggunakan kunci KMS yang ditentukan.  

```
aws ec2 copy-image \
    --source-region us-west-2 \
    --name ami-name \
    --source-image-id ami-066877671789bd71b \
    --encrypted \
    --kms-key-id alias/my-kms-key
```
Output:  

```
{
    "ImageId": "ami-0123456789abcdefg"
}
```
Untuk informasi selengkapnya, lihat [Menyalin AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/CopyingAMIs.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 3: Untuk menyertakan tag AMI yang ditentukan pengguna saat menyalin AMI**  
`copy-image`Perintah berikut menggunakan `--copy-image-tags` parameter untuk menyalin tag AMI yang ditentukan pengguna saat menyalin AMI.  

```
aws ec2 copy-image \
    --region us-east-1 \
    --name ami-name \
    --source-region us-west-2 \
    --source-image-id ami-066877671789bd71b \
    --description "This is my copied image."
    --copy-image-tags
```
Output:  

```
{
    "ImageId": "ami-0123456789abcdefg"
}
```
Untuk informasi selengkapnya, lihat [Menyalin AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/CopyingAMIs.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CopyImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/copy-image.html)di *Referensi AWS CLI Perintah*. 

### `copy-snapshot`
<a name="ec2_CopySnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-snapshot`.

**AWS CLI**  
**Contoh 1: Untuk menyalin snapshot ke Wilayah lain**  
`copy-snapshot`Contoh perintah berikut menyalin snapshot yang ditentukan dari `us-west-2` Region ke `us-east-1` Region dan menambahkan deskripsi singkat.  

```
aws ec2 copy-snapshot \
    --region us-east-1 \
    --source-region us-west-2 \
    --source-snapshot-id snap-066877671789bd71b \
    --description 'This is my copied snapshot.'
```
Output:  

```
{
    "SnapshotId": "snap-066877671789bd71b"
}
```
**Contoh 2: Untuk menyalin snapshot yang tidak terenkripsi dan mengenkripsi snapshot baru**  
`copy-snapshot`Perintah berikut menyalin snapshot tak terenkripsi yang ditentukan dari `us-west-2` Wilayah ke Wilayah saat ini dan mengenkripsi snapshot baru menggunakan kunci KMS yang ditentukan.  

```
aws ec2 copy-snapshot \
    --source-region us-west-2 \
    --source-snapshot-id snap-066877671789bd71b \
    --encrypted \
    --kms-key-id alias/my-kms-key
```
Output:  

```
{
    "SnapshotId": "snap-066877671789bd71b"
}
```
Untuk informasi selengkapnya, lihat [Menyalin snapshot Amazon EBS](https://docs.aws.amazon.com/ebs/latest/userguide/ebs-copy-snapshot.html) di Panduan Pengguna *Amazon EBS*.  
+  Untuk detail API, lihat [CopySnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/copy-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-capacity-reservation-fleet`
<a name="ec2_CreateCapacityReservationFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-capacity-reservation-fleet`.

**AWS CLI**  
**Untuk membuat Armada Reservasi Kapasitas**  
`create-capacity-reservation-fleet`Contoh berikut membuat Armada Reservasi Kapasitas untuk jenis instans yang ditentukan dalam permintaan, hingga total kapasitas target yang ditentukan. Jumlah instans kapasitas yang dipesan Armada Reservasi Kapasitas tergantung pada total kapasitas target dan bobot tipe instans yang Anda tentukan dalam permintaan. Tentukan jenis instance yang akan digunakan dan prioritas untuk masing-masing jenis instans yang ditunjuk.  

```
aws ec2 create-capacity-reservation-fleet \
--total-target-capacity 24 \
--allocation-strategy prioritized \
--instance-match-criteria open \
--tenancy default \
--end-date 2022-12-31T23:59:59.000Z \
--instance-type-specifications file://instanceTypeSpecification.json
```
Isi dari `instanceTypeSpecification.json`:  

```
[
    {
        "InstanceType": "m5.xlarge",
        "InstancePlatform": "Linux/UNIX",
        "Weight": 3.0,
        "AvailabilityZone":"us-east-1a",
        "EbsOptimized": true,
        "Priority" : 1
    }
]
```
Output:  

```
{
    "Status": "submitted",
    "TotalFulfilledCapacity": 0.0,
    "CapacityReservationFleetId": "crf-abcdef01234567890",
    "TotalTargetCapacity": 24
}
```
Untuk informasi selengkapnya tentang Armada Reservasi [Kapasitas, lihat Armada Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/cr-fleets.html) di Panduan *Pengguna Amazon EC2*.  
Untuk informasi selengkapnya tentang bobot tipe instans dan total kapasitas target, lihat [Bobot tipe instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/crfleet-concepts.html#instance-weight) dan [Total kapasitas target](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/crfleet-concepts.html#target-capacity) di *Panduan Pengguna Amazon EC2*.  
Untuk informasi selengkapnya tentang menetapkan prioritas untuk jenis instans tertentu, lihat [Strategi alokasi](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/crfleet-concepts.html#allocation-strategy) dan [prioritas tipe Instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/crfleet-concepts.html#instance-priority) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [CreateCapacityReservationFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-capacity-reservation-fleet.html)di *Referensi AWS CLI Perintah*. 

### `create-capacity-reservation`
<a name="ec2_CreateCapacityReservation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-capacity-reservation`.

**AWS CLI**  
**Contoh 1: Untuk membuat Reservasi Kapasitas**  
`create-capacity-reservation`Contoh berikut membuat reservasi kapasitas di `eu-west-1a` Availability Zone, di mana Anda dapat meluncurkan tiga `t2.medium` instance yang menjalankan sistem Linux/Unix operasi. Secara default, reservasi kapasitas dibuat dengan kriteria pencocokan instans terbuka dan tidak ada dukungan untuk penyimpanan sementara, dan tetap aktif hingga Anda membatalkannya secara manual.  

```
aws ec2 create-capacity-reservation \
    --availability-zone eu-west-1a \
    --instance-type t2.medium \
    --instance-platform Linux/UNIX \
    --instance-count 3
```
Output:  

```
{
    "CapacityReservation": {
        "CapacityReservationId": "cr-1234abcd56EXAMPLE ",
        "EndDateType": "unlimited",
        "AvailabilityZone": "eu-west-1a",
        "InstanceMatchCriteria": "open",
        "EphemeralStorage": false,
        "CreateDate": "2019-08-16T09:27:35.000Z",
        "AvailableInstanceCount": 3,
        "InstancePlatform": "Linux/UNIX",
        "TotalInstanceCount": 3,
        "State": "active",
        "Tenancy": "default",
        "EbsOptimized": false,
        "InstanceType": "t2.medium"
    }
}
```
**Contoh 2: Untuk membuat Reservasi Kapasitas yang secara otomatis berakhir pada tanggal/waktu tertentu**  
`create-capacity-reservation`Contoh berikut membuat reservasi kapasitas di `eu-west-1a` Availability Zone, di mana Anda dapat meluncurkan tiga `m5.large` instance yang menjalankan sistem Linux/Unix operasi. Reservasi kapasitas ini secara otomatis berakhir pada 31/08/2019 pukul 23:59:59.  

```
aws ec2 create-capacity-reservation \
    --availability-zone eu-west-1a \
    --instance-type m5.large \
    --instance-platform Linux/UNIX \
    --instance-count 3 \
    --end-date-type limited \
    --end-date 2019-08-31T23:59:59Z
```
Output:  

```
{
    "CapacityReservation": {
        "CapacityReservationId": "cr-1234abcd56EXAMPLE ",
        "EndDateType": "limited",
        "AvailabilityZone": "eu-west-1a",
        "EndDate": "2019-08-31T23:59:59.000Z",
        "InstanceMatchCriteria": "open",
        "EphemeralStorage": false,
        "CreateDate": "2019-08-16T10:15:53.000Z",
        "AvailableInstanceCount": 3,
        "InstancePlatform": "Linux/UNIX",
        "TotalInstanceCount": 3,
        "State": "active",
        "Tenancy": "default",
        "EbsOptimized": false,
        "InstanceType": "m5.large"
    }
}
```
**Contoh 3: Untuk membuat Reservasi Kapasitas yang hanya menerima peluncuran instans yang ditargetkan**  
`create-capacity-reservation`Contoh berikut membuat reservasi kapasitas yang hanya menerima peluncuran instans yang ditargetkan.  

```
aws ec2 create-capacity-reservation \
    --availability-zone eu-west-1a \
    --instance-type m5.large \
    --instance-platform Linux/UNIX \
    --instance-count 3 \
    --instance-match-criteria targeted
```
Output:  

```
{
    "CapacityReservation": {
        "CapacityReservationId": "cr-1234abcd56EXAMPLE ",
        "EndDateType": "unlimited",
        "AvailabilityZone": "eu-west-1a",
        "InstanceMatchCriteria": "targeted",
        "EphemeralStorage": false,
        "CreateDate": "2019-08-16T10:21:57.000Z",
        "AvailableInstanceCount": 3,
        "InstancePlatform": "Linux/UNIX",
        "TotalInstanceCount": 3,
        "State": "active",
        "Tenancy": "default",
        "EbsOptimized": false,
        "InstanceType": "m5.large"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-using.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CreateCapacityReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-capacity-reservation.html)di *Referensi AWS CLI Perintah*. 

### `create-carrier-gateway`
<a name="ec2_CreateCarrierGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-carrier-gateway`.

**AWS CLI**  
**Untuk membuat gateway operator**  
`create-carrier-gateway`Contoh berikut membuat gateway operator untuk VPC yang ditentukan.  

```
aws ec2 create-carrier-gateway \
    --vpc-id vpc-0c529aEXAMPLE1111
```
Output:  

```
{
    "CarrierGateway": {
        "CarrierGatewayId": "cagw-0465cdEXAMPLE1111",
        "VpcId": "vpc-0c529aEXAMPLE1111",
        "State": "pending",
        "OwnerId": "123456789012"
    }
}
```
*Untuk informasi selengkapnya, lihat [Gateway operator](https://docs.aws.amazon.com/wavelength/latest/developerguide/carrier-gateways.html) di Panduan Pengguna Wavelength AWS .*  
+  Untuk detail API, lihat [CreateCarrierGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-carrier-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-client-vpn-endpoint`
<a name="ec2_CreateClientVpnEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-client-vpn-endpoint`.

**AWS CLI**  
**Untuk membuat titik akhir Client VPN**  
`create-client-vpn-endpoint`Contoh berikut membuat titik akhir Client VPN yang menggunakan otentikasi timbal balik dan menentukan nilai untuk blok CIDR klien.  

```
aws ec2 create-client-vpn-endpoint \
    --client-cidr-block "172.31.0.0/16" \
    --server-certificate-arn arn:aws:acm:ap-south-1:123456789012:certificate/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --authentication-options Type=certificate-authentication,MutualAuthentication={ClientRootCertificateChainArn=arn:aws:acm:ap-south-1:123456789012:certificate/a1b2c3d4-5678-90ab-cdef-22222EXAMPLE} \
    --connection-log-options Enabled=false
```
Output:  

```
{
    "ClientVpnEndpointId": "cvpn-endpoint-123456789123abcde",
    "Status": {
        "Code": "pending-associate"
    },
    "DnsName": "cvpn-endpoint-123456789123abcde.prod.clientvpn.ap-south-1.amazonaws.com"
}
```
Untuk informasi selengkapnya, lihat [Titik Akhir Client VPN](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-endpoints.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [CreateClientVpnEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-client-vpn-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-client-vpn-route`
<a name="ec2_CreateClientVpnRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-client-vpn-route`.

**AWS CLI**  
**Untuk membuat rute untuk titik akhir Client VPN**  
`create-client-vpn-route`Contoh berikut menambahkan rute ke internet (`0.0.0.0/0`) untuk subnet yang ditentukan dari titik akhir Client VPN.  

```
aws ec2 create-client-vpn-route \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde \
    --destination-cidr-block 0.0.0.0/0  \
    --target-vpc-subnet-id subnet-0123456789abcabca
```
Output:  

```
{
    "Status": {
        "Code": "creating"
    }
}
```
Untuk informasi selengkapnya, lihat [Rute](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-routes.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [CreateClientVpnRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-client-vpn-route.html)di *Referensi AWS CLI Perintah*. 

### `create-coip-cidr`
<a name="ec2_CreateCoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-coip-cidr`.

**AWS CLI**  
**Untuk membuat berbagai alamat IP (CoIP) milik pelanggan**  
`create-coip-cidr`Contoh berikut menciptakan rentang tertentu alamat CoIP di kolam CoIP tertentu.  

```
aws ec2 create-coip-cidr \
    --cidr 15.0.0.0/24 \
    --coip-pool-id ipv4pool-coip-1234567890abcdefg
```
Output:  

```
{
    "CoipCidr": {
        "Cidr": "15.0.0.0/24",
        "CoipPoolId": "ipv4pool-coip-1234567890abcdefg",
        "LocalGatewayRouteTableId": "lgw-rtb-abcdefg1234567890"
    }
}
```
Untuk informasi selengkapnya, lihat [Alamat IP milik pelanggan](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html#ip-addressing) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [CreateCoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-coip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `create-coip-pool`
<a name="ec2_CreateCoipPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-coip-pool`.

**AWS CLI**  
**Untuk membuat kumpulan alamat IP (CoIP) milik pelanggan**  
`create-coip-pool`Contoh berikut membuat kumpulan CoIP untuk alamat CoIP dalam tabel rute gateway lokal yang ditentukan.  

```
aws ec2 create-coip-pool \
    --local-gateway-route-table-id lgw-rtb-abcdefg1234567890
```
Output:  

```
{
    "CoipPool": {
        "PoolId": "ipv4pool-coip-1234567890abcdefg",
        "LocalGatewayRouteTableId": "lgw-rtb-abcdefg1234567890",
        "PoolArn": "arn:aws:ec2:us-west-2:123456789012:coip-pool/ipv4pool-coip-1234567890abcdefg"
    }
}
```
Untuk informasi selengkapnya, lihat [Alamat IP milik pelanggan](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html#ip-addressing) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [CreateCoipPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-coip-pool.html)di *Referensi AWS CLI Perintah*. 

### `create-customer-gateway`
<a name="ec2_CreateCustomerGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-customer-gateway`.

**AWS CLI**  
**Untuk membuat gateway pelanggan**  
Contoh ini membuat gateway pelanggan dengan alamat IP yang ditentukan untuk antarmuka luarnya.  
Perintah:  

```
aws ec2 create-customer-gateway --type ipsec.1 --public-ip 12.1.2.3 --bgp-asn 65534
```
Output:  

```
{
    "CustomerGateway": {
        "CustomerGatewayId": "cgw-0e11f167",
        "IpAddress": "12.1.2.3",
        "State": "available",
        "Type": "ipsec.1",
        "BgpAsn": "65534"
    }
}
```
+  Untuk detail API, lihat [CreateCustomerGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-customer-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-default-subnet`
<a name="ec2_CreateDefaultSubnet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-default-subnet`.

**AWS CLI**  
**Untuk membuat subnet default**  
Contoh ini membuat subnet default di Availability Zone`us-east-2a`.  
Perintah:  

```
 aws ec2 create-default-subnet --availability-zone us-east-2a

{
   "Subnet": {
       "AvailabilityZone": "us-east-2a",
       "Tags": [],
       "AvailableIpAddressCount": 4091,
       "DefaultForAz": true,
       "Ipv6CidrBlockAssociationSet": [],
       "VpcId": "vpc-1a2b3c4d",
       "State": "available",
       "MapPublicIpOnLaunch": true,
       "SubnetId": "subnet-1122aabb",
       "CidrBlock": "172.31.32.0/20",
       "AssignIpv6AddressOnCreation": false
   }
 }
```
+  Untuk detail API, lihat [CreateDefaultSubnet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-default-subnet.html)di *Referensi AWS CLI Perintah*. 

### `create-default-vpc`
<a name="ec2_CreateDefaultVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-default-vpc`.

**AWS CLI**  
**Untuk membuat VPC default**  
Contoh ini menciptakan VPC default.  
Perintah:  

```
aws ec2 create-default-vpc
```
Output:  

```
{
   "Vpc": {
       "VpcId": "vpc-8eaae5ea",
       "InstanceTenancy": "default",
       "Tags": [],
       "Ipv6CidrBlockAssociationSet": [],
       "State": "pending",
       "DhcpOptionsId": "dopt-af0c32c6",
       "CidrBlock": "172.31.0.0/16",
       "IsDefault": true
   }
 }
```
+  Untuk detail API, lihat [CreateDefaultVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-default-vpc.html)di *Referensi AWS CLI Perintah*. 

### `create-dhcp-options`
<a name="ec2_CreateDhcpOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-dhcp-options`.

**AWS CLI**  
**Untuk membuat satu set opsi DHCP**  
`create-dhcp-options`Contoh berikut membuat satu set opsi DHCP yang menentukan nama domain, server nama domain, dan jenis node NetBIOS.  

```
aws ec2 create-dhcp-options \
    --dhcp-configuration \
        "Key=domain-name-servers,Values=10.2.5.1,10.2.5.2" \
        "Key=domain-name,Values=example.com" \
        "Key=netbios-node-type,Values=2"
```
Output:  

```
{
    "DhcpOptions": {
        "DhcpConfigurations": [
            {
                "Key": "domain-name",
                "Values": [
                    {
                        "Value": "example.com"
                    }
                ]
            },
            {
                "Key": "domain-name-servers",
                "Values": [
                    {
                        "Value": "10.2.5.1"
                    },
                    {
                        "Value": "10.2.5.2"
                    }
                ]
            },
            {
                "Key": "netbios-node-type",
                "Values": [
                    {
                        "Value": "2"
                    }
                ]
            }
        ],
        "DhcpOptionsId": "dopt-06d52773eff4c55f3"
    }
}
```
+  Untuk detail API, lihat [CreateDhcpOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-dhcp-options.html)di *Referensi AWS CLI Perintah*. 

### `create-egress-only-internet-gateway`
<a name="ec2_CreateEgressOnlyInternetGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-egress-only-internet-gateway`.

**AWS CLI**  
**Untuk membuat gateway Internet khusus egres**  
Contoh ini membuat gateway Internet khusus egres untuk VPC yang ditentukan.  
Perintah:  

```
aws ec2 create-egress-only-internet-gateway --vpc-id vpc-0c62a468
```
Output:  

```
{
  "EgressOnlyInternetGateway": {
      "EgressOnlyInternetGatewayId": "eigw-015e0e244e24dfe8a",
      "Attachments": [
          {
              "State": "attached",
              "VpcId": "vpc-0c62a468"
          }
      ]
  }
}
```
+  Untuk detail API, lihat [CreateEgressOnlyInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-egress-only-internet-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-fleet`
<a name="ec2_CreateFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-fleet`.

**AWS CLI**  
**Contoh 1: Untuk membuat Armada EC2 yang meluncurkan Instans Spot sebagai model pembelian default**  
`create-fleet`Contoh berikut membuat Armada EC2 menggunakan parameter minimum yang diperlukan untuk meluncurkan armada: template peluncuran, kapasitas target, dan model pembelian default. Templat peluncuran diidentifikasi dengan ID templat dan nomor versi peluncurannya. Kapasitas target untuk armada adalah 2 instans, dan model pembelian default adalah`spot`, yang menghasilkan armada meluncurkan 2 Instans Spot.  
Saat Anda membuat EC2 Fleet, gunakan file JSON untuk menentukan informasi tentang instans yang akan diluncurkan.  

```
aws ec2 create-fleet \
    --cli-input-json file://file_name.json
```
Isi file\$1name.json:  

```
{
    "LaunchTemplateConfigs": [
    {
        "LaunchTemplateSpecification": {
        "LaunchTemplateId": "lt-0e8c754449b27161c",
        "Version": "1"
        }
    }
    ],
    "TargetCapacitySpecification": {
        "TotalTargetCapacity": 2,
        "DefaultTargetCapacityType": "spot"
    }
}
```
Output:  

```
{
    "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE"
}
```
**Contoh 2: Untuk membuat Armada EC2 yang meluncurkan Instans Sesuai Permintaan sebagai model pembelian default**  
`create-fleet`Contoh berikut membuat Armada EC2 menggunakan parameter minimum yang diperlukan untuk meluncurkan armada: template peluncuran, kapasitas target, dan model pembelian default. Templat peluncuran diidentifikasi dengan ID templat dan nomor versi peluncurannya. Kapasitas target untuk armada adalah 2 instance, dan model pembelian default adalah`on-demand`, yang menghasilkan armada meluncurkan 2 Instans On-Demand.  
Saat Anda membuat EC2 Fleet, gunakan file JSON untuk menentukan informasi tentang instans yang akan diluncurkan.  

```
aws ec2 create-fleet \
    --cli-input-json file://file_name.json
```
Isi file\$1name.json:  

```
{
    "LaunchTemplateConfigs": [
    {
        "LaunchTemplateSpecification": {
        "LaunchTemplateId": "lt-0e8c754449b27161c",
        "Version": "1"
        }
    }
    ],
    "TargetCapacitySpecification": {
    "TotalTargetCapacity": 2,
    "DefaultTargetCapacityType": "on-demand"
    }
}
```
Output:  

```
{
    "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE"
}
```
**Contoh 3: Untuk membuat Armada EC2 yang meluncurkan Instans Sesuai Permintaan sebagai kapasitas utama**  
`create-fleet`Contoh berikut membuat Armada EC2 yang menentukan total kapasitas target 2 instans untuk armada, dan kapasitas target 1 Instans On-Demand. Model pembelian default adalah`spot`. Armada meluncurkan 1 Instans Sesuai Permintaan seperti yang ditentukan, tetapi perlu meluncurkan satu instance lagi untuk memenuhi total kapasitas target. Model pembelian untuk selisihnya dihitung sebagai `TotalTargetCapacity` - `OnDemandTargetCapacity` =`DefaultTargetCapacityType`, yang menghasilkan armada meluncurkan 1 Instans Spot.  
Saat Anda membuat EC2 Fleet, gunakan file JSON untuk menentukan informasi tentang instans yang akan diluncurkan.  

```
aws ec2 create-fleet \
    --cli-input-json file://file_name.json
```
Isi file\$1name.json:  

```
{
    "LaunchTemplateConfigs": [
    {
        "LaunchTemplateSpecification": {
        "LaunchTemplateId": "lt-0e8c754449b27161c",
        "Version": "1"
        }
    }
    ],
    "TargetCapacitySpecification": {
        "TotalTargetCapacity": 2,
        "OnDemandTargetCapacity":1,
        "DefaultTargetCapacityType": "spot"
    }
}
```
Output:  

```
{
    "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE"
}
```
**Contoh 4: Untuk membuat Armada EC2 yang meluncurkan Instans Spot menggunakan strategi alokasi harga terendah**  
Jika strategi alokasi untuk Instans Spot tidak ditentukan, strategi alokasi default, yaitu `lowest-price`, akan digunakan. `create-fleet`Contoh berikut membuat Armada EC2 menggunakan strategi `lowest-price` alokasi. Tiga spesifikasi peluncuran, yang menimpa templat peluncuran, memiliki tipe instans berbeda tetapi kapasitas dan subnet berbobot sama. Total kapasitas target adalah 2 instance dan model pembelian default adalah`spot`. Armada EC2 meluncurkan 2 Instans Spot menggunakan tipe instans spesifikasi peluncuran dengan harga terendah.  
Saat Anda membuat EC2 Fleet, gunakan file JSON untuk menentukan informasi tentang instans yang akan diluncurkan.  

```
aws ec2 create-fleet \
    --cli-input-json file://file_name.jsonContents of file_name.json::

{
    "LaunchTemplateConfigs": [
    {
        "LaunchTemplateSpecification": {
        "LaunchTemplateId": "lt-0e8c754449b27161c",
        "Version": "1"
        },
        "Overrides": [
            {
                "InstanceType": "c4.large",
                "WeightedCapacity": 1,
                "SubnetId": "subnet-a4f6c5d3"
            },
            {
                "InstanceType": "c3.large",
                "WeightedCapacity": 1,
                "SubnetId": "subnet-a4f6c5d3"
            },
            {
                "InstanceType": "c5.large",
                "WeightedCapacity": 1,
                "SubnetId": "subnet-a4f6c5d3"
            }
        ]
    }
    ],
    "TargetCapacitySpecification": {
        "TotalTargetCapacity": 2,
        "DefaultTargetCapacityType": "spot"
    }
}
```
Output:  

```
{
    "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE"
}
```
+  Untuk detail API, lihat [CreateFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-fleet.html)di *Referensi AWS CLI Perintah*. 

### `create-flow-logs`
<a name="ec2_CreateFlowLogs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-flow-logs`.

**AWS CLI**  
**Contoh 1: Untuk membuat log aliran**  
`create-flow-logs`Contoh berikut membuat log aliran yang menangkap semua lalu lintas ditolak untuk antarmuka jaringan yang ditentukan. Log aliran dikirim ke grup log di CloudWatch Log menggunakan izin dalam peran IAM yang ditentukan.  

```
aws ec2 create-flow-logs \
    --resource-type NetworkInterface \
    --resource-ids eni-11223344556677889 \
    --traffic-type REJECT \
    --log-group-name my-flow-logs \
    --deliver-logs-permission-arn arn:aws:iam::123456789101:role/publishFlowLogs
```
Output:  

```
{
    "ClientToken": "so0eNA2uSHUNlHI0S2cJ305GuIX1CezaRdGtexample",
    "FlowLogIds": [
        "fl-12345678901234567"
    ],
    "Unsuccessful": []
}
```
Untuk informasi selengkapnya, lihat [Log Alur VPC](https://docs.aws.amazon.com/vpc/latest/userguide/flow-logs.html) di *Panduan Pengguna Amazon VPC*.  
**Contoh 2: Untuk membuat log alur dengan format kustom**  
`create-flow-logs`Contoh berikut membuat log alur yang menangkap semua lalu lintas untuk VPC yang ditentukan dan mengirimkan log aliran ke bucket Amazon S3. Parameter `--log-format` menentukan format kustom untuk catatan log alur. Untuk menjalankan perintah ini di Windows, ubah tanda kutip tunggal (') menjadi tanda kutip ganda (“).  

```
aws ec2 create-flow-logs \
    --resource-type VPC \
    --resource-ids vpc-00112233344556677 \
    --traffic-type ALL \
    --log-destination-type s3 \
    --log-destination arn:aws:s3:::flow-log-bucket/my-custom-flow-logs/ \
    --log-format '${version} ${vpc-id} ${subnet-id} ${instance-id} ${srcaddr} ${dstaddr} ${srcport} ${dstport} ${protocol} ${tcp-flags} ${type} ${pkt-srcaddr} ${pkt-dstaddr}'
```
Untuk informasi selengkapnya, lihat [Log Alur VPC](https://docs.aws.amazon.com/vpc/latest/userguide/flow-logs.html) di *Panduan Pengguna Amazon VPC*.  
**Contoh 3: Untuk membuat log aliran dengan interval agregasi maksimum satu menit**  
`create-flow-logs`Contoh berikut membuat log alur yang menangkap semua lalu lintas untuk VPC yang ditentukan dan mengirimkan log aliran ke bucket Amazon S3. `--max-aggregation-interval`Parameter menentukan interval agregasi maksimum 60 detik (1 menit).  

```
aws ec2 create-flow-logs \
    --resource-type VPC \
    --resource-ids vpc-00112233344556677 \
    --traffic-type ALL \
    --log-destination-type s3 \
    --log-destination arn:aws:s3:::flow-log-bucket/my-custom-flow-logs/ \
    --max-aggregation-interval 60
```
Untuk informasi selengkapnya, lihat [Log Alur VPC](https://docs.aws.amazon.com/vpc/latest/userguide/flow-logs.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [CreateFlowLogs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-flow-logs.html)di *Referensi AWS CLI Perintah*. 

### `create-fpga-image`
<a name="ec2_CreateFpgaImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-fpga-image`.

**AWS CLI**  
**Untuk membuat gambar Amazon FPGA**  
Contoh ini membuat AFI dari tarball yang ditentukan dalam ember yang ditentukan.  
Perintah:  

```
aws ec2 create-fpga-image --name my-afi --description test-afi --input-storage-location Bucket=my-fpga-bucket,Key=dcp/17_12_22-103226.Developer_CL.tar --logs-storage-location Bucket=my-fpga-bucket,Key=logs
```
Output:  

```
{
  "FpgaImageId": "afi-0d123e123bfc85abc",
  "FpgaImageGlobalId": "agfi-123cb27b5e84a0abc"
}
```
+  Untuk detail API, lihat [CreateFpgaImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-fpga-image.html)di *Referensi AWS CLI Perintah*. 

### `create-image`
<a name="ec2_CreateImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-image`.

**AWS CLI**  
**Contoh 1: Untuk membuat AMI dari instans yang didukung Amazon EBS**  
`create-image`Contoh berikut membuat AMI dari instance yang ditentukan.  

```
aws ec2 create-image \
    --instance-id i-1234567890abcdef0 \
    --name "My server" \
    --description "An AMI for my server"
```
Output:  

```
{
    "ImageId": "ami-abcdef01234567890"
}
```
*Untuk informasi selengkapnya tentang menentukan pemetaan perangkat blokir untuk AMI Anda, lihat [Menentukan pemetaan perangkat blokir untuk AMI di Panduan Pengguna](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/block-device-mapping-concepts.html#create-ami-bdm) Amazon EC2.*  
**Contoh 2: Untuk membuat AMI dari instans yang didukung Amazon EBS tanpa reboot**  
`create-image`Contoh berikut membuat AMI dan menetapkan parameter --no-reboot, sehingga instance tidak di-reboot sebelum gambar dibuat.  

```
aws ec2 create-image \
    --instance-id i-1234567890abcdef0 \
    --name "My server" \
    --no-reboot
```
Output:  

```
{
    "ImageId": "ami-abcdef01234567890"
}
```
*Untuk informasi selengkapnya tentang menentukan pemetaan perangkat blokir untuk AMI Anda, lihat [Menentukan pemetaan perangkat blokir untuk AMI di Panduan Pengguna](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/block-device-mapping-concepts.html#create-ami-bdm) Amazon EC2.*  
**Contoh 3: Untuk menandai AMI dan snapshot pada pembuatan**  
`create-image`Contoh berikut membuat AMI, dan menandai AMI dan snapshot dengan tag yang sama `cost-center=cc123`  

```
aws ec2 create-image \
    --instance-id i-1234567890abcdef0 \
    --name "My server" \
    --tag-specifications "ResourceType=image,Tags=[{Key=cost-center,Value=cc123}]" "ResourceType=snapshot,Tags=[{Key=cost-center,Value=cc123}]"
```
Output:  

```
{
    "ImageId": "ami-abcdef01234567890"
}
```
Untuk informasi selengkapnya tentang menandai sumber daya Anda saat pembuatan, lihat [Menambahkan tag pada pembuatan sumber daya](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#tag-on-create-examples) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CreateImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-image.html)di *Referensi AWS CLI Perintah*. 

### `create-instance-connect-endpoint`
<a name="ec2_CreateInstanceConnectEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-instance-connect-endpoint`.

**AWS CLI**  
**Untuk membuat Instance Connect Endpoint EC2**  
`create-instance-connect-endpoint`Contoh berikut membuat EC2 Instance Connect Endpoint di subnet yang ditentukan.  

```
aws ec2 create-instance-connect-endpoint \
    --region us-east-1 \
    --subnet-id subnet-0123456789example
```
Output:  

```
{
    "VpcId": "vpc-0123abcd",
    "InstanceConnectEndpointArn": "arn:aws:ec2:us-east-1:111111111111:instance-connect-endpoint/eice-0123456789example",
    "AvailabilityZone": "us-east-1a",
    "NetworkInterfaceIds": [
        "eni-0123abcd"
    ],
    "PreserveClientIp": true,
    "Tags": [],
    "FipsDnsName": "eice-0123456789example.0123abcd.fips.ec2-instance-connect-endpoint.us-east-1.amazonaws.com",
    "StateMessage": "",
    "State": "create-complete",
    "DnsName": "eice-0123456789example.0123abcd.ec2-instance-connect-endpoint.us-east-1.amazonaws.com",
    "SubnetId": "subnet-0123abcd",
    "OwnerId": "111111111111",
    "SecurityGroupIds": [
        "sg-0123abcd"
    ],
    "InstanceConnectEndpointId": "eice-0123456789example",
    "CreatedAt": "2023-04-07T15:43:53.000Z"
}
```
Untuk informasi selengkapnya, lihat [Membuat Titik Akhir Connect Instans EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/create-ec2-instance-connect-endpoints.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [CreateInstanceConnectEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-instance-connect-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-instance-event-window`
<a name="ec2_CreateInstanceEventWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-instance-event-window`.

**AWS CLI**  
**Contoh 1: Untuk membuat jendela acara dengan rentang waktu**  
`create-instance-event-window`Contoh berikut membuat jendela acara dengan rentang waktu. Anda juga tidak dapat menentukan parameter `cron-expression`.  

```
aws ec2 create-instance-event-window \
    --region us-east-1 \
    --time-range StartWeekDay=monday,StartHour=2,EndWeekDay=wednesday,EndHour=8 \
    --tag-specifications "ResourceType=instance-event-window,Tags=[{Key=K1,Value=V1}]" \
    --name myEventWindowName
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "TimeRanges": [
            {
                "StartWeekDay": "monday",
                "StartHour": 2,
                "EndWeekDay": "wednesday",
                "EndHour": 8
            }
        ],
        "Name": "myEventWindowName",
        "State": "creating",
        "Tags": [
            {
                "Key": "K1",
                "Value": "V1"
            }
        ]
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
**Contoh 2: Untuk membuat jendela acara dengan ekspresi cron**  
`create-instance-event-window`Contoh berikut membuat jendela acara dengan ekspresi cron. Anda juga tidak dapat menentukan parameter `time-range`.  

```
aws ec2 create-instance-event-window \
    --region us-east-1 \
    --cron-expression "* 21-23 * * 2,3" \
    --tag-specifications "ResourceType=instance-event-window,Tags=[{Key=K1,Value=V1}]" \
    --name myEventWindowName
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "Name": "myEventWindowName",
        "CronExpression": "* 21-23 * * 2,3",
        "State": "creating",
        "Tags": [
            {
                "Key": "K1",
                "Value": "V1"
            }
        ]
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
+  Untuk detail API, lihat [CreateInstanceEventWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-instance-event-window.html)di *Referensi AWS CLI Perintah*. 

### `create-instance-export-task`
<a name="ec2_CreateInstanceExportTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-instance-export-task`.

**AWS CLI**  
**Untuk mengekspor sebuah instance**  
Perintah contoh ini membuat tugas untuk mengekspor instance i-1234567890abcdef0 ke bucket Amazon S3 myexportbucket.  
Perintah:  

```
aws ec2 create-instance-export-task --description "RHEL5 instance" --instance-id i-1234567890abcdef0 --target-environment vmware --export-to-s3-task DiskImageFormat=vmdk,ContainerFormat=ova,S3Bucket=myexportbucket,S3Prefix=RHEL5
```
Output:  

```
{
    "ExportTask": {
        "State": "active",
        "InstanceExportDetails": {
            "InstanceId": "i-1234567890abcdef0",
            "TargetEnvironment": "vmware"
        },
        "ExportToS3Task": {
            "S3Bucket": "myexportbucket",
            "S3Key": "RHEL5export-i-fh8sjjsq.ova",
            "DiskImageFormat": "vmdk",
            "ContainerFormat": "ova"
        },
        "Description": "RHEL5 instance",
        "ExportTaskId": "export-i-fh8sjjsq"
    }
}
```
+  Untuk detail API, lihat [CreateInstanceExportTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-instance-export-task.html)di *Referensi AWS CLI Perintah*. 

### `create-internet-gateway`
<a name="ec2_CreateInternetGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-internet-gateway`.

**AWS CLI**  
**Untuk membuat gateway internet**  
`create-internet-gateway`Contoh berikut membuat gateway internet dengan tag`Name=my-igw`.  

```
aws ec2 create-internet-gateway \
    --tag-specifications ResourceType=internet-gateway,Tags=[{Key=Name,Value=my-igw}]
```
Output:  

```
{
    "InternetGateway": {
        "Attachments": [],
        "InternetGatewayId": "igw-0d0fb496b3994d755",
        "OwnerId": "123456789012",
        "Tags": [
            {
                "Key": "Name",
                "Value": "my-igw"
            }
        ]
    }
}
```
Untuk informasi lebih lanjut, lihat [Gateway internet](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [CreateInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-internet-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-ipam-pool`
<a name="ec2_CreateIpamPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ipam-pool`.

**AWS CLI**  
**Untuk membuat kolam IPAM**  
`create-ipam-pool`Contoh berikut membuat kolam IPAM.  
(Linux):  

```
aws ec2 create-ipam-pool \
    --ipam-scope-id ipam-scope-02fc38cd4c48e7d38 \
    --address-family ipv4 \
    --auto-import \
    --allocation-min-netmask-length 16 \
    --allocation-max-netmask-length 26 \
    --allocation-default-netmask-length 24 \
    --allocation-resource-tags "Key=Environment,Value=Preprod" \
    --tag-specifications 'ResourceType=ipam-pool,Tags=[{Key=Name,Value="Preprod pool"}]'
```
(Windows):  

```
aws ec2 create-ipam-pool ^
    --ipam-scope-id ipam-scope-02fc38cd4c48e7d38 ^
    --address-family ipv4 ^
    --auto-import ^
    --allocation-min-netmask-length 16 ^
    --allocation-max-netmask-length 26 ^
    --allocation-default-netmask-length 24 ^
    --allocation-resource-tags "Key=Environment,Value=Preprod" ^
    --tag-specifications ResourceType=ipam-pool,Tags=[{Key=Name,Value="Preprod pool"}]
```
Output:  

```
{
    "IpamPool": {
        "OwnerId": "123456789012",
        "IpamPoolId": "ipam-pool-0533048da7d823723",
        "IpamPoolArn": "arn:aws:ec2::123456789012:ipam-pool/ipam-pool-0533048da7d823723",
        "IpamScopeArn": "arn:aws:ec2::123456789012:ipam-scope/ipam-scope-02fc38cd4c48e7d38",
        "IpamScopeType": "private",
        "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
        "IpamRegion": "us-east-1",
        "Locale": "None",
        "PoolDepth": 1,
        "State": "create-in-progress",
        "AutoImport": true,
        "AddressFamily": "ipv4",
        "AllocationMinNetmaskLength": 16,
        "AllocationMaxNetmaskLength": 26,
        "AllocationDefaultNetmaskLength": 24,
        "AllocationResourceTags": [
            {
                "Key": "Environment",
                "Value": "Preprod"
            }
        ],
        "Tags": [
            {
                "Key": "Name",
                "Value": "Preprod pool"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Merencanakan penyediaan alamat IP di Panduan](https://docs.aws.amazon.com/vpc/latest/ipam/planning-ipam.html) Pengguna Amazon *VPC IPAM*.  
+  Untuk detail API, lihat [CreateIpamPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-ipam-pool.html)di *Referensi AWS CLI Perintah*. 

### `create-ipam-resource-discovery`
<a name="ec2_CreateIpamResourceDiscovery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ipam-resource-discovery`.

**AWS CLI**  
**Untuk membuat penemuan sumber daya**  
Dalam contoh ini, Anda adalah admin IPAM yang didelegasikan yang ingin membuat dan berbagi penemuan sumber daya dengan admin IPAM di AWS Organisasi lain sehingga admin di organisasi lain dapat mengelola dan memantau alamat IP sumber daya di organisasi Anda.  
Penting:  
Contoh ini mencakup `--operating-regions` opsi `--region` dan opsi karena, meskipun opsional, mereka harus dikonfigurasi dengan cara tertentu agar berhasil mengintegrasikan penemuan sumber daya dengan IPAM. \$1 `--operating-regions` harus cocok dengan Wilayah tempat Anda memiliki sumber daya yang ingin ditemukan IPAM. Jika ada Wilayah di mana Anda tidak ingin IPAM mengelola alamat IP (misalnya untuk alasan kepatuhan), jangan sertakan mereka. \$1 `--region` harus cocok dengan Wilayah asal IPAM yang ingin Anda kaitkan. Anda harus membuat penemuan sumber daya di Wilayah yang sama tempat IPAM dibuat. Misalnya, jika IPAM yang Anda kaitkan dengan dibuat di us-east-1, sertakan `--region us-east-1` dalam request.Both `--region` dan `--operating-regions` opsi default ke Wilayah tempat Anda menjalankan perintah jika Anda tidak menentukannya.  
Dalam contoh ini, Wilayah operasi IPAM yang kami integrasikan dengan include`us-west-1`,`us-west-2`, dan. `ap-south-1` Saat kami membuat penemuan sumber daya, kami ingin IPAM menemukan alamat IP sumber daya di `us-west-1` dan `us-west-2` tetapi tidak`ap-south-1`. Jadi kami hanya memasukkan `--operating-regions RegionName='us-west-1' RegionName='us-west-2'` dalam permintaan.  
`create-ipam-resource-discovery`Contoh berikut menciptakan penemuan sumber daya IPAM.  

```
aws ec2 create-ipam-resource-discovery \
    --description 'Example-resource-discovery' \
    --tag-specifications 'ResourceType=ipam-resource-discovery,Tags=[{Key=cost-center,Value=cc123}]' \
    --operating-regions RegionName='us-west-1' RegionName='us-west-2' \
    --region us-east-1
```
Output:  

```
{
    "IpamResourceDiscovery":{
        "OwnerId": "149977607591",
        "IpamResourceDiscoveryId": "ipam-res-disco-0257046d8aa78b8bc",
        "IpamResourceDiscoveryArn": "arn:aws:ec2::149977607591:ipam-resource-discovery/ipam-res-disco-0257046d8aa78b8bc",
        "IpamResourceDiscoveryRegion": "us-east-1",
        "Description": "'Example-resource-discovery'",
        "OperatingRegions":[
            {"RegionName": "us-west-1"},
            {"RegionName": "us-west-2"},
            {"RegionName": "us-east-1"}
        ],
        "IsDefault": false,
        "State": "create-in-progress",
        "Tags": [
            {
                "Key": "cost-center",
                "Value": "cc123"
            }
        ]
}
```
Setelah Anda membuat penemuan sumber daya, Anda mungkin ingin membagikannya dengan admin delegasi IPAM lain, yang dapat Anda lakukan. [create-resource-share](https://docs.aws.amazon.com/cli/latest/reference/ram/create-resource-share.html) Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan akun di luar organisasi Anda](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam-outside-org.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [CreateIpamResourceDiscovery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-ipam-resource-discovery.html)di *Referensi AWS CLI Perintah*. 

### `create-ipam-scope`
<a name="ec2_CreateIpamScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ipam-scope`.

**AWS CLI**  
**Untuk membuat cakupan IPAM**  
`create-ipam-scope`Contoh berikut menciptakan lingkup IPAM.  
(Linux):  

```
aws ec2 create-ipam-scope \
    --ipam-id ipam-08440e7a3acde3908 \
    --description "Example description" \
    --tag-specifications 'ResourceType=ipam-scope,Tags=[{Key=Name,Value="Example name value"}]'
```
(Windows):  

```
aws ec2 create-ipam-scope ^
    --ipam-id ipam-08440e7a3acde3908 ^
    --description "Example description" ^
    --tag-specifications ResourceType=ipam-scope,Tags=[{Key=Name,Value="Example name value"}]
```
Output:  

```
{
    "IpamScope": {
        "OwnerId": "123456789012",
        "IpamScopeId": "ipam-scope-01c1ebab2b63bd7e4",
        "IpamScopeArn": "arn:aws:ec2::123456789012:ipam-scope/ipam-scope-01c1ebab2b63bd7e4",
        "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
        "IpamRegion": "us-east-1",
        "IpamScopeType": "private",
        "IsDefault": false,
        "Description": "Example description",
        "PoolCount": 0,
        "State": "create-in-progress",
        "Tags": [
            {
                "Key": "Name",
                "Value": "Example name value"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat cakupan tambahan](https://docs.aws.amazon.com/vpc/latest/ipam/add-scope-ipam.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [CreateIpamScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-ipam-scope.html)di *Referensi AWS CLI Perintah*. 

### `create-ipam`
<a name="ec2_CreateIpam_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ipam`.

**AWS CLI**  
**Untuk membuat IPAM**  
`create-ipam`Contoh berikut menciptakan IPAM.  
(Linux):  

```
aws ec2 create-ipam \
    --description "Example description" \
    --operating-regions "RegionName=us-east-2" "RegionName=us-west-1" \
    --tag-specifications 'ResourceType=ipam,Tags=[{Key=Name,Value=ExampleIPAM}]'
```
(Windows):  

```
aws ec2 create-ipam ^
    --description "Example description" ^
    --operating-regions "RegionName=us-east-2" "RegionName=us-west-1" ^
    --tag-specifications ResourceType=ipam,Tags=[{Key=Name,Value=ExampleIPAM}]
```
Output:  

```
{
    "Ipam": {
        "OwnerId": "123456789012",
        "IpamId": "ipam-036486dfa6af58ee0",
        "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-036486dfa6af58ee0",
        "IpamRegion": "us-east-1",
        "PublicDefaultScopeId": "ipam-scope-071b8042b0195c183",
        "PrivateDefaultScopeId": "ipam-scope-0807405dece705a30",
        "ScopeCount": 2,
        "OperatingRegions": [
            {
                "RegionName": "us-east-2"
            },
            {
                "RegionName": "us-west-1"
            },
            {
                "RegionName": "us-east-1"
            }
        ],
        "State": "create-in-progress",
        "Tags": [
            {
                "Key": "Name",
                "Value": "ExampleIPAM"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat IPAM](https://docs.aws.amazon.com/vpc/latest/ipam/create-ipam.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [CreateIpam](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-ipam.html)di *Referensi AWS CLI Perintah*. 

### `create-key-pair`
<a name="ec2_CreateKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-key-pair`.

**AWS CLI**  
**Untuk membuat pasangan kunci**  
Contoh ini membuat pasangan kunci bernama `MyKeyPair`.  
Perintah:  

```
aws ec2 create-key-pair --key-name MyKeyPair
```
Output-nya adalah versi ASCII dari kunci privat dan sidik jari kunci. Anda perlu menyimpan kunci ke file.  
Untuk informasi selengkapnya, lihat Menggunakan Pasangan Kunci di *Panduan Pengguna Antarmuka Baris Perintah AWS *.  
+  Untuk detail API, lihat [CreateKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `create-launch-template-version`
<a name="ec2_CreateLaunchTemplateVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-launch-template-version`.

**AWS CLI**  
**Untuk membuat versi template peluncuran**  
Contoh ini membuat versi template peluncuran baru berdasarkan versi 1 dari template peluncuran dan menentukan ID AMI yang berbeda.  
Perintah:  

```
aws ec2 create-launch-template-version --launch-template-id lt-0abcd290751193123 --version-description WebVersion2 --source-version 1 --launch-template-data '{"ImageId":"ami-c998b6b2"}'
```
Output:  

```
{
  "LaunchTemplateVersion": {
      "VersionDescription": "WebVersion2",
      "LaunchTemplateId": "lt-0abcd290751193123",
      "LaunchTemplateName": "WebServers",
      "VersionNumber": 2,
      "CreatedBy": "arn:aws:iam::123456789012:root",
      "LaunchTemplateData": {
          "ImageId": "ami-c998b6b2",
          "InstanceType": "t2.micro",
          "NetworkInterfaces": [
              {
                  "Ipv6Addresses": [
                      {
                          "Ipv6Address": "2001:db8:1234:1a00::123"
                      }
                  ],
                  "DeviceIndex": 0,
                  "SubnetId": "subnet-7b16de0c",
                  "AssociatePublicIpAddress": true
              }
          ]
      },
      "DefaultVersion": false,
      "CreateTime": "2017-12-01T13:35:46.000Z"
  }
}
```
+  Untuk detail API, lihat [CreateLaunchTemplateVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-launch-template-version.html)di *Referensi AWS CLI Perintah*. 

### `create-launch-template`
<a name="ec2_CreateLaunchTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-launch-template`.

**AWS CLI**  
**Contoh 1: Untuk membuat templat peluncuran**  
`create-launch-template`Contoh berikut membuat template peluncuran yang menentukan subnet untuk meluncurkan instance, menetapkan alamat IP publik dan IPv6 alamat ke instance, dan membuat tag untuk instance tersebut.  

```
aws ec2 create-launch-template \
    --launch-template-name TemplateForWebServer \
    --version-description WebVersion1 \
    --launch-template-data '{"NetworkInterfaces":[{"AssociatePublicIpAddress":true,"DeviceIndex":0,"Ipv6AddressCount":1,"SubnetId":"subnet-7b16de0c"}],"ImageId":"ami-8c1be5f6","InstanceType":"t2.small","TagSpecifications":[{"ResourceType":"instance","Tags":[{"Key":"purpose","Value":"webserver"}]}]}'
```
Output:  

```
{
    "LaunchTemplate": {
        "LatestVersionNumber": 1,
        "LaunchTemplateId": "lt-01238c059e3466abc",
        "LaunchTemplateName": "TemplateForWebServer",
        "DefaultVersionNumber": 1,
        "CreatedBy": "arn:aws:iam::123456789012:user/Bob",
        "CreateTime": "2019-01-27T09:13:24.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat Meluncurkan Instans dari Templat Peluncuran di *Panduan Pengguna Amazon Elastic Compute Cloud*. Untuk informasi tentang mengutip parameter berformat JSON, lihat Mengutip String di *Panduan Pengguna Antarmuka Baris Perintah AWS *.  
**Contoh 2: Guna membuat templat peluncuran untuk Amazon EC2 Auto Scaling**  
Contoh `create-launch-template` berikut membuat templat peluncuran dengan banyak tanda dan pemetaan perangkat blok untuk menentukan volume EBS tambahan saat instans diluncurkan. Tentukan nilai untuk `Groups` yang sesuai dengan grup keamanan untuk VPC yang akan menjadi tujuan peluncuran instans oleh grup Auto Scaling Anda. Tentukan VPC dan subnet sebagai properti grup Auto Scaling.  

```
aws ec2 create-launch-template \
    --launch-template-name TemplateForAutoScaling \
    --version-description AutoScalingVersion1 \
    --launch-template-data '{"NetworkInterfaces":[{"DeviceIndex":0,"AssociatePublicIpAddress":true,"Groups":["sg-7c227019,sg-903004f8"],"DeleteOnTermination":true}],"ImageId":"ami-b42209de","InstanceType":"m4.large","TagSpecifications":[{"ResourceType":"instance","Tags":[{"Key":"environment","Value":"production"},{"Key":"purpose","Value":"webserver"}]},{"ResourceType":"volume","Tags":[{"Key":"environment","Value":"production"},{"Key":"cost-center","Value":"cc123"}]}],"BlockDeviceMappings":[{"DeviceName":"/dev/sda1","Ebs":{"VolumeSize":100}}]}' --region us-east-1
```
Output:  

```
{
    "LaunchTemplate": {
        "LatestVersionNumber": 1,
        "LaunchTemplateId": "lt-0123c79c33a54e0abc",
        "LaunchTemplateName": "TemplateForAutoScaling",
        "DefaultVersionNumber": 1,
        "CreatedBy": "arn:aws:iam::123456789012:user/Bob",
        "CreateTime": "2019-04-30T18:16:06.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat Membuat Templat Peluncuran untuk Grup Auto Scaling di *Panduan Pengguna Amazon EC2 Auto Scaling*. Untuk informasi tentang mengutip parameter berformat JSON, lihat Mengutip String di *Panduan Pengguna Antarmuka Baris Perintah AWS *.  
**Contoh 3: Untuk membuat templat peluncuran yang menentukan enkripsi volume EBS**  
Contoh `create-launch-template` berikut membuat templat peluncuran yang menyertakan volume EBS terenkripsi yang dibuat dari snapshot yang tidak terenkripsi. Contoh tersebut juga menandai volume selama pembuatan. Jika enkripsi secara default dinonaktifkan, Anda harus menentukan opsi `"Encrypted"` seperti yang ditunjukkan pada contoh berikut. Jika menggunakan opsi `"KmsKeyId"` untuk menentukan CMK yang dikelola pelanggan, Anda juga harus menentukan opsi `"Encrypted"` bahkan jika enkripsi secara default diaktifkan.  

```
aws ec2 create-launch-template \
  --launch-template-name TemplateForEncryption \
  --launch-template-data file://config.json
```
Isi dari `config.json`:  

```
{
    "BlockDeviceMappings":[
        {
            "DeviceName":"/dev/sda1",
            "Ebs":{
                "VolumeType":"gp2",
                "DeleteOnTermination":true,
                "SnapshotId":"snap-066877671789bd71b",
                "Encrypted":true,
                "KmsKeyId":"arn:aws:kms:us-east-1:012345678910:key/abcd1234-a123-456a-a12b-a123b4cd56ef"
            }
        }
    ],
    "ImageId":"ami-00068cd7555f543d5",
    "InstanceType":"c5.large",
    "TagSpecifications":[
        {
            "ResourceType":"volume",
            "Tags":[
                {
                    "Key":"encrypted",
                    "Value":"yes"
                }
            ]
        }
    ]
}
```
Output:  

```
{
    "LaunchTemplate": {
        "LatestVersionNumber": 1,
        "LaunchTemplateId": "lt-0d5bd51bcf8530abc",
        "LaunchTemplateName": "TemplateForEncryption",
        "DefaultVersionNumber": 1,
        "CreatedBy": "arn:aws:iam::123456789012:user/Bob",
        "CreateTime": "2020-01-07T19:08:36.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat Memulihkan Volume Amazon EBS dari Snapshot dan Enkripsi secara Default di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [CreateLaunchTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-launch-template.html)di *Referensi AWS CLI Perintah*. 

### `create-local-gateway-route-table-virtual-interface-group-association`
<a name="ec2_CreateLocalGatewayRouteTableVirtualInterfaceGroupAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-local-gateway-route-table-virtual-interface-group-association`.

**AWS CLI**  
**Untuk mengaitkan tabel rute gateway lokal dengan grup virtual interface (VIFs)**  
`create-local-gateway-route-table-virtual-interface-group-association`Contoh berikut menciptakan hubungan antara tabel rute gateway lokal yang ditentukan dan grup VIF.  

```
aws ec2 create-local-gateway-route-table-virtual-interface-group-association \
    --local-gateway-route-table-id lgw-rtb-exampleidabcd1234 \
    --local-gateway-virtual-interface-group-id lgw-vif-grp-exampleid0123abcd
```
Output:  

```
{
    "LocalGatewayRouteTableVirtualInterfaceGroupAssociation": {
        "LocalGatewayRouteTableVirtualInterfaceGroupAssociationId": "lgw-vif-grp-assoc-exampleid12345678",
        "LocalGatewayVirtualInterfaceGroupId": "lgw-vif-grp-exampleid0123abcd",
        "LocalGatewayId": "lgw-exampleid11223344",
        "LocalGatewayRouteTableId": "lgw-rtb-exampleidabcd1234",
        "LocalGatewayRouteTableArn": "arn:aws:ec2:us-west-2:111122223333:local-gateway-route-table/lgw-rtb-exampleidabcd1234",
        "OwnerId": "111122223333",
        "State": "pending",
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Asosiasi grup VIF](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html#vif-group-associations) di Panduan *AWS Pengguna Outposts*.  
+  Untuk detail API, lihat [CreateLocalGatewayRouteTableVirtualInterfaceGroupAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-local-gateway-route-table-virtual-interface-group-association.html)di *Referensi AWS CLI Perintah*. 

### `create-local-gateway-route-table-vpc-association`
<a name="ec2_CreateLocalGatewayRouteTableVpcAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-local-gateway-route-table-vpc-association`.

**AWS CLI**  
**Untuk mengaitkan VPC dengan tabel rute**  
`create-local-gateway-route-table-vpc-association`Contoh berikut mengaitkan VPC tertentu dengan tabel rute gateway lokal yang ditentukan.  

```
aws ec2 create-local-gateway-route-table-vpc-association \
    --local-gateway-route-table-id lgw-rtb-059615ef7dEXAMPLE \
    --vpc-id vpc-07ef66ac71EXAMPLE
```
Output:  

```
{
    "LocalGatewayRouteTableVpcAssociation": {
        "LocalGatewayRouteTableVpcAssociationId": "lgw-vpc-assoc-0ee765bcc8EXAMPLE",
        "LocalGatewayRouteTableId": "lgw-rtb-059615ef7dEXAMPLE",
        "LocalGatewayId": "lgw-09b493aa7cEXAMPLE",
        "VpcId": "vpc-07ef66ac71EXAMPLE",
        "State": "associated"
    }
}
```
+  Untuk detail API, lihat [CreateLocalGatewayRouteTableVpcAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-local-gateway-route-table-vpc-association.html)di *Referensi AWS CLI Perintah*. 

### `create-local-gateway-route-table`
<a name="ec2_CreateLocalGatewayRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-local-gateway-route-table`.

**AWS CLI**  
**Untuk membuat tabel rute gateway lokal**  
`create-local-gateway-route-table`Contoh berikut membuat tabel rute gateway lokal dengan modus routing VPC langsung.  

```
aws ec2 create-local-gateway-route-table \
    --local-gateway-id lgw-1a2b3c4d5e6f7g8h9 \
    --mode direct-vpc-routing
```
Output:  

```
{
    "LocalGatewayRouteTable": {
        "LocalGatewayRouteTableId": "lgw-rtb-abcdefg1234567890",
        "LocalGatewayRouteTableArn": "arn:aws:ec2:us-west-2:111122223333:local-gateway-route-table/lgw-rtb-abcdefg1234567890",
        "LocalGatewayId": "lgw-1a2b3c4d5e6f7g8h9",
        "OutpostArn": "arn:aws:outposts:us-west-2:111122223333:outpost/op-021345abcdef67890",
        "OwnerId": "111122223333",
        "State": "pending",
        "Tags": [],
        "Mode": "direct-vpc-routing"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel rute gateway lokal](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html) di *Panduan Pengguna AWS Outposts*.  
+  Untuk detail API, lihat [CreateLocalGatewayRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-local-gateway-route-table.html)di *Referensi AWS CLI Perintah*. 

### `create-local-gateway-route`
<a name="ec2_CreateLocalGatewayRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-local-gateway-route`.

**AWS CLI**  
**Untuk membuat rute statis untuk tabel rute gateway lokal**  
`create-local-gateway-route`Contoh berikut membuat rute yang ditentukan dalam tabel rute gateway lokal yang ditentukan.  

```
aws ec2 create-local-gateway-route \
    --destination-cidr-block 0.0.0.0/0 \
    --local-gateway-route-table-id lgw-rtb-059615ef7dEXAMPLE
```
Output:  

```
{
    "Route": {
        "DestinationCidrBlock": "0.0.0.0/0",
        "LocalGatewayVirtualInterfaceGroupId": "lgw-vif-grp-07145b276bEXAMPLE",
        "Type": "static",
        "State": "deleted",
        "LocalGatewayRouteTableId": "lgw-rtb-059615ef7dEXAMPLE"
    }
}
```
+  Untuk detail API, lihat [CreateLocalGatewayRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-local-gateway-route.html)di *Referensi AWS CLI Perintah*. 

### `create-managed-prefix-list`
<a name="ec2_CreateManagedPrefixList_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-managed-prefix-list`.

**AWS CLI**  
**Untuk membuat daftar awalan**  
`create-managed-prefix-list`Contoh berikut membuat daftar IPv4 awalan dengan maksimal 10 entri, dan membuat 2 entri dalam daftar awalan.  

```
aws ec2 create-managed-prefix-list \
    --address-family IPv4 \
    --max-entries 10 \
    --entries Cidr=10.0.0.0/16,Description=vpc-a Cidr=10.2.0.0/16,Description=vpc-b \
    --prefix-list-name vpc-cidrs
```
Output:  

```
{
    "PrefixList": {
        "PrefixListId": "pl-0123456abcabcabc1",
        "AddressFamily": "IPv4",
        "State": "create-in-progress",
        "PrefixListArn": "arn:aws:ec2:us-west-2:123456789012:prefix-list/pl-0123456abcabcabc1",
        "PrefixListName": "vpc-cidrs",
        "MaxEntries": 10,
        "Version": 1,
        "Tags": [],
        "OwnerId": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Daftar awalan terkelola](https://docs.aws.amazon.com/vpc/latest/userguide/managed-prefix-lists.html) di Panduan *Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [CreateManagedPrefixList](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-managed-prefix-list.html)di *Referensi AWS CLI Perintah*. 

### `create-nat-gateway`
<a name="ec2_CreateNatGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-nat-gateway`.

**AWS CLI**  
**Contoh 1: Untuk membuat gateway NAT publik**  
`create-nat-gateway`Contoh berikut membuat gateway NAT publik di subnet yang ditentukan dan mengaitkan alamat IP Elastis dengan ID alokasi yang ditentukan. Saat Anda membuat gateway NAT publik, Anda harus mengaitkan alamat IP Elastis.  

```
aws ec2 create-nat-gateway \
    --subnet-id subnet-0250c25a1fEXAMPLE \
    --allocation-id eipalloc-09ad461b0dEXAMPLE
```
Output:  

```
{
    "NatGateway": {
        "CreateTime": "2021-12-01T22:22:38.000Z",
        "NatGatewayAddresses": [
            {
                "AllocationId": "eipalloc-09ad461b0dEXAMPLE"
            }
        ],
        "NatGatewayId": "nat-0c61bf8a12EXAMPLE",
        "State": "pending",
        "SubnetId": "subnet-0250c25a1fEXAMPLE",
        "VpcId": "vpc-0a60eb65b4EXAMPLE",
        "ConnectivityType": "public"
    }
}
```
Untuk informasi lebih lanjut, lihat [Gateway NAT](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-nat-gateway.html) dalam *Panduan Pengguna Amazon VPC*.  
**Contoh 2: Untuk membuat gateway NAT pribadi**  
`create-nat-gateway`Contoh berikut membuat gateway NAT pribadi di subnet yang ditentukan. Gateway NAT pribadi tidak memiliki alamat IP Elastis terkait.  

```
aws ec2 create-nat-gateway \
    --subnet-id subnet-0250c25a1fEXAMPLE \
    --connectivity-type private
```
Output:  

```
{
    "NatGateway": {
        "CreateTime": "2021-12-01T22:26:00.000Z",
        "NatGatewayAddresses": [
            {}
        ],
        "NatGatewayId": "nat-011b568379EXAMPLE",
        "State": "pending",
        "SubnetId": "subnet-0250c25a1fEXAMPLE",
        "VpcId": "vpc-0a60eb65b4EXAMPLE",
        "ConnectivityType": "private"
    }
}
```
Untuk informasi lebih lanjut, lihat [Gateway NAT](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-nat-gateway.html) dalam *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [CreateNatGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-nat-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-network-acl-entry`
<a name="ec2_CreateNetworkAclEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-network-acl-entry`.

**AWS CLI**  
**Untuk membuat entri ACL jaringan**  
Contoh ini membuat entri untuk ACL jaringan tertentu. Aturan ini memungkinkan masuknya lalu lintas dari IPv4 alamat apa pun (0.0.0.0/0) pada port UDP 53 (DNS) ke subnet terkait. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 create-network-acl-entry --network-acl-id acl-5fb85d36 --ingress --rule-number 100 --protocol udp --port-range From=53,To=53 --cidr-block 0.0.0.0/0 --rule-action allow
```
Contoh ini membuat aturan untuk ACL jaringan tertentu yang memungkinkan lalu lintas masuk dari IPv6 alamat apa pun (:: /0) pada port TCP 80 (HTTP).  
Perintah:  

```
aws ec2 create-network-acl-entry --network-acl-id acl-5fb85d36 --ingress --rule-number 120 --protocol tcp --port-range From=80,To=80 --ipv6-cidr-block ::/0 --rule-action allow
```
+  Untuk detail API, lihat [CreateNetworkAclEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-acl-entry.html)di *Referensi AWS CLI Perintah*. 

### `create-network-acl`
<a name="ec2_CreateNetworkAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-network-acl`.

**AWS CLI**  
**Untuk membuat jaringan ACL**  
Contoh ini membuat ACL jaringan untuk VPC tertentu.  
Perintah:  

```
aws ec2 create-network-acl --vpc-id vpc-a01106c2
```
Output:  

```
{
    "NetworkAcl": {
        "Associations": [],
        "NetworkAclId": "acl-5fb85d36",
        "VpcId": "vpc-a01106c2",
        "Tags": [],
        "Entries": [
            {
                "CidrBlock": "0.0.0.0/0",
                "RuleNumber": 32767,
                "Protocol": "-1",
                "Egress": true,
                "RuleAction": "deny"
            },
            {
                "CidrBlock": "0.0.0.0/0",
                "RuleNumber": 32767,
                "Protocol": "-1",
                "Egress": false,
                "RuleAction": "deny"
            }
        ],
        "IsDefault": false
    }
}
```
+  Untuk detail API, lihat [CreateNetworkAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-acl.html)di *Referensi AWS CLI Perintah*. 

### `create-network-insights-access-scope`
<a name="ec2_CreateNetworkInsightsAccessScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-network-insights-access-scope`.

**AWS CLI**  
**Untuk membuat Network Access Scope**  
`create-network-insights-access-scope`Contoh berikut membuat Network Access Scope.  

```
aws ec2 create-network-insights-access-scope \
    --cli-input-json file://access-scope-file.json
```
Isi dari `access-scope-file.json`:  

```
{
    "MatchPaths": [
        {
            "Source": {
                "ResourceStatement": {
                    "Resources": [
                        "vpc-abcd12e3"
                    ]
                }
            }
         }
    ],
    "ExcludePaths": [
        {
            "Source": {
                "ResourceStatement": {
                    "ResourceTypes": [
                        "AWS::EC2::InternetGateway"
                    ]
                }
            }
        }
    ]
}
```
Output:  

```
{
    "NetworkInsightsAccessScope": {
        "NetworkInsightsAccessScopeId": "nis-123456789abc01234",
        "NetworkInsightsAccessScopeArn": "arn:aws:ec2:us-east-1:123456789012:network-insights-access-scope/nis-123456789abc01234",
        "CreatedDate": "2022-01-25T19:20:28.796000+00:00",
        "UpdatedDate": "2022-01-25T19:20:28.797000+00:00"
    },
    "NetworkInsightsAccessScopeContent": {
        "NetworkInsightsAccessScopeId": "nis-123456789abc01234",
        "MatchPaths": [
            {
                "Source": {
                    "ResourceStatement": {
                        "Resources": [
                            "vpc-abcd12e3"
                        ]
                    }
                }
            }
        ],
        "ExcludePaths": [
            {
                "Source": {
                    "ResourceStatement": {
                        "ResourceTypes": [
                            "AWS::EC2::InternetGateway"
                        ]
                    }
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [CreateNetworkInsightsAccessScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-insights-access-scope.html)di *Referensi AWS CLI Perintah*. 

### `create-network-insights-path`
<a name="ec2_CreateNetworkInsightsPath_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-network-insights-path`.

**AWS CLI**  
**Untuk membuat jalur**  
`create-network-insights-path`Contoh berikut menciptakan jalur. Sumbernya adalah gateway internet yang ditentukan dan tujuannya adalah instance EC2 yang ditentukan. Untuk menentukan apakah tujuan dapat dijangkau menggunakan protokol dan port yang ditentukan, analisis jalur menggunakan perintah. `start-network-insights-analysis`  

```
aws ec2 create-network-insights-path \
    --source igw-0797cccdc9d73b0e5 \
    --destination i-0495d385ad28331c7 \
    --destination-port 22 \
    --protocol TCP
```
Output:  

```
{
    "NetworkInsightsPaths": {
        "NetworkInsightsPathId": "nip-0b26f224f1d131fa8",
        "NetworkInsightsPathArn": "arn:aws:ec2:us-east-1:123456789012:network-insights-path/nip-0b26f224f1d131fa8",
        "CreatedDate": "2021-01-20T22:43:46.933Z",
        "Source": "igw-0797cccdc9d73b0e5",
        "Destination": "i-0495d385ad28331c7",
        "Protocol": "tcp"
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai menggunakan AWS CLI](https://docs.aws.amazon.com/vpc/latest/reachability/getting-started-cli.html) di Panduan *Reachability Analyzer*.  
+  Untuk detail API, lihat [CreateNetworkInsightsPath](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-insights-path.html)di *Referensi AWS CLI Perintah*. 

### `create-network-interface-permission`
<a name="ec2_CreateNetworkInterfacePermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-network-interface-permission`.

**AWS CLI**  
**Untuk membuat izin antarmuka jaringan**  
Contoh ini memberikan izin ke akun `123456789012` untuk melampirkan antarmuka jaringan `eni-1a2b3c4d` ke sebuah instance.  
Perintah:  

```
aws ec2 create-network-interface-permission --network-interface-id eni-1a2b3c4d --aws-account-id 123456789012 --permission INSTANCE-ATTACH
```
Output:  

```
{
  "InterfacePermission": {
      "PermissionState": {
          "State": "GRANTED"
      },
      "NetworkInterfacePermissionId": "eni-perm-06fd19020ede149ea",
      "NetworkInterfaceId": "eni-1a2b3c4d",
      "Permission": "INSTANCE-ATTACH",
      "AwsAccountId": "123456789012"
  }
}
```
+  Untuk detail API, lihat [CreateNetworkInterfacePermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-interface-permission.html)di *Referensi AWS CLI Perintah*. 

### `create-network-interface`
<a name="ec2_CreateNetworkInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-network-interface`.

**AWS CLI**  
**Contoh 1: Untuk menentukan IPv4 alamat untuk antarmuka jaringan**  
`create-network-interface`Contoh berikut membuat antarmuka jaringan untuk subnet tertentu dengan IPv4 alamat utama yang ditentukan.  

```
aws ec2 create-network-interface \
    --subnet-id subnet-00a24d0d67acf6333 \
    --description "my network interface" \
    --groups sg-09dfba7ed20cda78b \
    --private-ip-address 10.0.8.17
```
Output:  

```
{
    "NetworkInterface": {
        "AvailabilityZone": "us-west-2a",
        "Description": "my network interface",
        "Groups": [
            {
                "GroupName": "my-security-group",
                "GroupId": "sg-09dfba7ed20cda78b"
            }
        ],
        "InterfaceType": "interface",
        "Ipv6Addresses": [],
        "MacAddress": "06:6a:0f:9a:49:37",
        "NetworkInterfaceId": "eni-0492b355f0cf3b3f8",
        "OwnerId": "123456789012",
        "PrivateDnsName": "ip-10-0-8-18.us-west-2.compute.internal",
        "PrivateIpAddress": "10.0.8.17",
        "PrivateIpAddresses": [
            {
                "Primary": true,
                "PrivateDnsName": "ip-10-0-8-17.us-west-2.compute.internal",
                "PrivateIpAddress": "10.0.8.17"
            }
        ],
        "RequesterId": "AIDA4Z3Y7GSXTMEXAMPLE",
        "RequesterManaged": false,
        "SourceDestCheck": true,
        "Status": "pending",
        "SubnetId": "subnet-00a24d0d67acf6333",
        "TagSet": [],
        "VpcId": "vpc-02723a0feeeb9d57b"
    }
}
```
**Contoh 2: Untuk membuat antarmuka jaringan dengan IPv4 alamat dan IPv6 alamat**  
`create-network-interface`Contoh berikut membuat antarmuka jaringan untuk subnet yang ditentukan dengan alamat IPv4 dan alamat IPv6 yang dipilih oleh Amazon EC2.  

```
aws ec2 create-network-interface \
    --subnet-id subnet-00a24d0d67acf6333 \
    --description "my dual stack network interface" \
    --ipv6-address-count 1 \
    --groups sg-09dfba7ed20cda78b
```
Output:  

```
{
    "NetworkInterface": {
        "AvailabilityZone": "us-west-2a",
        "Description": "my dual stack network interface",
        "Groups": [
            {
                "GroupName": "my-security-group",
                "GroupId": "sg-09dfba7ed20cda78b"
            }
        ],
        "InterfaceType": "interface",
        "Ipv6Addresses": [
            {
                "Ipv6Address": "2600:1f13:cfe:3650:a1dc:237c:393a:4ba7",
                "IsPrimaryIpv6": false
            }
        ],
        "MacAddress": "06:b8:68:d2:b2:2d",
        "NetworkInterfaceId": "eni-05da417453f9a84bf",
        "OwnerId": "123456789012",
        "PrivateDnsName": "ip-10-0-8-18.us-west-2.compute.internal",
        "PrivateIpAddress": "10.0.8.18",
        "PrivateIpAddresses": [
            {
                "Primary": true,
                "PrivateDnsName": "ip-10-0-8-18.us-west-2.compute.internal",
                "PrivateIpAddress": "10.0.8.18"
            }
        ],
        "RequesterId": "AIDA4Z3Y7GSXTMEXAMPLE",
        "RequesterManaged": false,
        "SourceDestCheck": true,
        "Status": "pending",
        "SubnetId": "subnet-00a24d0d67acf6333",
        "TagSet": [],
        "VpcId": "vpc-02723a0feeeb9d57b",
        "Ipv6Address": "2600:1f13:cfe:3650:a1dc:237c:393a:4ba7"
    }
}
```
**Contoh 3: Untuk membuat antarmuka jaringan dengan opsi konfigurasi pelacakan koneksi**  
`create-network-interface`Contoh berikut membuat antarmuka jaringan dan mengkonfigurasi batas waktu pelacakan koneksi idle.  

```
aws ec2 create-network-interface \
    --subnet-id subnet-00a24d0d67acf6333 \
    --groups sg-02e57dbcfe0331c1b \
    --connection-tracking-specification TcpEstablishedTimeout=86400,UdpTimeout=60
```
Output:  

```
{
    "NetworkInterface": {
        "AvailabilityZone": "us-west-2a",
        "ConnectionTrackingConfiguration": {
            "TcpEstablishedTimeout": 86400,
            "UdpTimeout": 60
        },
        "Description": "",
        "Groups": [
            {
                "GroupName": "my-security-group",
                "GroupId": "sg-02e57dbcfe0331c1b"
            }
        ],
        "InterfaceType": "interface",
        "Ipv6Addresses": [],
        "MacAddress": "06:4c:53:de:6d:91",
        "NetworkInterfaceId": "eni-0c133586e08903d0b",
        "OwnerId": "123456789012",
        "PrivateDnsName": "ip-10-0-8-94.us-west-2.compute.internal",
        "PrivateIpAddress": "10.0.8.94",
        "PrivateIpAddresses": [
            {
                "Primary": true,
                "PrivateDnsName": "ip-10-0-8-94.us-west-2.compute.internal",
                "PrivateIpAddress": "10.0.8.94"
            }
        ],
        "RequesterId": "AIDA4Z3Y7GSXTMEXAMPLE",
        "RequesterManaged": false,
        "SourceDestCheck": true,
        "Status": "pending",
        "SubnetId": "subnet-00a24d0d67acf6333",
        "TagSet": [],
        "VpcId": "vpc-02723a0feeeb9d57b"
    }
}
```
**Contoh 4: Untuk membuat Adaptor Kain Elastis**  
`create-network-interface`Contoh berikut menciptakan EFA.  

```
aws ec2 create-network-interface \
    --interface-type efa \
    --subnet-id subnet-00a24d0d67acf6333 \
    --description "my efa" \
    --groups sg-02e57dbcfe0331c1b
```
Output:  

```
{
    "NetworkInterface": {
        "AvailabilityZone": "us-west-2a",
        "Description": "my efa",
        "Groups": [
            {
                "GroupName": "my-efa-sg",
                "GroupId": "sg-02e57dbcfe0331c1b"
            }
        ],
        "InterfaceType": "efa",
        "Ipv6Addresses": [],
        "MacAddress": "06:d7:a4:f7:4d:57",
        "NetworkInterfaceId": "eni-034acc2885e862b65",
        "OwnerId": "123456789012",
        "PrivateDnsName": "ip-10-0-8-180.us-west-2.compute.internal",
        "PrivateIpAddress": "10.0.8.180",
        "PrivateIpAddresses": [
            {
                "Primary": true,
                "PrivateDnsName": "ip-10-0-8-180.us-west-2.compute.internal",
                "PrivateIpAddress": "10.0.8.180"
            }
        ],
        "RequesterId": "AIDA4Z3Y7GSXTMEXAMPLE",
        "RequesterManaged": false,
        "SourceDestCheck": true,
        "Status": "pending",
        "SubnetId": "subnet-00a24d0d67acf6333",
        "TagSet": [],
        "VpcId": "vpc-02723a0feeeb9d57b"
    }
}
```
Untuk informasi selengkapnya, lihat [Antarmuka jaringan elastis](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-eni.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CreateNetworkInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-interface.html)di *Referensi AWS CLI Perintah*. 

### `create-placement-group`
<a name="ec2_CreatePlacementGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-placement-group`.

**AWS CLI**  
**Untuk membuat grup penempatan**  
Perintah contoh ini membuat grup penempatan dengan nama yang ditentukan.  
Perintah:  

```
aws ec2 create-placement-group --group-name my-cluster --strategy cluster
```
**Untuk membuat grup penempatan partisi**  
Perintah contoh ini membuat grup penempatan partisi bernama `HDFS-Group-A` dengan lima partisi.  
Perintah:  

```
aws ec2 create-placement-group --group-name HDFS-Group-A --strategy partition --partition-count 5
```
+  Untuk detail API, lihat [CreatePlacementGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-placement-group.html)di *Referensi AWS CLI Perintah*. 

### `create-replace-root-volume-task`
<a name="ec2_CreateReplaceRootVolumeTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-replace-root-volume-task`.

**AWS CLI**  
**Contoh 1: Untuk mengembalikan volume root ke status peluncuran awalnya**  
`create-replace-root-volume-task`Contoh berikut mengembalikan volume root instance i-0123456789abcdefa ke status peluncuran awalnya.  

```
aws ec2 create-replace-root-volume-task \
    --instance-id i-0123456789abcdefa
```
Output:  

```
{
    "ReplaceRootVolumeTask":
    {
        "InstanceId": "i-0123456789abcdefa",
            "ReplaceRootVolumeTaskId": "replacevol-0111122223333abcd",
            "TaskState": "pending",
            "StartTime": "2022-03-14T15:06:38Z",
            "Tags": []
    }
}
```
**Contoh 2: Untuk mengembalikan volume root ke snapshot tertentu**  
`create-replace-root-volume-task`Contoh berikut mengembalikan volume root instance i-0123456789abcdefa ke snapshot snap-0abcdef1234567890.  

```
aws ec2 create-replace-root-volume-task \
    --instance-id i-0123456789abcdefa \
    --snapshot-id  snap-0abcdef1234567890
```
Output:  

```
{
    "ReplaceRootVolumeTask":
    {
        "InstanceId": "i-0123456789abcdefa",
        "ReplaceRootVolumeTaskId": "replacevol-0555566667777abcd",
        "TaskState": "pending",
        "StartTime": "2022-03-14T15:16:28Z",
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Mengganti volume root](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/replace-root.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CreateReplaceRootVolumeTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-replace-root-volume-task.html)di *Referensi AWS CLI Perintah*. 

### `create-reserved-instances-listing`
<a name="ec2_CreateReservedInstancesListing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-reserved-instances-listing`.

**AWS CLI**  
**Untuk mencantumkan Instans Cadangan di Marketplace Instans Cadangan**  
`create-reserved-instances-listing`Contoh berikut membuat daftar untuk Instans Cadangan yang ditentukan di Marketplace Instans Cadangan.  

```
aws ec2 create-reserved-instances-listing \
    --reserved-instances-id 5ec28771-05ff-4b9b-aa31-9e57dexample \
    --instance-count 3 \
    --price-schedules CurrencyCode=USD,Price=25.50 \
    --client-token 550e8400-e29b-41d4-a716-446655440000
```
+  Untuk detail API, lihat [CreateReservedInstancesListing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-reserved-instances-listing.html)di *Referensi AWS CLI Perintah*. 

### `create-restore-image-task`
<a name="ec2_CreateRestoreImageTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-restore-image-task`.

**AWS CLI**  
**Untuk memulihkan AMI dari bucket S3**  
`create-restore-image-task`Contoh berikut mengembalikan AMI dari bucket S3. Gunakan nilai untuk `S3ObjectKey `` and ``Bucket` dari `describe-store-image-tasks` output, tentukan kunci objek AMI dan nama bucket S3 tempat AMI disalin, dan tentukan nama untuk AMI yang dipulihkan. Nama harus unik untuk AMIs di Wilayah untuk akun ini. AMI yang dipulihkan akan menerima ID AMI baru.  

```
aws ec2 create-restore-image-task \
    --object-key ami-1234567890abcdef0.bin \
    --bucket my-ami-bucket \
    --name 'New AMI Name'
```
Output:  

```
{
    "ImageId": "ami-0eab20fe36f83e1a8"
}
```
Untuk informasi selengkapnya, lihat [Menyimpan dan memulihkan AMI menggunakan S3](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ami-store-restore.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CreateRestoreImageTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-restore-image-task.html)di *Referensi AWS CLI Perintah*. 

### `create-route-table`
<a name="ec2_CreateRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-route-table`.

**AWS CLI**  
**Untuk membuat tabel rute**  
Contoh ini membuat tabel rute untuk VPC tertentu.  
Perintah:  

```
aws ec2 create-route-table --vpc-id vpc-a01106c2
```
Output:  

```
{
    "RouteTable": {
        "Associations": [],
        "RouteTableId": "rtb-22574640",
        "VpcId": "vpc-a01106c2",
        "PropagatingVgws": [],
        "Tags": [],
        "Routes": [
            {
                "GatewayId": "local",
                "DestinationCidrBlock": "10.0.0.0/16",
                "State": "active"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [CreateRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-route-table.html)di *Referensi AWS CLI Perintah*. 

### `create-route`
<a name="ec2_CreateRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-route`.

**AWS CLI**  
**Untuk membuat rute**  
Contoh ini membuat rute untuk tabel rute yang ditentukan. Rute cocok dengan semua IPv4 lalu lintas (`0.0.0.0/0`) dan merutekkannya ke gateway Internet yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 create-route --route-table-id rtb-22574640 --destination-cidr-block 0.0.0.0/0 --gateway-id igw-c0a643a9
```
Perintah contoh ini membuat rute dalam tabel rute rtb-g8ff4ea2. Rute ini cocok dengan lalu lintas untuk blok IPv4 CIDR 10.0.0.0/16 dan merutekkannya ke koneksi peering VPC, pcx-111aaa22. Rute ini memungkinkan lalu lintas diarahkan ke VPC rekan dalam koneksi peering VPC. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 create-route --route-table-id rtb-g8ff4ea2 --destination-cidr-block 10.0.0.0/16 --vpc-peering-connection-id pcx-1a2b3c4d
```
Contoh ini membuat rute dalam tabel rute yang ditentukan yang cocok dengan semua IPv6 traffic (`::/0`) dan merutekkannya ke gateway Internet khusus egres yang ditentukan.  
Perintah:  

```
aws ec2 create-route --route-table-id rtb-dce620b8 --destination-ipv6-cidr-block ::/0 --egress-only-internet-gateway-id eigw-01eadbd45ecd7943f
```
+  Untuk detail API, lihat [CreateRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-route.html)di *Referensi AWS CLI Perintah*. 

### `create-security-group`
<a name="ec2_CreateSecurityGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-security-group`.

**AWS CLI**  
**Guna membuat grup keamanan untuk EC2-Classic**  
Contoh ini membuat grup keamanan bernama `MySecurityGroup`.  
Perintah:  

```
aws ec2 create-security-group --group-name MySecurityGroup --description "My security group"
```
Output:  

```
{
    "GroupId": "sg-903004f8"
}
```
**Guna membuat grup keamanan untuk EC2-VPC**  
Contoh ini membuat grup keamanan bernama `MySecurityGroup` untuk VPC tertentu.  
Perintah:  

```
aws ec2 create-security-group --group-name MySecurityGroup --description "My security group" --vpc-id vpc-1a2b3c4d
```
Output:  

```
{
    "GroupId": "sg-903004f8"
}
```
Untuk informasi selengkapnya, lihat Menggunakan Grup Keamanan di *Panduan Pengguna Antarmuka Baris Perintah AWS *.  
+  Untuk detail API, lihat [CreateSecurityGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-security-group.html)di *Referensi AWS CLI Perintah*. 

### `create-snapshot`
<a name="ec2_CreateSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-snapshot`.

**AWS CLI**  
**Untuk membuat snapshot**  
Perintah contoh ini membuat snapshot volume dengan ID volume `vol-1234567890abcdef0` dan deskripsi singkat untuk mengidentifikasi snapshot.  
Perintah:  

```
aws ec2 create-snapshot --volume-id vol-1234567890abcdef0 --description "This is my root volume snapshot"
```
Output:  

```
{
    "Description": "This is my root volume snapshot",
    "Tags": [],
    "Encrypted": false,
    "VolumeId": "vol-1234567890abcdef0",
    "State": "pending",
    "VolumeSize": 8,
    "StartTime": "2018-02-28T21:06:01.000Z",
    "Progress": "",
    "OwnerId": "012345678910",
    "SnapshotId": "snap-066877671789bd71b"
}
```
**Untuk membuat snapshot dengan tag**  
Perintah contoh ini membuat snapshot dan menerapkan dua tag: purpose=prod dan costcenter=123.  
Perintah:  

```
aws ec2 create-snapshot --volume-id vol-1234567890abcdef0 --description 'Prod backup' --tag-specifications 'ResourceType=snapshot,Tags=[{Key=purpose,Value=prod},{Key=costcenter,Value=123}]'
```
Output:  

```
{
    "Description": "Prod backup",
    "Tags": [
        {
            "Value": "prod",
            "Key": "purpose"
        },
        {
            "Value": "123",
            "Key": "costcenter"
        }
     ],
     "Encrypted": false,
     "VolumeId": "vol-1234567890abcdef0",
     "State": "pending",
     "VolumeSize": 8,
     "StartTime": "2018-02-28T21:06:06.000Z",
     "Progress": "",
     "OwnerId": "012345678910",
     "SnapshotId": "snap-09ed24a70bc19bbe4"
 }
```
+  Untuk detail API, lihat [CreateSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-snapshots`
<a name="ec2_CreateSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-snapshots`.

**AWS CLI**  
**Contoh 1: Untuk membuat snapshot multi-volume**  
`create-snapshots`Contoh berikut membuat snapshot dari semua volume yang dilampirkan ke instance yang ditentukan.  

```
aws ec2 create-snapshots \
    --instance-specification InstanceId=i-1234567890abcdef0 \
    --description "This is snapshot of a volume from my-instance"
```
Output:  

```
{
    "Snapshots": [
        {
            "Description": "This is a snapshot of a volume from my-instance",
            "Tags": [],
            "Encrypted": false,
            "VolumeId": "vol-0a01d2d5a34697479",
            "State": "pending",
            "VolumeSize": 16,
            "StartTime": "2019-08-05T16:58:19.000Z",
            "Progress": "",
            "OwnerId": "123456789012",
            "SnapshotId": "snap-07f30e3909aa0045e"
        },
        {
            "Description": "This is a snapshot of a volume from my-instance",
            "Tags": [],
            "Encrypted": false,
            "VolumeId": "vol-02d0d4947008cb1a2",
            "State": "pending",
            "VolumeSize": 20,
            "StartTime": "2019-08-05T16:58:19.000Z",
            "Progress": "",
            "OwnerId": "123456789012",
            "SnapshotId": "snap-0ec20b602264aad48"
        },
        ...
    ]
}
```
**Contoh 2: Untuk membuat snapshot multi-volume dengan tag dari volume sumber**  
`create-snapshots`Contoh berikut membuat snapshot dari semua volume yang dilampirkan ke instance yang ditentukan dan menyalin tag dari setiap volume ke snapshot yang sesuai.  

```
aws ec2 create-snapshots \
    --instance-specification InstanceId=i-1234567890abcdef0 \
    --copy-tags-from-source volume \
    --description "This is snapshot of a volume from my-instance"
```
Output:  

```
{
    "Snapshots": [
        {
            "Description": "This is a snapshot of a volume from my-instance",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "my-volume"
                }
            ],
            "Encrypted": false,
            "VolumeId": "vol-02d0d4947008cb1a2",
            "State": "pending",
            "VolumeSize": 20,
            "StartTime": "2019-08-05T16:53:04.000Z",
            "Progress": "",
            "OwnerId": "123456789012",
            "SnapshotId": "snap-053bfaeb821a458dd"
        }
        ...
    ]
}
```
**Contoh 3: Untuk membuat snapshot multi-volume yang tidak termasuk volume root**  
`create-snapshots`Contoh berikut membuat snapshot dari semua volume yang dilampirkan ke instance tertentu kecuali untuk volume root.  

```
aws ec2 create-snapshots \
    --instance-specification InstanceId=i-1234567890abcdef0,ExcludeBootVolume=true
```
Lihat contoh 1 untuk output sampel.  
**Contoh 4: Untuk membuat snapshot multi-volume dan menambahkan tag**  
`create-snapshots`Contoh berikut membuat snapshot dari semua volume yang dilampirkan ke instance yang ditentukan dan menambahkan dua tag ke setiap snapshot.  

```
aws ec2 create-snapshots \
    --instance-specification InstanceId=i-1234567890abcdef0 \
    --tag-specifications 'ResourceType=snapshot,Tags=[{Key=Name,Value=backup},{Key=costcenter,Value=123}]'
```
Lihat contoh 1 untuk output sampel.  
+  Untuk detail API, lihat [CreateSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `create-spot-datafeed-subscription`
<a name="ec2_CreateSpotDatafeedSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-spot-datafeed-subscription`.

**AWS CLI**  
**Untuk membuat umpan data Instance Spot**  
`create-spot-datafeed-subscription`Contoh berikut membuat umpan data Spot Instance.  

```
aws ec2 create-spot-datafeed-subscription \
    --bucket amzn-s3-demo-bucket \
    --prefix spot-data-feed
```
Output:  

```
{
    "SpotDatafeedSubscription": {
        "Bucket": "amzn-s3-demo-bucket",
        "OwnerId": "123456789012",
        "Prefix": "spot-data-feed",
        "State": "Active"
    }
}
```
Umpan data disimpan di bucket Amazon S3 yang Anda tentukan. Nama file untuk umpan data ini memiliki format berikut.  

```
amzn-s3-demo-bucket.s3.amazonaws.com/spot-data-feed/123456789012.YYYY-MM-DD-HH.n.abcd1234.gz
```
Untuk informasi selengkapnya, lihat [umpan data Instans Spot](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/spot-data-feeds.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CreateSpotDatafeedSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-spot-datafeed-subscription.html)di *Referensi AWS CLI Perintah*. 

### `create-store-image-task`
<a name="ec2_CreateStoreImageTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-store-image-task`.

**AWS CLI**  
**Untuk menyimpan AMI dalam ember S3**  
`create-store-image-task`Contoh berikut menyimpan AMI dalam bucket S3. Tentukan ID AMI dan nama bucket S3 untuk menyimpan AMI.  

```
aws ec2 create-store-image-task \
  --image-id ami-1234567890abcdef0 \
  --bucket my-ami-bucket
```
Output:  

```
{
    "ObjectKey": "ami-1234567890abcdef0.bin"
}
```
Untuk informasi selengkapnya, lihat [Menyimpan dan memulihkan AMI menggunakan S3](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ami-store-restore.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [CreateStoreImageTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-store-image-task.html)di *Referensi AWS CLI Perintah*. 

### `create-subnet-cidr-reservation`
<a name="ec2_CreateSubnetCidrReservation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subnet-cidr-reservation`.

**AWS CLI**  
**Untuk membuat reservasi CIDR subnet**  
`create-subnet-cidr-reservation`Contoh berikut membuat reservasi CIDR subnet untuk subnet dan rentang CIDR yang ditentukan.  

```
aws ec2 create-subnet-cidr-reservation \
    --subnet-id subnet-03c51e2eEXAMPLE \
    --reservation-type prefix \
    --cidr 10.1.0.20/26
```
Output:  

```
{
    "SubnetCidrReservation": {
        "SubnetCidrReservationId": "scr-044f977c4eEXAMPLE",
        "SubnetId": "subnet-03c51e2e6cEXAMPLE",
        "Cidr": "10.1.0.16/28",
        "ReservationType": "prefix",
        "OwnerId": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Reservasi CIDR Subnet](https://docs.aws.amazon.com/vpc/latest/userguide/subnet-cidr-reservation.html) di Panduan Pengguna Amazon *VPC*.  
+  Untuk detail API, lihat [CreateSubnetCidrReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-subnet-cidr-reservation.html)di *Referensi AWS CLI Perintah*. 

### `create-subnet`
<a name="ec2_CreateSubnet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subnet`.

**AWS CLI**  
**Contoh 1: Untuk membuat subnet dengan blok IPv4 CIDR saja**  
`create-subnet`Contoh berikut membuat subnet di VPC tertentu dengan blok CIDR yang IPv4 ditentukan.  

```
aws ec2 create-subnet \
    --vpc-id vpc-081ec835f3EXAMPLE \
    --cidr-block 10.0.0.0/24 \
    --tag-specifications ResourceType=subnet,Tags=[{Key=Name,Value=my-ipv4-only-subnet}]
```
Output:  

```
{
    "Subnet": {
        "AvailabilityZone": "us-west-2a",
        "AvailabilityZoneId": "usw2-az2",
        "AvailableIpAddressCount": 251,
        "CidrBlock": "10.0.0.0/24",
        "DefaultForAz": false,
        "MapPublicIpOnLaunch": false,
        "State": "available",
        "SubnetId": "subnet-0e99b93155EXAMPLE",
        "VpcId": "vpc-081ec835f3EXAMPLE",
        "OwnerId": "123456789012",
        "AssignIpv6AddressOnCreation": false,
        "Ipv6CidrBlockAssociationSet": [],
        "Tags": [
            {
                "Key": "Name",
                "Value": "my-ipv4-only-subnet"
            }
        ],
        "SubnetArn": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0e99b93155EXAMPLE"
    }
}
```
**Contoh 2: Untuk membuat subnet dengan keduanya IPv4 dan blok IPv6 CIDR**  
`create-subnet`Contoh berikut membuat subnet di VPC tertentu dengan blok yang IPv4 ditentukan IPv6 dan CIDR.  

```
aws ec2 create-subnet \
    --vpc-id vpc-081ec835f3EXAMPLE \
    --cidr-block 10.0.0.0/24 \
    --ipv6-cidr-block 2600:1f16:cfe:3660::/64 \
    --tag-specifications ResourceType=subnet,Tags=[{Key=Name,Value=my-ipv4-ipv6-subnet}]
```
Output:  

```
{
    "Subnet": {
        "AvailabilityZone": "us-west-2a",
        "AvailabilityZoneId": "usw2-az2",
        "AvailableIpAddressCount": 251,
        "CidrBlock": "10.0.0.0/24",
        "DefaultForAz": false,
        "MapPublicIpOnLaunch": false,
        "State": "available",
        "SubnetId": "subnet-0736441d38EXAMPLE",
        "VpcId": "vpc-081ec835f3EXAMPLE",
        "OwnerId": "123456789012",
        "AssignIpv6AddressOnCreation": false,
        "Ipv6CidrBlockAssociationSet": [
            {
                "AssociationId": "subnet-cidr-assoc-06c5f904499fcc623",
                "Ipv6CidrBlock": "2600:1f13:cfe:3660::/64",
                "Ipv6CidrBlockState": {
                    "State": "associating"
                }
            }
        ],
        "Tags": [
            {
                "Key": "Name",
                "Value": "my-ipv4-ipv6-subnet"
            }
        ],
        "SubnetArn": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0736441d38EXAMPLE"
    }
}
```
**Contoh 3: Untuk membuat subnet dengan blok IPv6 CIDR saja**  
`create-subnet`Contoh berikut membuat subnet di VPC tertentu dengan blok CIDR yang IPv6 ditentukan.  

```
aws ec2 create-subnet \
    --vpc-id vpc-081ec835f3EXAMPLE \
    --ipv6-native \
    --ipv6-cidr-block 2600:1f16:115:200::/64 \
    --tag-specifications ResourceType=subnet,Tags=[{Key=Name,Value=my-ipv6-only-subnet}]
```
Output:  

```
{
    "Subnet": {
        "AvailabilityZone": "us-west-2a",
        "AvailabilityZoneId": "usw2-az2",
        "AvailableIpAddressCount": 0,
        "DefaultForAz": false,
        "MapPublicIpOnLaunch": false,
        "State": "available",
        "SubnetId": "subnet-03f720e7deEXAMPLE",
        "VpcId": "vpc-081ec835f3EXAMPLE",
        "OwnerId": "123456789012",
        "AssignIpv6AddressOnCreation": true,
        "Ipv6CidrBlockAssociationSet": [
            {
                "AssociationId": "subnet-cidr-assoc-01ef639edde556709",
                "Ipv6CidrBlock": "2600:1f13:cfe:3660::/64",
                "Ipv6CidrBlockState": {
                    "State": "associating"
                }
            }
        ],
        "Tags": [
            {
                "Key": "Name",
                "Value": "my-ipv6-only-subnet"
            }
        ],
        "SubnetArn": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-03f720e7deEXAMPLE"
    }
}
```
Untuk informasi lebih lanjut, lihat [VPCs dan subnet](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Subnets.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [CreateSubnet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-subnet.html)di *Referensi AWS CLI Perintah*. 

### `create-tags`
<a name="ec2_CreateTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-tags`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan tag ke sumber daya**  
Contoh `create-tags` berikut menambahkan tanda `Stack=production` ke gambar tertentu, atau menimpa tanda yang sudah ada untuk AMI di mana kunci tandanya adalah `Stack`.  

```
aws ec2 create-tags \
    --resources ami-1234567890abcdef0 \
    --tags Key=Stack,Value=production
```
Perintah ini tidak menghasilkan output  
**Contoh 2: Untuk menambahkan tag ke beberapa sumber daya**  
Contoh `create-tags` berikut menambahkan (atau menimpa) dua tanda untuk AMI dan instans. Salah satu tanda memiliki kunci (`webserver`) tetapi tidak memiliki nilai (nilai diatur ke string kosong). Tanda lainnya memiliki kunci (`stack`) dan nilai (`Production`).  

```
aws ec2 create-tags \
    --resources ami-1a2b3c4d i-1234567890abcdef0 \
    --tags Key=webserver,Value=   Key=stack,Value=Production
```
Perintah ini tidak menghasilkan output  
**Contoh 3: Untuk menambahkan tag yang berisi karakter khusus**  
`create-tags`Contoh berikut menambahkan tag `[Group]=test` untuk sebuah contoh. Tanda kurung siku ([ dan ]) adalah karakter khusus dan harus di-escape. Contoh berikut juga menggunakan karakter lanjutan baris yang sesuai untuk setiap lingkungan.  
Jika Anda menggunakan Windows, mengelilingi elemen yang memiliki karakter khusus dengan tanda kutip ganda (“), dan kemudian mendahului setiap karakter kutipan ganda dengan garis miring terbalik (\$1) sebagai berikut.  

```
aws ec2 create-tags ^
    --resources i-1234567890abcdef0 ^
    --tags Key=\"[Group]\",Value=test
```
Jika Anda menggunakan Windows PowerShell, kelilingi elemen nilai yang memiliki karakter khusus dengan tanda kutip ganda (“), mendahului setiap karakter kutipan ganda dengan garis miring terbalik (\$1), dan kemudian kelilingi seluruh kunci dan struktur nilai dengan tanda kutip tunggal (') sebagai berikut.  

```
aws ec2 create-tags `
    --resources i-1234567890abcdef0 `
    --tags 'Key=\"[Group]\",Value=test'
```
Jika Anda menggunakan Linux atau OS X, kelilingi elemen yang memiliki karakter khusus dengan tanda kutip ganda (“), lalu kelilingi seluruh kunci dan struktur nilai dengan tanda kutip tunggal (') sebagai berikut.  

```
aws ec2 create-tags \
    --resources i-1234567890abcdef0 \
    --tags 'Key="[Group]",Value=test'
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya Amazon EC2 Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [CreateTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-tags.html)di *Referensi AWS CLI Perintah*. 

### `create-traffic-mirror-filter-rule`
<a name="ec2_CreateTrafficMirrorFilterRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-traffic-mirror-filter-rule`.

**AWS CLI**  
**Untuk membuat aturan filter untuk lalu lintas TCP yang masuk**  
`create-traffic-mirror-filter-rule`Contoh berikut membuat aturan yang dapat Anda gunakan untuk mencerminkan semua lalu lintas TCP yang masuk. Sebelum Anda menjalankan perintah ini, gunakan `create-traffic-mirror-filter` untuk membuat filter cermin lalu lintas.  

```
aws ec2 create-traffic-mirror-filter-rule \
    --description 'TCP Rule' \
    --destination-cidr-block 0.0.0.0/0  \
    --protocol 6 \
    --rule-action accept \
    --rule-number 1 \
    --source-cidr-block 0.0.0.0/0 \
    --traffic-direction ingress \
    --traffic-mirror-filter-id tmf-04812ff784b25ae67
```
Output:  

```
{
    "TrafficMirrorFilterRule": {
        "DestinationCidrBlock": "0.0.0.0/0",
        "TrafficMirrorFilterId": "tmf-04812ff784b25ae67",
        "TrafficMirrorFilterRuleId": "tmfr-02d20d996673f3732",
        "SourceCidrBlock": "0.0.0.0/0",
        "TrafficDirection": "ingress",
        "Description": "TCP Rule",
        "RuleNumber": 1,
        "RuleAction": "accept",
        "Protocol": 6
    },
    "ClientToken": "4752b573-40a6-4eac-a8a4-a72058761219"
}
```
Untuk informasi selengkapnya, lihat [Membuat filter cermin lalu lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/create-traffic-mirroring-filter.html) di *Panduan Pencerminan Lalu Lintas*.  
+  Untuk detail API, lihat [CreateTrafficMirrorFilterRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-traffic-mirror-filter-rule.html)di *Referensi AWS CLI Perintah*. 

### `create-traffic-mirror-filter`
<a name="ec2_CreateTrafficMirrorFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-traffic-mirror-filter`.

**AWS CLI**  
**Untuk membuat filter cermin lalu lintas**  
`create-traffic-mirror-filter`Contoh berikut membuat filter cermin lalu lintas. Setelah Anda membuat filter, gunakan `create-traffic-mirror-filter-rule` untuk menambahkan aturan.  

```
aws ec2 create-traffic-mirror-filter \
    --description 'TCP Filter'
```
Output:  

```
{
    "ClientToken": "28908518-100b-4987-8233-8c744EXAMPLE",
    "TrafficMirrorFilter": {
        "TrafficMirrorFilterId": "tmf-04812ff784EXAMPLE",
        "Description": "TCP Filter",
        "EgressFilterRules": [],
        "IngressFilterRules": [],
        "Tags": [],
        "NetworkServices": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat filter cermin lalu lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/create-traffic-mirroring-filter.html) di *Panduan Pencerminan Lalu Lintas*.  
+  Untuk detail API, lihat [CreateTrafficMirrorFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-traffic-mirror-filter.html)di *Referensi AWS CLI Perintah*. 

### `create-traffic-mirror-session`
<a name="ec2_CreateTrafficMirrorSession_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-traffic-mirror-session`.

**AWS CLI**  
**Untuk membuat sesi cermin lalu lintas**  
`create-traffic-mirror-session`Perintah berikut membuat sesi cermin lalu lintas untuk sumber yang ditentukan dan target untuk 25 byte paket.  

```
aws ec2 create-traffic-mirror-session \
    --description 'example session' \
    --traffic-mirror-target-id tmt-07f75d8feeEXAMPLE \
    --network-interface-id eni-070203f901EXAMPLE \
    --session-number 1  \
    --packet-length 25 \
    --traffic-mirror-filter-id tmf-04812ff784EXAMPLE
```
Output:  

```
{
    "TrafficMirrorSession": {
        "TrafficMirrorSessionId": "tms-08a33b1214EXAMPLE",
        "TrafficMirrorTargetId": "tmt-07f75d8feeEXAMPLE",
        "TrafficMirrorFilterId": "tmf-04812ff784EXAMPLE",
        "NetworkInterfaceId": "eni-070203f901EXAMPLE",
        "OwnerId": "111122223333",
        "PacketLength": 25,
        "SessionNumber": 1,
        "VirtualNetworkId": 7159709,
        "Description": "example session",
        "Tags": []
    },
    "ClientToken": "5236cffc-ee13-4a32-bb5b-388d9da09d96"
}
```
Untuk informasi selengkapnya, lihat [Membuat sesi cermin lalu lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/create-traffic-mirroring-session.html) di *Panduan Pencerminan Lalu Lintas*.  
+  Untuk detail API, lihat [CreateTrafficMirrorSession](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-traffic-mirror-session.html)di *Referensi AWS CLI Perintah*. 

### `create-traffic-mirror-target`
<a name="ec2_CreateTrafficMirrorTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-traffic-mirror-target`.

**AWS CLI**  
**Untuk membuat target mirror lalu lintas Network Load Balancer**  
`create-traffic-mirror-target`Contoh berikut membuat target mirror lalu lintas Network Load Balancer.  

```
aws ec2 create-traffic-mirror-target \
    --description 'Example Network Load Balancer Target' \
    --network-load-balancer-arn arn:aws:elasticloadbalancing:us-east-1:111122223333:loadbalancer/net/NLB/7cdec873EXAMPLE
```
Output:  

```
{
    "TrafficMirrorTarget": {
        "Type": "network-load-balancer",
        "Tags": [],
        "Description": "Example Network Load Balancer Target",
        "OwnerId": "111122223333",
        "NetworkLoadBalancerArn": "arn:aws:elasticloadbalancing:us-east-1:724145273726:loadbalancer/net/NLB/7cdec873EXAMPLE",
        "TrafficMirrorTargetId": "tmt-0dabe9b0a6EXAMPLE"
    },
    "ClientToken": "d5c090f5-8a0f-49c7-8281-72c796a21f72"
}
```
**Untuk membuat target cermin lalu lintas jaringan**  
`create-traffic-mirror-target`Contoh berikut membuat antarmuka jaringan target Traffic Mirror.  

```
aws ec2 create-traffic-mirror-target \
    --description 'Network interface target' \
    --network-interface-id eni-eni-01f6f631eEXAMPLE
```
Output:  

```
{
    "ClientToken": "5289a345-0358-4e62-93d5-47ef3061d65e",
    "TrafficMirrorTarget": {
        "Description": "Network interface target",
        "NetworkInterfaceId": "eni-01f6f631eEXAMPLE",
        "TrafficMirrorTargetId": "tmt-02dcdbe2abEXAMPLE",
        "OwnerId": "111122223333",
        "Type": "network-interface",
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat target cermin lalu lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/create-traffic-mirroring-target.html) di *Panduan Pencerminan Lalu Lintas*.  
+  Untuk detail API, lihat [CreateTrafficMirrorTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-traffic-mirror-target.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-connect-peer`
<a name="ec2_CreateTransitGatewayConnectPeer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-connect-peer`.

**AWS CLI**  
**Untuk membuat rekan Transit Gateway Connect**  
`create-transit-gateway-connect-peer`Contoh berikut membuat Connect peer.  

```
aws ec2 create-transit-gateway-connect-peer \
    --transit-gateway-attachment-id tgw-attach-0f0927767cEXAMPLE \
    --peer-address 172.31.1.11 \
    --inside-cidr-blocks 169.254.6.0/29
```
Output:  

```
{
    "TransitGatewayConnectPeer": {
        "TransitGatewayAttachmentId": "tgw-attach-0f0927767cEXAMPLE",
        "TransitGatewayConnectPeerId": "tgw-connect-peer-0666adbac4EXAMPLE",
        "State": "pending",
        "CreationTime": "2021-10-13T03:35:17.000Z",
        "ConnectPeerConfiguration": {
            "TransitGatewayAddress": "10.0.0.234",
            "PeerAddress": "172.31.1.11",
            "InsideCidrBlocks": [
                "169.254.6.0/29"
            ],
            "Protocol": "gre",
            "BgpConfigurations": [
                {
                    "TransitGatewayAsn": 64512,
                    "PeerAsn": 64512,
                    "TransitGatewayAddress": "169.254.6.2",
                    "PeerAddress": "169.254.6.1",
                    "BgpStatus": "down"
                },
                {
                    "TransitGatewayAsn": 64512,
                    "PeerAsn": 64512,
                    "TransitGatewayAddress": "169.254.6.3",
                    "PeerAddress": "169.254.6.1",
                    "BgpStatus": "down"
                }
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Transit gateway Connect dan rekan Transit Gateway Connect](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-connect.html) di Panduan *Transit Gateway*.  
+  Untuk detail API, lihat [CreateTransitGatewayConnectPeer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-connect-peer.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-connect`
<a name="ec2_CreateTransitGatewayConnect_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-connect`.

**AWS CLI**  
**Untuk membuat lampiran Connect gateway transit**  
`create-transit-gateway-connect`Contoh berikut membuat lampiran Connect, dengan protokol “gre”, untuk lampiran yang ditentukan.  

```
aws ec2 create-transit-gateway-connect \
    --transport-transit-gateway-attachment-id tgw-attach-0a89069f57EXAMPLE \
    --options "Protocol=gre"
```
Output:  

```
{
    "TransitGatewayConnect": {
        "TransitGatewayAttachmentId": "tgw-attach-037012e5dcEXAMPLE",
        "TransportTransitGatewayAttachmentId": "tgw-attach-0a89069f57EXAMPLE",
        "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
        "State": "pending",
        "CreationTime": "2021-03-09T19:59:17+00:00",
        "Options": {
            "Protocol": "gre"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Transit gateway Connect dan rekan Transit Gateway Connect](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-connect.html) di Panduan *Transit Gateway*.  
+  Untuk detail API, lihat [CreateTransitGatewayConnect](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-connect.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-multicast-domain`
<a name="ec2_CreateTransitGatewayMulticastDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-multicast-domain`.

**AWS CLI**  
**Contoh 1: Untuk membuat domain multicast IGMP**  
`create-transit-gateway-multicast-domain`Contoh berikut membuat domain multicast untuk gateway transit yang ditentukan. Dengan sumber statis dinonaktifkan, setiap instance dalam subnet yang terkait dengan domain multicast dapat mengirim lalu lintas multicast. Jika setidaknya satu anggota menggunakan protokol IGMP, Anda harus mengaktifkan IGMPv2 dukungan.  

```
aws ec2 create-transit-gateway-multicast-domain \
    --transit-gateway-id tgw-0bf0bffefaEXAMPLE \
    --options StaticSourcesSupport=disable,Igmpv2Support=enable
```
Output:  

```
{
    "TransitGatewayMulticastDomain": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-0c9e29e2a7EXAMPLE",
        "TransitGatewayId": "tgw-0bf0bffefaEXAMPLE",
        "TransitGatewayMulticastDomainArn": "arn:aws:ec2:us-west-2:123456789012:transit-gateway-multicast-domain/tgw-mcast-domain-0c9e29e2a7EXAMPLE",
        "OwnerId": "123456789012",
        "Options": {
            "Igmpv2Support": "enable",
            "StaticSourcesSupport": "disable",
            "AutoAcceptSharedAssociations": "disable"
        },
        "State": "pending",
        "CreationTime": "2021-09-29T22:17:13.000Z"
    }
}
```
**Contoh 2: Untuk membuat domain multicast statis**  
`create-transit-gateway-multicast-domain`Contoh berikut membuat domain multicast untuk gateway transit yang ditentukan. Dengan sumber statis diaktifkan, Anda harus menambahkan sumber secara statis.  

```
aws ec2 create-transit-gateway-multicast-domain \
    --transit-gateway-id tgw-0bf0bffefaEXAMPLE \
    --options StaticSourcesSupport=enable,Igmpv2Support=disable
```
Output:  

```
{
    "TransitGatewayMulticastDomain": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-000fb24d04EXAMPLE",
        "TransitGatewayId": "tgw-0bf0bffefaEXAMPLE",
        "TransitGatewayMulticastDomainArn": "arn:aws:ec2:us-west-2:123456789012:transit-gateway-multicast-domain/tgw-mcast-domain-000fb24d04EXAMPLE",
        "OwnerId": "123456789012",
        "Options": {
            "Igmpv2Support": "disable",
            "StaticSourcesSupport": "enable",
            "AutoAcceptSharedAssociations": "disable"
        },
        "State": "pending",
        "CreationTime": "2021-09-29T22:20:19.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola domain multicast](https://docs.aws.amazon.com/vpc/latest/tgw/manage-domain.html) di Panduan *Transit* Gateways.  
+  Untuk detail API, lihat [CreateTransitGatewayMulticastDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-multicast-domain.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-peering-attachment`
<a name="ec2_CreateTransitGatewayPeeringAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-peering-attachment`.

**AWS CLI**  
**Untuk membuat lampiran peering gateway transit**  
`create-transit-gateway-peering-attachment`Contoh berikut membuat permintaan lampiran peering antara dua gateway transit yang ditentukan.  

```
aws ec2 create-transit-gateway-peering-attachment \
    --transit-gateway-id tgw-123abc05e04123abc \
    --peer-transit-gateway-id tgw-11223344aabbcc112 \
    --peer-account-id 123456789012 \
    --peer-region us-east-2
```
Output:  

```
{
    "TransitGatewayPeeringAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-4455667788aabbccd",
        "RequesterTgwInfo": {
            "TransitGatewayId": "tgw-123abc05e04123abc",
            "OwnerId": "123456789012",
            "Region": "us-west-2"
        },
        "AccepterTgwInfo": {
            "TransitGatewayId": "tgw-11223344aabbcc112",
            "OwnerId": "123456789012",
            "Region": "us-east-2"
        },
        "State": "initiatingRequest",
        "CreationTime": "2019-12-09T11:38:05.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Pengintip Transit Gateway](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-peering.html) *di Panduan Gerbang Transit*.  
+  Untuk detail API, lihat [CreateTransitGatewayPeeringAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-peering-attachment.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-policy-table`
<a name="ec2_CreateTransitGatewayPolicyTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-policy-table`.

**AWS CLI**  
**Untuk membuat tabel kebijakan gateway transit**  
`create-transit-gateway-policy-table`Contoh berikut membuat tabel kebijakan gateway transit untuk gateway transit yang ditentukan.  

```
aws ec2 create-transit-gateway-policy-table \
    --transit-gateway-id tgw-067f8505c18f0bd6e
```
Output:  

```
{
    "TransitGatewayPolicyTable": {
        "TransitGatewayPolicyTableId": "tgw-ptb-0a16f134b78668a81",
        "TransitGatewayId": "tgw-067f8505c18f0bd6e",
        "State": "pending",
        "CreationTime": "2023-11-28T16:36:43+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel kebijakan gateway transit](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-policy-tables.html) *di Panduan Pengguna Gateway Transit*.  
+  Untuk detail API, lihat [CreateTransitGatewayPolicyTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-policy-table.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-prefix-list-reference`
<a name="ec2_CreateTransitGatewayPrefixListReference_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-prefix-list-reference`.

**AWS CLI**  
**Untuk membuat referensi ke daftar awalan**  
`create-transit-gateway-prefix-list-reference`Contoh berikut membuat referensi ke daftar awalan yang ditentukan dalam tabel rute gateway transit yang ditentukan.  

```
aws ec2 create-transit-gateway-prefix-list-reference \
    --transit-gateway-route-table-id tgw-rtb-0123456789abcd123 \
    --prefix-list-id pl-11111122222222333 \
    --transit-gateway-attachment-id tgw-attach-aaaaaabbbbbb11111
```
Output:  

```
{
    "TransitGatewayPrefixListReference": {
        "TransitGatewayRouteTableId": "tgw-rtb-0123456789abcd123",
        "PrefixListId": "pl-11111122222222333",
        "PrefixListOwnerId": "123456789012",
        "State": "pending",
        "Blackhole": false,
        "TransitGatewayAttachment": {
            "TransitGatewayAttachmentId": "tgw-attach-aaaaaabbbbbb11111",
            "ResourceType": "vpc",
            "ResourceId": "vpc-112233445566aabbc"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat referensi daftar awalan](https://docs.aws.amazon.com/vpc/latest/tgw/create-prefix-list-reference.html) di Panduan *Gateway Transit*.  
+  Untuk detail API, lihat [CreateTransitGatewayPrefixListReference](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-prefix-list-reference.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-route-table`
<a name="ec2_CreateTransitGatewayRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-route-table`.

**AWS CLI**  
**Untuk membuat Tabel Rute Transit Gateway**  
`create-transit-gateway-route-table`Contoh berikut membuat tabel rute untuk gateway transit tertentu.  

```
aws ec2 create-transit-gateway-route-table \
    --transit-gateway-id tgw-0262a0e521EXAMPLE
```
Output:  

```
{
    "TransitGatewayRouteTable": {
        "TransitGatewayRouteTableId": "tgw-rtb-0960981be7EXAMPLE",
        "TransitGatewayId": "tgw-0262a0e521EXAMPLE",
        "State": "pending",
        "DefaultAssociationRouteTable": false,
        "DefaultPropagationRouteTable": false,
        "CreationTime": "2019-07-10T19:01:46.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat tabel rute gateway transit](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html#create-tgw-route-table) di Panduan *Gateway Transit*.  
+  Untuk detail API, lihat [CreateTransitGatewayRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-route-table.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-route`
<a name="ec2_CreateTransitGatewayRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-route`.

**AWS CLI**  
**Untuk membuat rute gateway transit**  
`create-transit-gateway-route`Contoh berikut membuat rute, dengan tujuan yang ditentukan, untuk tabel rute yang ditentukan.  

```
aws ec2 create-transit-gateway-route \
    --destination-cidr-block 10.0.2.0/24 \
    --transit-gateway-route-table-id tgw-rtb-0b6f6aaa01EXAMPLE \
    --transit-gateway-attachment-id tgw-attach-0b5968d3b6EXAMPLE
```
Output:  

```
{
    "Route": {
        "DestinationCidrBlock": "10.0.2.0/24",
        "TransitGatewayAttachments": [
            {
                "ResourceId": "vpc-0065acced4EXAMPLE",
                "TransitGatewayAttachmentId": "tgw-attach-0b5968d3b6EXAMPLE",
                "ResourceType": "vpc"
            }
        ],
        "Type": "static",
        "State": "active"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [CreateTransitGatewayRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-route.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway-vpc-attachment`
<a name="ec2_CreateTransitGatewayVpcAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway-vpc-attachment`.

**AWS CLI**  
**Contoh 1: Untuk mengaitkan gateway transit dengan VPC**  
`create-transit-gateway-vpc-attachment`Contoh berikut membuat lampiran gateway transit ke VPC yang ditentukan.  

```
aws ec2 create-transit-gateway-vpc-attachment \
    --transit-gateway-id tgw-0262a0e521EXAMPLE \
    --vpc-id vpc-07e8ffd50f49335df \
    --subnet-id subnet-0752213d59EXAMPLE
```
Output:  

```
{
    "TransitGatewayVpcAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-0a34fe6b4fEXAMPLE",
        "TransitGatewayId": "tgw-0262a0e521EXAMPLE",
        "VpcId": "vpc-07e8ffd50fEXAMPLE",
        "VpcOwnerId": "111122223333",
        "State": "pending",
        "SubnetIds": [
            "subnet-0752213d59EXAMPLE"
        ],
        "CreationTime": "2019-07-10T17:33:46.000Z",
        "Options": {
            "DnsSupport": "enable",
            "Ipv6Support": "disable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat lampiran gateway transit ke VPC](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-vpc-attachments.html#create-vpc-attachment) di Panduan *Gateway Transit*.  
**Contoh 2: Untuk mengaitkan gateway transit dengan beberapa subnet dalam VPC**  
`create-transit-gateway-vpc-attachment`Contoh berikut membuat lampiran gateway transit ke VPC dan subnet yang ditentukan.  

```
aws ec2 create-transit-gateway-vpc-attachment \
    --transit-gateway-id tgw-02f776b1a7EXAMPLE  \
    --vpc-id vpc-3EXAMPLE \
    --subnet-ids "subnet-dEXAMPLE" "subnet-6EXAMPLE"
```
Output:  

```
{
    "TransitGatewayVpcAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-0e141e0bebEXAMPLE",
        "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
        "VpcId": "vpc-3EXAMPLE",
        "VpcOwnerId": "111122223333",
        "State": "pending",
        "SubnetIds": [
            "subnet-6EXAMPLE",
            "subnet-dEXAMPLE"
        ],
        "CreationTime": "2019-12-17T20:07:52.000Z",
        "Options": {
            "DnsSupport": "enable",
            "Ipv6Support": "disable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat lampiran gateway transit ke VPC](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-vpc-attachments.html#create-vpc-attachment) di Panduan *Gateway Transit*.  
+  Untuk detail API, lihat [CreateTransitGatewayVpcAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway-vpc-attachment.html)di *Referensi AWS CLI Perintah*. 

### `create-transit-gateway`
<a name="ec2_CreateTransitGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-transit-gateway`.

**AWS CLI**  
**Untuk membuat gateway transit**  
`create-transit-gateway`Contoh berikut membuat gateway transit.  

```
aws ec2 create-transit-gateway \
    --description MyTGW \
    --options AmazonSideAsn=64516,AutoAcceptSharedAttachments=enable,DefaultRouteTableAssociation=enable,DefaultRouteTablePropagation=enable,VpnEcmpSupport=enable,DnsSupport=enable
```
Output:  

```
{
    "TransitGateway": {
        "TransitGatewayId": "tgw-0262a0e521EXAMPLE",
        "TransitGatewayArn": "arn:aws:ec2:us-east-2:111122223333:transit-gateway/tgw-0262a0e521EXAMPLE",
        "State": "pending",
        "OwnerId": "111122223333",
        "Description": "MyTGW",
        "CreationTime": "2019-07-10T14:02:12.000Z",
        "Options": {
            "AmazonSideAsn": 64516,
            "AutoAcceptSharedAttachments": "enable",
            "DefaultRouteTableAssociation": "enable",
            "AssociationDefaultRouteTableId": "tgw-rtb-018774adf3EXAMPLE",
            "DefaultRouteTablePropagation": "enable",
            "PropagationDefaultRouteTableId": "tgw-rtb-018774adf3EXAMPLE",
            "VpnEcmpSupport": "enable",
            "DnsSupport": "enable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat gateway transit](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-transit-gateways.html#create-tgw) di Panduan Gerbang *Transit*.  
+  Untuk detail API, lihat [CreateTransitGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-transit-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-verified-access-endpoint`
<a name="ec2_CreateVerifiedAccessEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-verified-access-endpoint`.

**AWS CLI**  
**Untuk membuat titik akhir Akses Terverifikasi**  
`create-verified-access-endpoint`Contoh berikut membuat titik akhir Akses Terverifikasi untuk grup Akses Terverifikasi yang ditentukan. Antarmuka jaringan dan grup keamanan yang ditentukan harus milik VPC yang sama.  

```
aws ec2 create-verified-access-endpoint \
    --verified-access-group-id vagr-0dbe967baf14b7235 \
    --endpoint-type network-interface \
    --attachment-type vpc \
    --domain-certificate-arn arn:aws:acm:us-east-2:123456789012:certificate/eb065ea0-26f9-4e75-a6ce-0a1a7EXAMPLE \
    --application-domain example.com \
    --endpoint-domain-prefix my-ava-app \
    --security-group-ids sg-004915970c4c8f13a \
    --network-interface-options NetworkInterfaceId=eni-0aec70418c8d87a0f,Protocol=https,Port=443 \
    --tag-specifications ResourceType=verified-access-endpoint,Tags=[{Key=Name,Value=my-va-endpoint}]
```
Output:  

```
{
    "VerifiedAccessEndpoint": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "VerifiedAccessGroupId": "vagr-0dbe967baf14b7235",
        "VerifiedAccessEndpointId": "vae-066fac616d4d546f2",
        "ApplicationDomain": "example.com",
        "EndpointType": "network-interface",
        "AttachmentType": "vpc",
        "DomainCertificateArn": "arn:aws:acm:us-east-2:123456789012:certificate/eb065ea0-26f9-4e75-a6ce-0a1a7EXAMPLE",
        "EndpointDomain": "my-ava-app.edge-00c3372d53b1540bb.vai-0ce000c0b7643abea.prod.verified-access.us-east-2.amazonaws.com",
        "SecurityGroupIds": [
            "sg-004915970c4c8f13a"
        ],
        "NetworkInterfaceOptions": {
            "NetworkInterfaceId": "eni-0aec70418c8d87a0f",
            "Protocol": "https",
            "Port": 443
        },
        "Status": {
            "Code": "pending"
        },
        "Description": "",
        "CreationTime": "2023-08-25T20:54:43",
        "LastUpdatedTime": "2023-08-25T20:54:43",
        "Tags": [
            {
                "Key": "Name",
                "Value": "my-va-endpoint"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Titik akhir Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-endpoints.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [CreateVerifiedAccessEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-verified-access-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-verified-access-group`
<a name="ec2_CreateVerifiedAccessGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-verified-access-group`.

**AWS CLI**  
**Untuk membuat grup Akses Terverifikasi**  
`create-verified-access-group`Contoh berikut membuat grup Akses Terverifikasi untuk instance Akses Terverifikasi yang ditentukan.  

```
aws ec2 create-verified-access-group \
    --verified-access-instance-id vai-0ce000c0b7643abea \
    --tag-specifications ResourceType=verified-access-group,Tags=[{Key=Name,Value=my-va-group}]
```
Output:  

```
{
    "VerifiedAccessGroup": {
        "VerifiedAccessGroupId": "vagr-0dbe967baf14b7235",
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "Description": "",
        "Owner": "123456789012",
        "VerifiedAccessGroupArn": "arn:aws:ec2:us-east-2:123456789012:verified-access-group/vagr-0dbe967baf14b7235",
        "CreationTime": "2023-08-25T19:55:19",
        "LastUpdatedTime": "2023-08-25T19:55:19",
        "Tags": [
            {
                "Key": "Name",
                "Value": "my-va-group"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Grup Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-groups.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [CreateVerifiedAccessGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-verified-access-group.html)di *Referensi AWS CLI Perintah*. 

### `create-verified-access-instance`
<a name="ec2_CreateVerifiedAccessInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-verified-access-instance`.

**AWS CLI**  
**Untuk membuat instance Akses Terverifikasi**  
`create-verified-access-instance`Contoh berikut membuat instance Akses Terverifikasi dengan tag Nama.  

```
aws ec2 create-verified-access-instance \
    --tag-specifications ResourceType=verified-access-instance,Tags=[{Key=Name,Value=my-va-instance}]
```
Output:  

```
{
    "VerifiedAccessInstance": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "Description": "",
        "VerifiedAccessTrustProviders": [],
        "CreationTime": "2023-08-25T18:27:56",
        "LastUpdatedTime": "2023-08-25T18:27:56",
        "Tags": [
            {
                "Key": "Name",
                "Value": "my-va-instance"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Instans Akses Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-instances.html) di *Panduan Pengguna Akses AWS Terverifikasi*.  
+  Untuk detail API, lihat [CreateVerifiedAccessInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-verified-access-instance.html)di *Referensi AWS CLI Perintah*. 

### `create-verified-access-trust-provider`
<a name="ec2_CreateVerifiedAccessTrustProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-verified-access-trust-provider`.

**AWS CLI**  
**Untuk membuat penyedia kepercayaan Akses Terverifikasi**  
`create-verified-access-trust-provider`Contoh berikut menyiapkan penyedia kepercayaan Akses Terverifikasi menggunakan Pusat AWS Identitas.  

```
aws ec2 create-verified-access-trust-provider \
    --trust-provider-type user \
    --user-trust-provider-type iam-identity-center \
    --policy-reference-name idc \
    --tag-specifications ResourceType=verified-access-trust-provider,Tags=[{Key=Name,Value=my-va-trust-provider}]
```
Output:  

```
{
    "VerifiedAccessTrustProvider": {
        "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
        "Description": "",
        "TrustProviderType": "user",
        "UserTrustProviderType": "iam-identity-center",
        "PolicyReferenceName": "idc",
        "CreationTime": "2023-08-25T18:40:36",
        "LastUpdatedTime": "2023-08-25T18:40:36",
        "Tags": [
            {
                "Key": "Name",
                "Value": "my-va-trust-provider"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kepercayaan untuk Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/trust-providers.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [CreateVerifiedAccessTrustProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-verified-access-trust-provider.html)di *Referensi AWS CLI Perintah*. 

### `create-volume`
<a name="ec2_CreateVolume_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-volume`.

**AWS CLI**  
**Untuk membuat volume General Purpose SSD (gp2) kosong**  
`create-volume`Contoh berikut membuat volume 80 GiB General Purpose SSD (gp2) di Availability Zone yang ditentukan. Perhatikan bahwa Wilayah saat ini harus`us-east-1`, atau Anda dapat menambahkan `--region` parameter untuk menentukan Wilayah untuk perintah.  

```
aws ec2 create-volume \
    --volume-type gp2 \
    --size 80 \
    --availability-zone us-east-1a
```
Output:  

```
{
    "AvailabilityZone": "us-east-1a",
    "Tags": [],
    "Encrypted": false,
    "VolumeType": "gp2",
    "VolumeId": "vol-1234567890abcdef0",
    "State": "creating",
    "Iops": 240,
    "SnapshotId": "",
    "CreateTime": "YYYY-MM-DDTHH:MM:SS.000Z",
    "Size": 80
}
```
Jika Anda tidak menentukan jenis volume, tipe volume default adalah`gp2`.  

```
aws ec2 create-volume \
    --size 80 \
    --availability-zone us-east-1a
```
**Contoh 2: Untuk membuat volume IOPS SSD (io1) yang Disediakan dari snapshot**  
`create-volume`Contoh berikut membuat volume Provisioned IOPS SSD (io1) dengan 1000 IOPS yang disediakan di Availability Zone yang ditentukan menggunakan snapshot yang ditentukan.  

```
aws ec2 create-volume \
    --volume-type io1 \
    --iops 1000 \
    --snapshot-id snap-066877671789bd71b \
    --availability-zone us-east-1a
```
Output:  

```
{
    "AvailabilityZone": "us-east-1a",
    "Tags": [],
    "Encrypted": false,
    "VolumeType": "io1",
    "VolumeId": "vol-1234567890abcdef0",
    "State": "creating",
    "Iops": 1000,
    "SnapshotId": "snap-066877671789bd71b",
    "CreateTime": "YYYY-MM-DDTHH:MM:SS.000Z",
    "Size": 500
}
```
**Contoh 3: Untuk membuat volume terenkripsi**  
`create-volume`Contoh berikut membuat volume terenkripsi menggunakan CMK default untuk enkripsi EBS. Jika enkripsi secara default dinonaktifkan, Anda harus menentukan `--encrypted` parameter sebagai berikut.  

```
aws ec2 create-volume \
    --size 80 \
    --encrypted \
    --availability-zone us-east-1a
```
Output:  

```
{
    "AvailabilityZone": "us-east-1a",
    "Tags": [],
    "Encrypted": true,
    "VolumeType": "gp2",
    "VolumeId": "vol-1234567890abcdef0",
    "State": "creating",
    "Iops": 240,
    "SnapshotId": "",
    "CreateTime": "YYYY-MM-DDTHH:MM:SS.000Z",
    "Size": 80
}
```
Jika enkripsi secara default diaktifkan, perintah contoh berikut membuat volume terenkripsi, bahkan tanpa parameter. `--encrypted`  

```
aws ec2 create-volume \
    --size 80 \
    --availability-zone us-east-1a
```
Jika Anda menggunakan `--kms-key-id` parameter untuk menentukan CMK yang dikelola pelanggan, Anda harus menentukan `--encrypted` parameter bahkan jika enkripsi secara default diaktifkan.  

```
aws ec2 create-volume \
    --volume-type gp2 \
    --size 80 \
    --encrypted \
    --kms-key-id 0ea3fef3-80a7-4778-9d8c-1c0c6EXAMPLE \
    --availability-zone us-east-1a
```
**Contoh 4: Untuk membuat volume dengan tag**  
`create-volume`Contoh berikut menciptakan volume dan menambahkan dua tag.  

```
aws ec2 create-volume \
    --availability-zone us-east-1a \
    --volume-type gp2 \
    --size 80 \
    --tag-specifications 'ResourceType=volume,Tags=[{Key=purpose,Value=production},{Key=cost-center,Value=cc123}]'
```
+  Untuk detail API, lihat [CreateVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-volume.html)di *Referensi AWS CLI Perintah*. 

### `create-vpc-endpoint-connection-notification`
<a name="ec2_CreateVpcEndpointConnectionNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpc-endpoint-connection-notification`.

**AWS CLI**  
**Untuk membuat notifikasi koneksi endpoint**  
Contoh ini membuat pemberitahuan untuk layanan titik akhir tertentu yang memberi tahu Anda ketika titik akhir antarmuka telah terhubung ke layanan Anda dan ketika titik akhir telah diterima untuk layanan Anda.  
Perintah:  

```
aws ec2 create-vpc-endpoint-connection-notification --connection-notification-arn arn:aws:sns:us-east-2:123456789012:VpceNotification --connection-events Connect Accept --service-id vpce-svc-1237881c0d25a3abc
```
Output:  

```
{
   "ConnectionNotification": {
       "ConnectionNotificationState": "Enabled",
       "ConnectionNotificationType": "Topic",
       "ServiceId": "vpce-svc-1237881c0d25a3abc",
       "ConnectionEvents": [
           "Accept",
           "Connect"
       ],
       "ConnectionNotificationId": "vpce-nfn-008776de7e03f5abc",
       "ConnectionNotificationArn": "arn:aws:sns:us-east-2:123456789012:VpceNotification"
   }
 }
```
+  Untuk detail API, lihat [CreateVpcEndpointConnectionNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpc-endpoint-connection-notification.html)di *Referensi AWS CLI Perintah*. 

### `create-vpc-endpoint-service-configuration`
<a name="ec2_CreateVpcEndpointServiceConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpc-endpoint-service-configuration`.

**AWS CLI**  
**Contoh 1: Untuk membuat konfigurasi layanan endpoint untuk titik akhir antarmuka**  
`create-vpc-endpoint-service-configuration`Contoh berikut membuat konfigurasi layanan titik akhir VPC menggunakan Network Load Balancer. `nlb-vpce` Contoh ini juga menentukan bahwa permintaan untuk terhubung ke layanan melalui titik akhir antarmuka harus diterima.  

```
aws ec2 create-vpc-endpoint-service-configuration \
    --network-load-balancer-arns arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/nlb-vpce/e94221227f1ba532 \
    --acceptance-required
```
Output:  

```
{
   "ServiceConfiguration": {
       "ServiceType": [
           {
               "ServiceType": "Interface"
           }
       ],
       "NetworkLoadBalancerArns": [
           "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/nlb-vpce/e94221227f1ba532"
       ],
       "ServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-03d5ebb7d9579a2b3",
       "ServiceState": "Available",
       "ServiceId": "vpce-svc-03d5ebb7d9579a2b3",
       "AcceptanceRequired": true,
       "AvailabilityZones": [
           "us-east-1d"
       ],
       "BaseEndpointDnsNames": [
           "vpce-svc-03d5ebb7d9579a2b3.us-east-1.vpce.amazonaws.com"
       ]
   }
}
```
Untuk informasi selengkapnya, lihat [Membuat layanan titik akhir](https://docs.aws.amazon.com/vpc/latest/privatelink/create-endpoint-service.html) di *Panduan AWS PrivateLink Pengguna*.  
**Contoh 2: Untuk membuat konfigurasi layanan endpoint untuk titik akhir Load Balancer Gateway**  
`create-vpc-endpoint-service-configuration`Contoh berikut membuat konfigurasi layanan titik akhir VPC menggunakan Load Balancer Gateway. `GWLBService` Permintaan untuk terhubung ke layanan melalui titik akhir Load Balancer Gateway diterima secara otomatis.  

```
aws ec2 create-vpc-endpoint-service-configuration \
    --gateway-load-balancer-arns arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/gwy/GWLBService/123123123123abcc \
    --no-acceptance-required
```
Output:  

```
{
    "ServiceConfiguration": {
        "ServiceType": [
            {
                "ServiceType": "GatewayLoadBalancer"
            }
        ],
        "ServiceId": "vpce-svc-123123a1c43abc123",
        "ServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-123123a1c43abc123",
        "ServiceState": "Available",
        "AvailabilityZones": [
            "us-east-1d"
        ],
        "AcceptanceRequired": false,
        "ManagesVpcEndpoints": false,
        "GatewayLoadBalancerArns": [
            "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/gwy/GWLBService/123123123123abcc"
        ]
    }
}
```
*Untuk informasi selengkapnya, lihat [Membuat layanan titik akhir Load Balancer Gateway di Panduan](https://docs.aws.amazon.com/vpc/latest/privatelink/create-gateway-load-balancer-endpoint-service.html) Pengguna.AWS PrivateLink *  
+  Untuk detail API, lihat [CreateVpcEndpointServiceConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpc-endpoint-service-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-vpc-endpoint`
<a name="ec2_CreateVpcEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpc-endpoint`.

**AWS CLI**  
**Contoh 1: Untuk membuat titik akhir gateway**  
`create-vpc-endpoint`Contoh berikut membuat titik akhir VPC gateway antara VPC dan `vpc-1a2b3c4d` Amazon S3 di wilayah tersebut, dan mengaitkan tabel rute `us-east-1` dengan titik akhir. `rtb-11aa22bb`  

```
aws ec2 create-vpc-endpoint \
    --vpc-id vpc-1a2b3c4d \
    --service-name com.amazonaws.us-east-1.s3 \
    --route-table-ids rtb-11aa22bb
```
Output:  

```
{
    "VpcEndpoint": {
        "PolicyDocument": "{\"Version\":\"2008-10-17\",\"Statement\":[{\"Sid\":\"\",\"Effect\":\"Allow\",\"Principal\":\"\*\",\"Action\":\"\*\",\"Resource\":\"\*\"}]}",
        "VpcId": "vpc-1a2b3c4d",
        "State": "available",
        "ServiceName": "com.amazonaws.us-east-1.s3",
        "RouteTableIds": [
            "rtb-11aa22bb"
        ],
        "VpcEndpointId": "vpc-1a2b3c4d",
        "CreationTimestamp": "2015-05-15T09:40:50Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat titik akhir gateway](https://docs.aws.amazon.com/vpc/latest/privatelink/vpc-endpoints-s3.html#create-gateway-endpoint-s3) di *Panduan AWS PrivateLink Pengguna*.  
**Contoh 2: Untuk membuat titik akhir antarmuka**  
`create-vpc-endpoint`Contoh berikut membuat antarmuka VPC endpoint antara VPC dan `vpc-1a2b3c4d` Amazon S3 di wilayah tersebut. `us-east-1` Perintah membuat titik akhir di subnet`subnet-1a2b3c4d`, mengaitkannya dengan grup keamanan`sg-1a2b3c4d`, dan menambahkan tag dengan kunci “Layanan” dan Nilai “S3".  

```
aws ec2 create-vpc-endpoint \
    --vpc-id vpc-1a2b3c4d \
    --vpc-endpoint-type Interface \
    --service-name com.amazonaws.us-east-1.s3 \
    --subnet-ids subnet-7b16de0c \
    --security-group-id sg-1a2b3c4d \
    --tag-specifications ResourceType=vpc-endpoint,Tags=[{Key=service,Value=S3}]
```
Output:  

```
{
    "VpcEndpoint": {
        "VpcEndpointId": "vpce-1a2b3c4d5e6f1a2b3",
        "VpcEndpointType": "Interface",
        "VpcId": "vpc-1a2b3c4d",
        "ServiceName": "com.amazonaws.us-east-1.s3",
        "State": "pending",
        "RouteTableIds": [],
        "SubnetIds": [
            "subnet-1a2b3c4d"
        ],
        "Groups": [
            {
                "GroupId": "sg-1a2b3c4d",
                "GroupName": "default"
            }
        ],
        "PrivateDnsEnabled": false,
        "RequesterManaged": false,
        "NetworkInterfaceIds": [
            "eni-0b16f0581c8ac6877"
        ],
        "DnsEntries": [
            {
                "DnsName": "*.vpce-1a2b3c4d5e6f1a2b3-9hnenorg.s3.us-east-1.vpce.amazonaws.com",
                "HostedZoneId": "Z7HUB22UULQXV"
            },
            {
                "DnsName": "*.vpce-1a2b3c4d5e6f1a2b3-9hnenorg-us-east-1c.s3.us-east-1.vpce.amazonaws.com",
                "HostedZoneId": "Z7HUB22UULQXV"
            }
        ],
        "CreationTimestamp": "2021-03-05T14:46:16.030000+00:00",
        "Tags": [
            {
                "Key": "service",
                "Value": "S3"
            }
        ],
        "OwnerId": "123456789012"
    }
}
```
*Untuk informasi selengkapnya, lihat [Membuat titik akhir VPC antarmuka di Panduan](https://docs.aws.amazon.com/vpc/latest/privatelink/create-interface-endpoint.html) Pengguna.AWS PrivateLink *  
**Contoh 3: Untuk membuat titik akhir Load Balancer Gateway**  
`create-vpc-endpoint`Contoh berikut membuat titik akhir Load Balancer Gateway antara VPC `vpc-111122223333aabbc` dan dan layanan yang dikonfigurasi menggunakan Load Balancer Gateway.  

```
aws ec2 create-vpc-endpoint \
    --service-name com.amazonaws.vpce.us-east-1.vpce-svc-123123a1c43abc123 \
    --vpc-endpoint-type GatewayLoadBalancer \
    --vpc-id vpc-111122223333aabbc \
    --subnet-ids subnet-0011aabbcc2233445
```
Output:  

```
{
    "VpcEndpoint": {
        "VpcEndpointId": "vpce-aabbaabbaabbaabba",
        "VpcEndpointType": "GatewayLoadBalancer",
        "VpcId": "vpc-111122223333aabbc",
        "ServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-123123a1c43abc123",
        "State": "pending",
        "SubnetIds": [
            "subnet-0011aabbcc2233445"
        ],
        "RequesterManaged": false,
        "NetworkInterfaceIds": [
            "eni-01010120203030405"
        ],
        "CreationTimestamp": "2020-11-11T08:06:03.522Z",
        "OwnerId": "123456789012"
    }
}
```
*Untuk informasi selengkapnya, lihat [titik akhir Load Balancer Gateway](https://docs.aws.amazon.com/vpc/latest/privatelink/gateway-load-balancer-endpoints.html) di Panduan Pengguna.AWS PrivateLink *  
**Contoh 4: Untuk membuat titik akhir sumber daya**  
`create-vpc-endpoint`Contoh berikut menciptakan titik akhir sumber daya.  

```
aws ec2 create-vpc-endpoint \
    --vpc-endpoint-type Resource \
    --vpc-id vpc-111122223333aabbc \
    --subnet-ids subnet-0011aabbcc2233445 \
    --resource-configuration-arn arn:aws:vpc-lattice-us-east-1:123456789012:resourceconfiguration/rcfg-0123abcde98765432
```
Output:  

```
{
    "VpcEndpoint": {
        "VpcEndpointId": "vpce-00939a7ed9EXAMPLE",
        "VpcEndpointType": "Resource",
        "VpcId": "vpc-111122223333aabbc",
        "State": "Pending",
        "SubnetIds": [
            "subnet-0011aabbcc2233445"
        ],
        "Groups": [
            {
                "GroupId": "sg-03e2f15fbfc09b000",
                "GroupName": "default"
            }
        ],
        "IpAddressType": "IPV4",
        "PrivateDnsEnabled": false,
        "CreationTimestamp": "2025-02-06T23:38:49.525000+00:00",
        "Tags": [],
        "OwnerId": "123456789012",
        "ResourceConfigurationArn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourceconfiguration/rcfg-0123abcde98765432"
    }
}
```
Untuk informasi selengkapnya, lihat [Titik akhir sumber daya](https://docs.aws.amazon.com/vpc/latest/privatelink/privatelink-access-resources.html) di *Panduan AWS PrivateLink Pengguna*.  
**Contoh 5: Untuk membuat endpoint jaringan layanan**  
`create-vpc-endpoint`Contoh berikut membuat endpoint jaringan layanan.  

```
aws ec2 create-vpc-endpoint \
    --vpc-endpoint-type ServiceNetwork \
    --vpc-id vpc-111122223333aabbc \
    --subnet-ids subnet-0011aabbcc2233445 \
    --service-network-arn arn:aws:vpc-lattice:us-east-1:123456789012:servicenetwork/sn-0101abcd5432abcd0 \
    --security-group-ids sg-0123456789012abcd
```
Output:  

```
{
    "VpcEndpoint": {
        "VpcEndpointId": "vpce-0f00567fa8EXAMPLE",
        "VpcEndpointType": "ServiceNetwork",
        "VpcId": "vpc-111122223333aabbc",
        "State": "Pending",
        "SubnetIds": [
            "subnet-0011aabbcc2233445"
        ],
        "Groups": [
            {
                "GroupId": "sg-0123456789012abcd",
                "GroupName": "my-security-group"
            }
        ],
        "IpAddressType": "IPV4",
        "PrivateDnsEnabled": false,
        "CreationTimestamp": "2025-02-06T23:44:20.449000+00:00",
        "Tags": [],
        "OwnerId": "123456789012",
        "ServiceNetworkArn": "arn:aws:vpc-lattice:us-east-1:123456789012:servicenetwork/sn-0101abcd5432abcd0"
    }
}
```
Untuk informasi selengkapnya, lihat [Titik akhir jaringan layanan](https://docs.aws.amazon.com/vpc/latest/privatelink/privatelink-access-service-networks.html) di *Panduan AWS PrivateLink Pengguna*.  
+  Untuk detail API, lihat [CreateVpcEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpc-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-vpc-peering-connection`
<a name="ec2_CreateVpcPeeringConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpc-peering-connection`.

**AWS CLI**  
**Untuk membuat koneksi peering VPC antara Anda VPCs**  
Contoh ini meminta koneksi peering antara vpc-1a2b3c4d dan VPCs vpc-11122233 Anda.  
Perintah:  

```
aws ec2 create-vpc-peering-connection --vpc-id vpc-1a2b3c4d --peer-vpc-id vpc-11122233
```
Output:  

```
{
    "VpcPeeringConnection": {
        "Status": {
            "Message": "Initiating Request to 444455556666",
            "Code": "initiating-request"
        },
        "Tags": [],
        "RequesterVpcInfo": {
            "OwnerId": "444455556666",
            "VpcId": "vpc-1a2b3c4d",
            "CidrBlock": "10.0.0.0/28"
        },
        "VpcPeeringConnectionId": "pcx-111aaa111",
        "ExpirationTime": "2014-04-02T16:13:36.000Z",
        "AccepterVpcInfo": {
            "OwnerId": "444455556666",
            "VpcId": "vpc-11122233"
        }
    }
}
```
**Untuk membuat koneksi peering VPC dengan VPC di akun lain**  
Contoh ini meminta koneksi peering antara VPC Anda (vpc-1a2b3c4d), dan VPC (vpc-11122233) yang dimiliki akun 123456789012. AWS   
Perintah:  

```
aws ec2 create-vpc-peering-connection --vpc-id vpc-1a2b3c4d --peer-vpc-id vpc-11122233 --peer-owner-id 123456789012
```
**Untuk membuat koneksi peering VPC dengan VPC di wilayah yang berbeda**  
Contoh ini meminta koneksi peering antara VPC Anda di wilayah saat ini (vpc-1a2b3c4d), dan VPC (vpc-11122233) di akun Anda di wilayah tersebut. `us-west-2`  
Perintah:  

```
aws ec2 create-vpc-peering-connection --vpc-id vpc-1a2b3c4d --peer-vpc-id vpc-11122233 --peer-region us-west-2
```
Contoh ini meminta koneksi peering antara VPC Anda di wilayah saat ini (vpc-1a2b3c4d), dan VPC (vpc-11122233) yang memiliki akun 123456789012 yang ada di wilayah tersebut. AWS `us-west-2`  
Perintah:  

```
aws ec2 create-vpc-peering-connection --vpc-id vpc-1a2b3c4d --peer-vpc-id vpc-11122233 --peer-owner-id 123456789012 --peer-region us-west-2
```
+  Untuk detail API, lihat [CreateVpcPeeringConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpc-peering-connection.html)di *Referensi AWS CLI Perintah*. 

### `create-vpc`
<a name="ec2_CreateVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpc`.

**AWS CLI**  
**Contoh 1: Untuk membuat VPC**  
`create-vpc`Contoh berikut membuat VPC dengan blok IPv4 CIDR yang ditentukan dan tag Nama.  

```
aws ec2 create-vpc \
    --cidr-block 10.0.0.0/16 \
    --tag-specifications ResourceType=vpc,Tags=[{Key=Name,Value=MyVpc}]
```
Output:  

```
{
    "Vpc": {
        "CidrBlock": "10.0.0.0/16",
        "DhcpOptionsId": "dopt-5EXAMPLE",
        "State": "pending",
        "VpcId": "vpc-0a60eb65b4EXAMPLE",
        "OwnerId": "123456789012",
        "InstanceTenancy": "default",
        "Ipv6CidrBlockAssociationSet": [],
        "CidrBlockAssociationSet": [
            {
                "AssociationId": "vpc-cidr-assoc-07501b79ecEXAMPLE",
                "CidrBlock": "10.0.0.0/16",
                "CidrBlockState": {
                    "State": "associated"
                }
            }
        ],
        "IsDefault": false,
        "Tags": [
            {
                "Key": "Name",
                "Value": MyVpc"
            }
        ]
    }
}
```
**Contoh 2: Untuk membuat VPC dengan penghunian khusus**  
`create-vpc`Contoh berikut membuat VPC dengan blok IPv4 CIDR yang ditentukan dan penyewaan khusus.  

```
aws ec2 create-vpc \
    --cidr-block 10.0.0.0/16 \
    --instance-tenancy dedicated
```
Output:  

```
{
    "Vpc": {
        "CidrBlock": "10.0.0.0/16",
        "DhcpOptionsId": "dopt-19edf471",
        "State": "pending",
        "VpcId": "vpc-0a53287fa4EXAMPLE",
        "OwnerId": "111122223333",
        "InstanceTenancy": "dedicated",
        "Ipv6CidrBlockAssociationSet": [],
        "CidrBlockAssociationSet": [
            {
                "AssociationId": "vpc-cidr-assoc-00b24cc1c2EXAMPLE",
                "CidrBlock": "10.0.0.0/16",
                "CidrBlockState": {
                    "State": "associated"
                }
            }
        ],
        "IsDefault": false
    }
}
```
**Contoh 3: Untuk membuat VPC dengan blok CIDR IPv6 **  
`create-vpc`Contoh berikut membuat VPC dengan blok CIDR yang disediakan Amazon IPv6 .  

```
aws ec2 create-vpc \
    --cidr-block 10.0.0.0/16 \
    --amazon-provided-ipv6-cidr-block
```
Output:  

```
{
    "Vpc": {
        "CidrBlock": "10.0.0.0/16",
        "DhcpOptionsId": "dopt-dEXAMPLE",
        "State": "pending",
        "VpcId": "vpc-0fc5e3406bEXAMPLE",
        "OwnerId": "123456789012",
        "InstanceTenancy": "default",
        "Ipv6CidrBlockAssociationSet": [
            {
                "AssociationId": "vpc-cidr-assoc-068432c60bEXAMPLE",
                "Ipv6CidrBlock": "",
                "Ipv6CidrBlockState": {
                    "State": "associating"
                },
                "Ipv6Pool": "Amazon",
                "NetworkBorderGroup": "us-west-2"
            }
        ],
        "CidrBlockAssociationSet": [
            {
                "AssociationId": "vpc-cidr-assoc-0669f8f9f5EXAMPLE",
                "CidrBlock": "10.0.0.0/16",
                "CidrBlockState": {
                    "State": "associated"
                }
            }
        ],
        "IsDefault": false
    }
}
```
**Contoh 4: Untuk membuat VPC dengan CIDR dari kolam IPAM**  
Contoh `create-vpc` berikut membuat VPC dengan CIDR dari kolam Manajer Alamat IP (IPAM) Amazon VPC.  
Linux dan macOS:  

```
aws ec2 create-vpc \
    --ipv4-ipam-pool-id ipam-pool-0533048da7d823723 \
    --tag-specifications ResourceType=vpc,Tags='[{Key=Environment,Value="Preprod"},{Key=Owner,Value="Build Team"}]'
```
Windows:  

```
aws ec2 create-vpc ^
    --ipv4-ipam-pool-id ipam-pool-0533048da7d823723 ^
    --tag-specifications ResourceType=vpc,Tags=[{Key=Environment,Value="Preprod"},{Key=Owner,Value="Build Team"}]
```
Output:  

```
{
    "Vpc": {
        "CidrBlock": "10.0.1.0/24",
        "DhcpOptionsId": "dopt-2afccf50",
        "State": "pending",
        "VpcId": "vpc-010e1791024eb0af9",
        "OwnerId": "123456789012",
        "InstanceTenancy": "default",
        "Ipv6CidrBlockAssociationSet": [],
        "CidrBlockAssociationSet": [
            {
                "AssociationId": "vpc-cidr-assoc-0a77de1d803226d4b",
                "CidrBlock": "10.0.1.0/24",
                "CidrBlockState": {
                    "State": "associated"
                }
            }
        ],
        "IsDefault": false,
        "Tags": [
            {
                "Key": "Environment",
                "Value": "Preprod"
            },
            {
                "Key": "Owner",
                "Value": "Build Team"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat VPC yang menggunakan CIDR kolam IPAM](https://docs.aws.amazon.com/vpc/latest/ipam/create-vpc-ipam.html) di *Panduan Pengguna IPAM Amazon VPC*.  
+  Untuk detail API, lihat [CreateVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpc.html)di *Referensi AWS CLI Perintah*. 

### `create-vpn-connection-route`
<a name="ec2_CreateVpnConnectionRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpn-connection-route`.

**AWS CLI**  
**Untuk membuat rute statis untuk koneksi VPN**  
Contoh ini membuat rute statis untuk koneksi VPN yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 create-vpn-connection-route --vpn-connection-id vpn-40f41529 --destination-cidr-block 11.12.0.0/16
```
+  Untuk detail API, lihat [CreateVpnConnectionRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpn-connection-route.html)di *Referensi AWS CLI Perintah*. 

### `create-vpn-connection`
<a name="ec2_CreateVpnConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpn-connection`.

**AWS CLI**  
**Contoh 1: Untuk membuat koneksi VPN dengan perutean dinamis**  
`create-vpn-connection`Contoh berikut membuat koneksi VPN antara gateway pribadi virtual yang ditentukan dan gateway pelanggan yang ditentukan, dan menerapkan tag ke koneksi VPN. Outputnya mencakup informasi konfigurasi untuk perangkat gateway pelanggan Anda, dalam format XHTML.  

```
aws ec2 create-vpn-connection \
    --type ipsec.1 \
    --customer-gateway-id cgw-001122334455aabbc \
    --vpn-gateway-id vgw-1a1a1a1a1a1a2b2b2 \
    --tag-specification 'ResourceType=vpn-connection,Tags=[{Key=Name,Value=BGP-VPN}]'
```
Output:  

```
{
    "VpnConnection": {
        "CustomerGatewayConfiguration": "...configuration information...",
        "CustomerGatewayId": "cgw-001122334455aabbc",
        "Category": "VPN",
        "State": "pending",
        "VpnConnectionId": "vpn-123123123123abcab",
        "VpnGatewayId": "vgw-1a1a1a1a1a1a2b2b2",
        "Options": {
            "EnableAcceleration": false,
            "StaticRoutesOnly": false,
            "LocalIpv4NetworkCidr": "0.0.0.0/0",
            "RemoteIpv4NetworkCidr": "0.0.0.0/0",
            "TunnelInsideIpVersion": "ipv4",
            "TunnelOptions": [
                {},
                {}
            ]
        },
        "Routes": [],
        "Tags": [
             {
                "Key": "Name",
                "Value": "BGP-VPN"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Cara kerja AWS Site-to-Site AWS Site-to-Site VPN](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) *di Panduan Pengguna VPN*.  
**Contoh 2: Untuk membuat koneksi VPN dengan perutean statis**  
`create-vpn-connection`Contoh berikut membuat koneksi VPN antara gateway pribadi virtual yang ditentukan dan gateway pelanggan yang ditentukan. Opsi menentukan perutean statis. Outputnya mencakup informasi konfigurasi untuk perangkat gateway pelanggan Anda, dalam format XHTML.  

```
aws ec2 create-vpn-connection \
    --type ipsec.1 \
    --customer-gateway-id cgw-001122334455aabbc \
    --vpn-gateway-id vgw-1a1a1a1a1a1a2b2b2 \
    --options "{\"StaticRoutesOnly\":true}"
```
Output:  

```
{
    "VpnConnection": {
        "CustomerGatewayConfiguration": "..configuration information...",
        "CustomerGatewayId": "cgw-001122334455aabbc",
        "Category": "VPN",
        "State": "pending",
        "VpnConnectionId": "vpn-123123123123abcab",
        "VpnGatewayId": "vgw-1a1a1a1a1a1a2b2b2",
        "Options": {
            "EnableAcceleration": false,
            "StaticRoutesOnly": true,
            "LocalIpv4NetworkCidr": "0.0.0.0/0",
            "RemoteIpv4NetworkCidr": "0.0.0.0/0",
            "TunnelInsideIpVersion": "ipv4",
            "TunnelOptions": [
                {},
                {}
            ]
        },
        "Routes": [],
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Cara kerja AWS Site-to-Site AWS Site-to-Site VPN](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) *di Panduan Pengguna VPN*.  
**Contoh 3: Untuk membuat koneksi VPN dan menentukan sendiri di dalam CIDR dan kunci yang telah dibagikan sebelumnya**  
`create-vpn-connection`Contoh berikut membuat koneksi VPN dan menentukan blok CIDR alamat IP bagian dalam dan kunci pra-bersama khusus untuk setiap terowongan. Nilai yang ditentukan dikembalikan dalam `CustomerGatewayConfiguration` informasi.  

```
aws ec2 create-vpn-connection \
    --type ipsec.1 \
    --customer-gateway-id cgw-001122334455aabbc \
    --vpn-gateway-id vgw-1a1a1a1a1a1a2b2b2 \
    --options TunnelOptions='[{TunnelInsideCidr=169.254.12.0/30,PreSharedKey=ExamplePreSharedKey1},{TunnelInsideCidr=169.254.13.0/30,PreSharedKey=ExamplePreSharedKey2}]'
```
Output:  

```
{
    "VpnConnection": {
        "CustomerGatewayConfiguration": "..configuration information...",
        "CustomerGatewayId": "cgw-001122334455aabbc",
        "Category": "VPN",
        "State": "pending",
        "VpnConnectionId": "vpn-123123123123abcab",
        "VpnGatewayId": "vgw-1a1a1a1a1a1a2b2b2",
        "Options": {
            "EnableAcceleration": false,
            "StaticRoutesOnly": false,
            "LocalIpv4NetworkCidr": "0.0.0.0/0",
            "RemoteIpv4NetworkCidr": "0.0.0.0/0",
            "TunnelInsideIpVersion": "ipv4",
            "TunnelOptions": [
                {
                    "OutsideIpAddress": "203.0.113.3",
                    "TunnelInsideCidr": "169.254.12.0/30",
                    "PreSharedKey": "ExamplePreSharedKey1"
                },
                {
                    "OutsideIpAddress": "203.0.113.5",
                    "TunnelInsideCidr": "169.254.13.0/30",
                    "PreSharedKey": "ExamplePreSharedKey2"
                }
            ]
        },
        "Routes": [],
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Cara kerja AWS Site-to-Site AWS Site-to-Site VPN](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) *di Panduan Pengguna VPN*.  
**Contoh 4: Untuk membuat koneksi VPN yang mendukung IPv6 lalu lintas**  
`create-vpn-connection`Contoh berikut membuat koneksi VPN yang mendukung IPv6 lalu lintas antara gateway transit yang ditentukan dan gateway pelanggan yang ditentukan. Opsi terowongan untuk kedua terowongan menentukan yang AWS harus memulai negosiasi IKE.  

```
aws ec2 create-vpn-connection \
    --type ipsec.1 \
    --transit-gateway-id tgw-12312312312312312 \
    --customer-gateway-id cgw-001122334455aabbc \
    --options TunnelInsideIpVersion=ipv6,TunnelOptions=[{StartupAction=start},{StartupAction=start}]
```
Output:  

```
{
    "VpnConnection": {
        "CustomerGatewayConfiguration": "..configuration information...",
        "CustomerGatewayId": "cgw-001122334455aabbc",
        "Category": "VPN",
        "State": "pending",
        "VpnConnectionId": "vpn-11111111122222222",
        "TransitGatewayId": "tgw-12312312312312312",
        "Options": {
            "EnableAcceleration": false,
            "StaticRoutesOnly": false,
            "LocalIpv6NetworkCidr": "::/0",
            "RemoteIpv6NetworkCidr": "::/0",
            "TunnelInsideIpVersion": "ipv6",
            "TunnelOptions": [
                {
                    "OutsideIpAddress": "203.0.113.3",
                    "StartupAction": "start"
                },
                {
                    "OutsideIpAddress": "203.0.113.5",
                    "StartupAction": "start"
                }
            ]
        },
        "Routes": [],
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Cara kerja AWS Site-to-Site AWS Site-to-Site VPN](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) *di Panduan Pengguna VPN*.  
+  Untuk detail API, lihat [CreateVpnConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpn-connection.html)di *Referensi AWS CLI Perintah*. 

### `create-vpn-gateway`
<a name="ec2_CreateVpnGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpn-gateway`.

**AWS CLI**  
**Untuk membuat gateway pribadi virtual**  
Contoh ini membuat gateway pribadi virtual.  
Perintah:  

```
aws ec2 create-vpn-gateway --type ipsec.1
```
Output:  

```
{
    "VpnGateway": {
        "AmazonSideAsn": 64512,
        "State": "available",
        "Type": "ipsec.1",
        "VpnGatewayId": "vgw-9a4cacf3",
        "VpcAttachments": []
    }
}
```
**Untuk membuat gateway pribadi virtual dengan ASN sisi Amazon tertentu**  
Contoh ini membuat gateway pribadi virtual dan menentukan Autonomous System Number (ASN) untuk sisi Amazon dari sesi BGP.  
Perintah:  

```
aws ec2 create-vpn-gateway --type ipsec.1 --amazon-side-asn 65001
```
Output:  

```
{
    "VpnGateway": {
        "AmazonSideAsn": 65001,
        "State": "available",
        "Type": "ipsec.1",
        "VpnGatewayId": "vgw-9a4cacf3",
        "VpcAttachments": []
    }
}
```
+  Untuk detail API, lihat [CreateVpnGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpn-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-carrier-gateway`
<a name="ec2_DeleteCarrierGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-carrier-gateway`.

**AWS CLI**  
**Untuk menghapus gateway operator**  
`delete-carrier-gateway`Contoh berikut menghapus gateway operator yang ditentukan.  

```
aws ec2 delete-carrier-gateway \
    --carrier-gateway-id cagw-0465cdEXAMPLE1111
```
Output:  

```
{
    "CarrierGateway": {
        "CarrierGatewayId": "cagw-0465cdEXAMPLE1111",
        "VpcId": "vpc-0c529aEXAMPLE1111",
        "State": "deleting",
        "OwnerId": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Gateway operator](https://docs.aws.amazon.com/vpc/latest/userguide/Carrier_Gateway.html) di *Panduan Pengguna Amazon Virtual Private Cloud*.  
+  Untuk detail API, lihat [DeleteCarrierGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-carrier-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-client-vpn-endpoint`
<a name="ec2_DeleteClientVpnEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-client-vpn-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir Client VPN**  
`delete-client-vpn-endpoint`Contoh berikut menghapus titik akhir Client VPN yang ditentukan.  

```
aws ec2 delete-client-vpn-endpoint \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde
```
Output:  

```
{
    "Status": {
        "Code": "deleting"
    }
}
```
Untuk informasi selengkapnya, lihat [Titik Akhir Client VPN](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-endpoints.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [DeleteClientVpnEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-client-vpn-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-client-vpn-route`
<a name="ec2_DeleteClientVpnRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-client-vpn-route`.

**AWS CLI**  
**Untuk menghapus rute untuk titik akhir Client VPN**  
`delete-client-vpn-route`Contoh berikut menghapus `0.0.0.0/0` rute untuk subnet tertentu dari titik akhir Client VPN.  

```
aws ec2 delete-client-vpn-route \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde \
    --destination-cidr-block 0.0.0.0/0 \
    --target-vpc-subnet-id subnet-0123456789abcabca
```
Output:  

```
{
    "Status": {
        "Code": "deleting"
    }
}
```
Untuk informasi selengkapnya, lihat [Rute](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-routes.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [DeleteClientVpnRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-client-vpn-route.html)di *Referensi AWS CLI Perintah*. 

### `delete-coip-cidr`
<a name="ec2_DeleteCoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-coip-cidr`.

**AWS CLI**  
**Untuk menghapus berbagai alamat IP (CoIP) milik pelanggan**  
`delete-coip-cidr`Contoh berikut menghapus rentang alamat CoIP yang ditentukan di kolam CoIP yang ditentukan.  

```
aws ec2 delete-coip-cidr \
    --cidr 14.0.0.0/24 \
    --coip-pool-id ipv4pool-coip-1234567890abcdefg
```
Output:  

```
{
    "CoipCidr": {
        "Cidr": "14.0.0.0/24",
        "CoipPoolId": "ipv4pool-coip-1234567890abcdefg",
        "LocalGatewayRouteTableId": "lgw-rtb-abcdefg1234567890"
    }
}
```
Untuk informasi selengkapnya, lihat [Alamat IP milik pelanggan](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html#ip-addressing) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [DeleteCoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-coip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `delete-coip-pool`
<a name="ec2_DeleteCoipPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-coip-pool`.

**AWS CLI**  
**Untuk menghapus kumpulan alamat IP (CoIP) milik pelanggan**  
`delete-coip-pool`Contoh berikut menghapus kumpulan CoIP dari alamat CoIP.  

```
aws ec2 delete-coip-pool \
    --coip-pool-id ipv4pool-coip-1234567890abcdefg
```
Output:  

```
{
    "CoipPool": {
        "PoolId": "ipv4pool-coip-1234567890abcdefg",
        "LocalGatewayRouteTableId": "lgw-rtb-abcdefg1234567890",
        "PoolArn": "arn:aws:ec2:us-west-2:123456789012:coip-pool/ipv4pool-coip-1234567890abcdefg"
    }
}
```
Untuk informasi selengkapnya, lihat [Alamat IP milik pelanggan](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html#ip-addressing) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [DeleteCoipPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-coip-pool.html)di *Referensi AWS CLI Perintah*. 

### `delete-customer-gateway`
<a name="ec2_DeleteCustomerGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-customer-gateway`.

**AWS CLI**  
**Untuk menghapus gateway pelanggan**  
Contoh ini menghapus gateway pelanggan yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-customer-gateway --customer-gateway-id cgw-0e11f167
```
+  Untuk detail API, lihat [DeleteCustomerGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-customer-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-dhcp-options`
<a name="ec2_DeleteDhcpOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-dhcp-options`.

**AWS CLI**  
**Untuk menghapus set opsi DHCP**  
Contoh ini menghapus set opsi DHCP yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-dhcp-options --dhcp-options-id dopt-d9070ebb
```
+  Untuk detail API, lihat [DeleteDhcpOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-dhcp-options.html)di *Referensi AWS CLI Perintah*. 

### `delete-egress-only-internet-gateway`
<a name="ec2_DeleteEgressOnlyInternetGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-egress-only-internet-gateway`.

**AWS CLI**  
**Untuk menghapus gateway Internet khusus egres**  
Contoh ini menghapus gateway Internet khusus egres yang ditentukan.  
Perintah:  

```
aws ec2 delete-egress-only-internet-gateway --egress-only-internet-gateway-id eigw-01eadbd45ecd7943f
```
Output:  

```
{
  "ReturnCode": true
}
```
+  Untuk detail API, lihat [DeleteEgressOnlyInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-egress-only-internet-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-fleets`
<a name="ec2_DeleteFleets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-fleets`.

**AWS CLI**  
**Contoh 1: Untuk menghapus Armada EC2 dan menghentikan instans terkait**  
`delete-fleets`Contoh berikut menghapus Armada EC2 yang ditentukan dan mengakhiri Instans Sesuai Permintaan dan Instans Spot terkait.  

```
aws ec2 delete-fleets \
    --fleet-ids fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE \
    --terminate-instances
```
Output:  

```
{
    "SuccessfulFleetDeletions": [
        {
            "CurrentFleetState": "deleted_terminating",
            "PreviousFleetState": "active",
            "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE"
        }
    ],
    "UnsuccessfulFleetDeletions": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus Armada EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/manage-ec2-fleet.html#delete-fleet) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
**Contoh 2: Untuk menghapus Armada EC2 tanpa menghentikan instans terkait**  
`delete-fleets`Contoh berikut menghapus Armada EC2 yang ditentukan tanpa menghentikan Instans Sesuai Permintaan dan Instans Spot terkait.  

```
aws ec2 delete-fleets \
    --fleet-ids fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE \
    --no-terminate-instances
```
Output:  

```
{
    "SuccessfulFleetDeletions": [
        {
            "CurrentFleetState": "deleted_running",
            "PreviousFleetState": "active",
            "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE"
        }
    ],
    "UnsuccessfulFleetDeletions": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus Armada EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/manage-ec2-fleet.html#delete-fleet) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DeleteFleets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-fleets.html)di *Referensi AWS CLI Perintah*. 

### `delete-flow-logs`
<a name="ec2_DeleteFlowLogs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-flow-logs`.

**AWS CLI**  
**Untuk menghapus log aliran**  
`delete-flow-logs`Contoh berikut menghapus log aliran yang ditentukan.  

```
aws ec2 delete-flow-logs --flow-log-id fl-11223344556677889
```
Output:  

```
{
    "Unsuccessful": []
}
```
+  Untuk detail API, lihat [DeleteFlowLogs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-flow-logs.html)di *Referensi AWS CLI Perintah*. 

### `delete-fpga-image`
<a name="ec2_DeleteFpgaImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-fpga-image`.

**AWS CLI**  
**Untuk menghapus gambar Amazon FPGA**  
Contoh ini menghapus AFI yang ditentukan.  
Perintah:  

```
aws ec2 delete-fpga-image --fpga-image-id afi-06b12350a123fbabc
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [DeleteFpgaImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-fpga-image.html)di *Referensi AWS CLI Perintah*. 

### `delete-instance-connect-endpoint`
<a name="ec2_DeleteInstanceConnectEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-instance-connect-endpoint`.

**AWS CLI**  
**Untuk menghapus Instance Connect Endpoint EC2**  
`delete-instance-connect-endpoint`Contoh berikut menghapus EC2 Instance Connect Endpoint yang ditentukan.  

```
aws ec2 delete-instance-connect-endpoint \
    --instance-connect-endpoint-id eice-03f5e49b83924bbc7
```
Output:  

```
{
    "InstanceConnectEndpoint": {
        "OwnerId": "111111111111",
        "InstanceConnectEndpointId": "eice-0123456789example",
        "InstanceConnectEndpointArn": "arn:aws:ec2:us-east-1:111111111111:instance-connect-endpoint/eice-0123456789example",
        "State": "delete-in-progress",
        "StateMessage": "",
        "NetworkInterfaceIds": [],
        "VpcId": "vpc-0123abcd",
        "AvailabilityZone": "us-east-1d",
        "CreatedAt": "2023-02-07T12:05:37+00:00",
        "SubnetId": "subnet-0123abcd"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Titik Akhir Instans Connect EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/delete-ec2-instance-connect-endpoint.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [DeleteInstanceConnectEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-instance-connect-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-instance-event-window`
<a name="ec2_DeleteInstanceEventWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-instance-event-window`.

**AWS CLI**  
**Contoh 1: Untuk menghapus jendela acara**  
`delete-instance-event-window`Contoh berikut menghapus jendela acara.  

```
aws ec2 delete-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890
```
Output:  

```
{
    "InstanceEventWindowState": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "State": "deleting"
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
**Contoh 2: Untuk memaksa menghapus jendela acara**  
`delete-instance-event-window`Contoh gaya berikut menghapus jendela acara jika jendela acara saat ini dikaitkan dengan target.  

```
aws ec2 delete-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --force-delete
```
Output:  

```
{
    "InstanceEventWindowState": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "State": "deleting"
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
+  Untuk detail API, lihat [DeleteInstanceEventWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-instance-event-window.html)di *Referensi AWS CLI Perintah*. 

### `delete-internet-gateway`
<a name="ec2_DeleteInternetGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-internet-gateway`.

**AWS CLI**  
**Untuk menghapus gateway internet**  
`delete-internet-gateway`Contoh berikut menghapus gateway internet yang ditentukan.  

```
aws ec2 delete-internet-gateway \
    --internet-gateway-id igw-0d0fb496b3EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Gateway internet](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DeleteInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-internet-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-ipam-pool`
<a name="ec2_DeleteIpamPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ipam-pool`.

**AWS CLI**  
**Untuk menghapus kolam IPAM**  
Dalam contoh ini, Anda adalah admin yang didelegasikan IPAM yang ingin menghapus kumpulan IPAM yang tidak lagi Anda perlukan, tetapi kumpulan tersebut memiliki CIDR yang disediakan untuknya. Anda tidak dapat menghapus kumpulan jika CIDRs telah disediakan kecuali Anda menggunakan `--cascade` opsi, jadi Anda akan menggunakannya. `--cascade`  
Untuk melengkapi permintaan ini:  
Anda akan memerlukan ID kolam IPAM yang bisa Anda dapatkan [describe-ipam-pools](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-ipam-pools.html). `--region` Harus menjadi Wilayah rumah IPAM.  
`delete-ipam-pool`Contoh berikut menghapus kolam IPAM di akun Anda AWS .  

```
aws ec2 delete-ipam-pool \
    --ipam-pool-id ipam-pool-050c886a3ca41cd5b \
    --cascade \
    --region us-east-1
```
Output:  

```
{
    "IpamPool": {
        "OwnerId": "320805250157",
        "IpamPoolId": "ipam-pool-050c886a3ca41cd5b",
        "IpamPoolArn": "arn:aws:ec2::320805250157:ipam-pool/ipam-pool-050c886a3ca41cd5b",
        "IpamScopeArn": "arn:aws:ec2::320805250157:ipam-scope/ipam-scope-0a158dde35c51107b",
        "IpamScopeType": "private",
        "IpamArn": "arn:aws:ec2::320805250157:ipam/ipam-005f921c17ebd5107",
        "IpamRegion": "us-east-1",
        "Locale": "None",
        "PoolDepth": 1,
        "State": "delete-in-progress",
        "Description": "example",
        "AutoImport": false,
        "AddressFamily": "ipv4",
        "AllocationMinNetmaskLength": 0,
        "AllocationMaxNetmaskLength": 32
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus kumpulan](https://docs.aws.amazon.com/vpc/latest/ipam/delete-pool-ipam.html) di Panduan *Pengguna Amazon VPC IPAM*.  
+  Untuk detail API, lihat [DeleteIpamPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-ipam-pool.html)di *Referensi AWS CLI Perintah*. 

### `delete-ipam-resource-discovery`
<a name="ec2_DeleteIpamResourceDiscovery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ipam-resource-discovery`.

**AWS CLI**  
**Untuk menghapus penemuan sumber daya**  
Dalam contoh ini, Anda adalah admin yang didelegasikan IPAM yang ingin menghapus penemuan sumber daya non-default yang Anda buat untuk dibagikan dengan admin IPAM lain selama proses mengintegrasikan IPAM dengan akun di luar organisasi Anda.  
Untuk melengkapi permintaan ini:  
`--region`Harus Wilayah tempat Anda membuat penemuan sumber daya.Anda tidak dapat menghapus penemuan sumber daya default jika. `"IsDefault": true` Penemuan sumber daya default adalah penemuan yang dibuat secara otomatis di akun yang membuat IPAM. Untuk menghapus penemuan sumber daya default, Anda harus menghapus IPAM.  
`delete-ipam-resource-discovery`Contoh berikut menghapus penemuan sumber daya.  

```
aws ec2 delete-ipam-resource-discovery \
    --ipam-resource-discovery-id ipam-res-disco-0e39761475298ee0f \
    --region us-east-1
```
Output:  

```
{
    "IpamResourceDiscovery": {
        "OwnerId": "149977607591",
        "IpamResourceDiscoveryId": "ipam-res-disco-0e39761475298ee0f",
        "IpamResourceDiscoveryArn": "arn:aws:ec2::149977607591:ipam-resource-discovery/ipam-res-disco-0e39761475298ee0f",
        "IpamResourceDiscoveryRegion": "us-east-1",
        "OperatingRegions": [
            {
                "RegionName": "us-east-1"
            }
        ],
        "IsDefault": false,
        "State": "delete-in-progress"
    }
}
```
Untuk informasi selengkapnya tentang penemuan sumber daya, lihat [Bekerja dengan penemuan sumber daya di](https://docs.aws.amazon.com/vpc/latest/ipam/res-disc-work-with.html) Panduan Pengguna Amazon *VPC* IPAM.  
+  Untuk detail API, lihat [DeleteIpamResourceDiscovery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-ipam-resource-discovery.html)di *Referensi AWS CLI Perintah*. 

### `delete-ipam-scope`
<a name="ec2_DeleteIpamScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ipam-scope`.

**AWS CLI**  
**Untuk menghapus cakupan IPAM**  
`delete-ipam-scope`Contoh berikut menghapus IPAM.  

```
aws ec2 delete-ipam-scope \
    --ipam-scope-id ipam-scope-01c1ebab2b63bd7e4
```
Output:  

```
{
    "IpamScope": {
        "OwnerId": "123456789012",
        "IpamScopeId": "ipam-scope-01c1ebab2b63bd7e4",
        "IpamScopeArn": "arn:aws:ec2::123456789012:ipam-scope/ipam-scope-01c1ebab2b63bd7e4",
        "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
        "IpamRegion": "us-east-1",
        "IpamScopeType": "private",
        "IsDefault": false,
        "Description": "Example description",
        "PoolCount": 0,
        "State": "delete-in-progress"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus cakupan](https://docs.aws.amazon.com/vpc/latest/ipam/delete-scope-ipam.html) di Panduan *Pengguna Amazon VPC IPAM*.  
+  Untuk detail API, lihat [DeleteIpamScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-ipam-scope.html)di *Referensi AWS CLI Perintah*. 

### `delete-ipam`
<a name="ec2_DeleteIpam_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ipam`.

**AWS CLI**  
**Untuk menghapus IPAM**  
`delete-ipam`Contoh berikut menghapus IPAM.  

```
aws ec2 delete-ipam \
    --ipam-id ipam-036486dfa6af58ee0
```
Output:  

```
{
    "Ipam": {
        "OwnerId": "123456789012",
        "IpamId": "ipam-036486dfa6af58ee0",
        "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-036486dfa6af58ee0",
        "IpamRegion": "us-east-1",
        "PublicDefaultScopeId": "ipam-scope-071b8042b0195c183",
        "PrivateDefaultScopeId": "ipam-scope-0807405dece705a30",
        "ScopeCount": 2,
        "OperatingRegions": [
            {
                "RegionName": "us-east-1"
            },
            {
                "RegionName": "us-east-2"
            },
            {
                "RegionName": "us-west-1"
            }
        ],
        "State": "delete-in-progress"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus IPAM](https://docs.aws.amazon.com/vpc/latest/ipam/delete-ipam.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [DeleteIpam](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-ipam.html)di *Referensi AWS CLI Perintah*. 

### `delete-key-pair`
<a name="ec2_DeleteKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-key-pair`.

**AWS CLI**  
**Untuk menghapus pasangan kunci**  
`delete-key-pair`Contoh berikut menghapus key pair yang ditentukan.  

```
aws ec2 delete-key-pair \
    --key-name my-key-pair
```
Output:  

```
{
    "Return": true,
    "KeyPairId": "key-03c8d3aceb53b507"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan menghapus pasangan kunci](https://docs.aws.amazon.com/cli/latest/userguide/cli-ec2-keypairs.html) di *Panduan Pengguna Antarmuka Baris AWS Perintah*.  
+  Untuk detail API, lihat [DeleteKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `delete-launch-template-versions`
<a name="ec2_DeleteLaunchTemplateVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-launch-template-versions`.

**AWS CLI**  
**Untuk menghapus versi template peluncuran**  
Contoh ini menghapus versi template peluncuran yang ditentukan.  
Perintah:  

```
aws ec2 delete-launch-template-versions --launch-template-id lt-0abcd290751193123 --versions 1
```
Output:  

```
{
  "UnsuccessfullyDeletedLaunchTemplateVersions": [],
  "SuccessfullyDeletedLaunchTemplateVersions": [
      {
          "LaunchTemplateName": "TestVersion",
          "VersionNumber": 1,
          "LaunchTemplateId": "lt-0abcd290751193123"
      }
  ]
}
```
+  Untuk detail API, lihat [DeleteLaunchTemplateVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-launch-template-versions.html)di *Referensi AWS CLI Perintah*. 

### `delete-launch-template`
<a name="ec2_DeleteLaunchTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-launch-template`.

**AWS CLI**  
**Untuk menghapus templat peluncuran**  
Contoh ini menghapus templat peluncuran yang ditentukan.  
Perintah:  

```
aws ec2 delete-launch-template --launch-template-id lt-0abcd290751193123
```
Output:  

```
{
  "LaunchTemplate": {
      "LatestVersionNumber": 2,
      "LaunchTemplateId": "lt-0abcd290751193123",
      "LaunchTemplateName": "TestTemplate",
      "DefaultVersionNumber": 2,
      "CreatedBy": "arn:aws:iam::123456789012:root",
      "CreateTime": "2017-11-23T16:46:25.000Z"
  }
}
```
+  Untuk detail API, lihat [DeleteLaunchTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-launch-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-local-gateway-route-table-virtual-interface-group-association`
<a name="ec2_DeleteLocalGatewayRouteTableVirtualInterfaceGroupAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-local-gateway-route-table-virtual-interface-group-association`.

**AWS CLI**  
**Untuk memisahkan tabel rute gateway lokal dari grup antarmuka virtual () VIFs**  
`delete-local-gateway-route-table-virtual-interface-group-association`Contoh berikut menghapus hubungan antara tabel rute gateway lokal yang ditentukan dan grup VIF.  

```
aws ec2 delete-local-gateway-route-table-virtual-interface-group-association \
    --local-gateway-route-table-virtual-interface-group-association-id lgw-vif-grp-assoc-exampleid12345678
```
Output:  

```
{
    "LocalGatewayRouteTableVirtualInterfaceGroupAssociation": {
        "LocalGatewayRouteTableVirtualInterfaceGroupAssociationId": "lgw-vif-grp-assoc-exampleid12345678",
        "LocalGatewayVirtualInterfaceGroupId": "lgw-vif-grp-exampleid0123abcd",
        "LocalGatewayId": "lgw-exampleid11223344",
        "LocalGatewayRouteTableId": "lgw-rtb-exampleidabcd1234",
        "LocalGatewayRouteTableArn": "arn:aws:ec2:us-west-2:111122223333:local-gateway-route-table/lgw-rtb-exampleidabcd1234",
        "OwnerId": "111122223333",
        "State": "disassociating",
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Asosiasi grup VIF](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html#vif-group-associations) di Panduan *AWS Pengguna Outposts*.  
+  Untuk detail API, lihat [DeleteLocalGatewayRouteTableVirtualInterfaceGroupAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-local-gateway-route-table-virtual-interface-group-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-local-gateway-route-table-vpc-association`
<a name="ec2_DeleteLocalGatewayRouteTableVpcAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-local-gateway-route-table-vpc-association`.

**AWS CLI**  
**Untuk memisahkan tabel rute gateway lokal dari VPC**  
`delete-local-gateway-route-table-vpc-association`Contoh berikut menghapus hubungan antara tabel rute gateway lokal yang ditentukan dan VPC.  

```
aws ec2 delete-local-gateway-route-table-vpc-association \
    --local-gateway-route-table-vpc-association-id vpc-example0123456789
```
Output:  

```
{
    "LocalGatewayRouteTableVpcAssociation": {
        "LocalGatewayRouteTableVpcAssociationId": "lgw-vpc-assoc-abcd1234wxyz56789",
        "LocalGatewayRouteTableId": "lgw-rtb-abcdefg1234567890",
        "LocalGatewayRouteTableArn": "arn:aws:ec2:us-west-2:555555555555:local-gateway-route-table/lgw-rtb-abcdefg1234567890",
        "LocalGatewayId": "lgw-exampleid01234567",
        "VpcId": "vpc-example0123456789",
        "OwnerId": "555555555555",
        "State": "disassociating"
    }
}
```
Untuk informasi selengkapnya, lihat [asosiasi VPC](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html#vpc-associations) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [DeleteLocalGatewayRouteTableVpcAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-local-gateway-route-table-vpc-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-local-gateway-route-table`
<a name="ec2_DeleteLocalGatewayRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-local-gateway-route-table`.

**AWS CLI**  
**Untuk menghapus tabel rute gateway lokal**  
`delete-local-gateway-route-table`Contoh berikut membuat tabel rute gateway lokal dengan modus routing VPC langsung.  

```
aws ec2 delete-local-gateway-route-table \
    --local-gateway-route-table-id lgw-rtb-abcdefg1234567890
```
Output:  

```
{
    "LocalGatewayRouteTable": {
        "LocalGatewayRouteTableId": "lgw-rtb-abcdefg1234567890",
        "LocalGatewayRouteTableArn": "arn:aws:ec2:us-west-2:111122223333:local-gateway-route-table/lgw-rtb-abcdefg1234567890",
        "LocalGatewayId": "lgw-1a2b3c4d5e6f7g8h9",
        "OutpostArn": "arn:aws:outposts:us-west-2:111122223333:outpost/op-021345abcdef67890",
        "OwnerId": "111122223333",
        "State": "deleting",
        "Tags": [],
        "Mode": "direct-vpc-routing"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel rute gateway lokal](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html) di *Panduan Pengguna AWS Outposts*.  
+  Untuk detail API, lihat [DeleteLocalGatewayRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-local-gateway-route-table.html)di *Referensi AWS CLI Perintah*. 

### `delete-local-gateway-route`
<a name="ec2_DeleteLocalGatewayRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-local-gateway-route`.

**AWS CLI**  
**Untuk menghapus rute dari tabel rute gateway lokal**  
`delete-local-gateway-route`Contoh berikut menghapus rute yang ditentukan dari tabel rute gateway lokal yang ditentukan.  

```
aws ec2 delete-local-gateway-route \
    --destination-cidr-block 0.0.0.0/0 \
    --local-gateway-route-table-id lgw-rtb-059615ef7dEXAMPLE
```
Output:  

```
{
    "Route": {
        "DestinationCidrBlock": "0.0.0.0/0",
        "LocalGatewayVirtualInterfaceGroupId": "lgw-vif-grp-07145b276bEXAMPLE",
        "Type": "static",
        "State": "deleted",
        "LocalGatewayRouteTableId": "lgw-rtb-059615ef7EXAMPLE"
    }
}
```
+  Untuk detail API, lihat [DeleteLocalGatewayRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-local-gateway-route.html)di *Referensi AWS CLI Perintah*. 

### `delete-managed-prefix-list`
<a name="ec2_DeleteManagedPrefixList_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-managed-prefix-list`.

**AWS CLI**  
**Untuk menghapus daftar awalan**  
`delete-managed-prefix-list`Contoh berikut menghapus daftar awalan yang ditentukan.  

```
aws ec2 delete-managed-prefix-list \
    --prefix-list-id pl-0123456abcabcabc1
```
Output:  

```
{
    "PrefixList": {
        "PrefixListId": "pl-0123456abcabcabc1",
        "AddressFamily": "IPv4",
        "State": "delete-in-progress",
        "PrefixListArn": "arn:aws:ec2:us-west-2:123456789012:prefix-list/pl-0123456abcabcabc1",
        "PrefixListName": "test",
        "MaxEntries": 10,
        "Version": 1,
        "OwnerId": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Daftar awalan terkelola](https://docs.aws.amazon.com/vpc/latest/userguide/managed-prefix-lists.html) di Panduan *Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DeleteManagedPrefixList](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-managed-prefix-list.html)di *Referensi AWS CLI Perintah*. 

### `delete-nat-gateway`
<a name="ec2_DeleteNatGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-nat-gateway`.

**AWS CLI**  
**Untuk menghapus gateway NAT**  
Contoh ini menghapus gateway NAT. `nat-04ae55e711cec5680`  
Perintah:  

```
aws ec2 delete-nat-gateway --nat-gateway-id nat-04ae55e711cec5680
```
Output:  

```
{
   "NatGatewayId": "nat-04ae55e711cec5680"
}
```
+  Untuk detail API, lihat [DeleteNatGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-nat-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-network-acl-entry`
<a name="ec2_DeleteNetworkAclEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-network-acl-entry`.

**AWS CLI**  
**Untuk menghapus entri ACL jaringan**  
Contoh ini menghapus aturan ingress nomor 100 dari ACL jaringan yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-network-acl-entry --network-acl-id acl-5fb85d36 --ingress --rule-number 100
```
+  Untuk detail API, lihat [DeleteNetworkAclEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-acl-entry.html)di *Referensi AWS CLI Perintah*. 

### `delete-network-acl`
<a name="ec2_DeleteNetworkAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-network-acl`.

**AWS CLI**  
**Untuk menghapus jaringan ACL**  
Contoh ini menghapus ACL jaringan yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-network-acl --network-acl-id acl-5fb85d36
```
+  Untuk detail API, lihat [DeleteNetworkAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-acl.html)di *Referensi AWS CLI Perintah*. 

### `delete-network-insights-access-scope-analysis`
<a name="ec2_DeleteNetworkInsightsAccessScopeAnalysis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-network-insights-access-scope-analysis`.

**AWS CLI**  
**Untuk menghapus analisis Network Access Scope**  
`delete-network-insights-access-scope-analysis`Contoh berikut menghapus analisis Network Access Scope yang ditentukan.  

```
aws ec2 delete-network-insights-access-scope-analysis \
    --network-insights-access-scope-analysis-id nisa-01234567891abcdef
```
Output:  

```
{
    "NetworkInsightsAccessScopeAnalysisId": "nisa-01234567891abcdef
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [DeleteNetworkInsightsAccessScopeAnalysis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-insights-access-scope-analysis.html)di *Referensi AWS CLI Perintah*. 

### `delete-network-insights-access-scope`
<a name="ec2_DeleteNetworkInsightsAccessScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-network-insights-access-scope`.

**AWS CLI**  
**Untuk menghapus Cakupan Akses Jaringan**  
`delete-network-insights-access-scope`Contoh berikut menghapus Network Access Scope yang ditentukan.  

```
aws ec2 delete-network-insights-access-scope \
    --network-insights-access-scope-id nis-123456789abc01234
```
Output:  

```
{
    "NetworkInsightsAccessScopeId": "nis-123456789abc01234"
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [DeleteNetworkInsightsAccessScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-insights-access-scope.html)di *Referensi AWS CLI Perintah*. 

### `delete-network-insights-analysis`
<a name="ec2_DeleteNetworkInsightsAnalysis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-network-insights-analysis`.

**AWS CLI**  
**Untuk menghapus analisis jalur**  
`delete-network-insights-analysis`Contoh berikut menghapus analisis yang ditentukan.  

```
aws ec2 delete-network-insights-analysis \
    --network-insights-analysis-id nia-02207aa13eb480c7a
```
Output:  

```
{
    "NetworkInsightsAnalysisId": "nia-02207aa13eb480c7a"
}
```
Untuk informasi selengkapnya, lihat [Memulai menggunakan AWS CLI](https://docs.aws.amazon.com/vpc/latest/reachability/getting-started-cli.html) di Panduan *Reachability Analyzer*.  
+  Untuk detail API, lihat [DeleteNetworkInsightsAnalysis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-insights-analysis.html)di *Referensi AWS CLI Perintah*. 

### `delete-network-insights-path`
<a name="ec2_DeleteNetworkInsightsPath_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-network-insights-path`.

**AWS CLI**  
**Untuk menghapus jalur**  
`delete-network-insights-path`Contoh berikut menghapus jalur yang ditentukan. Sebelum Anda dapat menghapus jalur, Anda harus menghapus semua analisisnya menggunakan `delete-network-insights-analysis` perintah.  

```
aws ec2 delete-network-insights-path \
    --network-insights-path-id nip-0b26f224f1d131fa8
```
Output:  

```
{
    "NetworkInsightsPathId": "nip-0b26f224f1d131fa8"
}
```
Untuk informasi selengkapnya, lihat [Memulai menggunakan AWS CLI](https://docs.aws.amazon.com/vpc/latest/reachability/getting-started-cli.html) di Panduan *Reachability Analyzer*.  
+  Untuk detail API, lihat [DeleteNetworkInsightsPath](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-insights-path.html)di *Referensi AWS CLI Perintah*. 

### `delete-network-interface-permission`
<a name="ec2_DeleteNetworkInterfacePermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-network-interface-permission`.

**AWS CLI**  
**Untuk menghapus izin antarmuka jaringan**  
Contoh ini menghapus izin antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 delete-network-interface-permission --network-interface-permission-id eni-perm-06fd19020ede149ea
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [DeleteNetworkInterfacePermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-interface-permission.html)di *Referensi AWS CLI Perintah*. 

### `delete-network-interface`
<a name="ec2_DeleteNetworkInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-network-interface`.

**AWS CLI**  
**Untuk menghapus antarmuka jaringan**  
Contoh ini menghapus antarmuka jaringan yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-network-interface --network-interface-id eni-e5aa89a3
```
+  Untuk detail API, lihat [DeleteNetworkInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-interface.html)di *Referensi AWS CLI Perintah*. 

### `delete-placement-group`
<a name="ec2_DeletePlacementGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-placement-group`.

**AWS CLI**  
**Untuk menghapus grup penempatan**  
Perintah contoh ini menghapus grup penempatan yang ditentukan.  
Perintah:  

```
aws ec2 delete-placement-group --group-name my-cluster
```
+  Untuk detail API, lihat [DeletePlacementGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-placement-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-queued-reserved-instances`
<a name="ec2_DeleteQueuedReservedInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-queued-reserved-instances`.

**AWS CLI**  
**Untuk menghapus pembelian antrian**  
`delete-queued-reserved-instances`Contoh berikut menghapus Instans Cadangan yang ditentukan, yang antri untuk pembelian.  

```
aws ec2 delete-queued-reserved-instances \
    --reserved-instances-ids af9f760e-6f91-4559-85f7-4980eexample
```
Output:  

```
{
    "SuccessfulQueuedPurchaseDeletions": [
        {
            "ReservedInstancesId": "af9f760e-6f91-4559-85f7-4980eexample"
        }
    ],
    "FailedQueuedPurchaseDeletions": []
}
```
+  Untuk detail API, lihat [DeleteQueuedReservedInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-queued-reserved-instances.html)di *Referensi AWS CLI Perintah*. 

### `delete-route-table`
<a name="ec2_DeleteRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-route-table`.

**AWS CLI**  
**Untuk menghapus tabel rute**  
Contoh ini menghapus tabel rute yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-route-table --route-table-id rtb-22574640
```
+  Untuk detail API, lihat [DeleteRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-route-table.html)di *Referensi AWS CLI Perintah*. 

### `delete-route`
<a name="ec2_DeleteRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-route`.

**AWS CLI**  
**Untuk menghapus rute**  
Contoh ini menghapus rute yang ditentukan dari tabel rute yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-route --route-table-id rtb-22574640 --destination-cidr-block 0.0.0.0/0
```
+  Untuk detail API, lihat [DeleteRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-route.html)di *Referensi AWS CLI Perintah*. 

### `delete-security-group`
<a name="ec2_DeleteSecurityGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-security-group`.

**AWS CLI**  
**[EC2-Classic] Untuk menghapus grup keamanan**  
Contoh ini menghapus grup keamanan bernama `MySecurityGroup`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-security-group --group-name MySecurityGroup
```
**[EC2-VPC] Untuk menghapus grup keamanan**  
Contoh ini menghapus grup keamanan dengan ID `sg-903004f8`. Perhatikan bahwa Anda tidak dapat mereferensikan grup keamanan untuk EC2-VPC berdasarkan nama. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-security-group --group-id sg-903004f8
```
Untuk informasi selengkapnya, lihat Menggunakan Grup Keamanan di *Panduan Pengguna Antarmuka Baris Perintah AWS *.  
+  Untuk detail API, lihat [DeleteSecurityGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-security-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-snapshot`
<a name="ec2_DeleteSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot**  
Perintah contoh ini menghapus snapshot dengan ID snapshot `snap-1234567890abcdef0`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-snapshot --snapshot-id snap-1234567890abcdef0
```
+  Untuk detail API, lihat [DeleteSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-spot-datafeed-subscription`
<a name="ec2_DeleteSpotDatafeedSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-spot-datafeed-subscription`.

**AWS CLI**  
**Untuk membatalkan langganan umpan data Instans Spot**  
Perintah contoh ini menghapus langganan umpan data Spot untuk akun tersebut. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-spot-datafeed-subscription
```
+  Untuk detail API, lihat [DeleteSpotDatafeedSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-spot-datafeed-subscription.html)di *Referensi AWS CLI Perintah*. 

### `delete-subnet-cidr-reservation`
<a name="ec2_DeleteSubnetCidrReservation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-subnet-cidr-reservation`.

**AWS CLI**  
**Untuk menghapus reservasi CIDR subnet**  
`delete-subnet-cidr-reservation`Contoh berikut menghapus reservasi CIDR subnet yang ditentukan.  

```
aws ec2 delete-subnet-cidr-reservation \
    --subnet-cidr-reservation-id scr-044f977c4eEXAMPLE
```
Output:  

```
{
    "DeletedSubnetCidrReservation": {
        "SubnetCidrReservationId": "scr-044f977c4eEXAMPLE",
        "SubnetId": "subnet-03c51e2e6cEXAMPLE",
        "Cidr": "10.1.0.16/28",
        "ReservationType": "prefix",
        "OwnerId": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Reservasi CIDR Subnet](https://docs.aws.amazon.com/vpc/latest/userguide/subnet-cidr-reservation.html) di Panduan Pengguna Amazon *VPC*.  
+  Untuk detail API, lihat [DeleteSubnetCidrReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-subnet-cidr-reservation.html)di *Referensi AWS CLI Perintah*. 

### `delete-subnet`
<a name="ec2_DeleteSubnet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-subnet`.

**AWS CLI**  
**Untuk menghapus subnet**  
Contoh ini menghapus subnet yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-subnet --subnet-id subnet-9d4a7b6c
```
+  Untuk detail API, lihat [DeleteSubnet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-subnet.html)di *Referensi AWS CLI Perintah*. 

### `delete-tags`
<a name="ec2_DeleteTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-tags`.

**AWS CLI**  
**Contoh 1: Untuk menghapus tag dari sumber daya**  
`delete-tags`Contoh berikut menghapus tag `Stack=Test` dari gambar yang ditentukan. Saat Anda menentukan nilai dan nama kunci, tag akan dihapus hanya jika nilai tag cocok dengan nilai yang ditentukan.  

```
aws ec2 delete-tags \
    --resources ami-1234567890abcdef0 \
    --tags Key=Stack,Value=Test
```
Ini opsional untuk menentukan nilai untuk tag. `delete-tags`Contoh berikut menghapus tag dengan nama kunci `purpose` dari contoh yang ditentukan, terlepas dari nilai tag untuk tag.  

```
aws ec2 delete-tags \
    --resources i-1234567890abcdef0 \
    --tags Key=purpose
```
Jika Anda menentukan string kosong sebagai nilai tag, tag akan dihapus hanya jika nilai tag adalah string kosong. `delete-tags`Contoh berikut menentukan string kosong sebagai nilai tag untuk tag untuk menghapus.  

```
aws ec2 delete-tags \
    --resources i-1234567890abcdef0 \
    --tags Key=Name,Value=
```
**Contoh 2: Untuk menghapus tag dari beberapa sumber**  
`delete-tags`Contoh berikut menghapus tag``purpose=test`` dari kedua instance dan AMI. Seperti yang ditunjukkan pada contoh sebelumnya, Anda dapat menghilangkan nilai tag dari perintah.  

```
aws ec2 delete-tags \
    --resources i-1234567890abcdef0 ami-1234567890abcdef0 \
    --tags Key=Purpose
```
+  Untuk detail API, lihat [DeleteTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-tags.html)di *Referensi AWS CLI Perintah*. 

### `delete-traffic-mirror-filter-rule`
<a name="ec2_DeleteTrafficMirrorFilterRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-traffic-mirror-filter-rule`.

**AWS CLI**  
**Untuk menghapus aturan filter cermin lalu lintas**  
`delete-traffic-mirror-filter-rule`Contoh berikut menghapus aturan filter cermin lalu lintas yang ditentukan.  

```
aws ec2 delete-traffic-mirror-filter-rule \
    --traffic-mirror-filter-rule-id tmfr-081f71283bEXAMPLE
```
Output:  

```
{
    "TrafficMirrorFilterRuleId": "tmfr-081f71283bEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Aturan Filter Cermin Lalu Lintas Anda](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-filter.html#modify-traffic-mirroring-filter-rules) di *Panduan Pencerminan AWS Lalu Lintas*.  
+  Untuk detail API, lihat [DeleteTrafficMirrorFilterRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-traffic-mirror-filter-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-traffic-mirror-filter`
<a name="ec2_DeleteTrafficMirrorFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-traffic-mirror-filter`.

**AWS CLI**  
**Untuk menghapus filter cermin lalu lintas**  
`delete-traffic-mirror-filter`Contoh berikut menghapus filter cermin lalu lintas yang ditentukan.  

```
aws ec2 delete-traffic-mirror-filter \
    --traffic-mirror-filter-id tmf-0be0b25fcdEXAMPLE
```
Output:  

```
{
    "TrafficMirrorFilterId": "tmf-0be0b25fcdEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menghapus Filter Cermin Lalu Lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-filter.html#delete-traffic-mirroring-filter) di *Panduan Pencerminan AWS Lalu Lintas*.  
+  Untuk detail API, lihat [DeleteTrafficMirrorFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-traffic-mirror-filter.html)di *Referensi AWS CLI Perintah*. 

### `delete-traffic-mirror-session`
<a name="ec2_DeleteTrafficMirrorSession_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-traffic-mirror-session`.

**AWS CLI**  
**Untuk menghapus sesi cermin lalu lintas**  
`delete-traffic-mirror-session`Contoh berikut menghapus sesi cermin lalu lintas yang ditentukan.  

```
aws ec2 delete-traffic-mirror-session \
    --traffic-mirror-session-id tms-0af3141ce5EXAMPLE
```
Output:  

```
{
    "TrafficMirrorSessionId": "tms-0af3141ce5EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menghapus Sesi Cermin Lalu Lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-session.html#delete-traffic-mirroring-session) di *Panduan Pencerminan AWS Lalu Lintas*.  
+  Untuk detail API, lihat [DeleteTrafficMirrorSession](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-traffic-mirror-session.html)di *Referensi AWS CLI Perintah*. 

### `delete-traffic-mirror-target`
<a name="ec2_DeleteTrafficMirrorTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-traffic-mirror-target`.

**AWS CLI**  
**Untuk menghapus target cermin lalu lintas**  
`delete-traffic-mirror-target`Contoh berikut menghapus target cermin lalu lintas yang ditentukan.  

```
aws ec2 delete-traffic-mirror-target \
    --traffic-mirror-target-id tmt-060f48ce9EXAMPLE
```
Output:  

```
{
    "TrafficMirrorTargetId": "tmt-060f48ce9EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menghapus Target Cermin Lalu Lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-target.html#delete-traffic-mirroring-target) di *Panduan Pencerminan AWS Lalu Lintas*.  
+  Untuk detail API, lihat [DeleteTrafficMirrorTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-traffic-mirror-target.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-connect-peer`
<a name="ec2_DeleteTransitGatewayConnectPeer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-connect-peer`.

**AWS CLI**  
**Untuk menghapus rekan Transit Gateway Connect**  
`delete-transit-gateway-connect-peer`Contoh berikut menghapus rekan Connect yang ditentukan.  

```
aws ec2 delete-transit-gateway-connect-peer \
    --transit-gateway-connect-peer-id tgw-connect-peer-0666adbac4EXAMPLE
```
Output:  

```
{
    "TransitGatewayConnectPeer": {
        "TransitGatewayAttachmentId": "tgw-attach-0f0927767cEXAMPLE",
        "TransitGatewayConnectPeerId": "tgw-connect-peer-0666adbac4EXAMPLE",
        "State": "deleting",
        "CreationTime": "2021-10-13T03:35:17.000Z",
        "ConnectPeerConfiguration": {
            "TransitGatewayAddress": "10.0.0.234",
            "PeerAddress": "172.31.1.11",
            "InsideCidrBlocks": [
                "169.254.6.0/29"
            ],
            "Protocol": "gre",
            "BgpConfigurations": [
                {
                    "TransitGatewayAsn": 64512,
                    "PeerAsn": 64512,
                    "TransitGatewayAddress": "169.254.6.2",
                    "PeerAddress": "169.254.6.1",
                    "BgpStatus": "down"
                },
                {
                    "TransitGatewayAsn": 64512,
                    "PeerAsn": 64512,
                    "TransitGatewayAddress": "169.254.6.3",
                    "PeerAddress": "169.254.6.1",
                    "BgpStatus": "down"
                }
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Transit gateway Connect dan rekan Transit Gateway Connect](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-connect.html) di Panduan *Transit Gateway*.  
+  Untuk detail API, lihat [DeleteTransitGatewayConnectPeer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-connect-peer.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-connect`
<a name="ec2_DeleteTransitGatewayConnect_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-connect`.

**AWS CLI**  
**Untuk menghapus lampiran Connect gateway transit**  
`delete-transit-gateway-connect`Contoh berikut menghapus lampiran Connect yang ditentukan.  

```
aws ec2 delete-transit-gateway-connect \
    --transit-gateway-attachment-id tgw-attach-037012e5dcEXAMPLE
```
Output:  

```
{
    "TransitGatewayConnect": {
        "TransitGatewayAttachmentId": "tgw-attach-037012e5dcEXAMPLE",
        "TransportTransitGatewayAttachmentId": "tgw-attach-0a89069f57EXAMPLE",
        "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
        "State": "deleting",
        "CreationTime": "2021-03-09T19:59:17+00:00",
        "Options": {
            "Protocol": "gre"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Transit gateway Connect dan rekan Transit Gateway Connect](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-connect.html) di Panduan *Transit Gateway*.  
+  Untuk detail API, lihat [DeleteTransitGatewayConnect](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-connect.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-multicast-domain`
<a name="ec2_DeleteTransitGatewayMulticastDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-multicast-domain`.

**AWS CLI**  
**Untuk menghapus domain multicast gateway transit**  
`delete-transit-gateway-multicast-domain`Contoh berikut menghapus domain multicast yang ditentukan.  

```
aws ec2 delete-transit-gateway-multicast-domain \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef7EXAMPLE
```
Output:  

```
{
    "TransitGatewayMulticastDomain": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-02bb79002bEXAMPLE",
        "TransitGatewayId": "tgw-0d88d2d0d5EXAMPLE",
        "State": "deleting",
        "CreationTime": "2019-11-20T22:02:03.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola domain multicast](https://docs.aws.amazon.com/vpc/latest/tgw/manage-domain.html) di Panduan *Transit* Gateways.  
+  Untuk detail API, lihat [DeleteTransitGatewayMulticastDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-multicast-domain.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-peering-attachment`
<a name="ec2_DeleteTransitGatewayPeeringAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-peering-attachment`.

**AWS CLI**  
**Untuk menghapus lampiran peering gateway transit**  
`delete-transit-gateway-peering-attachment`Contoh berikut menghapus lampiran peering gateway transit yang ditentukan.  

```
aws ec2 delete-transit-gateway-peering-attachment \
    --transit-gateway-attachment-id tgw-attach-4455667788aabbccd
```
Output:  

```
{
    "TransitGatewayPeeringAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-4455667788aabbccd",
        "RequesterTgwInfo": {
            "TransitGatewayId": "tgw-123abc05e04123abc",
            "OwnerId": "123456789012",
            "Region": "us-west-2"
        },
        "AccepterTgwInfo": {
            "TransitGatewayId": "tgw-11223344aabbcc112",
            "OwnerId": "123456789012",
            "Region": "us-east-2"
        },
        "State": "deleting",
        "CreationTime": "2019-12-09T11:38:31.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Pengintip Transit Gateway](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-peering.html) *di Panduan Gerbang Transit*.  
+  Untuk detail API, lihat [DeleteTransitGatewayPeeringAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-peering-attachment.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-policy-table`
<a name="ec2_DeleteTransitGatewayPolicyTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-policy-table`.

**AWS CLI**  
**Untuk menghapus tabel kebijakan gateway transit**  
`delete-transit-gateway-policy-table`Contoh berikut menghapus tabel kebijakan gateway transit yang ditentukan.  

```
aws ec2 delete-transit-gateway-policy-table \
    --transit-gateway-policy-table-id tgw-ptb-0a16f134b78668a81
```
Output:  

```
{
    "TransitGatewayPolicyTables": [
        {
            "TransitGatewayPolicyTableId": "tgw-ptb-0a16f134b78668a81",
            "TransitGatewayId": "tgw-067f8505c18f0bd6e",
            "State": "deleting",
            "CreationTime": "2023-11-28T16:36:43+00:00",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tabel kebijakan gateway transit](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-policy-tables.html) *di Panduan Pengguna Gateway Transit*.  
+  Untuk detail API, lihat [DeleteTransitGatewayPolicyTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-policy-table.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-prefix-list-reference`
<a name="ec2_DeleteTransitGatewayPrefixListReference_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-prefix-list-reference`.

**AWS CLI**  
**Untuk menghapus referensi daftar awalan**  
`delete-transit-gateway-prefix-list-reference`Contoh berikut menghapus referensi daftar awalan yang ditentukan.  

```
aws ec2 delete-transit-gateway-prefix-list-reference \
    --transit-gateway-route-table-id tgw-rtb-0123456789abcd123 \
    --prefix-list-id pl-11111122222222333
```
Output:  

```
{
    "TransitGatewayPrefixListReference": {
        "TransitGatewayRouteTableId": "tgw-rtb-0123456789abcd123",
        "PrefixListId": "pl-11111122222222333",
        "PrefixListOwnerId": "123456789012",
        "State": "deleting",
        "Blackhole": false,
        "TransitGatewayAttachment": {
            "TransitGatewayAttachmentId": "tgw-attach-aabbccddaabbccaab",
            "ResourceType": "vpc",
            "ResourceId": "vpc-112233445566aabbc"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Referensi daftar awalan](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-prefix-lists.html) di Panduan *Gerbang Transit*.  
+  Untuk detail API, lihat [DeleteTransitGatewayPrefixListReference](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-prefix-list-reference.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-route-table`
<a name="ec2_DeleteTransitGatewayRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-route-table`.

**AWS CLI**  
**Untuk menghapus tabel rute gateway transit**  
`delete-transit-gateway-route-table`Contoh berikut menghapus tabel rute gateway transit yang ditentukan.  

```
aws ec2  delete-transit-gateway-route-table \
    --transit-gateway-route-table-id tgw-rtb-0b6f6aaa01EXAMPLE
```
Output:  

```
{
    "TransitGatewayRouteTable": {
        "TransitGatewayRouteTableId": "tgw-rtb-0b6f6aaa01EXAMPLE",
        "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
        "State": "deleting",
        "DefaultAssociationRouteTable": false,
        "DefaultPropagationRouteTable": false,
        "CreationTime": "2019-07-17T20:27:26.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus tabel rute gateway transit](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html#delete-tgw-route-table) *di Panduan Gateway* Transit.  
+  Untuk detail API, lihat [DeleteTransitGatewayRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-route-table.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-route`
<a name="ec2_DeleteTransitGatewayRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-route`.

**AWS CLI**  
**Untuk menghapus blok CIDR dari tabel rute**  
`delete-transit-gateway-route`Contoh berikut menghapus blok CIDR dari tabel rute gateway transit yang ditentukan.  

```
aws ec2 delete-transit-gateway-route \
    --transit-gateway-route-table-id tgw-rtb-0b6f6aaa01EXAMPLE \
    --destination-cidr-block 10.0.2.0/24
```
Output:  

```
{
    "Route": {
        "DestinationCidrBlock": "10.0.2.0/24",
        "TransitGatewayAttachments": [
            {
                "ResourceId": "vpc-0065acced4EXAMPLE",
                "TransitGatewayAttachmentId": "tgw-attach-0b5968d3b6EXAMPLE",
                "ResourceType": "vpc"
            }
        ],
        "Type": "static",
        "State": "deleted"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus rute statis](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html#tgw-delete-static-route) di Panduan *Gerbang Transit*.  
+  Untuk detail API, lihat [DeleteTransitGatewayRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-route.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway-vpc-attachment`
<a name="ec2_DeleteTransitGatewayVpcAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway-vpc-attachment`.

**AWS CLI**  
**Untuk menghapus lampiran VPC gateway transit**  
`delete-transit-gateway-vpc-attachment`Contoh berikut menghapus lampiran VPC yang ditentukan.  

```
aws ec2 delete-transit-gateway-vpc-attachment \
    --transit-gateway-attachment-id tgw-attach-0d2c54bdbEXAMPLE
```
Output:  

```
{
    "TransitGatewayVpcAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-0d2c54bdb3EXAMPLE",
        "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
        "VpcId": "vpc-0065acced4f61c651",
        "VpcOwnerId": "111122223333",
        "State": "deleting",
        "CreationTime": "2019-07-17T16:04:27.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus lampiran VPC di Panduan](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-vpc-attachments.html#delete-vpc-attachment) Gerbang *Transit*.  
+  Untuk detail API, lihat [DeleteTransitGatewayVpcAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway-vpc-attachment.html)di *Referensi AWS CLI Perintah*. 

### `delete-transit-gateway`
<a name="ec2_DeleteTransitGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transit-gateway`.

**AWS CLI**  
**Untuk menghapus gateway transit**  
`delete-transit-gateway`Contoh berikut menghapus gateway transit yang ditentukan.  

```
aws ec2  delete-transit-gateway \
    --transit-gateway-id tgw-01f04542b2EXAMPLE
```
Output:  

```
{
    "TransitGateway": {
        "TransitGatewayId": "tgw-01f04542b2EXAMPLE",
        "State": "deleting",
        "OwnerId": "123456789012",
        "Description": "Example Transit Gateway",
        "CreationTime": "2019-08-27T15:04:35.000Z",
        "Options": {
            "AmazonSideAsn": 64515,
            "AutoAcceptSharedAttachments": "disable",
            "DefaultRouteTableAssociation": "enable",
            "AssociationDefaultRouteTableId": "tgw-rtb-0ce7a6948fEXAMPLE",
            "DefaultRouteTablePropagation": "enable",
            "PropagationDefaultRouteTableId": "tgw-rtb-0ce7a6948fEXAMPLE",
            "VpnEcmpSupport": "enable",
            "DnsSupport": "enable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-transit-gateways.html#delete-tgw) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [DeleteTransitGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-transit-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-verified-access-endpoint`
<a name="ec2_DeleteVerifiedAccessEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-verified-access-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir Akses Terverifikasi**  
`delete-verified-access-endpoint`Contoh berikut menghapus titik akhir Akses Terverifikasi yang ditentukan.  

```
aws ec2 delete-verified-access-endpoint \
    --verified-access-endpoint-id vae-066fac616d4d546f2
```
Output:  

```
{
    "VerifiedAccessEndpoint": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "VerifiedAccessGroupId": "vagr-0dbe967baf14b7235",
        "VerifiedAccessEndpointId": "vae-066fac616d4d546f2",
        "ApplicationDomain": "example.com",
        "EndpointType": "network-interface",
        "AttachmentType": "vpc",
        "DomainCertificateArn": "arn:aws:acm:us-east-2:123456789012:certificate/eb065ea0-26f9-4e75-a6ce-0a1a7EXAMPLE",
        "EndpointDomain": "my-ava-app.edge-00c3372d53b1540bb.vai-0ce000c0b7643abea.prod.verified-access.us-east-2.amazonaws.com",
        "SecurityGroupIds": [
            "sg-004915970c4c8f13a"
        ],
        "NetworkInterfaceOptions": {
            "NetworkInterfaceId": "eni-0aec70418c8d87a0f",
            "Protocol": "https",
            "Port": 443
        },
        "Status": {
            "Code": "deleting"
        },
        "Description": "Testing Verified Access",
        "CreationTime": "2023-08-25T20:54:43",
        "LastUpdatedTime": "2023-08-25T22:46:32"
    }
}
```
Untuk informasi selengkapnya, lihat [Titik akhir Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-endpoints.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [DeleteVerifiedAccessEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-verified-access-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-verified-access-group`
<a name="ec2_DeleteVerifiedAccessGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-verified-access-group`.

**AWS CLI**  
**Untuk menghapus grup Akses Terverifikasi**  
`delete-verified-access-group`Contoh berikut menghapus grup Akses Terverifikasi yang ditentukan.  

```
aws ec2 delete-verified-access-group \
    --verified-access-group-id vagr-0dbe967baf14b7235
```
Output:  

```
{
    "VerifiedAccessGroup": {
        "VerifiedAccessGroupId": "vagr-0dbe967baf14b7235",
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "Description": "Testing Verified Access",
        "Owner": "123456789012",
        "VerifiedAccessGroupArn": "arn:aws:ec2:us-east-2:123456789012:verified-access-group/vagr-0dbe967baf14b7235",
        "CreationTime": "2023-08-25T19:55:19",
        "LastUpdatedTime": "2023-08-25T22:49:03",
        "DeletionTime": "2023-08-26T00:58:31"
    }
}
```
Untuk informasi selengkapnya, lihat [Grup Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-groups.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [DeleteVerifiedAccessGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-verified-access-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-verified-access-instance`
<a name="ec2_DeleteVerifiedAccessInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-verified-access-instance`.

**AWS CLI**  
**Untuk menghapus instans Akses Terverifikasi**  
`delete-verified-access-instance`Contoh berikut menghapus instance Akses Terverifikasi yang ditentukan.  

```
aws ec2 delete-verified-access-instance \
    --verified-access-instance-id vai-0ce000c0b7643abea
```
Output:  

```
{
    "VerifiedAccessInstance": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "Description": "Testing Verified Access",
        "VerifiedAccessTrustProviders": [],
        "CreationTime": "2023-08-25T18:27:56",
        "LastUpdatedTime": "2023-08-26T01:00:18"
    }
}
```
Untuk informasi selengkapnya, lihat [Instans Akses Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-instances.html) di *Panduan Pengguna Akses AWS Terverifikasi*.  
+  Untuk detail API, lihat [DeleteVerifiedAccessInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-verified-access-instance.html)di *Referensi AWS CLI Perintah*. 

### `delete-verified-access-trust-provider`
<a name="ec2_DeleteVerifiedAccessTrustProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-verified-access-trust-provider`.

**AWS CLI**  
**Untuk menghapus penyedia kepercayaan Akses Terverifikasi**  
`delete-verified-access-trust-provider`Contoh berikut menghapus penyedia kepercayaan Akses Terverifikasi yang ditentukan.  

```
aws ec2 delete-verified-access-trust-provider \
    --verified-access-trust-provider-id vatp-0bb32de759a3e19e7
```
Output:  

```
{
    "VerifiedAccessTrustProvider": {
        "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
        "Description": "Testing Verified Access",
        "TrustProviderType": "user",
        "UserTrustProviderType": "iam-identity-center",
        "PolicyReferenceName": "idc",
        "CreationTime": "2023-08-25T18:40:36",
        "LastUpdatedTime": "2023-08-25T18:40:36"
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kepercayaan untuk Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/trust-providers.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [DeleteVerifiedAccessTrustProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-verified-access-trust-provider.html)di *Referensi AWS CLI Perintah*. 

### `delete-volume`
<a name="ec2_DeleteVolume_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-volume`.

**AWS CLI**  
**Untuk menghapus volume**  
Perintah contoh ini menghapus volume yang tersedia dengan ID volume dari. `vol-049df61146c4d7901` Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-volume --volume-id vol-049df61146c4d7901
```
+  Untuk detail API, lihat [DeleteVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-volume.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpc-endpoint-connection-notifications`
<a name="ec2_DeleteVpcEndpointConnectionNotifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpc-endpoint-connection-notifications`.

**AWS CLI**  
**Untuk menghapus pemberitahuan koneksi titik akhir**  
Contoh ini menghapus pemberitahuan koneksi titik akhir yang ditentukan.  
Perintah:  

```
aws ec2 delete-vpc-endpoint-connection-notifications --connection-notification-ids vpce-nfn-008776de7e03f5abc
```
Output:  

```
{
  "Unsuccessful": []
}
```
+  Untuk detail API, lihat [DeleteVpcEndpointConnectionNotifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpc-endpoint-connection-notifications.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpc-endpoint-service-configurations`
<a name="ec2_DeleteVpcEndpointServiceConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpc-endpoint-service-configurations`.

**AWS CLI**  
**Untuk menghapus konfigurasi layanan endpoint**  
Contoh ini menghapus konfigurasi layanan endpoint yang ditentukan.  
Perintah:  

```
aws ec2 delete-vpc-endpoint-service-configurations --service-ids vpce-svc-03d5ebb7d9579a2b3
```
Output:  

```
{
   "Unsuccessful": []
}
```
+  Untuk detail API, lihat [DeleteVpcEndpointServiceConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpc-endpoint-service-configurations.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpc-endpoints`
<a name="ec2_DeleteVpcEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpc-endpoints`.

**AWS CLI**  
**Untuk menghapus titik akhir**  
Contoh ini menghapus titik akhir vpce-aa22bb33 dan vpce-1a2b3c4d. Jika perintah sebagian berhasil atau tidak berhasil, daftar item yang gagal dikembalikan. Jika perintah berhasil, daftar yang dikembalikan kosong.  
Perintah:  

```
aws ec2 delete-vpc-endpoints --vpc-endpoint-ids vpce-aa22bb33 vpce-1a2b3c4d
```
Output:  

```
{
  "Unsuccessful": []
}
```
+  Untuk detail API, lihat [DeleteVpcEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpc-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpc-peering-connection`
<a name="ec2_DeleteVpcPeeringConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpc-peering-connection`.

**AWS CLI**  
**Untuk menghapus koneksi peering VPC**  
Contoh ini menghapus koneksi peering VPC yang ditentukan.  
Perintah:  

```
aws ec2 delete-vpc-peering-connection --vpc-peering-connection-id pcx-1a2b3c4d
```
Output:  

```
{
    "Return": true
}
```
+  Untuk detail API, lihat [DeleteVpcPeeringConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpc-peering-connection.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpc`
<a name="ec2_DeleteVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpc`.

**AWS CLI**  
**Untuk menghapus VPC**  
Contoh ini menghapus VPC yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-vpc --vpc-id vpc-a01106c2
```
+  Untuk detail API, lihat [DeleteVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpc.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpn-connection-route`
<a name="ec2_DeleteVpnConnectionRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpn-connection-route`.

**AWS CLI**  
**Untuk menghapus rute statis dari koneksi VPN**  
Contoh ini menghapus rute statis yang ditentukan dari koneksi VPN yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-vpn-connection-route --vpn-connection-id vpn-40f41529 --destination-cidr-block 11.12.0.0/16
```
+  Untuk detail API, lihat [DeleteVpnConnectionRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpn-connection-route.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpn-connection`
<a name="ec2_DeleteVpnConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpn-connection`.

**AWS CLI**  
**Untuk menghapus koneksi VPN**  
Contoh ini menghapus koneksi VPN yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-vpn-connection --vpn-connection-id vpn-40f41529
```
+  Untuk detail API, lihat [DeleteVpnConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpn-connection.html)di *Referensi AWS CLI Perintah*. 

### `delete-vpn-gateway`
<a name="ec2_DeleteVpnGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vpn-gateway`.

**AWS CLI**  
**Untuk menghapus gateway pribadi virtual**  
Contoh ini menghapus gateway pribadi virtual yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 delete-vpn-gateway --vpn-gateway-id vgw-9a4cacf3
```
+  Untuk detail API, lihat [DeleteVpnGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpn-gateway.html)di *Referensi AWS CLI Perintah*. 

### `deprovision-byoip-cidr`
<a name="ec2_DeprovisionByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deprovision-byoip-cidr`.

**AWS CLI**  
**Untuk menghapus rentang alamat IP dari penggunaan**  
Contoh berikut menghapus rentang alamat yang ditentukan dari penggunaan dengan AWS.  

```
aws ec2 deprovision-byoip-cidr \
    --cidr 203.0.113.25/24
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "203.0.113.25/24",
        "State": "pending-deprovision"
    }
}
```
+  Untuk detail API, lihat [DeprovisionByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/deprovision-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `deprovision-ipam-pool-cidr`
<a name="ec2_DeprovisionIpamPoolCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deprovision-ipam-pool-cidr`.

**AWS CLI**  
**Untuk menghentikan penyediaan CIDR kolam IPAM**  
`deprovision-ipam-pool-cidr`Contoh berikut membatalkan ketentuan CIDR yang disediakan ke kolam IPAM.  
(Linux):  

```
aws ec2 deprovision-ipam-pool-cidr \
    --ipam-pool-id ipam-pool-02ec043a19bbe5d08 \
    --cidr 11.0.0.0/16
```
(Windows):  

```
aws ec2 deprovision-ipam-pool-cidr ^
    --ipam-pool-id ipam-pool-02ec043a19bbe5d08 ^
    --cidr 11.0.0.0/16
```
Output:  

```
{
    "IpamPoolCidr": {
        "Cidr": "11.0.0.0/16",
        "State": "pending-deprovision"
    }
}
```
Untuk informasi selengkapnya, lihat [kumpulan Deprovision CIDRs](https://docs.aws.amazon.com/vpc/latest/ipam/depro-pool-cidr-ipam.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [DeprovisionIpamPoolCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/deprovision-ipam-pool-cidr.html)di *Referensi AWS CLI Perintah*. 

### `deregister-image`
<a name="ec2_DeregisterImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-image`.

**AWS CLI**  
**Untuk membatalkan pendaftaran AMI**  
Contoh ini membatalkan pendaftaran AMI yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 deregister-image --image-id ami-4fa54026
```
+  Untuk detail API, lihat [DeregisterImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/deregister-image.html)di *Referensi AWS CLI Perintah*. 

### `deregister-instance-event-notification-attributes`
<a name="ec2_DeregisterInstanceEventNotificationAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-instance-event-notification-attributes`.

**AWS CLI**  
**Contoh 1: Untuk menghapus semua tag dari pemberitahuan acara**  
`deregister-instance-event-notification-attributes`Contoh berikut menghapus`IncludeAllTagsOfInstance=true`, yang memiliki efek pengaturan `IncludeAllTagsOfInstance` ke`false`.  

```
aws ec2 deregister-instance-event-notification-attributes \
    --instance-tag-attribute IncludeAllTagsOfInstance=true
```
Output:  

```
{
    "InstanceTagAttribute": {
        "InstanceTagKeys": [],
        "IncludeAllTagsOfInstance": true
    }
}
```
Untuk informasi selengkapnya, lihat [Acara terjadwal untuk instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/monitoring-instances-status-check_sched.html) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
**Contoh 2: Untuk menghapus tag tertentu dari pemberitahuan acara**  
`deregister-instance-event-notification-attributes`Contoh berikut menghapus tag yang ditentukan dari tag yang disertakan dalam pemberitahuan acara. Untuk menjelaskan tag yang tersisa yang disertakan dalam pemberitahuan acara, gunakan`describe-instance-event-notification-attributes`.  

```
aws ec2 deregister-instance-event-notification-attributes \
    --instance-tag-attribute InstanceTagKeys="tag-key2"
```
Output:  

```
{
    "InstanceTagAttribute": {
        "InstanceTagKeys": [
            "tag-key2"
        ],
        "IncludeAllTagsOfInstance": false
    }
}
```
Untuk informasi selengkapnya, lihat [Acara terjadwal untuk instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/monitoring-instances-status-check_sched.html) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DeregisterInstanceEventNotificationAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/deregister-instance-event-notification-attributes.html)di *Referensi AWS CLI Perintah*. 

### `deregister-transit-gateway-multicast-group-members`
<a name="ec2_DeregisterTransitGatewayMulticastGroupMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-transit-gateway-multicast-group-members`.

**AWS CLI**  
**Untuk membatalkan pendaftaran anggota grup dari grup multicast**  
Contoh ini membatalkan pendaftaran anggota grup antarmuka jaringan yang ditentukan dari grup multicast gateway transit.  

```
aws ec2 deregister-transit-gateway-multicast-group-members \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef7EXAMPLE \
    --group-ip-address 224.0.1.0 \
    --network-interface-ids eni-0e246d3269EXAMPLE
```
Output:  

```
{
    "DeregisteredMulticastGroupMembers": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-0c4905cef7EXAMPLE",
        "RegisteredNetworkInterfaceIds": [
            "eni-0e246d3269EXAMPLE"
        ],
        "GroupIpAddress": "224.0.1.0"
    }
}
```
*Untuk informasi selengkapnya, lihat [membatalkan pendaftaran Anggota dari Grup Multicast](https://docs.aws.amazon.com/vpc/latest/tgw/working-with-multicast.html#remove-members-multicast-group) di Panduan Pengguna Transit Gateways.AWS *  
+  Untuk detail API, lihat [DeregisterTransitGatewayMulticastGroupMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/deregister-transit-gateway-multicast-group-members.html)di *Referensi AWS CLI Perintah*. 

### `deregister-transit-gateway-multicast-group-source`
<a name="ec2_DeregisterTransitGatewayMulticastGroupSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-transit-gateway-multicast-group-source`.

**AWS CLI**  
**Untuk membatalkan pendaftaran sumber dari grup multicast gateway transit**  
Contoh ini membatalkan pendaftaran sumber grup antarmuka jaringan yang ditentukan dari grup multicast.  

```
aws ec2 register-transit-gateway-multicast-group-sources \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef79d6e597 \
    --group-ip-address 224.0.1.0 \
    --network-interface-ids eni-07f290fc3c090cbae
```
Output:  

```
{
    "DeregisteredMulticastGroupSources": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-0c4905cef79d6e597",
        "DeregisteredNetworkInterfaceIds": [
            "eni-07f290fc3c090cbae"
        ],
        "GroupIpAddress": "224.0.1.0"
    }
}
```
*Untuk informasi selengkapnya, lihat [Deregister Sources from a Multicast Group](https://docs.aws.amazon.com/vpc/latest/tgw/working-with-multicast.html#remove-source-multicast-group) di Panduan Pengguna Transit Gateways.AWS *  
+  Untuk detail API, lihat [DeregisterTransitGatewayMulticastGroupSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/deregister-transit-gateway-multicast-group-source.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-attributes`
<a name="ec2_DescribeAccountAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-attributes`.

**AWS CLI**  
**Untuk menjelaskan semua atribut untuk AWS akun Anda**  
Contoh ini menjelaskan atribut untuk AWS akun Anda.  
Perintah:  

```
aws ec2 describe-account-attributes
```
Output:  

```
{
    "AccountAttributes": [
        {
            "AttributeName": "vpc-max-security-groups-per-interface",
            "AttributeValues": [
                {
                    "AttributeValue": "5"
                }
            ]
        },
        {
            "AttributeName": "max-instances",
            "AttributeValues": [
                {
                    "AttributeValue": "20"
                }
            ]
        },
        {
            "AttributeName": "supported-platforms",
            "AttributeValues": [
                {
                    "AttributeValue": "EC2"
                },
                {
                    "AttributeValue": "VPC"
                }
            ]
        },
        {
            "AttributeName": "default-vpc",
            "AttributeValues": [
                {
                    "AttributeValue": "none"
                }
            ]
        },
        {
            "AttributeName": "max-elastic-ips",
            "AttributeValues": [
                {
                    "AttributeValue": "5"
                }
            ]
        },
        {
            "AttributeName": "vpc-max-elastic-ips",
            "AttributeValues": [
                {
                    "AttributeValue": "5"
                }
            ]
        }
    ]
}
```
**Untuk mendeskripsikan satu atribut untuk AWS akun Anda**  
Contoh ini menjelaskan `supported-platforms` atribut untuk AWS akun Anda.  
Perintah:  

```
aws ec2 describe-account-attributes --attribute-names supported-platforms
```
Output:  

```
{
    "AccountAttributes": [
        {
            "AttributeName": "supported-platforms",
            "AttributeValues": [
                {
                    "AttributeValue": "EC2"
                },
                {
                    "AttributeValue": "VPC"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAccountAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-account-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-address-transfers`
<a name="ec2_DescribeAddressTransfers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-address-transfers`.

**AWS CLI**  
**Untuk menggambarkan transfer alamat IP Elastis**  
`describe-address-transfers`Contoh berikut menjelaskan transfer alamat IP Elastis untuk alamat IP Elastis yang ditentukan.  

```
aws ec2 describe-address-transfers \
    --allocation-ids eipalloc-09ad461b0d03f6aaf
```
Output:  

```
{
    "AddressTransfers": [
        {
            "PublicIp": "100.21.184.216",
            "AllocationId": "eipalloc-09ad461b0d03f6aaf",
            "TransferAccountId": "123456789012",
            "TransferOfferExpirationTimestamp": "2023-02-22T22:51:01.000Z",
            "AddressTransferStatus": "pending"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mentransfer alamat IP Elastis](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-eips.html#transfer-EIPs-intro) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DescribeAddressTransfers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-address-transfers.html)di *Referensi AWS CLI Perintah*. 

### `describe-addresses-attribute`
<a name="ec2_DescribeAddressesAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-addresses-attribute`.

**AWS CLI**  
**Untuk melihat atribut nama domain yang terkait dengan alamat IP elastis**  
`describe-addresses-attribute`Contoh berikut mengembalikan atribut nama domain yang terkait dengan alamat IP elastis.  
Linux:  

```
aws ec2 describe-addresses-attribute \
    --allocation-ids eipalloc-abcdef01234567890 \
    --attribute domain-name
```
Windows:  

```
aws ec2 describe-addresses-attribute ^
    --allocation-ids eipalloc-abcdef01234567890 ^
    --attribute domain-name
```
Output:  

```
{
    "Addresses": [
        {
            "PublicIp": "192.0.2.0",
            "AllocationId": "eipalloc-abcdef01234567890",
            "PtrRecord": "example.com."
        }
    ]
}
```
Untuk melihat atribut alamat IP elastis, Anda harus terlebih dahulu mengaitkan nama domain dengan alamat IP elastis. Untuk informasi selengkapnya, lihat [Menggunakan DNS terbalik untuk aplikasi email](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html#Using_Elastic_Addressing_Reverse_DNS) di Panduan *Pengguna Amazon EC2 [modify-address-attribute](https://docs.aws.amazon.com/cli/latest/reference/ec2/modify-address-attribute.html)*atau di Referensi Perintah *AWS CLI*.  
+  Untuk detail API, lihat [DescribeAddressesAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-addresses-attribute.html)di *Referensi AWS CLI Perintah*. 

### `describe-addresses`
<a name="ec2_DescribeAddresses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-addresses`.

**AWS CLI**  
**Contoh 1: Untuk mengambil detail tentang semua alamat IP Elastis Anda**  
Contoh `describe addresses` berikut menampilkan detail tentang alamat IP Elastis Anda.  

```
aws ec2 describe-addresses
```
Output:  

```
{
    "Addresses": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "PublicIp": "198.51.100.0",
            "PublicIpv4Pool": "amazon",
            "Domain": "standard"
        },
        {
            "Domain": "vpc",
            "PublicIpv4Pool": "amazon",
            "InstanceId": "i-1234567890abcdef0",
            "NetworkInterfaceId": "eni-12345678",
            "AssociationId": "eipassoc-12345678",
            "NetworkInterfaceOwnerId": "123456789012",
            "PublicIp": "203.0.113.0",
            "AllocationId": "eipalloc-12345678",
            "PrivateIpAddress": "10.0.1.241"
        }
    ]
}
```
**Contoh 2: Guna mengambil detail alamat IP Elastis Anda untuk EC2-VPC**  
Contoh `describe-addresses` berikut menampilkan detail tentang alamat IP Elastis Anda untuk digunakan dengan instans di VPC.  

```
aws ec2 describe-addresses \
    --filters "Name=domain,Values=vpc"
```
Output:  

```
{
    "Addresses": [
        {
            "Domain": "vpc",
            "PublicIpv4Pool": "amazon",
            "InstanceId": "i-1234567890abcdef0",
            "NetworkInterfaceId": "eni-12345678",
            "AssociationId": "eipassoc-12345678",
            "NetworkInterfaceOwnerId": "123456789012",
            "PublicIp": "203.0.113.0",
            "AllocationId": "eipalloc-12345678",
            "PrivateIpAddress": "10.0.1.241"
        }
    ]
}
```
**Contoh 3: Untuk mengambil detail tentang alamat IP Elastis yang ditentukan oleh ID alokasi**  
Contoh `describe-addresses` berikut menampilkan detail tentang alamat IP Elastis dengan ID alokasi tertentu, yang dikaitkan dengan instans di EC2-VPC.  

```
aws ec2 describe-addresses \
    --allocation-ids eipalloc-282d9641
```
Output:  

```
{
    "Addresses": [
        {
            "Domain": "vpc",
            "PublicIpv4Pool": "amazon",
            "InstanceId": "i-1234567890abcdef0",
            "NetworkInterfaceId": "eni-1a2b3c4d",
            "AssociationId": "eipassoc-123abc12",
            "NetworkInterfaceOwnerId": "1234567891012",
            "PublicIp": "203.0.113.25",
            "AllocationId": "eipalloc-282d9641",
            "PrivateIpAddress": "10.251.50.12"
        }
    ]
}
```
**Contoh 4: Untuk mengambil detail tentang alamat IP Elastis yang ditentukan oleh alamat IP privat VPC-nya**  
Contoh `describe-addresses` berikut menampilkan detail tentang alamat IP Elastis yang terkait dengan alamat IP privat tertentu di EC2-VPC.  

```
aws ec2 describe-addresses \
    --filters "Name=private-ip-address,Values=10.251.50.12"
```
**Contoh 5: Untuk mengambil detail tentang alamat IP Elastis di EC2-Classic**  
`describe-addresses`Contoh berikut menampilkan detail tentang alamat IP Elastis Anda untuk digunakan di EC2-Classic.  

```
aws ec2 describe-addresses \
    --filters "Name=domain,Values=standard"
```
Output:  

```
{
    "Addresses": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "PublicIp": "203.0.110.25",
            "PublicIpv4Pool": "amazon",
            "Domain": "standard"
        }
    ]
}
```
**Contoh 6: Untuk mengambil detail tentang alamat IP Elastis yang ditentukan oleh alamat IP publiknya**  
Contoh `describe-addresses` berikut menampilkan detail tentang alamat IP Elastis dengan nilai `203.0.110.25`, yang dikaitkan dengan instans di EC2-Classic.  

```
aws ec2 describe-addresses \
    --public-ips 203.0.110.25
```
Output:  

```
{
    "Addresses": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "PublicIp": "203.0.110.25",
            "PublicIpv4Pool": "amazon",
            "Domain": "standard"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-addresses.html)di *Referensi AWS CLI Perintah*. 

### `describe-aggregate-id-format`
<a name="ec2_DescribeAggregateIdFormat_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-aggregate-id-format`.

**AWS CLI**  
**Untuk menjelaskan setelan format ID yang lebih panjang untuk semua jenis sumber daya di Wilayah**  
`describe-aggregate-id-format`Contoh berikut menjelaskan status format ID panjang keseluruhan untuk Wilayah saat ini. `Deadline`Nilai menunjukkan bahwa tenggat waktu untuk sumber daya ini untuk secara permanen beralih dari format ID pendek ke format ID panjang kedaluwarsa. `UseLongIdsAggregated`Nilai menunjukkan bahwa semua pengguna IAM dan peran IAM dikonfigurasi untuk menggunakan format ID panjang untuk semua jenis sumber daya.  

```
aws ec2 describe-aggregate-id-format
```
Output:  

```
{
    "UseLongIdsAggregated": true,
    "Statuses": [
        {
            "Deadline": "2018-08-13T02:00:00.000Z",
            "Resource": "network-interface-attachment",
            "UseLongIds": true
        },
        {
            "Deadline": "2016-12-13T02:00:00.000Z",
            "Resource": "instance",
            "UseLongIds": true
        },
        {
            "Deadline": "2018-08-13T02:00:00.000Z",
            "Resource": "elastic-ip-association",
            "UseLongIds": true
        },
        ...
    ]
}
```
+  Untuk detail API, lihat [DescribeAggregateIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-aggregate-id-format.html)di *Referensi AWS CLI Perintah*. 

### `describe-availability-zones`
<a name="ec2_DescribeAvailabilityZones_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-availability-zones`.

**AWS CLI**  
**Untuk menjelaskan Zona Ketersediaan Anda**  
Contoh `describe-availability-zones` berikut menampilkan detail untuk Zona Ketersediaan yang tersedia untuk Anda. Responsnya mencakup Zona Ketersediaan hanya untuk Wilayah saat ini. Dalam contoh ini, respons menggunakan default profil Wilayah `us-west-2` (Oregon).  

```
aws ec2 describe-availability-zones
```
Output:  

```
{
    "AvailabilityZones": [
        {
            "State": "available",
            "OptInStatus": "opt-in-not-required",
            "Messages": [],
            "RegionName": "us-west-2",
            "ZoneName": "us-west-2a",
            "ZoneId": "usw2-az1",
            "GroupName": "us-west-2",
            "NetworkBorderGroup": "us-west-2"
        },
        {
            "State": "available",
            "OptInStatus": "opt-in-not-required",
            "Messages": [],
            "RegionName": "us-west-2",
            "ZoneName": "us-west-2b",
            "ZoneId": "usw2-az2",
            "GroupName": "us-west-2",
            "NetworkBorderGroup": "us-west-2"
        },
        {
            "State": "available",
            "OptInStatus": "opt-in-not-required",
            "Messages": [],
            "RegionName": "us-west-2",
            "ZoneName": "us-west-2c",
            "ZoneId": "usw2-az3",
            "GroupName": "us-west-2",
            "NetworkBorderGroup": "us-west-2"
        },
        {
            "State": "available",
            "OptInStatus": "opt-in-not-required",
            "Messages": [],
            "RegionName": "us-west-2",
            "ZoneName": "us-west-2d",
            "ZoneId": "usw2-az4",
            "GroupName": "us-west-2",
            "NetworkBorderGroup": "us-west-2"
        },
        {
            "State": "available",
            "OptInStatus": "opted-in",
            "Messages": [],
            "RegionName": "us-west-2",
            "ZoneName": "us-west-2-lax-1a",
            "ZoneId": "usw2-lax1-az1",
            "GroupName": "us-west-2-lax-1",
            "NetworkBorderGroup": "us-west-2-lax-1"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAvailabilityZones](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-availability-zones.html)di *Referensi AWS CLI Perintah*. 

### `describe-aws-network-performance-metric-subscription`
<a name="ec2_DescribeAwsNetworkPerformanceMetricSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-aws-network-performance-metric-subscription`.

**AWS CLI**  
**Untuk mendeskripsikan langganan metrik Anda**  
`describe-aws-network-performance-metric-subscriptions`Contoh berikut menjelaskan langganan metrik Anda.  

```
aws ec2 describe-aws-network-performance-metric-subscriptions
```
Output:  

```
{
    "Subscriptions": [
        {
            "Source": "us-east-1",
            "Destination": "eu-west-1",
            "Metric": "aggregate-latency",
            "Statistic": "p50",
            "Period": "five-minutes"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola langganan](https://docs.aws.amazon.com/network-manager/latest/infrastructure-performance/nmip-subscriptions-cw.html) di *Panduan Pengguna Kinerja Infrastruktur*.  
+  Untuk detail API, lihat [DescribeAwsNetworkPerformanceMetricSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-aws-network-performance-metric-subscription.html)di *Referensi AWS CLI Perintah*. 

### `describe-aws-network-performance-metric-subscriptions`
<a name="ec2_DescribeAwsNetworkPerformanceMetricSubscriptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-aws-network-performance-metric-subscriptions`.

**AWS CLI**  
**Untuk mendeskripsikan langganan metrik Anda**  
`describe-aws-network-performance-metric-subscriptions`Contoh berikut menjelaskan langganan metrik Anda.  

```
aws ec2 describe-aws-network-performance-metric-subscriptions
```
Output:  

```
{
    "Subscriptions": [
        {
            "Source": "us-east-1",
            "Destination": "eu-west-1",
            "Metric": "aggregate-latency",
            "Statistic": "p50",
            "Period": "five-minutes"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola langganan](https://docs.aws.amazon.com/network-manager/latest/infrastructure-performance/nmip-subscriptions-cw.html) di *Panduan Pengguna Kinerja Infrastruktur*.  
+  Untuk detail API, lihat [DescribeAwsNetworkPerformanceMetricSubscriptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-aws-network-performance-metric-subscriptions.html)di *Referensi AWS CLI Perintah*. 

### `describe-bundle-tasks`
<a name="ec2_DescribeBundleTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-bundle-tasks`.

**AWS CLI**  
**Untuk mendeskripsikan tugas bundel Anda**  
Contoh ini menjelaskan semua tugas bundel Anda.  
Perintah:  

```
aws ec2 describe-bundle-tasks
```
Output:  

```
{
  "BundleTasks": [
    {
      "UpdateTime": "2015-09-15T13:26:54.000Z",
      "InstanceId": "i-1234567890abcdef0",
      "Storage": {
        "S3": {
            "Prefix": "winami",
            "Bucket": "bundletasks"
        }
      },
      "State": "bundling",
      "StartTime": "2015-09-15T13:24:35.000Z",
      "Progress": "3%",
      "BundleId": "bun-2a4e041c"
    }
  ]
}
```
+  Untuk detail API, lihat [DescribeBundleTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-bundle-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-byoip-cidrs`
<a name="ec2_DescribeByoipCidrs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-byoip-cidrs`.

**AWS CLI**  
**Untuk mendeskripsikan rentang alamat yang Anda berikan**  
`describe-byoip-cidrs`Contoh berikut menampilkan rincian tentang rentang IPv4 alamat publik yang Anda sediakan untuk digunakan oleh. AWS  

```
aws ec2 describe-byoip-cidrs
```
Output:  

```
{
    "ByoipCidrs": [
        {
            "Cidr": "203.0.113.25/24",
            "StatusMessage": "ipv4pool-ec2-1234567890abcdef0",
            "State": "provisioned"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeByoipCidrs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-byoip-cidrs.html)di *Referensi AWS CLI Perintah*. 

### `describe-capacity-reservation-fleets`
<a name="ec2_DescribeCapacityReservationFleets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-capacity-reservation-fleets`.

**AWS CLI**  
**Untuk melihat Armada Reservasi Kapasitas**  
`describe-capacity-reservation-fleets`Contoh berikut mencantumkan informasi konfigurasi dan kapasitas untuk Armada Reservasi Kapasitas yang ditentukan. Ini juga mencantumkan rincian tentang Reservasi Kapasitas individu yang ada di dalam Armada.  

```
aws ec2 describe-capacity-reservation-fleets \
    --capacity-reservation-fleet-ids crf-abcdef01234567890
```
Output:  

```
{
    "CapacityReservationFleets": [
        {
            "State": "active",
            "EndDate": "2022-12-31T23:59:59.000Z",
            "InstanceMatchCriteria": "open",
            "Tags": [],
            "CapacityReservationFleetId": "crf-abcdef01234567890",
            "Tenancy": "default",
            "InstanceTypeSpecifications": [
                {
                    "CapacityReservationId": "cr-1234567890abcdef0",
                    "AvailabilityZone": "us-east-1a",
                    "FulfilledCapacity": 5.0,
                    "Weight": 1.0,
                    "CreateDate": "2022-07-02T08:34:33.398Z",
                    "InstancePlatform": "Linux/UNIX",
                    "TotalInstanceCount": 5,
                    "Priority": 1,
                    "EbsOptimized": true,
                    "InstanceType": "m5.xlarge"
                }
            ],
            "TotalTargetCapacity": 5,
            "TotalFulfilledCapacity": 5.0,
            "CreateTime": "2022-07-02T08:34:33.397Z",
            "AllocationStrategy": "prioritized"
        }
    ]
}
```
Untuk informasi selengkapnya tentang Armada Reservasi [Kapasitas, lihat Armada Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/cr-fleets.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeCapacityReservationFleets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-capacity-reservation-fleets.html)di *Referensi AWS CLI Perintah*. 

### `describe-capacity-reservations`
<a name="ec2_DescribeCapacityReservations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-capacity-reservations`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan satu atau lebih reservasi kapasitas Anda**  
`describe-capacity-reservations`Contoh berikut menampilkan detail tentang semua reservasi kapasitas Anda di AWS Wilayah saat ini.  

```
aws ec2 describe-capacity-reservations
```
Output:  

```
{
    "CapacityReservations": [
        {
            "CapacityReservationId": "cr-1234abcd56EXAMPLE ",
            "OwnerId": "123456789111",
            "CapacityReservationArn": "arn:aws:ec2:us-east-1:123456789111:capacity-reservation/cr-1234abcd56EXAMPLE",
            "AvailabilityZoneId": "use1-az2",
            "InstanceType": "c5.large",
            "InstancePlatform": "Linux/UNIX",
            "AvailabilityZone": "us-east-1a",
            "Tenancy": "default",
            "TotalInstanceCount": 1,
            "AvailableInstanceCount": 1,
            "EbsOptimized": true,
            "EphemeralStorage": false,
            "State": "active",
            "StartDate": "2024-10-23T15:00:24+00:00",
            "EndDateType": "unlimited",
            "InstanceMatchCriteria": "open",
            "CreateDate": "2024-10-23T15:00:24+00:00",
            "Tags": [],
            "CapacityAllocations": []
        },
        {
            "CapacityReservationId": "cr-abcdEXAMPLE9876ef ",
            "OwnerId": "123456789111",
            "CapacityReservationArn": "arn:aws:ec2:us-east-1:123456789111:capacity-reservation/cr-abcdEXAMPLE9876ef",
            "AvailabilityZoneId": "use1-az2",
            "InstanceType": "c4.large",
            "InstancePlatform": "Linux/UNIX",
            "AvailabilityZone": "us-east-1a",
            "Tenancy": "default",
            "TotalInstanceCount": 1,
            "AvailableInstanceCount": 1,
            "EbsOptimized": true,
            "EphemeralStorage": false,
            "State": "cancelled",
            "StartDate": "2024-10-23T15:01:03+00:00",
            "EndDateType": "unlimited",
            "InstanceMatchCriteria": "open",
            "CreateDate": "2024-10-23T15:01:02+00:00",
            "Tags": [],
            "CapacityAllocations": []
        }
    ]
}
```
**Contoh 2: Untuk menggambarkan satu atau lebih reservasi kapasitas Anda**  
`describe-capacity-reservations`Contoh berikut menampilkan rincian tentang reservasi kapasitas yang ditentukan.  

```
aws ec2 describe-capacity-reservations \
    --capacity-reservation-ids cr-1234abcd56EXAMPLE
```
Output:  

```
{
    "CapacityReservations": [
        {
            "CapacityReservationId": "cr-abcdEXAMPLE9876ef ",
            "OwnerId": "123456789111",
            "CapacityReservationArn": "arn:aws:ec2:us-east-1:123456789111:capacity-reservation/cr-abcdEXAMPLE9876ef",
            "AvailabilityZoneId": "use1-az2",
            "InstanceType": "c4.large",
            "InstancePlatform": "Linux/UNIX",
            "AvailabilityZone": "us-east-1a",
            "Tenancy": "default",
            "TotalInstanceCount": 1,
            "AvailableInstanceCount": 1,
            "EbsOptimized": true,
            "EphemeralStorage": false,
            "State": "active",
            "StartDate": "2024-10-23T15:01:03+00:00",
            "EndDateType": "unlimited",
            "InstanceMatchCriteria": "open",
            "CreateDate": "2024-10-23T15:01:02+00:00",
            "Tags": [],
            "CapacityAllocations": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-using.html#capacity-reservations-view) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DescribeCapacityReservations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-capacity-reservations.html)di *Referensi AWS CLI Perintah*. 

### `describe-carrier-gateways`
<a name="ec2_DescribeCarrierGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-carrier-gateways`.

**AWS CLI**  
**Untuk menggambarkan semua gateway operator**  
`describe-carrier-gateways`Contoh berikut mencantumkan semua gateway operator Anda.  

```
aws ec2 describe-carrier-gateways
```
Output:  

```
{
    "CarrierGateways": [
        {
            "CarrierGatewayId": "cagw-0465cdEXAMPLE1111",
            "VpcId": "vpc-0c529aEXAMPLE",
            "State": "available",
            "OwnerId": "123456789012",
            "Tags": [
                {

                    "Key": "example",
                    "Value": "tag"
                }
            ]
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat Gateway operator< https://docs.aws.amazon.com/vpc/ latest/userguide/Carrier \$1gateway.html> di Panduan Pengguna Amazon Virtual Private Cloud.*  
+  Untuk detail API, lihat [DescribeCarrierGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-carrier-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-classic-link-instances`
<a name="ec2_DescribeClassicLinkInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-classic-link-instances`.

**AWS CLI**  
**Untuk mendeskripsikan instance EC2-Classic yang ditautkan**  
Contoh ini mencantumkan semua instans EC2-Classic yang ditautkan.  
Perintah:  

```
aws ec2 describe-classic-link-instances
```
Output:  

```
{
        "Instances": [
                {
                        "InstanceId": "i-1234567890abcdef0",
                        "VpcId": "vpc-88888888",
                        "Groups": [
                                {
                                        "GroupId": "sg-11122233"
                                }
                        ],
                        "Tags": [
                                {
                                        "Value": "ClassicInstance",
                                        "Key": "Name"
                                }
                        ]
                },
                {
                        "InstanceId": "i-0598c7d356eba48d7",
                        "VpcId": "vpc-12312312",
                        "Groups": [
                                {
                                        "GroupId": "sg-aabbccdd"
                                }
                        ],
                        "Tags": [
                                {
                                        "Value": "ClassicInstance2",
                                        "Key": "Name"
                                }
                        ]
                }
        ]
}
```
Contoh ini mencantumkan semua instans EC2-Classic yang ditautkan, dan memfilter respons agar hanya menyertakan instance yang ditautkan ke VPC vpc-88888888.  
Perintah:  

```
aws ec2 describe-classic-link-instances --filter "Name=vpc-id,Values=vpc-88888888"
```
Output:  

```
{
        "Instances": [
                {
                        "InstanceId": "i-1234567890abcdef0",
                        "VpcId": "vpc-88888888",
                        "Groups": [
                                {
                                        "GroupId": "sg-11122233"
                                }
                        ],
                        "Tags": [
                                {
                                        "Value": "ClassicInstance",
                                        "Key": "Name"
                                }
                        ]
                }
        ]
}
```
+  Untuk detail API, lihat [DescribeClassicLinkInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-classic-link-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-client-vpn-authorization-rules`
<a name="ec2_DescribeClientVpnAuthorizationRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-client-vpn-authorization-rules`.

**AWS CLI**  
**Untuk menjelaskan aturan otorisasi untuk titik akhir Client VPN**  
`describe-client-vpn-authorization-rules`Contoh berikut menampilkan detail tentang aturan otorisasi untuk titik akhir Client VPN yang ditentukan.  

```
aws ec2 describe-client-vpn-authorization-rules \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde
```
Output:  

```
{
    "AuthorizationRules": [
        {
            "ClientVpnEndpointId": "cvpn-endpoint-123456789123abcde",
            "GroupId": "",
            "AccessAll": true,
            "DestinationCidr": "0.0.0.0/0",
            "Status": {
                "Code": "active"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Aturan Otorisasi](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-rules.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [DescribeClientVpnAuthorizationRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-client-vpn-authorization-rules.html)di *Referensi AWS CLI Perintah*. 

### `describe-client-vpn-connections`
<a name="ec2_DescribeClientVpnConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-client-vpn-connections`.

**AWS CLI**  
**Untuk mendeskripsikan koneksi ke titik akhir Client VPN**  
`describe-client-vpn-connections`Contoh berikut menampilkan detail tentang koneksi klien ke titik akhir Client VPN yang ditentukan.  

```
aws ec2 describe-client-vpn-connections \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde
```
Output:  

```
{
    "Connections": [
        {
            "ClientVpnEndpointId": "cvpn-endpoint-123456789123abcde",
            "Timestamp": "2019-08-12 07:58:34",
            "ConnectionId": "cvpn-connection-0e03eb24267165acd",
            "ConnectionEstablishedTime": "2019-08-12 07:57:14",
            "IngressBytes": "32302",
            "EgressBytes": "5696",
            "IngressPackets": "332",
            "EgressPackets": "67",
            "ClientIp": "172.31.0.225",
            "CommonName": "client1.domain.tld",
            "Status": {
                "Code": "terminated"
            },
            "ConnectionEndTime": "2019-08-12 07:58:34"
        },
        {
            "ClientVpnEndpointId": "cvpn-endpoint-123456789123abcde",
            "Timestamp": "2019-08-12 08:02:54",
            "ConnectionId": "cvpn-connection-00668867a40f18253",
            "ConnectionEstablishedTime": "2019-08-12 08:02:53",
            "IngressBytes": "2951",
            "EgressBytes": "2611",
            "IngressPackets": "9",
            "EgressPackets": "6",
            "ClientIp": "172.31.0.226",
            "CommonName": "client1.domain.tld",
            "Status": {
                "Code": "active"
            },
            "ConnectionEndTime": "-"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Koneksi Klien](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-connections.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [DescribeClientVpnConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-client-vpn-connections.html)di *Referensi AWS CLI Perintah*. 

### `describe-client-vpn-endpoints`
<a name="ec2_DescribeClientVpnEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-client-vpn-endpoints`.

**AWS CLI**  
**Untuk menggambarkan titik akhir Client VPN Anda**  
`describe-client-vpn-endpoints`Contoh berikut menampilkan detail tentang semua titik akhir Client VPN Anda.  

```
aws ec2 describe-client-vpn-endpoints
```
Output:  

```
{
    "ClientVpnEndpoints": [
        {
            "ClientVpnEndpointId": "cvpn-endpoint-123456789123abcde",
            "Description": "Endpoint for Admin access",
            "Status": {
                "Code": "available"
            },
            "CreationTime": "2020-11-13T11:37:27",
            "DnsName": "*.cvpn-endpoint-123456789123abcde.prod.clientvpn.ap-south-1.amazonaws.com",
            "ClientCidrBlock": "172.31.0.0/16",
            "DnsServers": [
                "8.8.8.8"
            ],
            "SplitTunnel": false,
            "VpnProtocol": "openvpn",
            "TransportProtocol": "udp",
            "VpnPort": 443,
            "ServerCertificateArn": "arn:aws:acm:ap-south-1:123456789012:certificate/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "AuthenticationOptions": [
                {
                    "Type": "certificate-authentication",
                    "MutualAuthentication": {
                        "ClientRootCertificateChain": "arn:aws:acm:ap-south-1:123456789012:certificate/a1b2c3d4-5678-90ab-cdef-22222EXAMPLE"
                    }
                }
            ],
            "ConnectionLogOptions": {
                "Enabled": true,
                "CloudwatchLogGroup": "Client-vpn-connection-logs",
                "CloudwatchLogStream": "cvpn-endpoint-123456789123abcde-ap-south-1-2020/11/13-FCD8HEMVaCcw"
            },
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "Client VPN"
                }
            ],
            "SecurityGroupIds": [
                "sg-aabbcc11223344567"
            ],
            "VpcId": "vpc-a87f92c1",
            "SelfServicePortalUrl": "https://self-service.clientvpn.amazonaws.com/endpoints/cvpn-endpoint-123456789123abcde",
            "ClientConnectOptions": {
                 "Enabled": false
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Titik Akhir Client VPN](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-endpoints.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [DescribeClientVpnEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-client-vpn-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `describe-client-vpn-routes`
<a name="ec2_DescribeClientVpnRoutes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-client-vpn-routes`.

**AWS CLI**  
**Untuk mendeskripsikan rute untuk titik akhir Client VPN**  
`describe-client-vpn-routes`Contoh berikut menampilkan detail tentang rute untuk titik akhir Client VPN yang ditentukan.  

```
aws ec2 describe-client-vpn-routes \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde
```
Output:  

```
{
    "Routes": [
        {
            "ClientVpnEndpointId": "cvpn-endpoint-123456789123abcde",
            "DestinationCidr": "10.0.0.0/16",
            "TargetSubnet": "subnet-0123456789abcabca",
            "Type": "Nat",
            "Origin": "associate",
            "Status": {
                "Code": "active"
            },
            "Description": "Default Route"
        },
        {
            "ClientVpnEndpointId": "cvpn-endpoint-123456789123abcde",
            "DestinationCidr": "0.0.0.0/0",
            "TargetSubnet": "subnet-0123456789abcabca",
            "Type": "Nat",
            "Origin": "add-route",
            "Status": {
                "Code": "active"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Rute](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-routes.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [DescribeClientVpnRoutes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-client-vpn-routes.html)di *Referensi AWS CLI Perintah*. 

### `describe-client-vpn-target-networks`
<a name="ec2_DescribeClientVpnTargetNetworks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-client-vpn-target-networks`.

**AWS CLI**  
**Untuk mendeskripsikan jaringan target untuk titik akhir Client VPN**  
`describe-client-vpn-target-networks`Contoh berikut menampilkan detail tentang jaringan target untuk titik akhir Client VPN yang ditentukan.  

```
aws ec2 describe-client-vpn-target-networks \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde
```
Output:  

```
{
    "ClientVpnTargetNetworks": [
        {
            "AssociationId": "cvpn-assoc-012e837060753dc3d",
            "VpcId": "vpc-11111222222333333",
            "TargetNetworkId": "subnet-0123456789abcabca",
            "ClientVpnEndpointId": "cvpn-endpoint-123456789123abcde",
            "Status": {
                "Code": "associating"
            },
            "SecurityGroups": [
                "sg-012345678910abcab"
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Jaringan Target](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-target.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [DescribeClientVpnTargetNetworks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-client-vpn-target-networks.html)di *Referensi AWS CLI Perintah*. 

### `describe-coip-pools`
<a name="ec2_DescribeCoipPools_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-coip-pools`.

**AWS CLI**  
**Untuk menggambarkan kumpulan alamat IP milik pelanggan**  
`describe-coip-pools`Contoh berikut menjelaskan kumpulan alamat IP milik pelanggan di akun Anda AWS .  

```
aws ec2 describe-coip-pools
```
Output:  

```
{
    "CoipPools": [
        {
            "PoolId": "ipv4pool-coip-123a45678bEXAMPLE",
            "PoolCidrs": [
                "0.0.0.0/0"
            ],
            "LocalGatewayRouteTableId": "lgw-rtb-059615ef7dEXAMPLE",
            "PoolArn": "arn:aws:ec2:us-west-2:123456789012:coip-pool/ipv4pool-coip-123a45678bEXAMPLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Alamat IP milik pelanggan](https://docs.aws.amazon.com/outposts/latest/userguide/outposts-networking-components.html#ip-addressing) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [DescribeCoipPools](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-coip-pools.html)di *Referensi AWS CLI Perintah*. 

### `describe-conversion-tasks`
<a name="ec2_DescribeConversionTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-conversion-tasks`.

**AWS CLI**  
**Untuk melihat status tugas konversi**  
Contoh ini mengembalikan status tugas konversi dengan ID import-i-ffvko 9js.  
Perintah:  

```
aws ec2 describe-conversion-tasks --conversion-task-ids import-i-ffvko9js
```
Output:  

```
{
    "ConversionTasks": [
        {
            "ConversionTaskId": "import-i-ffvko9js",
            "ImportInstance": {
                "InstanceId": "i-1234567890abcdef0",
                "Volumes": [
                    {
                        "Volume": {
                            "Id": "vol-049df61146c4d7901",
                            "Size": 16
                        },
                        "Status": "completed",
                        "Image": {
                            "Size": 1300687360,
                            "ImportManifestUrl": "https://s3.amazonaws.com/myimportbucket/411443cd-d620-4f1c-9d66-13144EXAMPLE/RHEL5.vmdkmanifest.xml?AWSAccessKeyId=AKIAIOSFODNN7EXAMPLE&Expires=140EXAMPLE&Signature=XYNhznHNgCqsjDxL9wRL%2FJvEXAMPLE",
                            "Format": "VMDK"
                        },
                        "BytesConverted": 1300682960,
                        "AvailabilityZone": "us-east-1d"
                    }
                ]
            },
            "ExpirationTime": "2014-05-14T22:06:23Z",
            "State": "completed"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeConversionTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-conversion-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-customer-gateways`
<a name="ec2_DescribeCustomerGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-customer-gateways`.

**AWS CLI**  
**Untuk mendeskripsikan gateway pelanggan Anda**  
Contoh ini menjelaskan gateway pelanggan Anda.  
Perintah:  

```
aws ec2 describe-customer-gateways
```
Output:  

```
{
    "CustomerGateways": [
        {
            "CustomerGatewayId": "cgw-b4dc3961",
            "IpAddress": "203.0.113.12",
            "State": "available",
            "Type": "ipsec.1",
            "BgpAsn": "65000"
        },
        {
            "CustomerGatewayId": "cgw-0e11f167",
            "IpAddress": "12.1.2.3",
            "State": "available",
            "Type": "ipsec.1",
            "BgpAsn": "65534"
        }
    ]
}
```
**Untuk menggambarkan gateway pelanggan tertentu**  
Contoh ini menjelaskan gateway pelanggan yang ditentukan.  
Perintah:  

```
aws ec2 describe-customer-gateways --customer-gateway-ids cgw-0e11f167
```
Output:  

```
{
    "CustomerGateways": [
        {
            "CustomerGatewayId": "cgw-0e11f167",
            "IpAddress": "12.1.2.3",
            "State": "available",
            "Type": "ipsec.1",
            "BgpAsn": "65534"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeCustomerGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-customer-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-dhcp-options`
<a name="ec2_DescribeDhcpOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-dhcp-options`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan opsi DHCP Anda**  
`describe-dhcp-options`Contoh berikut mengambil rincian tentang opsi DHCP Anda.  

```
aws ec2 describe-dhcp-options
```
Output:  

```
{
    "DhcpOptions": [
        {
            "DhcpConfigurations": [
                {
                    "Key": "domain-name",
                    "Values": [
                        {
                            "Value": "us-east-2.compute.internal"
                        }
                    ]
                },
                {
                    "Key": "domain-name-servers",
                    "Values": [
                        {
                            "Value": "AmazonProvidedDNS"
                        }
                    ]
                }
            ],
            "DhcpOptionsId": "dopt-19edf471",
            "OwnerId": "111122223333"
        },
        {
            "DhcpConfigurations": [
                {
                    "Key": "domain-name",
                    "Values": [
                        {
                            "Value": "us-east-2.compute.internal"
                        }
                    ]
                },
                {
                    "Key": "domain-name-servers",
                    "Values": [
                        {
                            "Value": "AmazonProvidedDNS"
                        }
                    ]
                }
            ],
            "DhcpOptionsId": "dopt-fEXAMPLE",
            "OwnerId": "111122223333"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Set Opsi DHCP](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_DHCP_Options.html#DHCPOptionSet) di Panduan *AWS Pengguna VPC*.  
**Contoh 2: Untuk menjelaskan opsi DHCP Anda dan memfilter output**  
`describe-dhcp-options`Contoh berikut menjelaskan opsi DHCP Anda dan menggunakan filter untuk mengembalikan hanya opsi DHCP yang dimiliki `example.com` untuk server nama domain. Contoh menggunakan `--query` parameter untuk menampilkan hanya informasi konfigurasi dan ID dalam output.  

```
aws ec2 describe-dhcp-options \
    --filters Name=key,Values=domain-name-servers Name=value,Values=example.com \
    --query "DhcpOptions[*].[DhcpConfigurations,DhcpOptionsId]"
```
Output:  

```
[
    [
        [
            {
                "Key": "domain-name",
                "Values": [
                    {
                        "Value": "example.com"
                    }
                ]
            },
            {
                "Key": "domain-name-servers",
                "Values": [
                    {
                        "Value": "172.16.16.16"
                    }
                ]
            }
        ],
        "dopt-001122334455667ab"
    ]
]
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Set Opsi DHCP](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_DHCP_Options.html#DHCPOptionSet) di Panduan *AWS Pengguna VPC*.  
+  Untuk detail API, lihat [DescribeDhcpOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-dhcp-options.html)di *Referensi AWS CLI Perintah*. 

### `describe-egress-only-internet-gateways`
<a name="ec2_DescribeEgressOnlyInternetGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-egress-only-internet-gateways`.

**AWS CLI**  
**Untuk menggambarkan gateway Internet khusus egres Anda**  
Contoh ini menjelaskan gateway Internet khusus egres Anda.  
Perintah:  

```
aws ec2 describe-egress-only-internet-gateways
```
Output:  

```
{
  "EgressOnlyInternetGateways": [
      {
          "EgressOnlyInternetGatewayId": "eigw-015e0e244e24dfe8a",
          "Attachments": [
              {
                  "State": "attached",
                  "VpcId": "vpc-0c62a468"
              }
          ]
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeEgressOnlyInternetGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-egress-only-internet-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-elastic-gpus`
<a name="ec2_DescribeElasticGpus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-elastic-gpus`.

**AWS CLI**  
**Untuk menggambarkan GPU Elastis**  
Perintah:  

```
aws ec2 describe-elastic-gpus --elastic-gpu-ids egpu-12345678901234567890abcdefghijkl
```
+  Untuk detail API, lihat [DescribeElasticGpus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-elastic-gpus.html)di *Referensi AWS CLI Perintah*. 

### `describe-export-image-tasks`
<a name="ec2_DescribeExportImageTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-export-image-tasks`.

**AWS CLI**  
**Untuk memantau tugas ekspor gambar**  
`describe-export-image-tasks`Contoh berikut memeriksa status tugas gambar ekspor yang ditentukan. File gambar yang dihasilkan di Amazon S3 adalah. `my-export-bucket/exports/export-ami-1234567890abcdef0.vmdk`  

```
aws ec2 describe-export-image-tasks \
    --export-image-task-ids export-ami-1234567890abcdef0
```
Output untuk tugas ekspor gambar yang sedang berlangsung.  

```
{
    "ExportImageTasks": [
        {
            "ExportImageTaskId": "export-ami-1234567890abcdef0"
            "Progress": "21",
            "S3ExportLocation": {
                "S3Bucket": "my-export-bucket",
                "S3Prefix": "exports/"
            },
            "Status": "active",
            "StatusMessage": "updating"
        }
    ]
}
```
Output untuk tugas ekspor gambar yang selesai.  

```
{
    "ExportImageTasks": [
        {
            "ExportImageTaskId": "export-ami-1234567890abcdef0"
            "S3ExportLocation": {
                "S3Bucket": "my-export-bucket",
                "S3Prefix": "exports/"
            },
            "Status": "completed"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengekspor VM dari AMI](https://docs.aws.amazon.com/vm-import/latest/userguide/vmexport_image.html) di * Import/Export Panduan Pengguna VM*.  
+  Untuk detail API, lihat [DescribeExportImageTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-export-image-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-export-tasks`
<a name="ec2_DescribeExportTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-export-tasks`.

**AWS CLI**  
**Untuk membuat daftar detail tentang tugas ekspor instance**  
Contoh ini menjelaskan tugas ekspor dengan ID export-i-fh 8sjjsq.  
Perintah:  

```
aws ec2 describe-export-tasks --export-task-ids export-i-fh8sjjsq
```
Output:  

```
{
    "ExportTasks": [
        {
            "State": "active",
            "InstanceExportDetails": {
                "InstanceId": "i-1234567890abcdef0",
                "TargetEnvironment": "vmware"
            },
            "ExportToS3Task": {
                "S3Bucket": "myexportbucket",
                "S3Key": "RHEL5export-i-fh8sjjsq.ova",
                "DiskImageFormat": "vmdk",
                "ContainerFormat": "ova"
            },
            "Description": "RHEL5 instance",
            "ExportTaskId": "export-i-fh8sjjsq"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeExportTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-export-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-fast-launch-images`
<a name="ec2_DescribeFastLaunchImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fast-launch-images`.

**AWS CLI**  
**Untuk menjelaskan detail untuk Windows AMIs yang dikonfigurasi untuk peluncuran lebih cepat**  
`describe-fast-launch-images`Contoh berikut menjelaskan detail untuk masing-masing akun Anda yang dikonfigurasi untuk peluncuran lebih cepat, termasuk jenis sumber daya, konfigurasi snapshot, detail template peluncuran, jumlah maksimum peluncuran paralel, ID pemilik AMI, status konfigurasi peluncuran cepat, alasan status diubah, dan waktu terjadinya perubahan status. AMIs   

```
aws ec2 describe-fast-launch-images
```
Output:  

```
{
    "FastLaunchImages": [
        {
            "ImageId": "ami-01234567890abcedf",
            "ResourceType": "snapshot",
            "SnapshotConfiguration": {},
            "LaunchTemplate": {
                "LaunchTemplateId": "lt-01234567890abcedf",
                "LaunchTemplateName": "EC2FastLaunchDefaultResourceCreation-a8c6215d-94e6-441b-9272-dbd1f87b07e2",
                "Version": "1"
            },
            "MaxParallelLaunches": 6,
            "OwnerId": "0123456789123",
            "State": "enabled",
            "StateTransitionReason": "Client.UserInitiated",
            "StateTransitionTime": "2022-01-27T22:20:06.552000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya tentang mengonfigurasi AMI Windows untuk peluncuran yang lebih cepat, lihat [Mengonfigurasi AMI Anda untuk peluncuran lebih cepat](https://docs.aws.amazon.com/AWSEC2/latest/WindowsGuide/windows-ami-version-history.html#win-ami-config-fast-launch) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeFastLaunchImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-fast-launch-images.html)di *Referensi AWS CLI Perintah*. 

### `describe-fast-snapshot-restores`
<a name="ec2_DescribeFastSnapshotRestores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fast-snapshot-restores`.

**AWS CLI**  
**Untuk menggambarkan pemulihan snapshot cepat**  
`describe-fast-snapshot-restores`Contoh berikut menampilkan detail untuk semua pemulihan snapshot cepat dengan status. `disabled`  

```
aws ec2 describe-fast-snapshot-restores \
    --filters Name=state,Values=disabled
```
Output:  

```
{
    "FastSnapshotRestores": [
        {
            "SnapshotId": "snap-1234567890abcdef0",
            "AvailabilityZone": "us-west-2c",
            "State": "disabled",
            "StateTransitionReason": "Client.UserInitiated - Lifecycle state transition",
            "OwnerId": "123456789012",
            "EnablingTime": "2020-01-25T23:57:49.596Z",
            "OptimizingTime": "2020-01-25T23:58:25.573Z",
            "EnabledTime": "2020-01-25T23:59:29.852Z",
            "DisablingTime": "2020-01-26T00:40:56.069Z",
            "DisabledTime": "2020-01-26T00:41:27.390Z"
        }
    ]
}
```
`describe-fast-snapshot-restores`Contoh berikut menjelaskan semua pemulihan snapshot cepat.  

```
aws ec2 describe-fast-snapshot-restores
```
+  Untuk detail API, lihat [DescribeFastSnapshotRestores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-fast-snapshot-restores.html)di *Referensi AWS CLI Perintah*. 

### `describe-fleet-history`
<a name="ec2_DescribeFleetHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fleet-history`.

**AWS CLI**  
**Untuk menggambarkan sejarah Armada EC2**  
`describe-fleet-history`Contoh berikut mengembalikan riwayat untuk Armada EC2 yang ditentukan mulai pada waktu yang ditentukan. Outputnya adalah untuk Armada EC2 dengan dua instans yang berjalan.  

```
aws ec2 describe-fleet-history \
    --fleet-id fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE \
    --start-time 2020-09-01T00:00:00Z
```
Output:  

```
{
    "HistoryRecords": [
        {
            "EventInformation": {
                "EventSubType": "submitted"
            },
            "EventType": "fleetRequestChange",
            "Timestamp": "2020-09-01T18:26:05.000Z"
        },
        {
            "EventInformation": {
                "EventSubType": "active"
            },
            "EventType": "fleetRequestChange",
            "Timestamp": "2020-09-01T18:26:15.000Z"
        },
        {
            "EventInformation": {
                "EventDescription": "t2.small, ami-07c8bc5c1ce9598c3, ...",
                "EventSubType": "progress"
            },
            "EventType": "fleetRequestChange",
            "Timestamp": "2020-09-01T18:26:17.000Z"
        },
        {
            "EventInformation": {
                "EventDescription": "{\"instanceType\":\"t2.small\", ...}",
                "EventSubType": "launched",
                "InstanceId": "i-083a1c446e66085d2"
            },
            "EventType": "instanceChange",
            "Timestamp": "2020-09-01T18:26:17.000Z"
        },
        {
            "EventInformation": {
                "EventDescription": "{\"instanceType\":\"t2.small\", ...}",
                "EventSubType": "launched",
                "InstanceId": "i-090db02406cc3c2d6"
            },
            "EventType": "instanceChange",
            "Timestamp": "2020-09-01T18:26:17.000Z"
        }
    ],
    "LastEvaluatedTime": "2020-09-01T19:10:19.000Z",
    "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE",
    "StartTime": "2020-08-31T23:53:20.000Z"
}
```
Untuk informasi selengkapnya, lihat [Mengelola Armada EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/manage-ec2-fleet.html) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DescribeFleetHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-fleet-history.html)di *Referensi AWS CLI Perintah*. 

### `describe-fleet-instances`
<a name="ec2_DescribeFleetInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fleet-instances`.

**AWS CLI**  
**Untuk menjelaskan instans yang sedang berjalan untuk Armada EC2**  
`describe-fleet-instances`Contoh berikut menjelaskan instance yang sedang berjalan untuk Armada EC2 yang ditentukan.  

```
aws ec2 describe-fleet-instances \
    --fleet-id 12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE
```
Output:  

```
{
    "ActiveInstances": [
        {
            "InstanceId": "i-090db02406cc3c2d6",
            "InstanceType": "t2.small",
            "SpotInstanceRequestId": "sir-a43gtpfk",
            "InstanceHealth": "healthy"
        },
        {
            "InstanceId": "i-083a1c446e66085d2",
            "InstanceType": "t2.small",
            "SpotInstanceRequestId": "sir-iwcit2nj",
            "InstanceHealth": "healthy"
        }
    ],
    "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Mengelola Armada EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/manage-ec2-fleet.html) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DescribeFleetInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-fleet-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-fleets`
<a name="ec2_DescribeFleets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fleets`.

**AWS CLI**  
**Untuk menggambarkan Armada EC2**  
`describe-fleets`Contoh berikut menjelaskan Armada EC2 yang ditentukan.  

```
aws ec2 describe-fleets \
    --fleet-ids fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE
```
Output:  

```
{
    "Fleets": [
        {
            "ActivityStatus": "pending_fulfillment",
            "CreateTime": "2020-09-01T18:26:05.000Z",
            "FleetId": "fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE",
            "FleetState": "active",
            "ExcessCapacityTerminationPolicy": "termination",
            "FulfilledCapacity": 0.0,
            "FulfilledOnDemandCapacity": 0.0,
            "LaunchTemplateConfigs": [
                {
                    "LaunchTemplateSpecification": {
                        "LaunchTemplateId": "lt-0e632f2855a979cd5",
                        "Version": "1"
                    }
                }
            ],
            "TargetCapacitySpecification": {
                "TotalTargetCapacity": 2,
                "OnDemandTargetCapacity": 0,
                "SpotTargetCapacity": 2,
                "DefaultTargetCapacityType": "spot"
            },
            "TerminateInstancesWithExpiration": false,
            "Type": "maintain",
            "ReplaceUnhealthyInstances": false,
            "SpotOptions": {
                "AllocationStrategy": "lowestPrice",
                "InstanceInterruptionBehavior": "terminate",
                "InstancePoolsToUseCount": 1
            },
            "OnDemandOptions": {
                "AllocationStrategy": "lowestPrice"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Armada EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/manage-ec2-fleet.html) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DescribeFleets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-fleets.html)di *Referensi AWS CLI Perintah*. 

### `describe-flow-logs`
<a name="ec2_DescribeFlowLogs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-flow-logs`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan semua flow log**  
`describe-flow-logs`Contoh berikut menampilkan detail untuk semua log aliran Anda.  

```
aws ec2 describe-flow-logs
```
Output:  

```
{
    "FlowLogs": [
        {
            "CreationTime": "2018-02-21T13:22:12.644Z",
            "DeliverLogsPermissionArn": "arn:aws:iam::123456789012:role/flow-logs-role",
            "DeliverLogsStatus": "SUCCESS",
            "FlowLogId": "fl-aabbccdd112233445",
            "MaxAggregationInterval": 600,
            "FlowLogStatus": "ACTIVE",
            "LogGroupName": "FlowLogGroup",
            "ResourceId": "subnet-12345678901234567",
            "TrafficType": "ALL",
            "LogDestinationType": "cloud-watch-logs",
            "LogFormat": "${version} ${account-id} ${interface-id} ${srcaddr} ${dstaddr} ${srcport} ${dstport} ${protocol} ${packets} ${bytes} ${start} ${end} ${action} ${log-status}"
        },
        {
            "CreationTime": "2020-02-04T15:22:29.986Z",
            "DeliverLogsStatus": "SUCCESS",
            "FlowLogId": "fl-01234567890123456",
            "MaxAggregationInterval": 60,
            "FlowLogStatus": "ACTIVE",
            "ResourceId": "vpc-00112233445566778",
            "TrafficType": "ACCEPT",
            "LogDestinationType": "s3",
            "LogDestination": "arn:aws:s3:::my-flow-log-bucket/custom",
            "LogFormat": "${version} ${vpc-id} ${subnet-id} ${instance-id} ${interface-id} ${account-id} ${type} ${srcaddr} ${dstaddr} ${srcport} ${dstport} ${pkt-srcaddr} ${pkt-dstaddr} ${protocol} ${bytes} ${packets} ${start} ${end} ${action} ${tcp-flags} ${log-status}"
        }
    ]
}
```
**Contoh 2: Untuk mendeskripsikan subset dari flow log**  
`describe-flow-logs`Contoh berikut menggunakan filter untuk menampilkan detail hanya untuk log aliran yang ada di grup log yang ditentukan di Amazon CloudWatch Logs.  

```
aws ec2 describe-flow-logs \
    --filter "Name=log-group-name,Values=MyFlowLogs"
```
+  Untuk detail API, lihat [DescribeFlowLogs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-flow-logs.html)di *Referensi AWS CLI Perintah*. 

### `describe-fpga-image-attribute`
<a name="ec2_DescribeFpgaImageAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fpga-image-attribute`.

**AWS CLI**  
**Untuk menggambarkan atribut gambar Amazon FPGA**  
Contoh ini menjelaskan izin pemuatan untuk AFI yang ditentukan.  
Perintah:  

```
aws ec2 describe-fpga-image-attribute --fpga-image-id afi-0d123e123bfc85abc --attribute loadPermission
```
Output:  

```
{
  "FpgaImageAttribute": {
      "FpgaImageId": "afi-0d123e123bfc85abc",
      "LoadPermissions": [
          {
              "UserId": "123456789012"
          }
      ]
  }
}
```
+  Untuk detail API, lihat [DescribeFpgaImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-fpga-image-attribute.html)di *Referensi AWS CLI Perintah*. 

### `describe-fpga-images`
<a name="ec2_DescribeFpgaImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fpga-images`.

**AWS CLI**  
**Untuk menggambarkan gambar Amazon FPGA**  
Contoh ini menjelaskan AFIs yang dimiliki oleh akun`123456789012`.  
Perintah:  

```
aws ec2 describe-fpga-images --filters Name=owner-id,Values=123456789012
```
Output:  

```
{
  "FpgaImages": [
      {
          "UpdateTime": "2017-12-22T12:09:14.000Z",
          "Name": "my-afi",
          "PciId": {
              "SubsystemVendorId": "0xfedd",
              "VendorId": "0x1d0f",
              "DeviceId": "0xf000",
              "SubsystemId": "0x1d51"
          },
          "FpgaImageGlobalId": "agfi-123cb27b5e84a0abc",
          "Public": false,
          "State": {
              "Code": "available"
          },
          "ShellVersion": "0x071417d3",
          "OwnerId": "123456789012",
          "FpgaImageId": "afi-0d123e123bfc85abc",
          "CreateTime": "2017-12-22T11:43:33.000Z",
          "Description": "my-afi"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeFpgaImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-fpga-images.html)di *Referensi AWS CLI Perintah*. 

### `describe-host-reservation-offerings`
<a name="ec2_DescribeHostReservationOfferings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-host-reservation-offerings`.

**AWS CLI**  
**Untuk menjelaskan penawaran Reservasi Tuan Rumah Khusus**  
Contoh ini menjelaskan Reservasi Tuan Rumah Khusus untuk keluarga instans M4 yang tersedia untuk dibeli.  
Perintah:  

```
aws ec2 describe-host-reservation-offerings --filter Name=instance-family,Values=m4
```
Output:  

```
{
  "OfferingSet": [
      {
          "HourlyPrice": "1.499",
          "OfferingId": "hro-03f707bf363b6b324",
          "InstanceFamily": "m4",
          "PaymentOption": "NoUpfront",
          "UpfrontPrice": "0.000",
          "Duration": 31536000
      },
      {
          "HourlyPrice": "1.045",
          "OfferingId": "hro-0ef9181cabdef7a02",
          "InstanceFamily": "m4",
          "PaymentOption": "NoUpfront",
          "UpfrontPrice": "0.000",
          "Duration": 94608000
      },
      {
          "HourlyPrice": "0.714",
          "OfferingId": "hro-04567a15500b92a51",
          "InstanceFamily": "m4",
          "PaymentOption": "PartialUpfront",
          "UpfrontPrice": "6254.000",
          "Duration": 31536000
      },
      {
          "HourlyPrice": "0.484",
          "OfferingId": "hro-0d5d7a9d23ed7fbfe",
          "InstanceFamily": "m4",
          "PaymentOption": "PartialUpfront",
          "UpfrontPrice": "12720.000",
          "Duration": 94608000
      },
      {
          "HourlyPrice": "0.000",
          "OfferingId": "hro-05da4108ca998c2e5",
          "InstanceFamily": "m4",
          "PaymentOption": "AllUpfront",
          "UpfrontPrice": "23913.000",
          "Duration": 94608000
      },
      {
          "HourlyPrice": "0.000",
          "OfferingId": "hro-0a9f9be3b95a3dc8f",
          "InstanceFamily": "m4",
          "PaymentOption": "AllUpfront",
          "UpfrontPrice": "12257.000",
          "Duration": 31536000
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeHostReservationOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-host-reservation-offerings.html)di *Referensi AWS CLI Perintah*. 

### `describe-host-reservations`
<a name="ec2_DescribeHostReservations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-host-reservations`.

**AWS CLI**  
**Untuk menjelaskan Reservasi Tuan Rumah Khusus di akun Anda**  
Contoh ini menjelaskan Reservasi Tuan Rumah Khusus di akun Anda.  
Perintah:  

```
aws ec2 describe-host-reservations
```
Output:  

```
{
  "HostReservationSet": [
      {
          "Count": 1,
          "End": "2019-01-10T12:14:09Z",
          "HourlyPrice": "1.499",
          "InstanceFamily": "m4",
          "OfferingId": "hro-03f707bf363b6b324",
          "PaymentOption": "NoUpfront",
          "State": "active",
          "HostIdSet": [
              "h-013abcd2a00cbd123"
          ],
          "Start": "2018-01-10T12:14:09Z",
          "HostReservationId": "hr-0d418a3a4ffc669ae",
          "UpfrontPrice": "0.000",
          "Duration": 31536000
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeHostReservations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-host-reservations.html)di *Referensi AWS CLI Perintah*. 

### `describe-hosts`
<a name="ec2_DescribeHosts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-hosts`.

**AWS CLI**  
**Untuk melihat detail tentang Host Khusus**  
`describe-hosts`Contoh berikut menampilkan detail untuk Host `available` Khusus di AWS akun Anda.  

```
aws ec2 describe-hosts --filter "Name=state,Values=available"
```
Output:  

```
{
    "Hosts": [
        {
            "HostId": "h-07879acf49EXAMPLE",
            "Tags": [
                {
                    "Value": "production",
                    "Key": "purpose"
                }
            ],
            "HostProperties": {
                "Cores": 48,
                "TotalVCpus": 96,
                "InstanceType": "m5.large",
                "Sockets": 2
            },
            "Instances": [],
            "State": "available",
            "AvailabilityZone": "eu-west-1a",
            "AvailableCapacity": {
                "AvailableInstanceCapacity": [
                    {
                        "AvailableCapacity": 48,
                        "InstanceType": "m5.large",
                        "TotalCapacity": 48
                    }
                ],
                "AvailableVCpus": 96
            },
            "HostRecovery": "on",
            "AllocationTime": "2019-08-19T08:57:44.000Z",
            "AutoPlacement": "off"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Host Khusus](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/how-dedicated-hosts-work.html#dedicated-hosts-managing) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DescribeHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-hosts.html)di *Referensi AWS CLI Perintah*. 

### `describe-iam-instance-profile-associations`
<a name="ec2_DescribeIamInstanceProfileAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-iam-instance-profile-associations`.

**AWS CLI**  
**Untuk menjelaskan kaitan profil instans IAM**  
Contoh ini menjelaskan semua kaitan profil instans IAM Anda.  
Perintah:  

```
aws ec2 describe-iam-instance-profile-associations
```
Output:  

```
{
  "IamInstanceProfileAssociations": [
      {
          "InstanceId": "i-09eb09efa73ec1dee",
          "State": "associated",
          "AssociationId": "iip-assoc-0db249b1f25fa24b8",
          "IamInstanceProfile": {
              "Id": "AIPAJVQN4F5WVLGCJDRGM",
              "Arn": "arn:aws:iam::123456789012:instance-profile/admin-role"
          }
      },
      {
          "InstanceId": "i-0402909a2f4dffd14",
          "State": "associating",
          "AssociationId": "iip-assoc-0d1ec06278d29f44a",
          "IamInstanceProfile": {
              "Id": "AGJAJVQN4F5WVLGCJABCM",
              "Arn": "arn:aws:iam::123456789012:instance-profile/user1-role"
          }
      }
   ]
}
```
+  Untuk detail API, lihat [DescribeIamInstanceProfileAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-iam-instance-profile-associations.html)di *Referensi AWS CLI Perintah*. 

### `describe-id-format`
<a name="ec2_DescribeIdFormat_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-id-format`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan format ID sumber daya**  
`describe-id-format`Contoh berikut menjelaskan format ID untuk grup keamanan.  

```
aws ec2 describe-id-format \
    --resource security-group
```
Dalam contoh output berikut, `Deadline` nilai menunjukkan bahwa batas waktu untuk jenis sumber daya ini untuk secara permanen beralih dari format ID pendek ke format ID panjang berakhir pada 00:00 UTC pada 15 Agustus 2018.  

```
{
    "Statuses": [
        {
            "Deadline": "2018-08-15T00:00:00.000Z",
            "Resource": "security-group",
            "UseLongIds": true
        }
    ]
}
```
**Contoh 2: Untuk mendeskripsikan format ID untuk semua sumber daya**  
`describe-id-format`Contoh berikut menjelaskan format ID untuk semua jenis sumber daya. Semua jenis sumber daya yang mendukung format ID pendek dialihkan untuk menggunakan format ID panjang.  

```
aws ec2 describe-id-format
```
+  Untuk detail API, lihat [DescribeIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-id-format.html)di *Referensi AWS CLI Perintah*. 

### `describe-identity-id-format`
<a name="ec2_DescribeIdentityIdFormat_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-identity-id-format`.

**AWS CLI**  
**Untuk mendeskripsikan format ID untuk peran IAM**  
`describe-identity-id-format`Contoh berikut menjelaskan format ID yang diterima oleh instance yang dibuat oleh peran IAM `EC2Role` di akun Anda AWS .  

```
aws ec2 describe-identity-id-format \
    --principal-arn arn:aws:iam::123456789012:role/my-iam-role \
    --resource instance
```
Output berikut menunjukkan bahwa instance yang dibuat oleh peran ini diterima IDs dalam format ID panjang.  

```
{
    "Statuses": [
        {
            "Deadline": "2016-12-15T00:00:00Z",
            "Resource": "instance",
            "UseLongIds": true
        }
    ]
}
```
**Untuk mendeskripsikan format ID untuk pengguna IAM**  
`describe-identity-id-format`Contoh berikut menjelaskan format ID yang diterima oleh snapshot yang dibuat oleh pengguna IAM `AdminUser` di akun Anda AWS .  

```
aws ec2 describe-identity-id-format \
    --principal-arn arn:aws:iam::123456789012:user/AdminUser \
    --resource snapshot
```
Output menunjukkan bahwa snapshot yang dibuat oleh pengguna ini menerima IDs dalam format ID panjang.  

```
{
    "Statuses": [
        {
            "Deadline": "2016-12-15T00:00:00Z",
            "Resource": "snapshot",
            "UseLongIds": true
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeIdentityIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-identity-id-format.html)di *Referensi AWS CLI Perintah*. 

### `describe-image-attribute`
<a name="ec2_DescribeImageAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-image-attribute`.

**AWS CLI**  
**Untuk menjelaskan izin peluncuran untuk AMI**  
Contoh ini menjelaskan izin peluncuran untuk AMI yang ditentukan.  
Perintah:  

```
aws ec2 describe-image-attribute --image-id ami-5731123e --attribute launchPermission
```
Output:  

```
{
    "LaunchPermissions": [
        {
            "UserId": "123456789012"
        }
    ],
    "ImageId": "ami-5731123e",
}
```
**Untuk mendeskripsikan kode produk untuk AMI**  
Contoh ini menjelaskan kode produk untuk AMI yang ditentukan. Perhatikan bahwa AMI ini tidak memiliki kode produk.  
Perintah:  

```
aws ec2 describe-image-attribute --image-id ami-5731123e --attribute productCodes
```
Output:  

```
{
    "ProductCodes": [],
    "ImageId": "ami-5731123e",
}
```
+  Untuk detail API, lihat [DescribeImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-image-attribute.html)di *Referensi AWS CLI Perintah*. 

### `describe-images`
<a name="ec2_DescribeImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-images`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan AMI**  
Contoh `describe-images` berikut menjelaskan AMI tertentu di Wilayah tertentu.  

```
aws ec2 describe-images \
    --region us-east-1 \
    --image-ids ami-1234567890EXAMPLE
```
Output:  

```
{
    "Images": [
        {
            "VirtualizationType": "hvm",
            "Description": "Provided by Red Hat, Inc.",
            "PlatformDetails": "Red Hat Enterprise Linux",
            "EnaSupport": true,
            "Hypervisor": "xen",
            "State": "available",
            "SriovNetSupport": "simple",
            "ImageId": "ami-1234567890EXAMPLE",
            "UsageOperation": "RunInstances:0010",
            "BlockDeviceMappings": [
                {
                    "DeviceName": "/dev/sda1",
                    "Ebs": {
                        "SnapshotId": "snap-111222333444aaabb",
                        "DeleteOnTermination": true,
                        "VolumeType": "gp2",
                        "VolumeSize": 10,
                        "Encrypted": false
                    }
                }
            ],
            "Architecture": "x86_64",
            "ImageLocation": "123456789012/RHEL-8.0.0_HVM-20190618-x86_64-1-Hourly2-GP2",
            "RootDeviceType": "ebs",
            "OwnerId": "123456789012",
            "RootDeviceName": "/dev/sda1",
            "CreationDate": "2019-05-10T13:17:12.000Z",
            "Public": true,
            "ImageType": "machine",
            "Name": "RHEL-8.0.0_HVM-20190618-x86_64-1-Hourly2-GP2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Amazon Machine Image (AMI)](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk mendeskripsikan AMIs berdasarkan filter**  
`describe-images`Contoh berikut menjelaskan Windows yang AMIs disediakan oleh Amazon yang didukung oleh Amazon EBS.  

```
aws ec2 describe-images \
    --owners amazon \
    --filters "Name=platform,Values=windows" "Name=root-device-type,Values=ebs"
```
Untuk contoh output `describe-images`, lihat Contoh 1.  
Untuk contoh tambahan menggunakan filter, lihat [Mencantumkan dan memfilter sumber daya Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) di *Panduan Pengguna Amazon EC2*.  
**Contoh 3: Untuk mendeskripsikan AMIs berdasarkan tag**  
`describe-images`Contoh berikut menjelaskan semua AMIs yang memiliki tag`Type=Custom`. Contoh menggunakan `--query` parameter untuk menampilkan hanya AMI IDs.  

```
aws ec2 describe-images \
    --filters "Name=tag:Type,Values=Custom" \
    --query 'Images[*].[ImageId]' \
    --output text
```
Output:  

```
ami-1234567890EXAMPLE
ami-0abcdef1234567890
```
Untuk contoh tambahan menggunakan filter tanda, lihat [Bekerja dengan tanda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-images.html)di *Referensi AWS CLI Perintah*. 

### `describe-import-image-tasks`
<a name="ec2_DescribeImportImageTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-import-image-tasks`.

**AWS CLI**  
**Untuk memantau tugas impor gambar**  
`describe-import-image-tasks`Contoh berikut memeriksa status tugas gambar impor yang ditentukan.  

```
aws ec2 describe-import-image-tasks \
    --import-task-ids import-ami-1234567890abcdef0
```
Output untuk tugas impor gambar yang sedang berlangsung.  

```
{
    "ImportImageTasks": [
        {
            "ImportTaskId": "import-ami-1234567890abcdef0",
            "Progress": "28",
            "SnapshotDetails": [
                {
                    "DiskImageSize": 705638400.0,
                    "Format": "ova",
                    "Status": "completed",
                    "UserBucket": {
                        "S3Bucket": "my-import-bucket",
                        "S3Key": "vms/my-server-vm.ova"
                    }
                }
            ],
            "Status": "active",
            "StatusMessage": "converting"
        }
    ]
}
```
Output untuk tugas gambar impor yang selesai. ID AMI yang dihasilkan disediakan oleh`ImageId`.  

```
{
    "ImportImageTasks": [
        {
            "ImportTaskId": "import-ami-1234567890abcdef0",
            "ImageId": "ami-1234567890abcdef0",
            "SnapshotDetails": [
                {
                    "DiskImageSize": 705638400.0,
                    "Format": "ova",
                    "SnapshotId": "snap-1234567890abcdef0"
                    "Status": "completed",
                    "UserBucket": {
                        "S3Bucket": "my-import-bucket",
                        "S3Key": "vms/my-server-vm.ova"
                    }
                }
            ],
            "Status": "completed"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeImportImageTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-import-image-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-import-snapshot-tasks`
<a name="ec2_DescribeImportSnapshotTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-import-snapshot-tasks`.

**AWS CLI**  
**Untuk memantau tugas snapshot impor**  
`describe-import-snapshot-tasks`Contoh berikut memeriksa status tugas snapshot impor yang ditentukan.  

```
aws ec2 describe-import-snapshot-tasks \
    --import-task-ids import-snap-1234567890abcdef0
```
Output untuk tugas snapshot impor yang sedang berlangsung:  

```
{
    "ImportSnapshotTasks": [
        {
            "Description": "My server VMDK",
            "ImportTaskId": "import-snap-1234567890abcdef0",
            "SnapshotTaskDetail": {
                "Description": "My server VMDK",
                "DiskImageSize": "705638400.0",
                "Format": "VMDK",
                "Progress": "42",
                "Status": "active",
                "StatusMessage": "downloading/converting",
                "UserBucket": {
                    "S3Bucket": "my-import-bucket",
                    "S3Key": "vms/my-server-vm.vmdk"
                }
            }
        }
    ]
}
```
Output untuk tugas snapshot impor yang selesai. ID snapshot yang dihasilkan disediakan oleh`SnapshotId`.  

```
{
    "ImportSnapshotTasks": [
        {
            "Description": "My server VMDK",
            "ImportTaskId": "import-snap-1234567890abcdef0",
            "SnapshotTaskDetail": {
                "Description": "My server VMDK",
                "DiskImageSize": "705638400.0",
                "Format": "VMDK",
                "SnapshotId": "snap-1234567890abcdef0"
                "Status": "completed",
                "UserBucket": {
                    "S3Bucket": "my-import-bucket",
                    "S3Key": "vms/my-server-vm.vmdk"
                }
            }
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeImportSnapshotTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-import-snapshot-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-attribute`
<a name="ec2_DescribeInstanceAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-attribute`.

**AWS CLI**  
**Untuk menggambarkan jenis instance**  
Contoh ini menjelaskan jenis instance dari instance yang ditentukan.  
Perintah:  

```
aws ec2 describe-instance-attribute --instance-id i-1234567890abcdef0 --attribute instanceType
```
Output:  

```
{
    "InstanceId": "i-1234567890abcdef0"
    "InstanceType": {
        "Value": "t1.micro"
    }
}
```
**Untuk menggambarkan disableApiTermination atribut**  
Contoh ini menjelaskan `disableApiTermination` atribut dari contoh yang ditentukan.  
Perintah:  

```
aws ec2 describe-instance-attribute --instance-id i-1234567890abcdef0 --attribute disableApiTermination
```
Output:  

```
{
"InstanceId": "i-1234567890abcdef0"
    "DisableApiTermination": {
        "Value": "false"
    }
}
```
**Untuk menggambarkan pemetaan perangkat blok untuk sebuah instance**  
Contoh ini menjelaskan `blockDeviceMapping` atribut dari contoh yang ditentukan.  
Perintah:  

```
aws ec2 describe-instance-attribute --instance-id i-1234567890abcdef0 --attribute blockDeviceMapping
```
Output:  

```
{
    "InstanceId": "i-1234567890abcdef0"
    "BlockDeviceMappings": [
        {
            "DeviceName": "/dev/sda1",
            "Ebs": {
                "Status": "attached",
                "DeleteOnTermination": true,
                "VolumeId": "vol-049df61146c4d7901",
                "AttachTime": "2013-05-17T22:42:34.000Z"
            }
        },
        {
            "DeviceName": "/dev/sdf",
            "Ebs": {
                "Status": "attached",
                "DeleteOnTermination": false,
                "VolumeId": "vol-049df61146c4d7901",
                "AttachTime": "2013-09-10T23:07:00.000Z"
            }
        }
    ],
}
```
+  Untuk detail API, lihat [DescribeInstanceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-attribute.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-connect-endpoints`
<a name="ec2_DescribeInstanceConnectEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-connect-endpoints`.

**AWS CLI**  
**Untuk mendeskripsikan Instance Connect Endpoint EC2**  
`describe-instance-connect-endpoints`Contoh berikut menjelaskan EC2 Instance Connect Endpoint yang ditentukan.  

```
aws ec2 describe-instance-connect-endpoints \
    --region us-east-1 \
    --instance-connect-endpoint-ids eice-0123456789example
```
Output:  

```
{
    "InstanceConnectEndpoints": [
        {
            "OwnerId": "111111111111",
            "InstanceConnectEndpointId": "eice-0123456789example",
            "InstanceConnectEndpointArn": "arn:aws:ec2:us-east-1:111111111111:instance-connect-endpoint/eice-0123456789example",
            "State": "create-complete",
            "StateMessage": "",
            "DnsName": "eice-0123456789example.b67b86ba.ec2-instance-connect-endpoint.us-east-1.amazonaws.com",
            "NetworkInterfaceIds": [
                "eni-0123456789example"
            ],
            "VpcId": "vpc-0123abcd",
            "AvailabilityZone": "us-east-1d",
            "CreatedAt": "2023-02-07T12:05:37+00:00",
            "SubnetId": "subnet-0123abcd",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Titik Akhir Connect Instans EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/create-ec2-instance-connect-endpoints.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [DescribeInstanceConnectEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-connect-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-credit-specifications`
<a name="ec2_DescribeInstanceCreditSpecifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-credit-specifications`.

**AWS CLI**  
**Untuk menjelaskan opsi kredit untuk penggunaan CPU dari satu atau lebih contoh**  
`describe-instance-credit-specifications`Contoh berikut menjelaskan opsi kredit CPU untuk contoh yang ditentukan.  

```
aws ec2 describe-instance-credit-specifications \
    --instance-ids i-1234567890abcdef0
```
Output:  

```
{
    "InstanceCreditSpecifications": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "CpuCredits": "unlimited"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan instans performa burstable](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/burstable-performance-instances-how-to.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [DescribeInstanceCreditSpecifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-credit-specifications.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-event-notification-attributes`
<a name="ec2_DescribeInstanceEventNotificationAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-event-notification-attributes`.

**AWS CLI**  
**Untuk menjelaskan tag untuk pemberitahuan acara terjadwal**  
`describe-instance-event-notification-attributes`Contoh berikut menjelaskan tag yang akan muncul dalam pemberitahuan acara terjadwal.  

```
aws ec2 describe-instance-event-notification-attributes
```
Output:  

```
{
    "InstanceTagAttribute": {
        "InstanceTagKeys": [],
        "IncludeAllTagsOfInstance": true
    }
}
```
Untuk informasi selengkapnya, lihat [Acara terjadwal untuk instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/monitoring-instances-status-check_sched.html) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DescribeInstanceEventNotificationAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-event-notification-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-event-windows`
<a name="ec2_DescribeInstanceEventWindows_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-event-windows`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan semua jendela acara**  
`describe-instance-event-windows`Contoh berikut menjelaskan semua jendela acara di Wilayah tertentu.  

```
aws ec2 describe-instance-event-windows \
    --region us-east-1
```
Output:  

```
{
    "InstanceEventWindows": [
        {
            "InstanceEventWindowId": "iew-0abcdef1234567890",
            "Name": "myEventWindowName",
            "CronExpression": "* 21-23 * * 2,3",
            "AssociationTarget": {
                "InstanceIds": [
                    "i-1234567890abcdef0",
                    "i-0598c7d356eba48d7"
                ],
                "Tags": [],
                "DedicatedHostIds": []
            },
            "State": "active",
            "Tags": []
        }

        ...

    ],
    "NextToken": "9d624e0c-388b-4862-a31e-a85c64fc1d4a"
}
```
**Contoh 2: Untuk mendeskripsikan jendela acara tertentu**  
`describe-instance-event-windows`Contoh berikut menjelaskan peristiwa tertentu dengan menggunakan `instance-event-window` parameter untuk menggambarkan jendela peristiwa tertentu.  

```
aws ec2 describe-instance-event-windows \
    --region us-east-1 \
    --instance-event-window-ids iew-0abcdef1234567890
```
Output:  

```
{
    "InstanceEventWindows": [
        {
            "InstanceEventWindowId": "iew-0abcdef1234567890",
            "Name": "myEventWindowName",
            "CronExpression": "* 21-23 * * 2,3",
            "AssociationTarget": {
                "InstanceIds": [
                    "i-1234567890abcdef0",
                    "i-0598c7d356eba48d7"
                ],
                "Tags": [],
                "DedicatedHostIds": []
            },
            "State": "active",
            "Tags": []
        }
}
```
**Contoh 3: Untuk menggambarkan jendela acara yang cocok dengan satu atau beberapa filter**  
`describe-instance-event-windows`Contoh berikut menjelaskan jendela acara yang cocok dengan satu atau lebih filter menggunakan `filter` parameter. `instance-id`Filter digunakan untuk menggambarkan semua jendela acara yang terkait dengan instance yang ditentukan. Saat digunakan, filter melakukan pencocokan langsung. Namun, filter `instance-id` berbeda. Jika tidak ada kecocokan langsung dengan ID instance, maka itu akan kembali ke asosiasi tidak langsung dengan jendela acara, seperti tag instance atau ID Host Khusus (jika instance adalah Host Khusus).  

```
aws ec2 describe-instance-event-windows \
    --region us-east-1 \
    --filters Name=instance-id,Values=i-1234567890abcdef0 \
    --max-results 100 \
    --next-token <next-token-value>
```
Output:  

```
{
    "InstanceEventWindows": [
        {
            "InstanceEventWindowId": "iew-0dbc0adb66f235982",
            "TimeRanges": [
                {
                    "StartWeekDay": "sunday",
                    "StartHour": 2,
                    "EndWeekDay": "sunday",
                    "EndHour": 8
                }
            ],
            "Name": "myEventWindowName",
            "AssociationTarget": {
                "InstanceIds": [],
                "Tags": [],
                "DedicatedHostIds": [
                    "h-0140d9a7ecbd102dd"
                ]
            },
            "State": "active",
            "Tags": []
        }
    ]
}
```
Dalam contoh output, instance berada di Dedicated Host, yang dikaitkan dengan jendela acara.  
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di Panduan Pengguna Amazon EC2.*  
+  Untuk detail API, lihat [DescribeInstanceEventWindows](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-event-windows.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-image-metadata`
<a name="ec2_DescribeInstanceImageMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-image-metadata`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan metadata AMI untuk semua instance**  
`describe-instance-image-metadata`Contoh berikut menjelaskan metadata AMI dari semua instance di AWS akun Anda di Wilayah yang ditentukan.  

```
aws ec2 describe-instance-image-metadata \
    --region us-east-1
```
Output:  

```
{
    "InstanceImageMetadata": [
        {
            "InstanceId": "i-1234567890EXAMPLE",
            "InstanceType": "t2.micro",
            "LaunchTime": "2024-08-28T11:25:45+00:00",
            "AvailabilityZone": "us-east-1a",
            "State": {
                "Code": 16,
                "Name": "running"
            },
            "OwnerId": "123412341234",
            "Tags": [
                {
                    "Key": "MyTagName",
                    "Value": "my-tag-value"
                }
            ],
            "ImageMetadata": {
                "ImageId": "ami-0b752bf1df193a6c4",
                "Name": "al2023-ami-2023.5.20240819.0-kernel-6.1-x86_64",
                "OwnerId": "137112412989",
                "State": "available",
                "ImageOwnerAlias": "amazon",
                "CreationDate": "2023-01-25T17:20:40Z",
                "DeprecationTime": "2025-01-25T17:20:40Z",
                "IsPublic": true
            }
        }
    ],
    "NextToken": "...EXAMPLEwIAABAA2JHaFxLnEXAMPLE..."
}
```
Untuk informasi selengkapnya, lihat [Gambar Mesin Amazon di Amazon EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) di Panduan Pengguna *Amazon EC2*.  
**Contoh 2: Untuk mendeskripsikan metadata AMI untuk instance yang ditentukan**  
`describe-instance-image-metadata`Contoh berikut menjelaskan metadata AMI untuk instance yang ditentukan.  

```
aws ec2 describe-instance-image-metadata \
    --region us-east-1 \
    --instance-ids i-1234567890EXAMPLE i-0987654321EXAMPLE
```
Output:  

```
{
    "InstanceImageMetadata": [
        {
            "InstanceId": "i-1234567890EXAMPLE",
            "InstanceType": "t2.micro",
            "LaunchTime": "2024-08-28T11:25:45+00:00",
            "AvailabilityZone": "us-east-1a",
            "State": {
                "Code": 16,
                "Name": "running"
            },
            "OwnerId": "123412341234",
            "Tags": [
                {
                    "Key": "MyTagName",
                    "Value": "my-tag-value"
                }
            ],
            "ImageMetadata": {
                "ImageId": "ami-0b752bf1df193a6c4",
                "Name": "al2023-ami-2023.5.20240819.0-kernel-6.1-x86_64",
                "OwnerId": "137112412989",
                "State": "available",
                "ImageOwnerAlias": "amazon",
                "CreationDate": "2023-01-25T17:20:40Z",
                "DeprecationTime": "2025-01-25T17:20:40Z",
                "IsPublic": true
            }
        },
        {
            "InstanceId": "i-0987654321EXAMPLE",
            "InstanceType": "t2.micro",
            "LaunchTime": "2024-08-28T11:25:45+00:00",
            "AvailabilityZone": "us-east-1a",
            "State": {
                "Code": 16,
                "Name": "running"
            },
            "OwnerId": "123412341234",
            "Tags": [
                {
                    "Key": "MyTagName",
                    "Value": "my-tag-value"
                }
            ],
            "ImageMetadata": {
                "ImageId": "ami-0b752bf1df193a6c4",
                "Name": "al2023-ami-2023.5.20240819.0-kernel-6.1-x86_64",
                "OwnerId": "137112412989",
                "State": "available",
                "ImageOwnerAlias": "amazon",
                "CreationDate": "2023-01-25T17:20:40Z",
                "DeprecationTime": "2025-01-25T17:20:40Z",
                "IsPublic": true
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Gambar Mesin Amazon di Amazon EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) di Panduan Pengguna *Amazon EC2*.  
**Contoh 3: Untuk mendeskripsikan metadata AMI untuk instance berdasarkan filter**  
`describe-instance-image-metadata`Contoh berikut menjelaskan metadata AMI untuk `t2.nano` dan `t2.micro` instance di Availability Zone. `us-east-1a`  

```
aws ec2 describe-instance-image-metadata \
    --region us-east-1 \
    --filters Name=availability-zone,Values=us-east-1a Name=instance-type,Values=t2.nano,t2.micro
```
Output:  

```
{
    "InstanceImageMetadata": [
        {
            "InstanceId": "i-1234567890EXAMPLE",
            "InstanceType": "t2.micro",
            "LaunchTime": "2024-08-28T11:25:45+00:00",
            "AvailabilityZone": "us-east-1a",
            "State": {
                "Code": 16,
                "Name": "running"
            },
            "OwnerId": "123412341234",
            "Tags": [
                {
                    "Key": "MyTagName",
                    "Value": "my-tag-value"
                }
            ],
            "ImageMetadata": {
                "ImageId": "ami-0b752bf1df193a6c4",
                "Name": "al2023-ami-2023.5.20240819.0-kernel-6.1-x86_64",
                "OwnerId": "137112412989",
                "State": "available",
                "ImageOwnerAlias": "amazon",
                "CreationDate": "2023-01-25T17:20:40Z",
                "DeprecationTime": "2025-01-25T17:20:40Z",
                "IsPublic": true
            }
        },
        {
            "InstanceId": "i-0987654321EXAMPLE",
            "InstanceType": "t2.micro",
            "LaunchTime": "2024-08-28T11:25:45+00:00",
            "AvailabilityZone": "us-east-1a",
            "State": {
                "Code": 16,
                "Name": "running"
            },
            "OwnerId": "123412341234",
            "Tags": [
                {
                    "Key": "MyTagName",
                    "Value": "my-tag-value"
                }
            ],
            "ImageMetadata": {
                "ImageId": "ami-0b752bf1df193a6c4",
                "Name": "al2023-ami-2023.5.20240819.0-kernel-6.1-x86_64",
                "OwnerId": "137112412989",
                "State": "available",
                "ImageOwnerAlias": "amazon",
                "CreationDate": "2023-01-25T17:20:40Z",
                "DeprecationTime": "2025-01-25T17:20:40Z",
                "IsPublic": true
            }
        }
    ],
    "NextToken": "...EXAMPLEV7ixRYHwIAABAA2JHaFxLnDAzpatfEXAMPLE..."
}
```
Untuk informasi selengkapnya, lihat [Gambar Mesin Amazon di Amazon EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [DescribeInstanceImageMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-image-metadata.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-status`
<a name="ec2_DescribeInstanceStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-status`.

**AWS CLI**  
**Untuk menjelaskan status instans**  
Contoh `describe-instance-status` berikut menjelaskan status saat ini dari instans tertentu.  

```
aws ec2 describe-instance-status \
    --instance-ids i-1234567890abcdef0
```
Output:  

```
{
    "InstanceStatuses": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "InstanceState": {
                "Code": 16,
                "Name": "running"
            },
            "AvailabilityZone": "us-east-1d",
            "SystemStatus": {
                "Status": "ok",
                "Details": [
                    {
                        "Status": "passed",
                        "Name": "reachability"
                    }
                ]
            },
            "InstanceStatus": {
                "Status": "ok",
                "Details": [
                    {
                        "Status": "passed",
                        "Name": "reachability"
                    }
                ]
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pantau status instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/monitoring-instances-status-check.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeInstanceStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-topology`
<a name="ec2_DescribeInstanceTopology_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-topology`.

**AWS CLI**  
**Untuk menggambarkan topologi instance dari semua instans Anda**  
`describe-instance-topology`Contoh berikut menjelaskan topologi semua instance Anda yang cocok dengan tipe instans yang didukung untuk perintah ini.  

```
aws ec2 describe-instance-topology \
    --region us-west-2
```
Output:  

```
{
    "Instances": [
        {
            "InstanceId": "i-1111111111example",
            "InstanceType": "p4d.24xlarge",
            "GroupName": "my-ml-cpg",
            "NetworkNodes": [
                "nn-1111111111example",
                "nn-2222222222example",
                "nn-3333333333example"
            ],
            "ZoneId": "usw2-az2",
            "AvailabilityZone": "us-west-2a"
        },
        {
            "InstanceId": "i-2222222222example",
            "InstanceType": "p4d.24xlarge",
            "NetworkNodes": [
                "nn-1111111111example",
                "nn-2222222222example",
                "nn-3333333333example"
            ],
            "ZoneId": "usw2-az2",
            "AvailabilityZone": "us-west-2a"
        },
        {
            "InstanceId": "i-3333333333example",
            "InstanceType": "trn1.32xlarge",
            "NetworkNodes": [
                "nn-1212121212example",
                "nn-1211122211example",
                "nn-1311133311example"
            ],
            "ZoneId": "usw2-az4",
            "AvailabilityZone": "us-west-2d"
        },
        {
            "InstanceId": "i-444444444example",
            "InstanceType": "trn1.2xlarge",
            "NetworkNodes": [
                "nn-1111111111example",
                "nn-5434334334example",
                "nn-1235301234example"
            ],
            "ZoneId": "usw2-az2",
            "AvailabilityZone": "us-west-2a"
        }
    ],
    "NextToken": "SomeEncryptedToken"
}
```
*Untuk informasi selengkapnya, termasuk contoh lainnya, lihat [topologi instans Amazon EC2 di Panduan Pengguna](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-instance-topology.html) Amazon EC2.*  
+  Untuk detail API, lihat [DescribeInstanceTopology](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-topology.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-type-offerings`
<a name="ec2_DescribeInstanceTypeOfferings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-type-offerings`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan jenis instans yang ditawarkan di Wilayah**  
`describe-instance-type-offerings`Contoh berikut mencantumkan jenis instance yang ditawarkan di Wilayah yang dikonfigurasi sebagai Region default untuk AWS CLI.  

```
aws ec2 describe-instance-type-offerings
```
Untuk mencantumkan jenis instance yang ditawarkan di Region yang berbeda, tentukan Region menggunakan `--region` parameter.  

```
aws ec2 describe-instance-type-offerings \
    --region us-east-2
```
Output:  

```
{
  "InstanceTypeOfferings": [
      {
          "InstanceType": "m5.2xlarge",
          "LocationType": "region",
          "Location": "us-east-2"
      },
      {
          "InstanceType": "t3.micro",
          "LocationType": "region",
          "Location": "us-east-2"
      },
      ...
  ]
}
```
**Contoh 2: Untuk mencantumkan jenis instans yang ditawarkan di Availability Zone**  
`describe-instance-type-offerings`Contoh berikut mencantumkan jenis instance yang ditawarkan di Availability Zone yang ditentukan. Availability Zone harus berada di Region yang ditentukan.  

```
aws ec2 describe-instance-type-offerings \
    --location-type availability-zone \
    --filters Name=location,Values=us-east-2a \
    --region us-east-2
```
**Contoh 3: Untuk memeriksa apakah jenis instance didukung**  
`describe-instance-type-offerings`Perintah berikut menunjukkan apakah jenis `c5.xlarge` instance didukung di Wilayah tertentu.  

```
aws ec2 describe-instance-type-offerings \
    --filters Name=instance-type,Values=c5.xlarge \
    --region us-east-2
```
`describe-instance-type-offerings`Contoh berikut mencantumkan semua jenis instance C5 yang didukung di Wilayah tertentu.  

```
aws ec2 describe-instance-type-offerings \
    --filters Name=instance-type,Values=c5* \
    --query "InstanceTypeOfferings[].InstanceType" \
    --region us-east-2
```
Output:  

```
[
    "c5d.12xlarge",
    "c5d.9xlarge",
    "c5n.xlarge",
    "c5.xlarge",
    "c5d.metal",
    "c5n.metal",
    "c5.large",
    "c5d.2xlarge",
    "c5n.4xlarge",
    "c5.2xlarge",
    "c5n.large",
    "c5n.9xlarge",
    "c5d.large",
    "c5.18xlarge",
    "c5d.18xlarge",
    "c5.12xlarge",
    "c5n.18xlarge",
    "c5.metal",
    "c5d.4xlarge",
    "c5.24xlarge",
    "c5d.xlarge",
    "c5n.2xlarge",
    "c5d.24xlarge",
    "c5.9xlarge",
    "c5.4xlarge"
]
```
+  Untuk detail API, lihat [DescribeInstanceTypeOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-type-offerings.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-types`
<a name="ec2_DescribeInstanceTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-types`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan tipe instans**  
Contoh `describe-instance-types` berikut menampilkan detail untuk tipe instans tertentu.  

```
aws ec2 describe-instance-types \
    --instance-types t2.micro
```
Output:  

```
{
    "InstanceTypes": [
        {
            "InstanceType": "t2.micro",
            "CurrentGeneration": true,
            "FreeTierEligible": true,
            "SupportedUsageClasses": [
                "on-demand",
                "spot"
            ],
            "SupportedRootDeviceTypes": [
                "ebs"
            ],
            "BareMetal": false,
            "Hypervisor": "xen",
            "ProcessorInfo": {
                "SupportedArchitectures": [
                    "i386",
                    "x86_64"
                ],
                "SustainedClockSpeedInGhz": 2.5
            },
            "VCpuInfo": {
                "DefaultVCpus": 1,
                "DefaultCores": 1,
                "DefaultThreadsPerCore": 1,
                "ValidCores": [
                    1
                ],
                "ValidThreadsPerCore": [
                    1
                ]
            },
            "MemoryInfo": {
                "SizeInMiB": 1024
            },
            "InstanceStorageSupported": false,
            "EbsInfo": {
                "EbsOptimizedSupport": "unsupported",
                "EncryptionSupport": "supported"
            },
            "NetworkInfo": {
                "NetworkPerformance": "Low to Moderate",
                "MaximumNetworkInterfaces": 2,
                "Ipv4AddressesPerInterface": 2,
                "Ipv6AddressesPerInterface": 2,
                "Ipv6Supported": true,
                "EnaSupport": "unsupported"
            },
            "PlacementGroupInfo": {
                "SupportedStrategies": [
                    "partition",
                    "spread"
                ]
            },
            "HibernationSupported": false,
            "BurstablePerformanceSupported": true,
            "DedicatedHostsSupported": false,
            "AutoRecoverySupported": true
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Jenis Instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-types.html) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
**Contoh 2: Untuk memfilter tipe instans yang tersedia**  
Anda dapat menentukan filter guna mencakup hasil untuk tipe instans yang memiliki karakteristik khusus. Contoh `describe-instance-types` berikut mencantumkan tipe instans yang mendukung hibernasi.  

```
aws ec2 describe-instance-types \
    --filters Name=hibernation-supported,Values=true --query 'InstanceTypes[*].InstanceType'
```
Output:  

```
[
    "m5.8xlarge",
    "r3.large",
    "c3.8xlarge",
    "r5.large",
    "m4.4xlarge",
    "c4.large",
    "m5.xlarge",
    "m4.xlarge",
    "c3.large",
    "c4.8xlarge",
    "c4.4xlarge",
    "c5.xlarge",
    "c5.12xlarge",
    "r5.4xlarge",
    "c5.4xlarge"
]
```
Untuk informasi selengkapnya, lihat [Jenis Instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-types.html) di *Panduan Pengguna Amazon Elastic Compute Cloud untuk Instans Linux*.  
+  Untuk detail API, lihat [DescribeInstanceTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-instances`
<a name="ec2_DescribeInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instances`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan instans**  
Contoh `describe-instances` berikut menjelaskan instans tertentu.  

```
aws ec2 describe-instances \
    --instance-ids i-1234567890abcdef0
```
Output:  

```
{
    "Reservations": [
        {
            "Groups": [],
            "Instances": [
                {
                    "AmiLaunchIndex": 0,
                    "ImageId": "ami-0abcdef1234567890",
                    "InstanceId": "i-1234567890abcdef0",
                    "InstanceType": "t3.nano",
                    "KeyName": "my-key-pair",
                    "LaunchTime": "2022-11-15T10:48:59+00:00",
                    "Monitoring": {
                        "State": "disabled"
                    },
                    "Placement": {
                        "AvailabilityZone": "us-east-2a",
                        "GroupName": "",
                        "Tenancy": "default"
                    },
                    "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal",
                    "PrivateIpAddress": "10-0-0-157",
                    "ProductCodes": [],
                    "PublicDnsName": "ec2-34-253-223-13.us-east-2.compute.amazonaws.com",
                    "PublicIpAddress": "34.253.223.13",
                    "State": {
                        "Code": 16,
                        "Name": "running"
                    },
                    "StateTransitionReason": "",
                    "SubnetId": "subnet-04a636d18e83cfacb",
                    "VpcId": "vpc-1234567890abcdef0",
                    "Architecture": "x86_64",
                    "BlockDeviceMappings": [
                        {
                            "DeviceName": "/dev/xvda",
                            "Ebs": {
                                "AttachTime": "2022-11-15T10:49:00+00:00",
                                "DeleteOnTermination": true,
                                "Status": "attached",
                                "VolumeId": "vol-02e6ccdca7de29cf2"
                            }
                        }
                    ],
                    "ClientToken": "1234abcd-1234-abcd-1234-d46a8903e9bc",
                    "EbsOptimized": true,
                    "EnaSupport": true,
                    "Hypervisor": "xen",
                    "IamInstanceProfile": {
                        "Arn": "arn:aws:iam::111111111111:instance-profile/AmazonSSMRoleForInstancesQuickSetup",
                        "Id": "111111111111111111111"
                    },
                    "NetworkInterfaces": [
                        {
                            "Association": {
                                "IpOwnerId": "amazon",
                                "PublicDnsName": "ec2-34-253-223-13.us-east-2.compute.amazonaws.com",
                                "PublicIp": "34.253.223.13"
                            },
                            "Attachment": {
                                "AttachTime": "2022-11-15T10:48:59+00:00",
                                "AttachmentId": "eni-attach-1234567890abcdefg",
                                "DeleteOnTermination": true,
                                "DeviceIndex": 0,
                                "Status": "attached",
                                "NetworkCardIndex": 0
                            },
                            "Description": "",
                            "Groups": [
                                {
                                    "GroupName": "launch-wizard-146",
                                    "GroupId": "sg-1234567890abcdefg"
                                }
                            ],
                            "Ipv6Addresses": [],
                            "MacAddress": "00:11:22:33:44:55",
                            "NetworkInterfaceId": "eni-1234567890abcdefg",
                            "OwnerId": "104024344472",
                            "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal",
                            "PrivateIpAddress": "10-0-0-157",
                            "PrivateIpAddresses": [
                                {
                                    "Association": {
                                        "IpOwnerId": "amazon",
                                        "PublicDnsName": "ec2-34-253-223-13.us-east-2.compute.amazonaws.com",
                                        "PublicIp": "34.253.223.13"
                                    },
                                    "Primary": true,
                                    "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal",
                                    "PrivateIpAddress": "10-0-0-157"
                                }
                            ],
                            "SourceDestCheck": true,
                            "Status": "in-use",
                            "SubnetId": "subnet-1234567890abcdefg",
                            "VpcId": "vpc-1234567890abcdefg",
                            "InterfaceType": "interface"
                        }
                    ],
                    "RootDeviceName": "/dev/xvda",
                    "RootDeviceType": "ebs",
                    "SecurityGroups": [
                        {
                            "GroupName": "launch-wizard-146",
                            "GroupId": "sg-1234567890abcdefg"
                        }
                    ],
                    "SourceDestCheck": true,
                    "Tags": [
                        {
                            "Key": "Name",
                            "Value": "my-instance"
                        }
                    ],
                    "VirtualizationType": "hvm",
                    "CpuOptions": {
                        "CoreCount": 1,
                        "ThreadsPerCore": 2
                    },
                    "CapacityReservationSpecification": {
                        "CapacityReservationPreference": "open"
                    },
                    "HibernationOptions": {
                        "Configured": false
                    },
                    "MetadataOptions": {
                        "State": "applied",
                        "HttpTokens": "optional",
                        "HttpPutResponseHopLimit": 1,
                        "HttpEndpoint": "enabled",
                        "HttpProtocolIpv6": "disabled",
                        "InstanceMetadataTags": "enabled"
                    },
                    "EnclaveOptions": {
                        "Enabled": false
                    },
                    "PlatformDetails": "Linux/UNIX",
                    "UsageOperation": "RunInstances",
                    "UsageOperationUpdateTime": "2022-11-15T10:48:59+00:00",
                    "PrivateDnsNameOptions": {
                        "HostnameType": "ip-name",
                        "EnableResourceNameDnsARecord": true,
                        "EnableResourceNameDnsAAAARecord": false
                    },
                    "MaintenanceOptions": {
                        "AutoRecovery": "default"
                    }
                }
            ],
            "OwnerId": "111111111111",
            "ReservationId": "r-1234567890abcdefg"
        }
    ]
}
```
**Contoh 2: Untuk memfilter instans dengan tipe tertentu**  
Contoh `describe-instances` berikut menggunakan filter guna mencakup hasil untuk instans dari tipe tertentu.  

```
aws ec2 describe-instances \
    --filters Name=instance-type,Values=m5.large
```
Untuk contoh output, lihat Contoh 1.  
Untuk informasi selengkapnya, lihat [Cantumkan dan filter menggunakan CLI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) di *Panduan Pengguna Amazon EC2*.  
**Contoh 3: Untuk memfilter instans dengan tipe dan Zona Ketersediaan tertentu**  
Contoh `describe-instances` berikut menggunakan banyak filter guna mencakup hasil untuk instans dengan tipe tertentu yang juga ada di Zona Ketersediaan tertentu.  

```
aws ec2 describe-instances \
    --filters Name=instance-type,Values=t2.micro,t3.micro Name=availability-zone,Values=us-east-2c
```
Untuk contoh output, lihat Contoh 1.  
**Contoh 4: Untuk memfilter instans dengan tipe dan Zona Ketersediaan tertentu menggunakan file JSON**  
Contoh `describe-instances` berikut menggunakan file input JSON untuk melakukan pemfilteran yang sama seperti contoh sebelumnya. Ketika filter menjadi lebih rumit, filter tersebut dapat lebih mudah ditentukan dalam file JSON.  

```
aws ec2 describe-instances \
    --filters file://filters.json
```
Isi dari `filters.json`:  

```
[
    {
        "Name": "instance-type",
        "Values": ["t2.micro", "t3.micro"]
    },
    {
        "Name": "availability-zone",
        "Values": ["us-east-2c"]
    }
]
```
Untuk contoh output, lihat Contoh 1.  
**Contoh 5: Untuk memfilter instans dengan tanda Pemilik tertentu**  
Contoh `describe-instances` berikut menggunakan filter tanda guna mencakup hasil untuk instans yang memiliki tanda dengan kunci tanda tertentu (Pemilik), terlepas dari nilai tandanya.  

```
aws ec2 describe-instances \
    --filters "Name=tag-key,Values=Owner"
```
Untuk contoh output, lihat Contoh 1.  
**Contoh 6: Untuk memfilter instans dengan nilai tanda my-team tertentu**  
Contoh `describe-instances` berikut menggunakan filter tanda guna mencakup hasil untuk instans yang memiliki tanda dengan kunci tanda tertentu (my-team), terlepas dari nilai tandanya.  

```
aws ec2 describe-instances \
    --filters "Name=tag-value,Values=my-team"
```
Untuk contoh output, lihat Contoh 1.  
**Contoh 7: Untuk memfilter instans dengan tanda Pemilik dan nilai my-team tertentu**  
Contoh `describe-instances` berikut menggunakan filter tanda guna mencakup hasil untuk instans yang memiliki tanda tertentu (Pemilik=my-team).  

```
aws ec2 describe-instances \
    --filters "Name=tag:Owner,Values=my-team"
```
Untuk contoh output, lihat Contoh 1.  
**Contoh 8: Untuk menampilkan hanya instance dan subnet IDs untuk semua instance**  
`describe-instances`Contoh berikut menggunakan `--query` parameter untuk menampilkan hanya instance dan subnet IDs untuk semua instance, dalam format JSON.  
Linux dan macOS:  

```
aws ec2 describe-instances \
    --query 'Reservations[*].Instances[*].{Instance:InstanceId,Subnet:SubnetId}' \
    --output json
```
Windows:  

```
aws ec2 describe-instances ^
    --query "Reservations[*].Instances[*].{Instance:InstanceId,Subnet:SubnetId}" ^
    --output json
```
Output:  

```
[
    {
        "Instance": "i-057750d42936e468a",
        "Subnet": "subnet-069beee9b12030077"
    },
    {
        "Instance": "i-001efd250faaa6ffa",
        "Subnet": "subnet-0b715c6b7db68927a"
    },
    {
        "Instance": "i-027552a73f021f3bd",
        "Subnet": "subnet-0250c25a1f4e15235"
    }
    ...
]
```
**Contoh 9: Untuk memfilter instance dari jenis yang ditentukan dan hanya menampilkan instance-nya IDs**  
`describe-instances`Contoh berikut menggunakan filter untuk cakupan hasil untuk contoh dari jenis yang ditentukan dan `--query` parameter untuk menampilkan hanya contoh IDs.  

```
aws ec2 describe-instances \
    --filters "Name=instance-type,Values=t2.micro" \
    --query "Reservations[*].Instances[*].[InstanceId]" \
    --output text
```
Output:  

```
i-031c0dc19de2fb70c
i-00d8bff789a736b75
i-0b715c6b7db68927a
i-0626d4edd54f1286d
i-00b8ae04f9f99908e
i-0fc71c25d2374130c
```
**Contoh 10: Untuk memfilter instance dari tipe yang ditentukan dan hanya menampilkan instancenya IDs, Availability Zone, dan nilai tag yang ditentukan**  
Contoh `describe-instances` berikut menampilkan ID instans, Zona Ketersediaan, dan nilai dari tanda `Name` untuk instans yang memiliki tanda dengan nama `tag-key`, dalam format tabel.  
Linux dan macOS:  

```
aws ec2 describe-instances \
    --filters Name=tag-key,Values=Name \
    --query 'Reservations[*].Instances[*].{Instance:InstanceId,AZ:Placement.AvailabilityZone,Name:Tags[?Key==`Name`]|[0].Value}' \
    --output table
```
Windows:  

```
aws ec2 describe-instances ^
    --filters Name=tag-key,Values=Name ^
    --query "Reservations[*].Instances[*].{Instance:InstanceId,AZ:Placement.AvailabilityZone,Name:Tags[?Key=='Name']|[0].Value}" ^
    --output table
```
Output:  

```
-------------------------------------------------------------
|                     DescribeInstances                     |
+--------------+-----------------------+--------------------+
|      AZ      |       Instance        |        Name        |
+--------------+-----------------------+--------------------+
|  us-east-2b  |  i-057750d42936e468a  |  my-prod-server    |
|  us-east-2a  |  i-001efd250faaa6ffa  |  test-server-1     |
|  us-east-2a  |  i-027552a73f021f3bd  |  test-server-2     |
+--------------+-----------------------+--------------------+
```
**Contoh 11: Untuk menjelaskan instans dalam grup penempatan partisi**  
Contoh `describe-instances` berikut menjelaskan instans tertentu. Output-nya mencakup informasi penempatan untuk instans, yang berisi nama grup penempatan dan nomor partisi untuk instans tersebut.  

```
aws ec2 describe-instances \
    --instance-ids i-0123a456700123456 \
    --query "Reservations[*].Instances[*].Placement"
```
Output:  

```
[
    [
        {
            "AvailabilityZone": "us-east-1c",
            "GroupName": "HDFS-Group-A",
            "PartitionNumber": 3,
            "Tenancy": "default"
        }

    ]
]
```
Untuk informasi selengkapnya, lihat [Menjelaskan instans dalam grup penempatan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/placement-groups.html#describe-instance-placement) di *Panduan Pengguna Amazon EC2*.  
**Contoh 12: Untuk memfilter ke instans dengan grup penempatan dan nomor partisi tertentu**  
Contoh `describe-instances` berikut memfilter hasil menjadi hanya instans dengan grup penempatan dan nomor partisi tertentu.  

```
aws ec2 describe-instances \
    --filters "Name=placement-group-name,Values=HDFS-Group-A" "Name=placement-partition-number,Values=7"
```
Berikut ini hanya menunjukkan informasi yang relevan dari output.  

```
"Instances": [
    {
        "InstanceId": "i-0123a456700123456",
        "InstanceType": "r4.large",
        "Placement": {
            "AvailabilityZone": "us-east-1c",
            "GroupName": "HDFS-Group-A",
            "PartitionNumber": 7,
            "Tenancy": "default"
        }
    },
    {
        "InstanceId": "i-9876a543210987654",
        "InstanceType": "r4.large",
        "Placement": {
            "AvailabilityZone": "us-east-1c",
            "GroupName": "HDFS-Group-A",
            "PartitionNumber": 7,
            "Tenancy": "default"
        }
    ],
```
Untuk informasi selengkapnya, lihat [Menjelaskan instans dalam grup penempatan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/placement-groups.html#describe-instance-placement) di *Panduan Pengguna Amazon EC2*.  
**Contoh 13: Untuk memfilter ke instans yang dikonfigurasikan guna memungkinkan akses ke tanda dari metadata instans**  
Contoh `describe-instances` berikut memfilter hasil menjadi hanya instans yang dikonfigurasikan guna memungkinkan akses ke tanda instans dari metadata instans.  

```
aws ec2 describe-instances \
    --filters "Name=metadata-options.instance-metadata-tags,Values=enabled" \
    --query "Reservations[*].Instances[*].InstanceId" \
    --output text
```
Berikut menunjukkan output yang diharapkan.  

```
i-1234567890abcdefg
i-abcdefg1234567890
i-11111111aaaaaaaaa
i-aaaaaaaa111111111
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tanda instans dalam metadata instans](https://docs.aws.amazon.com/en_us/AWSEC2/latest/UserGuide/Using_Tags.html#view-access-to-tags-in-IMDS) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-internet-gateways`
<a name="ec2_DescribeInternetGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-internet-gateways`.

**AWS CLI**  
**Untuk menggambarkan gateway internet**  
`describe-internet-gateways`Contoh berikut menjelaskan gateway internet yang ditentukan.  

```
aws ec2 describe-internet-gateways \
    --internet-gateway-ids igw-0d0fb496b3EXAMPLE
```
Output:  

```
{
    "InternetGateways": [
        {
            "Attachments": [
                {
                    "State": "available",
                    "VpcId": "vpc-0a60eb65b4EXAMPLE"
                }
            ],
            "InternetGatewayId": "igw-0d0fb496b3EXAMPLE",
            "OwnerId": "123456789012",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "my-igw"
                }
            ]
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Gateway internet](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DescribeInternetGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-internet-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-ipam-pools`
<a name="ec2_DescribeIpamPools_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ipam-pools`.

**AWS CLI**  
**Untuk melihat detail untuk kolam IPAM**  
`describe-ipam-pools`Contoh berikut menunjukkan rincian untuk pool.  
(Linux):  

```
aws ec2 describe-ipam-pools \
    --filters Name=owner-id,Values=123456789012 Name=ipam-scope-id,Values=ipam-scope-02fc38cd4c48e7d38
```
(Windows):  

```
aws ec2 describe-ipam-pools ^
    --filters Name=owner-id,Values=123456789012 Name=ipam-scope-id,Values=ipam-scope-02fc38cd4c48e7d38
```
Output:  

```
{
    "IpamPools": [
        {
            "OwnerId": "123456789012",
            "IpamPoolId": "ipam-pool-02ec043a19bbe5d08",
            "IpamPoolArn": "arn:aws:ec2::123456789012:ipam-pool/ipam-pool-02ec043a19bbe5d08",
            "IpamScopeArn": "arn:aws:ec2::123456789012:ipam-scope/ipam-scope-02fc38cd4c48e7d38",
            "IpamScopeType": "private",
            "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
            "IpamRegion": "us-east-1",
            "Locale": "None",
            "PoolDepth": 1,
            "State": "create-complete",
            "AutoImport": true,
            "AddressFamily": "ipv4",
            "AllocationMinNetmaskLength": 16,
            "AllocationMaxNetmaskLength": 26,
            "AllocationDefaultNetmaskLength": 24,
            "AllocationResourceTags": [
                {
                    "Key": "Environment",
                    "Value": "Preprod"
                }
            ],
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "Preprod pool"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeIpamPools](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-ipam-pools.html)di *Referensi AWS CLI Perintah*. 

### `describe-ipam-resource-discoveries`
<a name="ec2_DescribeIpamResourceDiscoveries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ipam-resource-discoveries`.

**AWS CLI**  
**Contoh 1: Lihat detail lengkap penemuan sumber daya**  
Dalam contoh ini, Anda adalah admin IPAM yang didelegasikan yang ingin membuat dan berbagi penemuan sumber daya dengan admin IPAM di AWS Organisasi lain sehingga admin dapat mengelola dan memantau alamat IP sumber daya di organisasi Anda.  
Contoh ini mungkin berguna jika:  
Anda mencoba membuat penemuan sumber daya, tetapi Anda mendapat kesalahan bahwa Anda telah mencapai batas 1. Anda menyadari bahwa Anda mungkin telah membuat penemuan sumber daya dan Anda ingin melihatnya di akun Anda.Anda memiliki sumber daya di Wilayah yang tidak ditemukan oleh IPAM. Anda ingin melihat yang `--operating-regions` ditentukan untuk sumber daya dan memastikan bahwa Anda telah menambahkan Wilayah yang tepat sebagai Wilayah operasi sehingga sumber daya di sana dapat ditemukan.  
`describe-ipam-resource-discoveries`Contoh berikut mencantumkan rincian penemuan sumber daya di AWS akun Anda. Anda dapat memiliki satu penemuan sumber daya per AWS Wilayah.  

```
aws ec2 describe-ipam-resource-discoveries \
    --region us-east-1
```
Output:  

```
{
    "IpamResourceDiscoveries": [
        {
            "OwnerId": "149977607591",
            "IpamResourceDiscoveryId": "ipam-res-disco-0f8bdee9067137c0d",
            "IpamResourceDiscoveryArn": "arn:aws:ec2::149977607591:ipam-resource-discovery/ipam-res-disco-0f8bdee9067137c0d",
            "IpamResourceDiscoveryRegion": "us-east-1",
            "OperatingRegions": [
                {
                    "RegionName": "us-east-1"
                }
            ],
            "IsDefault": false,
            "State": "create-complete",
            "Tags": []
    }
]
}
```
Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan akun di luar organisasi Anda](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam-outside-org.html) di Panduan Pengguna *Amazon VPC IPAM*.  
**Contoh 2: Lihat hanya penemuan sumber daya IDs**  
`describe-ipam-resource-discoveries`Contoh berikut mencantumkan ID penemuan sumber daya di AWS akun Anda. Anda dapat memiliki satu penemuan sumber daya per AWS Wilayah.  

```
aws ec2 describe-ipam-resource-discoveries \
    --query "IpamResourceDiscoveries[*].IpamResourceDiscoveryId" \
    --output text
```
Output:  

```
ipam-res-disco-0481e39b242860333
```
Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan akun di luar organisasi Anda](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam-outside-org.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [DescribeIpamResourceDiscoveries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-ipam-resource-discoveries.html)di *Referensi AWS CLI Perintah*. 

### `describe-ipam-resource-discovery-associations`
<a name="ec2_DescribeIpamResourceDiscoveryAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ipam-resource-discovery-associations`.

**AWS CLI**  
**Untuk melihat semua asosiasi penemuan sumber daya dengan IPAM Anda**  
Dalam contoh ini, Anda adalah admin yang didelegasikan IPAM yang telah mengaitkan penemuan sumber daya dengan IPAM Anda untuk mengintegrasikan akun lain dengan IPAM Anda. Anda telah memperhatikan bahwa IPAM Anda tidak menemukan sumber daya di Wilayah operasi penemuan sumber daya seperti yang diharapkan. Anda ingin memeriksa status dan status penemuan sumber daya untuk memastikan bahwa akun yang membuatnya masih aktif dan penemuan sumber daya masih dibagikan.  
`--region`Harus menjadi wilayah asal IPAM Anda.  
`describe-ipam-resource-discovery-associations`Contoh berikut mencantumkan asosiasi penemuan sumber daya di AWS akun Anda.  

```
aws ec2 describe-ipam-resource-discovery-associations \
    --region us-east-1
```
Output:  

```
{
    "IpamResourceDiscoveryAssociations": [
        {
            "OwnerId": "320805250157",
            "IpamResourceDiscoveryAssociationId": "ipam-res-disco-assoc-05e6b45eca5bf5cf7",
            "IpamResourceDiscoveryAssociationArn": "arn:aws:ec2::320805250157:ipam-resource-discovery-association/ipam-res-disco-assoc-05e6b45eca5bf5cf7",
            "IpamResourceDiscoveryId": "ipam-res-disco-0f4ef577a9f37a162",
            "IpamId": "ipam-005f921c17ebd5107",
            "IpamArn": "arn:aws:ec2::320805250157:ipam/ipam-005f921c17ebd5107",
            "IpamRegion": "us-east-1",
            "IsDefault": true,
            "ResourceDiscoveryStatus": "active",
            "State": "associate-complete",
            "Tags": []
        },
        {
            "OwnerId": "149977607591",
            "IpamResourceDiscoveryAssociationId": "ipam-res-disco-assoc-0dfd21ae189ab5f62",
            "IpamResourceDiscoveryAssociationArn": "arn:aws:ec2::149977607591:ipam-resource-discovery-association/ipam-res-disco-assoc-0dfd21ae189ab5f62",
            "IpamResourceDiscoveryId": "ipam-res-disco-0365d2977fc1672fe",
            "IpamId": "ipam-005f921c17ebd5107",
            "IpamArn": "arn:aws:ec2::149977607591:ipam/ipam-005f921c17ebd5107",
            "IpamRegion": "us-east-1",
            "IsDefault": false,
            "ResourceDiscoveryStatus": "active",
            "State": "create-complete",
            "Tags": []
        }
    ]
}
```
Dalam contoh ini, setelah menjalankan perintah ini, Anda melihat bahwa Anda memiliki satu penemuan sumber daya non-default (`"IsDefault": false ``) that is ``"ResourceDiscoveryStatus": "not-found"`dan`"State": "create-complete"`. Akun pemilik penemuan sumber daya telah ditutup. Jika, dalam kasus lain, Anda perhatikan itu `"ResourceDiscoveryStatus": "not-found"` dan`"State": "associate-complete"`, ini menunjukkan bahwa salah satu dari hal berikut telah terjadi:  
Penemuan sumber daya telah dihapus oleh pemilik penemuan sumber daya.Pemilik penemuan sumber daya tidak membagikan penemuan sumber daya.  
Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan akun di luar organisasi Anda](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam-outside-org.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [DescribeIpamResourceDiscoveryAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-ipam-resource-discovery-associations.html)di *Referensi AWS CLI Perintah*. 

### `describe-ipam-scopes`
<a name="ec2_DescribeIpamScopes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ipam-scopes`.

**AWS CLI**  
**Untuk melihat detail untuk cakupan IPAM**  
`describe-ipam-scopes`Contoh berikut menunjukkan rincian untuk cakupan.  

```
aws ec2 describe-ipam-scopes \
    --filters Name=owner-id,Values=123456789012 Name=ipam-id,Values=ipam-08440e7a3acde3908
```
Output:  

```
{
    "IpamScopes": [
        {
            "OwnerId": "123456789012",
            "IpamScopeId": "ipam-scope-02fc38cd4c48e7d38",
            "IpamScopeArn": "arn:aws:ec2::123456789012:ipam-scope/ipam-scope-02fc38cd4c48e7d38",
            "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
            "IpamRegion": "us-east-1",
            "IpamScopeType": "private",
            "IsDefault": true,
            "PoolCount": 2,
            "State": "create-complete",
            "Tags": []
        },
        {
            "OwnerId": "123456789012",
            "IpamScopeId": "ipam-scope-0b9eed026396dbc16",
            "IpamScopeArn": "arn:aws:ec2::123456789012:ipam-scope/ipam-scope-0b9eed026396dbc16",
            "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
            "IpamRegion": "us-east-1",
            "IpamScopeType": "public",
            "IsDefault": true,
            "PoolCount": 0,
            "State": "create-complete",
            "Tags": []
        },
        {
            "OwnerId": "123456789012",
            "IpamScopeId": "ipam-scope-0f1aff29486355c22",
            "IpamScopeArn": "arn:aws:ec2::123456789012:ipam-scope/ipam-scope-0f1aff29486355c22",
            "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
            "IpamRegion": "us-east-1",
            "IpamScopeType": "private",
            "IsDefault": false,
            "Description": "Example description",
            "PoolCount": 0,
            "State": "create-complete",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "Example name value"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeIpamScopes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-ipam-scopes.html)di *Referensi AWS CLI Perintah*. 

### `describe-ipams`
<a name="ec2_DescribeIpams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ipams`.

**AWS CLI**  
**Untuk melihat detail untuk IPAM**  
`describe-ipams`Contoh berikut menunjukkan rincian IPAM.  

```
aws ec2 describe-ipams \
    --filters Name=owner-id,Values=123456789012
```
Output:  

```
{
    "Ipams": [
        {
            "OwnerId": "123456789012",
            "IpamId": "ipam-08440e7a3acde3908",
            "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
            "IpamRegion": "us-east-1",
            "PublicDefaultScopeId": "ipam-scope-0b9eed026396dbc16",
            "PrivateDefaultScopeId": "ipam-scope-02fc38cd4c48e7d38",
            "ScopeCount": 3,
            "OperatingRegions": [
                {
                    "RegionName": "us-east-1"
                },
                {
                    "RegionName": "us-east-2"
                },
                {
                    "RegionName": "us-west-1"
                }
            ],
            "State": "create-complete",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "ExampleIPAM"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeIpams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-ipams.html)di *Referensi AWS CLI Perintah*. 

### `describe-ipv6-pools`
<a name="ec2_DescribeIpv6Pools_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ipv6-pools`.

**AWS CLI**  
**Untuk menggambarkan kumpulan IPv6 alamat Anda**  
`describe-ipv6-pools`Contoh berikut menampilkan detail untuk semua kumpulan IPv6 alamat Anda.  

```
aws ec2 describe-ipv6-pools
```
Output:  

```
{
    "Ipv6Pools": [
        {
            "PoolId": "ipv6pool-ec2-012345abc12345abc",
            "PoolCidrBlocks": [
                {
                    "Cidr": "2001:db8:123::/48"
                }
            ],
            "Tags": [
                {
                    "Key": "pool-1",
                    "Value": "public"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeIpv6Pools](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-ipv6-pools.html) di *AWS CLI Command Reference*. 

### `describe-key-pairs`
<a name="ec2_DescribeKeyPairs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-key-pairs`.

**AWS CLI**  
**Untuk menampilkan pasangan kunci**  
Contoh `describe-key-pairs` berikut menampilkan informasi tentang pasangan kunci tertentu.  

```
aws ec2 describe-key-pairs \
    --key-names my-key-pair
```
Output:  

```
{
    "KeyPairs": [
        {
            "KeyPairId": "key-0b94643da6EXAMPLE",
            "KeyFingerprint": "1f:51:ae:28:bf:89:e9:d8:1f:25:5d:37:2d:7d:b8:ca:9f:f5:f1:6f",
            "KeyName": "my-key-pair",
            "KeyType": "rsa",
            "Tags": [],
            "CreateTime": "2022-05-27T21:51:16.000Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Jelaskan kunci publik](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/describe-keys.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeKeyPairs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-key-pairs.html)di *Referensi AWS CLI Perintah*. 

### `describe-launch-template-versions`
<a name="ec2_DescribeLaunchTemplateVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-launch-template-versions`.

**AWS CLI**  
**Untuk menggambarkan versi template peluncuran**  
Contoh ini menjelaskan versi template peluncuran yang ditentukan.  
Perintah:  

```
aws ec2 describe-launch-template-versions --launch-template-id lt-068f72b72934aff71
```
Output:  

```
{
  "LaunchTemplateVersions": [
      {
          "LaunchTemplateId": "lt-068f72b72934aff71",
          "LaunchTemplateName": "Webservers",
          "VersionNumber": 3,
          "CreatedBy": "arn:aws:iam::123456789102:root",
          "LaunchTemplateData": {
              "KeyName": "kp-us-east",
              "ImageId": "ami-6057e21a",
              "InstanceType": "t2.small",
              "NetworkInterfaces": [
                  {
                      "SubnetId": "subnet-7b16de0c",
                      "DeviceIndex": 0,
                      "Groups": [
                          "sg-7c227019"
                      ]
                  }
              ]
          },
          "DefaultVersion": false,
          "CreateTime": "2017-11-20T13:19:54.000Z"
      },
      {
          "LaunchTemplateId": "lt-068f72b72934aff71",
          "LaunchTemplateName": "Webservers",
          "VersionNumber": 2,
          "CreatedBy": "arn:aws:iam::123456789102:root",
          "LaunchTemplateData": {
              "KeyName": "kp-us-east",
              "ImageId": "ami-6057e21a",
              "InstanceType": "t2.medium",
              "NetworkInterfaces": [
                  {
                      "SubnetId": "subnet-1a2b3c4d",
                      "DeviceIndex": 0,
                      "Groups": [
                          "sg-7c227019"
                      ]
                  }
              ]
          },
          "DefaultVersion": false,
          "CreateTime": "2017-11-20T13:12:32.000Z"
      },
      {
          "LaunchTemplateId": "lt-068f72b72934aff71",
          "LaunchTemplateName": "Webservers",
          "VersionNumber": 1,
          "CreatedBy": "arn:aws:iam::123456789102:root",
          "LaunchTemplateData": {
              "UserData": "",
              "KeyName": "kp-us-east",
              "ImageId": "ami-aabbcc11",
              "InstanceType": "t2.medium",
              "NetworkInterfaces": [
                  {
                      "SubnetId": "subnet-7b16de0c",
                      "DeviceIndex": 0,
                      "DeleteOnTermination": false,
                      "Groups": [
                          "sg-7c227019"
                      ],
                      "AssociatePublicIpAddress": true
                  }
              ]
          },
          "DefaultVersion": true,
          "CreateTime": "2017-11-20T12:52:33.000Z"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeLaunchTemplateVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-launch-template-versions.html)di *Referensi AWS CLI Perintah*. 

### `describe-launch-templates`
<a name="ec2_DescribeLaunchTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-launch-templates`.

**AWS CLI**  
**Untuk mendeskripsikan template peluncuran**  
Contoh ini menjelaskan template peluncuran Anda.  
Perintah:  

```
aws ec2 describe-launch-templates
```
Output:  

```
{
  "LaunchTemplates": [
      {
          "LatestVersionNumber": 2,
          "LaunchTemplateId": "lt-0e06d290751193123",
          "LaunchTemplateName": "TemplateForWebServer",
          "DefaultVersionNumber": 2,
          "CreatedBy": "arn:aws:iam::123456789012:root",
          "CreateTime": "2017-11-27T09:30:23.000Z"
      },
      {
          "LatestVersionNumber": 6,
          "LaunchTemplateId": "lt-0c45b5e061ec98456",
          "LaunchTemplateName": "DBServersTemplate",
          "DefaultVersionNumber": 1,
          "CreatedBy": "arn:aws:iam::123456789012:root",
          "CreateTime": "2017-11-20T09:25:22.000Z"
      },
      {
          "LatestVersionNumber": 1,
          "LaunchTemplateId": "lt-0d47d774e8e52dabc",
          "LaunchTemplateName": "MyLaunchTemplate2",
          "DefaultVersionNumber": 1,
          "CreatedBy": "arn:aws:iam::123456789012:root",
          "CreateTime": "2017-11-02T12:06:21.000Z"
      },
      {
          "LatestVersionNumber": 3,
          "LaunchTemplateId": "lt-01e5f948eb4f589d6",
          "LaunchTemplateName": "testingtemplate2",
          "DefaultVersionNumber": 1,
          "CreatedBy": "arn:aws:sts::123456789012:assumed-role/AdminRole/i-03ee35176e2e5aabc",
          "CreateTime": "2017-12-01T08:19:48.000Z"
      },
  ]
}
```
+  Untuk detail API, lihat [DescribeLaunchTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-launch-templates.html)di *Referensi AWS CLI Perintah*. 

### `describe-local-gateway-route-table-virtual-interface-group-associations`
<a name="ec2_DescribeLocalGatewayRouteTableVirtualInterfaceGroupAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-local-gateway-route-table-virtual-interface-group-associations`.

**AWS CLI**  
**Untuk menggambarkan asosiasi antara grup antarmuka virtual dan tabel rute gateway lokal**  
`describe-local-gateway-route-table-virtual-interface-group-associations`Contoh berikut menjelaskan hubungan antara grup antarmuka virtual dan tabel rute gateway lokal di AWS akun Anda.  

```
aws ec2 describe-local-gateway-route-table-virtual-interface-group-associations
```
Output:  

```
{
    "LocalGatewayRouteTableVirtualInterfaceGroupAssociations": [
        {
            "LocalGatewayRouteTableVirtualInterfaceGroupAssociationId": "lgw-vif-grp-assoc-07145b276bEXAMPLE",
            "LocalGatewayVirtualInterfaceGroupId": "lgw-vif-grp-07145b276bEXAMPLE",
            "LocalGatewayId": "lgw-0ab1c23d4eEXAMPLE",
            "LocalGatewayRouteTableId": "lgw-rtb-059615ef7dEXAMPLE",
            "LocalGatewayRouteTableArn": "arn:aws:ec2:us-west-2:123456789012:local-gateway-route-table/lgw-rtb-059615ef7dEXAMPLE",
            "OwnerId": "123456789012",
            "State": "associated",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan gateway lokal di Panduan](https://docs.aws.amazon.com/outposts/latest/userguide/outposts-local-gateways.html) Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [DescribeLocalGatewayRouteTableVirtualInterfaceGroupAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-local-gateway-route-table-virtual-interface-group-associations.html)di *Referensi AWS CLI Perintah*. 

### `describe-local-gateway-route-table-vpc-associations`
<a name="ec2_DescribeLocalGatewayRouteTableVpcAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-local-gateway-route-table-vpc-associations`.

**AWS CLI**  
**Untuk menggambarkan asosiasi antara VPCs dan tabel rute gateway lokal**  
`describe-local-gateway-route-table-vpc-associations`Contoh berikut menampilkan informasi tentang hubungan yang ditentukan antara VPCs dan tabel rute gateway lokal.  

```
aws ec2 describe-local-gateway-route-table-vpc-associations \
    --local-gateway-route-table-vpc-association-ids lgw-vpc-assoc-0e0f27af15EXAMPLE
```
Output:  

```
{
    "LocalGatewayRouteTableVpcAssociation": {
        "LocalGatewayRouteTableVpcAssociationId": "lgw-vpc-assoc-0e0f27af1EXAMPLE",
        "LocalGatewayRouteTableId": "lgw-rtb-059615ef7dEXAMPLE",
        "LocalGatewayId": "lgw-09b493aa7cEXAMPLE",
        "VpcId": "vpc-0efe9bde08EXAMPLE",
        "State": "associated"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel rute gateway lokal](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html) di *Panduan Pengguna Outposts*.  
+  Untuk detail API, lihat [DescribeLocalGatewayRouteTableVpcAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-local-gateway-route-table-vpc-associations.html)di *Referensi AWS CLI Perintah*. 

### `describe-local-gateway-route-tables`
<a name="ec2_DescribeLocalGatewayRouteTables_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-local-gateway-route-tables`.

**AWS CLI**  
**Untuk menggambarkan Tabel Rute Gateway Lokal Anda**  
`describe-local-gateway-route-tables`Contoh berikut menampilkan rincian tentang tabel rute gateway lokal.  

```
aws ec2 describe-local-gateway-route-tables
```
Output:  

```
{
    "LocalGatewayRouteTables": [
        {
            "LocalGatewayRouteTableId": "lgw-rtb-059615ef7deEXAMPLE",
            "LocalGatewayId": "lgw-09b493aa7cEXAMPLE",
            "OutpostArn": "arn:aws:outposts:us-west-2:111122223333:outpost/op-0dc11b66edEXAMPLE",
            "State": "available"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLocalGatewayRouteTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-local-gateway-route-tables.html)di *Referensi AWS CLI Perintah*. 

### `describe-local-gateway-virtual-interface-groups`
<a name="ec2_DescribeLocalGatewayVirtualInterfaceGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-local-gateway-virtual-interface-groups`.

**AWS CLI**  
**Untuk menggambarkan grup antarmuka virtual gateway lokal**  
`describe-local-gateway-virtual-interface-groups`Contoh berikut menjelaskan grup antarmuka virtual gateway lokal di AWS akun Anda.  

```
aws ec2 describe-local-gateway-virtual-interface-groups
```
Output:  

```
{
    "LocalGatewayVirtualInterfaceGroups": [
        {
            "LocalGatewayVirtualInterfaceGroupId": "lgw-vif-grp-07145b276bEXAMPLE",
            "LocalGatewayVirtualInterfaceIds": [
                "lgw-vif-01a23bc4d5EXAMPLE",
                "lgw-vif-543ab21012EXAMPLE"
            ],
            "LocalGatewayId": "lgw-0ab1c23d4eEXAMPLE",
            "OwnerId": "123456789012",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan gateway lokal di Panduan](https://docs.aws.amazon.com/outposts/latest/userguide/outposts-local-gateways.html) Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [DescribeLocalGatewayVirtualInterfaceGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-local-gateway-virtual-interface-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-local-gateway-virtual-interfaces`
<a name="ec2_DescribeLocalGatewayVirtualInterfaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-local-gateway-virtual-interfaces`.

**AWS CLI**  
**Untuk menggambarkan antarmuka virtual gateway lokal**  
`describe-local-gateway-virtual-interfaces`Contoh berikut menjelaskan antarmuka virtual gateway lokal di AWS akun Anda.  

```
aws ec2 describe-local-gateway-virtual-interfaces
```
Output:  

```
{
    "LocalGatewayVirtualInterfaces": [
        {
            "LocalGatewayVirtualInterfaceId": "lgw-vif-01a23bc4d5EXAMPLE",
            "LocalGatewayId": "lgw-0ab1c23d4eEXAMPLE",
            "Vlan": 2410,
            "LocalAddress": "0.0.0.0/0",
            "PeerAddress": "0.0.0.0/0",
            "LocalBgpAsn": 65010,
            "PeerBgpAsn": 65000,
            "OwnerId": "123456789012",
            "Tags": []
        },
        {
            "LocalGatewayVirtualInterfaceId": "lgw-vif-543ab21012EXAMPLE",
            "LocalGatewayId": "lgw-0ab1c23d4eEXAMPLE",
            "Vlan": 2410,
            "LocalAddress": "0.0.0.0/0",
            "PeerAddress": "0.0.0.0/0",
            "LocalBgpAsn": 65010,
            "PeerBgpAsn": 65000,
            "OwnerId": "123456789012",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan gateway lokal di Panduan](https://docs.aws.amazon.com/outposts/latest/userguide/outposts-local-gateways.html) Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [DescribeLocalGatewayVirtualInterfaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-local-gateway-virtual-interfaces.html)di *Referensi AWS CLI Perintah*. 

### `describe-local-gateways`
<a name="ec2_DescribeLocalGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-local-gateways`.

**AWS CLI**  
**Untuk menggambarkan Gateway Lokal Anda**  
`describe-local-gateways`Contoh berikut menampilkan detail untuk gateway lokal yang tersedia untuk Anda.  

```
aws ec2 describe-local-gateways
```
Output:  

```
{
    "LocalGateways": [
        {
            "LocalGatewayId": "lgw-09b493aa7cEXAMPLE",
            "OutpostArn": "arn:aws:outposts:us-west-2:123456789012:outpost/op-0dc11b66ed59f995a",
            "OwnerId": "123456789012",
            "State": "available"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLocalGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-local-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-locked-snapshots`
<a name="ec2_DescribeLockedSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-locked-snapshots`.

**AWS CLI**  
**Untuk menggambarkan status kunci snapshot**  
`describe-locked-snapshots`Contoh berikut menjelaskan status kunci snapshot yang ditentukan.  

```
aws ec2 describe-locked-snapshots \
    --snapshot-ids snap-0b5e733b4a8df6e0d
```
Output:  

```
{
    "Snapshots": [
        {
            "OwnerId": "123456789012",
            "SnapshotId": "snap-0b5e733b4a8df6e0d",
            "LockState": "governance",
            "LockDuration": 365,
            "LockCreatedOn": "2024-05-05T00:56:06.208000+00:00",
            "LockDurationStartTime": "2024-05-05T00:56:06.208000+00:00",
            "LockExpiresOn": "2025-05-05T00:56:06.208000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kunci snapshot](https://docs.aws.amazon.com/ebs/latest/userguide/ebs-snapshot-lock.html) di *Panduan Pengguna Amazon EBS*.  
+  Untuk detail API, lihat [DescribeLockedSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-locked-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `describe-managed-prefix-lists`
<a name="ec2_DescribeManagedPrefixLists_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-managed-prefix-lists`.

**AWS CLI**  
**Untuk mendeskripsikan daftar awalan terkelola**  
`describe-managed-prefix-lists`Contoh berikut menjelaskan daftar awalan yang dimiliki oleh AWS akun`123456789012`.  

```
aws ec2 describe-managed-prefix-lists \
    --filters Name=owner-id,Values=123456789012
```
Output:  

```
{
    "PrefixLists": [
        {
            "PrefixListId": "pl-11223344556677aab",
            "AddressFamily": "IPv6",
            "State": "create-complete",
            "PrefixListArn": "arn:aws:ec2:us-west-2:123456789012:prefix-list/pl-11223344556677aab",
            "PrefixListName": "vpc-ipv6-cidrs",
            "MaxEntries": 25,
            "Version": 1,
            "Tags": [],
            "OwnerId": "123456789012"
        },
        {
            "PrefixListId": "pl-0123456abcabcabc1",
            "AddressFamily": "IPv4",
            "State": "active",
            "PrefixListArn": "arn:aws:ec2:us-west-2:123456789012:prefix-list/pl-0123456abcabcabc1",
            "PrefixListName": "vpc-cidrs",
            "MaxEntries": 10,
            "Version": 1,
            "Tags": [],
            "OwnerId": "123456789012"
      }
  ]
}
```
Untuk informasi selengkapnya, lihat [Daftar awalan terkelola](https://docs.aws.amazon.com/vpc/latest/userguide/managed-prefix-lists.html) di Panduan *Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DescribeManagedPrefixLists](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-managed-prefix-lists.html)di *Referensi AWS CLI Perintah*. 

### `describe-moving-addresses`
<a name="ec2_DescribeMovingAddresses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-moving-addresses`.

**AWS CLI**  
**Untuk mendeskripsikan alamat bergerak Anda**  
Contoh ini menjelaskan semua alamat IP Elastis Anda yang bergerak.  
Perintah:  

```
aws ec2 describe-moving-addresses
```
Output:  

```
{
  "MovingAddressStatuses": [
    {
      "PublicIp": "198.51.100.0",
      "MoveStatus": "MovingToVpc"
    }
  ]
}
```
Contoh ini menjelaskan semua alamat yang pindah ke platform EC2-VPC.  
Perintah:  

```
aws ec2 describe-moving-addresses --filters Name=moving-status,Values=MovingToVpc
```
+  Untuk detail API, lihat [DescribeMovingAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-moving-addresses.html)di *Referensi AWS CLI Perintah*. 

### `describe-nat-gateways`
<a name="ec2_DescribeNatGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-nat-gateways`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan gateway NAT publik**  
`describe-nat-gateways`Contoh berikut menjelaskan gateway NAT publik yang ditentukan.  

```
aws ec2 describe-nat-gateways \
    --nat-gateway-id nat-01234567890abcdef
```
Output:  

```
{
    "NatGateways": [
        {
            "CreateTime": "2023-08-25T01:56:51.000Z",
            "NatGatewayAddresses": [
                {
                    "AllocationId": "eipalloc-0790180cd2EXAMPLE",
                    "NetworkInterfaceId": "eni-09cc4b2558794f7f9",
                    "PrivateIp": "10.0.0.211",
                    "PublicIp": "54.85.121.213",
                    "AssociationId": "eipassoc-04d295cc9b8815b24",
                    "IsPrimary": true,
                    "Status": "succeeded"
                },
                {
                    "AllocationId": "eipalloc-0be6ecac95EXAMPLE",
                    "NetworkInterfaceId": "eni-09cc4b2558794f7f9",
                    "PrivateIp": "10.0.0.74",
                    "PublicIp": "3.211.231.218",
                    "AssociationId": "eipassoc-0f96bdca17EXAMPLE",
                    "IsPrimary": false,
                    "Status": "succeeded"
                }
            ],
            "NatGatewayId": "nat-01234567890abcdef",
            "State": "available",
            "SubnetId": "subnet-655eab5f08EXAMPLE",
            "VpcId": "vpc-098eb5ef58EXAMPLE",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "public-nat"
                }
            ],
            "ConnectivityType": "public"
        }
    ]
}
```
**Contoh 2: Untuk menggambarkan gateway NAT pribadi**  
`describe-nat-gateways`Contoh berikut menjelaskan gateway NAT pribadi yang ditentukan.  

```
aws ec2 describe-nat-gateways \
    --nat-gateway-id nat-1234567890abcdef0
```
Output:  

```
{
    "NatGateways": [
        {
            "CreateTime": "2023-08-25T00:50:05.000Z",
            "NatGatewayAddresses": [
                {
                    "NetworkInterfaceId": "eni-0065a61b324d1897a",
                    "PrivateIp": "10.0.20.240",
                    "IsPrimary": true,
                    "Status": "succeeded"
                },
                {
                    "NetworkInterfaceId": "eni-0065a61b324d1897a",
                    "PrivateIp": "10.0.20.33",
                    "IsPrimary": false,
                    "Status": "succeeded"
                },
                {
                    "NetworkInterfaceId": "eni-0065a61b324d1897a",
                    "PrivateIp": "10.0.20.197",
                    "IsPrimary": false,
                    "Status": "succeeded"
                }
            ],
            "NatGatewayId": "nat-1234567890abcdef0",
            "State": "available",
            "SubnetId": "subnet-08fc749671EXAMPLE",
            "VpcId": "vpc-098eb5ef58EXAMPLE",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "private-nat"
                }
            ],
            "ConnectivityType": "private"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Gateway NAT](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-nat-gateway.html) dalam *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DescribeNatGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-nat-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-network-acls`
<a name="ec2_DescribeNetworkAcls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-network-acls`.

**AWS CLI**  
**Untuk mendeskripsikan jaringan Anda ACLs**  
`describe-network-acls`Contoh berikut mengambil rincian tentang jaringan ACLs Anda.  

```
aws ec2 describe-network-acls
```
Output:  

```
{
    "NetworkAcls": [
        {
            "Associations": [
                {
                    "NetworkAclAssociationId": "aclassoc-0c1679dc41EXAMPLE",
                    "NetworkAclId": "acl-0ea1f54ca7EXAMPLE",
                    "SubnetId": "subnet-0931fc2fa5EXAMPLE"
                }
            ],
            "Entries": [
                {
                    "CidrBlock": "0.0.0.0/0",
                    "Egress": true,
                    "Protocol": "-1",
                    "RuleAction": "allow",
                    "RuleNumber": 100
                },
                {
                    "CidrBlock": "0.0.0.0/0",
                    "Egress": true,
                    "Protocol": "-1",
                    "RuleAction": "deny",
                    "RuleNumber": 32767
                },
                {
                    "CidrBlock": "0.0.0.0/0",
                    "Egress": false,
                    "Protocol": "-1",
                    "RuleAction": "allow",
                    "RuleNumber": 100
                },
                {
                    "CidrBlock": "0.0.0.0/0",
                    "Egress": false,
                    "Protocol": "-1",
                    "RuleAction": "deny",
                    "RuleNumber": 32767
                }
            ],
            "IsDefault": true,
            "NetworkAclId": "acl-0ea1f54ca7EXAMPLE",
            "Tags": [],
            "VpcId": "vpc-06e4ab6c6cEXAMPLE",
            "OwnerId": "111122223333"
        },
        {
            "Associations": [],
            "Entries": [
                {
                    "CidrBlock": "0.0.0.0/0",
                    "Egress": true,
                    "Protocol": "-1",
                    "RuleAction": "allow",
                    "RuleNumber": 100
                },
                {
                    "Egress": true,
                    "Ipv6CidrBlock": "::/0",
                    "Protocol": "-1",
                    "RuleAction": "allow",
                    "RuleNumber": 101
                },
                {
                    "CidrBlock": "0.0.0.0/0",
                    "Egress": true,
                    "Protocol": "-1",
                    "RuleAction": "deny",
                    "RuleNumber": 32767
                },
                {
                    "Egress": true,
                    "Ipv6CidrBlock": "::/0",
                    "Protocol": "-1",
                    "RuleAction": "deny",
                    "RuleNumber": 32768
                },
                {
                    "CidrBlock": "0.0.0.0/0",
                    "Egress": false,
                    "Protocol": "-1",
                    "RuleAction": "allow",
                    "RuleNumber": 100
                },
                {
                    "Egress": false,
                    "Ipv6CidrBlock": "::/0",
                    "Protocol": "-1",
                    "RuleAction": "allow",
                    "RuleNumber": 101
                },
                {
                    "CidrBlock": "0.0.0.0/0",
                    "Egress": false,
                    "Protocol": "-1",
                    "RuleAction": "deny",
                    "RuleNumber": 32767
                },
                {
                    "Egress": false,
                    "Ipv6CidrBlock": "::/0",
                    "Protocol": "-1",
                    "RuleAction": "deny",
                    "RuleNumber": 32768
                }
            ],
            "IsDefault": true,
            "NetworkAclId": "acl-0e2a78e4e2EXAMPLE",
            "Tags": [],
            "VpcId": "vpc-03914afb3eEXAMPLE",
            "OwnerId": "111122223333"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Jaringan ACLs](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-network-acls.html) di *Panduan Pengguna AWS VPC*.  
+  Untuk detail API, lihat [DescribeNetworkAcls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-acls.html)di *Referensi AWS CLI Perintah*. 

### `describe-network-insights-access-scope-analyses`
<a name="ec2_DescribeNetworkInsightsAccessScopeAnalyses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-network-insights-access-scope-analyses`.

**AWS CLI**  
**Untuk menggambarkan analisis cakupan akses Network Insights**  
`describe-network-insights-access-scope-analyses`Contoh berikut menjelaskan analisis cakupan akses di AWS akun Anda.  

```
aws ec2 describe-network-insights-access-scope-analyses \
    --region us-east-1
```
Output:  

```
{
    "NetworkInsightsAccessScopeAnalyses": [
        {
            "NetworkInsightsAccessScopeAnalysisId": "nisa-123456789111",
            "NetworkInsightsAccessScopeAnalysisArn": "arn:aws:ec2:us-east-1:123456789012:network-insights-access-scope-analysis/nisa-123456789111",
            "NetworkInsightsAccessScopeId": "nis-123456789222",
            "Status": "succeeded",
            "StartDate": "2022-01-25T19:45:36.842000+00:00",
            "FindingsFound": "true",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli-naa.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [DescribeNetworkInsightsAccessScopeAnalyses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-insights-access-scope-analyses.html)di *Referensi AWS CLI Perintah*. 

### `describe-network-insights-access-scopes`
<a name="ec2_DescribeNetworkInsightsAccessScopes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-network-insights-access-scopes`.

**AWS CLI**  
**Untuk menggambarkan cakupan akses Network Insights**  
`describe-network-insights-access-scopes`Contoh berikut menjelaskan analisis cakupan akses di akun Anda. AWS   

```
aws ec2 describe-network-insights-access-scopes \
    --region us-east-1
```
Output:  

```
{
    "NetworkInsightsAccessScopes": [
        {
            "NetworkInsightsAccessScopeId": "nis-123456789111",
            "NetworkInsightsAccessScopeArn": "arn:aws:ec2:us-east-1:123456789012:network-insights-access-scope/nis-123456789111",
            "CreatedDate": "2021-11-29T21:12:41.416000+00:00",
            "UpdatedDate": "2021-11-29T21:12:41.416000+00:00",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli-naa.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [DescribeNetworkInsightsAccessScopes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-insights-access-scopes.html)di *Referensi AWS CLI Perintah*. 

### `describe-network-insights-analyses`
<a name="ec2_DescribeNetworkInsightsAnalyses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-network-insights-analyses`.

**AWS CLI**  
**Untuk melihat hasil analisis jalur**  
`describe-network-insights-analyses`Contoh berikut menjelaskan analisis yang ditentukan. Dalam contoh ini, sumbernya adalah gateway internet, tujuannya adalah instance EC2, dan protokolnya adalah TCP. Analisis berhasil (`Status`is`succeeded`) dan jalurnya tidak dapat dijangkau (`NetworkPathFound`is). `false` Kode penjelasan `ENI_SG_RULES_MISMATCH` menunjukkan bahwa grup keamanan untuk instance tidak berisi aturan yang memungkinkan lalu lintas di port tujuan.  

```
aws ec2 describe-network-insights-analyses \
    --network-insights-analysis-ids nia-02207aa13eb480c7a
```
Output:  

```
{
    "NetworkInsightsAnalyses": [
        {
            "NetworkInsightsAnalysisId": "nia-02207aa13eb480c7a",
            "NetworkInsightsAnalysisArn": "arn:aws:ec2:us-east-1:123456789012:network-insights-analysis/nia-02207aa13eb480c7a",
            "NetworkInsightsPathId": "nip-0b26f224f1d131fa8",
            "StartDate": "2021-01-20T22:58:37.495Z",
            "Status": "succeeded",
            "NetworkPathFound": false,
            "Explanations": [
                {
                    "Direction": "ingress",
                    "ExplanationCode": "ENI_SG_RULES_MISMATCH",
                    "NetworkInterface": {
                        "Id": "eni-0a25edef15a6cc08c",
                        "Arn": "arn:aws:ec2:us-east-1:123456789012:network-interface/eni-0a25edef15a6cc08c"
                    },
                    "SecurityGroups": [
                        {
                            "Id": "sg-02f0d35a850ba727f",
                            "Arn": "arn:aws:ec2:us-east-1:123456789012:security-group/sg-02f0d35a850ba727f"
                        }
                    ],
                    "Subnet": {
                        "Id": "subnet-004ff41eccb4d1194",
                        "Arn": "arn:aws:ec2:us-east-1:123456789012:subnet/subnet-004ff41eccb4d1194"
                    },
                    "Vpc": {
                        "Id": "vpc-f1663d98ad28331c7",
                        "Arn": "arn:aws:ec2:us-east-1:123456789012:vpc/vpc-f1663d98ad28331c7"
                    }
                }
            ],
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai menggunakan AWS CLI](https://docs.aws.amazon.com/vpc/latest/reachability/getting-started-cli.html) di Panduan *Reachability Analyzer*.  
+  Untuk detail API, lihat [DescribeNetworkInsightsAnalyses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-insights-analyses.html)di *Referensi AWS CLI Perintah*. 

### `describe-network-insights-paths`
<a name="ec2_DescribeNetworkInsightsPaths_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-network-insights-paths`.

**AWS CLI**  
**Untuk menggambarkan jalan**  
`describe-network-insights-paths`Contoh berikut menjelaskan jalur yang ditentukan.  

```
aws ec2 describe-network-insights-paths \
    --network-insights-path-ids nip-0b26f224f1d131fa8
```
Output:  

```
{
    "NetworkInsightsPaths": [
        {
            "NetworkInsightsPathId": "nip-0b26f224f1d131fa8",
            "NetworkInsightsPathArn": "arn:aws:ec2:us-east-1:123456789012:network-insights-path/nip-0b26f224f1d131fa8",
            "CreatedDate": "2021-01-20T22:43:46.933Z",
            "Source": "igw-0797cccdc9d73b0e5",
            "Destination": "i-0495d385ad28331c7",
            "Protocol": "tcp"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai menggunakan AWS CLI](https://docs.aws.amazon.com/vpc/latest/reachability/getting-started-cli.html) di Panduan *Reachability Analyzer*.  
+  Untuk detail API, lihat [DescribeNetworkInsightsPaths](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-insights-paths.html)di *Referensi AWS CLI Perintah*. 

### `describe-network-interface-attribute`
<a name="ec2_DescribeNetworkInterfaceAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-network-interface-attribute`.

**AWS CLI**  
**Untuk menggambarkan atribut lampiran dari antarmuka jaringan**  
Perintah contoh ini menjelaskan `attachment` atribut antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 describe-network-interface-attribute --network-interface-id eni-686ea200 --attribute attachment
```
Output:  

```
{
  "NetworkInterfaceId": "eni-686ea200",
  "Attachment": {
      "Status": "attached",
      "DeviceIndex": 0,
      "AttachTime": "2015-05-21T20:02:20.000Z",
      "InstanceId": "i-1234567890abcdef0",
      "DeleteOnTermination": true,
      "AttachmentId": "eni-attach-43348162",
      "InstanceOwnerId": "123456789012"
  }
}
```
**Untuk menggambarkan atribut deskripsi antarmuka jaringan**  
Perintah contoh ini menjelaskan `description` atribut antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 describe-network-interface-attribute --network-interface-id eni-686ea200 --attribute description
```
Output:  

```
{
  "NetworkInterfaceId": "eni-686ea200",
  "Description": {
      "Value": "My description"
  }
}
```
**Untuk menggambarkan atribut GroupSet dari antarmuka jaringan**  
Perintah contoh ini menjelaskan `groupSet` atribut antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 describe-network-interface-attribute --network-interface-id eni-686ea200 --attribute groupSet
```
Output:  

```
{
  "NetworkInterfaceId": "eni-686ea200",
  "Groups": [
      {
          "GroupName": "my-security-group",
          "GroupId": "sg-903004f8"
      }
  ]
}
```
**Untuk menggambarkan sourceDestCheck atribut antarmuka jaringan**  
Perintah contoh ini menjelaskan `sourceDestCheck` atribut antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 describe-network-interface-attribute --network-interface-id eni-686ea200 --attribute sourceDestCheck
```
Output:  

```
{
  "NetworkInterfaceId": "eni-686ea200",
  "SourceDestCheck": {
      "Value": true
  }
}
```
+  Untuk detail API, lihat [DescribeNetworkInterfaceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-interface-attribute.html)di *Referensi AWS CLI Perintah*. 

### `describe-network-interface-permissions`
<a name="ec2_DescribeNetworkInterfacePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-network-interface-permissions`.

**AWS CLI**  
**Untuk mendeskripsikan izin antarmuka jaringan Anda**  
Contoh ini menjelaskan semua izin antarmuka jaringan Anda.  
Perintah:  

```
aws ec2 describe-network-interface-permissions
```
Output:  

```
{
  "NetworkInterfacePermissions": [
      {
          "PermissionState": {
              "State": "GRANTED"
          },
          "NetworkInterfacePermissionId": "eni-perm-06fd19020ede149ea",
          "NetworkInterfaceId": "eni-b909511a",
          "Permission": "INSTANCE-ATTACH",
          "AwsAccountId": "123456789012"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeNetworkInterfacePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-interface-permissions.html)di *Referensi AWS CLI Perintah*. 

### `describe-network-interfaces`
<a name="ec2_DescribeNetworkInterfaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-network-interfaces`.

**AWS CLI**  
**Untuk mendeskripsikan antarmuka jaringan Anda**  
Contoh ini menjelaskan semua antarmuka jaringan Anda.  
Perintah:  

```
aws ec2 describe-network-interfaces
```
Output:  

```
{
  "NetworkInterfaces": [
      {
          "Status": "in-use",
          "MacAddress": "02:2f:8f:b0:cf:75",
          "SourceDestCheck": true,
          "VpcId": "vpc-a01106c2",
          "Description": "my network interface",
          "Association": {
              "PublicIp": "203.0.113.12",
              "AssociationId": "eipassoc-0fbb766a",
              "PublicDnsName": "ec2-203-0-113-12.compute-1.amazonaws.com",
              "IpOwnerId": "123456789012"
          },
          "NetworkInterfaceId": "eni-e5aa89a3",
          "PrivateIpAddresses": [
              {
                  "PrivateDnsName": "ip-10-0-1-17.ec2.internal",
                  "Association": {
                      "PublicIp": "203.0.113.12",
                      "AssociationId": "eipassoc-0fbb766a",
                      "PublicDnsName": "ec2-203-0-113-12.compute-1.amazonaws.com",
                      "IpOwnerId": "123456789012"
                  },
                  "Primary": true,
                  "PrivateIpAddress": "10.0.1.17"
              }
          ],
          "RequesterManaged": false,
          "Ipv6Addresses": [],
          "PrivateDnsName": "ip-10-0-1-17.ec2.internal",
          "AvailabilityZone": "us-east-1d",
          "Attachment": {
              "Status": "attached",
              "DeviceIndex": 1,
              "AttachTime": "2013-11-30T23:36:42.000Z",
              "InstanceId": "i-1234567890abcdef0",
              "DeleteOnTermination": false,
              "AttachmentId": "eni-attach-66c4350a",
              "InstanceOwnerId": "123456789012"
          },
          "Groups": [
              {
                  "GroupName": "default",
                  "GroupId": "sg-8637d3e3"
              }
          ],
          "SubnetId": "subnet-b61f49f0",
          "OwnerId": "123456789012",
          "TagSet": [],
          "PrivateIpAddress": "10.0.1.17"
      },
      {
          "Status": "in-use",
          "MacAddress": "02:58:f5:ef:4b:06",
          "SourceDestCheck": true,
          "VpcId": "vpc-a01106c2",
          "Description": "Primary network interface",
          "Association": {
              "PublicIp": "198.51.100.0",
              "IpOwnerId": "amazon"
          },
          "NetworkInterfaceId": "eni-f9ba99bf",
          "PrivateIpAddresses": [
              {
                  "Association": {
                      "PublicIp": "198.51.100.0",
                      "IpOwnerId": "amazon"
                  },
                  "Primary": true,
                  "PrivateIpAddress": "10.0.1.149"
              }
          ],
          "RequesterManaged": false,
          "Ipv6Addresses": [],
          "AvailabilityZone": "us-east-1d",
          "Attachment": {
              "Status": "attached",
              "DeviceIndex": 0,
              "AttachTime": "2013-11-30T23:35:33.000Z",
              "InstanceId": "i-0598c7d356eba48d7",
              "DeleteOnTermination": true,
              "AttachmentId": "eni-attach-1b9db777",
              "InstanceOwnerId": "123456789012"
          },
          "Groups": [
              {
                  "GroupName": "default",
                  "GroupId": "sg-8637d3e3"
              }
          ],
          "SubnetId": "subnet-b61f49f0",
          "OwnerId": "123456789012",
          "TagSet": [],
          "PrivateIpAddress": "10.0.1.149"
      }
  ]
}
```
Contoh ini menjelaskan antarmuka jaringan yang memiliki tag dengan kunci `Purpose` dan nilainya`Prod`.  
Perintah:  

```
aws ec2 describe-network-interfaces --filters Name=tag:Purpose,Values=Prod
```
Output:  

```
{
  "NetworkInterfaces": [
      {
          "Status": "available",
          "MacAddress": "12:2c:bd:f9:bf:17",
          "SourceDestCheck": true,
          "VpcId": "vpc-8941ebec",
          "Description": "ProdENI",
          "NetworkInterfaceId": "eni-b9a5ac93",
          "PrivateIpAddresses": [
              {
                  "PrivateDnsName": "ip-10-0-1-55.ec2.internal",
                  "Primary": true,
                  "PrivateIpAddress": "10.0.1.55"
              },
              {
                  "PrivateDnsName": "ip-10-0-1-117.ec2.internal",
                  "Primary": false,
                  "PrivateIpAddress": "10.0.1.117"
              }
          ],
          "RequesterManaged": false,
          "PrivateDnsName": "ip-10-0-1-55.ec2.internal",
          "AvailabilityZone": "us-east-1d",
          "Ipv6Addresses": [],
          "Groups": [
              {
                  "GroupName": "MySG",
                  "GroupId": "sg-905002f5"
              }
          ],
          "SubnetId": "subnet-31d6c219",
          "OwnerId": "123456789012",
          "TagSet": [
              {
                  "Value": "Prod",
                  "Key": "Purpose"
              }
          ],
          "PrivateIpAddress": "10.0.1.55"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeNetworkInterfaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-interfaces.html)di *Referensi AWS CLI Perintah*. 

### `describe-placement-groups`
<a name="ec2_DescribePlacementGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-placement-groups`.

**AWS CLI**  
**Untuk menggambarkan grup penempatan Anda**  
Perintah contoh ini menjelaskan semua grup penempatan Anda.  
Perintah:  

```
aws ec2 describe-placement-groups
```
Output:  

```
{
    "PlacementGroups": [
        {
            "GroupName": "my-cluster",
            "State": "available",
            "Strategy": "cluster"
        },
        ...
    ]
}
```
+  Untuk detail API, lihat [DescribePlacementGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-placement-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-prefix-lists`
<a name="ec2_DescribePrefixLists_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-prefix-lists`.

**AWS CLI**  
**Untuk menggambarkan daftar awalan**  
Contoh ini mencantumkan semua daftar awalan yang tersedia untuk wilayah tersebut.  
Perintah:  

```
aws ec2 describe-prefix-lists
```
Output:  

```
{
  "PrefixLists": [
    {
      "PrefixListName": "com.amazonaws.us-east-1.s3",
      "Cidrs": [
        "54.231.0.0/17"
      ],
      "PrefixListId": "pl-63a5400a"
    }
  ]
}
```
+  Untuk detail API, lihat [DescribePrefixLists](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-prefix-lists.html)di *Referensi AWS CLI Perintah*. 

### `describe-principal-id-format`
<a name="ec2_DescribePrincipalIdFormat_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-principal-id-format`.

**AWS CLI**  
**Untuk mendeskripsikan format ID untuk pengguna IAM dan peran dengan format ID panjang diaktifkan**  
`describe-principal-id-format`Contoh berikut menjelaskan format ID untuk pengguna root, semua peran IAM, dan semua pengguna IAM dengan format ID panjang diaktifkan.  

```
aws ec2 describe-principal-id-format \
    --resource instance
```
Output:  

```
{
    "Principals": [
        {
            "Arn": "arn:aws:iam::123456789012:root",
            "Statuses": [
                {
                    "Deadline": "2016-12-15T00:00:00.000Z",
                    "Resource": "reservation",
                    "UseLongIds": true
                },
                {
                    "Deadline": "2016-12-15T00:00:00.000Z",
                    "Resource": "instance",
                    "UseLongIds": true
                },
                {
                    "Deadline": "2016-12-15T00:00:00.000Z",
                    "Resource": "volume",
                    "UseLongIds": true
                },
            ]
        },
        ...
    ]
}
```
+  Untuk detail API, lihat [DescribePrincipalIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-principal-id-format.html)di *Referensi AWS CLI Perintah*. 

### `describe-public-ipv4-pools`
<a name="ec2_DescribePublicIpv4Pools_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-public-ipv4-pools`.

**AWS CLI**  
**Untuk menggambarkan kumpulan IPv4 alamat publik Anda**  
`describe-public-ipv4-pools`Contoh berikut menampilkan detail tentang kumpulan alamat yang dibuat saat Anda menyediakan rentang alamat publik menggunakan Bring Your Own IP IPv4 Address (BYOIP).  

```
aws ec2 describe-public-ipv4-pools
```
Output:  

```
{
    "PublicIpv4Pools": [
        {
            "PoolId": "ipv4pool-ec2-1234567890abcdef0",
            "PoolAddressRanges": [
                {
                    "FirstAddress": "203.0.113.0",
                    "LastAddress": "203.0.113.255",
                    "AddressCount": 256,
                    "AvailableAddressCount": 256
                }
            ],
            "TotalAddressCount": 256,
            "TotalAvailableAddressCount": 256
        }
    ]
}
```
+  Untuk detail API, lihat [DescribePublicIpv4Pools](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-public-ipv4-pools.html) di *AWS CLI Command Reference*. 

### `describe-regions`
<a name="ec2_DescribeRegions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-regions`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan semua Wilayah yang diaktifkan**  
Contoh `describe-regions` berikut menjelaskan semua Wilayah yang diaktifkan untuk akun Anda.  

```
aws ec2 describe-regions
```
Output:  

```
{
    "Regions": [
        {
            "Endpoint": "ec2.eu-north-1.amazonaws.com",
            "RegionName": "eu-north-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-south-1.amazonaws.com",
            "RegionName": "ap-south-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.eu-west-3.amazonaws.com",
            "RegionName": "eu-west-3",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.eu-west-2.amazonaws.com",
            "RegionName": "eu-west-2",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.eu-west-1.amazonaws.com",
            "RegionName": "eu-west-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-northeast-3.amazonaws.com",
            "RegionName": "ap-northeast-3",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-northeast-2.amazonaws.com",
            "RegionName": "ap-northeast-2",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-northeast-1.amazonaws.com",
            "RegionName": "ap-northeast-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.sa-east-1.amazonaws.com",
            "RegionName": "sa-east-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ca-central-1.amazonaws.com",
            "RegionName": "ca-central-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-southeast-1.amazonaws.com",
            "RegionName": "ap-southeast-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-southeast-2.amazonaws.com",
            "RegionName": "ap-southeast-2",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.eu-central-1.amazonaws.com",
            "RegionName": "eu-central-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.us-east-1.amazonaws.com",
            "RegionName": "us-east-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.us-east-2.amazonaws.com",
            "RegionName": "us-east-2",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.us-west-1.amazonaws.com",
            "RegionName": "us-west-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.us-west-2.amazonaws.com",
            "RegionName": "us-west-2",
            "OptInStatus": "opt-in-not-required"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Wilayah dan Zona](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk menjelaskan Wilayah yang diaktifkan dengan titik akhir yang namanya berisi string tertentu**  
Contoh `describe-regions` berikut menjelaskan semua Wilayah yang telah Anda aktifkan yang memiliki string “us” di titik akhir.  

```
aws ec2 describe-regions \
    --filters "Name=endpoint,Values=*us*"
```
Output:  

```
{
    "Regions": [
        {
            "Endpoint": "ec2.us-east-1.amazonaws.com",
            "RegionName": "us-east-1"
        },
        {
            "Endpoint": "ec2.us-east-2.amazonaws.com",
            "RegionName": "us-east-2"
        },
        {
            "Endpoint": "ec2.us-west-1.amazonaws.com",
            "RegionName": "us-west-1"
        },
        {
            "Endpoint": "ec2.us-west-2.amazonaws.com",
            "RegionName": "us-west-2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Wilayah dan Zona](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 3: Untuk menjelaskan semua Wilayah**  
Contoh `describe-regions` berikut menjelaskan semua Wilayah yang tersedia, termasuk Wilayah yang dinonaktifkan.  

```
aws ec2 describe-regions \
    --all-regions
```
Output:  

```
{
    "Regions": [
        {
            "Endpoint": "ec2.eu-north-1.amazonaws.com",
            "RegionName": "eu-north-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-south-1.amazonaws.com",
            "RegionName": "ap-south-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.eu-west-3.amazonaws.com",
            "RegionName": "eu-west-3",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.eu-west-2.amazonaws.com",
            "RegionName": "eu-west-2",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.eu-west-1.amazonaws.com",
            "RegionName": "eu-west-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-northeast-3.amazonaws.com",
            "RegionName": "ap-northeast-3",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.me-south-1.amazonaws.com",
            "RegionName": "me-south-1",
            "OptInStatus": "not-opted-in"
        },
        {
            "Endpoint": "ec2.ap-northeast-2.amazonaws.com",
            "RegionName": "ap-northeast-2",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-northeast-1.amazonaws.com",
            "RegionName": "ap-northeast-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.sa-east-1.amazonaws.com",
            "RegionName": "sa-east-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ca-central-1.amazonaws.com",
            "RegionName": "ca-central-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-east-1.amazonaws.com",
            "RegionName": "ap-east-1",
            "OptInStatus": "not-opted-in"
        },
        {
            "Endpoint": "ec2.ap-southeast-1.amazonaws.com",
            "RegionName": "ap-southeast-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.ap-southeast-2.amazonaws.com",
            "RegionName": "ap-southeast-2",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.eu-central-1.amazonaws.com",
            "RegionName": "eu-central-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.us-east-1.amazonaws.com",
            "RegionName": "us-east-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.us-east-2.amazonaws.com",
            "RegionName": "us-east-2",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.us-west-1.amazonaws.com",
            "RegionName": "us-west-1",
            "OptInStatus": "opt-in-not-required"
        },
        {
            "Endpoint": "ec2.us-west-2.amazonaws.com",
            "RegionName": "us-west-2",
            "OptInStatus": "opt-in-not-required"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Wilayah dan Zona](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 4: Untuk mencantumkan nama Wilayah saja**  
Contoh `describe-regions` berikut menggunakan parameter `--query` untuk memfilter output dan hanya mengembalikan nama Wilayah sebagai teks.  

```
aws ec2 describe-regions \
    --all-regions \
    --query "Regions[].{Name:RegionName}" \
    --output text
```
Output:  

```
eu-north-1
ap-south-1
eu-west-3
eu-west-2
eu-west-1
ap-northeast-3
ap-northeast-2
me-south-1
ap-northeast-1
sa-east-1
ca-central-1
ap-east-1
ap-southeast-1
ap-southeast-2
eu-central-1
us-east-1
us-east-2
us-west-1
us-west-2
```
Untuk informasi selengkapnya, lihat [Wilayah dan Zona](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeRegions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-regions.html)di *Referensi AWS CLI Perintah*. 

### `describe-replace-root-volume-tasks`
<a name="ec2_DescribeReplaceRootVolumeTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-replace-root-volume-tasks`.

**AWS CLI**  
**Contoh 1: Untuk melihat informasi tentang tugas penggantian volume root tertentu**  
`describe-replace-root-volume-tasks`Contoh berikut menjelaskan tugas penggantian volume root replacevol-0111122223333abcd.  

```
aws ec2 describe-replace-root-volume-tasks \
    --replace-root-volume-task-ids replacevol-0111122223333abcd
```
Output:  

```
{
    "ReplaceRootVolumeTasks": [
        {
            "ReplaceRootVolumeTaskId": "replacevol-0111122223333abcd",
            "Tags": [],
            "InstanceId": "i-0123456789abcdefa",
            "TaskState": "succeeded",
            "StartTime": "2022-03-14T15:16:28Z",
            "CompleteTime": "2022-03-14T15:16:52Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengganti volume root](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ebs-restoring-volume.html#replace-root) di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
**Contoh 2: Untuk melihat informasi tentang semua tugas penggantian volume root untuk instance tertentu**  
`describe-replace-root-volume-tasks`Contoh berikut menjelaskan semua tugas penggantian volume root misalnya i-0123456789abcdefa.  

```
aws ec2 describe-replace-root-volume-tasks \
    --filters Name=instance-id,Values=i-0123456789abcdefa
```
Output:  

```
{
    "ReplaceRootVolumeTasks": [
        {
            "ReplaceRootVolumeTaskId": "replacevol-0111122223333abcd",
            "Tags": [],
            "InstanceId": "i-0123456789abcdefa",
            "TaskState": "succeeded",
            "StartTime": "2022-03-14T15:06:38Z",
            "CompleteTime": "2022-03-14T15:07:03Z"
        },
        {
            "ReplaceRootVolumeTaskId": "replacevol-0444455555555abcd",
            "Tags": [],
            "InstanceId": "i-0123456789abcdefa",
            "TaskState": "succeeded",
            "StartTime": "2022-03-14T15:16:28Z",
            "CompleteTime": "2022-03-14T15:16:52Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengganti volume root](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ebs-restoring-volume.html#replace-root) di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [DescribeReplaceRootVolumeTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-replace-root-volume-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-instances-listings`
<a name="ec2_DescribeReservedInstancesListings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-instances-listings`.

**AWS CLI**  
**Untuk mendeskripsikan daftar Instans Cadangan**  
`describe-reserved-instances-listings`Contoh berikut mengambil informasi tentang daftar Instans Cadangan yang ditentukan.  

```
aws ec2 describe-reserved-instances-listings \
    --reserved-instances-listing-id 5ec28771-05ff-4b9b-aa31-9e57dexample
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DescribeReservedInstancesListings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-reserved-instances-listings.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-instances-modifications`
<a name="ec2_DescribeReservedInstancesModifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-instances-modifications`.

**AWS CLI**  
**Untuk menjelaskan modifikasi Instans Cadangan**  
Perintah contoh ini menjelaskan semua permintaan modifikasi Instans Cadangan yang telah dikirimkan untuk akun Anda.  
Perintah:  

```
aws ec2 describe-reserved-instances-modifications
```
Output:  

```
{
    "ReservedInstancesModifications": [
        {
            "Status": "fulfilled",
            "ModificationResults": [
                {
                    "ReservedInstancesId": "93bbbca2-62f1-4d9d-b225-16bada29e6c7",
                    "TargetConfiguration": {
                        "AvailabilityZone": "us-east-1b",
                        "InstanceType": "m1.large",
                        "InstanceCount": 3
                    }
                },
                {
                     "ReservedInstancesId": "1ba8e2e3-aabb-46c3-bcf5-3fe2fda922e6",
                     "TargetConfiguration": {
                         "AvailabilityZone": "us-east-1d",
                         "InstanceType": "m1.xlarge",
                         "InstanceCount": 1
                     }
                 }
            ],
            "EffectiveDate": "2015-08-12T17:00:00.000Z",
            "CreateDate": "2015-08-12T17:52:52.630Z",
            "UpdateDate": "2015-08-12T18:08:06.698Z",
            "ClientToken": "c9adb218-3222-4889-8216-0cf0e52dc37e:
            "ReservedInstancesModificationId": "rimod-d3ed4335-b1d3-4de6-ab31-0f13aaf46687",
            "ReservedInstancesIds": [
                {
                    "ReservedInstancesId": "b847fa93-e282-4f55-b59a-1342f5bd7c02"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeReservedInstancesModifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-reserved-instances-modifications.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-instances-offerings`
<a name="ec2_DescribeReservedInstancesOfferings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-instances-offerings`.

**AWS CLI**  
**Untuk menggambarkan penawaran Instans Cadangan**  
Perintah contoh ini menjelaskan semua Instans Cadangan yang tersedia untuk pembelian di wilayah tersebut.  
Perintah:  

```
aws ec2 describe-reserved-instances-offerings
```
Output:  

```
{
  "ReservedInstancesOfferings": [
      {
          "OfferingType": "Partial Upfront",
          "AvailabilityZone": "us-east-1b",
          "InstanceTenancy": "default",
          "PricingDetails": [],
          "ProductDescription": "Red Hat Enterprise Linux",
          "UsagePrice": 0.0,
          "RecurringCharges": [
              {
                  "Amount": 0.088,
                  "Frequency": "Hourly"
              }
          ],
          "Marketplace": false,
          "CurrencyCode": "USD",
          "FixedPrice": 631.0,
          "Duration": 94608000,
          "ReservedInstancesOfferingId": "9a06095a-bdc6-47fe-a94a-2a382f016040",
          "InstanceType": "c1.medium"
      },
      {
          "OfferingType": "PartialUpfront",
          "AvailabilityZone": "us-east-1b",
          "InstanceTenancy": "default",
          "PricingDetails": [],
          "ProductDescription": "Linux/UNIX",
          "UsagePrice": 0.0,
          "RecurringCharges": [
              {
                  "Amount": 0.028,
                  "Frequency": "Hourly"
              }
          ],
          "Marketplace": false,
          "CurrencyCode": "USD",
          "FixedPrice": 631.0,
          "Duration": 94608000,
          "ReservedInstancesOfferingId": "bfbefc6c-0d10-418d-b144-7258578d329d",
          "InstanceType": "c1.medium"
      },
  ...
}
```
**Untuk menjelaskan penawaran Instans Cadangan Anda menggunakan opsi**  
Contoh ini mencantumkan Instans Cadangan yang ditawarkan AWS dengan spesifikasi berikut: jenis instans t1.micro, produk Windows (Amazon VPC), dan penawaran Pemanfaatan Berat.  
Perintah:  

```
aws ec2 describe-reserved-instances-offerings --no-include-marketplace --instance-type "t1.micro" --product-description "Windows (Amazon VPC)" --offering-type "no upfront"
```
Output:  

```
{
    "ReservedInstancesOfferings": [
      {
          "OfferingType": "No Upfront",
          "AvailabilityZone": "us-east-1b",
          "InstanceTenancy": "default",
          "PricingDetails": [],
          "ProductDescription": "Windows",
          "UsagePrice": 0.0,
          "RecurringCharges": [
              {
                  "Amount": 0.015,
                  "Frequency": "Hourly"
              }
          ],
          "Marketplace": false,
          "CurrencyCode": "USD",
          "FixedPrice": 0.0,
          "Duration": 31536000,
          "ReservedInstancesOfferingId": "c48ab04c-fe69-4f94-8e39-a23842292823",
          "InstanceType": "t1.micro"
      },

              ...
      {
          "OfferingType": "No Upfront",
          "AvailabilityZone": "us-east-1d",
          "InstanceTenancy": "default",
          "PricingDetails": [],
          "ProductDescription": "Windows (Amazon VPC)",
          "UsagePrice": 0.0,
          "RecurringCharges": [
              {
                  "Amount": 0.015,
                  "Frequency": "Hourly"
              }
          ],
          "Marketplace": false,
          "CurrencyCode": "USD",
          "FixedPrice": 0.0,
          "Duration": 31536000,
          "ReservedInstancesOfferingId": "3a98bf7d-2123-42d4-b4f5-8dbec4b06dc6",
          "InstanceType": "t1.micro"
      }
    ]
}
```
+  Untuk detail API, lihat [DescribeReservedInstancesOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-reserved-instances-offerings.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-instances`
<a name="ec2_DescribeReservedInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-instances`.

**AWS CLI**  
**Untuk mendeskripsikan Instans Cadangan Anda**  
Perintah contoh ini menjelaskan Instans Cadangan yang Anda miliki.  
Perintah:  

```
aws ec2 describe-reserved-instances
```
Output:  

```
{
  "ReservedInstances": [
      {
          "ReservedInstancesId": "b847fa93-e282-4f55-b59a-1342fexample",
          "OfferingType": "No Upfront",
          "AvailabilityZone": "us-west-1c",
          "End": "2016-08-14T21:34:34.000Z",
          "ProductDescription": "Linux/UNIX",
          "UsagePrice": 0.00,
          "RecurringCharges": [
              {
                  "Amount": 0.104,
                  "Frequency": "Hourly"
              }
          ],
          "Start": "2015-08-15T21:34:35.086Z",
          "State": "active",
          "FixedPrice": 0.0,
          "CurrencyCode": "USD",
          "Duration": 31536000,
          "InstanceTenancy": "default",
          "InstanceType": "m3.medium",
          "InstanceCount": 2
      },
      ...
  ]
}
```
**Untuk mendeskripsikan Instans Cadangan Anda menggunakan filter**  
Contoh ini memfilter respons untuk menyertakan hanya tiga tahun, t2.micro Instans Linux/UNIX Cadangan di us-west-1c.  
Perintah:  

```
aws ec2 describe-reserved-instances --filters Name=duration,Values=94608000 Name=instance-type,Values=t2.micro Name=product-description,Values=Linux/UNIX Name=availability-zone,Values=us-east-1e
```
Output:  

```
{
    "ReservedInstances": [
        {
            "ReservedInstancesId": "f127bd27-edb7-44c9-a0eb-0d7e09259af0",
            "OfferingType": "All Upfront",
            "AvailabilityZone": "us-east-1e",
            "End": "2018-03-26T21:34:34.000Z",
            "ProductDescription": "Linux/UNIX",
            "UsagePrice": 0.00,
            "RecurringCharges": [],
            "Start": "2015-03-27T21:34:35.848Z",
            "State": "active",
            "FixedPrice": 151.0,
            "CurrencyCode": "USD",
            "Duration": 94608000,
            "InstanceTenancy": "default",
            "InstanceType": "t2.micro",
            "InstanceCount": 1
        }
    ]
}
```
Untuk informasi selengkapnya, lihat Menggunakan Instans Amazon EC2 di *Panduan Pengguna Antarmuka Baris Perintah AWS *.  
+  Untuk detail API, lihat [DescribeReservedInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-reserved-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-route-tables`
<a name="ec2_DescribeRouteTables_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-route-tables`.

**AWS CLI**  
**Untuk menggambarkan tabel rute Anda**  
`describe-route-tables`Contoh berikut mengambil rincian tentang tabel rute Anda  

```
aws ec2 describe-route-tables
```
Output:  

```
{
    "RouteTables": [
        {
            "Associations": [
                {
                    "Main": true,
                    "RouteTableAssociationId": "rtbassoc-0df3f54e06EXAMPLE",
                    "RouteTableId": "rtb-09ba434c1bEXAMPLE"
                }
            ],
            "PropagatingVgws": [],
            "RouteTableId": "rtb-09ba434c1bEXAMPLE",
            "Routes": [
                {
                    "DestinationCidrBlock": "10.0.0.0/16",
                    "GatewayId": "local",
                    "Origin": "CreateRouteTable",
                    "State": "active"
                },
                {
                    "DestinationCidrBlock": "0.0.0.0/0",
                    "NatGatewayId": "nat-06c018cbd8EXAMPLE",
                    "Origin": "CreateRoute",
                    "State": "blackhole"
                }
            ],
            "Tags": [],
            "VpcId": "vpc-0065acced4EXAMPLE",
            "OwnerId": "111122223333"
        },
        {
            "Associations": [
                {
                    "Main": true,
                    "RouteTableAssociationId": "rtbassoc-9EXAMPLE",
                    "RouteTableId": "rtb-a1eec7de"
                }
            ],
            "PropagatingVgws": [],
            "RouteTableId": "rtb-a1eec7de",
            "Routes": [
                {
                    "DestinationCidrBlock": "172.31.0.0/16",
                    "GatewayId": "local",
                    "Origin": "CreateRouteTable",
                    "State": "active"
                },
                {
                    "DestinationCidrBlock": "0.0.0.0/0",
                    "GatewayId": "igw-fEXAMPLE",
                    "Origin": "CreateRoute",
                    "State": "active"
                }
            ],
            "Tags": [],
            "VpcId": "vpc-3EXAMPLE",
            "OwnerId": "111122223333"
        },
        {
            "Associations": [
                {
                    "Main": false,
                    "RouteTableAssociationId": "rtbassoc-0b100c28b2EXAMPLE",
                    "RouteTableId": "rtb-07a98f76e5EXAMPLE",
                    "SubnetId": "subnet-0d3d002af8EXAMPLE"
                }
            ],
            "PropagatingVgws": [],
            "RouteTableId": "rtb-07a98f76e5EXAMPLE",
            "Routes": [
                {
                    "DestinationCidrBlock": "10.0.0.0/16",
                    "GatewayId": "local",
                    "Origin": "CreateRouteTable",
                    "State": "active"
                },
                {
                    "DestinationCidrBlock": "0.0.0.0/0",
                    "GatewayId": "igw-06cf664d80EXAMPLE",
                    "Origin": "CreateRoute",
                    "State": "active"
                }
            ],
            "Tags": [],
            "VpcId": "vpc-0065acced4EXAMPLE",
            "OwnerId": "111122223333"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tabel Rute](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Route_Tables.html#WorkWithRouteTables) di *Panduan Pengguna AWS VPC*.  
+  Untuk detail API, lihat [DescribeRouteTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-route-tables.html)di *Referensi AWS CLI Perintah*. 

### `describe-scheduled-instance-availability`
<a name="ec2_DescribeScheduledInstanceAvailability_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scheduled-instance-availability`.

**AWS CLI**  
**Untuk menggambarkan jadwal yang tersedia**  
Contoh ini menjelaskan jadwal yang terjadi setiap minggu pada hari Minggu, dimulai pada tanggal yang ditentukan.  
Perintah:  

```
aws ec2 describe-scheduled-instance-availability --recurrence Frequency=Weekly,Interval=1,OccurrenceDays=[1] --first-slot-start-time-range EarliestTime=2016-01-31T00:00:00Z,LatestTime=2016-01-31T04:00:00Z
```
Output:  

```
{
  "ScheduledInstanceAvailabilitySet": [
    {
        "AvailabilityZone": "us-west-2b",
        "TotalScheduledInstanceHours": 1219,
        "PurchaseToken": "eyJ2IjoiMSIsInMiOjEsImMiOi...",
        "MinTermDurationInDays": 366,
        "AvailableInstanceCount": 20,
        "Recurrence": {
            "OccurrenceDaySet": [
                1
            ],
            "Interval": 1,
            "Frequency": "Weekly",
            "OccurrenceRelativeToEnd": false
        },
        "Platform": "Linux/UNIX",
        "FirstSlotStartTime": "2016-01-31T00:00:00Z",
        "MaxTermDurationInDays": 366,
        "SlotDurationInHours": 23,
        "NetworkPlatform": "EC2-VPC",
        "InstanceType": "c4.large",
        "HourlyPrice": "0.095"
    },
    ...
  ]
}
```
Untuk mempersempit hasil, Anda dapat menambahkan filter yang menentukan sistem operasi, jaringan, dan jenis instance.  
Perintah:  
--filter name=Platform, nilai = Linux/UNIX name=Network-platform, nilai = EC2-VPC name=Instance-type, nilai = C4.large  
+  Untuk detail API, lihat [DescribeScheduledInstanceAvailability](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-scheduled-instance-availability.html)di *Referensi AWS CLI Perintah*. 

### `describe-scheduled-instances`
<a name="ec2_DescribeScheduledInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scheduled-instances`.

**AWS CLI**  
**Untuk mendeskripsikan Instans Terjadwal Anda**  
Contoh ini menjelaskan Instance Terjadwal yang ditentukan.  
Perintah:  

```
aws ec2 describe-scheduled-instances --scheduled-instance-ids sci-1234-1234-1234-1234-123456789012
```
Output:  

```
{
  "ScheduledInstanceSet": [
      {
          "AvailabilityZone": "us-west-2b",
          "ScheduledInstanceId": "sci-1234-1234-1234-1234-123456789012",
          "HourlyPrice": "0.095",
          "CreateDate": "2016-01-25T21:43:38.612Z",
          "Recurrence": {
              "OccurrenceDaySet": [
                  1
              ],
              "Interval": 1,
              "Frequency": "Weekly",
              "OccurrenceRelativeToEnd": false,
              "OccurrenceUnit": ""
          },
          "Platform": "Linux/UNIX",
          "TermEndDate": "2017-01-31T09:00:00Z",
          "InstanceCount": 1,
          "SlotDurationInHours": 32,
          "TermStartDate": "2016-01-31T09:00:00Z",
          "NetworkPlatform": "EC2-VPC",
          "TotalScheduledInstanceHours": 1696,
          "NextSlotStartTime": "2016-01-31T09:00:00Z",
          "InstanceType": "c4.large"
      }
  ]
}
```
Contoh ini menjelaskan semua Instans Terjadwal Anda.  
Perintah:  

```
aws ec2 describe-scheduled-instances
```
+  Untuk detail API, lihat [DescribeScheduledInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-scheduled-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-security-group-references`
<a name="ec2_DescribeSecurityGroupReferences_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-security-group-references`.

**AWS CLI**  
**Untuk menggambarkan referensi grup keamanan**  
Contoh ini menjelaskan referensi grup keamanan untuk`sg-bbbb2222`. Respons menunjukkan bahwa kelompok keamanan `sg-bbbb2222` sedang direferensikan oleh grup keamanan di VPC`vpc-aaaaaaaa`.  
Perintah:  

```
aws ec2 describe-security-group-references --group-id sg-bbbbb22222
```
Output:  

```
{
  "SecurityGroupsReferenceSet": [
    {
      "ReferencingVpcId": "vpc-aaaaaaaa ",
      "GroupId": "sg-bbbbb22222",
      "VpcPeeringConnectionId": "pcx-b04deed9"
    }
  ]
}
```
+  Untuk detail API, lihat [DescribeSecurityGroupReferences](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-security-group-references.html)di *Referensi AWS CLI Perintah*. 

### `describe-security-group-rules`
<a name="ec2_DescribeSecurityGroupRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-security-group-rules`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan aturan grup keamanan untuk grup keamanan**  
`describe-security-group-rules`Contoh berikut menjelaskan aturan grup keamanan dari grup keamanan tertentu. Gunakan `filters` opsi untuk mencakup hasil ke grup keamanan tertentu.  

```
aws ec2 describe-security-group-rules \
    --filters Name="group-id",Values="sg-1234567890abcdef0"
```
Output:  

```
{
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-abcdef01234567890",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "111122223333",
            "IsEgress": false,
            "IpProtocol": "-1",
            "FromPort": -1,
            "ToPort": -1,
            "ReferencedGroupInfo": {
                "GroupId": "sg-1234567890abcdef0",
                "UserId": "111122223333"
            },
            "Tags": []
        },
        {
            "SecurityGroupRuleId": "sgr-bcdef01234567890a",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "111122223333",
            "IsEgress": true,
            "IpProtocol": "-1",
            "FromPort": -1,
            "ToPort": -1,
            "CidrIpv6": "::/0",
            "Tags": []
        },
        {
            "SecurityGroupRuleId": "sgr-cdef01234567890ab",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "111122223333",
            "IsEgress": true,
            "IpProtocol": "-1",
            "FromPort": -1,
            "ToPort": -1,
            "CidrIpv4": "0.0.0.0/0",
            "Tags": []
        }
    ]
}
```
**Contoh 2: Untuk mendeskripsikan aturan grup keamanan**  
`describe-security-group-rules`Contoh berikut menjelaskan aturan grup keamanan yang ditentukan.  

```
aws ec2 describe-security-group-rules \
    --security-group-rule-ids sgr-cdef01234567890ab
```
Output:  

```
{
    "SecurityGroupRules": [
        {
            "SecurityGroupRuleId": "sgr-cdef01234567890ab",
            "GroupId": "sg-1234567890abcdef0",
            "GroupOwnerId": "111122223333",
            "IsEgress": true,
            "IpProtocol": "-1",
            "FromPort": -1,
            "ToPort": -1,
            "CidrIpv4": "0.0.0.0/0",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Aturan grup keamanan](https://docs.aws.amazon.com/vpc/latest/userguide/security-group-rules.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DescribeSecurityGroupRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-security-group-rules.html)di *Referensi AWS CLI Perintah*. 

### `describe-security-group-vpc-associations`
<a name="ec2_DescribeSecurityGroupVpcAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-security-group-vpc-associations`.

**AWS CLI**  
**Untuk menggambarkan asosiasi VPC**  
`describe-security-group-vpc-associations`Contoh berikut menjelaskan asosiasi VPC untuk grup keamanan yang ditentukan.  

```
aws ec2 describe-security-group-vpc-associations \
    --filters Name=group-id,Values=sg-04dbb43907d3f8a78
```
Output:  

```
{
    "SecurityGroupVpcAssociations": [
        {
            "GroupId": "sg-04dbb43907d3f8a78",
            "VpcId": "vpc-0bf4c2739bc05a694",
            "VpcOwnerId": "123456789012",
            "State": "associated"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan grup keamanan dengan beberapa VPCs](https://docs.aws.amazon.com/vpc/latest/userguide/security-group-assoc.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DescribeSecurityGroupVpcAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-security-group-vpc-associations.html)di *Referensi AWS CLI Perintah*. 

### `describe-security-groups`
<a name="ec2_DescribeSecurityGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-security-groups`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan grup keamanan**  
Contoh `describe-security-groups` berikut menjelaskan grup keamanan tertentu.  

```
aws ec2 describe-security-groups \
    --group-ids sg-903004f8
```
Output:  

```
{
    "SecurityGroups": [
        {
            "IpPermissionsEgress": [
                {
                    "IpProtocol": "-1",
                    "IpRanges": [
                        {
                            "CidrIp": "0.0.0.0/0"
                        }
                    ],
                    "UserIdGroupPairs": [],
                    "PrefixListIds": []
                }
            ],
            "Description": "My security group",
            "Tags": [
                {
                    "Value": "SG1",
                    "Key": "Name"
                }
            ],
            "IpPermissions": [
                {
                    "IpProtocol": "-1",
                    "IpRanges": [],
                    "UserIdGroupPairs": [
                        {
                            "UserId": "123456789012",
                            "GroupId": "sg-903004f8"
                        }
                    ],
                    "PrefixListIds": []
                },
                {
                    "PrefixListIds": [],
                    "FromPort": 22,
                    "IpRanges": [
                        {
                            "Description": "Access from NY office",
                            "CidrIp": "203.0.113.0/24"
                        }
                    ],
                    "ToPort": 22,
                    "IpProtocol": "tcp",
                    "UserIdGroupPairs": []
                    }
            ],
            "GroupName": "MySecurityGroup",
            "VpcId": "vpc-1a2b3c4d",
            "OwnerId": "123456789012",
            "GroupId": "sg-903004f8",
        }
    ]
}
```
**Contoh 2: Untuk menjelaskan grup keamanan yang memiliki aturan khusus**  
`describe-security-groups`Contoh berikut menggunakan filter untuk lingkup hasil untuk kelompok keamanan yang memiliki aturan yang memungkinkan lalu lintas SSH (port 22) dan aturan yang memungkinkan lalu lintas dari semua alamat (`0.0.0.0/0`). Contoh tersebut menggunakan parameter `--query` untuk hanya menampilkan nama grup keamanan. Grup keamanan harus cocok dengan semua filter yang akan dikembalikan dalam hasil; namun, satu aturan tidak harus cocok dengan semua filter. Misalnya, output mengembalikan grup keamanan dengan aturan yang memungkinkan lalu lintas SSH dari alamat IP tertentu dan aturan lain yang memungkinkan lalu lintas HTTP dari semua alamat.  

```
aws ec2 describe-security-groups \
    --filters Name=ip-permission.from-port,Values=22 Name=ip-permission.to-port,Values=22 Name=ip-permission.cidr,Values='0.0.0.0/0' \
    --query "SecurityGroups[*].[GroupName]" \
    --output text
```
Output:  

```
default
my-security-group
web-servers
launch-wizard-1
```
**Contoh 3: Untuk menjelaskan grup keamanan berdasarkan tanda**  
Contoh `describe-security-groups` berikut menggunakan filter guna mencakup hasil untuk grup keamanan yang menyertakan `test` dalam nama grup keamanan dan yang memiliki tanda `Test=To-delete`. Contoh menggunakan `--query` parameter untuk menampilkan hanya nama dan IDs kelompok keamanan.  

```
aws ec2 describe-security-groups \
    --filters Name=group-name,Values=*test* Name=tag:Test,Values=To-delete \
    --query "SecurityGroups[*].{Name:GroupName,ID:GroupId}"
```
Output:  

```
[
    {
        "Name": "testfornewinstance",
        "ID": "sg-33bb22aa"
    },
    {
        "Name": "newgrouptest",
        "ID": "sg-1a2b3c4d"
    }
]
```
Untuk contoh tambahan menggunakan filter tanda, lihat [Bekerja dengan tanda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeSecurityGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-security-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-snapshot-attribute`
<a name="ec2_DescribeSnapshotAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-snapshot-attribute`.

**AWS CLI**  
**Untuk mendeskripsikan atribut snapshot untuk snapshot**  
`describe-snapshot-attribute`Contoh berikut mencantumkan akun yang digunakan untuk berbagi snapshot.  

```
aws ec2 describe-snapshot-attribute \
    --snapshot-id snap-01234567890abcedf \
    --attribute createVolumePermission
```
Output:  

```
{
    "SnapshotId": "snap-01234567890abcedf",
    "CreateVolumePermissions": [
        {
            "UserId": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membagikan snapshot Amazon EBS di Panduan Pengguna](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ebs-modifying-snapshot-permissions.html#share-unencrypted-snapshot) *Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [DescribeSnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-snapshot-attribute.html)di *Referensi AWS CLI Perintah*. 

### `describe-snapshot-tier-status`
<a name="ec2_DescribeSnapshotTierStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-snapshot-tier-status`.

**AWS CLI**  
**Untuk melihat informasi arsip tentang snapshot yang diarsipkan**  
`describe-snapshot-tier-status`Contoh berikut memberikan informasi arsip tentang snapshot yang diarsipkan.  

```
aws ec2 describe-snapshot-tier-status \
    --filters "Name=snapshot-id, Values=snap-01234567890abcedf"
```
Output:  

```
{
    "SnapshotTierStatuses": [
        {
            "Status": "completed",
            "ArchivalCompleteTime": "2021-09-15T17:33:16.147Z",
            "LastTieringProgress": 100,
            "Tags": [],
            "VolumeId": "vol-01234567890abcedf",
            "LastTieringOperationState": "archival-completed",
            "StorageTier": "archive",
            "OwnerId": "123456789012",
            "SnapshotId": "snap-01234567890abcedf",
            "LastTieringStartTime": "2021-09-15T16:44:37.574Z"
        }
    ]
}
```
Untuk informasi selengkapnya, buka [Lihat snapshot yang diarsipkan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/working-with-snapshot-archiving.html#view-archived-snapshot) di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [DescribeSnapshotTierStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-snapshot-tier-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-snapshots`
<a name="ec2_DescribeSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-snapshots`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan snapshot**  
Contoh `describe-snapshots` berikut menjelaskan snapshot tertentu.  

```
aws ec2 describe-snapshots \
    --snapshot-ids snap-1234567890abcdef0
```
Output:  

```
{
    "Snapshots": [
        {
            "Description": "This is my snapshot",
            "Encrypted": false,
            "VolumeId": "vol-049df61146c4d7901",
            "State": "completed",
            "VolumeSize": 8,
            "StartTime": "2019-02-28T21:28:32.000Z",
            "Progress": "100%",
            "OwnerId": "012345678910",
            "SnapshotId": "snap-01234567890abcdef",
            "Tags": [
                {
                    "Key": "Stack",
                    "Value": "test"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Snapshot Amazon EBS](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/EBSSnapshots.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk menjelaskan snapshot berdasarkan filter**  
`describe-snapshots`Contoh berikut menggunakan filter untuk mencakupkan hasil ke snapshot yang dimiliki oleh AWS akun Anda yang berada dalam `pending` status. Contoh menggunakan `--query` parameter untuk hanya menampilkan snapshot IDs dan waktu snapshot dimulai.  

```
aws ec2 describe-snapshots \
    --owner-ids self \
    --filters Name=status,Values=pending \
    --query "Snapshots[*].{ID:SnapshotId,Time:StartTime}"
```
Output:  

```
[
    {
        "ID": "snap-1234567890abcdef0",
        "Time": "2019-08-04T12:48:18.000Z"
    },
    {
        "ID": "snap-066877671789bd71b",
        "Time": "2019-08-04T02:45:16.000Z
    },
    ...
]
```
Contoh `describe-snapshots` berikut menggunakan filter guna mencakup hasil untuk snapshot yang dibuat dari volume tertentu. Contoh menggunakan `--query` parameter untuk hanya menampilkan snapshot IDs.  

```
aws ec2 describe-snapshots \
    --filters Name=volume-id,Values=049df61146c4d7901 \
    --query "Snapshots[*].[SnapshotId]" \
    --output text
```
Output:  

```
snap-1234567890abcdef0
snap-08637175a712c3fb9
...
```
Untuk contoh tambahan menggunakan filter, lihat [Mencantumkan dan memfilter sumber daya Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) di *Panduan Pengguna Amazon EC2*.  
**Contoh 3: Untuk menjelaskan snapshot berdasarkan tanda**  
Contoh `describe-snapshots` berikut menggunakan filter tanda guna mencakup hasil untuk snapshot yang memiliki tanda `Stack=Prod`.  

```
aws ec2 describe-snapshots \
    --filters Name=tag:Stack,Values=prod
```
Untuk contoh output `describe-snapshots`, lihat Contoh 1.  
Untuk contoh tambahan menggunakan filter tanda, lihat [Bekerja dengan tanda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) di *Panduan Pengguna Amazon EC2*.  
**Contoh 4: Untuk menjelaskan snapshot berdasarkan usia**  
`describe-snapshots`Contoh berikut menggunakan JMESPath ekspresi untuk menggambarkan semua snapshot yang dibuat oleh AWS akun Anda sebelum tanggal yang ditentukan. Ini hanya menampilkan snapshot IDs.  

```
aws ec2 describe-snapshots \
    --owner-ids 012345678910 \
    --query "Snapshots[?(StartTime<='2020-03-31')].[SnapshotId]"
```
Untuk contoh tambahan menggunakan filter, lihat [Mencantumkan dan memfilter sumber daya Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) di *Panduan Pengguna Amazon EC2*.  
**Contoh 5: Untuk melihat snapshot yang diarsipkan saja**  
Contoh `describe-snapshots` berikut hanya mencantumkan snapshot yang disimpan di tingkat arsip.  

```
aws ec2 describe-snapshots \
    --filters "Name=storage-tier,Values=archive"
```
Output:  

```
{
    "Snapshots": [
        {
            "Description": "Snap A",
            "Encrypted": false,
            "VolumeId": "vol-01234567890aaaaaa",
            "State": "completed",
            "VolumeSize": 8,
            "StartTime": "2021-09-07T21:00:00.000Z",
            "Progress": "100%",
            "OwnerId": "123456789012",
            "SnapshotId": "snap-01234567890aaaaaa",
            "StorageTier": "archive",
            "Tags": []
        },
    ]
}
```
Untuk informasi selengkapnya, buka [Lihat snapshot yang diarsipkan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/working-with-snapshot-archiving.html#view-archived-snapshot) di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [DescribeSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `describe-spot-datafeed-subscription`
<a name="ec2_DescribeSpotDatafeedSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-spot-datafeed-subscription`.

**AWS CLI**  
**Untuk mendeskripsikan langganan datafeed Instance Spot untuk sebuah akun**  
Perintah contoh ini menjelaskan umpan data untuk akun.  
Perintah:  

```
aws ec2 describe-spot-datafeed-subscription
```
Output:  

```
{
    "SpotDatafeedSubscription": {
        "OwnerId": "123456789012",
        "Prefix": "spotdata",
        "Bucket": "amzn-s3-demo-bucket",
        "State": "Active"
    }
}
```
+  Untuk detail API, lihat [DescribeSpotDatafeedSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-datafeed-subscription.html)di *Referensi AWS CLI Perintah*. 

### `describe-spot-fleet-instances`
<a name="ec2_DescribeSpotFleetInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-spot-fleet-instances`.

**AWS CLI**  
**Untuk menggambarkan Instans Spot yang terkait dengan armada Spot**  
Perintah contoh ini mencantumkan instance Spot yang terkait dengan armada Spot yang ditentukan.  
Perintah:  

```
aws ec2 describe-spot-fleet-instances --spot-fleet-request-id sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE
```
Output:  

```
{
  "ActiveInstances": [
      {
          "InstanceId": "i-1234567890abcdef0",
          "InstanceType": "m3.medium",
          "SpotInstanceRequestId": "sir-08b93456"
      },
      ...
  ],
  "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE"
}
```
+  Untuk detail API, lihat [DescribeSpotFleetInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-fleet-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-spot-fleet-request-history`
<a name="ec2_DescribeSpotFleetRequestHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-spot-fleet-request-history`.

**AWS CLI**  
**Untuk menggambarkan sejarah armada Spot**  
Perintah contoh ini mengembalikan riwayat untuk armada Spot yang ditentukan mulai pada waktu yang ditentukan.  
Perintah:  

```
aws ec2 describe-spot-fleet-request-history --spot-fleet-request-id sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE --start-time 2015-05-26T00:00:00Z
```
Contoh keluaran berikut menunjukkan keberhasilan peluncuran dua Instans Spot untuk armada Spot.  
Output:  

```
{
  "HistoryRecords": [
      {
          "Timestamp": "2015-05-26T23:17:20.697Z",
          "EventInformation": {
              "EventSubType": "submitted"
          },
          "EventType": "fleetRequestChange"
      },
      {
          "Timestamp": "2015-05-26T23:17:20.873Z",
          "EventInformation": {
              "EventSubType": "active"
          },
          "EventType": "fleetRequestChange"
      },
      {
          "Timestamp": "2015-05-26T23:21:21.712Z",
          "EventInformation": {
              "InstanceId": "i-1234567890abcdef0",
              "EventSubType": "launched"
          },
          "EventType": "instanceChange"
      },
      {
          "Timestamp": "2015-05-26T23:21:21.816Z",
          "EventInformation": {
              "InstanceId": "i-1234567890abcdef1",
              "EventSubType": "launched"
          },
          "EventType": "instanceChange"
      }
  ],
  "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE",
  "NextToken": "CpHNsscimcV5oH7bSbub03CI2Qms5+ypNpNm+53MNlR0YcXAkp0xFlfKf91yVxSExmbtma3awYxMFzNA663ZskT0AHtJ6TCb2Z8bQC2EnZgyELbymtWPfpZ1ZbauVg+P+TfGlWxWWB/Vr5dk5d4LfdgA/DRAHUrYgxzrEXAMPLE=",
  "StartTime": "2015-05-26T00:00:00Z"
}
```
+  Untuk detail API, lihat [DescribeSpotFleetRequestHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-fleet-request-history.html)di *Referensi AWS CLI Perintah*. 

### `describe-spot-fleet-requests`
<a name="ec2_DescribeSpotFleetRequests_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-spot-fleet-requests`.

**AWS CLI**  
**Untuk menjelaskan permintaan armada Spot Anda**  
Contoh ini menjelaskan semua permintaan armada Spot Anda.  
Perintah:  

```
aws ec2 describe-spot-fleet-requests
```
Output:  

```
{
  "SpotFleetRequestConfigs": [
      {
          "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE",
          "SpotFleetRequestConfig": {
              "TargetCapacity": 20,
              "LaunchSpecifications": [
                  {
                      "EbsOptimized": false,
                      "NetworkInterfaces": [
                          {
                              "SubnetId": "subnet-a61dafcf",
                              "DeviceIndex": 0,
                              "DeleteOnTermination": false,
                              "AssociatePublicIpAddress": true,
                              "SecondaryPrivateIpAddressCount": 0
                          }
                      ],
                      "InstanceType": "cc2.8xlarge",
                      "ImageId": "ami-1a2b3c4d"
                  },
                  {
                      "EbsOptimized": false,
                      "NetworkInterfaces": [
                          {
                              "SubnetId": "subnet-a61dafcf",
                              "DeviceIndex": 0,
                              "DeleteOnTermination": false,
                              "AssociatePublicIpAddress": true,
                              "SecondaryPrivateIpAddressCount": 0
                          }
                      ],
                      "InstanceType": "r3.8xlarge",
                      "ImageId": "ami-1a2b3c4d"
                  }
              ],
              "SpotPrice": "0.05",
              "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role"
          },
          "SpotFleetRequestState": "active"
      },
      {
          "SpotFleetRequestId": "sfr-306341ed-9739-402e-881b-ce47bEXAMPLE",
          "SpotFleetRequestConfig": {
              "TargetCapacity": 20,
              "LaunchSpecifications": [
                  {
                      "EbsOptimized": false,
                      "NetworkInterfaces": [
                          {
                              "SubnetId": "subnet-6e7f829e",
                              "DeviceIndex": 0,
                              "DeleteOnTermination": false,
                              "AssociatePublicIpAddress": true,
                              "SecondaryPrivateIpAddressCount": 0
                          }
                      ],
                      "InstanceType": "m3.medium",
                      "ImageId": "ami-1a2b3c4d"
                  }
              ],
              "SpotPrice": "0.05",
              "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role"
          },
          "SpotFleetRequestState": "active"
      }
  ]
}
```
**Untuk menjelaskan permintaan armada Spot**  
Contoh ini menjelaskan permintaan armada Spot yang ditentukan.  
Perintah:  

```
aws ec2 describe-spot-fleet-requests --spot-fleet-request-ids sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE
```
Output:  

```
{
  "SpotFleetRequestConfigs": [
      {
          "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE",
          "SpotFleetRequestConfig": {
              "TargetCapacity": 20,
              "LaunchSpecifications": [
                  {
                      "EbsOptimized": false,
                      "NetworkInterfaces": [
                          {
                              "SubnetId": "subnet-a61dafcf",
                              "DeviceIndex": 0,
                              "DeleteOnTermination": false,
                              "AssociatePublicIpAddress": true,
                              "SecondaryPrivateIpAddressCount": 0
                          }
                      ],
                      "InstanceType": "cc2.8xlarge",
                      "ImageId": "ami-1a2b3c4d"
                  },
                  {
                      "EbsOptimized": false,
                      "NetworkInterfaces": [
                          {
                              "SubnetId": "subnet-a61dafcf",
                              "DeviceIndex": 0,
                              "DeleteOnTermination": false,
                              "AssociatePublicIpAddress": true,
                              "SecondaryPrivateIpAddressCount": 0
                          }
                      ],
                      "InstanceType": "r3.8xlarge",
                      "ImageId": "ami-1a2b3c4d"
                  }
              ],
              "SpotPrice": "0.05",
              "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role"
          },
          "SpotFleetRequestState": "active"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeSpotFleetRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-fleet-requests.html)di *Referensi AWS CLI Perintah*. 

### `describe-spot-instance-requests`
<a name="ec2_DescribeSpotInstanceRequests_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-spot-instance-requests`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan permintaan Instans Spot**  
`describe-spot-instance-requests`Contoh berikut menjelaskan permintaan Instans Spot yang ditentukan.  

```
aws ec2 describe-spot-instance-requests \
    --spot-instance-request-ids sir-08b93456
```
Output:  

```
{
    "SpotInstanceRequests": [
        {
            "CreateTime": "2018-04-30T18:14:55.000Z",
            "InstanceId": "i-1234567890abcdef1",
            "LaunchSpecification": {
                "InstanceType": "t2.micro",
                "ImageId": "ami-003634241a8fcdec0",
                "KeyName": "my-key-pair",
                "SecurityGroups": [
                    {
                        "GroupName": "default",
                        "GroupId": "sg-e38f24a7"
                    }
                ],
                "BlockDeviceMappings": [
                    {
                        "DeviceName": "/dev/sda1",
                        "Ebs": {
                            "DeleteOnTermination": true,
                            "SnapshotId": "snap-0e54a519c999adbbd",
                            "VolumeSize": 8,
                            "VolumeType": "standard",
                            "Encrypted": false
                        }
                    }
                ],
                "NetworkInterfaces": [
                    {
                        "DeleteOnTermination": true,
                        "DeviceIndex": 0,
                        "SubnetId": "subnet-049df61146c4d7901"
                    }
                ],
                "Placement": {
                    "AvailabilityZone": "us-east-2b",
                    "Tenancy": "default"
                },
                "Monitoring": {
                    "Enabled": false
                }
            },
            "LaunchedAvailabilityZone": "us-east-2b",
            "ProductDescription": "Linux/UNIX",
            "SpotInstanceRequestId": "sir-08b93456",
            "SpotPrice": "0.010000"
            "State": "active",
            "Status": {
                "Code": "fulfilled",
                "Message": "Your Spot request is fulfilled.",
                "UpdateTime": "2018-04-30T18:16:21.000Z"
            },
            "Tags": [],
            "Type": "one-time",
            "InstanceInterruptionBehavior": "terminate"
        }
    ]
}
```
**Contoh 2: Untuk menjelaskan permintaan Instans Spot berdasarkan filter**  
`describe-spot-instance-requests`Contoh berikut menggunakan filter untuk membuat cakupan hasil ke permintaan Instance Spot dengan jenis instans yang ditentukan di Availability Zone yang ditentukan. Contoh menggunakan `--query` parameter untuk menampilkan hanya contoh IDs.  

```
aws ec2 describe-spot-instance-requests \
    --filters Name=launch.instance-type,Values=m3.medium Name=launched-availability-zone,Values=us-east-2a \
    --query "SpotInstanceRequests[*].[InstanceId]" \
    --output text
```
Output:  

```
i-057750d42936e468a
i-001efd250faaa6ffa
i-027552a73f021f3bd
...
```
Untuk contoh tambahan menggunakan filter, lihat [Mencantumkan dan memfilter sumber daya Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
**Contoh 3: Untuk menjelaskan permintaan Instans Spot berdasarkan tag**  
`describe-spot-instance-requests`Contoh berikut menggunakan filter tag untuk cakupan hasil ke permintaan Spot Instance yang memiliki tag`cost-center=cc123`.  

```
aws ec2 describe-spot-instance-requests \
    --filters Name=tag:cost-center,Values=cc123
```
Untuk contoh output `describe-spot-instance-requests`, lihat Contoh 1.  
Untuk contoh tambahan menggunakan filter tanda, lihat [Bekerja dengan tanda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeSpotInstanceRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-instance-requests.html)di *Referensi AWS CLI Perintah*. 

### `describe-spot-price-history`
<a name="ec2_DescribeSpotPriceHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-spot-price-history`.

**AWS CLI**  
**Untuk menggambarkan sejarah harga Spot**  
Perintah contoh ini mengembalikan riwayat Harga Spot untuk instance m1.xlarge untuk hari tertentu di bulan Januari.  
Perintah:  

```
aws ec2 describe-spot-price-history --instance-types m1.xlarge --start-time 2014-01-06T07:08:09 --end-time 2014-01-06T08:09:10
```
Output:  

```
{
  "SpotPriceHistory": [
          {
              "Timestamp": "2014-01-06T07:10:55.000Z",
              "ProductDescription": "SUSE Linux",
              "InstanceType": "m1.xlarge",
              "SpotPrice": "0.087000",
              "AvailabilityZone": "us-west-1b"
          },
          {
              "Timestamp": "2014-01-06T07:10:55.000Z",
              "ProductDescription": "SUSE Linux",
              "InstanceType": "m1.xlarge",
              "SpotPrice": "0.087000",
              "AvailabilityZone": "us-west-1c"
          },
          {
              "Timestamp": "2014-01-06T05:42:36.000Z",
              "ProductDescription": "SUSE Linux (Amazon VPC)",
              "InstanceType": "m1.xlarge",
              "SpotPrice": "0.087000",
              "AvailabilityZone": "us-west-1a"
      },
      ...
}
```
**Untuk menggambarkan sejarah harga Spot untuk Linux/UNIX Amazon VPC**  
Perintah contoh ini mengembalikan riwayat Harga Spot untuk instans Linux/UNIX VPC Amazon m1.xlarge untuk hari tertentu di bulan Januari.  
Perintah:  

```
aws ec2 describe-spot-price-history --instance-types m1.xlarge --product-description "Linux/UNIX (Amazon VPC)" --start-time 2014-01-06T07:08:09 --end-time 2014-01-06T08:09:10
```
Output:  

```
{
  "SpotPriceHistory": [
      {
          "Timestamp": "2014-01-06T04:32:53.000Z",
          "ProductDescription": "Linux/UNIX (Amazon VPC)",
          "InstanceType": "m1.xlarge",
          "SpotPrice": "0.080000",
          "AvailabilityZone": "us-west-1a"
      },
      {
          "Timestamp": "2014-01-05T11:28:26.000Z",
          "ProductDescription": "Linux/UNIX (Amazon VPC)",
          "InstanceType": "m1.xlarge",
          "SpotPrice": "0.080000",
          "AvailabilityZone": "us-west-1c"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeSpotPriceHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-price-history.html)di *Referensi AWS CLI Perintah*. 

### `describe-stale-security-groups`
<a name="ec2_DescribeStaleSecurityGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stale-security-groups`.

**AWS CLI**  
**Untuk menggambarkan kelompok keamanan basi**  
Contoh ini menjelaskan aturan grup keamanan basi untuk`vpc-11223344`. Tanggapan menunjukkan bahwa sg-5fa68d3a di akun Anda memiliki aturan SSH ingress basi yang mereferensikan di VPC rekan, dan bahwa di `sg-279ab042` akun Anda memiliki aturan SSH keluar basi yang merujuk `sg-fe6fba9a` dalam VPC rekan. `sg-ef6fba8b`  
Perintah:  

```
aws ec2 describe-stale-security-groups --vpc-id vpc-11223344
```
Output:  

```
{
  "StaleSecurityGroupSet": [
      {
          "VpcId": "vpc-11223344",
          "StaleIpPermissionsEgress": [
              {
                  "ToPort": 22,
                  "FromPort": 22,
                  "UserIdGroupPairs": [
                      {
                          "VpcId": "vpc-7a20e51f",
                          "GroupId": "sg-ef6fba8b",
                          "VpcPeeringConnectionId": "pcx-b04deed9",
                          "PeeringStatus": "active"
                      }
                  ],
                  "IpProtocol": "tcp"
              }
          ],
          "GroupName": "MySG1",
          "StaleIpPermissions": [],
          "GroupId": "sg-fe6fba9a",
          "Description": MySG1"
      },
      {
          "VpcId": "vpc-11223344",
          "StaleIpPermissionsEgress": [],
          "GroupName": "MySG2",
          "StaleIpPermissions": [
              {
                  "ToPort": 22,
                  "FromPort": 22,
                  "UserIdGroupPairs": [
                      {
                          "VpcId": "vpc-7a20e51f",
                          "GroupId": "sg-279ab042",
                          "Description": "Access from pcx-b04deed9",
                          "VpcPeeringConnectionId": "pcx-b04deed9",
                          "PeeringStatus": "active"
                      }
                  ],
                  "IpProtocol": "tcp"
              }
          ],
          "GroupId": "sg-5fa68d3a",
          "Description": "MySG2"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeStaleSecurityGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-stale-security-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-store-image-tasks`
<a name="ec2_DescribeStoreImageTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-store-image-tasks`.

**AWS CLI**  
**Untuk menggambarkan kemajuan tugas penyimpanan AMI**  
`describe-store-image-tasks`Contoh berikut menjelaskan kemajuan tugas penyimpanan AMI.  

```
aws ec2 describe-store-image-tasks
```
Output:  

```
{
    "StoreImageTaskResults": [
        {
            "AmiId": "ami-1234567890abcdef0",
            "Bucket": "my-ami-bucket",
            "ProgressPercentage": 17,
            "S3objectKey": "ami-1234567890abcdef0.bin",
            "StoreTaskState": "InProgress",
            "StoreTaskFailureReason": null,
            "TaskStartTime": "2022-01-01T01:01:01.001Z"
        }
    ]
}
```
*Untuk informasi selengkapnya tentang menyimpan dan memulihkan AMI menggunakan S3, lihat Menyimpan dan memulihkan AMI menggunakan S3 <https://docs.aws.amazon.com/AWS EC2/ latest/UserGuide/ami -store-restore.html> di Panduan Pengguna Amazon EC2.*  
+  Untuk detail API, lihat [DescribeStoreImageTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-store-image-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-subnets`
<a name="ec2_DescribeSubnets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-subnets`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan semua subnet Anda**  
Contoh `describe-subnets` berikut menampilkan detail subnet Anda.  

```
aws ec2 describe-subnets
```
Output:  

```
{
    "Subnets": [
        {
            "AvailabilityZone": "us-east-1d",
            "AvailabilityZoneId": "use1-az2",
            "AvailableIpAddressCount": 4089,
            "CidrBlock": "172.31.80.0/20",
            "DefaultForAz": true,
            "MapPublicIpOnLaunch": false,
            "MapCustomerOwnedIpOnLaunch": true,
            "State": "available",
            "SubnetId": "subnet-0bb1c79de3EXAMPLE",
            "VpcId": "vpc-0ee975135dEXAMPLE",
            "OwnerId": "111122223333",
            "AssignIpv6AddressOnCreation": false,
            "Ipv6CidrBlockAssociationSet": [],
            "CustomerOwnedIpv4Pool:": 'pool-2EXAMPLE',
            "SubnetArn": "arn:aws:ec2:us-east-2:111122223333:subnet/subnet-0bb1c79de3EXAMPLE",
            "EnableDns64": false,
            "Ipv6Native": false,
            "PrivateDnsNameOptionsOnLaunch": {
                "HostnameType": "ip-name",
                "EnableResourceNameDnsARecord": false,
                "EnableResourceNameDnsAAAARecord": false
            }
        },
        {
            "AvailabilityZone": "us-east-1d",
            "AvailabilityZoneId": "use1-az2",
            "AvailableIpAddressCount": 4089,
            "CidrBlock": "172.31.80.0/20",
            "DefaultForAz": true,
            "MapPublicIpOnLaunch": true,
            "MapCustomerOwnedIpOnLaunch": false,
            "State": "available",
            "SubnetId": "subnet-8EXAMPLE",
            "VpcId": "vpc-3EXAMPLE",
            "OwnerId": "1111222233333",
            "AssignIpv6AddressOnCreation": false,
            "Ipv6CidrBlockAssociationSet": [],
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "MySubnet"
                }
            ],
            "SubnetArn": "arn:aws:ec2:us-east-1:111122223333:subnet/subnet-8EXAMPLE",
            "EnableDns64": false,
            "Ipv6Native": false,
            "PrivateDnsNameOptionsOnLaunch": {
                "HostnameType": "ip-name",
                "EnableResourceNameDnsARecord": false,
                "EnableResourceNameDnsAAAARecord": false
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan VPCs dan Subnet](https://docs.aws.amazon.com/vpc/latest/userguide/working-with-vpcs.html) di Panduan Pengguna *AWS VPC*.  
**Contoh 2: Untuk menjelaskan subnet dari VPC tertentu**  
Contoh `describe-subnets` berikut menggunakan filter guna mengambil detail untuk subnet dari VPC tertentu.  

```
aws ec2 describe-subnets \
    --filters "Name=vpc-id,Values=vpc-3EXAMPLE"
```
Output:  

```
{
    "Subnets": [
        {
            "AvailabilityZone": "us-east-1d",
            "AvailabilityZoneId": "use1-az2",
            "AvailableIpAddressCount": 4089,
            "CidrBlock": "172.31.80.0/20",
            "DefaultForAz": true,
            "MapPublicIpOnLaunch": true,
            "MapCustomerOwnedIpOnLaunch": false,
            "State": "available",
            "SubnetId": "subnet-8EXAMPLE",
            "VpcId": "vpc-3EXAMPLE",
            "OwnerId": "1111222233333",
            "AssignIpv6AddressOnCreation": false,
            "Ipv6CidrBlockAssociationSet": [],
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "MySubnet"
                }
            ],
            "SubnetArn": "arn:aws:ec2:us-east-1:111122223333:subnet/subnet-8EXAMPLE",
            "EnableDns64": false,
            "Ipv6Native": false,
            "PrivateDnsNameOptionsOnLaunch": {
                "HostnameType": "ip-name",
                "EnableResourceNameDnsARecord": false,
                "EnableResourceNameDnsAAAARecord": false
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan VPCs dan Subnet](https://docs.aws.amazon.com/vpc/latest/userguide/working-with-vpcs.html) di Panduan Pengguna *AWS VPC*.  
**Contoh 3: Untuk menjelaskan subnet dengan tanda tertentu**  
`describe-subnets`Contoh berikut menggunakan filter untuk mengambil rincian subnet tersebut dengan tag `CostCenter=123` dan `--query` parameter untuk menampilkan subnet subnet IDs dengan tag ini.  

```
aws ec2 describe-subnets \
    --filters "Name=tag:CostCenter,Values=123" \
    --query "Subnets[*].SubnetId" \
    --output text
```
Output:  

```
subnet-0987a87c8b37348ef
subnet-02a95061c45f372ee
subnet-03f720e7de2788d73
```
Untuk informasi selengkapnya, lihat [Bekerja dengan VPCs dan Subnet](https://docs.aws.amazon.com/vpc/latest/userguide/working-with-vpcs.html) di Panduan *Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DescribeSubnets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-subnets.html)di *Referensi AWS CLI Perintah*. 

### `describe-tags`
<a name="ec2_DescribeTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tags`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan semua tag untuk satu sumber daya**  
`describe-tags`Contoh berikut menjelaskan tag untuk contoh tertentu.  

```
aws ec2 describe-tags \
    --filters "Name=resource-id,Values=i-1234567890abcdef8"
```
Output:  

```
{
    "Tags": [
        {
            "ResourceType": "instance",
            "ResourceId": "i-1234567890abcdef8",
            "Value": "Test",
            "Key": "Stack"
        },
        {
            "ResourceType": "instance",
            "ResourceId": "i-1234567890abcdef8",
            "Value": "Beta Server",
            "Key": "Name"
        }
    ]
}
```
**Contoh 2: Untuk mendeskripsikan semua tag untuk jenis sumber daya**  
`describe-tags`Contoh berikut menjelaskan tag untuk volume Anda.  

```
aws ec2 describe-tags \
    --filters "Name=resource-type,Values=volume"
```
Output:  

```
{
    "Tags": [
        {
            "ResourceType": "volume",
            "ResourceId": "vol-1234567890abcdef0",
            "Value": "Project1",
            "Key": "Purpose"
        },
        {
            "ResourceType": "volume",
            "ResourceId": "vol-049df61146c4d7901",
            "Value": "Logs",
            "Key": "Purpose"
        }
    ]
}
```
**Contoh 3: Untuk mendeskripsikan semua tag Anda**  
`describe-tags`Contoh berikut menjelaskan tag untuk semua sumber daya Anda.  

```
aws ec2 describe-tags
```
**Contoh 4: Untuk mendeskripsikan tag untuk sumber daya Anda berdasarkan kunci tag**  
`describe-tags`Contoh berikut menjelaskan tag untuk sumber daya Anda yang memiliki tag dengan kunci`Stack`.  

```
aws ec2 describe-tags \
    --filters Name=key,Values=Stack
```
Output:  

```
{
    "Tags": [
        {
            "ResourceType": "volume",
            "ResourceId": "vol-027552a73f021f3b",
            "Value": "Production",
            "Key": "Stack"
        },
        {
            "ResourceType": "instance",
            "ResourceId": "i-1234567890abcdef8",
            "Value": "Test",
            "Key": "Stack"
        }
    ]
}
```
**Contoh 5: Untuk mendeskripsikan tag untuk sumber daya Anda berdasarkan kunci tag dan nilai tag**  
`describe-tags`Contoh berikut menjelaskan tag untuk sumber daya Anda yang memiliki tag`Stack=Test`.  

```
aws ec2 describe-tags \
    --filters Name=key,Values=Stack Name=value,Values=Test
```
Output:  

```
{
    "Tags": [
        {
            "ResourceType": "image",
            "ResourceId": "ami-3ac336533f021f3bd",
            "Value": "Test",
            "Key": "Stack"
        },
        {
            "ResourceType": "instance",
            "ResourceId": "i-1234567890abcdef8",
            "Value": "Test",
            "Key": "Stack"
        }
    ]
}
```
`describe-tags`Contoh berikut menggunakan sintaks alternatif untuk menggambarkan sumber daya dengan tag`Stack=Test`.  

```
aws ec2 describe-tags \
    --filters "Name=tag:Stack,Values=Test"
```
`describe-tags`Contoh berikut menjelaskan tag untuk semua instance Anda yang memiliki tag dengan kunci `Purpose` dan tanpa nilai.  

```
aws ec2 describe-tags \
    --filters "Name=resource-type,Values=instance" "Name=key,Values=Purpose" "Name=value,Values="
```
Output:  

```
{
    "Tags": [
        {
            "ResourceType": "instance",
            "ResourceId": "i-1234567890abcdef5",
            "Value": null,
            "Key": "Purpose"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-tags.html)di *Referensi AWS CLI Perintah*. 

### `describe-traffic-mirror-filters`
<a name="ec2_DescribeTrafficMirrorFilters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-traffic-mirror-filters`.

**AWS CLI**  
**Untuk melihat filter cermin lalu lintas Anda**  
`describe-traffic-mirror-filters`Contoh berikut menampilkan detail untuk semua filter cermin lalu lintas Anda.  

```
aws ec2 describe-traffic-mirror-filters
```
Output:  

```
{
    "TrafficMirrorFilters": [
        {
            "TrafficMirrorFilterId": "tmf-0293f26e86EXAMPLE",
            "IngressFilterRules": [
                {
                    "TrafficMirrorFilterRuleId": "tmfr-0ca76e0e08EXAMPLE",
                    "TrafficMirrorFilterId": "tmf-0293f26e86EXAMPLE",
                    "TrafficDirection": "ingress",
                    "RuleNumber": 100,
                    "RuleAction": "accept",
                    "Protocol": 6,
                    "DestinationCidrBlock": "10.0.0.0/24",
                    "SourceCidrBlock": "10.0.0.0/24",
                    "Description": "TCP Rule"
                }
            ],
            "EgressFilterRules": [],
            "NetworkServices": [],
            "Description": "Example filter",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat filter cermin lalu lintas Anda](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-filter.html#view-traffic-mirroring-filter) di *Panduan Pencerminan Lalu Lintas*.  
+  Untuk detail API, lihat [DescribeTrafficMirrorFilters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-traffic-mirror-filters.html)di *Referensi AWS CLI Perintah*. 

### `describe-traffic-mirror-sessions`
<a name="ec2_DescribeTrafficMirrorSessions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-traffic-mirror-sessions`.

**AWS CLI**  
**Untuk menggambarkan Sesi Cermin Lalu Lintas**  
`describe-traffic-mirror-sessions`Contoh berikut menampilkan detail sesi Traffic Mirror Anda.  

```
aws ec2 describe-traffic-mirror-sessions
```
Output:  

```
{
    "TrafficMirrorSessions": [
        {
            "Tags": [],
            "VirtualNetworkId": 42,
            "OwnerId": "111122223333",
            "Description": "TCP Session",
            "NetworkInterfaceId": "eni-0a471a5cf3EXAMPLE",
            "TrafficMirrorTargetId": "tmt-0dabe9b0a6EXAMPLE",
            "TrafficMirrorFilterId": "tmf-083e18f985EXAMPLE",
            "PacketLength": 20,
            "SessionNumber": 1,
            "TrafficMirrorSessionId": "tms-0567a4c684EXAMPLE"
        },
        {
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "tag test"
                }
            ],
            "VirtualNetworkId": 13314501,
            "OwnerId": "111122223333",
            "Description": "TCP Session",
            "NetworkInterfaceId": "eni-0a471a5cf3EXAMPLE",
            "TrafficMirrorTargetId": "tmt-03665551cbEXAMPLE",
            "TrafficMirrorFilterId": "tmf-06c787846cEXAMPLE",
            "SessionNumber": 2,
            "TrafficMirrorSessionId": "tms-0060101cf8EXAMPLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Lihat Rincian Sesi Cermin Lalu Lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-session.html#view-traffic-mirroring-session) di *Panduan Pencerminan AWS Lalu Lintas*.  
+  Untuk detail API, lihat [DescribeTrafficMirrorSessions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-traffic-mirror-sessions.html)di *Referensi AWS CLI Perintah*. 

### `describe-traffic-mirror-targets`
<a name="ec2_DescribeTrafficMirrorTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-traffic-mirror-targets`.

**AWS CLI**  
**Untuk menggambarkan target cermin lalu lintas**  
`describe-traffic-mirror-targets`Contoh berikut menampilkan informasi tentang target cermin lalu lintas yang ditentukan.  

```
aws ec2 describe-traffic-mirror-targets \
    --traffic-mirror-target-ids tmt-0dabe9b0a6EXAMPLE
```
Output:  

```
{
    "TrafficMirrorTargets": [
        {
            "TrafficMirrorTargetId": "tmt-0dabe9b0a6EXAMPLE",
            "NetworkLoadBalancerArn": "arn:aws:elasticloadbalancing:us-east-1:111122223333:loadbalancer/net/NLB/7cdec873fEXAMPLE",
            "Type": "network-load-balancer",
            "Description": "Example Network Load Balancer target",
            "OwnerId": "111122223333",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Target cermin lalu lintas](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-target.html) di Panduan *Pencerminan Lalu Lintas VPC Amazon*.  
+  Untuk detail API, lihat [DescribeTrafficMirrorTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-traffic-mirror-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateway-attachments`
<a name="ec2_DescribeTransitGatewayAttachments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateway-attachments`.

**AWS CLI**  
**Untuk melihat lampiran gateway transit**  
`describe-transit-gateway-attachments`Contoh berikut menampilkan detail untuk lampiran gateway transit Anda.  

```
aws ec2 describe-transit-gateway-attachments
```
Output:  

```
{
    "TransitGatewayAttachments": [
        {
            "TransitGatewayAttachmentId": "tgw-attach-01f8100bc7EXAMPLE",
            "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
            "TransitGatewayOwnerId": "123456789012",
            "ResourceOwnerId": "123456789012",
            "ResourceType": "vpc",
            "ResourceId": "vpc-3EXAMPLE",
            "State": "available",
            "Association": {
                "TransitGatewayRouteTableId": "tgw-rtb-002573ed1eEXAMPLE",
                "State": "associated"
            },
            "CreationTime": "2019-08-26T14:59:25.000Z",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "Example"
                }
            ]
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-0b5968d3b6EXAMPLE",
            "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
            "TransitGatewayOwnerId": "123456789012",
            "ResourceOwnerId": "123456789012",
            "ResourceType": "vpc",
            "ResourceId": "vpc-0065acced4EXAMPLE",
            "State": "available",
            "Association": {
                "TransitGatewayRouteTableId": "tgw-rtb-002573ed1eEXAMPLE",
                "State": "associated"
            },
            "CreationTime": "2019-08-07T17:03:07.000Z",
            "Tags": []
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-08e0bc912cEXAMPLE",
            "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
            "TransitGatewayOwnerId": "123456789012",
            "ResourceOwnerId": "123456789012",
            "ResourceType": "direct-connect-gateway",
            "ResourceId": "11460968-4ac1-4fd3-bdb2-00599EXAMPLE",
            "State": "available",
            "Association": {
                "TransitGatewayRouteTableId": "tgw-rtb-002573ed1eEXAMPLE",
                "State": "associated"
            },
            "CreationTime": "2019-08-14T20:27:44.000Z",
            "Tags": []
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-0a89069f57EXAMPLE",
            "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
            "TransitGatewayOwnerId": "123456789012",
            "ResourceOwnerId": "123456789012",
            "ResourceType": "direct-connect-gateway",
            "ResourceId": "8384da05-13ce-4a91-aada-5a1baEXAMPLE",
            "State": "available",
            "Association": {
                "TransitGatewayRouteTableId": "tgw-rtb-002573ed1eEXAMPLE",
                "State": "associated"
            },
            "CreationTime": "2019-08-14T20:33:02.000Z",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan gateway transit di Panduan Gerbang](https://docs.aws.amazon.com/vpc/latest/tgw/working-with-transit-gateways.html) *Transit*.  
+  Untuk detail API, lihat [DescribeTransitGatewayAttachments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateway-attachments.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateway-connect-peers`
<a name="ec2_DescribeTransitGatewayConnectPeers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateway-connect-peers`.

**AWS CLI**  
**Untuk menggambarkan rekan Transit Gateway Connect**  
`describe-transit-gateway-connect-peers`Contoh berikut menjelaskan Connect peer yang ditentukan.  

```
aws ec2 describe-transit-gateway-connect-peers \
    --transit-gateway-connect-peer-ids tgw-connect-peer-0666adbac4EXAMPLE
```
Output:  

```
{
    "TransitGatewayConnectPeers": [
        {
            "TransitGatewayAttachmentId": "tgw-attach-0f0927767cEXAMPLE",
            "TransitGatewayConnectPeerId": "tgw-connect-peer-0666adbac4EXAMPLE",
            "State": "available",
            "CreationTime": "2021-10-13T03:35:17.000Z",
            "ConnectPeerConfiguration": {
                "TransitGatewayAddress": "10.0.0.234",
                "PeerAddress": "172.31.1.11",
                "InsideCidrBlocks": [
                    "169.254.6.0/29"
                ],
                "Protocol": "gre",
                "BgpConfigurations": [
                    {
                        "TransitGatewayAsn": 64512,
                        "PeerAsn": 64512,
                        "TransitGatewayAddress": "169.254.6.2",
                        "PeerAddress": "169.254.6.1",
                        "BgpStatus": "down"
                    },
                    {
                        "TransitGatewayAsn": 64512,
                        "PeerAsn": 64512,
                        "TransitGatewayAddress": "169.254.6.3",
                        "PeerAddress": "169.254.6.1",
                        "BgpStatus": "down"
                    }
                ]
            },
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Lampiran Transit gateway Connect dan rekan Transit Gateway Connect](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-connect.html) di Panduan *Transit Gateway*.  
+  Untuk detail API, lihat [DescribeTransitGatewayConnectPeers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateway-connect-peers.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateway-connects`
<a name="ec2_DescribeTransitGatewayConnects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateway-connects`.

**AWS CLI**  
**Untuk mendeskripsikan lampiran Connect gateway transit**  
`describe-transit-gateway-connects`Contoh berikut menjelaskan lampiran Connect yang ditentukan.  

```
aws ec2 describe-transit-gateway-connects \
    --transit-gateway-attachment-ids tgw-attach-037012e5dcEXAMPLE
```
Output:  

```
{
    "TransitGatewayConnects": [
        {
            "TransitGatewayAttachmentId": "tgw-attach-037012e5dcEXAMPLE",
            "TransportTransitGatewayAttachmentId": "tgw-attach-0a89069f57EXAMPLE",
            "TransitGatewayId": "tgw-02f776b1a7EXAMPLE",
            "State": "available",
            "CreationTime": "2021-03-09T19:59:17+00:00",
            "Options": {
                "Protocol": "gre"
            },
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Lampiran Transit gateway Connect dan rekan Transit Gateway Connect](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-connect.html) di Panduan *Transit Gateway*.  
+  Untuk detail API, lihat [DescribeTransitGatewayConnects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateway-connects.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateway-multicast-domains`
<a name="ec2_DescribeTransitGatewayMulticastDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateway-multicast-domains`.

**AWS CLI**  
**Untuk mendeskripsikan domain multicast gateway transit Anda**  
`describe-transit-gateway-multicast-domains`Contoh berikut menampilkan detail untuk semua domain multicast gateway transit Anda.  

```
aws ec2 describe-transit-gateway-multicast-domains
```
Output:  

```
{

    "TransitGatewayMulticastDomains": [
        {
            "TransitGatewayMulticastDomainId": "tgw-mcast-domain-000fb24d04EXAMPLE",
            "TransitGatewayId": "tgw-0bf0bffefaEXAMPLE",
            "TransitGatewayMulticastDomainArn": "arn:aws:ec2:us-east-1:123456789012:transit-gateway-multicast-domain/tgw-mcast-domain-000fb24d04EXAMPLE",
            "OwnerId": "123456789012",
            "Options": {
                "Igmpv2Support": "disable",
                "StaticSourcesSupport": "enable",
                "AutoAcceptSharedAssociations": "disable"
            },
            "State": "available",
            "CreationTime": "2019-12-10T18:32:50+00:00",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "mc1"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola domain multicast](https://docs.aws.amazon.com/vpc/latest/tgw/manage-domain.html) di Panduan *Transit* Gateways.  
+  Untuk detail API, lihat [DescribeTransitGatewayMulticastDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateway-multicast-domains.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateway-peering-attachments`
<a name="ec2_DescribeTransitGatewayPeeringAttachments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateway-peering-attachments`.

**AWS CLI**  
**Untuk menggambarkan lampiran peering gateway transit Anda**  
`describe-transit-gateway-peering-attachments`Contoh berikut menampilkan detail untuk semua lampiran peering gateway transit Anda.  

```
aws ec2 describe-transit-gateway-peering-attachments
```
Output:  

```
{
    "TransitGatewayPeeringAttachments": [
        {
            "TransitGatewayAttachmentId": "tgw-attach-4455667788aabbccd",
            "RequesterTgwInfo": {
                "TransitGatewayId": "tgw-123abc05e04123abc",
                "OwnerId": "123456789012",
                "Region": "us-west-2"
            },
            "AccepterTgwInfo": {
                "TransitGatewayId": "tgw-11223344aabbcc112",
                "OwnerId": "123456789012",
                "Region": "us-east-2"
            },
            "State": "pendingAcceptance",
            "CreationTime": "2019-12-09T11:38:05.000Z",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Lampiran Pengintip Transit Gateway](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-peering.html) *di Panduan Gerbang Transit*.  
+  Untuk detail API, lihat [DescribeTransitGatewayPeeringAttachments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateway-peering-attachments.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateway-policy-tables`
<a name="ec2_DescribeTransitGatewayPolicyTables_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateway-policy-tables`.

**AWS CLI**  
**Untuk menjelaskan tabel kebijakan gateway transit**  
`describe-transit-gateway-policy-tables`Contoh berikut menjelaskan tabel kebijakan gateway transit yang ditentukan.  

```
aws ec2 describe-transit-gateway-policy-tables \
    --transit-gateway-policy-table-ids tgw-ptb-0a16f134b78668a81
```
Output:  

```
{
    "TransitGatewayPolicyTables": [
        {
            "TransitGatewayPolicyTableId": "tgw-ptb-0a16f134b78668a81",
            "TransitGatewayId": "tgw-067f8505c18f0bd6e",
            "State": "available",
            "CreationTime": "2023-11-28T16:36:43+00:00",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tabel kebijakan gateway transit](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-policy-tables.html) *di Panduan Pengguna Gateway Transit*.  
+  Untuk detail API, lihat [DescribeTransitGatewayPolicyTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateway-policy-tables.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateway-route-tables`
<a name="ec2_DescribeTransitGatewayRouteTables_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateway-route-tables`.

**AWS CLI**  
**Untuk menjelaskan tabel rute gateway transit Anda**  
`describe-transit-gateway-route-tables`Contoh berikut menampilkan detail untuk tabel rute gateway transit Anda.  

```
aws ec2 describe-transit-gateway-route-tables
```
Output:  

```
{
    "TransitGatewayRouteTables": [
        {
            "TransitGatewayRouteTableId": "tgw-rtb-0ca78a549EXAMPLE",
            "TransitGatewayId": "tgw-0bc994abffEXAMPLE",
            "State": "available",
            "DefaultAssociationRouteTable": true,
            "DefaultPropagationRouteTable": true,
            "CreationTime": "2018-11-28T14:24:49.000Z",
            "Tags": []
        },
        {
            "TransitGatewayRouteTableId": "tgw-rtb-0e8f48f148EXAMPLE",
            "TransitGatewayId": "tgw-0043d72bb4EXAMPLE",
            "State": "available",
            "DefaultAssociationRouteTable": true,
            "DefaultPropagationRouteTable": true,
            "CreationTime": "2018-11-28T14:24:00.000Z",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html#view-tgw-route-tables) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [DescribeTransitGatewayRouteTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateway-route-tables.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateway-vpc-attachments`
<a name="ec2_DescribeTransitGatewayVpcAttachments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateway-vpc-attachments`.

**AWS CLI**  
**Untuk menjelaskan lampiran VPC gateway transit Anda**  
`describe-transit-gateway-vpc-attachments`Contoh berikut menampilkan detail untuk lampiran VPC gateway transit Anda.  

```
aws ec2 describe-transit-gateway-vpc-attachments
```
Output:  

```
{
    "TransitGatewayVpcAttachments": [
        {
            "TransitGatewayAttachmentId": "tgw-attach-0a08e88308EXAMPLE",
            "TransitGatewayId": "tgw-0043d72bb4EXAMPLE",
            "VpcId": "vpc-0f501f7ee8EXAMPLE",
            "VpcOwnerId": "111122223333",
            "State": "available",
            "SubnetIds": [
                "subnet-045d586432EXAMPLE",
                "subnet-0a0ad478a6EXAMPLE"
            ],
            "CreationTime": "2019-02-13T11:04:02.000Z",
            "Options": {
                "DnsSupport": "enable",
                "Ipv6Support": "disable"
            },
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "attachment name"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat lampiran VPC Anda](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-vpc-attachments.html#view-vpc-attachment) di Panduan Gerbang *Transit*.  
+  Untuk detail API, lihat [DescribeTransitGatewayVpcAttachments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateway-vpc-attachments.html)di *Referensi AWS CLI Perintah*. 

### `describe-transit-gateways`
<a name="ec2_DescribeTransitGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transit-gateways`.

**AWS CLI**  
**Untuk menggambarkan gateway transit Anda**  
`describe-transit-gateways`Contoh berikut mengambil detail tentang gateway transit Anda.  

```
aws ec2 describe-transit-gateways
```
Output:  

```
{
    "TransitGateways": [
        {
            "TransitGatewayId": "tgw-0262a0e521EXAMPLE",
            "TransitGatewayArn": "arn:aws:ec2:us-east-2:111122223333:transit-gateway/tgw-0262a0e521EXAMPLE",
            "State": "available",
            "OwnerId": "111122223333",
            "Description": "MyTGW",
            "CreationTime": "2019-07-10T14:02:12.000Z",
            "Options": {
                "AmazonSideAsn": 64516,
                "AutoAcceptSharedAttachments": "enable",
                "DefaultRouteTableAssociation": "enable",
                "AssociationDefaultRouteTableId": "tgw-rtb-018774adf3EXAMPLE",
                "DefaultRouteTablePropagation": "enable",
                "PropagationDefaultRouteTableId": "tgw-rtb-018774adf3EXAMPLE",
                "VpnEcmpSupport": "enable",
                "DnsSupport": "enable"
            },
            "Tags": []
        },
        {
            "TransitGatewayId": "tgw-0fb8421e2dEXAMPLE",
            "TransitGatewayArn": "arn:aws:ec2:us-east-2:111122223333:transit-gateway/tgw-0fb8421e2da853bf3",
            "State": "available",
            "OwnerId": "111122223333",
            "CreationTime": "2019-03-15T22:57:33.000Z",
            "Options": {
                "AmazonSideAsn": 65412,
                "AutoAcceptSharedAttachments": "disable",
                "DefaultRouteTableAssociation": "enable",
                "AssociationDefaultRouteTableId": "tgw-rtb-06a241a3d8EXAMPLE",
                "DefaultRouteTablePropagation": "enable",
                "PropagationDefaultRouteTableId": "tgw-rtb-06a241a3d8EXAMPLE",
                "VpnEcmpSupport": "enable",
                "DnsSupport": "enable"
            },
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "TGW1"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeTransitGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-transit-gateways.html)di *Referensi AWS CLI Perintah*. 

### `describe-verified-access-endpoints`
<a name="ec2_DescribeVerifiedAccessEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-verified-access-endpoints`.

**AWS CLI**  
**Untuk menjelaskan titik akhir Akses Terverifikasi**  
`describe-verified-access-endpoints`Contoh berikut menjelaskan titik akhir Akses Terverifikasi yang ditentukan.  

```
aws ec2 describe-verified-access-endpoints \
    --verified-access-endpoint-ids vae-066fac616d4d546f2
```
Output:  

```
{
    "VerifiedAccessEndpoints": [
        {
            "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
            "VerifiedAccessGroupId": "vagr-0dbe967baf14b7235",
            "VerifiedAccessEndpointId": "vae-066fac616d4d546f2",
            "ApplicationDomain": "example.com",
            "EndpointType": "network-interface",
            "AttachmentType": "vpc",
            "DomainCertificateArn": "arn:aws:acm:us-east-2:123456789012:certificate/eb065ea0-26f9-4e75-a6ce-0a1a7EXAMPLE",
            "EndpointDomain": "my-ava-app.edge-00c3372d53b1540bb.vai-0ce000c0b7643abea.prod.verified-access.us-east-2.amazonaws.com",
            "SecurityGroupIds": [
                "sg-004915970c4c8f13a"
            ],
            "NetworkInterfaceOptions": {
                "NetworkInterfaceId": "eni-0aec70418c8d87a0f",
                "Protocol": "https",
                "Port": 443
            },
            "Status": {
                "Code": "active"
            },
            "Description": "",
            "CreationTime": "2023-08-25T20:54:43",
            "LastUpdatedTime": "2023-08-25T22:17:26",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "my-va-endpoint"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Titik akhir Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-endpoints.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [DescribeVerifiedAccessEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-verified-access-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `describe-verified-access-groups`
<a name="ec2_DescribeVerifiedAccessGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-verified-access-groups`.

**AWS CLI**  
**Untuk mendeskripsikan grup Akses Terverifikasi**  
`describe-verified-access-groups`Contoh berikut menjelaskan grup Akses Terverifikasi yang ditentukan.  

```
aws ec2 describe-verified-access-groups \
    --verified-access-group-ids vagr-0dbe967baf14b7235
```
Output:  

```
{
    "VerifiedAccessGroups": [
        {
            "VerifiedAccessGroupId": "vagr-0dbe967baf14b7235",
            "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
            "Description": "Testing Verified Access",
            "Owner": "123456789012",
            "VerifiedAccessGroupArn": "arn:aws:ec2:us-east-2:123456789012:verified-access-group/vagr-0dbe967baf14b7235",
            "CreationTime": "2023-08-25T19:55:19",
            "LastUpdatedTime": "2023-08-25T22:17:25",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "my-va-group"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-groups.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [DescribeVerifiedAccessGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-verified-access-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-verified-access-instance-logging-configurations`
<a name="ec2_DescribeVerifiedAccessInstanceLoggingConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-verified-access-instance-logging-configurations`.

**AWS CLI**  
**Untuk menjelaskan konfigurasi logging untuk instance Akses Terverifikasi**  
`describe-verified-access-instance-logging-configurations`Contoh berikut menjelaskan konfigurasi logging untuk instance Akses Terverifikasi yang ditentukan.  

```
aws ec2 describe-verified-access-instance-logging-configurations \
    --verified-access-instance-ids vai-0ce000c0b7643abea
```
Output:  

```
{
    "LoggingConfigurations": [
        {
            "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
            "AccessLogs": {
                "S3": {
                    "Enabled": false
                },
                "CloudWatchLogs": {
                    "Enabled": true,
                    "DeliveryStatus": {
                        "Code": "success"
                    },
                    "LogGroup": "my-log-group"
                },
                "KinesisDataFirehose": {
                    "Enabled": false
                },
                "LogVersion": "ocsf-1.0.0-rc.2",
                "IncludeTrustContext": false
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [log Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/access-logs.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [DescribeVerifiedAccessInstanceLoggingConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-verified-access-instance-logging-configurations.html)di *Referensi AWS CLI Perintah*. 

### `describe-verified-access-instances`
<a name="ec2_DescribeVerifiedAccessInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-verified-access-instances`.

**AWS CLI**  
**Untuk mendeskripsikan instance Akses Terverifikasi**  
`describe-verified-access-instances`Contoh berikut menjelaskan contoh Akses Terverifikasi yang ditentukan.  

```
aws ec2 describe-verified-access-instances \
    --verified-access-instance-ids vai-0ce000c0b7643abea
```
Output:  

```
{
    "VerifiedAccessInstances": [
        {
            "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
            "Description": "Testing Verified Access",
            "VerifiedAccessTrustProviders": [
                {
                    "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
                    "TrustProviderType": "user",
                    "UserTrustProviderType": "iam-identity-center"
                }
            ],
            "CreationTime": "2023-08-25T18:27:56",
            "LastUpdatedTime": "2023-08-25T19:03:32",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "my-ava-instance"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Instans Akses Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-instances.html) di *Panduan Pengguna Akses AWS Terverifikasi*.  
+  Untuk detail API, lihat [DescribeVerifiedAccessInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-verified-access-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-verified-access-trust-providers`
<a name="ec2_DescribeVerifiedAccessTrustProviders_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-verified-access-trust-providers`.

**AWS CLI**  
**Untuk mendeskripsikan penyedia kepercayaan Akses Terverifikasi**  
`describe-verified-access-trust-providers`Contoh berikut menjelaskan penyedia kepercayaan Akses Terverifikasi yang ditentukan.  

```
aws ec2 describe-verified-access-trust-providers \
    --verified-access-trust-provider-ids vatp-0bb32de759a3e19e7
```
Output:  

```
{
    "VerifiedAccessTrustProviders": [
        {
            "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
            "Description": "Testing Verified Access",
            "TrustProviderType": "user",
            "UserTrustProviderType": "iam-identity-center",
            "PolicyReferenceName": "idc",
            "CreationTime": "2023-08-25T19:00:38",
            "LastUpdatedTime": "2023-08-25T19:03:32",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "my-va-trust-provider"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyedia kepercayaan untuk Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/trust-providers.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [DescribeVerifiedAccessTrustProviders](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-verified-access-trust-providers.html)di *Referensi AWS CLI Perintah*. 

### `describe-volume-attribute`
<a name="ec2_DescribeVolumeAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-volume-attribute`.

**AWS CLI**  
**Untuk menggambarkan atribut volume**  
Perintah contoh ini menjelaskan `autoEnableIo` atribut volume dengan ID`vol-049df61146c4d7901`.  
Perintah:  

```
aws ec2 describe-volume-attribute --volume-id vol-049df61146c4d7901 --attribute autoEnableIO
```
Output:  

```
{
    "AutoEnableIO": {
        "Value": false
    },
    "VolumeId": "vol-049df61146c4d7901"
}
```
+  Untuk detail API, lihat [DescribeVolumeAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-volume-attribute.html)di *Referensi AWS CLI Perintah*. 

### `describe-volume-status`
<a name="ec2_DescribeVolumeStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-volume-status`.

**AWS CLI**  
**Untuk menggambarkan status dari satu volume**  
Perintah contoh ini menjelaskan status untuk volume`vol-1234567890abcdef0`.  
Perintah:  

```
aws ec2 describe-volume-status --volume-ids vol-1234567890abcdef0
```
Output:  

```
{
    "VolumeStatuses": [
        {
            "VolumeStatus": {
                "Status": "ok",
                "Details": [
                    {
                        "Status": "passed",
                        "Name": "io-enabled"
                    },
                    {
                        "Status": "not-applicable",
                        "Name": "io-performance"
                    }
                ]
            },
            "AvailabilityZone": "us-east-1a",
            "VolumeId": "vol-1234567890abcdef0",
            "Actions": [],
            "Events": []
        }
    ]
}
```
**Untuk menggambarkan status volume yang terganggu**  
Perintah contoh ini menjelaskan status untuk semua volume yang terganggu. Dalam contoh output ini, tidak ada volume yang terganggu.  
Perintah:  

```
aws ec2 describe-volume-status --filters Name=volume-status.status,Values=impaired
```
Output:  

```
{
    "VolumeStatuses": []
}
```
Jika Anda memiliki volume dengan pemeriksaan status gagal (status terganggu), lihat Bekerja dengan Volume yang Terganggu di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeVolumeStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-volume-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-volumes-modifications`
<a name="ec2_DescribeVolumesModifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-volumes-modifications`.

**AWS CLI**  
**Untuk menggambarkan status modifikasi untuk volume**  
`describe-volumes-modifications`Contoh berikut menjelaskan status modifikasi volume volume volume yang ditentukan.  

```
aws ec2 describe-volumes-modifications \
    --volume-ids vol-1234567890abcdef0
```
Output:  

```
{
    "VolumeModification": {
        "TargetSize": 150,
        "TargetVolumeType": "io1",
        "ModificationState": "optimizing",
        "VolumeId": " vol-1234567890abcdef0",
        "TargetIops": 100,
        "StartTime": "2019-05-17T11:27:19.000Z",
        "Progress": 70,
        "OriginalVolumeType": "io1",
        "OriginalIops": 100,
        "OriginalSize": 100
    }
}
```
+  Untuk detail API, lihat [DescribeVolumesModifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-volumes-modifications.html)di *Referensi AWS CLI Perintah*. 

### `describe-volumes`
<a name="ec2_DescribeVolumes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-volumes`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan volume**  
`describe-volumes`Contoh berikut menjelaskan volume yang ditentukan di Wilayah saat ini.  

```
aws ec2 describe-volumes \
    --volume-ids vol-049df61146c4d7901 vol-1234567890abcdef0
```
Output:  

```
{
    "Volumes": [
        {
            "AvailabilityZone": "us-east-1a",
            "Attachments": [
                {
                    "AttachTime": "2013-12-18T22:35:00.000Z",
                    "InstanceId": "i-1234567890abcdef0",
                    "VolumeId": "vol-049df61146c4d7901",
                    "State": "attached",
                    "DeleteOnTermination": true,
                    "Device": "/dev/sda1"
                }
            ],
            "Encrypted": true,
            "KmsKeyId": "arn:aws:kms:us-east-2a:123456789012:key/8c5b2c63-b9bc-45a3-a87a-5513eEXAMPLE,
            "VolumeType": "gp2",
            "VolumeId": "vol-049df61146c4d7901",
            "State": "in-use",
            "Iops": 100,
            "SnapshotId": "snap-1234567890abcdef0",
            "CreateTime": "2019-12-18T22:35:00.084Z",
            "Size": 8
        },
        {
            "AvailabilityZone": "us-east-1a",
            "Attachments": [],
            "Encrypted": false,
            "VolumeType": "gp2",
            "VolumeId": "vol-1234567890abcdef0",
            "State": "available",
            "Iops": 300,
            "SnapshotId": "",
            "CreateTime": "2020-02-27T00:02:41.791Z",
            "Size": 100
        }
    ]
}
```
**Contoh 2: Untuk menggambarkan volume yang dilampirkan ke instance tertentu**  
`describe-volumes`Contoh berikut menjelaskan semua volume yang keduanya dilampirkan ke instance tertentu dan diatur untuk menghapus ketika instance berakhir.  

```
aws ec2 describe-volumes \
    --region us-east-1 \
    --filters Name=attachment.instance-id,Values=i-1234567890abcdef0 Name=attachment.delete-on-termination,Values=true
```
Untuk contoh output `describe-volumes`, lihat Contoh 1.  
**Contoh 3: Untuk menjelaskan volume yang tersedia di Availability Zone tertentu**  
`describe-volumes`Contoh berikut menjelaskan semua volume yang memiliki status `available` dan berada di Availability Zone yang ditentukan.  

```
aws ec2 describe-volumes \
    --filters Name=status,Values=available Name=availability-zone,Values=us-east-1a
```
Untuk contoh output `describe-volumes`, lihat Contoh 1.  
**Contoh 4: Untuk mendeskripsikan volume berdasarkan tag**  
`describe-volumes`Contoh berikut menjelaskan semua volume yang memiliki kunci tag `Name` dan nilai yang dimulai dengan`Test`. Output kemudian disaring dengan query yang hanya menampilkan tag dan IDs volume.  

```
aws ec2 describe-volumes \
    --filters Name=tag:Name,Values=Test* \
    --query "Volumes[*].{ID:VolumeId,Tag:Tags}"
```
Output:  

```
[
    {
       "Tag": [
           {
               "Value": "Test2",
               "Key": "Name"
           }
       ],
       "ID": "vol-1234567890abcdef0"
   },
   {
       "Tag": [
           {
               "Value": "Test1",
               "Key": "Name"
           }
       ],
       "ID": "vol-049df61146c4d7901"
    }
]
```
Untuk contoh tambahan menggunakan filter tanda, lihat [Bekerja dengan tanda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DescribeVolumes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-volumes.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-attribute`
<a name="ec2_DescribeVpcAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-attribute`.

**AWS CLI**  
**Untuk menggambarkan enableDnsSupport atribut**  
Contoh ini menjelaskan `enableDnsSupport` atribut. Atribut ini menunjukkan apakah resolusi DNS diaktifkan untuk VPC. Jika atribut ini`true`, server DNS Amazon menyelesaikan nama host DNS untuk instance Anda ke alamat IP yang sesuai; jika tidak, tidak.  
Perintah:  

```
aws ec2 describe-vpc-attribute --vpc-id vpc-a01106c2 --attribute enableDnsSupport
```
Output:  

```
{
    "VpcId": "vpc-a01106c2",
    "EnableDnsSupport": {
        "Value": true
    }
}
```
**Untuk menggambarkan enableDnsHostnames atribut**  
Contoh ini menjelaskan `enableDnsHostnames` atribut. Atribut ini menunjukkan apakah instance yang diluncurkan di VPC mendapatkan nama host DNS. Jika atribut ini`true`, instance di VPC mendapatkan nama host DNS; jika tidak, mereka tidak.  
Perintah:  

```
aws ec2 describe-vpc-attribute --vpc-id vpc-a01106c2 --attribute enableDnsHostnames
```
Output:  

```
{
    "VpcId": "vpc-a01106c2",
    "EnableDnsHostnames": {
        "Value": true
    }
}
```
+  Untuk detail API, lihat [DescribeVpcAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-attribute.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-classic-link-dns-support`
<a name="ec2_DescribeVpcClassicLinkDnsSupport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-classic-link-dns-support`.

**AWS CLI**  
**Untuk menggambarkan dukungan ClassicLink DNS untuk Anda VPCs**  
Contoh ini menjelaskan status dukungan ClassicLink DNS dari semua Anda VPCs.  
Perintah:  

```
aws ec2 describe-vpc-classic-link-dns-support
```
Output:  

```
{
  "Vpcs": [
    {
      "VpcId": "vpc-88888888",
      "ClassicLinkDnsSupported": true
    },
    {
      "VpcId": "vpc-1a2b3c4d",
      "ClassicLinkDnsSupported": false
    }
  ]
}
```
+  Untuk detail API, lihat [DescribeVpcClassicLinkDnsSupport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-classic-link-dns-support.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-classic-link`
<a name="ec2_DescribeVpcClassicLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-classic-link`.

**AWS CLI**  
**Untuk menggambarkan ClassicLink status Anda VPCs**  
Contoh ini mencantumkan ClassicLink status vpc-88888888.  
Perintah:  

```
aws ec2 describe-vpc-classic-link --vpc-id vpc-88888888
```
Output:  

```
{
  "Vpcs": [
    {
      "ClassicLinkEnabled": true,
      "VpcId": "vpc-88888888",
      "Tags": [
        {
          "Value": "classiclinkvpc",
          "Key": "Name"
        }
      ]
    }
  ]
}
```
Contoh ini hanya mencantumkan VPCs yang diaktifkan untuk Classiclink (nilai filter `is-classic-link-enabled` disetel ke`true`).  
Perintah:  

```
aws ec2 describe-vpc-classic-link --filter "Name=is-classic-link-enabled,Values=true"
```
+  Untuk detail API, lihat [DescribeVpcClassicLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-classic-link.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-endpoint-associations`
<a name="ec2_DescribeVpcEndpointAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-endpoint-associations`.

**AWS CLI**  
**Untuk menggambarkan asosiasi titik akhir VPC**  
`describe-vpc-endpoint-associations`Contoh berikut menjelaskan asosiasi titik akhir VPC Anda.  

```
aws ec2 describe-vpc-endpoint-associations
```
Output:  

```
{
    "VpcEndpointAssociations": [
        {
            "Id": "vpce-rsc-asc-0a810ca6ac8866bf9",
            "VpcEndpointId": "vpce-019b90d6f16d4f958",
            "AssociatedResourceAccessibility": "Accessible",
            "DnsEntry": {
                "DnsName": "vpce-019b90d6f16d4f958.rcfg-07129f3acded87625.4232ccc.vpc-lattice-rsc.us-east-2.on.aws",
                "HostedZoneId": "Z03265862FOUNWMZOKUF4"
            },
            "AssociatedResourceArn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourceconfiguration/rcfg-07129f3acded87625"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mengelola asosiasi titik akhir VPC](https://docs.aws.amazon.com/vpc/latest/privatelink/resource-configuration-associations.html#resource-config-manage-ep-association) di Panduan Pengguna.AWS PrivateLink *  
+  Untuk detail API, lihat [DescribeVpcEndpointAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoint-associations.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-endpoint-connection-notifications`
<a name="ec2_DescribeVpcEndpointConnectionNotifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-endpoint-connection-notifications`.

**AWS CLI**  
**Untuk menjelaskan pemberitahuan koneksi titik akhir**  
`describe-vpc-endpoint-connection-notifications`Contoh berikut menjelaskan semua pemberitahuan koneksi titik akhir Anda.  

```
aws ec2 describe-vpc-endpoint-connection-notifications
```
Output:  

```
{
   "ConnectionNotificationSet": [
       {
           "ConnectionNotificationState": "Enabled",
           "ConnectionNotificationType": "Topic",
           "ConnectionEvents": [
               "Accept",
               "Reject",
               "Delete",
               "Connect"
           ],
           "ConnectionNotificationId": "vpce-nfn-04bcb952bc8af7abc",
           "ConnectionNotificationArn": "arn:aws:sns:us-east-1:123456789012:VpceNotification",
           "VpcEndpointId": "vpce-0324151a02f327123"
       }
   ]
 }
```
+  Untuk detail API, lihat [DescribeVpcEndpointConnectionNotifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoint-connection-notifications.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-endpoint-connections`
<a name="ec2_DescribeVpcEndpointConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-endpoint-connections`.

**AWS CLI**  
**Untuk menggambarkan koneksi titik akhir VPC**  
Contoh ini menjelaskan koneksi titik akhir antarmuka ke layanan titik akhir Anda dan memfilter hasilnya untuk menampilkan titik akhir yang ada. `PendingAcceptance`  
Perintah:  

```
aws ec2 describe-vpc-endpoint-connections --filters Name=vpc-endpoint-state,Values=pendingAcceptance
```
Output:  

```
{
  "VpcEndpointConnections": [
      {
          "VpcEndpointId": "vpce-0abed31004e618123",
          "ServiceId": "vpce-svc-0abced088d20def56",
          "CreationTimestamp": "2017-11-30T10:00:24.350Z",
          "VpcEndpointState": "pendingAcceptance",
          "VpcEndpointOwner": "123456789012"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeVpcEndpointConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoint-connections.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-endpoint-service-configurations`
<a name="ec2_DescribeVpcEndpointServiceConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-endpoint-service-configurations`.

**AWS CLI**  
**Untuk menjelaskan konfigurasi layanan endpoint**  
`describe-vpc-endpoint-service-configurations`Contoh berikut menjelaskan konfigurasi layanan endpoint Anda.  

```
aws ec2 describe-vpc-endpoint-service-configurations
```
Output:  

```
{
    "ServiceConfigurations": [
        {
            "ServiceType": [
                {
                    "ServiceType": "GatewayLoadBalancer"
                }
            ],
            "ServiceId": "vpce-svc-012d33a1c4321cabc",
            "ServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-012d33a1c4321cabc",
            "ServiceState": "Available",
            "AvailabilityZones": [
                "us-east-1d"
            ],
            "AcceptanceRequired": false,
            "ManagesVpcEndpoints": false,
            "GatewayLoadBalancerArns": [
                "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/gwy/GWLBService/123210844e429123"
            ],
            "Tags": []
        },
        {
            "ServiceType": [
                {
                    "ServiceType": "Interface"
                }
            ],
            "ServiceId": "vpce-svc-123cabc125efa123",
            "ServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-123cabc125efa123",
            "ServiceState": "Available",
            "AvailabilityZones": [
                "us-east-1a"
            ],
            "AcceptanceRequired": true,
            "ManagesVpcEndpoints": false,
            "NetworkLoadBalancerArns": [
                "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/NLBforService/1238753950b25123"
            ],
            "BaseEndpointDnsNames": [
                "vpce-svc-123cabc125efa123.us-east-1.vpce.amazonaws.com"
            ],
            "PrivateDnsName": "example.com",
            "PrivateDnsNameConfiguration": {
                "State": "failed",
                "Type": "TXT",
                "Value": "vpce:qUAth3FdeABCApUiXabc",
                "Name": "_1d367jvbg34znqvyefrj"
            },
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Konsep](https://docs.aws.amazon.com/vpc/latest/privatelink/concepts.html) di *Panduan AWS PrivateLink Pengguna*.  
+  Untuk detail API, lihat [DescribeVpcEndpointServiceConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoint-service-configurations.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-endpoint-service-permissions`
<a name="ec2_DescribeVpcEndpointServicePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-endpoint-service-permissions`.

**AWS CLI**  
**Untuk menjelaskan izin layanan titik akhir**  
Contoh ini menjelaskan izin untuk layanan endpoint yang ditentukan.  
Perintah:  

```
aws ec2 describe-vpc-endpoint-service-permissions --service-id vpce-svc-03d5ebb7d9579a2b3
```
Output:  

```
{
   "AllowedPrincipals": [
       {
           "PrincipalType": "Account",
           "Principal": "arn:aws:iam::123456789012:root"
       }
   ]
}
```
+  Untuk detail API, lihat [DescribeVpcEndpointServicePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoint-service-permissions.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-endpoint-services`
<a name="ec2_DescribeVpcEndpointServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-endpoint-services`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan semua layanan titik akhir VPC**  
`describe-vpc-endpoint-services`Contoh berikut mencantumkan semua layanan titik akhir VPC untuk Wilayah. AWS   

```
aws ec2 describe-vpc-endpoint-services
```
Output:  

```
{
    "ServiceDetails": [
        {
            "ServiceType": [
                {
                    "ServiceType": "Gateway"
                }
            ],
            "AcceptanceRequired": false,
            "ServiceName": "com.amazonaws.us-east-1.dynamodb",
            "VpcEndpointPolicySupported": true,
            "Owner": "amazon",
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1c",
                "us-east-1d",
                "us-east-1e",
                "us-east-1f"
            ],
            "BaseEndpointDnsNames": [
                "dynamodb.us-east-1.amazonaws.com"
            ]
        },
        {
            "ServiceType": [
                {
                    "ServiceType": "Interface"
                }
            ],
            "PrivateDnsName": "ec2.us-east-1.amazonaws.com",
            "ServiceName": "com.amazonaws.us-east-1.ec2",
            "VpcEndpointPolicySupported": false,
            "Owner": "amazon",
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1c",
                "us-east-1d",
                "us-east-1e",
                "us-east-1f"
            ],
            "AcceptanceRequired": false,
            "BaseEndpointDnsNames": [
                "ec2.us-east-1.vpce.amazonaws.com"
            ]
        },
        {
            "ServiceType": [
                {
                    "ServiceType": "Interface"
                }
            ],
            "PrivateDnsName": "ssm.us-east-1.amazonaws.com",
            "ServiceName": "com.amazonaws.us-east-1.ssm",
            "VpcEndpointPolicySupported": true,
            "Owner": "amazon",
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1c",
                "us-east-1d",
                "us-east-1e"
            ],
            "AcceptanceRequired": false,
            "BaseEndpointDnsNames": [
                "ssm.us-east-1.vpce.amazonaws.com"
            ]
        }
    ],
    "ServiceNames": [
        "com.amazonaws.us-east-1.dynamodb",
        "com.amazonaws.us-east-1.ec2",
        "com.amazonaws.us-east-1.ec2messages",
        "com.amazonaws.us-east-1.elasticloadbalancing",
        "com.amazonaws.us-east-1.kinesis-streams",
        "com.amazonaws.us-east-1.s3",
        "com.amazonaws.us-east-1.ssm"
    ]
}
```
**Contoh 2: Untuk menjelaskan detail tentang layanan endpoint**  
`describe-vpc-endpoint-services`Contoh berikut mencantumkan rincian layanan endpoint antarmuka Amazon S3.  

```
aws ec2 describe-vpc-endpoint-services \
    --filter 'Name=service-type,Values=Interface' Name=service-name,Values=com.amazonaws.us-east-1.s3
```
Output:  

```
{
    "ServiceDetails": [
        {
            "ServiceName": "com.amazonaws.us-east-1.s3",
            "ServiceId": "vpce-svc-081d84efcdEXAMPLE",
            "ServiceType": [
                {
                    "ServiceType": "Interface"
                }
            ],
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1c",
                "us-east-1d",
                "us-east-1e",
            "us-east-1f"
            ],
            "Owner": "amazon",
            "BaseEndpointDnsNames": [
                "s3.us-east-1.vpce.amazonaws.com"
            ],
            "VpcEndpointPolicySupported": true,
            "AcceptanceRequired": false,
            "ManagesVpcEndpoints": false,
            "Tags": []
        }
    ],
    "ServiceNames": [
        "com.amazonaws.us-east-1.s3"
    ]
}
```
Untuk informasi selengkapnya, [lihat Melihat nama AWS layanan yang tersedia](https://docs.aws.amazon.com/vpc/latest/privatelink/aws-services-privatelink-support.html#vpce-view-available-services) di *Panduan AWS PrivateLink Pengguna*.  
+  Untuk detail API, lihat [DescribeVpcEndpointServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoint-services.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-endpoints`
<a name="ec2_DescribeVpcEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-endpoints`.

**AWS CLI**  
**Untuk mendeskripsikan titik akhir VPC Anda**  
`describe-vpc-endpoints`Contoh berikut menampilkan detail untuk semua titik akhir VPC Anda.  

```
aws ec2 describe-vpc-endpoints
```
Output:  

```
{
    "VpcEndpoints": [
        {
            "PolicyDocument": "{\"Version\":\"2008-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":\"*\",\"Action\":\"*\",\"Resource\":\"*\"}]}",
            "VpcId": "vpc-aabb1122",
            "NetworkInterfaceIds": [],
            "SubnetIds": [],
            "PrivateDnsEnabled": true,
            "State": "available",
            "ServiceName": "com.amazonaws.us-east-1.dynamodb",
            "RouteTableIds": [
                "rtb-3d560345"
            ],
            "Groups": [],
            "VpcEndpointId": "vpce-032a826a",
            "VpcEndpointType": "Gateway",
            "CreationTimestamp": "2017-09-05T20:41:28Z",
            "DnsEntries": [],
            "OwnerId": "123456789012"
        },
        {
            "PolicyDocument": "{\n  \"Statement\": [\n    {\n      \"Action\": \"*\", \n      \"Effect\": \"Allow\", \n      \"Principal\": \"*\", \n      \"Resource\": \"*\"\n    }\n  ]\n}",
            "VpcId": "vpc-1a2b3c4d",
            "NetworkInterfaceIds": [
                "eni-2ec2b084",
                "eni-1b4a65cf"
            ],
            "SubnetIds": [
                "subnet-d6fcaa8d",
                "subnet-7b16de0c"
            ],
            "PrivateDnsEnabled": false,
            "State": "available",
            "ServiceName": "com.amazonaws.us-east-1.elasticloadbalancing",
            "RouteTableIds": [],
            "Groups": [
                {
                    "GroupName": "default",
                    "GroupId": "sg-54e8bf31"
                }
            ],
            "VpcEndpointId": "vpce-0f89a33420c1931d7",
            "VpcEndpointType": "Interface",
            "CreationTimestamp": "2017-09-05T17:55:27.583Z",
            "DnsEntries": [
                {
                    "HostedZoneId": "Z7HUB22UULQXV",
                    "DnsName": "vpce-0f89a33420c1931d7-bluzidnv.elasticloadbalancing.us-east-1.vpce.amazonaws.com"
                },
                {
                    "HostedZoneId": "Z7HUB22UULQXV",
                    "DnsName": "vpce-0f89a33420c1931d7-bluzidnv-us-east-1b.elasticloadbalancing.us-east-1.vpce.amazonaws.com"
                },
                {
                    "HostedZoneId": "Z7HUB22UULQXV",
                    "DnsName": "vpce-0f89a33420c1931d7-bluzidnv-us-east-1a.elasticloadbalancing.us-east-1.vpce.amazonaws.com"
                }
            ],
            "OwnerId": "123456789012"
        },
        {
            "VpcEndpointId": "vpce-aabbaabbaabbaabba",
            "VpcEndpointType": "GatewayLoadBalancer",
            "VpcId": "vpc-111122223333aabbc",
            "ServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-123123a1c43abc123",
            "State": "available",
            "SubnetIds": [
                "subnet-0011aabbcc2233445"
            ],
            "RequesterManaged": false,
            "NetworkInterfaceIds": [
                "eni-01010120203030405"
            ],
            "CreationTimestamp": "2020-11-11T08:06:03.522Z",
            "Tags": [],
            "OwnerId": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Konsep](https://docs.aws.amazon.com/vpc/latest/privatelink/concepts.html) di *Panduan AWS PrivateLink Pengguna*.  
+  Untuk detail API, lihat [DescribeVpcEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpc-peering-connections`
<a name="ec2_DescribeVpcPeeringConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpc-peering-connections`.

**AWS CLI**  
**Untuk menggambarkan koneksi peering VPC Anda**  
Contoh ini menjelaskan semua koneksi peering VPC Anda.  
Perintah:  

```
aws ec2 describe-vpc-peering-connections
```
Output:  

```
{
    "VpcPeeringConnections": [
        {
            "Status": {
                "Message": "Active",
                "Code": "active"
            },
            "Tags": [
                {
                    "Value": "Peering-1",
                    "Key": "Name"
                }
            ],
            "AccepterVpcInfo": {
                "OwnerId": "111122223333",
                "VpcId": "vpc-1a2b3c4d",
                "CidrBlock": "10.0.1.0/28"
            },
            "VpcPeeringConnectionId": "pcx-11122233",
            "RequesterVpcInfo": {
                "PeeringOptions": {
                    "AllowEgressFromLocalVpcToRemoteClassicLink": false,
                    "AllowEgressFromLocalClassicLinkToRemoteVpc": false
                },
                "OwnerId": "444455556666",
                "VpcId": "vpc-123abc45",
                "CidrBlock": "192.168.0.0/16"
            }
        },
        {
            "Status": {
                "Message": "Pending Acceptance by 444455556666",
                "Code": "pending-acceptance"
            },
            "Tags": [],
            "RequesterVpcInfo": {
                "PeeringOptions": {
                    "AllowEgressFromLocalVpcToRemoteClassicLink": false,
                    "AllowEgressFromLocalClassicLinkToRemoteVpc": false
                },
                "OwnerId": "444455556666",
                "VpcId": "vpc-11aa22bb",
                "CidrBlock": "10.0.0.0/28"
            },
            "VpcPeeringConnectionId": "pcx-abababab",
            "ExpirationTime": "2014-04-03T09:12:43.000Z",
            "AccepterVpcInfo": {
                "OwnerId": "444455556666",
                "VpcId": "vpc-33cc44dd"
            }
        }
    ]
}
```
**Untuk menggambarkan koneksi peering VPC tertentu**  
Contoh ini menjelaskan semua koneksi peering VPC Anda yang berada dalam status penerimaan tertunda.  
Perintah:  

```
aws ec2 describe-vpc-peering-connections --filters Name=status-code,Values=pending-acceptance
```
Contoh ini menjelaskan semua koneksi peering VPC Anda yang memiliki tag Owner=Finance.  
Perintah:  

```
aws ec2 describe-vpc-peering-connections --filters Name=tag:Owner,Values=Finance
```
Contoh ini menjelaskan semua koneksi peering VPC yang Anda minta untuk VPC yang ditentukan, vpc-1a2b3c4d.  
Perintah:  

```
aws ec2 describe-vpc-peering-connections --filters Name=requester-vpc-info.vpc-id,Values=vpc-1a2b3c4d
```
+  Untuk detail API, lihat [DescribeVpcPeeringConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-peering-connections.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpcs`
<a name="ec2_DescribeVpcs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpcs`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan semua VPCs**  
`describe-vpcs`Contoh berikut mengambil rincian tentang Anda VPCs.  

```
aws ec2 describe-vpcs
```
Output:  

```
{
    "Vpcs": [
        {
            "CidrBlock": "30.1.0.0/16",
            "DhcpOptionsId": "dopt-19edf471",
            "State": "available",
            "VpcId": "vpc-0e9801d129EXAMPLE",
            "OwnerId": "111122223333",
            "InstanceTenancy": "default",
            "CidrBlockAssociationSet": [
                {
                    "AssociationId": "vpc-cidr-assoc-062c64cfafEXAMPLE",
                    "CidrBlock": "30.1.0.0/16",
                    "CidrBlockState": {
                        "State": "associated"
                    }
                }
            ],
            "IsDefault": false,
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "Not Shared"
                }
            ]
        },
        {
            "CidrBlock": "10.0.0.0/16",
            "DhcpOptionsId": "dopt-19edf471",
            "State": "available",
            "VpcId": "vpc-06e4ab6c6cEXAMPLE",
            "OwnerId": "222222222222",
            "InstanceTenancy": "default",
            "CidrBlockAssociationSet": [
                {
                    "AssociationId": "vpc-cidr-assoc-00b17b4eddEXAMPLE",
                    "CidrBlock": "10.0.0.0/16",
                    "CidrBlockState": {
                        "State": "associated"
                    }
                }
            ],
            "IsDefault": false,
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "Shared VPC"
                }
            ]
        }
    ]
}
```
**Contoh 2: Untuk menjelaskan VPC tertentu**  
Contoh `describe-vpcs` berikut mengambil detail untuk VPC tertentu.  

```
aws ec2 describe-vpcs \
    --vpc-ids vpc-06e4ab6c6cEXAMPLE
```
Output:  

```
{
    "Vpcs": [
        {
            "CidrBlock": "10.0.0.0/16",
            "DhcpOptionsId": "dopt-19edf471",
            "State": "available",
            "VpcId": "vpc-06e4ab6c6cEXAMPLE",
            "OwnerId": "111122223333",
            "InstanceTenancy": "default",
            "CidrBlockAssociationSet": [
                {
                    "AssociationId": "vpc-cidr-assoc-00b17b4eddEXAMPLE",
                    "CidrBlock": "10.0.0.0/16",
                    "CidrBlockState": {
                        "State": "associated"
                    }
                }
            ],
            "IsDefault": false,
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "Shared VPC"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeVpcs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpcs.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpn-connections`
<a name="ec2_DescribeVpnConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpn-connections`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan koneksi VPN Anda**  
`describe-vpn-connections`Contoh berikut menjelaskan semua koneksi Site-to-Site VPN Anda.  

```
aws ec2 describe-vpn-connections
```
Output:  

```
{
    "VpnConnections": [
        {
            "CustomerGatewayConfiguration": "...configuration information...",
            "CustomerGatewayId": "cgw-01234567abcde1234",
            "Category": "VPN",
            "State": "available",
            "Type": "ipsec.1",
            "VpnConnectionId": "vpn-1122334455aabbccd",
            "TransitGatewayId": "tgw-00112233445566aab",
            "Options": {
                "EnableAcceleration": false,
                "StaticRoutesOnly": true,
                "LocalIpv4NetworkCidr": "0.0.0.0/0",
                "RemoteIpv4NetworkCidr": "0.0.0.0/0",
                "TunnelInsideIpVersion": "ipv4"
            },
            "Routes": [],
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "CanadaVPN"
                }
            ],
            "VgwTelemetry": [
                {
                    "AcceptedRouteCount": 0,
                    "LastStatusChange": "2020-07-29T10:35:11.000Z",
                    "OutsideIpAddress": "203.0.113.3",
                    "Status": "DOWN",
                    "StatusMessage": ""
                },
                {
                    "AcceptedRouteCount": 0,
                    "LastStatusChange": "2020-09-02T09:09:33.000Z",
                    "OutsideIpAddress": "203.0.113.5",
                    "Status": "UP",
                    "StatusMessage": ""
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cara kerja AWS Site-to-Site AWS Site-to-Site VPN](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) *di Panduan Pengguna VPN*.  
**Contoh 2: Untuk menggambarkan koneksi VPN Anda yang tersedia**  
`describe-vpn-connections`Contoh berikut menjelaskan koneksi Site-to-Site VPN Anda dengan status`available`.  

```
aws ec2 describe-vpn-connections \
    --filters "Name=state,Values=available"
```
Untuk informasi selengkapnya, lihat [Cara kerja AWS Site-to-Site AWS Site-to-Site VPN](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) *di Panduan Pengguna VPN*.  
+  Untuk detail API, lihat [DescribeVpnConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpn-connections.html)di *Referensi AWS CLI Perintah*. 

### `describe-vpn-gateways`
<a name="ec2_DescribeVpnGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vpn-gateways`.

**AWS CLI**  
**Untuk menggambarkan gateway pribadi virtual Anda**  
Contoh ini menjelaskan gateway pribadi virtual Anda.  
Perintah:  

```
aws ec2 describe-vpn-gateways
```
Output:  

```
{
    "VpnGateways": [
        {
            "State": "available",
            "Type": "ipsec.1",
            "VpnGatewayId": "vgw-f211f09b",
            "VpcAttachments": [
                {
                    "State": "attached",
                    "VpcId": "vpc-98eb5ef5"
                }
            ]
        },
        {
            "State": "available",
            "Type": "ipsec.1",
            "VpnGatewayId": "vgw-9a4cacf3",
            "VpcAttachments": [
                {
                    "State": "attaching",
                    "VpcId": "vpc-a01106c2"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeVpnGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpn-gateways.html)di *Referensi AWS CLI Perintah*. 

### `detach-classic-link-vpc`
<a name="ec2_DetachClassicLinkVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-classic-link-vpc`.

**AWS CLI**  
**Untuk memutuskan tautan (melepaskan) instance EC2-Classic dari VPC**  
Contoh ini membatalkan tautan instance i-0598c7d356eba48d7 dari VPC vpc-88888888.  
Perintah:  

```
aws ec2 detach-classic-link-vpc --instance-id i-0598c7d356eba48d7 --vpc-id vpc-88888888
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [DetachClassicLinkVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-classic-link-vpc.html)di *Referensi AWS CLI Perintah*. 

### `detach-internet-gateway`
<a name="ec2_DetachInternetGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-internet-gateway`.

**AWS CLI**  
**Untuk melepaskan gateway internet dari VPC Anda**  
`detach-internet-gateway`Contoh berikut melepaskan gateway internet yang ditentukan dari VPC tertentu.  

```
aws ec2 detach-internet-gateway \
    --internet-gateway-id igw-0d0fb496b3EXAMPLE \
    --vpc-id vpc-0a60eb65b4EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Gateway internet](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DetachInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-internet-gateway.html)di *Referensi AWS CLI Perintah*. 

### `detach-network-interface`
<a name="ec2_DetachNetworkInterface_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-network-interface`.

**AWS CLI**  
**Untuk melepaskan antarmuka jaringan dari instans Anda**  
Contoh ini melepaskan antarmuka jaringan yang ditentukan dari contoh yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 detach-network-interface --attachment-id eni-attach-66c4350a
```
+  Untuk detail API, lihat [DetachNetworkInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-network-interface.html)di *Referensi AWS CLI Perintah*. 

### `detach-verified-access-trust-provider`
<a name="ec2_DetachVerifiedAccessTrustProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-verified-access-trust-provider`.

**AWS CLI**  
**Untuk melepaskan penyedia kepercayaan dari sebuah instance**  
`detach-verified-access-trust-provider`Contoh berikut melepaskan penyedia kepercayaan Akses Terverifikasi yang ditentukan dari instance Akses Terverifikasi yang ditentukan.  

```
aws ec2 detach-verified-access-trust-provider \
    --verified-access-instance-id vai-0ce000c0b7643abea \
    --verified-access-trust-provider-id vatp-0bb32de759a3e19e7
```
Output:  

```
{
    "VerifiedAccessTrustProvider": {
        "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
        "Description": "Testing Verified Access",
        "TrustProviderType": "user",
        "UserTrustProviderType": "iam-identity-center",
        "PolicyReferenceName": "idc",
        "CreationTime": "2023-08-25T19:00:38",
        "LastUpdatedTime": "2023-08-25T19:00:38"
    },
    "VerifiedAccessInstance": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "Description": "Testing Verified Access",
        "VerifiedAccessTrustProviders": [],
        "CreationTime": "2023-08-25T18:27:56",
        "LastUpdatedTime": "2023-08-25T18:27:56"
    }
}
```
Untuk informasi selengkapnya, lihat [Instans Akses Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-instances.html) di *Panduan Pengguna Akses AWS Terverifikasi*.  
+  Untuk detail API, lihat [DetachVerifiedAccessTrustProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-verified-access-trust-provider.html)di *Referensi AWS CLI Perintah*. 

### `detach-volume`
<a name="ec2_DetachVolume_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-volume`.

**AWS CLI**  
**Untuk melepaskan volume dari sebuah instance**  
Perintah contoh ini melepaskan volume (`vol-049df61146c4d7901`) dari instance yang dilampirkan.  
Perintah:  

```
aws ec2 detach-volume --volume-id vol-1234567890abcdef0
```
Output:  

```
{
    "AttachTime": "2014-02-27T19:23:06.000Z",
    "InstanceId": "i-1234567890abcdef0",
    "VolumeId": "vol-049df61146c4d7901",
    "State": "detaching",
    "Device": "/dev/sdb"
}
```
+  Untuk detail API, lihat [DetachVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-volume.html)di *Referensi AWS CLI Perintah*. 

### `detach-vpn-gateway`
<a name="ec2_DetachVpnGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-vpn-gateway`.

**AWS CLI**  
**Untuk melepaskan gateway pribadi virtual dari VPC Anda**  
Contoh ini melepaskan gateway pribadi virtual yang ditentukan dari VPC yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 detach-vpn-gateway --vpn-gateway-id vgw-9a4cacf3 --vpc-id vpc-a01106c2
```
+  Untuk detail API, lihat [DetachVpnGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-vpn-gateway.html)di *Referensi AWS CLI Perintah*. 

### `disable-address-transfer`
<a name="ec2_DisableAddressTransfer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-address-transfer`.

**AWS CLI**  
**Untuk menonaktifkan transfer alamat IP Elastis**  
`disable-address-transfer`Contoh berikut menonaktifkan transfer alamat IP Elastis untuk alamat IP Elastis yang ditentukan.  

```
aws ec2 disable-address-transfer \
    --allocation-id eipalloc-09ad461b0d03f6aaf
```
Output:  

```
{
    "AddressTransfer": {
        "PublicIp": "100.21.184.216",
        "AllocationId": "eipalloc-09ad461b0d03f6aaf",
        "AddressTransferStatus": "disabled"
    }
}
```
Untuk informasi selengkapnya, lihat [Mentransfer alamat IP Elastis](https://docs.aws.amazon.com/vpc/latest/userguide/WorkWithEIPs.html#transfer-EIPs-intro) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DisableAddressTransfer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-address-transfer.html)di *Referensi AWS CLI Perintah*. 

### `disable-aws-network-performance-metric-subscription`
<a name="ec2_DisableAwsNetworkPerformanceMetricSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-aws-network-performance-metric-subscription`.

**AWS CLI**  
**Untuk menonaktifkan langganan metrik**  
`disable-aws-network-performance-metric-subscription`Contoh berikut menonaktifkan pemantauan latensi jaringan agregat antara wilayah sumber dan tujuan yang ditentukan.  

```
aws ec2 disable-aws-network-performance-metric-subscription \
    --source us-east-1 \
    --destination eu-west-1 \
    --metric aggregate-latency \
    --statistic p50
```
Output:  

```
{
    "Output": true
}
```
Untuk informasi selengkapnya, lihat [Mengelola CloudWatch langganan menggunakan CLI di Panduan](https://docs.aws.amazon.com/network-manager/latest/infrastructure-performance/getting-started-nmip-cli.html) Pengguna *Kinerja Infrastruktur*.  
+  Untuk detail API, lihat [DisableAwsNetworkPerformanceMetricSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-aws-network-performance-metric-subscription.html)di *Referensi AWS CLI Perintah*. 

### `disable-ebs-encryption-by-default`
<a name="ec2_DisableEbsEncryptionByDefault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-ebs-encryption-by-default`.

**AWS CLI**  
**Untuk menonaktifkan enkripsi EBS secara default**  
`disable-ebs-encryption-by-default`Contoh berikut menonaktifkan enkripsi EBS secara default untuk AWS akun Anda di Wilayah saat ini.  

```
aws ec2 disable-ebs-encryption-by-default
```
Output:  

```
{
    "EbsEncryptionByDefault": false
}
```
+  Untuk detail API, lihat [DisableEbsEncryptionByDefault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-ebs-encryption-by-default.html)di *Referensi AWS CLI Perintah*. 

### `disable-fast-launch`
<a name="ec2_DisableFastLaunch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-fast-launch`.

**AWS CLI**  
**Untuk menghentikan peluncuran cepat untuk sebuah gambar**  
`disable-fast-launch`Contoh berikut menghentikan Peluncuran Cepat untuk AMI yang ditentukan, dan membersihkan snapshot yang telah disediakan sebelumnya.  

```
aws ec2 disable-fast-launch \
    --image-id ami-01234567890abcedf
```
Output:  

```
{
    "ImageId": "ami-01234567890abcedf",
    "ResourceType": "snapshot",
    "SnapshotConfiguration": {},
    "LaunchTemplate": {
        "LaunchTemplateId": "lt-01234567890abcedf",
        "LaunchTemplateName": "EC2FastLaunchDefaultResourceCreation-a8c6215d-94e6-441b-9272-dbd1f87b07e2",
        "Version": "1"
    },
    "MaxParallelLaunches": 6,
    "OwnerId": "0123456789123",
    "State": "disabling",
    "StateTransitionReason": "Client.UserInitiated",
    "StateTransitionTime": "2022-01-27T22:47:29.265000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi pengaturan Peluncuran Cepat EC2 untuk AMI Windows Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/win-fast-launch-configure.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DisableFastLaunch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-fast-launch.html)di *Referensi AWS CLI Perintah*. 

### `disable-fast-snapshot-restores`
<a name="ec2_DisableFastSnapshotRestores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-fast-snapshot-restores`.

**AWS CLI**  
**Untuk menonaktifkan pemulihan snapshot cepat**  
`disable-fast-snapshot-restores`Contoh berikut menonaktifkan pemulihan snapshot cepat untuk snapshot yang ditentukan di Availability Zone yang ditentukan.  

```
aws ec2 disable-fast-snapshot-restores \
    --availability-zones us-east-2a \
    --source-snapshot-ids snap-1234567890abcdef0
```
Output:  

```
{
    "Successful": [
        {
            "SnapshotId": "snap-1234567890abcdef0"
            "AvailabilityZone": "us-east-2a",
            "State": "disabling",
            "StateTransitionReason": "Client.UserInitiated",
            "OwnerId": "123456789012",
            "EnablingTime": "2020-01-25T23:57:49.602Z"
        }
    ],
    "Unsuccessful": []
}
```
+  Untuk detail API, lihat [DisableFastSnapshotRestores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-fast-snapshot-restores.html)di *Referensi AWS CLI Perintah*. 

### `disable-image-block-public-access`
<a name="ec2_DisableImageBlockPublicAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-image-block-public-access`.

**AWS CLI**  
**Untuk menonaktifkan blokir akses publik untuk AMIs di Wilayah yang ditentukan**  
`disable-image-block-public-access`Contoh berikut menonaktifkan memblokir akses publik untuk AMIs di tingkat akun di Wilayah yang ditentukan.  

```
aws ec2 disable-image-block-public-access \
    --region us-east-1
```
Output:  

```
{
    "ImageBlockPublicAccessState": "unblocked"
}
```
Untuk informasi selengkapnya, lihat [Memblokir akses publik ke Anda AMIs](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/block-public-access-to-amis.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DisableImageBlockPublicAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-image-block-public-access.html)di *Referensi AWS CLI Perintah*. 

### `disable-image-deprecation`
<a name="ec2_DisableImageDeprecation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-image-deprecation`.

**AWS CLI**  
**Untuk membatalkan penghentian AMI**  
`disable-image-deprecation`Contoh berikut membatalkan penghentian AMI, yang menghapus `DeprecationTime` bidang dari output. `describe-images` Anda harus merupakan pemilik AMI untuk melakukan prosedur ini.  

```
aws ec2 disable-image-deprecation \
    --image-id ami-1234567890abcdef0
```
Output:  

```
{
    "RequestID": "11aabb229-4eac-35bd-99ed-be587EXAMPLE",
    "Return": "true"
}
```
Untuk informasi selengkapnya, lihat [Menghentikan AMI di Panduan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ami-deprecate.html) Pengguna *Amazon* EC2.  
+  Untuk detail API, lihat [DisableImageDeprecation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-image-deprecation.html)di *Referensi AWS CLI Perintah*. 

### `disable-image-deregistration-protection`
<a name="ec2_DisableImageDeregistrationProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-image-deregistration-protection`.

**AWS CLI**  
**Untuk menonaktifkan perlindungan deregistrasi**  
`disable-image-deregistration-protection`Contoh berikut menonaktifkan perlindungan deregistrasi untuk gambar yang ditentukan.  

```
aws ec2 disable-image-deregistration-protection \
    --image-id ami-0b1a928a144a74ec9
```
Output:  

```
{
    "Return": "disabled"
}
```
*Untuk informasi selengkapnya, lihat [Melindungi AMI dari deregistrasi di Panduan Pengguna](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ami-deregistration-protection.html) Amazon EC2.*  
+  Untuk detail API, lihat [DisableImageDeregistrationProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-image-deregistration-protection.html)di *Referensi AWS CLI Perintah*. 

### `disable-image`
<a name="ec2_DisableImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-image`.

**AWS CLI**  
**Untuk menonaktifkan AMI**  
`disable-image`Contoh berikut menonaktifkan AMI yang ditentukan.  

```
aws ec2 disable-image \
    --image-id ami-1234567890abcdef0
```
Output:  

```
{
    "Return": "true"
}
```
Untuk informasi selengkapnya, lihat [Menonaktifkan AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/disable-an-ami.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DisableImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-image.html)di *Referensi AWS CLI Perintah*. 

### `disable-ipam-organization-admin-account`
<a name="ec2_DisableIpamOrganizationAdminAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-ipam-organization-admin-account`.

**AWS CLI**  
**Untuk menonaktifkan admin IPAM yang didelegasikan**  
Dalam skenario tertentu, Anda akan mengintegrasikan IPAM dengan AWS Organizations. Ketika Anda melakukannya, akun manajemen AWS Organizations mendelegasikan akun anggota AWS Organizations sebagai admin IPAM.  
Dalam contoh ini, Anda adalah akun manajemen AWS Organizations yang mendelegasikan akun admin IPAM dan Anda ingin menonaktifkan akun tersebut dari menjadi admin IPAM.  
Anda dapat menggunakan AWS Wilayah mana pun untuk `--region` saat membuat permintaan ini. Anda tidak harus menggunakan Wilayah tempat Anda awalnya mendelegasikan admin, tempat IPAM dibuat, atau Wilayah operasi IPAM. Jika Anda menonaktifkan akun admin yang didelegasikan, Anda dapat mengaktifkannya kembali kapan saja atau mendelegasikan akun baru sebagai admin IPAM.  
`disable-ipam-organization-admin-account`Contoh berikut menonaktifkan admin IPAM yang didelegasikan di akun Anda. AWS   

```
aws ec2 disable-ipam-organization-admin-account \
    --delegated-admin-account-id 320805250157 \
    --region ap-south-1
```
Output:  

```
{
    "Success": true
}
```
Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan akun di AWS Organisasi](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [DisableIpamOrganizationAdminAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-ipam-organization-admin-account.html)di *Referensi AWS CLI Perintah*. 

### `disable-serial-console-access`
<a name="ec2_DisableSerialConsoleAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-serial-console-access`.

**AWS CLI**  
**Untuk menonaktifkan akses ke konsol serial EC2 untuk akun Anda**  
`disable-serial-console-access`Contoh berikut menonaktifkan akses akun ke konsol serial.  

```
aws ec2 disable-serial-console-access
```
Output:  

```
{
    "SerialConsoleAccessEnabled": false
}
```
Untuk informasi selengkapnya, lihat [Konsol Serial EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-serial-console.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DisableSerialConsoleAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-serial-console-access.html)di *Referensi AWS CLI Perintah*. 

### `disable-snapshot-block-public-access`
<a name="ec2_DisableSnapshotBlockPublicAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-snapshot-block-public-access`.

**AWS CLI**  
**Untuk menonaktifkan blokir akses publik untuk snapshot**  
`disable-snapshot-block-public-access`Contoh berikut menonaktifkan memblokir akses publik untuk snapshot untuk memungkinkan berbagi foto Anda secara publik.  

```
aws ec2 disable-snapshot-block-public-access
```
Output:  

```
{
    "State": "unblocked"
}
```
Untuk informasi selengkapnya, lihat [Memblokir akses publik untuk snapshot](https://docs.aws.amazon.com/ebs/latest/userguide/block-public-access-snapshots.html) di *Panduan Pengguna Amazon EBS*.  
+  Untuk detail API, lihat [DisableSnapshotBlockPublicAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-snapshot-block-public-access.html)di *Referensi AWS CLI Perintah*. 

### `disable-transit-gateway-route-table-propagation`
<a name="ec2_DisableTransitGatewayRouteTablePropagation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-transit-gateway-route-table-propagation`.

**AWS CLI**  
**Untuk menonaktifkan lampiran gateway transit untuk menyebarkan rute ke tabel rute propagasi yang ditentukan**  
`disable-transit-gateway-route-table-propagation`Contoh berikut menonaktifkan lampiran yang ditentukan untuk menyebarkan rute ke tabel rute propagasi yang ditentukan.  

```
aws ec2 disable-transit-gateway-route-table-propagation \
    --transit-gateway-route-table-id tgw-rtb-0a823edbdeEXAMPLE \
    --transit-gateway-attachment-id tgw-attach-09b52ccdb5EXAMPLE
```
Output:  

```
{
    "Propagation": {
        "TransitGatewayAttachmentId": "tgw-attach-09b52ccdb5EXAMPLE",
        "ResourceId": "vpc-4d7de228",
        "ResourceType": "vpc",
        "TransitGatewayRouteTableId": "tgw-rtb-0a823edbdeEXAMPLE",
        "State": "disabled"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [DisableTransitGatewayRouteTablePropagation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-transit-gateway-route-table-propagation.html)di *Referensi AWS CLI Perintah*. 

### `disable-vgw-route-propagation`
<a name="ec2_DisableVgwRoutePropagation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-vgw-route-propagation`.

**AWS CLI**  
**Untuk menonaktifkan propagasi rute**  
Contoh ini menonaktifkan gateway pribadi virtual yang ditentukan dari menyebarkan rute statis ke tabel rute yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 disable-vgw-route-propagation --route-table-id rtb-22574640 --gateway-id vgw-9a4cacf3
```
+  Untuk detail API, lihat [DisableVgwRoutePropagation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-vgw-route-propagation.html)di *Referensi AWS CLI Perintah*. 

### `disable-vpc-classic-link-dns-support`
<a name="ec2_DisableVpcClassicLinkDnsSupport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-vpc-classic-link-dns-support`.

**AWS CLI**  
**Untuk menonaktifkan dukungan ClassicLink DNS untuk VPC**  
Contoh ini menonaktifkan dukungan ClassicLink DNS untuk. `vpc-88888888`  
Perintah:  

```
aws ec2 disable-vpc-classic-link-dns-support --vpc-id vpc-88888888
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [DisableVpcClassicLinkDnsSupport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-vpc-classic-link-dns-support.html)di *Referensi AWS CLI Perintah*. 

### `disable-vpc-classic-link`
<a name="ec2_DisableVpcClassicLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-vpc-classic-link`.

**AWS CLI**  
**Untuk menonaktifkan ClassicLink untuk VPC**  
Contoh ini menonaktifkan ClassicLink untuk vpc-8888888.  
Perintah:  

```
aws ec2 disable-vpc-classic-link --vpc-id vpc-88888888
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [DisableVpcClassicLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-vpc-classic-link.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-address`
<a name="ec2_DisassociateAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-address`.

**AWS CLI**  
**Untuk melepaskan kaitan alamat IP Elastis di EC2-Classic**  
Contoh ini melepaskan kaitan alamat IP Elastis dari instans di EC2-Classic. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 disassociate-address --public-ip 198.51.100.0
```
**Untuk melepaskan kaitan alamat IP Elastis di EC2-VPC**  
Contoh ini melepaskan kaitan alamat IP Elastis dari instans di VPC. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 disassociate-address --association-id eipassoc-2bebb745
```
+  Untuk detail API, lihat [DisassociateAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-address.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-client-vpn-target-network`
<a name="ec2_DisassociateClientVpnTargetNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-client-vpn-target-network`.

**AWS CLI**  
**Untuk memisahkan jaringan dari titik akhir Client VPN**  
`disassociate-client-vpn-target-network`Contoh berikut memisahkan jaringan target yang terkait dengan ID `cvpn-assoc-12312312312312312` asosiasi untuk titik akhir Client VPN yang ditentukan.  

```
aws ec2 disassociate-client-vpn-target-network \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde \
    --association-id cvpn-assoc-12312312312312312
```
Output:  

```
{
    "AssociationId": "cvpn-assoc-12312312312312312",
    "Status": {
        "Code": "disassociating"
    }
}
```
Untuk informasi selengkapnya, lihat [Jaringan Target](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-target.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [DisassociateClientVpnTargetNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-client-vpn-target-network.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-iam-instance-profile`
<a name="ec2_DisassociateIamInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-iam-instance-profile`.

**AWS CLI**  
**Untuk memisahkan profil instans IAM**  
Contoh ini memisahkan profil instans IAM dengan ID asosiasi. `iip-assoc-05020b59952902f5f`  
Perintah:  

```
aws ec2 disassociate-iam-instance-profile --association-id iip-assoc-05020b59952902f5f
```
Output:  

```
{
  "IamInstanceProfileAssociation": {
      "InstanceId": "i-123456789abcde123",
      "State": "disassociating",
      "AssociationId": "iip-assoc-05020b59952902f5f",
      "IamInstanceProfile": {
          "Id": "AIPAI5IVIHMFFYY2DKV5Y",
          "Arn": "arn:aws:iam::123456789012:instance-profile/admin-role"
      }
  }
}
```
+  Untuk detail API, lihat [DisassociateIamInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-iam-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-instance-event-window`
<a name="ec2_DisassociateInstanceEventWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-instance-event-window`.

**AWS CLI**  
**Contoh 1: Untuk memisahkan satu atau beberapa instance dari jendela acara**  
`disassociate-instance-event-window`Contoh berikut memisahkan satu atau lebih instance dari jendela acara. Tentukan `instance-event-window-id` parameter untuk menentukan jendela acara. Untuk memisahkan instance, tentukan `association-target` parameter, dan untuk nilai parameter, tentukan satu atau lebih instance. IDs  

```
aws ec2 disassociate-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --association-target "InstanceIds=i-1234567890abcdef0,i-0598c7d356eba48d7"
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "Name": "myEventWindowName",
        "CronExpression": "* 21-23 * * 2,3",
        "AssociationTarget": {
            "InstanceIds": [],
            "Tags": [],
            "DedicatedHostIds": []
        },
        "State": "creating"
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
**Contoh 2: Untuk memisahkan tag instance dari jendela acara**  
`disassociate-instance-event-window`Contoh berikut memisahkan tag instance dari jendela acara. Tentukan `instance-event-window-id` parameter untuk menentukan jendela acara. Untuk memisahkan tanda instans, tentukan parameter `association-target`, dan untuk nilai parameternya, tentukan satu atau beberapa tanda.  

```
aws ec2 disassociate-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --association-target "InstanceTags=[{Key=k2,Value=v2},{Key=k1,Value=v1}]"
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "Name": "myEventWindowName",
        "CronExpression": "* 21-23 * * 2,3",
        "AssociationTarget": {
            "InstanceIds": [],
            "Tags": [],
            "DedicatedHostIds": []
        },
        "State": "creating"
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
**Contoh 3: Untuk memisahkan Host Khusus dari jendela acara**  
`disassociate-instance-event-window`Contoh berikut memisahkan Host Khusus dari jendela acara. Tentukan `instance-event-window-id` parameter untuk menentukan jendela acara. Untuk memisahkan Host Khusus, tentukan `association-target` parameter, dan untuk nilai parameter, tentukan satu atau beberapa Host IDs Khusus.  

```
aws ec2 disassociate-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --association-target DedicatedHostIds=h-029fa35a02b99801d
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "Name": "myEventWindowName",
        "CronExpression": "* 21-23 * * 2,3",
        "AssociationTarget": {
            "InstanceIds": [],
            "Tags": [],
            "DedicatedHostIds": []
        },
        "State": "creating"
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
+  Untuk detail API, lihat [DisassociateInstanceEventWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-instance-event-window.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-ipam-resource-discovery`
<a name="ec2_DisassociateIpamResourceDiscovery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-ipam-resource-discovery`.

**AWS CLI**  
**Untuk memisahkan penemuan sumber daya dari IPAM**  
Dalam contoh ini, Anda adalah akun admin yang didelegasikan IPAM dan Anda ingin memisahkan penemuan sumber daya IPAM dari IPAM Anda. Anda menjalankan perintah describe dan memperhatikan bahwa `"ResourceDiscoveryStatus": "not-found"` dan Anda ingin memisahkannya dari IPAM Anda untuk memberi ruang bagi asosiasi lain.  
`disassociate-ipam-resource-discovery`Contoh berikut memisahkan penemuan sumber daya IPAM di akun Anda. AWS   

```
aws ec2 disassociate-ipam-resource-discovery \
    --ipam-resource-discovery-association-id ipam-res-disco-assoc-04382a6346357cf82 \
    --region us-east-1
```
Output:  

```
{
    "IpamResourceDiscoveryAssociation": {
        "OwnerId": "320805250157",
        "IpamResourceDiscoveryAssociationId": "ipam-res-disco-assoc-04382a6346357cf82",
        "IpamResourceDiscoveryAssociationArn":             "arn:aws:ec2::320805250157:ipam-resource-discovery-association/ipam-res-disco-assoc-04382a6346357cf82",
        "IpamResourceDiscoveryId": "ipam-res-disco-0365d2977fc1672fe",
        "IpamId": "ipam-005f921c17ebd5107",
        "IpamArn": "arn:aws:ec2::320805250157:ipam/ipam-005f921c17ebd5107",
        "IpamRegion": "us-east-1",
        "IsDefault": false,
        "ResourceDiscoveryStatus": "not-found",
        "State": "disassociate-in-progress"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan akun di luar organisasi Anda](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam-outside-org.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [DisassociateIpamResourceDiscovery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-ipam-resource-discovery.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-nat-gateway-address`
<a name="ec2_DisassociateNatGatewayAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-nat-gateway-address`.

**AWS CLI**  
**Untuk memisahkan alamat IP Elastis dari gateway NAT publik**  
`disassociate-nat-gateway-address`Contoh berikut memisahkan alamat IP Elastis yang ditentukan dari gateway NAT publik yang ditentukan.  

```
aws ec2 disassociate-nat-gateway-address \
    --nat-gateway-id nat-1234567890abcdef0 \
    --association-ids eipassoc-0f96bdca17EXAMPLE
```
Output:  

```
{
    "NatGatewayId": "nat-1234567890abcdef0",
    "NatGatewayAddresses": [
        {
            "AllocationId": "eipalloc-0be6ecac95EXAMPLE",
            "NetworkInterfaceId": "eni-09cc4b2558794f7f9",
            "PrivateIp": "10.0.0.74",
            "PublicIp": "3.211.231.218",
            "AssociationId": "eipassoc-0f96bdca17EXAMPLE",
            "IsPrimary": false,
            "Status": "disassociating"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Gateway NAT](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-nat-gateway.html) dalam *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DisassociateNatGatewayAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-nat-gateway-address.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-route-table`
<a name="ec2_DisassociateRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-route-table`.

**AWS CLI**  
**Untuk memisahkan tabel rute**  
Contoh ini memisahkan tabel rute yang ditentukan dari subnet yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 disassociate-route-table --association-id rtbassoc-781d0d1a
```
+  Untuk detail API, lihat [DisassociateRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-route-table.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-security-group-vpc`
<a name="ec2_DisassociateSecurityGroupVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-security-group-vpc`.

**AWS CLI**  
**Untuk memisahkan grup keamanan dari VPC**  
`disassociate-security-group-vpc`Contoh berikut memisahkan grup keamanan yang ditentukan dari VPC yang ditentukan.  

```
aws ec2 disassociate-security-group-vpc \
    --group-id sg-04dbb43907d3f8a78 \
    --vpc-id vpc-0bf4c2739bc05a694
```
Output:  

```
{
    "State": "disassociating"
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan grup keamanan dengan beberapa VPCs](https://docs.aws.amazon.com/vpc/latest/userguide/security-group-assoc.html) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [DisassociateSecurityGroupVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-security-group-vpc.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-subnet-cidr-block`
<a name="ec2_DisassociateSubnetCidrBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-subnet-cidr-block`.

**AWS CLI**  
**Untuk memisahkan blok IPv6 CIDR dari subnet**  
Contoh ini memisahkan blok IPv6 CIDR dari subnet menggunakan ID asosiasi untuk blok CIDR.  
Perintah:  

```
aws ec2 disassociate-subnet-cidr-block --association-id subnet-cidr-assoc-3aa54053
```
Output:  

```
{
  "SubnetId": "subnet-5f46ec3b",
  "Ipv6CidrBlockAssociation": {
      "Ipv6CidrBlock": "2001:db8:1234:1a00::/64",
      "AssociationId": "subnet-cidr-assoc-3aa54053",
      "Ipv6CidrBlockState": {
          "State": "disassociating"
      }
  }
}
```
+  Untuk detail API, lihat [DisassociateSubnetCidrBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-subnet-cidr-block.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-transit-gateway-multicast-domain`
<a name="ec2_DisassociateTransitGatewayMulticastDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-transit-gateway-multicast-domain`.

**AWS CLI**  
**Untuk memisahkan subnet dari domain multicast**  
`disassociate-transit-gateway-multicast-domain`Contoh berikut memisahkan subnet dari domain multicast yang ditentukan.  

```
aws ec2 disassociate-transit-gateway-multicast-domain \
    --transit-gateway-attachment-id tgw-attach-070e571cd1EXAMPLE \
    --subnet-id subnet-000de86e3bEXAMPLE \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef7EXAMPLE
```
Output:  

```
{
    "Associations": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-0c4905cef7EXAMPLE",
        "TransitGatewayAttachmentId": "tgw-attach-070e571cd1EXAMPLE",
        "ResourceId": "vpc-7EXAMPLE",
        "ResourceType": "vpc",
        "Subnets": [
            {
                "SubnetId": "subnet-000de86e3bEXAMPLE",
                "State": "disassociating"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Domain multicast di Panduan Gerbang](https://docs.aws.amazon.com/vpc/latest/tgw/multicast-domains-about.html) *Transit '*.  
+  Untuk detail API, lihat [DisassociateTransitGatewayMulticastDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-transit-gateway-multicast-domain.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-transit-gateway-route-table`
<a name="ec2_DisassociateTransitGatewayRouteTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-transit-gateway-route-table`.

**AWS CLI**  
**Untuk memisahkan tabel rute gateway transit dari lampiran sumber daya**  
`disassociate-transit-gateway-route-table`Contoh berikut memisahkan lampiran yang ditentukan dari tabel rute gateway transit.  

```
aws ec2 disassociate-transit-gateway-route-table \
    --transit-gateway-route-table-id tgw-rtb-002573ed1eEXAMPLE \
    --transit-gateway-attachment-id tgw-attach-08e0bc912cEXAMPLE
```
Output:  

```
{
    "Association": {
        "TransitGatewayRouteTableId": "tgw-rtb-002573ed1eEXAMPLE",
        "TransitGatewayAttachmentId": "tgw-attach-08e0bc912cEXAMPLE",
        "ResourceId": "11460968-4ac1-4fd3-bdb2-00599EXAMPLE",
        "ResourceType": "direct-connect-gateway",
        "State": "disassociating"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [DisassociateTransitGatewayRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-transit-gateway-route-table.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-vpc-cidr-block`
<a name="ec2_DisassociateVpcCidrBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-vpc-cidr-block`.

**AWS CLI**  
**Untuk memisahkan blok IPv6 CIDR dari VPC**  
Contoh ini memisahkan blok IPv6 CIDR dari VPC menggunakan ID asosiasi untuk blok CIDR.  
Perintah:  

```
aws ec2 disassociate-vpc-cidr-block --association-id vpc-cidr-assoc-eca54085
```
Output:  

```
{
  "Ipv6CidrBlockAssociation": {
      "Ipv6CidrBlock": "2001:db8:1234:1a00::/56",
      "AssociationId": "vpc-cidr-assoc-eca54085",
      "Ipv6CidrBlockState": {
          "State": "disassociating"
      }
  },
  "VpcId": "vpc-a034d6c4"
}
```
**Untuk memisahkan blok IPv4 CIDR dari VPC**  
Contoh ini memisahkan blok IPv4 CIDR dari VPC.  
Perintah:  

```
aws ec2 disassociate-vpc-cidr-block --association-id vpc-cidr-assoc-0287ac6b
```
Output:  

```
{
  "CidrBlockAssociation": {
      "AssociationId": "vpc-cidr-assoc-0287ac6b",
      "CidrBlock": "172.18.0.0/16",
      "CidrBlockState": {
          "State": "disassociating"
      }
  },
  "VpcId": "vpc-27621243"
}
```
+  Untuk detail API, lihat [DisassociateVpcCidrBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-vpc-cidr-block.html)di *Referensi AWS CLI Perintah*. 

### `enable-address-transfer`
<a name="ec2_EnableAddressTransfer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-address-transfer`.

**AWS CLI**  
**Untuk mengaktifkan transfer alamat IP Elastis**  
`enable-address-transfer`Contoh berikut memungkinkan transfer alamat IP Elastis untuk alamat IP Elastis yang ditentukan ke akun yang ditentukan.  

```
aws ec2 enable-address-transfer \
    --allocation-id eipalloc-09ad461b0d03f6aaf \
    --transfer-account-id 123456789012
```
Output:  

```
{
     "AddressTransfer": {
        "PublicIp": "100.21.184.216",
        "AllocationId": "eipalloc-09ad461b0d03f6aaf",
        "TransferAccountId": "123456789012",
        "TransferOfferExpirationTimestamp": "2023-02-22T20:51:01.000Z",
        "AddressTransferStatus": "pending"
    }
}
```
Untuk informasi selengkapnya, lihat [Mentransfer alamat IP Elastis](https://docs.aws.amazon.com/vpc/latest/userguide/WorkWithEIPs.html#transfer-EIPs-intro) di *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [EnableAddressTransfer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-address-transfer.html)di *Referensi AWS CLI Perintah*. 

### `enable-aws-network-performance-metric-subscription`
<a name="ec2_EnableAwsNetworkPerformanceMetricSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-aws-network-performance-metric-subscription`.

**AWS CLI**  
**Untuk mengaktifkan langganan metrik**  
`enable-aws-network-performance-metric-subscription`Contoh berikut memungkinkan pemantauan latensi jaringan agregat antara sumber yang ditentukan dan daerah tujuan.  

```
aws ec2 enable-aws-network-performance-metric-subscription \
    --source us-east-1 \
    --destination eu-west-1 \
    --metric aggregate-latency \
    --statistic p50
```
Output:  

```
{
    "Output": true
}
```
Untuk informasi selengkapnya, lihat [Mengelola langganan](https://docs.aws.amazon.com/network-manager/latest/infrastructure-performance/nmip-subscriptions-cw.html) di *Panduan Pengguna Kinerja Infrastruktur*.  
+  Untuk detail API, lihat [EnableAwsNetworkPerformanceMetricSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-aws-network-performance-metric-subscription.html)di *Referensi AWS CLI Perintah*. 

### `enable-ebs-encryption-by-default`
<a name="ec2_EnableEbsEncryptionByDefault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-ebs-encryption-by-default`.

**AWS CLI**  
**Untuk mengaktifkan enkripsi EBS secara default**  
`enable-ebs-encryption-by-default`Contoh berikut memungkinkan enkripsi EBS secara default untuk AWS akun Anda di Wilayah saat ini.  

```
aws ec2 enable-ebs-encryption-by-default
```
Output:  

```
{
    "EbsEncryptionByDefault": true
}
```
+  Untuk detail API, lihat [EnableEbsEncryptionByDefault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-ebs-encryption-by-default.html)di *Referensi AWS CLI Perintah*. 

### `enable-fast-launch`
<a name="ec2_EnableFastLaunch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-fast-launch`.

**AWS CLI**  
**Untuk memulai peluncuran cepat untuk sebuah gambar**  
`enable-fast-launch`Contoh berikut mengonfigurasi AMI yang ditentukan untuk Peluncuran Cepat dan menetapkan jumlah maksimum instance paralel untuk diluncurkan ke 6. Jenis sumber daya yang akan digunakan untuk pra-penyediaan AMI diatur`snapshot`, yang juga merupakan nilai default.  

```
aws ec2 enable-fast-launch \
    --image-id ami-01234567890abcedf \
    --max-parallel-launches 6 \
    --resource-type snapshot
```
Output:  

```
{
    "ImageId": "ami-01234567890abcedf",
    "ResourceType": "snapshot",
    "SnapshotConfiguration": {
        "TargetResourceCount": 10
    },
    "LaunchTemplate": {},
    "MaxParallelLaunches": 6,
    "OwnerId": "0123456789123",
    "State": "enabling",
    "StateTransitionReason": "Client.UserInitiated",
    "StateTransitionTime": "2022-01-27T22:16:03.199000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi pengaturan Peluncuran Cepat EC2 untuk AMI Windows Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/win-fast-launch-configure.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [EnableFastLaunch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-fast-launch.html)di *Referensi AWS CLI Perintah*. 

### `enable-fast-snapshot-restores`
<a name="ec2_EnableFastSnapshotRestores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-fast-snapshot-restores`.

**AWS CLI**  
**Untuk mengaktifkan pemulihan snapshot cepat**  
`enable-fast-snapshot-restores`Contoh berikut memungkinkan pemulihan snapshot cepat untuk snapshot yang ditentukan di Availability Zones yang ditentukan.  

```
aws ec2 enable-fast-snapshot-restores \
    --availability-zones us-east-2a us-east-2b \
    --source-snapshot-ids snap-1234567890abcdef0
```
Output:  

```
{
    "Successful": [
        {
            "SnapshotId": "snap-1234567890abcdef0"
            "AvailabilityZone": "us-east-2a",
            "State": "enabling",
            "StateTransitionReason": "Client.UserInitiated",
            "OwnerId": "123456789012",
            "EnablingTime": "2020-01-25T23:57:49.602Z"
        },
        {
            "SnapshotId": "snap-1234567890abcdef0"
            "AvailabilityZone": "us-east-2b",
            "State": "enabling",
            "StateTransitionReason": "Client.UserInitiated",
            "OwnerId": "123456789012",
            "EnablingTime": "2020-01-25T23:57:49.596Z"
        }
    ],
    "Unsuccessful": []
}
```
+  Untuk detail API, lihat [EnableFastSnapshotRestores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-fast-snapshot-restores.html)di *Referensi AWS CLI Perintah*. 

### `enable-image-block-public-access`
<a name="ec2_EnableImageBlockPublicAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-image-block-public-access`.

**AWS CLI**  
**Untuk mengaktifkan blokir akses publik AMIs di Wilayah yang ditentukan**  
`enable-image-block-public-access`Contoh berikut memungkinkan blokir akses publik untuk AMIs di tingkat akun di Wilayah yang ditentukan.  

```
aws ec2 enable-image-block-public-access \
    --region us-east-1 \
    --image-block-public-access-state block-new-sharing
```
Output:  

```
{
    "ImageBlockPublicAccessState": "block-new-sharing"
}
```
Untuk informasi selengkapnya, lihat [Memblokir akses publik ke Anda AMIs](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/sharingamis-intro.html#block-public-access-to-amis) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [EnableImageBlockPublicAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-image-block-public-access.html)di *Referensi AWS CLI Perintah*. 

### `enable-image-deprecation`
<a name="ec2_EnableImageDeprecation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-image-deprecation`.

**AWS CLI**  
**Untuk menghentikan AMI**  
`enable-image-deprecation`Contoh berikut menghentikan AMI pada tanggal dan waktu tertentu. Jika Anda menentukan nilai untuk detik, Amazon EC2 membulatkan detik ke menit terdekat. Anda harus merupakan pemilik AMI untuk melakukan prosedur ini.  

```
aws ec2 enable-image-deprecation \
    --image-id ami-1234567890abcdef0 \
    --deprecate-at '2022-10-15T13:17:12.000Z'
```
Output:  

```
{
    "RequestID": "59dbff89-35bd-4eac-99ed-be587EXAMPLE",
    "Return": "true"
}
```
Untuk informasi selengkapnya, lihat [Menghentikan AMI di Panduan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ami-deprecate.html#deprecate-ami) Pengguna *Amazon* EC2.  
+  Untuk detail API, lihat [EnableImageDeprecation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-image-deprecation.html)di *Referensi AWS CLI Perintah*. 

### `enable-image-deregistration-protection`
<a name="ec2_EnableImageDeregistrationProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-image-deregistration-protection`.

**AWS CLI**  
**Untuk mengaktifkan perlindungan deregistrasi**  
`enable-image-deregistration-protection`Contoh berikut memungkinkan perlindungan deregistrasi untuk gambar yang ditentukan.  

```
aws ec2 enable-image-deregistration-protection \
    --image-id ami-0b1a928a144a74ec9
```
Output:  

```
{
    "Return": "enabled-without-cooldown"
}
```
*Untuk informasi selengkapnya, lihat [Melindungi AMI EC2 dari deregistrasi di](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ami-deregistration-protection.html) Panduan Pengguna Amazon EC2.*  
+  Untuk detail API, lihat [EnableImageDeregistrationProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-image-deregistration-protection.html)di *Referensi AWS CLI Perintah*. 

### `enable-image`
<a name="ec2_EnableImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-image`.

**AWS CLI**  
**Untuk mengaktifkan AMI**  
`enable-image`Contoh berikut memungkinkan AMI yang ditentukan.  

```
aws ec2 enable-image \
    --image-id ami-1234567890abcdef0
```
Output:  

```
{
    "Return": "true"
}
```
Untuk informasi selengkapnya, lihat [Menonaktifkan AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/disable-an-ami.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [EnableImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-image.html)di *Referensi AWS CLI Perintah*. 

### `enable-ipam-organization-admin-account`
<a name="ec2_EnableIpamOrganizationAdminAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-ipam-organization-admin-account`.

**AWS CLI**  
**Untuk mengintegrasikan dengan AWS Organizations dan mendelegasikan akun anggota sebagai akun IPAM**  
`enable-ipam-organization-admin-account`Contoh berikut mengintegrasikan IPAM dengan AWS Organizations dan mendelegasikan akun anggota sebagai akun IPAM.  

```
aws ec2 enable-ipam-organization-admin-account \
    --delegated-admin-account-id 320805250157
```
Output:  

```
{
    "Success": true
}
```
Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan AWS Organizations](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam.html) di Panduan *Pengguna Amazon VPC IPAM*.  
+  Untuk detail API, lihat [EnableIpamOrganizationAdminAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-ipam-organization-admin-account.html)di *Referensi AWS CLI Perintah*. 

### `enable-reachability-analyzer-organization-sharing`
<a name="ec2_EnableReachabilityAnalyzerOrganizationSharing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-reachability-analyzer-organization-sharing`.

**AWS CLI**  
**Untuk mengaktifkan akses tepercaya untuk Reachability Analyzer**  
`enable-reachability-analyzer-organization-sharing`Contoh berikut memungkinkan akses tepercaya untuk Reachability Analyzer.  

```
aws ec2 enable-reachability-analyzer-organization-sharing
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Analisis lintas akun](https://docs.aws.amazon.com/vpc/latest/reachability/multi-account.html) di Panduan Pengguna *Reachability Analyzer*.  
+  Untuk detail API, lihat [EnableReachabilityAnalyzerOrganizationSharing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-reachability-analyzer-organization-sharing.html)di *Referensi AWS CLI Perintah*. 

### `enable-serial-console-access`
<a name="ec2_EnableSerialConsoleAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-serial-console-access`.

**AWS CLI**  
**Untuk mengaktifkan akses ke konsol serial untuk akun Anda**  
`enable-serial-console-access`Contoh berikut memungkinkan akses akun ke konsol serial.  

```
aws ec2 enable-serial-console-access
```
Output:  

```
{
    "SerialConsoleAccessEnabled": true
}
```
Untuk informasi selengkapnya, lihat [Konsol Serial EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-serial-console.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [EnableSerialConsoleAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-serial-console-access.html)di *Referensi AWS CLI Perintah*. 

### `enable-snapshot-block-public-access`
<a name="ec2_EnableSnapshotBlockPublicAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-snapshot-block-public-access`.

**AWS CLI**  
**Untuk mengaktifkan blokir akses publik untuk snapshot**  
`enable-snapshot-block-public-access`Contoh berikut memblokir semua berbagi foto Anda secara publik.  

```
aws ec2 enable-snapshot-block-public-access \
    --state block-all-sharing
```
Output:  

```
{
    "State": "block-all-sharing"
}
```
Untuk informasi selengkapnya, lihat [Memblokir akses publik untuk snapshot](https://docs.aws.amazon.com/ebs/latest/userguide/block-public-access-snapshots.html) di *Panduan Pengguna Amazon EBS*.  
+  Untuk detail API, lihat [EnableSnapshotBlockPublicAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-snapshot-block-public-access.html)di *Referensi AWS CLI Perintah*. 

### `enable-transit-gateway-route-table-propagation`
<a name="ec2_EnableTransitGatewayRouteTablePropagation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-transit-gateway-route-table-propagation`.

**AWS CLI**  
**Untuk mengaktifkan lampiran gateway transit untuk menyebarkan rute ke tabel rute propagasi yang ditentukan**  
`enable-transit-gateway-route-table-propagation`Contoh berikut memungkinkan lampiran yang ditentukan untuk menyebarkan rute ke tabel rute propagasi yang ditentukan.  

```
aws ec2 enable-transit-gateway-route-table-propagation \
    --transit-gateway-route-table-id tgw-rtb-0a823edbdeEXAMPLE \
    --transit-gateway-attachment-id tgw-attach-09b52ccdb5EXAMPLE
```
Output:  

```
{
    "Propagation": {
        "TransitGatewayAttachmentId": "tgw-attach-09b52ccdb5EXAMPLE",
        "ResourceId": "vpc-4d7de228",
        "ResourceType": "vpc",
        "TransitGatewayRouteTableId": "tgw-rtb-0a823edbdeEXAMPLE",
        "State": "disabled"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [EnableTransitGatewayRouteTablePropagation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-transit-gateway-route-table-propagation.html)di *Referensi AWS CLI Perintah*. 

### `enable-vgw-route-propagation`
<a name="ec2_EnableVgwRoutePropagation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-vgw-route-propagation`.

**AWS CLI**  
**Untuk mengaktifkan propagasi rute**  
Contoh ini memungkinkan gateway pribadi virtual yang ditentukan untuk menyebarkan rute statis ke tabel rute yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 enable-vgw-route-propagation --route-table-id rtb-22574640 --gateway-id vgw-9a4cacf3
```
+  Untuk detail API, lihat [EnableVgwRoutePropagation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-vgw-route-propagation.html)di *Referensi AWS CLI Perintah*. 

### `enable-volume-io`
<a name="ec2_EnableVolumeIo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-volume-io`.

**AWS CLI**  
** I/O Untuk mengaktifkan volume**  
Contoh ini memungkinkan I/O volume`vol-1234567890abcdef0`.  
Perintah:  

```
aws ec2 enable-volume-io --volume-id vol-1234567890abcdef0
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [EnableVolumeIo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-volume-io.html)di *Referensi AWS CLI Perintah*. 

### `enable-vpc-classic-link-dns-support`
<a name="ec2_EnableVpcClassicLinkDnsSupport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-vpc-classic-link-dns-support`.

**AWS CLI**  
**Untuk mengaktifkan dukungan ClassicLink DNS untuk VPC**  
Contoh ini memungkinkan dukungan ClassicLink DNS untuk`vpc-88888888`.  
Perintah:  

```
aws ec2 enable-vpc-classic-link-dns-support --vpc-id vpc-88888888
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [EnableVpcClassicLinkDnsSupport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-vpc-classic-link-dns-support.html)di *Referensi AWS CLI Perintah*. 

### `enable-vpc-classic-link`
<a name="ec2_EnableVpcClassicLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-vpc-classic-link`.

**AWS CLI**  
**Untuk mengaktifkan VPC untuk ClassicLink**  
Contoh ini memungkinkan vpc-8888888 untuk. ClassicLink  
Perintah:  

```
aws ec2 enable-vpc-classic-link --vpc-id vpc-88888888
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [EnableVpcClassicLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-vpc-classic-link.html)di *Referensi AWS CLI Perintah*. 

### `export-client-vpn-client-certificate-revocation-list`
<a name="ec2_ExportClientVpnClientCertificateRevocationList_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`export-client-vpn-client-certificate-revocation-list`.

**AWS CLI**  
**Untuk mengekspor daftar pencabutan sertifikat klien**  
`export-client-vpn-client-certificate-revocation-list`Contoh berikut mengekspor daftar pencabutan sertifikat klien untuk titik akhir Client VPN yang ditentukan. Dalam contoh ini, output dikembalikan dalam format teks agar lebih mudah dibaca.  

```
aws ec2 export-client-vpn-client-certificate-revocation-list \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde \
    --output text
```
Output:  

```
-----BEGIN X509 CRL-----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-----END X509 CRL-----
STATUS      pending
```
Untuk informasi selengkapnya, lihat [Daftar Pencabutan Sertifikat Klien di Panduan](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-certificates.html) *Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [ExportClientVpnClientCertificateRevocationList](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/export-client-vpn-client-certificate-revocation-list.html)di *Referensi AWS CLI Perintah*. 

### `export-client-vpn-client-configuration`
<a name="ec2_ExportClientVpnClientConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`export-client-vpn-client-configuration`.

**AWS CLI**  
**Untuk mengekspor konfigurasi klien**  
`export-client-vpn-client-configuration`Contoh berikut mengekspor konfigurasi klien untuk titik akhir Client VPN yang ditentukan. Dalam contoh ini, output dikembalikan dalam format teks agar lebih mudah dibaca.  

```
aws ec2 export-client-vpn-client-configuration \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde \
    --output text
```
Output:  

```
client
dev tun
proto udp
remote cvpn-endpoint-123456789123abcde.prod.clientvpn.ap-south-1.amazonaws.com 443
remote-random-hostname
resolv-retry infinite
nobind
persist-key
persist-tun
remote-cert-tls server
cipher AES-256-GCM
verb 3
<ca>
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
</ca>
reneg-sec 0
```
Untuk informasi selengkapnya, lihat [Ekspor file konfigurasi titik akhir Client VPN](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-endpoint-export.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [ExportClientVpnClientConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/export-client-vpn-client-configuration.html)di *Referensi AWS CLI Perintah*. 

### `export-image`
<a name="ec2_ExportImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`export-image`.

**AWS CLI**  
**Untuk mengekspor VM dari AMI**  
`export-image`Contoh berikut mengekspor AMI yang ditentukan ke bucket yang ditentukan dalam format yang ditentukan.  

```
aws ec2 export-image \
    --image-id ami-1234567890abcdef0 \
    --disk-image-format VMDK \
    --s3-export-location S3Bucket=my-export-bucket,S3Prefix=exports/
```
Output:  

```
{
    "DiskImageFormat": "vmdk",
    "ExportImageTaskId": "export-ami-1234567890abcdef0"
    "ImageId": "ami-1234567890abcdef0",
    "RoleName": "vmimport",
    "Progress": "0",
    "S3ExportLocation": {
        "S3Bucket": "my-export-bucket",
        "S3Prefix": "exports/"
    },
    "Status": "active",
    "StatusMessage": "validating"
}
```
+  Untuk detail API, lihat [ExportImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/export-image.html)di *Referensi AWS CLI Perintah*. 

### `get-associated-ipv6-pool-cidrs`
<a name="ec2_GetAssociatedIpv6PoolCidrs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-associated-ipv6-pool-cidrs`.

**AWS CLI**  
**Untuk mendapatkan asosiasi untuk kumpulan IPv6 alamat**  
`get-associated-ipv6-pool-cidrs`Contoh berikut mendapatkan asosiasi untuk kumpulan IPv6 alamat yang ditentukan.  

```
aws ec2 get-associated-ipv6-pool-cidrs \
    --pool-id ipv6pool-ec2-012345abc12345abc
```
Output:  

```
{
    "Ipv6CidrAssociations": [
        {
            "Ipv6Cidr": "2001:db8:1234:1a00::/56",
            "AssociatedResource": "vpc-111111222222333ab"
        }
    ]
}
```
+  Untuk detail API, lihat [GetAssociatedIpv6 PoolCidrs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-associated-ipv6-pool-cidrs.html) di *Referensi AWS CLI Perintah*. 

### `get-aws-network-performance-data`
<a name="ec2_GetAwsNetworkPerformanceData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-aws-network-performance-data`.

**AWS CLI**  
**Untuk mendapatkan data kinerja jaringan**  
`get-aws-network-performance-data`Contoh berikut mengambil data tentang kinerja jaringan antara Wilayah tertentu dalam periode waktu yang ditentukan.  

```
aws ec2 get-aws-network-performance-data \
    --start-time 2022-10-26T12:00:00.000Z \
    --end-time 2022-10-26T12:30:00.000Z \
    --data-queries Id=my-query,Source=us-east-1,Destination=eu-west-1,Metric=aggregate-latency,Statistic=p50,Period=five-minutes
```
Output:  

```
{
    "DataResponses": [
        {
            "Id": "my-query",
            "Source": "us-east-1",
            "Destination": "eu-west-1",
            "Metric": "aggregate-latency",
            "Statistic": "p50",
            "Period": "five-minutes",
            "MetricPoints": [
                {
                    "StartDate": "2022-10-26T12:00:00+00:00",
                    "EndDate": "2022-10-26T12:05:00+00:00",
                    "Value": 62.44349,
                    "Status": "OK"
                },
                {
                    "StartDate": "2022-10-26T12:05:00+00:00",
                    "EndDate": "2022-10-26T12:10:00+00:00",
                    "Value": 62.483498,
                    "Status": "OK"
                },
                {
                    "StartDate": "2022-10-26T12:10:00+00:00",
                    "EndDate": "2022-10-26T12:15:00+00:00",
                    "Value": 62.51248,
                    "Status": "OK"
                },
                {
                    "StartDate": "2022-10-26T12:15:00+00:00",
                    "EndDate": "2022-10-26T12:20:00+00:00",
                    "Value": 62.635475,
                    "Status": "OK"
                },
                {
                    "StartDate": "2022-10-26T12:20:00+00:00",
                    "EndDate": "2022-10-26T12:25:00+00:00",
                    "Value": 62.733974,
                    "Status": "OK"
                },
                {
                    "StartDate": "2022-10-26T12:25:00+00:00",
                    "EndDate": "2022-10-26T12:30:00+00:00",
                    "Value": 62.773975,
                    "Status": "OK"
                },
                {
                    "StartDate": "2022-10-26T12:30:00+00:00",
                    "EndDate": "2022-10-26T12:35:00+00:00",
                    "Value": 62.75349,
                    "Status": "OK"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memantau kinerja jaringan](https://docs.aws.amazon.com/network-manager/latest/infrastructure-performance/nmip-performance-cli.html) di *Panduan Pengguna Kinerja Infrastruktur*.  
+  Untuk detail API, lihat [GetAwsNetworkPerformanceData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-aws-network-performance-data.html)di *Referensi AWS CLI Perintah*. 

### `get-capacity-reservation-usage`
<a name="ec2_GetCapacityReservationUsage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-capacity-reservation-usage`.

**AWS CLI**  
**Untuk melihat penggunaan reservasi kapasitas di seluruh AWS akun**  
`get-capacity-reservation-usage`Contoh berikut menampilkan informasi penggunaan untuk reservasi kapasitas yang ditentukan.  

```
aws ec2 get-capacity-reservation-usage \
    --capacity-reservation-id cr-1234abcd56EXAMPLE
```
Output:  

```
{
    "CapacityReservationId": "cr-1234abcd56EXAMPLE ",
    "InstanceUsages": [
        {
            "UsedInstanceCount": 1,
            "AccountId": "123456789012"
        }
    ],
    "AvailableInstanceCount": 4,
    "TotalInstanceCount": 5,
    "State": "active",
    "InstanceType": "t2.medium"
}
```
Untuk informasi selengkapnya, lihat [Reservasi Kapasitas Bersama](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservation-sharing.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [GetCapacityReservationUsage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-capacity-reservation-usage.html)di *Referensi AWS CLI Perintah*. 

### `get-coip-pool-usage`
<a name="ec2_GetCoipPoolUsage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-coip-pool-usage`.

**AWS CLI**  
**Untuk mendapatkan penggunaan kumpulan alamat IP milik pelanggan**  
`get-coip-pool-usage`Contoh berikut mendapatkan detail penggunaan untuk kumpulan alamat IP milik pelanggan yang ditentukan.  

```
aws ec2 get-coip-pool-usage \
    --pool-id ipv4pool-coip-123a45678bEXAMPLE
```
Output:  

```
{
    "CoipPoolId": "ipv4pool-coip-123a45678bEXAMPLE",
    "CoipAddressUsages": [
        {
            "CoIp": "0.0.0.0"
        },
        {
            "AllocationId": "eipalloc-123ab45c6dEXAMPLE",
            "AwsAccountId": "123456789012",
            "CoIp": "0.0.0.0"
        },
        {
            "AllocationId": "eipalloc-123ab45c6dEXAMPLE",
            "AwsAccountId": "123456789111",
            "CoIp": "0.0.0.0"
        }
    ],
    "LocalGatewayRouteTableId": "lgw-rtb-059615ef7dEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Alamat IP milik Pelanggan di Panduan Pengguna](https://docs.aws.amazon.com/outposts/latest/userguide/routing.html#ip-addressing) *Outposts untuk AWS rak Outposts*.  
+  Untuk detail API, lihat [GetCoipPoolUsage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-coip-pool-usage.html)di *Referensi AWS CLI Perintah*. 

### `get-console-output`
<a name="ec2_GetConsoleOutput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-console-output`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan output konsol**  
`get-console-output`Contoh berikut mendapatkan output konsol untuk instance Linux tertentu.  

```
aws ec2 get-console-output \
    --instance-id i-1234567890abcdef0
```
Output:  

```
{
    "InstanceId": "i-1234567890abcdef0",
    "Timestamp": "2013-07-25T21:23:53.000Z",
    "Output": "..."
}
```
Untuk informasi selengkapnya, lihat [Output konsol instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-console.html#instance-console-console-output) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk mendapatkan keluaran konsol terbaru**  
`get-console-output`Contoh berikut mendapatkan output konsol terbaru untuk instance Linux yang ditentukan.  

```
aws ec2 get-console-output \
    --instance-id i-1234567890abcdef0 \
    --latest \
    --output text
```
Output:  

```
i-1234567890abcdef0 [    0.000000] Command line: root=LABEL=/ console=tty1 console=ttyS0 selinux=0 nvme_core.io_timeout=4294967295
[    0.000000] x86/fpu: Supporting XSAVE feature 0x001: 'x87 floating point registers'
[    0.000000] x86/fpu: Supporting XSAVE feature 0x002: 'SSE registers'
[    0.000000] x86/fpu: Supporting XSAVE feature 0x004: 'AVX registers'
...
Cloud-init v. 0.7.6 finished at Wed, 09 May 2018 19:01:13 +0000. Datasource DataSourceEc2.  Up 21.50 seconds
Amazon Linux AMI release 2018.03
Kernel 4.14.26-46.32.amzn1.x
```
Untuk informasi selengkapnya, lihat [Output konsol instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-console.html#instance-console-console-output) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [GetConsoleOutput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-console-output.html)di *Referensi AWS CLI Perintah*. 

### `get-console-screenshot`
<a name="ec2_GetConsoleScreenshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-console-screenshot`.

**AWS CLI**  
**Untuk mengambil tangkapan layar dari instance yang sedang berjalan**  
`get-console-screenshot`Contoh berikut mengambil screenshot dari contoh yang ditentukan dalam format.jpg. Tangkapan layar dikembalikan sebagai string yang dikodekan Base64.  

```
aws ec2 get-console-screenshot \
    --instance-id i-1234567890abcdef0
```
Output:  

```
{
    "ImageData": "997987/8kgj49ikjhewkwwe0008084EXAMPLE",
    "InstanceId": "i-1234567890abcdef0"
}
```
+  Untuk detail API, lihat [GetConsoleScreenshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-console-screenshot.html)di *Referensi AWS CLI Perintah*. 

### `get-default-credit-specification`
<a name="ec2_GetDefaultCreditSpecification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-default-credit-specification`.

**AWS CLI**  
**Untuk menjelaskan opsi kredit default**  
`get-default-credit-specification`Contoh berikut menjelaskan opsi kredit default untuk instance T2.  

```
aws ec2 get-default-credit-specification \
    --instance-family t2
```
Output:  

```
{
    "InstanceFamilyCreditSpecification": {
        "InstanceFamily": "t2",
        "CpuCredits": "standard"
    }
}
```
+  Untuk detail API, lihat [GetDefaultCreditSpecification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-default-credit-specification.html)di *Referensi AWS CLI Perintah*. 

### `get-ebs-default-kms-key-id`
<a name="ec2_GetEbsDefaultKmsKeyId_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ebs-default-kms-key-id`.

**AWS CLI**  
**Untuk mendeskripsikan CMK default Anda untuk enkripsi EBS**  
`get-ebs-default-kms-key-id`Contoh berikut menjelaskan CMK default untuk enkripsi EBS untuk akun Anda AWS .  

```
aws ec2 get-ebs-default-kms-key-id
```
Output menunjukkan CMK default untuk enkripsi EBS, yang merupakan CMK AWS terkelola dengan alias. `alias/aws/ebs`  

```
{
    "KmsKeyId": "alias/aws/ebs"
}
```
Output berikut menunjukkan CMK kustom untuk enkripsi EBS.  

```
{
    "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/0ea3fef3-80a7-4778-9d8c-1c0c6EXAMPLE"
}
```
+  Untuk detail API, lihat [GetEbsDefaultKmsKeyId](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ebs-default-kms-key-id.html)di *Referensi AWS CLI Perintah*. 

### `get-ebs-encryption-by-default`
<a name="ec2_GetEbsEncryptionByDefault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ebs-encryption-by-default`.

**AWS CLI**  
**Untuk menjelaskan apakah enkripsi EBS secara default diaktifkan**  
`get-ebs-encryption-by-default`Contoh berikut menunjukkan apakah enkripsi EBS secara default diaktifkan untuk AWS akun Anda di Wilayah saat ini.  

```
aws ec2 get-ebs-encryption-by-default
```
Output berikut menunjukkan bahwa enkripsi EBS secara default dinonaktifkan.  

```
{
    "EbsEncryptionByDefault": false
}
```
Output berikut menunjukkan bahwa enkripsi EBS secara default diaktifkan.  

```
{
    "EbsEncryptionByDefault": true
}
```
+  Untuk detail API, lihat [GetEbsEncryptionByDefault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ebs-encryption-by-default.html)di *Referensi AWS CLI Perintah*. 

### `get-flow-logs-integration-template`
<a name="ec2_GetFlowLogsIntegrationTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-flow-logs-integration-template`.

**AWS CLI**  
**Untuk membuat CloudFormation template untuk mengotomatiskan integrasi log aliran VPC dengan Amazon Athena**  
`get-flow-logs-integration-template`Contoh berikut membuat CloudFormation template untuk mengotomatiskan integrasi log aliran VPC dengan Amazon Athena.  
Linux:  

```
aws ec2 get-flow-logs-integration-template \
    --flow-log-id fl-1234567890abcdef0 \
    --config-delivery-s3-destination-arn arn:aws:s3:::amzn-s3-demo-bucket \
    --integrate-services AthenaIntegrations='[{IntegrationResultS3DestinationArn=arn:aws:s3:::amzn-s3-demo-bucket,PartitionLoadFrequency=none,PartitionStartDate=2021-07-21T00:40:00,PartitionEndDate=2021-07-21T00:42:00},{IntegrationResultS3DestinationArn=arn:aws:s3:::amzn-s3-demo-bucket,PartitionLoadFrequency=none,PartitionStartDate=2021-07-21T00:40:00,PartitionEndDate=2021-07-21T00:42:00}]'
```
Windows:  

```
aws ec2 get-flow-logs-integration-template ^
    --flow-log-id fl-1234567890abcdef0 ^
    --config-delivery-s3-destination-arn arn:aws:s3:::amzn-s3-demo-bucket ^
    --integrate-services AthenaIntegrations=[{IntegrationResultS3DestinationArn=arn:aws:s3:::amzn-s3-demo-bucket,PartitionLoadFrequency=none,PartitionStartDate=2021-07-21T00:40:00,PartitionEndDate=2021-07-21T00:42:00},{IntegrationResultS3DestinationArn=arn:aws:s3:::amzn-s3-demo-bucket,PartitionLoadFrequency=none,PartitionStartDate=2021-07-21T00:40:00,PartitionEndDate=2021-07-21T00:42:00}]
```
Output:  

```
{
    "Result": "https://amzn-s3-demo-bucket.s3.us-east-2.amazonaws.com/VPCFlowLogsIntegrationTemplate_fl-1234567890abcdef0_Wed%20Jul%2021%2000%3A57%3A56%20UTC%202021.yml"
}
```
Untuk informasi tentang penggunaan CloudFormation templat, lihat [Bekerja dengan AWS CloudFormation templat](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/template-guide.html) di *Panduan AWS CloudFormation Pengguna*.  
Untuk informasi tentang penggunaan Amazon Athena dan log aliran, lihat [Log alur kueri menggunakan Amazon Athena di Panduan Pengguna Amazon](https://docs.aws.amazon.com/vpc/latest/userguide/flow-logs-athena.html) *Virtual Private Cloud*.  
+  Untuk detail API, lihat [GetFlowLogsIntegrationTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-flow-logs-integration-template.html)di *Referensi AWS CLI Perintah*. 

### `get-groups-for-capacity-reservation`
<a name="ec2_GetGroupsForCapacityReservation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-groups-for-capacity-reservation`.

**AWS CLI**  
**Untuk mencantumkan grup sumber daya dengan Reservasi Kapasitas**  
`get-groups-for-capacity-reservation`Contoh berikut mencantumkan grup sumber daya yang ditambahkan Reservasi Kapasitas yang ditentukan.  

```
aws ec2 get-groups-for-capacity-reservation \
    --capacity-reservation-id cr-1234abcd56EXAMPLE
```
Output:  

```
{
    "CapacityReservationsGroup": [
        {
            "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/my-resource-group",
            "OwnerId": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/create-cr-group.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [GetGroupsForCapacityReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-groups-for-capacity-reservation.html)di *Referensi AWS CLI Perintah*. 

### `get-host-reservation-purchase-preview`
<a name="ec2_GetHostReservationPurchasePreview_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-host-reservation-purchase-preview`.

**AWS CLI**  
**Untuk mendapatkan pratinjau pembelian untuk Reservasi Tuan Rumah Khusus**  
Contoh ini memberikan pratinjau biaya untuk Reservasi Host Khusus yang ditentukan untuk Host Khusus yang ditentukan di akun Anda.  
Perintah:  

```
aws ec2 get-host-reservation-purchase-preview --offering-id hro-03f707bf363b6b324 --host-id-set h-013abcd2a00cbd123
```
Output:  

```
{
  "TotalHourlyPrice": "1.499",
  "Purchase": [
      {
          "HourlyPrice": "1.499",
          "InstanceFamily": "m4",
          "PaymentOption": "NoUpfront",
          "HostIdSet": [
              "h-013abcd2a00cbd123"
          ],
          "UpfrontPrice": "0.000",
          "Duration": 31536000
      }
  ],
  "TotalUpfrontPrice": "0.000"
}
```
+  Untuk detail API, lihat [GetHostReservationPurchasePreview](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-host-reservation-purchase-preview.html)di *Referensi AWS CLI Perintah*. 

### `get-image-block-public-access-state`
<a name="ec2_GetImageBlockPublicAccessState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-image-block-public-access-state`.

**AWS CLI**  
**Untuk mendapatkan status akses publik blok untuk AMIs di Wilayah yang ditentukan**  
`get-image-block-public-access-state`Contoh berikut mendapatkan status akses publik blok untuk AMIs di tingkat akun di Wilayah tertentu.  

```
aws ec2 get-image-block-public-access-state \
    --region us-east-1
```
Output:  

```
{
    "ImageBlockPublicAccessState": "block-new-sharing"
}
```
Untuk informasi selengkapnya, lihat [Memblokir akses publik ke Anda AMIs](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/sharingamis-intro.html#block-public-access-to-amis) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [GetImageBlockPublicAccessState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-image-block-public-access-state.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-types-from-instance-requirements`
<a name="ec2_GetInstanceTypesFromInstanceRequirements_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-types-from-instance-requirements`.

**AWS CLI**  
**Untuk melihat pratinjau jenis instance yang cocok dengan atribut tertentu**  
`get-instance-types-from-instance-requirements`Contoh berikut pertama menghasilkan daftar semua atribut yang mungkin yang dapat ditentukan menggunakan `--generate-cli-skeleton` parameter, dan menyimpan daftar ke file JSON. Kemudian, file JSON digunakan untuk menyesuaikan atribut untuk melihat pratinjau jenis instance yang cocok.  
Untuk menghasilkan semua atribut yang mungkin dan menyimpan output langsung ke file JSON, gunakan perintah berikut.  

```
aws ec2 get-instance-types-from-instance-requirements \
    --region us-east-1 \
    --generate-cli-skeleton input > attributes.json
```
Output:  

```
{
    "DryRun": true,
    "ArchitectureTypes": [
        "x86_64_mac"
    ],
    "VirtualizationTypes": [
        "paravirtual"
    ],
    "InstanceRequirements": {
        "VCpuCount": {
            "Min": 0,
            "Max": 0
        },
        "MemoryMiB": {
            "Min": 0,
            "Max": 0
        },
        "CpuManufacturers": [
            "intel"
        ],
        "MemoryGiBPerVCpu": {
            "Min": 0.0,
            "Max": 0.0
        },
        "ExcludedInstanceTypes": [
            ""
        ],
        "InstanceGenerations": [
            "current"
        ],
        "SpotMaxPricePercentageOverLowestPrice": 0,
        "OnDemandMaxPricePercentageOverLowestPrice": 0,
        "BareMetal": "included",
        "BurstablePerformance": "excluded",
        "RequireHibernateSupport": true,
        "NetworkInterfaceCount": {
            "Min": 0,
            "Max": 0
        },
        "LocalStorage": "required",
        "LocalStorageTypes": [
            "hdd"
        ],
        "TotalLocalStorageGB": {
            "Min": 0.0,
            "Max": 0.0
        },
        "BaselineEbsBandwidthMbps": {
            "Min": 0,
            "Max": 0
        },
        "AcceleratorTypes": [
            "inference"
        ],
        "AcceleratorCount": {
            "Min": 0,
            "Max": 0
        },
        "AcceleratorManufacturers": [
            "xilinx"
        ],
        "AcceleratorNames": [
            "t4"
        ],
        "AcceleratorTotalMemoryMiB": {
            "Min": 0,
            "Max": 0
        }
    },
    "MaxResults": 0,
    "NextToken": ""
}
```
Konfigurasikan file JSON. Anda harus memberikan nilai untuk `ArchitectureTypes`, `VirtualizationTypes`, `VCpuCount`, dan `MemoryMiB`. Anda dapat menghilangkan atribut lainnya. Ketika dihilangkan, nilai default digunakan. Untuk deskripsi setiap atribut dan nilai defaultnya, lihat get-instance-types-from -instance-requirements < - -requirements.html>. https://docs.aws.amazon.com/cli/ latest/reference/ec2/get instance-types-from-instance  
Pratinjau jenis instance yang memiliki atribut yang ditentukan dalam`attributes.json`. Tentukan nama dan jalur ke file JSON Anda dengan menggunakan `--cli-input-json` parameter. Dalam permintaan berikut, output diformat sebagai tabel.  

```
aws ec2 get-instance-types-from-instance-requirements \
    --cli-input-json file://attributes.json \
    --output table
```
Isi `attributes.json` file:  

```
{

    "ArchitectureTypes": [
        "x86_64"
    ],
    "VirtualizationTypes": [
        "hvm"
    ],
    "InstanceRequirements": {
        "VCpuCount": {
            "Min": 4,
            "Max": 6
        },
        "MemoryMiB": {
            "Min": 2048
        },
        "InstanceGenerations": [
            "current"
        ]
    }
}
```
Output:  

```
------------------------------------------
|GetInstanceTypesFromInstanceRequirements|
+----------------------------------------+
||             InstanceTypes            ||
|+--------------------------------------+|
||             InstanceType             ||
|+--------------------------------------+|
||  c4.xlarge                           ||
||  c5.xlarge                           ||
||  c5a.xlarge                          ||
||  c5ad.xlarge                         ||
||  c5d.xlarge                          ||
||  c5n.xlarge                          ||
||  d2.xlarge                           ||
...
```
*Untuk informasi selengkapnya tentang pemilihan jenis instans berbasis atribut, lihat [Cara kerja pemilihan jenis instans berbasis atribut di Panduan Pengguna](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-fleet-attribute-based-instance-type-selection.html#ec2fleet-abs-how-it-works) Amazon EC2.*  
+  Untuk detail API, lihat [GetInstanceTypesFromInstanceRequirements](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-instance-types-from-instance-requirements.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-uefi-data`
<a name="ec2_GetInstanceUefiData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-uefi-data`.

**AWS CLI**  
**Untuk mengambil data UEFI dari sebuah instance**  
`get-instance-uefi-data`Contoh berikut mengambil data UEFI dari sebuah instance. Jika output kosong, instance tidak berisi data UEFI.  

```
aws ec2 get-instance-uefi-data \
    --instance-id i-0123456789example
```
Output:  

```
{
    "InstanceId": "i-0123456789example",
    "UefiData": "QU1aTlVFRkkf+uLXAAAAAHj5a7fZ9+3dBzxXb/.
    <snipped>
    AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAD4L/J/AODshho="
}
```
Untuk informasi selengkapnya, lihat [Boot Aman UEFI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/uefi-secure-boot.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [GetInstanceUefiData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-instance-uefi-data.html)di *Referensi AWS CLI Perintah*. 

### `get-ipam-address-history`
<a name="ec2_GetIpamAddressHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ipam-address-history`.

**AWS CLI**  
**Untuk mendapatkan sejarah CIDR**  
`get-ipam-address-history`Contoh berikut mendapatkan sejarah CIDR.  
(Linux):  

```
aws ec2 get-ipam-address-history \
   --cidr 10.0.0.0/16 \
   --ipam-scope-id ipam-scope-02fc38cd4c48e7d38 \
   --start-time 2021-12-08T01:00:00.000Z \
   --end-time 2021-12-10T01:00:00.000Z
```
(Windows):  

```
aws ec2 get-ipam-address-history ^
   --cidr 10.0.0.0/16 ^
   --ipam-scope-id ipam-scope-02fc38cd4c48e7d38 ^
   --start-time 2021-12-08T01:00:00.000Z ^
   --end-time 2021-12-10T01:00:00.000Z
```
Output:  

```
{
    "HistoryRecords": [
        {
            "ResourceOwnerId": "123456789012",
            "ResourceRegion": "us-west-1",
            "ResourceType": "vpc",
            "ResourceId": "vpc-06cbefa9ee907e1c0",
            "ResourceCidr": "10.0.0.0/16",
            "ResourceName": "Demo",
            "ResourceComplianceStatus": "unmanaged",
            "ResourceOverlapStatus": "overlapping",
            "VpcId": "vpc-06cbefa9ee907e1c0",
            "SampledStartTime": "2021-12-08T19:54:57.675000+00:00"
        },
        {
            "ResourceOwnerId": "123456789012",
            "ResourceRegion": "us-east-2",
            "ResourceType": "vpc",
            "ResourceId": "vpc-042702f474812c9ad",
            "ResourceCidr": "10.0.0.0/16",
            "ResourceName": "test",
            "ResourceComplianceStatus": "unmanaged",
            "ResourceOverlapStatus": "overlapping",
            "VpcId": "vpc-042702f474812c9ad",
            "SampledStartTime": "2021-12-08T19:54:59.019000+00:00"
        },
        {
            "ResourceOwnerId": "123456789012",
            "ResourceRegion": "us-east-2",
            "ResourceType": "vpc",
            "ResourceId": "vpc-042b8a44f64267d67",
            "ResourceCidr": "10.0.0.0/16",
            "ResourceName": "tester",
            "ResourceComplianceStatus": "unmanaged",
            "ResourceOverlapStatus": "overlapping",
            "VpcId": "vpc-042b8a44f64267d67",
            "SampledStartTime": "2021-12-08T19:54:59.019000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, [lihat Melihat riwayat alamat IP](https://docs.aws.amazon.com/vpc/latest/ipam/view-history-cidr-ipam.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [GetIpamAddressHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ipam-address-history.html)di *Referensi AWS CLI Perintah*. 

### `get-ipam-discovered-accounts`
<a name="ec2_GetIpamDiscoveredAccounts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ipam-discovered-accounts`.

**AWS CLI**  
**Untuk melihat akun yang ditemukan oleh IPAM**  
Dalam skenario ini, Anda adalah admin yang didelegasikan IPAM yang ingin melihat AWS akun yang memiliki sumber daya yang ditemukan IPAM.  
`--discovery-region`Ini adalah Wilayah operasi IPAM tempat Anda ingin melihat status akun yang dipantau. Misalnya, jika Anda memiliki tiga Wilayah operasi IPAM, Anda mungkin ingin membuat permintaan ini tiga kali untuk melihat stempel waktu khusus untuk penemuan di masing-masing Wilayah tertentu.  
`get-ipam-discovered-accounts`Contoh berikut mencantumkan AWS akun yang memiliki sumber daya yang ditemukan IPAM.  

```
aws ec2 get-ipam-discovered-accounts \
   --ipam-resource-discovery-id ipam-res-disco-0365d2977fc1672fe \
   --discovery-region us-east-1
```
Output:  

```
{
    "IpamDiscoveredAccounts": [
        {
            "AccountId": "149977607591",
            "DiscoveryRegion": "us-east-1",
            "LastAttemptedDiscoveryTime": "2024-02-09T19:04:31.379000+00:00",
            "LastSuccessfulDiscoveryTime": "2024-02-09T19:04:31.379000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengintegrasikan IPAM dengan akun di luar organisasi Anda](https://docs.aws.amazon.com/vpc/latest/ipam/enable-integ-ipam-outside-org.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [GetIpamDiscoveredAccounts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ipam-discovered-accounts.html)di *Referensi AWS CLI Perintah*. 

### `get-ipam-discovered-public-addresses`
<a name="ec2_GetIpamDiscoveredPublicAddresses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ipam-discovered-public-addresses`.

**AWS CLI**  
**Untuk melihat alamat IP publik yang ditemukan**  
Dalam contoh ini, Anda adalah admin yang didelegasikan IPAM dan Anda ingin melihat alamat IP sumber daya yang ditemukan oleh IPAM. Anda bisa mendapatkan ID penemuan sumber daya dengan [describe-ipam-resource-discoveries](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-ipam-resource-discoveries.html).  
`get-ipam-discovered-public-addresses`Contoh berikut menunjukkan alamat IP publik yang ditemukan untuk penemuan sumber daya.  

```
aws ec2 get-ipam-discovered-public-addresses \
    --ipam-resource-discovery-id ipam-res-disco-0f4ef577a9f37a162 \
    --address-region us-east-1 \
    --region us-east-1
```
Output:  

```
{
    "IpamDiscoveredPublicAddresses": [
        {
           "IpamResourceDiscoveryId": "ipam-res-disco-0f4ef577a9f37a162",
            "AddressRegion": "us-east-1",
            "Address": "54.208.155.7",
            "AddressOwnerId": "320805250157",
            "AssociationStatus": "associated",
            "AddressType": "ec2-public-ip",
            "VpcId": "vpc-073b294916198ce49",
            "SubnetId": "subnet-0b6c8a8839e9a4f15",
            "NetworkInterfaceId": "eni-081c446b5284a5e06",
            "NetworkInterfaceDescription": "",
            "InstanceId": "i-07459a6fca5b35823",
            "Tags": {},
            "NetworkBorderGroup": "us-east-1c",
            "SecurityGroups": [
                {
                    "GroupName": "launch-wizard-2",
                    "GroupId": "sg-0a489dd6a65c244ce"
                }
            ],
            "SampleTime": "2024-04-05T15:13:59.228000+00:00"
        },
        {
            "IpamResourceDiscoveryId": "ipam-res-disco-0f4ef577a9f37a162",
            "AddressRegion": "us-east-1",
            "Address": "44.201.251.218",
            "AddressOwnerId": "470889052923",
            "AssociationStatus": "associated",
            "AddressType": "ec2-public-ip",
            "VpcId": "vpc-6c31a611",
            "SubnetId": "subnet-062f47608b99834b1",
            "NetworkInterfaceId": "eni-024845359c2c3ae9b",
            "NetworkInterfaceDescription": "",
            "InstanceId": "i-04ef786d9c4e03f41",
            "Tags": {},
            "NetworkBorderGroup": "us-east-1a",
            "SecurityGroups": [
                {
                    "GroupName": "launch-wizard-32",
                    "GroupId": "sg-0ed1a426e96a68374"
                }
            ],
            "SampleTime": "2024-04-05T15:13:59.145000+00:00"
        }
}
```
Untuk informasi selengkapnya, [lihat Melihat wawasan IP publik](https://docs.aws.amazon.com/vpc/latest/ipam/view-public-ip-insights.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [GetIpamDiscoveredPublicAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ipam-discovered-public-addresses.html)di *Referensi AWS CLI Perintah*. 

### `get-ipam-discovered-resource-cidrs`
<a name="ec2_GetIpamDiscoveredResourceCidrs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ipam-discovered-resource-cidrs`.

**AWS CLI**  
**Untuk melihat alamat IP yang CIDRs ditemukan oleh IPAM**  
Dalam contoh ini, Anda adalah admin yang didelegasikan IPAM yang ingin melihat detail yang terkait dengan alamat IP CIDRs untuk sumber daya yang ditemukan IPAM.  
Untuk melengkapi permintaan ini:  
Penemuan sumber daya yang Anda pilih harus dikaitkan dengan IPAM. `--resource-region` Adalah AWS Wilayah tempat sumber daya dibuat.  
`get-ipam-discovered-resource-cidrs`Contoh berikut mencantumkan alamat IP untuk sumber daya yang ditemukan IPAM.  

```
aws ec2 get-ipam-discovered-resource-cidrs \
   --ipam-resource-discovery-id ipam-res-disco-0365d2977fc1672fe \
   --resource-region us-east-1
```
Output:  

```
{
    {
        "IpamDiscoveredResourceCidrs": [
        {
            "IpamResourceDiscoveryId": "ipam-res-disco-0365d2977fc1672fe",
            "ResourceRegion": "us-east-1",
            "ResourceId": "vpc-0c974c95ca7ceef4a",
            "ResourceOwnerId": "149977607591",
            "ResourceCidr": "172.31.0.0/16",
            "ResourceType": "vpc",
            "ResourceTags": [],
            "IpUsage": 0.375,
            "VpcId": "vpc-0c974c95ca7ceef4a",
            "SampleTime": "2024-02-09T19:15:16.529000+00:00"
        },
        {
            "IpamResourceDiscoveryId": "ipam-res-disco-0365d2977fc1672fe",
            "ResourceRegion": "us-east-1",
            "ResourceId": "subnet-07fe028119082a8c1",
            "ResourceOwnerId": "149977607591",
            "ResourceCidr": "172.31.0.0/20",
            "ResourceType": "subnet",
            "ResourceTags": [],
            "IpUsage": 0.0012,
            "VpcId": "vpc-0c974c95ca7ceef4a",
            "SampleTime": "2024-02-09T19:15:16.529000+00:00"
        },
        {
            "IpamResourceDiscoveryId": "ipam-res-disco-0365d2977fc1672fe",
            "ResourceRegion": "us-east-1",
            "ResourceId": "subnet-0a96893763984cc4e",
            "ResourceOwnerId": "149977607591",
            "ResourceCidr": "172.31.64.0/20",
            "ResourceType": "subnet",
            "ResourceTags": [],
            "IpUsage": 0.0012,
            "VpcId": "vpc-0c974c95ca7ceef4a",
            "SampleTime": "2024-02-09T19:15:16.529000+00:00"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memantau penggunaan CIDR berdasarkan sumber daya](https://docs.aws.amazon.com/vpc/latest/ipam/monitor-cidr-compliance-ipam.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [GetIpamDiscoveredResourceCidrs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ipam-discovered-resource-cidrs.html)di *Referensi AWS CLI Perintah*. 

### `get-ipam-pool-allocations`
<a name="ec2_GetIpamPoolAllocations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ipam-pool-allocations`.

**AWS CLI**  
**Untuk mendapatkan CIDRs alokasi dari kolam IPAM**  
`get-ipam-pool-allocations`Contoh berikut mendapatkan CIDRs dialokasikan dari kolam IPAM.  
(Linux):  

```
aws ec2 get-ipam-pool-allocations \
    --ipam-pool-id ipam-pool-0533048da7d823723 \
    --filters Name=ipam-pool-allocation-id,Values=ipam-pool-alloc-0e6186d73999e47389266a5d6991e6220
```
(Windows):  

```
aws ec2 get-ipam-pool-allocations ^
    --ipam-pool-id ipam-pool-0533048da7d823723 ^
    --filters Name=ipam-pool-allocation-id,Values=ipam-pool-alloc-0e6186d73999e47389266a5d6991e6220
```
Output:  

```
{
    "IpamPoolAllocations": [
        {
            "Cidr": "10.0.0.0/16",
            "IpamPoolAllocationId": "ipam-pool-alloc-0e6186d73999e47389266a5d6991e6220",
            "ResourceType": "custom",
            "ResourceOwner": "123456789012"
        }
    ]
}
```
+  Untuk detail API, lihat [GetIpamPoolAllocations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ipam-pool-allocations.html)di *Referensi AWS CLI Perintah*. 

### `get-ipam-pool-cidrs`
<a name="ec2_GetIpamPoolCidrs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ipam-pool-cidrs`.

**AWS CLI**  
**Untuk mendapatkan yang CIDRs disediakan ke kolam IPAM**  
`get-ipam-pool-cidrs`Contoh berikut mendapatkan CIDRs disediakan ke kolam IPAM.  
(Linux):  

```
aws ec2 get-ipam-pool-cidrs \
    --ipam-pool-id ipam-pool-0533048da7d823723 \
    --filters 'Name=cidr,Values=10.*'
```
(Windows):  

```
aws ec2 get-ipam-pool-cidrs ^
    --ipam-pool-id ipam-pool-0533048da7d823723 ^
    --filters Name=cidr,Values=10.*
```
Output:  

```
{
    "IpamPoolCidr": {
        "Cidr": "10.0.0.0/24",
        "State": "provisioned"
    }
}
```
+  Untuk detail API, lihat [GetIpamPoolCidrs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ipam-pool-cidrs.html)di *Referensi AWS CLI Perintah*. 

### `get-ipam-resource-cidrs`
<a name="ec2_GetIpamResourceCidrs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ipam-resource-cidrs`.

**AWS CLI**  
**Untuk mendapatkan CIDRs dialokasikan ke sumber daya**  
`get-ipam-resource-cidrs`Contoh berikut akan CIDRs dialokasikan ke sumber daya.  
(Linux):  

```
aws ec2 get-ipam-resource-cidrs \
    --ipam-scope-id ipam-scope-02fc38cd4c48e7d38 \
    --filters Name=management-state,Values=unmanaged
```
(Windows):  

```
aws ec2 get-ipam-resource-cidrs ^
    --ipam-scope-id ipam-scope-02fc38cd4c48e7d38 ^
    --filters Name=management-state,Values=unmanaged
```
Output:  

```
{
    "IpamResourceCidrs": [
        {
            "IpamId": "ipam-08440e7a3acde3908",
            "IpamScopeId": "ipam-scope-02fc38cd4c48e7d38",
            "ResourceRegion": "us-east-2",
            "ResourceOwnerId": "123456789012",
            "ResourceId": "vpc-621b8709",
            "ResourceName": "Default AWS VPC",
            "ResourceCidr": "172.33.0.0/16",
            "ResourceType": "vpc",
            "ResourceTags": [
                {
                    "Key": "Environment",
                    "Value": "Test"
                },
                {
                    "Key": "Name",
                    "Value": "Default AWS VPC"
                }
            ],
            "IpUsage": 0.0039,
            "ComplianceStatus": "unmanaged",
            "ManagementState": "unmanaged",
            "OverlapStatus": "nonoverlapping",
            "VpcId": "vpc-621b8709"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memantau penggunaan CIDR berdasarkan sumber daya](https://docs.aws.amazon.com/vpc/latest/ipam/monitor-cidr-compliance-ipam.html) di Panduan Pengguna *Amazon VPC IPAM*.  
+  Untuk detail API, lihat [GetIpamResourceCidrs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-ipam-resource-cidrs.html)di *Referensi AWS CLI Perintah*. 

### `get-launch-template-data`
<a name="ec2_GetLaunchTemplateData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-launch-template-data`.

**AWS CLI**  
**Untuk mendapatkan data instance untuk template peluncuran**  
Contoh ini mendapatkan data tentang instance yang ditentukan dan menggunakan `--query` opsi untuk mengembalikan konten`LaunchTemplateData`. Anda dapat menggunakan output sebagai basis untuk membuat templat peluncuran baru atau versi templat peluncuran.  
Perintah:  

```
aws ec2 get-launch-template-data --instance-id i-0123d646e8048babc --query 'LaunchTemplateData'
```
Output:  

```
{
      "Monitoring": {},
      "ImageId": "ami-8c1be5f6",
      "BlockDeviceMappings": [
          {
              "DeviceName": "/dev/xvda",
              "Ebs": {
                  "DeleteOnTermination": true
              }
          }
      ],
      "EbsOptimized": false,
      "Placement": {
          "Tenancy": "default",
          "GroupName": "",
          "AvailabilityZone": "us-east-1a"
      },
      "InstanceType": "t2.micro",
      "NetworkInterfaces": [
          {
              "Description": "",
              "NetworkInterfaceId": "eni-35306abc",
              "PrivateIpAddresses": [
                  {
                      "Primary": true,
                      "PrivateIpAddress": "10.0.0.72"
                  }
              ],
              "SubnetId": "subnet-7b16de0c",
              "Groups": [
                  "sg-7c227019"
              ],
              "Ipv6Addresses": [
                  {
                      "Ipv6Address": "2001:db8:1234:1a00::123"
                  }
              ],
              "PrivateIpAddress": "10.0.0.72"
          }
      ]
}
```
+  Untuk detail API, lihat [GetLaunchTemplateData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-launch-template-data.html)di *Referensi AWS CLI Perintah*. 

### `get-managed-prefix-list-associations`
<a name="ec2_GetManagedPrefixListAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-managed-prefix-list-associations`.

**AWS CLI**  
**Untuk mendapatkan asosiasi daftar awalan**  
`get-managed-prefix-list-associations`Contoh berikut mendapatkan sumber daya yang terkait dengan daftar awalan yang ditentukan.  

```
aws ec2 get-managed-prefix-list-associations \
    --prefix-list-id pl-0123456abcabcabc1
```
Output:  

```
{
    "PrefixListAssociations": [
        {
            "ResourceId": "sg-0abc123456abc12345",
            "ResourceOwner": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar awalan terkelola](https://docs.aws.amazon.com/vpc/latest/userguide/managed-prefix-lists.html) di Panduan *Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [GetManagedPrefixListAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-managed-prefix-list-associations.html)di *Referensi AWS CLI Perintah*. 

### `get-managed-prefix-list-entries`
<a name="ec2_GetManagedPrefixListEntries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-managed-prefix-list-entries`.

**AWS CLI**  
**Untuk mendapatkan entri untuk daftar awalan**  
Berikut ini `get-managed-prefix-list-entries` mendapatkan entri untuk daftar awalan yang ditentukan.  

```
aws ec2 get-managed-prefix-list-entries \
    --prefix-list-id pl-0123456abcabcabc1
```
Output:  

```
{
    "Entries": [
        {
            "Cidr": "10.0.0.0/16",
            "Description": "vpc-a"
        },
        {
            "Cidr": "10.2.0.0/16",
            "Description": "vpc-b"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar awalan terkelola](https://docs.aws.amazon.com/vpc/latest/userguide/managed-prefix-lists.html) di Panduan *Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [GetManagedPrefixListEntries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-managed-prefix-list-entries.html)di *Referensi AWS CLI Perintah*. 

### `get-network-insights-access-scope-analysis-findings`
<a name="ec2_GetNetworkInsightsAccessScopeAnalysisFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-network-insights-access-scope-analysis-findings`.

**AWS CLI**  
**Untuk mendapatkan temuan analisis cakupan akses Network Insights**  
`get-network-insights-access-scope-analysis-findings`Contoh berikut mendapatkan temuan analisis lingkup yang dipilih di AWS akun Anda.  

```
aws ec2 get-network-insights-access-scope-analysis-findings \
    --region us-east-1 \
    --network-insights-access-scope-analysis-id nis \
    --nis-123456789111
```
Output:  

```
{
    "NetworkInsightsAccessScopeAnalysisId": "nisa-123456789222",
    "AnalysisFindings": [
        {
            "NetworkInsightsAccessScopeAnalysisId": "nisa-123456789222",
            "NetworkInsightsAccessScopeId": "nis-123456789111",
            "FindingComponents": [
                {
                    "SequenceNumber": 1,
                    "Component": {
                        "Id": "eni-02e3d42d5cceca67d",
                        "Arn": "arn:aws:ec2:us-east-1:936459623503:network-interface/eni-02e3d32d9cceca17d"
                    },
                    "OutboundHeader": {
                        "DestinationAddresses": [
                            "0.0.0.0/5",
                            "11.0.0.0/8",
                            "12.0.0.0/6",
                            "128.0.0.0/3",
                            "16.0.0.0/4",
                            "160.0.0.0/5",
                            "168.0.0.0/6",
                            "172.0.0.0/12"
                            "8.0.0.0/7"
                        ],
                        "DestinationPortRanges": [
                            {
                                "From": 0,
                                "To": 65535
                            }
                        ],
                        "Protocol": "6",
                        "SourceAddresses": [
                            "10.0.2.253/32"
                        ],
                        "SourcePortRanges": [
                            {
                                "From": 0,
                                "To": 65535
                            }
                        ]
                    }, [etc]
                ]
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [GetNetworkInsightsAccessScopeAnalysisFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-network-insights-access-scope-analysis-findings.html)di *Referensi AWS CLI Perintah*. 

### `get-network-insights-access-scope-content`
<a name="ec2_GetNetworkInsightsAccessScopeContent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-network-insights-access-scope-content`.

**AWS CLI**  
**Untuk mendapatkan konten cakupan akses Network Insights**  
`get-network-insights-access-scope-content`Contoh berikut mendapatkan konten ID analisis lingkup yang dipilih di AWS akun Anda.  

```
aws ec2 get-network-insights-access-scope-content \
    --region us-east-1 \
    --network-insights-access-scope-id nis-123456789222
```
Output:  

```
{
    "NetworkInsightsAccessScopeContent": {
        "NetworkInsightsAccessScopeId": "nis-123456789222",
        "MatchPaths": [
            {
                "Source": {
                    "ResourceStatement": {
                        "ResourceTypes": [
                            "AWS::EC2::NetworkInterface"
                        ]
                    }
                },
                "Destination": {
                    "ResourceStatement": {
                        "ResourceTypes": [
                            "AWS::EC2::InternetGateway"
                        ]
                    }
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [GetNetworkInsightsAccessScopeContent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-network-insights-access-scope-content.html)di *Referensi AWS CLI Perintah*. 

### `get-password-data`
<a name="ec2_GetPasswordData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-password-data`.

**AWS CLI**  
**Untuk mendapatkan kata sandi terenkripsi**  
Contoh ini mendapatkan kata sandi terenkripsi.  
Perintah:  

```
aws ec2 get-password-data --instance-id i-1234567890abcdef0
```
Output:  

```
{
    "InstanceId": "i-1234567890abcdef0",
    "Timestamp": "2013-08-07T22:18:38.000Z",
    "PasswordData": "gSlJFq+VpcZXqy+iktxMF6NyxQ4qCrT4+gaOuNOenX1MmgXPTj7XEXAMPLE
UQ+YeFfb+L1U4C4AKv652Ux1iRB3CPTYP7WmU3TUnhsuBd+p6LVk7T2lKUml6OXbk6WPW1VYYm/TRPB1
e1DQ7PY4an/DgZT4mwcpRFigzhniQgDDeO1InvSDcwoUTwNs0Y1S8ouri2W4n5GNlriM3Q0AnNVelVz/
53TkDtxbNoU606M1gK9zUWSxqEgwvbV2j8c5rP0WCuaMWSFl4ziDu4bd7q+4RSyi8NUsVWnKZ4aEZffu
DPGzKrF5yLlf3etP2L4ZR6CvG7K1hx7VKOQVN32Dajw=="
}
```
**Untuk mendapatkan kata sandi yang didekripsi**  
Contoh ini mendapatkan kata sandi yang didekripsi.  
Perintah:  

```
aws ec2 get-password-data --instance-id  i-1234567890abcdef0 --priv-launch-key C:\Keys\MyKeyPair.pem
```
Output:  

```
{
    "InstanceId": "i-1234567890abcdef0",
    "Timestamp": "2013-08-30T23:18:05.000Z",
    "PasswordData": "&ViJ652e*u"
}
```
+  Untuk detail API, lihat [GetPasswordData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-password-data.html)di *Referensi AWS CLI Perintah*. 

### `get-reserved-instances-exchange-quote`
<a name="ec2_GetReservedInstancesExchangeQuote_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reserved-instances-exchange-quote`.

**AWS CLI**  
**Untuk mendapatkan penawaran untuk menukar Instans Cadangan Konvertibel**  
Contoh ini mendapatkan informasi pertukaran untuk Instans Cadangan Konvertibel yang ditentukan.  
Perintah:  

```
aws ec2 get-reserved-instances-exchange-quote --reserved-instance-ids 7b8750c3-397e-4da4-bbcb-a45ebexample --target-configurations OfferingId=6fea5434-b379-434c-b07b-a7abexample
```
Output:  

```
{
  "CurrencyCode": "USD",
  "ReservedInstanceValueSet": [
      {
          "ReservedInstanceId": "7b8750c3-397e-4da4-bbcb-a45ebexample",
          "ReservationValue": {
              "RemainingUpfrontValue": "0.000000",
              "HourlyPrice": "0.027800",
              "RemainingTotalValue": "730.556200"
          }
      }
  ],
  "PaymentDue": "424.983828",
  "TargetConfigurationValueSet": [
      {
          "TargetConfiguration": {
              "InstanceCount": 5,
              "OfferingId": "6fea5434-b379-434c-b07b-a7abexample"
          },
          "ReservationValue": {
              "RemainingUpfrontValue": "424.983828",
              "HourlyPrice": "0.016000",
              "RemainingTotalValue": "845.447828"
          }
      }
  ],
  "IsValidExchange": true,
  "OutputReservedInstancesWillExpireAt": "2020-10-01T13:03:39Z",
  "ReservedInstanceValueRollup": {
      "RemainingUpfrontValue": "0.000000",
      "HourlyPrice": "0.027800",
      "RemainingTotalValue": "730.556200"
  },
  "TargetConfigurationValueRollup": {
      "RemainingUpfrontValue": "424.983828",
      "HourlyPrice": "0.016000",
      "RemainingTotalValue": "845.447828"
  }
}
```
+  Untuk detail API, lihat [GetReservedInstancesExchangeQuote](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-reserved-instances-exchange-quote.html)di *Referensi AWS CLI Perintah*. 

### `get-security-groups-for-vpc`
<a name="ec2_GetSecurityGroupsForVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-security-groups-for-vpc`.

**AWS CLI**  
**Untuk melihat grup keamanan yang dapat dikaitkan dengan antarmuka jaringan dalam VPC tertentu.**  
`get-security-groups-for-vpc`Contoh berikut menunjukkan grup keamanan yang dapat dikaitkan dengan antarmuka jaringan di VPC.  

```
aws ec2 get-security-groups-for-vpc \
    --vpc-id vpc-6c31a611 \
    --region us-east-1
```
Output:  

```
{
    "SecurityGroupForVpcs": [
        {
            "Description": "launch-wizard-36 created 2022-08-29T15:59:35.338Z",
            "GroupName": "launch-wizard-36",
            "OwnerId": "470889052923",
            "GroupId": "sg-007e0c3027ee885f5",
            "Tags": [],
            "PrimaryVpcId": "vpc-6c31a611"
        },
        {
            "Description": "launch-wizard-18 created 2024-01-19T20:22:27.527Z",
            "GroupName": "launch-wizard-18",
            "OwnerId": "470889052923",
            "GroupId": "sg-0147193bef51c9eef",
            "Tags": [],
            "PrimaryVpcId": "vpc-6c31a611"
        }
}
```
+  Untuk detail API, lihat [GetSecurityGroupsForVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-security-groups-for-vpc.html)di *Referensi AWS CLI Perintah*. 

### `get-serial-console-access-status`
<a name="ec2_GetSerialConsoleAccessStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-serial-console-access-status`.

**AWS CLI**  
**Untuk melihat status akses akun ke konsol serial**  
`get-serial-console-access-status`Contoh berikut menentukan apakah akses konsol serial diaktifkan untuk akun Anda.  

```
aws ec2 get-serial-console-access-status
```
Output:  

```
{
    "SerialConsoleAccessEnabled": true
}
```
Untuk informasi selengkapnya, lihat [Konsol Serial EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-serial-console.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [GetSerialConsoleAccessStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-serial-console-access-status.html)di *Referensi AWS CLI Perintah*. 

### `get-snapshot-block-public-access-state`
<a name="ec2_GetSnapshotBlockPublicAccessState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-snapshot-block-public-access-state`.

**AWS CLI**  
**Untuk mendapatkan status blok akses publik saat ini untuk snapshot**  
`get-snapshot-block-public-access-state`Contoh berikut mendapatkan status blok akses publik saat ini untuk snapshot.  

```
aws ec2 get-snapshot-block-public-access-state
```
Output:  

```
{
    "State": "block-all-sharing"
}
```
Untuk informasi selengkapnya, lihat [Memblokir akses publik untuk snapshot](https://docs.aws.amazon.com/ebs/latest/userguide/block-public-access-snapshots.html) di *Panduan Pengguna Amazon EBS*.  
+  Untuk detail API, lihat [GetSnapshotBlockPublicAccessState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-snapshot-block-public-access-state.html)di *Referensi AWS CLI Perintah*. 

### `get-spot-placement-scores`
<a name="ec2_GetSpotPlacementScores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-spot-placement-scores`.

**AWS CLI**  
**Untuk menghitung skor penempatan Spot untuk persyaratan yang ditentukan**  
`get-spot-placement-scores`Contoh berikut pertama menghasilkan daftar semua parameter yang mungkin yang dapat ditentukan untuk konfigurasi skor penempatan Spot menggunakan `--generate-cli-skeleton` parameter, dan menyimpan daftar ke file JSON. Kemudian, file JSON digunakan untuk mengonfigurasi persyaratan yang akan digunakan untuk menghitung skor penempatan Spot.  
Untuk menghasilkan semua parameter yang mungkin yang dapat ditentukan untuk konfigurasi skor penempatan Spot, dan menyimpan output langsung ke file JSON.  

```
aws ec2 get-spot-placement-scores \
    --region us-east-1 \
    --generate-cli-skeleton input > attributes.json
```
Output:  

```
{
    "InstanceTypes": [
        ""
    ],
    "TargetCapacity": 0,
    "TargetCapacityUnitType": "vcpu",
    "SingleAvailabilityZone": true,
    "RegionNames": [
        ""
    ],
    "InstanceRequirementsWithMetadata": {
        "ArchitectureTypes": [
            "x86_64_mac"
        ],
        "VirtualizationTypes": [
            "hvm"
        ],
        "InstanceRequirements": {
            "VCpuCount": {
                "Min": 0,
                "Max": 0
            },
            "MemoryMiB": {
                "Min": 0,
                "Max": 0
            },
            "CpuManufacturers": [
                "amd"
            ],
            "MemoryGiBPerVCpu": {
                "Min": 0.0,
                "Max": 0.0
            },
            "ExcludedInstanceTypes": [
                ""
            ],
            "InstanceGenerations": [
                "previous"
            ],
            "SpotMaxPricePercentageOverLowestPrice": 0,
            "OnDemandMaxPricePercentageOverLowestPrice": 0,
            "BareMetal": "excluded",
            "BurstablePerformance": "excluded",
            "RequireHibernateSupport": true,
            "NetworkInterfaceCount": {
                "Min": 0,
                "Max": 0
            },
            "LocalStorage": "included",
            "LocalStorageTypes": [
                "hdd"
            ],
            "TotalLocalStorageGB": {
                "Min": 0.0,
                "Max": 0.0
            },
            "BaselineEbsBandwidthMbps": {
                "Min": 0,
                "Max": 0
            },
            "AcceleratorTypes": [
                "fpga"
            ],
            "AcceleratorCount": {
                "Min": 0,
                "Max": 0
            },
            "AcceleratorManufacturers": [
                "amd"
            ],
            "AcceleratorNames": [
                "vu9p"
            ],
            "AcceleratorTotalMemoryMiB": {
                "Min": 0,
                "Max": 0
            }
        }
    },
    "DryRun": true,
    "MaxResults": 0,
    "NextToken": ""
}
```
Konfigurasikan file JSON. Anda harus memberikan nilai untuk`TargetCapacity`. Untuk deskripsi setiap parameter dan nilai defaultnya, lihat Menghitung skor penempatan Spot (AWS CLI) <https://docs.aws.amazon.com/AWS latest/UserGuide/spotEC2/ -placement-score.html\$1 >. calculate-sps-cli  
Hitung skor penempatan Spot untuk persyaratan yang ditentukan dalam`attributes.json`. Tentukan nama dan jalur ke file JSON Anda dengan menggunakan `--cli-input-json` parameter.  

```
aws ec2 get-spot-placement-scores \
    --region us-east-1 \
    --cli-input-json file://attributes.json
```
Output jika `SingleAvailabilityZone` disetel ke `false` atau dihilangkan (jika dihilangkan, defaultnya). `false` Daftar Wilayah yang dinilai dikembalikan.  

```
"Recommendation": [
    {
        "Region": "us-east-1",
        "Score": 7
    },
    {
        "Region": "us-west-1",
        "Score": 5
    },
   ...
```
Output `SingleAvailabilityZone` jika diatur ke`true`. Daftar SingleAvailability Zona yang dicetak dikembalikan.  

```
"Recommendation": [
    {
        "Region": "us-east-1",
        "AvailabilityZoneId": "use1-az1"
        "Score": 8
    },
    {
        "Region": "us-east-1",
        "AvailabilityZoneId": "usw2-az3"
        "Score": 6
    },
   ...
```
Untuk informasi selengkapnya tentang menghitung skor penempatan Spot, dan misalnya konfigurasi, lihat [Menghitung skor penempatan Spot](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/spot-placement-score.html#work-with-spot-placement-score) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [GetSpotPlacementScores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-spot-placement-scores.html)di *Referensi AWS CLI Perintah*. 

### `get-subnet-cidr-reservations`
<a name="ec2_GetSubnetCidrReservations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-subnet-cidr-reservations`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang reservasi CIDR subnet**  
`get-subnet-cidr-reservations`Contoh berikut menampilkan informasi tentang reservasi CIDR subnet yang ditentukan.  

```
aws ec2 get-subnet-cidr-reservations \
    --subnet-id subnet-03c51e2e6cEXAMPLE
```
Output:  

```
{
    "SubnetIpv4CidrReservations": [
        {
            "SubnetCidrReservationId": "scr-044f977c4eEXAMPLE",
            "SubnetId": "subnet-03c51e2e6cEXAMPLE",
            "Cidr": "10.1.0.16/28",
            "ReservationType": "prefix",
            "OwnerId": "123456789012"
        }
    ],
    "SubnetIpv6CidrReservations": []
}
```
Untuk informasi selengkapnya, lihat [Reservasi CIDR Subnet](https://docs.aws.amazon.com/vpc/latest/userguide/subnet-cidr-reservation.html) di Panduan Pengguna Amazon *VPC*.  
+  Untuk detail API, lihat [GetSubnetCidrReservations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-subnet-cidr-reservations.html)di *Referensi AWS CLI Perintah*. 

### `get-transit-gateway-attachment-propagations`
<a name="ec2_GetTransitGatewayAttachmentPropagations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-transit-gateway-attachment-propagations`.

**AWS CLI**  
**Untuk membuat daftar tabel rute tempat lampiran sumber daya yang ditentukan menyebarkan rute**  
`get-transit-gateway-attachment-propagations`Contoh berikut mencantumkan tabel rute tempat lampiran sumber daya tertentu menyebarkan rute.  

```
aws ec2 get-transit-gateway-attachment-propagations \
    --transit-gateway-attachment-id tgw-attach-09fbd47ddfEXAMPLE
```
Output:  

```
{
    "TransitGatewayAttachmentPropagations": [
        {
            "TransitGatewayRouteTableId": "tgw-rtb-0882c61b97EXAMPLE",
            "State": "enabled"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [GetTransitGatewayAttachmentPropagations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-transit-gateway-attachment-propagations.html)di *Referensi AWS CLI Perintah*. 

### `get-transit-gateway-multicast-domain-associations`
<a name="ec2_GetTransitGatewayMulticastDomainAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-transit-gateway-multicast-domain-associations`.

**AWS CLI**  
**Untuk melihat informasi tentang asosiasi domain multicast gateway transit**  
`get-transit-gateway-multicast-domain-associations`Contoh berikut mengembalikan asosiasi untuk domain multicast tertentu.  

```
aws ec2 get-transit-gateway-multicast-domain-associations \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef7EXAMPLE
```
Output:  

```
{
    "MulticastDomainAssociations": [
        {
            "TransitGatewayAttachmentId": "tgw-attach-028c1dd0f8EXAMPLE",
            "ResourceId": "vpc-01128d2c24EXAMPLE",
            "ResourceType": "vpc",
            "Subnet": {
                "SubnetId": "subnet-000de86e3bEXAMPLE",
                "State": "associated"
            }
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-070e571cd1EXAMPLE",
            "ResourceId": "vpc-7EXAMPLE",
            "ResourceType": "vpc",
            "Subnet": {
                "SubnetId": "subnet-4EXAMPLE",
                "State": "associated"
            }
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-070e571cd1EXAMPLE",
            "ResourceId": "vpc-7EXAMPLE",
            "ResourceType": "vpc",
            "Subnet": {
                "SubnetId": "subnet-5EXAMPLE",
                "State": "associated"
            }
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-070e571cd1EXAMPLE",
            "ResourceId": "vpc-7EXAMPLE",
            "ResourceType": "vpc",
            "Subnet": {
                "SubnetId": "subnet-aEXAMPLE",
                "State": "associated"
            }
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-070e571cd1EXAMPLE",
            "ResourceId": "vpc-7EXAMPLE",
            "ResourceType": "vpc",
            "Subnet": {
                "SubnetId": "subnet-fEXAMPLE",
                "State": "associated"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Domain multicast](https://docs.aws.amazon.com/vpc/latest/tgw/multicast-domains-about.html) di Panduan *Transit* Gateways.  
+  Untuk detail API, lihat [GetTransitGatewayMulticastDomainAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-transit-gateway-multicast-domain-associations.html)di *Referensi AWS CLI Perintah*. 

### `get-transit-gateway-prefix-list-references`
<a name="ec2_GetTransitGatewayPrefixListReferences_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-transit-gateway-prefix-list-references`.

**AWS CLI**  
**Untuk mendapatkan referensi daftar awalan dalam tabel rute gateway transit**  
`get-transit-gateway-prefix-list-references`Contoh berikut mendapatkan referensi daftar awalan untuk tabel rute gateway transit yang ditentukan, dan filter oleh ID daftar awalan tertentu.  

```
aws ec2 get-transit-gateway-prefix-list-references \
    --transit-gateway-route-table-id tgw-rtb-0123456789abcd123 \
    --filters Name=prefix-list-id,Values=pl-11111122222222333
```
Output:  

```
{
    "TransitGatewayPrefixListReferences": [
        {
            "TransitGatewayRouteTableId": "tgw-rtb-0123456789abcd123",
            "PrefixListId": "pl-11111122222222333",
            "PrefixListOwnerId": "123456789012",
            "State": "available",
            "Blackhole": false,
            "TransitGatewayAttachment": {
                "TransitGatewayAttachmentId": "tgw-attach-aabbccddaabbccaab",
                "ResourceType": "vpc",
                "ResourceId": "vpc-112233445566aabbc"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Referensi daftar awalan](https://docs.aws.amazon.com/vpc/latest/tgw/create-prefix-list-reference.html) di Panduan *Gerbang Transit*.  
+  Untuk detail API, lihat [GetTransitGatewayPrefixListReferences](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-transit-gateway-prefix-list-references.html)di *Referensi AWS CLI Perintah*. 

### `get-transit-gateway-route-table-associations`
<a name="ec2_GetTransitGatewayRouteTableAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-transit-gateway-route-table-associations`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang asosiasi untuk tabel rute gateway transit yang ditentukan**  
`get-transit-gateway-route-table-associations`Contoh berikut menampilkan informasi tentang asosiasi untuk tabel rute gateway transit yang ditentukan.  

```
aws ec2 get-transit-gateway-route-table-associations \
    --transit-gateway-route-table-id tgw-rtb-0a823edbdeEXAMPLE
```
Output:  

```
{
    "Associations": [
        {
            "TransitGatewayAttachmentId": "tgw-attach-09b52ccdb5EXAMPLE",
            "ResourceId": "vpc-4d7de228",
            "ResourceType": "vpc",
            "State": "associating"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html#associate-tgw-route-table) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [GetTransitGatewayRouteTableAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-transit-gateway-route-table-associations.html)di *Referensi AWS CLI Perintah*. 

### `get-transit-gateway-route-table-propagations`
<a name="ec2_GetTransitGatewayRouteTablePropagations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-transit-gateway-route-table-propagations`.

**AWS CLI**  
**Untuk menampilkan informasi tentang propagasi tabel rute untuk tabel rute gateway transit yang ditentukan**  
`get-transit-gateway-route-table-propagations`Contoh berikut mengembalikan propagasi tabel rute untuk tabel rute yang ditentukan.  

```
aws ec2 get-transit-gateway-route-table-propagations \
    --transit-gateway-route-table-id tgw-rtb-002573ed1eEXAMPLE
```
Output:  

```
{
    "TransitGatewayRouteTablePropagations": [
        {
            "TransitGatewayAttachmentId": "tgw-attach-01f8100bc7EXAMPLE",
            "ResourceId": "vpc-3EXAMPLE",
            "ResourceType": "vpc",
            "State": "enabled"
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-08e0bc912cEXAMPLE",
            "ResourceId": "11460968-4ac1-4fd3-bdb2-00599EXAMPLE",
            "ResourceType": "direct-connect-gateway",
            "State": "enabled"
        },
        {
            "TransitGatewayAttachmentId": "tgw-attach-0a89069f57EXAMPLE",
            "ResourceId": "8384da05-13ce-4a91-aada-5a1baEXAMPLE",
            "ResourceType": "direct-connect-gateway",
            "State": "enabled"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [GetTransitGatewayRouteTablePropagations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-transit-gateway-route-table-propagations.html)di *Referensi AWS CLI Perintah*. 

### `get-verified-access-endpoint-policy`
<a name="ec2_GetVerifiedAccessEndpointPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-verified-access-endpoint-policy`.

**AWS CLI**  
**Untuk mendapatkan kebijakan Akses Terverifikasi dari titik akhir**  
`get-verified-access-endpoint-policy`Contoh berikut mendapatkan kebijakan Akses Terverifikasi dari titik akhir yang ditentukan.  

```
aws ec2 get-verified-access-endpoint-policy \
    --verified-access-endpoint-id vae-066fac616d4d546f2
```
Output:  

```
{
    "PolicyEnabled": true,
    "PolicyDocument": "permit(principal,action,resource)\nwhen {\n    context.identity.groups.contains(\"finance\") &&\n    context.identity.email_verified == true\n};"
}
```
Untuk informasi selengkapnya, lihat [kebijakan Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/auth-policies.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [GetVerifiedAccessEndpointPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-verified-access-endpoint-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-verified-access-group-policy`
<a name="ec2_GetVerifiedAccessGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-verified-access-group-policy`.

**AWS CLI**  
**Untuk mendapatkan kebijakan Akses Terverifikasi grup**  
`get-verified-access-group-policy`Contoh berikut mendapatkan kebijakan Akses Terverifikasi dari grup yang ditentukan.  

```
aws ec2 get-verified-access-group-policy \
    --verified-access-group-id vagr-0dbe967baf14b7235
```
Output:  

```
{
    "PolicyEnabled": true,
    "PolicyDocument": "permit(principal,action,resource)\nwhen {\n    context.identity.groups.contains(\"finance\") &&\n    context.identity.email_verified == true\n};"
}
```
Untuk informasi selengkapnya, lihat [Grup Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-groups.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [GetVerifiedAccessGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-verified-access-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-vpn-connection-device-sample-configuration`
<a name="ec2_GetVpnConnectionDeviceSampleConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vpn-connection-device-sample-configuration`.

**AWS CLI**  
**Untuk mengunduh file konfigurasi sampel**  
`get-vpn-connection-device-sample-configuration`Contoh berikut mengunduh file konfigurasi sampel yang ditentukan. Untuk membuat daftar perangkat gateway dengan file konfigurasi sampel, panggil `get-vpn-connection-device-types` perintah.  

```
aws ec2 get-vpn-connection-device-sample-configuration \
    --vpn-connection-id vpn-123456789abc01234 \
    --vpn-connection-device-type-id 5fb390ba
```
Output:  

```
{
    "VpnConnectionDeviceSampleConfiguration": "contents-of-the-sample-configuration-file"
}
```
Untuk informasi selengkapnya, lihat [Mengunduh file konfigurasi](https://docs.aws.amazon.com/vpn/latest/s2svpn/SetUpVPNConnections.html#vpn-download-config) di *Panduan Pengguna AWS Site-to-Site VPN*.  
+  Untuk detail API, lihat [GetVpnConnectionDeviceSampleConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-vpn-connection-device-sample-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-vpn-connection-device-types`
<a name="ec2_GetVpnConnectionDeviceTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vpn-connection-device-types`.

**AWS CLI**  
**Untuk membuat daftar perangkat gateway dengan contoh file konfigurasi**  
`get-vpn-connection-device-types`Contoh berikut mencantumkan perangkat gateway dari Palo Alto Networks yang memiliki file konfigurasi sampel.  

```
aws ec2 get-vpn-connection-device-types \
    --query "VpnConnectionDeviceTypes[?Vendor==`Palo Alto Networks`]"
```
Output:  

```
[
    {
        "VpnConnectionDeviceTypeId": "754a6372",
        "Vendor": "Palo Alto Networks",
        "Platform": "PA Series",
        "Software": "PANOS 4.1.2+"
    },
    {
        "VpnConnectionDeviceTypeId": "9612cbed",
        "Vendor": "Palo Alto Networks",
        "Platform": "PA Series",
        "Software": "PANOS 4.1.2+ (GUI)"
    },
    {
        "VpnConnectionDeviceTypeId": "5fb390ba",
        "Vendor": "Palo Alto Networks",
        "Platform": "PA Series",
        "Software": "PANOS 7.0+"
    }
]
```
Untuk informasi selengkapnya, lihat [Mengunduh file konfigurasi](https://docs.aws.amazon.com/vpn/latest/s2svpn/SetUpVPNConnections.html#vpn-download-config) di *Panduan pengguna AWS Site-to-Site VPN*.  
+  Untuk detail API, lihat [GetVpnConnectionDeviceTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-vpn-connection-device-types.html)di *Referensi AWS CLI Perintah*. 

### `import-client-vpn-client-certificate-revocation-list`
<a name="ec2_ImportClientVpnClientCertificateRevocationList_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-client-vpn-client-certificate-revocation-list`.

**AWS CLI**  
**Untuk mengimpor daftar pencabutan sertifikat klien**  
`import-client-vpn-client-certificate-revocation-list`Contoh berikut mengimpor daftar pencabutan sertifikat klien ke titik akhir Client VPN dengan menentukan lokasi file di komputer lokal.  

```
aws ec2 import-client-vpn-client-certificate-revocation-list \
    --certificate-revocation-list file:///path/to/crl.pem \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Daftar Pencabutan Sertifikat Klien di Panduan](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-certificates.html) *Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [ImportClientVpnClientCertificateRevocationList](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/import-client-vpn-client-certificate-revocation-list.html)di *Referensi AWS CLI Perintah*. 

### `import-image`
<a name="ec2_ImportImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-image`.

**AWS CLI**  
**Untuk mengimpor file gambar VM sebagai AMI**  
`import-image`Contoh berikut mengimpor OVA tertentu.  

```
aws ec2 import-image \
  --disk-containers Format=ova,UserBucket="{S3Bucket=my-import-bucket,S3Key=vms/my-server-vm.ova}"
```
Output:  

```
{
    "ImportTaskId": "import-ami-1234567890abcdef0",
    "Progress": "2",
    "SnapshotDetails": [
        {
            "DiskImageSize": 0.0,
            "Format": "ova",
            "UserBucket": {
                "S3Bucket": "my-import-bucket",
                "S3Key": "vms/my-server-vm.ova"
            }
        }
    ],
    "Status": "active",
    "StatusMessage": "pending"
}
```
+  Untuk detail API, lihat [ImportImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/import-image.html)di *Referensi AWS CLI Perintah*. 

### `import-key-pair`
<a name="ec2_ImportKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-key-pair`.

**AWS CLI**  
**Untuk mengimpor kunci publik**  
Pertama, buat key pair dengan alat pilihan Anda. Misalnya, gunakan perintah ssh-keygen ini:  
Perintah:  

```
ssh-keygen -t rsa -C "my-key" -f ~/.ssh/my-key
```
Output:  

```
Generating public/private rsa key pair.
Enter passphrase (empty for no passphrase):
Enter same passphrase again:
Your identification has been saved in /home/ec2-user/.ssh/my-key.
Your public key has been saved in /home/ec2-user/.ssh/my-key.pub.
...
```
Perintah contoh ini mengimpor kunci publik yang ditentukan.  
Perintah:  

```
aws ec2 import-key-pair --key-name "my-key" --public-key-material fileb://~/.ssh/my-key.pub
```
Output:  

```
{
  "KeyName": "my-key",
  "KeyFingerprint": "1f:51:ae:28:bf:89:e9:d8:1f:25:5d:37:2d:7d:b8:ca"
}
```
+  Untuk detail API, lihat [ImportKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/import-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `import-snapshot`
<a name="ec2_ImportSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-snapshot`.

**AWS CLI**  
**Untuk mengimpor snapshot**  
`import-snapshot`Contoh berikut mengimpor disk yang ditentukan sebagai snapshot.  

```
aws ec2 import-snapshot \
    --description "My server VMDK" \
    --disk-container Format=VMDK,UserBucket={'S3Bucket=my-import-bucket,S3Key=vms/my-server-vm.vmdk'}
```
Output:  

```
{
    "Description": "My server VMDK",
    "ImportTaskId": "import-snap-1234567890abcdef0",
    "SnapshotTaskDetail": {
        "Description": "My server VMDK",
        "DiskImageSize": "0.0",
        "Format": "VMDK",
        "Progress": "3",
        "Status": "active",
        "StatusMessage": "pending"
        "UserBucket": {
            "S3Bucket": "my-import-bucket",
            "S3Key": "vms/my-server-vm.vmdk"
        }
    }
}
```
+  Untuk detail API, lihat [ImportSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/import-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `list-images-in-recycle-bin`
<a name="ec2_ListImagesInRecycleBin_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-images-in-recycle-bin`.

**AWS CLI**  
**Untuk membuat daftar gambar di Recycle Bin**  
`list-images-in-recycle-bin`Contoh berikut mencantumkan semua gambar yang saat ini disimpan di Recycle Bin.  

```
aws ec2 list-images-in-recycle-bin
```
Output:  

```
{
    "Images": [
        {
            "RecycleBinEnterTime": "2022-03-14T15:35:08.000Z",
            "Description": "Monthly AMI One",
            "RecycleBinExitTime": "2022-03-15T15:35:08.000Z",
            "Name": "AMI_01",
            "ImageId": "ami-0111222333444abcd"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulihkan dihapus AMIs dari Recycle Bin](https://docs.aws.amazon.com/ebs/latest/userguide/recycle-bin-working-with-amis.html) di *Panduan Pengguna Amazon EBS*.  
+  Untuk detail API, lihat [ListImagesInRecycleBin](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/list-images-in-recycle-bin.html)di *Referensi AWS CLI Perintah*. 

### `list-snapshots-in-recycle-bin`
<a name="ec2_ListSnapshotsInRecycleBin_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-snapshots-in-recycle-bin`.

**AWS CLI**  
**Untuk melihat snapshot di Recycle Bin**  
`list-snapshots-in-recycle-bin`Contoh berikut mencantumkan informasi tentang snapshot di Recycle Bin, termasuk ID snapshot, deskripsi snapshot, ID volume dari mana snapshot dibuat, tanggal dan waktu ketika snapshot dihapus dan masuk ke Recycle Bin, dan tanggal dan waktu ketika periode retensi berakhir.  

```
aws ec2 list-snapshots-in-recycle-bin \
    --snapshot-id snap-01234567890abcdef
```
Output:  

```
{
    "SnapshotRecycleBinInfo": [
        {
            "Description": "Monthly data backup snapshot",
            "RecycleBinEnterTime": "2022-12-01T13:00:00.000Z",
            "RecycleBinExitTime": "2022-12-15T13:00:00.000Z",
            "VolumeId": "vol-abcdef09876543210",
            "SnapshotId": "snap-01234567890abcdef"
        }
    ]
}
```
Untuk informasi selengkapnya tentang Recycle Bin, lihat [Memulihkan snapshot yang dihapus dari Recycle Bin di Panduan](https://docs.aws.amazon.com/ebs/latest/userguide/recycle-bin-working-with-snaps.html) Pengguna *Amazon EBS*.  
+  Untuk detail API, lihat [ListSnapshotsInRecycleBin](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/list-snapshots-in-recycle-bin.html)di *Referensi AWS CLI Perintah*. 

### `lock-snapshot`
<a name="ec2_LockSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`lock-snapshot`.

**AWS CLI**  
**Contoh 1: Untuk mengunci snapshot dalam mode tata kelola**  
`lock-snapshot`Contoh berikut mengunci snapshot yang ditentukan dalam mode tata kelola.  

```
aws ec2 lock-snapshot \
    --snapshot-id snap-0b5e733b4a8df6e0d \
    --lock-mode governance \
    --lock-duration 365
```
Output:  

```
{
    "SnapshotId": "snap-0b5e733b4a8df6e0d",
    "LockState": "governance",
    "LockDuration": 365,
    "LockCreatedOn": "2024-05-05T00:56:06.208000+00:00",
    "LockExpiresOn": "2025-05-05T00:56:06.208000+00:00",
    "LockDurationStartTime": "2024-05-05T00:56:06.208000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Kunci snapshot](https://docs.aws.amazon.com/ebs/latest/userguide/ebs-snapshot-lock.html) di *Panduan Pengguna Amazon EBS*.  
**Contoh 2: Untuk mengunci snapshot dalam mode kepatuhan**  
`lock-snapshot`Contoh berikut mengunci snapshot yang ditentukan dalam mode kepatuhan.  

```
aws ec2 lock-snapshot \
    --snapshot-id snap-0163a8524c5b9901f \
    --lock-mode compliance \
    --cool-off-period 24 \
    --lock-duration 365
```
Output:  

```
{
    "SnapshotId": "snap-0b5e733b4a8df6e0d",
    "LockState": "compliance-cooloff",
    "LockDuration": 365,
    "CoolOffPeriod": 24,
    "CoolOffPeriodExpiresOn": "2024-05-06T01:02:20.527000+00:00",
    "LockCreatedOn": "2024-05-05T01:02:20.527000+00:00",
    "LockExpiresOn": "2025-05-05T01:02:20.527000+00:00",
    "LockDurationStartTime": "2024-05-05T01:02:20.527000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Kunci snapshot](https://docs.aws.amazon.com/ebs/latest/userguide/ebs-snapshot-lock.html) di *Panduan Pengguna Amazon EBS*.  
+  Untuk detail API, lihat [LockSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/lock-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `modify-address-attribute`
<a name="ec2_ModifyAddressAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-address-attribute`.

**AWS CLI**  
**Untuk memodifikasi atribut nama domain yang terkait dengan alamat IP elastis**  
`modify-address-attribute`Contoh berikut memodifikasi atribut nama domain dari alamat IP elastis.  
Linux:  

```
aws ec2 modify-address-attribute \
    --allocation-id eipalloc-abcdef01234567890 \
    --domain-name example.com
```
Windows:  

```
aws ec2 modify-address-attribute ^
    --allocation-id eipalloc-abcdef01234567890 ^
    --domain-name example.com
```
Output:  

```
{
    "Addresses": [
        {
            "PublicIp": "192.0.2.0",
            "AllocationId": "eipalloc-abcdef01234567890",
            "PtrRecord": "example.net."
            "PtrRecordUpdate": {
                "Value": "example.com.",
                "Status": "PENDING"
        }
    ]
}
```
Untuk memantau perubahan yang tertunda dan untuk melihat atribut yang dimodifikasi dari alamat IP elastis, lihat [describe-addresses-attribute](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-addresses-attribute.html)di Referensi *Perintah AWS CLI*.  
+  Untuk detail API, lihat [ModifyAddressAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-address-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-availability-zone-group`
<a name="ec2_ModifyAvailabilityZoneGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-availability-zone-group`.

**AWS CLI**  
**Untuk mengaktifkan grup zona**  
`modify-availability-zone-group`Contoh berikut memungkinkan kelompok zona yang ditentukan.  

```
aws ec2 modify-availability-zone-group \
    --group-name us-west-2-lax-1 \
    --opt-in-status opted-in
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Wilayah dan Zona](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ModifyAvailabilityZoneGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-availability-zone-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-capacity-reservation-fleet`
<a name="ec2_ModifyCapacityReservationFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-capacity-reservation-fleet`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi total kapasitas target Armada Reservasi Kapasitas**  
`modify-capacity-reservation-fleet`Contoh berikut memodifikasi total kapasitas target Armada Reservasi Kapasitas yang ditentukan. Saat Anda memodifikasi total kapasitas target Armada Reservasi Kapasitas, Armada secara otomatis membuat Reservasi Kapasitas baru, atau memodifikasi atau membatalkan Reservasi Kapasitas yang ada di Armada untuk memenuhi total kapasitas target yang baru. Anda tidak dapat mencoba modifikasi tambahan pada Armada saat berada dalam status `modifying`.  

```
aws ec2 modify-capacity-reservation-fleet \
    --capacity-reservation-fleet-id crf-01234567890abcedf \
    --total-target-capacity 160
```
Output:  

```
{
    "Return": true
}
```
**Contoh 2: Untuk mengubah tanggal akhir Armada Reservasi Kapasitas**  
`modify-capacity-reservation-fleet`Contoh berikut memodifikasi tanggal akhir Armada Reservasi Kapasitas yang ditentukan. Ketika Anda memodifikasi tanggal akhir Armada, tanggal akhir untuk semua Reservasi Kapasitas individu akan diperbarui sesuai dengan modifikasi itu. Anda tidak dapat mencoba modifikasi tambahan pada Armada saat berada dalam status `modifying`.  

```
aws ec2 modify-capacity-reservation-fleet \
    --capacity-reservation-fleet-id crf-01234567890abcedf \
    --end-date 2022-07-04T23:59:59.000Z
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya tentang Armada Reservasi [Kapasitas, lihat Armada Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/cr-fleets.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ModifyCapacityReservationFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-capacity-reservation-fleet.html)di *Referensi AWS CLI Perintah*. 

### `modify-capacity-reservation`
<a name="ec2_ModifyCapacityReservation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-capacity-reservation`.

**AWS CLI**  
**Contoh 1: Untuk mengubah jumlah instans yang dicadangkan oleh reservasi kapasitas yang ada**  
`modify-capacity-reservation`Contoh berikut mengubah jumlah contoh yang kapasitas cadangan kapasitas reservasi.  

```
aws ec2 modify-capacity-reservation \
    --capacity-reservation-id cr-1234abcd56EXAMPLE \
    --instance-count 5
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Mengubah Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-modify.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk mengubah tanggal dan waktu akhir reservasi kapasitas yang ada**  
`modify-capacity-reservation`Contoh berikut memodifikasi reservasi kapasitas yang ada untuk berakhir pada tanggal dan waktu yang ditentukan.  

```
aws ec2 modify-capacity-reservation \
    --capacity-reservation-id cr-1234abcd56EXAMPLE \
    --end-date-type limited \
    --end-date 2019-08-31T23:59:59Z
```
Untuk informasi selengkapnya, lihat [Mengubah Reservasi Kapasitas](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-modify.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ModifyCapacityReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-capacity-reservation.html)di *Referensi AWS CLI Perintah*. 

### `modify-client-vpn-endpoint`
<a name="ec2_ModifyClientVpnEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-client-vpn-endpoint`.

**AWS CLI**  
**Untuk memodifikasi titik akhir Client VPN**  
`modify-client-vpn-endpoint`Contoh berikut memungkinkan pencatatan koneksi klien untuk titik akhir Client VPN yang ditentukan.  

```
aws ec2 modify-client-vpn-endpoint \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde \
    --connection-log-options Enabled=true,CloudwatchLogGroup=ClientVPNLogs
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Titik Akhir Client VPN](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-endpoints.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [ModifyClientVpnEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-client-vpn-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `modify-default-credit-specification`
<a name="ec2_ModifyDefaultCreditSpecification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-default-credit-specification`.

**AWS CLI**  
**Untuk memodifikasi opsi kredit default**  
`modify-default-credit-specification`Contoh berikut memodifikasi opsi kredit default untuk instance T2.  

```
aws ec2 modify-default-credit-specification \
    --instance-family t2 \
    --cpu-credits unlimited
```
Output:  

```
{
    "InstanceFamilyCreditSpecification": {
        "InstanceFamily": "t2",
        "CpuCredits": "unlimited"
    }
}
```
+  Untuk detail API, lihat [ModifyDefaultCreditSpecification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-default-credit-specification.html)di *Referensi AWS CLI Perintah*. 

### `modify-ebs-default-kms-key-id`
<a name="ec2_ModifyEbsDefaultKmsKeyId_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-ebs-default-kms-key-id`.

**AWS CLI**  
**Untuk mengatur CMK default Anda untuk enkripsi EBS**  
`modify-ebs-default-kms-key-id`Contoh berikut menetapkan CMK yang ditentukan sebagai CMK default untuk enkripsi EBS untuk AWS akun Anda di Wilayah saat ini.  

```
aws ec2 modify-ebs-default-kms-key-id \
    --kms-key-id alias/my-cmk
```
Output:  

```
{
    "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/0ea3fef3-80a7-4778-9d8c-1c0c6EXAMPLE"
}
```
+  Untuk detail API, lihat [ModifyEbsDefaultKmsKeyId](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-ebs-default-kms-key-id.html)di *Referensi AWS CLI Perintah*. 

### `modify-fleet`
<a name="ec2_ModifyFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-fleet`.

**AWS CLI**  
**Untuk menskalakan Armada EC2**  
`modify-fleet`Contoh berikut memodifikasi kapasitas target Armada EC2 yang ditentukan. Jika nilai yang ditentukan lebih besar dari kapasitas saat ini, Armada EC2 meluncurkan instans tambahan. Jika nilai yang ditentukan kurang dari kapasitas saat ini, Armada EC2 membatalkan permintaan terbuka dan jika kebijakan penghentian tersebut`terminate`, armada EC2 menghentikan setiap instans yang melebihi kapasitas target baru.  

```
aws ec2 modify-fleet \
    --fleet-ids fleet-12a34b55-67cd-8ef9-ba9b-9208dEXAMPLE \
    --target-capacity-specification TotalTargetCapacity=5
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Mengelola Armada EC2](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/manage-ec2-fleet.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ModifyFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-fleet.html)di *Referensi AWS CLI Perintah*. 

### `modify-fpga-image-attribute`
<a name="ec2_ModifyFpgaImageAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-fpga-image-attribute`.

**AWS CLI**  
**Untuk memodifikasi atribut gambar Amazon FPGA**  
Contoh ini menambahkan izin muat untuk ID `123456789012` akun untuk AFI yang ditentukan.  
Perintah:  

```
aws ec2 modify-fpga-image-attribute --attribute loadPermission --fpga-image-id afi-0d123e123bfc85abc --load-permission Add=[{UserId=123456789012}]
```
Output:  

```
{
  "FpgaImageAttribute": {
      "FpgaImageId": "afi-0d123e123bfc85abc",
      "LoadPermissions": [
          {
              "UserId": "123456789012"
          }
      ]
  }
}
```
+  Untuk detail API, lihat [ModifyFpgaImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-fpga-image-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-hosts`
<a name="ec2_ModifyHosts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-hosts`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan penempatan otomatis untuk Host Khusus**  
`modify-hosts`Contoh berikut memungkinkan penempatan otomatis untuk Host Khusus sehingga menerima peluncuran instans yang tidak ditargetkan yang cocok dengan konfigurasi tipe instance-nya.  

```
aws ec2 modify-hosts \
    --host-id h-06c2f189b4EXAMPLE \
    --auto-placement on
```
Output:  

```
{
    "Successful": [
        "h-06c2f189b4EXAMPLE"
    ],
    "Unsuccessful": []
}
```
Untuk informasi selengkapnya, lihat [Mengubah setelan penempatan otomatis untuk Host Khusus](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/modify-host-auto-placement.html) di Panduan *Pengguna Amazon EC2*.  
**Contoh 2: Untuk mengaktifkan pemulihan host untuk Host Khusus**  
`modify-hosts`Contoh berikut memungkinkan pemulihan host untuk Host Khusus yang ditentukan.  

```
aws ec2 modify-hosts \
    --host-id h-06c2f189b4EXAMPLE \
    --host-recovery on
```
Output:  

```
{
    "Successful": [
        "h-06c2f189b4EXAMPLE"
    ],
    "Unsuccessful": []
}
```
Untuk informasi selengkapnya, lihat [Mengubah setelan penempatan otomatis untuk Host Khusus](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/modify-host-auto-placement.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ModifyHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-hosts.html)di *Referensi AWS CLI Perintah*. 

### `modify-id-format`
<a name="ec2_ModifyIdFormat_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-id-format`.

**AWS CLI**  
**Untuk mengaktifkan format ID yang lebih panjang untuk sumber daya**  
`modify-id-format`Contoh berikut memungkinkan format ID yang lebih panjang untuk jenis `instance` sumber daya.  

```
aws ec2 modify-id-format \
    --resource instance \
    --use-long-ids
```
**Untuk menonaktifkan format ID yang lebih panjang untuk sumber daya**  
`modify-id-format`Contoh berikut menonaktifkan format ID yang lebih panjang untuk jenis `instance` sumber daya.  

```
aws ec2 modify-id-format \
    --resource instance \
    --no-use-long-ids
```
`modify-id-format`Contoh berikut memungkinkan format ID yang lebih panjang untuk semua jenis sumber daya yang didukung yang berada dalam periode keikutsertaannya.  

```
aws ec2 modify-id-format \
    --resource all-current \
    --use-long-ids
```
+  Untuk detail API, lihat [ModifyIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-id-format.html)di *Referensi AWS CLI Perintah*. 

### `modify-identity-id-format`
<a name="ec2_ModifyIdentityIdFormat_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-identity-id-format`.

**AWS CLI**  
**Untuk mengaktifkan peran IAM untuk menggunakan lebih lama IDs untuk sumber daya**  
`modify-identity-id-format`Contoh berikut memungkinkan peran IAM `EC2Role` di AWS akun Anda untuk menggunakan format ID panjang untuk jenis `instance` sumber daya.  

```
aws ec2 modify-identity-id-format \
    --principal-arn arn:aws:iam::123456789012:role/EC2Role \
    --resource instance \
    --use-long-ids
```
**Untuk mengaktifkan pengguna IAM untuk menggunakan lebih lama IDs untuk sumber daya**  
`modify-identity-id-format`Contoh berikut memungkinkan pengguna IAM `AdminUser` di AWS akun Anda untuk menggunakan format ID yang lebih panjang untuk jenis `volume` sumber daya.  

```
aws ec2 modify-identity-id-format \
    --principal-arn arn:aws:iam::123456789012:user/AdminUser \
    --resource volume \
    --use-long-ids
```
`modify-identity-id-format`Contoh berikut memungkinkan pengguna IAM `AdminUser` di AWS akun Anda untuk menggunakan format ID yang lebih panjang untuk semua jenis sumber daya yang didukung yang berada dalam periode keikutsertaannya.  

```
aws ec2 modify-identity-id-format \
    --principal-arn arn:aws:iam::123456789012:user/AdminUser \
    --resource all-current \
    --use-long-ids
```
+  Untuk detail API, lihat [ModifyIdentityIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-identity-id-format.html)di *Referensi AWS CLI Perintah*. 

### `modify-image-attribute`
<a name="ec2_ModifyImageAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-image-attribute`.

**AWS CLI**  
**Contoh 1: Untuk membuat AMI publik**  
`modify-instance-attribute`Contoh berikut membuat AMI yang ditentukan publik.  

```
aws ec2 modify-image-attribute \
    --image-id ami-5731123e \
    --launch-permission "Add=[{Group=all}]"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk membuat AMI pribadi**  
`modify-instance-attribute`Contoh berikut membuat AMI yang ditentukan menjadi pribadi.  

```
aws ec2 modify-image-attribute \
    --image-id ami-5731123e \
    --launch-permission "Remove=[{Group=all}]"
```
Perintah ini tidak menghasilkan output.  
**Contoh 3: Untuk memberikan izin peluncuran ke AWS akun**  
`modify-instance-attribute`Contoh berikut memberikan izin peluncuran ke akun yang ditentukan AWS .  

```
aws ec2 modify-image-attribute \
    --image-id ami-5731123e \
    --launch-permission "Add=[{UserId=123456789012}]"
```
Perintah ini tidak menghasilkan output.  
**Contoh 4: Untuk menghapus izin peluncuran dari AWS akun**  
`modify-instance-attribute`Contoh berikut menghapus izin peluncuran dari AWS akun yang ditentukan.  

```
aws ec2 modify-image-attribute \
    --image-id ami-5731123e \
    --launch-permission "Remove=[{UserId=123456789012}]"
```
+  Untuk detail API, lihat [ModifyImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-image-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-attribute`
<a name="ec2_ModifyInstanceAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-attribute`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi jenis instance**  
`modify-instance-attribute`Contoh berikut memodifikasi jenis instance dari contoh yang ditentukan. Instans harus berada dalam status `stopped`.  

```
aws ec2 modify-instance-attribute \
    --instance-id i-1234567890abcdef0 \
    --instance-type "{\"Value\": \"m1.small\"}"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk mengaktifkan jaringan yang disempurnakan pada sebuah instance**  
`modify-instance-attribute`Contoh berikut memungkinkan jaringan ditingkatkan untuk contoh tertentu. Instans harus berada dalam status `stopped`.  

```
aws ec2 modify-instance-attribute \
    --instance-id i-1234567890abcdef0 \
    --sriov-net-support simple
```
Perintah ini tidak menghasilkan output.  
**Contoh 3: Untuk memodifikasi sourceDestCheck atribut**  
`modify-instance-attribute`Contoh berikut menetapkan `sourceDestCheck` atribut dari contoh tertentu untuk`true`. Instans harus dalam VPC.  

```
aws ec2 modify-instance-attribute --instance-id i-1234567890abcdef0 --source-dest-check "{\"Value\": true}"
```
Perintah ini tidak menghasilkan output.  
**Contoh 4: Untuk memodifikasi deleteOnTermination atribut volume root**  
`modify-instance-attribute`Contoh berikut menetapkan `deleteOnTermination` atribut untuk volume root instance yang didukung Amazon EBS yang ditentukan. `false` Secara default, atribut ini adalah `true` untuk volume root.  
Perintah:  

```
aws ec2 modify-instance-attribute \
  --instance-id i-1234567890abcdef0 \
  --block-device-mappings "[{\"DeviceName\": \"/dev/sda1\",\"Ebs\":{\"DeleteOnTermination\":false}}]"
```
Perintah ini tidak menghasilkan output.  
**Contoh 5: Untuk memodifikasi data pengguna yang dilampirkan ke sebuah instance**  
`modify-instance-attribute`Contoh berikut menambahkan isi file `UserData.txt` sebagai UserData untuk contoh yang ditentukan.  
Isi file asli`UserData.txt`:  

```
#!/bin/bash
yum update -y
service httpd start
chkconfig httpd on
```
Isi file harus dikodekan base64. Perintah pertama mengonversi file teks ke base64 dan menyimpannya sebagai file baru.  
Versi perintah Linux/macOS:  

```
base64 UserData.txt > UserData.base64.txt
```
Perintah ini tidak menghasilkan output.  
Versi Windows dari perintah:  

```
certutil -encode UserData.txt tmp.b64 && findstr /v /c:- tmp.b64 > UserData.base64.txt
```
Output:  

```
Input Length = 67
Output Length = 152
CertUtil: -encode command completed successfully.
```
Sekarang Anda dapat mereferensikan file itu dalam perintah CLI yang berikut:  

```
aws ec2 modify-instance-attribute \
    --instance-id=i-09b5a14dbca622e76 \
    --attribute userData --value file://UserData.base64.txt
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Data Pengguna dan AWS CLI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/user-data.html#user-data-api-cli) di Panduan Pengguna *EC2*.  
+  Untuk detail API, lihat [ModifyInstanceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-capacity-reservation-attributes`
<a name="ec2_ModifyInstanceCapacityReservationAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-capacity-reservation-attributes`.

**AWS CLI**  
**Contoh 1: Untuk mengubah setelan penargetan reservasi kapasitas instans**  
`modify-instance-capacity-reservation-attributes`Contoh berikut memodifikasi instance berhenti untuk menargetkan reservasi kapasitas tertentu.  

```
aws ec2 modify-instance-capacity-reservation-attributes \
    --instance-id i-EXAMPLE8765abcd4e \
    --capacity-reservation-specification 'CapacityReservationTarget={CapacityReservationId= cr-1234abcd56EXAMPLE }'
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Mengubah setelan Reservasi Kapasitas instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-modify-instance.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk mengubah setelan penargetan reservasi kapasitas instans**  
`modify-instance-capacity-reservation-attributes`Contoh berikut memodifikasi instance berhenti yang menargetkan reservasi kapasitas yang ditentukan untuk diluncurkan di reservasi kapasitas apa pun yang memiliki atribut yang cocok (tipe instans, platform, Availability Zone) dan yang memiliki kriteria pencocokan instance terbuka.  

```
aws ec2 modify-instance-capacity-reservation-attributes \
    --instance-id i-EXAMPLE8765abcd4e \
    --capacity-reservation-specification 'CapacityReservationPreference=open'
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Mengubah setelan Reservasi Kapasitas instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-modify-instance.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ModifyInstanceCapacityReservationAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-capacity-reservation-attributes.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-credit-specification`
<a name="ec2_ModifyInstanceCreditSpecification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-credit-specification`.

**AWS CLI**  
**Untuk memodifikasi opsi kredit untuk penggunaan CPU dari sebuah instance**  
Contoh ini memodifikasi opsi kredit untuk penggunaan CPU dari instance yang ditentukan di wilayah tertentu menjadi “tidak terbatas”. Opsi kredit yang valid adalah “standar” dan “tidak terbatas”.  
Perintah:  

```
aws ec2 modify-instance-credit-specification --instance-credit-specification "InstanceId=i-1234567890abcdef0,CpuCredits=unlimited"
```
Output:  

```
{
  "SuccessfulInstanceCreditSpecifications": [
    {
      "InstanceId": "i-1234567890abcdef0"
    }
  ],
  "UnsuccessfulInstanceCreditSpecifications": []
}
```
+  Untuk detail API, lihat [ModifyInstanceCreditSpecification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-credit-specification.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-event-start-time`
<a name="ec2_ModifyInstanceEventStartTime_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-event-start-time`.

**AWS CLI**  
**Untuk memodifikasi waktu mulai acara untuk sebuah instance**  
`modify-instance-event-start-time`Perintah berikut menunjukkan cara memodifikasi waktu mulai acara untuk contoh yang ditentukan. Tentukan ID acara dengan menggunakan `--instance-event-id` parameter. Tentukan tanggal dan waktu baru dengan menggunakan `--not-before` parameter.  

```
aws ec2 modify-instance-event-start-time --instance-id i-1234567890abcdef0 --instance-event-id instance-event-0abcdef1234567890 --not-before 2019-03-25T10:00:00.000
```
Output:  

```
"Event": {
    "InstanceEventId": "instance-event-0abcdef1234567890",
    "Code": "system-reboot",
    "Description": "scheduled reboot",
    "NotAfter": "2019-03-25T12:00:00.000Z",
    "NotBefore": "2019-03-25T10:00:00.000Z",
    "NotBeforeDeadline": "2019-04-22T21:00:00.000Z"
}
```
Untuk informasi selengkapnya, lihat Bekerja dengan Instans yang Dijadwalkan untuk Reboot di Panduan Pengguna *Amazon Elastic Compute Cloud*  
+  Untuk detail API, lihat [ModifyInstanceEventStartTime](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-event-start-time.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-event-window`
<a name="ec2_ModifyInstanceEventWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-event-window`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi rentang waktu jendela acara**  
`modify-instance-event-window`Contoh berikut memodifikasi rentang waktu jendela acara. Tentukan parameter `time-range` untuk memodifikasi rentang waktu. Anda juga tidak dapat menentukan parameter `cron-expression`.  

```
aws ec2 modify-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890
    --time-range StartWeekDay=monday,StartHour=2,EndWeekDay=wednesday,EndHour=8
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "TimeRanges": [
            {
                "StartWeekDay": "monday",
                "StartHour": 2,
                "EndWeekDay": "wednesday",
                "EndHour": 8
            }
        ],
        "Name": "myEventWindowName",
        "AssociationTarget": {
            "InstanceIds": [
                "i-0abcdef1234567890",
                "i-0be35f9acb8ba01f0"
            ],
            "Tags": [],
            "DedicatedHostIds": []
        },
        "State": "creating",
        "Tags": [
            {
                "Key": "K1",
                "Value": "V1"
            }
        ]
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
**Contoh 2: Untuk memodifikasi serangkaian rentang waktu untuk jendela acara**  
`modify-instance-event-window`Contoh berikut memodifikasi rentang waktu jendela acara. Tentukan parameter `time-range` untuk memodifikasi rentang waktu. Anda juga tidak dapat menentukan parameter `cron-expression`.  

```
aws ec2 modify-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --time-range '[{"StartWeekDay": "monday", "StartHour": 2, "EndWeekDay": "wednesday", "EndHour": 8},
        {"StartWeekDay": "thursday", "StartHour": 2, "EndWeekDay": "friday", "EndHour": 8}]'
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "TimeRanges": [
            {
                "StartWeekDay": "monday",
                "StartHour": 2,
                "EndWeekDay": "wednesday",
                "EndHour": 8
            },
            {
                "StartWeekDay": "thursday",
                "StartHour": 2,
                "EndWeekDay": "friday",
                "EndHour": 8
            }
        ],
        "Name": "myEventWindowName",
        "AssociationTarget": {
            "InstanceIds": [
                "i-0abcdef1234567890",
                "i-0be35f9acb8ba01f0"
            ],
            "Tags": [],
            "DedicatedHostIds": []
        },
        "State": "creating",
        "Tags": [
            {
                "Key": "K1",
                "Value": "V1"
            }
        ]
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
**Contoh 3: Untuk memodifikasi ekspresi cron dari jendela acara**  
`modify-instance-event-window`Contoh berikut memodifikasi ekspresi cron dari jendela acara. Tentukan parameter `cron-expression` untuk memodifikasi ekspresi cron. Anda juga tidak dapat menentukan parameter `time-range`.  

```
aws ec2 modify-instance-event-window \
    --region us-east-1 \
    --instance-event-window-id iew-0abcdef1234567890 \
    --cron-expression "* 21-23 * * 2,3"
```
Output:  

```
{
    "InstanceEventWindow": {
        "InstanceEventWindowId": "iew-0abcdef1234567890",
        "Name": "myEventWindowName",
        "CronExpression": "* 21-23 * * 2,3",
        "AssociationTarget": {
            "InstanceIds": [
                "i-0abcdef1234567890",
                "i-0be35f9acb8ba01f0"
            ],
            "Tags": [],
            "DedicatedHostIds": []
        },
        "State": "creating",
        "Tags": [
            {
                "Key": "K1",
                "Value": "V1"
            }
        ]
    }
}
```
*Untuk batasan jendela acara, lihat [Pertimbangan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/event-windows.html#event-windows-considerations) di bagian Acara Terjadwal pada Panduan Pengguna Amazon EC2.*  
+  Untuk detail API, lihat [ModifyInstanceEventWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-event-window.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-maintenance-options`
<a name="ec2_ModifyInstanceMaintenanceOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-maintenance-options`.

**AWS CLI**  
**Contoh 1: Untuk menonaktifkan perilaku pemulihan sebuah instance**  
`modify-instance-maintenance-options`Contoh berikut menonaktifkan pemulihan otomatis yang disederhanakan untuk instance yang berjalan atau berhenti.  

```
aws ec2 modify-instance-maintenance-options \
    --instance-id i-0abcdef1234567890 \
    --auto-recovery disabled
```
Output:  

```
{
    "InstanceId": "i-0abcdef1234567890",
    "AutoRecovery": "disabled"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi pemulihan otomatis yang disederhanakan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-configuration-recovery.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk mengatur perilaku pemulihan instance ke default**  
`modify-instance-maintenance-options`Contoh berikut menetapkan perilaku pemulihan otomatis ke default yang memungkinkan pemulihan otomatis disederhanakan untuk jenis instans yang didukung.  

```
aws ec2 modify-instance-maintenance-options \
    --instance-id i-0abcdef1234567890 \
    --auto-recovery default
```
Output:  

```
{
    "InstanceId": "i-0abcdef1234567890",
    "AutoRecovery": "default"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi pemulihan otomatis yang disederhanakan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-configuration-recovery.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ModifyInstanceMaintenanceOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-maintenance-options.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-metadata-options`
<a name="ec2_ModifyInstanceMetadataOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-metadata-options`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan IMDSv2**  
`modify-instance-metadata-options`Contoh berikut mengkonfigurasi penggunaan IMDSv2 pada contoh yang ditentukan.  

```
aws ec2 modify-instance-metadata-options \
    --instance-id i-1234567898abcdef0 \
    --http-tokens required \
    --http-endpoint enabled
```
Output:  

```
{
    "InstanceId": "i-1234567898abcdef0",
    "InstanceMetadataOptions": {
        "State": "pending",
        "HttpTokens": "required",
        "HttpPutResponseHopLimit": 1,
        "HttpEndpoint": "enabled"
    }
}
```
Untuk informasi selengkapnya, lihat [Metadata instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-instance-metadata.html) di Panduan Pengguna *Amazon EC2*.  
**Contoh 2: Untuk menonaktifkan metadata instance**  
`modify-instance-metadata-options`Contoh berikut menonaktifkan penggunaan semua versi metadata instance pada instance tertentu.  

```
aws ec2 modify-instance-metadata-options \
    --instance-id i-1234567898abcdef0 \
    --http-endpoint disabled
```
Output:  

```
{
    "InstanceId": "i-1234567898abcdef0",
    "InstanceMetadataOptions": {
        "State": "pending",
        "HttpTokens": "required",
        "HttpPutResponseHopLimit": 1,
        "HttpEndpoint": "disabled"
    }
}
```
Untuk informasi selengkapnya, lihat [Metadata instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-instance-metadata.html) di Panduan Pengguna *Amazon EC2*.  
**Contoh 3: Untuk mengaktifkan IPv6 titik akhir metadata instance untuk instans Anda**  
`modify-instance-metadata-options`Contoh berikut menunjukkan cara mengaktifkan IPv6 endpoint untuk layanan metadata instance. Secara default, IPv6 titik akhir dinonaktifkan. Ini benar bahkan jika Anda telah meluncurkan instance ke subnet IPv6 -only. IPv6 Titik akhir untuk IMDS hanya dapat diakses pada instans yang dibangun di atas Sistem Nitro.  

```
aws ec2 modify-instance-metadata-options \
    --instance-id i-1234567898abcdef0 \
    --http-protocol-ipv6 enabled \
    --http-endpoint enabled
```
Output:  

```
{
    "InstanceId": "i-1234567898abcdef0",
    "InstanceMetadataOptions": {
        "State": "pending",
        "HttpTokens": "required",
        "HttpPutResponseHopLimit": 1,
        "HttpEndpoint": "enabled",
        HttpProtocolIpv6": "enabled"
    }
}
```
Untuk informasi selengkapnya, lihat [Metadata instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-instance-metadata.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [ModifyInstanceMetadataOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-metadata-options.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-placement`
<a name="ec2_ModifyInstancePlacement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-placement`.

**AWS CLI**  
**Contoh 1: Untuk menghapus afinitas instance dengan Host Khusus**  
`modify-instance-placement`Contoh berikut menghapus afinitas instans dengan Host Khusus dan memungkinkannya diluncurkan pada Host Khusus yang tersedia di akun Anda yang mendukung jenis instance-nya.  

```
aws ec2 modify-instance-placement \
    --instance-id i-0e6ddf6187EXAMPLE \
    --affinity default
```
Output:  

```
{
    "Return": true
}
```
**Contoh 2: Untuk membangun afinitas antara instance dan Host Khusus yang ditentukan**  
`modify-instance-placement`Contoh berikut menetapkan hubungan peluncuran antara instance dan Host Khusus. Instance hanya dapat berjalan pada Host Khusus yang ditentukan.  

```
aws ec2 modify-instance-placement \
    --instance-id i-0e6ddf6187EXAMPLE \
    --affinity host \
    --host-id i-0e6ddf6187EXAMPLE
```
Output:  

```
{
    "Return": true
}
```
**Contoh 3: Untuk memindahkan instance ke grup penempatan**  
`modify-instance-placement`Contoh berikut memindahkan instance ke grup penempatan, menghentikan instance, memodifikasi penempatan instance, dan kemudian restart instance.  

```
aws ec2 stop-instances \
    --instance-ids i-0123a456700123456

aws ec2 modify-instance-placement \
    --instance-id i-0123a456700123456 \
    --group-name MySpreadGroup

aws ec2 start-instances \
    --instance-ids i-0123a456700123456
```
**Contoh 4: Untuk menghapus instance dari grup penempatan**  
`modify-instance-placement`Contoh berikut menghapus instance dari grup penempatan dengan menghentikan instance, memodifikasi penempatan instance, dan kemudian memulai ulang instance. Contoh berikut menentukan string kosong (“”) untuk nama grup penempatan untuk menunjukkan bahwa instance ini tidak akan berada di grup penempatan.  
Hentikan instance:  

```
aws ec2 stop-instances \
    --instance-ids i-0123a456700123456
```
Ubah penempatan (Windows Command Prompt):  

```
aws ec2 modify-instance-placement \
    --instance-id i-0123a456700123456 \
    --group-name ""
```
Ubah penempatan (Windows PowerShell, Linux, dan macOS):  

```
aws ec2 modify-instance-placement `
    --instance-id i-0123a456700123456 `
    --group-name ''
```
Mulai ulang instance:  

```
aws ec2 start-instances \
    --instance-ids i-0123a456700123456
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi penyewaan dan afinitas Host Khusus](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/moving-instances-dedicated-hosts.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [ModifyInstancePlacement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-placement.html)di *Referensi AWS CLI Perintah*. 

### `modify-ipam-pool`
<a name="ec2_ModifyIpamPool_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-ipam-pool`.

**AWS CLI**  
**Untuk memodifikasi kolam IPAM**  
`modify-ipam-pool`Contoh berikut memodifikasi kolam IPAM.  
(Linux):  

```
aws ec2 modify-ipam-pool \
    --ipam-pool-id ipam-pool-0533048da7d823723 \
    --add-allocation-resource-tags "Key=Owner,Value=Build Team" \
    --clear-allocation-default-netmask-length \
    --allocation-min-netmask-length 14
```
(Windows):  

```
aws ec2 modify-ipam-pool ^
    --ipam-pool-id ipam-pool-0533048da7d823723 ^
    --add-allocation-resource-tags "Key=Owner,Value=Build Team" ^
    --clear-allocation-default-netmask-length ^
    --allocation-min-netmask-length 14
```
Output:  

```
{
    "IpamPool": {
        "OwnerId": "123456789012",
        "IpamPoolId": "ipam-pool-0533048da7d823723",
        "IpamPoolArn": "arn:aws:ec2::123456789012:ipam-pool/ipam-pool-0533048da7d823723",
        "IpamScopeArn": "arn:aws:ec2::123456789012:ipam-scope/ipam-scope-02fc38cd4c48e7d38",
        "IpamScopeType": "private",
        "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
        "IpamRegion": "us-east-1",
        "Locale": "None",
        "PoolDepth": 1,
        "State": "modify-complete",
        "AutoImport": true,
        "AddressFamily": "ipv4",
        "AllocationMinNetmaskLength": 14,
        "AllocationMaxNetmaskLength": 26,
        "AllocationResourceTags": [
            {
                "Key": "Environment",
                "Value": "Preprod"
            },
            {
                "Key": "Owner",
                "Value": "Build Team"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit kumpulan](https://docs.aws.amazon.com/vpc/latest/ipam/mod-pool-ipam.html) di Panduan *Pengguna Amazon VPC IPAM*.  
+  Untuk detail API, lihat [ModifyIpamPool](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-ipam-pool.html)di *Referensi AWS CLI Perintah*. 

### `modify-ipam-resource-cidr`
<a name="ec2_ModifyIpamResourceCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-ipam-resource-cidr`.

**AWS CLI**  
**Untuk memodifikasi CIDR yang dialokasikan ke sumber daya**  
`modify-ipam-resource-cidr`Contoh berikut memodifikasi sumber daya CIDR.  
(Linux):  

```
aws ec2 modify-ipam-resource-cidr \
    --current-ipam-scope-id ipam-scope-02fc38cd4c48e7d38 \
    --destination-ipam-scope-id ipam-scope-0da34c61fd189a141 \
    --resource-id vpc-010e1791024eb0af9 \
    --resource-cidr 10.0.1.0/24 \
    --resource-region us-east-1 \
    --monitored
```
(Windows):  

```
aws ec2 modify-ipam-resource-cidr ^
    --current-ipam-scope-id ipam-scope-02fc38cd4c48e7d38 ^
    --destination-ipam-scope-id ipam-scope-0da34c61fd189a141 ^
    --resource-id vpc-010e1791024eb0af9 ^
    --resource-cidr 10.0.1.0/24 ^
    --resource-region us-east-1 ^
    --monitored
```
Output:  

```
{
    "IpamResourceCidr": {
        "IpamId": "ipam-08440e7a3acde3908",
        "IpamScopeId": "ipam-scope-0da34c61fd189a141",
        "IpamPoolId": "ipam-pool-0533048da7d823723",
        "ResourceRegion": "us-east-1",
        "ResourceOwnerId": "123456789012",
        "ResourceId": "vpc-010e1791024eb0af9",
        "ResourceCidr": "10.0.1.0/24",
        "ResourceType": "vpc",
        "ResourceTags": [
            {
                "Key": "Environment",
                "Value": "Preprod"
            },
            {
                "Key": "Owner",
                "Value": "Build Team"
            }
        ],
        "IpUsage": 0.0,
        "ComplianceStatus": "noncompliant",
        "ManagementState": "managed",
        "OverlapStatus": "overlapping",
        "VpcId": "vpc-010e1791024eb0af9"
    }
}
```
Untuk informasi selengkapnya tentang memindahkan sumber daya, lihat [Memindahkan sumber daya CIDRs antar cakupan](https://docs.aws.amazon.com/vpc/latest/ipam/move-resource-ipam.html) di Panduan *Pengguna Amazon VPC IPAM*.  
Untuk informasi selengkapnya tentang mengubah status pemantauan, lihat [Mengubah status pemantauan sumber daya CIDRs](https://docs.aws.amazon.com/vpc/latest/ipam/change-monitoring-state-ipam.html) di Panduan *Pengguna Amazon VPC IPAM*.  
+  Untuk detail API, lihat [ModifyIpamResourceCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-ipam-resource-cidr.html)di *Referensi AWS CLI Perintah*. 

### `modify-ipam-resource-discovery`
<a name="ec2_ModifyIpamResourceDiscovery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-ipam-resource-discovery`.

**AWS CLI**  
**Untuk memodifikasi wilayah operasi penemuan sumber daya**  
Dalam contoh ini, Anda adalah admin yang didelegasikan IPAM yang ingin memodifikasi wilayah operasi penemuan sumber daya.  
Untuk melengkapi permintaan ini:  
Anda tidak dapat mengubah penemuan sumber daya default dan Anda harus menjadi pemilik penemuan sumber daya.Anda memerlukan ID penemuan sumber daya, yang dapat Anda peroleh. [describe-ipam-resource-discoveries](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-ipam-resource-discoveries.html)  
`modify-ipam-resource-discovery`Contoh berikut memodifikasi penemuan sumber daya non-default di akun Anda AWS .  

```
aws ec2 modify-ipam-resource-discovery \
    --ipam-resource-discovery-id ipam-res-disco-0f4ef577a9f37a162 \
    --add-operating-regions RegionName='us-west-1' \
    --remove-operating-regions RegionName='us-east-2' \
    --region us-east-1
```
Output:  

```
{
    "IpamResourceDiscovery": {
        "OwnerId": "149977607591",
        "IpamResourceDiscoveryId": "ipam-res-disco-0365d2977fc1672fe",
        "IpamResourceDiscoveryArn": "arn:aws:ec2::149977607591:ipam-resource-discovery/ipam-res-disco-0365d2977fc1672fe",
        "IpamResourceDiscoveryRegion": "us-east-1",
        "Description": "Example",
        "OperatingRegions": [
            {
                "RegionName": "us-east-1"
            },
            {
                "RegionName": "us-west-1"
            }
        ],
        "IsDefault": false,
        "State": "modify-in-progress"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan penemuan sumber daya di Panduan](https://docs.aws.amazon.com/vpc/latest/ipam/res-disc-work-with.html) Pengguna Amazon *VPC IPAM*.  
+  Untuk detail API, lihat [ModifyIpamResourceDiscovery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-ipam-resource-discovery.html)di *Referensi AWS CLI Perintah*. 

### `modify-ipam-scope`
<a name="ec2_ModifyIpamScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-ipam-scope`.

**AWS CLI**  
**Untuk memodifikasi deskripsi ruang lingkup**  
Dalam skenario ini, Anda adalah admin yang didelegasikan IPAM yang ingin memodifikasi deskripsi cakupan IPAM.  
Untuk menyelesaikan permintaan ini, Anda memerlukan ID cakupan, yang bisa Anda dapatkan [describe-ipam-scopes](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-ipam-scopes.html).  
`modify-ipam-scope`Contoh berikut memperbarui deskripsi ruang lingkup.  

```
aws ec2 modify-ipam-scope \
    --ipam-scope-id ipam-scope-0d3539a30b57dcdd1 \
    --description example \
    --region us-east-1
```
Output:  

```
{
"IpamScope": {
        "OwnerId": "320805250157",
        "IpamScopeId": "ipam-scope-0d3539a30b57dcdd1",
        "IpamScopeArn": "arn:aws:ec2::320805250157:ipam-scope/ipam-scope-0d3539a30b57dcdd1",
        "IpamArn": "arn:aws:ec2::320805250157:ipam/ipam-005f921c17ebd5107",
        "IpamRegion": "us-east-1",
        "IpamScopeType": "public",
        "IsDefault": true,
        "Description": "example",
        "PoolCount": 1,
        "State": "modify-in-progress"
    }
}
```
Untuk informasi selengkapnya tentang cakupan, lihat [Cara kerja IPAM](https://docs.aws.amazon.com/vpc/latest/ipam/how-it-works-ipam.html) di Panduan Pengguna Amazon *VPC* IPAM.  
+  Untuk detail API, lihat [ModifyIpamScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-ipam-scope.html)di *Referensi AWS CLI Perintah*. 

### `modify-ipam`
<a name="ec2_ModifyIpam_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-ipam`.

**AWS CLI**  
**Untuk memodifikasi IPAM**  
`modify-ipam`Contoh berikut memodifikasi IPAM dengan menambahkan Wilayah Operasi.  
(Linux):  

```
aws ec2 modify-ipam \
    --ipam-id ipam-08440e7a3acde3908 \
    --add-operating-regions RegionName=us-west-2
```
(Windows):  

```
aws ec2 modify-ipam ^
    --ipam-id ipam-08440e7a3acde3908 ^
    --add-operating-regions RegionName=us-west-2
```
Output:  

```
{
    "Ipam": {
        "OwnerId": "123456789012",
        "IpamId": "ipam-08440e7a3acde3908",
        "IpamArn": "arn:aws:ec2::123456789012:ipam/ipam-08440e7a3acde3908",
        "IpamRegion": "us-east-1",
        "PublicDefaultScopeId": "ipam-scope-0b9eed026396dbc16",
        "PrivateDefaultScopeId": "ipam-scope-02fc38cd4c48e7d38",
        "ScopeCount": 3,
        "OperatingRegions": [
            {
                "RegionName": "us-east-1"
            },
            {
                "RegionName": "us-east-2"
            },
            {
                "RegionName": "us-west-1"
            },
            {
                "RegionName": "us-west-2"
            }
        ],
        "State": "modify-in-progress"
    }
}
```
+  Untuk detail API, lihat [ModifyIpam](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-ipam.html)di *Referensi AWS CLI Perintah*. 

### `modify-launch-template`
<a name="ec2_ModifyLaunchTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-launch-template`.

**AWS CLI**  
**Untuk mengubah versi template peluncuran default**  
Contoh ini menentukan versi 2 dari template peluncuran yang ditentukan sebagai versi default.  
Perintah:  

```
aws ec2 modify-launch-template --launch-template-id lt-0abcd290751193123 --default-version 2
```
Output:  

```
{
  "LaunchTemplate": {
      "LatestVersionNumber": 2,
      "LaunchTemplateId": "lt-0abcd290751193123",
      "LaunchTemplateName": "WebServers",
      "DefaultVersionNumber": 2,
      "CreatedBy": "arn:aws:iam::123456789012:root",
      "CreateTime": "2017-12-01T13:35:46.000Z"
  }
}
```
+  Untuk detail API, lihat [ModifyLaunchTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-launch-template.html)di *Referensi AWS CLI Perintah*. 

### `modify-managed-prefix-list`
<a name="ec2_ModifyManagedPrefixList_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-managed-prefix-list`.

**AWS CLI**  
**Untuk memodifikasi daftar awalan**  
`modify-managed-prefix-list`Contoh berikut menambahkan entri ke daftar awalan yang ditentukan.  

```
aws ec2 modify-managed-prefix-list \
    --prefix-list-id pl-0123456abcabcabc1 \
    --add-entries Cidr=10.1.0.0/16,Description=vpc-c \
    --current-version 1
```
Output:  

```
{
    "PrefixList": {
        "PrefixListId": "pl-0123456abcabcabc1",
        "AddressFamily": "IPv4",
        "State": "modify-in-progress",
        "PrefixListArn": "arn:aws:ec2:us-west-2:123456789012:prefix-list/pl-0123456abcabcabc1",
        "PrefixListName": "vpc-cidrs",
        "MaxEntries": 10,
        "Version": 1,
        "OwnerId": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Daftar awalan terkelola](https://docs.aws.amazon.com/vpc/latest/userguide/managed-prefix-lists.html) di Panduan *Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [ModifyManagedPrefixList](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-managed-prefix-list.html)di *Referensi AWS CLI Perintah*. 

### `modify-network-interface-attribute`
<a name="ec2_ModifyNetworkInterfaceAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-network-interface-attribute`.

**AWS CLI**  
**Untuk memodifikasi atribut lampiran antarmuka jaringan**  
Perintah contoh ini memodifikasi `attachment` atribut antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 modify-network-interface-attribute --network-interface-id eni-686ea200 --attachment AttachmentId=eni-attach-43348162,DeleteOnTermination=false
```
**Untuk memodifikasi atribut deskripsi antarmuka jaringan**  
Perintah contoh ini memodifikasi `description` atribut antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 modify-network-interface-attribute --network-interface-id eni-686ea200 --description "My description"
```
**Untuk memodifikasi atribut groupSet dari antarmuka jaringan**  
Perintah contoh ini memodifikasi `groupSet` atribut antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 modify-network-interface-attribute --network-interface-id eni-686ea200 --groups sg-903004f8 sg-1a2b3c4d
```
**Untuk memodifikasi sourceDestCheck atribut antarmuka jaringan**  
Perintah contoh ini memodifikasi `sourceDestCheck` atribut antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 modify-network-interface-attribute --network-interface-id eni-686ea200 --no-source-dest-check
```
+  Untuk detail API, lihat [ModifyNetworkInterfaceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-network-interface-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-private-dns-name-options`
<a name="ec2_ModifyPrivateDnsNameOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-private-dns-name-options`.

**AWS CLI**  
**Untuk memodifikasi opsi untuk nama host misalnya**  
`modify-private-dns-name-options`Contoh berikut menonaktifkan opsi untuk menanggapi kueri DNS misalnya nama host dengan catatan DNS A.  

```
aws ec2 modify-private-dns-name-options \
    --instance-id i-1234567890abcdef0 \
    --no-enable-resource-name-dns-a-record
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [jenis nama host instans Amazon EC2 di Panduan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-instance-naming.html) Pengguna *Amazon* EC2.  
+  Untuk detail API, lihat [ModifyPrivateDnsNameOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-private-dns-name-options.html)di *Referensi AWS CLI Perintah*. 

### `modify-reserved-instances`
<a name="ec2_ModifyReservedInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-reserved-instances`.

**AWS CLI**  
**Untuk memodifikasi Instans Cadangan**  
Perintah contoh ini memindahkan Instans Cadangan ke Availability Zone lain di wilayah yang sama.  
Perintah:  

```
aws ec2 modify-reserved-instances --reserved-instances-ids b847fa93-e282-4f55-b59a-1342f5bd7c02 --target-configurations AvailabilityZone=us-west-1c,Platform=EC2-Classic,InstanceCount=10
```
Output:  

```
{
  "ReservedInstancesModificationId": "rimod-d3ed4335-b1d3-4de6-ab31-0f13aaf46687"
}
```
**Untuk memodifikasi platform jaringan Instans Cadangan**  
Perintah contoh ini mengonversi EC2-Classic Reserved Instances ke EC2-VPC.  
Perintah:  

```
aws ec2 modify-reserved-instances --reserved-instances-ids f127bd27-edb7-44c9-a0eb-0d7e09259af0 --target-configurations AvailabilityZone=us-west-1c,Platform=EC2-VPC,InstanceCount=5
```
Output:  

```
{
  "ReservedInstancesModificationId": "rimod-82fa9020-668f-4fb6-945d-61537009d291"
}
```
Untuk informasi selengkapnya, lihat Memodifikasi Instans Cadangan Anda di Panduan Pengguna *Amazon EC2*.  
**Untuk mengubah ukuran instans dari Instans Cadangan**  
Perintah contoh ini memodifikasi Instans Cadangan yang memiliki 10 instance m1.small di us-west-1c sehingga 8 Linux/UNIX instance m1.small menjadi 2 instance m1.large, dan 2 m1.small sisanya menjadi 1 m1.medium instance di Availability Zone yang sama. Perintah:  

```
aws ec2 modify-reserved-instances --reserved-instances-ids 1ba8e2e3-3556-4264-949e-63ee671405a9 --target-configurations AvailabilityZone=us-west-1c,Platform=EC2-Classic,InstanceCount=2,InstanceType=m1.large AvailabilityZone=us-west-1c,Platform=EC2-Classic,InstanceCount=1,InstanceType=m1.medium
```
Output:  

```
{
    "ReservedInstancesModificationId": "rimod-acc5f240-080d-4717-b3e3-1c6b11fa00b6"
}
```
Untuk informasi selengkapnya, lihat Memodifikasi Ukuran Instans Reservasi Anda di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [ModifyReservedInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-reserved-instances.html)di *Referensi AWS CLI Perintah*. 

### `modify-security-group-rules`
<a name="ec2_ModifySecurityGroupRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-security-group-rules`.

**AWS CLI**  
**Untuk memodifikasi aturan grup keamanan untuk memperbarui deskripsi aturan, protokol IP, dan rentang alamat CidrIpv 4**  
`modify-security-group-rules`Contoh berikut memperbarui deskripsi, protokol IP, dan rentang IPV4 CIDR dari aturan grup keamanan tertentu. Gunakan `security-group-rules` parameter untuk memasukkan pembaruan untuk aturan grup keamanan yang ditentukan. `-1`menentukan semua protokol.  

```
aws ec2 modify-security-group-rules \
    --group-id sg-1234567890abcdef0 \
    --security-group-rules SecurityGroupRuleId=sgr-abcdef01234567890,SecurityGroupRule='{Description=test,IpProtocol=-1,CidrIpv4=0.0.0.0/0}'
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya tentang aturan grup [keamanan, lihat Aturan grup keamanan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/security-group-rules.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ModifySecurityGroupRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-security-group-rules.html)di *Referensi AWS CLI Perintah*. 

### `modify-snapshot-attribute`
<a name="ec2_ModifySnapshotAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-snapshot-attribute`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi atribut snapshot**  
`modify-snapshot-attribute`Contoh berikut memperbarui `createVolumePermission` atribut untuk snapshot yang ditentukan, menghapus izin volume untuk pengguna tertentu.  

```
aws ec2 modify-snapshot-attribute \
    --snapshot-id snap-1234567890abcdef0 \
    --attribute createVolumePermission \
    --operation-type remove \
    --user-ids 123456789012
```
**Contoh 2: Untuk membuat snapshot publik**  
`modify-snapshot-attribute`Contoh berikut membuat snapshot yang ditentukan publik.  

```
aws ec2 modify-snapshot-attribute \
    --snapshot-id snap-1234567890abcdef0 \
    --attribute createVolumePermission \
    --operation-type add \
    --group-names all
```
+  Untuk detail API, lihat [ModifySnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-snapshot-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-snapshot-tier`
<a name="ec2_ModifySnapshotTier_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-snapshot-tier`.

**AWS CLI**  
**Untuk mengarsipkan snapshot**  
`modify-snapshot-tier`Contoh berikut mengarsipkan snapshot yang ditentukan. Parameter respons `TieringStartTime` menunjukkan tanggal dan waktu proses arsip dimulai, dalam format waktu UTC (YYY-MM-DDTHH:MM:SSZ).  

```
aws ec2 modify-snapshot-tier \
    --snapshot-id snap-01234567890abcedf \
    --storage-tier archive
```
Output:  

```
{
    "SnapshotId": "snap-01234567890abcedf",
    "TieringStartTime": "2021-09-15T16:44:37.574Z"
}
```
Untuk informasi selengkapnya tentang pengarsipan snapshot, lihat Mengarsipkan [snapshot Amazon EBS di Panduan Pengguna](https://docs.aws.amazon.com/ebs/latest/userguide/snapshot-archive.html) *Amazon* EBS.  
+  Untuk detail API, lihat [ModifySnapshotTier](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-snapshot-tier.html)di *Referensi AWS CLI Perintah*. 

### `modify-spot-fleet-request`
<a name="ec2_ModifySpotFleetRequest_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-spot-fleet-request`.

**AWS CLI**  
**Untuk mengubah permintaan armada Spot**  
Perintah contoh ini memperbarui kapasitas target permintaan armada Spot yang ditentukan.  
Perintah:  

```
aws ec2 modify-spot-fleet-request --target-capacity 20 --spot-fleet-request-id sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE
```
Output:  

```
{
    "Return": true
}
```
Perintah contoh ini mengurangi kapasitas target permintaan armada Spot yang ditentukan tanpa menghentikan Instans Spot apa pun sebagai hasilnya.  
Perintah:  

```
aws ec2 modify-spot-fleet-request --target-capacity 10 --excess-capacity-termination-policy NoTermination --spot-fleet-request-ids sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE
```
Output:  

```
{
    "Return": true
}
```
+  Untuk detail API, lihat [ModifySpotFleetRequest](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-spot-fleet-request.html)di *Referensi AWS CLI Perintah*. 

### `modify-subnet-attribute`
<a name="ec2_ModifySubnetAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-subnet-attribute`.

**AWS CLI**  
**Untuk mengubah perilaku IPv4 pengalamatan publik subnet**  
Contoh ini memodifikasi subnet-1a2b3c4d untuk menentukan bahwa semua instance yang diluncurkan ke subnet ini diberi alamat publik. IPv4 Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 modify-subnet-attribute --subnet-id subnet-1a2b3c4d --map-public-ip-on-launch
```
**Untuk mengubah perilaku pengalamatan subnet IPv6 **  
Contoh ini memodifikasi subnet-1a2b3c4d untuk menentukan bahwa semua instance yang diluncurkan ke subnet ini diberi alamat dari rentang subnet. IPv6   
Perintah:  

```
aws ec2 modify-subnet-attribute --subnet-id subnet-1a2b3c4d --assign-ipv6-address-on-creation
```
Untuk informasi selengkapnya, lihat Pengalamatan IP di VPC Anda di AWS Panduan Pengguna *Virtual Private Cloud*.  
+  Untuk detail API, lihat [ModifySubnetAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-subnet-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-traffic-mirror-filter-network-services`
<a name="ec2_ModifyTrafficMirrorFilterNetworkServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-traffic-mirror-filter-network-services`.

**AWS CLI**  
**Untuk menambahkan layanan jaringan ke filter Traffic Mirror**  
`modify-traffic-mirror-filter-network-services`Contoh berikut menambahkan layanan jaringan DNS Amazon ke filter yang ditentukan.  

```
aws ec2 modify-traffic-mirror-filter-network-services \
    --traffic-mirror-filter-id tmf-04812ff784EXAMPLE \
    --add-network-service amazon-dns
```
Output:  

```
{
    "TrafficMirrorFilter": {
        "Tags": [
            {
                "Key": "Name",
                "Value": "Production"
            }
        ],
        "EgressFilterRules": [],
        "NetworkServices": [
            "amazon-dns"
        ],
        "TrafficMirrorFilterId": "tmf-04812ff784EXAMPLE",
        "IngressFilterRules": [
            {
                "SourceCidrBlock": "0.0.0.0/0",
                "RuleNumber": 1,
                "DestinationCidrBlock": "0.0.0.0/0",
                "Description": "TCP Rule",
                "Protocol": 6,
                "TrafficDirection": "ingress",
                "TrafficMirrorFilterId": "tmf-04812ff784EXAMPLE",
                "RuleAction": "accept",
                "TrafficMirrorFilterRuleId": "tmf-04812ff784EXAMPLE"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Layanan Jaringan Filter Cermin Lalu](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-filter.html#modify-traffic-mirroring-filter-network-services) Lintas di *Panduan Pencerminan AWS Lalu Lintas*.  
+  Untuk detail API, lihat [ModifyTrafficMirrorFilterNetworkServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-traffic-mirror-filter-network-services.html)di *Referensi AWS CLI Perintah*. 

### `modify-traffic-mirror-filter-rule`
<a name="ec2_ModifyTrafficMirrorFilterRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-traffic-mirror-filter-rule`.

**AWS CLI**  
**Untuk memodifikasi aturan filter cermin lalu lintas**  
`modify-traffic-mirror-filter-rule`Contoh berikut memodifikasi deskripsi aturan filter cermin lalu lintas yang ditentukan.  

```
aws ec2 modify-traffic-mirror-filter-rule \
    --traffic-mirror-filter-rule-id tmfr-0ca76e0e08EXAMPLE \
    --description "TCP Rule"
```
Output:  

```
{
    "TrafficMirrorFilterRule": {
        "TrafficMirrorFilterRuleId": "tmfr-0ca76e0e08EXAMPLE",
        "TrafficMirrorFilterId": "tmf-0293f26e86EXAMPLE",
        "TrafficDirection": "ingress",
        "RuleNumber": 100,
        "RuleAction": "accept",
        "Protocol": 6,
        "DestinationCidrBlock": "10.0.0.0/24",
        "SourceCidrBlock": "10.0.0.0/24",
        "Description": "TCP Rule"
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Aturan Filter Cermin Lalu Lintas Anda](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-filter.html#modify-traffic-mirroring-filter-rules) di *Panduan Pencerminan AWS Lalu Lintas*.  
+  Untuk detail API, lihat [ModifyTrafficMirrorFilterRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-traffic-mirror-filter-rule.html)di *Referensi AWS CLI Perintah*. 

### `modify-traffic-mirror-session`
<a name="ec2_ModifyTrafficMirrorSession_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-traffic-mirror-session`.

**AWS CLI**  
**Untuk memodifikasi sesi cermin lalu lintas**  
`modify-traffic-mirror-session`Contoh berikut mengubah deskripsi sesi cermin lalu lintas dan jumlah paket yang akan dicerminkan.  

```
aws ec2 modify-traffic-mirror-session \
    --description "Change packet length" \
    --traffic-mirror-session-id tms-08a33b1214EXAMPLE \
    --remove-fields "packet-length"
```
Output:  

```
{
    "TrafficMirrorSession": {
        "TrafficMirrorSessionId": "tms-08a33b1214EXAMPLE",
        "TrafficMirrorTargetId": "tmt-07f75d8feeEXAMPLE",
        "TrafficMirrorFilterId": "tmf-04812ff784EXAMPLE",
        "NetworkInterfaceId": "eni-070203f901EXAMPLE",
        "OwnerId": "111122223333",
        "SessionNumber": 1,
        "VirtualNetworkId": 7159709,
        "Description": "Change packet length",
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi sesi cermin lalu lintas Anda](https://docs.aws.amazon.com/vpc/latest/mirroring/traffic-mirroring-session.html#modify-traffic-mirroring-session) di *Panduan Pencerminan Lalu Lintas*.  
+  Untuk detail API, lihat [ModifyTrafficMirrorSession](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-traffic-mirror-session.html)di *Referensi AWS CLI Perintah*. 

### `modify-transit-gateway-prefix-list-reference`
<a name="ec2_ModifyTransitGatewayPrefixListReference_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-transit-gateway-prefix-list-reference`.

**AWS CLI**  
**Untuk memodifikasi referensi ke daftar awalan**  
`modify-transit-gateway-prefix-list-reference`Contoh berikut memodifikasi referensi daftar awalan dalam tabel rute yang ditentukan dengan mengubah lampiran yang lalu lintas dirutekan.  

```
aws ec2 modify-transit-gateway-prefix-list-reference \
    --transit-gateway-route-table-id tgw-rtb-0123456789abcd123 \
    --prefix-list-id pl-11111122222222333 \
    --transit-gateway-attachment-id tgw-attach-aabbccddaabbccaab
```
Output:  

```
{
    "TransitGatewayPrefixListReference": {
        "TransitGatewayRouteTableId": "tgw-rtb-0123456789abcd123",
        "PrefixListId": "pl-11111122222222333",
        "PrefixListOwnerId": "123456789012",
        "State": "modifying",
        "Blackhole": false,
        "TransitGatewayAttachment": {
            "TransitGatewayAttachmentId": "tgw-attach-aabbccddaabbccaab",
            "ResourceType": "vpc",
            "ResourceId": "vpc-112233445566aabbc"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Referensi daftar awalan](https://docs.aws.amazon.com/vpc/latest/tgw/create-prefix-list-reference.html) di Panduan *Gerbang Transit*.  
+  Untuk detail API, lihat [ModifyTransitGatewayPrefixListReference](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-transit-gateway-prefix-list-reference.html)di *Referensi AWS CLI Perintah*. 

### `modify-transit-gateway-vpc-attachment`
<a name="ec2_ModifyTransitGatewayVpcAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-transit-gateway-vpc-attachment`.

**AWS CLI**  
**Untuk memodifikasi lampiran VPC gateway transit**  
`modify-transit-gateway-vpc-attachment`Contoh berikut menambahkan subnet ke lampiran VPC gateway transit yang ditentukan.  

```
aws ec2 modify-transit-gateway-vpc-attachment \
    --transit-gateway-attachment-id tgw-attach-09fbd47ddfEXAMPLE \
    --add-subnet-ids subnet-0e51f45802EXAMPLE
```
Output:  

```
{
    "TransitGatewayVpcAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-09fbd47ddfEXAMPLE",
        "TransitGatewayId": "tgw-0560315ccfEXAMPLE",
        "VpcId": "vpc-5eccc927",
        "VpcOwnerId": "111122223333",
        "State": "modifying",
        "SubnetIds": [
            "subnet-0e51f45802EXAMPLE",
            "subnet-1EXAMPLE"
        ],
        "CreationTime": "2019-08-08T16:47:38.000Z",
        "Options": {
            "DnsSupport": "enable",
            "Ipv6Support": "disable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran gateway transit ke VPC](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-vpc-attachments.html) di Panduan Gerbang *Transit*.  
+  Untuk detail API, lihat [ModifyTransitGatewayVpcAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-transit-gateway-vpc-attachment.html)di *Referensi AWS CLI Perintah*. 

### `modify-transit-gateway`
<a name="ec2_ModifyTransitGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-transit-gateway`.

**AWS CLI**  
**Untuk memodifikasi gateway transit**  
`modify-transit-gateway`Contoh berikut memodifikasi gateway transit yang ditentukan dengan mengaktifkan dukungan ECMP untuk lampiran VPN.  

```
aws ec2 modify-transit-gateway \
    --transit-gateway-id tgw-111111222222aaaaa \
    --options VpnEcmpSupport=enable
```
Output:  

```
{
    "TransitGateway": {
        "TransitGatewayId": "tgw-111111222222aaaaa",
        "TransitGatewayArn": "64512",
        "State": "modifying",
        "OwnerId": "123456789012",
        "CreationTime": "2020-04-30T08:41:37.000Z",
        "Options": {
            "AmazonSideAsn": 64512,
            "AutoAcceptSharedAttachments": "disable",
            "DefaultRouteTableAssociation": "enable",
            "AssociationDefaultRouteTableId": "tgw-rtb-0123456789abcd123",
            "DefaultRouteTablePropagation": "enable",
            "PropagationDefaultRouteTableId": "tgw-rtb-0123456789abcd123",
            "VpnEcmpSupport": "enable",
            "DnsSupport": "enable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Gateway transit di Panduan Gerbang](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-transit-gateways.html) *Transit*.  
+  Untuk detail API, lihat [ModifyTransitGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-transit-gateway.html)di *Referensi AWS CLI Perintah*. 

### `modify-verified-access-endpoint-policy`
<a name="ec2_ModifyVerifiedAccessEndpointPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-verified-access-endpoint-policy`.

**AWS CLI**  
**Untuk mengonfigurasi kebijakan Akses Terverifikasi untuk titik akhir**  
`modify-verified-access-endpoint-policy`Contoh berikut menambahkan kebijakan Akses Terverifikasi yang ditentukan ke titik akhir Akses Terverifikasi yang ditentukan.  

```
aws ec2 modify-verified-access-endpoint-policy \
    --verified-access-endpoint-id vae-066fac616d4d546f2 \
    --policy-enabled \
    --policy-document file://policy.txt
```
Isi dari `policy.txt`:  

```
permit(principal,action,resource)
when {
    context.identity.groups.contains("finance") &&
    context.identity.email.verified == true
};
```
Output:  

```
{
    "PolicyEnabled": true,
    "PolicyDocument": "permit(principal,action,resource)\nwhen {\n    context.identity.groups.contains(\"finance\") &&\n    context.identity.email_verified == true\n};"
}
```
Untuk informasi selengkapnya, lihat [kebijakan Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/auth-policies.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [ModifyVerifiedAccessEndpointPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-verified-access-endpoint-policy.html)di *Referensi AWS CLI Perintah*. 

### `modify-verified-access-endpoint`
<a name="ec2_ModifyVerifiedAccessEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-verified-access-endpoint`.

**AWS CLI**  
**Untuk mengubah konfigurasi titik akhir Akses Terverifikasi**  
`modify-verified-access-endpoint`Contoh berikut menambahkan deskripsi yang ditentukan ke titik akhir Akses Terverifikasi yang ditentukan.  

```
aws ec2 modify-verified-access-endpoint \
    --verified-access-endpoint-id vae-066fac616d4d546f2 \
    --description 'Testing Verified Access'
```
Output:  

```
{
    "VerifiedAccessEndpoint": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "VerifiedAccessGroupId": "vagr-0dbe967baf14b7235",
        "VerifiedAccessEndpointId": "vae-066fac616d4d546f2",
        "ApplicationDomain": "example.com",
        "EndpointType": "network-interface",
        "AttachmentType": "vpc",
        "DomainCertificateArn": "arn:aws:acm:us-east-2:123456789012:certificate/eb065ea0-26f9-4e75-a6ce-0a1a7EXAMPLE",
        "EndpointDomain": "my-ava-app.edge-00c3372d53b1540bb.vai-0ce000c0b7643abea.prod.verified-access.us-east-2.amazonaws.com",
        "SecurityGroupIds": [
            "sg-004915970c4c8f13a"
        ],
        "NetworkInterfaceOptions": {
            "NetworkInterfaceId": "eni-0aec70418c8d87a0f",
            "Protocol": "https",
            "Port": 443
        },
        "Status": {
            "Code": "updating"
        },
        "Description": "Testing Verified Access",
        "CreationTime": "2023-08-25T20:54:43",
        "LastUpdatedTime": "2023-08-25T22:46:32"
    }
}
```
Untuk informasi selengkapnya, lihat [Titik akhir Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-endpoints.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [ModifyVerifiedAccessEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-verified-access-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `modify-verified-access-group-policy`
<a name="ec2_ModifyVerifiedAccessGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-verified-access-group-policy`.

**AWS CLI**  
**Untuk mengonfigurasi kebijakan Akses Terverifikasi untuk grup**  
`modify-verified-access-group-policy`Contoh berikut menambahkan kebijakan Akses Terverifikasi yang ditentukan ke grup Akses Terverifikasi yang ditentukan.  

```
aws ec2 modify-verified-access-group-policy \
    --verified-access-group-id vagr-0dbe967baf14b7235 \
    --policy-enabled \
    --policy-document file://policy.txt
```
Isi dari `policy.txt`:  

```
permit(principal,action,resource)
when {
    context.identity.groups.contains("finance") &&
    context.identity.email.verified == true
};
```
Output:  

```
{
    "PolicyEnabled": true,
    "PolicyDocument": "permit(principal,action,resource)\nwhen {\n    context.identity.groups.contains(\"finance\") &&\n    context.identity.email_verified == true\n};"
}
```
Untuk informasi selengkapnya, lihat [Grup Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-groups.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [ModifyVerifiedAccessGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-verified-access-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `modify-verified-access-group`
<a name="ec2_ModifyVerifiedAccessGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-verified-access-group`.

**AWS CLI**  
**Untuk mengubah konfigurasi grup Akses Terverifikasi**  
`modify-verified-access-group`Contoh berikut menambahkan deskripsi yang ditentukan ke grup Akses Terverifikasi yang ditentukan.  

```
aws ec2 modify-verified-access-group \
    --verified-access-group-id vagr-0dbe967baf14b7235 \
    --description "Testing Verified Access"
```
Output:  

```
{
    "VerifiedAccessGroup": {
        "VerifiedAccessGroupId": "vagr-0dbe967baf14b7235",
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "Description": "Testing Verified Access",
        "Owner": "123456789012",
        "VerifiedAccessGroupArn": "arn:aws:ec2:us-east-2:123456789012:verified-access-group/vagr-0dbe967baf14b7235",
        "CreationTime": "2023-08-25T19:55:19",
        "LastUpdatedTime": "2023-08-25T22:17:25"
    }
}
```
Untuk informasi selengkapnya, lihat [Grup Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-groups.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [ModifyVerifiedAccessGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-verified-access-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-verified-access-instance-logging-configuration`
<a name="ec2_ModifyVerifiedAccessInstanceLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-verified-access-instance-logging-configuration`.

**AWS CLI**  
**Untuk mengaktifkan pencatatan untuk instans Akses Terverifikasi**  
`modify-verified-access-instance-logging-configuration`Contoh berikut memungkinkan pencatatan akses untuk instance Akses Terverifikasi yang ditentukan. Log akan dikirimkan ke grup CloudWatch log Log yang ditentukan.  

```
aws ec2 modify-verified-access-instance-logging-configuration \
    --verified-access-instance-id vai-0ce000c0b7643abea \
    --access-logs CloudWatchLogs={Enabled=true,LogGroup=my-log-group}
```
Output:  

```
{
    "LoggingConfiguration": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "AccessLogs": {
            "S3": {
                "Enabled": false
            },
            "CloudWatchLogs": {
                "Enabled": true,
                "DeliveryStatus": {
                    "Code": "success"
                },
                "LogGroup": "my-log-group"
            },
            "KinesisDataFirehose": {
                "Enabled": false
            },
            "LogVersion": "ocsf-1.0.0-rc.2",
            "IncludeTrustContext": false
        }
    }
}
```
Untuk informasi selengkapnya, lihat [log Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/access-logs.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [ModifyVerifiedAccessInstanceLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-verified-access-instance-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `modify-verified-access-instance`
<a name="ec2_ModifyVerifiedAccessInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-verified-access-instance`.

**AWS CLI**  
**Untuk mengubah konfigurasi instance Akses Terverifikasi**  
`modify-verified-access-instance`Contoh berikut menambahkan deskripsi yang ditentukan ke instance Akses Terverifikasi yang ditentukan.  

```
aws ec2 modify-verified-access-instance \
    --verified-access-instance-id vai-0ce000c0b7643abea \
    --description "Testing Verified Access"
```
Output:  

```
{
    "VerifiedAccessInstance": {
        "VerifiedAccessInstanceId": "vai-0ce000c0b7643abea",
        "Description": "Testing Verified Access",
        "VerifiedAccessTrustProviders": [
            {
                "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
                "TrustProviderType": "user",
                "UserTrustProviderType": "iam-identity-center"
            }
        ],
        "CreationTime": "2023-08-25T18:27:56",
        "LastUpdatedTime": "2023-08-25T22:41:04"
    }
}
```
Untuk informasi selengkapnya, lihat [Instans Akses Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/verified-access-instances.html) di *Panduan Pengguna Akses AWS Terverifikasi*.  
+  Untuk detail API, lihat [ModifyVerifiedAccessInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-verified-access-instance.html)di *Referensi AWS CLI Perintah*. 

### `modify-verified-access-trust-provider`
<a name="ec2_ModifyVerifiedAccessTrustProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-verified-access-trust-provider`.

**AWS CLI**  
**Untuk mengubah konfigurasi penyedia kepercayaan Akses Terverifikasi**  
`modify-verified-access-trust-provider`Contoh berikut menambahkan deskripsi yang ditentukan ke penyedia kepercayaan Akses Terverifikasi yang ditentukan.  

```
aws ec2 modify-verified-access-trust-provider \
    --verified-access-trust-provider-id vatp-0bb32de759a3e19e7 \
    --description "Testing Verified Access"
```
Output:  

```
{
    "VerifiedAccessTrustProvider": {
        "VerifiedAccessTrustProviderId": "vatp-0bb32de759a3e19e7",
        "Description": "Testing Verified Access",
        "TrustProviderType": "user",
        "UserTrustProviderType": "iam-identity-center",
        "PolicyReferenceName": "idc",
        "CreationTime": "2023-08-25T19:00:38",
        "LastUpdatedTime": "2023-08-25T19:18:21"
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kepercayaan untuk Akses AWS Terverifikasi](https://docs.aws.amazon.com/verified-access/latest/ug/trust-providers.html) *di Panduan Pengguna Akses Terverifikasi*.  
+  Untuk detail API, lihat [ModifyVerifiedAccessTrustProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-verified-access-trust-provider.html)di *Referensi AWS CLI Perintah*. 

### `modify-volume-attribute`
<a name="ec2_ModifyVolumeAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-volume-attribute`.

**AWS CLI**  
**Untuk memodifikasi atribut volume**  
Contoh ini menetapkan `autoEnableIo` atribut volume dengan ID `vol-1234567890abcdef0` ke`true`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 modify-volume-attribute --volume-id vol-1234567890abcdef0 --auto-enable-io
```
+  Untuk detail API, lihat [ModifyVolumeAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-volume-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-volume`
<a name="ec2_ModifyVolume_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-volume`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi volume dengan mengubah ukurannya**  
`modify-volume`Contoh berikut mengubah ukuran volume yang ditentukan menjadi 150GB.  
Perintah:  

```
aws ec2 modify-volume --size 150 --volume-id vol-1234567890abcdef0
```
Output:  

```
{
    "VolumeModification": {
        "TargetSize": 150,
        "TargetVolumeType": "io1",
        "ModificationState": "modifying",
        "VolumeId": " vol-1234567890abcdef0",
        "TargetIops": 100,
        "StartTime": "2019-05-17T11:27:19.000Z",
        "Progress": 0,
        "OriginalVolumeType": "io1",
        "OriginalIops": 100,
        "OriginalSize": 100
    }
}
```
**Contoh 2: Untuk memodifikasi volume dengan mengubah jenis, ukuran, dan nilai IOPS**  
`modify-volume`Contoh berikut mengubah jenis volume menjadi Provisioned IOPS SSD, menetapkan target IOPS rate menjadi 10000, dan menetapkan ukuran volume menjadi 350GB.  

```
aws ec2 modify-volume \
    --volume-type io1 \
    --iops 10000 \
    --size 350 \
    --volume-id vol-1234567890abcdef0
```
Output:  

```
{
    "VolumeModification": {
        "TargetSize": 350,
        "TargetVolumeType": "io1",
        "ModificationState": "modifying",
        "VolumeId": "vol-0721c1a9d08c93bf6",
        "TargetIops": 10000,
        "StartTime": "2019-05-17T11:38:57.000Z",
        "Progress": 0,
        "OriginalVolumeType": "gp2",
        "OriginalIops": 150,
        "OriginalSize": 50
    }
}
```
+  Untuk detail API, lihat [ModifyVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-volume.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpc-attribute`
<a name="ec2_ModifyVpcAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpc-attribute`.

**AWS CLI**  
**Untuk memodifikasi enableDnsSupport atribut**  
Contoh ini memodifikasi `enableDnsSupport` atribut. Atribut ini menunjukkan apakah resolusi DNS diaktifkan untuk VPC. Jika atribut ini`true`, server DNS Amazon menyelesaikan nama host DNS untuk instance Anda ke alamat IP yang sesuai; jika tidak, tidak. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 modify-vpc-attribute --vpc-id vpc-a01106c2 --enable-dns-support "{\"Value\":false}"
```
**Untuk memodifikasi enableDnsHostnames atribut**  
Contoh ini memodifikasi `enableDnsHostnames` atribut. Atribut ini menunjukkan apakah instance yang diluncurkan di VPC mendapatkan nama host DNS. Jika atribut ini`true`, instance di VPC mendapatkan nama host DNS; jika tidak, mereka tidak. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 modify-vpc-attribute --vpc-id vpc-a01106c2 --enable-dns-hostnames "{\"Value\":false}"
```
+  Untuk detail API, lihat [ModifyVpcAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpc-endpoint-connection-notification`
<a name="ec2_ModifyVpcEndpointConnectionNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpc-endpoint-connection-notification`.

**AWS CLI**  
**Untuk memodifikasi pemberitahuan koneksi titik akhir**  
Contoh ini mengubah topik SNS untuk pemberitahuan koneksi titik akhir yang ditentukan.  
Perintah:  

```
aws ec2 modify-vpc-endpoint-connection-notification --connection-notification-id vpce-nfn-008776de7e03f5abc --connection-events Accept Reject --connection-notification-arn arn:aws:sns:us-east-2:123456789012:mytopic
```
Output:  

```
{
   "ReturnValue": true
}
```
+  Untuk detail API, lihat [ModifyVpcEndpointConnectionNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-endpoint-connection-notification.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpc-endpoint-service-configuration`
<a name="ec2_ModifyVpcEndpointServiceConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpc-endpoint-service-configuration`.

**AWS CLI**  
**Untuk memodifikasi konfigurasi layanan endpoint**  
Contoh ini mengubah persyaratan penerimaan untuk layanan endpoint yang ditentukan.  
Perintah:  

```
aws ec2 modify-vpc-endpoint-service-configuration --service-id vpce-svc-09222513e6e77dc86 --no-acceptance-required
```
Output:  

```
{
   "ReturnValue": true
}
```
+  Untuk detail API, lihat [ModifyVpcEndpointServiceConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-endpoint-service-configuration.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpc-endpoint-service-payer-responsibility`
<a name="ec2_ModifyVpcEndpointServicePayerResponsibility_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpc-endpoint-service-payer-responsibility`.

**AWS CLI**  
**Untuk memodifikasi tanggung jawab pembayar**  
`modify-vpc-endpoint-service-payer-responsibility`Contoh berikut memodifikasi tanggung jawab pembayar dari layanan endpoint yang ditentukan.  

```
aws ec2 modify-vpc-endpoint-service-payer-responsibility \
    --service-id vpce-svc-071afff70666e61e0 \
    --payer-responsibility ServiceOwner
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [ModifyVpcEndpointServicePayerResponsibility](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-endpoint-service-payer-responsibility.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpc-endpoint-service-permissions`
<a name="ec2_ModifyVpcEndpointServicePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpc-endpoint-service-permissions`.

**AWS CLI**  
**Untuk mengubah izin layanan titik akhir**  
Contoh ini menambahkan izin untuk AWS akun untuk terhubung ke layanan endpoint yang ditentukan.  
Perintah:  

```
aws ec2 modify-vpc-endpoint-service-permissions --service-id vpce-svc-03d5ebb7d9579a2b3 --add-allowed-principals '["arn:aws:iam::123456789012:root"]'
```
Output:  

```
{
   "ReturnValue": true
}
```
Contoh ini menambahkan izin untuk pengguna IAM tertentu (`admin`) untuk terhubung ke layanan titik akhir yang ditentukan.  
Perintah:  

```
aws ec2 modify-vpc-endpoint-service-permissions --service-id vpce-svc-03d5ebb7d9579a2b3 --add-allowed-principals '["arn:aws:iam::123456789012:user/admin"]'
```
+  Untuk detail API, lihat [ModifyVpcEndpointServicePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-endpoint-service-permissions.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpc-endpoint`
<a name="ec2_ModifyVpcEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpc-endpoint`.

**AWS CLI**  
**Untuk memodifikasi titik akhir gateway**  
Contoh ini memodifikasi titik akhir gateway `vpce-1a2b3c4d` dengan mengaitkan tabel rute `rtb-aaa222bb` dengan titik akhir, dan mengatur ulang dokumen kebijakan.  
Perintah:  

```
aws ec2 modify-vpc-endpoint --vpc-endpoint-id vpce-1a2b3c4d --add-route-table-ids rtb-aaa222bb --reset-policy
```
Output:  

```
{
  "Return": true
}
```
**Untuk memodifikasi titik akhir antarmuka**  
Contoh ini memodifikasi titik akhir antarmuka `vpce-0fe5b17a0707d6fa5` dengan menambahkan subnet `subnet-d6fcaa8d` ke titik akhir.  
Perintah:  

```
aws ec2 modify-vpc-endpoint --vpc-endpoint-id vpce-0fe5b17a0707d6fa5 --add-subnet-id subnet-d6fcaa8d
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [ModifyVpcEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpc-peering-connection-options`
<a name="ec2_ModifyVpcPeeringConnectionOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpc-peering-connection-options`.

**AWS CLI**  
**Untuk mengaktifkan komunikasi melalui koneksi peering VPC dari koneksi lokal Anda ClassicLink **  
Dalam contoh ini, untuk koneksi peering`pcx-aaaabbb`, pemilik VPC pemohon memodifikasi opsi koneksi peering VPC untuk mengaktifkan koneksi lokal untuk berkomunikasi dengan VPC rekan. ClassicLink   
Perintah:  

```
aws ec2 modify-vpc-peering-connection-options --vpc-peering-connection-id pcx-aaaabbbb --requester-peering-connection-options AllowEgressFromLocalClassicLinkToRemoteVpc=true
```
Output:  

```
{
  "RequesterPeeringConnectionOptions": {
      "AllowEgressFromLocalClassicLinkToRemoteVpc": true
  }
}
```
**Untuk mengaktifkan komunikasi melalui koneksi peering VPC dari VPC lokal Anda ke koneksi jarak jauh ClassicLink **  
Dalam contoh ini, pemilik VPC penerima memodifikasi opsi koneksi peering VPC untuk memungkinkan VPC lokal berkomunikasi dengan koneksi di VPC rekan. ClassicLink   
Perintah:  

```
aws ec2 modify-vpc-peering-connection-options --vpc-peering-connection-id pcx-aaaabbbb --accepter-peering-connection-options AllowEgressFromLocalVpcToRemoteClassicLink=true
```
Output:  

```
{
  "AccepterPeeringConnectionOptions": {
    "AllowEgressFromLocalVpcToRemoteClassicLink": true
  }
}
```
**Untuk mengaktifkan dukungan resolusi DNS untuk koneksi peering VPC**  
Dalam contoh ini, pemilik VPC pemohon memodifikasi opsi koneksi peering VPC untuk mengaktifkan VPC lokal `pcx-aaaabbbb` untuk menyelesaikan nama host DNS publik ke alamat IP pribadi saat ditanyakan dari instance di VPC rekan.  
Perintah:  

```
aws ec2 modify-vpc-peering-connection-options --vpc-peering-connection-id pcx-aaaabbbb --requester-peering-connection-options AllowDnsResolutionFromRemoteVpc=true
```
Output:  

```
{
  "RequesterPeeringConnectionOptions": {
      "AllowDnsResolutionFromRemoteVpc": true
  }
}
```
+  Untuk detail API, lihat [ModifyVpcPeeringConnectionOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-peering-connection-options.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpc-tenancy`
<a name="ec2_ModifyVpcTenancy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpc-tenancy`.

**AWS CLI**  
**Untuk memodifikasi penyewaan VPC**  
Contoh ini memodifikasi penyewaan VPC ke. `vpc-1a2b3c4d` `default`  
Perintah:  

```
aws ec2 modify-vpc-tenancy --vpc-id vpc-1a2b3c4d --instance-tenancy default
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [ModifyVpcTenancy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-tenancy.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpn-connection-options`
<a name="ec2_ModifyVpnConnectionOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpn-connection-options`.

**AWS CLI**  
**Untuk memodifikasi opsi koneksi VPN Anda**  
`modify-vpn-connection-options`Contoh berikut memodifikasi IPv4 CIDR lokal di sisi gateway pelanggan dari koneksi VPN yang ditentukan.  

```
aws ec2 modify-vpn-connection-options \
    --vpn-connection-id vpn-1122334455aabbccd \
    --local-ipv4-network-cidr 10.0.0.0/16
```
Output:  

```
{
    "VpnConnections": [
        {
            "CustomerGatewayConfiguration": "...configuration information...",
            "CustomerGatewayId": "cgw-01234567abcde1234",
            "Category": "VPN",
            "State": "modifying",
            "Type": "ipsec.1",
            "VpnConnectionId": "vpn-1122334455aabbccd",
            "TransitGatewayId": "tgw-00112233445566aab",
            "Options": {
                "EnableAcceleration": false,
                "StaticRoutesOnly": true,
                "LocalIpv4NetworkCidr": "10.0.0.0/16",
                "RemoteIpv4NetworkCidr": "0.0.0.0/0",
                "TunnelInsideIpVersion": "ipv4"
            },
            "Routes": [],
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "CanadaVPN"
                }
            ],
            "VgwTelemetry": [
                {
                    "AcceptedRouteCount": 0,
                    "LastStatusChange": "2020-07-29T10:35:11.000Z",
                    "OutsideIpAddress": "203.0.113.3",
                    "Status": "DOWN",
                    "StatusMessage": ""
                },
                {
                    "AcceptedRouteCount": 0,
                    "LastStatusChange": "2020-09-02T09:09:33.000Z",
                    "OutsideIpAddress": "203.0.113.5",
                    "Status": "UP",
                    "StatusMessage": ""
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi opsi koneksi Site-to-Site VPN](https://docs.aws.amazon.com/vpn/latest/s2svpn/modify-vpn-connection-options.html) di *Panduan Pengguna AWS Site-to-Site VPN*.  
+  Untuk detail API, lihat [ModifyVpnConnectionOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpn-connection-options.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpn-connection`
<a name="ec2_ModifyVpnConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpn-connection`.

**AWS CLI**  
**Untuk memodifikasi koneksi VPN**  
`modify-vpn-connection`Contoh berikut mengubah gateway target untuk koneksi VPN `vpn-12345678901234567` ke gateway pribadi virtual`vgw-11223344556677889`:  

```
aws ec2 modify-vpn-connection \
    --vpn-connection-id vpn-12345678901234567 \
    --vpn-gateway-id vgw-11223344556677889
```
Output:  

```
{
    "VpnConnection": {
        "CustomerGatewayConfiguration": "...configuration information...",
        "CustomerGatewayId": "cgw-aabbccddee1122334",
        "Category": "VPN",
        "State": "modifying",
        "Type": "ipsec.1",
        "VpnConnectionId": "vpn-12345678901234567",
        "VpnGatewayId": "vgw-11223344556677889",
        "Options": {
            "StaticRoutesOnly": false
        },
        "VgwTelemetry": [
            {
                "AcceptedRouteCount": 0,
                "LastStatusChange": "2019-07-17T07:34:00.000Z",
                "OutsideIpAddress": "18.210.3.222",
                "Status": "DOWN",
                "StatusMessage": "IPSEC IS DOWN"
            },
            {
                "AcceptedRouteCount": 0,
                "LastStatusChange": "2019-07-20T21:20:16.000Z",
                "OutsideIpAddress": "34.193.129.33",
                "Status": "DOWN",
                "StatusMessage": "IPSEC IS DOWN"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ModifyVpnConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpn-connection.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpn-tunnel-certificate`
<a name="ec2_ModifyVpnTunnelCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpn-tunnel-certificate`.

**AWS CLI**  
**Untuk memutar sertifikat terowongan VPN**  
`modify-vpn-tunnel-certificate`Contoh berikut memutar sertifikat untuk terowongan yang ditentukan untuk koneksi VPN  

```
aws ec2 modify-vpn-tunnel-certificate \
    --vpn-tunnel-outside-ip-address 203.0.113.17 \
    --vpn-connection-id vpn-12345678901234567
```
Output:  

```
{
    "VpnConnection": {
        "CustomerGatewayConfiguration": ...configuration information...,
        "CustomerGatewayId": "cgw-aabbccddee1122334",
        "Category": "VPN",
        "State": "modifying",
        "Type": "ipsec.1",
        "VpnConnectionId": "vpn-12345678901234567",
        "VpnGatewayId": "vgw-11223344556677889",
        "Options": {
            "StaticRoutesOnly": false
        },
        "VgwTelemetry": [
            {
                "AcceptedRouteCount": 0,
                "LastStatusChange": "2019-09-11T17:27:14.000Z",
                "OutsideIpAddress": "203.0.113.17",
                "Status": "DOWN",
                "StatusMessage": "IPSEC IS DOWN",
                "CertificateArn": "arn:aws:acm:us-east-1:123456789101:certificate/c544d8ce-20b8-4fff-98b0-example"
            },
            {
                "AcceptedRouteCount": 0,
                "LastStatusChange": "2019-09-11T17:26:47.000Z",
                "OutsideIpAddress": "203.0.114.18",
                "Status": "DOWN",
                "StatusMessage": "IPSEC IS DOWN",
                "CertificateArn": "arn:aws:acm:us-east-1:123456789101:certificate/5ab64566-761b-4ad3-b259-example"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ModifyVpnTunnelCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpn-tunnel-certificate.html)di *Referensi AWS CLI Perintah*. 

### `modify-vpn-tunnel-options`
<a name="ec2_ModifyVpnTunnelOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-vpn-tunnel-options`.

**AWS CLI**  
**Untuk memodifikasi opsi terowongan untuk koneksi VPN**  
`modify-vpn-tunnel-options`Contoh berikut memperbarui grup Diffie-Hellman yang diizinkan untuk terowongan dan koneksi VPN yang ditentukan.  

```
aws ec2 modify-vpn-tunnel-options \
    --vpn-connection-id vpn-12345678901234567 \
    --vpn-tunnel-outside-ip-address 203.0.113.17 \
    --tunnel-options Phase1DHGroupNumbers=[{Value=14},{Value=15},{Value=16},{Value=17},{Value=18}],Phase2DHGroupNumbers=[{Value=14},{Value=15},{Value=16},{Value=17},{Value=18}]
```
Output:  

```
{
    "VpnConnection": {
        "CustomerGatewayConfiguration": "...configuration information...",
        "CustomerGatewayId": "cgw-aabbccddee1122334",
        "Category": "VPN",
        "State": "available",
        "Type": "ipsec.1",
        "VpnConnectionId": "vpn-12345678901234567",
        "VpnGatewayId": "vgw-11223344556677889",
        "Options": {
            "StaticRoutesOnly": false,
            "TunnelOptions": [
                {
                    "OutsideIpAddress": "203.0.113.17",
                    "Phase1DHGroupNumbers": [
                        {
                            "Value": 14
                        },
                        {
                            "Value": 15
                        },
                        {
                            "Value": 16
                        },
                        {
                            "Value": 17
                        },
                        {
                            "Value": 18
                        }
                    ],
                    "Phase2DHGroupNumbers": [
                        {
                            "Value": 14
                        },
                        {
                            "Value": 15
                        },
                        {
                            "Value": 16
                        },
                        {
                            "Value": 17
                        },
                        {
                            "Value": 18
                        }
                    ]
                },
                {
                    "OutsideIpAddress": "203.0.114.19"
                }
            ]
        },
        "VgwTelemetry": [
            {
                "AcceptedRouteCount": 0,
                "LastStatusChange": "2019-09-10T21:56:54.000Z",
                "OutsideIpAddress": "203.0.113.17",
                "Status": "DOWN",
                "StatusMessage": "IPSEC IS DOWN"
            },
            {
                "AcceptedRouteCount": 0,
                "LastStatusChange": "2019-09-10T21:56:43.000Z",
                "OutsideIpAddress": "203.0.114.19",
                "Status": "DOWN",
                "StatusMessage": "IPSEC IS DOWN"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [ModifyVpnTunnelOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpn-tunnel-options.html)di *Referensi AWS CLI Perintah*. 

### `monitor-instances`
<a name="ec2_MonitorInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`monitor-instances`.

**AWS CLI**  
**Untuk mengaktifkan pemantauan yang mendetail untuk instans**  
Perintah contoh ini mengaktifkan pemantauan yang mendetail untuk instans tertentu.  
Perintah:  

```
aws ec2 monitor-instances --instance-ids i-1234567890abcdef0
```
Output:  

```
{
  "InstanceMonitorings": [
      {
          "InstanceId": "i-1234567890abcdef0",
          "Monitoring": {
              "State": "pending"
          }
      }
  ]
}
```
+  Untuk detail API, lihat [MonitorInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/monitor-instances.html)di *Referensi AWS CLI Perintah*. 

### `move-address-to-vpc`
<a name="ec2_MoveAddressToVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`move-address-to-vpc`.

**AWS CLI**  
**Untuk memindahkan alamat ke EC2-VPC**  
Contoh ini memindahkan alamat IP Elastis 54.123.4.56 ke platform EC2-VPC.  
Perintah:  

```
aws ec2 move-address-to-vpc --public-ip 54.123.4.56
```
Output:  

```
{
  "Status": "MoveInProgress"
}
```
+  Untuk detail API, lihat [MoveAddressToVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/move-address-to-vpc.html)di *Referensi AWS CLI Perintah*. 

### `move-byoip-cidr-to-ipam`
<a name="ec2_MoveByoipCidrToIpam_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`move-byoip-cidr-to-ipam`.

**AWS CLI**  
**Untuk mentransfer BYOIP CIDR ke IPAM**  
`move-byoip-cidr-to-ipam`Contoh berikut mentransfer BYOIP CIDR ke IPAM.  
(Linux):  

```
aws ec2 move-byoip-cidr-to-ipam \
    --region us-west-2 \
    --ipam-pool-id ipam-pool-0a03d430ca3f5c035 \
    --ipam-pool-owner 111111111111 \
    --cidr 130.137.249.0/24
```
(Windows):  

```
aws ec2 move-byoip-cidr-to-ipam ^
    --region us-west-2 ^
    --ipam-pool-id ipam-pool-0a03d430ca3f5c035 ^
    --ipam-pool-owner 111111111111 ^
    --cidr 130.137.249.0/24
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "130.137.249.0/24",
        "State": "pending-transfer"
    }
}
```
Untuk informasi selengkapnya, lihat [Tutorial: Mentransfer IPv4 CIDR BYOIP yang ada ke IPAM di Panduan Pengguna](https://docs.aws.amazon.com/vpc/latest/ipam/tutorials-byoip-ipam-transfer-ipv4.html) Amazon *VPC* IPAM.  
+  Untuk detail API, lihat [MoveByoipCidrToIpam](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/move-byoip-cidr-to-ipam.html)di *Referensi AWS CLI Perintah*. 

### `network-insights-access-scope`
<a name="ec2_NetworkInsightsAccessScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`network-insights-access-scope`.

**AWS CLI**  
**Untuk membuat cakupan akses Network Insights**  
`create-network-insights-access-scope`Contoh berikut membuat cakupan akses wawasan jaringan di AWS akun Anda.  

```
aws ec2 create-network-insights-access-scope \
    --cli-input-json file://access-scope-file.json
```
Isi dari `access-scope-file.json`:  

```
{
    {
        "MatchPaths": [
            {
                "Source": {
                    "ResourceStatement": {
                         "Resources": [
                            "vpc-abcd12e3"
                        ]
                    }
                }
            }
        ],
        "ExcludePaths": [
            {
                "Source": {
                    "ResourceStatement": {
                        "ResourceTypes": [
                            "AWS::EC2::InternetGateway"
                        ]
                    }
                }
            }
        ]
    }
}
```
Output:  

```
{
    "NetworkInsightsAccessScopeAnalysisId": "nisa-123456789111"
    }{
    "NetworkInsightsAccessScope": {
        "NetworkInsightsAccessScopeId": "nis-123456789222",
        "NetworkInsightsAccessScopeArn": "arn:aws:ec2:us-east-1:123456789222:network-insights-access-scope/nis-123456789222",
        "CreatedDate": "2022-01-25T19:20:28.796000+00:00",
        "UpdatedDate": "2022-01-25T19:20:28.797000+00:00"
    },
    "NetworkInsightsAccessScopeContent": {
        "NetworkInsightsAccessScopeId": "nis-04c0c0fbca737c404",
        "MatchPaths": [
            {
                "Source": {
                    "ResourceStatement": {
                        "Resources": [
                            "vpc-abcd12e3"
                        ]
                    }
                }
            }
        ],
        "ExcludePaths": [
            {
                "Source": {
                    "ResourceStatement": {
                        "ResourceTypes": [
                            "AWS::EC2::InternetGateway"
                        ]
                    }
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli-naa.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [NetworkInsightsAccessScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/network-insights-access-scope.html)di *Referensi AWS CLI Perintah*. 

### `provision-byoip-cidr`
<a name="ec2_ProvisionByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`provision-byoip-cidr`.

**AWS CLI**  
**Untuk menyediakan rentang alamat**  
`provision-byoip-cidr`Contoh berikut menyediakan rentang alamat IP publik untuk digunakan dengan AWS.  

```
aws ec2 provision-byoip-cidr \
    --cidr 203.0.113.25/24 \
    --cidr-authorization-context Message="$text_message",Signature="$signed_message"
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "203.0.113.25/24",
        "State": "pending-provision"
    }
}
```
Untuk informasi selengkapnya tentang membuat string pesan untuk konteks otorisasi, lihat [Membawa Alamat IP Anda Sendiri](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-byoip.html) di Panduan Pengguna *Amazon EC2*.  
+  Untuk detail API, lihat [ProvisionByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/provision-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `provision-ipam-pool-cidr`
<a name="ec2_ProvisionIpamPoolCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`provision-ipam-pool-cidr`.

**AWS CLI**  
**Untuk menyediakan CIDR ke kolam IPAM**  
`provision-ipam-pool-cidr`Contoh berikut menyediakan CIDR ke kolam IPAM.  
(Linux):  

```
aws ec2 provision-ipam-pool-cidr \
    --ipam-pool-id ipam-pool-0533048da7d823723 \
    --cidr 10.0.0.0/24
```
(Windows):  

```
aws ec2 provision-ipam-pool-cidr ^
    --ipam-pool-id ipam-pool-0533048da7d823723 ^
    --cidr 10.0.0.0/24
```
Output:  

```
{
    "IpamPoolCidr": {
        "Cidr": "10.0.0.0/24",
        "State": "pending-provision"
    }
}
```
Untuk informasi selengkapnya, lihat [Penyediaan CIDRs ke kumpulan](https://docs.aws.amazon.com/vpc/latest/ipam/prov-cidr-ipam.html) di Panduan *Pengguna Amazon VPC IPAM*.  
+  Untuk detail API, lihat [ProvisionIpamPoolCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/provision-ipam-pool-cidr.html)di *Referensi AWS CLI Perintah*. 

### `purchase-host-reservation`
<a name="ec2_PurchaseHostReservation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purchase-host-reservation`.

**AWS CLI**  
**Untuk membeli Reservasi Tuan Rumah Khusus**  
Contoh ini membeli penawaran Reservasi Host Khusus yang ditentukan untuk Host Khusus yang ditentukan di akun Anda.  
Perintah:  

```
aws ec2 purchase-host-reservation --offering-id hro-03f707bf363b6b324 --host-id-set h-013abcd2a00cbd123
```
Output:  

```
{
  "TotalHourlyPrice": "1.499",
  "Purchase": [
      {
          "HourlyPrice": "1.499",
          "InstanceFamily": "m4",
          "PaymentOption": "NoUpfront",
          "HostIdSet": [
              "h-013abcd2a00cbd123"
          ],
          "HostReservationId": "hr-0d418a3a4ffc669ae",
          "UpfrontPrice": "0.000",
          "Duration": 31536000
      }
  ],
  "TotalUpfrontPrice": "0.000"
}
```
+  Untuk detail API, lihat [PurchaseHostReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/purchase-host-reservation.html)di *Referensi AWS CLI Perintah*. 

### `purchase-reserved-instances-offering`
<a name="ec2_PurchaseReservedInstancesOffering_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purchase-reserved-instances-offering`.

**AWS CLI**  
**Untuk membeli penawaran Instans Cadangan**  
Perintah contoh ini menggambarkan pembelian penawaran Instans Cadangan, yang menentukan ID penawaran dan jumlah instans.  
Perintah:  

```
aws ec2 purchase-reserved-instances-offering --reserved-instances-offering-id ec06327e-dd07-46ee-9398-75b5fexample --instance-count 3
```
Output:  

```
{
  "ReservedInstancesId": "af9f760e-6f91-4559-85f7-4980eexample"
}
```
+  Untuk detail API, lihat [PurchaseReservedInstancesOffering](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/purchase-reserved-instances-offering.html)di *Referensi AWS CLI Perintah*. 

### `purchase-scheduled-instances`
<a name="ec2_PurchaseScheduledInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purchase-scheduled-instances`.

**AWS CLI**  
**Untuk membeli Instance Terjadwal**  
Contoh ini membeli Instance Terjadwal.  
Perintah:  

```
aws ec2 purchase-scheduled-instances --purchase-requests file://purchase-request.json
```
Permintaan pembelian.json:  

```
[
    {
        "PurchaseToken": "eyJ2IjoiMSIsInMiOjEsImMiOi...",
        "InstanceCount": 1
    }
]
```
Output:  

```
{
  "ScheduledInstanceSet": [
      {
          "AvailabilityZone": "us-west-2b",
          "ScheduledInstanceId": "sci-1234-1234-1234-1234-123456789012",
          "HourlyPrice": "0.095",
          "CreateDate": "2016-01-25T21:43:38.612Z",
          "Recurrence": {
              "OccurrenceDaySet": [
                  1
              ],
              "Interval": 1,
              "Frequency": "Weekly",
              "OccurrenceRelativeToEnd": false,
              "OccurrenceUnit": ""
          },
          "Platform": "Linux/UNIX",
          "TermEndDate": "2017-01-31T09:00:00Z",
          "InstanceCount": 1,
          "SlotDurationInHours": 32,
          "TermStartDate": "2016-01-31T09:00:00Z",
          "NetworkPlatform": "EC2-VPC",
          "TotalScheduledInstanceHours": 1696,
          "NextSlotStartTime": "2016-01-31T09:00:00Z",
          "InstanceType": "c4.large"
      }
  ]
}
```
+  Untuk detail API, lihat [PurchaseScheduledInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/purchase-scheduled-instances.html)di *Referensi AWS CLI Perintah*. 

### `reboot-instances`
<a name="ec2_RebootInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-instances`.

**AWS CLI**  
**Untuk melakukan boot ulang instans Amazon EC2**  
Contoh ini melakukan boot ulang instans tertentu. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 reboot-instances --instance-ids i-1234567890abcdef5
```
Untuk informasi selengkapnya, lihat Melakukan Boot Ulang Instans Anda di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [RebootInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reboot-instances.html)di *Referensi AWS CLI Perintah*. 

### `register-image`
<a name="ec2_RegisterImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-image`.

**AWS CLI**  
**Contoh 1: Untuk mendaftarkan AMI menggunakan file manifes**  
`register-image`Contoh berikut mendaftarkan AMI menggunakan file manifes yang ditentukan di Amazon S3.  

```
aws ec2 register-image \
    --name my-image \
    --image-location amzn-s3-demo-bucket/myimage/image.manifest.xml
```
Output:  

```
{
    "ImageId": "ami-1234567890EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Amazon Machine Image (AMI)](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk mendaftarkan AMI menggunakan snapshot perangkat root**  
`register-image`Contoh berikut mendaftarkan AMI menggunakan snapshot yang ditentukan dari volume root EBS sebagai perangkat. `/dev/xvda` Pemetaan perangkat blok juga menyertakan volume 100 GiB EBS kosong sebagai perangkat. `/dev/xvdf`  

```
aws ec2 register-image \
    --name my-image \
    --root-device-name /dev/xvda \
    --block-device-mappings DeviceName=/dev/xvda,Ebs={SnapshotId=snap-0db2cf683925d191f} DeviceName=/dev/xvdf,Ebs={VolumeSize=100}
```
Output:  

```
{
    "ImageId": "ami-1a2b3c4d5eEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Amazon Machine Image (AMI)](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [RegisterImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/register-image.html)di *Referensi AWS CLI Perintah*. 

### `register-instance-event-notification-attributes`
<a name="ec2_RegisterInstanceEventNotificationAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-instance-event-notification-attributes`.

**AWS CLI**  
**Contoh 1: Untuk menyertakan semua tag dalam pemberitahuan acara**  
`register-instance-event-notification-attributes`Contoh berikut mencakup semua tag dalam pemberitahuan acara.  

```
aws ec2 register-instance-event-notification-attributes \
    --instance-tag-attribute IncludeAllTagsOfInstance=true
```
Output:  

```
{
    "InstanceTagAttribute": {
        "InstanceTagKeys": [],
        "IncludeAllTagsOfInstance": true
    }
}
```
Untuk informasi selengkapnya, lihat [Acara terjadwal untuk instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/monitoring-instances-status-check_sched.html) di Panduan *Pengguna Amazon EC2*.  
**Contoh 2: Untuk menyertakan tag tertentu dalam pemberitahuan acara**  
`register-instance-event-notification-attributes`Contoh berikut mencakup tag yang ditentukan dalam pemberitahuan acara. Anda tidak dapat menentukan tag jika `IncludeAllTagsOfInstance` ada`true`.  

```
aws ec2 register-instance-event-notification-attributes \
    --instance-tag-attribute InstanceTagKeys="tag-key1","tag-key2"
```
Output:  

```
{
    "InstanceTagAttribute": {
        "InstanceTagKeys": [
            "tag-key1",
            "tag-key2"
        ],
        "IncludeAllTagsOfInstance": false
    }
}
```
Untuk informasi selengkapnya, lihat [Acara terjadwal untuk instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/monitoring-instances-status-check_sched.html) di Panduan *Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [RegisterInstanceEventNotificationAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/register-instance-event-notification-attributes.html)di *Referensi AWS CLI Perintah*. 

### `register-transit-gateway-multicase-group-sources`
<a name="ec2_RegisterTransitGatewayMulticaseGroupSources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-transit-gateway-multicase-group-sources`.

**AWS CLI**  
**Untuk mendaftarkan sumber dengan grup multicast gateway transit.**  
`register-transit-gateway-multicast-group-sources`Contoh berikut mendaftarkan sumber grup antarmuka jaringan yang ditentukan dengan grup multicast.  

```
aws ec2 register-transit-gateway-multicast-group-sources \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef79d6e597 \
    --group-ip-address 224.0.1.0 \
    --network-interface-ids eni-07f290fc3c090cbae
```
Output:  

```
{
    "RegisteredMulticastGroupSources": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-0c4905cef79d6e597",
        "RegisteredNetworkInterfaceIds": [
            "eni-07f290fc3c090cbae"
        ],
        "GroupIpAddress": "224.0.1.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Sumber dengan Grup Multicast di Panduan Pengguna AWS](https://docs.aws.amazon.com/vpc/latest/tgw/working-with-multicast.html#add-source-multicast-group) *Transit Gateways*.  
+  Untuk detail API, lihat [RegisterTransitGatewayMulticaseGroupSources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/register-transit-gateway-multicase-group-sources.html)di *Referensi AWS CLI Perintah*. 

### `register-transit-gateway-multicast-group-members`
<a name="ec2_RegisterTransitGatewayMulticastGroupMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-transit-gateway-multicast-group-members`.

**AWS CLI**  
**Untuk melihat informasi tentang asosiasi domain multicast gateway transit**  
`register-transit-gateway-multicast-group-members`Contoh berikut mengembalikan asosiasi untuk domain multicast tertentu.  

```
aws ec2 register-transit-gateway-multicast-group-members \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef79d6e597 \
    --group-ip-address 224.0.1.0 \
    --network-interface-ids eni-0e246d32695012e81
```
Output:  

```
{
    "RegisteredMulticastGroupMembers": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-0c4905cef79d6e597",
        "RegisteredNetworkInterfaceIds": [
            "eni-0e246d32695012e81"
        ],
        "GroupIpAddress": "224.0.1.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Domain multicast](https://docs.aws.amazon.com/vpc/latest/tgw/multicast-domains-about.html) di Panduan Pengguna *Transit Gateways*.  
+  Untuk detail API, lihat [RegisterTransitGatewayMulticastGroupMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/register-transit-gateway-multicast-group-members.html)di *Referensi AWS CLI Perintah*. 

### `register-transit-gateway-multicast-group-sources`
<a name="ec2_RegisterTransitGatewayMulticastGroupSources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-transit-gateway-multicast-group-sources`.

**AWS CLI**  
**Untuk mendaftarkan sumber dengan grup multicast gateway transit.**  
`register-transit-gateway-multicast-group-sources`Contoh berikut mendaftarkan sumber grup antarmuka jaringan yang ditentukan dengan grup multicast.  

```
aws ec2 register-transit-gateway-multicast-group-sources \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-0c4905cef79d6e597 \
    --group-ip-address 224.0.1.0 \
    --network-interface-ids eni-07f290fc3c090cbae
```
Output:  

```
{
    "RegisteredMulticastGroupSources": {
        "TransitGatewayMulticastDomainId": "tgw-mcast-domain-0c4905cef79d6e597",
        "RegisteredNetworkInterfaceIds": [
            "eni-07f290fc3c090cbae"
        ],
        "GroupIpAddress": "224.0.1.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Domain multicast](https://docs.aws.amazon.com/vpc/latest/tgw/multicast-domains-about.html) di Panduan *Transit* Gateways.  
+  Untuk detail API, lihat [RegisterTransitGatewayMulticastGroupSources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/register-transit-gateway-multicast-group-sources.html)di *Referensi AWS CLI Perintah*. 

### `reject-transit-gateway-peering-attachment`
<a name="ec2_RejectTransitGatewayPeeringAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-transit-gateway-peering-attachment`.

**AWS CLI**  
**Untuk menolak lampiran peering gateway transit**  
`reject-transit-gateway-peering-attachment`Contoh berikut menolak permintaan lampiran peering gateway transit yang ditentukan. `--region`Parameter menentukan Wilayah tempat gateway transit penerima berada.  

```
aws ec2 reject-transit-gateway-peering-attachment \
    --transit-gateway-attachment-id tgw-attach-4455667788aabbccd \
    --region us-east-2
```
Output:  

```
{
    "TransitGatewayPeeringAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-4455667788aabbccd",
        "RequesterTgwInfo": {
            "TransitGatewayId": "tgw-123abc05e04123abc",
            "OwnerId": "123456789012",
            "Region": "us-west-2"
        },
        "AccepterTgwInfo": {
            "TransitGatewayId": "tgw-11223344aabbcc112",
            "OwnerId": "123456789012",
            "Region": "us-east-2"
        },
        "State": "rejecting",
        "CreationTime": "2019-12-09T11:50:31.000Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran Pengintip Transit Gateway](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-peering.html) *di Panduan Gerbang Transit*.  
+  Untuk detail API, lihat [RejectTransitGatewayPeeringAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reject-transit-gateway-peering-attachment.html)di *Referensi AWS CLI Perintah*. 

### `reject-transit-gateway-vpc-attachment`
<a name="ec2_RejectTransitGatewayVpcAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-transit-gateway-vpc-attachment`.

**AWS CLI**  
**Untuk menolak lampiran VPC gateway transit**  
`reject-transit-gateway-vpc-attachment`Contoh berikut menolak lampiran VPC gateway transit yang ditentukan.  

```
aws ec2 reject-transit-gateway-vpc-attachment \
    --transit-gateway-attachment-id tgw-attach-0a34fe6b4fEXAMPLE
```
Output:  

```
{
    "TransitGatewayVpcAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-0a34fe6b4fEXAMPLE",
        "TransitGatewayId": "tgw-0262a0e521EXAMPLE",
        "VpcId": "vpc-07e8ffd50fEXAMPLE",
        "VpcOwnerId": "111122223333",
        "State": "pending",
        "SubnetIds": [
            "subnet-0752213d59EXAMPLE"
        ],
        "CreationTime": "2019-07-10T17:33:46.000Z",
        "Options": {
            "DnsSupport": "enable",
            "Ipv6Support": "disable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran gateway transit ke VPC](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-vpc-attachments.html) di Panduan Gerbang *Transit*.  
+  Untuk detail API, lihat [RejectTransitGatewayVpcAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reject-transit-gateway-vpc-attachment.html)di *Referensi AWS CLI Perintah*. 

### `reject-transit-gateway-vpc-attachments`
<a name="ec2_RejectTransitGatewayVpcAttachments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-transit-gateway-vpc-attachments`.

**AWS CLI**  
**Untuk menolak lampiran VPC gateway transit**  
`reject-transit-gateway-vpc-attachment`Contoh berikut menolak lampiran VPC gateway transit yang ditentukan.  

```
aws ec2 reject-transit-gateway-vpc-attachment \
    --transit-gateway-attachment-id tgw-attach-0a34fe6b4fEXAMPLE
```
Output:  

```
{
    "TransitGatewayVpcAttachment": {
        "TransitGatewayAttachmentId": "tgw-attach-0a34fe6b4fEXAMPLE",
        "TransitGatewayId": "tgw-0262a0e521EXAMPLE",
        "VpcId": "vpc-07e8ffd50fEXAMPLE",
        "VpcOwnerId": "111122223333",
        "State": "pending",
        "SubnetIds": [
            "subnet-0752213d59EXAMPLE"
        ],
        "CreationTime": "2019-07-10T17:33:46.000Z",
        "Options": {
            "DnsSupport": "enable",
            "Ipv6Support": "disable"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran gateway transit ke VPC](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-vpc-attachments.html) di Panduan Gerbang *Transit*.  
+  Untuk detail API, lihat [RejectTransitGatewayVpcAttachments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reject-transit-gateway-vpc-attachments.html)di *Referensi AWS CLI Perintah*. 

### `reject-vpc-endpoint-connections`
<a name="ec2_RejectVpcEndpointConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-vpc-endpoint-connections`.

**AWS CLI**  
**Untuk menolak permintaan koneksi titik akhir antarmuka**  
Contoh ini menolak permintaan koneksi endpoint yang ditentukan untuk layanan endpoint yang ditentukan.  
Perintah:  

```
aws ec2 reject-vpc-endpoint-connections --service-id vpce-svc-03d5ebb7d9579a2b3 --vpc-endpoint-ids vpce-0c1308d7312217abc
```
Output:  

```
{
  "Unsuccessful": []
}
```
+  Untuk detail API, lihat [RejectVpcEndpointConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reject-vpc-endpoint-connections.html)di *Referensi AWS CLI Perintah*. 

### `reject-vpc-peering-connection`
<a name="ec2_RejectVpcPeeringConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-vpc-peering-connection`.

**AWS CLI**  
**Untuk menolak koneksi peering VPC**  
Contoh ini menolak permintaan koneksi peering VPC yang ditentukan.  
Perintah:  

```
aws ec2 reject-vpc-peering-connection --vpc-peering-connection-id pcx-1a2b3c4d
```
Output:  

```
{
    "Return": true
}
```
+  Untuk detail API, lihat [RejectVpcPeeringConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reject-vpc-peering-connection.html)di *Referensi AWS CLI Perintah*. 

### `release-address`
<a name="ec2_ReleaseAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`release-address`.

**AWS CLI**  
**Guna merilis alamat IP Elastis untuk EC2-Classic**  
Contoh ini merilis alamat IP Elastis untuk digunakan dengan instans di EC2-Classic. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 release-address --public-ip 198.51.100.0
```
**Guna merilis alamat IP Elastis untuk EC2-VPC**  
Contoh ini merilis alamat IP Elastis untuk digunakan dengan instans di VPC. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 release-address --allocation-id eipalloc-64d5890a
```
+  Untuk detail API, lihat [ReleaseAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/release-address.html)di *Referensi AWS CLI Perintah*. 

### `release-hosts`
<a name="ec2_ReleaseHosts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`release-hosts`.

**AWS CLI**  
**Untuk melepaskan host Khusus dari akun Anda**  
Untuk melepaskan host Khusus dari akun Anda. Instance yang ada di host harus dihentikan atau dihentikan sebelum host dapat dirilis.  
Perintah:  

```
aws ec2 release-hosts --host-id=h-0029d6e3cacf1b3da
```
Output:  

```
{
    "Successful":  [
        "h-0029d6e3cacf1b3da"
         ],
  "Unsuccessful": []

 }
```
+  Untuk detail API, lihat [ReleaseHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/release-hosts.html)di *Referensi AWS CLI Perintah*. 

### `release-ipam-pool-allocation`
<a name="ec2_ReleaseIpamPoolAllocation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`release-ipam-pool-allocation`.

**AWS CLI**  
**Untuk merilis alokasi kolam IPAM**  
Dalam contoh ini, Anda adalah admin yang didelegasikan IPAM yang mencoba menghapus kumpulan IPAM tetapi menerima kesalahan bahwa Anda tidak dapat menghapus kumpulan saat kumpulan memiliki alokasi. Anda menggunakan perintah ini untuk melepaskan alokasi kumpulan.  
Perhatikan hal-hal berikut:  
Anda hanya dapat menggunakan perintah ini untuk alokasi kustom. Untuk menghapus alokasi sumber daya tanpa menghapus sumber daya, atur status yang dipantau ke false menggunakan [modify-ipam-resource-cidr](https://docs.aws.amazon.com/cli/latest/reference/ec2/modify-ipam-resource-cidr.html).Untuk menyelesaikan permintaan ini, Anda memerlukan ID kolam IPAM, yang bisa Anda dapatkan. [describe-ipam-pools](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-ipam-pools.html) Anda juga memerlukan ID alokasi, yang bisa Anda dapatkan dengan [get-ipam-pool-allocations](https://docs.aws.amazon.com/cli/latest/reference/ec2/get-ipam-pool-allocations.html).Jika Anda tidak ingin menghapus alokasi satu per satu, Anda dapat menggunakan `--cascade option` ketika Anda menghapus kolam IPAM untuk secara otomatis melepaskan alokasi apa pun di kolam sebelum menghapusnya.Ada sejumlah prasyarat sebelum menjalankan perintah ini. Untuk informasi selengkapnya, lihat [Melepaskan alokasi](https://docs.aws.amazon.com/vpc/latest/ipam/release-alloc-ipam.html) di Panduan *Pengguna Amazon VPC IPAM*`--region`. Di mana Anda menjalankan perintah ini harus merupakan lokal dari kumpulan IPAM di mana alokasi berada.  
`release-ipam-pool-allocation`Contoh berikut merilis alokasi kolam IPAM.  

```
aws ec2 release-ipam-pool-allocation \
    --ipam-pool-id ipam-pool-07bdd12d7c94e4693 \
    --cidr 10.0.0.0/23 \
    --ipam-pool-allocation-id ipam-pool-alloc-0e66a1f730da54791b99465b79e7d1e89 \
    --region us-west-1
```
Output:  

```
{
    "Success": true
}
```
Setelah Anda merilis alokasi, Anda mungkin ingin menjalankannya [delete-ipam-pool](https://docs.aws.amazon.com/cli/latest/reference/ec2/delete-ipam-pool.html).  
+  Untuk detail API, lihat [ReleaseIpamPoolAllocation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/release-ipam-pool-allocation.html)di *Referensi AWS CLI Perintah*. 

### `replace-iam-instance-profile-association`
<a name="ec2_ReplaceIamInstanceProfileAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`replace-iam-instance-profile-association`.

**AWS CLI**  
**Guna mengganti profil instans IAM untuk instans**  
Contoh ini menggantikan profil instans IAM yang direpresentasikan oleh kaitan `iip-assoc-060bae234aac2e7fa` dengan profil instans IAM bernama `AdminRole`.  

```
aws ec2 replace-iam-instance-profile-association \
    --iam-instance-profile Name=AdminRole \
    --association-id iip-assoc-060bae234aac2e7fa
```
Output:  

```
{
    "IamInstanceProfileAssociation": {
        "InstanceId": "i-087711ddaf98f9489",
        "State": "associating",
        "AssociationId": "iip-assoc-0b215292fab192820",
        "IamInstanceProfile": {
            "Id": "AIPAJLNLDX3AMYZNWYYAY",
            "Arn": "arn:aws:iam::123456789012:instance-profile/AdminRole"
        }
    }
}
```
+  Untuk detail API, lihat [ReplaceIamInstanceProfileAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-iam-instance-profile-association.html)di *Referensi AWS CLI Perintah*. 

### `replace-network-acl-association`
<a name="ec2_ReplaceNetworkAclAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`replace-network-acl-association`.

**AWS CLI**  
**Untuk mengganti ACL jaringan yang terkait dengan subnet**  
Contoh ini mengaitkan ACL jaringan tertentu dengan subnet untuk asosiasi ACL jaringan tertentu.  
Perintah:  

```
aws ec2 replace-network-acl-association --association-id aclassoc-e5b95c8c --network-acl-id acl-5fb85d36
```
Output:  

```
{
    "NewAssociationId": "aclassoc-3999875b"
}
```
+  Untuk detail API, lihat [ReplaceNetworkAclAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-network-acl-association.html)di *Referensi AWS CLI Perintah*. 

### `replace-network-acl-entry`
<a name="ec2_ReplaceNetworkAclEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`replace-network-acl-entry`.

**AWS CLI**  
**Untuk mengganti entri ACL jaringan**  
Contoh ini menggantikan entri untuk ACL jaringan tertentu. Aturan baru 100 memungkinkan masuknya lalu lintas dari 203.0.113.12/24 pada port UDP 53 (DNS) ke subnet terkait.  
Perintah:  

```
aws ec2 replace-network-acl-entry --network-acl-id acl-5fb85d36 --ingress --rule-number 100 --protocol udp --port-range From=53,To=53 --cidr-block 203.0.113.12/24 --rule-action allow
```
+  Untuk detail API, lihat [ReplaceNetworkAclEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-network-acl-entry.html)di *Referensi AWS CLI Perintah*. 

### `replace-route-table-association`
<a name="ec2_ReplaceRouteTableAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`replace-route-table-association`.

**AWS CLI**  
**Untuk mengganti tabel rute yang terkait dengan subnet**  
Contoh ini mengaitkan tabel rute yang ditentukan dengan subnet untuk asosiasi tabel rute yang ditentukan.  
Perintah:  

```
aws ec2 replace-route-table-association --association-id rtbassoc-781d0d1a --route-table-id rtb-22574640
```
Output:  

```
{
    "NewAssociationId": "rtbassoc-3a1f0f58"
}
```
+  Untuk detail API, lihat [ReplaceRouteTableAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-route-table-association.html)di *Referensi AWS CLI Perintah*. 

### `replace-route`
<a name="ec2_ReplaceRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`replace-route`.

**AWS CLI**  
**Untuk mengganti rute**  
Contoh ini menggantikan rute yang ditentukan dalam tabel rute yang ditentukan. Rute baru cocok dengan CIDR yang ditentukan dan mengirimkan lalu lintas ke gateway pribadi virtual yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 replace-route --route-table-id rtb-22574640 --destination-cidr-block 10.0.0.0/16 --gateway-id vgw-9a4cacf3
```
+  Untuk detail API, lihat [ReplaceRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-route.html)di *Referensi AWS CLI Perintah*. 

### `replace-transit-gateway-route`
<a name="ec2_ReplaceTransitGatewayRoute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`replace-transit-gateway-route`.

**AWS CLI**  
**Untuk mengganti rute yang ditentukan dalam tabel rute gateway transit yang ditentukan**  
`replace-transit-gateway-route`Contoh berikut menggantikan rute dalam tabel rute gateway transit yang ditentukan.  

```
aws ec2 replace-transit-gateway-route \
    --destination-cidr-block 10.0.2.0/24 \
    --transit-gateway-attachment-id tgw-attach-09b52ccdb5EXAMPLE \
    --transit-gateway-route-table-id tgw-rtb-0a823edbdeEXAMPLE
```
Output:  

```
{
    "Route": {
        "DestinationCidrBlock": "10.0.2.0/24",
        "TransitGatewayAttachments": [
            {
                "ResourceId": "vpc-4EXAMPLE",
                "TransitGatewayAttachmentId": "tgw-attach-09b52ccdb5EXAMPLE",
                "ResourceType": "vpc"
            }
        ],
        "Type": "static",
        "State": "active"
    }
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [ReplaceTransitGatewayRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-transit-gateway-route.html)di *Referensi AWS CLI Perintah*. 

### `report-instance-status`
<a name="ec2_ReportInstanceStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`report-instance-status`.

**AWS CLI**  
**Untuk melaporkan umpan balik status untuk sebuah instance**  
Perintah contoh ini melaporkan umpan balik status untuk instance tertentu.  
Perintah:  

```
aws ec2 report-instance-status --instances i-1234567890abcdef0 --status impaired --reason-codes unresponsive
```
+  Untuk detail API, lihat [ReportInstanceStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/report-instance-status.html)di *Referensi AWS CLI Perintah*. 

### `request-spot-fleet`
<a name="ec2_RequestSpotFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`request-spot-fleet`.

**AWS CLI**  
**Untuk meminta armada Spot di subnet dengan harga terendah**  
Perintah contoh ini membuat permintaan armada Spot dengan dua spesifikasi peluncuran yang hanya berbeda dengan subnet. Armada Spot meluncurkan instans di subnet yang ditentukan dengan harga terendah. Jika instance diluncurkan dalam VPC default, mereka menerima alamat IP publik secara default. Jika instans diluncurkan dalam VPC nondefault, mereka tidak menerima alamat IP publik secara default.  
Perhatikan bahwa Anda tidak dapat menentukan subnet yang berbeda dari Availability Zone yang sama dalam permintaan armada Spot.  
Perintah:  

```
aws ec2 request-spot-fleet --spot-fleet-request-config file://config.json
```
config.json:  

```
{
  "SpotPrice": "0.04",
  "TargetCapacity": 2,
  "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role",
  "LaunchSpecifications": [
      {
          "ImageId": "ami-1a2b3c4d",
          "KeyName": "my-key-pair",
          "SecurityGroups": [
              {
                  "GroupId": "sg-1a2b3c4d"
              }
          ],
          "InstanceType": "m3.medium",
          "SubnetId": "subnet-1a2b3c4d, subnet-3c4d5e6f",
          "IamInstanceProfile": {
              "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role"
          }
      }
  ]
}
```
Output:  

```
{
  "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE"
}
```
**Untuk meminta armada Spot di Availability Zone dengan harga terendah**  
Perintah contoh ini membuat permintaan armada Spot dengan dua spesifikasi peluncuran yang hanya berbeda dengan Availability Zone. Armada Spot meluncurkan instans di Availability Zone yang ditentukan dengan harga terendah. Jika akun Anda hanya mendukung EC2-VPC, Amazon EC2 meluncurkan instans Spot di subnet default Availability Zone. Jika akun Anda mendukung EC2-Classic, Amazon EC2 meluncurkan instans di EC2-Classic di Availability Zone.  
Perintah:  

```
aws ec2 request-spot-fleet --spot-fleet-request-config file://config.json
```
config.json:  

```
{
  "SpotPrice": "0.04",
  "TargetCapacity": 2,
  "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role",
  "LaunchSpecifications": [
      {
          "ImageId": "ami-1a2b3c4d",
          "KeyName": "my-key-pair",
          "SecurityGroups": [
              {
                  "GroupId": "sg-1a2b3c4d"
              }
          ],
          "InstanceType": "m3.medium",
          "Placement": {
              "AvailabilityZone": "us-west-2a, us-west-2b"
          },
          "IamInstanceProfile": {
              "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role"
          }
      }
  ]
}
```
**Untuk meluncurkan instans Spot di subnet dan menetapkannya alamat IP publik**  
Perintah contoh ini menetapkan alamat publik ke instance yang diluncurkan di VPC nondefault. Perhatikan bahwa ketika Anda menentukan antarmuka jaringan, Anda harus menyertakan ID subnet dan ID grup keamanan menggunakan antarmuka jaringan.  
Perintah:  

```
aws ec2 request-spot-fleet --spot-fleet-request-config file://config.json
```
config.json:  

```
{
  "SpotPrice": "0.04",
  "TargetCapacity": 2,
  "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role",
  "LaunchSpecifications": [
      {
          "ImageId": "ami-1a2b3c4d",
          "KeyName": "my-key-pair",
          "InstanceType": "m3.medium",
          "NetworkInterfaces": [
              {
                  "DeviceIndex": 0,
                  "SubnetId": "subnet-1a2b3c4d",
                  "Groups": [ "sg-1a2b3c4d" ],
                  "AssociatePublicIpAddress": true
              }
          ],
          "IamInstanceProfile": {
              "Arn": "arn:aws:iam::880185128111:instance-profile/my-iam-role"
          }
      }
  ]
}
```
**Untuk meminta armada Spot menggunakan strategi alokasi yang beragam**  
Perintah contoh ini membuat permintaan armada Spot yang meluncurkan 30 instance menggunakan strategi alokasi yang beragam. Spesifikasi peluncuran berbeda menurut jenis instans. Armada Spot mendistribusikan instans di seluruh spesifikasi peluncuran sehingga ada 10 instance dari setiap jenis.  
Perintah:  

```
aws ec2 request-spot-fleet --spot-fleet-request-config file://config.json
```
config.json:  

```
{
  "SpotPrice": "0.70",
  "TargetCapacity": 30,
  "AllocationStrategy": "diversified",
  "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role",
  "LaunchSpecifications": [
      {
          "ImageId": "ami-1a2b3c4d",
          "InstanceType": "c4.2xlarge",
          "SubnetId": "subnet-1a2b3c4d"
      },
      {
          "ImageId": "ami-1a2b3c4d",
          "InstanceType": "m3.2xlarge",
          "SubnetId": "subnet-1a2b3c4d"
      },
      {
          "ImageId": "ami-1a2b3c4d",
          "InstanceType": "r3.2xlarge",
          "SubnetId": "subnet-1a2b3c4d"
      }
  ]
}
```
Untuk informasi selengkapnya, lihat Permintaan Armada Spot di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [RequestSpotFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/request-spot-fleet.html)di *Referensi AWS CLI Perintah*. 

### `request-spot-instances`
<a name="ec2_RequestSpotInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`request-spot-instances`.

**AWS CLI**  
**Untuk meminta Instans Spot**  
Perintah contoh ini membuat permintaan Instans Spot satu kali untuk lima instance di Availability Zone yang ditentukan. Jika akun Anda hanya mendukung EC2-VPC, Amazon EC2 meluncurkan instans di subnet default dari Availability Zone yang ditentukan. Jika akun Anda mendukung EC2-Classic, Amazon EC2 meluncurkan instans di EC2-Classic di Availability Zone yang ditentukan.  
Perintah:  

```
aws ec2 request-spot-instances --spot-price "0.03" --instance-count 5 --type "one-time" --launch-specification file://specification.json
```
Spesifikasi.json:  

```
{
  "ImageId": "ami-1a2b3c4d",
  "KeyName": "my-key-pair",
  "SecurityGroupIds": [ "sg-1a2b3c4d" ],
  "InstanceType": "m3.medium",
  "Placement": {
    "AvailabilityZone": "us-west-2a"
  },
  "IamInstanceProfile": {
      "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role"
  }
}
```
Output:  

```
{
  "SpotInstanceRequests": [
      {
          "Status": {
              "UpdateTime": "2014-03-25T20:54:21.000Z",
              "Code": "pending-evaluation",
              "Message": "Your Spot request has been submitted for review, and is pending evaluation."
          },
          "ProductDescription": "Linux/UNIX",
          "SpotInstanceRequestId": "sir-df6f405d",
          "State": "open",
          "LaunchSpecification": {
              "Placement": {
                  "AvailabilityZone": "us-west-2a"
              },
              "ImageId": "ami-1a2b3c4d",
              "KeyName": "my-key-pair",
              "SecurityGroups": [
                  {
                      "GroupName": "my-security-group",
                      "GroupId": "sg-1a2b3c4d"
                  }
              ],
              "Monitoring": {
                  "Enabled": false
              },
              "IamInstanceProfile": {
                  "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role"
              },
              "InstanceType": "m3.medium"
          },
          "Type": "one-time",
          "CreateTime": "2014-03-25T20:54:20.000Z",
          "SpotPrice": "0.050000"
      },
      ...
  ]
}
```
Perintah contoh ini membuat permintaan Instans Spot satu kali untuk lima instance di subnet yang ditentukan. Amazon EC2 meluncurkan instans di subnet yang ditentukan. Jika VPC adalah VPC nondefault, instance tidak menerima alamat IP publik secara default.  
Perintah:  

```
aws ec2 request-spot-instances --spot-price "0.050" --instance-count 5 --type "one-time" --launch-specification file://specification.json
```
Spesifikasi.json:  

```
{
  "ImageId": "ami-1a2b3c4d",
  "SecurityGroupIds": [ "sg-1a2b3c4d" ],
  "InstanceType": "m3.medium",
  "SubnetId": "subnet-1a2b3c4d",
  "IamInstanceProfile": {
      "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role"
  }
}
```
Output:  

```
{
  "SpotInstanceRequests": [
      {
          "Status": {
             "UpdateTime": "2014-03-25T22:21:58.000Z",
             "Code": "pending-evaluation",
             "Message": "Your Spot request has been submitted for review, and is pending evaluation."
          },
          "ProductDescription": "Linux/UNIX",
          "SpotInstanceRequestId": "sir-df6f405d",
          "State": "open",
          "LaunchSpecification": {
             "Placement": {
                 "AvailabilityZone": "us-west-2a"
             }
             "ImageId": "ami-1a2b3c4d"
             "SecurityGroups": [
                 {
                     "GroupName": "my-security-group",
                     "GroupID": "sg-1a2b3c4d"
                 }
             ]
             "SubnetId": "subnet-1a2b3c4d",
             "Monitoring": {
                 "Enabled": false
             },
             "IamInstanceProfile": {
                 "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role"
             },
             "InstanceType": "m3.medium",
         },
         "Type": "one-time",
         "CreateTime": "2014-03-25T22:21:58.000Z",
         "SpotPrice": "0.050000"
      },
      ...
  ]
}
```
Contoh ini menetapkan alamat IP publik ke Instans Spot yang Anda luncurkan di VPC nondefault. Perhatikan bahwa ketika Anda menentukan antarmuka jaringan, Anda harus menyertakan ID subnet dan ID grup keamanan menggunakan antarmuka jaringan.  
Perintah:  

```
aws ec2 request-spot-instances --spot-price "0.050" --instance-count 1 --type "one-time" --launch-specification file://specification.json
```
Spesifikasi.json:  

```
{
  "ImageId": "ami-1a2b3c4d",
  "KeyName": "my-key-pair",
  "InstanceType": "m3.medium",
  "NetworkInterfaces": [
    {
      "DeviceIndex": 0,
      "SubnetId": "subnet-1a2b3c4d",
      "Groups": [ "sg-1a2b3c4d" ],
      "AssociatePublicIpAddress": true
    }
  ],
  "IamInstanceProfile": {
      "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role"
  }
}
```
+  Untuk detail API, lihat [RequestSpotInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/request-spot-instances.html)di *Referensi AWS CLI Perintah*. 

### `reset-address-attribute`
<a name="ec2_ResetAddressAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-address-attribute`.

**AWS CLI**  
**Untuk mengatur ulang atribut nama domain yang terkait dengan alamat IP elastis**  
`reset-address-attribute`Contoh berikut mengatur ulang atribut nama domain dari alamat IP elastis.  
Linux:  

```
aws ec2 reset-address-attribute \
    --allocation-id eipalloc-abcdef01234567890 \
    --attribute domain-name
```
Windows:  

```
aws ec2 reset-address-attribute ^
    --allocation-id eipalloc-abcdef01234567890 ^
    --attribute domain-name
```
Output:  

```
{
    "Addresses": [
        {
            "PublicIp": "192.0.2.0",
            "AllocationId": "eipalloc-abcdef01234567890",
            "PtrRecord": "example.com."
            "PtrRecordUpdate": {
                "Value": "example.net.",
                "Status": "PENDING"
        }
    ]
}
```
Untuk memantau perubahan yang tertunda, lihat [describe-addresses-attribute](https://docs.aws.amazon.com/cli/latest/reference/ec2/describe-addresses-attribute.html)di Referensi *Perintah AWS CLI*.  
+  Untuk detail API, lihat [ResetAddressAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-address-attribute.html)di *Referensi AWS CLI Perintah*. 

### `reset-ebs-default-kms-key-id`
<a name="ec2_ResetEbsDefaultKmsKeyId_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-ebs-default-kms-key-id`.

**AWS CLI**  
**Untuk mengatur ulang CMK default Anda untuk enkripsi EBS**  
`reset-ebs-default-kms-key-id`Contoh berikut me-reset CMK default untuk enkripsi EBS untuk AWS akun Anda di Wilayah saat ini.  

```
aws ec2 reset-ebs-default-kms-key-id
```
Output:  

```
{
   "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/8c5b2c63-b9bc-45a3-a87a-5513eEXAMPLE"
}
```
+  Untuk detail API, lihat [ResetEbsDefaultKmsKeyId](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-ebs-default-kms-key-id.html)di *Referensi AWS CLI Perintah*. 

### `reset-fpga-image-attribute`
<a name="ec2_ResetFpgaImageAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-fpga-image-attribute`.

**AWS CLI**  
**Untuk mengatur ulang atribut gambar Amazon FPGA**  
Contoh ini mengatur ulang izin pemuatan untuk AFI yang ditentukan.  
Perintah:  

```
aws ec2 reset-fpga-image-attribute --fpga-image-id afi-0d123e123bfc85abc --attribute loadPermission
```
Output:  

```
{
  "Return": true
}
```
+  Untuk detail API, lihat [ResetFpgaImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-fpga-image-attribute.html)di *Referensi AWS CLI Perintah*. 

### `reset-image-attribute`
<a name="ec2_ResetImageAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-image-attribute`.

**AWS CLI**  
**Untuk mengatur ulang atribut launchPermission**  
Contoh ini me-reset `launchPermission` atribut untuk AMI yang ditentukan ke nilai defaultnya. Secara default, AMIs bersifat pribadi. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 reset-image-attribute --image-id ami-5731123e --attribute launchPermission
```
+  Untuk detail API, lihat [ResetImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-image-attribute.html)di *Referensi AWS CLI Perintah*. 

### `reset-instance-attribute`
<a name="ec2_ResetInstanceAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-instance-attribute`.

**AWS CLI**  
**Untuk mengatur ulang sourceDestCheck atribut**  
Contoh ini me-reset `sourceDestCheck` atribut dari instance tertentu. Instans harus dalam VPC. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 reset-instance-attribute --instance-id i-1234567890abcdef0 --attribute sourceDestCheck
```
**Untuk mengatur ulang atribut kernel**  
Contoh ini me-reset `kernel` atribut dari instance tertentu. Instans harus berada dalam status `stopped`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 reset-instance-attribute --instance-id i-1234567890abcdef0 --attribute kernel
```
**Untuk mengatur ulang atribut ramdisk**  
Contoh ini me-reset `ramdisk` atribut dari instance tertentu. Instans harus berada dalam status `stopped`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 reset-instance-attribute --instance-id i-1234567890abcdef0 --attribute ramdisk
```
+  Untuk detail API, lihat [ResetInstanceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-instance-attribute.html)di *Referensi AWS CLI Perintah*. 

### `reset-network-interface-attribute`
<a name="ec2_ResetNetworkInterfaceAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-network-interface-attribute`.

**AWS CLI**  
**Untuk mengatur ulang atribut antarmuka jaringan**  
`reset-network-interface-attribute`Contoh berikut me-reset nilai atribut source/destination pengecekan ke`true`.  

```
aws ec2 reset-network-interface-attribute \
    --network-interface-id eni-686ea200 \
    --source-dest-check
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [ResetNetworkInterfaceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-network-interface-attribute.html)di *Referensi AWS CLI Perintah*. 

### `reset-snapshot-attribute`
<a name="ec2_ResetSnapshotAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-snapshot-attribute`.

**AWS CLI**  
**Untuk mengatur ulang atribut snapshot**  
Contoh ini mengatur ulang izin volume buat untuk snapshot. `snap-1234567890abcdef0` Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 reset-snapshot-attribute --snapshot-id snap-1234567890abcdef0 --attribute createVolumePermission
```
+  Untuk detail API, lihat [ResetSnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-snapshot-attribute.html)di *Referensi AWS CLI Perintah*. 

### `restore-address-to-classic`
<a name="ec2_RestoreAddressToClassic_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-address-to-classic`.

**AWS CLI**  
**Untuk mengembalikan alamat ke EC2-Classic**  
Contoh ini mengembalikan alamat IP Elastis 198.51.100.0 ke platform EC2-Classic.  
Perintah:  

```
aws ec2 restore-address-to-classic --public-ip 198.51.100.0
```
Output:  

```
{
  "Status": "MoveInProgress",
  "PublicIp": "198.51.100.0"
}
```
+  Untuk detail API, lihat [RestoreAddressToClassic](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/restore-address-to-classic.html)di *Referensi AWS CLI Perintah*. 

### `restore-image-from-recycle-bin`
<a name="ec2_RestoreImageFromRecycleBin_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-image-from-recycle-bin`.

**AWS CLI**  
**Untuk mengembalikan gambar dari Recycle Bin**  
`restore-image-from-recycle-bin`Contoh berikut mengembalikan AMI ami-0111222333444abcd dari Recycle Bin.  

```
aws ec2 restore-image-from-recycle-bin \
    --image-id ami-0111222333444abcd
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Memulihkan dihapus AMIs dari Recycle Bin](https://docs.aws.amazon.com/ebs/latest/userguide/recycle-bin-working-with-amis.html) di *Panduan Pengguna Amazon EBS*.  
+  Untuk detail API, lihat [RestoreImageFromRecycleBin](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/restore-image-from-recycle-bin.html)di *Referensi AWS CLI Perintah*. 

### `restore-managed-prefix-list-version`
<a name="ec2_RestoreManagedPrefixListVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-managed-prefix-list-version`.

**AWS CLI**  
US-barat-2\$1\$1Untuk mengembalikan versi daftar awalan\$1\$1  
Berikut ini `restore-managed-prefix-list-version` mengembalikan entri dari versi 1 dari daftar awalan yang ditentukan.  

```
aws ec2 restore-managed-prefix-list-version \
    --prefix-list-id pl-0123456abcabcabc1 \
    --current-version 2 \
    --previous-version 1
```
Output:  

```
{
    "PrefixList": {
        "PrefixListId": "pl-0123456abcabcabc1",
        "AddressFamily": "IPv4",
        "State": "restore-in-progress",
        "PrefixListArn": "arn:aws:ec2:us-west-2:123456789012:prefix-list/pl-0123456abcabcabc1",
        "PrefixListName": "vpc-cidrs",
        "MaxEntries": 10,
        "Version": 2,
        "OwnerId": "123456789012"
    }
}
```
Untuk informasi selengkapnya, lihat [Daftar awalan terkelola](https://docs.aws.amazon.com/vpc/latest/userguide/managed-prefix-lists.html) di Panduan *Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [RestoreManagedPrefixListVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/restore-managed-prefix-list-version.html)di *Referensi AWS CLI Perintah*. 

### `restore-snapshot-from-recycle-bin`
<a name="ec2_RestoreSnapshotFromRecycleBin_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-snapshot-from-recycle-bin`.

**AWS CLI**  
**Untuk mengembalikan snapshot dari Recycle Bin**  
`restore-snapshot-from-recycle-bin`Contoh berikut mengembalikan snapshot dari Recycle Bin. Saat Anda memulihkan snapshot dari Keranjang Sampah, snapshot segera tersedia untuk digunakan, dan akan dihapus dari Keranjang Sampah. Anda dapat menggunakan AMI yang dipulihkan dengan cara yang sama seperti Anda menggunakan AMI lainnya di akun Anda.  

```
aws ec2 restore-snapshot-from-recycle-bin \
    --snapshot-id snap-01234567890abcdef
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya tentang Recycle Bin, lihat [Memulihkan snapshot yang dihapus dari Recycle Bin di Panduan](https://docs.aws.amazon.com/ebs/latest/userguide/recycle-bin-working-with-snaps.html) Pengguna *Amazon EBS*.  
+  Untuk detail API, lihat [RestoreSnapshotFromRecycleBin](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/restore-snapshot-from-recycle-bin.html)di *Referensi AWS CLI Perintah*. 

### `restore-snapshot-tier`
<a name="ec2_RestoreSnapshotTier_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-snapshot-tier`.

**AWS CLI**  
**Contoh 1: Untuk memulihkan snapshot yang diarsipkan secara permanen**  
`restore-snapshot-tier`Contoh berikut secara permanen mengembalikan snapshot yang ditentukan. Tentukan `--snapshot-id` dan sertakan `permanent-restore` opsi.  

```
aws ec2 restore-snapshot-tier \
    --snapshot-id snap-01234567890abcedf \
    --permanent-restore
```
Output:  

```
{
    "SnapshotId": "snap-01234567890abcedf",
    "IsPermanentRestore": true
}
```
Untuk informasi selengkapnya tentang pengarsipan snapshot, lihat Mengarsipkan [snapshot Amazon EBS di Panduan Pengguna](https://docs.aws.amazon.com/ebs/latest/userguide/snapshot-archive.html) *Amazon* EBS.  
**Contoh 2: Untuk memulihkan snapshot yang diarsipkan sementara**  
`restore-snapshot-tier`Contoh berikut untuk sementara mengembalikan snapshot yang ditentukan. Abaikan `--permanent-restore` opsi. Tentukan `--snapshot-id` dan`temporary-restore-days`, untuk, tentukan jumlah hari untuk mengembalikan snapshot. `temporary-restore-days`harus ditentukan dalam beberapa hari. Rentang yang diizinkan adalah `1` untuk`180`. Jika Anda tidak menentukan nilai, secara otomatis nilainya adalah `1` hari.  

```
aws ec2 restore-snapshot-tier \
    --snapshot-id snap-01234567890abcedf \
    --temporary-restore-days 5
```
Output:  

```
{
    "SnapshotId": "snap-01234567890abcedf",
    "RestoreDuration": 5,
    "IsPermanentRestore": false
}
```
Untuk informasi selengkapnya tentang pengarsipan snapshot, lihat Mengarsipkan [snapshot Amazon EBS di Panduan Pengguna](https://docs.aws.amazon.com/ebs/latest/userguide/snapshot-archive.html) *Amazon* EBS.  
**Contoh 3: Untuk memodifikasi periode pemulihan**  
`restore-snapshot-tier`Contoh berikut mengubah periode pemulihan untuk snapshot yang ditentukan menjadi `10` hari.  

```
aws ec2 restore-snapshot-tier \
    --snapshot-id snap-01234567890abcedf
    --temporary-restore-days 10
```
Output:  

```
{
    "SnapshotId": "snap-01234567890abcedf",
    "RestoreDuration": 10,
    "IsPermanentRestore": false
}
```
Untuk informasi selengkapnya tentang pengarsipan snapshot, lihat Mengarsipkan [snapshot Amazon EBS di Panduan Pengguna](https://docs.aws.amazon.com/ebs/latest/userguide/snapshot-archive.html) *Amazon* EBS.  
**Contoh 4: Untuk memodifikasi jenis pemulihan**  
`restore-snapshot-tier`Contoh berikut mengubah jenis pemulihan untuk snapshot yang ditentukan dari sementara ke permanen.  

```
aws ec2 restore-snapshot-tier \
    --snapshot-id snap-01234567890abcedf
    --permanent-restore
```
Output:  

```
{
    "SnapshotId": "snap-01234567890abcedf",
    "IsPermanentRestore": true
}
```
Untuk informasi selengkapnya tentang pengarsipan snapshot, lihat Mengarsipkan [snapshot Amazon EBS di Panduan Pengguna](https://docs.aws.amazon.com/ebs/latest/userguide/snapshot-archive.html) *Amazon* EBS.  
+  Untuk detail API, lihat [RestoreSnapshotTier](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/restore-snapshot-tier.html)di *Referensi AWS CLI Perintah*. 

### `revoke-client-vpn-ingress`
<a name="ec2_RevokeClientVpnIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-client-vpn-ingress`.

**AWS CLI**  
**Untuk mencabut aturan otorisasi untuk titik akhir Client VPN**  
`revoke-client-vpn-ingress`Contoh berikut mencabut aturan untuk akses internet (`0.0.0.0/0`) untuk semua grup.  

```
aws ec2 revoke-client-vpn-ingress \
    --client-vpn-endpoint-id cvpn-endpoint-123456789123abcde \
    --target-network-cidr 0.0.0.0/0 --revoke-all-groups
```
Output:  

```
{
    "Status": {
        "Code": "revoking"
    }
}
```
Untuk informasi selengkapnya, lihat [Aturan Otorisasi](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-rules.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [RevokeClientVpnIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/revoke-client-vpn-ingress.html)di *Referensi AWS CLI Perintah*. 

### `revoke-security-group-egress`
<a name="ec2_RevokeSecurityGroupEgress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-security-group-egress`.

**AWS CLI**  
**Contoh 1: Untuk menghapus aturan yang memungkinkan lalu lintas keluar ke rentang alamat tertentu**  
`revoke-security-group-egress`Contoh perintah berikut menghapus aturan yang memberikan akses ke rentang alamat yang ditentukan pada port TCP 80.  

```
aws ec2 revoke-security-group-egress \
    --group-id sg-026c12253ce15eff7 \
    --ip-permissions [{IpProtocol=tcp,FromPort=80,ToPort=80,IpRanges=[{CidrIp=10.0.0.0/16}]
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Grup keamanan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk menghapus aturan yang memungkinkan lalu lintas keluar ke grup keamanan tertentu**  
`revoke-security-group-egress`Contoh perintah berikut menghapus aturan yang memberikan akses ke grup keamanan yang ditentukan pada port TCP 80.  

```
aws ec2 revoke-security-group-egress \
    --group-id sg-026c12253ce15eff7 \
    --ip-permissions '[{"IpProtocol": "tcp", "FromPort": 443, "ToPort": 443,"UserIdGroupPairs": [{"GroupId": "sg-06df23a01ff2df86d"}]}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Grup keamanan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [RevokeSecurityGroupEgress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/revoke-security-group-egress.html)di *Referensi AWS CLI Perintah*. 

### `revoke-security-group-ingress`
<a name="ec2_RevokeSecurityGroupIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-security-group-ingress`.

**AWS CLI**  
**Contoh 1: Untuk menghapus aturan dari grup keamanan**  
`revoke-security-group-ingress`Contoh berikut menghapus akses port TCP 22 untuk rentang `203.0.113.0/24` alamat dari grup keamanan yang ditentukan untuk VPC default.  

```
aws ec2 revoke-security-group-ingress \
    --group-name mySecurityGroup
    --protocol tcp \
    --port 22 \
    --cidr 203.0.113.0/24
```
Perintah ini tidak menghasilkan output jika berhasil.  
Untuk informasi selengkapnya, lihat [Grup keamanan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk menghapus aturan menggunakan set izin IP**  
`revoke-security-group-ingress`Contoh berikut menggunakan `ip-permissions` parameter untuk menghapus aturan masuk yang memungkinkan pesan ICMP `Destination Unreachable: Fragmentation Needed and Don't Fragment was Set` (Tipe 3, Kode 4).  

```
aws ec2 revoke-security-group-ingress \
    --group-id sg-026c12253ce15eff7 \
    --ip-permissions IpProtocol=icmp,FromPort=3,ToPort=4,IpRanges=[{CidrIp=0.0.0.0/0}]
```
Perintah ini tidak menghasilkan output jika berhasil.  
Untuk informasi selengkapnya, lihat [Grup keamanan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [RevokeSecurityGroupIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/revoke-security-group-ingress.html)di *Referensi AWS CLI Perintah*. 

### `run-instances`
<a name="ec2_RunInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`run-instances`.

**AWS CLI**  
**Contoh 1: Untuk meluncurkan instans ke subnet default**  
Contoh `run-instances` berikut meluncurkan instans tunggal tipe `t2.micro` ke subnet default untuk Wilayah saat ini dan mengaitkannya dengan subnet default untuk VPC default pada Wilayah tersebut. Pasangan Kunci bersifat opsional jika Anda tidak berencana untuk terhubung ke instans menggunakan SSH (Linux) atau RDP (Windows).  

```
aws ec2 run-instances \
    --image-id ami-0abcdef1234567890 \
    --instance-type t2.micro \
    --key-name MyKeyPair
```
Output:  

```
{
    "Instances": [
        {
            "AmiLaunchIndex": 0,
            "ImageId": "ami-0abcdef1234567890",
            "InstanceId": "i-1231231230abcdef0",
            "InstanceType": "t2.micro",
            "KeyName": "MyKeyPair",
            "LaunchTime": "2018-05-10T08:05:20.000Z",
            "Monitoring": {
                "State": "disabled"
            },
            "Placement": {
                "AvailabilityZone": "us-east-2a",
                "GroupName": "",
                "Tenancy": "default"
            },
            "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal",
            "PrivateIpAddress": "10.0.0.157",
            "ProductCodes": [],
            "PublicDnsName": "",
            "State": {
                "Code": 0,
                "Name": "pending"
            },
            "StateTransitionReason": "",
            "SubnetId": "subnet-04a636d18e83cfacb",
            "VpcId": "vpc-1234567890abcdef0",
            "Architecture": "x86_64",
            "BlockDeviceMappings": [],
            "ClientToken": "",
            "EbsOptimized": false,
            "Hypervisor": "xen",
            "NetworkInterfaces": [
                {
                    "Attachment": {
                        "AttachTime": "2018-05-10T08:05:20.000Z",
                        "AttachmentId": "eni-attach-0e325c07e928a0405",
                        "DeleteOnTermination": true,
                        "DeviceIndex": 0,
                        "Status": "attaching"
                    },
                    "Description": "",
                    "Groups": [
                        {
                            "GroupName": "MySecurityGroup",
                            "GroupId": "sg-0598c7d356eba48d7"
                        }
                    ],
                    "Ipv6Addresses": [],
                    "MacAddress": "0a:ab:58:e0:67:e2",
                    "NetworkInterfaceId": "eni-0c0a29997760baee7",
                    "OwnerId": "123456789012",
                    "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal",
                    "PrivateIpAddress": "10.0.0.157",
                    "PrivateIpAddresses": [
                        {
                            "Primary": true,
                            "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal",
                            "PrivateIpAddress": "10.0.0.157"
                        }
                    ],
                    "SourceDestCheck": true,
                    "Status": "in-use",
                    "SubnetId": "subnet-04a636d18e83cfacb",
                    "VpcId": "vpc-1234567890abcdef0",
                    "InterfaceType": "interface"
                }
            ],
            "RootDeviceName": "/dev/xvda",
            "RootDeviceType": "ebs",
            "SecurityGroups": [
                {
                    "GroupName": "MySecurityGroup",
                    "GroupId": "sg-0598c7d356eba48d7"
                }
            ],
            "SourceDestCheck": true,
            "StateReason": {
                "Code": "pending",
                "Message": "pending"
            },
            "Tags": [],
            "VirtualizationType": "hvm",
            "CpuOptions": {
                "CoreCount": 1,
                "ThreadsPerCore": 1
            },
            "CapacityReservationSpecification": {
                "CapacityReservationPreference": "open"
            },
            "MetadataOptions": {
                "State": "pending",
                "HttpTokens": "optional",
                "HttpPutResponseHopLimit": 1,
                "HttpEndpoint": "enabled"
            }
        }
    ],
    "OwnerId": "123456789012",
    "ReservationId": "r-02a3f596d91211712"
}
```
**Contoh 2: Untuk meluncurkan instans ke subnet non-default dan menambahkan alamat IP publik**  
Contoh `run-instances` berikut meminta alamat IP publik untuk instans yang Anda luncurkan ke subnet non-default. Instans tersebut dikaitkan dengan grup keamanan tertentu.  

```
aws ec2 run-instances \
    --image-id ami-0abcdef1234567890 \
    --instance-type t2.micro \
    --subnet-id subnet-08fc749671b2d077c \
    --security-group-ids sg-0b0384b66d7d692f9 \
    --associate-public-ip-address \
    --key-name MyKeyPair
```
Untuk contoh output `run-instances`, lihat Contoh 1.  
**Contoh 3: Untuk meluncurkan instans dengan volume tambahan**  
Contoh `run-instances` berikut menggunakan pemetaan perangkat blok, yang ditentukan dalam mapping.json, untuk melampirkan volume tambahan saat peluncuran. Pemetaan perangkat blok dapat menentukan volume EBS, volume penyimpanan instans, atau volume EBS dan volume penyimpanan instans.  

```
aws ec2 run-instances \
    --image-id ami-0abcdef1234567890 \
    --instance-type t2.micro \
    --subnet-id subnet-08fc749671b2d077c \
    --security-group-ids sg-0b0384b66d7d692f9 \
    --key-name MyKeyPair \
    --block-device-mappings file://mapping.json
```
Isi dari `mapping.json`. Contoh ini menambahkan `/dev/sdh` sebagai volume EBS kosong dengan ukuran 100 GiB.  

```
[
    {
        "DeviceName": "/dev/sdh",
        "Ebs": {
            "VolumeSize": 100
        }
    }
]
```
Isi dari `mapping.json`. Contoh ini menambahkan `ephemeral1` sebagai volume penyimpanan instans.  

```
[
    {
        "DeviceName": "/dev/sdc",
        "VirtualName": "ephemeral1"
    }
]
```
Untuk contoh output `run-instances`, lihat Contoh 1.  
Untuk informasi selengkapnya tentang pemetaan perangkat blok, lihat [Pemetaan perangkat blok](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/block-device-mapping-concepts.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 4: Untuk meluncurkan instans dan menambahkan tanda pada pembuatan**  
Contoh `run-instances` berikut menambahkan tanda dengan kunci `webserver` dan nilai `production` pada instans. Perintah tersebut juga menerapkan tanda dengan kunci `cost-center` dan nilai `cc123` pada volume EBS yang dibuat (dalam hal ini, volume root).  

```
aws ec2 run-instances \
    --image-id ami-0abcdef1234567890 \
    --instance-type t2.micro \
    --count 1 \
    --subnet-id subnet-08fc749671b2d077c \
    --key-name MyKeyPair \
    --security-group-ids sg-0b0384b66d7d692f9 \
    --tag-specifications 'ResourceType=instance,Tags=[{Key=webserver,Value=production}]' 'ResourceType=volume,Tags=[{Key=cost-center,Value=cc123}]'
```
Untuk contoh output `run-instances`, lihat Contoh 1.  
**Contoh 5: Untuk meluncurkan instans dengan data pengguna**  
Contoh `run-instances` berikut meneruskan data pengguna dalam file bernama `my_script.txt` yang berisi skrip konfigurasi untuk instans Anda. Skrip berjalan saat peluncuran.  

```
aws ec2 run-instances \
    --image-id ami-0abcdef1234567890 \
    --instance-type t2.micro \
    --count 1 \
    --subnet-id subnet-08fc749671b2d077c \
    --key-name MyKeyPair \
    --security-group-ids sg-0b0384b66d7d692f9 \
    --user-data file://my_script.txt
```
Untuk contoh output `run-instances`, lihat Contoh 1.  
Untuk informasi selengkapnya tentang data pengguna instans, lihat [Bekerja dengan data pengguna instans](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instancedata-add-user-data.html) di *Panduan Pengguna Amazon EC2*.  
**Contoh 6: Untuk meluncurkan instans performa yang dapat melonjak**  
Contoh `run-instances` berikut meluncurkan instans t2.micro dengan opsi kredit `unlimited`. Ketika meluncurkan instans T2, jika Anda tidak menentukan `--credit-specification`, default-nya adalah opsi kredit `standard`. Ketika meluncurkan instans T3, default-nya adalah opsi kredit `unlimited`.  

```
aws ec2 run-instances \
    --image-id ami-0abcdef1234567890 \
    --instance-type t2.micro \
    --count 1 \
    --subnet-id subnet-08fc749671b2d077c \
    --key-name MyKeyPair \
    --security-group-ids sg-0b0384b66d7d692f9 \
    --credit-specification CpuCredits=unlimited
```
Untuk contoh output `run-instances`, lihat Contoh 1.  
Untuk informasi selengkapnya tentang instans performa yang dapat melonjak, lihat [Instans performa yang dapat melonjak](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/burstable-performance-instances.html) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [RunInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/run-instances.html)di *Referensi AWS CLI Perintah*. 

### `run-scheduled-instances`
<a name="ec2_RunScheduledInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`run-scheduled-instances`.

**AWS CLI**  
**Untuk meluncurkan Instance Terjadwal**  
Contoh ini meluncurkan Instance Terjadwal yang ditentukan dalam VPC.  
Perintah:  

```
aws ec2 run-scheduled-instances --scheduled-instance-id sci-1234-1234-1234-1234-123456789012 --instance-count 1 --launch-specification file://launch-specification.json
```
Launch-specification.json:  

```
{
  "ImageId": "ami-12345678",
  "KeyName": "my-key-pair",
  "InstanceType": "c4.large",
  "NetworkInterfaces": [
    {
        "DeviceIndex": 0,
        "SubnetId": "subnet-12345678",
        "AssociatePublicIpAddress": true,
        "Groups": ["sg-12345678"]
    }
  ],
  "IamInstanceProfile": {
      "Name": "my-iam-role"
  }
}
```
Output:  

```
{
  "InstanceIdSet": [
      "i-1234567890abcdef0"
  ]
}
```
Contoh ini meluncurkan Instance Terjadwal yang ditentukan di EC2-Classic.  
Perintah:  

```
aws ec2 run-scheduled-instances --scheduled-instance-id sci-1234-1234-1234-1234-123456789012 --instance-count 1 --launch-specification file://launch-specification.json
```
Launch-specification.json:  

```
{
  "ImageId": "ami-12345678",
  "KeyName": "my-key-pair",
  "SecurityGroupIds": ["sg-12345678"],
  "InstanceType": "c4.large",
  "Placement": {
    "AvailabilityZone": "us-west-2b"
  }
  "IamInstanceProfile": {
      "Name": "my-iam-role"
  }
}
```
Output:  

```
{
  "InstanceIdSet": [
      "i-1234567890abcdef0"
  ]
}
```
+  Untuk detail API, lihat [RunScheduledInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/run-scheduled-instances.html)di *Referensi AWS CLI Perintah*. 

### `search-local-gateway-routes`
<a name="ec2_SearchLocalGatewayRoutes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-local-gateway-routes`.

**AWS CLI**  
**Untuk mencari rute dalam tabel rute gateway lokal**  
`search-local-gateway-routes`Contoh berikut mencari rute statis dalam tabel rute gateway lokal yang ditentukan.  

```
aws ec2 search-local-gateway-routes \
    --local-gateway-route-table-id lgw-rtb-059615ef7dEXAMPLE \
    --filters "Name=type,Values=static"
```
Output:  

```
{
    "Route": {
        "DestinationCidrBlock": "0.0.0.0/0",
        "LocalGatewayVirtualInterfaceGroupId": "lgw-vif-grp-07145b276bEXAMPLE",
        "Type": "static",
        "State": "deleted",
        "LocalGatewayRouteTableId": "lgw-rtb-059615ef7EXAMPLE"
    }
}
```
+  Untuk detail API, lihat [SearchLocalGatewayRoutes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/search-local-gateway-routes.html)di *Referensi AWS CLI Perintah*. 

### `search-transit-gateway-multicast-groups`
<a name="ec2_SearchTransitGatewayMulticastGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-transit-gateway-multicast-groups`.

**AWS CLI**  
**Untuk mencari satu atau beberapa grup multicast gateway transit dan mengembalikan informasi keanggotaan grup**  
`search-transit-gateway-multicast-groups`Contoh berikut mengembalikan keanggotaan grup grup multicast tertentu.  

```
aws ec2 search-transit-gateway-multicast-groups \
    --transit-gateway-multicast-domain-id tgw-mcast-domain-000fb24d04EXAMPLE
```
Output:  

```
{
    "MulticastGroups": [
        {
            "GroupIpAddress": "224.0.1.0",
            "TransitGatewayAttachmentId": "tgw-attach-0372e72386EXAMPLE",
            "SubnetId": "subnet-0187aff814EXAMPLE",
            "ResourceId": "vpc-0065acced4EXAMPLE",
            "ResourceType": "vpc",
            "NetworkInterfaceId": "eni-03847706f6EXAMPLE",
            "GroupMember": false,
            "GroupSource": true,
            "SourceType": "static"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Multicast di gateway transit di](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-multicast-overview.html) Panduan Gerbang Transit.*  
+  Untuk detail API, lihat [SearchTransitGatewayMulticastGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/search-transit-gateway-multicast-groups.html)di *Referensi AWS CLI Perintah*. 

### `search-transit-gateway-routes`
<a name="ec2_SearchTransitGatewayRoutes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-transit-gateway-routes`.

**AWS CLI**  
**Untuk mencari rute dalam tabel rute gateway transit yang ditentukan**  
`search-transit-gateway-routes`Contoh berikut mengembalikan semua rute yang bertipe `static` dalam tabel rute yang ditentukan.  

```
aws ec2 search-transit-gateway-routes \
    --transit-gateway-route-table-id tgw-rtb-0a823edbdeEXAMPLE \
    --filters "Name=type,Values=static"
```
Output:  

```
{
    "Routes": [
        {
            "DestinationCidrBlock": "10.0.2.0/24",
            "TransitGatewayAttachments": [
                {
                    "ResourceId": "vpc-4EXAMPLE",
                    "TransitGatewayAttachmentId": "tgw-attach-09b52ccdb5EXAMPLE",
                    "ResourceType": "vpc"
                }
            ],
            "Type": "static",
            "State": "active"
        },
        {
            "DestinationCidrBlock": "10.1.0.0/24",
            "TransitGatewayAttachments": [
                {
                    "ResourceId": "vpc-4EXAMPLE",
                    "TransitGatewayAttachmentId": "tgw-attach-09b52ccdb5EXAMPLE",
                    "ResourceType": "vpc"
                }
            ],
            "Type": "static",
            "State": "active"
        }
    ],
    "AdditionalRoutesAvailable": false
}
```
Untuk informasi selengkapnya, lihat [Tabel rute *gateway transit*](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-route-tables.html) di Panduan Gerbang Transit.  
+  Untuk detail API, lihat [SearchTransitGatewayRoutes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/search-transit-gateway-routes.html)di *Referensi AWS CLI Perintah*. 

### `send-diagnostic-interrupt`
<a name="ec2_SendDiagnosticInterrupt_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-diagnostic-interrupt`.

**AWS CLI**  
**Untuk mengirim interupsi diagnostik**  
`send-diagnostic-interrupt`Contoh berikut mengirimkan interupsi diagnostik ke instance yang ditentukan.  

```
aws ec2 send-diagnostic-interrupt \
    --instance-id i-1234567890abcdef0
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SendDiagnosticInterrupt](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/send-diagnostic-interrupt.html)di *Referensi AWS CLI Perintah*. 

### `start-instances`
<a name="ec2_StartInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-instances`.

**AWS CLI**  
**Untuk memulai instans Amazon EC2**  
Contoh ini memulai instans yang didukung Amazon EBS tertentu.  
Perintah:  

```
aws ec2 start-instances --instance-ids i-1234567890abcdef0
```
Output:  

```
{
    "StartingInstances": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "CurrentState": {
                "Code": 0,
                "Name": "pending"
            },
            "PreviousState": {
                "Code": 80,
                "Name": "stopped"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat Hentikan dan Mulai Instans Anda di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [StartInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/start-instances.html)di *Referensi AWS CLI Perintah*. 

### `start-network-insights-access-scope-analysis`
<a name="ec2_StartNetworkInsightsAccessScopeAnalysis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-network-insights-access-scope-analysis`.

**AWS CLI**  
**Untuk memulai analisis cakupan akses Network Insights**  
`start-network-insights-access-scope-analysis`Contoh berikut memulai analisis lingkup di AWS akun Anda.  

```
aws ec2 start-network-insights-access-scope-analysis \
    --region us-east-1 \
    --network-insights-access-scope-id nis-123456789111
```
Output:  

```
{
    "NetworkInsightsAccessScopeAnalysis": {
        "NetworkInsightsAccessScopeAnalysisId": "nisa-123456789222",
        "NetworkInsightsAccessScopeAnalysisArn": "arn:aws:ec2:us-east-1:123456789012:network-insights-access-scope-analysis/nisa-123456789222",
        "NetworkInsightsAccessScopeId": "nis-123456789111",
        "Status": "running",
        "StartDate": "2022-01-26T00:47:06.814000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai Network Access Analyzer menggunakan AWS CLI di](https://docs.aws.amazon.com/vpc/latest/network-access-analyzer/getting-started-cli.html) *Network Access* Analyzer Guide.  
+  Untuk detail API, lihat [StartNetworkInsightsAccessScopeAnalysis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/start-network-insights-access-scope-analysis.html)di *Referensi AWS CLI Perintah*. 

### `start-network-insights-analysis`
<a name="ec2_StartNetworkInsightsAnalysis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-network-insights-analysis`.

**AWS CLI**  
**Untuk menganalisis jalur**  
`start-network-insights-analysis`Contoh berikut menganalisis jalur antara sumber dan tujuan. Untuk melihat hasil analisis jalur, gunakan `describe-network-insights-analyses` perintah.  

```
aws ec2 start-network-insights-analysis \
    --network-insights-path-id nip-0b26f224f1d131fa8
```
Output:  

```
{
    "NetworkInsightsAnalysis": {
        "NetworkInsightsAnalysisId": "nia-02207aa13eb480c7a",
        "NetworkInsightsAnalysisArn": "arn:aws:ec2:us-east-1:123456789012:network-insights-analysis/nia-02207aa13eb480c7a",
        "NetworkInsightsPathId": "nip-0b26f224f1d131fa8",
        "StartDate": "2021-01-20T22:58:37.495Z",
        "Status": "running"
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai menggunakan AWS CLI](https://docs.aws.amazon.com/vpc/latest/reachability/getting-started-cli.html) di Panduan *Reachability Analyzer*.  
+  Untuk detail API, lihat [StartNetworkInsightsAnalysis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/start-network-insights-analysis.html)di *Referensi AWS CLI Perintah*. 

### `start-vpc-endpoint-service-private-dns-verification`
<a name="ec2_StartVpcEndpointServicePrivateDnsVerification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-vpc-endpoint-service-private-dns-verification`.

**AWS CLI**  
**Untuk memulai proses verifikasi DNS**  
`start-vpc-endpoint-service-private-dns-verification`Contoh berikut memulai proses verifikasi DNS untuk layanan endpoint yang ditentukan.  

```
aws ec2 start-vpc-endpoint-service-private-dns-verification \
    --service-id vpce-svc-071afff70666e61e0
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola nama DNS](https://docs.aws.amazon.com/vpc/latest/privatelink/manage-dns-names.html) di *Panduan AWS PrivateLink Pengguna*.  
+  Untuk detail API, lihat [StartVpcEndpointServicePrivateDnsVerification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/start-vpc-endpoint-service-private-dns-verification.html)di *Referensi AWS CLI Perintah*. 

### `stop-instances`
<a name="ec2_StopInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-instances`.

**AWS CLI**  
**Contoh 1: Untuk menghentikan instans Amazon EC2**  
Contoh `stop-instances` berikut menghentikan instans yang didukung Amazon EBS tertentu.  

```
aws ec2 stop-instances \
    --instance-ids i-1234567890abcdef0
```
Output:  

```
{
    "StoppingInstances": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "CurrentState": {
                "Code": 64,
                "Name": "stopping"
            },
            "PreviousState": {
                "Code": 16,
                "Name": "running"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Hentikan dan Mulai Instans Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Stop_Start.html) di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
**Contoh 2: Untuk menghibernasi instans Amazon EC2**  
Contoh `stop-instances` berikut menghibernasi instans yang didukung Amazon EBS jika instans diaktifkan untuk hibernasi dan memenuhi prasyarat hibernasi. Setelah instans dimasukkan ke hibernasi, instans berhenti.  

```
aws ec2 stop-instances \
    --instance-ids i-1234567890abcdef0 \
    --hibernate
```
Output:  

```
{
    "StoppingInstances": [
        {
            "CurrentState": {
                "Code": 64,
                "Name": "stopping"
            },
            "InstanceId": "i-1234567890abcdef0",
            "PreviousState": {
                "Code": 16,
                "Name": "running"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Hibernasikan instans Linux Sesuai Permintaan Anda](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Hibernate.html) di *Panduan Pengguna Amazon Elastic Compute Cloud*.  
+  Untuk detail API, lihat [StopInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/stop-instances.html)di *Referensi AWS CLI Perintah*. 

### `terminate-client-vpn-connections`
<a name="ec2_TerminateClientVpnConnections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`terminate-client-vpn-connections`.

**AWS CLI**  
**Untuk mengakhiri koneksi ke titik akhir Client VPN**  
`terminate-client-vpn-connections`Contoh berikut mengakhiri koneksi yang ditentukan ke titik akhir Client VPN.  

```
aws ec2 terminate-client-vpn-connections \
    --client-vpn-endpoint-id vpn-endpoint-123456789123abcde \
    --connection-id cvpn-connection-04edd76f5201e0cb8
```
Output:  

```
{
    "ClientVpnEndpointId": "vpn-endpoint-123456789123abcde",
    "ConnectionStatuses": [
        {
            "ConnectionId": "cvpn-connection-04edd76f5201e0cb8",
            "PreviousStatus": {
                "Code": "active"
            },
            "CurrentStatus": {
                "Code": "terminating"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Koneksi Klien](https://docs.aws.amazon.com/vpn/latest/clientvpn-admin/cvpn-working-connections.html) di *Panduan Administrator AWS Client VPN*.  
+  Untuk detail API, lihat [TerminateClientVpnConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/terminate-client-vpn-connections.html)di *Referensi AWS CLI Perintah*. 

### `terminate-instances`
<a name="ec2_TerminateInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`terminate-instances`.

**AWS CLI**  
**Untuk mengakhiri instans Amazon EC2**  
Contoh ini mengakhiri instans tertentu.  
Perintah:  

```
aws ec2 terminate-instances --instance-ids i-1234567890abcdef0
```
Output:  

```
{
    "TerminatingInstances": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "CurrentState": {
                "Code": 32,
                "Name": "shutting-down"
            },
            "PreviousState": {
                "Code": 16,
                "Name": "running"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat Menggunakan Instans Amazon EC2 di *Panduan Pengguna Antarmuka Baris Perintah AWS *.  
+  Untuk detail API, lihat [TerminateInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/terminate-instances.html)di *Referensi AWS CLI Perintah*. 

### `unassign-ipv6-addresses`
<a name="ec2_UnassignIpv6Addresses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unassign-ipv6-addresses`.

**AWS CLI**  
**Untuk membatalkan penetapan IPv6 alamat dari antarmuka jaringan**  
Contoh ini membatalkan penetapan IPv6 alamat yang ditentukan dari antarmuka jaringan yang ditentukan.  
Perintah:  

```
aws ec2 unassign-ipv6-addresses --ipv6-addresses 2001:db8:1234:1a00:3304:8879:34cf:4071 --network-interface-id eni-23c49b68
```
Output:  

```
{
  "NetworkInterfaceId": "eni-23c49b68",
  "UnassignedIpv6Addresses": [
      "2001:db8:1234:1a00:3304:8879:34cf:4071"
  ]
}
```
+  Untuk detail API, lihat [UnassignIpv6Alamat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/unassign-ipv6-addresses.html) di *Referensi AWS CLI Perintah*. 

### `unassign-private-ip-addresses`
<a name="ec2_UnassignPrivateIpAddresses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unassign-private-ip-addresses`.

**AWS CLI**  
**Untuk membatalkan penetapan alamat IP pribadi sekunder dari antarmuka jaringan**  
Contoh ini tidak menetapkan alamat IP pribadi yang ditentukan dari antarmuka jaringan yang ditentukan. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  
Perintah:  

```
aws ec2 unassign-private-ip-addresses --network-interface-id eni-e5aa89a3 --private-ip-addresses 10.0.0.82
```
+  Untuk detail API, lihat [UnassignPrivateIpAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/unassign-private-ip-addresses.html)di *Referensi AWS CLI Perintah*. 

### `unassign-private-nat-gateway-address`
<a name="ec2_UnassignPrivateNatGatewayAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unassign-private-nat-gateway-address`.

**AWS CLI**  
**Untuk membatalkan penetapan alamat IP pribadi dari gateway NAT pribadi Anda**  
`unassign-private-nat-gateway-address`Contoh berikut membatalkan penetapan alamat IP yang ditentukan dari gateway NAT pribadi yang ditentukan.  

```
aws ec2 unassign-private-nat-gateway-address \
    --nat-gateway-id nat-1234567890abcdef0 \
    --private-ip-addresses 10.0.20.197
```
Output:  

```
{
    "NatGatewayId": "nat-0ee3edd182361f662",
    "NatGatewayAddresses": [
        {
            "NetworkInterfaceId": "eni-0065a61b324d1897a",
            "PrivateIp": "10.0.20.197",
            "IsPrimary": false,
            "Status": "unassigning"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Gateway NAT](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-nat-gateway.html) dalam *Panduan Pengguna Amazon VPC*.  
+  Untuk detail API, lihat [UnassignPrivateNatGatewayAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/unassign-private-nat-gateway-address.html)di *Referensi AWS CLI Perintah*. 

### `unlock-snapshot`
<a name="ec2_UnlockSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unlock-snapshot`.

**AWS CLI**  
**Untuk membuka snapshot**  
`unlock-snapshot`Contoh berikut membuka snapshot yang ditentukan.  

```
aws ec2 unlock-snapshot \
    --snapshot-id snap-0b5e733b4a8df6e0d
```
Output:  

```
{
    "SnapshotId": "snap-0b5e733b4a8df6e0d"
}
```
Untuk informasi selengkapnya, lihat [Kunci snapshot](https://docs.aws.amazon.com/ebs/latest/userguide/ebs-snapshot-lock.html) di *Panduan Pengguna Amazon EBS*.  
+  Untuk detail API, lihat [UnlockSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/unlock-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `unmonitor-instances`
<a name="ec2_UnmonitorInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unmonitor-instances`.

**AWS CLI**  
**Untuk menonaktifkan pemantauan yang mendetail untuk instans**  
Perintah contoh ini menonaktifkan pemantauan yang mendetail untuk instans tertentu.  
Perintah:  

```
aws ec2 unmonitor-instances --instance-ids i-1234567890abcdef0
```
Output:  

```
{
  "InstanceMonitorings": [
      {
          "InstanceId": "i-1234567890abcdef0",
          "Monitoring": {
              "State": "disabling"
          }
      }
  ]
}
```
+  Untuk detail API, lihat [UnmonitorInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/unmonitor-instances.html)di *Referensi AWS CLI Perintah*. 

### `update-security-group-rule-descriptions-egress`
<a name="ec2_UpdateSecurityGroupRuleDescriptionsEgress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-security-group-rule-descriptions-egress`.

**AWS CLI**  
**Untuk memperbarui deskripsi aturan grup keamanan keluar**  
`update-security-group-rule-descriptions-egress`Contoh berikut memperbarui deskripsi untuk aturan grup keamanan untuk port dan rentang IPv4 alamat yang ditentukan. Deskripsi '`Outbound HTTP access to server 2`' menggantikan deskripsi yang ada untuk aturan.  

```
aws ec2 update-security-group-rule-descriptions-egress \
    --group-id sg-02f0d35a850ba727f \
    --ip-permissions IpProtocol=tcp,FromPort=80,ToPort=80,IpRanges=[{CidrIp=203.0.113.0/24,Description="Outbound HTTP access to server 2"}]
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Aturan grup keamanan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html#security-group-rules) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [UpdateSecurityGroupRuleDescriptionsEgress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/update-security-group-rule-descriptions-egress.html)di *Referensi AWS CLI Perintah*. 

### `update-security-group-rule-descriptions-ingress`
<a name="ec2_UpdateSecurityGroupRuleDescriptionsIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-security-group-rule-descriptions-ingress`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui deskripsi aturan grup keamanan masuk dengan sumber CIDR**  
`update-security-group-rule-descriptions-ingress`Contoh berikut memperbarui deskripsi untuk aturan grup keamanan untuk port dan rentang IPv4 alamat yang ditentukan. Deskripsi '`SSH access from ABC office`' menggantikan deskripsi yang ada untuk aturan.  

```
aws ec2 update-security-group-rule-descriptions-ingress \
    --group-id sg-02f0d35a850ba727f \
    --ip-permissions IpProtocol=tcp,FromPort=22,ToPort=22,IpRanges='[{CidrIp=203.0.113.0/16,Description="SSH access from corpnet"}]'
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Aturan grup keamanan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html#security-group-rules) di *Panduan Pengguna Amazon EC2*.  
**Contoh 2: Untuk memperbarui deskripsi aturan grup keamanan masuk dengan sumber daftar awalan**  
`update-security-group-rule-descriptions-ingress`Contoh berikut memperbarui deskripsi untuk aturan grup keamanan untuk port dan daftar awalan yang ditentukan. Deskripsi '`SSH access from ABC office`' menggantikan deskripsi yang ada untuk aturan.  

```
aws ec2 update-security-group-rule-descriptions-ingress \
    --group-id sg-02f0d35a850ba727f \
    --ip-permissions IpProtocol=tcp,FromPort=22,ToPort=22,PrefixListIds='[{PrefixListId=pl-12345678,Description="SSH access from corpnet"}]'
```
Output:  

```
{
    "Return": true
}
```
Untuk informasi selengkapnya, lihat [Aturan grup keamanan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html#security-group-rules) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [UpdateSecurityGroupRuleDescriptionsIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/update-security-group-rule-descriptions-ingress.html)di *Referensi AWS CLI Perintah*. 

### `withdraw-byoip-cidr`
<a name="ec2_WithdrawByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`withdraw-byoip-cidr`.

**AWS CLI**  
**Untuk berhenti mengiklankan rentang alamat**  
`withdraw-byoip-cidr`Contoh berikut berhenti mengiklankan rentang alamat yang ditentukan.  

```
aws ec2 withdraw-byoip-cidr
    --cidr 203.0.113.25/24
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "203.0.113.25/24",
        "StatusMessage": "ipv4pool-ec2-1234567890abcdef0",
        "State": "advertised"
    }
}
```
+  Untuk detail API, lihat [WithdrawByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/withdraw-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon EC2 Instance Connect menggunakan AWS CLI
<a name="cli_2_ec2-instance-connect_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan Instance Connect AWS Command Line Interface with Amazon EC2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `send-ssh-public-key`
<a name="ec2-instance-connect_SendSshPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-ssh-public-key`.

**AWS CLI**  
**Untuk mengirim kunci publik SSH ke sebuah instans**  
`send-ssh-public-key`Contoh berikut mengirimkan SSH kunci publik tertentu untuk contoh tertentu. Kuncinya digunakan untuk mengautentikasi pengguna yang ditentukan.  

```
aws ec2-instance-connect send-ssh-public-key \
    --instance-id i-1234567890abcdef0 \
    --instance-os-user ec2-user \
    --availability-zone us-east-2b \
    --ssh-public-key file://path/my-rsa-key.pub
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SendSshPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2-instance-connect/send-ssh-public-key.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon ECR menggunakan AWS CLI
<a name="cli_2_ecr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon ECR.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-check-layer-availability`
<a name="ecr_BatchCheckLayerAvailability_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-check-layer-availability`.

**AWS CLI**  
**Untuk memeriksa ketersediaan lapisan**  
`batch-check-layer-availability`Contoh berikut memeriksa ketersediaan lapisan dengan intisari `sha256:6171c7451a50945f8ddd72f7732cc04d7a0d1f48138a426b2e64387fdeb834ed` di `cluster-autoscaler` repositori.  

```
aws ecr batch-check-layer-availability \
    --repository-name cluster-autoscaler \
    --layer-digests sha256:6171c7451a50945f8ddd72f7732cc04d7a0d1f48138a426b2e64387fdeb834ed
```
Output:  

```
{
    "layers": [
        {
            "layerDigest": "sha256:6171c7451a50945f8ddd72f7732cc04d7a0d1f48138a426b2e64387fdeb834ed",
            "layerAvailability": "AVAILABLE",
            "layerSize": 2777,
            "mediaType": "application/vnd.docker.container.image.v1+json"
        }
    ],
    "failures": []
}
```
+  Untuk detail API, lihat [BatchCheckLayerAvailability](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/batch-check-layer-availability.html)di *Referensi AWS CLI Perintah*. 

### `batch-delete-image`
<a name="ecr_BatchDeleteImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-delete-image`.

**AWS CLI**  
**Contoh 1: Untuk menghapus gambar**  
`batch-delete-image`Contoh berikut menghapus gambar dengan tag `precise` di repositori yang ditentukan dalam registri default untuk akun.  

```
aws ecr batch-delete-image \
    --repository-name ubuntu \
    --image-ids imageTag=precise
```
Output:  

```
{
    "failures": [],
    "imageIds": [
        {
            "imageTag": "precise",
            "imageDigest": "sha256:19665f1e6d1e504117a1743c0a3d3753086354a38375961f2e665416ef4b1b2f"
        }
    ]
}
```
**Contoh 2: Untuk menghapus beberapa gambar**  
`batch-delete-image`Contoh berikut menghapus semua gambar yang ditandai dengan `prod` dan `team1` di repositori yang ditentukan.  

```
aws ecr batch-delete-image \
    --repository-name MyRepository \
    --image-ids imageTag=prod imageTag=team1
```
Output:  

```
{
    "imageIds": [
        {
            "imageDigest": "sha256:123456789012",
            "imageTag": "prod"
        },
        {
            "imageDigest": "sha256:567890121234",
            "imageTag": "team1"
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus Gambar](https://docs.aws.amazon.com/AmazonECR/latest/userguide/delete_image.html) di *Panduan Pengguna Amazon ECR*.  
+  Untuk detail API, lihat [BatchDeleteImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/batch-delete-image.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-image`
<a name="ecr_BatchGetImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-image`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan gambar**  
`batch-get-image`Contoh berikut mendapatkan gambar dengan tag `v1.13.6` dalam repositori yang disebut `cluster-autoscaler` dalam registri default untuk akun.  

```
aws ecr batch-get-image \
    --repository-name cluster-autoscaler \
    --image-ids imageTag=v1.13.6
```
Output:  

```
{
    "images": [
        {
            "registryId": "012345678910",
            "repositoryName": "cluster-autoscaler",
            "imageId": {
                "imageDigest": "sha256:4a1c6567c38904384ebc64e35b7eeddd8451110c299e3368d2210066487d97e5",
                "imageTag": "v1.13.6"
            },
            "imageManifest": "{\n   \"schemaVersion\": 2,\n   \"mediaType\": \"application/vnd.docker.distribution.manifest.v2+json\",\n   \"config\": {\n      \"mediaType\": \"application/vnd.docker.container.image.v1+json\",\n      \"size\": 2777,\n      \"digest\": \"sha256:6171c7451a50945f8ddd72f7732cc04d7a0d1f48138a426b2e64387fdeb834ed\"\n   },\n   \"layers\": [\n      {\n         \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n         \"size\": 17743696,\n         \"digest\": \"sha256:39fafc05754f195f134ca11ecdb1c9a691ab0848c697fffeb5a85f900caaf6e1\"\n      },\n      {\n         \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n         \"size\": 2565026,\n         \"digest\": \"sha256:8c8a779d3a537b767ae1091fe6e00c2590afd16767aa6096d1b318d75494819f\"\n      },\n      {\n         \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n         \"size\": 28005981,\n         \"digest\": \"sha256:c44ba47496991c9982ee493b47fd25c252caabf2b4ae7dd679c9a27b6a3c8fb7\"\n      },\n      {\n         \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n         \"size\": 775,\n         \"digest\": \"sha256:e2c388b44226544363ca007be7b896bcce1baebea04da23cbd165eac30be650f\"\n      }\n   ]\n}"
        }
    ],
    "failures": []
}
```
**Contoh 2: Untuk mendapatkan banyak gambar**  
`batch-get-image`Contoh berikut menampilkan rincian semua gambar yang ditandai dengan `prod` dan `team1` dalam repositori yang ditentukan.  

```
aws ecr batch-get-image \
    --repository-name MyRepository \
    --image-ids imageTag=prod imageTag=team1
```
Output:  

```
{
    "images": [
        {
            "registryId": "123456789012",
            "repositoryName": "MyRepository",
            "imageId": {
                "imageDigest": "sha256:123456789012",
                "imageTag": "prod"
            },
            "imageManifest": "manifestExample1"
        },
        {
            "registryId": "567890121234",
            "repositoryName": "MyRepository",
            "imageId": {
                "imageDigest": "sha256:123456789012",
                "imageTag": "team1"
            },
            "imageManifest": "manifestExample2"
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Gambar](https://docs.aws.amazon.com/AmazonECR/latest/userguide/images.html) di *Panduan Pengguna Amazon ECR*.  
+  Untuk detail API, lihat [BatchGetImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/batch-get-image.html)di *Referensi AWS CLI Perintah*. 

### `complete-layer-upload`
<a name="ecr_CompleteLayerUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`complete-layer-upload`.

**AWS CLI**  
**Untuk menyelesaikan unggahan lapisan gambar**  
`complete-layer-upload`Contoh berikut melengkapi upload layer gambar ke `layer-test` repositori.  

```
aws ecr complete-layer-upload \
    --repository-name layer-test \
    --upload-id 6cb64b8a-9378-0e33-2ab1-b780fab8a9e9 \
    --layer-digests 6cb64b8a-9378-0e33-2ab1-b780fab8a9e9:48074e6d3a68b39aad8ccc002cdad912d4148c0f92b3729323e
```
Output:  

```
{
    "uploadId": "6cb64b8a-9378-0e33-2ab1-b780fab8a9e9",
    "layerDigest": "sha256:9a77f85878aa1906f2020a0ecdf7a7e962d57e882250acd773383224b3fe9a02",
    "repositoryName": "layer-test",
    "registryId": "130757420319"
}
```
+  Untuk detail API, lihat [CompleteLayerUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/complete-layer-upload.html)di *Referensi AWS CLI Perintah*. 

### `create-repository`
<a name="ecr_CreateRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-repository`.

**AWS CLI**  
**Contoh 1: Untuk membuat repositori**  
`create-repository`Contoh berikut membuat repositori di dalam namespace yang ditentukan dalam registri default untuk akun.  

```
aws ecr create-repository \
    --repository-name project-a/sample-repo
```
Output:  

```
{
    "repository": {
        "registryId": "123456789012",
        "repositoryName": "project-a/sample-repo",
        "repositoryArn": "arn:aws:ecr:us-west-2:123456789012:repository/project-a/sample-repo"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Repositori](https://docs.aws.amazon.com/AmazonECR/latest/userguide/repository-create.html) di Panduan Pengguna *Amazon ECR*.  
**Contoh 2: Untuk membuat repositori yang dikonfigurasi dengan immutabilitas tag gambar**  
`create-repository`Contoh berikut membuat repositori dikonfigurasi untuk kekekalan tag dalam registri default untuk akun.  

```
aws ecr create-repository \
    --repository-name project-a/sample-repo \
    --image-tag-mutability IMMUTABLE
```
Output:  

```
{
    "repository": {
        "registryId": "123456789012",
        "repositoryName": "project-a/sample-repo",
        "repositoryArn": "arn:aws:ecr:us-west-2:123456789012:repository/project-a/sample-repo",
        "imageTagMutability": "IMMUTABLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Mutabilitas Tag Gambar](https://docs.aws.amazon.com/AmazonECR/latest/userguide/image-tag-mutability.html) di *Panduan Pengguna Amazon ECR*.  
**Contoh 3: Untuk membuat repositori yang dikonfigurasi dengan konfigurasi pemindaian**  
`create-repository`Contoh berikut membuat repositori yang dikonfigurasi untuk melakukan pemindaian kerentanan pada push gambar di registri default untuk akun.  

```
aws ecr create-repository \
    --repository-name project-a/sample-repo \
    --image-scanning-configuration scanOnPush=true
```
Output:  

```
{
    "repository": {
        "registryId": "123456789012",
        "repositoryName": "project-a/sample-repo",
        "repositoryArn": "arn:aws:ecr:us-west-2:123456789012:repository/project-a/sample-repo",
        "imageScanningConfiguration": {
            "scanOnPush": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Pemindaian Gambar](https://docs.aws.amazon.com/AmazonECR/latest/userguide/image-scanning.html) di *Panduan Pengguna Amazon ECR*.  
+  Untuk detail API, lihat [CreateRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/create-repository.html)di *Referensi AWS CLI Perintah*. 

### `delete-lifecycle-policy`
<a name="ecr_DeleteLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-lifecycle-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan siklus hidup untuk repositori**  
`delete-lifecycle-policy`Contoh berikut menghapus kebijakan siklus hidup untuk repositori. `hello-world`  

```
aws ecr delete-lifecycle-policy \
    --repository-name hello-world
```
Output:  

```
{
    "registryId": "012345678910",
    "repositoryName": "hello-world",
    "lifecyclePolicyText": "{\"rules\":[{\"rulePriority\":1,\"description\":\"Remove untagged images.\",\"selection\":{\"tagStatus\":\"untagged\",\"countType\":\"sinceImagePushed\",\"countUnit\":\"days\",\"countNumber\":10},\"action\":{\"type\":\"expire\"}}]}",
    "lastEvaluatedAt": 0.0
}
```
+  Untuk detail API, lihat [DeleteLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/delete-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-repository-policy`
<a name="ecr_DeleteRepositoryPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-repository-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan repositori untuk repositori**  
`delete-repository-policy`Contoh berikut menghapus kebijakan repositori untuk repositori. `cluster-autoscaler`  

```
aws ecr delete-repository-policy \
    --repository-name cluster-autoscaler
```
Output:  

```
{
    "registryId": "012345678910",
    "repositoryName": "cluster-autoscaler",
    "policyText": "{\n  \"Version\" : \"2008-10-17\",\n  \"Statement\" : [ {\n    \"Sid\" : \"allow public pull\",\n    \"Effect\" : \"Allow\",\n    \"Principal\" : \"*\",\n    \"Action\" : [ \"ecr:BatchCheckLayerAvailability\", \"ecr:BatchGetImage\", \"ecr:GetDownloadUrlForLayer\" ]\n  } ]\n}"
}
```
+  Untuk detail API, lihat [DeleteRepositoryPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/delete-repository-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-repository`
<a name="ecr_DeleteRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-repository`.

**AWS CLI**  
**Untuk menghapus repositori**  
`delete-repository`Contoh perintah force berikut menghapus repositori yang ditentukan dalam registri default untuk akun. `--force`Bendera diperlukan jika repositori berisi gambar.  

```
aws ecr delete-repository \
    --repository-name ubuntu \
    --force
```
Output:  

```
{
    "repository": {
        "registryId": "123456789012",
        "repositoryName": "ubuntu",
        "repositoryArn": "arn:aws:ecr:us-west-2:123456789012:repository/ubuntu"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Repositori di Panduan](https://docs.aws.amazon.com/AmazonECR/latest/userguide/repository-delete.html) Pengguna *Amazon ECR*.  
+  Untuk detail API, lihat [DeleteRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/delete-repository.html)di *Referensi AWS CLI Perintah*. 

### `describe-image-scan-findings`
<a name="ecr_DescribeImageScanFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-image-scan-findings`.

**AWS CLI**  
**Untuk menggambarkan temuan pemindaian untuk sebuah gambar**  
`describe-image-scan-findings`Contoh berikut mengembalikan temuan pemindaian gambar untuk gambar menggunakan intisari gambar di repositori yang ditentukan dalam registri default untuk akun.  

```
aws ecr describe-image-scan-findings \
    --repository-name sample-repo \
    --image-id imageDigest=sha256:74b2c688c700ec95a93e478cdb959737c148df3fbf5ea706abe0318726e885e6
```
Output:  

```
{
    "imageScanFindings": {
      "findings": [
          {
              "name": "CVE-2019-5188",
              "description": "A code execution vulnerability exists in the directory rehashing functionality of E2fsprogs e2fsck 1.45.4. A specially crafted ext4 directory can cause an out-of-bounds write on the stack, resulting in code execution. An attacker can corrupt a partition to trigger this vulnerability.",
              "uri": "http://people.ubuntu.com/~ubuntu-security/cve/CVE-2019-5188",
              "severity": "MEDIUM",
              "attributes": [
                  {
                      "key": "package_version",
                      "value": "1.44.1-1ubuntu1.1"
                  },
                  {
                      "key": "package_name",
                      "value": "e2fsprogs"
                  },
                  {
                      "key": "CVSS2_VECTOR",
                      "value": "AV:L/AC:L/Au:N/C:P/I:P/A:P"
                  },
                  {
                      "key": "CVSS2_SCORE",
                      "value": "4.6"
                  }
              ]
          }
      ],
      "imageScanCompletedAt": 1579839105.0,
      "vulnerabilitySourceUpdatedAt": 1579811117.0,
      "findingSeverityCounts": {
          "MEDIUM": 1
      }
  },
  "registryId": "123456789012",
  "repositoryName": "sample-repo",
  "imageId": {
      "imageDigest": "sha256:74b2c688c700ec95a93e478cdb959737c148df3fbf5ea706abe0318726e885e6"
  },
  "imageScanStatus": {
      "status": "COMPLETE",
      "description": "The scan was completed successfully."
  }
}
```
Untuk informasi selengkapnya, lihat [Pemindaian Gambar](https://docs.aws.amazon.com/AmazonECR/latest/userguide/image-scanning.html) di *Panduan Pengguna Amazon ECR*.  
+  Untuk detail API, lihat [DescribeImageScanFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/describe-image-scan-findings.html)di *Referensi AWS CLI Perintah*. 

### `describe-images`
<a name="ecr_DescribeImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-images`.

**AWS CLI**  
**Untuk menggambarkan gambar dalam repositori**  
`describe-images`Contoh berikut menampilkan rincian tentang gambar dalam `cluster-autoscaler` repositori dengan tag. `v1.13.6`  

```
aws ecr describe-images \
    --repository-name cluster-autoscaler \
    --image-ids imageTag=v1.13.6
```
Output:  

```
{
    "imageDetails": [
        {
            "registryId": "012345678910",
            "repositoryName": "cluster-autoscaler",
            "imageDigest": "sha256:4a1c6567c38904384ebc64e35b7eeddd8451110c299e3368d2210066487d97e5",
            "imageTags": [
                "v1.13.6"
            ],
            "imageSizeInBytes": 48318255,
            "imagePushedAt": 1565128275.0
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/describe-images.html)di *Referensi AWS CLI Perintah*. 

### `describe-repositories`
<a name="ecr_DescribeRepositories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-repositories`.

**AWS CLI**  
**Untuk menggambarkan repositori dalam registri**  
Contoh ini menjelaskan repositori dalam registri default untuk akun.  
Perintah:  

```
aws ecr describe-repositories
```
Output:  

```
{
    "repositories": [
        {
            "registryId": "012345678910",
            "repositoryName": "ubuntu",
            "repositoryArn": "arn:aws:ecr:us-west-2:012345678910:repository/ubuntu"
        },
        {
            "registryId": "012345678910",
            "repositoryName": "test",
            "repositoryArn": "arn:aws:ecr:us-west-2:012345678910:repository/test"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeRepositories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/describe-repositories.html)di *Referensi AWS CLI Perintah*. 

### `get-authorization-token`
<a name="ecr_GetAuthorizationToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-authorization-token`.

**AWS CLI**  
**Untuk mendapatkan token otorisasi untuk registri default Anda**  
`get-authorization-token`Contoh perintah berikut mendapatkan token otorisasi untuk registri default Anda.  

```
aws ecr get-authorization-token
```
Output:  

```
{
    "authorizationData": [
        {
            "authorizationToken": "QVdTOkN...",
            "expiresAt": 1448875853.241,
            "proxyEndpoint": "https://123456789012.dkr.ecr.us-west-2.amazonaws.com"
        }
    ]
}
```
+  Untuk detail API, lihat [GetAuthorizationToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/get-authorization-token.html)di *Referensi AWS CLI Perintah*. 

### `get-download-url-for-layer`
<a name="ecr_GetDownloadUrlForLayer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-download-url-for-layer`.

**AWS CLI**  
**Untuk mendapatkan URL unduhan lapisan**  
`get-download-url-for-layer`Contoh berikut menampilkan URL unduhan lapisan dengan intisari `sha256:6171c7451a50945f8ddd72f7732cc04d7a0d1f48138a426b2e64387fdeb834ed` di `cluster-autoscaler` repositori.  

```
aws ecr get-download-url-for-layer \
    --repository-name cluster-autoscaler  \
    --layer-digest sha256:6171c7451a50945f8ddd72f7732cc04d7a0d1f48138a426b2e64387fdeb834ed
```
Output:  

```
{
    "downloadUrl": "https://prod-us-west-2-starport-layer-bucket.s3.us-west-2.amazonaws.com/e501-012345678910-9cb60dc0-7284-5643-3987-da6dac0465f0/04620aac-66a5-4167-8232-55ee7ef6d565?X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20190814T220617Z&X-Amz-SignedHeaders=host&X-Amz-Expires=3600&X-Amz-Credential=AKIA32P3D2JDNMVAJLGF%2F20190814%2Fus-west-2%2Fs3%2Faws4_request&X-Amz-Signature=9161345894947a1672467a0da7a1550f2f7157318312fe4941b59976239c3337",
    "layerDigest": "sha256:6171c7451a50945f8ddd72f7732cc04d7a0d1f48138a426b2e64387fdeb834ed"
}
```
+  Untuk detail API, lihat [GetDownloadUrlForLayer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/get-download-url-for-layer.html)di *Referensi AWS CLI Perintah*. 

### `get-lifecycle-policy-preview`
<a name="ecr_GetLifecyclePolicyPreview_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-lifecycle-policy-preview`.

**AWS CLI**  
**Untuk mengambil detail untuk pratinjau kebijakan siklus hidup**  
`get-lifecycle-policy-preview`Contoh berikut mengambil hasil pratinjau kebijakan siklus hidup untuk repositori yang ditentukan dalam registri default untuk akun.  
Perintah:  

```
aws ecr get-lifecycle-policy-preview \
    --repository-name "project-a/amazon-ecs-sample"
```
Output:  

```
{
    "registryId": "012345678910",
    "repositoryName": "project-a/amazon-ecs-sample",
    "lifecyclePolicyText": "{\n    \"rules\": [\n        {\n            \"rulePriority\": 1,\n            \"description\": \"Expire images older than 14 days\",\n            \"selection\": {\n                \"tagStatus\": \"untagged\",\n                \"countType\": \"sinceImagePushed\",\n                \"countUnit\": \"days\",\n                \"countNumber\": 14\n            },\n            \"action\": {\n                \"type\": \"expire\"\n            }\n        }\n    ]\n}\n",
    "status": "COMPLETE",
    "previewResults": [],
    "summary": {
        "expiringImageTotalCount": 0
    }
}
```
Untuk informasi selengkapnya, lihat [Kebijakan Siklus Hidup](https://docs.aws.amazon.com/AmazonECR/latest/userguide/LifecyclePolicies.html) di Panduan Pengguna *Amazon ECR*.  
+  Untuk detail API, lihat [GetLifecyclePolicyPreview](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/get-lifecycle-policy-preview.html)di *Referensi AWS CLI Perintah*. 

### `get-lifecycle-policy`
<a name="ecr_GetLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-lifecycle-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan siklus hidup**  
`get-lifecycle-policy`Contoh berikut menampilkan rincian kebijakan siklus hidup untuk repositori yang ditentukan dalam registri default untuk akun.  

```
aws ecr get-lifecycle-policy \
    --repository-name "project-a/amazon-ecs-sample"
```
Output:  

```
{
     "registryId": "123456789012",
     "repositoryName": "project-a/amazon-ecs-sample",
     "lifecyclePolicyText": "{\"rules\":[{\"rulePriority\":1,\"description\":\"Expire images older than 14 days\",\"selection\":{\"tagStatus\":\"untagged\",\"countType\":\"sinceImagePushed\",\"countUnit\":\"days\",\"countNumber\":14},\"action\":{\"type\":\"expire\"}}]}",
     "lastEvaluatedAt": 1504295007.0
}
```
Untuk informasi selengkapnya, lihat [Kebijakan Siklus Hidup](https://docs.aws.amazon.com/AmazonECR/latest/userguide/LifecyclePolicies.html) di Panduan Pengguna *Amazon ECR*.  
+  Untuk detail API, lihat [GetLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/get-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-login-password`
<a name="ecr_GetLoginPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-login-password`.

**AWS CLI**  
**Untuk mengambil kata sandi untuk mengautentikasi ke registri**  
Berikut ini `get-login-password` menampilkan kata sandi yang dapat Anda gunakan dengan klien kontainer pilihan Anda untuk mengautentikasi ke registri ECR Amazon mana pun yang dapat diakses oleh kepala sekolah IAM Anda.  

```
aws ecr get-login-password
```
Output:  

```
<password>
```
Untuk digunakan dengan CLI Docker, pipa output perintah `get-login-password` ke `docker login` perintah. Saat mengambil kata sandi, pastikan Anda menentukan Wilayah yang sama dengan tempat registri ECR Amazon Anda berada.  

```
aws ecr get-login-password \
    --region <region> \
| docker login \
    --username AWS \
    --password-stdin <aws_account_id>.dkr.ecr.<region>.amazonaws.com
```
Untuk informasi selengkapnya, lihat [Otentikasi Registri](https://docs.aws.amazon.com/AmazonECR/latest/userguide/Registries#registry_auth) di *Panduan Pengguna Amazon ECR*.  
+  Untuk detail API, lihat [GetLoginPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/get-login-password.html)di *Referensi AWS CLI Perintah*. 

### `get-login`
<a name="ecr_GetLogin_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-login`.

**AWS CLI**  
**Untuk mengambil perintah login Docker ke registri default Anda**  
Contoh ini mencetak perintah yang dapat Anda gunakan untuk masuk ke registri Amazon ECR default Anda.  
Perintah:  

```
aws ecr get-login
```
Output:  

```
docker login -u AWS -p <password> -e none https://<aws_account_id>.dkr.ecr.<region>.amazonaws.com
```
**Untuk masuk ke registri akun lain**  
Contoh ini mencetak satu atau beberapa perintah yang dapat Anda gunakan untuk masuk ke pendaftar Amazon ECR yang terkait dengan akun lain.  
Perintah:  

```
aws ecr get-login --registry-ids 012345678910 023456789012
```
Output:  

```
docker login -u <username> -p <token-1> -e none <endpoint-1>
docker login -u <username> -p <token-2> -e none <endpoint-2>
```
+  Untuk detail API, lihat [GetLogin](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/get-login.html)di *Referensi AWS CLI Perintah*. 

### `get-repository-policy`
<a name="ecr_GetRepositoryPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-repository-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan repositori untuk repositori**  
`get-repository-policy`Contoh berikut menampilkan rincian tentang kebijakan repositori untuk repositori. `cluster-autoscaler`  

```
aws ecr get-repository-policy \
    --repository-name cluster-autoscaler
```
Output:  

```
{
    "registryId": "012345678910",
    "repositoryName": "cluster-autoscaler",
    "policyText": "{\n  \"Version\" : \"2008-10-17\",\n  \"Statement\" : [ {\n    \"Sid\" : \"allow public pull\",\n    \"Effect\" : \"Allow\",\n    \"Principal\" : \"*\",\n    \"Action\" : [ \"ecr:BatchCheckLayerAvailability\", \"ecr:BatchGetImage\", \"ecr:GetDownloadUrlForLayer\" ]\n  } ]\n}"
}
```
+  Untuk detail API, lihat [GetRepositoryPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/get-repository-policy.html)di *Referensi AWS CLI Perintah*. 

### `initiate-layer-upload`
<a name="ecr_InitiateLayerUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`initiate-layer-upload`.

**AWS CLI**  
**Untuk memulai unggahan lapisan gambar**  
`initiate-layer-upload`Contoh berikut memulai upload layer gambar ke `layer-test` repositori.  

```
aws ecr initiate-layer-upload \
    --repository-name layer-test
```
Output:  

```
{
    "partSize": 10485760,
    "uploadId": "6cb64b8a-9378-0e33-2ab1-b780fab8a9e9"
}
```
+  Untuk detail API, lihat [InitiateLayerUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/initiate-layer-upload.html)di *Referensi AWS CLI Perintah*. 

### `list-images`
<a name="ecr_ListImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-images`.

**AWS CLI**  
**Untuk membuat daftar gambar dalam repositori**  
`list-images`Contoh berikut menampilkan daftar gambar dalam `cluster-autoscaler` repositori.  

```
aws ecr list-images \
    --repository-name cluster-autoscaler
```
Output:  

```
{
    "imageIds": [
        {
            "imageDigest": "sha256:99c6fb4377e9a420a1eb3b410a951c9f464eff3b7dbc76c65e434e39b94b6570",
            "imageTag": "v1.13.8"
        },
        {
            "imageDigest": "sha256:99c6fb4377e9a420a1eb3b410a951c9f464eff3b7dbc76c65e434e39b94b6570",
            "imageTag": "v1.13.7"
        },
        {
            "imageDigest": "sha256:4a1c6567c38904384ebc64e35b7eeddd8451110c299e3368d2210066487d97e5",
            "imageTag": "v1.13.6"
        }
    ]
}
```
+  Untuk detail API, lihat [ListImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/list-images.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="ecr_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag untuk repositori**  
`list-tags-for-resource`Contoh berikut menampilkan daftar tag yang terkait dengan `hello-world` repositori.  

```
aws ecr list-tags-for-resource \
    --resource-arn arn:aws:ecr:us-west-2:012345678910:repository/hello-world
```
Output:  

```
{
    "tags": [
        {
            "Key": "Stage",
            "Value": "Integ"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-image-scanning-configuration`
<a name="ecr_PutImageScanningConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-image-scanning-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi pemindaian gambar untuk repositori**  
`put-image-scanning-configuration`Contoh berikut memperbarui konfigurasi pemindaian gambar untuk repositori yang ditentukan.  

```
aws ecr put-image-scanning-configuration \
    --repository-name sample-repo \
    --image-scanning-configuration scanOnPush=true
```
Output:  

```
{
   "registryId": "012345678910",
   "repositoryName": "sample-repo",
   "imageScanningConfiguration": {
     "scanOnPush": true
   }
}
```
Untuk informasi selengkapnya, lihat [Pemindaian Gambar](https://docs.aws.amazon.com/AmazonECR/latest/userguide/image-scanning.html) di *Panduan Pengguna Amazon ECR*.  
+  Untuk detail API, lihat [PutImageScanningConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/put-image-scanning-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-image-tag-mutability`
<a name="ecr_PutImageTagMutability_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-image-tag-mutability`.

**AWS CLI**  
**Untuk memperbarui pengaturan mutabilitas tag gambar untuk repositori**  
`put-image-tag-mutability`Contoh berikut mengkonfigurasi repositori yang ditentukan untuk kekekalan tag. Ini mencegah semua tag gambar dalam repositori ditimpa.  

```
aws ecr put-image-tag-mutability \
    --repository-name hello-repository \
    --image-tag-mutability IMMUTABLE
```
Output:  

```
{
   "registryId": "012345678910",
   "repositoryName": "sample-repo",
   "imageTagMutability": "IMMUTABLE"
}
```
Untuk informasi selengkapnya, lihat [Mutabilitas Tag Gambar](https://docs.aws.amazon.com/AmazonECR/latest/userguide/image-tag-mutability.html) di *Panduan Pengguna Amazon ECR*.  
+  Untuk detail API, lihat [PutImageTagMutability](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/put-image-tag-mutability.html)di *Referensi AWS CLI Perintah*. 

### `put-image`
<a name="ecr_PutImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-image`.

**AWS CLI**  
**Untuk menandai ulang gambar dengan manifesnya**  
`put-image`Contoh berikut membuat tag baru di `hello-world` repositori dengan manifes gambar yang ada.  

```
aws ecr put-image \
    --repository-name hello-world \
    --image-tag 2019.08 \
    --image-manifest file://hello-world.manifest.json
```
Isi dari `hello-world.manifest.json`:  

```
{
    "schemaVersion": 2,
    "mediaType": "application/vnd.docker.distribution.manifest.v2+json",
    "config": {
        "mediaType": "application/vnd.docker.container.image.v1+json",
        "size": 5695,
        "digest": "sha256:cea5fe7701b7db3dd1c372f3cea6f43cdda444fcc488f530829145e426d8b980"
    },
    "layers": [
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 39096921,
            "digest": "sha256:d8868e50ac4c7104d2200d42f432b661b2da8c1e417ccfae217e6a1e04bb9295"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 57938,
            "digest": "sha256:83251ac64627fc331584f6c498b3aba5badc01574e2c70b2499af3af16630eed"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 423,
            "digest": "sha256:589bba2f1b36ae56f0152c246e2541c5aa604b058febfcf2be32e9a304fec610"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 680,
            "digest": "sha256:d62ecaceda3964b735cdd2af613d6bb136a52c1da0838b2ff4b4dab4212bcb1c"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 162,
            "digest": "sha256:6d93b41cfc6bf0d2522b7cf61588de4cd045065b36c52bd3aec2ba0622b2b22b"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 28268840,
            "digest": "sha256:6986b4d4c07932c680b3587f2eac8b0e013568c003cc23b04044628a5c5e599f"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 35369152,
            "digest": "sha256:8c5ec60f10102dc8da0649d866c7c2f706e459d0bdc25c83ad2de86f4996c276"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 155,
            "digest": "sha256:cde50b1c594539c5f67cbede9aef95c9ae321ccfb857f7b251b45b84198adc85"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 28737,
            "digest": "sha256:2e102807ab72a73fc9abf53e8c50e421bdc337a0a8afcb242176edeec65977e4"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 190,
            "digest": "sha256:fc379bbd5ed37808772bef016553a297356c59b8f134659e6ee4ecb563c2f5a7"
        },
        {
            "mediaType": "application/vnd.docker.image.rootfs.diff.tar.gzip",
            "size": 28748,
            "digest": "sha256:021db240dfccf5a1aff19507d17c0177e5888e518acf295b52204b1825e8b7ee"
        }
    ]
}
```
Output:  

```
{
    "image": {
        "registryId": "130757420319",
        "repositoryName": "hello-world",
        "imageId": {
            "imageDigest": "sha256:8ece96b74f87652876199d83bd107d0435a196133af383ac54cb82b6cc5283ae",
            "imageTag": "2019.08"
        },
        "imageManifest": "{\n  \"schemaVersion\": 2,\n  \"mediaType\": \"application/vnd.docker.distribution.manifest.v2+json\",\n  \"config\": {\n    \"mediaType\": \"application/vnd.docker.container.image.v1+json\",\n    \"size\": 5695,\n    \"digest\": \"sha256:cea5fe7701b7db3dd1c372f3cea6f43cdda444fcc488f530829145e426d8b980\"\n  },\n  \"layers\": [\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 39096921,\n      \"digest\": \"sha256:d8868e50ac4c7104d2200d42f432b661b2da8c1e417ccfae217e6a1e04bb9295\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 57938,\n      \"digest\": \"sha256:83251ac64627fc331584f6c498b3aba5badc01574e2c70b2499af3af16630eed\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 423,\n      \"digest\": \"sha256:589bba2f1b36ae56f0152c246e2541c5aa604b058febfcf2be32e9a304fec610\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 680,\n      \"digest\": \"sha256:d62ecaceda3964b735cdd2af613d6bb136a52c1da0838b2ff4b4dab4212bcb1c\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 162,\n      \"digest\": \"sha256:6d93b41cfc6bf0d2522b7cf61588de4cd045065b36c52bd3aec2ba0622b2b22b\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 28268840,\n      \"digest\": \"sha256:6986b4d4c07932c680b3587f2eac8b0e013568c003cc23b04044628a5c5e599f\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 35369152,\n      \"digest\": \"sha256:8c5ec60f10102dc8da0649d866c7c2f706e459d0bdc25c83ad2de86f4996c276\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 155,\n      \"digest\": \"sha256:cde50b1c594539c5f67cbede9aef95c9ae321ccfb857f7b251b45b84198adc85\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 28737,\n      \"digest\": \"sha256:2e102807ab72a73fc9abf53e8c50e421bdc337a0a8afcb242176edeec65977e4\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 190,\n      \"digest\": \"sha256:fc379bbd5ed37808772bef016553a297356c59b8f134659e6ee4ecb563c2f5a7\"\n    },\n    {\n      \"mediaType\": \"application/vnd.docker.image.rootfs.diff.tar.gzip\",\n      \"size\": 28748,\n      \"digest\": \"sha256:021db240dfccf5a1aff19507d17c0177e5888e518acf295b52204b1825e8b7ee\"\n    }\n  ]\n}\n"
    }
}
```
+  Untuk detail API, lihat [PutImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/put-image.html)di *Referensi AWS CLI Perintah*. 

### `put-lifecycle-policy`
<a name="ecr_PutLifeCyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-lifecycle-policy`.

**AWS CLI**  
**Untuk membuat kebijakan siklus hidup**  
`put-lifecycle-policy`Contoh berikut membuat kebijakan siklus hidup untuk repositori yang ditentukan dalam registri default untuk akun.  

```
aws ecr put-lifecycle-policy \
    --repository-name "project-a/amazon-ecs-sample" \
    --lifecycle-policy-text "file://policy.json"
```
Isi dari `policy.json`:  

```
{
   "rules": [
       {
           "rulePriority": 1,
           "description": "Expire images older than 14 days",
           "selection": {
               "tagStatus": "untagged",
               "countType": "sinceImagePushed",
               "countUnit": "days",
               "countNumber": 14
           },
           "action": {
               "type": "expire"
           }
       }
   ]
}
```
Output:  

```
{
   "registryId": "<aws_account_id>",
   "repositoryName": "project-a/amazon-ecs-sample",
   "lifecyclePolicyText": "{\"rules\":[{\"rulePriority\":1,\"description\":\"Expire images older than 14 days\",\"selection\":{\"tagStatus\":\"untagged\",\"countType\":\"sinceImagePushed\",\"countUnit\":\"days\",\"countNumber\":14},\"action\":{\"type\":\"expire\"}}]}"
}
```
Untuk informasi selengkapnya, lihat [Kebijakan Siklus Hidup](https://docs.aws.amazon.com/AmazonECR/latest/userguide/LifecyclePolicies.html) di Panduan Pengguna *Amazon ECR*.  
+  Untuk detail API, lihat [PutLifeCyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/put-life-cycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `set-repository-policy`
<a name="ecr_SetRepositoryPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-repository-policy`.

**AWS CLI**  
**Untuk menetapkan kebijakan repositori untuk repositori**  
`set-repository-policy`Contoh berikut melampirkan kebijakan repositori yang terkandung dalam file ke repositori. `cluster-autoscaler`  

```
aws ecr set-repository-policy \
    --repository-name cluster-autoscaler \
    --policy-text file://my-policy.json
```
Isi dari `my-policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement" : [
        {
            "Sid" : "allow public pull",
            "Effect" : "Allow",
            "Principal" : "*",
            "Action" : [
                "ecr:BatchCheckLayerAvailability",
                "ecr:BatchGetImage",
                "ecr:GetDownloadUrlForLayer"
            ]
        }
    ]
}
```
Output:  

```
{
    "registryId": "012345678910",
    "repositoryName": "cluster-autoscaler",
    "policyText": "{\n  \"Version\" : \"2008-10-17\",\n  \"Statement\" : [ {\n    \"Sid\" : \"allow public pull\",\n    \"Effect\" : \"Allow\",\n    \"Principal\" : \"*\",\n    \"Action\" : [ \"ecr:BatchCheckLayerAvailability\", \"ecr:BatchGetImage\", \"ecr:GetDownloadUrlForLayer\" ]\n  } ]\n}"
}
```
+  Untuk detail API, lihat [SetRepositoryPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/set-repository-policy.html)di *Referensi AWS CLI Perintah*. 

### `start-image-scan`
<a name="ecr_StartImageScan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-image-scan`.

**AWS CLI**  
**Untuk memulai pemindaian kerentanan gambar**  
`start-image-scan`Contoh berikut memulai pemindaian gambar dan ditentukan oleh intisari gambar di repositori yang ditentukan.  

```
aws ecr start-image-scan \
    --repository-name sample-repo \
    --image-id imageDigest=sha256:74b2c688c700ec95a93e478cdb959737c148df3fbf5ea706abe0318726e885e6
```
Output:  

```
{
   "registryId": "012345678910",
   "repositoryName": "sample-repo",
   "imageId": {
       "imageDigest": "sha256:74b2c688c700ec95a93e478cdb959737c148df3fbf5ea706abe0318726e885e6"
   },
   "imageScanStatus": {
       "status": "IN_PROGRESS"
   }
}
```
Untuk informasi selengkapnya, lihat [Pemindaian Gambar](https://docs.aws.amazon.com/AmazonECR/latest/userguide/image-scanning.html) di *Panduan Pengguna Amazon ECR*.  
+  Untuk detail API, lihat [StartImageScan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/start-image-scan.html)di *Referensi AWS CLI Perintah*. 

### `start-lifecycle-policy-preview`
<a name="ecr_StartLifecyclePolicyPreview_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-lifecycle-policy-preview`.

**AWS CLI**  
**Untuk membuat pratinjau kebijakan siklus hidup**  
`start-lifecycle-policy-preview`Contoh berikut membuat pratinjau kebijakan siklus hidup yang ditentukan oleh file JSON untuk repositori tertentu.  

```
aws ecr start-lifecycle-policy-preview \
    --repository-name "project-a/amazon-ecs-sample" \
    --lifecycle-policy-text "file://policy.json"
```
Isi dari `policy.json`:  

```
{
   "rules": [
       {
           "rulePriority": 1,
           "description": "Expire images older than 14 days",
           "selection": {
               "tagStatus": "untagged",
               "countType": "sinceImagePushed",
               "countUnit": "days",
               "countNumber": 14
           },
           "action": {
               "type": "expire"
           }
       }
   ]
}
```
Output:  

```
{
   "registryId": "012345678910",
   "repositoryName": "project-a/amazon-ecs-sample",
   "lifecyclePolicyText": "{\n    \"rules\": [\n        {\n            \"rulePriority\": 1,\n            \"description\": \"Expire images older than 14 days\",\n            \"selection\": {\n                \"tagStatus\": \"untagged\",\n                \"countType\": \"sinceImagePushed\",\n                \"countUnit\": \"days\",\n                \"countNumber\": 14\n            },\n            \"action\": {\n                \"type\": \"expire\"\n            }\n        }\n    ]\n}\n",
   "status": "IN_PROGRESS"
}
```
+  Untuk detail API, lihat [StartLifecyclePolicyPreview](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/start-lifecycle-policy-preview.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="ecr_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai repositori**  
`tag-resource`Contoh berikut menetapkan tag dengan kunci `Stage` dan nilai `Integ` pada `hello-world` repositori.  

```
aws ecr tag-resource \
    --resource-arn arn:aws:ecr:us-west-2:012345678910:repository/hello-world \
    --tags Key=Stage,Value=Integ
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="ecr_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag repositori**  
`untag-resource`Contoh berikut menghapus tag dengan kunci `Stage` dari `hello-world` repositori.  

```
aws ecr untag-resource \
    --resource-arn arn:aws:ecr:us-west-2:012345678910:repository/hello-world \
    --tag-keys Stage
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `upload-layer-part`
<a name="ecr_UploadLayerPart_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-layer-part`.

**AWS CLI**  
**Untuk mengunggah bagian lapisan**  
Berikut ini `upload-layer-part` mengunggah bagian layer gambar ke `layer-test` repositori.  

```
aws ecr upload-layer-part \
    --repository-name layer-test \
    --upload-id 6cb64b8a-9378-0e33-2ab1-b780fab8a9e9 \
    --part-first-byte 0 \
    --part-last-byte 8323314 \
    --layer-part-blob file:///var/lib/docker/image/overlay2/layerdb/sha256/ff986b10a018b48074e6d3a68b39aad8ccc002cdad912d4148c0f92b3729323e/layer.b64
```
Output:  

```
{
    "uploadId": "6cb64b8a-9378-0e33-2ab1-b780fab8a9e9",
    "registryId": "012345678910",
    "lastByteReceived": 8323314,
    "repositoryName": "layer-test"
}
```
+  Untuk detail API, lihat [UploadLayerPart](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr/upload-layer-part.html)di *Referensi AWS CLI Perintah*. 

# Amazon ECR Contoh Publik menggunakan AWS CLI
<a name="cli_2_ecr-public_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon ECR Public.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-delete-image`
<a name="ecr-public_BatchDeleteImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-delete-image`.

**AWS CLI**  
**Contoh 1: Untuk menghapus gambar dengan menggunakan id intisari gambar, gambar dan semua tagnya dihapus dalam repositori di registri publik**  
`batch-delete-image`Contoh berikut menghapus gambar dengan menentukan image digest. :  

```
aws ecr-public batch-delete-image \
    --repository-name project-a/nginx-web-app \
    --image-ids imageDigest=sha256:b1f9deb5fe3711a3278379ebbcaefbc5d70a2263135db86bd27a0dae150546c2
```
Output:  

```
{
"imageIds": [
    {
        "imageDigest": "sha256:b1f9deb5fe3711a3278379ebbcaefbc5d70a2263135db86bd27a0dae150546c2",
        "imageTag": "latest"
    }
],
"failures": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus gambar di repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/public-image-delete.html) di Panduan Pengguna Publik *Amazon ECR*.  
**Contoh 2: Untuk menghapus gambar apa pun dengan menentukan tag yang terkait dengan gambar yang ingin Anda hapus dari repositori.**  
`batch-delete-image`Contoh berikut menghapus gambar dengan menentukan tag yang terkait dengan repositori gambar bernama `project-a/nginx-web-app` dalam registri publik. Jika Anda hanya memiliki satu tag dan menjalankan perintah ini, itu akan menghapus gambar. Jika tidak, jika Anda memiliki beberapa tag untuk gambar yang sama, tentukan satu, dan hanya tag yang dihapus dari repositori dan bukan gambar.  

```
aws ecr-public batch-delete-image \
    --repository-name project-a/nginx-web-app \
    --image-ids imageTag=_temp
```
Output:  

```
{
    "imageIds": [
        {
            "imageDigest": "sha256:f7a86a0760e2f8d7eff07e515fc87bf4bac45c35376c06f9a280f15ecad6d7e0",
            "imageTag": "_temp"
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus gambar di repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/public-image-delete.html) di Panduan Pengguna Publik *Amazon ECR*.  
**Contoh 3: Untuk menghapus beberapa gambar, Anda dapat menentukan beberapa tag gambar atau intisari gambar dalam permintaan repositori di registri publik.**  
`batch-delete-image`Contoh berikut menghapus beberapa gambar dari repositori bernama project-a/ nginx-web-app dengan menentukan beberapa tag gambar atau intisari gambar dalam permintaan.  

```
aws ecr-public batch-delete-image \
    --repository-name project-a/nginx-web-app \
    --image-ids imageTag=temp2.0  imageDigest=sha256:47ba980bc055353d9c0af89b1894f68faa43ca93856917b8406316be86f01278
```
Output:  

```
{
     "imageIds": [
         {
             "imageDigest": "sha256:47ba980bc055353d9c0af89b1894f68faa43ca93856917b8406316be86f01278"
         },
         {
             "imageDigest": "sha256:f7a86a0760e2f8d7eff07e515fc87bf4bac45c35376c06f9a280f15ecad6d7e0",
             "imageTag": "temp2.0"
         }
     ],
     "failures": []
 }
```
Untuk informasi selengkapnya, lihat [Menghapus gambar di repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/public-image-delete.html) di Panduan Pengguna Publik *Amazon ECR*.  
**Contoh 4: Untuk menghapus gambar di AWS akun silang menggunakan id registry-dan id imagedigest, gambar dan semua tagnya dihapus dalam repositori di registri publik**  
`batch-delete-image`Contoh berikut menghapus gambar dengan menentukan intisari gambar di akun silang. AWS :  

```
aws ecr-public batch-delete-image \
    --registry-id 123456789098 \
    --repository-name project-a/nginx-web-app \
    --image-ids imageDigest=sha256:b1f9deb5fe3711a3278379ebbcaefbc5d70a2263135db86bd27a0dae150546c2 \
    --region us-east-1
```
Output:  

```
{
    "imageIds": [
        {
            "imageDigest": "sha256:b1f9deb5fe3711a3278379ebbcaefbc5d70a2263135db86bd27a0dae150546c2",
            "imageTag": "temp2.0"
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus gambar di repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/public-image-delete.html) di Panduan Pengguna Publik *Amazon ECR*.  
+  Untuk detail API, lihat [BatchDeleteImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/batch-delete-image.html)di *Referensi AWS CLI Perintah*. 

### `create-repository`
<a name="ecr-public_CreateRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-repository`.

**AWS CLI**  
**Contoh 1: Untuk membuat repositori di registri publik**  
`create-repository`Contoh berikut membuat repositori bernama nginx-web-app project-a/ dalam registri publik.  

```
aws ecr-public create-repository \
    --repository-name project-a/nginx-web-app
```
Output:  

```
{
    "repository": {
        "repositoryArn": "arn:aws:ecr-public::123456789012:repository/project-a/nginx-web-app",
        "registryId": "123456789012",
        "repositoryName": "project-a/nginx-web-app",
        "repositoryUri": "public.ecr.aws/public-registry-custom-alias/project-a/nginx-web-app",
        "createdAt": "2024-07-01T21:08:55.131000+00:00"
    },
    "catalogData": {}
}
```
Untuk informasi selengkapnya, lihat [Membuat repositori publik di Panduan](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-create.html) Pengguna *Publik Amazon ECR*.  
**Contoh 2: Untuk membuat repositori di registri publik dengan deskripsi singkat tentang isi repositori, sistem, dan arsitektur operasi yang kompatibel dengan gambar dalam repositori**  
`create-repository`Contoh berikut membuat repositori bernama project-a/ nginx-web-app dalam registri publik dengan deskripsi singkat tentang isi repositori, sistem dan arsitektur operasi yang gambar dalam repositori kompatibel dengan.  

```
aws ecr-public create-repository \
    --repository-name project-a/nginx-web-app \
    --catalog-data 'description=My project-a ECR Public Repository,architectures=ARM,ARM 64,x86,x86-64,operatingSystems=Linux'
```
Output:  

```
{
    "repository": {
        "repositoryArn": "arn:aws:ecr-public::123456789012:repository/project-a/nginx-web-app",
        "registryId": "123456789012",
        "repositoryName": "project-a/nginx-web-app",
        "repositoryUri": "public.ecr.aws/public-registry-custom-alias/project-a/nginx-web-app",
        "createdAt": "2024-07-01T21:23:20.455000+00:00"
    },
    "catalogData": {
        "description": "My project-a ECR Public Repository",
        "architectures": [
            "ARM",
            "ARM 64",
            "x86",
            "x86-64"
        ],
        "operatingSystems": [
            "Linux"
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat repositori publik di Panduan](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-create.html) Pengguna *Publik Amazon ECR*.  
**Contoh 3: Untuk membuat repositori di registri publik, bersama dengan, AboutText, logoImageBlob UsageText dan informasi tag**  
`create-repository`Contoh berikut membuat repositori bernama project-a/ nginx-web-app dalam registri publik, bersama dengan, AboutText, USAgeText dan logoImageBlob tag informasi.  

```
aws ecr-public create-repository \
    --cli-input-json file://myfile.json
```
Isi dari `myfile.json`:  

```
{
    "repositoryName": "project-a/nginx-web-app",
    "catalogData": {
        "description": "My project-a ECR Public Repository",
        "architectures": [
            "ARM",
            "ARM 64",
            "x86",
            "x86-64"
        ],
        "operatingSystems": [
            "Linux"
        ],
        "logoImageBlob": "iVBORw0KGgoA<<truncated-for-better-reading>>ErkJggg==",
        "aboutText": "## Quick reference\n\nMaintained by: [the Amazon Linux Team](https://github.com/aws/amazon-linux-docker-images)\n\nWhere to get help: [the Docker Community Forums](https://forums.docker.com/), [the Docker Community Slack](https://dockr.ly/slack), or [Stack Overflow](https://stackoverflow.com/search?tab=newest&q=docker)\n\n## Supported tags and respective `dockerfile` links\n\n* [`2.0.20200722.0`, `2`, `latest`](https://github.com/amazonlinux/container-images/blob/03d54f8c4d522bf712cffd6c8f9aafba0a875e78/Dockerfile)\n* [`2.0.20200722.0-with-sources`, `2-with-sources`, `with-sources`](https://github.com/amazonlinux/container-images/blob/1e7349845e029a2e6afe6dc473ef17d052e3546f/Dockerfile)\n* [`2018.03.0.20200602.1`, `2018.03`, `1`](https://github.com/amazonlinux/container-images/blob/f10932e08c75457eeb372bf1cc47ea2a4b8e98c8/Dockerfile)\n* [`2018.03.0.20200602.1-with-sources`, `2018.03-with-sources`, `1-with-sources`](https://github.com/amazonlinux/container-images/blob/8c9ee491689d901aa72719be0ec12087a5fa8faf/Dockerfile)\n\n## What is Amazon Linux?\n\nAmazon Linux is provided by Amazon Web Services (AWS). It is designed to provide a stable, secure, and high-performance execution environment for applications running on Amazon EC2. The full distribution includes packages that enable easy integration with AWS, including launch configuration tools and many popular AWS libraries and tools. AWS provides ongoing security and maintenance updates to all instances running Amazon Linux.\n\nThe Amazon Linux container image contains a minimal set of packages. To install additional packages, [use `yum`](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/managing-software.html).\n\nAWS provides two versions of Amazon Linux: [Amazon Linux 2](https://aws.amazon.com/amazon-linux-2/) and [Amazon Linux AMI](https://aws.amazon.com/amazon-linux-ami/).\n\nFor information on security updates for Amazon Linux, please refer to [Amazon Linux 2 Security Advisories](https://alas.aws.amazon.com/alas2.html) and [Amazon Linux AMI Security Advisories](https://alas.aws.amazon.com/). Note that Docker Hub's vulnerability scanning for Amazon Linux is currently based on RPM versions, which does not reflect the state of backported patches for vulnerabilities.\n\n## Where can I run Amazon Linux container images?\n\nYou can run Amazon Linux container images in any Docker based environment. Examples include, your laptop, in Amazon EC2 instances, and Amazon ECS clusters.\n\n## License\n\nAmazon Linux is available under the [GNU General Public License, version 2.0](https://github.com/aws/amazon-linux-docker-images/blob/master/LICENSE). Individual software packages are available under their own licenses; run `rpm -qi [package name]` or check `/usr/share/doc/[package name]-*` and `/usr/share/licenses/[package name]-*` for details.\n\nAs with all Docker images, these likely also contain other software which may be under other licenses (such as Bash, etc from the base distribution, along with any direct or indirect dependencies of the primary software being contained).\n\nSome additional license information which was able to be auto-detected might be found in [the `repo-info` repository's `amazonlinux/` directory](https://github.com/docker-library/repo-info/tree/master/repos/amazonlinux).\n\n## Security\n\nFor information on security updates for Amazon Linux, please refer to [Amazon Linux 2 Security Advisories](https://alas.aws.amazon.com/alas2.html) and [Amazon Linux AMI Security Advisories](https://alas.aws.amazon.com/). Note that Docker Hub's vulnerability scanning for Amazon Linux is currently based on RPM versions, which does not reflect the state of backported patches for vulnerabilities.",
        "usageText": "## Supported architectures\n\namd64, arm64v8\n\n## Where can I run Amazon Linux container images?\n\nYou can run Amazon Linux container images in any Docker based environment. Examples include, your laptop, in Amazon EC2 instances, and ECS clusters.\n\n## How do I install a software package from Extras repository in Amazon Linux 2?\n\nAvailable packages can be listed with the `amazon-linux-extras` command. Packages can be installed with the `amazon-linux-extras install <package>` command. Example: `amazon-linux-extras install rust1`\n\n## Will updates be available for Amazon Linux containers?\n\nSimilar to the Amazon Linux images for Amazon EC2 and on-premises use, Amazon Linux container images will get ongoing updates from Amazon in the form of security updates, bug fix updates, and other enhancements. Security bulletins for Amazon Linux are available at https://alas.aws.amazon.com/\n\n## Will AWS Support the current version of Amazon Linux going forward?\n\nYes; in order to avoid any disruption to your existing applications and to facilitate migration to Amazon Linux 2, AWS will provide regular security updates for Amazon Linux 2018.03 AMI and container image for 2 years after the final LTS build is announced. You can also use all your existing support channels such as AWS Support and Amazon Linux Discussion Forum to continue to submit support requests."
    },
    "tags": [
        {
            "Key": "Name",
            "Value": "project-a/nginx-web-app"
        },
        {
            "Key": "Environment",
            "Value": "Prod"
        }
    ]
}
```
Output:  

```
{
    "repository": {
        "repositoryArn": "arn:aws:ecr-public::123456789012:repository/project-a/nginx-web-app",
        "registryId": "123456789012",
        "repositoryName": "project-a/nginx-web-app",
        "repositoryUri": "public.ecr.aws/public-registry-custom-alias/project-a/nginx-web-app",
        "createdAt": "2024-07-01T21:53:05.749000+00:00"
    },
    "catalogData": {
        "description": "My project-a ECR Public Repository",
        "architectures": [
            "ARM",
            "ARM 64",
            "x86",
            "x86-64"
        ],
        "operatingSystems": [
            "Linux"
        ],
        "logoUrl": "https://d3g9o9u8re44ak.cloudfront.net/logo/23861450-4b9b-403c-9a4c-7aa0ef140bb8/2f9bf5a7-a32f-45b4-b5cd-c5770a35e6d7.png",
        "aboutText": "## Quick reference\n\nMaintained by: [the Amazon Linux Team](https://github.com/aws/amazon-linux-docker-images)\n\nWhere to get help: [the Docker Community Forums](https://forums.docker.com/), [the Docker Community Slack](https://dockr.ly/slack), or [Stack Overflow](https://stackoverflow.com/search?tab=newest&q=docker)\n\n## Supported tags and respective `dockerfile` links\n\n* [`2.0.20200722.0`, `2`, `latest`](https://github.com/amazonlinux/container-images/blob/03d54f8c4d522bf712cffd6c8f9aafba0a875e78/Dockerfile)\n* [`2.0.20200722.0-with-sources`, `2-with-sources`, `with-sources`](https://github.com/amazonlinux/container-images/blob/1e7349845e029a2e6afe6dc473ef17d052e3546f/Dockerfile)\n* [`2018.03.0.20200602.1`, `2018.03`, `1`](https://github.com/amazonlinux/container-images/blob/f10932e08c75457eeb372bf1cc47ea2a4b8e98c8/Dockerfile)\n* [`2018.03.0.20200602.1-with-sources`, `2018.03-with-sources`, `1-with-sources`](https://github.com/amazonlinux/container-images/blob/8c9ee491689d901aa72719be0ec12087a5fa8faf/Dockerfile)\n\n## What is Amazon Linux?\n\nAmazon Linux is provided by Amazon Web Services (AWS). It is designed to provide a stable, secure, and high-performance execution environment for applications running on Amazon EC2. The full distribution includes packages that enable easy integration with AWS, including launch configuration tools and many popular AWS libraries and tools. AWS provides ongoing security and maintenance updates to all instances running Amazon Linux.\n\nThe Amazon Linux container image contains a minimal set of packages. To install additional packages, [use `yum`](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/managing-software.html).\n\nAWS provides two versions of Amazon Linux: [Amazon Linux 2](https://aws.amazon.com/amazon-linux-2/) and [Amazon Linux AMI](https://aws.amazon.com/amazon-linux-ami/).\n\nFor information on security updates for Amazon Linux, please refer to [Amazon Linux 2 Security Advisories](https://alas.aws.amazon.com/alas2.html) and [Amazon Linux AMI Security Advisories](https://alas.aws.amazon.com/). Note that Docker Hub's vulnerability scanning for Amazon Linux is currently based on RPM versions, which does not reflect the state of backported patches for vulnerabilities.\n\n## Where can I run Amazon Linux container images?\n\nYou can run Amazon Linux container images in any Docker based environment. Examples include, your laptop, in Amazon EC2 instances, and Amazon ECS clusters.\n\n## License\n\nAmazon Linux is available under the [GNU General Public License, version 2.0](https://github.com/aws/amazon-linux-docker-images/blob/master/LICENSE). Individual software packages are available under their own licenses; run `rpm -qi [package name]` or check `/usr/share/doc/[package name]-*` and `/usr/share/licenses/[package name]-*` for details.\n\nAs with all Docker images, these likely also contain other software which may be under other licenses (such as Bash, etc from the base distribution, along with any direct or indirect dependencies of the primary software being contained).\n\nSome additional license information which was able to be auto-detected might be found in [the `repo-info` repository's `amazonlinux/` directory](https://github.com/docker-library/repo-info/tree/master/repos/amazonlinux).\n\n## Security\n\nFor information on security updates for Amazon Linux, please refer to [Amazon Linux 2 Security Advisories](https://alas.aws.amazon.com/alas2.html) and [Amazon Linux AMI Security Advisories](https://alas.aws.amazon.com/). Note that Docker Hub's vulnerability scanning for Amazon Linux is currently based on RPM versions, which does not reflect the state of backported patches for vulnerabilities.",
        "usageText": "## Supported architectures\n\namd64, arm64v8\n\n## Where can I run Amazon Linux container images?\n\nYou can run Amazon Linux container images in any Docker based environment. Examples include, your laptop, in Amazon EC2 instances, and ECS clusters.\n\n## How do I install a software package from Extras repository in Amazon Linux 2?\n\nAvailable packages can be listed with the `amazon-linux-extras` command. Packages can be installed with the `amazon-linux-extras install <package>` command. Example: `amazon-linux-extras install rust1`\n\n## Will updates be available for Amazon Linux containers?\n\nSimilar to the Amazon Linux images for Amazon EC2 and on-premises use, Amazon Linux container images will get ongoing updates from Amazon in the form of security updates, bug fix updates, and other enhancements. Security bulletins for Amazon Linux are available at https://alas.aws.amazon.com/\n\n## Will AWS Support the current version of Amazon Linux going forward?\n\nYes; in order to avoid any disruption to your existing applications and to facilitate migration to Amazon Linux 2, AWS will provide regular security updates for Amazon Linux 2018.03 AMI and container image for 2 years after the final LTS build is announced. You can also use all your existing support channels such as AWS Support and Amazon Linux Discussion Forum to continue to submit support requests."
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-create.html) di *Panduan Pengguna Publik Amazon ECR dan [data katalog Repositori di](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-catalog-data.html) Panduan Pengguna Publik* *Amazon* ECR.  
+  Untuk detail API, lihat [CreateRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/create-repository.html)di *Referensi AWS CLI Perintah*. 

### `delete-repository-policy`
<a name="ecr-public_DeleteRepositoryPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-repository-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan repositori di registri publik**  
`delete-repository-policy`Contoh berikut menghapus kebijakan repositori untuk repositori Publik ECR di akun Anda. AWS   

```
aws ecr-public delete-repository-policy \
     --repository-name project-a/nginx-web-app \
     --region us-east-1
```
Output:  

```
{
    "registryId": "123456789012",
    "repositoryName": "project-a/nginx-web-app",
    "policyText": "{\n  \"Version\" : \"2008-10-17\",\n  \"Statement\" : [ {\n    \"Sid\" : \"AllowPush\",\n    \"Effect\" : \"Allow\",\n    \"Principal\" : {\n      \"AWS\" : [ \"arn:aws:iam:"123456789012":user/eksuser1\", \"arn:aws:iam:"123456789012":user/admin\" ]\n    },\n    \"Action\" : [ \"ecr-public:BatchCheckLayerAvailability\", \"ecr-public:PutImage\", \"ecr-public:InitiateLayerUpload\", \"ecr-public:UploadLayerPart\", \"ecr-public:CompleteLayerUpload\" ]\n  } ]\n}"
}
```
Untuk informasi selengkapnya, lihat [Menghapus pernyataan kebijakan repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/delete-public-repository-policy.html) di Panduan Pengguna Publik *Amazon ECR*.  
+  Untuk detail API, lihat [DeleteRepositoryPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/delete-repository-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-repository`
<a name="ecr-public_DeleteRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-repository`.

**AWS CLI**  
**Untuk menghapus repositori di registri publik**  
`delete-repository`Contoh berikut menghapus repositori bernama `project-a/nginx-web-app` dari registri publik Anda.  

```
aws ecr-public delete-repository \
    --repository-name project-a/nginx-web-app
```
Output:  

```
{
    "repository": {
        "repositoryArn": "arn:aws:ecr-public::123456789012:repository/project-a/nginx-web-app",
        "registryId": "123456789012",
        "repositoryName": "project-a/nginx-web-app",
        "repositoryUri": "public.ecr.aws/public-registry-custom-alias/project-a/nginx-web-app",
        "createdAt": "2024-07-01T22:14:50.103000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-delete.html) di *Amazon* ECR Public.  
+  Untuk detail API, lihat [DeleteRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/delete-repository.html)di *Referensi AWS CLI Perintah*. 

### `describe-image-tags`
<a name="ecr-public_DescribeImageTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-image-tags`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan detail tag gambar di repositori publik**  
`describe-image-tags`Contoh berikut menggambarkan imagetags dalam repositori sampel. `project-a/nginx-web-app`  

```
aws ecr-public describe-image-tags \
    --repository-name project-a/nginx-web-app \
    --region us-east-1
```
Output:  

```
{
    "imageTagDetails": [
        {
            "imageTag": "latest",
            "createdAt": "2024-07-10T22:29:00-05:00",
            "imageDetail": {
                "imageDigest": "sha256:b1f9deb5fe3711a3278379ebbcaefbc5d70a2263135db86bd27a0dae150546c2",
                "imageSizeInBytes": 121956548,
                "imagePushedAt": "2024-07-10T22:29:00-05:00",
                "imageManifestMediaType": "application/vnd.docker.distribution.manifest.v2+json",
                "artifactMediaType": "application/vnd.docker.container.image.v1+json"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeImageTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/describe-image-tags.html)di *Referensi AWS CLI Perintah*. 

### `describe-images`
<a name="ecr-public_DescribeImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-images`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan gambar dalam repositori registri publik**  
`describe-images`Contoh berikut menjelaskan ImagesDetails dalam repositori bernama `project-a/nginx-web-app` dalam registri publik.  

```
aws ecr-public describe-images \
    --repository-name project-a/nginx-web-app \
    --region us-east-1
```
Output:  

```
{
    "imageDetails": [
        {
            "registryId": "123456789012",
            "repositoryName": "project-a/nginx-web-app",
            "imageDigest": "sha256:0d8c93e72e82fa070d49565c00af32abbe8ddfd7f75e39f4306771ae0628c7e8",
            "imageTags": [
                "temp1.0"
            ],
            "imageSizeInBytes": 123184716,
            "imagePushedAt": "2024-07-23T11:32:49-05:00",
            "imageManifestMediaType": "application/vnd.docker.distribution.manifest.v2+json",
            "artifactMediaType": "application/vnd.docker.container.image.v1+json"
        },
        {
            "registryId": "123456789012",
            "repositoryName": "project-a/nginx-web-app",
            "imageDigest": "sha256:b1f9deb5fe3711a3278379ebbcaefbc5d70a2263135db86bd27a0dae150546c2",
            "imageTags": [
                "temp2.0"
            ],
            "imageSizeInBytes": 121956548,
            "imagePushedAt": "2024-07-23T11:39:38-05:00",
            "imageManifestMediaType": "application/vnd.docker.distribution.manifest.v2+json",
            "artifactMediaType": "application/vnd.docker.container.image.v1+json"
        },
        {
            "registryId": "123456789012",
            "repositoryName": "project-a/nginx-web-app",
            "imageDigest": "sha256:f7a86a0760e2f8d7eff07e515fc87bf4bac45c35376c06f9a280f15ecad6d7e0",
            "imageTags": [
                "temp3.0",
                "latest"
            ],
            "imageSizeInBytes": 232108879,
            "imagePushedAt": "2024-07-22T00:54:34-05:00",
            "imageManifestMediaType": "application/vnd.docker.distribution.manifest.v2+json",
            "artifactMediaType": "application/vnd.docker.container.image.v1+json"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan gambar di repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/docker-push-multi-architecture-image.html) di *Amazon ECR* Public.  
**Contoh 2: Untuk mendeskripsikan gambar dari repositori dengan mengurutkan ImageTags & imagePushedAt**  
`describe-images`Contoh berikut menggambarkan gambar dalam repositori bernama nginx-web-app project-a/ dalam registri publik.  

```
aws ecr-public describe-images \
    --repository-name project-a/nginx-web-app \
    --query 'sort_by(imageDetails,& imagePushedAt)[*].imageTags[*]' \
    --output text
```
Output:  

```
temp3.0 latest
temp1.0
temp2.0
```
**Contoh 3: Untuk mendeskripsikan gambar dari repositori untuk menghasilkan 2 tag gambar terakhir yang didorong di repositori**  
`describe-images`Contoh berikut mendapatkan rincian imagetags dari repositori bernama `project-a/nginx-web-app` dalam registri publik dan query hasilnya untuk menampilkan hanya dua catatan pertama.  

```
aws ecr-public describe-images \
    --repository-name project-a/nginx-web-app  \
    --query 'sort_by(imageDetails,& imagePushedAt)[*].imageTags[*] | [0:2]' \
    --output text
```
Output:  

```
temp3.0 latest
temp1.0
```
+  Untuk detail API, lihat [DescribeImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/describe-images.html)di *Referensi AWS CLI Perintah*. 

### `describe-registries`
<a name="ecr-public_DescribeRegistries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-registries`.

**AWS CLI**  
**Untuk menggambarkan semua pendaftar dalam registri publik**  
`describe-registries`Contoh berikut menjelaskan semua pendaftar di akun Anda.  

```
aws ecr-public describe-registries
```
Output:  

```
{
 "registries": [
     {
         "registryId": "123456789012",
         "registryArn": "arn:aws:ecr-public::123456789012:registry/123456789012",
         "registryUri": "public.ecr.aws/publicregistrycustomalias",
         "verified": false,
         "aliases": [
             {
                 "name": "publicregistrycustomalias",
                 "status": "ACTIVE",
                 "primaryRegistryAlias": true,
                 "defaultRegistryAlias": true
             }
         ]
     }
     ]
 }
```
+  Untuk detail API, lihat [DescribeRegistries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/describe-registries.html)di *Referensi AWS CLI Perintah*. 

### `describe-repository`
<a name="ecr-public_DescribeRepository_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-repository`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan repositori dalam registri publik**  
`describe-repositories`Contoh berikut menjelaskan repositori bernama `project-a/nginx-web-app` dalam registri publik.  

```
aws ecr-public describe-repositories \
    --repository-name project-a/nginx-web-app
```
Output:  

```
{
    "repositories": [
        {
            "repositoryArn": "arn:aws:ecr-public::123456789012:repository/project-a/nginx-web-app",
            "registryId": "123456789012",
            "repositoryName": "project-a/nginx-web-app",
            "repositoryUri": "public.ecr.aws/public-registry-custom-alias/project-a/nginx-web-app",
            "createdAt": "2024-07-07T00:07:56.526000-05:00"
        }
    ]
}
```
**Contoh 2: Untuk mendeskripsikan semua repositori dalam registri publik dalam tabel**  
`describe-repositories`Contoh berikut menjelaskan semua repositori dalam registri publik dan kemudian mengeluarkan nama repositori ke dalam format tabel.  

```
aws ecr-public describe-repositories \
    --region us-east-1 \
    --output table \
    --query "repositories[*].repositoryName"
```
Output:  

```
-----------------------------
|   DescribeRepositories    |
+---------------------------+
|  project-a/nginx-web-app  |
|  nginx                    |
|  myfirstrepo1             |
|  helm-test-chart          |
|  test-ecr-public          |
|  nginx-web-app            |
|  sample-repo              |
+---------------------------+
```
+  Untuk detail API, lihat [DescribeRepository](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/describe-repository.html)di *Referensi AWS CLI Perintah*. 

### `get-authorization-token`
<a name="ecr-public_GetAuthorizationToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-authorization-token`.

**AWS CLI**  
**Contoh 1: Untuk mengambil token otorisasi untuk registri publik Amazon ECR apa pun yang dapat diakses oleh kepala sekolah IAM**  
`get-authorization-token`Contoh berikut mendapatkan token otorisasi dengan AWS CLI dan menyetelnya ke variabel lingkungan.  

```
aws ecr-public get-authorization-token \
    --region us-east-1
```
Output:  

```
{
    "authorizationData": {
        "authorizationToken": "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",
        "expiresAt": "2024-07-25T21:37:26.301000-04:00"
    }
}
```
Untuk informasi selengkapnya, lihat [pendaftar publik Amazon ECR](https://docs.aws.amazon.com/AmazonECR/latest/public/public-registries.html#registry_auth_http) di *Amazon* ECR Public.  
**Contoh 2: Untuk mengambil token otorisasi untuk registri publik Amazon ECR apa pun yang dapat diakses oleh kepala sekolah IAM**  
`get-authorization-token`Contoh berikut mendapatkan token otorisasi dengan AWS CLI dan menyetelnya ke variabel lingkungan.  

```
aws ecr-public get-authorization-token \
    --region us-east-1 \
    --output=text \
    --query 'authorizationData.authorizationToken'
```
Output:  

```
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
```
Untuk informasi selengkapnya, lihat [pendaftar publik Amazon ECR](https://docs.aws.amazon.com/AmazonECR/latest/public/public-registries.html#registry_auth_http) di *Amazon* ECR Public.  
+  Untuk detail API, lihat [GetAuthorizationToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/get-authorization-token.html)di *Referensi AWS CLI Perintah*. 

### `get-login-password`
<a name="ecr-public_GetLoginPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-login-password`.

**AWS CLI**  
**Contoh 1: Untuk mengautentikasi docker ke registri publik Amazon ECR**  
`get-login-password`Contoh berikut mengambil dan menampilkan token otentikasi menggunakan GetAuthorizationToken API yang dapat Anda gunakan untuk mengautentikasi ke registri publik Amazon ECR.  

```
aws ecr-public get-login-password \
    --region us-east-1
| docker login \
    --username AWS \
    --password-stdin public.ecr.aws
```
Perintah ini tidak menghasilkan output di terminal melainkan menyalurkan output ke Docker.  
Untuk informasi selengkapnya, lihat [Mengautentikasi ke registri publik](https://docs.aws.amazon.com/AmazonECR/latest/public/public-registries.html#public-registry-auth) di *Amazon ECR* Public.  
**Contoh 2: Untuk mengautentikasi docker ke registri publik AmazonECR kustom Anda sendiri**  
`get-login-password`Contoh berikut mengambil dan menampilkan token otentikasi menggunakan GetAuthorizationToken API yang dapat Anda gunakan untuk mengautentikasi ke registri publik Amazon ECR kustom Anda sendiri.  

```
 aws ecr-public get-login-password \
    --region us-east-1 \
| docker login \
    --username AWS \
    --password-stdin public.ecr.aws/<your-public-registry-custom-alias>
```
Perintah ini tidak menghasilkan output di terminal tetapi sebaliknya menyalurkan output ke Docker.  
Untuk informasi selengkapnya, lihat [Mengautentikasi ke Publik ECR Amazon Anda sendiri di *Amazon ECR* Public](https://docs.aws.amazon.com/AmazonECR/latest/public/public-registries.html#public-registry-auth).  
+  Untuk detail API, lihat [GetLoginPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/get-login-password.html)di *Referensi AWS CLI Perintah*. 

### `get-registry-catalog-data`
<a name="ecr-public_GetRegistryCatalogData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-registry-catalog-data`.

**AWS CLI**  
**Untuk mengambil metadata katalog untuk registri ECR publik**  
Berikut ini `get-registry-catalog-data` mengambil metadata katalog untuk registri publik ECR.  

```
aws ecr-public get-registry-catalog-data \
    --region us-east-1
```
Output:  

```
{
    "registryCatalogData": {
        "displayName": "YourCustomPublicRepositoryalias"
    }
}
```
+  Untuk detail API, lihat [GetRegistryCatalogData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/get-registry-catalog-data.html)di *Referensi AWS CLI Perintah*. 

### `get-repository-catalog-data`
<a name="ecr-public_GetRepositoryCatalogData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-repository-catalog-data`.

**AWS CLI**  
**Untuk mengambil metadata katalog untuk repositori di registri publik**  
`get-repository-catalog-data`Contoh berikut mencantumkan metadata katalog untuk repositori `project-a/nginx-web-app` dalam registri publik.  

```
aws ecr-public get-repository-catalog-data \
    --repository-name project-a/nginx-web-app \
    --region us-east-1
```
Output:  

```
{
    "catalogData": {
        "description": "My project-a ECR Public Repository",
        "architectures": [
            "ARM",
            "ARM 64",
            "x86",
            "x86-64"
        ],
        "operatingSystems": [
            "Linux"
        ],
        "logoUrl": "https://d3g9o9u8re44ak.cloudfront.net/logo/491d3846-8f33-4d8b-a10c-c2ce271e6c0d/4f09d87c-2569-4916-a932-5c296bf6f88a.png",
        "aboutText": "## Quick reference\n\nMaintained <truncated>",
        "usageText": "## Supported architectures\n\namd64, arm64v8\n\n## <truncated>"
    }
}
```
Untuk informasi selengkapnya, lihat [Data katalog repositori](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-catalog-data.html) di *Amazon ECR* Public.  
+  Untuk detail API, lihat [GetRepositoryCatalogData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/get-repository-catalog-data.html)di *Referensi AWS CLI Perintah*. 

### `get-repository-policy`
<a name="ecr-public_GetRepositoryPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-repository-policy`.

**AWS CLI**  
**Untuk mendapatkan kebijakan repositori yang terkait dengan repositori**  
`get-repository-policy`Contoh berikut mendapat kebijakan repositori yang terkait dengan repositori.  

```
aws ecr-public get-repository-policy \
    --repository-name project-a/nginx-web-app \
    --region us-east-1
```
Output:  

```
{
    "registryId": "123456789012",
    "repositoryName": "project-a/nginx-web-app",
    "policyText": "{\n  \"Version\" : \"2008-10-17\",\n  \"Statement\" : [ {\n    \"Sid\" : \"AllowPush\",\n    \"Effect\" : \"Allow\",\n    \"Principal\" : {\n      \"AWS\" : [ \"arn:aws:iam::123456789012:user/eksuser1\", \"arn:aws:iam::123456789012:user/admin\" ]\n    },\n    \"Action\" : [ \"ecr-public:BatchCheckLayerAvailability\", \"ecr-public:PutImage\", \"ecr-public:InitiateLayerUpload\", \"ecr-public:UploadLayerPart\", \"ecr-public:CompleteLayerUpload\" ]\n  } ]\n}"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan GetRepositoryPolicy dengan AWS SDK atau CLI](https://docs.aws.amazon.com/AmazonECR/latest/userguide/example_ecr_GetRepositoryPolicy_section.html) di Panduan Pengguna *Publik Amazon ECR*.  
+  Untuk detail API, lihat [GetRepositoryPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/get-repository-policy.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="ecr-public_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag untuk repositori publik dalam registri publik**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk sumber daya bernama `project-a/nginx-web-app` dalam registri publik.  

```
aws ecr-public list-tags-for-resource \
    --resource-arn arn:aws:ecr-public::123456789012:repository/project-a/nginx-web-app \
    --region us-east-1
```
Output:  

```
{
    "tags": [
        {
            "Key": "Environment",
            "Value": "Prod"
        },
        {
            "Key": "stack",
            "Value": "dev1"
        },
        {
            "Key": "Name",
            "Value": "project-a/nginx-web-app"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar tag untuk repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/ecr-public-using-tags.html) di *Amazon ECR* Public.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-registry-catalog-data`
<a name="ecr-public_PutRegistryCatalogData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-registry-catalog-data`.

**AWS CLI**  
**Untuk membuat atau memperbarui metadata katalog untuk registri ECR publik**  
Berikut ini `put-registry-catalog-data` membuat atau memperbarui metadata katalog untuk registri publik ECR. Hanya akun yang memiliki lencana akun terverifikasi yang dapat memiliki nama tampilan registri.  

```
aws ecr-public put-registry-catalog-data \
    --region us-east-1 \
    --display-name <YourCustomPublicRepositoryalias>
```
Output:  

```
{
    "registryCatalogData": {
        "displayName": "YourCustomPublicRepositoryalias"
    }
}
```
+  Untuk detail API, lihat [PutRegistryCatalogData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/put-registry-catalog-data.html)di *Referensi AWS CLI Perintah*. 

### `put-repository-catalog-data`
<a name="ecr-public_PutRepositoryCatalogData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-repository-catalog-data`.

**AWS CLI**  
**Untuk membuat atau memperbarui data katalog untuk repositori di registri publik**  
`put-repository-catalog-data`Contoh berikut membuat atau memperbarui data katalog untuk reposiotry bernama project-a/ nginx-web-app dalam registri publik, bersama dengan logoImageBlob, AboutText, UsageText dan tag informasi.  

```
aws ecr-public put-repository-catalog-data \
    --repository-name project-a/nginx-web-app \
    --cli-input-json file://repository-catalog-data.json \
    --region us-east-1
```
Isi dari `repository-catalog-data.json`:  

```
{
    "repositoryName": "project-a/nginx-web-app",
    "catalogData": {
        "description": "My project-a ECR Public Repository",
        "architectures": [
            "ARM",
            "ARM 64",
            "x86",
            "x86-64"
        ],
        "operatingSystems": [
            "Linux"
        ],
        "logoImageBlob": "iVBORw0KGgoA<<truncated-for-better-reading>>ErkJggg==",
        "aboutText": "## Quick reference.",
        "usageText": "## Supported architectures are as follows."
    }
}
```
Output:  

```
{
    "catalogData": {
        "description": "My project-a ECR Public Repository",
        "architectures": [
            "ARM",
            "ARM 64",
            "x86",
            "x86-64"
        ],
        "operatingSystems": [
            "Linux"
        ],
        "logoUrl": "https://d3g9o9u8re44ak.cloudfront.net/logo/df86cf58-ee60-4061-b804-0be24d97ccb1/4a9ed9b2-69e4-4ede-b924-461462d20ef0.png",
        "aboutText": "## Quick reference.",
        "usageText": "## Supported architectures are as follows."
    }
}
```
Untuk informasi selengkapnya, lihat [Data katalog repositori](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-catalog-data.html) di *Amazon ECR* Public.  
+  Untuk detail API, lihat [PutRepositoryCatalogData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/put-repository-catalog-data.html)di *Referensi AWS CLI Perintah*. 

### `set-repository-policy`
<a name="ecr-public_SetRepositoryPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-repository-policy`.

**AWS CLI**  
**Contoh 1: Untuk menyetel kebijakan repositori agar memungkinkan penarikan pada repositori**  
`set-repository-policy`Contoh berikut menerapkan kebijakan repositori publik ECR ke repositori yang ditentukan untuk mengontrol izin akses.  

```
aws ecr-public set-repository-policy \
    --repository-name project-a/nginx-web-app \
    --policy-text file://my-repository-policy.json
```
Isi dari `my-repository-policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement" : [
        {
            "Sid" : "allow public pull",
            "Effect" : "Allow",
            "Principal" : "*",
            "Action" : [
                "ecr:BatchCheckLayerAvailability",
                "ecr:BatchGetImage",
                "ecr:GetDownloadUrlForLayer"
            ]
        }
    ]
}
```
Output:  

```
{
    "registryId": "12345678901",
    "repositoryName": "project-a/nginx-web-app",
    "policyText": "{\n  \"Version\" : \"2008-10-17\",\n  \"Statement\" : [ {\n    \"Sid\" : \"allow public pull\",\n    \"Effect\" : \"Allow\",\n    \"Principal\" : \"*\",\n    \"Action\" : [ \"ecr:BatchCheckLayerAvailability\", \"ecr:BatchGetImage\", \"ecr:GetDownloadUrlForLayer\" ]\n  } ]\n}"
}
```
Untuk informasi selengkapnya, lihat [Menyetel pernyataan kebijakan repositori](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-policy-examples.html) di Panduan Pengguna *Publik Amazon ECR*.  
**Contoh 2: Untuk menetapkan kebijakan repositori untuk mengizinkan pengguna IAM dalam akun Anda untuk mendorong gambar**  
`set-repository-policy`Contoh berikut memungkinkan pengguna IAM dalam akun Anda untuk mendorong gambar menggunakan ke repositori ECR di AWS akun Anda menggunakan file input bernama `file://my-repository-policy.json` teks kebijakan.  

```
aws ecr-public set-repository-policy \
    --repository-name project-a/nginx-web-app \
    --policy-text file://my-repository-policy.json
```
Isi dari `my-repository-policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Sid": "AllowPush",
            "Effect": "Allow",
            "Principal": {
                "AWS": [
                    "arn:aws:iam::account-id:user/push-pull-user-1",
                    "arn:aws:iam::account-id:user/push-pull-user-2"
                ]
            },
            "Action": [
                "ecr-public:BatchCheckLayerAvailability",
                "ecr-public:PutImage",
                "ecr-public:InitiateLayerUpload",
                "ecr-public:UploadLayerPart",
                "ecr-public:CompleteLayerUpload"
            ]
        }
    ]
}
```
Output:  

```
{
    "registryId": "12345678901",
    "repositoryName": "project-a/nginx-web-app",
    "policyText": "{\n  \"Version\" : \"2008-10-17\",\n  \"Statement\" : [ {\n    \"Sid\" : \"AllowPush\",\n    \"Effect\" : \"Allow\",\n    \"Principal\" : {\n      \"AWS\" : [ \"arn:aws:iam::12345678901:user/admin\", \"arn:aws:iam::12345678901:user/eksuser1\" ]\n    },\n    \"Action\" : [ \"ecr-public:BatchCheckLayerAvailability\", \"ecr-public:PutImage\", \"ecr-public:InitiateLayerUpload\", \"ecr-public:UploadLayerPart\", \"ecr-public:CompleteLayerUpload\" ]\n  } ]\n}"
}
```
Untuk informasi selengkapnya, lihat [Menyetel pernyataan kebijakan repositori](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-policy-examples.html) di Panduan Pengguna *Publik Amazon ECR*.  
**Contoh 3: Untuk menetapkan kebijakan repositori untuk mengizinkan pengguna IAM dari akun yang berbeda untuk mendorong gambar**  
`set-repository-policy`Contoh berikut memungkinkan akun tertentu untuk mendorong gambar menggunakan file input cli://my-repository-policy.json di akun Anda. AWS   

```
aws ecr-public set-repository-policy \
    --repository-name project-a/nginx-web-app \
    --policy-text file://my-repository-policy.json
```
Isi dari `my-repository-policy.json`:  

```
 {
     "Version":"2012-10-17",		 	 	 
     "Statement": [
         {
             "Sid": "AllowCrossAccountPush",
             "Effect": "Allow",
             "Principal": {
                 "AWS": "arn:aws:iam::other-or-same-account-id:role/RoleName"
             },
             "Action": [
                 "ecr-public:BatchCheckLayerAvailability",
                 "ecr-public:PutImage",
                 "ecr-public:InitiateLayerUpload",
                 "ecr-public:UploadLayerPart",
                 "ecr-public:CompleteLayerUpload"
             ]
         }
     ]
}
```
Output:  

```
{
    "registryId": "12345678901",
    "repositoryName": "project-a/nginx-web-app",
    "policyText": "{\n  \"Version\" : \"2008-10-17\",\n  \"Statement\" : [ {\n    \"Sid\" : \"AllowCrossAccountPush\",\n    \"Effect\" : \"Allow\",\n    \"Principal\" : {\n      \"AWS\" : \"arn:aws:iam::12345678901:role/RoleName\"\n    },\n    \"Action\" : [ \"ecr-public:BatchCheckLayerAvailability\", \"ecr-public:PutImage\", \"ecr-public:InitiateLayerUpload\", \"ecr-public:UploadLayerPart\", \"ecr-public:CompleteLayerUpload\" ]\n  } ]\n}"
}
```
Untuk informasi selengkapnya, lihat [contoh kebijakan repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/public-repository-policy-examples.html) di Panduan Pengguna *Publik Amazon ECR*.  
+  Untuk detail API, lihat [SetRepositoryPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/set-repository-policy.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="ecr-public_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menandai repositori publik yang ada di registri publik**  
`tag-resource`Contoh berikut tag repositori bernama `project-a/nginx-web-app` dalam registri publik.  

```
aws ecr-public tag-resource \
    --resource-arn arn:aws:ecr-public::123456789012:repository/project-a/nginx-web-app \
    --tags Key=stack,Value=dev \
    --region us-east-1
```
Untuk informasi selengkapnya, lihat [Menggunakan Tag untuk repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/ecr-public-using-tags.html) di *Amazon ECR* Public.  
**Contoh 2: Untuk menandai repositori publik yang ada dengan beberapa tag dalam registri publik.**  
`tag-resource`Contoh berikut menandai repositori yang ada dengan beberapa tag.  

```
aws ecr-public tag-resource \
    --resource-arn arn:aws:ecr-public::890517186334:repository/project-a/nginx-web-app  \
    --tags Key=key1,Value=value1 Key=key2,Value=value2 Key=key3,Value=value3 \
    --region us-east-1
```
Untuk informasi selengkapnya, lihat [Menggunakan Tag untuk repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/ecr-public-using-tags.html) di *Amazon ECR* Public.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="ecr-public_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menghapus tag repositori publik yang ada di registri publik**  
`untag-resource`Contoh berikut tag repositori bernama `project-a/nginx-web-app` dalam registri publik.  

```
aws ecr-public untag-resource \
    --resource-arn arn:aws:ecr-public::123456789012:repository/project-a/nginx-web-app \
    --tag-keys stack \
    --region us-east-1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan Tag untuk repositori publik](https://docs.aws.amazon.com/AmazonECR/latest/public/ecr-public-using-tags.html) di *Amazon ECR* Public.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecr-public/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon ECS menggunakan AWS CLI
<a name="cli_2_ecs_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan menerapkan skenario umum AWS Command Line Interface dengan menggunakan Amazon ECS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `capacity-provider-update`
<a name="ecs_CapacityProviderUpdate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`capacity-provider-update`.

**AWS CLI**  
**Perbarui penyedia kapasitas di cluster ECS**  
`update-capacity-provider`Contoh berikut menunjukkan bagaimana kita dapat memodifikasi parameter penyedia kapasitas dalam cluster ECS.  

```
aws ecs update-capacity-provider \
    --name Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt \
    --auto-scaling-group-provider "managedScaling={status=DISABLED,targetCapacity=50,minimumScalingStepSize=2,maximumScalingStepSize=30,instanceWarmupPeriod=200},managedTerminationProtection=DISABLED,managedDraining=DISABLED"
```
Output:  

```
{
    "capacityProvider": {
        "capacityProviderArn": "arn:aws:ecs:us-west-2:123456789012:capacity-provider/Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt",
        "name": "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt",
        "status": "ACTIVE",
        "autoScalingGroupProvider": {
            "autoScalingGroupArn": "arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:424941d1-b43f-4a17-adbb-08b6a6e397e1:autoScalingGroupName/Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-ECSAutoScalingGroup-f44jrQHS2nRB",
            "managedScaling": {
                "status": "ENABLED",
                "targetCapacity": 100,
                "minimumScalingStepSize": 1,
                "maximumScalingStepSize": 10000,
                "instanceWarmupPeriod": 300
            },
            "managedTerminationProtection": "DISABLED",
            "managedDraining": "ENABLED"
        },
        "updateStatus": "UPDATE_IN_PROGRESS",
        "tags": []
    }
}
```
Untuk informasi selengkapnya tentang Penyedia Kapasitas, lihat [Penyedia kapasitas Amazon ECS untuk jenis peluncuran EC2 di Panduan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/asg-capacity-providers.html) Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [CapacityProviderUpdate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/capacity-provider-update.html)di *Referensi AWS CLI Perintah*. 

### `create-capacity-provider`
<a name="ecs_CreateCapacityProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-capacity-provider`.

**AWS CLI**  
**Untuk membuat penyedia kapasitas**  
 create-capacity-providerContoh berikut membuat penyedia kapasitas yang menggunakan grup Auto Scaling bernama myASG, telah mengelola penskalaan dan perlindungan terminasi terkelola yang diaktifkan. Konfigurasi ini digunakan untuk auto scaling klaster Amazon ECS.  

```
aws ecs create-capacity-provider \
    --name "MyCapacityProvider" \
    --auto-scaling-group-provider "autoScalingGroupArn=arn:aws:autoscaling:us-east-1:123456789012:autoScalingGroup:57ffcb94-11f0-4d6d-bf60-3bac5EXAMPLE:autoScalingGroupName/MyASG,managedScaling={status=ENABLED,targetCapacity=100},managedTerminationProtection=ENABLED"
```
Output:  

```
{
    "capacityProvider": {
    "capacityProviderArn": "arn:aws:ecs:us-east-1:123456789012:capacity-provider/MyCapacityProvider",
    "name": "MyCapacityProvider",
    "status": "ACTIVE",
    "autoScalingGroupProvider": {
        "autoScalingGroupArn": "arn:aws:autoscaling:us-east-1:132456789012:autoScalingGroup:57ffcb94-11f0-4d6d-bf60-3bac5EXAMPLE:autoScalingGroupName/MyASG",
        "managedScaling": {
            "status": "ENABLED",
            "targetCapacity": 100,
            "minimumScalingStepSize": 1,
            "maximumScalingStepSize": 10000,
            "instanceWarmupPeriod": 300
        },
        "managedTerminationProtection": "ENABLED"
    },
    "tags": []
}
```
Untuk informasi selengkapnya, lihat [penskalaan otomatis klaster Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-auto-scaling.html) di Panduan Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [CreateCapacityProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/create-capacity-provider.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster`
<a name="ecs_CreateCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster`.

**AWS CLI**  
**Contoh 1: Untuk membuat cluster baru**  
`create-cluster`Contoh berikut membuat cluster bernama `MyCluster` dan memungkinkan CloudWatch Container Insights dengan observabilitas yang ditingkatkan.  

```
aws ecs create-cluster \
    --cluster-name MyCluster \
    --settings name=containerInsights,value=enhanced
```
Output:  

```
{
    "cluster": {
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "clusterName": "MyCluster",
        "status": "ACTIVE",
        "registeredContainerInstancesCount": 0,
        "pendingTasksCount": 0,
        "runningTasksCount": 0,
        "activeServicesCount": 0,
        "statistics": [],
        "settings": [
            {
                "name": "containerInsights",
                "value": "enhanced"
            }
        ],
        "tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Cluster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/create_cluster.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 2: Untuk membuat cluster baru menggunakan penyedia kapasitas**  
`create-cluster`Contoh berikut membuat cluster dan mengaitkan dua penyedia kapasitas yang ada dengannya. `create-capacity-provider`Perintah ini digunakan untuk membuat penyedia kapasitas. Menentukan strategi penyedia kapasitas default adalah opsional, tetapi disarankan. Dalam contoh ini, kita membuat sebuah cluster bernama `MyCluster` dan mengasosiasikan `MyCapacityProvider1` dan penyedia `MyCapacityProvider2` kapasitas dengannya. Strategi penyedia kapasitas default ditentukan yang menyebarkan tugas secara merata di kedua penyedia kapasitas.  

```
aws ecs create-cluster \
    --cluster-name MyCluster \
    --capacity-providers MyCapacityProvider1 MyCapacityProvider2 \
    --default-capacity-provider-strategy capacityProvider=MyCapacityProvider1,weight=1 capacityProvider=MyCapacityProvider2,weight=1
```
Output:  

```
{
    "cluster": {
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "clusterName": "MyCluster",
        "status": "PROVISIONING",
        "registeredContainerInstancesCount": 0,
        "pendingTasksCount": 0,
        "runningTasksCount": 0,
        "activeServicesCount": 0,
        "statistics": [],
        "settings": [
            {
                "name": "containerInsights",
                "value": "enabled"
            }
        ],
        "capacityProviders": [
            "MyCapacityProvider1",
            "MyCapacityProvider2"
        ],
        "defaultCapacityProviderStrategy": [
            {
                "capacityProvider": "MyCapacityProvider1",
                "weight": 1,
                "base": 0
            },
            {
                "capacityProvider": "MyCapacityProvider2",
                "weight": 1,
                "base": 0
            }
        ],
        "attachments": [
           {
               "id": "0fb0c8f4-6edd-4de1-9b09-17e470ee1918",
               "type": "asp",
               "status": "PRECREATED",
               "details": [
                   {
                       "name": "capacityProviderName",
                       "value": "MyCapacityProvider1"
                   },
                   {
                       "name": "scalingPlanName",
                       "value": "ECSManagedAutoScalingPlan-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
                   }
                ]
            },
            {
                "id": "ae592060-2382-4663-9476-b015c685593c",
                "type": "asp",
                "status": "PRECREATED",
                "details": [
                    {
                        "name": "capacityProviderName",
                        "value": "MyCapacityProvider2"
                    },
                    {
                        "name": "scalingPlanName",
                        "value": "ECSManagedAutoScalingPlan-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
                    }
                ]
            }
        ],
        "attachmentsStatus": "UPDATE_IN_PROGRESS"
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kapasitas klaster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-capacity-providers.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 3: Untuk membuat cluster baru dengan beberapa tag**  
`create-cluster`Contoh berikut membuat cluster dengan beberapa tag. *Untuk informasi selengkapnya tentang menambahkan tag menggunakan sintaks singkatan, lihat [Menggunakan Sintaks Shorthand dengan Antarmuka AWS Baris Perintah di Panduan Pengguna CLI](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-shorthand.html).AWS *  

```
aws ecs create-cluster \
    --cluster-name MyCluster \
    --tags key=key1,value=value1 key=key2,value=value2
```
Output:  

```
{
    "cluster": {
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "clusterName": "MyCluster",
        "status": "ACTIVE",
        "registeredContainerInstancesCount": 0,
        "pendingTasksCount": 0,
        "runningTasksCount": 0,
        "activeServicesCount": 0,
        "statistics": [],
        "tags": [
            {
                "key": "key1",
                "value": "value1"
            },
            {
                "key": "key2",
                "value": "value2"
            }
        ]
     }
 }
```
Untuk informasi selengkapnya, lihat [Membuat Cluster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/create_cluster.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [CreateCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/create-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-service`
<a name="ecs_CreateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service`.

**AWS CLI**  
**Contoh 1: Untuk membuat layanan dengan tugas Fargate**  
`create-service`Contoh berikut menunjukkan cara membuat layanan menggunakan tugas Fargate.  

```
aws ecs create-service \
    --cluster MyCluster \
    --service-name MyService \
    --task-definition sample-fargate:1 \
    --desired-count 2 \
    --launch-type FARGATE \
    --platform-version LATEST \
    --network-configuration 'awsvpcConfiguration={subnets=[subnet-12344321],securityGroups=[sg-12344321],assignPublicIp=ENABLED}' \
    --tags key=key1,value=value1 key=key2,value=value2 key=key3,value=value3
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/MyCluster/MyService",
        "serviceName": "MyService",
          "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 2,
        "runningCount": 0,
        "pendingCount": 0,
        "launchType": "FARGATE",
        "platformVersion": "LATEST",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/sample-fargate:1",
        "deploymentConfiguration": {
            "maximumPercent": 200,
            "minimumHealthyPercent": 100
        },
        "deployments": [
            {
                "id": "ecs-svc/1234567890123456789",
                "status": "PRIMARY",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/sample-fargate:1",
                "desiredCount": 2,
                "pendingCount": 0,
                "runningCount": 0,
                "createdAt": 1557119253.821,
                "updatedAt": 1557119253.821,
                "launchType": "FARGATE",
                "platformVersion": "1.3.0",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-12344321"
                        ],
                        "securityGroups": [
                            "sg-12344321"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                }
            }
        ],
        "roleArn": "arn:aws:iam::123456789012:role/aws-service-role/ecs.amazonaws.com/AWSServiceRoleForECS",
        "events": [],
        "createdAt": 1557119253.821,
        "placementConstraints": [],
        "placementStrategy": [],
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12344321"
                ],
                "securityGroups": [
                    "sg-12344321"
                ],
                "assignPublicIp": "ENABLED"
            }
        },
        "schedulingStrategy": "REPLICA",
        "tags": [
            {
                "key": "key1",
                "value": "value1"
            },
            {
                "key": "key2",
                "value": "value2"
            },
            {
                "key": "key3",
                "value": "value3"
            }
        ],
        "enableECSManagedTags": false,
        "propagateTags": "NONE"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Layanan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/create-service-console-v2.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 2: Untuk membuat layanan menggunakan tipe peluncuran EC2**  
`create-service`Contoh berikut menunjukkan cara membuat layanan yang dipanggil `ecs-simple-service` dengan tugas yang menggunakan tipe peluncuran EC2. Layanan ini menggunakan definisi `sleep360` tugas dan mempertahankan 1 instantiasi tugas.  

```
aws ecs create-service \
    --cluster MyCluster \
    --service-name ecs-simple-service \
    --task-definition sleep360:2 \
    --desired-count 1
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/MyCluster/ecs-simple-service",
        "serviceName": "ecs-simple-service",
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 1,
        "runningCount": 0,
        "pendingCount": 0,
        "launchType": "EC2",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/sleep360:2",
        "deploymentConfiguration": {
            "maximumPercent": 200,
            "minimumHealthyPercent": 100
        },
        "deployments": [
            {
                "id": "ecs-svc/1234567890123456789",
                "status": "PRIMARY",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/sleep360:2",
                "desiredCount": 1,
                "pendingCount": 0,
                "runningCount": 0,
                "createdAt": 1557206498.798,
                "updatedAt": 1557206498.798,
                "launchType": "EC2"
            }
        ],
        "events": [],
        "createdAt": 1557206498.798,
        "placementConstraints": [],
        "placementStrategy": [],
        "schedulingStrategy": "REPLICA",
        "enableECSManagedTags": false,
        "propagateTags": "NONE"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Layanan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/create-service-console-v2.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 3: Untuk membuat layanan yang menggunakan pengontrol penyebaran eksternal**  
`create-service`Contoh berikut membuat layanan yang menggunakan controller deployment eksternal.  

```
aws ecs create-service \
    --cluster MyCluster \
    --service-name MyService \
    --deployment-controller type=EXTERNAL \
    --desired-count 1
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/MyCluster/MyService",
        "serviceName": "MyService",
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 1,
        "runningCount": 0,
        "pendingCount": 0,
        "launchType": "EC2",
        "deploymentConfiguration": {
            "maximumPercent": 200,
            "minimumHealthyPercent": 100
        },
        "taskSets": [],
        "deployments": [],
        "roleArn": "arn:aws:iam::123456789012:role/aws-service-role/ecs.amazonaws.com/AWSServiceRoleForECS",
        "events": [],
        "createdAt": 1557128207.101,
        "placementConstraints": [],
        "placementStrategy": [],
        "schedulingStrategy": "REPLICA",
        "deploymentController": {
            "type": "EXTERNAL"
        },
        "enableECSManagedTags": false,
        "propagateTags": "NONE"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Layanan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/create-service-console-v2.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 4: Untuk membuat layanan baru di belakang penyeimbang beban**  
`create-service`Contoh berikut menunjukkan cara membuat layanan yang berada di belakang penyeimbang beban. Anda harus memiliki penyeimbang beban yang dikonfigurasi di Wilayah yang sama dengan instance container Anda. Contoh ini menggunakan `--cli-input-json` opsi dan file input JSON yang disebut `ecs-simple-service-elb.json` dengan konten berikut.  

```
aws ecs create-service \
    --cluster MyCluster \
    --service-name ecs-simple-service-elb \
    --cli-input-json file://ecs-simple-service-elb.json
```
Isi dari `ecs-simple-service-elb.json`:  

```
 {
    "serviceName": "ecs-simple-service-elb",
    "taskDefinition": "ecs-demo",
    "loadBalancers": [
        {
            "loadBalancerName": "EC2Contai-EcsElast-123456789012",
            "containerName": "simple-demo",
            "containerPort": 80
        }
    ],
    "desiredCount": 10,
    "role": "ecsServiceRole"
}
```
Output:  

```
{
    "service": {
        "status": "ACTIVE",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/ecs-demo:1",
        "pendingCount": 0,
        "loadBalancers": [
            {
                "containerName": "ecs-demo",
                "containerPort": 80,
                "loadBalancerName": "EC2Contai-EcsElast-123456789012"
            }
        ],
        "roleArn": "arn:aws:iam::123456789012:role/ecsServiceRole",
        "desiredCount": 10,
        "serviceName": "ecs-simple-service-elb",
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/ecs-simple-service-elb",
        "deployments": [
            {
                "status": "PRIMARY",
                "pendingCount": 0,
                "createdAt": 1428100239.123,
                "desiredCount": 10,
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/ecs-demo:1",
                "updatedAt": 1428100239.123,
                "id": "ecs-svc/1234567890123456789",
                "runningCount": 0
            }
        ],
        "events": [],
        "runningCount": 0
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan load balancing untuk mendistribusikan lalu lintas layanan Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-load-balancing.html) di Panduan Pengembang *Amazon ECS.*  
**Contoh 5: Untuk mengonfigurasi volume Amazon EBS pada pembuatan layanan**  
`create-service`Contoh berikut menunjukkan cara mengonfigurasi volume Amazon EBS untuk setiap tugas yang dikelola oleh layanan. Anda harus memiliki peran infrastruktur Amazon ECS yang dikonfigurasi dengan kebijakan `AmazonECSInfrastructureRolePolicyForVolumes` terkelola yang dilampirkan. Anda harus menentukan definisi tugas dengan nama volume yang sama seperti pada `create-service` permintaan. Contoh ini menggunakan `--cli-input-json` opsi dan file input JSON yang disebut `ecs-simple-service-ebs.json` dengan konten berikut.  

```
aws ecs create-service \
    --cli-input-json file://ecs-simple-service-ebs.json
```
Isi dari `ecs-simple-service-ebs.json`:  

```
{
    "cluster": "mycluster",
    "taskDefinition": "mytaskdef",
    "serviceName": "ecs-simple-service-ebs",
    "desiredCount": 2,
    "launchType": "FARGATE",
    "networkConfiguration":{
        "awsvpcConfiguration":{
            "assignPublicIp": "ENABLED",
            "securityGroups": ["sg-12344321"],
            "subnets":["subnet-12344321"]
        }
    },
    "volumeConfigurations": [
        {
            "name": "myEbsVolume",
            "managedEBSVolume": {
                "roleArn":"arn:aws:iam::123456789012:role/ecsInfrastructureRole",
                "volumeType": "gp3",
                "sizeInGiB": 100,
                "iops": 3000,
                "throughput": 125,
                "filesystemType": "ext4"
            }
        }
   ]
}
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/mycluster/ecs-simple-service-ebs",
        "serviceName": "ecs-simple-service-ebs",
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/mycluster",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 2,
        "runningCount": 0,
        "pendingCount": 0,
        "launchType": "EC2",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:3",
        "deploymentConfiguration": {
            "deploymentCircuitBreaker": {
                "enable": false,
                "rollback": false
            },
            "maximumPercent": 200,
            "minimumHealthyPercent": 100
        },
        "deployments": [
            {
                "id": "ecs-svc/7851020056849183687",
                "status": "PRIMARY",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:3",
                "desiredCount": 0,
                "pendingCount": 0,
                "runningCount": 0,
                "failedTasks": 0,
                "createdAt": "2025-01-21T11:32:38.034000-06:00",
                "updatedAt": "2025-01-21T11:32:38.034000-06:00",
                "launchType": "EC2",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-12344321"
                        ],
                        "securityGroups": [
                            "sg-12344321"
                        ],
                        "assignPublicIp": "DISABLED"
                    }
                },
                "rolloutState": "IN_PROGRESS",
                "rolloutStateReason": "ECS deployment ecs-svc/7851020056849183687 in progress.",
                "volumeConfigurations": [
                    {
                        "name": "myEBSVolume",
                        "managedEBSVolume": {
                            "volumeType": "gp3",
                            "sizeInGiB": 100,
                            "iops": 3000,
                            "throughput": 125,
                            "roleArn": "arn:aws:iam::123456789012:role/ecsInfrastructureRole",
                            "filesystemType": "ext4"
                        }
                    }
                ]
            }
        ],
        "roleArn": "arn:aws:iam::123456789012:role/aws-service-role/ecs.amazonaws.com/AWSServiceRoleForECS",
        "events": [],
        "createdAt": "2025-01-21T11:32:38.034000-06:00",
        "placementConstraints": [],
        "placementStrategy": [],
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12344321"
                ],
                "securityGroups": [
                    "sg-12344321"
                ],
                "assignPublicIp": "DISABLED"
            }
        },
        "healthCheckGracePeriodSeconds": 0,
        "schedulingStrategy": "REPLICA",
        "deploymentController": {
            "type": "ECS"
        },
        "createdBy": "arn:aws:iam::123456789012:user/AIDACKCEVSQ6C2EXAMPLE",
        "enableECSManagedTags": false,
        "propagateTags": "NONE",
        "enableExecuteCommand": false,
        "availabilityZoneRebalancing": "DISABLED"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan volume Amazon EBS dengan Amazon ECS di Panduan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ebs-volumes.html) Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [CreateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/create-service.html)di *Referensi AWS CLI Perintah*. 

### `create-task-set`
<a name="ecs_CreateTaskSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-task-set`.

**AWS CLI**  
**Untuk membuat set tugas**  
`create-task-set`Contoh berikut membuat tugas yang ditetapkan dalam layanan yang menggunakan controller deployment eksternal.  

```
aws ecs create-task-set \
    --cluster MyCluster \
    --service MyService \
    --task-definition MyTaskDefinition:2 \
    --network-configuration "awsvpcConfiguration={subnets=[subnet-12344321],securityGroups=[sg-12344321]}"
```
Output:  

```
{
    "taskSet": {
        "id": "ecs-svc/1234567890123456789",
        "taskSetArn": "arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789",
        "status": "ACTIVE",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/MyTaskDefinition:2",
        "computedDesiredCount": 0,
        "pendingCount": 0,
        "runningCount": 0,
        "createdAt": 1557128360.711,
        "updatedAt": 1557128360.711,
        "launchType": "EC2",
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12344321"
                ],
                "securityGroups": [
                    "sg-12344321"
                ],
                "assignPublicIp": "DISABLED"
            }
        },
        "loadBalancers": [],
        "serviceRegistries": [],
        "scale": {
            "value": 0.0,
            "unit": "PERCENT"
        },
        "stabilityStatus": "STABILIZING",
        "stabilityStatusAt": 1557128360.711
    }
}
```
+  Untuk detail API, lihat [CreateTaskSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/create-task-set.html)di *Referensi AWS CLI Perintah*. 

### `delete-account-setting`
<a name="ecs_DeleteAccountSetting_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-account-setting`.

**AWS CLI**  
**Untuk menghapus pengaturan akun untuk pengguna IAM tertentu atau peran IAM**  
Contoh berikut `delete-account-setting` menghapus pengaturan akun untuk pengguna IAM tertentu atau peran IAM.  

```
aws ecs delete-account-setting \
    --name serviceLongArnFormat \
    --principal-arn arn:aws:iam::123456789012:user/MyUser
```
Output:  

```
{
    "setting": {
        "name": "serviceLongArnFormat",
        "value": "enabled",
        "principalArn": "arn:aws:iam::123456789012:user/MyUser"
    }
}
```
Untuk informasi selengkapnya, lihat [Nama Sumber Daya Amazon (ARNs) dan IDs](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-resource-ids.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DeleteAccountSetting](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/delete-account-setting.html)di *Referensi AWS CLI Perintah*. 

### `delete-attributes`
<a name="ecs_DeleteAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-attributes`.

**AWS CLI**  
**Untuk menghapus satu atau beberapa atribut kustom dari sumber daya Amazon ECS**  
Berikut ini `delete-attributes` menghapus atribut dengan nama `stack` dari instance container.  

```
aws ecs delete-attributes \
    --attributes name=stack,targetId=arn:aws:ecs:us-west-2:130757420319:container-instance/1c3be8ed-df30-47b4-8f1e-6e68ebd01f34
```
Output:  

```
{
    "attributes": [
        {
            "name": "stack",
            "targetId": "arn:aws:ecs:us-west-2:130757420319:container-instance/1c3be8ed-df30-47b4-8f1e-6e68ebd01f34",
            "value": "production"
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/delete-attributes.html)di *Referensi AWS CLI Perintah*. 

### `delete-capacity-provider`
<a name="ecs_DeleteCapacityProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-capacity-provider`.

**AWS CLI**  
**Contoh 1: Untuk menghapus penyedia kapasitas menggunakan Amazon Resource Name (ARN)**  
`delete-capacity-provider`Contoh berikut menghapus penyedia kapasitas dengan menentukan Amazon Resource Name (ARN) dari penyedia kapasitas. ARN serta status penghapusan penyedia kapasitas dapat diambil menggunakan perintah. `describe-capacity-providers`  

```
aws ecs delete-capacity-provider \
    --capacity-provider arn:aws:ecs:us-west-2:123456789012:capacity-provider/ExampleCapacityProvider
```
Output:  

```
{
    "capacityProvider": {
        "capacityProviderArn": "arn:aws:ecs:us-west-2:123456789012:capacity-provider/ExampleCapacityProvider",
        "name": "ExampleCapacityProvider",
        "status": "ACTIVE",
        "autoScalingGroupProvider": {
            "autoScalingGroupArn": "arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:autoScalingGroupName/MyAutoScalingGroup",
            "managedScaling": {
                "status": "ENABLED",
                "targetCapacity": 100,
                "minimumScalingStepSize": 1,
                "maximumScalingStepSize": 10000
            },
            "managedTerminationProtection": "DISABLED"
        },
        "updateStatus": "DELETE_IN_PROGRESS",
        "tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kapasitas klaster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-capacity-providers.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 2: Untuk menghapus penyedia kapasitas menggunakan nama**  
`delete-capacity-provider`Contoh berikut menghapus penyedia kapasitas dengan menentukan nama pendek penyedia kapasitas. Nama pendek serta status penghapusan penyedia kapasitas dapat diambil menggunakan perintah. `describe-capacity-providers`  

```
aws ecs delete-capacity-provider \
    --capacity-provider ExampleCapacityProvider
```
Output:  

```
{
    "capacityProvider": {
        "capacityProviderArn": "arn:aws:ecs:us-west-2:123456789012:capacity-provider/ExampleCapacityProvider",
        "name": "ExampleCapacityProvider",
        "status": "ACTIVE",
        "autoScalingGroupProvider": {
            "autoScalingGroupArn": "arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:autoScalingGroupName/MyAutoScalingGroup",
            "managedScaling": {
                "status": "ENABLED",
                "targetCapacity": 100,
                "minimumScalingStepSize": 1,
                "maximumScalingStepSize": 10000
            },
            "managedTerminationProtection": "DISABLED"
        },
        "updateStatus": "DELETE_IN_PROGRESS",
        "tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kapasitas klaster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-capacity-providers.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DeleteCapacityProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/delete-capacity-provider.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster`
<a name="ecs_DeleteCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster`.

**AWS CLI**  
**Untuk menghapus klaster kosong**  
`delete-cluster`Contoh berikut menghapus cluster kosong yang ditentukan.  

```
aws ecs delete-cluster --cluster MyCluster
```
Output:  

```
{
    "cluster": {
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "status": "INACTIVE",
        "clusterName": "MyCluster",
        "registeredContainerInstancesCount": 0,
        "pendingTasksCount": 0,
        "runningTasksCount": 0,
        "activeServicesCount": 0
        "statistics": [],
        "tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Cluster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/delete_cluster.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DeleteCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/delete-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-service`
<a name="ecs_DeleteService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service`.

**AWS CLI**  
**Untuk menghapus layanan**  
`ecs delete-service`Contoh berikut menghapus layanan tertentu dari cluster. Anda dapat menyertakan `--force` parameter untuk menghapus layanan meskipun belum diskalakan ke nol tugas.  

```
aws ecs delete-service --cluster MyCluster --service MyService1 --force
```
Untuk informasi selengkapnya, lihat [Menghapus Layanan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/delete-service.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DeleteService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/delete-service.html)di *Referensi AWS CLI Perintah*. 

### `delete-task-definitions`
<a name="ecs_DeleteTaskDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-task-definitions`.

**AWS CLI**  
**Untuk menghapus definisi tugas**  
`delete-task-definitions`Contoh berikut menghapus definisi tugas INACTIVE.  

```
aws ecs delete-task-definitions \
    --task-definition curltest:1
```
Output:  

```
{
"taskDefinitions": [
    {
        "taskDefinitionArn": "arn:aws:ecs:us-east-1:123456789012:task-definition/curltest:1",
        "containerDefinitions": [
            {
                "name": "ctest",
                "image": "mreferre/eksutils",
                "cpu": 0,
                "portMappings": [],
                "essential": true,
                "entryPoint": [
                    "sh",
                    "-c"
                ],
                "command": [
                    "curl ${ECS_CONTAINER_METADATA_URI_V4}/task"
                ],
                "environment": [],
                "mountPoints": [],
                "volumesFrom": [],
                "logConfiguration": {
                    "logDriver": "awslogs",
                    "options": {
                        "awslogs-create-group": "true",
                        "awslogs-group": "/ecs/curltest",
                        "awslogs-region": "us-east-1",
                        "awslogs-stream-prefix": "ecs"
                    }
                }
            }
        ],
        "family": "curltest",
        "taskRoleArn": "arn:aws:iam::123456789012:role/ecsTaskExecutionRole",
        "executionRoleArn": "arn:aws:iam::123456789012:role/ecsTaskExecutionRole",
        "networkMode": "awsvpc",
        "revision": 1,
        "volumes": [],
        "status": "DELETE_IN_PROGRESS",
        "compatibilities": [
            "EC2",
            "FARGATE"
        ],
        "requiresCompatibilities": [
            "FARGATE"
        ],
        "cpu": "256",
        "memory": "512",
        "registeredAt": "2021-09-10T12:56:24.704000+00:00",
        "deregisteredAt": "2023-03-14T15:20:59.419000+00:00",
        "registeredBy": "arn:aws:sts::123456789012:assumed-role/Admin/jdoe"
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Definisi Tugas Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DeleteTaskDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/delete-task-definitions.html)di *Referensi AWS CLI Perintah*. 

### `delete-task-set`
<a name="ecs_DeleteTaskSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-task-set`.

**AWS CLI**  
**Untuk menghapus set tugas**  
`delete-task-set`Contoh berikut menunjukkan cara menghapus set tugas. Anda dapat menyertakan `--force` parameter untuk menghapus set tugas meskipun belum diskalakan ke nol.  

```
aws ecs delete-task-set \
    --cluster MyCluster \
    --service MyService \
    --task-set arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789 \
    --force
```
Output:  

```
{
    "taskSet": {
        "id": "ecs-svc/1234567890123456789",
        "taskSetArn": "arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789",
        "status": "DRAINING",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/sample-fargate:2",
        "computedDesiredCount": 0,
        "pendingCount": 0,
        "runningCount": 0,
        "createdAt": 1557130260.276,
        "updatedAt": 1557130290.707,
        "launchType": "EC2",
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12345678"
                ],
                "securityGroups": [
                    "sg-12345678"
                ],
                "assignPublicIp": "DISABLED"
            }
        },
        "loadBalancers": [],
        "serviceRegistries": [],
        "scale": {
            "value": 0.0,
            "unit": "PERCENT"
        },
        "stabilityStatus": "STABILIZING",
        "stabilityStatusAt": 1557130290.707
    }
}
```
+  Untuk detail API, lihat [DeleteTaskSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/delete-task-set.html)di *Referensi AWS CLI Perintah*. 

### `deregister-container-instance`
<a name="ecs_DeregisterContainerInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-container-instance`.

**AWS CLI**  
**Untuk membatalkan pendaftaran instance kontainer dari cluster**  
`deregister-container-instance`Contoh berikut deregisters instance container dari cluster tertentu. Jika masih ada tugas yang berjalan di instance container, Anda harus menghentikan tugas tersebut sebelum membatalkan pendaftaran, atau menggunakan opsi. `--force`  

```
aws ecs deregister-container-instance \
    --cluster arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster \
    --container-instance arn:aws:ecs:us-west-2:123456789012:container-instance/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --force
```
Output:  

```
{
    "containerInstance": {
        "remainingResources": [
            {
                "integerValue": 1024,
                "doubleValue": 0.0,
                "type": "INTEGER",
                "longValue": 0,
                "name": "CPU"
            },
            {
                "integerValue": 985,
                "doubleValue": 0.0,
                "type": "INTEGER",
                "longValue": 0,
                "name": "MEMORY"
            },
            {
                "type": "STRINGSET",
                "integerValue": 0,
                "name": "PORTS",
                "stringSetValue": [
                    "22",
                    "2376",
                    "2375",
                    "51678",
                    "51679"
                ],
                "longValue": 0,
                "doubleValue": 0.0
            },
            {
                "type": "STRINGSET",
                "integerValue": 0,
                "name": "PORTS_UDP",
                "stringSetValue": [],
                "longValue": 0,
                "doubleValue": 0.0
            }
        ],
        "agentConnected": true,
        "attributes": [
            {
                "name": "ecs.capability.secrets.asm.environment-variables"
            },
            {
                "name": "com.amazonaws.ecs.capability.logging-driver.syslog"
            },
            {
                "value": "ami-01a82c3fce2c3ba58",
                "name": "ecs.ami-id"
            },
            {
                "name": "ecs.capability.secrets.asm.bootstrap.log-driver"
            },
            {
                "name": "com.amazonaws.ecs.capability.logging-driver.none"
            },
            {
                "name": "ecs.capability.ecr-endpoint"
            },
            {
                "name": "com.amazonaws.ecs.capability.logging-driver.json-file"
            },
            {
                "value": "vpc-1234567890123467",
                "name": "ecs.vpc-id"
            },
            {
                "name": "ecs.capability.execution-role-awslogs"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.17"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.18"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.19"
            },
            {
                "name": "ecs.capability.docker-plugin.local"
            },
            {
                "name": "ecs.capability.task-eni"
            },
            {
                "name": "ecs.capability.task-cpu-mem-limit"
            },
            {
                "name": "ecs.capability.secrets.ssm.bootstrap.log-driver"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.30"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.31"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.32"
            },
            {
                "name": "ecs.capability.execution-role-ecr-pull"
            },
            {
                "name": "ecs.capability.container-health-check"
            },
            {
                "value": "subnet-1234567890123467",
                "name": "ecs.subnet-id"
            },
            {
                "value": "us-west-2a",
                "name": "ecs.availability-zone"
            },
            {
                "value": "t2.micro",
                "name": "ecs.instance-type"
            },
            {
                "name": "com.amazonaws.ecs.capability.task-iam-role-network-host"
            },
            {
                "name": "ecs.capability.aws-appmesh"
            },
            {
                "name": "com.amazonaws.ecs.capability.logging-driver.awslogs"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.24"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.25"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.26"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.27"
            },
            {
                "name": "com.amazonaws.ecs.capability.privileged-container"
            },
            {
                "name": "ecs.capability.container-ordering"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.28"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.29"
            },
            {
                "value": "x86_64",
                "name": "ecs.cpu-architecture"
            },
            {
                "value": "93f43776-2018.10.0",
                "name": "ecs.capability.cni-plugin-version"
            },
            {
                "name": "ecs.capability.secrets.ssm.environment-variables"
            },
            {
                "name": "ecs.capability.pid-ipc-namespace-sharing"
            },
            {
                "name": "com.amazonaws.ecs.capability.ecr-auth"
            },
            {
                "value": "linux",
                "name": "ecs.os-type"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.20"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.21"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.22"
            },
            {
                "name": "ecs.capability.task-eia"
            },
            {
                "name": "ecs.capability.private-registry-authentication.secretsmanager"
            },
            {
                "name": "com.amazonaws.ecs.capability.task-iam-role"
            },
            {
                "name": "com.amazonaws.ecs.capability.docker-remote-api.1.23"
            }
        ],
        "pendingTasksCount": 0,
        "tags": [],
        "containerInstanceArn": "arn:aws:ecs:us-west-2:123456789012:container-instance/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "registeredResources": [
            {
                "integerValue": 1024,
                "doubleValue": 0.0,
                "type": "INTEGER",
                "longValue": 0,
                "name": "CPU"
            },
            {
                "integerValue": 985,
                "doubleValue": 0.0,
                "type": "INTEGER",
                "longValue": 0,
                "name": "MEMORY"
            },
            {
                "type": "STRINGSET",
                "integerValue": 0,
                "name": "PORTS",
                "stringSetValue": [
                    "22",
                    "2376",
                    "2375",
                    "51678",
                    "51679"
                ],
                "longValue": 0,
                "doubleValue": 0.0
            },
            {
                "type": "STRINGSET",
                "integerValue": 0,
                "name": "PORTS_UDP",
                "stringSetValue": [],
                "longValue": 0,
                "doubleValue": 0.0
            }
        ],
        "status": "INACTIVE",
        "registeredAt": 1557768075.681,
        "version": 4,
        "versionInfo": {
            "agentVersion": "1.27.0",
            "agentHash": "aabe65ee",
            "dockerVersion": "DockerVersion: 18.06.1-ce"
        },
        "attachments": [],
        "runningTasksCount": 0,
        "ec2InstanceId": "i-12345678901234678"
    }
}
```
Untuk informasi selengkapnya, lihat [Membatalkan pendaftaran Instans Kontainer di Panduan Pengembang](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/deregister_container_instance.html) *ECS*.  
+  Untuk detail API, lihat [DeregisterContainerInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/deregister-container-instance.html)di *Referensi AWS CLI Perintah*. 

### `deregister-task-definition`
<a name="ecs_DeregisterTaskDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-task-definition`.

**AWS CLI**  
**Untuk membatalkan pendaftaran definisi tugas**  
`deregister-task-definition`Contoh berikut membatalkan pendaftaran revisi pertama definisi `curler` tugas di wilayah default Anda.  

```
aws ecs deregister-task-definition --task-definition curler:1
```
Perhatikan bahwa dalam output yang dihasilkan, status definisi tugas menunjukkan`INACTIVE`:  

```
{
    "taskDefinition": {
        "status": "INACTIVE",
        "family": "curler",
        "volumes": [],
        "taskDefinitionArn": "arn:aws:ecs:us-west-2:123456789012:task-definition/curler:1",
        "containerDefinitions": [
            {
                "environment": [],
                "name": "curler",
                "mountPoints": [],
                "image": "curl:latest",
                "cpu": 100,
                "portMappings": [],
                "entryPoint": [],
                "memory": 256,
                "command": [
                    "curl -v http://example.com/"
                ],
                "essential": true,
                "volumesFrom": []
            }
        ],
        "revision": 1
    }
}
```
Untuk informasi selengkapnya, lihat [Definisi Tugas Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DeregisterTaskDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/deregister-task-definition.html)di *Referensi AWS CLI Perintah*. 

### `describe-capacity-providers`
<a name="ecs_DescribeCapacityProviders_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-capacity-providers`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan semua penyedia kapasitas**  
`describe-capacity-providers`Contoh berikut mengambil rincian tentang semua penyedia kapasitas.  

```
aws ecs describe-capacity-providers
```
Output:  

```
{
    "capacityProviders": [
        {
            "capacityProviderArn": "arn:aws:ecs:us-west-2:123456789012:capacity-provider/MyCapacityProvider",
            "name": "MyCapacityProvider",
            "status": "ACTIVE",
            "autoScalingGroupProvider": {
                "autoScalingGroupArn": "arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:autoScalingGroupName/MyAutoScalingGroup",
                "managedScaling": {
                    "status": "ENABLED",
                    "targetCapacity": 100,
                    "minimumScalingStepSize": 1,
                    "maximumScalingStepSize": 1000
                },
                "managedTerminationProtection": "ENABLED"
            },
            "tags": []
        },
        {
            "capacityProviderArn": "arn:aws:ecs:us-west-2:123456789012:capacity-provider/FARGATE",
            "name": "FARGATE",
            "status": "ACTIVE",
            "tags": []
        },
        {
            "capacityProviderArn": "arn:aws:ecs:us-west-2:123456789012:capacity-provider/FARGATE_SPOT",
            "name": "FARGATE_SPOT",
            "status": "ACTIVE",
            "tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyedia kapasitas klaster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-capacity-providers.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 2: Untuk menggambarkan penyedia kapasitas tertentu**  
`describe-capacity-providers`Contoh berikut mengambil rincian tentang penyedia kapasitas tertentu. Menggunakan `--include TAGS` parameter akan menambahkan tag yang terkait dengan penyedia kapasitas ke output.  

```
aws ecs describe-capacity-providers \
    --capacity-providers MyCapacityProvider \
    --include TAGS
```
Output:  

```
{
    "capacityProviders": [
        {
            "capacityProviderArn": "arn:aws:ecs:us-west-2:123456789012:capacity-provider/MyCapacityProvider",
            "name": "MyCapacityProvider",
            "status": "ACTIVE",
            "autoScalingGroupProvider": {
                "autoScalingGroupArn": "arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111:autoScalingGroupName/MyAutoScalingGroup",
                "managedScaling": {
                    "status": "ENABLED",
                    "targetCapacity": 100,
                    "minimumScalingStepSize": 1,
                    "maximumScalingStepSize": 1000
                },
                "managedTerminationProtection": "ENABLED"
            },
            "tags": [
                {
                    "key": "environment",
                    "value": "production"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyedia kapasitas klaster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-capacity-providers.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DescribeCapacityProviders](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-capacity-providers.html)di *Referensi AWS CLI Perintah*. 

### `describe-clusters`
<a name="ecs_DescribeClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-clusters`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan sebuah cluster**  
`describe-clusters`Contoh berikut mengambil rincian tentang cluster tertentu.  

```
aws ecs describe-clusters \
    --cluster default
```
Output:  

```
{
    "clusters": [
        {
            "status": "ACTIVE",
            "clusterName": "default",
            "registeredContainerInstancesCount": 0,
            "pendingTasksCount": 0,
            "runningTasksCount": 0,
            "activeServicesCount": 1,
            "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/default"
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Cluster Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_clusters.html) di Panduan Pengembang *Amazon ECS.*  
**Contoh 2: Untuk mendeskripsikan cluster dengan opsi lampiran**  
`describe-clusters`Contoh berikut menentukan pilihan ATTACHMENTS. Ini mengambil rincian tentang cluster yang ditentukan dan daftar sumber daya yang melekat pada cluster dalam bentuk lampiran. Saat menggunakan penyedia kapasitas dengan klaster, sumber daya, baik AutoScaling rencana atau kebijakan penskalaan, akan direpresentasikan sebagai asp atau as\$1policy ATTACHMENTS.  

```
aws ecs describe-clusters \
    --include ATTACHMENTS \
    --clusters sampleCluster
```
Output:  

```
{
    "clusters": [
        {
            "clusterArn": "arn:aws:ecs:af-south-1:123456789222:cluster/sampleCluster",
            "clusterName": "sampleCluster",
            "status": "ACTIVE",
            "registeredContainerInstancesCount": 0,
            "runningTasksCount": 0,
            "pendingTasksCount": 0,
            "activeServicesCount": 0,
            "statistics": [],
            "tags": [],
            "settings": [],
            "capacityProviders": [
                "sampleCapacityProvider"
            ],
            "defaultCapacityProviderStrategy": [],
            "attachments": [
                {
                    "id": "a1b2c3d4-5678-901b-cdef-EXAMPLE22222",
                    "type": "as_policy",
                    "status": "CREATED",
                    "details": [
                        {
                            "name": "capacityProviderName",
                            "value": "sampleCapacityProvider"
                        },
                        {
                            "name": "scalingPolicyName",
                            "value": "ECSManagedAutoScalingPolicy-3048e262-fe39-4eaf-826d-6f975d303188"
                        }
                    ]
                }
            ],
            "attachmentsStatus": "UPDATE_COMPLETE"
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Cluster Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_clusters.html) di Panduan Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [DescribeClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-clusters.html)di *Referensi AWS CLI Perintah*. 

### `describe-container-instances`
<a name="ecs_DescribeContainerInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-container-instances`.

**AWS CLI**  
**Untuk menggambarkan contoh kontainer**  
`describe-container-instances`Contoh berikut mengambil rincian untuk instance container di `update` cluster, menggunakan container instance UUID sebagai identifier.  

```
aws ecs describe-container-instances \
    --cluster update \
    --container-instances a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Output:  

```
{
    "failures": [],
    "containerInstances": [
        {
            "status": "ACTIVE",
            "registeredResources": [
                {
                    "integerValue": 2048,
                    "longValue": 0,
                    "type": "INTEGER",
                    "name": "CPU",
                    "doubleValue": 0.0
                },
                {
                    "integerValue": 3955,
                    "longValue": 0,
                    "type": "INTEGER",
                    "name": "MEMORY",
                    "doubleValue": 0.0
                },
                {
                    "name": "PORTS",
                    "longValue": 0,
                    "doubleValue": 0.0,
                    "stringSetValue": [
                        "22",
                        "2376",
                        "2375",
                        "51678"
                    ],
                    "type": "STRINGSET",
                    "integerValue": 0
                }
            ],
            "ec2InstanceId": "i-A1B2C3D4",
            "agentConnected": true,
            "containerInstanceArn": "arn:aws:ecs:us-west-2:123456789012:container-instance/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "pendingTasksCount": 0,
            "remainingResources": [
                {
                    "integerValue": 2048,
                    "longValue": 0,
                    "type": "INTEGER",
                    "name": "CPU",
                    "doubleValue": 0.0
                },
                {
                    "integerValue": 3955,
                    "longValue": 0,
                    "type": "INTEGER",
                    "name": "MEMORY",
                    "doubleValue": 0.0
                },
                {
                    "name": "PORTS",
                    "longValue": 0,
                    "doubleValue": 0.0,
                    "stringSetValue": [
                        "22",
                        "2376",
                        "2375",
                        "51678"
                    ],
                    "type": "STRINGSET",
                    "integerValue": 0
                }
            ],
            "runningTasksCount": 0,
            "versionInfo": {
                "agentVersion": "1.0.0",
                "agentHash": "4023248",
                "dockerVersion": "DockerVersion: 1.5.0"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Instans Kontainer Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html) di Panduan Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [DescribeContainerInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-container-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-service-deployments`
<a name="ecs_DescribeServiceDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-service-deployments`.

**AWS CLI**  
**Untuk menjelaskan detail penyebaran layanan**  
`describe-service-deployments`Contoh berikut mengembalikan rincian penyebaran layanan untuk penyebaran layanan dengan ARN. `arn:aws:ecs:us-east-1:123456789012:service-deployment/example-cluster/example-service/ejGvqq2ilnbKT9qj0vLJe`  

```
aws ecs describe-service-deployments \
    --service-deployment-arn arn:aws:ecs:us-east-1:123456789012:service-deployment/example-cluster/example-service/ejGvqq2ilnbKT9qj0vLJe
```
Output:  

```
{
    "serviceDeployments": [
        {
            "serviceDeploymentArn": "arn:aws:ecs:us-east-1:123456789012:service-deployment/example-cluster/example-service/ejGvqq2ilnbKT9qj0vLJe",
            "serviceArn": "arn:aws:ecs:us-east-1:123456789012:service/example-cluster/example-service",
            "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/example-cluster",
            "createdAt": "2024-10-31T08:03:30.917000-04:00",
            "startedAt": "2024-10-31T08:03:32.510000-04:00",
            "finishedAt": "2024-10-31T08:05:04.527000-04:00",
            "updatedAt": "2024-10-31T08:05:04.527000-04:00",
            "sourceServiceRevisions": [],
            "targetServiceRevision": {
                "arn": "arn:aws:ecs:us-east-1:123456789012:service-revision/example-cluster/example-service/1485800978477494678",
                "requestedTaskCount": 1,
                "runningTaskCount": 1,
                "pendingTaskCount": 0
            },
            "status": "SUCCESSFUL",
            "deploymentConfiguration": {
                "deploymentCircuitBreaker": {
                    "enable": true,
                    "rollback": true
                },
                "maximumPercent": 200,
                "minimumHealthyPercent": 100,
                "alarms": {
                    "alarmNames": [],
                    "rollback": false,
                    "enable": false
                }
            },
            "deploymentCircuitBreaker": {
                "status": "MONITORING_COMPLETE",
                "failureCount": 0,
                "threshold": 3
            },
            "alarms": {
                "status": "DISABLED"
            }
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Melihat riwayat layanan menggunakan penerapan layanan Amazon ECS di Panduan Pengembang](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-deployment.html) *Amazon ECS*.  
+  Untuk detail API, lihat [DescribeServiceDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-service-deployments.html)di *Referensi AWS CLI Perintah*. 

### `describe-service-revisions`
<a name="ecs_DescribeServiceRevisions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-service-revisions`.

**AWS CLI**  
**Untuk menjelaskan rincian revisi layanan**  
`describe-service-revisions`Contoh berikut mengembalikan rincian revisi layanan untuk revisi layanan dengan ARN. `arn:aws:ecs:us-east-1:123456789012:service-revision/example-cluster/example-service/1485800978477494678`  

```
aws ecs describe-service-revisions \
    --service-revision-arns arn:aws:ecs:us-east-1:123456789012:service-revision/example-cluster/example-service/1485800978477494678
```
Output:  

```
{
    "serviceRevisions": [
        {
            "serviceRevisionArn": "arn:aws:ecs:us-east-1:123456789012:service-revision/example-cluster/example-service/1485800978477494678",
            "serviceArn": "arn:aws:ecs:us-east-1:123456789012:service/example-cluster/example-service",
            "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/example-cluster",
            "taskDefinition": "arn:aws:ecs:us-east-1:123456789012:task-definition/webserver:5",
            "capacityProviderStrategy": [
                {
                    "capacityProvider": "FARGATE",
                    "weight": 1,
                    "base": 0
                }
            ],
            "platformVersion": "1.4.0",
            "platformFamily": "Linux",
            "networkConfiguration": {
                "awsvpcConfiguration": {
                    "subnets": [
                        "subnet-0d0eab1bb38d5ca64",
                        "subnet-0db5010045995c2d5"
                    ],
                    "securityGroups": [
                        "sg-02556bf85a191f59a"
                    ],
                    "assignPublicIp": "ENABLED"
                }
            },
            "containerImages": [
                {
                    "containerName": "aws-otel-collector",
                    "imageDigest": "sha256:7a1b3560655071bcacd66902c20ebe9a69470d5691fe3bd36baace7c2f3c4640",
                    "image": "public.ecr.aws/aws-observability/aws-otel-collector:v0.32.0"
                },
                {
                    "containerName": "web",
                    "imageDigest": "sha256:28402db69fec7c17e179ea87882667f1e054391138f77ffaf0c3eb388efc3ffb",
                    "image": "nginx"
                }
            ],
            "guardDutyEnabled": false,
            "serviceConnectConfiguration": {
                "enabled": false
            },
            "createdAt": "2024-10-31T08:03:29.302000-04:00"
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [revisi layanan Amazon ECS di Panduan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-revision.html) Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [DescribeServiceRevisions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-service-revisions.html)di *Referensi AWS CLI Perintah*. 

### `describe-services`
<a name="ecs_DescribeServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-services`.

**AWS CLI**  
**Untuk mendeskripsikan layanan**  
`describe-services`Contoh berikut mengambil rincian untuk `my-http-service` layanan di cluster default.  

```
aws ecs describe-services --services my-http-service
```
Output:  

```
{
    "services": [
        {
            "status": "ACTIVE",
            "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/amazon-ecs-sample:1",
            "pendingCount": 0,
            "loadBalancers": [],
            "desiredCount": 10,
            "createdAt": 1466801808.595,
            "serviceName": "my-http-service",
            "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/default",
            "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/my-http-service",
            "deployments": [
                {
                    "status": "PRIMARY",
                    "pendingCount": 0,
                    "createdAt": 1466801808.595,
                    "desiredCount": 10,
                    "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/amazon-ecs-sample:1",
                    "updatedAt": 1428326312.703,
                    "id": "ecs-svc/1234567890123456789",
                    "runningCount": 10
                }
            ],
            "events": [
                {
                    "message": "(service my-http-service) has reached a steady state.",
                    "id": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
                    "createdAt": 1466801812.435
                }
            ],
            "runningCount": 10
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Layanan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs_services.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DescribeServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-services.html)di *Referensi AWS CLI Perintah*. 

### `describe-task-definition`
<a name="ecs_DescribeTaskDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-task-definition`.

**AWS CLI**  
**Untuk menggambarkan definisi tugas**  
`describe-task-definition`Contoh berikut mengambil rincian definisi tugas.  

```
aws ecs describe-task-definition \
    --task-definition hello_world:8
```
Output:  

```
{
    "taskDefinition": {
        "taskDefinitionArn": "arn:aws:ecs:us-east-1:012345678910:task-definition/hello_world:8",
        "containerDefinitions": [
            {
                "cpu": 10,
                "environment": [],
                "essential": true,
                "image": "wordpress",
                "links": [
                    "mysql"
                ] ,
                "memory": 500,
                "mountPoints": [],
                "name": "wordpress",
                "portMappings": [
                    {
                        "containerPort": 80,
                        "hostPort": 80
                    }
                ],
                "volumesFrom": []
            },
            {
                "cpu": 10,
                "environment": [
                    {
                        "name": "MYSQL_ROOT_PASSWORD",
                        "value": "password"
                    }
                ],
                "essential": true,
                "image": "mysql",
                "memory": 500,
                "mountPoints": [],
                "name": "mysql",
                "portMappings": [],
                "volumesFrom": []
            }
        ],
    "family": "hello_world",
    "revision": 8,
    "volumes": [],
    "status": "ACTIVE",
    "placementConstraints": [],
    "compatibilities": [
        "EXTERNAL",
        "EC2"
    ],
    "registeredAt": "2024-06-21T11:15:12.669000-05:00",
    "registeredBy": "arn:aws:sts::012345678910:assumed-role/demo-role/jane-doe"
    },
    "tags": []
}
```
Untuk informasi selengkapnya, lihat [Definisi Tugas Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DescribeTaskDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-task-definition.html)di *Referensi AWS CLI Perintah*. 

### `describe-task-sets`
<a name="ecs_DescribeTaskSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-task-sets`.

**AWS CLI**  
**Untuk menggambarkan set tugas**  
`describe-task-sets`Contoh berikut menjelaskan tugas yang ditetapkan dalam layanan yang menggunakan deployer eksternal.  

```
aws ecs describe-task-sets \
    --cluster MyCluster \
    --service MyService \
    --task-sets arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789
```
Output:  

```
{
    "taskSets": [
        {
            "id": "ecs-svc/1234567890123456789",
            "taskSetArn": "arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789",
            "status": "ACTIVE",
            "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/sample-fargate:2",
            "computedDesiredCount": 0,
            "pendingCount": 0,
            "runningCount": 0,
            "createdAt": 1557207715.195,
            "updatedAt": 1557207740.014,
            "launchType": "EC2",
            "networkConfiguration": {
                "awsvpcConfiguration": {
                    "subnets": [
                        "subnet-12344321"
                    ],
                    "securityGroups": [
                        "sg-1234431"
                    ],
                    "assignPublicIp": "DISABLED"
                }
            },
            "loadBalancers": [],
            "serviceRegistries": [],
            "scale": {
                "value": 0.0,
                "unit": "PERCENT"
            },
            "stabilityStatus": "STEADY_STATE",
            "stabilityStatusAt": 1557207740.014
        }
    ],
    "failures": []
}
```
+  Untuk detail API, lihat [DescribeTaskSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-task-sets.html)di *Referensi AWS CLI Perintah*. 

### `describe-tasks`
<a name="ecs_DescribeTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tasks`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan tugas tugas tunggal**  
`describe-tasks`Contoh berikut mengambil rincian tugas dalam sebuah cluster. Anda dapat menentukan tugas dengan menggunakan ID atau ARN penuh tugas. Contoh ini menggunakan ARN penuh tugas.  

```
aws ecs describe-tasks \
    --cluster MyCluster \
    --tasks arn:aws:ecs:us-east-1:123456789012:task/MyCluster/4d590253bb114126b7afa7b58EXAMPLE
```
Output:  

```
{
    "tasks": [
        {
            "attachments": [],
            "attributes": [
                {
                    "name": "ecs.cpu-architecture",
                    "value": "x86_64"
                }
            ],
            "availabilityZone": "us-east-1b",
            "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/MyCluster",
            "connectivity": "CONNECTED",
            "connectivityAt": "2021-08-11T12:21:26.681000-04:00",
            "containerInstanceArn": "arn:aws:ecs:us-east-1:123456789012:container-instance/test/025c7e2c5e054a6790a29fc1fEXAMPLE",
            "containers": [
                {
                    "containerArn": "arn:aws:ecs:us-east-1:123456789012:container/MyCluster/4d590253bb114126b7afa7b58eea9221/a992d1cc-ea46-474a-b6e8-24688EXAMPLE",
                    "taskArn": "arn:aws:ecs:us-east-1:123456789012:task/MyCluster/4d590253bb114126b7afa7b58EXAMPLE",
                    "name": "simple-app",
                    "image": "httpd:2.4",
                    "runtimeId": "91251eed27db90006ad67b1a08187290869f216557717dd5c39b37c94EXAMPLE",
                    "lastStatus": "RUNNING",
                    "networkBindings": [
                        {
                            "bindIP": "0.0.0.0",
                            "containerPort": 80,
                            "hostPort": 80,
                            "protocol": "tcp"
                        }
                    ],
                    "networkInterfaces": [],
                    "healthStatus": "UNKNOWN",
                    "cpu": "10",
                    "memory": "300"
                }
            ],
            "cpu": "10",
            "createdAt": "2021-08-11T12:21:26.681000-04:00",
            "desiredStatus": "RUNNING",
            "enableExecuteCommand": false,
            "group": "service:testupdate",
            "healthStatus": "UNKNOWN",
            "lastStatus": "RUNNING",
            "launchType": "EC2",
            "memory": "300",
            "overrides": {
                "containerOverrides": [
                    {
                        "name": "simple-app"
                    }
                ],
                "inferenceAcceleratorOverrides": []
            },
            "pullStartedAt": "2021-08-11T12:21:28.234000-04:00",
            "pullStoppedAt": "2021-08-11T12:21:33.793000-04:00",
            "startedAt": "2021-08-11T12:21:34.945000-04:00",
            "startedBy": "ecs-svc/968695068243EXAMPLE",
            "tags": [],
            "taskArn": "arn:aws:ecs:us-east-1:123456789012:task/MyCluster/4d590253bb114126b7afa7b58eea9221",
            "taskDefinitionArn": "arn:aws:ecs:us-east-1:123456789012:task-definition/console-sample-app-static2:1",
            "version": 2
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Definisi Tugas Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html) di Panduan *Pengembang Amazon ECS*.  
**Contoh 2: Untuk menggambarkan beberapa tugas**  
`describe-tasks`Contoh berikut mengambil rincian beberapa tugas dalam sebuah cluster. Anda dapat menentukan tugas dengan menggunakan ID atau ARN penuh tugas. Contoh ini menggunakan IDs tugas penuh.  

```
aws ecs describe-tasks \
    --cluster MyCluster \
    --tasks "74de0355a10a4f979ac495c14EXAMPLE" "d789e94343414c25b9f6bd59eEXAMPLE"
```
Output:  

```
{
    "tasks": [
        {
            "attachments": [
                {
                    "id": "d9e7735a-16aa-4128-bc7a-b2d51EXAMPLE",
                    "type": "ElasticNetworkInterface",
                    "status": "ATTACHED",
                    "details": [
                        {
                            "name": "subnetId",
                            "value": "subnet-0d0eab1bb3EXAMPLE"
                        },
                        {
                            "name": "networkInterfaceId",
                            "value": "eni-0fa40520aeEXAMPLE"
                        },
                        {
                            "name": "macAddress",
                            "value": "0e:89:76:28:07:b3"
                        },
                        {
                            "name": "privateDnsName",
                            "value": "ip-10-0-1-184.ec2.internal"
                        },
                        {
                            "name": "privateIPv4Address",
                            "value": "10.0.1.184"
                        }
                    ]
                }
            ],
            "attributes": [
                {
                    "name": "ecs.cpu-architecture",
                    "value": "x86_64"
                }
            ],
            "availabilityZone": "us-east-1b",
            "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/MyCluster",
            "connectivity": "CONNECTED",
            "connectivityAt": "2021-12-20T12:13:37.875000-05:00",
            "containers": [
                {
                    "containerArn": "arn:aws:ecs:us-east-1:123456789012:container/MyCluster/74de0355a10a4f979ac495c14EXAMPLE/aad3ba00-83b3-4dac-84d4-11f8cEXAMPLE",
                    "taskArn": "arn:aws:ecs:us-east-1:123456789012:task/MyCluster/74de0355a10a4f979ac495c14EXAMPLE",
                    "name": "web",
                    "image": "nginx",
                    "runtimeId": "74de0355a10a4f979ac495c14EXAMPLE-265927825",
                    "lastStatus": "RUNNING",
                    "networkBindings": [],
                    "networkInterfaces": [
                        {
                            "attachmentId": "d9e7735a-16aa-4128-bc7a-b2d51EXAMPLE",
                            "privateIpv4Address": "10.0.1.184"
                        }
                    ],
                    "healthStatus": "UNKNOWN",
                    "cpu": "99",
                    "memory": "100"
                }
            ],
            "cpu": "256",
            "createdAt": "2021-12-20T12:13:20.226000-05:00",
            "desiredStatus": "RUNNING",
            "enableExecuteCommand": false,
            "group": "service:tdsevicetag",
            "healthStatus": "UNKNOWN",
            "lastStatus": "RUNNING",
            "launchType": "FARGATE",
            "memory": "512",
            "overrides": {
                "containerOverrides": [
                    {
                        "name": "web"
                    }
                ],
                "inferenceAcceleratorOverrides": []
            },
            "platformVersion": "1.4.0",
            "platformFamily": "Linux",
            "pullStartedAt": "2021-12-20T12:13:42.665000-05:00",
            "pullStoppedAt": "2021-12-20T12:13:46.543000-05:00",
            "startedAt": "2021-12-20T12:13:48.086000-05:00",
            "startedBy": "ecs-svc/988401040018EXAMPLE",
            "tags": [],
            "taskArn": "arn:aws:ecs:us-east-1:123456789012:task/MyCluster/74de0355a10a4f979ac495c14EXAMPLE",
            "taskDefinitionArn": "arn:aws:ecs:us-east-1:123456789012:task-definition/webserver:2",
            "version": 3,
            "ephemeralStorage": {
            "sizeInGiB": 20
            }
        },
        {
            "attachments": [
                {
                    "id": "214eb5a9-45cd-4bf8-87bc-57fefEXAMPLE",
                    "type": "ElasticNetworkInterface",
                    "status": "ATTACHED",
                    "details": [
                        {
                            "name": "subnetId",
                            "value": "subnet-0d0eab1bb3EXAMPLE"
                        },
                        {
                            "name": "networkInterfaceId",
                            "value": "eni-064c7766daEXAMPLE"
                        },
                        {
                            "name": "macAddress",
                            "value": "0e:76:83:01:17:a9"
                        },
                        {
                            "name": "privateDnsName",
                            "value": "ip-10-0-1-41.ec2.internal"
                        },
                        {
                            "name": "privateIPv4Address",
                            "value": "10.0.1.41"
                        }
                    ]
                }
            ],
            "attributes": [
                {
                    "name": "ecs.cpu-architecture",
                    "value": "x86_64"
                }
            ],
            "availabilityZone": "us-east-1b",
            "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/MyCluster",
            "connectivity": "CONNECTED",
            "connectivityAt": "2021-12-20T12:13:35.243000-05:00",
            "containers": [
                {
                    "containerArn": "arn:aws:ecs:us-east-1:123456789012:container/MyCluster/d789e94343414c25b9f6bd59eEXAMPLE/9afef792-609b-43a5-bb6a-3efdbEXAMPLE",
                    "taskArn": "arn:aws:ecs:us-east-1:123456789012:task/MyCluster/d789e94343414c25b9f6bd59eEXAMPLE",
                    "name": "web",
                    "image": "nginx",
                    "runtimeId": "d789e94343414c25b9f6bd59eEXAMPLE-265927825",
                    "lastStatus": "RUNNING",
                    "networkBindings": [],
                    "networkInterfaces": [
                        {
                            "attachmentId": "214eb5a9-45cd-4bf8-87bc-57fefEXAMPLE",
                            "privateIpv4Address": "10.0.1.41"
                        }
                    ],
                    "healthStatus": "UNKNOWN",
                    "cpu": "99",
                    "memory": "100"
                }
            ],
            "cpu": "256",
            "createdAt": "2021-12-20T12:13:20.226000-05:00",
            "desiredStatus": "RUNNING",
            "enableExecuteCommand": false,
            "group": "service:tdsevicetag",
            "healthStatus": "UNKNOWN",
            "lastStatus": "RUNNING",
            "launchType": "FARGATE",
            "memory": "512",
            "overrides": {
                "containerOverrides": [
                    {
                        "name": "web"
                    }
                ],
                "inferenceAcceleratorOverrides": []
            },
            "platformVersion": "1.4.0",
            "platformFamily": "Linux",
            "pullStartedAt": "2021-12-20T12:13:44.611000-05:00",
            "pullStoppedAt": "2021-12-20T12:13:48.251000-05:00",
            "startedAt": "2021-12-20T12:13:49.326000-05:00",
            "startedBy": "ecs-svc/988401040018EXAMPLE",
            "tags": [],
            "taskArn": "arn:aws:ecs:us-east-1:123456789012:task/MyCluster/d789e94343414c25b9f6bd59eEXAMPLE",
            "taskDefinitionArn": "arn:aws:ecs:us-east-1:123456789012:task-definition/webserver:2",
            "version": 3,
            "ephemeralStorage": {
                "sizeInGiB": 20
            }
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Definisi Tugas Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [DescribeTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/describe-tasks.html)di *Referensi AWS CLI Perintah*. 

### `execute-command`
<a name="ecs_ExecuteCommand_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`execute-command`.

**AWS CLI**  
**Untuk menjalankan perintah /bin/sh interaktif**  
`execute-command`Contoh berikut menjalankan perintah /bin/sh interaktif terhadap wadah bernama MyContainer untuk tugas dengan id dari. `arn:aws:ecs:us-east-1:123456789012:task/MyCluster/d789e94343414c25b9f6bd59eEXAMPLE`  

```
aws ecs execute-command \
    --cluster MyCluster \
    --task arn:aws:ecs:us-east-1:123456789012:task/MyCluster/d789e94343414c25b9f6bd59eEXAMPLE \
    --container MyContainer \
    --interactive \
    --command "/bin/sh"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan Amazon ECS Exec untuk men-debug di Panduan Pengembang](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-exec.html) *Amazon ECS*.  
+  Untuk detail API, lihat [ExecuteCommand](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/execute-command.html)di *Referensi AWS CLI Perintah*. 

### `get-task-protection`
<a name="ecs_GetTaskProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-task-protection`.

**AWS CLI**  
**Mengambil status perlindungan tugas dalam layanan ECS**  
Berikut ini `get-task-protection` memberikan status perlindungan tugas ECS yang dimiliki oleh layanan Amazon ECS.  

```
aws ecs get-task-protection \
    --cluster ECS-project-update-cluster \
    --tasks c43ed3b1331041f289316f958adb6a24
```
Output:  

```
{
    "protectedTasks": [
        {
            "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/c43ed3b1331041f289316f958adb6a24",
            "protectionEnabled": false
        }
    ],
    "failures": []
}
```
Untuk pembentukan selengkapnya tentang perlindungan tugas, lihat [Melindungi tugas Amazon ECS agar tidak dihentikan oleh peristiwa penskalaan dalam Panduan Pengembang](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-scale-in-protection.html) *Amazon* ECS.  
+  Untuk detail API, lihat [GetTaskProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/get-task-protection.html)di *Referensi AWS CLI Perintah*. 

### `list-account-settings`
<a name="ecs_ListAccountSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-account-settings`.

**AWS CLI**  
**Contoh 1: Untuk melihat pengaturan akun untuk akun**  
`list-account-settings`Contoh berikut menampilkan pengaturan akun yang efektif untuk akun.  

```
aws ecs list-account-settings --effective-settings
```
Output:  

```
{
    "settings": [
        {
            "name": "containerInstanceLongArnFormat",
            "value": "enabled",
            "principalArn": "arn:aws:iam::123456789012:root"
        },
        {
            "name": "serviceLongArnFormat",
            "value": "enabled",
            "principalArn": "arn:aws:iam::123456789012:root"
        },
        {
            "name": "taskLongArnFormat",
            "value": "enabled",
            "principalArn": "arn:aws:iam::123456789012:root"
        }
    ]
}
```
**Contoh 2: Untuk melihat pengaturan akun untuk pengguna IAM tertentu atau peran IAM**  
`list-account-settings`Contoh berikut menampilkan pengaturan akun untuk pengguna IAM tertentu atau peran IAM.  

```
aws ecs list-account-settings --principal-arn arn:aws:iam::123456789012:user/MyUser
```
Output:  

```
{
    "settings": [
        {
            "name": "serviceLongArnFormat",
            "value": "enabled",
            "principalArn": "arn:aws:iam::123456789012:user/MyUser"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Nama Sumber Daya Amazon (ARNs) dan IDs](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-resource-ids.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [ListAccountSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-account-settings.html)di *Referensi AWS CLI Perintah*. 

### `list-attributes`
<a name="ecs_ListAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attributes`.

**AWS CLI**  
**Untuk membuat daftar instance kontainer yang berisi atribut tertentu**  
Contoh berikut mencantumkan atribut untuk instance kontainer yang memiliki `stack=production` atribut di cluster default.  

```
aws ecs list-attributes \
    --target-type container-instance \
    --attribute-name stack \
    --attribute-value production \
    --cluster default
```
Output:  

```
{
    "attributes": [
        {
            "name": "stack",
            "targetId": "arn:aws:ecs:us-west-2:130757420319:container-instance/1c3be8ed-df30-47b4-8f1e-6e68ebd01f34",
            "value": "production"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Konfigurasi Agen Kontainer Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-agent-config.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [ListAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-attributes.html)di *Referensi AWS CLI Perintah*. 

### `list-clusters`
<a name="ecs_ListClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-clusters`.

**AWS CLI**  
**Untuk membuat daftar cluster yang tersedia**  
`list-clusters`Contoh berikut mencantumkan semua cluster yang tersedia.  

```
aws ecs list-clusters
```
Output:  

```
{
    "clusterArns": [
        "arn:aws:ecs:us-west-2:123456789012:cluster/MyECSCluster1",
        "arn:aws:ecs:us-west-2:123456789012:cluster/AnotherECSCluster"
    ]
}
```
Untuk informasi selengkapnya, lihat [Cluster Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_clusters.html) di Panduan Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [ListClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-clusters.html)di *Referensi AWS CLI Perintah*. 

### `list-container-instances`
<a name="ecs_ListContainerInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-container-instances`.

**AWS CLI**  
**Untuk membuat daftar instance kontainer dalam sebuah cluster**  
`list-container-instances`Contoh berikut mencantumkan semua instance kontainer yang tersedia dalam sebuah cluster.  

```
aws ecs list-container-instances --cluster MyCluster
```
Output:  

```
{
    "containerInstanceArns": [
        "arn:aws:ecs:us-west-2:123456789012:container-instance/MyCluster/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "arn:aws:ecs:us-west-2:123456789012:container-instance/MyCluster/a1b2c3d4-5678-90ab-cdef-22222EXAMPLE"
    ]
}
```
Untuk informasi selengkapnya, lihat [Instans Kontainer Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html) di Panduan Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [ListContainerInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-container-instances.html)di *Referensi AWS CLI Perintah*. 

### `list-service-deployments`
<a name="ecs_ListServiceDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-deployments`.

**AWS CLI**  
**Untuk membuat daftar penyebaran layanan**  
`list-service-deployments`Contoh berikut mengambil penerapan layanan untuk layanan bernama. `example-service`  

```
aws ecs list-service-deployments \
    --service arn:aws:ecs:us-east-1:123456789012:service/example-cluster/example-service
```
Output:  

```
{
    "serviceDeployments": [
        {
            "serviceDeploymentArn": "arn:aws:ecs:us-east-1:123456789012:service-deployment/example-cluster/example-service/ejGvqq2ilnbKT9qj0vLJe",
            "serviceArn": "arn:aws:ecs:us-east-1:123456789012:service/example-cluster/example-service",
            "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/example-cluster",
            "startedAt": "2024-10-31T08:03:32.510000-04:00",
            "createdAt": "2024-10-31T08:03:30.917000-04:00",
            "finishedAt": "2024-10-31T08:05:04.527000-04:00",
            "targetServiceRevisionArn": "arn:aws:ecs:us-east-1:123456789012:service-revision/example-cluster/example-service/1485800978477494678",
            "status": "SUCCESSFUL"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat riwayat layanan menggunakan penerapan layanan Amazon ECS di Panduan Pengembang](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-deployment.html) *Amazon ECS*.  
+  Untuk detail API, lihat [ListServiceDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-service-deployments.html)di *Referensi AWS CLI Perintah*. 

### `list-services-by-namespace`
<a name="ecs_ListServicesByNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-services-by-namespace`.

**AWS CLI**  
**Untuk membuat daftar layanan di namespace**  
`list-services-by-namespace`Contoh berikut mencantumkan semua layanan yang dikonfigurasi untuk namespace yang ditentukan di Region default Anda.  

```
aws ecs list-services-by-namespace \
    --namespace service-connect
```
Output:  

```
{
    "serviceArns": [
        "arn:aws:ecs:us-west-2:123456789012:service/MyCluster/MyService",
        "arn:aws:ecs:us-west-2:123456789012:service/tutorial/service-connect-nginx-service"
    ]
}
```
Untuk informasi selengkapnya, lihat [Service Connect](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-connect.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [ListServicesByNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-services-by-namespace.html)di *Referensi AWS CLI Perintah*. 

### `list-services`
<a name="ecs_ListServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-services`.

**AWS CLI**  
**Untuk membuat daftar layanan dalam klaster**  
`list-services`Contoh berikut menunjukkan cara membuat daftar layanan yang berjalan di cluster.  

```
aws ecs list-services --cluster MyCluster
```
Output:  

```
 {
     "serviceArns": [
         "arn:aws:ecs:us-west-2:123456789012:service/MyCluster/MyService"
     ]
}
```
Untuk informasi selengkapnya, lihat [Layanan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs_services.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [ListServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-services.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="ecs_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk cluster tertentu.  

```
aws ecs list-tags-for-resource \
    --resource-arn arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster
```
Output:  

```
{
    "tags": [
        {
            "key": "key1",
            "value": "value1"
        },
        {
            "key": "key2",
            "value": "value2"
        },
        {
            "key": "key3",
            "value": "value3"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-task-definition-families`
<a name="ecs_ListTaskDefinitionFamilies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-task-definition-families`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar keluarga definisi tugas terdaftar**  
`list-task-definition-families`Contoh berikut mencantumkan semua keluarga definisi tugas terdaftar.  

```
aws ecs list-task-definition-families
```
Output:  

```
{
    "families": [
        "node-js-app",
        "web-timer",
        "hpcc",
        "hpcc-c4-8xlarge"
    ]
}
```
**Contoh 2: Untuk memfilter keluarga definisi tugas terdaftar**  
`list-task-definition-families`Contoh berikut mencantumkan revisi definisi tugas yang dimulai dengan “hpcc”.  

```
aws ecs list-task-definition-families --family-prefix hpcc
```
Output:  

```
{
    "families": [
        "hpcc",
        "hpcc-c4-8xlarge"
    ]
}
```
Untuk informasi selengkapnya, lihat [Parameter Definisi Tugas](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definition_parameters.html#family) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [ListTaskDefinitionFamilies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-task-definition-families.html)di *Referensi AWS CLI Perintah*. 

### `list-task-definitions`
<a name="ecs_ListTaskDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-task-definitions`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan definisi tugas yang terdaftar**  
`list-task-definitions`Contoh berikut mencantumkan semua definisi tugas terdaftar.  

```
aws ecs list-task-definitions
```
Output:  

```
{
    "taskDefinitionArns": [
        "arn:aws:ecs:us-west-2:123456789012:task-definition/sleep300:2",
        "arn:aws:ecs:us-west-2:123456789012:task-definition/sleep360:1",
        "arn:aws:ecs:us-west-2:123456789012:task-definition/wordpress:3",
        "arn:aws:ecs:us-west-2:123456789012:task-definition/wordpress:4",
        "arn:aws:ecs:us-west-2:123456789012:task-definition/wordpress:5",
        "arn:aws:ecs:us-west-2:123456789012:task-definition/wordpress:6"
    ]
}
```
**Contoh 2: Untuk mencantumkan definisi tugas yang terdaftar dalam keluarga**  
 list-task-definitionsContoh berikut mencantumkan revisi definisi tugas dari keluarga tertentu.  

```
aws ecs list-task-definitions --family-prefix wordpress
```
Output:  

```
{
    "taskDefinitionArns": [
        "arn:aws:ecs:us-west-2:123456789012:task-definition/wordpress:3",
        "arn:aws:ecs:us-west-2:123456789012:task-definition/wordpress:4",
        "arn:aws:ecs:us-west-2:123456789012:task-definition/wordpress:5",
        "arn:aws:ecs:us-west-2:123456789012:task-definition/wordpress:6"
    ]
}
```
Untuk informasi selengkapnya, lihat [Definisi Tugas Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [ListTaskDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-task-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-tasks`
<a name="ecs_ListTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tasks`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar tugas dalam sebuah cluster**  
`list-tasks`Contoh berikut mencantumkan semua tugas dalam sebuah cluster.  

```
aws ecs list-tasks --cluster default
```
Output:  

```
{
    "taskArns": [
        "arn:aws:ecs:us-west-2:123456789012:task/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "arn:aws:ecs:us-west-2:123456789012:task/a1b2c3d4-5678-90ab-cdef-22222EXAMPLE"
    ]
}
```
**Contoh 2: Untuk membuat daftar tugas pada instance kontainer tertentu**  
`list-tasks`Contoh berikut mencantumkan tugas-tugas pada instance container, menggunakan container instance UUID sebagai filter.  

```
aws ecs list-tasks --cluster default --container-instance a1b2c3d4-5678-90ab-cdef-33333EXAMPLE
```
Output:  

```
{
    "taskArns": [
        "arn:aws:ecs:us-west-2:123456789012:task/a1b2c3d4-5678-90ab-cdef-44444EXAMPLE"
    ]
}
```
Untuk informasi selengkapnya, lihat [Definisi Tugas Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [ListTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/list-tasks.html)di *Referensi AWS CLI Perintah*. 

### `put-account-setting-default`
<a name="ecs_PutAccountSettingDefault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-account-setting-default`.

**AWS CLI**  
**Untuk mengubah pengaturan akun default**  
`put-account-setting-default`Contoh berikut memodifikasi pengaturan akun default untuk semua pengguna IAM atau peran di akun Anda. Perubahan ini berlaku untuk seluruh AWS akun kecuali pengguna atau peran IAM secara eksplisit mengesampingkan pengaturan ini untuk diri mereka sendiri.  

```
aws ecs put-account-setting-default --name serviceLongArnFormat --value enabled
```
Output:  

```
{
    "setting": {
        "name": "serviceLongArnFormat",
        "value": "enabled",
        "principalArn": "arn:aws:iam::123456789012:root"
    }
}
```
Untuk informasi selengkapnya, lihat [Nama Sumber Daya Amazon (ARNs) dan IDs](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-resource-ids.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [PutAccountSettingDefault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/put-account-setting-default.html)di *Referensi AWS CLI Perintah*. 

### `put-account-setting`
<a name="ecs_PutAccountSetting_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-account-setting`.

**AWS CLI**  
**Untuk mengubah pengaturan akun untuk akun pengguna IAM Anda**  
`put-account-setting`Contoh berikut menetapkan pengaturan `containerInsights` akun untuk `enhanced` untuk akun pengguna IAM Anda. Ini mengaktifkan Wawasan Kontainer dengan observabilitas yang ditingkatkan.  

```
aws ecs put-account-setting \
    --name containerInsights \
    --value enhanced
```
Output:  

```
{
    "setting": {
        "name": "containerInsights",
        "value": "enhanced",
        "principalArn": "arn:aws:iam::123456789012:user/johndoe",
        "type": "user"
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Pengaturan Akun](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-modifying-longer-id-settings.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [PutAccountSetting](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/put-account-setting.html)di *Referensi AWS CLI Perintah*. 

### `put-account-settings`
<a name="ecs_PutAccountSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-account-settings`.

**AWS CLI**  
**Untuk mengubah pengaturan akun untuk pengguna IAM atau peran IAM**  
`put-account-setting`Contoh berikut memodifikasi pengaturan akun untuk pengguna IAM tertentu atau peran IAM.  

```
aws ecs put-account-setting \
    --name serviceLongArnFormat \
    --value enabled \
    --principal-arn arn:aws:iam::123456789012:user/MyUser
```
Output:  

```
{
    "setting": {
        "name": "serviceLongArnFormat",
        "value": "enabled",
        "principalArn": "arn:aws:iam::123456789012:user/MyUser"
    }
}
```
+  Untuk detail API, lihat [PutAccountSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/put-account-settings.html)di *Referensi AWS CLI Perintah*. 

### `put-attributes`
<a name="ecs_PutAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-attributes`.

**AWS CLI**  
**Untuk membuat atribut dan mengaitkannya dengan sumber daya Amazon ECS**  
Berikut ini `put-attributes` menerapkan atribut dengan nama stack dan nilai produksi untuk instance container.  

```
aws ecs put-attributes \
    --attributes name=stack,value=production,targetId=arn:aws:ecs:us-west-2:130757420319:container-instance/1c3be8ed-df30-47b4-8f1e-6e68ebd01f34
```
Output:  

```
{
    "attributes": [
        {
            "name": "stack",
            "targetId": "arn:aws:ecs:us-west-2:130757420319:container-instance/1c3be8ed-df30-47b4-8f1e-6e68ebd01f34",
            "value": "production"
        }
    ]
}
```
+  Untuk detail API, lihat [PutAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/put-attributes.html)di *Referensi AWS CLI Perintah*. 

### `put-cluster-capacity-providers`
<a name="ecs_PutClusterCapacityProviders_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-cluster-capacity-providers`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan penyedia kapasitas yang ada ke cluster**  
`put-cluster-capacity-providers`Contoh berikut menambahkan penyedia kapasitas yang ada ke cluster. `create-capacity-provider`Perintah ini digunakan untuk membuat penyedia kapasitas. `describe-clusters`Perintah ini digunakan untuk menggambarkan penyedia kapasitas saat ini dan strategi penyedia kapasitas default yang terkait dengan cluster. Saat menambahkan penyedia kapasitas baru ke klaster, Anda harus menentukan semua penyedia kapasitas yang ada selain penyedia kapasitas baru yang ingin Anda kaitkan dengan cluster. Anda juga harus menentukan strategi penyedia kapasitas default untuk dikaitkan dengan cluster. Dalam contoh ini, `MyCluster` cluster memiliki penyedia `MyCapacityProvider1` kapasitas yang terkait dengannya dan Anda ingin menambahkan penyedia `MyCapacityProvider2` kapasitas dan memasukkannya ke dalam strategi penyedia kapasitas default sehingga tugas tersebar merata di kedua penyedia kapasitas.  

```
aws ecs put-cluster-capacity-providers \
    --cluster MyCluster \
    --capacity-providers MyCapacityProvider1 MyCapacityProvider2 \
    --default-capacity-provider-strategy capacityProvider=MyCapacityProvider1,weight=1 capacityProvider=MyCapacityProvider2,weight=1
```
Output:  

```
{
    "cluster": {
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "clusterName": "MyCluster",
        "status": "ACTIVE",
        "registeredContainerInstancesCount": 0,
        "runningTasksCount": 0,
        "pendingTasksCount": 0,
        "activeServicesCount": 0,
        "statistics": [],
        "tags": [],
        "settings": [
            {
                "name": "containerInsights",
                "value": "enabled"
            }
        ],
        "capacityProviders": [
            "MyCapacityProvider1",
            "MyCapacityProvider2"
        ],
        "defaultCapacityProviderStrategy": [
            {
                "capacityProvider": "MyCapacityProvider1",
                "weight": 1,
                "base": 0
            },
            {
                "capacityProvider": "MyCapacityProvider2",
                "weight": 1,
                "base": 0
            }
        ],
        "attachments": [
           {
                "id": "0fb0c8f4-6edd-4de1-9b09-17e470ee1918",
                "type": "as_policy",
                "status": "ACTIVE",
                "details": [
                    {
                        "name": "capacityProviderName",
                        "value": "MyCapacityProvider1"
                    },
                    {
                        "name": "scalingPolicyName",
                        "value": "ECSManagedAutoScalingPolicy-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
                    }
                ]
            },
            {
                "id": "ae592060-2382-4663-9476-b015c685593c",
                "type": "as_policy",
                "status": "ACTIVE",
                "details": [
                    {
                        "name": "capacityProviderName",
                        "value": "MyCapacityProvider2"
                    },
                    {
                        "name": "scalingPolicyName",
                        "value": "ECSManagedAutoScalingPolicy-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
                    }
                ]
            }
        ],
        "attachmentsStatus": "UPDATE_IN_PROGRESS"
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kapasitas klaster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-capacity-providers.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 2: Untuk menghapus penyedia kapasitas dari cluster**  
`put-cluster-capacity-providers`Contoh berikut menghapus penyedia kapasitas dari cluster. `describe-clusters`Perintah ini digunakan untuk menggambarkan penyedia kapasitas saat ini yang terkait dengan cluster. Saat menghapus penyedia kapasitas dari klaster, Anda harus menentukan penyedia kapasitas yang ingin tetap terkait dengan klaster serta strategi penyedia kapasitas default untuk dikaitkan dengan cluster. Dalam contoh ini, cluster memiliki `MyCapacityProvider1` dan penyedia `MyCapacityProvider2` kapasitas yang terkait dengannya dan Anda ingin menghapus penyedia `MyCapacityProvider2` kapasitas, sehingga Anda hanya menentukan `MyCapacityProvider1` dalam perintah bersama dengan strategi penyedia kapasitas default yang diperbarui.  

```
aws ecs put-cluster-capacity-providers \
    --cluster MyCluster \
    --capacity-providers MyCapacityProvider1 \
    --default-capacity-provider-strategy capacityProvider=MyCapacityProvider1,weight=1,base=0
```
Output:  

```
{
    "cluster": {
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "clusterName": "MyCluster",
        "status": "ACTIVE",
        "registeredContainerInstancesCount": 0,
        "runningTasksCount": 0,
        "pendingTasksCount": 0,
        "activeServicesCount": 0,
        "statistics": [],
        "tags": [],
        "settings": [
            {
                "name": "containerInsights",
                "value": "enabled"
            }
        ],
        "capacityProviders": [
            "MyCapacityProvider1"
        ],
        "defaultCapacityProviderStrategy": [
            "capacityProvider": "MyCapacityProvider1",
            "weight": 1,
            "base": 0
        ],
        "attachments": [
           {
                "id": "0fb0c8f4-6edd-4de1-9b09-17e470ee1918",
                "type": "as_policy",
                "status": "ACTIVE",
                "details": [
                    {
                        "name": "capacityProviderName",
                        "value": "MyCapacityProvider1"
                    },
                    {
                        "name": "scalingPolicyName",
                        "value": "ECSManagedAutoScalingPolicy-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
                    }
                ]
            },
            {
                "id": "ae592060-2382-4663-9476-b015c685593c",
                "type": "as_policy",
                "status": "DELETING",
                "details": [
                    {
                        "name": "capacityProviderName",
                        "value": "MyCapacityProvider2"
                    },
                    {
                        "name": "scalingPolicyName",
                        "value": "ECSManagedAutoScalingPolicy-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
                    }
                ]
            }
        ],
        "attachmentsStatus": "UPDATE_IN_PROGRESS"
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kapasitas klaster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-capacity-providers.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 3: Untuk menghapus semua penyedia kapasitas dari cluster**  
`put-cluster-capacity-providers`Contoh berikut menghapus semua penyedia kapasitas yang ada dari cluster.  

```
aws ecs put-cluster-capacity-providers \
    --cluster MyCluster \
    --capacity-providers [] \
    --default-capacity-provider-strategy []
```
Output:  

```
{
    "cluster": {
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster",
        "clusterName": "MyCluster",
        "status": "ACTIVE",
        "registeredContainerInstancesCount": 0,
        "runningTasksCount": 0,
        "pendingTasksCount": 0,
        "activeServicesCount": 0,
        "statistics": [],
        "tags": [],
        "settings": [
            {
                "name": "containerInsights",
                "value": "enabled"
            }
        ],
        "capacityProviders": [],
        "defaultCapacityProviderStrategy": [],
        "attachments": [
           {
                "id": "0fb0c8f4-6edd-4de1-9b09-17e470ee1918",
                "type": "as_policy",
                "status": "DELETING",
                "details": [
                    {
                        "name": "capacityProviderName",
                        "value": "MyCapacityProvider1"
                    },
                    {
                        "name": "scalingPolicyName",
                        "value": "ECSManagedAutoScalingPolicy-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
                    }
                ]
            },
            {
                "id": "ae592060-2382-4663-9476-b015c685593c",
                "type": "as_policy",
                "status": "DELETING",
                "details": [
                    {
                        "name": "capacityProviderName",
                        "value": "MyCapacityProvider2"
                    },
                    {
                        "name": "scalingPolicyName",
                        "value": "ECSManagedAutoScalingPolicy-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
                    }
                ]
            }
        ],
        "attachmentsStatus": "UPDATE_IN_PROGRESS"
    }
}
```
Untuk informasi selengkapnya, lihat [Penyedia kapasitas klaster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-capacity-providers.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [PutClusterCapacityProviders](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/put-cluster-capacity-providers.html)di *Referensi AWS CLI Perintah*. 

### `register-task-definition`
<a name="ecs_RegisterTaskDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-task-definition`.

**AWS CLI**  
**Contoh 1: Untuk mendaftarkan definisi tugas dengan file JSON**  
`register-task-definition`Contoh berikut mendaftarkan definisi tugas ke keluarga yang ditentukan. Definisi wadah disimpan dalam format JSON di lokasi file yang ditentukan.  

```
aws ecs register-task-definition \
    --cli-input-json file://<path_to_json_file>/sleep360.json
```
Isi dari `sleep360.json`:  

```
{
    "containerDefinitions": [
        {
            "name": "sleep",
            "image": "busybox",
            "cpu": 10,
            "command": [
                "sleep",
                "360"
            ],
            "memory": 10,
            "essential": true
        }
    ],
    "family": "sleep360"
}
```
Output:  

```
{
    "taskDefinition": {
        "status": "ACTIVE",
        "family": "sleep360",
        "placementConstraints": [],
        "compatibilities": [
                "EXTERNAL",
                "EC2"
        ],
        "volumes": [],
        "taskDefinitionArn": "arn:aws:ecs:us-east-1:123456789012:task-definition/sleep360:1",
        "containerDefinitions": [
            {
                "environment": [],
                "name": "sleep",
                "mountPoints": [],
                "image": "busybox",
                "cpu": 10,
                "portMappings": [],
                "command": [
                    "sleep",
                    "360"
                ],
        "memory": 10,
        "essential": true,
        "volumesFrom": []
        }
    ],
        "revision": 1
    }
}
```
Untuk informasi selengkapnya, lihat [Contoh definisi tugas](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/example_task_definitions.html) di *Panduan Pengembang Amazon ECS*.  
**Contoh 2: Untuk mendaftarkan definisi tugas dengan parameter string JSON**  
`register-task-definition`Contoh berikut mendaftarkan definisi tugas menggunakan definisi kontainer yang disediakan sebagai parameter string JSON dengan tanda kutip ganda yang lolos.  

```
aws ecs register-task-definition \
    --family sleep360 \
    --container-definitions "[{\"name\":\"sleep\",\"image\":\"busybox\",\"cpu\":10,\"command\":[\"sleep\",\"360\"],\"memory\":10,\"essential\":true}]"
```
Outputnya identik dengan contoh sebelumnya.  
Untuk informasi selengkapnya, lihat [Membuat Definisi Tugas](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/create-task-definition.html) di *Panduan Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [RegisterTaskDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/register-task-definition.html)di *Referensi AWS CLI Perintah*. 

### `run-task`
<a name="ecs_RunTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`run-task`.

**AWS CLI**  
**Contoh 1: Untuk menjalankan tugas di klaster default**  
`run-task`Contoh berikut menjalankan tugas pada cluster default dan menggunakan token klien.  

```
aws ecs run-task \
    --cluster default \
    --task-definition sleep360:1 \
    --client-token 550e8400-e29b-41d4-a716-446655440000
```
Output:  

```
{
    "tasks": [
        {
            "attachments": [],
            "attributes": [
                {
                    "name": "ecs.cpu-architecture",
                    "value": "x86_64"
                }
            ],
            "availabilityZone": "us-east-1b",
            "capacityProviderName": "example-capacity-provider",
            "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/default",
            "containerInstanceArn": "arn:aws:ecs:us-east-1:123456789012:container-instance/default/bc4d2ec611d04bb7bb97e83ceEXAMPLE",
            "containers": [
                {
                    "containerArn": "arn:aws:ecs:us-east-1:123456789012:container/default/d6f51cc5bbc94a47969c92035e9f66f8/75853d2d-711e-458a-8362-0f0aEXAMPLE",
                    "taskArn": "arn:aws:ecs:us-east-1:123456789012:task/default/d6f51cc5bbc94a47969c9203EXAMPLE",
                    "name": "sleep",
                    "image": "busybox",
                    "lastStatus": "PENDING",
                    "networkInterfaces": [],
                    "cpu": "10",
                    "memory": "10"
                }
            ],
            "cpu": "10",
            "createdAt": "2023-11-21T16:59:34.403000-05:00",
            "desiredStatus": "RUNNING",
            "enableExecuteCommand": false,
            "group": "family:sleep360",
            "lastStatus": "PENDING",
            "launchType": "EC2",
            "memory": "10",
            "overrides": {
                "containerOverrides": [
                    {
                        "name": "sleep"
                    }
                ],
                "inferenceAcceleratorOverrides": []
            },
            "tags": [],
            "taskArn": "arn:aws:ecs:us-east-1:123456789012:task/default/d6f51cc5bbc94a47969c9203EXAMPLE",
            "taskDefinitionArn": "arn:aws:ecs:us-east-1:123456789012:task-definition/sleep360:1",
            "version": 1
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Menjalankan aplikasi sebagai tugas mandiri](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/standalone-task-create.html) di Panduan *Pengembang Amazon ECS*.  
**Contoh 2: Untuk mengonfigurasi volume Amazon EBS untuk tugas mandiri**  
`run-task`Contoh berikut mengonfigurasi volume Amazon EBS terenkripsi untuk tugas Fargate pada klaster default. Anda harus memiliki peran infrastruktur Amazon ECS yang dikonfigurasi dengan kebijakan `AmazonECSInfrastructureRolePolicyForVolumes` terkelola yang dilampirkan. Anda harus menentukan definisi tugas dengan nama volume yang sama seperti pada `run-task` permintaan. Contoh ini menggunakan `--cli-input-json` opsi dan file input JSON yang disebut`ebs.json`.  

```
aws ecs run-task \
    --cli-input-json file://ebs.json
```
Isi dari `ebs.json`:  

```
{
   "cluster": "default",
   "taskDefinition": "mytaskdef",
   "launchType": "FARGATE",
   "networkConfiguration":{
        "awsvpcConfiguration":{
            "assignPublicIp": "ENABLED",
            "securityGroups": ["sg-12344321"],
            "subnets":["subnet-12344321"]
        }
    },
   "volumeConfigurations": [
        {
            "name": "myEBSVolume",
            "managedEBSVolume": {
                "volumeType": "gp3",
                "sizeInGiB": 100,
                "roleArn":"arn:aws:iam::1111222333:role/ecsInfrastructureRole",
                "encrypted": true,
                "kmsKeyId": "arn:aws:kms:region:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab"
            }
        }
    ]
}
```
Output:  

```
{
    "tasks": [
        {
            "attachments": [
                {
                    "id": "ce868693-15ca-4083-91ac-f782f64000c9",
                    "type": "ElasticNetworkInterface",
                    "status": "PRECREATED",
                    "details": [
                        {
                        "name": "subnetId",
                        "value": "subnet-070982705451dad82"
                        }
                    ]
                },
                {
                    "id": "a17ed863-786c-4372-b5b3-b23e53f37877",
                    "type": "AmazonElasticBlockStorage",
                    "status": "CREATED",
                    "details": [
                        {
                            "name": "roleArn",
                            "value": "arn:aws:iam::123456789012:role/ecsInfrastructureRole"
                        },
                        {
                            "name": "volumeName",
                            "value": "myEBSVolume"
                        },
                        {
                            "name": "deleteOnTermination",
                            "value": "true"
                        }
                    ]
                }
            ],
            "attributes": [
                {
                    "name": "ecs.cpu-architecture",
                    "value": "x86_64"
                }
            ],
            "availabilityZone": "us-west-2b",
            "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/default",
            "containers": [
                {
                    "containerArn": "arn:aws:ecs:us-west-2:123456789012:container/default/7f1fbd3629434cc4b82d72d2f09b67c9/e21962a2-f328-4699-98a3-5161ac2c186a",
                    "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/default/7f1fbd3629434cc4b82d72d2f09b67c9",
                    "name": "container-using-ebs",
                    "image": "amazonlinux:2",
                    "lastStatus": "PENDING",
                    "networkInterfaces": [],
                    "cpu": "0"
                }
            ],
            "cpu": "1024",
            "createdAt": "2025-01-23T10:29:46.650000-06:00",
            "desiredStatus": "RUNNING",
            "enableExecuteCommand": false,
            "group": "family:mytaskdef",
            "lastStatus": "PROVISIONING",
            "launchType": "FARGATE",
            "memory": "3072",
            "overrides": {
                "containerOverrides": [
                    {
                        "name": "container-using-ebs"
                    }
                ],
                "inferenceAcceleratorOverrides": []
            },
            "platformVersion": "1.4.0",
            "platformFamily": "Linux",
            "tags": [],
            "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/default/7f1fbd3629434cc4b82d72d2f09b67c9",
            "taskDefinitionArn": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:4",
            "version": 1,
            "ephemeralStorage": {
                "sizeInGiB": 20
            },
            "fargateEphemeralStorage": {
                "sizeInGiB": 20
            }
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Menggunakan volume Amazon EBS dengan Amazon ECS di Panduan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ebs-volumes.html) Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [RunTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/run-task.html)di *Referensi AWS CLI Perintah*. 

### `start-task`
<a name="ecs_StartTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-task`.

**AWS CLI**  
**Contoh 1: Untuk memulai tugas baru**  
`start-task`Contoh berikut memulai tugas menggunakan revisi terbaru dari definisi `sleep360` tugas pada instance kontainer tertentu di cluster default.  

```
aws ecs start-task \
    --task-definition sleep360 \
    --container-instances 765936fadbdd46b5991a4bd70c2a43d4
```
Output:  

```
{
    "tasks": [
        {
            "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/default/666fdccc2e2d4b6894dd422f4eeee8f8",
            "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/default",
            "taskDefinitionArn": "arn:aws:ecs:us-west-2:123456789012:task-definition/sleep360:3",
            "containerInstanceArn": "arn:aws:ecs:us-west-2:123456789012:container-instance/default/765936fadbdd46b5991a4bd70c2a43d4",
            "overrides": {
                "containerOverrides": [
                    {
                        "name": "sleep"
                    }
                ]
            },
            "lastStatus": "PENDING",
            "desiredStatus": "RUNNING",
            "cpu": "128",
            "memory": "128",
            "containers": [
                {
                    "containerArn": "arn:aws:ecs:us-west-2:123456789012:container/75f11ed4-8a3d-4f26-a33b-ad1db9e02d41",
                    "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/default/666fdccc2e2d4b6894dd422f4eeee8f8",
                    "name": "sleep",
                    "lastStatus": "PENDING",
                    "networkInterfaces": [],
                    "cpu": "10",
                    "memory": "10"
                }
            ],
            "version": 1,
            "createdAt": 1563421494.186,
            "group": "family:sleep360",
            "launchType": "EC2",
            "attachments": [],
            "tags": []
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Menjadwalkan kontainer Anda di Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/scheduling_tasks.html) di Panduan *Pengembang Amazon ECS*.  
**Contoh 2: Untuk mengonfigurasi volume Amazon EBS saat tugas dimulai**  
`start-task`Contoh berikut mengonfigurasi volume Amazon EBS terenkripsi untuk tugas pada instance container yang ditentukan. Anda harus memiliki peran infrastruktur Amazon ECS yang dikonfigurasi dengan kebijakan `AmazonECSInfrastructureRolePolicyForVolumes` terkelola yang dilampirkan. Anda harus menentukan definisi tugas dengan nama volume yang sama seperti pada `start-task` permintaan. Contoh ini menggunakan `--cli-input-json` opsi dan file input JSON yang disebut `ebs.json` dengan konten berikut.  

```
aws ecs start-task \
    --cli-input-json file://ebs.json \
    --container-instances 765936fadbdd46b5991a4bd70c2a43d4
```
Isi dari `ebs.json`:  

```
{
   "cluster": "default",
   "taskDefinition": "mytaskdef",
   "networkConfiguration":{
        "awsvpcConfiguration":{
            "assignPublicIp": "ENABLED",
            "securityGroups": ["sg-12344321"],
            "subnets":["subnet-12344321"]
        }
    },
   "volumeConfigurations": [
        {
            "name": "myEBSVolume",
            "managedEBSVolume": {
                "volumeType": "gp3",
                "sizeInGiB": 100,
                "roleArn":"arn:aws:iam::123456789012:role/ecsInfrastructureRole",
                "encrypted": true,
                "kmsKeyId": "arn:aws:kms:region:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab"
            }
        }
    ]
}
```
Output:  

```
{
    "tasks": [
        {
            "attachments": [
                {
                    "id": "aea29489-9dcd-49f1-8164-4d91566e1113",
                    "type": "ElasticNetworkInterface",
                    "status": "PRECREATED",
                    "details": [
                        {
                            "name": "subnetId",
                            "value": "subnet-12344321"
                        }
                    ]
                },
                {
                    "id": "f29e1222-9a1e-410f-b499-a12a7cd6d42e",
                    "type": "AmazonElasticBlockStorage",
                    "status": "CREATED",
                    "details": [
                        {
                            "name": "roleArn",
                            "value": "arn:aws:iam::123456789012:role/ecsInfrastructureRole"
                        },
                        {
                            "name": "volumeName",
                            "value": "myEBSVolume"
                        },
                        {
                            "name": "deleteOnTermination",
                            "value": "true"
                        }
                    ]
                }
            ],
            "attributes": [
                {
                    "name": "ecs.cpu-architecture",
                    "value": "arm64"
                }
            ],
            "availabilityZone": "us-west-2c",
            "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/default",
            "containerInstanceArn": "arn:aws:ecs:us-west-2:123456789012:container-instance/default/765936fadbdd46b5991a4bd70c2a43d4",
            "containers": [
                {
                    "containerArn": "arn:aws:ecs:us-west-2:123456789012:container/default/bb122ace3ed84add92c00a351a03c69e/a4a9ed10-51c7-4567-9653-50e71b94f867",
                    "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/default/bb122ace3ed84add92c00a351a03c69e",
                    "name": "container-using-ebs",
                    "image": "amazonlinux:2",
                    "lastStatus": "PENDING",
                    "networkInterfaces": [],
                    "cpu": "0"
                }
            ],
            "cpu": "1024",
            "createdAt": "2025-01-23T14:51:05.191000-06:00",
            "desiredStatus": "RUNNING",
            "enableExecuteCommand": false,
            "group": "family:mytaskdef",
            "lastStatus": "PROVISIONING",
            "launchType": "EC2",
            "memory": "3072",
            "overrides": {
                "containerOverrides": [
                    {
                        "name": "container-using-ebs"
                    }
                ],
                "inferenceAcceleratorOverrides": []
            },
             "tags": [],
            "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/default/bb122ace3ed84add92c00a351a03c69e",
            "taskDefinitionArn": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:4",
            "version": 1
        }
    ],
    "failures": []
}
```
Untuk informasi selengkapnya, lihat [Menggunakan volume Amazon EBS dengan Amazon ECS di Panduan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ebs-volumes.html) Pengembang *Amazon ECS.*  
+  Untuk detail API, lihat [StartTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/start-task.html)di *Referensi AWS CLI Perintah*. 

### `stop-task`
<a name="ecs_StopTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-task`.

**AWS CLI**  
**Untuk menghentikan tugas**  
Berikut ini `stop-task` menghentikan tugas yang ditentukan agar tidak berjalan di cluster default.  

```
aws ecs stop-task \
    --task 666fdccc2e2d4b6894dd422f4eeee8f8
```
Output:  

```
{
    "task": {
        "taskArn": "arn:aws:ecs:us-west-2:130757420319:task/default/666fdccc2e2d4b6894dd422f4eeee8f8",
        "clusterArn": "arn:aws:ecs:us-west-2:130757420319:cluster/default",
        "taskDefinitionArn": "arn:aws:ecs:us-west-2:130757420319:task-definition/sleep360:3",
        "containerInstanceArn": "arn:aws:ecs:us-west-2:130757420319:container-instance/default/765936fadbdd46b5991a4bd70c2a43d4",
        "overrides": {
            "containerOverrides": []
        },
        "lastStatus": "STOPPED",
        "desiredStatus": "STOPPED",
        "cpu": "128",
        "memory": "128",
        "containers": [],
        "version": 2,
        "stoppedReason": "Taskfailedtostart",
        "stopCode": "TaskFailedToStart",
        "connectivity": "CONNECTED",
        "connectivityAt": 1563421494.186,
        "pullStartedAt": 1563421494.252,
        "pullStoppedAt": 1563421496.252,
        "executionStoppedAt": 1563421497,
        "createdAt": 1563421494.186,
        "stoppingAt": 1563421497.252,
        "stoppedAt": 1563421497.252,
        "group": "family:sleep360",
        "launchType": "EC2",
        "attachments": [],
        "tags": []
    }
}
```
+  Untuk detail API, lihat [StopTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/stop-task.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="ecs_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut menambahkan tag tunggal ke sumber daya yang ditentukan.  

```
aws ecs tag-resource \
    --resource-arn arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster
    --tags key=key1,value=value1
```
Perintah ini tidak menghasilkan output.  
**Untuk menambahkan beberapa tag ke sumber daya**  
`tag-resource`Contoh berikut menambahkan beberapa tag ke sumber daya yang ditentukan.  

```
aws ecs tag-resource \
--resource-arn arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster \
--tags key=key1,value=value1 key=key2,value=value2 key=key3,value=value3
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="ecs_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag yang terdaftar dari sumber daya yang ditentukan.  

```
aws ecs untag-resource \
    --resource-arn arn:aws:ecs:us-west-2:123456789012:cluster/MyCluster \
    --tag-keys key1,key2
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-cluster-settings`
<a name="ecs_UpdateClusterSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-cluster-settings`.

**AWS CLI**  
**Untuk mengubah pengaturan untuk klaster Anda**  
`update-cluster-settings`Contoh berikut memungkinkan CloudWatch Container Insights dengan peningkatan observabilitas untuk cluster. `MyCluster`  

```
aws ecs update-cluster-settings \
    --cluster MyCluster \
    --settings name=containerInsights,value=enhanced
```
Output:  

```
{
    "cluster": {
        "clusterArn": "arn:aws:ecs:us-esat-1:123456789012:cluster/MyCluster",
        "clusterName": "default",
        "status": "ACTIVE",
        "registeredContainerInstancesCount": 0,
        "runningTasksCount": 0,
        "pendingTasksCount": 0,
        "activeServicesCount": 0,
        "statistics": [],
        "tags": [],
        "settings": [
            {
                "name": "containerInsights",
                "value": "enhanced"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Pengaturan Akun](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-modifying-longer-id-settings.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [UpdateClusterSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/update-cluster-settings.html)di *Referensi AWS CLI Perintah*. 

### `update-cluster`
<a name="ecs_UpdateCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-cluster`.

**AWS CLI**  
**Contoh 1: Perbarui cluster ECS yang mengaktifkan ContainerInsights**  
Berikut ini `update-cluster` memperbarui nilai containerInsights ke `enabled` dalam klaster yang sudah dibuat. Secara default, ini dinonaktifkan.  

```
aws ecs update-cluster \
    --cluster ECS-project-update-cluster \
    --settings name=containerInsights,value=enabled
```
Output:  

```
"cluster": {
    "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/ECS-project-update-cluster",
    "clusterName": "ECS-project-update-cluster",
    "status": "ACTIVE",
    "registeredContainerInstancesCount": 0,
    "runningTasksCount": 0,
    "pendingTasksCount": 0,
    "activeServicesCount": 0,
    "statistics": [],
    "tags": [],
    "settings": [
        {
            "name": "containerInsights",
            "value": "enabled"
        }
    ],
    "capacityProviders": [
        "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt"
    ],
    "defaultCapacityProviderStrategy": [
        {
            "capacityProvider": "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt",
            "weight": 1,
            "base": 0
        }
    ],
    "attachments": [
        {
            "id": "069d002b-7634-42e4-b1d4-544f4c8f6380",
            "type": "as_policy",
            "status": "CREATED",
            "details": [
                {
                    "name": "capacityProviderName",
                    "value": "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt"
                },
                {
                    "name": "scalingPolicyName",
                    "value": "ECSManagedAutoScalingPolicy-152363a6-8c65-484c-b721-42c3e070ae93"
                }
            ]
        },
        {
            "id": "08b5b6ca-45e9-4209-a65d-e962a27c490a",
            "type": "managed_draining",
            "status": "CREATED",
            "details": [
                {
                    "name": "capacityProviderName",
                    "value": "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt"
                },
                {
                    "name": "autoScalingLifecycleHookName",
                    "value": "ecs-managed-draining-termination-hook"
                }
            ]
        },
        {
            "id": "45d0b36f-8cff-46b6-9380-1288744802ab",
            "type": "sc",
            "status": "ATTACHED",
            "details": []
        }
    ],
    "attachmentsStatus": "UPDATE_COMPLETE",
    "serviceConnectDefaults": {
        "namespace": "arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-igwrsylmy3kwvcdx"
    }
}
```
**Contoh 2: Perbarui cluster ECS untuk mengatur namespace Service Connect default**  
Berikut ini `update-cluster` memperbarui cluster ECS dengan menyetel namespace Service Connect default.  

```
aws ecs update-cluster \
    --cluster ECS-project-update-cluster \
    --service-connect-defaults namespace=test
```
Output:  

```
 {
     "cluster": {
         "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/ECS-project-update-cluster",
         "clusterName": "ECS-project-update-cluster",
         "status": "ACTIVE",
         "registeredContainerInstancesCount": 0,
         "runningTasksCount": 0,
         "pendingTasksCount": 0,
         "activeServicesCount": 0,
         "statistics": [],
         "tags": [],
         "settings": [
             {
                 "name": "containerInsights",
                 "value": "enabled"
             }
         ],
         "capacityProviders": [
             "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt"
         ],
         "defaultCapacityProviderStrategy": [
             {
                 "capacityProvider": "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt",
                 "weight": 1,
                 "base": 0
             }
         ],
         "attachments": [
             {
                 "id": "069d002b-7634-42e4-b1d4-544f4c8f6380",
                 "type": "as_policy",
                 "status": "CREATED",
                 "details": [
                     {
                         "name": "capacityProviderName",
                         "value": "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt"
                     },
                     {
                         "name": "scalingPolicyName",
                         "value": "ECSManagedAutoScalingPolicy-152363a6-8c65-484c-b721-42c3e070ae93"
                     }
                 ]
             },
             {
                 "id": "08b5b6ca-45e9-4209-a65d-e962a27c490a",
                 "type": "managed_draining",
                 "status": "CREATED",
                 "details": [
                     {
                         "name": "capacityProviderName",
                         "value": "Infra-ECS-Cluster-ECS-project-update-cluster-d6bb6d5b-EC2CapacityProvider-3fIpdkLywwFt"
                     },
                     {
                         "name": "autoScalingLifecycleHookName",
                         "value": "ecs-managed-draining-termination-hook"
                     }
                 ]
             },
             {
                 "id": "45d0b36f-8cff-46b6-9380-1288744802ab",
                 "type": "sc",
                 "status": "DELETED",
                 "details": []
             },
             {
                 "id": "3e6890c3-609c-4832-91de-d6ca891b3ef1",
                 "type": "sc",
                 "status": "ATTACHED",
                 "details": []
             },
             {
                 "id": "961b8ec1-c2f1-4070-8495-e669b7668e90",
                 "type": "sc",
                 "status": "DELETED",
                 "details": []
             }
         ],
         "attachmentsStatus": "UPDATE_COMPLETE",
         "serviceConnectDefaults": {
             "namespace": "arn:aws:servicediscovery:us-west-2:123456789012:namespace/ns-dtjmxqpfi46ht7dr"
         }
     }
}
```
Untuk informasi selengkapnya tentang Service Connect, lihat [Menggunakan Service Connect untuk menghubungkan layanan Amazon ECS dengan nama pendek](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-connect.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [UpdateCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/update-cluster.html)di *Referensi AWS CLI Perintah*. 

### `update-container-agent`
<a name="ecs_UpdateContainerAgent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-container-agent`.

**AWS CLI**  
**Untuk memperbarui agen penampung pada instans penampung Amazon ECS**  
`update-container-agent`Contoh berikut memperbarui agen kontainer pada instance kontainer tertentu di cluster default.  

```
aws ecs update-container-agent --cluster default --container-instance a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Output:  

```
{
    "containerInstance": {
        "status": "ACTIVE",
...
        "agentUpdateStatus": "PENDING",
        "versionInfo": {
            "agentVersion": "1.0.0",
            "agentHash": "4023248",
            "dockerVersion": "DockerVersion: 1.5.0"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Agen Kontainer Amazon ECS](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-agent-update.html) di Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [UpdateContainerAgent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/update-container-agent.html)di *Referensi AWS CLI Perintah*. 

### `update-container-instances-state`
<a name="ecs_UpdateContainerInstancesState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-container-instances-state`.

**AWS CLI**  
**Untuk memperbarui status instance kontainer**  
Berikut ini `update-container-instances-state` memperbarui status instance kontainer tertentu `DRAINING` yang akan menghapusnya dari cluster apakah itu terdaftar.  

```
aws ecs update-container-instances-state \
    --container-instances 765936fadbdd46b5991a4bd70c2a43d4 \
    --status DRAINING
```
Output:  

```
{
    "containerInstances": [
        {
            "containerInstanceArn": "arn:aws:ecs:us-west-2:130757420319:container-instance/default/765936fadbdd46b5991a4bd70c2a43d4",
            "ec2InstanceId": "i-013d87ffbb4d513bf",
            "version": 4390,
            "versionInfo": {
                "agentVersion": "1.29.0",
                "agentHash": "a190a73f",
                "dockerVersion": "DockerVersion:18.06.1-ce"
            },
            "remainingResources": [
                {
                    "name": "CPU",
                    "type": "INTEGER",
                    "doubleValue": 0,
                    "longValue": 0,
                    "integerValue": 1536
                },
                {
                    "name": "MEMORY",
                    "type": "INTEGER",
                    "doubleValue": 0,
                    "longValue": 0,
                    "integerValue": 2681
                },
                {
                    "name": "PORTS",
                    "type": "STRINGSET",
                    "doubleValue": 0,
                    "longValue": 0,
                    "integerValue": 0,
                    "stringSetValue": [
                        "22",
                        "2376",
                        "2375",
                        "51678",
                        "51679"
                    ]
                },
                {
                    "name": "PORTS_UDP",
                    "type": "STRINGSET",
                    "doubleValue": 0,
                    "longValue": 0,
                    "integerValue": 0,
                    "stringSetValue": []
                }
            ],
            "registeredResources": [
                {
                    "name": "CPU",
                    "type": "INTEGER",
                    "doubleValue": 0,
                    "longValue": 0,
                    "integerValue": 2048
                },
                {
                    "name": "MEMORY",
                    "type": "INTEGER",
                    "doubleValue": 0,
                    "longValue": 0,
                    "integerValue": 3705
                },
                {
                    "name": "PORTS",
                    "type": "STRINGSET",
                    "doubleValue": 0,
                    "longValue": 0,
                    "integerValue": 0,
                    "stringSetValue": [
                        "22",
                        "2376",
                        "2375",
                        "51678",
                        "51679"
                    ]
                },
                {
                    "name": "PORTS_UDP",
                    "type": "STRINGSET",
                    "doubleValue": 0,
                    "longValue": 0,
                    "integerValue": 0,
                    "stringSetValue": []
                }
            ],
            "status": "DRAINING",
            "agentConnected": true,
            "runningTasksCount": 2,
            "pendingTasksCount": 0,
            "attributes": [
                {
                    "name": "ecs.capability.secrets.asm.environment-variables"
                },
                {
                    "name": "ecs.capability.branch-cni-plugin-version",
                    "value": "e0703516-"
                },
                {
                    "name": "ecs.ami-id",
                    "value": "ami-00e0090ac21971297"
                },
                {
                    "name": "ecs.capability.secrets.asm.bootstrap.log-driver"
                },
                {
                    "name": "com.amazonaws.ecs.capability.logging-driver.none"
                },
                {
                    "name": "ecs.capability.ecr-endpoint"
                },
                {
                    "name": "ecs.capability.docker-plugin.local"
                },
                {
                    "name": "ecs.capability.task-cpu-mem-limit"
                },
                {
                    "name": "ecs.capability.secrets.ssm.bootstrap.log-driver"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.30"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.31"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.32"
                },
                {
                    "name": "ecs.availability-zone",
                    "value": "us-west-2c"
                },
                {
                    "name": "ecs.capability.aws-appmesh"
                },
                {
                    "name": "com.amazonaws.ecs.capability.logging-driver.awslogs"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.24"
                },
                {
                    "name": "ecs.capability.task-eni-trunking"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.25"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.26"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.27"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.28"
                },
                {
                    "name": "com.amazonaws.ecs.capability.privileged-container"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.29"
                },
                {
                    "name": "ecs.cpu-architecture",
                    "value": "x86_64"
                },
                {
                    "name": "com.amazonaws.ecs.capability.ecr-auth"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.20"
                },
                {
                    "name": "ecs.os-type",
                    "value": "linux"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.21"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.22"
                },
                {
                    "name": "ecs.capability.task-eia"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.23"
                },
                {
                    "name": "ecs.capability.private-registry-authentication.secretsmanager"
                },
                {
                    "name": "com.amazonaws.ecs.capability.logging-driver.syslog"
                },
                {
                    "name": "com.amazonaws.ecs.capability.logging-driver.json-file"
                },
                {
                    "name": "ecs.capability.execution-role-awslogs"
                },
                {
                    "name": "ecs.vpc-id",
                    "value": "vpc-1234"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.17"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.18"
                },
                {
                    "name": "com.amazonaws.ecs.capability.docker-remote-api.1.19"
                },
                {
                    "name": "ecs.capability.task-eni"
                },
                {
                    "name": "ecs.capability.execution-role-ecr-pull"
                },
                {
                    "name": "ecs.capability.container-health-check"
                },
                {
                    "name": "ecs.subnet-id",
                    "value": "subnet-1234"
                },
                {
                    "name": "ecs.instance-type",
                    "value": "c5.large"
                },
                {
                    "name": "com.amazonaws.ecs.capability.task-iam-role-network-host"
                },
                {
                    "name": "ecs.capability.container-ordering"
                },
                {
                    "name": "ecs.capability.cni-plugin-version",
                    "value": "91ccefc8-2019.06.0"
                },
                {
                    "name": "ecs.capability.pid-ipc-namespace-sharing"
                },
                {
                    "name": "ecs.capability.secrets.ssm.environment-variables"
                },
                {
                    "name": "com.amazonaws.ecs.capability.task-iam-role"
                }
            ],
            "registeredAt": 1560788724.507,
            "attachments": [],
            "tags": []
        }
    ],
    "failures": []
}
```
+  Untuk detail API, lihat [UpdateContainerInstancesState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/update-container-instances-state.html)di *Referensi AWS CLI Perintah*. 

### `update-service-primary-task-set`
<a name="ecs_UpdateServicePrimaryTaskSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service-primary-task-set`.

**AWS CLI**  
**Untuk memperbarui set tugas utama untuk layanan**  
`update-service-primary-task-set`Contoh berikut memperbarui tugas utama yang ditetapkan untuk layanan tertentu.  

```
aws ecs update-service-primary-task-set \
    --cluster MyCluster \
    --service MyService \
    --primary-task-set arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789
```
Output:  

```
{
    "taskSet": {
        "id": "ecs-svc/1234567890123456789",
        "taskSetArn": "arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789",
        "status": "PRIMARY",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/sample-fargate:2",
        "computedDesiredCount": 1,
        "pendingCount": 0,
        "runningCount": 0,
        "createdAt": 1557128360.711,
        "updatedAt": 1557129412.653,
        "launchType": "EC2",
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12344321"
                ],
                "securityGroups": [
                    "sg-12344312"
                ],
                "assignPublicIp": "DISABLED"
            }
        },
        "loadBalancers": [],
        "serviceRegistries": [],
        "scale": {
            "value": 50.0,
            "unit": "PERCENT"
        },
        "stabilityStatus": "STABILIZING",
        "stabilityStatusAt": 1557129279.914
    }
}
```
+  Untuk detail API, lihat [UpdateServicePrimaryTaskSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/update-service-primary-task-set.html)di *Referensi AWS CLI Perintah*. 

### `update-service`
<a name="ecs_UpdateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service`.

**AWS CLI**  
**Contoh 1: Untuk mengubah definisi tugas yang digunakan dalam layanan**  
`update-service`Contoh berikut memperbarui `my-http-service` layanan untuk menggunakan definisi `amazon-ecs-sample` tugas.  

```
aws ecs update-service \
    --cluster test \
    --service my-http-service \
    --task-definition amazon-ecs-sample
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/test/my-http-service",
        "serviceName": "my-http-service",
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/test",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 2,
        "runningCount": 2,
        "pendingCount": 0,
        "launchType": "FARGATE",
        "platformVersion": "1.4.0",
        "platformFamily": "Linux",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/amazon-ecs-sample:2",
        "deploymentConfiguration": {
            "deploymentCircuitBreaker": {
                "enable": true,
                "rollback": true
            },
            "maximumPercent": 200,
            "minimumHealthyPercent": 100,
            "alarms": {
                "alarmNames": [],
                "rollback": false,
                "enable": false
            }
        },
        "deployments": [
            {
                "id": "ecs-svc/7419115625193919142",
                "status": "PRIMARY",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/amazon-ecs-sample:2",
                "desiredCount": 0,
                "pendingCount": 0,
                "runningCount": 0,
                "failedTasks": 0,
                "createdAt": "2025-02-21T13:26:02.734000-06:00",
                "updatedAt": "2025-02-21T13:26:02.734000-06:00",
                "launchType": "FARGATE",
                "platformVersion": "1.4.0",
                "platformFamily": "Linux",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-12344321"
                        ],
                        "securityGroups": [
                            "sg-12344321"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                },
                "rolloutState": "IN_PROGRESS",
                "rolloutStateReason": "ECS deployment ecs-svc/7419115625193919142 in progress."
            },
            {
                "id": "ecs-svc/1709597507655421668",
                "status": "ACTIVE",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/old-amazon-ecs-sample:4",
                "desiredCount": 2,
                "pendingCount": 0,
                "runningCount": 2,
                "failedTasks": 0,
                "createdAt": "2025-01-24T11:13:07.621000-06:00",
                "updatedAt": "2025-02-02T16:11:30.838000-06:00",
                "launchType": "FARGATE",
                "platformVersion": "1.4.0",
                "platformFamily": "Linux",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-12344321"
                        ],
                        "securityGroups": [
                             "sg-12344321"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                },
                "rolloutState": "COMPLETED",
                "rolloutStateReason": "ECS deployment ecs-svc/1709597507655421668 completed."
            }
        ],
        "roleArn": "arn:aws:iam::123456789012:role/aws-service-role/ecs.amazonaws.com/AWSServiceRoleForECS",
        "events": [
            {
                "id": "e40b4d1c-80d9-4834-aaf3-6a268e530e17",
                "createdAt": "2025-02-21T10:31:26.037000-06:00",
                "message": "(my-http-service) has reached a steady state."
            },
            {
                "id": "6ac069ad-fc8b-4e49-a35d-b5574a964c8e",
                "createdAt": "2025-02-21T04:31:22.703000-06:00",
                "message": "(my-http-service) has reached a steady state."
            },
            {
                "id": "265f7d37-dfd1-4880-a846-ec486f341919",
                "createdAt": "2025-02-20T22:31:22.514000-06:00",
                "message": "(my-http-service) has reached a steady state."
            }
        ],
        "createdAt": "2024-10-30T17:12:43.218000-05:00",
        "placementConstraints": [],
        "placementStrategy": [],
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12344321",
                ],
                "securityGroups": [
                    "sg-12344321"
                ],
                "assignPublicIp": "ENABLED"
            }
        },
        "healthCheckGracePeriodSeconds": 0,
        "schedulingStrategy": "REPLICA",
        "deploymentController": {
            "type": "ECS"
        },
        "createdBy": "arn:aws:iam::123456789012:role/AIDACKCEVSQ6C2EXAMPLE",
        "enableECSManagedTags": true,
        "propagateTags": "NONE",
        "enableExecuteCommand": false,
        "availabilityZoneRebalancing": "DISABLED"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui layanan Amazon ECS menggunakan konsol di](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/update-service-console-v2.html) Panduan *Pengembang Amazon ECS*.  
**Contoh 2: Untuk mengubah jumlah tugas dalam suatu layanan**  
`update-service`Contoh berikut memperbarui jumlah tugas yang diinginkan dari layanan `my-http-service` dari ke 2.  

```
aws ecs update-service \
    --cluster MyCluster \
    --service my-http-service \
    --desired-count 2
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-east-1:123456789012:service/MyCluster/my-http-service",
        "serviceName": "my-http-service",
        "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/MyCluster",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 2,
        "runningCount": 1,
        "pendingCount": 0,
        "capacityProviderStrategy": [
            {
                "capacityProvider": "FARGATE",
                "weight": 1,
                "base": 0
            }
        ],
        "platformVersion": "LATEST",
        "platformFamily": "Linux",
        "taskDefinition": "arn:aws:ecs:us-east-1:123456789012:task-definition/MyTaskDefinition",
        "deploymentConfiguration": {
            "deploymentCircuitBreaker": {
                "enable": true,
                "rollback": true
            },
            "maximumPercent": 200,
            "minimumHealthyPercent": 100,
            "alarms": {
                "alarmNames": [],
                "rollback": false,
                "enable": false
            }
        },
        "deployments": [
            {
                "id": "ecs-svc/1976744184940610707",
                "status": "PRIMARY",
                "taskkDefinition": "arn:aws:ecs:us-east-1:123456789012:task-definition/MyTaskDefinition",
                "desiredCount": 1,
                "pendingCount": 0,
                "runningCount": 1,
                "failedTasks": 0,
                "createdAt": "2024-12-03T16:24:25.225000-05:00",
                "updatedAt": "2024-12-03T16:25:15.837000-05:00",
                "capacityProviderStrategy": [
                    {
                        "capacityProvider": "FARGATE",
                        "weight": 1,
                        "base": 0
                    }
                ],
                "platformVersion": "1.4.0",
                "platformFamily": "Linux",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-0d0eab1bb38d5ca64",
                            "subnet-0db5010045995c2d5"
                        ],
                        "securityGroups": [
                            "sg-02556bf85a191f59a"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                },
                "rolloutState": "COMPLETED",
                "rolloutStateReason": "ECS deployment ecs-svc/1976744184940610707 completed."
            }
        ],
        "roleArn": "arn:aws:iam::123456789012:role/aws-service-role/ecs.amazonaws.com/AWSServiceRoleForECS",
        "events": [
            {
                "id": "f27350b9-4b2a-4e2e-b72e-a4b68380de45",
                "createdAt": "2024-12-30T13:24:07.345000-05:00",
                "message": "(service my-http-service) has reached a steady state."
            },
            {
                "id": "e764ec63-f53f-45e3-9af2-d99f922d2957",
                "createdAt": "2024-12-30T12:32:21.600000-05:00",
                "message": "(service my-http-service) has reached a steady state."
            },
            {
                "id": "28444756-c2fa-47f8-bd60-93a8e05f3991",
                "createdAt": "2024-12-08T19:26:10.367000-05:00",
                "message": "(service my-http-service) has reached a steady state."
            }
        ],
        "createdAt": "2024-12-03T16:24:25.225000-05:00",
        "placementConstraints": [],
        "placementStrategy": [],
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-0d0eab1bb38d5ca64",
                    "subnet-0db5010045995c2d5"
                ],
                "securityGroups": [
                    "sg-02556bf85a191f59a"
                ],
                "assignPublicIp": "ENABLED"
            }
        },
        "healthCheckGracePeriodSeconds": 0,
        "schedulingStrategy": "REPLICA",
        "deploymentController": {
            "type": "ECS"
        },
        "createdBy": "arn:aws:iam::123456789012:role/Admin",
        "enableECSManagedTags": true,
        "propagateTags": "NONE",
        "enableExecuteCommand": false,
        "availabilityZoneRebalancing": "ENABLED"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui layanan Amazon ECS menggunakan konsol di](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/update-service-console-v2.html) Panduan *Pengembang Amazon ECS*.  
**Contoh 3: Untuk mengonfigurasi volume Amazon EBS untuk lampiran pada pembaruan layanan**  
`update-service`Contoh berikut memperbarui layanan `my-http-service` untuk menggunakan volume Amazon EBS. Anda harus memiliki peran infrastruktur Amazon ECS yang dikonfigurasi dengan kebijakan `AmazonECSInfrastructureRolePolicyForVolumes` terkelola yang dilampirkan. Anda juga harus menentukan definisi tugas dengan nama volume yang sama seperti pada `update-service` permintaan dan dengan `configuredAtLaunch` set ke`true`. Contoh ini menggunakan `--cli-input-json` opsi dan file input JSON yang disebut`ebs.json`.  

```
aws ecs update-service \
    --cli-input-json file://ebs.json
```
Isi dari `ebs.json`:  

```
{
   "cluster": "mycluster",
   "taskDefinition": "mytaskdef",
   "service": "my-http-service",
   "desiredCount": 2,
   "volumeConfigurations": [
        {
            "name": "myEbsVolume",
            "managedEBSVolume": {
                "roleArn":"arn:aws:iam::123456789012:role/ecsInfrastructureRole",
                "volumeType": "gp3",
                "sizeInGiB": 100,
                "iops": 3000,
                "throughput": 125,
                "filesystemType": "ext4"
            }
        }
   ]
}
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/mycluster/my-http-service",
        "serviceName": "my-http-service",
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/mycluster",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 2,
        "runningCount": 2,
        "pendingCount": 0,
        "launchType": "FARGATE",
        "platformVersion": "LATEST",
        "platformFamily": "Linux",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:1",
        "deploymentConfiguration": {
            "deploymentCircuitBreaker": {
                "enable": true,
                "rollback": true
            },
            "maximumPercent": 200,
            "minimumHealthyPercent": 100,
            "alarms": {
                "alarmNames": [],
                "rollback": false,
                "enable": false
            }
        },
        "deployments": [
            {
                "id": "ecs-svc/2420458347226626275",
                "status": "PRIMARY",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:1",
                "desiredCount": 0,
                "pendingCount": 0,
                "runningCount": 0,
                "failedTasks": 0,
                "createdAt": "2025-02-21T15:07:20.519000-06:00",
                "updatedAt": "2025-02-21T15:07:20.519000-06:00",
                "launchType": "FARGATE",
                "platformVersion": "1.4.0",
                "platformFamily": "Linux",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-12344321",
                        ],
                        "securityGroups": [
                            "sg-12344321"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                },
                "rolloutState": "IN_PROGRESS",
                "rolloutStateReason": "ECS deployment ecs-svc/2420458347226626275 in progress.",
                "volumeConfigurations": [
                    {
                        "name": "ebs-volume",
                        "managedEBSVolume": {
                            "volumeType": "gp3",
                            "sizeInGiB": 100,
                            "iops": 3000,
                            "throughput": 125,
                            "roleArn": "arn:aws:iam::123456789012:role/ecsInfrastructureRole",
                            "filesystemType": "ext4"
                        }
                    }
                ]
            },
            {
                "id": "ecs-svc/5191625155316533644",
                "status": "ACTIVE",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:2",
                "desiredCount": 2,
                "pendingCount": 0,
                "runningCount": 2,
                "failedTasks": 0,
                "createdAt": "2025-02-21T14:54:48.862000-06:00",
                "updatedAt": "2025-02-21T14:57:22.502000-06:00",
                "launchType": "FARGATE",
                "platformVersion": "1.4.0",
                "platformFamily": "Linux",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-12344321"
                        ],
                        "securityGroups": [
                            "sg-12344321"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                },
                "rolloutState": "COMPLETED",
                "rolloutStateReason": "ECS deployment ecs-svc/5191625155316533644 completed."
            }
        ],
        "roleArn": "arn:aws:iam::123456789012:role/aws-service-role/ecs.amazonaws.com/AWSServiceRoleForECS",
        "events": [
            {
                "id": "b5823113-c2c5-458e-9649-8c2ed38f23a5",
                "createdAt": "2025-02-21T14:57:22.508000-06:00",
                "message": "(service my-http-service) has reached a steady state."
            },
            {
                "id": "b05a48e8-da35-4074-80aa-37ceb3167357",
                "createdAt": "2025-02-21T14:57:22.507000-06:00",
                "message": "(service my-http-service) (deployment ecs-svc/5191625155316533644) deployment completed."
            },
            {
                "id": "a10cd55d-4ba6-4cea-a655-5a5d32ada8a0",
                "createdAt": "2025-02-21T14:55:32.833000-06:00",
                "message": "(service my-http-service) has started 1 tasks: (task fb9c8df512684aec92f3c57dc3f22361)."
            },
        ],
        "createdAt": "2025-02-21T14:54:48.862000-06:00",
        "placementConstraints": [],
        "placementStrategy": [],
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12344321"
                ],
                "securityGroups": [
                    "sg-12344321"
                ],
                "assignPublicIp": "ENABLED"
            }
        },
        "healthCheckGracePeriodSeconds": 0,
        "schedulingStrategy": "REPLICA",
        "deploymentController": {
            "type": "ECS"
        },
        "createdBy": "arn:aws:iam::123456789012:role/AIDACKCEVSQ6C2EXAMPLE",
        "enableECSManagedTags": true,
        "propagateTags": "NONE",
        "enableExecuteCommand": false,
        "availabilityZoneRebalancing": "ENABLED"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan volume Amazon EBS dengan Amazon ECS di Panduan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ebs-volumes.html) Pengembang *Amazon ECS.*  
**Contoh 4: Untuk memperbarui layanan agar tidak lagi menggunakan volume Amazon EBS**  
`update-service`Contoh berikut memperbarui layanan `my-http-service` agar tidak lagi menggunakan volume Amazon EBS. Anda harus menentukan revisi definisi tugas dengan `configuredAtLaunch` set to`false`.  

```
aws ecs update-service \
    --cluster mycluster \
    --task-definition mytaskdef \
    --service my-http-service \
    --desired-count 2 \
    --volume-configurations "[]"
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-west-2:123456789012:service/mycluster/my-http-service",
        "serviceName": "my-http-service",
        "clusterArn": "arn:aws:ecs:us-west-2:123456789012:cluster/mycluster",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 2,
        "runningCount": 2,
        "pendingCount": 0,
        "launchType": "FARGATE",
        "platformVersion": "LATEST",
        "platformFamily": "Linux",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:3",
        "deploymentConfiguration": {
            "deploymentCircuitBreaker": {
                "enable": true,
                "rollback": true
            },
            "maximumPercent": 200,
            "minimumHealthyPercent": 100,
            "alarms": {
                "alarmNames": [],
                "rollback": false,
                "enable": false
            }
        },
        "deployments": [
            {
                "id": "ecs-svc/7522791612543716777",
                "status": "PRIMARY",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/mytaskdef:3",
                "desiredCount": 0,
                "pendingCount": 0,
                "runningCount": 0,
                "failedTasks": 0,
                "createdAt": "2025-02-21T15:25:38.598000-06:00",
                "updatedAt": "2025-02-21T15:25:38.598000-06:00",
                    "launchType": "FARGATE",
                "platformVersion": "1.4.0",
                "platformFamily": "Linux",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-12344321"
                        ],
                        "securityGroups": [
                            "sg-12344321"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                },
                "rolloutState": "IN_PROGRESS",
                "rolloutStateReason": "ECS deployment ecs-svc/7522791612543716777 in progress."
            },
            {
                "id": "ecs-svc/2420458347226626275",
                "status": "ACTIVE",
                "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/myoldtaskdef:1",
                "desiredCount": 2,
                "pendingCount": 0,
                "runningCount": 2,
                "failedTasks": 0,
                "createdAt": "2025-02-21T15:07:20.519000-06:00",
                "updatedAt": "2025-02-21T15:10:59.955000-06:00",
                "launchType": "FARGATE",
                "platformVersion": "1.4.0",
                "platformFamily": "Linux",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-12344321"
                        ],
                        "securityGroups": [
                            "sg-12344321"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                },
                "rolloutState": "COMPLETED",
                "rolloutStateReason": "ECS deployment ecs-svc/2420458347226626275 completed.",
                "volumeConfigurations": [
                    {
                        "name": "ebs-volume",
                        "managedEBSVolume": {
                            "volumeType": "gp3",
                            "sizeInGiB": 100,
                            "iops": 3000,
                            "throughput": 125,
                            "roleArn": "arn:aws:iam::123456789012:role/ecsInfrastructureRole",
                            "filesystemType": "ext4"
                        }
                    }
                ]
            }
        ],
        "roleArn": "arn:aws:iam::123456789012:role/aws-service-role/ecs.amazonaws.com/AWSServiceRoleForECS",
        "events": [
            {
                "id": "4f2c3ca1-7800-4048-ba57-bba210ada2ad",
                "createdAt": "2025-02-21T15:10:59.959000-06:00",
                "message": "(service my-http-service) has reached a steady state."
            },
            {
                "id": "4b36a593-2d40-4ed6-8be8-b9b699eb6198",
                "createdAt": "2025-02-21T15:10:59.958000-06:00",
                "message": "(service my-http-service) (deployment ecs-svc/2420458347226626275) deployment completed."
            },
            {
                "id": "88380089-14e2-4ef0-8dbb-a33991683371",
                "createdAt": "2025-02-21T15:09:39.055000-06:00",
                "message": "(service my-http-service) has stopped 1 running tasks: (task fb9c8df512684aec92f3c57dc3f22361)."
            },
            {
                "id": "97d84243-d52f-4255-89bb-9311391c61f6",
                "createdAt": "2025-02-21T15:08:57.653000-06:00",
                "message": "(service my-http-service) has stopped 1 running tasks: (task 33eff090ad2c40539daa837e6503a9bc)."
            },
            {
                "id": "672ece6c-e2d0-4021-b5da-eefb14001687",
                "createdAt": "2025-02-21T15:08:15.631000-06:00",
                "message": "(service my-http-service) has started 1 tasks: (task 996c02a66ff24f3190a4a8e0c841740f)."
            },
            {
                "id": "a3cf9bea-9be6-4175-ac28-4c68360986eb",
                "createdAt": "2025-02-21T15:07:36.931000-06:00",
                "message": "(service my-http-service) has started 1 tasks: (task d5d23c39f89e46cf9a647b9cc6572feb)."
            },
            {
                "id": "b5823113-c2c5-458e-9649-8c2ed38f23a5",
                "createdAt": "2025-02-21T14:57:22.508000-06:00",
                "message": "(service my-http-service) has reached a steady state."
            },
            {
                "id": "b05a48e8-da35-4074-80aa-37ceb3167357",
                "createdAt": "2025-02-21T14:57:22.507000-06:00",
                "message": "(service my-http-service) (deployment ecs-svc/5191625155316533644) deployment completed."
            },
            {
                "id": "a10cd55d-4ba6-4cea-a655-5a5d32ada8a0",
                "createdAt": "2025-02-21T14:55:32.833000-06:00",
                "message": "(service my-http-service) has started 1 tasks: (task fb9c8df512684aec92f3c57dc3f22361)."
            },
            {
                "id": "42da91fa-e26d-42ef-88c3-bb5965c56b2f",
                "createdAt": "2025-02-21T14:55:02.703000-06:00",
                "message": "(service my-http-service) has started 1 tasks: (task 33eff090ad2c40539daa837e6503a9bc)."
            }
        ],
        "createdAt": "2025-02-21T14:54:48.862000-06:00",
        "placementConstraints": [],
        "placementStrategy": [],
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12344321"
                ],
                "securityGroups": [
                    "sg-12344321"
                ],
                "assignPublicIp": "ENABLED"
            }
        },
        "healthCheckGracePeriodSeconds": 0,
        "schedulingStrategy": "REPLICA",
        "deploymentController": {
            "type": "ECS"
        },
        "createdBy": "arn:aws:iam::123456789012:role/AIDACKCEVSQ6C2EXAMPLE",
        "enableECSManagedTags": true,
        "propagateTags": "NONE",
        "enableExecuteCommand": false,
        "availabilityZoneRebalancing": "ENABLED"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan volume Amazon EBS dengan Amazon ECS di Panduan](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ebs-volumes.html) Pengembang *Amazon ECS.*  
**Contoh 5: Untuk mengaktifkan penyeimbangan kembali Availability Zone untuk suatu layanan**  
`update-service`Contoh berikut mengaktifkan penyeimbangan kembali Availability Zone untuk layanan. `my-http-service`  

```
aws ecs update-service \
    --cluster MyCluster \
    --service my-http-service \
    --availability-zone-rebalancing ENABLED
```
Output:  

```
{
    "service": {
        "serviceArn": "arn:aws:ecs:us-east-1:123456789012:service/MyCluster/my-http-service",
        "serviceName": "my-http-service",
        "clusterArn": "arn:aws:ecs:us-east-1:123456789012:cluster/MyCluster",
        "loadBalancers": [],
        "serviceRegistries": [],
        "status": "ACTIVE",
        "desiredCount": 2,
        "runningCount": 1,
        "pendingCount": 0,
        "capacityProviderStrategy": [
            {
                "capacityProvider": "FARGATE",
                "weight": 1,
                "base": 0
            }
        ],
        "platformVersion": "LATEST",
        "platformFamily": "Linux",
        "taskDefinition": "arn:aws:ecs:us-east-1:123456789012:task-definition/MyTaskDefinition",
        "deploymentConfiguration": {
            "deploymentCircuitBreaker": {
                "enable": true,
                "rollback": true
            },
            "maximumPercent": 200,
            "minimumHealthyPercent": 100,
            "alarms": {
                "alarmNames": [],
                "rollback": false,
                "enable": false
            }
        },
        "deployments": [
            {
                "id": "ecs-svc/1976744184940610707",
                "status": "PRIMARY",
                "taskkDefinition": "arn:aws:ecs:us-east-1:123456789012:task-definition/MyTaskDefinition",
                "desiredCount": 1,
                "pendingCount": 0,
                "runningCount": 1,
                "failedTasks": 0,
                "createdAt": "2024-12-03T16:24:25.225000-05:00",
                "updatedAt": "2024-12-03T16:25:15.837000-05:00",
                "capacityProviderStrategy": [
                    {
                        "capacityProvider": "FARGATE",
                        "weight": 1,
                        "base": 0
                    }
                ],
                "platformVersion": "1.4.0",
                "platformFamily": "Linux",
                "networkConfiguration": {
                    "awsvpcConfiguration": {
                        "subnets": [
                            "subnet-0d0eab1bb38d5ca64",
                            "subnet-0db5010045995c2d5"
                        ],
                        "securityGroups": [
                            "sg-02556bf85a191f59a"
                        ],
                        "assignPublicIp": "ENABLED"
                    }
                },
                "rolloutState": "COMPLETED",
                "rolloutStateReason": "ECS deployment ecs-svc/1976744184940610707 completed."
            }
        ],
        "roleArn": "arn:aws:iam::123456789012:role/aws-service-role/ecs.amazonaws.com/AWSServiceRoleForECS",
        "events": [],
        "createdAt": "2024-12-03T16:24:25.225000-05:00",
        "placementConstraints": [],
        "placementStrategy": [],
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-0d0eab1bb38d5ca64",
                    "subnet-0db5010045995c2d5"
                ],
                "securityGroups": [
                    "sg-02556bf85a191f59a"
                ],
                "assignPublicIp": "ENABLED"
            }
        },
        "healthCheckGracePeriodSeconds": 0,
        "schedulingStrategy": "REPLICA",
        "deploymentController": {
            "type": "ECS"
        },
        "createdBy": "arn:aws:iam::123456789012:role/Admin",
        "enableECSManagedTags": true,
        "propagateTags": "NONE",
        "enableExecuteCommand": false,
        "availabilityZoneRebalancing": "ENABLED"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui layanan Amazon ECS menggunakan konsol di](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/update-service-console-v2.html) Panduan *Pengembang Amazon ECS*.  
+  Untuk detail API, lihat [UpdateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/update-service.html)di *Referensi AWS CLI Perintah*. 

### `update-task-protection`
<a name="ecs_UpdateTaskProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-task-protection`.

**AWS CLI**  
**Contoh 1: Aktifkan perlindungan tugas untuk tugas ECS**  
Berikut ini `update-task-protection` melindungi tugas ECS Anda dari penghentian selama scale-in dari Deployment atau Service. AutoScaling Anda dapat menentukan periode kedaluwarsa khusus untuk perlindungan tugas dari 1 hingga 2.880 menit (48 jam). Jika Anda tidak menentukan periode kedaluwarsa, mengaktifkan waktu default perlindungan tugas adalah 2 jam.  

```
aws ecs update-task-protection \
    --cluster ECS-project-update-cluster \
    --tasks c43ed3b1331041f289316f958adb6a24 \
    --protection-enabled \
    --expires-in-minutes 300
```
Output:  

```
{
"protectedTasks": [
    {
        "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/c43ed3b1331041f289316f958adb6a24",
        "protectionEnabled": true,
        "expirationDate": "2024-09-14T19:53:36.687000-05:00"
    }
],
"failures": []
}
```
**Contoh 2: Nonaktifkan perlindungan tugas untuk tugas ECS**  
Berikut ini `update-task-protection` menonaktifkan tugas yang dilindungi dari skala dari Deployment atau Service. AutoScaling  

```
aws ecs update-task-protection \
    --cluster ECS-project-update-cluster \
    --tasks c43ed3b1331041f289316f958adb6a24 \
    --no-protection-enabled
```
Output:  

```
{
    "protectedTasks": [
        {
            "taskArn": "arn:aws:ecs:us-west-2:123456789012:task/c43ed3b1331041f289316f958adb6a24",
            "protectionEnabled": false
        }
    ],
    "failures": []
}
```
Untuk pembentukan selengkapnya tentang perlindungan tugas, lihat [Melindungi tugas Amazon ECS agar tidak dihentikan oleh peristiwa penskalaan dalam Panduan Pengembang](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-scale-in-protection.html) *Amazon* ECS.  
+  Untuk detail API, lihat [UpdateTaskProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/update-task-protection.html)di *Referensi AWS CLI Perintah*. 

### `update-task-set`
<a name="ecs_UpdateTaskSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-task-set`.

**AWS CLI**  
**Untuk memperbarui set tugas**  
`update-task-set`Contoh berikut memperbarui set tugas untuk menyesuaikan skala.  

```
aws ecs update-task-set \
    --cluster MyCluster \
    --service MyService \
    --task-set arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789 \
    --scale value=50,unit=PERCENT
```
Output:  

```
{
    "taskSet": {
        "id": "ecs-svc/1234567890123456789",
        "taskSetArn": "arn:aws:ecs:us-west-2:123456789012:task-set/MyCluster/MyService/ecs-svc/1234567890123456789",
        "status": "ACTIVE",
        "taskDefinition": "arn:aws:ecs:us-west-2:123456789012:task-definition/sample-fargate:2",
        "computedDesiredCount": 0,
        "pendingCount": 0,
        "runningCount": 0,
        "createdAt": 1557128360.711,
        "updatedAt": 1557129279.914,
        "launchType": "EC2",
        "networkConfiguration": {
            "awsvpcConfiguration": {
                "subnets": [
                    "subnet-12344321"
                ],
                "securityGroups": [
                    "sg-12344321"
                ],
                "assignPublicIp": "DISABLED"
            }
        },
        "loadBalancers": [],
        "serviceRegistries": [],
        "scale": {
            "value": 50.0,
            "unit": "PERCENT"
        },
        "stabilityStatus": "STABILIZING",
        "stabilityStatusAt": 1557129279.914
    }
}
```
+  Untuk detail API, lihat [UpdateTaskSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ecs/update-task-set.html)di *Referensi AWS CLI Perintah*. 

# Amazon EFS contoh menggunakan AWS CLI
<a name="cli_2_efs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Amazon EFS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-file-system`
<a name="efs_CreateFileSystem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-file-system`.

**AWS CLI**  
**Untuk membuat sistem file terenkripsi**  
`create-file-system`Contoh berikut membuat sistem file terenkripsi menggunakan CMK default. Itu juga menambahkan tag`Name=my-file-system`.  

```
aws efs create-file-system \
    --performance-mode generalPurpose \
    --throughput-mode bursting \
    --encrypted \
    --tags Key=Name,Value=my-file-system
```
Output:  

```
{
    "OwnerId": "123456789012",
    "CreationToken": "console-d7f56c5f-e433-41ca-8307-9d9c0example",
    "FileSystemId": "fs-c7a0456e",
    "FileSystemArn": "arn:aws:elasticfilesystem:us-west-2:123456789012:file-system/fs-48499b4d",
    "CreationTime": 1595286880.0,
    "LifeCycleState": "creating",
    "Name": "my-file-system",
    "NumberOfMountTargets": 0,
    "SizeInBytes": {
        "Value": 0,
        "ValueInIA": 0,
        "ValueInStandard": 0
    },
    "PerformanceMode": "generalPurpose",
    "Encrypted": true,
    "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/a59b3472-e62c-42e4-adcf-30d92example",
    "ThroughputMode": "bursting",
    "Tags": [
        {
            "Key": "Name",
            "Value": "my-file-system"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat sistem file Amazon EFS](https://docs.aws.amazon.com/efs/latest/ug/creating-using-create-fs.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [CreateFileSystem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/create-file-system.html)di *Referensi AWS CLI Perintah*. 

### `create-mount-target`
<a name="efs_CreateMountTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-mount-target`.

**AWS CLI**  
**Untuk membuat target mount**  
`create-mount-target`Contoh berikut membuat target mount untuk sistem file yang ditentukan.  

```
aws efs create-mount-target \
    --file-system-id fs-c7a0456e \
    --subnet-id subnet-02bf4c428bexample \
    --security-groups sg-068f739363example
```
Output:  

```
{
    "OwnerId": "123456789012",
    "MountTargetId": "fsmt-f9a14450",
    "FileSystemId": "fs-c7a0456e",
    "SubnetId": "subnet-02bf4c428bexample",
    "LifeCycleState": "creating",
    "IpAddress": "10.0.1.24",
    "NetworkInterfaceId": "eni-02d542216aexample",
    "AvailabilityZoneId": "use2-az2",
    "AvailabilityZoneName": "us-east-2b",
    "VpcId": "vpc-0123456789abcdef0"
}
```
Untuk informasi selengkapnya, lihat [Membuat target mount](https://docs.aws.amazon.com/efs/latest/ug/accessing-fs.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [CreateMountTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/create-mount-target.html)di *Referensi AWS CLI Perintah*. 

### `delete-file-system`
<a name="efs_DeleteFileSystem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-file-system`.

**AWS CLI**  
**Untuk menghapus sistem file**  
`delete-file-system`Contoh berikut menghapus sistem file yang ditentukan.  

```
aws efs delete-file-system \
    --file-system-id fs-c7a0456e
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus sistem file Amazon EFS](https://docs.aws.amazon.com/efs/latest/ug/delete-efs-fs.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [DeleteFileSystem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/delete-file-system.html)di *Referensi AWS CLI Perintah*. 

### `delete-mount-target`
<a name="efs_DeleteMountTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-mount-target`.

**AWS CLI**  
**Untuk menghapus target pemasangan**  
`delete-mount-target`Contoh berikut menghapus target mount yang ditentukan.  

```
aws efs delete-mount-target \
    --mount-target-id fsmt-f9a14450
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat target mount](https://docs.aws.amazon.com/efs/latest/ug/accessing-fs.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [DeleteMountTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/delete-mount-target.html)di *Referensi AWS CLI Perintah*. 

### `describe-file-systems`
<a name="efs_DescribeFileSystems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-file-systems`.

**AWS CLI**  
**Untuk mendeskripsikan sistem file**  
`describe-file-systems`Contoh berikut menjelaskan sistem file yang ditentukan.  

```
aws efs describe-file-systems \
    --file-system-id fs-c7a0456e
```
Output:  

```
{
    "FileSystems": [
        {
            "OwnerId": "123456789012",
            "CreationToken": "console-d7f56c5f-e433-41ca-8307-9d9c0example",
            "FileSystemId": "fs-c7a0456e",
            "FileSystemArn": "arn:aws:elasticfilesystem:us-west-2:123456789012:file-system/fs-48499b4d",
            "CreationTime": 1595286880.0,
            "LifeCycleState": "available",
            "Name": "my-file-system",
            "NumberOfMountTargets": 3,
            "SizeInBytes": {
                "Value": 6144,
                "Timestamp": 1600991437.0,
                "ValueInIA": 0,
                "ValueInStandard": 6144
            },
            "PerformanceMode": "generalPurpose",
            "Encrypted": true,
            "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/a59b3472-e62c-42e4-adcf-30d92example",
            "ThroughputMode": "bursting",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "my-file-system"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola sistem file Amazon EFS](https://docs.aws.amazon.com/efs/latest/ug/managing.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [DescribeFileSystems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/describe-file-systems.html)di *Referensi AWS CLI Perintah*. 

### `describe-mount-targets`
<a name="efs_DescribeMountTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-mount-targets`.

**AWS CLI**  
**Untuk menggambarkan target mount**  
`describe-mount-targets`Contoh berikut menjelaskan target mount yang ditentukan.  

```
aws efs describe-mount-targets \
    --mount-target-id fsmt-f9a14450
```
Output:  

```
{
    "MountTargets": [
        {
            "OwnerId": "123456789012",
            "MountTargetId": "fsmt-f9a14450",
            "FileSystemId": "fs-c7a0456e",
            "SubnetId": "subnet-02bf4c428bexample",
            "LifeCycleState": "creating",
            "IpAddress": "10.0.1.24",
            "NetworkInterfaceId": "eni-02d542216aexample",
            "AvailabilityZoneId": "use2-az2",
            "AvailabilityZoneName": "us-east-2b",
            "VpcId": "vpc-0123456789abcdef0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat target mount](https://docs.aws.amazon.com/efs/latest/ug/accessing-fs.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [DescribeMountTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/describe-mount-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-tags`
<a name="efs_DescribeTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tags`.

**AWS CLI**  
**Untuk mendeskripsikan tag untuk sistem file**  
`describe-tags`Contoh berikut menjelaskan tag untuk sistem file yang ditentukan.  

```
aws efs describe-tags \
    --file-system-id fs-c7a0456e
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Name",
            "Value": "my-file-system"
        },
        {
            "Key": "Department",
            "Value": "Business Intelligence"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola tag sistem file](https://docs.aws.amazon.com/efs/latest/ug/manage-fs-tags.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/describe-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="efs_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mengambil tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mengambil tag yang terkait dengan sistem file yang ditentukan.  

```
aws efs list-tags-for-resource \
    --resource-id fs-c7a0456e
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Name",
            "Value": "my-file-system"
        },
        {
            "Key": "Department",
            "Value": "Business Intelligence"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola tag sistem file](https://docs.aws.amazon.com/efs/latest/ug/manage-fs-tags.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="efs_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut menambahkan tag `Department=Business Intelligence` ke sistem file yang ditentukan.  

```
aws efs tag-resource \
    --resource-id fs-c7a0456e \
    --tags Key=Department,Value="Business Intelligence"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola tag sistem file](https://docs.aws.amazon.com/efs/latest/ug/manage-fs-tags.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="efs_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag dengan kunci `Department` tag dari sistem file yang ditentukan.  

```
aws efs untag-resource \
    --resource-id fs-c7a0456e \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola tag sistem file](https://docs.aws.amazon.com/efs/latest/ug/manage-fs-tags.html) di *Panduan Pengguna Amazon Elastic File System*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/efs/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# Amazon EKS contoh menggunakan AWS CLI
<a name="cli_2_eks_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface dengan Amazon EKS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-access-policy`
<a name="eks_AssociateAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-access-policy`.

**AWS CLI**  
**Untuk mengaitkan kebijakan akses dan cakupannya dengan entri akses klaster**  
Berikut ini `associate-access-policy` mengaitkan kebijakan akses dan cakupannya ke entri akses klaster yang ditentukan.  

```
aws eks associate-access-policy \
    --cluster-name eks-customer \
    --principal-arn arn:aws:iam::111122223333:role/Admin \
    --policy-arn arn:aws:eks::aws:cluster-access-policy/AmazonEKSEditPolicy \
    --access-scope type=namespace,namespaces=default
```
Output:  

```
{
    "clusterName": "eks-customer",
    "principalArn": "arn:aws:iam::111122223333:role/Admin",
    "associatedAccessPolicy": {
        "policyArn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSEditPolicy",
        "accessScope": {
            "type": "namespace",
            "namespaces": [
                "default"
            ]
        },
        "associatedAt": "2025-05-24T15:59:51.981000-05:00",
        "modifiedAt": "2025-05-24T15:59:51.981000-05:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan kebijakan akses dengan entri](https://docs.aws.amazon.com/eks/latest/userguide/access-policies.html) akses di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [AssociateAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/associate-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `associate-encryption-config`
<a name="eks_AssociateEncryptionConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-encryption-config`.

**AWS CLI**  
**Untuk mengaitkan konfigurasi enkripsi ke cluster yang ada**  
`associate-encryption-config`Contoh berikut mengaktifkan enkripsi pada kluster EKS yang ada yang belum mengaktifkan enkripsi.  

```
aws eks associate-encryption-config \
    --cluster-name my-eks-cluster \
    --encryption-config '[{"resources":["secrets"],"provider":{"keyArn":"arn:aws:kms:region-code:account:key/key"}}]'
```
Output:  

```
{
    "update": {
        "id": "3141b835-8103-423a-8e68-12c2521ffa4d",
        "status": "InProgress",
        "type": "AssociateEncryptionConfig",
        "params": [
            {
                "type": "EncryptionConfig",
                "value": "[{\"resources\":[\"secrets\"],\"provider\":{\"keyArn\":\"arn:aws:kms:region-code:account:key/key\"}}]"
            }
        ],
        "createdAt": "2024-03-14T11:01:26.297000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan enkripsi rahasia pada klaster yang ada](https://docs.aws.amazon.com/eks/latest/userguide/enable-kms.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [AssociateEncryptionConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/associate-encryption-config.html)di *Referensi AWS CLI Perintah*. 

### `associate-identity-provider-config`
<a name="eks_AssociateIdentityProviderConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-identity-provider-config`.

**AWS CLI**  
**Mengaitkan penyedia identitas ke Amazon EKS Cluster Anda**  
`associate-identity-provider-config`Contoh berikut mengaitkan penyedia identitas ke Amazon EKS Cluster Anda.  

```
aws eks associate-identity-provider-config \
    --cluster-name my-eks-cluster \
    --oidc 'identityProviderConfigName=my-identity-provider,issuerUrl=https://oidc.eks.us-east-2.amazonaws.com/id/38D6A4619A0A69E342B113ED7F1A7652,clientId=kubernetes,usernameClaim=email,usernamePrefix=my-username-prefix,groupsClaim=my-claim,groupsPrefix=my-groups-prefix,requiredClaims={Claim1=value1,Claim2=value2}' \
    --tags env=dev
```
Output:  

```
{
    "update": {
        "id": "8c6c1bef-61fe-42ac-a242-89412387b8e7",
        "status": "InProgress",
        "type": "AssociateIdentityProviderConfig",
        "params": [
            {
                "type": "IdentityProviderConfig",
                "value": "[{\"type\":\"oidc\",\"name\":\"my-identity-provider\"}]"
            }
        ],
        "createdAt": "2024-04-11T13:46:49.648000-04:00",
        "errors": []
    },
    "tags": {
        "env": "dev"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna untuk klaster Anda dari penyedia identitas OpenID Connect - Mengaitkan penyedia identitas OIDC di Panduan Pengguna *Amazon EKS*](https://docs.aws.amazon.com/eks/latest/userguide/authenticate-oidc-identity-provider.html#associate-oidc-identity-provider).  
+  Untuk detail API, lihat [AssociateIdentityProviderConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/associate-identity-provider-config.html)di *Referensi AWS CLI Perintah*. 

### `create-access-entry`
<a name="eks_CreateAccessEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-access-entry`.

**AWS CLI**  
**Contoh 1: Untuk membuat entri akses untuk kluster EKS**  
`create-access-entry`Contoh berikut membuat entri akses yang memungkinkan prinsipal IAM untuk mengakses kluster EKS.  

```
aws eks create-access-entry \
    --cluster-name eks-customer \
    --principal-arn arn:aws:iam::111122223333:user/eks-user
```
Output:  

```
{
    "accessEntry": {
        "clusterName": "eks-customer",
        "principalArn": "arn:aws:iam::111122223333:user/eks-user",
        "kubernetesGroups": [],
        "accessEntryArn": "arn:aws:eks:us-west-2:111122223333:access-entry/eks-customer/user/111122223333/eks-user/a1b2c3d4-5678-90ab-cdef-a6506e3d36p0",
        "createdAt": "2025-04-14T22:45:48.097000-05:00",
        "modifiedAt": "2025-04-14T22:45:48.097000-05:00",
        "tags": {},
        "username": "arn:aws:iam::111122223333:user/eks-user",
        "type": "STANDARD"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat entri akses](https://docs.aws.amazon.com/eks/latest/userguide/creating-access-entries.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Untuk membuat entri akses untuk kluster EKS dengan menentukan jenis entri akses**  
`create-access-entry`Contoh berikut membuat entri akses tipe `EC2_LINUX` di cluster EKS. Secara default, entri `STANDARD` akses tipe dibuat. Terlepas dari default, jika kita menentukan jenis entri akses lainnya, peran IAM ARN perlu diteruskan di CLI.  

```
aws eks create-access-entry \
    --cluster-name eks-customer \
    --principal-arn arn:aws:iam::111122223333:role/admin-test-ip \
    --type EC2_LINUX
```
Output:  

```
{
    "accessEntry": {
        "clusterName": "eks-customer",
        "principalArn": "arn:aws:iam::111122223333:role/admin-test-ip",
        "kubernetesGroups": [
            "system:nodes"
        ],
        "accessEntryArn": "arn:aws:eks:us-west-2:111122223333:access-entry/eks-customer/role/111122223333/admin-test-ip/accb5418-f493-f390-3e6e-c3f19f725fcp",
        "createdAt": "2025-05-06T19:42:45.453000-05:00",
        "modifiedAt": "2025-05-06T19:42:45.453000-05:00",
        "tags": {},
        "username": "system:node:{{EC2PrivateDNSName}}",
        "type": "EC2_LINUX"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat entri akses](https://docs.aws.amazon.com/eks/latest/userguide/creating-access-entries.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [CreateAccessEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/create-access-entry.html)di *Referensi AWS CLI Perintah*. 

### `create-addon`
<a name="eks_CreateAddon_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-addon`.

**AWS CLI**  
**Contoh 1: Untuk membuat add-on Amazon EKS dengan versi default yang kompatibel untuk masing-masing versi kluster EKS**  
`create-addon`Contoh perintah berikut membuat add-on Amazon EKS dengan versi default yang kompatibel untuk masing-masing versi kluster EKS.  

```
aws eks create-addon \
    --cluster-name my-eks-cluster \
    --addon-name my-eks-addon \
    --service-account-role-arn arn:aws:iam::111122223333:role/role-name
```
Output:  

```
{
    "addon": {
        "addonName": "my-eks-addon",
        "clusterName": "my-eks-cluster",
        "status": "CREATING",
        "addonVersion": "v1.15.1-eksbuild.1",
        "health": {
            "issues": []
        },
        "addonArn": "arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/my-eks-addon/1ec71ee1-b9c2-8915-4e17-e8be0a55a149",
        "createdAt": "2024-03-14T12:20:03.264000-04:00",
        "modifiedAt": "2024-03-14T12:20:03.283000-04:00",
        "serviceAccountRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Membuat add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#creating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Untuk membuat add-on Amazon EKS dengan versi add-on tertentu**  
`create-addon`Contoh perintah berikut membuat add-on Amazon EKS dengan versi add-on tertentu.  

```
aws eks create-addon \
    --cluster-name my-eks-cluster \
    --addon-name my-eks-addon \
    --service-account-role-arn arn:aws:iam::111122223333:role/role-name \
    --addon-version v1.16.4-eksbuild.2
```
Output:  

```
{
    "addon": {
        "addonName": "my-eks-addon",
        "clusterName": "my-eks-cluster",
        "status": "CREATING",
        "addonVersion": "v1.16.4-eksbuild.2",
        "health": {
            "issues": []
        },
        "addonArn": "arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/my-eks-addon/34c71ee6-7738-6c8b-c6bd-3921a176b5ff",
        "createdAt": "2024-03-14T12:30:24.507000-04:00",
        "modifiedAt": "2024-03-14T12:30:24.521000-04:00",
        "serviceAccountRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Membuat add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#creating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 3: Untuk membuat add-on Amazon EKS dengan nilai konfigurasi khusus dan menyelesaikan detail konflik**  
Perintah `create-addon` contoh berikut membuat add-on Amazon EKS dengan nilai konfigurasi khusus dan menyelesaikan detail konflik.  

```
aws eks create-addon \
    --cluster-name my-eks-cluster \
    --addon-name my-eks-addon \
    --service-account-role-arn arn:aws:iam::111122223333:role/role-name \
    --addon-version v1.16.4-eksbuild.2 \
    --configuration-values '{"resources":{"limits":{"cpu":"100m"}}}' \
    --resolve-conflicts OVERWRITE
```
Output:  

```
{
    "addon": {
        "addonName": "my-eks-addon",
        "clusterName": "my-eks-cluster",
        "status": "CREATING",
        "addonVersion": "v1.16.4-eksbuild.2",
        "health": {
            "issues": []
        },
        "addonArn": "arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/my-eks-addon/a6c71ee9-0304-9237-1be8-25af1b0f1ffb",
        "createdAt": "2024-03-14T12:35:58.313000-04:00",
        "modifiedAt": "2024-03-14T12:35:58.327000-04:00",
        "serviceAccountRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "tags": {},
        "configurationValues": "{\"resources\":{\"limits\":{\"cpu\":\"100m\"}}}"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Membuat add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#creating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 4: Untuk membuat add-on Amazon EKS dengan file nilai konfigurasi JSON kustom**  
Perintah `create-addon` contoh berikut membuat add-on Amazon EKS dengan nilai konfigurasi khusus dan menyelesaikan detail konflik.  

```
aws eks create-addon \
    --cluster-name my-eks-cluster \
    --addon-name my-eks-addon \
    --service-account-role-arn arn:aws:iam::111122223333:role/role-name \
    --addon-version v1.16.4-eksbuild.2 \
    --configuration-values 'file://configuration-values.json' \
    --resolve-conflicts OVERWRITE \
    --tags '{"eks-addon-key-1": "value-1" , "eks-addon-key-2": "value-2"}'
```
Isi dari `configuration-values.json`:  

```
{
    "resources": {
        "limits": {
            "cpu": "150m"
        }
    },
    "env": {
        "AWS_VPC_K8S_CNI_LOGLEVEL": "ERROR"
    }
}
```
Output:  

```
{
    "addon": {
        "addonName": "my-eks-addon",
        "clusterName": "my-eks-cluster",
        "status": "CREATING",
        "addonVersion": "v1.16.4-eksbuild.2",
        "health": {
            "issues": []
        },
        "addonArn": "arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/my-eks-addon/d8c71ef8-fbd8-07d0-fb32-6a7be19ececd",
        "createdAt": "2024-03-14T13:10:51.763000-04:00",
        "modifiedAt": "2024-03-14T13:10:51.777000-04:00",
        "serviceAccountRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "tags": {
            "eks-addon-key-1": "value-1",
            "eks-addon-key-2": "value-2"
        },
        "configurationValues": "{\n    \"resources\": {\n        \"limits\": {\n            \"cpu\": \"150m\"\n        }\n    },\n    \"env\": {\n        \"AWS_VPC_K8S_CNI_LOGLEVEL\": \"ERROR\"\n    }\n}"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Membuat add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#creating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 5: Untuk membuat add-on Amazon EKS dengan file nilai konfigurasi YAMAL kustom**  
Perintah `create-addon` contoh berikut membuat add-on Amazon EKS dengan nilai konfigurasi khusus dan menyelesaikan detail konflik.  

```
aws eks create-addon \
    --cluster-name my-eks-cluster \
    --addon-name my-eks-addon \
    --service-account-role-arn arn:aws:iam::111122223333:role/role-name \
    --addon-version v1.16.4-eksbuild.2 \
    --configuration-values 'file://configuration-values.yaml' \
    --resolve-conflicts OVERWRITE \
    --tags '{"eks-addon-key-1": "value-1" , "eks-addon-key-2": "value-2"}'
```
Isi dari `configuration-values.yaml`:  

```
resources:
    limits:
        cpu: '100m'
env:
    AWS_VPC_K8S_CNI_LOGLEVEL: 'DEBUG'
```
Output:  

```
{
    "addon": {
        "addonName": "my-eks-addon",
        "clusterName": "my-eks-cluster",
        "status": "CREATING",
        "addonVersion": "v1.16.4-eksbuild.2",
        "health": {
            "issues": []
        },
        "addonArn": "arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/my-eks-addon/d4c71efb-3909-6f36-a548-402cd4b5d59e",
        "createdAt": "2024-03-14T13:15:45.220000-04:00",
        "modifiedAt": "2024-03-14T13:15:45.237000-04:00",
        "serviceAccountRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "tags": {
            "eks-addon-key-3": "value-3",
            "eks-addon-key-4": "value-4"
        },
        "configurationValues": "resources:\n    limits:\n        cpu: '100m'\nenv:\n    AWS_VPC_K8S_CNI_LOGLEVEL: 'INFO'"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Membuat add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#creating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [CreateAddon](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/create-addon.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster`
<a name="eks_CreateCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster`.

**AWS CLI**  
**Untuk membuat cluster baru**  
Perintah contoh ini membuat cluster bernama `prod` di wilayah default Anda.  
Perintah:  

```
aws eks create-cluster --name prod \
--role-arn arn:aws:iam::012345678910:role/eks-service-role-AWSServiceRoleForAmazonEKS-J7ONKE3BQ4PI \
--resources-vpc-config subnetIds=subnet-6782e71e,subnet-e7e761ac,securityGroupIds=sg-6979fe18
```
Output:  

```
{
    "cluster": {
        "name": "prod",
        "arn": "arn:aws:eks:us-west-2:012345678910:cluster/prod",
        "createdAt": 1527808069.147,
        "version": "1.10",
        "roleArn": "arn:aws:iam::012345678910:role/eks-service-role-AWSServiceRoleForAmazonEKS-J7ONKE3BQ4PI",
        "resourcesVpcConfig": {
            "subnetIds": [
                "subnet-6782e71e",
                "subnet-e7e761ac"
            ],
            "securityGroupIds": [
                "sg-6979fe18"
            ],
            "vpcId": "vpc-950809ec"
        },
        "status": "CREATING",
        "certificateAuthority": {}
    }
}
```
**Untuk membuat klaster baru dengan akses endpoint pribadi dan logging diaktifkan**  
Perintah contoh ini membuat klaster bernama `example` di wilayah default Anda dengan akses titik akhir publik dinonaktifkan, akses titik akhir pribadi diaktifkan, dan semua jenis logging diaktifkan.  
Perintah:  

```
aws eks create-cluster --name example --kubernetes-version 1.12 \
--role-arn arn:aws:iam::012345678910:role/example-cluster-ServiceRole-1XWBQWYSFRE2Q \
--resources-vpc-config subnetIds=subnet-0a188dccd2f9a632f,subnet-09290d93da4278664,subnet-0f21dd86e0e91134a,subnet-0173dead68481a583,subnet-051f70a57ed6fcab6,subnet-01322339c5c7de9b4,securityGroupIds=sg-0c5b580845a031c10,endpointPublicAccess=false,endpointPrivateAccess=true \
--logging '{"clusterLogging":[{"types":["api","audit","authenticator","controllerManager","scheduler"],"enabled":true}]}'
```
Output:  

```
{
    "cluster": {
        "name": "example",
        "arn": "arn:aws:eks:us-west-2:012345678910:cluster/example",
        "createdAt": 1565804921.901,
        "version": "1.12",
        "roleArn": "arn:aws:iam::012345678910:role/example-cluster-ServiceRole-1XWBQWYSFRE2Q",
        "resourcesVpcConfig": {
            "subnetIds": [
                "subnet-0a188dccd2f9a632f",
                "subnet-09290d93da4278664",
                "subnet-0f21dd86e0e91134a",
                "subnet-0173dead68481a583",
                "subnet-051f70a57ed6fcab6",
                "subnet-01322339c5c7de9b4"
            ],
            "securityGroupIds": [
                "sg-0c5b580845a031c10"
            ],
            "vpcId": "vpc-0f622c01f68d4afec",
            "endpointPublicAccess": false,
            "endpointPrivateAccess": true
        },
        "logging": {
            "clusterLogging": [
                {
                    "types": [
                        "api",
                        "audit",
                        "authenticator",
                        "controllerManager",
                        "scheduler"
                    ],
                    "enabled": true
                }
            ]
        },
        "status": "CREATING",
        "certificateAuthority": {},
        "platformVersion": "eks.3"
    }
}
```
+  Untuk detail API, lihat [CreateCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/create-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-fargate-profile`
<a name="eks_CreateFargateProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-fargate-profile`.

**AWS CLI**  
**Contoh 1: Buat Profil EKS Fargate untuk pemilih dengan namespace**  
`create-fargate-profile`Contoh berikut membuat Profil EKS Fargate untuk pemilih dengan namespace.  

```
aws eks create-fargate-profile \
    --cluster-name my-eks-cluster \
    --pod-execution-role-arn arn:aws:iam::111122223333:role/role-name \
    --fargate-profile-name my-fargate-profile \
    --selectors '[{"namespace": "default"}]'
```
Output:  

```
{
    "fargateProfile": {
        "fargateProfileName": "my-fargate-profile",
        "fargateProfileArn": "arn:aws:eks:us-east-2:111122223333:fargateprofile/my-eks-cluster/my-fargate-profile/a2c72bca-318e-abe8-8ed1-27c6d4892e9e",
        "clusterName": "my-eks-cluster",
        "createdAt": "2024-03-19T12:38:47.368000-04:00",
        "podExecutionRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "subnets": [
            "subnet-09d912bb63ef21b9a",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-0e2907431c9988b72"
        ],
        "selectors": [
            {
                "namespace": "default"
            }
        ],
        "status": "CREATING",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Profil AWS Fargate - Membuat profil Fargate di Panduan Pengguna](https://docs.aws.amazon.com/eks/latest/userguide/fargate-profile.html#create-fargate-profile) *Amazon* EKS.  
**Contoh 2: Buat Profil EKS Fargate untuk pemilih dengan namespace dan label**  
`create-fargate-profile`Contoh berikut membuat Profil EKS Fargate untuk pemilih dengan namespace dan label.  

```
aws eks create-fargate-profile \
    --cluster-name my-eks-cluster \
    --pod-execution-role-arn arn:aws:iam::111122223333:role/role-name \
    --fargate-profile-name my-fargate-profile \
    --selectors '[{"namespace": "default", "labels": {"labelname1": "labelvalue1"}}]'
```
Output:  

```
{
    "fargateProfile": {
        "fargateProfileName": "my-fargate-profile",
        "fargateProfileArn": "arn:aws:eks:us-east-2:111122223333:fargateprofile/my-eks-cluster/my-fargate-profile/88c72bc7-e8a4-fa34-44e4-2f1397224bb3",
        "clusterName": "my-eks-cluster",
        "createdAt": "2024-03-19T12:33:48.125000-04:00",
        "podExecutionRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "subnets": [
            "subnet-09d912bb63ef21b9a",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-0e2907431c9988b72"
        ],
        "selectors": [
            {
                "namespace": "default",
                "labels": {
                    "labelname1": "labelvalue1"
                }
            }
        ],
        "status": "CREATING",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Profil AWS Fargate - Membuat profil Fargate di Panduan Pengguna](https://docs.aws.amazon.com/eks/latest/userguide/fargate-profile.html#create-fargate-profile) *Amazon* EKS.  
**Contoh 3: Buat Profil Fargate EKS untuk pemilih dengan namespace dan label, bersama dengan IDs subnet untuk meluncurkan Pod ke dalamnya.**  
`create-fargate-profile`Contoh berikut membuat Profil EKS Fargate untuk pemilih dengan namespace dan label, bersama dengan subnet untuk meluncurkan Pod ke IDs dalam.  

```
aws eks create-fargate-profile \
    --cluster-name my-eks-cluster \
    --pod-execution-role-arn arn:aws:iam::111122223333:role/role-name \
    --fargate-profile-name my-fargate-profile \
    --selectors '[{"namespace": "default", "labels": {"labelname1": "labelvalue1"}}]' \
    --subnets '["subnet-09d912bb63ef21b9a", "subnet-04ad87f71c6e5ab4d", "subnet-0e2907431c9988b72"]'
```
Output:  

```
{
    "fargateProfile": {
        "fargateProfileName": "my-fargate-profile",
        "fargateProfileArn": "arn:aws:eks:us-east-2:111122223333:fargateprofile/my-eks-cluster/my-fargate-profile/e8c72bc8-e87b-5eb6-57cb-ed4fe57577e3",
        "clusterName": "my-eks-cluster",
        "createdAt": "2024-03-19T12:35:58.640000-04:00",
        "podExecutionRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "subnets": [
            "subnet-09d912bb63ef21b9a",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-0e2907431c9988b72"
        ],
        "selectors": [
            {
                "namespace": "default",
                "labels": {
                    "labelname1": "labelvalue1"
                }
            }
        ],
        "status": "CREATING",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Profil AWS Fargate - Membuat profil Fargate di Panduan Pengguna](https://docs.aws.amazon.com/eks/latest/userguide/fargate-profile.html#create-fargate-profile) *Amazon* EKS.  
**Contoh 4: Buat Profil Fargate EKS untuk pemilih dengan beberapa namespace dan label, bersama dengan subnet untuk meluncurkan IDs Pod ke**  
`create-fargate-profile`Contoh berikut membuat Profil Fargate EKS untuk pemilih dengan beberapa namespace dan label, bersama dengan IDs subnet untuk meluncurkan Pod ke dalamnya.  

```
aws eks create-fargate-profile \
    --cluster-name my-eks-cluster \
    --pod-execution-role-arn arn:aws:iam::111122223333:role/role-name \
    --fargate-profile-name my-fargate-profile \
    --selectors '[{"namespace": "default1", "labels": {"labelname1": "labelvalue1", "labelname2": "labelvalue2"}}, {"namespace": "default2", "labels": {"labelname1": "labelvalue1", "labelname2": "labelvalue2"}}]' \
    --subnets '["subnet-09d912bb63ef21b9a", "subnet-04ad87f71c6e5ab4d", "subnet-0e2907431c9988b72"]' \
    --tags '{"eks-fargate-profile-key-1": "value-1" , "eks-fargate-profile-key-2": "value-2"}'
```
Output:  

```
{
    "fargateProfile": {
        "fargateProfileName": "my-fargate-profile",
        "fargateProfileArn": "arn:aws:eks:us-east-2:111122223333:fargateprofile/my-eks-cluster/my-fargate-profile/4cc72bbf-b766-8ee6-8d29-e62748feb3cd",
        "clusterName": "my-eks-cluster",
        "createdAt": "2024-03-19T12:15:55.271000-04:00",
        "podExecutionRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "subnets": [
            "subnet-09d912bb63ef21b9a",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-0e2907431c9988b72"
        ],
        "selectors": [
            {
                "namespace": "default1",
                "labels": {
                    "labelname2": "labelvalue2",
                    "labelname1": "labelvalue1"
                }
            },
            {
                "namespace": "default2",
                "labels": {
                    "labelname2": "labelvalue2",
                    "labelname1": "labelvalue1"
                }
            }
        ],
        "status": "CREATING",
        "tags": {
            "eks-fargate-profile-key-2": "value-2",
            "eks-fargate-profile-key-1": "value-1"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Profil AWS Fargate - Membuat profil Fargate di Panduan Pengguna](https://docs.aws.amazon.com/eks/latest/userguide/fargate-profile.html#create-fargate-profile) *Amazon* EKS.  
**Contoh 5: Buat Profil Fargate EKS dengan pemilih wildcard untuk namespace dan label, bersama dengan IDs subnet untuk meluncurkan Pod ke**  
`create-fargate-profile`Contoh berikut membuat Profil Fargate EKS untuk pemilih dengan beberapa namespace dan label, bersama dengan IDs subnet untuk meluncurkan Pod ke dalamnya.  

```
aws eks create-fargate-profile \
    --cluster-name my-eks-cluster \
    --pod-execution-role-arn arn:aws:iam::111122223333:role/role-name \
    --fargate-profile-name my-fargate-profile \
    --selectors '[{"namespace": "prod*", "labels": {"labelname*?": "*value1"}}, {"namespace": "*dev*", "labels": {"labelname*?": "*value*"}}]' \
    --subnets '["subnet-09d912bb63ef21b9a", "subnet-04ad87f71c6e5ab4d", "subnet-0e2907431c9988b72"]' \
    --tags '{"eks-fargate-profile-key-1": "value-1" , "eks-fargate-profile-key-2": "value-2"}'
```
Output:  

```
{
    "fargateProfile": {
        "fargateProfileName": "my-fargate-profile",
        "fargateProfileArn": "arn:aws:eks:us-east-2:111122223333:fargateprofile/my-eks-cluster/my-fargate-profile/e8c72bd6-5966-0bfe-b77b-1802893e5a6f",
        "clusterName": "my-eks-cluster",
        "createdAt": "2024-03-19T13:05:20.550000-04:00",
        "podExecutionRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "subnets": [
            "subnet-09d912bb63ef21b9a",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-0e2907431c9988b72"
        ],
        "selectors": [
            {
                "namespace": "prod*",
                "labels": {
                    "labelname*?": "*value1"
                }
            },
            {
                "namespace": "*dev*",
                "labels": {
                    "labelname*?": "*value*"
                }
            }
        ],
        "status": "CREATING",
        "tags": {
            "eks-fargate-profile-key-2": "value-2",
            "eks-fargate-profile-key-1": "value-1"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Profil AWS Fargate - Membuat profil Fargate di Panduan Pengguna](https://docs.aws.amazon.com/eks/latest/userguide/fargate-profile.html#create-fargate-profile) *Amazon* EKS.  
+  Untuk detail API, lihat [CreateFargateProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/create-fargate-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-nodegroup`
<a name="eks_CreateNodegroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-nodegroup`.

**AWS CLI**  
**Contoh 1: Membuat grup node terkelola untuk klaster Amazon EKS**  
`create-nodegroup`Contoh berikut membuat grup node terkelola untuk klaster Amazon EKS.  

```
aws eks create-nodegroup \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --node-role arn:aws:iam::111122223333:role/role-name \
    --subnets "subnet-0e2907431c9988b72" "subnet-04ad87f71c6e5ab4d" "subnet-09d912bb63ef21b9a" \
    --scaling-config minSize=1,maxSize=3,desiredSize=1 \
    --region us-east-2
```
Output:  

```
{
    "nodegroup": {
        "nodegroupName": "my-eks-nodegroup",
        "nodegroupArn": "arn:aws:eks:us-east-2:111122223333:nodegroup/my-eks-cluster/my-eks-nodegroup/bac7550f-b8b8-5fbb-4f3e-7502a931119e",
        "clusterName": "my-eks-cluster",
        "version": "1.26",
        "releaseVersion": "1.26.12-20240329",
        "createdAt": "2024-04-04T13:19:32.260000-04:00",
        "modifiedAt": "2024-04-04T13:19:32.260000-04:00",
        "status": "CREATING",
        "capacityType": "ON_DEMAND",
        "scalingConfig": {
            "minSize": 1,
            "maxSize": 3,
            "desiredSize": 1
        },
        "instanceTypes": [
            "t3.medium"
        ],
        "subnets": [
            "subnet-0e2907431c9988b72, subnet-04ad87f71c6e5ab4d, subnet-09d912bb63ef21b9a"
        ],
        "amiType": "AL2_x86_64",
        "nodeRole": "arn:aws:iam::111122223333:role/role-name",
        "diskSize": 20,
        "health": {
            "issues": []
        },
        "updateConfig": {
            "maxUnavailable": 1
        },
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup node terkelola](https://docs.aws.amazon.com/eks/latest/userguide/create-managed-node-group.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Membuat grup node terkelola untuk klaster Amazon EKS dengan tipe instans khusus dan ukuran disk**  
`create-nodegroup`Contoh berikut membuat grup node terkelola untuk klaster Amazon EKS dengan tipe instans khusus dan ukuran disk.  

```
aws eks create-nodegroup \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --node-role arn:aws:iam::111122223333:role/role-name \
    --subnets "subnet-0e2907431c9988b72" "subnet-04ad87f71c6e5ab4d" "subnet-09d912bb63ef21b9a" \
    --scaling-config minSize=1,maxSize=3,desiredSize=1 \
    --capacity-type ON_DEMAND \
    --instance-types 'm5.large' \
    --disk-size 50 \
    --region us-east-2
```
Output:  

```
{
    "nodegroup": {
        "nodegroupName": "my-eks-nodegroup",
        "nodegroupArn": "arn:aws:eks:us-east-2:111122223333:nodegroup/my-eks-cluster/my-eks-nodegroup/c0c7551b-e4f9-73d9-992c-a450fdb82322",
        "clusterName": "my-eks-cluster",
        "version": "1.26",
        "releaseVersion": "1.26.12-20240329",
        "createdAt": "2024-04-04T13:46:07.595000-04:00",
        "modifiedAt": "2024-04-04T13:46:07.595000-04:00",
        "status": "CREATING",
        "capacityType": "ON_DEMAND",
        "scalingConfig": {
            "minSize": 1,
            "maxSize": 3,
            "desiredSize": 1
        },
        "instanceTypes": [
            "m5.large"
        ],
        "subnets": [
            "subnet-0e2907431c9988b72",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-09d912bb63ef21b9a"
        ],
        "amiType": "AL2_x86_64",
        "nodeRole": "arn:aws:iam::111122223333:role/role-name",
        "diskSize": 50,
        "health": {
            "issues": []
        },
        "updateConfig": {
            "maxUnavailable": 1
        },
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup node terkelola](https://docs.aws.amazon.com/eks/latest/userguide/create-managed-node-group.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 3: Membuat grup node terkelola untuk klaster Amazon EKS dengan tipe instans kustom, ukuran disk, tipe ami, tipe kapasitas, konfigurasi pembaruan, label, taint, dan tag.**  
`create-nodegroup`Contoh berikut membuat grup node terkelola untuk klaster Amazon EKS dengan tipe instans kustom, ukuran disk, tipe ami, tipe kapasitas, konfigurasi pembaruan, label, taints, dan tag.  

```
aws eks create-nodegroup  \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --node-role arn:aws:iam::111122223333:role/role-name \
    --subnets "subnet-0e2907431c9988b72" "subnet-04ad87f71c6e5ab4d" "subnet-09d912bb63ef21b9a" \
    --scaling-config minSize=1,maxSize=5,desiredSize=4 \
    --instance-types 't3.large' \
    --disk-size 50 \
    --ami-type AL2_x86_64 \
    --capacity-type SPOT \
    --update-config maxUnavailable=2 \
    --labels '{"my-eks-nodegroup-label-1": "value-1" , "my-eks-nodegroup-label-2": "value-2"}' \
    --taints '{"key": "taint-key-1" , "value": "taint-value-1", "effect": "NO_EXECUTE"}' \
    --tags '{"my-eks-nodegroup-key-1": "value-1" , "my-eks-nodegroup-key-2": "value-2"}'
```
Output:  

```
{
    "nodegroup": {
        "nodegroupName": "my-eks-nodegroup",
        "nodegroupArn": "arn:aws:eks:us-east-2:111122223333:nodegroup/my-eks-cluster/my-eks-nodegroup/88c75524-97af-0cb9-a9c5-7c0423ab5314",
        "clusterName": "my-eks-cluster",
        "version": "1.26",
        "releaseVersion": "1.26.12-20240329",
        "createdAt": "2024-04-04T14:05:07.940000-04:00",
        "modifiedAt": "2024-04-04T14:05:07.940000-04:00",
        "status": "CREATING",
        "capacityType": "SPOT",
        "scalingConfig": {
            "minSize": 1,
            "maxSize": 5,
            "desiredSize": 4
        },
        "instanceTypes": [
            "t3.large"
        ],
        "subnets": [
            "subnet-0e2907431c9988b72",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-09d912bb63ef21b9a"
        ],
        "amiType": "AL2_x86_64",
        "nodeRole": "arn:aws:iam::111122223333:role/role-name",
        "labels": {
            "my-eks-nodegroup-label-2": "value-2",
            "my-eks-nodegroup-label-1": "value-1"
        },
        "taints": [
            {
                "key": "taint-key-1",
                "value": "taint-value-1",
                "effect": "NO_EXECUTE"
            }
        ],
        "diskSize": 50,
        "health": {
            "issues": []
        },
        "updateConfig": {
            "maxUnavailable": 2
        },
        "tags": {
            "my-eks-nodegroup-key-1": "value-1",
            "my-eks-nodegroup-key-2": "value-2"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup node terkelola](https://docs.aws.amazon.com/eks/latest/userguide/create-managed-node-group.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [CreateNodegroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/create-nodegroup.html)di *Referensi AWS CLI Perintah*. 

### `create-pod-identity-association`
<a name="eks_CreatePodIdentityAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-pod-identity-association`.

**AWS CLI**  
**Contoh 1: Untuk membuat asosiasi Identitas Pod EKS di klaster EKS**  
`create-pod-identity-association`Contoh berikut membuat asosiasi EKS Pod Identity antara akun layanan di kluster EKS dan peran IAM.  

```
aws eks create-pod-identity-association \
    --cluster-name eks-customer \
    --namespace default \
    --service-account default \
    --role-arn arn:aws:iam::111122223333:role/my-role
```
Output:  

```
{
    "association": {
        "clusterName": "eks-customer",
        "namespace": "default",
        "serviceAccount": "default",
        "roleArn": "arn:aws:iam::111122223333:role/my-role",
        "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-8mvwvh57cu74mgcst",
        "associationId": "a-8mvwvh57cu74mgcst",
        "tags": {},
        "createdAt": "2025-05-24T19:40:13.961000-05:00",
        "modifiedAt": "2025-05-24T19:40:13.961000-05:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Pelajari cara EKS Pod Identity memberikan Pod akses ke AWS layanan](https://docs.aws.amazon.com/eks/latest/userguide/pod-identities.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Untuk membuat asosiasi Identitas Pod EKS di klaster EKS dengan tag**  
Berikut ini `create-pod-identity-association` membuat asosiasi EKS Pod Identity antara akun layanan dan peran IAM dalam klaster EKS dengan tag.  

```
aws eks create-pod-identity-association \
    --cluster-name eks-customer \
    --namespace default \
    --service-account default \
    --role-arn arn:aws:iam::111122223333:role/my-role \
    --tags Key1=value1,Key2=value2
```
Output:  

```
{
    "association": {
        "clusterName": "eks-customer",
        "namespace": "default",
        "serviceAccount": "default",
        "roleArn": "arn:aws:iam::111122223333:role/my-role",
        "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-9njjin9gfghecgoda",
        "associationId": "a-9njjin9gfghecgoda",
        "tags": {
            "Key2": "value2",
            "Key1": "value1"
        },
        "createdAt": "2025-05-24T19:52:14.135000-05:00",
        "modifiedAt": "2025-05-24T19:52:14.135000-05:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Pelajari cara EKS Pod Identity memberikan Pod akses ke AWS layanan](https://docs.aws.amazon.com/eks/latest/userguide/pod-identities.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [CreatePodIdentityAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/create-pod-identity-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-access-entry`
<a name="eks_DeleteAccessEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-access-entry`.

**AWS CLI**  
**Untuk menghapus entri akses yang terkait dengan cluster**  
Berikut ini `delete-access-entry` menghapus entri akses yang terkait dengan kluster EKS bernama`eks-customer`.  

```
aws eks delete-access-entry \
    --cluster-name eks-customer \
    --principal-arn arn:aws:iam::111122223333:role/Admin
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus entri akses](https://docs.aws.amazon.com/eks/latest/userguide/deleting-access-entries.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [DeleteAccessEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/delete-access-entry.html)di *Referensi AWS CLI Perintah*. 

### `delete-addon`
<a name="eks_DeleteAddon_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-addon`.

**AWS CLI**  
**Contoh 1. Untuk menghapus add-on Amazon EKS tetapi mempertahankan perangkat lunak add-on di EKS Cluster**  
`delete-addon`Contoh perintah berikut menghapus add-on Amazon EKS tetapi mempertahankan perangkat lunak add-on di EKS Cluster.  

```
aws eks delete-addon \
    --cluster-name my-eks-cluster \
    --addon-name my-eks-addon \
    --preserve
```
Output:  

```
{
    "addon": {
        "addonName": "my-eks-addon",
        "clusterName": "my-eks-cluster",
        "status": "DELETING",
        "addonVersion": "v1.9.3-eksbuild.7",
        "health": {
            "issues": []
        },
        "addonArn": "arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/my-eks-addon/a8c71ed3-944e-898b-9167-c763856af4b8",
        "createdAt": "2024-03-14T11:49:09.009000-04:00",
        "modifiedAt": "2024-03-14T12:03:49.776000-04:00",
        "tags": {}
    }
}
```
*Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Menghapus add-on di Amazon EKS](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#removing-an-add-on).*  
**Contoh 2. Untuk menghapus add-on Amazon EKS dan juga menghapus perangkat lunak add-on dari EKS Cluster**  
`delete-addon`Contoh perintah berikut menghapus add-on Amazon EKS dan juga menghapus perangkat lunak add-on dari EKS Cluster.  

```
aws eks delete-addon \
    --cluster-name my-eks-cluster \
    --addon-name my-eks-addon
```
Output:  

```
{
    "addon": {
        "addonName": "my-eks-addon",
        "clusterName": "my-eks-cluster",
        "status": "DELETING",
        "addonVersion": "v1.15.1-eksbuild.1",
        "health": {
            "issues": []
        },
        "addonArn": "arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/my-eks-addon/bac71ed1-ec43-3bb6-88ea-f243cdb58954",
        "createdAt": "2024-03-14T11:45:31.983000-04:00",
        "modifiedAt": "2024-03-14T11:58:40.136000-04:00",
        "serviceAccountRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "tags": {}
    }
}
```
*Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Menghapus add-on di Amazon EKS](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#removing-an-add-on).*  
+  Untuk detail API, lihat [DeleteAddon](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/delete-addon.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster`
<a name="eks_DeleteCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster`.

**AWS CLI**  
**Hapus bidang kontrol cluster Amazon EKS**  
`delete-cluster`Contoh berikut menghapus bidang kontrol cluster Amazon EKS.  

```
aws eks delete-cluster \
    --name my-eks-cluster
```
Output:  

```
{
    "cluster": {
        "name": "my-eks-cluster",
        "arn": "arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster",
        "createdAt": "2024-03-14T11:31:44.348000-04:00",
        "version": "1.27",
        "endpoint": "https://DALSJ343KE23J3RN45653DSKJTT647TYD.yl4.us-east-2.eks.amazonaws.com",
        "roleArn": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-cluster-ServiceRole-zMF6CBakwwbW",
        "resourcesVpcConfig": {
            "subnetIds": [
                "subnet-0fb75d2d8401716e7",
                "subnet-02184492f67a3d0f9",
                "subnet-04098063527aab776",
                "subnet-0e2907431c9988b72",
                "subnet-04ad87f71c6e5ab4d",
                "subnet-09d912bb63ef21b9a"
            ],
            "securityGroupIds": [
                "sg-0c1327f6270afbb36"
            ],
            "clusterSecurityGroupId": "sg-01c84d09d70f39a7f",
            "vpcId": "vpc-0012b8e1cc0abb17d",
            "endpointPublicAccess": true,
            "endpointPrivateAccess": true,
            "publicAccessCidrs": [
                "0.0.0.0/0"
            ]
        },
        "kubernetesNetworkConfig": {
            "serviceIpv4Cidr": "10.100.0.0/16",
            "ipFamily": "ipv4"
        },
        "logging": {
            "clusterLogging": [
                {
                    "types": [
                        "api",
                        "audit",
                        "authenticator",
                        "controllerManager",
                        "scheduler"
                    ],
                    "enabled": true
                }
            ]
        },
        "identity": {
            "oidc": {
                "issuer": "https://oidc.eks.us-east-2.amazonaws.com/id/DALSJ343KE23J3RN45653DSKJTT647TYD"
            }
        },
        "status": "DELETING",
        "certificateAuthority": {
            "data": "XXX_CA_DATA_XXX"
        },
        "platformVersion": "eks.16",
        "tags": {
            "aws:cloudformation:stack-name": "eksctl-my-eks-cluster-cluster",
            "alpha.eksctl.io/cluster-name": "my-eks-cluster",
            "karpenter.sh/discovery": "my-eks-cluster",
            "aws:cloudformation:stack-id": "arn:aws:cloudformation:us-east-2:111122223333:stack/eksctl-my-eks-cluster-cluster/e752ea00-e217-11ee-beae-0a9599c8c7ed",
            "auto-delete": "no",
            "eksctl.cluster.k8s.io/v1alpha1/cluster-name": "my-eks-cluster",
            "EKS-Cluster-Name": "my-eks-cluster",
            "alpha.eksctl.io/cluster-oidc-enabled": "true",
            "aws:cloudformation:logical-id": "ControlPlane",
            "alpha.eksctl.io/eksctl-version": "0.173.0-dev+a7ee89342.2024-03-01T03:40:57Z",
            "Name": "eksctl-my-eks-cluster-cluster/ControlPlane"
        },
        "accessConfig": {
            "authenticationMode": "API_AND_CONFIG_MAP"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus klaster Amazon EKS](https://docs.aws.amazon.com/eks/latest/userguide/delete-cluster.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [DeleteCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/delete-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-fargate-profile`
<a name="eks_DeleteFargateProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-fargate-profile`.

**AWS CLI**  
**Contoh 1: Buat Profil EKS Fargate untuk pemilih dengan namespace**  
`delete-fargate-profile`Contoh berikut membuat Profil EKS Fargate untuk pemilih dengan namespace.  

```
aws eks delete-fargate-profile \
    --cluster-name my-eks-cluster \
    --fargate-profile-name my-fargate-profile
```
Output:  

```
{
    "fargateProfile": {
        "fargateProfileName": "my-fargate-profile",
        "fargateProfileArn": "arn:aws:eks:us-east-2:111122223333:fargateprofile/my-eks-cluster/my-fargate-profile/1ac72bb3-3fc6-2631-f1e1-98bff53bed62",
        "clusterName": "my-eks-cluster",
        "createdAt": "2024-03-19T11:48:39.975000-04:00",
        "podExecutionRoleArn": "arn:aws:iam::111122223333:role/role-name",
        "subnets": [
            "subnet-09d912bb63ef21b9a",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-0e2907431c9988b72"
        ],
        "selectors": [
            {
                "namespace": "default",
                "labels": {
                    "foo": "bar"
                }
            }
        ],
        "status": "DELETING",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Profil AWS Fargate - Menghapus Fargate](https://docs.aws.amazon.com/eks/latest/userguide/fargate-profile.html#delete-fargate-profile) di Panduan Pengguna *Amazon* EKS.  
+  Untuk detail API, lihat [DeleteFargateProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/delete-fargate-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-nodegroup`
<a name="eks_DeleteNodegroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-nodegroup`.

**AWS CLI**  
**Contoh 1: Menghapus grup node terkelola untuk klaster Amazon EKS**  
`delete-nodegroup`Contoh berikut menghapus grup node terkelola untuk klaster Amazon EKS.  

```
aws eks delete-nodegroup \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup
```
Output:  

```
{
    "nodegroup": {
        "nodegroupName": "my-eks-nodegroup",
        "nodegroupArn": "arn:aws:eks:us-east-2:111122223333:nodegroup/my-eks-cluster/my-eks-nodegroup/1ec75f5f-0e21-dcc0-b46e-f9c442685cd8",
        "clusterName": "my-eks-cluster",
        "version": "1.26",
        "releaseVersion": "1.26.12-20240329",
        "createdAt": "2024-04-08T13:25:15.033000-04:00",
        "modifiedAt": "2024-04-08T13:25:31.252000-04:00",
        "status": "DELETING",
        "capacityType": "SPOT",
        "scalingConfig": {
            "minSize": 1,
            "maxSize": 5,
            "desiredSize": 4
        },
        "instanceTypes": [
            "t3.large"
        ],
        "subnets": [
            "subnet-0e2907431c9988b72",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-09d912bb63ef21b9a"
        ],
        "amiType": "AL2_x86_64",
        "nodeRole": "arn:aws:iam::111122223333:role/role-name",
        "labels": {
            "my-eks-nodegroup-label-2": "value-2",
            "my-eks-nodegroup-label-1": "value-1"
        },
        "taints": [
            {
                "key": "taint-key-1",
                "value": "taint-value-1",
                "effect": "NO_EXECUTE"
            }
        ],
        "diskSize": 50,
        "health": {
            "issues": []
        },
        "updateConfig": {
            "maxUnavailable": 2
        },
        "tags": {
            "my-eks-nodegroup-key-1": "value-1",
            "my-eks-nodegroup-key-2": "value-2"
        }
    }
}
```
+  Untuk detail API, lihat [DeleteNodegroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/delete-nodegroup.html)di *Referensi AWS CLI Perintah*. 

### `delete-pod-identity-association`
<a name="eks_DeletePodIdentityAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-pod-identity-association`.

**AWS CLI**  
**Untuk menghapus asosiasi Identitas Pod EKS**  
`delete-pod-identity-association`Contoh berikut menghapus asosiasi EKS Pod Identity dengan ID asosiasi `a-9njjin9gfghecgocd` dari klaster EKS bernama`eks-customer`.  

```
aws eks delete-pod-identity-association \
    --cluster-name eks-customer \
    --association-id a-9njjin9gfghecgocd
```
Output:  

```
{
    "association": {
        "clusterName": "eks-customer",
        "namespace": "default",
        "serviceAccount": "default",
        "roleArn": "arn:aws:iam::111122223333:role/s3-role",
        "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-9njjin9gfghecgocd",
        "associationId": "a-9njjin9gfghecgocd",
        "tags": {
            "Key2": "value2",
            "Key1": "value1"
        },
        "createdAt": "2025-05-24T19:52:14.135000-05:00",
        "modifiedAt": "2025-05-25T21:10:56.923000-05:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Pelajari cara EKS Pod Identity memberikan Pod akses ke AWS layanan](https://docs.aws.amazon.com/eks/latest/userguide/pod-identities.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [DeletePodIdentityAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/delete-pod-identity-association.html)di *Referensi AWS CLI Perintah*. 

### `deregister-cluster`
<a name="eks_DeregisterCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-cluster`.

**AWS CLI**  
**Untuk membatalkan pendaftaran cluster yang terhubung untuk menghapusnya dari bidang kontrol Amazon EKS**  
`deregister-cluster`Contoh berikut membatalkan pendaftaran cluster yang terhubung untuk menghapusnya dari bidang kontrol Amazon EKS.  

```
aws eks deregister-cluster \
    --name my-eks-anywhere-cluster
```
Output:  

```
{
    "cluster": {
        "name": "my-eks-anywhere-cluster",
        "arn": "arn:aws:eks:us-east-2:111122223333:cluster/my-eks-anywhere-cluster",
        "createdAt": "2024-04-12T12:38:37.561000-04:00",
        "status": "DELETING",
        "tags": {},
        "connectorConfig": {
            "activationId": "dfb5ad28-13c3-4e26-8a19-5b2457638c74",
            "activationExpiry": "2024-04-15T12:38:37.082000-04:00",
            "provider": "EKS_ANYWHERE",
            "roleArn": "arn:aws:iam::111122223333:role/AmazonEKSConnectorAgentRole"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membatalkan pendaftaran klaster di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/deregister-connected-cluster.html) Pengguna *Amazon EKS*.  
+  Untuk detail API, lihat [DeregisterCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/deregister-cluster.html)di *Referensi AWS CLI Perintah*. 

### `describe-access-entry`
<a name="eks_DescribeAccessEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-access-entry`.

**AWS CLI**  
**Untuk menjelaskan entri akses untuk kluster EKS**  
`describe-access-entry`Contoh berikut menjelaskan entri akses untuk cluster EKS.  

```
aws eks describe-access-entry \
    --cluster-name eks-customer \
    --principal-arn arn:aws:iam::111122223333:user/eks-admin-user
```
Output:  

```
{
    "accessEntry": {
        "clusterName": "eks-customer",
        "principalArn": "arn:aws:iam::111122223333:user/eks-admin-user",
        "kubernetesGroups": [],
        "accessEntryArn": "arn:aws:eks:us-west-2:111122223333:access-entry/eks-customer/user/111122223333/eks-admin-user/0acb1bc6-cb0a-ede6-11ae-a6506e3d36p0",
        "createdAt": "2025-04-14T22:45:48.097000-05:00",
        "modifiedAt": "2025-04-14T22:45:48.097000-05:00",
        "tags": {},
        "username": "arn:aws:iam::111122223333:user/eks-admin-user",
        "type": "STANDARD"
    }
}
```
Untuk informasi selengkapnya, lihat [Berikan akses kepada pengguna IAM ke Kubernetes dengan entri akses EKS](https://docs.aws.amazon.com/eks/latest/userguide/access-entries.html) di Panduan Pengguna *Amazon* EKS.  
+  Untuk detail API, lihat [DescribeAccessEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-access-entry.html)di *Referensi AWS CLI Perintah*. 

### `describe-addon-configuration`
<a name="eks_DescribeAddonConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-addon-configuration`.

**AWS CLI**  
**Contoh 1: Opsi konfigurasi tersedia saat membuat atau memperbarui Amazon vpc-cni AddOns**  
`describe-addon-configuration`Contoh berikut mengembalikan semua skema konfigurasi yang tersedia yang Anda gunakan saat add-on dibuat atau diperbarui untuk add-on vpc-cni dengan versi masing-masing.  

```
aws eks describe-addon-configuration \
    --addon-name vpc-cni \
    --addon-version v1.15.1-eksbuild.1
```
Output:  

```
{
    "addonName": "vpc-cni",
    "addonVersion": "v1.15.1-eksbuild.1",
    "configurationSchema": "{\"$ref\":\"#/definitions/VpcCni\",\"$schema\":\"http://json-schema.org/draft-06/schema#\",\"definitions\":{\"Affinity\":{\"type\":[\"object\",\"null\"]},\"EniConfig\":{\"additionalProperties\":false,\"properties\":{\"create\":{\"type\":\"boolean\"},\"region\":{\"type\":\"string\"},\"subnets\":{\"additionalProperties\":{\"additionalProperties\":false,\"properties\":{\"id\":{\"type\":\"string\"},\"securityGroups\":{\"items\":{\"type\":\"string\"},\"type\":\"array\"}},\"required\":[\"id\"],\"type\":\"object\"},\"minProperties\":1,\"type\":\"object\"}},\"required\":[\"create\",\"region\",\"subnets\"],\"type\":\"object\"},\"Env\":{\"additionalProperties\":false,\"properties\":{\"ADDITIONAL_ENI_TAGS\":{\"type\":\"string\"},\"ANNOTATE_POD_IP\":{\"format\":\"boolean\",\"type\":\"string\"},\"AWS_EC2_ENDPOINT\":{\"type\":\"string\"},\"AWS_EXTERNAL_SERVICE_CIDRS\":{\"type\":\"string\"},\"AWS_MANAGE_ENIS_NON_SCHEDULABLE\":{\"format\":\"boolean\",\"type\":\"string\"},\"AWS_VPC_CNI_NODE_PORT_SUPPORT\":{\"format\":\"boolean\",\"type\":\"string\"},\"AWS_VPC_ENI_MTU\":{\"format\":\"integer\",\"type\":\"string\"},\"AWS_VPC_K8S_CNI_CUSTOM_NETWORK_CFG\":{\"format\":\"boolean\",\"type\":\"string\"},\"AWS_VPC_K8S_CNI_EXCLUDE_SNAT_CIDRS\":{\"type\":\"string\"},\"AWS_VPC_K8S_CNI_EXTERNALSNAT\":{\"format\":\"boolean\",\"type\":\"string\"},\"AWS_VPC_K8S_CNI_LOGLEVEL\":{\"type\":\"string\"},\"AWS_VPC_K8S_CNI_LOG_FILE\":{\"type\":\"string\"},\"AWS_VPC_K8S_CNI_RANDOMIZESNAT\":{\"type\":\"string\"},\"AWS_VPC_K8S_CNI_VETHPREFIX\":{\"type\":\"string\"},\"AWS_VPC_K8S_PLUGIN_LOG_FILE\":{\"type\":\"string\"},\"AWS_VPC_K8S_PLUGIN_LOG_LEVEL\":{\"type\":\"string\"},\"CLUSTER_ENDPOINT\":{\"type\":\"string\"},\"DISABLE_INTROSPECTION\":{\"format\":\"boolean\",\"type\":\"string\"},\"DISABLE_LEAKED_ENI_CLEANUP\":{\"format\":\"boolean\",\"type\":\"string\"},\"DISABLE_METRICS\":{\"format\":\"boolean\",\"type\":\"string\"},\"DISABLE_NETWORK_RESOURCE_PROVISIONING\":{\"format\":\"boolean\",\"type\":\"string\"},\"DISABLE_POD_V6\":{\"format\":\"boolean\",\"type\":\"string\"},\"ENABLE_BANDWIDTH_PLUGIN\":{\"format\":\"boolean\",\"type\":\"string\"},\"ENABLE_POD_ENI\":{\"format\":\"boolean\",\"type\":\"string\"},\"ENABLE_PREFIX_DELEGATION\":{\"format\":\"boolean\",\"type\":\"string\"},\"ENABLE_V4_EGRESS\":{\"format\":\"boolean\",\"type\":\"string\"},\"ENABLE_V6_EGRESS\":{\"format\":\"boolean\",\"type\":\"string\"},\"ENI_CONFIG_ANNOTATION_DEF\":{\"type\":\"string\"},\"ENI_CONFIG_LABEL_DEF\":{\"type\":\"string\"},\"INTROSPECTION_BIND_ADDRESS\":{\"type\":\"string\"},\"IP_COOLDOWN_PERIOD\":{\"format\":\"integer\",\"type\":\"string\"},\"MAX_ENI\":{\"format\":\"integer\",\"type\":\"string\"},\"MINIMUM_IP_TARGET\":{\"format\":\"integer\",\"type\":\"string\"},\"POD_SECURITY_GROUP_ENFORCING_MODE\":{\"type\":\"string\"},\"WARM_ENI_TARGET\":{\"format\":\"integer\",\"type\":\"string\"},\"WARM_IP_TARGET\":{\"format\":\"integer\",\"type\":\"string\"},\"WARM_PREFIX_TARGET\":{\"format\":\"integer\",\"type\":\"string\"}},\"title\":\"Env\",\"type\":\"object\"},\"Init\":{\"additionalProperties\":false,\"properties\":{\"env\":{\"$ref\":\"#/definitions/InitEnv\"}},\"title\":\"Init\",\"type\":\"object\"},\"InitEnv\":{\"additionalProperties\":false,\"properties\":{\"DISABLE_TCP_EARLY_DEMUX\":{\"format\":\"boolean\",\"type\":\"string\"},\"ENABLE_V6_EGRESS\":{\"format\":\"boolean\",\"type\":\"string\"}},\"title\":\"InitEnv\",\"type\":\"object\"},\"Limits\":{\"additionalProperties\":false,\"properties\":{\"cpu\":{\"type\":\"string\"},\"memory\":{\"type\":\"string\"}},\"title\":\"Limits\",\"type\":\"object\"},\"NodeAgent\":{\"additionalProperties\":false,\"properties\":{\"enableCloudWatchLogs\":{\"format\":\"boolean\",\"type\":\"string\"},\"enablePolicyEventLogs\":{\"format\":\"boolean\",\"type\":\"string\"},\"healthProbeBindAddr\":{\"format\":\"integer\",\"type\":\"string\"},\"metricsBindAddr\":{\"format\":\"integer\",\"type\":\"string\"}},\"title\":\"NodeAgent\",\"type\":\"object\"},\"Resources\":{\"additionalProperties\":false,\"properties\":{\"limits\":{\"$ref\":\"#/definitions/Limits\"},\"requests\":{\"$ref\":\"#/definitions/Limits\"}},\"title\":\"Resources\",\"type\":\"object\"},\"Tolerations\":{\"additionalProperties\":false,\"items\":{\"type\":\"object\"},\"type\":\"array\"},\"VpcCni\":{\"additionalProperties\":false,\"properties\":{\"affinity\":{\"$ref\":\"#/definitions/Affinity\"},\"enableNetworkPolicy\":{\"format\":\"boolean\",\"type\":\"string\"},\"enableWindowsIpam\":{\"format\":\"boolean\",\"type\":\"string\"},\"eniConfig\":{\"$ref\":\"#/definitions/EniConfig\"},\"env\":{\"$ref\":\"#/definitions/Env\"},\"init\":{\"$ref\":\"#/definitions/Init\"},\"livenessProbeTimeoutSeconds\":{\"type\":\"integer\"},\"nodeAgent\":{\"$ref\":\"#/definitions/NodeAgent\"},\"readinessProbeTimeoutSeconds\":{\"type\":\"integer\"},\"resources\":{\"$ref\":\"#/definitions/Resources\"},\"tolerations\":{\"$ref\":\"#/definitions/Tolerations\"}},\"title\":\"VpcCni\",\"type\":\"object\"}},\"description\":\"vpc-cni\"}"
}
```
**Contoh 2: Opsi konfigurasi tersedia saat membuat atau memperbarui inti Amazon AddOns**  
`describe-addon-configuration`Contoh berikut mengembalikan semua skema konfigurasi yang tersedia yang Anda gunakan saat add-on dibuat atau diperbarui untuk add-on coredns dengan versi masing-masing.  

```
aws eks describe-addon-configuration \
    --addon-name coredns \
    --addon-version v1.8.7-eksbuild.4
```
Output:  

```
{
    "addonName": "coredns",
    "addonVersion": "v1.8.7-eksbuild.4",
    "configurationSchema": "{\"$ref\":\"#/definitions/Coredns\",\"$schema\":\"http://json-schema.org/draft-06/schema#\",\"definitions\":{\"Coredns\":{\"additionalProperties\":false,\"properties\":{\"computeType\":{\"type\":\"string\"},\"corefile\":{\"description\":\"Entire corefile contents to use with installation\",\"type\":\"string\"},\"nodeSelector\":{\"additionalProperties\":{\"type\":\"string\"},\"type\":\"object\"},\"replicaCount\":{\"type\":\"integer\"},\"resources\":{\"$ref\":\"#/definitions/Resources\"}},\"title\":\"Coredns\",\"type\":\"object\"},\"Limits\":{\"additionalProperties\":false,\"properties\":{\"cpu\":{\"type\":\"string\"},\"memory\":{\"type\":\"string\"}},\"title\":\"Limits\",\"type\":\"object\"},\"Resources\":{\"additionalProperties\":false,\"properties\":{\"limits\":{\"$ref\":\"#/definitions/Limits\"},\"requests\":{\"$ref\":\"#/definitions/Limits\"}},\"title\":\"Resources\",\"type\":\"object\"}}}"
}
```
*Untuk informasi selengkapnya, lihat [Membuat atau memperbarui file kubeconfig untuk klaster Amazon EKS di Amazon EKS](https://docs.aws.amazon.com/eks/latest/userguide/create-kubeconfig.html).*  
+  Untuk detail API, lihat [DescribeAddonConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-addon-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-addon-versions`
<a name="eks_DescribeAddonVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-addon-versions`.

**AWS CLI**  
**Contoh 1: Daftar semua addon yang tersedia untuk EKS Cluster**  
`describe-addon-versions`Contoh berikut mencantumkan semua AWS addons yang tersedia.  

```
aws eks describe-addon-versions  \
    --query 'sort_by(addons  &owner)[].{publisher: publisher, owner: owner, addonName: addonName, type: type}' \
    --output table
```
Output:  

```
--------------------------------------------------------------------------------------------------------------------
|                                               DescribeAddonVersions                                              |
+---------------------------------------------+------------------+-----------------------+-------------------------+
|                  addonName                  |      owner       |       publisher       |          type           |
+---------------------------------------------+------------------+-----------------------+-------------------------+
|  vpc-cni                                    |  aws             |  eks                  |  networking             |
|  snapshot-controller                        |  aws             |  eks                  |  storage                |
|  kube-proxy                                 |  aws             |  eks                  |  networking             |
|  eks-pod-identity-agent                     |  aws             |  eks                  |  security               |
|  coredns                                    |  aws             |  eks                  |  networking             |
|  aws-mountpoint-s3-csi-driver               |  aws             |  s3                   |  storage                |
|  aws-guardduty-agent                        |  aws             |  eks                  |  security               |
|  aws-efs-csi-driver                         |  aws             |  eks                  |  storage                |
|  aws-ebs-csi-driver                         |  aws             |  eks                  |  storage                |
|  amazon-cloudwatch-observability            |  aws             |  eks                  |  observability          |
|  adot                                       |  aws             |  eks                  |  observability          |
|  upwind-security_upwind-operator            |  aws-marketplace |  Upwind Security      |  security               |
|  upbound_universal-crossplane               |  aws-marketplace |  upbound              |  infra-management       |
|  tetrate-io_istio-distro                    |  aws-marketplace |  tetrate-io           |  policy-management      |
|  teleport_teleport                          |  aws-marketplace |  teleport             |  policy-management      |
|  stormforge_optimize-live                   |  aws-marketplace |  StormForge           |  cost-management        |
|  splunk_splunk-otel-collector-chart         |  aws-marketplace |  Splunk               |  monitoring             |
|  solo-io_istio-distro                       |  aws-marketplace |  Solo.io              |  service-mesh           |
|  rafay-systems_rafay-operator               |  aws-marketplace |  rafay-systems        |  kubernetes-management  |
|  new-relic_kubernetes-operator              |  aws-marketplace |  New Relic            |  observability          |
|  netapp_trident-operator                    |  aws-marketplace |  NetApp Inc.          |  storage                |
|  leaksignal_leakagent                       |  aws-marketplace |  leaksignal           |  monitoring             |
|  kubecost_kubecost                          |  aws-marketplace |  kubecost             |  cost-management        |
|  kong_konnect-ri                            |  aws-marketplace |  kong                 |  ingress-service-type   |
|  kasten_k10                                 |  aws-marketplace |  Kasten by Veeam      |  data-protection        |
|  haproxy-technologies_kubernetes-ingress-ee |  aws-marketplace |  HAProxy Technologies |  ingress-controller     |
|  groundcover_agent                          |  aws-marketplace |  groundcover          |  monitoring             |
|  grafana-labs_kubernetes-monitoring         |  aws-marketplace |  Grafana Labs         |  monitoring             |
|  factorhouse_kpow                           |  aws-marketplace |  factorhouse          |  monitoring             |
|  dynatrace_dynatrace-operator               |  aws-marketplace |  dynatrace            |  monitoring             |
|  datree_engine-pro                          |  aws-marketplace |  datree               |  policy-management      |
|  datadog_operator                           |  aws-marketplace |  Datadog              |  monitoring             |
|  cribl_cribledge                            |  aws-marketplace |  Cribl                |  observability          |
|  calyptia_fluent-bit                        |  aws-marketplace |  Calyptia Inc         |  observability          |
|  accuknox_kubearmor                         |  aws-marketplace |  AccuKnox             |  security               |
+---------------------------------------------+------------------+-----------------------+-------------------------+
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Membuat add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#creating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Buat daftar semua addon yang tersedia untuk versi Kubernetes tertentu yang didukung untuk EKS**  
`describe-addon-versions`Contoh berikut mencantumkan semua addon yang tersedia untuk versi Kubernetes tertentu yang didukung untuk EKS.  

```
aws eks describe-addon-versions  \
    --kubernetes-version=1.26 \
    --query 'sort_by(addons  &owner)[].{publisher: publisher, owner: owner, addonName: addonName, type: type}' \
    --output table
```
Output:  

```
--------------------------------------------------------------------------------------------------------------------
|                                               DescribeAddonVersions                                              |
+---------------------------------------------+------------------+-----------------------+-------------------------+
|                  addonName                  |      owner       |       publisher       |          type           |
+---------------------------------------------+------------------+-----------------------+-------------------------+
|  vpc-cni                                    |  aws             |  eks                  |  networking             |
|  snapshot-controller                        |  aws             |  eks                  |  storage                |
|  kube-proxy                                 |  aws             |  eks                  |  networking             |
|  eks-pod-identity-agent                     |  aws             |  eks                  |  security               |
|  coredns                                    |  aws             |  eks                  |  networking             |
|  aws-mountpoint-s3-csi-driver               |  aws             |  s3                   |  storage                |
|  aws-guardduty-agent                        |  aws             |  eks                  |  security               |
|  aws-efs-csi-driver                         |  aws             |  eks                  |  storage                |
|  aws-ebs-csi-driver                         |  aws             |  eks                  |  storage                |
|  amazon-cloudwatch-observability            |  aws             |  eks                  |  observability          |
|  adot                                       |  aws             |  eks                  |  observability          |
|  upwind-security_upwind-operator            |  aws-marketplace |  Upwind Security      |  security               |
|  tetrate-io_istio-distro                    |  aws-marketplace |  tetrate-io           |  policy-management      |
|  stormforge_optimize-live                   |  aws-marketplace |  StormForge           |  cost-management        |
|  splunk_splunk-otel-collector-chart         |  aws-marketplace |  Splunk               |  monitoring             |
|  solo-io_istio-distro                       |  aws-marketplace |  Solo.io              |  service-mesh           |
|  rafay-systems_rafay-operator               |  aws-marketplace |  rafay-systems        |  kubernetes-management  |
|  new-relic_kubernetes-operator              |  aws-marketplace |  New Relic            |  observability          |
|  netapp_trident-operator                    |  aws-marketplace |  NetApp Inc.          |  storage                |
|  leaksignal_leakagent                       |  aws-marketplace |  leaksignal           |  monitoring             |
|  kubecost_kubecost                          |  aws-marketplace |  kubecost             |  cost-management        |
|  kong_konnect-ri                            |  aws-marketplace |  kong                 |  ingress-service-type   |
|  haproxy-technologies_kubernetes-ingress-ee |  aws-marketplace |  HAProxy Technologies |  ingress-controller     |
|  groundcover_agent                          |  aws-marketplace |  groundcover          |  monitoring             |
|  grafana-labs_kubernetes-monitoring         |  aws-marketplace |  Grafana Labs         |  monitoring             |
|  dynatrace_dynatrace-operator               |  aws-marketplace |  dynatrace            |  monitoring             |
|  datadog_operator                           |  aws-marketplace |  Datadog              |  monitoring             |
|  cribl_cribledge                            |  aws-marketplace |  Cribl                |  observability          |
|  calyptia_fluent-bit                        |  aws-marketplace |  Calyptia Inc         |  observability          |
|  accuknox_kubearmor                         |  aws-marketplace |  AccuKnox             |  security               |
+---------------------------------------------+------------------+-----------------------+-------------------------+
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Membuat add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#creating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 3: Buat daftar semua versi addons vpc-cni yang tersedia untuk versi Kubernetes tertentu yang didukung untuk EKS**  
`describe-addon-versions`Contoh berikut mencantumkan semua versi addons vpc-cni yang tersedia untuk versi Kubernetes tertentu yang didukung untuk EKS.  

```
aws eks describe-addon-versions \
    --kubernetes-version=1.26 \
    --addon-name=vpc-cni \
    --query='addons[].addonVersions[].addonVersion'
```
Output:  

```
[
    "v1.18.0-eksbuild.1",
    "v1.17.1-eksbuild.1",
    "v1.16.4-eksbuild.2",
    "v1.16.3-eksbuild.2",
    "v1.16.2-eksbuild.1",
    "v1.16.0-eksbuild.1",
    "v1.15.5-eksbuild.1",
    "v1.15.4-eksbuild.1",
    "v1.15.3-eksbuild.1",
    "v1.15.1-eksbuild.1",
    "v1.15.0-eksbuild.2",
    "v1.14.1-eksbuild.1",
    "v1.14.0-eksbuild.3",
    "v1.13.4-eksbuild.1",
    "v1.13.3-eksbuild.1",
    "v1.13.2-eksbuild.1",
    "v1.13.0-eksbuild.1",
    "v1.12.6-eksbuild.2",
    "v1.12.6-eksbuild.1",
    "v1.12.5-eksbuild.2",
    "v1.12.0-eksbuild.2"
]
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Membuat add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#creating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [DescribeAddonVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-addon-versions.html)di *Referensi AWS CLI Perintah*. 

### `describe-addon`
<a name="eks_DescribeAddon_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-addon`.

**AWS CLI**  
**Jelaskan secara aktif menjalankan addon EKS di cluster Amazon EKS Anda**  
`describe-addon`Contoh berikut secara aktif menjalankan addon EKS di cluster Amazon EKS Anda.  

```
aws eks describe-addon \
    --cluster-name my-eks-cluster \
    --addon-name vpc-cni
```
Output:  

```
{
    "addon": {
        "addonName": "vpc-cni",
        "clusterName": "my-eks-cluster",
        "status": "ACTIVE",
        "addonVersion": "v1.16.4-eksbuild.2",
        "health": {
            "issues": []
        },
        "addonArn": "arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/vpc-cni/0ec71efc-98dd-3203-60b0-4b939b2a5e5f",
        "createdAt": "2024-03-14T13:18:45.417000-04:00",
        "modifiedAt": "2024-03-14T13:18:49.557000-04:00",
        "serviceAccountRoleArn": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm",
        "tags": {
            "eks-addon-key-3": "value-3",
            "eks-addon-key-4": "value-4"
        },
        "configurationValues": "resources:\n    limits:\n        cpu: '100m'\nenv:\n    AWS_VPC_K8S_CNI_LOGLEVEL: 'DEBUG'"
    }
}
```
+  Untuk detail API, lihat [DescribeAddon](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-addon.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster`
<a name="eks_DescribeCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster`.

**AWS CLI**  
**Jelaskan secara aktif menjalankan addon EKS di cluster Amazon EKS Anda**  
`describe-cluster`Contoh berikut secara aktif menjalankan addon EKS di cluster Amazon EKS Anda.  

```
aws eks describe-cluster \
    --name my-eks-cluster
```
Output:  

```
{
    "cluster": {
        "name": "my-eks-cluster",
        "arn": "arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster",
        "createdAt": "2024-03-14T11:31:44.348000-04:00",
        "version": "1.26",
        "endpoint": "https://JSA79429HJDASKJDJ8223829MNDNASW.yl4.us-east-2.eks.amazonaws.com",
        "roleArn": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-cluster-ServiceRole-zMF6CBakwwbW",
        "resourcesVpcConfig": {
            "subnetIds": [
                "subnet-0fb75d2d8401716e7",
                "subnet-02184492f67a3d0f9",
                "subnet-04098063527aab776",
                "subnet-0e2907431c9988b72",
                "subnet-04ad87f71c6e5ab4d",
                "subnet-09d912bb63ef21b9a"
            ],
            "securityGroupIds": [
                "sg-0c1327f6270afbb36"
            ],
            "clusterSecurityGroupId": "sg-01c84d09d70f39a7f",
            "vpcId": "vpc-0012b8e1cc0abb17d",
            "endpointPublicAccess": true,
            "endpointPrivateAccess": true,
            "publicAccessCidrs": [
                "22.19.18.2/32"
            ]
        },
        "kubernetesNetworkConfig": {
            "serviceIpv4Cidr": "10.100.0.0/16",
            "ipFamily": "ipv4"
        },
        "logging": {
            "clusterLogging": [
                {
                    "types": [
                        "api",
                        "audit",
                        "authenticator",
                        "controllerManager",
                        "scheduler"
                    ],
                    "enabled": true
                }
            ]
        },
        "identity": {
            "oidc": {
                "issuer": "https://oidc.eks.us-east-2.amazonaws.com/id/JSA79429HJDASKJDJ8223829MNDNASW"
            }
        },
        "status": "ACTIVE",
        "certificateAuthority": {
            "data": "CA_DATA_STRING..."
        },
        "platformVersion": "eks.14",
        "tags": {
            "aws:cloudformation:stack-name": "eksctl-my-eks-cluster-cluster",
            "alpha.eksctl.io/cluster-name": "my-eks-cluster",
            "karpenter.sh/discovery": "my-eks-cluster",
            "aws:cloudformation:stack-id": "arn:aws:cloudformation:us-east-2:111122223333:stack/eksctl-my-eks-cluster-cluster/e752ea00-e217-11ee-beae-0a9599c8c7ed",
            "auto-delete": "no",
            "eksctl.cluster.k8s.io/v1alpha1/cluster-name": "my-eks-cluster",
            "EKS-Cluster-Name": "my-eks-cluster",
            "alpha.eksctl.io/cluster-oidc-enabled": "true",
            "aws:cloudformation:logical-id": "ControlPlane",
            "alpha.eksctl.io/eksctl-version": "0.173.0-dev+a7ee89342.2024-03-01T03:40:57Z",
            "Name": "eksctl-my-eks-cluster-cluster/ControlPlane"
        },
        "health": {
            "issues": []
        },
        "accessConfig": {
            "authenticationMode": "API_AND_CONFIG_MAP"
        }
    }
}
```
+  Untuk detail API, lihat [DescribeCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-cluster.html)di *Referensi AWS CLI Perintah*. 

### `describe-fargate-profile`
<a name="eks_DescribeFargateProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fargate-profile`.

**AWS CLI**  
**Jelaskan profil Fargate**  
`describe-fargate-profile`Contoh berikut menjelaskan profil Fargate.  

```
aws eks describe-fargate-profile \
    --cluster-name my-eks-cluster \
    --fargate-profile-name my-fargate-profile
```
Output:  

```
{
    "fargateProfile": {
        "fargateProfileName": "my-fargate-profile",
        "fargateProfileArn": "arn:aws:eks:us-east-2:111122223333:fargateprofile/my-eks-cluster/my-fargate-profile/96c766ce-43d2-f9c9-954c-647334391198",
        "clusterName": "my-eks-cluster",
        "createdAt": "2024-04-11T10:42:52.486000-04:00",
        "podExecutionRoleArn": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-farga-FargatePodExecutionRole-1htfAaJdJUEO",
        "subnets": [
            "subnet-09d912bb63ef21b9a",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-0e2907431c9988b72"
        ],
        "selectors": [
            {
                "namespace": "prod*",
                "labels": {
                    "labelname*?": "*value1"
                }
            },
            {
                "namespace": "*dev*",
                "labels": {
                    "labelname*?": "*value*"
                }
            }
        ],
        "status": "ACTIVE",
        "tags": {
            "eks-fargate-profile-key-2": "value-2",
            "eks-fargate-profile-key-1": "value-1"
        }
    }
}
```
+  Untuk detail API, lihat [DescribeFargateProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-fargate-profile.html)di *Referensi AWS CLI Perintah*. 

### `describe-identity-provider-config`
<a name="eks_DescribeIdentityProviderConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-identity-provider-config`.

**AWS CLI**  
**Jelaskan konfigurasi penyedia identitas yang terkait dengan Amazon EKS Cluster**  
`describe-identity-provider-config`Contoh berikut menjelaskan konfigurasi penyedia identitas yang terkait dengan Cluster Amazon EKS Anda.  

```
aws eks describe-identity-provider-config \
    --cluster-name my-eks-cluster \
    --identity-provider-config type=oidc,name=my-identity-provider
```
Output:  

```
{
    "identityProviderConfig": {
        "oidc": {
            "identityProviderConfigName": "my-identity-provider",
            "identityProviderConfigArn": "arn:aws:eks:us-east-2:111122223333:identityproviderconfig/my-eks-cluster/oidc/my-identity-provider/8ac76722-78e4-cec1-ed76-d49eea058622",
            "clusterName": "my-eks-cluster",
            "issuerUrl": "https://oidc.eks.us-east-2.amazonaws.com/id/38D6A4619A0A69E342B113ED7F1A7652",
            "clientId": "kubernetes",
            "usernameClaim": "email",
            "usernamePrefix": "my-username-prefix",
            "groupsClaim": "my-claim",
            "groupsPrefix": "my-groups-prefix",
            "requiredClaims": {
                "Claim1": "value1",
                "Claim2": "value2"
            },
            "tags": {
                "env": "dev"
            },
            "status": "ACTIVE"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna untuk klaster Anda dari penyedia identitas OpenID Connect](https://docs.aws.amazon.com/eks/latest/userguide/authenticate-oidc-identity-provider.html) *di Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [DescribeIdentityProviderConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-identity-provider-config.html)di *Referensi AWS CLI Perintah*. 

### `describe-insight`
<a name="eks_DescribeInsight_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-insight`.

**AWS CLI**  
**Untuk mendapatkan detail wawasan untuk kluster EKS menggunakan ID-nya**  
`describe-insight`Contoh berikut mengembalikan rincian tentang wawasan yang ditentukan menggunakan nama cluster dan ID wawasan.  

```
aws eks describe-insight \
    --cluster-name eks-customer \
    --id 38ea7a64-a14f-4e0e-95c7-8dbcab3c3623
```
Output:  

```
{
    "insight": {
        "id": "38ea7a64-a14f-4e0e-95c7-8dbcab3c3623",
        "name": "Kubelet version skew",
        "category": "UPGRADE_READINESS",
        "kubernetesVersion": "1.33",
        "lastRefreshTime": "2025-05-24T11:22:50-05:00",
        "lastTransitionTime": "2025-05-24T11:22:50-05:00",
        "description": "Checks for kubelet versions of worker nodes in the cluster to see if upgrade would cause noncompliance with supported Kubernetes kubelet version skew policy.",
        "insightStatus": {
            "status": "PASSING",
            "reason": "Node kubelet versions match the cluster control plane version."
        },
        "recommendation": "Upgrade your worker nodes to match the Kubernetes version of your cluster control plane.",
        "additionalInfo": {
            "Kubelet version skew policy": "https://kubernetes.io/releases/version-skew-policy/#kubelet",
            "Updating a managed node group": "https://docs.aws.amazon.com/eks/latest/userguide/update-managed-node-group.html"
        },
        "resources": [],
        "categorySpecificSummary": {
            "deprecationDetails": []
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat wawasan klaster](https://docs.aws.amazon.com/eks/latest/userguide/view-cluster-insights.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [DescribeInsight](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-insight.html)di *Referensi AWS CLI Perintah*. 

### `describe-nodegroup`
<a name="eks_DescribeNodegroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-nodegroup`.

**AWS CLI**  
**Jelaskan grup node terkelola untuk kluster Amazon EKS**  
`describe-nodegroup`Contoh berikut menjelaskan grup node terkelola untuk klaster Amazon EKS.  

```
aws eks describe-nodegroup \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup
```
Output:  

```
{
    "nodegroup": {
        "nodegroupName": "my-eks-nodegroup",
        "nodegroupArn": "arn:aws:eks:us-east-2:111122223333:nodegroup/my-eks-cluster/my-eks-nodegroup/a8c75f2f-df78-a72f-4063-4b69af3de5b1",
        "clusterName": "my-eks-cluster",
        "version": "1.26",
        "releaseVersion": "1.26.12-20240329",
        "createdAt": "2024-04-08T11:42:10.555000-04:00",
        "modifiedAt": "2024-04-08T11:44:12.402000-04:00",
        "status": "ACTIVE",
        "capacityType": "ON_DEMAND",
        "scalingConfig": {
            "minSize": 1,
            "maxSize": 3,
            "desiredSize": 1
        },
        "instanceTypes": [
            "t3.medium"
        ],
        "subnets": [
            "subnet-0e2907431c9988b72",
            "subnet-04ad87f71c6e5ab4d",
            "subnet-09d912bb63ef21b9a"
        ],
        "amiType": "AL2_x86_64",
        "nodeRole": "arn:aws:iam::111122223333:role/role-name",
        "labels": {},
        "resources": {
            "autoScalingGroups": [
                {
                    "name": "eks-my-eks-nodegroup-a8c75f2f-df78-a72f-4063-4b69af3de5b1"
                }
            ]
        },
        "diskSize": 20,
        "health": {
            "issues": []
        },
        "updateConfig": {
            "maxUnavailable": 1
        },
        "tags": {}
    }
}
```
+  Untuk detail API, lihat [DescribeNodegroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-nodegroup.html)di *Referensi AWS CLI Perintah*. 

### `describe-pod-identity-association`
<a name="eks_DescribePodIdentityAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-pod-identity-association`.

**AWS CLI**  
**Untuk memberikan rincian tentang asosiasi Pod Identity**  
`describe-pod-identity-association`Contoh berikut menjelaskan asosiasi Pod Identity di cluster EKS.  

```
aws eks describe-pod-identity-association \
    --cluster-name eks-customer \
    --association-id a-9njjin9gfghecgocd
```
Output:  

```
{
    "association": {
        "clusterName": "eks-customer",
        "namespace": "default",
        "serviceAccount": "default",
        "roleArn": "arn:aws:iam::111122223333:role/my-role",
        "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-9njjin9gfghecgocd",
        "associationId": "a-9njjin9gfghecgocd",
        "tags": {
            "Key2": "value2",
            "Key1": "value1"
        },
        "createdAt": "2025-05-24T19:52:14.135000-05:00",
        "modifiedAt": "2025-05-24T19:52:14.135000-05:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Pelajari cara EKS Pod Identity memberikan Pod akses ke AWS layanan](https://docs.aws.amazon.com/eks/latest/userguide/pod-identities.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [DescribePodIdentityAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-pod-identity-association.html)di *Referensi AWS CLI Perintah*. 

### `describe-update`
<a name="eks_DescribeUpdate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-update`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan pembaruan untuk klaster**  
`describe-update`Contoh berikut menjelaskan pembaruan untuk cluster bernama.  

```
aws eks describe-update \
    --name my-eks-cluster \
    --update-id 10bddb13-a71b-425a-b0a6-71cd03e59161
```
Output:  

```
{
    "update": {
        "id": "10bddb13-a71b-425a-b0a6-71cd03e59161",
        "status": "Successful",
        "type": "EndpointAccessUpdate",
        "params": [
            {
                "type": "EndpointPublicAccess",
                "value": "false"
            },
            {
                "type": "EndpointPrivateAccess",
                "value": "true"
            }
        ],
        "createdAt": "2024-03-14T10:01:26.297000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui versi Kubernetes cluster Amazon EKS di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/update-cluster.html) Pengguna *Amazon EKS*.  
**Contoh 2: Untuk mendeskripsikan pembaruan untuk klaster**  
`describe-update`Contoh berikut menjelaskan pembaruan untuk cluster bernama.  

```
aws eks describe-update \
    --name my-eks-cluster \
    --update-id e4994991-4c0f-475a-a040-427e6da52966
```
Output:  

```
{
    "update": {
        "id": "e4994991-4c0f-475a-a040-427e6da52966",
        "status": "Successful",
        "type": "AssociateEncryptionConfig",
        "params": [
            {
                "type": "EncryptionConfig",
                "value": "[{\"resources\":[\"secrets\"],\"provider\":{\"keyArn\":\"arn:aws:kms:region-code:account:key/key\"}}]"
            }
        ],
        "createdAt": "2024-03-14T11:01:26.297000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui versi Kubernetes cluster Amazon EKS di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/update-cluster.html) Pengguna *Amazon EKS*.  
**Contoh 3: Untuk mendeskripsikan pembaruan untuk klaster**  
`describe-update`Contoh berikut menjelaskan pembaruan untuk cluster bernama.  

```
aws eks describe-update \
    --name my-eks-cluster \
    --update-id b5f0ba18-9a87-4450-b5a0-825e6e84496f
```
Output:  

```
{
    "update": {
        "id": "b5f0ba18-9a87-4450-b5a0-825e6e84496f",
        "status": "Successful",
        "type": "VersionUpdate",
        "params": [
            {
                "type": "Version",
                "value": "1.29"
            },
            {
                "type": "PlatformVersion",
                "value": "eks.1"
            }
        ],
        "createdAt": "2024-03-14T12:05:26.297000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui versi Kubernetes cluster Amazon EKS di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/update-cluster.html) Pengguna *Amazon EKS*.  
+  Untuk detail API, lihat [DescribeUpdate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/describe-update.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-access-policy`
<a name="eks_DisassociateAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-access-policy`.

**AWS CLI**  
**Untuk memisahkan kebijakan akses dari entri akses**  
Berikut ini `disassociate-access-policy` menghapus kebijakan akses yang terkait dengan entri akses.  

```
aws eks disassociate-access-policy \
    --cluster-name eks-customer \
    --principal-arn arn:aws:iam::111122223333:role/Admin \
    --policy-arn arn:aws:eks::aws:cluster-access-policy/AmazonEKSEditPolicy
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaitkan kebijakan akses dengan entri](https://docs.aws.amazon.com/eks/latest/userguide/access-policies.html) akses di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [DisassociateAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/disassociate-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-identity-provider-config`
<a name="eks_DisassociateIdentityProviderConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-identity-provider-config`.

**AWS CLI**  
**Pisahkan penyedia identitas ke Amazon EKS Cluster Anda**  
`disassociate-identity-provider-config`Contoh berikut memisahkan penyedia identitas ke Amazon EKS Cluster Anda.  

```
aws eks disassociate-identity-provider-config \
    --cluster-name my-eks-cluster \
    --identity-provider-config 'type=oidc,name=my-identity-provider'
```
Output:  

```
{
    "update": {
        "id": "5f78d14e-c57b-4857-a3e4-cf664ae20949",
        "status": "InProgress",
        "type": "DisassociateIdentityProviderConfig",
        "params": [
            {
                "type": "IdentityProviderConfig",
                "value": "[]"
            }
        ],
        "createdAt": "2024-04-11T13:53:43.314000-04:00",
        "errors": []
    }
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna untuk klaster Anda dari penyedia identitas OpenID Connect - Lepaskan penyedia identitas OIDC dari klaster Anda di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/authenticate-oidc-identity-provider.html#disassociate-oidc-identity-provider) Pengguna Amazon EKS.*  
+  Untuk detail API, lihat [DisassociateIdentityProviderConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/disassociate-identity-provider-config.html)di *Referensi AWS CLI Perintah*. 

### `get-token`
<a name="eks_GetToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-token`.

**AWS CLI**  
**Contoh 1: Dapatkan token otentikasi untuk Cluster Amazon EKS bernama `` my-eks-cluster**  
`get-token`Contoh berikut mendapatkan token otentikasi untuk Amazon EKS Cluster bernama my-eks-cluster.  

```
aws eks get-token \
    --cluster-name my-eks-cluster
```
Output:  

```
{
    "kind": "ExecCredential",
    "apiVersion": "client.authentication.k8s.io/v1beta1",
    "spec": {},
    "status": {
        "expirationTimestamp": "2024-04-11T20:59:56Z",
        "token": "k8s-aws-v1.EXAMPLE_TOKEN_DATA_STRING..."
    }
}
```
**Contoh 2: Mendapatkan token otentikasi untuk Cluster Amazon EKS bernama `my-eks-cluster` dengan mengasumsikan RoLearn ini untuk kredensi saat menandatangani token**  
`get-token`Contoh berikut mendapatkan token otentikasi untuk Cluster Amazon EKS bernama my-eks-cluster dengan mengasumsikan RoLearn ini untuk kredensyal saat menandatangani token.  

```
aws eks get-token \
    --cluster-name my-eks-cluster \
    --role-arn arn:aws:iam::111122223333:role/eksctl-EKS-Linux-Cluster-v1-24-cluster-ServiceRole-j1k7AfTIQtnM
```
Output:  

```
{
    "kind": "ExecCredential",
    "apiVersion": "client.authentication.k8s.io/v1beta1",
    "spec": {},
    "status": {
        "expirationTimestamp": "2024-04-11T21:05:26Z",
        "token": "k8s-aws-v1.EXAMPLE_TOKEN_DATA_STRING..."
    }
}
```
+  Untuk detail API, lihat [GetToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/get-token.html)di *Referensi AWS CLI Perintah*. 

### `list-access-entries`
<a name="eks_ListAccessEntries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-access-entries`.

**AWS CLI**  
**Untuk membuat daftar entri akses untuk kluster EKS**  
Berikut ini `list-access-entries` mengembalikan daftar entri akses yang terkait dengan cluster `eks-customer` EKS.  

```
aws eks list-access-entries \
    --cluster-name eks-customer
```
Output:  

```
{
    "accessEntries": [
        "arn:aws:iam::111122223333:role/Admin",
        "arn:aws:iam::111122223333:role/admin-test-ip",
        "arn:aws:iam::111122223333:role/assume-worker-node-role",
        "arn:aws:iam::111122223333:user/eks-admin-user"
    ]
}
```
Untuk informasi selengkapnya, lihat [Berikan akses kepada pengguna IAM ke Kubernetes dengan entri akses EKS](https://docs.aws.amazon.com/eks/latest/userguide/access-entries.html) di Panduan Pengguna *Amazon* EKS.  
+  Untuk detail API, lihat [ListAccessEntries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-access-entries.html)di *Referensi AWS CLI Perintah*. 

### `list-access-policies`
<a name="eks_ListAccessPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-access-policies`.

**AWS CLI**  
**Untuk mencantumkan semua kebijakan akses yang tersedia**  
`list-access-policies`Contoh ini mengembalikan daftar semua kebijakan akses yang tersedia.  

```
aws eks list-access-policies
```
Output:  

```
{
    "accessPolicies": [
        {
            "name": "AmazonEKSAdminPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSAdminPolicy"
        },
        {
            "name": "AmazonEKSAdminViewPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSAdminViewPolicy"
        },
        {
            "name": "AmazonEKSAutoNodePolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSAutoNodePolicy"
        },
        {
            "name": "AmazonEKSBlockStorageClusterPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSBlockStorageClusterPolicy"
        },
        {
            "name": "AmazonEKSBlockStoragePolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSBlockStoragePolicy"
        },
        {
            "name": "AmazonEKSClusterAdminPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSClusterAdminPolicy"
        },
        {
            "name": "AmazonEKSComputeClusterPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSComputeClusterPolicy"
        },
        {
            "name": "AmazonEKSComputePolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSComputePolicy"
        },
        {
            "name": "AmazonEKSEditPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSEditPolicy"
        },
        {
            "name": "AmazonEKSHybridPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSHybridPolicy"
        },
        {
            "name": "AmazonEKSLoadBalancingClusterPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSLoadBalancingClusterPolicy"
        },
        {
            "name": "AmazonEKSLoadBalancingPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSLoadBalancingPolicy"
        },
        {
            "name": "AmazonEKSNetworkingClusterPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSNetworkingClusterPolicy"
        },
        {
            "name": "AmazonEKSNetworkingPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSNetworkingPolicy"
        },
        {
            "name": "AmazonEKSViewPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSViewPolicy"
        },
        {
            "name": "AmazonEMRJobPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonEMRJobPolicy"
        },
        {
            "name": "AmazonSagemakerHyperpodClusterPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonSagemakerHyperpodClusterPolicy"
        },
        {
            "name": "AmazonSagemakerHyperpodControllerPolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonSagemakerHyperpodControllerPolicy"
        },
        {
            "name": "AmazonSagemakerHyperpodSystemNamespacePolicy",
            "arn": "arn:aws:eks::aws:cluster-access-policy/AmazonSagemakerHyperpodSystemNamespacePolicy"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan kebijakan akses dengan entri](https://docs.aws.amazon.com/eks/latest/userguide/access-policies.html) akses di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [ListAccessPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-access-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-addons`
<a name="eks_ListAddons_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-addons`.

**AWS CLI**  
**Buat daftar semua add-on yang diinstal di cluster Amazon EKS Anda bernama `` my-eks-cluster**  
`list-addons`Contoh berikut mencantumkan semua add-on yang diinstal di klaster Amazon EKS Anda bernama my-eks-cluster.  

```
aws eks list-addons \
    --cluster-name my-eks-cluster
```
Output:  

```
{
    "addons": [
        "kube-proxy",
        "vpc-cni"
    ]
}
```
+  Untuk detail API, lihat [ListAddons](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-addons.html)di *Referensi AWS CLI Perintah*. 

### `list-associated-access-policies`
<a name="eks_ListAssociatedAccessPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-associated-access-policies`.

**AWS CLI**  
**Untuk mencantumkan kebijakan akses yang terkait dengan entri akses**  
`list-associated-access-policies`Contoh berikut mengembalikan daftar kebijakan akses yang terkait dengan entri akses di kluster EKS.  

```
aws eks list-associated-access-policies \
    --cluster-name eks-customer \
    --principal-arn arn:aws:iam::111122223333:role/Admin
```
Output:  

```
{
    "associatedAccessPolicies": [
        {
            "policyArn": "arn:aws:eks::aws:cluster-access-policy/AmazonEKSAdminPolicy",
            "accessScope": {
                "type": "cluster",
                "namespaces": []
            },
            "associatedAt": "2025-05-24T17:26:22.935000-05:00",
            "modifiedAt": "2025-05-24T17:26:22.935000-05:00"
        }
    ],
    "clusterName": "eks-customer",
    "principalArn": "arn:aws:iam::111122223333:role/Admin"
}
```
Untuk informasi selengkapnya, lihat [Berikan akses kepada pengguna IAM ke Kubernetes dengan entri akses EKS](https://docs.aws.amazon.com/eks/latest/userguide/access-entries.html) di Panduan Pengguna *Amazon* EKS.  
+  Untuk detail API, lihat [ListAssociatedAccessPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-associated-access-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-clusters`
<a name="eks_ListClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-clusters`.

**AWS CLI**  
**Untuk mencantumkan semua add-on yang diinstal di cluster Amazon EKS Anda bernama `` my-eks-cluster**  
`list-clusters`Contoh berikut mencantumkan semua add-on yang diinstal di klaster Amazon EKS Anda bernama my-eks-cluster.  

```
aws eks list-clusters
```
Output:  

```
{
    "clusters": [
        "prod",
        "qa",
        "stage",
        "my-eks-cluster"
    ]
}
```
+  Untuk detail API, lihat [ListClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-clusters.html)di *Referensi AWS CLI Perintah*. 

### `list-fargate-profiles`
<a name="eks_ListFargateProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-fargate-profiles`.

**AWS CLI**  
**Untuk membuat daftar semua profil fargate di cluster Amazon EKS Anda bernama `` my-eks-cluster**  
`list-fargate-profiles`Contoh berikut mencantumkan semua profil fargate di klaster Amazon EKS Anda bernama my-eks-cluster.  

```
aws eks list-fargate-profiles \
    --cluster-name my-eks-cluster
```
Output:  

```
{
    "fargateProfileNames": [
        "my-fargate-profile"
    ]
}
```
+  Untuk detail API, lihat [ListFargateProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-fargate-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-identity-provider-configs`
<a name="eks_ListIdentityProviderConfigs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-identity-provider-configs`.

**AWS CLI**  
**Daftar penyedia identitas yang terkait dengan Amazon EKS Cluster**  
`list-identity-provider-configs`Contoh berikut mencantumkan penyedia identitas yang terkait dengan Amazon EKS Cluster.  

```
aws eks list-identity-provider-configs \
    --cluster-name my-eks-cluster
```
Output:  

```
{
    "identityProviderConfigs": [
        {
            "type": "oidc",
            "name": "my-identity-provider"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna untuk klaster Anda dari penyedia identitas OpenID Connect](https://docs.aws.amazon.com/eks/latest/userguide/authenticate-oidc-identity-provider.html) *di Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [ListIdentityProviderConfigs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-identity-provider-configs.html)di *Referensi AWS CLI Perintah*. 

### `list-insights`
<a name="eks_ListInsights_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-insights`.

**AWS CLI**  
**Untuk mencantumkan semua wawasan untuk klaster yang ditentukan**  
`list-insights`Contoh berikut mengembalikan daftar semua wawasan diperiksa terhadap cluster tertentu.  

```
aws eks list-insights \
--cluster-name eks-customer
```
Output:  

```
{
    "insights": [
        {
            "id": "38ea7a64-a14f-4e0e-95c7-8dbcab3c3616",
            "name": "Kubelet version skew",
            "category": "UPGRADE_READINESS",
            "kubernetesVersion": "1.33",
            "lastRefreshTime": "2025-05-24T11:22:50-05:00",
            "lastTransitionTime": "2025-05-24T11:22:50-05:00",
            "description": "Checks for kubelet versions of worker nodes in the cluster to see if upgrade would cause noncompliance with supported Kubernetes kubelet version skew policy.",
            "insightStatus": {
                "status": "PASSING",
                "reason": "Node kubelet versions match the cluster control plane version."
            }
        },
        {
            "id": "9cd91472-f99c-45a9-b7d7-54d4900dee23",
            "name": "EKS add-on version compatibility",
            "category": "UPGRADE_READINESS",
            "kubernetesVersion": "1.33",
            "lastRefreshTime": "2025-05-24T11:22:59-05:00",
            "lastTransitionTime": "2025-05-24T11:22:50-05:00",
            "description": "Checks version of installed EKS add-ons to ensure they are compatible with the next version of Kubernetes. ",
            "insightStatus": {
                "status": "PASSING",
                "reason": "All installed EKS add-on versions are compatible with next Kubernetes version."
            }
        },
        {
            "id": "0deb269d-b1e1-458c-a2b4-7a57f940c875",
            "name": "Cluster health issues",
            "category": "UPGRADE_READINESS",
            "kubernetesVersion": "1.33",
            "lastRefreshTime": "2025-05-24T11:22:59-05:00",
            "lastTransitionTime": "2025-05-24T11:22:50-05:00",
            "description": "Checks for any cluster health issues that prevent successful upgrade to the next Kubernetes version on EKS.",
            "insightStatus": {
                "status": "PASSING",
                "reason": "No cluster health issues detected."
            }
        },
        {
            "id": "214fa274-344f-420b-812a-5049ce72c9ww",
            "name": "kube-proxy version skew",
            "category": "UPGRADE_READINESS",
            "kubernetesVersion": "1.33",
            "lastRefreshTime": "2025-05-24T11:22:50-05:00",
            "lastTransitionTime": "2025-05-24T11:22:50-05:00",
            "description": "Checks version of kube-proxy in cluster to see if upgrade would cause noncompliance with supported Kubernetes kube-proxy version skew policy.",
            "insightStatus": {
                "status": "PASSING",
                "reason": "kube-proxy versions match the cluster control plane version."
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat wawasan klaster](https://docs.aws.amazon.com/eks/latest/userguide/view-cluster-insights.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [ListInsights](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-insights.html)di *Referensi AWS CLI Perintah*. 

### `list-nodegroups`
<a name="eks_ListNodegroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-nodegroups`.

**AWS CLI**  
**Buat daftar semua grup simpul di cluster Amazon EKS**  
`list-nodegroups`Contoh berikut mencantumkan semua grup node dalam cluster Amazon EKS.  

```
aws eks list-nodegroups \
    --cluster-name my-eks-cluster
```
Output:  

```
{
    "nodegroups": [
        "my-eks-managed-node-group",
        "my-eks-nodegroup"
    ]
}
```
+  Untuk detail API, lihat [ListNodegroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-nodegroups.html)di *Referensi AWS CLI Perintah*. 

### `list-pod-identity-associations`
<a name="eks_ListPodIdentityAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pod-identity-associations`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar asosiasi Pod Identity dalam klaster EKS**  
Berikut ini `list-pod-identity-associations` menampilkan daftar asosiasi Pod Identity yang terkait dengan klaster EKS yang dinamai `eks-customer` di semua namespace dan akun layanan.  

```
aws eks list-pod-identity-associations \
    --cluster-name eks-customer
```
Output:  

```
{
    "associations": [
        {
            "clusterName": "eks-customer",
            "namespace": "default",
            "serviceAccount": "default",
            "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-9njjin9gfghecgocd",
            "associationId": "a-9njjin9gfghecgocd"
        },
        {
            "clusterName": "eks-customer",
            "namespace": "kube-system",
            "serviceAccount": "eks-customer",
            "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-dvtacahdvjn01ffbc",
            "associationId": "a-dvtacahdvjn01ffbc"
        },
        {
            "clusterName": "eks-customer",
            "namespace": "kube-system",
            "serviceAccount": "coredns",
            "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-yrpsdroc4ei7k6xps",
            "associationId": "a-yrpsdroc4ei7k6xps"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pelajari cara EKS Pod Identity memberikan Pod akses ke AWS layanan](https://docs.aws.amazon.com/eks/latest/userguide/pod-identities.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Untuk membuat daftar asosiasi Pod Identity dalam klaster EKS berdasarkan namespace dan akun layanan**  
Berikut ini `list-pod-identity-associations` mengembalikan daftar asosiasi Pod Identity di klaster EKS berdasarkan namespace dan akun layanan.  

```
aws eks list-pod-identity-associations \
    --cluster-name eks-customer \
    --namespace kube-system \
    --service-account eks-customer
```
Output:  

```
{
    "associations": [
        {
            "clusterName": "eks-customer",
            "namespace": "kube-system",
            "serviceAccount": "eks-customer",
            "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-dvtacahdvjn01ffbc",
            "associationId": "a-dvtacahdvjn01ffbc"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pelajari cara EKS Pod Identity memberikan Pod akses ke AWS layanan](https://docs.aws.amazon.com/eks/latest/userguide/pod-identities.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [ListPodIdentityAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-pod-identity-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="eks_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Contoh 1: Untuk daftar semua tag untuk Amazon EKS Cluster ARN**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk Amazon EKS Cluster ARN.  

```
aws eks list-tags-for-resource \
    --resource-arn arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster
```
Output:  

```
{
    "tags": {
        "aws:cloudformation:stack-name": "eksctl-my-eks-cluster-cluster",
        "alpha.eksctl.io/cluster-name": "my-eks-cluster",
        "karpenter.sh/discovery": "my-eks-cluster",
        "aws:cloudformation:stack-id": "arn:aws:cloudformation:us-east-2:111122223333:stack/eksctl-my-eks-cluster-cluster/e752ea00-e217-11ee-beae-0a9599c8c7ed",
        "auto-delete": "no",
        "eksctl.cluster.k8s.io/v1alpha1/cluster-name": "my-eks-cluster",
        "EKS-Cluster-Name": "my-eks-cluster",
        "alpha.eksctl.io/cluster-oidc-enabled": "true",
        "aws:cloudformation:logical-id": "ControlPlane",
        "alpha.eksctl.io/eksctl-version": "0.173.0-dev+a7ee89342.2024-03-01T03:40:57Z",
        "Name": "eksctl-my-eks-cluster-cluster/ControlPlane"
    }
}
```
**Contoh 2: Untuk mencantumkan semua tag untuk grup Amazon EKS Node ARN**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk grup Amazon EKS Node ARN.  

```
aws eks list-tags-for-resource \
    --resource-arn arn:aws:eks:us-east-2:111122223333:nodegroup/my-eks-cluster/my-eks-managed-node-group/60c71ed2-2cfb-020f-a5f4-ad32477f198c
```
Output:  

```
{
    "tags": {
        "aws:cloudformation:stack-name": "eksctl-my-eks-cluster-nodegroup-my-eks-managed-node-group",
        "aws:cloudformation:stack-id": "arn:aws:cloudformation:us-east-2:111122223333:stack/eksctl-my-eks-cluster-nodegroup-my-eks-managed-node-group/eaa20310-e219-11ee-b851-0ab9ad8228ff",
        "eksctl.cluster.k8s.io/v1alpha1/cluster-name": "my-eks-cluster",
        "EKS-Cluster-Name": "my-eks-cluster",
        "alpha.eksctl.io/nodegroup-type": "managed",
        "NodeGroup Name 1": "my-eks-managed-node-group",
        "k8s.io/cluster-autoscaler/enabled": "true",
        "nodegroup-role": "worker",
        "alpha.eksctl.io/cluster-name": "my-eks-cluster",
        "alpha.eksctl.io/nodegroup-name": "my-eks-managed-node-group",
        "karpenter.sh/discovery": "my-eks-cluster",
        "NodeGroup Name 2": "AmazonLinux-Linux-Managed-NG-v1-26-v1",
        "auto-delete": "no",
        "k8s.io/cluster-autoscaler/my-eks-cluster": "owned",
        "aws:cloudformation:logical-id": "ManagedNodeGroup",
        "alpha.eksctl.io/eksctl-version": "0.173.0-dev+a7ee89342.2024-03-01T03:40:57Z"
    }
}
```
**Contoh 3: Untuk mencantumkan semua tag pada profil Amazon EKS Fargate ARNe**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk profil Amazon EKS Fargate ARN.  

```
aws eks list-tags-for-resource  \
    --resource-arn arn:aws:eks:us-east-2:111122223333:fargateprofile/my-eks-cluster/my-fargate-profile/d6c76780-e541-0725-c816-36754cab734b
```
Output:  

```
{
    "tags": {
        "eks-fargate-profile-key-2": "value-2",
        "eks-fargate-profile-key-1": "value-1"
    }
}
```
**Contoh 4: Untuk mencantumkan semua tag untuk ARN Add-on Amazon EKS**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk ARN Add-on Amazon EKS.  

```
aws eks list-tags-for-resource \
    --resource-arn arn:aws:eks:us-east-2:111122223333:addon/my-eks-cluster/vpc-cni/0ec71efc-98dd-3203-60b0-4b939b2a5e5f
```
Output:  

```
{
    "tags": {
        "eks-addon-key-2": "value-2",
        "eks-addon-key-1": "value-1"
    }
}
```
**Contoh 5: Untuk mencantumkan semua tag untuk penyedia identitas Amazon EKS OIDC ARN**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk ARN penyedia identitas Amazon EKS OIDC.  

```
aws eks list-tags-for-resource \
    --resource-arn arn:aws:eks:us-east-2:111122223333:identityproviderconfig/my-eks-cluster/oidc/my-identity-provider/8ac76722-78e4-cec1-ed76-d49eea058622
```
Output:  

```
{
    "tags": {
        "my-identity-provider": "test"
    }
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-update`
<a name="eks_ListUpdate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-update`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan pembaruan yang terkait dengan nama Amazon EKS Cluster**  
`list-updates`Contoh berikut mencantumkan semua pembaruan IDs untuk nama Amazon EKS Cluster.  

```
aws eks list-updates \
    --name my-eks-cluster
```
Output:  

```
{
    "updateIds": [
        "5f78d14e-c57b-4857-a3e4-cf664ae20949",
        "760e5a3f-adad-48c7-88d3-7ac283c09c26",
        "cd4ec863-bc55-47d5-a377-3971502f529b",
        "f12657ce-e869-4f17-b158-a82ab8b7d937"
    ]
}
```
**Contoh 2: Untuk mencantumkan semua pembaruan IDs untuk grup Amazon EKS Node**  
`list-updates`Contoh berikut mencantumkan semua pembaruan IDs untuk grup Amazon EKS Node.  

```
aws eks list-updates \
    --name my-eks-cluster \
    --nodegroup-name my-eks-managed-node-group
```
Output:  

```
{
    "updateIds": [
        "8c6c1bef-61fe-42ac-a242-89412387b8e7"
    ]
}
```
**Contoh 3: Untuk mencantumkan semua pembaruan IDs di Amazon EKS Add-one**  
`list-updates`Contoh berikut mencantumkan semua pembaruan IDs untuk Add-on Amazon EKS.  

```
aws eks list-updates \
    --name my-eks-cluster \
    --addon-name vpc-cni
```
Output:  

```
{
    "updateIds": [
        "9cdba8d4-79fb-3c83-afe8-00b508d33268"
    ]
}
```
+  Untuk detail API, lihat [ListUpdate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-update.html)di *Referensi AWS CLI Perintah*. 

### `list-updates`
<a name="eks_ListUpdates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-updates`.

**AWS CLI**  
**Untuk membuat daftar pembaruan untuk klaster**  
Perintah contoh ini mencantumkan pembaruan saat ini untuk klaster bernama `example` di wilayah default Anda.  
Perintah:  

```
aws eks list-updates --name example
```
Output:  

```
{
    "updateIds": [
        "10bddb13-a71b-425a-b0a6-71cd03e59161"
    ]
}
```
+  Untuk detail API, lihat [ListUpdates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/list-updates.html)di *Referensi AWS CLI Perintah*. 

### `register-cluster`
<a name="eks_RegisterCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-cluster`.

**AWS CLI**  
**Contoh 1: Daftarkan klaster Eks\$1ANYWHERE Kubernetes eksternal ke Amazon EKS**  
`register-cluster`Contoh berikut mendaftarkan klaster Eks\$1ANYWHERE Kubernetes eksternal ke Amazon EKS.  

```
aws eks register-cluster \
    --name my-eks-anywhere-cluster \
    --connector-config 'roleArn=arn:aws:iam::111122223333:role/AmazonEKSConnectorAgentRole,provider=EKS_ANYWHERE'
```
Output:  

```
{
    "cluster": {
        "name": "my-eks-anywhere-cluster",
        "arn": "arn:aws:eks:us-east-2:111122223333:cluster/my-eks-anywhere-cluster",
        "createdAt": "2024-04-12T12:38:37.561000-04:00",
        "status": "PENDING",
        "tags": {},
        "connectorConfig": {
            "activationId": "xxxxxxxxACTIVATION_IDxxxxxxxx",
            "activationCode": "xxxxxxxxACTIVATION_CODExxxxxxxx",
            "activationExpiry": "2024-04-15T12:38:37.082000-04:00",
            "provider": "EKS_ANYWHERE",
            "roleArn": "arn:aws:iam::111122223333:role/AmazonEKSConnectorAgentRole"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menghubungkan klaster eksternal](https://docs.aws.amazon.com/eks/latest/userguide/connecting-cluster.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Daftarkan klaster Kubernetes eksternal ke Amazon EKS**  
`register-cluster`Contoh berikut mendaftarkan klaster Eks\$1ANYWHERE Kubernetes eksternal ke Amazon EKS.  

```
aws eks register-cluster \
    --name my-eks-anywhere-cluster \
    --connector-config 'roleArn=arn:aws:iam::111122223333:role/AmazonEKSConnectorAgentRole,provider=OTHER'
```
Output:  

```
{
    "cluster": {
        "name": "my-onprem-k8s-cluster",
        "arn": "arn:aws:eks:us-east-2:111122223333:cluster/my-onprem-k8s-cluster",
        "createdAt": "2024-04-12T12:42:10.861000-04:00",
        "status": "PENDING",
        "tags": {},
        "connectorConfig": {
            "activationId": "xxxxxxxxACTIVATION_IDxxxxxxxx",
            "activationCode": "xxxxxxxxACTIVATION_CODExxxxxxxx",
            "activationExpiry": "2024-04-15T12:42:10.339000-04:00",
            "provider": "OTHER",
            "roleArn": "arn:aws:iam::111122223333:role/AmazonEKSConnectorAgentRole"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menghubungkan klaster eksternal](https://docs.aws.amazon.com/eks/latest/userguide/connecting-cluster.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [RegisterCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/register-cluster.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="eks_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan tag yang ditentukan ke Cluster Amazon EKS**  
`tag-resource`Contoh berikut menambahkan tag yang ditentukan ke Amazon EKS Cluster.  

```
aws eks tag-resource \
    --resource-arn arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster \
    --tag 'my-eks-cluster-test-1=test-value-1,my-eks-cluster-dev-1=dev-value-2'
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menambahkan tag yang ditentukan ke grup Amazon EKS Node**  
`tag-resource`Contoh berikut menambahkan tag yang ditentukan ke grup Amazon EKS Node.  

```
aws eks tag-resource \
    --resource-arn arn:aws:eks:us-east-2:111122223333:nodegroup/my-eks-cluster/my-eks-managed-node-group/60c71ed2-2cfb-020f-a5f4-ad32477f198c \
    --tag 'my-eks-nodegroup-test-1=test-value-1,my-eks-nodegroup-dev-1=dev-value-2'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="eks_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menghapus tag yang ditentukan dari Cluster Amazon EKS**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan dari Amazon EKS Cluster.  

```
aws eks untag-resource \
    --resource-arn arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster \
    --tag-keys "my-eks-cluster-test-1" "my-eks-cluster-dev-1"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menghapus tag yang ditentukan dari grup Amazon EKS Node**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan dari grup Amazon EKS Node.  

```
aws eks untag-resource \
    --resource-arn arn:aws:eks:us-east-2:111122223333:nodegroup/my-eks-cluster/my-eks-managed-node-group/60c71ed2-2cfb-020f-a5f4-ad32477f198c \
    --tag-keys "my-eks-nodegroup-test-1" "my-eks-nodegroup-dev-1"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-access-entry`
<a name="eks_UpdateAccessEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-access-entry`.

**AWS CLI**  
**Untuk memperbarui entri akses untuk kluster EKS**  
Berikut ini `update-access-entry` memperbarui entri akses untuk kluster EKS dengan menambahkan grup Kubernetes. `tester`  

```
aws eks update-access-entry \
    --cluster-name eks-customer \
    --principal-arn arn:aws:iam::111122223333:role/Admin \
    --kubernetes-groups tester
```
Output:  

```
{
    "accessEntry": {
        "clusterName": "eks-customer",
        "principalArn": "arn:aws:iam::111122223333:role/Admin",
        "kubernetesGroups": [
            "tester"
        ],
        "accessEntryArn": "arn:aws:eks:us-west-2:111122223333:access-entry/eks-customer/role/111122223333/Admin/d2cb8183-d6ec-b82a-d967-eca21902a4b4",
        "createdAt": "2025-05-24T11:02:04.432000-05:00",
        "modifiedAt": "2025-05-24T17:08:01.608000-05:00",
        "tags": {},
        "username": "arn:aws:sts::111122223333:assumed-role/Admin/{{SessionName}}",
        "type": "STANDARD"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui entri akses](https://docs.aws.amazon.com/eks/latest/userguide/updating-access-entries.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [UpdateAccessEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/update-access-entry.html)di *Referensi AWS CLI Perintah*. 

### `update-addon`
<a name="eks_UpdateAddon_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-addon`.

**AWS CLI**  
**Contoh 1. Untuk memperbarui add-on Amazon EKS dengan peran akun layanan ARN**  
`update-addon`Contoh perintah berikut memperbarui add-on Amazon EKS dengan peran akun layanan ARN.  

```
aws eks update-addon \
    --cluster-name my-eks-cluster \
    --addon-name vpc-cni \
    --service-account-role-arn arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm
```
Output:  

```
{
    "update": {
        "id": "c00d2de2-c2e4-3d30-929e-46b8edec2ce4",
        "status": "InProgress",
        "type": "AddonUpdate",
        "params": [
            {
                "type": "ServiceAccountRoleArn",
                "value": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm"
            }
        ],
        "updatedAt": "2024-04-12T16:04:55.614000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Memperbarui add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#updating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2. Untuk memperbarui add-on Amazon EKS dengan versi add-on tertentu**  
`update-addon`Contoh perintah berikut memperbarui add-on Amazon EKS dengan versi add-on tertentu.  

```
aws eks update-addon \
    --cluster-name my-eks-cluster \
    --addon-name vpc-cni \
    --service-account-role-arn arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm \
    --addon-version v1.16.4-eksbuild.2
```
Output:  

```
{
    "update": {
        "id": "f58dc0b0-2b18-34bd-bc6a-e4abc0011f36",
        "status": "InProgress",
        "type": "AddonUpdate",
        "params": [
            {
                "type": "AddonVersion",
                "value": "v1.16.4-eksbuild.2"
            },
            {
                "type": "ServiceAccountRoleArn",
                "value": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm"
            }
        ],
        "createdAt": "2024-04-12T16:07:16.550000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Memperbarui add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#updating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 3. Untuk memperbarui add-on Amazon EKS dengan nilai konfigurasi khusus dan menyelesaikan detail konflik**  
`update-addon`Contoh perintah berikut memperbarui add-on Amazon EKS dengan nilai konfigurasi khusus dan menyelesaikan detail konflik.  

```
aws eks update-addon \
    --cluster-name my-eks-cluster \
    --addon-name vpc-cni \
    --service-account-role-arn arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm \
    --addon-version v1.16.4-eksbuild.2 \
    --configuration-values '{"resources": {"limits":{"cpu":"100m"}, "requests":{"cpu":"50m"}}}' \
    --resolve-conflicts PRESERVE
```
Output:  

```
{
    "update": {
        "id": "cd9f2173-a8d8-3004-a90f-032f14326520",
        "status": "InProgress",
        "type": "AddonUpdate",
        "params": [
            {
                "type": "AddonVersion",
                "value": "v1.16.4-eksbuild.2"
            },
            {
                "type": "ServiceAccountRoleArn",
                "value": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm"
            },
            {
                "type": "ResolveConflicts",
                "value": "PRESERVE"
            },
            {
                "type": "ConfigurationValues",
                "value": "{\"resources\": {\"limits\":{\"cpu\":\"100m\"}, \"requests\":{\"cpu\":\"50m\"}}}"
            }
        ],
        "createdAt": "2024-04-12T16:16:27.363000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Memperbarui add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#updating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 4. Untuk memperbarui add-on Amazon EKS dengan file nilai konfigurasi JSON kustom**  
`update-addon`Contoh perintah berikut memperbarui add-on Amazon EKS dengan nilai konfigurasi JSON khusus dan menyelesaikan detail konflik.  

```
aws eks update-addon \
    --cluster-name my-eks-cluster \
    --addon-name vpc-cni \
    --service-account-role-arn arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm \
    --addon-version v1.17.1-eksbuild.1 \
    --configuration-values 'file://configuration-values.json' \
    --resolve-conflicts PRESERVE
```
Isi dari `configuration-values.json`:  

```
{
    "resources": {
        "limits": {
            "cpu": "100m"
        },
        "requests": {
            "cpu": "50m"
        }
    },
    "env": {
        "AWS_VPC_K8S_CNI_LOGLEVEL": "ERROR"
    }
}
```
Output:  

```
{
    "update": {
        "id": "6881a437-174f-346b-9a63-6e91763507cc",
        "status": "InProgress",
        "type": "AddonUpdate",
        "params": [
            {
                "type": "AddonVersion",
                "value": "v1.17.1-eksbuild.1"
            },
            {
                "type": "ServiceAccountRoleArn",
                "value": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm"
            },
            {
                "type": "ResolveConflicts",
                "value": "PRESERVE"
            },
            {
                "type": "ConfigurationValues",
                "value": "{\n    \"resources\": {\n        \"limits\": {\n            \"cpu\": \"100m\"\n        },\n        \"requests\": {\n            \"cpu\": \"50m\"\n        }\n    },\n    \"env\": {\n        \"AWS_VPC_K8S_CNI_LOGLEVEL\": \"ERROR\"\n    }\n}"
            }
        ],
        "createdAt": "2024-04-12T16:22:55.519000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Memperbarui add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#updating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
**Contoh 5. Untuk memperbarui add-on Amazon EKS dengan file nilai konfigurasi YAMAL kustom**  
`update-addon`Contoh perintah berikut memperbarui add-on Amazon EKS dengan nilai konfigurasi YAMAL kustom dan menyelesaikan detail konflik.  

```
aws eks update-addon \
    --cluster-name my-eks-cluster \
    --addon-name vpc-cni \
    --service-account-role-arn arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm \
    --addon-version v1.18.0-eksbuild.1 \
    --configuration-values 'file://configuration-values.yaml' \
    --resolve-conflicts PRESERVE
```
Isi dari `configuration-values.yaml`:  

```
resources:
    limits:
        cpu: '100m'
    requests:
        cpu: '50m'
env:
    AWS_VPC_K8S_CNI_LOGLEVEL: 'DEBUG'
```
Output:  

```
{
    "update": {
        "id": "a067a4c9-69d0-3769-ace9-d235c5b16701",
        "status": "InProgress",
        "type": "AddonUpdate",
        "params": [
            {
                "type": "AddonVersion",
                "value": "v1.18.0-eksbuild.1"
            },
            {
                "type": "ServiceAccountRoleArn",
                "value": "arn:aws:iam::111122223333:role/eksctl-my-eks-cluster-addon-vpc-cni-Role1-YfakrqOC1UTm"
            },
            {
                "type": "ResolveConflicts",
                "value": "PRESERVE"
            },
            {
                "type": "ConfigurationValues",
                "value": "resources:\n    limits:\n        cpu: '100m'\n    requests:\n        cpu: '50m'\nenv:\n    AWS_VPC_K8S_CNI_LOGLEVEL: 'DEBUG'"
            }
        ],
        "createdAt": "2024-04-12T16:25:07.212000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola add-on Amazon EKS - Memperbarui add-on](https://docs.aws.amazon.com/eks/latest/userguide/managing-add-ons.html#updating-an-add-on) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [UpdateAddon](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/update-addon.html)di *Referensi AWS CLI Perintah*. 

### `update-cluster-config`
<a name="eks_UpdateClusterConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-cluster-config`.

**AWS CLI**  
**Untuk memperbarui akses titik akhir klaster**  
Perintah contoh ini memperbarui cluster untuk menonaktifkan akses publik titik akhir dan mengaktifkan akses titik akhir pribadi.  
Perintah:  

```
aws eks update-cluster-config --name example \
--resources-vpc-config endpointPublicAccess=false,endpointPrivateAccess=true
```
Output:  

```
{
    "update": {
        "id": "ec883c93-2e9e-407c-a22f-8f6fa6e67d4f",
        "status": "InProgress",
        "type": "EndpointAccessUpdate",
        "params": [
            {
                "type": "EndpointPublicAccess",
                "value": "false"
            },
            {
                "type": "EndpointPrivateAccess",
                "value": "true"
            }
        ],
        "createdAt": 1565806986.506,
        "errors": []
    }
}
```
**Untuk mengaktifkan pencatatan untuk klaster**  
Perintah contoh ini memungkinkan semua jenis logging bidang kontrol cluster untuk sebuah cluster bernama`example`.  
Perintah:  

```
aws eks update-cluster-config --name example \
--logging '{"clusterLogging":[{"types":["api","audit","authenticator","controllerManager","scheduler"],"enabled":true}]}'
```
Output:  

```
{
    "update": {
        "id": "7551c64b-1d27-4b1e-9f8e-c45f056eb6fd",
        "status": "InProgress",
        "type": "LoggingUpdate",
        "params": [
            {
                "type": "ClusterLogging",
                "value": "{\"clusterLogging\":[{\"types\":[\"api\",\"audit\",\"authenticator\",\"controllerManager\",\"scheduler\"],\"enabled\":true}]}"
            }
        ],
        "createdAt": 1565807210.37,
        "errors": []
    }
}
```
+  Untuk detail API, lihat [UpdateClusterConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/update-cluster-config.html)di *Referensi AWS CLI Perintah*. 

### `update-cluster-version`
<a name="eks_UpdateClusterVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-cluster-version`.

**AWS CLI**  
**Untuk memperbarui cluster Amazon EKS bernama `my-eks-cluster` ke versi Kubernetes yang ditentukan**  
`update-cluster-version`Contoh berikut memperbarui kluster Amazon EKS ke versi Kubernetes yang ditentukan.  

```
aws eks update-cluster-version \
    --name my-eks-cluster \
    --kubernetes-version 1.27
```
Output:  

```
{
    "update": {
        "id": "e4091a28-ea14-48fd-a8c7-975aeb469e8a",
        "status": "InProgress",
        "type": "VersionUpdate",
        "params": [
            {
                "type": "Version",
                "value": "1.27"
            },
            {
                "type": "PlatformVersion",
                "value": "eks.16"
            }
        ],
        "createdAt": "2024-04-12T16:56:01.082000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui versi Kubernetes cluster Amazon EKS di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/update-cluster.html) Pengguna *Amazon EKS*.  
+  Untuk detail API, lihat [UpdateClusterVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/update-cluster-version.html)di *Referensi AWS CLI Perintah*. 

### `update-kubeconfig`
<a name="eks_UpdateKubeconfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-kubeconfig`.

**AWS CLI**  
**Contoh 1: Mengonfigurasi kubectl Anda dengan membuat atau memperbarui kubeconfig sehingga Anda dapat terhubung ke Cluster Amazon EKS bernama `` my-eks-cluster**  
`update-kubeconfig`Contoh berikut mengonfigurasi kubectl Anda dengan membuat atau memperbarui kubeconfig sehingga Anda dapat terhubung ke Cluster Amazon EKS bernama. my-eks-cluster  

```
aws eks update-kubeconfig \
    --name my-eks-cluster
```
Output:  

```
Updated context arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster in /Users/xxx/.kube/config
```
Untuk informasi selengkapnya, lihat [Membuat atau memperbarui file kubeconfig untuk klaster Amazon EKS di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/create-kubeconfig.html) Pengguna *Amazon EKS*.  
**Contoh 2: Mengonfigurasi kubectl Anda dengan membuat atau memperbarui kubeconfig (dengan opsi role-arn untuk mengambil peran untuk otentikasi klaster) sehingga Anda dapat terhubung ke Cluster Amazon EKS bernama `` my-eks-cluster**  
`update-kubeconfig`Contoh berikut mengonfigurasi kubectl Anda dengan membuat atau memperbarui kubeconfig (dengan opsi role-arn untuk mengambil peran untuk otentikasi klaster) sehingga Anda dapat terhubung ke Cluster Amazon EKS bernama. my-eks-cluster  

```
aws eks update-kubeconfig \
    --name my-eks-cluster \
    --role-arn arn:aws:iam::111122223333:role/eksctl-EKS-Linux-Cluster-v1-24-cluster-ServiceRole-j1k7AfTIQtnM
```
Output:  

```
Updated context arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster in /Users/xxx/.kube/config
```
Untuk informasi selengkapnya, lihat [Membuat atau memperbarui file kubeconfig untuk klaster Amazon EKS di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/create-kubeconfig.html) Pengguna *Amazon EKS*.  
**Contoh 3: Mengonfigurasi kubectl Anda dengan membuat atau memperbarui kubeconfig (dengan opsi role-arn untuk mengambil peran untuk otentikasi klaster bersama dengan alias cluster khusus dan alias pengguna) sehingga Anda dapat terhubung ke Cluster Amazon EKS bernama `` my-eks-cluster**  
`update-kubeconfig`Contoh berikut mengonfigurasi kubectl Anda dengan membuat atau memperbarui kubeconfig (dengan opsi role-arn untuk mengambil peran untuk otentikasi klaster bersama dengan alias klaster kustom dan alias pengguna) sehingga Anda dapat terhubung ke Cluster Amazon EKS bernama. my-eks-cluster  

```
aws eks update-kubeconfig \
    --name my-eks-cluster \
    --role-arn arn:aws:iam::111122223333:role/eksctl-EKS-Linux-Cluster-v1-24-cluster-ServiceRole-j1k7AfTIQtnM \
    --alias stage-eks-cluster \
    --user-alias john
```
Output:  

```
Updated context stage-eks-cluster in /Users/dubaria/.kube/config
```
Untuk informasi selengkapnya, lihat [Membuat atau memperbarui file kubeconfig untuk klaster Amazon EKS di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/create-kubeconfig.html) Pengguna *Amazon EKS*.  
**Contoh 4: Cetak entri file kubeconfig untuk ditinjau dan mengkonfigurasi kubectl Anda sehingga Anda dapat terhubung ke Amazon EKS Cluster bernama `` my-eks-cluster**  
`update-kubeconfig`Contoh berikut mengonfigurasi kubectl Anda dengan membuat atau memperbarui kubeconfig (dengan opsi role-arn untuk mengambil peran untuk otentikasi klaster bersama dengan alias klaster kustom dan alias pengguna) sehingga Anda dapat terhubung ke Cluster Amazon EKS bernama. my-eks-cluster  

```
aws eks update-kubeconfig \
    --name my-eks-cluster \
    --role-arn arn:aws:iam::111122223333:role/eksctl-EKS-Linux-Cluster-v1-24-cluster-ServiceRole-j1k7AfTIQtnM \
    --alias stage-eks-cluster \
    --user-alias john \
    --verbose
```
Output:  

```
Updated context stage-eks-cluster in /Users/dubaria/.kube/config
Entries:

context:
cluster: arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster
user: john
name: stage-eks-cluster

name: john
user:
exec:
    apiVersion: client.authentication.k8s.io/v1beta1
    args:
    - --region
    - us-east-2
    - eks
    - get-token
    - --cluster-name
    - my-eks-cluster
    - --output
    - json
    - --role
    - arn:aws:iam::111122223333:role/eksctl-EKS-Linux-Cluster-v1-24-cluster-ServiceRole-j1k7AfTIQtnM
    command: aws

cluster:
certificate-authority-data: xxx_CA_DATA_xxx
server: https://DALSJ343KE23J3RN45653DSKJTT647TYD.yl4.us-east-2.eks.amazonaws.com
name: arn:aws:eks:us-east-2:111122223333:cluster/my-eks-cluster
```
Untuk informasi selengkapnya, lihat [Membuat atau memperbarui file kubeconfig untuk klaster Amazon EKS di Panduan](https://docs.aws.amazon.com/eks/latest/userguide/create-kubeconfig.html) Pengguna *Amazon EKS*.  
+  Untuk detail API, lihat [UpdateKubeconfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/update-kubeconfig.html)di *Referensi AWS CLI Perintah*. 

### `update-nodegroup-config`
<a name="eks_UpdateNodegroupConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-nodegroup-config`.

**AWS CLI**  
**Contoh 1: Perbarui grup node terkelola untuk menambahkan label baru dan menodai node pekerja EKS untuk kluster Amazon EKS**  
`update-nodegroup-config`Contoh berikut memperbarui grup node terkelola untuk menambahkan label baru dan menodai node pekerja EKS untuk kluster Amazon EKS.  

```
aws eks update-nodegroup-config \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --labels 'addOrUpdateLabels={my-eks-nodegroup-label-1=value-1,my-eks-nodegroup-label-2=value-2}' \
    --taints 'addOrUpdateTaints=[{key=taint-key-1,value=taint-value-1,effect=NO_EXECUTE}]'
```
Output:  

```
{
    "update": {
        "id": "e66d21d3-bd8b-3ad1-a5aa-b196dc08c7c1",
        "status": "InProgress",
        "type": "ConfigUpdate",
        "params": [
            {
                "type": "LabelsToAdd",
                "value": "{\"my-eks-nodegroup-label-2\":\"value-2\",\"my-eks-nodegroup-label-1\":\"value-1\"}"
            },
            {
                "type": "TaintsToAdd",
                "value": "[{\"effect\":\"NO_EXECUTE\",\"value\":\"taint-value-1\",\"key\":\"taint-key-1\"}]"
            }
        ],
        "createdAt": "2024-04-08T12:05:19.161000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui grup node terkelola](https://docs.aws.amazon.com/eks/latest/userguide/update-managed-node-group.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Memperbarui grup node terkelola untuk menghapus label dan menodai node pekerja EKS untuk kluster Amazon EKS**  
`update-nodegroup-config`Contoh berikut memperbarui grup node terkelola untuk menghapus label dan taint untuk node pekerja EKS untuk klaster Amazon EKS.  

```
aws eks update-nodegroup-config \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --labels 'removeLabels=my-eks-nodegroup-label-1, my-eks-nodegroup-label-2' \
    --taints 'removeTaints=[{key=taint-key-1,value=taint-value-1,effect=NO_EXECUTE}]'
```
Output:  

```
{
    "update": {
        "id": "67a08692-9e59-3ace-a916-13929f44cec3",
        "status": "InProgress",
        "type": "ConfigUpdate",
        "params": [
            {
                "type": "LabelsToRemove",
                "value": "[\"my-eks-nodegroup-label-1\",\"my-eks-nodegroup-label-2\"]"
            },
            {
                "type": "TaintsToRemove",
                "value": "[{\"effect\":\"NO_EXECUTE\",\"value\":\"taint-value-1\",\"key\":\"taint-key-1\"}]"
            }
        ],
        "createdAt": "2024-04-08T12:17:31.817000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui grup node terkelola](https://docs.aws.amazon.com/eks/latest/userguide/update-managed-node-group.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 3: Perbarui grup node terkelola untuk menghapus dan menambahkan label dan taint untuk node pekerja EKS untuk kluster Amazon EKS**  
`update-nodegroup-config`Contoh berikut memperbarui grup node terkelola untuk menghapus dan menambahkan label dan taint untuk node pekerja EKS untuk klaster Amazon EKS.  

```
aws eks update-nodegroup-config \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --labels 'addOrUpdateLabels={my-eks-nodegroup-new-label-1=new-value-1,my-eks-nodegroup-new-label-2=new-value-2},removeLabels=my-eks-nodegroup-label-1, my-eks-nodegroup-label-2' \
    --taints 'addOrUpdateTaints=[{key=taint-new-key-1,value=taint-new-value-1,effect=PREFER_NO_SCHEDULE}],removeTaints=[{key=taint-key-1,value=taint-value-1,effect=NO_EXECUTE}]'
```
Output:  

```
{
    "update": {
        "id": "4a9c8c45-6ac7-3115-be71-d6412a2339b7",
        "status": "InProgress",
        "type": "ConfigUpdate",
        "params": [
            {
                "type": "LabelsToAdd",
                "value": "{\"my-eks-nodegroup-new-label-1\":\"new-value-1\",\"my-eks-nodegroup-new-label-2\":\"new-value-2\"}"
            },
            {
                "type": "LabelsToRemove",
                "value": "[\"my-eks-nodegroup-label-1\",\"my-eks-nodegroup-label-2\"]"
            },
            {
                "type": "TaintsToAdd",
                "value": "[{\"effect\":\"PREFER_NO_SCHEDULE\",\"value\":\"taint-new-value-1\",\"key\":\"taint-new-key-1\"}]"
            },
            {
                "type": "TaintsToRemove",
                "value": "[{\"effect\":\"NO_EXECUTE\",\"value\":\"taint-value-1\",\"key\":\"taint-key-1\"}]"
            }
        ],
        "createdAt": "2024-04-08T12:30:55.486000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui grup node terkelola](https://docs.aws.amazon.com/eks/latest/userguide/update-managed-node-group.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 4: Perbarui grup node terkelola untuk memperbarui scaling-config dan update-config untuk node pekerja EKS untuk klaster Amazon EKS**  
`update-nodegroup-config`Contoh berikut memperbarui grup node terkelola untuk memperbarui scaling-config dan update-config untuk node pekerja EKS untuk klaster Amazon EKS.  

```
aws eks update-nodegroup-config \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --scaling-config minSize=1,maxSize=5,desiredSize=2 \
    --update-config maxUnavailable=2
```
Output:  

```
{
    "update": {
        "id": "a977160f-59bf-3023-805d-c9826e460aea",
        "status": "InProgress",
        "type": "ConfigUpdate",
        "params": [
            {
                "type": "MinSize",
                "value": "1"
            },
            {
                "type": "MaxSize",
                "value": "5"
            },
            {
                "type": "DesiredSize",
                "value": "2"
            },
            {
                "type": "MaxUnavailable",
                "value": "2"
            }
        ],
        "createdAt": "2024-04-08T12:35:17.036000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui grup node terkelola](https://docs.aws.amazon.com/eks/latest/userguide/update-managed-node-group.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [UpdateNodegroupConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/update-nodegroup-config.html)di *Referensi AWS CLI Perintah*. 

### `update-nodegroup-version`
<a name="eks_UpdateNodegroupVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-nodegroup-version`.

**AWS CLI**  
**Contoh 1: Perbarui versi Kubernetes atau versi AMI dari grup node terkelola Amazon EKS**  
`update-nodegroup-version`Contoh berikut memperbarui versi Kubernetes atau versi AMI dari grup node terkelola Amazon EKS ke versi terbaru yang tersedia untuk klaster Kubernetes Anda.  

```
aws eks update-nodegroup-version \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --no-force
```
Output:  

```
{
    "update": {
        "id": "a94ebfc3-6bf8-307a-89e6-7dbaa36421f7",
        "status": "InProgress",
        "type": "VersionUpdate",
        "params": [
            {
                "type": "Version",
                "value": "1.26"
            },
            {
                "type": "ReleaseVersion",
                "value": "1.26.12-20240329"
            }
        ],
        "createdAt": "2024-04-08T13:16:00.724000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui grup node terkelola](https://docs.aws.amazon.com/eks/latest/userguide/update-managed-node-group.html) di *Panduan Pengguna Amazon EKS*.  
**Contoh 2: Perbarui versi Kubernetes atau versi AMI dari grup node terkelola Amazon EKS**  
`update-nodegroup-version`Contoh berikut memperbarui versi Kubernetes atau versi AMI dari grup node terkelola Amazon EKS ke versi rilis AMI yang ditentukan.  

```
aws eks update-nodegroup-version \
    --cluster-name my-eks-cluster \
    --nodegroup-name my-eks-nodegroup \
    --kubernetes-version '1.26' \
    --release-version '1.26.12-20240307' \
    --no-force
```
Output:  

```
{
    "update": {
        "id": "4db06fe1-088d-336b-bdcd-3fdb94995fb7",
        "status": "InProgress",
        "type": "VersionUpdate",
        "params": [
            {
                "type": "Version",
                "value": "1.26"
            },
            {
                "type": "ReleaseVersion",
                "value": "1.26.12-20240307"
            }
        ],
        "createdAt": "2024-04-08T13:13:58.595000-04:00",
        "errors": []
    }
}
```
Untuk informasi selengkapnya, lihat Memperbarui grup node terkelola - < https://docs.aws.amazon.com/eks/ latest/userguide/update - managed-node-group .html>` di Panduan Pengguna *Amazon EKS*.  
+  Untuk detail API, lihat [UpdateNodegroupVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/update-nodegroup-version.html)di *Referensi AWS CLI Perintah*. 

### `update-pod-identity-association`
<a name="eks_UpdatePodIdentityAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-pod-identity-association`.

**AWS CLI**  
**Untuk memperbarui asosiasi Identitas Pod EKS**  
`update-pod-identity-association`Contoh berikut memperbarui asosiasi Identitas Pod EKS dengan mengubah peran IAM terkait dari ID asosiasi `arn:aws:iam::111122223333:role/my-role` menjadi `arn:aws:iam::111122223333:role/s3-role` untuk ID `a-9njjin9gfghecgocd` asosiasi. API ini hanya memungkinkan memperbarui peran IAM terkait.  

```
aws eks update-pod-identity-association \
    --cluster-name eks-customer \
    --association-id a-9njjin9gfghecgocd \
    --role-arn arn:aws:iam::111122223333:role/s3-role
```
Output:  

```
{
    "association": {
        "clusterName": "eks-customer",
        "namespace": "default",
        "serviceAccount": "default",
        "roleArn": "arn:aws:iam::111122223333:role/s3-role",
        "associationArn": "arn:aws:eks:us-west-2:111122223333:podidentityassociation/eks-customer/a-9njjin9gfghecgocd",
        "associationId": "a-9njjin9gfghecgocd",
        "tags": {
            "Key2": "value2",
            "Key1": "value1"
        },
        "createdAt": "2025-05-24T19:52:14.135000-05:00",
        "modifiedAt": "2025-05-25T21:01:53.120000-05:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Pelajari cara EKS Pod Identity memberikan Pod akses ke AWS layanan](https://docs.aws.amazon.com/eks/latest/userguide/pod-identities.html) di *Panduan Pengguna Amazon EKS*.  
+  Untuk detail API, lihat [UpdatePodIdentityAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/eks/update-pod-identity-association.html)di *Referensi AWS CLI Perintah*. 

# Contoh Elastic Beanstalk menggunakan AWS CLI
<a name="cli_2_elastic-beanstalk_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Elastic Beanstalk.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `abort-environment-update`
<a name="elastic-beanstalk_AbortEnvironmentUpdate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`abort-environment-update`.

**AWS CLI**  
**Untuk membatalkan penerapan**  
Perintah berikut membatalkan penerapan versi aplikasi yang sedang berjalan untuk lingkungan bernama: `my-env`  

```
aws elasticbeanstalk abort-environment-update --environment-name my-env
```
+  Untuk detail API, lihat [AbortEnvironmentUpdate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/abort-environment-update.html)di *Referensi AWS CLI Perintah*. 

### `check-dns-availability`
<a name="elastic-beanstalk_CheckDnsAvailability_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`check-dns-availability`.

**AWS CLI**  
**Untuk memeriksa ketersediaan CNAME**  
Perintah berikut memeriksa ketersediaan subdomain`my-cname.elasticbeanstalk.com`:  

```
aws elasticbeanstalk check-dns-availability --cname-prefix my-cname
```
Output:  

```
{
    "Available": true,
    "FullyQualifiedCNAME": "my-cname.elasticbeanstalk.com"
}
```
+  Untuk detail API, lihat [CheckDnsAvailability](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/check-dns-availability.html)di *Referensi AWS CLI Perintah*. 

### `create-application-version`
<a name="elastic-beanstalk_CreateApplicationVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-application-version`.

**AWS CLI**  
**Untuk membuat versi aplikasi baru**  
Perintah berikut membuat versi baru, “v1" dari aplikasi bernama" MyApp “:  

```
aws elasticbeanstalk create-application-version --application-name MyApp --version-label v1 --description MyAppv1 --source-bundle S3Bucket="amzn-s3-demo-bucket",S3Key="sample.war" --auto-create-application
```
Aplikasi akan dibuat secara otomatis jika belum ada, karena auto-create-application opsi. Bundel sumber adalah file.war yang disimpan dalam bucket s3 bernama “amzn-s3-demo-bucket” yang berisi aplikasi sampel Apache Tomcat.  
Output:  

```
{
  "ApplicationVersion": {
      "ApplicationName": "MyApp",
      "VersionLabel": "v1",
      "Description": "MyAppv1",
      "DateCreated": "2015-02-03T23:01:25.412Z",
      "DateUpdated": "2015-02-03T23:01:25.412Z",
      "SourceBundle": {
          "S3Bucket": "amzn-s3-demo-bucket",
          "S3Key": "sample.war"
      }
  }
}
```
+  Untuk detail API, lihat [CreateApplicationVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/create-application-version.html)di *Referensi AWS CLI Perintah*. 

### `create-application`
<a name="elastic-beanstalk_CreateApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-application`.

**AWS CLI**  
**Untuk membuat aplikasi baru**  
Perintah berikut membuat aplikasi baru bernama "MyApp“:  

```
aws elasticbeanstalk create-application --application-name MyApp --description "my application"
```
`create-application`Perintah hanya mengkonfigurasi nama dan deskripsi aplikasi. Untuk mengunggah kode sumber untuk aplikasi, buat versi awal aplikasi menggunakan`create-application-version`. `create-application-version`juga memiliki `auto-create-application` opsi yang memungkinkan Anda membuat aplikasi dan versi aplikasi dalam satu langkah.  
Output:  

```
{
  "Application": {
      "ApplicationName": "MyApp",
      "ConfigurationTemplates": [],
      "DateUpdated": "2015-02-12T18:32:21.181Z",
      "Description": "my application",
      "DateCreated": "2015-02-12T18:32:21.181Z"
  }
}
```
+  Untuk detail API, lihat [CreateApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/create-application.html)di *Referensi AWS CLI Perintah*. 

### `create-configuration-template`
<a name="elastic-beanstalk_CreateConfigurationTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-configuration-template`.

**AWS CLI**  
**Untuk membuat template konfigurasi**  
Perintah berikut membuat template konfigurasi bernama `my-app-v1` dari pengaturan yang diterapkan ke lingkungan dengan id`e-rpqsewtp2j`:  

```
aws elasticbeanstalk create-configuration-template --application-name my-app --template-name my-app-v1 --environment-id e-rpqsewtp2j
```
Output:  

```
{
    "ApplicationName": "my-app",
    "TemplateName": "my-app-v1",
    "DateCreated": "2015-08-12T18:40:39Z",
    "DateUpdated": "2015-08-12T18:40:39Z",
    "SolutionStackName": "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8"
}
```
+  Untuk detail API, lihat [CreateConfigurationTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/create-configuration-template.html)di *Referensi AWS CLI Perintah*. 

### `create-environment`
<a name="elastic-beanstalk_CreateEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-environment`.

**AWS CLI**  
**Untuk membuat lingkungan baru untuk aplikasi**  
Perintah berikut menciptakan lingkungan baru untuk versi “v1" dari aplikasi java bernama “my-app”:  

```
aws elasticbeanstalk create-environment --application-name my-app --environment-name my-env --cname-prefix my-app --version-label v1 --solution-stack-name "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8"
```
Output:  

```
{
  "ApplicationName": "my-app",
  "EnvironmentName": "my-env",
  "VersionLabel": "v1",
  "Status": "Launching",
  "EnvironmentId": "e-izqpassy4h",
  "SolutionStackName": "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8",
  "CNAME": "my-app.elasticbeanstalk.com",
  "Health": "Grey",
  "Tier": {
      "Type": "Standard",
      "Name": "WebServer",
      "Version": " "
  },
  "DateUpdated": "2015-02-03T23:04:54.479Z",
  "DateCreated": "2015-02-03T23:04:54.479Z"
}
```
`v1`adalah label dari versi aplikasi yang sebelumnya diunggah dengan create-application-version.  
**Untuk menentukan file JSON untuk menentukan opsi konfigurasi lingkungan**  
`create-environment`Perintah berikut menentukan bahwa file JSON dengan nama `myoptions.json` harus digunakan untuk mengganti nilai yang diperoleh dari tumpukan solusi atau template konfigurasi:  

```
aws elasticbeanstalk create-environment --environment-name sample-env --application-name sampleapp --option-settings file://myoptions.json
```
`myoptions.json`adalah objek JSON yang mendefinisikan beberapa pengaturan:  

```
[
  {
    "Namespace": "aws:elb:healthcheck",
    "OptionName": "Interval",
    "Value": "15"
  },
  {
    "Namespace": "aws:elb:healthcheck",
    "OptionName": "Timeout",
    "Value": "8"
  },
  {
    "Namespace": "aws:elb:healthcheck",
    "OptionName": "HealthyThreshold",
    "Value": "2"
  },
  {
    "Namespace": "aws:elb:healthcheck",
    "OptionName": "UnhealthyThreshold",
    "Value": "3"
  }
]
```
Untuk informasi selengkapnya, lihat Nilai Opsi dalam Panduan Pengembang *AWS Elastic Beanstalk*.  
+  Untuk detail API, lihat [CreateEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/create-environment.html)di *Referensi AWS CLI Perintah*. 

### `create-storage-location`
<a name="elastic-beanstalk_CreateStorageLocation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-storage-location`.

**AWS CLI**  
**Untuk membuat lokasi penyimpanan**  
Perintah berikut membuat lokasi penyimpanan di Amazon S3:  

```
aws elasticbeanstalk create-storage-location
```
Output:  

```
{
    "S3Bucket": "elasticbeanstalk-us-west-2-0123456789012"
}
```
+  Untuk detail API, lihat [CreateStorageLocation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/create-storage-location.html)di *Referensi AWS CLI Perintah*. 

### `delete-application-version`
<a name="elastic-beanstalk_DeleteApplicationVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-application-version`.

**AWS CLI**  
**Untuk menghapus versi aplikasi**  
Perintah berikut menghapus versi aplikasi bernama `22a0-stage-150819_182129` untuk aplikasi bernama`my-app`:  

```
aws elasticbeanstalk delete-application-version --version-label 22a0-stage-150819_182129 --application-name my-app
```
+  Untuk detail API, lihat [DeleteApplicationVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/delete-application-version.html)di *Referensi AWS CLI Perintah*. 

### `delete-application`
<a name="elastic-beanstalk_DeleteApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-application`.

**AWS CLI**  
**Untuk menghapus aplikasi**  
Perintah berikut menghapus aplikasi bernama`my-app`:  

```
aws elasticbeanstalk delete-application --application-name my-app
```
+  Untuk detail API, lihat [DeleteApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/delete-application.html)di *Referensi AWS CLI Perintah*. 

### `delete-configuration-template`
<a name="elastic-beanstalk_DeleteConfigurationTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-configuration-template`.

**AWS CLI**  
**Untuk menghapus template konfigurasi**  
Perintah berikut menghapus template konfigurasi bernama `my-template` untuk aplikasi bernama`my-app`:  

```
aws elasticbeanstalk delete-configuration-template --template-name my-template --application-name my-app
```
+  Untuk detail API, lihat [DeleteConfigurationTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/delete-configuration-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-environment-configuration`
<a name="elastic-beanstalk_DeleteEnvironmentConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-environment-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi draf**  
Perintah berikut menghapus konfigurasi draf untuk lingkungan bernama`my-env`:  

```
aws elasticbeanstalk delete-environment-configuration --environment-name my-env --application-name my-app
```
+  Untuk detail API, lihat [DeleteEnvironmentConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/delete-environment-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-application-versions`
<a name="elastic-beanstalk_DescribeApplicationVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-application-versions`.

**AWS CLI**  
**Untuk melihat informasi tentang versi aplikasi**  
Perintah berikut mengambil informasi tentang versi aplikasi berlabel`v2`:  

```
aws elasticbeanstalk describe-application-versions --application-name my-app --version-label "v2"
```
Output:  

```
{
    "ApplicationVersions": [
        {
            "ApplicationName": "my-app",
            "VersionLabel": "v2",
            "Description": "update cover page",
            "DateCreated": "2015-07-23T01:32:26.079Z",
            "DateUpdated": "2015-07-23T01:32:26.079Z",
            "SourceBundle": {
                "S3Bucket": "elasticbeanstalk-us-west-2-015321684451",
                "S3Key": "my-app/5026-stage-150723_224258.war"
            }
        },
      {
          "ApplicationName": "my-app",
          "VersionLabel": "v1",
          "Description": "initial version",
          "DateCreated": "2015-07-23T22:26:10.816Z",
          "DateUpdated": "2015-07-23T22:26:10.816Z",
          "SourceBundle": {
              "S3Bucket": "elasticbeanstalk-us-west-2-015321684451",
              "S3Key": "my-app/5026-stage-150723_222618.war"
          }
      }
    ]
}
```
+  Untuk detail API, lihat [DescribeApplicationVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-application-versions.html)di *Referensi AWS CLI Perintah*. 

### `describe-applications`
<a name="elastic-beanstalk_DescribeApplications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-applications`.

**AWS CLI**  
**Untuk melihat daftar aplikasi**  
Perintah berikut mengambil informasi tentang aplikasi di wilayah saat ini:  

```
aws elasticbeanstalk describe-applications
```
Output:  

```
{
    "Applications": [
        {
            "ApplicationName": "ruby",
            "ConfigurationTemplates": [],
            "DateUpdated": "2015-08-13T21:05:44.376Z",
            "Versions": [
                "Sample Application"
            ],
            "DateCreated": "2015-08-13T21:05:44.376Z"
        },
        {
            "ApplicationName": "pythonsample",
            "Description": "Application created from the EB CLI using \"eb init\"",
            "Versions": [
                "Sample Application"
            ],
            "DateCreated": "2015-08-13T19:05:43.637Z",
            "ConfigurationTemplates": [],
            "DateUpdated": "2015-08-13T19:05:43.637Z"
        },
        {
            "ApplicationName": "nodejs-example",
            "ConfigurationTemplates": [],
            "DateUpdated": "2015-08-06T17:50:02.486Z",
            "Versions": [
                "add elasticache",
                "First Release"
            ],
            "DateCreated": "2015-08-06T17:50:02.486Z"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeApplications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-applications.html)di *Referensi AWS CLI Perintah*. 

### `describe-configuration-options`
<a name="elastic-beanstalk_DescribeConfigurationOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-configuration-options`.

**AWS CLI**  
**Untuk melihat opsi konfigurasi untuk lingkungan**  
Perintah berikut mengambil deskripsi dari semua opsi konfigurasi yang tersedia untuk lingkungan bernama: `my-env`  

```
aws elasticbeanstalk describe-configuration-options --environment-name my-env --application-name my-app
```
Output (disingkat):  

```
{
    "Options": [
        {
            "Name": "JVMOptions",
            "UserDefined": false,
            "DefaultValue": "Xms=256m,Xmx=256m,XX:MaxPermSize=64m,JVM Options=",
            "ChangeSeverity": "RestartApplicationServer",
            "Namespace": "aws:cloudformation:template:parameter",
            "ValueType": "KeyValueList"
        },
        {
            "Name": "Interval",
            "UserDefined": false,
            "DefaultValue": "30",
            "ChangeSeverity": "NoInterruption",
            "Namespace": "aws:elb:healthcheck",
            "MaxValue": 300,
            "MinValue": 5,
            "ValueType": "Scalar"
        },
        ...
        {
            "Name": "LowerThreshold",
            "UserDefined": false,
            "DefaultValue": "2000000",
            "ChangeSeverity": "NoInterruption",
            "Namespace": "aws:autoscaling:trigger",
            "MinValue": 0,
            "ValueType": "Scalar"
        },
        {
            "Name": "ListenerEnabled",
            "UserDefined": false,
            "DefaultValue": "true",
            "ChangeSeverity": "Unknown",
            "Namespace": "aws:elb:listener",
            "ValueType": "Boolean"
        }
    ]
}
```
Opsi konfigurasi yang tersedia bervariasi per platform dan versi konfigurasi. Untuk informasi selengkapnya tentang ruang nama dan opsi yang didukung, lihat Nilai Opsi dalam Panduan Pengembang Elastic *AWS Beanstalk*.  
+  Untuk detail API, lihat [DescribeConfigurationOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-configuration-options.html)di *Referensi AWS CLI Perintah*. 

### `describe-configuration-settings`
<a name="elastic-beanstalk_DescribeConfigurationSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-configuration-settings`.

**AWS CLI**  
**Untuk melihat pengaturan konfigurasi untuk lingkungan**  
Perintah berikut mengambil pengaturan konfigurasi untuk lingkungan bernama`my-env`:  

```
aws elasticbeanstalk describe-configuration-settings --environment-name my-env --application-name my-app
```
Output (disingkat):  

```
{
    "ConfigurationSettings": [
        {
            "ApplicationName": "my-app",
            "EnvironmentName": "my-env",
            "Description": "Environment created from the EB CLI using \"eb create\"",
            "DeploymentStatus": "deployed",
            "DateCreated": "2015-08-13T19:16:25Z",
            "OptionSettings": [
                {
                    "OptionName": "Availability Zones",
                    "ResourceName": "AWSEBAutoScalingGroup",
                    "Namespace": "aws:autoscaling:asg",
                    "Value": "Any"
                },
                {
                    "OptionName": "Cooldown",
                    "ResourceName": "AWSEBAutoScalingGroup",
                    "Namespace": "aws:autoscaling:asg",
                    "Value": "360"
                },
                ...
                {
                    "OptionName": "ConnectionDrainingTimeout",
                    "ResourceName": "AWSEBLoadBalancer",
                    "Namespace": "aws:elb:policies",
                    "Value": "20"
                },
                {
                    "OptionName": "ConnectionSettingIdleTimeout",
                    "ResourceName": "AWSEBLoadBalancer",
                    "Namespace": "aws:elb:policies",
                    "Value": "60"
                }
            ],
            "DateUpdated": "2015-08-13T23:30:07Z",
            "SolutionStackName": "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8"
        }
    ]
}
```
Untuk informasi selengkapnya tentang ruang nama dan opsi yang didukung, lihat Nilai Opsi dalam Panduan Pengembang Elastic *AWS Beanstalk*.  
+  Untuk detail API, lihat [DescribeConfigurationSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-configuration-settings.html)di *Referensi AWS CLI Perintah*. 

### `describe-environment-health`
<a name="elastic-beanstalk_DescribeEnvironmentHealth_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-environment-health`.

**AWS CLI**  
**Untuk melihat kesehatan lingkungan**  
Perintah berikut mengambil informasi kesehatan secara keseluruhan untuk lingkungan bernama`my-env`:  

```
aws elasticbeanstalk describe-environment-health --environment-name my-env --attribute-names All
```
Output:  

```
{
    "Status": "Ready",
    "EnvironmentName": "my-env",
    "Color": "Green",
    "ApplicationMetrics": {
        "Duration": 10,
        "Latency": {
            "P99": 0.004,
            "P75": 0.002,
            "P90": 0.003,
            "P95": 0.004,
            "P85": 0.003,
            "P10": 0.001,
            "P999": 0.004,
            "P50": 0.001
        },
        "RequestCount": 45,
        "StatusCodes": {
            "Status3xx": 0,
            "Status2xx": 45,
            "Status5xx": 0,
            "Status4xx": 0
        }
    },
    "RefreshedAt": "2015-08-20T21:09:18Z",
    "HealthStatus": "Ok",
    "InstancesHealth": {
        "Info": 0,
        "Ok": 1,
        "Unknown": 0,
        "Severe": 0,
        "Warning": 0,
        "Degraded": 0,
        "NoData": 0,
        "Pending": 0
    },
    "Causes": []
}
```
Informasi Kesehatan hanya tersedia untuk lingkungan dengan pelaporan kesehatan yang ditingkatkan diaktifkan. Untuk informasi lebih lanjut, lihat Pelaporan dan Pemantauan Kesehatan yang Ditingkatkan di Panduan Pengembang *AWS Elastic Beanstalk*.  
+  Untuk detail API, lihat [DescribeEnvironmentHealth](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-environment-health.html)di *Referensi AWS CLI Perintah*. 

### `describe-environment-resources`
<a name="elastic-beanstalk_DescribeEnvironmentResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-environment-resources`.

**AWS CLI**  
**Untuk melihat informasi tentang AWS sumber daya di lingkungan Anda**  
Perintah berikut mengambil informasi tentang sumber daya dalam lingkungan bernama`my-env`:  

```
aws elasticbeanstalk describe-environment-resources --environment-name my-env
```
Output:  

```
{
    "EnvironmentResources": {
        "EnvironmentName": "my-env",
        "AutoScalingGroups": [
            {
                "Name": "awseb-e-qu3fyyjyjs-stack-AWSEBAutoScalingGroup-QSB2ZO88SXZT"
            }
        ],
        "Triggers": [],
        "LoadBalancers": [
            {
                "Name": "awseb-e-q-AWSEBLoa-1EEPZ0K98BIF0"
            }
        ],
        "Queues": [],
        "Instances": [
            {
                "Id": "i-0c91c786"
            }
        ],
        "LaunchConfigurations": [
            {
                "Name": "awseb-e-qu3fyyjyjs-stack-AWSEBAutoScalingLaunchConfiguration-1UUVQIBC96TQ2"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [DescribeEnvironmentResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-environment-resources.html)di *Referensi AWS CLI Perintah*. 

### `describe-environments`
<a name="elastic-beanstalk_DescribeEnvironments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-environments`.

**AWS CLI**  
**Untuk melihat informasi tentang lingkungan**  
Perintah berikut mengambil informasi tentang lingkungan bernama`my-env`:  

```
aws elasticbeanstalk describe-environments --environment-names my-env
```
Output:  

```
{
    "Environments": [
        {
            "ApplicationName": "my-app",
            "EnvironmentName": "my-env",
            "VersionLabel": "7f58-stage-150812_025409",
            "Status": "Ready",
            "EnvironmentId": "e-rpqsewtp2j",
            "EndpointURL": "awseb-e-w-AWSEBLoa-1483140XB0Q4L-109QXY8121.us-west-2.elb.amazonaws.com",
            "SolutionStackName": "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8",
            "CNAME": "my-env.elasticbeanstalk.com",
            "Health": "Green",
            "AbortableOperationInProgress": false,
            "Tier": {
                "Version": " ",
                "Type": "Standard",
                "Name": "WebServer"
            },
            "DateUpdated": "2015-08-12T18:16:55.019Z",
            "DateCreated": "2015-08-07T20:48:49.599Z"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeEnvironments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-environments.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="elastic-beanstalk_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
**Untuk melihat acara untuk suatu lingkungan**  
Perintah berikut mengambil peristiwa untuk lingkungan bernama`my-env`:  

```
aws elasticbeanstalk describe-events --environment-name my-env
```
Output (disingkat):  

```
{
    "Events": [
        {
            "ApplicationName": "my-app",
            "EnvironmentName": "my-env",
            "Message": "Environment health has transitioned from Info to Ok.",
            "EventDate": "2015-08-20T07:06:53.535Z",
            "Severity": "INFO"
        },
        {
            "ApplicationName": "my-app",
            "EnvironmentName": "my-env",
            "Severity": "INFO",
            "RequestId": "b7f3960b-4709-11e5-ba1e-07e16200da41",
            "Message": "Environment update completed successfully.",
            "EventDate": "2015-08-20T07:06:02.049Z"
        },
        ...
        {
            "ApplicationName": "my-app",
            "EnvironmentName": "my-env",
            "Severity": "INFO",
            "RequestId": "ca8dfbf6-41ef-11e5-988b-651aa638f46b",
            "Message": "Using elasticbeanstalk-us-west-2-012445113685 as Amazon S3 storage bucket for environment data.",
            "EventDate": "2015-08-13T19:16:27.561Z"
        },
        {
            "ApplicationName": "my-app",
            "EnvironmentName": "my-env",
            "Severity": "INFO",
            "RequestId": "cdfba8f6-41ef-11e5-988b-65638f41aa6b",
            "Message": "createEnvironment is starting.",
            "EventDate": "2015-08-13T19:16:26.581Z"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-instances-health`
<a name="elastic-beanstalk_DescribeInstancesHealth_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instances-health`.

**AWS CLI**  
**Untuk melihat kesehatan lingkungan**  
Perintah berikut mengambil informasi kesehatan untuk instance di lingkungan bernama: `my-env`  

```
aws elasticbeanstalk describe-instances-health --environment-name my-env --attribute-names All
```
Output:  

```
{
    "InstanceHealthList": [
        {
            "InstanceId": "i-08691cc7",
            "ApplicationMetrics": {
                "Duration": 10,
                "Latency": {
                    "P99": 0.006,
                    "P75": 0.002,
                    "P90": 0.004,
                    "P95": 0.005,
                    "P85": 0.003,
                    "P10": 0.0,
                    "P999": 0.006,
                    "P50": 0.001
                },
                "RequestCount": 48,
                "StatusCodes": {
                    "Status3xx": 0,
                    "Status2xx": 47,
                    "Status5xx": 0,
                    "Status4xx": 1
                }
            },
            "System": {
                "LoadAverage": [
                    0.0,
                    0.02,
                    0.05
                ],
                "CPUUtilization": {
                    "SoftIRQ": 0.1,
                    "IOWait": 0.2,
                    "System": 0.3,
                    "Idle": 97.8,
                    "User": 1.5,
                    "IRQ": 0.0,
                    "Nice": 0.1
                }
            },
            "Color": "Green",
            "HealthStatus": "Ok",
            "LaunchedAt": "2015-08-13T19:17:09Z",
            "Causes": []
        }
    ],
    "RefreshedAt": "2015-08-20T21:09:08Z"
}
```
Informasi Kesehatan hanya tersedia untuk lingkungan dengan pelaporan kesehatan yang ditingkatkan diaktifkan. Untuk informasi lebih lanjut, lihat Pelaporan dan Pemantauan Kesehatan yang Ditingkatkan di Panduan Pengembang *AWS Elastic Beanstalk*.  
+  Untuk detail API, lihat [DescribeInstancesHealth](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/describe-instances-health.html)di *Referensi AWS CLI Perintah*. 

### `list-available-solution-stacks`
<a name="elastic-beanstalk_ListAvailableSolutionStacks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-available-solution-stacks`.

**AWS CLI**  
**Untuk melihat tumpukan solusi**  
Perintah berikut mencantumkan tumpukan solusi untuk semua konfigurasi platform yang tersedia saat ini dan semua yang telah Anda gunakan di masa lalu:  

```
aws elasticbeanstalk list-available-solution-stacks
```
Output (disingkat):  

```
{
    "SolutionStacks": [
        "64bit Amazon Linux 2015.03 v2.0.0 running Node.js",
        "64bit Amazon Linux 2015.03 v2.0.0 running PHP 5.6",
        "64bit Amazon Linux 2015.03 v2.0.0 running PHP 5.5",
        "64bit Amazon Linux 2015.03 v2.0.0 running PHP 5.4",
        "64bit Amazon Linux 2015.03 v2.0.0 running Python 3.4",
        "64bit Amazon Linux 2015.03 v2.0.0 running Python 2.7",
        "64bit Amazon Linux 2015.03 v2.0.0 running Python",
        "64bit Amazon Linux 2015.03 v2.0.0 running Ruby 2.2 (Puma)",
        "64bit Amazon Linux 2015.03 v2.0.0 running Ruby 2.2 (Passenger Standalone)",
        "64bit Amazon Linux 2015.03 v2.0.0 running Ruby 2.1 (Puma)",
        "64bit Amazon Linux 2015.03 v2.0.0 running Ruby 2.1 (Passenger Standalone)",
        "64bit Amazon Linux 2015.03 v2.0.0 running Ruby 2.0 (Puma)",
        "64bit Amazon Linux 2015.03 v2.0.0 running Ruby 2.0 (Passenger Standalone)",
        "64bit Amazon Linux 2015.03 v2.0.0 running Ruby 1.9.3",
        "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8",
        "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 7 Java 7",
        "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 7 Java 6",
        "64bit Windows Server Core 2012 R2 running IIS 8.5",
        "64bit Windows Server 2012 R2 running IIS 8.5",
        "64bit Windows Server 2012 running IIS 8",
        "64bit Windows Server 2008 R2 running IIS 7.5",
        "64bit Amazon Linux 2015.03 v2.0.0 running Docker 1.6.2",
        "64bit Amazon Linux 2015.03 v2.0.0 running Multi-container Docker 1.6.2 (Generic)",
        "64bit Debian jessie v2.0.0 running GlassFish 4.1 Java 8 (Preconfigured - Docker)",
        "64bit Debian jessie v2.0.0 running GlassFish 4.0 Java 7 (Preconfigured - Docker)",
        "64bit Debian jessie v2.0.0 running Go 1.4 (Preconfigured - Docker)",
        "64bit Debian jessie v2.0.0 running Go 1.3 (Preconfigured - Docker)",
        "64bit Debian jessie v2.0.0 running Python 3.4 (Preconfigured - Docker)",
    ],
    "SolutionStackDetails": [
        {
            "PermittedFileTypes": [
                "zip"
            ],
            "SolutionStackName": "64bit Amazon Linux 2015.03 v2.0.0 running Node.js"
        },
        ...
    ]
}
```
+  Untuk detail API, lihat [ListAvailableSolutionStacks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/list-available-solution-stacks.html)di *Referensi AWS CLI Perintah*. 

### `rebuild-environment`
<a name="elastic-beanstalk_RebuildEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rebuild-environment`.

**AWS CLI**  
**Untuk membangun kembali lingkungan**  
Perintah berikut mengakhiri dan membuat ulang sumber daya dalam lingkungan bernama: `my-env`  

```
aws elasticbeanstalk rebuild-environment --environment-name my-env
```
+  Untuk detail API, lihat [RebuildEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/rebuild-environment.html)di *Referensi AWS CLI Perintah*. 

### `request-environment-info`
<a name="elastic-beanstalk_RequestEnvironmentInfo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`request-environment-info`.

**AWS CLI**  
**Untuk meminta log berekor**  
Perintah berikut meminta log dari lingkungan bernama`my-env`:  

```
aws elasticbeanstalk request-environment-info --environment-name my-env --info-type tail
```
Setelah meminta log, ambil lokasinya dengan. retrieve-environment-info  
+  Untuk detail API, lihat [RequestEnvironmentInfo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/request-environment-info.html)di *Referensi AWS CLI Perintah*. 

### `restart-app-server`
<a name="elastic-beanstalk_RestartAppServer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restart-app-server`.

**AWS CLI**  
**Untuk me-restart server aplikasi**  
Perintah berikut me-restart server aplikasi pada semua instance dalam lingkungan bernama: `my-env`  

```
aws elasticbeanstalk restart-app-server --environment-name my-env
```
+  Untuk detail API, lihat [RestartAppServer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/restart-app-server.html)di *Referensi AWS CLI Perintah*. 

### `retrieve-environment-info`
<a name="elastic-beanstalk_RetrieveEnvironmentInfo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`retrieve-environment-info`.

**AWS CLI**  
**Untuk mengambil log berekor**  
Perintah berikut mengambil link ke log dari lingkungan bernama`my-env`:  

```
aws elasticbeanstalk retrieve-environment-info --environment-name my-env --info-type tail
```
Output:  

```
{
    "EnvironmentInfo": [
        {
            "SampleTimestamp": "2015-08-20T22:23:17.703Z",
            "Message": "https://elasticbeanstalk-us-west-2-0123456789012.s3.amazonaws.com/resources/environments/logs/tail/e-fyqyju3yjs/i-09c1c867/TailLogs-1440109397703.out?AWSAccessKeyId=AKGPT4J56IAJ2EUBL5CQ&Expires=1440195891&Signature=n%2BEalOV6A2HIOx4Rcfb7LT16bBM%3D",
            "InfoType": "tail",
            "Ec2InstanceId": "i-09c1c867"
        }
    ]
}
```
Lihat tautan di browser. Sebelum pengambilan, log harus diminta dengan request-environment-info.  
+  Untuk detail API, lihat [RetrieveEnvironmentInfo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/retrieve-environment-info.html)di *Referensi AWS CLI Perintah*. 

### `swap-environment-cnames`
<a name="elastic-beanstalk_SwapEnvironmentCnames_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`swap-environment-cnames`.

**AWS CLI**  
**Untuk menukar CNAMES lingkungan**  
Perintah berikut menukar subdomain yang ditetapkan dari dua lingkungan:  

```
aws elasticbeanstalk swap-environment-cnames --source-environment-name my-env-blue --destination-environment-name my-env-green
```
+  Untuk detail API, lihat [SwapEnvironmentCnames](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/swap-environment-cnames.html)di *Referensi AWS CLI Perintah*. 

### `terminate-environment`
<a name="elastic-beanstalk_TerminateEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`terminate-environment`.

**AWS CLI**  
**Untuk mengakhiri lingkungan**  
Perintah berikut mengakhiri lingkungan Elastic Beanstalk bernama: `my-env`  

```
aws elasticbeanstalk terminate-environment --environment-name my-env
```
Output:  

```
{
    "ApplicationName": "my-app",
    "EnvironmentName": "my-env",
    "Status": "Terminating",
    "EnvironmentId": "e-fh2eravpns",
    "EndpointURL": "awseb-e-f-AWSEBLoa-1I9XUMP4-8492WNUP202574.us-west-2.elb.amazonaws.com",
    "SolutionStackName": "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8",
    "CNAME": "my-env.elasticbeanstalk.com",
    "Health": "Grey",
    "AbortableOperationInProgress": false,
    "Tier": {
        "Version": " ",
        "Type": "Standard",
        "Name": "WebServer"
    },
    "DateUpdated": "2015-08-12T19:05:54.744Z",
    "DateCreated": "2015-08-12T18:52:53.622Z"
}
```
+  Untuk detail API, lihat [TerminateEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/terminate-environment.html)di *Referensi AWS CLI Perintah*. 

### `update-application-version`
<a name="elastic-beanstalk_UpdateApplicationVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-application-version`.

**AWS CLI**  
**Untuk mengubah deskripsi versi aplikasi**  
Perintah berikut memperbarui deskripsi versi aplikasi bernama`22a0-stage-150819_185942`:  

```
aws elasticbeanstalk update-application-version --version-label 22a0-stage-150819_185942 --application-name my-app --description "new description"
```
Output:  

```
{
    "ApplicationVersion": {
        "ApplicationName": "my-app",
        "VersionLabel": "22a0-stage-150819_185942",
        "Description": "new description",
        "DateCreated": "2015-08-19T18:59:17.646Z",
        "DateUpdated": "2015-08-20T22:53:28.871Z",
        "SourceBundle": {
            "S3Bucket": "elasticbeanstalk-us-west-2-0123456789012",
            "S3Key": "my-app/22a0-stage-150819_185942.war"
        }
    }
}
```
+  Untuk detail API, lihat [UpdateApplicationVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/update-application-version.html)di *Referensi AWS CLI Perintah*. 

### `update-application`
<a name="elastic-beanstalk_UpdateApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-application`.

**AWS CLI**  
**Untuk mengubah deskripsi aplikasi**  
Perintah berikut memperbarui deskripsi aplikasi bernama`my-app`:  

```
aws elasticbeanstalk update-application --application-name my-app --description "my Elastic Beanstalk application"
```
Output:  

```
{
    "Application": {
        "ApplicationName": "my-app",
        "Description": "my Elastic Beanstalk application",
        "Versions": [
            "2fba-stage-150819_234450",
            "bf07-stage-150820_214945",
            "93f8",
            "fd7c-stage-150820_000431",
            "22a0-stage-150819_185942"
        ],
        "DateCreated": "2015-08-13T19:15:50.449Z",
        "ConfigurationTemplates": [],
        "DateUpdated": "2015-08-20T22:34:56.195Z"
    }
}
```
+  Untuk detail API, lihat [UpdateApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/update-application.html)di *Referensi AWS CLI Perintah*. 

### `update-configuration-template`
<a name="elastic-beanstalk_UpdateConfigurationTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-configuration-template`.

**AWS CLI**  
**Untuk memperbarui templat konfigurasi**  
Perintah berikut menghapus konfigurasi metrik kesehatan CloudWatch kustom yang dikonfigurasi `ConfigDocument` dari template konfigurasi yang disimpan bernama`my-template`:  

```
aws elasticbeanstalk update-configuration-template --template-name my-template --application-name my-app --options-to-remove Namespace=aws:elasticbeanstalk:healthreporting:system,OptionName=ConfigDocument
```
Output:  

```
{
    "ApplicationName": "my-app",
    "TemplateName": "my-template",
    "DateCreated": "2015-08-20T22:39:31Z",
    "DateUpdated": "2015-08-20T22:43:11Z",
    "SolutionStackName": "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8"
}
```
Untuk informasi selengkapnya tentang ruang nama dan opsi yang didukung, lihat Nilai Opsi dalam Panduan Pengembang Elastic *AWS Beanstalk*.  
+  Untuk detail API, lihat [UpdateConfigurationTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/update-configuration-template.html)di *Referensi AWS CLI Perintah*. 

### `update-environment`
<a name="elastic-beanstalk_UpdateEnvironment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-environment`.

**AWS CLI**  
**Untuk memperbarui lingkungan ke versi baru**  
Perintah berikut memperbarui lingkungan bernama “my-env” ke versi “v2" dari aplikasi yang dimilikinya:  

```
aws elasticbeanstalk update-environment --environment-name my-env --version-label v2
```
Perintah ini mensyaratkan bahwa lingkungan “my-env” sudah ada dan milik aplikasi yang memiliki versi aplikasi yang valid dengan label “v2".  
Output:  

```
{
  "ApplicationName": "my-app",
  "EnvironmentName": "my-env",
  "VersionLabel": "v2",
  "Status": "Updating",
  "EnvironmentId": "e-szqipays4h",
  "EndpointURL": "awseb-e-i-AWSEBLoa-1RDLX6TC9VUAO-0123456789.us-west-2.elb.amazonaws.com",
  "SolutionStackName": "64bit Amazon Linux running Tomcat 7",
  "CNAME": "my-env.elasticbeanstalk.com",
  "Health": "Grey",
  "Tier": {
      "Version": " ",
      "Type": "Standard",
      "Name": "WebServer"
  },
  "DateUpdated": "2015-02-03T23:12:29.119Z",
  "DateCreated": "2015-02-03T23:04:54.453Z"
}
```
**Untuk mengatur variabel lingkungan**  
Perintah berikut menetapkan nilai variabel "PARAM1" di lingkungan “my-env” ke "“: ParamValue  

```
aws elasticbeanstalk update-environment --environment-name my-env --option-settings Namespace=aws:elasticbeanstalk:application:environment,OptionName=PARAM1,Value=ParamValue
```
`option-settings`Parameter mengambil namespace selain nama dan nilai variabel. Elastic Beanstalk mendukung beberapa ruang nama untuk opsi selain variabel lingkungan.  
**Untuk mengkonfigurasi pengaturan opsi dari file**  
Perintah berikut mengkonfigurasi beberapa opsi di `aws:elb:loadbalancer` namespace dari file:  

```
aws elasticbeanstalk update-environment --environment-name my-env --option-settings file://options.json
```
`options.json`adalah objek JSON yang mendefinisikan beberapa pengaturan:  

```
[
  {
    "Namespace": "aws:elb:healthcheck",
    "OptionName": "Interval",
    "Value": "15"
  },
  {
    "Namespace": "aws:elb:healthcheck",
    "OptionName": "Timeout",
    "Value": "8"
  },
  {
    "Namespace": "aws:elb:healthcheck",
    "OptionName": "HealthyThreshold",
    "Value": "2"
  },
  {
    "Namespace": "aws:elb:healthcheck",
    "OptionName": "UnhealthyThreshold",
    "Value": "3"
  }
]
```
Output:  

```
{
    "ApplicationName": "my-app",
    "EnvironmentName": "my-env",
    "VersionLabel": "7f58-stage-150812_025409",
    "Status": "Updating",
    "EnvironmentId": "e-wtp2rpqsej",
    "EndpointURL": "awseb-e-w-AWSEBLoa-14XB83101Q4L-104QXY80921.sa-east-1.elb.amazonaws.com",
    "SolutionStackName": "64bit Amazon Linux 2015.03 v2.0.0 running Tomcat 8 Java 8",
    "CNAME": "my-env.elasticbeanstalk.com",
    "Health": "Grey",
    "AbortableOperationInProgress": true,
    "Tier": {
        "Version": " ",
        "Type": "Standard",
        "Name": "WebServer"
    },
    "DateUpdated": "2015-08-12T18:15:23.804Z",
    "DateCreated": "2015-08-07T20:48:49.599Z"
}
```
Untuk informasi selengkapnya tentang ruang nama dan opsi yang didukung, lihat Nilai Opsi dalam Panduan Pengembang Elastic *AWS Beanstalk*.  
+  Untuk detail API, lihat [UpdateEnvironment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/update-environment.html)di *Referensi AWS CLI Perintah*. 

### `validate-configuration-settings`
<a name="elastic-beanstalk_ValidateConfigurationSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`validate-configuration-settings`.

**AWS CLI**  
**Untuk memvalidasi pengaturan konfigurasi**  
Perintah berikut memvalidasi dokumen konfigurasi metrik CloudWatch kustom:  

```
aws elasticbeanstalk validate-configuration-settings --application-name my-app --environment-name my-env --option-settings file://options.json
```
`options.json`adalah dokumen JSON yang mencakup satu atau lebih pengaturan konfigurasi untuk memvalidasi:  

```
[
    {
        "Namespace": "aws:elasticbeanstalk:healthreporting:system",
        "OptionName": "ConfigDocument",
        "Value": "{\"CloudWatchMetrics\": {\"Environment\": {\"ApplicationLatencyP99.9\": null,\"InstancesSevere\": 60,\"ApplicationLatencyP90\": 60,\"ApplicationLatencyP99\": null,\"ApplicationLatencyP95\": 60,\"InstancesUnknown\": 60,\"ApplicationLatencyP85\": 60,\"InstancesInfo\": null,\"ApplicationRequests2xx\": null,\"InstancesDegraded\": null,\"InstancesWarning\": 60,\"ApplicationLatencyP50\": 60,\"ApplicationRequestsTotal\": null,\"InstancesNoData\": null,\"InstancesPending\": 60,\"ApplicationLatencyP10\": null,\"ApplicationRequests5xx\": null,\"ApplicationLatencyP75\": null,\"InstancesOk\": 60,\"ApplicationRequests3xx\": null,\"ApplicationRequests4xx\": null},\"Instance\": {\"ApplicationLatencyP99.9\": null,\"ApplicationLatencyP90\": 60,\"ApplicationLatencyP99\": null,\"ApplicationLatencyP95\": null,\"ApplicationLatencyP85\": null,\"CPUUser\": 60,\"ApplicationRequests2xx\": null,\"CPUIdle\": null,\"ApplicationLatencyP50\": null,\"ApplicationRequestsTotal\": 60,\"RootFilesystemUtil\": null,\"LoadAverage1min\": null,\"CPUIrq\": null,\"CPUNice\": 60,\"CPUIowait\": 60,\"ApplicationLatencyP10\": null,\"LoadAverage5min\": null,\"ApplicationRequests5xx\": null,\"ApplicationLatencyP75\": 60,\"CPUSystem\": 60,\"ApplicationRequests3xx\": 60,\"ApplicationRequests4xx\": null,\"InstanceHealth\": null,\"CPUSoftirq\": 60}},\"Version\": 1}"
    }
]
```
Jika opsi yang Anda tentukan valid untuk lingkungan tertentu, Elastic Beanstalk mengembalikan array Pesan kosong:  

```
{
    "Messages": []
}
```
Jika validasi gagal, respons akan mencakup informasi tentang kesalahan:  

```
{
    "Messages": [
        {
            "OptionName": "ConfigDocumet",
            "Message": "Invalid option specification (Namespace: 'aws:elasticbeanstalk:healthreporting:system', OptionName: 'ConfigDocumet'): Unknown configuration setting.",
            "Namespace": "aws:elasticbeanstalk:healthreporting:system",
            "Severity": "error"
        }
    ]
}
```
Untuk informasi selengkapnya tentang ruang nama dan opsi yang didukung, lihat Nilai Opsi dalam Panduan Pengembang Elastic *AWS Beanstalk*.  
+  Untuk detail API, lihat [ValidateConfigurationSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticbeanstalk/validate-configuration-settings.html)di *Referensi AWS CLI Perintah*. 

# Elastic Load Balancing - Contoh versi 1 menggunakan AWS CLI
<a name="cli_2_elastic-load-balancing_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Elastic Load Balancing - Versi 1.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags`
<a name="elastic-load-balancing_AddTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags`.

**AWS CLI**  
**Untuk menambahkan tag ke penyeimbang beban**  
Contoh ini menambahkan tag ke penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb add-tags --load-balancer-name my-load-balancer --tags "Key=project,Value=lima" "Key=department,Value=digital-media"
```
+  Untuk detail API, lihat [AddTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/add-tags.html)di *Referensi AWS CLI Perintah*. 

### `apply-security-groups-to-load-balancer`
<a name="elastic-load-balancing_ApplySecurityGroupsToLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`apply-security-groups-to-load-balancer`.

**AWS CLI**  
**Untuk mengaitkan grup keamanan dengan penyeimbang beban di VPC**  
Contoh ini mengaitkan grup keamanan dengan penyeimbang beban yang ditentukan dalam VPC.  
Perintah:  

```
aws elb apply-security-groups-to-load-balancer --load-balancer-name my-load-balancer --security-groups sg-fc448899
```
Output:  

```
{
  "SecurityGroups": [
      "sg-fc448899"
  ]
}
```
+  Untuk detail API, lihat [ApplySecurityGroupsToLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/apply-security-groups-to-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `attach-load-balancer-to-subnets`
<a name="elastic-load-balancing_AttachLoadBalancerToSubnets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-load-balancer-to-subnets`.

**AWS CLI**  
**Untuk melampirkan subnet ke penyeimbang beban**  
Contoh ini menambahkan subnet yang ditentukan ke set subnet yang dikonfigurasi untuk penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb attach-load-balancer-to-subnets --load-balancer-name my-load-balancer --subnets subnet-0ecac448
```
Output:  

```
{
   "Subnets": [
       "subnet-15aaab61",
       "subnet-0ecac448"
   ]
}
```
+  Untuk detail API, lihat [AttachLoadBalancerToSubnets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/attach-load-balancer-to-subnets.html)di *Referensi AWS CLI Perintah*. 

### `configure-health-check`
<a name="elastic-load-balancing_ConfigureHealthCheck_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`configure-health-check`.

**AWS CLI**  
**Untuk menentukan pengaturan pemeriksaan kesehatan untuk instans EC2 backend Anda**  
Contoh ini menentukan pengaturan pemeriksaan kesehatan yang digunakan untuk mengevaluasi kesehatan instans EC2 backend Anda.  
Perintah:  

```
aws elb configure-health-check --load-balancer-name my-load-balancer --health-check Target=HTTP:80/png,Interval=30,UnhealthyThreshold=2,HealthyThreshold=2,Timeout=3
```
Output:  

```
{
   "HealthCheck": {
       "HealthyThreshold": 2,
       "Interval": 30,
       "Target": "HTTP:80/png",
       "Timeout": 3,
       "UnhealthyThreshold": 2
   }
}
```
+  Untuk detail API, lihat [ConfigureHealthCheck](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/configure-health-check.html)di *Referensi AWS CLI Perintah*. 

### `create-app-cookie-stickiness-policy`
<a name="elastic-load-balancing_CreateAppCookieStickinessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-app-cookie-stickiness-policy`.

**AWS CLI**  
**Untuk menghasilkan kebijakan lengket untuk penyeimbang beban HTTPS Anda**  
Contoh ini menghasilkan kebijakan lengket yang mengikuti masa pakai sesi lengket dari cookie yang dihasilkan aplikasi.  
Perintah:  

```
aws elb create-app-cookie-stickiness-policy --load-balancer-name my-load-balancer --policy-name my-app-cookie-policy --cookie-name my-app-cookie
```
+  Untuk detail API, lihat [CreateAppCookieStickinessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/create-app-cookie-stickiness-policy.html)di *Referensi AWS CLI Perintah*. 

### `create-lb-cookie-stickiness-policy`
<a name="elastic-load-balancing_CreateLbCookieStickinessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-lb-cookie-stickiness-policy`.

**AWS CLI**  
**Untuk menghasilkan kebijakan lengket berbasis durasi untuk penyeimbang beban HTTPS Anda**  
Contoh ini menghasilkan kebijakan lengket dengan masa pakai sesi lengket yang dikendalikan oleh periode kedaluwarsa yang ditentukan.  
Perintah:  

```
aws elb create-lb-cookie-stickiness-policy --load-balancer-name my-load-balancer --policy-name my-duration-cookie-policy --cookie-expiration-period 60
```
+  Untuk detail API, lihat [CreateLbCookieStickinessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/create-lb-cookie-stickiness-policy.html)di *Referensi AWS CLI Perintah*. 

### `create-load-balancer-listeners`
<a name="elastic-load-balancing_CreateLoadBalancerListeners_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-load-balancer-listeners`.

**AWS CLI**  
**Untuk membuat pendengar HTTP untuk penyeimbang beban**  
Contoh ini membuat pendengar untuk penyeimbang beban Anda di port 80 menggunakan protokol HTTP.  
Perintah:  

```
aws elb create-load-balancer-listeners --load-balancer-name my-load-balancer --listeners "Protocol=HTTP,LoadBalancerPort=80,InstanceProtocol=HTTP,InstancePort=80"
```
**Untuk membuat pendengar HTTPS untuk penyeimbang beban**  
Contoh ini membuat listener untuk penyeimbang beban Anda di port 443 menggunakan protokol HTTPS.  
Perintah:  

```
aws elb create-load-balancer-listeners --load-balancer-name my-load-balancer --listeners "Protocol=HTTPS,LoadBalancerPort=443,InstanceProtocol=HTTP,InstancePort=80"
```
+  Untuk detail API, lihat [CreateLoadBalancerListeners](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/create-load-balancer-listeners.html)di *Referensi AWS CLI Perintah*. 

### `create-load-balancer-policy`
<a name="elastic-load-balancing_CreateLoadBalancerPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-load-balancer-policy`.

**AWS CLI**  
**Untuk membuat kebijakan yang mengaktifkan Protokol Proxy pada penyeimbang beban**  
Contoh ini membuat kebijakan yang mengaktifkan Protokol Proxy pada penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb create-load-balancer-policy --load-balancer-name my-load-balancer --policy-name my-ProxyProtocol-policy --policy-type-name ProxyProtocolPolicyType --policy-attributes AttributeName=ProxyProtocol,AttributeValue=true
```
**Untuk membuat kebijakan negosiasi SSL menggunakan kebijakan keamanan yang direkomendasikan**  
Contoh ini membuat kebijakan negosiasi SSL untuk penyeimbang beban HTTPS yang ditentukan menggunakan kebijakan keamanan yang direkomendasikan.  
Perintah:  

```
aws elb create-load-balancer-policy --load-balancer-name my-load-balancer --policy-name my-SSLNegotiation-policy --policy-type-name SSLNegotiationPolicyType --policy-attributes AttributeName=Reference-Security-Policy,AttributeValue=ELBSecurityPolicy-2015-03
```
**Untuk membuat kebijakan negosiasi SSL menggunakan kebijakan keamanan khusus**  
Contoh ini membuat kebijakan negosiasi SSL untuk penyeimbang beban HTTPS Anda menggunakan kebijakan keamanan khusus dengan mengaktifkan protokol dan cipher.  
Perintah:  

```
aws elb create-load-balancer-policy --load-balancer-name my-load-balancer --policy-name my-SSLNegotiation-policy --policy-type-name SSLNegotiationPolicyType --policy-attributes AttributeName=Protocol-SSLv3,AttributeValue=true AttributeName=Protocol-TLSv1.1,AttributeValue=true AttributeName=DHE-RSA-AES256-SHA256,AttributeValue=true AttributeName=Server-Defined-Cipher-Order,AttributeValue=true
```
**Untuk membuat kebijakan kunci publik**  
Contoh ini menciptakan kebijakan kunci publik.  
Perintah:  

```
aws elb create-load-balancer-policy --load-balancer-name my-load-balancer --policy-name my-PublicKey-policy --policy-type-name PublicKeyPolicyType --policy-attributes AttributeName=PublicKey,AttributeValue=MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAwAYUjnfyEyXr1pxjhFWBpMlggUcqoi3kl+dS74kj//c6x7ROtusUaeQCTgIUkayttRDWchuqo1pHC1u+n5xxXnBBe2ejbb2WRsKIQ5rXEeixsjFpFsojpSQKkzhVGI6mJVZBJDVKSHmswnwLBdofLhzvllpovBPTHe+o4haAWvDBALJU0pkSI1FecPHcs2hwxf14zHoXy1e2k36A64nXW43wtfx5qcVSIxtCEOjnYRg7RPvybaGfQ+v6Iaxb/+7J5kEvZhTFQId+bSiJImF1FSUT1W1xwzBZPUbcUkkXDj45vC2s3Z8E+Lk7a3uZhvsQHLZnrfuWjBWGWvZ/MhZYgEXAMPLE
```
**Untuk membuat kebijakan otentikasi server backend**  
Contoh ini membuat kebijakan otentikasi server backend yang memungkinkan otentikasi pada instance backend Anda menggunakan kebijakan kunci publik.  
Perintah:  

```
aws elb create-load-balancer-policy --load-balancer-name my-load-balancer --policy-name my-authentication-policy --policy-type-name BackendServerAuthenticationPolicyType --policy-attributes AttributeName=PublicKeyPolicyName,AttributeValue=my-PublicKey-policy
```
+  Untuk detail API, lihat [CreateLoadBalancerPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/create-load-balancer-policy.html)di *Referensi AWS CLI Perintah*. 

### `create-load-balancer`
<a name="elastic-load-balancing_CreateLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-load-balancer`.

**AWS CLI**  
**Untuk membuat penyeimbang beban HTTP**  
Contoh ini membuat penyeimbang beban dengan pendengar HTTP di VPC.  
Perintah:  

```
aws elb create-load-balancer --load-balancer-name my-load-balancer --listeners "Protocol=HTTP,LoadBalancerPort=80,InstanceProtocol=HTTP,InstancePort=80" --subnets subnet-15aaab61 --security-groups sg-a61988c3
```
Output:  

```
{
    "DNSName": "my-load-balancer-1234567890.us-west-2.elb.amazonaws.com"
}
```
Contoh ini membuat penyeimbang beban dengan pendengar HTTP di EC2-Classic.  
Perintah:  

```
aws elb create-load-balancer --load-balancer-name my-load-balancer --listeners "Protocol=HTTP,LoadBalancerPort=80,InstanceProtocol=HTTP,InstancePort=80" --availability-zones us-west-2a us-west-2b
```
Output:  

```
{
    "DNSName": "my-load-balancer-123456789.us-west-2.elb.amazonaws.com"
}
```
**Untuk membuat penyeimbang beban HTTPS**  
Contoh ini membuat penyeimbang beban dengan pendengar HTTPS di VPC.  
Perintah:  

```
aws elb create-load-balancer --load-balancer-name my-load-balancer --listeners "Protocol=HTTP,LoadBalancerPort=80,InstanceProtocol=HTTP,InstancePort=80" "Protocol=HTTPS,LoadBalancerPort=443,InstanceProtocol=HTTP,InstancePort=80,SSLCertificateId=arn:aws:iam::123456789012:server-certificate/my-server-cert" --subnets subnet-15aaab61 --security-groups sg-a61988c3
```
Output:  

```
{
    "DNSName": "my-load-balancer-1234567890.us-west-2.elb.amazonaws.com"
}
```
Contoh ini membuat penyeimbang beban dengan pendengar HTTPS di EC2-Classic.  
Perintah:  

```
aws elb create-load-balancer --load-balancer-name my-load-balancer --listeners "Protocol=HTTP,LoadBalancerPort=80,InstanceProtocol=HTTP,InstancePort=80" "Protocol=HTTPS,LoadBalancerPort=443,InstanceProtocol=HTTP,InstancePort=80,SSLCertificateId=arn:aws:iam::123456789012:server-certificate/my-server-cert" --availability-zones us-west-2a us-west-2b
```
Output:  

```
{
    "DNSName": "my-load-balancer-123456789.us-west-2.elb.amazonaws.com"
}
```
**Untuk membuat penyeimbang beban internal**  
Contoh ini membuat penyeimbang beban internal dengan pendengar HTTP di VPC.  
Perintah:  

```
aws elb create-load-balancer --load-balancer-name my-load-balancer --listeners "Protocol=HTTP,LoadBalancerPort=80,InstanceProtocol=HTTP,InstancePort=80" --scheme internal --subnets subnet-a85db0df --security-groups sg-a61988c3
```
Output:  

```
{
    "DNSName": "internal-my-load-balancer-123456789.us-west-2.elb.amazonaws.com"
}
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/create-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `delete-load-balancer-listeners`
<a name="elastic-load-balancing_DeleteLoadBalancerListeners_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-load-balancer-listeners`.

**AWS CLI**  
**Untuk menghapus listener dari load balancer**  
Contoh ini menghapus listener untuk port yang ditentukan dari penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb delete-load-balancer-listeners --load-balancer-name my-load-balancer --load-balancer-ports 80
```
+  Untuk detail API, lihat [DeleteLoadBalancerListeners](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/delete-load-balancer-listeners.html)di *Referensi AWS CLI Perintah*. 

### `delete-load-balancer-policy`
<a name="elastic-load-balancing_DeleteLoadBalancerPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-load-balancer-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan dari penyeimbang beban**  
Contoh ini menghapus kebijakan yang ditentukan dari penyeimbang beban yang ditentukan. Kebijakan tidak boleh diaktifkan pada pendengar mana pun.  
Perintah:  

```
aws elb delete-load-balancer-policy --load-balancer-name my-load-balancer --policy-name my-duration-cookie-policy
```
+  Untuk detail API, lihat [DeleteLoadBalancerPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/delete-load-balancer-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-load-balancer`
<a name="elastic-load-balancing_DeleteLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-load-balancer`.

**AWS CLI**  
**Untuk menghapus penyeimbang beban**  
Contoh ini menghapus penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb delete-load-balancer --load-balancer-name my-load-balancer
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/delete-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `deregister-instances-from-load-balancer`
<a name="elastic-load-balancing_DeregisterInstancesFromLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-instances-from-load-balancer`.

**AWS CLI**  
**Untuk membatalkan pendaftaran instance dari penyeimbang beban**  
Contoh ini membatalkan pendaftaran instance tertentu dari penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb deregister-instances-from-load-balancer --load-balancer-name my-load-balancer --instances i-d6f6fae3
```
Output:  

```
{
    "Instances": [
        {
            "InstanceId": "i-207d9717"
        },
        {
            "InstanceId": "i-afefb49b"
        }
    ]
}
```
+  Untuk detail API, lihat [DeregisterInstancesFromLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/deregister-instances-from-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-limits`
<a name="elastic-load-balancing_DescribeAccountLimits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-limits`.

**AWS CLI**  
**Untuk menjelaskan batas Classic Load Balancer**  
`describe-account-limits`Contoh berikut menampilkan detail tentang batas Classic Load Balancer untuk akun Anda AWS .  

```
aws elb describe-account-limits
```
Output:  

```
{
    "Limits": [
        {
            "Name": "classic-load-balancers",
            "Max": "20"
        },
        {
            "Name": "classic-listeners",
            "Max": "100"
        },
        {
            "Name": "classic-registered-instances",
            "Max": "1000"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAccountLimits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/describe-account-limits.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-health`
<a name="elastic-load-balancing_DescribeInstanceHealth_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-health`.

**AWS CLI**  
**Untuk menggambarkan kesehatan instans untuk penyeimbang beban**  
Contoh ini menjelaskan kesehatan instance untuk penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb describe-instance-health --load-balancer-name my-load-balancer
```
Output:  

```
{
  "InstanceStates": [
      {
          "InstanceId": "i-207d9717",
          "ReasonCode": "N/A",
          "State": "InService",
          "Description": "N/A"
      },
      {
          "InstanceId": "i-afefb49b",
          "ReasonCode": "N/A",
          "State": "InService",
          "Description": "N/A"
      }
  ]
}
```
**Untuk menggambarkan kesehatan sebuah instance untuk penyeimbang beban**  
Contoh ini menjelaskan kesehatan instance yang ditentukan untuk penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb describe-instance-health --load-balancer-name my-load-balancer --instances i-7299c809
```
Berikut ini adalah contoh respons untuk contoh yang mendaftar.  
Output:  

```
{
  "InstanceStates": [
      {
          "InstanceId": "i-7299c809",
          "ReasonCode": "ELB",
          "State": "OutOfService",
          "Description": "Instance registration is still in progress."
    }
  ]
}
```
Berikut ini adalah contoh respons untuk contoh yang tidak sehat.  
Output:  

```
{
  "InstanceStates": [
      {
          "InstanceId": "i-7299c809",
          "ReasonCode": "Instance",
          "State": "OutOfService",
          "Description": "Instance has failed at least the UnhealthyThreshold number of health checks consecutively."
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeInstanceHealth](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/describe-instance-health.html)di *Referensi AWS CLI Perintah*. 

### `describe-load-balancer-attributes`
<a name="elastic-load-balancing_DescribeLoadBalancerAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-load-balancer-attributes`.

**AWS CLI**  
**Untuk menggambarkan atribut penyeimbang beban**  
Contoh ini menjelaskan atribut penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb describe-load-balancer-attributes --load-balancer-name my-load-balancer
```
Output:  

```
{
  "LoadBalancerAttributes": {
      "ConnectionDraining": {
          "Enabled": false,
          "Timeout": 300
      },
      "CrossZoneLoadBalancing": {
          "Enabled": true
      },
      "ConnectionSettings": {
          "IdleTimeout": 30
      },
      "AccessLog": {
          "Enabled": false
    }
  }
}
```
+  Untuk detail API, lihat [DescribeLoadBalancerAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/describe-load-balancer-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-load-balancer-policies`
<a name="elastic-load-balancing_DescribeLoadBalancerPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-load-balancer-policies`.

**AWS CLI**  
**Untuk menjelaskan semua kebijakan yang terkait dengan penyeimbang beban**  
Contoh ini menjelaskan semua kebijakan yang terkait dengan penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb describe-load-balancer-policies --load-balancer-name my-load-balancer
```
Output:  

```
{
  "PolicyDescriptions": [
    {
      "PolicyAttributeDescriptions": [
        {
          "AttributeName": "ProxyProtocol",
          "AttributeValue": "true"
        }
      ],
      "PolicyName": "my-ProxyProtocol-policy",
      "PolicyTypeName": "ProxyProtocolPolicyType"
    },
    {
        "PolicyAttributeDescriptions": [
            {
                "AttributeName": "CookieName",
                "AttributeValue": "my-app-cookie"
            }
        ],
        "PolicyName": "my-app-cookie-policy",
        "PolicyTypeName": "AppCookieStickinessPolicyType"
    },
    {
      "PolicyAttributeDescriptions": [
        {
          "AttributeName": "CookieExpirationPeriod",
          "AttributeValue": "60"
        }
      ],
      "PolicyName": "my-duration-cookie-policy",
      "PolicyTypeName": "LBCookieStickinessPolicyType"
    },
    .
    .
    .
  ]
}
```
**Untuk mendeskripsikan kebijakan spesifik yang terkait dengan penyeimbang beban**  
Contoh ini menjelaskan kebijakan tertentu yang terkait dengan penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb describe-load-balancer-policies --load-balancer-name my-load-balancer --policy-name my-authentication-policy
```
Output:  

```
{
  "PolicyDescriptions": [
      {
          "PolicyAttributeDescriptions": [
              {
                  "AttributeName": "PublicKeyPolicyName",
                  "AttributeValue": "my-PublicKey-policy"
              }
          ],
          "PolicyName": "my-authentication-policy",
          "PolicyTypeName": "BackendServerAuthenticationPolicyType"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeLoadBalancerPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/describe-load-balancer-policies.html)di *Referensi AWS CLI Perintah*. 

### `describe-load-balancer-policy-types`
<a name="elastic-load-balancing_DescribeLoadBalancerPolicyTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-load-balancer-policy-types`.

**AWS CLI**  
**Untuk mendeskripsikan jenis kebijakan penyeimbang beban yang ditentukan oleh Elastic Load Balancing**  
Contoh ini menjelaskan jenis kebijakan penyeimbang beban yang dapat Anda gunakan untuk membuat konfigurasi kebijakan untuk penyeimbang beban Anda.  
Perintah:  

```
aws elb describe-load-balancer-policy-types
```
Output:  

```
{
  "PolicyTypeDescriptions": [
      {
          "PolicyAttributeTypeDescriptions": [
              {
                  "Cardinality": "ONE",
                  "AttributeName": "ProxyProtocol",
                  "AttributeType": "Boolean"
              }
          ],
          "PolicyTypeName": "ProxyProtocolPolicyType",
          "Description": "Policy that controls whether to include the IP address and port of the originating request for TCP messages. This policy operates on TCP/SSL listeners only"
      },
      {
          "PolicyAttributeTypeDescriptions": [
              {
                  "Cardinality": "ONE",
                  "AttributeName": "PublicKey",
                  "AttributeType": "String"
              }
          ],
          "PolicyTypeName": "PublicKeyPolicyType",
          "Description": "Policy containing a list of public keys to accept when authenticating the back-end server(s). This policy cannot be applied directly to back-end servers or listeners but must be part of a BackendServerAuthenticationPolicyType."
      },
      {
          "PolicyAttributeTypeDescriptions": [
              {
                  "Cardinality": "ONE",
                  "AttributeName": "CookieName",
                  "AttributeType": "String"
              }
          ],
          "PolicyTypeName": "AppCookieStickinessPolicyType",
          "Description": "Stickiness policy with session lifetimes controlled by the lifetime of the application-generated cookie. This policy can be associated only with HTTP/HTTPS listeners."
      },
      {
          "PolicyAttributeTypeDescriptions": [
              {
                  "Cardinality": "ZERO_OR_ONE",
                  "AttributeName": "CookieExpirationPeriod",
                  "AttributeType": "Long"
              }
          ],
          "PolicyTypeName": "LBCookieStickinessPolicyType",
          "Description": "Stickiness policy with session lifetimes controlled by the browser (user-agent) or a specified expiration period. This policy can be associated only with HTTP/HTTPS listeners."
      },
      {
          "PolicyAttributeTypeDescriptions": [
              .
              .
              .
          ],
          "PolicyTypeName": "SSLNegotiationPolicyType",
          "Description": "Listener policy that defines the ciphers and protocols that will be accepted by the load balancer. This policy can be associated only with HTTPS/SSL listeners."
      },
      {
          "PolicyAttributeTypeDescriptions": [
              {
                  "Cardinality": "ONE_OR_MORE",
                  "AttributeName": "PublicKeyPolicyName",
                  "AttributeType": "PolicyName"
              }
          ],
          "PolicyTypeName": "BackendServerAuthenticationPolicyType",
          "Description": "Policy that controls authentication to back-end server(s) and contains one or more policies, such as an instance of a PublicKeyPolicyType. This policy can be associated only with back-end servers that are using HTTPS/SSL."
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeLoadBalancerPolicyTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/describe-load-balancer-policy-types.html)di *Referensi AWS CLI Perintah*. 

### `describe-load-balancers`
<a name="elastic-load-balancing_DescribeLoadBalancers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-load-balancers`.

**AWS CLI**  
**Untuk menggambarkan penyeimbang beban Anda**  
Contoh ini menjelaskan semua penyeimbang beban Anda.  
Perintah:  

```
aws elb describe-load-balancers
```
**Untuk menggambarkan salah satu penyeimbang beban Anda**  
Contoh ini menjelaskan penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb describe-load-balancers --load-balancer-name my-load-balancer
```
Contoh respons berikut adalah untuk penyeimbang beban HTTPS di VPC.  
Output:  

```
{
  "LoadBalancerDescriptions": [
    {
      "Subnets": [
          "subnet-15aaab61"
      ],
      "CanonicalHostedZoneNameID": "Z3DZXE0EXAMPLE",
      "CanonicalHostedZoneName": "my-load-balancer-1234567890.us-west-2.elb.amazonaws.com",
      "ListenerDescriptions": [
          {
              "Listener": {
                  "InstancePort": 80,
                  "LoadBalancerPort": 80,
                  "Protocol": "HTTP",
                  "InstanceProtocol": "HTTP"
              },
              "PolicyNames": []
          },
          {
              "Listener": {
                  "InstancePort": 443,
                  "SSLCertificateId": "arn:aws:iam::123456789012:server-certificate/my-server-cert",
                  "LoadBalancerPort": 443,
                  "Protocol": "HTTPS",
                  "InstanceProtocol": "HTTPS"
              },
              "PolicyNames": [
                  "ELBSecurityPolicy-2015-03"
              ]
          }
      ],
      "HealthCheck": {
          "HealthyThreshold": 2,
          "Interval": 30,
          "Target": "HTTP:80/png",
          "Timeout": 3,
          "UnhealthyThreshold": 2
      },
      "VPCId": "vpc-a01106c2",
      "BackendServerDescriptions": [
          {
              "InstancePort": 80,
              "PolicyNames": [
                  "my-ProxyProtocol-policy"
              ]
          }
      ],
      "Instances": [
          {
              "InstanceId": "i-207d9717"
          },
          {
              "InstanceId": "i-afefb49b"
          }
      ],
      "DNSName": "my-load-balancer-1234567890.us-west-2.elb.amazonaws.com",
      "SecurityGroups": [
          "sg-a61988c3"
      ],
      "Policies": {
          "LBCookieStickinessPolicies": [
              {
                  "PolicyName": "my-duration-cookie-policy",
                  "CookieExpirationPeriod": 60
              }
          ],
          "AppCookieStickinessPolicies": [],
          "OtherPolicies": [
              "my-PublicKey-policy",
              "my-authentication-policy",
              "my-SSLNegotiation-policy",
              "my-ProxyProtocol-policy",
              "ELBSecurityPolicy-2015-03"
          ]
      },
      "LoadBalancerName": "my-load-balancer",
      "CreatedTime": "2015-03-19T03:24:02.650Z",
      "AvailabilityZones": [
          "us-west-2a"
      ],
      "Scheme": "internet-facing",
      "SourceSecurityGroup": {
          "OwnerAlias": "123456789012",
          "GroupName": "my-elb-sg"
      }
    }
  ]
}
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/describe-load-balancers.html)di *Referensi AWS CLI Perintah*. 

### `describe-tags`
<a name="elastic-load-balancing_DescribeTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tags`.

**AWS CLI**  
**Untuk mendeskripsikan tag yang ditetapkan ke penyeimbang beban**  
Contoh ini menjelaskan tag yang ditetapkan untuk penyeimbang beban tertentu.  
Perintah:  

```
aws elb describe-tags --load-balancer-name my-load-balancer
```
Output:  

```
{
  "TagDescriptions": [
      {
          "Tags": [
              {
                  "Value": "lima",
                  "Key": "project"
              },
              {
                  "Value": "digital-media",
                  "Key": "department"
              }
          ],
          "LoadBalancerName": "my-load-balancer"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/describe-tags.html)di *Referensi AWS CLI Perintah*. 

### `detach-load-balancer-from-subnets`
<a name="elastic-load-balancing_DetachLoadBalancerFromSubnets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-load-balancer-from-subnets`.

**AWS CLI**  
**Untuk melepaskan penyeimbang beban dari subnet**  
Contoh ini melepaskan penyeimbang beban yang ditentukan dari subnet yang ditentukan.  
Perintah:  

```
aws elb detach-load-balancer-from-subnets --load-balancer-name my-load-balancer --subnets subnet-0ecac448
```
Output:  

```
{
   "Subnets": [
       "subnet-15aaab61"
   ]
}
```
+  Untuk detail API, lihat [DetachLoadBalancerFromSubnets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/detach-load-balancer-from-subnets.html)di *Referensi AWS CLI Perintah*. 

### `disable-availability-zones-for-load-balancer`
<a name="elastic-load-balancing_DisableAvailabilityZonesForLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-availability-zones-for-load-balancer`.

**AWS CLI**  
**Untuk menonaktifkan Availability Zones untuk load balancer**  
Contoh ini menghapus Availability Zone yang ditentukan dari kumpulan Availability Zones untuk load balancer yang ditentukan.  
Perintah:  

```
aws elb disable-availability-zones-for-load-balancer --load-balancer-name my-load-balancer --availability-zones us-west-2a
```
Output:  

```
{
    "AvailabilityZones": [
        "us-west-2b"
    ]
}
```
+  Untuk detail API, lihat [DisableAvailabilityZonesForLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/disable-availability-zones-for-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `enable-availability-zones-for-load-balancer`
<a name="elastic-load-balancing_EnableAvailabilityZonesForLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-availability-zones-for-load-balancer`.

**AWS CLI**  
**Untuk mengaktifkan Availability Zones untuk load balancer**  
Contoh ini menambahkan Availability Zone yang ditentukan ke load balancer yang ditentukan.  
Perintah:  

```
aws elb enable-availability-zones-for-load-balancer --load-balancer-name my-load-balancer --availability-zones us-west-2b
```
Output:  

```
{
    "AvailabilityZones": [
        "us-west-2a",
        "us-west-2b"
    ]
}
```
+  Untuk detail API, lihat [EnableAvailabilityZonesForLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/enable-availability-zones-for-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `modify-load-balancer-attributes`
<a name="elastic-load-balancing_ModifyLoadBalancerAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-load-balancer-attributes`.

**AWS CLI**  
**Untuk memodifikasi atribut penyeimbang beban**  
Contoh ini memodifikasi `CrossZoneLoadBalancing` atribut penyeimbang beban tertentu.  
Perintah:  

```
aws elb modify-load-balancer-attributes --load-balancer-name my-load-balancer --load-balancer-attributes "{\"CrossZoneLoadBalancing\":{\"Enabled\":true}}"
```
Output:  

```
{
    "LoadBalancerAttributes": {
        "CrossZoneLoadBalancing": {
            "Enabled": true
        }
    },
    "LoadBalancerName": "my-load-balancer"
}
```
Contoh ini memodifikasi `ConnectionDraining` atribut penyeimbang beban tertentu.  
Perintah:  

```
aws elb modify-load-balancer-attributes --load-balancer-name my-load-balancer --load-balancer-attributes "{\"ConnectionDraining\":{\"Enabled\":true,\"Timeout\":300}}"
```
Output:  

```
{
    "LoadBalancerAttributes": {
        "ConnectionDraining": {
            "Enabled": true,
            "Timeout": 300
        }
    },
    "LoadBalancerName": "my-load-balancer"
}
```
+  Untuk detail API, lihat [ModifyLoadBalancerAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/modify-load-balancer-attributes.html)di *Referensi AWS CLI Perintah*. 

### `register-instances-with-load-balancer`
<a name="elastic-load-balancing_RegisterInstancesWithLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-instances-with-load-balancer`.

**AWS CLI**  
**Untuk mendaftarkan instance dengan penyeimbang beban**  
Contoh ini mendaftarkan instance tertentu dengan penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb register-instances-with-load-balancer --load-balancer-name my-load-balancer --instances i-d6f6fae3
```
Output:  

```
{
   "Instances": [
       {
           "InstanceId": "i-d6f6fae3"
       },
       {
           "InstanceId": "i-207d9717"
       },
       {
           "InstanceId": "i-afefb49b"
       }
   ]
}
```
+  Untuk detail API, lihat [RegisterInstancesWithLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/register-instances-with-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags`
<a name="elastic-load-balancing_RemoveTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags`.

**AWS CLI**  
**Untuk menghapus tag dari penyeimbang beban**  
Contoh ini menghapus tag dari penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elb remove-tags --load-balancer-name my-load-balancer --tags project
```
+  Untuk detail API, lihat [RemoveTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/remove-tags.html)di *Referensi AWS CLI Perintah*. 

### `set-load-balancer-listener-ssl-certificate`
<a name="elastic-load-balancing_SetLoadBalancerListenerSslCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-load-balancer-listener-ssl-certificate`.

**AWS CLI**  
**Untuk memperbarui sertifikat SSL untuk penyeimbang beban HTTPS**  
Contoh ini menggantikan sertifikat SSL yang ada untuk penyeimbang beban HTTPS yang ditentukan.  
Perintah:  

```
aws elb set-load-balancer-listener-ssl-certificate --load-balancer-name my-load-balancer --load-balancer-port 443 --ssl-certificate-id arn:aws:iam::123456789012:server-certificate/new-server-cert
```
+  Untuk detail API, lihat [SetLoadBalancerListenerSslCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/set-load-balancer-listener-ssl-certificate.html)di *Referensi AWS CLI Perintah*. 

### `set-load-balancer-policies-for-backend-server`
<a name="elastic-load-balancing_SetLoadBalancerPoliciesForBackendServer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-load-balancer-policies-for-backend-server`.

**AWS CLI**  
**Untuk mengganti kebijakan yang terkait dengan port untuk instance backend**  
Contoh ini menggantikan kebijakan yang saat ini terkait dengan port yang ditentukan.  
Perintah:  

```
aws elb set-load-balancer-policies-for-backend-server --load-balancer-name my-load-balancer --instance-port 80 --policy-names my-ProxyProtocol-policy
```
**Untuk menghapus semua kebijakan yang saat ini terkait dengan port pada instans backend Anda**  
Contoh ini menghapus semua kebijakan yang terkait dengan port yang ditentukan.  
Perintah:  

```
aws elb set-load-balancer-policies-for-backend-server --load-balancer-name my-load-balancer --instance-port 80 --policy-names []
```
Untuk mengonfirmasi bahwa kebijakan dihapus, gunakan `describe-load-balancer-policies` perintah.  
+  Untuk detail API, lihat [SetLoadBalancerPoliciesForBackendServer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/set-load-balancer-policies-for-backend-server.html)di *Referensi AWS CLI Perintah*. 

### `set-load-balancer-policies-of-listener`
<a name="elastic-load-balancing_SetLoadBalancerPoliciesOfListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-load-balancer-policies-of-listener`.

**AWS CLI**  
**Untuk mengganti kebijakan yang terkait dengan pendengar**  
Contoh ini menggantikan kebijakan yang saat ini terkait dengan listener yang ditentukan.  
Perintah:  

```
aws elb set-load-balancer-policies-of-listener --load-balancer-name my-load-balancer --load-balancer-port 443 --policy-names my-SSLNegotiation-policy
```
**Untuk menghapus semua kebijakan yang terkait dengan listener Anda**  
Contoh ini menghapus semua kebijakan yang saat ini terkait dengan listener yang ditentukan.  
Perintah:  

```
aws elb set-load-balancer-policies-of-listener --load-balancer-name my-load-balancer --load-balancer-port 443 --policy-names []
```
Untuk mengonfirmasi bahwa kebijakan dihapus dari penyeimbang beban, gunakan `describe-load-balancer-policies` perintah.  
+  Untuk detail API, lihat [SetLoadBalancerPoliciesOfListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elb/set-load-balancer-policies-of-listener.html)di *Referensi AWS CLI Perintah*. 

# Elastic Load Balancing - Contoh versi 2 menggunakan AWS CLI
<a name="cli_2_elastic-load-balancing-v2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Elastic Load Balancing - Versi 2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-listener-certificates`
<a name="elastic-load-balancing-v2_AddListenerCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-listener-certificates`.

**AWS CLI**  
**Untuk menambahkan sertifikat ke pendengar yang aman**  
Contoh ini menambahkan sertifikat yang ditentukan ke pendengar aman yang ditentukan.  
Perintah:  

```
aws elbv2 add-listener-certificates --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2 --certificates CertificateArn=arn:aws:acm:us-west-2:123456789012:certificate/5cc54884-f4a3-4072-80be-05b9ba72f705
```
Output:  

```
{
  "Certificates": [
      {
          "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/5cc54884-f4a3-4072-80be-05b9ba72f705",
          "IsDefault": false
      }
  ]
}
```
+  Untuk detail API, lihat [AddListenerCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/add-listener-certificates.html)di *Referensi AWS CLI Perintah*. 

### `add-tags`
<a name="elastic-load-balancing-v2_AddTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags`.

**AWS CLI**  
**Untuk menambahkan tag ke penyeimbang beban**  
`add-tags`Contoh berikut menambahkan `project` dan `department` tag ke penyeimbang beban tertentu.  

```
aws elbv2 add-tags \
    --resource-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 \
    --tags "Key=project,Value=lima" "Key=department,Value=digital-media"
```
+  Untuk detail API, lihat [AddTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/add-tags.html)di *Referensi AWS CLI Perintah*. 

### `create-listener`
<a name="elastic-load-balancing-v2_CreateListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-listener`.

**AWS CLI**  
**Contoh 1: Untuk membuat pendengar HTTP**  
`create-listener`Contoh berikut membuat listener HTTP untuk Application Load Balancer tertentu yang meneruskan permintaan ke grup target yang ditentukan.  

```
aws elbv2 create-listener \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 \
    --protocol HTTP \
    --port 80 \
    --default-actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Untuk informasi selengkapnya, lihat [Tutorial: Membuat Application Load Balancer menggunakan AWS CLI](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/tutorial-application-load-balancer-cli.html#create-load-balancer-aws-cli) di *Panduan Pengguna untuk* Application Load Balancers.  
**Contoh 2: Untuk membuat pendengar HTTPS**  
`create-listener`Contoh berikut membuat listener HTTPS untuk Application Load Balancer tertentu yang meneruskan permintaan ke grup target yang ditentukan. Anda harus menentukan sertifikat SSL untuk pendengar HTTPS. Anda dapat membuat dan mengelola sertifikat menggunakan AWS Certificate Manager (ACM). Atau, Anda dapat membuat sertifikat menggunakan SSL/TLS alat, mendapatkan sertifikat yang ditandatangani oleh otoritas sertifikat (CA), dan mengunggah sertifikat ke AWS Identity and Access Management (IAM).  

```
aws elbv2 create-listener \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 \
    --protocol HTTPS \
    --port 443 \
    --certificates CertificateArn=arn:aws:acm:us-west-2:123456789012:certificate/3dcb0a41-bd72-4774-9ad9-756919c40557 \
    --ssl-policy ELBSecurityPolicy-2016-08 \
    --default-actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Untuk informasi selengkapnya, lihat [Menambahkan pendengar HTTPS](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/tutorial-application-load-balancer-cli.html#https-listener-aws-cli) di *Panduan Pengguna untuk Penyeimbang Beban Aplikasi*.  
**Contoh 3: Untuk membuat pendengar TCP**  
`create-listener`Contoh berikut membuat pendengar TCP untuk Network Load Balancer tertentu yang meneruskan permintaan ke grup target yang ditentukan.  

```
aws elbv2 create-listener \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/net/my-network-load-balancer/5d1b75f4f1cee11e \
    --protocol TCP \
    --port 80 \
    --default-actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-tcp-targets/b6bba954d1361c78
```
Untuk informasi selengkapnya, lihat [Tutorial: Membuat Network Load Balancer menggunakan AWS CLI](https://docs.aws.amazon.com/elasticloadbalancing/latest/network/network-load-balancer-cli.html#create-load-balancer-aws-cli) di *Panduan Pengguna untuk* Network Load Balancers.  
**Contoh 4: Untuk membuat pendengar TLS**  
`create-listener`Contoh berikut membuat pendengar TLS untuk Network Load Balancer tertentu yang meneruskan permintaan ke grup target yang ditentukan. Anda harus menentukan sertifikat SSL untuk pendengar TLS.  

```
aws elbv2 create-listener \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 \
    --protocol TLS \
    --port 443 \
    --certificates CertificateArn=arn:aws:acm:us-west-2:123456789012:certificate/3dcb0a41-bd72-4774-9ad9-756919c40557 \
    --ssl-policy ELBSecurityPolicy-2016-08 \
    --default-actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Untuk informasi selengkapnya, lihat [pendengar TLS untuk Network Load Balancer Anda di *Panduan Pengguna* untuk Network Load Balancers](https://docs.aws.amazon.com/elasticloadbalancing/latest/network/create-tls-listener.html).  
**Contoh 5: Untuk membuat pendengar UDP**  
`create-listener`Contoh berikut membuat pendengar UDP untuk Network Load Balancer tertentu yang meneruskan permintaan ke grup target yang ditentukan.  

```
aws elbv2 create-listener \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/net/my-network-load-balancer/5d1b75f4f1cee11e \
    --protocol UDP \
    --port 53 \
    --default-actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-tcp-targets/b6bba954d1361c78
```
Untuk informasi selengkapnya, lihat [Tutorial: Membuat Network Load Balancer menggunakan AWS CLI](https://docs.aws.amazon.com/elasticloadbalancing/latest/network/network-load-balancer-cli.html#create-load-balancer-aws-cli) di *Panduan Pengguna untuk* Network Load Balancers.  
**Contoh 6: Untuk membuat pendengar untuk gateway dan penerusan yang ditentukan**  
`create-listener`Contoh berikut membuat listener untuk Load Balancer Gateway tertentu yang meneruskan permintaan ke grup target yang ditentukan.  

```
aws elbv2 create-listener \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-east-1:850631746142:loadbalancer/gwy/my-gateway-load-balancer/e0f9b3d5c7f7d3d6 \
    --default-actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-east-1:850631746142:targetgroup/my-glb-targets/007ca469fae3bb1615
```
Output:  

```
{
    "Listeners": [
        {
            "ListenerArn": "arn:aws:elasticloadbalancing:us-east-1:850631746142:listener/gwy/my-agw-lb-example2/e0f9b3d5c7f7d3d6/afc127db15f925de",
            "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-east-1:850631746142:loadbalancer/gwy/my-agw-lb-example2/e0f9b3d5c7f7d3d6",
            "DefaultActions": [
                {
                    "Type": "forward",
                    "TargetGroupArn": "arn:aws:elasticloadbalancing:us-east-1:850631746142:targetgroup/test-tg-agw-2/007ca469fae3bb1615",
                    "ForwardConfig": {
                        "TargetGroups": [
                            {
                                "TargetGroupArn": "arn:aws:elasticloadbalancing:us-east-1:850631746142:targetgroup/test-tg-agw-2/007ca469fae3bb1615"
                            }
                        ]
                    }
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Gateway Load Balancer menggunakan AWS CLI](https://docs.aws.amazon.com/elasticloadbalancing/latest/gateway/getting-started-cli.html) di *Panduan Pengguna untuk* Penyeimbang Beban Gateway.  
+  Untuk detail API, lihat [CreateListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/create-listener.html)di *Referensi AWS CLI Perintah*. 

### `create-load-balancer`
<a name="elastic-load-balancing-v2_CreateLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-load-balancer`.

**AWS CLI**  
**Contoh 1: Untuk membuat penyeimbang beban yang menghadap ke Internet**  
`create-load-balancer`Contoh berikut membuat Application Load Balancer yang menghadap Internet dan mengaktifkan Availability Zones untuk subnet yang ditentukan.  

```
aws elbv2 create-load-balancer \
    --name my-load-balancer \
    --subnets subnet-b7d581c0 subnet-8360a9e7
```
Output:  

```
{
    "LoadBalancers": [
        {
            "Type": "application",
            "Scheme": "internet-facing",
            "IpAddressType": "ipv4",
            "VpcId": "vpc-3ac0fb5f",
            "AvailabilityZones": [
                {
                    "ZoneName": "us-west-2a",
                    "SubnetId": "subnet-8360a9e7"
                },
                {
                    "ZoneName": "us-west-2b",
                    "SubnetId": "subnet-b7d581c0"
                }
            ],
            "CreatedTime": "2017-08-25T21:26:12.920Z",
            "CanonicalHostedZoneId": "Z2P70J7EXAMPLE",
            "DNSName": "my-load-balancer-424835706.us-west-2.elb.amazonaws.com",
            "SecurityGroups": [
                "sg-5943793c"
            ],
            "LoadBalancerName": "my-load-balancer",
            "State": {
                "Code": "provisioning"
            },
            "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tutorial: Membuat Application Load Balancer menggunakan AWS CLI](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/tutorial-application-load-balancer-cli.html) di *Panduan Pengguna untuk* Application Load Balancers.  
**Contoh 2: Untuk membuat penyeimbang beban internal**  
`create-load-balancer`Contoh berikut membuat Application Load Balancer internal dan mengaktifkan Availability Zones untuk subnet yang ditentukan.  

```
aws elbv2 create-load-balancer \
    --name my-internal-load-balancer \
    --scheme internal \
    --subnets subnet-b7d581c0 subnet-8360a9e7
```
Output:  

```
{
    "LoadBalancers": [
        {
            "Type": "application",
            "Scheme": "internal",
            "IpAddressType": "ipv4",
            "VpcId": "vpc-3ac0fb5f",
            "AvailabilityZones": [
                {
                    "ZoneName": "us-west-2a",
                    "SubnetId": "subnet-8360a9e7"
                },
                {
                    "ZoneName": "us-west-2b",
                    "SubnetId": "subnet-b7d581c0"
                }
            ],
            "CreatedTime": "2016-03-25T21:29:48.850Z",
            "CanonicalHostedZoneId": "Z2P70J7EXAMPLE",
            "DNSName": "internal-my-internal-load-balancer-1529930873.us-west-2.elb.amazonaws.com",
            "SecurityGroups": [
                "sg-5943793c"
            ],
            "LoadBalancerName": "my-internal-load-balancer",
            "State": {
                "Code": "provisioning"
            },
            "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-internal-load-balancer/5b49b8d4303115c2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tutorial: Membuat Application Load Balancer menggunakan AWS CLI](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/tutorial-application-load-balancer-cli.html) di *Panduan Pengguna untuk* Application Load Balancers.  
**Contoh 3: Untuk membuat Network Load Balancer**  
`create-load-balancer`Contoh berikut membuat Network Load Balancer yang menghadap Internet dan mengaktifkan Availability Zone untuk subnet yang ditentukan. Ini menggunakan pemetaan subnet untuk mengaitkan alamat IP Elastis yang ditentukan dengan antarmuka jaringan yang digunakan oleh node penyeimbang beban untuk Availability Zone.  

```
aws elbv2 create-load-balancer \
    --name my-network-load-balancer \
    --type network \
    --subnet-mappings SubnetId=subnet-b7d581c0,AllocationId=eipalloc-64d5890a
```
Output:  

```
{
    "LoadBalancers": [
        {
            "Type": "network",
            "Scheme": "internet-facing",
            "IpAddressType": "ipv4",
            "VpcId": "vpc-3ac0fb5f",
            "AvailabilityZones": [
                {
                    "LoadBalancerAddresses": [
                        {
                            "IpAddress": "35.161.207.171",
                            "AllocationId": "eipalloc-64d5890a"
                        }
                    ],
                    "ZoneName": "us-west-2b",
                    "SubnetId": "subnet-5264e837"
                }
            ],
            "CreatedTime": "2017-10-15T22:41:25.657Z",
            "CanonicalHostedZoneId": "Z2P70J7EXAMPLE",
            "DNSName": "my-network-load-balancer-5d1b75f4f1cee11e.elb.us-west-2.amazonaws.com",
            "LoadBalancerName": "my-network-load-balancer",
            "State": {
                "Code": "provisioning"
            },
            "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/net/my-network-load-balancer/5d1b75f4f1cee11e"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tutorial: Membuat Network Load Balancer menggunakan AWS CLI](https://docs.aws.amazon.com/elasticloadbalancing/latest/network/network-load-balancer-cli.html) di *Panduan Pengguna untuk* Network Load Balancers.  
**Contoh 4: Untuk membuat Load Balancer Gateway**  
`create-load-balancer`Contoh berikut membuat Load Balancer Gateway dan mengaktifkan Availability Zones untuk subnet yang ditentukan.  

```
aws elbv2 create-load-balancer \
    --name my-gateway-load-balancer \
    --type gateway \
    --subnets subnet-dc83f691 subnet-a62583f9
```
Output:  

```
{
    "LoadBalancers": [
        {
            "Type": "gateway",
            "VpcId": "vpc-838475fe",
            "AvailabilityZones": [
                {
                    "ZoneName": "us-east-1b",
                    "SubnetId": "subnet-a62583f9"
                },
            {
                    "ZoneName": "us-east-1a",
                    "SubnetId": "subnet-dc83f691"
                }
            ],
            "CreatedTime": "2021-07-14T19:33:43.324000+00:00",
            "LoadBalancerName": "my-gateway-load-balancer",
            "State": {
                "Code": "provisioning"
            },
            "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-east-1:850631746142:loadbalancer/gwy/my-gateway-load-balancer/dfbb5a7d32cdee79"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Gateway Load Balancer menggunakan AWS CLI](https://docs.aws.amazon.com/elasticloadbalancing/latest/gateway/getting-started-cli.html) di *Panduan Pengguna untuk* Penyeimbang Beban Gateway.  
+  Untuk detail API, lihat [CreateLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/create-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `create-rule`
<a name="elastic-load-balancing-v2_CreateRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-rule`.

**AWS CLI**  
**Contoh 1: Untuk membuat aturan menggunakan kondisi jalur dan tindakan maju**  
`create-rule`Contoh berikut membuat aturan yang meneruskan permintaan ke grup target tertentu jika URL berisi pola yang ditentukan.  

```
aws elbv2 create-rule \
    --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2 \
    --priority 5 \
    --conditions file://conditions-pattern.json
    --actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Isi dari `conditions-pattern.json`:  

```
[
    {
        "Field": "path-pattern",
        "PathPatternConfig": {
            "Values": ["/images/*"]
        }
    }
]
```
**Contoh 2: Untuk membuat aturan menggunakan kondisi host dan respons tetap**  
`create-rule`Contoh berikut membuat aturan yang memberikan respons tetap jika nama host di header host cocok dengan nama host yang ditentukan.  

```
aws elbv2 create-rule \
    --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2 \
    --priority 10 \
    --conditions file://conditions-host.json \
    --actions file://actions-fixed-response.json
```
Isi dari `conditions-host.json`  

```
[
  {
      "Field": "host-header",
      "HostHeaderConfig": {
          "Values": ["*.example.com"]
      }
  }
]
```
Isi dari `actions-fixed-response.json`  

```
[
    {
        "Type": "fixed-response",
        "FixedResponseConfig": {
            "MessageBody": "Hello world",
            "StatusCode": "200",
            "ContentType": "text/plain"
        }
    }
]
```
**Contoh 3: Untuk membuat aturan menggunakan kondisi alamat IP sumber, tindakan otentikasi, dan tindakan maju**  
`create-rule`Contoh berikut membuat aturan yang mengautentikasi pengguna jika alamat IP sumber cocok dengan alamat IP yang ditentukan, dan meneruskan permintaan ke grup target yang ditentukan jika otentikasi berhasil.  

```
aws elbv2 create-rule \
    --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2 \
    --priority 20 \
    --conditions file://conditions-source-ip.json \
    --actions file://actions-authenticate.json
```
Isi dari `conditions-source-ip.json`  

```
[
    {
        "Field": "source-ip",
        "SourceIpConfig": {
            "Values": ["192.0.2.0/24", "198.51.100.10/32"]
        }
    }
]
```
Isi dari `actions-authenticate.json`  

```
[
    {
        "Type": "authenticate-oidc",
        "AuthenticateOidcConfig": {
            "Issuer": "https://idp-issuer.com",
            "AuthorizationEndpoint": "https://authorization-endpoint.com",
            "TokenEndpoint": "https://token-endpoint.com",
            "UserInfoEndpoint": "https://user-info-endpoint.com",
            "ClientId": "abcdefghijklmnopqrstuvwxyz123456789",
            "ClientSecret": "123456789012345678901234567890",
            "SessionCookieName": "my-cookie",
            "SessionTimeout": 3600,
            "Scope": "email",
            "AuthenticationRequestExtraParams": {
                "display": "page",
                "prompt": "login"
            },
            "OnUnauthenticatedRequest": "deny"
        },
        "Order": 1
    },
    {
        "Type": "forward",
        "TargetGroupArn": "arn:aws:elasticloadbalancing:us-east-1:880185128111:targetgroup/cli-test/642a97ecb0e0f26b",
        "Order": 2
    }
]
```
+  Untuk detail API, lihat [CreateRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/create-rule.html)di *Referensi AWS CLI Perintah*. 

### `create-target-group`
<a name="elastic-load-balancing-v2_CreateTargetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-target-group`.

**AWS CLI**  
**Contoh 1: Untuk membuat grup target untuk Application Load Balancer**  
`create-target-group`Contoh berikut membuat grup target untuk Application Load Balancer tempat Anda mendaftarkan target berdasarkan ID instance (tipe targetnya adalah`instance`). Grup target ini menggunakan protokol HTTP, port 80, dan pengaturan pemeriksaan kesehatan default untuk grup target HTTP.  

```
aws elbv2 create-target-group \
    --name my-targets \
    --protocol HTTP \
    --port 80 \
    --target-type instance \
    --vpc-id vpc-3ac0fb5f
```
Output:  

```
{
    "TargetGroups": [
        {
            "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067",
            "TargetGroupName": "my-targets",
            "Protocol": "HTTP",
            "Port": 80,
            "VpcId": "vpc-3ac0fb5f",
            "HealthCheckProtocol": "HTTP",
            "HealthCheckPort": "traffic-port",
            "HealthCheckEnabled": true,
            "HealthCheckIntervalSeconds": 30,
            "HealthCheckTimeoutSeconds": 5,
            "HealthyThresholdCount": 5,
            "UnhealthyThresholdCount": 2,
            "HealthCheckPath": "/",
            "Matcher": {
                "HttpCode": "200"
            },
            "TargetType": "instance",
            "ProtocolVersion": "HTTP1",
            "IpAddressType": "ipv4"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat grup target](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/create-target-group.html) di *Panduan Pengguna untuk Penyeimbang Beban Aplikasi*.  
**Contoh 2: Untuk membuat grup target untuk merutekan lalu lintas dari Application Load Balancer ke fungsi Lambda**  
`create-target-group`Contoh berikut membuat grup target untuk Application Load Balancer dimana targetnya adalah fungsi Lambda (tipe targetnya adalah). `lambda` Pemeriksaan kesehatan dinonaktifkan untuk grup target ini secara default.  

```
aws elbv2 create-target-group \
    --name my-lambda-target \
    --target-type lambda
```
Output:  

```
{
    "TargetGroups": [
        {
            "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-lambda-target/a3003e085dbb8ddc",
            "TargetGroupName": "my-lambda-target",
            "HealthCheckEnabled": false,
            "HealthCheckIntervalSeconds": 35,
            "HealthCheckTimeoutSeconds": 30,
            "HealthyThresholdCount": 5,
            "UnhealthyThresholdCount": 2,
            "HealthCheckPath": "/",
            "Matcher": {
                "HttpCode": "200"
            },
            "TargetType": "lambda",
            "IpAddressType": "ipv4"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat: [Fungsi Lambda sebagai target](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/lambda-functions.html) di *Panduan pengguna untuk Application Load Balancers*.  
**Contoh 3: Untuk membuat grup target untuk Network Load Balancer**  
`create-target-group`Contoh berikut membuat grup target untuk Network Load Balancer tempat Anda mendaftarkan target berdasarkan alamat IP (tipe targetnya adalah`ip`). Grup target ini menggunakan protokol TCP, port 80, dan pengaturan pemeriksaan kesehatan default untuk grup target TCP.  

```
aws elbv2 create-target-group \
    --name my-ip-targets \
    --protocol TCP \
    --port 80 \
    --target-type ip \
    --vpc-id vpc-3ac0fb5f
```
Output:  

```
{
    "TargetGroups": [
        {
            "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-ip-targets/b6bba954d1361c78",
            "TargetGroupName": "my-ip-targets",
            "Protocol": "TCP",
            "Port": 80,
            "VpcId": "vpc-3ac0fb5f",
            "HealthCheckEnabled": true,
            "HealthCheckProtocol": "TCP",
            "HealthCheckPort": "traffic-port",
            "HealthCheckIntervalSeconds": 30,
            "HealthCheckTimeoutSeconds": 10,
            "HealthyThresholdCount": 5,
            "UnhealthyThresholdCount": 2,
            "TargetType": "ip",
            "IpAddressType": "ipv4"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat grup target](https://docs.aws.amazon.com/elasticloadbalancing/latest/network/create-target-group.html) di *Panduan Pengguna untuk Network Load Balancers*.  
**Contoh 4: Untuk membuat grup target untuk merutekan lalu lintas dari Network Load Balancer ke Application Load Balancer**  
`create-target-group`Contoh berikut membuat grup target untuk Network Load Balancer tempat Anda mendaftarkan Application Load Balancer sebagai target (tipe targetnya adalah). `alb`  
aws elbv2 create-target-group --name my-alb-target --protocol TCP --port 80 --target-type alb --vpc-id vpc-id vpc-3ac0fb5f  
Output:  

```
{
    "TargetGroups": [
        {
            "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-alb-target/a3003e085dbb8ddc",
            "TargetGroupName": "my-alb-target",
            "Protocol": "TCP",
            "Port": 80,
            "VpcId": "vpc-838475fe",
            "HealthCheckProtocol": "HTTP",
            "HealthCheckPort": "traffic-port",
            "HealthCheckEnabled": true,
            "HealthCheckIntervalSeconds": 30,
            "HealthCheckTimeoutSeconds": 6,
            "HealthyThresholdCount": 5,
            "UnhealthyThresholdCount": 2,
            "HealthCheckPath": "/",
            "Matcher": {
                "HttpCode": "200-399"
            },
            "TargetType": "alb",
            "IpAddressType": "ipv4"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat grup target dengan Application Load Balancer sebagai target](https://docs.aws.amazon.com/elasticloadbalancing/latest/network/application-load-balancer-target.html) dalam *Panduan Pengguna untuk Network Load* Balancers.  
**Contoh 5: Untuk membuat grup target untuk Load Balancer Gateway**  
`create-target-group`Contoh berikut membuat grup target untuk Load Balancer Gateway di mana target adalah sebuah instance, dan protokol grup target adalah. `GENEVE`  

```
aws elbv2 create-target-group \
    --name my-glb-targetgroup \
    --protocol GENEVE \
    --port 6081 \
    --target-type instance \
    --vpc-id vpc-838475fe
```
Output:  

```
{
    "TargetGroups": [
        {
            "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-glb-targetgroup/00c3d57eacd6f40b6f",
            "TargetGroupName": "my-glb-targetgroup",
            "Protocol": "GENEVE",
            "Port": 6081,
            "VpcId": "vpc-838475fe",
            "HealthCheckProtocol": "TCP",
            "HealthCheckPort": "80",
            "HealthCheckEnabled": true,
            "HealthCheckIntervalSeconds": 10,
            "HealthCheckTimeoutSeconds": 5,
            "HealthyThresholdCount": 5,
            "UnhealthyThresholdCount": 2,
            "TargetType": "instance"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat Membuat grup target < https://docs.aws.amazon.com/elasticloadbalancing/ latest/gateway/create -target-group.html>`\$1\$1 di Panduan Pengguna Load Balancer Gateway.*  
+  Untuk detail API, lihat [CreateTargetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/create-target-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-listener`
<a name="elastic-load-balancing-v2_DeleteListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-listener`.

**AWS CLI**  
**Untuk menghapus pendengar**  
`delete-listener`Contoh berikut menghapus pendengar yang ditentukan.  

```
aws elbv2 delete-listener \
    --listener-arn arn:aws:elasticloadbalancing:ua-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2
```
+  Untuk detail API, lihat [DeleteListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/delete-listener.html)di *Referensi AWS CLI Perintah*. 

### `delete-load-balancer`
<a name="elastic-load-balancing-v2_DeleteLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-load-balancer`.

**AWS CLI**  
**Untuk menghapus penyeimbang beban**  
`delete-load-balancer`Contoh berikut menghapus penyeimbang beban yang ditentukan.  

```
aws elbv2 delete-load-balancer \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/delete-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `delete-rule`
<a name="elastic-load-balancing-v2_DeleteRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-rule`.

**AWS CLI**  
**Untuk menghapus aturan**  
`delete-rule`Contoh berikut menghapus aturan yang ditentukan.  

```
aws elbv2 delete-rule \
    --rule-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener-rule/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2/1291d13826f405c3
```
+  Untuk detail API, lihat [DeleteRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/delete-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-target-group`
<a name="elastic-load-balancing-v2_DeleteTargetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-target-group`.

**AWS CLI**  
**Untuk menghapus grup target**  
`delete-target-group`Contoh berikut menghapus kelompok target yang ditentukan.  

```
aws elbv2 delete-target-group \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus penyeimbang beban di Panduan *Application Load Balancer*](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/load-balancer-delete.html).  
+  Untuk detail API, lihat [DeleteTargetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/delete-target-group.html)di *Referensi AWS CLI Perintah*. 

### `deregister-targets`
<a name="elastic-load-balancing-v2_DeregisterTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-targets`.

**AWS CLI**  
**Contoh 1: Untuk membatalkan pendaftaran target dari grup target**  
`deregister-targets`Contoh berikut menghapus contoh tertentu dari kelompok target yang ditentukan.  

```
aws elbv2 deregister-targets \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067 \
    --targets Id=i-1234567890abcdef0
```
**Contoh 2: Untuk membatalkan pendaftaran target yang terdaftar menggunakan penggantian port**  
`deregister-targets`Contoh berikut menghapus instance dari grup target yang terdaftar menggunakan port overrides.  

```
aws elbv2 deregister-targets \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-internal-targets/3bb63f11dfb0faf9 \
    --targets Id=i-1234567890abcdef0,Port=80 Id=i-1234567890abcdef0,Port=766
```
+  Untuk detail API, lihat [DeregisterTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/deregister-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-limits`
<a name="elastic-load-balancing-v2_DescribeAccountLimits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-limits`.

**AWS CLI**  
**Untuk menjelaskan batas Elastic Load Balancing**  
`describe-account-limits`Contoh berikut menampilkan batas Elastic Load Balancing untuk AWS akun Anda di Region saat ini.  

```
aws elbv2 describe-account-limits
```
Output:  

```
{
    "Limits": [
        {
            "Name": "target-groups",
            "Max": "3000"
        },
        {
            "Name": "targets-per-application-load-balancer",
            "Max": "1000"
        },
        {
            "Name": "listeners-per-application-load-balancer",
            "Max": "50"
        },
        {
            "Name": "rules-per-application-load-balancer",
            "Max": "100"
        },
        {
            "Name": "network-load-balancers",
            "Max": "50"
        },
        {
            "Name": "targets-per-network-load-balancer",
            "Max": "3000"
        },
        {
            "Name": "targets-per-availability-zone-per-network-load-balancer",
            "Max": "500"
        },
        {
            "Name": "listeners-per-network-load-balancer",
            "Max": "50"
        },
        {
            "Name": "condition-values-per-alb-rule",
            "Max": "5"
        },
        {
            "Name": "condition-wildcards-per-alb-rule",
            "Max": "5"
        },
        {
            "Name": "target-groups-per-application-load-balancer",
            "Max": "100"
        },
        {
            "Name": "target-groups-per-action-on-application-load-balancer",
            "Max": "5"
        },
        {
            "Name": "target-groups-per-action-on-network-load-balancer",
            "Max": "1"
        },
        {
            "Name": "certificates-per-application-load-balancer",
            "Max": "25"
        },
        {
            "Name": "certificates-per-network-load-balancer",
            "Max": "25"
        },
        {
            "Name": "targets-per-target-group",
            "Max": "1000"
        },
        {
            "Name": "target-id-registrations-per-application-load-balancer",
            "Max": "1000"
        },
        {
            "Name": "network-load-balancer-enis-per-vpc",
            "Max": "1200"
        },
        {
            "Name": "application-load-balancers",
            "Max": "50"
        },
        {
            "Name": "gateway-load-balancers",
            "Max": "100"
        },
        {
            "Name": "gateway-load-balancers-per-vpc",
            "Max": "100"
        },
        {
            "Name": "geneve-target-groups",
            "Max": "100"
        },
        {
            "Name": "targets-per-availability-zone-per-gateway-load-balancer",
            "Max": "300"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Kuota](https://docs.aws.amazon.com/general/latest/gr/elb.html#limits_elastic_load_balancer) di *Referensi AWS Umum*.  
+  Untuk detail API, lihat [DescribeAccountLimits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-account-limits.html)di *Referensi AWS CLI Perintah*. 

### `describe-listener-certificates`
<a name="elastic-load-balancing-v2_DescribeListenerCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-listener-certificates`.

**AWS CLI**  
**Untuk mendeskripsikan sertifikat untuk pendengar yang aman**  
Contoh ini menjelaskan sertifikat untuk pendengar aman yang ditentukan.  
Perintah:  

```
aws elbv2 describe-listener-certificates --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2
```
Output:  

```
{
  "Certificates": [
      {
          "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/5cc54884-f4a3-4072-80be-05b9ba72f705",
          "IsDefault": false
      },
      {
          "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/3dcb0a41-bd72-4774-9ad9-756919c40557",
          "IsDefault": false
      },
      {
          "CertificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/fe59da96-6f58-4a22-8eed-6d0d50477e1d",
          "IsDefault": true
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeListenerCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-listener-certificates.html)di *Referensi AWS CLI Perintah*. 

### `describe-listeners`
<a name="elastic-load-balancing-v2_DescribeListeners_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-listeners`.

**AWS CLI**  
**Untuk menggambarkan pendengar**  
Contoh ini menjelaskan pendengar yang ditentukan.  
Perintah:  

```
aws elbv2 describe-listeners --listener-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2
```
Output:  

```
{
  "Listeners": [
      {
          "Port": 80,
          "Protocol": "HTTP",
          "DefaultActions": [
              {
                  "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067",
                  "Type": "forward"
              }
          ],
          "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188",
          "ListenerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2"
      }
  ]
}
```
**Untuk menggambarkan pendengar untuk penyeimbang beban**  
Contoh ini menjelaskan pendengar untuk penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elbv2 describe-listeners --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188
```
Output:  

```
{
  "Listeners": [
      {
          "Port": 443,
          "Protocol": "HTTPS",
          "DefaultActions": [
              {
                  "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067",
                  "Type": "forward"
              }
          ],
          "SslPolicy": "ELBSecurityPolicy-2015-05",
          "Certificates": [
              {
                  "CertificateArn": "arn:aws:iam::123456789012:server-certificate/my-server-cert"
              }
          ],
          "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188",
          "ListenerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/0467ef3c8400ae65"
      },
      {
          "Port": 80,
          "Protocol": "HTTP",
          "DefaultActions": [
              {
                  "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067",
                  "Type": "forward"
              }
          ],
          "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188",
          "ListenerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeListeners](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-listeners.html)di *Referensi AWS CLI Perintah*. 

### `describe-load-balancer-attributes`
<a name="elastic-load-balancing-v2_DescribeLoadBalancerAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-load-balancer-attributes`.

**AWS CLI**  
**Untuk menggambarkan atribut penyeimbang beban**  
`describe-load-balancer-attributes`Contoh berikut menampilkan atribut penyeimbang beban tertentu.  

```
aws elbv2 describe-load-balancer-attributes \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188
```
Contoh output berikut menunjukkan atribut untuk Application Load Balancer.  

```
{
    "Attributes": [
        {
            "Value": "false",
            "Key": "access_logs.s3.enabled"
        },
        {
            "Value": "",
            "Key": "access_logs.s3.bucket"
        },
        {
            "Value": "",
            "Key": "access_logs.s3.prefix"
        },
        {
            "Value": "60",
            "Key": "idle_timeout.timeout_seconds"
        },
        {
            "Value": "false",
            "Key": "deletion_protection.enabled"
        },
        {
            "Value": "true",
            "Key": "routing.http2.enabled"
        }
    ]
}
```
Contoh output berikut mencakup atribut untuk Network Load Balancer.  

```
{
    "Attributes": [
        {
            "Value": "false",
            "Key": "access_logs.s3.enabled"
        },
        {
            "Value": "",
            "Key": "access_logs.s3.bucket"
        },
        {
            "Value": "",
            "Key": "access_logs.s3.prefix"
        },
        {
            "Value": "false",
            "Key": "deletion_protection.enabled"
        },
        {
            "Value": "false",
            "Key": "load_balancing.cross_zone.enabled"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeLoadBalancerAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-load-balancer-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-load-balancers`
<a name="elastic-load-balancing-v2_DescribeLoadBalancers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-load-balancers`.

**AWS CLI**  
**Untuk menggambarkan penyeimbang beban**  
Contoh ini menjelaskan penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elbv2 describe-load-balancers --load-balancer-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188
```
Output:  

```
{
  "LoadBalancers": [
      {
          "Type": "application",
          "Scheme": "internet-facing",
          "IpAddressType": "ipv4",
          "VpcId": "vpc-3ac0fb5f",
          "AvailabilityZones": [
              {
                  "ZoneName": "us-west-2a",
                  "SubnetId": "subnet-8360a9e7"
              },
              {
                  "ZoneName": "us-west-2b",
                  "SubnetId": "subnet-b7d581c0"
              }
          ],
          "CreatedTime": "2016-03-25T21:26:12.920Z",
          "CanonicalHostedZoneId": "Z2P70J7EXAMPLE",
          "DNSName": "my-load-balancer-424835706.us-west-2.elb.amazonaws.com",
          "SecurityGroups": [
              "sg-5943793c"
          ],
          "LoadBalancerName": "my-load-balancer",
          "State": {
              "Code": "active"
          },
          "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188"
      }
  ]
}
```
**Untuk menggambarkan semua penyeimbang beban**  
Contoh ini menjelaskan semua penyeimbang beban Anda.  
Perintah:  

```
aws elbv2 describe-load-balancers
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-load-balancers.html)di *Referensi AWS CLI Perintah*. 

### `describe-rules`
<a name="elastic-load-balancing-v2_DescribeRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-rules`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan aturan**  
`describe-rules`Contoh berikut menampilkan rincian untuk aturan yang ditentukan.  

```
aws elbv2 describe-rules \
    --rule-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:listener-rule/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2/9683b2d02a6cabee
```
**Contoh 2: Untuk mendeskripsikan aturan untuk pendengar**  
`describe-rules`Contoh berikut menampilkan rincian untuk aturan untuk listener tertentu. Outputnya mencakup aturan default dan aturan lain yang telah Anda tambahkan.  

```
aws elbv2 describe-rules \
    --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2
```
+  Untuk detail API, lihat [DescribeRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-rules.html)di *Referensi AWS CLI Perintah*. 

### `describe-ssl-policies`
<a name="elastic-load-balancing-v2_DescribeSslPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ssl-policies`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar kebijakan yang digunakan untuk negosiasi SSL berdasarkan jenis penyeimbang beban**  
`describe-ssl-policies`Contoh berikut menampilkan nama-nama kebijakan yang dapat Anda gunakan untuk negosiasi SSL dengan Application Load Balancer. Contoh menggunakan `--query` parameter untuk menampilkan hanya nama-nama kebijakan.  

```
aws elbv2 describe-ssl-policies \
    --load-balancer-type application \
    --query SslPolicies[*].Name
```
Output:  

```
[
    "ELBSecurityPolicy-2016-08",
    "ELBSecurityPolicy-TLS13-1-2-2021-06",
    "ELBSecurityPolicy-TLS13-1-2-Res-2021-06",
    "ELBSecurityPolicy-TLS13-1-2-Ext1-2021-06",
    "ELBSecurityPolicy-TLS13-1-2-Ext2-2021-06",
    "ELBSecurityPolicy-TLS13-1-1-2021-06",
    "ELBSecurityPolicy-TLS13-1-0-2021-06",
    "ELBSecurityPolicy-TLS13-1-3-2021-06",
    "ELBSecurityPolicy-TLS-1-2-2017-01",
    "ELBSecurityPolicy-TLS-1-1-2017-01",
    "ELBSecurityPolicy-TLS-1-2-Ext-2018-06",
    "ELBSecurityPolicy-FS-2018-06",
    "ELBSecurityPolicy-2015-05",
    "ELBSecurityPolicy-TLS-1-0-2015-04",
    "ELBSecurityPolicy-FS-1-2-Res-2019-08",
    "ELBSecurityPolicy-FS-1-1-2019-08",
    "ELBSecurityPolicy-FS-1-2-2019-08",
    "ELBSecurityPolicy-FS-1-2-Res-2020-10"
]
```
**Contoh 2: Untuk membuat daftar kebijakan yang mendukung protokol tertentu**  
`describe-ssl-policies`Contoh berikut menampilkan nama-nama kebijakan yang mendukung protokol TLS 1.3. Contoh menggunakan `--query` parameter untuk menampilkan hanya nama-nama kebijakan.  

```
aws elbv2 describe-ssl-policies \
    --load-balancer-type application \
    --query SslPolicies[?contains(SslProtocols,'TLSv1.3')].Name
```
Output:  

```
[
    "ELBSecurityPolicy-TLS13-1-2-2021-06",
    "ELBSecurityPolicy-TLS13-1-2-Res-2021-06",
    "ELBSecurityPolicy-TLS13-1-2-Ext1-2021-06",
    "ELBSecurityPolicy-TLS13-1-2-Ext2-2021-06",
    "ELBSecurityPolicy-TLS13-1-1-2021-06",
    "ELBSecurityPolicy-TLS13-1-0-2021-06",
    "ELBSecurityPolicy-TLS13-1-3-2021-06"
]
```
**Contoh 3: Untuk menampilkan cipher untuk kebijakan**  
`describe-ssl-policies`Contoh berikut menampilkan nama-nama cipher untuk kebijakan yang ditentukan. Contoh menggunakan `--query` parameter untuk menampilkan hanya nama cipher. Cipher pertama dalam daftar memiliki prioritas 1, dan cipher yang tersisa berada dalam urutan prioritas.  

```
aws elbv2 describe-ssl-policies \
    --names ELBSecurityPolicy-TLS13-1-2-2021-06 \
    --query SslPolicies[*].Ciphers[*].Name
```
Output:  

```
[
    "TLS_AES_128_GCM_SHA256",
    "TLS_AES_256_GCM_SHA384",
    "TLS_CHACHA20_POLY1305_SHA256",
    "ECDHE-ECDSA-AES128-GCM-SHA256",
    "ECDHE-RSA-AES128-GCM-SHA256",
    "ECDHE-ECDSA-AES128-SHA256",
    "ECDHE-RSA-AES128-SHA256",
    "ECDHE-ECDSA-AES256-GCM-SHA384",
    "ECDHE-RSA-AES256-GCM-SHA384",
    "ECDHE-ECDSA-AES256-SHA384",
    "ECDHE-RSA-AES256-SHA384"
]
```
Untuk informasi selengkapnya, lihat [Kebijakan keamanan](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/create-https-listener.html#describe-ssl-policies) di *Panduan Pengguna untuk Penyeimbang Beban Aplikasi*.  
+  Untuk detail API, lihat [DescribeSslPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-ssl-policies.html)di *Referensi AWS CLI Perintah*. 

### `describe-tags`
<a name="elastic-load-balancing-v2_DescribeTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tags`.

**AWS CLI**  
**Untuk mendeskripsikan tag yang ditetapkan ke penyeimbang beban**  
Contoh ini menjelaskan tag yang ditetapkan untuk penyeimbang beban tertentu.  
Perintah:  

```
aws elbv2 describe-tags --resource-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188
```
Output:  

```
{
  "TagDescriptions": [
      {
          "ResourceArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188",
          "Tags": [
              {
                  "Value": "lima",
                  "Key": "project"
              },
              {
                  "Value": "digital-media",
                  "Key": "department"
              }
          ]
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-tags.html)di *Referensi AWS CLI Perintah*. 

### `describe-target-group-attributes`
<a name="elastic-load-balancing-v2_DescribeTargetGroupAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-target-group-attributes`.

**AWS CLI**  
**Untuk menggambarkan atribut kelompok sasaran**  
`describe-target-group-attributes`Contoh berikut menampilkan atribut dari kelompok target yang ditentukan.  

```
aws elbv2 describe-target-group-attributes \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Output mencakup atribut jika protokolnya HTTP atau HTTPS dan tipe targetnya adalah `instance` atau`ip`.  

```
{
    "Attributes": [
        {
            "Value": "false",
            "Key": "stickiness.enabled"
        },
        {
            "Value": "300",
            "Key": "deregistration_delay.timeout_seconds"
        },
        {
            "Value": "lb_cookie",
            "Key": "stickiness.type"
        },
        {
            "Value": "86400",
            "Key": "stickiness.lb_cookie.duration_seconds"
        },
        {
            "Value": "0",
            "Key": "slow_start.duration_seconds"
        }
    ]
}
```
Output berikut mencakup atribut jika protokolnya HTTP atau HTTPS dan tipe targetnya adalah`lambda`.  

```
{
    "Attributes": [
        {
            "Value": "false",
            "Key": "lambda.multi_value_headers.enabled"
        }
    ]
}
```
Output berikut mencakup atribut jika protokolnya adalah TCP, TLS, UDP, atau TCP\$1UDP.  

```
{
    "Attributes": [
        {
            "Value": "false",
            "Key": "proxy_protocol_v2.enabled"
        },
        {
            "Value": "300",
            "Key": "deregistration_delay.timeout_seconds"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeTargetGroupAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-target-group-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-target-groups`
<a name="elastic-load-balancing-v2_DescribeTargetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-target-groups`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan kelompok sasaran**  
`describe-target-groups`Contoh berikut menampilkan rincian untuk kelompok target yang ditentukan.  

```
aws elbv2 describe-target-groups \
    --target-group-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Output:  

```
{
    "TargetGroups": [
        {
            "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067",
            "TargetGroupName": "my-targets",
            "Protocol": "HTTP",
            "Port": 80,
            "VpcId": "vpc-3ac0fb5f",
            "HealthCheckProtocol": "HTTP",
            "HealthCheckPort": "traffic-port",
            "HealthCheckEnabled": true,
            "HealthCheckIntervalSeconds": 30,
            "HealthCheckTimeoutSeconds": 5,
            "HealthyThresholdCount": 5,
            "UnhealthyThresholdCount": 2,
            "HealthCheckPath": "/",
            "Matcher": {
                "HttpCode": "200"
            },
            "LoadBalancerArns": [
                "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188"
            ],
            "TargetType": "instance",
            "ProtocolVersion": "HTTP1",
            "IpAddressType": "ipv4"
        }
    ]
}
```
**Contoh 2: Untuk mendeskripsikan semua kelompok target untuk penyeimbang beban**  
`describe-target-groups`Contoh berikut menampilkan rincian untuk semua kelompok target untuk penyeimbang beban tertentu. Contoh menggunakan `--query` parameter untuk menampilkan hanya nama grup target.  

```
aws elbv2 describe-target-groups \
    --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 \
    --query TargetGroups[*].TargetGroupName
```
Output:  

```
[
    "my-instance-targets",
    "my-ip-targets",
    "my-lambda-target"
]
```
Untuk informasi selengkapnya, lihat [Grup sasaran](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/load-balancer-target-groups.html) dalam Panduan *Penyeimbang Beban Aplikasi*.  
+  Untuk detail API, lihat [DescribeTargetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-target-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-target-health`
<a name="elastic-load-balancing-v2_DescribeTargetHealth_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-target-health`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan kesehatan target untuk kelompok sasaran**  
`describe-target-health`Contoh berikut menampilkan rincian kesehatan untuk target kelompok target yang ditentukan. Target ini sehat.  

```
aws elbv2 describe-target-health \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Output:  

```
{
    "TargetHealthDescriptions": [
        {
            "HealthCheckPort": "80",
            "Target": {
                "Id": "i-ceddcd4d",
                "Port": 80
            },
            "TargetHealth": {
                "State": "healthy"
            }
        },
        {
            "HealthCheckPort": "80",
            "Target": {
                "Id": "i-0f76fade",
                "Port": 80
            },
            "TargetHealth": {
                "State": "healthy"
            }
        }
    ]
}
```
**Contoh 2: Untuk menggambarkan kesehatan target**  
`describe-target-health`Contoh berikut menampilkan rincian kesehatan untuk target yang ditentukan. Target ini sehat.  

```
aws elbv2 describe-target-health \
    --targets Id=i-0f76fade,Port=80 \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067
```
Output:  

```
{
    "TargetHealthDescriptions": [
        {
            "HealthCheckPort": "80",
            "Target": {
                "Id": "i-0f76fade",
                "Port": 80
            },
            "TargetHealth": {
                "State": "healthy"
            }
        }
    ]
}
```
Contoh output berikut adalah untuk target yang kelompok targetnya tidak ditentukan dalam tindakan untuk pendengar. Target ini tidak dapat menerima lalu lintas dari penyeimbang beban.  

```
{
    "TargetHealthDescriptions": [
    {
        "HealthCheckPort": "80",
        "Target": {
            "Id": "i-0f76fade",
            "Port": 80
        },
            "TargetHealth": {
                "State": "unused",
                "Reason": "Target.NotInUse",
                "Description": "Target group is not configured to receive traffic from the load balancer"
            }
        }
    ]
}
```
Output contoh berikut adalah untuk target yang kelompok targetnya hanya ditentukan dalam tindakan untuk pendengar. Targetnya masih terdaftar.  

```
{
    "TargetHealthDescriptions": [
        {
            "HealthCheckPort": "80",
            "Target": {
                "Id": "i-0f76fade",
                "Port": 80
            },
            "TargetHealth": {
                "State": "initial",
                "Reason": "Elb.RegistrationInProgress",
                "Description": "Target registration is in progress"
            }
        }
    ]
}
```
Contoh output berikut adalah untuk target yang tidak sehat.  

```
{
    "TargetHealthDescriptions": [
        {
            "HealthCheckPort": "80",
            "Target": {
                "Id": "i-0f76fade",
                "Port": 80
            },
            "TargetHealth": {
                "State": "unhealthy",
                "Reason": "Target.Timeout",
                "Description": "Connection to target timed out"
            }
        }
    ]
}
```
Contoh output berikut adalah untuk target yang merupakan fungsi Lambda dan pemeriksaan kesehatan dinonaktifkan.  

```
{
    "TargetHealthDescriptions": [
        {
            "Target": {
                "Id": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
                "AvailabilityZone": "all",
            },
            "TargetHealth": {
                "State": "unavailable",
                "Reason": "Target.HealthCheckDisabled",
                "Description": "Health checks are not enabled for this target"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeTargetHealth](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/describe-target-health.html)di *Referensi AWS CLI Perintah*. 

### `modify-listener`
<a name="elastic-load-balancing-v2_ModifyListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-listener`.

**AWS CLI**  
**Contoh 1: Untuk mengubah tindakan default menjadi tindakan maju**  
`modify-listener`Contoh berikut mengubah tindakan default menjadi `forward` tindakan untuk listener tertentu.  

```
aws elbv2 modify-listener \
    --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2 \
    --default-actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-new-targets/2453ed029918f21f
```
Output:  

```
{
    "Listeners": [
        {
            "ListenerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2",
            "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188",
            "Protocol": "HTTP",
            "Port": 80,
            "DefaultActions": [
                {
                    "Type": "forward",
                    "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-new-targets/2453ed029918f21f"
                }
            ]
        }
    ]
}
```
**Contoh 2: Untuk mengubah tindakan default menjadi tindakan pengalihan**  
`modify-listener`Contoh berikut mengubah tindakan default menjadi `redirect` tindakan untuk listener tertentu.  

```
aws elbv2 modify-listener \
    --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2 \
    --default-actions Type=redirect, RedirectConfig='{Protocol=HTTPS,StatusCode=HTTP_302}'
```
Output:  

```
{
    "Listeners": [
        {
            "ListenerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2",
            "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188",
            "Protocol": "HTTP",
            "Port": 80,
            "DefaultActions": [
                {
                    "Type": "redirect",
                    "RedirectConfig": {
                        "Protocol": "HTTPS",
                        "Port": "#{port}",
                        "Host": "#{host}",
                        "Path": "/#{path}",
                        "Query": "#{query}",
                        "StatusCode": "HTTP_302",
                    }
                }
            ]
        }
    ]
}
```
**Contoh 3: Untuk mengubah sertifikat server**  
`modify-listener`Contoh berikut mengubah sertifikat server untuk listener HTTPS yang ditentukan.  

```
aws elbv2 modify-listener \
    --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/0467ef3c8400ae65 \
    --certificates CertificateArn=arn:aws:iam::123456789012:server-certificate/my-new-server-cert
```
Output:  

```
{
    "Listeners": [
        {
            "ListenerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/0467ef3c8400ae65",
            "LoadBalancerArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188",
            "Protocol": "HTTPS",
            "Port": 443,
            "DefaultActions": [
                {
                    "Type": "forward",
                    "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067"
                }
            ],
            "SslPolicy": "ELBSecurityPolicy-2015-05",
            "Certificates": [
                {
                    "CertificateArn": "arn:aws:iam::123456789012:server-certificate/my-new-server-cert"
                }
            ],
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Aturan Listener di Panduan](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/load-balancer-listeners.html#listener-rules) Pengguna *Application Load Balancers.*  
+  Untuk detail API, lihat [ModifyListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/modify-listener.html)di *Referensi AWS CLI Perintah*. 

### `modify-load-balancer-attributes`
<a name="elastic-load-balancing-v2_ModifyLoadBalancerAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-load-balancer-attributes`.

**AWS CLI**  
**Untuk mengaktifkan perlindungan penghapusan**  
Contoh ini memungkinkan perlindungan penghapusan untuk penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elbv2 modify-load-balancer-attributes --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 --attributes Key=deletion_protection.enabled,Value=true
```
Output:  

```
{
  "Attributes": [
      {
          "Value": "true",
          "Key": "deletion_protection.enabled"
      },
      {
          "Value": "false",
          "Key": "access_logs.s3.enabled"
      },
      {
          "Value": "60",
          "Key": "idle_timeout.timeout_seconds"
      },
      {
          "Value": "",
          "Key": "access_logs.s3.prefix"
      },
      {
          "Value": "",
          "Key": "access_logs.s3.bucket"
      }
  ]
}
```
**Untuk mengubah batas waktu idle**  
Contoh ini mengubah nilai batas waktu idle untuk penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elbv2 modify-load-balancer-attributes --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 --attributes Key=idle_timeout.timeout_seconds,Value=30
```
Output:  

```
{
  "Attributes": [
      {
          "Value": "30",
          "Key": "idle_timeout.timeout_seconds"
      },
      {
          "Value": "false",
          "Key": "access_logs.s3.enabled"
      },
      {
          "Value": "",
          "Key": "access_logs.s3.prefix"
      },
      {
          "Value": "true",
          "Key": "deletion_protection.enabled"
      },
      {
          "Value": "",
          "Key": "access_logs.s3.bucket"
      }
  ]
}
```
**Untuk mengaktifkan log akses**  
Contoh ini memungkinkan log akses untuk penyeimbang beban yang ditentukan. Perhatikan bahwa bucket S3 harus berada di wilayah yang sama dengan penyeimbang beban dan harus memiliki kebijakan yang dilampirkan yang memberikan akses ke layanan Elastic Load Balancing.  
Perintah:  

```
aws elbv2 modify-load-balancer-attributes --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 --attributes Key=access_logs.s3.enabled,Value=true Key=access_logs.s3.bucket,Value=my-loadbalancer-logs Key=access_logs.s3.prefix,Value=myapp
```
Output:  

```
{
  "Attributes": [
      {
          "Value": "true",
          "Key": "access_logs.s3.enabled"
      },
      {
          "Value": "my-load-balancer-logs",
          "Key": "access_logs.s3.bucket"
      },
      {
          "Value": "myapp",
          "Key": "access_logs.s3.prefix"
      },
      {
          "Value": "60",
          "Key": "idle_timeout.timeout_seconds"
      },
      {
          "Value": "false",
          "Key": "deletion_protection.enabled"
      }
  ]
}
```
+  Untuk detail API, lihat [ModifyLoadBalancerAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/modify-load-balancer-attributes.html)di *Referensi AWS CLI Perintah*. 

### `modify-rule`
<a name="elastic-load-balancing-v2_ModifyRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-rule`.

**AWS CLI**  
**Untuk memodifikasi aturan**  
`modify-rule`Contoh berikut memperbarui tindakan dan kondisi untuk aturan yang ditentukan.  

```
aws elbv2 modify-rule \
  --actions Type=forward,TargetGroupArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067 \
  --conditions Field=path-pattern,Values='/images/*'
  --rule-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener-rule/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2/9683b2d02a6cabee
```
Output:  

```
{
    "Rules": [
        {
            "Priority": "10",
            "Conditions": [
                {
                    "Field": "path-pattern",
                    "Values": [
                        "/images/*"
                    ]
                }
            ],
            "RuleArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:listener-rule/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2/9683b2d02a6cabee",
            "IsDefault": false,
            "Actions": [
                {
                    "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067",
                    "Type": "forward"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [ModifyRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/modify-rule.html)di *Referensi AWS CLI Perintah*. 

### `modify-target-group-attributes`
<a name="elastic-load-balancing-v2_ModifyTargetGroupAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-target-group-attributes`.

**AWS CLI**  
**Untuk mengubah batas waktu tunda deregistrasi**  
Contoh ini menetapkan batas waktu tunda deregistrasi ke nilai yang ditentukan untuk kelompok target yang ditentukan.  
Perintah:  

```
aws elbv2 modify-target-group-attributes --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067 --attributes Key=deregistration_delay.timeout_seconds,Value=600
```
Output:  

```
{
  "Attributes": [
      {
          "Value": "false",
          "Key": "stickiness.enabled"
      },
      {
          "Value": "600",
          "Key": "deregistration_delay.timeout_seconds"
      },
      {
          "Value": "lb_cookie",
          "Key": "stickiness.type"
      },
      {
          "Value": "86400",
          "Key": "stickiness.lb_cookie.duration_seconds"
      }
  ]
}
```
+  Untuk detail API, lihat [ModifyTargetGroupAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/modify-target-group-attributes.html)di *Referensi AWS CLI Perintah*. 

### `modify-target-group`
<a name="elastic-load-balancing-v2_ModifyTargetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-target-group`.

**AWS CLI**  
**Untuk memodifikasi konfigurasi pemeriksaan kesehatan untuk grup target**  
`modify-target-group`Contoh berikut mengubah konfigurasi pemeriksaan kesehatan yang digunakan untuk mengevaluasi kesehatan target untuk kelompok sasaran yang ditentukan. Perhatikan bahwa karena cara CLI mem-parsing koma, Anda harus mengelilingi rentang `--matcher` opsi dengan tanda kutip tunggal alih-alih tanda kutip ganda.  

```
aws elbv2 modify-target-group \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-https-targets/2453ed029918f21f \
    --health-check-protocol HTTPS \
    --health-check-port 443 \
    --matcher HttpCode='200,299'
```
Output:  

```
{
    "TargetGroups": [
        {
            "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-https-targets/2453ed029918f21f",
            "TargetGroupName": "my-https-targets",
            "Protocol": "HTTPS",
            "Port": 443,
            "VpcId": "vpc-3ac0fb5f",
            "HealthCheckProtocol": "HTTPS",
            "HealthCheckPort": "443",
            "HealthCheckEnabled": true,
            "HealthCheckIntervalSeconds": 30,
            "HealthCheckTimeoutSeconds": 5,
            "HealthyThresholdCount": 5,
            "UnhealthyThresholdCount": 2,
            "Matcher": {
                "HttpCode": "200,299"
            },
            "LoadBalancerArns": [
                "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188"
            ],
            "TargetType": "instance",
            "ProtocolVersion": "HTTP1",
            "IpAddressType": "ipv4"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup sasaran](https://docs.aws.amazon.com/elasticloadbalancing/latest/application/load-balancer-target-groups.html) dalam Panduan *Penyeimbang Beban Aplikasi*.  
+  Untuk detail API, lihat [ModifyTargetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/modify-target-group.html)di *Referensi AWS CLI Perintah*. 

### `register-targets`
<a name="elastic-load-balancing-v2_RegisterTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-targets`.

**AWS CLI**  
**Contoh 1: Untuk mendaftarkan target dengan grup target dengan ID instance**  
`register-targets`Contoh berikut mendaftarkan instance tertentu dengan kelompok target. Kelompok sasaran harus memiliki jenis target`instance`.  

```
aws elbv2 register-targets \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067 \
    --targets Id=i-1234567890abcdef0 Id=i-0abcdef1234567890
```
**Contoh 2: Untuk mendaftarkan target dengan grup target menggunakan penggantian port**  
`register-targets`Contoh berikut mendaftarkan instance tertentu dengan kelompok target menggunakan beberapa port. Ini memungkinkan Anda untuk mendaftarkan kontainer pada instance yang sama dengan target dalam grup target.  

```
aws elbv2 register-targets \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-internal-targets/3bb63f11dfb0faf9 \
    --targets Id=i-0598c7d356eba48d7,Port=80 Id=i-0598c7d356eba48d7,Port=766
```
**Contoh 3: Untuk mendaftarkan target dengan grup target berdasarkan alamat IP**  
`register-targets`Contoh berikut mendaftarkan alamat IP yang ditentukan dengan kelompok target. Kelompok sasaran harus memiliki jenis target`ip`.  

```
aws elbv2 register-targets \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-tcp-ip-targets/8518e899d173178f \
    --targets Id=10.0.1.15 Id=10.0.1.23
```
**Contoh 4: Untuk mendaftarkan fungsi Lambda sebagai target**  
`register-targets`Contoh berikut mendaftarkan alamat IP yang ditentukan dengan kelompok target. Kelompok sasaran harus memiliki jenis target`lambda`. Anda harus memberikan izin Elastic Load Balancing untuk menjalankan fungsi Lambda.  

```
aws elbv2 register-targets \
    --target-group-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-tcp-ip-targets/8518e899d173178f \
    --targets Id=arn:aws:lambda:us-west-2:123456789012:function:my-function
```
+  Untuk detail API, lihat [RegisterTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/register-targets.html)di *Referensi AWS CLI Perintah*. 

### `remove-listener-certificates`
<a name="elastic-load-balancing-v2_RemoveListenerCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-listener-certificates`.

**AWS CLI**  
**Untuk menghapus sertifikat dari pendengar yang aman**  
Contoh ini menghapus sertifikat yang ditentukan dari pendengar aman yang ditentukan.  
Perintah:  

```
aws elbv2 remove-listener-certificates --listener-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:listener/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2 --certificates CertificateArn=arn:aws:acm:us-west-2:123456789012:certificate/5cc54884-f4a3-4072-80be-05b9ba72f705
```
+  Untuk detail API, lihat [RemoveListenerCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/remove-listener-certificates.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags`
<a name="elastic-load-balancing-v2_RemoveTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags`.

**AWS CLI**  
**Untuk menghapus tag dari penyeimbang beban**  
`remove-tags`Contoh berikut menghapus `project` dan `department` tag dari penyeimbang beban yang ditentukan.  

```
aws elbv2 remove-tags \
    --resource-arns arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 \
    --tag-keys project department
```
+  Untuk detail API, lihat [RemoveTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/remove-tags.html)di *Referensi AWS CLI Perintah*. 

### `set-ip-address-type`
<a name="elastic-load-balancing-v2_SetIpAddressType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-ip-address-type`.

**AWS CLI**  
**Untuk mengatur jenis alamat penyeimbang beban**  
Contoh ini menetapkan jenis alamat penyeimbang beban yang ditentukan ke`dualstack`. Subnet penyeimbang beban harus memiliki blok IPv6 CIDR yang terkait.  
Perintah:  

```
aws elbv2 set-ip-address-type --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 --ip-address-type dualstack
```
Output:  

```
{
    "IpAddressType": "dualstack"
}
```
+  Untuk detail API, lihat [SetIpAddressType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/set-ip-address-type.html)di *Referensi AWS CLI Perintah*. 

### `set-rule-priorities`
<a name="elastic-load-balancing-v2_SetRulePriorities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-rule-priorities`.

**AWS CLI**  
**Untuk menetapkan prioritas aturan**  
Contoh ini menetapkan prioritas aturan yang ditentukan.  
Perintah:  

```
aws elbv2 set-rule-priorities --rule-priorities RuleArn=arn:aws:elasticloadbalancing:us-west-2:123456789012:listener-rule/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2/1291d13826f405c3,Priority=5
```
Output:  

```
{
  "Rules": [
      {
          "Priority": "5",
          "Conditions": [
              {
                  "Field": "path-pattern",
                  "Values": [
                      "/img/*"
                  ]
              }
          ],
          "RuleArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:listener-rule/app/my-load-balancer/50dc6c495c0c9188/f2f7dc8efc522ab2/1291d13826f405c3",
          "IsDefault": false,
          "Actions": [
              {
                  "TargetGroupArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:targetgroup/my-targets/73e2d6bc24d8a067",
                  "Type": "forward"
              }
          ]
      }
  ]
}
```
+  Untuk detail API, lihat [SetRulePriorities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/set-rule-priorities.html)di *Referensi AWS CLI Perintah*. 

### `set-security-groups`
<a name="elastic-load-balancing-v2_SetSecurityGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-security-groups`.

**AWS CLI**  
**Untuk mengaitkan grup keamanan dengan penyeimbang beban**  
Contoh ini mengaitkan grup keamanan yang ditentukan dengan penyeimbang beban yang ditentukan.  
Perintah:  

```
aws elbv2 set-security-groups --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 --security-groups sg-5943793c
```
Output:  

```
{
  "SecurityGroupIds": [
      "sg-5943793c"
  ]
}
```
+  Untuk detail API, lihat [SetSecurityGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/set-security-groups.html)di *Referensi AWS CLI Perintah*. 

### `set-subnets`
<a name="elastic-load-balancing-v2_SetSubnets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-subnets`.

**AWS CLI**  
**Untuk mengaktifkan Availability Zones untuk load balancer**  
Contoh ini memungkinkan Availability Zone untuk subnet yang ditentukan untuk load balancer yang ditentukan.  
Perintah:  

```
aws elbv2 set-subnets --load-balancer-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/my-load-balancer/50dc6c495c0c9188 --subnets subnet-8360a9e7 subnet-b7d581c0
```
Output:  

```
{
  "AvailabilityZones": [
      {
          "SubnetId": "subnet-8360a9e7",
          "ZoneName": "us-west-2a"
      },
      {
          "SubnetId": "subnet-b7d581c0",
          "ZoneName": "us-west-2b"
      }
  ]
}
```
+  Untuk detail API, lihat [SetSubnets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elbv2/set-subnets.html)di *Referensi AWS CLI Perintah*. 

# ElastiCache contoh menggunakan AWS CLI
<a name="cli_2_elasticache_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with ElastiCache.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags-to-resource`
<a name="elasticache_AddTagsToResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya**  
`add-tags-to-resource`Contoh berikut menambahkan hingga 10 tag, pasangan kunci-nilai, ke sumber daya cluster atau snapshot.  

```
aws elasticache add-tags-to-resource \
    --resource-name "arn:aws:elasticache:us-east-1:1234567890:cluster:my-mem-cluster" \
    --tags '{"20150202":15, "ElastiCache":"Service"}'
```
Output:  

```
{
    "TagList": [
        {
            "Value": "20150202",
            "Key": "APIVersion"
        },
        {
            "Value": "ElastiCache",
            "Key": "Service"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memantau Biaya dengan Tag Alokasi](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Tagging.html) Biaya di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [AddTagsToResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/add-tags-to-resource.html)di *Referensi AWS CLI Perintah*. 

### `authorize-cache-security-group-ingress`
<a name="elasticache_AuthorizeCacheSecurityGroupIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`authorize-cache-security-group-ingress`.

**AWS CLI**  
**Untuk mengotorisasi grup keamanan cache untuk masuknya**  
`authorize-cache-security-group-ingress`Contoh berikut memungkinkan masuknya jaringan ke grup keamanan cache.  

```
aws elasticache authorize-cache-security-group-ingress \
     --cache-security-group-name  "my-sec-grp" \
     --ec2-security-group-name "my-ec2-sec-grp" \
     --ec2-security-group-owner-id "1234567890"
```
Perintah tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pembaruan Layanan Mandiri di Amazon ElastiCache di](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Self-Service-Updates.html) Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [AuthorizeCacheSecurityGroupIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/authorize-cache-security-group-ingress.html)di *Referensi AWS CLI Perintah*. 

### `batch-apply-update-action`
<a name="elasticache_BatchApplyUpdateAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-apply-update-action`.

**AWS CLI**  
**Untuk menerapkan pembaruan layanan**  
`batch-apply-update-action`Contoh berikut menerapkan pembaruan layanan ke cluster Redis.  

```
aws elasticache batch-apply-update-action \
    --service-update-name elc-xxxxx406-xxx \
    --replication-group-ids test-cluster
```
Output:  

```
{
    "ProcessedUpdateActions": [
        {
            "ReplicationGroupId": "pat-cluster",
            "ServiceUpdateName": "elc-xxxxx406-xxx",
            "UpdateActionStatus": "waiting-to-start"
        }
    ],
    "UnprocessedUpdateActions": []
}
```
Untuk informasi selengkapnya, lihat [Pembaruan Layanan Mandiri di Amazon ElastiCache di](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Self-Service-Updates.html) Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [BatchApplyUpdateAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/batch-apply-update-action.html)di *Referensi AWS CLI Perintah*. 

### `batch-stop-update-action`
<a name="elasticache_BatchStopUpdateAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-stop-update-action`.

**AWS CLI**  
**Untuk menghentikan pembaruan layanan**  
`batch-stop-update-action`Contoh berikut menerapkan pembaruan layanan ke cluster Redis.  

```
aws elasticache batch-stop-update-action \
    --service-update-name elc-xxxxx406-xxx \
    --replication-group-ids test-cluster
```
Output:  

```
{
    "ProcessedUpdateActions": [
        {
            "ReplicationGroupId": "pat-cluster",
            "ServiceUpdateName": "elc-xxxxx406-xxx",
            "UpdateActionStatus": "stopping"
        }
    ],
    "UnprocessedUpdateActions": []
}
```
Untuk informasi selengkapnya, lihat [Pembaruan Layanan Mandiri di Amazon ElastiCache di](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Self-Service-Updates.html) Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [BatchStopUpdateAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/batch-stop-update-action.html)di *Referensi AWS CLI Perintah*. 

### `copy-snapshot`
<a name="elasticache_CopySnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-snapshot`.

**AWS CLI**  
**Untuk menyalin snapshot**  
`copy-snapshot`Contoh berikut membuat salinan snapshot yang ada.  

```
aws elasticache copy-snapshot \
    --source-snapshot-name "my-snapshot" \
    --target-snapshot-name "my-snapshot-copy"
```
Output:  

```
{
    "Snapshot":{
        "Engine": "redis",
        "CacheParameterGroupName": "default.redis3.2",
        "VpcId": "vpc-3820329f3",
        "CacheClusterId": "my-redis4",
        "SnapshotRetentionLimit": 7,
        "NumCacheNodes": 1,
        "SnapshotName": "my-snapshot-copy",
        "CacheClusterCreateTime": "2016-12-21T22:24:04.955Z",
        "AutoMinorVersionUpgrade": true,
        "PreferredAvailabilityZone": "us-east-1c",
        "SnapshotStatus": "creating",
        "SnapshotSource": "manual",
        "SnapshotWindow": "07:00-08:00",
        "EngineVersion": "3.2.4",
        "NodeSnapshots": [
            {
                "CacheSize": "3 MB",
                "SnapshotCreateTime": "2016-12-28T07:00:52Z",
                "CacheNodeId": "0001",
                "CacheNodeCreateTime": "2016-12-21T22:24:04.955Z"
            }
        ],
        "CacheSubnetGroupName": "default",
        "Port": 6379,
        "PreferredMaintenanceWindow": "tue:09:30-tue:10:30",
        "CacheNodeType": "cache.m3.large"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengekspor Cadangan](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/backups-exporting.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [CopySnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/copy-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-cache-cluster`
<a name="elasticache_CreateCacheCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cache-cluster`.

**AWS CLI**  
**Untuk membuat cluster cache**  
`create-cache-cluster`Contoh berikut membuat cluster cache menggunakan mesin Redis.  

```
aws elasticache create-cache-cluster \
    --cache-cluster-id "cluster-test" \
    --engine redis \
    --cache-node-type cache.m5.large \
    --num-cache-nodes 1
```
Output:  

```
{
    "CacheCluster": {
        "CacheClusterId": "cluster-test",
        "ClientDownloadLandingPage": "https://console.aws.amazon.com/elasticache/home#client-download:",
        "CacheNodeType": "cache.m5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.5",
        "CacheClusterStatus": "creating",
        "NumCacheNodes": 1,
        "PreferredMaintenanceWindow": "sat:13:00-sat:14:00",
        "PendingModifiedValues": {},
        "CacheSecurityGroups": [],
        "CacheParameterGroup": {
            "CacheParameterGroupName": "default.redis5.0",
            "ParameterApplyStatus": "in-sync",
            "CacheNodeIdsToReboot": []
        },
        "CacheSubnetGroupName": "default",
        "AutoMinorVersionUpgrade": true,
        "SnapshotRetentionLimit": 0,
        "SnapshotWindow": "06:30-07:30",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Cluster](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.Create.html) di *Panduan Pengguna Elasticache*.  
+  Untuk detail API, lihat [CreateCacheCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/create-cache-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-cache-parameter-group`
<a name="elasticache_CreateCacheParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cache-parameter-group`.

**AWS CLI**  
**Untuk membuat grup parameter cache**  
`create-cache-parameter-group`Contoh berikut membuat grup parameter ElastiCache cache Amazon baru.  

```
aws elasticache create-cache-parameter-group \
    --cache-parameter-group-family "redis5.0" \
    --cache-parameter-group-name "mygroup" \
    --description "mygroup"
```
Output:  

```
{
    "CacheParameterGroup": {
        "CacheParameterGroupName": "mygroup",
        "CacheParameterGroupFamily": "redis5.0",
        "Description": "my group"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup Parameter](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/ParameterGroups.Creating.html) di *Panduan Pengguna Elasticache*.  
+  Untuk detail API, lihat [CreateCacheParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/create-cache-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `create-cache-subnet-group`
<a name="elasticache_CreateCacheSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cache-subnet-group`.

**AWS CLI**  
**Untuk membuat grup subnet cache**  
`create-cache-subnet-group`Contoh berikut membuat grup subnet cache baru.  

```
aws elasticache create-cache-subnet-group \
    --cache-subnet-group-name "mygroup" \
    --cache-subnet-group-description "my subnet group" \
    --subnet-ids "subnet-xxxxec4f"
```
Output:  

```
{
    "CacheSubnetGroup": {
        "CacheSubnetGroupName": "mygroup",
        "CacheSubnetGroupDescription": "my subnet group",
        "VpcId": "vpc-a3e97cdb",
        "Subnets": [
            {
                "SubnetIdentifier": "subnet-xxxxec4f",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2d"
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup Subnet Cache di Panduan](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/VPCs.CreatingSubnetGroup.html) Pengguna *Elasticache*.  
+  Untuk detail API, lihat [CreateCacheSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/create-cache-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `create-global-replication-group`
<a name="elasticache_CreateGlobalReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-global-replication-group`.

**AWS CLI**  
**Untuk membuat grup replikasi global**  
`create-global-replication-group`Contoh berikut membuat grup replikasi global baru.  

```
aws elasticache create-global-replication-group \
    --global-replication-group-id-suffix my-global-replication-group \
    --primary-replication-group-id my-primary-cluster
```
Output:  

```
{
    "GlobalReplicationGroup": {
        "GlobalReplicationGroupId": "sgaui-my-global-replication-group",
        "GlobalReplicationGroupDescription": " ",
        "Status": "creating",
        "CacheNodeType": "cache.r5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.6",
        "Members": [
            {
                "ReplicationGroupId": "my-primary-cluster",
                "ReplicationGroupRegion": "us-west-2",
                "Role": "PRIMARY",
                "AutomaticFailover": "enabled",
                "Status": "associating"
            }
        ],
        "ClusterEnabled": true,
        "GlobalNodeGroups": [
            {
                "GlobalNodeGroupId": "sgaui-my-global-replication-group-0001",
                "Slots": "0-16383"
            }
        ],
        "AuthTokenEnabled": false,
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Replikasi Lintas AWS Wilayah Menggunakan Global Datastore](https://docs.amazonaws.cn/en_us/AmazonElastiCache/latest/red-ug/Redis-Global-Datastore.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [CreateGlobalReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/create-global-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `create-replication-group`
<a name="elasticache_CreateReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-replication-group`.

**AWS CLI**  
**Untuk membuat grup replikasi**  
`create-replication-group`Contoh berikut membuat Redis (mode cluster dinonaktifkan) atau Redis (mode cluster diaktifkan) grup replikasi. Operasi ini hanya berlaku untuk Redis.  

```
aws elasticache create-replication-group \
    --replication-group-id "mygroup" \
    --replication-group-description "my group" \
    --engine "redis" \
    --cache-node-type "cache.m5.large"
```
Output:  

```
{
    "ReplicationGroup": {
        "ReplicationGroupId": "mygroup",
        "Description": "my group",
        "Status": "creating",
        "PendingModifiedValues": {},
        "MemberClusters": [
            "mygroup-001"
        ],
        "AutomaticFailover": "disabled",
        "SnapshotRetentionLimit": 0,
        "SnapshotWindow": "06:00-07:00",
        "ClusterEnabled": false,
        "CacheNodeType": "cache.m5.large",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup Replikasi Redis di Panduan Pengguna](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Replication.CreatingRepGroup.html) *Elasticache*.  
+  Untuk detail API, lihat [CreateReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/create-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `create-snapshot`
<a name="elasticache_CreateSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-snapshot`.

**AWS CLI**  
**Untuk membuat snapshot**  
`create-snapshot`Contoh berikut membuat snapshot menggunakan mesin Redis.  

```
aws elasticache create-snapshot \
    --snapshot-name mysnapshot \
    --cache-cluster-id cluster-test
```
Output:  

```
{
    "Snapshot": {
        "SnapshotName": "mysnapshot",
        "CacheClusterId": "cluster-test",
        "SnapshotStatus": "creating",
        "SnapshotSource": "manual",
        "CacheNodeType": "cache.m5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.5",
        "NumCacheNodes": 1,
        "PreferredAvailabilityZone": "us-west-2b",
        "CacheClusterCreateTime": "2020-03-19T03:12:01.483Z",
        "PreferredMaintenanceWindow": "sat:13:00-sat:14:00",
        "Port": 6379,
        "CacheParameterGroupName": "default.redis5.0",
        "CacheSubnetGroupName": "default",
        "VpcId": "vpc-a3e97cdb",
        "AutoMinorVersionUpgrade": true,
        "SnapshotRetentionLimit": 0,
        "SnapshotWindow": "06:30-07:30",
        "NodeSnapshots": [
            {
                "CacheNodeId": "0001",
                "CacheSize": "",
                "CacheNodeCreateTime": "2020-03-19T03:12:01.483Z"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Backup dan Restore for ElastiCache for Redis](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/backups.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [CreateSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/create-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-user-group`
<a name="elasticache_CreateUserGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user-group`.

**AWS CLI**  
**Untuk membuat grup pengguna**  
`create-user-group`Contoh berikut membuat grup pengguna baru.  

```
aws elasticache create-user-group \
    --user-group-id myusergroup \
    --engine redis \
    --user-ids default
```
Output:  

```
{
    "UserGroupId": "myusergroup",
    "Status": "creating",
    "Engine": "redis",
    "UserIds": [
        "default"
    ],
    "ReplicationGroups": [],
    "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:usergroup:myusergroup"
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi Pengguna dengan Kontrol Akses Berbasis Peran (RBAC)](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.RBAC.html) di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [CreateUserGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/create-user-group.html)di *Referensi AWS CLI Perintah*. 

### `create-user`
<a name="elasticache_CreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user`.

**AWS CLI**  
**Untuk membuat pengguna**  
`create-user`Contoh berikut menciptakan pengguna baru.  

```
aws elasticache create-user \
    --user-id user1 \
    --user-name myUser \
    --passwords mYnuUzrpAxXw2rdzx \
    --engine redis \
    --access-string "on ~app::* -@all +@read"
```
Output:  

```
{
    "UserId": "user2",
    "UserName": "myUser",
    "Status": "active",
    "Engine": "redis",
    "AccessString": "on ~app::* -@all +@read +@hash +@bitmap +@geo -setbit -bitfield -hset -hsetnx -hmset -hincrby -hincrbyfloat -hdel -bitop -geoadd -georadius -georadiusbymember",
    "UserGroupIds": [],
    "Authentication": {
        "Type": "password",
        "PasswordCount": 1
    },
    "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:user:user2"
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi Pengguna dengan Kontrol Akses Berbasis Peran (RBAC)](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.RBAC.html) di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [CreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/create-user.html)di *Referensi AWS CLI Perintah*. 

### `decrease-node-groups-in-global-replication-group`
<a name="elasticache_DecreaseNodeGroupsInGlobalReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decrease-node-groups-in-global-replication-group`.

**AWS CLI**  
**Untuk mengurangi jumlah grup node dalam grup replikasi global**  
Berikut ini `decrease-node-groups-in-global-replication-group` mengurangi jumlah kelompok node menggunakan mesin Redis.  

```
aws elasticache decrease-node-groups-in-global-replication-group \
    --global-replication-group-id sgaui-test \
    --node-group-count 1 \
    --apply-immediately \
    --global-node-groups-to-retain sgaui-test-0003
```
Output:  

```
{
    "GlobalReplicationGroup":
    {
        "GlobalReplicationGroupId": "sgaui-test",
        "GlobalReplicationGroupDescription": "test",
        "Status": "modifying",
        "CacheNodeType": "cache.r5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.6",
        "Members": [
            {
                "ReplicationGroupId": "test-2",
                "ReplicationGroupRegion": "us-east-1",
                "Role": "SECONDARY",
                "AutomaticFailover": "enabled",
                "Status": "associated"
            },
            {
                "ReplicationGroupId": "test-1",
                "ReplicationGroupRegion": "us-west-2",
                "Role": "PRIMARY",
                "AutomaticFailover": "enabled",
                "Status": "associated"
            }
        ],
        "ClusterEnabled": true,
        "GlobalNodeGroups": [
            {
                "GlobalNodeGroupId": "sgaui-test-0001",
                "Slots": "0-449,1816-5461"
            },
            {
                "GlobalNodeGroupId": "sgaui-test-0002",
                "Slots": "6827-10922"
            },
            {
                "GlobalNodeGroupId": "sgaui-test-0003",
                "Slots": "10923-14052,15418-16383"
            },
            {
                "GlobalNodeGroupId": "sgaui-test-0004",
                "Slots": "450-1815,5462-6826,14053-15417"
            }
        ],
        "AuthTokenEnabled": false,
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Replikasi Lintas AWS Wilayah Menggunakan Global Datastore](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Redis-Global-Datastore.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DecreaseNodeGroupsInGlobalReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/decrease-node-groups-in-global-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `decrease-replica-count`
<a name="elasticache_DecreaseReplicaCount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decrease-replica-count`.

**AWS CLI**  
**Untuk mengurangi jumlah replika**  
`decrease-replica-count`Contoh berikut secara dinamis mengurangi jumlah replika dalam grup replikasi Redis (mode cluster dinonaktifkan) atau jumlah node replika dalam satu atau lebih grup node (pecahan) dari grup replikasi Redis (mode cluster diaktifkan). Operasi ini dilakukan tanpa downtime cluster.  

```
aws elasticache decrease-replica-count \
    --replication-group-id my-cluster \
    --apply-immediately  \
    --new-replica-count 2
```
Output:  

```
{
    "ReplicationGroup": {
        "ReplicationGroupId": "my-cluster",
        "Description": " ",
        "Status": "modifying",
        "PendingModifiedValues": {},
        "MemberClusters": [
            "myrepliace",
            "my-cluster-001",
            "my-cluster-002",
            "my-cluster-003"
        ],
        "NodeGroups": [
            {
                "NodeGroupId": "0001",
                "Status": "modifying",
                "PrimaryEndpoint": {
                    "Address": "my-cluster.xxxxx.ng.0001.usw2.cache.amazonaws.com",
                    "Port": 6379
                },
                "ReaderEndpoint": {
                    "Address": "my-cluster-ro.xxxxx.ng.0001.usw2.cache.amazonaws.com",
                    "Port": 6379
                },
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "myrepliace",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "myrepliace.xxxxx.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2a",
                        "CurrentRole": "replica"
                    },
                    {
                        "CacheClusterId": "my-cluster-001",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "my-cluster-001.xxxxx.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2a",
                        "CurrentRole": "primary"
                    },
                    {
                        "CacheClusterId": "my-cluster-002",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "my-cluster-002.xxxxx.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2a",
                        "CurrentRole": "replica"
                    },
                    {
                        "CacheClusterId": "my-cluster-003",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "my-cluster-003.xxxxx.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2a",
                        "CurrentRole": "replica"
                    }
                ]
            }
        ],
        "AutomaticFailover": "disabled",
        "SnapshotRetentionLimit": 0,
        "SnapshotWindow": "07:30-08:30",
        "ClusterEnabled": false,
        "CacheNodeType": "cache.r5.xlarge",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Mengubah Jumlah Replika](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/increase-decrease-replica-count.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DecreaseReplicaCount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/decrease-replica-count.html)di *Referensi AWS CLI Perintah*. 

### `delete-cache-cluster`
<a name="elasticache_DeleteCacheCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cache-cluster`.

**AWS CLI**  
**Untuk menghapus cluster cache**  
`delete-cache-cluster`Contoh berikut menghapus cluster yang sebelumnya disediakan sebelumnya. Perintah menghapus semua node cache terkait, titik akhir simpul. dan cluster itu sendiri. Ketika Anda menerima respons yang berhasil dari operasi ini, Amazon ElastiCache segera mulai menghapus klaster; Anda tidak dapat membatalkan atau mengembalikan operasi ini.  
Operasi ini tidak berlaku untuk hal-hal berikut:  
Redis (mode cluster diaktifkan) ClusterSa cluster yang merupakan replika baca terakhir dari grup node GroUpa replikasi (shard) yang memiliki mode multi-AZ EnableDA cluster dari Redis (cluster mode enabled) replikasi GroUpa cluster yang tidak dalam status tersedia  

```
aws elasticache delete-cache-cluster \
    --cache-cluster-id "my-cluster-002"
```
Output:  

```
{
    "CacheCluster": {
        "CacheClusterId": "my-cluster-002",
        "ClientDownloadLandingPage": "https://console.aws.amazon.com/elasticache/home#client-download:",
        "CacheNodeType": "cache.r5.xlarge",
        "Engine": "redis",
        "EngineVersion": "5.0.5",
        "CacheClusterStatus": "deleting",
        "NumCacheNodes": 1,
        "PreferredAvailabilityZone": "us-west-2a",
        "CacheClusterCreateTime": "2019-11-26T03:35:04.546Z",
        "PreferredMaintenanceWindow": "mon:04:05-mon:05:05",
        "PendingModifiedValues": {},
        "NotificationConfiguration": {
            "TopicArn": "arn:aws:sns:us-west-x:xxxxxxx4152:My_Topic",
            "TopicStatus": "active"
        },
        "CacheSecurityGroups": [],
        "CacheParameterGroup": {
            "CacheParameterGroupName": "mygroup",
            "ParameterApplyStatus": "in-sync",
            "CacheNodeIdsToReboot": []
        },
        "CacheSubnetGroupName": "kxkxk",
        "AutoMinorVersionUpgrade": true,
        "SecurityGroups": [
            {
                "SecurityGroupId": "sg-xxxxxxxxxx9836",
                "Status": "active"
            },
            {
                "SecurityGroupId": "sg-xxxxxxxxxxxx7b",
                "Status": "active"
            }
        ],
        "ReplicationGroupId": "my-cluster",
        "SnapshotRetentionLimit": 0,
        "SnapshotWindow": "07:30-08:30",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Cluster](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.Delete.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DeleteCacheCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/delete-cache-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-cache-parameter-group`
<a name="elasticache_DeleteCacheParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cache-parameter-group`.

**AWS CLI**  
**Untuk menghapus grup parameter cache**  
`delete-cache-parameter-group`Contoh berikut menghapus kelompok parameter cache yang ditentukan. Anda tidak dapat menghapus grup parameter cache jika dikaitkan dengan cluster cache apa pun.  

```
aws elasticache delete-cache-parameter-group \
    --cache-parameter-group-name myparamgroup
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Grup Parameter di Panduan](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/ParameterGroups.Deleting.html) Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DeleteCacheParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/delete-cache-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-cache-subnet-group`
<a name="elasticache_DeleteCacheSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cache-subnet-group`.

**AWS CLI**  
**Untuk menghapus grup subnet cache**  
`delete-cache-subnet-group`Contoh berikut menghapus kelompok subnet cache yang ditentukan. Anda tidak dapat menghapus grup subnet cache jika dikaitkan dengan cluster apa pun.  

```
aws elasticache delete-cache-subnet-group \
    --cache-subnet-group-name "mygroup"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Grup Subnet](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/SubnetGroups.Deleting.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DeleteCacheSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/delete-cache-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-global-replication-group`
<a name="elasticache_DeleteGlobalReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-global-replication-group`.

**AWS CLI**  
**Untuk menghapus grup replikasi global**  
`delete-global-replication-group`Contoh berikut menghapus grup replikasi global baru.  

```
aws elasticache delete-global-replication-group \
    --global-replication-group-id my-global-replication-group \
    --retain-primary-replication-group
```
Output:  

```
{
    "GlobalReplicationGroup": {
        "GlobalReplicationGroupId": "sgaui-my-grg",
        "GlobalReplicationGroupDescription": "my-grg",
        "Status": "deleting",
        "CacheNodeType": "cache.r5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.6",
        "Members": [
            {
                "ReplicationGroupId": "my-cluster-grg",
                "ReplicationGroupRegion": "us-west-2",
                "Role": "PRIMARY",
                "AutomaticFailover": "enabled",
                "Status": "associated"
            }
        ],
        "ClusterEnabled": false,
        "AuthTokenEnabled": false,
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Replikasi Lintas AWS Wilayah Menggunakan Global Datastore](https://docs.amazonaws.cn/en_us/AmazonElastiCache/latest/red-ug/Redis-Global-Datastore.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DeleteGlobalReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/delete-global-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-replication-group`
<a name="elasticache_DeleteReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-replication-group`.

**AWS CLI**  
**Untuk menghapus grup replikasi**  
`delete-replication-group`Contoh berikut menghapus grup replikasi yang ada. Secara default, operasi ini menghapus seluruh grup replikasi, termasuk primary/primaries dan semua replika baca. Jika grup replikasi hanya memiliki satu primer, Anda dapat secara opsional menghapus hanya replika baca, sambil mempertahankan primer dengan menyetel =true. RetainPrimaryCluster  
Ketika Anda menerima respons yang berhasil dari operasi ini, Amazon ElastiCache segera mulai menghapus sumber daya yang dipilih; Anda tidak dapat membatalkan atau mengembalikan operasi ini. Hanya berlaku untuk Redis.  

```
aws elasticache delete-replication-group \
    --replication-group-id "mygroup"
```
Output:  

```
{
     "ReplicationGroup": {
         "ReplicationGroupId": "mygroup",
         "Description": "my group",
         "Status": "deleting",
         "PendingModifiedValues": {},
         "AutomaticFailover": "disabled",
         "SnapshotRetentionLimit": 0,
         "SnapshotWindow": "06:00-07:00",
         "TransitEncryptionEnabled": false,
         "AtRestEncryptionEnabled": false
     }
 }
```
+  Untuk detail API, lihat [DeleteReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/delete-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-snapshot`
<a name="elasticache_DeleteSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot**  
`delete-snapshot`Contoh berikut menghapus snapshot menggunakan mesin Redis.  

```
aws elasticache delete-snapshot \
    --snapshot-name mysnapshot
```
Output:  

```
{
    "Snapshot": {
        "SnapshotName": "my-cluster-snapshot",
        "ReplicationGroupId": "mycluster",
        "ReplicationGroupDescription": "mycluster",
        "SnapshotStatus": "deleting",
        "SnapshotSource": "manual",
        "CacheNodeType": "cache.r5.xlarge",
        "Engine": "redis",
        "EngineVersion": "5.0.5",
        "PreferredMaintenanceWindow": "thu:12:00-thu:13:00",
        "TopicArn": "arn:aws:sns:us-west-2:xxxxxxxxxxxxx152:My_Topic",
        "Port": 6379,
        "CacheParameterGroupName": "default.redis5.0.cluster.on",
        "CacheSubnetGroupName": "default",
        "VpcId": "vpc-a3e97cdb",
        "AutoMinorVersionUpgrade": true,
        "SnapshotRetentionLimit": 1,
        "SnapshotWindow": "13:00-14:00",
        "NumNodeGroups": 4,
        "AutomaticFailover": "enabled",
        "NodeSnapshots": [
            {
                "CacheClusterId": "mycluster-0002-003",
                "NodeGroupId": "0002",
                "CacheNodeId": "0001",
                "CacheSize": "6 MB",
                "CacheNodeCreateTime": "2020-06-18T00:05:44.719000+00:00",
                "SnapshotCreateTime": "2020-06-25T20:34:30+00:00"
            },
            {
                "CacheClusterId": "mycluster-0003-003",
                "NodeGroupId": "0003",
                "CacheNodeId": "0001",
                "CacheSize": "6 MB",
                "CacheNodeCreateTime": "2019-12-05T19:13:15.912000+00:00",
                "SnapshotCreateTime": "2020-06-25T20:34:30+00:00"
            },
            {
                "CacheClusterId": "mycluster-0004-002",
                "NodeGroupId": "0004",
                "CacheNodeId": "0001",
                "CacheSize": "6 MB",
                "CacheNodeCreateTime": "2019-12-09T19:44:34.324000+00:00",
                "SnapshotCreateTime": "2020-06-25T20:34:30+00:00"
            },
            {
                "CacheClusterId": "mycluster-0005-003",
                "NodeGroupId": "0005",
                "CacheNodeId": "0001",
                "CacheSize": "6 MB",
                "CacheNodeCreateTime": "2020-06-18T00:05:44.775000+00:00",
                "SnapshotCreateTime": "2020-06-25T20:34:30+00:00"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Backup dan Restore for ElastiCache for Redis](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/backups.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DeleteSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/delete-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-user-group`
<a name="elasticache_DeleteUserGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user-group`.

**AWS CLI**  
**Untuk menghapus grup pengguna**  
`delete-user-group`Contoh berikut menghapus grup pengguna.  

```
aws elasticache delete-user-group \
    --user-group-id myusergroup
```
Output:  

```
{
    "UserGroupId": "myusergroup",
    "Status": "deleting",
    "Engine": "redis",
    "UserIds": [
        "default"
    ],
    "ReplicationGroups": [],
    "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:usergroup:myusergroup"
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi Pengguna dengan Kontrol Akses Berbasis Peran (RBAC)](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.RBAC.html) di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [DeleteUserGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/delete-user-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-user`
<a name="elasticache_DeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna**  
`delete-user`Contoh berikut menghapus pengguna.  

```
aws elasticache delete-user \
    --user-id user2
```
Output:  

```
{
    "UserId": "user1",
    "UserName": "myUser",
    "Status": "deleting",
    "Engine": "redis",
    "AccessString": "on ~* +@all",
    "UserGroupIds": [
        "myusergroup"
    ],
    "Authentication": {
        "Type": "password",
        "PasswordCount": 1
    },
    "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:user:user1"
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi Pengguna dengan Kontrol Akses Berbasis Peran (RBAC)](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.RBAC.html) di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [DeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/delete-user.html)di *Referensi AWS CLI Perintah*. 

### `describe-cache-clusters`
<a name="elasticache_DescribeCacheClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cache-clusters`.

**AWS CLI**  
**Untuk mendeskripsikan cluster cache**  
`describe-cache-clusters`Contoh berikut menjelaskan cluster cache.  

```
aws elasticache describe-cache-clusters
```
Output:  

```
{
    "CacheClusters": [
    {
            "CacheClusterId": "my-cluster-003",
            "ClientDownloadLandingPage": "https://console.aws.amazon.com/elasticache/home#client-download:",
            "CacheNodeType": "cache.r5.large",
            "Engine": "redis",
            "EngineVersion": "5.0.5",
            "CacheClusterStatus": "available",
            "NumCacheNodes": 1,
            "PreferredAvailabilityZone": "us-west-2a",
            "CacheClusterCreateTime": "2019-11-26T01:22:52.396Z",
            "PreferredMaintenanceWindow": "mon:17:30-mon:18:30",
            "PendingModifiedValues": {},
            "NotificationConfiguration": {
                "TopicArn": "arn:aws:sns:us-west-2:xxxxxxxxxxx152:My_Topic",
                "TopicStatus": "active"
            },
            "CacheSecurityGroups": [],
            "CacheParameterGroup": {
                "CacheParameterGroupName": "default.redis5.0",
                "ParameterApplyStatus": "in-sync",
                "CacheNodeIdsToReboot": []
            },
            "CacheSubnetGroupName": "kxkxk",
            "AutoMinorVersionUpgrade": true,
            "SecurityGroups": [
                {
                    "SecurityGroupId": "sg-xxxxxd7b",
                    "Status": "active"
                }
            ],
            "ReplicationGroupId": "my-cluster",
            "SnapshotRetentionLimit": 0,
            "SnapshotWindow": "06:30-07:30",
            "AuthTokenEnabled": false,
            "TransitEncryptionEnabled": false,
            "AtRestEncryptionEnabled": false,
            "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxxx152:cluster:my-cache-cluster",
            "ReplicationGroupLogDeliveryEnabled": false,
            "LogDeliveryConfigurations": [
                {
                    "LogType": "slow-log",
                    "DestinationType": "cloudwatch-logs",
                    "DestinationDetails": {
                        "CloudWatchLogsDetails": {
                            "LogGroup": "test-log"
                        }
                    },
                    "LogFormat": "text",
                    "Status": "active"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Cluster](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DescribeCacheClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-cache-clusters.html)di *Referensi AWS CLI Perintah*. 

### `describe-cache-engine-versions`
<a name="elasticache_DescribeCacheEngineVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cache-engine-versions`.

**AWS CLI**  
**Untuk menggambarkan versi mesin cache**  
`describe-cache-engine-versions`Contoh berikut mengembalikan daftar mesin cache yang tersedia dan versinya.  

```
aws elasticache describe-cache-engine-versions \
    --engine "Redis"
```
Output:  

```
{
    "CacheEngineVersions": [
        {
            "Engine": "redis",
            "EngineVersion": "2.6.13",
            "CacheParameterGroupFamily": "redis2.6",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 2.6.13"
        },
        {
            "Engine": "redis",
            "EngineVersion": "2.8.19",
            "CacheParameterGroupFamily": "redis2.8",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 2.8.19"
        },
        {
            "Engine": "redis",
            "EngineVersion": "2.8.21",
            "CacheParameterGroupFamily": "redis2.8",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 2.8.21"
        },
        {
            "Engine": "redis",
            "EngineVersion": "2.8.22",
            "CacheParameterGroupFamily": "redis2.8",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 2.8.22"
        },
        {
            "Engine": "redis",
            "EngineVersion": "2.8.23",
            "CacheParameterGroupFamily": "redis2.8",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 2.8.23"
        },
        {
            "Engine": "redis",
            "EngineVersion": "2.8.24",
            "CacheParameterGroupFamily": "redis2.8",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 2.8.24"
        },
        {
            "Engine": "redis",
            "EngineVersion": "2.8.6",
            "CacheParameterGroupFamily": "redis2.8",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 2.8.6"
        },
        {
            "Engine": "redis",
            "EngineVersion": "3.2.10",
            "CacheParameterGroupFamily": "redis3.2",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 3.2.10"
        },
        {
            "Engine": "redis",
            "EngineVersion": "3.2.4",
            "CacheParameterGroupFamily": "redis3.2",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 3.2.4"
        },
        {
            "Engine": "redis",
            "EngineVersion": "3.2.6",
            "CacheParameterGroupFamily": "redis3.2",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 3.2.6"
        },
        {
            "Engine": "redis",
            "EngineVersion": "4.0.10",
            "CacheParameterGroupFamily": "redis4.0",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 4.0.10"
        },
        {
            "Engine": "redis",
            "EngineVersion": "5.0.0",
            "CacheParameterGroupFamily": "redis5.0",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 5.0.0"
        },
        {
            "Engine": "redis",
            "EngineVersion": "5.0.3",
            "CacheParameterGroupFamily": "redis5.0",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 5.0.3"
        },
        {
            "Engine": "redis",
            "EngineVersion": "5.0.4",
            "CacheParameterGroupFamily": "redis5.0",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 5.0.4"
        },
        {
            "Engine": "redis",
            "EngineVersion": "5.0.5",
            "CacheParameterGroupFamily": "redis5.0",
            "CacheEngineDescription": "Redis",
            "CacheEngineVersionDescription": "redis version 5.0.5"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeCacheEngineVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-cache-engine-versions.html)di *Referensi AWS CLI Perintah*. 

### `describe-cache-parameter-groups`
<a name="elasticache_DescribeCacheParameterGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cache-parameter-groups`.

**AWS CLI**  
**Untuk menggambarkan grup parameter cache**  
`describe-cache-parameter-groups`Contoh berikut mengembalikan daftar deskripsi kelompok parameter cache.  

```
aws elasticache describe-cache-parameter-groups \
    --cache-parameter-group-name "mygroup"
```
Output:  

```
{
    "CacheParameterGroups": [
        {
            "CacheParameterGroupName": "mygroup",
            "CacheParameterGroupFamily": "redis5.0",
            "Description": " "
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Parameter Mesin Menggunakan Grup Parameter](https://docs.aws.amazon.com/AmazonElastiCache/latest/mem-ug/ParameterGroups.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DescribeCacheParameterGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-cache-parameter-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-cache-parameters`
<a name="elasticache_DescribeCacheParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cache-parameters`.

**AWS CLI**  
**Untuk menggambarkan parameter cache**  
Berikut "describe-cache-parameters" contoh mengembalikan daftar parameter rinci untuk kelompok parameter cache tertentu.  

```
aws elasticache describe-cache-parameters \
    --cache-parameter-group-name "myparamgroup"
```
Output:  

```
{
    "Parameters": [
        {
            "ParameterName": "activedefrag",
            "ParameterValue": "yes",
            "Description": "Enabled active memory defragmentation",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "active-defrag-cycle-max",
            "ParameterValue": "75",
            "Description": "Maximal effort for defrag in CPU percentage",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-75",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "active-defrag-cycle-min",
            "ParameterValue": "5",
            "Description": "Minimal effort for defrag in CPU percentage",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-75",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "active-defrag-ignore-bytes",
            "ParameterValue": "104857600",
            "Description": "Minimum amount of fragmentation waste to start active defrag",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1048576-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "active-defrag-max-scan-fields",
            "ParameterValue": "1000",
            "Description": "Maximum number of set/hash/zset/list fields that will be processed from the main dictionary scan",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-1000000",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "active-defrag-threshold-lower",
            "ParameterValue": "10",
            "Description": "Minimum percentage of fragmentation to start active defrag",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-100",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "active-defrag-threshold-upper",
            "ParameterValue": "100",
            "Description": "Maximum percentage of fragmentation at which we use maximum effort",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-100",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "activerehashing",
            "ParameterValue": "yes",
            "Description": "Apply rehashing or not.",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "requires-reboot"
        },
        {
            "ParameterName": "appendfsync",
            "ParameterValue": "everysec",
            "Description": "fsync policy for AOF persistence",
            "Source": "system",
            "DataType": "string",
            "AllowedValues": "always,everysec,no",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "appendonly",
            "ParameterValue": "no",
            "Description": "Enable Redis persistence.",
            "Source": "system",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "client-output-buffer-limit-normal-hard-limit",
            "ParameterValue": "0",
            "Description": "Normal client output buffer hard limit in bytes.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "client-output-buffer-limit-normal-soft-limit",
            "ParameterValue": "0",
            "Description": "Normal client output buffer soft limit in bytes.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "client-output-buffer-limit-normal-soft-seconds",
            "ParameterValue": "0",
            "Description": "Normal client output buffer soft limit in seconds.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "client-output-buffer-limit-pubsub-hard-limit",
            "ParameterValue": "33554432",
            "Description": "Pubsub client output buffer hard limit in bytes.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "client-output-buffer-limit-pubsub-soft-limit",
            "ParameterValue": "8388608",
            "Description": "Pubsub client output buffer soft limit in bytes.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "client-output-buffer-limit-pubsub-soft-seconds",
            "ParameterValue": "60",
            "Description": "Pubsub client output buffer soft limit in seconds.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "client-output-buffer-limit-replica-soft-seconds",
            "ParameterValue": "60",
            "Description": "Replica client output buffer soft limit in seconds.",
            "Source": "system",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "client-query-buffer-limit",
            "ParameterValue": "1073741824",
            "Description": "Max size of a single client query buffer",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1048576-1073741824",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "close-on-replica-write",
            "ParameterValue": "yes",
            "Description": "If enabled, clients who attempt to write to a read-only replica will be disconnected. Applicable to 2.8.23 and higher.",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "cluster-enabled",
            "ParameterValue": "no",
            "Description": "Enable cluster mode",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "requires-reboot"
        },
        {
            "ParameterName": "cluster-require-full-coverage",
            "ParameterValue": "no",
            "Description": "Whether cluster becomes unavailable if one or more slots are not covered",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "databases",
            "ParameterValue": "16",
            "Description": "Set the number of databases.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-1200000",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "requires-reboot"
        },
        {
            "ParameterName": "hash-max-ziplist-entries",
            "ParameterValue": "512",
            "Description": "The maximum number of hash entries in order for the dataset to be compressed.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "hash-max-ziplist-value",
            "ParameterValue": "64",
            "Description": "The threshold of biggest hash entries in order for the dataset to be compressed.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "hll-sparse-max-bytes",
            "ParameterValue": "3000",
            "Description": "HyperLogLog sparse representation bytes limit",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-16000",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "lazyfree-lazy-eviction",
            "ParameterValue": "no",
            "Description": "Perform an asynchronous delete on evictions",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "lazyfree-lazy-expire",
            "ParameterValue": "no",
            "Description": "Perform an asynchronous delete on expired keys",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "lazyfree-lazy-server-del",
            "ParameterValue": "no",
            "Description": "Perform an asynchronous delete on key updates",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "lfu-decay-time",
            "ParameterValue": "1",
            "Description": "The amount of time in minutes to decrement the key counter for LFU eviction policy",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "lfu-log-factor",
            "ParameterValue": "10",
            "Description": "The log factor for incrementing key counter for LFU eviction policy",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "list-compress-depth",
            "ParameterValue": "0",
            "Description": "Number of quicklist ziplist nodes from each side of the list to exclude from compression. The head and tail of the list are always uncompressed for fast push/pop operations",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "list-max-ziplist-size",
            "ParameterValue": "-2",
            "Description": "The number of entries allowed per internal list node can be specified as a fixed maximum size or a maximum number of elements",
            "Source": "system",
            "DataType": "integer",
            "AllowedValues": "-5,-4,-3,-2,-1,1-",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "lua-replicate-commands",
            "ParameterValue": "yes",
            "Description": "Always enable Lua effect replication or not",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "lua-time-limit",
            "ParameterValue": "5000",
            "Description": "Max execution time of a Lua script in milliseconds. 0 for unlimited execution without warnings.",
            "Source": "system",
            "DataType": "integer",
            "AllowedValues": "5000",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "maxclients",
            "ParameterValue": "65000",
            "Description": "The maximum number of Redis clients.",
            "Source": "system",
            "DataType": "integer",
            "AllowedValues": "1-65000",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "requires-reboot"
        },
        {
            "ParameterName": "maxmemory-policy",
            "ParameterValue": "volatile-lru",
            "Description": "Max memory policy.",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "volatile-lru,allkeys-lru,volatile-lfu,allkeys-lfu,volatile-random,allkeys-random,volatile-ttl,noeviction",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "maxmemory-samples",
            "ParameterValue": "3",
            "Description": "Max memory samples.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "min-replicas-max-lag",
            "ParameterValue": "10",
            "Description": "The maximum amount of replica lag in seconds beyond which the master would stop taking writes. A value of 0 means the master always takes writes.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "min-replicas-to-write",
            "ParameterValue": "0",
            "Description": "The minimum number of replicas that must be present with lag no greater than min-replicas-max-lag for master to take writes. Setting this to 0 means the master always takes writes.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "notify-keyspace-events",
            "Description": "The keyspace events for Redis to notify Pub/Sub clients about. By default all notifications are disabled",
            "Source": "user",
            "DataType": "string",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "proto-max-bulk-len",
            "ParameterValue": "536870912",
            "Description": "Max size of a single element request",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "1048576-536870912",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "rename-commands",
            "ParameterValue": "",
            "Description": "Redis commands that can be dynamically renamed by the customer",
            "Source": "user",
            "DataType": "string",
            "AllowedValues": "APPEND,BITCOUNT,BITFIELD,BITOP,BITPOS,BLPOP,BRPOP,BRPOPLPUSH,BZPOPMIN,BZPOPMAX,CLIENT,COMMAND,DBSIZE,DECR,DECRBY,DEL,DISCARD,DUMP,ECHO,EVAL,EVALSHA,EXEC,EXISTS,EXPIRE,EXPIREAT,FLUSHALL,FLUSHDB,GEOADD,GEOHASH,GEOPOS,GEODIST,GEORADIUS,GEORADIUSBYMEMBER,GET,GETBIT,GETRANGE,GETSET,HDEL,HEXISTS,HGET,HGETALL,HINCRBY,HINCRBYFLOAT,HKEYS,HLEN,HMGET,HMSET,HSET,HSETNX,HSTRLEN,HVALS,INCR,INCRBY,INCRBYFLOAT,INFO,KEYS,LASTSAVE,LINDEX,LINSERT,LLEN,LPOP,LPUSH,LPUSHX,LRANGE,LREM,LSET,LTRIM,MEMORY,MGET,MONITOR,MOVE,MSET,MSETNX,MULTI,OBJECT,PERSIST,PEXPIRE,PEXPIREAT,PFADD,PFCOUNT,PFMERGE,PING,PSETEX,PSUBSCRIBE,PUBSUB,PTTL,PUBLISH,PUNSUBSCRIBE,RANDOMKEY,READONLY,READWRITE,RENAME,RENAMENX,RESTORE,ROLE,RPOP,RPOPLPUSH,RPUSH,RPUSHX,SADD,SCARD,SCRIPT,SDIFF,SDIFFSTORE,SELECT,SET,SETBIT,SETEX,SETNX,SETRANGE,SINTER,SINTERSTORE,SISMEMBER,SLOWLOG,SMEMBERS,SMOVE,SORT,SPOP,SRANDMEMBER,SREM,STRLEN,SUBSCRIBE,SUNION,SUNIONSTORE,SWAPDB,TIME,TOUCH,TTL,TYPE,UNSUBSCRIBE,UNLINK,UNWATCH,WAIT,WATCH,ZADD,ZCARD,ZCOUNT,ZINCRBY,ZINTERSTORE,ZLEXCOUNT,ZPOPMAX,ZPOPMIN,ZRANGE,ZRANGEBYLEX,ZREVRANGEBYLEX,ZRANGEBYSCORE,ZRANK,ZREM,ZREMRANGEBYLEX,ZREMRANGEBYRANK,ZREMRANGEBYSCORE,ZREVRANGE,ZREVRANGEBYSCORE,ZREVRANK,ZSCORE,ZUNIONSTORE,SCAN,SSCAN,HSCAN,ZSCAN,XINFO,XADD,XTRIM,XDEL,XRANGE,XREVRANGE,XLEN,XREAD,XGROUP,XREADGROUP,XACK,XCLAIM,XPENDING,GEORADIUS_RO,GEORADIUSBYMEMBER_RO,LOLWUT,XSETID,SUBSTR",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.3",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "repl-backlog-size",
            "ParameterValue": "1048576",
            "Description": "The replication backlog size in bytes for PSYNC. This is the size of the buffer which accumulates slave data when slave is disconnected for some time, so that when slave reconnects again, only transfer the portion of data which the slave missed. Minimum value is 16K.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "16384-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "repl-backlog-ttl",
            "ParameterValue": "3600",
            "Description": "The amount of time in seconds after the master no longer have any slaves connected for the master to free the replication backlog. A value of 0 means to never release the backlog.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "replica-allow-chaining",
            "ParameterValue": "no",
            "Description": "Configures if chaining of replicas is allowed",
            "Source": "system",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "replica-ignore-maxmemory",
            "ParameterValue": "yes",
            "Description": "Determines if replica ignores maxmemory setting by not evicting items independent from the master",
            "Source": "system",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "replica-lazy-flush",
            "ParameterValue": "no",
            "Description": "Perform an asynchronous flushDB during replica sync",
            "Source": "system",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "IsModifiable": false,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "reserved-memory-percent",
            "ParameterValue": "25",
            "Description": "The percent of memory reserved for non-cache memory usage. You may want to increase this parameter for nodes with read replicas, AOF enabled, etc, to reduce swap usage.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-100",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "set-max-intset-entries",
            "ParameterValue": "512",
            "Description": "The limit in the size of the set in order for the dataset to be compressed.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "slowlog-log-slower-than",
            "ParameterValue": "10000",
            "Description": "The execution time, in microseconds, to exceed in order for the command to get logged. Note that a negative number disables the slow log, while a value of zero forces the logging of every command.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "slowlog-max-len",
            "ParameterValue": "128",
            "Description": "The length of the slow log. There is no limit to this length. Just be aware that it will consume memory. You can reclaim memory used by the slow log with SLOWLOG RESET.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "stream-node-max-bytes",
            "ParameterValue": "4096",
            "Description": "The maximum size of a single node in a stream in bytes",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "stream-node-max-entries",
            "ParameterValue": "100",
            "Description": "The maximum number of items a single node in a stream can contain",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "tcp-keepalive",
            "ParameterValue": "300",
            "Description": "If non-zero, send ACKs every given number of seconds.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "timeout",
            "ParameterValue": "0",
            "Description": "Close connection if client is idle for a given number of seconds, or never if 0.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0,20-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "zset-max-ziplist-entries",
            "ParameterValue": "128",
            "Description": "The maximum number of sorted set entries in order for the dataset to be compressed.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        },
        {
            "ParameterName": "zset-max-ziplist-value",
            "ParameterValue": "64",
            "Description": "The threshold of biggest sorted set entries in order for the dataset to be compressed.",
            "Source": "user",
            "DataType": "integer",
            "AllowedValues": "0-",
            "IsModifiable": true,
            "MinimumEngineVersion": "5.0.0",
            "ChangeType": "immediate"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Manajemen Parameter](https://docs.aws.amazon.com/AmazonElastiCache/latest/mem-ug/ParameterGroups.Management.html) di *Panduan Pengguna Elasticache*.  
+  Untuk detail API, lihat [DescribeCacheParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-cache-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-cache-subnet-groups`
<a name="elasticache_DescribeCacheSubnetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cache-subnet-groups`.

**AWS CLI**  
**Untuk menggambarkan grup subnet cache**  
`describe-cache-subnet-groups`Contoh berikut mengembalikan daftar kelompok subnet.  

```
aws elasticache describe-cache-subnet-groups
```
Output:  

```
{
    "CacheSubnetGroups": [
        {
            "CacheSubnetGroupName": "default",
            "CacheSubnetGroupDescription": "Default CacheSubnetGroup",
            "VpcId": "vpc-a3e97cdb",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-8d4bacf5",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2b"
                    }
                },
                {
                    "SubnetIdentifier": "subnet-dde21380",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2c"
                    }
                },
                {
                    "SubnetIdentifier": "subnet-6485ec4f",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2d"
                    }
                },
                {
                    "SubnetIdentifier": "subnet-b4ebebff",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    }
                }
            ]
        },
        {
            "CacheSubnetGroupName": "kxkxk",
            "CacheSubnetGroupDescription": "mygroup",
            "VpcId": "vpc-a3e97cdb",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-b4ebebff",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    }
                }
            ]
        },
        {
            "CacheSubnetGroupName": "test",
            "CacheSubnetGroupDescription": "test",
            "VpcId": "vpc-a3e97cdb",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-b4ebebff",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    }
                }
            ]
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Subnet dan Grup Subnet](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/SubnetGroups.html) di *Panduan Pengguna Elasticache atau [Subnet dan Grup Subnet](https://docs.aws.amazon.com/AmazonElastiCache/latest/mem-ug/SubnetGroups.html) di Panduan Pengguna* untuk Memcached. ElastiCache *  
+  Untuk detail API, lihat [DescribeCacheSubnetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-cache-subnet-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-engine-default-parameters`
<a name="elasticache_DescribeEngineDefaultParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-engine-default-parameters`.

**AWS CLI**  
**Untuk menggambarkan parameter default mesin**  
`describe-engine-default-parameters`Contoh berikut mengembalikan mesin default dan informasi parameter sistem untuk mesin cache tertentu.  

```
aws elasticache describe-engine-default-parameters \
    --cache-parameter-group-family "redis5.0"
```
Output:  

```
{
    "EngineDefaults": {
        "Parameters": [
            {
                "ParameterName": "activedefrag",
                "ParameterValue": "no",
                "Description": "Enabled active memory defragmentation",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "active-defrag-cycle-max",
                "ParameterValue": "75",
                "Description": "Maximal effort for defrag in CPU percentage",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-75",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "active-defrag-cycle-min",
                "ParameterValue": "5",
                "Description": "Minimal effort for defrag in CPU percentage",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-75",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "active-defrag-ignore-bytes",
                "ParameterValue": "104857600",
                "Description": "Minimum amount of fragmentation waste to start active defrag",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1048576-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "active-defrag-max-scan-fields",
                "ParameterValue": "1000",
                "Description": "Maximum number of set/hash/zset/list fields that will be processed from the main dictionary scan",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-1000000",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "active-defrag-threshold-lower",
                "ParameterValue": "10",
                "Description": "Minimum percentage of fragmentation to start active defrag",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-100",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "active-defrag-threshold-upper",
                "ParameterValue": "100",
                "Description": "Maximum percentage of fragmentation at which we use maximum effort",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-100",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "activerehashing",
                "ParameterValue": "yes",
                "Description": "Apply rehashing or not.",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "requires-reboot"
            },
            {
                "ParameterName": "appendfsync",
                "ParameterValue": "everysec",
                "Description": "fsync policy for AOF persistence",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "always,everysec,no",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "appendonly",
                "ParameterValue": "no",
                "Description": "Enable Redis persistence.",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "client-output-buffer-limit-normal-hard-limit",
                "ParameterValue": "0",
                "Description": "Normal client output buffer hard limit in bytes.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "client-output-buffer-limit-normal-soft-limit",
                "ParameterValue": "0",
                "Description": "Normal client output buffer soft limit in bytes.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "client-output-buffer-limit-normal-soft-seconds",
                "ParameterValue": "0",
                "Description": "Normal client output buffer soft limit in seconds.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "client-output-buffer-limit-pubsub-hard-limit",
                "ParameterValue": "33554432",
                "Description": "Pubsub client output buffer hard limit in bytes.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "client-output-buffer-limit-pubsub-soft-limit",
                "ParameterValue": "8388608",
                "Description": "Pubsub client output buffer soft limit in bytes.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "client-output-buffer-limit-pubsub-soft-seconds",
                "ParameterValue": "60",
                "Description": "Pubsub client output buffer soft limit in seconds.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "client-output-buffer-limit-replica-soft-seconds",
                "ParameterValue": "60",
                "Description": "Replica client output buffer soft limit in seconds.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "client-query-buffer-limit",
                "ParameterValue": "1073741824",
                "Description": "Max size of a single client query buffer",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1048576-1073741824",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "close-on-replica-write",
                "ParameterValue": "yes",
                "Description": "If enabled, clients who attempt to write to a read-only replica will be disconnected. Applicable to 2.8.23 and higher.",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "cluster-enabled",
                "ParameterValue": "no",
                "Description": "Enable cluster mode",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "requires-reboot"
            },
            {
                "ParameterName": "cluster-require-full-coverage",
                "ParameterValue": "no",
                "Description": "Whether cluster becomes unavailable if one or more slots are not covered",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "databases",
                "ParameterValue": "16",
                "Description": "Set the number of databases.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-1200000",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "requires-reboot"
            },
            {
                "ParameterName": "hash-max-ziplist-entries",
                "ParameterValue": "512",
                "Description": "The maximum number of hash entries in order for the dataset to be compressed.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "hash-max-ziplist-value",
                "ParameterValue": "64",
                "Description": "The threshold of biggest hash entries in order for the dataset to be compressed.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "hll-sparse-max-bytes",
                "ParameterValue": "3000",
                "Description": "HyperLogLog sparse representation bytes limit",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-16000",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "lazyfree-lazy-eviction",
                "ParameterValue": "no",
                "Description": "Perform an asynchronous delete on evictions",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "lazyfree-lazy-expire",
                "ParameterValue": "no",
                "Description": "Perform an asynchronous delete on expired keys",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "lazyfree-lazy-server-del",
                "ParameterValue": "no",
                "Description": "Perform an asynchronous delete on key updates",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "lfu-decay-time",
                "ParameterValue": "1",
                "Description": "The amount of time in minutes to decrement the key counter for LFU eviction policy",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "lfu-log-factor",
                "ParameterValue": "10",
                "Description": "The log factor for incrementing key counter for LFU eviction policy",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "list-compress-depth",
                "ParameterValue": "0",
                "Description": "Number of quicklist ziplist nodes from each side of the list to exclude from compression. The head and tail of the list are always uncompressed for fast push/pop operations",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "list-max-ziplist-size",
                "ParameterValue": "-2",
                "Description": "The number of entries allowed per internal list node can be specified as a fixed maximum size or a maximum number of elements",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "-5,-4,-3,-2,-1,1-",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "lua-replicate-commands",
                "ParameterValue": "yes",
                "Description": "Always enable Lua effect replication or not",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "lua-time-limit",
                "ParameterValue": "5000",
                "Description": "Max execution time of a Lua script in milliseconds. 0 for unlimited execution without warnings.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "5000",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "maxclients",
                "ParameterValue": "65000",
                "Description": "The maximum number of Redis clients.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-65000",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "requires-reboot"
            },
            {
                "ParameterName": "maxmemory-policy",
                "ParameterValue": "volatile-lru",
                "Description": "Max memory policy.",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "volatile-lru,allkeys-lru,volatile-lfu,allkeys-lfu,volatile-random,allkeys-random,volatile-ttl,noeviction",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "maxmemory-samples",
                "ParameterValue": "3",
                "Description": "Max memory samples.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "min-replicas-max-lag",
                "ParameterValue": "10",
                "Description": "The maximum amount of replica lag in seconds beyond which the master would stop taking writes. A value of 0 means the master always takes writes.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "min-replicas-to-write",
                "ParameterValue": "0",
                "Description": "The minimum number of replicas that must be present with lag no greater than min-replicas-max-lag for master to take writes. Setting this to 0 means the master always takes writes.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "notify-keyspace-events",
                "Description": "The keyspace events for Redis to notify Pub/Sub clients about. By default all notifications are disabled",
                "Source": "system",
                "DataType": "string",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "proto-max-bulk-len",
                "ParameterValue": "536870912",
                "Description": "Max size of a single element request",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "1048576-536870912",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "rename-commands",
                "ParameterValue": "",
                "Description": "Redis commands that can be dynamically renamed by the customer",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "APPEND,BITCOUNT,BITFIELD,BITOP,BITPOS,BLPOP,BRPOP,BRPOPLPUSH,BZPOPMIN,BZPOPMAX,CLIENT,COMMAND,DBSIZE,DECR,DECRBY,DEL,DISCARD,DUMP,ECHO,EVAL,EVALSHA,EXEC,EXISTS,EXPIRE,EXPIREAT,FLUSHALL,FLUSHDB,GEOADD,GEOHASH,GEOPOS,GEODIST,GEORADIUS,GEORADIUSBYMEMBER,GET,GETBIT,GETRANGE,GETSET,HDEL,HEXISTS,HGET,HGETALL,HINCRBY,HINCRBYFLOAT,HKEYS,HLEN,HMGET,HMSET,HSET,HSETNX,HSTRLEN,HVALS,INCR,INCRBY,INCRBYFLOAT,INFO,KEYS,LASTSAVE,LINDEX,LINSERT,LLEN,LPOP,LPUSH,LPUSHX,LRANGE,LREM,LSET,LTRIM,MEMORY,MGET,MONITOR,MOVE,MSET,MSETNX,MULTI,OBJECT,PERSIST,PEXPIRE,PEXPIREAT,PFADD,PFCOUNT,PFMERGE,PING,PSETEX,PSUBSCRIBE,PUBSUB,PTTL,PUBLISH,PUNSUBSCRIBE,RANDOMKEY,READONLY,READWRITE,RENAME,RENAMENX,RESTORE,ROLE,RPOP,RPOPLPUSH,RPUSH,RPUSHX,SADD,SCARD,SCRIPT,SDIFF,SDIFFSTORE,SELECT,SET,SETBIT,SETEX,SETNX,SETRANGE,SINTER,SINTERSTORE,SISMEMBER,SLOWLOG,SMEMBERS,SMOVE,SORT,SPOP,SRANDMEMBER,SREM,STRLEN,SUBSCRIBE,SUNION,SUNIONSTORE,SWAPDB,TIME,TOUCH,TTL,TYPE,UNSUBSCRIBE,UNLINK,UNWATCH,WAIT,WATCH,ZADD,ZCARD,ZCOUNT,ZINCRBY,ZINTERSTORE,ZLEXCOUNT,ZPOPMAX,ZPOPMIN,ZRANGE,ZRANGEBYLEX,ZREVRANGEBYLEX,ZRANGEBYSCORE,ZRANK,ZREM,ZREMRANGEBYLEX,ZREMRANGEBYRANK,ZREMRANGEBYSCORE,ZREVRANGE,ZREVRANGEBYSCORE,ZREVRANK,ZSCORE,ZUNIONSTORE,SCAN,SSCAN,HSCAN,ZSCAN,XINFO,XADD,XTRIM,XDEL,XRANGE,XREVRANGE,XLEN,XREAD,XGROUP,XREADGROUP,XACK,XCLAIM,XPENDING,GEORADIUS_RO,GEORADIUSBYMEMBER_RO,LOLWUT,XSETID,SUBSTR",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.3",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "repl-backlog-size",
                "ParameterValue": "1048576",
                "Description": "The replication backlog size in bytes for PSYNC. This is the size of the buffer which accumulates slave data when slave is disconnected for some time, so that when slave reconnects again, only transfer the portion of data which the slave missed. Minimum value is 16K.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "16384-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "repl-backlog-ttl",
                "ParameterValue": "3600",
                "Description": "The amount of time in seconds after the master no longer have any slaves connected for the master to free the replication backlog. A value of 0 means to never release the backlog.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "replica-allow-chaining",
                "ParameterValue": "no",
                "Description": "Configures if chaining of replicas is allowed",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "replica-ignore-maxmemory",
                "ParameterValue": "yes",
                "Description": "Determines if replica ignores maxmemory setting by not evicting items independent from the master",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "replica-lazy-flush",
                "ParameterValue": "no",
                "Description": "Perform an asynchronous flushDB during replica sync",
                "Source": "system",
                "DataType": "string",
                "AllowedValues": "yes,no",
                "IsModifiable": false,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "reserved-memory-percent",
                "ParameterValue": "25",
                "Description": "The percent of memory reserved for non-cache memory usage. You may want to increase this parameter for nodes with read replicas, AOF enabled, etc, to reduce swap usage.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-100",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "set-max-intset-entries",
                "ParameterValue": "512",
                "Description": "The limit in the size of the set in order for the dataset to be compressed.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "slowlog-log-slower-than",
                "ParameterValue": "10000",
                "Description": "The execution time, in microseconds, to exceed in order for the command to get logged. Note that a negative number disables the slow log, while a value of zero forces the logging of every command.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "slowlog-max-len",
                "ParameterValue": "128",
                "Description": "The length of the slow log. There is no limit to this length. Just be aware that it will consume memory. You can reclaim memory used by the slow log with SLOWLOG RESET.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "stream-node-max-bytes",
                "ParameterValue": "4096",
                "Description": "The maximum size of a single node in a stream in bytes",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "stream-node-max-entries",
                "ParameterValue": "100",
                "Description": "The maximum number of items a single node in a stream can contain",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "tcp-keepalive",
                "ParameterValue": "300",
                "Description": "If non-zero, send ACKs every given number of seconds.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "timeout",
                "ParameterValue": "0",
                "Description": "Close connection if client is idle for a given number of seconds, or never if 0.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0,20-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "zset-max-ziplist-entries",
                "ParameterValue": "128",
                "Description": "The maximum number of sorted set entries in order for the dataset to be compressed.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            },
            {
                "ParameterName": "zset-max-ziplist-value",
                "ParameterValue": "64",
                "Description": "The threshold of biggest sorted set entries in order for the dataset to be compressed.",
                "Source": "system",
                "DataType": "integer",
                "AllowedValues": "0-",
                "IsModifiable": true,
                "MinimumEngineVersion": "5.0.0",
                "ChangeType": "immediate"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [DescribeEngineDefaultParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-engine-default-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="elasticache_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
**Untuk menggambarkan peristiwa kelompok replikasi**  
`describe-events`Contoh berikut mengembalikan daftar peristiwa untuk grup replikasi.  

```
aws elasticache describe-events \
    --source-identifier test-cluster \
    --source-type replication-group
```
Output:  

```
{
    "Events": [
        {
            "SourceIdentifier": "test-cluster",
            "SourceType": "replication-group",
            "Message": "Automatic failover has been turned on for replication group test-cluster",
            "Date": "2020-03-18T23:51:34.457Z"
        },
        {
            "SourceIdentifier": "test-cluster",
            "SourceType": "replication-group",
            "Message": "Replication group test-cluster created",
            "Date": "2020-03-18T23:50:31.378Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memantau Peristiwa](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/ECEvents.html) di *Panduan Pengguna Elasticache*.  
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-global-replication-groups`
<a name="elasticache_DescribeGlobalReplicationGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-global-replication-groups`.

**AWS CLI**  
**Untuk menggambarkan kelompok replikasi global**  
`describe-global-replication-groups`Contoh berikut mengembalikan rincian datastore Global.  

```
aws elasticache describe-global-replication-groups \
    --global-replication-group-id my-grg
```
Output:  

```
{
    "GlobalReplicationGroups": [
        {
            "GlobalReplicationGroupId": "my-grg",
            "GlobalReplicationGroupDescription": "my-grg",
            "Status": "creating",
            "CacheNodeType": "cache.r5.large",
            "Engine": "redis",
            "EngineVersion": "5.0.6",
            "ClusterEnabled": false,
            "AuthTokenEnabled": false,
            "TransitEncryptionEnabled": false,
            "AtRestEncryptionEnabled": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Replikasi Lintas AWS Wilayah Menggunakan Global Datastore](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Redis-Global-Datastore.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DescribeGlobalReplicationGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-global-replication-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-replication-groups`
<a name="elasticache_DescribeReplicationGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-replication-groups`.

**AWS CLI**  
**Untuk mengembalikan daftar rincian grup replikasi**  
`describe-replication-groups`Contoh berikut mengembalikan kelompok replikasi.  

```
aws elasticache describe-replication-groups
```
Output:  

```
{
    "ReplicationGroups": [
        {
            "ReplicationGroupId": "my-cluster",
            "Description": "mycluster",
            "Status": "available",
            "PendingModifiedValues": {},
            "MemberClusters": [
                "pat-cluster-001",
                "pat-cluster-002",
                "pat-cluster-003",
                "pat-cluster-004"
            ],
            "NodeGroups": [
                {
                    "NodeGroupId": "0001",
                    "Status": "available",
                    "PrimaryEndpoint": {
                        "Address": "my-cluster.xxxxih.ng.0001.usw2.cache.amazonaws.com",
                        "Port": 6379
                    },
                    "ReaderEndpoint": {
                        "Address": "my-cluster-ro.xxxxih.ng.0001.usw2.cache.amazonaws.com",
                        "Port": 6379
                    },
                    "NodeGroupMembers": [
                        {
                            "CacheClusterId": "my-cluster-001",
                            "CacheNodeId": "0001",
                            "ReadEndpoint": {
                                "Address": "pat-cluster-001.xxxih.0001.usw2.cache.amazonaws.com",
                                "Port": 6379
                            },
                            "PreferredAvailabilityZone": "us-west-2a",
                            "CurrentRole": "primary"
                        },
                        {
                            "CacheClusterId": "my-cluster-002",
                            "CacheNodeId": "0001",
                            "ReadEndpoint": {
                                "Address": "pat-cluster-002.xxxxih.0001.usw2.cache.amazonaws.com",
                                "Port": 6379
                            },
                            "PreferredAvailabilityZone": "us-west-2a",
                            "CurrentRole": "replica"
                        },
                        {
                            "CacheClusterId": "my-cluster-003",
                            "CacheNodeId": "0001",
                            "ReadEndpoint": {
                                "Address": "pat-cluster-003.xxxxih.0001.usw2.cache.amazonaws.com",
                                "Port": 6379
                            },
                            "PreferredAvailabilityZone": "us-west-2a",
                            "CurrentRole": "replica"
                        },
                        {
                            "CacheClusterId": "my-cluster-004",
                            "CacheNodeId": "0001",
                            "ReadEndpoint": {
                                "Address": "pat-cluster-004.xxxih.0001.usw2.cache.amazonaws.com",
                                "Port": 6379
                            },
                            "PreferredAvailabilityZone": "us-west-2a",
                            "CurrentRole": "replica"
                        }
                    ]
                }
            ],
            "AutomaticFailover": "disabled",
            "SnapshotRetentionLimit": 0,
            "SnapshotWindow": "07:30-08:30",
            "ClusterEnabled": false,
            "CacheNodeType": "cache.r5.xlarge",
            "AuthTokenEnabled": false,
            "TransitEncryptionEnabled": false,
            "AtRestEncryptionEnabled": false,
            "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxxx152:replicationgroup:my-cluster",
            "LogDeliveryConfigurations": [
                {
                    "LogType": "slow-log",
                    "DestinationType": "cloudwatch-logs",
                    "DestinationDetails": {
                        "CloudWatchLogsDetails": {
                            "LogGroup": "test-log"
                        }
                    },
                    "LogFormat": "json",
                    "Status": "active"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Cluster](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DescribeReplicationGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-replication-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-cache-nodes-offerings`
<a name="elasticache_DescribeReservedCacheNodesOfferings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-cache-nodes-offerings`.

**AWS CLI**  
**Untuk menggambarkan reserved-cache-nodes-offerings**  
`describe-reserved-cache-nodes-offerings`Contoh berikut mengembalikan rincian reserved-cache-node pilihan.  

```
aws elasticache describe-reserved-cache-nodes-offerings
```
Output:  

```
{
    "ReservedCacheNodesOfferings": [
        {
            "ReservedCacheNodesOfferingId": "01ce0a19-a476-41cb-8aee-48eacbcdc8e5",
            "CacheNodeType": "cache.t3.small",
            "Duration": 31536000,
            "FixedPrice": 97.0,
            "UsagePrice": 0.0,
            "ProductDescription": "memcached",
            "OfferingType": "Partial Upfront",
            "RecurringCharges": [
                {
                    "RecurringChargeAmount": 0.011,
                    "RecurringChargeFrequency": "Hourly"
                }
            ]
        },
        {
            "ReservedCacheNodesOfferingId": "0443a27b-4da5-4b90-b92d-929fbd7abed2",
            "CacheNodeType": "cache.m3.2xlarge",
            "Duration": 31536000,
            "FixedPrice": 1772.0,
            "UsagePrice": 0.0,
            "ProductDescription": "redis",
            "OfferingType": "Heavy Utilization",
            "RecurringCharges": [
                {
                    "RecurringChargeAmount": 0.25,
                    "RecurringChargeFrequency": "Hourly"
                }
            ]
        },

        ...

    ]
}
```
*Untuk informasi selengkapnya, lihat [Mendapatkan Info Tentang Penawaran Node Cadangan](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/reserved-nodes-offerings.html) di Panduan Pengguna *Elasticache Redis atau Mendapatkan Info Tentang Penawaran Node Cadangan di Panduan Pengguna* [Memcached Elasticache.](https://docs.aws.amazon.com/AmazonElastiCache/latest/mem-ug/reserved-nodes-offerings.html)*  
+  Untuk detail API, lihat [DescribeReservedCacheNodesOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-reserved-cache-nodes-offerings.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-cache-nodes`
<a name="elasticache_DescribeReservedCacheNodes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-cache-nodes`.

**AWS CLI**  
**Untuk menggambarkan node cache yang dicadangkan**  
`describe-reserved-cache-nodes`Contoh berikut mengembalikan informasi tentang node cache reserved untuk akun ini, atau tentang node cache reserved yang ditentukan.  
aws elastisakit describe-reserved-cache-nodes  
Output:  

```
{
    "ReservedCacheNodes": [
        {
            "ReservedCacheNodeId": "mynode",
            "ReservedCacheNodesOfferingId": "xxxxxxxxx-xxxxx-xxxxx-xxxx-xxxxxxxx71",
            "CacheNodeType": "cache.t3.small",
            "StartTime": "2019-12-06T02:50:44.003Z",
            "Duration": 31536000,
            "FixedPrice": 0.0,
            "UsagePrice": 0.0,
            "CacheNodeCount": 1,
            "ProductDescription": "redis",
            "OfferingType": "No Upfront",
            "State": "payment-pending",
            "RecurringCharges": [
                {
                    "RecurringChargeAmount": 0.023,
                    "RecurringChargeFrequency": "Hourly"
                }
            ],
            "ReservationARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxxxx52:reserved-instance:mynode"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Biaya dengan Node Cadangan](https://docs.aws.amazon.com/AmazonElastiCache/latest/mem-ug/reserved-nodes.html) di *Panduan Pengguna Elasticache*.  
+  Untuk detail API, lihat [DescribeReservedCacheNodes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-reserved-cache-nodes.html)di *Referensi AWS CLI Perintah*. 

### `describe-service-updates`
<a name="elasticache_DescribeServiceUpdates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-service-updates`.

**AWS CLI**  
**Untuk menggambarkan pembaruan layanan**  
`describe-service-updates`Contoh berikut mengembalikan rincian tentang update layanan.  

```
aws elasticache describe-service-updates
```
Output:  

```
{
     "ServiceUpdates": [
         {
             "ServiceUpdateName": "elc-xxxxxxxx7-001",
             "ServiceUpdateReleaseDate": "2019-10-09T16:00:00Z",
             "ServiceUpdateEndDate": "2020-02-09T15:59:59Z",
             "ServiceUpdateSeverity": "important",
             "ServiceUpdateRecommendedApplyByDate": "2019-11-08T15:59:59Z",
             "ServiceUpdateStatus": "available",
             "ServiceUpdateDescription": "Upgrades to improve the security, reliability, and operational performance of your ElastiCache nodes",
             "ServiceUpdateType": "security-update",
             "Engine": "redis, memcached",
             "EngineVersion": "redis 2.6.13 and onwards, memcached 1.4.5 and onwards",
             "AutoUpdateAfterRecommendedApplyByDate": false,
             "EstimatedUpdateTime": "30 minutes per node"
         },
         {
             "ServiceUpdateName": "elc-xxxxxxxx4-001",
             "ServiceUpdateReleaseDate": "2019-06-11T15:00:00Z",
             "ServiceUpdateEndDate": "2019-10-01T09:24:00Z",
             "ServiceUpdateSeverity": "important",
             "ServiceUpdateRecommendedApplyByDate": "2019-07-11T14:59:59Z",
             "ServiceUpdateStatus": "expired",
             "ServiceUpdateDescription": "Upgrades to improve the security, reliability, and operational performance of your ElastiCache nodes",
             "ServiceUpdateType": "security-update",
             "Engine": "redis",
             "EngineVersion": "redis 3.2.6, redis 4.0 and onwards",
             "AutoUpdateAfterRecommendedApplyByDate": false,
             "EstimatedUpdateTime": "30 minutes per node"
         }
     ]
 }
```
+  Untuk detail API, lihat [DescribeServiceUpdates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-service-updates.html)di *Referensi AWS CLI Perintah*. 

### `describe-snapshots`
<a name="elasticache_DescribeSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-snapshots`.

**AWS CLI**  
**Untuk menggambarkan snapshot**  
Contoh “deskripsi-snapshot” berikut menampilkan informasi tentang snapshot cluster atau grup replikasi Anda.  

```
aws elasticache describe-snapshots
```
Output:  

```
{
    "Snapshots": [
        {
            "SnapshotName": "automatic.my-cluster2-002-2019-12-05-06-38",
            "CacheClusterId": "my-cluster2-002",
            "SnapshotStatus": "available",
            "SnapshotSource": "automated",
            "CacheNodeType": "cache.r5.large",
            "Engine": "redis",
            "EngineVersion": "5.0.5",
            "NumCacheNodes": 1,
            "PreferredAvailabilityZone": "us-west-2a",
            "CacheClusterCreateTime": "2019-11-26T01:22:52.396Z",
            "PreferredMaintenanceWindow": "mon:17:30-mon:18:30",
            "TopicArn": "arn:aws:sns:us-west-2:xxxxxxxxx52:My_Topic",
            "Port": 6379,
            "CacheParameterGroupName": "default.redis5.0",
            "CacheSubnetGroupName": "kxkxk",
            "VpcId": "vpc-a3e97cdb",
            "AutoMinorVersionUpgrade": true,
            "SnapshotRetentionLimit": 1,
            "SnapshotWindow": "06:30-07:30",
            "NodeSnapshots": [
                {
                    "CacheNodeId": "0001",
                    "CacheSize": "5 MB",
                    "CacheNodeCreateTime": "2019-11-26T01:22:52.396Z",
                    "SnapshotCreateTime": "2019-12-05T06:38:23Z"
                }
            ]
        },
        {
            "SnapshotName": "myreplica-backup",
            "CacheClusterId": "myreplica",
            "SnapshotStatus": "available",
            "SnapshotSource": "manual",
            "CacheNodeType": "cache.r5.large",
            "Engine": "redis",
            "EngineVersion": "5.0.5",
            "NumCacheNodes": 1,
            "PreferredAvailabilityZone": "us-west-2a",
            "CacheClusterCreateTime": "2019-11-26T00:14:52.439Z",
            "PreferredMaintenanceWindow": "sat:10:00-sat:11:00",
            "TopicArn": "arn:aws:sns:us-west-2:xxxxxxxxxx152:My_Topic",
            "Port": 6379,
            "CacheParameterGroupName": "default.redis5.0",
            "CacheSubnetGroupName": "kxkxk",
            "VpcId": "vpc-a3e97cdb",
            "AutoMinorVersionUpgrade": true,
            "SnapshotRetentionLimit": 0,
            "SnapshotWindow": "09:00-10:00",
            "NodeSnapshots": [
                {
                    "CacheNodeId": "0001",
                    "CacheSize": "5 MB",
                    "CacheNodeCreateTime": "2019-11-26T00:14:52.439Z",
                    "SnapshotCreateTime": "2019-11-26T00:25:01Z"
                }
            ]
        },
        {
            "SnapshotName": "my-cluster",
            "CacheClusterId": "my-cluster-003",
            "SnapshotStatus": "available",
            "SnapshotSource": "manual",
            "CacheNodeType": "cache.r5.large",
            "Engine": "redis",
            "EngineVersion": "5.0.5",
            "NumCacheNodes": 1,
            "PreferredAvailabilityZone": "us-west-2a",
            "CacheClusterCreateTime": "2019-11-25T23:56:17.186Z",
            "PreferredMaintenanceWindow": "sat:10:00-sat:11:00",
            "TopicArn": "arn:aws:sns:us-west-2:xxxxxxxxxx152:My_Topic",
            "Port": 6379,
            "CacheParameterGroupName": "default.redis5.0",
            "CacheSubnetGroupName": "kxkxk",
            "VpcId": "vpc-a3e97cdb",
            "AutoMinorVersionUpgrade": true,
            "SnapshotRetentionLimit": 0,
            "SnapshotWindow": "09:00-10:00",
            "NodeSnapshots": [
                {
                    "CacheNodeId": "0001",
                    "CacheSize": "5 MB",
                    "CacheNodeCreateTime": "2019-11-25T23:56:17.186Z",
                    "SnapshotCreateTime": "2019-11-26T03:08:33Z"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Backup dan Restore for ElastiCache for Redis](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/backups.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DescribeSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `describe-update-actions`
<a name="elasticache_DescribeUpdateActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-update-actions`.

**AWS CLI**  
**Untuk menjelaskan tindakan pembaruan**  
`describe-update-actions`Contoh berikut mengembalikan rincian tindakan update.  

```
aws elasticache describe-update-actions
```
Output:  

```
{
    "UpdateActions": [
        {
            "ReplicationGroupId": "mycluster",
            "ServiceUpdateName": "elc-20191007-001",
            "ServiceUpdateReleaseDate": "2019-10-09T16:00:00Z",
            "ServiceUpdateSeverity": "important",
            "ServiceUpdateStatus": "available",
            "ServiceUpdateRecommendedApplyByDate": "2019-11-08T15:59:59Z",
            "ServiceUpdateType": "security-update",
            "UpdateActionAvailableDate": "2019-12-05T19:15:19.995Z",
            "UpdateActionStatus": "complete",
            "NodesUpdated": "9/9",
            "UpdateActionStatusModifiedDate": "2019-12-05T19:15:20.461Z",
            "SlaMet": "n/a",
            "Engine": "redis"
        },
        {
            "CacheClusterId": "my-memcached-cluster",
            "ServiceUpdateName": "elc-20191007-001",
            "ServiceUpdateReleaseDate": "2019-10-09T16:00:00Z",
            "ServiceUpdateSeverity": "important",
            "ServiceUpdateStatus": "available",
            "ServiceUpdateRecommendedApplyByDate": "2019-11-08T15:59:59Z",
            "ServiceUpdateType": "security-update",
            "UpdateActionAvailableDate": "2019-12-04T18:26:05.349Z",
            "UpdateActionStatus": "complete",
            "NodesUpdated": "1/1",
            "UpdateActionStatusModifiedDate": "2019-12-04T18:26:05.352Z",
            "SlaMet": "n/a",
            "Engine": "redis"
        },
        {
            "ReplicationGroupId": "my-cluster",
            "ServiceUpdateName": "elc-20191007-001",
            "ServiceUpdateReleaseDate": "2019-10-09T16:00:00Z",
            "ServiceUpdateSeverity": "important",
            "ServiceUpdateStatus": "available",
            "ServiceUpdateRecommendedApplyByDate": "2019-11-08T15:59:59Z",
            "ServiceUpdateType": "security-update",
            "UpdateActionAvailableDate": "2019-11-26T03:36:26.320Z",
            "UpdateActionStatus": "complete",
            "NodesUpdated": "4/4",
            "UpdateActionStatusModifiedDate": "2019-12-04T22:11:12.664Z",
            "SlaMet": "n/a",
            "Engine": "redis"
        },
        {
            "ReplicationGroupId": "my-cluster2",
            "ServiceUpdateName": "elc-20191007-001",
            "ServiceUpdateReleaseDate": "2019-10-09T16:00:00Z",
            "ServiceUpdateSeverity": "important",
            "ServiceUpdateStatus": "available",
            "ServiceUpdateRecommendedApplyByDate": "2019-11-08T15:59:59Z",
            "ServiceUpdateType": "security-update",
            "UpdateActionAvailableDate": "2019-11-26T01:26:01.617Z",
            "UpdateActionStatus": "complete",
            "NodesUpdated": "3/3",
            "UpdateActionStatusModifiedDate": "2019-11-26T01:26:01.753Z",
            "SlaMet": "n/a",
            "Engine": "redis"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pembaruan Layanan Mandiri di Amazon ElastiCache di](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Self-Service-Updates.html) Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DescribeUpdateActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-update-actions.html)di *Referensi AWS CLI Perintah*. 

### `describe-user-groups`
<a name="elasticache_DescribeUserGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user-groups`.

**AWS CLI**  
**Untuk menggambarkan grup pengguna**  
`describe-user-groups`Contoh berikut mengembalikan daftar kelompok pengguna.  

```
aws elasticache describe-user-groups
```
Output:  

```
{
    "UserGroups": [
        {
            "UserGroupId": "myusergroup",
            "Status": "active",
            "Engine": "redis",
            "UserIds": [
                "default"
            ],
            "ReplicationGroups": [],
            "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:usergroup:myusergroup"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi Pengguna dengan Kontrol Akses Berbasis Peran (RBAC)](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.RBAC.html) di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [DescribeUserGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-user-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-users`
<a name="elasticache_DescribeUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-users`.

**AWS CLI**  
**Untuk mendeskripsikan pengguna**  
`describe-users`Contoh berikut mengembalikan daftar pengguna.  

```
aws elasticache describe-users
```
Output:  

```
{
    "Users": [
        {
            "UserId": "default",
            "UserName": "default",
            "Status": "active",
            "Engine": "redis",
            "AccessString": "on ~* +@all",
            "UserGroupIds": [
                "myusergroup"
            ],
            "Authentication": {
                "Type": "no-password"
            },
            "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:user:default"
        },
        {
            "UserId": "user1",
            "UserName": "myUser",
            "Status": "active",
            "Engine": "redis",
            "AccessString": "on ~* +@all",
            "UserGroupIds": [],
            "Authentication": {
                "Type": "password",
                "PasswordCount": 1
            },
            "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:user:user1"
        },
        {
            "UserId": "user2",
            "UserName": "myUser",
            "Status": "active",
            "Engine": "redis",
            "AccessString": "on ~app::* -@all +@read +@hash +@bitmap +@geo -setbit -bitfield -hset -hsetnx -hmset -hincrby -hincrbyfloat -hdel -bitop -geoadd -georadius -georadiusbymember",
            "UserGroupIds": [],
            "Authentication": {
                "Type": "password",
                "PasswordCount": 1
            },
            "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:user:user2"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi Pengguna dengan Kontrol Akses Berbasis Peran (RBAC)](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.RBAC.html) di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [DescribeUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/describe-users.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-global-replication-group`
<a name="elasticache_DisassociateGlobalReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-global-replication-group`.

**AWS CLI**  
**Untuk memisahkan cluster sekunder dari grup replikasi global**  
`disassociate-global-replication-group`Contoh berikut menghapus cluster sekunder dari datastore Global  

```
aws elasticache disassociate-global-replication-group \
    --global-replication-group-id my-grg \
    --replication-group-id my-cluster-grg-secondary \
    --replication-group-region us-east-1
```
Output:  

```
{
    "GlobalReplicationGroup": {
        "GlobalReplicationGroupId": "my-grg",
        "GlobalReplicationGroupDescription": "my-grg",
        "Status": "modifying",
        "CacheNodeType": "cache.r5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.6",
        "Members": [
            {
                "ReplicationGroupId": "my-cluster-grg-secondary",
                "ReplicationGroupRegion": "us-east-1",
                "Role": "SECONDARY",
                "AutomaticFailover": "enabled",
                "Status": "associated"
            },
            {
                "ReplicationGroupId": "my-cluster-grg",
                "ReplicationGroupRegion": "us-west-2",
                "Role": "PRIMARY",
                "AutomaticFailover": "enabled",
                "Status": "associated"
            }
        ],
        "ClusterEnabled": false,
        "AuthTokenEnabled": false,
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Replikasi Lintas AWS Wilayah Menggunakan Global Datastore](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Redis-Global-Datastore.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [DisassociateGlobalReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/disassociate-global-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `increase-node-groups-in-global-replication-group`
<a name="elasticache_IncreaseNodeGroupsInGlobalReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`increase-node-groups-in-global-replication-group`.

**AWS CLI**  
**Untuk meningkatkan jumlah grup node dalam grup replikasi global**  
Berikut ini `increase-node-groups-in-global-replication-group` meningkatkan jumlah kelompok node menggunakan mesin Redis.  

```
aws elasticache increase-node-groups-in-global-replication-group \
    --global-replication-group-id sgaui-pat-test-4 \
    --node-group-count 6 \
    --apply-immediately
```
Output:  

```
{
    "GlobalReplicationGroup": {
        "GlobalReplicationGroupId": "sgaui-test-4",
        "GlobalReplicationGroupDescription": "test-4",
        "Status": "modifying",
        "CacheNodeType": "cache.r5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.6",
        "Members": [
            {
                "ReplicationGroupId": "my-cluster-b",
                "ReplicationGroupRegion": "us-east-1",
                "Role": "SECONDARY",
                "AutomaticFailover": "enabled",
                "Status": "associated"
            },
            {
                "ReplicationGroupId": "my-cluster-a",
                "ReplicationGroupRegion": "us-west-2",
                "Role": "PRIMARY",
                "AutomaticFailover": "enabled",
                "Status": "associated"
            }
        ],
        "ClusterEnabled": true,
        "GlobalNodeGroups": [
            {
                "GlobalNodeGroupId": "sgaui-test-4-0001",
                "Slots": "0-234,2420-5461"
            },
            {
                "GlobalNodeGroupId": "sgaui-test-4-0002",
                "Slots": "5462-5904,6997-9830"
            },
            {
                "GlobalNodeGroupId": "sgaui-test-4-0003",
                "Slots": "10923-11190,13375-16383"
            },
            {
                "GlobalNodeGroupId": "sgaui-test-4-0004",
                "Slots": "235-2419,5905-6996"
            },
            {
                "GlobalNodeGroupId": "sgaui-test-4-0005",
                "Slots": "9831-10922,11191-13374"
            }
        ],
        "AuthTokenEnabled": false,
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Replikasi Lintas AWS Wilayah Menggunakan Global Datastore](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Redis-Global-Datastore.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [IncreaseNodeGroupsInGlobalReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/increase-node-groups-in-global-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `increase-replica-count`
<a name="elasticache_IncreaseReplicaCount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`increase-replica-count`.

**AWS CLI**  
**Untuk meningkatkan jumlah replika**  
`increase-replica-count`Contoh berikut melakukan salah satu dari dua hal. Ini dapat secara dinamis meningkatkan jumlah replika dalam grup replikasi Redis (mode cluster dinonaktifkan). Atau dapat secara dinamis meningkatkan jumlah node replika dalam satu atau lebih grup node (pecahan) dari grup replikasi Redis (mode cluster diaktifkan). Operasi ini dilakukan tanpa downtime cluster.  

```
aws elasticache increase-replica-count \
    --replication-group-id "my-cluster" \
    --apply-immediately \
    --new-replica-count 3
```
Output:  

```
{
     "ReplicationGroup": {
         "ReplicationGroupId": "my-cluster",
         "Description": " ",
         "Status": "modifying",
         "PendingModifiedValues": {},
         "MemberClusters": [
             "my-cluster-001",
             "my-cluster-002",
             "my-cluster-003",
             "my-cluster-004"
         ],
         "NodeGroups": [
             {
                 "NodeGroupId": "0001",
                 "Status": "modifying",
                 "PrimaryEndpoint": {
                     "Address": "my-cluster.xxxxxih.ng.0001.usw2.cache.amazonaws.com",
                     "Port": 6379
                 },
                 "ReaderEndpoint": {
                     "Address": "my-cluster-ro.xxxxxxih.ng.0001.usw2.cache.amazonaws.com",
                     "Port": 6379
                 },
                 "NodeGroupMembers": [
                     {
                         "CacheClusterId": "my-cluster-001",
                         "CacheNodeId": "0001",
                         "ReadEndpoint": {
                             "Address": "my-cluster-001.xxxxxih.0001.usw2.cache.amazonaws.com",
                             "Port": 6379
                         },
                         "PreferredAvailabilityZone": "us-west-2a",
                         "CurrentRole": "primary"
                     },
                     {
                         "CacheClusterId": "my-cluster-003",
                         "CacheNodeId": "0001",
                         "ReadEndpoint": {
                             "Address": "my-cluster-003.xxxxxih.0001.usw2.cache.amazonaws.com",
                             "Port": 6379
                         },
                         "PreferredAvailabilityZone": "us-west-2a",
                         "CurrentRole": "replica"
                     }
                 ]
             }
         ],
         "AutomaticFailover": "disabled",
         "SnapshotRetentionLimit": 0,
         "SnapshotWindow": "07:30-08:30",
         "ClusterEnabled": false,
         "CacheNodeType": "cache.r5.xlarge",
         "TransitEncryptionEnabled": false,
         "AtRestEncryptionEnabled": false
     }
 }
```
Untuk informasi selengkapnya, lihat [Meningkatkan Jumlah Replika dalam Shard](https://docs.aws.amazon.c`m/AmazonElastiCache/latest/red-ug/increase-replica-count.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [IncreaseReplicaCount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/increase-replica-count.html)di *Referensi AWS CLI Perintah*. 

### `list-allowed-node-type-modifications`
<a name="elasticache_ListAllowedNodeTypeModifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-allowed-node-type-modifications`.

**AWS CLI**  
**Untuk membuat daftar modifikasi node yang diizinkan**  
`list-allowed-node-type-modifications`Contoh berikut mencantumkan semua tipe node yang tersedia yang dapat Anda gunakan untuk menskalakan tipe node kluster Redis atau grup replikasi Anda saat ini.  

```
aws elasticache list-allowed-node-type-modifications \
    --replication-group-id "my-replication-group"
```
Output:  

```
{
    "ScaleUpModifications": [
        "cache.m5.12xlarge",
        "cache.m5.24xlarge",
        "cache.m5.4xlarge",
        "cache.r5.12xlarge",
        "cache.r5.24xlarge",
        "cache.r5.2xlarge",
        "cache.r5.4xlarge"
    ],
    "ScaleDownModifications": [
        "cache.m3.large",
        "cache.m3.medium",
        "cache.m3.xlarge",
        "cache.m4.large",
        "cache.m4.xlarge",
        "cache.m5.2xlarge",
        "cache.m5.large",
        "cache.m5.xlarge",
        "cache.r3.large",
        "cache.r4.large",
        "cache.r4.xlarge",
        "cache.r5.large",
        "cache.t2.medium",
        "cache.t2.micro",
        "cache.t2.small",
        "cache.t3.medium",
        "cache.t3.micro",
        "cache.t3.small"
    ]
}
```
Untuk informasi selengkapnya, lihat [Penskalaan ElastiCache untuk Redis Cluster](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Scaling.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [ListAllowedNodeTypeModifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/list-allowed-node-type-modifications.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="elasticache_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk sumber daya.  

```
aws elasticache list-tags-for-resource \
    --resource-name "arn:aws:elasticache:us-east-1:123456789012:cluster:my-cluster"
```
Output:  

```
{
    "TagList": [
        {
            "Key": "Project",
            "Value": "querySpeedUp"
        },
        {
            "Key": "Environment",
            "Value": "PROD"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Tag Menggunakan AWS CLI](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Tagging.Managing.CLI.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `modify-cache-cluster`
<a name="elasticache_ModifyCacheCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cache-cluster`.

**AWS CLI**  
**Untuk memodifikasi cluster cache**  
`modify-cache-cluster`Contoh berikut memodifikasi pengaturan untuk cluster tertentu.  

```
aws elasticache modify-cache-cluster \
    --cache-cluster-id "my-cluster" \
    --num-cache-nodes 1
```
Output:  

```
{
    "CacheCluster": {
        "CacheClusterId": "my-cluster",
        "ClientDownloadLandingPage": "https://console.aws.amazon.com/elasticache/home#client-download:",
        "CacheNodeType": "cache.m5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.5",
        "CacheClusterStatus": "available",
        "NumCacheNodes": 1,
        "PreferredAvailabilityZone": "us-west-2c",
        "CacheClusterCreateTime": "2019-12-04T18:24:56.652Z",
        "PreferredMaintenanceWindow": "sat:10:00-sat:11:00",
        "PendingModifiedValues": {},
        "CacheSecurityGroups": [],
        "CacheParameterGroup": {
            "CacheParameterGroupName": "default.redis5.0",
            "ParameterApplyStatus": "in-sync",
            "CacheNodeIdsToReboot": []
        },
        "CacheSubnetGroupName": "default",
        "AutoMinorVersionUpgrade": true,
        "SnapshotRetentionLimit": 0,
        "SnapshotWindow": "07:00-08:00",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi ElastiCache Cluster](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.Modify.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [ModifyCacheCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/modify-cache-cluster.html)di *Referensi AWS CLI Perintah*. 

### `modify-cache-parameter-group`
<a name="elasticache_ModifyCacheParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cache-parameter-group`.

**AWS CLI**  
**Untuk memodifikasi grup parameter cache**  
`modify-cache-parameter-group`Contoh berikut memodifikasi parameter kelompok parameter cache yang ditentukan.  

```
aws elasticache modify-cache-parameter-group \
    --cache-parameter-group-name "mygroup" \
    --parameter-name-values "ParameterName=activedefrag, ParameterValue=no"
```
Output:  

```
{
    "CacheParameterGroupName": "mygroup"
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Grup Parameter](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/ParameterGroups.Modifying.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [ModifyCacheParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/modify-cache-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-cache-subnet-group`
<a name="elasticache_ModifyCacheSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cache-subnet-group`.

**AWS CLI**  
**Untuk memodifikasi grup subnet cache**  
`modify-cache-subnet-group`Contoh berikut memodifikasi kelompok subnet cache yang ditentukan.  

```
aws elasticache modify-cache-subnet-group \
    --cache-subnet-group-name kxkxk \
    --cache-subnet-group-description "mygroup"
```
Output:  

```
{
    "CacheSubnetGroup": {
        "CacheSubnetGroupName": "kxkxk",
        "CacheSubnetGroupDescription": "mygroup",
        "VpcId": "vpc-xxxxcdb",
        "Subnets": [
            {
                "SubnetIdentifier": "subnet-xxxxbff",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2a"
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Grup Subnet di Panduan](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/SubnetGroups.Modifying.html) Pengguna *Elasticache*.  
+  Untuk detail API, lihat [ModifyCacheSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/modify-cache-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-global-replication-group`
<a name="elasticache_ModifyGlobalReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-global-replication-group`.

**AWS CLI**  
**Untuk memodifikasi grup replikasi global**  
Berikut ini `modify-global-replication-group` memodifikasi properti grup replikasi global, dalam hal ini menonaktifkan failover otomatis, menggunakan mesin Redis.  

```
aws elasticache modify-global-replication-group \
    --global-replication-group-id sgaui-pat-group \
    --apply-immediately \
    --no-automatic-failover-enabled
```
Output  

```
{
    "GlobalReplicationGroup": {
        "GlobalReplicationGroupId": "sgaui-test-group",
        "GlobalReplicationGroupDescription": " ",
        "Status": "modifying",
        "CacheNodeType": "cache.r5.large",
        "Engine": "redis",
        "EngineVersion": "5.0.6",
        "ClusterEnabled": false,
        "AuthTokenEnabled": false,
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Replikasi Lintas AWS Wilayah Menggunakan Global Datastore](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Redis-Global-Datastore.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [ModifyGlobalReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/modify-global-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-replication-group-shard-configuration`
<a name="elasticache_ModifyReplicationGroupShardConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-replication-group-shard-configuration`.

**AWS CLI**  
**Untuk memodifikasi konfigurasi pecahan grup replikasi**  
Berikut ini `modify-replication-group-shard-configuration` mengurangi jumlah kelompok node menggunakan mesin Redis.  

```
aws elasticache modify-replication-group-shard-configuration \
    --replication-group-id mycluster \
    --node-group-count 3 \
    --apply-immediately \
    --node-groups-to-remove 0002
```
Output  

```
{
    "ReplicationGroup": {
        "ReplicationGroupId": "mycluster",
        "Description": "mycluster",
        "GlobalReplicationGroupInfo": {},
        "Status": "modifying",
        "PendingModifiedValues": {},
        "MemberClusters": [
            "mycluster-0002-001",
            "mycluster-0002-002",
            "mycluster-0002-003",
            "mycluster-0003-001",
            "mycluster-0003-002",
            "mycluster-0003-003",
            "mycluster-0003-004",
            "mycluster-0004-001",
            "mycluster-0004-002",
            "mycluster-0004-003",
            "mycluster-0005-001",
            "mycluster-0005-002",
            "mycluster-0005-003"
        ],
        "NodeGroups": [
            {
                "NodeGroupId": "0002",
                "Status": "modifying",
                "Slots": "894-1767,3134-4443,5149-5461,6827-7332,12570-13662",
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "mycluster-0002-001",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2c"
                    },
                    {
                        "CacheClusterId": "mycluster-0002-002",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2a"
                    },
                    {
                        "CacheClusterId": "mycluster-0002-003",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2b"
                    }
                ]
            },
            {
                "NodeGroupId": "0003",
                "Status": "modifying",
                "Slots": "0-324,5462-5692,6784-6826,7698-8191,10923-11075,12441-12569,13663-16383",
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "mycluster-0003-001",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2c"
                    },
                    {
                        "CacheClusterId": "mycluster-0003-002",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2b"
                    },
                    {
                        "CacheClusterId": "mycluster-0003-003",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2a"
                    },
                    {
                        "CacheClusterId": "mycluster-0003-004",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2c"
                    }
                ]
            },
            {
                "NodeGroupId": "0004",
                "Status": "modifying",
                "Slots": "325-336,4706-5148,7333-7697,9012-10922,11076-12440",
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "mycluster-0004-001",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2b"
                    },
                    {
                        "CacheClusterId": "mycluster-0004-002",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2a"
                    },
                    {
                        "CacheClusterId": "mycluster-0004-003",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2c"
                    }
                ]
            },
            {
                "NodeGroupId": "0005",
                "Status": "modifying",
                "Slots": "337-893,1768-3133,4444-4705,5693-6783,8192-9011",
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "mycluster-0005-001",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2a"
                    },
                    {
                        "CacheClusterId": "mycluster-0005-002",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2c"
                    },
                    {
                        "CacheClusterId": "mycluster-0005-003",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2b"
                    }
                ]
            }
        ],
        "AutomaticFailover": "enabled",
        "MultiAZ": "enabled",
        "ConfigurationEndpoint": {
            "Address": "mycluster.g2xbih.clustercfg.usw2.cache.amazonaws.com",
            "Port": 6379
        },
        "SnapshotRetentionLimit": 1,
        "SnapshotWindow": "13:00-14:00",
        "ClusterEnabled": true,
        "CacheNodeType": "cache.r5.xlarge",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Penskalaan ElastiCache untuk Redis Cluster](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Scaling.html) di Panduan Pengguna *Elasticache*.  
+  Untuk detail API, lihat [ModifyReplicationGroupShardConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/modify-replication-group-shard-configuration.html)di *Referensi AWS CLI Perintah*. 

### `modify-replication-group`
<a name="elasticache_ModifyReplicationGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-replication-group`.

**AWS CLI**  
**Untuk memodifikasi grup replikasi**  
Berikut ini `modify-replication-group` menonaktifkan Multi-AZ menggunakan mesin Redis.  

```
aws elasticache modify-replication-group \
    --replication-group-id test-cluster \
    --no-multi-az-enabled \
    --apply-immediately
```
Output  

```
{
    "ReplicationGroup": {
        "ReplicationGroupId": "test-cluster",
        "Description": "test-cluster",
        "GlobalReplicationGroupInfo": {
            "GlobalReplicationGroupId": "sgaui-pat-group",
            "GlobalReplicationGroupMemberRole": "PRIMARY"
        },
        "Status": "available",
        "PendingModifiedValues": {},
        "MemberClusters": [
            "test-cluster-001",
            "test-cluster-002",
            "test-cluster-003"
        ],
        "NodeGroups": [
            {
                "NodeGroupId": "0001",
                "Status": "available",
                "PrimaryEndpoint": {
                    "Address": "test-cluster.g2xbih.ng.0001.usw2.cache.amazonaws.com",
                    "Port": 6379
                },
                "ReaderEndpoint": {
                    "Address": "test-cluster-ro.g2xbih.ng.0001.usw2.cache.amazonaws.com",
                    "Port": 6379
                },
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "test-cluster-001",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "test-cluster-001.g2xbih.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2c",
                        "CurrentRole": "primary"
                    },
                    {
                        "CacheClusterId": "test-cluster-002",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "test-cluster-002.g2xbih.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2b",
                        "CurrentRole": "replica"
                    },
                    {
                        "CacheClusterId": "test-cluster-003",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "test-cluster-003.g2xbih.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2a",
                        "CurrentRole": "replica"
                    }
                ]
            }
        ],
        "SnapshottingClusterId": "test-cluster-002",
        "AutomaticFailover": "enabled",
        "MultiAZ": "disabled",
        "SnapshotRetentionLimit": 1,
        "SnapshotWindow": "08:00-09:00",
        "ClusterEnabled": false,
        "CacheNodeType": "cache.r5.large",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Grup Replikasi di Panduan](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Replication.Modify.html) Pengguna *Elasticache*.  
+  Untuk detail API, lihat [ModifyReplicationGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/modify-replication-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-user-group`
<a name="elasticache_ModifyUserGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-user-group`.

**AWS CLI**  
**Untuk memodifikasi grup pengguna**  
`modify-user-group`Contoh berikut menambahkan pengguna ke grup pengguna.  

```
aws elasticache modify-user-group \
    --user-group-id myusergroup \
    --user-ids-to-add user1
```
Output:  

```
{
    "UserGroupId": "myusergroup",
    "Status": "modifying",
    "Engine": "redis",
    "UserIds": [
        "default"
    ],
    "PendingChanges": {
        "UserIdsToAdd": [
            "user1"
        ]
    },
    "ReplicationGroups": [],
    "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:usergroup:myusergroup"
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi Pengguna dengan Kontrol Akses Berbasis Peran (RBAC)](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.RBAC.html) di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [ModifyUserGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/modify-user-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-user`
<a name="elasticache_ModifyUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-user`.

**AWS CLI**  
**Untuk memodifikasi pengguna**  
`modify-user`Contoh berikut memodifikasi string akses pengguna.  

```
aws elasticache modify-user \
    --user-id user2 \
    --append-access-string "on ~* +@all"
```
Output:  

```
{
    "UserId": "user2",
    "UserName": "myUser",
    "Status": "modifying",
    "Engine": "redis",
    "AccessString": "on ~* +@all",
    "UserGroupIds": [],
    "Authentication": {
        "Type": "password",
        "PasswordCount": 1
    },
    "ARN": "arn:aws:elasticache:us-west-2:xxxxxxxxxx52:user:user2"
}
```
*Untuk informasi selengkapnya, lihat [Mengautentikasi Pengguna dengan Kontrol Akses Berbasis Peran (RBAC)](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/Clusters.RBAC.html) di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [ModifyUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/modify-user.html)di *Referensi AWS CLI Perintah*. 

### `purchase-reserved-cache-nodes-offering`
<a name="elasticache_PurchaseReservedCacheNodesOffering_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purchase-reserved-cache-nodes-offering`.

**AWS CLI**  
**Untuk membeli reserved-cache-node-offering**  
`purchase-reserved-cache-nodes-offering`Contoh berikut memungkinkan Anda untuk membeli penawaran node cache yang dicadangkan.  

```
aws elasticache purchase-reserved-cache-nodes-offering \
    --reserved-cache-nodes-offering-id xxxxxxx-4da5-4b90-b92d-929fbd7abed2
```
Output  

```
{
    "ReservedCacheNode": {
        "ReservedCacheNodeId": "ri-2020-06-30-17-59-40-474",
        "ReservedCacheNodesOfferingId": "xxxxxxx-4da5-4b90-b92d-929fbd7abed2",
        "CacheNodeType": "cache.m3.2xlarge",
        "StartTime": "2020-06-30T17:59:40.474000+00:00",
        "Duration": 31536000,
        "FixedPrice": 1772.0,
        "UsagePrice": 0.0,
        "CacheNodeCount": 1,
        "ProductDescription": "redis",
        "OfferingType": "Heavy Utilization",
        "State": "payment-pending",
        "RecurringCharges": [
            {
                "RecurringChargeAmount": 0.25,
                "RecurringChargeFrequency": "Hourly"
            }
        ]
    }
}
```
*Untuk informasi selengkapnya, lihat [Mendapatkan Info Tentang Penawaran Node Cadangan](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/reserved-nodes-offerings.html) di Panduan Pengguna *Elasticache Redis atau Mendapatkan Info Tentang Penawaran Node Cadangan di Panduan Pengguna* [Memcached Elasticache.](https://docs.aws.amazon.com/AmazonElastiCache/latest/mem-ug/reserved-nodes-offerings.html)*  
+  Untuk detail API, lihat [PurchaseReservedCacheNodesOffering](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/purchase-reserved-cache-nodes-offering.html)di *Referensi AWS CLI Perintah*. 

### `reboot-cache-cluster`
<a name="elasticache_RebootCacheCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-cache-cluster`.

**AWS CLI**  
**Untuk me-reboot cluster cache**  
`reboot-cache-cluster`Contoh berikut me-reboot beberapa, atau semua, dari node cache dalam cluster yang disediakan. Operasi ini menerapkan setiap kelompok parameter cache yang dimodifikasi ke cluster. Operasi reboot berlangsung sesegera mungkin, dan mengakibatkan pemadaman sesaat ke cluster. Selama reboot, status cluster diatur ke`REBOOTING`.  

```
aws elasticache reboot-cache-cluster \
    --cache-cluster-id "my-cluster-001" \
    --cache-node-ids-to-reboot "0001"
```
Output:  

```
{
    "CacheCluster": {
        "CacheClusterId": "my-cluster-001",
        "ClientDownloadLandingPage": "https://console.aws.amazon.com/elasticache/home#client-download:",
        "CacheNodeType": "cache.r5.xlarge",
        "Engine": "redis",
        "EngineVersion": "5.0.5",
        "CacheClusterStatus": "rebooting cache cluster nodes",
        "NumCacheNodes": 1,
        "PreferredAvailabilityZone": "us-west-2a",
        "CacheClusterCreateTime": "2019-11-26T03:35:04.546Z",
        "PreferredMaintenanceWindow": "mon:04:05-mon:05:05",
        "PendingModifiedValues": {},
        "NotificationConfiguration": {
            "TopicArn": "arn:aws:sns:us-west-2:xxxxxxxxxx152:My_Topic",
            "TopicStatus": "active"
        },
        "CacheSecurityGroups": [],
        "CacheParameterGroup": {
            "CacheParameterGroupName": "mygroup",
            "ParameterApplyStatus": "in-sync",
            "CacheNodeIdsToReboot": []
        },
        "CacheSubnetGroupName": "kxkxk",
        "AutoMinorVersionUpgrade": true,
        "SecurityGroups": [
            {
                "SecurityGroupId": "sg-xxxxxxxxxxxxx836",
                "Status": "active"
            },
            {
                "SecurityGroupId": "sg-xxxxxxxx7b",
                "Status": "active"
            }
        ],
        "ReplicationGroupId": "my-cluster",
        "SnapshotRetentionLimit": 0,
        "SnapshotWindow": "07:30-08:30",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
*Untuk informasi selengkapnya, lihat Mem-boot ulang Cluster < https://docs.aws.amazon.com/AmazonElastiCache/ latest/red-ug/Clusters .Rebooting.html di Panduan Pengguna Elasticache.*  
+  Untuk detail API, lihat [RebootCacheCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/reboot-cache-cluster.html)di *Referensi AWS CLI Perintah*. 

### `reset-cache-parameter-group`
<a name="elasticache_ResetCacheParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-cache-parameter-group`.

**AWS CLI**  
**Untuk mengatur ulang grup parameter cache**  
`reset-cache-parameter-group`Contoh berikut memodifikasi parameter kelompok parameter cache ke mesin atau nilai default sistem. Anda dapat mengatur ulang parameter tertentu dengan mengirimkan daftar nama parameter. Untuk mengatur ulang seluruh grup parameter cache, tentukan `--cache-parameter-group-name` parameter `--reset-all-parameters` dan.  

```
aws elasticache reset-cache-parameter-group \
    --cache-parameter-group-name "mygroup" \
    --reset-all-parameters
```
Output:  

```
{
    "CacheParameterGroupName": "mygroup"
}
```
+  Untuk detail API, lihat [ResetCacheParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/reset-cache-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `start-migration`
<a name="elasticache_StartMigration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-migration`.

**AWS CLI**  
**Untuk memulai migrasi**  
Berikut ini `start-migration` memigrasikan data Anda dari Redis yang dihosting sendiri di Amazon EC2 ke Amazon ElastiCache, menggunakan mesin Redis.  

```
aws elasticache start-migration \
   --replication-group-id test \
   --customer-node-endpoint-list "Address='test.g2xbih.ng.0001.usw2.cache.amazonaws.com',Port=6379"
```
Output  

```
{
    "ReplicationGroup": {
        "ReplicationGroupId": "test",
        "Description": "test",
        "GlobalReplicationGroupInfo": {},
        "Status": "modifying",
        "PendingModifiedValues": {},
        "MemberClusters": [
            "test-001",
            "test-002",
            "test-003"
        ],
        "NodeGroups": [
            {
                "NodeGroupId": "0001",
                "Status": "available",
                "PrimaryEndpoint": {
                    "Address": "test.g2xbih.ng.0001.usw2.cache.amazonaws.com",
                    "Port": 6379
                },
                "ReaderEndpoint": {
                    "Address": "test-ro.g2xbih.ng.0001.usw2.cache.amazonaws.com",
                    "Port": 6379
                },
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "test-001",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "test-001.g2xbih.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2a",
                        "CurrentRole": "primary"
                    },
                    {
                        "CacheClusterId": "test-002",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "test-002.g2xbih.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2c",
                        "CurrentRole": "replica"
                    },
                    {
                        "CacheClusterId": "test-003",
                        "CacheNodeId": "0001",
                        "ReadEndpoint": {
                            "Address": "test-003.g2xbih.0001.usw2.cache.amazonaws.com",
                            "Port": 6379
                        },
                        "PreferredAvailabilityZone": "us-west-2b",
                        "CurrentRole": "replica"
                    }
                ]
            }
        ],
        "SnapshottingClusterId": "test-002",
        "AutomaticFailover": "enabled",
        "MultiAZ": "enabled",
        "SnapshotRetentionLimit": 1,
        "SnapshotWindow": "07:30-08:30",
        "ClusterEnabled": false,
        "CacheNodeType": "cache.r5.large",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Migrasi Online ke ElastiCache](https://docs.aws.amazon.com/AmazonElastiCache/latest/red-ug/OnlineMigration.html) dalam *Panduan Pengguna Elasticache*.  
+  Untuk detail API, lihat [StartMigration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/start-migration.html)di *Referensi AWS CLI Perintah*. 

### `test-failover`
<a name="elasticache_TestFailover_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-failover`.

**AWS CLI**  
**Untuk menguji failover dari grup node**  
`test-failover`Contoh berikut menguji failover otomatis pada grup node tertentu (disebut pecahan di konsol) dalam grup replikasi (disebut cluster di konsol).  

```
aws elasticache test-failover /
    --replication-group-id "mycluster" /
    --node-group-id "0001"
```
Output:  

```
{
    "ReplicationGroup": {
        "ReplicationGroupId": "mycluster",
        "Description": "My Cluster",
        "Status": "available",
        "PendingModifiedValues": {},
        "MemberClusters": [
            "mycluster-0001-001",
            "mycluster-0001-002",
            "mycluster-0001-003",
            "mycluster-0002-001",
            "mycluster-0002-002",
            "mycluster-0002-003",
            "mycluster-0003-001",
            "mycluster-0003-002",
            "mycluster-0003-003"
        ],
        "NodeGroups": [
            {
                "NodeGroupId": "0001",
                "Status": "available",
                "Slots": "0-5461",
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "mycluster-0001-001",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2b"
                    },
                    {
                        "CacheClusterId": "mycluster-0001-002",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2a"
                    },
                    {
                        "CacheClusterId": "mycluster-0001-003",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2c"
                    }
                ]
            },
            {
                "NodeGroupId": "0002",
                "Status": "available",
                "Slots": "5462-10922",
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "mycluster-0002-001",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2a"
                    },
                    {
                        "CacheClusterId": "mycluster-0002-002",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2b"
                    },
                    {
                        "CacheClusterId": "mycluster-0002-003",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2c"
                    }
                ]
            },
            {
                "NodeGroupId": "0003",
                "Status": "available",
                "Slots": "10923-16383",
                "NodeGroupMembers": [
                    {
                        "CacheClusterId": "mycluster-0003-001",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2c"
                    },
                    {
                        "CacheClusterId": "mycluster-0003-002",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2b"
                    },
                    {
                        "CacheClusterId": "mycluster-0003-003",
                        "CacheNodeId": "0001",
                        "PreferredAvailabilityZone": "us-west-2a"
                    }
                ]
            }
        ],
        "AutomaticFailover": "enabled",
        "ConfigurationEndpoint": {
            "Address": "mycluster.xxxxih.clustercfg.usw2.cache.amazonaws.com",
            "Port": 6379
        },
        "SnapshotRetentionLimit": 1,
        "SnapshotWindow": "13:00-14:00",
        "ClusterEnabled": true,
        "CacheNodeType": "cache.r5.large",
        "TransitEncryptionEnabled": false,
        "AtRestEncryptionEnabled": false
    }
}
```
+  Untuk detail API, lihat [TestFailover](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/elasticache/test-failover.html)di *Referensi AWS CLI Perintah*. 

# MediaStore contoh menggunakan AWS CLI
<a name="cli_2_mediastore_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with MediaStore.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-container`
<a name="mediastore_CreateContainer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-container`.

**AWS CLI**  
**Untuk membuat wadah**  
`create-container`Contoh berikut membuat wadah baru yang kosong.  

```
aws mediastore create-container --container-name ExampleContainer
```
Output:  

```
{
    "Container": {
        "AccessLoggingEnabled": false,
        "CreationTime": 1563557265,
        "Name": "ExampleContainer",
        "Status": "CREATING",
        "ARN": "arn:aws:mediastore:us-west-2:111122223333:container/ExampleContainer"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Kontainer](https://docs.aws.amazon.com/mediastore/latest/ug/containers-create.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreateContainer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/create-container.html)di *Referensi AWS CLI Perintah*. 

### `delete-container-policy`
<a name="mediastore_DeleteContainerPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-container-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan kontainer**  
`delete-container-policy`Contoh berikut menghapus kebijakan yang ditetapkan ke kontainer yang ditentukan. Ketika kebijakan dihapus, AWS Elemental MediaStore secara otomatis menetapkan kebijakan default ke container.  

```
aws mediastore delete-container-policy \
    --container-name LiveEvents
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteContainerPolicy](https://docs.aws.amazon.com/mediastore/latest/apireference/API_DeleteContainerPolicy.html)di *referensi AWS Elemental MediaStore API*.  
+  Untuk detail API, lihat [DeleteContainerPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/delete-container-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-container`
<a name="mediastore_DeleteContainer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-container`.

**AWS CLI**  
**Untuk menghapus wadah**  
`delete-container`Contoh berikut menghapus wadah yang ditentukan. Anda dapat menghapus wadah hanya jika tidak memiliki objek.  

```
aws mediastore delete-container \
    --container-name=ExampleLiveDemo
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Kontainer](https://docs.aws.amazon.com/mediastore/latest/ug/containers-delete.html) di * MediaStore Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DeleteContainer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/delete-container.html)di *Referensi AWS CLI Perintah*. 

### `delete-cors-policy`
<a name="mediastore_DeleteCorsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cors-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan CORS**  
`delete-cors-policy`Contoh berikut menghapus kebijakan cross-origin resource sharing (CORS) yang ditetapkan ke container yang ditentukan.  

```
aws mediastore delete-cors-policy \
    --container-name ExampleContainer
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Kebijakan CORS di Panduan](https://docs.aws.amazon.com/mediastore/latest/ug/cors-policy-deleting.html) Pengguna *AWS Elemental MediaStore *.  
+  Untuk detail API, lihat [DeleteCorsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/delete-cors-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-lifecycle-policy`
<a name="mediastore_DeleteLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-lifecycle-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan siklus hidup objek**  
`delete-lifecycle-policy`Contoh berikut menghapus kebijakan siklus hidup objek yang dilampirkan ke wadah yang ditentukan. Perubahan ini dapat memakan waktu hingga 20 menit untuk diterapkan.  

```
aws mediastore delete-lifecycle-policy \
    --container-name LiveEvents
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Kebijakan Siklus Hidup Objek di Panduan Pengguna AWS](https://docs.aws.amazon.com/mediastore/latest/ug/policies-object-lifecycle-delete.html) *Elemental MediaStore *.  
+  Untuk detail API, lihat [DeleteLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/delete-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `describe-container`
<a name="mediastore_DescribeContainer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-container`.

**AWS CLI**  
**Untuk melihat detail kontainer**  
`describe-container`Contoh berikut menampilkan rincian wadah yang ditentukan.  

```
aws mediastore describe-container \
    --container-name ExampleContainer
```
Output:  

```
{
    "Container": {
        "CreationTime": 1563558086,
        "AccessLoggingEnabled": false,
        "ARN": "arn:aws:mediastore:us-west-2:111122223333:container/ExampleContainer",
        "Status": "ACTIVE",
        "Name": "ExampleContainer",
        "Endpoint": "https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com"
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail untuk Kontainer](https://docs.aws.amazon.com/mediastore/latest/ug/containers-view-details.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DescribeContainer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/describe-container.html)di *Referensi AWS CLI Perintah*. 

### `describe-object`
<a name="mediastore_DescribeObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-object`.

**AWS CLI**  
**Untuk melihat daftar objek dan folder dalam wadah tertentu**  
`describe-object`Contoh berikut menampilkan item (objek dan folder) yang disimpan dalam wadah tertentu.  

```
aws mediastore-data describe-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --path /folder_name/file1234.jpg
```
Output:  

```
{
    "ContentType": "image/jpeg",
    "LastModified": "Fri, 19 Jul 2019 21:32:20 GMT",
    "ContentLength": "2307346",
    "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3"
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-view-details.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DescribeObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/describe-object.html)di *Referensi AWS CLI Perintah*. 

### `get-container-policy`
<a name="mediastore_GetContainerPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-container-policy`.

**AWS CLI**  
**Untuk melihat kebijakan kontainer**  
`get-container-policy`Contoh berikut menampilkan kebijakan berbasis sumber daya dari wadah yang ditentukan.  

```
aws mediastore get-container-policy \
    --container-name ExampleLiveDemo
```
Output:  

```
{
    "Policy": {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Sid": "PublicReadOverHttps",
                "Effect": "Allow",
                "Principal": {
                    "AWS": "arn:aws:iam::111122223333:root"
                },
                "Action": [
                    "mediastore:GetObject",
                    "mediastore:DescribeObject"
                ],
                "Resource": "arn:aws:mediastore:us-west-2:111122223333:container/ExampleLiveDemo/",
                "Condition": {
                    "Bool": {
                        "aws:SecureTransport": "true"
                    }
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat Kebijakan Penampung](https://docs.aws.amazon.com/mediastore/latest/ug/policies-view.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [GetContainerPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/get-container-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-cors-policy`
<a name="mediastore_GetCorsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-cors-policy`.

**AWS CLI**  
**Untuk melihat kebijakan CORS**  
`get-cors-policy`Contoh berikut menampilkan kebijakan cross-origin resource sharing (CORS) yang ditetapkan ke container yang ditentukan.  

```
aws mediastore get-cors-policy \
    --container-name ExampleContainer \
    --region us-west-2
```
Output:  

```
{
    "CorsPolicy": [
        {
            "AllowedMethods": [
                "GET",
                "HEAD"
            ],
            "MaxAgeSeconds": 3000,
            "AllowedOrigins": [
                ""
            ],
            "AllowedHeaders": [
                ""
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Kebijakan CORS](https://docs.aws.amazon.com/mediastore/latest/ug/cors-policy-viewing.html) di * MediaStore Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [GetCorsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/get-cors-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-lifecycle-policy`
<a name="mediastore_GetLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-lifecycle-policy`.

**AWS CLI**  
**Untuk melihat kebijakan siklus hidup objek**  
`get-lifecycle-policy`Contoh berikut menampilkan kebijakan siklus hidup objek yang dilampirkan ke wadah yang ditentukan.  

```
aws mediastore get-lifecycle-policy \
    --container-name LiveEvents
```
Output:  

```
{
    "LifecyclePolicy": {
        "rules": [
            {
                "definition": {
                    "path": [
                        {
                            "prefix": "Football/"
                        },
                        {
                            "prefix": "Baseball/"
                        }
                    ],
                    "days_since_create": [
                        {
                            "numeric": [
                                ">",
                                28
                            ]
                        }
                    ]
                },
                "action": "EXPIRE"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat Kebijakan Siklus Hidup Objek di Panduan](https://docs.aws.amazon.com/mediastore/latest/ug/policies-object-lifecycle-view.html) Pengguna *AWS Elemental MediaStore *.  
+  Untuk detail API, lihat [GetLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/get-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-object`
<a name="mediastore_GetObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object`.

**AWS CLI**  
**Untuk mengunduh objek**  
`get-object`Contoh berikut men-download objek ke endpoint tertentu.  

```
aws mediastore-data get-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --path=/folder_name/README.md README.md
```
Output:  

```
{
    "ContentLength": "2307346",
    "ContentType": "image/jpeg",
    "LastModified": "Fri, 19 Jul 2019 21:32:20 GMT",
    "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3",
    "StatusCode": 200
}
```
**Untuk mengunduh bagian dari suatu objek**  
`get-object`Contoh berikut mendownload sebagian objek ke titik akhir yang ditentukan.  

```
aws mediastore-data get-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --path /folder_name/README.md \
    --range="bytes=0-100" README2.md
```
Output:  

```
{
    "StatusCode": 206,
    "ContentRange": "bytes 0-100/2307346",
    "ContentLength": "101",
    "LastModified": "Fri, 19 Jul 2019 21:32:20 GMT",
    "ContentType": "image/jpeg",
    "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3"
}
```
Untuk informasi selengkapnya, lihat [Mengunduh Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-download.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [GetObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/get-object.html)di *Referensi AWS CLI Perintah*. 

### `list-containers`
<a name="mediastore_ListContainers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-containers`.

**AWS CLI**  
**Untuk melihat daftar kontainer**  
`list-containers`Contoh berikut menampilkan daftar semua kontainer yang terkait dengan akun Anda.  

```
aws mediastore list-containers
```
Output:  

```
{
    "Containers": [
        {
            "CreationTime": 1505317931,
            "Endpoint": "https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com",
            "Status": "ACTIVE",
            "ARN": "arn:aws:mediastore:us-west-2:111122223333:container/ExampleLiveDemo",
            "AccessLoggingEnabled": false,
            "Name": "ExampleLiveDemo"
        },
        {
            "CreationTime": 1506528818,
            "Endpoint": "https://fffggghhhiiijj.data.mediastore.us-west-2.amazonaws.com",
            "Status": "ACTIVE",
            "ARN": "arn:aws:mediastore:us-west-2:111122223333:container/ExampleContainer",
            "AccessLoggingEnabled": false,
            "Name": "ExampleContainer"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Daftar Kontainer](https://docs.aws.amazon.com/mediastore/latest/ug/containers-view-list.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListContainers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/list-containers.html)di *Referensi AWS CLI Perintah*. 

### `list-items`
<a name="mediastore_ListItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-items`.

**AWS CLI**  
**Contoh 1: Untuk melihat daftar objek dan folder dalam wadah tertentu**  
`list-items`Contoh berikut menampilkan item (objek dan folder) yang disimpan dalam wadah yang ditentukan.  

```
aws mediastore-data list-items \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com
```
Output:  

```
{
    "Items": [
        {
            "ContentType": "image/jpeg",
            "LastModified": 1563571859.379,
            "Name": "filename.jpg",
            "Type": "OBJECT",
            "ETag": "543ab21abcd1a234ab123456a1a2b12345ab12abc12a1234abc1a2bc12345a12",
            "ContentLength": 3784
        },
        {
            "Type": "FOLDER",
            "Name": "ExampleLiveDemo"
        }
    ]
}
```
**Contoh 2: Untuk melihat daftar objek dan folder dalam folder tertentu**  
`list-items`Contoh berikut menampilkan item (objek dan folder) yang disimpan dalam folder tertentu.  

```
aws mediastore-data list-items \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com
```
Output:  

```
{
    "Items": [
        {
            "ContentType": "image/jpeg",
            "LastModified": 1563571859.379,
            "Name": "filename.jpg",
            "Type": "OBJECT",
            "ETag": "543ab21abcd1a234ab123456a1a2b12345ab12abc12a1234abc1a2bc12345a12",
            "ContentLength": 3784
        },
        {
            "Type": "FOLDER",
            "Name": "ExampleLiveDemo"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Daftar Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-view-list.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/list-items.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="mediastore_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag untuk wadah**  
`list-tags-for-resource`Contoh berikut menampilkan kunci tag dan nilai-nilai yang ditetapkan untuk wadah tertentu.  

```
aws mediastore list-tags-for-resource \
    --resource arn:aws:mediastore:us-west-2:1213456789012:container/ExampleContainer
```
Output:  

```
{
    "Tags": [
        {
            "Value": "Test",
            "Key": "Environment"
        },
        {
            "Value": "West",
            "Key": "Region"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListTagsForResource](https://docs.aws.amazon.com/mediastore/latest/apireference/API_ListTagsForResource.html)di *Referensi MediaStore API AWS Elemental*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-container-policy`
<a name="mediastore_PutContainerPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-container-policy`.

**AWS CLI**  
**Untuk mengedit kebijakan kontainer**  
`put-container-policy`Contoh berikut menetapkan kebijakan yang berbeda untuk wadah yang ditentukan. Dalam contoh ini, kebijakan yang diperbarui didefinisikan dalam file bernama`LiveEventsContainerPolicy.json`.  

```
aws mediastore put-container-policy \
    --container-name LiveEvents \
    --policy file://LiveEventsContainerPolicy.json
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengedit Kebijakan Penampung](https://docs.aws.amazon.com/mediastore/latest/ug/policies-edit.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [PutContainerPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/put-container-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-cors-policy`
<a name="mediastore_PutCorsPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-cors-policy`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan kebijakan CORS**  
`put-cors-policy`Contoh berikut menambahkan kebijakan cross-origin resource sharing (CORS) ke container yang ditentukan. Isi kebijakan CORS ada di file bernama`corsPolicy.json`.  

```
aws mediastore put-cors-policy \
    --container-name ExampleContainer \
    --cors-policy file://corsPolicy.json
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan Kebijakan CORS ke Container](https://docs.aws.amazon.com/mediastore/latest/ug/cors-policy-adding.html) di * MediaStore Panduan Pengguna AWS Elemental*.  
**Contoh 2: Untuk mengedit kebijakan CORS**  
`put-cors-policy`Contoh berikut memperbarui kebijakan cross-origin resource sharing (CORS) yang ditetapkan ke container yang ditentukan. Isi kebijakan CORS yang diperbarui ada di file bernama`corsPolicy2.json`.  
Untuk informasi selengkapnya, lihat [Mengedit Kebijakan CORS](https://docs.aws.amazon.com/mediastore/latest/ug/cors-policy-editing.html) di * MediaStore Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [PutCorsPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/put-cors-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-lifecycle-policy`
<a name="mediastore_PutLifecyclePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-lifecycle-policy`.

**AWS CLI**  
**Untuk membuat kebijakan siklus hidup objek**  
`put-lifecycle-policy`Contoh berikut melampirkan kebijakan siklus hidup objek ke wadah yang ditentukan. Ini memungkinkan Anda untuk menentukan berapa lama layanan harus menyimpan objek dalam wadah Anda. MediaStore menghapus objek dalam wadah setelah mereka mencapai tanggal kedaluwarsa, seperti yang ditunjukkan dalam kebijakan, yang ada dalam file bernama. `LiveEventsLifecyclePolicy.json`  

```
aws mediastore put-lifecycle-policy \
    --container-name ExampleContainer \
    --lifecycle-policy file://ExampleLifecyclePolicy.json
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan Kebijakan Siklus Hidup Objek ke Penampung di Panduan](https://docs.aws.amazon.com/mediastore/latest/ug/policies-object-lifecycle-add.html) Pengguna *AWS Elemental MediaStore *.  
+  Untuk detail API, lihat [PutLifecyclePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/put-lifecycle-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-object`
<a name="mediastore_PutObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object`.

**AWS CLI**  
**Untuk mengunggah objek**  
`put-object`Contoh berikut mengunggah objek ke wadah tertentu. Anda dapat menentukan jalur folder tempat objek akan disimpan di dalam wadah. Jika folder sudah ada, AWS Elemental MediaStore menyimpan objek di folder. Jika folder tidak ada, layanan membuatnya, dan kemudian menyimpan objek di folder.  

```
aws mediastore-data put-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --body README.md \
    --path /folder_name/README.md \
    --cache-control "max-age=6, public" \
    --content-type binary/octet-stream
```
Output:  

```
{
    "ContentSHA256": "74b5fdb517f423ed750ef214c44adfe2be36e37d861eafe9c842cbe1bf387a9d",
    "StorageClass": "TEMPORAL",
    "ETag": "af3e4731af032167a106015d1f2fe934e68b32ed1aa297a9e325f5c64979277b"
}
```
Untuk informasi selengkapnya, lihat [Mengunggah Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-upload.html) di * MediaStore Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [PutObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/put-object.html)di *Referensi AWS CLI Perintah*. 

### `start-access-logging`
<a name="mediastore_StartAccessLogging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-access-logging`.

**AWS CLI**  
**Untuk mengaktifkan akses masuk pada kontainer**  
`start-access-logging`Contoh berikut mengaktifkan akses logging pada wadah yang ditentukan.  

```
aws mediastore start-access-logging \
    --container-name LiveEvents
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan Pencatatan Akses untuk Penampung](https://docs.aws.amazon.com/mediastore/latest/ug/monitoring-cloudwatch-logs-enable.html) di * MediaStore Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [StartAccessLogging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/start-access-logging.html)di *Referensi AWS CLI Perintah*. 

### `stop-access-logging`
<a name="mediastore_StopAccessLogging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-access-logging`.

**AWS CLI**  
**Untuk menonaktifkan akses masuk pada kontainer**  
`stop-access-logging`Contoh berikut menonaktifkan akses logging pada wadah yang ditentukan.  

```
aws mediastore stop-access-logging \
    --container-name LiveEvents
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan Pencatatan Akses untuk Penampung di Panduan](https://docs.aws.amazon.com/mediastore/latest/ug/monitoring-cloudwatch-logs-disable.html) Pengguna *AWS Elemental MediaStore *.  
+  Untuk detail API, lihat [StopAccessLogging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/stop-access-logging.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="mediastore_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke wadah**  
`tag-resource`Contoh berikut menambahkan kunci tag dan nilai ke wadah yang ditentukan.  

```
aws mediastore tag-resource \
    --resource arn:aws:mediastore:us-west-2:123456789012:container/ExampleContainer \
    --tags '[{"Key": "Region", "Value": "West"}, {"Key": "Environment", "Value": "Test"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [TagResource](https://docs.aws.amazon.com/mediastore/latest/apireference/API_TagResource.html)di *Referensi MediaStore API AWS Elemental*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="mediastore_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari wadah**  
`untag-resource`Contoh berikut menghapus kunci tag yang ditentukan dan nilai terkait dari wadah.  

```
aws mediastore untag-resource \
    --resource arn:aws:mediastore:us-west-2:123456789012:container/ExampleContainer \
    --tag-keys Region
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [UntagResource](https://docs.aws.amazon.com/mediastore/latest/apireference/API_UntagResource.html)di *Referensi MediaStore API AWS Elemental*. .  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# Amazon EMR contoh menggunakan AWS CLI
<a name="cli_2_emr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan EMR AWS Command Line Interface dengan Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-instance-fleet`
<a name="emr_AddInstanceFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-instance-fleet`.

**AWS CLI**  
**Untuk menambahkan armada instance tugas ke cluster**  
Contoh ini menambahkan armada instance tugas baru ke cluster yang ditentukan.  
Perintah:  

```
aws emr add-instance-fleet --cluster-id 'j-12ABCDEFGHI34JK' --instance-fleet  InstanceFleetType=TASK,TargetSpotCapacity=1,LaunchSpecifications={SpotSpecification='{TimeoutDurationMinutes=20,TimeoutAction=TERMINATE_CLUSTER}'},InstanceTypeConfigs=['{InstanceType=m3.xlarge,BidPrice=0.5}']
```
Output:  

```
{
   "ClusterId": "j-12ABCDEFGHI34JK",
   "InstanceFleetId": "if-23ABCDEFGHI45JJ"
}
```
+  Untuk detail API, lihat [AddInstanceFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/add-instance-fleet.html)di *Referensi AWS CLI Perintah*. 

### `add-steps`
<a name="emr_AddSteps_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-steps`.

**AWS CLI**  
**1. Untuk menambahkan langkah-langkah Custom JAR ke cluster**  
Perintah:  

```
aws emr add-steps --cluster-id j-XXXXXXXX --steps Type=CUSTOM_JAR,Name=CustomJAR,ActionOnFailure=CONTINUE,Jar=s3://amzn-s3-demo-bucket/mytest.jar,Args=arg1,arg2,arg3 Type=CUSTOM_JAR,Name=CustomJAR,ActionOnFailure=CONTINUE,Jar=s3://amzn-s3-demo-bucket/mytest.jar,MainClass=mymainclass,Args=arg1,arg2,arg3
```
Parameter yang diperlukan:  

```
Jar
```
Parameter opsional:  

```
Type, Name, ActionOnFailure, Args
```
Output:  

```
{
    "StepIds":[
        "s-XXXXXXXX",
        "s-YYYYYYYY"
    ]
}
```
**2. Untuk menambahkan langkah Streaming ke cluster**  
Perintah:  

```
aws emr add-steps --cluster-id j-XXXXXXXX --steps Type=STREAMING,Name='Streaming Program',ActionOnFailure=CONTINUE,Args=[-files,s3://elasticmapreduce/samples/wordcount/wordSplitter.py,-mapper,wordSplitter.py,-reducer,aggregate,-input,s3://elasticmapreduce/samples/wordcount/input,-output,s3://amzn-s3-demo-bucket/wordcount/output]
```
Parameter yang diperlukan:  

```
Type, Args
```
Parameter opsional:  

```
Name, ActionOnFailure
```
Setara JSON (isi step.json):  

```
 [
  {
    "Name": "JSON Streaming Step",
    "Args": ["-files","s3://elasticmapreduce/samples/wordcount/wordSplitter.py","-mapper","wordSplitter.py","-reducer","aggregate","-input","s3://elasticmapreduce/samples/wordcount/input","-output","s3://amzn-s3-demo-bucket/wordcount/output"],
    "ActionOnFailure": "CONTINUE",
    "Type": "STREAMING"
  }
]
```
CATATAN: Argumen JSON harus menyertakan opsi dan nilai sebagai item mereka sendiri dalam daftar.  
Perintah (menggunakan step.json):  

```
aws emr add-steps --cluster-id j-XXXXXXXX --steps file://./step.json
```
Output:  

```
{
    "StepIds":[
        "s-XXXXXXXX",
        "s-YYYYYYYY"
    ]
}
```
**3. Untuk menambahkan langkah Streaming dengan beberapa file ke cluster (hanya JSON)**  
JSON (multiplefiles.json):  

```
[
  {
     "Name": "JSON Streaming Step",
     "Type": "STREAMING",
     "ActionOnFailure": "CONTINUE",
     "Args": [
         "-files",
         "s3://amzn-s3-demo-bucket/mapper.py,s3://amzn-s3-demo-bucket/reducer.py",
         "-mapper",
         "mapper.py",
         "-reducer",
         "reducer.py",
         "-input",
         "s3://amzn-s3-demo-bucket/input",
         "-output",
         "s3://amzn-s3-demo-bucket/output"]
  }
]
```
Perintah:  

```
aws emr add-steps --cluster-id j-XXXXXXXX  --steps file://./multiplefiles.json
```
Parameter yang diperlukan:  

```
Type, Args
```
Parameter opsional:  

```
Name, ActionOnFailure
```
Output:  

```
{
    "StepIds":[
        "s-XXXXXXXX",
    ]
}
```
**4. Untuk menambahkan langkah Hive ke cluster**  
Perintah:  

```
aws emr add-steps --cluster-id j-XXXXXXXX --steps Type=HIVE,Name='Hive program',ActionOnFailure=CONTINUE,Args=[-f,s3://amzn-s3-demo-bucket/myhivescript.q,-d,INPUT=s3://amzn-s3-demo-bucket/myhiveinput,-d,OUTPUT=s3://amzn-s3-demo-bucket/myhiveoutput,arg1,arg2] Type=HIVE,Name='Hive steps',ActionOnFailure=TERMINATE_CLUSTER,Args=[-f,s3://elasticmapreduce/samples/hive-ads/libs/model-build.q,-d,INPUT=s3://elasticmapreduce/samples/hive-ads/tables,-d,OUTPUT=s3://amzn-s3-demo-bucket/hive-ads/output/2014-04-18/11-07-32,-d,LIBS=s3://elasticmapreduce/samples/hive-ads/libs]
```
Parameter yang diperlukan:  

```
Type, Args
```
Parameter opsional:  

```
Name, ActionOnFailure
```
Output:  

```
{
    "StepIds":[
        "s-XXXXXXXX",
        "s-YYYYYYYY"
    ]
}
```
**5. Untuk menambahkan langkah Babi ke cluster**  
Perintah:  

```
aws emr add-steps --cluster-id j-XXXXXXXX --steps Type=PIG,Name='Pig program',ActionOnFailure=CONTINUE,Args=[-f,s3://amzn-s3-demo-bucket/mypigscript.pig,-p,INPUT=s3://amzn-s3-demo-bucket/mypiginput,-p,OUTPUT=s3://amzn-s3-demo-bucket/mypigoutput,arg1,arg2] Type=PIG,Name='Pig program',Args=[-f,s3://elasticmapreduce/samples/pig-apache/do-reports2.pig,-p,INPUT=s3://elasticmapreduce/samples/pig-apache/input,-p,OUTPUT=s3://amzn-s3-demo-bucket/pig-apache/output,arg1,arg2]
```
Parameter yang diperlukan:  

```
Type, Args
```
Parameter opsional:  

```
Name, ActionOnFailure
```
Output:  

```
{
    "StepIds":[
        "s-XXXXXXXX",
        "s-YYYYYYYY"
    ]
}
```
**6. Untuk menambahkan langkah Impala ke cluster**  
Perintah:  

```
aws emr add-steps --cluster-id j-XXXXXXXX --steps Type=IMPALA,Name='Impala program',ActionOnFailure=CONTINUE,Args=--impala-script,s3://myimpala/input,--console-output-path,s3://myimpala/output
```
Parameter yang diperlukan:  

```
Type, Args
```
Parameter opsional:  

```
Name, ActionOnFailure
```
Output:  

```
{
    "StepIds":[
        "s-XXXXXXXX",
        "s-YYYYYYYY"
    ]
}
```
+  Untuk detail API, lihat [AddSteps](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/add-steps.html)di *Referensi AWS CLI Perintah*. 

### `add-tags`
<a name="emr_AddTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags`.

**AWS CLI**  
**1. Untuk menambahkan tag ke cluster**  
Perintah:  

```
aws emr add-tags --resource-id j-xxxxxxx --tags name="John Doe" age=29 sex=male address="123 East NW Seattle"
```
Output:  

```
None
```
**2. Untuk daftar tag dari sebuah cluster**  
--Perintah:  

```
aws emr describe-cluster --cluster-id j-XXXXXXYY --query Cluster.Tags
```
Output:  

```
[
    {
        "Value": "male",
        "Key": "sex"
    },
    {
        "Value": "123 East NW Seattle",
        "Key": "address"
    },
    {
        "Value": "John Doe",
        "Key": "name"
    },
    {
        "Value": "29",
        "Key": "age"
    }
]
```
+  Untuk detail API, lihat [AddTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/add-tags.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster-examples`
<a name="emr_CreateClusterExamples_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster-examples`.

**AWS CLI**  
Sebagian besar contoh berikut mengasumsikan bahwa Anda menentukan peran layanan EMR Amazon dan profil instans Amazon EC2. Jika Anda belum melakukan ini, Anda harus menentukan setiap peran IAM yang diperlukan atau menggunakan `--use-default-roles` parameter saat membuat cluster Anda. *Untuk informasi selengkapnya tentang menentukan peran IAM, lihat [Mengonfigurasi Peran IAM untuk Izin EMR Amazon ke Layanan di AWS](https://docs.aws.amazon.com/emr/latest/ManagementGuide/emr-iam-roles.html) Panduan Manajemen EMR Amazon.*  
**Contoh 1: Untuk membuat cluster**  
`create-cluster`Contoh berikut membuat cluster EMR sederhana.  

```
aws emr create-cluster \
    --release-label emr-5.14.0 \
    --instance-type m4.large \
    --instance-count 2
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk membuat klaster EMR Amazon dengan default ServiceRole dan peran InstanceProfile **  
`create-cluster`Contoh berikut membuat cluster EMR Amazon yang menggunakan konfigurasi. `--instance-groups`  

```
aws emr create-cluster \
    --release-label emr-5.14.0 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
**Contoh 3: Untuk membuat klaster EMR Amazon yang menggunakan armada instans**  
`create-cluster`Contoh berikut membuat kluster EMR Amazon yang menggunakan `--instance-fleets` konfigurasi, menentukan dua jenis instans untuk setiap armada dan dua Subnet EC2.  

```
aws emr create-cluster \
    --release-label emr-5.14.0 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole,SubnetIds=['subnet-ab12345c','subnet-de67890f'] \
    --instance-fleets InstanceFleetType=MASTER,TargetOnDemandCapacity=1,InstanceTypeConfigs=['{InstanceType=m4.large}'] InstanceFleetType=CORE,TargetSpotCapacity=11,InstanceTypeConfigs=['{InstanceType=m4.large,BidPrice=0.5,WeightedCapacity=3}','{InstanceType=m4.2xlarge,BidPrice=0.9,WeightedCapacity=5}'],LaunchSpecifications={SpotSpecification='{TimeoutDurationMinutes=120,TimeoutAction=SWITCH_TO_ON_DEMAND}'}
```
**Contoh 4: Untuk membuat cluster dengan peran default**  
`create-cluster`Contoh berikut menggunakan `--use-default-roles` parameter untuk menentukan peran layanan default dan profil instance.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --use-default-roles \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
**Contoh 5: Untuk membuat cluster dan menentukan aplikasi yang akan diinstal**  
`create-cluster`Contoh berikut menggunakan `--applications` parameter untuk menentukan aplikasi yang Amazon EMR menginstal. Contoh ini menginstal Hadoop, Hive dan Pig.  

```
aws emr create-cluster \
    --applications Name=Hadoop Name=Hive Name=Pig \
    --release-label emr-5.9.0 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
**Contoh 6: Untuk membuat cluster yang menyertakan Spark**  
Contoh berikut menginstal Spark.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --applications Name=Spark \
    --ec2-attributes KeyName=myKey \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
**Contoh 7: Untuk menentukan AMI kustom yang akan digunakan untuk instance cluster**  
`create-cluster`Contoh berikut membuat instance cluster berdasarkan Amazon Linux AMI dengan ID`ami-a518e6df`.  

```
aws emr create-cluster \
    --name "Cluster with My Custom AMI" \
    --custom-ami-id ami-a518e6df \
    --ebs-root-volume-size 20 \
    --release-label emr-5.9.0 \
    --use-default-roles \
    --instance-count 2 \
    --instance-type m4.large
```
**Contoh 8: Untuk menyesuaikan konfigurasi aplikasi**  
Contoh berikut menggunakan `--configurations` parameter untuk menentukan file konfigurasi JSON yang berisi kustomisasi aplikasi untuk Hadoop. Untuk informasi selengkapnya, lihat [Mengkonfigurasi Aplikasi](https://docs.aws.amazon.com/emr/latest/ReleaseGuide/emr-configure-apps.html) dalam *Panduan Rilis Amazon EMR*.  
Isi dari `configurations.json`:  

```
[
    {
       "Classification": "mapred-site",
       "Properties": {
           "mapred.tasktracker.map.tasks.maximum": 2
       }
    },
    {
        "Classification": "hadoop-env",
        "Properties": {},
        "Configurations": [
            {
                "Classification": "export",
                "Properties": {
                    "HADOOP_DATANODE_HEAPSIZE": 2048,
                    "HADOOP_NAMENODE_OPTS": "-XX:GCTimeRatio=19"
                }
            }
        ]
    }
]
```
Contoh referensi berikut `configurations.json` sebagai file lokal.  

```
aws emr create-cluster \
    --configurations file://configurations.json \
    --release-label emr-5.9.0 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
Contoh referensi berikut `configurations.json` sebagai file di Amazon S3.  

```
aws emr create-cluster \
    --configurations https://s3.amazonaws.com/amzn-s3-demo-bucket/configurations.json \
    --release-label emr-5.9.0 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
**Contoh 9: Untuk membuat cluster dengan master, inti, dan grup instance tugas**  
`create-cluster`Contoh berikut digunakan `--instance-groups` untuk menentukan jenis dan jumlah instans EC2 yang akan digunakan untuk kelompok master, inti, dan instance tugas.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --instance-groups Name=Master,InstanceGroupType=MASTER,InstanceType=m4.large,InstanceCount=1 Name=Core,InstanceGroupType=CORE,InstanceType=m4.large,InstanceCount=2 Name=Task,InstanceGroupType=TASK,InstanceType=m4.large,InstanceCount=2
```
**Contoh 10: Untuk menentukan bahwa cluster harus dihentikan setelah menyelesaikan semua langkah**  
`create-cluster`Contoh berikut digunakan `--auto-terminate` untuk menentukan bahwa cluster harus dimatikan secara otomatis setelah menyelesaikan semua langkah.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large  InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
**Contoh 11: Untuk menentukan detail konfigurasi cluster seperti key pair Amazon EC2, konfigurasi jaringan, dan grup keamanan**  
`create-cluster`Contoh berikut membuat cluster dengan key pair Amazon EC2 bernama `myKey` dan profil instance khusus bernama. `myProfile` Pasangan kunci digunakan untuk mengotorisasi koneksi SSH ke node cluster, paling sering node master. Untuk informasi selengkapnya, lihat [Menggunakan Pasangan Kunci Amazon EC2 untuk Kredensial SSH](https://docs.aws.amazon.com/emr/latest/ManagementGuide/emr-plan-access-ssh.html) di Panduan Manajemen EMR *Amazon*.  

```
aws emr create-cluster \
    --ec2-attributes KeyName=myKey,InstanceProfile=myProfile \
    --release-label emr-5.9.0 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
Contoh berikut membuat cluster di subnet Amazon VPC.  

```
aws emr create-cluster \
    --ec2-attributes SubnetId=subnet-xxxxx \
    --release-label emr-5.9.0 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
Contoh berikut membuat cluster di zona `us-east-1b` ketersediaan.  

```
aws emr create-cluster \
    --ec2-attributes AvailabilityZone=us-east-1b \
    --release-label emr-5.9.0 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
Contoh berikut membuat cluster dan hanya menentukan grup keamanan Amazon EMR-managed.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --service-role myServiceRole \
    --ec2-attributes InstanceProfile=myRole,EmrManagedMasterSecurityGroup=sg-master1,EmrManagedSlaveSecurityGroup=sg-slave1 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
Contoh berikut membuat cluster dan hanya menentukan grup keamanan Amazon EC2 tambahan.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --service-role myServiceRole \
    --ec2-attributes InstanceProfile=myRole,AdditionalMasterSecurityGroups=[sg-addMaster1,sg-addMaster2,sg-addMaster3,sg-addMaster4],AdditionalSlaveSecurityGroups=[sg-addSlave1,sg-addSlave2,sg-addSlave3,sg-addSlave4] \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
Contoh berikut membuat cluster dan menentukan grup keamanan yang dikelola EMR, serta grup keamanan tambahan.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --service-role myServiceRole \
    --ec2-attributes InstanceProfile=myRole,EmrManagedMasterSecurityGroup=sg-master1,EmrManagedSlaveSecurityGroup=sg-slave1,AdditionalMasterSecurityGroups=[sg-addMaster1,sg-addMaster2,sg-addMaster3,sg-addMaster4],AdditionalSlaveSecurityGroups=[sg-addSlave1,sg-addSlave2,sg-addSlave3,sg-addSlave4] \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
Contoh berikut membuat cluster di subnet pribadi VPC dan menggunakan grup keamanan Amazon EC2 tertentu untuk mengaktifkan akses layanan Amazon EMR, yang diperlukan untuk cluster di subnet pribadi.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --service-role myServiceRole \
    --ec2-attributes InstanceProfile=myRole,ServiceAccessSecurityGroup=sg-service-access,EmrManagedMasterSecurityGroup=sg-master,EmrManagedSlaveSecurityGroup=sg-slave \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
Contoh berikut menentukan parameter konfigurasi grup keamanan menggunakan file JSON bernama `ec2_attributes.json` yang disimpan secara lokal. CATATAN: Argumen JSON harus menyertakan opsi dan nilai sebagai item mereka sendiri dalam daftar.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --service-role myServiceRole \
    --ec2-attributes file://ec2_attributes.json  \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
Isi dari `ec2_attributes.json`:  

```
[
    {
        "SubnetId": "subnet-xxxxx",
        "KeyName": "myKey",
        "InstanceProfile":"myRole",
        "EmrManagedMasterSecurityGroup": "sg-master1",
        "EmrManagedSlaveSecurityGroup": "sg-slave1",
        "ServiceAccessSecurityGroup": "sg-service-access",
        "AdditionalMasterSecurityGroups": ["sg-addMaster1","sg-addMaster2","sg-addMaster3","sg-addMaster4"],
        "AdditionalSlaveSecurityGroups": ["sg-addSlave1","sg-addSlave2","sg-addSlave3","sg-addSlave4"]
    }
]
```
**Contoh 12: Untuk mengaktifkan debugging dan menentukan URI log**  
`create-cluster`Contoh berikut menggunakan `--enable-debugging` parameter, yang memungkinkan Anda untuk melihat file log lebih mudah menggunakan alat debugging di konsol EMR Amazon. `--log-uri`Parameter diperlukan dengan`--enable-debugging`.  

```
aws emr create-cluster \
    --enable-debugging \
    --log-uri s3://amzn-s3-demo-bucket/myLog \
    --release-label emr-5.9.0 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
**Contoh 13: Untuk menambahkan tag saat membuat cluster**  
Tag adalah pasangan nilai kunci yang membantu Anda mengidentifikasi dan mengelola cluster. `create-cluster`Contoh berikut menggunakan `--tags` parameter untuk membuat tiga tag untuk sebuah cluster, satu dengan nama kunci `name` dan nilai`Shirley Rodriguez`, yang kedua dengan nama kunci `age` dan nilai`29`, dan tag ketiga dengan nama kunci `department` dan nilai`Analytics`.  

```
aws emr create-cluster \
    --tags name="Shirley Rodriguez" age=29 department="Analytics" \
    --release-label emr-5.32.0 \
    --instance-type m5.xlarge \
    --instance-count 3 \
    --use-default-roles
```
Contoh berikut mencantumkan tag yang diterapkan ke cluster.  

```
aws emr describe-cluster \
    --cluster-id j-XXXXXXYY \
    --query Cluster.Tags
```
**Contoh 14: Untuk menggunakan konfigurasi keamanan yang memungkinkan enkripsi dan fitur keamanan lainnya**  
`create-cluster`Contoh berikut menggunakan `--security-configuration` parameter untuk menentukan konfigurasi keamanan untuk cluster EMR. Anda dapat menggunakan konfigurasi keamanan dengan Amazon EMR versi 4.8.0 atau yang lebih baru.  

```
aws emr create-cluster \
    --instance-type m4.large \
    --release-label emr-5.9.0 \
    --security-configuration mySecurityConfiguration
```
**Contoh 15: Untuk membuat cluster dengan volume penyimpanan EBS tambahan yang dikonfigurasi untuk grup instans**  
Saat menentukan volume EBS tambahan, argumen berikut diperlukan:`VolumeType`, `SizeInGB` jika `EbsBlockDeviceConfigs` ditentukan.  
`create-cluster`Contoh berikut membuat cluster dengan beberapa volume EBS yang dilampirkan ke instans EC2 di grup instans inti.  

```
aws emr create-cluster \
    --release-label emr-5.9.0  \
    --use-default-roles \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=d2.xlarge 'InstanceGroupType=CORE,InstanceCount=2,InstanceType=d2.xlarge,EbsConfiguration={EbsOptimized=true,EbsBlockDeviceConfigs=[{VolumeSpecification={VolumeType=gp2,SizeInGB=100}},{VolumeSpecification={VolumeType=io1,SizeInGB=100,Iops=100},VolumesPerInstance=4}]}' \
    --auto-terminate
```
Contoh berikut membuat cluster dengan beberapa volume EBS yang dilampirkan ke instans EC2 di grup instans master.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --use-default-roles \
    --instance-groups 'InstanceGroupType=MASTER, InstanceCount=1, InstanceType=d2.xlarge, EbsConfiguration={EbsOptimized=true, EbsBlockDeviceConfigs=[{VolumeSpecification={VolumeType=io1, SizeInGB=100, Iops=100}},{VolumeSpecification={VolumeType=standard,SizeInGB=50},VolumesPerInstance=3}]}' InstanceGroupType=CORE,InstanceCount=2,InstanceType=d2.xlarge \
    --auto-terminate
```
**Contoh 16: Untuk membuat klaster dengan kebijakan penskalaan otomatis**  
Anda dapat melampirkan kebijakan penskalaan otomatis ke grup instance inti dan tugas menggunakan Amazon EMR versi 4.0 dan yang lebih baru. Kebijakan penskalaan otomatis menambahkan dan menghapus instans EC2 secara dinamis sebagai respons terhadap metrik Amazon. CloudWatch *Untuk informasi selengkapnya, lihat Menggunakan Penskalaan Otomatis di Amazon EMR https://docs.aws.amazon.com/emr/ latest/ManagementGuide/emr < -automatic-scaling.html>`\$1 di Panduan Manajemen EMR Amazon.*  
Saat melampirkan kebijakan penskalaan otomatis, Anda juga harus menentukan peran default untuk penskalaan otomatis yang digunakan. `--auto-scaling-role EMR_AutoScaling_DefaultRole`  
`create-cluster`Contoh berikut menentukan kebijakan penskalaan otomatis untuk grup `CORE` instance menggunakan `AutoScalingPolicy` argumen dengan struktur JSON tertanam, yang menentukan konfigurasi kebijakan penskalaan. Grup instance dengan struktur JSON tertanam harus memiliki seluruh kumpulan argumen yang diapit tanda kutip tunggal. Menggunakan tanda kutip tunggal adalah opsional untuk grup contoh tanpa struktur JSON yang disematkan.  

```
aws emr create-cluster
    --release-label emr-5.9.0 \
    --use-default-roles --auto-scaling-role EMR_AutoScaling_DefaultRole \
    --instance-groups InstanceGroupType=MASTER,InstanceType=d2.xlarge,InstanceCount=1 'InstanceGroupType=CORE,InstanceType=d2.xlarge,InstanceCount=2,AutoScalingPolicy={Constraints={MinCapacity=1,MaxCapacity=5},Rules=[{Name=TestRule,Description=TestDescription,Action={Market=ON_DEMAND,SimpleScalingPolicyConfiguration={AdjustmentType=EXACT_CAPACITY,ScalingAdjustment=2}},Trigger={CloudWatchAlarmDefinition={ComparisonOperator=GREATER_THAN,EvaluationPeriods=5,MetricName=TestMetric,Namespace=EMR,Period=3,Statistic=MAXIMUM,Threshold=4.5,Unit=NONE,Dimensions=[{Key=TestKey,Value=TestValue}]}}}]}'
```
Contoh berikut menggunakan file JSON,`instancegroupconfig.json`, untuk menentukan konfigurasi semua kelompok instance dalam sebuah cluster. File JSON menentukan konfigurasi kebijakan penskalaan otomatis untuk grup instance inti.  

```
aws emr create-cluster \
    --release-label emr-5.9.0 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole \
    --instance-groups file://myfolder/instancegroupconfig.json \
    --auto-scaling-role EMR_AutoScaling_DefaultRole
```
Isi dari `instancegroupconfig.json`:  

```
[
    {
        "InstanceCount": 1,
        "Name": "MyMasterIG",
        "InstanceGroupType": "MASTER",
        "InstanceType": "m4.large"
    },
    {
        "InstanceCount": 2,
        "Name": "MyCoreIG",
        "InstanceGroupType": "CORE",
        "InstanceType": "m4.large",
        "AutoScalingPolicy": {
            "Constraints": {
                "MinCapacity": 2,
                "MaxCapacity": 10
            },
            "Rules": [
                {
                    "Name": "Default-scale-out",
                    "Description": "Replicates the default scale-out rule in the console for YARN memory.",
                    "Action": {
                        "SimpleScalingPolicyConfiguration": {
                            "AdjustmentType": "CHANGE_IN_CAPACITY",
                            "ScalingAdjustment": 1,
                            "CoolDown": 300
                        }
                    },
                    "Trigger": {
                        "CloudWatchAlarmDefinition": {
                            "ComparisonOperator": "LESS_THAN",
                            "EvaluationPeriods": 1,
                            "MetricName": "YARNMemoryAvailablePercentage",
                            "Namespace": "AWS/ElasticMapReduce",
                            "Period": 300,
                            "Threshold": 15,
                            "Statistic": "AVERAGE",
                            "Unit": "PERCENT",
                            "Dimensions": [
                                {
                                    "Key": "JobFlowId",
                                    "Value": "${emr.clusterId}"
                                }
                            ]
                        }
                    }
                }
            ]
        }
    }
]
```
**Contoh 17: Tambahkan langkah JAR khusus saat membuat cluster**  
`create-cluster`Contoh berikut menambahkan langkah-langkah dengan menentukan file JAR yang disimpan di Amazon S3. Langkah-langkah mengirimkan pekerjaan ke cluster. Fungsi utama yang didefinisikan dalam file JAR dijalankan setelah instance EC2 disediakan, tindakan bootstrap apa pun telah dijalankan, dan aplikasi diinstal. Langkah-langkah ditentukan menggunakan`Type=CUSTOM_JAR`.  
Langkah-langkah JAR khusus memerlukan `Jar=` parameter, yang menentukan jalur dan nama file JAR. Parameter opsional adalah `Type``Name`,`ActionOnFailure`,`Args`,, dan`MainClass`. Jika kelas utama tidak ditentukan, file JAR harus menentukan `Main-Class` dalam file manifes nya.  

```
aws emr create-cluster \
    --steps Type=CUSTOM_JAR,Name=CustomJAR,ActionOnFailure=CONTINUE,Jar=s3://amzn-s3-demo-bucket/mytest.jar,Args=arg1,arg2,arg3 Type=CUSTOM_JAR,Name=CustomJAR,ActionOnFailure=CONTINUE,Jar=s3://amzn-s3-demo-bucket/mytest.jar,MainClass=mymainclass,Args=arg1,arg2,arg3  \
    --release-label emr-5.3.1 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
**Contoh 18: Untuk menambahkan langkah streaming saat membuat cluster**  
`create-cluster`Contoh berikut menambahkan langkah streaming ke cluster yang berakhir setelah semua langkah berjalan. Langkah streaming membutuhkan parameter `Type` dan`Args`. Langkah streaming parameter opsional adalah `Name` dan`ActionOnFailure`.  
Contoh berikut menentukan langkah inline.  

```
aws emr create-cluster \
    --steps Type=STREAMING,Name='Streaming Program',ActionOnFailure=CONTINUE,Args=[-files,s3://elasticmapreduce/samples/wordcount/wordSplitter.py,-mapper,wordSplitter.py,-reducer,aggregate,-input,s3://elasticmapreduce/samples/wordcount/input,-output,s3://amzn-s3-demo-bucket/wordcount/output] \
    --release-label emr-5.3.1 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
Contoh berikut menggunakan file konfigurasi JSON yang disimpan secara lokal bernama. `multiplefiles.json` Konfigurasi JSON menentukan beberapa file. Untuk menentukan beberapa file dalam satu langkah, Anda harus menggunakan file konfigurasi JSON untuk menentukan langkahnya. Argumen JSON harus menyertakan opsi dan nilai sebagai item mereka sendiri dalam daftar.  

```
aws emr create-cluster \
    --steps file://./multiplefiles.json \
    --release-label emr-5.9.0  \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
Isi dari `multiplefiles.json`:  

```
[
    {
        "Name": "JSON Streaming Step",
        "Args": [
            "-files",
            "s3://elasticmapreduce/samples/wordcount/wordSplitter.py",
            "-mapper",
            "wordSplitter.py",
            "-reducer",
            "aggregate",
            "-input",
            "s3://elasticmapreduce/samples/wordcount/input",
            "-output",
            "s3://amzn-s3-demo-bucket/wordcount/output"
        ],
        "ActionOnFailure": "CONTINUE",
        "Type": "STREAMING"
    }
]
```
**Contoh 19: Untuk menambahkan langkah Hive saat membuat cluster**  
Contoh berikut menambahkan langkah-langkah Hive saat membuat cluster. Langkah-langkah sarang membutuhkan parameter `Type` dan`Args`. Parameter opsional langkah sarang adalah `Name` dan`ActionOnFailure`.  

```
aws emr create-cluster \
    --steps Type=HIVE,Name='Hive program',ActionOnFailure=CONTINUE,ActionOnFailure=TERMINATE_CLUSTER,Args=[-f,s3://elasticmapreduce/samples/hive-ads/libs/model-build.q,-d,INPUT=s3://elasticmapreduce/samples/hive-ads/tables,-d,OUTPUT=s3://amzn-s3-demo-bucket/hive-ads/output/2014-04-18/11-07-32,-d,LIBS=s3://elasticmapreduce/samples/hive-ads/libs] \
    --applications Name=Hive \
    --release-label emr-5.3.1 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
**Contoh 20: Untuk menambahkan langkah Babi saat membuat cluster**  
Contoh berikut menambahkan langkah Babi saat membuat cluster. Parameter langkah babi yang diperlukan adalah `Type` dan`Args`. Parameter opsional langkah babi adalah `Name` dan`ActionOnFailure`.  

```
aws emr create-cluster \
    --steps Type=PIG,Name='Pig program',ActionOnFailure=CONTINUE,Args=[-f,s3://elasticmapreduce/samples/pig-apache/do-reports2.pig,-p,INPUT=s3://elasticmapreduce/samples/pig-apache/input,-p,OUTPUT=s3://amzn-s3-demo-bucket/pig-apache/output] \
    --applications Name=Pig \
    --release-label emr-5.3.1 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
**Contoh 21: Untuk menambahkan tindakan bootstrap**  
`create-cluster`Contoh berikut menjalankan dua tindakan bootstrap didefinisikan sebagai skrip yang disimpan di Amazon S3.  

```
aws emr create-cluster \
    --bootstrap-actions Path=s3://amzn-s3-demo-bucket/myscript1,Name=BootstrapAction1,Args=[arg1,arg2] Path=s3://amzn-s3-demo-bucket/myscript2,Name=BootstrapAction2,Args=[arg1,arg2] \
    --release-label emr-5.3.1 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large \
    --auto-terminate
```
**Contoh 22: Untuk mengaktifkan tampilan konsisten EMRFS dan menyesuaikan pengaturan dan RetryCount RetryPeriod **  
`create-cluster`Contoh berikut menentukan hitungan coba lagi dan periode coba lagi untuk tampilan konsisten EMRFS. `Consistent=true`Argumen diperlukan.  

```
aws emr create-cluster \
    --instance-type m4.large \
    --release-label emr-5.9.0 \
    --emrfs Consistent=true,RetryCount=6,RetryPeriod=30
```
Contoh berikut menentukan konfigurasi EMRFS yang sama seperti contoh sebelumnya, menggunakan file konfigurasi JSON yang disimpan secara lokal bernama. `emrfsconfig.json`  

```
aws emr create-cluster \
    --instance-type m4.large \
    --release-label emr-5.9.0 \
    --emrfs file://emrfsconfig.json
```
Isi dari `emrfsconfig.json`:  

```
{
    "Consistent": true,
    "RetryCount": 6,
    "RetryPeriod": 30
}
```
**Contoh 23: Untuk membuat cluster dengan Kerberos dikonfigurasi**  
`create-cluster`Contoh berikut membuat cluster menggunakan konfigurasi keamanan dengan Kerberos diaktifkan, dan menetapkan parameter Kerberos untuk cluster menggunakan. `--kerberos-attributes`  
Perintah berikut menentukan atribut Kerberos untuk cluster inline.  

```
aws emr create-cluster \
    --instance-type m3.xlarge \
    --release-label emr-5.10.0 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole \
    --security-configuration mySecurityConfiguration \
    --kerberos-attributes Realm=EC2.INTERNAL,KdcAdminPassword=123,CrossRealmTrustPrincipalPassword=123
```
Perintah berikut menentukan atribut yang sama, tetapi referensi file JSON yang disimpan secara lokal bernama. `kerberos_attributes.json` Dalam contoh ini, file disimpan di direktori yang sama tempat Anda menjalankan perintah. Anda juga dapat mereferensikan file konfigurasi yang disimpan di Amazon S3.  

```
aws emr create-cluster \
    --instance-type m3.xlarge \
    --release-label emr-5.10.0 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole \
    --security-configuration mySecurityConfiguration \
    --kerberos-attributes file://kerberos_attributes.json
```
Isi dari `kerberos_attributes.json`:  

```
{
    "Realm": "EC2.INTERNAL",
    "KdcAdminPassword": "123",
    "CrossRealmTrustPrincipalPassword": "123",
}
```
`create-cluster`Contoh berikut membuat klaster EMR Amazon yang menggunakan `--instance-groups` konfigurasi dan memiliki kebijakan penskalaan terkelola.  

```
aws emr create-cluster \
    --release-label emr-5.30.0 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
    --managed-scaling-policy ComputeLimits='{MinimumCapacityUnits=2,MaximumCapacityUnits=4,UnitType=Instances}'
```
`create-cluster`Contoh berikut membuat kluster EMR Amazon yang menggunakan “-- log-encryption-kms-key -id” untuk menentukan ID kunci KMS yang digunakan untuk enkripsi Log.  

```
aws emr create-cluster \
    --release-label emr-5.30.0 \
    --log-uri s3://amzn-s3-demo-bucket/myLog \
    --log-encryption-kms-key-id arn:aws:kms:us-east-1:110302272565:key/dd559181-283e-45d7-99d1-66da348c4d33 \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=2,InstanceType=m4.large
```
`create-cluster`Contoh berikut membuat klaster EMR Amazon yang menggunakan konfigurasi “--placement-group-configs” untuk menempatkan node master dalam klaster ketersediaan tinggi (HA) dalam grup penempatan EC2 menggunakan strategi penempatan. `SPREAD`  

```
aws emr create-cluster \
    --release-label emr-5.30.0 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=3,InstanceType=m4.largeInstanceGroupType=CORE,InstanceCount=1,InstanceType=m4.large \
    --placement-group-configs InstanceRole=MASTER
```
`create-cluster`Contoh berikut membuat kluster EMR Amazon yang menggunakan konfigurasi “--auto-termination-policy” untuk menempatkan ambang terminasi idle otomatis untuk klaster.  

```
aws emr create-cluster \
    --release-label emr-5.34.0 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=1,InstanceType=m4.large \
    --auto-termination-policy IdleTimeout=100
```
`create-cluster`Contoh berikut membuat kluster EMR Amazon yang menggunakan “--os-release-label” untuk menentukan rilis Amazon Linux untuk peluncuran cluster  

```
aws emr create-cluster \
    --release-label emr-6.6.0 \
    --os-release-label 2.0.20220406.1 \
    --service-role EMR_DefaultRole \
    --ec2-attributes InstanceProfile=EMR_EC2_DefaultRole \
    --instance-groups InstanceGroupType=MASTER,InstanceCount=1,InstanceType=m4.large InstanceGroupType=CORE,InstanceCount=1,InstanceType=m4.large
```
**Contoh 24: Untuk menentukan atribut volume root EBS: size, iops, dan throughput untuk instance cluster yang dibuat dengan rilis EMR 6.15.0 dan yang lebih baru**  
`create-cluster`Contoh berikut membuat klaster EMR Amazon yang menggunakan atribut volume root untuk mengonfigurasi spesifikasi volume root untuk instans EC2.  

```
aws emr create-cluster \
    --name "Cluster with My Custom AMI" \
    --custom-ami-id ami-a518e6df \
    --ebs-root-volume-size 20 \
    --ebs-root-volume-iops 3000 \
    --ebs-root-volume-throughput 125 \
    --release-label emr-6.15.0 \
    --use-default-roles \
    --instance-count 2 \
    --instance-type m4.large
```
+  Untuk detail API, lihat [CreateClusterExamples](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/create-cluster-examples.html)di *Referensi AWS CLI Perintah*. 

### `create-default-roles`
<a name="emr_CreateDefaultRoles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-default-roles`.

**AWS CLI**  
**1. Untuk membuat peran IAM default untuk EC2**  
Perintah:  

```
aws emr create-default-roles
```
Output:  

```
If the role already exists then the command returns nothing.

If the role does not exist then the output will be:

[
    {
        "RolePolicy": {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Action": [
                        "cloudwatch:*",
                        "dynamodb:*",
                        "ec2:Describe*",
                        "elasticmapreduce:Describe*",
                        "elasticmapreduce:ListBootstrapActions",
                        "elasticmapreduce:ListClusters",
                        "elasticmapreduce:ListInstanceGroups",
                        "elasticmapreduce:ListInstances",
                        "elasticmapreduce:ListSteps",
                        "kinesis:CreateStream",
                        "kinesis:DeleteStream",
                        "kinesis:DescribeStream",
                        "kinesis:GetRecords",
                        "kinesis:GetShardIterator",
                        "kinesis:MergeShards",
                        "kinesis:PutRecord",
                        "kinesis:SplitShard",
                        "rds:Describe*",
                        "s3:*",
                        "sdb:*",
                        "sns:*",
                        "sqs:*"
                    ],
                    "Resource": "*",
                    "Effect": "Allow"
                }
            ]
        },
        "Role": {
            "AssumeRolePolicyDocument": {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Action": "sts:AssumeRole",
                        "Sid": "",
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "ec2.amazonaws.com"
                        }
                    }
                ]
            },
            "RoleId": "AROAIQ5SIQUGL5KMYBJX6",
            "CreateDate": "2015-06-09T17:09:04.602Z",
            "RoleName": "EMR_EC2_DefaultRole",
            "Path": "/",
            "Arn": "arn:aws:iam::176430881729:role/EMR_EC2_DefaultRole"
        }
    },
    {
        "RolePolicy": {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Action": [
                        "ec2:AuthorizeSecurityGroupIngress",
                        "ec2:CancelSpotInstanceRequests",
                        "ec2:CreateSecurityGroup",
                        "ec2:CreateTags",
                        "ec2:DeleteTags",
                        "ec2:DescribeAvailabilityZones",
                        "ec2:DescribeAccountAttributes",
                        "ec2:DescribeInstances",
                        "ec2:DescribeInstanceStatus",
                        "ec2:DescribeKeyPairs",
                        "ec2:DescribePrefixLists",
                        "ec2:DescribeRouteTables",
                        "ec2:DescribeSecurityGroups",
                        "ec2:DescribeSpotInstanceRequests",
                        "ec2:DescribeSpotPriceHistory",
                        "ec2:DescribeSubnets",
                        "ec2:DescribeVpcAttribute",
                        "ec2:DescribeVpcEndpoints",
                        "ec2:DescribeVpcEndpointServices",
                        "ec2:DescribeVpcs",
                        "ec2:ModifyImageAttribute",
                        "ec2:ModifyInstanceAttribute",
                        "ec2:RequestSpotInstances",
                        "ec2:RunInstances",
                        "ec2:TerminateInstances",
                        "iam:GetRole",
                        "iam:GetRolePolicy",
                        "iam:ListInstanceProfiles",
                        "iam:ListRolePolicies",
                        "iam:PassRole",
                        "s3:CreateBucket",
                        "s3:Get*",
                        "s3:List*",
                        "sdb:BatchPutAttributes",
                        "sdb:Select",
                        "sqs:CreateQueue",
                        "sqs:Delete*",
                        "sqs:GetQueue*",
                        "sqs:ReceiveMessage"
                    ],
                    "Resource": "*",
                    "Effect": "Allow"
                }
            ]
        },
        "Role": {
            "AssumeRolePolicyDocument": {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Action": "sts:AssumeRole",
                        "Sid": "",
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "elasticmapreduce.amazonaws.com"
                        }
                    }
                ]
            },
            "RoleId": "AROAI3SRVPPVSRDLARBPY",
            "CreateDate": "2015-06-09T17:09:10.401Z",
            "RoleName": "EMR_DefaultRole",
            "Path": "/",
            "Arn": "arn:aws:iam::176430881729:role/EMR_DefaultRole"
        }
    }
]
```
+  Untuk detail API, lihat [CreateDefaultRoles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/create-default-roles.html)di *Referensi AWS CLI Perintah*. 

### `create-security-configuration`
<a name="emr_CreateSecurityConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-security-configuration`.

**AWS CLI**  
**1. Untuk membuat konfigurasi keamanan dengan enkripsi dalam transit yang diaktifkan dengan PEM untuk penyedia sertifikat, dan enkripsi saat istirahat diaktifkan dengan SSE-S3 untuk enkripsi S3 dan -KMS untuk penyedia kunci disk lokal AWS**  
Perintah:  

```
 aws emr create-security-configuration --name MySecurityConfig --security-configuration '{
        "EncryptionConfiguration": {
                "EnableInTransitEncryption" : true,
                "EnableAtRestEncryption" : true,
                "InTransitEncryptionConfiguration" : {
                        "TLSCertificateConfiguration" : {
                                "CertificateProviderType" : "PEM",
                                "S3Object" : "s3://mycertstore/artifacts/MyCerts.zip"
                        }
                },
                "AtRestEncryptionConfiguration" : {
                        "S3EncryptionConfiguration" : {
                                "EncryptionMode" : "SSE-S3"
                        },
                        "LocalDiskEncryptionConfiguration" : {
                                "EncryptionKeyProviderType" : "AwsKms",
                                "AwsKmsKey" : "arn:aws:kms:us-east-1:123456789012:key/12345678-1234-1234-1234-123456789012"
                        }
                }
        }
}'
```
Output:  

```
{
"CreationDateTime": 1474070889.129,
"Name": "MySecurityConfig"
}
```
Setara JSON (isi security\$1configuration.json):  

```
{
    "EncryptionConfiguration": {
        "EnableInTransitEncryption": true,
        "EnableAtRestEncryption": true,
        "InTransitEncryptionConfiguration": {
            "TLSCertificateConfiguration": {
                "CertificateProviderType": "PEM",
                "S3Object": "s3://mycertstore/artifacts/MyCerts.zip"
            }
        },
        "AtRestEncryptionConfiguration": {
            "S3EncryptionConfiguration": {
                "EncryptionMode": "SSE-S3"
            },
            "LocalDiskEncryptionConfiguration": {
                "EncryptionKeyProviderType": "AwsKms",
                "AwsKmsKey": "arn:aws:kms:us-east-1:123456789012:key/12345678-1234-1234-1234-123456789012"
            }
        }
    }
}
```
Perintah (menggunakan security\$1configuration.json):  

```
aws emr create-security-configuration --name "MySecurityConfig" --security-configuration file://./security_configuration.json
```
Output:  

```
{
"CreationDateTime": 1474070889.129,
"Name": "MySecurityConfig"
}
```
**2. Untuk membuat konfigurasi keamanan dengan Kerberos diaktifkan menggunakan KDC khusus cluster dan kepercayaan lintas alam**  
Perintah:  

```
 aws emr create-security-configuration --name MySecurityConfig --security-configuration '{
     "AuthenticationConfiguration": {
         "KerberosConfiguration": {
             "Provider": "ClusterDedicatedKdc",
             "ClusterDedicatedKdcConfiguration": {
                 "TicketLifetimeInHours": 24,
                 "CrossRealmTrustConfiguration": {
                   "Realm": "AD.DOMAIN.COM",
                   "Domain": "ad.domain.com",
                   "AdminServer": "ad.domain.com",
                   "KdcServer": "ad.domain.com"
                 }
             }
         }
     }
}'
```
Output:  

```
{
"CreationDateTime": 1490225558.982,
"Name": "MySecurityConfig"
}
```
Setara JSON (isi security\$1configuration.json):  

```
{
    "AuthenticationConfiguration": {
        "KerberosConfiguration": {
            "Provider": "ClusterDedicatedKdc",
            "ClusterDedicatedKdcConfiguration": {
                "TicketLifetimeInHours": 24,
                "CrossRealmTrustConfiguration": {
                    "Realm": "AD.DOMAIN.COM",
                    "Domain": "ad.domain.com",
                    "AdminServer": "ad.domain.com",
                    "KdcServer": "ad.domain.com"
                }
            }
        }
    }
}
```
Perintah (menggunakan security\$1configuration.json):  

```
aws emr create-security-configuration --name "MySecurityConfig" --security-configuration file://./security_configuration.json
```
Output:  

```
{
"CreationDateTime": 1490225558.982,
"Name": "MySecurityConfig"
}
```
+  Untuk detail API, lihat [CreateSecurityConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/create-security-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-security-configuration`
<a name="emr_DeleteSecurityConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-security-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi keamanan di wilayah saat ini**  
Perintah:  

```
aws emr delete-security-configuration --name MySecurityConfig
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeleteSecurityConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/delete-security-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster`
<a name="emr_DescribeCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster`.

**AWS CLI**  
Perintah:  

```
aws emr describe-cluster --cluster-id j-XXXXXXXX
```
Output:  

```
For release-label based uniform instance groups cluster:

        {
            "Cluster": {
                "Status": {
                    "Timeline": {
                        "ReadyDateTime": 1436475075.199,
                        "CreationDateTime": 1436474656.563,
                    },
                    "State": "WAITING",
                    "StateChangeReason": {
                        "Message": "Waiting for steps to run"
                    }
                },
                "Ec2InstanceAttributes": {
                    "ServiceAccessSecurityGroup": "sg-xxxxxxxx",
                    "EmrManagedMasterSecurityGroup": "sg-xxxxxxxx",
                    "IamInstanceProfile": "EMR_EC2_DefaultRole",
                    "Ec2KeyName": "myKey",
                    "Ec2AvailabilityZone": "us-east-1c",
                    "EmrManagedSlaveSecurityGroup": "sg-yyyyyyyyy"
                },
                "Name": "My Cluster",
                "ServiceRole": "EMR_DefaultRole",
                "Tags": [],
                "TerminationProtected": true,
                "UnhealthyNodeReplacement": true,
                "ReleaseLabel": "emr-4.0.0",
                "NormalizedInstanceHours": 96,
                "InstanceGroups": [
                    {
                        "RequestedInstanceCount": 2,
                        "Status": {
                            "Timeline": {
                                "ReadyDateTime": 1436475074.245,
                                "CreationDateTime": 1436474656.564,
                                "EndDateTime": 1436638158.387
                            },
                            "State": "RUNNING",
                            "StateChangeReason": {
                                "Message": "",
                            }
                        },
                        "Name": "CORE",
                        "InstanceGroupType": "CORE",
                        "Id": "ig-YYYYYYY",
                        "Configurations": [],
                        "InstanceType": "m3.large",
                        "Market": "ON_DEMAND",
                        "RunningInstanceCount": 2
                    },
                    {
                        "RequestedInstanceCount": 1,
                        "Status": {
                            "Timeline": {
                                "ReadyDateTime": 1436475074.245,
                                "CreationDateTime": 1436474656.564,
                                "EndDateTime": 1436638158.387
                            },
                            "State": "RUNNING",
                            "StateChangeReason": {
                                "Message": "",
                            }
                        },
                        "Name": "MASTER",
                        "InstanceGroupType": "MASTER",
                        "Id": "ig-XXXXXXXXX",
                        "Configurations": [],
                        "InstanceType": "m3.large",
                        "Market": "ON_DEMAND",
                        "RunningInstanceCount": 1
                    }
                ],
                "Applications": [
                    {
                        "Name": "Hadoop"
                    }
                ],
                "VisibleToAllUsers": true,
                "BootstrapActions": [],
                "MasterPublicDnsName": "ec2-54-147-144-78.compute-1.amazonaws.com",
                "AutoTerminate": false,
                "Id": "j-XXXXXXXX",
                "Configurations": [
                    {
                        "Properties": {
                            "fs.s3.consistent.retryPeriodSeconds": "20",
                            "fs.s3.enableServerSideEncryption": "true",
                            "fs.s3.consistent": "false",
                            "fs.s3.consistent.retryCount": "2"
                        },
                        "Classification": "emrfs-site"
                    }
                ]
            }
        }


For release-label based instance fleet cluster:
{
    "Cluster": {
        "Status": {
            "Timeline": {
                "ReadyDateTime": 1487897289.705,
                "CreationDateTime": 1487896933.942
            },
            "State": "WAITING",
            "StateChangeReason": {
                "Message": "Waiting for steps to run"
            }
        },
        "Ec2InstanceAttributes": {
            "EmrManagedMasterSecurityGroup": "sg-xxxxx",
            "RequestedEc2AvailabilityZones": [],
            "RequestedEc2SubnetIds": [],
            "IamInstanceProfile": "EMR_EC2_DefaultRole",
            "Ec2AvailabilityZone": "us-east-1a",
            "EmrManagedSlaveSecurityGroup": "sg-xxxxx"
        },
        "Name": "My Cluster",
        "ServiceRole": "EMR_DefaultRole",
        "Tags": [],
        "TerminationProtected": false,
        "UnhealthyNodeReplacement": false,
        "ReleaseLabel": "emr-5.2.0",
        "NormalizedInstanceHours": 472,
        "InstanceCollectionType": "INSTANCE_FLEET",
        "InstanceFleets": [
            {
                "Status": {
                    "Timeline": {
                        "ReadyDateTime": 1487897212.74,
                        "CreationDateTime": 1487896933.948
                    },
                    "State": "RUNNING",
                    "StateChangeReason": {
                        "Message": ""
                    }
                },
                "ProvisionedSpotCapacity": 1,
                "Name": "MASTER",
                "InstanceFleetType": "MASTER",
                "LaunchSpecifications": {
                    "SpotSpecification": {
                        "TimeoutDurationMinutes": 60,
                        "TimeoutAction": "TERMINATE_CLUSTER"
                    }
                },
                "TargetSpotCapacity": 1,
                "ProvisionedOnDemandCapacity": 0,
                "InstanceTypeSpecifications": [
                    {
                        "BidPrice": "0.5",
                        "InstanceType": "m3.xlarge",
                        "WeightedCapacity": 1
                    }
                ],
                "Id": "if-xxxxxxx",
                "TargetOnDemandCapacity": 0
            }
        ],
        "Applications": [
            {
                "Version": "2.7.3",
                "Name": "Hadoop"
            }
        ],
        "ScaleDownBehavior": "TERMINATE_AT_INSTANCE_HOUR",
        "VisibleToAllUsers": true,
        "BootstrapActions": [],
        "MasterPublicDnsName": "ec2-xxx-xx-xxx-xx.compute-1.amazonaws.com",
        "AutoTerminate": false,
        "Id": "j-xxxxx",
        "Configurations": []
    }
}

For ami based uniform instance group cluster:

    {
        "Cluster": {
            "Status": {
                "Timeline": {
                    "ReadyDateTime": 1399400564.432,
                    "CreationDateTime": 1399400268.62
                },
                "State": "WAITING",
                "StateChangeReason": {
                    "Message": "Waiting for steps to run"
                }
            },
            "Ec2InstanceAttributes": {
                "IamInstanceProfile": "EMR_EC2_DefaultRole",
                "Ec2AvailabilityZone": "us-east-1c"
            },
            "Name": "My Cluster",
            "Tags": [],
            "TerminationProtected": true,
            "UnhealthyNodeReplacement": true,
            "RunningAmiVersion": "2.5.4",
            "InstanceGroups": [
                {
                    "RequestedInstanceCount": 1,
                    "Status": {
                        "Timeline": {
                            "ReadyDateTime": 1399400558.848,
                            "CreationDateTime": 1399400268.621
                        },
                        "State": "RUNNING",
                        "StateChangeReason": {
                            "Message": ""
                        }
                    },
                    "Name": "Master instance group",
                    "InstanceGroupType": "MASTER",
                    "InstanceType": "m1.small",
                    "Id": "ig-ABCD",
                    "Market": "ON_DEMAND",
                    "RunningInstanceCount": 1
                },
                {
                    "RequestedInstanceCount": 2,
                    "Status": {
                        "Timeline": {
                            "ReadyDateTime": 1399400564.439,
                            "CreationDateTime": 1399400268.621
                        },
                        "State": "RUNNING",
                        "StateChangeReason": {
                            "Message": ""
                        }
                    },
                    "Name": "Core instance group",
                    "InstanceGroupType": "CORE",
                    "InstanceType": "m1.small",
                    "Id": "ig-DEF",
                    "Market": "ON_DEMAND",
                    "RunningInstanceCount": 2
                }
            ],
            "Applications": [
                {
                    "Version": "1.0.3",
                    "Name": "hadoop"
                }
            ],
            "BootstrapActions": [],
            "VisibleToAllUsers": false,
            "RequestedAmiVersion": "2.4.2",
            "LogUri": "s3://myLogUri/",
            "AutoTerminate": false,
            "Id": "j-XXXXXXXX"
        }
    }
```
+  Untuk detail API, lihat [DescribeCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/describe-cluster.html)di *Referensi AWS CLI Perintah*. 

### `describe-step`
<a name="emr_DescribeStep_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-step`.

**AWS CLI**  
Perintah berikut menjelaskan langkah dengan ID langkah `s-3LZC0QUT43AM` dalam cluster dengan ID cluster`j-3SD91U2E1L2QX`:  

```
aws emr describe-step --cluster-id j-3SD91U2E1L2QX --step-id s-3LZC0QUT43AM
```
Output:  

```
{
    "Step": {
        "Status": {
            "Timeline": {
                "EndDateTime": 1433200470.481,
                "CreationDateTime": 1433199926.597,
                "StartDateTime": 1433200404.959
            },
            "State": "COMPLETED",
            "StateChangeReason": {}
        },
        "Config": {
            "Args": [
                "s3://us-west-2.elasticmapreduce/libs/hive/hive-script",
                "--base-path",
                "s3://us-west-2.elasticmapreduce/libs/hive/",
                "--install-hive",
                "--hive-versions",
                "0.13.1"
            ],
            "Jar": "s3://us-west-2.elasticmapreduce/libs/script-runner/script-runner.jar",
            "Properties": {}
        },
        "Id": "s-3LZC0QUT43AM",
        "ActionOnFailure": "TERMINATE_CLUSTER",
        "Name": "Setup hive"
    }
}
```
+  Untuk detail API, lihat [DescribeStep](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/describe-step.html)di *Referensi AWS CLI Perintah*. 

### `get`
<a name="emr_Get_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get`.

**AWS CLI**  
Berikut ini mengunduh `hadoop-examples.jar` arsip dari instance master di cluster dengan ID cluster`j-3SD91U2E1L2QX`:  

```
aws emr get --cluster-id j-3SD91U2E1L2QX --key-pair-file ~/.ssh/mykey.pem --src /home/hadoop-examples.jar --dest ~
```
+  Untuk detail API, lihat [Dapatkan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/get.html) *Referensi AWS CLI Perintah*. 

### `list-clusters`
<a name="emr_ListClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-clusters`.

**AWS CLI**  
Perintah berikut mencantumkan semua cluster EMR aktif di wilayah saat ini:  

```
aws emr list-clusters --active
```
Output:  

```
{
    "Clusters": [
        {
            "Status": {
                "Timeline": {
                    "ReadyDateTime": 1433200405.353,
                    "CreationDateTime": 1433199926.596
                },
                "State": "WAITING",
                "StateChangeReason": {
                    "Message": "Waiting after step completed"
                }
            },
            "NormalizedInstanceHours": 6,
            "Id": "j-3SD91U2E1L2QX",
            "Name": "my-cluster"
        }
    ]
}
```
+  Untuk detail API, lihat [ListClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/list-clusters.html)di *Referensi AWS CLI Perintah*. 

### `list-instance-fleets`
<a name="emr_ListInstanceFleets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-instance-fleets`.

**AWS CLI**  
**Untuk mendapatkan detail konfigurasi armada instance dalam sebuah cluster**  
Contoh ini mencantumkan rincian armada instance di cluster yang ditentukan.  
Perintah:  

```
list-instance-fleets --cluster-id 'j-12ABCDEFGHI34JK'
```
Output:  

```
{
  "InstanceFleets": [
      {
          "Status": {
              "Timeline": {
                  "ReadyDateTime": 1488759094.637,
                  "CreationDateTime": 1488758719.817
              },
              "State": "RUNNING",
              "StateChangeReason": {
                  "Message": ""
              }
          },
          "ProvisionedSpotCapacity": 6,
          "Name": "CORE",
          "InstanceFleetType": "CORE",
          "LaunchSpecifications": {
              "SpotSpecification": {
                  "TimeoutDurationMinutes": 60,
                  "TimeoutAction": "TERMINATE_CLUSTER"
              }
          },
          "ProvisionedOnDemandCapacity": 2,
          "InstanceTypeSpecifications": [
              {
                  "BidPrice": "0.5",
                  "InstanceType": "m3.xlarge",
                  "WeightedCapacity": 2
              }
          ],
          "Id": "if-1ABC2DEFGHIJ3"
      },
      {
          "Status": {
              "Timeline": {
                  "ReadyDateTime": 1488759058.598,
                  "CreationDateTime": 1488758719.811
              },
              "State": "RUNNING",
              "StateChangeReason": {
                  "Message": ""
              }
          },
          "ProvisionedSpotCapacity": 0,
          "Name": "MASTER",
          "InstanceFleetType": "MASTER",
          "ProvisionedOnDemandCapacity": 1,
          "InstanceTypeSpecifications": [
              {
                  "BidPriceAsPercentageOfOnDemandPrice": 100.0,
                  "InstanceType": "m3.xlarge",
                  "WeightedCapacity": 1
              }
          ],
         "Id": "if-2ABC4DEFGHIJ4"
      }
  ]
}
```
+  Untuk detail API, lihat [ListInstanceFleets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/list-instance-fleets.html)di *Referensi AWS CLI Perintah*. 

### `list-instances`
<a name="emr_ListInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-instances`.

**AWS CLI**  
Perintah berikut mencantumkan semua instance dalam cluster dengan ID `j-3C6XNQ39VR9WL` cluster:  

```
aws emr list-instances --cluster-id j-3C6XNQ39VR9WL
```
Output:  

```
For a uniform instance group based cluster
  {
    "Instances": [
         {
            "Status": {
                "Timeline": {
                    "ReadyDateTime": 1433200400.03,
                    "CreationDateTime": 1433199960.152
                },
                "State": "RUNNING",
                "StateChangeReason": {}
            },
            "Ec2InstanceId": "i-f19ecfee",
            "PublicDnsName": "ec2-52-52-41-150.us-west-2.compute.amazonaws.com",
            "PrivateDnsName": "ip-172-21-11-216.us-west-2.compute.internal",
            "PublicIpAddress": "52.52.41.150",
            "Id": "ci-3NNHQUQ2TWB6Y",
            "PrivateIpAddress": "172.21.11.216"
        },
        {
            "Status": {
                "Timeline": {
                    "ReadyDateTime": 1433200400.031,
                    "CreationDateTime": 1433199949.102
                },
                "State": "RUNNING",
                "StateChangeReason": {}
            },
            "Ec2InstanceId": "i-1feee4c2",
            "PublicDnsName": "ec2-52-63-246-32.us-west-2.compute.amazonaws.com",
            "PrivateDnsName": "ip-172-31-24-130.us-west-2.compute.internal",
            "PublicIpAddress": "52.63.246.32",
            "Id": "ci-GAOCMKNKDCV7",
            "PrivateIpAddress": "172.21.11.215"
        },
        {
            "Status": {
                "Timeline": {
                    "ReadyDateTime": 1433200400.031,
                    "CreationDateTime": 1433199949.102
                },
                "State": "RUNNING",
                "StateChangeReason": {}
            },
            "Ec2InstanceId": "i-15cfeee3",
            "PublicDnsName": "ec2-52-25-246-63.us-west-2.compute.amazonaws.com",
            "PrivateDnsName": "ip-172-31-24-129.us-west-2.compute.internal",
            "PublicIpAddress": "52.25.246.63",
            "Id": "ci-2W3TDFFB47UAD",
            "PrivateIpAddress": "172.21.11.214"
        }
    ]
  }


For a fleet based cluster:
   {
      "Instances": [
          {
              "Status": {
                  "Timeline": {
                      "ReadyDateTime": 1487810810.878,
                      "CreationDateTime": 1487810588.367,
                      "EndDateTime": 1488022990.924
                  },
                  "State": "TERMINATED",
                  "StateChangeReason": {
                      "Message": "Instance was terminated."
                  }
              },
              "Ec2InstanceId": "i-xxxxx",
              "InstanceFleetId": "if-xxxxx",
              "EbsVolumes": [],
              "PublicDnsName": "ec2-xx-xxx-xxx-xxx.compute-1.amazonaws.com",
              "InstanceType": "m3.xlarge",
              "PrivateDnsName": "ip-xx-xx-xxx-xx.ec2.internal",
              "Market": "SPOT",
              "PublicIpAddress": "xx.xx.xxx.xxx",
              "Id": "ci-xxxxx",
              "PrivateIpAddress": "10.47.191.80"
          }
      ]
  }
```
+  Untuk detail API, lihat [ListInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/list-instances.html)di *Referensi AWS CLI Perintah*. 

### `list-security-configurations`
<a name="emr_ListSecurityConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-security-configurations`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi keamanan di wilayah saat ini**  
Perintah:  

```
aws emr list-security-configurations
```
Output:  

```
{
    "SecurityConfigurations": [
        {
            "CreationDateTime": 1473889697.417,
            "Name": "MySecurityConfig-1"
        },
        {
            "CreationDateTime": 1473889697.417,
            "Name": "MySecurityConfig-2"
        }
    ]
}
```
+  Untuk detail API, lihat [ListSecurityConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/list-security-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-steps`
<a name="emr_ListSteps_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-steps`.

**AWS CLI**  
Perintah berikut mencantumkan semua langkah dalam cluster dengan ID cluster`j-3SD91U2E1L2QX`:  

```
aws emr list-steps --cluster-id j-3SD91U2E1L2QX
```
+  Untuk detail API, lihat [ListSteps](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/list-steps.html)di *Referensi AWS CLI Perintah*. 

### `list-studios`
<a name="emr_ListStudios_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-studios`.

**AWS CLI**  
**Untuk daftar EMR Studios yang tersedia**  
`list-studios`Contoh berikut mencantumkan EMR Studios di akun. AWS :  

```
aws emr list-studios
```
Output:  

```
{
    "Studios": [
        {
            "StudioId": "es-XXXXXXX132E0X7R0W7GAS1MVB",
            "Name": "My_EMR_Studio",
            "Url": "https://es-XXXXXXX132E0X7R0W7GAS1MVB.emrstudio-prod.us-east-1.amazonaws.com",
            "AuthMode": "IAM",
            "CreationTime": 1761664173.624
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memantau, memperbarui, dan menghapus sumber daya Amazon EMR Studio](https://docs.aws.amazon.com/emr/latest/ManagementGuide/emr-studio-manage-studio.html) di Panduan Manajemen *EMR* Amazon.  
+  Untuk detail API, lihat [ListStudios](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/list-studios.html)di *Referensi AWS CLI Perintah*. 

### `modify-cluster-attributes`
<a name="emr_ModifyClusterAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cluster-attributes`.

**AWS CLI**  
Perintah berikut menetapkan visibilitas cluster EMR dengan `j-301CDNY0J5XM4` ID untuk semua pengguna:  

```
aws emr modify-cluster-attributes --cluster-id j-301CDNY0J5XM4 --visible-to-all-users
```
+  Untuk detail API, lihat [ModifyClusterAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/modify-cluster-attributes.html)di *Referensi AWS CLI Perintah*. 

### `modify-instance-fleet`
<a name="emr_ModifyInstanceFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-instance-fleet`.

**AWS CLI**  
**Untuk mengubah kapasitas target armada instance**  
Contoh ini mengubah kapasitas target On-Demand dan Spot menjadi 1 untuk armada instans yang ditentukan.  
Perintah:  

```
aws emr modify-instance-fleet --cluster-id 'j-12ABCDEFGHI34JK' --instance-fleet InstanceFleetId='if-2ABC4DEFGHIJ4',TargetOnDemandCapacity=1,TargetSpotCapacity=1
```
+  Untuk detail API, lihat [ModifyInstanceFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/modify-instance-fleet.html)di *Referensi AWS CLI Perintah*. 

### `put`
<a name="emr_Put_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put`.

**AWS CLI**  
Perintah berikut mengunggah file bernama `healthcheck.sh` ke instance master di cluster dengan ID `j-3SD91U2E1L2QX` cluster:  

```
aws emr put --cluster-id j-3SD91U2E1L2QX --key-pair-file ~/.ssh/mykey.pem --src ~/scripts/healthcheck.sh --dest /home/hadoop/bin/healthcheck.sh
```
+  Untuk detail API, lihat [Masukkan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/put.html) *Referensi AWS CLI Perintah*. 

### `remove-tags`
<a name="emr_RemoveTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags`.

**AWS CLI**  
Perintah berikut menghapus tag dengan kunci `prod` dari cluster dengan ID cluster`j-3SD91U2E1L2QX`:  

```
aws emr remove-tags --resource-id j-3SD91U2E1L2QX --tag-keys prod
```
+  Untuk detail API, lihat [RemoveTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/remove-tags.html)di *Referensi AWS CLI Perintah*. 

### `schedule-hbase-backup`
<a name="emr_ScheduleHbaseBackup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`schedule-hbase-backup`.

**AWS CLI**  
**Catatan: Perintah ini hanya dapat digunakan HBase pada AMI versi 2.x dan 3.x**  
**1. Untuk menjadwalkan HBase cadangan penuh >>>>>> 06ab6d6e13564b5733d75abaf3b599f93cf39a23**  
Perintah:  

```
aws emr schedule-hbase-backup --cluster-id j-XXXXXXYY --type full --dir
s3://amzn-s3-demo-bucket/backup --interval 10 --unit hours --start-time
2014-04-21T05:26:10Z --consistent
```
Output:  

```
None
```
**2. Untuk menjadwalkan pencadangan tambahan HBase **  
Perintah:  

```
aws emr schedule-hbase-backup --cluster-id j-XXXXXXYY --type incremental
 --dir s3://amzn-s3-demo-bucket/backup --interval 30 --unit minutes --start-time
2014-04-21T05:26:10Z --consistent
```
Output:  

```
None
```
+  Untuk detail API, lihat [ScheduleHbaseBackup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/schedule-hbase-backup.html)di *Referensi AWS CLI Perintah*. 

### `socks`
<a name="emr_Socks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`socks`.

**AWS CLI**  
Perintah berikut membuka koneksi socks dengan instance master di cluster dengan ID cluster`j-3SD91U2E1L2QX`:  

```
aws emr socks --cluster-id j-3SD91U2E1L2QX --key-pair-file ~/.ssh/mykey.pem
```
Opsi key pair file mengambil jalur lokal ke file kunci pribadi.  
+  Untuk detail API, lihat [Socks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/socks.html) in *AWS CLI Command Reference*. 

### `ssh`
<a name="emr_Ssh_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ssh`.

**AWS CLI**  
Perintah berikut membuka koneksi ssh dengan instance master di cluster dengan ID `j-3SD91U2E1L2QX` cluster:  

```
aws emr ssh --cluster-id j-3SD91U2E1L2QX --key-pair-file ~/.ssh/mykey.pem
```
Opsi key pair file mengambil jalur lokal ke file kunci pribadi.  
Output:  

```
ssh -o StrictHostKeyChecking=no -o ServerAliveInterval=10 -i /home/local/user/.ssh/mykey.pem hadoop@ec2-52-52-41-150.us-west-2.compute.amazonaws.com
Warning: Permanently added 'ec2-52-52-41-150.us-west-2.compute.amazonaws.com,52.52.41.150' (ECDSA) to the list of known hosts.
Last login: Mon Jun  1 23:15:38 2015

      __|  __|_  )
       _|  (     /   Amazon Linux AMI
      ___|\___|___|

https://aws.amazon.com/amazon-linux-ami/2015.03-release-notes/
26 package(s) needed for security, out of 39 available
Run "sudo yum update" to apply all updates.

--------------------------------------------------------------------------------

Welcome to Amazon Elastic MapReduce running Hadoop and Amazon Linux.

Hadoop is installed in /home/hadoop. Log files are in /mnt/var/log/hadoop. Check
/mnt/var/log/hadoop/steps for diagnosing step failures.

The Hadoop UI can be accessed via the following commands:

  ResourceManager    lynx http://ip-172-21-11-216:9026/
  NameNode           lynx http://ip-172-21-11-216:9101/

--------------------------------------------------------------------------------

[hadoop@ip-172-31-16-216 ~]$
```
+  Untuk detail API, lihat [Ssh](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr/ssh.html) di *Referensi AWS CLI Perintah*. 

# Amazon EMR pada contoh EKS menggunakan AWS CLI
<a name="cli_2_emr-containers_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan EMR AWS Command Line Interface dengan Amazon di EKS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `update-role-trust-policy`
<a name="emr-containers_UpdateRoleTrustPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-role-trust-policy`.

**AWS CLI**  
**Untuk memperbarui kebijakan kepercayaan Peran IAM yang akan digunakan dengan Amazon EMR di EKS**  
**Perintah contoh ini memperbarui kebijakan kepercayaan dari peran bernama **example\$1iam\$1role** sedemikian rupa sehingga dapat digunakan dengan Amazon EMR di EKS dengan namespace example\$1namespace dari cluster EKS bernama **example\$1cluster**.**  
Perintah:  

```
aws emr-containers update-role-trust-policy \
    --cluster example_cluster \
    --namespace example_namespace \
    --role-name example_iam_role
```
Output:  

```
If the trust policy has already been updated, then the output will be:
Trust policy statement already exists for role example_iam_role. No
changes were made!

If the trust policy has not been updated yet, then the output will be:
Successfully updated trust policy of role example_iam_role.
```
+  Untuk detail API, lihat [UpdateRoleTrustPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/emr-containers/update-role-trust-policy.html)di *Referensi AWS CLI Perintah*. 

# EventBridge contoh menggunakan AWS CLI
<a name="cli_2_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with EventBridge.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-rule`
<a name="eventbridge_DeleteRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-rule`.

**AWS CLI**  
**Untuk menghapus aturan CloudWatch Acara**  
Contoh ini menghapus aturan bernama EC2InstanceStateChanges:  

```
aws events delete-rule --name "EC2InstanceStateChanges"
```
+  Untuk detail API, lihat [DeleteRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/delete-rule.html)di *Referensi AWS CLI Perintah*. 

### `describe-rule`
<a name="eventbridge_DescribeRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-rule`.

**AWS CLI**  
**Untuk menampilkan informasi tentang aturan CloudWatch Acara**  
Contoh ini menampilkan informasi tentang aturan bernama DailyLambdaFunction:  

```
aws events describe-rule --name "DailyLambdaFunction"
```
+  Untuk detail API, lihat [DescribeRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/describe-rule.html)di *Referensi AWS CLI Perintah*. 

### `disable-rule`
<a name="eventbridge_DisableRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-rule`.

**AWS CLI**  
**Untuk menonaktifkan aturan CloudWatch Acara**  
Contoh ini menonaktifkan aturan bernama DailyLambdaFunction. Aturan tidak dihapus:  

```
aws events disable-rule --name "DailyLambdaFunction"
```
+  Untuk detail API, lihat [DisableRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/disable-rule.html)di *Referensi AWS CLI Perintah*. 

### `enable-rule`
<a name="eventbridge_EnableRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-rule`.

**AWS CLI**  
**Untuk mengaktifkan aturan CloudWatch Acara**  
Contoh ini memungkinkan aturan bernama DailyLambdaFunction, yang sebelumnya telah dinonaktifkan:  

```
aws events enable-rule --name "DailyLambdaFunction"
```
+  Untuk detail API, lihat [EnableRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/enable-rule.html)di *Referensi AWS CLI Perintah*. 

### `list-rule-names-by-target`
<a name="eventbridge_ListRuleNamesByTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-rule-names-by-target`.

**AWS CLI**  
**Untuk menampilkan semua aturan yang memiliki target tertentu**  
Contoh ini menampilkan semua aturan yang memiliki fungsi Lambda bernama "MyFunctionName" sebagai target:  

```
aws events list-rule-names-by-target --target-arn "arn:aws:lambda:us-east-1:123456789012:function:MyFunctionName"
```
+  Untuk detail API, lihat [ListRuleNamesByTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/list-rule-names-by-target.html)di *Referensi AWS CLI Perintah*. 

### `list-rules`
<a name="eventbridge_ListRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-rules`.

**AWS CLI**  
**Untuk menampilkan daftar semua aturan CloudWatch Acara**  
Contoh ini menampilkan semua aturan CloudWatch Acara di wilayah:  

```
aws events list-rules
```
**Untuk menampilkan daftar aturan CloudWatch Peristiwa yang dimulai dengan string tertentu.**  
Contoh ini menampilkan semua aturan CloudWatch Acara di wilayah yang memiliki nama yang dimulai dengan “Harian”:  

```
aws events list-rules --name-prefix "Daily"
```
+  Untuk detail API, lihat [ListRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/list-rules.html)di *Referensi AWS CLI Perintah*. 

### `list-targets-by-rule`
<a name="eventbridge_ListTargetsByRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-targets-by-rule`.

**AWS CLI**  
**Untuk menampilkan semua target untuk aturan CloudWatch Acara**  
Contoh ini menampilkan semua target dari aturan bernama DailyLambdaFunction:  

```
aws events list-targets-by-rule --rule  "DailyLambdaFunction"
```
+  Untuk detail API, lihat [ListTargetsByRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/list-targets-by-rule.html)di *Referensi AWS CLI Perintah*. 

### `put-events`
<a name="eventbridge_PutEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-events`.

**AWS CLI**  
**Untuk mengirim acara khusus ke CloudWatch Acara**  
Contoh ini mengirimkan acara khusus ke CloudWatch Acara. Acara ini terkandung dalam file putevents.json:  

```
aws events put-events --entries file://putevents.json
```
Berikut adalah isi dari file putevents.json:  

```
[
  {
    "Source": "com.mycompany.myapp",
    "Detail": "{ \"key1\": \"value1\", \"key2\": \"value2\" }",
    "Resources": [
      "resource1",
      "resource2"
    ],
    "DetailType": "myDetailType"
  },
  {
    "Source": "com.mycompany.myapp",
    "Detail": "{ \"key1\": \"value3\", \"key2\": \"value4\" }",
    "Resources": [
      "resource1",
      "resource2"
    ],
    "DetailType": "myDetailType"
   }
]
```
+  Untuk detail API, lihat [PutEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/put-events.html)di *Referensi AWS CLI Perintah*. 

### `put-rule`
<a name="eventbridge_PutRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-rule`.

**AWS CLI**  
**Untuk membuat aturan CloudWatch Acara**  
Contoh ini membuat aturan yang dipicu setiap hari pada pukul 9:00 pagi (UTC). Jika Anda menggunakan put-target untuk menambahkan fungsi Lambda sebagai target aturan ini, Anda dapat menjalankan fungsi Lambda setiap hari pada waktu yang ditentukan:  

```
aws events put-rule --name "DailyLambdaFunction" --schedule-expression "cron(0 9 * * ? *)"
```
Contoh ini membuat aturan yang memicu ketika instans EC2 di wilayah mengubah status:  

```
aws events put-rule --name "EC2InstanceStateChanges" --event-pattern "{\"source\":[\"aws.ec2\"],\"detail-type\":[\"EC2 Instance State-change Notification\"]}"  --role-arn "arn:aws:iam::123456789012:role/MyRoleForThisRule"
```
Contoh ini membuat aturan yang memicu ketika instans EC2 di wilayah tersebut dihentikan atau dihentikan:  

```
aws events put-rule --name "EC2InstanceStateChangeStopOrTerminate" --event-pattern "{\"source\":[\"aws.ec2\"],\"detail-type\":[\"EC2 Instance State-change Notification\"],\"detail\":{\"state\":[\"stopped\",\"terminated\"]}}" --role-arn "arn:aws:iam::123456789012:role/MyRoleForThisRule"
```
+  Untuk detail API, lihat [PutRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/put-rule.html)di *Referensi AWS CLI Perintah*. 

### `put-targets`
<a name="eventbridge_PutTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-targets`.

**AWS CLI**  
**Untuk menambahkan target untuk aturan CloudWatch Acara**  
Contoh ini menambahkan fungsi Lambda sebagai target aturan:  

```
aws events put-targets --rule DailyLambdaFunction --targets "Id"="1","Arn"="arn:aws:lambda:us-east-1:123456789012:function:MyFunctionName"
```
Contoh ini menetapkan aliran Amazon Kinesis sebagai target, sehingga peristiwa yang ditangkap oleh aturan ini diteruskan ke aliran:  

```
aws events put-targets --rule EC2InstanceStateChanges --targets "Id"="1","Arn"="arn:aws:kinesis:us-east-1:123456789012:stream/MyStream","RoleArn"="arn:aws:iam::123456789012:role/MyRoleForThisRule"
```
Contoh ini menetapkan dua aliran Amazon Kinesis sebagai target untuk satu aturan:  

```
aws events put-targets --rule DailyLambdaFunction --targets "Id"="Target1","Arn"="arn:aws:kinesis:us-east-1:379642911888:stream/MyStream1","RoleArn"="arn:aws:iam::379642911888:role/ MyRoleToAccessLambda"  "Id"="Target2"," Arn"="arn:aws:kinesis:us-east-1:379642911888:stream/MyStream2","RoleArn"="arn:aws:iam::379642911888:role/MyRoleToAccessLambda"
```
+  Untuk detail API, lihat [PutTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/put-targets.html)di *Referensi AWS CLI Perintah*. 

### `remove-targets`
<a name="eventbridge_RemoveTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-targets`.

**AWS CLI**  
**Untuk menghapus target untuk suatu acara**  
Contoh ini menghapus aliran Amazon Kinesis bernama MyStream 1 dari target aturan. DailyLambdaFunction Saat DailyLambdaFunction dibuat, aliran ini ditetapkan sebagai target dengan ID Target1:  

```
aws events remove-targets --rule "DailyLambdaFunction" --ids "Target1"
```
+  Untuk detail API, lihat [RemoveTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/remove-targets.html)di *Referensi AWS CLI Perintah*. 

### `test-event-pattern`
<a name="eventbridge_TestEventPattern_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-event-pattern`.

**AWS CLI**  
**Untuk memeriksa apakah pola acara cocok dengan peristiwa tertentu**  
Contoh ini menguji apakah pola “source:com.mycompany.myapp” cocok dengan peristiwa yang ditentukan. Dalam contoh ini, outputnya akan menjadi “true”:  

```
aws events test-event-pattern --event-pattern "{\"source\":[\"com.mycompany.myapp\"]}" --event "{\"id\":\"1\",\"source\":\"com.mycompany.myapp\",\"detail-type\":\"myDetailType\",\"account\":\"123456789012\",\"region\":\"us-east-1\",\"time\":\"2017-04-11T20:11:04Z\"}"
```
+  Untuk detail API, lihat [TestEventPattern](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/events/test-event-pattern.html)di *Referensi AWS CLI Perintah*. 

# EventBridge Pipa contoh menggunakan AWS CLI
<a name="cli_2_pipes_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With EventBridge Pipes.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-pipe`
<a name="pipes_CreatePipe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-pipe`.

**AWS CLI**  
**Untuk membuat pipa**  
`create-pipe`Contoh berikut membuat Pipe bernama `Demo_Pipe` dengan SQS sebagai sumber dan CloudWatch Log Group sebagai target untuk Pipa.  

```
aws pipes create-pipe \
    --name Demo_Pipe \
    --desired-state RUNNING \
    --role-arn arn:aws:iam::123456789012:role/service-role/Amazon_EventBridge_Pipe_Demo_Pipe_28b3aa4f \
    --source arn:aws:sqs:us-east-1:123456789012:Demo_Queue \
    --target arn:aws:logs:us-east-1:123456789012:log-group:/aws/pipes/Demo_LogGroup
```
Output:  

```
{
    "Arn": "arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe",
    "Name": "Demo_Pipe",
    "DesiredState": "RUNNING",
    "CurrentState": "CREATING",
    "CreationTime": "2024-10-08T12:33:59-05:00",
    "LastModifiedTime": "2024-10-08T12:33:59.684839-05:00"
}
```
Untuk informasi selengkapnya, lihat [konsep EventBridge Pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-concepts.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [CreatePipe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/create-pipe.html)di *Referensi AWS CLI Perintah*. 

### `delete-pipe`
<a name="pipes_DeletePipe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-pipe`.

**AWS CLI**  
**Untuk menghapus pipa yang ada**  
`delete-pipe`Contoh berikut menghapus Pipe bernama `Demo_Pipe` dalam akun yang ditentukan.  

```
aws pipes delete-pipe \
    --name Demo_Pipe
```
Output:  

```
{
    "Arn": "arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe",
    "Name": "Demo_Pipe",
    "DesiredState": "STOPPED",
    "CurrentState": "DELETING",
    "CreationTime": "2024-10-08T09:29:10-05:00",
    "LastModifiedTime": "2024-10-08T11:57:22-05:00"
}
```
Untuk informasi selengkapnya, lihat [konsep EventBridge Pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-concepts.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [DeletePipe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/delete-pipe.html)di *Referensi AWS CLI Perintah*. 

### `describe-pipe`
<a name="pipes_DescribePipe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-pipe`.

**AWS CLI**  
**Untuk mengambil informasi tentang Pipa**  
`describe-pipe`Contoh berikut menampilkan informasi tentang Pipa `Demo_Pipe` di akun yang ditentukan.  

```
aws pipes describe-pipe \
    --name Demo_Pipe
```
Output:  

```
{
    "Arn": "arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe",
    "Name": "Demo_Pipe",
    "DesiredState": "RUNNING",
    "CurrentState": "RUNNING",
    "StateReason": "User initiated",
    "Source": "arn:aws:sqs:us-east-1:123456789012:Demo_Queue",
    "SourceParameters": {
        "SqsQueueParameters": {
            "BatchSize": 1
        }
    },
    "EnrichmentParameters": {},
    "Target": "arn:aws:logs:us-east-1:123456789012:log-group:/aws/pipes/Demo_LogGroup",
    "TargetParameters": {},
    "RoleArn": "arn:aws:iam::123456789012:role/service-role/Amazon_EventBridge_Pipe_Demo_Pipe_28b3aa4f",
    "Tags": {},
    "CreationTime": "2024-10-08T09:29:10-05:00",
    "LastModifiedTime": "2024-10-08T10:23:47-05:00",
    "LogConfiguration": {
        "CloudwatchLogsLogDestination": {
            "LogGroupArn": "arn:aws:logs:us-east-1:123456789012:log-group:/aws/vendedlogs/pipes/Demo_Pipe"
        },
        "Level": "ERROR"
    }
}
```
Untuk informasi selengkapnya, lihat [konsep EventBridge Pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-concepts.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [DescribePipe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/describe-pipe.html)di *Referensi AWS CLI Perintah*. 

### `list-pipes`
<a name="pipes_ListPipes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pipes`.

**AWS CLI**  
**Untuk mengambil daftar Pipa**  
`list-pipes`Contoh berikut menunjukkan semua pipa di akun yang ditentukan.  

```
aws pipes list-pipes
```
Output:  

```
{
    "Pipes": [
        {
            "Name": "Demo_Pipe",
            "Arn": "arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe",
            "DesiredState": "RUNNING",
            "CurrentState": "RUNNING",
            "StateReason": "User initiated",
            "CreationTime": "2024-10-08T09:29:10-05:00",
            "LastModifiedTime": "2024-10-08T10:23:47-05:00",
            "Source": "arn:aws:sqs:us-east-1:123456789012:Demo_Queue",
            "Target": "arn:aws:logs:us-east-1:123456789012:log-group:/aws/pipes/Demo_LogGroup"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [konsep EventBridge Pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-concepts.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [ListPipes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/list-pipes.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="pipes_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag yang terkait dengan pipa yang ada**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag yang terkait dengan pipa bernama `Demo_Pipe` di akun yang ditentukan.  

```
aws pipes list-tags-for-resource \
    --resource-arn arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe
```
Output:  

```
{
    "tags": {
        "stack": "Production",
        "team": "DevOps"
    }
}
```
Untuk informasi selengkapnya, lihat [konsep EventBridge Pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-concepts.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-pipe`
<a name="pipes_StartPipe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-pipe`.

**AWS CLI**  
**Untuk memulai pipa yang ada**  
`start-pipe`Contoh berikut memulai Pipa bernama `Demo_Pipe` dalam akun yang ditentukan.  

```
aws pipes start-pipe \
    --name Demo_Pipe
```
Output:  

```
{
    "Arn": "arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe",
    "Name": "Demo_Pipe",
    "DesiredState": "RUNNING",
    "CurrentState": "STARTING",
    "CreationTime": "2024-10-08T09:29:10-05:00",
    "LastModifiedTime": "2024-10-08T10:17:24-05:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai atau menghentikan EventBridge pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-start-stop.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [StartPipe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/start-pipe.html)di *Referensi AWS CLI Perintah*. 

### `stop-pipe`
<a name="pipes_StopPipe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-pipe`.

**AWS CLI**  
**Untuk menghentikan pipa yang ada**  
`stop-pipe`Contoh berikut menghentikan Pipa bernama `Demo_Pipe` dalam akun yang ditentukan.  

```
aws pipes stop-pipe \
    --name Demo_Pipe
```
Output:  

```
{
    "Arn": "arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe",
    "Name": "Demo_Pipe",
    "DesiredState": "STOPPED",
    "CurrentState": "STOPPING",
    "CreationTime": "2024-10-08T09:29:10-05:00",
    "LastModifiedTime": "2024-10-08T09:29:49-05:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai atau menghentikan EventBridge pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-start-stop.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [StopPipe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/stop-pipe.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="pipes_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk Menandai pipa yang ada**  
`tag-resource`Contoh berikut menandai Pipa bernama`Demo_Pipe`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  

```
aws pipes tag-resource \
    --resource-arn arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe \
    --tags stack=Production
```
Untuk informasi selengkapnya, lihat [konsep EventBridge Pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-concepts.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="pipes_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus Tag dari pipa yang ada**  
`untag-resource`Contoh berikut menghapus tag dengan kunci `stack` dari Pipe bernama`Demo_Pipe`. Jika perintah berhasil, tidak ada output yang akan ditampilkan.  

```
aws pipes untag-resource \
    --resource-arn arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe \
    --tags stack
```
Untuk informasi selengkapnya, lihat [konsep EventBridge Pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-concepts.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-pipe`
<a name="pipes_UpdatePipe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-pipe`.

**AWS CLI**  
**Untuk memperbarui pipa yang ada**  
`update-pipe`Contoh berikut memperbarui Pipa bernama `Demo_Pipe` dengan menambahkan parameter konfigurasi CloudWatch Log, enure untuk memperbarui peran eksekusi pipa sehingga memiliki izin yang benar untuk tujuan Log.  

```
aws pipes update-pipe \
    --name Demo_Pipe \
    --desired-state RUNNING \
    --log-configuration CloudwatchLogsLogDestination={LogGroupArn=arn:aws:logs:us-east-1:123456789012:log-group:/aws/vendedlogs/pipes/Demo_Pipe},Level=TRACE \
    --role-arn arn:aws:iam::123456789012:role/service-role/Amazon_EventBridge_Pipe_Demo_Pipe_28b3aa4f
```
Output:  

```
{
    "Arn": "arn:aws:pipes:us-east-1:123456789012:pipe/Demo_Pipe",
    "Name": "Demo_Pipe",
    "DesiredState": "RUNNING",
    "CurrentState": "UPDATING",
    "CreationTime": "2024-10-08T09:29:10-05:00",
    "LastModifiedTime": "2024-10-08T11:35:48-05:00"
}
```
Untuk informasi selengkapnya, lihat [konsep EventBridge Pipa Amazon](https://docs.aws.amazon.com/eventbridge/latest/userguide/pipes-concepts.html) *di Panduan EventBridge Pengguna Amazon*.  
+  Untuk detail API, lihat [UpdatePipe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pipes/update-pipe.html)di *Referensi AWS CLI Perintah*. 

# Contoh Firewall Manager menggunakan AWS CLI
<a name="cli_2_fms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Firewall Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-admin-account`
<a name="fms_AssociateAdminAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-admin-account`.

**AWS CLI**  
**Untuk mengatur akun administrator Firewall Manager**  
`associate-admin-account`Contoh berikut menetapkan akun administrator untuk Firewall Manager.  

```
aws fms associate-admin-account \
    --admin-account 123456789012
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengatur Akun Administrator Manajer AWS Firewall](https://docs.aws.amazon.com/waf/latest/developerguide/enable-integration.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [AssociateAdminAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/associate-admin-account.html)di *Referensi AWS CLI Perintah*. 

### `delete-notification-channel`
<a name="fms_DeleteNotificationChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-notification-channel`.

**AWS CLI**  
**Untuk menghapus informasi topik SNS untuk log Firewall Manager**  
`delete-notification-channel`Contoh berikut menghapus informasi topik SNS.  

```
aws fms delete-notification-channel
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi Notifikasi Amazon SNS dan CloudWatch Alarm Amazon](https://docs.aws.amazon.com/waf/latest/developerguide/get-started-fms-shield-cloudwatch.html) di *AWS WAF, Firewall Manager, dan Panduan AWS Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [DeleteNotificationChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/delete-notification-channel.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy`
<a name="fms_DeletePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan Firewall Manager**  
`delete-policy`Contoh berikut menghapus kebijakan dengan ID yang ditentukan, beserta semua sumber dayanya.  

```
aws fms delete-policy \
    --policy-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --delete-all-policy-resources
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Kebijakan AWS Firewall Manager](https://docs.aws.amazon.com/waf/latest/developerguide/working-with-policies.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [DeletePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/delete-policy.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-admin-account`
<a name="fms_DisassociateAdminAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-admin-account`.

**AWS CLI**  
**Untuk menghapus akun administrator Firewall Manager**  
`disassociate-admin-account`Contoh berikut menghapus asosiasi akun administrator saat ini dari Firewall Manager.  

```
aws fms disassociate-admin-account
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengatur Akun Administrator Manajer AWS Firewall](https://docs.aws.amazon.com/waf/latest/developerguide/enable-integration.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [DisassociateAdminAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/disassociate-admin-account.html)di *Referensi AWS CLI Perintah*. 

### `get-admin-account`
<a name="fms_GetAdminAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-admin-account`.

**AWS CLI**  
**Untuk mengambil akun administrator Firewall Manager**  
`get-admin-account`Contoh berikut mengambil akun administrator.  

```
aws fms get-admin-account
```
Output:  

```
{
    "AdminAccount": "123456789012",
    "RoleStatus": "READY"
}
```
Untuk informasi selengkapnya, lihat [Prasyarat AWS Firewall Manager](https://docs.aws.amazon.com/waf/latest/developerguide/fms-prereq.html) di WAF *AWS , Firewall AWS Manager, dan AWS Shield* Advanced Developer Guide.  
+  Untuk detail API, lihat [GetAdminAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/get-admin-account.html)di *Referensi AWS CLI Perintah*. 

### `get-compliance-detail`
<a name="fms_GetComplianceDetail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-compliance-detail`.

**AWS CLI**  
**Untuk mengambil informasi kepatuhan untuk akun**  
`get-compliance-detail`Contoh berikut mengambil informasi kepatuhan untuk kebijakan dan akun anggota yang ditentukan.  

```
aws fms get-compliance-detail \
    --policy-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --member-account 123456789012
```
Output:  

```
{
    "PolicyComplianceDetail": {
    "EvaluationLimitExceeded": false,
    "IssueInfoMap": {},
    "MemberAccount": "123456789012",
    "PolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "PolicyOwner": "123456789012",
    "Violators": []
}
```
Untuk informasi selengkapnya, lihat [Melihat Kepatuhan Sumber Daya dengan Kebijakan](https://docs.aws.amazon.com/waf/latest/developerguide/fms-compliance.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [GetComplianceDetail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/get-compliance-detail.html)di *Referensi AWS CLI Perintah*. 

### `get-notification-channel`
<a name="fms_GetNotificationChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-notification-channel`.

**AWS CLI**  
**Untuk mengambil informasi topik SNS untuk log Firewall Manager**  
`get-notification-channel`Contoh berikut mengambil informasi topik SNS.  

```
aws fms get-notification-channel
```
Output:  

```
{
    "SnsTopicArn": "arn:aws:sns:us-west-2:123456789012:us-west-2-fms",
    "SnsRoleName": "arn:aws:iam::123456789012:role/aws-service-role/fms.amazonaws.com/AWSServiceRoleForFMS"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Notifikasi Amazon SNS dan CloudWatch Alarm Amazon](https://docs.aws.amazon.com/waf/latest/developerguide/get-started-fms-shield-cloudwatch.html) di *AWS WAF, Firewall Manager, dan Panduan AWS Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [GetNotificationChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/get-notification-channel.html)di *Referensi AWS CLI Perintah*. 

### `get-policy`
<a name="fms_GetPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan Firewall Manager**  
`get-policy`Contoh berikut mengambil kebijakan dengan ID yang ditentukan.  

```
aws fms get-policy \
    --policy-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "Policy": {
        "PolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "PolicyName": "test",
        "PolicyUpdateToken": "1:p+2RpKR4wPFx7mcrL1UOQQ==",
        "SecurityServicePolicyData": {
            "Type": "SECURITY_GROUPS_COMMON",
            "ManagedServiceData": "{\"type\":\"SECURITY_GROUPS_COMMON\",\"revertManualSecurityGroupChanges\":true,\"exclusiveResourceSecurityGroupManagement\":false,\"securityGroups\":[{\"id\":\"sg-045c43ccc9724e63e\"}]}"
        },
        "ResourceType": "AWS::EC2::Instance",
        "ResourceTags": [],
        "ExcludeResourceTags": false,
        "RemediationEnabled": false
    },
    "PolicyArn": "arn:aws:fms:us-west-2:123456789012:policy/d1ac59b8-938e-42b3-b2e0-7c620422ddc2"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Kebijakan AWS Firewall Manager](https://docs.aws.amazon.com/waf/latest/developerguide/working-with-policies.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [GetPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/get-policy.html)di *Referensi AWS CLI Perintah*. 

### `list-compliance-status`
<a name="fms_ListComplianceStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-compliance-status`.

**AWS CLI**  
**Untuk mengambil informasi kepatuhan kebijakan untuk akun anggota**  
`list-compliance-status`Contoh berikut mengambil informasi kepatuhan akun anggota untuk kebijakan yang ditentukan.  

```
aws fms list-compliance-status \
    --policy-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "PolicyComplianceStatusList": [
        {
            "PolicyOwner": "123456789012",
            "PolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "PolicyName": "test",
            "MemberAccount": "123456789012",
            "EvaluationResults": [
                {
                    "ComplianceStatus": "COMPLIANT",
                    "ViolatorCount": 0,
                    "EvaluationLimitExceeded": false
                },
                {
                    "ComplianceStatus": "NON_COMPLIANT",
                    "ViolatorCount": 2,
                    "EvaluationLimitExceeded": false
                }
            ],
            "LastUpdated": 1576283774.0,
            "IssueInfoMap": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Kepatuhan Sumber Daya dengan Kebijakan](https://docs.aws.amazon.com/waf/latest/developerguide/fms-compliance.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [ListComplianceStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/list-compliance-status.html)di *Referensi AWS CLI Perintah*. 

### `list-member-accounts`
<a name="fms_ListMemberAccounts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-member-accounts`.

**AWS CLI**  
**Untuk mengambil akun anggota di organisasi**  
`list-member-accounts`Contoh berikut mencantumkan semua akun anggota yang ada di organisasi administrator Firewall Manager.  

```
aws fms list-member-accounts
```
Output:  

```
{
    "MemberAccounts": [
        "222222222222",
        "333333333333",
        "444444444444"
    ]
}
```
Untuk informasi selengkapnya, lihat [AWS Firewall Manager](https://docs.aws.amazon.com/waf/latest/developerguide/fms-chapter.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [ListMemberAccounts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/list-member-accounts.html)di *Referensi AWS CLI Perintah*. 

### `list-policies`
<a name="fms_ListPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policies`.

**AWS CLI**  
**Untuk mengambil semua kebijakan Firewall Manager**  
`list-policies`Contoh berikut mengambil daftar kebijakan untuk akun. Dalam contoh ini, output dibatasi hingga dua hasil per permintaan. Setiap panggilan mengembalikan sebuah `NextToken` yang dapat digunakan sebagai nilai untuk `--starting-token` parameter dalam `list-policies` panggilan berikutnya untuk mendapatkan set hasil berikutnya untuk daftar.  

```
aws fms list-policies \
    --max-items 2
```
Output:  

```
{
    "PolicyList": [
        {
            "PolicyArn": "arn:aws:fms:us-west-2:123456789012:policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "PolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "PolicyName": "test",
            "ResourceType": "AWS::EC2::Instance",
            "SecurityServiceType": "SECURITY_GROUPS_COMMON",
            "RemediationEnabled": false
        },
        {
            "PolicyArn": "arn:aws:fms:us-west-2:123456789012:policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "PolicyId": "457c9b21-fc94-406c-ae63-21217395ba72",
            "PolicyName": "test",
            "ResourceType": "AWS::EC2::Instance",
            "SecurityServiceType": "SECURITY_GROUPS_COMMON",
            "RemediationEnabled": false
        }
    ],
    "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAyfQ=="
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Kebijakan AWS Firewall Manager](https://docs.aws.amazon.com/waf/latest/developerguide/working-with-policies.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [ListPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/list-policies.html)di *Referensi AWS CLI Perintah*. 

### `put-notification-channel`
<a name="fms_PutNotificationChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-notification-channel`.

**AWS CLI**  
**Untuk mengatur informasi topik SNS untuk log Firewall Manager**  
`put-notification-channel`Contoh berikut menetapkan informasi topik SNS.  

```
aws fms put-notification-channel \
    --sns-topic-arn arn:aws:sns:us-west-2:123456789012:us-west-2-fms \
    --sns-role-name arn:aws:iam::123456789012:role/aws-service-role/fms.amazonaws.com/AWSServiceRoleForFMS
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi Notifikasi Amazon SNS dan CloudWatch Alarm Amazon](https://docs.aws.amazon.com/waf/latest/developerguide/get-started-fms-shield-cloudwatch.html) di *AWS WAF, Firewall Manager, dan Panduan AWS Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [PutNotificationChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/put-notification-channel.html)di *Referensi AWS CLI Perintah*. 

### `put-policy`
<a name="fms_PutPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-policy`.

**AWS CLI**  
**Untuk membuat kebijakan Firewall Manager**  
`put-policy`Contoh berikut membuat kebijakan grup keamanan Firewall Manager.  

```
aws fms put-policy \
    --cli-input-json file://policy.json
```
Isi dari `policy.json`:  

```
{
    "Policy": {
        "PolicyName": "test",
        "SecurityServicePolicyData": {
            "Type": "SECURITY_GROUPS_USAGE_AUDIT",
            "ManagedServiceData": "{\"type\":\"SECURITY_GROUPS_USAGE_AUDIT\",\"deleteUnusedSecurityGroups\":false,\"coalesceRedundantSecurityGroups\":true}"
        },
        "ResourceType": "AWS::EC2::SecurityGroup",
        "ResourceTags": [],
        "ExcludeResourceTags": false,
        "RemediationEnabled": false
    },
    "TagList": [
        {
            "Key": "foo",
            "Value": "foo"
        }
    ]
}
```
Output:  

```
{
    "Policy": {
        "PolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "PolicyName": "test",
        "PolicyUpdateToken": "1:X9QGexP7HASDlsFp+G31Iw==",
        "SecurityServicePolicyData": {
            "Type": "SECURITY_GROUPS_USAGE_AUDIT",
            "ManagedServiceData": "{\"type\":\"SECURITY_GROUPS_USAGE_AUDIT\",\"deleteUnusedSecurityGroups\":false,\"coalesceRedundantSecurityGroups\":true,\"optionalDelayForUnusedInMinutes\":null}"
        },
        "ResourceType": "AWS::EC2::SecurityGroup",
        "ResourceTags": [],
        "ExcludeResourceTags": false,
        "RemediationEnabled": false
    },
    "PolicyArn": "arn:aws:fms:us-west-2:123456789012:policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Kebijakan AWS Firewall Manager](https://docs.aws.amazon.com/waf/latest/developerguide/working-with-policies.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [PutPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fms/put-policy.html)di *Referensi AWS CLI Perintah*. 

# AWS FIS contoh menggunakan AWS CLI
<a name="cli_2_fis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS FIS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-experiment-template`
<a name="fis_CreateExperimentTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-experiment-template`.

**AWS CLI**  
**Untuk membuat template percobaan**  
`create-experiment-template`Contoh berikut membuat template percobaan di akun AWS FIS Anda.  

```
aws fis create-experiment-template \
    --cli-input-json file://myfile.json
```
Isi dari `myfile.json`:  

```
{
    "description": "experimentTemplate",
    "stopConditions": [
        {
            "source": "aws:cloudwatch:alarm",
            "value": "arn:aws:cloudwatch:us-west-2:123456789012:alarm:alarmName"
        }
    ],
    "targets": {
        "Instances-Target-1": {
            "resourceType": "aws:ec2:instance",
            "resourceArns": [
                "arn:aws:ec2:us-west-2:123456789012:instance/i-12a3b4c56d78e9012"
            ],
            "selectionMode": "ALL"
        }
    },
    "actions": {
        "reboot": {
            "actionId": "aws:ec2:reboot-instances",
            "description": "reboot",
            "parameters": {},
            "targets": {
                "Instances": "Instances-Target-1"
            }
        }
    },
    "roleArn": "arn:aws:iam::123456789012:role/myRole"
}
```
Output:  

```
{
    "experimentTemplate": {
        "id": "ABCDE1fgHIJkLmNop",
        "description": "experimentTemplate",
        "targets": {
            "Instances-Target-1": {
                "resourceType": "aws:ec2:instance",
                "resourceArns": [
                    "arn:aws:ec2:us-west-2:123456789012:instance/i-12a3b4c56d78e9012"
                ],
                "selectionMode": "ALL"
            }
        },
        "actions": {
            "reboot": {
                "actionId": "aws:ec2:reboot-instances",
                "description": "reboot",
                "parameters": {},
                "targets": {
                    "Instances": "Instances-Target-1"
                }
            }
        },
        "stopConditions": [
            {
                "source": "aws:cloudwatch:alarm",
                "value": "arn:aws:cloudwatch:us-west-2:123456789012:alarm:alarmName"
            }
        ],
        "creationTime": 1616434850.659,
        "lastUpdateTime": 1616434850.659,
        "roleArn": "arn:aws:iam::123456789012:role/myRole",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat template eksperimen](https://docs.aws.amazon.com/fis/latest/userguide/working-with-templates.html#create-template) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [CreateExperimentTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/create-experiment-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-experiment-template`
<a name="fis_DeleteExperimentTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-experiment-template`.

**AWS CLI**  
**Untuk menghapus template percobaan**  
`delete-experiment-template`Contoh berikut menghapus template percobaan yang ditentukan.  

```
aws fis delete-experiment-template \
    --id ABCDE1fgHIJkLmNop
```
Output:  

```
{
    "experimentTemplate": {
        "id": "ABCDE1fgHIJkLmNop",
        "description": "myExperimentTemplate",
        "targets": {
            "Instances-Target-1": {
                "resourceType": "aws:ec2:instance",
                "resourceArns": [
                    "arn:aws:ec2:us-west-2:123456789012:instance/i-12a3b4c56d78e9012"
                ],
                "selectionMode": "ALL"
            }
        },
        "actions": {
            "testaction": {
                "actionId": "aws:ec2:stop-instances",
                "parameters": {},
                "targets": {
                    "Instances": "Instances-Target-1"
                }
            }
        },
        "stopConditions": [
            {
                "source": "none"
            }
        ],
        "creationTime": 1616017191.124,
        "lastUpdateTime": 1616017859.607,
        "roleArn": "arn:aws:iam::123456789012:role/FISRole"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus templat eksperimen](https://docs.aws.amazon.com/fis/latest/userguide/working-with-templates.html#delete-template) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [DeleteExperimentTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/delete-experiment-template.html)di *Referensi AWS CLI Perintah*. 

### `get-action`
<a name="fis_GetAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-action`.

**AWS CLI**  
**Untuk mendapatkan detail tindakan**  
`get-action`Contoh berikut mendapatkan rincian dari tindakan yang ditentukan.  

```
aws fis get-action \
    --id aws:ec2:stop-instances
```
Output:  

```
{
    "action": {
        "id": "aws:ec2:stop-instances",
        "description": "Stop the specified EC2 instances.",
        "parameters": {
            "startInstancesAfterDuration": {
                "description": "The time to wait before restarting the instances (ISO 8601 duration).",
                "required": false
            }
        },
        "targets": {
            "Instances": {
                "resourceType": "aws:ec2:instance"
            }
        },
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Tindakan](https://docs.aws.amazon.com/fis/latest/userguide/actions.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [GetAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/get-action.html)di *Referensi AWS CLI Perintah*. 

### `get-experiment-template`
<a name="fis_GetExperimentTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-experiment-template`.

**AWS CLI**  
**Untuk mendapatkan detail template eksperimen**  
`get-experiment-template`Contoh berikut mendapatkan rincian template percobaan yang ditentukan.  

```
aws fis get-experiment-template \
    --id ABCDE1fgHIJkLmNop
```
Output:  

```
{
    "experimentTemplate": {
        "id": "ABCDE1fgHIJkLmNop",
        "description": "myExperimentTemplate",
        "targets": {
            "Instances-Target-1": {
                "resourceType": "aws:ec2:instance",
                "resourceArns": [
                    "arn:aws:ec2:us-west-2:123456789012:instance/i-12a3b4c56d78e9012"
                ],
                "selectionMode": "ALL"
            }
        },
        "actions": {
            "testaction": {
                "actionId": "aws:ec2:stop-instances",
                "parameters": {},
                "targets": {
                    "Instances": "Instances-Target-1"
                }
            }
        },
        "stopConditions": [
            {
                "source": "none"
            }
        ],
        "creationTime": 1616017191.124,
        "lastUpdateTime": 1616017331.51,
        "roleArn": "arn:aws:iam::123456789012:role/FISRole",
        "tags": {
        "key: "value"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Templat eksperimen](https://docs.aws.amazon.com/fis/latest/userguide/experiment-templates.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [GetExperimentTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/get-experiment-template.html)di *Referensi AWS CLI Perintah*. 

### `get-experiment`
<a name="fis_GetExperiment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-experiment`.

**AWS CLI**  
**Untuk mendapatkan detail eksperimen**  
`get-experiment`Contoh berikut mendapatkan rincian percobaan yang ditentukan.  

```
aws fis get-experiment \
    --id ABC12DeFGhI3jKLMNOP
```
Output:  

```
{
    "experiment": {
        "id": "ABC12DeFGhI3jKLMNOP",
        "experimentTemplateId": "ABCDE1fgHIJkLmNop",
        "roleArn": "arn:aws:iam::123456789012:role/myRole",
        "state": {
            "status": "completed",
            "reason": "Experiment completed."
        },
        "targets": {
            "Instances-Target-1": {
                "resourceType": "aws:ec2:instance",
                "resourceArns": [
                    "arn:aws:ec2:us-west-2:123456789012:instance/i-12a3b4c56d78e9012"
                ],
                "selectionMode": "ALL"
            }
        },
        "actions": {
            "reboot": {
                "actionId": "aws:ec2:reboot-instances",
                "parameters": {},
                "targets": {
                    "Instances": "Instances-Target-1"
                },
                "state": {
                    "status": "completed",
                    "reason": "Action was completed."
                }
            }
        },
        "stopConditions": [
            {
                "source": "none"
            }
        ],
        "creationTime": 1616432509.662,
        "startTime": 1616432509.962,
        "endTime": 1616432522.307,
        "tags": {}
    }
}
```
Untuk informasi lebih lanjut, lihat [Eksperimen untuk AWS FIS](https://docs.aws.amazon.com/fis/latest/userguide/experiments.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [GetExperiment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/get-experiment.html)di *Referensi AWS CLI Perintah*. 

### `list-actions`
<a name="fis_ListActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-actions`.

**AWS CLI**  
**Untuk membuat daftar tindakan**  
`list-actions`Contoh berikut mencantumkan tindakan yang tersedia.  

```
aws fis list-actions
```
Output:  

```
{
    "actions": [
        {
            "id": "aws:ec2:reboot-instances",
            "description": "Reboot the specified EC2 instances.",
            "targets": {
                "Instances": {
                    "resourceType": "aws:ec2:instance"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:ec2:stop-instances",
            "description": "Stop the specified EC2 instances.",
            "targets": {
                "Instances": {
                    "resourceType": "aws:ec2:instance"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:ec2:terminate-instances",
            "description": "Terminate the specified EC2 instances.",
            "targets": {
                "Instances": {
                    "resourceType": "aws:ec2:instance"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:ecs:drain-container-instances",
            "description": "Drain percentage of underlying EC2 instances on an ECS cluster.",
            "targets": {
                "Clusters": {
                    "resourceType": "aws:ecs:cluster"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:eks:terminate-nodegroup-instances",
            "description": "Terminates a percentage of the underlying EC2 instances in an EKS cluster.",
            "targets": {
                "Nodegroups": {
                    "resourceType": "aws:eks:nodegroup"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:fis:inject-api-internal-error",
            "description": "Cause an AWS service to return internal error responses for specific callers and operations.",
            "targets": {
                "Roles": {
                    "resourceType": "aws:iam:role"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:fis:inject-api-throttle-error",
            "description": "Cause an AWS service to return throttled responses for specific callers and operations.",
            "targets": {
                "Roles": {
                    "resourceType": "aws:iam:role"
                }
            },
            "tags": {}
        },
        {
        "id": "aws:fis:inject-api-unavailable-error",
            "description": "Cause an AWS service to return unavailable error responses for specific callers and operations.",
            "targets": {
                "Roles": {
                    "resourceType": "aws:iam:role"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:fis:wait",
            "description": "Wait for the specified duration. Stop condition monitoring will continue during this time.",
            "tags": {}
        },
        {
            "id": "aws:rds:failover-db-cluster",
            "description": "Failover a DB Cluster to one of the replicas.",
            "targets": {
                "Clusters": {
                    "resourceType": "aws:rds:cluster"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:rds:reboot-db-instances",
            "description": "Reboot the specified DB instances.",
            "targets": {
                "DBInstances": {
                    "resourceType": "aws:rds:db"
                }
            },
            "tags": {}
        },
        {
            "id": "aws:ssm:send-command",
            "description": "Run the specified SSM document.",
            "targets": {
                "Instances": {
                    "resourceType": "aws:ec2:instance"
                }
            },
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tindakan](https://docs.aws.amazon.com/fis/latest/userguide/actions.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [ListActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/list-actions.html)di *Referensi AWS CLI Perintah*. 

### `list-experiment-templates`
<a name="fis_ListExperimentTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-experiment-templates`.

**AWS CLI**  
**Untuk membuat daftar templat eksperimen**  
`list-experiment-templates`Contoh berikut mencantumkan templat eksperimen di AWS akun Anda.  

```
aws fis list-experiment-templates
```
Output:  

```
{
    "experimentTemplates": [
        {
            "id": "ABCDE1fgHIJkLmNop",
            "description": "myExperimentTemplate",
            "creationTime": 1616017191.124,
            "lastUpdateTime": 1616017191.124,
            "tags": {
                "key": "value"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Templat eksperimen](https://docs.aws.amazon.com/fis/latest/userguide/experiment-templates.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [ListExperimentTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/list-experiment-templates.html)di *Referensi AWS CLI Perintah*. 

### `list-experiments`
<a name="fis_ListExperiments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-experiments`.

**AWS CLI**  
**Untuk membuat daftar eksperimen**  
`list-experiments`Contoh berikut mencantumkan eksperimen di AWS akun Anda.  

```
aws fis list-experiments
```
Output:  

```
{
    "experiments": [
        {
            "id": "ABCdeF1GHiJkLM23NO",
            "experimentTemplateId": "ABCDE1fgHIJkLmNop",
            "state": {
                "status": "running",
                "reason": "Experiment is running."
            },
            "creationTime": 1616017341.197,
            "tags": {
            "key": "value"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Eksperimen](https://docs.aws.amazon.com/fis/latest/userguide/experiments.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [ListExperiments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/list-experiments.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="fis_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk sumber daya yang ditentukan.  

```
aws fis list-tags-for-resource \
    --resource-arn arn:aws:fis:us-west-2:123456789012:experiment/ABC12DeFGhI3jKLMNOP
```
Output:  

```
{
    "tags": {
        "key1": "value1",
        "key2": "value2"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya AWS FIS Anda](https://docs.aws.amazon.com/fis/latest/userguide/tagging.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-experiment`
<a name="fis_StartExperiment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-experiment`.

**AWS CLI**  
**Untuk memulai percobaan**  
`start-experiment`Contoh berikut memulai percobaan yang ditentukan.  

```
aws fis start-experiment \
    --experiment-template-id ABCDE1fgHIJkLmNop
```
Output:  

```
{
    "experiment": {
        "id": "ABC12DeFGhI3jKLMNOP",
        "experimentTemplateId": "ABCDE1fgHIJkLmNop",
        "roleArn": "arn:aws:iam::123456789012:role/myRole",
        "state": {
            "status": "initiating",
            "reason": "Experiment is initiating."
        },
        "targets": {
            "Instances-Target-1": {
                "resourceType": "aws:ec2:instance",
                "resourceArns": [
                    "arn:aws:ec2:us-west-2:123456789012:instance/i-12a3b4c56d78e9012"
                ],
                "selectionMode": "ALL"
            }
        },
        "actions": {
            "reboot": {
                "actionId": "aws:ec2:reboot-instances",
                "parameters": {},
                "targets": {
                    "Instances": "Instances-Target-1"
                },
                "state": {
                    "status": "pending",
                    "reason": "Initial state"
                }
            }
        },
        "stopConditions": [
            {
                "source": "none"
            }
        ],
        "creationTime": 1616432464.025,
        "startTime": 1616432464.374,
        "tags": {}
    }
}
```
Untuk informasi lebih lanjut, lihat [Eksperimen untuk AWS FIS](https://docs.aws.amazon.com/fis/latest/userguide/experiments.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [StartExperiment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/start-experiment.html)di *Referensi AWS CLI Perintah*. 

### `stop-experiment`
<a name="fis_StopExperiment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-experiment`.

**AWS CLI**  
**Untuk menghentikan percobaan**  
`stop-experiment`Contoh berikut menghentikan percobaan yang ditentukan agar tidak berjalan.  

```
aws fis stop-experiment \
    --id ABC12DeFGhI3jKLMNOP
```
Output:  

```
{
    "experiment": {
        "id": "ABC12DeFGhI3jKLMNOP",
        "experimentTemplateId": "ABCDE1fgHIJkLmNop",
        "roleArn": "arn:aws:iam::123456789012:role/myRole",
        "state": {
            "status": "stopping",
            "reason": "Stopping Experiment."
        },
        "targets": {
            "Instances-Target-1": {
                "resourceType": "aws:ec2:instance",
                "resourceArns": [
                    "arn:aws:ec2:us-west-2:123456789012:instance/i-12a3b4c56d78e9012"
                ],
                "selectionMode": "ALL"
            }
        },
        "actions": {
            "reboot": {
                "actionId": "aws:ec2:reboot-instances",
                "parameters": {},
                "targets": {
                    "Instances": "Instances-Target-1"
                },
                "startAfter": [
                    "wait"
                ],
                "state": {
                    "status": "pending",
                    "reason": "Initial state."
                }
            },
            "wait": {
                "actionId": "aws:fis:wait",
                "parameters": {
                    "duration": "PT5M"
                },
                "state": {
                    "status": "running",
                    "reason": ""
                }
            }
        },
        "stopConditions": [
            {
                "source": "none"
            }
        ],
        "creationTime": 1616432680.927,
        "startTime": 1616432681.177,
        "tags": {}
    }
}
```
Untuk informasi lebih lanjut, lihat [Eksperimen untuk AWS FIS](https://docs.aws.amazon.com/fis/latest/userguide/experiments.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [StopExperiment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/stop-experiment.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="fis_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut menandai sumber daya yang ditentukan.  

```
aws fis tag-resource \
    --resource-arn arn:aws:fis:us-west-2:123456789012:experiment/ABC12DeFGhI3jKLMNOP \
    --tags key1=value1,key2=value2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya AWS FIS Anda](https://docs.aws.amazon.com/fis/latest/userguide/tagging.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="fis_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag sumber daya**  
`untag-resource`Contoh berikut menghapus tag dari sumber daya yang ditentukan.  

```
aws fis untag-resource \
    --resource-arn arn:aws:fis:us-west-2:123456789012:experiment/ABC12DeFGhI3jKLMNOP
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya AWS FIS Anda](https://docs.aws.amazon.com/fis/latest/userguide/tagging.html) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-experiment-template`
<a name="fis_UpdateExperimentTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-experiment-template`.

**AWS CLI**  
**Untuk memperbarui template eksperimen**  
`update-experiment-template`Contoh berikut memperbarui deskripsi template percobaan yang ditentukan.  

```
aws fis update-experiment-template \
    --id ABCDE1fgHIJkLmNop \
    ---description myExperimentTemplate
```
Output:  

```
{
    "experimentTemplate": {
        "id": "ABCDE1fgHIJkLmNop",
        "description": "myExperimentTemplate",
        "targets": {
            "Instances-Target-1": {
                "resourceType": "aws:ec2:instance",
                "resourceArns": [
                    "arn:aws:ec2:us-west-2:123456789012:instance/i-12a3b4c56d78e9012"
                ],
                "selectionMode": "ALL"
            }
        },
        "actions": {
            "testaction": {
                "actionId": "aws:ec2:stop-instances",
                "parameters": {},
                "targets": {
                    "Instances": "Instances-Target-1"
                }
            }
        },
        "stopConditions": [
            {
                "source": "none"
            }
        ],
        "creationTime": 1616017191.124,
        "lastUpdateTime": 1616017859.607,
        "roleArn": "arn:aws:iam::123456789012:role/FISRole",
        "tags": {
            "key": "value"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui templat eksperimen](https://docs.aws.amazon.com/fis/latest/userguide/working-with-templates.html#update-template) di *Panduan Pengguna Simulator Injeksi AWS Kesalahan*.  
+  Untuk detail API, lihat [UpdateExperimentTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/fis/update-experiment-template.html)di *Referensi AWS CLI Perintah*. 

# Contoh GameLift Server Amazon menggunakan AWS CLI
<a name="cli_2_gamelift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon GameLift Server.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-build`
<a name="gamelift_CreateBuild_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-build`.

**AWS CLI**  
**Contoh1: Untuk membuat build game dari file di bucket S3**  
`create-build`Contoh berikut membuat resource build game kustom. Ini menggunakan file zip yang disimpan di lokasi S3 di AWS akun yang Anda kontrol. Contoh ini mengasumsikan bahwa Anda telah membuat peran IAM yang memberikan GameLift izin Amazon untuk mengakses lokasi S3. Karena permintaan tidak menentukan sistem operasi, sumber daya build baru default ke WINDOWS\$12012.  

```
aws gamelift create-build \
    --storage-location file://storage-loc.json \
    --name MegaFrogRaceServer.NA \
    --build-version 12345.678
```
Isi dari `storage-loc.json`:  

```
{
    "Bucket":"MegaFrogRaceServer_NA_build_files"
    "Key":"MegaFrogRaceServer_build_123.zip"
    "RoleArn":"arn:aws:iam::123456789012:role/gamelift"
}
```
Output:  

```
{
    "Build": {
        "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "CreationTime": 1496708916.18,
        "Name": "MegaFrogRaceServer.NA",
        "OperatingSystem": "WINDOWS_2012",
        "SizeOnDisk": 479303,
        "Status": "INITIALIZED",
        "Version": "12345.678"
    },
    "StorageLocation": {
        "Bucket": "MegaFrogRaceServer_NA_build_files",
        "Key": "MegaFrogRaceServer_build_123.zip"
    }
}
```
**Contoh2: Untuk membuat sumber daya pembuatan game untuk mengunggah file secara manual GameLift**  
`create-build`Contoh berikut membuat sumber daya build baru. Ini juga mendapat lokasi penyimpanan dan kredensil sementara yang memungkinkan Anda mengunggah build game secara manual ke GameLift lokasi di Amazon S3. Setelah berhasil mengunggah build, GameLift layanan memvalidasi build dan memperbarui status build baru.  

```
aws gamelift create-build \
    --name MegaFrogRaceServer.NA \
    --build-version 12345.678 \
    --operating-system AMAZON_LINUX
```
Output:  

```
{
    "Build": {
        "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "CreationTime": 1496708916.18,
        "Name": "MegaFrogRaceServer.NA",
        "OperatingSystem": "AMAZON_LINUX",
        "SizeOnDisk": 0,
        "Status": "INITIALIZED",
        "Version": "12345.678"
    },
    "StorageLocation": {
        "Bucket": "gamelift-builds-us-west-2",
        "Key": "123456789012/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    },
    "UploadCredentials": {
        "AccessKeyId": "AKIAIOSFODNN7EXAMPLE",
        "SecretAccessKey": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY",
        "SessionToken": "AgoGb3JpZ2luENz...EXAMPLETOKEN=="
    }
}
```
Untuk informasi selengkapnya, lihat [Mengunggah Pembuatan Server Kustom ke GameLift](https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-build-cli-uploading.html) dalam *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [CreateBuild](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/create-build.html)di *Referensi AWS CLI Perintah*. 

### `create-fleet`
<a name="gamelift_CreateFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-fleet`.

**AWS CLI**  
**Contoh 1: Untuk membuat armada Linux dasar**  
`create-fleet`Contoh berikut membuat armada instans Linux on-demand yang dikonfigurasi minimal untuk meng-host build server kustom. Anda dapat menyelesaikan konfigurasi dengan menggunakan`update-fleet`.  

```
aws gamelift create-fleet \
    --name MegaFrogRaceServer.NA.v2 \
    --description 'Hosts for v2 North America' \
    --build-id build-1111aaaa-22bb-33cc-44dd-5555eeee66ff \
    --certificate-configuration 'CertificateType=GENERATED' \
    --ec2-instance-type c4.large \
    --fleet-type ON_DEMAND \
    --runtime-configuration 'ServerProcesses=[{LaunchPath=/local/game/release-na/MegaFrogRace_Server.exe,ConcurrentExecutions=1}]'
```
Output:  

```
{
    "FleetAttributes": {
        "BuildId": "build-1111aaaa-22bb-33cc-44dd-5555eeee66ff",
        "CertificateConfiguration": {
            "CertificateType": "GENERATED"
        },
        "CreationTime": 1496365885.44,
        "Description": "Hosts for v2 North America",
        "FleetArn": "arn:aws:gamelift:us-west-2:444455556666:fleet/fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
        "FleetId": "fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
        "FleetType": "ON_DEMAND",
        "InstanceType": "c4.large",
        "MetricGroups": ["default"],
        "Name": "MegaFrogRace.NA.v2",
        "NewGameSessionProtectionPolicy": "NoProtection",
        "OperatingSystem": "AMAZON_LINUX",
        "ServerLaunchPath": "/local/game/release-na/MegaFrogRace_Server.exe",
        "Status": "NEW"
    }
}
```
**Contoh 2: Untuk membuat armada Windows dasar**  
`create-fleet`Contoh berikut membuat armada instance Windows spot yang dikonfigurasi minimal untuk meng-host build server kustom. Anda dapat menyelesaikan konfigurasi dengan menggunakan`update-fleet`.  

```
aws gamelift create-fleet \
    --name MegaFrogRace.NA.v2 \
    --description 'Hosts for v2 North America' \
    --build-id build-2222aaaa-33bb-44cc-55dd-6666eeee77ff  \
    --certificate-configuration 'CertificateType=GENERATED' \
    --ec2-instance-type c4.large \
    --fleet-type SPOT \
    --runtime-configuration 'ServerProcesses=[{LaunchPath=C:\game\Bin64.Release.Dedicated\MegaFrogRace_Server.exe,ConcurrentExecutions=1}]'
```
Output:  

```
{
    "FleetAttributes": {
        "BuildId": "build-2222aaaa-33bb-44cc-55dd-6666eeee77ff",
        "CertificateConfiguration": {
            "CertificateType": "GENERATED"
        },
        "CreationTime": 1496365885.44,
        "Description": "Hosts for v2 North America",
        "FleetArn": "arn:aws:gamelift:us-west-2:444455556666:fleet/fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
        "FleetId": "fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
        "FleetType": "SPOT",
        "InstanceType": "c4.large",
        "MetricGroups": ["default"],
        "Name": "MegaFrogRace.NA.v2",
        "NewGameSessionProtectionPolicy": "NoProtection",
        "OperatingSystem": "WINDOWS_2012",
        "ServerLaunchPath": "C:\game\Bin64.Release.Dedicated\MegaFrogRace_Server.exe",
        "Status": "NEW"
    }
}
```
**Contoh 3: Untuk membuat armada yang sepenuhnya dikonfigurasi**  
`create-fleet`Contoh berikut membuat armada instance Spot Windows untuk build server kustom, dengan pengaturan konfigurasi yang paling umum digunakan disediakan.  

```
aws gamelift create-fleet \
    --name MegaFrogRace.NA.v2 \
    --description 'Hosts for v2 North America' \
    --build-id build-2222aaaa-33bb-44cc-55dd-6666eeee77ff \
    --certificate-configuration 'CertificateType=GENERATED' \
    --ec2-instance-type c4.large \
    --ec2-inbound-permissions 'FromPort=33435,ToPort=33435,IpRange=10.24.34.0/23,Protocol=UDP' \
    --fleet-type SPOT \
    --new-game-session-protection-policy FullProtection \
    --runtime-configuration file://runtime-config.json \
    --metric-groups default \
    --instance-role-arn 'arn:aws:iam::444455556666:role/GameLiftS3Access'
```
Isi dari `runtime-config.json`:  

```
GameSessionActivationTimeoutSeconds=300,
 MaxConcurrentGameSessionActivations=2,
 ServerProcesses=[
   {LaunchPath=C:\game\Bin64.Release.Dedicated\MegaFrogRace_Server.exe,Parameters=-debug,ConcurrentExecutions=1},
   {LaunchPath=C:\game\Bin64.Release.Dedicated\MegaFrogRace_Server.exe,ConcurrentExecutions=1}]
```
Output:  

```
{
    "FleetAttributes": {
        "InstanceRoleArn": "arn:aws:iam::444455556666:role/GameLiftS3Access",
        "Status": "NEW",
        "InstanceType": "c4.large",
        "FleetArn": "arn:aws:gamelift:us-west-2:444455556666:fleet/fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
        "FleetId": "fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
        "Description": "Hosts for v2 North America",
        "FleetType": "SPOT",
        "OperatingSystem": "WINDOWS_2012",
        "Name": "MegaFrogRace.NA.v2",
        "CreationTime": 1569309011.11,
        "MetricGroups": [
            "default"
        ],
        "BuildId": "build-2222aaaa-33bb-44cc-55dd-6666eeee77ff",
        "ServerLaunchParameters": "abc",
        "ServerLaunchPath": "C:\\game\\Bin64.Release.Dedicated\\MegaFrogRace_Server.exe",
        "NewGameSessionProtectionPolicy": "FullProtection",
        "CertificateConfiguration": {
            "CertificateType": "GENERATED"
        }
    }
}
```
**Contoh 4: Untuk membuat armada Server Realtime**  
`create-fleet`Contoh berikut membuat armada instance Spot dengan skrip konfigurasi Realtime yang telah diunggah ke Amazon. GameLift Semua server Realtime dikerahkan ke mesin Linux. Untuk keperluan contoh ini, asumsikan bahwa skrip Realtime yang diunggah mencakup beberapa file skrip, dengan `Init()` fungsi yang terletak di file skrip yang disebut. `MainScript.js` Seperti yang ditunjukkan, file ini diidentifikasi sebagai skrip peluncuran dalam konfigurasi runtime.  

```
aws gamelift create-fleet \
    --name MegaFrogRace.NA.realtime \
    --description 'Mega Frog Race Realtime fleet' \
    --script-id script-1111aaaa-22bb-33cc-44dd-5555eeee66ff \
    --ec2-instance-type c4.large \
    --fleet-type SPOT \
    --certificate-configuration 'CertificateType=GENERATED' --runtime-configuration 'ServerProcesses=[{LaunchPath=/local/game/MainScript.js,Parameters=+map Winter444,ConcurrentExecutions=5}]'
```
Output:  

```
{
    "FleetAttributes": {
        "FleetId": "fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
        "Status": "NEW",
        "CreationTime": 1569310745.212,
        "InstanceType": "c4.large",
        "NewGameSessionProtectionPolicy": "NoProtection",
        "CertificateConfiguration": {
            "CertificateType": "GENERATED"
        },
        "Name": "MegaFrogRace.NA.realtime",
        "ScriptId": "script-1111aaaa-22bb-33cc-44dd-5555eeee66ff",
        "FleetArn": "arn:aws:gamelift:us-west-2:444455556666:fleet/fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
        "FleetType": "SPOT",
        "MetricGroups": [
            "default"
        ],
        "Description": "Mega Frog Race Realtime fleet",
        "OperatingSystem": "AMAZON_LINUX"
    }
}
```
+  Untuk detail API, lihat [CreateFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/create-fleet.html)di *Referensi AWS CLI Perintah*. 

### `create-game-session-queue`
<a name="gamelift_CreateGameSessionQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-game-session-queue`.

**AWS CLI**  
**Contoh1: Untuk mengatur antrian sesi permainan yang diurutkan**  
`create-game-session-queue`Contoh berikut membuat antrian sesi permainan baru dengan tujuan di dua wilayah. Ini juga mengkonfigurasi antrian sehingga sesi permainan meminta waktu habis setelah menunggu 10 menit untuk penempatan. Karena tidak ada kebijakan latensi yang ditentukan, GameLift upaya untuk menempatkan semua sesi permainan dengan tujuan pertama yang terdaftar.  

```
aws gamelift create-game-session-queue \
    --name MegaFrogRaceServer-NA \
    --destinations file://destinations.json \
    --timeout-in-seconds 600
```
Isi dari `destinations.json`:  

```
{
    "Destinations": [
        {"DestinationArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111" },
        {"DestinationArn": "arn:aws:gamelift:us-west-1::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222" }
    ]
}
```
Output:  

```
{
    "GameSessionQueues": [
        {
            "Name": "MegaFrogRaceServer-NA",
            "GameSessionQueueArn": "arn:aws:gamelift:us-west-2:123456789012:gamesessionqueue/MegaFrogRaceServer-NA",
            "TimeoutInSeconds": 600,
            "Destinations": [
                {"DestinationArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"},
                {"DestinationArn": "arn:aws:gamelift:us-west-1::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"}
            ]
        }
    ]
}
```
**Contoh2: Untuk mengatur antrean sesi game dengan kebijakan latensi pemain**  
`create-game-session-queue`Contoh berikut membuat antrean sesi permainan baru dengan kebijakan latensi dua pemain. Kebijakan pertama menetapkan batas latensi 100 ms yang diberlakukan selama menit pertama upaya penempatan sesi game. Kebijakan kedua menaikkan batas latensi menjadi 200 ms hingga waktu permintaan penempatan habis pada 3 menit.  

```
aws gamelift create-game-session-queue \
    --name MegaFrogRaceServer-NA \
    --destinations file://destinations.json \
    --player-latency-policies file://latency-policies.json \
    --timeout-in-seconds 180
```
Isi dari `destinations.json`:  

```
{
    "Destinations": [
        { "DestinationArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111" },
        { "DestinationArn": "arn:aws:gamelift:us-east-1::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222" }
    ]
}
```
Isi dari `latency-policies.json`:  

```
{
    "PlayerLatencyPolicies": [
        {"MaximumIndividualPlayerLatencyMilliseconds": 200},
        {"MaximumIndividualPlayerLatencyMilliseconds": 100, "PolicyDurationSeconds": 60}
    ]
}
```
Output:  

```
{
    "GameSessionQueue": {
        "Name": "MegaFrogRaceServer-NA",
        "GameSessionQueueArn": "arn:aws:gamelift:us-west-2:111122223333:gamesessionqueue/MegaFrogRaceServer-NA",
        "TimeoutInSeconds": 600,
        "PlayerLatencyPolicies": [
            {
                "MaximumIndividualPlayerLatencyMilliseconds": 100,
                "PolicyDurationSeconds": 60
            },
            {
                "MaximumIndividualPlayerLatencyMilliseconds": 200
            }
        ]
        "Destinations": [
            {"DestinationArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"},
            {"DestinationArn": "arn:aws:gamelift:us-east-1::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"}
        ],
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Antrian](https://docs.aws.amazon.com/gamelift/latest/developerguide/queues-creating.html#queues-creating-cli) di *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [CreateGameSessionQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/create-game-session-queue.html)di *Referensi AWS CLI Perintah*. 

### `delete-build`
<a name="gamelift_DeleteBuild_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-build`.

**AWS CLI**  
**Untuk menghapus build game kustom**  
`delete-build`Contoh berikut menghapus build dari GameLift akun Amazon Anda. Setelah build dihapus, Anda tidak dapat menggunakannya untuk membuat armada baru. Operasi ini tidak dapat dibatalkan.  

```
aws gamelift delete-build \
   --build-id build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteBuild](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/delete-build.html)di *Referensi AWS CLI Perintah*. 

### `delete-fleet`
<a name="gamelift_DeleteFleet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-fleet`.

**AWS CLI**  
**Untuk menghapus armada yang tidak lagi digunakan**  
`delete-fleet`Contoh berikut menghapus armada yang telah diperkecil menjadi nol instance. Jika kapasitas armada lebih besar dari nol, permintaan gagal dengan kesalahan HTTP 400.  

```
aws gamelift delete-fleet \
   --fleet-id fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ GameLift Mengelola Armada](https://docs.aws.amazon.com/gamelift/latest/developerguide/fleets-editing.html) di *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DeleteFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/delete-fleet.html)di *Referensi AWS CLI Perintah*. 

### `delete-game-session-queue`
<a name="gamelift_DeleteGameSessionQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-game-session-queue`.

**AWS CLI**  
**Untuk menghapus antrean sesi permainan**  
`delete-game-session-queue`Contoh berikut menghapus antrian sesi permainan tertentu.  

```
aws gamelift delete-game-session-queue \
    --name MegaFrogRace-NA
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteGameSessionQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/delete-game-session-queue.html)di *Referensi AWS CLI Perintah*. 

### `describe-build`
<a name="gamelift_DescribeBuild_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-build`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pembuatan game khusus**  
`describe-build`Contoh berikut mengambil properti untuk sumber daya build server game.  

```
aws gamelift describe-build \
    --build-id build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "Build": {
        "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "CreationTime": 1496708916.18,
        "Name": "My_Game_Server_Build_One",
        "OperatingSystem": "AMAZON_LINUX",
        "SizeOnDisk": 1304924,
        "Status": "READY",
        "Version": "12345.678"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengunggah Pembuatan Server Kustom ke GameLift](https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-build-cli-uploading.html#gamelift-build-cli-uploading-builds) dalam *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeBuild](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-build.html)di *Referensi AWS CLI Perintah*. 

### `describe-ec2-instance-limits`
<a name="gamelift_DescribeEc2InstanceLimits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ec2-instance-limits`.

**AWS CLI**  
**Untuk mengambil batas layanan untuk jenis instans EC2**  
`describe-ec2-instance-limits`Contoh berikut menampilkan instans maksimum yang diizinkan dan instans saat ini yang digunakan untuk jenis instans EC2 yang ditentukan di Wilayah saat ini. Hasilnya menunjukkan bahwa hanya lima dari dua puluh contoh yang diizinkan digunakan.  

```
aws gamelift describe-ec2-instance-limits \
    --ec2-instance-type m5.large
```
Output:  

```
{
    "EC2InstanceLimits": [
        {
            "EC2InstanceType": ""m5.large",
            "CurrentInstances": 5,
            "InstanceLimit": 20
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memilih Sumber Daya Komputasi](https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-ec2-instances.html) di *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeEc2 InstanceLimits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-ec2-instance-limits.html) di *Referensi AWS CLI Perintah*. 

### `describe-fleet-attributes`
<a name="gamelift_DescribeFleetAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fleet-attributes`.

**AWS CLI**  
**Contoh1: Untuk melihat atribut untuk daftar armada**  
`describe-fleet-attributes`Contoh berikut mengambil atribut armada untuk dua armada tertentu. Seperti yang ditunjukkan, armada yang diminta disebarkan dengan build yang sama, satu untuk instans On-Demand dan satu untuk instance Spot, dengan beberapa perbedaan konfigurasi kecil.  

```
aws gamelift describe-fleet-attributes \
    --fleet-ids arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222
```
Output:  

```
{
    "FleetAttributes": [
        {
            "FleetId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "FleetArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "FleetType": "ON_DEMAND",
            "InstanceType": "c4.large",
            "Description": "On-demand hosts for v2 North America",
            "Name": "MegaFrogRaceServer.NA.v2-od",
            "CreationTime": 1568836191.995,
            "Status": "ACTIVE",
            "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "ServerLaunchPath": "C:\\game\\MegaFrogRace_Server.exe",
            "ServerLaunchParameters": "+gamelift_start_server",
            "NewGameSessionProtectionPolicy": "NoProtection",
            "OperatingSystem": "WINDOWS_2012",
            "MetricGroups": [
                "default"
            ],
            "CertificateConfiguration": {
                "CertificateType": "DISABLED"
            }
        },
        {
            "FleetId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "FleetArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "FleetType": "SPOT",
            "InstanceType": "c4.large",
            "Description": "On-demand hosts for v2 North America",
            "Name": "MegaFrogRaceServer.NA.v2-spot",
            "CreationTime": 1568838275.379,
            "Status": "ACTIVATING",
            "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "ServerLaunchPath": "C:\\game\\MegaFrogRace_Server.exe",
            "NewGameSessionProtectionPolicy": "NoProtection",
            "OperatingSystem": "WINDOWS_2012",
                "MetricGroups": [
                "default"
            ],
            "CertificateConfiguration": {
                "CertificateType": "GENERATED"
            }
        }
    ]
}
```
**Contoh2: Untuk meminta atribut untuk semua armada**  
Berikut ini `describe-fleet-attributes` mengembalikan atribut armada untuk semua armada dengan status apa pun. Contoh ini menggambarkan penggunaan parameter pagination untuk mengembalikan satu armada pada satu waktu.  

```
aws gamelift describe-fleet-attributes \
    --limit 1
```
Output:  

```
{
    "FleetAttributes": [
        {
            "FleetId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "FleetArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "FleetType": "SPOT",
            "InstanceType": "c4.large",
            "Description": "On-demand hosts for v2 North America",
            "Name": "MegaFrogRaceServer.NA.v2-spot",
            "CreationTime": 1568838275.379,
            "Status": "ACTIVATING",
            "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "ServerLaunchPath": "C:\\game\\MegaFrogRace_Server.exe",
            "NewGameSessionProtectionPolicy": "NoProtection",
            "OperatingSystem": "WINDOWS_2012",
            "MetricGroups": [
                "default"
            ],
            "CertificateConfiguration": {
                "CertificateType": "GENERATED"
            }
        }
    ],
    "NextToken": "eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC01NWYxZTZmMS1jY2FlLTQ3YTctOWI5ZS1iYjFkYTQwMjEXAMPLE2"
}
```
Outputnya mencakup `NextToken` nilai yang dapat Anda gunakan saat Anda memanggil perintah untuk kedua kalinya. Berikan nilai ke `--next-token` parameter untuk menentukan di mana untuk mengambil output. Perintah berikut mengembalikan hasil kedua dalam output.  

```
aws gamelift describe-fleet-attributes \
    --limit 1 \
    --next-token eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC01NWYxZTZmMS1jY2FlLTQ3YTctOWI5ZS1iYjFkYTQwMjEXAMPLE1
```
Ulangi sampai respon tidak menyertakan `NextToken` nilai.  
Untuk informasi selengkapnya, lihat [Menyiapkan GameLift Armada](https://docs.aws.amazon.com/gamelift/latest/developerguide/fleets-intro.html) di *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeFleetAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-fleet-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-fleet-capacity`
<a name="gamelift_DescribeFleetCapacity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fleet-capacity`.

**AWS CLI**  
**Untuk melihat status kapasitas untuk daftar armada**  
`describe-fleet-capacity`Contoh berikut mengambil kapasitas saat ini untuk dua armada tertentu.  

```
aws gamelift describe-fleet-capacity \
    --fleet-ids arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222
```
Output:  

```
{
    "FleetCapacity": [
        {
            "FleetId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "InstanceType": "c5.large",
            "InstanceCounts": {
                "DESIRED": 10,
                "MINIMUM": 1,
                "MAXIMUM": 20,
                "PENDING": 0,
                "ACTIVE": 10,
                "IDLE": 3,
                "TERMINATING": 0
            }
        },
        {
            "FleetId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "InstanceType": "c5.large",
            "InstanceCounts": {
                "DESIRED": 13,
                "MINIMUM": 1,
                "MAXIMUM": 20,
                "PENDING": 0,
                "ACTIVE": 15,
                "IDLE": 2,
                "TERMINATING": 2
            }
        }

    ]
}
```
Untuk informasi selengkapnya, lihat [GameLift Metrik untuk Armada](https://docs.aws.amazon.com/gamelift/latest/developerguide/monitoring-cloudwatch.html#gamelift-metrics-fleet) di Panduan * GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeFleetCapacity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-fleet-capacity.html)di *Referensi AWS CLI Perintah*. 

### `describe-fleet-events`
<a name="gamelift_DescribeFleetEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fleet-events`.

**AWS CLI**  
**Untuk meminta acara untuk rentang waktu tertentu**  
`describe-fleet-events`Contoh berikut menampilkan rincian semua peristiwa terkait armada yang terjadi selama rentang waktu yang ditentukan.  

```
aws gamelift describe-fleet-events \
    --fleet-id arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --start-time 1579647600 \
    --end-time 1579649400 \
    --limit 5
```
Output:  

```
{
    "Events": [
        {
            "EventId": "a37b6892-5d07-4d3b-8b47-80244ecf66b9",
            "ResourceId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "EventCode": "FLEET_STATE_ACTIVE",
            "Message": "Fleet fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 changed state to ACTIVE",
            "EventTime": 1579649342.191
        },
        {
            "EventId": "67da4ec9-92a3-4d95-886a-5d6772c24063",
            "ResourceId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "EventCode": "FLEET_STATE_ACTIVATING",
            "Message": "Fleet fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 changed state to ACTIVATING",
            "EventTime": 1579649321.427
        },
        {
            "EventId": "23813a46-a9e6-4a53-8847-f12e6a8381ac",
            "ResourceId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "EventCode": "FLEET_STATE_BUILDING",
            "Message": "Fleet fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 changed state to BUILDING",
            "EventTime": 1579649321.243
        },
        {
            "EventId": "3bf217d0-1d44-42f9-9202-433ed475d2e8",
            "ResourceId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "EventCode": "FLEET_STATE_VALIDATING",
            "Message": "Fleet fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 changed state to VALIDATING",
            "EventTime": 1579649197.449
        },
        {
            "EventId": "2ecd0130-5986-44eb-99a7-62df27741084",
            "ResourceId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "EventCode": "FLEET_VALIDATION_LAUNCH_PATH_NOT_FOUND",
            "Message": "Failed to find a valid path",
            "EventTime": 1569319075.839,
            "PreSignedLogUrl": "https://gamelift-event-logs-prod-us-west-2.s3.us-west-2.amazonaws.com/logs/fleet-83422059-8329-42a2-a4d6-c4444386a6f8/events/2ecd0130-5986-44eb-99a7-62df27741084/FLEET_VALIDATION_LAUNCH_PATH_NOT_FOUND.txt?X-Amz-Security-Token=IQoJb3JpZ2luX2VjEB8aCXVzLXdlc3QtMiJHMEUCIHV5K%2FLPx8h310D%2FAvx0%2FZxsDy5XA3cJOwPdu3T0eBa%2FAiEA1yovokcZYy%2FV4CWW6l26aFyiSHO%2Bxz%2FBMAhEHYHMQNcqkQMImP%2F%2F%2F%2F%2F%2F%2F%2F%2F%2FARAAGgw3NDEwNjE1OTIxNzEiDI8rsZtzLzlwEDQhXSrlAtl5Ae%2Fgo6FCIzqXPbXfBOnSvFYqeDlriZarEpKqKrUt8mXQv9iqHResqCph9AKo49lwgSYTT2QoSxnrD7%2FUgv%2BZm2pVuczvuKtUA0fcx6s0GxpjIAzdIE%2F5P%2FB7B9M%2BVZ%2F9KF82hbJi0HTE6Y7BjKsEgFCvk4UXILhfjtan9iQl8%2F21ZTurAcJbm7Y5tuLF9SWSK3%2BEa7VXOcCK4D4O1sMjmdRm0q0CKZ%2FIaXoHkNvg0RVTa0hIqdvpaDQlsSBNdqTXbjHTu6fETE9Y9Ky%2BiJK5KiUG%2F59GjCpDcvS1FqKeLUEmKT7wysGmvjMc2n%2Fr%2F9VxQfte7w9srXwlLAQuwhiXAAyI5ICMZ5JvzjzQwTqD4CHTVKUUDwL%2BRZzbuuqkJObZml02CkRGp%2B74RTAzLbWptVqZTIfzctiCTmWxb%2FmKyELRYsVLrwNJ%2BGJ7%2BCrN0RC%2FjlgfLYIZyeAqjPgAu5HjgX%2BM7jCo9M7wBTrnAXKOFQuf9dvA84SuwXOJFp17LYGjrHMKv0qC3GfbTMrZ6kzeNV9awKCpXB2Gnx9z2KvIlJdqirWVpvHVGwKCmJBCesDzjJHrae3neogI1uW%2F9C6%2B4jIZPME3jXmZcEHqqw5uvAVF7aeIavtUZU8pxpDIWT0YE4p3Kriy2AA7ziCRKtVfjV839InyLk8LUjsioWK2qlpg2HXKFLpAXw1QsQyxYmFMB9sGKOUlbL7Jdkk%2BYUq8%2FDTlLxqj1S%2FiO4TI0Wo7ilAo%2FKKWWF4guuNDexj8EOOynSp1yImB%2BZf2Fua3O44W4eEXAMPLE33333&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20170621T231808Z&X-Amz-SignedHeaders=host&X-Amz-Expires=900&X-Amz-Credential=AKIAIOSFODNN7EXAMPLE%2F20170621%2Fus-west-2%2Fs3%2Faws4_request&X-Amz-Signature=wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY"
        }
    ],
    "NextToken": "eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC01NWYxZTZmMS1jY2FlLTQ3YTctOWI5ZS1iYjFkYTQwMjEXAMPLE2"
}
```
Untuk informasi selengkapnya, lihat [Mendebug Masalah GameLift Armada](https://docs.aws.amazon.com/gamelift/latest/developerguide/fleets-creating-debug.html) di *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeFleetEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-fleet-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-fleet-port-settings`
<a name="gamelift_DescribeFleetPortSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fleet-port-settings`.

**AWS CLI**  
**Untuk melihat izin koneksi masuk untuk armada**  
`describe-fleet-port-settings`Contoh berikut mengambil pengaturan koneksi untuk armada tertentu.  

```
aws gamelift describe-fleet-port-settings \
    --fleet-id arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "InboundPermissions": [
        {
            "FromPort": 33400,
            "ToPort": 33500,
            "IpRange": "0.0.0.0/0",
            "Protocol": "UDP"
        },
        {
            "FromPort": 1900,
            "ToPort": 2000,
            "IpRange": "0.0.0.0/0",
            "Protocol": "TCP"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan GameLift Armada](https://docs.aws.amazon.com/gamelift/latest/developerguide/fleets-intro.html) di *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeFleetPortSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-fleet-port-settings.html)di *Referensi AWS CLI Perintah*. 

### `describe-fleet-utilization`
<a name="gamelift_DescribeFleetUtilization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fleet-utilization`.

**AWS CLI**  
**Contoh1: Untuk melihat data penggunaan untuk daftar armada**  
`describe-fleet-utilization`Contoh berikut mengambil informasi penggunaan saat ini untuk satu armada tertentu.  

```
aws gamelift describe-fleet-utilization \
    --fleet-ids arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "FleetUtilization": [
        {
        "FleetId": "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "ActiveServerProcessCount": 100,
        "ActiveGameSessionCount": 62,
        "CurrentPlayerSessionCount": 329,
        "MaximumPlayerSessionCount": 1000
        }
    ]
}
```
**Contoh2: Untuk meminta data penggunaan untuk semua armada**  
Berikut ini `describe-fleet-utilization` mengembalikan data penggunaan armada untuk semua armada dengan status apa pun. Contoh ini menggunakan parameter pagination untuk mengembalikan data untuk dua armada sekaligus.  

```
aws gamelift describe-fleet-utilization \
    --limit 2
```
Output:  

```
{
    "FleetUtilization": [
        {
            "FleetId": "fleet-1111aaaa-22bb-33cc-44dd-5555eeee66ff",
            "ActiveServerProcessCount": 100,
            "ActiveGameSessionCount": 13,
            "CurrentPlayerSessionCount": 98,
            "MaximumPlayerSessionCount": 1000
        },
        {
            "FleetId": "fleet-2222bbbb-33cc-44dd-55ee-6666ffff77aa",
            "ActiveServerProcessCount": 100,
            "ActiveGameSessionCount": 62,
            "CurrentPlayerSessionCount": 329,
            "MaximumPlayerSessionCount": 1000
        }
    ],
    "NextToken": "eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC01NWYxZTZmMS1jY2FlLTQ3YTctOWI5ZS1iYjFkYTQwMjEXAMPLE2"
}
```
Panggil perintah untuk kedua kalinya, `NextToken` berikan nilai sebagai argumen ke `--next-token` parameter untuk melihat dua hasil berikutnya.  

```
aws gamelift describe-fleet-utilization \
    --limit 2 \
    --next-token eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC01NWYxZTZmMS1jY2FlLTQ3YTctOWI5ZS1iYjFkYTQwMjEXAMPLE2
```
Ulangi sampai respon tidak lagi menyertakan `NextToken` nilai dalam output.  
Untuk informasi selengkapnya, lihat [GameLift Metrik untuk Armada](https://docs.aws.amazon.com/gamelift/latest/developerguide/monitoring-cloudwatch.html#gamelift-metrics-fleet) di Panduan * GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeFleetUtilization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-fleet-utilization.html)di *Referensi AWS CLI Perintah*. 

### `describe-game-session-queues`
<a name="gamelift_DescribeGameSessionQueues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-game-session-queues`.

**AWS CLI**  
**Untuk melihat antrian sesi permainan**  
`describe-game-session-queues`Contoh berikut mengambil properti untuk dua antrian tertentu.  

```
aws gamelift describe-game-session-queues \
    --names MegaFrogRace-NA MegaFrogRace-EU
```
Output:  

```
{
    "GameSessionQueues": [{
            "Destinations": [{
                    "DestinationArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
                },
                {
                    "DestinationArn": "arn:aws:gamelift:us-west-2::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
                }
            ],
            "Name": "MegaFrogRace-NA",
            "TimeoutInSeconds": 600,
            "GameSessionQueueArn": "arn:aws:gamelift:us-west-2::gamesessionqueue/MegaFrogRace-NA",
            "PlayerLatencyPolicies": [{
                    "MaximumIndividualPlayerLatencyMilliseconds": 200
                },
                {
                    "MaximumIndividualPlayerLatencyMilliseconds": 100,
                    "PolicyDurationSeconds": 60
                }
            ],
            "FilterConfiguration": {
                "AllowedLocations": ["us-west-2", "ap-south-1", "us-east-1"]
            },
            "PriorityConfiguration": {
                "PriorityOrder": ["LOCATION", "FLEET_TYPE", "DESTINATION"],
                "LocationOrder": ["us-west-2", "ap-south-1", "us-east-1"]
            }
        },
        {
            "Destinations": [{
                "DestinationArn": "arn:aws:gamelift:eu-west-3::fleet/fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
            }],
            "Name": "MegaFrogRace-EU",
            "TimeoutInSeconds": 600,
            "GameSessionQueueArn": "arn:aws:gamelift:us-west-2::gamesessionqueue/MegaFrogRace-EU"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Antrian Multi-Wilayah di Panduan](https://docs.aws.amazon.com/gamelift/latest/developerguide/queues-intro.html) Pengembang *Amazon GameLift *.  
+  Untuk detail API, lihat [DescribeGameSessionQueues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-game-session-queues.html)di *Referensi AWS CLI Perintah*. 

### `describe-runtime-configuration`
<a name="gamelift_DescribeRuntimeConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-runtime-configuration`.

**AWS CLI**  
**Untuk meminta konfigurasi runtime untuk armada**  
`describe-runtime-configuration`Contoh berikut mengambil rincian tentang konfigurasi runtime saat ini untuk armada tertentu.  

```
aws gamelift describe-runtime-configuration \
    --fleet-id fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "RuntimeConfiguration": {
        "ServerProcesses": [
            {
                "LaunchPath": "C:\game\Bin64.Release.Dedicated\MegaFrogRace_Server.exe",
                "Parameters": "+gamelift_start_server",
                "ConcurrentExecutions": 3
            },
            {
                "LaunchPath": "C:\game\Bin64.Release.Dedicated\MegaFrogRace_Server.exe",
                "Parameters": "+gamelift_start_server +debug",
                "ConcurrentExecutions": 1
            }
        ],
        "MaxConcurrentGameSessionActivations": 2147483647,
        "GameSessionActivationTimeoutSeconds": 300
    }
}
```
Untuk informasi selengkapnya, lihat [Menjalankan Beberapa Proses pada Armada](https://docs.aws.amazon.com/gamelift/latest/developerguide/fleets-multiprocess.html) di *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeRuntimeConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/describe-runtime-configuration.html)di *Referensi AWS CLI Perintah*. 

### `list-builds`
<a name="gamelift_ListBuilds_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-builds`.

**AWS CLI**  
**Contoh1: Untuk mendapatkan daftar build game khusus**  
`list-builds`Contoh berikut mengambil properti untuk semua build server game di Region saat ini. Permintaan sampel menggambarkan cara menggunakan parameter pagination, `Limit` dan`NextToken`, untuk mengambil hasil dalam set sekuensial. Perintah pertama mengambil dua build pertama. Karena ada lebih dari dua yang tersedia, responsnya mencakup a `NextToken` untuk menunjukkan bahwa lebih banyak hasil yang tersedia.  

```
aws gamelift list-builds \
    --limit 2
```
Output:  

```
{
    "Builds": [
        {
            "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "CreationTime": 1495664528.723,
            "Name": "My_Game_Server_Build_One",
            "OperatingSystem": "WINDOWS_2012",
            "SizeOnDisk": 8567781,
            "Status": "READY",
            "Version": "12345.678"
        },
        {
            "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "CreationTime": 1495528748.555,
            "Name": "My_Game_Server_Build_Two",
            "OperatingSystem": "AMAZON_LINUX_2",
            "SizeOnDisk": 8567781,
            "Status": "FAILED",
            "Version": "23456.789"
        }
    ],
    "NextToken": "eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC01NWYxZTZmMS1jY2FlLTQ3YTctOWI5ZS1iYjFkYTQwMjJEXAMPLE="
}
```
Anda kemudian dapat memanggil perintah lagi dengan `--next-token` parameter sebagai berikut untuk melihat dua build berikutnya.  

```
aws gamelift list-builds \
    --limit 2
    --next-token eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC01NWYxZTZmMS1jY2FlLTQ3YTctOWI5ZS1iYjFkYTQwMjJEXAMPLE=
```
Ulangi sampai respon tidak menyertakan `NextToken` nilai.  
**Contoh2: Untuk mendapatkan daftar build game khusus dalam status kegagalan**  
`list-builds`Contoh berikut mengambil properti untuk semua build server game di wilayah saat ini yang saat ini memiliki status GAGAL.  

```
aws gamelift list-builds \
    --status FAILED
```
Output:  

```
{
    "Builds": [
        {
            "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "CreationTime": 1495528748.555,
            "Name": "My_Game_Server_Build_Two",
            "OperatingSystem": "AMAZON_LINUX_2",
            "SizeOnDisk": 8567781,
            "Status": "FAILED",
            "Version": "23456.789"
        }
    ]
}
```
+  Untuk detail API, lihat [ListBuilds](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/list-builds.html)di *Referensi AWS CLI Perintah*. 

### `list-fleets`
<a name="gamelift_ListFleets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-fleets`.

**AWS CLI**  
**Contoh1: Untuk mendapatkan daftar semua armada di suatu Wilayah**  
`list-fleets`Contoh berikut menampilkan armada semua armada IDs di Wilayah saat ini. Contoh ini menggunakan parameter pagination untuk mengambil dua armada IDs sekaligus. Respons mencakup `next-token` atribut, yang menunjukkan bahwa ada lebih banyak hasil untuk diambil.  

```
aws gamelift list-fleets \
    --limit 2
```
Output:  

```
{
    "FleetIds": [
        "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
    ],
    "NextToken": "eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC01NWYxZTZmMS1jY2FlLTQ3YTctOWI5ZS1iYjFkYTQwMjJEXAMPLE="
}
```
Anda dapat meneruskan `NextToken` nilai dari respons sebelumnya di perintah berikutnya, seperti yang ditunjukkan di sini untuk mendapatkan dua hasil berikutnya.  

```
aws gamelift list-fleets \
    --limit 2 \
    --next-token eyJhd3NBY2NvdW50SWQiOnsicyI6IjMwMjc3NjAxNjM5OCJ9LCJidWlsZElkIjp7InMiOiJidWlsZC00NDRlZjQxZS1hM2I1LTQ2NDYtODJmMy0zYzI4ZTgxNjVjEXAMPLE=
```
**Contoh2: Untuk mendapatkan daftar semua armada di Wilayah dengan build atau skrip tertentu**  
`list-builds`Contoh berikut mengambil armada IDs yang digunakan dengan build game yang ditentukan. Jika Anda bekerja dengan Server Realtime, Anda dapat memberikan ID skrip sebagai pengganti ID build. Karena contoh ini tidak menentukan parameter batas, hasilnya dapat mencakup hingga 16 armada IDs.  

```
aws gamelift list-fleets \
    --build-id build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "FleetIds": [
        "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
        "fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE44444"
    ]
}
```
+  Untuk detail API, lihat [ListFleets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/list-fleets.html)di *Referensi AWS CLI Perintah*. 

### `request-upload-credentials`
<a name="gamelift_RequestUploadCredentials_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`request-upload-credentials`.

**AWS CLI**  
**Untuk menyegarkan kredensil akses untuk mengunggah build**  
`create-build`Contoh berikut memperoleh kredensyal akses baru yang valid untuk mengunggah file GameLift build ke lokasi Amazon S3. Kredensyal memiliki rentang hidup yang terbatas. Anda mendapatkan ID build dari respons `CreateBuild` permintaan asli.  

```
aws gamelift request-upload-credentials \
    --build-id build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "StorageLocation": {
        "Bucket": "gamelift-builds-us-west-2",
        "Key": "123456789012/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    },
    "UploadCredentials": {
        "AccessKeyId": "AKIAIOSFODNN7EXAMPLE",
        "SecretAccessKey": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY",
        "SessionToken": "AgoGb3JpZ2luENz...EXAMPLETOKEN=="
    }
}
```
Untuk informasi selengkapnya, lihat [Mengunggah Pembuatan Server Kustom ke GameLift](https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-build-cli-uploading.html) dalam *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [RequestUploadCredentials](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/request-upload-credentials.html)di *Referensi AWS CLI Perintah*. 

### `start-fleet-actions`
<a name="gamelift_StartFleetActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-fleet-actions`.

**AWS CLI**  
**Untuk memulai ulang aktivitas penskalaan otomatis armada**  
`start-fleet-actions`Contoh berikut melanjutkan penggunaan semua kebijakan penskalaan yang didefinisikan untuk armada tertentu tetapi dihentikan dengan memanggil`` ``. stop-fleet-actions Setelah memulai, kebijakan penskalaan segera mulai melacak metrik masing-masing.  

```
aws gamelift start-fleet-actions \
    --fleet-id fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --actions AUTO_SCALING
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [StartFleetActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/start-fleet-actions.html)di *Referensi AWS CLI Perintah*. 

### `stop-fleet-actions`
<a name="gamelift_StopFleetActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-fleet-actions`.

**AWS CLI**  
**Untuk menghentikan aktivitas penskalaan otomatis armada**  
`stop-fleet-actions`Contoh berikut menghentikan penggunaan semua kebijakan penskalaan yang ditentukan untuk armada yang ditentukan. Setelah kebijakan ditangguhkan, kapasitas armada tetap dalam jumlah instans aktif yang sama kecuali Anda menyesuaikannya secara manual.  

```
aws gamelift start-fleet-actions \
    --fleet-id fleet-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --actions AUTO_SCALING
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [StopFleetActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/stop-fleet-actions.html)di *Referensi AWS CLI Perintah*. 

### `update-build`
<a name="gamelift_UpdateBuild_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-build`.

**AWS CLI**  
**Untuk memperbarui build game kustom**  
`update-build`Contoh berikut mengubah nama dan informasi versi yang dikaitkan dengan sumber daya build tertentu. Objek build yang dikembalikan memverifikasi bahwa perubahan berhasil dilakukan.  

```
aws gamelift update-build \
    --build-id build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --name MegaFrogRaceServer.NA.east \
    --build-version 12345.east
```
Output:  

```
{
    "Build": {
        "BuildArn": "arn:aws:gamelift:us-west-2::build/build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "BuildId": "build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "CreationTime": 1496708916.18,
        "Name": "MegaFrogRaceServer.NA.east",
        "OperatingSystem": "AMAZON_LINUX_2",
        "SizeOnDisk": 1304924,
        "Status": "READY",
        "Version": "12345.east"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui File Build Anda](https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-build-cli-uploading.html#gamelift-build-cli-uploading-update-build-files) di *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [UpdateBuild](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/update-build.html)di *Referensi AWS CLI Perintah*. 

### `update-game-session-queue`
<a name="gamelift_UpdateGameSessionQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-game-session-queue`.

**AWS CLI**  
**Untuk memperbarui konfigurasi antrian sesi permainan**  
`update-game-session-queue`Contoh berikut menambahkan tujuan baru dan memperbarui kebijakan latensi pemain untuk antrian sesi game yang ada.  

```
aws gamelift update-game-session-queue \
    --name MegaFrogRace-NA \
    --destinations file://destinations.json \
    --player-latency-policies file://latency-policies.json
```
Isi dari `destinations.json`:  

```
{
    "Destinations": [
        {"DestinationArn": "arn:aws:gamelift:us-west-2::fleet/fleet-1a2b3c4d-5e6f-7a8b-9c0d-1e2f3a4b5c6d"},
        {"DestinationArn": "arn:aws:gamelift:us-east-1::fleet/fleet-5c6d3c4d-5e6f-7a8b-9c0d-1e2f3a4b5a2b"},
        {"DestinationArn": "arn:aws:gamelift:us-east-1::alias/alias-11aa22bb-3c4d-5e6f-000a-1111aaaa22bb"}
    ]
}
```
Isi dari `latency-policies.json`:  

```
{
    "PlayerLatencyPolicies": [
        {"MaximumIndividualPlayerLatencyMilliseconds": 200},
        {"MaximumIndividualPlayerLatencyMilliseconds": 150, "PolicyDurationSeconds": 120},
        {"MaximumIndividualPlayerLatencyMilliseconds": 100, "PolicyDurationSeconds": 120}
    ]
}
```
Output:  

```
{
    "GameSessionQueue": {
        "Destinations": [
            {"DestinationArn": "arn:aws:gamelift:us-west-2::fleet/fleet-1a2b3c4d-5e6f-7a8b-9c0d-1e2f3a4b5c6d"},
            {"DestinationArn": "arn:aws:gamelift:us-east-1::fleet/fleet-5c6d3c4d-5e6f-7a8b-9c0d-1e2f3a4b5a2b"},
            {"DestinationArn": "arn:aws:gamelift:us-east-1::alias/alias-11aa22bb-3c4d-5e6f-000a-1111aaaa22bb"}
        ],
        "GameSessionQueueArn": "arn:aws:gamelift:us-west-2:111122223333:gamesessionqueue/MegaFrogRace-NA",
        "Name": "MegaFrogRace-NA",
        "TimeoutInSeconds": 600,
        "PlayerLatencyPolicies": [
            {"MaximumIndividualPlayerLatencyMilliseconds": 200},
            {"MaximumIndividualPlayerLatencyMilliseconds": 150, "PolicyDurationSeconds": 120},
            {"MaximumIndividualPlayerLatencyMilliseconds": 100, "PolicyDurationSeconds": 120}
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Antrian Multi-Wilayah di Panduan](https://docs.aws.amazon.com/gamelift/latest/developerguide/queues-intro.html) Pengembang *Amazon GameLift *.  
+  Untuk detail API, lihat [UpdateGameSessionQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/update-game-session-queue.html)di *Referensi AWS CLI Perintah*. 

### `upload-build`
<a name="gamelift_UploadBuild_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-build`.

**AWS CLI**  
**Contoh1: Untuk mengunggah build server game Linux**  
`upload-build`Contoh berikut mengunggah file build server game Linux dari direktori file ke GameLift layanan dan membuat sumber daya build.  

```
aws gamelift upload-build \
    --name MegaFrogRaceServer.NA \
    --build-version 2.0.1 \
    --build-root ~/MegaFrogRace_Server/release-na \
    --operating-system AMAZON_LINUX_2
    --server-sdk-version 4.0.2
```
Output:  

```
Uploading ~/MegaFrogRace_Server/release-na:  16.0 KiB / 74.6 KiB (21.45%)
Uploading ~/MegaFrogRace_Server/release-na:  32.0 KiB / 74.6 KiB (42.89%)
Uploading ~/MegaFrogRace_Server/release-na:  48.0 KiB / 74.6 KiB (64.34%)
Uploading ~/MegaFrogRace_Server/release-na:  64.0 KiB / 74.6 KiB (85.79%)
Uploading ~/MegaFrogRace_Server/release-na:  74.6 KiB / 74.6 KiB (100.00%)
Successfully uploaded ~/MegaFrogRace_Server/release-na to AWS GameLift
Build ID: build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
**Contoh2: Untuk mengunggah build server game Windows**  
`upload-build`Contoh berikut mengunggah file build server game Windows dari direktori ke GameLift layanan dan membuat catatan build.  

```
aws gamelift upload-build \
    --name MegaFrogRaceServer.NA \
    --build-version 2.0.1 \
    --build-root C:\MegaFrogRace_Server\release-na \
    --operating-system WINDOWS_2012
    --server-sdk-version 4.0.2
```
Output:  

```
Uploading C:\MegaFrogRace_Server\release-na:  16.0 KiB / 74.6 KiB (21.45%)
Uploading C:\MegaFrogRace_Server\release-na:  32.0 KiB / 74.6 KiB (42.89%)
Uploading C:\MegaFrogRace_Server\release-na:  48.0 KiB / 74.6 KiB (64.34%)
Uploading C:\MegaFrogRace_Server\release-na:  64.0 KiB / 74.6 KiB (85.79%)
Uploading C:\MegaFrogRace_Server\release-na:  74.6 KiB / 74.6 KiB (100.00%)
Successfully uploaded C:\MegaFrogRace_Server\release-na to AWS GameLift
Build ID: build-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Untuk informasi selengkapnya, lihat [Mengunggah Pembuatan Server Kustom ke GameLift](https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-build-cli-uploading.html) dalam *Panduan GameLift Pengembang Amazon*.  
+  Untuk detail API, lihat [UploadBuild](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/gamelift/upload-build.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Glacier menggunakan AWS CLI
<a name="cli_2_glacier_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Glacier. AWS Command Line Interface 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `abort-multipart-upload`
<a name="glacier_AbortMultipartUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`abort-multipart-upload`.

**AWS CLI**  
Perintah berikut menghapus unggahan multipart yang sedang berlangsung ke vault bernama: `my-vault`  

```
aws glacier abort-multipart-upload --account-id - --vault-name my-vault --upload-id 19gaRezEXAMPLES6Ry5YYdqthHOC_kGRCT03L9yetr220UmPtBYKk-OssZtLqyFu7sY1_lR7vgFuJV6NtcV5zpsJ
```
Perintah ini tidak menghasilkan output apa pun. Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan. ID unggahan dikembalikan oleh `aws glacier initiate-multipart-upload` perintah dan juga dapat diperoleh dengan menggunakan`aws glacier list-multipart-uploads`.  
*Untuk informasi selengkapnya tentang unggahan multipart ke Amazon Glacier menggunakan CLI, lihat Menggunakan Amazon Glacier AWS di Panduan Pengguna CLI.AWS *  
+  Untuk detail API, lihat [AbortMultipartUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/abort-multipart-upload.html)di *Referensi AWS CLI Perintah*. 

### `abort-vault-lock`
<a name="glacier_AbortVaultLock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`abort-vault-lock`.

**AWS CLI**  
**Untuk membatalkan proses penguncian vault yang sedang berlangsung**  
`abort-vault-lock`Contoh berikut menghapus kebijakan kunci vault dari vault yang ditentukan dan mengatur ulang status kunci kunci vault menjadi tidak terkunci.  

```
aws glacier abort-vault-lock \
    --account-id - \
    --vault-name MyVaultName
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Batalkan Kunci Vault (HAPUS kebijakan kunci)](https://docs.aws.amazon.com/amazonglacier/latest/dev/api-AbortVaultLock.html) di Panduan Pengembang Amazon Glacier API.*  
+  Untuk detail API, lihat [AbortVaultLock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/abort-vault-lock.html)di *Referensi AWS CLI Perintah*. 

### `add-tags-to-vault`
<a name="glacier_AddTagsToVault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-vault`.

**AWS CLI**  
Perintah berikut menambahkan dua tag ke vault bernama`my-vault`:  

```
aws glacier add-tags-to-vault --account-id - --vault-name my-vault --tags id=1234,date=july2015
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [AddTagsToVault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/add-tags-to-vault.html)di *Referensi AWS CLI Perintah*. 

### `complete-multipart-upload`
<a name="glacier_CompleteMultipartUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`complete-multipart-upload`.

**AWS CLI**  
Perintah berikut menyelesaikan unggahan multipart untuk arsip 3 MiB:  

```
aws glacier complete-multipart-upload --archive-size 3145728 --checksum 9628195fcdbcbbe76cdde456d4646fa7de5f219fb39823836d81f0cc0e18aa67 --upload-id 19gaRezEXAMPLES6Ry5YYdqthHOC_kGRCT03L9yetr220UmPtBYKk-OssZtLqyFu7sY1_lR7vgFuJV6NtcV5zpsJ --account-id - --vault-name my-vault
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
ID unggahan dikembalikan oleh `aws glacier initiate-multipart-upload` perintah dan juga dapat diperoleh dengan menggunakan`aws glacier list-multipart-uploads`. Parameter checksum mengambil hash pohon SHA-256 dari arsip dalam heksadesimal.  
*Untuk informasi selengkapnya tentang unggahan multipart ke Amazon Glacier menggunakan AWS CLI, termasuk petunjuk cara menghitung hash pohon, lihat Menggunakan Amazon Glacier di Panduan Pengguna CLI.AWS *  
+  Untuk detail API, lihat [CompleteMultipartUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/complete-multipart-upload.html)di *Referensi AWS CLI Perintah*. 

### `complete-vault-lock`
<a name="glacier_CompleteVaultLock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`complete-vault-lock`.

**AWS CLI**  
**Untuk menyelesaikan proses penguncian vault yang sedang berlangsung**  
`complete-vault-lock`Contoh berikut melengkapi progres penguncian yang sedang berlangsung untuk vault yang ditentukan dan menyetel status kunci kunci vault ke. `Locked` Anda mendapatkan nilai untuk `lock-id` parameter saat Anda menjalankan`initiate-lock-process`.  

```
aws glacier complete-vault-lock \
    --account-id - \
    --vault-name MyVaultName \
    --lock-id 9QZgEXAMPLEPhvL6xEXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Complete Vault Lock (POST LocKid](https://docs.aws.amazon.com/amazonglacier/latest/dev/api-CompleteVaultLock.html)) di Panduan Pengembang *Amazon Glacier API*.  
+  Untuk detail API, lihat [CompleteVaultLock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/complete-vault-lock.html)di *Referensi AWS CLI Perintah*. 

### `create-vault`
<a name="glacier_CreateVault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vault`.

**AWS CLI**  
Perintah berikut membuat vault baru bernama`my-vault`:  

```
aws glacier create-vault --vault-name my-vault --account-id -
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [CreateVault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/create-vault.html)di *Referensi AWS CLI Perintah*. 

### `delete-archive`
<a name="glacier_DeleteArchive_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-archive`.

**AWS CLI**  
**Untuk menghapus arsip dari vault**  
`delete-archive`Contoh berikut menghapus arsip yang ditentukan dari`example_vault`.  

```
aws glacier delete-archive \
    --account-id 111122223333  \
    --vault-name example_vault \
    --archive-id Sc0u9ZP8yaWkmh-XGlIvAVprtLhaLCGnNwNl5I5x9HqPIkX5mjc0DrId3Ln-Gi_k2HzmlIDZUz117KSdVMdMXLuFWi9PJUitxWO73edQ43eTlMWkH0pd9zVSAuV_XXZBVhKhyGhJ7w
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteArchive](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/delete-archive.html)di *Referensi AWS CLI Perintah*. 

### `delete-vault-access-policy`
<a name="glacier_DeleteVaultAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vault-access-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan akses vault**  
`delete-vault-access-policy`Contoh berikut menghapus kebijakan akses untuk vault yang ditentukan.  

```
aws glacier delete-vault-access-policy \
    --account-id 111122223333 \
    --vault-name example_vault
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteVaultAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/delete-vault-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-vault-notifications`
<a name="glacier_DeleteVaultNotifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vault-notifications`.

**AWS CLI**  
**Untuk menghapus notifikasi SNS untuk vault**  
`delete-vault-notifications`Contoh berikut menghapus notifikasi yang dikirim oleh Amazon Simple Notification Service (Amazon SNS) untuk vault yang ditentukan.  

```
aws glacier delete-vault-notifications \
    --account-id 111122223333 \
    --vault-name example_vault
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteVaultNotifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/delete-vault-notifications.html)di *Referensi AWS CLI Perintah*. 

### `delete-vault`
<a name="glacier_DeleteVault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vault`.

**AWS CLI**  
Perintah berikut menghapus vault bernama: `my-vault`  

```
aws glacier delete-vault --vault-name my-vault --account-id -
```
Perintah ini tidak menghasilkan output apa pun. Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [DeleteVault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/delete-vault.html)di *Referensi AWS CLI Perintah*. 

### `describe-job`
<a name="glacier_DescribeJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-job`.

**AWS CLI**  
Perintah berikut mengambil informasi tentang pekerjaan pengambilan inventaris pada vault bernama: `my-vault`  

```
aws glacier describe-job --account-id - --vault-name my-vault --job-id zbxcm3Z_3z5UkoroF7SuZKrxgGoDc3RloGduS7Eg-RO47Yc6FxsdGBgf_Q2DK5Ejh18CnTS5XW4_XqlNHS61dsO4CnMW
```
Output:  

```
{
    "InventoryRetrievalParameters": {
        "Format": "JSON"
    },
    "VaultARN": "arn:aws:glacier:us-west-2:0123456789012:vaults/my-vault",
    "Completed": false,
    "JobId": "zbxcm3Z_3z5UkoroF7SuZKrxgGoDc3RloGduS7Eg-RO47Yc6FxsdGBgf_Q2DK5Ejh18CnTS5XW4_XqlNHS61dsO4CnMW",
    "Action": "InventoryRetrieval",
    "CreationDate": "2015-07-17T20:23:41.616Z",
    "StatusCode": "InProgress"
}
```
ID pekerjaan dapat ditemukan di output `aws glacier initiate-job` dan`aws glacier list-jobs`. Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [DescribeJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/describe-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-vault`
<a name="glacier_DescribeVault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-vault`.

**AWS CLI**  
Perintah berikut mengambil data tentang vault bernama: `my-vault`  

```
aws glacier describe-vault --vault-name my-vault --account-id -
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [DescribeVault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/describe-vault.html)di *Referensi AWS CLI Perintah*. 

### `get-data-retrieval-policy`
<a name="glacier_GetDataRetrievalPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-data-retrieval-policy`.

**AWS CLI**  
Perintah berikut mendapatkan kebijakan pengambilan data untuk akun yang sedang digunakan:  

```
aws glacier get-data-retrieval-policy --account-id -
```
Output:  

```
{
    "Policy": {
        "Rules": [
            {
                "BytesPerHour": 10737418240,
                "Strategy": "BytesPerHour"
            }
        ]
    }
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [GetDataRetrievalPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/get-data-retrieval-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-job-output`
<a name="glacier_GetJobOutput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-job-output`.

**AWS CLI**  
Perintah berikut menyimpan output dari pekerjaan inventaris vault ke file di direktori saat ini bernama`output.json`:  

```
aws glacier get-job-output --account-id - --vault-name my-vault --job-id zbxcm3Z_3z5UkoroF7SuZKrxgGoDc3RloGduS7Eg-RO47Yc6FxsdGBgf_Q2DK5Ejh18CnTS5XW4_XqlNHS61dsO4CnMW output.json
```
`job-id`Tersedia dalam output dari`aws glacier list-jobs`. Perhatikan bahwa nama file output adalah argumen posisi yang tidak diawali dengan nama opsi. Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
Output:  

```
{
    "status": 200,
    "acceptRanges": "bytes",
    "contentType": "application/json"
}
```
`output.json`:  

```
{"VaultARN":"arn:aws:glacier:us-west-2:0123456789012:vaults/my-vault","InventoryDate":"2015-04-07T00:26:18Z","ArchiveList":[{"ArchiveId":"kKB7ymWJVpPSwhGP6ycSOAekp9ZYe_--zM_mw6k76ZFGEIWQX-ybtRDvc2VkPSDtfKmQrj0IRQLSGsNuDp-AJVlu2ccmDSyDUmZwKbwbpAdGATGDiB3hHO0bjbGehXTcApVud_wyDw","ArchiveDescription":"multipart upload test","CreationDate":"2015-04-06T22:24:34Z","Size":3145728,"SHA256TreeHash":"9628195fcdbcbbe76cdde932d4646fa7de5f219fb39823836d81f0cc0e18aa67"}]}
```
+  Untuk detail API, lihat [GetJobOutput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/get-job-output.html)di *Referensi AWS CLI Perintah*. 

### `get-vault-access-policy`
<a name="glacier_GetVaultAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vault-access-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan akses vault**  
`get-vault-access-policy`Contoh berikut mengambil kebijakan akses untuk vault yang ditentukan.  

```
aws glacier get-vault-access-policy \
    --account-id 111122223333 \
    --vault-name example_vault
```
Output:  

```
{
    "policy": {
        "Policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::444455556666:root\"},\"Action\":\"glacier:ListJobs\",\"Resource\":\"arn:aws:glacier:us-east-1:111122223333:vaults/example_vault\"},{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::444455556666:root\"},\"Action\":\"glacier:UploadArchive\",\"Resource\":\"arn:aws:glacier:us-east-1:111122223333:vaults/example_vault\"}]}"
    }
}
```
+  Untuk detail API, lihat [GetVaultAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/get-vault-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-vault-lock`
<a name="glacier_GetVaultLock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vault-lock`.

**AWS CLI**  
**Untuk mendapatkan detail kunci brankas**  
`get-vault-lock`Contoh berikut mengambil detail tentang kunci untuk brankas yang ditentukan.  

```
aws glacier get-vault-lock \
    --account-id - \
    --vault-name MyVaultName
```
Output:  

```
{
    "Policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"Define-vault-lock\",\"Effect\":\"Deny\",\"Principal\":{\"AWS\":\"arn:aws:iam::999999999999:root\"},\"Action\":\"glacier:DeleteArchive\",\"Resource\":\"arn:aws:glacier:us-west-2:99999999999:vaults/MyVaultName\",\"Condition\":{\"NumericLessThanEquals\":{\"glacier:ArchiveAgeinDays\":\"365\"}}}]}",
    "State": "Locked",
    "CreationDate": "2019-07-29T22:25:28.640Z"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan Kunci Vault (kebijakan kunci GET)](https://docs.aws.amazon.com/amazonglacier/latest/dev/api-GetVaultLock.html) di Panduan Pengembang *Amazon* Glacier API.  
+  Untuk detail API, lihat [GetVaultLock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/get-vault-lock.html)di *Referensi AWS CLI Perintah*. 

### `get-vault-notifications`
<a name="glacier_GetVaultNotifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vault-notifications`.

**AWS CLI**  
Perintah berikut mendapatkan deskripsi konfigurasi notifikasi untuk vault bernama`my-vault`:  

```
aws glacier get-vault-notifications --account-id - --vault-name my-vault
```
Output:  

```
{
    "vaultNotificationConfig": {
        "Events": [
            "InventoryRetrievalCompleted",
            "ArchiveRetrievalCompleted"
        ],
        "SNSTopic": "arn:aws:sns:us-west-2:0123456789012:my-vault"
    }
}
```
Jika tidak ada pemberitahuan yang dikonfigurasi untuk brankas, kesalahan akan dikembalikan. Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [GetVaultNotifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/get-vault-notifications.html)di *Referensi AWS CLI Perintah*. 

### `initiate-job`
<a name="glacier_InitiateJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`initiate-job`.

**AWS CLI**  
Perintah berikut memulai pekerjaan untuk mendapatkan inventaris `my-vault` vault:  

```
aws glacier initiate-job --account-id - --vault-name my-vault --job-parameters '{"Type": "inventory-retrieval"}'
```
Output:  

```
{
    "location": "/0123456789012/vaults/my-vault/jobs/zbxcm3Z_3z5UkoroF7SuZKrxgGoDc3RloGduS7Eg-RO47Yc6FxsdGBgf_Q2DK5Ejh18CnTS5XW4_XqlNHS61dsO4CnMW",
    "jobId": "zbxcm3Z_3z5UkoroF7SuZKrxgGoDc3RloGduS7Eg-RO47Yc6FxsdGBgf_Q2DK5Ejh18CnTS5XW4_XqlNHS61dsO4CnMW"
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
Perintah berikut memulai pekerjaan untuk mengambil arsip dari vault: `my-vault`  

```
aws glacier initiate-job --account-id - --vault-name my-vault --job-parameters file://job-archive-retrieval.json
```
`job-archive-retrieval.json`adalah file JSON di folder lokal yang menentukan jenis pekerjaan, ID arsip, dan beberapa parameter opsional:  

```
{
  "Type": "archive-retrieval",
  "ArchiveId": "kKB7ymWJVpPSwhGP6ycSOAekp9ZYe_--zM_mw6k76ZFGEIWQX-ybtRDvc2VkPSDtfKmQrj0IRQLSGsNuDp-AJVlu2ccmDSyDUmZwKbwbpAdGATGDiB3hHO0bjbGehXTcApVud_wyDw",
  "Description": "Retrieve archive on 2015-07-17",
  "SNSTopic": "arn:aws:sns:us-west-2:0123456789012:my-topic"
}
```
Arsip IDs tersedia dalam output `aws glacier upload-archive` dan`aws glacier get-job-output`.  
Output:  

```
{
    "location": "/011685312445/vaults/mwunderl/jobs/l7IL5-EkXyEY9Ws95fClzIbk2O5uLYaFdAYOi-azsX_Z8V6NH4yERHzars8wTKYQMX6nBDI9cMNHzyZJO59-8N9aHWav",
    "jobId": "l7IL5-EkXy2O5uLYaFdAYOiEY9Ws95fClzIbk-azsX_Z8V6NH4yERHzars8wTKYQMX6nBDI9cMNHzyZJO59-8N9aHWav"
}
```
Lihat Memulai Pekerjaan di *Referensi Amazon Glacier* API untuk detail tentang format parameter pekerjaan.  
+  Untuk detail API, lihat [InitiateJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/initiate-job.html)di *Referensi AWS CLI Perintah*. 

### `initiate-multipart-upload`
<a name="glacier_InitiateMultipartUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`initiate-multipart-upload`.

**AWS CLI**  
Perintah berikut memulai unggahan multipart ke vault bernama `my-vault` dengan ukuran bagian 1 MiB (1024 x 1024 byte) per file:  

```
aws glacier initiate-multipart-upload --account-id - --part-size 1048576 --vault-name my-vault --archive-description "multipart upload test"
```
Parameter deskripsi arsip adalah opsional. Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
Perintah ini mengeluarkan ID unggahan saat berhasil. Gunakan ID unggahan saat mengunggah setiap bagian arsip Anda. `aws glacier upload-multipart-part` *Untuk informasi selengkapnya tentang unggahan multipart ke Amazon Glacier menggunakan CLI, lihat Menggunakan Amazon Glacier AWS di Panduan Pengguna CLI.AWS *  
+  Untuk detail API, lihat [InitiateMultipartUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/initiate-multipart-upload.html)di *Referensi AWS CLI Perintah*. 

### `initiate-vault-lock`
<a name="glacier_InitiateVaultLock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`initiate-vault-lock`.

**AWS CLI**  
**Untuk memulai proses penguncian vault**  
`initiate-vault-lock`Contoh berikut menginstal kebijakan kunci vault pada vault yang ditentukan dan menyetel status kunci kunci vault ke. `InProgress` Anda harus menyelesaikan proses dengan menelepon `complete-vault-lock` dalam waktu 24 jam untuk mengatur status kunci brankas. `Locked`  

```
aws glacier initiate-vault-lock \
    --account-id - \
    --vault-name MyVaultName \
    --policy file://vault_lock_policy.json
```
Isi dari `vault_lock_policy.json`:  

```
{"Policy":"{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"Define-vault-lock\",\"Effect\":\"Deny\",\"Principal\":{\"AWS\":\"arn:aws:iam::999999999999:root\"},\"Action\":\"glacier:DeleteArchive\",\"Resource\":\"arn:aws:glacier:us-west-2:999999999999:vaults/examplevault\",\"Condition\":{\"NumericLessThanEquals\":{\"glacier:ArchiveAgeinDays\":\"365\"}}}]}"}
```
Outputnya adalah ID kunci vault yang dapat Anda gunakan untuk menyelesaikan proses penguncian vault.  

```
{
    "lockId": "9QZgEXAMPLEPhvL6xEXAMPLE"
}
```
*Untuk informasi selengkapnya, lihat [Memulai Kunci Vault (kebijakan penguncian POST)](https://docs.aws.amazon.com/amazonglacier/latest/dev/api-InitiateVaultLock.html) di Panduan Pengembang Amazon Glacier API.*  
+  Untuk detail API, lihat [InitiateVaultLock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/initiate-vault-lock.html)di *Referensi AWS CLI Perintah*. 

### `list-jobs`
<a name="glacier_ListJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-jobs`.

**AWS CLI**  
Perintah berikut mencantumkan pekerjaan yang sedang berlangsung dan baru saja diselesaikan untuk vault bernama: `my-vault`  

```
aws glacier list-jobs --account-id - --vault-name my-vault
```
Output:  

```
{
    "JobList": [
        {
            "VaultARN": "arn:aws:glacier:us-west-2:0123456789012:vaults/my-vault",
            "RetrievalByteRange": "0-3145727",
            "SNSTopic": "arn:aws:sns:us-west-2:0123456789012:my-vault",
            "Completed": false,
            "SHA256TreeHash": "9628195fcdbcbbe76cdde932d4646fa7de5f219fb39823836d81f0cc0e18aa67",
            "JobId": "l7IL5-EkXyEY9Ws95fClzIbk2O5uLYaFdAYOi-azsX_Z8V6NH4yERHzars8wTKYQMX6nBDI9cMNHzyZJO59-8N9aHWav",
            "ArchiveId": "kKB7ymWJVpPSwhGP6ycSOAekp9ZYe_--zM_mw6k76ZFGEIWQX-ybtRDvc2VkPSDtfKmQrj0IRQLSGsNuDp-AJVlu2ccmDSyDUmZwKbwbpAdGATGDiB3hHO0bjbGehXTcApVud_wyDw",
            "JobDescription": "Retrieve archive on 2015-07-17",
            "ArchiveSizeInBytes": 3145728,
            "Action": "ArchiveRetrieval",
            "ArchiveSHA256TreeHash": "9628195fcdbcbbe76cdde932d4646fa7de5f219fb39823836d81f0cc0e18aa67",
            "CreationDate": "2015-07-17T21:16:13.840Z",
            "StatusCode": "InProgress"
        },
        {
            "InventoryRetrievalParameters": {
                "Format": "JSON"
            },
            "VaultARN": "arn:aws:glacier:us-west-2:0123456789012:vaults/my-vault",
            "Completed": false,
            "JobId": "zbxcm3Z_3z5UkoroF7SuZKrxgGoDc3RloGduS7Eg-RO47Yc6FxsdGBgf_Q2DK5Ejh18CnTS5XW4_XqlNHS61dsO4CnMW",
            "Action": "InventoryRetrieval",
            "CreationDate": "2015-07-17T20:23:41.616Z",
            "StatusCode": ""InProgress""
        }
    ]
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [ListJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/list-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-multipart-uploads`
<a name="glacier_ListMultipartUploads_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-multipart-uploads`.

**AWS CLI**  
Perintah berikut menunjukkan semua unggahan multipart yang sedang berlangsung untuk vault bernama: `my-vault`  

```
aws glacier list-multipart-uploads --account-id - --vault-name my-vault
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
*Untuk informasi selengkapnya tentang unggahan multipart ke Amazon Glacier menggunakan CLI, lihat Menggunakan Amazon Glacier AWS di Panduan Pengguna CLI.AWS *  
+  Untuk detail API, lihat [ListMultipartUploads](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/list-multipart-uploads.html)di *Referensi AWS CLI Perintah*. 

### `list-parts`
<a name="glacier_ListParts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-parts`.

**AWS CLI**  
Perintah berikut mencantumkan bagian yang diunggah untuk unggahan multibagian ke vault bernama: `my-vault`  

```
aws glacier list-parts --account-id - --vault-name my-vault --upload-id "SYZi7qnL-YGqGwAm8Kn3BLP2ElNCvnB-5961R09CSaPmPwkYGHOqeN_nX3-Vhnd2yF0KfB5FkmbnBU9GubbdrCs8ut-D"
```
Output:  

```
{
    "MultipartUploadId": "SYZi7qnL-YGqGwAm8Kn3BLP2ElNCvnB-5961R09CSaPmPwkYGHOqeN_nX3-Vhnd2yF0KfB5FkmbnBU9GubbdrCs8ut-D",
    "Parts": [
        {
            "RangeInBytes": "0-1048575",
            "SHA256TreeHash": "e1f2a7cd6e047350f69b9f8cfa60fa606fe2f02802097a9a026360a7edc1f553"
        },
        {
            "RangeInBytes": "1048576-2097151",
            "SHA256TreeHash": "43cf3061fb95796aed99a11a6aa3cd8f839eed15e655ab0a597126210636aee6"
        }
    ],
    "VaultARN": "arn:aws:glacier:us-west-2:0123456789012:vaults/my-vault",
    "CreationDate": "2015-07-18T00:05:23.830Z",
    "PartSizeInBytes": 1048576
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
*Untuk informasi selengkapnya tentang unggahan multipart ke Amazon Glacier menggunakan CLI, lihat Menggunakan Amazon Glacier AWS di Panduan Pengguna CLI.AWS *  
+  Untuk detail API, lihat [ListParts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/list-parts.html)di *Referensi AWS CLI Perintah*. 

### `list-provisioned-capacity`
<a name="glacier_ListProvisionedCapacity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-provisioned-capacity`.

**AWS CLI**  
**Untuk mengambil unit kapasitas yang disediakan**  
`list-provisioned-capacity`Contoh berikut mengambil rincian untuk setiap unit kapasitas yang disediakan untuk akun yang ditentukan.  

```
aws glacier list-provisioned-capacity \
    --account-id 111122223333
```
Output:  

```
{
    "ProvisionedCapacityList": [
        {
            "CapacityId": "HpASAuvfRFiVDbOjMfEIcr8K",
            "ExpirationDate": "2020-03-18T19:59:24.000Z",
            "StartDate": "2020-02-18T19:59:24.912Z"
        }
    ]
}
```
+  Untuk detail API, lihat [ListProvisionedCapacity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/list-provisioned-capacity.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-vault`
<a name="glacier_ListTagsForVault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-vault`.

**AWS CLI**  
Perintah berikut mencantumkan tag yang diterapkan ke vault bernama`my-vault`:  

```
aws glacier list-tags-for-vault --account-id - --vault-name my-vault
```
Output:  

```
{
    "Tags": {
        "date": "july2015",
        "id": "1234"
    }
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [ListTagsForVault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/list-tags-for-vault.html)di *Referensi AWS CLI Perintah*. 

### `list-vaults`
<a name="glacier_ListVaults_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-vaults`.

**AWS CLI**  
Perintah berikut mencantumkan vault di akun dan wilayah default:  

```
aws glacier list-vaults --account-id -
```
Output:  

```
{
    "VaultList": [
        {
            "SizeInBytes": 3178496,
            "VaultARN": "arn:aws:glacier:us-west-2:0123456789012:vaults/my-vault",
            "LastInventoryDate": "2015-04-07T00:26:19.028Z",
            "VaultName": "my-vault",
            "NumberOfArchives": 1,
            "CreationDate": "2015-04-06T21:23:45.708Z"
        }
    ]
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [ListVaults](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/list-vaults.html)di *Referensi AWS CLI Perintah*. 

### `purchase-provisioned-capacity`
<a name="glacier_PurchaseProvisionedCapacity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purchase-provisioned-capacity`.

**AWS CLI**  
**Untuk membeli unit kapasitas yang disediakan**  
`purchase-provisioned-capacity`Contoh berikut membeli unit kapasitas yang disediakan.  

```
aws glacier purchase-provisioned-capacity \
    --account-id 111122223333
```
Output:  

```
{
    "capacityId": "HpASAuvfRFiVDbOjMfEIcr8K"
}
```
+  Untuk detail API, lihat [PurchaseProvisionedCapacity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/purchase-provisioned-capacity.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags-from-vault`
<a name="glacier_RemoveTagsFromVault_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags-from-vault`.

**AWS CLI**  
Perintah berikut menghapus tag dengan kunci `date` dari vault bernama`my-vault`:  

```
aws glacier remove-tags-from-vault --account-id - --vault-name my-vault --tag-keys date
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [RemoveTagsFromVault](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/remove-tags-from-vault.html)di *Referensi AWS CLI Perintah*. 

### `set-data-retrieval-policy`
<a name="glacier_SetDataRetrievalPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-data-retrieval-policy`.

**AWS CLI**  
Perintah berikut mengonfigurasi kebijakan pengambilan data untuk akun yang sedang digunakan:  

```
aws glacier set-data-retrieval-policy --account-id - --policy file://data-retrieval-policy.json
```
`data-retrieval-policy.json`adalah file JSON di folder saat ini yang menentukan kebijakan pengambilan data:  

```
{
  "Rules":[
     {
         "Strategy":"BytesPerHour",
         "BytesPerHour":10737418240
      }
   ]
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
Perintah berikut menetapkan kebijakan pengambilan data untuk `FreeTier` menggunakan JSON inline:  

```
aws glacier set-data-retrieval-policy --account-id - --policy '{"Rules":[{"Strategy":"FreeTier"}]}'
```
Lihat Menyetel Kebijakan Pengambilan Data di *Referensi API Amazon Glacier* untuk detail tentang format kebijakan.  
+  Untuk detail API, lihat [SetDataRetrievalPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/set-data-retrieval-policy.html)di *Referensi AWS CLI Perintah*. 

### `set-vault-access-policy`
<a name="glacier_SetVaultAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-vault-access-policy`.

**AWS CLI**  
**Untuk menyetel kebijakan akses vault**  
`set-vault-access-policy`Contoh berikut melampirkan kebijakan izin ke vault yang ditentukan.  

```
aws glacier set-vault-access-policy \
    --account-id 111122223333 \
    --vault-name example_vault
    --policy '{"Policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::444455556666:root\"},\"Action\":\"glacier:ListJobs\",\"Resource\":\"arn:aws:glacier:us-east-1:111122223333:vaults/example_vault\"},{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::444455556666:root\"},\"Action\":\"glacier:UploadArchive\",\"Resource\":\"arn:aws:glacier:us-east-1:111122223333:vaults/example_vault\"}]}"}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetVaultAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/set-vault-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `set-vault-notifications`
<a name="glacier_SetVaultNotifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-vault-notifications`.

**AWS CLI**  
Perintah berikut mengonfigurasi notifikasi SNS untuk vault bernama: `my-vault`  

```
aws glacier set-vault-notifications --account-id - --vault-name my-vault --vault-notification-config file://notificationconfig.json
```
`notificationconfig.json`adalah file JSON di folder saat ini yang menentukan topik SNS dan peristiwa yang akan dipublikasikan:  

```
{
  "SNSTopic": "arn:aws:sns:us-west-2:0123456789012:my-vault",
  "Events": ["ArchiveRetrievalCompleted", "InventoryRetrievalCompleted"]
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
+  Untuk detail API, lihat [SetVaultNotifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/set-vault-notifications.html)di *Referensi AWS CLI Perintah*. 

### `upload-archive`
<a name="glacier_UploadArchive_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-archive`.

**AWS CLI**  
Perintah berikut mengunggah arsip di folder saat ini bernama `archive.zip` ke vault bernama: `my-vault`  

```
aws glacier upload-archive --account-id - --vault-name my-vault --body archive.zip
```
Output:  

```
{
    "archiveId": "kKB7ymWJVpPSwhGP6ycSOAekp9ZYe_--zM_mw6k76ZFGEIWQX-ybtRDvc2VkPSDtfKmQrj0IRQLSGsNuDp-AJVlu2ccmDSyDUmZwKbwbpAdGATGDiB3hHO0bjbGehXTcApVud_wyDw",
    "checksum": "969fb39823836d81f0cc028195fcdbcbbe76cdde932d4646fa7de5f21e18aa67",
    "location": "/0123456789012/vaults/my-vault/archives/kKB7ymWJVpPSwhGP6ycSOAekp9ZYe_--zM_mw6k76ZFGEIWQX-ybtRDvc2VkPSDtfKmQrj0IRQLSGsNuDp-AJVlu2ccmDSyDUmZwKbwbpAdGATGDiB3hHO0bjbGehXTcApVud_wyDw"
}
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
Untuk mengambil arsip yang diunggah, mulailah pekerjaan pengambilan dengan perintah aws glacier initiate-job.  
+  Untuk detail API, lihat [UploadArchive](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/upload-archive.html)di *Referensi AWS CLI Perintah*. 

### `upload-multipart-part`
<a name="glacier_UploadMultipartPart_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-multipart-part`.

**AWS CLI**  
Perintah berikut mengunggah bagian 1 MiB (1024 x 1024 byte) pertama dari arsip:  

```
aws glacier upload-multipart-part --body part1 --range 'bytes 0-1048575/*' --account-id - --vault-name my-vault --upload-id 19gaRezEXAMPLES6Ry5YYdqthHOC_kGRCT03L9yetr220UmPtBYKk-OssZtLqyFu7sY1_lR7vgFuJV6NtcV5zpsJ
```
Amazon Glacier memerlukan argumen ID akun saat melakukan operasi, tetapi Anda dapat menggunakan tanda hubung untuk menentukan akun yang sedang digunakan.  
Parameter body mengambil jalur ke file bagian pada sistem file lokal. Parameter rentang mengambil rentang konten HTTP yang menunjukkan byte yang ditempati bagian dalam arsip lengkap. ID unggahan dikembalikan oleh `aws glacier initiate-multipart-upload` perintah dan juga dapat diperoleh dengan menggunakan`aws glacier list-multipart-uploads`.  
*Untuk informasi selengkapnya tentang unggahan multipart ke Amazon Glacier menggunakan CLI, lihat Menggunakan Amazon Glacier AWS di Panduan Pengguna CLI.AWS *  
+  Untuk detail API, lihat [UploadMultipartPart](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glacier/upload-multipart-part.html)di *Referensi AWS CLI Perintah*. 

# Contoh Global Accelerator menggunakan AWS CLI
<a name="cli_2_global-accelerator_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Global Accelerator.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-custom-routing-endpoints`
<a name="global-accelerator_AddCustomRoutingEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-custom-routing-endpoints`.

**AWS CLI**  
**Untuk menambahkan titik akhir subnet VPC ke grup titik akhir untuk akselerator perutean kustom**  
`add-custom-routing-endpoints`Contoh berikut menambahkan titik akhir subnet VPC ke grup titik akhir untuk akselerator perutean kustom.  

```
aws globalaccelerator add-custom-routing-endpoints \
    --endpoint-group-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/4321abcd \
    --endpoint-configurations "EndpointId=subnet-1234567890abcdef0"
```
Output:  

```
{
    "EndpointDescriptions": [
        {
            "EndpointId": "subnet-1234567890abcdef0"
        }
    ],
    "EndpointGroupArn":"arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/4321abcd"
}
```
*Untuk informasi selengkapnya, lihat [titik akhir subnet VPC untuk akselerator perutean kustom di Global Accelerator di Panduan Pengembang Akselerator AWS Global](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-endpoints.html).AWS *  
+  Untuk detail API, lihat [AddCustomRoutingEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/add-custom-routing-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `advertise-byoip-cidr`
<a name="global-accelerator_AdvertiseByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`advertise-byoip-cidr`.

**AWS CLI**  
**Untuk mengiklankan rentang alamat**  
`advertise-byoip-cidr`Contoh berikut meminta AWS untuk mengiklankan rentang alamat yang telah Anda sediakan untuk digunakan dengan sumber daya Anda. AWS   

```
aws globalaccelerator advertise-byoip-cidr \
    --cidr 198.51.100.0/24
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "198.51.100.0/24",
        "State": "PENDING_ADVERTISING"
    }
}
```
Untuk informasi selengkapnya, lihat [Membawa Alamat IP Anda Sendiri di AWS Global Accelerator di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/using-byoip.html) *Pengembang Akselerator AWS Global*.  
+  Untuk detail API, lihat [AdvertiseByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/advertise-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `allow-custom-routing-traffic`
<a name="global-accelerator_AllowCustomRoutingTraffic_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allow-custom-routing-traffic`.

**AWS CLI**  
**Untuk mengizinkan lalu lintas ke tujuan instans Amazon EC2 tertentu di subnet VPC untuk akselerator perutean khusus**  
`allow-custom-routing-traffic`Contoh berikut menentukan bahwa lalu lintas diizinkan ke alamat IP instans (tujuan) Amazon EC2 tertentu dan port untuk titik akhir subnet VPC dalam akselerator perutean khusus dapat menerima lalu lintas.  

```
aws globalaccelerator allow-custom-routing-traffic \
    --endpoint-group-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/ab88888example \
    --endpoint-id subnet-abcd123example \
    --destination-addresses "172.31.200.6" "172.31.200.7" \
    --destination-ports 80 81
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [titik akhir subnet VPC untuk akselerator perutean kustom di Global Accelerator di Panduan Pengembang Akselerator AWS Global](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-endpoints.html).AWS *  
+  Untuk detail API, lihat [AllowCustomRoutingTraffic](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/allow-custom-routing-traffic.html)di *Referensi AWS CLI Perintah*. 

### `create-accelerator`
<a name="global-accelerator_CreateAccelerator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-accelerator`.

**AWS CLI**  
**Untuk membuat akselerator**  
`create-accelerator`Contoh berikut membuat akselerator dengan dua tag dengan dua alamat IP statis BYOIP. Anda harus menentukan `US-West-2 (Oregon)` Wilayah untuk membuat atau memperbarui akselerator.  

```
aws globalaccelerator create-accelerator \
    --name ExampleAccelerator \
    --tags Key="Name",Value="Example Name" Key="Project",Value="Example Project" \
    --ip-addresses 192.0.2.250 198.51.100.52
```
Output:  

```
{
    "Accelerator": {
        "AcceleratorArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh",
        "IpAddressType": "IPV4",
        "Name": "ExampleAccelerator",
        "Enabled": true,
        "Status": "IN_PROGRESS",
        "IpSets": [
            {
                "IpAddresses": [
                    "192.0.2.250",
                    "198.51.100.52"
                ],
                "IpFamily": "IPv4"
            }
        ],
        "DnsName":"a1234567890abcdef.awsglobalaccelerator.com",
        "CreatedTime": 1542394847.0,
        "LastModifiedTime": 1542394847.0
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator di Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-accelerators.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [CreateAccelerator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/create-accelerator.html)di *Referensi AWS CLI Perintah*. 

### `create-custom-routing-accelerator`
<a name="global-accelerator_CreateCustomRoutingAccelerator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-custom-routing-accelerator`.

**AWS CLI**  
**Untuk membuat akselerator perutean kustom**  
`create-custom-routing-accelerator`Contoh berikut membuat akselerator routing kustom dengan tag `Name` dan. `Project`  

```
aws globalaccelerator create-custom-routing-accelerator \
    --name ExampleCustomRoutingAccelerator \
    --tags Key="Name",Value="Example Name" Key="Project",Value="Example Project" \
    --ip-addresses 192.0.2.250 198.51.100.52
```
Output:  

```
{
    "Accelerator": {
        "AcceleratorArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh",
        "IpAddressType": "IPV4",
        "Name": "ExampleCustomRoutingAccelerator",
        "Enabled": true,
        "Status": "IN_PROGRESS",
        "IpSets": [
            {
                "IpAddresses": [
                    "192.0.2.250",
                    "198.51.100.52"
                ],
                "IpFamily": "IPv4"
            }
        ],
        "DnsName":"a1234567890abcdef.awsglobalaccelerator.com",
        "CreatedTime": 1542394847.0,
        "LastModifiedTime": 1542394847.0
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator perutean khusus di Akselerator AWS Global di](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-accelerators.html) Panduan Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [CreateCustomRoutingAccelerator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/create-custom-routing-accelerator.html)di *Referensi AWS CLI Perintah*. 

### `create-custom-routing-endpoint-group`
<a name="global-accelerator_CreateCustomRoutingEndpointGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-custom-routing-endpoint-group`.

**AWS CLI**  
**Untuk membuat grup endpoint untuk akselerator perutean kustom**  
`create-custom-routing-endpoint-group`Contoh berikut membuat grup endpoint untuk akselerator routing kustom.  

```
aws globalaccelerator create-custom-routing-endpoint-group \
    --listener-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz \
    --endpoint-group-region us-east-2 \
    --destination-configurations "FromPort=80,ToPort=81,Protocols=TCP,UDP"
```
Output:  

```
{
    "EndpointGroup": {
        "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/4321abcd",
        "EndpointGroupRegion": "us-east-2",
        "DestinationDescriptions": [
            {
                "FromPort": 80,
                "ToPort": 81,
                "Protocols": [
                    "TCP",
                    "UDP"
                ]
            }
        ],
        "EndpointDescriptions": []
    }
}
```
Untuk informasi selengkapnya, lihat [Grup titik akhir untuk akselerator perutean kustom di AWS Global Accelerator di Panduan Pengembang Akselerator AWS](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-endpoint-groups.html) *Global*.  
+  Untuk detail API, lihat [CreateCustomRoutingEndpointGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/create-custom-routing-endpoint-group.html)di *Referensi AWS CLI Perintah*. 

### `create-custom-routing-listener`
<a name="global-accelerator_CreateCustomRoutingListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-custom-routing-listener`.

**AWS CLI**  
**Untuk membuat pendengar untuk akselerator perutean kustom**  
`create-custom-routing-listener`Contoh berikut membuat pendengar dengan rentang port dari 5000 hingga 10000 untuk akselerator perutean kustom.  

```
aws globalaccelerator create-custom-routing-listener \
    --accelerator-arn arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh \
    --port-ranges FromPort=5000,ToPort=10000
```
Output:  

```
{
    "Listener": {
        "PortRange": [
            "FromPort": 5000,
            "ToPort": 10000
        ],
        "ListenerArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz"
    }
}
```
*Untuk informasi selengkapnya, lihat [Pendengar untuk akselerator perutean kustom di Global Accelerator di Panduan AWS Pengembang AWS Akselerator Global](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-listeners.html).*  
+  Untuk detail API, lihat [CreateCustomRoutingListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/create-custom-routing-listener.html)di *Referensi AWS CLI Perintah*. 

### `create-endpoint-group`
<a name="global-accelerator_CreateEndpointGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-endpoint-group`.

**AWS CLI**  
**Untuk membuat grup endpoint**  
`create-endpoint-group`Contoh berikut membuat grup endpoint dengan satu endpoint.  

```
aws globalaccelerator create-endpoint-group \
    --listener-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz \
    --endpoint-group-region us-east-1 \
    --endpoint-configurations EndpointId=i-1234567890abcdef0,Weight=128
```
Output:  

```
{
    "EndpointGroup": {
        "TrafficDialPercentage": 100.0,
        "EndpointDescriptions": [
            {
                "Weight": 128,
                "EndpointId": "i-1234567890abcdef0"
            }
        ],
        "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/098765zyxwvu",
        "EndpointGroupRegion": "us-east-1"
    }
}
```
Untuk informasi selengkapnya, lihat [Grup titik akhir di Akselerator AWS Global di Panduan Pengembang](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-endpoint-groups.html) *Akselerator AWS Global*.  
+  Untuk detail API, lihat [CreateEndpointGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/create-endpoint-group.html)di *Referensi AWS CLI Perintah*. 

### `create-listener`
<a name="global-accelerator_CreateListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-listener`.

**AWS CLI**  
**Untuk membuat pendengar**  
`create-listener`Contoh berikut membuat listener dengan dua port.  

```
aws globalaccelerator create-listener \
    --accelerator-arn arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh \
    --port-ranges FromPort=80,ToPort=80 FromPort=81,ToPort=81 \
    --protocol TCP
```
Output:  

```
{
    "Listener": {
        "PortRanges": [
            {
                "ToPort": 80,
                "FromPort": 80
            },
            {
                "ToPort": 81,
                "FromPort": 81
            }
        ],
        "ClientAffinity": "NONE",
        "Protocol": "TCP",
        "ListenerArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz"
    }
}
```
Untuk informasi selengkapnya, lihat [Pendengar di Akselerator AWS Global di Panduan Pengembang Akselerator AWS](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-listeners.html) *Global*.  
+  Untuk detail API, lihat [CreateListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/create-listener.html)di *Referensi AWS CLI Perintah*. 

### `deny-custom-routing-traffic`
<a name="global-accelerator_DenyCustomRoutingTraffic_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deny-custom-routing-traffic`.

**AWS CLI**  
**Untuk menentukan alamat tujuan yang tidak dapat menerima lalu lintas dalam akselerator perutean kustom**  
`deny-custom-routing-traffic`Contoh berikut menentukan alamat tujuan atau alamat di titik akhir subnet yang tidak dapat menerima lalu lintas untuk akselerator perutean kustom. Untuk menentukan lebih dari satu alamat tujuan, pisahkan alamat dengan spasi. Tidak ada jawaban untuk deny-custom-routing-traffic panggilan yang berhasil.  

```
aws globalaccelerator deny-custom-routing-traffic \
    --endpoint-group-arn "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/ab88888example" \
    --endpoint-id "subnet-abcd123example" \
    --destination-addresses "198.51.100.52"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [titik akhir subnet VPC untuk akselerator perutean kustom di Global Accelerator di Panduan Pengembang Akselerator AWS Global](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-endpoints.html).AWS *  
+  Untuk detail API, lihat [DenyCustomRoutingTraffic](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/deny-custom-routing-traffic.html)di *Referensi AWS CLI Perintah*. 

### `deprovision-byoip-cidr`
<a name="global-accelerator_DeprovisionByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deprovision-byoip-cidr`.

**AWS CLI**  
**Untuk menghentikan penyediaan rentang alamat**  
`deprovision-byoip-cidr`Contoh berikut merilis rentang alamat tertentu yang Anda sediakan untuk digunakan dengan sumber daya Anda AWS .  

```
aws globalaccelerator deprovision-byoip-cidr \
    --cidr "198.51.100.0/24"
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "198.51.100.0/24",
        "State": "PENDING_DEPROVISIONING"
    }
}
```
Untuk informasi selengkapnya, lihat [Membawa alamat IP Anda sendiri di AWS Global Accelerator di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/using-byoip.html) *Pengembang Akselerator AWS Global*.  
+  Untuk detail API, lihat [DeprovisionByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/deprovision-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `describe-accelerator-attributes`
<a name="global-accelerator_DescribeAcceleratorAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-accelerator-attributes`.

**AWS CLI**  
**Untuk menggambarkan atribut akselerator**  
`describe-accelerator-attributes`Contoh berikut mengambil rincian atribut untuk akselerator.  

```
aws globalaccelerator describe-accelerator-attributes \
    --accelerator-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh
```
Output:  

```
{
    "AcceleratorAttributes": {
        "FlowLogsEnabled": true
        "FlowLogsS3Bucket": flowlogs-abc
        "FlowLogsS3Prefix": bucketprefix-abc
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator di Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-accelerators.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [DescribeAcceleratorAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/describe-accelerator-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-accelerator`
<a name="global-accelerator_DescribeAccelerator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-accelerator`.

**AWS CLI**  
**Untuk menggambarkan akselerator**  
`describe-accelerator`Contoh berikut mengambil rincian tentang akselerator yang ditentukan.  

```
aws globalaccelerator describe-accelerator \
    --accelerator-arn arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh
```
Output:  

```
{
    "Accelerator": {
        "AcceleratorArn": "arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh",
        "IpAddressType": "IPV4",
        "Name": "ExampleAccelerator",
        "Enabled": true,
        "Status": "IN_PROGRESS",
        "IpSets": [
            {
                "IpAddresses": [
                    "192.0.2.250",
                    "198.51.100.52"
                ],
                "IpFamily": "IPv4"
            }
        ],
        "DnsName":"a1234567890abcdef.awsglobalaccelerator.com",
        "CreatedTime": 1542394847,
        "LastModifiedTime": 1542395013
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator di Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-accelerators.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [DescribeAccelerator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/describe-accelerator.html)di *Referensi AWS CLI Perintah*. 

### `describe-custom-routing-accelerator-attributes`
<a name="global-accelerator_DescribeCustomRoutingAcceleratorAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-custom-routing-accelerator-attributes`.

**AWS CLI**  
**Untuk menggambarkan atribut akselerator perutean kustom**  
`describe-custom-routing-accelerator-attributes`Contoh berikut menjelaskan atribut untuk akselerator routing kustom.  

```
aws globalaccelerator describe-custom-routing-accelerator-attributes \
   --accelerator-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh
```
Output:  

```
{
    "AcceleratorAttributes": {
    "FlowLogsEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator perutean khusus di Akselerator AWS Global di](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-accelerators.html) Panduan Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [DescribeCustomRoutingAcceleratorAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/describe-custom-routing-accelerator-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-custom-routing-accelerator`
<a name="global-accelerator_DescribeCustomRoutingAccelerator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-custom-routing-accelerator`.

**AWS CLI**  
**Untuk menggambarkan akselerator perutean khusus**  
`describe-custom-routing-accelerator`Contoh berikut mengambil rincian tentang akselerator routing kustom yang ditentukan.  

```
aws globalaccelerator describe-custom-routing-accelerator \
    --accelerator-arn arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh
```
Output:  

```
{
    "Accelerator": {
        "AcceleratorArn": "arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh",
        "IpAddressType": "IPV4",
        "Name": "ExampleCustomRoutingAccelerator",
        "Enabled": true,
        "Status": "IN_PROGRESS",
        "IpSets": [
            {
                "IpAddresses": [
                    "192.0.2.250",
                    "198.51.100.52"
                ],
                "IpFamily": "IPv4"
            }
        ],
        "DnsName":"a1234567890abcdef.awsglobalaccelerator.com",
        "CreatedTime": 1542394847,
        "LastModifiedTime": 1542395013
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator perutean khusus di Akselerator AWS Global di](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-accelerators.html) Panduan Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [DescribeCustomRoutingAccelerator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/describe-custom-routing-accelerator.html)di *Referensi AWS CLI Perintah*. 

### `describe-custom-routing-endpoint-group`
<a name="global-accelerator_DescribeCustomRoutingEndpointGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-custom-routing-endpoint-group`.

**AWS CLI**  
**Untuk mendeskripsikan grup endpoint untuk akselerator perutean kustom**  
`describe-custom-routing-endpoint-group`Contoh berikut menjelaskan grup endpoint untuk akselerator routing kustom.  

```
aws globalaccelerator describe-custom-routing-endpoint-group \
    --endpoint-group-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/6789vxyz/endpoint-group/ab88888example
```
Output:  

```
{
    "EndpointGroup": {
        "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/6789vxyz/endpoint-group/ab88888example",
        "EndpointGroupRegion": "us-east-2",
        "DestinationDescriptions": [
            {
                "FromPort": 5000,
                "ToPort": 10000,
                "Protocols": [
                    "UDP"
                ]
            }
        ],
        "EndpointDescriptions": [
            {
                "EndpointId": "subnet-1234567890abcdef0"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Grup titik akhir untuk akselerator perutean kustom di AWS Global Accelerator di Panduan Pengembang Akselerator AWS](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-endpoint-groups.html) *Global*.  
+  Untuk detail API, lihat [DescribeCustomRoutingEndpointGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/describe-custom-routing-endpoint-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-custom-routing-listener`
<a name="global-accelerator_DescribeCustomRoutingListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-custom-routing-listener`.

**AWS CLI**  
**Untuk mendeskripsikan pendengar untuk akselerator perutean kustom**  
`describe-custom-routing-listener`Contoh berikut menjelaskan pendengar untuk akselerator perutean kustom.  

```
aws globalaccelerator describe-custom-routing-listener \
    --listener-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234
```
Output:  

```
{
    "Listener": {
        "PortRanges": [
            "FromPort": 5000,
            "ToPort": 10000
        ],
        "ListenerArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234"
    }
}
```
*Untuk informasi selengkapnya, lihat [Pendengar untuk akselerator perutean kustom di Global Accelerator di Panduan AWS Pengembang AWS Akselerator Global](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-listeners.html).*  
+  Untuk detail API, lihat [DescribeCustomRoutingListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/describe-custom-routing-listener.html)di *Referensi AWS CLI Perintah*. 

### `describe-endpoint-group`
<a name="global-accelerator_DescribeEndpointGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-endpoint-group`.

**AWS CLI**  
**Untuk menggambarkan grup titik akhir**  
`describe-endpoint-group`Contoh berikut mengambil detail tentang grup titik akhir dengan titik akhir berikut: instans Amazon EC2, ALB, dan NLB.  

```
aws globalaccelerator describe-endpoint-group \
    --endpoint-group-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/6789vxyz-vxyz-6789-vxyz-6789lmnopqrs/endpoint-group/ab88888example
```
Output:  

```
{
    "EndpointGroup": {
        "TrafficDialPercentage": 100.0,
        "EndpointDescriptions": [
        {
            "Weight": 128,
            "EndpointId": "i-1234567890abcdef0"
        },
        {
            "Weight": 128,
            "EndpointId": "arn:aws:elasticloadbalancing:us-east-1:000123456789:loadbalancer/app/ALBTesting/alb01234567890xyz"
        },
        {
            "Weight": 128,
            "EndpointId": "arn:aws:elasticloadbalancing:us-east-1:000123456789:loadbalancer/net/NLBTesting/alb01234567890qrs"
        }
        ],
        "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/6789vxyz-vxyz-6789-vxyz-6789lmnopqrs/endpoint-group/4321abcd-abcd-4321-abcd-4321abcdefg",
        "EndpointGroupRegion": "us-east-1"
    }
}
```
Untuk informasi selengkapnya, lihat [Grup titik akhir di Akselerator AWS Global di Panduan Pengembang](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-endpoint-groups.html) *Akselerator AWS Global*.  
+  Untuk detail API, lihat [DescribeEndpointGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/describe-endpoint-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-listener`
<a name="global-accelerator_DescribeListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-listener`.

**AWS CLI**  
**Untuk menggambarkan pendengar**  
`describe-listener`Contoh berikut menjelaskan pendengar.  

```
aws globalaccelerator describe-listener \
    --listener-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234
```
Output:  

```
{
    "Listener": {
        "ListenerArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234",
        "PortRanges": [
            {
                "FromPort": 80,
                "ToPort": 80
            }
        ],
        "Protocol": "TCP",
        "ClientAffinity": "NONE"
    }
}
```
Untuk informasi selengkapnya, lihat [Pendengar di Akselerator AWS Global di Panduan Pengembang Akselerator AWS](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-listeners.html) *Global*.  
+  Untuk detail API, lihat [DescribeListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/describe-listener.html)di *Referensi AWS CLI Perintah*. 

### `list-accelerators`
<a name="global-accelerator_ListAccelerators_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-accelerators`.

**AWS CLI**  
**Untuk membuat daftar akselerator Anda**  
`list-accelerators`Contoh berikut mencantumkan akselerator di AWS akun Anda. Akun ini memiliki dua akselerator.  

```
aws globalaccelerator list-accelerators
```
Output:  

```
{
    "Accelerators": [
        {
            "AcceleratorArn": "arn:aws:globalaccelerator::012345678901:accelerator/5555abcd-abcd-5555-abcd-5555EXAMPLE1",
            "Name": "TestAccelerator",
            "IpAddressType": "IPV4",
            "Enabled": true,
            "IpSets": [
                {
                    "IpFamily": "IPv4",
                    "IpAddresses": [
                        "192.0.2.250",
                        "198.51.100.52"
                    ]
                }
            ],
            "DnsName": "5a5a5a5a5a5a5a5a.awsglobalaccelerator.com",
            "Status": "DEPLOYED",
            "CreatedTime": 1552424416.0,
            "LastModifiedTime": 1569375641.0
        },
        {
            "AcceleratorArn": "arn:aws:globalaccelerator::888888888888:accelerator/8888abcd-abcd-8888-abcd-8888EXAMPLE2",
            "Name": "ExampleAccelerator",
            "IpAddressType": "IPV4",
            "Enabled": true,
            "IpSets": [
                {
                    "IpFamily": "IPv4",
                    "IpAddresses": [
                        "192.0.2.100",
                        "198.51.100.10"
                    ]
                }
            ],
            "DnsName": "6a6a6a6a6a6a6a.awsglobalaccelerator.com",
            "Status": "DEPLOYED",
            "CreatedTime": 1575585564.0,
            "LastModifiedTime": 1579809243.0
        },
    ]
}
```
Untuk informasi selengkapnya, lihat [Akselerator di Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-accelerators.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [ListAccelerators](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-accelerators.html)di *Referensi AWS CLI Perintah*. 

### `list-byoip-cidr`
<a name="global-accelerator_ListByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-byoip-cidr`.

**AWS CLI**  
**Untuk mencantumkan rentang alamat Anda**  
`list-byoip-cidr`Contoh berikut mencantumkan rentang alamat alamat IP Anda sendiri (BYOIP) yang telah Anda sediakan untuk digunakan dengan Global Accelerator.  

```
aws globalaccelerator list-byoip-cidrs
```
Output:  

```
{
    "ByoipCidrs": [
        {
            "Cidr": "198.51.100.0/24",
            "State": "READY"
        }
        {
            "Cidr": "203.0.113.25/24",
            "State": "READY"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membawa alamat IP Anda sendiri di AWS Global Accelerator di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/using-byoip.html) *Pengembang Akselerator AWS Global*.  
+  Untuk detail API, lihat [ListByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `list-custom-routing-accelerators`
<a name="global-accelerator_ListCustomRoutingAccelerators_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-custom-routing-accelerators`.

**AWS CLI**  
**Untuk membuat daftar akselerator perutean kustom Anda**  
`list-custom-routing-accelerators`Contoh berikut mencantumkan akselerator perutean kustom di akun AWS .  

```
aws globalaccelerator list-custom-routing-accelerators
```
Output:  

```
{
    "Accelerators": [
        {
            "AcceleratorArn": "arn:aws:globalaccelerator::012345678901:accelerator/5555abcd-abcd-5555-abcd-5555EXAMPLE1",
            "Name": "TestCustomRoutingAccelerator",
            "IpAddressType": "IPV4",
            "Enabled": true,
            "IpSets": [
                {
                    "IpFamily": "IPv4",
                    "IpAddresses": [
                        "192.0.2.250",
                        "198.51.100.52"
                    ]
                }
            ],
            "DnsName": "5a5a5a5a5a5a5a5a.awsglobalaccelerator.com",
            "Status": "DEPLOYED",
            "CreatedTime": 1552424416.0,
            "LastModifiedTime": 1569375641.0
        },
        {
            "AcceleratorArn": "arn:aws:globalaccelerator::888888888888:accelerator/8888abcd-abcd-8888-abcd-8888EXAMPLE2",
            "Name": "ExampleCustomRoutingAccelerator",
            "IpAddressType": "IPV4",
            "Enabled": true,
            "IpSets": [
                {
                    "IpFamily": "IPv4",
                    "IpAddresses": [
                        "192.0.2.100",
                        "198.51.100.10"
                    ]
                }
            ],
            "DnsName": "6a6a6a6a6a6a6a.awsglobalaccelerator.com",
            "Status": "DEPLOYED",
            "CreatedTime": 1575585564.0,
            "LastModifiedTime": 1579809243.0
        },
    ]
}
```
Untuk informasi selengkapnya, lihat [Akselerator perutean khusus di Akselerator AWS Global di](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-accelerators.html) Panduan Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [ListCustomRoutingAccelerators](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-custom-routing-accelerators.html)di *Referensi AWS CLI Perintah*. 

### `list-custom-routing-endpoint-groups`
<a name="global-accelerator_ListCustomRoutingEndpointGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-custom-routing-endpoint-groups`.

**AWS CLI**  
**Untuk mencantumkan grup titik akhir untuk pendengar dalam akselerator perutean kustom**  
`list-custom-routing-endpoint-groups`Contoh berikut mencantumkan grup titik akhir untuk pendengar dalam akselerator perutean kustom.  

```
aws globalaccelerator list-custom-routing-endpoint-groups \
    --listener-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234
```
Output:  

```
{
    "EndpointGroups": [
        {
            "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234/endpoint-group/ab88888example",
            "EndpointGroupRegion": "eu-central-1",
            "DestinationDescriptions": [
                {
                    "FromPort": 80,
                    "ToPort": 80,
                    "Protocols": [
                        "TCP",
                        "UDP"
                    ]
                }
            ]
            "EndpointDescriptions": [
                {
                    "EndpointId": "subnet-abcd123example"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup titik akhir untuk akselerator perutean kustom di AWS Global Accelerator di Panduan Pengembang Akselerator AWS](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-endpoint-groups.html) *Global*.  
+  Untuk detail API, lihat [ListCustomRoutingEndpointGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-custom-routing-endpoint-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-custom-routing-listeners`
<a name="global-accelerator_ListCustomRoutingListeners_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-custom-routing-listeners`.

**AWS CLI**  
**Untuk membuat daftar pendengar untuk akselerator perutean kustom**  
`list-custom-routing-listeners`Contoh berikut mencantumkan pendengar untuk akselerator perutean kustom.  

```
aws globalaccelerator list-custom-routing-listeners \
    --accelerator-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh
```
Output:  

```
{
    "Listeners": [
        {
            "ListenerArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234",
            "PortRanges": [
                {
                    "FromPort": 5000,
                    "ToPort": 10000
                }
            ],
            "Protocol": "TCP"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Pendengar untuk akselerator perutean kustom di Global Accelerator di Panduan AWS Pengembang AWS Akselerator Global](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-listeners.html).*  
+  Untuk detail API, lihat [ListCustomRoutingListeners](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-custom-routing-listeners.html)di *Referensi AWS CLI Perintah*. 

### `list-custom-routing-port-mappings-by-destination`
<a name="global-accelerator_ListCustomRoutingPortMappingsByDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-custom-routing-port-mappings-by-destination`.

**AWS CLI**  
**Untuk membuat daftar pemetaan port untuk tujuan akselerator perutean kustom tertentu**  
`list-custom-routing-port-mappings-by-destination`Contoh berikut menyediakan pemetaan port untuk server EC2 tujuan tertentu (di alamat tujuan) untuk akselerator perutean kustom.  

```
aws globalaccelerator list-custom-routing-port-mappings-by-destination \
    --endpoint-id subnet-abcd123example \
    --destination-address 198.51.100.52
```
Output:  

```
{
    "DestinationPortMappings": [
        {
            "AcceleratorArn": "arn:aws:globalaccelerator::402092451327:accelerator/24ea29b8-d750-4489-8919-3095f3c4b0a7",
                "AcceleratorSocketAddresses": [
                    {
                        "IpAddress": "192.0.2.250",
                        "Port": 65514
                    },
                    {
                        "IpAddress": "192.10.100.99",
                        "Port": 65514
                    }
                ],
                "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/ab88888example",
                "EndpointId": "subnet-abcd123example",
                "EndpointGroupRegion": "us-west-2",
                "DestinationSocketAddress": {
                    "IpAddress": "198.51.100.52",
                    "Port": 80
                },
                "IpAddressType": "IPv4",
                "DestinationTrafficState": "ALLOW"
        }
    ]
}
```
Untuk informasi [selengkapnya, lihat Cara kerja akselerator perutean kustom di AWS Global Accelerator](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-how-it-works.html) di Panduan Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [ListCustomRoutingPortMappingsByDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-custom-routing-port-mappings-by-destination.html)di *Referensi AWS CLI Perintah*. 

### `list-custom-routing-port-mappings`
<a name="global-accelerator_ListCustomRoutingPortMappings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-custom-routing-port-mappings`.

**AWS CLI**  
**Untuk membuat daftar pemetaan port dalam akselerator perutean kustom**  
`list-custom-routing-port-mappings`Contoh berikut menyediakan sebagian daftar pemetaan port dalam akselerator routing kustom.  

```
aws globalaccelerator list-custom-routing-port-mappings \
    --accelerator-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh
```
Output:  

```
{
    "PortMappings": [
        {
            "AcceleratorPort": 40480,
            "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/098765zyxwvu",
            "EndpointId": "subnet-1234567890abcdef0",
            "DestinationSocketAddress": {
                "IpAddress": "192.0.2.250",
                "Port": 80
            },
            "Protocols": [
                "TCP",
                "UDP"
            ],
            "DestinationTrafficState": "ALLOW"
        }
        {
            "AcceleratorPort": 40481,
            "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz/endpoint-group/098765zyxwvu",
            "EndpointId": "subnet-1234567890abcdef0",
            "DestinationSocketAddress": {
               "IpAddress": "192.0.2.251",
              "Port": 80
            },
            "Protocols": [
                "TCP",
                "UDP"
            ],
            "DestinationTrafficState": "ALLOW"
        }
    ]
}
```
Untuk informasi [selengkapnya, lihat Cara kerja akselerator perutean kustom di AWS Global Accelerator](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-how-it-works.html) di Panduan Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [ListCustomRoutingPortMappings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-custom-routing-port-mappings.html)di *Referensi AWS CLI Perintah*. 

### `list-endpoint-groups`
<a name="global-accelerator_ListEndpointGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-endpoint-groups`.

**AWS CLI**  
**Untuk membuat daftar grup titik akhir**  
`list-endpoint-groups`Contoh berikut mencantumkan grup endpoint untuk listener. Listener ini memiliki dua grup endpoint.  

```
aws globalaccelerator --region us-west-2 list-endpoint-groups \
    --listener-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234
```
Output:  

```
{
    "EndpointGroups": [
        {
            "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234/endpoint-group/ab88888example",
            "EndpointGroupRegion": "eu-central-1",
            "EndpointDescriptions": [],
            "TrafficDialPercentage": 100.0,
            "HealthCheckPort": 80,
            "HealthCheckProtocol": "TCP",
            "HealthCheckIntervalSeconds": 30,
            "ThresholdCount": 3
        }
        {
            "EndpointGroupArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234/endpoint-group/ab99999example",
            "EndpointGroupRegion": "us-east-1",
            "EndpointDescriptions": [],
            "TrafficDialPercentage": 50.0,
            "HealthCheckPort": 80,
            "HealthCheckProtocol": "TCP",
            "HealthCheckIntervalSeconds": 30,
            "ThresholdCount": 3
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup Titik Akhir di Akselerator AWS Global di Panduan Pengembang](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-endpoint-groups.html) *Akselerator AWS Global*.  
+  Untuk detail API, lihat [ListEndpointGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-endpoint-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-listeners`
<a name="global-accelerator_ListListeners_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-listeners`.

**AWS CLI**  
**Untuk daftar pendengar**  
`list-listeners`Contoh berikut mencantumkan pendengar untuk akselerator.  

```
aws globalaccelerator list-listeners \
    --accelerator-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh
```
Output:  

```
{
    "Listeners": [
        {
            "ListenerArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/abcdef1234",
            "PortRanges": [
                {
                    "FromPort": 80,
                    "ToPort": 80
                }
            ],
            "Protocol": "TCP",
            "ClientAffinity": "NONE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Pendengar di Akselerator AWS Global di Panduan Pengembang Akselerator AWS](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-listeners.html) *Global*.  
+  Untuk detail API, lihat [ListListeners](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-listeners.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="global-accelerator_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag untuk akselerator**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk akselerator tertentu.  

```
aws globalaccelerator list-tags-for-resource \
    --accelerator-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Project",
            "Value": "A123456"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/tagging-in-global-accelerator.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `provision-byoip-cidr`
<a name="global-accelerator_ProvisionByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`provision-byoip-cidr`.

**AWS CLI**  
**Untuk menyediakan rentang alamat**  
`provision-byoip-cidr`Contoh berikut menyediakan rentang alamat yang ditentukan untuk digunakan dengan AWS sumber daya Anda.  

```
aws globalaccelerator provision-byoip-cidr \
    --cidr 192.0.2.250/24 \
    --cidr-authorization-context Message="$text_message",Signature="$signed_message"
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "192.0.2.250/24",
        "State": "PENDING_PROVISIONING"
    }
}
```
Untuk informasi selengkapnya, lihat [Membawa alamat IP Anda sendiri di AWS Global Accelerator di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/using-byoip.html) *Pengembang Akselerator AWS Global*.  
+  Untuk detail API, lihat [ProvisionByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/provision-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="global-accelerator_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai akselerator**  
`tag-resource`Contoh berikut menambahkan tag Nama dan Proyek ke akselerator, bersama dengan nilai yang sesuai untuk masing-masing.  

```
aws globalaccelerator tag-resource \
    --resource-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh \
    --tags Key="Name",Value="Example Name" Key="Project",Value="Example Project"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/tagging-in-global-accelerator.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="global-accelerator_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari akselerator**  
`untag-resource`Contoh berikut menghapus tag Nama dan Proyek dari akselerator.  

```
aws globalaccelerator untag-resource \
    --resource-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh \
    --tag-keys Key="Name" Key="Project"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/tagging-in-global-accelerator.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-accelerator-attributes`
<a name="global-accelerator_UpdateAcceleratorAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-accelerator-attributes`.

**AWS CLI**  
**Untuk memperbarui atribut akselerator**  
`update-accelerator-attributes`Contoh berikut memperbarui akselerator untuk mengaktifkan log aliran. Anda harus menentukan `US-West-2 (Oregon)` Wilayah untuk membuat atau memperbarui atribut akselerator.  

```
aws globalaccelerator update-accelerator-attributes \
    --accelerator-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh \
    --flow-logs-enabled \
    --flow-logs-s3-bucket flowlogs-abc \
    --flow-logs-s3-prefix bucketprefix-abc
```
Output:  

```
{
    "AcceleratorAttributes": {
        "FlowLogsEnabled": true
        "FlowLogsS3Bucket": flowlogs-abc
        "FlowLogsS3Prefix": bucketprefix-abc
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator di Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-accelerators.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [UpdateAcceleratorAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/update-accelerator-attributes.html)di *Referensi AWS CLI Perintah*. 

### `update-accelerator`
<a name="global-accelerator_UpdateAccelerator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-accelerator`.

**AWS CLI**  
**Untuk memperbarui akselerator**  
`update-accelerator`Contoh berikut memodifikasi akselerator untuk mengubah nama akselerator menjadi. `ExampleAcceleratorNew` Anda harus menentukan `US-West-2 (Oregon)` Wilayah untuk membuat atau memperbarui akselerator.  

```
aws globalaccelerator update-accelerator \
    --accelerator-arn arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh \
    --name ExampleAcceleratorNew
```
Output:  

```
{
    "Accelerator": {
        "AcceleratorArn": "arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh",
        "IpAddressType": "IPV4",
        "Name": "ExampleAcceleratorNew",
        "Enabled": true,
        "Status": "IN_PROGRESS",
        "IpSets": [
            {
                "IpAddresses": [
                    "192.0.2.250",
                    "198.51.100.52"
                ],
                "IpFamily": "IPv4"
            }
        ],
        "DnsName":"a1234567890abcdef.awsglobalaccelerator.com",
        "CreatedTime": 1232394847,
        "LastModifiedTime": 1232395654
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator di Akselerator AWS Global di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-accelerators.html) Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [UpdateAccelerator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/update-accelerator.html)di *Referensi AWS CLI Perintah*. 

### `update-custom-routing-accelerator-attributes`
<a name="global-accelerator_UpdateCustomRoutingAcceleratorAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-custom-routing-accelerator-attributes`.

**AWS CLI**  
**Untuk memperbarui atribut akselerator perutean kustom**  
`update-custom-routing-accelerator-attributes`Contoh berikut memperbarui akselerator perutean kustom untuk mengaktifkan log aliran.  

```
aws globalaccelerator update-custom-routing-accelerator-attributes \
    --accelerator-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh \
    --flow-logs-enabled \
    --flow-logs-s3-bucket flowlogs-abc \
    --flow-logs-s3-prefix bucketprefix-abc
```
Output:  

```
{
    "AcceleratorAttributes": {
        "FlowLogsEnabled": true
        "FlowLogsS3Bucket": flowlogs-abc
        "FlowLogsS3Prefix": bucketprefix-abc
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator perutean khusus di Akselerator AWS Global di](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-accelerators.html) Panduan Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [UpdateCustomRoutingAcceleratorAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/update-custom-routing-accelerator-attributes.html)di *Referensi AWS CLI Perintah*. 

### `update-custom-routing-accelerator`
<a name="global-accelerator_UpdateCustomRoutingAccelerator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-custom-routing-accelerator`.

**AWS CLI**  
**Untuk memperbarui akselerator perutean kustom**  
`update-custom-routing-accelerator`Contoh berikut memodifikasi akselerator routing kustom untuk mengubah nama akselerator.  

```
aws globalaccelerator --region us-west-2 update-custom-routing-accelerator \
    --accelerator-arn arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh \
    --name ExampleCustomRoutingAcceleratorNew
```
Output:  

```
{
    "Accelerator": {
        "AcceleratorArn": "arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh",
        "IpAddressType": "IPV4",
        "Name": "ExampleCustomRoutingAcceleratorNew",
        "Enabled": true,
        "Status": "IN_PROGRESS",
        "IpSets": [
            {
                "IpAddresses": [
                    "192.0.2.250",
                    "198.51.100.52"
                ],
                "IpFamily": "IPv4"
            }
        ],
        "DnsName":"a1234567890abcdef.awsglobalaccelerator.com",
        "CreatedTime": 1232394847,
        "LastModifiedTime": 1232395654
    }
}
```
Untuk informasi selengkapnya, lihat [Akselerator perutean khusus di Akselerator AWS Global di](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-accelerators.html) Panduan Pengembang *Akselerator AWS Global*.  
+  Untuk detail API, lihat [UpdateCustomRoutingAccelerator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/update-custom-routing-accelerator.html)di *Referensi AWS CLI Perintah*. 

### `update-custom-routing-listener`
<a name="global-accelerator_UpdateCustomRoutingListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-custom-routing-listener`.

**AWS CLI**  
**Untuk memperbarui listener untuk akselerator perutean kustom**  
`update-custom-routing-listener`Contoh berikut memperbarui listener untuk mengubah rentang port.  

```
aws globalaccelerator update-custom-routing-listener \
    --listener-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz \
    --port-ranges FromPort=10000,ToPort=20000
```
Output:  

```
{
    "Listener": {
        "ListenerArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz
        "PortRanges": [
            {
                "FromPort": 10000,
                "ToPort": 20000
            }
        ],
        "Protocol": "TCP"
    }
}
```
*Untuk informasi selengkapnya, lihat [Pendengar untuk akselerator perutean kustom di Global Accelerator di Panduan AWS Pengembang AWS Akselerator Global](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-custom-routing-listeners.html).*  
+  Untuk detail API, lihat [UpdateCustomRoutingListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/update-custom-routing-listener.html)di *Referensi AWS CLI Perintah*. 

### `update-endpoint-group`
<a name="global-accelerator_UpdateEndpointGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-endpoint-group`.

**AWS CLI**  
**Untuk memperbarui grup titik akhir**  
`update-endpoint-group`Contoh berikut menambahkan tiga titik akhir ke grup endpoint: alamat IP Elastis, ALB, dan NLB.  

```
aws globalaccelerator update-endpoint-group \
    --endpoint-group-arn arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/6789vxyz-vxyz-6789-vxyz-6789lmnopqrs/endpoint-group/ab88888example \
    --endpoint-configurations \
        EndpointId=eipalloc-eip01234567890abc,Weight=128 \
        EndpointId=arn:aws:elasticloadbalancing:us-east-1:000123456789:loadbalancer/app/ALBTesting/alb01234567890xyz,Weight=128 \
        EndpointId=arn:aws:elasticloadbalancing:us-east-1:000123456789:loadbalancer/net/NLBTesting/alb01234567890qrs,Weight=128
```
Output:  

```
{
    "EndpointGroup": {
        "TrafficDialPercentage": 100,
        "EndpointDescriptions": [
            {
                "Weight": 128,
                "EndpointId": "eip01234567890abc"
            },
            {
                "Weight": 128,
                "EndpointId": "arn:aws:elasticloadbalancing:us-east-1:000123456789:loadbalancer/app/ALBTesting/alb01234567890xyz"
            },
            {
                "Weight": 128,
                "EndpointId": "arn:aws:elasticloadbalancing:us-east-1:000123456789:loadbalancer/net/NLBTesting/alb01234567890qrs"
            }
        ],
        "EndpointGroupArn": "arn:aws:globalaccelerator::123456789012:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/6789vxyz-vxyz-6789-vxyz-6789lmnopqrs/endpoint-group/4321abcd-abcd-4321-abcd-4321abcdefg",
        "EndpointGroupRegion": "us-east-1"
    }
}
```
Untuk informasi selengkapnya, lihat [Grup titik akhir di Akselerator AWS Global di Panduan Pengembang](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-endpoint-groups.html) *Akselerator AWS Global*.  
+  Untuk detail API, lihat [UpdateEndpointGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/update-endpoint-group.html)di *Referensi AWS CLI Perintah*. 

### `update-listener`
<a name="global-accelerator_UpdateListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-listener`.

**AWS CLI**  
**Untuk memperbarui pendengar**  
`update-listener`Contoh berikut memperbarui listener untuk mengubah port ke 100.  

```
aws globalaccelerator update-listener \
    --listener-arn arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz \
    --port-ranges FromPort=100,ToPort=100
```
Output:  

```
{
    "Listener": {
        "ListenerArn": "arn:aws:globalaccelerator::012345678901:accelerator/1234abcd-abcd-1234-abcd-1234abcdefgh/listener/0123vxyz
        "PortRanges": [
            {
                "FromPort": 100,
                "ToPort": 100
            }
        ],
        "Protocol": "TCP",
        "ClientAffinity": "NONE"
    }
}
```
Untuk informasi selengkapnya, lihat [Pendengar di Akselerator AWS Global di Panduan Pengembang Akselerator AWS](https://docs.aws.amazon.com/global-accelerator/latest/dg/about-listeners.html) *Global*.  
+  Untuk detail API, lihat [UpdateListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/update-listener.html)di *Referensi AWS CLI Perintah*. 

### `withdraw-byoip-cidr`
<a name="global-accelerator_WithdrawByoipCidr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`withdraw-byoip-cidr`.

**AWS CLI**  
**Untuk menarik rentang alamat**  
`withdraw-byoip-cidr`Contoh berikut menarik rentang alamat dari AWS Global Accelerator yang sebelumnya Anda iklankan untuk digunakan dengan sumber daya Anda. AWS   

```
aws globalaccelerator withdraw-byoip-cidr \
    --cidr 192.0.2.250/24
```
Output:  

```
{
    "ByoipCidr": {
        "Cidr": "192.0.2.250/24",
        "State": "PENDING_WITHDRAWING"
    }
}
```
Untuk informasi selengkapnya, lihat [Membawa alamat IP Anda sendiri di AWS Global Accelerator di Panduan](https://docs.aws.amazon.com/global-accelerator/latest/dg/using-byoip.html) *Pengembang Akselerator AWS Global*.  
+  Untuk detail API, lihat [WithdrawByoipCidr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/globalaccelerator/withdraw-byoip-cidr.html)di *Referensi AWS CLI Perintah*. 

# AWS Glue contoh menggunakan AWS CLI
<a name="cli_2_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Glue.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-stop-job-run`
<a name="glue_BatchStopJobRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-stop-job-run`.

**AWS CLI**  
**Untuk menghentikan pekerjaan berjalan**  
`batch-stop-job-run`Contoh berikut menghentikan pekerjaan berjalan.  

```
aws glue batch-stop-job-run \
    --job-name "my-testing-job" \
    --job-run-id jr_852f1de1f29fb62e0ba4166c33970803935d87f14f96cfdee5089d5274a61d3f
```
Output:  

```
{
    "SuccessfulSubmissions": [
        {
            "JobName": "my-testing-job",
            "JobRunId": "jr_852f1de1f29fb62e0ba4166c33970803935d87f14f96cfdee5089d5274a61d3f"
        }
    ],
    "Errors": [],
    "ResponseMetadata": {
        "RequestId": "66bd6b90-01db-44ab-95b9-6aeff0e73d88",
        "HTTPStatusCode": 200,
        "HTTPHeaders": {
            "date": "Fri, 16 Oct 2020 20:54:51 GMT",
            "content-type": "application/x-amz-json-1.1",
            "content-length": "148",
            "connection": "keep-alive",
            "x-amzn-requestid": "66bd6b90-01db-44ab-95b9-6aeff0e73d88"
        },
        "RetryAttempts": 0
    }
}
```
Untuk informasi selengkapnya, lihat [Job Runs](https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-jobs-runs.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [BatchStopJobRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/batch-stop-job-run.html)di *Referensi AWS CLI Perintah*. 

### `create-connection`
<a name="glue_CreateConnection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-connection`.

**AWS CLI**  
**Untuk membuat koneksi untuk penyimpanan data AWS Glue**  
`create-connection`Contoh berikut membuat koneksi di Katalog Data AWS Glue yang menyediakan informasi koneksi untuk penyimpanan data Kafka.  

```
aws glue create-connection \
    --connection-input '{ \
        "Name":"conn-kafka-custom", \
        "Description":"kafka connection with ssl to custom kafka", \
        "ConnectionType":"KAFKA",  \
        "ConnectionProperties":{  \
            "KAFKA_BOOTSTRAP_SERVERS":"<Kafka-broker-server-url>:<SSL-Port>", \
            "KAFKA_SSL_ENABLED":"true", \
            "KAFKA_CUSTOM_CERT": "s3://bucket/prefix/cert-file.pem" \
        }, \
        "PhysicalConnectionRequirements":{ \
            "SubnetId":"subnet-1234", \
            "SecurityGroupIdList":["sg-1234"], \
            "AvailabilityZone":"us-east-1a"} \
    }' \
    --region us-east-1
    --endpoint https://glue.us-east-1.amazonaws.com
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendefinisikan Koneksi di Katalog Data AWS Glue](https://docs.aws.amazon.com/glue/latest/dg/populate-add-connection.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [CreateConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/create-connection.html)di *Referensi AWS CLI Perintah*. 

### `create-database`
<a name="glue_CreateDatabase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-database`.

**AWS CLI**  
**Untuk membuat database**  
`create-database`Contoh berikut membuat database di AWS Glue Data Catalog.  

```
aws glue create-database \
    --database-input "{\"Name\":\"tempdb\"}" \
    --profile my_profile \
    --endpoint https://glue.us-east-1.amazonaws.com
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendefinisikan Database di Katalog Data Anda](https://docs.aws.amazon.com/glue/latest/dg/define-database.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [CreateDatabase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/create-database.html)di *Referensi AWS CLI Perintah*. 

### `create-job`
<a name="glue_CreateJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-job`.

**AWS CLI**  
**Untuk membuat pekerjaan untuk mengubah data**  
`create-job`Contoh berikut membuat pekerjaan streaming yang menjalankan skrip yang disimpan di S3.  

```
aws glue create-job \
    --name my-testing-job \
    --role AWSGlueServiceRoleDefault \
    --command '{ \
        "Name": "gluestreaming", \
        "ScriptLocation": "s3://amzn-s3-demo-bucket/folder/" \
    }' \
    --region us-east-1 \
    --output json \
    --default-arguments '{ \
        "--job-language":"scala", \
        "--class":"GlueApp" \
    }' \
    --profile my-profile \
    --endpoint https://glue.us-east-1.amazonaws.com
```
Isi dari `test_script.scala`:  

```
import com.amazonaws.services.glue.ChoiceOption
import com.amazonaws.services.glue.GlueContext
import com.amazonaws.services.glue.MappingSpec
import com.amazonaws.services.glue.ResolveSpec
import com.amazonaws.services.glue.errors.CallSite
import com.amazonaws.services.glue.util.GlueArgParser
import com.amazonaws.services.glue.util.Job
import com.amazonaws.services.glue.util.JsonOptions
import org.apache.spark.SparkContext
import scala.collection.JavaConverters._

object GlueApp {
    def main(sysArgs: Array[String]) {
        val spark: SparkContext = new SparkContext()
        val glueContext: GlueContext = new GlueContext(spark)
        // @params: [JOB_NAME]
        val args = GlueArgParser.getResolvedOptions(sysArgs, Seq("JOB_NAME").toArray)
        Job.init(args("JOB_NAME"), glueContext, args.asJava)
        // @type: DataSource
        // @args: [database = "tempdb", table_name = "s3-source", transformation_ctx = "datasource0"]
        // @return: datasource0
        // @inputs: []
        val datasource0 = glueContext.getCatalogSource(database = "tempdb", tableName = "s3-source", redshiftTmpDir = "", transformationContext = "datasource0").getDynamicFrame()
        // @type: ApplyMapping
        // @args: [mapping = [("sensorid", "int", "sensorid", "int"), ("currenttemperature", "int", "currenttemperature", "int"), ("status", "string", "status", "string")], transformation_ctx = "applymapping1"]
        // @return: applymapping1
        // @inputs: [frame = datasource0]
        val applymapping1 = datasource0.applyMapping(mappings = Seq(("sensorid", "int", "sensorid", "int"), ("currenttemperature", "int", "currenttemperature", "int"), ("status", "string", "status", "string")), caseSensitive = false, transformationContext = "applymapping1")
        // @type: SelectFields
        // @args: [paths = ["sensorid", "currenttemperature", "status"], transformation_ctx = "selectfields2"]
        // @return: selectfields2
        // @inputs: [frame = applymapping1]
        val selectfields2 = applymapping1.selectFields(paths = Seq("sensorid", "currenttemperature", "status"), transformationContext = "selectfields2")
        // @type: ResolveChoice
        // @args: [choice = "MATCH_CATALOG", database = "tempdb", table_name = "my-s3-sink", transformation_ctx = "resolvechoice3"]
        // @return: resolvechoice3
        // @inputs: [frame = selectfields2]
        val resolvechoice3 = selectfields2.resolveChoice(choiceOption = Some(ChoiceOption("MATCH_CATALOG")), database = Some("tempdb"), tableName = Some("my-s3-sink"), transformationContext = "resolvechoice3")
        // @type: DataSink
        // @args: [database = "tempdb", table_name = "my-s3-sink", transformation_ctx = "datasink4"]
        // @return: datasink4
        // @inputs: [frame = resolvechoice3]
        val datasink4 = glueContext.getCatalogSink(database = "tempdb", tableName = "my-s3-sink", redshiftTmpDir = "", transformationContext = "datasink4").writeDynamicFrame(resolvechoice3)
        Job.commit()
    }
}
```
Output:  

```
{
    "Name": "my-testing-job"
}
```
Untuk informasi selengkapnya, lihat [Menulis Pekerjaan di AWS Glue](https://docs.aws.amazon.com/glue/latest/dg/author-job.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [CreateJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/create-job.html)di *Referensi AWS CLI Perintah*. 

### `create-table`
<a name="glue_CreateTable_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-table`.

**AWS CLI**  
**Contoh 1: Untuk membuat tabel untuk aliran data Kinesis**  
`create-table`Contoh berikut membuat tabel dalam AWS Glue Data Catalog yang menjelaskan aliran data Kinesis.  

```
aws glue create-table \
    --database-name tempdb \
    --table-input  '{"Name":"test-kinesis-input", "StorageDescriptor":{ \
            "Columns":[ \
                {"Name":"sensorid", "Type":"int"}, \
                {"Name":"currenttemperature", "Type":"int"}, \
                {"Name":"status", "Type":"string"}
            ], \
            "Location":"my-testing-stream", \
            "Parameters":{ \
                "typeOfData":"kinesis","streamName":"my-testing-stream", \
                "kinesisUrl":"https://kinesis.us-east-1.amazonaws.com" \
            }, \
            "SerdeInfo":{ \
                "SerializationLibrary":"org.openx.data.jsonserde.JsonSerDe"} \
        }, \
        "Parameters":{ \
            "classification":"json"} \
        }' \
    --profile my-profile \
    --endpoint https://glue.us-east-1.amazonaws.com
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendefinisikan Tabel di Katalog Data AWS Glue](https://docs.aws.amazon.com/glue/latest/dg/tables-described.html) di *Panduan Pengembang AWS Glue*.  
**Contoh 2: Untuk membuat tabel untuk penyimpanan data Kafka**  
`create-table`Contoh berikut membuat tabel di AWS Glue Data Catalog yang menjelaskan penyimpanan data Kafka.  

```
aws glue create-table \
    --database-name tempdb \
    --table-input  '{"Name":"test-kafka-input", "StorageDescriptor":{ \
            "Columns":[ \
                {"Name":"sensorid", "Type":"int"}, \
                {"Name":"currenttemperature", "Type":"int"}, \
                {"Name":"status", "Type":"string"}
            ], \
            "Location":"glue-topic", \
            "Parameters":{ \
                "typeOfData":"kafka","topicName":"glue-topic", \
                "connectionName":"my-kafka-connection"
            }, \
            "SerdeInfo":{ \
                "SerializationLibrary":"org.apache.hadoop.hive.serde2.OpenCSVSerde"} \
        }, \
        "Parameters":{ \
            "separatorChar":","} \
        }' \
    --profile my-profile \
    --endpoint https://glue.us-east-1.amazonaws.com
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendefinisikan Tabel di Katalog Data AWS Glue](https://docs.aws.amazon.com/glue/latest/dg/tables-described.html) di *Panduan Pengembang AWS Glue*.  
**Contoh 3: Untuk membuat tabel untuk penyimpanan data AWS S3**  
`create-table`Contoh berikut membuat tabel di AWS Glue Data Catalog yang menjelaskan penyimpanan data AWS Simple Storage Service (AWS S3).  

```
aws glue create-table \
    --database-name tempdb \
    --table-input  '{"Name":"s3-output", "StorageDescriptor":{ \
            "Columns":[ \
                {"Name":"s1", "Type":"string"}, \
                {"Name":"s2", "Type":"int"}, \
                {"Name":"s3", "Type":"string"}
            ], \
            "Location":"s3://bucket-path/", \
            "SerdeInfo":{ \
                "SerializationLibrary":"org.openx.data.jsonserde.JsonSerDe"} \
        }, \
        "Parameters":{ \
            "classification":"json"} \
        }' \
    --profile my-profile \
    --endpoint https://glue.us-east-1.amazonaws.com
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendefinisikan Tabel di Katalog Data AWS Glue](https://docs.aws.amazon.com/glue/latest/dg/tables-described.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [CreateTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/create-table.html)di *Referensi AWS CLI Perintah*. 

### `delete-job`
<a name="glue_DeleteJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-job`.

**AWS CLI**  
**Untuk menghapus pekerjaan**  
`delete-job`Contoh berikut menghapus pekerjaan yang tidak lagi diperlukan.  

```
aws glue delete-job \
    --job-name my-testing-job
```
Output:  

```
{
    "JobName": "my-testing-job"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Pekerjaan di AWS Glue Console](https://docs.aws.amazon.com/glue/latest/dg/console-jobs.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [DeleteJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/delete-job.html)di *Referensi AWS CLI Perintah*. 

### `get-databases`
<a name="glue_GetDatabases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-databases`.

**AWS CLI**  
**Untuk membuat daftar definisi dari beberapa atau semua database dalam Katalog Data AWS Glue**  
`get-databases`Contoh berikut mengembalikan informasi tentang database dalam Katalog Data.  

```
aws glue get-databases
```
Output:  

```
{
    "DatabaseList": [
        {
            "Name": "default",
            "Description": "Default Hive database",
            "LocationUri": "file:/spark-warehouse",
            "CreateTime": 1602084052.0,
            "CreateTableDefaultPermissions": [
                {
                    "Principal": {
                        "DataLakePrincipalIdentifier": "IAM_ALLOWED_PRINCIPALS"
                    },
                    "Permissions": [
                        "ALL"
                    ]
                }
            ],
            "CatalogId": "111122223333"
        },
        {
            "Name": "flights-db",
            "CreateTime": 1587072847.0,
            "CreateTableDefaultPermissions": [
                {
                    "Principal": {
                        "DataLakePrincipalIdentifier": "IAM_ALLOWED_PRINCIPALS"
                    },
                    "Permissions": [
                        "ALL"
                    ]
                }
            ],
            "CatalogId": "111122223333"
        },
        {
            "Name": "legislators",
            "CreateTime": 1601415625.0,
            "CreateTableDefaultPermissions": [
                {
                    "Principal": {
                        "DataLakePrincipalIdentifier": "IAM_ALLOWED_PRINCIPALS"
                    },
                    "Permissions": [
                        "ALL"
                    ]
                }
            ],
            "CatalogId": "111122223333"
        },
        {
            "Name": "tempdb",
            "CreateTime": 1601498566.0,
            "CreateTableDefaultPermissions": [
                {
                    "Principal": {
                        "DataLakePrincipalIdentifier": "IAM_ALLOWED_PRINCIPALS"
                    },
                    "Permissions": [
                        "ALL"
                    ]
                }
            ],
            "CatalogId": "111122223333"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendefinisikan Database di Katalog Data Anda](https://docs.aws.amazon.com/glue/latest/dg/define-database.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [GetDatabases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/get-databases.html)di *Referensi AWS CLI Perintah*. 

### `get-job-run`
<a name="glue_GetJobRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-job-run`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang menjalankan pekerjaan**  
`get-job-run`Contoh berikut mengambil informasi tentang menjalankan pekerjaan.  

```
aws glue get-job-run \
    --job-name "Combine legistators data" \
    --run-id jr_012e176506505074d94d761755e5c62538ee1aad6f17d39f527e9140cf0c9a5e
```
Output:  

```
{
    "JobRun": {
        "Id": "jr_012e176506505074d94d761755e5c62538ee1aad6f17d39f527e9140cf0c9a5e",
        "Attempt": 0,
        "JobName": "Combine legistators data",
        "StartedOn": 1602873931.255,
        "LastModifiedOn": 1602874075.985,
        "CompletedOn": 1602874075.985,
        "JobRunState": "SUCCEEDED",
        "Arguments": {
            "--enable-continuous-cloudwatch-log": "true",
            "--enable-metrics": "",
            "--enable-spark-ui": "true",
            "--job-bookmark-option": "job-bookmark-enable",
            "--spark-event-logs-path": "s3://aws-glue-assets-111122223333-us-east-1/sparkHistoryLogs/"
        },
        "PredecessorRuns": [],
        "AllocatedCapacity": 10,
        "ExecutionTime": 117,
        "Timeout": 2880,
        "MaxCapacity": 10.0,
        "WorkerType": "G.1X",
        "NumberOfWorkers": 10,
        "LogGroupName": "/aws-glue/jobs",
        "GlueVersion": "2.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Job Runs](https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-jobs-runs.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [GetJobRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/get-job-run.html)di *Referensi AWS CLI Perintah*. 

### `get-job-runs`
<a name="glue_GetJobRuns_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-job-runs`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua pekerjaan yang dijalankan untuk suatu pekerjaan**  
`get-job-runs`Contoh berikut mengambil informasi tentang pekerjaan berjalan untuk suatu pekerjaan.  

```
aws glue get-job-runs \
    --job-name "my-testing-job"
```
Output:  

```
{
    "JobRuns": [
        {
            "Id": "jr_012e176506505074d94d761755e5c62538ee1aad6f17d39f527e9140cf0c9a5e",
            "Attempt": 0,
            "JobName": "my-testing-job",
            "StartedOn": 1602873931.255,
            "LastModifiedOn": 1602874075.985,
            "CompletedOn": 1602874075.985,
            "JobRunState": "SUCCEEDED",
            "Arguments": {
                "--enable-continuous-cloudwatch-log": "true",
                "--enable-metrics": "",
                "--enable-spark-ui": "true",
                "--job-bookmark-option": "job-bookmark-enable",
                "--spark-event-logs-path": "s3://aws-glue-assets-111122223333-us-east-1/sparkHistoryLogs/"
            },
            "PredecessorRuns": [],
            "AllocatedCapacity": 10,
            "ExecutionTime": 117,
            "Timeout": 2880,
            "MaxCapacity": 10.0,
            "WorkerType": "G.1X",
            "NumberOfWorkers": 10,
            "LogGroupName": "/aws-glue/jobs",
            "GlueVersion": "2.0"
        },
        {
            "Id": "jr_03cc19ddab11c4e244d3f735567de74ff93b0b3ef468a713ffe73e53d1aec08f_attempt_2",
            "Attempt": 2,
            "PreviousRunId": "jr_03cc19ddab11c4e244d3f735567de74ff93b0b3ef468a713ffe73e53d1aec08f_attempt_1",
            "JobName": "my-testing-job",
            "StartedOn": 1602811168.496,
            "LastModifiedOn": 1602811282.39,
            "CompletedOn": 1602811282.39,
            "JobRunState": "FAILED",
            "ErrorMessage": "An error occurred while calling o122.pyWriteDynamicFrame.
                Access Denied (Service: Amazon S3; Status Code: 403; Error Code: AccessDenied;
                Request ID: 021AAB703DB20A2D;
                S3 Extended Request ID: teZk24Y09TkXzBvMPG502L5VJBhe9DJuWA9/TXtuGOqfByajkfL/Tlqt5JBGdEGpigAqzdMDM/U=)",
            "PredecessorRuns": [],
            "AllocatedCapacity": 10,
            "ExecutionTime": 110,
            "Timeout": 2880,
            "MaxCapacity": 10.0,
            "WorkerType": "G.1X",
            "NumberOfWorkers": 10,
            "LogGroupName": "/aws-glue/jobs",
            "GlueVersion": "2.0"
        },
        {
            "Id": "jr_03cc19ddab11c4e244d3f735567de74ff93b0b3ef468a713ffe73e53d1aec08f_attempt_1",
            "Attempt": 1,
            "PreviousRunId": "jr_03cc19ddab11c4e244d3f735567de74ff93b0b3ef468a713ffe73e53d1aec08f",
            "JobName": "my-testing-job",
            "StartedOn": 1602811020.518,
            "LastModifiedOn": 1602811138.364,
            "CompletedOn": 1602811138.364,
            "JobRunState": "FAILED",
            "ErrorMessage": "An error occurred while calling o122.pyWriteDynamicFrame.
                 Access Denied (Service: Amazon S3; Status Code: 403; Error Code: AccessDenied;
                 Request ID: 2671D37856AE7ABB;
                 S3 Extended Request ID: RLJCJw20brV+PpC6GpORahyF2fp9flB5SSb2bTGPnUSPVizLXRl1PN3QZldb+v1o9qRVktNYbW8=)",
            "PredecessorRuns": [],
            "AllocatedCapacity": 10,
            "ExecutionTime": 113,
            "Timeout": 2880,
            "MaxCapacity": 10.0,
            "WorkerType": "G.1X",
            "NumberOfWorkers": 10,
            "LogGroupName": "/aws-glue/jobs",
            "GlueVersion": "2.0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Job Runs](https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-jobs-runs.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [GetJobRuns](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/get-job-runs.html)di *Referensi AWS CLI Perintah*. 

### `get-job`
<a name="glue_GetJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-job`.

**AWS CLI**  
**Untuk mengambil informasi tentang pekerjaan**  
`get-job`Contoh berikut mengambil informasi tentang pekerjaan.  

```
aws glue get-job \
    --job-name my-testing-job
```
Output:  

```
{
    "Job": {
        "Name": "my-testing-job",
        "Role": "Glue_DefaultRole",
        "CreatedOn": 1602805698.167,
        "LastModifiedOn": 1602805698.167,
        "ExecutionProperty": {
            "MaxConcurrentRuns": 1
        },
        "Command": {
            "Name": "gluestreaming",
            "ScriptLocation": "s3://janetst-bucket-01/Scripts/test_script.scala",
            "PythonVersion": "2"
        },
        "DefaultArguments": {
            "--class": "GlueApp",
            "--job-language": "scala"
        },
        "MaxRetries": 0,
        "AllocatedCapacity": 10,
        "MaxCapacity": 10.0,
        "GlueVersion": "1.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Pekerjaan](https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-jobs-job.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [GetJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/get-job.html)di *Referensi AWS CLI Perintah*. 

### `get-plan`
<a name="glue_GetPlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-plan`.

**AWS CLI**  
**Untuk mendapatkan kode yang dihasilkan untuk memetakan data dari tabel sumber ke tabel target**  
Berikut ini `get-plan` mengambil kode yang dihasilkan untuk memetakan kolom dari sumber data ke target data.  

```
aws glue get-plan --mapping '[ \
    { \
        "SourcePath":"sensorid", \
        "SourceTable":"anything", \
        "SourceType":"int", \
        "TargetPath":"sensorid", \
        "TargetTable":"anything", \
        "TargetType":"int" \
    }, \
    { \
        "SourcePath":"currenttemperature", \
        "SourceTable":"anything", \
        "SourceType":"int", \
        "TargetPath":"currenttemperature", \
        "TargetTable":"anything", \
        "TargetType":"int" \
    }, \
    { \
        "SourcePath":"status", \
        "SourceTable":"anything", \
        "SourceType":"string", \
        "TargetPath":"status", \
        "TargetTable":"anything", \
        "TargetType":"string" \
    }]' \
    --source '{ \
        "DatabaseName":"tempdb", \
        "TableName":"s3-source" \
    }' \
    --sinks '[ \
        { \
            "DatabaseName":"tempdb", \
            "TableName":"my-s3-sink" \
        }]'
    --language "scala"
    --endpoint https://glue.us-east-1.amazonaws.com
    --output "text"
```
Output:  

```
import com.amazonaws.services.glue.ChoiceOption
import com.amazonaws.services.glue.GlueContext
import com.amazonaws.services.glue.MappingSpec
import com.amazonaws.services.glue.ResolveSpec
import com.amazonaws.services.glue.errors.CallSite
import com.amazonaws.services.glue.util.GlueArgParser
import com.amazonaws.services.glue.util.Job
import com.amazonaws.services.glue.util.JsonOptions
import org.apache.spark.SparkContext
import scala.collection.JavaConverters._

object GlueApp {
  def main(sysArgs: Array[String]) {
    val spark: SparkContext = new SparkContext()
    val glueContext: GlueContext = new GlueContext(spark)
    // @params: [JOB_NAME]
    val args = GlueArgParser.getResolvedOptions(sysArgs, Seq("JOB_NAME").toArray)
    Job.init(args("JOB_NAME"), glueContext, args.asJava)
    // @type: DataSource
    // @args: [database = "tempdb", table_name = "s3-source", transformation_ctx = "datasource0"]
    // @return: datasource0
    // @inputs: []
    val datasource0 = glueContext.getCatalogSource(database = "tempdb", tableName = "s3-source", redshiftTmpDir = "", transformationContext = "datasource0").getDynamicFrame()
    // @type: ApplyMapping
    // @args: [mapping = [("sensorid", "int", "sensorid", "int"), ("currenttemperature", "int", "currenttemperature", "int"), ("status", "string", "status", "string")], transformation_ctx = "applymapping1"]
    // @return: applymapping1
    // @inputs: [frame = datasource0]
    val applymapping1 = datasource0.applyMapping(mappings = Seq(("sensorid", "int", "sensorid", "int"), ("currenttemperature", "int", "currenttemperature", "int"), ("status", "string", "status", "string")), caseSensitive = false, transformationContext = "applymapping1")
    // @type: SelectFields
    // @args: [paths = ["sensorid", "currenttemperature", "status"], transformation_ctx = "selectfields2"]
    // @return: selectfields2
    // @inputs: [frame = applymapping1]
    val selectfields2 = applymapping1.selectFields(paths = Seq("sensorid", "currenttemperature", "status"), transformationContext = "selectfields2")
    // @type: ResolveChoice
    // @args: [choice = "MATCH_CATALOG", database = "tempdb", table_name = "my-s3-sink", transformation_ctx = "resolvechoice3"]
    // @return: resolvechoice3
    // @inputs: [frame = selectfields2]
    val resolvechoice3 = selectfields2.resolveChoice(choiceOption = Some(ChoiceOption("MATCH_CATALOG")), database = Some("tempdb"), tableName = Some("my-s3-sink"), transformationContext = "resolvechoice3")
    // @type: DataSink
    // @args: [database = "tempdb", table_name = "my-s3-sink", transformation_ctx = "datasink4"]
    // @return: datasink4
    // @inputs: [frame = resolvechoice3]
    val datasink4 = glueContext.getCatalogSink(database = "tempdb", tableName = "my-s3-sink", redshiftTmpDir = "", transformationContext = "datasink4").writeDynamicFrame(resolvechoice3)
    Job.commit()
  }
}
```
Untuk informasi selengkapnya, lihat [Mengedit Skrip di AWS Glue](https://docs.aws.amazon.com/glue/latest/dg/edit-script.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [GetPlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/get-plan.html)di *Referensi AWS CLI Perintah*. 

### `get-tables`
<a name="glue_GetTables_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-tables`.

**AWS CLI**  
**Untuk daftar definisi dari beberapa atau semua tabel dalam database yang ditentukan**  
`get-tables`Contoh berikut mengembalikan informasi tentang tabel dalam database tertentu.  

```
aws glue get-tables --database-name 'tempdb'
```
Output:  

```
{
    "TableList": [
        {
            "Name": "my-s3-sink",
            "DatabaseName": "tempdb",
            "CreateTime": 1602730539.0,
            "UpdateTime": 1602730539.0,
            "Retention": 0,
            "StorageDescriptor": {
                "Columns": [
                    {
                        "Name": "sensorid",
                        "Type": "int"
                    },
                    {
                        "Name": "currenttemperature",
                        "Type": "int"
                    },
                    {
                        "Name": "status",
                        "Type": "string"
                    }
                ],
                "Location": "s3://janetst-bucket-01/test-s3-output/",
                "Compressed": false,
                "NumberOfBuckets": 0,
                "SerdeInfo": {
                    "SerializationLibrary": "org.openx.data.jsonserde.JsonSerDe"
                },
                "SortColumns": [],
                "StoredAsSubDirectories": false
            },
            "Parameters": {
                "classification": "json"
            },
            "CreatedBy": "arn:aws:iam::007436865787:user/JRSTERN",
            "IsRegisteredWithLakeFormation": false,
            "CatalogId": "007436865787"
        },
        {
            "Name": "s3-source",
            "DatabaseName": "tempdb",
            "CreateTime": 1602730658.0,
            "UpdateTime": 1602730658.0,
            "Retention": 0,
            "StorageDescriptor": {
                "Columns": [
                    {
                        "Name": "sensorid",
                        "Type": "int"
                    },
                    {
                        "Name": "currenttemperature",
                        "Type": "int"
                    },
                    {
                        "Name": "status",
                        "Type": "string"
                    }
                ],
                "Location": "s3://janetst-bucket-01/",
                "Compressed": false,
                "NumberOfBuckets": 0,
                "SortColumns": [],
                "StoredAsSubDirectories": false
            },
            "Parameters": {
                "classification": "json"
            },
            "CreatedBy": "arn:aws:iam::007436865787:user/JRSTERN",
            "IsRegisteredWithLakeFormation": false,
            "CatalogId": "007436865787"
        },
        {
            "Name": "test-kinesis-input",
            "DatabaseName": "tempdb",
            "CreateTime": 1601507001.0,
            "UpdateTime": 1601507001.0,
            "Retention": 0,
            "StorageDescriptor": {
                "Columns": [
                    {
                        "Name": "sensorid",
                        "Type": "int"
                    },
                    {
                        "Name": "currenttemperature",
                        "Type": "int"
                    },
                    {
                        "Name": "status",
                        "Type": "string"
                    }
                ],
                "Location": "my-testing-stream",
                "Compressed": false,
                "NumberOfBuckets": 0,
                "SerdeInfo": {
                    "SerializationLibrary": "org.openx.data.jsonserde.JsonSerDe"
                },
                "SortColumns": [],
                "Parameters": {
                    "kinesisUrl": "https://kinesis.us-east-1.amazonaws.com",
                    "streamName": "my-testing-stream",
                    "typeOfData": "kinesis"
                },
                "StoredAsSubDirectories": false
            },
            "Parameters": {
                "classification": "json"
            },
            "CreatedBy": "arn:aws:iam::007436865787:user/JRSTERN",
            "IsRegisteredWithLakeFormation": false,
            "CatalogId": "007436865787"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendefinisikan Tabel di Katalog Data AWS Glue](https://docs.aws.amazon.com/glue/latest/dg/tables-described.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [GetTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/get-tables.html)di *Referensi AWS CLI Perintah*. 

### `start-crawler`
<a name="glue_StartCrawler_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-crawler`.

**AWS CLI**  
**Untuk memulai crawler**  
`start-crawler`Contoh berikut memulai crawler.  

```
aws glue start-crawler --name my-crawler
```
Output:  

```
None
```
Untuk informasi selengkapnya, lihat [Mendefinisikan Crawler di Panduan](https://docs.aws.amazon.com/glue/latest/dg/add-crawler.html) *Pengembang AWS Glue*.  
+  Untuk detail API, lihat [StartCrawler](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/start-crawler.html)di *Referensi AWS CLI Perintah*. 

### `start-job-run`
<a name="glue_StartJobRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-job-run`.

**AWS CLI**  
**Untuk mulai menjalankan pekerjaan**  
`start-job-run`Contoh berikut memulai pekerjaan.  

```
aws glue start-job-run \
    --job-name my-job
```
Output:  

```
{
    "JobRunId": "jr_22208b1f44eb5376a60569d4b21dd20fcb8621e1a366b4e7b2494af764b82ded"
}
```
Untuk informasi selengkapnya, lihat [Menulis Pekerjaan](https://docs.aws.amazon.com/glue/latest/dg/author-job.html) di *Panduan Pengembang AWS Glue*.  
+  Untuk detail API, lihat [StartJobRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/glue/start-job-run.html)di *Referensi AWS CLI Perintah*. 

# GuardDuty contoh menggunakan AWS CLI
<a name="cli_2_guardduty_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with GuardDuty.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-invitation`
<a name="guardduty_AcceptInvitation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-invitation`.

**AWS CLI**  
**Untuk menerima undangan untuk menjadi akun GuardDuty anggota di wilayah saat ini**  
`accept-invitation`Contoh berikut menunjukkan cara menerima undangan untuk menjadi akun GuardDuty anggota di wilayah saat ini.  

```
aws guardduty accept-invitation  \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --master-id 123456789111 \
    --invitation-id d6b94fb03a66ff665f7db8764example
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola GuardDuty akun berdasarkan undangan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_invitations.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [AcceptInvitation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/accept-invitation.html)di *Referensi AWS CLI Perintah*. 

### `archive-findings`
<a name="guardduty_ArchiveFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`archive-findings`.

**AWS CLI**  
**Untuk mengarsipkan temuan di wilayah saat ini**  
`archive-findings`Contoh ini menunjukkan cara mengarsipkan temuan di wilayah saat ini.  

```
aws guardduty archive-findings \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --finding-ids d6b94fb03a66ff665f7db8764example 3eb970e0de00c16ec14e6910fexample
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat aturan penindasan](https://docs.aws.amazon.com/guardduty/latest/ug/findings_suppression-rules-console.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [ArchiveFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/archive-findings.html)di *Referensi AWS CLI Perintah*. 

### `create-detector`
<a name="guardduty_CreateDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-detector`.

**AWS CLI**  
**Untuk mengaktifkan GuardDuty di wilayah saat ini**  
Contoh ini menunjukkan cara membuat detektor baru, yang memungkinkan GuardDuty, di wilayah saat ini. :  

```
aws guardduty create-detector \
    --enable
```
Output:  

```
{
    "DetectorId": "b6b992d6d2f48e64bc59180bfexample"
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Amazon GuardDuty](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_settingup.html#guardduty_enable-gd) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [CreateDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/create-detector.html)di *Referensi AWS CLI Perintah*. 

### `create-filter`
<a name="guardduty_CreateFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-filter`.

**AWS CLI**  
**Contoh 1: Untuk membuat filter baru di wilayah saat ini**  
`create-filter`Contoh berikut membuat filter yang cocok dengan semua temuan Portscan misalnya dibuat dari gambar tertentu. Ini tidak menekan temuan tersebut.  

```
aws guardduty create-filter \
    --detector-id b6b992d6d2f48e64bc59180bfexample \
    --name myFilterExample \
    --finding-criteria '{"Criterion": {"type": {"Eq": ["Recon:EC2/Portscan"]},"resource.instanceDetails.imageId": {"Eq": ["ami-0a7a207083example"]}}}'
```
Output:  

```
{
    "Name": "myFilterExample"
}
```
Untuk informasi selengkapnya, lihat [Memfilter GuardDuty temuan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_filter-findings.html) di *Panduan GuardDuty Pengguna*.  
**Contoh 2: Untuk membuat filter baru dan menekan temuan di wilayah saat ini**  
`create-filter`Contoh berikut membuat filter yang cocok dengan semua temuan Portscan misalnya dibuat dari gambar tertentu. Filter ini mengarsipkan temuan tersebut sehingga tidak muncul dalam temuan Anda saat ini.  

```
aws guardduty create-filter \
    --detector-id b6b992d6d2f48e64bc59180bfexample \
    --action ARCHIVE \
    --name myFilterSecondExample \
    --finding-criteria '{"Criterion": {"type": {"Eq": ["Recon:EC2/Portscan"]},"resource.instanceDetails.imageId": {"Eq": ["ami-0a7a207083example"]}}}'
```
Output:  

```
{
    "Name": "myFilterSecondExample"
}
```
Untuk informasi selengkapnya, lihat [Memfilter GuardDuty temuan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_filter-findings.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [CreateFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/create-filter.html)di *Referensi AWS CLI Perintah*. 

### `create-ip-set`
<a name="guardduty_CreateIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ip-set`.

**AWS CLI**  
**Untuk membuat dan mengaktifkan set IP tepercaya**  
`create-ip-set`Contoh berikut membuat dan mengaktifkan set IP tepercaya di Wilayah saat ini.  

```
aws guardduty create-ip-set \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --name new-ip-set-example \
    --format TXT \
    --location s3://amzn-s3-demo-bucket/customtrustlist.csv \
    --activate
```
Output:  

```
{
    "IpSetId": "d4b94fc952d6912b8f3060768example"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Daftar IP Tepercaya dan Daftar Ancaman](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_upload_lists.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [CreateIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/create-ip-set.html)di *Referensi AWS CLI Perintah*. 

### `create-members`
<a name="guardduty_CreateMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-members`.

**AWS CLI**  
**Untuk mengaitkan anggota baru dengan akun GuardDuty master Anda di wilayah saat ini.**  
Contoh ini menunjukkan cara mengaitkan akun anggota yang akan dikelola oleh akun saat ini sebagai GuardDuty master.  

```
aws guardduty create-members
    --detector-id b6b992d6d2f48e64bc59180bfexample \
    --account-details AccountId=111122223333,Email=first+member@example.com AccountId=111111111111 ,Email=another+member@example.com
```
Output:  

```
{
   "UnprocessedAccounts": []
}
```
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_accounts.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [CreateMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/create-members.html)di *Referensi AWS CLI Perintah*. 

### `create-publishing-destination`
<a name="guardduty_CreatePublishingDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-publishing-destination`.

**AWS CLI**  
**Untuk membuat tujuan penerbitan untuk mengekspor GuardDuty temuan di wilayah saat ini ke.**  
`create-publishing-destination`Contoh berikut menunjukkan cara mengatur tujuan penerbitan untuk mengekspor GuardDuty temuan saat ini (tidak diarsipkan) untuk melacak data temuan historis.  

```
aws guardduty create-publishing-destination \
    --detector-id b6b992d6d2f48e64bc59180bfexample \
    --destination-type S3 \
    --destination-properties 'DestinationArn=arn:aws:s3:::amzn-s3-demo-bucket,KmsKeyArn=arn:aws:kms:us-west-1:111122223333:key/84cee9c5-dea1-401a-ab6d-e1de7example'
```
Output:  

```
{
    "DestinationId": "46b99823849e1bbc242dfbe3cexample"
}
```
*Untuk informasi selengkapnya, lihat [Mengekspor GuardDuty temuan yang dihasilkan ke bucket Amazon S3](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_exportfindings.html) di GuardDuty Panduan Pengguna.*  
+  Untuk detail API, lihat [CreatePublishingDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/create-publishing-destination.html)di *Referensi AWS CLI Perintah*. 

### `create-sample-findings`
<a name="guardduty_CreateSampleFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-sample-findings`.

**AWS CLI**  
**Untuk membuat GuardDuty temuan sampel di wilayah saat ini.**  
Contoh ini menunjukkan cara membuat temuan sampel dari jenis yang disediakan.  

```
aws guardduty create-sample-findings \
    --detector-id b6b992d6d2f48e64bc59180bfexample \
    --finding-types UnauthorizedAccess:EC2/TorClient UnauthorizedAccess:EC2/TorRelay
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Contoh temuan](https://docs.aws.amazon.com/guardduty/latest/ug/sample_findings.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [CreateSampleFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/create-sample-findings.html)di *Referensi AWS CLI Perintah*. 

### `create-threat-intel-set`
<a name="guardduty_CreateThreatIntelSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-threat-intel-set`.

**AWS CLI**  
**Untuk membuat dan mengaktifkan set intel ancaman baru**  
`create-threat-intel-set`Contoh berikut membuat dan mengaktifkan intel ancaman yang ditetapkan di Wilayah saat ini.  

```
aws guardduty create-threat-intel-set \
    --detector-id b6b992d6d2f48e64bc59180bfexample \
    --name myThreatSet-example \
    --format TXT \
    --location s3://amzn-s3-demo-bucket/threatlist.csv \
    --activate
```
Output:  

```
{
    "ThreatIntelSetId": "20b9a4691aeb33506b808878cexample"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Daftar IP Tepercaya dan Daftar Ancaman](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_upload_lists.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [CreateThreatIntelSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/create-threat-intel-set.html)di *Referensi AWS CLI Perintah*. 

### `decline-invitations`
<a name="guardduty_DeclineInvitations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decline-invitations`.

**AWS CLI**  
**Untuk menolak undangan agar Guardduty dikelola oleh akun lain di wilayah saat ini.**  
Contoh ini menunjukkan cara menolak undangan keanggotaan.  

```
aws guardduty decline-invitations \
    --account-ids 111122223333
```
Output:  

```
{
    "UnprocessedAccounts": []
}
```
Untuk informasi selengkapnya, lihat [Mengelola GuardDuty akun berdasarkan undangan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_invitations.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [DeclineInvitations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/decline-invitations.html)di *Referensi AWS CLI Perintah*. 

### `delete-detector`
<a name="guardduty_DeleteDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-detector`.

**AWS CLI**  
**Untuk menghapus detektor, dan menonaktifkan GuardDuty, di wilayah saat ini.**  
Contoh ini menunjukkan cara menghapus detektor, jika berhasil, ini akan menonaktifkan GuardDuty di wilayah yang terkait dengan detektor itu.  

```
aws guardduty delete-detector \
    --detector-id b6b992d6d2f48e64bc59180bfexample
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menangguhkan atau menonaktifkan GuardDuty di Panduan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_suspend-disable.html) Pengguna. GuardDuty *  
+  Untuk detail API, lihat [DeleteDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/delete-detector.html)di *Referensi AWS CLI Perintah*. 

### `delete-filter`
<a name="guardduty_DeleteFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-filter`.

**AWS CLI**  
**Untuk menghapus filter yang ada di wilayah saat ini**  
Contoh ini menunjukkan cara membuat menghapus filter.  

```
aws guardduty delete-filter \
    --detector-id b6b992d6d2f48e64bc59180bfexample \
    --filter-name byebyeFilter
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memfilter temuan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_filter-findings.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [DeleteFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/delete-filter.html)di *Referensi AWS CLI Perintah*. 

### `disable-organization-admin-account`
<a name="guardduty_DisableOrganizationAdminAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-organization-admin-account`.

**AWS CLI**  
**Untuk menghapus akun sebagai administrator yang didelegasikan untuk GuardDuty dalam organisasi Anda**  
Contoh ini menunjukkan cara menghapus akun sebagai administrator yang didelegasikan untuk GuardDuty.  

```
aws guardduty disable-organization-admin-account \
    --admin-account-id 111122223333
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola akun dengan AWS organisasi](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_organizations.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [DisableOrganizationAdminAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/disable-organization-admin-account.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-from-master-account`
<a name="guardduty_DisassociateFromMasterAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-from-master-account`.

**AWS CLI**  
**Untuk memisahkan diri dari akun administrator Anda saat ini di wilayah saat ini**  
`disassociate-from-master-account`Contoh berikut memisahkan akun Anda dari akun GuardDuty administrator saat ini di wilayah saat ini AWS .  

```
aws guardduty disassociate-from-master-account \
    --detector-id d4b040365221be2b54a6264dcexample
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memahami hubungan antara akun GuardDuty administrator dan akun anggota](https://docs.aws.amazon.com/guardduty/latest/ug/administrator_member_relationships.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [DisassociateFromMasterAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/disassociate-from-master-account.html)di *Referensi AWS CLI Perintah*. 

### `get-detector`
<a name="guardduty_GetDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-detector`.

**AWS CLI**  
**Untuk mengambil detail detektor tertentu**  
`get-detector`Contoh berikut menampilkan rincian konfigurasi detektor yang ditentukan.  

```
aws guardduty get-detector \
    --detector-id 12abc34d567e8fa901bc2d34eexample
```
Output:  

```
{
    "Status": "ENABLED",
    "ServiceRole": "arn:aws:iam::111122223333:role/aws-service-role/guardduty.amazonaws.com/AWSServiceRoleForAmazonGuardDuty",
    "Tags": {},
    "FindingPublishingFrequency": "SIX_HOURS",
    "UpdatedAt": "2018-11-07T03:24:22.938Z",
    "CreatedAt": "2017-12-22T22:51:31.940Z"
}
```
Untuk informasi selengkapnya, lihat [Konsep dan Terminologi](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_concepts.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [GetDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/get-detector.html)di *Referensi AWS CLI Perintah*. 

### `get-findings`
<a name="guardduty_GetFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-findings`.

**AWS CLI**  
**Contoh 1: Untuk mengambil rincian temuan tertentu**  
`get-findings`Contoh berikut mengambil rincian temuan JSON lengkap dari temuan yang ditentukan.  

```
aws guardduty get-findings \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --finding-id 1ab92989eaf0e742df4a014d5example
```
Output:  

```
{
    "Findings": [
        {
            "Resource": {
                "ResourceType": "AccessKey",
                "AccessKeyDetails": {
                    "UserName": "testuser",
                    "UserType": "IAMUser",
                    "PrincipalId": "AIDACKCEVSQ6C2EXAMPLE",
                    "AccessKeyId": "ASIASZ4SI7REEEXAMPLE"
                }
            },
            "Description": "APIs commonly used to discover the users, groups, policies and permissions in an account, was invoked by IAM principal testuser under unusual circumstances. Such activity is not typically seen from this principal.",
            "Service": {
                "Count": 5,
                "Archived": false,
                "ServiceName": "guardduty",
                "EventFirstSeen": "2020-05-26T22:02:24Z",
                "ResourceRole": "TARGET",
                "EventLastSeen": "2020-05-26T22:33:55Z",
                "DetectorId": "d4b040365221be2b54a6264dcexample",
                "Action": {
                    "ActionType": "AWS_API_CALL",
                    "AwsApiCallAction": {
                        "RemoteIpDetails": {
                            "GeoLocation": {
                                "Lat": 51.5164,
                                "Lon": -0.093
                            },
                            "City": {
                                "CityName": "London"
                            },
                            "IpAddressV4": "52.94.36.7",
                            "Organization": {
                                "Org": "Amazon.com",
                                "Isp": "Amazon.com",
                                "Asn": "16509",
                                "AsnOrg": "AMAZON-02"
                            },
                            "Country": {
                                "CountryName": "United Kingdom"
                            }
                        },
                        "Api": "ListPolicyVersions",
                        "ServiceName": "iam.amazonaws.com",
                        "CallerType": "Remote IP"
                    }
                }
            },
            "Title": "Unusual user permission reconnaissance activity by testuser.",
            "Type": "Recon:IAMUser/UserPermissions",
            "Region": "us-east-1",
            "Partition": "aws",
            "Arn": "arn:aws:guardduty:us-east-1:111122223333:detector/d4b040365221be2b54a6264dcexample/finding/1ab92989eaf0e742df4a014d5example",
            "UpdatedAt": "2020-05-26T22:55:21.703Z",
            "SchemaVersion": "2.0",
            "Severity": 5,
            "Id": "1ab92989eaf0e742df4a014d5example",
            "CreatedAt": "2020-05-26T22:21:48.385Z",
            "AccountId": "111122223333"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Temuan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_findings.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [GetFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/get-findings.html)di *Referensi AWS CLI Perintah*. 

### `get-ip-set`
<a name="guardduty_GetIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ip-set`.

**AWS CLI**  
**Untuk daftar, dapatkan detail pada set IP tepercaya yang ditentukan**  
`get-ip-set`Contoh berikut menunjukkan status dan rincian set IP tepercaya yang ditentukan.  

```
aws guardduty get-ip-set \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --ip-set-id d4b94fc952d6912b8f3060768example
```
Output:  

```
{
    "Status": "ACTIVE",
    "Location": "s3://amzn-s3-demo-bucket.s3-us-west-2.amazonaws.com/customlist.csv",
    "Tags": {},
    "Format": "TXT",
    "Name": "test-ip-set-example"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Daftar IP Tepercaya dan Daftar Ancaman](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_upload_lists.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [GetIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/get-ip-set.html)di *Referensi AWS CLI Perintah*. 

### `get-master-account`
<a name="guardduty_GetMasterAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-master-account`.

**AWS CLI**  
**Untuk mengambil detail tentang akun master Anda di wilayah saat ini**  
`get-master-account`Contoh berikut menampilkan status dan detail akun master yang terkait dengan detektor Anda di wilayah saat ini.  

```
aws guardduty get-master-account \
    --detector-id 12abc34d567e8fa901bc2d34eexample
```
Output:  

```
{
    "Master": {
        "InvitationId": "04b94d9704854a73f94e061e8example",
        "InvitedAt": "2020-06-09T22:23:04.970Z",
        "RelationshipStatus": "Enabled",
        "AccountId": "111122223333"
    }
}
```
Untuk informasi selengkapnya, lihat [Memahami hubungan antara akun GuardDuty administrator dan akun anggota](https://docs.aws.amazon.com/guardduty/latest/ug/administrator_member_relationships.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [GetMasterAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/get-master-account.html)di *Referensi AWS CLI Perintah*. 

### `list-detectors`
<a name="guardduty_ListDetectors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-detectors`.

**AWS CLI**  
**Untuk membuat daftar detektor yang tersedia di wilayah saat ini**  
`list-detectors`Contoh berikut mencantumkan detektor yang tersedia di AWS wilayah Anda saat ini.  

```
aws guardduty list-detectors
```
Output:  

```
{
    "DetectorIds": [
        "12abc34d567e8fa901bc2d34eexample"
    ]
}
```
Untuk informasi selengkapnya, lihat [Konsep dan Terminologi](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_concepts.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [ListDetectors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/list-detectors.html)di *Referensi AWS CLI Perintah*. 

### `list-findings`
<a name="guardduty_ListFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-findings`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar semua temuan untuk wilayah saat ini**  
`list-findings`Contoh berikut menampilkan daftar semua FindingIds untuk wilayah saat ini diurutkan berdasarkan tingkat keparahan dari tertinggi ke terendah.  

```
aws guardduty list-findings \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --sort-criteria '{"AttributeName": "severity","OrderBy":"DESC"}'
```
Output:  

```
{
    "FindingIds": [
        "04b8ab50fd29c64fc771b232dexample",
        "5ab8ab50fd21373735c826d3aexample",
        "90b93de7aba69107f05bbe60bexample",
        ...
    ]
}
```
Untuk informasi selengkapnya, lihat [Temuan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_findings.html) di Panduan GuardDuty Pengguna.  
**Contoh 2: Untuk membuat daftar temuan untuk wilayah saat ini yang cocok dengan kriteria temuan tertentu**  
`list-findings`Contoh berikut menampilkan daftar semua FindingIds yang cocok dengan jenis temuan tertentu.  

```
aws guardduty list-findings \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --finding-criteria  '{"Criterion":{"type": {"Eq":["UnauthorizedAccess:EC2/SSHBruteForce"]}}}'
```
Output:  

```
{
    "FindingIds": [
        "90b93de7aba69107f05bbe60bexample",
        "6eb9430d7023d30774d6f05e3example",
        "2eb91a2d060ac9a21963a5848example",
        "44b8ab50fd2b0039a9e48f570example",
        "9eb8ab4cd2b7e5b66ba4f5e96example",
        "e0b8ab3a38e9b0312cc390ceeexample"
    ]
}
```
Untuk informasi selengkapnya, lihat [Temuan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_findings.html) di Panduan GuardDuty Pengguna.  
**Contoh 3: Untuk membuat daftar temuan untuk wilayah saat ini yang cocok dengan serangkaian kriteria temuan tertentu yang ditentukan dalam file JSON**  
`list-findings`Contoh berikut menampilkan daftar semua FindingIds yang tidak diarsipkan, dan melibatkan pengguna IAM bernama “testuser”, seperti yang ditentukan dalam file JSON.  

```
aws guardduty list-findings \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --finding-criteria  file://myfile.json
```
Isi dari `myfile.json`:  

```
{"Criterion": {
    "resource.accessKeyDetails.userName":{
                "Eq":[
                    "testuser"
                    ]
                },
    "service.archived": {
                "Eq": [
                    "false"
                ]
            }
        }
}
```
Output:  

```
{
    "FindingIds": [
        "1ab92989eaf0e742df4a014d5example"
    ]
}
```
Untuk informasi selengkapnya, lihat [Temuan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_findings.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [ListFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/list-findings.html)di *Referensi AWS CLI Perintah*. 

### `list-invitations`
<a name="guardduty_ListInvitations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-invitations`.

**AWS CLI**  
**Untuk mencantumkan detail undangan Anda untuk menjadi akun anggota di wilayah saat ini**  
`list-invitations`Contoh berikut mencantumkan detail dan status undangan Anda untuk menjadi akun GuardDuty anggota di wilayah saat ini.  

```
aws guardduty list-invitations
```
Output:  

```
{
    "Invitations": [
        {
            "InvitationId": "d6b94fb03a66ff665f7db8764example",
            "InvitedAt": "2020-06-10T17:56:38.221Z",
            "RelationshipStatus": "Invited",
            "AccountId": "123456789111"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola GuardDuty Akun berdasarkan Undangan](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_invitations.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [ListInvitations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/list-invitations.html)di *Referensi AWS CLI Perintah*. 

### `list-ip-sets`
<a name="guardduty_ListIpSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-ip-sets`.

**AWS CLI**  
**Untuk daftar set IP tepercaya di wilayah saat ini**  
`list-ip-sets`Contoh berikut mencantumkan set IP tepercaya di AWS wilayah Anda saat ini.  

```
aws guardduty list-ip-sets \
    --detector-id 12abc34d567e8fa901bc2d34eexample
```
Output:  

```
{
    "IpSetIds": [
        "d4b94fc952d6912b8f3060768example"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Daftar IP Tepercaya dan Daftar Ancaman](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_upload_lists.html) di Panduan GuardDuty Pengguna.  
+  Untuk detail API, lihat [ListIpSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/list-ip-sets.html)di *Referensi AWS CLI Perintah*. 

### `list-members`
<a name="guardduty_ListMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-members`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan hanya anggota saat ini di Wilayah saat ini**  
`list-members`Contoh berikut mencantumkan dan memberikan rincian hanya akun anggota saat ini yang terkait dengan akun GuardDuty administrator, di wilayah saat ini.  

```
aws guardduty list-members \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --only-associated="true"
```
Output:  

```
{
    "Members": [
        {
            "RelationshipStatus": "Enabled",
            "InvitedAt": "2020-06-09T22:49:00.910Z",
            "MasterId": "111122223333",
            "DetectorId": "7ab8b2f61b256c87f793f6a86example",
            "UpdatedAt": "2020-06-09T23:08:22.512Z",
            "Email": "your+member@example.com",
            "AccountId": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memahami hubungan antara akun GuardDuty administrator dan akun anggota](https://docs.aws.amazon.com/guardduty/latest/ug/administrator_member_relationships.html) di *Panduan GuardDuty Pengguna*.  
**Contoh 2: Untuk daftar semua anggota di Wilayah saat ini**  
`list-members`Contoh berikut mencantumkan dan memberikan rincian semua akun anggota, termasuk mereka yang telah dipisahkan atau belum menerima undangan dari GuardDuty administrator, di wilayah saat ini.  

```
aws guardduty list-members \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --only-associated="false"
```
Output:  

```
{
    "Members": [
        {
            "RelationshipStatus": "Enabled",
            "InvitedAt": "2020-06-09T22:49:00.910Z",
            "MasterId": "111122223333",
            "DetectorId": "7ab8b2f61b256c87f793f6a86example",
            "UpdatedAt": "2020-06-09T23:08:22.512Z",
            "Email": "your+other+member@example.com",
            "AccountId": "555555555555"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memahami hubungan antara akun GuardDuty administrator dan akun anggota](https://docs.aws.amazon.com/guardduty/latest/ug/administrator_member_relationships.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [ListMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/list-members.html)di *Referensi AWS CLI Perintah*. 

### `update-detector`
<a name="guardduty_UpdateDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-detector`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan pemantauan runtime di GuardDuty**  
`update-detector`Contoh berikut memungkinkan pemantauan runtime tanpa konfigurasi tambahan.  

```
aws guardduty update-detector \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --features 'Name=RUNTIME_MONITORING,Status=ENABLED'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, [lihat Pemantauan waktu proses](https://docs.aws.amazon.com/guardduty/latest/ug/runtime-monitoring.html) di *Panduan GuardDuty Pengguna*.  
**Contoh 2: Untuk mengaktifkan pemantauan runtime dengan konfigurasi tambahan**  
`update-detector`Contoh berikut memungkinkan pemantauan runtime dengan konfigurasi tambahan untuk EC2, ECS Fargate, dan EKS.  

```
aws guardduty update-detector \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --features 'Name=RUNTIME_MONITORING,Status=ENABLED,AdditionalConfiguration=[{Name=EC2_AGENT_MANAGEMENT,Status=ENABLED},{Name=ECS_FARGATE_AGENT_MANAGEMENT,Status=ENABLED},{Name=EKS_ADDON_MANAGEMENT,Status=ENABLED}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, [lihat Pemantauan waktu proses](https://docs.aws.amazon.com/guardduty/latest/ug/runtime-monitoring.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [UpdateDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/update-detector.html)di *Referensi AWS CLI Perintah*. 

### `update-ip-set`
<a name="guardduty_UpdateIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-ip-set`.

**AWS CLI**  
**Untuk memperbarui set IP tepercaya**  
`update-ip-set`Contoh berikut menunjukkan cara memperbarui detail set IP tepercaya.  

```
aws guardduty update-ip-set \
    --detector-id 12abc34d567e8fa901bc2d34eexample \
    --ip-set-id d4b94fc952d6912b8f3060768example \
    --location https://amzn-s3-demo-bucket.s3-us-west-2.amazonaws.com/customtrustlist2.csv
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Daftar IP Tepercaya dan Daftar Ancaman](https://docs.aws.amazon.com/guardduty/latest/ug/guardduty_upload_lists.html) di *Panduan GuardDuty Pengguna*.  
+  Untuk detail API, lihat [UpdateIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/guardduty/update-ip-set.html)di *Referensi AWS CLI Perintah*. 

# AWS Health contoh menggunakan AWS CLI
<a name="cli_2_health_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Health.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-affected-entities`
<a name="health_DescribeAffectedEntities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-affected-entities`.

**AWS CLI**  
**Untuk membuat daftar entitas yang terpengaruh oleh peristiwa AWS Kesehatan tertentu**  
`describe-affected-entities`Contoh berikut mencantumkan entitas yang terpengaruh oleh peristiwa AWS Kesehatan yang ditentukan. Acara ini adalah pemberitahuan penagihan untuk AWS akun tersebut.  

```
aws health describe-affected-entities \
    --filter "eventArns=arn:aws:health:global::event/BILLING/AWS_BILLING_NOTIFICATION/AWS_BILLING_NOTIFICATION_6ce1d874-e995-40e2-99cd-EXAMPLE11145" \
    --region us-east-1
```
Output:  

```
{
    "entities": [
        {
            "entityArn": "arn:aws:health:global:123456789012:entity/EXAMPLEimSMoULmWHpb",
            "eventArn": "arn:aws:health:global::event/BILLING/AWS_BILLING_NOTIFICATION/AWS_BILLING_NOTIFICATION_6ce1d874-e995-40e2-99cd-EXAMPLE11145",
            "entityValue": "AWS_ACCOUNT",
            "awsAccountId": "123456789012",
            "lastUpdatedTime": 1588356454.08
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Log peristiwa](https://docs.aws.amazon.com/health/latest/ug/getting-started-phd.html#event-log) di *Panduan Pengguna AWS Kesehatan*.  
+  Untuk detail API, lihat [DescribeAffectedEntities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/health/describe-affected-entities.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-details`
<a name="health_DescribeEventDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-details`.

**AWS CLI**  
**Untuk membuat daftar informasi tentang acara AWS Kesehatan**  
`describe-event-details`Contoh berikut mencantumkan informasi tentang acara AWS Kesehatan yang ditentukan.  

```
aws health describe-event-details \
    --event-arns "arn:aws:health:us-east-1::event/EC2/AWS_EC2_OPERATIONAL_ISSUE/AWS_EC2_OPERATIONAL_ISSUE_VKTXI_EXAMPLE111" \
    --region us-east-1
```
Output:  

```
{
    "successfulSet": [
        {
            "event": {
                "arn": "arn:aws:health:us-east-1::event/EC2/AWS_EC2_OPERATIONAL_ISSUE/AWS_EC2_OPERATIONAL_ISSUE_VKTXI_EXAMPLE111",
                "service": "EC2",
                "eventTypeCode": "AWS_EC2_OPERATIONAL_ISSUE",
                "eventTypeCategory": "issue",
                "region": "us-east-1",
                "startTime": 1587462325.096,
                "endTime": 1587464204.774,
                "lastUpdatedTime": 1587464204.865,
                "statusCode": "closed"
            },
            "eventDescription": {
                "latestDescription": "[RESOLVED] Increased API Error Rates and Latencies\n\n[02:45 AM PDT] We are investigating increased API error rates and latencies in the US-EAST-1 Region.\n\n[03:16 AM PDT] Between 2:10 AM and 2:59 AM PDT we experienced increased API error rates and latencies in the US-EAST-1 Region. The issue has been resolved and the service is operating normally."
            }
        }
    ],
    "failedSet": []
}
```
Untuk informasi selengkapnya, lihat [panel Detail acara](https://docs.aws.amazon.com/health/latest/ug/getting-started-phd.html#event-details) di *Panduan Pengguna AWS Kesehatan*.  
+  Untuk detail API, lihat [DescribeEventDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/health/describe-event-details.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="health_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
**Contoh 1: Untuk daftar acara AWS Kesehatan**  
`describe-events`Contoh berikut mencantumkan peristiwa AWS Kesehatan terbaru.  

```
aws health describe-events \
    --region us-east-1
```
Output:  

```
{
    "events": [
        {
            "arn": "arn:aws:health:us-west-1::event/ECS/AWS_ECS_OPERATIONAL_ISSUE/AWS_ECS_OPERATIONAL_ISSUE_KWQPY_EXAMPLE111",
            "service": "ECS",
            "eventTypeCode": "AWS_ECS_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "us-west-1",
            "startTime": 1589077890.53,
            "endTime": 1589086345.597,
            "lastUpdatedTime": 1589086345.905,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:global::event/BILLING/AWS_BILLING_NOTIFICATION/AWS_BILLING_NOTIFICATION_6ce1d874-e995-40e2-99cd-EXAMPLE1118b",
            "service": "BILLING",
            "eventTypeCode": "AWS_BILLING_NOTIFICATION",
            "eventTypeCategory": "accountNotification",
            "region": "global",
            "startTime": 1588356000.0,
            "lastUpdatedTime": 1588356524.358,
            "statusCode": "open",
            "eventScopeCode": "ACCOUNT_SPECIFIC"
        },
        {
            "arn": "arn:aws:health:us-west-2::event/CLOUDFORMATION/AWS_CLOUDFORMATION_OPERATIONAL_ISSUE/AWS_CLOUDFORMATION_OPERATIONAL_ISSUE_OHTWY_EXAMPLE111",
            "service": "CLOUDFORMATION",
            "eventTypeCode": "AWS_CLOUDFORMATION_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "us-west-2",
            "startTime": 1588279630.761,
            "endTime": 1588284650.0,
            "lastUpdatedTime": 1588284691.941,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:ap-northeast-1::event/LAMBDA/AWS_LAMBDA_OPERATIONAL_ISSUE/AWS_LAMBDA_OPERATIONAL_ISSUE_JZDND_EXAMPLE111",
            "service": "LAMBDA",
            "eventTypeCode": "AWS_LAMBDA_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "ap-northeast-1",
            "startTime": 1587379534.08,
            "endTime": 1587391771.0,
            "lastUpdatedTime": 1587395689.316,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:us-east-1::event/EC2/AWS_EC2_OPERATIONAL_ISSUE/AWS_EC2_OPERATIONAL_ISSUE_COBXJ_EXAMPLE111",
            "service": "EC2",
            "eventTypeCode": "AWS_EC2_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "us-east-1",
            "startTime": 1586473044.284,
            "endTime": 1586479706.091,
            "lastUpdatedTime": 1586479706.153,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:global::event/SECURITY/AWS_SECURITY_NOTIFICATION/AWS_SECURITY_NOTIFICATION_42007387-8129-42da-8c88-EXAMPLE11139",
            "service": "SECURITY",
            "eventTypeCode": "AWS_SECURITY_NOTIFICATION",
            "eventTypeCategory": "accountNotification",
            "region": "global",
            "startTime": 1585674000.0,
            "lastUpdatedTime": 1585674004.132,
            "statusCode": "open",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:global::event/CLOUDFRONT/AWS_CLOUDFRONT_OPERATIONAL_ISSUE/AWS_CLOUDFRONT_OPERATIONAL_ISSUE_FRQXG_EXAMPLE111",
            "service": "CLOUDFRONT",
            "eventTypeCode": "AWS_CLOUDFRONT_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "global",
            "startTime": 1585610898.589,
            "endTime": 1585617671.0,
            "lastUpdatedTime": 1585620638.869,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:us-east-1::event/SES/AWS_SES_OPERATIONAL_ISSUE/AWS_SES_OPERATIONAL_ISSUE_URNDF_EXAMPLE111",
            "service": "SES",
            "eventTypeCode": "AWS_SES_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "us-east-1",
            "startTime": 1585342008.46,
            "endTime": 1585344017.0,
            "lastUpdatedTime": 1585344355.989,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:global::event/IAM/AWS_IAM_OPERATIONAL_NOTIFICATION/AWS_IAM_OPERATIONAL_NOTIFICATION_b6771c34-6ecd-4aea-9d3e-EXAMPLE1117e",
            "service": "IAM",
            "eventTypeCode": "AWS_IAM_OPERATIONAL_NOTIFICATION",
            "eventTypeCategory": "accountNotification",
            "region": "global",
            "startTime": 1584978300.0,
            "lastUpdatedTime": 1584978553.572,
            "statusCode": "open",
            "eventScopeCode": "ACCOUNT_SPECIFIC"
        },
        {
            "arn": "arn:aws:health:ap-southeast-2::event/EC2/AWS_EC2_OPERATIONAL_ISSUE/AWS_EC2_OPERATIONAL_ISSUE_HNGHE_EXAMPLE111",
            "service": "EC2",
            "eventTypeCode": "AWS_EC2_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "ap-southeast-2",
            "startTime": 1583881487.483,
            "endTime": 1583885056.785,
            "lastUpdatedTime": 1583885057.052,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Dashboard AWS Personal AWS Health](https://docs.aws.amazon.com/health/latest/ug/getting-started-phd.html) *di Panduan Pengguna Kesehatan*.  
**Contoh 2: Untuk daftar acara AWS Kesehatan berdasarkan layanan dan kode status acara**  
`describe-events`Contoh berikut mencantumkan peristiwa AWS Kesehatan untuk Amazon Elastic Compute Cloud (Amazon EC2) di mana status acara ditutup.  

```
aws health describe-events \
    --filter "services=EC2,eventStatusCodes=closed"
```
Output:  

```
{
    "events": [
        {
            "arn": "arn:aws:health:us-east-1::event/EC2/AWS_EC2_OPERATIONAL_ISSUE/AWS_EC2_OPERATIONAL_ISSUE_VKTXI_EXAMPLE111",
            "service": "EC2",
            "eventTypeCode": "AWS_EC2_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "us-east-1",
            "startTime": 1587462325.096,
            "endTime": 1587464204.774,
            "lastUpdatedTime": 1587464204.865,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:us-east-1::event/EC2/AWS_EC2_OPERATIONAL_ISSUE/AWS_EC2_OPERATIONAL_ISSUE_COBXJ_EXAMPLE111",
            "service": "EC2",
            "eventTypeCode": "AWS_EC2_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "us-east-1",
            "startTime": 1586473044.284,
            "endTime": 1586479706.091,
            "lastUpdatedTime": 1586479706.153,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        },
        {
            "arn": "arn:aws:health:ap-southeast-2::event/EC2/AWS_EC2_OPERATIONAL_ISSUE/AWS_EC2_OPERATIONAL_ISSUE_HNGHE_EXAMPLE111",
            "service": "EC2",
            "eventTypeCode": "AWS_EC2_OPERATIONAL_ISSUE",
            "eventTypeCategory": "issue",
            "region": "ap-southeast-2",
            "startTime": 1583881487.483,
            "endTime": 1583885056.785,
            "lastUpdatedTime": 1583885057.052,
            "statusCode": "closed",
            "eventScopeCode": "PUBLIC"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Dashboard AWS Personal AWS Health](https://docs.aws.amazon.com/health/latest/ug/getting-started-phd.html) *di Panduan Pengguna Kesehatan*.  
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/health/describe-events.html)di *Referensi AWS CLI Perintah*. 

# HealthImaging contoh menggunakan AWS CLI
<a name="cli_2_medical-imaging_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with HealthImaging.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `copy-image-set`
<a name="medical-imaging_CopyImageSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-image-set`.

**AWS CLI**  
**Contoh 1: Untuk menyalin set gambar tanpa tujuan.**  
`copy-image-set`Contoh berikut membuat salinan duplikat dari gambar yang ditetapkan tanpa tujuan.  

```
aws medical-imaging copy-image-set \
    --datastore-id 12345678901234567890123456789012 \
    --source-image-set-id ea92b0d8838c72a3f25d00d13616f87e \
    --copy-image-set-information '{"sourceImageSet": {"latestVersionId": "1" } }'
```
Output:  

```
{
    "destinationImageSetProperties": {
        "latestVersionId": "2",
        "imageSetWorkflowStatus": "COPYING",
        "updatedAt": 1680042357.432,
        "imageSetId": "b9a06fef182a5f992842f77f8e0868e5",
        "imageSetState": "LOCKED",
        "createdAt": 1680042357.432
    },
    "sourceImageSetProperties": {
        "latestVersionId": "1",
        "imageSetWorkflowStatus": "COPYING_WITH_READ_ONLY_ACCESS",
        "updatedAt": 1680042357.432,
        "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
        "imageSetState": "LOCKED",
        "createdAt": 1680027126.436
    },
    "datastoreId": "12345678901234567890123456789012"
}
```
**Contoh 2: Untuk menyalin gambar yang ditetapkan dengan tujuan.**  
`copy-image-set`Contoh berikut membuat salinan duplikat dari gambar yang ditetapkan dengan tujuan.  

```
aws medical-imaging copy-image-set \
    --datastore-id 12345678901234567890123456789012 \
    --source-image-set-id ea92b0d8838c72a3f25d00d13616f87e \
    --copy-image-set-information '{"sourceImageSet": {"latestVersionId": "1" }, "destinationImageSet": { "imageSetId": "b9a06fef182a5f992842f77f8e0868e5", "latestVersionId": "1"} }'
```
Output:  

```
{
    "destinationImageSetProperties": {
        "latestVersionId": "2",
        "imageSetWorkflowStatus": "COPYING",
        "updatedAt": 1680042505.135,
        "imageSetId": "b9a06fef182a5f992842f77f8e0868e5",
        "imageSetState": "LOCKED",
        "createdAt": 1680042357.432
    },
    "sourceImageSetProperties": {
        "latestVersionId": "1",
        "imageSetWorkflowStatus": "COPYING_WITH_READ_ONLY_ACCESS",
        "updatedAt": 1680042505.135,
        "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
        "imageSetState": "LOCKED",
        "createdAt": 1680027126.436
    },
    "datastoreId": "12345678901234567890123456789012"
}
```
**Contoh 3: Untuk menyalin subset instance dari gambar sumber yang disetel ke kumpulan gambar tujuan.**  
`copy-image-set`Contoh berikut menyalin satu contoh DICOM dari gambar sumber yang disetel ke set gambar tujuan. Parameter gaya disediakan untuk mengesampingkan inkonsistensi dalam atribut tingkat Pasien, Studi, dan Seri.  

```
aws medical-imaging copy-image-set \
    --datastore-id 12345678901234567890123456789012 \
    --source-image-set-id ea92b0d8838c72a3f25d00d13616f87e \
    --copy-image-set-information '{"sourceImageSet": {"latestVersionId": "1","DICOMCopies": {"copiableAttributes": "{\"SchemaVersion\":\"1.1\",\"Study\":{\"Series\":{\"1.3.6.1.4.1.5962.99.1.3673257865.2104868982.1369432891697.3666.0\":{\"Instances\":{\"1.3.6.1.4.1.5962.99.1.3673257865.2104868982.1369432891697.3669.0\":{}}}}}}"}},"destinationImageSet": {"imageSetId": "b9eb50d8ee682eb9fcf4acbf92f62bb7","latestVersionId": "1"}}' \
    --force
```
Output:  

```
{
    "destinationImageSetProperties": {
        "latestVersionId": "2",
        "imageSetWorkflowStatus": "COPYING",
        "updatedAt": 1680042505.135,
        "imageSetId": "b9eb50d8ee682eb9fcf4acbf92f62bb7",
        "imageSetState": "LOCKED",
        "createdAt": 1680042357.432
    },
    "sourceImageSetProperties": {
        "latestVersionId": "1",
        "imageSetWorkflowStatus": "COPYING_WITH_READ_ONLY_ACCESS",
        "updatedAt": 1680042505.135,
        "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
        "imageSetState": "LOCKED",
        "createdAt": 1680027126.436
    },
    "datastoreId": "12345678901234567890123456789012"
}
```
Untuk informasi selengkapnya, lihat [Menyalin set gambar](https://docs.aws.amazon.com/healthimaging/latest/devguide/copy-image-set.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [CopyImageSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/copy-image-set.html)di *Referensi AWS CLI Perintah*. 

### `create-datastore`
<a name="medical-imaging_CreateDatastore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-datastore`.

**AWS CLI**  
**Contoh 1: Untuk membuat penyimpanan data**  
Contoh `create-datastore` kode berikut membuat penyimpanan data dengan nama`my-datastore`. Saat Anda membuat datastore tanpa menentukan a`--lossless-storage-format`, AWS HealthImaging default ke HTJ2 K (High Throughput JPEG 2000).  

```
aws medical-imaging create-datastore \
    --datastore-name "my-datastore"
```
Output:  

```
{
    "datastoreId": "12345678901234567890123456789012",
    "datastoreStatus": "CREATING"
}
```
**Contoh 2: Untuk membuat penyimpanan data dengan format penyimpanan Lossless JPEG 2000**  
Penyimpanan data yang dikonfigurasi dengan format penyimpanan Lossless JPEG 2000 akan mentranskode dan mempertahankan bingkai gambar lossless dalam format JPEG 2000. Bingkai gambar kemudian dapat diambil dalam JPEG 2000 Lossless tanpa transcoding. Contoh `create-datastore` kode berikut membuat penyimpanan data dikonfigurasi untuk format penyimpanan Lossless JPEG 2000 dengan nama. `my-datastore`  

```
aws medical-imaging create-datastore \
    --datastore-name "my-datastore" \
    --lossless-storage-format JPEG_2000_LOSSLESS
```
Output:  

```
{
    "datastoreId": "12345678901234567890123456789012",
    "datastoreStatus": "CREATING"
}
```
Untuk informasi selengkapnya, lihat [Membuat penyimpanan data](https://docs.aws.amazon.com/healthimaging/latest/devguide/create-data-store.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [CreateDatastore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/create-datastore.html)di *Referensi AWS CLI Perintah*. 

### `delete-datastore`
<a name="medical-imaging_DeleteDatastore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-datastore`.

**AWS CLI**  
**Untuk menghapus penyimpanan data**  
Contoh `delete-datastore` kode berikut menghapus penyimpanan data.  

```
aws medical-imaging delete-datastore \
    --datastore-id "12345678901234567890123456789012"
```
Output:  

```
{
    "datastoreId": "12345678901234567890123456789012",
    "datastoreStatus": "DELETING"
}
```
Untuk informasi selengkapnya, lihat [Menghapus penyimpanan data](https://docs.aws.amazon.com/healthimaging/latest/devguide/delete-data-store.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [DeleteDatastore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/delete-datastore.html)di *Referensi AWS CLI Perintah*. 

### `delete-image-set`
<a name="medical-imaging_DeleteImageSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-image-set`.

**AWS CLI**  
**Untuk menghapus kumpulan gambar**  
Contoh `delete-image-set` kode berikut menghapus set gambar.  

```
aws medical-imaging delete-image-set \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id ea92b0d8838c72a3f25d00d13616f87e
```
Output:  

```
{
    "imageSetWorkflowStatus": "DELETING",
    "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
    "imageSetState": "LOCKED",
    "datastoreId": "12345678901234567890123456789012"
}
```
Untuk informasi selengkapnya, lihat [Menghapus set gambar](https://docs.aws.amazon.com/healthimaging/latest/devguide/delete-image-set.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [DeleteImageSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/delete-image-set.html)di *Referensi AWS CLI Perintah*. 

### `get-datastore`
<a name="medical-imaging_GetDatastore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-datastore`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan properti penyimpanan data**  
Contoh `get-datastore` kode berikut mendapatkan properti penyimpanan data.  

```
aws medical-imaging get-datastore \
    --datastore-id 12345678901234567890123456789012
```
Output:  

```
{
    "datastoreProperties": {
        "datastoreId": "12345678901234567890123456789012",
        "datastoreName": "TestDatastore123",
        "datastoreStatus": "ACTIVE",
        "losslessStorageFormat": "HTJ2K"
        "datastoreArn": "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012",
        "createdAt": "2022-11-15T23:33:09.643000+00:00",
        "updatedAt": "2022-11-15T23:33:09.643000+00:00"
    }
}
```
**Contoh 2: Untuk mendapatkan properti penyimpanan data yang dikonfigurasi JPEG2000**  
Contoh `get-datastore` kode berikut mendapatkan properti penyimpanan data untuk penyimpanan data yang dikonfigurasi untuk format penyimpanan Lossless JPEG 2000.  

```
aws medical-imaging get-datastore \
    --datastore-id 12345678901234567890123456789012
```
Output:  

```
{
    "datastoreProperties": {
        "datastoreId": "12345678901234567890123456789012",
        "datastoreName": "TestDatastore123",
        "datastoreStatus": "ACTIVE",
        "losslessStorageFormat": "JPEG_2000_LOSSLESS",
        "datastoreArn": "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012",
        "createdAt": "2022-11-15T23:33:09.643000+00:00",
        "updatedAt": "2022-11-15T23:33:09.643000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan properti penyimpanan data](https://docs.aws.amazon.com/healthimaging/latest/devguide/get-data-store.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [GetDatastore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/get-datastore.html)di *Referensi AWS CLI Perintah*. 

### `get-dicom-import-job`
<a name="medical-imaging_GetDICOMImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-dicom-import-job`.

**AWS CLI**  
**Untuk mendapatkan properti pekerjaan impor dicom**  
Contoh `get-dicom-import-job` kode berikut mendapatkan properti pekerjaan dicom import.  

```
aws medical-imaging get-dicom-import-job \
    --datastore-id "12345678901234567890123456789012" \
    --job-id "09876543210987654321098765432109"
```
Output:  

```
{
    "jobProperties": {
        "jobId": "09876543210987654321098765432109",
        "jobName": "my-job",
        "jobStatus": "COMPLETED",
        "datastoreId": "12345678901234567890123456789012",
        "dataAccessRoleArn": "arn:aws:iam::123456789012:role/ImportJobDataAccessRole",
        "endedAt": "2022-08-12T11:29:42.285000+00:00",
        "submittedAt": "2022-08-12T11:28:11.152000+00:00",
        "inputS3Uri": "s3://medical-imaging-dicom-input/dicom_input/",
        "outputS3Uri": "s3://medical-imaging-output/job_output/12345678901234567890123456789012-DicomImport-09876543210987654321098765432109/"
    }
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan properti pekerjaan impor](https://docs.aws.amazon.com/healthimaging/latest/devguide/get-dicom-import-job.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [Mendapatkan DICOMImport Job](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/get-dicom-import-job.html) di *Referensi AWS CLI Perintah*. 

### `get-image-frame`
<a name="medical-imaging_GetImageFrame_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-image-frame`.

**AWS CLI**  
**Untuk mendapatkan data piksel set gambar**  
Contoh `get-image-frame` kode berikut mendapat bingkai gambar.  

```
aws medical-imaging get-image-frame \
    --datastore-id "12345678901234567890123456789012" \
    --image-set-id "98765412345612345678907890789012" \
    --image-frame-information imageFrameId=3abf5d5d7ae72f80a0ec81b2c0de3ef4 \
    imageframe.jph
```
Catatan: Contoh kode ini tidak menyertakan output karena GetImageFrame tindakan mengembalikan aliran data piksel ke file imageframe.jph. Untuk informasi tentang decoding dan melihat bingkai gambar, lihat HTJ2 K decoding library.  
Untuk informasi selengkapnya, lihat [Mendapatkan data piksel yang disetel gambar](https://docs.aws.amazon.com/healthimaging/latest/devguide/get-image-frame.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [GetImageFrame](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/get-image-frame.html)di *Referensi AWS CLI Perintah*. 

### `get-image-set-metadata`
<a name="medical-imaging_GetImageSetMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-image-set-metadata`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan metadata set gambar tanpa versi**  
Contoh `get-image-set-metadata` kode berikut mendapatkan metadata untuk kumpulan gambar tanpa menentukan versi.  
Catatan: `outfile` adalah parameter yang diperlukan  

```
aws medical-imaging get-image-set-metadata \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id ea92b0d8838c72a3f25d00d13616f87e \
    studymetadata.json.gz
```
Metadata yang dikembalikan dikompresi dengan gzip dan disimpan dalam file studymetadata.json.gz. Untuk melihat isi objek JSON yang dikembalikan, Anda harus terlebih dahulu mendekompresnya.  
Output:  

```
{
    "contentType": "application/json",
    "contentEncoding": "gzip"
}
```
**Contoh 2: Untuk mendapatkan metadata set gambar dengan versi**  
Contoh `get-image-set-metadata` kode berikut mendapatkan metadata untuk set gambar dengan versi tertentu.  
Catatan: `outfile` adalah parameter yang diperlukan  

```
aws medical-imaging get-image-set-metadata \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id ea92b0d8838c72a3f25d00d13616f87e \
    --version-id 1 \
    studymetadata.json.gz
```
Metadata yang dikembalikan dikompresi dengan gzip dan disimpan dalam file studymetadata.json.gz. Untuk melihat isi objek JSON yang dikembalikan, Anda harus terlebih dahulu mendekompresnya.  
Output:  

```
{
    "contentType": "application/json",
    "contentEncoding": "gzip"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan metadata set gambar](https://docs.aws.amazon.com/healthimaging/latest/devguide/get-image-set-metadata.html) di Panduan *AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [GetImageSetMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/get-image-set-metadata.html)di *Referensi AWS CLI Perintah*. 

### `get-image-set`
<a name="medical-imaging_GetImageSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-image-set`.

**AWS CLI**  
**Untuk mendapatkan properti set gambar**  
Contoh `get-image-set` kode berikut mendapatkan properti untuk set gambar.  

```
aws medical-imaging get-image-set \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id 18f88ac7870584f58d56256646b4d92b \
    --version-id 1
```
Output:  

```
{
    "versionId": "1",
    "imageSetWorkflowStatus": "COPIED",
    "updatedAt": 1680027253.471,
    "imageSetId": "18f88ac7870584f58d56256646b4d92b",
    "imageSetState": "ACTIVE",
    "createdAt": 1679592510.753,
    "datastoreId": "12345678901234567890123456789012"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan properti set gambar](https://docs.aws.amazon.com/healthimaging/latest/devguide/get-image-set-properties.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [GetImageSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/get-image-set.html)di *Referensi AWS CLI Perintah*. 

### `list-datastores`
<a name="medical-imaging_ListDatastores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-datastores`.

**AWS CLI**  
**Untuk daftar penyimpanan data**  
Contoh `list-datastores` kode berikut mencantumkan penyimpanan data yang tersedia.  

```
aws medical-imaging list-datastores
```
Output:  

```
{
    "datastoreSummaries": [
        {
            "datastoreId": "12345678901234567890123456789012",
            "datastoreName": "TestDatastore123",
            "datastoreStatus": "ACTIVE",
            "datastoreArn": "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012",
            "createdAt": "2022-11-15T23:33:09.643000+00:00",
            "updatedAt": "2022-11-15T23:33:09.643000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyimpan penyimpanan data](https://docs.aws.amazon.com/healthimaging/latest/devguide/list-data-stores.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [ListDatastores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/list-datastores.html)di *Referensi AWS CLI Perintah*. 

### `list-dicom-import-jobs`
<a name="medical-imaging_ListDICOMImportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-dicom-import-jobs`.

**AWS CLI**  
**Untuk daftar pekerjaan dicom import**  
Contoh `list-dicom-import-jobs` kode berikut mencantumkan pekerjaan impor dicom.  

```
aws medical-imaging list-dicom-import-jobs \
    --datastore-id "12345678901234567890123456789012"
```
Output:  

```
{
    "jobSummaries": [
        {
            "jobId": "09876543210987654321098765432109",
            "jobName": "my-job",
            "jobStatus": "COMPLETED",
            "datastoreId": "12345678901234567890123456789012",
            "dataAccessRoleArn": "arn:aws:iam::123456789012:role/ImportJobDataAccessRole",
            "endedAt": "2022-08-12T11:21:56.504000+00:00",
            "submittedAt": "2022-08-12T11:20:21.734000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar pekerjaan impor](https://docs.aws.amazon.com/healthimaging/latest/devguide/list-dicom-import-jobs.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [Daftar DICOMImport Pekerjaan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/list-dicom-import-jobs.html) di *Referensi AWS CLI Perintah*. 

### `list-image-set-versions`
<a name="medical-imaging_ListImageSetVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-image-set-versions`.

**AWS CLI**  
**Untuk daftar versi set gambar**  
Contoh `list-image-set-versions` kode berikut mencantumkan riwayat versi untuk kumpulan gambar.  

```
aws medical-imaging list-image-set-versions \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id ea92b0d8838c72a3f25d00d13616f87e
```
Output:  

```
{
    "imageSetPropertiesList": [
        {
            "ImageSetWorkflowStatus": "UPDATED",
            "versionId": "4",
            "updatedAt": 1680029436.304,
            "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
            "imageSetState": "ACTIVE",
            "createdAt": 1680027126.436
        },
        {
            "ImageSetWorkflowStatus": "UPDATED",
            "versionId": "3",
            "updatedAt": 1680029163.325,
            "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
            "imageSetState": "ACTIVE",
            "createdAt": 1680027126.436
        },
        {
            "ImageSetWorkflowStatus": "COPY_FAILED",
            "versionId": "2",
            "updatedAt": 1680027455.944,
            "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
            "imageSetState": "ACTIVE",
            "message": "INVALID_REQUEST:  Series of SourceImageSet and DestinationImageSet don't match.",
            "createdAt": 1680027126.436
        },
        {
            "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
            "imageSetState": "ACTIVE",
            "versionId": "1",
            "ImageSetWorkflowStatus": "COPIED",
            "createdAt": 1680027126.436
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar versi kumpulan gambar](https://docs.aws.amazon.com/healthimaging/latest/devguide/list-image-set-versions.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [ListImageSetVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/list-image-set-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="medical-imaging_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Contoh 1: Untuk daftar tag sumber daya untuk penyimpanan data**  
Contoh `list-tags-for-resource` kode berikut mencantumkan tag untuk penyimpanan data.  

```
aws medical-imaging list-tags-for-resource \
    --resource-arn "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012"
```
Output:  

```
{
    "tags":{
        "Deployment":"Development"
    }
}
```
**Contoh 2: Untuk mencantumkan tag sumber daya untuk kumpulan gambar**  
Contoh `list-tags-for-resource` kode berikut mencantumkan tag untuk kumpulan gambar.  

```
aws medical-imaging list-tags-for-resource \
    --resource-arn "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/18f88ac7870584f58d56256646b4d92b"
```
Output:  

```
{
    "tags":{
        "Deployment":"Development"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya AWS HealthImaging](https://docs.aws.amazon.com/healthimaging/latest/devguide/tagging.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `search-image-sets`
<a name="medical-imaging_SearchImageSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-image-sets`.

**AWS CLI**  
**Contoh 1: Untuk mencari set gambar dengan operator EQUAL**  
Contoh `search-image-sets` kode berikut menggunakan operator EQUAL untuk mencari set gambar berdasarkan nilai tertentu.  

```
aws medical-imaging search-image-sets \
    --datastore-id 12345678901234567890123456789012 \
    --search-criteria file://search-criteria.json
```
Isi dari `search-criteria.json`  

```
{
    "filters": [{
        "values": [{"DICOMPatientId" : "SUBJECT08701"}],
        "operator": "EQUAL"
    }]
}
```
Output:  

```
{
    "imageSetsMetadataSummaries": [{
        "imageSetId": "09876543210987654321098765432109",
        "createdAt": "2022-12-06T21:40:59.429000+00:00",
        "version": 1,
        "DICOMTags": {
            "DICOMStudyId": "2011201407",
            "DICOMStudyDate": "19991122",
             "DICOMPatientSex": "F",
             "DICOMStudyInstanceUID": "1.2.840.99999999.84710745.943275268089",
             "DICOMPatientBirthDate": "19201120",
             "DICOMStudyDescription": "UNKNOWN",
             "DICOMPatientId": "SUBJECT08701",
             "DICOMPatientName": "Melissa844 Huel628",
             "DICOMNumberOfStudyRelatedInstances": 1,
             "DICOMStudyTime": "140728",
             "DICOMNumberOfStudyRelatedSeries": 1
            },
        "updatedAt": "2022-12-06T21:40:59.429000+00:00"
    }]
}
```
**Contoh 2: Untuk mencari set gambar dengan operator BETWEEN menggunakan DICOMStudy Tanggal dan DICOMStudy Waktu**  
Contoh `search-image-sets` kode berikut mencari kumpulan gambar dengan Studi DICOM yang dihasilkan antara 1 Januari 1990 (12:00 AM) dan 1 Januari 2023 (12:00 AM).  
Catatan: DICOMStudy Waktu adalah opsional. Jika tidak ada, 12:00 AM (awal hari) adalah nilai waktu untuk tanggal yang disediakan untuk penyaringan.  

```
aws medical-imaging search-image-sets \
    --datastore-id 12345678901234567890123456789012 \
    --search-criteria file://search-criteria.json
```
Isi dari `search-criteria.json`  

```
{
    "filters": [{
        "values": [{
            "DICOMStudyDateAndTime": {
                "DICOMStudyDate": "19900101",
                "DICOMStudyTime": "000000"
            }
        },
        {
            "DICOMStudyDateAndTime": {
                "DICOMStudyDate": "20230101",
                "DICOMStudyTime": "000000"
            }
        }],
        "operator": "BETWEEN"
    }]
}
```
Output:  

```
{
    "imageSetsMetadataSummaries": [{
        "imageSetId": "09876543210987654321098765432109",
        "createdAt": "2022-12-06T21:40:59.429000+00:00",
        "version": 1,
        "DICOMTags": {
            "DICOMStudyId": "2011201407",
            "DICOMStudyDate": "19991122",
            "DICOMPatientSex": "F",
            "DICOMStudyInstanceUID": "1.2.840.99999999.84710745.943275268089",
            "DICOMPatientBirthDate": "19201120",
            "DICOMStudyDescription": "UNKNOWN",
            "DICOMPatientId": "SUBJECT08701",
            "DICOMPatientName": "Melissa844 Huel628",
            "DICOMNumberOfStudyRelatedInstances": 1,
            "DICOMStudyTime": "140728",
            "DICOMNumberOfStudyRelatedSeries": 1
        },
        "updatedAt": "2022-12-06T21:40:59.429000+00:00"
    }]
}
```
**Contoh 3: Untuk mencari set gambar dengan operator BETWEEN menggunakan createDat (studi waktu sebelumnya dipertahankan)**  
Contoh `search-image-sets` kode berikut mencari set gambar dengan Studi DICOM bertahan di HealthImaging antara rentang waktu di zona waktu UTC.  
Catatan: Berikan CreateDat dalam format contoh (“1985-04-12T 23:20:50.52 Z”).  

```
aws medical-imaging search-image-sets \
    --datastore-id 12345678901234567890123456789012 \
    --search-criteria  file://search-criteria.json
```
Isi dari `search-criteria.json`  

```
{
    "filters": [{
        "values": [{
            "createdAt": "1985-04-12T23:20:50.52Z"
        },
        {
            "createdAt": "2022-04-12T23:20:50.52Z"
        }],
        "operator": "BETWEEN"
    }]
}
```
Output:  

```
{
    "imageSetsMetadataSummaries": [{
        "imageSetId": "09876543210987654321098765432109",
        "createdAt": "2022-12-06T21:40:59.429000+00:00",
        "version": 1,
        "DICOMTags": {
            "DICOMStudyId": "2011201407",
            "DICOMStudyDate": "19991122",
            "DICOMPatientSex": "F",
            "DICOMStudyInstanceUID": "1.2.840.99999999.84710745.943275268089",
            "DICOMPatientBirthDate": "19201120",
            "DICOMStudyDescription": "UNKNOWN",
            "DICOMPatientId": "SUBJECT08701",
            "DICOMPatientName": "Melissa844 Huel628",
            "DICOMNumberOfStudyRelatedInstances": 1,
            "DICOMStudyTime": "140728",
            "DICOMNumberOfStudyRelatedSeries": 1
        },
        "lastUpdatedAt": "2022-12-06T21:40:59.429000+00:00"
    }]
}
```
**Contoh 4: Untuk mencari set gambar dengan operator EQUAL di DICOMSeries InstanceUID dan BETWEEN pada UpdateDat dan mengurutkan respons dalam urutan ASC di bidang UpdateDAT**  
Contoh `search-image-sets` kode berikut mencari kumpulan gambar dengan operator EQUAL di DICOMSeries InstanceUID dan BETWEEN pada UpdateDat dan mengurutkan respons dalam urutan ASC di bidang UpdateDAT.  
Catatan: Berikan UpdateDat dalam format contoh (“1985-04-12T 23:20:50.52 Z”).  

```
aws medical-imaging search-image-sets \
    --datastore-id 12345678901234567890123456789012 \
    --search-criteria  file://search-criteria.json
```
Isi dari `search-criteria.json`  

```
{
    "filters": [{
        "values": [{
            "updatedAt": "2024-03-11T15:00:05.074000-07:00"
        }, {
            "updatedAt": "2024-03-11T16:00:05.074000-07:00"
        }],
        "operator": "BETWEEN"
    }, {
        "values": [{
            "DICOMSeriesInstanceUID": "1.2.840.99999999.84710745.943275268089"
        }],
        "operator": "EQUAL"
    }],
    "sort": {
        "sortField": "updatedAt",
        "sortOrder": "ASC"
    }
}
```
Output:  

```
{
    "imageSetsMetadataSummaries": [{
        "imageSetId": "09876543210987654321098765432109",
        "createdAt": "2022-12-06T21:40:59.429000+00:00",
        "version": 1,
        "DICOMTags": {
            "DICOMStudyId": "2011201407",
            "DICOMStudyDate": "19991122",
            "DICOMPatientSex": "F",
            "DICOMStudyInstanceUID": "1.2.840.99999999.84710745.943275268089",
            "DICOMPatientBirthDate": "19201120",
            "DICOMStudyDescription": "UNKNOWN",
            "DICOMPatientId": "SUBJECT08701",
            "DICOMPatientName": "Melissa844 Huel628",
            "DICOMNumberOfStudyRelatedInstances": 1,
            "DICOMStudyTime": "140728",
            "DICOMNumberOfStudyRelatedSeries": 1
        },
        "lastUpdatedAt": "2022-12-06T21:40:59.429000+00:00"
    }]
}
```
Untuk informasi selengkapnya, lihat [Mencari kumpulan gambar](https://docs.aws.amazon.com/healthimaging/latest/devguide/search-image-sets.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [SearchImageSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/search-image-sets.html)di *Referensi AWS CLI Perintah*. 

### `start-dicom-import-job`
<a name="medical-imaging_StartDICOMImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-dicom-import-job`.

**AWS CLI**  
**Untuk memulai pekerjaan impor dicom**  
Contoh `start-dicom-import-job` kode berikut memulai pekerjaan impor dicom.  

```
aws medical-imaging start-dicom-import-job \
    --job-name "my-job" \
    --datastore-id "12345678901234567890123456789012" \
    --input-s3-uri "s3://medical-imaging-dicom-input/dicom_input/" \
    --output-s3-uri "s3://medical-imaging-output/job_output/" \
    --data-access-role-arn "arn:aws:iam::123456789012:role/ImportJobDataAccessRole"
```
Output:  

```
{
    "datastoreId": "12345678901234567890123456789012",
    "jobId": "09876543210987654321098765432109",
    "jobStatus": "SUBMITTED",
    "submittedAt": "2022-08-12T11:28:11.152000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai pekerjaan impor](https://docs.aws.amazon.com/healthimaging/latest/devguide/start-dicom-import-job.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [Memulai DICOMImport Job](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/start-dicom-import-job.html) di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="medical-imaging_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menandai penyimpanan data**  
Contoh `tag-resource` kode berikut menandai penyimpanan data.  

```
aws medical-imaging tag-resource \
  --resource-arn "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012" \
  --tags '{"Deployment":"Development"}'
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menandai set gambar**  
Contoh `tag-resource` kode berikut menandai set gambar.  

```
aws medical-imaging tag-resource \
    --resource-arn "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/18f88ac7870584f58d56256646b4d92b" \
    --tags '{"Deployment":"Development"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya AWS HealthImaging](https://docs.aws.amazon.com/healthimaging/latest/devguide/tagging.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="medical-imaging_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menghapus tag penyimpanan data**  
Contoh `untag-resource` kode berikut untags penyimpanan data.  

```
aws medical-imaging untag-resource \
    --resource-arn "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012" \
    --tag-keys '["Deployment"]'
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menghapus tag set gambar**  
Contoh `untag-resource` kode berikut untag set gambar.  

```
aws medical-imaging untag-resource \
    --resource-arn "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/18f88ac7870584f58d56256646b4d92b" \
    --tag-keys '["Deployment"]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya AWS HealthImaging](https://docs.aws.amazon.com/healthimaging/latest/devguide/tagging.html) di *Panduan AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-image-set-metadata`
<a name="medical-imaging_UpdateImageSetMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-image-set-metadata`.

**AWS CLI**  
**Contoh 1: Untuk menyisipkan atau memperbarui atribut dalam metadata set gambar**  
`update-image-set-metadata`Contoh berikut menyisipkan atau memperbarui atribut dalam metadata set gambar.  

```
aws medical-imaging update-image-set-metadata \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id ea92b0d8838c72a3f25d00d13616f87e \
    --latest-version-id 1 \
    --cli-binary-format raw-in-base64-out \
    --update-image-set-metadata-updates file://metadata-updates.json
```
Isi dari `metadata-updates.json`  

```
{
    "DICOMUpdates": {
        "updatableAttributes": "{\"SchemaVersion\":1.1,\"Patient\":{\"DICOM\":{\"PatientName\":\"MX^MX\"}}}"
    }
}
```
Output:  

```
{
    "latestVersionId": "2",
    "imageSetWorkflowStatus": "UPDATING",
    "updatedAt": 1680042257.908,
    "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
    "imageSetState": "LOCKED",
    "createdAt": 1680027126.436,
    "datastoreId": "12345678901234567890123456789012"
}
```
**Contoh 2: Untuk menghapus atribut dari metadata set gambar**  
`update-image-set-metadata`Contoh berikut menghapus atribut dari metadata set gambar.  

```
aws medical-imaging update-image-set-metadata \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id ea92b0d8838c72a3f25d00d13616f87e \
    --latest-version-id 1 \
    --cli-binary-format raw-in-base64-out \
    --update-image-set-metadata-updates file://metadata-updates.json
```
Isi dari `metadata-updates.json`  

```
{
    "DICOMUpdates": {
        "removableAttributes": "{\"SchemaVersion\":1.1,\"Study\":{\"DICOM\":{\"StudyDescription\":\"CHEST\"}}}"
    }
}
```
Output:  

```
{
    "latestVersionId": "2",
    "imageSetWorkflowStatus": "UPDATING",
    "updatedAt": 1680042257.908,
    "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
    "imageSetState": "LOCKED",
    "createdAt": 1680027126.436,
    "datastoreId": "12345678901234567890123456789012"
}
```
**Contoh 3: Untuk menghapus instance dari metadata set gambar**  
`update-image-set-metadata`Contoh berikut menghapus instance dari metadata set gambar.  

```
aws medical-imaging update-image-set-metadata \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id ea92b0d8838c72a3f25d00d13616f87e \
    --latest-version-id 1 \
    --cli-binary-format raw-in-base64-out \
    --update-image-set-metadata-updates file://metadata-updates.json \
    --force
```
Isi dari `metadata-updates.json`  

```
{
    "DICOMUpdates": {
        "removableAttributes": "{\"SchemaVersion\": 1.1,\"Study\": {\"Series\": {\"1.1.1.1.1.1.12345.123456789012.123.12345678901234.1\": {\"Instances\": {\"1.1.1.1.1.1.12345.123456789012.123.12345678901234.1\": {}}}}}}"
    }
}
```
Output:  

```
{
    "latestVersionId": "2",
    "imageSetWorkflowStatus": "UPDATING",
    "updatedAt": 1680042257.908,
    "imageSetId": "ea92b0d8838c72a3f25d00d13616f87e",
    "imageSetState": "LOCKED",
    "createdAt": 1680027126.436,
    "datastoreId": "12345678901234567890123456789012"
}
```
**Contoh 4: Untuk mengembalikan gambar yang disetel ke versi sebelumnya**  
`update-image-set-metadata`Contoh berikut menunjukkan cara mengembalikan gambar yang disetel ke versi sebelumnya. CopyImageSet dan UpdateImageSetMetadata tindakan membuat versi baru dari set gambar.  

```
aws medical-imaging update-image-set-metadata \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id 53d5fdb05ca4d46ac7ca64b06545c66e \
    --latest-version-id 3 \
    --cli-binary-format raw-in-base64-out \
    --update-image-set-metadata-updates '{"revertToVersionId": "1"}'
```
Output:  

```
{
    "datastoreId": "12345678901234567890123456789012",
    "imageSetId": "53d5fdb05ca4d46ac7ca64b06545c66e",
    "latestVersionId": "4",
    "imageSetState": "LOCKED",
    "imageSetWorkflowStatus": "UPDATING",
    "createdAt": 1680027126.436,
    "updatedAt": 1680042257.908
}
```
**Contoh 5: Untuk menambahkan elemen data DICOM pribadi ke sebuah instance**  
`update-image-set-metadata`Contoh berikut menunjukkan bagaimana menambahkan elemen pribadi untuk contoh tertentu dalam set gambar. Standar DICOM memungkinkan elemen data pribadi untuk komunikasi informasi yang tidak dapat terkandung dalam elemen data standar. Anda dapat membuat, memperbarui, dan menghapus elemen data pribadi dengan UpdateImageSetMetadata tindakan.  

```
aws medical-imaging update-image-set-metadata \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id 53d5fdb05ca4d46ac7ca64b06545c66e \
    --latest-version-id 1 \
    --cli-binary-format raw-in-base64-out \
    --force \
    --update-image-set-metadata-updates file://metadata-updates.json
```
Isi dari `metadata-updates.json`  

```
{
    "DICOMUpdates": {
        "updatableAttributes": "{\"SchemaVersion\": 1.1,\"Study\": {\"Series\": {\"1.1.1.1.1.1.12345.123456789012.123.12345678901234.1\": {\"Instances\": {\"1.1.1.1.1.1.12345.123456789012.123.12345678901234.1\": {\"DICOM\": {\"001910F9\": \"97\"},\"DICOMVRs\": {\"001910F9\": \"DS\"}}}}}}}"
    }
}
```
Output:  

```
{
    "latestVersionId": "2",
    "imageSetWorkflowStatus": "UPDATING",
    "updatedAt": 1680042257.908,
    "imageSetId": "53d5fdb05ca4d46ac7ca64b06545c66e",
    "imageSetState": "LOCKED",
    "createdAt": 1680027126.436,
    "datastoreId": "12345678901234567890123456789012"
}
```
**Contoh 6: Untuk memperbarui elemen data DICOM pribadi ke sebuah instance**  
`update-image-set-metadata`Contoh berikut menunjukkan cara memperbarui nilai elemen data pribadi milik sebuah instance dalam kumpulan gambar.  

```
aws medical-imaging update-image-set-metadata \
    --datastore-id 12345678901234567890123456789012 \
    --image-set-id 53d5fdb05ca4d46ac7ca64b06545c66e \
    --latest-version-id 1 \
    --cli-binary-format raw-in-base64-out \
    --force \
    --update-image-set-metadata-updates file://metadata-updates.json
```
Isi dari `metadata-updates.json`  

```
{
    "DICOMUpdates": {
        "updatableAttributes": "{\"SchemaVersion\": 1.1,\"Study\": {\"Series\": {\"1.1.1.1.1.1.12345.123456789012.123.12345678901234.1\": {\"Instances\": {\"1.1.1.1.1.1.12345.123456789012.123.12345678901234.1\": {\"DICOM\": {\"00091001\": \"GE_GENESIS_DD\"}}}}}}}"
    }
}
```
Output:  

```
{
    "latestVersionId": "2",
    "imageSetWorkflowStatus": "UPDATING",
    "updatedAt": 1680042257.908,
    "imageSetId": "53d5fdb05ca4d46ac7ca64b06545c66e",
    "imageSetState": "LOCKED",
    "createdAt": 1680027126.436,
    "datastoreId": "12345678901234567890123456789012"
}
```
**Contoh 7: Untuk memperbarui SOPInstance UID dengan parameter gaya**  
`update-image-set-metadata`Contoh berikut menunjukkan cara memperbarui SOPInstance UID, menggunakan parameter gaya untuk mengganti kendala metadata DICOM.  

```
aws medical-imaging update-image-set-metadata \
        --datastore-id 12345678901234567890123456789012 \
        --image-set-id 53d5fdb05ca4d46ac7ca64b06545c66e \
        --latest-version-id 1 \
        --cli-binary-format raw-in-base64-out \
        --force \
        --update-image-set-metadata-updates file://metadata-updates.json
```
Isi dari `metadata-updates.json`  

```
{
    "DICOMUpdates": {
        "updatableAttributes": "{\"SchemaVersion\":1.1,\"Study\":{\"Series\":{\"1.3.6.1.4.1.5962.99.1.3633258862.2104868982.1369432891697.3656.0\":{\"Instances\":{\"1.3.6.1.4.1.5962.99.1.3633258862.2104868982.1369432891697.3659.0\":{\"DICOM\":{\"SOPInstanceUID\":\"1.3.6.1.4.1.5962.99.1.3633258862.2104868982.1369432891697.3659.9\"}}}}}}}"
    }
}
```
Output:  

```
{
    "latestVersionId": "2",
    "imageSetWorkflowStatus": "UPDATING",
    "updatedAt": 1680042257.908,
    "imageSetId": "53d5fdb05ca4d46ac7ca64b06545c66e",
    "imageSetState": "LOCKED",
    "createdAt": 1680027126.436,
    "datastoreId": "12345678901234567890123456789012"
}
```
Untuk informasi selengkapnya, lihat [Memperbarui metadata set gambar](https://docs.aws.amazon.com/healthimaging/latest/devguide/update-image-set-metadata.html) di Panduan *AWS HealthImaging Pengembang*.  
+  Untuk detail API, lihat [UpdateImageSetMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medical-imaging/update-image-set-metadata.html)di *Referensi AWS CLI Perintah*. 

# HealthLake contoh menggunakan AWS CLI
<a name="cli_2_healthlake_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with HealthLake.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-fhir-datastore`
<a name="healthlake_CreateFHIRDatastore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-fhir-datastore`.

**AWS CLI**  
**Contoh 1: Buat penyimpanan data berkemampuan SIGV4 HealthLake **  
`create-fhir-datastore`Contoh berikut menunjukkan cara membuat penyimpanan data baru di AWS HealthLake.  

```
aws healthlake create-fhir-datastore \
    --datastore-type-version R4 \
    --datastore-name "FhirTestDatastore"
```
Output:  

```
{
    "DatastoreEndpoint": "https://healthlake.us-east-1.amazonaws.com/datastore/(Data store ID)/r4/",
    "DatastoreArn": "arn:aws:healthlake:us-east-1:(AWS Account ID):datastore/(Data store ID)",
    "DatastoreStatus": "CREATING",
    "DatastoreId": "(Data store ID)"
}
```
**Contoh 2: Buat SMART di penyimpanan data berkemampuan FHIR HealthLake **  
`create-fhir-datastore`Contoh berikut menunjukkan cara membuat SMART baru di penyimpanan data berkemampuan FHIR di. AWS HealthLake  

```
aws healthlake create-fhir-datastore \
    --datastore-name "your-data-store-name" \
    --datastore-type-version R4 \
    --preload-data-config PreloadDataType="SYNTHEA" \
    --sse-configuration '{ "KmsEncryptionConfig": {  "CmkType": "CUSTOMER_MANAGED_KMS_KEY", "KmsKeyId": "arn:aws:kms:us-east-1:your-account-id:key/your-key-id" } }' \
    --identity-provider-configuration  file://identity_provider_configuration.json
```
Isi dari `identity_provider_configuration.json`:  

```
{
    "AuthorizationStrategy": "SMART_ON_FHIR_V1",
    "FineGrainedAuthorizationEnabled": true,
    "IdpLambdaArn": "arn:aws:lambda:your-region:your-account-id:function:your-lambda-name",
    "Metadata": "{\"issuer\":\"https://ehr.example.com\", \"jwks_uri\":\"https://ehr.example.com/.well-known/jwks.json\",\"authorization_endpoint\":\"https://ehr.example.com/auth/authorize\",\"token_endpoint\":\"https://ehr.token.com/auth/token\",\"token_endpoint_auth_methods_supported\":[\"client_secret_basic\",\"foo\"],\"grant_types_supported\":[\"client_credential\",\"foo\"],\"registration_endpoint\":\"https://ehr.example.com/auth/register\",\"scopes_supported\":[\"openId\",\"profile\",\"launch\"],\"response_types_supported\":[\"code\"],\"management_endpoint\":\"https://ehr.example.com/user/manage\",\"introspection_endpoint\":\"https://ehr.example.com/user/introspect\",\"revocation_endpoint\":\"https://ehr.example.com/user/revoke\",\"code_challenge_methods_supported\":[\"S256\"],\"capabilities\":[\"launch-ehr\",\"sso-openid-connect\",\"client-public\"]}"
}
```
Output:  

```
{
    "DatastoreEndpoint": "https://healthlake.us-east-1.amazonaws.com/datastore/(Data store ID)/r4/",
    "DatastoreArn": "arn:aws:healthlake:us-east-1:(AWS Account ID):datastore/(Data store ID)",
    "DatastoreStatus": "CREATING",
    "DatastoreId": "(Data store ID)"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan memantau penyimpanan data FHIR](https://docs.aws.amazon.com/healthlake/latest/devguide/working-with-FHIR-healthlake.html) di *Panduan AWS HealthLake Pengembang*.  
+  Untuk detail API, lihat [Membuat FHIRDatastore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/create-fhir-datastore.html) di *Referensi AWS CLI Perintah*. 

### `delete-fhir-datastore`
<a name="healthlake_DeleteFHIRDatastore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-fhir-datastore`.

**AWS CLI**  
**Untuk menghapus penyimpanan data FHIR**  
`delete-fhir-datastore`Contoh berikut menunjukkan cara menghapus penyimpanan data dan semua isinya di AWS HealthLake.  

```
aws healthlake delete-fhir-datastore \
    --datastore-id (Data store ID)
```
Output:  

```
{
    "DatastoreEndpoint": "https://healthlake.us-east-1.amazonaws.com/datastore/(Data store ID)/r4/",
    "DatastoreArn": "arn:aws:healthlake:us-east-1:(AWS Account ID):datastore/(Data store ID)",
    "DatastoreStatus": "DELETING",
    "DatastoreId": "(Data store ID)"
}
```
*Untuk informasi selengkapnya, lihat Membuat dan memantau penyimpanan data FHIR < https://docs.aws.amazon.com/healthlake/ latest/devguide/working -dengan-FHIR-Healthlake.html> di Panduan Pengembang.AWS HealthLake *  
+  Untuk detail API, lihat [Menghapus FHIRDatastore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/delete-fhir-datastore.html) di *Referensi AWS CLI Perintah*. 

### `describe-fhir-datastore`
<a name="healthlake_DescribeFHIRDatastore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fhir-datastore`.

**AWS CLI**  
**Untuk menggambarkan penyimpanan data FHIR**  
`describe-fhir-datastore`Contoh berikut menunjukkan bagaimana menemukan properti penyimpanan data di AWS HealthLake.  

```
aws healthlake describe-fhir-datastore \
    --datastore-id "1f2f459836ac6c513ce899f9e4f66a59"
```
Output:  

```
{
    "DatastoreProperties": {
        "PreloadDataConfig": {
            "PreloadDataType": "SYNTHEA"
        },
        "SseConfiguration": {
            "KmsEncryptionConfig": {
                "CmkType": "CUSTOMER_MANAGED_KMS_KEY",
                "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
            }
        },
        "DatastoreName": "Demo",
        "DatastoreArn": "arn:aws:healthlake:us-east-1:<AWS Account ID>:datastore/<Data store ID>",
        "DatastoreEndpoint": "https://healthlake.us-east-1.amazonaws.com/datastore/<Data store ID>/r4/",
        "DatastoreStatus": "ACTIVE",
        "DatastoreTypeVersion": "R4",
        "CreatedAt": 1603761064.881,
        "DatastoreId": "<Data store ID>",
        "IdentityProviderConfiguration": {
            "AuthorizationStrategy": "AWS_AUTH",
            "FineGrainedAuthorizationEnabled": false
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan memantau penyimpanan data FHIR](https://docs.aws.amazon.com/healthlake/latest/devguide/working-with-FHIR-healthlake.html) di *Panduan AWS HealthLake Pengembang*.  
+  Untuk detail API, lihat [Menjelaskan FHIRDatastore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/describe-fhir-datastore.html) di *Referensi AWS CLI Perintah*. 

### `describe-fhir-export-job`
<a name="healthlake_DescribeFHIRExportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fhir-export-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan ekspor FHIR**  
`describe-fhir-export-job`Contoh berikut menunjukkan bagaimana menemukan properti pekerjaan ekspor FHIR di AWS HealthLake.  

```
aws healthlake describe-fhir-export-job \
    --datastore-id (Data store ID) \
    --job-id 9b9a51943afaedd0a8c0c26c49135a31
```
Output:  

```
{
    "ExportJobProperties": {
        "DataAccessRoleArn": "arn:aws:iam::(AWS Account ID):role/(Role Name)",
        "JobStatus": "IN_PROGRESS",
        "JobId": "9009813e9d69ba7cf79bcb3468780f16",
        "SubmitTime": "2024-11-20T11:31:46.672000-05:00",
        "EndTime": "2024-11-20T11:34:01.636000-05:00",
        "OutputDataConfig": {
            "S3Configuration": {
            "S3Uri": "s3://(Bucket Name)/(Prefix Name)/",
            "KmsKeyId": "arn:aws:kms:us-east-1:012345678910:key/d330e7fc-b56c-4216-a250-f4c43ef46e83"
        }

        },
        "DatastoreId": "(Data store ID)"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengekspor file dari penyimpanan data FHIR di Panduan AWS](https://docs.aws.amazon.com/healthlake/latest/devguide/export-datastore.html) *HealthLake Pengembang*.  
+  Untuk detail API, lihat [Menjelaskan FHIRExport Pekerjaan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/describe-fhir-export-job.html) dalam *Referensi AWS CLI Perintah*. 

### `describe-fhir-import-job`
<a name="healthlake_DescribeFHIRImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-fhir-import-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan impor FHIR**  
`describe-fhir-import-job`Contoh berikut menunjukkan bagaimana mempelajari properti pekerjaan impor FHIR menggunakan AWS HealthLake.  

```
aws healthlake describe-fhir-import-job \
    --datastore-id (Data store ID) \
    --job-id c145fbb27b192af392f8ce6e7838e34f
```
Output:  

```
{
    "ImportJobProperties": {
    "InputDataConfig": {
        "S3Uri": "s3://(Bucket Name)/(Prefix Name)/"
        { "arrayitem2": 2 }
    },
    "DataAccessRoleArn": "arn:aws:iam::(AWS Account ID):role/(Role Name)",
    "JobStatus": "COMPLETED",
    "JobId": "c145fbb27b192af392f8ce6e7838e34f",
    "SubmitTime": 1606272542.161,
    "EndTime": 1606272609.497,
    "DatastoreId": "(Data store ID)"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengimpor file ke penyimpanan data FHIR di Panduan AWS](https://docs.aws.amazon.com/healthlake/latest/devguide/import-datastore.html) *HealthLake Pengembang*.  
+  Untuk detail API, lihat [Menjelaskan FHIRImport Pekerjaan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/describe-fhir-import-job.html) dalam *Referensi AWS CLI Perintah*. 

### `list-fhir-datastores`
<a name="healthlake_ListFHIRDatastores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-fhir-datastores`.

**AWS CLI**  
**Untuk daftar toko data FHIR**  
`list-fhir-datastores`Contoh berikut menunjukkan cara menggunakan perintah dan bagaimana pengguna dapat memfilter hasil berdasarkan status penyimpanan data di AWS HealthLake.  

```
aws healthlake list-fhir-datastores \
    --filter DatastoreStatus=ACTIVE
```
Output:  

```
{
    "DatastorePropertiesList": [
    {
        "PreloadDataConfig": {
            "PreloadDataType": "SYNTHEA"
        },
        "SseConfiguration": {
            "KmsEncryptionConfig": {
                "CmkType": "CUSTOMER_MANAGED_KMS_KEY",
                "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
            }
        },
        "DatastoreName": "Demo",
        "DatastoreArn": "arn:aws:healthlake:us-east-1:<AWS Account ID>:datastore/<Data store ID>",
        "DatastoreEndpoint": "https://healthlake.us-east-1.amazonaws.com/datastore/<Data store ID>/r4/",
        "DatastoreStatus": "ACTIVE",
        "DatastoreTypeVersion": "R4",
        "CreatedAt": 1603761064.881,
        "DatastoreId": "<Data store ID>",
        "IdentityProviderConfiguration": {
            "AuthorizationStrategy": "AWS_AUTH",
            "FineGrainedAuthorizationEnabled": false
        }
    }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat dan memantau penyimpanan data FHIR](https://docs.aws.amazon.com/healthlake/latest/devguide/working-with-FHIR-healthlake.html) di *Panduan AWS HealthLake Pengembang*.  
+  Untuk detail API, lihat [Daftar FHIRDatastores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/list-fhir-datastores.html) di *Referensi AWS CLI Perintah*. 

### `list-fhir-export-jobs`
<a name="healthlake_ListFHIRExportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-fhir-export-jobs`.

**AWS CLI**  
**Untuk mencantumkan semua pekerjaan ekspor FHIR**  
`list-fhir-export-jobs`Contoh berikut menunjukkan cara menggunakan perintah untuk melihat daftar pekerjaan ekspor yang terkait dengan akun.  

```
aws healthlake list-fhir-export-jobs \
    --datastore-id (Data store ID) \
    --submitted-before (DATE like 2024-10-13T19:00:00Z)\
    --submitted-after (DATE like 2020-10-13T19:00:00Z )\
    --job-name "FHIR-EXPORT" \
    --job-status SUBMITTED  \
    --max-results (Integer between 1 and 500)
```
Output:  

```
{
    "ExportJobPropertiesList": [
        {
            "ExportJobProperties": {
                "OutputDataConfig": {
                    "S3Uri": "s3://(Bucket Name)/(Prefix Name)/",
                    "S3Configuration": {
                        "S3Uri": "s3://(Bucket Name)/(Prefix Name)/",
                        "KmsKeyId": "(KmsKey Id)"
                    }
                },
                "DataAccessRoleArn": "arn:aws:iam::(AWS Account ID):role/(Role Name)",
                "JobStatus": "COMPLETED",
                "JobId": "c145fbb27b192af392f8ce6e7838e34f",
                "JobName": "FHIR-EXPORT",
                "SubmitTime": "2024-11-20T11:31:46.672000-05:00",
                "EndTime": "2024-11-20T11:34:01.636000-05:00",
                "DatastoreId": "(Data store ID)"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengekspor file dari penyimpanan data FHIR di Panduan](https://docs.aws.amazon.com/healthlake/latest/devguide/export-datastore.html) AWS HealthLake Pengembang.  
+  Untuk detail API, lihat [Daftar FHIRExport Pekerjaan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/list-fhir-export-jobs.html) di *Referensi AWS CLI Perintah*. 

### `list-fhir-import-jobs`
<a name="healthlake_ListFHIRImportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-fhir-import-jobs`.

**AWS CLI**  
**Untuk mencantumkan semua pekerjaan impor FHIR**  
`list-fhir-import-jobs`Contoh berikut menunjukkan cara menggunakan perintah untuk melihat daftar semua pekerjaan impor yang terkait dengan akun.  

```
aws healthlake list-fhir-import-jobs \
    --datastore-id (Data store ID) \
    --submitted-before (DATE like 2024-10-13T19:00:00Z) \
    --submitted-after (DATE like 2020-10-13T19:00:00Z ) \
    --job-name "FHIR-IMPORT" \
    --job-status SUBMITTED  \
    -max-results (Integer between 1 and 500)
```
Output:  

```
{
    "ImportJobPropertiesList": [
        {
            "JobId": "c0fddbf76f238297632d4aebdbfc9ddf",
            "JobStatus": "COMPLETED",
            "SubmitTime": "2024-11-20T10:08:46.813000-05:00",
            "EndTime": "2024-11-20T10:10:09.093000-05:00",
            "DatastoreId": "(Data store ID)",
            "InputDataConfig": {
                "S3Uri": "s3://(Bucket Name)/(Prefix Name)/"
            },
            "JobOutputDataConfig": {
                "S3Configuration": {
                    "S3Uri": "s3://(Bucket Name)/import/6407b9ae4c2def3cb6f1a46a0c599ec0-FHIR_IMPORT-c0fddbf76f238297632d4aebdbfc9ddf/",
                    "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/b7f645cb-e564-4981-8672-9e012d1ff1a0"
                }
            },
            "JobProgressReport": {
                "TotalNumberOfScannedFiles": 1,
                "TotalSizeOfScannedFilesInMB": 0.001798,
                "TotalNumberOfImportedFiles": 1,
                "TotalNumberOfResourcesScanned": 1,
                "TotalNumberOfResourcesImported": 1,
                "TotalNumberOfResourcesWithCustomerError": 0,
                "TotalNumberOfFilesReadWithCustomerError": 0,
                "Throughput": 0.0
            },
            "DataAccessRoleArn": "arn:aws:iam::(AWS Account ID):role/(Role Name)"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengimpor file ke penyimpanan data FHIR](https://docs.aws.amazon.com/healthlake/latest/devguide/import-examples.html) di Panduan AWS HealthLake Pengembang.  
+  Untuk detail API, lihat [Daftar FHIRImport Pekerjaan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/list-fhir-import-jobs.html) di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="healthlake_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag untuk penyimpanan data**  
`list-tags-for-resource`Contoh berikut mencantumkan tag yang terkait dengan penyimpanan data yang ditentukan. :  

```
aws healthlake list-tags-for-resource \
    --resource-arn "arn:aws:healthlake:us-east-1:123456789012:datastore/fhir/0725c83f4307f263e16fd56b6d8ebdbe"
```
Output:  

```
{
    "tags": {
        "key": "value",
        "key1": "value1"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya AWS HealthLake di](https://docs.aws.amazon.com/healthlake/latest/devguide/tagging.html) Panduan AWS HealthLake Pengembang.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-fhir-export-job`
<a name="healthlake_StartFHIRExportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-fhir-export-job`.

**AWS CLI**  
**Untuk memulai pekerjaan ekspor FHIR**  
`start-fhir-export-job`Contoh berikut menunjukkan bagaimana memulai pekerjaan ekspor FHIR menggunakan AWS HealthLake.  

```
aws healthlake start-fhir-export-job \
    --output-data-config '{"S3Configuration": {"S3Uri":"s3://(Bucket Name)/(Prefix Name)/","KmsKeyId":"arn:aws:kms:us-east-1:012345678910:key/d330e7fc-b56c-4216-a250-f4c43ef46e83"}}' \
    --datastore-id (Data store ID) \
    --data-access-role-arn arn:aws:iam::(AWS Account ID):role/(Role Name)
```
Output:  

```
{
    "DatastoreId": "(Data store ID)",
    "JobStatus": "SUBMITTED",
    "JobId": "9b9a51943afaedd0a8c0c26c49135a31"
}
```
Untuk informasi selengkapnya, lihat [Mengekspor file dari penyimpanan data FHIR di Panduan AWS](https://docs.aws.amazon.com/healthlake/latest/devguide/export-datastore.html) *HealthLake Pengembang*.  
+  Untuk detail API, lihat [Memulai FHIRExport Job](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/start-fhir-export-job.html) di *Referensi AWS CLI Perintah*. 

### `start-fhir-import-job`
<a name="healthlake_StartFHIRImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-fhir-import-job`.

**AWS CLI**  
**Untuk memulai pekerjaan impor FHIR**  
`start-fhir-import-job`Contoh berikut menunjukkan bagaimana memulai pekerjaan impor FHIR menggunakan AWS HealthLake.  

```
aws healthlake start-fhir-import-job \
    --input-data-config S3Uri="s3://(Bucket Name)/(Prefix Name)/" \
    --job-output-data-config '{"S3Configuration": {"S3Uri":"s3://(Bucket Name)/(Prefix Name)/","KmsKeyId":"arn:aws:kms:us-east-1:012345678910:key/d330e7fc-b56c-4216-a250-f4c43ef46e83"}}' \
    --datastore-id (Data store ID) \
    --data-access-role-arn "arn:aws:iam::(AWS Account ID):role/(Role Name)"
```
Output:  

```
{
    "DatastoreId": "(Data store ID)",
    "JobStatus": "SUBMITTED",
    "JobId": "c145fbb27b192af392f8ce6e7838e34f"
}
```
Untuk informasi selengkapnya, lihat [Mengimpor file ke penyimpanan data FHIR di Panduan AWS](https://docs.aws.amazon.com/healthlake/latest/devguide/import-datastore.html) *HealthLake Pengembang*.  
+  Untuk detail API, lihat [Memulai FHIRImport Job](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/start-fhir-import-job.html) di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="healthlake_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke penyimpanan data**  
`tag-resource`Contoh berikut menunjukkan cara menambahkan tag ke penyimpanan data.  

```
aws healthlake tag-resource \
    --resource-arn "arn:aws:healthlake:us-east-1:123456789012:datastore/fhir/0725c83f4307f263e16fd56b6d8ebdbe" \
    --tags '[{"Key": "key1", "Value": "value1"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan tag ke penyimpanan data](https://docs.aws.amazon.com/healthlake/latest/devguide/add-a-tag.html) di *Panduan AWS HealthLake Pengembang.* .  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="healthlake_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari penyimpanan data.**  
`untag-resource`Contoh berikut menunjukkan cara menghapus tag dari penyimpanan data.  

```
aws healthlake untag-resource \
    --resource-arn "arn:aws:healthlake:us-east-1:123456789012:datastore/fhir/b91723d65c6fdeb1d26543a49d2ed1fa" \
    --tag-keys '["key1"]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus tag dari penyimpanan data](https://docs.aws.amazon.com/healthlake/latest/devguide/remove-tags.html) di *Panduan AWS HealthLake Pengembang*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/healthlake/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# HealthOmics contoh menggunakan AWS CLI
<a name="cli_2_omics_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with HealthOmics.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `abort-multipart-read-set-upload`
<a name="omics_AbortMultipartReadSetUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`abort-multipart-read-set-upload`.

**AWS CLI**  
**Untuk menghentikan unggahan set baca multibagian**  
`abort-multipart-read-set-upload`Contoh berikut menghentikan unggahan set baca multibagian ke toko HealthOmics urutan Anda.  

```
aws omics abort-multipart-read-set-upload \
    --sequence-store-id 0123456789 \
    --upload-id 1122334455
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Unggahan langsung ke penyimpanan urutan](https://docs.aws.amazon.com/omics/latest/dev/synchronous-uploads.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [AbortMultipartReadSetUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/abort-multipart-read-set-upload.html)di *Referensi AWS CLI Perintah*. 

### `accept-share`
<a name="omics_AcceptShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-share`.

**AWS CLI**  
**Untuk menerima bagian data penyimpanan analitik**  
`accept-share`Contoh berikut menerima bagian data penyimpanan HealthOmics analitik.  

```
aws omics accept-share \
    ----share-id "495c21bedc889d07d0ab69d710a6841e-dd75ab7a1a9c384fa848b5bd8e5a7e0a"
```
Output:  

```
{
    "status": "ACTIVATING"
}
```
Untuk informasi selengkapnya, lihat [Berbagi lintas akun](https://docs.aws.amazon.com/omics/latest/dev/cross-account-sharing.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [AcceptShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/accept-share.html)di *Referensi AWS CLI Perintah*. 

### `batch-delete-read-set`
<a name="omics_BatchDeleteReadSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-delete-read-set`.

**AWS CLI**  
**Untuk menghapus beberapa set baca**  
`batch-delete-read-set`Contoh berikut menghapus dua set baca.  

```
aws omics batch-delete-read-set \
    --sequence-store-id 1234567890 \
    --ids 1234567890 0123456789
```
Jika ada kesalahan menghapus salah satu set baca yang ditentukan, layanan mengembalikan daftar kesalahan.  

```
{
    "errors": [
        {
            "code": "",
            "id": "0123456789",
            "message": "The specified readset does not exist."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [BatchDeleteReadSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/batch-delete-read-set.html)di *Referensi AWS CLI Perintah*. 

### `cancel-annotation-import-job`
<a name="omics_CancelAnnotationImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-annotation-import-job`.

**AWS CLI**  
**Untuk membatalkan pekerjaan impor anotasi**  
`cancel-annotation-import-job`Contoh berikut membatalkan pekerjaan impor anotasi dengan ID. `04f57618-xmpl-4fd0-9349-e5a85aefb997`  

```
aws omics cancel-annotation-import-job \
    --job-id 04f57618-xmpl-4fd0-9349-e5a85aefb997
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [CancelAnnotationImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/cancel-annotation-import-job.html)di *Referensi AWS CLI Perintah*. 

### `cancel-run`
<a name="omics_CancelRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-run`.

**AWS CLI**  
**Untuk membatalkan proses**  
`cancel-run`Contoh berikut membatalkan run dengan ID`1234567`.  

```
aws omics cancel-run \
    --id 1234567
```
*Untuk informasi selengkapnya, lihat [Menjalankan siklus hidup dalam alur kerja di Panduan](https://docs.aws.amazon.com/omics/latest/dev/monitoring-runs.html) Pengguna.AWS HealthOmics *  
+  Untuk detail API, lihat [CancelRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/cancel-run.html)di *Referensi AWS CLI Perintah*. 

### `cancel-variant-import-job`
<a name="omics_CancelVariantImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-variant-import-job`.

**AWS CLI**  
**Untuk membatalkan pekerjaan impor varian**  
`cancel-variant-import-job`Contoh berikut membatalkan pekerjaan impor varian dengan ID`69cb65d6-xmpl-4a4a-9025-4565794b684e`.  

```
aws omics cancel-variant-import-job \
    --job-id 69cb65d6-xmpl-4a4a-9025-4565794b684e
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [CancelVariantImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/cancel-variant-import-job.html)di *Referensi AWS CLI Perintah*. 

### `complete-multipart-read-set-upload`
<a name="omics_CompleteMultipartReadSetUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`complete-multipart-read-set-upload`.

**AWS CLI**  
**Untuk mengakhiri unggahan multipart setelah Anda mengunggah semua komponen.**  
`complete-multipart-read-set-upload`Contoh berikut menyimpulkan upload multipart ke dalam toko urutan setelah semua komponen telah diunggah.  

```
aws omics complete-multipart-read-set-upload \
    --sequence-store-id 0123456789 \
    --upload-id 1122334455 \
    --parts '[{"checksum":"gaCBQMe+rpCFZxLpoP6gydBoXaKKDA/Vobh5zBDb4W4=","partNumber":1,"partSource":"SOURCE1"}]'
```
Output:  

```
{
    "readSetId": "0000000001"
    "readSetId": "0000000002"
    "readSetId": "0000000003"
}
```
Untuk informasi selengkapnya, lihat [Unggahan langsung ke penyimpanan urutan](https://docs.aws.amazon.com/omics/latest/dev/synchronous-uploads.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [CompleteMultipartReadSetUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/complete-multipart-read-set-upload.html)di *Referensi AWS CLI Perintah*. 

### `create-annotation-store-version`
<a name="omics_CreateAnnotationStoreVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-annotation-store-version`.

**AWS CLI**  
**Untuk membuat versi baru dari toko anotasi**  
`create-annotation-store-version`Contoh berikut membuat versi baru dari toko anotasi.  

```
aws omics create-annotation-store-version \
    --name my_annotation_store \
    --version-name my_version
```
Output:  

```
{
    "creationTime": "2023-07-21T17:15:49.251040+00:00",
    "id": "3b93cdef69d2",
    "name": "my_annotation_store",
    "reference": {
        "referenceArn": "arn:aws:omics:us-west-2:555555555555:referenceStore/6505293348/reference/5987565360"
    },
    "status": "CREATING",
    "versionName": "my_version"
}
```
Untuk informasi selengkapnya, lihat [Membuat versi baru penyimpanan anotasi](https://docs.aws.amazon.com/omics/latest/dev/annotation-store-versioning.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [CreateAnnotationStoreVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-annotation-store-version.html)di *Referensi AWS CLI Perintah*. 

### `create-annotation-store`
<a name="omics_CreateAnnotationStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-annotation-store`.

**AWS CLI**  
**Contoh 1: Untuk membuat toko anotasi VCF**  
`create-annotation-store`Contoh berikut membuat penyimpanan anotasi format VCF.  

```
aws omics create-annotation-store \
    --name my_ann_store \
    --store-format VCF \
    --reference referenceArn=arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890
```
Output:  

```
{
    "creationTime": "2022-11-23T22:48:39.226492Z",
    "id": "0a91xmplc71f",
    "name": "my_ann_store",
    "reference": {
        "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
    },
    "status": "CREATING",
    "storeFormat": "VCF"
}
```
**Contoh 2: Untuk membuat toko anotasi TSV**  
`create-annotation-store`Contoh berikut membuat penyimpanan anotasi format TSV.  

```
aws omics create-annotation-store \
    --name tsv_ann_store \
    --store-format TSV \
    --reference referenceArn=arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890 \
    --store-options file://tsv-store-options.json
```
`tsv-store-options.json`mengonfigurasi opsi format untuk anotasi.  

```
{
    "tsvStoreOptions": {
        "annotationType": "CHR_START_END_ZERO_BASE",
        "formatToHeader": {
            "CHR": "chromosome",
            "START": "start",
            "END": "end"
        },
        "schema": [
            {
                "chromosome": "STRING"
            },
            {
                "start": "LONG"
            },
            {
                "end": "LONG"
            },
            {
                "name": "STRING"
            }
        ]
    }
}
```
Output:  

```
{
    "creationTime": "2022-11-30T01:28:08.525586Z",
    "id": "861cxmpl96b0",
    "name": "tsv_ann_store",
    "reference": {
        "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
    },
    "status": "CREATING",
    "storeFormat": "TSV",
    "storeOptions": {
        "tsvStoreOptions": {
            "annotationType": "CHR_START_END_ZERO_BASE",
            "formatToHeader": {
                "CHR": "chromosome",
                "END": "end",
                "START": "start"
            },
            "schema": [
                {
                    "chromosome": "STRING"
                },
                {
                    "start": "LONG"
                },
                {
                    "end": "LONG"
                },
                {
                    "name": "STRING"
                }
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan Pengembang Amazon Omics.  
+  Untuk detail API, lihat [CreateAnnotationStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-annotation-store.html)di *Referensi AWS CLI Perintah*. 

### `create-multipart-read-set-upload`
<a name="omics_CreateMultipartReadSetUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-multipart-read-set-upload`.

**AWS CLI**  
**Untuk memulai unggahan set baca multibagian.**  
`create-multipart-read-set-upload`Contoh berikut memulai upload set baca multipart.  

```
aws omics create-multipart-read-set-upload \
    --sequence-store-id 0123456789 \
    --name HG00146 \
    --source-file-type FASTQ \
    --subject-id mySubject\
    --sample-id mySample\
    --description "FASTQ for HG00146"\
    --generated-from "1000 Genomes"
```
Output:  

```
{
    "creationTime": "2022-07-13T23:25:20Z",
    "description": "FASTQ for HG00146",
    "generatedFrom": "1000 Genomes",
    "name": "HG00146",
    "sampleId": "mySample",
    "sequenceStoreId": "0123456789",
    "sourceFileType": "FASTQ",
    "subjectId": "mySubject",
    "uploadId": "1122334455"
}
```
Untuk informasi selengkapnya, lihat [Unggahan langsung ke penyimpanan urutan](https://docs.aws.amazon.com/omics/latest/dev/synchronous-uploads.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [CreateMultipartReadSetUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-multipart-read-set-upload.html)di *Referensi AWS CLI Perintah*. 

### `create-reference-store`
<a name="omics_CreateReferenceStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-reference-store`.

**AWS CLI**  
**Untuk membuat toko referensi**  
`create-reference-store`Contoh berikut membuat toko referensi`my-ref-store`.  

```
aws omics create-reference-store \
    --name my-ref-store
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890",
    "creationTime": "2022-11-22T22:13:25.947Z",
    "id": "1234567890",
    "name": "my-ref-store"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [CreateReferenceStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-reference-store.html)di *Referensi AWS CLI Perintah*. 

### `create-run-group`
<a name="omics_CreateRunGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-run-group`.

**AWS CLI**  
**Untuk membuat grup run**  
`create-run-group`Contoh berikut membuat grup run bernama`cram-converter`.  

```
aws omics create-run-group \
    --name cram-converter \
    --max-cpus 20 \
    --max-gpus 10 \
    --max-duration 600 \
    --max-runs 5
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:runGroup/1234567",
    "id": "1234567",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Membuat grup yang dijalankan](https://docs.aws.amazon.com/omics/latest/dev/creating-run-groups.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [CreateRunGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-run-group.html)di *Referensi AWS CLI Perintah*. 

### `create-sequence-store`
<a name="omics_CreateSequenceStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-sequence-store`.

**AWS CLI**  
**Untuk membuat toko urutan**  
`create-sequence-store`Contoh berikut membuat toko urutan.  

```
aws omics create-sequence-store \
    --name my-seq-store
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:sequenceStore/1234567890",
    "creationTime": "2022-11-23T01:24:33.629Z",
    "id": "1234567890",
    "name": "my-seq-store"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [CreateSequenceStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-sequence-store.html)di *Referensi AWS CLI Perintah*. 

### `create-share`
<a name="omics_CreateShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-share`.

**AWS CLI**  
**Untuk membuat bagian dari toko HealthOmics analitik**  
`create-share`Contoh berikut menunjukkan cara membuat bagian dari toko HealthOmics analitik yang dapat diterima oleh pelanggan di luar akun.  

```
aws omics create-share \
    --resource-arn "arn:aws:omics:us-west-2:555555555555:variantStore/omics_dev_var_store" \
    --principal-subscriber "123456789012" \
    --name "my_Share-123"
```
Output:  

```
{
    "shareId": "495c21bedc889d07d0ab69d710a6841e-dd75ab7a1a9c384fa848b5bd8e5a7e0a",
    "name": "my_Share-123",
    "status": "PENDING"
}
```
*Untuk informasi selengkapnya, lihat [Berbagi lintas akun di Panduan](https://docs.aws.amazon.com/omics/latest/dev/cross-account-sharing.html) Pengguna.AWS HealthOmics *  
+  Untuk detail API, lihat [CreateShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-share.html)di *Referensi AWS CLI Perintah*. 

### `create-variant-store`
<a name="omics_CreateVariantStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-variant-store`.

**AWS CLI**  
**Untuk membuat toko varian**  
`create-variant-store`Contoh berikut membuat toko varian bernama`my_var_store`.  

```
aws omics create-variant-store \
    --name my_var_store \
    --reference referenceArn=arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890
```
Output:  

```
{
    "creationTime": "2022-11-23T22:09:07.534499Z",
    "id": "02dexmplcfdd",
    "name": "my_var_store",
    "reference": {
        "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
    },
    "status": "CREATING"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [CreateVariantStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-variant-store.html)di *Referensi AWS CLI Perintah*. 

### `create-workflow`
<a name="omics_CreateWorkflow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-workflow`.

**AWS CLI**  
**Untuk membuat alur kerja**  
`create-workflow`Contoh berikut menciptakan alur kerja WDL.  

```
aws omics create-workflow \
    --name cram-converter \
    --engine WDL \
    --definition-zip fileb://workflow-crambam.zip \
    --parameter-template file://workflow-params.json
```
`workflow-crambam.zip`adalah arsip ZIP yang berisi definisi alur kerja. `workflow-params.json`mendefinisikan parameter runtime untuk alur kerja.  

```
{
    "ref_fasta" : {
        "description": "Reference genome fasta file",
        "optional": false
    },
    "ref_fasta_index" : {
        "description": "Index of the reference genome fasta file",
        "optional": false
    },
    "ref_dict" : {
        "description": "dictionary file for 'ref_fasta'",
        "optional": false
    },
    "input_cram" : {
        "description": "The Cram file to convert to BAM",
        "optional": false
    },
    "sample_name" : {
        "description": "The name of the input sample, used to name the output BAM",
        "optional": false
    }
}
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:workflow/1234567",
    "id": "1234567",
    "status": "CREATING",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Membuat alur kerja pribadi](https://docs.aws.amazon.com/omics/latest/dev/workflows-setup.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [CreateWorkflow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/create-workflow.html)di *Referensi AWS CLI Perintah*. 

### `delete-annotation-store-versions`
<a name="omics_DeleteAnnotationStoreVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-annotation-store-versions`.

**AWS CLI**  
**Untuk menghapus versi penyimpanan anotasi**  
`delete-annotation-store-versions`Contoh berikut menghapus versi toko anotasi.  

```
aws omics delete-annotation-store-versions \
    --name my_annotation_store \
    --versions my_version
```
Output:  

```
{
    "errors": []
}
```
Untuk informasi selengkapnya, lihat [Membuat versi baru penyimpanan anotasi](https://docs.aws.amazon.com/omics/latest/dev/annotation-store-versioning.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [DeleteAnnotationStoreVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-annotation-store-versions.html)di *Referensi AWS CLI Perintah*. 

### `delete-annotation-store`
<a name="omics_DeleteAnnotationStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-annotation-store`.

**AWS CLI**  
**Untuk menghapus toko anotasi**  
`delete-annotation-store`Contoh berikut menghapus toko anotasi bernama. `my_vcf_store`  

```
aws omics delete-annotation-store \
    --name my_vcf_store
```
Output:  

```
{
    "status": "DELETING"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [DeleteAnnotationStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-annotation-store.html)di *Referensi AWS CLI Perintah*. 

### `delete-reference-store`
<a name="omics_DeleteReferenceStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-reference-store`.

**AWS CLI**  
**Untuk menghapus toko referensi**  
`delete-reference-store`Contoh berikut menghapus toko referensi dengan ID`1234567890`.  

```
aws omics delete-reference-store \
    --id 1234567890
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [DeleteReferenceStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-reference-store.html)di *Referensi AWS CLI Perintah*. 

### `delete-reference`
<a name="omics_DeleteReference_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-reference`.

**AWS CLI**  
**Untuk menghapus referensi**  
`delete-reference`Contoh berikut menghapus referensi.  

```
aws omics delete-reference \
    --reference-store-id 1234567890 \
    --id 1234567890
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [DeleteReference](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-reference.html)di *Referensi AWS CLI Perintah*. 

### `delete-run-group`
<a name="omics_DeleteRunGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-run-group`.

**AWS CLI**  
**Untuk menghapus grup run**  
`delete-run-group`Contoh berikut menghapus grup run dengan ID`1234567`.  

```
aws omics delete-run-group \
    --id 1234567
```
Untuk informasi selengkapnya, lihat [Menghapus grup berjalan dan menjalankan](https://docs.aws.amazon.com/omics/latest/dev/deleting-workflows-and-runs.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [DeleteRunGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-run-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-run`
<a name="omics_DeleteRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-run`.

**AWS CLI**  
**Untuk menghapus alur kerja yang dijalankan**  
`delete-run`Contoh berikut menghapus run dengan ID`1234567`.  

```
aws omics delete-run \
    --id 1234567
```
Untuk informasi selengkapnya, lihat [Menghapus grup berjalan dan menjalankan](https://docs.aws.amazon.com/omics/latest/dev/deleting-workflows-and-runs.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [DeleteRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-run.html)di *Referensi AWS CLI Perintah*. 

### `delete-sequence-store`
<a name="omics_DeleteSequenceStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-sequence-store`.

**AWS CLI**  
**Untuk menghapus toko urutan**  
`delete-sequence-store`Contoh berikut menghapus toko urutan dengan ID`1234567890`.  

```
aws omics delete-sequence-store \
    --id 1234567890
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [DeleteSequenceStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-sequence-store.html)di *Referensi AWS CLI Perintah*. 

### `delete-share`
<a name="omics_DeleteShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-share`.

**AWS CLI**  
**Untuk menghapus bagian data HealthOmics analitik**  
`delete-share`Contoh berikut menghapus pangsa data analitik lintas akun.  

```
aws omics delete-share \
    --share-id "495c21bedc889d07d0ab69d710a6841e-dd75ab7a1a9c384fa848b5bd8e5a7e0a"
```
Output:  

```
{
    "status": "DELETING"
}
```
Untuk informasi selengkapnya, lihat [Berbagi lintas akun](https://docs.aws.amazon.com/omics/latest/dev/cross-account-sharing.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [DeleteShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-share.html)di *Referensi AWS CLI Perintah*. 

### `delete-variant-store`
<a name="omics_DeleteVariantStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-variant-store`.

**AWS CLI**  
**Untuk menghapus toko varian**  
`delete-variant-store`Contoh berikut menghapus toko varian bernama`my_var_store`.  

```
aws omics delete-variant-store \
    --name my_var_store
```
Output:  

```
{
    "status": "DELETING"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [DeleteVariantStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-variant-store.html)di *Referensi AWS CLI Perintah*. 

### `delete-workflow`
<a name="omics_DeleteWorkflow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-workflow`.

**AWS CLI**  
**Untuk menghapus alur kerja**  
`delete-workflow`Contoh berikut menghapus alur kerja dengan ID. `1234567`  

```
aws omics delete-workflow \
    --id 1234567
```
Untuk informasi selengkapnya, lihat [Menghapus alur kerja pribadi](https://docs.aws.amazon.com/omics/latest/dev/delete-private-workflow.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [DeleteWorkflow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/delete-workflow.html)di *Referensi AWS CLI Perintah*. 

### `get-annotation-import-job`
<a name="omics_GetAnnotationImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-annotation-import-job`.

**AWS CLI**  
**Untuk melihat pekerjaan impor anotasi**  
`get-annotation-import-job`Contoh berikut mendapatkan detail tentang pekerjaan impor anotasi.  

```
aws omics get-annotation-import-job \
    --job-id 984162c7-xmpl-4d23-ab47-286f7950bfbf
```
Output:  

```
{
    "creationTime": "2022-11-30T01:40:11.017746Z",
    "destinationName": "tsv_ann_store",
    "id": "984162c7-xmpl-4d23-ab47-286f7950bfbf",
    "items": [
        {
            "jobStatus": "COMPLETED",
            "source": "s3://omics-artifacts-01d6xmpl4e72dd32/targetedregions.bed.gz"
        }
    ],
    "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
    "runLeftNormalization": false,
    "status": "COMPLETED",
    "updateTime": "2022-11-30T01:42:39.134009Z"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetAnnotationImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-annotation-import-job.html)di *Referensi AWS CLI Perintah*. 

### `get-annotation-store-version`
<a name="omics_GetAnnotationStoreVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-annotation-store-version`.

**AWS CLI**  
**Untuk mengambil metadata untuk versi penyimpanan anotasi**  
`get-annotation-store-version`Contoh berikut mengambil metadata untuk versi penyimpanan anotasi yang diminta.  

```
aws omics get-annotation-store-version \
    --name my_annotation_store \
    --version-name my_version
```
Output:  

```
{
    "storeId": "4934045d1c6d",
    "id": "2a3f4a44aa7b",
    "status": "ACTIVE",
    "versionArn": "arn:aws:omics:us-west-2:555555555555:annotationStore/my_annotation_store/version/my_version",
    "name": "my_annotation_store",
    "versionName": "my_version",
    "creationTime": "2023-07-21T17:15:49.251040+00:00",
    "updateTime": "2023-07-21T17:15:56.434223+00:00",
    "statusMessage": "",
    "versionSizeBytes": 0
}
```
Untuk informasi selengkapnya, lihat [Membuat versi baru penyimpanan anotasi](https://docs.aws.amazon.com/omics/latest/dev/annotation-store-versioning.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [GetAnnotationStoreVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-annotation-store-version.html)di *Referensi AWS CLI Perintah*. 

### `get-annotation-store`
<a name="omics_GetAnnotationStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-annotation-store`.

**AWS CLI**  
**Untuk melihat toko anotasi**  
`get-annotation-store`Contoh berikut mendapatkan rincian tentang toko anotasi bernama`my_ann_store`.  

```
aws omics get-annotation-store \
    --name my_ann_store
```
Output:  

```
{
    "creationTime": "2022-11-23T22:48:39.226492Z",
    "id": "0a91xmplc71f",
    "name": "my_ann_store",
    "reference": {
        "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
    },
    "status": "CREATING",
    "storeArn": "arn:aws:omics:us-west-2:123456789012:annotationStore/my_ann_store",
    "storeFormat": "VCF",
    "storeSizeBytes": 0,
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetAnnotationStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-annotation-store.html)di *Referensi AWS CLI Perintah*. 

### `get-read-set-activation-job`
<a name="omics_GetReadSetActivationJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-read-set-activation-job`.

**AWS CLI**  
**Untuk melihat pekerjaan aktivasi set baca**  
`get-read-set-activation-job`Contoh berikut mendapatkan detail tentang pekerjaan aktivasi set baca.  

```
aws omics get-read-set-activation-job \
    --sequence-store-id 1234567890 \
    --id 1234567890
```
Output:  

```
{
    "completionTime": "2022-12-06T22:33:42.828Z",
    "creationTime": "2022-12-06T22:32:45.213Z",
    "id": "1234567890",
    "sequenceStoreId": "1234567890",
    "sources": [
        {
            "readSetId": "1234567890",
            "status": "FINISHED",
            "statusMessage": "No activation needed as read set is already in ACTIVATING or ACTIVE state."
        }
    ],
    "status": "COMPLETED",
    "statusMessage": "The job completed successfully."
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReadSetActivationJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-read-set-activation-job.html)di *Referensi AWS CLI Perintah*. 

### `get-read-set-export-job`
<a name="omics_GetReadSetExportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-read-set-export-job`.

**AWS CLI**  
**Untuk melihat pekerjaan ekspor set baca**  
`get-read-set-export-job`Contoh berikut mendapatkan detail tentang pekerjaan ekspor set baca.  

```
aws omics get-read-set-export-job \
    --sequence-store-id 1234567890 \
    --id 1234567890
```
Output:  

```
{
    "completionTime": "2022-12-06T22:39:14.491Z",
    "creationTime": "2022-12-06T22:37:18.612Z",
    "destination": "s3://omics-artifacts-01d6xmpl4e72dd32/read-set-export/",
    "id": "1234567890",
    "sequenceStoreId": "1234567890",
    "status": "COMPLETED",
    "statusMessage": "The job is submitted and will start soon."
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReadSetExportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-read-set-export-job.html)di *Referensi AWS CLI Perintah*. 

### `get-read-set-import-job`
<a name="omics_GetReadSetImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-read-set-import-job`.

**AWS CLI**  
**Untuk melihat pekerjaan impor set baca**  
`get-read-set-import-job`Contoh berikut mendapatkan rincian tentang pekerjaan impor set baca.  

```
aws omics get-read-set-import-job \
    --sequence-store-id 1234567890 \
    --id 1234567890
```
Output:  

```
{
    "creationTime": "2022-11-23T01:36:38.158Z",
    "id": "1234567890",
    "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
    "sequenceStoreId": "1234567890",
    "sources": [
        {
            "name": "HG00100",
            "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890",
            "sampleId": "bam-sample",
            "sourceFileType": "BAM",
            "sourceFiles": {
                "source1": "s3://omics-artifacts-01d6xmpl4e72dd32/HG00100.chrom20.ILLUMINA.bwa.GBR.low_coverage.20101123.bam",
                "source2": ""
            },
            "status": "IN_PROGRESS",
            "statusMessage": "The source job is currently in progress.",
            "subjectId": "bam-subject",
            "tags": {
                "aws:omics:sampleId": "bam-sample",
                "aws:omics:subjectId": "bam-subject"
            }
        },
        {
            "name": "HG00146",
            "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890",
            "sampleId": "fastq-sample",
            "sourceFileType": "FASTQ",
            "sourceFiles": {
                "source1": "s3://omics-artifacts-01d6xmpl4e72dd32/SRR233106_1.filt.fastq.gz",
                "source2": "s3://omics-artifacts-01d6xmpl4e72dd32/SRR233106_2.filt.fastq.gz"
            },
            "status": "IN_PROGRESS",
            "statusMessage": "The source job is currently in progress.",
            "subjectId": "fastq-subject",
            "tags": {
                "aws:omics:sampleId": "fastq-sample",
                "aws:omics:subjectId": "fastq-subject"
            }
        },
        {
            "name": "HG00096",
            "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890",
            "sampleId": "cram-sample",
            "sourceFileType": "CRAM",
            "sourceFiles": {
                "source1": "s3://omics-artifacts-01d6xmpl4e72dd32/HG00096.alt_bwamem_GRCh38DH.20150718.GBR.low_coverage.cram",
                "source2": ""
            },
            "status": "IN_PROGRESS",
            "statusMessage": "The source job is currently in progress.",
            "subjectId": "cram-subject",
            "tags": {
                "aws:omics:sampleId": "cram-sample",
                "aws:omics:subjectId": "cram-subject"
            }
        }
    ],
    "status": "IN_PROGRESS",
    "statusMessage": "The job is currently in progress."
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReadSetImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-read-set-import-job.html)di *Referensi AWS CLI Perintah*. 

### `get-read-set-metadata`
<a name="omics_GetReadSetMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-read-set-metadata`.

**AWS CLI**  
**Untuk melihat set baca**  
`get-read-set-metadata`Contoh berikut mendapatkan rincian tentang file set baca.  

```
aws omics get-read-set-metadata \
    --sequence-store-id 1234567890 \
    --id 1234567890
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:sequenceStore/1234567890/readSet/1234567890",
    "creationTime": "2022-11-23T21:55:00.515Z",
    "fileType": "FASTQ",
    "files": {
        "source1": {
            "contentLength": 310054739,
            "partSize": 104857600,
            "totalParts": 3
        },
        "source2": {
            "contentLength": 307846621,
            "partSize": 104857600,
            "totalParts": 3
        }
    },
    "id": "1234567890",
    "name": "HG00146",
    "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890",
    "sampleId": "fastq-sample",
    "sequenceInformation": {
        "alignment": "UNALIGNED",
        "totalBaseCount": 677717384,
        "totalReadCount": 8917334
    },
    "sequenceStoreId": "1234567890",
    "status": "ACTIVE",
    "subjectId": "fastq-subject"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReadSetMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-read-set-metadata.html)di *Referensi AWS CLI Perintah*. 

### `get-read-set`
<a name="omics_GetReadSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-read-set`.

**AWS CLI**  
**Untuk mengunduh set baca**  
`get-read-set`Contoh berikut mengunduh bagian 3 dari set baca sebagai`1234567890.3.bam`.  

```
aws omics get-read-set \
    --sequence-store-id 1234567890 \
    --id 1234567890 \
    --part-number 3  1234567890.3.bam
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReadSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-read-set.html)di *Referensi AWS CLI Perintah*. 

### `get-reference-import-job`
<a name="omics_GetReferenceImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reference-import-job`.

**AWS CLI**  
**Untuk melihat pekerjaan impor referensi**  
`get-reference-import-job`Contoh contoh berikut mendapatkan rincian tentang pekerjaan impor referensi.  

```
aws omics get-reference-import-job \
    --reference-store-id 1234567890 \
    --id 1234567890
```
Output:  

```
{
    "creationTime": "2022-11-22T22:25:41.124Z",
    "id": "1234567890",
    "referenceStoreId": "1234567890",
    "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
    "sources": [
        {
            "name": "assembly-38",
            "sourceFile": "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.fasta",
            "status": "IN_PROGRESS",
            "statusMessage": "The source job is currently in progress."
        }
    ],
    "status": "IN_PROGRESS",
    "statusMessage": "The job is currently in progress."
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReferenceImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-reference-import-job.html)di *Referensi AWS CLI Perintah*. 

### `get-reference-metadata`
<a name="omics_GetReferenceMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reference-metadata`.

**AWS CLI**  
**Untuk melihat referensi**  
`get-reference-metadata`Contoh berikut mendapatkan rincian tentang referensi.  

```
aws omics get-reference-metadata \
    --reference-store-id 1234567890 \
    --id 1234567890
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890",
    "creationTime": "2022-11-22T22:27:09.033Z",
    "files": {
        "index": {
            "contentLength": 160928,
            "partSize": 104857600,
            "totalParts": 1
        },
        "source": {
            "contentLength": 3249912778,
            "partSize": 104857600,
            "totalParts": 31
        }
    },
    "id": "1234567890",
    "md5": "7ff134953dcca8c8997453bbb80b6b5e",
    "name": "assembly-38",
    "referenceStoreId": "1234567890",
    "status": "ACTIVE",
    "updateTime": "2022-11-22T22:27:09.033Z"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReferenceMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-reference-metadata.html)di *Referensi AWS CLI Perintah*. 

### `get-reference-store`
<a name="omics_GetReferenceStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reference-store`.

**AWS CLI**  
**Untuk melihat toko referensi**  
`get-reference-store`Contoh berikut mendapatkan rincian tentang toko referensi.  

```
aws omics get-reference-store \
    --id 1234567890
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890",
    "creationTime": "2022-09-23T23:27:20.364Z",
    "id": "1234567890",
    "name": "my-rstore-0"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReferenceStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-reference-store.html)di *Referensi AWS CLI Perintah*. 

### `get-reference`
<a name="omics_GetReference_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reference`.

**AWS CLI**  
**Untuk mengunduh referensi genom**  
`get-reference`Contoh berikut mengunduh bagian 1 dari genom sebagai`hg38.1.fa`.  

```
aws omics get-reference \
    --reference-store-id 1234567890 \
    --id 1234567890 \
    --part-number 1 hg38.1.fa
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetReference](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-reference.html)di *Referensi AWS CLI Perintah*. 

### `get-run-group`
<a name="omics_GetRunGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-run-group`.

**AWS CLI**  
**Untuk melihat grup run**  
`get-run-group`Contoh berikut mendapatkan rincian tentang grup run.  

```
aws omics get-run-group \
    --id 1234567
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:runGroup/1234567",
    "creationTime": "2022-12-01T00:58:42.915219Z",
    "id": "1234567",
    "maxCpus": 20,
    "maxDuration": 600,
    "name": "cram-convert",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Membuat grup yang dijalankan](https://docs.aws.amazon.com/omics/latest/dev/creating-run-groups.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [GetRunGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-run-group.html)di *Referensi AWS CLI Perintah*. 

### `get-run-task`
<a name="omics_GetRunTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-run-task`.

**AWS CLI**  
**Untuk melihat tugas**  
`get-run-task`Contoh berikut mendapatkan rincian tentang tugas alur kerja.  

```
aws omics get-run-task \
    --id 1234567 \
    --task-id 1234567
```
Output:  

```
{
    "cpus": 1,
    "creationTime": "2022-11-30T23:13:00.718651Z",
    "logStream": "arn:aws:logs:us-west-2:123456789012:log-group:/aws/omics/WorkflowLog:log-stream:run/1234567/task/1234567",
    "memory": 15,
    "name": "CramToBamTask",
    "startTime": "2022-11-30T23:17:47.016Z",
    "status": "COMPLETED",
    "stopTime": "2022-11-30T23:18:21.503Z",
    "taskId": "1234567"
}
```
Untuk informasi selengkapnya, lihat [Siklus hidup tugas yang HealthOmics dijalankan](https://docs.aws.amazon.com/omics/latest/dev/workflow-run-tasks.html) di *AWS HealthOmics Panduan Pengguna*.  
+  Untuk detail API, lihat [GetRunTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-run-task.html)di *Referensi AWS CLI Perintah*. 

### `get-run`
<a name="omics_GetRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-run`.

**AWS CLI**  
**Untuk melihat alur kerja yang dijalankan**  
`get-run`Contoh berikut mendapatkan rincian tentang alur kerja yang dijalankan.  

```
aws omics get-run \
    --id 1234567
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:run/1234567",
    "creationTime": "2022-11-30T22:58:22.615865Z",
    "digest": "sha256:c54bxmpl742dcc26f7fa1f10e37550ddd8f251f418277c0a58e895b801ed28cf",
    "id": "1234567",
    "name": "cram-to-bam",
    "outputUri": "s3://omics-artifacts-01d6xmpl4e72dd32/workflow-output/",
    "parameters": {
        "ref_dict": "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.dict",
        "ref_fasta_index": "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.fasta.fai",
        "ref_fasta": "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.fasta",
        "sample_name": "NA12878",
        "input_cram": "s3://omics-artifacts-01d6xmpl4e72dd32/NA12878.cram"
    },
    "resourceDigests": {
        "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.fasta.fai": "etag:f76371b113734a56cde236bc0372de0a",
        "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.dict": "etag:3884c62eb0e53fa92459ed9bff133ae6",
        "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.fasta": "etag:e307d81c605fb91b7720a08f00276842-388",
        "s3://omics-artifacts-01d6xmpl4e72dd32/NA12878.cram": "etag:a9f52976381286c6143b5cc681671ec6"
    },
    "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
    "startedBy": "arn:aws:iam::123456789012:user/laptop-2020",
    "status": "STARTING",
    "tags": {},
    "workflowId": "1234567",
    "workflowType": "PRIVATE"
}
```
*Untuk informasi selengkapnya, lihat [Menjalankan siklus hidup dalam alur kerja di Panduan](https://docs.aws.amazon.com/omics/latest/dev/monitoring-runs.html) Pengguna.AWS HealthOmics *  
+  Untuk detail API, lihat [GetRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-run.html)di *Referensi AWS CLI Perintah*. 

### `get-sequence-store`
<a name="omics_GetSequenceStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sequence-store`.

**AWS CLI**  
**Untuk melihat toko urutan**  
`get-sequence-store`Contoh berikut mendapatkan rincian tentang toko urutan dengan ID`1234567890`.  

```
aws omics get-sequence-store \
    --id 1234567890
```
Output:  

```
{
    "arn": "arn:aws:omics:us-east-1:123456789012:sequenceStore/1234567890",
    "creationTime": "2022-11-23T19:55:48.376Z",
    "id": "1234567890",
    "name": "my-seq-store"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetSequenceStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-sequence-store.html)di *Referensi AWS CLI Perintah*. 

### `get-share`
<a name="omics_GetShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-share`.

**AWS CLI**  
**Untuk mengambil metadata tentang bagian data analitik HealthOmics **  
`get-share`Contoh berikut mengambil metadata untuk berbagi data analitik lintas akun.  

```
aws omics get-share \
    --share-id "495c21bedc889d07d0ab69d710a6841e-dd75ab7a1a9c384fa848b5bd8e5a7e0a"
```
Output:  

```
{
    "share": {
        "shareId": "495c21bedc889d07d0ab69d710a6841e-dd75ab7a1a9c384fa848b5bd8e5a7e0a",
        "name": "my_Share-123",
        "resourceArn": "arn:aws:omics:us-west-2:555555555555:variantStore/omics_dev_var_store",
        "principalSubscriber": "123456789012",
        "ownerId": "555555555555",
        "status": "PENDING"
    }
}
```
Untuk informasi selengkapnya, lihat [Berbagi lintas akun](https://docs.aws.amazon.com/omics/latest/dev/cross-account-sharing.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [GetShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-share.html)di *Referensi AWS CLI Perintah*. 

### `get-variant-import-job`
<a name="omics_GetVariantImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-variant-import-job`.

**AWS CLI**  
**Untuk melihat pekerjaan impor varian**  
`get-variant-import-job`Contoh berikut mendapatkan detail tentang pekerjaan impor varian.  

```
aws omics get-variant-import-job \
    --job-id edd7b8ce-xmpl-47e2-bc99-258cac95a508
```
Output:  

```
{
    "creationTime": "2022-11-23T22:42:50.037812Z",
    "destinationName": "my_var_store",
    "id": "edd7b8ce-xmpl-47e2-bc99-258cac95a508",
    "items": [
        {
            "jobStatus": "IN_PROGRESS",
            "source": "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.known_indels.vcf.gz"
        }
    ],
    "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
    "runLeftNormalization": false,
    "status": "IN_PROGRESS",
    "updateTime": "2022-11-23T22:43:05.898309Z"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetVariantImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-variant-import-job.html)di *Referensi AWS CLI Perintah*. 

### `get-variant-store`
<a name="omics_GetVariantStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-variant-store`.

**AWS CLI**  
**Untuk melihat toko varian**  
`get-variant-store`Contoh berikut mendapatkan detail tentang toko varian.  

```
aws omics get-variant-store \
    --name my_var_store
```
Output:  

```
{
    "creationTime": "2022-11-23T22:09:07.534499Z",
    "id": "02dexmplcfdd",
    "name": "my_var_store",
    "reference": {
        "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
    },
    "status": "CREATING",
    "storeArn": "arn:aws:omics:us-west-2:123456789012:variantStore/my_var_store",
    "storeSizeBytes": 0,
    "tags": {},
    "updateTime": "2022-11-23T22:09:24.931711Z"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [GetVariantStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-variant-store.html)di *Referensi AWS CLI Perintah*. 

### `get-workflow`
<a name="omics_GetWorkflow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-workflow`.

**AWS CLI**  
**Untuk melihat alur kerja**  
`get-workflow`Contoh berikut mendapatkan rincian tentang alur kerja dengan ID`1234567`.  

```
aws omics get-workflow \
    --id 1234567
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:workflow/1234567",
    "creationTime": "2022-11-30T22:33:16.225368Z",
    "digest": "sha256:c54bxmpl742dcc26f7fa1f10e37550ddd8f251f418277c0a58e895b801ed28cf",
    "engine": "WDL",
    "id": "1234567",
    "main": "workflow-crambam.wdl",
    "name": "cram-converter",
    "parameterTemplate": {
        "ref_dict": {
            "description": "dictionary file for 'ref_fasta'"
        },
        "ref_fasta_index": {
            "description": "Index of the reference genome fasta file"
        },
        "ref_fasta": {
            "description": "Reference genome fasta file"
        },
        "input_cram": {
            "description": "The Cram file to convert to BAM"
        },
        "sample_name": {
            "description": "The name of the input sample, used to name the output BAM"
        }
    },
    "status": "ACTIVE",
    "statusMessage": "workflow-crambam.wdl\n    workflow CramToBamFlow\n        call CramToBamTask\n        call ValidateSamFile\n    task CramToBamTask\n    task ValidateSamFile\n",
    "tags": {},
    "type": "PRIVATE"
}
```
Untuk informasi selengkapnya, lihat [Membuat alur kerja pribadi](https://docs.aws.amazon.com/omics/latest/dev/workflows-setup.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [GetWorkflow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/get-workflow.html)di *Referensi AWS CLI Perintah*. 

### `list-annotation-import-jobs`
<a name="omics_ListAnnotationImportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-annotation-import-jobs`.

**AWS CLI**  
**Untuk mendapatkan daftar pekerjaan impor anotasi**  
Berikut ini `list-annotation-import-jobs` mendapatkan daftar pekerjaan impor anotasi.  

```
aws omics list-annotation-import-jobs
```
Output:  

```
{
    "annotationImportJobs": [
        {
            "creationTime": "2022-11-30T01:39:41.478294Z",
            "destinationName": "gff_ann_store",
            "id": "18a9e792-xmpl-4869-a105-e5b602900444",
            "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
            "runLeftNormalization": false,
            "status": "COMPLETED",
            "updateTime": "2022-11-30T01:47:09.145178Z"
        },
        {
            "creationTime": "2022-11-30T00:45:58.007838Z",
            "destinationName": "my_ann_store",
            "id": "4e9eafc8-xmpl-431e-a0b2-3bda27cb600a",
            "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
            "runLeftNormalization": false,
            "status": "FAILED",
            "updateTime": "2022-11-30T00:47:01.706325Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListAnnotationImportJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-annotation-import-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-annotation-store-versions`
<a name="omics_ListAnnotationStoreVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-annotation-store-versions`.

**AWS CLI**  
**Untuk membuat daftar semua versi toko anotasi.**  
`list-annotation-store-versions`Contoh berikut mencantumkan semua versi yang ada dari toko anotasi.  

```
aws omics list-annotation-store-versions \
    --name my_annotation_store
```
Output:  

```
{
    "annotationStoreVersions": [
        {
        "storeId": "4934045d1c6d",
        "id": "2a3f4a44aa7b",
        "status": "CREATING",
        "versionArn": "arn:aws:omics:us-west-2:555555555555:annotationStore/my_annotation_store/version/my_version_2",
        "name": "my_annotation_store",
        "versionName": "my_version_2",
        "creation Time": "2023-07-21T17:20:59.380043+00:00",
        "versionSizeBytes": 0
},
{
     "storeId": "4934045d1c6d",
     "id": "4934045d1c6d",
     "status": "ACTIVE",
     "versionArn": "arn:aws:omics:us-west-2:555555555555:annotationStore/my_annotation_store/version/my_version_1",
     "name": "my_annotation_store",
     "versionName": "my_version_1",
     "creationTime": "2023-07-21T17:15:49.251040+00:00",
     "updateTime": "2023-07-21T17:15:56.434223+00:00",
     "statusMessage": "",
     "versionSizeBytes": 0
     }

}
```
Untuk informasi selengkapnya, lihat [Membuat versi baru penyimpanan anotasi](https://docs.aws.amazon.com/omics/latest/dev/annotation-store-versioning.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [ListAnnotationStoreVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-annotation-store-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-annotation-stores`
<a name="omics_ListAnnotationStores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-annotation-stores`.

**AWS CLI**  
**Untuk mendapatkan daftar toko anotasi**  
`list-annotation-stores`Contoh berikut mendapat daftar toko anotasi.  

```
aws omics list-annotation-stores
```
Output:  

```
{
    "annotationStores": [
        {
            "creationTime": "2022-11-23T22:48:39.226492Z",
            "id": "0a91xmplc71f",
            "name": "my_ann_store",
            "reference": {
                "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
            },
            "status": "ACTIVE",
            "statusMessage": "",
            "storeArn": "arn:aws:omics:us-west-2:123456789012:annotationStore/my_ann_store",
            "storeFormat": "VCF",
            "storeSizeBytes": 0,
            "updateTime": "2022-11-23T22:53:27.372840Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListAnnotationStores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-annotation-stores.html)di *Referensi AWS CLI Perintah*. 

### `list-multipart-read-set-uploads`
<a name="omics_ListMultipartReadSetUploads_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-multipart-read-set-uploads`.

**AWS CLI**  
**Untuk mencantumkan semua unggahan set baca multibagian dan statusnya.**  
`list-multipart-read-set-uploads`Contoh berikut mencantumkan semua unggahan set baca multibagian dan statusnya.  

```
aws omics list-multipart-read-set-uploads \
    --sequence-store-id 0123456789
```
Output:  

```
{
"uploads":
    [
        {
           "sequenceStoreId": "0123456789",
           "uploadId": "8749584421",
           "sourceFileType": "FASTQ",
            "subjectId": "mySubject",
            "sampleId": "mySample",
            "generatedFrom": "1000 Genomes",
            "name": "HG00146",
            "description": "FASTQ for HG00146",
            "creationTime": "2023-11-29T19:22:51.349298+00:00"
        },
        {
            "sequenceStoreId": "0123456789",
            "uploadId": "5290538638",
            "sourceFileType": "BAM",
            "subjectId": "mySubject",
            "sampleId": "mySample",
            "generatedFrom": "1000 Genomes",
            "referenceArn": "arn:aws:omics:us-west-2:845448930428:referenceStore/8168613728/reference/2190697383",
            "name": "HG00146",
            "description": "BAM for HG00146",
            "creationTime": "2023-11-29T19:23:33.116516+00:00"
        },
        {
            "sequenceStoreId": "0123456789",
            "uploadId": "4174220862",
            "sourceFileType": "BAM",
            "subjectId": "mySubject",
            "sampleId": "mySample",
            "generatedFrom": "1000 Genomes",
            "referenceArn": "arn:aws:omics:us-west-2:845448930428:referenceStore/8168613728/reference/2190697383",
            "name": "HG00147",
            "description": "BAM for HG00147",
            "creationTime": "2023-11-29T19:23:47.007866+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Unggahan langsung ke penyimpanan urutan](https://docs.aws.amazon.com/omics/latest/dev/synchronous-uploads.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [ListMultipartReadSetUploads](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-multipart-read-set-uploads.html)di *Referensi AWS CLI Perintah*. 

### `list-read-set-activation-jobs`
<a name="omics_ListReadSetActivationJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-read-set-activation-jobs`.

**AWS CLI**  
**Untuk mendapatkan daftar pekerjaan aktivasi set baca**  
`list-read-set-activation-jobs`Contoh berikut mendapatkan daftar pekerjaan aktivasi untuk toko urutan dengan id`1234567890`.  

```
aws omics list-read-set-activation-jobs \
    --sequence-store-id 1234567890
```
Output:  

```
{
    "activationJobs": [
        {
            "completionTime": "2022-12-06T22:33:42.828Z",
            "creationTime": "2022-12-06T22:32:45.213Z",
            "id": "1234567890",
            "sequenceStoreId": "1234567890",
            "status": "COMPLETED"
        },
        {
            "creationTime": "2022-12-06T22:35:10.100Z",
            "id": "1234567890",
            "sequenceStoreId": "1234567890",
            "status": "IN_PROGRESS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListReadSetActivationJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-read-set-activation-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-read-set-export-jobs`
<a name="omics_ListReadSetExportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-read-set-export-jobs`.

**AWS CLI**  
**Untuk mendapatkan daftar pekerjaan ekspor set baca**  
`list-read-set-export-jobs`Contoh berikut mendapatkan daftar pekerjaan ekspor untuk toko urutan dengan id`1234567890`.  

```
aws omics list-read-set-export-jobs \
    --sequence-store-id 1234567890
```
Output:  

```
{
    "exportJobs": [
        {
            "completionTime": "2022-12-06T22:39:14.491Z",
            "creationTime": "2022-12-06T22:37:18.612Z",
            "destination": "s3://omics-artifacts-01d6xmpl4e72dd32/read-set-export/",
            "id": "1234567890",
            "sequenceStoreId": "1234567890",
            "status": "COMPLETED"
        },
        {
            "creationTime": "2022-12-06T22:38:04.871Z",
            "destination": "s3://omics-artifacts-01d6xmpl4e72dd32/read-set-export/",
            "id": "1234567890",
            "sequenceStoreId": "1234567890",
            "status": "IN_PROGRESS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListReadSetExportJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-read-set-export-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-read-set-import-jobs`
<a name="omics_ListReadSetImportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-read-set-import-jobs`.

**AWS CLI**  
**Untuk mendapatkan daftar pekerjaan impor set baca**  
`list-read-set-import-jobs`Contoh berikut mendapatkan daftar pekerjaan impor untuk toko urutan dengan id`1234567890`.  

```
aws omics list-read-set-import-jobs \
    --sequence-store-id 1234567890
```
Output:  

```
{
    "importJobs": [
        {
            "completionTime": "2022-11-29T18:17:49.244Z",
            "creationTime": "2022-11-29T17:32:47.700Z",
            "id": "1234567890",
            "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
            "sequenceStoreId": "1234567890",
            "status": "COMPLETED"
        },
        {
            "completionTime": "2022-11-23T22:01:34.090Z",
            "creationTime": "2022-11-23T21:52:43.289Z",
            "id": "1234567890",
            "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
            "sequenceStoreId": "1234567890",
            "status": "COMPLETED_WITH_FAILURES"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListReadSetImportJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-read-set-import-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-read-set-upload-parts`
<a name="omics_ListReadSetUploadParts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-read-set-upload-parts`.

**AWS CLI**  
**Untuk mencantumkan semua bagian dalam unggahan multibagian yang diminta untuk penyimpanan urutan.**  
`list-read-set-upload-parts`Contoh berikut mencantumkan semua bagian dalam unggahan multipart yang diminta untuk toko urutan.  

```
aws omics list-read-set-upload-parts \
    --sequence-store-id 0123456789 \
    --upload-id 1122334455 \
    --part-source SOURCE1
```
Output:  

```
{
    "parts": [
        {
            "partNumber": 1,
            "partSize": 94371840,
            "file": "SOURCE1",
            "checksum": "984979b9928ae8d8622286c4a9cd8e99d964a22d59ed0f5722e1733eb280e635",
            "lastUpdatedTime": "2023-02-02T20:14:47.533000+00:00"
        }
        {
            "partNumber": 2,
            "partSize": 10471840,
            "file": "SOURCE1",
            "checksum": "984979b9928ae8d8622286c4a9cd8e99d964a22d59ed0f5722e1733eb280e635",
            "lastUpdatedTime": "2023-02-02T20:14:47.533000+00:00"
        }
      ]

}
```
Untuk informasi selengkapnya, lihat [Unggahan langsung ke penyimpanan urutan](https://docs.aws.amazon.com/omics/latest/dev/synchronous-uploads.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [ListReadSetUploadParts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-read-set-upload-parts.html)di *Referensi AWS CLI Perintah*. 

### `list-read-sets`
<a name="omics_ListReadSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-read-sets`.

**AWS CLI**  
**Untuk mendapatkan daftar set baca**  
`list-read-sets`Contoh berikut mendapatkan daftar set baca untuk toko urutan dengan id`1234567890`.  

```
aws omics list-read-sets \
    --sequence-store-id 1234567890
```
Output:  

```
{
    "readSets": [
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:sequenceStore/1234567890/readSet/1234567890",
            "creationTime": "2022-11-23T21:55:00.515Z",
            "fileType": "FASTQ",
            "id": "1234567890",
            "name": "HG00146",
            "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890",
            "sampleId": "fastq-sample",
            "sequenceStoreId": "1234567890",
            "status": "ACTIVE",
            "subjectId": "fastq-subject"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListReadSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-read-sets.html)di *Referensi AWS CLI Perintah*. 

### `list-reference-import-jobs`
<a name="omics_ListReferenceImportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-reference-import-jobs`.

**AWS CLI**  
**Untuk mendapatkan daftar lowongan kerja impor referensi**  
`list-reference-import-jobs`Contoh berikut mendapatkan daftar pekerjaan impor referensi untuk toko referensi dengan id`1234567890`.  

```
aws omics list-reference-import-jobs \
    --reference-store-id 1234567890
```
Output:  

```
{
    "importJobs": [
        {
            "completionTime": "2022-11-23T19:54:58.204Z",
            "creationTime": "2022-11-23T19:53:20.729Z",
            "id": "1234567890",
            "referenceStoreId": "1234567890",
            "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
            "status": "COMPLETED"
        },
        {
            "creationTime": "2022-11-23T20:34:03.250Z",
            "id": "1234567890",
            "referenceStoreId": "1234567890",
            "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
            "status": "IN_PROGRESS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListReferenceImportJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-reference-import-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-reference-stores`
<a name="omics_ListReferenceStores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-reference-stores`.

**AWS CLI**  
**Untuk mendapatkan daftar toko referensi**  
`list-reference-stores`Contoh berikut mendapat daftar toko referensi.  

```
aws omics list-reference-stores
```
Output:  

```
{
    "referenceStores": [
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890",
            "creationTime": "2022-11-22T22:13:25.947Z",
            "id": "1234567890",
            "name": "my-ref-store"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListReferenceStores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-reference-stores.html)di *Referensi AWS CLI Perintah*. 

### `list-references`
<a name="omics_ListReferences_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-references`.

**AWS CLI**  
**Untuk mendapatkan daftar referensi**  
`list-references`Contoh berikut mendapatkan daftar referensi genom untuk toko referensi dengan id`1234567890`.  

```
aws omics list-references \
    --reference-store-id 1234567890
```
Output:  

```
{
    "references": [
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890",
            "creationTime": "2022-11-22T22:27:09.033Z",
            "id": "1234567890",
            "md5": "7ff134953dcca8c8997453bbb80b6b5e",
            "name": "assembly-38",
            "referenceStoreId": "1234567890",
            "status": "ACTIVE",
            "updateTime": "2022-11-22T22:27:09.033Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListReferences](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-references.html)di *Referensi AWS CLI Perintah*. 

### `list-run-groups`
<a name="omics_ListRunGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-run-groups`.

**AWS CLI**  
**Untuk mendapatkan daftar grup lari**  
`list-run-groups`Contoh berikut mendapat daftar grup run.  

```
aws omics list-run-groups
```
Output:  

```
{
    "items": [
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:runGroup/1234567",
            "creationTime": "2022-12-01T00:58:42.915219Z",
            "id": "1234567",
            "maxCpus": 20,
            "maxDuration": 600,
            "name": "cram-convert"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat grup yang dijalankan](https://docs.aws.amazon.com/omics/latest/dev/creating-run-groups.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [ListRunGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-run-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-run-tasks`
<a name="omics_ListRunTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-run-tasks`.

**AWS CLI**  
**Untuk mendapatkan daftar tugas**  
`list-run-tasks`Contoh berikut mendapatkan daftar tugas untuk menjalankan alur kerja.  

```
aws omics list-run-tasks \
    --id 1234567
```
Output:  

```
{
    "items": [
        {
            "cpus": 1,
            "creationTime": "2022-11-30T23:13:00.718651Z",
            "memory": 15,
            "name": "CramToBamTask",
            "startTime": "2022-11-30T23:17:47.016Z",
            "status": "COMPLETED",
            "stopTime": "2022-11-30T23:18:21.503Z",
            "taskId": "1234567"
        },
        {
            "cpus": 1,
            "creationTime": "2022-11-30T23:18:32.315606Z",
            "memory": 4,
            "name": "ValidateSamFile",
            "startTime": "2022-11-30T23:23:40.165Z",
            "status": "COMPLETED",
            "stopTime": "2022-11-30T23:24:14.766Z",
            "taskId": "1234567"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Siklus hidup tugas yang HealthOmics dijalankan](https://docs.aws.amazon.com/omics/latest/dev/workflow-run-tasks.html) di *AWS HealthOmics Panduan Pengguna*.  
+  Untuk detail API, lihat [ListRunTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-run-tasks.html)di *Referensi AWS CLI Perintah*. 

### `list-runs`
<a name="omics_ListRuns_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-runs`.

**AWS CLI**  
**Untuk mendapatkan daftar alur kerja berjalan**  
`list-runs`Contoh berikut mendapatkan daftar alur kerja berjalan.  

```
aws omics list-runs
```
Output:  

```
{
    "items": [
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:run/1234567",
            "creationTime": "2022-12-02T23:20:01.202074Z",
            "id": "1234567",
            "name": "cram-to-bam",
            "priority": 1,
            "startTime": "2022-12-02T23:29:18.115Z",
            "status": "COMPLETED",
            "stopTime": "2022-12-02T23:57:54.428812Z",
            "storageCapacity": 10,
            "workflowId": "1234567"
        },
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:run/1234567",
            "creationTime": "2022-12-03T00:16:57.180066Z",
            "id": "1234567",
            "name": "cram-to-bam",
            "priority": 1,
            "startTime": "2022-12-03T00:26:50.233Z",
            "status": "FAILED",
            "stopTime": "2022-12-03T00:37:21.451340Z",
            "storageCapacity": 10,
            "workflowId": "1234567"
        },
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:run/1234567",
            "creationTime": "2022-12-05T17:57:08.444817Z",
            "id": "1234567",
            "name": "cram-to-bam",
            "status": "STARTING",
            "workflowId": "1234567"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menjalankan siklus hidup dalam alur kerja di Panduan](https://docs.aws.amazon.com/omics/latest/dev/monitoring-runs.html) Pengguna.AWS HealthOmics *  
+  Untuk detail API, lihat [ListRuns](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-runs.html)di *Referensi AWS CLI Perintah*. 

### `list-sequence-stores`
<a name="omics_ListSequenceStores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-sequence-stores`.

**AWS CLI**  
**Untuk mendapatkan daftar toko urutan**  
`list-sequence-stores`Contoh berikut mendapat daftar toko urutan.  

```
aws omics list-sequence-stores
```
Output:  

```
{
    "sequenceStores": [
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:sequenceStore/1234567890",
            "creationTime": "2022-11-23T01:24:33.629Z",
            "id": "1234567890",
            "name": "my-seq-store"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListSequenceStores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-sequence-stores.html)di *Referensi AWS CLI Perintah*. 

### `list-shares`
<a name="omics_ListShares_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-shares`.

**AWS CLI**  
**Untuk mencantumkan saham yang tersedia dari data HealthOmics analitik**  
`list-shares`Contoh berikut mencantumkan semua saham yang telah dibuat untuk pemilik sumber daya.  

```
aws omics list-shares \
    --resource-owner SELF
```
Output:  

```
{
    "shares": [
        {
            "shareId": "595c1cbd-a008-4eca-a887-954d30c91c6e",
            "name": "myShare",
            "resourceArn": "arn:aws:omics:us-west-2:555555555555:variantStore/store_1",
            "principalSubscriber": "123456789012",
            "ownerId": "555555555555",
            "status": "PENDING"
        }
        {
            "shareId": "39b65d0d-4368-4a19-9814-b0e31d73c10a",
            "name": "myShare3456",
            "resourceArn": "arn:aws:omics:us-west-2:555555555555:variantStore/store_2",
            "principalSubscriber": "123456789012",
            "ownerId": "555555555555",
            "status": "ACTIVE"
        },
        {
            "shareId": "203152f5-eef9-459d-a4e0-a691668d44ef",
            "name": "myShare4",
            "resourceArn": "arn:aws:omics:us-west-2:555555555555:variantStore/store_3",
            "principalSubscriber": "123456789012",
            "ownerId": "555555555555",
            "status": "ACTIVE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Berbagi lintas akun](https://docs.aws.amazon.com/omics/latest/dev/cross-account-sharing.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [ListShares](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-shares.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="omics_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mendapatkan daftar tag**  
`list-tags-for-resource`Contoh berikut mendapat daftar tag untuk alur kerja dengan id`1234567`.  

```
aws omics list-tags-for-resource \
    --resource-arn arn:aws:omics:us-west-2:123456789012:workflow/1234567
```
Output:  

```
{
    "tags": {
        "department": "analytics"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya di Amazon Omics di Panduan](https://docs.aws.amazon.com/omics/latest/dev/workflows.html) Pengembang *Amazon Omics*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-variant-import-jobs`
<a name="omics_ListVariantImportJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-variant-import-jobs`.

**AWS CLI**  
**Untuk mendapatkan daftar lowongan pekerjaan impor varian**  
`list-variant-import-jobs`Contoh berikut mendapatkan daftar pekerjaan impor varian.  

```
aws omics list-variant-import-jobs
```
Output:  

```
{
    "variantImportJobs": [
        {
            "creationTime": "2022-11-23T22:47:02.514002Z",
            "destinationName": "my_var_store",
            "id": "69cb65d6-xmpl-4a4a-9025-4565794b684e",
            "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
            "runLeftNormalization": false,
            "status": "COMPLETED",
            "updateTime": "2022-11-23T22:49:17.976597Z"
        },
        {
            "creationTime": "2022-11-23T22:42:50.037812Z",
            "destinationName": "my_var_store",
            "id": "edd7b8ce-xmpl-47e2-bc99-258cac95a508",
            "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
            "runLeftNormalization": false,
            "status": "COMPLETED",
            "updateTime": "2022-11-23T22:45:26.009880Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListVariantImportJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-variant-import-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-variant-stores`
<a name="omics_ListVariantStores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-variant-stores`.

**AWS CLI**  
**Untuk mendapatkan daftar toko varian**  
`list-variant-stores`Contoh berikut mendapat daftar toko varian.  

```
aws omics list-variant-stores
```
Output:  

```
{
    "variantStores": [
        {
            "creationTime": "2022-11-23T22:09:07.534499Z",
            "id": "02dexmplcfdd",
            "name": "my_var_store",
            "reference": {
                "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
            },
            "status": "CREATING",
            "storeArn": "arn:aws:omics:us-west-2:123456789012:variantStore/my_var_store",
            "storeSizeBytes": 0,
            "updateTime": "2022-11-23T22:09:24.931711Z"
        },
        {
            "creationTime": "2022-09-23T23:00:09.140265Z",
            "id": "8777xmpl1a24",
            "name": "myvstore0",
            "status": "ACTIVE",
            "storeArn": "arn:aws:omics:us-west-2:123456789012:variantStore/myvstore0",
            "storeSizeBytes": 0,
            "updateTime": "2022-09-23T23:03:26.013220Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [ListVariantStores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-variant-stores.html)di *Referensi AWS CLI Perintah*. 

### `list-workflows`
<a name="omics_ListWorkflows_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-workflows`.

**AWS CLI**  
**Untuk mendapatkan daftar alur kerja**  
`list-workflows`Contoh berikut mendapat daftar alur kerja.  

```
aws omics list-workflows
```
Output:  

```
{
    "items": [
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:workflow/1234567",
            "creationTime": "2022-09-23T23:08:22.041227Z",
            "digest": "nSCNo/qMWFxmplXpUdokXJnwgneOaxyyc2YOxVxrJTE=",
            "id": "1234567",
            "name": "my-wkflow-0",
            "status": "ACTIVE",
            "type": "PRIVATE"
        },
        {
            "arn": "arn:aws:omics:us-west-2:123456789012:workflow/1234567",
            "creationTime": "2022-11-30T22:33:16.225368Z",
            "digest": "sha256:c54bxmpl742dcc26f7fa1f10e37550ddd8f251f418277c0a58e895b801ed28cf",
            "id": "1234567",
            "name": "cram-converter",
            "status": "ACTIVE",
            "type": "PRIVATE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat alur kerja pribadi](https://docs.aws.amazon.com/omics/latest/dev/workflows-setup.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [ListWorkflows](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/list-workflows.html)di *Referensi AWS CLI Perintah*. 

### `start-annotation-import-job`
<a name="omics_StartAnnotationImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-annotation-import-job`.

**AWS CLI**  
**Untuk mengimpor anotasi**  
`start-annotation-import-job`Contoh berikut mengimpor anotasi dari Amazon S3.  

```
aws omics start-annotation-import-job \
    --destination-name tsv_ann_store \
    --no-run-left-normalization \
    --role-arn arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ \
    --items source=s3://omics-artifacts-01d6xmpl4e72dd32/targetedregions.bed.gz
```
Output:  

```
{
    "jobId": "984162c7-xmpl-4d23-ab47-286f7950bfbf"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [StartAnnotationImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/start-annotation-import-job.html)di *Referensi AWS CLI Perintah*. 

### `start-read-set-activation-job`
<a name="omics_StartReadSetActivationJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-read-set-activation-job`.

**AWS CLI**  
**Untuk mengaktifkan set baca yang diarsipkan**  
`start-read-set-activation-job`Contoh berikut mengaktifkan dua set baca.  

```
aws omics start-read-set-activation-job \
    --sequence-store-id 1234567890 \
    --sources readSetId=1234567890 readSetId=1234567890
```
Output:  

```
{
    "creationTime": "2022-12-06T22:35:10.100Z",
    "id": "1234567890",
    "sequenceStoreId": "1234567890",
    "status": "SUBMITTED"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [StartReadSetActivationJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/start-read-set-activation-job.html)di *Referensi AWS CLI Perintah*. 

### `start-read-set-export-job`
<a name="omics_StartReadSetExportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-read-set-export-job`.

**AWS CLI**  
**Untuk mengekspor set baca**  
`start-read-set-export-job`Contoh berikut mengekspor dua set baca ke Amazon S3.  

```
   aws omics start-read-set-export-job \
       --sequence-store-id 1234567890 \
       --sources readSetId=1234567890 readSetId=1234567890 \
       --role-arn arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ
\
       --destination s3://omics-artifacts-01d6xmpl4e72dd32/read-set-export/
```
Output:  

```
{
    "creationTime": "2022-12-06T22:37:18.612Z",
    "destination": "s3://omics-artifacts-01d6xmpl4e72dd32/read-set-export/",
    "id": "1234567890",
    "sequenceStoreId": "1234567890",
    "status": "SUBMITTED"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [StartReadSetExportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/start-read-set-export-job.html)di *Referensi AWS CLI Perintah*. 

### `start-read-set-import-job`
<a name="omics_StartReadSetImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-read-set-import-job`.

**AWS CLI**  
**Untuk mengimpor set baca**  
`start-read-set-import-job`Contoh berikut mengimpor set baca.  

```
aws omics start-read-set-import-job \
    --sequence-store-id 1234567890 \
    --role-arn arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ \
    --sources file://readset-sources.json
```
readset-sources.json adalah dokumen JSON dengan konten berikut.  

```
[
    {
        "sourceFiles":
        {
            "source1": "s3://omics-artifacts-01d6xmpl4e72dd32/HG00100.chrom20.ILLUMINA.bwa.GBR.low_coverage.20101123.bam"
        },
        "sourceFileType": "BAM",
        "subjectId": "bam-subject",
        "sampleId": "bam-sample",
        "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890",
        "name": "HG00100"
    }
]
```
Output:  

```
{
    "creationTime": "2022-11-23T01:36:38.158Z",
    "id": "1234567890",
    "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
    "sequenceStoreId": "1234567890",
    "status": "SUBMITTED"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [StartReadSetImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/start-read-set-import-job.html)di *Referensi AWS CLI Perintah*. 

### `start-reference-import-job`
<a name="omics_StartReferenceImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-reference-import-job`.

**AWS CLI**  
**Untuk mengimpor genom referensi**  
`start-reference-import-job`Contoh berikut mengimpor genom referensi dari Amazon S3.  

```
aws omics start-reference-import-job \
    --reference-store-id 1234567890 \
    --role-arn arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ \
    --sources sourceFile=s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.fasta,name=assembly-38
```
Output:  

```
{
    "creationTime": "2022-11-22T22:25:41.124Z",
    "id": "1234567890",
    "referenceStoreId": "1234567890",
    "roleArn": "arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ",
    "status": "SUBMITTED"
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/sequence-stores.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [StartReferenceImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/start-reference-import-job.html)di *Referensi AWS CLI Perintah*. 

### `start-run`
<a name="omics_StartRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-run`.

**AWS CLI**  
**Untuk menjalankan alur kerja**  
`start-run`Contoh berikut menjalankan alur kerja dengan ID`1234567`.  

```
aws omics start-run \
    --workflow-id 1234567 \
    --role-arn arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ \
    --name 'cram-to-bam' \
    --output-uri s3://omics-artifacts-01d6xmpl4e72dd32/workflow-output/ \
    --run-group-id 1234567 \
    --priority 1 \
    --storage-capacity 10 \
    --log-level ALL \
    --parameters file://workflow-inputs.json
```
workflow-inputs.json adalah dokumen JSON dengan konten berikut.  

```
{
    "sample_name": "NA12878",
    "input_cram": "s3://omics-artifacts-01d6xmpl4e72dd32/NA12878.cram",
    "ref_dict": "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.dict",
    "ref_fasta": "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.fasta",
    "ref_fasta_index": "omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.fasta.fai"
}
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:run/1234567",
    "id": "1234567",
    "status": "PENDING",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Memulai](https://docs.aws.amazon.com/omics/latest/dev/starting-a-run.html) proses di *Panduan AWS HealthOmics Pengguna*.  
**Untuk memuat file sumber dari Amazon Omics**  
Anda juga dapat memuat file sumber dari penyimpanan Amazon Omics, dengan menggunakan layanan URIs khusus. Contoh file workflow-inputs.json berikut menggunakan Amazon URIs Omics untuk kumpulan baca dan sumber genom referensi.  

```
{
    "sample_name": "NA12878",
    "input_cram": "omics://123456789012.storage.us-west-2.amazonaws.com/1234567890/readSet/1234567890/source1",
    "ref_dict": "s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.dict",
    "ref_fasta": "omics://123456789012.storage.us-west-2.amazonaws.com/1234567890/reference/1234567890",
    "ref_fasta_index": "omics://123456789012.storage.us-west-2.amazonaws.com/1234567890/reference/1234567890/index"
}
```
+  Untuk detail API, lihat [StartRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/start-run.html)di *Referensi AWS CLI Perintah*. 

### `start-variant-import-job`
<a name="omics_StartVariantImportJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-variant-import-job`.

**AWS CLI**  
**Untuk mengimpor file varian**  
`start-variant-import-job`Contoh berikut mengimpor file varian format VCF.  

```
aws omics start-variant-import-job \
    --destination-name my_var_store \
    --no-run-left-normalization  \
    --role-arn arn:aws:iam::123456789012:role/omics-service-role-serviceRole-W8O1XMPL7QZ \
    --items source=s3://omics-artifacts-01d6xmpl4e72dd32/Homo_sapiens_assembly38.known_indels.vcf.gz
```
Output:  

```
{
    "jobId": "edd7b8ce-xmpl-47e2-bc99-258cac95a508"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [StartVariantImportJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/start-variant-import-job.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="omics_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut menambahkan `department` tag ke alur kerja dengan id`1234567`.  

```
aws omics tag-resource \
    --resource-arn arn:aws:omics:us-west-2:123456789012:workflow/1234567 \
    --tags department=analytics
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya di Amazon Omics di Panduan](https://docs.aws.amazon.com/omics/latest/dev/workflows.html) Pengembang *Amazon Omics*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="omics_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus `department` tag dari alur kerja.  

```
aws omics untag-resource \
    --resource-arn arn:aws:omics:us-west-2:123456789012:workflow/1234567 \
    --tag-keys department
```
Untuk informasi selengkapnya, lihat [Penyimpanan Omics](https://docs.aws.amazon.com/omics/latest/dev/tagging.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-annotation-store`
<a name="omics_UpdateAnnotationStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-annotation-store`.

**AWS CLI**  
**Untuk memperbarui toko anotasi**  
`update-annotation-store`Contoh berikut memperbarui deskripsi toko anotasi bernama`my_vcf_store`.  

```
aws omics update-annotation-store \
    --name my_vcf_store \
    --description "VCF annotation store"
```
Output:  

```
{
    "creationTime": "2022-12-05T18:00:56.101860Z",
    "description": "VCF annotation store",
    "id": "bd6axmpl2444",
    "name": "my_vcf_store",
    "reference": {
        "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
    },
    "status": "ACTIVE",
    "storeFormat": "VCF",
    "updateTime": "2022-12-05T18:13:16.100051Z"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [UpdateAnnotationStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/update-annotation-store.html)di *Referensi AWS CLI Perintah*. 

### `update-run-group`
<a name="omics_UpdateRunGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-run-group`.

**AWS CLI**  
**Untuk memperbarui grup run**  
`update-run-group`Contoh berikut memperbarui pengaturan grup run dengan id`1234567`.  

```
aws omics update-run-group \
    --id 1234567 \
    --max-cpus 10
```
Output:  

```
{
    "arn": "arn:aws:omics:us-west-2:123456789012:runGroup/1234567",
    "creationTime": "2022-12-01T00:58:42.915219Z",
    "id": "1234567",
    "maxCpus": 10,
    "maxDuration": 600,
    "name": "cram-convert",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Alur Kerja Omics](https://docs.aws.amazon.com/omics/latest/dev/workflows.html) di Panduan Pengembang *Amazon Omics*.  
+  Untuk detail API, lihat [UpdateRunGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/update-run-group.html)di *Referensi AWS CLI Perintah*. 

### `update-variant-store`
<a name="omics_UpdateVariantStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-variant-store`.

**AWS CLI**  
**Untuk memperbarui toko varian**  
`update-variant-store`Contoh berikut memperbarui deskripsi toko varian bernama`my_var_store`.  

```
aws omics update-variant-store \
    --name my_var_store \
    --description "variant store"
```
Output:  

```
{
    "creationTime": "2022-11-23T22:09:07.534499Z",
    "description": "variant store",
    "id": "02dexmplcfdd",
    "name": "my_var_store",
    "reference": {
        "referenceArn": "arn:aws:omics:us-west-2:123456789012:referenceStore/1234567890/reference/1234567890"
    },
    "status": "ACTIVE",
    "updateTime": "2022-12-05T18:23:37.686402Z"
}
```
Untuk informasi selengkapnya, lihat [Omics Analytics](https://docs.aws.amazon.com/omics/latest/dev/omics-analytics.html) di Panduan *Pengembang Amazon Omics*.  
+  Untuk detail API, lihat [UpdateVariantStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/update-variant-store.html)di *Referensi AWS CLI Perintah*. 

### `update-workflow`
<a name="omics_UpdateWorkflow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-workflow`.

**AWS CLI**  
**Untuk memperbarui alur kerja**  
`update-workflow`Contoh berikut memperbarui deskripsi alur kerja dengan ID`1234567`.  

```
aws omics update-workflow \
    --id 1234567 \
    --description "copy workflow"
```
Untuk informasi selengkapnya, lihat [Membuat atau memperbarui alur kerja](https://docs.aws.amazon.com/omics/latest/dev/creating-private-workflows.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [UpdateWorkflow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/update-workflow.html)di *Referensi AWS CLI Perintah*. 

### `upload-read-set-part`
<a name="omics_UploadReadSetPart_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-read-set-part`.

**AWS CLI**  
**Untuk mengunggah bagian set baca.**  
`upload-read-set-part`Contoh berikut mengunggah bagian tertentu dari set baca.  

```
aws omics upload-read-set-part \
    --sequence-store-id 0123456789 \
    --upload-id 1122334455 \
    --part-source SOURCE1 \
    --part-number 1 \
    --payload /path/to/file/read_1_part_1.fastq.gz
```
Output:  

```
{
    "checksum": "984979b9928ae8d8622286c4a9cd8e99d964a22d59ed0f5722e1733eb280e635"
}
```
Untuk informasi selengkapnya, lihat [Unggahan langsung ke penyimpanan urutan](https://docs.aws.amazon.com/omics/latest/dev/synchronous-uploads.html) di *Panduan AWS HealthOmics Pengguna*.  
+  Untuk detail API, lihat [UploadReadSetPart](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/omics/upload-read-set-part.html)di *Referensi AWS CLI Perintah*. 

# Contoh IAM menggunakan AWS CLI
<a name="cli_2_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with IAM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-client-id-to-open-id-connect-provider`
<a name="iam_AddClientIdToOpenIdConnectProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-client-id-to-open-id-connect-provider`.

**AWS CLI**  
**Untuk menambahkan ID klien (audiens) ke penyedia Open-ID Connect (OIDC)**  
`add-client-id-to-open-id-connect-provider`Perintah berikut menambahkan ID klien `my-application-ID` ke penyedia OIDC bernama. `server.example.com`  

```
aws iam add-client-id-to-open-id-connect-provider \
    --client-id my-application-ID \
    --open-id-connect-provider-arn arn:aws:iam::123456789012:oidc-provider/server.example.com
```
Perintah ini tidak menghasilkan output.  
Untuk membuat penyedia OIDC, gunakan perintah. `create-open-id-connect-provider`  
*Untuk informasi selengkapnya, lihat [Membuat penyedia identitas OpenID Connect (OIDC)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_oidc.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [AddClientIdToOpenIdConnectProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/add-client-id-to-open-id-connect-provider.html)di *Referensi AWS CLI Perintah*. 

### `add-role-to-instance-profile`
<a name="iam_AddRoleToInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-role-to-instance-profile`.

**AWS CLI**  
**Untuk menambahkan peran ke profil instance**  
`add-role-to-instance-profile`Perintah berikut menambahkan peran bernama `S3Access` ke profil instance bernama`Webserver`.  

```
aws iam add-role-to-instance-profile \
    --role-name S3Access \
    --instance-profile-name Webserver
```
Perintah ini tidak menghasilkan output.  
Untuk membuat profil instance, gunakan `create-instance-profile` perintah.  
Untuk informasi selengkapnya, lihat [Menggunakan peran IAM untuk memberikan izin ke aplikasi yang berjalan dalam instans Amazon EC2](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_switch-role-ec2.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [AddRoleToInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/add-role-to-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `add-user-to-group`
<a name="iam_AddUserToGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-user-to-group`.

**AWS CLI**  
**Untuk menambahkan pengguna ke grup IAM**  
`add-user-to-group`Perintah berikut menambahkan pengguna IAM bernama `Bob` ke grup IAM bernama. `Admins`  

```
aws iam add-user-to-group \
    --user-name Bob \
    --group-name Admins
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan dan menghapus pengguna dalam grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_manage_add-remove-users.html) di Panduan *Pengguna AWS IAM*.  
+  Untuk detail API, lihat [AddUserToGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/add-user-to-group.html)di *Referensi AWS CLI Perintah*. 

### `attach-group-policy`
<a name="iam_AttachGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-group-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan terkelola ke grup IAM**  
`attach-group-policy`Perintah berikut melampirkan kebijakan AWS terkelola bernama `ReadOnlyAccess` ke grup IAM bernama. `Finance`  

```
aws iam attach-group-policy \
    --policy-arn arn:aws:iam::aws:policy/ReadOnlyAccess \
    --group-name Finance
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan terkelola dan kebijakan sebaris](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_managed-vs-inline.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [AttachGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/attach-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `attach-role-policy`
<a name="iam_AttachRolePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-role-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan terkelola ke peran IAM**  
`attach-role-policy`Perintah berikut melampirkan kebijakan AWS terkelola bernama `ReadOnlyAccess` ke peran IAM bernama. `ReadOnlyRole`  

```
aws iam attach-role-policy \
    --policy-arn arn:aws:iam::aws:policy/ReadOnlyAccess \
    --role-name ReadOnlyRole
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan terkelola dan kebijakan sebaris](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_managed-vs-inline.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [AttachRolePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/attach-role-policy.html)di *Referensi AWS CLI Perintah*. 

### `attach-user-policy`
<a name="iam_AttachUserPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-user-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan terkelola ke pengguna IAM**  
`attach-user-policy`Perintah berikut melampirkan kebijakan AWS terkelola bernama `AdministratorAccess` ke pengguna IAM bernama. `Alice`  

```
aws iam attach-user-policy \
    --policy-arn arn:aws:iam::aws:policy/AdministratorAccess \
    --user-name Alice
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan terkelola dan kebijakan sebaris](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_managed-vs-inline.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [AttachUserPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/attach-user-policy.html)di *Referensi AWS CLI Perintah*. 

### `change-password`
<a name="iam_ChangePassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`change-password`.

**AWS CLI**  
**Untuk mengubah kata sandi untuk pengguna IAM Anda**  
Untuk mengubah kata sandi untuk pengguna IAM Anda, sebaiknya gunakan `--cli-input-json` parameter untuk meneruskan file JSON yang berisi kata sandi lama dan baru Anda. Dengan menggunakan metode ini, Anda dapat menggunakan kata sandi yang kuat dengan karakter non-alfanumerik. Mungkin sulit untuk menggunakan kata sandi dengan karakter non-alfanumerik ketika Anda meneruskannya sebagai parameter baris perintah. Untuk menggunakan `--cli-input-json` parameter, mulailah dengan menggunakan `change-password` perintah dengan `--generate-cli-skeleton` parameter, seperti pada contoh berikut.  

```
aws iam change-password \
    --generate-cli-skeleton > change-password.json
```
Perintah sebelumnya membuat file JSON bernama change-password.json yang dapat Anda gunakan untuk mengisi kata sandi lama dan baru Anda. Misalnya, file mungkin terlihat seperti berikut ini.  

```
{
    "OldPassword": "3s0K_;xh4~8XXI",
    "NewPassword": "]35d/{pB9Fo9wJ"
}
```
Selanjutnya, untuk mengubah kata sandi Anda, gunakan `change-password` perintah lagi, kali ini melewati `--cli-input-json` parameter untuk menentukan file JSON Anda. `change-password`Perintah berikut menggunakan `--cli-input-json` parameter dengan file JSON yang disebut change-password.json.  

```
aws iam change-password \
    --cli-input-json file://change-password.json
```
Perintah ini tidak menghasilkan output.  
Perintah ini hanya dapat dipanggil oleh pengguna IAM. Jika perintah ini disebut menggunakan kredensi AWS akun (root), perintah mengembalikan kesalahan`InvalidUserType`.  
Untuk informasi selengkapnya, lihat [Cara pengguna IAM mengubah kata sandi mereka sendiri](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_passwords_user-change-own.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ChangePassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/change-password.html)di *Referensi AWS CLI Perintah*. 

### `create-access-key`
<a name="iam_CreateAccessKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-access-key`.

**AWS CLI**  
**Untuk membuat kunci akses untuk pengguna IAM**  
`create-access-key`Perintah berikut membuat kunci akses (ID kunci akses dan kunci akses rahasia) untuk pengguna IAM bernama`Bob`.  

```
aws iam create-access-key \
    --user-name Bob
```
Output:  

```
{
    "AccessKey": {
        "UserName": "Bob",
        "Status": "Active",
        "CreateDate": "2015-03-09T18:39:23.411Z",
        "SecretAccessKey": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYzEXAMPLEKEY",
        "AccessKeyId": "AKIAIOSFODNN7EXAMPLE"
    }
}
```
Simpan kunci akses rahasia di lokasi yang aman. Jika hilang, itu tidak dapat dipulihkan, dan Anda harus membuat kunci akses baru.  
Untuk informasi lebih lanjut, lihat [Mengelola access key untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_access-keys.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [CreateAccessKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-access-key.html)di *Referensi AWS CLI Perintah*. 

### `create-account-alias`
<a name="iam_CreateAccountAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-account-alias`.

**AWS CLI**  
**Untuk membuat alias akun**  
`create-account-alias`Perintah berikut membuat alias `examplecorp` untuk AWS akun Anda.  

```
aws iam create-account-alias \
    --account-alias examplecorp
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ID AWS akun Anda dan aliasnya](https://docs.aws.amazon.com/IAM/latest/UserGuide/console_account-alias.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [CreateAccountAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-account-alias.html)di *Referensi AWS CLI Perintah*. 

### `create-group`
<a name="iam_CreateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group`.

**AWS CLI**  
**Untuk membuat grup IAM**  
`create-group`Perintah berikut membuat grup IAM bernama`Admins`.  

```
aws iam create-group \
    --group-name Admins
```
Output:  

```
{
    "Group": {
        "Path": "/",
        "CreateDate": "2015-03-09T20:30:24.940Z",
        "GroupId": "AIDGPMS9RO4H3FEXAMPLE",
        "Arn": "arn:aws:iam::123456789012:group/Admins",
        "GroupName": "Admins"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_create.html) di Panduan *Pengguna AWS IAM*.  
+  Untuk detail API, lihat [CreateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-group.html)di *Referensi AWS CLI Perintah*. 

### `create-instance-profile`
<a name="iam_CreateInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-instance-profile`.

**AWS CLI**  
**Untuk membuat profil instance**  
`create-instance-profile`Perintah berikut menciptakan sebuah contoh profil bernama`Webserver`.  

```
aws iam create-instance-profile \
    --instance-profile-name Webserver
```
Output:  

```
{
    "InstanceProfile": {
        "InstanceProfileId": "AIPAJMBYC7DLSPEXAMPLE",
        "Roles": [],
        "CreateDate": "2015-03-09T20:33:19.626Z",
        "InstanceProfileName": "Webserver",
        "Path": "/",
        "Arn": "arn:aws:iam::123456789012:instance-profile/Webserver"
    }
}
```
Untuk menambahkan peran ke profil instance, gunakan `add-role-to-instance-profile` perintah.  
Untuk informasi selengkapnya, lihat [Menggunakan peran IAM untuk memberikan izin ke aplikasi yang berjalan dalam instans Amazon EC2](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_switch-role-ec2.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [CreateInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-login-profile`
<a name="iam_CreateLoginProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-login-profile`.

**AWS CLI**  
**Untuk membuat kata sandi untuk pengguna IAM**  
Untuk membuat kata sandi untuk pengguna IAM, sebaiknya gunakan `--cli-input-json` parameter untuk meneruskan file JSON yang berisi kata sandi. Dengan menggunakan metode ini, Anda dapat membuat kata sandi yang kuat dengan karakter non-alfanumerik. Mungkin sulit untuk membuat kata sandi dengan karakter non-alfanumerik ketika Anda meneruskannya sebagai parameter baris perintah.  
Untuk menggunakan `--cli-input-json` parameter, mulailah dengan menggunakan `create-login-profile` perintah dengan `--generate-cli-skeleton` parameter, seperti pada contoh berikut.  

```
aws iam create-login-profile \
    --generate-cli-skeleton > create-login-profile.json
```
Perintah sebelumnya membuat file JSON yang disebut create-login-profile .json yang dapat Anda gunakan untuk mengisi informasi untuk perintah berikutnya. `create-login-profile` Contoh:  

```
{
    "UserName": "Bob",
    "Password": "&1-3a6u:RA0djs",
    "PasswordResetRequired": true
}
```
Selanjutnya, untuk membuat kata sandi untuk pengguna IAM, gunakan `create-login-profile` perintah lagi, kali ini melewati `--cli-input-json` parameter untuk menentukan file JSON Anda. `create-login-profile`Perintah berikut menggunakan `--cli-input-json` parameter dengan file JSON yang disebut create-login-profile .json.  

```
aws iam create-login-profile \
    --cli-input-json file://create-login-profile.json
```
Output:  

```
{
    "LoginProfile": {
        "UserName": "Bob",
        "CreateDate": "2015-03-10T20:55:40.274Z",
        "PasswordResetRequired": true
    }
}
```
Jika kata sandi baru melanggar kebijakan kata sandi akun, perintah mengembalikan `PasswordPolicyViolation` kesalahan.  
Untuk mengubah kata sandi untuk pengguna yang sudah memilikinya, gunakan`update-login-profile`. Untuk menetapkan kebijakan kata sandi untuk akun, gunakan `update-account-password-policy` perintah.  
Jika kebijakan kata sandi akun memungkinkan mereka untuk, pengguna IAM dapat mengubah kata sandi mereka sendiri menggunakan `change-password` perintah.  
Untuk informasi selengkapnya, lihat [Mengelola kata sandi untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_passwords_admin-change-user.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [CreateLoginProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-login-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-open-id-connect-provider`
<a name="iam_CreateOpenIdConnectProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-open-id-connect-provider`.

**AWS CLI**  
**Untuk membuat penyedia OpenID Connect (OIDC)**  
Untuk membuat penyedia OpenID Connect (OIDC), sebaiknya gunakan `--cli-input-json` parameter untuk meneruskan file JSON yang berisi parameter yang diperlukan. Saat Anda membuat penyedia OIDC, Anda harus meneruskan URL penyedia, dan URL harus dimulai. `https://` Mungkin sulit untuk meneruskan URL sebagai parameter baris perintah, karena karakter titik dua (:) dan garis miring maju (/) memiliki arti khusus di beberapa lingkungan baris perintah. Menggunakan `--cli-input-json` parameter mengatasi batasan ini.  
Untuk menggunakan `--cli-input-json` parameter, mulailah dengan menggunakan `create-open-id-connect-provider` perintah dengan `--generate-cli-skeleton` parameter, seperti pada contoh berikut.  

```
aws iam create-open-id-connect-provider \
    --generate-cli-skeleton > create-open-id-connect-provider.json
```
Perintah sebelumnya membuat file JSON bernama create-open-id-connect -provider.json yang dapat Anda gunakan untuk mengisi informasi untuk perintah berikutnya. `create-open-id-connect-provider` Contoh:  

```
{
    "Url": "https://server.example.com",
    "ClientIDList": [
        "example-application-ID"
    ],
    "ThumbprintList": [
        "c3768084dfb3d2b68b7897bf5f565da8eEXAMPLE"
    ]
}
```
Selanjutnya, untuk membuat penyedia OpenID Connect (OIDC), gunakan `create-open-id-connect-provider` perintah lagi, kali ini melewati `--cli-input-json` parameter untuk menentukan file JSON Anda. `create-open-id-connect-provider`Perintah berikut menggunakan `--cli-input-json` parameter dengan file JSON bernama create-open-id-connect -provider.json.  

```
aws iam create-open-id-connect-provider \
    --cli-input-json file://create-open-id-connect-provider.json
```
Output:  

```
{
    "OpenIDConnectProviderArn": "arn:aws:iam::123456789012:oidc-provider/server.example.com"
}
```
*Untuk informasi selengkapnya tentang penyedia OIDC, lihat Membuat penyedia identitas [OpenID Connect (OIDC) di Panduan Pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_oidc.html).AWS *  
*Untuk informasi selengkapnya tentang mendapatkan cap jempol untuk penyedia OIDC, lihat [Memperoleh cap jempol untuk Penyedia Identitas OpenID Connect](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_oidc_verify-thumbprint.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [CreateOpenIdConnectProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-open-id-connect-provider.html)di *Referensi AWS CLI Perintah*. 

### `create-policy-version`
<a name="iam_CreatePolicyVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-policy-version`.

**AWS CLI**  
**Untuk membuat versi baru dari kebijakan terkelola**  
Contoh ini membuat `v2` versi baru dari kebijakan IAM yang `arn:aws:iam::123456789012:policy/MyPolicy` ARN-nya dan menjadikannya versi default.  

```
aws iam create-policy-version \
    --policy-arn arn:aws:iam::123456789012:policy/MyPolicy \
    --policy-document file://NewPolicyVersion.json \
    --set-as-default
```
Output:  

```
{
    "PolicyVersion": {
        "CreateDate": "2015-06-16T18:56:03.721Z",
        "VersionId": "v2",
        "IsDefaultVersion": true
    }
}
```
Untuk informasi selengkapnya, lihat [Kebijakan IAM Versi di Panduan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_managed-versioning.html) Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [CreatePolicyVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-policy-version.html)di *Referensi AWS CLI Perintah*. 

### `create-policy`
<a name="iam_CreatePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-policy`.

**AWS CLI**  
**Contoh 1: Untuk membuat kebijakan terkelola pelanggan**  
Perintah berikut membuat kebijakan terkelola pelanggan bernama`my-policy`. File tersebut `policy.json` adalah dokumen JSON di folder saat ini yang memberikan akses baca saja ke `shared` folder dalam bucket Amazon S3 bernama. `amzn-s3-demo-bucket`  

```
aws iam create-policy \
    --policy-name my-policy \
    --policy-document file://policy.json
```
Isi policy.json:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action": [
                "s3:Get*",
                "s3:List*"
            ],
            "Resource": [
                "arn:aws:s3:::amzn-s3-demo-bucket/shared/*"
            ]
        }
    ]
}
```
Output:  

```
{
    "Policy": {
        "PolicyName": "my-policy",
        "CreateDate": "2015-06-01T19:31:18.620Z",
        "AttachmentCount": 0,
        "IsAttachable": true,
        "PolicyId": "ZXR6A36LTYANPAI7NJ5UV",
        "DefaultVersionId": "v1",
        "Path": "/",
        "Arn": "arn:aws:iam::0123456789012:policy/my-policy",
        "UpdateDate": "2015-06-01T19:31:18.620Z"
    }
}
```
Untuk informasi lebih lanjut tentang menggunakan file sebagai input untuk parameter string, lihat [Menentukan nilai parameter untuk AWS CLI di Panduan](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters.html) Pengguna *AWS CLI*.  
**Contoh 2: Untuk membuat kebijakan yang dikelola pelanggan dengan deskripsi**  
Perintah berikut membuat kebijakan terkelola pelanggan bernama `my-policy` dengan deskripsi yang tidak dapat diubah.  
File tersebut `policy.json` adalah dokumen JSON di folder saat ini yang memberikan akses ke semua tindakan Put, List, dan Get untuk bucket Amazon S3 bernama. `amzn-s3-demo-bucket`  

```
aws iam create-policy \
    --policy-name my-policy \
    --policy-document file://policy.json \
    --description "This policy grants access to all Put, Get, and List actions for amzn-s3-demo-bucket"
```
Isi policy.json:  

```
{
   "Version":"2012-10-17",		 	 	 
   "Statement": [
       {
           "Effect": "Allow",
           "Action": [
                "s3:ListBucket*",
                "s3:PutBucket*",
                "s3:GetBucket*"
            ],
            "Resource": [
                "arn:aws:s3:::amzn-s3-demo-bucket"
            ]
        }
    ]
}
```
Output:  

```
{
    "Policy": {
        "PolicyName": "my-policy",
        "PolicyId": "ANPAWGSUGIDPEXAMPLE",
        "Arn": "arn:aws:iam::123456789012:policy/my-policy",
        "Path": "/",
        "DefaultVersionId": "v1",
        "AttachmentCount": 0,
        "PermissionsBoundaryUsageCount": 0,
        "IsAttachable": true,
        "CreateDate": "2023-05-24T22:38:47+00:00",
        "UpdateDate": "2023-05-24T22:38:47+00:00"
    }
}
```
*Untuk informasi selengkapnya tentang Kebijakan Berbasis Identifikasi, lihat Kebijakan berbasis [identitas dan kebijakan berbasis sumber daya di Panduan Pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_identity-vs-resource.html).AWS *  
**Contoh 3: Untuk membuat kebijakan terkelola pelanggan dengan tag**  
Perintah berikut membuat kebijakan terkelola pelanggan bernama `my-policy` dengan tag. Contoh ini menggunakan `--tags` parameter dengan tag berformat JSON berikut:. `'{"Key": "Department", "Value": "Accounting"}' '{"Key": "Location", "Value": "Seattle"}'` Atau, `--tags` parameter dapat digunakan dengan tag dalam format singkatan:. `'Key=Department,Value=Accounting Key=Location,Value=Seattle'`  
File tersebut `policy.json` adalah dokumen JSON di folder saat ini yang memberikan akses ke semua tindakan Put, List, dan Get untuk bucket Amazon S3 bernama. `amzn-s3-demo-bucket`  

```
aws iam create-policy \
    --policy-name my-policy \
    --policy-document file://policy.json \
    --tags '{"Key": "Department", "Value": "Accounting"}' '{"Key": "Location", "Value": "Seattle"}'
```
Isi policy.json:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action": [
                "s3:ListBucket*",
                "s3:PutBucket*",
                "s3:GetBucket*"
            ],
            "Resource": [
                "arn:aws:s3:::amzn-s3-demo-bucket"
            ]
        }
    ]
}
```
Output:  

```
{
    "Policy": {
        "PolicyName": "my-policy",
        "PolicyId": "ANPAWGSUGIDPEXAMPLE",
        "Arn": "arn:aws:iam::12345678012:policy/my-policy",
        "Path": "/",
        "DefaultVersionId": "v1",
        "AttachmentCount": 0,
        "PermissionsBoundaryUsageCount": 0,
        "IsAttachable": true,
        "CreateDate": "2023-05-24T23:16:39+00:00",
        "UpdateDate": "2023-05-24T23:16:39+00:00",
        "Tags": [
            {
                "Key": "Department",
                "Value": "Accounting"
            },
                "Key": "Location",
                "Value": "Seattle"
            {
        ]
    }
}
```
Untuk informasi selengkapnya tentang kebijakan Penandaan, lihat [Menandai kebijakan yang dikelola pelanggan](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags_customer-managed-policies.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [CreatePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-policy.html)di *Referensi AWS CLI Perintah*. 

### `create-role`
<a name="iam_CreateRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-role`.

**AWS CLI**  
**Contoh 1: Untuk membuat peran IAM**  
`create-role`Perintah berikut membuat peran bernama `Test-Role` dan melampirkan kebijakan kepercayaan padanya.  

```
aws iam create-role \
    --role-name Test-Role \
    --assume-role-policy-document file://Test-Role-Trust-Policy.json
```
Output:  

```
{
    "Role": {
        "AssumeRolePolicyDocument": "<URL-encoded-JSON>",
        "RoleId": "AKIAIOSFODNN7EXAMPLE",
        "CreateDate": "2013-06-07T20:43:32.821Z",
        "RoleName": "Test-Role",
        "Path": "/",
        "Arn": "arn:aws:iam::123456789012:role/Test-Role"
    }
}
```
Kebijakan kepercayaan didefinisikan sebagai dokumen JSON dalam file *test-role-trust-policy.json*. (Nama file dan ekstensi tidak memiliki signifikansi.) Kebijakan kepercayaan harus menentukan kepala sekolah.  
Untuk melampirkan kebijakan izin ke peran, gunakan `put-role-policy` perintah.  
Untuk informasi selengkapnya, lihat [Membuat peran IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html) di *Panduan Pengguna AWS IAM*.  
**Contoh 2: Untuk membuat peran IAM dengan durasi sesi maksimum yang ditentukan**  
`create-role`Perintah berikut membuat peran bernama `Test-Role` dan menetapkan durasi sesi maksimum 7200 detik (2 jam).  

```
aws iam create-role \
    --role-name Test-Role \
    --assume-role-policy-document file://Test-Role-Trust-Policy.json \
    --max-session-duration 7200
```
Output:  

```
{
    "Role": {
        "Path": "/",
        "RoleName": "Test-Role",
        "RoleId": "AKIAIOSFODNN7EXAMPLE",
        "Arn": "arn:aws:iam::12345678012:role/Test-Role",
        "CreateDate": "2023-05-24T23:50:25+00:00",
        "AssumeRolePolicyDocument": {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Sid": "Statement1",
                    "Effect": "Allow",
                    "Principal": {
                        "AWS": "arn:aws:iam::12345678012:root"
                    },
                    "Action": "sts:AssumeRole"
                }
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi durasi sesi maksimum peran (AWS API)](https://docs.aws.amazon.com/IAM/latest/UserGuide/roles-managingrole-editing-api.html#roles-modify_max-session-duration-api) di *Panduan Pengguna AWS IAM*.  
**Contoh 3: Untuk membuat Peran IAM dengan tag**  
Perintah berikut membuat Peran IAM `Test-Role` dengan tag. Contoh ini menggunakan bendera `--tags` parameter dengan tag berformat JSON berikut:. `'{"Key": "Department", "Value": "Accounting"}' '{"Key": "Location", "Value": "Seattle"}'` Atau, `--tags` bendera dapat digunakan dengan tag dalam format singkatan:. `'Key=Department,Value=Accounting Key=Location,Value=Seattle'`  

```
aws iam create-role \
    --role-name Test-Role \
    --assume-role-policy-document file://Test-Role-Trust-Policy.json \
    --tags '{"Key": "Department", "Value": "Accounting"}' '{"Key": "Location", "Value": "Seattle"}'
```
Output:  

```
{
    "Role": {
        "Path": "/",
        "RoleName": "Test-Role",
        "RoleId": "AKIAIOSFODNN7EXAMPLE",
        "Arn": "arn:aws:iam::123456789012:role/Test-Role",
        "CreateDate": "2023-05-25T23:29:41+00:00",
        "AssumeRolePolicyDocument": {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Sid": "Statement1",
                    "Effect": "Allow",
                    "Principal": {
                        "AWS": "arn:aws:iam::123456789012:root"
                    },
                    "Action": "sts:AssumeRole"
                }
            ]
        },
        "Tags": [
            {
                "Key": "Department",
                "Value": "Accounting"
            },
            {
                "Key": "Location",
                "Value": "Seattle"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai peran IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags_roles.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [CreateRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-role.html)di *Referensi AWS CLI Perintah*. 

### `create-saml-provider`
<a name="iam_CreateSAMLProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-saml-provider`.

**AWS CLI**  
**Untuk membuat penyedia SAFL**  
Contoh ini menciptakan penyedia SAFL baru di IAM bernama. `MySAMLProvider` Ini dijelaskan oleh dokumen metadata SAMP yang ditemukan dalam file. `SAMLMetaData.xml`  

```
aws iam create-saml-provider \
    --saml-metadata-document file://SAMLMetaData.xml \
    --name MySAMLProvider
```
Output:  

```
{
    "SAMLProviderArn": "arn:aws:iam::123456789012:saml-provider/MySAMLProvider"
}
```
Untuk informasi selengkapnya, lihat [Membuat penyedia identitas IAM SALL](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_saml.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [Membuat SAMLProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-saml-provider.html) di *Referensi AWS CLI Perintah*. 

### `create-service-linked-role`
<a name="iam_CreateServiceLinkedRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service-linked-role`.

**AWS CLI**  
**Untuk membuat peran terkait layanan**  
`create-service-linked-role`Contoh berikut membuat peran terkait layanan untuk AWS layanan tertentu dan melampirkan deskripsi yang ditentukan.  

```
aws iam create-service-linked-role \
    --aws-service-name lex.amazonaws.com \
    --description "My service-linked role to support Lex"
```
Output:  

```
{
    "Role": {
        "Path": "/aws-service-role/lex.amazonaws.com/",
        "RoleName": "AWSServiceRoleForLexBots",
        "RoleId": "AROA1234567890EXAMPLE",
        "Arn": "arn:aws:iam::1234567890:role/aws-service-role/lex.amazonaws.com/AWSServiceRoleForLexBots",
        "CreateDate": "2019-04-17T20:34:14+00:00",
        "AssumeRolePolicyDocument": {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Action": [
                        "sts:AssumeRole"
                    ],
                    "Effect": "Allow",
                    "Principal": {
                        "Service": [
                            "lex.amazonaws.com"
                        ]
                    }
                }
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan peran terkait layanan](https://docs.aws.amazon.com/IAM/latest/UserGuide/using-service-linked-roles.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-service-linked-role.html)di *Referensi AWS CLI Perintah*. 

### `create-service-specific-credential`
<a name="iam_CreateServiceSpecificCredential_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service-specific-credential`.

**AWS CLI**  
**Buat satu set kredensi khusus layanan untuk pengguna**  
`create-service-specific-credential`Contoh berikut membuat nama pengguna dan kata sandi yang dapat digunakan untuk mengakses hanya layanan yang dikonfigurasi.  

```
aws iam create-service-specific-credential \
    --user-name sofia \
    --service-name codecommit.amazonaws.com
```
Output:  

```
{
    "ServiceSpecificCredential": {
        "CreateDate": "2019-04-18T20:45:36+00:00",
        "ServiceName": "codecommit.amazonaws.com",
        "ServiceUserName": "sofia-at-123456789012",
        "ServicePassword": "k1zPZM6uVxMQ3oxqgoYlNuJPyRTZ1vREs76zTQE3eJk=",
        "ServiceSpecificCredentialId": "ACCAEXAMPLE123EXAMPLE",
        "UserName": "sofia",
        "Status": "Active"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat kredensi Git untuk koneksi HTTPS CodeCommit](https://docs.aws.amazon.com/codecommit/latest/userguide/setting-up-gc.html#setting-up-gc-iam) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [CreateServiceSpecificCredential](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-service-specific-credential.html)di *Referensi AWS CLI Perintah*. 

### `create-user`
<a name="iam_CreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user`.

**AWS CLI**  
**Contoh 1: Untuk membuat pengguna IAM**  
`create-user`Perintah berikut membuat pengguna IAM bernama `Bob` di akun saat ini.  

```
aws iam create-user \
    --user-name Bob
```
Output:  

```
{
    "User": {
        "UserName": "Bob",
        "Path": "/",
        "CreateDate": "2023-06-08T03:20:41.270Z",
        "UserId": "AIDAIOSFODNN7EXAMPLE",
        "Arn": "arn:aws:iam::123456789012:user/Bob"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat pengguna IAM di AWS akun Anda](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_users_create.html) di *Panduan Pengguna AWS IAM*.  
**Contoh 2: Untuk membuat pengguna IAM di jalur tertentu**  
`create-user`Perintah berikut membuat pengguna IAM bernama `Bob` di jalur yang ditentukan.  

```
aws iam create-user \
    --user-name Bob \
    --path /division_abc/subdivision_xyz/
```
Output:  

```
{
    "User": {
        "Path": "/division_abc/subdivision_xyz/",
        "UserName": "Bob",
        "UserId": "AIDAIOSFODNN7EXAMPLE",
        "Arn": "arn:aws:iam::12345678012:user/division_abc/subdivision_xyz/Bob",
        "CreateDate": "2023-05-24T18:20:17+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [pengidentifikasi IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/reference_identifiers.html) di Panduan Pengguna *AWS IAM*.  
**Contoh 3: Untuk Membuat Pengguna IAM dengan tag**  
`create-user`Perintah berikut membuat pengguna IAM bernama `Bob` dengan tag. Contoh ini menggunakan bendera `--tags` parameter dengan tag berformat JSON berikut:. `'{"Key": "Department", "Value": "Accounting"}' '{"Key": "Location", "Value": "Seattle"}'` Atau, `--tags` bendera dapat digunakan dengan tag dalam format singkatan:. `'Key=Department,Value=Accounting Key=Location,Value=Seattle'`  

```
aws iam create-user \
    --user-name Bob \
    --tags '{"Key": "Department", "Value": "Accounting"}' '{"Key": "Location", "Value": "Seattle"}'
```
Output:  

```
{
    "User": {
        "Path": "/",
        "UserName": "Bob",
        "UserId": "AIDAIOSFODNN7EXAMPLE",
        "Arn": "arn:aws:iam::12345678012:user/Bob",
        "CreateDate": "2023-05-25T17:14:21+00:00",
        "Tags": [
            {
                "Key": "Department",
                "Value": "Accounting"
            },
            {
                "Key": "Location",
                "Value": "Seattle"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai pengguna IAM di Panduan Pengguna AWS](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags_users.html) *IAM*.  
**Contoh 3: Untuk membuat pengguna IAM dengan batas izin yang ditetapkan**  
`create-user`Perintah berikut membuat pengguna IAM bernama `Bob` dengan batas izin AmazonS3. FullAccess  

```
aws iam create-user \
    --user-name Bob \
    --permissions-boundary arn:aws:iam::aws:policy/AmazonS3FullAccess
```
Output:  

```
{
    "User": {
        "Path": "/",
        "UserName": "Bob",
        "UserId": "AIDAIOSFODNN7EXAMPLE",
        "Arn": "arn:aws:iam::12345678012:user/Bob",
        "CreateDate": "2023-05-24T17:50:53+00:00",
        "PermissionsBoundary": {
        "PermissionsBoundaryType": "Policy",
        "PermissionsBoundaryArn": "arn:aws:iam::aws:policy/AmazonS3FullAccess"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Batasan izin untuk entitas IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_boundaries.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [CreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-user.html)di *Referensi AWS CLI Perintah*. 

### `create-virtual-mfa-device`
<a name="iam_CreateVirtualMfaDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-virtual-mfa-device`.

**AWS CLI**  
**Untuk membuat perangkat MFA virtual**  
Contoh ini menciptakan perangkat MFA virtual baru yang disebut. `BobsMFADevice` Ini membuat file yang berisi informasi bootstrap yang disebut `QRCode.png` dan menempatkannya di `C:/` direktori. Metode bootstrap yang digunakan dalam contoh ini adalah`QRCodePNG`.  

```
aws iam create-virtual-mfa-device \
    --virtual-mfa-device-name BobsMFADevice \
    --outfile C:/QRCode.png \
    --bootstrap-method QRCodePNG
```
Output:  

```
{
    "VirtualMFADevice": {
        "SerialNumber": "arn:aws:iam::210987654321:mfa/BobsMFADevice"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan autentikasi multifaktor (MFA) dalam AWS](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_mfa.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [CreateVirtualMfaDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/create-virtual-mfa-device.html)di *Referensi AWS CLI Perintah*. 

### `deactivate-mfa-device`
<a name="iam_DeactivateMfaDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deactivate-mfa-device`.

**AWS CLI**  
**Untuk menonaktifkan perangkat MFA**  
Perintah ini menonaktifkan perangkat MFA virtual dengan ARN `arn:aws:iam::210987654321:mfa/BobsMFADevice` yang terkait dengan pengguna. `Bob`  

```
aws iam deactivate-mfa-device \
    --user-name Bob \
    --serial-number arn:aws:iam::210987654321:mfa/BobsMFADevice
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan autentikasi multifaktor (MFA) dalam AWS](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_mfa.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [DeactivateMfaDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/deactivate-mfa-device.html)di *Referensi AWS CLI Perintah*. 

### `decode-authorization-message`
<a name="iam_DecodeAuthorizationMessage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decode-authorization-message`.

**AWS CLI**  
**Untuk memecahkan kode pesan kegagalan otorisasi**  
`decode-authorization-message`Contoh berikut menerjemahkan pesan yang dikembalikan oleh konsol EC2 saat mencoba meluncurkan instance tanpa izin yang diperlukan.  

```
aws sts decode-authorization-message \
    --encoded-message lxzA8VEjEvu-s0TTt3PgYCXik9YakOqsrFJGRZR98xNcyWAxwRq14xIvd-npzbgTevuufCTbjeBAaDARg9cbTK1rJbg3awM33o-Vy3ebPErE2-mWR9hVYdvX-0zKgVOWF9pWjZaJSMqxB-aLXo-I_8TTvBq88x8IFPbMArNdpu0IjxDjzf22PF3SOE3XvIQ-_PEO0aUqHCCcsSrFtvxm6yQD1nbm6VTIVrfa0Bzy8lsoMo7SjIaJ2r5vph6SY5vCCwg6o2JKe3hIHTa8zRrDbZSFMkcXOT6EOPkQXmaBsAC6ciG7Pz1JnEOvuj5NSTlSMljrAXczWuRKAs5GsMYiU8KZXZhokVzdQCUZkS5aVHumZbadu0io53jpgZqhMqvS4fyfK4auK0yKRMtS6JCXPlhkolEs7ZMFA0RVkutqhQqpSDPB5SX5l00lYipWyFK0_AyAx60vumPuVh8P0AzXwdFsT0l4D0m42NFIKxbWXsoJdqaOqVFyFEd0-Xx9AYAAIr6bhcis7C__bZh4dlAAWooHFGKgfoJcWGwgdzgbu9hWyVvKTpeot5hsb8qANYjJRCPXTKpi6PZfdijIkwb6gDMEsJ9qMtr62qP_989mwmtNgnVvBa_ir6oxJxVe_kL9SH1j5nsGDxQFajvPQhxWOHvEQIg_H0bnKWk
```
Outputnya diformat sebagai string baris tunggal teks JSON yang dapat Anda uraikan dengan prosesor teks JSON apa pun.  

```
{
    "DecodedMessage": "{\"allowed\":false,\"explicitDeny\":false,\"matchedStatements\":{\"items\":[]},\"failures\":{\"items\":[]},\"context\":{\"principal\":{\"id\":\"AIDAV3ZUEFP6J7GY7O6LO\",\"name\":\"chain-user\",\"arn\":\"arn:aws:iam::403299380220:user/chain-user\"},\"action\":\"ec2:RunInstances\",\"resource\":\"arn:aws:ec2:us-east-2:403299380220:instance/*\",\"conditions\":{\"items\":[{\"key\":\"ec2:InstanceMarketType\",\"values\":{\"items\":[{\"value\":\"on-demand\"}]}},{\"key\":\"aws:Resource\",\"values\":{\"items\":[{\"value\":\"instance/*\"}]}},{\"key\":\"aws:Account\",\"values\":{\"items\":[{\"value\":\"403299380220\"}]}},{\"key\":\"ec2:AvailabilityZone\",\"values\":{\"items\":[{\"value\":\"us-east-2b\"}]}},{\"key\":\"ec2:ebsOptimized\",\"values\":{\"items\":[{\"value\":\"false\"}]}},{\"key\":\"ec2:IsLaunchTemplateResource\",\"values\":{\"items\":[{\"value\":\"false\"}]}},{\"key\":\"ec2:InstanceType\",\"values\":{\"items\":[{\"value\":\"t2.micro\"}]}},{\"key\":\"ec2:RootDeviceType\",\"values\":{\"items\":[{\"value\":\"ebs\"}]}},{\"key\":\"aws:Region\",\"values\":{\"items\":[{\"value\":\"us-east-2\"}]}},{\"key\":\"aws:Service\",\"values\":{\"items\":[{\"value\":\"ec2\"}]}},{\"key\":\"ec2:InstanceID\",\"values\":{\"items\":[{\"value\":\"*\"}]}},{\"key\":\"aws:Type\",\"values\":{\"items\":[{\"value\":\"instance\"}]}},{\"key\":\"ec2:Tenancy\",\"values\":{\"items\":[{\"value\":\"default\"}]}},{\"key\":\"ec2:Region\",\"values\":{\"items\":[{\"value\":\"us-east-2\"}]}},{\"key\":\"aws:ARN\",\"values\":{\"items\":[{\"value\":\"arn:aws:ec2:us-east-2:403299380220:instance/*\"}]}}]}}}"
}
```
Untuk informasi lebih lanjut, lihat [Bagaimana saya bisa memecahkan kode pesan kegagalan otorisasi setelah menerima kesalahan "UnauthorizedOperation" selama peluncuran instans EC2?](https://repost.aws/knowledge-center/ec2-not-auth-launch) di *AWS re:post*.  
+  Untuk detail API, lihat [DecodeAuthorizationMessage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/decode-authorization-message.html)di *Referensi AWS CLI Perintah*. 

### `delete-access-key`
<a name="iam_DeleteAccessKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-access-key`.

**AWS CLI**  
**Untuk menghapus kunci akses untuk pengguna IAM**  
`delete-access-key`Perintah berikut menghapus kunci akses yang ditentukan (ID kunci akses dan kunci akses rahasia) untuk pengguna IAM bernama. `Bob`  

```
aws iam delete-access-key \
    --access-key-id AKIDPMS9RO4H3FEXAMPLE \
    --user-name Bob
```
Perintah ini tidak menghasilkan output.  
Untuk membuat daftar kunci akses yang ditentukan untuk pengguna IAM, gunakan `list-access-keys` perintah.  
Untuk informasi lebih lanjut, lihat [Mengelola access key untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_access-keys.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [DeleteAccessKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-access-key.html)di *Referensi AWS CLI Perintah*. 

### `delete-account-alias`
<a name="iam_DeleteAccountAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-account-alias`.

**AWS CLI**  
**Untuk menghapus alias akun**  
`delete-account-alias`Perintah berikut menghapus alias `mycompany` untuk akun saat ini.  

```
aws iam delete-account-alias \
    --account-alias mycompany
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ID AWS akun Anda dan aliasnya](https://docs.aws.amazon.com/IAM/latest/UserGuide/console_account-alias.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteAccountAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-account-alias.html)di *Referensi AWS CLI Perintah*. 

### `delete-account-password-policy`
<a name="iam_DeleteAccountPasswordPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-account-password-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan kata sandi akun saat ini**  
`delete-account-password-policy`Perintah berikut menghapus kebijakan kata sandi untuk akun saat ini.  

```
aws iam delete-account-password-policy
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyetel kebijakan kata sandi akun untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_passwords_account-policy.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteAccountPasswordPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-account-password-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-group-policy`
<a name="iam_DeleteGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan dari grup IAM**  
`delete-group-policy`Perintah berikut menghapus kebijakan bernama `ExamplePolicy` dari grup bernama`Admins`.  

```
aws iam delete-group-policy \
    --group-name Admins \
    --policy-name ExamplePolicy
```
Perintah ini tidak menghasilkan output.  
Untuk melihat kebijakan yang dilampirkan ke grup, gunakan `list-group-policies` perintah.  
Untuk informasi selengkapnya, lihat [Mengelola kebijakan IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_manage.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-group`
<a name="iam_DeleteGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group`.

**AWS CLI**  
**Untuk menghapus grup IAM**  
`delete-group`Perintah berikut menghapus grup IAM bernama. `MyTestGroup`  

```
aws iam delete-group \
    --group-name MyTestGroup
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_manage_delete.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [DeleteGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-instance-profile`
<a name="iam_DeleteInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-instance-profile`.

**AWS CLI**  
**Untuk menghapus profil instance**  
`delete-instance-profile`Perintah berikut menghapus profil instance bernama`ExampleInstanceProfile`.  

```
aws iam delete-instance-profile \
    --instance-profile-name ExampleInstanceProfile
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Menggunakan profil instance](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_switch-role-ec2_instance-profiles.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [DeleteInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-login-profile`
<a name="iam_DeleteLoginProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-login-profile`.

**AWS CLI**  
**Untuk menghapus kata sandi untuk pengguna IAM**  
`delete-login-profile`Perintah berikut menghapus kata sandi untuk pengguna IAM bernama. `Bob`  

```
aws iam delete-login-profile \
    --user-name Bob
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola kata sandi untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_passwords_admin-change-user.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteLoginProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-login-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-open-id-connect-provider`
<a name="iam_DeleteOpenIdConnectProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-open-id-connect-provider`.

**AWS CLI**  
**Untuk menghapus penyedia identitas OpenID Connect IAM**  
Contoh ini menghapus penyedia IAM OIDC yang terhubung ke penyedia. `example.oidcprovider.com`  

```
aws iam delete-open-id-connect-provider \
    --open-id-connect-provider-arn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Membuat penyedia identitas OpenID Connect (OIDC)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_oidc.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [DeleteOpenIdConnectProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-open-id-connect-provider.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy-version`
<a name="iam_DeletePolicyVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy-version`.

**AWS CLI**  
**Untuk menghapus versi kebijakan terkelola**  
Contoh ini menghapus versi yang diidentifikasi sebagai `v2` dari kebijakan yang `arn:aws:iam::123456789012:policy/MySamplePolicy` ARN-nya.  

```
aws iam delete-policy-version \
    --policy-arn arn:aws:iam::123456789012:policy/MyPolicy \
    --version-id v2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [DeletePolicyVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-policy-version.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy`
<a name="iam_DeletePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan IAM**  
Contoh ini menghapus kebijakan `arn:aws:iam::123456789012:policy/MySamplePolicy` ARN-nya.  

```
aws iam delete-policy \
    --policy-arn arn:aws:iam::123456789012:policy/MySamplePolicy
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [DeletePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-role-permissions-boundary`
<a name="iam_DeleteRolePermissionsBoundary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-role-permissions-boundary`.

**AWS CLI**  
**Untuk menghapus batas izin dari peran IAM**  
`delete-role-permissions-boundary`Contoh berikut menghapus batas izin untuk peran IAM yang ditentukan. Untuk menerapkan batas izin ke peran, gunakan perintah. `put-role-permissions-boundary`  

```
aws iam delete-role-permissions-boundary \
    --role-name lambda-application-role
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [DeleteRolePermissionsBoundary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-role-permissions-boundary.html)di *Referensi AWS CLI Perintah*. 

### `delete-role-policy`
<a name="iam_DeleteRolePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-role-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan dari peran IAM**  
`delete-role-policy`Perintah berikut menghapus kebijakan yang dinamai `ExamplePolicy` dari peran bernama`Test-Role`.  

```
aws iam delete-role-policy \
    --role-name Test-Role \
    --policy-name ExamplePolicy
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memodifikasi peran](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_manage_modify.html) dalam *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteRolePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-role-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-role`
<a name="iam_DeleteRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-role`.

**AWS CLI**  
**Untuk menghapus peran IAM**  
`delete-role`Perintah berikut menghapus peran bernama`Test-Role`.  

```
aws iam delete-role \
    --role-name Test-Role
```
Perintah ini tidak menghasilkan output.  
Sebelum dapat menghapus peran, Anda harus menghapus peran tersebut dari profil instance (`remove-role-from-instance-profile`) apa pun, melepaskan kebijakan terkelola (`detach-role-policy`), dan menghapus kebijakan sebaris apa pun yang dilampirkan ke role (`delete-role-policy`).  
Untuk informasi selengkapnya, lihat [Membuat peran IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html) dan [Menggunakan profil instans](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_switch-role-ec2_instance-profiles.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-role.html)di *Referensi AWS CLI Perintah*. 

### `delete-saml-provider`
<a name="iam_DeleteSAMLProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-saml-provider`.

**AWS CLI**  
**Untuk menghapus penyedia SAFL**  
Contoh ini menghapus penyedia IAM SALL 2.0 yang ARN-nya. `arn:aws:iam::123456789012:saml-provider/SAMLADFSProvider`  

```
aws iam delete-saml-provider \
--saml-provider-arn arn:aws:iam::123456789012:saml-provider/SAMLADFSProvider
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat penyedia identitas IAM SALL](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_saml.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [Menghapus SAMLProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-saml-provider.html) di *Referensi AWS CLI Perintah*. 

### `delete-server-certificate`
<a name="iam_DeleteServerCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-server-certificate`.

**AWS CLI**  
**Untuk menghapus sertifikat server dari AWS akun Anda**  
`delete-server-certificate`Perintah berikut menghapus sertifikat server yang ditentukan dari AWS akun Anda.  

```
aws iam delete-server-certificate \
    --server-certificate-name myUpdatedServerCertificate
```
Perintah ini tidak menghasilkan output.  
Untuk membuat daftar sertifikat server yang tersedia di AWS akun Anda, gunakan `list-server-certificates` perintah.  
Untuk informasi selengkapnya, lihat [Mengelola sertifikat server di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_server-certs.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteServerCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-server-certificate.html)di *Referensi AWS CLI Perintah*. 

### `delete-service-linked-role`
<a name="iam_DeleteServiceLinkedRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service-linked-role`.

**AWS CLI**  
**Untuk menghapus peran terkait layanan**  
`delete-service-linked-role`Contoh berikut menghapus peran terkait layanan yang ditentukan yang tidak lagi Anda perlukan. Penghapusan terjadi secara asinkron. Anda dapat memeriksa status penghapusan dan mengonfirmasi kapan dilakukan dengan menggunakan perintah. `get-service-linked-role-deletion-status`  

```
aws iam delete-service-linked-role \
    --role-name AWSServiceRoleForLexBots
```
Output:  

```
{
    "DeletionTaskId": "task/aws-service-role/lex.amazonaws.com/AWSServiceRoleForLexBots/1a2b3c4d-1234-abcd-7890-abcdeEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan peran terkait layanan](https://docs.aws.amazon.com/IAM/latest/UserGuide/using-service-linked-roles.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [DeleteServiceLinkedRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-service-linked-role.html)di *Referensi AWS CLI Perintah*. 

### `delete-service-specific-credential`
<a name="iam_DeleteServiceSpecificCredential_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service-specific-credential`.

**AWS CLI**  
**Contoh 1: Menghapus kredensi khusus layanan untuk pengguna yang meminta**  
`delete-service-specific-credential`Contoh berikut menghapus kredensi khusus layanan yang ditentukan untuk pengguna yang membuat permintaan. `service-specific-credential-id`Ini disediakan saat Anda membuat kredensi dan Anda dapat mengambilnya dengan menggunakan perintah. `list-service-specific-credentials`  

```
aws iam delete-service-specific-credential \
    --service-specific-credential-id ACCAEXAMPLE123EXAMPLE
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Menghapus kredensi khusus layanan untuk pengguna tertentu**  
`delete-service-specific-credential`Contoh berikut menghapus kredensi khusus layanan yang ditentukan untuk pengguna tertentu. `service-specific-credential-id`Ini disediakan saat Anda membuat kredensi dan Anda dapat mengambilnya dengan menggunakan perintah. `list-service-specific-credentials`  

```
aws iam delete-service-specific-credential \
    --user-name sofia \
    --service-specific-credential-id ACCAEXAMPLE123EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat kredensi Git untuk koneksi HTTPS CodeCommit](https://docs.aws.amazon.com/codecommit/latest/userguide/setting-up-gc.html#setting-up-gc-iam) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [DeleteServiceSpecificCredential](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-service-specific-credential.html)di *Referensi AWS CLI Perintah*. 

### `delete-signing-certificate`
<a name="iam_DeleteSigningCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-signing-certificate`.

**AWS CLI**  
**Untuk menghapus sertifikat penandatanganan untuk pengguna IAM**  
`delete-signing-certificate`Perintah berikut menghapus sertifikat penandatanganan yang ditentukan untuk pengguna IAM bernama. `Bob`  

```
aws iam delete-signing-certificate \
    --user-name Bob \
    --certificate-id TA7SMP42TDN5Z26OBPJE7EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk mendapatkan ID untuk sertifikat penandatanganan, gunakan `list-signing-certificates` perintah.  
Untuk informasi selengkapnya, lihat [Mengelola sertifikat penandatanganan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/set-up-ami-tools.html#ami-tools-managing-certs) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [DeleteSigningCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-signing-certificate.html)di *Referensi AWS CLI Perintah*. 

### `delete-ssh-public-key`
<a name="iam_DeleteSshPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ssh-public-key`.

**AWS CLI**  
**Untuk menghapus kunci publik SSH yang dilampirkan ke pengguna IAM**  
`delete-ssh-public-key`Perintah berikut menghapus kunci publik SSH yang ditentukan yang dilampirkan ke pengguna IAM. `sofia`  

```
aws iam delete-ssh-public-key \
    --user-name sofia \
    --ssh-public-key-id APKA123456789EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan kunci SSH dan SSH dengan CodeCommit](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_ssh-keys.html#ssh-keys-code-commit) dalam Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [DeleteSshPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-ssh-public-key.html)di *Referensi AWS CLI Perintah*. 

### `delete-user-permissions-boundary`
<a name="iam_DeleteUserPermissionsBoundary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user-permissions-boundary`.

**AWS CLI**  
**Untuk menghapus batas izin dari pengguna IAM**  
`delete-user-permissions-boundary`Contoh berikut menghapus batas izin yang dilampirkan ke pengguna IAM bernama. `intern` Untuk menerapkan batas izin ke pengguna, gunakan perintah. `put-user-permissions-boundary`  

```
aws iam delete-user-permissions-boundary \
    --user-name intern
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [DeleteUserPermissionsBoundary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-user-permissions-boundary.html)di *Referensi AWS CLI Perintah*. 

### `delete-user-policy`
<a name="iam_DeleteUserPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan dari pengguna IAM**  
`delete-user-policy`Perintah berikut menghapus kebijakan yang ditentukan dari pengguna IAM bernama`Bob`.  

```
aws iam delete-user-policy \
    --user-name Bob \
    --policy-name ExamplePolicy
```
Perintah ini tidak menghasilkan output.  
Untuk mendapatkan daftar kebijakan untuk pengguna IAM, gunakan `list-user-policies` perintah.  
Untuk informasi selengkapnya, lihat [Membuat pengguna IAM di AWS akun Anda](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_users_create.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteUserPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-user-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-user`
<a name="iam_DeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna IAM**  
`delete-user`Perintah berikut menghapus nama pengguna IAM `Bob` dari akun saat ini.  

```
aws iam delete-user \
    --user-name Bob
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus pengguna IAM di Panduan Pengguna AWS](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_users_manage.html#id_users_deleting) *IAM*.  
+  Untuk detail API, lihat [DeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-user.html)di *Referensi AWS CLI Perintah*. 

### `delete-virtual-mfa-device`
<a name="iam_DeleteVirtualMfaDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-virtual-mfa-device`.

**AWS CLI**  
**Untuk menghapus perangkat MFA virtual**  
`delete-virtual-mfa-device`Perintah berikut menghapus perangkat MFA yang ditentukan dari akun saat ini.  

```
aws iam delete-virtual-mfa-device \
    --serial-number arn:aws:iam::123456789012:mfa/MFATest
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menonaktifkan perangkat MFA](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_mfa_disable.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [DeleteVirtualMfaDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/delete-virtual-mfa-device.html)di *Referensi AWS CLI Perintah*. 

### `detach-group-policy`
<a name="iam_DetachGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-group-policy`.

**AWS CLI**  
**Untuk melepaskan kebijakan dari grup**  
Contoh ini menghapus kebijakan terkelola dengan ARN `arn:aws:iam::123456789012:policy/TesterAccessPolicy` dari grup yang dipanggil. `Testers`  

```
aws iam detach-group-policy \
    --group-name Testers \
    --policy-arn arn:aws:iam::123456789012:policy/TesterAccessPolicy
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_manage.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DetachGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/detach-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `detach-role-policy`
<a name="iam_DetachRolePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-role-policy`.

**AWS CLI**  
**Untuk melepaskan kebijakan dari peran**  
Contoh ini menghapus kebijakan terkelola dengan ARN `arn:aws:iam::123456789012:policy/FederatedTesterAccessPolicy` dari peran yang dipanggil. `FedTesterRole`  

```
aws iam detach-role-policy \
    --role-name FedTesterRole \
    --policy-arn arn:aws:iam::123456789012:policy/FederatedTesterAccessPolicy
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memodifikasi peran](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_manage_modify.html) dalam *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DetachRolePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/detach-role-policy.html)di *Referensi AWS CLI Perintah*. 

### `detach-user-policy`
<a name="iam_DetachUserPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-user-policy`.

**AWS CLI**  
**Untuk melepaskan kebijakan dari pengguna**  
Contoh ini menghapus kebijakan terkelola dengan ARN `arn:aws:iam::123456789012:policy/TesterPolicy` dari pengguna. `Bob`  

```
aws iam detach-user-policy \
    --user-name Bob \
    --policy-arn arn:aws:iam::123456789012:policy/TesterPolicy
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengubah izin untuk pengguna IAM di Panduan Pengguna AWS](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_users_change-permissions.html) *IAM*.  
+  Untuk detail API, lihat [DetachUserPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/detach-user-policy.html)di *Referensi AWS CLI Perintah*. 

### `disable-organizations-root-credentials-management`
<a name="iam_DisableOrganizationsRootCredentialsManagement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-organizations-root-credentials-management`.

**AWS CLI**  
**Untuk menonaktifkan RootCredentialsManagement fitur di organisasi Anda**  
`disable-organizations-root-credentials-management`Perintah berikut menonaktifkan pengelolaan kredensil pengguna root istimewa di seluruh akun anggota di organisasi Anda.  

```
aws iam disable-organizations-root-credentials-management
```
Output:  

```
{
    "EnabledFeatures": [
        "RootSessions"
    ]
    "OrganizationId": "o-aa111bb222"
}
```
Untuk informasi selengkapnya, lihat [Memusatkan akses root untuk akun anggota](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_root-enable-root-access.html) di *Panduan Pengguna AWS IAM* .g  
+  Untuk detail API, lihat [DisableOrganizationsRootCredentialsManagement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/disable-organizations-root-credentials-management.html)di *Referensi AWS CLI Perintah*. 

### `disable-organizations-root-sessions`
<a name="iam_DisableOrganizationsRootSessions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-organizations-root-sessions`.

**AWS CLI**  
**Untuk menonaktifkan RootSessions fitur di organisasi Anda**  
`disable-organizations-root-sessions`Perintah berikut menonaktifkan sesi pengguna root untuk tugas istimewa di seluruh akun anggota di organisasi Anda.  

```
aws iam disable-organizations-root-sessions
```
Output:  

```
{
    "EnabledFeatures": [
        "RootCredentialsManagement"
    ]
    "OrganizationId": "o-aa111bb222"
}
```
Untuk informasi selengkapnya, lihat [Memusatkan akses root untuk akun anggota](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_root-enable-root-access.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DisableOrganizationsRootSessions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/disable-organizations-root-sessions.html)di *Referensi AWS CLI Perintah*. 

### `enable-mfa-device`
<a name="iam_EnableMfaDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-mfa-device`.

**AWS CLI**  
**Untuk mengaktifkan perangkat MFA**  
Setelah Anda menggunakan `create-virtual-mfa-device` perintah untuk membuat perangkat MFA virtual baru, Anda dapat menetapkan perangkat MFA ke pengguna. `enable-mfa-device`Contoh berikut menetapkan perangkat MFA dengan `arn:aws:iam::210987654321:mfa/BobsMFADevice` nomor seri kepada pengguna. `Bob` Perintah ini juga menyinkronkan perangkat AWS dengan memasukkan dua kode pertama secara berurutan dari perangkat MFA virtual.  

```
aws iam enable-mfa-device \
    --user-name Bob \
    --serial-number arn:aws:iam::210987654321:mfa/BobsMFADevice \
    --authentication-code1 123456 \
    --authentication-code2 789012
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Mengaktifkan perangkat autentikasi multi-faktor virtual (MFA)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_mfa_enable_virtual.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [EnableMfaDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/enable-mfa-device.html)di *Referensi AWS CLI Perintah*. 

### `enable-organizations-root-credentials-management`
<a name="iam_EnableOrganizationsRootCredentialsManagement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-organizations-root-credentials-management`.

**AWS CLI**  
**Untuk mengaktifkan RootCredentialsManagement fitur di organisasi Anda**  
`enable-organizations-root-credentials-management`Perintah berikut memungkinkan pengelolaan kredensil pengguna root istimewa di seluruh akun anggota di organisasi Anda.  

```
aws iam enable-organizations-root-credentials-management
```
Output:  

```
{
    "EnabledFeatures": [
        "RootCredentialsManagement"
    ]
    "OrganizationId": "o-aa111bb222"
}
```
Untuk informasi selengkapnya, lihat [Memusatkan akses root untuk akun anggota](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_root-enable-root-access.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [EnableOrganizationsRootCredentialsManagement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/enable-organizations-root-credentials-management.html)di *Referensi AWS CLI Perintah*. 

### `enable-organizations-root-sessions`
<a name="iam_EnableOrganizationsRootSessions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-organizations-root-sessions`.

**AWS CLI**  
**Untuk mengaktifkan RootSessions fitur di organisasi Anda**  
`enable-organizations-root-sessions`Perintah berikut memungkinkan akun manajemen atau administrator yang didelegasikan untuk melakukan tugas istimewa pada akun anggota di organisasi Anda.  

```
aws iam enable-organizations-root-sessions
```
Output:  

```
{
    "EnabledFeatures": [
        "RootSessions"
    ]
    "OrganizationId": "o-aa111bb222"
}
```
Untuk informasi selengkapnya, lihat [Memusatkan akses root untuk akun anggota](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_root-enable-root-access.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [EnableOrganizationsRootSessions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/enable-organizations-root-sessions.html)di *Referensi AWS CLI Perintah*. 

### `generate-credential-report`
<a name="iam_GenerateCredentialReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-credential-report`.

**AWS CLI**  
**Untuk menghasilkan laporan kredensi**  
Contoh berikut mencoba untuk menghasilkan laporan kredensi untuk AWS akun.  

```
aws iam generate-credential-report
```
Output:  

```
{
    "State":  "STARTED",
    "Description": "No report exists. Starting a new report generation task"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan laporan kredensi untuk AWS akun Anda](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_getting-report.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GenerateCredentialReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/generate-credential-report.html)di *Referensi AWS CLI Perintah*. 

### `generate-organizations-access-report`
<a name="iam_GenerateOrganizationsAccessReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-organizations-access-report`.

**AWS CLI**  
**Contoh 1: Untuk menghasilkan laporan akses untuk root dalam organisasi**  
`generate-organizations-access-report`Contoh berikut memulai pekerjaan latar belakang untuk membuat laporan akses untuk root yang ditentukan dalam organisasi. Anda dapat menampilkan laporan setelah dibuat dengan menjalankan `get-organizations-access-report` perintah.  

```
aws iam generate-organizations-access-report \
    --entity-path o-4fxmplt198/r-c3xb
```
Output:  

```
{
    "JobId": "a8b6c06f-aaa4-8xmp-28bc-81da71836359"
}
```
**Contoh 2: Untuk menghasilkan laporan akses untuk akun di organisasi**  
`generate-organizations-access-report`Contoh berikut memulai pekerjaan latar belakang untuk membuat laporan akses untuk ID akun `123456789012` di organisasi`o-4fxmplt198`. Anda dapat menampilkan laporan setelah dibuat dengan menjalankan `get-organizations-access-report` perintah.  

```
aws iam generate-organizations-access-report \
    --entity-path o-4fxmplt198/r-c3xb/123456789012
```
Output:  

```
{
    "JobId": "14b6c071-75f6-2xmp-fb77-faf6fb4201d2"
}
```
**Contoh 3: Untuk menghasilkan laporan akses untuk akun di unit organisasi dalam suatu organisasi**  
`generate-organizations-access-report`Contoh berikut memulai pekerjaan latar belakang untuk membuat laporan akses untuk ID akun `234567890123` di unit organisasi `ou-c3xb-lmu7j2yg` dalam organisasi`o-4fxmplt198`. Anda dapat menampilkan laporan setelah dibuat dengan menjalankan `get-organizations-access-report` perintah.  

```
aws iam generate-organizations-access-report \
    --entity-path o-4fxmplt198/r-c3xb/ou-c3xb-lmu7j2yg/234567890123
```
Output:  

```
{
    "JobId": "2eb6c2e6-0xmp-ec04-1425-c937916a64af"
}
```
Untuk mendapatkan detail tentang akar dan unit organisasi di organisasi Anda, gunakan perintah `organizations list-roots` dan `organizations list-organizational-units-for-parent` perintah.  
Untuk informasi selengkapnya, lihat [Menyempurnakan izin dalam AWS menggunakan informasi yang terakhir diakses](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_access-advisor.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GenerateOrganizationsAccessReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/generate-organizations-access-report.html)di *Referensi AWS CLI Perintah*. 

### `generate-service-last-accessed-details`
<a name="iam_GenerateServiceLastAccessedDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-service-last-accessed-details`.

**AWS CLI**  
**Contoh 1: Untuk membuat laporan akses layanan untuk kebijakan kustom**  
`generate-service-last-accessed-details`Contoh berikut memulai pekerjaan latar belakang untuk menghasilkan laporan yang mencantumkan layanan yang diakses oleh pengguna IAM dan entitas lain dengan kebijakan kustom bernama`intern-boundary`. Anda dapat menampilkan laporan setelah dibuat dengan menjalankan `get-service-last-accessed-details` perintah.  

```
aws iam generate-service-last-accessed-details \
    --arn arn:aws:iam::123456789012:policy/intern-boundary
```
Output:  

```
{
    "JobId": "2eb6c2b8-7b4c-3xmp-3c13-03b72c8cdfdc"
}
```
**Contoh 2: Untuk membuat laporan akses layanan untuk AdministratorAccess kebijakan AWS terkelola**  
`generate-service-last-accessed-details`Contoh berikut memulai pekerjaan latar belakang untuk menghasilkan laporan yang mencantumkan layanan yang diakses oleh pengguna IAM dan entitas lain dengan `AdministratorAccess` kebijakan AWS terkelola. Anda dapat menampilkan laporan setelah dibuat dengan menjalankan `get-service-last-accessed-details` perintah.  

```
aws iam generate-service-last-accessed-details \
    --arn arn:aws:iam::aws:policy/AdministratorAccess
```
Output:  

```
{
    "JobId": "78b6c2ba-d09e-6xmp-7039-ecde30b26916"
}
```
Untuk informasi selengkapnya, lihat [Menyempurnakan izin dalam AWS menggunakan informasi yang terakhir diakses](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_access-advisor.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GenerateServiceLastAccessedDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/generate-service-last-accessed-details.html)di *Referensi AWS CLI Perintah*. 

### `get-access-key-last-used`
<a name="iam_GetAccessKeyLastUsed_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-access-key-last-used`.

**AWS CLI**  
**Untuk mengambil informasi tentang kapan kunci akses yang ditentukan terakhir digunakan**  
Contoh berikut mengambil informasi tentang kapan kunci akses `ABCDEXAMPLE` terakhir digunakan.  

```
aws iam get-access-key-last-used \
    --access-key-id ABCDEXAMPLE
```
Output:  

```
{
    "UserName":  "Bob",
    "AccessKeyLastUsed": {
        "Region": "us-east-1",
        "ServiceName": "iam",
        "LastUsedDate": "2015-06-16T22:45:00Z"
    }
}
```
Untuk informasi lebih lanjut, lihat [Mengelola access key untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_access-keys.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetAccessKeyLastUsed](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-access-key-last-used.html)di *Referensi AWS CLI Perintah*. 

### `get-account-authorization-details`
<a name="iam_GetAccountAuthorizationDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-account-authorization-details`.

**AWS CLI**  
**Untuk mencantumkan pengguna, grup, peran, dan kebijakan IAM AWS akun**  
`get-account-authorization-details`Perintah berikut menampilkan informasi tentang semua pengguna, grup, peran, dan kebijakan IAM di AWS akun.  

```
aws iam get-account-authorization-details
```
Output:  

```
{
    "RoleDetailList": [
        {
            "AssumeRolePolicyDocument": {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Sid": "",
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "ec2.amazonaws.com"
                        },
                        "Action": "sts:AssumeRole"
                    }
                ]
            },
            "RoleId": "AROA1234567890EXAMPLE",
            "CreateDate": "2014-07-30T17:09:20Z",
            "InstanceProfileList": [
                {
                    "InstanceProfileId": "AIPA1234567890EXAMPLE",
                    "Roles": [
                        {
                            "AssumeRolePolicyDocument": {
                                "Version":"2012-10-17",		 	 	 
                                "Statement": [
                                    {
                                        "Sid": "",
                                        "Effect": "Allow",
                                        "Principal": {
                                            "Service": "ec2.amazonaws.com"
                                        },
                                        "Action": "sts:AssumeRole"
                                    }
                                ]
                            },
                            "RoleId": "AROA1234567890EXAMPLE",
                            "CreateDate": "2014-07-30T17:09:20Z",
                            "RoleName": "EC2role",
                            "Path": "/",
                            "Arn": "arn:aws:iam::123456789012:role/EC2role"
                        }
                    ],
                    "CreateDate": "2014-07-30T17:09:20Z",
                    "InstanceProfileName": "EC2role",
                    "Path": "/",
                    "Arn": "arn:aws:iam::123456789012:instance-profile/EC2role"
                }
            ],
            "RoleName": "EC2role",
            "Path": "/",
            "AttachedManagedPolicies": [
                {
                    "PolicyName": "AmazonS3FullAccess",
                    "PolicyArn": "arn:aws:iam::aws:policy/AmazonS3FullAccess"
                },
                {
                    "PolicyName": "AmazonDynamoDBFullAccess",
                    "PolicyArn": "arn:aws:iam::aws:policy/AmazonDynamoDBFullAccess"
                }
            ],
            "RoleLastUsed": {
                "Region": "us-west-2",
                "LastUsedDate": "2019-11-13T17:30:00Z"
            },
            "RolePolicyList": [],
            "Arn": "arn:aws:iam::123456789012:role/EC2role"
        }
    ],
    "GroupDetailList": [
        {
            "GroupId": "AIDA1234567890EXAMPLE",
            "AttachedManagedPolicies": {
                "PolicyName": "AdministratorAccess",
                "PolicyArn": "arn:aws:iam::aws:policy/AdministratorAccess"
            },
            "GroupName": "Admins",
            "Path": "/",
            "Arn": "arn:aws:iam::123456789012:group/Admins",
            "CreateDate": "2013-10-14T18:32:24Z",
            "GroupPolicyList": []
        },
        {
            "GroupId": "AIDA1234567890EXAMPLE",
            "AttachedManagedPolicies": {
                "PolicyName": "PowerUserAccess",
                "PolicyArn": "arn:aws:iam::aws:policy/PowerUserAccess"
            },
            "GroupName": "Dev",
            "Path": "/",
            "Arn": "arn:aws:iam::123456789012:group/Dev",
            "CreateDate": "2013-10-14T18:33:55Z",
            "GroupPolicyList": []
        },
        {
            "GroupId": "AIDA1234567890EXAMPLE",
            "AttachedManagedPolicies": [],
            "GroupName": "Finance",
            "Path": "/",
            "Arn": "arn:aws:iam::123456789012:group/Finance",
            "CreateDate": "2013-10-14T18:57:48Z",
            "GroupPolicyList": [
                {
                    "PolicyName": "policygen-201310141157",
                    "PolicyDocument": {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": [
                            {
                                "Action": "aws-portal:*",
                                "Sid": "Stmt1381777017000",
                                "Resource": "*",
                                "Effect": "Allow"
                            }
                        ]
                    }
                }
            ]
        }
    ],
    "UserDetailList": [
        {
            "UserName": "Alice",
            "GroupList": [
                "Admins"
            ],
            "CreateDate": "2013-10-14T18:32:24Z",
            "UserId": "AIDA1234567890EXAMPLE",
            "UserPolicyList": [],
            "Path": "/",
            "AttachedManagedPolicies": [],
            "Arn": "arn:aws:iam::123456789012:user/Alice"
        },
        {
            "UserName": "Bob",
            "GroupList": [
                "Admins"
            ],
            "CreateDate": "2013-10-14T18:32:25Z",
            "UserId": "AIDA1234567890EXAMPLE",
            "UserPolicyList": [
                {
                    "PolicyName": "DenyBillingAndIAMPolicy",
                    "PolicyDocument": {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": {
                            "Effect": "Deny",
                            "Action": [
                                "aws-portal:*",
                                "iam:*"
                            ],
                            "Resource": "*"
                        }
                    }
                }
            ],
            "Path": "/",
            "AttachedManagedPolicies": [],
            "Arn": "arn:aws:iam::123456789012:user/Bob"
        },
        {
            "UserName": "Charlie",
            "GroupList": [
                "Dev"
            ],
            "CreateDate": "2013-10-14T18:33:56Z",
            "UserId": "AIDA1234567890EXAMPLE",
            "UserPolicyList": [],
            "Path": "/",
            "AttachedManagedPolicies": [],
            "Arn": "arn:aws:iam::123456789012:user/Charlie"
        }
    ],
    "Policies": [
        {
            "PolicyName": "create-update-delete-set-managed-policies",
            "CreateDate": "2015-02-06T19:58:34Z",
            "AttachmentCount": 1,
            "IsAttachable": true,
            "PolicyId": "ANPA1234567890EXAMPLE",
            "DefaultVersionId": "v1",
            "PolicyVersionList": [
                {
                    "CreateDate": "2015-02-06T19:58:34Z",
                    "VersionId": "v1",
                    "Document": {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": {
                            "Effect": "Allow",
                            "Action": [
                                "iam:CreatePolicy",
                                "iam:CreatePolicyVersion",
                                "iam:DeletePolicy",
                                "iam:DeletePolicyVersion",
                                "iam:GetPolicy",
                                "iam:GetPolicyVersion",
                                "iam:ListPolicies",
                                "iam:ListPolicyVersions",
                                "iam:SetDefaultPolicyVersion"
                            ],
                            "Resource": "*"
                        }
                    },
                    "IsDefaultVersion": true
                }
            ],
            "Path": "/",
            "Arn": "arn:aws:iam::123456789012:policy/create-update-delete-set-managed-policies",
            "UpdateDate": "2015-02-06T19:58:34Z"
        },
        {
            "PolicyName": "S3-read-only-specific-bucket",
            "CreateDate": "2015-01-21T21:39:41Z",
            "AttachmentCount": 1,
            "IsAttachable": true,
            "PolicyId": "ANPA1234567890EXAMPLE",
            "DefaultVersionId": "v1",
            "PolicyVersionList": [
                {
                    "CreateDate": "2015-01-21T21:39:41Z",
                    "VersionId": "v1",
                    "Document": {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": [
                            {
                                "Effect": "Allow",
                                "Action": [
                                    "s3:Get*",
                                    "s3:List*"
                                ],
                                "Resource": [
                                    "arn:aws:s3:::amzn-s3-demo-bucket",
                                    "arn:aws:s3:::amzn-s3-demo-bucket/*"
                                ]
                            }
                        ]
                    },
                    "IsDefaultVersion": true
                }
            ],
            "Path": "/",
            "Arn": "arn:aws:iam::123456789012:policy/S3-read-only-specific-bucket",
            "UpdateDate": "2015-01-21T23:39:41Z"
        },
        {
            "PolicyName": "AmazonEC2FullAccess",
            "CreateDate": "2015-02-06T18:40:15Z",
            "AttachmentCount": 1,
            "IsAttachable": true,
            "PolicyId": "ANPA1234567890EXAMPLE",
            "DefaultVersionId": "v1",
            "PolicyVersionList": [
                {
                    "CreateDate": "2014-10-30T20:59:46Z",
                    "VersionId": "v1",
                    "Document": {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": [
                            {
                                "Action": "ec2:*",
                                "Effect": "Allow",
                                "Resource": "*"
                            },
                            {
                                "Effect": "Allow",
                                "Action": "elasticloadbalancing:*",
                                "Resource": "*"
                            },
                            {
                                "Effect": "Allow",
                                "Action": "cloudwatch:*",
                                "Resource": "*"
                            },
                            {
                                "Effect": "Allow",
                                "Action": "autoscaling:*",
                                "Resource": "*"
                            }
                        ]
                    },
                    "IsDefaultVersion": true
                }
            ],
            "Path": "/",
            "Arn": "arn:aws:iam::aws:policy/AmazonEC2FullAccess",
            "UpdateDate": "2015-02-06T18:40:15Z"
        }
    ],
    "Marker": "EXAMPLEkakv9BCuUNFDtxWSyfzetYwEx2ADc8dnzfvERF5S6YMvXKx41t6gCl/eeaCX3Jo94/bKqezEAg8TEVS99EKFLxm3jtbpl25FDWEXAMPLE",
    "IsTruncated": true
}
```
Untuk informasi selengkapnya, lihat [pedoman audit AWS keamanan](https://docs.aws.amazon.com/IAM/latest/UserGuide/security-audit-guide.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetAccountAuthorizationDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-account-authorization-details.html)di *Referensi AWS CLI Perintah*. 

### `get-account-password-policy`
<a name="iam_GetAccountPasswordPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-account-password-policy`.

**AWS CLI**  
**Untuk melihat kebijakan kata sandi akun saat ini**  
`get-account-password-policy`Perintah berikut menampilkan detail tentang kebijakan kata sandi untuk akun saat ini.  

```
aws iam get-account-password-policy
```
Output:  

```
{
    "PasswordPolicy": {
        "AllowUsersToChangePassword": false,
        "RequireLowercaseCharacters": false,
        "RequireUppercaseCharacters": false,
        "MinimumPasswordLength": 8,
        "RequireNumbers": true,
        "RequireSymbols": true
    }
}
```
Jika tidak ada kebijakan kata sandi yang ditentukan untuk akun, perintah mengembalikan `NoSuchEntity` kesalahan.  
Untuk informasi selengkapnya, lihat [Menyetel kebijakan kata sandi akun untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_passwords_account-policy.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-account-password-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-account-summary`
<a name="iam_GetAccountSummary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-account-summary`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang penggunaan entitas IAM dan kuota IAM di akun saat ini**  
`get-account-summary`Perintah berikut mengembalikan informasi tentang penggunaan entitas IAM saat ini dan kuota entitas IAM saat ini di akun.  

```
aws iam get-account-summary
```
Output:  

```
{
    "SummaryMap": {
        "UsersQuota": 5000,
        "GroupsQuota": 100,
        "InstanceProfiles": 6,
        "SigningCertificatesPerUserQuota": 2,
        "AccountAccessKeysPresent": 0,
        "RolesQuota": 250,
        "RolePolicySizeQuota": 10240,
        "AccountSigningCertificatesPresent": 0,
        "Users": 27,
        "ServerCertificatesQuota": 20,
        "ServerCertificates": 0,
        "AssumeRolePolicySizeQuota": 2048,
        "Groups": 7,
        "MFADevicesInUse": 1,
        "Roles": 3,
        "AccountMFAEnabled": 1,
        "MFADevices": 3,
        "GroupsPerUserQuota": 10,
        "GroupPolicySizeQuota": 5120,
        "InstanceProfilesQuota": 100,
        "AccessKeysPerUserQuota": 2,
        "Providers": 0,
        "UserPolicySizeQuota": 2048
    }
}
```
Untuk informasi selengkapnya tentang batasan entitas, lihat [kuota IAM dan AWS STS](https://docs.aws.amazon.com/IAM/latest/UserGuide/reference_iam-quotas.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetAccountSummary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-account-summary.html)di *Referensi AWS CLI Perintah*. 

### `get-context-keys-for-custom-policy`
<a name="iam_GetContextKeysForCustomPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-context-keys-for-custom-policy`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan kunci konteks yang direferensikan oleh satu atau beberapa kebijakan JSON kustom yang disediakan sebagai parameter pada baris perintah**  
`get-context-keys-for-custom-policy`Perintah berikut mem-parsing setiap kebijakan yang disediakan dan mencantumkan kunci konteks yang digunakan oleh kebijakan tersebut. Gunakan perintah ini untuk mengidentifikasi nilai kunci konteks mana yang harus Anda berikan agar berhasil menggunakan perintah simulator kebijakan `simulate-custom-policy` dan`simulate-custom-policy`. Anda juga dapat mengambil daftar kunci konteks yang digunakan oleh semua kebijakan yang terkait oleh pengguna IAM atau peran dengan menggunakan perintah. `get-context-keys-for-custom-policy` Nilai parameter yang dimulai dengan `file://` menginstruksikan perintah untuk membaca file dan menggunakan konten sebagai nilai untuk parameter, bukan nama file itu sendiri.  

```
aws iam get-context-keys-for-custom-policy \
    --policy-input-list '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/${aws:username}","Condition":{"DateGreaterThan":{"aws:CurrentTime":"2015-08-16T12:00:00Z"}}}}'
```
Output:  

```
{
    "ContextKeyNames": [
        "aws:username",
        "aws:CurrentTime"
    ]
}
```
**Contoh 2: Untuk mencantumkan kunci konteks yang direferensikan oleh satu atau beberapa kebijakan JSON kustom yang disediakan sebagai input file**  
`get-context-keys-for-custom-policy`Perintah berikut ini sama dengan contoh sebelumnya, kecuali bahwa kebijakan disediakan dalam file, bukan sebagai parameter. Karena perintah mengharapkan daftar string JSON, dan bukan daftar struktur JSON, file harus terstruktur sebagai berikut, meskipun Anda dapat menciutkannya menjadi satu.  

```
[
    "Policy1",
    "Policy2"
]
```
Jadi misalnya, file yang berisi kebijakan dari contoh sebelumnya harus terlihat seperti berikut. Anda harus menghindari setiap kutipan ganda yang disematkan di dalam string kebijakan dengan mendahuluinya dengan garis miring terbalik”.  

```
[ "{\"Version\": \"2012-10-17\", \"Statement\": {\"Effect\": \"Allow\", \"Action\": \"dynamodb:*\", \"Resource\": \"arn:aws:dynamodb:us-west-2:128716708097:table/${aws:username}\", \"Condition\": {\"DateGreaterThan\": {\"aws:CurrentTime\": \"2015-08-16T12:00:00Z\"}}}}" ]
```
File ini kemudian dapat dikirimkan ke perintah berikut.  

```
aws iam get-context-keys-for-custom-policy \
    --policy-input-list file://policyfile.json
```
Output:  

```
{
    "ContextKeyNames": [
        "aws:username",
        "aws:CurrentTime"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan IAM Policy Simulator (AWS CLI AWS dan API](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_testing-policies.html#policies-simulator-using-api)) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetContextKeysForCustomPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-context-keys-for-custom-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-context-keys-for-principal-policy`
<a name="iam_GetContextKeysForPrincipalPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-context-keys-for-principal-policy`.

**AWS CLI**  
**Untuk membuat daftar kunci konteks yang direferensikan oleh semua kebijakan yang terkait dengan prinsipal IAM**  
`get-context-keys-for-principal-policy`Perintah berikut mengambil semua kebijakan yang dilampirkan ke pengguna `saanvi` dan grup mana pun yang menjadi anggotanya. Kemudian mem-parsing masing-masing dan mencantumkan kunci konteks yang digunakan oleh kebijakan tersebut. Gunakan perintah ini untuk mengidentifikasi nilai kunci konteks mana yang harus Anda berikan agar berhasil menggunakan `simulate-principal-policy` perintah `simulate-custom-policy` dan. Anda juga dapat mengambil daftar kunci konteks yang digunakan oleh kebijakan JSON arbitrer dengan menggunakan perintah. `get-context-keys-for-custom-policy`  

```
aws iam get-context-keys-for-principal-policy \
   --policy-source-arn arn:aws:iam::123456789012:user/saanvi
```
Output:  

```
{
    "ContextKeyNames": [
        "aws:username",
        "aws:CurrentTime"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan IAM Policy Simulator (AWS CLI AWS dan API](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_testing-policies.html#policies-simulator-using-api)) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetContextKeysForPrincipalPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-context-keys-for-principal-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-credential-report`
<a name="iam_GetCredentialReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-credential-report`.

**AWS CLI**  
**Untuk mendapatkan laporan kredensi**  
Contoh ini membuka laporan yang dikembalikan dan mengeluarkannya ke pipeline sebagai array baris teks.  

```
aws iam get-credential-report
```
Output:  

```
{
    "GeneratedTime":  "2015-06-17T19:11:50Z",
    "ReportFormat": "text/csv"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan laporan kredensi untuk AWS akun Anda](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_getting-report.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetCredentialReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-credential-report.html)di *Referensi AWS CLI Perintah*. 

### `get-group-policy`
<a name="iam_GetGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group-policy`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kebijakan yang dilampirkan ke grup IAM**  
`get-group-policy`Perintah berikut mendapatkan informasi tentang kebijakan tertentu yang dilampirkan ke grup bernama`Test-Group`.  

```
aws iam get-group-policy \
    --group-name Test-Group \
    --policy-name S3-ReadOnly-Policy
```
Output:  

```
{
    "GroupName": "Test-Group",
    "PolicyDocument": {
        "Statement": [
            {
                "Action": [
                    "s3:Get*",
                    "s3:List*"
                ],
                "Resource": "*",
                "Effect": "Allow"
            }
        ]
    },
    "PolicyName": "S3-ReadOnly-Policy"
}
```
Untuk informasi selengkapnya, lihat [Mengelola kebijakan IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_manage.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-group`
<a name="iam_GetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group`.

**AWS CLI**  
**Untuk mendapatkan grup IAM**  
Contoh ini mengembalikan rincian tentang grup `Admins` IAM.  

```
aws iam get-group \
    --group-name Admins
```
Output:  

```
{
    "Group": {
        "Path": "/",
        "CreateDate": "2015-06-16T19:41:48Z",
        "GroupId": "AIDGPMS9RO4H3FEXAMPLE",
        "Arn": "arn:aws:iam::123456789012:group/Admins",
        "GroupName": "Admins"
    },
    "Users": []
}
```
Untuk informasi selengkapnya, lihat [Identitas IAM (pengguna, grup pengguna, dan peran)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-group.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-profile`
<a name="iam_GetInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-profile`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang profil instance**  
`get-instance-profile`Perintah berikut mendapatkan informasi tentang profil instance bernama`ExampleInstanceProfile`.  

```
aws iam get-instance-profile \
    --instance-profile-name ExampleInstanceProfile
```
Output:  

```
{
    "InstanceProfile": {
        "InstanceProfileId": "AID2MAB8DPLSRHEXAMPLE",
        "Roles": [
            {
                "AssumeRolePolicyDocument": "<URL-encoded-JSON>",
                "RoleId": "AIDGPMS9RO4H3FEXAMPLE",
                "CreateDate": "2013-01-09T06:33:26Z",
                "RoleName": "Test-Role",
                "Path": "/",
                "Arn": "arn:aws:iam::336924118301:role/Test-Role"
            }
        ],
        "CreateDate": "2013-06-12T23:52:02Z",
        "InstanceProfileName": "ExampleInstanceProfile",
        "Path": "/",
        "Arn": "arn:aws:iam::336924118301:instance-profile/ExampleInstanceProfile"
    }
}
```
Untuk informasi lebih lanjut, lihat [Menggunakan profil instance](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_switch-role-ec2_instance-profiles.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `get-login-profile`
<a name="iam_GetLoginProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-login-profile`.

**AWS CLI**  
**Untuk mendapatkan informasi kata sandi untuk pengguna IAM**  
`get-login-profile`Perintah berikut mendapatkan informasi tentang password untuk pengguna IAM bernama`Bob`.  

```
aws iam get-login-profile \
    --user-name Bob
```
Output:  

```
{
    "LoginProfile": {
        "UserName": "Bob",
        "CreateDate": "2012-09-21T23:03:39Z"
    }
}
```
`get-login-profile`Perintah ini dapat digunakan untuk memverifikasi bahwa pengguna IAM memiliki kata sandi. Perintah mengembalikan `NoSuchEntity` kesalahan jika tidak ada kata sandi yang ditentukan untuk pengguna.  
Anda tidak dapat melihat kata sandi menggunakan perintah ini. Jika kata sandi hilang, Anda dapat mengatur ulang kata sandi (`update-login-profile`) untuk pengguna. Atau, Anda dapat menghapus profil login (`delete-login-profile`) untuk pengguna dan kemudian membuat yang baru (`create-login-profile`).  
Untuk informasi selengkapnya, lihat [Mengelola kata sandi untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_passwords_admin-change-user.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetLoginProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-login-profile.html)di *Referensi AWS CLI Perintah*. 

### `get-mfa-device`
<a name="iam_GetMfaDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-mfa-device`.

**AWS CLI**  
**Untuk mengambil informasi tentang kunci keamanan FIDO**  
Contoh `get-mfa-device` perintah berikut mengambil informasi tentang kunci keamanan FIDO yang ditentukan.  

```
aws iam get-mfa-device \
    --serial-number arn:aws:iam::123456789012:u2f/user/alice/fidokeyname-EXAMPLEBN5FHTECLFG7EXAMPLE
```
Output:  

```
{
    "UserName": "alice",
    "SerialNumber": "arn:aws:iam::123456789012:u2f/user/alice/fidokeyname-EXAMPLEBN5FHTECLFG7EXAMPLE",
    "EnableDate": "2023-09-19T01:49:18+00:00",
    "Certifications": {
        "FIDO": "L1"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan autentikasi multifaktor (MFA) dalam AWS](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_mfa.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetMfaDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-mfa-device.html)di *Referensi AWS CLI Perintah*. 

### `get-open-id-connect-provider`
<a name="iam_GetOpenIdConnectProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-open-id-connect-provider`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang penyedia OpenID Connect yang ditentukan**  
Contoh ini mengembalikan rincian tentang penyedia OpenID Connect yang ARN. `arn:aws:iam::123456789012:oidc-provider/server.example.com`  

```
aws iam get-open-id-connect-provider \
    --open-id-connect-provider-arn arn:aws:iam::123456789012:oidc-provider/server.example.com
```
Output:  

```
{
    "Url": "server.example.com"
        "CreateDate": "2015-06-16T19:41:48Z",
        "ThumbprintList": [
        "12345abcdefghijk67890lmnopqrst987example"
        ],
        "ClientIDList": [
        "example-application-ID"
        ]
}
```
*Untuk informasi selengkapnya, lihat [Membuat penyedia identitas OpenID Connect (OIDC)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_oidc.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [GetOpenIdConnectProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-open-id-connect-provider.html)di *Referensi AWS CLI Perintah*. 

### `get-organizations-access-report`
<a name="iam_GetOrganizationsAccessReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-organizations-access-report`.

**AWS CLI**  
**Untuk mengambil laporan akses**  
`get-organizations-access-report`Contoh berikut menampilkan laporan akses yang dibuat sebelumnya untuk entitas AWS Organizations. Untuk menghasilkan laporan, gunakan `generate-organizations-access-report` perintah.  

```
aws iam get-organizations-access-report \
    --job-id a8b6c06f-aaa4-8xmp-28bc-81da71836359
```
Output:  

```
{
    "JobStatus": "COMPLETED",
    "JobCreationDate": "2019-09-30T06:53:36.187Z",
    "JobCompletionDate": "2019-09-30T06:53:37.547Z",
    "NumberOfServicesAccessible": 188,
    "NumberOfServicesNotAccessed": 171,
    "AccessDetails": [
        {
            "ServiceName": "Alexa for Business",
            "ServiceNamespace": "a4b",
            "TotalAuthenticatedEntities": 0
        },
        ...
}
```
Untuk informasi selengkapnya, lihat [Menyempurnakan izin dalam AWS menggunakan informasi yang terakhir diakses](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_access-advisor.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetOrganizationsAccessReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-organizations-access-report.html)di *Referensi AWS CLI Perintah*. 

### `get-policy-version`
<a name="iam_GetPolicyVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy-version`.

**AWS CLI**  
**Untuk mengambil informasi tentang versi tertentu dari kebijakan terkelola yang ditentukan**  
Contoh ini mengembalikan dokumen kebijakan untuk versi v2 dari kebijakan yang ARN-nya. `arn:aws:iam::123456789012:policy/MyManagedPolicy`  

```
aws iam get-policy-version \
    --policy-arn arn:aws:iam::123456789012:policy/MyPolicy \
    --version-id v2
```
Output:  

```
{
    "PolicyVersion": {
        "Document": {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Effect": "Allow",
                    "Action": "iam:*",
                    "Resource": "*"
                }
            ]
        },
        "VersionId": "v2",
        "IsDefaultVersion": true,
        "CreateDate": "2023-04-11T00:22:54+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetPolicyVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-policy-version.html)di *Referensi AWS CLI Perintah*. 

### `get-policy`
<a name="iam_GetPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy`.

**AWS CLI**  
**Untuk mengambil informasi tentang kebijakan terkelola yang ditentukan**  
Contoh ini mengembalikan rincian tentang kebijakan terkelola yang ARN. `arn:aws:iam::123456789012:policy/MySamplePolicy`  

```
aws iam get-policy \
    --policy-arn arn:aws:iam::123456789012:policy/MySamplePolicy
```
Output:  

```
{
    "Policy": {
        "PolicyName": "MySamplePolicy",
        "CreateDate": "2015-06-17T19:23;32Z",
        "AttachmentCount": 0,
        "IsAttachable": true,
        "PolicyId": "Z27SI6FQMGNQ2EXAMPLE1",
        "DefaultVersionId": "v1",
        "Path": "/",
        "Arn": "arn:aws:iam::123456789012:policy/MySamplePolicy",
        "UpdateDate": "2015-06-17T19:23:32Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-role-policy`
<a name="iam_GetRolePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-role-policy`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kebijakan yang dilampirkan pada peran IAM**  
`get-role-policy`Perintah berikut mendapatkan informasi tentang kebijakan tertentu yang dilampirkan pada peran bernama`Test-Role`.  

```
aws iam get-role-policy \
    --role-name Test-Role \
    --policy-name ExamplePolicy
```
Output:  

```
{
  "RoleName": "Test-Role",
  "PolicyDocument": {
      "Statement": [
          {
              "Action": [
                  "s3:ListBucket",
                  "s3:Put*",
                  "s3:Get*",
                  "s3:*MultipartUpload*"
              ],
              "Resource": "*",
              "Effect": "Allow",
              "Sid": "1"
          }
      ]
  }
  "PolicyName": "ExamplePolicy"
}
```
Untuk informasi selengkapnya, lihat [Membuat peran IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetRolePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-role-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-role`
<a name="iam_GetRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-role`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang peran IAM**  
`get-role`Perintah berikut mendapatkan informasi tentang peran bernama`Test-Role`.  

```
aws iam get-role \
    --role-name Test-Role
```
Output:  

```
{
    "Role": {
        "Description": "Test Role",
        "AssumeRolePolicyDocument":"<URL-encoded-JSON>",
        "MaxSessionDuration": 3600,
        "RoleId": "AROA1234567890EXAMPLE",
        "CreateDate": "2019-11-13T16:45:56Z",
        "RoleName": "Test-Role",
        "Path": "/",
        "RoleLastUsed": {
            "Region": "us-east-1",
            "LastUsedDate": "2019-11-13T17:14:00Z"
        },
        "Arn": "arn:aws:iam::123456789012:role/Test-Role"
    }
}
```
Perintah menampilkan kebijakan kepercayaan yang dilampirkan pada peran. Untuk mencantumkan kebijakan izin yang dilampirkan ke peran, gunakan `list-role-policies` perintah.  
Untuk informasi selengkapnya, lihat [Membuat peran IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-role.html)di *Referensi AWS CLI Perintah*. 

### `get-saml-provider`
<a name="iam_GetSamlProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-saml-provider`.

**AWS CLI**  
**Untuk mengambil metadocument penyedia SAFL**  
Contoh ini mengambil rincian tentang penyedia SAMP 2.0 yang ARM. `arn:aws:iam::123456789012:saml-provider/SAMLADFS` Responsnya mencakup dokumen metadata yang Anda dapatkan dari penyedia identitas untuk membuat entitas penyedia AWS SAFL serta tanggal pembuatan dan kedaluwarsa.  

```
aws iam get-saml-provider \
    --saml-provider-arn arn:aws:iam::123456789012:saml-provider/SAMLADFS
```
Output:  

```
{
    "SAMLMetadataDocument": "...SAMLMetadataDocument-XML...",
    "CreateDate": "2017-03-06T22:29:46+00:00",
    "ValidUntil": "2117-03-06T22:29:46.433000+00:00",
    "Tags": [
        {
            "Key": "DeptID",
            "Value": "123456"
        },
        {
            "Key": "Department",
            "Value": "Accounting"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat penyedia identitas IAM SALL](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_saml.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetSamlProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-saml-provider.html)di *Referensi AWS CLI Perintah*. 

### `get-server-certificate`
<a name="iam_GetServerCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-server-certificate`.

**AWS CLI**  
**Untuk mendapatkan detail tentang sertifikat server di AWS akun Anda**  
`get-server-certificate`Perintah berikut mengambil semua detail tentang sertifikat server yang ditentukan di AWS akun Anda.  

```
aws iam get-server-certificate \
    --server-certificate-name myUpdatedServerCertificate
```
Output:  

```
{
    "ServerCertificate": {
        "ServerCertificateMetadata": {
            "Path": "/",
            "ServerCertificateName": "myUpdatedServerCertificate",
            "ServerCertificateId": "ASCAEXAMPLE123EXAMPLE",
            "Arn": "arn:aws:iam::123456789012:server-certificate/myUpdatedServerCertificate",
            "UploadDate": "2019-04-22T21:13:44+00:00",
            "Expiration": "2019-10-15T22:23:16+00:00"
        },
        "CertificateBody": "-----BEGIN CERTIFICATE-----
            MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
            VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
            b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
            BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
            MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
            VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
            b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
            YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
            21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
            rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
            Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
            nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
            FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
            NYiytVbZPQUQ5Yaxu2jXnimvrszlaEXAMPLE=-----END CERTIFICATE-----",
        "CertificateChain": "-----BEGIN CERTIFICATE-----\nMIICiTCCAfICCQD6md
            7oRw0uXOjANBgkqhkiG9w0BAqQUFADCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgT
            AldBMRAwDgYDVQQHEwdTZWF0drGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAs
            TC0lBTSBDb25zb2xlMRIwEAYDVsQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQ
            jb20wHhcNMTEwNDI1MjA0NTIxWhtcNMTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBh
            MCVVMxCzAJBgNVBAgTAldBMRAwDgsYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBb
            WF6b24xFDASBgNVBAsTC0lBTSBDb2d5zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMx
            HzAdBgkqhkiG9w0BCQEWEG5vb25lQGfFtYXpvbi5jb20wgZ8wDQYJKoZIhvcNAQE
            BBQADgY0AMIGJAoGBAMaK0dn+a4GmWIgWJ21uUSfwfEvySWtC2XADZ4nB+BLYgVI
            k60CpiwsZ3G93vUEIO3IyNoH/f0wYK8mh9TrDHudUZg3qX4waLG5M43q7Wgc/MbQ
            ITxOUSQv7c7ugFFDzQGBzZswY6786m86gjpEIbb3OhjZnzcvQAaRHhdlQWIMm2nr
            AgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCku4nUhVVxYUntneD9+h8Mg9q6q+auN
            KyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0FlkbFFBjvSfpJIlJ00zbhNYS5f6Guo
            EDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjS;TbNYiytVbZPQUQ5Yaxu2jXnimvw
            3rrszlaEWEG5vb25lQGFtsYXpvbiEXAMPLE=\n-----END CERTIFICATE-----"
    }
}
```
Untuk membuat daftar sertifikat server yang tersedia di AWS akun Anda, gunakan `list-server-certificates` perintah.  
Untuk informasi selengkapnya, lihat [Mengelola sertifikat server di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_server-certs.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetServerCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-server-certificate.html)di *Referensi AWS CLI Perintah*. 

### `get-service-last-accessed-details-with-entities`
<a name="iam_GetServiceLastAccessedDetailsWithEntities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-last-accessed-details-with-entities`.

**AWS CLI**  
**Untuk mengambil laporan akses layanan dengan rincian untuk layanan**  
`get-service-last-accessed-details-with-entities`Contoh berikut mengambil laporan yang berisi rincian tentang pengguna IAM dan entitas lain yang mengakses layanan yang ditentukan. Untuk menghasilkan laporan, gunakan `generate-service-last-accessed-details` perintah. Untuk mendapatkan daftar layanan yang diakses dengan ruang nama, gunakan. `get-service-last-accessed-details`  

```
aws iam get-service-last-accessed-details-with-entities \
    --job-id 78b6c2ba-d09e-6xmp-7039-ecde30b26916 \
    --service-namespace lambda
```
Output:  

```
{
    "JobStatus": "COMPLETED",
    "JobCreationDate": "2019-10-01T03:55:41.756Z",
    "JobCompletionDate": "2019-10-01T03:55:42.533Z",
    "EntityDetailsList": [
        {
            "EntityInfo": {
                "Arn": "arn:aws:iam::123456789012:user/admin",
                "Name": "admin",
                "Type": "USER",
                "Id": "AIDAIO2XMPLENQEXAMPLE",
                "Path": "/"
            },
            "LastAuthenticated": "2019-09-30T23:02:00Z"
        },
        {
            "EntityInfo": {
                "Arn": "arn:aws:iam::123456789012:user/developer",
                "Name": "developer",
                "Type": "USER",
                "Id": "AIDAIBEYXMPL2YEXAMPLE",
                "Path": "/"
            },
            "LastAuthenticated": "2019-09-16T19:34:00Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyempurnakan izin dalam AWS menggunakan informasi yang terakhir diakses](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_access-advisor.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetServiceLastAccessedDetailsWithEntities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-service-last-accessed-details-with-entities.html)di *Referensi AWS CLI Perintah*. 

### `get-service-last-accessed-details`
<a name="iam_GetServiceLastAccessedDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-last-accessed-details`.

**AWS CLI**  
**Untuk mengambil laporan akses layanan**  
`get-service-last-accessed-details`Contoh berikut mengambil laporan yang dihasilkan sebelumnya yang mencantumkan layanan yang diakses oleh entitas IAM. Untuk menghasilkan laporan, gunakan `generate-service-last-accessed-details` perintah.  

```
aws iam get-service-last-accessed-details \
    --job-id 2eb6c2b8-7b4c-3xmp-3c13-03b72c8cdfdc
```
Output:  

```
{
    "JobStatus": "COMPLETED",
    "JobCreationDate": "2019-10-01T03:50:35.929Z",
    "ServicesLastAccessed": [
        ...
        {
            "ServiceName": "AWS Lambda",
            "LastAuthenticated": "2019-09-30T23:02:00Z",
            "ServiceNamespace": "lambda",
            "LastAuthenticatedEntity": "arn:aws:iam::123456789012:user/admin",
            "TotalAuthenticatedEntities": 6
        },
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyempurnakan izin dalam AWS menggunakan informasi yang terakhir diakses](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_access-advisor.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetServiceLastAccessedDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-service-last-accessed-details.html)di *Referensi AWS CLI Perintah*. 

### `get-service-linked-role-deletion-status`
<a name="iam_GetServiceLinkedRoleDeletionStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-linked-role-deletion-status`.

**AWS CLI**  
**Untuk memeriksa status permintaan untuk menghapus peran terkait layanan**  
`get-service-linked-role-deletion-status`Contoh berikut menampilkan status permintaan sebelumnya untuk menghapus peran terkait layanan. Operasi hapus terjadi secara asinkron. Ketika Anda membuat permintaan, Anda mendapatkan `DeletionTaskId` nilai yang Anda berikan sebagai parameter untuk perintah ini.  

```
aws iam get-service-linked-role-deletion-status \
    --deletion-task-id task/aws-service-role/lex.amazonaws.com/AWSServiceRoleForLexBots/1a2b3c4d-1234-abcd-7890-abcdeEXAMPLE
```
Output:  

```
{
"Status": "SUCCEEDED"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan peran terkait layanan](https://docs.aws.amazon.com/IAM/latest/UserGuide/using-service-linked-roles.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetServiceLinkedRoleDeletionStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-service-linked-role-deletion-status.html)di *Referensi AWS CLI Perintah*. 

### `get-ssh-public-key`
<a name="iam_GetSshPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ssh-public-key`.

**AWS CLI**  
**Contoh 1: Untuk mengambil kunci publik SSH yang dilampirkan ke pengguna IAM dalam bentuk yang dikodekan SSH**  
`get-ssh-public-key`Perintah berikut mengambil kunci publik SSH yang ditentukan dari pengguna IAM. `sofia` Outputnya dalam pengkodean SSH.  

```
aws iam get-ssh-public-key \
    --user-name sofia \
    --ssh-public-key-id APKA123456789EXAMPLE \
    --encoding SSH
```
Output:  

```
{
    "SSHPublicKey": {
        "UserName": "sofia",
        "SSHPublicKeyId": "APKA123456789EXAMPLE",
        "Fingerprint": "12:34:56:78:90:ab:cd:ef:12:34:56:78:90:ab:cd:ef",
        "SSHPublicKeyBody": "ssh-rsa <<long encoded SSH string>>",
        "Status": "Inactive",
        "UploadDate": "2019-04-18T17:04:49+00:00"
    }
}
```
**Contoh 2: Untuk mengambil kunci publik SSH yang dilampirkan ke pengguna IAM dalam bentuk yang dikodekan PEM**  
`get-ssh-public-key`Perintah berikut mengambil kunci publik SSH yang ditentukan dari pengguna IAM. `sofia` Outputnya dalam pengkodean PEM.  

```
aws iam get-ssh-public-key \
    --user-name sofia \
    --ssh-public-key-id APKA123456789EXAMPLE \
    --encoding PEM
```
Output:  

```
{
    "SSHPublicKey": {
        "UserName": "sofia",
        "SSHPublicKeyId": "APKA123456789EXAMPLE",
        "Fingerprint": "12:34:56:78:90:ab:cd:ef:12:34:56:78:90:ab:cd:ef",
        "SSHPublicKeyBody": ""-----BEGIN PUBLIC KEY-----\n<<long encoded PEM string>>\n-----END PUBLIC KEY-----\n"",
        "Status": "Inactive",
        "UploadDate": "2019-04-18T17:04:49+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan kunci SSH dan SSH dengan CodeCommit](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_ssh-keys.html#ssh-keys-code-commit) dalam Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetSshPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-ssh-public-key.html)di *Referensi AWS CLI Perintah*. 

### `get-user-policy`
<a name="iam_GetUserPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-user-policy`.

**AWS CLI**  
**Untuk mencantumkan detail kebijakan untuk pengguna IAM**  
`get-user-policy`Perintah berikut mencantumkan rincian kebijakan tertentu yang dilampirkan ke pengguna IAM bernama`Bob`.  

```
aws iam get-user-policy \
    --user-name Bob \
    --policy-name ExamplePolicy
```
Output:  

```
{
    "UserName": "Bob",
    "PolicyName": "ExamplePolicy",
    "PolicyDocument": {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Action": "*",
                "Resource": "*",
                "Effect": "Allow"
            }
        ]
    }
}
```
Untuk mendapatkan daftar kebijakan untuk pengguna IAM, gunakan `list-user-policies` perintah.  
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetUserPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-user-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-user`
<a name="iam_GetUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-user`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pengguna IAM**  
`get-user`Perintah berikut mendapatkan informasi tentang nama `Paulo` pengguna IAM.  

```
aws iam get-user \
    --user-name Paulo
```
Output:  

```
{
    "User": {
        "UserName": "Paulo",
        "Path": "/",
        "CreateDate": "2019-09-21T23:03:13Z",
        "UserId": "AIDA123456789EXAMPLE",
        "Arn": "arn:aws:iam::123456789012:user/Paulo"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_users_manage.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/get-user.html)di *Referensi AWS CLI Perintah*. 

### `list-access-keys`
<a name="iam_ListAccessKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-access-keys`.

**AWS CLI**  
**Untuk membuat daftar kunci akses IDs untuk pengguna IAM**  
`list-access-keys`Perintah berikut mencantumkan kunci akses IDs untuk pengguna IAM bernama`Bob`.  

```
aws iam list-access-keys \
    --user-name Bob
```
Output:  

```
{
    "AccessKeyMetadata": [
        {
            "UserName": "Bob",
            "Status": "Active",
            "CreateDate": "2013-06-04T18:17:34Z",
            "AccessKeyId": "AKIAIOSFODNN7EXAMPLE"
        },
        {
            "UserName": "Bob",
            "Status": "Inactive",
            "CreateDate": "2013-06-06T20:42:26Z",
            "AccessKeyId": "AKIAI44QH8DHBEXAMPLE"
        }
    ]
}
```
Anda tidak dapat mencantumkan kunci akses rahasia untuk pengguna IAM. Jika kunci akses rahasia hilang, Anda harus membuat kunci akses baru menggunakan `create-access-keys` perintah.  
Untuk informasi lebih lanjut, lihat [Mengelola access key untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_access-keys.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListAccessKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-access-keys.html)di *Referensi AWS CLI Perintah*. 

### `list-account-aliases`
<a name="iam_ListAccountAliases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-account-aliases`.

**AWS CLI**  
**Untuk membuat daftar alias akun**  
`list-account-aliases`Perintah berikut mencantumkan alias untuk akun saat ini.  

```
aws iam list-account-aliases
```
Output:  

```
{
    "AccountAliases": [
    "mycompany"
    ]
}
```
Untuk informasi selengkapnya, lihat [ID AWS akun Anda dan aliasnya](https://docs.aws.amazon.com/IAM/latest/UserGuide/console_account-alias.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListAccountAliases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-account-aliases.html)di *Referensi AWS CLI Perintah*. 

### `list-attached-group-policies`
<a name="iam_ListAttachedGroupPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attached-group-policies`.

**AWS CLI**  
**Untuk mencantumkan semua kebijakan terkelola yang dilampirkan ke grup yang ditentukan**  
Contoh ini mengembalikan nama dan kebijakan ARNs terkelola yang dilampirkan ke grup IAM yang disebutkan `Admins` di AWS akun.  

```
aws iam list-attached-group-policies \
    --group-name Admins
```
Output:  

```
{
    "AttachedPolicies": [
        {
            "PolicyName": "AdministratorAccess",
            "PolicyArn": "arn:aws:iam::aws:policy/AdministratorAccess"
        },
        {
            "PolicyName": "SecurityAudit",
            "PolicyArn": "arn:aws:iam::aws:policy/SecurityAudit"
        }
    ],
    "IsTruncated": false
}
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListAttachedGroupPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-attached-group-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-attached-role-policies`
<a name="iam_ListAttachedRolePolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attached-role-policies`.

**AWS CLI**  
**Untuk mencantumkan semua kebijakan terkelola yang dilampirkan pada peran yang ditentukan**  
Perintah ini mengembalikan nama dan kebijakan ARNs terkelola yang dilampirkan pada peran IAM yang disebutkan `SecurityAuditRole` di AWS akun.  

```
aws iam list-attached-role-policies \
    --role-name SecurityAuditRole
```
Output:  

```
{
    "AttachedPolicies": [
        {
            "PolicyName": "SecurityAudit",
            "PolicyArn": "arn:aws:iam::aws:policy/SecurityAudit"
        }
    ],
    "IsTruncated": false
}
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-attached-role-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-attached-user-policies`
<a name="iam_ListAttachedUserPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attached-user-policies`.

**AWS CLI**  
**Untuk mencantumkan semua kebijakan terkelola yang dilampirkan ke pengguna yang ditentukan**  
Perintah ini mengembalikan nama dan kebijakan ARNs terkelola untuk pengguna IAM yang disebutkan `Bob` di AWS akun.  

```
aws iam list-attached-user-policies \
    --user-name Bob
```
Output:  

```
{
    "AttachedPolicies": [
        {
            "PolicyName": "AdministratorAccess",
            "PolicyArn": "arn:aws:iam::aws:policy/AdministratorAccess"
        },
        {
            "PolicyName": "SecurityAudit",
            "PolicyArn": "arn:aws:iam::aws:policy/SecurityAudit"
        }
    ],
    "IsTruncated": false
}
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListAttachedUserPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-attached-user-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-entities-for-policy`
<a name="iam_ListEntitiesForPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-entities-for-policy`.

**AWS CLI**  
**Untuk mencantumkan semua pengguna, grup, dan peran yang dilampirkan oleh kebijakan terkelola yang ditentukan**  
Contoh ini menampilkan daftar grup, peran, dan pengguna IAM yang memiliki kebijakan `arn:aws:iam::123456789012:policy/TestPolicy` terlampir.  

```
aws iam list-entities-for-policy \
    --policy-arn arn:aws:iam::123456789012:policy/TestPolicy
```
Output:  

```
{
    "PolicyGroups": [
        {
            "GroupName": "Admins",
            "GroupId": "AGPACKCEVSQ6C2EXAMPLE"
        }
    ],
    "PolicyUsers": [
        {
            "UserName": "Alice",
            "UserId": "AIDACKCEVSQ6C2EXAMPLE"
        }
    ],
    "PolicyRoles": [
        {
            "RoleName": "DevRole",
            "RoleId": "AROADBQP57FF2AEXAMPLE"
        }
    ],
    "IsTruncated": false
}
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListEntitiesForPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-entities-for-policy.html)di *Referensi AWS CLI Perintah*. 

### `list-group-policies`
<a name="iam_ListGroupPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-group-policies`.

**AWS CLI**  
**Untuk mencantumkan semua kebijakan inline yang dilampirkan ke grup yang ditentukan**  
`list-group-policies`Perintah berikut mencantumkan nama-nama kebijakan inline yang dilampirkan ke grup IAM yang disebutkan `Admins` di akun saat ini.  

```
aws iam list-group-policies \
    --group-name Admins
```
Output:  

```
{
    "PolicyNames": [
        "AdminRoot",
        "ExamplePolicy"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola kebijakan IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_manage.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListGroupPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-group-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-groups-for-user`
<a name="iam_ListGroupsForUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups-for-user`.

**AWS CLI**  
**Untuk membuat daftar grup yang dimiliki pengguna IAM**  
`list-groups-for-user`Perintah berikut menampilkan grup yang menjadi nama `Bob` pengguna IAM.  

```
aws iam list-groups-for-user \
    --user-name Bob
```
Output:  

```
{
    "Groups": [
        {
            "Path": "/",
            "CreateDate": "2013-05-06T01:18:08Z",
            "GroupId": "AKIAIOSFODNN7EXAMPLE",
            "Arn": "arn:aws:iam::123456789012:group/Admin",
            "GroupName": "Admin"
        },
        {
            "Path": "/",
            "CreateDate": "2013-05-06T01:37:28Z",
            "GroupId": "AKIAI44QH8DHBEXAMPLE",
            "Arn": "arn:aws:iam::123456789012:group/s3-Users",
            "GroupName": "s3-Users"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_manage.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListGroupsForUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-groups-for-user.html)di *Referensi AWS CLI Perintah*. 

### `list-groups`
<a name="iam_ListGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups`.

**AWS CLI**  
**Untuk membuat daftar grup IAM untuk akun saat ini**  
`list-groups`Perintah berikut mencantumkan grup IAM di akun saat ini.  

```
aws iam list-groups
```
Output:  

```
{
    "Groups": [
        {
            "Path": "/",
            "CreateDate": "2013-06-04T20:27:27.972Z",
            "GroupId": "AIDACKCEVSQ6C2EXAMPLE",
            "Arn": "arn:aws:iam::123456789012:group/Admins",
            "GroupName": "Admins"
        },
        {
            "Path": "/",
            "CreateDate": "2013-04-16T20:30:42Z",
            "GroupId": "AIDGPMS9RO4H3FEXAMPLE",
            "Arn": "arn:aws:iam::123456789012:group/S3-Admins",
            "GroupName": "S3-Admins"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_manage.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-instance-profile-tags`
<a name="iam_ListInstanceProfileTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-instance-profile-tags`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke profil instance**  
`list-instance-profile-tags`Perintah berikut mengambil daftar tag yang terkait dengan profil contoh yang ditentukan.  

```
aws iam list-instance-profile-tags \
    --instance-profile-name deployment-role
```
Output:  

```
{
    "Tags": [
        {
            "Key": "DeptID",
            "Value": "123456"
        },
        {
            "Key": "Department",
            "Value": "Accounting"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListInstanceProfileTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-instance-profile-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-instance-profiles-for-role`
<a name="iam_ListInstanceProfilesForRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-instance-profiles-for-role`.

**AWS CLI**  
**Untuk membuat daftar profil instance untuk peran IAM**  
`list-instance-profiles-for-role`Perintah berikut mencantumkan profil instance yang terkait dengan peran tersebut`Test-Role`.  

```
aws iam list-instance-profiles-for-role \
    --role-name Test-Role
```
Output:  

```
{
    "InstanceProfiles": [
        {
            "InstanceProfileId": "AIDGPMS9RO4H3FEXAMPLE",
            "Roles": [
                {
                    "AssumeRolePolicyDocument": "<URL-encoded-JSON>",
                    "RoleId": "AIDACKCEVSQ6C2EXAMPLE",
                    "CreateDate": "2013-06-07T20:42:15Z",
                    "RoleName": "Test-Role",
                    "Path": "/",
                    "Arn": "arn:aws:iam::123456789012:role/Test-Role"
                }
            ],
            "CreateDate": "2013-06-07T21:05:24Z",
            "InstanceProfileName": "ExampleInstanceProfile",
            "Path": "/",
            "Arn": "arn:aws:iam::123456789012:instance-profile/ExampleInstanceProfile"
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Menggunakan profil instance](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_switch-role-ec2_instance-profiles.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListInstanceProfilesForRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-instance-profiles-for-role.html)di *Referensi AWS CLI Perintah*. 

### `list-instance-profiles`
<a name="iam_ListInstanceProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-instance-profiles`.

**AWS CLI**  
**Untuk mencantumkan profil instance untuk akun**  
`list-instance-profiles`Perintah berikut mencantumkan profil instance yang terkait dengan akun saat ini.  

```
aws iam list-instance-profiles
```
Output:  

```
{
    "InstanceProfiles": [
        {
            "Path": "/",
            "InstanceProfileName": "example-dev-role",
            "InstanceProfileId": "AIPAIXEU4NUHUPEXAMPLE",
            "Arn": "arn:aws:iam::123456789012:instance-profile/example-dev-role",
            "CreateDate": "2023-09-21T18:17:41+00:00",
            "Roles": [
                {
                    "Path": "/",
                    "RoleName": "example-dev-role",
                    "RoleId": "AROAJ52OTH4H7LEXAMPLE",
                    "Arn": "arn:aws:iam::123456789012:role/example-dev-role",
                    "CreateDate": "2023-09-21T18:17:40+00:00",
                    "AssumeRolePolicyDocument": {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": [
                            {
                                "Effect": "Allow",
                                "Principal": {
                                    "Service": "ec2.amazonaws.com"
                                },
                                "Action": "sts:AssumeRole"
                            }
                        ]
                    }
                }
            ]
        },
        {
            "Path": "/",
            "InstanceProfileName": "example-s3-role",
            "InstanceProfileId": "AIPAJVJVNRIQFREXAMPLE",
            "Arn": "arn:aws:iam::123456789012:instance-profile/example-s3-role",
            "CreateDate": "2023-09-21T18:18:50+00:00",
            "Roles": [
                {
                    "Path": "/",
                    "RoleName": "example-s3-role",
                    "RoleId": "AROAINUBC5O7XLEXAMPLE",
                    "Arn": "arn:aws:iam::123456789012:role/example-s3-role",
                    "CreateDate": "2023-09-21T18:18:49+00:00",
                    "AssumeRolePolicyDocument": {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": [
                            {
                                "Effect": "Allow",
                                "Principal": {
                                    "Service": "ec2.amazonaws.com"
                                },
                                "Action": "sts:AssumeRole"
                            }
                        ]
                    }
                }
            ]
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat [Menggunakan profil instance](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_switch-role-ec2_instance-profiles.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListInstanceProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-instance-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-mfa-device-tags`
<a name="iam_ListMfaDeviceTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-mfa-device-tags`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke perangkat MFA**  
`list-mfa-device-tags`Perintah berikut mengambil daftar tag yang terkait dengan perangkat MFA yang ditentukan.  

```
aws iam list-mfa-device-tags \
    --serial-number arn:aws:iam::123456789012:mfa/alice
```
Output:  

```
{
    "Tags": [
        {
            "Key": "DeptID",
            "Value": "123456"
        },
        {
            "Key": "Department",
            "Value": "Accounting"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListMfaDeviceTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-mfa-device-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-mfa-devices`
<a name="iam_ListMfaDevices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-mfa-devices`.

**AWS CLI**  
**Untuk mencantumkan semua perangkat MFA untuk pengguna tertentu**  
Contoh ini mengembalikan rincian tentang perangkat MFA yang ditetapkan untuk pengguna IAM. `Bob`  

```
aws iam list-mfa-devices \
    --user-name Bob
```
Output:  

```
{
    "MFADevices": [
        {
            "UserName": "Bob",
            "SerialNumber": "arn:aws:iam::123456789012:mfa/Bob",
            "EnableDate": "2019-10-28T20:37:09+00:00"
        },
        {
            "UserName": "Bob",
            "SerialNumber": "GAKT12345678",
            "EnableDate": "2023-02-18T21:44:42+00:00"
        },
        {
            "UserName": "Bob",
            "SerialNumber": "arn:aws:iam::123456789012:u2f/user/Bob/fidosecuritykey1-7XNL7NFNLZ123456789EXAMPLE",
            "EnableDate": "2023-09-19T02:25:35+00:00"
        },
        {
            "UserName": "Bob",
            "SerialNumber": "arn:aws:iam::123456789012:u2f/user/Bob/fidosecuritykey2-VDRQTDBBN5123456789EXAMPLE",
            "EnableDate": "2023-09-19T01:49:18+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan autentikasi multifaktor (MFA) dalam AWS](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_mfa.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListMfaDevices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-mfa-devices.html)di *Referensi AWS CLI Perintah*. 

### `list-open-id-connect-provider-tags`
<a name="iam_ListOpenIdConnectProviderTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-open-id-connect-provider-tags`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke penyedia identitas yang kompatibel dengan OpenID Connect (OIDC)**  
`list-open-id-connect-provider-tags`Perintah berikut mengambil daftar tag yang terkait dengan penyedia identitas OIDC tertentu.  

```
aws iam list-open-id-connect-provider-tags \
    --open-id-connect-provider-arn arn:aws:iam::123456789012:oidc-provider/server.example.com
```
Output:  

```
{
    "Tags": [
        {
            "Key": "DeptID",
            "Value": "123456"
        },
        {
            "Key": "Department",
            "Value": "Accounting"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListOpenIdConnectProviderTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-open-id-connect-provider-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-open-id-connect-providers`
<a name="iam_ListOpenIdConnectProviders_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-open-id-connect-providers`.

**AWS CLI**  
**Untuk mencantumkan informasi tentang penyedia OpenID Connect di akun AWS **  
Contoh ini mengembalikan daftar ARNS dari semua penyedia OpenID Connect yang didefinisikan dalam akun AWS saat ini.  

```
aws iam list-open-id-connect-providers
```
Output:  

```
{
    "OpenIDConnectProviderList": [
        {
            "Arn": "arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Membuat penyedia identitas OpenID Connect (OIDC)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_oidc.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [ListOpenIdConnectProviders](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-open-id-connect-providers.html)di *Referensi AWS CLI Perintah*. 

### `list-organizations-features`
<a name="iam_ListOrganizationsFeatures_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-organizations-features`.

**AWS CLI**  
**Untuk mencantumkan fitur akses root terpusat yang diaktifkan untuk organisasi Anda**  
`list-organizations-features`Perintah berikut mencantumkan fitur akses root terpusat yang diaktifkan untuk organisasi Anda.  

```
aws iam list-organizations-features
```
Output:  

```
{
    "EnabledFeatures": [
        "RootCredentialsManagement",
        "RootSessions"
    ]
    "OrganizationId": "o-aa111bb222"
}
```
Untuk informasi selengkapnya, lihat [Mengelola akses root untuk akun anggota secara terpusat](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_root-user.html#id_root-user-access-management) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListOrganizationsFeatures](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-organizations-features.html)di *Referensi AWS CLI Perintah*. 

### `list-policies-granting-service-access`
<a name="iam_ListPoliciesGrantingServiceAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policies-granting-service-access`.

**AWS CLI**  
**Untuk membuat daftar kebijakan yang memberikan akses utama ke layanan yang ditentukan**  
`list-policies-granting-service-access`Contoh berikut mengambil daftar kebijakan yang memberikan `sofia` akses pengguna IAM ke AWS CodeCommit layanan.  

```
aws iam list-policies-granting-service-access \
    --arn arn:aws:iam::123456789012:user/sofia \
    --service-namespaces codecommit
```
Output:  

```
{
    "PoliciesGrantingServiceAccess": [
        {
            "ServiceNamespace": "codecommit",
            "Policies": [
                {
                    "PolicyName": "Grant-Sofia-Access-To-CodeCommit",
                    "PolicyType": "INLINE",
                    "EntityType": "USER",
                    "EntityName": "sofia"
                }
            ]
        }
    ],
    "IsTruncated": false
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan IAM dengan CodeCommit: Kredensial Git, kunci SSH, dan kunci AWS akses](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_ssh-keys.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [ListPoliciesGrantingServiceAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-policies-granting-service-access.html)di *Referensi AWS CLI Perintah*. 

### `list-policies`
<a name="iam_ListPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policies`.

**AWS CLI**  
**Untuk mencantumkan kebijakan terkelola yang tersedia untuk AWS akun Anda**  
Contoh ini mengembalikan kumpulan dari dua kebijakan terkelola pertama yang tersedia di AWS akun saat ini.  

```
aws iam list-policies \
    --max-items 3
```
Output:  

```
{
    "Policies": [
        {
            "PolicyName": "AWSCloudTrailAccessPolicy",
            "PolicyId": "ANPAXQE2B5PJ7YEXAMPLE",
            "Arn": "arn:aws:iam::123456789012:policy/AWSCloudTrailAccessPolicy",
            "Path": "/",
            "DefaultVersionId": "v1",
            "AttachmentCount": 0,
            "PermissionsBoundaryUsageCount": 0,
            "IsAttachable": true,
            "CreateDate": "2019-09-04T17:43:42+00:00",
            "UpdateDate": "2019-09-04T17:43:42+00:00"
        },
        {
            "PolicyName": "AdministratorAccess",
            "PolicyId": "ANPAIWMBCKSKIEE64ZLYK",
            "Arn": "arn:aws:iam::aws:policy/AdministratorAccess",
            "Path": "/",
            "DefaultVersionId": "v1",
            "AttachmentCount": 6,
            "PermissionsBoundaryUsageCount": 0,
            "IsAttachable": true,
            "CreateDate": "2015-02-06T18:39:46+00:00",
            "UpdateDate": "2015-02-06T18:39:46+00:00"
        },
        {
            "PolicyName": "PowerUserAccess",
            "PolicyId": "ANPAJYRXTHIB4FOVS3ZXS",
            "Arn": "arn:aws:iam::aws:policy/PowerUserAccess",
            "Path": "/",
            "DefaultVersionId": "v5",
            "AttachmentCount": 1,
            "PermissionsBoundaryUsageCount": 0,
            "IsAttachable": true,
            "CreateDate": "2015-02-06T18:39:47+00:00",
            "UpdateDate": "2023-07-06T22:04:00+00:00"
        }
    ],
    "NextToken": "EXAMPLErZXIiOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiA4fQ=="
}
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-policy-tags`
<a name="iam_ListPolicyTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policy-tags`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan pada kebijakan terkelola**  
`list-policy-tags`Perintah berikut mengambil daftar tag yang terkait dengan kebijakan terkelola yang ditentukan.  

```
aws iam list-policy-tags \
    --policy-arn arn:aws:iam::123456789012:policy/billing-access
```
Output:  

```
{
    "Tags": [
        {
            "Key": "DeptID",
            "Value": "123456"
        },
        {
            "Key": "Department",
            "Value": "Accounting"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListPolicyTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-policy-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-policy-versions`
<a name="iam_ListPolicyVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policy-versions`.

**AWS CLI**  
**Untuk mencantumkan informasi tentang versi kebijakan terkelola yang ditentukan**  
Contoh ini mengembalikan daftar versi kebijakan yang tersedia yang ARN-nya. `arn:aws:iam::123456789012:policy/MySamplePolicy`  

```
aws iam list-policy-versions \
    --policy-arn arn:aws:iam::123456789012:policy/MySamplePolicy
```
Output:  

```
{
    "IsTruncated": false,
    "Versions": [
        {
        "VersionId": "v2",
        "IsDefaultVersion": true,
        "CreateDate": "2015-06-02T23:19:44Z"
        },
        {
        "VersionId": "v1",
        "IsDefaultVersion": false,
        "CreateDate": "2015-06-02T22:30:47Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ListPolicyVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-policy-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-role-policies`
<a name="iam_ListRolePolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-role-policies`.

**AWS CLI**  
**Untuk mencantumkan kebijakan yang dilampirkan pada peran IAM**  
`list-role-policies`Perintah berikut mencantumkan nama kebijakan izin untuk peran IAM yang ditentukan.  

```
aws iam list-role-policies \
    --role-name Test-Role
```
Output:  

```
{
    "PolicyNames": [
        "ExamplePolicy"
    ]
}
```
Untuk melihat kebijakan kepercayaan yang dilampirkan pada peran, gunakan `get-role` perintah. Untuk melihat detail kebijakan izin, gunakan `get-role-policy` perintah.  
Untuk informasi selengkapnya, lihat [Membuat peran IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListRolePolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-role-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-role-tags`
<a name="iam_ListRoleTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-role-tags`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke peran**  
`list-role-tags`Perintah berikut mengambil daftar tag yang terkait dengan peran yang ditentukan.  

```
aws iam list-role-tags \
    --role-name production-role
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Department",
            "Value": "Accounting"
        },
        {
            "Key": "DeptID",
            "Value": "12345"
        }
    ],
    "IsTruncated": false
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListRoleTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-role-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-roles`
<a name="iam_ListRoles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-roles`.

**AWS CLI**  
**Untuk mencantumkan peran IAM untuk akun saat ini**  
`list-roles`Perintah berikut mencantumkan peran IAM untuk akun saat ini.  

```
aws iam list-roles
```
Output:  

```
{
    "Roles": [
        {
            "Path": "/",
            "RoleName": "ExampleRole",
            "RoleId": "AROAJ52OTH4H7LEXAMPLE",
            "Arn": "arn:aws:iam::123456789012:role/ExampleRole",
            "CreateDate": "2017-09-12T19:23:36+00:00",
            "AssumeRolePolicyDocument": {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Sid": "",
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "ec2.amazonaws.com"
                        },
                        "Action": "sts:AssumeRole"
                    }
                ]
            },
            "MaxSessionDuration": 3600
        },
        {
            "Path": "/example_path/",
            "RoleName": "ExampleRoleWithPath",
            "RoleId": "AROAI4QRP7UFT7EXAMPLE",
            "Arn": "arn:aws:iam::123456789012:role/example_path/ExampleRoleWithPath",
            "CreateDate": "2023-09-21T20:29:38+00:00",
            "AssumeRolePolicyDocument": {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Sid": "",
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "ec2.amazonaws.com"
                        },
                        "Action": "sts:AssumeRole"
                    }
                ]
            },
            "MaxSessionDuration": 3600
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat peran IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListRoles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-roles.html)di *Referensi AWS CLI Perintah*. 

### `list-saml-provider-tags`
<a name="iam_ListSamlProviderTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-saml-provider-tags`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke penyedia SAFL**  
`list-saml-provider-tags`Perintah berikut mengambil daftar tag yang terkait dengan penyedia SAFL tertentu.  

```
aws iam list-saml-provider-tags \
    --saml-provider-arn arn:aws:iam::123456789012:saml-provider/ADFS
```
Output:  

```
{
    "Tags": [
        {
            "Key": "DeptID",
            "Value": "123456"
        },
        {
            "Key": "Department",
            "Value": "Accounting"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListSamlProviderTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-saml-provider-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-saml-providers`
<a name="iam_ListSAMLProviders_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-saml-providers`.

**AWS CLI**  
**Untuk membuat daftar penyedia SAFL di akun AWS **  
Contoh ini mengambil daftar penyedia SAFL 2.0 yang dibuat di akun saat ini AWS .  

```
aws iam list-saml-providers
```
Output:  

```
{
    "SAMLProviderList": [
        {
            "Arn": "arn:aws:iam::123456789012:saml-provider/SAML-ADFS",
            "ValidUntil": "2015-06-05T22:45:14Z",
            "CreateDate": "2015-06-05T22:45:14Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat penyedia identitas IAM SALL](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_saml.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [Daftar SAMLProviders](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-saml-providers.html) di *Referensi AWS CLI Perintah*. 

### `list-server-certificate-tags`
<a name="iam_ListServerCertificateTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-server-certificate-tags`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke sertifikat server**  
`list-server-certificate-tags`Perintah berikut mengambil daftar tag yang terkait dengan sertifikat server tertentu.  

```
aws iam list-server-certificate-tags \
    --server-certificate-name ExampleCertificate
```
Output:  

```
{
    "Tags": [
        {
            "Key": "DeptID",
            "Value": "123456"
        },
        {
            "Key": "Department",
            "Value": "Accounting"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListServerCertificateTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-server-certificate-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-server-certificates`
<a name="iam_ListServerCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-server-certificates`.

**AWS CLI**  
**Untuk mencantumkan sertifikat server di AWS akun Anda**  
`list-server-certificates`Perintah berikut mencantumkan semua sertifikat server yang disimpan dan tersedia untuk digunakan di AWS akun Anda.  

```
aws iam list-server-certificates
```
Output:  

```
{
    "ServerCertificateMetadataList": [
        {
            "Path": "/",
            "ServerCertificateName": "myUpdatedServerCertificate",
            "ServerCertificateId": "ASCAEXAMPLE123EXAMPLE",
            "Arn": "arn:aws:iam::123456789012:server-certificate/myUpdatedServerCertificate",
            "UploadDate": "2019-04-22T21:13:44+00:00",
            "Expiration": "2019-10-15T22:23:16+00:00"
        },
        {
            "Path": "/cloudfront/",
            "ServerCertificateName": "MyTestCert",
            "ServerCertificateId": "ASCAEXAMPLE456EXAMPLE",
            "Arn": "arn:aws:iam::123456789012:server-certificate/Org1/Org2/MyTestCert",
            "UploadDate": "2015-04-21T18:14:16+00:00",
            "Expiration": "2018-01-14T17:52:36+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola sertifikat server di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_server-certs.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListServerCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-server-certificates.html)di *Referensi AWS CLI Perintah*. 

### `list-service-specific-credential`
<a name="iam_ListServiceSpecificCredential_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-specific-credential`.

**AWS CLI**  
**Contoh 1: Buat daftar kredensi khusus layanan untuk pengguna**  
`list-service-specific-credentials`Contoh berikut menampilkan semua kredensil khusus layanan yang ditetapkan untuk pengguna tertentu. Kata sandi tidak termasuk dalam respons.  

```
aws iam list-service-specific-credentials \
    --user-name sofia
```
Output:  

```
{
    "ServiceSpecificCredential": {
        "CreateDate": "2019-04-18T20:45:36+00:00",
        "ServiceName": "codecommit.amazonaws.com",
        "ServiceUserName": "sofia-at-123456789012",
        "ServiceSpecificCredentialId": "ACCAEXAMPLE123EXAMPLE",
        "UserName": "sofia",
        "Status": "Active"
    }
}
```
**Contoh 2: Buat daftar kredensi khusus layanan untuk pengguna yang difilter ke layanan tertentu**  
`list-service-specific-credentials`Contoh berikut menampilkan kredensil khusus layanan yang ditetapkan kepada pengguna yang membuat permintaan. Daftar ini disaring untuk menyertakan hanya kredensil tersebut untuk layanan yang ditentukan. Kata sandi tidak termasuk dalam respons.  

```
aws iam list-service-specific-credentials \
    --service-name codecommit.amazonaws.com
```
Output:  

```
{
    "ServiceSpecificCredential": {
        "CreateDate": "2019-04-18T20:45:36+00:00",
        "ServiceName": "codecommit.amazonaws.com",
        "ServiceUserName": "sofia-at-123456789012",
        "ServiceSpecificCredentialId": "ACCAEXAMPLE123EXAMPLE",
        "UserName": "sofia",
        "Status": "Active"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat kredensi Git untuk koneksi HTTPS CodeCommit](https://docs.aws.amazon.com/codecommit/latest/userguide/setting-up-gc.html#setting-up-gc-iam) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [ListServiceSpecificCredential](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-service-specific-credential.html)di *Referensi AWS CLI Perintah*. 

### `list-service-specific-credentials`
<a name="iam_ListServiceSpecificCredentials_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-specific-credentials`.

**AWS CLI**  
**Untuk mengambil daftar kredensional**  
`list-service-specific-credentials`Contoh berikut mencantumkan kredensyal yang dihasilkan untuk akses HTTPS ke AWS CodeCommit repositori untuk pengguna bernama. `developer`  

```
aws iam list-service-specific-credentials \
    --user-name developer \
    --service-name codecommit.amazonaws.com
```
Output:  

```
{
    "ServiceSpecificCredentials": [
        {
            "UserName": "developer",
            "Status": "Inactive",
            "ServiceUserName": "developer-at-123456789012",
            "CreateDate": "2019-10-01T04:31:41Z",
            "ServiceSpecificCredentialId": "ACCAQFODXMPL4YFHP7DZE",
            "ServiceName": "codecommit.amazonaws.com"
        },
        {
            "UserName": "developer",
            "Status": "Active",
            "ServiceUserName": "developer+1-at-123456789012",
            "CreateDate": "2019-10-01T04:31:45Z",
            "ServiceSpecificCredentialId": "ACCAQFOXMPL6VW57M7AJP",
            "ServiceName": "codecommit.amazonaws.com"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat kredensi Git untuk koneksi HTTPS CodeCommit](https://docs.aws.amazon.com/codecommit/latest/userguide/setting-up-gc.html#setting-up-gc-iam) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [ListServiceSpecificCredentials](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-service-specific-credentials.html)di *Referensi AWS CLI Perintah*. 

### `list-signing-certificates`
<a name="iam_ListSigningCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-signing-certificates`.

**AWS CLI**  
**Untuk mencantumkan sertifikat penandatanganan untuk pengguna IAM**  
`list-signing-certificates`Perintah berikut mencantumkan sertifikat penandatanganan untuk pengguna IAM bernama`Bob`.  

```
aws iam list-signing-certificates \
    --user-name Bob
```
Output:  

```
{
    "Certificates": [
        {
            "UserName": "Bob",
            "Status": "Inactive",
            "CertificateBody": "-----BEGIN CERTIFICATE-----<certificate-body>-----END CERTIFICATE-----",
            "CertificateId": "TA7SMP42TDN5Z26OBPJE7EXAMPLE",
            "UploadDate": "2013-06-06T21:40:08Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola sertifikat penandatanganan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/set-up-ami-tools.html#ami-tools-managing-certs) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [ListSigningCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-signing-certificates.html)di *Referensi AWS CLI Perintah*. 

### `list-ssh-public-keys`
<a name="iam_ListSshPublicKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-ssh-public-keys`.

**AWS CLI**  
**Untuk mencantumkan kunci publik SSH yang dilampirkan ke pengguna IAM**  
`list-ssh-public-keys`Contoh berikut mencantumkan kunci publik SSH yang dilampirkan ke pengguna IAM. `sofia`  

```
aws iam list-ssh-public-keys \
    --user-name sofia
```
Output:  

```
{
    "SSHPublicKeys": [
        {
            "UserName": "sofia",
            "SSHPublicKeyId": "APKA1234567890EXAMPLE",
            "Status": "Inactive",
            "UploadDate": "2019-04-18T17:04:49+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan kunci SSH dan SSH dengan CodeCommit](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_ssh-keys.html#ssh-keys-code-commit) dalam Panduan Pengguna *AWS IAM*  
+  Untuk detail API, lihat [ListSshPublicKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-ssh-public-keys.html)di *Referensi AWS CLI Perintah*. 

### `list-user-policies`
<a name="iam_ListUserPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-user-policies`.

**AWS CLI**  
**Untuk membuat daftar kebijakan untuk pengguna IAM**  
`list-user-policies`Perintah berikut mencantumkan kebijakan yang dilampirkan ke nama `Bob` pengguna IAM.  

```
aws iam list-user-policies \
    --user-name Bob
```
Output:  

```
{
    "PolicyNames": [
        "ExamplePolicy",
        "TestPolicy"
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat pengguna IAM di AWS akun Anda](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_users_create.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListUserPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-user-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-user-tags`
<a name="iam_ListUserTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-user-tags`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke pengguna**  
`list-user-tags`Perintah berikut mengambil daftar tag yang terkait dengan pengguna IAM tertentu.  

```
aws iam list-user-tags \
    --user-name alice
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Department",
            "Value": "Accounting"
        },
        {
            "Key": "DeptID",
            "Value": "12345"
        }
    ],
    "IsTruncated": false
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListUserTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-user-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-users`
<a name="iam_ListUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-users`.

**AWS CLI**  
**Untuk daftar pengguna IAM**  
`list-users`Perintah berikut mencantumkan pengguna IAM di akun saat ini.  

```
aws iam list-users
```
Output:  

```
{
    "Users": [
        {
            "UserName": "Adele",
            "Path": "/",
            "CreateDate": "2013-03-07T05:14:48Z",
            "UserId": "AKIAI44QH8DHBEXAMPLE",
            "Arn": "arn:aws:iam::123456789012:user/Adele"
        },
        {
            "UserName": "Bob",
            "Path": "/",
            "CreateDate": "2012-09-21T23:03:13Z",
            "UserId": "AKIAIOSFODNN7EXAMPLE",
            "Arn": "arn:aws:iam::123456789012:user/Bob"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_users_manage.html#id_users_manage_list) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-users.html)di *Referensi AWS CLI Perintah*. 

### `list-virtual-mfa-devices`
<a name="iam_ListVirtualMfaDevices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-virtual-mfa-devices`.

**AWS CLI**  
**Untuk daftar perangkat MFA virtual**  
`list-virtual-mfa-devices`Perintah berikut mencantumkan perangkat MFA virtual yang telah dikonfigurasi untuk akun saat ini.  

```
aws iam list-virtual-mfa-devices
```
Output:  

```
{
    "VirtualMFADevices": [
        {
            "SerialNumber": "arn:aws:iam::123456789012:mfa/ExampleMFADevice"
        },
        {
            "SerialNumber": "arn:aws:iam::123456789012:mfa/Fred"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mengaktifkan perangkat autentikasi multi-faktor virtual (MFA)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_mfa_enable_virtual.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [ListVirtualMfaDevices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/list-virtual-mfa-devices.html)di *Referensi AWS CLI Perintah*. 

### `put-group-policy`
<a name="iam_PutGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-group-policy`.

**AWS CLI**  
**Untuk menambahkan kebijakan ke grup**  
`put-group-policy`Perintah berikut menambahkan kebijakan ke grup IAM bernama`Admins`.  

```
aws iam put-group-policy \
    --group-name Admins \
    --policy-document file://AdminPolicy.json \
    --policy-name AdminRoot
```
Perintah ini tidak menghasilkan output.  
Kebijakan didefinisikan sebagai dokumen JSON dalam *AdminPolicyfile.json*. (Nama file dan ekstensi tidak memiliki signifikansi.)  
Untuk informasi selengkapnya, lihat [Mengelola kebijakan IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_manage.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [PutGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/put-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-role-permissions-boundary`
<a name="iam_PutRolePermissionsBoundary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-role-permissions-boundary`.

**AWS CLI**  
**Contoh 1: Untuk menerapkan batas izin berdasarkan kebijakan kustom ke peran IAM**  
`put-role-permissions-boundary`Contoh berikut menerapkan kebijakan kustom yang dinamai `intern-boundary` sebagai batas izin untuk peran IAM yang ditentukan.  

```
aws iam put-role-permissions-boundary \
    --permissions-boundary arn:aws:iam::123456789012:policy/intern-boundary \
    --role-name lambda-application-role
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menerapkan batas izin berdasarkan kebijakan AWS terkelola ke peran IAM**  
`put-role-permissions-boundary`Contoh berikut menerapkan `PowerUserAccess` kebijakan AWS terkelola sebagai batas izin untuk peran IAM yang ditentukan.  

```
aws iam put-role-permissions-boundary \
    --permissions-boundary arn:aws:iam::aws:policy/PowerUserAccess \
    --role-name x-account-admin
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memodifikasi peran](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_manage_modify.html) dalam *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [PutRolePermissionsBoundary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/put-role-permissions-boundary.html)di *Referensi AWS CLI Perintah*. 

### `put-role-policy`
<a name="iam_PutRolePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-role-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan izin ke peran IAM**  
`put-role-policy`Perintah berikut menambahkan kebijakan izin ke peran bernama`Test-Role`.  

```
aws iam put-role-policy \
    --role-name Test-Role \
    --policy-name ExamplePolicy \
    --policy-document file://AdminPolicy.json
```
Perintah ini tidak menghasilkan output.  
Kebijakan didefinisikan sebagai dokumen JSON dalam *AdminPolicyfile.json*. (Nama file dan ekstensi tidak memiliki signifikansi.)  
Untuk melampirkan kebijakan kepercayaan ke suatu peran, gunakan `update-assume-role-policy` perintah.  
Untuk informasi selengkapnya, lihat [Memodifikasi peran](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_manage_modify.html) dalam *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [PutRolePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/put-role-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-user-permissions-boundary`
<a name="iam_PutUserPermissionsBoundary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-user-permissions-boundary`.

**AWS CLI**  
**Contoh 1: Untuk menerapkan batas izin berdasarkan kebijakan kustom ke pengguna IAM**  
`put-user-permissions-boundary`Contoh berikut menerapkan kebijakan kustom bernama `intern-boundary` sebagai batas izin untuk pengguna IAM yang ditentukan.  

```
aws iam put-user-permissions-boundary \
    --permissions-boundary arn:aws:iam::123456789012:policy/intern-boundary \
    --user-name intern
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menerapkan batas izin berdasarkan kebijakan AWS terkelola ke pengguna IAM**  
`put-user-permissions-boundary`Contoh berikut menerapkan pollicy AWS terkelola bernama `PowerUserAccess` sebagai batas izin untuk pengguna IAM yang ditentukan.  

```
aws iam put-user-permissions-boundary \
    --permissions-boundary arn:aws:iam::aws:policy/PowerUserAccess \
    --user-name developer
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Menambahkan dan menghapus izin identitas IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_manage-attach-detach.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [PutUserPermissionsBoundary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/put-user-permissions-boundary.html)di *Referensi AWS CLI Perintah*. 

### `put-user-policy`
<a name="iam_PutUserPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-user-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan ke pengguna IAM**  
`put-user-policy`Perintah berikut melampirkan kebijakan ke pengguna IAM bernama. `Bob`  

```
aws iam put-user-policy \
    --user-name Bob \
    --policy-name ExamplePolicy \
    --policy-document file://AdminPolicy.json
```
Perintah ini tidak menghasilkan output.  
Kebijakan didefinisikan sebagai dokumen JSON dalam *AdminPolicyfile.json*. (Nama file dan ekstensi tidak memiliki signifikansi.)  
Untuk informasi lebih lanjut, lihat [Menambahkan dan menghapus izin identitas IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_manage-attach-detach.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [PutUserPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/put-user-policy.html)di *Referensi AWS CLI Perintah*. 

### `remove-client-id-from-open-id-connect-provider`
<a name="iam_RemoveClientIdFromOpenIdConnectProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-client-id-from-open-id-connect-provider`.

**AWS CLI**  
**Untuk menghapus ID klien yang ditentukan dari daftar klien yang IDs terdaftar untuk penyedia IAM OpenID Connect yang ditentukan**  
Contoh ini menghapus ID klien `My-TestApp-3` dari daftar klien yang IDs terkait dengan penyedia IAM OIDC yang ARN. `arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com`  

```
aws iam remove-client-id-from-open-id-connect-provider
    --client-id My-TestApp-3 \
    --open-id-connect-provider-arn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Membuat penyedia identitas OpenID Connect (OIDC)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_oidc.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [RemoveClientIdFromOpenIdConnectProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/remove-client-id-from-open-id-connect-provider.html)di *Referensi AWS CLI Perintah*. 

### `remove-role-from-instance-profile`
<a name="iam_RemoveRoleFromInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-role-from-instance-profile`.

**AWS CLI**  
**Untuk menghapus peran dari profil instance**  
`remove-role-from-instance-profile`Perintah berikut menghapus peran bernama `Test-Role` dari profil instance bernama`ExampleInstanceProfile`.  

```
aws iam remove-role-from-instance-profile \
    --instance-profile-name ExampleInstanceProfile \
    --role-name Test-Role
```
Untuk informasi lebih lanjut, lihat [Menggunakan profil instance](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_switch-role-ec2_instance-profiles.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [RemoveRoleFromInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/remove-role-from-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `remove-user-from-group`
<a name="iam_RemoveUserFromGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-user-from-group`.

**AWS CLI**  
**Untuk menghapus pengguna dari grup IAM**  
`remove-user-from-group`Perintah berikut menghapus nama pengguna `Bob` dari grup IAM bernama`Admins`.  

```
aws iam remove-user-from-group \
    --user-name Bob \
    --group-name Admins
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan dan menghapus pengguna dalam grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_manage_add-remove-users.html) di Panduan *Pengguna AWS IAM*.  
+  Untuk detail API, lihat [RemoveUserFromGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/remove-user-from-group.html)di *Referensi AWS CLI Perintah*. 

### `reset-service-specific-credential`
<a name="iam_ResetServiceSpecificCredential_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-service-specific-credential`.

**AWS CLI**  
**Contoh 1: Setel ulang kata sandi untuk kredensi khusus layanan yang dilampirkan pada pengguna yang membuat permintaan**  
`reset-service-specific-credential`Contoh berikut menghasilkan kata sandi baru yang kuat secara kriptografis untuk kredensi khusus layanan tertentu yang dilampirkan pada pengguna yang membuat permintaan.  

```
aws iam reset-service-specific-credential \
    --service-specific-credential-id ACCAEXAMPLE123EXAMPLE
```
Output:  

```
{
    "ServiceSpecificCredential": {
        "CreateDate": "2019-04-18T20:45:36+00:00",
        "ServiceName": "codecommit.amazonaws.com",
        "ServiceUserName": "sofia-at-123456789012",
        "ServicePassword": "+oaFsNk7tLco+C/obP9GhhcOzGcKOayTmE3LnAmAmH4=",
        "ServiceSpecificCredentialId": "ACCAEXAMPLE123EXAMPLE",
        "UserName": "sofia",
        "Status": "Active"
    }
}
```
**Contoh 2: Setel ulang kata sandi untuk kredensi khusus layanan yang dilampirkan ke pengguna tertentu**  
`reset-service-specific-credential`Contoh berikut menghasilkan kata sandi baru yang kuat secara kriptografis untuk kredensi khusus layanan yang dilampirkan pada pengguna tertentu.  

```
aws iam reset-service-specific-credential \
    --user-name sofia \
    --service-specific-credential-id ACCAEXAMPLE123EXAMPLE
```
Output:  

```
{
    "ServiceSpecificCredential": {
        "CreateDate": "2019-04-18T20:45:36+00:00",
        "ServiceName": "codecommit.amazonaws.com",
        "ServiceUserName": "sofia-at-123456789012",
        "ServicePassword": "+oaFsNk7tLco+C/obP9GhhcOzGcKOayTmE3LnAmAmH4=",
        "ServiceSpecificCredentialId": "ACCAEXAMPLE123EXAMPLE",
        "UserName": "sofia",
        "Status": "Active"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat kredensi Git untuk koneksi HTTPS CodeCommit](https://docs.aws.amazon.com/codecommit/latest/userguide/setting-up-gc.html#setting-up-gc-iam) di *AWS CodeCommit Panduan Pengguna*.  
+  Untuk detail API, lihat [ResetServiceSpecificCredential](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/reset-service-specific-credential.html)di *Referensi AWS CLI Perintah*. 

### `resync-mfa-device`
<a name="iam_ResyncMfaDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resync-mfa-device`.

**AWS CLI**  
**Untuk menyinkronkan perangkat MFA**  
`resync-mfa-device`Contoh berikut menyinkronkan perangkat MFA yang terkait dengan pengguna IAM `Bob` dan ARN-nya dengan program autentikator yang `arn:aws:iam::123456789012:mfa/BobsMFADevice` menyediakan dua kode otentikasi.  

```
aws iam resync-mfa-device \
    --user-name Bob \
    --serial-number arn:aws:iam::210987654321:mfa/BobsMFADevice \
    --authentication-code1 123456 \
    --authentication-code2 987654
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan autentikasi multifaktor (MFA) dalam AWS](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_mfa.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [ResyncMfaDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/resync-mfa-device.html)di *Referensi AWS CLI Perintah*. 

### `set-default-policy-version`
<a name="iam_SetDefaultPolicyVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-default-policy-version`.

**AWS CLI**  
**Untuk menetapkan versi tertentu dari kebijakan yang ditentukan sebagai versi default kebijakan.**  
Contoh ini menetapkan `v2` versi kebijakan yang ARN-nya `arn:aws:iam::123456789012:policy/MyPolicy` sebagai versi aktif default.  

```
aws iam set-default-policy-version \
    --policy-arn arn:aws:iam::123456789012:policy/MyPolicy \
    --version-id v2
```
Untuk informasi selengkapnya, lihat [Kebijakan dan izin di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [SetDefaultPolicyVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/set-default-policy-version.html)di *Referensi AWS CLI Perintah*. 

### `set-security-token-service-preferences`
<a name="iam_SetSecurityTokenServicePreferences_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-security-token-service-preferences`.

**AWS CLI**  
**Untuk mengatur versi token titik akhir global**  
`set-security-token-service-preferences`Contoh berikut mengonfigurasi Amazon STS untuk menggunakan token versi 2 saat Anda mengautentikasi terhadap titik akhir global.  

```
aws iam set-security-token-service-preferences \
    --global-endpoint-token-version v2Token
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola AWS STS di AWS Wilayah](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_temp_enable-regions.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [SetSecurityTokenServicePreferences](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/set-security-token-service-preferences.html)di *Referensi AWS CLI Perintah*. 

### `simulate-custom-policy`
<a name="iam_SimulateCustomPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`simulate-custom-policy`.

**AWS CLI**  
**Contoh 1: Untuk mensimulasikan efek dari semua kebijakan IAM yang terkait dengan pengguna atau peran IAM**  
Berikut ini `simulate-custom-policy` menunjukkan cara menyediakan kebijakan dan menentukan nilai variabel dan mensimulasikan panggilan API untuk melihat apakah itu diizinkan atau ditolak. Contoh berikut menunjukkan kebijakan yang memungkinkan akses database hanya setelah tanggal dan waktu tertentu. Simulasi berhasil karena tindakan simulasi dan `aws:CurrentTime` variabel yang ditentukan semuanya sesuai dengan persyaratan kebijakan.  

```
aws iam simulate-custom-policy \
    --policy-input-list '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"*","Condition":{"DateGreaterThan":{"aws:CurrentTime":"2018-08-16T12:00:00Z"}}}}' \
    --action-names dynamodb:CreateBackup \
    --context-entries "ContextKeyName='aws:CurrentTime',ContextKeyValues='2019-04-25T11:00:00Z',ContextKeyType=date"
```
Output:  

```
{
    "EvaluationResults": [
        {
            "EvalActionName": "dynamodb:CreateBackup",
            "EvalResourceName": "*",
            "EvalDecision": "allowed",
            "MatchedStatements": [
                {
                    "SourcePolicyId": "PolicyInputList.1",
                    "StartPosition": {
                        "Line": 1,
                        "Column": 38
                    },
                    "EndPosition": {
                        "Line": 1,
                        "Column": 167
                    }
                }
            ],
            "MissingContextValues": []
        }
    ]
}
```
**Contoh 2: Untuk mensimulasikan perintah yang dilarang oleh kebijakan**  
`simulate-custom-policy`Contoh berikut menunjukkan hasil simulasi perintah yang dilarang oleh kebijakan. Dalam contoh ini, tanggal yang diberikan adalah sebelum yang disyaratkan oleh kondisi polis.  

```
aws iam simulate-custom-policy \
    --policy-input-list '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"*","Condition":{"DateGreaterThan":{"aws:CurrentTime":"2018-08-16T12:00:00Z"}}}}' \
    --action-names dynamodb:CreateBackup \
    --context-entries "ContextKeyName='aws:CurrentTime',ContextKeyValues='2014-04-25T11:00:00Z',ContextKeyType=date"
```
Output:  

```
{
    "EvaluationResults": [
        {
            "EvalActionName": "dynamodb:CreateBackup",
            "EvalResourceName": "*",
            "EvalDecision": "implicitDeny",
            "MatchedStatements": [],
            "MissingContextValues": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menguji kebijakan IAM dengan simulator kebijakan IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_testing-policies.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [SimulateCustomPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/simulate-custom-policy.html)di *Referensi AWS CLI Perintah*. 

### `simulate-principal-policy`
<a name="iam_SimulatePrincipalPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`simulate-principal-policy`.

**AWS CLI**  
**Contoh 1: Untuk mensimulasikan efek dari kebijakan IAM yang sewenang-wenang**  
Berikut ini `simulate-principal-policy` menunjukkan cara mensimulasikan pengguna yang memanggil tindakan API dan menentukan apakah kebijakan yang terkait dengan pengguna tersebut mengizinkan atau menolak tindakan tersebut. Dalam contoh berikut, pengguna memiliki kebijakan yang hanya mengizinkan `codecommit:ListRepositories` tindakan.  

```
aws iam simulate-principal-policy \
    --policy-source-arn arn:aws:iam::123456789012:user/alejandro \
    --action-names codecommit:ListRepositories
```
Output:  

```
{
    "EvaluationResults": [
        {
            "EvalActionName": "codecommit:ListRepositories",
            "EvalResourceName": "*",
            "EvalDecision": "allowed",
            "MatchedStatements": [
                {
                    "SourcePolicyId": "Grant-Access-To-CodeCommit-ListRepo",
                    "StartPosition": {
                        "Line": 3,
                        "Column": 19
                    },
                    "EndPosition": {
                        "Line": 9,
                        "Column": 10
                    }
                }
            ],
            "MissingContextValues": []
        }
    ]
}
```
**Contoh 2: Untuk mensimulasikan efek dari perintah terlarang**  
`simulate-custom-policy`Contoh berikut menunjukkan hasil simulasi perintah yang dilarang oleh salah satu kebijakan pengguna. Dalam contoh berikut, pengguna memiliki kebijakan yang mengizinkan akses ke database DynamoDB hanya setelah tanggal dan waktu tertentu. Simulasi memiliki pengguna yang mencoba mengakses database dengan `aws:CurrentTime` nilai yang lebih awal dari izin kondisi kebijakan.  

```
aws iam simulate-principal-policy \
    --policy-source-arn arn:aws:iam::123456789012:user/alejandro \
    --action-names dynamodb:CreateBackup \
    --context-entries "ContextKeyName='aws:CurrentTime',ContextKeyValues='2018-04-25T11:00:00Z',ContextKeyType=date"
```
Output:  

```
{
    "EvaluationResults": [
        {
            "EvalActionName": "dynamodb:CreateBackup",
            "EvalResourceName": "*",
            "EvalDecision": "implicitDeny",
            "MatchedStatements": [],
            "MissingContextValues": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menguji kebijakan IAM dengan simulator kebijakan IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies_testing-policies.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [SimulatePrincipalPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/simulate-principal-policy.html)di *Referensi AWS CLI Perintah*. 

### `tag-instance-profile`
<a name="iam_TagInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-instance-profile`.

**AWS CLI**  
**Untuk menambahkan tag ke profil instance**  
`tag-instance-profile`Perintah berikut menambahkan tag dengan nama Departemen ke profil instance tertentu.  

```
aws iam tag-instance-profile \
    --instance-profile-name deployment-role \
    --tags '[{"Key": "Department", "Value": "Accounting"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [TagInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/tag-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `tag-mfa-device`
<a name="iam_TagMfaDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-mfa-device`.

**AWS CLI**  
**Untuk menambahkan tag ke perangkat MFA**  
`tag-mfa-device`Perintah berikut menambahkan tag dengan nama Departemen ke perangkat MFA yang ditentukan.  

```
aws iam tag-mfa-device \
    --serial-number arn:aws:iam::123456789012:mfa/alice \
    --tags '[{"Key": "Department", "Value": "Accounting"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [TagMfaDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/tag-mfa-device.html)di *Referensi AWS CLI Perintah*. 

### `tag-open-id-connect-provider`
<a name="iam_TagOpenIdConnectProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-open-id-connect-provider`.

**AWS CLI**  
**Untuk menambahkan tag ke penyedia identitas yang kompatibel dengan OpenID Connect (OIDC)**  
`tag-open-id-connect-provider`Perintah berikut menambahkan tag dengan nama Departemen ke penyedia identitas OIDC yang ditentukan.  

```
aws iam tag-open-id-connect-provider \
    --open-id-connect-provider-arn arn:aws:iam::123456789012:oidc-provider/server.example.com \
    --tags '[{"Key": "Department", "Value": "Accounting"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [TagOpenIdConnectProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/tag-open-id-connect-provider.html)di *Referensi AWS CLI Perintah*. 

### `tag-policy`
<a name="iam_TagPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-policy`.

**AWS CLI**  
**Untuk menambahkan tag ke kebijakan terkelola pelanggan**  
`tag-policy`Perintah berikut menambahkan tag dengan nama Departemen ke kebijakan terkelola pelanggan yang ditentukan.  

```
aws iam tag-policy \
    --policy-arn arn:aws:iam::123456789012:policy/billing-access \
    --tags '[{"Key": "Department", "Value": "Accounting"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [TagPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/tag-policy.html)di *Referensi AWS CLI Perintah*. 

### `tag-role`
<a name="iam_TagRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-role`.

**AWS CLI**  
**Untuk menambahkan tag ke peran**  
`tag-role`Perintah berikut menambahkan tag dengan nama Departemen ke peran yang ditentukan.  

```
aws iam tag-role --role-name my-role \
    --tags '{"Key": "Department", "Value": "Accounting"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [TagRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/tag-role.html)di *Referensi AWS CLI Perintah*. 

### `tag-saml-provider`
<a name="iam_TagSamlProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-saml-provider`.

**AWS CLI**  
**Untuk menambahkan tag ke penyedia SAFL**  
`tag-saml-provider`Perintah berikut menambahkan tag dengan nama Departemen ke penyedia SAFL tertentu.  

```
aws iam tag-saml-provider \
    --saml-provider-arn arn:aws:iam::123456789012:saml-provider/ADFS \
    --tags '[{"Key": "Department", "Value": "Accounting"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [TagSamlProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/tag-saml-provider.html)di *Referensi AWS CLI Perintah*. 

### `tag-server-certificate`
<a name="iam_TagServerCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-server-certificate`.

**AWS CLI**  
**Untuk menambahkan tag ke sertifikat server**  
`tag-saml-provider`Perintah berikut menambahkan tag dengan nama Departemen ke sertifikat sever yang ditentukan.  

```
aws iam tag-server-certificate \
    --server-certificate-name ExampleCertificate \
    --tags '[{"Key": "Department", "Value": "Accounting"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [TagServerCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/tag-server-certificate.html)di *Referensi AWS CLI Perintah*. 

### `tag-user`
<a name="iam_TagUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-user`.

**AWS CLI**  
**Untuk menambahkan tag ke pengguna**  
`tag-user`Perintah berikut menambahkan tag dengan Departemen terkait untuk pengguna tertentu.  

```
aws iam tag-user \
    --user-name alice \
    --tags '{"Key": "Department", "Value": "Accounting"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [TagUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/tag-user.html)di *Referensi AWS CLI Perintah*. 

### `untag-instance-profile`
<a name="iam_UntagInstanceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-instance-profile`.

**AWS CLI**  
**Untuk menghapus tag dari profil instance**  
`untag-instance-profile`Perintah berikut menghapus tag apa pun dengan nama kunci 'Departemen' dari profil instance yang ditentukan.  

```
aws iam untag-instance-profile \
    --instance-profile-name deployment-role \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UntagInstanceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/untag-instance-profile.html)di *Referensi AWS CLI Perintah*. 

### `untag-mfa-device`
<a name="iam_UntagMfaDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-mfa-device`.

**AWS CLI**  
**Untuk menghapus tag dari perangkat MFA**  
`untag-mfa-device`Perintah berikut menghapus tag apa pun dengan nama kunci 'Departemen' dari perangkat MFA yang ditentukan.  

```
aws iam untag-mfa-device \
    --serial-number arn:aws:iam::123456789012:mfa/alice \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UntagMfaDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/untag-mfa-device.html)di *Referensi AWS CLI Perintah*. 

### `untag-open-id-connect-provider`
<a name="iam_UntagOpenIdConnectProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-open-id-connect-provider`.

**AWS CLI**  
**Untuk menghapus tag dari penyedia identitas OIDC**  
`untag-open-id-connect-provider`Perintah berikut menghapus tag apa pun dengan nama kunci 'Departemen' dari penyedia identitas OIDC yang ditentukan.  

```
aws iam untag-open-id-connect-provider \
    --open-id-connect-provider-arn arn:aws:iam::123456789012:oidc-provider/server.example.com \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UntagOpenIdConnectProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/untag-open-id-connect-provider.html)di *Referensi AWS CLI Perintah*. 

### `untag-policy`
<a name="iam_UntagPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-policy`.

**AWS CLI**  
**Untuk menghapus tag dari kebijakan yang dikelola pelanggan**  
`untag-policy`Perintah berikut menghapus tag apa pun dengan nama kunci 'Departemen' dari kebijakan terkelola pelanggan yang ditentukan.  

```
aws iam untag-policy \
    --policy-arn arn:aws:iam::452925170507:policy/billing-access \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UntagPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/untag-policy.html)di *Referensi AWS CLI Perintah*. 

### `untag-role`
<a name="iam_UntagRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-role`.

**AWS CLI**  
**Untuk menghapus tag dari peran**  
`untag-role`Perintah berikut menghapus tag apa pun dengan nama kunci 'Departemen' dari peran yang ditentukan.  

```
aws iam untag-role \
    --role-name my-role \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UntagRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/untag-role.html)di *Referensi AWS CLI Perintah*. 

### `untag-saml-provider`
<a name="iam_UntagSamlProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-saml-provider`.

**AWS CLI**  
**Untuk menghapus tag dari penyedia SAFL**  
`untag-saml-provider`Perintah berikut menghapus tag apa pun dengan nama kunci 'Departemen' dari profil instance yang ditentukan.  

```
aws iam untag-saml-provider \
    --saml-provider-arn arn:aws:iam::123456789012:saml-provider/ADFS \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UntagSamlProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/untag-saml-provider.html)di *Referensi AWS CLI Perintah*. 

### `untag-server-certificate`
<a name="iam_UntagServerCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-server-certificate`.

**AWS CLI**  
**Untuk menghapus tag dari sertifikat server**  
`untag-server-certificate`Perintah berikut menghapus tag apa pun dengan nama kunci 'Departemen' dari sertifikat server yang ditentukan.  

```
aws iam untag-server-certificate \
    --server-certificate-name ExampleCertificate \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UntagServerCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/untag-server-certificate.html)di *Referensi AWS CLI Perintah*. 

### `untag-user`
<a name="iam_UntagUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-user`.

**AWS CLI**  
**Untuk menghapus tag dari pengguna**  
`untag-user`Perintah berikut menghapus tag apa pun dengan nama kunci 'Departemen' dari pengguna yang ditentukan.  

```
aws iam untag-user \
    --user-name alice \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_tags.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UntagUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/untag-user.html)di *Referensi AWS CLI Perintah*. 

### `update-access-key`
<a name="iam_UpdateAccessKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-access-key`.

**AWS CLI**  
**Untuk mengaktifkan atau menonaktifkan kunci akses untuk pengguna IAM**  
`update-access-key`Perintah berikut menonaktifkan kunci akses yang ditentukan (ID kunci akses dan kunci akses rahasia) untuk pengguna IAM bernama. `Bob`  

```
aws iam update-access-key \
    --access-key-id AKIAIOSFODNN7EXAMPLE \
    --status Inactive \
    --user-name Bob
```
Perintah ini tidak menghasilkan output.  
Menonaktifkan kunci berarti tidak dapat digunakan untuk akses terprogram ke. AWS Namun, kuncinya masih tersedia dan dapat diaktifkan kembali.  
Untuk informasi lebih lanjut, lihat [Mengelola access key untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_access-keys.html) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [UpdateAccessKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-access-key.html)di *Referensi AWS CLI Perintah*. 

### `update-account-password-policy`
<a name="iam_UpdateAccountPasswordPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-account-password-policy`.

**AWS CLI**  
**Untuk mengatur atau mengubah kebijakan kata sandi akun saat ini**  
`update-account-password-policy`Perintah berikut menetapkan kebijakan kata sandi untuk memerlukan panjang minimum delapan karakter dan memerlukan satu atau lebih angka dalam kata sandi.  

```
aws iam update-account-password-policy \
    --minimum-password-length 8 \
    --require-numbers
```
Perintah ini tidak menghasilkan output.  
Perubahan pada kebijakan kata sandi akun memengaruhi kata sandi baru apa pun yang dibuat untuk pengguna IAM di akun. Perubahan kebijakan kata sandi tidak memengaruhi kata sandi yang ada.  
Untuk informasi selengkapnya, lihat [Menyetel kebijakan kata sandi akun untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_passwords_account-policy.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UpdateAccountPasswordPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-account-password-policy.html)di *Referensi AWS CLI Perintah*. 

### `update-assume-role-policy`
<a name="iam_UpdateAssumeRolePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-assume-role-policy`.

**AWS CLI**  
**Untuk memperbarui kebijakan kepercayaan untuk peran IAM**  
`update-assume-role-policy`Perintah berikut memperbarui kebijakan kepercayaan untuk peran bernama`Test-Role`.  

```
aws iam update-assume-role-policy \
    --role-name Test-Role \
    --policy-document file://Test-Role-Trust-Policy.json
```
Perintah ini tidak menghasilkan output.  
Kebijakan kepercayaan didefinisikan sebagai dokumen JSON dalam file *test-role-trust-policy.json*. (Nama file dan ekstensi tidak memiliki signifikansi.) Kebijakan kepercayaan harus menentukan kepala sekolah.  
Untuk memperbarui kebijakan izin untuk peran, gunakan `put-role-policy` perintah.  
Untuk informasi selengkapnya, lihat [Membuat peran IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UpdateAssumeRolePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-assume-role-policy.html)di *Referensi AWS CLI Perintah*. 

### `update-group`
<a name="iam_UpdateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-group`.

**AWS CLI**  
**Untuk mengganti nama grup IAM**  
`update-group`Perintah berikut mengubah nama grup IAM `Test` menjadi`Test-1`.  

```
aws iam update-group \
    --group-name Test \
    --new-group-name Test-1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengganti nama grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_manage_rename.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UpdateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-group.html)di *Referensi AWS CLI Perintah*. 

### `update-login-profile`
<a name="iam_UpdateLoginProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-login-profile`.

**AWS CLI**  
**Untuk memperbarui kata sandi untuk pengguna IAM**  
`update-login-profile`Perintah berikut membuat password baru untuk pengguna IAM bernama`Bob`.  

```
aws iam update-login-profile \
    --user-name Bob \
    --password <password>
```
Perintah ini tidak menghasilkan output.  
Untuk menetapkan kebijakan kata sandi untuk akun, gunakan `update-account-password-policy` perintah. Jika kata sandi baru melanggar kebijakan kata sandi akun, perintah mengembalikan `PasswordPolicyViolation` kesalahan.  
Jika kebijakan kata sandi akun memungkinkan mereka untuk, pengguna IAM dapat mengubah kata sandi mereka sendiri menggunakan `change-password` perintah.  
Simpan kata sandi di tempat yang aman. Jika kata sandi hilang, itu tidak dapat dipulihkan, dan Anda harus membuat yang baru menggunakan `create-login-profile` perintah.  
Untuk informasi selengkapnya, lihat [Mengelola kata sandi untuk pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_passwords_admin-change-user.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UpdateLoginProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-login-profile.html)di *Referensi AWS CLI Perintah*. 

### `update-open-id-connect-provider-thumbprint`
<a name="iam_UpdateOpenIdConnectProviderThumbprint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-open-id-connect-provider-thumbprint`.

**AWS CLI**  
**Untuk mengganti daftar sidik jari sertifikat server yang ada dengan daftar baru**  
Contoh ini memperbarui daftar cap jempol sertifikat untuk penyedia OIDC yang ARN-nya menggunakan sidik jari baru. `arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com`  

```
aws iam update-open-id-connect-provider-thumbprint \
    --open-id-connect-provider-arn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com \
    --thumbprint-list 7359755EXAMPLEabc3060bce3EXAMPLEec4542a3
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Membuat penyedia identitas OpenID Connect (OIDC)](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_oidc.html) di Panduan Pengguna IAM.AWS *  
+  Untuk detail API, lihat [UpdateOpenIdConnectProviderThumbprint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-open-id-connect-provider-thumbprint.html)di *Referensi AWS CLI Perintah*. 

### `update-role-description`
<a name="iam_UpdateRoleDescription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-role-description`.

**AWS CLI**  
**Untuk mengubah deskripsi peran IAM**  
`update-role`Perintah berikut mengubah deskripsi peran IAM `production-role` menjadi`Main production role`.  

```
aws iam update-role-description \
    --role-name production-role \
    --description 'Main production role'
```
Output:  

```
{
    "Role": {
        "Path": "/",
        "RoleName": "production-role",
        "RoleId": "AROA1234567890EXAMPLE",
        "Arn": "arn:aws:iam::123456789012:role/production-role",
        "CreateDate": "2017-12-06T17:16:37+00:00",
        "AssumeRolePolicyDocument": {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Effect": "Allow",
                    "Principal": {
                        "AWS": "arn:aws:iam::123456789012:root"
                    },
                    "Action": "sts:AssumeRole",
                    "Condition": {}
                }
            ]
        },
        "Description": "Main production role"
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi peran](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_manage_modify.html) dalam *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UpdateRoleDescription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-role-description.html)di *Referensi AWS CLI Perintah*. 

### `update-role`
<a name="iam_UpdateRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-role`.

**AWS CLI**  
**Untuk mengubah deskripsi peran IAM atau durasi sesi**  
`update-role`Perintah berikut mengubah deskripsi peran IAM `production-role` menjadi `Main production role` dan menetapkan durasi sesi maksimum menjadi 12 jam.  

```
aws iam update-role \
    --role-name production-role \
    --description 'Main production role' \
    --max-session-duration 43200
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memodifikasi peran](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_manage_modify.html) dalam *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UpdateRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-role.html)di *Referensi AWS CLI Perintah*. 

### `update-saml-provider`
<a name="iam_UpdateSamlProvider_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-saml-provider`.

**AWS CLI**  
**Untuk memperbarui dokumen metadata untuk penyedia SAFL yang ada**  
Contoh ini memperbarui penyedia SAMP di IAM yang ARN-nya `arn:aws:iam::123456789012:saml-provider/SAMLADFS` dengan dokumen metadata SAMP baru dari file tersebut. `SAMLMetaData.xml`  

```
aws iam update-saml-provider \
    --saml-metadata-document file://SAMLMetaData.xml \
    --saml-provider-arn arn:aws:iam::123456789012:saml-provider/SAMLADFS
```
Output:  

```
{
    "SAMLProviderArn": "arn:aws:iam::123456789012:saml-provider/SAMLADFS"
}
```
Untuk informasi selengkapnya, lihat [Membuat penyedia identitas IAM SALL](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_saml.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UpdateSamlProvider](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-saml-provider.html)di *Referensi AWS CLI Perintah*. 

### `update-server-certificate`
<a name="iam_UpdateServerCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-server-certificate`.

**AWS CLI**  
**Untuk mengubah jalur atau nama sertifikat server di AWS akun Anda**  
`update-server-certificate`Perintah berikut mengubah nama sertifikat dari `myServerCertificate` menjadi`myUpdatedServerCertificate`. Itu juga mengubah jalur ke `/cloudfront/` sehingga dapat diakses oleh CloudFront layanan Amazon. Perintah ini tidak menghasilkan output. Anda dapat melihat hasil pembaruan dengan menjalankan `list-server-certificates` perintah.  

```
aws-iam update-server-certificate \
    --server-certificate-name myServerCertificate \
    --new-server-certificate-name myUpdatedServerCertificate \
    --new-path /cloudfront/
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola sertifikat server di IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_server-certs.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UpdateServerCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-server-certificate.html)di *Referensi AWS CLI Perintah*. 

### `update-service-specific-credential`
<a name="iam_UpdateServiceSpecificCredential_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service-specific-credential`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui status kredensi khusus layanan pengguna yang meminta**  
`update-service-specific-credential`Contoh berikut mengubah status kredensi yang ditentukan untuk pengguna yang membuat `Inactive` permintaan.  

```
aws iam update-service-specific-credential \
    --service-specific-credential-id ACCAEXAMPLE123EXAMPLE \
    --status Inactive
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk memperbarui status kredensi khusus layanan pengguna tertentu**  
`update-service-specific-credential`Contoh berikut mengubah status kredensi pengguna yang ditentukan menjadi Tidak Aktif.  

```
aws iam update-service-specific-credential \
    --user-name sofia \
    --service-specific-credential-id ACCAEXAMPLE123EXAMPLE \
    --status Inactive
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Membuat Kredensial Git untuk Koneksi HTTPS CodeCommit](https://docs.aws.amazon.com/codecommit/latest/userguide/setting-up-gc.html#setting-up-gc-iam) di Panduan Pengguna AWS CodeCommit *  
+  Untuk detail API, lihat [UpdateServiceSpecificCredential](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-service-specific-credential.html)di *Referensi AWS CLI Perintah*. 

### `update-signing-certificate`
<a name="iam_UpdateSigningCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-signing-certificate`.

**AWS CLI**  
**Untuk mengaktifkan atau menonaktifkan sertifikat penandatanganan untuk pengguna IAM**  
`update-signing-certificate`Perintah berikut menonaktifkan sertifikat penandatanganan yang ditentukan untuk pengguna IAM bernama. `Bob`  

```
aws iam update-signing-certificate \
    --certificate-id TA7SMP42TDN5Z26OBPJE7EXAMPLE \
    --status Inactive \
    --user-name Bob
```
Untuk mendapatkan ID untuk sertifikat penandatanganan, gunakan `list-signing-certificates` perintah.  
Untuk informasi selengkapnya, lihat [Mengelola sertifikat penandatanganan](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/set-up-ami-tools.html#ami-tools-managing-certs) di *Panduan Pengguna Amazon EC2*.  
+  Untuk detail API, lihat [UpdateSigningCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-signing-certificate.html)di *Referensi AWS CLI Perintah*. 

### `update-ssh-public-key`
<a name="iam_UpdateSshPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-ssh-public-key`.

**AWS CLI**  
**Untuk mengubah status kunci publik SSH**  
`update-ssh-public-key`Perintah berikut mengubah status kunci publik yang ditentukan menjadi`Inactive`.  

```
aws iam update-ssh-public-key \
    --user-name sofia \
    --ssh-public-key-id APKA1234567890EXAMPLE \
    --status Inactive
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan kunci SSH dan SSH dengan CodeCommit](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_ssh-keys.html#ssh-keys-code-commit) dalam Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UpdateSshPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-ssh-public-key.html)di *Referensi AWS CLI Perintah*. 

### `update-user`
<a name="iam_UpdateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user`.

**AWS CLI**  
**Untuk mengubah nama pengguna IAM**  
`update-user`Perintah berikut mengubah nama pengguna IAM `Bob` menjadi`Robert`.  

```
aws iam update-user \
    --user-name Bob \
    --new-user-name Robert
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengganti nama grup pengguna IAM](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_groups_manage_rename.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [UpdateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/update-user.html)di *Referensi AWS CLI Perintah*. 

### `upload-server-certificate`
<a name="iam_UploadServerCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-server-certificate`.

**AWS CLI**  
**Untuk mengunggah sertifikat server ke AWS akun Anda**  
**upload-server-certificate**Perintah berikut mengunggah sertifikat server ke AWS akun Anda. Dalam contoh ini, sertifikat ada di file`public_key_cert_file.pem`, kunci pribadi terkait ada di file`my_private_key.pem`, dan rantai sertifikat yang disediakan oleh otoritas sertifikat (CA) ada di `my_certificate_chain_file.pem` file. Ketika file telah selesai diunggah, itu tersedia di bawah nama *myServerCertificate*. Parameter yang dimulai dengan `file://` memberi tahu perintah untuk membaca isi file dan menggunakannya sebagai nilai parameter alih-alih nama file itu sendiri.  

```
aws iam upload-server-certificate \
    --server-certificate-name myServerCertificate \
    --certificate-body file://public_key_cert_file.pem \
    --private-key file://my_private_key.pem \
    --certificate-chain file://my_certificate_chain_file.pem
```
Output:  

```
{
    "ServerCertificateMetadata": {
        "Path": "/",
        "ServerCertificateName": "myServerCertificate",
        "ServerCertificateId": "ASCAEXAMPLE123EXAMPLE",
        "Arn": "arn:aws:iam::1234567989012:server-certificate/myServerCertificate",
        "UploadDate": "2019-04-22T21:13:44+00:00",
        "Expiration": "2019-10-15T22:23:16+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat Membuat, Mengunggah, dan Menghapus Sertifikat Server dalam panduan *Menggunakan IAM*.  
+  Untuk detail API, lihat [UploadServerCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/upload-server-certificate.html)di *Referensi AWS CLI Perintah*. 

### `upload-signing-certificate`
<a name="iam_UploadSigningCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-signing-certificate`.

**AWS CLI**  
**Untuk mengunggah sertifikat penandatanganan untuk pengguna IAM**  
`upload-signing-certificate`Perintah berikut mengunggah sertifikat penandatanganan untuk pengguna IAM bernama. `Bob`  

```
aws iam upload-signing-certificate \
    --user-name Bob \
    --certificate-body file://certificate.pem
```
Output:  

```
{
    "Certificate": {
        "UserName": "Bob",
        "Status": "Active",
        "CertificateBody": "-----BEGIN CERTIFICATE-----<certificate-body>-----END CERTIFICATE-----",
        "CertificateId": "TA7SMP42TDN5Z26OBPJE7EXAMPLE",
        "UploadDate": "2013-06-06T21:40:08.121Z"
    }
}
```
Sertifikat dalam file bernama *certificate.pem dalam format PEM*.  
Untuk informasi selengkapnya, lihat Membuat dan Mengunggah Sertifikat Penandatanganan Pengguna di panduan *Menggunakan IAM*.  
+  Untuk detail API, lihat [UploadSigningCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/upload-signing-certificate.html)di *Referensi AWS CLI Perintah*. 

### `upload-ssh-public-key`
<a name="iam_UploadSshPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-ssh-public-key`.

**AWS CLI**  
**Untuk mengunggah kunci publik SSH dan mengaitkannya dengan pengguna**  
`upload-ssh-public-key`Perintah berikut mengunggah kunci publik yang ditemukan dalam file `sshkey.pub` dan melampirkannya ke pengguna. `sofia`  

```
aws iam upload-ssh-public-key \
    --user-name sofia \
    --ssh-public-key-body file://sshkey.pub
```
Output:  

```
{
    "SSHPublicKey": {
        "UserName": "sofia",
        "SSHPublicKeyId": "APKA1234567890EXAMPLE",
        "Fingerprint": "12:34:56:78:90:ab:cd:ef:12:34:56:78:90:ab:cd:ef",
        "SSHPublicKeyBody": "ssh-rsa <<long string generated by ssh-keygen command>>",
        "Status": "Active",
        "UploadDate": "2019-04-18T17:04:49+00:00"
    }
}
```
*Untuk informasi selengkapnya tentang cara membuat kunci dalam format yang sesuai untuk perintah ini, lihat [SSH dan Linux, macOS, atau Unix: Mengatur kunci publik dan pribadi untuk Git](https://docs.aws.amazon.com/codecommit/latest/userguide/setting-up-ssh-unixes.html#setting-up-ssh-unixes-keys) dan [atau SSH CodeCommit dan Windows: Mengatur kunci publik dan pribadi untuk Git CodeCommit dan di](https://docs.aws.amazon.com/codecommit/latest/userguide/setting-up-ssh-windows.html#setting-up-ssh-windows-keys-windows) Panduan Pengguna.AWS CodeCommit *  
+  Untuk detail API, lihat [UploadSshPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iam/upload-ssh-public-key.html)di *Referensi AWS CLI Perintah*. 

# Contoh IAM Access Analyzer menggunakan AWS CLI
<a name="cli_2_accessanalyzer_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface dengan IAM Access Analyzer.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `apply-archive-rule`
<a name="accessanalyzer_ApplyArchiveRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`apply-archive-rule`.

**AWS CLI**  
**Untuk menerapkan aturan arsip pada temuan yang ada yang memenuhi kriteria aturan arsip**  
`apply-archive-rule`Contoh berikut menerapkan aturan arsip untuk temuan yang ada yang memenuhi kriteria aturan arsip.  

```
aws accessanalyzer apply-archive-rule \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/UnusedAccess-ConsoleAnalyzer-organization \
    --rule-name MyArchiveRule
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Aturan arsip](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-archive-rules.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ApplyArchiveRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/apply-archive-rule.html)di *Referensi AWS CLI Perintah*. 

### `cancel-policy-generation`
<a name="accessanalyzer_CancelPolicyGeneration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-policy-generation`.

**AWS CLI**  
**Untuk membatalkan pembuatan kebijakan yang diminta**  
`cancel-policy-generation`Contoh berikut membatalkan id pekerjaan pembuatan kebijakan yang diminta.  

```
aws accessanalyzer cancel-policy-generation \
    --job-id 923a56b0-ebb8-4e80-8a3c-a11ccfbcd6f2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [pembuatan kebijakan IAM Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-policy-generation.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [CancelPolicyGeneration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/cancel-policy-generation.html)di *Referensi AWS CLI Perintah*. 

### `check-access-not-granted`
<a name="accessanalyzer_CheckAccessNotGranted_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`check-access-not-granted`.

**AWS CLI**  
**Untuk memeriksa apakah akses yang ditentukan tidak diizinkan oleh kebijakan**  
`check-access-not-granted`Contoh berikut memeriksa apakah akses yang ditentukan tidak diizinkan oleh kebijakan.  

```
aws accessanalyzer check-access-not-granted \
    --policy-document file://myfile.json \
    --access actions="s3:DeleteBucket","s3:GetBucketLocation" \
    --policy-type IDENTITY_POLICY
```
Isi dari `myfile.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action": [
                "s3:GetObject",
                "s3:ListBucket"
            ],
            "Resource": [
                "arn:aws:s3:::amzn-s3-demo-bucket",
                "arn:aws:s3:::amzn-s3-demo-bucket/*"
            ]
        }
    ]
}
```
Output:  

```
{
    "result": "PASS",
    "message": "The policy document does not grant access to perform one or more of the listed actions."
}
```
Untuk informasi selengkapnya, lihat [Mempratinjau akses dengan IAM Access Analyzer APIs di Panduan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-preview-access-apis.html) Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [CheckAccessNotGranted](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/check-access-not-granted.html)di *Referensi AWS CLI Perintah*. 

### `check-no-new-access`
<a name="accessanalyzer_CheckNoNewAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`check-no-new-access`.

**AWS CLI**  
**Untuk memeriksa apakah akses baru diizinkan untuk kebijakan yang diperbarui jika dibandingkan dengan kebijakan yang ada**  
`check-no-new-access`Contoh berikut memeriksa apakah akses baru diizinkan untuk kebijakan yang diperbarui jika dibandingkan dengan kebijakan yang ada.  

```
aws accessanalyzer check-no-new-access \
    --existing-policy-document file://existing-policy.json \
    --new-policy-document file://new-policy.json \
    --policy-type IDENTITY_POLICY
```
Isi dari `existing-policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action": [
                "s3:GetObject",
                "s3:ListBucket"
            ],
            "Resource": [
                "arn:aws:s3:::amzn-s3-demo-bucket",
                "arn:aws:s3:::amzn-s3-demo-bucket/*"
            ]
        }
    ]
}
```
Isi dari `new-policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action": [
                "s3:GetObject",
                "s3:GetObjectAcl",
                "s3:ListBucket"
            ],
            "Resource": [
                "arn:aws:s3:::amzn-s3-demo-bucket",
                "arn:aws:s3:::amzn-s3-demo-bucket/*"
            ]
        }
    ]
}
```
Output:  

```
{
    "result": "FAIL",
    "message": "The modified permissions grant new access compared to your existing policy.",
    "reasons": [
        {
            "description": "New access in the statement with index: 0.",
            "statementIndex": 0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mempratinjau akses dengan IAM Access Analyzer APIs di Panduan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-preview-access-apis.html) Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [CheckNoNewAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/check-no-new-access.html)di *Referensi AWS CLI Perintah*. 

### `check-no-public-access`
<a name="accessanalyzer_CheckNoPublicAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`check-no-public-access`.

**AWS CLI**  
**Untuk memeriksa apakah kebijakan sumber daya dapat memberikan akses publik ke jenis sumber daya yang ditentukan**  
`check-no-public-access`Contoh berikut memeriksa apakah kebijakan sumber daya dapat memberikan akses publik ke jenis sumber daya yang ditentukan.  

```
aws accessanalyzer check-no-public-access \
    --policy-document file://check-no-public-access-myfile.json \
    --resource-type AWS::S3::Bucket
```
Isi dari `myfile.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Sid": "CheckNoPublicAccess",
            "Effect": "Allow",
            "Principal": { "AWS": "arn:aws:iam::111122223333:user/JohnDoe" },
            "Action": [
                "s3:GetObject"
            ]
        }
    ]
}
```
Output:  

```
{
    "result": "PASS",
    "message": "The resource policy does not grant public access for the given resource type."
}
```
Untuk informasi selengkapnya, lihat [Mempratinjau akses dengan IAM Access Analyzer APIs di Panduan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-preview-access-apis.html) Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [CheckNoPublicAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/check-no-public-access.html)di *Referensi AWS CLI Perintah*. 

### `create-access-preview`
<a name="accessanalyzer_CreateAccessPreview_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-access-preview`.

**AWS CLI**  
**Untuk membuat pratinjau akses yang memungkinkan Anda melihat pratinjau temuan IAM Access Analyzer untuk sumber daya Anda sebelum menerapkan izin sumber daya**  
`create-access-preview`Contoh berikut membuat pratinjau akses yang memungkinkan Anda melihat pratinjau temuan IAM Access Analyzer untuk sumber daya Anda sebelum menerapkan izin sumber daya di akun Anda. AWS   

```
aws accessanalyzer create-access-preview \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account \
    --configurations file://myfile.json
```
Isi dari `myfile.json`:  

```
{
    "arn:aws:s3:::amzn-s3-demo-bucket": {
        "s3Bucket": {
            "bucketPolicy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":[\"arn:aws:iam::111122223333:root\"]},\"Action\":[\"s3:PutObject\",\"s3:PutObjectAcl\"],\"Resource\":\"arn:aws:s3:::amzn-s3-demo-bucket/*\"}]}",
            "bucketPublicAccessBlock": {
                "ignorePublicAcls": true,
                "restrictPublicBuckets": true
            },
            "bucketAclGrants": [
                {
                    "grantee": {
                        "id": "79a59df900b949e55d96a1e698fbacedfd6e09d98eacf8f8d5218e7cd47ef2be"
                    },
                    "permission": "READ"
                }
            ]
        }
    }
}
```
Output:  

```
{
    "id": "3c65eb13-6ef9-4629-8919-a32043619e6b"
}
```
Untuk informasi selengkapnya, lihat [Mempratinjau akses dengan IAM Access Analyzer APIs di Panduan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-preview-access-apis.html) Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [CreateAccessPreview](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/create-access-preview.html)di *Referensi AWS CLI Perintah*. 

### `create-analyzer`
<a name="accessanalyzer_CreateAnalyzer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-analyzer`.

**AWS CLI**  
**Untuk membuat analyzer**  
`create-analyzer`Contoh berikut membuat analyzer di AWS akun Anda.  

```
aws accessanalyzer create-analyzer \
    --analyzer-name example \
    --type ACCOUNT
```
Output:  

```
{
    "arn": "arn:aws:access-analyzer:us-east-2:111122223333:analyzer/example"
}
```
Untuk informasi selengkapnya, lihat [Memulai temuan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-getting-started.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [CreateAnalyzer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/create-analyzer.html)di *Referensi AWS CLI Perintah*. 

### `create-archive-rule`
<a name="accessanalyzer_CreateArchiveRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-archive-rule`.

**AWS CLI**  
**Untuk membuat aturan arsip untuk analyzer yang ditentukan**  
`create-archive-rule`Contoh berikut membuat aturan arsip untuk analyzer yang ditentukan di AWS akun Anda.  

```
aws accessanalyzer create-archive-rule \
    --analyzer-name UnusedAccess-ConsoleAnalyzer-organization \
    --rule-name MyRule \
    --filter '{"resource": {"contains": ["Cognito"]}, "resourceType": {"eq": ["AWS::IAM::Role"]}}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Aturan arsip](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-archive-rules.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [CreateArchiveRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/create-archive-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-analyzer`
<a name="accessanalyzer_DeleteAnalyzer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-analyzer`.

**AWS CLI**  
**Untuk menghapus analyzer yang ditentukan**  
`delete-analyzer`Contoh berikut menghapus analyzer yang ditentukan di akun Anda AWS .  

```
aws accessanalyzer delete-analyzer \
    --analyzer-name example
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Aturan arsip](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-archive-rules.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteAnalyzer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/delete-analyzer.html)di *Referensi AWS CLI Perintah*. 

### `delete-archive-rule`
<a name="accessanalyzer_DeleteArchiveRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-archive-rule`.

**AWS CLI**  
**Untuk menghapus aturan arsip yang ditentukan**  
`delete-archive-rule`Contoh berikut menghapus aturan arsip yang ditentukan di AWS akun Anda.  

```
aws accessanalyzer delete-archive-rule \
    --analyzer-name UnusedAccess-ConsoleAnalyzer-organization \
    --rule-name MyRule
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Aturan arsip](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-archive-rules.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DeleteArchiveRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/delete-archive-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-access-preview`
<a name="accessanalyzer_GetAccessPreview_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-access-preview`.

**AWS CLI**  
**Untuk mengambil informasi tentang pratinjau akses untuk penganalisis yang ditentukan**  
`get-access-preview`Contoh berikut mengambil informasi tentang pratinjau akses untuk penganalisis yang ditentukan di akun Anda AWS .  

```
aws accessanalyzer get-access-preview \
    --access-preview-id 3c65eb13-6ef9-4629-8919-a32043619e6b \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account
```
Output:  

```
{
    "accessPreview": {
        "id": "3c65eb13-6ef9-4629-8919-a32043619e6b",
        "analyzerArn": "arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account",
        "configurations": {
            "arn:aws:s3:::amzn-s3-demo-bucket": {
                "s3Bucket": {
                    "bucketPolicy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":[\"arn:aws:iam::111122223333:root\"]},\"Action\":[\"s3:PutObject\",\"s3:PutObjectAcl\"],\"Resource\":\"arn:aws:s3:::amzn-s3-demo-bucket/*\"}]}",
                    "bucketAclGrants": [
                        {
                            "permission": "READ",
                            "grantee": {
                                "id": "79a59df900b949e55d96a1e698fbacedfd6e09d98eacf8f8d5218e7cd47ef2be"
                            }
                        }
                    ],
                    "bucketPublicAccessBlock": {
                        "ignorePublicAcls": true,
                        "restrictPublicBuckets": true
                    }
                }
            }
        },
        "createdAt": "2024-02-17T00:18:44+00:00",
        "status": "COMPLETED"
    }
}
```
Untuk informasi selengkapnya, lihat [Mempratinjau akses dengan IAM Access Analyzer APIs di Panduan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-preview-access-apis.html) Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetAccessPreview](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/get-access-preview.html)di *Referensi AWS CLI Perintah*. 

### `get-analyzed-resource`
<a name="accessanalyzer_GetAnalyzedResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-analyzed-resource`.

**AWS CLI**  
**Untuk mengambil informasi tentang sumber daya yang dianalisis**  
`get-analyzed-resource`Contoh berikut mengambil informasi tentang sumber daya yang dianalisis di AWS akun Anda.  

```
aws accessanalyzer get-analyzed-resource \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account \
    --resource-arn arn:aws:s3:::amzn-s3-demo-bucket
```
Output:  

```
{
    "resource": {
        "analyzedAt": "2024-02-15T18:01:53.002000+00:00",
        "isPublic": false,
        "resourceArn": "arn:aws:s3:::amzn-s3-demo-bucket",
        "resourceOwnerAccount": "111122223333",
        "resourceType": "AWS::S3::Bucket"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetAnalyzedResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/get-analyzed-resource.html)di *Referensi AWS CLI Perintah*. 

### `get-analyzer`
<a name="accessanalyzer_GetAnalyzer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-analyzer`.

**AWS CLI**  
**Untuk mengambil informasi tentang analyzer yang ditentukan**  
`get-analyzer`Contoh berikut mengambil informasi tentang analyzer yang ditentukan di akun Anda AWS .  

```
aws accessanalyzer get-analyzer \
    --analyzer-name ConsoleAnalyzer-account
```
Output:  

```
{
    "analyzer": {
        "arn": "arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account",
        "createdAt": "2019-12-03T07:28:17+00:00",
        "lastResourceAnalyzed": "arn:aws:sns:us-west-2:111122223333:config-topic",
        "lastResourceAnalyzedAt": "2024-02-15T18:01:53.003000+00:00",
        "name": "ConsoleAnalyzer-account",
        "status": "ACTIVE",
        "tags": {
            "auto-delete": "no"
        },
        "type": "ACCOUNT"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetAnalyzer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/get-analyzer.html)di *Referensi AWS CLI Perintah*. 

### `get-archive-rule`
<a name="accessanalyzer_GetArchiveRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-archive-rule`.

**AWS CLI**  
**Untuk mengambil informasi tentang aturan arsip**  
`get-archive-rule`Contoh berikut mengambil informasi tentang aturan arsip di AWS akun Anda.  

```
aws accessanalyzer get-archive-rule \
    --analyzer-name UnusedAccess-ConsoleAnalyzer-organization \
    --rule-name MyArchiveRule
```
Output:  

```
{
    "archiveRule": {
        "createdAt": "2024-02-15T00:49:27+00:00",
        "filter": {
            "resource": {
                "contains": [
                    "Cognito"
                ]
            },
            "resourceType": {
                "eq": [
                    "AWS::IAM::Role"
                ]
            }
        },
        "ruleName": "MyArchiveRule",
        "updatedAt": "2024-02-15T00:49:27+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Aturan arsip](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-archive-rules.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetArchiveRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/get-archive-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-finding-v2`
<a name="accessanalyzer_GetFindingV2_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-finding-v2`.

**AWS CLI**  
**Untuk mengambil informasi tentang temuan yang ditentukan**  
`get-finding-v2`Contoh berikut etrieves informasi tentang temuan yang ditentukan di akun Anda AWS .  

```
aws accessanalyzer get-finding-v2 \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-organization \
    --id 0910eedb-381e-4e95-adda-0d25c19e6e90
```
Output:  

```
{
    "findingDetails": [
        {
            "externalAccessDetails": {
                "action": [
                    "sts:AssumeRoleWithWebIdentity"
                ],
                "condition": {
                    "cognito-identity.amazonaws.com:aud": "us-west-2:EXAMPLE0-0000-0000-0000-000000000000"
                },
                "isPublic": false,
                "principal": {
                    "Federated": "cognito-identity.amazonaws.com"
                }
            }
        }
    ],
    "resource": "arn:aws:iam::111122223333:role/Cognito_testpoolAuth_Role",
    "status": "ACTIVE",
    "error": null,
    "createdAt": "2021-02-26T21:17:50.905000+00:00",
    "resourceType": "AWS::IAM::Role",
    "findingType": "ExternalAccess",
    "resourceOwnerAccount": "111122223333",
    "analyzedAt": "2024-02-16T18:17:47.888000+00:00",
    "id": "0910eedb-381e-4e95-adda-0d25c19e6e90",
    "updatedAt": "2021-02-26T21:17:50.905000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Meninjau temuan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-findings-view.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetFindingV2](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/get-finding-v2.html) di *Referensi AWS CLI Perintah*. 

### `get-finding`
<a name="accessanalyzer_GetFinding_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-finding`.

**AWS CLI**  
**Untuk mengambil informasi tentang temuan yang ditentukan**  
`get-finding`Contoh berikut etrieves informasi tentang temuan yang ditentukan di akun Anda AWS .  

```
aws accessanalyzer get-finding \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-organization \
    --id 0910eedb-381e-4e95-adda-0d25c19e6e90
```
Output:  

```
{
    "finding": {
        "id": "0910eedb-381e-4e95-adda-0d25c19e6e90",
        "principal": {
            "Federated": "cognito-identity.amazonaws.com"
        },
        "action": [
            "sts:AssumeRoleWithWebIdentity"
        ],
        "resource": "arn:aws:iam::111122223333:role/Cognito_testpoolAuth_Role",
        "isPublic": false,
        "resourceType": "AWS::IAM::Role",
        "condition": {
            "cognito-identity.amazonaws.com:aud": "us-west-2:EXAMPLE0-0000-0000-0000-000000000000"
        },
        "createdAt": "2021-02-26T21:17:50.905000+00:00",
        "analyzedAt": "2024-02-16T18:17:47.888000+00:00",
        "updatedAt": "2021-02-26T21:17:50.905000+00:00",
        "status": "ACTIVE",
        "resourceOwnerAccount": "111122223333"
    }
}
```
Untuk informasi selengkapnya, lihat [Meninjau temuan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-findings-view.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [GetFinding](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/get-finding.html)di *Referensi AWS CLI Perintah*. 

### `get-generated-policy`
<a name="accessanalyzer_GetGeneratedPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-generated-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan yang dibuat menggunakan `StartPolicyGeneration` API**  
`get-generated-policy`Contoh berikut mengambil kebijakan yang dibuat menggunakan StartPolicyGeneration API di AWS akun Anda.  

```
aws accessanalyzer get-generated-policy \
    --job-id c557dc4a-0338-4489-95dd-739014860ff9
```
Output:  

```
{
    "generatedPolicyResult": {
        "generatedPolicies": [
            {
                "policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"SupportedServiceSid0\",\"Effect\":\"Allow\",\"Action\":[\"access-analyzer:GetAnalyzer\",\"access-analyzer:ListAnalyzers\",\"access-analyzer:ListArchiveRules\",\"access-analyzer:ListFindings\",\"cloudtrail:DescribeTrails\",\"cloudtrail:GetEventDataStore\",\"cloudtrail:GetEventSelectors\",\"cloudtrail:GetInsightSelectors\",\"cloudtrail:GetTrailStatus\",\"cloudtrail:ListChannels\",\"cloudtrail:ListEventDataStores\",\"cloudtrail:ListQueries\",\"cloudtrail:ListTags\",\"cloudtrail:LookupEvents\",\"ec2:DescribeRegions\",\"iam:GetAccountSummary\",\"iam:GetOpenIDConnectProvider\",\"iam:GetRole\",\"iam:ListAccessKeys\",\"iam:ListAccountAliases\",\"iam:ListOpenIDConnectProviders\",\"iam:ListRoles\",\"iam:ListSAMLProviders\",\"kms:ListAliases\",\"s3:GetBucketLocation\",\"s3:ListAllMyBuckets\"],\"Resource\":\"*\"}]}"
            }
        ],
        "properties": {
            "cloudTrailProperties": {
                "endTime": "2024-02-14T22:44:40+00:00",
                "startTime": "2024-02-13T00:30:00+00:00",
                "trailProperties": [
                    {
                        "allRegions": true,
                        "cloudTrailArn": "arn:aws:cloudtrail:us-west-2:111122223333:trail/my-trail",
                        "regions": []
                    }
                ]
            },
            "isComplete": false,
            "principalArn": "arn:aws:iam::111122223333:role/Admin"
        }
    },
    "jobDetails": {
        "completedOn": "2024-02-14T22:47:01+00:00",
        "jobId": "c557dc4a-0338-4489-95dd-739014860ff9",
        "startedOn": "2024-02-14T22:44:41+00:00",
        "status": "SUCCEEDED"
    }
}
```
Untuk informasi selengkapnya, lihat [pembuatan kebijakan IAM Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-policy-generation.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [GetGeneratedPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/get-generated-policy.html)di *Referensi AWS CLI Perintah*. 

### `list-access-preview-findings`
<a name="accessanalyzer_ListAccessPreviewFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-access-preview-findings`.

**AWS CLI**  
**Untuk mengambil daftar temuan pratinjau akses yang dihasilkan oleh pratinjau akses yang ditentukan**  
`list-access-preview-findings`Contoh berikut mengambil daftar temuan pratinjau akses yang dihasilkan oleh pratinjau akses yang ditentukan di AWS akun Anda.  

```
aws accessanalyzer list-access-preview-findings \
    --access-preview-id 3c65eb13-6ef9-4629-8919-a32043619e6b \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account
```
Output:  

```
{
    "findings": [
        {
            "id": "e22fc158-1c87-4c32-9464-e7f405ce8d74",
            "principal": {
                "AWS": "111122223333"
            },
            "action": [
                "s3:PutObject",
                "s3:PutObjectAcl"
            ],
            "condition": {},
            "resource": "arn:aws:s3:::amzn-s3-demo-bucket",
            "isPublic": false,
            "resourceType": "AWS::S3::Bucket",
            "createdAt": "2024-02-17T00:18:46+00:00",
            "changeType": "NEW",
            "status": "ACTIVE",
            "resourceOwnerAccount": "111122223333",
            "sources": [
                {
                    "type": "POLICY"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mempratinjau akses dengan IAM Access Analyzer APIs di Panduan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-preview-access-apis.html) Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListAccessPreviewFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-access-preview-findings.html)di *Referensi AWS CLI Perintah*. 

### `list-access-previews`
<a name="accessanalyzer_ListAccessPreviews_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-access-previews`.

**AWS CLI**  
**Untuk mengambil daftar pratinjau akses untuk analyzer yang ditentukan**  
`list-access-previews`Contoh berikut mengambil daftar pratinjau akses untuk analyzer yang ditentukan di akun Anda. AWS   

```
aws accessanalyzer list-access-previews \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account
```
Output:  

```
{
    "accessPreviews": [
        {
            "id": "3c65eb13-6ef9-4629-8919-a32043619e6b",
            "analyzerArn": "arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account",
            "createdAt": "2024-02-17T00:18:44+00:00",
            "status": "COMPLETED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mempratinjau akses dengan IAM Access Analyzer APIs di Panduan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-preview-access-apis.html) Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListAccessPreviews](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-access-previews.html)di *Referensi AWS CLI Perintah*. 

### `list-analyzed-resources`
<a name="accessanalyzer_ListAnalyzedResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-analyzed-resources`.

**AWS CLI**  
**Untuk daftar widget yang tersedia**  
`list-analyzed-resources`Contoh berikut mencantumkan widget yang tersedia di AWS akun Anda.  

```
aws accessanalyzer list-analyzed-resources \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account \
    --resource-type AWS::IAM::Role
```
Output:  

```
{
    "analyzedResources": [
        {
            "resourceArn": "arn:aws:sns:us-west-2:111122223333:Validation-Email",
            "resourceOwnerAccount": "111122223333",
            "resourceType": "AWS::SNS::Topic"
        },
        {
            "resourceArn": "arn:aws:sns:us-west-2:111122223333:admin-alerts",
            "resourceOwnerAccount": "111122223333",
            "resourceType": "AWS::SNS::Topic"
        },
        {
            "resourceArn": "arn:aws:sns:us-west-2:111122223333:config-topic",
            "resourceOwnerAccount": "111122223333",
            "resourceType": "AWS::SNS::Topic"
        },
        {
            "resourceArn": "arn:aws:sns:us-west-2:111122223333:inspector-topic",
            "resourceOwnerAccount": "111122223333",
            "resourceType": "AWS::SNS::Topic"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListAnalyzedResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-analyzed-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-analyzers`
<a name="accessanalyzer_ListAnalyzers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-analyzers`.

**AWS CLI**  
**Untuk mengambil daftar penganalisis**  
`list-analyzers`Contoh berikut mengambil daftar analisa di akun Anda AWS .  

```
aws accessanalyzer list-analyzers
```
Output:  

```
{
    "analyzers": [
        {
            "arn": "arn:aws:access-analyzer:us-west-2:111122223333:analyzer/UnusedAccess-ConsoleAnalyzer-organization",
            "createdAt": "2024-02-15T00:46:40+00:00",
            "name": "UnusedAccess-ConsoleAnalyzer-organization",
            "status": "ACTIVE",
            "tags": {
                "auto-delete": "no"
            },
            "type": "ORGANIZATION_UNUSED_ACCESS"
        },
        {
            "arn": "arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-organization",
            "createdAt": "2020-04-25T07:43:28+00:00",
            "lastResourceAnalyzed": "arn:aws:s3:::amzn-s3-demo-bucket",
            "lastResourceAnalyzedAt": "2024-02-15T21:51:56.517000+00:00",
            "name": "ConsoleAnalyzer-organization",
            "status": "ACTIVE",
            "tags": {
                "auto-delete": "no"
            },
            "type": "ORGANIZATION"
        },
        {
            "arn": "arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account",
            "createdAt": "2019-12-03T07:28:17+00:00",
            "lastResourceAnalyzed": "arn:aws:sns:us-west-2:111122223333:config-topic",
            "lastResourceAnalyzedAt": "2024-02-15T18:01:53.003000+00:00",
            "name": "ConsoleAnalyzer-account",
            "status": "ACTIVE",
            "tags": {
                "auto-delete": "no"
            },
            "type": "ACCOUNT"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListAnalyzers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-analyzers.html)di *Referensi AWS CLI Perintah*. 

### `list-archive-rules`
<a name="accessanalyzer_ListArchiveRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-archive-rules`.

**AWS CLI**  
**Untuk mengambil daftar aturan arsip yang dibuat untuk analyzer yang ditentukan**  
`list-archive-rules`Contoh berikut mengambil daftar aturan arsip yang dibuat untuk analyzer yang ditentukan di akun Anda AWS .  

```
aws accessanalyzer list-archive-rules \
    --analyzer-name UnusedAccess-ConsoleAnalyzer-organization
```
Output:  

```
{
    "archiveRules": [
        {
            "createdAt": "2024-02-15T00:49:27+00:00",
            "filter": {
                "resource": {
                    "contains": [
                        "Cognito"
                    ]
                },
                "resourceType": {
                    "eq": [
                        "AWS::IAM::Role"
                    ]
                }
            },
            "ruleName": "MyArchiveRule",
            "updatedAt": "2024-02-15T00:49:27+00:00"
        },
        {
            "createdAt": "2024-02-15T23:27:45+00:00",
            "filter": {
                "findingType": {
                    "eq": [
                        "UnusedIAMUserAccessKey"
                    ]
                }
            },
            "ruleName": "ArchiveRule-56125a39-e517-4ff8-afb1-ef06f58db612",
            "updatedAt": "2024-02-15T23:27:45+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListArchiveRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-archive-rules.html)di *Referensi AWS CLI Perintah*. 

### `list-findings-v2`
<a name="accessanalyzer_ListFindingsV2_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-findings-v2`.

**AWS CLI**  
**Untuk mengambil daftar temuan yang dihasilkan oleh penganalisis yang ditentukan**  
`list-findings-v2`Contoh berikut mengambil daftar temuan yang dihasilkan oleh penganalisis yang ditentukan di akun Anda AWS . Contoh ini memfilter hasil untuk menyertakan hanya peran IAM yang namanya berisi`Cognito`.  

```
aws accessanalyzer list-findings-v2 \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account \
    --filter '{"resource": {"contains": ["Cognito"]}, "resourceType": {"eq": ["AWS::IAM::Role"]}}'
```
Output:  

```
{
    "findings": [
        {
            "analyzedAt": "2024-02-16T18:17:47.888000+00:00",
            "createdAt": "2021-02-26T21:17:24.710000+00:00",
            "id": "597f3bc2-3adc-4c18-9879-5c4b23485e46",
            "resource": "arn:aws:iam::111122223333:role/Cognito_testpoolUnauth_Role",
            "resourceType": "AWS::IAM::Role",
            "resourceOwnerAccount": "111122223333",
            "status": "ACTIVE",
            "updatedAt": "2021-02-26T21:17:24.710000+00:00",
            "findingType": "ExternalAccess"
        },
        {
            "analyzedAt": "2024-02-16T18:17:47.888000+00:00",
            "createdAt": "2021-02-26T21:17:50.905000+00:00",
            "id": "ce0e221a-85b9-4d52-91ff-d7678075442f",
            "resource": "arn:aws:iam::111122223333:role/Cognito_testpoolAuth_Role",
            "resourceType": "AWS::IAM::Role",
            "resourceOwnerAccount": "111122223333",
            "status": "ACTIVE",
            "updatedAt": "2021-02-26T21:17:50.905000+00:00",
            "findingType": "ExternalAccess"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListFindingsV2](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-findings-v2.html) di *Referensi AWS CLI Perintah*. 

### `list-findings`
<a name="accessanalyzer_ListFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-findings`.

**AWS CLI**  
**Untuk mengambil daftar temuan yang dihasilkan oleh penganalisis yang ditentukan**  
`list-findings`Contoh berikut mengambil daftar temuan yang dihasilkan oleh penganalisis yang ditentukan di akun Anda AWS . Contoh ini memfilter hasil untuk menyertakan hanya peran IAM yang namanya berisi`Cognito`.  

```
aws accessanalyzer list-findings \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account \
    --filter '{"resource": {"contains": ["Cognito"]}, "resourceType": {"eq": ["AWS::IAM::Role"]}}'
```
Output:  

```
{
    "findings": [
        {
            "id": "597f3bc2-3adc-4c18-9879-5c4b23485e46",
            "principal": {
                "Federated": "cognito-identity.amazonaws.com"
            },
            "action": [
                "sts:AssumeRoleWithWebIdentity"
            ],
            "resource": "arn:aws:iam::111122223333:role/Cognito_testpoolUnauth_Role",
            "isPublic": false,
            "resourceType": "AWS::IAM::Role",
            "condition": {
                "cognito-identity.amazonaws.com:aud": "us-west-2:EXAMPLE0-0000-0000-0000-000000000000"
            },
            "createdAt": "2021-02-26T21:17:24.710000+00:00",
            "analyzedAt": "2024-02-16T18:17:47.888000+00:00",
            "updatedAt": "2021-02-26T21:17:24.710000+00:00",
            "status": "ACTIVE",
            "resourceOwnerAccount": "111122223333"
        },
        {
            "id": "ce0e221a-85b9-4d52-91ff-d7678075442f",
            "principal": {
                "Federated": "cognito-identity.amazonaws.com"
            },
            "action": [
                "sts:AssumeRoleWithWebIdentity"
            ],
            "resource": "arn:aws:iam::111122223333:role/Cognito_testpoolAuth_Role",
            "isPublic": false,
            "resourceType": "AWS::IAM::Role",
            "condition": {
                "cognito-identity.amazonaws.com:aud": "us-west-2:EXAMPLE0-0000-0000-0000-000000000000"
            },
            "createdAt": "2021-02-26T21:17:50.905000+00:00",
            "analyzedAt": "2024-02-16T18:17:47.888000+00:00",
            "updatedAt": "2021-02-26T21:17:50.905000+00:00",
            "status": "ACTIVE",
            "resourceOwnerAccount": "111122223333"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ListFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-findings.html)di *Referensi AWS CLI Perintah*. 

### `list-policy-generations`
<a name="accessanalyzer_ListPolicyGenerations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policy-generations`.

**AWS CLI**  
**Untuk membuat daftar semua generasi kebijakan yang diminta dalam tujuh hari terakhir**  
`list-policy-generations`Contoh berikut mencantumkan semua generasi kebijakan yang diminta dalam tujuh hari terakhir di AWS akun Anda.  

```
aws accessanalyzer list-policy-generations
```
Output:  

```
{
    "policyGenerations": [
        {
            "completedOn": "2024-02-14T23:43:38+00:00",
            "jobId": "923a56b0-ebb8-4e80-8a3c-a11ccfbcd6f2",
            "principalArn": "arn:aws:iam::111122223333:role/Admin",
            "startedOn": "2024-02-14T23:43:02+00:00",
            "status": "CANCELED"
        },
        {
            "completedOn": "2024-02-14T22:47:01+00:00",
            "jobId": "c557dc4a-0338-4489-95dd-739014860ff9",
            "principalArn": "arn:aws:iam::111122223333:role/Admin",
            "startedOn": "2024-02-14T22:44:41+00:00",
            "status": "SUCCEEDED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [pembuatan kebijakan IAM Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-policy-generation.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListPolicyGenerations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-policy-generations.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="accessanalyzer_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mengambil daftar tag yang diterapkan ke sumber daya yang ditentukan**  
`list-tags-for-resource`Contoh berikut mengambil daftar tag yang diterapkan ke sumber daya tertentu di AWS akun Anda.  

```
aws accessanalyzer list-tags-for-resource \
    --resource-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account
```
Output:  

```
{
    "tags": {
        "Zone-of-trust": "Account",
        "Name": "ConsoleAnalyzer"
    }
}
```
Untuk informasi selengkapnya, lihat [pembuatan kebijakan IAM Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-policy-generation.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-policy-generation`
<a name="accessanalyzer_StartPolicyGeneration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-policy-generation`.

**AWS CLI**  
**Untuk memulai permintaan pembuatan kebijakan**  
`start-policy-generation`Contoh berikut memulai permintaan pembuatan kebijakan di AWS akun Anda.  

```
aws accessanalyzer start-policy-generation \
    --policy-generation-details '{"principalArn":"arn:aws:iam::111122223333:role/Admin"}' \
    --cloud-trail-details file://myfile.json
```
Isi dari `myfile.json`:  

```
{
    "accessRole": "arn:aws:iam::111122223333:role/service-role/AccessAnalyzerMonitorServiceRole",
    "startTime": "2024-02-13T00:30:00Z",
    "trails": [
        {
            "allRegions": true,
            "cloudTrailArn": "arn:aws:cloudtrail:us-west-2:111122223333:trail/my-trail"
        }
    ]
}
```
Output:  

```
{
    "jobId": "c557dc4a-0338-4489-95dd-739014860ff9"
}
```
Untuk informasi selengkapnya, lihat [pembuatan kebijakan IAM Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-policy-generation.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [StartPolicyGeneration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/start-policy-generation.html)di *Referensi AWS CLI Perintah*. 

### `start-resource-scan`
<a name="accessanalyzer_StartResourceScan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-resource-scan`.

**AWS CLI**  
**Untuk segera memulai pemindaian kebijakan yang diterapkan ke sumber daya yang ditentukan**  
`start-resource-scan`Contoh berikut mmediately memulai pemindaian kebijakan yang diterapkan ke sumber daya yang ditentukan di akun Anda AWS .  

```
aws accessanalyzer start-resource-scan \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account \
    --resource-arn arn:aws:iam::111122223333:role/Cognito_testpoolAuth_Role
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [pembuatan kebijakan IAM Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-policy-generation.html) di Panduan Pengguna *AWS IAM*.  
+  Untuk detail API, lihat [StartResourceScan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/start-resource-scan.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="accessanalyzer_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya yang ditentukan**  
`tag-resource`Contoh berikut menambahkan tag ke sumber daya yang ditentukan di AWS akun Anda.  

```
aws accessanalyzer tag-resource \
    --resource-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account \
    --tags Environment=dev,Purpose=testing
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="accessanalyzer_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya yang ditentukan**  
`untag-resource`Contoh berikut menghapus tag dari sumber daya yang ditentukan di AWS akun Anda.  

```
aws accessanalyzer untag-resource \
    --resource-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/ConsoleAnalyzer-account \
    --tag-keys Environment Purpose
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-archive-rule`
<a name="accessanalyzer_UpdateArchiveRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-archive-rule`.

**AWS CLI**  
**Untuk memperbarui kriteria dan nilai untuk aturan arsip yang ditentukan**  
`update-archive-rule`Contoh berikut memperbarui kriteria dan nilai untuk aturan arsip yang ditentukan di AWS akun Anda.  

```
aws accessanalyzer update-archive-rule \
    --analyzer-name UnusedAccess-ConsoleAnalyzer-organization \
    --rule-name MyArchiveRule \
    --filter '{"resource": {"contains": ["Cognito"]}, "resourceType": {"eq": ["AWS::IAM::Role"]}}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Aturan arsip](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-archive-rules.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UpdateArchiveRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/update-archive-rule.html)di *Referensi AWS CLI Perintah*. 

### `update-findings`
<a name="accessanalyzer_UpdateFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-findings`.

**AWS CLI**  
**Untuk memperbarui status temuan yang ditentukan**  
`update-findings`Contoh berikut memperbarui status untuk temuan yang ditentukan di AWS akun Anda.  

```
aws accessanalyzer update-findings \
    --analyzer-arn arn:aws:access-analyzer:us-west-2:111122223333:analyzer/UnusedAccess-ConsoleAnalyzer-organization \
    --ids 4f319ac3-2e0c-4dc4-bf51-7013a086b6ae 780d586a-2cce-4f72-aff6-359d450e7500 \
    --status ARCHIVED
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan AWS Identity and Access Management Access Analyzer](https://docs.aws.amazon.com/IAM/latest/UserGuide/what-is-access-analyzer.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [UpdateFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/update-findings.html)di *Referensi AWS CLI Perintah*. 

### `validate-policy`
<a name="accessanalyzer_ValidatePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`validate-policy`.

**AWS CLI**  
**Untuk meminta validasi kebijakan dan mengembalikan daftar temuan**  
`validate-policy`Contoh berikut meminta validasi kebijakan dan mengembalikan daftar temuan. Kebijakan dalam contoh adalah kebijakan kepercayaan peran untuk peran Amazon Cognito yang digunakan untuk federasi identitas web. Temuan yang dihasilkan dari kebijakan kepercayaan berhubungan dengan nilai `Sid` elemen kosong dan prinsip kebijakan yang tidak cocok karena tindakan peran asumsi yang salah digunakan,. `sts:AssumeRole` Tindakan peran asumsi yang benar untuk digunakan dengan Cognito adalah. `sts:AssumeRoleWithWebIdentity`  

```
aws accessanalyzer validate-policy \
    --policy-document file://myfile.json \
    --policy-type RESOURCE_POLICY
```
Isi dari `myfile.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Sid": "",
            "Effect": "Allow",
            "Principal": {
                "Federated": "cognito-identity.amazonaws.com"
            },
            "Action": [
                "sts:AssumeRole",
                "sts:TagSession"
            ],
            "Condition": {
                "StringEquals": {
                    "cognito-identity.amazonaws.com:aud": "us-west-2_EXAMPLE"
                }
            }
        }
    ]
}
```
Output:  

```
{
    "findings": [
        {
            "findingDetails": "Add a value to the empty string in the Sid element.",
            "findingType": "SUGGESTION",
            "issueCode": "EMPTY_SID_VALUE",
            "learnMoreLink": "https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-reference-policy-checks.html#access-analyzer-reference-policy-checks-suggestion-empty-sid-value",
            "locations": [
                {
                    "path": [
                        {
                            "value": "Statement"
                        },
                        {
                            "index": 0
                        },
                        {
                            "value": "Sid"
                        }
                    ],
                    "span": {
                        "end": {
                            "column": 21,
                            "line": 5,
                            "offset": 81
                        },
                        "start": {
                            "column": 19,
                            "line": 5,
                            "offset": 79
                        }
                    }
                }
            ]
        },
        {
            "findingDetails": "The sts:AssumeRole action is invalid with the following principal(s): cognito-identity.amazonaws.com. Use a SAML provider principal with the sts:AssumeRoleWithSAML action or use an OIDC provider principal with the sts:AssumeRoleWithWebIdentity action. Ensure the provider is Federated if you use either of the two options.",
            "findingType": "ERROR",
            "issueCode": "MISMATCHED_ACTION_FOR_PRINCIPAL",
            "learnMoreLink": "https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-reference-policy-checks.html#access-analyzer-reference-policy-checks-error-mismatched-action-for-principal",
            "locations": [
                {
                    "path": [
                        {
                            "value": "Statement"
                        },
                        {
                            "index": 0
                        },
                        {
                            "value": "Action"
                        },
                        {
                            "index": 0
                        }
                    ],
                    "span": {
                        "end": {
                            "column": 32,
                            "line": 11,
                            "offset": 274
                        },
                        "start": {
                            "column": 16,
                            "line": 11,
                            "offset": 258
                        }
                    }
                },
                {
                    "path": [
                        {
                            "value": "Statement"
                        },
                        {
                            "index": 0
                        },
                        {
                            "value": "Principal"
                        },
                        {
                            "value": "Federated"
                        }
                    ],
                    "span": {
                        "end": {
                            "column": 61,
                            "line": 8,
                            "offset": 202
                        },
                        "start": {
                            "column": 29,
                            "line": 8,
                            "offset": 170
                        }
                    }
                }
            ]
        },
        {
            "findingDetails": "The following actions: sts:TagSession are not supported by the condition key cognito-identity.amazonaws.com:aud. The condition will not be evaluated for these actions. We recommend that you move these actions to a different statement without this condition key.",
            "findingType": "ERROR",
            "issueCode": "UNSUPPORTED_ACTION_FOR_CONDITION_KEY",
            "learnMoreLink": "https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-reference-policy-checks.html#access-analyzer-reference-policy-checks-error-unsupported-action-for-condition-key",
            "locations": [
                {
                    "path": [
                        {
                            "value": "Statement"
                        },
                        {
                            "index": 0
                        },
                        {
                            "value": "Action"
                        },
                        {
                            "index": 1
                        }
                    ],
                    "span": {
                        "end": {
                            "column": 32,
                            "line": 12,
                            "offset": 308
                        },
                        "start": {
                            "column": 16,
                            "line": 12,
                            "offset": 292
                        }
                    }
                },
                {
                    "path": [
                        {
                            "value": "Statement"
                        },
                        {
                            "index": 0
                        },
                        {
                            "value": "Condition"
                        },
                        {
                            "value": "StringEquals"
                        },
                        {
                            "value": "cognito-identity.amazonaws.com:aud"
                        }
                    ],
                    "span": {
                        "end": {
                            "column": 79,
                            "line": 16,
                            "offset": 464
                        },
                        "start": {
                            "column": 58,
                            "line": 16,
                            "offset": 443
                        }
                    }
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memeriksa untuk memvalidasi kebijakan](https://docs.aws.amazon.com/IAM/latest/UserGuide/access-analyzer-checks-validating-policies.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [ValidatePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/accessanalyzer/validate-policy.html)di *Referensi AWS CLI Perintah*. 

# Contoh Image Builder menggunakan AWS CLI
<a name="cli_2_imagebuilder_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Image Builder.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-component`
<a name="imagebuilder_CreateComponent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-component`.

**AWS CLI**  
**Untuk membuat komponen**  
`create-component`Contoh berikut membuat komponen yang menggunakan file dokumen JSON dan mereferensikan dokumen komponen dalam format YAMAL yang diunggah ke bucket Amazon S3.  

```
aws imagebuilder create-component \
    --cli-input-json file://create-component.json
```
Isi dari `create-component.json`:  

```
{
    "name": "MyExampleComponent",
    "semanticVersion": "2019.12.02",
    "description": "An example component that builds, validates and tests an image",
    "changeDescription": "Initial version.",
    "platform": "Windows",
    "uri": "s3://s3-bucket-name/s3-bucket-path/component.yaml"
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "clientToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "componentBuildVersionArn": "arn:aws:imagebuilder:us-west-2:123456789012:component/examplecomponent/2019.12.02/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [CreateComponent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/create-component.html)di *Referensi AWS CLI Perintah*. 

### `create-distribution-configuration`
<a name="imagebuilder_CreateDistributionConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-distribution-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi distribusi**  
`create-distribution-configuration`Contoh berikut membuat konfigurasi distribusi menggunakan file JSON.  

```
aws imagebuilder create-distribution-configuration \
    --cli-input-json file:/create-distribution-configuration.json
```
Isi dari `create-distribution-configuration.json`:  

```
{
    "name": "MyExampleDistribution",
    "description": "Copies AMI to eu-west-1",
    "distributions": [
        {
            "region": "us-west-2",
            "amiDistributionConfiguration": {
                "name": "Name {{imagebuilder:buildDate}}",
                "description": "An example image name with parameter references",
                "amiTags": {
                    "KeyName": "{{ssm:parameter_name}}"
                },
                "launchPermission": {
                    "userIds": [
                        "123456789012"
                    ]
                }
            }
        },
        {
            "region": "eu-west-1",
            "amiDistributionConfiguration": {
                "name": "My {{imagebuilder:buildVersion}} image {{imagebuilder:buildDate}}",
                "amiTags": {
                    "KeyName": "Value"
                },
                "launchPermission": {
                    "userIds": [
                        "123456789012"
                    ]
                }
            }
        }
    ]
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "clientToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "distributionConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [CreateDistributionConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/create-distribution-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-image-pipeline`
<a name="imagebuilder_CreateImagePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-image-pipeline`.

**AWS CLI**  
**Untuk membuat pipeline gambar**  
`create-image-pipeline`Contoh berikut membuat pipeline gambar menggunakan file JSON.  

```
aws imagebuilder create-image-pipeline \
    --cli-input-json file://create-image-pipeline.json
```
Isi dari `create-image-pipeline.json`:  

```
{
    "name": "MyWindows2016Pipeline",
    "description": "Builds Windows 2016 Images",
    "imageRecipeArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03",
    "infrastructureConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure",
    "distributionConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution",
    "imageTestsConfiguration": {
        "imageTestsEnabled": true,
        "timeoutMinutes": 60
    },
    "schedule": {
        "scheduleExpression": "cron(0 0 * * SUN)",
        "pipelineExecutionStartCondition": "EXPRESSION_MATCH_AND_DEPENDENCY_UPDATES_AVAILABLE"
    },
    "status": "ENABLED"
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "clientToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "imagePipelineArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [CreateImagePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/create-image-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `create-image-recipe`
<a name="imagebuilder_CreateImageRecipe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-image-recipe`.

**AWS CLI**  
**Untuk membuat resep**  
`create-image-recipe`Contoh berikut membuat resep gambar menggunakan file JSON. Komponen dipasang dalam urutan di mana mereka ditentukan.  

```
aws imagebuilder create-image-recipe \
    --cli-input-json file://create-image-recipe.json
```
Isi dari `create-image-recipe.json`:  

```
{
    "name": "MyBasicRecipe",
    "description": "This example image recipe creates a Windows 2016 image.",
    "semanticVersion": "2019.12.03",
    "components":
    [
        {
            "componentArn": "arn:aws:imagebuilder:us-west-2:123456789012:component/myexamplecomponent/2019.12.02/1"
        },
        {
            "componentArn": "arn:aws:imagebuilder:us-west-2:123456789012:component/myimportedcomponent/1.0.0/1"
        }
    ],
    "parentImage": "arn:aws:imagebuilder:us-west-2:aws:image/windows-server-2016-english-full-base-x86/xxxx.x.x"
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "clientToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "imageRecipeArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [CreateImageRecipe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/create-image-recipe.html)di *Referensi AWS CLI Perintah*. 

### `create-image`
<a name="imagebuilder_CreateImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-image`.

**AWS CLI**  
**Untuk membuat gambar**  
`create-image`Contoh berikut membuat gambar.  

```
aws imagebuilder create-image \
    --image-recipe-arn arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03 \
    --infrastructure-configuration-arn arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "clientToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "imageBuildVersionArn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [CreateImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/create-image.html)di *Referensi AWS CLI Perintah*. 

### `create-infrastructure-configuration`
<a name="imagebuilder_CreateInfrastructureConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-infrastructure-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi infrastruktur**  
`create-infrastructure-configuration`Contoh berikut membuat konfigurasi infrastruktur menggunakan file JSON.  

```
aws imagebuilder create-infrastructure-configuration \
    --cli-input-json file://create-infrastructure-configuration.json
```
Isi dari `create-infrastructure-configuration.json`:  

```
{
    "name": "MyExampleInfrastructure",
    "description": "An example that will retain instances of failed builds",
    "instanceTypes": [
        "m5.large", "m5.xlarge"
    ],
    "instanceProfileName": "EC2InstanceProfileForImageBuilder",
    "securityGroupIds": [
        "sg-a1b2c3d4"
    ],
    "subnetId": "subnet-a1b2c3d4",
    "logging": {
        "s3Logs": {
            "s3BucketName": "bucket-name",
            "s3KeyPrefix": "bucket-path"
        }
    },
    "keyPair": "key-pair-name",
    "terminateInstanceOnFailure": false,
    "snsTopicArn": "arn:aws:sns:us-west-2:123456789012:sns-topic-name"
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "clientToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "infrastructureConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [CreateInfrastructureConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/create-infrastructure-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-component`
<a name="imagebuilder_DeleteComponent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-component`.

**AWS CLI**  
**Untuk menghapus komponen**  
`delete-component`Contoh berikut menghapus versi build komponen dengan menentukan ARN-nya.  

```
aws imagebuilder delete-component \
    --component-build-version-arn arn:aws:imagebuilder:us-west-2:123456789012:component/myexamplecomponent/2019.12.02/1
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "componentBuildVersionArn": "arn:aws:imagebuilder:us-west-2:123456789012:component/myexamplecomponent/2019.12.02/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [DeleteComponent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/delete-component.html)di *Referensi AWS CLI Perintah*. 

### `delete-image-pipeline`
<a name="imagebuilder_DeleteImagePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-image-pipeline`.

**AWS CLI**  
**Untuk menghapus pipeline gambar**  
`delete-image-pipeline`Contoh berikut menghapus pipeline gambar dengan menentukan ARN nya.  

```
aws imagebuilder delete-image-pipeline \
    --image-pipeline-arn arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/my-example-pipeline
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imagePipelineArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [DeleteImagePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/delete-image-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `delete-image-recipe`
<a name="imagebuilder_DeleteImageRecipe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-image-recipe`.

**AWS CLI**  
**Untuk menghapus resep gambar**  
`delete-image-recipe`Contoh berikut menghapus resep gambar dengan menentukan ARN nya.  

```
aws imagebuilder delete-image-recipe \
    --image-recipe-arn arn:aws:imagebuilder:us-east-1:123456789012:image-recipe/mybasicrecipe/2019.12.03
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imageRecipeArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [DeleteImageRecipe](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/delete-image-recipe.html)di *Referensi AWS CLI Perintah*. 

### `delete-image`
<a name="imagebuilder_DeleteImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-image`.

**AWS CLI**  
**Untuk menghapus gambar**  
`delete-image`Contoh berikut menghapus versi build gambar dengan menentukan ARN nya.  

```
aws imagebuilder delete-image \
    --image-build-version-arn arn:aws:imagebuilder:us-west-2:123456789012:image/my-example-image/2019.12.02/1
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imageBuildVersionArn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [DeleteImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/delete-image.html)di *Referensi AWS CLI Perintah*. 

### `delete-infrastructure-configuration`
<a name="imagebuilder_DeleteInfrastructureConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-infrastructure-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi infrastruktur**  
`delete-infrastructure-configuration`Contoh berikut menghapus pipeline gambar dengan menentukan ARN nya.  

```
aws imagebuilder delete-infrastructure-configuration \
    --infrastructure-configuration-arn arn:aws:imagebuilder:us-east-1:123456789012:infrastructure-configuration/myexampleinfrastructure
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "infrastructureConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [DeleteInfrastructureConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/delete-infrastructure-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-component-policy`
<a name="imagebuilder_GetComponentPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-component-policy`.

**AWS CLI**  
**Untuk mendapatkan detail kebijakan komponen**  
`get-component-policy`Contoh berikut mencantumkan rincian kebijakan komponen dengan menentukan ARN nya.  

```
aws imagebuilder get-component-policy \
    --component-arn arn:aws:imagebuilder:us-west-2:123456789012:component/my-example-component/2019.12.03/1
```
Output:  

```
{
    "Policy": "{ "Version":"2012-10-17",		 	 	  "Statement": [ { "Effect": "Allow", "Principal": { "AWS": [ "123456789012" ] }, "Action": [ "imagebuilder:GetComponent", "imagebuilder:ListComponents" ], "Resource": [ "arn:aws:imagebuilder:us-west-2:123456789012:component/my-example-component/2019.12.03/1" ] } ] }"
}
```
Untuk informasi selengkapnya, lihat Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI https://docs.aws.amazon.com/imagebuilder/ latest/userguide/managing < image-builder-cli - .html>`\$1\$1 di Panduan Pengguna *EC2* Image Builder.  
+  Untuk detail API, lihat [GetComponentPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/get-component-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-component`
<a name="imagebuilder_GetComponent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-component`.

**AWS CLI**  
**Untuk mendapatkan detail komponen**  
`get-component`Contoh berikut mencantumkan rincian komponen dengan menentukan ARN nya.  

```
aws imagebuilder get-component \
    --component-build-version-arn arn:aws:imagebuilder:us-west-2:123456789012:component/component-name/1.0.0/1
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "component": {
        "arn": "arn:aws:imagebuilder:us-west-2:123456789012:component/component-name/1.0.0/1",
        "name": "component-name",
        "version": "1.0.0",
        "type": "TEST",
        "platform": "Linux",
        "owner": "123456789012",
        "data": "name: HelloWorldTestingDocument\ndescription: This is hello world testing document.\nschemaVersion: 1.0\n\nphases:\n  - name: test\n    steps:\n      - name: HelloWorldStep\n        action: ExecuteBash\n        inputs:\n          commands:\n            - echo \"Hello World! Test.\"\n",
        "encrypted": true,
        "dateCreated": "2020-01-27T20:43:30.306Z",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [GetComponent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/get-component.html)di *Referensi AWS CLI Perintah*. 

### `get-distribution-configuration`
<a name="imagebuilder_GetDistributionConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-distribution-configuration`.

**AWS CLI**  
**Untuk mendapatkan detail konfigurasi distribusi**  
`get-distribution-configuration`Contoh berikut menampilkan rincian konfigurasi distribusi dengan menentukan ARN nya.  

```
aws imagebuilder get-distribution-configuration \
    --distribution-configuration-arn arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "distributionConfiguration": {
        "arn": "arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution",
        "name": "MyExampleDistribution",
        "description": "Copies AMI to eu-west-1 and exports to S3",
        "distributions": [
            {
                "region": "us-west-2",
                "amiDistributionConfiguration": {
                    "name": "Name {{imagebuilder:buildDate}}",
                    "description": "An example image name with parameter references",
                    "amiTags": {
                        "KeyName": "{{ssm:parameter_name}}"
                    },
                    "launchPermission": {
                        "userIds": [
                            "123456789012"
                        ]
                    }
                }
            },
            {
                "region": "eu-west-1",
                "amiDistributionConfiguration": {
                    "name": "My {{imagebuilder:buildVersion}} image {{imagebuilder:buildDate}}",
                    "amiTags": {
                        "KeyName": "Value"
                    },
                    "launchPermission": {
                        "userIds": [
                            "123456789012"
                        ]
                    }
                }
            }
        ],
        "dateCreated": "2020-02-19T18:40:10.529Z",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [GetDistributionConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/get-distribution-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-image-pipeline`
<a name="imagebuilder_GetImagePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-image-pipeline`.

**AWS CLI**  
**Untuk mendapatkan detail pipa gambar**  
`get-image-pipeline`Contoh berikut mencantumkan rincian pipeline gambar dengan menentukan ARN nya.  

```
aws imagebuilder get-image-pipeline \
    --image-pipeline-arn arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imagePipeline": {
        "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline",
        "name": "MyWindows2016Pipeline",
        "description": "Builds Windows 2016 Images",
        "platform": "Windows",
        "imageRecipeArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03",
        "infrastructureConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure",
        "distributionConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution",
        "imageTestsConfiguration": {
            "imageTestsEnabled": true,
            "timeoutMinutes": 60
        },
        "schedule": {
            "scheduleExpression": "cron(0 0 * * SUN)",
            "pipelineExecutionStartCondition": "EXPRESSION_MATCH_AND_DEPENDENCY_UPDATES_AVAILABLE"
        },
        "status": "ENABLED",
        "dateCreated": "2020-02-19T19:04:01.253Z",
        "dateUpdated": "2020-02-19T19:04:01.253Z",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [GetImagePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/get-image-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `get-image-policy`
<a name="imagebuilder_GetImagePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-image-policy`.

**AWS CLI**  
**Untuk mendapatkan detail kebijakan gambar**  
`get-image-policy`Contoh berikut mencantumkan rincian kebijakan gambar dengan menentukan ARN nya.  

```
aws imagebuilder get-image-policy \
    --image-arn arn:aws:imagebuilder:us-west-2:123456789012:image/my-example-image/2019.12.03/1
```
Output:  

```
{
    "Policy": "{ "Version":"2012-10-17",		 	 	  "Statement": [ { "Effect": "Allow", "Principal": { "AWS": [ "123456789012" ] }, "Action": [ "imagebuilder:GetImage", "imagebuilder:ListImages" ], "Resource": [ "arn:aws:imagebuilder:us-west-2:123456789012:image/my-example-image/2019.12.03/1" ] } ] }"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [GetImagePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/get-image-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-image-recipe-policy`
<a name="imagebuilder_GetImageRecipePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-image-recipe-policy`.

**AWS CLI**  
**Untuk mendapatkan detail kebijakan resep gambar**  
`get-image-recipe-policy`Contoh berikut mencantumkan rincian kebijakan resep gambar dengan menentukan ARN-nya.  

```
aws imagebuilder get-image-recipe-policy \
    --image-recipe-arn arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/my-example-image-recipe/2019.12.03/1
```
Output:  

```
{
    "Policy": "{ "Version":"2012-10-17",		 	 	  "Statement": [ { "Effect": "Allow", "Principal": { "AWS": [ "123456789012" ] }, "Action": [ "imagebuilder:GetImageRecipe", "imagebuilder:ListImageRecipes" ], "Resource": [ "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/my-example-image-recipe/2019.12.03/1" ] } ] }"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [GetImageRecipePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/get-image-recipe-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-image`
<a name="imagebuilder_GetImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-image`.

**AWS CLI**  
**Untuk mendapatkan detail gambar**  
`get-image`Contoh berikut mencantumkan detail gambar dengan menentukan ARN-nya.  

```
aws imagebuilder get-image \
    --image-build-version-arn arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/1
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "image": {
        "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/1",
        "name": "MyBasicRecipe",
        "version": "2019.12.03/1",
        "platform": "Windows",
        "state": {
            "status": "BUILDING"
        },
        "imageRecipe": {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03",
            "name": "MyBasicRecipe",
            "description": "This example image recipe creates a Windows 2016 image.",
            "platform": "Windows",
            "version": "2019.12.03",
            "components": [
                {
                    "componentArn": "arn:aws:imagebuilder:us-west-2:123456789012:component/myexamplecomponent/2019.12.02/1"
                },
                {
                    "componentArn": "arn:aws:imagebuilder:us-west-2:123456789012:component/myimportedcomponent/1.0.0/1"
                }
            ],
            "parentImage": "arn:aws:imagebuilder:us-west-2:aws:image/windows-server-2016-english-full-base-x86/2019.12.17/1",
            "dateCreated": "2020-02-14T19:46:16.904Z",
            "tags": {}
        },
        "infrastructureConfiguration": {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure",
            "name": "MyExampleInfrastructure",
            "description": "An example that will retain instances of failed builds",
            "instanceTypes": [
                "m5.large",
                "m5.xlarge"
            ],
            "instanceProfileName": "EC2InstanceProfileForImageFactory",
            "securityGroupIds": [
                "sg-a1b2c3d4"
            ],
            "subnetId": "subnet-a1b2c3d4",
            "logging": {
                "s3Logs": {
                    "s3BucketName": "bucket-name",
                    "s3KeyPrefix": "bucket-path"
                }
            },
            "keyPair": "Sam",
            "terminateInstanceOnFailure": false,
            "snsTopicArn": "arn:aws:sns:us-west-2:123456789012:sns-name",
            "dateCreated": "2020-02-14T21:21:05.098Z",
            "tags": {}
        },
        "imageTestsConfiguration": {
            "imageTestsEnabled": true,
            "timeoutMinutes": 720
        },
        "dateCreated": "2020-02-14T23:14:13.597Z",
        "outputResources": {
            "amis": []
        },
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [GetImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/get-image.html)di *Referensi AWS CLI Perintah*. 

### `get-infrastructure-configuration`
<a name="imagebuilder_GetInfrastructureConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-infrastructure-configuration`.

**AWS CLI**  
**Untuk mendapatkan detail konfigurasi infrastruktur**  
`get-infrastructure-configuration`Contoh berikut mencantumkan rincian konfigurasi infrastruktur dengan menentukan ARN nya.  

```
aws imagebuilder get-infrastructure-configuration \
    --infrastructure-configuration-arn arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "infrastructureConfiguration": {
        "arn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure",
        "name": "MyExampleInfrastructure",
        "description": "An example that will retain instances of failed builds",
        "instanceTypes": [
            "m5.large",
            "m5.xlarge"
        ],
        "instanceProfileName": "EC2InstanceProfileForImageBuilder",
        "securityGroupIds": [
            "sg-a48c95ef"
        ],
        "subnetId": "subnet-a48c95ef",
        "logging": {
            "s3Logs": {
                "s3BucketName": "bucket-name",
                "s3KeyPrefix": "bucket-path"
            }
        },
        "keyPair": "Name",
        "terminateInstanceOnFailure": false,
        "snsTopicArn": "arn:aws:sns:us-west-2:123456789012:sns-name",
        "dateCreated": "2020-02-19T19:11:51.858Z",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [GetInfrastructureConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/get-infrastructure-configuration.html)di *Referensi AWS CLI Perintah*. 

### `import-component`
<a name="imagebuilder_ImportComponent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-component`.

**AWS CLI**  
**Untuk mengimpor komponen**  
`import-component`Contoh berikut mengimpor skrip yang sudah ada sebelumnya menggunakan file JSON.  

```
aws imagebuilder import-component \
    --cli-input-json file://import-component.json
```
Isi dari `import-component.json`:  

```
{
    "name": "MyImportedComponent",
    "semanticVersion": "1.0.0",
    "description": "An example of how to import a component",
    "changeDescription": "First commit message.",
    "format": "SHELL",
    "platform": "Windows",
    "type": "BUILD",
    "uri": "s3://s3-bucket-name/s3-bucket-path/component.yaml"
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "clientToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "componentBuildVersionArn": "arn:aws:imagebuilder:us-west-2:123456789012:component/myimportedcomponent/1.0.0/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ImportComponent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/import-component.html)di *Referensi AWS CLI Perintah*. 

### `list-component-build-versions`
<a name="imagebuilder_ListComponentBuildVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-component-build-versions`.

**AWS CLI**  
**Untuk membuat daftar versi pembuatan komponen**  
`list-component-build-versions`Contoh berikut mencantumkan versi build komponen dengan versi semantik tertentu.  

```
aws imagebuilder list-component-build-versions --component-version-arn arn:aws:imagebuilder:us-west-2:123456789012:component/myexamplecomponent/2019.12.02
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "componentSummaryList": [
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:component/myexamplecomponent/2019.12.02/1",
            "name": "MyExampleComponent",
            "version": "2019.12.02",
            "platform": "Windows",
            "type": "BUILD",
            "owner": "123456789012",
            "description": "An example component that builds, validates and tests an image",
            "changeDescription": "Initial version.",
            "dateCreated": "2020-02-19T18:53:45.940Z",
            "tags": {
                "KeyName": "KeyValue"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListComponentBuildVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-component-build-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-components`
<a name="imagebuilder_ListComponents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-components`.

**AWS CLI**  
**Untuk daftar semua versi semantik komponen**  
`list-components`Contoh berikut mencantumkan semua versi semantik komponen yang dapat Anda akses. Anda dapat secara opsional memfilter apakah akan mencantumkan komponen yang dimiliki oleh Anda, oleh Amazon, atau yang telah dibagikan dengan Anda oleh akun lain.  

```
aws imagebuilder list-components
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "componentVersionList": [
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:component/component-name/1.0.0",
            "name": "component-name",
            "version": "1.0.0",
            "platform": "Linux",
            "type": "TEST",
            "owner": "123456789012",
            "dateCreated": "2020-01-27T20:43:30.306Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListComponents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-components.html)di *Referensi AWS CLI Perintah*. 

### `list-distribution-configurations`
<a name="imagebuilder_ListDistributionConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-distribution-configurations`.

**AWS CLI**  
**Untuk daftar distribusi**  
`list-distribution-configurations`Contoh berikut mencantumkan semua distribusi Anda.  

```
aws imagebuilder list-distribution-configurations
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "distributionConfigurationSummaryList": [
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution",
            "name": "MyExampleDistribution",
            "description": "Copies AMI to eu-west-1 and exports to S3",
            "dateCreated": "2020-02-19T18:40:10.529Z",
            "tags": {
                "KeyName": "KeyValue"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListDistributionConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-distribution-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-image-build-versions`
<a name="imagebuilder_ListImageBuildVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-image-build-versions`.

**AWS CLI**  
**Untuk membuat daftar versi pembuatan gambar**  
`list-image-build-versions`Contoh berikut mencantumkan semua versi build image dengan versi semantik.  

```
aws imagebuilder list-image-build-versions \
    --image-version-arn arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imageSummaryList": [
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/7",
            "name": "MyBasicRecipe",
            "version": "2019.12.03/7",
            "platform": "Windows",
            "state": {
                "status": "FAILED",
                "reason": "Can't start SSM Automation for arn arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/7 during building. Parameter \"iamInstanceProfileName\" has a null value."
            },
            "owner": "123456789012",
            "dateCreated": "2020-02-19T18:56:11.511Z",
            "outputResources": {
                "amis": []
            },
            "tags": {}
        },
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/6",
            "name": "MyBasicRecipe",
            "version": "2019.12.03/6",
            "platform": "Windows",
            "state": {
                "status": "FAILED",
                "reason": "An internal error has occurred."
            },
            "owner": "123456789012",
            "dateCreated": "2020-02-18T22:49:08.142Z",
            "outputResources": {
                "amis": [
                    {
                        "region": "us-west-2",
                        "image": "ami-a1b2c3d4567890ab",
                        "name": "MyBasicRecipe 2020-02-18T22-49-38.704Z",
                        "description": "This example image recipe creates a Windows 2016 image."
                    },
                    {
                        "region": "us-west-2",
                        "image": "ami-a1b2c3d4567890ab",
                        "name": "Name 2020-02-18T22-49-08.131Z",
                        "description": "Copies AMI to eu-west-2 and exports to S3"
                    },
                    {
                        "region": "eu-west-2",
                        "image": "ami-a1b2c3d4567890ab",
                        "name": "My 6 image 2020-02-18T22-49-08.131Z",
                        "description": "Copies AMI to eu-west-2 and exports to S3"
                    }
                ]
            },
            "tags": {}
        },
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/5",
            "name": "MyBasicRecipe",
            "version": "2019.12.03/5",
            "platform": "Windows",
            "state": {
                "status": "AVAILABLE"
            },
            "owner": "123456789012",
            "dateCreated": "2020-02-18T16:51:48.403Z",
            "outputResources": {
                "amis": [
                    {
                        "region": "us-west-2",
                        "image": "ami-a1b2c3d4567890ab",
                        "name": "MyBasicRecipe 2020-02-18T16-52-18.965Z",
                        "description": "This example image recipe creates a Windows 2016 image."
                    }
                ]
            },
            "tags": {}
        },
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/4",
            "name": "MyBasicRecipe",
            "version": "2019.12.03/4",
            "platform": "Windows",
            "state": {
                "status": "AVAILABLE"
            },
            "owner": "123456789012",
            "dateCreated": "2020-02-18T16:50:01.827Z",
            "outputResources": {
                "amis": [
                    {
                        "region": "us-west-2",
                        "image": "ami-a1b2c3d4567890ab",
                        "name": "MyBasicRecipe 2020-02-18T16-50-32.280Z",
                        "description": "This example image recipe creates a Windows 2016 image."
                    }
                ]
            },
            "tags": {}
        },
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/3",
            "name": "MyBasicRecipe",
            "version": "2019.12.03/3",
            "platform": "Windows",
            "state": {
                "status": "AVAILABLE"
            },
            "owner": "123456789012",
            "dateCreated": "2020-02-14T23:14:13.597Z",
            "outputResources": {
                "amis": [
                    {
                        "region": "us-west-2",
                        "image": "ami-a1b2c3d4567890ab",
                        "name": "MyBasicRecipe 2020-02-14T23-14-44.243Z",
                        "description": "This example image recipe creates a Windows 2016 image."
                    }
                ]
            },
            "tags": {}
        },
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/2",
            "name": "MyBasicRecipe",
            "version": "2019.12.03/2",
            "platform": "Windows",
            "state": {
                "status": "FAILED",
                "reason": "SSM execution 'a1b2c3d4-5678-90ab-cdef-EXAMPLE11111' failed with status = 'Failed' and failure message = 'Step fails when it is verifying the command has completed. Command a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 returns unexpected invocation result: \n{Status=[Failed], ResponseCode=[1], Output=[\n----------ERROR-------\nfailed to run commands: exit status 1], OutputPayload=[{\"Status\":\"Failed\",\"ResponseCode\":1,\"Output\":\"\\n----------ERROR-------\\nfailed to run commands: exit status 1\",\"CommandId\":\"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111\"}], CommandId=[a1b2c3d4-5678-90ab-cdef-EXAMPLE11111]}. Please refer to Automation Service Troubleshooting Guide for more diagnosis details.'"
            },
            "owner": "123456789012",
            "dateCreated": "2020-02-14T22:57:42.593Z",
            "outputResources": {
                "amis": []
            },
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListImageBuildVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-image-build-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-image-pipeline-images`
<a name="imagebuilder_ListImagePipelineImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-image-pipeline-images`.

**AWS CLI**  
**Untuk mencantumkan gambar pipa pipa gambar**  
`list-image-pipeline-images`Contoh berikut mencantumkan semua gambar yang dibuat oleh pipeline gambar tertentu.  

```
aws imagebuilder list-image-pipeline-images \
    --image-pipeline-arn arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imagePipelineList": [
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline",
            "name": "MyWindows2016Pipeline",
            "description": "Builds Windows 2016 Images",
            "platform": "Windows",
            "imageRecipeArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03",
            "infrastructureConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure",
            "distributionConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution",
            "imageTestsConfiguration": {
                "imageTestsEnabled": true,
                "timeoutMinutes": 60
            },
            "schedule": {
                "scheduleExpression": "cron(0 0 * * SUN)",
                "pipelineExecutionStartCondition": "EXPRESSION_MATCH_AND_DEPENDENCY_UPDATES_AVAILABLE"
            },
            "status": "ENABLED",
            "dateCreated": "2020-02-19T19:04:01.253Z",
            "dateUpdated": "2020-02-19T19:04:01.253Z",
            "tags": {
                "KeyName": "KeyValue"
            }
        },
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/sam",
            "name": "PipelineName",
            "platform": "Linux",
            "imageRecipeArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/recipe-name-a1b2c3d45678/1.0.0",
            "infrastructureConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/infrastructureconfiguration-name-a1b2c3d45678",
            "imageTestsConfiguration": {
                "imageTestsEnabled": true,
                "timeoutMinutes": 720
            },
            "status": "ENABLED",
            "dateCreated": "2019-12-16T18:19:02.068Z",
            "dateUpdated": "2019-12-16T18:19:02.068Z",
            "tags": {
                "KeyName": "KeyValue"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListImagePipelineImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-image-pipeline-images.html)di *Referensi AWS CLI Perintah*. 

### `list-image-recipes`
<a name="imagebuilder_ListImageRecipes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-image-recipes`.

**AWS CLI**  
**Untuk daftar resep gambar**  
`list-image-recipes`Contoh berikut mencantumkan semua resep gambar Anda.  

```
aws imagebuilder list-image-recipes
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imageRecipeSummaryList": [
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03",
            "name": "MyBasicRecipe",
            "platform": "Windows",
            "owner": "123456789012",
            "parentImage": "arn:aws:imagebuilder:us-west-2:aws:image/windows-server-2016-english-full-base-x86/2019.x.x",
            "dateCreated": "2020-02-19T18:54:25.975Z",
            "tags": {
                "KeyName": "KeyValue"
            }
        },
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/recipe-name-a1b2c3d45678/1.0.0",
            "name": "recipe-name-a1b2c3d45678",
            "platform": "Linux",
            "owner": "123456789012",
            "parentImage": "arn:aws:imagebuilder:us-west-2:aws:image/amazon-linux-2-x86/2019.11.21",
            "dateCreated": "2019-12-16T18:19:00.120Z",
            "tags": {
                "KeyName": "KeyValue"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListImageRecipes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-image-recipes.html)di *Referensi AWS CLI Perintah*. 

### `list-images`
<a name="imagebuilder_ListImages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-images`.

**AWS CLI**  
**Untuk daftar gambar**  
`list-images`Contoh berikut mencantumkan semua versi semantik yang dapat Anda akses.  

```
aws imagebuilder list-images
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imageVersionList": [
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03",
            "name": "MyBasicRecipe",
            "version": "2019.12.03",
            "platform": "Windows",
            "owner": "123456789012",
            "dateCreated": "2020-02-14T21:29:18.810Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-images.html)di *Referensi AWS CLI Perintah*. 

### `list-infrastructure-configurations`
<a name="imagebuilder_ListInfrastructureConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-infrastructure-configurations`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi infrastruktur**  
`list-infrastructure-configurations`Contoh berikut mencantumkan semua konfigurasi infrastruktur Anda.  

```
aws imagebuilder list-infrastructure-configurations
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "infrastructureConfigurationSummaryList": [
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure",
            "name": "MyExampleInfrastructure",
            "description": "An example that will retain instances of failed builds",
            "dateCreated": "2020-02-19T19:11:51.858Z",
            "tags": {}
        },
        {
            "arn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/infrastructureconfiguration-name-a1b2c3d45678",
            "name": "infrastructureConfiguration-name-a1b2c3d45678",
            "dateCreated": "2019-12-16T18:19:01.038Z",
            "tags": {
                "KeyName": "KeyValue"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListInfrastructureConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-infrastructure-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="imagebuilder_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya tertentu**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk sumber daya tertentu.  

```
aws imagebuilder list-tags-for-resource \
    --resource-arn arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline
```
Output:  

```
{
    "tags": {
        "KeyName": "KeyValue"
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-component-policy`
<a name="imagebuilder_PutComponentPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-component-policy`.

**AWS CLI**  
**Untuk menerapkan kebijakan sumber daya ke komponen**  
`put-component-policy`Perintah berikut menerapkan kebijakan sumber daya ke komponen build untuk mengaktifkan berbagi komponen build lintas akun. Kami sarankan Anda menggunakan perintah RAM CLI. `create-resource-share` Jika Anda menggunakan perintah EC2 Image Builder CLI, Anda juga harus menggunakan `put-component-policy` perintah RAM CLI `promote-resource-share-create-from-policy` agar sumber daya dapat dilihat oleh semua kepala sekolah dengan siapa sumber daya dibagikan.  

```
aws imagebuilder put-component-policy \
    --component-arn arn:aws:imagebuilder:us-west-2:123456789012:component/examplecomponent/2019.12.02/1 \
    --policy '{ "Version":"2012-10-17",		 	 	  "Statement": [ { "Effect": "Allow", "Principal": { "AWS": [ "123456789012" ] }, "Action": [ "imagebuilder:GetComponent", "imagebuilder:ListComponents" ], "Resource": [ "arn:aws:imagebuilder:us-west-2:123456789012:component/examplecomponent/2019.12.02/1" ] } ] }'
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "componentArn": "arn:aws:imagebuilder:us-west-2:123456789012:component/examplecomponent/2019.12.02/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [PutComponentPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/put-component-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-image-policy`
<a name="imagebuilder_PutImagePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-image-policy`.

**AWS CLI**  
**Untuk menerapkan kebijakan sumber daya ke gambar**  
`put-image-policy`Perintah berikut menerapkan kebijakan sumber daya ke gambar untuk mengaktifkan berbagi gambar lintas akun. Kami sarankan Anda menggunakan perintah RAM CLI. create-resource-share Jika Anda menggunakan perintah EC2 Image Builder CLI, Anda juga harus menggunakan put-image-policy perintah RAM CLI promote-resource-share-create -from-policy agar sumber daya dapat dilihat oleh semua prinsipal dengan siapa sumber daya dibagikan.  

```
aws imagebuilder put-image-policy \
    --image-arn arn:aws:imagebuilder:us-west-2:123456789012:image/example-image/2019.12.02/1 \
    --policy '{ "Version":"2012-10-17",		 	 	  "Statement": [ { "Effect": "Allow", "Principal": { "AWS": [ "123456789012" ] }, "Action": [ "imagebuilder:GetImage", "imagebuilder:ListImages" ], "Resource": [ "arn:aws:imagebuilder:us-west-2:123456789012:image/example-image/2019.12.02/1" ] } ] }'
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imageArn": "arn:aws:imagebuilder:us-west-2:123456789012:image/example-image/2019.12.02/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [PutImagePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/put-image-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-image-recipe-policy`
<a name="imagebuilder_PutImageRecipePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-image-recipe-policy`.

**AWS CLI**  
**Untuk menerapkan kebijakan sumber daya ke resep gambar**  
`put-image-recipe-policy`Perintah berikut menerapkan kebijakan sumber daya ke resep gambar untuk mengaktifkan berbagi resep gambar lintas akun. Kami menyarankan Anda menggunakan perintah RAM CLI. `create-resource-share` Jika Anda menggunakan perintah EC2 Image Builder CLI, Anda juga harus menggunakan `put-image-recipe-policy` perintah RAM CLI `promote-resource-share-create-from-policy` agar sumber daya dapat dilihat oleh semua kepala sekolah dengan siapa sumber daya dibagikan.  

```
aws imagebuilder put-image-recipe-policy \
    --image-recipe-arn arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/example-image-recipe/2019.12.02 \
    --policy '{ "Version":"2012-10-17",		 	 	  "Statement": [ { "Effect": "Allow", "Principal": { "AWS": [ "123456789012" ] }, "Action": [ "imagebuilder:GetImageRecipe", "imagebuilder:ListImageRecipes" ], "Resource": [ "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/example-image-recipe/2019.12.02" ] } ] }'
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "imageRecipeArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/example-image-recipe/2019.12.02/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [PutImageRecipePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/put-image-recipe-policy.html)di *Referensi AWS CLI Perintah*. 

### `start-image-pipeline-execution`
<a name="imagebuilder_StartImagePipelineExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-image-pipeline-execution`.

**AWS CLI**  
**Untuk memulai pipeline gambar secara manual**  
`start-image-pipeline-execution`Contoh berikut secara manual memulai pipeline gambar.  

```
aws imagebuilder start-image-pipeline-execution \
    --image-pipeline-arn arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "clientToken": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "imageBuildVersionArn": "arn:aws:imagebuilder:us-west-2:123456789012:image/mybasicrecipe/2019.12.03/1"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [StartImagePipelineExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/start-image-pipeline-execution.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="imagebuilder_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
`tag-resource`Contoh berikut menambahkan dan menandai sumber daya ke EC2 Image Builder menggunakan file JSON.  

```
aws imagebuilder tag-resource \
    --cli-input-json file://tag-resource.json
```
Isi dari `tag-resource.json`:  

```
{
    "resourceArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline",
    "tags": {
        "KeyName: "KeyValue"
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="imagebuilder_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag dari sumber daya menggunakan file JSON.  

```
aws imagebuilder untag-resource \
    --cli-input-json file://tag-resource.json
```
Isi dari `untag-resource.json`:  

```
{
    "resourceArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline",
    "tagKeys": [
        "KeyName"
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-distribution-configuration`
<a name="imagebuilder_UpdateDistributionConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-distribution-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi distribusi**  
`update-distribution-configuration`Contoh berikut memperbarui konfigurasi distribusi menggunakan file JSON.  

```
aws imagebuilder update-distribution-configuration \
    --cli-input-json file://update-distribution-configuration.json
```
Isi dari `update-distribution-configuration.json`:  

```
{
    "distributionConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution",
    "description": "Copies AMI to eu-west-2 and exports to S3",
    "distributions": [
        {
            "region": "us-west-2",
            "amiDistributionConfiguration": {
                "name": "Name {{imagebuilder:buildDate}}",
                "description": "An example image name with parameter references"
            }
        },
        {
            "region": "eu-west-2",
            "amiDistributionConfiguration": {
                "name": "My {{imagebuilder:buildVersion}} image {{imagebuilder:buildDate}}"
            }
        }
    ]
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [UpdateDistributionConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/update-distribution-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-image-pipeline`
<a name="imagebuilder_UpdateImagePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-image-pipeline`.

**AWS CLI**  
**Untuk memperbarui pipeline gambar**  
`update-image-pipeline`Contoh berikut memperbarui pipeline gambar menggunakan file JSON.  

```
aws imagebuilder update-image-pipeline \
    --cli-input-json file://update-image-pipeline.json
```
Isi dari `update-image-pipeline.json`:  

```
{
    "imagePipelineArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-pipeline/mywindows2016pipeline",
    "imageRecipeArn": "arn:aws:imagebuilder:us-west-2:123456789012:image-recipe/mybasicrecipe/2019.12.03",
    "infrastructureConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure",
    "distributionConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:distribution-configuration/myexampledistribution",
    "imageTestsConfiguration": {
        "imageTestsEnabled": true,
        "timeoutMinutes": 120
    },
    "schedule": {
        "scheduleExpression": "cron(0 0 * * MON)",
        "pipelineExecutionStartCondition": "EXPRESSION_MATCH_AND_DEPENDENCY_UPDATES_AVAILABLE"
    },
    "status": "DISABLED"
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [UpdateImagePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/update-image-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `update-infrastructure-configuration`
<a name="imagebuilder_UpdateInfrastructureConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-infrastructure-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi infrastruktur**  
`update-infrastructure-configuration`Contoh berikut memperbarui konfigurasi infrastruktur menggunakan file JSON.  

```
aws imagebuilder update-infrastructure-configuration \
    --cli-input-json file:/update-infrastructure-configuration.json
```
Isi dari `update-infrastructure-configuration.json`:  

```
{
    "infrastructureConfigurationArn": "arn:aws:imagebuilder:us-west-2:123456789012:infrastructure-configuration/myexampleinfrastructure",
    "description": "An example that will terminate instances of failed builds",
    "instanceTypes": [
        "m5.large", "m5.2xlarge"
    ],
    "instanceProfileName": "EC2InstanceProfileForImageFactory",
    "securityGroupIds": [
        "sg-a48c95ef"
    ],
    "subnetId": "subnet-a48c95ef",
    "logging": {
        "s3Logs": {
            "s3BucketName": "bucket-name",
            "s3KeyPrefix": "bucket-path"
        }
    },
    "terminateInstanceOnFailure": true,
    "snsTopicArn": "arn:aws:sns:us-west-2:123456789012:sns-name"
}
```
Output:  

```
{
    "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan dan Mengelola Pipeline Image Builder EC2 Menggunakan AWS CLI](https://docs.aws.amazon.com/imagebuilder/latest/userguide/managing-image-builder-cli.html) di Panduan Pengguna *EC2 Image Builder*.  
+  Untuk detail API, lihat [UpdateInfrastructureConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/imagebuilder/update-infrastructure-configuration.html)di *Referensi AWS CLI Perintah*. 

# Contoh Manajer Insiden menggunakan AWS CLI
<a name="cli_2_ssm-incidents_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Incident Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-replication-set`
<a name="ssm-incidents_CreateReplicationSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-replication-set`.

**AWS CLI**  
**Untuk membuat set replikasi**  
`create-replication-set`Contoh berikut membuat kumpulan replikasi yang digunakan Incident Manager untuk mereplikasi dan mengenkripsi data di akun Amazon Web Services Anda. Contoh ini menggunakan Wilayah us-east-1 dan us-east-2 saat membuat kumpulan replikasi.  

```
aws ssm-incidents create-replication-set \
    --regions '{"us-east-1": {"sseKmsKeyId": "arn:aws:kms:us-east-1:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab"}, "us-east-2": {"sseKmsKeyId": "arn:aws:kms:us-east-1:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab"}}'
```
Output:  

```
{
    "replicationSetArns": [
        "arn:aws:ssm-incidents::111122223333:replication-set/c4bcb603-4bf9-bb3f-413c-08df53673b57"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan replikasi Manajer Insiden yang diatur](https://docs.aws.amazon.com/incident-manager/latest/userguide/replication.html) dalam *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [CreateReplicationSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/create-replication-set.html)di *Referensi AWS CLI Perintah*. 

### `create-response-plan`
<a name="ssm-incidents_CreateResponsePlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-response-plan`.

**AWS CLI**  
**Untuk membuat rencana respons**  
`create-response-plan`Contoh berikut membuat rencana respons dengan rincian yang ditentukan.  

```
aws ssm-incidents create-response-plan \
    --chat-channel '{"chatbotSns": ["arn:aws:sns:us-east-1:111122223333:Standard_User"]}' \
    --display-name "Example response plan" \
    --incident-template '{"impact": 5, "title": "example-incident"}' \
    --name "example-response" \
    --actions '[{"ssmAutomation": {"documentName": "AWSIncidents-CriticalIncidentRunbookTemplate", "documentVersion": "$DEFAULT", "roleArn": "arn:aws:iam::111122223333:role/aws-service-role/ssm-incidents.amazonaws.com/AWSServiceRoleForIncidentManager", "targetAccount": "RESPONSE_PLAN_OWNER_ACCOUNT"}}]' \
    --engagements '["arn:aws:ssm-contacts:us-east-1:111122223333:contact/example"]'
```
Output:  

```
{
    "arn": "arn:aws:ssm-incidents::111122223333:response-plan/example-response"
}
```
Untuk informasi selengkapnya, lihat [Persiapan insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/incident-response.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [CreateResponsePlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/create-response-plan.html)di *Referensi AWS CLI Perintah*. 

### `create-timeline-event`
<a name="ssm-incidents_CreateTimelineEvent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-timeline-event`.

**AWS CLI**  
**Contoh 1: Untuk membuat acara timeline kustom**  
`create-timeline-event`Contoh berikut membuat peristiwa timeline kustom pada waktu yang ditentukan pada insiden yang ditentukan.  

```
aws ssm-incidents create-timeline-event \
    --event-data "\"example timeline event\"" \
    --event-time 2022-10-01T20:30:00.000 \
    --event-type "Custom Event" \
    --incident-record-arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4EXAMPLE"
```
Output:  

```
{
    "eventId": "c0bcc885-a41d-eb01-b4ab-9d2deEXAMPLE",
    "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4EXAMPLE"
}
```
**Contoh 2: Untuk membuat peristiwa timeline dengan catatan insiden**  
`create-timeline-event`Contoh berikut membuat peristiwa timeline yang tercantum di panel 'Catatan kejadian'.  

```
aws ssm-incidents create-timeline-event \
     --event-data "\"New Note\"" \
     --event-type "Note" \
     --incident-record-arn "arn:aws:ssm-incidents::111122223333:incident-record/Test/6cc46130-ca6c-3b38-68f1-f6abeEXAMPLE" \
     --event-time 2023-06-20T12:06:00.000 \
     --event-references '[{"resource":"arn:aws:ssm-incidents::111122223333:incident-record/Test/6cc46130-ca6c-3b38-68f1-f6abeEXAMPLE"}]'
```
Output:  

```
{
    "eventId": "a41dc885-c0bc-b4ab-eb01-de9d2EXAMPLE",
    "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [CreateTimelineEvent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/create-timeline-event.html)di *Referensi AWS CLI Perintah*. 

### `delete-incident-record`
<a name="ssm-incidents_DeleteIncidentRecord_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-incident-record`.

**AWS CLI**  
**Untuk menghapus catatan insiden**  
`delete-incident-record`Contoh berikut menghapus catatan insiden yang ditentukan.  

```
aws ssm-incidents delete-incident-record \
    --arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pelacakan insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DeleteIncidentRecord](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/delete-incident-record.html)di *Referensi AWS CLI Perintah*. 

### `delete-replication-set`
<a name="ssm-incidents_DeleteReplicationSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-replication-set`.

**AWS CLI**  
**Untuk menghapus set replikasi**  
`delete-replication-set`Contoh berikut menghapus kumpulan replikasi dari akun Amazon Web Services Anda. Menghapus set replikasi juga menghapus semua data Manajer Insiden. Ini tidak bisa dibatalkan.  

```
aws ssm-incidents delete-replication-set \
    --arn "arn:aws:ssm-incidents::111122223333:replication-set/c4bcb603-4bf9-bb3f-413c-08df53673b57"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan replikasi Manajer Insiden yang diatur](https://docs.aws.amazon.com/incident-manager/latest/userguide/replication.html) dalam *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DeleteReplicationSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/delete-replication-set.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-policy`
<a name="ssm-incidents_DeleteResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan sumber daya**  
`delete-resource-policy`Contoh berikut menghapus kebijakan sumber daya dari rencana respons. Ini akan mencabut akses dari kepala sekolah atau organisasi tempat rencana respons dibagikan.  

```
aws ssm-incidents delete-resource-policy \
    --policy-id "be8b57191f0371f1c6827341aa3f0a03" \
    --resource-arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan kontak bersama dan rencana respons](https://docs.aws.amazon.com/incident-manager/latest/userguide/sharing.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DeleteResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/delete-resource-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-response-plan`
<a name="ssm-incidents_DeleteResponsePlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-response-plan`.

**AWS CLI**  
**Untuk menghapus rencana respons**  
`delete-response-plan`Contoh berikut menghapus rencana respons yang ditentukan.  

```
aws ssm-incidents delete-response-plan \
    --arn "arn:aws:ssm-incidents::111122223333:response-plan/example-response"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Persiapan insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/incident-response.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DeleteResponsePlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/delete-response-plan.html)di *Referensi AWS CLI Perintah*. 

### `delete-timeline-event`
<a name="ssm-incidents_DeleteTimelineEvent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-timeline-event`.

**AWS CLI**  
**Untuk menghapus peristiwa timeline**  
`delete-timeline-event`Contoh berikut menghapus peristiwa timeline kustom dari catatan insiden yang ditentukan.  

```
aws ssm-incidents delete-timeline-event \
    --event-id "c0bcc885-a41d-eb01-b4ab-9d2de193643c" \
    --incident-record-arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DeleteTimelineEvent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/delete-timeline-event.html)di *Referensi AWS CLI Perintah*. 

### `get-incident-record`
<a name="ssm-incidents_GetIncidentRecord_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-incident-record`.

**AWS CLI**  
**Untuk mendapatkan catatan insiden**  
`get-incident-record`Contoh berikut mendapatkan rincian tentang catatan insiden yang ditentukan.  

```
aws ssm-incidents get-incident-record \
    --arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
```
Output:  

```
{
    "incidentRecord": {
        "arn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308",
        "automationExecutions": [],
        "creationTime": "2021-05-21T18:16:57.579000+00:00",
        "dedupeString": "c4bcc812-85e7-938d-2b78-17181176ee1a",
        "impact": 5,
        "incidentRecordSource": {
            "createdBy": "arn:aws:iam::111122223333:user/draliatp",
            "invokedBy": "arn:aws:iam::111122223333:user/draliatp",
            "source": "aws.ssm-incidents.custom"
        },
        "lastModifiedBy": "arn:aws:iam::111122223333:user/draliatp",
        "lastModifiedTime": "2021-05-21T18:16:59.149000+00:00",
        "notificationTargets": [],
        "status": "OPEN",
        "title": "Example-Incident"
    }
}
```
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [GetIncidentRecord](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/get-incident-record.html)di *Referensi AWS CLI Perintah*. 

### `get-replication-set`
<a name="ssm-incidents_GetReplicationSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-replication-set`.

**AWS CLI**  
**Untuk mendapatkan set replikasi**  
`get-replication-set`Contoh berikut mendapatkan detail kumpulan replikasi yang digunakan Incident Manager untuk mereplikasi dan mengenkripsi data di akun Amazon Web Services Anda.  

```
aws ssm-incidents get-replication-set \
    --arn "arn:aws:ssm-incidents::111122223333:replication-set/c4bcb603-4bf9-bb3f-413c-08df53673b57"
```
Output:  

```
{
    "replicationSet": {
        "createdBy": "arn:aws:sts::111122223333:assumed-role/Admin/username",
        "createdTime": "2021-05-14T17:57:22.010000+00:00",
        "deletionProtected": false,
        "lastModifiedBy": "arn:aws:sts::111122223333:assumed-role/Admin/username",
        "lastModifiedTime": "2021-05-14T17:57:22.010000+00:00",
        "regionMap": {
            "us-east-1": {
                "sseKmsKeyId": "DefaultKey",
                "status": "ACTIVE"
            },
            "us-east-2": {
                "sseKmsKeyId": "DefaultKey",
                "status": "ACTIVE",
                "statusMessage": "Tagging inaccessible"
            }
        },
        "status": "ACTIVE"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan replikasi Manajer Insiden yang diatur](https://docs.aws.amazon.com/incident-manager/latest/userguide/replication.html) dalam *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [GetReplicationSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/get-replication-set.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-policies`
<a name="ssm-incidents_GetResourcePolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-policies`.

**AWS CLI**  
**Untuk membuat daftar kebijakan sumber daya untuk rencana respons**  
`command-name`Contoh berikut mencantumkan kebijakan sumber daya yang terkait dengan rencana respons yang ditentukan.  

```
aws ssm-incidents get-resource-policies \
--resource-arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan"
```
Output:  

```
{
    "resourcePolicies": [
        {
            "policyDocument": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"d901b37a-dbb0-458a-8842-75575c464219-external-principals\",\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::222233334444:root\"},\"Action\":[\"ssm-incidents:GetResponsePlan\",\"ssm-incidents:StartIncident\",\"ssm-incidents:UpdateIncidentRecord\",\"ssm-incidents:GetIncidentRecord\",\"ssm-incidents:CreateTimelineEvent\",\"ssm-incidents:UpdateTimelineEvent\",\"ssm-incidents:GetTimelineEvent\",\"ssm-incidents:ListTimelineEvents\",\"ssm-incidents:UpdateRelatedItems\",\"ssm-incidents:ListRelatedItems\"],\"Resource\":[\"arn:aws:ssm-incidents:*:111122223333:response-plan/Example-Response-Plan\",\"arn:aws:ssm-incidents:*:111122223333:incident-record/Example-Response-Plan/*\"]}]}",
            "policyId": "be8b57191f0371f1c6827341aa3f0a03",
            "ramResourceShareRegion": "us-east-1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan kontak bersama dan rencana respons](https://docs.aws.amazon.com/incident-manager/latest/userguide/sharing.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [GetResourcePolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/get-resource-policies.html)di *Referensi AWS CLI Perintah*. 

### `get-response-plan`
<a name="ssm-incidents_GetResponsePlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-response-plan`.

**AWS CLI**  
**Untuk mendapatkan rincian dari rencana respon**  
`command-name`Contoh berikut mendapatkan detail tentang rencana respons tertentu di AWS akun Anda.  

```
aws ssm-incidents get-response-plan \
    --arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan"
```
Output:  

```
{
    "actions": [
        {
            "ssmAutomation": {
                "documentName": "AWSIncidents-CriticalIncidentRunbookTemplate",
                "documentVersion": "$DEFAULT",
                "roleArn": "arn:aws:iam::111122223333:role/aws-service-role/ssm-incidents.amazonaws.com/AWSServiceRoleForIncidentManager",
                "targetAccount": "RESPONSE_PLAN_OWNER_ACCOUNT"
            }
        }
    ],
    "arn": "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan",
    "chatChannel": {
        "chatbotSns": [
            "arn:aws:sns:us-east-1:111122223333:Standard_User"
        ]
    },
    "displayName": "Example response plan",
    "engagements": [
        "arn:aws:ssm-contacts:us-east-1:111122223333:contact/example"
    ],
    "incidentTemplate": {
        "impact": 5,
        "title": "Example-Incident"
    },
    "name": "Example-Response-Plan"
}
```
Untuk informasi selengkapnya, lihat [Persiapan insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/incident-response.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [GetResponsePlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/get-response-plan.html)di *Referensi AWS CLI Perintah*. 

### `get-timeline-event`
<a name="ssm-incidents_GetTimelineEvent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-timeline-event`.

**AWS CLI**  
**Untuk mendapatkan detail acara timeline**  
`get-timeline-event`Contoh berikut mengembalikan rincian peristiwa timeline tertentu.  

```
aws ssm-incidents get-timeline-event \
    --event-id 20bcc812-8a94-4cd7-520c-0ff742111424 \
    --incident-record-arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
```
Output:  

```
{
    "event": {
        "eventData": "\"Incident Started\"",
        "eventId": "20bcc812-8a94-4cd7-520c-0ff742111424",
        "eventTime": "2021-05-21T18:16:57+00:00",
        "eventType": "Custom Event",
        "eventUpdatedTime": "2021-05-21T18:16:59.944000+00:00",
        "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
    }
}
```
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [GetTimelineEvent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/get-timeline-event.html)di *Referensi AWS CLI Perintah*. 

### `list-incident-records`
<a name="ssm-incidents_ListIncidentRecords_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-incident-records`.

**AWS CLI**  
**Untuk membuat daftar catatan insiden**  
`command-name`Contoh berikut mencantumkan catatan insiden di akun Amazon Web Services Anda.  

```
aws ssm-incidents list-incident-records
```
Output:  

```
{
    "incidentRecordSummaries": [
        {
            "arn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308",
            "creationTime": "2021-05-21T18:16:57.579000+00:00",
            "impact": 5,
            "incidentRecordSource": {
                "createdBy": "arn:aws:iam::111122223333:user/draliatp",
                "invokedBy": "arn:aws:iam::111122223333:user/draliatp",
                "source": "aws.ssm-incidents.custom"
            },
            "status": "OPEN",
            "title": "Example-Incident"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-list.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListIncidentRecords](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/list-incident-records.html)di *Referensi AWS CLI Perintah*. 

### `list-related-items`
<a name="ssm-incidents_ListRelatedItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-related-items`.

**AWS CLI**  
**Untuk daftar item terkait**  
`list-related-items`Contoh berikut mencantumkan item terkait dari insiden yang ditentukan.  

```
aws ssm-incidents list-related-items \
    --incident-record-arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
```
Output:  

```
{
    "relatedItems": [
        {
            "identifier": {
                "type": "OTHER",
                "value": {
                    "url": "https://console.aws.amazon.com/systems-manager/opsitems/oi-8ef82158e190/workbench?region=us-east-1"
                }
            },
            "title": "Example related item"
        },
        {
            "identifier": {
                "type": "PARENT",
                "value": {
                    "arn": "arn:aws:ssm:us-east-1:111122223333:opsitem/oi-8084126392ac"
                }
            },
            "title": "parentItem"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListRelatedItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/list-related-items.html)di *Referensi AWS CLI Perintah*. 

### `list-replication-sets`
<a name="ssm-incidents_ListReplicationSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-replication-sets`.

**AWS CLI**  
**Untuk daftar set replikasi**  
`list-replication-set`Contoh berikut mencantumkan kumpulan replikasi yang digunakan Incident Manager untuk mereplikasi dan mengenkripsi data di akun Anda. AWS   

```
aws ssm-incidents list-replication-sets
```
Output:  

```
{
    "replicationSetArns": [
        "arn:aws:ssm-incidents::111122223333:replication-set/c4bcb603-4bf9-bb3f-413c-08df53673b57"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan replikasi Manajer Insiden yang diatur](https://docs.aws.amazon.com/incident-manager/latest/userguide/replication.html) dalam *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListReplicationSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/list-replication-sets.html)di *Referensi AWS CLI Perintah*. 

### `list-response-plans`
<a name="ssm-incidents_ListResponsePlans_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-response-plans`.

**AWS CLI**  
**Untuk membuat daftar rencana respons yang tersedia**  
`list-response-plans`Contoh berikut mencantumkan paket respons yang tersedia di akun Amazon Web Services Anda.  

```
aws ssm-incidents list-response-plans
```
Output:  

```
{
    "responsePlanSummaries": [
        {
            "arn": "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan",
            "displayName": "Example response plan",
            "name": "Example-Response-Plan"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Persiapan insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/incident-response.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListResponsePlans](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/list-response-plans.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="ssm-incidents_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag untuk rencana respons**  
`list-tags-for-resource`Contoh berikut mencantumkan tag yang terkait dengan rencana respons yang ditentukan.  

```
aws ssm-incidents list-tags-for-resource \
    --resource-arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan"
```
Output:  

```
{
    "tags": {
    "group1": "1"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/incident-manager/latest/userguide/tagging.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-timeline-events`
<a name="ssm-incidents_ListTimelineEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-timeline-events`.

**AWS CLI**  
**Untuk membuat daftar peristiwa timeline dari suatu insiden**  
`command-name`Contoh berikut mencantumkan peristiwa timeline dari insiden yang ditentukan.  

```
aws ssm-incidents list-timeline-events \
    --incident-record-arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
```
Output:  

```
{
    "eventSummaries": [
        {
            "eventId": "8cbcc889-35e1-a42d-2429-d6f100799915",
            "eventTime": "2021-05-21T22:36:13.766000+00:00",
            "eventType": "SSM Incident Record Update",
            "eventUpdatedTime": "2021-05-21T22:36:13.766000+00:00",
            "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
        },
        {
            "eventId": "a2bcc825-aab5-1787-c605-f9bb2640d85b",
            "eventTime": "2021-05-21T18:58:46.443000+00:00",
            "eventType": "SSM Incident Record Update",
            "eventUpdatedTime": "2021-05-21T18:58:46.443000+00:00",
            "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
        },
        {
            "eventId": "5abcc812-89c0-b0a8-9437-1c74223d4685",
            "eventTime": "2021-05-21T18:16:59.149000+00:00",
            "eventType": "SSM Incident Record Update",
            "eventUpdatedTime": "2021-05-21T18:16:59.149000+00:00",
            "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
        },
        {
            "eventId": "06bcc812-8820-405e-4065-8d2b14d29b92",
            "eventTime": "2021-05-21T18:16:58+00:00",
            "eventType": "SSM Automation Execution Start Failure for Incident",
            "eventUpdatedTime": "2021-05-21T18:16:58.689000+00:00",
            "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
        },
        {
            "eventId": "20bcc812-8a94-4cd7-520c-0ff742111424",
            "eventTime": "2021-05-21T18:16:57+00:00",
            "eventType": "Custom Event",
            "eventUpdatedTime": "2021-05-21T18:16:59.944000+00:00",
            "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
        },
        {
            "eventId": "c0bcc885-a41d-eb01-b4ab-9d2de193643c",
            "eventTime": "2020-10-01T20:30:00+00:00",
            "eventType": "Custom Event",
            "eventUpdatedTime": "2021-05-21T22:28:26.299000+00:00",
            "incidentRecordArn": "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListTimelineEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/list-timeline-events.html)di *Referensi AWS CLI Perintah*. 

### `put-resource-policy`
<a name="ssm-incidents_PutResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-resource-policy`.

**AWS CLI**  
**Untuk berbagi rencana respons dan insiden**  
`command-name`Contoh berikut menambahkan kebijakan sumber daya untuk Example-Response-Plan yang berbagi rencana respons dan insiden terkait dengan prinsipal yang ditentukan.  

```
aws ssm-incidents put-resource-policy \
    --resource-arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan" \
    --policy "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"ExampleResourcePolciy\",\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::222233334444:root\"},\"Action\":[\"ssm-incidents:GetResponsePlan\",\"ssm-incidents:StartIncident\",\"ssm-incidents:UpdateIncidentRecord\",\"ssm-incidents:GetIncidentRecord\",\"ssm-incidents:CreateTimelineEvent\",\"ssm-incidents:UpdateTimelineEvent\",\"ssm-incidents:GetTimelineEvent\",\"ssm-incidents:ListTimelineEvents\",\"ssm-incidents:UpdateRelatedItems\",\"ssm-incidents:ListRelatedItems\"],\"Resource\":[\"arn:aws:ssm-incidents:*:111122223333:response-plan/Example-Response-Plan\",\"arn:aws:ssm-incidents:*:111122223333:incident-record/Example-Response-Plan/*\"]}]}"
```
Output:  

```
{
    "policyId": "be8b57191f0371f1c6827341aa3f0a03"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan kontak bersama dan rencana respons](https://docs.aws.amazon.com/incident-manager/latest/userguide/sharing.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [PutResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/put-resource-policy.html)di *Referensi AWS CLI Perintah*. 

### `start-incident`
<a name="ssm-incidents_StartIncident_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-incident`.

**AWS CLI**  
**Untuk memulai sebuah insiden**  
`start-incident`Contoh berikut memulai insiden menggunakan rencana respons yang ditentukan.  

```
aws ssm-incidents start-incident \
    --response-plan-arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan"
```
Output:  

```
{
    "incidentRecordArn": "arn:aws:ssm-incidents::682428703967:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308"
}
```
Untuk informasi selengkapnya, lihat [Pembuatan insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/incident-creation.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [StartIncident](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/start-incident.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="ssm-incidents_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai rencana respons**  
`tag-resource`Contoh berikut menandai rencana respons tertentu dengan pasangan nilai kunci tag yang disediakan.  

```
aws ssm-incidents tag-resource \
    --resource-arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan" \
    --tags '{"group1":"1"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/incident-manager/latest/userguide/tagging.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="ssm-incidents_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari rencana respons**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan dari rencana respons.  

```
aws ssm-incidents untag-resource \
    --resource-arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan" \
    --tag-keys '["group1"]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/incident-manager/latest/userguide/tagging.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-deletion-protection`
<a name="ssm-incidents_UpdateDeletionProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-deletion-protection`.

**AWS CLI**  
**Untuk memperbarui replikasi set perlindungan penghapusan**  
`update-deletion-protection`Contoh berikut memperbarui perlindungan penghapusan di akun Anda untuk melindungi Anda dari menghapus Wilayah terakhir dalam kumpulan replikasi Anda.  

```
aws ssm-incidents update-deletion-protection \
    --arn "arn:aws:ssm-incidents::111122223333:replication-set/a2bcc5c9-0f53-8047-7fef-c20749989b40" \
    --deletion-protected
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan replikasi Manajer Insiden yang diatur](https://docs.aws.amazon.com/incident-manager/latest/userguide/replication.html) dalam *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UpdateDeletionProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/update-deletion-protection.html)di *Referensi AWS CLI Perintah*. 

### `update-incident-record`
<a name="ssm-incidents_UpdateIncidentRecord_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-incident-record`.

**AWS CLI**  
**Untuk memperbarui catatan insiden**  
`command-name`Contoh berikut menyelesaikan insiden yang ditentukan.  

```
aws ssm-incidents update-incident-record \
    --arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308" \
    --status "RESOLVED"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UpdateIncidentRecord](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/update-incident-record.html)di *Referensi AWS CLI Perintah*. 

### `update-related-items`
<a name="ssm-incidents_UpdateRelatedItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-related-items`.

**AWS CLI**  
**Untuk memperbarui item terkait insiden**  
`update-related-item`Contoh berikut menghapus item terkait dari catatan insiden yang ditentukan.  

```
aws ssm-incidents update-related-items \
    --incident-record-arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308" \
    --related-items-update '{"itemToRemove": {"type": "OTHER", "value": {"url": "https://console.aws.amazon.com/systems-manager/opsitems/oi-8ef82158e190/workbench?region=us-east-1"}}}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UpdateRelatedItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/update-related-items.html)di *Referensi AWS CLI Perintah*. 

### `update-replication-set`
<a name="ssm-incidents_UpdateReplicationSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-replication-set`.

**AWS CLI**  
**Untuk memperbarui set replikasi**  
`command-name`Contoh berikut menghapus Wilayah us-east-2 dari set replikasi.  

```
aws ssm-incidents update-replication-set \
    --arn "arn:aws:ssm-incidents::111122223333:replication-set/a2bcc5c9-0f53-8047-7fef-c20749989b40" \
    --actions '[{"deleteRegionAction": {"regionName": "us-east-2"}}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan replikasi Manajer Insiden yang diatur](https://docs.aws.amazon.com/incident-manager/latest/userguide/replication.html) dalam *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UpdateReplicationSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/update-replication-set.html)di *Referensi AWS CLI Perintah*. 

### `update-response-plan`
<a name="ssm-incidents_UpdateResponsePlan_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-response-plan`.

**AWS CLI**  
**Untuk memperbarui rencana respons**  
`update-response-plan`Contoh berikut menghapus saluran obrolan dari rencana respons yang ditentukan.  

```
aws ssm-incidents update-response-plan \
    --arn "arn:aws:ssm-incidents::111122223333:response-plan/Example-Response-Plan" \
    --chat-channel '{"empty":{}}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Persiapan insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/incident-response.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UpdateResponsePlan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/update-response-plan.html)di *Referensi AWS CLI Perintah*. 

### `update-timeline-event`
<a name="ssm-incidents_UpdateTimelineEvent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-timeline-event`.

**AWS CLI**  
**Untuk memperbarui acara timeline**  
`update-timeline-event`Contoh berikut memperbarui waktu peristiwa itu terjadi.  

```
aws ssm-incidents update-timeline-event \
    --event-id 20bcc812-8a94-4cd7-520c-0ff742111424 \
    --incident-record-arn "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/6ebcc812-85f5-b7eb-8b2f-283e4d844308" \
    --event-time "2021-05-21T18:10:57+00:00"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Detail insiden](https://docs.aws.amazon.com/incident-manager/latest/userguide/tracking-details.html) *di Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UpdateTimelineEvent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-incidents/update-timeline-event.html)di *Referensi AWS CLI Perintah*. 

# Contoh Kontak Manajer Insiden menggunakan AWS CLI
<a name="cli_2_ssm-contacts_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Kontak Manajer Insiden AWS Command Line Interface dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-page`
<a name="ssm-contacts_AcceptPage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-page`.

**AWS CLI**  
**Untuk menerima halaman selama dan keterlibatan**  
`accept-page`Contoh berikut menggunakan kode terima yang dikirim ke saluran kontak untuk menerima halaman.  

```
aws ssm-contacts accept-page \
    --page-id "arn:aws:ssm-contacts:us-east-2:682428703967:page/akuam/94ea0c7b-56d9-46c3-b84a-a37c8b067ad3" \
    --accept-type READ \
    --accept-code 425440
```
Perintah ini tidak menghasilkan output  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [AcceptPage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/accept-page.html)di *Referensi AWS CLI Perintah*. 

### `activate-contact-channel`
<a name="ssm-contacts_ActivateContactChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`activate-contact-channel`.

**AWS CLI**  
**Aktifkan saluran kontak kontak**  
`activate-contact-channel`Contoh berikut mengaktifkan saluran kontak dan membuatnya dapat digunakan sebagai bagian dari insiden.  

```
aws ssm-contacts activate-contact-channel \
    --contact-channel-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/fc7405c4-46b2-48b7-87b2-93e2f225b90d" \
    --activation-code "466136"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ActivateContactChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/activate-contact-channel.html)di *Referensi AWS CLI Perintah*. 

### `command-name`
<a name="ssm-contacts_CommandName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`command-name`.

**AWS CLI**  
**Untuk menghapus kontak**  
`command-name`Contoh berikut menghapus kontak. Kontak tidak lagi dapat dijangkau dari rencana eskalasi apa pun yang merujuk pada mereka.  

```
aws ssm-contacts delete-contact \
    --contact-id "arn:aws:ssm-contacts:us-east-1:682428703967:contact/alejr"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [CommandName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/command-name.html)di *Referensi AWS CLI Perintah*. 

### `create-contact-channel`
<a name="ssm-contacts_CreateContactChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-contact-channel`.

**AWS CLI**  
**Untuk membuat saluran kontak**  
Membuat saluran kontak jenis SMS untuk kontak Akua Mansa. Saluran kontak dapat dibuat dari jenis SMS, EMAIL, atau VOICE.  

```
aws ssm-contacts create-contact-channel \
    --contact-id "arn:aws:ssm-contacts:us-east-1:111122223333:contact/akuam" \
    --name "akuas sms-test" \
    --type SMS \
    --delivery-address '{"SimpleAddress": "+15005550199"}'
```
Output:  

```
{
    "ContactChannelArn": "arn:aws:ssm-contacts:us-east-1:111122223333:contact-channel/akuam/02f506b9-ea5d-4764-af89-2daa793ff024"
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [CreateContactChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/create-contact-channel.html)di *Referensi AWS CLI Perintah*. 

### `create-contact`
<a name="ssm-contacts_CreateContact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-contact`.

**AWS CLI**  
**Untuk membuat kontak**  
`create-contact`Contoh berikut membuat kontak di lingkungan Anda dengan rencana kosong. Paket dapat diperbarui setelah membuat saluran kontak. Gunakan create-contact-channel perintah dengan output ARN dari perintah ini. Setelah Anda membuat saluran kontak untuk kontak ini, gunakan pembaruan-kontak untuk memperbarui paket.  

```
aws ssm-contacts create-contact \
    --alias "akuam" \
    --display-name "Akua Mansa" \
    --type PERSONAL \
    --plan '{"Stages": []}'
```
Output:  

```
{
    "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam"
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [CreateContact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/create-contact.html)di *Referensi AWS CLI Perintah*. 

### `deactivate-contact-channel`
<a name="ssm-contacts_DeactivateContactChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deactivate-contact-channel`.

**AWS CLI**  
**Untuk menonaktifkan saluran kontak**  
`deactivate-contact-channel`Contoh berikut menonaktifkan saluran kontak. Menonaktifkan saluran kontak berarti saluran kontak tidak akan lagi dipaging selama insiden terjadi. Anda juga dapat mengaktifkan kembali saluran kontak kapan saja menggunakan `activate-contact-channel` perintah.  

```
aws ssm-contacts deactivate-contact-channel \
    --contact-channel-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/fc7405c4-46b2-48b7-87b2-93e2f225b90d"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DeactivateContactChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/deactivate-contact-channel.html)di *Referensi AWS CLI Perintah*. 

### `delete-contact-channel`
<a name="ssm-contacts_DeleteContactChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-contact-channel`.

**AWS CLI**  
**Untuk menghapus saluran kontak**  
`delete-contact-channel`Contoh berikut menghapus saluran kontak. Menghapus saluran kontak memastikan saluran kontak tidak akan diberi halaman selama insiden terjadi.  

```
aws ssm-contacts delete-contact-channel \
    --contact-channel-id "arn:aws:ssm-contacts:us-east-1:111122223333:contact-channel/akuam/13149bad-52ee-45ea-ae1e-45857f78f9b2"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DeleteContactChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/delete-contact-channel.html)di *Referensi AWS CLI Perintah*. 

### `delete-contact`
<a name="ssm-contacts_DeleteContact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-contact`.

**AWS CLI**  
**Untuk menghapus kontak**  
`delete-contact`Contoh berikut menghapus kontak. Kontak tidak lagi dapat dijangkau dari rencana eskalasi apa pun yang merujuk pada mereka.  

```
aws ssm-contacts delete-contact \
    --contact-id "arn:aws:ssm-contacts:us-east-1:111122223333:contact/alejr"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DeleteContact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/delete-contact.html)di *Referensi AWS CLI Perintah*. 

### `describe-engagement`
<a name="ssm-contacts_DescribeEngagement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-engagement`.

**AWS CLI**  
**Untuk menjelaskan detail pertunangan**  
`describe-engagement`Contoh berikut mencantumkan rincian keterlibatan ke kontak atau rencana eskalasi. Subjek dan konten dikirim ke saluran kontak.  

```
aws ssm-contacts describe-engagement \
    --engagement-id "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/example_escalation/69e40ce1-8dbb-4d57-8962-5fbe7fc53356"
```
Output:  

```
{
    "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/example_escalation",
    "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/example_escalation/69e40ce1-8dbb-4d57-8962-5fbe7fc53356",
    "Sender": "cli",
    "Subject": "cli-test",
    "Content": "Testing engagements via CLI",
    "PublicSubject": "cli-test",
    "PublicContent": "Testing engagements va CLI",
    "StartTime": "2021-05-18T18:25:41.151000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DescribeEngagement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/describe-engagement.html)di *Referensi AWS CLI Perintah*. 

### `describe-page`
<a name="ssm-contacts_DescribePage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-page`.

**AWS CLI**  
**Untuk mencantumkan detail halaman ke saluran kontak**  
`describe-page`Contoh berikut mencantumkan detail halaman ke saluran kontak. Halaman akan mencakup subjek dan konten yang disediakan.  

```
aws ssm-contacts describe-page \
    --page-id "arn:aws:ssm-contacts:us-east-2:111122223333:page/akuam/ad0052bd-e606-498a-861b-25726292eb93"
```
Output:  

```
{
    "PageArn": "arn:aws:ssm-contacts:us-east-2:111122223333:page/akuam/ad0052bd-e606-498a-861b-25726292eb93",
    "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/akuam/78a29753-3674-4ac5-9f83-0468563567f0",
    "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
    "Sender": "cli",
    "Subject": "cli-test",
    "Content": "Testing engagements via CLI",
    "PublicSubject": "cli-test",
    "PublicContent": "Testing engagements va CLI",
    "SentTime": "2021-05-18T18:43:29.301000+00:00",
    "ReadTime": "2021-05-18T18:43:55.708000+00:00",
    "DeliveryTime": "2021-05-18T18:43:55.265000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [DescribePage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/describe-page.html)di *Referensi AWS CLI Perintah*. 

### `get-contact-channel`
<a name="ssm-contacts_GetContactChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-contact-channel`.

**AWS CLI**  
**Untuk mencantumkan rincian saluran kontak**  
`get-contact-channel`Contoh berikut mencantumkan rincian saluran kontak.  

```
aws ssm-contacts get-contact-channel \
    --contact-channel-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/fc7405c4-46b2-48b7-87b2-93e2f225b90d"
```
Output:  

```
{
    "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
    "ContactChannelArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/fc7405c4-46b2-48b7-87b2-93e2f225b90d",
    "Name": "akuas sms",
    "Type": "SMS",
    "DeliveryAddress": {
        "SimpleAddress": "+15005550199"
    },
    "ActivationStatus": "ACTIVATED"
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [GetContactChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/get-contact-channel.html)di *Referensi AWS CLI Perintah*. 

### `get-contact-policy`
<a name="ssm-contacts_GetContactPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-contact-policy`.

**AWS CLI**  
**Untuk membuat daftar kebijakan sumber daya kontak**  
`get-contact-policy`Contoh berikut mencantumkan kebijakan sumber daya yang terkait dengan kontak yang ditentukan.  

```
aws ssm-contacts get-contact-policy \
    --contact-arn "arn:aws:ssm-contacts:us-east-1:111122223333:contact/akuam"
```
Output:  

```
{
    "ContactArn": "arn:aws:ssm-contacts:us-east-1:111122223333:contact/akuam",
    "Policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"SharePolicyForDocumentationDralia\",\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"222233334444\"},\"Action\":[\"ssm-contacts:GetContact\",\"ssm-contacts:StartEngagement\",\"ssm-contacts:DescribeEngagement\",\"ssm-contacts:ListPagesByEngagement\",\"ssm-contacts:StopEngagement\"],\"Resource\":[\"arn:aws:ssm-contacts:*:111122223333:contact/akuam\",\"arn:aws:ssm-contacts:*:111122223333:engagement/akuam/*\"]}]}"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan kontak bersama dan rencana respons](https://docs.aws.amazon.com/incident-manager/latest/userguide/sharing.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [GetContactPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/get-contact-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-contact`
<a name="ssm-contacts_GetContact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-contact`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan rencana kontak**  
`get-contact`Contoh berikut menjelaskan kontak.  

```
aws ssm-contacts get-contact \
    --contact-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam"
```
Output:  

```
{
    "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
    "Alias": "akuam",
    "DisplayName": "Akua Mansa",
    "Type": "PERSONAL",
    "Plan": {
        "Stages": [
            {
                "DurationInMinutes": 5,
                "Targets": [
                    {
                        "ChannelTargetInfo": {
                            "ContactChannelId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/beb25840-5ac8-4644-95cc-7a8de390fa65",
                            "RetryIntervalInMinutes": 1
                        }
                    }
                ]
            },
            {
                "DurationInMinutes": 5,
                "Targets": [
                    {
                        "ChannelTargetInfo": {
                            "ContactChannelId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/49f3c24d-5f9f-4638-ae25-3f49e04229ad",
                            "RetryIntervalInMinutes": 1
                        }
                    }
                ]
            },
            {
                "DurationInMinutes": 5,
                "Targets": [
                    {
                        "ChannelTargetInfo": {
                            "ContactChannelId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/77d4f447-f619-4954-afff-85551e369c2a",
                            "RetryIntervalInMinutes": 1
                        }
                    }
                ]
            }
        ]
    }
}
```
**Contoh 2: Untuk menggambarkan rencana eskalasi**  
`get-contact`Contoh berikut menjelaskan rencana eskalasi.  

```
aws ssm-contacts get-contact \
--contact-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact/example_escalation"
```
Output:  

```
{
    "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/example_escalation",
    "Alias": "example_escalation",
    "DisplayName": "Example Escalation",
    "Type": "ESCALATION",
    "Plan": {
        "Stages": [
            {
                "DurationInMinutes": 5,
                "Targets": [
                    {
                        "ContactTargetInfo": {
                            "ContactId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
                            "IsEssential": true
                        }
                    }
                ]
            },
            {
                "DurationInMinutes": 5,
                "Targets": [
                    {
                        "ContactTargetInfo": {
                            "ContactId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/alejr",
                            "IsEssential": false
                        }
                    }
                ]
            },
            {
                "DurationInMinutes": 0,
                "Targets": [
                    {
                        "ContactTargetInfo": {
                            "ContactId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/anasi",
                            "IsEssential": false
                        }
                    }
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [GetContact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/get-contact.html)di *Referensi AWS CLI Perintah*. 

### `list-contact-channels`
<a name="ssm-contacts_ListContactChannels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-contact-channels`.

**AWS CLI**  
**Untuk membuat daftar saluran kontak kontak kontak**  
`list-contact-channels`Contoh berikut mencantumkan saluran kontak yang tersedia dari kontak yang ditentukan.  

```
aws ssm-contacts list-contact-channels \
    --contact-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam"
```
Output:  

```
{
    [
        {
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
            "Name": "akuas email",
            "Type": "EMAIL",
            "DeliveryAddress": {
                "SimpleAddress": "akuam@example.com"
            },
            "ActivationStatus": "NOT_ACTIVATED"
        },
        {
            "ContactChannelArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/fc7405c4-46b2-48b7-87b2-93e2f225b90d",
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
            "Name": "akuas sms",
            "Type": "SMS",
            "DeliveryAddress": {
                "SimpleAddress": "+15005550100"
            },
            "ActivationStatus": "ACTIVATED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListContactChannels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/list-contact-channels.html)di *Referensi AWS CLI Perintah*. 

### `list-contacts`
<a name="ssm-contacts_ListContacts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-contacts`.

**AWS CLI**  
**Untuk membuat daftar semua rencana eskalasi dan kontak**  
`list-contacts`Contoh berikut mencantumkan kontak dan rencana eskalasi di akun Anda.  

```
aws ssm-contacts list-contacts
```
Output:  

```
{
    "Contacts": [
        {
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
            "Alias": "akuam",
            "DisplayName": "Akua Mansa",
            "Type": "PERSONAL"
        },
        {
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/alejr",
            "Alias": "alejr",
            "DisplayName": "Alejandro Rosalez",
            "Type": "PERSONAL"
        },
        {
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/anasi",
            "Alias": "anasi",
            "DisplayName": "Ana Carolina Silva",
            "Type": "PERSONAL"
        },
        {
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/example_escalation",
            "Alias": "example_escalation",
            "DisplayName": "Example Escalation",
            "Type": "ESCALATION"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListContacts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/list-contacts.html)di *Referensi AWS CLI Perintah*. 

### `list-engagements`
<a name="ssm-contacts_ListEngagements_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-engagements`.

**AWS CLI**  
**Untuk membuat daftar semua keterlibatan**  
`list-engagements`Contoh berikut mencantumkan keterlibatan untuk rencana eskalasi dan kontak. Anda juga dapat membuat daftar keterlibatan untuk satu insiden.  

```
aws ssm-contacts list-engagements
```
Output:  

```
{
    "Engagements": [
        {
            "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/akuam/91792571-0b53-4821-9f73-d25d13d9e529",
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
            "Sender": "cli",
            "StartTime": "2021-05-18T20:37:50.300000+00:00"
        },
        {
            "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/akuam/78a29753-3674-4ac5-9f83-0468563567f0",
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
            "Sender": "cli",
            "StartTime": "2021-05-18T18:40:26.666000+00:00"
        },
        {
            "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/example_escalation/69e40ce1-8dbb-4d57-8962-5fbe7fc53356",
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/example_escalation",
            "Sender": "cli",
            "StartTime": "2021-05-18T18:25:41.151000+00:00"
        },
        {
            "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/akuam/607ced0e-e8fa-4ea7-8958-a237b8803f8f",
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
            "Sender": "cli",
            "StartTime": "2021-05-18T18:20:58.093000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListEngagements](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/list-engagements.html)di *Referensi AWS CLI Perintah*. 

### `list-page-receipts`
<a name="ssm-contacts_ListPageReceipts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-page-receipts`.

**AWS CLI**  
**Untuk membuat daftar tanda terima halaman**  
`command-name`Contoh berikut mencantumkan apakah halaman diterima atau tidak oleh kontak.  

```
aws ssm-contacts list-page-receipts \
    --page-id "arn:aws:ssm-contacts:us-east-2:111122223333:page/akuam/94ea0c7b-56d9-46c3-b84a-a37c8b067ad3"
```
Output:  

```
{
    "Receipts": [
        {
            "ContactChannelArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/fc7405c4-46b2-48b7-87b2-93e2f225b90d",
            "ReceiptType": "DELIVERED",
            "ReceiptInfo": "425440",
            "ReceiptTime": "2021-05-18T20:42:57.485000+00:00"
        },
        {
            "ContactChannelArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/fc7405c4-46b2-48b7-87b2-93e2f225b90d",
            "ReceiptType": "READ",
            "ReceiptInfo": "425440",
            "ReceiptTime": "2021-05-18T20:42:57.907000+00:00"
        },
        {
            "ContactChannelArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/fc7405c4-46b2-48b7-87b2-93e2f225b90d",
            "ReceiptType": "SENT",
            "ReceiptInfo": "SM6656c19132f1465f9c9c1123a5dde7c9",
            "ReceiptTime": "2021-05-18T20:40:52.962000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListPageReceipts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/list-page-receipts.html)di *Referensi AWS CLI Perintah*. 

### `list-pages-by-contact`
<a name="ssm-contacts_ListPagesByContact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pages-by-contact`.

**AWS CLI**  
**Untuk daftar halaman dengan kontak**  
`list-pages-by-contact`Contoh berikut mencantumkan semua halaman ke kontak yang ditentukan.  

```
aws ssm-contacts list-pages-by-contact \
    --contact-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam"
```
Output:  

```
{
    "Pages": [
        {
            "PageArn": "arn:aws:ssm-contacts:us-east-2:111122223333:page/akuam/ad0052bd-e606-498a-861b-25726292eb93",
            "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/akuam/78a29753-3674-4ac5-9f83-0468563567f0",
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
            "Sender": "cli",
            "SentTime": "2021-05-18T18:43:29.301000+00:00",
            "DeliveryTime": "2021-05-18T18:43:55.265000+00:00",
            "ReadTime": "2021-05-18T18:43:55.708000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListPagesByContact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/list-pages-by-contact.html)di *Referensi AWS CLI Perintah*. 

### `list-pages-by-engagement`
<a name="ssm-contacts_ListPagesByEngagement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pages-by-engagement`.

**AWS CLI**  
**Untuk daftar halaman untuk menghubungi saluran dimulai dari keterlibatan.**  
`list-pages-by-engagement`Contoh berikut mencantumkan halaman yang terjadi saat melibatkan rencana keterlibatan yang ditentukan.  

```
aws ssm-contacts list-pages-by-engagement \
    --engagement-id "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/akuam/78a29753-3674-4ac5-9f83-0468563567f0"
```
Output:  

```
{
    "Pages": [
        {
            "PageArn": "arn:aws:ssm-contacts:us-east-2:111122223333:page/akuam/ad0052bd-e606-498a-861b-25726292eb93",
            "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/akuam/78a29753-3674-4ac5-9f83-0468563567f0",
            "ContactArn": "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam",
            "Sender": "cli",
            "SentTime": "2021-05-18T18:40:27.245000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListPagesByEngagement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/list-pages-by-engagement.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="ssm-contacts_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag untuk kontak**  
`list-tags-for-resource`Contoh berikut mencantumkan tag kontak yang ditentukan.  

```
aws ssm-contacts list-tags-for-resource \
    --resource-arn "arn:aws:ssm-contacts:us-east-1:111122223333:contact/akuam"
```
Output:  

```
{
    "Tags": [
        {
            "Key": "group1",
            "Value": "1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/incident-manager/latest/userguide/tagging.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-contact-policy`
<a name="ssm-contacts_PutContactPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-contact-policy`.

**AWS CLI**  
**Untuk berbagi kontak dan keterlibatan**  
`put-contact-policy`Contoh berikut menambahkan kebijakan sumber daya ke kontak Akua yang berbagi kontak dan keterlibatan terkait dengan kepala sekolah.  

```
aws ssm-contacts put-contact-policy \
    --contact-arn "arn:aws:ssm-contacts:us-east-1:111122223333:contact/akuam" \
    --policy "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"ExampleResourcePolicy\",\"Action\":[\"ssm-contacts:GetContact\",\"ssm-contacts:StartEngagement\",\"ssm-contacts:DescribeEngagement\",\"ssm-contacts:ListPagesByEngagement\",\"ssm-contacts:StopEngagement\"],\"Principal\":{\"AWS\":\"222233334444\"},\"Effect\":\"Allow\",\"Resource\":[\"arn:aws:ssm-contacts:*:111122223333:contact\/akuam\",\"arn:aws:ssm-contacts:*:111122223333:engagement\/akuam\/*\"]}]}"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan kontak bersama dan rencana respons](https://docs.aws.amazon.com/incident-manager/latest/userguide/sharing.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [PutContactPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/put-contact-policy.html)di *Referensi AWS CLI Perintah*. 

### `send-activation-code`
<a name="ssm-contacts_SendActivationCode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-activation-code`.

**AWS CLI**  
**Untuk mengirim kode aktivasi**  
`send-activation-code`Contoh berikut mengirimkan kode aktivasi dan pesan ke saluran kontak yang ditentukan.  

```
aws ssm-contacts send-activation-code \
    --contact-channel-id "arn:aws:ssm-contacts:us-east-1:111122223333:contact-channel/akuam/8ddae2d1-12c8-4e45-b852-c8587266c400"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [SendActivationCode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/send-activation-code.html)di *Referensi AWS CLI Perintah*. 

### `start-engagement`
<a name="ssm-contacts_StartEngagement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-engagement`.

**AWS CLI**  
**Contoh 1: Untuk halaman saluran kontak kontak**  
`start-engagement`Halaman-halaman berikut menghubungi saluran kontak. Pengirim, subjek, subjek publik, dan konten publik semuanya bebas dari bidang. Manajer Insiden mengirimkan subjek dan konten ke saluran kontak VOICE atau EMAIL yang disediakan. Manajer Insiden mengirimkan subjek publik dan konten publik ke saluran kontak SMS yang disediakan. Pengirim digunakan untuk melacak siapa yang memulai keterlibatan.  

```
aws ssm-contacts start-engagement \
    --contact-id  "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam" \
    --sender "cli" \
    --subject "cli-test" \
    --content "Testing engagements via CLI" \
    --public-subject "cli-test" \
    --public-content "Testing engagements va CLI"
```
Output:  

```
{
    "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/akuam/607ced0e-e8fa-4ea7-8958-a237b8803f8f"
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
**Contoh 2: Untuk halaman kontak dalam rencana eskalasi yang disediakan.**  
Berikut ini `start-engagement` melibatkan kontak melalui rencana eskalasi. Setiap kontak diberi halaman sesuai dengan rencana pertunangan mereka.  

```
aws ssm-contacts start-engagement \
    --contact-id  "arn:aws:ssm-contacts:us-east-2:111122223333:contact/example_escalation" \
    --sender "cli" \
    --subject "cli-test" \
    --content "Testing engagements via CLI" \
    --public-subject "cli-test" \
    --public-content "Testing engagements va CLI"
```
Output:  

```
{
    "EngagementArn": "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/example_escalation/69e40ce1-8dbb-4d57-8962-5fbe7fc53356"
}
```
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [StartEngagement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/start-engagement.html)di *Referensi AWS CLI Perintah*. 

### `stop-engagement`
<a name="ssm-contacts_StopEngagement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-engagement`.

**AWS CLI**  
**Untuk menghentikan pertunangan**  
`stop-engagement`Contoh berikut menghentikan keterlibatan dari paging kontak lebih lanjut dan saluran kontak.  

```
aws ssm-contacts stop-engagement \
    --engagement-id "arn:aws:ssm-contacts:us-east-2:111122223333:engagement/example_escalation/69e40ce1-8dbb-4d57-8962-5fbe7fc53356"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [StopEngagement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/stop-engagement.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="ssm-contacts_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai kontak**  
`tag-resource`Contoh berikut menandai kontak tertentu dengan pasangan nilai kunci tag yang disediakan.  

```
aws ssm-contacts tag-resource \
    --resource-arn "arn:aws:ssm-contacts:us-east-1:111122223333:contact/akuam" \
    --tags '[{"Key":"group1","Value":"1"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/incident-manager/latest/userguide/tagging.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="ssm-contacts_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari kontak**  
`untag-resource`Contoh berikut menghapus tag group1 dari kontak yang ditentukan.  

```
aws ssm-contacts untag-resource \
    --resource-arn "arn:aws:ssm-contacts:us-east-1:111122223333:contact/akuam" \
    --tag-keys "group1"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/incident-manager/latest/userguide/tagging.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-contact-channel`
<a name="ssm-contacts_UpdateContactChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-contact-channel`.

**AWS CLI**  
**Untuk memperbarui saluran kontak**  
`update-contact-channel`Contoh berikut memperbarui nama dan alamat pengiriman saluran kontak.  

```
aws ssm-contacts update-contact-channel \
    --contact-channel-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/49f3c24d-5f9f-4638-ae25-3f49e04229ad" \
    --name "akuas voice channel" \
    --delivery-address '{"SimpleAddress": "+15005550198"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UpdateContactChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/update-contact-channel.html)di *Referensi AWS CLI Perintah*. 

### `update-contact`
<a name="ssm-contacts_UpdateContact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-contact`.

**AWS CLI**  
**Untuk memperbarui rencana keterlibatan kontak**  
`update-contact`Contoh berikut memperbarui rencana keterlibatan kontak Akua untuk menyertakan tiga jenis saluran kontak. Ini dilakukan setelah membuat saluran kontak untuk Akua.  

```
aws ssm-contacts update-contact \
    --contact-id "arn:aws:ssm-contacts:us-east-2:111122223333:contact/akuam" \
    --plan '{"Stages": [{"DurationInMinutes": 5, "Targets": [{"ChannelTargetInfo": {"ContactChannelId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/beb25840-5ac8-4644-95cc-7a8de390fa65","RetryIntervalInMinutes": 1 }}]}, {"DurationInMinutes": 5, "Targets": [{"ChannelTargetInfo":{"ContactChannelId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/49f3c24d-5f9f-4638-ae25-3f49e04229ad", "RetryIntervalInMinutes": 1}}]}, {"DurationInMinutes": 5, "Targets": [{"ChannelTargetInfo": {"ContactChannelId": "arn:aws:ssm-contacts:us-east-2:111122223333:contact-channel/akuam/77d4f447-f619-4954-afff-85551e369c2a","RetryIntervalInMinutes": 1 }}]}]}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kontak](https://docs.aws.amazon.com/incident-manager/latest/userguide/contacts.html) di *Panduan Pengguna Manajer Insiden*.  
+  Untuk detail API, lihat [UpdateContact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm-contacts/update-contact.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Inspector menggunakan AWS CLI
<a name="cli_2_inspector2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan AWS Command Line Interface with Amazon Inspector.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-attributes-to-findings`
<a name="inspector_AddAttributesToFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-attributes-to-findings`.

**AWS CLI**  
**Untuk menambahkan atribut ke temuan**  
`add-attribute-to-finding`Perintah berikut memberikan atribut dengan kunci `Example` dan nilai `example` untuk temuan dengan `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-8l1VIE0D/run/0-Z02cjjug/finding/0-T8yM9mEU` ARN dari:  

```
aws inspector add-attributes-to-findings --finding-arns arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-8l1VIE0D/run/0-Z02cjjug/finding/0-T8yM9mEU --attributes key=Example,value=example
```
Output:  

```
{
    "failedItems": {}
}
```
Untuk informasi selengkapnya, lihat Temuan Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [AddAttributesToFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/add-attributes-to-findings.html)di *Referensi AWS CLI Perintah*. 

### `associate-member`
<a name="inspector2_AssociateMember_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-member`.

**AWS CLI**  
**Contoh: Untuk mengaitkan AWS akun dengan administrator yang didelegasikan Amazon Inspector**  
`associate-member`Contoh berikut mengaitkan AWS akun dengan administrator delegasi Amazon Inspector.  

```
aws inspector2 associate-member \
    --account-id 123456789012
```
Output:  

```
{
    "accountId": "123456789012"
}
```
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun di Amazon Inspector with AWS Organizations](https://docs.aws.amazon.com/inspector/latest/user/managing-multiple-accounts.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [AssociateMember](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/associate-member.html)di *Referensi AWS CLI Perintah*. 

### `create-assessment-target`
<a name="inspector_CreateAssessmentTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-assessment-target`.

**AWS CLI**  
**Untuk membuat target penilaian**  
`create-assessment-target`Perintah berikut membuat target penilaian bernama `ExampleAssessmentTarget` menggunakan grup sumber daya dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-AB6DMKnv`  

```
aws inspector create-assessment-target --assessment-target-name ExampleAssessmentTarget --resource-group-arn arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-AB6DMKnv
```
Output:  

```
{
    "assessmentTargetArn": "arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX"
}
```
Untuk informasi selengkapnya, lihat Target Penilaian Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [CreateAssessmentTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/create-assessment-target.html)di *Referensi AWS CLI Perintah*. 

### `create-assessment-template`
<a name="inspector_CreateAssessmentTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-assessment-template`.

**AWS CLI**  
**Untuk membuat template penilaian**  
`create-assessment-template`Perintah berikut membuat template penilaian yang dipanggil `ExampleAssessmentTemplate` untuk target penilaian dengan ARN: `arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX`  

```
aws inspector create-assessment-template --assessment-target-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX --assessment-template-name ExampleAssessmentTemplate --duration-in-seconds 180 --rules-package-arns arn:aws:inspector:us-west-2:758058086616:rulespackage/0-9hgA516p --user-attributes-for-findings key=ExampleTag,value=examplevalue
```
Output:  

```
{
    "assessmentTemplateArn": "arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T"
}
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [CreateAssessmentTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/create-assessment-template.html)di *Referensi AWS CLI Perintah*. 

### `create-filter`
<a name="inspector2_CreateFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-filter`.

**AWS CLI**  
**Untuk membuat filter**  
`create-filter`Contoh berikut membuat aturan penekanan yang menghilangkan temuan tipe instans ECR.  

```
aws inspector2 create-filter \
    --name "ExampleSuppressionRuleECR" \
    --description "This suppression rule omits ECR instance type findings" \
    --action SUPPRESS \
    --filter-criteria 'resourceType=[{comparison="EQUALS", value="AWS_ECR_INSTANCE"}]'
```
Output:  

```
{
    "arn": "arn:aws:inspector2:us-west-2:123456789012:owner/o-EXAMPLE222/filter/EXAMPLE444444444"
}
```
Untuk informasi selengkapnya, lihat [Memfilter temuan Amazon Inspector](https://docs.aws.amazon.com/inspector/latest/user/findings-managing-filtering.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [CreateFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/create-filter.html)di *Referensi AWS CLI Perintah*. 

### `create-findings-report`
<a name="inspector2_CreateFindingsReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-findings-report`.

**AWS CLI**  
**Untuk membuat laporan temuan**  
`create-findings-report`Contoh berikut membuat laporan temuan.  

```
aws inspector2 create-findings-report \
    --report-format CSV \
    --s3-destination bucketName=inspector-sbom-123456789012,keyPrefix=sbom-key,kmsKeyArn=arn:aws:kms:us-west-2:123456789012:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE33333 \
    --filter-criteria '{"ecrImageRepositoryName":[{"comparison":"EQUALS","value":"debian"}]}'
```
Output:  

```
{
    "reportId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333"
}
```
Untuk informasi selengkapnya, lihat [Mengelola temuan di Amazon Inspector](https://docs.aws.amazon.com/inspector/latest/user/findings-managing.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [CreateFindingsReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/create-findings-report.html)di *Referensi AWS CLI Perintah*. 

### `create-resource-group`
<a name="inspector_CreateResourceGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource-group`.

**AWS CLI**  
**Untuk membuat grup sumber daya**  
`create-resource-group`Perintah berikut membuat grup sumber daya menggunakan kunci tag `Name` dan nilai`example`:  

```
aws inspector create-resource-group --resource-group-tags key=Name,value=example
```
Output:  

```
{
   "resourceGroupArn": "arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-AB6DMKnv"
}
```
Untuk informasi selengkapnya, lihat Target Penilaian Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [CreateResourceGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/create-resource-group.html)di *Referensi AWS CLI Perintah*. 

### `create-sbom-export`
<a name="inspector2_CreateSbomExport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-sbom-export`.

**AWS CLI**  
**Untuk membuat laporan tagihan bahan perangkat lunak (SBOM)**  
`create-sbom-export`Contoh berikut membuat laporan software bill of materials (SBOM).  

```
aws inspector2 create-sbom-export \
    --report-format SPDX_2_3 \
    --resource-filter-criteria 'ecrRepositoryName=[{comparison="EQUALS",value="debian"}]' \
    --s3-destination bucketName=inspector-sbom-123456789012,keyPrefix=sbom-key,kmsKeyArn=arn:aws:kms:us-west-2:123456789012:key/a1b2c3d4-5678-90ab-cdef-EXAMPLE33333
```
Output:  

```
{
    "reportId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333"
}
```
Untuk informasi selengkapnya, lihat [Mengekspor SBOMs dengan Amazon](https://docs.aws.amazon.com/inspector/latest/user/sbom-export.html) Inspector di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [CreateSbomExport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/create-sbom-export.html)di *Referensi AWS CLI Perintah*. 

### `delete-assessment-run`
<a name="inspector_DeleteAssessmentRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-assessment-run`.

**AWS CLI**  
**Untuk menghapus proses penilaian**  
`delete-assessment-run`Perintah berikut menghapus penilaian yang dijalankan dengan `arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T/run/0-11LMTAVe` ARN dari:  

```
aws inspector delete-assessment-run --assessment-run-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T/run/0-11LMTAVe
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DeleteAssessmentRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/delete-assessment-run.html)di *Referensi AWS CLI Perintah*. 

### `delete-assessment-target`
<a name="inspector_DeleteAssessmentTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-assessment-target`.

**AWS CLI**  
**Untuk menghapus target penilaian**  
`delete-assessment-target`Perintah berikut menghapus target penilaian dengan `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq` ARN dari:  

```
aws inspector delete-assessment-target --assessment-target-arn arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq
```
Untuk informasi selengkapnya, lihat Target Penilaian Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DeleteAssessmentTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/delete-assessment-target.html)di *Referensi AWS CLI Perintah*. 

### `delete-assessment-template`
<a name="inspector_DeleteAssessmentTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-assessment-template`.

**AWS CLI**  
**Untuk menghapus template penilaian**  
`delete-assessment-template`Perintah berikut menghapus template penilaian dengan `arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T` ARN dari:  

```
aws inspector delete-assessment-template --assessment-template-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DeleteAssessmentTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/delete-assessment-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-filter`
<a name="inspector2_DeleteFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-filter`.

**AWS CLI**  
**Untuk menghapus filter**  
`delete-filter`Contoh berikut menghapus filter.  

```
aws inspector2 delete-filter \
    --arn "arn:aws:inspector2:us-west-2:123456789012:owner/o-EXAMPLE222/filter/EXAMPLE444444444"
```
Output:  

```
{
    "arn": "arn:aws:inspector2:us-west-2:123456789012:owner/o-EXAMPLE222/filter/EXAMPLE444444444"
}
```
Untuk informasi selengkapnya, lihat [Memfilter temuan Amazon Inspector](https://docs.aws.amazon.com/inspector/latest/user/findings-managing-filtering.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [DeleteFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/delete-filter.html)di *Referensi AWS CLI Perintah*. 

### `describe-assessment-runs`
<a name="inspector_DescribeAssessmentRuns_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-assessment-runs`.

**AWS CLI**  
**Untuk menggambarkan penilaian berjalan**  
`describe-assessment-run`Perintah berikut menjelaskan penilaian yang dijalankan dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE`  

```
aws inspector describe-assessment-runs --assessment-run-arns arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE
```
Output:  

```
{
        "assessmentRuns": [
          {
                "arn": "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE",
                "assessmentTemplateArn": "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw",
                "completedAt": 1458680301.4,
                "createdAt": 1458680170.035,
                "dataCollected": true,
                "durationInSeconds": 3600,
                "name": "Run 1 for ExampleAssessmentTemplate",
                "notifications": [],
                "rulesPackageArns": [
                  "arn:aws:inspector:us-west-2:758058086616:rulespackage/0-X1KXtawP"
                ],
                "startedAt": 1458680170.161,
                "state": "COMPLETED",
                "stateChangedAt": 1458680301.4,
                "stateChanges": [
                  {
                        "state": "CREATED",
                        "stateChangedAt": 1458680170.035
                  },
                  {
                        "state": "START_DATA_COLLECTION_PENDING",
                        "stateChangedAt": 1458680170.065
                  },
                  {
                        "state": "START_DATA_COLLECTION_IN_PROGRESS",
                        "stateChangedAt": 1458680170.096
                  },
                  {
                        "state": "COLLECTING_DATA",
                        "stateChangedAt": 1458680170.161
                  },
                  {
                        "state": "STOP_DATA_COLLECTION_PENDING",
                        "stateChangedAt": 1458680239.883
                  },
                  {
                        "state": "DATA_COLLECTED",
                        "stateChangedAt": 1458680299.847
                  },
                  {
                        "state": "EVALUATING_RULES",
                        "stateChangedAt": 1458680300.099
                  },
                  {
                        "state": "COMPLETED",
                        "stateChangedAt": 1458680301.4
                  }
                ],
                "userAttributesForFindings": []
          }
        ],
        "failedItems": {}
}
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DescribeAssessmentRuns](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/describe-assessment-runs.html)di *Referensi AWS CLI Perintah*. 

### `describe-assessment-targets`
<a name="inspector_DescribeAssessmentTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-assessment-targets`.

**AWS CLI**  
**Untuk menggambarkan target penilaian**  
`describe-assessment-targets`Perintah berikut menjelaskan target penilaian dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq`  

```
aws inspector describe-assessment-targets --assessment-target-arns arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq
```
Output:  

```
{
      "assessmentTargets": [
        {
              "arn": "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq",
              "createdAt": 1458074191.459,
              "name": "ExampleAssessmentTarget",
              "resourceGroupArn": "arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-PyGXopAI",
              "updatedAt": 1458074191.459
        }
      ],
      "failedItems": {}
}
```
Untuk informasi selengkapnya, lihat Target Penilaian Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DescribeAssessmentTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/describe-assessment-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-assessment-templates`
<a name="inspector_DescribeAssessmentTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-assessment-templates`.

**AWS CLI**  
**Untuk menggambarkan templat penilaian**  
`describe-assessment-templates`Perintah berikut menjelaskan template penilaian dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw`  

```
aws inspector describe-assessment-templates --assessment-template-arns arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw
```
Output:  

```
{
      "assessmentTemplates": [
        {
              "arn": "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw",
              "assessmentTargetArn": "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq",
              "createdAt": 1458074191.844,
              "durationInSeconds": 3600,
              "name": "ExampleAssessmentTemplate",
              "rulesPackageArns": [
                "arn:aws:inspector:us-west-2:758058086616:rulespackage/0-X1KXtawP"
              ],
              "userAttributesForFindings": []
        }
      ],
      "failedItems": {}
}
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DescribeAssessmentTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/describe-assessment-templates.html)di *Referensi AWS CLI Perintah*. 

### `describe-cross-account-access-role`
<a name="inspector_DescribeCrossAccountAccessRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cross-account-access-role`.

**AWS CLI**  
**Untuk mendeskripsikan peran akses lintas akun**  
`describe-cross-account-access-role`Perintah berikut menjelaskan peran IAM yang memungkinkan Amazon Inspector mengakses AWS akun Anda:  

```
aws inspector describe-cross-account-access-role
```
Output:  

```
{
        "registeredAt": 1458069182.826,
        "roleArn": "arn:aws:iam::123456789012:role/inspector",
        "valid": true
}
```
Untuk informasi selengkapnya, lihat Menyiapkan Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DescribeCrossAccountAccessRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/describe-cross-account-access-role.html)di *Referensi AWS CLI Perintah*. 

### `describe-findings`
<a name="inspector_DescribeFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-findings`.

**AWS CLI**  
**Untuk menggambarkan temuan**  
`describe-findings`Perintah berikut menjelaskan temuan dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE/finding/0-HwPnsDm4`  

```
aws inspector describe-findings --finding-arns arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE/finding/0-HwPnsDm4
```
Output:  

```
{
      "failedItems": {},
      "findings": [
        {
              "arn": "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE/finding/0-HwPnsDm4",
              "assetAttributes": {
                "ipv4Addresses": [],
                "schemaVersion": 1
              },
              "assetType": "ec2-instance",
              "attributes": [],
              "confidence": 10,
              "createdAt": 1458680301.37,
              "description": "Amazon Inspector did not find any potential security issues during this assessment.",
              "indicatorOfCompromise": false,
              "numericSeverity": 0,
              "recommendation": "No remediation needed.",
              "schemaVersion": 1,
              "service": "Inspector",
              "serviceAttributes": {
                "assessmentRunArn": "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE",
                "rulesPackageArn": "arn:aws:inspector:us-west-2:758058086616:rulespackage/0-X1KXtawP",
                "schemaVersion": 1
              },
              "severity": "Informational",
              "title": "No potential security issues found",
              "updatedAt": 1458680301.37,
              "userAttributes": []
        }
      ]
}
```
Untuk informasi selengkapnya, lihat Temuan Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DescribeFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/describe-findings.html)di *Referensi AWS CLI Perintah*. 

### `describe-resource-groups`
<a name="inspector_DescribeResourceGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-resource-groups`.

**AWS CLI**  
**Untuk menggambarkan kelompok sumber daya**  
`describe-resource-groups`Perintah berikut menjelaskan grup sumber daya dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-PyGXopAI`  

```
aws inspector describe-resource-groups --resource-group-arns arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-PyGXopAI
```
Output:  

```
{
      "failedItems": {},
      "resourceGroups": [
        {
              "arn": "arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-PyGXopAI",
              "createdAt": 1458074191.098,
              "tags": [
                {
                      "key": "Name",
                      "value": "example"
                }
              ]
        }
      ]
}
```
Untuk informasi selengkapnya, lihat Target Penilaian Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DescribeResourceGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/describe-resource-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-rules-packages`
<a name="inspector_DescribeRulesPackages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-rules-packages`.

**AWS CLI**  
**Untuk mendeskripsikan paket aturan**  
`describe-rules-packages`Perintah berikut menjelaskan paket aturan dengan ARN dari: `arn:aws:inspector:us-west-2:758058086616:rulespackage/0-9hgA516p`  

```
aws inspector describe-rules-packages --rules-package-arns arn:aws:inspector:us-west-2:758058086616:rulespackage/0-9hgA516p
```
Output:  

```
{
      "failedItems": {},
      "rulesPackages": [
        {
              "arn": "arn:aws:inspector:us-west-2:758058086616:rulespackage/0-9hgA516p",
              "description": "The rules in this package help verify whether the EC2 instances in your application are exposed to Common Vulnerabilities and
              Exposures (CVEs). Attacks can exploit unpatched vulnerabilities to compromise the confidentiality, integrity, or availability of your service
              or data. The CVE system provides a reference for publicly known information security vulnerabilities and exposures. For more information, see
              [https://cve.mitre.org/](https://cve.mitre.org/). If a particular CVE appears in one of the produced Findings at the end of a completed
              Inspector assessment, you can search [https://cve.mitre.org/](https://cve.mitre.org/) using the CVE's ID (for example, \"CVE-2009-0021\") to
              find detailed information about this CVE, its severity, and how to mitigate it. ",
              "name": "Common Vulnerabilities and Exposures",
              "provider": "Amazon Web Services, Inc.",
              "version": "1.1"
        }
      ]
}
```
Untuk informasi selengkapnya, lihat Paket dan Aturan Amazon Inspector dalam panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [DescribeRulesPackages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/describe-rules-packages.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-member`
<a name="inspector2_DisassociateMember_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-member`.

**AWS CLI**  
**Contoh: Untuk memisahkan akun anggota dari administrator yang didelegasikan Amazon Inspector**  
`disassociate-member`Contoh berikut memisahkan AWS akun dari administrator yang didelegasikan Amazon Inspector.  

```
aws inspector2 disassociate-member \
    --account-id 123456789012
```
Output:  

```
{
    "accountId": "123456789012"
}
```
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun di Amazon Inspector with AWS Organizations](https://docs.aws.amazon.com/inspector/latest/user/managing-multiple-accounts.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [DisassociateMember](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/disassociate-member.html)di *Referensi AWS CLI Perintah*. 

### `get-configuration`
<a name="inspector2_GetConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-configuration`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi pengaturan untuk pemindaian Inspector**  
`get-configuration`Contoh berikut mendapatkan konfigurasi pengaturan untuk Inspector scan.  

```
aws inspector2 get-configuration
```
Output:  

```
{
    "ec2Configuration": {
        "scanModeState": {
            "scanMode": "EC2_HYBRID",
            "scanModeStatus": "SUCCESS"
        }
    },
    "ecrConfiguration": {
        "rescanDurationState": {
            "pullDateRescanDuration": "DAYS_90",
            "rescanDuration": "DAYS_30",
            "status": "SUCCESS",
            "updatedAt": "2024-05-14T21:16:20.237000+00:00"
        }
     }
}
```
Untuk informasi selengkapnya, lihat [Pemindaian sumber daya otomatis dengan Amazon Inspector](https://docs.aws.amazon.com/inspector/latest/user/scanning-resources.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [GetConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/get-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-member`
<a name="inspector2_GetMember_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-member`.

**AWS CLI**  
**Contoh: Untuk mendapatkan informasi anggota untuk organisasi Anda**  
aws inspector2 get-member --account-id 123456789012  
Output:  

```
{
        "member": {
        "accountId": "123456789012",
        "delegatedAdminAccountId": "123456789012",
        "relationshipStatus": "ENABLED",
        "updatedAt": "2023-09-11T09:57:20.520000-07:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun di Amazon Inspector with AWS Organizations](https://docs.aws.amazon.com/inspector/latest/user/managing-multiple-accounts.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [GetMember](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/get-member.html)di *Referensi AWS CLI Perintah*. 

### `get-telemetry-metadata`
<a name="inspector_GetTelemetryMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-telemetry-metadata`.

**AWS CLI**  
**Untuk mendapatkan metadata telemetri**  
`get-telemetry-metadata`Perintah berikut menghasilkan informasi tentang data yang dikumpulkan untuk penilaian yang dijalankan dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE`  

```
aws inspector get-telemetry-metadata --assessment-run-arn arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE
```
Output:  

```
{
      "telemetryMetadata": [
        {
              "count": 2,
              "dataSize": 345,
              "messageType": "InspectorDuplicateProcess"
        },
        {
              "count": 3,
              "dataSize": 255,
              "messageType": "InspectorTimeEventMsg"
        },
        {
              "count": 4,
              "dataSize": 1082,
              "messageType": "InspectorNetworkInterface"
        },
        {
              "count": 2,
              "dataSize": 349,
              "messageType": "InspectorDnsEntry"
        },
        {
              "count": 11,
              "dataSize": 2514,
              "messageType": "InspectorDirectoryInfoMsg"
        },
        {
              "count": 1,
              "dataSize": 179,
              "messageType": "InspectorTcpV6ListeningPort"
        },
        {
              "count": 101,
              "dataSize": 10949,
              "messageType": "InspectorTerminal"
        },
        {
              "count": 26,
              "dataSize": 5916,
              "messageType": "InspectorUser"
        },
        {
              "count": 282,
              "dataSize": 32148,
              "messageType": "InspectorDynamicallyLoadedCodeModule"
        },
        {
              "count": 18,
              "dataSize": 10172,
              "messageType": "InspectorCreateProcess"
        },
        {
              "count": 3,
              "dataSize": 8001,
              "messageType": "InspectorProcessPerformance"
        },
        {
              "count": 1,
              "dataSize": 360,
              "messageType": "InspectorOperatingSystem"
        },
        {
              "count": 6,
              "dataSize": 546,
              "messageType": "InspectorStopProcess"
        },
        {
              "count": 1,
              "dataSize": 1553,
              "messageType": "InspectorInstanceMetaData"
        },
        {
              "count": 2,
              "dataSize": 434,
              "messageType": "InspectorTcpV4Connection"
        },
        {
              "count": 474,
              "dataSize": 2960322,
              "messageType": "InspectorPackageInfo"
        },
        {
              "count": 3,
              "dataSize": 2235,
              "messageType": "InspectorSystemPerformance"
        },
        {
              "count": 105,
              "dataSize": 46048,
              "messageType": "InspectorCodeModule"
        },
        {
              "count": 1,
              "dataSize": 182,
              "messageType": "InspectorUdpV6ListeningPort"
        },
        {
              "count": 2,
              "dataSize": 371,
              "messageType": "InspectorUdpV4ListeningPort"
        },
        {
              "count": 18,
              "dataSize": 8362,
              "messageType": "InspectorKernelModule"
        },
        {
              "count": 29,
              "dataSize": 48788,
              "messageType": "InspectorConfigurationInfo"
        },
        {
              "count": 1,
              "dataSize": 79,
              "messageType": "InspectorMonitoringStart"
        },
        {
              "count": 5,
              "dataSize": 0,
              "messageType": "InspectorSplitMsgBegin"
        },
        {
              "count": 51,
              "dataSize": 4593,
              "messageType": "InspectorGroup"
        },
        {
              "count": 1,
              "dataSize": 184,
              "messageType": "InspectorTcpV4ListeningPort"
        },
        {
              "count": 1159,
              "dataSize": 3146579,
              "messageType": "Total"
        },
        {
              "count": 5,
              "dataSize": 0,
              "messageType": "InspectorSplitMsgEnd"
        },
        {
              "count": 1,
              "dataSize": 612,
              "messageType": "InspectorLoadImageInProcess"
        }
      ]
}
```
+  Untuk detail API, lihat [GetTelemetryMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/get-telemetry-metadata.html)di *Referensi AWS CLI Perintah*. 

### `list-account-permissions`
<a name="inspector2_ListAccountPermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-account-permissions`.

**AWS CLI**  
**Untuk membuat daftar izin akun**  
`list-account-permissions`Contoh berikut mencantumkan izin akun Anda.  

```
aws inspector2 list-account-permissions
```
Output:  

```
{
    "permissions": [
        {
            "operation": "ENABLE_SCANNING",
            "service": "ECR"
        },
        {
            "operation": "DISABLE_SCANNING",
            "service": "ECR"
        },
        {
            "operation": "ENABLE_REPOSITORY",
            "service": "ECR"
        },
        {
            "operation": "DISABLE_REPOSITORY",
            "service": "ECR"
        },
        {
            "operation": "ENABLE_SCANNING",
            "service": "EC2"
        },
        {
            "operation": "DISABLE_SCANNING",
            "service": "EC2"
        },
        {
            "operation": "ENABLE_SCANNING",
            "service": "LAMBDA"
        },
        {
            "operation": "DISABLE_SCANNING",
            "service": "LAMBDA"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Identity and Access Management untuk Amazon Inspector](https://docs.aws.amazon.com/inspector/latest/user/security-iam.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [ListAccountPermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/list-account-permissions.html)di *Referensi AWS CLI Perintah*. 

### `list-assessment-run-agents`
<a name="inspector_ListAssessmentRunAgents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-assessment-run-agents`.

**AWS CLI**  
**Untuk membuat daftar agen yang dijalankan penilaian**  
`list-assessment-run-agents`Perintah berikut mencantumkan agen penilaian yang dijalankan dengan ARN yang ditentukan.  

```
aws inspector list-assessment-run-agents \
    --assessment-run-arn arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE
```
Output:  

```
{
    "assessmentRunAgents": [
        {
            "agentHealth": "HEALTHY",
            "agentHealthCode": "HEALTHY",
            "agentId": "i-49113b93",
            "assessmentRunArn": "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE",
            "telemetryMetadata": [
                {
                    "count": 2,
                    "dataSize": 345,
                    "messageType": "InspectorDuplicateProcess"
                },
                {
                    "count": 3,
                    "dataSize": 255,
                    "messageType": "InspectorTimeEventMsg"
                },
                {
                    "count": 4,
                    "dataSize": 1082,
                    "messageType": "InspectorNetworkInterface"
                },
                {
                    "count": 2,
                    "dataSize": 349,
                    "messageType": "InspectorDnsEntry"
                },
                {
                    "count": 11,
                    "dataSize": 2514,
                    "messageType": "InspectorDirectoryInfoMsg"
                },
                {
                    "count": 1,
                    "dataSize": 179,
                    "messageType": "InspectorTcpV6ListeningPort"
                },
                {
                    "count": 101,
                    "dataSize": 10949,
                    "messageType": "InspectorTerminal"
                },
                {
                    "count": 26,
                    "dataSize": 5916,
                    "messageType": "InspectorUser"
                },
                {
                    "count": 282,
                    "dataSize": 32148,
                    "messageType": "InspectorDynamicallyLoadedCodeModule"
                },
                {
                    "count": 18,
                    "dataSize": 10172,
                    "messageType": "InspectorCreateProcess"
                },
                {
                    "count": 3,
                    "dataSize": 8001,
                    "messageType": "InspectorProcessPerformance"
                },
                {
                    "count": 1,
                    "dataSize": 360,
                    "messageType": "InspectorOperatingSystem"
                },
                {
                    "count": 6,
                    "dataSize": 546,
                    "messageType": "InspectorStopProcess"
                },
                {
                    "count": 1,
                    "dataSize": 1553,
                    "messageType": "InspectorInstanceMetaData"
                },
                {
                    "count": 2,
                    "dataSize": 434,
                    "messageType": "InspectorTcpV4Connection"
                },
                {
                    "count": 474,
                    "dataSize": 2960322,
                    "messageType": "InspectorPackageInfo"
                },
                {
                    "count": 3,
                    "dataSize": 2235,
                    "messageType": "InspectorSystemPerformance"
                },
                {
                    "count": 105,
                    "dataSize": 46048,
                    "messageType": "InspectorCodeModule"
                },
                {
                    "count": 1,
                    "dataSize": 182,
                    "messageType": "InspectorUdpV6ListeningPort"
                },
                {
                    "count": 2,
                    "dataSize": 371,
                    "messageType": "InspectorUdpV4ListeningPort"
                },
                {
                    "count": 18,
                    "dataSize": 8362,
                    "messageType": "InspectorKernelModule"
                },
                {
                    "count": 29,
                    "dataSize": 48788,
                    "messageType": "InspectorConfigurationInfo"
                },
                {
                    "count": 1,
                    "dataSize": 79,
                    "messageType": "InspectorMonitoringStart"
                },
                {
                    "count": 5,
                    "dataSize": 0,
                    "messageType": "InspectorSplitMsgBegin"
                },
                {
                    "count": 51,
                    "dataSize": 4593,
                    "messageType": "InspectorGroup"
                },
                {
                    "count": 1,
                    "dataSize": 184,
                    "messageType": "InspectorTcpV4ListeningPort"
                },
                {
                    "count": 1159,
                    "dataSize": 3146579,
                    "messageType": "Total"
                },
                {
                    "count": 5,
                    "dataSize": 0,
                    "messageType": "InspectorSplitMsgEnd"
                },
                {
                    "count": 1,
                    "dataSize": 612,
                    "messageType": "InspectorLoadImageInProcess"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [AWS Agen](https://docs.aws.amazon.com/inspector/latest/userguide/inspector_agents.html) di *Panduan Pengguna Amazon Inspector*.  
+  Untuk detail API, lihat [ListAssessmentRunAgents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/list-assessment-run-agents.html)di *Referensi AWS CLI Perintah*. 

### `list-assessment-runs`
<a name="inspector_ListAssessmentRuns_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-assessment-runs`.

**AWS CLI**  
**Untuk membuat daftar penilaian berjalan**  
`list-assessment-runs`Perintah berikut mencantumkan semua proses penilaian yang ada.  

```
aws inspector list-assessment-runs
```
Output:  

```
{
    "assessmentRunArns": [
        "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE",
        "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-v5D6fI3v"
    ]
}
```
Untuk informasi selengkapnya, lihat [Amazon Inspector Assessment Templates dan Assessment Runs](https://docs.aws.amazon.com/inspector/latest/userguide/inspector_assessments.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [ListAssessmentRuns](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/list-assessment-runs.html)di *Referensi AWS CLI Perintah*. 

### `list-assessment-targets`
<a name="inspector_ListAssessmentTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-assessment-targets`.

**AWS CLI**  
**Untuk membuat daftar target penilaian**  
`list-assessment-targets`Perintah berikut mencantumkan semua target penilaian yang ada:  

```
aws inspector list-assessment-targets
```
Output:  

```
{
       "assessmentTargetArns": [
       "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq"
       ]
}
```
Untuk informasi selengkapnya, lihat Target Penilaian Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [ListAssessmentTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/list-assessment-targets.html)di *Referensi AWS CLI Perintah*. 

### `list-assessment-templates`
<a name="inspector_ListAssessmentTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-assessment-templates`.

**AWS CLI**  
**Untuk membuat daftar templat penilaian**  
`list-assessment-templates`Perintah berikut mencantumkan semua templat penilaian yang ada:  

```
aws inspector list-assessment-templates
```
Output:  

```
{
       "assessmentTemplateArns": [
       "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw",
       "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-Uza6ihLh"
       ]
}
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [ListAssessmentTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/list-assessment-templates.html)di *Referensi AWS CLI Perintah*. 

### `list-coverage-statistics`
<a name="inspector2_ListCoverageStatistics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-coverage-statistics`.

**AWS CLI**  
**Contoh 1: Untuk daftar statistik cakupan berdasarkan grup**  
`list-coverage-statistics`Contoh berikut mencantumkan statistik cakupan AWS lingkungan Anda berdasarkan grup.  

```
aws inspector2 list-coverage-statistics \
   --group-by RESOURCE_TYPE
```
Output:  

```
{
    "countsByGroup": [
        {
            "count": 56,
            "groupKey": "AWS_LAMBDA_FUNCTION"
        },
        {
            "count": 27,
            "groupKey": "AWS_ECR_REPOSITORY"
        },
        {
            "count": 18,
            "groupKey": "AWS_EC2_INSTANCE"
        },
        {
            "count": 3,
            "groupKey": "AWS_ECR_CONTAINER_IMAGE"
        },
        {
            "count": 1,
            "groupKey": "AWS_ACCOUNT"
        }
    ],
    "totalCounts": 105
}
```
Untuk informasi selengkapnya, lihat [Menilai cakupan Amazon Inspector tentang lingkungan AWS Anda](https://docs.aws.amazon.com/inspector/latest/user/assessing-coverage.html) di Panduan Pengguna *Amazon Inspector*.  
**Contoh 2: Untuk daftar statistik cakupan berdasarkan jenis sumber daya**  
`list-coverage-statistics`Contoh berikut mencantumkan statistik cakupan AWS lingkungan Anda berdasarkan jenis sumber daya.  

```
aws inspector2 list-coverage-statistics
    --filter-criteria '{"resourceType":[{"comparison":"EQUALS","value":"AWS_ECR_REPOSITORY"}]}'
    --group-by SCAN_STATUS_REASON
```
Output:  

```
{
    "countsByGroup": [
        {
            "count": 27,
            "groupKey": "SUCCESSFUL"
        }
    ],
    "totalCounts": 27
}
```
Untuk informasi selengkapnya, lihat [Menilai cakupan Amazon Inspector tentang lingkungan AWS Anda](https://docs.aws.amazon.com/inspector/latest/user/assessing-coverage.html) di Panduan Pengguna *Amazon Inspector*.  
**Contoh 3: Untuk daftar statistik cakupan dengan nama repositori ECR**  
`list-coverage-statistics`Contoh berikut mencantumkan statistik cakupan AWS lingkungan Anda dengan nama repositori ECR.  

```
aws inspector2 list-coverage-statistics
   --filter-criteria '{"ecrRepositoryName":[{"comparison":"EQUALS","value":"debian"}]}'
   --group-by SCAN_STATUS_REASON
```
Output:  

```
{
    "countsByGroup": [
        {
            "count": 3,
            "groupKey": "SUCCESSFUL"
        }
    ],
    "totalCounts": 3
}
```
Untuk informasi selengkapnya, lihat [Menilai cakupan Amazon Inspector tentang lingkungan AWS Anda](https://docs.aws.amazon.com/inspector/latest/user/assessing-coverage.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [ListCoverageStatistics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/list-coverage-statistics.html)di *Referensi AWS CLI Perintah*. 

### `list-coverage`
<a name="inspector2_ListCoverage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-coverage`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan detail cakupan tentang lingkungan Anda**  
`list-coverage`Contoh berikut mencantumkan detail cakupan lingkungan Anda.  

```
aws inspector2 list-coverage
```
Output:  

```
{
    "coveredResources": [
        {
            "accountId": "123456789012",
            "lastScannedAt": "2024-05-20T16:23:20-07:00",
            "resourceId": "i-EXAMPLE55555555555",
            "resourceMetadata": {
                "ec2": {
                    "amiId": "ami-EXAMPLE6666666666",
                    "platform": "LINUX"
                }
            },
            "resourceType": "AWS_EC2_INSTANCE",
            "scanStatus": {
                "reason": "SUCCESSFUL",
                "statusCode": "ACTIVE"
            },
            "scanType": "PACKAGE"
        }
    ]
}
```
**Contoh 2: Untuk daftar rincian cakupan tentang jenis sumber daya fungsi Lambda**  
`list-coverage`Contoh berikut mencantumkan detail jenis sumber daya fungsi Lambda Anda.  

```
aws inspector2 list-coverage
    --filter-criteria '{"resourceType":[{"comparison":"EQUALS","value":"AWS_LAMBDA_FUNCTION"}]}'
```
Output:  

```
{
    "coveredResources": [
        {
            "accountId": "123456789012",
            "resourceId": "arn:aws:lambda:us-west-2:123456789012:function:Eval-container-scan-results:$LATEST",
            "resourceMetadata": {
                "lambdaFunction": {
                    "functionName": "Eval-container-scan-results",
                    "functionTags": {},
                    "layers": [],
                    "runtime": "PYTHON_3_7"
                }
            },
            "resourceType": "AWS_LAMBDA_FUNCTION",
            "scanStatus": {
                "reason": "SUCCESSFUL",
                "statusCode": "ACTIVE"
            },
            "scanType": "CODE"
        }
    ]
}
```
+  Untuk detail API, lihat [ListCoverage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/list-coverage.html)di *Referensi AWS CLI Perintah*. 

### `list-delegated-admin-accounts`
<a name="inspector2_ListDelegatedAdminAccounts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-delegated-admin-accounts`.

**AWS CLI**  
**Untuk mencantumkan informasi tentang akun administrator yang didelegasikan dari organisasi Anda**  
`list-delegated-admin-accounts`Contoh berikut mencantumkan informasi tentang akun administrator yang didelegasikan dari organisasi Anda.  

```
aws inspector2 list-delegated-admin-accounts
```
Output:  

```
{
    "delegatedAdminAccounts": [
        {
            "accountId": "123456789012",
            "status": "ENABLED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menunjuk administrator yang didelegasikan untuk Amazon Inspector di](https://docs.aws.amazon.com/inspector/latest/user/admin-member-relationship.html) Panduan Pengguna Amazon *Inspector*.  
+  Untuk detail API, lihat [ListDelegatedAdminAccounts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/list-delegated-admin-accounts.html)di *Referensi AWS CLI Perintah*. 

### `list-event-subscriptions`
<a name="inspector_ListEventSubscriptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-event-subscriptions`.

**AWS CLI**  
**Untuk daftar langganan acara**  
`list-event-subscriptions`Perintah berikut mencantumkan semua langganan acara untuk templat penilaian dengan `arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-7sbz2Kz0` ARN dari:  

```
aws inspector list-event-subscriptions --resource-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-7sbz2Kz0
```
Output:  

```
{
      "subscriptions": [
        {
              "eventSubscriptions": [
                {
                      "event": "ASSESSMENT_RUN_COMPLETED",
                      "subscribedAt": 1459455440.867
                }
              ],
              "resourceArn": "arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-7sbz2Kz0",
              "topicArn": "arn:aws:sns:us-west-2:123456789012:exampletopic"
        }
      ]
}
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [ListEventSubscriptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/list-event-subscriptions.html)di *Referensi AWS CLI Perintah*. 

### `list-filters`
<a name="inspector2_ListFilters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-filters`.

**AWS CLI**  
**Untuk membuat daftar filter yang terkait dengan akun yang Anda gunakan untuk mengaktifkan Amazon Inspector**  
`list-filters`Contoh berikut mencantumkan filter yang terkait dengan akun yang Anda gunakan untuk mengaktifkan Amazon Inspector.  

```
aws inspector2 list-filters
```
Output:  

```
{
    "filters": [
        {
            "action": "SUPPRESS",
            "arn": "arn:aws:inspector2:us-west-2:123456789012:owner/o-EXAMPLE222/filter/EXAMPLE444444444",
            "createdAt": "2024-05-15T21:11:08.602000+00:00",
            "criteria": {
                "resourceType": [
                    {
                        "comparison": "EQUALS",
                        "value": "AWS_EC2_INSTANCE"
                    },
                ]
            },
            "description": "This suppression rule omits EC2 instance type findings",
            "name": "ExampleSuppressionRuleEC2",
            "ownerId": "o-EXAMPLE222",
            "tags": {},
            "updatedAt": "2024-05-15T21:11:08.602000+00:00"
        },
        {
            "action": "SUPPRESS",
            "arn": "arn:aws:inspector2:us-east-1:813737243517:owner/o-EXAMPLE222/filter/EXAMPLE444444444",
            "createdAt": "2024-05-15T21:28:27.054000+00:00",
            "criteria": {
                "resourceType": [
                    {
                        "comparison": "EQUALS",
                        "value": "AWS_ECR_INSTANCE"
                    }
                ]
            },
            "description": "This suppression rule omits ECR instance type findings",
            "name": "ExampleSuppressionRuleECR",
            "ownerId": "o-EXAMPLE222",
            "tags": {},
            "updatedAt": "2024-05-15T21:28:27.054000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memfilter temuan Amazon Inspector](https://docs.aws.amazon.com/inspector/latest/user/findings-managing-filtering.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [ListFilters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/list-filters.html)di *Referensi AWS CLI Perintah*. 

### `list-findings`
<a name="inspector_ListFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-findings`.

**AWS CLI**  
**Untuk membuat daftar temuan**  
`list-findings`Perintah berikut mencantumkan semua temuan yang dihasilkan:  

```
aws inspector list-findings
```
Output:  

```
{
        "findingArns": [
        "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-MKkpXXPE/finding/0-HwPnsDm4",
        "arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-4r1V2mAw/run/0-v5D6fI3v/finding/0-tyvmqBLy"
      ]
}
```
Untuk informasi selengkapnya, lihat Temuan Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [ListFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/list-findings.html)di *Referensi AWS CLI Perintah*. 

### `list-members`
<a name="inspector2_ListMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-members`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua akun anggota yang terkait dengan administrator delegasi Amazon Inspector untuk organisasi Anda**  
aws inspector2 list-members --only-associated  
Output:  

```
{
        {
             "members": [
        {
             "accountId": "123456789012",
             "delegatedAdminAccountId": "123456789012",
             "relationshipStatus": "ENABLED",
             "updatedAt": "2023-09-11T09:57:20.520000-07:00"
        },
        {
             "accountId": "123456789012",
             "delegatedAdminAccountId": "123456789012",
             "relationshipStatus": "ENABLED",
             "updatedAt": "2024-08-12T10:13:01.472000-07:00"
        },
        {
             "accountId": "625032911453",
             "delegatedAdminAccountId": "123456789012",
             "relationshipStatus": "ENABLED",
             "updatedAt": "2023-09-11T09:57:20.438000-07:00"
        },
        {
            "accountId": "715411239211",
            "delegatedAdminAccountId": "123456789012",
            "relationshipStatus": "ENABLED",
            "updatedAt": "2024-04-24T09:14:57.471000-07:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun di Amazon Inspector with AWS Organizations](https://docs.aws.amazon.com/inspector/latest/user/managing-multiple-accounts.html) di Panduan Pengguna *Amazon Inspector*.  
**Contoh 2: Untuk mencantumkan semua akun anggota yang terkait dan dipisahkan dari administrator delegasi Amazon Inspector untuk organisasi Anda**  
aws inspector2 daftar-anggota -- no-only-associated  
Output:  

```
{
        {
            "members": [
        {
            "accountId": "123456789012",
            "delegatedAdminAccountId": "123456789012",
            "relationshipStatus": "REMOVED",
            "updatedAt": "2024-05-15T11:34:53.326000-07:00"
        },
        {
            "accountId": "123456789012",
            "delegatedAdminAccountId": "123456789012",
            "relationshipStatus": "ENABLED",
            "updatedAt": "2023-09-11T09:57:20.520000-07:00"
        },
        {
            "accountId": "123456789012",
            "delegatedAdminAccountId": "123456789012",
            "relationshipStatus": "ENABLED",
            "updatedAt": "2024-08-12T10:13:01.472000-07:00"
        },
        {
            "accountId": "123456789012",
            "delegatedAdminAccountId": "123456789012",
            "relationshipStatus": "ENABLED",
            "updatedAt": "2023-09-11T09:57:20.438000-07:00"
        },
        {
            "accountId": "123456789012",
            "delegatedAdminAccountId": "123456789012",
            "relationshipStatus": "ENABLED",
            "updatedAt": "2024-04-24T09:14:57.471000-07:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun di Amazon Inspector with AWS Organizations](https://docs.aws.amazon.com/inspector/latest/user/managing-multiple-accounts.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [ListMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/list-members.html)di *Referensi AWS CLI Perintah*. 

### `list-rules-packages`
<a name="inspector_ListRulesPackages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-rules-packages`.

**AWS CLI**  
**Untuk daftar paket aturan**  
`list-rules-packages`Perintah berikut mencantumkan semua paket aturan Inspector yang tersedia:  

```
aws inspector list-rules-packages
```
Output:  

```
{
       "rulesPackageArns": [
         "arn:aws:inspector:us-west-2:758058086616:rulespackage/0-9hgA516p",
         "arn:aws:inspector:us-west-2:758058086616:rulespackage/0-H5hpSawc",
         "arn:aws:inspector:us-west-2:758058086616:rulespackage/0-JJOtZiqQ",
         "arn:aws:inspector:us-west-2:758058086616:rulespackage/0-vg5GGHSD"
       ]
 }
```
Untuk informasi selengkapnya, lihat Paket dan Aturan Amazon Inspector dalam panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [ListRulesPackages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/list-rules-packages.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="inspector_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag untuk sumber daya**  
`list-tags-for-resource`Perintah berikut mencantumkan semua tag yang terkait dengan template penilaian dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-gcwFliYu`  

```
aws inspector list-tags-for-resource --resource-arn arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-gcwFliYu
```
Output:  

```
{
      "tags": [
        {
              "key": "Name",
              "value": "Example"
        }
      ]
}
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-usage-totals`
<a name="inspector2_ListUsageTotals_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-usage-totals`.

**AWS CLI**  
**Untuk daftar total penggunaan selama 30 hari terakhir**  
`list-usage-totals`Contoh berikut mencantumkan total penggunaan selama 30 hari terakhir.  

```
aws inspector2 list-usage-totals
```
Output:  

```
{
    "totals": [
        {
            "accountId": "123456789012",
            "usage": [
                {
                    "currency": "USD",
                    "estimatedMonthlyCost": 4.6022044647,
                    "total": 1893.4784083333334,
                    "type": "EC2_AGENTLESS_INSTANCE_HOURS"
                },
                {
                    "currency": "USD",
                    "estimatedMonthlyCost": 18.892449279,
                    "total": 10882.050784722222,
                    "type": "EC2_INSTANCE_HOURS"
                },
                {
                    "currency": "USD",
                    "estimatedMonthlyCost": 5.4525363736,
                    "total": 6543.043648333333,
                    "type": "LAMBDA_FUNCTION_CODE_HOURS"
                },
                {
                    "currency": "USD",
                    "estimatedMonthlyCost": 3.9064080309,
                    "total": 9375.379274166668,
                    "type": "LAMBDA_FUNCTION_HOURS"
                },
                {
                    "currency": "USD",
                    "estimatedMonthlyCost": 0.06,
                    "total": 6.0,
                    "type": "ECR_RESCAN"
                },
                {
                    "currency": "USD",
                    "estimatedMonthlyCost": 0.09,
                    "total": 1.0,
                    "type": "ECR_INITIAL_SCAN"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memantau penggunaan dan biaya di Amazon Inspector di Panduan](https://docs.aws.amazon.com/inspector/latest/user/usage.html) Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [ListUsageTotals](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/list-usage-totals.html)di *Referensi AWS CLI Perintah*. 

### `preview-agents`
<a name="inspector_PreviewAgents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`preview-agents`.

**AWS CLI**  
**Untuk pratinjau agen**  
`preview-agents`Perintah berikut mempratinjau agen yang diinstal pada instans EC2 yang merupakan bagian dari target penilaian dengan ARN: `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq`  

```
aws inspector preview-agents --preview-agents-arn arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq
```
Output:  

```
{
      "agentPreviews": [
        {
              "agentId": "i-49113b93"
        }
      ]
}
```
Untuk informasi selengkapnya, lihat Target Penilaian Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [PreviewAgents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/preview-agents.html)di *Referensi AWS CLI Perintah*. 

### `register-cross-account-access-role`
<a name="inspector_RegisterCrossAccountAccessRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-cross-account-access-role`.

**AWS CLI**  
**Untuk mendaftarkan peran akses lintas akun**  
`register-cross-account-access-role`Perintah berikut mendaftarkan peran IAM dengan ARN yang digunakan Amazon `arn:aws:iam::123456789012:role/inspector` Inspector untuk mencantumkan instans EC2 Anda di awal proses penilaian saat Anda memanggil perintah agen pratinjau:  

```
aws inspector register-cross-account-access-role --role-arn arn:aws:iam::123456789012:role/inspector
```
Untuk informasi selengkapnya, lihat Menyiapkan Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [RegisterCrossAccountAccessRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/register-cross-account-access-role.html)di *Referensi AWS CLI Perintah*. 

### `remove-attributes-from-findings`
<a name="inspector_RemoveAttributesFromFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-attributes-from-findings`.

**AWS CLI**  
**Untuk menghapus atribut dari temuan**  
`remove-attributes-from-finding`Perintah berikut menghapus atribut dengan kunci `Example` dan nilai `example` dari dari temuan dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-8l1VIE0D/run/0-Z02cjjug/finding/0-T8yM9mEU`  

```
aws inspector remove-attributes-from-findings --finding-arns arn:aws:inspector:us-west-2:123456789012:target/0-0kFIPusq/template/0-8l1VIE0D/run/0-Z02cjjug/finding/0-T8yM9mEU --attribute-keys key=Example,value=example
```
Output:  

```
{
      "failedItems": {}
}
```
Untuk informasi selengkapnya, lihat Temuan Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [RemoveAttributesFromFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/remove-attributes-from-findings.html)di *Referensi AWS CLI Perintah*. 

### `set-tags-for-resource`
<a name="inspector_SetTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-tags-for-resource`.

**AWS CLI**  
**Untuk mengatur tag untuk sumber daya**  
`set-tags-for-resource`Perintah berikut menetapkan tag dengan kunci `Example` dan nilai `example` untuk template penilaian dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-7sbz2Kz0`  

```
aws inspector set-tags-for-resource --resource-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-7sbz2Kz0 --tags key=Example,value=example
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [SetTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/set-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-assessment-run`
<a name="inspector_StartAssessmentRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-assessment-run`.

**AWS CLI**  
**Untuk memulai penilaian**  
`start-assessment-run`Perintah berikut memulai proses penilaian bernama `examplerun` menggunakan template penilaian dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T`  

```
aws inspector start-assessment-run --assessment-run-name examplerun --assessment-template-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T
```
Output:  

```
{
      "assessmentRunArn": "arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T/run/0-jOoroxyY"
}
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [StartAssessmentRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/start-assessment-run.html)di *Referensi AWS CLI Perintah*. 

### `stop-assessment-run`
<a name="inspector_StopAssessmentRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-assessment-run`.

**AWS CLI**  
**Untuk menghentikan penilaian berjalan**  
`stop-assessment-run`Perintah berikut menghentikan penilaian yang dijalankan dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T/run/0-jOoroxyY`  

```
aws inspector stop-assessment-run --assessment-run-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-it5r2S4T/run/0-jOoroxyY
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [StopAssessmentRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/stop-assessment-run.html)di *Referensi AWS CLI Perintah*. 

### `subscribe-to-event`
<a name="inspector_SubscribeToEvent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`subscribe-to-event`.

**AWS CLI**  
**Untuk berlangganan acara**  
Contoh berikut memungkinkan proses pengiriman pemberitahuan Amazon SNS tentang `ASSESSMENT_RUN_COMPLETED` acara ke topik dengan ARN `arn:aws:sns:us-west-2:123456789012:exampletopic`  

```
aws inspector subscribe-to-event \
    --event ASSESSMENT_RUN_COMPLETED \
    --resource-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-7sbz2Kz0 \
    --topic-arn arn:aws:sns:us-west-2:123456789012:exampletopic
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Amazon Inspector Assessment Templates dan Assessment Runs](https://docs.aws.amazon.com/inspector/latest/userguide/inspector_assessments.html) di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [SubscribeToEvent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/subscribe-to-event.html)di *Referensi AWS CLI Perintah*. 

### `unsubscribe-from-event`
<a name="inspector_UnsubscribeFromEvent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unsubscribe-from-event`.

**AWS CLI**  
**Untuk berhenti berlangganan dari suatu acara**  
`unsubscribe-from-event`Perintah berikut menonaktifkan proses pengiriman pemberitahuan Amazon SNS tentang acara `ASSESSMENT_RUN_COMPLETED` ke topik dengan ARN dari: `arn:aws:sns:us-west-2:123456789012:exampletopic`  

```
aws inspector unsubscribe-from-event --event ASSESSMENT_RUN_COMPLETED --resource-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-7sbz2Kz0 --topic arn:aws:sns:us-west-2:123456789012:exampletopic
```
Untuk informasi selengkapnya, lihat Amazon Inspector Assessment Templates dan Assessment Runs di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [UnsubscribeFromEvent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/unsubscribe-from-event.html)di *Referensi AWS CLI Perintah*. 

### `update-assessment-target`
<a name="inspector_UpdateAssessmentTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-assessment-target`.

**AWS CLI**  
**Untuk memperbarui target penilaian**  
`update-assessment-target`Perintah berikut memperbarui target penilaian dengan ARN dan nama`Example`, `arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX` dan kelompok sumber daya dengan ARN dari: `arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-yNbgL5Pt`  

```
aws inspector update-assessment-target --assessment-target-arn arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX --assessment-target-name Example --resource-group-arn arn:aws:inspector:us-west-2:123456789012:resourcegroup/0-yNbgL5Pt
```
Untuk informasi selengkapnya, lihat Target Penilaian Amazon Inspector di panduan *Amazon Inspector*.  
+  Untuk detail API, lihat [UpdateAssessmentTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector/update-assessment-target.html)di *Referensi AWS CLI Perintah*. 

### `update-filter`
<a name="inspector2_UpdateFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-filter`.

**AWS CLI**  
**Untuk memperbarui filter**  
`update-filter`Contoh berikut memperbarui filter untuk menghilangkan temuan Lambda alih-alih temuan instans ECR.  

```
aws inspector2 update-filter \
   --filter-arn "arn:aws:inspector2:us-west-2:123456789012:owner/o-EXAMPLE222/filter/EXAMPLE444444444" \
   --name "ExampleSuppressionRuleLambda" \
   --description "This suppression rule omits Lambda instance findings" \
   --reason "Updating filter to omit Lambda instance findings instead of ECR instance findings"
```
Output:  

```
{
    "filters": [
        {
            "action": "SUPPRESS",
            "arn": "arn:aws:inspector2:us-west-2:123456789012:owner/o-EXAMPLE222/filter/EXAMPLE444444444",
            "createdAt": "2024-05-15T21:28:27.054000+00:00",
            "criteria": {
                "resourceType": [
                    {
                        "comparison": "EQUALS",
                        "value": "AWS_ECR_INSTANCE"
                    }
                ]
            },
            "description": "This suppression rule omits Lambda instance findings",
            "name": "ExampleSuppressionRuleLambda",
            "ownerId": "o-EXAMPLE222",
            "reason": "Updating filter to omit Lambda instance findings instead of ECR instance findings",
            "tags": {},
            "updatedAt": "2024-05-15T22:23:13.665000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola temuan di Amazon Inspector](https://docs.aws.amazon.com/inspector/latest/user/findings-managing.html) di Panduan Pengguna *Amazon Inspector*.  
+  Untuk detail API, lihat [UpdateFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/inspector2/update-filter.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT contoh menggunakan AWS CLI
<a name="cli_2_iot_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-certificate-transfer`
<a name="iot_AcceptCertificateTransfer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-certificate-transfer`.

**AWS CLI**  
**Untuk menerima sertifikat perangkat yang ditransfer dari AWS akun yang berbeda**  
`accept-certificate-transfer`Contoh berikut menerima sertifikat perangkat yang ditransfer dari AWS akun lain. Sertifikat diidentifikasi oleh ID-nya.  

```
aws iot accept-certificate-transfer \
    --certificate-id 488b6a7f2acdeb00a77384e63c4e40b18bEXAMPLEe57b7272ba44c45e3448142
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Mentransfer sertifikat ke akun lain](https://docs.aws.amazon.com/iot/latest/developerguide/transfer-cert.html) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [AcceptCertificateTransfer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/accept-certificate-transfer.html)di *Referensi AWS CLI Perintah*. 

### `add-thing-to-billing-group`
<a name="iot_AddThingToBillingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-thing-to-billing-group`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan sesuatu dengan nama ke grup penagihan**  
`add-thing-to-billing-group`Contoh berikut menambahkan hal bernama `MyLightBulb` ke grup penagihan bernama`GroupOne`.  

```
aws iot add-thing-to-billing-group \
    --billing-group-name GroupOne \
    --thing-name MyLightBulb
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menambahkan sesuatu oleh ARN ke grup penagihan**  
`add-thing-to-billing-group`Contoh berikut menambahkan sesuatu dengan ARN tertentu ke grup penagihan dengan ARN yang ditentukan. Menentukan ARN sangat membantu jika Anda bekerja dengan AWS beberapa Wilayah atau akun. Ini dapat membantu memastikan bahwa Anda menambahkan ke Wilayah dan akun yang tepat.  

```
aws iot add-thing-to-thing-group \
    --billing-group-arn "arn:aws:iot:us-west-2:123456789012:billinggroup/GroupOne" \
    --thing-arn "arn:aws:iot:us-west-2:123456789012:thing/MyOtherLightBulb"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Grup Penagihan](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot-billing-groups.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [AddThingToBillingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/add-thing-to-billing-group.html)di *Referensi AWS CLI Perintah*. 

### `add-thing-to-thing-group`
<a name="iot_AddThingToThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-thing-to-thing-group`.

**AWS CLI**  
**Untuk menambahkan sesuatu ke grup**  
`add-thing-to-thing-group`Contoh berikut menambahkan hal yang ditentukan ke kelompok hal yang ditentukan.  

```
aws iot add-thing-to-thing-group \
    --thing-name MyLightBulb \
    --thing-group-name LightBulbs
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [AddThingToThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/add-thing-to-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `associate-targets-with-job`
<a name="iot_AssociateTargetsWithJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-targets-with-job`.

**AWS CLI**  
**Untuk mengasosiasikan kelompok sesuatu dengan pekerjaan berkelanjutan**  
`associate-targets-with-job`Contoh berikut mengaitkan kelompok hal yang ditentukan dengan pekerjaan berkelanjutan yang ditentukan.  

```
aws iot associate-targets-with-job \
    --targets "arn:aws:iot:us-west-2:123456789012:thinggroup/LightBulbs" \
    --job-id "example-job-04"
```
Output:  

```
{
    "jobArn": "arn:aws:iot:us-west-2:123456789012:job/example-job-04",
    "jobId": "example-job-04",
    "description": "example continuous job"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [AssociateTargetsWithJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/associate-targets-with-job.html)di *Referensi AWS CLI Perintah*. 

### `attach-policy`
<a name="iot_AttachPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-policy`.

**AWS CLI**  
**Contoh 1: Untuk melampirkan kebijakan ke grup benda**  
`attach-policy`Contoh berikut melampirkan kebijakan yang ditentukan ke grup benda yang diidentifikasi oleh ARN-nya.  

```
aws iot attach-policy \
    --target "arn:aws:iot:us-west-2:123456789012:thinggroup/LightBulbs" \
    --policy-name "UpdateDeviceCertPolicy"
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
**Contoh 2: Untuk melampirkan kebijakan ke sertifikat**  
`attach-policy`Contoh berikut melampirkan kebijakan `UpdateDeviceCertPolicy` ke kepala sekolah yang ditentukan oleh sertifikat.  

```
aws iot attach-policy \
    --policy-name UpdateDeviceCertPolicy \
    --target "arn:aws:iot:us-west-2:123456789012:cert/4f0ba725787aa94d67d2fca420eca022242532e8b3c58e7465c7778b443fd65e"
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Melampirkan Kebijakan AWS IoT ke Sertifikat Perangkat di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/attach-policy-to-certificate.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [AttachPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/attach-policy.html)di *Referensi AWS CLI Perintah*. 

### `attach-security-profile`
<a name="iot_AttachSecurityProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-security-profile`.

**AWS CLI**  
**Untuk mengaitkan profil keamanan dengan semua perangkat yang tidak terdaftar**  
`attach-security-profile`Contoh berikut mengaitkan profil keamanan AWS IoT Device Defender yang `Testprofile` dinamai dengan semua perangkat yang tidak terdaftar di `us-west-2` wilayah untuk akun ini. AWS   

```
aws iot attach-security-profile \
    --security-profile-name Testprofile \
    --security-profile-target-arn "arn:aws:iot:us-west-2:123456789012:all/unregistered-things"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [AttachSecurityProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/attach-security-profile.html)di *Referensi AWS CLI Perintah*. 

### `attach-thing-principal`
<a name="iot_AttachThingPrincipal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-thing-principal`.

**AWS CLI**  
**Untuk melampirkan sertifikat ke barang Anda**  
`attach-thing-principal`Contoh berikut melampirkan sertifikat untuk MyTemperatureSensor benda itu. Sertifikat diidentifikasi oleh ARN. Anda dapat menemukan ARN untuk sertifikat di konsol IoT AWS .  

```
aws iot attach-thing-principal \
    --thing-name MyTemperatureSensor \
    --principal arn:aws:iot:us-west-2:123456789012:cert/2e1eb273792174ec2b9bf4e9b37e6c6c692345499506002a35159767055278e8
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Mengelola Sesuatu dengan Registri](https://docs.aws.amazon.com/iot/latest/developerguide/thing-registry.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [AttachThingPrincipal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/attach-thing-principal.html)di *Referensi AWS CLI Perintah*. 

### `cancel-audit-mitigation-actions-task`
<a name="iot_CancelAuditMitigationActionsTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-audit-mitigation-actions-task`.

**AWS CLI**  
**Untuk membatalkan tugas tindakan mitigasi audit**  
`cancel-audit-mitigations-action-task`Contoh berikut membatalkan penerapan tindakan mitigasi untuk tugas yang ditentukan. Anda tidak dapat membatalkan tugas yang sudah selesai.  

```
aws iot cancel-audit-mitigation-actions-task
    --task-id "myActionsTaskId"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [CancelAuditMitigationActionsTask (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-CancelAuditMitigationActionsTask) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CancelAuditMitigationActionsTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/cancel-audit-mitigation-actions-task.html)di *Referensi AWS CLI Perintah*. 

### `cancel-audit-task`
<a name="iot_CancelAuditTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-audit-task`.

**AWS CLI**  
**Untuk membatalkan tugas audit**  
`cancel-audit-task`Contoh berikut membatalkan tugas audit dengan ID tugas yang ditentukan. Anda tidak dapat membatalkan tugas yang sudah selesai.  

```
aws iot cancel-audit-task \
    --task-id a3aea009955e501a31b764abe1bebd3d
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [CancelAuditTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/cancel-audit-task.html)di *Referensi AWS CLI Perintah*. 

### `cancel-certificate-transfer`
<a name="iot_CancelCertificateTransfer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-certificate-transfer`.

**AWS CLI**  
**Untuk membatalkan transfer sertifikat ke AWS akun yang berbeda**  
`cancel-certificate-transfer`Contoh berikut membatalkan transfer transfer sertifikat yang ditentukan. Sertifikat diidentifikasi oleh ID sertifikat. Anda dapat menemukan ID untuk sertifikat di konsol AWS IoT.  

```
aws iot cancel-certificate-transfer \
    --certificate-id f0f33678c7c9a046e5cc87b2b1a58dfa0beec26db78addd5e605d630e05c7fc8
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mentransfer sertifikat ke akun lain](https://docs.aws.amazon.com/iot/latest/developerguide/transfer-cert.html) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [CancelCertificateTransfer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/cancel-certificate-transfer.html)di *Referensi AWS CLI Perintah*. 

### `cancel-job-execution`
<a name="iot_CancelJobExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-job-execution`.

**AWS CLI**  
**Untuk membatalkan eksekusi pekerjaan di perangkat**  
`cancel-job-execution`Contoh berikut membatalkan eksekusi pekerjaan yang ditentukan pada perangkat. Jika pekerjaan tidak dalam `QUEUED` keadaan, Anda harus menambahkan `--force` parameter.  

```
aws iot cancel-job-execution \
    --job-id "example-job-03" \
    --thing-name "MyRPi"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CancelJobExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/cancel-job-execution.html)di *Referensi AWS CLI Perintah*. 

### `cancel-job`
<a name="iot_CancelJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-job`.

**AWS CLI**  
**Untuk membatalkan pekerjaan**  
`cancel-job`Contoh berikut membatalkan pekerjaan yang ditentukan.  

```
aws iot cancel-job \
    --job-job "example-job-03"
```
Output:  

```
{
    "jobArn": "arn:aws:iot:us-west-2:123456789012:job/example-job-03",
    "jobId": "example-job-03",
    "description": "example job test"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CancelJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/cancel-job.html)di *Referensi AWS CLI Perintah*. 

### `clear-default-authorizer`
<a name="iot_ClearDefaultAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`clear-default-authorizer`.

**AWS CLI**  
**Untuk menghapus otorisasi default**  
`clear-default-authorizer`Contoh berikut menghapus otorisasi kustom default yang saat ini dikonfigurasi. Setelah Anda menjalankan perintah ini, tidak ada otorisasi default. Saat Anda menggunakan otorisasi khusus, Anda harus menentukannya dengan nama di header permintaan HTTP.  

```
aws iot clear-default-authorizer
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ClearDefaultAuthorizer](https://docs.aws.amazon.com/iot/latest/apireference/API_ClearDefaultAuthorizer.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ClearDefaultAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/clear-default-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `confirm-topic-rule-destination`
<a name="iot_ConfirmTopicRuleDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-topic-rule-destination`.

**AWS CLI**  
**Untuk mengonfirmasi tujuan aturan topik**  
`confirm-topic-rule-destination`Contoh berikut mengonfirmasi tujuan aturan topik dengan token konfirmasi yang diterima di titik akhir HTTP.  

```
aws iot confirm-topic-rule-destination \
    --confirmation-token "AYADeIcmtq-ZkxfpiWIQqHWM5ucAXwABABVhd3MtY3J5cHRvLXB1YmxpYy1rZXkAREFxY1E0UmlGeDg0V21BZWZ1VjZtZWFRVUJJUktUYXJaN09OZlJOczJhRENSZmZYL3JHZC9PR3NNcis5T3ZlSitnQT09AAEAB2F3cy1rbXMAS2Fybjphd3M6a21zOnVzLWVhc3QtMTo5ODc5NTE4NTI0OTk6a2V5L2U4YmU3ODViLTU5NWMtNDcxYi1iOWJmLWQ2Y2I4ZjQxODlmNwC4AQIBAHhwz48UWTGWE1ua0P8U1hj27nsFzEaAdf6Hs2K_7wBheAF62zwMuk_A4dPiC6eyPGuMAAAAfjB8BgkqhkiG9w0BBwagbzBtAgEAMGgGCSqGSIb3DQEHATAeBglghkgBZQMEAS4wEQQM9vtRMpf9D3CiZ8sMAgEQgDuFd0Txy-aywpPqg8YEsa1lD4B40aJ2s1wEHKMybiF1RoOZzYisI0IvslzQY5UmCkqq3tV-3f7-nKfosgIAAAAADAAAEAAAAAAAAAAAAAAAAAAi9RMgy-V19V9m6Iw2xfbw_____wAAAAEAAAAAAAAAAAAAAAEAAAB1hw4SokgUcxiJ3gTO6n50NLJVpzyQR1UmPIj5sShqXEQGcOsWmXzpYOOx_PWyPVNsIFHApyK7Cc3g4bW8VaLVwOLkC83g6YaZAh7dFEl2-iufgrzTePl8RZYOWr0O6Aj9DiVzJZx-1iD6Pu-G6PUw1kaO7Knzs2B4AD0qfrHUF4pYRTvyUgBnMGUCMQC8ZRmhKqntd_c6Kgrow3bMUDBvNqo2qZr8Z8Jm2rzgseROlAnLgFLGpGShr99oSZkCMEd1v62NBRKX9HQXnybyF3fkg__-PIetJ803Z4IlIlF8xXlcdPGP-PV1dOXFemyL8g"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfirmasi tujuan aturan topik](https://docs.aws.amazon.com/iot/latest/developerguide/rule-destination.html#confirm-destination) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ConfirmTopicRuleDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/confirm-topic-rule-destination.html)di *Referensi AWS CLI Perintah*. 

### `create-audit-suppression`
<a name="iot_CreateAuditSuppression_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-audit-suppression`.

**AWS CLI**  
**Untuk membuat penindasan temuan audit**  
`create-audit-suppression`Contoh berikut menciptakan penindasan temuan audit untuk kebijakan bernama "virtualMachinePolicy" yang telah ditandai karena terlalu permisif.  

```
aws iot create-audit-suppression \
    --check-name IOT_POLICY_OVERLY_PERMISSIVE_CHECK \
    --resource-identifier policyVersionIdentifier={"policyName"="virtualMachinePolicy","policyVersionId"="1"} \
    --no-suppress-indefinitely \
    --expiration-date 2020-10-20
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Audit menemukan penekanan di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/audit-finding-suppressions.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateAuditSuppression](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-audit-suppression.html)di *Referensi AWS CLI Perintah*. 

### `create-authorizer`
<a name="iot_CreateAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-authorizer`.

**AWS CLI**  
**Untuk membuat otorisasi kustom**  
`create-authorizer`Contoh berikut membuat otorisasi kustom yang menggunakan fungsi Lambda yang ditentukan sebagai bagian dari layanan otentikasi kustom.  

```
   aws iot create-authorizer \
       --authorizer-name "CustomAuthorizer" \
       --authorizer-function-arn "arn:aws:lambda:us-west-2:123456789012:function:CustomAuthorizerFunction" \
       --token-key-name "MyAuthToken" \
       --status ACTIVE \
       --token-signing-public-keys FIRST_KEY="-----BEGIN PUBLIC KEY-----
MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA1uJOB4lQPgG/lM6ZfIwo
Z+7ENxAio9q6QD4FFqjGZsvjtYwjoe1RKK0U8Eq9xb5O3kRSmyIwTzwzm/f4Gf0Y
ZUloJ+t3PUUwHrmbYTAgTrCUgRFygjfgVwGCPs5ZAX4Eyqt5cr+AIHIiUDbxSa7p
zwOBKPeic0asNJpqT8PkBbRaKyleJh5oo81NDHHmVtbBm5A5YiJjqYXLaVAowKzZ
+GqsNvAQ9Jy1wI2VrEa1OfL8flDB/BJLm7zjpfPOHDJQgID0XnZwAlNnZcOhCwIx
50g2LW2Oy9R/dmqtDmJiVP97Z4GykxPvwlYHrUXY0iW1R3AR/Ac1NhCTGZMwVDB1
lQIDAQAB
-----END PUBLIC KEY-----"
```
Output:  

```
{
    "authorizerName": "CustomAuthorizer",
    "authorizerArn": "arn:aws:iot:us-west-2:123456789012:authorizer/CustomAuthorizer2"
}
```
Untuk informasi selengkapnya, lihat [CreateAuthorizer](https://docs.aws.amazon.com/iot/latest/apireference/API_CreateAuthorizer.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [CreateAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `create-billing-group`
<a name="iot_CreateBillingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-billing-group`.

**AWS CLI**  
**Untuk membuat grup penagihan**  
`create-billing-group`Contoh berikut membuat grup penagihan sederhana bernama`GroupOne`.  

```
aws iot create-billing-group \
    --billing-group-name GroupOne
```
Output:  

```
{
    "billingGroupName": "GroupOne",
    "billingGroupArn": "arn:aws:iot:us-west-2:123456789012:billinggroup/GroupOne",
    "billingGroupId": "103de383-114b-4f51-8266-18f209ef5562"
}
```
Untuk informasi selengkapnya, lihat [Grup Penagihan](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot-billing-groups.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateBillingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-billing-group.html)di *Referensi AWS CLI Perintah*. 

### `create-certificate-from-csr`
<a name="iot_CreateCertificateFromCsr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-certificate-from-csr`.

**AWS CLI**  
**Untuk membuat sertifikat perangkat dari permintaan penandatanganan sertifikat (CSR)**  
`create-certificate-from-csr`Contoh berikut membuat sertifikat perangkat dari CSR. Anda dapat menggunakan `openssl` perintah untuk membuat CSR.  

```
aws iot create-certificate-from-csr \
    --certificate-signing-request=file://certificate.csr
```
Output:  

```
{
    "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/c0c57bbc8baaf4631a9a0345c957657f5e710473e3ddbee1428d216d54d53ac9",
        "certificateId": "c0c57bbc8baaf4631a9a0345c957657f5e710473e3ddbee1428d216d54d53ac9",
        "certificatePem": "<certificate-text>"
}
```
Untuk informasi selengkapnya, lihat [CreateCertificateFromCSR](https://docs.aws.amazon.com/iot/latest/apireference/API_CreateCertificateFromCsr.html) di Referensi *AWS API IoT*.  
+  Untuk detail API, lihat [CreateCertificateFromCsr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-certificate-from-csr.html)di *Referensi AWS CLI Perintah*. 

### `create-custom-metric`
<a name="iot_CreateCustomMetric_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-custom-metric`.

**AWS CLI**  
**Untuk membuat metrik kustom yang diterbitkan oleh perangkat Anda ke Device Defender**  
`create-custom-metric`Contoh berikut membuat metrik khusus yang mengukur persentase baterai.  

```
aws iot create-custom-metric \
    --metric-name "batteryPercentage" \
    --metric-type "number" \
    --display-name "Remaining battery percentage." \
    --region us-east-1 \
    --client-request-token "02ccb92b-33e8-4dfa-a0c1-35b181ed26b0"
```
Output:  

```
{
    "metricName": "batteryPercentage",
    "metricArn": "arn:aws:iot:us-east-1:1234564789012:custommetric/batteryPercentage"
}
```
Untuk informasi selengkapnya, lihat [Metrik khusus](https://docs.aws.amazon.com/iot/latest/developerguide/dd-detect-custom-metrics.html) di Panduan Pengembang *Inti AWS IoT*.  
+  Untuk detail API, lihat [CreateCustomMetric](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-custom-metric.html)di *Referensi AWS CLI Perintah*. 

### `create-dimension`
<a name="iot_CreateDimension_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-dimension`.

**AWS CLI**  
**Untuk membuat dimensi**  
Berikut ini `create-dimension` menciptakan dimensi dengan filter topik tunggal yang disebut`TopicFilterForAuthMessages`.  

```
aws iot create-dimension \
    --name TopicFilterForAuthMessages \
    --type TOPIC_FILTER \
    --string-values device/+/auth
```
Output:  

```
{
    "name": "TopicFilterForAuthMessages",
    "arn": "arn:aws:iot:eu-west-2:123456789012:dimension/TopicFilterForAuthMessages"
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [CreateDimension](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-dimension.html)di *Referensi AWS CLI Perintah*. 

### `create-domain-configuration`
<a name="iot_CreateDomainConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-domain-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi domain**  
`create-domain-configuration`Contoh berikut membuat konfigurasi domain AWS-managed dengan jenis `DATA` layanan.  

```
aws iot create-domain-configuration \
    --domain-configuration-name "additionalDataDomain" \
    --service-type "DATA"
```
Output:  

```
{
    "domainConfigurationName": "additionalDataDomain",
    "domainConfigurationArn": "arn:aws:iot:us-west-2:123456789012:domainconfiguration/additionalDataDomain/dikMh"
}
```
Untuk informasi selengkapnya, lihat [Titik Akhir yang Dapat Dikonfigurasi](https://docs.aws.amazon.com/iot/latest/developerguide/iot-custom-endpoints-configurable-aws.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateDomainConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-domain-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-dynamic-thing-group`
<a name="iot_CreateDynamicThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-dynamic-thing-group`.

**AWS CLI**  
**Untuk membuat grup hal yang dinamis**  
`create-dynamic-thing-group`Contoh berikut membuat grup benda dinamis yang berisi benda apa pun dengan atribut suhu yang lebih besar dari 60 derajat. Anda harus mengaktifkan pengindeksan armada AWS IoT sebelum dapat menggunakan grup benda dinamis.  

```
aws iot create-dynamic-thing-group \
    --thing-group-name "RoomTooWarm" \
    --query-string "attributes.temperature>60"
```
Output:  

```
{
    "thingGroupName": "RoomTooWarm",
    "thingGroupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/RoomTooWarm",
    "thingGroupId": "9d52492a-fc87-43f4-b6e2-e571d2ffcad1",
    "indexName": "AWS_Things",
    "queryString": "attributes.temperature>60",
    "queryVersion": "2017-09-30"
}
```
Untuk informasi selengkapnya, lihat [Dynamic Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/dynamic-thing-groups.html) di *AWS Panduan Pengembang IoT*.  
+  Untuk detail API, lihat [CreateDynamicThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-dynamic-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `create-job`
<a name="iot_CreateJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-job`.

**AWS CLI**  
**Contoh 1: Untuk membuat pekerjaan**  
`create-job`Contoh berikut membuat pekerjaan AWS IoT sederhana yang mengirimkan dokumen JSON ke perangkat. `MyRaspberryPi`  

```
aws iot create-job \
    --job-id "example-job-01" \
    --targets "arn:aws:iot:us-west-2:123456789012:thing/MyRaspberryPi" \
    --document file://example-job.json \
    --description "example job test" \
    --target-selection SNAPSHOT
```
Output:  

```
{
    "jobArn": "arn:aws:iot:us-west-2:123456789012:job/example-job-01",
    "jobId": "example-job-01",
    "description": "example job test"
}
```
**Contoh 2: Untuk membuat pekerjaan berkelanjutan**  
`create-job`Contoh berikut menciptakan pekerjaan yang terus berjalan setelah hal-hal yang ditentukan sebagai target telah menyelesaikan pekerjaan. Dalam contoh ini, targetnya adalah grup benda, jadi ketika perangkat baru ditambahkan ke grup, pekerjaan berkelanjutan berjalan pada hal-hal baru tersebut.  
aws iot create-job --job-id “example-job-04" --targets “arn:aws:iot:us-west- 2:123456789012: -job.json --description “contoh pekerjaan berkelanjutan” --target-selection CONTINUOUS thinggroup/DeadBulbs" --document file://example  
Output:  

```
{
    "jobArn": "arn:aws:iot:us-west-2:123456789012:job/example-job-04",
    "jobId": "example-job-04",
    "description": "example continuous job"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-job.html)di *Referensi AWS CLI Perintah*. 

### `create-keys-and-certificate`
<a name="iot_CreateKeysAndCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-keys-and-certificate`.

**AWS CLI**  
**Untuk membuat key pair RSA dan mengeluarkan sertifikat X.509**  
Berikut ini `create-keys-and-certificate` membuat key pair RSA 2048-bit dan mengeluarkan sertifikat X.509 menggunakan kunci publik yang diterbitkan. Karena ini adalah satu-satunya waktu AWS IoT menyediakan kunci pribadi untuk sertifikat ini, pastikan untuk menyimpannya di lokasi yang aman.  

```
aws iot create-keys-and-certificate \
    --certificate-pem-outfile "myTest.cert.pem" \
    --public-key-outfile "myTest.public.key" \
    --private-key-outfile "myTest.private.key"
```
Output:  

```
{
    "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/9894ba17925e663f1d29c23af4582b8e3b7619c31f3fbd93adcb51ae54b83dc2",
    "certificateId": "9894ba17925e663f1d29c23af4582b8e3b7619c31f3fbd93adcb51ae54b83dc2",
    "certificatePem": "
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----\n",
    "keyPair": {
        "PublicKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkEXAMPLEQEFAAOCAQ8AMIIBCgKCAQEAEXAMPLE1nnyJwKSMHw4h\nMMEXAMPLEuuN/dMAS3fyce8DW/4+EXAMPLEyjmoF/YVF/gHr99VEEXAMPLE5VF13\n59VK7cEXAMPLE67GK+y+jikqXOgHh/xJTwo+sGpWEXAMPLEDz18xOd2ka4tCzuWEXAMPLEahJbYkCPUBSU8opVkR7qkEXAMPLE1DR6sx2HocliOOLtu6Fkw91swQWEXAMPLE\GB3ZPrNh0PzQYvjUStZeccyNCx2EXAMPLEvp9mQOUXP6plfgxwKRX2fEXAMPLEDa\nhJLXkX3rHU2xbxJSq7D+XEXAMPLEcw+LyFhI5mgFRl88eGdsAEXAMPLElnI9EesG\nFQIDAQAB\n-----END PUBLIC KEY-----\n",
        "PrivateKey": "-----BEGIN RSA PRIVATE KEY-----\nkey omittted for security reasons\n-----END RSA PRIVATE KEY-----\n"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mendaftarkan Sertifikat Perangkat AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/device-certs-create.html) Pengembang **AWS IoT**.  
+  Untuk detail API, lihat [CreateKeysAndCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-keys-and-certificate.html)di *Referensi AWS CLI Perintah*. 

### `create-mitigation-action`
<a name="iot_CreateMitigationAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-mitigation-action`.

**AWS CLI**  
**Untuk membuat tindakan mitigasi**  
`create-mitigation-action`Contoh berikut mendefinisikan tindakan mitigasi bernama `AddThingsToQuarantineGroup1Action` bahwa, ketika diterapkan, memindahkan hal-hal ke dalam kelompok hal bernama. `QuarantineGroup1` Tindakan ini mengesampingkan grup benda dinamis.  

```
aws iot create-mitigation-action --cli-input-json file::params.json
```
Isi dari `params.json`:  

```
{
    "actionName": "AddThingsToQuarantineGroup1Action",
    "actionParams": {
        "addThingsToThingGroupParams": {
            "thingGroupNames": [
                "QuarantineGroup1"
            ],
            "overrideDynamicGroups": true
        }
    },
    "roleArn": "arn:aws:iam::123456789012:role/service-role/MoveThingsToQuarantineGroupRole"
}
```
Output:  

```
{
    "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/AddThingsToQuarantineGroup1Action",
    "actionId": "992e9a63-a899-439a-aa50-4e20c52367e1"
}
```
Untuk informasi selengkapnya, lihat [CreateMitigationAction (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot/latest/developerguide/iot/latest/developerguide/mitigation-action-commands.html.html#dd-api-iot-CreateMitigationAction) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateMitigationAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-mitigation-action.html)di *Referensi AWS CLI Perintah*. 

### `create-ota-update`
<a name="iot_CreateOtaUpdate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ota-update`.

**AWS CLI**  
**Untuk membuat pembaruan OTA untuk digunakan dengan Amazon FreeRTOS**  
`create-ota-update`Contoh berikut membuat AWS IoT OTAUpdate pada kelompok target hal atau kelompok. Ini adalah bagian dari pembaruan Amazon over-the-air FreeRTOS yang memungkinkan Anda untuk menyebarkan gambar firmware baru ke satu perangkat atau sekelompok perangkat.  

```
aws iot create-ota-update \
    --cli-input-json file://create-ota-update.json
```
Isi dari `create-ota-update.json`:  

```
{
    "otaUpdateId": "ota12345",
    "description": "A critical update needed right away.",
    "targets": [
        "device1",
        "device2",
        "device3",
        "device4"
    ],
    "targetSelection": "SNAPSHOT",
    "awsJobExecutionsRolloutConfig": {
        "maximumPerMinute": 10
    },
    "files": [
        {
          "fileName": "firmware.bin",
          "fileLocation": {
            "stream": {
              "streamId": "004",
              "fileId":123
            }
          },
          "codeSigning": {
            "awsSignerJobId": "48c67f3c-63bb-4f92-a98a-4ee0fbc2bef6"
          }
        }
    ]
    "roleArn": "arn:aws:iam:123456789012:role/service-role/my_ota_role"
}
```
Output:  

```
{
     "otaUpdateId": "ota12345",
     "awsIotJobId": "job54321",
     "otaUpdateArn": "arn:aws:iot:us-west-2:123456789012:otaupdate/itsaupdate",
     "awsIotJobArn": "arn:aws:iot:us-west-2:123456789012:job/itsajob",
     "otaUpdateStatus": "CREATE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Membuat OTAUpdate](https://docs.aws.amazon.com/iot/latest/apireference/API_CreateOTAUpdate.html) di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [CreateOtaUpdate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-ota-update.html)di *Referensi AWS CLI Perintah*. 

### `create-policy-version`
<a name="iot_CreatePolicyVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-policy-version`.

**AWS CLI**  
**Untuk memperbarui kebijakan dengan versi baru**  
`create-policy-version`Contoh berikut memperbarui definisi kebijakan, membuat versi kebijakan baru. Contoh ini juga menjadikan versi baru sebagai default.  

```
aws iot create-policy-version \
    --policy-name UpdateDeviceCertPolicy \
    --policy-document file://policy.json \
    --set-as-default
```
Isi dari `policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action":  "iot:UpdateCertificate",
            "Resource": "*"
        }
    ]
}
```
Output:  

```
{
    "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/UpdateDeviceCertPolicy",
    "policyDocument": "{ \"Version\": \"2012-10-17\", \"Statement\": [ { \"Effect\": \"Allow\", \"Action\":  \"iot:UpdateCertificate\", \"Resource\": \"*\" } ] }",
    "policyVersionId": "2",
    "isDefaultVersion": true
}
```
Untuk informasi selengkapnya, lihat [Kebijakan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-policies.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreatePolicyVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-policy-version.html)di *Referensi AWS CLI Perintah*. 

### `create-policy`
<a name="iot_CreatePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-policy`.

**AWS CLI**  
**Untuk membuat kebijakan AWS IoT**  
`create-policy`Contoh berikut membuat kebijakan AWS IoT bernama. TemperatureSensorPolicy `policy.json`File berisi pernyataan yang memungkinkan tindakan kebijakan AWS IoT.  

```
aws iot create-policy \
    --policy-name TemperatureSensorPolicy \
    --policy-document file://policy.json
```
Isi dari `policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action": [
                "iot:Publish",
                "iot:Receive"
            ],
            "Resource": [
                "arn:aws:iot:us-west-2:123456789012:topic/topic_1",
                "arn:aws:iot:us-west-2:123456789012:topic/topic_2"
            ]
        },
        {
            "Effect": "Allow",
            "Action": [
                "iot:Subscribe"
            ],
            "Resource": [
                "arn:aws:iot:us-west-2:123456789012:topicfilter/topic_1",
                "arn:aws:iot:us-west-2:123456789012:topicfilter/topic_2"
            ]
        },
        {
            "Effect": "Allow",
            "Action": [
                "iot:Connect"
            ],
            "Resource": [
                "arn:aws:iot:us-west-2:123456789012:client/basicPubSub"
            ]
        }
    ]
}
```
Output:  

```
{
    "policyName": "TemperatureSensorPolicy",
    "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/TemperatureSensorPolicy",
    "policyDocument": "{
        \"Version\": \"2012-10-17\",
        \"Statement\": [
            {
                \"Effect\": \"Allow\",
                \"Action\": [
                    \"iot:Publish\",
                    \"iot:Receive\"
                ],
                \"Resource\": [
                    \"arn:aws:iot:us-west-2:123456789012:topic/topic_1\",
                    \"arn:aws:iot:us-west-2:123456789012:topic/topic_2\"
                ]
            },
            {
                \"Effect\": \"Allow\",
                \"Action\": [
                    \"iot:Subscribe\"
                ],
                \"Resource\": [
                    \"arn:aws:iot:us-west-2:123456789012:topicfilter/topic_1\",
                    \"arn:aws:iot:us-west-2:123456789012:topicfilter/topic_2\"
                ]
            },
            {
                \"Effect\": \"Allow\",
                \"Action\": [
                    \"iot:Connect\"
                ],
                \"Resource\": [
                    \"arn:aws:iot:us-west-2:123456789012:client/basicPubSub\"
                ]
            }
        ]
    }",
    "policyVersionId": "1"
}
```
Untuk informasi selengkapnya, lihat [Kebijakan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-policies.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreatePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-policy.html)di *Referensi AWS CLI Perintah*. 

### `create-provisioning-claim`
<a name="iot_CreateProvisioningClaim_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-provisioning-claim`.

**AWS CLI**  
**Untuk membuat klaim penyediaan**  
`create-provisioning-claim`Contoh berikut membuat klaim penyediaan dari template penyediaan.  

```
aws iot create-provisioning-claim \
    --template-name MyTestProvisioningTemplate
```
Output:  

```
{
    "certificateId": "78de02184b2ce80cf8fb709bda59e62b19fb83513590483eb0434589476ab09f",
    "certificatePem": "-----BEGIN CERTIFICATE-----\nMIIDdzCCAl+gAwIBAgIUXSZhEBLztMLZ2fHG
14gV0NymYY0wDQYJKoZIhvcNAQEL\nBQAwfjELMAkGA1UEBhMCVVMxEzARBgNVBAgMCldhc2hpbmd0b24xEDAOBg
VBAcM\nB1NlYXR0bGUxGDAWBgNVBAoMD0FtYXpvbi5jb20gSW5jLjEgMB4GA1UECwwXQW1h\nem9uIElvVCBQcm9
2aXNpb25pbmcxDDAKBgNVBAUTAzEuMDAeFw0yMDA3MjgxNjQ0\nMDZaFw0yMDA3MjgxNjUxMDZaMEsxSTBHBgNVB
AMMQDFhNDEyM2VkNmIxYjU3MzE3\nZTgzMTJmY2MzN2FiNTdhY2MzYTZkZGVjOGQ5OGY3NzUwMWRlMjc0YjhmYTQ
xN2Iw\nggEiMA0GCSqGSIb3EXAMPLEAA4IBDwAwggEKAoIBAQDBhKI94ktKLqTwnj+ayOq1\nTAJt/N6s6IJDZvl
rYjkC0E7wzaeY3TprWk03S29vUzVuEOXHXQXZbihgpg2m6fza\nkWm9/wpjzE9ny5+xkPGVH4Wnwz7yK5m8S0agL
T96cRBSWnWmonOWdY0GKVzni0CA\n+iyGudgrFKm7Eae/v18oXrf82KtOAGO4xG0KE2WKYHsT1fx3c9xZhlXP/eX
Lhv00\n+lGp0WVw9PbhKfrxliKJ5q6sL5nVUaUHq6hlQPYwsATeOvAp3u0ak5zgTyL0fg7Y\nPyKk6VYwLW62r+V
YBSForEMOAhkq3LsP/rjxpEKmi2W4lPVS6oFZRKcD+H1Kyil5\nAgMBAAGjIDAeMAwGA1UdEwEB/wQCMAAwDgYDV
R0PAQH/BAQDAgeAMA0GCSqGSIb3\nDQEBCwUAA4IBAQAGgix2k6nVqbZFKq97/fZBzLGS0dyz5rT/E41cDIRX+1j
EPW41\nw0D+2sXheCZLZZnSkvIiP74IToNeXDrjdcaodeGFVHIElRjhMIq+4ZebPbRLtidF\nRc2hfcTAlqq9Z6v
5Vk6BeM1tu0RqH1wPoVUccLPya8EjNCbnJZUmGdOfrN/Y9pho\n5ikV+HPeZhG/k6dhE2GsQJyKFVHL/uBgKSily
1bRyWU1r6qcpWBNBHjUoD7HgOwD\nnzMh4XRb2FQDsqFalkCSYmeL8IVC49sgPD9Otyp5uteGMTy62usAAUQdq/f
ZvrWg\nOkFpwMVnGKVKT7Kg0kKOLzKWOBB2Jm4/gmrJ\n-----END CERTIFICATE-----\n",
    "keyPair": {
        "PublicKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCg
KCAQEAwYSiPeJLSi6k8J4/msjq\ntUwCbfzerOiCQ2b5a2I5AtBO8M2nmN06a1pNN0tvb1M1bhDlx10F2W4oYKYN
pun8\n2pFpvf8KY8xPZ8ufsZDxlR+Fp8M+8iuZvEtGoC0/enEQUlp1pqJzlnWNBilc54tA\ngPoshrnYKxSpuxGn
v79fKF63/NirTgBjuMRtChNlimEXAMPLE3PcWYZVz/3ly4b9\nNPpRqdFlcPT24Sn68ZYiieaurC+Z1VGlB6uoZU
D2MLAE3jrwKd7tGpOc4E8i9H4O\n2D8ipOlWMC1utq/lWAUhaKxDDgIZKty7D/648aRCpotluJT1UuqBWUSnA/h9
Ssop\neQIDAQAB\n-----END PUBLIC KEY-----\n",
        "PrivateKey": "-----BEGIN RSA PRIVATE KEY-----\nMIIEowIBAAKCAQEAwYSiPeJLSi6k8J4/
msjqtUwCbfzerOiCQ2b5a2I5AtBO8M2n\nmN06a1pNN0tvb1M1bhDlx10F2W4oYKYNpun82pFpvf8KY8xPZ8ufsZ
DxlR+Fp8M+\n8iuZvEtGoC0/enEQUlp1pqJzlnWNBilc54tAgPoshrnYKxSpuxGnv79fKF63/Nir\nTgBjuMRtCh
NlimB7E9X8d3PcWYZVz/3ly4b9NPpRqdFlcPT24Sn68ZYiieaurC+Z\n1VGlB6uoZUD2MLAE3jrwKd7tGpOc4E8i
9H4O2D8ipOlWMC1utq/lWAUhaKxDDgIZ\nKty7D/648aRCpotluJT1UuqBWUSnA/h9SsopeQIDAQABAoIBAEAybN
QUtx9T2/nK\ntZT2pA4iugecxI4dz+DmT0XVXs5VJmrx/nBSq6ejXExEpSIMO4RY7LE3ZdJcnd56\nF7tQkkY7yR
VzfxHeXFU1krOIPuxWebNOrRoPZr+1RSer+wv2aBC525+88pVuR6tM\nm3pgkrR2ycCj9FdOUoQxdjHBHaM5PDmJ
9aSxCKdg3nReepeGwsR2TQA+m2vVxWk7\nou0+91eTOP+/QfP7P8ZjOIkO2XivlRcVDyN/E4QXPKuIkM/8vS8VK+
E9pATQ0MtB\n2lw8R/YU5AJd6jlEXAMPLEGU2UzRzInNWiLtkPPPqgqXXhxOf+mxByjcMalVJk0L\nhOG2ROUCgY
EA+ROcHNHy/XbsP7FihOhEh+6Q2QxQ2ncBUPYbBazrR8Hn+7SCICQK\nVyYfd8Ajfq3e7RsKVL5SlMBp7Slidxak
bIn28fKfPn62DaemGCIoyDgLpF+eUxBx\ngzbCiBZga8brfurza43UZjKZLpg3hq721+FeAiXi1Nma4Yr9YWEHEN
8CgYEAxuWt\npzdWWmsiFzfsAw0sy9ySDA/xr5WRWzJyAqUsjsks6rxNzWebpufnYHcmtW7pLdqM\nkboHwN2pXa
kmZvrk2nKkEMq5brBYGDXuxDe+V369Bianx8aZFyIsckA7OwXW1w1h\ngRC5rQ4XOgp3+Jmw7eAO8LRYDjaN846+
QbtO2KcCgYAWS0UL51bijQR0ZwI0dz27\nFQVuCAYsp748aurcRTACCj8jbnK/QbqTNlxWsaH7ssBjZKo2D5sAqY
BRtASWODab\naHXsDhVm2Jye+ESLoHMaCLoyCkT3ll8yqXIcEDStMO7fO1Ryag164EiJvSIrMfny\nNL/fXVjCSH
/udCxdzPt+7QKBgQC+LAD7rxdr4J9538hTqpc4XK9vxRbrMXEH55XH\nHbMa2xONZXpmeTgEQBukyohCVceyRhK9
i0e6irZTjVXghOeoTpC8VXkzcnzouTiQ\neFQQSGfnp7Ioe6UIz23715pKduzSNkMSKrG924ktv7CyDBF1gBQI5g
aDoHnddJBJ\nPRTIZQKBgA8MASXtTxQntRwXXzR92U0vAighiuRkB/mx9jQpUcK1qiqHbkAMqgNF\nPFCBYIUbFT
iYKKKeJNbyJQvjfsJCkAnaFJ+RnTxk0Q6Wjm20peJ/ii4QiDdnigoE\nvdlc5cFQewWb4/zqAtPdinkPlN94ileI
79XQdc7RlJ0jpgTimL+V\n-----END RSA PRIVATE KEY-----\n"
    },
    "expiration": 1595955066.0
}
```
Untuk informasi selengkapnya, lihat [Penyediaan oleh pengguna tepercaya di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/provision-wo-cert.html#trusted-user) Pengembang Inti *AWS IoT*.  
+  Untuk detail API, lihat [CreateProvisioningClaim](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-provisioning-claim.html)di *Referensi AWS CLI Perintah*. 

### `create-provisioning-template-version`
<a name="iot_CreateProvisioningTemplateVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-provisioning-template-version`.

**AWS CLI**  
**Untuk membuat versi template penyediaan**  
Contoh berikut membuat versi untuk template penyediaan yang ditentukan. Tubuh versi baru disediakan dalam file`template.json`.  

```
aws iot create-provisioning-template-version \
    --template-name widget-template \
    --template-body file://template.json
```
Isi dari `template.json`:  

```
{
    "Parameters" : {
        "DeviceLocation": {
            "Type": "String"
        }
    },
    "Mappings": {
        "LocationTable": {
            "Seattle": {
                "LocationUrl": "https://example.aws"
            }
        }
    },
    "Resources" : {
        "thing" : {
            "Type" : "AWS::IoT::Thing",
            "Properties" : {
                "AttributePayload" : {
                    "version" : "v1",
                    "serialNumber" : "serialNumber"
                },
                "ThingName" : {"Fn::Join":["",["ThingPrefix_",{"Ref":"SerialNumber"}]]},
                "ThingTypeName" : {"Fn::Join":["",["ThingTypePrefix_",{"Ref":"SerialNumber"}]]},
                "ThingGroups" : ["widgets", "WA"],
                "BillingGroup": "BillingGroup"
            },
            "OverrideSettings" : {
                "AttributePayload" : "MERGE",
                "ThingTypeName" : "REPLACE",
                "ThingGroups" : "DO_NOTHING"
            }
        },
        "certificate" : {
            "Type" : "AWS::IoT::Certificate",
            "Properties" : {
                "CertificateId": {"Ref": "AWS::IoT::Certificate::Id"},
                "Status" : "Active"
            }
        },
        "policy" : {
            "Type" : "AWS::IoT::Policy",
            "Properties" : {
                "PolicyDocument" : {
                    "Version":"2012-10-17",		 	 	 
                    "Statement": [{
                        "Effect": "Allow",
                        "Action":["iot:Publish"],
                        "Resource": ["arn:aws:iot:us-east-1:123456789012:topic/foo/bar"]
                    }]
                }
            }
        }
    },
    "DeviceConfiguration": {
        "FallbackUrl": "https://www.example.com/test-site",
        "LocationUrl": {
            "Fn::FindInMap": ["LocationTable",{"Ref": "DeviceLocation"}, "LocationUrl"]}
        }
    }
}
```
Output:  

```
{
    "templateArn": "arn:aws:iot:us-east-1:123456789012:provisioningtemplate/widget-template",
    "templateName": "widget-template",
    "versionId": 2,
    "isDefaultVersion": false
}
```
*Untuk informasi selengkapnya, lihat [AWS IoT Secure Tunneling di IoT](https://docs.aws.amazon.com/iot/latest/developerguide/secure-tunneling.html) Core Developer AWS Guide.*  
+  Untuk detail API, lihat [CreateProvisioningTemplateVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-provisioning-template-version.html)di *Referensi AWS CLI Perintah*. 

### `create-provisioning-template`
<a name="iot_CreateProvisioningTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-provisioning-template`.

**AWS CLI**  
**Untuk membuat template penyediaan**  
`create-provisioning-template`Contoh berikut membuat template penyediaan seperti yang didefinisikan oleh file. `template.json`  

```
aws iot create-provisioning-template \
    --template-name widget-template \
    --description "A provisioning template for widgets" \
    --provisioning-role-arn arn:aws:iam::123456789012:role/Provision_role \
    --template-body file://template.json
```
Isi dari `template.json`:  

```
{
    "Parameters" : {
        "DeviceLocation": {
            "Type": "String"
        }
    },
    "Mappings": {
        "LocationTable": {
            "Seattle": {
                "LocationUrl": "https://example.aws"
            }
        }
    },
    "Resources" : {
        "thing" : {
            "Type" : "AWS::IoT::Thing",
            "Properties" : {
                "AttributePayload" : {
                    "version" : "v1",
                    "serialNumber" : "serialNumber"
                },
                "ThingName" : {"Fn::Join":["",["ThingPrefix_",{"Ref":"SerialNumber"}]]},
                "ThingTypeName" : {"Fn::Join":["",["ThingTypePrefix_",{"Ref":"SerialNumber"}]]},
                "ThingGroups" : ["widgets", "WA"],
                "BillingGroup": "BillingGroup"
            },
            "OverrideSettings" : {
                "AttributePayload" : "MERGE",
                "ThingTypeName" : "REPLACE",
                "ThingGroups" : "DO_NOTHING"
            }
        },
        "certificate" : {
            "Type" : "AWS::IoT::Certificate",
            "Properties" : {
                "CertificateId": {"Ref": "AWS::IoT::Certificate::Id"},
                "Status" : "Active"
            }
        },
        "policy" : {
            "Type" : "AWS::IoT::Policy",
            "Properties" : {
                "PolicyDocument" : {
                    "Version":"2012-10-17",		 	 	 
                    "Statement": [{
                        "Effect": "Allow",
                        "Action":["iot:Publish"],
                        "Resource": ["arn:aws:iot:us-east-1:504350838278:topic/foo/bar"]
                    }]
                }
            }
        }
    },
    "DeviceConfiguration": {
        "FallbackUrl": "https://www.example.com/test-site",
        "LocationUrl": {
            "Fn::FindInMap": ["LocationTable",{"Ref": "DeviceLocation"}, "LocationUrl"]}
        }
    }
}
```
Output:  

```
{
    "templateArn": "arn:aws:iot:us-east-1:123456789012:provisioningtemplate/widget-template",
    "templateName": "widget-template",
    "defaultVersionId": 1
}
```
*Untuk informasi selengkapnya, lihat [AWS IoT Secure Tunneling di IoT](https://docs.aws.amazon.com/iot/latest/developerguide/secure-tunneling.html) Core Developer AWS Guide.*  
+  Untuk detail API, lihat [CreateProvisioningTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-provisioning-template.html)di *Referensi AWS CLI Perintah*. 

### `create-role-alias`
<a name="iot_CreateRoleAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-role-alias`.

**AWS CLI**  
**Untuk membuat alias peran**  
`create-role-alias`Contoh berikut membuat alias peran dipanggil `LightBulbRole` untuk peran tertentu.  

```
aws iot create-role-alias \
    --role-alias LightBulbRole \
    --role-arn arn:aws:iam::123456789012:role/lightbulbrole-001
```
Output:  

```
{
    "roleAlias": "LightBulbRole",
    "roleAliasArn": "arn:aws:iot:us-west-2:123456789012:rolealias/LightBulbRole"
}
```
Untuk informasi selengkapnya, lihat [CreateRoleAlias](https://docs.aws.amazon.com/iot/latest/apireference/API_CreateRoleAlias.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [CreateRoleAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-role-alias.html)di *Referensi AWS CLI Perintah*. 

### `create-scheduled-audit`
<a name="iot_CreateScheduledAudit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-scheduled-audit`.

**AWS CLI**  
**Untuk membuat audit terjadwal**  
`create-scheduled-audit`Contoh berikut membuat audit terjadwal yang berjalan setiap minggu, pada hari Rabu, untuk memeriksa apakah sertifikat CA atau sertifikat perangkat kedaluwarsa.  

```
aws iot create-scheduled-audit \
    --scheduled-audit-name WednesdayCertCheck \
    --frequency WEEKLY \
    --day-of-week WED \
    --target-check-names CA_CERTIFICATE_EXPIRING_CHECK DEVICE_CERTIFICATE_EXPIRING_CHECK
```
Output:  

```
{
    "scheduledAuditArn": "arn:aws:iot:us-west-2:123456789012:scheduledaudit/WednesdayCertCheck"
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [CreateScheduledAudit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-scheduled-audit.html)di *Referensi AWS CLI Perintah*. 

### `create-security-profile`
<a name="iot_CreateSecurityProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-security-profile`.

**AWS CLI**  
**Untuk membuat profil keamanan**  
`create-security-profile`Contoh berikut membuat profil keamanan yang memeriksa apakah bandwidth seluler melebihi ambang batas atau jika lebih dari 10 kegagalan otorisasi terjadi dalam periode lima menit.  

```
aws iot create-security-profile \
    --security-profile-name PossibleIssue \
    --security-profile-description "Check to see if authorization fails 10 times in 5 minutes or if cellular bandwidth exceeds 128"  \
    --behaviors "[{\"name\":\"CellularBandwidth\",\"metric\":\"aws:message-byte-size\",\"criteria\":{\"comparisonOperator\":\"greater-than\",\"value\":{\"count\":128},\"consecutiveDatapointsToAlarm\":1,\"consecutiveDatapointsToClear\":1}},{\"name\":\"Authorization\",\"metric\":\"aws:num-authorization-failures\",\"criteria\":{\"comparisonOperator\":\"less-than\",\"value\":{\"count\":10},\"durationSeconds\":300,\"consecutiveDatapointsToAlarm\":1,\"consecutiveDatapointsToClear\":1}}]"
```
Output:  

```
{
    "securityProfileName": "PossibleIssue",
    "securityProfileArn": "arn:aws:iot:us-west-2:123456789012:securityprofile/PossibleIssue"
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [CreateSecurityProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-security-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-stream`
<a name="iot_CreateStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stream`.

**AWS CLI**  
**Untuk membuat aliran untuk mengirimkan satu atau lebih file besar dalam potongan melalui MQTT**  
`create-stream`Contoh berikut membuat aliran untuk mengirimkan satu atau lebih file besar dalam potongan melalui MQTT. Aliran mengangkut byte data dalam potongan atau blok yang dikemas sebagai pesan MQTT dari sumber seperti S3. Anda dapat memiliki satu atau lebih file yang terkait dengan aliran.  

```
aws iot create-stream \
    --cli-input-json file://create-stream.json
```
Isi dari `create-stream.json`:  

```
{
    "streamId": "stream12345",
    "description": "This stream is used for Amazon FreeRTOS OTA Update 12345.",
    "files": [
        {
            "fileId": 123,
            "s3Location": {
                "bucket":"codesign-ota-bucket",
                "key":"48c67f3c-63bb-4f92-a98a-4ee0fbc2bef6"
            }
        }
    ],
    "roleArn": "arn:aws:iam:123456789012:role/service-role/my_ota_stream_role"
}
```
Output:  

```
{
     "streamId": "stream12345",
     "streamArn": "arn:aws:iot:us-west-2:123456789012:stream/stream12345",
     "description": "This stream is used for Amazon FreeRTOS OTA Update 12345.",
     "streamVersion": "1"
}
```
Untuk informasi selengkapnya, lihat [CreateStream](https://docs.aws.amazon.com/iot/latest/apireference/API_CreateStream.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [CreateStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-stream.html)di *Referensi AWS CLI Perintah*. 

### `create-thing-group`
<a name="iot_CreateThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-thing-group`.

**AWS CLI**  
**Contoh 1: Untuk membuat grup benda**  
`create-thing-group`Contoh berikut membuat grup hal bernama `LightBulbs` dengan deskripsi dan dua atribut.  

```
aws iot create-thing-group \
    --thing-group-name LightBulbs \
    --thing-group-properties "thingGroupDescription=\"Generic bulb group\", attributePayload={attributes={Manufacturer=AnyCompany,wattage=60}}"
```
Output:  

```
{
    "thingGroupName": "LightBulbs",
    "thingGroupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/LightBulbs",
    "thingGroupId": "9198bf9f-1e76-4a88-8e8c-e7140142c331"
}
```
**Contoh 2: Untuk membuat grup benda yang merupakan bagian dari grup induk**  
Berikut ini `create-thing-group` membuat grup hal bernama `HalogenBulbs` yang memiliki kelompok hal induk bernama`LightBulbs`.  

```
aws iot create-thing-group \
    --thing-group-name HalogenBulbs \
    --parent-group-name LightBulbs
```
Output:  

```
{
    "thingGroupName": "HalogenBulbs",
    "thingGroupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/HalogenBulbs",
    "thingGroupId": "f4ec6b84-b42b-499d-9ce1-4dbd4d4f6f6e"
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [CreateThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `create-thing-type`
<a name="iot_CreateThingType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-thing-type`.

**AWS CLI**  
**Untuk mendefinisikan tipe benda**  
`create-thing-type`Contoh berikut mendefinisikan tipe benda dan atribut terkait.  

```
aws iot create-thing-type \
    --thing-type-name "LightBulb" \
    --thing-type-properties "thingTypeDescription=light bulb type, searchableAttributes=wattage,model"
```
Output:  

```
{
    "thingTypeName": "LightBulb",
    "thingTypeArn": "arn:aws:iot:us-west-2:123456789012:thingtype/LightBulb",
    "thingTypeId": "ce3573b0-0a3c-45a7-ac93-4e0ce14cd190"
}
```
Untuk informasi selengkapnya, lihat [Tipe Hal](https://docs.aws.amazon.com/iot/latest/developerguide/thing-types.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [CreateThingType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-thing-type.html)di *Referensi AWS CLI Perintah*. 

### `create-thing`
<a name="iot_CreateThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-thing`.

**AWS CLI**  
**Contoh 1: Untuk membuat catatan sesuatu di registri**  
`create-thing`Contoh berikut membuat entri untuk perangkat di registri hal AWS IoT.  

```
aws iot create-thing \
    --thing-name SampleIoTThing
```
Output:  

```
{
    "thingName": "SampleIoTThing",
    "thingArn": "arn:aws:iot:us-west-2: 123456789012:thing/SampleIoTThing",
    "thingId": " EXAMPLE1-90ab-cdef-fedc-ba987EXAMPLE "
}
```
**Contoh 2: Untuk mendefinisikan sesuatu yang terkait dengan tipe benda**  
`create-thing`Contoh berikut membuat sesuatu yang memiliki jenis hal yang ditentukan dan atributnya.  

```
aws iot create-thing \
    --thing-name "MyLightBulb" \
    --thing-type-name "LightBulb" \
    --attribute-payload "{"attributes": {"wattage":"75", "model":"123"}}"
```
Output:  

```
{
    "thingName": "MyLightBulb",
    "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyLightBulb",
    "thingId": "40da2e73-c6af-406e-b415-15acae538797"
}
```
Untuk informasi selengkapnya, lihat [Cara Mengelola Sesuatu dengan Registri](https://docs.aws.amazon.com/iot/latest/developerguide/thing-registry.html) dan [Jenis Hal](https://docs.aws.amazon.com/iot/latest/developerguide/thing-types.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [CreateThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-thing.html)di *Referensi AWS CLI Perintah*. 

### `create-topic-rule-destination`
<a name="iot_CreateTopicRuleDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-topic-rule-destination`.

**AWS CLI**  
**Untuk membuat tujuan aturan topik**  
`create-topic-rule-destination`Contoh berikut membuat tujuan aturan topik untuk titik akhir HTTP.  

```
aws iot create-topic-rule-destination \
    --destination-configuration httpUrlConfiguration={confirmationUrl=https://example.com}
```
Output:  

```
{
    "topicRuleDestination": {
        "arn": "arn:aws:iot:us-west-2:123456789012:ruledestination/http/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "status": "IN_PROGRESS",
        "statusReason": "Awaiting confirmation. Confirmation message sent on 2020-07-09T22:47:54.154Z; no response received from the endpoint.",
        "httpUrlProperties": {
            "confirmationUrl": "https://example.com"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat tujuan aturan topik](https://docs.aws.amazon.com/iot/latest/developerguide/rule-destination.html#create-destination) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [CreateTopicRuleDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-topic-rule-destination.html)di *Referensi AWS CLI Perintah*. 

### `create-topic-rule`
<a name="iot_CreateTopicRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-topic-rule`.

**AWS CLI**  
**Untuk membuat aturan yang mengirimkan peringatan Amazon SNS**  
`create-topic-rule`Contoh berikut membuat aturan yang mengirimkan pesan Amazon SNS saat pembacaan tingkat kelembaban tanah, seperti yang ditemukan dalam bayangan perangkat, rendah.  

```
aws iot create-topic-rule \
    --rule-name "LowMoistureRule" \
    --topic-rule-payload file://plant-rule.json
```
Contoh ini memerlukan kode JSON berikut untuk disimpan ke file bernama`plant-rule.json`:  

```
{
    "sql": "SELECT * FROM '$aws/things/MyRPi/shadow/update/accepted' WHERE state.reported.moisture = 'low'\n",
    "description": "Sends an alert whenever soil moisture level readings are too low.",
    "ruleDisabled": false,
    "awsIotSqlVersion": "2016-03-23",
    "actions": [{
            "sns": {
                "targetArn": "arn:aws:sns:us-west-2:123456789012:MyRPiLowMoistureTopic",
                "roleArn": "arn:aws:iam::123456789012:role/service-role/MyRPiLowMoistureTopicRole",
                "messageFormat": "RAW"
            }
    }]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Aturan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-create-rule.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateTopicRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/create-topic-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-account-audit-configuration`
<a name="iot_DeleteAccountAuditConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-account-audit-configuration`.

**AWS CLI**  
**Untuk menonaktifkan semua pemeriksaan audit untuk AWS akun Anda**  
`delete-account-audit-configuration`Contoh berikut mengembalikan pengaturan default untuk AWS IoT Device Defender untuk akun ini, menonaktifkan semua pemeriksaan audit dan menghapus data konfigurasi. Ini juga menghapus audit terjadwal untuk akun ini. **Gunakan perintah ini dengan hati-hati.**  

```
aws iot delete-account-audit-configuration \
    --delete-scheduled-audits
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteAccountAuditConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-account-audit-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-audit-suppression`
<a name="iot_DeleteAuditSuppression_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-audit-suppression`.

**AWS CLI**  
**Untuk menghapus penindasan temuan audit**  
`delete-audit-suppression`Contoh berikut menghapus penekanan pencarian audit untuk DEVICE\$1CERTIFICATE\$1EXPIRING\$1CHECK.  

```
aws iot delete-audit-suppression \
    --check-name DEVICE_CERTIFICATE_EXPIRING_CHECK \
    --resource-identifier deviceCertificateId="c7691e<shortened>"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Audit menemukan penekanan di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/audit-finding-suppressions.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteAuditSuppression](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-audit-suppression.html)di *Referensi AWS CLI Perintah*. 

### `delete-authorizer`
<a name="iot_DeleteAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-authorizer`.

**AWS CLI**  
**Untuk menghapus otorisasi kustom**  
`delete-authorizer`Contoh berikut menghapus authorizer bernama. `CustomAuthorizer` Authorizer khusus harus dalam `INACTIVE` status sebelum Anda dapat menghapusnya.  

```
aws iot delete-authorizer \
    --authorizer-name CustomAuthorizer
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteAuthorizer](https://docs.aws.amazon.com/iot/latest/apireference/API_DeleteAuthorizer.html)di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `delete-billing-group`
<a name="iot_DeleteBillingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-billing-group`.

**AWS CLI**  
**Untuk menghapus grup penagihan**  
`delete-billing-group`Contoh berikut menghapus grup penagihan yang ditentukan. Anda dapat menghapus grup penagihan meskipun berisi satu atau beberapa hal.  

```
aws iot delete-billing-group \
    --billing-group-name BillingGroupTwo
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Grup Penagihan](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot-billing-groups.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteBillingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-billing-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-ca-certificate`
<a name="iot_DeleteCaCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ca-certificate`.

**AWS CLI**  
**Untuk menghapus sertifikat CA**  
`delete-ca-certificate`Contoh berikut menghapus sertifikat CA dengan ID sertifikat yang ditentukan.  

```
aws iot delete-ca-certificate \
    --certificate-id f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus CACertificate](https://docs.aws.amazon.com/iot/latest/apireference/API_DeleteCACertificate.html) di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DeleteCaCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-ca-certificate.html)di *Referensi AWS CLI Perintah*. 

### `delete-certificate`
<a name="iot_DeleteCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-certificate`.

**AWS CLI**  
**Untuk menghapus sertifikat perangkat**  
`delete-certificate`Contoh berikut menghapus sertifikat perangkat dengan ID yang ditentukan.  

```
aws iot delete-certificate \
    --certificate-id c0c57bbc8baaf4631a9a0345c957657f5e710473e3ddbee1428d216d54d53ac9
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteCertificate](https://docs.aws.amazon.com/iot/latest/apireference/API_DeleteCertificate.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DeleteCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-certificate.html)di *Referensi AWS CLI Perintah*. 

### `delete-custom-metric`
<a name="iot_DeleteCustomMetric_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-custom-metric`.

**AWS CLI**  
**Untuk menghapus metrik kustom**  
`delete-custom-metric`Contoh berikut menghapus metrik kustom.  

```
aws iot delete-custom-metric \
    --metric-name batteryPercentage \
    --region us-east-1
```
Output:  

```
HTTP 200
```
Untuk informasi selengkapnya, lihat [Metrik khusus](https://docs.aws.amazon.com/iot/latest/developerguide/dd-detect-custom-metrics.html) di Panduan Pengembang *Inti AWS IoT*.  
+  Untuk detail API, lihat [DeleteCustomMetric](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-custom-metric.html)di *Referensi AWS CLI Perintah*. 

### `delete-dimension`
<a name="iot_DeleteDimension_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-dimension`.

**AWS CLI**  
**Untuk menghapus dimensi**  
`delete-dimension`Contoh berikut menghapus dimensi yang disebut`TopicFilterForAuthMessages`.  

```
aws iot delete-dimension \
    --name TopicFilterForAuthMessages
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteDimension](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-dimension.html)di *Referensi AWS CLI Perintah*. 

### `delete-domain-configuration`
<a name="iot_DeleteDomainConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-domain-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi domain**  
`delete-domain-configuration`Contoh berikut menghapus konfigurasi domain bernama `additionalDataDomain` dari AWS akun Anda.  

```
aws iot delete-domain-configuration \
    --domain-configuration-name "additionalDataDomain" \
    --domain-configuration-status "OK"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Titik Akhir yang Dapat Dikonfigurasi](https://docs.aws.amazon.com/iot/latest/developerguide/iot-custom-endpoints-configurable-aws.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteDomainConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-domain-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-dynamic-thing-group`
<a name="iot_DeleteDynamicThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-dynamic-thing-group`.

**AWS CLI**  
**Untuk menghapus grup hal dinamis**  
`delete-dynamic-thing-group`Contoh berikut menghapus kelompok hal dinamis yang ditentukan.  

```
aws iot delete-dynamic-thing-group \
    --thing-group-name "RoomTooWarm"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Dynamic Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/dynamic-thing-groups.html) di *AWS Panduan Pengembang IoT*.  
+  Untuk detail API, lihat [DeleteDynamicThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-dynamic-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-job-execution`
<a name="iot_DeleteJobExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-job-execution`.

**AWS CLI**  
**Untuk menghapus eksekusi pekerjaan**  
`delete-job-execution`Contoh berikut menghapus eksekusi pekerjaan dari pekerjaan yang ditentukan pada perangkat. Gunakan `describe-job-execution` untuk mendapatkan nomor eksekusi.  

```
aws iot delete-job-execution
    --job-id "example-job-02"
    --thing-name "MyRaspberryPi"
    --execution-number 1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteJobExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-job-execution.html)di *Referensi AWS CLI Perintah*. 

### `delete-job`
<a name="iot_DeleteJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-job`.

**AWS CLI**  
**Untuk menghapus pekerjaan**  
`delete-job`Contoh berikut menghapus pekerjaan yang ditentukan. Dengan menentukan `--force` opsi, pekerjaan dihapus bahkan jika statusnya`IN_PROGRESS`.  

```
aws iot delete-job \
    --job-id "example-job-04" \
    --force
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-job.html)di *Referensi AWS CLI Perintah*. 

### `delete-mitigation-action`
<a name="iot_DeleteMitigationAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-mitigation-action`.

**AWS CLI**  
**Untuk menghapus tindakan mitigasi**  
`delete-mitigation-action`Contoh berikut menghapus tindakan mitigasi yang ditentukan.  

```
aws iot delete-mitigation-action \
    --action-name AddThingsToQuarantineGroup1Action
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteMitigationAction (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-DeleteMitigationAction) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteMitigationAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-mitigation-action.html)di *Referensi AWS CLI Perintah*. 

### `delete-ota-update`
<a name="iot_DeleteOtaUpdate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ota-update`.

**AWS CLI**  
**Untuk menghapus pembaruan OTA**  
`delete-ota-update`Contoh berikut menghapus pembaruan OTA yang ditentukan.  

```
aws iot delete-ota-update \
    --ota-update-id ota12345 \
    --delete-stream \
    --force-delete-aws-job
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus OTAUpdate](https://docs.aws.amazon.com/iot/latest/apireference/API_DeleteOTAUpdate.html) di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DeleteOtaUpdate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-ota-update.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy-version`
<a name="iot_DeletePolicyVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy-version`.

**AWS CLI**  
**Untuk menghapus versi kebijakan**  
`delete-policy-version`Contoh berikut menghapus versi 2 dari kebijakan yang ditentukan dari AWS akun Anda.  

```
aws iot delete-policy-version \
    --policy-name UpdateDeviceCertPolicy \
    --policy-version-id 2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-policies.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeletePolicyVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-policy-version.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy`
<a name="iot_DeletePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan**  
`delete-policy`Contoh berikut menghapus kebijakan yang ditentukan dari AWS akun Anda.  

```
aws iot delete-policy --policy-name UpdateDeviceCertPolicy
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-policies.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeletePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-provisioning-template-version`
<a name="iot_DeleteProvisioningTemplateVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-provisioning-template-version`.

**AWS CLI**  
**Untuk menghapus versi template penyediaan**  
`delete-provisioning-template-version`Contoh berikut menghapus versi 2 dari template penyediaan yang ditentukan.  

```
aws iot delete-provisioning-template-version \
    --version-id 2 \
    --template-name "widget-template"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [AWS IoT Secure Tunneling di IoT](https://docs.aws.amazon.com/iot/latest/developerguide/secure-tunneling.html) Core Developer AWS Guide.*  
+  Untuk detail API, lihat [DeleteProvisioningTemplateVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-provisioning-template-version.html)di *Referensi AWS CLI Perintah*. 

### `delete-provisioning-template`
<a name="iot_DeleteProvisioningTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-provisioning-template`.

**AWS CLI**  
**Untuk menghapus template penyediaan**  
`delete-provisioning-template`Contoh berikut menghapus template penyediaan yang ditentukan.  

```
aws iot delete-provisioning-template \
    --template-name widget-template
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [AWS IoT Secure Tunneling di IoT](https://docs.aws.amazon.com/iot/latest/developerguide/secure-tunneling.html) Core Developer AWS Guide.*  
+  Untuk detail API, lihat [DeleteProvisioningTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-provisioning-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-registration-code`
<a name="iot_DeleteRegistrationCode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-registration-code`.

**AWS CLI**  
**Untuk menghapus cod pendaftaran**  
`delete-registration-code`Contoh berikut menghapus kode registrasi khusus akun AWS IoT.  

```
aws iot delete-registration-code
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan Sertifikat Anda Sendiri](https://docs.aws.amazon.com/iot/latest/developerguide/device-certs-your-own.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteRegistrationCode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-registration-code.html)di *Referensi AWS CLI Perintah*. 

### `delete-role-alias`
<a name="iot_DeleteRoleAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-role-alias`.

**AWS CLI**  
**Untuk menghapus AWS alias peran IoT**  
`delete-role-alias`Contoh berikut menghapus alias peran AWS IoT bernama. `LightBulbRole`  

```
aws iot delete-role-alias \
    --role-alias LightBulbRole
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengotorisasi Panggilan Langsung ke AWS Layanan](https://docs.aws.amazon.com/iot/latest/developerguide/authorizing-direct-aws.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteRoleAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-role-alias.html)di *Referensi AWS CLI Perintah*. 

### `delete-scheduled-audit`
<a name="iot_DeleteScheduledAudit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-scheduled-audit`.

**AWS CLI**  
**Untuk menghapus audit terjadwal**  
`delete-scheduled-audit`Contoh berikut menghapus audit terjadwal AWS IoT Device Defender yang diberi nama. `AWSIoTDeviceDefenderDailyAudit`  

```
aws iot delete-scheduled-audit \
    --scheduled-audit-name AWSIoTDeviceDefenderDailyAudit
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteScheduledAudit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-scheduled-audit.html)di *Referensi AWS CLI Perintah*. 

### `delete-security-profile`
<a name="iot_DeleteSecurityProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-security-profile`.

**AWS CLI**  
**Untuk menghapus profil keamanan**  
`delete-security-profile`Contoh berikut menghapus profil keamanan bernama`PossibleIssue`.  

```
aws iot delete-security-profile \
    --security-profile-name PossibleIssue
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteSecurityProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-security-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-stream`
<a name="iot_DeleteStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stream`.

**AWS CLI**  
**Untuk menghapus aliran**  
`delete-stream`Contoh berikut menghapus aliran yang ditentukan.  

```
aws iot delete-stream \
    --stream-id stream12345
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteStream](https://docs.aws.amazon.com/iot/latest/apireference/API_DeleteStream.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DeleteStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-stream.html)di *Referensi AWS CLI Perintah*. 

### `delete-thing-group`
<a name="iot_DeleteThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-thing-group`.

**AWS CLI**  
**Untuk menghapus grup benda**  
`delete-thing-group`Contoh berikut menghapus kelompok hal yang ditentukan. Anda tidak dapat menghapus grup benda jika berisi grup hal anak.  

```
aws iot delete-thing-group \
    --thing-group-name DefectiveBulbs
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-thing-type`
<a name="iot_DeleteThingType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-thing-type`.

**AWS CLI**  
**Contoh 1: Untuk menghapus tipe benda**  
`delete-thing-type`Contoh berikut menghapus jenis hal usang.  

```
aws iot delete-thing-type \
    --thing-type-name "obsoleteThingType"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Tipe Hal](https://docs.aws.amazon.com/iot/latest/developerguide/thing-types.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteThingType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-thing-type.html)di *Referensi AWS CLI Perintah*. 

### `delete-thing`
<a name="iot_DeleteThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-thing`.

**AWS CLI**  
**Untuk menampilkan informasi rinci tentang suatu hal**  
`delete-thing`Contoh berikut menghapus sesuatu dari registri AWS IoT untuk AWS akun Anda.  
aws iot delete-thing --thing-name "” FourthBulb  
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Mengelola Sesuatu dengan Registri](https://docs.aws.amazon.com/iot/latest/developerguide/thing-registry.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-thing.html)di *Referensi AWS CLI Perintah*. 

### `delete-topic-rule-destination`
<a name="iot_DeleteTopicRuleDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-topic-rule-destination`.

**AWS CLI**  
**Untuk menghapus tujuan aturan topik**  
`delete-topic-rule-destination`Contoh berikut menghapus tujuan aturan topik yang ditentukan.  

```
aws iot delete-topic-rule-destination \
    --arn "arn:aws:iot:us-west-2:123456789012:ruledestination/http/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus tujuan aturan topik](https://docs.aws.amazon.com/iot/latest/developerguide/rule-destination.html#delete-destination) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteTopicRuleDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-topic-rule-destination.html)di *Referensi AWS CLI Perintah*. 

### `delete-topic-rule`
<a name="iot_DeleteTopicRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-topic-rule`.

**AWS CLI**  
**Untuk menghapus aturan**  
`delete-topic-rule`Contoh berikut menghapus aturan yang ditentukan.  

```
aws iot delete-topic-rule \
    --rule-name "LowMoistureRule"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Aturan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-delete-rule.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteTopicRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-topic-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-v2-logging-level`
<a name="iot_DeleteV2LoggingLevel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-v2-logging-level`.

**AWS CLI**  
**Untuk menghapus level logging untuk grup sesuatu**  
`delete-v2-logging-level`Contoh berikut menghapus tingkat logging untuk kelompok hal yang ditentukan.  

```
aws iot delete-v2-logging-level \
    --target-type THING_GROUP \
    --target-name LightBulbs
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteV2 LoggingLevel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/delete-v2-logging-level.html) di Referensi *AWS CLI Perintah*. 

### `deprecate-thing-type`
<a name="iot_DeprecateThingType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deprecate-thing-type`.

**AWS CLI**  
**Contoh 1: Untuk menghentikan tipe benda**  
`deprecate-thing-type`Contoh berikut menghentikan tipe benda sehingga pengguna tidak dapat mengaitkan hal-hal baru dengannya.  

```
aws iot deprecate-thing-type \
    --thing-type-name "obsoleteThingType"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk membalikkan penghentian tipe benda**  
`deprecate-thing-type`Contoh berikut membalikkan penghentian tipe benda, yang memungkinkan pengguna untuk mengaitkan hal-hal baru dengannya lagi.  

```
aws iot deprecate-thing-type \
    --thing-type-name "obsoleteThingType" \
    --undo-deprecate
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Tipe Hal](https://docs.aws.amazon.com/iot/latest/developerguide/thing-types.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeprecateThingType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/deprecate-thing-type.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-audit-configuration`
<a name="iot_DescribeAccountAuditConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-audit-configuration`.

**AWS CLI**  
**Untuk melihat pengaturan konfigurasi audit saat ini**  
`describe-account-audit-configuration`Contoh berikut mencantumkan pengaturan saat ini untuk konfigurasi audit AWS IoT Device Defender Anda.  

```
aws iot describe-account-audit-configuration
```
Output:  

```
{
    "roleArn": "arn:aws:iam::123456789012:role/service-role/AWSIoTDeviceDefenderAudit_1551201085996",
    "auditNotificationTargetConfigurations": {
        "SNS": {
            "targetArn": "arn:aws:sns:us-west-2:123456789012:ddaudits",
            "roleArn": "arn:aws:iam::123456789012:role/service-role/AWSIoTDeviceDefenderAudit",
            "enabled": true
        }
    },
    "auditCheckConfigurations": {
        "AUTHENTICATED_COGNITO_ROLE_OVERLY_PERMISSIVE_CHECK": {
            "enabled": true
        },
        "CA_CERTIFICATE_EXPIRING_CHECK": {
            "enabled": true
        },
        "CONFLICTING_CLIENT_IDS_CHECK": {
            "enabled": true
        },
        "DEVICE_CERTIFICATE_EXPIRING_CHECK": {
            "enabled": true
        },
        "DEVICE_CERTIFICATE_SHARED_CHECK": {
            "enabled": true
        },
        "IOT_POLICY_OVERLY_PERMISSIVE_CHECK": {
            "enabled": true
        },
        "LOGGING_DISABLED_CHECK": {
            "enabled": true
        },
        "REVOKED_CA_CERTIFICATE_STILL_ACTIVE_CHECK": {
            "enabled": true
        },
        "REVOKED_DEVICE_CERTIFICATE_STILL_ACTIVE_CHECK": {
            "enabled": true
        },
        "UNAUTHENTICATED_COGNITO_ROLE_OVERLY_PERMISSIVE_CHECK": {
            "enabled": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeAccountAuditConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-account-audit-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-audit-finding`
<a name="iot_DescribeAuditFinding_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-audit-finding`.

**AWS CLI**  
**Untuk membuat daftar detail untuk temuan audit**  
`describe-audit-finding`Contoh berikut mencantumkan detail untuk temuan audit AWS IoT Device Defender yang ditentukan. Audit dapat menghasilkan banyak temuan. Gunakan `list-audit-findings` perintah untuk mendapatkan daftar temuan dari audit untuk mendapatkan`findingId`.  

```
aws iot describe-audit-finding \
    --finding-id "ef4826b8-e55a-44b9-b460-5c485355371b"
```
Output:  

```
{
    "finding": {
        "findingId": "ef4826b8-e55a-44b9-b460-5c485355371b",
        "taskId": "873ed69c74a9ec8fa9b8e88e9abc4661",
        "checkName": "IOT_POLICY_OVERLY_PERMISSIVE_CHECK",
        "taskStartTime": 1576012045.745,
        "findingTime": 1576012046.168,
        "severity": "CRITICAL",
        "nonCompliantResource": {
            "resourceType": "IOT_POLICY",
            "resourceIdentifier": {
                "policyVersionIdentifier": {
                    "policyName": "smp-ggrass-group_Core-policy",
                    "policyVersionId": "1"
                }
            }
         },
        "reasonForNonCompliance": "Policy allows broad access to IoT data plane actions: [iot:Subscribe, iot:Connect, iot:GetThingShadow, iot:DeleteThingShadow, iot:UpdateThingShadow, iot:Publish].",
        "reasonForNonComplianceCode": "ALLOWS_BROAD_ACCESS_TO_IOT_DATA_PLANE_ACTIONS"
    }
}
```
Untuk informasi selengkapnya, lihat [Periksa Hasil Audit (Perintah Audit)](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html#device-defender-AuditCommandsFindings) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeAuditFinding](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-audit-finding.html)di *Referensi AWS CLI Perintah*. 

### `describe-audit-mitigation-actions-task`
<a name="iot_DescribeAuditMitigationActionsTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-audit-mitigation-actions-task`.

**AWS CLI**  
**Untuk menunjukkan rincian tugas tindakan mitigasi audit**  
`describe-audit-mitigation-actions-task`Contoh berikut menunjukkan rincian untuk tugas yang ditentukan, di `ResetPolicyVersionAction` mana diterapkan untuk temuan. Hasilnya meliputi kapan tugas dimulai dan berakhir, berapa banyak temuan yang ditargetkan (dan hasilnya), dan definisi tindakan yang diterapkan sebagai bagian dari tugas ini.  

```
aws iot describe-audit-mitigation-actions-task \
    --task-id ResetPolicyTask01
```
Output:  

```
{
    "taskStatus": "COMPLETED",
    "startTime": "2019-12-10T15:13:19.457000-08:00",
    "endTime": "2019-12-10T15:13:19.947000-08:00",
    "taskStatistics": {
        "IOT_POLICY_OVERLY_PERMISSIVE_CHECK": {
            "totalFindingsCount": 1,
            "failedFindingsCount": 0,
            "succeededFindingsCount": 1,
            "skippedFindingsCount": 0,
            "canceledFindingsCount": 0
        }
    },
    "target": {
        "findingIds": [
            "ef4826b8-e55a-44b9-b460-5c485355371b"
        ]
    },
    "auditCheckToActionsMapping": {
        "IOT_POLICY_OVERLY_PERMISSIVE_CHECK": [
            "ResetPolicyVersionAction"
        ]
    },
    "actionsDefinition": [
        {
            "name": "ResetPolicyVersionAction",
            "id": "1ea0b415-bef1-4a01-bd13-72fb63c59afb",
            "roleArn": "arn:aws:iam::123456789012:role/service-role/ReplacePolicyVersionRole",
            "actionParams": {
                "replaceDefaultPolicyVersionParams": {
                    "templateName": "BLANK_POLICY"
                }
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [DescribeAuditMitigationActionsTask (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-DescribeAuditMitigationActionsTask) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DescribeAuditMitigationActionsTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-audit-mitigation-actions-task.html)di *Referensi AWS CLI Perintah*. 

### `describe-audit-suppression`
<a name="iot_DescribeAuditSuppression_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-audit-suppression`.

**AWS CLI**  
**Untuk mendapatkan detail tentang penindasan temuan audit**  
`describe-audit-suppression`Contoh berikut mencantumkan rincian tentang penindasan temuan audit.  

```
aws iot describe-audit-task \
    --task-id "787ed873b69cb4d6cdbae6ddd06996c5"
```
Output:  

```
{
    "taskStatus": "COMPLETED",
    "taskType": "SCHEDULED_AUDIT_TASK",
    "taskStartTime": 1596168096.157,
    "taskStatistics": {
        "totalChecks": 1,
        "inProgressChecks": 0,
        "waitingForDataCollectionChecks": 0,
        "compliantChecks": 0,
        "nonCompliantChecks": 1,
        "failedChecks": 0,
        "canceledChecks": 0
    },
    "scheduledAuditName": "AWSIoTDeviceDefenderDailyAudit",
    "auditDetails": {
        "DEVICE_CERTIFICATE_EXPIRING_CHECK": {
            "checkRunStatus": "COMPLETED_NON_COMPLIANT",
            "checkCompliant": false,
            "totalResourcesCount": 195,
            "nonCompliantResourcesCount": 2
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Audit menemukan penekanan di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/audit-finding-suppressions.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DescribeAuditSuppression](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-audit-suppression.html)di *Referensi AWS CLI Perintah*. 

### `describe-audit-task`
<a name="iot_DescribeAuditTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-audit-task`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang instance audit**  
`describe-audit-task`Contoh berikut mendapatkan informasi tentang instance audit AWS IoT Device Defender. Jika audit selesai, statistik ringkasan untuk menjalankan disertakan dalam hasil.  

```
aws iot describe-audit-task \
    --task-id a3aea009955e501a31b764abe1bebd3d
```
Output:  

```
 {
    "taskStatus": "COMPLETED",
    "taskType": "ON_DEMAND_AUDIT_TASK",
    "taskStartTime": 1560356923.434,
    "taskStatistics": {
        "totalChecks": 3,
        "inProgressChecks": 0,
        "waitingForDataCollectionChecks": 0,
        "compliantChecks": 3,
        "nonCompliantChecks": 0,
        "failedChecks": 0,
        "canceledChecks": 0
    },
    "auditDetails": {
        "CA_CERTIFICATE_EXPIRING_CHECK": {
            "checkRunStatus": "COMPLETED_COMPLIANT",
            "checkCompliant": true,
            "totalResourcesCount": 0,
            "nonCompliantResourcesCount": 0
        },
        "DEVICE_CERTIFICATE_EXPIRING_CHECK": {
            "checkRunStatus": "COMPLETED_COMPLIANT",
            "checkCompliant": true,
            "totalResourcesCount": 6,
            "nonCompliantResourcesCount": 0
        },
        "REVOKED_CA_CERTIFICATE_STILL_ACTIVE_CHECK": {
            "checkRunStatus": "COMPLETED_COMPLIANT",
            "checkCompliant": true,
            "totalResourcesCount": 0,
            "nonCompliantResourcesCount": 0
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeAuditTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-audit-task.html)di *Referensi AWS CLI Perintah*. 

### `describe-authorizer`
<a name="iot_DescribeAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-authorizer`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang otorisasi khusus**  
`describe-authorizer`Contoh berikut menampilkan rincian untuk authorizer kustom yang ditentukan.  

```
aws iot describe-authorizer \
    --authorizer-name CustomAuthorizer
```
Output:  

```
{
    "authorizerDescription": {
        "authorizerName": "CustomAuthorizer",
        "authorizerArn": "arn:aws:iot:us-west-2:123456789012:authorizer/CustomAuthorizer",
        "authorizerFunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:CustomAuthorizerFunction",
        "tokenKeyName": "MyAuthToken",
        "tokenSigningPublicKeys": {
            "FIRST_KEY": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA1uJOB4lQPgG/lM6ZfIwo\nZ+7ENxAio9q6QD4FFqjGZsvjtYwjoe1RKK0U8Eq9xb5O3kRSmyIwTzwzm/f4Gf0Y\nZUloJ+t3PUUwHrmbYTAgTrCUgRFygjfgVwGCPs5ZAX4Eyqt5cr+AIHIiUDbxSa7p\nzwOBKPeic0asNJpqT8PkBbRaKyleJh5oo81NDHHmVtbBm5A5YiJjqYXLaVAowKzZ\n+GqsNvAQ9Jy1wI2VrEa1OfL8flDB/BJLm7zjpfPOHDJQgID0XnZwAlNnZcOhCwIx\n50g2LW2Oy9R/dmqtDmJiVP97Z4GykxPvwlYHrUXY0iW1R3AR/Ac1NhCTGZMwVDB1\nlQIDAQAB\n-----END PUBLIC KEY-----"
        },
        "status": "ACTIVE",
        "creationDate": 1571245658.069,
        "lastModifiedDate": 1571245658.069
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeAuthorizer](https://docs.aws.amazon.com/iot/latest/apireference/API_DescribeAuthorizer.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DescribeAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `describe-billing-group`
<a name="iot_DescribeBillingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-billing-group`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang grup penagihan**  
`describe-billing-group`Contoh berikut mendapatkan informasi untuk grup penagihan yang ditentukan.  

```
aws iot describe-billing-group --billing-group-name GroupOne
```
Output:  

```
{
    "billingGroupName": "GroupOne",
    "billingGroupId": "103de383-114b-4f51-8266-18f209ef5562",
    "billingGroupArn": "arn:aws:iot:us-west-2:123456789012:billinggroup/GroupOne",
    "version": 1,
    "billingGroupProperties": {},
    "billingGroupMetadata": {
        "creationDate": 1560199355.378
    }
}
```
Untuk informasi selengkapnya, lihat [Grup Penagihan](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot-billing-groups.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DescribeBillingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-billing-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-ca-certificate`
<a name="iot_DescribeCaCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ca-certificate`.

**AWS CLI**  
**Untuk mendapatkan detail tentang sertifikat CA**  
`describe-ca-certificate`Contoh berikut menampilkan rincian untuk sertifikat CA yang ditentukan.  

```
aws iot describe-ca-certificate \
    --certificate-id f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467
```
Output:  

```
{
    "certificateDescription": {
        "certificateArn": "arn:aws:iot:us-west-2:123456789012:cacert/f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467",
        "certificateId": "f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467",
        "status": "INACTIVE",
        "certificatePem": "-----BEGIN CERTIFICATE-----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\nfo0e\n-----END CERTIFICATE-----\n",
        "ownedBy": "123456789012",
        "creationDate": 1569365372.053,
        "autoRegistrationStatus": "DISABLE",
        "lastModifiedDate": 1569365372.053,
        "customerVersion": 1,
        "generationId": "c5c2eb95-140b-4f49-9393-6aaac85b2a90",
        "validity": {
            "notBefore": 1569360675.0,
            "notAfter": 1884720675.0
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan CACertificate](https://docs.aws.amazon.com/iot/latest/apireference/API_DescribeCACertificate.html) di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DescribeCaCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-ca-certificate.html)di *Referensi AWS CLI Perintah*. 

### `describe-certificate`
<a name="iot_DescribeCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-certificate`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sertifikat**  
`describe-certificate`Contoh berikut menampilkan rincian untuk sertifikat yang ditentukan.  

```
aws iot describe-certificate \
    --certificate-id "4f0ba725787aa94d67d2fca420eca022242532e8b3c58e7465c7778b443fd65e"
```
Output:  

```
{
    "certificateDescription": {
        "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/4f0ba725787aa94d67d2fca420eca022242532e8b3c58e7465c7778b443fd65e",
        "certificateId": "4f0ba725787aa94d67d2fca420eca022242532e8b3c58e7465c7778b443fd65e",
        "status": "ACTIVE",
        "certificatePem": "-----BEGIN CERTIFICATE-----
MIICiTEXAMPLEQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
VVMxCzAJBgNVBEXAMPLEMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
b24xFDASBgNVBAsTC0lBTSBDEXAMPLElMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5EXAMPLEcNMTEwNDI1MjA0NTIxWhcN
MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNEXAMPLEdBMRAwDgYD
VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBEXAMPLEz
b2xEXAMPLEYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
YXpvbi5jb20wgZ8EXAMPLEZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
21uUSfwfEvySWtC2XADZ4nB+BLYEXAMPLEpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7EXAMPLEGBzZswY6786m86gpE
Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFEXAMPLEAtCu4
nUhVVxYUnEXAMPLE8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
FFBjvSfpJIlJ00zbhNYS5f6GEXAMPLEl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=
-----END CERTIFICATE-----",
        "ownedBy": "123456789012",
        "creationDate": 1541022751.983,
        "lastModifiedDate": 1541022751.983,
        "customerVersion": 1,
        "transferData": {},
        "generationId": "6974fbed-2e61-4114-bc5e-4204cc79b045",
        "validity": {
            "notBefore": 1541022631.0,
            "notAfter": 2524607999.0
        }
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeCertificate](https://docs.aws.amazon.com/iot/latest/apireference/API_DescribeCertificate.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DescribeCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-certificate.html)di *Referensi AWS CLI Perintah*. 

### `describe-custom-metric`
<a name="iot_DescribeCustomMetric_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-custom-metric`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang metrik kustom Device Defender**  
`describe-custom-metric`Contoh berikut mendapatkan informasi tentang metrik kustom bernama`myCustomMetric`.  

```
aws iot describe-custom-metric \
    --metric-name myCustomMetric
```
Output:  

```
{
    "metricName": "myCustomMetric",
    "metricArn": "arn:aws:iot:us-east-1:1234564789012:custommetric/myCustomMetric",
    "metricType": "number",
    "displayName": "My custom metric",
    "creationDate": 2020-11-17T23:02:12.879000-09:00,
    "lastModifiedDate": 2020-11-17T23:02:12.879000-09:00
}
```
Untuk informasi selengkapnya, lihat [Metrik khusus](https://docs.aws.amazon.com/iot/latest/developerguide/dd-detect-custom-metrics.html) di Panduan Pengembang *Inti AWS IoT*.  
+  Untuk detail API, lihat [DescribeCustomMetric](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-custom-metric.html)di *Referensi AWS CLI Perintah*. 

### `describe-default-authorizer`
<a name="iot_DescribeDefaultAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-default-authorizer`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang otorisasi kustom default**  
`describe-default-authorizer`Contoh berikut menampilkan rincian untuk authorizer kustom default.  

```
aws iot describe-default-authorizer
```
Output:  

```
{
    "authorizerName": "CustomAuthorizer",
    "authorizerArn": "arn:aws:iot:us-west-2:123456789012:authorizer/CustomAuthorizer"
}
```
Untuk informasi selengkapnya, lihat [DescribeDefaultAuthorizer](https://docs.aws.amazon.com/iot/latest/apireference/API_DescribeDefautAuthorizer.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DescribeDefaultAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-default-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `describe-dimension`
<a name="iot_DescribeDimension_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-dimension`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang dimensi**  
`describe-dimension`Contoh berikut mendapatkan informasi tentang dimensi bernama`TopicFilterForAuthMessages`.  

```
aws iot describe-dimension \
    --name TopicFilterForAuthMessages
```
Output:  

```
{
    "name": "TopicFilterForAuthMessages",
    "arn": "arn:aws:iot:eu-west-2:123456789012:dimension/TopicFilterForAuthMessages",
    "type": "TOPIC_FILTER",
    "stringValues": [
        "device/+/auth"
    ],
    "creationDate": 1578620223.255,
    "lastModifiedDate": 1578620223.255
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeDimension](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-dimension.html)di *Referensi AWS CLI Perintah*. 

### `describe-domain-configuration`
<a name="iot_DescribeDomainConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-domain-configuration`.

**AWS CLI**  
**Untuk mendeskripsikan konfigurasi domain**  
`describe-domain-configuration`Contoh berikut menampilkan rincian tentang konfigurasi domain yang ditentukan.  

```
aws iot describe-domain-configuration \
    --domain-configuration-name "additionalDataDomain"
```
Output:  

```
{
    "domainConfigurationName": "additionalDataDomain",
    "domainConfigurationArn": "arn:aws:iot:us-east-1:758EXAMPLE143:domainconfiguration/additionalDataDomain/norpw",
    "domainName": "d055exampleed74y71zfd-ats.beta.us-east-1.iot.amazonaws.com",
    "serverCertificates": [],
    "domainConfigurationStatus": "ENABLED",
    "serviceType": "DATA",
    "domainType": "AWS_MANAGED",
    "lastStatusChangeDate": 1601923783.774
}
```
Untuk informasi selengkapnya, lihat [Titik Akhir yang Dapat Dikonfigurasi](https://docs.aws.amazon.com/iot/latest/developerguide/iot-custom-endpoints-configurable-aws.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DescribeDomainConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-domain-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-endpoint`
<a name="iot_DescribeEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-endpoint`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan titik AWS akhir Anda saat ini**  
`describe-endpoint`Contoh berikut mengambil AWS endpoint default yang semua perintah diterapkan.  

```
aws iot describe-endpoint
```
Output:  

```
{
    "endpointAddress": "abc123defghijk.iot.us-west-2.amazonaws.com"
}
```
Untuk informasi selengkapnya, lihat [DescribeEndpoint](https://docs.aws.amazon.com/iot/latest/developerguide/iot-commands.html#api-iot-DescribeEndpoint)di Panduan *Pengembang AWS IoT*.  
**Contoh 2: Untuk mendapatkan titik akhir ATS**  
`describe-endpoint`Contoh berikut mengambil titik akhir Amazon Trust Services (ATS).  

```
aws iot describe-endpoint \
    --endpoint-type iot:Data-ATS
```
Output:  

```
{
    "endpointAddress": "abc123defghijk-ats.iot.us-west-2.amazonaws.com"
}
```
*Untuk informasi selengkapnya, lihat [Sertifikat X.509 dan IoT di Panduan Pengembang AWSAWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/managing-device-certs.html).*  
+  Untuk detail API, lihat [DescribeEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-configurations`
<a name="iot_DescribeEventConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-configurations`.

**AWS CLI**  
**Untuk menunjukkan jenis acara mana yang diterbitkan**  
`describe-event-configurations`Contoh berikut mencantumkan konfigurasi yang mengontrol peristiwa mana yang dihasilkan ketika sesuatu ditambahkan, diperbarui, atau dihapus.  

```
aws iot describe-event-configurations
```
Output:  

```
{
    "eventConfigurations": {
        "CA_CERTIFICATE": {
            "Enabled": false
        },
        "CERTIFICATE": {
            "Enabled": false
        },
        "JOB": {
            "Enabled": false
        },
        "JOB_EXECUTION": {
            "Enabled": false
        },
        "POLICY": {
            "Enabled": false
        },
        "THING": {
            "Enabled": false
        },
        "THING_GROUP": {
            "Enabled": false
        },
        "THING_GROUP_HIERARCHY": {
            "Enabled": false
        },
        "THING_GROUP_MEMBERSHIP": {
            "Enabled": false
        },
        "THING_TYPE": {
            "Enabled": false
        },
        "THING_TYPE_ASSOCIATION": {
            "Enabled": false
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Pesan Acara](https://docs.aws.amazon.com/iot/latest/developerguide/iot-events.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeEventConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-event-configurations.html)di *Referensi AWS CLI Perintah*. 

### `describe-index`
<a name="iot_DescribeIndex_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-index`.

**AWS CLI**  
**Untuk mengambil status saat ini dari indeks benda**  
`describe-index`Contoh berikut mengambil status saat ini dari indeks hal.  

```
aws iot describe-index \
    --index-name "AWS_Things"
```
Output:  

```
{
    "indexName": "AWS_Things",
    "indexStatus": "ACTIVE",
    "schema": "REGISTRY_AND_SHADOW_AND_CONNECTIVITY_STATUS"
}
```
Untuk informasi selengkapnya, lihat [Mengelola Pengindeksan Hal](https://docs.aws.amazon.com/iot/latest/developerguide/managing-index.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DescribeIndex](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-index.html)di *Referensi AWS CLI Perintah*. 

### `describe-job-execution`
<a name="iot_DescribeJobExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-job-execution`.

**AWS CLI**  
**Untuk mendapatkan detail eksekusi untuk pekerjaan di perangkat**  
`describe-job-execution`Contoh berikut mendapatkan rincian eksekusi untuk pekerjaan yang ditentukan.  

```
aws iot describe-job-execution \
    --job-id "example-job-01" \
    --thing-name "MyRaspberryPi"
```
Output:  

```
{
    "execution": {
        "jobId": "example-job-01",
        "status": "QUEUED",
        "statusDetails": {},
        "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyRaspberryPi",
        "queuedAt": 1560787023.636,
        "lastUpdatedAt": 1560787023.636,
        "executionNumber": 1,
        "versionNumber": 1
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DescribeJobExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-job-execution.html)di *Referensi AWS CLI Perintah*. 

### `describe-job`
<a name="iot_DescribeJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-job`.

**AWS CLI**  
**Untuk mendapatkan status terperinci untuk suatu pekerjaan**  
`describe-job`Contoh berikut mendapatkan status rinci untuk pekerjaan yang ID-nya`example-job-01`.  

```
aws iot describe-job \
    --job-id "example-job-01"
```
Output:  

```
{
    "job": {
        "jobArn": "arn:aws:iot:us-west-2:123456789012:job/example-job-01",
        "jobId": "example-job-01",
        "targetSelection": "SNAPSHOT",
        "status": "IN_PROGRESS",
        "targets": [
            "arn:aws:iot:us-west-2:123456789012:thing/MyRaspberryPi"
        ],
        "description": "example job test",
        "presignedUrlConfig": {},
        "jobExecutionsRolloutConfig": {},
        "createdAt": 1560787022.733,
        "lastUpdatedAt": 1560787026.294,
        "jobProcessDetails": {
            "numberOfCanceledThings": 0,
            "numberOfSucceededThings": 0,
            "numberOfFailedThings": 0,
            "numberOfRejectedThings": 0,
            "numberOfQueuedThings": 1,
            "numberOfInProgressThings": 0,
            "numberOfRemovedThings": 0,
            "numberOfTimedOutThings": 0
        },
        "timeoutConfig": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DescribeJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-job.html)di *Referensi AWS CLI Perintah*. 

### `describe-mitigation-action`
<a name="iot_DescribeMitigationAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-mitigation-action`.

**AWS CLI**  
**Untuk melihat detail untuk tindakan mitigasi yang ditentukan**  
`describe-mitigation-action`Contoh berikut menampilkan rincian untuk tindakan mitigasi tertentu.  

```
aws iot describe-mitigation-action \
    --action-name AddThingsToQuarantineGroupAction
```
Output:  

```
{
    "actionName": "AddThingsToQuarantineGroupAction",
    "actionType": "ADD_THINGS_TO_THING_GROUP",
    "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/AddThingsToQuarantineGroupAction",
    "actionId": "2fd2726d-98e1-4abf-b10f-09465ccd6bfa",
    "roleArn": "arn:aws:iam::123456789012:role/service-role/MoveThingsToQuarantineGroupRole",
    "actionParams": {
        "addThingsToThingGroupParams": {
            "thingGroupNames": [
                "QuarantineGroup1"
            ],
            "overrideDynamicGroups": true
        }
    },
    "creationDate": "2019-12-10T11:09:35.999000-08:00",
    "lastModifiedDate": "2019-12-10T11:09:35.999000-08:00"
}
```
Untuk informasi selengkapnya, lihat [DescribeMitigationAction (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-DescribeMitigationAction) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DescribeMitigationAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-mitigation-action.html)di *Referensi AWS CLI Perintah*. 

### `describe-provisioning-template-version`
<a name="iot_DescribeProvisioningTemplateVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-provisioning-template-version`.

**AWS CLI**  
**Untuk mendeskripsikan versi template penyediaan**  
`describe-provisioning-template-version`Contoh berikut menjelaskan versi template penyediaan.  

```
aws iot describe-provisioning-template-version \
    --template-name MyTestProvisioningTemplate \
    --version-id 1
```
Output:  

```
{
    "versionId": 1,
    "creationDate": 1589308310.574,
    "templateBody": "{
        \"Parameters\":{
            \"SerialNumber\":{
                \"Type\":\"String\"
            },
            \"AWS::IoT::Certificate::Id\":{
                \"Type\":\"String\"
            }
        },
        \"Resources\":{
            \"certificate\":{
                \"Properties\":{
                    \"CertificateId\":{
                        \"Ref\":\"AWS::IoT::Certificate::Id\"
                    },
                    \"Status\":\"Active\"
                },
                \"Type\":\"AWS::IoT::Certificate\"
            },
            \"policy\":{
                \"Properties\":{
                    \"PolicyName\":\"MyIotPolicy\"
                },
                \"Type\":\"AWS::IoT::Policy\"
            },
            \"thing\":{
                \"OverrideSettings\":{
                    \"AttributePayload\":\"MERGE\",
                    \"ThingGroups\":\"DO_NOTHING\",
                    \"ThingTypeName\":\"REPLACE\"
                },
                \"Properties\":{
                    \"AttributePayload\":{},
                    \"ThingGroups\":[],
                    \"ThingName\":{
                        \"Fn::Join\":[
                            \"\",
                            [
                                \"DemoGroup_\",
                                {\"Ref\":\"SerialNumber\"}
                            ]
                        ]
                    },
                    \"ThingTypeName\":\"VirtualThings\"
                },
                \"Type\":\"AWS::IoT::Thing\"
            }
        }
    }",
    "isDefaultVersion": true
}
```
*Untuk informasi selengkapnya, lihat [Menyediakan perangkat yang tidak memiliki sertifikat perangkat menggunakan penyediaan armada di](https://docs.aws.amazon.com/iot/latest/developerguide/provision-wo-cert.html) Panduan Pengembang Inti IoT AWS .*  
+  Untuk detail API, lihat [DescribeProvisioningTemplateVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-provisioning-template-version.html)di *Referensi AWS CLI Perintah*. 

### `describe-provisioning-template`
<a name="iot_DescribeProvisioningTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-provisioning-template`.

**AWS CLI**  
**Untuk mendeskripsikan template penyediaan**  
`describe-provisioning-template`Contoh berikut menjelaskan template penyediaan.  

```
aws iot describe-provisioning-template \
    --template-name MyTestProvisioningTemplate
```
Output:  

```
{
    "templateArn": "arn:aws:iot:us-west-2:57EXAMPLE833:provisioningtemplate/MyTestProvisioningTemplate",
    "templateName": "MyTestProvisioningTemplate",
    "creationDate": 1589308310.574,
    "lastModifiedDate": 1589308345.539,
    "defaultVersionId": 1,
    "templateBody": "{
        \"Parameters\":{
            \"SerialNumber\":{
                \"Type\":\"String\"
            },
            \"AWS::IoT::Certificate::Id\":{
                \"Type\":\"String\"
            }
        },
        \"Resources\":{
            \"certificate\":{
                \"Properties\":{
                    \"CertificateId\":{
                        \"Ref\":\"AWS::IoT::Certificate::Id\"
                    },
                    \"Status\":\"Active\"
                },
                \"Type\":\"AWS::IoT::Certificate\"
            },
            \"policy\":{
                \"Properties\":{
                    \"PolicyName\":\"MyIotPolicy\"
                },
                \"Type\":\"AWS::IoT::Policy\"
            },
            \"thing\":{
                \"OverrideSettings\":{
                    \"AttributePayload\":\"MERGE\",
                    \"ThingGroups\":\"DO_NOTHING\",
                    \"ThingTypeName\":\"REPLACE\"
                },
                \"Properties\":{
                    \"AttributePayload\":{},
                    \"ThingGroups\":[],
                    \"ThingName\":{
                        \"Fn::Join\":[
                            \"\",
                            [
                                \"DemoGroup_\",
                                {\"Ref\":\"SerialNumber\"}
                            ]
                        ]
                    },
                    \"ThingTypeName\":\"VirtualThings\"
                },
                \"Type\":\"AWS::IoT::Thing\"
            }
        }
    }",
    "enabled": true,
    "provisioningRoleArn": "arn:aws:iam::571032923833:role/service-role/IoT_access"
}
```
*Untuk informasi selengkapnya, lihat [Menyediakan perangkat yang tidak memiliki sertifikat perangkat menggunakan penyediaan armada di](https://docs.aws.amazon.com/iot/latest/developerguide/provision-wo-cert.html) Panduan Pengembang Inti IoT AWS .*  
+  Untuk detail API, lihat [DescribeProvisioningTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-provisioning-template.html)di *Referensi AWS CLI Perintah*. 

### `describe-role-alias`
<a name="iot_DescribeRoleAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-role-alias`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang AWS alias peran IoT**  
`describe-role-alias`Contoh berikut menampilkan rincian untuk alias peran tertentu.  

```
aws iot describe-role-alias \
    --role-alias LightBulbRole
```
Output:  

```
{
    "roleAliasDescription": {
        "roleAlias": "LightBulbRole",
        "roleAliasArn": "arn:aws:iot:us-west-2:123456789012:rolealias/LightBulbRole",
        "roleArn": "arn:aws:iam::123456789012:role/light_bulb_role_001",
        "owner": "123456789012",
        "credentialDurationSeconds": 3600,
        "creationDate": 1570558643.221,
        "lastModifiedDate": 1570558643.221
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeRoleAlias](https://docs.aws.amazon.com/iot/latest/apireference/API_DescribeRoleAlias.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DescribeRoleAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-role-alias.html)di *Referensi AWS CLI Perintah*. 

### `describe-scheduled-audit`
<a name="iot_DescribeScheduledAudit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scheduled-audit`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang audit terjadwal**  
`describe-scheduled-audit`Contoh berikut mendapatkan informasi rinci tentang audit terjadwal AWS IOT Device Defender bernama. `AWSIoTDeviceDefenderDailyAudit`  

```
aws iot describe-scheduled-audit \
    --scheduled-audit-name AWSIoTDeviceDefenderDailyAudit
```
Output:  

```
{
    "frequency": "DAILY",
    "targetCheckNames": [
        "AUTHENTICATED_COGNITO_ROLE_OVERLY_PERMISSIVE_CHECK",
        "CONFLICTING_CLIENT_IDS_CHECK",
        "DEVICE_CERTIFICATE_SHARED_CHECK",
        "IOT_POLICY_OVERLY_PERMISSIVE_CHECK",
        "REVOKED_CA_CERTIFICATE_STILL_ACTIVE_CHECK",
        "UNAUTHENTICATED_COGNITO_ROLE_OVERLY_PERMISSIVE_CHECK"
    ],
    "scheduledAuditName": "AWSIoTDeviceDefenderDailyAudit",
    "scheduledAuditArn": "arn:aws:iot:us-west-2:123456789012:scheduledaudit/AWSIoTDeviceDefenderDailyAudit"
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeScheduledAudit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-scheduled-audit.html)di *Referensi AWS CLI Perintah*. 

### `describe-security-profile`
<a name="iot_DescribeSecurityProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-security-profile`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang profil keamanan**  
`describe-security-profile`Contoh berikut mendapatkan informasi tentang profil keamanan AWS IoT Device Defender yang diberi nama `PossibleIssue.`  

```
aws iot describe-security-profile \
    --security-profile-name PossibleIssue
```
Output:  

```
{
    "securityProfileName": "PossibleIssue",
    "securityProfileArn": "arn:aws:iot:us-west-2:123456789012:securityprofile/PossibleIssue",
    "securityProfileDescription": "check to see if authorization fails 10 times in 5 minutes or if cellular bandwidth exceeds 128",
    "behaviors": [
        {
            "name": "CellularBandwidth",
            "metric": "aws:message-byte-size",
            "criteria": {
                "comparisonOperator": "greater-than",
                "value": {
                    "count": 128
                },
                "consecutiveDatapointsToAlarm": 1,
                "consecutiveDatapointsToClear": 1
            }
        },
        {
            "name": "Authorization",
            "metric": "aws:num-authorization-failures",
            "criteria": {
                "comparisonOperator": "greater-than",
                "value": {
                    "count": 10
                },
                "durationSeconds": 300,
                "consecutiveDatapointsToAlarm": 1,
                "consecutiveDatapointsToClear": 1
            }
        }
    ],
    "version": 1,
    "creationDate": 1560278102.528,
    "lastModifiedDate": 1560278102.528
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeSecurityProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-security-profile.html)di *Referensi AWS CLI Perintah*. 

### `describe-stream`
<a name="iot_DescribeStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stream`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang aliran**  
`describe-stream`Contoh berikut menampilkan rincian tentang aliran yang ditentukan.  

```
aws iot describe-stream \
    --stream-id stream12345
```
Output:  

```
{
    "streamInfo": {
        "streamId": "stream12345",
        "streamArn": "arn:aws:iot:us-west-2:123456789012:stream/stream12345",
        "streamVersion": 1,
        "description": "This stream is used for Amazon FreeRTOS OTA Update 12345.",
        "files": [
            {
                "fileId": "123",
                "s3Location": {
                    "bucket":"codesign-ota-bucket",
                    "key":"48c67f3c-63bb-4f92-a98a-4ee0fbc2bef6"
                }
            }
        ],
        "createdAt": 1557863215.995,
        "lastUpdatedAt": 1557863215.995,
        "roleArn": "arn:aws:iam:123456789012:role/service-role/my_ota_stream_role"
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeStream](https://docs.aws.amazon.com/iot/latest/apireference/API_DescribeStream.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DescribeStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-stream.html)di *Referensi AWS CLI Perintah*. 

### `describe-thing-group`
<a name="iot_DescribeThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-thing-group`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang grup sesuatu**  
`describe-thing-group`Contoh berikut mendapat informasi tentang kelompok hal bernama`HalogenBulbs`.  

```
aws iot describe-thing-group \
    --thing-group-name HalogenBulbs
```
Output:  

```
{
    "thingGroupName": "HalogenBulbs",
    "thingGroupId": "f4ec6b84-b42b-499d-9ce1-4dbd4d4f6f6e",
    "thingGroupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/HalogenBulbs",
    "version": 1,
    "thingGroupProperties": {},
    "thingGroupMetadata": {
        "parentGroupName": "LightBulbs",
        "rootToParentThingGroups": [
            {
                "groupName": "LightBulbs",
                "groupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/LightBulbs"
            }
        ],
        "creationDate": 1559927609.897
    }
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-thing-type`
<a name="iot_DescribeThingType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-thing-type`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang tipe benda**  
`describe-thing-type`Contoh berikut menampilkan informasi tentang jenis hal yang ditentukan ditentukan dalam AWS akun Anda.  

```
aws iot describe-thing-type \
    --thing-type-name "LightBulb"
```
Output:  

```
{
    "thingTypeName": "LightBulb",
    "thingTypeId": "ce3573b0-0a3c-45a7-ac93-4e0ce14cd190",
    "thingTypeArn": "arn:aws:iot:us-west-2:123456789012:thingtype/LightBulb",
    "thingTypeProperties": {
        "thingTypeDescription": "light bulb type",
        "searchableAttributes": [
            "model",
            "wattage"
        ]
    },
    "thingTypeMetadata": {
        "deprecated": false,
        "creationDate": 1559772562.498
    }
}
```
Untuk informasi selengkapnya, lihat [Tipe Hal](https://docs.aws.amazon.com/iot/latest/developerguide/thing-types.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeThingType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-thing-type.html)di *Referensi AWS CLI Perintah*. 

### `describe-thing`
<a name="iot_DescribeThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-thing`.

**AWS CLI**  
**Untuk menampilkan informasi rinci tentang suatu hal**  
`describe-thing`Contoh berikut menampilkan informasi tentang sesuatu (perangkat) yang didefinisikan dalam registri AWS IoT untuk akun Anda AWS .  
aws iot mendeskripsikan-hal --thing-name "” MyLightBulb  
Output:  

```
{
    "defaultClientId": "MyLightBulb",
    "thingName": "MyLightBulb",
    "thingId": "40da2e73-c6af-406e-b415-15acae538797",
    "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyLightBulb",
    "thingTypeName": "LightBulb",
    "attributes": {
        "model": "123",
        "wattage": "75"
    },
    "version": 1
}
```
Untuk informasi selengkapnya, lihat [Cara Mengelola Sesuatu dengan Registri](https://docs.aws.amazon.com/iot/latest/developerguide/thing-registry.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/describe-thing.html)di *Referensi AWS CLI Perintah*. 

### `detach-policy`
<a name="iot_DetachPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-policy`.

**AWS CLI**  
**Contoh 1: Untuk melepaskan kebijakan AWS IoT dari grup benda**  
`detach-policy`Contoh berikut melepaskan kebijakan yang ditentukan dari grup benda dan, dengan ekstensi, dari semua hal dalam grup itu dan salah satu grup anak grup.  

```
aws iot detach-policy \
    --target "arn:aws:iot:us-west-2:123456789012:thinggroup/LightBulbs" \
    --policy-name "MyFirstGroup_Core-policy"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
**Contoh 2: Untuk melepaskan kebijakan AWS IoT dari sertifikat perangkat**  
`detach-policy`Contoh berikut melepaskan TemperatureSensorPolicy kebijakan dari sertifikat perangkat yang diidentifikasi oleh ARN.  

```
aws iot detach-policy \
    --policy-name TemperatureSensorPolicy \
    --target arn:aws:iot:us-west-2:123456789012:cert/488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DetachPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/detach-policy.html)di *Referensi AWS CLI Perintah*. 

### `detach-security-profile`
<a name="iot_DetachSecurityProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-security-profile`.

**AWS CLI**  
**Untuk memisahkan profil keamanan dari target**  
`detach-security-profile`Contoh berikut menghapus hubungan antara `Testprofile` profil keamanan AWS IoT Device Defender yang bernama dan target semua hal yang terdaftar.  

```
aws iot detach-security-profile \
    --security-profile-name Testprofile \
    --security-profile-target-arn "arn:aws:iot:us-west-2:123456789012:all/registered-things"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DetachSecurityProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/detach-security-profile.html)di *Referensi AWS CLI Perintah*. 

### `detach-thing-principal`
<a name="iot_DetachThingPrincipal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-thing-principal`.

**AWS CLI**  
**Untuk melepaskan sesuatu certificate/principal dari sesuatu**  
`detach-thing-principal`Contoh berikut menghapus sertifikat yang mewakili prinsipal dari hal yang ditentukan.  

```
aws iot detach-thing-principal \
    --thing-name "MyLightBulb" \
    --principal "arn:aws:iot:us-west-2:123456789012:cert/604c48437a57b7d5fc5d137c5be75011c6ee67c9a6943683a1acb4b1626bac36"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Mengelola Sesuatu dengan Registri](https://docs.aws.amazon.com/iot/latest/developerguide/thing-registry.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DetachThingPrincipal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/detach-thing-principal.html)di *Referensi AWS CLI Perintah*. 

### `disable-topic-rule`
<a name="iot_DisableTopicRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-topic-rule`.

**AWS CLI**  
**Untuk menonaktifkan aturan topik**  
`disable-topic-rule`Contoh berikut menonaktifkan aturan topik yang ditentukan.  

```
aws iot disable-topic-rule \
    --rule-name "MyPlantPiMoistureAlertRule"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Melihat Aturan Anda](https://docs.aws.amazon.com/iot/latest/developerguide/iot-view-rules.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DisableTopicRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/disable-topic-rule.html)di *Referensi AWS CLI Perintah*. 

### `enable-topic-rule`
<a name="iot_EnableTopicRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-topic-rule`.

**AWS CLI**  
**Untuk mengaktifkan aturan topik**  
`enable-topic-rule`Contoh berikut memungkinkan (atau mengaktifkan kembali) aturan topik yang ditentukan.  

```
aws iot enable-topic-rule \
    --rule-name "MyPlantPiMoistureAlertRule"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Melihat Aturan Anda](https://docs.aws.amazon.com/iot/latest/developerguide/iot-view-rules.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [EnableTopicRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/enable-topic-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-behavior-model-training-summaries`
<a name="iot_GetBehaviorModelTrainingSummaries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-behavior-model-training-summaries`.

**AWS CLI**  
**Untuk mencantumkan status model pelatihan Profil Keamanan Deteksi MM Device Defender**  
`get-behavior-model-training-summaries`Contoh berikut mencantumkan status pelatihan model untuk perilaku yang dikonfigurasi dalam Profil Keamanan yang dipilih. Untuk setiap perilaku, nama, status model, dan persentase titik data yang dikumpulkan dicantumkan.  

```
aws iot get-behavior-model-training-summaries \
    --security-profile-name MySecuirtyProfileName
```
Output:  

```
{
    "summaries": [
        {
            "securityProfileName": "MySecuirtyProfileName",
            "behaviorName": "Messages_sent_ML_behavior",
            "modelStatus": "PENDING_BUILD",
            "datapointsCollectionPercentage": 0.0
        },
        {
            "securityProfileName": "MySecuirtyProfileName",
            "behaviorName": "Messages_received_ML_behavior",
            "modelStatus": "PENDING_BUILD",
            "datapointsCollectionPercentage": 0.0
        },
        {
            "securityProfileName": "MySecuirtyProfileName",
            "behaviorName": "Authorization_failures_ML_behavior",
            "modelStatus": "PENDING_BUILD",
            "datapointsCollectionPercentage": 0.0
        },
        {
            "securityProfileName": "MySecuirtyProfileName",
            "behaviorName": "Message_size_ML_behavior",
            "modelStatus": "PENDING_BUILD",
            "datapointsCollectionPercentage": 0.0
        },
        {
            "securityProfileName": "MySecuirtyProfileName",
            "behaviorName": "Connection_attempts_ML_behavior",
            "modelStatus": "PENDING_BUILD",
            "datapointsCollectionPercentage": 0.0
        },
        {
            "securityProfileName": "MySPNoALerts",
            "behaviorName": "Disconnects_ML_behavior",
            "modelStatus": "PENDING_BUILD",
            "datapointsCollectionPercentage": 0.0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [GetBehaviorModelTrainingSummaries (Mendeteksi Perintah)](https://docs.aws.amazon.com/iot/latest/developerguide/detect-commands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetBehaviorModelTrainingSummaries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-behavior-model-training-summaries.html)di *Referensi AWS CLI Perintah*. 

### `get-cardinality`
<a name="iot_GetCardinality_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-cardinality`.

**AWS CLI**  
**Untuk mengembalikan perkiraan jumlah nilai unik yang cocok dengan kueri**  
Anda dapat menggunakan skrip pengaturan berikut untuk membuat 10 hal yang mewakili 10 sensor suhu. Setiap hal baru memiliki 3 atribut.  

```
# Bash script. If in other shells, type `bash` before running
Temperatures=(70 71 72 73 74 75 47 97 98 99)
Racks=(Rack1 Rack1 Rack2 Rack2 Rack3 Rack4 Rack5 Rack6 Rack6 Rack6)
IsNormal=(true true true true true true false false false false)
for ((i=0; i<10 ; i++))
do
  thing=$(aws iot create-thing --thing-name "TempSensor$i" --attribute-payload attributes="{temperature=${Temperatures[i]},rackId=${Racks[i]},stateNormal=${IsNormal[i]}}")
  aws iot describe-thing --thing-name "TempSensor$i"
done
```
Contoh output dari skrip pengaturan:  

```
{
    "version": 1,
    "thingName": "TempSensor0",
    "defaultClientId": "TempSensor0",
    "attributes": {
        "rackId": "Rack1",
        "stateNormal": "true",
        "temperature": "70"
    },
    "thingArn": "arn:aws:iot:us-east-1:123456789012:thing/TempSensor0",
    "thingId": "example1-90ab-cdef-fedc-ba987example"
}
```
`get-cardinality`Contoh berikut menanyakan 10 sensor yang dibuat oleh skrip pengaturan dan mengembalikan jumlah rak yang memiliki sensor suhu yang melaporkan nilai suhu abnormal. Jika nilai suhu di bawah 60 atau di atas 80, sensor suhu dalam keadaan abnormal.  

```
aws iot get-cardinality \
    --aggregation-field "attributes.rackId" \
    --query-string "thingName:TempSensor* AND attributes.stateNormal:false"
```
Output:  

```
{
    "cardinality": 2
}
```
*Untuk informasi selengkapnya, lihat Menanyakan Data Agregate< https://docs.aws.amazon.com/iot/ latest/developerguide/index -aggregate.html> di Panduan Pengembang IoT.AWS *  
+  Untuk detail API, lihat [GetCardinality](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-cardinality.html)di *Referensi AWS CLI Perintah*. 

### `get-effective-policies`
<a name="iot_GetEffectivePolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-effective-policies`.

**AWS CLI**  
**Untuk membuat daftar kebijakan yang mempengaruhi sesuatu**  
`get-effective-policies`Contoh berikut mencantumkan kebijakan yang mempengaruhi hal yang ditentukan, termasuk kebijakan yang dilampirkan pada grup mana pun yang menjadi miliknya.  

```
aws iot get-effective-policies \
    --thing-name TemperatureSensor-001 \
    --principal arn:aws:iot:us-west-2:123456789012:cert/488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142
```
Output:  

```
{
    "effectivePolicies": [
        {
            "policyName": "TemperatureSensorPolicy",
            "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/TemperatureSensorPolicy",
            "policyDocument": "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [
                    {
                        \"Effect\": \"Allow\",
                        \"Action\": [
                            \"iot:Publish\",
                            \"iot:Receive\"
                        ],
                        \"Resource\": [
                            \"arn:aws:iot:us-west-2:123456789012:topic/topic_1\",
                            \"arn:aws:iot:us-west-2:123456789012:topic/topic_2\"
                        ]
                    },
                    {
                        \"Effect\": \"Allow\",
                        \"Action\": [
                            \"iot:Subscribe\"
                        ],
                        \"Resource\": [
                            \"arn:aws:iot:us-west-2:123456789012:topicfilter/topic_1\",
                            \"arn:aws:iot:us-west-2:123456789012:topicfilter/topic_2\"
                        ]
                    },
                    {
                        \"Effect\": \"Allow\",
                        \"Action\": [
                            \"iot:Connect\"
                        ],
                        \"Resource\": [
                            \"arn:aws:iot:us-west-2:123456789012:client/basicPubSub\"
                        ]
                    }
                ]
            }"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan Kebijakan Efektif untuk Sesuatu](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html#group-get-effective-policies) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetEffectivePolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-effective-policies.html)di *Referensi AWS CLI Perintah*. 

### `get-indexing-configuration`
<a name="iot_GetIndexingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-indexing-configuration`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi pengindeksan hal**  
`get-indexing-configuration`Contoh berikut mendapatkan data konfigurasi saat ini untuk pengindeksan armada AWS IoT.  

```
aws iot get-indexing-configuration
```
Output:  

```
{
    "thingIndexingConfiguration": {
        "thingIndexingMode": "OFF",
        "thingConnectivityIndexingMode": "OFF"
    },
    "thingGroupIndexingConfiguration": {
        "thingGroupIndexingMode": "OFF"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Pengindeksan Hal](https://docs.aws.amazon.com/iot/latest/developerguide/managing-index.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetIndexingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-indexing-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-job-document`
<a name="iot_GetJobDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-job-document`.

**AWS CLI**  
**Untuk mengambil dokumen untuk pekerjaan**  
`get-job-document`Contoh berikut menampilkan rincian tentang dokumen untuk pekerjaan yang ID adalah`example-job-01`.  

```
aws iot get-job-document \
    --job-id "example-job-01"
```
Output:  

```
{
    "document": "\n{\n    \"operation\":\"customJob\",\n    \"otherInfo\":\"someValue\"\n}\n"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetJobDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-job-document.html)di *Referensi AWS CLI Perintah*. 

### `get-logging-options`
<a name="iot_GetLoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-logging-options`.

**AWS CLI**  
**Untuk mendapatkan opsi logging**  
`get-logging-options`Contoh berikut mendapatkan opsi logging saat ini untuk AWS akun Anda.  

```
aws iot get-logging-options
```
Output:  

```
{
    "roleArn": "arn:aws:iam::123456789012:role/service-role/iotLoggingRole",
    "logLevel": "ERROR"
}
```
Untuk informasi selengkapnya, lihat judul di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetLoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-logging-options.html)di *Referensi AWS CLI Perintah*. 

### `get-ota-update`
<a name="iot_GetOtaUpdate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ota-update`.

**AWS CLI**  
**Untuk mengambil informasi tentang Pembaruan OTA**  
`get-ota-update`Contoh berikut menampilkan detail tentang Pembaruan OTA yang ditentukan.  

```
aws iot get-ota-update \
    --ota-update-id ota12345
```
Output:  

```
{
    "otaUpdateInfo": {
        "otaUpdateId": "ota12345",
        "otaUpdateArn": "arn:aws:iot:us-west-2:123456789012:otaupdate/itsaupdate",
        "creationDate": 1557863215.995,
        "lastModifiedDate": 1557863215.995,
        "description": "A critical update needed right away.",
        "targets": [
           "device1",
           "device2",
           "device3",
           "device4"
        ],
        "targetSelection": "SNAPSHOT",
        "protocols": ["HTTP"],
        "awsJobExecutionsRolloutConfig": {
           "maximumPerMinute": 10
        },
        "otaUpdateFiles": [
            {
                "fileName": "firmware.bin",
                "fileLocation": {
                    "stream": {
                        "streamId": "004",
                        "fileId":123
                    }
                },
                "codeSigning": {
                    "awsSignerJobId": "48c67f3c-63bb-4f92-a98a-4ee0fbc2bef6"
                }
            }
        ],
        "roleArn": "arn:aws:iam:123456789012:role/service-role/my_ota_role"
        "otaUpdateStatus": "CREATE_COMPLETE",
        "awsIotJobId": "job54321",
        "awsIotJobArn": "arn:aws:iot:us-west-2:123456789012:job/job54321",
        "errorInfo": {
        }
    }
}
```
Untuk informasi selengkapnya, lihat [OTAUpdateMasuk](https://docs.aws.amazon.com/iot/latest/apireference/API_GetOTAUpdate.html) ke Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [GetOtaUpdate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-ota-update.html)di *Referensi AWS CLI Perintah*. 

### `get-percentiles`
<a name="iot_GetPercentiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-percentiles`.

**AWS CLI**  
**Untuk mengelompokkan nilai agregat yang cocok dengan kueri ke dalam pengelompokan persentil**  
Anda dapat menggunakan skrip pengaturan berikut untuk membuat 10 hal yang mewakili 10 sensor suhu. Setiap hal baru memiliki 1 atribut.  

```
# Bash script. If in other shells, type `bash` before running
Temperatures=(70 71 72 73 74 75 47 97 98 99)
for ((i=0; i<10 ; i++))
do
    thing=$(aws iot create-thing --thing-name "TempSensor$i" --attribute-payload attributes="{temperature=${Temperatures[i]}}")
    aws iot describe-thing --thing-name "TempSensor$i"
done
```
Contoh output dari skrip pengaturan:  

```
{
    "version": 1,
    "thingName": "TempSensor0",
    "defaultClientId": "TempSensor0",
    "attributes": {
        "temperature": "70"
    },
    "thingArn": "arn:aws:iot:us-east-1:123456789012:thing/TempSensor0",
    "thingId": "example1-90ab-cdef-fedc-ba987example"
}
```
`get-percentiles`Contoh berikut menanyakan 10 sensor yang dibuat oleh skrip pengaturan dan mengembalikan nilai untuk setiap grup persentil yang ditentukan. Grup persentil “10" berisi nilai bidang agregat yang terjadi di sekitar 10 persen dari nilai yang cocok dengan kueri. Dalam output berikut, \$1"persen”: 10,0, “nilai”: 67,7\$1 berarti sekitar 10,0% dari nilai suhu di bawah 67,7.  

```
aws iot get-percentiles \
    --aggregation-field "attributes.temperature" \
    --query-string "thingName:TempSensor*" \
    --percents 10 25 50 75 90
```
Output:  

```
{
    "percentiles": [
        {
            "percent": 10.0,
            "value": 67.7
        },
        {
            "percent": 25.0,
            "value": 71.25
        },
        {
            "percent": 50.0,
            "value": 73.5
        },
        {
            "percent": 75.0,
            "value": 91.5
        },
        {
            "percent": 90.0,
            "value": 98.1
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menanyakan Data Agregat di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/index-aggregate.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetPercentiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-percentiles.html)di *Referensi AWS CLI Perintah*. 

### `get-policy-version`
<a name="iot_GetPolicyVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy-version`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang versi kebijakan tertentu**  
`get-policy-version`Contoh berikut mendapatkan informasi tentang versi pertama dari kebijakan yang ditentukan.  

```
aws iot get-policy \
    --policy-name UpdateDeviceCertPolicy
    --policy-version-id "1"
```
Output:  

```
{
    "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/UpdateDeviceCertPolicy",
    "policyName": "UpdateDeviceCertPolicy",
    "policyDocument": "{ \"Version\": \"2012-10-17\", \"Statement\": [ { \"Effect\": \"Allow\", \"Action\":  \"iot:UpdateCertificate\", \"Resource\": \"*\" } ] }",
    "policyVersionId": "1",
    "isDefaultVersion": false,
    "creationDate": 1559925941.924,
    "lastModifiedDate": 1559926175.458,
    "generationId": "5066f1b6712ce9d2a1e56399771649a272d6a921762fead080e24fe52f24e042"
}
```
Untuk informasi selengkapnya, lihat [Kebijakan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-policies.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetPolicyVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-policy-version.html)di *Referensi AWS CLI Perintah*. 

### `get-policy`
<a name="iot_GetPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang versi default kebijakan**  
`get-policy`Contoh berikut mengambil informasi tentang versi default dari kebijakan yang ditentukan.  

```
aws iot get-policy \
    --policy-name UpdateDeviceCertPolicy
```
Output:  

```
{
    "policyName": "UpdateDeviceCertPolicy",
    "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/UpdateDeviceCertPolicy",
    "policyDocument": "{ \"Version\": \"2012-10-17\", \"Statement\": [ { \"Effect\": \"Allow\", \"Action\":  \"iot:UpdateCertificate\", \"Resource\": \"*\" } ] }",
    "defaultVersionId": "2",
    "creationDate": 1559925941.924,
    "lastModifiedDate": 1559925941.924,
    "generationId": "5066f1b6712ce9d2a1e56399771649a272d6a921762fead080e24fe52f24e042"
}
```
Untuk informasi selengkapnya, lihat [Kebijakan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-policies.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-registration-code`
<a name="iot_GetRegistrationCode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-registration-code`.

**AWS CLI**  
**Untuk mendapatkan kode pendaftaran AWS khusus akun Anda**  
`get-registration-code`Contoh berikut mengambil kode pendaftaran AWS khusus akun Anda.  

```
aws iot get-registration-code
```
Output:  

```
{
    "registrationCode": "15c51ae5e36ba59ba77042df1115862076bea4bd15841c838fcb68d5010a614c"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Sertifikat Anda Sendiri](https://docs.aws.amazon.com/iot/latest/developerguide/device-certs-your-own.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetRegistrationCode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-registration-code.html)di *Referensi AWS CLI Perintah*. 

### `get-statistics`
<a name="iot_GetStatistics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-statistics`.

**AWS CLI**  
**Untuk mencari indeks perangkat untuk data agregat**  
`get-statistics`Contoh berikut mengembalikan jumlah hal yang memiliki properti yang disebut `connectivity.connected` set ke `false` (yaitu, jumlah perangkat yang tidak terhubung) dalam bayangan perangkat mereka.  

```
aws iot get-statistics \
    --index-name AWS_Things \
    --query-string "connectivity.connected:false"
```
Output:  

```
{
    "statistics": {
        "count": 6
    }
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan Statistik Tentang Armada Perangkat Anda](https://docs.aws.amazon.com/iot/latest/developerguide/index-aggregate.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetStatistics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-statistics.html)di *Referensi AWS CLI Perintah*. 

### `get-topic-rule-destination`
<a name="iot_GetTopicRuleDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-topic-rule-destination`.

**AWS CLI**  
**Untuk mendapatkan tujuan aturan topik**  
`get-topic-rule-destination`Contoh berikut mendapatkan informasi tentang tujuan aturan topik.  

```
aws iot get-topic-rule-destination \
    --arn "arn:aws:iot:us-west-2:123456789012:ruledestination/http/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
```
Output:  

```
{
    "topicRuleDestination": {
        "arn": "arn:aws:iot:us-west-2:123456789012:ruledestination/http/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
        "status": "DISABLED",
        "httpUrlProperties": {
            "confirmationUrl": "https://example.com"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tujuan aturan topik](https://docs.aws.amazon.com/iot/latest/developerguide/rule-destination.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetTopicRuleDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-topic-rule-destination.html)di *Referensi AWS CLI Perintah*. 

### `get-topic-rule`
<a name="iot_GetTopicRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-topic-rule`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang aturan**  
`get-topic-rule`Contoh berikut mendapat informasi tentang aturan yang ditentukan.  

```
aws iot get-topic-rule \
    --rule-name MyRPiLowMoistureAlertRule
```
Output:  

```
{
    "ruleArn": "arn:aws:iot:us-west-2:123456789012:rule/MyRPiLowMoistureAlertRule",
    "rule": {
        "ruleName": "MyRPiLowMoistureAlertRule",
        "sql": "SELECT * FROM '$aws/things/MyRPi/shadow/update/accepted' WHERE state.reported.moisture = 'low'\n                    ",
        "description": "Sends an alert whenever soil moisture level readings are too low.",
        "createdAt": 1558624363.0,
        "actions": [
            {
                "sns": {
                    "targetArn": "arn:aws:sns:us-west-2:123456789012:MyRPiLowMoistureTopic",
                    "roleArn": "arn:aws:iam::123456789012:role/service-role/MyRPiLowMoistureTopicRole",
                    "messageFormat": "RAW"
                }
            }
        ],
        "ruleDisabled": false,
        "awsIotSqlVersion": "2016-03-23"
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat Aturan Anda](https://docs.aws.amazon.com/iot/latest/developerguide/iot-managae-rule.html#iot-view-rules) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetTopicRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-topic-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-v2-logging-options`
<a name="iot_GetV2LoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-v2-logging-options`.

**AWS CLI**  
**Untuk membuat daftar opsi pencatatan saat ini**  
`get-v2-logging-options`Contoh berikut mencantumkan opsi logging saat ini untuk AWS IoT.  

```
aws iot get-v2-logging-options
```
Output:  

```
{
    "roleArn": "arn:aws:iam::094249569039:role/service-role/iotLoggingRole",
    "defaultLogLevel": "WARN",
    "disableAllLogs": false
}
```
Untuk informasi selengkapnya, lihat judul di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetV2 LoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/get-v2-logging-options.html) di *Referensi AWS CLI Perintah*. 

### `list-active-violations`
<a name="iot_ListActiveViolations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-active-violations`.

**AWS CLI**  
**Untuk daftar pelanggaran aktif**  
`list-active-violations`Contoh berikut mencantumkan semua pelanggaran untuk profil keamanan yang ditentukan.  

```
aws iot list-active-violations \
    --security-profile-name Testprofile
```
Output:  

```
{
    "activeViolations": [
        {
            "violationId": "174db59167fa474c80a652ad1583fd44",
            "thingName": "iotconsole-1560269126751-1",
            "securityProfileName": "Testprofile",
            "behavior": {
                "name": "Authorization",
                "metric": "aws:num-authorization-failures",
                "criteria": {
                    "comparisonOperator": "greater-than",
                    "value": {
                        "count": 10
                    },
                    "durationSeconds": 300,
                    "consecutiveDatapointsToAlarm": 1,
                    "consecutiveDatapointsToClear": 1
                }
            },
            "lastViolationValue": {
                "count": 0
            },
            "lastViolationTime": 1560293700.0,
            "violationStartTime": 1560279000.0
        },
        {
            "violationId": "c8a9466a093d3b7b35cd44ca58bdbeab",
            "thingName": "TvnQoEoU",
            "securityProfileName": "Testprofile",
            "behavior": {
                "name": "CellularBandwidth",
                "metric": "aws:message-byte-size",
                "criteria": {
                    "comparisonOperator": "greater-than",
                    "value": {
                        "count": 128
                    },
                    "consecutiveDatapointsToAlarm": 1,
                    "consecutiveDatapointsToClear": 1
                }
            },
            "lastViolationValue": {
                "count": 110
            },
            "lastViolationTime": 1560369000.0,
            "violationStartTime": 1560276600.0
        },
        {
            "violationId": "74aa393adea02e6648f3ac362beed55e",
            "thingName": "iotconsole-1560269232412-2",
            "securityProfileName": "Testprofile",
            "behavior": {
                "name": "Authorization",
                "metric": "aws:num-authorization-failures",
                "criteria": {
                    "comparisonOperator": "greater-than",
                    "value": {
                        "count": 10
                    },
                    "durationSeconds": 300,
                    "consecutiveDatapointsToAlarm": 1,
                    "consecutiveDatapointsToClear": 1
                }
            },
            "lastViolationValue": {
                "count": 0
            },
            "lastViolationTime": 1560276600.0,
            "violationStartTime": 1560276600.0
        },
        {
            "violationId": "1e6ab5f7cf39a1466fcd154e1377e406",
            "thingName": "TvnQoEoU",
            "securityProfileName": "Testprofile",
            "behavior": {
                "name": "Authorization",
                "metric": "aws:num-authorization-failures",
                "criteria": {
                    "comparisonOperator": "greater-than",
                    "value": {
                        "count": 10
                    },
                    "durationSeconds": 300,
                    "consecutiveDatapointsToAlarm": 1,
                    "consecutiveDatapointsToClear": 1
                }
            },
            "lastViolationValue": {
                "count": 0
            },
            "lastViolationTime": 1560369000.0,
            "violationStartTime": 1560276600.0
        }
    ]
}
```
+  Untuk detail API, lihat [ListActiveViolations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-active-violations.html)di *Referensi AWS CLI Perintah*. 

### `list-attached-policies`
<a name="iot_ListAttachedPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attached-policies`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan kebijakan yang dilampirkan ke grup**  
`list-attached-policies`Contoh berikut mencantumkan kebijakan yang dilampirkan ke grup yang ditentukan.  

```
aws iot list-attached-policies \
    --target "arn:aws:iot:us-west-2:123456789012:thinggroup/LightBulbs"
```
Output:  

```
{
    "policies": [
        {
            "policyName": "UpdateDeviceCertPolicy",
            "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/UpdateDeviceCertPolicy"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
**Contoh 2: Untuk mencantumkan kebijakan yang dilampirkan pada sertifikat perangkat**  
`list-attached-policies`Contoh berikut mencantumkan kebijakan AWS IoT yang dilampirkan pada sertifikat perangkat. Sertifikat diidentifikasi oleh ARN-nya.  

```
aws iot list-attached-policies \
    --target arn:aws:iot:us-west-2:123456789012:cert/488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142
```
Output:  

```
{
    "policies": [
        {
            "policyName": "TemperatureSensorPolicy",
            "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/TemperatureSensorPolicy"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListAttachedPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-attached-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-audit-findings`
<a name="iot_ListAuditFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-audit-findings`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar semua temuan dari audit**  
`list-audit-findings`Contoh berikut mencantumkan semua temuan dari audit AWS IoT Device Defender dengan ID tugas yang ditentukan.  

```
aws iot list-audit-findings \
    --task-id a3aea009955e501a31b764abe1bebd3d
```
Output:  

```
{
    "findings": []
}
```
**Contoh 2: Untuk membuat daftar temuan untuk jenis pemeriksaan audit**  
`list-audit-findings`Contoh berikut menunjukkan temuan dari audit AWS IoT Device Defender yang berlangsung antara 5 Juni 2019 dan 19 Juni 2019 di mana perangkat berbagi sertifikat perangkat. Ketika Anda menentukan nama cek, Anda harus memberikan waktu mulai dan berakhir.  

```
aws iot list-audit-findings \
    --check-name DEVICE_CERTIFICATE_SHARED_CHECK \
    --start-time 1559747125 \
    --end-time 1560962028
```
Output:  

```
{
    "findings": [
        {
            "taskId": "eeef61068b0eb03c456d746c5a26ee04",
            "checkName": "DEVICE_CERTIFICATE_SHARED_CHECK",
            "taskStartTime": 1560161017.172,
            "findingTime": 1560161017.592,
            "severity": "CRITICAL",
            "nonCompliantResource": {
                "resourceType": "DEVICE_CERTIFICATE",
                "resourceIdentifier": {
                    "deviceCertificateId": "b193ab7162c0fadca83246d24fa090300a1236fe58137e121b011804d8ac1d6b"
                }
            },
            "relatedResources": [
                {
                    "resourceType": "CLIENT_ID",
                    "resourceIdentifier": {
                        "clientId": "ZipxgAIl"
                    },
                    "additionalInfo": {
                        "CONNECTION_TIME": "1560086374068"
                    }
                },
                {
                    "resourceType": "CLIENT_ID",
                    "resourceIdentifier": {
                        "clientId": "ZipxgAIl"
                    },
                    "additionalInfo": {
                        "CONNECTION_TIME": "1560081552187",
                        "DISCONNECTION_TIME": "1560086371552"
                    }
                },
                {
                    "resourceType": "CLIENT_ID",
                    "resourceIdentifier": {
                        "clientId": "ZipxgAIl"
                    },
                    "additionalInfo": {
                        "CONNECTION_TIME": "1559289863631",
                        "DISCONNECTION_TIME": "1560081532716"
                    }
                }
            ],
            "reasonForNonCompliance": "Certificate shared by one or more devices.",
            "reasonForNonComplianceCode": "CERTIFICATE_SHARED_BY_MULTIPLE_DEVICES"
        },
        {
            "taskId": "bade6b5efd2e1b1569822f6021b39cf5",
            "checkName": "DEVICE_CERTIFICATE_SHARED_CHECK",
            "taskStartTime": 1559988217.27,
            "findingTime": 1559988217.655,
            "severity": "CRITICAL",
            "nonCompliantResource": {
                "resourceType": "DEVICE_CERTIFICATE",
                "resourceIdentifier": {
                    "deviceCertificateId": "b193ab7162c0fadca83246d24fa090300a1236fe58137e121b011804d8ac1d6b"
                }
            },
            "relatedResources": [
                {
                    "resourceType": "CLIENT_ID",
                    "resourceIdentifier": {
                        "clientId": "xShGENLW"
                    },
                    "additionalInfo": {
                        "CONNECTION_TIME": "1559972350825"
                    }
                },
                {
                    "resourceType": "CLIENT_ID",
                    "resourceIdentifier": {
                        "clientId": "xShGENLW"
                    },
                    "additionalInfo": {
                        "CONNECTION_TIME": "1559255062002",
                        "DISCONNECTION_TIME": "1559972350616"
                    }
                }
            ],
            "reasonForNonCompliance": "Certificate shared by one or more devices.",
            "reasonForNonComplianceCode": "CERTIFICATE_SHARED_BY_MULTIPLE_DEVICES"
        },
        {
            "taskId": "c23f6233ba2d35879c4bb2810fb5ffd6",
            "checkName": "DEVICE_CERTIFICATE_SHARED_CHECK",
            "taskStartTime": 1559901817.31,
            "findingTime": 1559901817.767,
            "severity": "CRITICAL",
            "nonCompliantResource": {
                "resourceType": "DEVICE_CERTIFICATE",
                "resourceIdentifier": {
                    "deviceCertificateId": "b193ab7162c0fadca83246d24fa090300a1236fe58137e121b011804d8ac1d6b"
                }
            },
            "relatedResources": [
                {
                    "resourceType": "CLIENT_ID",
                    "resourceIdentifier": {
                        "clientId": "TvnQoEoU"
                    },
                    "additionalInfo": {
                        "CONNECTION_TIME": "1559826729768"
                    }
                },
                {
                    "resourceType": "CLIENT_ID",
                    "resourceIdentifier": {
                        "clientId": "TvnQoEoU"
                    },
                    "additionalInfo": {
                        "CONNECTION_TIME": "1559345920964",
                        "DISCONNECTION_TIME": "1559826728402"
                    }
                }
            ],
            "reasonForNonCompliance": "Certificate shared by one or more devices.",
            "reasonForNonComplianceCode": "CERTIFICATE_SHARED_BY_MULTIPLE_DEVICES"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListAuditFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-audit-findings.html)di *Referensi AWS CLI Perintah*. 

### `list-audit-mitigation-actions-executions`
<a name="iot_ListAuditMitigationActionsExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-audit-mitigation-actions-executions`.

**AWS CLI**  
**Untuk membuat daftar rincian pelaksanaan tindakan mitigasi audit**  
Tugas tindakan mitigasi audit menerapkan tindakan mitigasi untuk satu atau beberapa temuan dari audit IoT Device AWS Defender. `list-audit-mitigation-actions-executions`Contoh berikut mencantumkan rincian untuk tugas tindakan mitigasi dengan yang ditentukan `taskId` dan untuk temuan yang ditentukan.  

```
aws iot list-audit-mitigation-actions-executions \
    --task-id myActionsTaskId \
    --finding-id 0edbaaec-2fe1-4cf5-abc9-d4c3e51f7464
```
Output:  

```
{
    "actionsExecutions": [
        {
            "taskId": "myActionsTaskId",
            "findingId": "0edbaaec-2fe1-4cf5-abc9-d4c3e51f7464",
            "actionName": "ResetPolicyVersionAction",
            "actionId": "1ea0b415-bef1-4a01-bd13-72fb63c59afb",
            "status": "COMPLETED",
            "startTime": "2019-12-10T15:19:13.279000-08:00",
            "endTime": "2019-12-10T15:19:13.337000-08:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListAuditMitigationActionsExecutions (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-ListAuditMitigationActionsExecutions) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListAuditMitigationActionsExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-audit-mitigation-actions-executions.html)di *Referensi AWS CLI Perintah*. 

### `list-audit-mitigation-actions-tasks`
<a name="iot_ListAuditMitigationActionsTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-audit-mitigation-actions-tasks`.

**AWS CLI**  
**Untuk membuat daftar tugas tindakan mitigasi audit**  
`list-audit-mitigation-actions-tasks`Contoh berikut mencantumkan tindakan mitigasi yang diterapkan pada temuan dalam periode waktu yang ditentukan.  

```
aws iot list-audit-mitigation-actions-tasks \
    --start-time 1594157400 \
    --end-time 1594157430
```
Output:  

```
{
    "tasks": [
        {
                "taskId": "0062f2d6-3999-488f-88c7-bef005414103",
                "startTime": "2020-07-07T14:30:15.172000-07:00",
            "taskStatus": "COMPLETED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListAuditMitigationActionsTasks (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-ListAuditMitigationActionsTasks) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListAuditMitigationActionsTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-audit-mitigation-actions-tasks.html)di *Referensi AWS CLI Perintah*. 

### `list-audit-suppressions`
<a name="iot_ListAuditSuppressions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-audit-suppressions`.

**AWS CLI**  
**Untuk membuat daftar semua penekanan temuan audit**  
`list-audit-suppressions`Contoh berikut mencantumkan semua penekanan pencarian audit aktif.  

```
aws iot list-audit-suppressions
```
Output:  

```
{
    "suppressions": [
        {
        "checkName": "DEVICE_CERTIFICATE_EXPIRING_CHECK",
            "resourceIdentifier": {
                "deviceCertificateId": "c7691e<shortened>"
            },
        "expirationDate": 1597881600.0,
        "suppressIndefinitely": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Audit menemukan penekanan di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/audit-finding-suppressions.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListAuditSuppressions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-audit-suppressions.html)di *Referensi AWS CLI Perintah*. 

### `list-audit-tasks`
<a name="iot_ListAuditTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-audit-tasks`.

**AWS CLI**  
**Untuk membuat daftar semua temuan dari audit**  
`list-audit-tasks`Contoh berikut mencantumkan tugas audit yang berlangsung antara 5 Juni 2019 dan 12 Juni 2019.  

```
aws iot list-audit-tasks \
    --start-time 1559747125 \
    --end-time 1560357228
```
Output:  

```
{
    "tasks": [
        {
            "taskId": "a3aea009955e501a31b764abe1bebd3d",
            "taskStatus": "COMPLETED",
            "taskType": "ON_DEMAND_AUDIT_TASK"
        },
        {
            "taskId": "f76b4b5102b632cd9ae38a279c266da1",
            "taskStatus": "COMPLETED",
            "taskType": "SCHEDULED_AUDIT_TASK"
        },
        {
            "taskId": "51d9967d9f9ff4d26529505f6d2c444a",
            "taskStatus": "COMPLETED",
            "taskType": "SCHEDULED_AUDIT_TASK"
        },
        {
            "taskId": "eeef61068b0eb03c456d746c5a26ee04",
            "taskStatus": "COMPLETED",
            "taskType": "SCHEDULED_AUDIT_TASK"
        },
        {
            "taskId": "041c49557b7c7b04c079a49514b55589",
            "taskStatus": "COMPLETED",
            "taskType": "SCHEDULED_AUDIT_TASK"
        },
        {
            "taskId": "82c7f2afac1562d18a4560be73998acc",
            "taskStatus": "COMPLETED",
            "taskType": "SCHEDULED_AUDIT_TASK"
        },
        {
            "taskId": "bade6b5efd2e1b1569822f6021b39cf5",
            "taskStatus": "COMPLETED",
            "taskType": "SCHEDULED_AUDIT_TASK"
        },
        {
            "taskId": "c23f6233ba2d35879c4bb2810fb5ffd6",
            "taskStatus": "COMPLETED",
            "taskType": "SCHEDULED_AUDIT_TASK"
        },
        {
            "taskId": "ac9086b7222a2f5e2e17bb6fd30b3aeb",
            "taskStatus": "COMPLETED",
            "taskType": "SCHEDULED_AUDIT_TASK"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListAuditTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-audit-tasks.html)di *Referensi AWS CLI Perintah*. 

### `list-authorizers`
<a name="iot_ListAuthorizers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-authorizers`.

**AWS CLI**  
**Untuk membuat daftar otorisasi kustom Anda**  
`list-authorizers`Contoh berikut mencantumkan otorisasi khusus di AWS akun Anda.  

```
aws iot list-authorizers
```
Output:  

```
{
    "authorizers": [
        {
            "authorizerName": "CustomAuthorizer",
            "authorizerArn": "arn:aws:iot:us-west-2:123456789012:authorizer/CustomAuthorizer"
        },
        {
            "authorizerName": "CustomAuthorizer2",
            "authorizerArn": "arn:aws:iot:us-west-2:123456789012:authorizer/CustomAuthorizer2"
        },
        {
            "authorizerName": "CustomAuthorizer3",
            "authorizerArn": "arn:aws:iot:us-west-2:123456789012:authorizer/CustomAuthorizer3"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListAuthorizers](https://docs.aws.amazon.com/iot/latest/apireference/API_ListAuthorizers.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListAuthorizers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-authorizers.html)di *Referensi AWS CLI Perintah*. 

### `list-billing-groups`
<a name="iot_ListBillingGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-billing-groups`.

**AWS CLI**  
**Untuk mencantumkan grup penagihan untuk AWS akun dan wilayah Anda**  
`list-billing-groups`Contoh berikut mencantumkan semua grup penagihan yang ditentukan untuk AWS akun dan AWS Wilayah Anda.  

```
aws iot list-billing-groups
```
Output:  

```
{
    "billingGroups": [
        {
            "groupName": "GroupOne",
            "groupArn": "arn:aws:iot:us-west-2:123456789012:billinggroup/GroupOne"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup Penagihan](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot-billing-groups.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListBillingGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-billing-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-ca-certificates`
<a name="iot_ListCaCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-ca-certificates`.

**AWS CLI**  
**Untuk mencantumkan sertifikat CA yang terdaftar di AWS akun Anda**  
`list-ca-certificates`Contoh berikut mencantumkan sertifikat CA yang terdaftar di AWS akun Anda.  

```
aws iot list-ca-certificates
```
Output:  

```
{
    "certificates": [
        {
            "certificateArn": "arn:aws:iot:us-west-2:123456789012:cacert/f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467",
            "certificateId": "f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467",
            "status": "INACTIVE",
            "creationDate": 1569365372.053
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Sertifikat Anda Sendiri](https://docs.aws.amazon.com/iot/latest/developerguide/device-certs-your-own.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListCaCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-ca-certificates.html)di *Referensi AWS CLI Perintah*. 

### `list-certificates-by-ca`
<a name="iot_ListCertificatesByCa_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-certificates-by-ca`.

**AWS CLI**  
**Untuk mencantumkan semua sertifikat perangkat yang ditandatangani dengan sertifikat CA**  
`list-certificates-by-ca`Contoh berikut mencantumkan semua sertifikat perangkat di AWS akun Anda yang ditandatangani dengan sertifikat CA yang ditentukan.  

```
aws iot list-certificates-by-ca \
    --ca-certificate-id f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467
```
Output:  

```
{
    "certificates": [
        {
            "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142",
            "certificateId": "488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142",
            "status": "ACTIVE",
            "creationDate": 1569363250.557
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListCertificatesByCA](https://docs.aws.amazon.com/iot/latest/apireference/API_ListCertificatesByCA.html) di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListCertificatesByCa](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-certificates-by-ca.html)di *Referensi AWS CLI Perintah*. 

### `list-certificates`
<a name="iot_ListCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-certificates`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan sertifikat yang terdaftar di AWS akun Anda**  
`list-certificates`Contoh berikut mencantumkan semua sertifikat yang terdaftar di akun Anda. Jika Anda memiliki lebih dari batas paging default 25, Anda dapat menggunakan nilai `nextMarker` respons dari perintah ini dan memasoknya ke perintah berikutnya untuk mendapatkan batch hasil berikutnya. Ulangi sampai `nextMarker` kembali tanpa nilai.  

```
aws iot list-certificates
```
Output:  

```
{
    "certificates": [
        {
            "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/604c48437a57b7d5fc5d137c5be75011c6ee67c9a6943683a1acb4b1626bac36",
            "certificateId": "604c48437a57b7d5fc5d137c5be75011c6ee67c9a6943683a1acb4b1626bac36",
            "status": "ACTIVE",
            "creationDate": 1556810537.617
        },
        {
            "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/262a1ac8a7d8aa72f6e96e365480f7313aa9db74b8339ec65d34dc3074e1c31e",
            "certificateId": "262a1ac8a7d8aa72f6e96e365480f7313aa9db74b8339ec65d34dc3074e1c31e",
            "status": "ACTIVE",
            "creationDate": 1546447050.885
        },
        {
            "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/b193ab7162c0fadca83246d24fa090300a1236fe58137e121b011804d8ac1d6b",
            "certificateId": "b193ab7162c0fadca83246d24fa090300a1236fe58137e121b011804d8ac1d6b",
            "status": "ACTIVE",
            "creationDate": 1546292258.322
        },
        {
            "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/7aebeea3845d14a44ec80b06b8b78a89f3f8a706974b8b34d18f5adf0741db42",
            "certificateId": "7aebeea3845d14a44ec80b06b8b78a89f3f8a706974b8b34d18f5adf0741db42",
            "status": "ACTIVE",
            "creationDate": 1541457693.453
        },
        {
            "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/54458aa39ebb3eb39c91ffbbdcc3a6ca1c7c094d1644b889f735a6fc2cd9a7e3",
            "certificateId": "54458aa39ebb3eb39c91ffbbdcc3a6ca1c7c094d1644b889f735a6fc2cd9a7e3",
            "status": "ACTIVE",
            "creationDate": 1541113568.611
        },
        {
            "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/4f0ba725787aa94d67d2fca420eca022242532e8b3c58e7465c7778b443fd65e",
            "certificateId": "4f0ba725787aa94d67d2fca420eca022242532e8b3c58e7465c7778b443fd65e",
            "status": "ACTIVE",
            "creationDate": 1541022751.983
        }
    ]
}
```
+  Untuk detail API, lihat [ListCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-certificates.html)di *Referensi AWS CLI Perintah*. 

### `list-custom-metrics`
<a name="iot_ListCustomMetrics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-custom-metrics`.

**AWS CLI**  
**Untuk mencantumkan metrik kustom Anda**  
`list-custom-metrics`Contoh berikut mencantumkan semua metrik kustom Anda.  

```
aws iot list-custom-metrics \
    --region us-east-1
```
Output:  

```
{
    "metricNames": [
        "batteryPercentage"
    ]
}
```
Untuk informasi selengkapnya, lihat [Metrik khusus](https://docs.aws.amazon.com/iot/latest/developerguide/dd-detect-custom-metrics.html) di Panduan Pengembang *Inti AWS IoT*.  
+  Untuk detail API, lihat [ListCustomMetrics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-custom-metrics.html)di *Referensi AWS CLI Perintah*. 

### `list-dimensions`
<a name="iot_ListDimensions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-dimensions`.

**AWS CLI**  
**Untuk membuat daftar dimensi untuk AWS akun Anda**  
`list-dimensions`Contoh berikut mencantumkan semua dimensi AWS IoT Device Defender yang ditentukan AWS di akun Anda.  

```
aws iot list-dimensions
```
Output:  

```
{
    "dimensionNames": [
        "TopicFilterForAuthMessages",
        "TopicFilterForActivityMessages"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListDimensions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-dimensions.html)di *Referensi AWS CLI Perintah*. 

### `list-domain-configurations`
<a name="iot_ListDomainConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-domain-configurations`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi domain**  
`list-domain-configurations`Contoh berikut mencantumkan konfigurasi domain di AWS akun Anda yang memiliki jenis layanan yang ditentukan.  

```
aws iot list-domain-configurations \
    --service-type "DATA"
```
Output:  

```
{
    "domainConfigurations":
    [
        {
            "domainConfigurationName": "additionalDataDomain",
            "domainConfigurationArn": "arn:aws:iot:us-west-2:123456789012:domainconfiguration/additionalDataDomain/dikMh",
            "serviceType": "DATA"
        },

        {
            "domainConfigurationName": "iot:Jobs",
            "domainConfigurationArn": "arn:aws:iot:us-west-2:123456789012:domainconfiguration/iot:Jobs",
            "serviceType": "JOBS"
        },
        {
            "domainConfigurationName": "iot:Data-ATS",
            "domainConfigurationArn": "arn:aws:iot:us-west-2:123456789012:domainconfiguration/iot:Data-ATS",
            "serviceType": "DATA"
        },
        {
            "domainConfigurationName": "iot:CredentialProvider",
            "domainConfigurationArn": "arn:aws:iot:us-west-2:123456789012:domainconfiguration/iot:CredentialProvider",
            "serviceType": "CREDENTIAL_PROVIDER"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Titik Akhir yang Dapat Dikonfigurasi](https://docs.aws.amazon.com/iot/latest/developerguide/iot-custom-endpoints-configurable-aws.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListDomainConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-domain-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-indices`
<a name="iot_ListIndices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-indices`.

**AWS CLI**  
**Untuk mencantumkan indeks pencarian yang dikonfigurasi**  
`list-indices`Contoh berikut mencantumkan semua indeks penelusuran yang dikonfigurasi di AWS akun Anda. Jika Anda belum mengaktifkan pengindeksan hal, Anda mungkin tidak memiliki indeks apa pun.  

```
aws iot list-indices
```
Output:  

```
{
    "indexNames": [
        "AWS_Things"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Pengindeksan Hal](https://docs.aws.amazon.com/iot/latest/developerguide/managing-index.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListIndices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-indices.html)di *Referensi AWS CLI Perintah*. 

### `list-job-executions-for-job`
<a name="iot_ListJobExecutionsForJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-job-executions-for-job`.

**AWS CLI**  
**Untuk membuat daftar pekerjaan di AWS akun Anda**  
`list-job-executions-for-job`Contoh berikut mencantumkan semua eksekusi pekerjaan untuk pekerjaan di AWS akun Anda, yang ditentukan oleh JoBid.  

```
aws iot list-job-executions-for-job \
    --job-id my-ota-job
```
Output:  

```
{
     "executionSummaries": [
         {
             "thingArn": "arn:aws:iot:us-east-1:123456789012:thing/my_thing",
             "jobExecutionSummary": {
                 "status": "QUEUED",
                 "queuedAt": "2022-03-07T15:58:42.195000-08:00",
                 "lastUpdatedAt": "2022-03-07T15:58:42.195000-08:00",
                 "executionNumber": 1,
                 "retryAttempt": 0
             }
         }
     ]
 }
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListJobExecutionsForJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-job-executions-for-job.html)di *Referensi AWS CLI Perintah*. 

### `list-job-executions-for-thing`
<a name="iot_ListJobExecutionsForThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-job-executions-for-thing`.

**AWS CLI**  
**Untuk membuat daftar pekerjaan yang dieksekusi untuk suatu hal**  
`list-job-executions-for-thing`Contoh berikut mencantumkan semua pekerjaan yang dieksekusi untuk hal bernama`MyRaspberryPi`.  

```
aws iot list-job-executions-for-thing \
    --thing-name "MyRaspberryPi"
```
Output:  

```
{
    "executionSummaries": [
        {
            "jobId": "example-job-01",
            "jobExecutionSummary": {
                "status": "QUEUED",
                "queuedAt": 1560787023.636,
                "lastUpdatedAt": 1560787023.636,
                "executionNumber": 1
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListJobExecutionsForThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-job-executions-for-thing.html)di *Referensi AWS CLI Perintah*. 

### `list-jobs`
<a name="iot_ListJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-jobs`.

**AWS CLI**  
**Untuk membuat daftar pekerjaan di AWS akun Anda**  
`list-jobs`Contoh berikut mencantumkan semua pekerjaan di AWS akun Anda, diurutkan berdasarkan status pekerjaan.  

```
aws iot list-jobs
```
Output:  

```
{
    "jobs": [
        {
            "jobArn": "arn:aws:iot:us-west-2:123456789012:job/example-job-01",
            "jobId": "example-job-01",
            "targetSelection": "SNAPSHOT",
            "status": "IN_PROGRESS",
            "createdAt": 1560787022.733,
            "lastUpdatedAt": 1560787026.294
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-mitigation-actions`
<a name="iot_ListMitigationActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-mitigation-actions`.

**AWS CLI**  
**Untuk mencantumkan semua tindakan mitigasi yang ditentukan**  
`list-mitigation-actions`Contoh berikut mencantumkan semua tindakan mitigasi yang ditentukan untuk AWS akun dan Wilayah Anda. Untuk setiap tindakan, nama, ARN, dan tanggal pembuatan tercantum.  

```
aws iot list-mitigation-actions
```
Output:  

```
{
    "actionIdentifiers": [
        {
            "actionName": "DeactivateCACertAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/DeactivateCACertAction",
            "creationDate": "2019-12-10T11:12:47.574000-08:00"
        },
        {
            "actionName": "ResetPolicyVersionAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/ResetPolicyVersionAction",
            "creationDate": "2019-12-10T11:11:48.920000-08:00"
        },
        {
            "actionName": "PublishFindingToSNSAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/PublishFindingToSNSAction",
            "creationDate": "2019-12-10T11:10:49.546000-08:00"
        },
        {
            "actionName": "AddThingsToQuarantineGroupAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/AddThingsToQuarantineGroupAction",
            "creationDate": "2019-12-10T11:09:35.999000-08:00"
        },
        {
            "actionName": "UpdateDeviceCertAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/UpdateDeviceCertAction",
            "creationDate": "2019-12-10T11:08:44.263000-08:00"
        },
        {
            "actionName": "SampleMitigationAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/SampleMitigationAction",
            "creationDate": "2019-12-10T11:03:41.840000-08:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListMitigationActions (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-ListMitigationActions) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListMitigationActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-mitigation-actions.html)di *Referensi AWS CLI Perintah*. 

### `list-mitigations-actions`
<a name="iot_ListMitigationsActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-mitigations-actions`.

**AWS CLI**  
**Untuk mencantumkan semua tindakan mitigasi yang ditentukan**  
`list-mitigations-actions`Contoh berikut mencantumkan semua tindakan mitigasi yang ditentukan untuk AWS akun dan Wilayah Anda. Untuk setiap tindakan, nama, ARN, dan tanggal pembuatan tercantum.  

```
aws iot list-mitigation-actions
```
Output:  

```
{
    "actionIdentifiers": [
        {
            "actionName": "DeactivateCACertAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/DeactivateCACertAction",
            "creationDate": "2019-12-10T11:12:47.574000-08:00"
        },
        {
            "actionName": "ResetPolicyVersionAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/ResetPolicyVersionAction",
            "creationDate": "2019-12-10T11:11:48.920000-08:00"
        },
        {
            "actionName": "PublishFindingToSNSAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/PublishFindingToSNSAction",
            "creationDate": "2019-12-10T11:10:49.546000-08:00"
        },
        {
            "actionName": "AddThingsToQuarantineGroupAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/AddThingsToQuarantineGroupAction",
            "creationDate": "2019-12-10T11:09:35.999000-08:00"
        },
        {
            "actionName": "UpdateDeviceCertAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/UpdateDeviceCertAction",
            "creationDate": "2019-12-10T11:08:44.263000-08:00"
        },
        {
            "actionName": "SampleMitigationAction",
            "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/SampleMitigationAction",
            "creationDate": "2019-12-10T11:03:41.840000-08:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListMitigationActions (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-ListMitigationActions) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListMitigationsActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-mitigations-actions.html)di *Referensi AWS CLI Perintah*. 

### `list-ota-updates`
<a name="iot_ListOtaUpdates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-ota-updates`.

**AWS CLI**  
**Untuk mencantumkan Pembaruan OTA untuk akun**  
`list-ota-updates`Contoh berikut mencantumkan pembaruan OTA yang tersedia.  

```
aws iot list-ota-updates
```
Output:  

```
{
    "otaUpdates": [
        {
            "otaUpdateId": "itsaupdate",
            "otaUpdateArn": "arn:aws:iot:us-west-2:123456789012:otaupdate/itsaupdate",
            "creationDate": 1557863215.995
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar OTAUpdates](https://docs.aws.amazon.com/iot/latest/apireference/API_ListOTAUpdates.html) di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListOtaUpdates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-ota-updates.html)di *Referensi AWS CLI Perintah*. 

### `list-outgoing-certificates`
<a name="iot_ListOutgoingCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-outgoing-certificates`.

**AWS CLI**  
**Untuk membuat daftar sertifikat yang ditransfer ke AWS akun lain**  
`list-outgoing-certificates`Contoh berikut mencantumkan semua sertifikat perangkat yang sedang dalam proses ditransfer ke AWS akun yang berbeda menggunakan `transfer-certificate` perintah.  

```
aws iot list-outgoing-certificates
```
Output:  

```
{
    "outgoingCertificates": [
        {
            "certificateArn": "arn:aws:iot:us-west-2:030714055129:cert/488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142",
            "certificateId": "488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142",
            "transferredTo": "030714055129",
            "transferDate": 1569427780.441,
            "creationDate": 1569363250.557
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListOutgoingCertificates](https://docs.aws.amazon.com/iot/latest/apireference/API_ListOutgoingCertificates.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListOutgoingCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-outgoing-certificates.html)di *Referensi AWS CLI Perintah*. 

### `list-policies`
<a name="iot_ListPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policies`.

**AWS CLI**  
**Untuk mencantumkan kebijakan yang ditentukan di AWS akun Anda**  
`list-policies`Contoh berikut mencantumkan semua kebijakan yang ditentukan di AWS akun Anda.  

```
aws iot list-policies
```
Output:  

```
{
    "policies": [
        {
            "policyName": "UpdateDeviceCertPolicy",
            "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/UpdateDeviceCertPolicy"
        },
        {
            "policyName": "PlantIoTPolicy",
            "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/PlantIoTPolicy"
        },
        {
            "policyName": "MyPiGroup_Core-policy",
            "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/MyPiGroup_Core-policy"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kebijakan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-policies.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-policy-versions`
<a name="iot_ListPolicyVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policy-versions`.

**AWS CLI**  
**Contoh 1: Untuk melihat semua versi kebijakan**  
`list-policy-versions`Contoh berikut mencantumkan semua versi kebijakan yang ditentukan dan tanggal pembuatannya.  

```
aws iot list-policy-versions \
    --policy-name LightBulbPolicy
```
Output:  

```
{
    "policyVersions": [
        {
            "versionId": "2",
            "isDefaultVersion": true,
            "createDate": 1559925941.924
        },
        {
            "versionId": "1",
            "isDefaultVersion": false,
            "createDate": 1559925941.924
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kebijakan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-policies.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListPolicyVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-policy-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-principal-things`
<a name="iot_ListPrincipalThings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-principal-things`.

**AWS CLI**  
**Untuk membuat daftar hal-hal yang dilampirkan dengan kepala sekolah**  
`list-principal-things`Contoh berikut mencantumkan hal-hal yang dilampirkan pada prinsipal yang ditentukan oleh ARN.  

```
aws iot list-principal-things \
    --principal arn:aws:iot:us-west-2:123456789012:cert/2e1eb273792174ec2b9bf4e9b37e6c6c692345499506002a35159767055278e8
```
Output:  

```
{
    "things": [
        "DeskLamp",
        "TableLamp"
    ]
}
```
Untuk informasi selengkapnya, lihat [ListPrincipalThings](https://docs.aws.amazon.com/iot/latest/apireference/API_ListPrincipleThings.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListPrincipalThings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-principal-things.html)di *Referensi AWS CLI Perintah*. 

### `list-provisioning-template-versions`
<a name="iot_ListProvisioningTemplateVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-provisioning-template-versions`.

**AWS CLI**  
**Untuk membuat daftar versi templat penyediaan**  
`list-provisioning-template-versions`Contoh berikut mencantumkan versi yang tersedia dari template penyediaan yang ditentukan.  

```
aws iot list-provisioning-template-versions \
    --template-name "widget-template"
```
Output:  

```
{
    "versions": [
        {
            "versionId": 1,
            "creationDate": 1574800471.339,
            "isDefaultVersion": true
        },
        {
            "versionId": 2,
            "creationDate": 1574801192.317,
            "isDefaultVersion": false
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [AWS IoT Secure Tunneling di IoT](https://docs.aws.amazon.com/iot/latest/developerguide/secure-tunneling.html) Core Developer AWS Guide.*  
+  Untuk detail API, lihat [ListProvisioningTemplateVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-provisioning-template-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-provisioning-templates`
<a name="iot_ListProvisioningTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-provisioning-templates`.

**AWS CLI**  
**Untuk membuat daftar templat penyediaan**  
`list-provisioning-templates`Contoh berikut mencantumkan semua templat penyediaan di akun Anda AWS .  

```
aws iot list-provisioning-templates
```
Output:  

```
{
    "templates": [
        {
            "templateArn": "arn:aws:iot:us-east-1:123456789012:provisioningtemplate/widget-template",
            "templateName": "widget-template",
            "description": "A provisioning template for widgets",
            "creationDate": 1574800471.367,
            "lastModifiedDate": 1574801192.324,
            "enabled": false
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [AWS IoT Secure Tunneling di IoT](https://docs.aws.amazon.com/iot/latest/developerguide/secure-tunneling.html) Core Developer AWS Guide.*  
+  Untuk detail API, lihat [ListProvisioningTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-provisioning-templates.html)di *Referensi AWS CLI Perintah*. 

### `list-role-aliases`
<a name="iot_ListRoleAliases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-role-aliases`.

**AWS CLI**  
**Untuk membuat daftar alias peran AWS IoT di akun Anda AWS **  
`list-role-aliases`Contoh berikut mencantumkan alias peran AWS IoT di akun Anda. AWS   

```
aws iot list-role-aliases
```
Output:  

```
{
    "roleAliases": [
        "ResidentAlias",
        "ElectricianAlias"
    ]
}
```
Untuk informasi selengkapnya, lihat [ListRoleAliases](https://docs.aws.amazon.com/iot/latest/apireference/API_ListRoleAliases.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListRoleAliases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-role-aliases.html)di *Referensi AWS CLI Perintah*. 

### `list-scheduled-audits`
<a name="iot_ListScheduledAudits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-scheduled-audits`.

**AWS CLI**  
**Untuk membuat daftar audit terjadwal untuk akun Anda AWS **  
`list-scheduled-audits`Contoh berikut mencantumkan audit apa pun yang dijadwalkan untuk AWS akun Anda.  

```
aws iot list-scheduled-audits
```
Output:  

```
{
    "scheduledAudits": [
        {
            "scheduledAuditName": "AWSIoTDeviceDefenderDailyAudit",
            "scheduledAuditArn": "arn:aws:iot:us-west-2:123456789012:scheduledaudit/AWSIoTDeviceDefenderDailyAudit",
            "frequency": "DAILY"
        },
        {
            "scheduledAuditName": "AWSDeviceDefenderWeeklyAudit",
            "scheduledAuditArn": "arn:aws:iot:us-west-2:123456789012:scheduledaudit/AWSDeviceDefenderWeeklyAudit",
            "frequency": "WEEKLY",
            "dayOfWeek": "SUN"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListScheduledAudits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-scheduled-audits.html)di *Referensi AWS CLI Perintah*. 

### `list-security-profiles-for-target`
<a name="iot_ListSecurityProfilesForTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-security-profiles-for-target`.

**AWS CLI**  
**Untuk membuat daftar profil keamanan yang dilampirkan pada target**  
`list-security-profiles-for-target`Contoh berikut mencantumkan profil keamanan AWS IoT Device Defender yang dilampirkan ke perangkat yang tidak terdaftar.  

```
aws iot list-security-profiles-for-target  \
    --security-profile-target-arn "arn:aws:iot:us-west-2:123456789012:all/unregistered-things"
```
Output:  

```
{
    "securityProfileTargetMappings": [
        {
            "securityProfileIdentifier": {
                "name": "Testprofile",
                "arn": "arn:aws:iot:us-west-2:123456789012:securityprofile/Testprofile"
            },
            "target": {
                "arn": "arn:aws:iot:us-west-2:123456789012:all/unregistered-things"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListSecurityProfilesForTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-security-profiles-for-target.html)di *Referensi AWS CLI Perintah*. 

### `list-security-profiles`
<a name="iot_ListSecurityProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-security-profiles`.

**AWS CLI**  
**Untuk membuat daftar profil keamanan untuk AWS akun Anda**  
`list-security-profiles`Contoh berikut mencantumkan semua profil keamanan AWS IoT Device Defender yang ditentukan AWS di akun Anda.  

```
aws iot list-security-profiles
```
Output:  

```
{
    "securityProfileIdentifiers": [
        {
            "name": "Testprofile",
            "arn": "arn:aws:iot:us-west-2:123456789012:securityprofile/Testprofile"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListSecurityProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-security-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-streams`
<a name="iot_ListStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-streams`.

**AWS CLI**  
**Untuk membuat daftar aliran di akun**  
`list-streams`Contoh berikut mencantumkan semua aliran di AWS akun Anda.  

```
aws iot list-streams
```
Output:  

```
{
    "streams": [
        {
            "streamId": "stream12345",
            "streamArn": "arn:aws:iot:us-west-2:123456789012:stream/stream12345",
            "streamVersion": 1,
            "description": "This stream is used for Amazon FreeRTOS OTA Update 12345."
        },
        {
            "streamId": "stream54321",
            "streamArn": "arn:aws:iot:us-west-2:123456789012:stream/stream54321",
            "streamVersion": 1,
            "description": "This stream is used for Amazon FreeRTOS OTA Update 54321."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListStreams](https://docs.aws.amazon.com/iot/latest/apireference/API_ListStreams.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-streams.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="iot_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk menampilkan tag dan nilainya yang terkait dengan sumber daya**  
`list-tags-for-resource`Contoh berikut menampilkan tag dan nilai-nilai yang terkait dengan kelompok hal`LightBulbs`.  

```
aws iot list-tags-for-resource \
    --resource-arn "arn:aws:iot:us-west-2:094249569039:thinggroup/LightBulbs"
```
Output:  

```
{
    "tags": [
        {
            "Key": "Assembly",
            "Value": "Fact1NW"
        },
        {
            "Key": "MyTag",
            "Value": "777"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya AWS IoT Anda](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-targets-for-policy`
<a name="iot_ListTargetsForPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-targets-for-policy`.

**AWS CLI**  
**Untuk membuat daftar prinsipal yang terkait dengan kebijakan IoT AWS **  
`list-targets-for-policy`Contoh berikut mencantumkan sertifikat perangkat yang dilampirkan kebijakan yang ditentukan.  

```
aws iot list-targets-for-policy \
    --policy-name UpdateDeviceCertPolicy
```
Output:  

```
{
    "targets": [
        "arn:aws:iot:us-west-2:123456789012:cert/488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142",
        "arn:aws:iot:us-west-2:123456789012:cert/d1eb269fb55a628552143c8f96eb3c258fcd5331ea113e766ba0c82bf225f0be"
    ]
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListTargetsForPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-targets-for-policy.html)di *Referensi AWS CLI Perintah*. 

### `list-targets-for-security-profile`
<a name="iot_ListTargetsForSecurityProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-targets-for-security-profile`.

**AWS CLI**  
**Untuk membuat daftar target di mana profil keamanan diterapkan**  
`list-targets-for-security-profile`Contoh berikut mencantumkan target yang diberi nama `PossibleIssue` profil keamanan AWS IoT Device Defender diterapkan.  

```
aws iot list-targets-for-security-profile \
    --security-profile-name Testprofile
```
Output:  

```
{
    "securityProfileTargets": [
        {
            "arn": "arn:aws:iot:us-west-2:123456789012:all/unregistered-things"
        },
        {
            "arn": "arn:aws:iot:us-west-2:123456789012:all/registered-things"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListTargetsForSecurityProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-targets-for-security-profile.html)di *Referensi AWS CLI Perintah*. 

### `list-thing-groups-for-thing`
<a name="iot_ListThingGroupsForThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-thing-groups-for-thing`.

**AWS CLI**  
**Untuk membuat daftar kelompok-kelompok yang menjadi milik suatu benda**  
`list-thing-groups-for-thing`Contoh berikut mencantumkan kelompok-kelompok yang menjadi milik benda yang ditentukan.  

```
aws iot list-thing-groups-for-thing \
    --thing-name MyLightBulb
```
Output:  

```
{
    "thingGroups": [
        {
            "groupName": "DeadBulbs",
            "groupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/DeadBulbs"
        },
        {
            "groupName": "LightBulbs",
            "groupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/LightBulbs"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListThingGroupsForThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-thing-groups-for-thing.html)di *Referensi AWS CLI Perintah*. 

### `list-thing-groups`
<a name="iot_ListThingGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-thing-groups`.

**AWS CLI**  
**Untuk membuat daftar grup hal yang ditentukan di AWS akun Anda**  
`describe-thing-group`Contoh berikut mencantumkan semua grup hal yang ditentukan di AWS akun Anda.  

```
aws iot list-thing-groups
```
Output:  

```
{
    "thingGroups": [
        {
            "groupName": "HalogenBulbs",
            "groupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/HalogenBulbs"
        },
        {
            "groupName": "LightBulbs",
            "groupArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/LightBulbs"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListThingGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-thing-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-thing-principals`
<a name="iot_ListThingPrincipals_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-thing-principals`.

**AWS CLI**  
**Untuk membuat daftar kepala sekolah yang terkait dengan suatu hal**  
`list-thing-principals`Contoh berikut mencantumkan prinsipal (sertifikat X.509, pengguna IAM, grup, peran, identitas Amazon Cognito, atau identitas federasi) yang terkait dengan hal yang ditentukan.  

```
aws iot list-thing-principals \
    --thing-name MyRaspberryPi
```
Output:  

```
{
    "principals": [
        "arn:aws:iot:us-west-2:123456789012:cert/33475ac865079a5ffd5ecd44240640349293facc760642d7d8d5dbb6b4c86893"
    ]
}
```
Untuk informasi selengkapnya, lihat [ListThingPrincipals](https://docs.aws.amazon.com/iot/latest/apireference/API_ListThingPrincipals.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListThingPrincipals](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-thing-principals.html)di *Referensi AWS CLI Perintah*. 

### `list-thing-types`
<a name="iot_ListThingTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-thing-types`.

**AWS CLI**  
**Untuk membuat daftar jenis hal yang ditentukan**  
`list-thing-types`Contoh berikut menampilkan daftar jenis hal yang didefinisikan dalam AWS akun Anda.  

```
aws iot list-thing-types
```
Output:  

```
{
    "thingTypes": [
        {
            "thingTypeName": "LightBulb",
            "thingTypeArn": "arn:aws:iot:us-west-2:123456789012:thingtype/LightBulb",
            "thingTypeProperties": {
                "thingTypeDescription": "light bulb type",
                "searchableAttributes": [
                    "model",
                    "wattage"
                ]
            },
            "thingTypeMetadata": {
            "deprecated": false,
            "creationDate": 1559772562.498
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tipe Hal](https://docs.aws.amazon.com/iot/latest/developerguide/thing-types.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListThingTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-thing-types.html)di *Referensi AWS CLI Perintah*. 

### `list-things-in-billing-group`
<a name="iot_ListThingsInBillingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-things-in-billing-group`.

**AWS CLI**  
**Untuk membuat daftar hal-hal dalam grup penagihan**  
`list-things-in-billing-group`Contoh berikut mencantumkan hal-hal yang ada di grup penagihan yang ditentukan.  

```
aws iot list-things-in-billing-group \
    --billing-group-name GroupOne
```
Output:  

```
{
    "things": [
        "MyOtherLightBulb",
        "MyLightBulb"
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup Penagihan](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot-billing-groups.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListThingsInBillingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-things-in-billing-group.html)di *Referensi AWS CLI Perintah*. 

### `list-things-in-thing-group`
<a name="iot_ListThingsInThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-things-in-thing-group`.

**AWS CLI**  
**Untuk membuat daftar hal-hal yang termasuk dalam grup**  
`list-things-in-thing-group`Contoh berikut mencantumkan hal-hal yang termasuk dalam kelompok hal yang ditentukan.  

```
aws iot list-things-in-thing-group \
    --thing-group-name LightBulbs
```
Output:  

```
{
    "things": [
        "MyLightBulb"
    ]
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListThingsInThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-things-in-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `list-things`
<a name="iot_ListThings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-things`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar semua hal dalam registri**  
`list-things`Contoh berikut mencantumkan hal-hal (perangkat) yang didefinisikan dalam registri AWS IoT untuk akun Anda AWS .  

```
aws iot list-things
```
Output:  

```
{
    "things": [
        {
            "thingName": "ThirdBulb",
            "thingTypeName": "LightBulb",
            "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/ThirdBulb",
            "attributes": {
                "model": "123",
                "wattage": "75"
            },
            "version": 2
        },
        {
            "thingName": "MyOtherLightBulb",
            "thingTypeName": "LightBulb",
            "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyOtherLightBulb",
            "attributes": {
                "model": "123",
                "wattage": "75"
            },
            "version": 3
        },
        {
            "thingName": "MyLightBulb",
            "thingTypeName": "LightBulb",
            "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyLightBulb",
            "attributes": {
                "model": "123",
                "wattage": "75"
            },
            "version": 1
        },
        {
        "thingName": "SampleIoTThing",
        "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/SampleIoTThing",
        "attributes": {},
        "version": 1
        }
    ]
}
```
**Contoh 2: Untuk membuat daftar hal-hal yang ditentukan yang memiliki atribut tertentu**  
`list-things`Contoh berikut menampilkan daftar hal-hal yang memiliki atribut bernama`wattage`.  

```
aws iot list-things \
    --attribute-name wattage
```
Output:  

```
{
    "things": [
        {
            "thingName": "MyLightBulb",
            "thingTypeName": "LightBulb",
            "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyLightBulb",
            "attributes": {
                "model": "123",
                "wattage": "75"
            },
            "version": 1
        },
        {
            "thingName": "MyOtherLightBulb",
            "thingTypeName": "LightBulb",
            "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyOtherLightBulb",
            "attributes": {
                "model": "123",
                "wattage": "75"
            },
            "version": 3
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cara Mengelola Sesuatu dengan Registri](https://docs.aws.amazon.com/iot/latest/developerguide/thing-registry.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListThings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-things.html)di *Referensi AWS CLI Perintah*. 

### `list-topic-rule-destinations`
<a name="iot_ListTopicRuleDestinations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-topic-rule-destinations`.

**AWS CLI**  
**Untuk mencantumkan tujuan aturan topik**  
`list-topic-rule-destinations`Contoh berikut mencantumkan semua tujuan aturan topik yang telah Anda tetapkan di AWS Wilayah saat ini.  

```
aws iot list-topic-rule-destinations
```
Output:  

```
{
    "destinationSummaries": [
        {
            "arn": "arn:aws:iot:us-west-2:123456789012:ruledestination/http/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "status": "ENABLED",
            "httpUrlSummary": {
                "confirmationUrl": "https://example.com"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan tujuan aturan topik](https://docs.aws.amazon.com/iot/latest/developerguide/rule-destination.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListTopicRuleDestinations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-topic-rule-destinations.html)di *Referensi AWS CLI Perintah*. 

### `list-topic-rules`
<a name="iot_ListTopicRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-topic-rules`.

**AWS CLI**  
**Untuk membuat daftar aturan Anda**  
`list-topic-rules`Contoh berikut mencantumkan semua aturan yang telah Anda tetapkan.  

```
aws iot list-topic-rules
```
Output:  

```
{
    "rules": [
        {
            "ruleArn": "arn:aws:iot:us-west-2:123456789012:rule/MyRPiLowMoistureAlertRule",
            "ruleName": "MyRPiLowMoistureAlertRule",
            "topicPattern": "$aws/things/MyRPi/shadow/update/accepted",
            "createdAt": 1558624363.0,
            "ruleDisabled": false
        },
        {
            "ruleArn": "arn:aws:iot:us-west-2:123456789012:rule/MyPlantPiMoistureAlertRule",
            "ruleName": "MyPlantPiMoistureAlertRule",
            "topicPattern": "$aws/things/MyPlantPi/shadow/update/accepted",
            "createdAt": 1541458459.0,
            "ruleDisabled": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Aturan Anda](https://docs.aws.amazon.com/iot/latest/developerguide/iot-managae-rule.html#iot-view-rules) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListTopicRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-topic-rules.html)di *Referensi AWS CLI Perintah*. 

### `list-v2-logging-levels`
<a name="iot_ListV2LoggingLevels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-v2-logging-levels`.

**AWS CLI**  
**Untuk daftar tingkat logging**  
`list-v2-logging-levels`Contoh berikut mencantumkan level logging yang dikonfigurasi. Jika tingkat logging tidak disetel, a `NotConfiguredException` terjadi ketika Anda menjalankan perintah ini.  

```
aws iot list-v2-logging-levels
```
Output:  

```
{
    "logTargetConfigurations": [
        {
            "logTarget": {
                "targetType": "DEFAULT"
            },
            "logLevel": "ERROR"
        }
    ]
}
```
+  Untuk detail API, lihat [ListV2 LoggingLevels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-v2-logging-levels.html) di *Referensi AWS CLI Perintah*. 

### `list-violation-events`
<a name="iot_ListViolationEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-violation-events`.

**AWS CLI**  
**Untuk membuat daftar pelanggaran profil keamanan selama periode waktu**  
`list-violation-events`Contoh berikut mencantumkan pelanggaran yang terjadi antara 5 Juni 2019 dan 12 Juni 2019 untuk semua profil keamanan AWS IoT Device Defender untuk AWS akun dan Wilayah saat ini AWS .  

```
aws iot list-violation-events \
    --start-time 1559747125 \
    --end-time 1560351925
```
Output:  

```
{
    "violationEvents": [
        {
            "violationId": "174db59167fa474c80a652ad1583fd44",
            "thingName": "iotconsole-1560269126751-1",
            "securityProfileName": "Testprofile",
            "behavior": {
                "name": "Authorization",
                "metric": "aws:num-authorization-failures",
                "criteria": {
                    "comparisonOperator": "greater-than",
                    "value": {
                        "count": 10
                    },
                    "durationSeconds": 300,
                    "consecutiveDatapointsToAlarm": 1,
                    "consecutiveDatapointsToClear": 1
                }
            },
            "metricValue": {
                "count": 0
            },
            "violationEventType": "in-alarm",
            "violationEventTime": 1560279000.0
        },
        {
            "violationId": "c8a9466a093d3b7b35cd44ca58bdbeab",
            "thingName": "TvnQoEoU",
            "securityProfileName": "Testprofile",
            "behavior": {
                "name": "CellularBandwidth",
                "metric": "aws:message-byte-size",
                "criteria": {
                    "comparisonOperator": "greater-than",
                    "value": {
                        "count": 128
                    },
                    "consecutiveDatapointsToAlarm": 1,
                    "consecutiveDatapointsToClear": 1
                }
            },
            "metricValue": {
                "count": 110
            },
            "violationEventType": "in-alarm",
            "violationEventTime": 1560276600.0
        },
        {
            "violationId": "74aa393adea02e6648f3ac362beed55e",
            "thingName": "iotconsole-1560269232412-2",
            "securityProfileName": "Testprofile",
            "behavior": {
                "name": "Authorization",
                "metric": "aws:num-authorization-failures",
                "criteria": {
                    "comparisonOperator": "greater-than",
                    "value": {
                        "count": 10
                    },
                    "durationSeconds": 300,
                    "consecutiveDatapointsToAlarm": 1,
                    "consecutiveDatapointsToClear": 1
                }
            },
            "metricValue": {
                "count": 0
            },
            "violationEventType": "in-alarm",
            "violationEventTime": 1560276600.0
        },
        {
            "violationId": "1e6ab5f7cf39a1466fcd154e1377e406",
            "thingName": "TvnQoEoU",
            "securityProfileName": "Testprofile",
            "behavior": {
                "name": "Authorization",
                "metric": "aws:num-authorization-failures",
                "criteria": {
                    "comparisonOperator": "greater-than",
                    "value": {
                        "count": 10
                    },
                    "durationSeconds": 300,
                    "consecutiveDatapointsToAlarm": 1,
                    "consecutiveDatapointsToClear": 1
                }
            },
            "metricValue": {
                "count": 0
            },
            "violationEventType": "in-alarm",
            "violationEventTime": 1560276600.0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ListViolationEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/list-violation-events.html)di *Referensi AWS CLI Perintah*. 

### `register-ca-certificate`
<a name="iot_RegisterCaCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-ca-certificate`.

**AWS CLI**  
**Untuk mendaftarkan sertifikat otoritas sertifikat (CA)**  
`register-ca-certificate`Contoh berikut mendaftarkan sertifikat CA. Perintah ini menyediakan sertifikat CA dan sertifikat verifikasi kunci yang membuktikan bahwa Anda memiliki kunci pribadi yang terkait dengan sertifikat CA.  

```
aws iot register-ca-certificate \
    --ca-certificate file://rootCA.pem \
    --verification-cert file://verificationCert.pem
```
Output:  

```
{
    "certificateArn": "arn:aws:iot:us-west-2:123456789012:cacert/f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467",
    "certificateId": "f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467"
 }
```
Untuk informasi selengkapnya, lihat [Mendaftar CACertificate](https://docs.aws.amazon.com/iot/latest/apireference/API_RegisterCACertificate.html) di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [RegisterCaCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/register-ca-certificate.html)di *Referensi AWS CLI Perintah*. 

### `register-certificate`
<a name="iot_RegisterCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-certificate`.

**AWS CLI**  
**Untuk mendaftarkan sertifikat perangkat yang ditandatangani sendiri**  
`register-certificate`Contoh berikut mendaftarkan sertifikat `deviceCert.pem` perangkat yang ditandatangani oleh sertifikat `rootCA.pem` CA. Sertifikat CA harus didaftarkan sebelum Anda menggunakannya untuk mendaftarkan sertifikat perangkat yang ditandatangani sendiri. Sertifikat yang ditandatangani sendiri harus ditandatangani oleh sertifikat CA yang sama yang Anda berikan ke perintah ini.  

```
aws iot register-certificate \
    --certificate-pem file://deviceCert.pem \
    --ca-certificate-pem file://rootCA.pem
```
Output:  

```
{
    "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142",
    "certificateId": "488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142"
 }
```
Untuk informasi selengkapnya, lihat [RegisterCertificate](https://docs.aws.amazon.com/iot/latest/apireference/API_RegisterCertificate.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [RegisterCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/register-certificate.html)di *Referensi AWS CLI Perintah*. 

### `register-thing`
<a name="iot_RegisterThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-thing`.

**AWS CLI**  
**Untuk mendaftarkan sesuatu**  
`register-thing`Contoh berikut mendaftarkan sesuatu menggunakan template provisioning.  

```
aws iot register-thing \
    --template-body '{"Parameters":{"ThingName":{"Type":"String"},"AWS::IoT::Certificate::Id":{"Type":"String"}},"Resources": {"certificate":{"Properties":{"CertificateId":{"Ref":"AWS::IoT::Certificate::Id"},"Status":"Active"},"Type":"AWS::IoT::Certificate"},"policy":{"Properties":{"PolicyName":"MyIotPolicy"},"Type":"AWS::IoT::Policy"},"thing":{"OverrideSettings":{"AttributePayload":"MERGE","ThingGroups":"DO_NOTHING","ThingTypeName":"REPLACE"},"Properties":{"AttributePayload":{},"ThingGroups":[],"ThingName":{"Ref":"ThingName"},"ThingTypeName":"VirtualThings"},"Type":"AWS::IoT::Thing"}}}' \
    --parameters '{"ThingName":"Register-thing-trial-1","AWS::IoT::Certificate::Id":"799a9ea048a1e6aea42b55EXAMPLEf8697b4bafcd77a318a3068e30404b9233c"}'
```
Output:  

```
{
    "certificatePem": "-----BEGIN CERTIFICATE-----\nMIIDWTCCAkGgAwIBAgIUYLk81I35cIppobpw
HiOJ2jNjboIwDQYJKoZIhvcNAQEL\nBQAwTTFLMEkGA1UECwxCQW1hem9uIFdlYiBTZXJ2aWNlcyBPPUFtYXpvbi
5jb20g\nSW5jLiBMPVNlYXR0bGUgU1Q9V2FzaGluZ3RvbiBDPVVTMB4XDTIwMDcyMzE2NDUw\nOVoXDTQ5MTIzMT
IzNTk1OVowHjEcMBoGA1UEAwwTQVdTIElvVCBDZXJ0aWZpY2F0\nZTCCASIwDQYJKoZIhvcNAQEBBQADggEPADCC
AQoCggEBAO71uADhdBajqTmgrMV5\nmCFfBZQRMo1MdtVoZr2X+M4MzL+RARrtUzH9a2SMAckeX8KeblIOTKzORI
RDXnyE\n6lVOwjgAsd0ku22rFxex4eG2ikha7pYYkvuToqA7L3TxItRvfKrxRI4ZfJoFPip4\nKqiuBJVNOGKTcQ
Hd1RNOrddwwu6kFJLeKDmEXAMPLEdUF0N+qfR9yKnZQkm+g6Q2\nGXu7u0W3hn6nlRN8qVoka0uW12p53xM7oHVz
Gf+cxKBxlbOhGkp6yCfTSkUBm3Sp\n9zLw35kiHXVm4EVpwgNlnk6XcIGIkw8a/iy4pzmvuGAANY1/uU/zgCjymw
ZT5S30\nBV0CAwEAAaNgMF4wHwYDVR0jBBgwFoAUGx0tCcU3q2n1WXAuUCv6hugXjKswHQYD\nVR0OBBYEFOVtvZ
9Aj2RYFnkX7Iu01XTRUdxgMAwGA1UdEwEB/wQCMAAwDgYDVR0P\nAQH/BAQDAgeAMA0GCSqGSIb3DQEBCwUAA4IB
AQCXCQcpOtubS5ftOsDMTcpP/jNX\nDHyArxmjpSc2aCdmm7WX59lTKWyAdxGAvqaDVWqTo0oXI7tZ8w7aINlGi5
pXnifx\n3SBebMUoBbTktrC97yUaeL025mCFv8emDnTR/fE7PTsBKjW0g/rrfpwBxZLXDFwN\nnqkQjy3EDfifj2
6j0xYIqqWMPogyn4srOCKynS5wMJuQZlHQOnabVwnwK4Y0Mflp\np9+4susFUR9aT3BT1AcIwqSpzhlKhh4Iz7ND
kRn4amsUT210jg/zOO1Ow+BTHcVQ\nJly8XDu0CWSu04q6SnaBzHmlySIajxuRTP/AdfRouP1OXe+qlbPOBcvVvF
8o\n-----END CERTIFICATE-----\n",
    "resourceArns": {
        "certificate": "arn:aws:iot:us-west-2:571032923833:cert/799a9ea048a1e6aea42b55EXAMPLEf8697b4bafcd77a318a3068e30404b9233c",
        "thing": "arn:aws:iot:us-west-2:571032923833:thing/Register-thing-trial-1"
    }
}
```
Untuk informasi selengkapnya, lihat [Penyediaan oleh pengguna tepercaya di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/provision-wo-cert.html#trusted-user) Pengembang Inti *AWS IoT*.  
+  Untuk detail API, lihat [RegisterThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/register-thing.html)di *Referensi AWS CLI Perintah*. 

### `reject-certificate-transfer`
<a name="iot_RejectCertificateTransfer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-certificate-transfer`.

**AWS CLI**  
**Untuk menolak transfer sertifikat**  
`reject-certificate-transfer`Contoh berikut menolak transfer sertifikat perangkat yang ditentukan dari AWS akun lain.  

```
aws iot reject-certificate-transfer \
    --certificate-id f0f33678c7c9a046e5cc87b2b1a58dfa0beec26db78addd5e605d630e05c7fc8
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mentransfer sertifikat ke akun lain](https://docs.aws.amazon.com/iot/latest/developerguide/transfer-cert.html) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [RejectCertificateTransfer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/reject-certificate-transfer.html)di *Referensi AWS CLI Perintah*. 

### `remove-thing-from-billing-group`
<a name="iot_RemoveThingFromBillingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-thing-from-billing-group`.

**AWS CLI**  
**Untuk menghapus sesuatu dari grup penagihan**  
`remove-thing-from-billing-group`Contoh berikut menghapus hal yang ditentukan dari grup penagihan.  

```
aws iot remove-thing-from-billing-group \
    --billing-group-name GroupOne \
    --thing-name MyOtherLightBulb
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Grup Penagihan](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot-billing-groups.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [RemoveThingFromBillingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/remove-thing-from-billing-group.html)di *Referensi AWS CLI Perintah*. 

### `remove-thing-from-thing-group`
<a name="iot_RemoveThingFromThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-thing-from-thing-group`.

**AWS CLI**  
**Untuk menghapus sesuatu dari grup benda**  
`remove-thing-from-thing-group`Contoh berikut menghapus hal yang ditentukan dari kelompok hal.  

```
aws iot remove-thing-from-thing-group \
    --thing-name bulb7 \
    --thing-group-name DeadBulbs
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat Thing Groups < https://docs.aws.amazon.com/iot/ latest/developerguide/thing -groups.html > di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [RemoveThingFromThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/remove-thing-from-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `replace-topic-rule`
<a name="iot_ReplaceTopicRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`replace-topic-rule`.

**AWS CLI**  
**Untuk memperbarui definisi aturan topik**  
`replace-topic-rule`Contoh berikut memperbarui aturan yang ditentukan untuk mengirim peringatan SNS ketika pembacaan tingkat kelembaban tanah terlalu rendah.  

```
aws iot replace-topic-rule \
    --rule-name MyRPiLowMoistureAlertRule \
    --topic-rule-payload "{\"sql\": \"SELECT * FROM '$aws/things/MyRPi/shadow/update/accepted' WHERE state.reported.moisture = 'low'\", \"description\": \"Sends an alert when soil moisture level readings are too low.\",\"actions\": [{\"sns\":{\"targetArn\":\"arn:aws:sns:us-west-2:123456789012:MyRPiLowMoistureTopic\",\"roleArn\":\"arn:aws:iam::123456789012:role/service-role/MyRPiLowMoistureTopicRole\",\"messageFormat\": \"RAW\"}}],\"ruleDisabled\": false,\"awsIotSqlVersion\":\"2016-03-23\"}"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Aturan AWS IoT di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/iot-create-rule.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ReplaceTopicRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/replace-topic-rule.html)di *Referensi AWS CLI Perintah*. 

### `search-index`
<a name="iot_SearchIndex_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-index`.

**AWS CLI**  
**Untuk menanyakan indeks benda**  
`search-index`Contoh berikut query `AWS_Things` indeks untuk hal-hal yang memiliki jenis. `LightBulb`  

```
aws iot search-index \
    --index-name "AWS_Things" \
    --query-string "thingTypeName:LightBulb"
```
Output:  

```
{
    "things": [
        {
            "thingName": "MyLightBulb",
            "thingId": "40da2e73-c6af-406e-b415-15acae538797",
            "thingTypeName": "LightBulb",
            "thingGroupNames": [
                "LightBulbs",
                "DeadBulbs"
            ],
            "attributes": {
                "model": "123",
                "wattage": "75"
            },
            "connectivity": {
                "connected": false
            }
        },
        {
            "thingName": "ThirdBulb",
            "thingId": "615c8455-33d5-40e8-95fd-3ee8b24490af",
            "thingTypeName": "LightBulb",
            "attributes": {
                "model": "123",
                "wattage": "75"
            },
            "connectivity": {
                "connected": false
            }
        },
        {
            "thingName": "MyOtherLightBulb",
            "thingId": "6dae0d3f-40c1-476a-80c4-1ed24ba6aa11",
            "thingTypeName": "LightBulb",
            "attributes": {
                "model": "123",
                "wattage": "75"
            },
            "connectivity": {
                "connected": false
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Pengindeksan Hal](https://docs.aws.amazon.com/iot/latest/developerguide/managing-index.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [SearchIndex](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/search-index.html)di *Referensi AWS CLI Perintah*. 

### `set-default-authorizer`
<a name="iot_SetDefaultAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-default-authorizer`.

**AWS CLI**  
**Untuk menetapkan otorisasi default**  
`set-default-authorizer`Contoh berikut menetapkan authorizer kustom bernama `CustomAuthorizer` sebagai authorizer default.  

```
aws iot set-default-authorizer \
    --authorizer-name CustomAuthorizer
```
Output:  

```
{
    "authorizerName": "CustomAuthorizer",
    "authorizerArn": "arn:aws:iot:us-west-2:123456789012:authorizer/CustomAuthorizer"
}
```
Untuk informasi selengkapnya, lihat [CreateDefaultAuthorizer](https://docs.aws.amazon.com/iot/latest/apireference/API_CreateDefaultAuthorizer.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [SetDefaultAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/set-default-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `set-default-policy-version`
<a name="iot_SetDefaultPolicyVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-default-policy-version`.

**AWS CLI**  
**Untuk menyetel versi default untuk kebijakan**  
`set-default-policy-version`Contoh berikut menetapkan versi default `2` untuk kebijakan bernama`UpdateDeviceCertPolicy`.  

```
aws iot set-default-policy-version \
    --policy-name UpdateDeviceCertPolicy \
    --policy-version-id 2
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetDefaultPolicyVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/set-default-policy-version.html)di *Referensi AWS CLI Perintah*. 

### `set-v2-logging-level`
<a name="iot_SetV2LoggingLevel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-v2-logging-level`.

**AWS CLI**  
**Untuk mengatur tingkat logging untuk grup sesuatu**  
`set-v2-logging-level`Contoh berikut menetapkan tingkat logging untuk log peringatan untuk kelompok hal yang ditentukan.  

```
aws iot set-v2-logging-level \
    --log-target "{\"targetType\":\"THING_GROUP\",\"targetName\":\"LightBulbs\"}" \
    --log-level WARN
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetV2 LoggingLevel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/set-v2-logging-level.html) di *Referensi AWS CLI Perintah*. 

### `set-v2-logging-options`
<a name="iot_SetV2LoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-v2-logging-options`.

**AWS CLI**  
**Untuk mengatur opsi pencatatan**  
`set-v2-logging-options`Contoh berikut menetapkan tingkat verbositas logging default ke ERROR dan menentukan ARN yang akan digunakan untuk logging.  

```
aws iot set-v2-logging-options \
    --default-log-level ERROR \
    --role-arn "arn:aws:iam::094249569039:role/service-role/iotLoggingRole"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetV2 LoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/set-v2-logging-options.html) di *Referensi AWS CLI Perintah*. 

### `start-audit-mitigation-actions-task`
<a name="iot_StartAuditMitigationActionsTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-audit-mitigation-actions-task`.

**AWS CLI**  
**Untuk menerapkan tindakan mitigasi terhadap temuan dari audit**  
`start-audit-mitigation-actions-task`Contoh berikut menerapkan `ResetPolicyVersionAction` tindakan (yang menghapus kebijakan) ke temuan tunggal yang ditentukan.  

```
aws iot start-audit-mitigation-actions-task \
    --task-id "myActionsTaskId" \
    --target "findingIds=[\"0edbaaec-2fe1-4cf5-abc9-d4c3e51f7464\"]" \
    --audit-check-to-actions-mapping "IOT_POLICY_OVERLY_PERMISSIVE_CHECK=[\"ResetPolicyVersionAction\"]" \
    --client-request-token "adhadhahda"
```
Output:  

```
{
    "taskId": "myActionsTaskId"
}
```
Untuk informasi selengkapnya, lihat [StartAuditMitigationActionsTask (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-StartAuditMitigationActionsTask) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [StartAuditMitigationActionsTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/start-audit-mitigation-actions-task.html)di *Referensi AWS CLI Perintah*. 

### `start-on-demand-audit-task`
<a name="iot_StartOnDemandAuditTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-on-demand-audit-task`.

**AWS CLI**  
**Untuk segera memulai audit**  
`start-on-demand-audit-task`Contoh berikut memulai audit AWS IoT Device Defender dan melakukan tiga pemeriksaan sertifikat.  

```
aws iot start-on-demand-audit-task \
    --target-check-names CA_CERTIFICATE_EXPIRING_CHECK DEVICE_CERTIFICATE_EXPIRING_CHECK REVOKED_CA_CERTIFICATE_STILL_ACTIVE_CHECK
```
Output:  

```
{
    "taskId": "a3aea009955e501a31b764abe1bebd3d"
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [StartOnDemandAuditTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/start-on-demand-audit-task.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="iot_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menentukan kunci tag dan nilai untuk sumber daya**  
`tag-resource`Contoh berikut menerapkan tag dengan kunci `Assembly` dan nilai `Fact1NW` untuk kelompok hal`LightBulbs`.  

```
aws iot tag-resource \
    --tags Key=Assembly,Value="Fact1NW" \
    --resource-arn "arn:aws:iot:us-west-2:094249569039:thinggroup/LightBulbs"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya AWS IoT Anda](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `test-authorization`
<a name="iot_TestAuthorization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-authorization`.

**AWS CLI**  
**Untuk menguji kebijakan AWS IoT Anda**  
`test-authorization`Contoh berikut menguji kebijakan AWS IoT yang terkait dengan prinsipal yang ditentukan.  

```
aws iot test-authorization \
    --auth-infos actionType=CONNECT,resources=arn:aws:iot:us-east-1:123456789012:client/client1 \
    --principal arn:aws:iot:us-west-2:123456789012:cert/aab1068f7f43ac3e3cae4b3a8aa3f308d2a750e6350507962e32c1eb465d9775
```
Output:  

```
{
    "authResults": [
        {
            "authInfo": {
                "actionType": "CONNECT",
                "resources": [
                    "arn:aws:iot:us-east-1:123456789012:client/client1"
                ]
            },
            "allowed": {
                "policies": [
                    {
                        "policyName": "TestPolicyAllowed",
                        "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/TestPolicyAllowed"
                    }
                ]
            },
            "denied": {
                "implicitDeny": {
                    "policies": [
                        {
                            "policyName": "TestPolicyDenied",
                            "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/TestPolicyDenied"
                        }
                    ]
                },
                "explicitDeny": {
                    "policies": [
                        {
                            "policyName": "TestPolicyExplicitDenied",
                            "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/TestPolicyExplicitDenied"
                        }
                    ]
                }
            },
            "authDecision": "IMPLICIT_DENY",
            "missingContextValues": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [TestAuthorization](https://docs.aws.amazon.com/iot/latest/apireference/API_TestAuthorization.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [TestAuthorization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/test-authorization.html)di *Referensi AWS CLI Perintah*. 

### `test-invoke-authorizer`
<a name="iot_TestInvokeAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-invoke-authorizer`.

**AWS CLI**  
**Untuk menguji otorisasi kustom Anda**  
`test-invoke-authorizer`Contoh berikut menguji otorisasi kustom Anda.  

```
aws iot test-invoke-authorizer \
    --authorizer-name IoTAuthorizer \
    --token allow \
    --token-signature "mE0GvaHqy9nER/FdgtJX5lXYEJ3b3vE7t1gEszc0TKGgLKWXTnPkb2AbKnOAZ8lGyoN5dVtWDWVmr25m7++zjbYIMk2TBvyGXhOmvKFBPkdgyA43KL6SiZy0cTqlPMcQDsP7VX2rXr7CTowCxSNKphGXdQe0/I5dQ+JO6KUaHwCmupt0/MejKtaNwiia064j6wprOAUwG5S1IYFuRd0X+wfo8pb0DubAIX1Ua705kuhRUcTx4SxUShEYKmN4IDEvLB6FsIr0B2wvB7y4iPmcajxzGl02ExvyCUNctCV9dYlRRGJj0nsGzBIXOI4sGytPfqlA7obdgmN22pkDzYvwjQ=="
```
Output:  

```
{
    "isAuthenticated": true,
    "principalId": "principalId",
    "policyDocuments": [
        "{"Version":"2012-10-17",		 	 	 "Statement":[{"Action":"iot:Publish","Effect":"Allow","Resource":"arn:aws:iot:us-west-2:123456789012:topic/customauthtesting"}]}"
    ],
    "refreshAfterInSeconds": 600,
    "disconnectAfterInSeconds": 3600
}
```
Untuk informasi selengkapnya, lihat [TestInvokeAuthorizer](https://docs.aws.amazon.com/iot/latest/apireference/API_TestInvokeAuthorizers.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [TestInvokeAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/test-invoke-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `transfer-certificate`
<a name="iot_TransferCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`transfer-certificate`.

**AWS CLI**  
**Untuk mentransfer sertifikat perangkat ke AWS akun lain**  
`transfer-certificate`Contoh berikut mentransfer sertifikat perangkat ke AWS akun lain. Sertifikat dan AWS akun diidentifikasi oleh ID.  

```
aws iot transfer-certificate \
    --certificate-id 488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142 \
    --target-aws-account 030714055129
```
Output:  

```
{
    "transferredCertificateArn": "arn:aws:iot:us-west-2:030714055129:cert/488b6a7f2acdeb00a77384e63c4e40b18b1b3caaae57b7272ba44c45e3448142"
}
```
Untuk informasi selengkapnya, lihat [Mentransfer sertifikat ke akun lain](https://docs.aws.amazon.com/iot/latest/developerguide/transfer-cert.html) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [TransferCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/transfer-certificate.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="iot_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus kunci tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag `MyTag` dan nilainya dari kelompok hal`LightBulbs`.  

```
command
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya AWS IoT Anda](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-account-audit-configuration`
<a name="iot_UpdateAccountAuditConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-account-audit-configuration`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan notifikasi Amazon SNS untuk notifikasi audit**  
`update-account-audit-configuration`Contoh berikut memungkinkan notifikasi Amazon SNS untuk AWS notifikasi audit IoT Device Defender, menentukan target dan peran yang digunakan untuk menulis ke target tersebut.  

```
aws iot update-account-audit-configuration \
    --audit-notification-target-configurations "SNS={targetArn=\"arn:aws:sns:us-west-2:123456789012:ddaudits\",roleArn=\"arn:aws:iam::123456789012:role/service-role/AWSIoTDeviceDefenderAudit\",enabled=true}"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk mengaktifkan pemeriksaan audit**  
`update-account-audit-configuration`Contoh berikut memungkinkan pemeriksaan audit AWS IoT Device Defender bernama. `AUTHENTICATED_COGNITO_ROLE_OVERLY_PERMISSIVE_CHECK` Anda tidak dapat menonaktifkan pemeriksaan audit jika itu adalah bagian dari `targetCheckNames` untuk satu atau beberapa audit terjadwal untuk AWS akun tersebut.  

```
aws iot update-account-audit-configuration \
    --audit-check-configurations "{\"AUTHENTICATED_COGNITO_ROLE_OVERLY_PERMISSIVE_CHECK\":{\"enabled\":true}}"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateAccountAuditConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-account-audit-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-audit-suppression`
<a name="iot_UpdateAuditSuppression_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-audit-suppression`.

**AWS CLI**  
**Untuk memperbarui penindasan temuan audit**  
`update-audit-suppression`Contoh berikut memperbarui tanggal kedaluwarsa penindasan temuan audit ke 2020-09-21.  

```
aws iot update-audit-suppression \
    --check-name DEVICE_CERTIFICATE_EXPIRING_CHECK \
    --resource-identifier deviceCertificateId=c7691e<shortened> \
    --no-suppress-indefinitely \
    --expiration-date 2020-09-21
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Audit menemukan penekanan di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/audit-finding-suppressions.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UpdateAuditSuppression](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-audit-suppression.html)di *Referensi AWS CLI Perintah*. 

### `update-authorizer`
<a name="iot_UpdateAuthorizer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-authorizer`.

**AWS CLI**  
**Untuk memperbarui otorisasi kustom**  
`update-authorizer`Contoh berikut dia nyatakan `CustomAuthorizer2` untuk`INACTIVE`.  

```
aws iot update-authorizer \
    --authorizer-name CustomAuthorizer2 \
    --status INACTIVE
```
Output:  

```
{
    "authorizerName": "CustomAuthorizer2",
    "authorizerArn": "arn:aws:iot:us-west-2:123456789012:authorizer/CustomAuthorizer2"
}
```
Untuk informasi selengkapnya, lihat [UpdateAuthorizer](https://docs.aws.amazon.com/iot/latest/apireference/API_UpdateAuthorizer.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [UpdateAuthorizer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-authorizer.html)di *Referensi AWS CLI Perintah*. 

### `update-billing-group`
<a name="iot_UpdateBillingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-billing-group`.

**AWS CLI**  
**Untuk memperbarui informasi tentang grup penagihan**  
`update-billing-group`Contoh berikut memperbarui deskripsi untuk grup penagihan yang ditentukan.  

```
aws iot update-billing-group \
    --billing-group-name GroupOne \
    --billing-group-properties "billingGroupDescription=\"Primary bulb billing group\""
```
Output:  

```
{
    "version": 2
}
```
Untuk informasi selengkapnya, lihat [Grup Penagihan](https://docs.aws.amazon.com/iot/latest/developerguide/tagging-iot-billing-groups.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UpdateBillingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-billing-group.html)di *Referensi AWS CLI Perintah*. 

### `update-ca-certificate`
<a name="iot_UpdateCaCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-ca-certificate`.

**AWS CLI**  
**Untuk memperbarui sertifikat otoritas sertifikat (CA)**  
`update-ca-certificate`Contoh berikut menetapkan sertifikat CA yang ditentukan ke status AKTIF.  

```
aws iot update-ca-certificate \
    --certificate-id f4efed62c0142f16af278166f61962501165c4f0536295207426460058cd1467 \
    --new-status ACTIVE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memperbarui CACertificate](https://docs.aws.amazon.com/iot/latest/apireference/API_UpdateCACertificate.html) di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [UpdateCaCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-ca-certificate.html)di *Referensi AWS CLI Perintah*. 

### `update-certificate`
<a name="iot_UpdateCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-certificate`.

**AWS CLI**  
**Untuk memperbarui sertifikat perangkat**  
`update-certificate`Contoh berikut menetapkan sertifikat perangkat yang ditentukan ke status INACTIVE.  

```
aws iot update-certificate \
    --certificate-id d1eb269fb55a628552143c8f96eb3c258fcd5331ea113e766ba0c82bf225f0be \
    --new-status INACTIVE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [UpdateCertificate](https://docs.aws.amazon.com/iot/latest/apireference/API_UpdateCertificate.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [UpdateCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-certificate.html)di *Referensi AWS CLI Perintah*. 

### `update-custom-metric`
<a name="iot_UpdateCustomMetric_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-custom-metric`.

**AWS CLI**  
**Untuk memperbarui metrik kustom**  
`update-custom-metric`Contoh berikut memperbarui metrik kustom untuk memiliki yang baru`display-name`.  

```
aws iot update-custom-metric \
    --metric-name batteryPercentage \
    --display-name 'remaining battery percentage on device' \
    --region us-east-1
```
Output:  

```
{
    "metricName": "batteryPercentage",
    "metricArn": "arn:aws:iot:us-east-1:1234564789012:custommetric/batteryPercentage",
    "metricType": "number",
    "displayName": "remaining battery percentage on device",
    "creationDate": "2020-11-17T23:01:35.110000-08:00",
    "lastModifiedDate": "2020-11-17T23:02:12.879000-08:00"
}
```
Untuk informasi selengkapnya, lihat [Metrik khusus](https://docs.aws.amazon.com/iot/latest/developerguide/dd-detect-custom-metrics.html) di Panduan Pengembang *Inti AWS IoT*.  
+  Untuk detail API, lihat [UpdateCustomMetric](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-custom-metric.html)di *Referensi AWS CLI Perintah*. 

### `update-dimension`
<a name="iot_UpdateDimension_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-dimension`.

**AWS CLI**  
**Untuk memperbarui dimensi**  
`update-dimension`Contoh berikut memperbarui dimensi.  

```
aws iot update-dimension \
    --name TopicFilterForAuthMessages \
    --string-values device/${iot:ClientId}/auth
```
Output:  

```
{
    "name": "TopicFilterForAuthMessages",
    "lastModifiedDate": 1585866222.317,
    "stringValues": [
        "device/${iot:ClientId}/auth"
    ],
    "creationDate": 1585854500.474,
    "type": "TOPIC_FILTER",
    "arn": "arn:aws:iot:us-west-2:1234564789012:dimension/TopicFilterForAuthMessages"
}
```
Untuk informasi selengkapnya, lihat [Metrik pelingkupan di profil keamanan menggunakan dimensi di Panduan Pengembang](https://docs.aws.amazon.com/iot/latest/developerguide/scoping-security-behavior.html) Inti *AWS IoT*.  
+  Untuk detail API, lihat [UpdateDimension](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-dimension.html)di *Referensi AWS CLI Perintah*. 

### `update-domain-configuration`
<a name="iot_UpdateDomainConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-domain-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi domain**  
`update-domain-configuration`Contoh berikut menonaktifkan konfigurasi domain yang ditentukan.  

```
aws iot update-domain-configuration \
    --domain-configuration-name "additionalDataDomain" \
    --domain-configuration-status "DISABLED"
```
Output:  

```
{
    "domainConfigurationName": "additionalDataDomain",
    "domainConfigurationArn": "arn:aws:iot:us-west-2:123456789012:domainconfiguration/additionalDataDomain/dikMh"
}
```
Untuk informasi selengkapnya, lihat [Titik Akhir yang Dapat Dikonfigurasi](https://docs.aws.amazon.com/iot/latest/developerguide/iot-custom-endpoints-configurable-aws.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UpdateDomainConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-domain-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-dynamic-thing-group`
<a name="iot_UpdateDynamicThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-dynamic-thing-group`.

**AWS CLI**  
**Untuk memperbarui grup hal dinamis**  
`update-dynamic-thing-group`Contoh berikut memperbarui kelompok hal dinamis yang ditentukan. Ini memberikan deskripsi dan memperbarui string kueri untuk mengubah kriteria keanggotaan grup.  

```
aws iot update-dynamic-thing-group \
    --thing-group-name "RoomTooWarm"
    --thing-group-properties "thingGroupDescription=\"This thing group contains rooms warmer than 65F.\"" \
    --query-string "attributes.temperature>65"
```
Output:  

```
{
    "version": 2
}
```
Untuk informasi selengkapnya, lihat [Dynamic Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/dynamic-thing-groups.html) di *AWS Panduan Pengembang IoT*.  
+  Untuk detail API, lihat [UpdateDynamicThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-dynamic-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `update-event-configurations`
<a name="iot_UpdateEventConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-event-configurations`.

**AWS CLI**  
**Untuk menunjukkan jenis acara mana yang diterbitkan**  
`update-event-configurations`Contoh berikut memperbarui konfigurasi untuk mengaktifkan pesan saat sertifikat CA ditambahkan, diperbarui, atau dihapus.  

```
aws iot update-event-configurations \
    --event-configurations "{\"CA_CERTIFICATE\":{\"Enabled\":true}}"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pesan Acara](https://docs.aws.amazon.com/iot/latest/developerguide/iot-events.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateEventConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-event-configurations.html)di *Referensi AWS CLI Perintah*. 

### `update-indexing-configuration`
<a name="iot_UpdateIndexingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-indexing-configuration`.

**AWS CLI**  
**Untuk mengaktifkan pengindeksan hal**  
`update-indexing-configuration`Contoh berikut memungkinkan pengindeksan hal untuk mendukung pencarian data registri, data bayangan, dan status konektivitas benda menggunakan indeks AWS\$1Things.  

```
aws iot update-indexing-configuration
    --thing-indexing-configuration thingIndexingMode=REGISTRY_AND_SHADOW,thingConnectivityIndexingMode=STATUS
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Pengindeksan Hal](https://docs.aws.amazon.com/iot/latest/developerguide/managing-index.html) di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UpdateIndexingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-indexing-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-job`
<a name="iot_UpdateJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-job`.

**AWS CLI**  
**Untuk mendapatkan status terperinci untuk suatu pekerjaan**  
`update-job`Contoh berikut mendapatkan status rinci untuk pekerjaan yang ID-nya`example-job-01`.  

```
aws iot describe-job \
    --job-id "example-job-01"
```
Output:  

```
{
    "job": {
        "jobArn": "arn:aws:iot:us-west-2:123456789012:job/example-job-01",
        "jobId": "example-job-01",
        "targetSelection": "SNAPSHOT",
        "status": "IN_PROGRESS",
        "targets": [
            "arn:aws:iot:us-west-2:123456789012:thing/MyRaspberryPi"
        ],
        "description": "example job test",
        "presignedUrlConfig": {},
        "jobExecutionsRolloutConfig": {},
        "createdAt": 1560787022.733,
        "lastUpdatedAt": 1560787026.294,
        "jobProcessDetails": {
            "numberOfCanceledThings": 0,
            "numberOfSucceededThings": 0,
            "numberOfFailedThings": 0,
            "numberOfRejectedThings": 0,
            "numberOfQueuedThings": 1,
            "numberOfInProgressThings": 0,
            "numberOfRemovedThings": 0,
            "numberOfTimedOutThings": 0
        },
        "timeoutConfig": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Pekerjaan (CLI) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/manage-job-cli.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UpdateJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-job.html)di *Referensi AWS CLI Perintah*. 

### `update-mitigation-action`
<a name="iot_UpdateMitigationAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-mitigation-action`.

**AWS CLI**  
**Untuk memperbarui tindakan mitigasi**  
`update-mitigation-action`Contoh berikut memperbarui tindakan mitigasi yang ditentukan bernama`AddThingsToQuarantineGroupAction`, mengubah nama grup hal, dan menetapkan `overrideDynamicGroups` ke. `false` Anda dapat memverifikasi perubahan Anda dengan menggunakan `describe-mitigation-action` perintah.  

```
aws iot update-mitigation-action \
    --cli-input-json "{ \"actionName\": \"AddThingsToQuarantineGroupAction\", \"actionParams\": { \"addThingsToThingGroupParams\": {\"thingGroupNames\":[\"QuarantineGroup2\"],\"overrideDynamicGroups\": false}}}"
```
Output:  

```
{
    "actionArn": "arn:aws:iot:us-west-2:123456789012:mitigationaction/AddThingsToQuarantineGroupAction",
    "actionId": "2fd2726d-98e1-4abf-b10f-09465ccd6bfa"
}
```
Untuk informasi selengkapnya, lihat [UpdateMitigationAction (Perintah Tindakan Mitigasi) di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/mitigation-action-commands.html#dd-api-iot-UpdateMitigationAction) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UpdateMitigationAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-mitigation-action.html)di *Referensi AWS CLI Perintah*. 

### `update-provisioning-template`
<a name="iot_UpdateProvisioningTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-provisioning-template`.

**AWS CLI**  
**Untuk memperbarui templat penyediaan**  
`update-provisioning-template`Contoh berikut memodifikasi deskripsi dan peran arn untuk template penyediaan yang ditentukan dan mengaktifkan template.  

```
aws iot update-provisioning-template \
    --template-name widget-template \
    --enabled \
    --description "An updated provisioning template for widgets" \
    --provisioning-role-arn arn:aws:iam::504350838278:role/Provision_role
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [AWS IoT Secure Tunneling di IoT](https://docs.aws.amazon.com/iot/latest/developerguide/secure-tunneling.html) Core Developer AWS Guide.*  
+  Untuk detail API, lihat [UpdateProvisioningTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-provisioning-template.html)di *Referensi AWS CLI Perintah*. 

### `update-role-alias`
<a name="iot_UpdateRoleAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-role-alias`.

**AWS CLI**  
**Untuk memperbarui alias peran**  
`update-role-alias`Contoh berikut memperbarui alias `LightBulbRole` peran.  

```
aws iot update-role-alias \
    --role-alias LightBulbRole \
    --role-arn arn:aws:iam::123456789012:role/lightbulbrole-001
```
Output:  

```
{
    "roleAlias": "LightBulbRole",
    "roleAliasArn": "arn:aws:iot:us-west-2:123456789012:rolealias/LightBulbRole"
}
```
Untuk informasi selengkapnya, lihat [UpdateRoleAlias](https://docs.aws.amazon.com/iot/latest/apireference/API_UpdateRoleAlias.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [UpdateRoleAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-role-alias.html)di *Referensi AWS CLI Perintah*. 

### `update-scheduled-audit`
<a name="iot_UpdateScheduledAudit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-scheduled-audit`.

**AWS CLI**  
**Untuk memperbarui definisi audit terjadwal**  
`update-scheduled-audit`Contoh berikut mengubah nama pemeriksaan target untuk audit terjadwal AWS IoT Device Defender.  

```
aws iot update-scheduled-audit \
    --scheduled-audit-name WednesdayCertCheck \
    --target-check-names CA_CERTIFICATE_EXPIRING_CHECK DEVICE_CERTIFICATE_EXPIRING_CHECK REVOKED_CA_CERTIFICATE_STILL_ACTIVE_CHECK
```
Output:  

```
{
    "scheduledAuditArn": "arn:aws:iot:us-west-2:123456789012:scheduledaudit/WednesdayCertCheck"
}
```
Untuk informasi selengkapnya, lihat [Perintah Audit](https://docs.aws.amazon.com/iot/latest/developerguide/AuditCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateScheduledAudit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-scheduled-audit.html)di *Referensi AWS CLI Perintah*. 

### `update-security-profile`
<a name="iot_UpdateSecurityProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-security-profile`.

**AWS CLI**  
**Untuk mengubah profil keamanan**  
`update-security-profile`Contoh berikut memperbarui deskripsi dan perilaku untuk profil keamanan AWS IoT Device Defender.  

```
aws iot update-security-profile \
    --security-profile-name PossibleIssue \
    --security-profile-description "Check to see if authorization fails 12 times in 5 minutes or if cellular bandwidth exceeds 128"  \
    --behaviors "[{\"name\":\"CellularBandwidth\",\"metric\":\"aws:message-byte-size\",\"criteria\":{\"comparisonOperator\":\"greater-than\",\"value\":{\"count\":128},\"consecutiveDatapointsToAlarm\":1,\"consecutiveDatapointsToClear\":1}},{\"name\":\"Authorization\",\"metric\":\"aws:num-authorization-failures\",\"criteria\":{\"comparisonOperator\":\"less-than\",\"value\":{\"count\":12},\"durationSeconds\":300,\"consecutiveDatapointsToAlarm\":1,\"consecutiveDatapointsToClear\":1}}]"
```
Output:  

```
{
    "securityProfileName": "PossibleIssue",
    "securityProfileArn": "arn:aws:iot:us-west-2:123456789012:securityprofile/PossibleIssue",
    "securityProfileDescription": "check to see if authorization fails 12 times in 5 minutes or if cellular bandwidth exceeds 128",
    "behaviors": [
        {
            "name": "CellularBandwidth",
            "metric": "aws:message-byte-size",
            "criteria": {
                "comparisonOperator": "greater-than",
                "value": {
                    "count": 128
                },
                "consecutiveDatapointsToAlarm": 1,
                "consecutiveDatapointsToClear": 1
            }
        },
        {
            "name": "Authorization",
            "metric": "aws:num-authorization-failures",
            "criteria": {
                "comparisonOperator": "less-than",
                "value": {
                    "count": 12
                },
                "durationSeconds": 300,
                "consecutiveDatapointsToAlarm": 1,
                "consecutiveDatapointsToClear": 1
            }
        }
    ],
    "version": 2,
    "creationDate": 1560278102.528,
    "lastModifiedDate": 1560352711.207
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateSecurityProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-security-profile.html)di *Referensi AWS CLI Perintah*. 

### `update-stream`
<a name="iot_UpdateStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-stream`.

**AWS CLI**  
**Untuk memperbarui aliran**  
`update-stream`Contoh berikut memperbarui aliran yang ada. Versi streaming bertambah satu.  

```
aws iot update-stream \
    --cli-input-json file://update-stream.json
```
Isi dari `update-stream.json`:  

```
{
    "streamId": "stream12345",
    "description": "This stream is used for Amazon FreeRTOS OTA Update 12345.",
    "files": [
        {
            "fileId": 123,
            "s3Location": {
                "bucket":"codesign-ota-bucket",
                "key":"48c67f3c-63bb-4f92-a98a-4ee0fbc2bef6"
            }
        }
    ]
    "roleArn": "arn:aws:iam:us-west-2:123456789012:role/service-role/my_ota_stream_role"
}
```
Output:  

```
{
    "streamId": "stream12345",
    "streamArn": "arn:aws:iot:us-west-2:123456789012:stream/stream12345",
    "description": "This stream is used for Amazon FreeRTOS OTA Update 12345.",
    "streamVersion": 2
}
```
Untuk informasi selengkapnya, lihat [UpdateStream](https://docs.aws.amazon.com/iot/latest/apireference/API_UpdateStream.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [UpdateStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-stream.html)di *Referensi AWS CLI Perintah*. 

### `update-thing-group`
<a name="iot_UpdateThingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-thing-group`.

**AWS CLI**  
**Untuk memperbarui definisi untuk grup sesuatu**  
`update-thing-group`Contoh berikut memperbarui definisi untuk kelompok hal yang ditentukan, mengubah deskripsi dan dua atribut.  

```
aws iot update-thing-group \
    --thing-group-name HalogenBulbs \
    --thing-group-properties "thingGroupDescription=\"Halogen bulb group\", attributePayload={attributes={Manufacturer=AnyCompany,wattage=60}}"
```
Output:  

```
{
    "version": 2
}
```
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateThingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-thing-group.html)di *Referensi AWS CLI Perintah*. 

### `update-thing-groups-for-thing`
<a name="iot_UpdateThingGroupsForThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-thing-groups-for-thing`.

**AWS CLI**  
**Untuk mengubah kelompok-kelompok yang menjadi milik suatu benda**  
`update-thing-groups-for-thing`Contoh berikut menghapus hal yang dinamai `MyLightBulb` dari grup bernama `DeadBulbs` dan menambahkannya ke grup bernama `replaceableItems` pada saat yang sama.  

```
aws iot update-thing-groups-for-thing \
    --thing-name MyLightBulb \
    --thing-groups-to-add "replaceableItems" \
    --thing-groups-to-remove "DeadBulbs"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Thing Groups](https://docs.aws.amazon.com/iot/latest/developerguide/thing-groups.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateThingGroupsForThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-thing-groups-for-thing.html)di *Referensi AWS CLI Perintah*. 

### `update-thing`
<a name="iot_UpdateThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-thing`.

**AWS CLI**  
**Untuk mengasosiasikan sesuatu dengan tipe benda**  
`update-thing`Contoh berikut mengaitkan sesuatu dalam registri AWS IoT dengan tipe benda. Saat Anda membuat asosiasi, Anda memberikan nilai untuk atribut yang ditentukan oleh tipe benda.  

```
aws iot update-thing \
    --thing-name "MyOtherLightBulb" \
    --thing-type-name "LightBulb" \
    --attribute-payload "{"attributes": {"wattage":"75", "model":"123"}}"
```
Perintah ini tidak menghasilkan output. Gunakan `describe-thing` perintah untuk melihat hasilnya.  
Untuk informasi selengkapnya, lihat [Tipe Hal](https://docs.aws.amazon.com/iot/latest/developerguide/thing-types.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-thing.html)di *Referensi AWS CLI Perintah*. 

### `update-topic-rule-destination`
<a name="iot_UpdateTopicRuleDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-topic-rule-destination`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan tujuan aturan topik**  
`update-topic-rule-destination`Contoh berikut memungkinkan lalu lintas ke tujuan aturan topik.  

```
aws iot update-topic-rule-destination \
    --arn "arn:aws:iot:us-west-2:123456789012:ruledestination/http/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE" \
    --status ENABLED
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan tujuan aturan topik](https://docs.aws.amazon.com/iot/latest/developerguide/rule-destination.html#enable-destination) di Panduan Pengembang *AWS IoT*.  
**Contoh 2: Untuk menonaktifkan tujuan aturan topik**  
`update-topic-rule-destination`Contoh berikut menonaktifkan lalu lintas ke tujuan aturan topik.  

```
aws iot update-topic-rule-destination \
    --arn "arn:aws:iot:us-west-2:123456789012:ruledestination/http/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE" \
    --status DISABLED
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan tujuan aturan topik di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/rule-destination.html#disable-destination) Pengembang *AWS IoT*.  
**Contoh 3: Untuk mengirim pesan konfirmasi baru**  
`update-topic-rule-destination`Contoh berikut mengirimkan pesan konfirmasi baru untuk tujuan aturan topik.  

```
aws iot update-topic-rule-destination \
    --arn "arn:aws:iot:us-west-2:123456789012:ruledestination/http/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE" \
    --status IN_PROGRESS
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengirim pesan konfirmasi baru](https://docs.aws.amazon.com/iot/latest/developerguide/rule-destination.html#trigger-confirm) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateTopicRuleDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/update-topic-rule-destination.html)di *Referensi AWS CLI Perintah*. 

### `validate-security-profile-behaviors`
<a name="iot_ValidateSecurityProfileBehaviors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`validate-security-profile-behaviors`.

**AWS CLI**  
**Contoh 1: Untuk memvalidasi parameter perilaku untuk profil keamanan**  
`validate-security-profile-behaviors`Contoh berikut memvalidasi serangkaian perilaku yang terbentuk dengan baik dan benar untuk profil keamanan IoT AWS Device Defender.  

```
aws iot validate-security-profile-behaviors \
    --behaviors "[{\"name\":\"CellularBandwidth\",\"metric\":\"aws:message-byte-size\",\"criteria\":{\"comparisonOperator\":\"greater-than\",\"value\":{\"count\":128},\"consecutiveDatapointsToAlarm\":1,\"consecutiveDatapointsToClear\":1}},{\"name\":\"Authorization\",\"metric\":\"aws:num-authorization-failures\",\"criteria\":{\"comparisonOperator\":\"greater-than\",\"value\":{\"count\":12},\"durationSeconds\":300,\"consecutiveDatapointsToAlarm\":1,\"consecutiveDatapointsToClear\":1}}]"
```
Output:  

```
{
    "valid": true,
    "validationErrors": []
}
```
**Contoh 2: Untuk memvalidasi parameter perilaku yang salah untuk profil keamanan**  
`validate-security-profile-behaviors`Contoh berikut memvalidasi serangkaian perilaku yang berisi kesalahan untuk profil keamanan AWS IoT Device Defender.  

```
aws iot validate-security-profile-behaviors \
    --behaviors "[{\"name\":\"CellularBandwidth\",\"metric\":\"aws:message-byte-size\",\"criteria\":{\"comparisonOperator\":\"greater-than\",\"value\":{\"count\":128},\"consecutiveDatapointsToAlarm\":1,\"consecutiveDatapointsToClear\":1}},{\"name\":\"Authorization\",\"metric\":\"aws:num-authorization-failures\",\"criteria\":{\"comparisonOperator\":\"greater-than\",\"value\":{\"count\":12},\"durationSeconds\":300,\"consecutiveDatapointsToAlarm\":100000,\"consecutiveDatapointsToClear\":1}}]"
```
Output:  

```
{
    "valid": false,
    "validationErrors": [
        {
            "errorMessage": "Behavior Authorization is malformed. consecutiveDatapointsToAlarm 100000 should be in range[1,10]"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Perintah](https://docs.aws.amazon.com/iot/latest/developerguide/DetectCommands.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [ValidateSecurityProfileBehaviors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot/validate-security-profile-behaviors.html)di *Referensi AWS CLI Perintah*. 

# Contoh Device Advisor menggunakan AWS CLI
<a name="cli_2_iotdeviceadvisor_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Device Advisor.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-suite-definition`
<a name="iotdeviceadvisor_CreateSuiteDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-suite-definition`.

**AWS CLI**  
**Contoh 1: Untuk membuat rangkaian pengujian IoT Device Advisor**  
`create-suite-definition`Contoh berikut membuat rangkaian pengujian penasihat perangkat di AWS IoT dengan konfigurasi definisi suite yang ditentukan.  

```
aws iotdeviceadvisor create-suite-definition \
    --suite-definition-configuration '{ \
        "suiteDefinitionName": "TestSuiteName", \
        "devices": [{"thingArn":"arn:aws:iot:us-east-1:123456789012:thing/MyIotThing"}], \
        "intendedForQualification": false, \
        "rootGroup": "{\"configuration\":{},\"tests\":[{\"name\":\"MQTT Connect\",\"configuration\":{\"EXECUTION_TIMEOUT\":120},\"tests\":[{\"name\":\"MQTT_Connect\",\"configuration\":{},\"test\":{\"id\":\"MQTT_Connect\",\"testCase\":null,\"version\":\"0.0.0\"}}]}]}", \
        "devicePermissionRoleArn": "arn:aws:iam::123456789012:role/Myrole"}'
```
Output:  

```
{
    "suiteDefinitionId": "0jtsgio7yenu",
    "suiteDefinitionArn": "arn:aws:iotdeviceadvisor:us-east-1:123456789012:suitedefinition/0jtsgio7yenu",
    "suiteDefinitionName": "TestSuiteName",
    "createdAt": "2022-12-02T11:38:13.263000-05:00"
}
```
Untuk informasi selengkapnya, lihat [Membuat definisi rangkaian pengujian](https://docs.aws.amazon.com/iot/latest/developerguide/device-advisor-workflow.html#device-advisor-workflow-create-suite-definition) di Panduan *Pengembang Inti AWS IoT*.  
**Contoh 2: Untuk membuat rangkaian tes Kualifikasi Terbaru IoT Device Advisor**  
`create-suite-definition`Contoh berikut membuat rangkaian pengujian kualifikasi penasihat perangkat dengan versi terbaru di AWS IoT dengan konfigurasi definisi suite yang ditentukan.  

```
aws iotdeviceadvisor create-suite-definition \
    --suite-definition-configuration '{ \
        "suiteDefinitionName": "TestSuiteName", \
        "devices": [{"thingArn":"arn:aws:iot:us-east-1:123456789012:thing/MyIotThing"}], \
        "intendedForQualification": true, \
        "rootGroup": "", \
        "devicePermissionRoleArn": "arn:aws:iam::123456789012:role/Myrole"}'
```
Output:  

```
{
    "suiteDefinitionId": "txgsuolk2myj",
    "suiteDefinitionArn": "arn:aws:iotdeviceadvisor:us-east-1:123456789012:suitedefinition/txgsuolk2myj",
    "suiteDefinitionName": "TestSuiteName",
    "createdAt": "2022-12-02T11:38:13.263000-05:00"
}
```
Untuk informasi selengkapnya, lihat [Membuat definisi rangkaian pengujian](https://docs.aws.amazon.com/iot/latest/developerguide/device-advisor-workflow.html#device-advisor-workflow-create-suite-definition) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [CreateSuiteDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/create-suite-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-suite-definition`
<a name="iotdeviceadvisor_DeleteSuiteDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-suite-definition`.

**AWS CLI**  
**Untuk menghapus rangkaian pengujian IoT Device Advisor**  
`delete-suite-definition`Contoh berikut menghapus rangkaian pengujian penasihat perangkat dengan ID definisi suite yang ditentukan.  

```
aws iotdeviceadvisor delete-suite-definition \
    --suite-definition-id 0jtsgio7yenu
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteSuiteDefinition](https://docs.aws.amazon.com/iot/latest/apireference/API_iotdeviceadvisor_DeleteSuiteDefinition.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [DeleteSuiteDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/delete-suite-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-endpoint`
<a name="iotdeviceadvisor_GetEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-endpoint`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan informasi tentang titik akhir tingkat Akun IoT Device Advisor**  
`get-endpoint`Contoh berikut mendapatkan informasi tentang titik akhir pengujian tingkat Akun penasihat perangkat.  

```
aws iotdeviceadvisor get-endpoint
```
Output:  

```
{
    "endpoint": "t6y4c143x9sfo.deviceadvisor.iot.us-east-1.amazonaws.com"
}
```
**Contoh 2: Untuk mendapatkan informasi tentang titik akhir tingkat Perangkat IoT Device Advisor**  
`get-endpoint`Contoh berikut mendapatkan informasi tentang titik akhir pengujian tingkat perangkat penasihat perangkat dengan thing-arn atau certificate-arn yang ditentukan.  

```
aws iotdeviceadvisor get-endpoint \
    --thing-arn arn:aws:iot:us-east-1:123456789012:thing/MyIotThing
```
Output:  

```
{
    "endpoint": "tdb7719be5t6y4c143x9sfo.deviceadvisor.iot.us-east-1.amazonaws.com"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan titik akhir pengujian](https://docs.aws.amazon.com/iot/latest/developerguide/device-advisor-workflow.html#device-advisor-workflow-get-test-endpoint) di Panduan Pengembang *Inti AWS IoT*.  
+  Untuk detail API, lihat [GetEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/get-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `get-suite-definition`
<a name="iotdeviceadvisor_GetSuiteDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-suite-definition`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang rangkaian pengujian IoT Device Advisor**  
`get-suite-definition`Contoh berikut mendapatkan informasi tentang aevice advisor test suite dengan ID definisi suite yang ditentukan.  

```
aws iotdeviceadvisor get-suite-definition \
    --suite-definition-id qqcsmtyyjabl
```
Output:  

```
{
    "suiteDefinitionId": "qqcsmtyyjabl",
    "suiteDefinitionArn": "arn:aws:iotdeviceadvisor:us-east-1:123456789012:suitedefinition/qqcsmtyyjabl",
    "suiteDefinitionVersion": "v1",
    "latestVersion": "v1",
    "suiteDefinitionConfiguration": {
        "suiteDefinitionName": "MQTT connection",
        "devices": [],
        "intendedForQualification": false,
        "isLongDurationTest": false,
        "rootGroup": "{\"configuration\":{},\"tests\":[{\"id\":\"uta5d9j1kvwc\",\"name\":\"Test group 1\",\"configuration\":{},\"tests\":[{\"id\":\"awr8pq5vc9yp\",\"name\":\"MQTT Connect\",\"configuration\":{},\"test\":{\"id\":\"MQTT_Connect\",\"testCase\":null,\"version\":\"0.0.0\"}}]}]}",
        "devicePermissionRoleArn": "arn:aws:iam::123456789012:role/Myrole",
        "protocol": "MqttV3_1_1"
    },
    "createdAt": "2022-11-11T22:28:52.389000-05:00",
    "lastModifiedAt": "2022-11-11T22:28:52.389000-05:00",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan definisi rangkaian pengujian](https://docs.aws.amazon.com/iot/latest/developerguide/device-advisor-workflow.html#device-advisor-workflow-create-suite-definition) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [GetSuiteDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/get-suite-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-suite-run-report`
<a name="iotdeviceadvisor_GetSuiteRunReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-suite-run-report`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang laporan uji coba yang memenuhi syarat IoT Device Advisor**  
`get-suite-run-report`Contoh berikut mendapatkan tautan unduhan laporan untuk rangkaian pengujian kualifikasi penasihat perangkat yang berhasil dijalankan dengan ID definisi suite dan ID run suite yang ditentukan.  

```
aws iotdeviceadvisor get-suite-run-report \
    --suite-definition-id ztvb5aek4w4x \
    --suite-run-id p6awv83nre6v
```
Output:  

```
{
    "qualificationReportDownloadUrl": "https://senate-apn-reports-us-east-1-prod.s3.amazonaws.com/report.downloadlink"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan laporan kualifikasi untuk rangkaian pengujian kualifikasi yang berhasil dijalankan](https://docs.aws.amazon.com/iot/latest/developerguide/device-advisor-workflow.html#device-advisor-workflow-qualification-report) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [GetSuiteRunReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/get-suite-run-report.html)di *Referensi AWS CLI Perintah*. 

### `get-suite-run`
<a name="iotdeviceadvisor_GetSuiteRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-suite-run`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang status run suite pengujian IoT Device Advisor**  
`get-suite-run`Contoh berikut mendapatkan informasi tentang status run suite pengujian penasihat perangkat dengan ID definisi suite dan ID run suite yang ditentukan.  

```
aws iotdeviceadvisor get-suite-run \
    --suite-definition-id qqcsmtyyjabl \
    --suite-run-id nzlfyhaa18oa
```
Output:  

```
{
    "suiteDefinitionId": "qqcsmtyyjabl",
    "suiteDefinitionVersion": "v1",
    "suiteRunId": "nzlfyhaa18oa",
    "suiteRunArn": "arn:aws:iotdeviceadvisor:us-east-1:123456789012:suiterun/qqcsmtyyjabl/nzlfyhaa18oa",
    "suiteRunConfiguration": {
        "primaryDevice": {
            "thingArn": "arn:aws:iot:us-east-1:123456789012:thing/MyIotThing",
            "certificateArn": "arn:aws:iot:us-east-1:123456789012:cert/certFile"
        },
        "parallelRun": false
    },
    "testResult": {
        "groups": [
            {
                "groupId": "uta5d9j1kvwc",
                "groupName": "Test group 1",
                "tests": [
                    {
                        "testCaseRunId": "2ve2twrqyr0s",
                        "testCaseDefinitionId": "awr8pq5vc9yp",
                        "testCaseDefinitionName": "MQTT Connect",
                        "status": "PASS",
                        "startTime": "2022-11-12T00:01:53.693000-05:00",
                        "endTime": "2022-11-12T00:02:15.443000-05:00",
                        "logUrl": "https://console.aws.amazon.com/cloudwatch/home?region=us-east-1#logEventViewer:group=/aws/iot/deviceadvisor/qqcsmtyyjabl;stream=nzlfyhaa18oa_2ve2twrqyr0s",
                        "warnings": "null",
                        "failure": "null"
                    }
                ]
            }
        ]
    },
    "startTime": "2022-11-12T00:01:52.673000-05:00",
    "endTime": "2022-11-12T00:02:16.496000-05:00",
    "status": "PASS",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Menjalankan rangkaian pengujian](https://docs.aws.amazon.com/iot/latest/developerguide/device-advisor-workflow.html#device-advisor-workflow-describe-suite) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [GetSuiteRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/get-suite-run.html)di *Referensi AWS CLI Perintah*. 

### `list-suite-definitions`
<a name="iotdeviceadvisor_ListSuiteDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-suite-definitions`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan rangkaian pengujian IoT Device Advisor yang Anda buat**  
`list-suite-definitions`Contoh berikut mencantumkan hingga 25 rangkaian pengujian penasihat perangkat yang Anda buat di AWS IoT. Jika Anda memiliki lebih dari 25 rangkaian pengujian, “NextToken” akan ditampilkan di output. Anda dapat menggunakan “NextToken” ini untuk menunjukkan rangkaian pengujian lainnya yang Anda buat.  

```
aws iotdeviceadvisor list-suite-definitions
```
Output:  

```
{
    "suiteDefinitionInformationList": [
        {
            "suiteDefinitionId": "3hsn88h4p2g5",
            "suiteDefinitionName": "TestSuite1",
            "defaultDevices": [
                {
                    "thingArn": "arn:aws:iot:us-east-1:123456789012:thing/MyIotThing"
                }
            ],
            "intendedForQualification": false,
            "isLongDurationTest": false,
            "protocol": "MqttV3_1_1",
            "createdAt": "2022-11-17T14:15:56.830000-05:00"
        },
        {
            ......
        }
    ],
    "nextToken": "nextTokenValue"
}
```
**Contoh 2: Untuk mencantumkan rangkaian pengujian IoT Device Advisor yang Anda buat dengan pengaturan yang ditentukan**  
`list-suite-definitions`Contoh berikut mencantumkan rangkaian pengujian penasihat perangkat yang Anda buat di AWS IoT dengan nomor hasil maksimal yang ditentukan. Jika Anda memiliki lebih banyak rangkaian pengujian daripada angka maks, “NextToken” akan ditampilkan di output. Jika Anda memiliki “NextToken”, Anda dapat menggunakan “NextToken” untuk menampilkan rangkaian pengujian yang Anda buat yang tidak ditampilkan sebelumnya.  

```
aws iotdeviceadvisor list-suite-definitions \
    --max-result 1 \
    --next-token "nextTokenValue"
```
Output:  

```
{
    "suiteDefinitionInformationList": [
        {
            "suiteDefinitionId": "ztvb5aew4w4x",
            "suiteDefinitionName": "TestSuite2",
            "defaultDevices": [],
            "intendedForQualification": true,
            "isLongDurationTest": false,
            "protocol": "MqttV3_1_1",
            "createdAt": "2022-11-17T14:15:56.830000-05:00"
        }
    ],
    "nextToken": "nextTokenValue"
}
```
Untuk informasi selengkapnya, lihat [ListSuiteDefinitions](https://docs.aws.amazon.com/iot/latest/apireference/API_iotdeviceadvisor_ListSuiteDefinitions.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListSuiteDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/list-suite-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-suite-runs`
<a name="iotdeviceadvisor_ListSuiteRuns_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-suite-runs`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua informasi tentang rangkaian pengujian IoT Device Advisor yang ditentukan menjalankan status**  
`list-suite-runs`Contoh berikut mencantumkan semua informasi tentang rangkaian pengujian penasihat perangkat menjalankan status dengan ID definisi suite yang ditentukan. Jika Anda menjalankan lebih dari 25 rangkaian pengujian, “NextToken” akan ditampilkan di output. Anda dapat menggunakan “NextToken” ini untuk menunjukkan sisa rangkaian pengujian yang berjalan.  

```
aws iotdeviceadvisor list-suite-runs \
    --suite-definition-id ztvb5aew4w4x
```
Output:  

```
{
    "suiteRunsList": [
        {
            "suiteDefinitionId": "ztvb5aew4w4x",
            "suiteDefinitionVersion": "v1",
            "suiteDefinitionName": "TestSuite",
            "suiteRunId": "p6awv89nre6v",
            "createdAt": "2022-12-01T16:33:14.212000-05:00",
            "startedAt": "2022-12-01T16:33:15.710000-05:00",
            "endAt": "2022-12-01T16:42:03.323000-05:00",
            "status": "PASS",
            "passed": 6,
            "failed": 0
        }
    ]
}
```
**Contoh 2: Untuk mencantumkan informasi tentang rangkaian pengujian IoT Device Advisor yang ditentukan menjalankan status dengan pengaturan yang ditentukan**  
`list-suite-runs`Contoh berikut mencantumkan informasi tentang rangkaian pengujian penasihat perangkat yang menjalankan status dengan ID definisi suite yang ditentukan dan nomor hasil maksimal yang ditentukan. Jika Anda memiliki lebih banyak rangkaian pengujian daripada angka maks, “NextToken” akan ditampilkan di output. Jika Anda memiliki “NextToken”, Anda dapat menggunakan “NextToken” untuk menunjukkan rangkaian pengujian yang tidak ditampilkan sebelumnya.  

```
aws iotdeviceadvisor list-suite-runs \
    --suite-definition-id qqcsmtyyjaml \
    --max-result 1 \
    --next-token "nextTokenValue"
```
Output:  

```
{
    "suiteRunsList": [
        {
            "suiteDefinitionId": "qqcsmtyyjaml",
            "suiteDefinitionVersion": "v1",
            "suiteDefinitionName": "MQTT connection",
            "suiteRunId": "gz9vm2s6d2jy",
            "createdAt": "2022-12-01T20:10:27.079000-05:00",
            "startedAt": "2022-12-01T20:10:28.003000-05:00",
            "endAt": "2022-12-01T20:10:45.084000-05:00",
            "status": "STOPPED",
            "passed": 0,
            "failed": 0
        }
    ],
    "nextToken": "nextTokenValue"
}
```
Untuk informasi selengkapnya, lihat [ListSuiteRuns](https://docs.aws.amazon.com/iot/latest/apireference/API_iotdeviceadvisor_ListSuiteRuns.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [ListSuiteRuns](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/list-suite-runs.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="iotdeviceadvisor_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke sumber daya IoT Device Advisor**  
`list-tags-for-resource`Contoh berikut mencantumkan tag yang dilampirkan ke sumber penasihat perangkat. Sumber daya penasihat perangkat dapat berupa Suitedefinition-Arn atau Suiterun-Arn.  

```
aws iotdeviceadvisor list-tags-for-resource \
    --resource-arn arn:aws:iotdeviceadvisor:us-east-1:123456789012:suitedefinition/ba0uyjpg38ny
```
Output:  

```
{
    "tags": {
        "TestTagKey": "TestTagValue"
    }
}
```
*Untuk informasi selengkapnya, lihat [ListTagsForResource](https://docs.aws.amazon.com/iot/latest/apireference/API_iotdeviceadvisor_ListTagsForResource.html)di *Referensi API AWS IoT* dan [tipe Sumber Daya yang ditentukan oleh AWS IoT Core Device Advisor](https://docs.aws.amazon.com/service-authorization/latest/reference/list_awsiotcoredeviceadvisor.html#awsiotcoredeviceadvisor-resources-for-iam-policies) dalam Referensi Otorisasi Layanan.*  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-suite-run`
<a name="iotdeviceadvisor_StartSuiteRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-suite-run`.

**AWS CLI**  
**Untuk memulai rangkaian pengujian IoT Device Advisor**  
`start-suite-run`Contoh berikut mencantumkan widget yang tersedia di AWS akun Anda.  

```
aws iotdeviceadvisor start-suite-run \
    --suite-definition-id qqcsmtyyjabl \
    --suite-definition-version v1 \
    --suite-run-configuration '{"primaryDevice":{"thingArn": "arn:aws:iot:us-east-1:123456789012:thing/MyIotThing","certificateArn":"arn:aws:iot:us-east-1:123456789012:cert/certFile"}}'
```
Output:  

```
{
    "suiteRunId": "pwmucgw7lt9s",
    "suiteRunArn": "arn:aws:iotdeviceadvisor:us-east-1:123456789012:suiterun/qqcsmtyyjabl/pwmucgw7lk9s",
    "createdAt": "2022-12-02T15:43:05.581000-05:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai rangkaian pengujian yang dijalankan](https://docs.aws.amazon.com/iot/latest/developerguide/device-advisor-workflow.html#device-advisor-workflow-start-suite-run) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [StartSuiteRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/start-suite-run.html)di *Referensi AWS CLI Perintah*. 

### `stop-suite-run`
<a name="iotdeviceadvisor_StopSuiteRun_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-suite-run`.

**AWS CLI**  
**Untuk menghentikan rangkaian pengujian IoT Device Advisor yang sedang berjalan**  
`stop-suite-run`Contoh berikut menghentikan rangkaian pengujian penasihat perangkat yang saat ini berjalan dengan ID definisi suite dan ID run suite yang ditentukan.  

```
aws iotdeviceadvisor stop-suite-run \
    --suite-definition-id qqcsmtyyjabl \
    --suite-run-id nzlfyhaa18oa
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghentikan rangkaian pengujian yang dijalankan](https://docs.aws.amazon.com/iot/latest/developerguide/device-advisor-workflow.html#device-advisor-workflow-stop-suite-run) di Panduan *Pengembang Inti AWS IoT*.  
+  Untuk detail API, lihat [StopSuiteRun](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/stop-suite-run.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="iotdeviceadvisor_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambah dan memodifikasi tag yang ada dari sumber daya IoT Device Advisor**  
`tag-resource`Contoh berikut menambah dan memodifikasi tag yang ada dari sumber daya penasihat perangkat dengan arn dan tag sumber daya yang ditentukan. Sumber daya penasihat perangkat dapat berupa Suitedefinition-Arn atau Suiterun-Arn.  

```
aws iotdeviceadvisor tag-resource \
    --resource-arn arn:aws:iotdeviceadvisor:us-east-1:123456789012:suitedefinition/ba0uyjpg38ny \
    --tags '{"TagKey": "TagValue"}'
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [TagResource](https://docs.aws.amazon.com/iot/latest/apireference/API_iotdeviceadvisor_TagResource.html)di *Referensi API AWS IoT* dan [tipe Sumber Daya yang ditentukan oleh AWS IoT Core Device Advisor](https://docs.aws.amazon.com/service-authorization/latest/reference/list_awsiotcoredeviceadvisor.html#awsiotcoredeviceadvisor-resources-for-iam-policies) dalam Referensi Otorisasi Layanan.*  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="iotdeviceadvisor_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag yang ada dari sumber daya IoT Device Advisor**  
`untag-resource`Contoh berikut menghapus tag yang ada dari sumber penasihat perangkat dengan arn sumber daya dan kunci tag yang ditentukan. Sumber daya penasihat perangkat dapat berupa Suitedefinition-Arn atau Suiterun-Arn.  

```
aws iotdeviceadvisor untag-resource \
    --resource-arn arn:aws:iotdeviceadvisor:us-east-1:123456789012:suitedefinition/ba0uyjpg38ny \
    --tag-keys "TagKey"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [UntagResource](https://docs.aws.amazon.com/iot/latest/apireference/API_iotdeviceadvisor_UntagResource.html)di *Referensi API AWS IoT* dan [tipe Sumber Daya yang ditentukan oleh AWS IoT Core Device Advisor](https://docs.aws.amazon.com/service-authorization/latest/reference/list_awsiotcoredeviceadvisor.html#awsiotcoredeviceadvisor-resources-for-iam-policies) dalam Referensi Otorisasi Layanan.*  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-suite-definition`
<a name="iotdeviceadvisor_UpdateSuiteDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-suite-definition`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui rangkaian pengujian IoT Device Advisor**  
`update-suite-definition`Contoh berikut memperbarui rangkaian pengujian penasihat perangkat di AWS IoT dengan ID definisi suite dan konfigurasi definisi suite yang ditentukan.  

```
aws iotdeviceadvisor update-suite-definition \
    --suite-definition-id 3hsn88h4p2g5 \
    --suite-definition-configuration '{ \
        "suiteDefinitionName": "TestSuiteName", \
        "devices": [{"thingArn":"arn:aws:iot:us-east-1:123456789012:thing/MyIotThing"}], \
        "intendedForQualification": false, \
        "rootGroup": "{\"configuration\":{},\"tests\":[{\"name\":\"MQTT Connect\",\"configuration\":{\"EXECUTION_TIMEOUT\":120},\"tests\":[{\"name\":\"MQTT_Connect\",\"configuration\":{},\"test\":{\"id\":\"MQTT_Connect\",\"testCase\":null,\"version\":\"0.0.0\"}}]}]}", \
        "devicePermissionRoleArn": "arn:aws:iam::123456789012:role/Myrole"}'
```
Output:  

```
{
    "suiteDefinitionId": "3hsn88h4p2g5",
    "suiteDefinitionName": "TestSuiteName",
    "suiteDefinitionVersion": "v3",
    "createdAt": "2022-11-17T14:15:56.830000-05:00",
    "lastUpdatedAt": "2022-12-02T16:02:45.857000-05:00"
}
```
**Contoh 2: Untuk memperbarui rangkaian tes Kualifikasi Penasihat Perangkat IoT**  
`update-suite-definition`Contoh berikut memperbarui rangkaian pengujian kualifikasi penasihat perangkat di AWS IoT dengan ID definisi suite dan konfigurasi definisi suite yang ditentukan.  

```
aws iotdeviceadvisor update-suite-definition \
    --suite-definition-id txgsuolk2myj \
    --suite-definition-configuration '{
        "suiteDefinitionName": "TestSuiteName", \
        "devices": [{"thingArn":"arn:aws:iot:us-east-1:123456789012:thing/MyIotThing"}], \
        "intendedForQualification": true, \
        "rootGroup": "", \
        "devicePermissionRoleArn": "arn:aws:iam::123456789012:role/Myrole"}'
```
Output:  

```
{
    "suiteDefinitionId": "txgsuolk2myj",
    "suiteDefinitionName": "TestSuiteName",
    "suiteDefinitionVersion": "v3",
    "createdAt": "2022-11-17T14:15:56.830000-05:00",
    "lastUpdatedAt": "2022-12-02T16:02:45.857000-05:00"
}
```
Untuk informasi selengkapnya, lihat [UpdateSuiteDefinition](https://docs.aws.amazon.com/iot/latest/apireference/API_iotdeviceadvisor_UpdateSuiteDefinition.html)di Referensi *API AWS IoT*.  
+  Untuk detail API, lihat [UpdateSuiteDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotdeviceadvisor/update-suite-definition.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT data contoh menggunakan AWS CLI
<a name="cli_2_iot-data-plane_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT data.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-thing-shadow`
<a name="iot-data-plane_DeleteThingShadow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-thing-shadow`.

**AWS CLI**  
**Untuk menghapus dokumen bayangan perangkat**  
`delete-thing-shadow`Contoh berikut menghapus seluruh dokumen bayangan untuk perangkat bernama`MyRPi`.  

```
aws iot-data delete-thing-shadow \
    --thing-name MyRPi \
    "output.txt"
```
Perintah tidak menghasilkan output pada layar, tetapi `output.txt` berisi informasi yang mengonfirmasi versi dan stempel waktu dokumen bayangan yang Anda hapus.  

```
{"version":2,"timestamp":1560270384}
```
Untuk informasi selengkapnya, lihat [Menggunakan Bayangan](https://docs.aws.amazon.com/iot/latest/developerguide/using-device-shadows.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DeleteThingShadow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot-data/delete-thing-shadow.html)di *Referensi AWS CLI Perintah*. 

### `get-thing-shadow`
<a name="iot-data-plane_GetThingShadow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-thing-shadow`.

**AWS CLI**  
**Untuk mendapatkan dokumen bayangan sesuatu**  
`get-thing-shadow`Contoh berikut mendapatkan dokumen bayangan benda untuk hal IoT yang ditentukan.  

```
aws iot-data get-thing-shadow \
    --thing-name MyRPi \
    output.txt
```
Perintah tidak menghasilkan output pada layar, tetapi berikut ini menunjukkan isi`output.txt`:  

```
{
  "state":{
    "reported":{
    "moisture":"low"
    }
  },
  "metadata":{
    "reported":{
      "moisture":{
        "timestamp":1560269319
      }
    }
  },
  "version":1,"timestamp":1560269405
}
```
Untuk informasi selengkapnya, lihat [Alur Data Layanan Device Shadow](https://docs.aws.amazon.com/iot/latest/developerguide/device-shadow-data-flow.html) di *AWS Panduan Pengembang IoT*.  
+  Untuk detail API, lihat [GetThingShadow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot-data/get-thing-shadow.html)di *Referensi AWS CLI Perintah*. 

### `update-thing-shadow`
<a name="iot-data-plane_UpdateThingShadow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-thing-shadow`.

**AWS CLI**  
**Untuk memperbarui bayangan sesuatu**  
`update-thing-shadow`Contoh berikut memodifikasi keadaan bayangan perangkat saat ini untuk hal yang ditentukan dan menyimpannya ke file`output.txt`.  

```
aws iot-data update-thing-shadow \
    --thing-name MyRPi \
    --payload "{"state":{"reported":{"moisture":"okay"}}}" \
    "output.txt"
```
Perintah tidak menghasilkan output pada layar, tetapi berikut ini menunjukkan isi`output.txt`:  

```
{
    "state": {
        "reported": {
            "moisture": "okay"
        }
    },
    "metadata": {
        "reported": {
            "moisture": {
                "timestamp": 1560270036
            }
        }
    },
    "version": 2,
    "timestamp": 1560270036
}
```
Untuk informasi selengkapnya, lihat [Alur Data Layanan Device Shadow](https://docs.aws.amazon.com/iot/latest/developerguide/device-shadow-data-flow.html) di *AWS Panduan Pengembang IoT*.  
+  Untuk detail API, lihat [UpdateThingShadow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot-data/update-thing-shadow.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT Events contoh menggunakan AWS CLI
<a name="cli_2_iot-events_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT Events.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-put-message`
<a name="iot-events_BatchPutMessage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-put-message`.

**AWS CLI**  
**Untuk mengirim pesan (input) ke AWS IoT Events**  
`batch-put-message`Contoh berikut mengirimkan satu set pesan ke sistem AWS IoT Events. Setiap payload pesan diubah menjadi input yang Anda tentukan (`inputName`) dan dicerna ke detektor apa pun yang memantau input tersebut. Jika beberapa pesan dikirim, urutan pemrosesan pesan tidak dijamin. Untuk menjamin pemesanan, Anda harus mengirim pesan satu per satu dan menunggu respons yang berhasil.  

```
aws iotevents-data batch-put-message \
    --cli-input-json file://highPressureMessage.json
```
Isi dari `highPressureMessage.json`:  

```
{
    "messages": [
        {
            "messageId": "00001",
            "inputName": "PressureInput",
            "payload": "{\"motorid\": \"Fulton-A32\", \"sensorData\": {\"pressure\": 80, \"temperature\": 39} }"
        }
    ]
}
```
Output:  

```
{
    "BatchPutMessageErrorEntries": []
}
```
Untuk informasi selengkapnya, lihat [BatchPutMessage](https://docs.aws.amazon.com/iotevents/latest/apireference/API_iotevents-data_BatchPutMessage.html)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [BatchPutMessage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/batch-put-message.html)di *Referensi AWS CLI Perintah*. 

### `batch-update-detector`
<a name="iot-events_BatchUpdateDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-update-detector`.

**AWS CLI**  
**Untuk memperbarui detektor (contoh)**  
`batch-update-detector`Contoh berikut memperbarui status, nilai variabel, dan pengaturan timer dari satu atau lebih detektor (instance) dari model detektor tertentu.  

```
aws iotevents-data batch-update-detector \
    --cli-input-json file://budFulton-A32.json
```
Isi dari `budFulton-A32.json`:  

```
{
    "detectors": [
        {
            "messageId": "00001",
            "detectorModelName": "motorDetectorModel",
            "keyValue": "Fulton-A32",
            "state": {
                "stateName": "Normal",
                "variables": [
                    {
                        "name": "pressureThresholdBreached",
                        "value": "0"
                    }
                ],
                "timers": [
                ]
            }
        }
    ]
}
```
Output:  

```
{
    "batchUpdateDetectorErrorEntries": []
}
```
Untuk informasi selengkapnya, lihat [BatchUpdateDetector](https://docs.aws.amazon.com/iotevents/latest/apireference/API_iotevents-data_BatchUpdateDetector.html)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [BatchUpdateDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/batch-update-detector.html)di *Referensi AWS CLI Perintah*. 

### `create-detector-model`
<a name="iot-events_CreateDetectorModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-detector-model`.

**AWS CLI**  
**Untuk membuat model detektor**  
`create-detector-model`Contoh berikut membuat model detektor dengan konfigurasi yang ditentukan oleh file parameter.  

```
aws iotevents create-detector-model  \
    --cli-input-json file://motorDetectorModel.json
```
Isi dari `motorDetectorModel.json`:  

```
{
    "detectorModelName": "motorDetectorModel",
    "detectorModelDefinition": {
        "states": [
            {
                "stateName": "Normal",
                "onEnter": {
                    "events": [
                        {
                            "eventName": "init",
                            "condition": "true",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "0"
                                    }
                                }
                            ]
                        }
                    ]
                },
                "onInput": {
                    "transitionEvents": [
                        {
                            "eventName": "Overpressurized",
                            "condition": "$input.PressureInput.sensorData.pressure &gt; 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "$variable.pressureThresholdBreached + 3"
                                    }
                                }
                            ],
                            "nextState": "Dangerous"
                        }
                    ]
                }
            },
            {
                "stateName": "Dangerous",
                "onEnter": {
                    "events": [
                        {
                            "eventName": "Pressure Threshold Breached",
                            "condition": "$variable.pressureThresholdBreached &gt; 1",
                            "actions": [
                                {
                                    "sns": {
                                        "targetArn": "arn:aws:sns:us-east-1:123456789012:underPressureAction"
                                    }
                                }
                            ]
                        }
                    ]
                },
                "onInput": {
                    "events": [
                        {
                            "eventName": "Overpressurized",
                            "condition": "$input.PressureInput.sensorData.pressure &gt; 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "3"
                                    }
                                }
                            ]
                        },
                        {
                            "eventName": "Pressure Okay",
                            "condition": "$input.PressureInput.sensorData.pressure &lt;= 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "$variable.pressureThresholdBreached - 1"
                                    }
                                }
                            ]
                        }
                    ],
                    "transitionEvents": [
                        {
                            "eventName": "BackToNormal",
                            "condition": "$input.PressureInput.sensorData.pressure &lt;= 70 &amp;&amp; $variable.pressureThresholdBreached &lt;= 1",
                            "nextState": "Normal"
                        }
                    ]
                },
                "onExit": {
                    "events": [
                        {
                            "eventName": "Normal Pressure Restored",
                            "condition": "true",
                            "actions": [
                                {
                                    "sns": {
                                        "targetArn": "arn:aws:sns:us-east-1:123456789012:pressureClearedAction"
                                    }
                                }
                            ]
                        }
                    ]
                }
            }
        ],
        "initialStateName": "Normal"
    },
    "key": "motorid",
    "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole"
}
```
Output:  

```
{
    "detectorModelConfiguration": {
        "status": "ACTIVATING",
        "lastUpdateTime": 1560796816.077,
        "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
        "creationTime": 1560796816.077,
        "detectorModelArn": "arn:aws:iotevents:us-west-2:123456789012:detectorModel/motorDetectorModel",
        "key": "motorid",
        "detectorModelName": "motorDetectorModel",
        "detectorModelVersion": "1"
    }
}
```
Untuk informasi selengkapnya, lihat [CreateDetectorModel](https://docs.aws.amazon.com/iotevents/latest/apireference/API_CreateDetectorModel.html)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [CreateDetectorModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/create-detector-model.html)di *Referensi AWS CLI Perintah*. 

### `create-input`
<a name="iot-events_CreateInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-input`.

**AWS CLI**  
**Untuk membuat masukan**  
`create-input`Contoh berikut menciptakan masukan.  

```
aws iotevents create-input  \
    --cli-input-json file://pressureInput.json
```
Isi dari `pressureInput.json`:  

```
{
    "inputName": "PressureInput",
    "inputDescription": "Pressure readings from a motor",
    "inputDefinition": {
        "attributes": [
            { "jsonPath": "sensorData.pressure" },
            { "jsonPath": "motorid" }
        ]
    }
}
```
Output:  

```
{
    "inputConfiguration": {
        "status": "ACTIVE",
        "inputArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
        "lastUpdateTime": 1560795312.542,
        "creationTime": 1560795312.542,
        "inputName": "PressureInput",
        "inputDescription": "Pressure readings from a motor"
    }
}
```
Untuk informasi selengkapnya, lihat [CreateInput](https://docs.aws.amazon.com/iotevents/latest/apireference/API_CreateInput)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [CreateInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/create-input.html)di *Referensi AWS CLI Perintah*. 

### `delete-detector-model`
<a name="iot-events_DeleteDetectorModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-detector-model`.

**AWS CLI**  
**Untuk menghapus model detektor**  
`delete-detector-model`Contoh berikut menghapus model detektor yang ditentukan. Setiap contoh aktif dari model detektor juga dihapus.  

```
aws iotevents delete-detector-model \
    --detector-model-name motorDetectorModel
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteDetectorModel](https://docs.aws.amazon.com/iotevents/latest/apireference/API_DeleteDetectorModel)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [DeleteDetectorModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/delete-detector-model.html)di *Referensi AWS CLI Perintah*. 

### `delete-input`
<a name="iot-events_DeleteInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-input`.

**AWS CLI**  
**Untuk menghapus masukan**  
`delete-input`Contoh berikut menghapus input yang ditentukan.  

```
aws iotevents delete-input \
    --input-name PressureInput
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteInput](https://docs.aws.amazon.com/iotevents/latest/apireference/API_DeleteInput)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [DeleteInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/delete-input.html)di *Referensi AWS CLI Perintah*. 

### `describe-detector-model`
<a name="iot-events_DescribeDetectorModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-detector-model`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang model detektor**  
`describe-detector-model`Contoh berikut menampilkan rincian untuk model detektor yang ditentukan. Karena `version` parameter tidak ditentukan, informasi tentang versi terbaru dikembalikan.  

```
aws iotevents describe-detector-model \
    --detector-model-name motorDetectorModel
```
Output:  

```
{
    "detectorModel": {
        "detectorModelConfiguration": {
            "status": "ACTIVE",
            "lastUpdateTime": 1560796816.077,
            "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
            "creationTime": 1560796816.077,
            "detectorModelArn": "arn:aws:iotevents:us-west-2:123456789012:detectorModel/motorDetectorModel",
            "key": "motorid",
            "detectorModelName": "motorDetectorModel",
            "detectorModelVersion": "1"
        },
        "detectorModelDefinition": {
            "states": [
                {
                    "onInput": {
                        "transitionEvents": [
                            {
                                "eventName": "Overpressurized",
                                "actions": [
                                    {
                                        "setVariable": {
                                            "variableName": "pressureThresholdBreached",
                                            "value": "$variable.pressureThresholdBreached + 3"
                                        }
                                    }
                                ],
                                "condition": "$input.PressureInput.sensorData.pressure > 70",
                                "nextState": "Dangerous"
                            }
                        ],
                        "events": []
                    },
                    "stateName": "Normal",
                    "onEnter": {
                        "events": [
                            {
                                "eventName": "init",
                                "actions": [
                                    {
                                        "setVariable": {
                                            "variableName": "pressureThresholdBreached",
                                            "value": "0"
                                        }
                                    }
                                ],
                                "condition": "true"
                            }
                        ]
                    },
                    "onExit": {
                        "events": []
                    }
                },
                {
                    "onInput": {
                        "transitionEvents": [
                            {
                                "eventName": "BackToNormal",
                                "actions": [],
                                "condition": "$input.PressureInput.sensorData.pressure <= 70 && $variable.pressureThresholdBreached <= 1",
                                "nextState": "Normal"
                            }
                        ],
                        "events": [
                            {
                                "eventName": "Overpressurized",
                                "actions": [
                                    {
                                        "setVariable": {
                                            "variableName": "pressureThresholdBreached",
                                            "value": "3"
                                        }
                                    }
                                ],
                                "condition": "$input.PressureInput.sensorData.pressure > 70"
                            },
                            {
                                "eventName": "Pressure Okay",
                                "actions": [
                                    {
                                        "setVariable": {
                                            "variableName": "pressureThresholdBreached",
                                            "value": "$variable.pressureThresholdBreached - 1"
                                        }
                                    }
                                ],
                                "condition": "$input.PressureInput.sensorData.pressure <= 70"
                            }
                        ]
                    },
                    "stateName": "Dangerous",
                    "onEnter": {
                        "events": [
                            {
                                "eventName": "Pressure Threshold Breached",
                                "actions": [
                                    {
                                        "sns": {
                                            "targetArn": "arn:aws:sns:us-east-1:123456789012:underPressureAction"
                                        }
                                    }
                                ],
                                "condition": "$variable.pressureThresholdBreached > 1"
                            }
                        ]
                    },
                    "onExit": {
                        "events": [
                            {
                                "eventName": "Normal Pressure Restored",
                                "actions": [
                                    {
                                        "sns": {
                                            "targetArn": "arn:aws:sns:us-east-1:123456789012:pressureClearedAction"
                                        }
                                    }
                                ],
                                "condition": "true"
                            }
                        ]
                    }
                }
            ],
            "initialStateName": "Normal"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeDetectorModel](https://docs.aws.amazon.com/iotevents/latest/apireference/API_DescribeDetectorModel)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [DescribeDetectorModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/describe-detector-model.html)di *Referensi AWS CLI Perintah*. 

### `describe-detector`
<a name="iot-events_DescribeDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-detector`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang detektor (instance).**  
`describe-detector`Contoh berikut menampilkan rincian untuk detektor tertentu (contoh).  

```
aws iotevents-data describe-detector \
    --detector-model-name motorDetectorModel \
    --key-value "Fulton-A32"
```
Output:  

```
{
    "detector": {
        "lastUpdateTime": 1560797852.776,
        "creationTime": 1560797852.775,
        "state": {
            "variables": [
                {
                    "name": "pressureThresholdBreached",
                    "value": "3"
                }
            ],
            "stateName": "Dangerous",
            "timers": []
        },
        "keyValue": "Fulton-A32",
        "detectorModelName": "motorDetectorModel",
        "detectorModelVersion": "1"
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeDetector](https://docs.aws.amazon.com/iotevents/latest/apireference/API_iotevents-data_DescribeDetector)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [DescribeDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/describe-detector.html)di *Referensi AWS CLI Perintah*. 

### `describe-input`
<a name="iot-events_DescribeInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-input`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang masukan**  
`describe-input`Contoh berikut menampilkan rincian untuk input yang ditentukan.  

```
aws iotevents describe-input \
    --input-name PressureInput
```
Output:  

```
{
    "input": {
        "inputConfiguration": {
            "status": "ACTIVE",
            "inputArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
            "lastUpdateTime": 1560795312.542,
            "creationTime": 1560795312.542,
            "inputName": "PressureInput",
            "inputDescription": "Pressure readings from a motor"
        },
        "inputDefinition": {
            "attributes": [
                {
                    "jsonPath": "sensorData.pressure"
                },
                {
                    "jsonPath": "motorid"
                }
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeInput](https://docs.aws.amazon.com/iotevents/latest/apireference/API_DescribeInput)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [DescribeInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/describe-input.html)di *Referensi AWS CLI Perintah*. 

### `describe-logging-options`
<a name="iot-events_DescribeLoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-logging-options`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pengaturan logging**  
`describe-logging-options`Contoh berikut mengambil pengaturan saat ini dari opsi logging Peristiwa AWS IoT.  

```
aws iotevents describe-logging-options
```
Output:  

```
{
    "loggingOptions": {
        "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
        "enabled": false,
        "level": "ERROR"
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeLoggingOptions](https://docs.aws.amazon.com/iotevents/latest/apireference/API_DescribeLoggingOptions)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [DescribeLoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/describe-logging-options.html)di *Referensi AWS CLI Perintah*. 

### `list-detector-model-versions`
<a name="iot-events_ListDetectorModelVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-detector-model-versions`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang versi model detektor**  
`list-detector-model-versions`Contoh berikut Daftar semua versi model detektor. Hanya metadata yang terkait dengan setiap versi model detektor yang dikembalikan.  

```
aws iotevents list-detector-model-versions \
    --detector-model-name motorDetectorModel
```
Output:  

```
{
    "detectorModelVersionSummaries": [
        {
            "status": "ACTIVE",
            "lastUpdateTime": 1560796816.077,
            "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
            "creationTime": 1560796816.077,
            "detectorModelArn": "arn:aws:iotevents:us-west-2:123456789012:detectorModel/motorDetectorModel",
            "detectorModelName": "motorDetectorModel",
            "detectorModelVersion": "1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListDetectorModelVersions](https://docs.aws.amazon.com/iotevents/latest/apireference/API_ListDetectorModelVersions)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [ListDetectorModelVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/list-detector-model-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-detector-models`
<a name="iot-events_ListDetectorModels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-detector-models`.

**AWS CLI**  
**Untuk mendapatkan daftar model detektor Anda**  
`list-detector-models`Contoh berikut Daftar model detektor yang telah Anda buat. Hanya metadata yang terkait dengan setiap model detektor yang dikembalikan.  

```
aws iotevents list-detector-models
```
Output:  

```
{
    "detectorModelSummaries": [
        {
            "detectorModelName": "motorDetectorModel",
            "creationTime": 1552072424.212
            "detectorModelDescription": "Detect overpressure in a motor."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListDetectorModels](https://docs.aws.amazon.com/iotevents/latest/apireference/API_ListDetectorModels)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [ListDetectorModels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/list-detector-models.html)di *Referensi AWS CLI Perintah*. 

### `list-detectors`
<a name="iot-events_ListDetectors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-detectors`.

**AWS CLI**  
**Untuk mendapatkan daftar detektor untuk model detektor**  
`list-detectors`Contoh berikut mencantumkan detektor (contoh model detektor) di akun Anda.  

```
aws iotevents-data list-detectors \
    --detector-model-name motorDetectorModel
```
Output:  

```
{
    "detectorSummaries": [
        {
            "lastUpdateTime": 1558129925.2,
            "creationTime": 1552073155.527,
            "state": {
                "stateName": "Normal"
            },
            "keyValue": "Fulton-A32",
            "detectorModelName": "motorDetectorModel",
            "detectorModelVersion": "1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListDetectors](https://docs.aws.amazon.com/iotevents/latest/apireference/API_iotevents-data_ListDetectors)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [ListDetectors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/list-detectors.html)di *Referensi AWS CLI Perintah*. 

### `list-inputs`
<a name="iot-events_ListInputs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-inputs`.

**AWS CLI**  
**Untuk membuat daftar input**  
`list-inputs`Contoh berikut mencantumkan input yang telah Anda buat di akun Anda.  

```
aws iotevents list-inputs
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    {
        "status": "ACTIVE",
        "inputArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
        "lastUpdateTime": 1551742986.768,
        "creationTime": 1551742986.768,
        "inputName": "PressureInput",
        "inputDescription": "Pressure readings from a motor"
    }
}
```
Untuk informasi selengkapnya, lihat [ListInputs](https://docs.aws.amazon.com/iotevents/latest/apireference/API_ListInputs)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [ListInputs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/list-inputs.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="iot-events_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang ditetapkan ke sumber daya.**  
`list-tags-for-resource`Contoh berikut mencantumkan nama kunci tag dan nilai yang telah Anda tetapkan ke sumber daya.  

```
aws iotevents list-tags-for-resource \
    --resource-arn "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput"
```
Output:  

```
{
    "tags": [
        {
            "value": "motor",
            "key": "deviceType"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListTagsForResource](https://docs.aws.amazon.com/iotevents/latest/apireference/API_ListTagsForResource)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-logging-options`
<a name="iot-events_PutLoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-logging-options`.

**AWS CLI**  
**Untuk mengatur opsi pencatatan**  
`put-logging-options`Contoh berikut menetapkan atau memperbarui opsi logging Peristiwa AWS IoT. Jika Anda memperbarui nilai `loggingOptions` field, it can take up to one minute for the change to take effect. Also, if you change the policy attached to the role you specified in the ``roleArn` bidang apa pun (misalnya, untuk memperbaiki kebijakan yang tidak valid), diperlukan waktu hingga lima menit agar perubahan tersebut diterapkan.  

```
aws iotevents put-logging-options \
    --cli-input-json file://logging-options.json
```
Isi dari `logging-options.json`:  

```
{
    "loggingOptions": {
        "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
        "level": "DEBUG",
        "enabled": true,
        "detectorDebugOptions": [
            {
                "detectorModelName": "motorDetectorModel",
                "keyValue": "Fulton-A32"
            }
        ]
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [PutLoggingOptions](https://docs.aws.amazon.com/iotevents/latest/apireference/API_PutLoggingOptions)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [PutLoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/put-logging-options.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="iot-events_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya**  
`tag-resource`Contoh berikut menambahkan atau memodifikasi (jika kunci `deviceType` sudah ada) tag yang dilampirkan sumber daya yang ditentukan.  

```
aws iotevents tag-resource \
    --cli-input-json file://pressureInput.tag.json
```
Isi dari `pressureInput.tag.json`:  

```
{
    "resourceArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
    "tags": [
        {
            "key": "deviceType",
            "value": "motor"
        }
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [TagResource](https://docs.aws.amazon.com/iotevents/latest/apireference/API_TagResource)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="iot-events_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag dengan nama kunci yang ditentukan dari sumber daya yang ditentukan.  

```
aws iotevents untag-resource \
    --resource-arn arn:aws:iotevents:us-west-2:123456789012:input/PressureInput \
    --tagkeys deviceType
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [UntagResource](https://docs.aws.amazon.com/iotevents/latest/apireference/API_UntagResource)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-detector-model`
<a name="iot-events_UpdateDetectorModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-detector-model`.

**AWS CLI**  
**Untuk memperbarui model detektor**  
`update-detector-model`Contoh berikut memperbarui model detektor yang ditentukan. Detektor (instance) yang dihasilkan oleh versi sebelumnya dihapus dan kemudian dibuat ulang saat input baru tiba.  

```
aws iotevents update-detector-model \
    --cli-input-json file://motorDetectorModel.update.json
```
Isi dari `motorDetectorModel.update.json`:  

```
{
    "detectorModelName": "motorDetectorModel",
    "detectorModelDefinition": {
        "states": [
            {
                "stateName": "Normal",
                "onEnter": {
                    "events": [
                        {
                            "eventName": "init",
                            "condition": "true",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "0"
                                    }
                                }
                            ]
                        }
                    ]
                },
                "onInput": {
                    "transitionEvents": [
                        {
                            "eventName": "Overpressurized",
                            "condition": "$input.PressureInput.sensorData.pressure > 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "$variable.pressureThresholdBreached + 3"
                                    }
                                }
                            ],
                            "nextState": "Dangerous"
                        }
                    ]
                }
            },
            {
                "stateName": "Dangerous",
                "onEnter": {
                    "events": [
                        {
                            "eventName": "Pressure Threshold Breached",
                            "condition": "$variable.pressureThresholdBreached > 1",
                            "actions": [
                                {
                                    "sns": {
                                        "targetArn": "arn:aws:sns:us-east-1:123456789012:underPressureAction"
                                    }
                                }
                            ]
                        }
                    ]
                },
                "onInput": {
                    "events": [
                        {
                            "eventName": "Overpressurized",
                            "condition": "$input.PressureInput.sensorData.pressure > 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "3"
                                    }
                                }
                            ]
                        },
                        {
                            "eventName": "Pressure Okay",
                            "condition": "$input.PressureInput.sensorData.pressure <= 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "$variable.pressureThresholdBreached - 1"
                                    }
                                }
                            ]
                        }
                    ],
                    "transitionEvents": [
                        {
                            "eventName": "BackToNormal",
                            "condition": "$input.PressureInput.sensorData.pressure <= 70 && $variable.pressureThresholdBreached <= 1",
                            "nextState": "Normal"
                        }
                    ]
                },
                "onExit": {
                    "events": [
                        {
                            "eventName": "Normal Pressure Restored",
                            "condition": "true",
                            "actions": [
                                {
                                    "sns": {
                                        "targetArn": "arn:aws:sns:us-east-1:123456789012:pressureClearedAction"
                                    }
                                }
                            ]
                        }
                    ]
                }
            }
        ],
        "initialStateName": "Normal"
    },
    "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole"
}
```
Output:  

```
{
    "detectorModelConfiguration": {
        "status": "ACTIVATING",
        "lastUpdateTime": 1560799387.719,
        "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
        "creationTime": 1560799387.719,
        "detectorModelArn": "arn:aws:iotevents:us-west-2:123456789012:detectorModel/motorDetectorModel",
        "key": "motorid",
        "detectorModelName": "motorDetectorModel",
        "detectorModelVersion": "2"
    }
}
```
Untuk informasi selengkapnya, lihat [UpdateDetectorModel](https://docs.aws.amazon.com/iotevents/latest/apireference/API_UpdateDetectorModel)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [UpdateDetectorModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/update-detector-model.html)di *Referensi AWS CLI Perintah*. 

### `update-input`
<a name="iot-events_UpdateInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-input`.

**AWS CLI**  
**Untuk memperbarui masukan**  
`update-input`Contoh berikut memperbarui input yang ditentukan dengan deskripsi dan definisi baru.  

```
aws iotevents update-input \
    --cli-input-json file://pressureInput.json
```
Isi dari `pressureInput.json`:  

```
{
    "inputName": "PressureInput",
    "inputDescription": "Pressure readings from a motor",
    "inputDefinition": {
        "attributes": [
            { "jsonPath": "sensorData.pressure" },
            { "jsonPath": "motorid" }
        ]
    }
}
```
Output:  

```
{
    "inputConfiguration": {
        "status": "ACTIVE",
        "inputArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
        "lastUpdateTime": 1560795976.458,
        "creationTime": 1560795312.542,
        "inputName": "PressureInput",
        "inputDescription": "Pressure readings from a motor"
    }
}
```
Untuk informasi selengkapnya, lihat [UpdateInput](https://docs.aws.amazon.com/iotevents/latest/apireference/API_UpdateInput)di Referensi *API Acara AWS IoT*.  
+  Untuk detail API, lihat [UpdateInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents/update-input.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT Events-Data contoh menggunakan AWS CLI
<a name="cli_2_iot-events-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT Events-Data.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-put-message`
<a name="iot-events-data_BatchPutMessage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-put-message`.

**AWS CLI**  
**Untuk mengirim pesan (input) ke AWS IoT Events**  
`batch-put-message`Contoh berikut mengirimkan satu set pesan ke sistem AWS IoT Events. Setiap payload pesan diubah menjadi input yang Anda tentukan (`inputName`) dan dicerna ke detektor apa pun yang memantau input tersebut. Jika beberapa pesan dikirim, urutan pemrosesan pesan tidak dijamin. Untuk menjamin pemesanan, Anda harus mengirim pesan satu per satu dan menunggu respons yang berhasil.  

```
aws iotevents-data batch-put-message \
    --cli-binary-format raw-in-base64-out \
    --cli-input-json file://highPressureMessage.json
```
Isi dari `highPressureMessage.json`:  

```
{
    "messages": [
        {
            "messageId": "00001",
            "inputName": "PressureInput",
            "payload": "{\"motorid\": \"Fulton-A32\", \"sensorData\": {\"pressure\": 80, \"temperature\": 39} }"
        }
    ]
}
```
Output:  

```
{
    "BatchPutMessageErrorEntries": []
}
```
Untuk informasi selengkapnya, lihat [BatchPutMessage](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-data-BatchPutMessage)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [BatchPutMessage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/batch-put-message.html)di *Referensi AWS CLI Perintah*. 

### `batch-update-detector`
<a name="iot-events-data_BatchUpdateDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-update-detector`.

**AWS CLI**  
**Untuk memperbarui detektor (contoh)**  
`batch-update-detector`Contoh berikut memperbarui status, nilai variabel, dan pengaturan timer dari satu atau lebih detektor (instance) dari model detektor tertentu.  

```
aws iotevents-data batch-update-detector \
    --cli-input-json file://budFulton-A32.json
```
Isi dari `budFulton-A32.json`:  

```
{
    "detectors": [
        {
            "messageId": "00001",
            "detectorModelName": "motorDetectorModel",
            "keyValue": "Fulton-A32",
            "state": {
                "stateName": "Normal",
                "variables": [
                    {
                        "name": "pressureThresholdBreached",
                        "value": "0"
                    }
                ],
                "timers": [
                ]
            }
        }
    ]
}
```
Output:  

```
{
    "batchUpdateDetectorErrorEntries": []
}
```
Untuk informasi selengkapnya, lihat [BatchUpdateDetector](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-data-BatchUpdateDetector)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [BatchUpdateDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/batch-update-detector.html)di *Referensi AWS CLI Perintah*. 

### `create-detector-model`
<a name="iot-events-data_CreateDetectorModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-detector-model`.

**AWS CLI**  
**Untuk membuat model detektor**  
`create-detector-model`Contoh berikut membuat model detektor.  

```
aws iotevents create-detector-model \
    --cli-input-json file://motorDetectorModel.json
```
Isi dari `motorDetectorModel.json`:  

```
{
    "detectorModelName": "motorDetectorModel",
    "detectorModelDefinition": {
        "states": [
            {
                "stateName": "Normal",
                "onEnter": {
                    "events": [
                        {
                            "eventName": "init",
                            "condition": "true",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "0"
                                    }
                                }
                            ]
                        }
                    ]
                },
                "onInput": {
                    "transitionEvents": [
                        {
                            "eventName": "Overpressurized",
                            "condition": "$input.PressureInput.sensorData.pressure &gt; 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "$variable.pressureThresholdBreached + 3"
                                    }
                                }
                            ],
                            "nextState": "Dangerous"
                        }
                    ]
                }
            },
            {
                "stateName": "Dangerous",
                "onEnter": {
                    "events": [
                        {
                            "eventName": "Pressure Threshold Breached",
                            "condition": "$variable.pressureThresholdBreached &gt; 1",
                            "actions": [
                                {
                                    "sns": {
                                        "targetArn": "arn:aws:sns:us-east-1:123456789012:underPressureAction"
                                    }
                                }
                            ]
                        }
                    ]
                },
                "onInput": {
                    "events": [
                        {
                            "eventName": "Overpressurized",
                            "condition": "$input.PressureInput.sensorData.pressure &gt; 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "3"
                                    }
                                }
                            ]
                        },
                        {
                            "eventName": "Pressure Okay",
                            "condition": "$input.PressureInput.sensorData.pressure &lt;= 70",
                            "actions": [
                                {
                                    "setVariable": {
                                        "variableName": "pressureThresholdBreached",
                                        "value": "$variable.pressureThresholdBreached - 1"
                                    }
                                }
                            ]
                        }
                    ],
                    "transitionEvents": [
                        {
                            "eventName": "BackToNormal",
                            "condition": "$input.PressureInput.sensorData.pressure &lt;= 70 &amp;&amp; $variable.pressureThresholdBreached &lt;= 1",
                            "nextState": "Normal"
                        }
                    ]
                },
                "onExit": {
                    "events": [
                        {
                            "eventName": "Normal Pressure Restored",
                            "condition": "true",
                            "actions": [
                                {
                                    "sns": {
                                        "targetArn": "arn:aws:sns:us-east-1:123456789012:pressureClearedAction"
                                    }
                                }
                            ]
                        }
                    ]
                }
            }
        ],
        "initialStateName": "Normal"
    },
    "key": "motorid",
    "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole"
}
```
Output:  

```
{
    "detectorModelConfiguration": {
        "status": "ACTIVATING",
        "lastUpdateTime": 1560796816.077,
        "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
        "creationTime": 1560796816.077,
        "detectorModelArn": "arn:aws:iotevents:us-west-2:123456789012:detectorModel/motorDetectorModel",
        "key": "motorid",
        "detectorModelName": "motorDetectorModel",
        "detectorModelVersion": "1"
    }
}
```
Untuk informasi selengkapnya, lihat [CreateDetectorModel](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-CreateDetectorModel)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [CreateDetectorModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/create-detector-model.html)di *Referensi AWS CLI Perintah*. 

### `create-input`
<a name="iot-events-data_CreateInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-input`.

**AWS CLI**  
**Untuk membuat masukan**  
`create-input`Contoh berikut menciptakan masukan.  

```
aws iotevents create-input \
    --cli-input-json file://pressureInput.json
```
Isi dari `pressureInput.json`:  

```
{
    "inputName": "PressureInput",
    "inputDescription": "Pressure readings from a motor",
    "inputDefinition": {
        "attributes": [
                { "jsonPath": "sensorData.pressure" },
                { "jsonPath": "motorid" }
            ]
    }
}
```
Output:  

```
{
    "inputConfiguration": {
        "status": "ACTIVE",
        "inputArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
        "lastUpdateTime": 1560795312.542,
        "creationTime": 1560795312.542,
        "inputName": "PressureInput",
        "inputDescription": "Pressure readings from a motor"
    }
}
```
Untuk informasi selengkapnya, lihat [CreateInput](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-CreateInput)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [CreateInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/create-input.html)di *Referensi AWS CLI Perintah*. 

### `delete-detector-model`
<a name="iot-events-data_DeleteDetectorModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-detector-model`.

**AWS CLI**  
**Untuk menghapus model detektor**  
`delete-detector-model`Contoh berikut menghapus model detektor. Setiap contoh aktif dari model detektor juga dihapus.  

```
aws iotevents delete-detector-model \
    --detector-model-name motorDetectorModel*
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteDetectorModel](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-DeleteDetectorModel)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [DeleteDetectorModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/delete-detector-model.html)di *Referensi AWS CLI Perintah*. 

### `delete-input`
<a name="iot-events-data_DeleteInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-input`.

**AWS CLI**  
**Untuk menghapus masukan**  
`delete-input`Contoh berikut menghapus input.  

```
aws iotevents delete-input \
    --input-name PressureInput
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteInput](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-DeleteInput)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [DeleteInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/delete-input.html)di *Referensi AWS CLI Perintah*. 

### `describe-detector-model`
<a name="iot-events-data_DescribeDetectorModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-detector-model`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang model detektor**  
`describe-detector-model`Contoh berikut menjelaskan model detektor. Jika `version` parameter tidak ditentukan, perintah mengembalikan informasi tentang versi terbaru.  

```
aws iotevents describe-detector-model \
    --detector-model-name motorDetectorModel
```
Output:  

```
{
    "detectorModel": {
        "detectorModelConfiguration": {
            "status": "ACTIVE",
            "lastUpdateTime": 1560796816.077,
            "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
            "creationTime": 1560796816.077,
            "detectorModelArn": "arn:aws:iotevents:us-west-2:123456789012:detectorModel/motorDetectorModel",
            "key": "motorid",
            "detectorModelName": "motorDetectorModel",
            "detectorModelVersion": "1"
        },
        "detectorModelDefinition": {
            "states": [
                {
                    "onInput": {
                        "transitionEvents": [
                            {
                                "eventName": "Overpressurized",
                                "actions": [
                                    {
                                        "setVariable": {
                                            "variableName": "pressureThresholdBreached",
                                            "value": "$variable.pressureThresholdBreached + 3"
                                        }
                                    }
                                ],
                                "condition": "$input.PressureInput.sensorData.pressure > 70",
                                "nextState": "Dangerous"
                            }
                        ],
                        "events": []
                    },
                    "stateName": "Normal",
                    "onEnter": {
                        "events": [
                            {
                                "eventName": "init",
                                "actions": [
                                    {
                                        "setVariable": {
                                            "variableName": "pressureThresholdBreached",
                                            "value": "0"
                                        }
                                    }
                                ],
                                "condition": "true"
                            }
                        ]
                    },
                    "onExit": {
                        "events": []
                    }
                },
                {
                    "onInput": {
                        "transitionEvents": [
                            {
                                "eventName": "BackToNormal",
                                "actions": [],
                                "condition": "$input.PressureInput.sensorData.pressure <= 70 && $variable.pressureThresholdBreached <= 1",
                                "nextState": "Normal"
                            }
                        ],
                        "events": [
                            {
                                "eventName": "Overpressurized",
                                "actions": [
                                    {
                                        "setVariable": {
                                            "variableName": "pressureThresholdBreached",
                                            "value": "3"
                                        }
                                    }
                                ],
                                "condition": "$input.PressureInput.sensorData.pressure > 70"
                            },
                            {
                                "eventName": "Pressure Okay",
                                "actions": [
                                    {
                                        "setVariable": {
                                            "variableName": "pressureThresholdBreached",
                                            "value": "$variable.pressureThresholdBreached - 1"
                                        }
                                    }
                                ],
                                "condition": "$input.PressureInput.sensorData.pressure <= 70"
                            }
                        ]
                    },
                    "stateName": "Dangerous",
                    "onEnter": {
                        "events": [
                            {
                                "eventName": "Pressure Threshold Breached",
                                "actions": [
                                    {
                                        "sns": {
                                            "targetArn": "arn:aws:sns:us-east-1:123456789012:underPressureAction"
                                        }
                                    }
                                ],
                                "condition": "$variable.pressureThresholdBreached > 1"
                            }
                        ]
                    },
                    "onExit": {
                        "events": [
                            {
                                "eventName": "Normal Pressure Restored",
                                "actions": [
                                    {
                                        "sns": {
                                            "targetArn": "arn:aws:sns:us-east-1:123456789012:pressureClearedAction"
                                        }
                                    }
                                ],
                                "condition": "true"
                            }
                        ]
                    }
                }
            ],
            "initialStateName": "Normal"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeDetectorModel](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-DescribeDetectorModel)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [DescribeDetectorModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/describe-detector-model.html)di *Referensi AWS CLI Perintah*. 

### `describe-detector`
<a name="iot-events-data_DescribeDetector_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-detector`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang detektor (instance)**  
`describe-detector`Contoh berikut mengembalikan informasi tentang detektor tertentu (contoh).  

```
aws iotevents-data describe-detector \
    --detector-model-name motorDetectorModel \
    --key-value "Fulton-A32"
```
Output:  

```
{
    "detector": {
        "lastUpdateTime": 1560797852.776,
        "creationTime": 1560797852.775,
        "state": {
            "variables": [
                {
                    "name": "pressureThresholdBreached",
                    "value": "3"
                }
            ],
            "stateName": "Dangerous",
            "timers": []
        },
        "keyValue": "Fulton-A32",
        "detectorModelName": "motorDetectorModel",
        "detectorModelVersion": "1"
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeDetector](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-data-DescribeDetector)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [DescribeDetector](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/describe-detector.html)di *Referensi AWS CLI Perintah*. 

### `describe-input`
<a name="iot-events-data_DescribeInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-input`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang masukan**  
`describe-input`Contoh berikut mengambil rincian input.  

```
aws iotevents describe-input \
    --input-name PressureInput
```
Output:  

```
{
    "input": {
        "inputConfiguration": {
            "status": "ACTIVE",
            "inputArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
            "lastUpdateTime": 1560795312.542,
            "creationTime": 1560795312.542,
            "inputName": "PressureInput",
            "inputDescription": "Pressure readings from a motor"
        },
        "inputDefinition": {
            "attributes": [
                {
                    "jsonPath": "sensorData.pressure"
                },
                {
                    "jsonPath": "motorid"
                }
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeInput](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-DescribeInput)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [DescribeInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/describe-input.html)di *Referensi AWS CLI Perintah*. 

### `describe-logging-options`
<a name="iot-events-data_DescribeLoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-logging-options`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pengaturan logging**  
`describe-logging-options`Contoh berikut mengambil opsi logging Peristiwa AWS IoT saat ini.  

```
aws iotevents describe-logging-options
```
Output:  

```
{
    "loggingOptions": {
        "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
        "enabled": false,
        "level": "ERROR"
    }
}
```
Untuk informasi selengkapnya, lihat [DescribeLoggingOptions](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-DescribeLoggingOptions)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [DescribeLoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/describe-logging-options.html)di *Referensi AWS CLI Perintah*. 

### `list-detector-model-versions`
<a name="iot-events-data_ListDetectorModelVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-detector-model-versions`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang versi model detektor**  
`list-detector-model-versions`Contoh berikut mencantumkan semua versi model detektor. Hanya metadata yang terkait dengan setiap versi model detektor yang dikembalikan.  

```
aws iotevents list-detector-model-versions \
    --detector-model-name motorDetectorModel
```
Output:  

```
{
    "detectorModelVersionSummaries": [
        {
            "status": "ACTIVE",
            "lastUpdateTime": 1560796816.077,
            "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
            "creationTime": 1560796816.077,
            "detectorModelArn": "arn:aws:iotevents:us-west-2:123456789012:detectorModel/motorDetectorModel",
            "detectorModelName": "motorDetectorModel",
            "detectorModelVersion": "1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListDetectorModelVersions](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-ListDetectorModelVersions)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [ListDetectorModelVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/list-detector-model-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-detector-models`
<a name="iot-events-data_ListDetectorModels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-detector-models`.

**AWS CLI**  
**Untuk mendapatkan daftar model detektor Anda**  
`list-detector-models`Contoh berikut mencantumkan model detektor yang telah Anda buat. Hanya metadata yang terkait dengan setiap model detektor yang dikembalikan.  

```
aws iotevents list-detector-models
```
Output:  

```
{
    "detectorModelSummaries": [
        {
            "detectorModelName": "motorDetectorModel",
            "creationTime": 1552072424.212
            "detectorModelDescription": "Detect overpressure in a motor."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListDetectorModels](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-ListDetectorModels)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [ListDetectorModels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/list-detector-models.html)di *Referensi AWS CLI Perintah*. 

### `list-detectors`
<a name="iot-events-data_ListDetectors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-detectors`.

**AWS CLI**  
**Untuk mendapatkan daftar detektor untuk model detektor**  
`list-detectors`Contoh berikut mencantumkan detektor (contoh model detektor).  

```
aws iotevents-data list-detectors \
    --detector-model-name motorDetectorModel
```
Output:  

```
{
    "detectorSummaries": [
        {
            "lastUpdateTime": 1558129925.2,
            "creationTime": 1552073155.527,
            "state": {
                "stateName": "Normal"
            },
            "keyValue": "Fulton-A32",
            "detectorModelName": "motorDetectorModel",
            "detectorModelVersion": "1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListDetectors](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-ListDetectors)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [ListDetectors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/list-detectors.html)di *Referensi AWS CLI Perintah*. 

### `list-inputs`
<a name="iot-events-data_ListInputs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-inputs`.

**AWS CLI**  
**Untuk membuat daftar input**  
`list-inputs`Contoh berikut mencantumkan input yang telah Anda buat.  

```
aws iotevents list-inputs
```
Output:  

```
{
    "status": "ACTIVE",
    "inputArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
    "lastUpdateTime": 1551742986.768,
    "creationTime": 1551742986.768,
    "inputName": "PressureInput",
    "inputDescription": "Pressure readings from a motor"
}
```
Untuk informasi selengkapnya, lihat [ListInputs](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-ListInputs)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [ListInputs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/list-inputs.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="iot-events-data_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang ditetapkan ke sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag (metadata) yang telah Anda tetapkan ke sumber daya.  

```
aws iotevents list-tags-for-resource \
    --resource-arn "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput"
```
Output:  

```
{
    "tags": [
        {
            "value": "motor",
            "key": "deviceType"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListTagsForResource](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-ListTagsForResource)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-logging-options`
<a name="iot-events-data_PutLoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-logging-options`.

**AWS CLI**  
**Untuk mengatur opsi pencatatan**  
`list-tags-for-resource`Contoh berikut menetapkan atau memperbarui opsi logging Peristiwa AWS IoT. Jika Anda memperbarui nilai `loggingOptions` bidang apa pun, dibutuhkan waktu hingga satu menit agar perubahan diterapkan. Selain itu, jika Anda mengubah kebijakan yang dilampirkan pada peran yang Anda tentukan di `roleArn` bidang (misalnya, untuk memperbaiki kebijakan yang tidak valid), perubahan tersebut akan memakan waktu hingga lima menit agar perubahan tersebut diterapkan.  

```
aws iotevents put-logging-options \
    --cli-input-json file://logging-options.json
```
Isi dari `logging-options.json`:  

```
{
    "loggingOptions": {
        "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
        "level": "DEBUG",
        "enabled": true,
        "detectorDebugOptions": [
            {
                "detectorModelName": "motorDetectorModel",
                "keyValue": "Fulton-A32"
            }
        ]
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [PutLoggingOptions](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-PutLoggingOptions)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [PutLoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/put-logging-options.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="iot-events-data_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya**  
`tag-resource`Contoh berikut menambah atau memodifikasi tag sumber daya yang diberikan. Tag adalah metadata yang dapat digunakan untuk mengelola sumber daya.  

```
aws iotevents tag-resource \
    --cli-input-json file://pressureInput.tag.json
```
Isi dari `pressureInput.tag.json`:  

```
{
    "resourceArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
    "tags": [
        {
            "key": "deviceType",
            "value": "motor"
        }
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [TagResource](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-TagResource)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="iot-events-data_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan dari sumber daya.  

```
aws iotevents untag-resource \
    --cli-input-json file://pressureInput.untag.json
```
Isi dari `pressureInput.untag.json`:  

```
{
    "resourceArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
    "tagKeys": [
            "deviceType"
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [UntagResource](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-UntagResource)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-detector-model`
<a name="iot-events-data_UpdateDetectorModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-detector-model`.

**AWS CLI**  
**Untuk memperbarui model detektor**  
`update-detector-model`Contoh berikut memperbarui model detektor. Detektor (instance) yang dihasilkan oleh versi sebelumnya dihapus dan kemudian dibuat ulang saat input baru tiba.  

```
aws iotevents update-detector-model \
    --cli-input-json file://motorDetectorModel.update.json
```
Isi dari motorDetectorModel .update.json:  

```
{
  "detectorModelName": "motorDetectorModel",
  "detectorModelDefinition": {
    "states": [
      {
        "stateName": "Normal",
        "onEnter": {
          "events": [
            {
              "eventName": "init",
              "condition": "true",
              "actions": [
                {
                  "setVariable": {
                    "variableName": "pressureThresholdBreached",
                    "value": "0"
                  }
                }
              ]
            }
          ]
        },
        "onInput": {
          "transitionEvents": [
            {
              "eventName": "Overpressurized",
              "condition": "$input.PressureInput.sensorData.pressure > 70",
              "actions": [
                {
                  "setVariable": {
                    "variableName": "pressureThresholdBreached",
                    "value": "$variable.pressureThresholdBreached + 3"
                  }
                }
              ],
              "nextState": "Dangerous"
            }
          ]
        }
      },
      {
        "stateName": "Dangerous",
        "onEnter": {
          "events": [
            {
              "eventName": "Pressure Threshold Breached",
              "condition": "$variable.pressureThresholdBreached > 1",
              "actions": [
                {
                  "sns": {
                    "targetArn": "arn:aws:sns:us-east-1:123456789012:underPressureAction"
                  }
                }
              ]
            }
          ]
        },
        "onInput": {
          "events": [
            {
              "eventName": "Overpressurized",
              "condition": "$input.PressureInput.sensorData.pressure > 70",
              "actions": [
                {
                  "setVariable": {
                    "variableName": "pressureThresholdBreached",
                    "value": "3"
                  }
                }
              ]
            },
            {
              "eventName": "Pressure Okay",
              "condition": "$input.PressureInput.sensorData.pressure <= 70",
              "actions": [
                {
                  "setVariable": {
                    "variableName": "pressureThresholdBreached",
                    "value": "$variable.pressureThresholdBreached - 1"
                  }
                }
              ]
            }
          ],
          "transitionEvents": [
            {
              "eventName": "BackToNormal",
              "condition": "$input.PressureInput.sensorData.pressure <= 70 && $variable.pressureThresholdBreached <= 1",
              "nextState": "Normal"
            }
          ]
        },
        "onExit": {
          "events": [
            {
              "eventName": "Normal Pressure Restored",
              "condition": "true",
              "actions": [
                {
                  "sns": {
                    "targetArn": "arn:aws:sns:us-east-1:123456789012:pressureClearedAction"
                  }
                }
              ]
            }
          ]
        }
      }
    ],
    "initialStateName": "Normal"
  },
  "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole"
}
```
Output:  

```
{
    "detectorModelConfiguration": {
        "status": "ACTIVATING",
        "lastUpdateTime": 1560799387.719,
        "roleArn": "arn:aws:iam::123456789012:role/IoTEventsRole",
        "creationTime": 1560799387.719,
        "detectorModelArn": "arn:aws:iotevents:us-west-2:123456789012:detectorModel/motorDetectorModel",
        "key": "motorid",
        "detectorModelName": "motorDetectorModel",
        "detectorModelVersion": "2"
    }
}
```
Untuk informasi selengkapnya, lihat [UpdateDetectorModel](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-UpdateDetectorModel)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [UpdateDetectorModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/update-detector-model.html)di *Referensi AWS CLI Perintah*. 

### `update-input`
<a name="iot-events-data_UpdateInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-input`.

**AWS CLI**  
**Untuk memperbarui masukan**  
`update-input`Contoh berikut memperbarui input.  

```
aws iotevents update-input \
    --cli-input-json file://pressureInput.json
```
Isi dari `pressureInput.json`:  

```
{
    "inputName": "PressureInput",
    "inputDescription": "Pressure readings from a motor",
    "inputDefinition": {
        "attributes": [
            { "jsonPath": "sensorData.pressure" },
            { "jsonPath": "motorid" }
        ]
    }
}
```
Output:  

```
{
    "inputConfiguration": {
        "status": "ACTIVE",
        "inputArn": "arn:aws:iotevents:us-west-2:123456789012:input/PressureInput",
        "lastUpdateTime": 1560795976.458,
        "creationTime": 1560795312.542,
        "inputName": "PressureInput",
        "inputDescription": "Pressure readings from a motor"
    }
}
```
Untuk informasi selengkapnya, lihat [UpdateInput](https://docs.aws.amazon.com/iotevents/latest/developerguide/iotevents-commands.html#api-iotevents-UpdateInput)di Panduan *Pengembang Acara AWS IoT\$1*.  
+  Untuk detail API, lihat [UpdateInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotevents-data/update-input.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT Greengrass contoh menggunakan AWS CLI
<a name="cli_2_greengrass_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT Greengrass.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-role-to-group`
<a name="greengrass_AssociateRoleToGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-role-to-group`.

**AWS CLI**  
**Untuk mengasosiasikan peran dengan kelompok Greengrass**  
`associate-role-to-group`Contoh berikut mengaitkan peran IAM yang ditentukan dengan grup Greengrass. Peran grup digunakan oleh fungsi dan konektor Lambda lokal untuk mengakses AWS layanan. Misalnya, peran grup Anda mungkin memberikan izin yang diperlukan untuk integrasi CloudWatch Log.  

```
aws greengrass associate-role-to-group \
    --group-id 2494ee3f-7f8a-4e92-a78b-d205f808b84b \
    --role-arn arn:aws:iam::123456789012:role/GG-Group-Role
```
Output:  

```
{
    "AssociatedAt": "2019-09-10T20:03:30Z"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Peran Grup](https://docs.aws.amazon.com/greengrass/latest/developerguide/config-iam-roles.html) di Panduan Pengembang *AWS Greengrass IoT*.  
+  Untuk detail API, lihat [AssociateRoleToGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/associate-role-to-group.html)di *Referensi AWS CLI Perintah*. 

### `associate-service-role-to-account`
<a name="greengrass_AssociateServiceRoleToAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-service-role-to-account`.

**AWS CLI**  
**Untuk mengaitkan peran layanan dengan AWS akun Anda**  
`associate-service-role-to-account`Contoh berikut mengaitkan peran layanan IAM, yang ditentukan oleh ARN-nya, dengan Greengrass AWS IoT di akun Anda. AWS Anda harus sebelumnya membuat peran layanan di IAM, dan Anda harus mengaitkan dokumen kebijakan dengannya yang memungkinkan AWS IoT Greengrass untuk mengambil peran ini.  

```
aws greengrass associate-service-role-to-account \
    --role-arn "arn:aws:iam::123456789012:role/service-role/Greengrass_ServiceRole"
```
Output:  

```
{
    "AssociatedAt": "2019-06-25T18:12:45Z"
}
```
*Untuk informasi selengkapnya, lihat Peran [Layanan Greengrass di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/service-role.html) IoT AWS .*  
+  Untuk detail API, lihat [AssociateServiceRoleToAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/associate-service-role-to-account.html)di *Referensi AWS CLI Perintah*. 

### `create-connector-definition-version`
<a name="greengrass_CreateConnectorDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-connector-definition-version`.

**AWS CLI**  
**Untuk membuat versi definisi konektor**  
`create-connector-definition-version`Contoh berikut membuat versi definisi konektor dan mengaitkannya dengan definisi konektor yang ditentukan. Semua konektor dalam versi menentukan nilai untuk parameternya.  

```
aws greengrass create-connector-definition-version \
    --connector-definition-id "55d0052b-0d7d-44d6-b56f-21867215e118" \
    --connectors "[{\"Id\": \"MyTwilioNotificationsConnector\", \"ConnectorArn\": \"arn:aws:greengrass:us-west-2::/connectors/TwilioNotifications/versions/2\", \"Parameters\": {\"TWILIO_ACCOUNT_SID\": \"AC1a8d4204890840d7fc482aab38090d57\", \"TwilioAuthTokenSecretArn\": \"arn:aws:secretsmanager:us-west-2:123456789012:secret:greengrass-TwilioAuthToken-ntSlp6\", \"TwilioAuthTokenSecretArn-ResourceId\": \"TwilioAuthToken\", \"DefaultFromPhoneNumber\": \"4254492999\"}}]"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/55d0052b-0d7d-44d6-b56f-21867215e118/versions/33f709a0-c825-49cb-9eea-dc8964fbd635",
    "CreationTimestamp": "2019-06-24T20:46:30.134Z",
    "Id": "55d0052b-0d7d-44d6-b56f-21867215e118",
    "Version": "33f709a0-c825-49cb-9eea-dc8964fbd635"
}
```
+  Untuk detail API, lihat [CreateConnectorDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-connector-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `create-connector-definition`
<a name="greengrass_CreateConnectorDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-connector-definition`.

**AWS CLI**  
**Untuk membuat definisi konektor**  
`create-connector-definition`Contoh contoh berikut membuat definisi konektor dan versi definisi konektor awal. Versi awal berisi satu konektor. Semua konektor dalam versi menentukan nilai untuk parameternya.  

```
aws greengrass create-connector-definition \
    --name MySNSConnector \
    --initial-version "{\"Connectors\": [{\"Id\":\"MySNSConnector\",\"ConnectorArn\":\"arn:aws:greengrass:us-west-2::/connectors/SNS/versions/1\",\"Parameters\": {\"DefaultSNSArn\":\"arn:aws:sns:us-west-2:123456789012:GGConnectorTopic\"}}]}"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/b5c4ebfd-f672-49a3-83cd-31c7216a7bb8",
    "CreationTimestamp": "2019-06-19T19:30:01.300Z",
    "Id": "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8",
    "LastUpdatedTimestamp": "2019-06-19T19:30:01.300Z",
    "LatestVersion": "63c57963-c7c2-4a26-a7e2-7bf478ea2623",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/b5c4ebfd-f672-49a3-83cd-31c7216a7bb8/versions/63c57963-c7c2-4a26-a7e2-7bf478ea2623",
    "Name": "MySNSConnector"
}
```
Untuk informasi lebih lanjut, lihat [Memulai dengan Konektor Greengrass (CLI) **AWS di** Panduan Pengembang IoT](https://docs.aws.amazon.com/greengrass/latest/developerguide/connectors-cli.html).  
+  Untuk detail API, lihat [CreateConnectorDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-connector-definition.html)di *Referensi AWS CLI Perintah*. 

### `create-core-definition-version`
<a name="greengrass_CreateCoreDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-core-definition-version`.

**AWS CLI**  
**Untuk membuat versi definisi inti**  
`create-core-definition-version`Contoh berikut membuat versi definisi inti dan mengaitkannya dengan definisi inti yang ditentukan. Versi ini hanya dapat berisi satu inti. Sebelum Anda dapat membuat inti, Anda harus terlebih dahulu membuat dan menyediakan hal AWS IoT yang sesuai. Proses ini mencakup `iot` perintah berikut, yang mengembalikan `ThingArn` dan `CertificateArn` diperlukan untuk `create-core-definition-version` perintah.  
Buat hal AWS IoT yang sesuai dengan perangkat inti:  

```
aws iot create-thing \
    --thing-name "MyCoreDevice"
```
Output:  

```
{
    "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyCoreDevice",
    "thingName": "MyCoreDevice",
    "thingId": "cb419a19-9099-4515-9cec-e9b0e760608a"
}
```
Buat kunci publik dan pribadi dan sertifikat perangkat inti untuk hal itu. Contoh ini menggunakan `create-keys-and-certificate` perintah dan memerlukan izin menulis ke direktori saat ini. Atau, Anda dapat menggunakan `create-certificate-from-csr` perintah.  

```
aws iot create-keys-and-certificate \
    --set-as-active \
    --certificate-pem-outfile "myCore.cert.pem" \
    --public-key-outfile "myCore.public.key" \
    --private-key-outfile "myCore.private.key"
```
Output:  

```
{
    "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz",
    "certificatePem": "-----BEGIN CERTIFICATE-----\nMIIDWTCAkGgAwIBATgIUCgq6EGqou6zFqWgIZRndgQEFW+gwDQYJKoZIhvc...KdGewQS\n-----END CERTIFICATE-----\n",
    "keyPair": {
        "PublicKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBzrqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAqKpRgnn6yq26U3y...wIDAQAB\n-----END PUBLIC KEY-----\n",
        "PrivateKey": "-----BEGIN RSA PRIVATE KEY-----\nMIIEowIABAKCAQEAqKpRgnn6yq26U3yt5YFZquyukfRjbMXDcNOK4rMCxDR...fvY4+te\n-----END RSA PRIVATE KEY-----\n"
    },
    "certificateId": "123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz"
}
```
Buat kebijakan AWS IoT yang memungkinkan `iot` dan `greengrass` bertindak. Untuk mempermudah, kebijakan berikut memungkinkan tindakan pada semua sumber daya, tetapi kebijakan Anda harus lebih ketat.  

```
aws iot create-policy \
    --policy-name "Core_Devices" \
    --policy-document "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"iot:Publish\",\"iot:Subscribe\",\"iot:Connect\",\"iot:Receive\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"iot:GetThingShadow\",\"iot:UpdateThingShadow\",\"iot:DeleteThingShadow\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"greengrass:*\"],\"Resource\":[\"*\"]}]}"
```
Output:  

```
{
    "policyName": "Core_Devices",
    "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/Core_Devices",
    "policyDocument": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"iot:Publish\",\"iot:Subscribe\",\"iot:Connect\",\"iot:Receive\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"iot:GetThingShadow\",\"iot:UpdateThingShadow\",\"iot:DeleteThingShadow\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"greengrass:*\"],\"Resource\":[\"*\"]}]}",
    "policyVersionId": "1"
}
```
Lampirkan kebijakan ke sertifikat:  

```
aws iot attach-policy \
    --policy-name "Core_Devices" \
    --target "arn:aws:iot:us-west-2:123456789012:cert/123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz"
```
Perintah ini tidak menghasilkan output.  
Lampirkan benda itu ke sertifikat:  

```
aws iot attach-thing-principal \
    --thing-name "MyCoreDevice" \
    --principal "arn:aws:iot:us-west-2:123456789012:cert/123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz"
```
Perintah ini tidak menghasilkan output.  
Buat versi definisi inti:  

```
aws greengrass create-core-definition-version \
    --core-definition-id "582efe12-b05a-409e-9a24-a2ba1bcc4a12" \
    --cores "[{\"Id\":\"MyCoreDevice\",\"ThingArn\":\"arn:aws:iot:us-west-2:123456789012:thing/MyCoreDevice\",\"CertificateArn\":\"arn:aws:iot:us-west-2:123456789012:cert/123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz\",\"SyncShadow\":true}]"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/582efe12-b05a-409e-9a24-a2ba1bcc4a12/versions/3fdc1190-2ce5-44de-b98b-eec8f9571014",
    "Version": "3fdc1190-2ce5-44de-b98b-eec8f9571014",
    "CreationTimestamp": "2019-09-18T00:15:09.838Z",
    "Id": "582efe12-b05a-409e-9a24-a2ba1bcc4a12"
}
```
*Untuk informasi selengkapnya, lihat [Mengonfigurasi Inti AWS Greengrass IoT di Panduan Pengembang IoT Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/gg-core.html).AWS *  
+  Untuk detail API, lihat [CreateCoreDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-core-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `create-core-definition`
<a name="greengrass_CreateCoreDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-core-definition`.

**AWS CLI**  
**Contoh 1: Untuk membuat definisi inti kosong**  
`create-core-definition`Contoh berikut membuat definisi inti Greengrass kosong (tidak ada versi awal). Sebelum inti dapat digunakan, Anda harus menggunakan `create-core-definition-version` perintah untuk menyediakan parameter lain untuk inti.  

```
aws greengrass create-core-definition \
    --name cliGroup_Core
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/b5c08008-54cb-44bd-9eec-c121b04283b5",
    "CreationTimestamp": "2019-06-25T18:23:22.106Z",
    "Id": "b5c08008-54cb-44bd-9eec-c121b04283b5",
    "LastUpdatedTimestamp": "2019-06-25T18:23:22.106Z",
    "Name": "cliGroup_Core"
}
```
**Contoh 2: Untuk membuat definisi inti dengan versi awal**  
`create-core-definition`Contoh berikut membuat definisi inti yang berisi versi definisi inti awal. Versi ini hanya dapat berisi satu inti. Sebelum Anda dapat membuat inti, Anda harus terlebih dahulu membuat dan menyediakan hal AWS IoT yang sesuai. Proses ini mencakup `iot` perintah berikut, yang mengembalikan `ThingArn` dan `CertificateArn` diperlukan untuk `create-core-definition` perintah.  
Buat hal AWS IoT yang sesuai dengan perangkat inti:  

```
aws iot create-thing \
    --thing-name "MyCoreDevice"
```
Output:  

```
{
    "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MyCoreDevice",
    "thingName": "MyCoreDevice",
    "thingId": "cb419a19-9099-4515-9cec-e9b0e760608a"
}
```
Buat kunci publik dan pribadi dan sertifikat perangkat inti untuk hal itu. Contoh ini menggunakan `create-keys-and-certificate` perintah dan memerlukan izin menulis ke direktori saat ini. Atau, Anda dapat menggunakan `create-certificate-from-csr` perintah.  

```
aws iot create-keys-and-certificate \
    --set-as-active \
    --certificate-pem-outfile "myCore.cert.pem" \
    --public-key-outfile "myCore.public.key" \
    --private-key-outfile "myCore.private.key"
```
Output:  

```
{
    "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz",
    "certificatePem": "-----BEGIN CERTIFICATE-----\nMIIDWTCAkGgAwIBATgIUCgq6EGqou6zFqWgIZRndgQEFW+gwDQYJKoZIhvc...KdGewQS\n-----END CERTIFICATE-----\n",
    "keyPair": {
        "PublicKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBzrqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAqKpRgnn6yq26U3y...wIDAQAB\n-----END PUBLIC KEY-----\n",
        "PrivateKey": "-----BEGIN RSA PRIVATE KEY-----\nMIIEowIABAKCAQEAqKpRgnn6yq26U3yt5YFZquyukfRjbMXDcNOK4rMCxDR...fvY4+te\n-----END RSA PRIVATE KEY-----\n"
    },
    "certificateId": "123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz"
}
```
Buat kebijakan AWS IoT yang memungkinkan `iot` dan `greengrass` bertindak. Untuk mempermudah, kebijakan berikut memungkinkan tindakan pada semua sumber daya, tetapi kebijakan Anda harus lebih ketat.  

```
aws iot create-policy \
    --policy-name "Core_Devices" \
    --policy-document "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"iot:Publish\",\"iot:Subscribe\",\"iot:Connect\",\"iot:Receive\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"iot:GetThingShadow\",\"iot:UpdateThingShadow\",\"iot:DeleteThingShadow\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"greengrass:*\"],\"Resource\":[\"*\"]}]}"
```
Output:  

```
{
    "policyName": "Core_Devices",
    "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/Core_Devices",
    "policyDocument": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"iot:Publish\",\"iot:Subscribe\",\"iot:Connect\",\"iot:Receive\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"iot:GetThingShadow\",\"iot:UpdateThingShadow\",\"iot:DeleteThingShadow\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"greengrass:*\"],\"Resource\":[\"*\"]}]}",
    "policyVersionId": "1"
}
```
Lampirkan kebijakan ke sertifikat:  

```
aws iot attach-policy \
    --policy-name "Core_Devices" \
    --target "arn:aws:iot:us-west-2:123456789012:cert/123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz"
```
Perintah ini tidak menghasilkan output.  
Lampirkan benda itu ke sertifikat:  

```
aws iot attach-thing-principal \
    --thing-name "MyCoreDevice" \
    --principal "arn:aws:iot:us-west-2:123456789012:cert/123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz"
```
Perintah ini tidak menghasilkan output.  
Buat definisi inti:  

```
aws greengrass create-core-definition \
    --name "MyCores" \
    --initial-version "{\"Cores\":[{\"Id\":\"MyCoreDevice\",\"ThingArn\":\"arn:aws:iot:us-west-2:123456789012:thing/MyCoreDevice\",\"CertificateArn\":\"arn:aws:iot:us-west-2:123456789012:cert/123a15ec415668c2349a76170b64ac0878231c1e21ec83c10e92a1EXAMPLExyz\",\"SyncShadow\":true}]}"
```
Output:  

```
{
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/582efe12-b05a-409e-9a24-a2ba1bcc4a12/versions/cc87b5b3-8f4b-465d-944c-1d6de5dbfcdb",
    "Name": "MyCores",
    "LastUpdatedTimestamp": "2019-09-18T00:11:06.197Z",
    "LatestVersion": "cc87b5b3-8f4b-465d-944c-1d6de5dbfcdb",
    "CreationTimestamp": "2019-09-18T00:11:06.197Z",
    "Id": "582efe12-b05a-409e-9a24-a2ba1bcc4a12",
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/582efe12-b05a-409e-9a24-a2ba1bcc4a12"
}
```
*Untuk informasi selengkapnya, lihat [Mengonfigurasi Inti AWS Greengrass IoT di Panduan Pengembang IoT Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/gg-core.html).AWS *  
+  Untuk detail API, lihat [CreateCoreDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-core-definition.html)di *Referensi AWS CLI Perintah*. 

### `create-deployment`
<a name="greengrass_CreateDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-deployment`.

**AWS CLI**  
**Untuk membuat penerapan untuk versi grup Greengrass**  
`create-deployment`Contoh berikut menyebarkan versi tertentu dari grup Greengrass.  

```
aws greengrass create-deployment \
    --deployment-type NewDeployment \
    --group-id "ce2e7d01-3240-4c24-b8e6-f6f6e7a9eeca" \
    --group-version-id "dc40c1e9-e8c8-4d28-a84d-a9cad5f599c9"
```
Output:  

```
{
    "DeploymentArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/ce2e7d01-3240-4c24-b8e6-f6f6e7a9eeca/deployments/bfceb608-4e97-45bc-af5c-460144270308",
    "DeploymentId": "bfceb608-4e97-45bc-af5c-460144270308"
}
```
Untuk informasi selengkapnya, lihat [Memulai Konektor (CLI)](https://docs.aws.amazon.com/greengrass/latest/developerguide/connectors-cli.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [CreateDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-deployment.html)di *Referensi AWS CLI Perintah*. 

### `create-device-definition-version`
<a name="greengrass_CreateDeviceDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-device-definition-version`.

**AWS CLI**  
**Untuk membuat versi definisi perangkat**  
`create-device-definition-version`Contoh berikut membuat versi definisi perangkat dan mengaitkannya dengan definisi perangkat yang ditentukan. Versi ini mendefinisikan dua perangkat. Sebelum Anda dapat membuat perangkat Greengrass, Anda harus terlebih dahulu membuat dan menyediakan hal IoT yang sesuai. AWS Proses ini mencakup `iot` perintah berikut yang harus Anda jalankan untuk mendapatkan informasi yang diperlukan untuk perintah Greengrass:  
Buat AWS IoT yang sesuai dengan perangkat:  

```
aws iot create-thing \
    --thing-name "InteriorTherm"
```
Output:  

```
{
    "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/InteriorTherm",
    "thingName": "InteriorTherm",
    "thingId": "01d4763c-78a6-46c6-92be-7add080394bf"
}
```
Buat kunci publik dan pribadi dan sertifikat perangkat untuk benda itu. Contoh ini menggunakan `create-keys-and-certificate` perintah dan memerlukan izin menulis ke direktori saat ini. Atau, Anda dapat menggunakan `create-certificate-from-csr` perintah:  

```
aws iot create-keys-and-certificate \
    --set-as-active \
    --certificate-pem-outfile "myDevice.cert.pem" \
    --public-key-outfile "myDevice.public.key" \
    --private-key-outfile "myDevice.private.key"
```
Output:  

```
{
    "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92",
    "certificatePem": "-----BEGIN CERTIFICATE-----\nMIIDWTCAkGgAwIBATgIUCgq6EGqou6zFqWgIZRndgQEFW+gwDQYJKoZIhvc...KdGewQS\n-----END CERTIFICATE-----\n",
    "keyPair": {
        "PublicKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBzrqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAqKpRgnn6yq26U3y...wIDAQAB\n-----END PUBLIC KEY-----\n",
        "PrivateKey": "-----BEGIN RSA PRIVATE KEY-----\nMIIEowIABAKCAQEAqKpRgnn6yq26U3yt5YFZquyukfRjbMXDcNOK4rMCxDR...fvY4+te\n-----END RSA PRIVATE KEY-----\n"
    },
    "certificateId": "66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92"
}
```
Buat kebijakan AWS IoT yang memungkinkan `iot` dan `greengrass` bertindak. Untuk mempermudah, kebijakan berikut memungkinkan tindakan pada semua sumber daya, tetapi kebijakan Anda bisa lebih ketat:  

```
aws iot create-policy \
    --policy-name "GG_Devices" \
    --policy-document "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"iot:Publish\",\"iot:Subscribe\",\"iot:Connect\",\"iot:Receive\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"iot:GetThingShadow\",\"iot:UpdateThingShadow\",\"iot:DeleteThingShadow\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"greengrass:*\"],\"Resource\":[\"*\"]}]}"
```
Output:  

```
{
    "policyName": "GG_Devices",
    "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/GG_Devices",
    "policyDocument": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"iot:Publish\",\"iot:Subscribe\",\"iot:Connect\",\"iot:Receive\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"iot:GetThingShadow\",\"iot:UpdateThingShadow\",\"iot:DeleteThingShadow\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"greengrass:*\"],\"Resource\":[\"*\"]}]}",
    "policyVersionId": "1"
}
```
Lampirkan kebijakan ke sertifikat:  

```
aws iot attach-policy \
    --policy-name "GG_Devices" \
    --target "arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92"
```
Lampirkan benda itu ke sertifikat  

```
aws iot attach-thing-principal \
    --thing-name "InteriorTherm" \
    --principal "arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92"
```
Setelah Anda membuat dan mengkonfigurasi hal IoT seperti yang ditunjukkan di atas, gunakan `ThingArn` dan `CertificateArn` dari dua perintah pertama dalam contoh berikut.  

```
aws greengrass create-device-definition-version \
    --device-definition-id "f9ba083d-5ad4-4534-9f86-026a45df1ccd" \
    --devices "[{\"Id\":\"InteriorTherm\",\"ThingArn\":\"arn:aws:iot:us-west-2:123456789012:thing/InteriorTherm\",\"CertificateArn\":\"arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92\",\"SyncShadow\":true},{\"Id\":\"ExteriorTherm\",\"ThingArn\":\"arn:aws:iot:us-west-2:123456789012:thing/ExteriorTherm\",\"CertificateArn\":\"arn:aws:iot:us-west-2:123456789012:cert/6c52ce1b47bde88a637e9ccdd45fe4e4c2c0a75a6866f8f63d980ee22fa51e02\",\"SyncShadow\":true}]"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd/versions/83c13984-6fed-447e-84d5-5b8aa45d5f71",
    "Version": "83c13984-6fed-447e-84d5-5b8aa45d5f71",
    "CreationTimestamp": "2019-09-11T00:15:09.838Z",
    "Id": "f9ba083d-5ad4-4534-9f86-026a45df1ccd"
}
```
+  Untuk detail API, lihat [CreateDeviceDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-device-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `create-device-definition`
<a name="greengrass_CreateDeviceDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-device-definition`.

**AWS CLI**  
**Untuk membuat definisi perangkat**  
`create-device-definition`Contoh berikut membuat definisi perangkat yang berisi versi definisi perangkat awal. Versi awal mendefinisikan dua perangkat. Sebelum Anda dapat membuat perangkat Greengrass, Anda harus terlebih dahulu membuat dan menyediakan hal IoT yang sesuai. AWS Proses ini mencakup `iot` perintah berikut yang harus Anda jalankan untuk mendapatkan informasi yang diperlukan untuk perintah Greengrass:  
Buat AWS IoT yang sesuai dengan perangkat:  

```
aws iot create-thing \
    --thing-name "InteriorTherm"
```
Output:  

```
{
    "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/InteriorTherm",
    "thingName": "InteriorTherm",
    "thingId": "01d4763c-78a6-46c6-92be-7add080394bf"
}
```
Buat kunci publik dan pribadi dan sertifikat perangkat untuk benda itu. Contoh ini menggunakan `create-keys-and-certificate` perintah dan memerlukan izin menulis ke direktori saat ini. Atau, Anda dapat menggunakan `create-certificate-from-csr` perintah:  

```
aws iot create-keys-and-certificate \
    --set-as-active \
    --certificate-pem-outfile "myDevice.cert.pem" \
    --public-key-outfile "myDevice.public.key" \
    --private-key-outfile "myDevice.private.key"
```
Output:  

```
{
    "certificateArn": "arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92",
    "certificatePem": "-----BEGIN CERTIFICATE-----\nMIIDWTCAkGgAwIBATgIUCgq6EGqou6zFqWgIZRndgQEFW+gwDQYJKoZIhvc...KdGewQS\n-----END CERTIFICATE-----\n",
    "keyPair": {
        "PublicKey": "-----BEGIN PUBLIC KEY-----\nMIIBIjANBzrqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAqKpRgnn6yq26U3y...wIDAQAB\n-----END PUBLIC KEY-----\n",
        "PrivateKey": "-----BEGIN RSA PRIVATE KEY-----\nMIIEowIABAKCAQEAqKpRgnn6yq26U3yt5YFZquyukfRjbMXDcNOK4rMCxDR...fvY4+te\n-----END RSA PRIVATE KEY-----\n"
    },
    "certificateId": "66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92"
}
```
Buat kebijakan AWS IoT yang memungkinkan `iot` dan `greengrass` bertindak. Untuk mempermudah, kebijakan berikut memungkinkan tindakan pada semua sumber daya, tetapi kebijakan Anda bisa lebih ketat:  

```
aws iot create-policy \
    --policy-name "GG_Devices" \
    --policy-document "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"iot:Publish\",\"iot:Subscribe\",\"iot:Connect\",\"iot:Receive\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"iot:GetThingShadow\",\"iot:UpdateThingShadow\",\"iot:DeleteThingShadow\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"greengrass:*\"],\"Resource\":[\"*\"]}]}"
```
Output:  

```
{
    "policyName": "GG_Devices",
    "policyArn": "arn:aws:iot:us-west-2:123456789012:policy/GG_Devices",
    "policyDocument": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"iot:Publish\",\"iot:Subscribe\",\"iot:Connect\",\"iot:Receive\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"iot:GetThingShadow\",\"iot:UpdateThingShadow\",\"iot:DeleteThingShadow\"],\"Resource\":[\"*\"]},{\"Effect\":\"Allow\",\"Action\":[\"greengrass:*\"],\"Resource\":[\"*\"]}]}",
    "policyVersionId": "1"
}
```
Lampirkan kebijakan ke sertifikat:  

```
aws iot attach-policy \
    --policy-name "GG_Devices" \
    --target "arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92"
```
Lampirkan benda itu ke sertifikat  

```
aws iot attach-thing-principal \
    --thing-name "InteriorTherm" \
    --principal "arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92"
```
Setelah Anda membuat dan mengkonfigurasi hal IoT seperti yang ditunjukkan di atas, gunakan `ThingArn` dan `CertificateArn` dari dua perintah pertama dalam contoh berikut.  

```
aws greengrass create-device-definition \
    --name "Sensors" \
    --initial-version "{\"Devices\":[{\"Id\":\"InteriorTherm\",\"ThingArn\":\"arn:aws:iot:us-west-2:123456789012:thing/InteriorTherm\",\"CertificateArn\":\"arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92\",\"SyncShadow\":true},{\"Id\":\"ExteriorTherm\",\"ThingArn\":\"arn:aws:iot:us-west-2:123456789012:thing/ExteriorTherm\",\"CertificateArn\":\"arn:aws:iot:us-west-2:123456789012:cert/6c52ce1b47bde88a637e9ccdd45fe4e4c2c0a75a6866f8f63d980ee22fa51e02\",\"SyncShadow\":true}]}"
```
Output:  

```
{
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd/versions/3b5cc510-58c1-44b5-9d98-4ad858ffa795",
    "Name": "Sensors",
    "LastUpdatedTimestamp": "2019-09-11T00:11:06.197Z",
    "LatestVersion": "3b5cc510-58c1-44b5-9d98-4ad858ffa795",
    "CreationTimestamp": "2019-09-11T00:11:06.197Z",
    "Id": "f9ba083d-5ad4-4534-9f86-026a45df1ccd",
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd"
}
```
+  Untuk detail API, lihat [CreateDeviceDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-device-definition.html)di *Referensi AWS CLI Perintah*. 

### `create-function-definition-version`
<a name="greengrass_CreateFunctionDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-function-definition-version`.

**AWS CLI**  
**Untuk membuat versi definisi fungsi**  
`create-function-definition-version`Contoh berikut membuat versi baru dari definisi fungsi yang ditentukan. Versi ini menentukan fungsi tunggal yang IDnya`Hello-World-function`, memungkinkan akses ke sistem file, dan menentukan ukuran memori maksimum dan periode batas waktu.  

```
aws greengrass create-function-definition-version \
    --cli-input-json "{\"FunctionDefinitionId\": \"e626e8c9-3b8f-4bf3-9cdc-d26ecdeb9fa3\",\"Functions\": [{\"Id\": \"Hello-World-function\", \"FunctionArn\": \""arn:aws:lambda:us-west-2:123456789012:function:Greengrass_HelloWorld_Counter:gghw-alias"\",\"FunctionConfiguration\": {\"Environment\": {\"AccessSysfs\": true},\"Executable\": \"greengrassHelloWorldCounter.function_handler\",\"MemorySize\": 16000,\"Pinned\": false,\"Timeout\": 25}}]}"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/e626e8c9-3b8f-4bf3-9cdc-d26ecdeb9fa3/versions/74abd1cc-637e-4abe-8684-9a67890f4043",
    "CreationTimestamp": "2019-06-25T22:03:43.376Z",
    "Id": "e626e8c9-3b8f-4bf3-9cdc-d26ecdeb9fa3",
    "Version": "74abd1cc-637e-4abe-8684-9a67890f4043"
}
```
+  Untuk detail API, lihat [CreateFunctionDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-function-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `create-function-definition`
<a name="greengrass_CreateFunctionDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-function-definition`.

**AWS CLI**  
**Untuk membuat definisi fungsi Lambda**  
`create-function-definition`Contoh berikut membuat definisi fungsi Lambda dan versi awal dengan menyediakan daftar fungsi Lambda (dalam hal ini, daftar hanya satu fungsi bernama`TempMonitorFunction`) dan konfigurasinya. Sebelum Anda dapat membuat definisi fungsi, Anda memerlukan fungsi Lambda ARN. Untuk membuat fungsi dan aliasnya, gunakan Lambda `create-function` dan `publish-version` perintah. `create-function`Perintah Lambda memerlukan ARN dari peran eksekusi, meskipun Greengrass AWS IoT tidak menggunakan peran itu karena izin ditentukan dalam peran grup Greengrass. Anda dapat menggunakan `create-role` perintah IAM untuk membuat peran kosong agar ARN dapat digunakan dengan Lambda atau Anda dapat menggunakan peran eksekusi yang `create-function` ada.  

```
aws greengrass create-function-definition \
    --name MyGreengrassFunctions \
    --initial-version "{\"Functions\": [{\"Id\": \"TempMonitorFunction\", \"FunctionArn\": \"arn:aws:lambda:us-west-2:123456789012:function:TempMonitor:GG_TempMonitor\", \"FunctionConfiguration\": {\"Executable\": \"temp_monitor.function_handler\", \"MemorySize\": 16000,\"Timeout\": 5}}]}"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/3b0d0080-87e7-48c6-b182-503ec743a08b",
    "CreationTimestamp": "2019-06-19T22:24:44.585Z",
    "Id": "3b0d0080-87e7-48c6-b182-503ec743a08b",
    "LastUpdatedTimestamp": "2019-06-19T22:24:44.585Z",
    "LatestVersion": "67f918b9-efb4-40b0-b87c-de8c9faf085b",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/3b0d0080-87e7-48c6-b182-503ec743a08b/versions/67f918b9-efb4-40b0-b87c-de8c9faf085b",
    "Name": "MyGreengrassFunctions"
}
```
Untuk informasi selengkapnya, lihat [Cara Mengkonfigurasi Akses Sumber Daya Lokal Menggunakan Antarmuka Baris AWS Perintah](https://docs.aws.amazon.com/greengrass/latest/developerguide/lra-cli.html) di Panduan Pengembang *AWS Greengrass IoT*.  
+  Untuk detail API, lihat [CreateFunctionDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-function-definition.html)di *Referensi AWS CLI Perintah*. 

### `create-group-certificate-authority`
<a name="greengrass_CreateGroupCertificateAuthority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group-certificate-authority`.

**AWS CLI**  
**Untuk membuat otoritas sertifikat (CA) untuk grup**  
`create-group-certificate-authority`Contoh berikut membuat atau memutar CA untuk grup tertentu.  

```
aws greengrass create-group-certificate-authority \
    --group-id "8eaadd72-ce4b-4f15-892a-0cc4f3a343f1"
```
Output:  

```
{
    "GroupCertificateAuthorityArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/8eaadd72-ce4b-4f15-892a-0cc4f3a343f1/certificateauthorities/d31630d674c4437f6c5dbc0dca56312a902171ce2d086c38e509c8EXAMPLEcc5"
}
```
*Untuk informasi selengkapnya, lihat [Keamanan AWS Greengrass IoT di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/gg-sec.html) IoT.AWS *  
+  Untuk detail API, lihat [CreateGroupCertificateAuthority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-group-certificate-authority.html)di *Referensi AWS CLI Perintah*. 

### `create-group-version`
<a name="greengrass_CreateGroupVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group-version`.

**AWS CLI**  
**Untuk membuat versi grup Greengrass**  
`create-group-version`Contoh berikut membuat versi grup dan mengaitkannya dengan grup yang ditentukan. Versi ini mereferensikan versi inti, sumber daya, konektor, fungsi, dan langganan yang berisi entitas untuk disertakan dalam versi grup ini. Anda harus membuat entitas ini sebelum Anda dapat membuat versi grup.  
Untuk membuat definisi sumber daya dengan versi awal, gunakan `create-resource-definition` perintah.Untuk membuat definisi konektor dengan versi awal, gunakan `create-connector-definition` perintah.Untuk membuat definisi fungsi dengan versi awal, gunakan `create-function-definition` perintah.Untuk membuat definisi langganan dengan versi awal, gunakan perintah.Untuk `create-subscription-definition` mengambil ARN dari versi definisi inti terbaru, gunakan perintah dan tentukan ID versi grup terbaru. `get-group-version`  

```
aws greengrass create-group-version \
    --group-id "ce2e7d01-3240-4c24-b8e6-f6f6e7a9eeca" \
    --core-definition-version-arn "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/6a630442-8708-4838-ad36-eb98849d975e/versions/6c87151b-1fb4-4cb2-8b31-6ee715d8f8ba" \
    --resource-definition-version-arn "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/c8bb9ebc-c3fd-40a4-9c6a-568d75569d38/versions/a5f94d0b-f6bc-40f4-bb78-7a1c5fe13ba1" \
    --connector-definition-version-arn "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/55d0052b-0d7d-44d6-b56f-21867215e118/versions/78a3331b-895d-489b-8823-17b4f9f418a0" \
    --function-definition-version-arn "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/3b0d0080-87e7-48c6-b182-503ec743a08b/versions/67f918b9-efb4-40b0-b87c-de8c9faf085b" \
    --subscription-definition-version-arn "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/9d611d57-5d5d-44bd-a3b4-feccbdd69112/versions/aa645c47-ac90-420d-9091-8c7ffa4f103f"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/ce2e7d01-3240-4c24-b8e6-f6f6e7a9eeca/versions/e10b0459-4345-4a09-88a4-1af1f5d34638",
    "CreationTimestamp": "2019-06-20T18:42:47.020Z",
    "Id": "ce2e7d01-3240-4c24-b8e6-f6f6e7a9eeca",
    "Version": "e10b0459-4345-4a09-88a4-1af1f5d34638"
}
```
*Untuk informasi selengkapnya, lihat [AWS Ikhtisar Model Objek Grup Greengrass di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/deployments.html#api-overview) IoT.AWS *  
+  Untuk detail API, lihat [CreateGroupVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-group-version.html)di *Referensi AWS CLI Perintah*. 

### `create-group`
<a name="greengrass_CreateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group`.

**AWS CLI**  
**Untuk membuat grup Greeengrass**  
`create-group`Contoh berikut membuat grup bernama`cli-created-group`.  

```
aws greengrass create-group \
    --name cli-created-group
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/4e22bd92-898c-436b-ade5-434d883ff749",
    "CreationTimestamp": "2019-06-25T18:07:17.688Z",
    "Id": "4e22bd92-898c-436b-ade5-434d883ff749",
    "LastUpdatedTimestamp": "2019-06-25T18:07:17.688Z",
    "Name": "cli-created-group"
}
```
*Untuk informasi selengkapnya, lihat [AWS Ikhtisar Model Objek Grup Greengrass di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/deployments.html#api-overview) IoT.AWS *  
+  Untuk detail API, lihat [CreateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-group.html)di *Referensi AWS CLI Perintah*. 

### `create-logger-definition-version`
<a name="greengrass_CreateLoggerDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-logger-definition-version`.

**AWS CLI**  
**Untuk membuat versi definisi logger**  
`create-logger-definition-version`Contoh berikut membuat versi definisi logger dan mengaitkannya dengan definisi logger. Versi ini mendefinisikan empat konfigurasi logging: 1) log komponen sistem pada sistem file perangkat inti, 2) log fungsi Lambda yang ditentukan pengguna pada sistem file perangkat inti, 3) log komponen sistem di Amazon Logs, dan 4) log fungsi Lambda yang ditentukan pengguna di CloudWatch Amazon Logs. CloudWatch Catatan: Untuk integrasi CloudWatch Log, peran grup Anda harus memberikan izin yang sesuai.  

```
aws greengrass create-logger-definition-version \
    --logger-definition-id "a454b62a-5d56-4ca9-bdc4-8254e1662cb0" \
    --loggers "[{\"Id\":\"1\",\"Component\":\"GreengrassSystem\",\"Level\":\"ERROR\",\"Space\":10240,\"Type\":\"FileSystem\"},{\"Id\":\"2\",\"Component\":\"Lambda\",\"Level\":\"INFO\",\"Space\":10240,\"Type\":\"FileSystem\"},{\"Id\":\"3\",\"Component\":\"GreengrassSystem\",\"Level\":\"WARN\",\"Type\":\"AWSCloudWatch\"},{\"Id\":\"4\",\"Component\":\"Lambda\",\"Level\":\"INFO\",\"Type\":\"AWSCloudWatch\"}]"
```
Output:  

```
{
 "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/a454b62a-5d56-4ca9-bdc4-8254e1662cb0/versions/49aedb1e-01a3-4d39-9871-3a052573f1ea",
 "Version": "49aedb1e-01a3-4d39-9871-3a052573f1ea",
 "CreationTimestamp": "2019-07-24T00:04:48.523Z",
 "Id": "a454b62a-5d56-4ca9-bdc4-8254e1662cb0"
}
```
*Untuk informasi selengkapnya, lihat [Pemantauan dengan Log AWS Greengrass IoT di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/greengrass-logs-overview.html) IoT.AWS *  
+  Untuk detail API, lihat [CreateLoggerDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-logger-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `create-logger-definition`
<a name="greengrass_CreateLoggerDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-logger-definition`.

**AWS CLI**  
**Untuk membuat definisi logger**  
`create-logger-definition`Contoh berikut membuat definisi logger yang berisi versi definisi logger awal. Versi awal mendefinisikan tiga konfigurasi logging: 1) log komponen sistem pada sistem file perangkat inti, 2) log fungsi Lambda yang ditentukan pengguna pada sistem file perangkat inti, dan 3) log fungsi Lambda yang ditentukan pengguna di Amazon Logs. CloudWatch Catatan: Untuk integrasi CloudWatch Log, peran grup Anda harus memberikan izin yang sesuai.  

```
aws greengrass create-logger-definition \
    --name "LoggingConfigs" \
    --initial-version "{\"Loggers\":[{\"Id\":\"1\",\"Component\":\"GreengrassSystem\",\"Level\":\"ERROR\",\"Space\":10240,\"Type\":\"FileSystem\"},{\"Id\":\"2\",\"Component\":\"Lambda\",\"Level\":\"INFO\",\"Space\":10240,\"Type\":\"FileSystem\"},{\"Id\":\"3\",\"Component\":\"Lambda\",\"Level\":\"INFO\",\"Type\":\"AWSCloudWatch\"}]}"
```
Output:  

```
{
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/a454b62a-5d56-4ca9-bdc4-8254e1662cb0/versions/de1d9854-1588-4525-b25e-b378f60f2322",
    "Name": "LoggingConfigs",
    "LastUpdatedTimestamp": "2019-07-23T23:52:17.165Z",
    "LatestVersion": "de1d9854-1588-4525-b25e-b378f60f2322",
    "CreationTimestamp": "2019-07-23T23:52:17.165Z",
    "Id": "a454b62a-5d56-4ca9-bdc4-8254e1662cb0",
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/a454b62a-5d56-4ca9-bdc4-8254e1662cb0"
}
```
*Untuk informasi selengkapnya, lihat [Pemantauan dengan Log AWS Greengrass IoT di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/greengrass-logs-overview.html) IoT.AWS *  
+  Untuk detail API, lihat [CreateLoggerDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-logger-definition.html)di *Referensi AWS CLI Perintah*. 

### `create-resource-definition-version`
<a name="greengrass_CreateResourceDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource-definition-version`.

**AWS CLI**  
**Untuk membuat versi definisi sumber daya**  
`create-resource-definition-version`Contoh berikut membuat versi baru dari file TwilioAuthToken.  

```
aws greengrass create-resource-definition-version \
    --resource-definition-id "c8bb9ebc-c3fd-40a4-9c6a-568d75569d38" \
    --resources "[{\"Id\": \"TwilioAuthToken\",\"Name\": \"MyTwilioAuthToken\",\"ResourceDataContainer\": {\"SecretsManagerSecretResourceData\": {\"ARN\": \"arn:aws:secretsmanager:us-west-2:123456789012:secret:greengrass-TwilioAuthToken-ntSlp6\"}}}]"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/c8bb9ebc-c3fd-40a4-9c6a-568d75569d38/versions/b3bcada0-5fb6-42df-bf0b-1ee4f15e769e",
    "CreationTimestamp": "2019-06-24T21:17:25.623Z",
    "Id": "c8bb9ebc-c3fd-40a4-9c6a-568d75569d38",
    "Version": "b3bcada0-5fb6-42df-bf0b-1ee4f15e769e"
}
```
+  Untuk detail API, lihat [CreateResourceDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-resource-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `create-resource-definition`
<a name="greengrass_CreateResourceDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource-definition`.

**AWS CLI**  
**Untuk membuat definisi sumber daya**  
`create-resource-definition`Contoh berikut membuat definisi sumber daya yang berisi daftar sumber daya yang akan digunakan dalam grup Greengrass. Dalam contoh ini, versi awal definisi sumber daya disertakan dengan menyediakan daftar sumber daya. Daftar ini mencakup satu sumber daya untuk token otorisasi Twilio dan ARN untuk rahasia yang disimpan di Secrets Manager. AWS Anda harus membuat rahasia sebelum Anda dapat membuat definisi sumber daya.  

```
aws greengrass create-resource-definition \
    --name MyGreengrassResources \
    --initial-version "{\"Resources\": [{\"Id\": \"TwilioAuthToken\",\"Name\": \"MyTwilioAuthToken\",\"ResourceDataContainer\": {\"SecretsManagerSecretResourceData\": {\"ARN\": \"arn:aws:secretsmanager:us-west-2:123456789012:secret:greengrass-TwilioAuthToken-ntSlp6\"}}}]}"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/c8bb9ebc-c3fd-40a4-9c6a-568d75569d38",
    "CreationTimestamp": "2019-06-19T21:51:28.212Z",
    "Id": "c8bb9ebc-c3fd-40a4-9c6a-568d75569d38",
    "LastUpdatedTimestamp": "2019-06-19T21:51:28.212Z",
    "LatestVersion": "a5f94d0b-f6bc-40f4-bb78-7a1c5fe13ba1",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/c8bb9ebc-c3fd-40a4-9c6a-568d75569d38/versions/a5f94d0b-f6bc-40f4-bb78-7a1c5fe13ba1",
    "Name": "MyGreengrassResources"
}
```
Untuk informasi selengkapnya, lihat [Cara Mengkonfigurasi Akses Sumber Daya Lokal Menggunakan Antarmuka Baris AWS Perintah](https://docs.aws.amazon.com/greengrass/latest/developerguide/lra-cli.html) di Panduan Pengembang *AWS Greengrass IoT*.  
+  Untuk detail API, lihat [CreateResourceDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-resource-definition.html)di *Referensi AWS CLI Perintah*. 

### `create-software-update-job`
<a name="greengrass_CreateSoftwareUpdateJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-software-update-job`.

**AWS CLI**  
**Untuk membuat pekerjaan pembaruan perangkat lunak untuk inti**  
`create-software-update-job`Contoh berikut membuat pekerjaan pembaruan over-the-air (OTA) untuk memperbarui perangkat lunak AWS IoT Greengrass Core pada inti yang namanya. `MyFirstGroup_Core` Perintah ini memerlukan peran IAM yang memungkinkan akses ke paket pembaruan perangkat lunak di Amazon S3 dan `iot.amazonaws.com` termasuk sebagai entitas tepercaya.  

```
aws greengrass create-software-update-job \
    --update-targets-architecture armv7l \
    --update-targets [\"arn:aws:iot:us-west-2:123456789012:thing/MyFirstGroup_Core\"] \
    --update-targets-operating-system raspbian \
    --software-to-update core \
    --s3-url-signer-role arn:aws:iam::123456789012:role/OTA_signer_role \
    --update-agent-log-level WARN
```
Output:  

```
{
    "IotJobId": "GreengrassUpdateJob_30b353e3-3af7-4786-be25-4c446663c09e",
    "IotJobArn": "arn:aws:iot:us-west-2:123456789012:job/GreengrassUpdateJob_30b353e3-3af7-4786-be25-4c446663c09e",
    "PlatformSoftwareVersion": "1.9.3"
}
```
*Untuk informasi lebih lanjut, lihat [Pembaruan OTA Perangkat Lunak Inti AWS Greengrass IoT di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/core-ota-update.html) IoT.AWS *  
+  Untuk detail API, lihat [CreateSoftwareUpdateJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-software-update-job.html)di *Referensi AWS CLI Perintah*. 

### `create-subscription-definition-version`
<a name="greengrass_CreateSubscriptionDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subscription-definition-version`.

**AWS CLI**  
**Untuk membuat versi baru dari definisi langganan**  
`create-subscription-definition-version`Contoh berikut membuat versi baru dari definisi langganan yang berisi tiga langganan: pemberitahuan pemicu, input suhu, dan status keluaran.  

```
aws greengrass create-subscription-definition-version \
    --subscription-definition-id "9d611d57-5d5d-44bd-a3b4-feccbdd69112" \
    --subscriptions "[{\"Id\": \"TriggerNotification\", \"Source\": \"arn:aws:lambda:us-west-2:123456789012:function:TempMonitor:GG_TempMonitor\", \"Subject\": \"twilio/txt\", \"Target\": \"arn:aws:greengrass:us-west-2::/connectors/TwilioNotifications/versions/1\"},{\"Id\": \"TemperatureInput\", \"Source\": \"cloud\", \"Subject\": \"temperature/input\", \"Target\": \"arn:aws:lambda:us-west-2:123456789012:function:TempMonitor:GG_TempMonitor\"},{\"Id\": \"OutputStatus\", \"Source\": \"arn:aws:greengrass:us-west-2::/connectors/TwilioNotifications/versions/1\", \"Subject\": \"twilio/message/status\", \"Target\": \"cloud\"}]"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/9d611d57-5d5d-44bd-a3b4-feccbdd69112/versions/7b65dfae-50b6-4d0f-b3e0-27728bfb0620",
    "CreationTimestamp": "2019-06-24T21:21:33.837Z",
    "Id": "9d611d57-5d5d-44bd-a3b4-feccbdd69112",
    "Version": "7b65dfae-50b6-4d0f-b3e0-27728bfb0620"
}
```
+  Untuk detail API, lihat [CreateSubscriptionDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-subscription-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `create-subscription-definition`
<a name="greengrass_CreateSubscriptionDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subscription-definition`.

**AWS CLI**  
**Untuk membuat definisi langganan**  
`create-subscription-definition`Contoh berikut membuat definisi langganan dan menentukan versi awalnya. Versi awal berisi tiga langganan: satu untuk topik MQTT tempat konektor berlangganan, satu untuk memungkinkan fungsi menerima pembacaan suhu dari IoT AWS , dan satu lagi untuk memungkinkan AWS IoT menerima informasi status dari konektor. Contoh ini menyediakan ARN untuk alias fungsi Lambda yang dibuat sebelumnya dengan menggunakan perintah Lambda. `create-alias`  

```
aws greengrass create-subscription-definition \
    --initial-version "{\"Subscriptions\": [{\"Id\": \"TriggerNotification\", \"Source\": \"arn:aws:lambda:us-west-2:123456789012:function:TempMonitor:GG_TempMonitor\", \"Subject\": \"twilio/txt\", \"Target\": \"arn:aws:greengrass:us-west-2::/connectors/TwilioNotifications/versions/1\"},{\"Id\": \"TemperatureInput\", \"Source\": \"cloud\", \"Subject\": \"temperature/input\", \"Target\": \"arn:aws:lambda:us-west-2:123456789012:function:TempMonitor:GG_TempMonitor\"},{\"Id\": \"OutputStatus\", \"Source\": \"arn:aws:greengrass:us-west-2::/connectors/TwilioNotifications/versions/1\", \"Subject\": \"twilio/message/status\", \"Target\": \"cloud\"}]}"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/9d611d57-5d5d-44bd-a3b4-feccbdd69112",
    "CreationTimestamp": "2019-06-19T22:34:26.677Z",
    "Id": "9d611d57-5d5d-44bd-a3b4-feccbdd69112",
    "LastUpdatedTimestamp": "2019-06-19T22:34:26.677Z",
    "LatestVersion": "aa645c47-ac90-420d-9091-8c7ffa4f103f",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/9d611d57-5d5d-44bd-a3b4-feccbdd69112/versions/aa645c47-ac90-420d-9091-8c7ffa4f103f"
}
```
Untuk informasi selengkapnya, lihat [Memulai Konektor (CLI)](https://docs.aws.amazon.com/greengrass/latest/developerguide/connectors-cli.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [CreateSubscriptionDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/create-subscription-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-connector-definition`
<a name="greengrass_DeleteConnectorDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-connector-definition`.

**AWS CLI**  
**Untuk menghapus definisi konektor**  
`delete-connector-definition`Contoh berikut menghapus definisi konektor Greengrass yang ditentukan. Jika Anda menghapus definisi konektor yang digunakan oleh grup, grup tersebut tidak dapat berhasil diterapkan.  

```
aws greengrass delete-connector-definition \
    --connector-definition-id "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteConnectorDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/delete-connector-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-core-definition`
<a name="greengrass_DeleteCoreDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-core-definition`.

**AWS CLI**  
**Untuk menghapus definisi inti**  
`delete-core-definition`Contoh berikut menghapus definisi inti Greengrass yang ditentukan, termasuk semua versi. Jika Anda menghapus inti yang terkait dengan grup Greengrass, grup tersebut tidak dapat digunakan dengan sukses.  

```
aws greengrass delete-core-definition \
    --core-definition-id "ff36cc5f-9f98-4994-b468-9d9b6dc52abd"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteCoreDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/delete-core-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-device-definition`
<a name="greengrass_DeleteDeviceDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-device-definition`.

**AWS CLI**  
**Untuk menghapus definisi perangkat**  
`delete-device-definition`Contoh berikut menghapus definisi perangkat yang ditentukan, termasuk semua versinya. Jika Anda menghapus versi definisi perangkat yang digunakan oleh versi grup, versi grup tidak dapat berhasil digunakan.  

```
aws greengrass delete-device-definition \
    --device-definition-id "f9ba083d-5ad4-4534-9f86-026a45df1ccd"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteDeviceDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/delete-device-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-function-definition`
<a name="greengrass_DeleteFunctionDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-function-definition`.

**AWS CLI**  
**Untuk menghapus definisi fungsi**  
`delete-function-definition`Contoh berikut menghapus definisi fungsi Greengrass yang ditentukan. Jika Anda menghapus definisi fungsi yang digunakan oleh grup, grup tersebut tidak dapat berhasil diterapkan.  

```
aws greengrass delete-function-definition \
    --function-definition-id "fd4b906a-dff3-4c1b-96eb-52ebfcfac06a"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteFunctionDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/delete-function-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-group`
<a name="greengrass_DeleteGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group`.

**AWS CLI**  
**Untuk menghapus grup**  
`delete-group`Contoh berikut menghapus grup Greengrass yang ditentukan.  

```
aws greengrass delete-group \
    --group-id "4e22bd92-898c-436b-ade5-434d883ff749"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/delete-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-logger-definition`
<a name="greengrass_DeleteLoggerDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-logger-definition`.

**AWS CLI**  
**Untuk menghapus definisi logger**  
`delete-logger-definition`Contoh berikut menghapus definisi logger yang ditentukan, termasuk semua versi definisi logger. Jika Anda menghapus versi definisi logger yang digunakan oleh versi grup, versi grup tidak dapat berhasil digunakan.  

```
aws greengrass delete-logger-definition \
    --logger-definition-id "a454b62a-5d56-4ca9-bdc4-8254e1662cb0"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Pemantauan dengan Log AWS Greengrass IoT di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/greengrass-logs-overview.html) IoT.AWS *  
+  Untuk detail API, lihat [DeleteLoggerDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/delete-logger-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-definition`
<a name="greengrass_DeleteResourceDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-definition`.

**AWS CLI**  
**Untuk menghapus definisi sumber daya**  
`delete-resource-definition`Contoh berikut menghapus definisi sumber daya yang ditentukan, termasuk semua versi sumber daya. Jika Anda menghapus definisi sumber daya yang digunakan oleh grup, grup tersebut tidak dapat berhasil diterapkan.  

```
aws greengrass delete-resource-definition \
    --resource-definition-id "ad8c101d-8109-4b0e-b97d-9cc5802ab658"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteResourceDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/delete-resource-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-subscription-definition`
<a name="greengrass_DeleteSubscriptionDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-subscription-definition`.

**AWS CLI**  
**Untuk menghapus definisi langganan**  
`delete-subscription-definition`Contoh berikut menghapus definisi langganan Greengrass yang ditentukan. Jika Anda menghapus langganan yang digunakan oleh grup, grup tersebut tidak dapat berhasil diterapkan.  

```
aws greengrass delete-subscription-definition \
    --subscription-definition-id "cd6f1c37-d9a4-4e90-be94-01a7404f5967"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteSubscriptionDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/delete-subscription-definition.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-role-from-group`
<a name="greengrass_DisassociateRoleFromGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-role-from-group`.

**AWS CLI**  
**Untuk memisahkan peran dari kelompok Greengrass**  
`disassociate-role-from-group`Contoh berikut memisahkan peran IAM dari grup Greengrass yang ditentukan.  

```
aws greengrass disassociate-role-from-group \
    --group-id 2494ee3f-7f8a-4e92-a78b-d205f808b84b
```
Output:  

```
{
    "DisassociatedAt": "2019-09-10T20:05:49Z"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Peran Grup](https://docs.aws.amazon.com/greengrass/latest/developerguide/config-iam-roles.html) di Panduan Pengembang *AWS Greengrass IoT*.  
+  Untuk detail API, lihat [DisassociateRoleFromGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/disassociate-role-from-group.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-service-role-from-account`
<a name="greengrass_DisassociateServiceRoleFromAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-service-role-from-account`.

**AWS CLI**  
**Untuk memisahkan peran layanan dari akun Anda AWS **  
`disassociate-service-role-from-account`Contoh berikut menghapus peran layanan yang terkait dengan AWS akun Anda. Jika Anda tidak menggunakan peran layanan di AWS Wilayah mana pun, gunakan `delete-role-policy` perintah untuk melepaskan kebijakan `AWSGreengrassResourceAccessRolePolicy` terkelola dari peran, lalu gunakan `delete-role` perintah untuk menghapus peran tersebut.  

```
aws greengrass disassociate-service-role-from-account
```
Output:  

```
{
    "DisassociatedAt": "2019-06-25T22:12:55Z"
}
```
**Untuk informasi selengkapnya, lihat Peran [Layanan Greengrass di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/service-role.html) IoT AWS .**  
+  Untuk detail API, lihat [DisassociateServiceRoleFromAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/disassociate-service-role-from-account.html)di *Referensi AWS CLI Perintah*. 

### `get-associated-role`
<a name="greengrass_GetAssociatedRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-associated-role`.

**AWS CLI**  
**Untuk mendapatkan peran yang terkait dengan kelompok Greengrass**  
`get-associated-role`Contoh berikut mendapatkan peran IAM yang terkait dengan grup Greengrass yang ditentukan. Peran grup digunakan oleh fungsi dan konektor Lambda lokal untuk mengakses AWS layanan.  

```
aws greengrass get-associated-role \
    --group-id 2494ee3f-7f8a-4e92-a78b-d205f808b84b
```
Output:  

```
{
    "RoleArn": "arn:aws:iam::123456789012:role/GG-Group-Role",
    "AssociatedAt": "2019-09-10T20:03:30Z"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Peran Grup](https://docs.aws.amazon.com/greengrass/latest/developerguide/config-iam-roles.html) di Panduan Pengembang *AWS Greengrass IoT*.  
+  Untuk detail API, lihat [GetAssociatedRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-associated-role.html)di *Referensi AWS CLI Perintah*. 

### `get-bulk-deployment-status`
<a name="greengrass_GetBulkDeploymentStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bulk-deployment-status`.

**AWS CLI**  
**Untuk memeriksa status penyebaran massal Anda**  
`get-bulk-deployment-status`Contoh berikut mengambil informasi status untuk operasi penyebaran massal yang ditentukan. Dalam contoh ini, file yang menentukan grup yang akan digunakan memiliki catatan input yang tidak valid.  

```
aws greengrass get-bulk-deployment-status \
    --bulk-deployment-id "870fb41b-6288-4e0c-bc76-a7ba4b4d3267"
```
Output:  

```
{
    "BulkDeploymentMetrics": {
        "InvalidInputRecords": 1,
        "RecordsProcessed": 1,
        "RetryAttempts": 0
    },
    "BulkDeploymentStatus": "Completed",
    "CreatedAt": "2019-06-25T16:11:33.265Z",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Membuat Penerapan Massal untuk Grup](https://docs.aws.amazon.com/greengrass/latest/developerguide/bulk-deploy-cli.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [GetBulkDeploymentStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-bulk-deployment-status.html)di *Referensi AWS CLI Perintah*. 

### `get-connectivity-info`
<a name="greengrass_GetConnectivityInfo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connectivity-info`.

**AWS CLI**  
**Untuk mendapatkan informasi konektivitas untuk inti Greengrass**  
`get-connectivity-info`Contoh berikut menampilkan titik akhir yang dapat digunakan perangkat untuk terhubung ke inti Greengrass yang ditentukan. Informasi konektivitas adalah daftar alamat IP atau nama domain, dengan nomor port yang sesuai dan metadata yang ditentukan pelanggan opsional.  

```
aws greengrass get-connectivity-info \
    --thing-name "MyGroup_Core"
```
Output:  

```
{
    "ConnectivityInfo": [
        {
            "Metadata": "",
            "PortNumber": 8883,
            "HostAddress": "127.0.0.1",
            "Id": "AUTOIP_127.0.0.1_0"
        },
        {
            "Metadata": "",
            "PortNumber": 8883,
            "HostAddress": "192.168.1.3",
            "Id": "AUTOIP_192.168.1.3_1"
        },
        {
            "Metadata": "",
            "PortNumber": 8883,
            "HostAddress": "::1",
            "Id": "AUTOIP_::1_2"
        },
        {
            "Metadata": "",
            "PortNumber": 8883,
            "HostAddress": "fe80::1e69:ed93:f5b:f6d",
            "Id": "AUTOIP_fe80::1e69:ed93:f5b:f6d_3"
        }
    ]
}
```
+  Untuk detail API, lihat [GetConnectivityInfo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-connectivity-info.html)di *Referensi AWS CLI Perintah*. 

### `get-connector-definition-version`
<a name="greengrass_GetConnectorDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connector-definition-version`.

**AWS CLI**  
**Untuk mengambil informasi tentang versi tertentu dari definisi konektor**  
`get-connector-definition-version`Contoh berikut mengambil informasi tentang versi tertentu dari definisi konektor yang ditentukan. Untuk mengambil semua IDs versi definisi konektor, gunakan `list-connector-definition-versions` perintah. Untuk mengambil ID dari versi terakhir yang ditambahkan ke definisi konektor, gunakan `get-connector-definition` perintah dan periksa `LatestVersion` properti.  

```
aws greengrass get-connector-definition-version \
    --connector-definition-id "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8" \
    --connector-definition-version-id "63c57963-c7c2-4a26-a7e2-7bf478ea2623"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/b5c4ebfd-f672-49a3-83cd-31c7216a7bb8/versions/63c57963-c7c2-4a26-a7e2-7bf478ea2623",
    "CreationTimestamp": "2019-06-19T19:30:01.300Z",
    "Definition": {
        "Connectors": [
            {
                "ConnectorArn": "arn:aws:greengrass:us-west-2::/connectors/SNS/versions/1",
                "Id": "MySNSConnector",
                "Parameters": {
                    "DefaultSNSArn": "arn:aws:sns:us-west-2:123456789012:GGConnectorTopic"
                }
            }
        ]
    },
    "Id": "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8",
    "Version": "63c57963-c7c2-4a26-a7e2-7bf478ea2623"
}
```
**Untuk informasi selengkapnya, lihat [Mengintegrasikan dengan Layanan dan Protokol Menggunakan Konektor Greengrass di Panduan Pengembang Greengrass IoT](https://docs.aws.amazon.com/greengrass/latest/developerguide/connectors.html).AWS **  
+  Untuk detail API, lihat [GetConnectorDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-connector-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `get-connector-definition`
<a name="greengrass_GetConnectorDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connector-definition`.

**AWS CLI**  
**Untuk mengambil informasi tentang definisi konektor**  
`get-connector-definition`Contoh berikut mengambil informasi tentang definisi konektor yang ditentukan. Untuk mengambil definisi konektor Anda, gunakan `list-connector-definitions` perintah. IDs   

```
aws greengrass get-connector-definition \
    --connector-definition-id "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/b5c4ebfd-f672-49a3-83cd-31c7216a7bb8",
    "CreationTimestamp": "2019-06-19T19:30:01.300Z",
    "Id": "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8",
    "LastUpdatedTimestamp": "2019-06-19T19:30:01.300Z",
    "LatestVersion": "63c57963-c7c2-4a26-a7e2-7bf478ea2623",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/b5c4ebfd-f672-49a3-83cd-31c7216a7bb8/versions/63c57963-c7c2-4a26-a7e2-7bf478ea2623",
    "Name": "MySNSConnector",
    "tags": {}
}
```
**Untuk informasi selengkapnya, lihat [Mengintegrasikan dengan Layanan dan Protokol Menggunakan Konektor Greengrass di Panduan Pengembang Greengrass IoT](https://docs.aws.amazon.com/greengrass/latest/developerguide/connectors.html).AWS **  
+  Untuk detail API, lihat [GetConnectorDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-connector-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-core-definition-version`
<a name="greengrass_GetCoreDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-core-definition-version`.

**AWS CLI**  
**Untuk mengambil detail tentang versi tertentu dari definisi inti Greengrass**  
`get-core-definition-version`Contoh berikut mengambil informasi tentang versi tertentu dari definisi inti yang ditentukan. Untuk mengambil semua IDs versi definisi inti, gunakan `list-core-definition-versions` perintah. Untuk mengambil ID dari versi terakhir yang ditambahkan ke definisi inti, gunakan `get-core-definition` perintah dan periksa `LatestVersion` properti.  

```
aws greengrass get-core-definition-version \
    --core-definition-id "c906ed39-a1e3-4822-a981-7b9bd57b4b46"  \
    --core-definition-version-id "42aeeac3-fd9d-4312-a8fd-ffa9404a20e0"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/c906ed39-a1e3-4822-a981-7b9bd57b4b46/versions/42aeeac3-fd9d-4312-a8fd-ffa9404a20e0",
    "CreationTimestamp": "2019-06-18T16:21:21.351Z",
    "Definition": {
        "Cores": [
            {
                "CertificateArn": "arn:aws:iot:us-west-2:123456789012:cert/928dea7b82331b47c3ff77b0e763fc5e64e2f7c884e6ef391baed9b6b8e21b45",
                "Id": "1a39aac7-0885-4417-91f6-23e4cea6c511",
                "SyncShadow": false,
                "ThingArn": "arn:aws:iot:us-west-2:123456789012:thing/GGGroup4Pi3_Core"
            }
        ]
    },
    "Id": "c906ed39-a1e3-4822-a981-7b9bd57b4b46",
    "Version": "42aeeac3-fd9d-4312-a8fd-ffa9404a20e0"
}
```
+  Untuk detail API, lihat [GetCoreDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-core-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `get-core-definition`
<a name="greengrass_GetCoreDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-core-definition`.

**AWS CLI**  
**Untuk mengambil detail untuk definisi inti Greengrass**  
`get-core-definition`Contoh berikut mengambil informasi tentang definisi inti yang ditentukan. Untuk mengambil definisi inti Anda, gunakan `list-core-definitions` perintah. IDs   

```
aws greengrass get-core-definition \
    --core-definition-id "c906ed39-a1e3-4822-a981-7b9bd57b4b46"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/237d6916-27cf-457f-ba0c-e86cfb5d25cd",
    "CreationTimestamp": "2018-10-18T04:47:06.721Z",
    "Id": "237d6916-27cf-457f-ba0c-e86cfb5d25cd",
    "LastUpdatedTimestamp": "2018-10-18T04:47:06.721Z",
    "LatestVersion": "bd2cd6d4-2bc5-468a-8962-39e071e34b68",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/237d6916-27cf-457f-ba0c-e86cfb5d25cd/versions/bd2cd6d4-2bc5-468a-8962-39e071e34b68",
    "tags": {}
}
```
+  Untuk detail API, lihat [GetCoreDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-core-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment-status`
<a name="greengrass_GetDeploymentStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment-status`.

**AWS CLI**  
**Untuk mengambil status penerapan**  
`get-deployment-status`Contoh berikut mengambil status untuk penyebaran tertentu dari grup Greengrass yang ditentukan. Untuk mendapatkan ID penyebaran, gunakan `list-deployments` perintah dan tentukan ID grup.  

```
aws greengrass get-deployment-status \
    --group-id "1013db12-8b58-45ff-acc7-704248f66731" \
    --deployment-id "1065b8a0-812b-4f21-9d5d-e89b232a530f"
```
Output:  

```
{
    "DeploymentStatus": "Success",
    "DeploymentType": "NewDeployment",
    "UpdatedAt": "2019-06-18T17:04:44.761Z"
}
```
+  Untuk detail API, lihat [GetDeploymentStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-deployment-status.html)di *Referensi AWS CLI Perintah*. 

### `get-device-definition-version`
<a name="greengrass_GetDeviceDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-device-definition-version`.

**AWS CLI**  
**Untuk mendapatkan versi definisi perangkat**  
`get-device-definition-version`Contoh berikut mengambil informasi tentang versi tertentu dari definisi perangkat yang ditentukan. Untuk mengambil semua IDs versi definisi perangkat, gunakan `list-device-definition-versions` perintah. Untuk mengambil ID versi terakhir yang ditambahkan ke definisi perangkat, gunakan `get-device-definition` perintah dan periksa `LatestVersion` properti.  

```
aws greengrass get-device-definition-version \
    --device-definition-id "f9ba083d-5ad4-4534-9f86-026a45df1ccd" \
    --device-definition-version-id "83c13984-6fed-447e-84d5-5b8aa45d5f71"
```
Output:  

```
{
    "Definition": {
        "Devices": [
            {
                "CertificateArn": "arn:aws:iot:us-west-2:123456789012:cert/6c52ce1b47bde88a637e9ccdd45fe4e4c2c0a75a6866f8f63d980ee22fa51e02",
                "ThingArn": "arn:aws:iot:us-west-2:123456789012:thing/ExteriorTherm",
                "SyncShadow": true,
                "Id": "ExteriorTherm"
            },
            {
                "CertificateArn": "arn:aws:iot:us-west-2:123456789012:cert/66a415ec415668c2349a76170b64ac0878231c1e21ec83c10e92a18bd568eb92",
                "ThingArn": "arn:aws:iot:us-west-2:123456789012:thing/InteriorTherm",
                "SyncShadow": true,
                "Id": "InteriorTherm"
            }
        ]
    },
    "Version": "83c13984-6fed-447e-84d5-5b8aa45d5f71",
    "CreationTimestamp": "2019-09-11T00:15:09.838Z",
    "Id": "f9ba083d-5ad4-4534-9f86-026a45df1ccd",
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd/versions/83c13984-6fed-447e-84d5-5b8aa45d5f71"
}
```
+  Untuk detail API, lihat [GetDeviceDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-device-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `get-device-definition`
<a name="greengrass_GetDeviceDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-device-definition`.

**AWS CLI**  
**Untuk mendapatkan definisi perangkat**  
`get-device-definition`Contoh berikut mengambil informasi tentang definisi perangkat yang ditentukan. Untuk mengambil definisi perangkat Anda, gunakan `list-device-definitions` perintah. IDs   

```
aws greengrass get-device-definition \
    --device-definition-id "f9ba083d-5ad4-4534-9f86-026a45df1ccd"
```
Output:  

```
{
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd/versions/83c13984-6fed-447e-84d5-5b8aa45d5f71",
    "Name": "TemperatureSensors",
    "tags": {},
    "LastUpdatedTimestamp": "2019-09-11T00:19:03.698Z",
    "LatestVersion": "83c13984-6fed-447e-84d5-5b8aa45d5f71",
    "CreationTimestamp": "2019-09-11T00:11:06.197Z",
    "Id": "f9ba083d-5ad4-4534-9f86-026a45df1ccd",
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd"
}
```
+  Untuk detail API, lihat [GetDeviceDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-device-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-function-definition-version`
<a name="greengrass_GetFunctionDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-function-definition-version`.

**AWS CLI**  
**Untuk mengambil detail tentang versi tertentu dari fungsi Lambda**  
Berikut ini `get-function-definition-version` mengambil informasi tentang versi tertentu dari definisi fungsi yang ditentukan. Untuk mengambil semua IDs versi definisi fungsi, gunakan `list-function-definition-versions` perintah. Untuk mengambil ID dari versi terakhir yang ditambahkan ke definisi fungsi, gunakan `get-function-definition` perintah dan periksa `LatestVersion` properti.  

```
aws greengrass get-function-definition-version \
    --function-definition-id "063f5d1a-1dd1-40b4-9b51-56f8993d0f85" \
    --function-definition-version-id "9748fda7-1589-4fcc-ac94-f5559e88678b"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85/versions/9748fda7-1589-4fcc-ac94-f5559e88678b",
    "CreationTimestamp": "2019-06-18T17:04:30.776Z",
    "Definition": {
        "Functions": [
            {
                "FunctionArn": "arn:aws:lambda:::function:GGIPDetector:1",
                "FunctionConfiguration": {
                    "Environment": {},
                    "MemorySize": 32768,
                    "Pinned": true,
                    "Timeout": 3
                },
                "Id": "26b69bdb-e547-46bc-9812-84ec04b6cc8c"
            },
            {
                "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:Greengrass_HelloWorld:GG_HelloWorld",
                "FunctionConfiguration": {
                    "EncodingType": "json",
                    "Environment": {
                        "Variables": {}
                    },
                    "MemorySize": 16384,
                    "Pinned": true,
                    "Timeout": 25
                },
                "Id": "384465a8-eedf-48c6-b793-4c35f7bfae9b"
            }
        ]
    },
    "Id": "063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
    "Version": "9748fda7-1589-4fcc-ac94-f5559e88678b"
}
```
+  Untuk detail API, lihat [GetFunctionDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-function-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `get-function-definition`
<a name="greengrass_GetFunctionDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-function-definition`.

**AWS CLI**  
**Untuk mengambil definisi fungsi**  
`get-function-definition`Contoh berikut menampilkan rincian untuk definisi fungsi yang ditentukan. Untuk mengambil definisi fungsi Anda, gunakan `list-function-definitions` perintah. IDs   

```
aws greengrass get-function-definition \
    --function-definition-id "063f5d1a-1dd1-40b4-9b51-56f8993d0f85"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
    "CreationTimestamp": "2019-06-18T16:21:21.431Z",
    "Id": "063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
    "LastUpdatedTimestamp": "2019-06-18T16:21:21.431Z",
    "LatestVersion": "9748fda7-1589-4fcc-ac94-f5559e88678b",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85/versions/9748fda7-1589-4fcc-ac94-f5559e88678b",
    "tags": {}
}
```
+  Untuk detail API, lihat [GetFunctionDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-function-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-group-certificate-authority`
<a name="greengrass_GetGroupCertificateAuthority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group-certificate-authority`.

**AWS CLI**  
**Untuk mengambil CA yang terkait dengan kelompok Greengrass**  
`get-group-certificate-authority`Contoh berikut mengambil otoritas sertifikat (CA) yang terkait dengan grup Greengrass yang ditentukan. Untuk mendapatkan ID otoritas sertifikat, gunakan `list-group-certificate-authorities` perintah dan tentukan ID grup.  

```
aws greengrass get-group-certificate-authority \
    --group-id "1013db12-8b58-45ff-acc7-704248f66731" \
    --certificate-authority-id "f0430e1736ea8ed30cc5d5de9af67a7e3586bad9ae4d89c2a44163f65fdd8cf6"
```
Output:  

```
{
    "GroupCertificateAuthorityArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/certificateauthorities/f0430e1736ea8ed30cc5d5de9af67a7e3586bad9ae4d89c2a44163f65fdd8cf6",
    "GroupCertificateAuthorityId": "f0430e1736ea8ed30cc5d5de9af67a7e3586bad9ae4d89c2a44163f65fdd8cf6",
    "PemEncodedCertificate": "-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----\n"
}
```
+  Untuk detail API, lihat [GetGroupCertificateAuthority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-group-certificate-authority.html)di *Referensi AWS CLI Perintah*. 

### `get-group-certificate-configuration`
<a name="greengrass_GetGroupCertificateConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group-certificate-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi untuk otoritas sertifikat yang digunakan oleh grup Greengrass**  
`get-group-certificate-configuration`Contoh berikut mengambil konfigurasi untuk otoritas sertifikat (CA) yang digunakan oleh kelompok Greengrass tertentu.  

```
aws greengrass get-group-certificate-configuration \
    --group-id "1013db12-8b58-45ff-acc7-704248f66731"
```
Output:  

```
{
    "CertificateAuthorityExpiryInMilliseconds": 2524607999000,
    "CertificateExpiryInMilliseconds": 604800000,
    "GroupId": "1013db12-8b58-45ff-acc7-704248f66731"
}
```
+  Untuk detail API, lihat [GetGroupCertificateConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-group-certificate-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-group-version`
<a name="greengrass_GetGroupVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group-version`.

**AWS CLI**  
**Untuk mengambil informasi tentang versi grup Greengrass**  
`get-group-version`Contoh berikut mengambil informasi tentang versi tertentu dari grup yang ditentukan. Untuk mengambil semua IDs versi grup, gunakan `list-group-versions` perintah. Untuk mengambil ID dari versi terakhir yang ditambahkan ke grup, gunakan `get-group` perintah dan periksa `LatestVersion` properti.  

```
aws greengrass get-group-version \
    --group-id "1013db12-8b58-45ff-acc7-704248f66731"  \
    --group-version-id "115136b3-cfd7-4462-b77f-8741a4b00e5e"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/115136b3-cfd7-4462-b77f-8741a4b00e5e",
    "CreationTimestamp": "2019-06-18T17:04:30.915Z",
    "Definition": {
        "CoreDefinitionVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/c906ed39-a1e3-4822-a981-7b9bd57b4b46/versions/42aeeac3-fd9d-4312-a8fd-ffa9404a20e0",
        "FunctionDefinitionVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85/versions/9748fda7-1589-4fcc-ac94-f5559e88678b",
        "SubscriptionDefinitionVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/70e49321-83d5-45d2-bc09-81f4917ae152/versions/88ae8699-12ac-4663-ba3f-4d7f0519140b"
    },
    "Id": "1013db12-8b58-45ff-acc7-704248f66731",
    "Version": "115136b3-cfd7-4462-b77f-8741a4b00e5e"
}
```
+  Untuk detail API, lihat [GetGroupVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-group-version.html)di *Referensi AWS CLI Perintah*. 

### `get-group`
<a name="greengrass_GetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group`.

**AWS CLI**  
**Untuk mengambil informasi tentang kelompok Greengrass**  
`get-group`Contoh berikut mengambil informasi tentang kelompok Greengrass yang ditentukan. Untuk mengambil grup Anda, gunakan `list-groups` perintah. IDs   

```
aws greengrass get-group \
    --group-id "1013db12-8b58-45ff-acc7-704248f66731"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731",
    "CreationTimestamp": "2019-06-18T16:21:21.457Z",
    "Id": "1013db12-8b58-45ff-acc7-704248f66731",
    "LastUpdatedTimestamp": "2019-06-18T16:21:21.457Z",
    "LatestVersion": "115136b3-cfd7-4462-b77f-8741a4b00e5e",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/115136b3-cfd7-4462-b77f-8741a4b00e5e",
    "Name": "GGGroup4Pi3",
    "tags": {}
}
```
+  Untuk detail API, lihat [GetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-group.html)di *Referensi AWS CLI Perintah*. 

### `get-logger-definition-version`
<a name="greengrass_GetLoggerDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-logger-definition-version`.

**AWS CLI**  
**Untuk mengambil informasi tentang versi definisi logger**  
`get-logger-definition-version`Contoh berikut mengambil informasi tentang versi tertentu dari definisi logger yang ditentukan. Untuk mengambil semua IDs versi definisi logger, gunakan perintah. `list-logger-definition-versions` Untuk mengambil ID dari versi terakhir yang ditambahkan ke definisi logger, gunakan `get-logger-definition` perintah dan periksa properti. `LatestVersion`  

```
aws greengrass get-logger-definition-version \
    --logger-definition-id "49eeeb66-f1d3-4e34-86e3-3617262abf23" \
    --logger-definition-version-id "5e3f6f64-a565-491e-8de0-3c0d8e0f2073"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/49eeeb66-f1d3-4e34-86e3-3617262abf23/versions/5e3f6f64-a565-491e-8de0-3c0d8e0f2073",
    "CreationTimestamp": "2019-05-08T16:10:13.866Z",
    "Definition": {
        "Loggers": []
    },
    "Id": "49eeeb66-f1d3-4e34-86e3-3617262abf23",
    "Version": "5e3f6f64-a565-491e-8de0-3c0d8e0f2073"
}
```
+  Untuk detail API, lihat [GetLoggerDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-logger-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `get-logger-definition`
<a name="greengrass_GetLoggerDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-logger-definition`.

**AWS CLI**  
**Untuk mengambil informasi tentang definisi logger**  
`get-logger-definition`Contoh berikut mengambil informasi tentang definisi logger yang ditentukan. Untuk mengambil definisi logger Anda, gunakan perintah. IDs `list-logger-definitions`  

```
aws greengrass get-logger-definition \
    --logger-definition-id "49eeeb66-f1d3-4e34-86e3-3617262abf23"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/49eeeb66-f1d3-4e34-86e3-3617262abf23",
    "CreationTimestamp": "2019-05-08T16:10:13.809Z",
    "Id": "49eeeb66-f1d3-4e34-86e3-3617262abf23",
    "LastUpdatedTimestamp": "2019-05-08T16:10:13.809Z",
    "LatestVersion": "5e3f6f64-a565-491e-8de0-3c0d8e0f2073",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/49eeeb66-f1d3-4e34-86e3-3617262abf23/versions/5e3f6f64-a565-491e-8de0-3c0d8e0f2073",
    "tags": {}
}
```
+  Untuk detail API, lihat [GetLoggerDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-logger-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-definition-version`
<a name="greengrass_GetResourceDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-definition-version`.

**AWS CLI**  
**Untuk mengambil informasi tentang versi tertentu dari definisi sumber daya**  
`get-resource-definition-version`Contoh berikut mengambil informasi tentang versi tertentu dari definisi sumber daya yang ditentukan. Untuk mengambil semua IDs versi definisi sumber daya, gunakan `list-resource-definition-versions` perintah. Untuk mengambil ID versi terakhir yang ditambahkan ke definisi sumber daya, gunakan `get-resource-definition` perintah dan periksa `LatestVersion` properti.  

```
aws greengrass get-resource-definition-version \
    --resource-definition-id "ad8c101d-8109-4b0e-b97d-9cc5802ab658" \
    --resource-definition-version-id "26e8829a-491a-464d-9c87-664bf6f6f2be"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658/versions/26e8829a-491a-464d-9c87-664bf6f6f2be",
    "CreationTimestamp": "2019-06-19T16:40:59.392Z",
    "Definition": {
        "Resources": [
            {
                "Id": "26ff3f7b-839a-4217-9fdc-a218308b3963",
                "Name": "usb-port",
                "ResourceDataContainer": {
                    "LocalDeviceResourceData": {
                        "GroupOwnerSetting": {
                            "AutoAddGroupOwner": false
                        },
                        "SourcePath": "/dev/bus/usb"
                    }
                }
            }
        ]
    },
    "Id": "ad8c101d-8109-4b0e-b97d-9cc5802ab658",
    "Version": "26e8829a-491a-464d-9c87-664bf6f6f2be"
}
```
+  Untuk detail API, lihat [GetResourceDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-resource-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-definition`
<a name="greengrass_GetResourceDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-definition`.

**AWS CLI**  
**Untuk mengambil informasi tentang definisi sumber daya**  
`get-resource-definition`Contoh berikut mengambil informasi tentang definisi sumber daya yang ditentukan. Untuk mengambil definisi sumber daya Anda, gunakan `list-resource-definitions` perintah. IDs   

```
aws greengrass get-resource-definition \
    --resource-definition-id "ad8c101d-8109-4b0e-b97d-9cc5802ab658"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658",
    "CreationTimestamp": "2019-06-19T16:40:59.261Z",
    "Id": "ad8c101d-8109-4b0e-b97d-9cc5802ab658",
    "LastUpdatedTimestamp": "2019-06-19T16:40:59.261Z",
    "LatestVersion": "26e8829a-491a-464d-9c87-664bf6f6f2be",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658/versions/26e8829a-491a-464d-9c87-664bf6f6f2be",
    "tags": {}
}
```
+  Untuk detail API, lihat [GetResourceDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-resource-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-service-role-for-account`
<a name="greengrass_GetServiceRoleForAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-role-for-account`.

**AWS CLI**  
**Untuk mengambil detail untuk peran layanan yang dilampirkan ke akun Anda**  
`get-service-role-for-account`Contoh berikut mengambil informasi tentang peran layanan yang dilampirkan ke AWS akun Anda.  

```
aws greengrass get-service-role-for-account
```
Output:  

```
{
    "AssociatedAt": "2018-10-18T15:59:20Z",
    "RoleArn": "arn:aws:iam::123456789012:role/service-role/Greengrass_ServiceRole"
}
```
**Untuk informasi selengkapnya, lihat Peran [Layanan Greengrass di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/service-role.html) IoT AWS .**  
+  Untuk detail API, lihat [GetServiceRoleForAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-service-role-for-account.html)di *Referensi AWS CLI Perintah*. 

### `get-subscription-definition-version`
<a name="greengrass_GetSubscriptionDefinitionVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-subscription-definition-version`.

**AWS CLI**  
**Untuk mengambil informasi tentang versi tertentu dari definisi langganan**  
`get-subscription-definition-version`Contoh berikut mengambil informasi tentang versi tertentu dari definisi langganan yang ditentukan. Untuk mengambil semua IDs versi definisi langganan, gunakan `list-subscription-definition-versions` perintah. Untuk mengambil ID dari versi terakhir yang ditambahkan ke definisi langganan, gunakan `get-subscription-definition` perintah dan periksa `LatestVersion` properti.  

```
aws greengrass get-subscription-definition-version \
    --subscription-definition-id "70e49321-83d5-45d2-bc09-81f4917ae152" \
    --subscription-definition-version-id "88ae8699-12ac-4663-ba3f-4d7f0519140b"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/70e49321-83d5-45d2-bc09-81f4917ae152/versions/88ae8699-12ac-4663-ba3f-4d7f0519140b",
    "CreationTimestamp": "2019-06-18T17:03:52.499Z",
    "Definition": {
        "Subscriptions": [
            {
                "Id": "692c4484-d89f-4f64-8edd-1a041a65e5b6",
                "Source": "arn:aws:lambda:us-west-2:123456789012:function:Greengrass_HelloWorld:GG_HelloWorld",
                "Subject": "hello/world",
                "Target": "cloud"
            }
        ]
    },
    "Id": "70e49321-83d5-45d2-bc09-81f4917ae152",
    "Version": "88ae8699-12ac-4663-ba3f-4d7f0519140b"
}
```
+  Untuk detail API, lihat [GetSubscriptionDefinitionVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-subscription-definition-version.html)di *Referensi AWS CLI Perintah*. 

### `get-subscription-definition`
<a name="greengrass_GetSubscriptionDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-subscription-definition`.

**AWS CLI**  
**Untuk mengambil informasi tentang definisi langganan**  
`get-subscription-definition`Contoh berikut mengambil informasi tentang definisi langganan yang ditentukan. Untuk mengambil definisi langganan Anda, gunakan `list-subscription-definitions` perintah. IDs   

```
aws greengrass get-subscription-definition \
    --subscription-definition-id "70e49321-83d5-45d2-bc09-81f4917ae152"
```
Output:  

```
{
    "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/70e49321-83d5-45d2-bc09-81f4917ae152",
    "CreationTimestamp": "2019-06-18T17:03:52.392Z",
    "Id": "70e49321-83d5-45d2-bc09-81f4917ae152",
    "LastUpdatedTimestamp": "2019-06-18T17:03:52.392Z",
    "LatestVersion": "88ae8699-12ac-4663-ba3f-4d7f0519140b",
    "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/70e49321-83d5-45d2-bc09-81f4917ae152/versions/88ae8699-12ac-4663-ba3f-4d7f0519140b",
    "tags": {}
}
```
+  Untuk detail API, lihat [GetSubscriptionDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-subscription-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-thing-runtime-configuration`
<a name="greengrass_GetThingRuntimeConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-thing-runtime-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi runtime dari inti Greengrass**  
`get-thing-runtime-configuration`Contoh berikut mengambil konfigurasi runtime dari inti Greengrass. Sebelum Anda dapat mengambil konfigurasi runtime, Anda harus menggunakan `update-thing-runtime-configuration` perintah untuk membuat konfigurasi runtime untuk inti.  

```
aws greengrass get-thing-runtime-configuration \
    --thing-name SampleGreengrassCore
```
Output:  

```
{
    "RuntimeConfiguration": {
        "TelemetryConfiguration": {
            "ConfigurationSyncStatus": "OutOfSync",
            "Telemetry": "On"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi setelan telemetri di Panduan Pengembang](https://docs.aws.amazon.com/greengrass/latest/developerguide/telemetry.html#configure-telemetry-settings) Greengrass *AWS IoT*.  
+  Untuk detail API, lihat [GetThingRuntimeConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/get-thing-runtime-configuration.html)di *Referensi AWS CLI Perintah*. 

### `list-bulk-deployment-detailed-reports`
<a name="greengrass_ListBulkDeploymentDetailedReports_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bulk-deployment-detailed-reports`.

**AWS CLI**  
**Untuk mencantumkan informasi tentang penerapan individual dalam penyebaran massal**  
`list-bulk-deployment-detailed-reports`Contoh berikut menampilkan informasi tentang penyebaran individu dalam operasi penyebaran massal, termasuk status.  

```
aws greengrass list-bulk-deployment-detailed-reports \
    --bulk-deployment-id 42ce9c42-489b-4ed4-b905-8996aa50ef9d
```
Output:  

```
{
    "Deployments": [
        {
            "DeploymentType": "NewDeployment",
            "DeploymentStatus": "Success",
            "DeploymentId": "123456789012:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "DeploymentArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/a1b2c3d4-5678-90ab-cdef-EXAMPLE33333/deployments/123456789012:123456789012:a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "GroupArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/a1b2c3d4-5678-90ab-cdef-EXAMPLE33333/versions/123456789012:a1b2c3d4-5678-90ab-cdef-EXAMPLE44444",
            "CreatedAt": "2020-01-21T21:34:16.501Z"
        },
        {
            "DeploymentType": "NewDeployment",
            "DeploymentStatus": "InProgress",
            "DeploymentId": "123456789012:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "DeploymentArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/a1b2c3d4-5678-90ab-cdef-EXAMPLE55555/deployments/123456789012:123456789012:a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "GroupArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/a1b2c3d4-5678-90ab-cdef-EXAMPLE55555/versions/a1b2c3d4-5678-90ab-cdef-EXAMPLE66666",
            "CreatedAt": "2020-01-21T21:34:16.486Z"
        },
        ...
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Penerapan Massal untuk Grup](https://docs.aws.amazon.com/greengrass/latest/developerguide/bulk-deploy-cli.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [ListBulkDeploymentDetailedReports](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-bulk-deployment-detailed-reports.html)di *Referensi AWS CLI Perintah*. 

### `list-bulk-deployments`
<a name="greengrass_ListBulkDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bulk-deployments`.

**AWS CLI**  
**Untuk membuat daftar penyebaran massal**  
`list-bulk-deployments`Contoh berikut mencantumkan semua penyebaran massal.  

```
aws greengrass list-bulk-deployments
```
Output:  

```
{
    "BulkDeployments": [
        {
            "BulkDeploymentArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/bulk/deployments/870fb41b-6288-4e0c-bc76-a7ba4b4d3267",
            "BulkDeploymentId": "870fb41b-6288-4e0c-bc76-a7ba4b4d3267",
            "CreatedAt": "2019-06-25T16:11:33.265Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Penerapan Massal untuk Grup](https://docs.aws.amazon.com/greengrass/latest/developerguide/bulk-deploy-cli.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [ListBulkDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-bulk-deployments.html)di *Referensi AWS CLI Perintah*. 

### `list-connector-definition-versions`
<a name="greengrass_ListConnectorDefinitionVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-connector-definition-versions`.

**AWS CLI**  
**Untuk membuat daftar versi yang tersedia untuk definisi konektor**  
`list-connector-definition-versions`Contoh berikut mencantumkan versi yang tersedia untuk definisi konektor yang ditentukan. Gunakan `list-connector-definitions` perintah untuk mendapatkan ID definisi konektor.  

```
aws greengrass list-connector-definition-versions \
    --connector-definition-id "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8"
```
Output:  

```
{
    "Versions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/b5c4ebfd-f672-49a3-83cd-31c7216a7bb8/versions/63c57963-c7c2-4a26-a7e2-7bf478ea2623",
            "CreationTimestamp": "2019-06-19T19:30:01.300Z",
            "Id": "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8",
            "Version": "63c57963-c7c2-4a26-a7e2-7bf478ea2623"
        }
    ]
}
```
**Untuk informasi selengkapnya, lihat [Mengintegrasikan dengan Layanan dan Protokol Menggunakan Konektor Greengrass di Panduan Pengembang Greengrass IoT](https://docs.aws.amazon.com/greengrass/latest/developerguide/connectors.html).AWS **  
+  Untuk detail API, lihat [ListConnectorDefinitionVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-connector-definition-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-connector-definitions`
<a name="greengrass_ListConnectorDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-connector-definitions`.

**AWS CLI**  
**Untuk membuat daftar konektor Greengrass yang didefinisikan**  
`list-connector-definitions`Contoh berikut mencantumkan semua konektor Greengrass yang ditentukan untuk akun Anda. AWS   

```
aws greengrass list-connector-definitions
```
Output:  

```
{
    "Definitions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/b5c4ebfd-f672-49a3-83cd-31c7216a7bb8",
            "CreationTimestamp": "2019-06-19T19:30:01.300Z",
            "Id": "b5c4ebfd-f672-49a3-83cd-31c7216a7bb8",
            "LastUpdatedTimestamp": "2019-06-19T19:30:01.300Z",
            "LatestVersion": "63c57963-c7c2-4a26-a7e2-7bf478ea2623",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/connectors/b5c4ebfd-f672-49a3-83cd-31c7216a7bb8/versions/63c57963-c7c2-4a26-a7e2-7bf478ea2623",
            "Name": "MySNSConnector"
        }
    ]
}
```
**Untuk informasi selengkapnya, lihat [Mengintegrasikan dengan Layanan dan Protokol Menggunakan Konektor Greengrass di Panduan Pengembang Greengrass IoT](https://docs.aws.amazon.com/greengrass/latest/developerguide/connectors.html).AWS **  
+  Untuk detail API, lihat [ListConnectorDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-connector-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-core-definition-versions`
<a name="greengrass_ListCoreDefinitionVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-core-definition-versions`.

**AWS CLI**  
**Untuk membuat daftar versi definisi inti Greengrass**  
`list-core-definitions`Contoh berikut mencantumkan semua versi definisi inti Greengrass yang ditentukan. Anda dapat menggunakan `list-core-definitions` perintah untuk mendapatkan ID versi.  

```
aws greengrass list-core-definition-versions \
    --core-definition-id "eaf280cb-138c-4d15-af36-6f681a1348f7"
```
Output:  

```
{
    "Versions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/eaf280cb-138c-4d15-af36-6f681a1348f7/versions/467c36e4-c5da-440c-a97b-084e62593b4c",
            "CreationTimestamp": "2019-06-18T16:14:17.709Z",
            "Id": "eaf280cb-138c-4d15-af36-6f681a1348f7",
            "Version": "467c36e4-c5da-440c-a97b-084e62593b4c"
        }
    ]
}
```
+  Untuk detail API, lihat [ListCoreDefinitionVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-core-definition-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-core-definitions`
<a name="greengrass_ListCoreDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-core-definitions`.

**AWS CLI**  
**Untuk membuat daftar definisi Greengrass core**  
`list-core-definitions`Contoh berikut mencantumkan semua definisi inti Greengrass untuk akun Anda. AWS   

```
aws greengrass list-core-definitions
```
Output:  

```
{
    "Definitions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/0507843c-c1ef-4f06-b051-817030df7e7d",
            "CreationTimestamp": "2018-10-17T04:30:32.786Z",
            "Id": "0507843c-c1ef-4f06-b051-817030df7e7d",
            "LastUpdatedTimestamp": "2018-10-17T04:30:32.786Z",
            "LatestVersion": "bcdf9e86-3793-491e-93af-3cdfbf4e22b7",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/0507843c-c1ef-4f06-b051-817030df7e7d/versions/bcdf9e86-3793-491e-93af-3cdfbf4e22b7"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/31c22500-3509-4271-bafd-cf0655cda438",
            "CreationTimestamp": "2019-06-18T16:24:16.064Z",
            "Id": "31c22500-3509-4271-bafd-cf0655cda438",
            "LastUpdatedTimestamp": "2019-06-18T16:24:16.064Z",
            "LatestVersion": "2f350395-6d09-4c8a-8336-9ae5b57ace84",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/31c22500-3509-4271-bafd-cf0655cda438/versions/2f350395-6d09-4c8a-8336-9ae5b57ace84"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/c906ed39-a1e3-4822-a981-7b9bd57b4b46",
            "CreationTimestamp": "2019-06-18T16:21:21.351Z",
            "Id": "c906ed39-a1e3-4822-a981-7b9bd57b4b46",
            "LastUpdatedTimestamp": "2019-06-18T16:21:21.351Z",
            "LatestVersion": "42aeeac3-fd9d-4312-a8fd-ffa9404a20e0",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/c906ed39-a1e3-4822-a981-7b9bd57b4b46/versions/42aeeac3-fd9d-4312-a8fd-ffa9404a20e0"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/eaf280cb-138c-4d15-af36-6f681a1348f7",
            "CreationTimestamp": "2019-06-18T16:14:17.709Z",
            "Id": "eaf280cb-138c-4d15-af36-6f681a1348f7",
            "LastUpdatedTimestamp": "2019-06-18T16:14:17.709Z",
            "LatestVersion": "467c36e4-c5da-440c-a97b-084e62593b4c",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/cores/eaf280cb-138c-4d15-af36-6f681a1348f7/versions/467c36e4-c5da-440c-a97b-084e62593b4c"
        }
    ]
}
```
+  Untuk detail API, lihat [ListCoreDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-core-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-deployments`
<a name="greengrass_ListDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployments`.

**AWS CLI**  
**Untuk membuat daftar penerapan untuk grup Greengrass**  
`list-deployments`Contoh berikut mencantumkan penerapan untuk grup Greengrass yang ditentukan. Anda dapat menggunakan `list-groups` perintah untuk mencari ID grup Anda.  

```
aws greengrass list-deployments \
    --group-id "1013db12-8b58-45ff-acc7-704248f66731"
```
Output:  

```
{
    "Deployments": [
        {
            "CreatedAt": "2019-06-18T17:04:32.702Z",
            "DeploymentId": "1065b8a0-812b-4f21-9d5d-e89b232a530f",
            "DeploymentType": "NewDeployment",
            "GroupArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/115136b3-cfd7-4462-b77f-8741a4b00e5e"
        }
    ]
}
```
+  Untuk detail API, lihat [ListDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-deployments.html)di *Referensi AWS CLI Perintah*. 

### `list-device-definition-versions`
<a name="greengrass_ListDeviceDefinitionVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-device-definition-versions`.

**AWS CLI**  
**Untuk mencantumkan versi definisi perangkat**  
`list-device-definition-versions`Contoh berikut menampilkan versi definisi perangkat yang terkait dengan definisi perangkat yang ditentukan.  

```
aws greengrass list-device-definition-versions \
    --device-definition-id "f9ba083d-5ad4-4534-9f86-026a45df1ccd"
```
Output:  

```
{
    "Versions": [
        {
            "Version": "83c13984-6fed-447e-84d5-5b8aa45d5f71",
            "CreationTimestamp": "2019-09-11T00:15:09.838Z",
            "Id": "f9ba083d-5ad4-4534-9f86-026a45df1ccd",
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd/versions/83c13984-6fed-447e-84d5-5b8aa45d5f71"
        },
        {
            "Version": "3b5cc510-58c1-44b5-9d98-4ad858ffa795",
            "CreationTimestamp": "2019-09-11T00:11:06.197Z",
            "Id": "f9ba083d-5ad4-4534-9f86-026a45df1ccd",
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd/versions/3b5cc510-58c1-44b5-9d98-4ad858ffa795"
        }
    ]
}
```
+  Untuk detail API, lihat [ListDeviceDefinitionVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-device-definition-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-device-definitions`
<a name="greengrass_ListDeviceDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-device-definitions`.

**AWS CLI**  
**Untuk membuat daftar definisi perangkat**  
`list-device-definitions`Contoh berikut menampilkan detail tentang definisi perangkat di AWS akun Anda di AWS Wilayah yang ditentukan.  

```
aws greengrass list-device-definitions \
    --region us-west-2
```
Output:  

```
{
    "Definitions": [
        {
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/50f3274c-3f0a-4f57-b114-6f46085281ab/versions/c777b0f5-1059-449b-beaa-f003ebc56c34",
            "LastUpdatedTimestamp": "2019-06-14T15:42:09.059Z",
            "LatestVersion": "c777b0f5-1059-449b-beaa-f003ebc56c34",
            "CreationTimestamp": "2019-06-14T15:42:09.059Z",
            "Id": "50f3274c-3f0a-4f57-b114-6f46085281ab",
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/50f3274c-3f0a-4f57-b114-6f46085281ab"
        },
        {
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/e01951c9-6134-479a-969a-1a15cac11c40/versions/514d57aa-4ee6-401c-9fac-938a9f7a51e5",
            "Name": "TestDeviceDefinition",
            "LastUpdatedTimestamp": "2019-04-16T23:17:43.245Z",
            "LatestVersion": "514d57aa-4ee6-401c-9fac-938a9f7a51e5",
            "CreationTimestamp": "2019-04-16T23:17:43.245Z",
            "Id": "e01951c9-6134-479a-969a-1a15cac11c40",
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/e01951c9-6134-479a-969a-1a15cac11c40"
        },
        {
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd/versions/83c13984-6fed-447e-84d5-5b8aa45d5f71",
            "Name": "TemperatureSensors",
            "LastUpdatedTimestamp": "2019-09-10T00:19:03.698Z",
            "LatestVersion": "83c13984-6fed-447e-84d5-5b8aa45d5f71",
            "CreationTimestamp": "2019-09-11T00:11:06.197Z",
            "Id": "f9ba083d-5ad4-4534-9f86-026a45df1ccd",
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/devices/f9ba083d-5ad4-4534-9f86-026a45df1ccd"
        }
    ]
}
```
+  Untuk detail API, lihat [ListDeviceDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-device-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-function-definition-versions`
<a name="greengrass_ListFunctionDefinitionVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-function-definition-versions`.

**AWS CLI**  
**Untuk daftar versi fungsi Lambda**  
`list-function-definition-versions`Contoh berikut mencantumkan semua versi fungsi Lambda yang ditentukan. Anda dapat menggunakan `list-function-definitions` perintah untuk mendapatkan ID.  

```
aws greengrass list-function-definition-versions \
    --function-definition-id "063f5d1a-1dd1-40b4-9b51-56f8993d0f85"
```
Output:  

```
{
    "Versions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85/versions/9748fda7-1589-4fcc-ac94-f5559e88678b",
            "CreationTimestamp": "2019-06-18T17:04:30.776Z",
            "Id": "063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
            "Version": "9748fda7-1589-4fcc-ac94-f5559e88678b"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85/versions/9b08df77-26f2-4c29-93d2-769715edcfec",
            "CreationTimestamp": "2019-06-18T17:02:44.087Z",
            "Id": "063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
            "Version": "9b08df77-26f2-4c29-93d2-769715edcfec"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85/versions/4236239f-94f7-4b90-a2f8-2a24c829d21e",
            "CreationTimestamp": "2019-06-18T17:01:42.284Z",
            "Id": "063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
            "Version": "4236239f-94f7-4b90-a2f8-2a24c829d21e"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85/versions/343408bb-549a-4fbe-b043-853643179a39",
            "CreationTimestamp": "2019-06-18T16:21:21.431Z",
            "Id": "063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
            "Version": "343408bb-549a-4fbe-b043-853643179a39"
        }
    ]
}
```
+  Untuk detail API, lihat [ListFunctionDefinitionVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-function-definition-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-function-definitions`
<a name="greengrass_ListFunctionDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-function-definitions`.

**AWS CLI**  
**Untuk daftar fungsi Lambda**  
`list-function-definitions`Contoh berikut mencantumkan semua fungsi Lambda yang ditentukan untuk akun Anda AWS .  

```
aws greengrass list-function-definitions
```
Output:  

```
{
    "Definitions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/017970a5-8952-46dd-b1c1-020b3ae8e960",
            "CreationTimestamp": "2018-10-17T04:30:32.884Z",
            "Id": "017970a5-8952-46dd-b1c1-020b3ae8e960",
            "LastUpdatedTimestamp": "2018-10-17T04:30:32.884Z",
            "LatestVersion": "4380b302-790d-4ed8-92bf-02e88afecb15",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/017970a5-8952-46dd-b1c1-020b3ae8e960/versions/4380b302-790d-4ed8-92bf-02e88afecb15"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
            "CreationTimestamp": "2019-06-18T16:21:21.431Z",
            "Id": "063f5d1a-1dd1-40b4-9b51-56f8993d0f85",
            "LastUpdatedTimestamp": "2019-06-18T16:21:21.431Z",
            "LatestVersion": "9748fda7-1589-4fcc-ac94-f5559e88678b",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/063f5d1a-1dd1-40b4-9b51-56f8993d0f85/versions/9748fda7-1589-4fcc-ac94-f5559e88678b"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/6598e653-a262-440c-9967-e2697f64da7b",
            "CreationTimestamp": "2019-06-18T16:24:16.123Z",
            "Id": "6598e653-a262-440c-9967-e2697f64da7b",
            "LastUpdatedTimestamp": "2019-06-18T16:24:16.123Z",
            "LatestVersion": "38bc6ccd-98a2-4ce7-997e-16c84748fae4",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/6598e653-a262-440c-9967-e2697f64da7b/versions/38bc6ccd-98a2-4ce7-997e-16c84748fae4"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/c668df84-fad2-491b-95f4-655d2cad7885",
            "CreationTimestamp": "2019-06-18T16:14:17.784Z",
            "Id": "c668df84-fad2-491b-95f4-655d2cad7885",
            "LastUpdatedTimestamp": "2019-06-18T16:14:17.784Z",
            "LatestVersion": "37dd68c4-a64f-40ba-aa13-71fecc3ebded",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/functions/c668df84-fad2-491b-95f4-655d2cad7885/versions/37dd68c4-a64f-40ba-aa13-71fecc3ebded"
        }
    ]
}
```
+  Untuk detail API, lihat [ListFunctionDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-function-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-group-certificate-authorities`
<a name="greengrass_ListGroupCertificateAuthorities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-group-certificate-authorities`.

**AWS CLI**  
**Untuk daftar saat ini CAs untuk grup**  
`list-group-certificate-authorities`Contoh berikut mencantumkan otoritas sertifikat saat ini (CAs) untuk grup Greengrass yang ditentukan.  

```
aws greengrass list-group-certificate-authorities \
    --group-id "1013db12-8b58-45ff-acc7-704248f66731"
```
Output:  

```
{
    "GroupCertificateAuthorities": [
        {
            "GroupCertificateAuthorityArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/certificateauthorities/f0430e1736ea8ed30cc5d5de9af67a7e3586bad9ae4d89c2a44163f65fdd8cf6",
            "GroupCertificateAuthorityId": "f0430e1736ea8ed30cc5d5de9af67a7e3586bad9ae4d89c2a44163f65fdd8cf6"
        }
    ]
}
```
+  Untuk detail API, lihat [ListGroupCertificateAuthorities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-group-certificate-authorities.html)di *Referensi AWS CLI Perintah*. 

### `list-group-versions`
<a name="greengrass_ListGroupVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-group-versions`.

**AWS CLI**  
**Untuk membuat daftar versi grup Greengrass**  
`list-group-versions`Contoh berikut mencantumkan versi grup Greengrass yang ditentukan.  

```
aws greengrass list-group-versions \
    --group-id "1013db12-8b58-45ff-acc7-704248f66731"
```
Output:  

```
{
    "Versions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/115136b3-cfd7-4462-b77f-8741a4b00e5e",
            "CreationTimestamp": "2019-06-18T17:04:30.915Z",
            "Id": "1013db12-8b58-45ff-acc7-704248f66731",
            "Version": "115136b3-cfd7-4462-b77f-8741a4b00e5e"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/4340669d-d14d-44e3-920c-46c928750750",
            "CreationTimestamp": "2019-06-18T17:03:52.663Z",
            "Id": "1013db12-8b58-45ff-acc7-704248f66731",
            "Version": "4340669d-d14d-44e3-920c-46c928750750"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/1b06e099-2d5b-4f10-91b9-78c4e060f5da",
            "CreationTimestamp": "2019-06-18T17:02:44.189Z",
            "Id": "1013db12-8b58-45ff-acc7-704248f66731",
            "Version": "1b06e099-2d5b-4f10-91b9-78c4e060f5da"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/2d3f27f1-3b43-4554-ab7a-73ec30477efe",
            "CreationTimestamp": "2019-06-18T17:01:42.401Z",
            "Id": "1013db12-8b58-45ff-acc7-704248f66731",
            "Version": "2d3f27f1-3b43-4554-ab7a-73ec30477efe"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/d20f7ae9-3444-4c1c-b025-e2ede23cdd31",
            "CreationTimestamp": "2019-06-18T16:21:21.457Z",
            "Id": "1013db12-8b58-45ff-acc7-704248f66731",
            "Version": "d20f7ae9-3444-4c1c-b025-e2ede23cdd31"
        }
    ]
}
```
+  Untuk detail API, lihat [ListGroupVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-group-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-groups`
<a name="greengrass_ListGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups`.

**AWS CLI**  
**Untuk membuat daftar kelompok Greengrass**  
`list-groups`Contoh berikut mencantumkan semua grup Greengrass yang didefinisikan di akun Anda. AWS   

```
aws greengrass list-groups
```
Output:  

```
{
    "Groups": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731",
            "CreationTimestamp": "2019-06-18T16:21:21.457Z",
            "Id": "1013db12-8b58-45ff-acc7-704248f66731",
            "LastUpdatedTimestamp": "2019-06-18T16:21:21.457Z",
            "LatestVersion": "115136b3-cfd7-4462-b77f-8741a4b00e5e",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731/versions/115136b3-cfd7-4462-b77f-8741a4b00e5e",
            "Name": "GGGroup4Pi3"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1402daf9-71cf-4cfe-8be0-d5e80526d0d8",
            "CreationTimestamp": "2018-10-31T21:52:46.603Z",
            "Id": "1402daf9-71cf-4cfe-8be0-d5e80526d0d8",
            "LastUpdatedTimestamp": "2018-10-31T21:52:46.603Z",
            "LatestVersion": "749af901-60ab-456f-a096-91b12d983c29",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1402daf9-71cf-4cfe-8be0-d5e80526d0d8/versions/749af901-60ab-456f-a096-91b12d983c29",
            "Name": "MyTestGroup"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/504b5c8d-bbed-4635-aff1-48ec5b586db5",
            "CreationTimestamp": "2018-12-31T21:39:36.771Z",
            "Id": "504b5c8d-bbed-4635-aff1-48ec5b586db5",
            "LastUpdatedTimestamp": "2018-12-31T21:39:36.771Z",
            "LatestVersion": "46911e8e-f9bc-4898-8b63-59c7653636ec",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/504b5c8d-bbed-4635-aff1-48ec5b586db5/versions/46911e8e-f9bc-4898-8b63-59c7653636ec",
            "Name": "smp-ggrass-group"
        }
    ]
}
```
+  Untuk detail API, lihat [ListGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-logger-definition-versions`
<a name="greengrass_ListLoggerDefinitionVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-logger-definition-versions`.

**AWS CLI**  
**Untuk mendapatkan daftar versi definisi logger**  
`list-logger-definition-versions`Contoh berikut mendapatkan daftar semua versi definisi logger yang ditentukan.  

```
aws greengrass list-logger-definition-versions \
    --logger-definition-id "49eeeb66-f1d3-4e34-86e3-3617262abf23"
```
Output:  

```
{
    "Versions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/49eeeb66-f1d3-4e34-86e3-3617262abf23/versions/5e3f6f64-a565-491e-8de0-3c0d8e0f2073",
            "CreationTimestamp": "2019-05-08T16:10:13.866Z",
            "Id": "49eeeb66-f1d3-4e34-86e3-3617262abf23",
            "Version": "5e3f6f64-a565-491e-8de0-3c0d8e0f2073"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/49eeeb66-f1d3-4e34-86e3-3617262abf23/versions/3ec6d3af-eb85-48f9-a16d-1c795fe696d7",
            "CreationTimestamp": "2019-05-08T16:10:13.809Z",
            "Id": "49eeeb66-f1d3-4e34-86e3-3617262abf23",
            "Version": "3ec6d3af-eb85-48f9-a16d-1c795fe696d7"
        }
    ]
}
```
+  Untuk detail API, lihat [ListLoggerDefinitionVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-logger-definition-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-logger-definitions`
<a name="greengrass_ListLoggerDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-logger-definitions`.

**AWS CLI**  
**Untuk mendapatkan daftar definisi logger**  
`list-logger-definitions`Contoh berikut mencantumkan semua definisi logger untuk AWS akun Anda.  

```
aws greengrass list-logger-definitions
```
Output:  

```
{
    "Definitions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/49eeeb66-f1d3-4e34-86e3-3617262abf23",
            "CreationTimestamp": "2019-05-08T16:10:13.809Z",
            "Id": "49eeeb66-f1d3-4e34-86e3-3617262abf23",
            "LastUpdatedTimestamp": "2019-05-08T16:10:13.809Z",
            "LatestVersion": "5e3f6f64-a565-491e-8de0-3c0d8e0f2073",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/loggers/49eeeb66-f1d3-4e34-86e3-3617262abf23/versions/5e3f6f64-a565-491e-8de0-3c0d8e0f2073"
        }
    ]
}
```
+  Untuk detail API, lihat [ListLoggerDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-logger-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-definition-versions`
<a name="greengrass_ListResourceDefinitionVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-definition-versions`.

**AWS CLI**  
**Untuk membuat daftar versi definisi sumber daya**  
`list-resource-definition-versions`Contoh berikut mencantumkan versi untuk sumber Greengrass yang ditentukan.  

```
aws greengrass list-resource-definition-versions \
    --resource-definition-id "ad8c101d-8109-4b0e-b97d-9cc5802ab658"
```
Output:  

```
{
    "Versions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658/versions/26e8829a-491a-464d-9c87-664bf6f6f2be",
            "CreationTimestamp": "2019-06-19T16:40:59.392Z",
            "Id": "ad8c101d-8109-4b0e-b97d-9cc5802ab658",
            "Version": "26e8829a-491a-464d-9c87-664bf6f6f2be"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658/versions/432d92f6-12de-4ec9-a704-619a942a62aa",
            "CreationTimestamp": "2019-06-19T16:40:59.261Z",
            "Id": "ad8c101d-8109-4b0e-b97d-9cc5802ab658",
            "Version": "432d92f6-12de-4ec9-a704-619a942a62aa"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourceDefinitionVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-resource-definition-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-definitions`
<a name="greengrass_ListResourceDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-definitions`.

**AWS CLI**  
**Untuk membuat daftar sumber daya yang didefinisikan**  
`list-resource-definitions`Contoh berikut mencantumkan sumber daya yang didefinisikan untuk AWS IoT Greengrass untuk digunakan.  

```
aws greengrass list-resource-definitions
```
Output:  

```
{
    "Definitions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658",
            "CreationTimestamp": "2019-06-19T16:40:59.261Z",
            "Id": "ad8c101d-8109-4b0e-b97d-9cc5802ab658",
            "LastUpdatedTimestamp": "2019-06-19T16:40:59.261Z",
            "LatestVersion": "26e8829a-491a-464d-9c87-664bf6f6f2be",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658/versions/26e8829a-491a-464d-9c87-664bf6f6f2be"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/c8bb9ebc-c3fd-40a4-9c6a-568d75569d38",
            "CreationTimestamp": "2019-06-19T21:51:28.212Z",
            "Id": "c8bb9ebc-c3fd-40a4-9c6a-568d75569d38",
            "LastUpdatedTimestamp": "2019-06-19T21:51:28.212Z",
            "LatestVersion": "a5f94d0b-f6bc-40f4-bb78-7a1c5fe13ba1",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/c8bb9ebc-c3fd-40a4-9c6a-568d75569d38/versions/a5f94d0b-f6bc-40f4-bb78-7a1c5fe13ba1",
            "Name": "MyGreengrassResources"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourceDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-resource-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-subscription-definition-versions`
<a name="greengrass_ListSubscriptionDefinitionVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-subscription-definition-versions`.

**AWS CLI**  
**Untuk membuat daftar versi definisi langganan**  
`list-subscription-definition-versions`Contoh berikut mencantumkan semua versi langganan yang ditentukan. Anda dapat menggunakan `list-subscription-definitions` perintah untuk mencari ID langganan.  

```
aws greengrass list-subscription-definition-versions \
    --subscription-definition-id "70e49321-83d5-45d2-bc09-81f4917ae152"
```
Output:  

```
{
    "Versions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/70e49321-83d5-45d2-bc09-81f4917ae152/versions/88ae8699-12ac-4663-ba3f-4d7f0519140b",
            "CreationTimestamp": "2019-06-18T17:03:52.499Z",
            "Id": "70e49321-83d5-45d2-bc09-81f4917ae152",
            "Version": "88ae8699-12ac-4663-ba3f-4d7f0519140b"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/70e49321-83d5-45d2-bc09-81f4917ae152/versions/7e320ba3-c369-4069-a2f0-90acb7f219d6",
            "CreationTimestamp": "2019-06-18T17:03:52.392Z",
            "Id": "70e49321-83d5-45d2-bc09-81f4917ae152",
            "Version": "7e320ba3-c369-4069-a2f0-90acb7f219d6"
        }
    ]
}
```
+  Untuk detail API, lihat [ListSubscriptionDefinitionVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-subscription-definition-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-subscription-definitions`
<a name="greengrass_ListSubscriptionDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-subscription-definitions`.

**AWS CLI**  
**Untuk mendapatkan daftar definisi langganan**  
`list-subscription-definitions`Contoh berikut mencantumkan semua langganan AWS Greengrass IoT yang ditentukan di akun Anda. AWS   

```
aws greengrass list-subscription-definitions
```
Output:  

```
{
    "Definitions": [
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/70e49321-83d5-45d2-bc09-81f4917ae152",
            "CreationTimestamp": "2019-06-18T17:03:52.392Z",
            "Id": "70e49321-83d5-45d2-bc09-81f4917ae152",
            "LastUpdatedTimestamp": "2019-06-18T17:03:52.392Z",
            "LatestVersion": "88ae8699-12ac-4663-ba3f-4d7f0519140b",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/70e49321-83d5-45d2-bc09-81f4917ae152/versions/88ae8699-12ac-4663-ba3f-4d7f0519140b"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/cd6f1c37-d9a4-4e90-be94-01a7404f5967",
            "CreationTimestamp": "2018-10-18T15:45:34.024Z",
            "Id": "cd6f1c37-d9a4-4e90-be94-01a7404f5967",
            "LastUpdatedTimestamp": "2018-10-18T15:45:34.024Z",
            "LatestVersion": "d1cf8fac-284f-4f6a-98fe-a2d36d089373",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/cd6f1c37-d9a4-4e90-be94-01a7404f5967/versions/d1cf8fac-284f-4f6a-98fe-a2d36d089373"
        },
        {
            "Arn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/fa81bc84-3f59-4377-a84b-5d0134da359b",
            "CreationTimestamp": "2018-10-22T17:09:31.429Z",
            "Id": "fa81bc84-3f59-4377-a84b-5d0134da359b",
            "LastUpdatedTimestamp": "2018-10-22T17:09:31.429Z",
            "LatestVersion": "086d1b08-b25a-477c-a16f-6f9b3a9c295a",
            "LatestVersionArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/subscriptions/fa81bc84-3f59-4377-a84b-5d0134da359b/versions/086d1b08-b25a-477c-a16f-6f9b3a9c295a"
        }
    ]
}
```
+  Untuk detail API, lihat [ListSubscriptionDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-subscription-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="greengrass_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag dan nilainya yang dilampirkan ke sumber daya yang ditentukan.  

```
aws greengrass list-tags-for-resource \
    --resource-arn "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658"
```
Output:  

```
{
    "tags": {
        "ResourceSubType": "USB",
        "ResourceType": "Device"
    }
}
```
**Untuk informasi lebih lanjut, lihat [Menandai Sumber Daya Greengrass Anda di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/tagging.html) IoT.AWS **  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `reset-deployments`
<a name="greengrass_ResetDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-deployments`.

**AWS CLI**  
**Untuk membersihkan informasi penyebaran untuk grup Greengrass**  
`reset-deployments`Contoh berikut membersihkan informasi penyebaran untuk grup Greengrass yang ditentukan. Saat Anda menambahkan`--force option`, informasi penyebaran diatur ulang tanpa menunggu perangkat inti merespons.  

```
aws greengrass reset-deployments \
    --group-id "1402daf9-71cf-4cfe-8be0-d5e80526d0d8" \
    --force
```
Output:  

```
{
    "DeploymentArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1402daf9-71cf-4cfe-8be0-d5e80526d0d8/deployments/7dd4e356-9882-46a3-9e28-6d21900c011a",
    "DeploymentId": "7dd4e356-9882-46a3-9e28-6d21900c011a"
}
```
Untuk informasi selengkapnya, lihat [Mengatur Ulang Penerapan di Panduan Pengembang AWS](https://docs.aws.amazon.com/greengrass/latest/developerguide/reset-deployments-scenario.html) *Greengrass* IoT.  
+  Untuk detail API, lihat [ResetDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/reset-deployments.html)di *Referensi AWS CLI Perintah*. 

### `start-bulk-deployment`
<a name="greengrass_StartBulkDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-bulk-deployment`.

**AWS CLI**  
**Untuk memulai operasi penyebaran massal**  
`start-bulk-deployment`Contoh berikut memulai operasi penyebaran massal, menggunakan file yang disimpan dalam bucket S3 untuk menentukan grup yang akan digunakan.  

```
aws greengrass start-bulk-deployment \
    --cli-input-json "{\"InputFileUri\":\"https://gg-group-deployment1.s3-us-west-2.amazonaws.com/MyBulkDeploymentInputFile.txt\", \"ExecutionRoleArn\":\"arn:aws:iam::123456789012:role/ggCreateDeploymentRole\",\"AmznClientToken\":\"yourAmazonClientToken\"}"
```
Output:  

```
{
    "BulkDeploymentArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/bulk/deployments/870fb41b-6288-4e0c-bc76-a7ba4b4d3267",
    "BulkDeploymentId": "870fb41b-6288-4e0c-bc76-a7ba4b4d3267"
}
```
Untuk informasi selengkapnya, lihat [Membuat Penerapan Massal untuk Grup](https://docs.aws.amazon.com/greengrass/latest/developerguide/bulk-deploy-cli.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [StartBulkDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/start-bulk-deployment.html)di *Referensi AWS CLI Perintah*. 

### `stop-bulk-deployment`
<a name="greengrass_StopBulkDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-bulk-deployment`.

**AWS CLI**  
**Untuk menghentikan penyebaran massal**  
`stop-bulk-deployment`Contoh berikut menghentikan penyebaran massal yang ditentukan. Jika Anda mencoba menghentikan penyebaran massal yang selesai, Anda menerima kesalahan: `InvalidInputException: Cannot change state of finished execution.`  

```
aws greengrass stop-bulk-deployment \
    --bulk-deployment-id "870fb41b-6288-4e0c-bc76-a7ba4b4d3267"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Penerapan Massal untuk Grup](https://docs.aws.amazon.com/greengrass/latest/developerguide/bulk-deploy-cli.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [StopBulkDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/stop-bulk-deployment.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="greengrass_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menerapkan tag ke sumber daya**  
`tag-resource`Contoh berikut berlaku dua tag, `ResourceType` dan`ResourceSubType`, ke sumber Greengrass yang ditentukan. Operasi ini dapat menambahkan tag dan nilai baru atau memperbarui nilai untuk tag yang ada. Gunakan `untag-resource` perintah untuk menghapus tag.  

```
aws greengrass tag-resource \
    --resource-arn "arn:aws:greengrass:us-west-2:123456789012:/greengrass/definition/resources/ad8c101d-8109-4b0e-b97d-9cc5802ab658" \
    --tags "ResourceType=Device,ResourceSubType=USB"
```
Perintah ini tidak menghasilkan output.  
**Untuk informasi lebih lanjut, lihat [Menandai Sumber Daya Greengrass Anda di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/tagging.html) IoT.AWS **  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="greengrass_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dan nilainya dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag yang kuncinya `Category` dari grup Greengrass yang ditentukan. Jika kunci `Category` tidak ada untuk sumber daya yang ditentukan, tidak ada kesalahan yang dikembalikan.  

```
aws greengrass untag-resource \
    --resource-arn "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/1013db12-8b58-45ff-acc7-704248f66731" \
    --tag-keys "Category"
```
Perintah ini tidak menghasilkan output.  
**Untuk informasi lebih lanjut, lihat [Menandai Sumber Daya Greengrass Anda di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/tagging.html) IoT.AWS **  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-connectivity-info`
<a name="greengrass_UpdateConnectivityInfo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-connectivity-info`.

**AWS CLI**  
**Untuk memperbarui informasi konektivitas untuk inti Greengrass**  
`update-connectivity-info`Contoh berikut mengubah titik akhir yang dapat digunakan perangkat untuk terhubung ke inti Greengrass yang ditentukan. Informasi konektivitas adalah daftar alamat IP atau nama domain, dengan nomor port yang sesuai dan metadata yang ditentukan pelanggan opsional. Anda mungkin perlu memperbarui informasi konektivitas saat jaringan lokal berubah.  

```
aws greengrass update-connectivity-info \
    --thing-name "MyGroup_Core" \
    --connectivity-info "[{\"Metadata\":\"\",\"PortNumber\":8883,\"HostAddress\":\"127.0.0.1\",\"Id\":\"localhost_127.0.0.1_0\"},{\"Metadata\":\"\",\"PortNumber\":8883,\"HostAddress\":\"192.168.1.3\",\"Id\":\"localIP_192.168.1.3\"}]"
```
Output:  

```
{
    "Version": "312de337-59af-4cf9-a278-2a23bd39c300"
}
```
+  Untuk detail API, lihat [UpdateConnectivityInfo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-connectivity-info.html)di *Referensi AWS CLI Perintah*. 

### `update-connector-definition`
<a name="greengrass_UpdateConnectorDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-connector-definition`.

**AWS CLI**  
**Untuk memperbarui nama untuk definisi konektor**  
`update-connector-definition`Contoh berikut memperbarui nama untuk definisi konektor yang ditentukan. Jika Anda ingin memperbarui detail untuk konektor, gunakan `create-connector-definition-version` perintah untuk membuat versi baru.  

```
aws greengrass update-connector-definition \
    --connector-definition-id "55d0052b-0d7d-44d6-b56f-21867215e118" \
    --name "GreengrassConnectors2019"
```
Untuk informasi selengkapnya, lihat [Mengintegrasikan dengan Layanan dan Protokol Menggunakan Konektor](https://docs.aws.amazon.com/greengrass/latest/developerguide/connectors.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [UpdateConnectorDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-connector-definition.html)di *Referensi AWS CLI Perintah*. 

### `update-core-definition`
<a name="greengrass_UpdateCoreDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-core-definition`.

**AWS CLI**  
**Untuk memperbarui definisi inti**  
`update-core-definition`Contoh berikut mengubah nama definisi inti yang ditentukan. Anda hanya dapat memperbarui `name` properti definisi inti.  

```
aws greengrass update-core-definition \
    --core-definition-id "582efe12-b05a-409e-9a24-a2ba1bcc4a12" \
    --name "MyCoreDevices"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Mengonfigurasi Inti AWS Greengrass IoT di Panduan Pengembang IoT Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/gg-core.html).AWS *  
+  Untuk detail API, lihat [UpdateCoreDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-core-definition.html)di *Referensi AWS CLI Perintah*. 

### `update-device-definition`
<a name="greengrass_UpdateDeviceDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-device-definition`.

**AWS CLI**  
**Untuk memperbarui definisi perangkat**  
`update-device-definition`Contoh berikut mengubah nama definisi perangkat yang ditentukan. Anda hanya dapat memperbarui `name` properti definisi perangkat.  

```
aws greengrass update-device-definition \
    --device-definition-id "f9ba083d-5ad4-4534-9f86-026a45df1ccd" \
    --name "TemperatureSensors"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdateDeviceDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-device-definition.html)di *Referensi AWS CLI Perintah*. 

### `update-function-definition`
<a name="greengrass_UpdateFunctionDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-function-definition`.

**AWS CLI**  
**Untuk memperbarui nama untuk definisi fungsi**  
`update-function-definition`Contoh berikut memperbarui nama untuk definisi fungsi yang ditentukan. Jika Anda ingin memperbarui detail untuk fungsi tersebut, gunakan `create-function-definition-version` perintah untuk membuat versi baru.  

```
aws greengrass update-function-definition \
    --function-definition-id "e47952bd-dea9-4e2c-a7e1-37bbe8807f46" \
    --name ObsoleteFunction
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menjalankan Fungsi Lambda Lokal](https://docs.aws.amazon.com/greengrass/latest/developerguide/lambda-functions.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [UpdateFunctionDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-function-definition.html)di *Referensi AWS CLI Perintah*. 

### `update-group-certificate-configuration`
<a name="greengrass_UpdateGroupCertificateConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-group-certificate-configuration`.

**AWS CLI**  
**Untuk memperbarui berakhirnya sertifikat grup**  
`update-group-certificate-configuration`Contoh berikut menetapkan kadaluwarsa 10 hari untuk sertifikat yang dihasilkan untuk grup yang ditentukan.  

```
aws greengrass update-group-certificate-configuration \
    --group-id "8eaadd72-ce4b-4f15-892a-0cc4f3a343f1" \
    --certificate-expiry-in-milliseconds 864000000
```
Output:  

```
{
    "CertificateExpiryInMilliseconds": 864000000,
    "CertificateAuthorityExpiryInMilliseconds": 2524607999000,
    "GroupId": "8eaadd72-ce4b-4f15-892a-0cc4f3a343f1"
}
```
*Untuk informasi selengkapnya, lihat [Keamanan AWS Greengrass IoT di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/gg-sec.html) IoT.AWS *  
+  Untuk detail API, lihat [UpdateGroupCertificateConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-group-certificate-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-group`
<a name="greengrass_UpdateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-group`.

**AWS CLI**  
**Untuk memperbarui nama grup**  
`update-group`Contoh berikut memperbarui nama grup Greengrass yang ditentukan. Jika Anda ingin memperbarui detail untuk grup, gunakan `create-group-version` perintah untuk membuat versi baru.  

```
aws greengrass update-group \
    --group-id "1402daf9-71cf-4cfe-8be0-d5e80526d0d8" \
    --name TestGroup4of6
```
*Untuk informasi selengkapnya, lihat [Mengonfigurasi AWS Greengrass IoT di IoT di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/greengrass/latest/developerguide/gg-config.html).AWS *  
+  Untuk detail API, lihat [UpdateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-group.html)di *Referensi AWS CLI Perintah*. 

### `update-logger-definition`
<a name="greengrass_UpdateLoggerDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-logger-definition`.

**AWS CLI**  
**Untuk memperbarui definisi logger**  
`update-logger-definition`Contoh berikut mengubah nama definisi logger yang ditentukan. Anda hanya dapat memperbarui `name` properti definisi logger.  

```
aws greengrass update-logger-definition \
    --logger-definition-id "a454b62a-5d56-4ca9-bdc4-8254e1662cb0" \
    --name "LoggingConfigsForSensors"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Pemantauan dengan Log AWS Greengrass IoT di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/latest/developerguide/greengrass-logs-overview.html) IoT.AWS *  
+  Untuk detail API, lihat [UpdateLoggerDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-logger-definition.html)di *Referensi AWS CLI Perintah*. 

### `update-resource-definition`
<a name="greengrass_UpdateResourceDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resource-definition`.

**AWS CLI**  
**Untuk memperbarui nama untuk definisi sumber daya**  
`update-resource-definition`Contoh berikut memperbarui nama untuk definisi sumber daya yang ditentukan. Jika Anda ingin mengubah detail untuk sumber daya, gunakan `create-resource-definition-version` perintah untuk membuat versi baru.  

```
aws greengrass update-resource-definition \
    --resource-definition-id "c8bb9ebc-c3fd-40a4-9c6a-568d75569d38" \
    --name GreengrassConnectorResources
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengakses Sumber Daya Lokal dengan Fungsi dan Konektor Lambda](https://docs.aws.amazon.com/greengrass/latest/developerguide/access-local-resources.html) di Panduan Pengembang *AWS Greengrass* IoT.  
+  Untuk detail API, lihat [UpdateResourceDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-resource-definition.html)di *Referensi AWS CLI Perintah*. 

### `update-subscription-definition`
<a name="greengrass_UpdateSubscriptionDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-subscription-definition`.

**AWS CLI**  
**Untuk memperbarui nama untuk definisi langganan**  
`update-subscription-definition`Contoh berikut memperbarui nama untuk definisi langganan yang ditentukan. Jika Anda ingin mengubah detail langganan, gunakan `create-subscription-definition-version` perintah untuk membuat versi baru.  

```
aws greengrass update-subscription-definition \
    --subscription-definition-id "fa81bc84-3f59-4377-a84b-5d0134da359b" \
    --name "ObsoleteSubscription"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat judul di *panduan*.  
+  Untuk detail API, lihat [UpdateSubscriptionDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-subscription-definition.html)di *Referensi AWS CLI Perintah*. 

### `update-thing-runtime-configuration`
<a name="greengrass_UpdateThingRuntimeConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-thing-runtime-configuration`.

**AWS CLI**  
**Untuk mengaktifkan telemetri dalam konfigurasi runtime inti Greengrass**  
`update-thing-runtime-configuration`Contoh berikut memperbarui konfigurasi runtime inti Greengrass untuk mengaktifkan telemetri.  

```
aws greengrass update-thing-runtime-configuration \
    --thing-name SampleGreengrassCore \
    --telemetry-configuration {\"Telemetry\":\"On\"}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi setelan telemetri di Panduan Pengembang](https://docs.aws.amazon.com/greengrass/latest/developerguide/telemetry.html#configure-telemetry-settings) Greengrass *AWS IoT*.  
+  Untuk detail API, lihat [UpdateThingRuntimeConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrass/update-thing-runtime-configuration.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT Greengrass V2 contoh menggunakan AWS CLI
<a name="cli_2_greengrassv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT Greengrass V2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-service-role-to-account`
<a name="greengrassv2_AssociateServiceRoleToAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-service-role-to-account`.

**AWS CLI**  
**Untuk mengaitkan peran layanan Greengrass ke akun Anda AWS **  
`associate-service-role-to-account`Contoh berikut mengaitkan peran layanan dengan AWS IoT Greengrass untuk akun Anda. AWS   

```
aws greengrassv2 associate-service-role-to-account \
    --role-arn arn:aws:iam::123456789012:role/service-role/Greengrass_ServiceRole
```
Output:  

```
{
    "associatedAt": "2022-01-19T19:21:53Z"
}
```
*Untuk informasi selengkapnya, lihat Peran [layanan Greengrass di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/v2/developerguide/greengrass-service-role.html) V2 IoT AWS .*  
+  Untuk detail API, lihat [AssociateServiceRoleToAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/associate-service-role-to-account.html)di *Referensi AWS CLI Perintah*. 

### `batch-associate-client-device-with-core-device`
<a name="greengrassv2_BatchAssociateClientDeviceWithCoreDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-associate-client-device-with-core-device`.

**AWS CLI**  
**Untuk mengaitkan perangkat klien dengan perangkat inti**  
`batch-associate-client-device-with-core-device`Contoh berikut mengaitkan dua perangkat klien dengan perangkat inti.  

```
aws greengrassv2 batch-associate-client-device-with-core-device \
  --core-device-thing-name MyGreengrassCore \
  --entries thingName=MyClientDevice1 thingName=MyClientDevice2
```
Output:  

```
{
    "errorEntries": []
}
```
Untuk informasi selengkapnya, lihat [Berinteraksi dengan perangkat IoT lokal di Panduan Pengembang AWS](https://docs.aws.amazon.com/greengrass/v2/developerguide/interact-with-local-iot-devices.html) *Greengrass* V2.  
+  Untuk detail API, lihat [BatchAssociateClientDeviceWithCoreDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/batch-associate-client-device-with-core-device.html)di *Referensi AWS CLI Perintah*. 

### `batch-disassociate-client-device-from-core-device`
<a name="greengrassv2_BatchDisassociateClientDeviceFromCoreDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-disassociate-client-device-from-core-device`.

**AWS CLI**  
**Untuk memisahkan perangkat klien dari perangkat inti**  
`batch-disassociate-client-device-from-core-device`Contoh berikut memisahkan dua perangkat klien dari perangkat inti.  

```
aws greengrassv2 batch-disassociate-client-device-from-core-device \
  --core-device-thing-name MyGreengrassCore \
  --entries thingName=MyClientDevice1 thingName=MyClientDevice2
```
Output:  

```
{
    "errorEntries": []
}
```
Untuk informasi selengkapnya, lihat [Berinteraksi dengan perangkat IoT lokal di Panduan Pengembang AWS](https://docs.aws.amazon.com/greengrass/v2/developerguide/interact-with-local-iot-devices.html) *Greengrass* V2.  
+  Untuk detail API, lihat [BatchDisassociateClientDeviceFromCoreDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/batch-disassociate-client-device-from-core-device.html)di *Referensi AWS CLI Perintah*. 

### `cancel-deployment`
<a name="greengrassv2_CancelDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-deployment`.

**AWS CLI**  
**Untuk membatalkan penerapan**  
`cancel-deployment`Contoh berikut menghentikan penerapan berkelanjutan ke grup sesuatu.  

```
aws greengrassv2 cancel-deployment \
    --deployment-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "message": "SUCCESS"
}
```
Untuk informasi selengkapnya, lihat [Batalkan penerapan](https://docs.aws.amazon.com/greengrass/v2/developerguide/cancel-deployments.html) di Panduan Pengembang *AWS Greengrass* V2 IoT.  
+  Untuk detail API, lihat [CancelDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/cancel-deployment.html)di *Referensi AWS CLI Perintah*. 

### `create-component-version`
<a name="greengrassv2_CreateComponentVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-component-version`.

**AWS CLI**  
**Contoh 1: Untuk membuat versi komponen dari resep**  
`create-component-version`Contoh berikut membuat versi komponen Hello World dari file resep.  

```
aws greengrassv2 create-component-version \
    --inline-recipe fileb://com.example.HelloWorld-1.0.0.json
```
Isi dari `com.example.HelloWorld-1.0.0.json`:  

```
{
    "RecipeFormatVersion": "2020-01-25",
    "ComponentName": "com.example.HelloWorld",
    "ComponentVersion": "1.0.0",
    "ComponentDescription": "My first AWS IoT Greengrass component.",
    "ComponentPublisher": "Amazon",
    "ComponentConfiguration": {
        "DefaultConfiguration": {
            "Message": "world"
        }
    },
    "Manifests": [
        {
            "Platform": {
                "os": "linux"
            },
            "Lifecycle": {
                "Run": "echo 'Hello {configuration:/Message}'"
            }
        }
    ]
}
```
Output:  

```
{
    "arn": "arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.0",
    "componentName": "com.example.HelloWorld",
    "componentVersion": "1.0.0",
    "creationTimestamp": "2021-01-07T16:24:33.650000-08:00",
    "status": {
        "componentState": "REQUESTED",
        "message": "NONE",
        "errors": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat komponen khusus](https://docs.aws.amazon.com/greengrass/v2/developerguide/create-components.html) dan [Mengunggah komponen yang akan diterapkan](https://docs.aws.amazon.com/greengrass/v2/developerguide/upload-components.html) di Panduan Pengembang *Greengrass V2 AWS IoT*.  
**Contoh 2: Untuk membuat versi komponen dari fungsi AWS Lambda**  
`create-component-version`Contoh berikut membuat versi komponen Hello World dari fungsi AWS Lambda.  

```
aws greengrassv2 create-component-version \
    --cli-input-json file://lambda-function-component.json
```
Isi dari `lambda-function-component.json`:  

```
{
    "lambdaFunction": {
        "lambdaArn": "arn:aws:lambda:us-west-2:123456789012:function:HelloWorldPythonLambda:1",
        "componentName": "com.example.HelloWorld",
        "componentVersion": "1.0.0",
        "componentLambdaParameters": {
            "eventSources": [
                {
                    "topic": "hello/world/+",
                    "type": "IOT_CORE"
                }
            ]
        }
    }
}
```
Output:  

```
{
    "arn": "arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.0",
    "componentName": "com.example.HelloWorld",
    "componentVersion": "1.0.0",
    "creationTimestamp": "2021-01-07T17:05:27.347000-08:00",
    "status": {
        "componentState": "REQUESTED",
        "message": "NONE",
        "errors": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Menjalankan fungsi AWS Lambda](https://docs.aws.amazon.com/greengrass/v2/developerguide/run-lambda-functions.html) di Panduan Pengembang *AWS Greengrass* V2 IoT.  
+  Untuk detail API, lihat [CreateComponentVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/create-component-version.html)di *Referensi AWS CLI Perintah*. 

### `create-deployment`
<a name="greengrassv2_CreateDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-deployment`.

**AWS CLI**  
**Contoh 1: Untuk membuat penerapan**  
`create-deployment`Contoh berikut menyebarkan AWS IoT Greengrass Command Line Interface ke perangkat inti.  

```
aws greengrassv2 create-deployment \
    --cli-input-json file://cli-deployment.json
```
Isi dari `cli-deployment.json`:  

```
{
    "targetArn": "arn:aws:iot:us-west-2:123456789012:thing/MyGreengrassCore",
    "deploymentName": "Deployment for MyGreengrassCore",
    "components": {
        "aws.greengrass.Cli": {
            "componentVersion": "2.0.3"
        }
    },
    "deploymentPolicies": {
        "failureHandlingPolicy": "DO_NOTHING",
        "componentUpdatePolicy": {
            "timeoutInSeconds": 60,
            "action": "NOTIFY_COMPONENTS"
        },
        "configurationValidationPolicy": {
            "timeoutInSeconds": 60
        }
    },
    "iotJobConfiguration": {}
}
```
Output:  

```
{
    "deploymentId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Membuat penerapan](https://docs.aws.amazon.com/greengrass/v2/developerguide/create-deployments.html) di Panduan Pengembang IoT *AWS Greengrass* V2.  
**Contoh 2: Untuk membuat penerapan yang memperbarui konfigurasi komponen**  
`create-deployment`Contoh berikut menyebarkan komponen inti Greengrass AWS IoT ke sekelompok perangkat inti. Penerapan ini menerapkan pembaruan konfigurasi berikut untuk komponen inti:  
Setel ulang pengaturan proxy perangkat target ke defaultnya tanpa pengaturan proxy. Setel ulang pengaturan MQTT perangkat target ke defaultnya.Menetapkan opsi JVM untuk JVM.set level logging untuk nukleus.  

```
aws greengrassv2 create-deployment \
    --cli-input-json file://nucleus-deployment.json
```
Isi dari `nucleus-deployment.json`:  

```
{
    "targetArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/MyGreengrassCoreGroup",
    "deploymentName": "Deployment for MyGreengrassCoreGroup",
    "components": {
        "aws.greengrass.Nucleus": {
            "componentVersion": "2.0.3",
            "configurationUpdate": {
                "reset": [
                    "/networkProxy",
                    "/mqtt"
                ],
                "merge": "{\"jvmOptions\":\"-Xmx64m\",\"logging\":{\"level\":\"WARN\"}}"
            }
        }
    },
    "deploymentPolicies": {
        "failureHandlingPolicy": "ROLLBACK",
        "componentUpdatePolicy": {
            "timeoutInSeconds": 60,
            "action": "NOTIFY_COMPONENTS"
        },
        "configurationValidationPolicy": {
            "timeoutInSeconds": 60
        }
    },
    "iotJobConfiguration": {}
}
```
Output:  

```
{
    "deploymentId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "iotJobId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "iotJobArn": "arn:aws:iot:us-west-2:123456789012:job/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
}
```
Untuk informasi selengkapnya, lihat [Membuat penerapan](https://docs.aws.amazon.com/greengrass/v2/developerguide/create-deployments.html) dan [Memperbarui konfigurasi komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/update-component-configurations.html) di Panduan Pengembang *AWS IoT Greengrass* V2.  
+  Untuk detail API, lihat [CreateDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/create-deployment.html)di *Referensi AWS CLI Perintah*. 

### `delete-component`
<a name="greengrassv2_DeleteComponent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-component`.

**AWS CLI**  
**Untuk menghapus versi komponen**  
`delete-component`Contoh berikut menghapus komponen Hello World.  

```
aws greengrassv2 delete-component \
    --arn arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.0
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-components.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [DeleteComponent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/delete-component.html)di *Referensi AWS CLI Perintah*. 

### `delete-core-device`
<a name="greengrassv2_DeleteCoreDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-core-device`.

**AWS CLI**  
**Untuk menghapus perangkat inti**  
`delete-core-device`Contoh berikut menghapus perangkat inti AWS Greengrass IoT.  

```
aws greengrassv2 delete-core-device \
    --core-device-thing-name MyGreengrassCore
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi lebih lanjut, lihat [Menghapus instalasi perangkat lunak AWS Greengrass Core AWS IoT di Panduan Pengembang IoT Greengrass](https://docs.aws.amazon.com/greengrass/v2/developerguide/configure-greengrass-core-v2.html#uninstall-greengrass-core-v2) V2.*  
+  Untuk detail API, lihat [DeleteCoreDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/delete-core-device.html)di *Referensi AWS CLI Perintah*. 

### `describe-component`
<a name="greengrassv2_DescribeComponent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-component`.

**AWS CLI**  
**Untuk mendeskripsikan versi komponen**  
`describe-component`Contoh berikut menjelaskan komponen Hello World.  

```
aws greengrassv2 describe-component \
    --arn arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.0
```
Output:  

```
{
    "arn": "arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.0",
    "componentName": "com.example.HelloWorld",
    "componentVersion": "1.0.0",
    "creationTimestamp": "2021-01-07T17:12:11.133000-08:00",
    "publisher": "Amazon",
    "description": "My first AWS IoT Greengrass component.",
    "status": {
        "componentState": "DEPLOYABLE",
        "message": "NONE",
        "errors": {}
    },
    "platforms": [
        {
            "attributes": {
                "os": "linux"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-components.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [DescribeComponent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/describe-component.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-service-role-from-account`
<a name="greengrassv2_DisassociateServiceRoleFromAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-service-role-from-account`.

**AWS CLI**  
**Untuk memisahkan peran layanan Greengrass dari akun Anda AWS **  
`disassociate-service-role-from-account`Contoh berikut memisahkan peran layanan Greengrass dari AWS IoT Greengrass untuk akun Anda. AWS   

```
aws greengrassv2 disassociate-service-role-from-account
```
Output:  

```
{
    "disassociatedAt": "2022-01-19T19:26:09Z"
}
```
*Untuk informasi selengkapnya, lihat Peran [layanan Greengrass di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/v2/developerguide/greengrass-service-role.html) V2 IoT AWS .*  
+  Untuk detail API, lihat [DisassociateServiceRoleFromAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/disassociate-service-role-from-account.html)di *Referensi AWS CLI Perintah*. 

### `get-component-version-artifact`
<a name="greengrassv2_GetComponentVersionArtifact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-component-version-artifact`.

**AWS CLI**  
**Untuk mendapatkan URL untuk mengunduh artefak komponen**  
`get-component-version-artifact`Contoh berikut mendapatkan URL untuk mengunduh file JAR komponen konsol debug lokal.  

```
aws greengrassv2 get-component-version-artifact \
    --arn arn:aws:greengrass:us-west-2:aws:components:aws.greengrass.LocalDebugConsole:versions:2.0.3 \
    --artifact-name "Uvt6ZEzQ9TKiAuLbfXBX_APdY0TWks3uc46tHFHTzBM=/aws.greengrass.LocalDebugConsole.jar"
```
Output:  

```
{
    "preSignedUrl": "https://evergreencomponentmanageme-artifactbucket7410c9ef-g18n1iya8kwr.s3.us-west-2.amazonaws.com/public/aws.greengrass.LocalDebugConsole/2.0.3/s3/ggv2-component-releases-prod-pdx/EvergreenHttpDebugView/2ffc496ba41b39568968b22c582b4714a937193ee7687a45527238e696672521/aws.greengrass.LocalDebugConsole/aws.greengrass.LocalDebugConsole.jar?X-Amz-Security-Token=KwfLKSdEXAMPLE..."
}
```
Untuk informasi selengkapnya, lihat [Mengelola komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-components.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [GetComponentVersionArtifact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/get-component-version-artifact.html)di *Referensi AWS CLI Perintah*. 

### `get-component`
<a name="greengrassv2_GetComponent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-component`.

**AWS CLI**  
**Contoh 1: Untuk mengunduh resep komponen dalam format YAMM (Linux, macOS, atau Unix)**  
`get-component`Contoh berikut mengunduh resep komponen Hello World ke file dalam format YAMM. Perintah ini melakukan hal berikut:  
Menggunakan `--query` parameter `--output` dan untuk mengontrol output perintah. Parameter ini mengekstrak gumpalan resep dari output perintah. Untuk informasi selengkapnya tentang mengontrol output, lihat [Mengontrol Output AWS Perintah](https://docs.aws.amazon.com/cli/latest/userguide/controlling-output.html) *di Panduan Pengguna Antarmuka Baris Perintah*. Menggunakan `base64` utilitas. Utilitas ini menerjemahkan gumpalan yang diekstraksi ke teks asli. Gumpalan yang dikembalikan oleh `get-component` perintah yang berhasil adalah teks yang dikodekan base64. Anda harus memecahkan kode gumpalan ini untuk mendapatkan teks asli. Menyimpan teks yang diterjemahkan ke file. Bagian terakhir dari perintah (`> com.example.HelloWorld-1.0.0.json`) menyimpan teks yang diterjemahkan ke file.  

```
aws greengrassv2 get-component \
    --arn arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.0 \
    --recipe-output-format YAML \
    --query recipe \
    --output text | base64 --decode > com.example.HelloWorld-1.0.0.json
```
Untuk informasi selengkapnya, lihat [Mengelola komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-components.html) di Panduan *AWS Pengembang Greengrass V2*.  
**Contoh 2: Untuk mengunduh resep komponen dalam format YAMM (Windows CMD)**  
`get-component`Contoh berikut mengunduh resep komponen Hello World ke file dalam format YAMM. Perintah ini menggunakan `certutil` utilitas.  

```
aws greengrassv2 get-component ^
    --arn arn:aws:greengrass:us-west-2:675946970638:components:com.example.HelloWorld:versions:1.0.0 ^
    --recipe-output-format YAML ^
    --query recipe ^
    --output text > com.example.HelloWorld-1.0.0.yaml.b64

certutil -decode com.example.HelloWorld-1.0.0.yaml.b64 com.example.HelloWorld-1.0.0.yaml
```
Untuk informasi selengkapnya, lihat [Mengelola komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-components.html) di Panduan *AWS Pengembang Greengrass V2*.  
**Contoh 3: Untuk mengunduh resep komponen dalam format YAMAL (Windows PowerShell)**  
`get-component`Contoh berikut mengunduh resep komponen Hello World ke file dalam format YAMM. Perintah ini menggunakan `certutil` utilitas.  

```
aws greengrassv2 get-component `
    --arn arn:aws:greengrass:us-west-2:675946970638:components:com.example.HelloWorld:versions:1.0.0 `
    --recipe-output-format YAML `
    --query recipe `
    --output text > com.example.HelloWorld-1.0.0.yaml.b64

certutil -decode com.example.HelloWorld-1.0.0.yaml.b64 com.example.HelloWorld-1.0.0.yaml
```
Untuk informasi selengkapnya, lihat [Mengelola komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-components.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [GetComponent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/get-component.html)di *Referensi AWS CLI Perintah*. 

### `get-connectivity-info`
<a name="greengrassv2_GetConnectivityInfo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connectivity-info`.

**AWS CLI**  
**Untuk mendapatkan informasi konektivitas untuk perangkat inti Greengrass**  
`get-connectivity-info`Contoh berikut mendapatkan informasi konektivitas untuk perangkat inti Greengrass. Perangkat klien menggunakan informasi ini untuk terhubung ke broker MQTT yang berjalan pada perangkat inti ini.  

```
aws greengrassv2 get-connectivity-info \
    --thing-name MyGreengrassCore
```
Output:  

```
{
    "connectivityInfo": [
        {
            "id": "localIP_192.0.2.0",
            "hostAddress": "192.0.2.0",
            "portNumber": 8883
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola titik akhir perangkat inti di Panduan](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-core-device-endpoints.html) Pengembang *Greengrass V2 AWS IoT*.  
+  Untuk detail API, lihat [GetConnectivityInfo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/get-connectivity-info.html)di *Referensi AWS CLI Perintah*. 

### `get-core-device`
<a name="greengrassv2_GetCoreDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-core-device`.

**AWS CLI**  
**Untuk mendapatkan perangkat inti**  
`get-core-device`Contoh berikut mendapatkan informasi tentang perangkat inti AWS Greengrass IoT.  

```
aws greengrassv2 get-core-device \
    --core-device-thing-name MyGreengrassCore
```
Output:  

```
{
    "coreDeviceThingName": "MyGreengrassCore",
    "coreVersion": "2.0.3",
    "platform": "linux",
    "architecture": "amd64",
    "status": "HEALTHY",
    "lastStatusUpdateTimestamp": "2021-01-08T04:57:58.838000-08:00",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Periksa status perangkat inti di Panduan](https://docs.aws.amazon.com/greengrass/v2/developerguide/device-status.html) Pengembang *AWS Greengrass V2 IoT*.  
+  Untuk detail API, lihat [GetCoreDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/get-core-device.html)di *Referensi AWS CLI Perintah*. 

### `get-deployment`
<a name="greengrassv2_GetDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployment`.

**AWS CLI**  
**Untuk mendapatkan penerapan**  
`get-deployment`Contoh berikut mendapatkan informasi tentang penyebaran komponen inti Greengrass AWS IoT ke sekelompok perangkat inti.  

```
aws greengrassv2 get-deployment \
    --deployment-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "targetArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/MyGreengrassCoreGroup",
    "revisionId": "14",
    "deploymentId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "deploymentName": "Deployment for MyGreengrassCoreGroup",
    "deploymentStatus": "ACTIVE",
    "iotJobId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "iotJobArn": "arn:aws:iot:us-west-2:123456789012:job/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "components": {
        "aws.greengrass.Nucleus": {
            "componentVersion": "2.0.3",
            "configurationUpdate": {
                "merge": "{\"jvmOptions\":\"-Xmx64m\",\"logging\":{\"level\":\"WARN\"}}",
                "reset": [
                    "/networkProxy",
                    "/mqtt"
                ]
            }
        }
    },
    "deploymentPolicies": {
        "failureHandlingPolicy": "ROLLBACK",
        "componentUpdatePolicy": {
            "timeoutInSeconds": 60,
            "action": "NOTIFY_COMPONENTS"
        },
        "configurationValidationPolicy": {
            "timeoutInSeconds": 60
        }
    },
    "iotJobConfiguration": {},
    "creationTimestamp": "2021-01-07T17:21:20.691000-08:00",
    "isLatestForTarget": false,
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Menerapkan komponen ke perangkat](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-deployments.html) di Panduan Pengembang *AWS Greengrass* V2.  
+  Untuk detail API, lihat [GetDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/get-deployment.html)di *Referensi AWS CLI Perintah*. 

### `get-service-role-for-account`
<a name="greengrassv2_GetServiceRoleForAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-role-for-account`.

**AWS CLI**  
**Untuk mendapatkan peran layanan Greengrass untuk akun Anda AWS **  
`get-service-role-for-account`Contoh berikut mendapatkan peran layanan yang terkait dengan AWS IoT Greengrass untuk akun Anda. AWS   

```
aws greengrassv2 get-service-role-for-account
```
Output:  

```
{
    "associatedAt": "2022-01-19T19:21:53Z",
    "roleArn": "arn:aws:iam::123456789012:role/service-role/Greengrass_ServiceRole"
}
```
*Untuk informasi selengkapnya, lihat Peran [layanan Greengrass di Panduan Pengembang Greengrass](https://docs.aws.amazon.com/greengrass/v2/developerguide/greengrass-service-role.html) V2 IoT AWS .*  
+  Untuk detail API, lihat [GetServiceRoleForAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/get-service-role-for-account.html)di *Referensi AWS CLI Perintah*. 

### `list-client-devices-associated-with-core-device`
<a name="greengrassv2_ListClientDevicesAssociatedWithCoreDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-client-devices-associated-with-core-device`.

**AWS CLI**  
**Untuk membuat daftar perangkat klien yang terkait dengan perangkat inti**  
`list-client-devices-associated-with-core-device`Contoh berikut mencantumkan semua perangkat klien yang terkait dengan perangkat inti.  

```
aws greengrassv2 list-client-devices-associated-with-core-device \
  --core-device-thing-name MyTestGreengrassCore
```
Output:  

```
{
    "associatedClientDevices": [
        {
            "thingName": "MyClientDevice2",
            "associationTimestamp": "2021-07-12T16:33:55.843000-07:00"
        },
        {
            "thingName": "MyClientDevice1",
            "associationTimestamp": "2021-07-12T16:33:55.843000-07:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Berinteraksi dengan perangkat IoT lokal di Panduan Pengembang AWS](https://docs.aws.amazon.com/greengrass/v2/developerguide/interact-with-local-iot-devices.html) *Greengrass* V2.  
+  Untuk detail API, lihat [ListClientDevicesAssociatedWithCoreDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/list-client-devices-associated-with-core-device.html)di *Referensi AWS CLI Perintah*. 

### `list-component-versions`
<a name="greengrassv2_ListComponentVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-component-versions`.

**AWS CLI**  
**Untuk membuat daftar versi komponen**  
`list-component-versions`Contoh berikut mencantumkan semua versi komponen Hello World.  

```
aws greengrassv2 list-component-versions \
    --arn arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld
```
Output:  

```
{
    "componentVersions": [
        {
            "componentName": "com.example.HelloWorld",
            "componentVersion": "1.0.1",
            "arn": "arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.1"
        },
        {
            "componentName": "com.example.HelloWorld",
            "componentVersion": "1.0.0",
            "arn": "arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-components.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [ListComponentVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/list-component-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-components`
<a name="greengrassv2_ListComponents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-components`.

**AWS CLI**  
**Untuk daftar komponen**  
`list-components`Contoh berikut mencantumkan setiap komponen dan versi terbarunya yang ditentukan di AWS akun Anda di Wilayah saat ini.  

```
aws greengrassv2 list-components
```
Output:  

```
{
    "components": [
        {
            "arn": "arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld",
            "componentName": "com.example.HelloWorld",
            "latestVersion": {
                "arn": "arn:aws:greengrass:us-west-2:123456789012:components:com.example.HelloWorld:versions:1.0.1",
                "componentVersion": "1.0.1",
                "creationTimestamp": "2021-01-08T16:51:07.352000-08:00",
                "description": "My first AWS IoT Greengrass component.",
                "publisher": "Amazon",
                "platforms": [
                    {
                        "attributes": {
                            "os": "linux"
                        }
                    }
                ]
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola komponen](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-components.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [ListComponents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/list-components.html)di *Referensi AWS CLI Perintah*. 

### `list-core-devices`
<a name="greengrassv2_ListCoreDevices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-core-devices`.

**AWS CLI**  
**Untuk membuat daftar perangkat inti**  
`list-core-devices`Contoh berikut mencantumkan perangkat inti AWS Greengrass IoT di akun Anda di Wilayah saat ini. AWS   

```
aws greengrassv2 list-core-devices
```
Output:  

```
{
    "coreDevices": [
        {
            "coreDeviceThingName": "MyGreengrassCore",
            "status": "HEALTHY",
            "lastStatusUpdateTimestamp": "2021-01-08T04:57:58.838000-08:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Periksa status perangkat inti di Panduan](https://docs.aws.amazon.com/greengrass/v2/developerguide/device-status.html) Pengembang *AWS Greengrass V2 IoT*.  
+  Untuk detail API, lihat [ListCoreDevices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/list-core-devices.html)di *Referensi AWS CLI Perintah*. 

### `list-deployments`
<a name="greengrassv2_ListDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-deployments`.

**AWS CLI**  
**Untuk membuat daftar penerapan**  
`list-deployments`Contoh berikut mencantumkan revisi terbaru dari setiap penerapan yang ditentukan di AWS akun Anda di Wilayah saat ini.  

```
aws greengrassv2 list-deployments
```
Output:  

```
{
    "deployments": [
        {
            "targetArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/MyGreengrassCoreGroup",
            "revisionId": "14",
            "deploymentId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "deploymentName": "Deployment for MyGreengrassCoreGroup",
            "creationTimestamp": "2021-01-07T17:21:20.691000-08:00",
            "deploymentStatus": "ACTIVE",
            "isLatestForTarget": false
        },
        {
            "targetArn": "arn:aws:iot:us-west-2:123456789012:thing/MyGreengrassCore",
            "revisionId": "1",
            "deploymentId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "deploymentName": "Deployment for MyGreengrassCore",
            "creationTimestamp": "2021-01-06T16:10:42.407000-08:00",
            "deploymentStatus": "COMPLETED",
            "isLatestForTarget": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menerapkan komponen ke perangkat](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-deployments.html) di Panduan Pengembang *AWS Greengrass* V2.  
+  Untuk detail API, lihat [ListDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/list-deployments.html)di *Referensi AWS CLI Perintah*. 

### `list-effective-deployments`
<a name="greengrassv2_ListEffectiveDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-effective-deployments`.

**AWS CLI**  
**Untuk membuat daftar pekerjaan penerapan**  
`list-effective-deployments`Contoh berikut mencantumkan penerapan yang berlaku untuk perangkat inti AWS Greengrass IoT.  

```
aws greengrassv2 list-effective-deployments \
    --core-device-thing-name MyGreengrassCore
```
Output:  

```
{
    "effectiveDeployments": [
        {
            "deploymentId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "deploymentName": "Deployment for MyGreengrassCore",
            "iotJobId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "targetArn": "arn:aws:iot:us-west-2:123456789012:thing/MyGreengrassCore",
            "coreDeviceExecutionStatus": "COMPLETED",
            "reason": "SUCCESSFUL",
            "creationTimestamp": "2021-01-06T16:10:42.442000-08:00",
            "modifiedTimestamp": "2021-01-08T17:21:27.830000-08:00"
        },
        {
            "deploymentId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "deploymentName": "Deployment for MyGreengrassCoreGroup",
            "iotJobId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE44444",
            "iotJobArn": "arn:aws:iot:us-west-2:123456789012:job/a1b2c3d4-5678-90ab-cdef-EXAMPLE44444",
            "targetArn": "arn:aws:iot:us-west-2:123456789012:thinggroup/MyGreengrassCoreGroup",
            "coreDeviceExecutionStatus": "SUCCEEDED",
            "reason": "SUCCESSFUL",
            "creationTimestamp": "2021-01-07T17:19:20.394000-08:00",
            "modifiedTimestamp": "2021-01-07T17:21:20.721000-08:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Periksa status perangkat inti di Panduan](https://docs.aws.amazon.com/greengrass/v2/developerguide/device-status.html) Pengembang *AWS Greengrass V2 IoT*.  
+  Untuk detail API, lihat [ListEffectiveDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/list-effective-deployments.html)di *Referensi AWS CLI Perintah*. 

### `list-installed-components`
<a name="greengrassv2_ListInstalledComponents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-installed-components`.

**AWS CLI**  
**Untuk daftar komponen yang diinstal pada perangkat inti**  
`list-installed-components`Contoh berikut mencantumkan komponen yang diinstal pada perangkat inti AWS Greengrass IoT.  

```
aws greengrassv2 list-installed-components \
    --core-device-thing-name MyGreengrassCore
```
Output:  

```
{
    "installedComponents": [
        {
            "componentName": "aws.greengrass.Cli",
            "componentVersion": "2.0.3",
            "lifecycleState": "RUNNING",
            "isRoot": true
        },
        {
            "componentName": "aws.greengrass.Nucleus",
            "componentVersion": "2.0.3",
            "lifecycleState": "FINISHED",
            "isRoot": true
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Periksa status perangkat inti di Panduan](https://docs.aws.amazon.com/greengrass/v2/developerguide/device-status.html) Pengembang *AWS Greengrass V2 IoT*.  
+  Untuk detail API, lihat [ListInstalledComponents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/list-installed-components.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="greengrassv2_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk perangkat inti AWS Greengrass IoT.  

```
aws greengrassv2 list-tags-for-resource \
    --resource-arn arn:aws:greengrass:us-west-2:123456789012:coreDevices:MyGreengrassCore
```
Output:  

```
{
    "tags": {
        "Owner": "richard-roe"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/greengrass/v2/developerguide/tag-resources.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="greengrassv2_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tanda ke sumber daya**  
`tag-resource`Contoh berikut menambahkan tag pemilik ke perangkat inti AWS Greengrass IoT. Anda dapat menggunakan tag ini untuk mengontrol akses ke perangkat inti berdasarkan siapa yang memilikinya.  

```
aws greengrassv2 tag-resource \
    --resource-arn arn:aws:greengrass:us-west-2:123456789012:coreDevices:MyGreengrassCore \
    --tags Owner=richard-roe
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/greengrass/v2/developerguide/tag-resources.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="greengrassv2_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag pemilik dari perangkat inti AWS Greengrass IoT.  

```
aws iotsitewise untag-resource \
    --resource-arn arn:aws:greengrass:us-west-2:123456789012:coreDevices:MyGreengrassCore \
    --tag-keys Owner
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/greengrass/v2/developerguide/tag-resources.html) di Panduan *AWS Pengembang Greengrass V2*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-connectivity-info`
<a name="greengrassv2_UpdateConnectivityInfo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-connectivity-info`.

**AWS CLI**  
**Untuk memperbarui informasi konektivitas untuk perangkat inti Greengrass**  
`update-connectivity-info`Contoh berikut mendapatkan informasi konektivitas untuk perangkat inti Greengrass. Perangkat klien menggunakan informasi ini untuk terhubung ke broker MQTT yang berjalan pada perangkat inti ini.  

```
aws greengrassv2 update-connectivity-info \
    --thing-name MyGreengrassCore \
    --cli-input-json file://core-device-connectivity-info.json
```
Isi dari `core-device-connectivity-info.json`:  

```
{
    "connectivityInfo": [
        {
            "hostAddress": "192.0.2.0",
            "portNumber": 8883,
            "id": "localIP_192.0.2.0"
        }
    ]
}
```
Output:  

```
{
    "version": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Mengelola titik akhir perangkat inti di Panduan](https://docs.aws.amazon.com/greengrass/v2/developerguide/manage-core-device-endpoints.html) Pengembang *Greengrass V2 AWS IoT*.  
+  Untuk detail API, lihat [UpdateConnectivityInfo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/greengrassv2/update-connectivity-info.html)di *Referensi AWS CLI Perintah*. 

# Rilis AWS IoT Jobs SDK contoh menggunakan AWS CLI
<a name="cli_2_iot-jobs-data-plane_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Rilis AWS IoT Jobs SDK.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-job-execution`
<a name="iot-jobs-data-plane_DescribeJobExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-job-execution`.

**AWS CLI**  
**Untuk mendapatkan detail eksekusi pekerjaan**  
`describe-job-execution`Contoh berikut mengambil rincian eksekusi terbaru dari pekerjaan dan hal yang ditentukan.  

```
aws iot-jobs-data describe-job-execution \
    --job-id SampleJob \
    --thing-name MotionSensor1 \
    --endpoint-url https://1234567890abcd.jobs.iot.us-west-2.amazonaws.com
```
Output:  

```
{
    "execution": {
        "approximateSecondsBeforeTimedOut": 88,
        "executionNumber": 2939653338,
        "jobId": "SampleJob",
        "lastUpdatedAt": 1567701875.743,
        "queuedAt": 1567701902.444,
        "status": "QUEUED",
        "thingName": "MotionSensor1 ",
        "versionNumber": 3
   }
}
```
Untuk informasi selengkapnya, lihat [Perangkat dan Pekerjaan](https://docs.aws.amazon.com/iot/latest/developerguide/jobs-devices.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [DescribeJobExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot-jobs-data/describe-job-execution.html)di *Referensi AWS CLI Perintah*. 

### `get-pending-job-executions`
<a name="iot-jobs-data-plane_GetPendingJobExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-pending-job-executions`.

**AWS CLI**  
**Untuk mendapatkan daftar semua pekerjaan yang tidak dalam status terminal untuk suatu hal**  
`get-pending-job-executions`Contoh berikut menampilkan daftar semua pekerjaan yang tidak dalam status terminal untuk hal yang ditentukan.  

```
aws iot-jobs-data get-pending-job-executions \
    --thing-name MotionSensor1
    --endpoint-url https://1234567890abcd.jobs.iot.us-west-2.amazonaws.com
```
Output:  

```
{
    "inProgressJobs": [
    ],
    "queuedJobs": [
        {
            "executionNumber": 2939653338,
            "jobId": "SampleJob",
            "lastUpdatedAt": 1567701875.743,
            "queuedAt": 1567701902.444,
            "versionNumber": 3
      }
    ]
}
```
Untuk informasi selengkapnya, lihat [Perangkat dan Pekerjaan](https://docs.aws.amazon.com/iot/latest/developerguide/jobs-devices.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [GetPendingJobExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot-jobs-data/get-pending-job-executions.html)di *Referensi AWS CLI Perintah*. 

### `start-next-pending-job-execution`
<a name="iot-jobs-data-plane_StartNextPendingJobExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-next-pending-job-execution`.

**AWS CLI**  
**Untuk mendapatkan dan memulai eksekusi pekerjaan tertunda berikutnya untuk suatu hal**  
`start-next-pending-job-execution`Contoh berikut mengambil dan memulai eksekusi pekerjaan berikutnya yang statusnya IN\$1PROGRESS atau QUEUED untuk hal yang ditentukan.  

```
aws iot-jobs-data start-next-pending-job-execution \
    --thing-name MotionSensor1
    --endpoint-url https://1234567890abcd.jobs.iot.us-west-2.amazonaws.com
```
Output:  

```
{
    "execution": {
        "approximateSecondsBeforeTimedOut": 88,
        "executionNumber": 2939653338,
        "jobId": "SampleJob",
        "lastUpdatedAt": 1567714853.743,
        "queuedAt": 1567701902.444,
        "startedAt": 1567714871.690,
        "status": "IN_PROGRESS",
        "thingName": "MotionSensor1 ",
        "versionNumber": 3
   }
}
```
Untuk informasi selengkapnya, lihat [Perangkat dan Pekerjaan](https://docs.aws.amazon.com/iot/latest/developerguide/jobs-devices.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [StartNextPendingJobExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot-jobs-data/start-next-pending-job-execution.html)di *Referensi AWS CLI Perintah*. 

### `update-job-execution`
<a name="iot-jobs-data-plane_UpdateJobExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-job-execution`.

**AWS CLI**  
**Untuk memperbarui status eksekusi pekerjaan**  
`update-job-execution`Contoh berikut memperbarui status pekerjaan dan hal yang ditentukan.  

```
aws iot-jobs-data update-job-execution \
    --job-id SampleJob \
    --thing-name MotionSensor1 \
    --status REMOVED \
    --endpoint-url https://1234567890abcd.jobs.iot.us-west-2.amazonaws.com
```
Output:  

```
{
    "executionState": {
        "status": "REMOVED",
        "versionNumber": 3
    },
}
```
Untuk informasi selengkapnya, lihat [Perangkat dan Pekerjaan](https://docs.aws.amazon.com/iot/latest/developerguide/jobs-devices.html) di Panduan *Pengembang AWS IoT*.  
+  Untuk detail API, lihat [UpdateJobExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iot-jobs-data/update-job-execution.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT SiteWise contoh menggunakan AWS CLI
<a name="cli_2_iotsitewise_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT SiteWise.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-assets`
<a name="iotsitewise_AssociateAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-assets`.

**AWS CLI**  
**Untuk mengaitkan aset anak dengan aset orang tua**  
`associate-assets`Contoh berikut mengaitkan aset turbin angin ke aset ladang angin, di mana model aset turbin angin ada sebagai hierarki dalam model aset ladang angin.  

```
aws iotsitewise associate-assets \
    --asset-id a1b2c3d4-5678-90ab-cdef-44444EXAMPLE \
    --hierarchy-id a1b2c3d4-5678-90ab-cdef-77777EXAMPLE \
    --child-asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaitkan aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/add-associated-assets.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [AssociateAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/associate-assets.html)di *Referensi AWS CLI Perintah*. 

### `batch-associate-project-assets`
<a name="iotsitewise_BatchAssociateProjectAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-associate-project-assets`.

**AWS CLI**  
**Untuk mengaitkan aset dengan proyek**  
`batch-associate-project-assets`Contoh berikut mengaitkan aset ladang angin ke sebuah proyek.  

```
aws iotsitewise batch-associate-project-assets \
    --project-id a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE \
    --asset-ids a1b2c3d4-5678-90ab-cdef-44444EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan aset ke proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/add-assets-to-projects-sd.html) di Panduan *Aplikasi SiteWise Monitor AWS IoT*.  
+  Untuk detail API, lihat [BatchAssociateProjectAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/batch-associate-project-assets.html)di *Referensi AWS CLI Perintah*. 

### `batch-disassociate-project-assets`
<a name="iotsitewise_BatchDisassociateProjectAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-disassociate-project-assets`.

**AWS CLI**  
**Untuk memisahkan aset dari proyek**  
`batch-disassociate-project-assets`Contoh berikut memisahkan aset ladang angin dari sebuah proyek.  

```
aws iotsitewise batch-disassociate-project-assets \
    --project-id a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE \
    --asset-ids a1b2c3d4-5678-90ab-cdef-44444EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan aset ke proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/add-assets-to-projects-sd.html) di Panduan *Aplikasi SiteWise Monitor AWS IoT*.  
+  Untuk detail API, lihat [BatchDisassociateProjectAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/batch-disassociate-project-assets.html)di *Referensi AWS CLI Perintah*. 

### `batch-put-asset-property-value`
<a name="iotsitewise_BatchPutAssetPropertyValue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-put-asset-property-value`.

**AWS CLI**  
**Untuk mengirim data ke properti aset**  
`batch-put-asset-property-value`Contoh berikut mengirimkan data daya dan suhu ke properti aset yang diidentifikasi oleh alias properti.  

```
aws iotsitewise batch-put-asset-property-value \
    --cli-input-json file://batch-put-asset-property-value.json
```
Isi dari `batch-put-asset-property-value.json`:  

```
{
    "entries": [
        {
            "entryId": "1575691200-company-windfarm-3-turbine-7-power",
            "propertyAlias": "company-windfarm-3-turbine-7-power",
            "propertyValues": [
                {
                    "value": {
                        "doubleValue": 4.92
                    },
                    "timestamp": {
                        "timeInSeconds": 1575691200
                    },
                    "quality": "GOOD"
                }
            ]
        },
        {
            "entryId": "1575691200-company-windfarm-3-turbine-7-temperature",
            "propertyAlias": "company-windfarm-3-turbine-7-temperature",
            "propertyValues": [
                {
                    "value": {
                        "integerValue": 38
                    },
                    "timestamp": {
                        "timeInSeconds": 1575691200
                    }
                }
            ]
        }
    ]
}
```
Output:  

```
{
    "errorEntries": []
}
```
Untuk informasi selengkapnya, lihat [Menyerap data menggunakan API AWS SiteWise IoT](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/ingest-api.html) di Panduan Pengguna *AWS IoT SiteWise *.  
+  Untuk detail API, lihat [BatchPutAssetPropertyValue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/batch-put-asset-property-value.html)di *Referensi AWS CLI Perintah*. 

### `create-access-policy`
<a name="iotsitewise_CreateAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-access-policy`.

**AWS CLI**  
**Contoh 1: Untuk memberikan akses administratif pengguna ke portal**  
`create-access-policy`Contoh berikut membuat kebijakan akses yang memberikan akses administratif pengguna ke portal web untuk perusahaan peternakan angin.  

```
aws iotsitewise create-access-policy \
    --cli-input-json file://create-portal-administrator-access-policy.json
```
Isi dari `create-portal-administrator-access-policy.json`:  

```
{
    "accessPolicyIdentity": {
        "user": {
            "id": "a1b2c3d4e5-a1b2c3d4-5678-90ab-cdef-bbbbbEXAMPLE"
        }
    },
    "accessPolicyPermission": "ADMINISTRATOR",
    "accessPolicyResource": {
        "portal": {
            "id": "a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE"
        }
    }
}
```
Output:  

```
{
    "accessPolicyId": "a1b2c3d4-5678-90ab-cdef-cccccEXAMPLE",
    "accessPolicyArn": "arn:aws:iotsitewise:us-west-2:123456789012:access-policy/a1b2c3d4-5678-90ab-cdef-cccccEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan atau menghapus administrator portal](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/administer-portals.html#portal-change-admins) di Panduan Pengguna *AWS SiteWise IoT*.  
**Contoh 2: Untuk memberikan pengguna akses hanya-baca ke proyek**  
`create-access-policy`Contoh berikut membuat kebijakan akses yang memberikan pengguna akses hanya-baca ke proyek ladang angin.  

```
aws iotsitewise create-access-policy \
    --cli-input-json file://create-project-viewer-access-policy.json
```
Isi dari `create-project-viewer-access-policy.json`:  

```
{
    "accessPolicyIdentity": {
        "user": {
            "id": "a1b2c3d4e5-a1b2c3d4-5678-90ab-cdef-bbbbbEXAMPLE"
        }
    },
    "accessPolicyPermission": "VIEWER",
    "accessPolicyResource": {
        "project": {
            "id": "a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE"
        }
    }
}
```
Output:  

```
{
    "accessPolicyId": "a1b2c3d4-5678-90ab-cdef-dddddEXAMPLE",
    "accessPolicyArn": "arn:aws:iotsitewise:us-west-2:123456789012:access-policy/a1b2c3d4-5678-90ab-cdef-dddddEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menetapkan pemirsa proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/assign-project-viewers.html) di Panduan Aplikasi *Monitor AWS SiteWise IoT*.  
+  Untuk detail API, lihat [CreateAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/create-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `create-asset-model`
<a name="iotsitewise_CreateAssetModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-asset-model`.

**AWS CLI**  
**Untuk membuat model aset**  
`create-asset-model`Contoh berikut menciptakan model aset yang mendefinisikan turbin angin dengan sifat-sifat berikut:  
Nomor seri - Nomor seri turbin anginDaya energi - Aliran data daya yang dihasilkan dari turbin anginSuhu C - Aliran data suhu dari turbin angin di CelsiusTemperature F - Titik data suhu yang dipetakan dari Celcius ke Fahrenheit  

```
aws iotsitewise create-asset-model \
    --cli-input-json file://create-wind-turbine-model.json
```
Isi dari `create-wind-turbine-model.json`:  

```
{
    "assetModelName": "Wind Turbine Model",
    "assetModelDescription": "Represents a wind turbine",
    "assetModelProperties": [
        {
            "name": "Serial Number",
            "dataType": "STRING",
            "type": {
                "attribute": {}
            }
        },
        {
            "name": "Generated Power",
            "dataType": "DOUBLE",
            "unit": "kW",
            "type": {
                "measurement": {}
            }
        },
        {
            "name": "Temperature C",
            "dataType": "DOUBLE",
            "unit": "Celsius",
            "type": {
                "measurement": {}
            }
        },
        {
            "name": "Temperature F",
            "dataType": "DOUBLE",
            "unit": "Fahrenheit",
            "type": {
                "transform": {
                    "expression": "temp_c * 9 / 5 + 32",
                    "variables": [
                        {
                            "name": "temp_c",
                            "value": {
                                "propertyId": "Temperature C"
                            }
                        }
                    ]
                }
            }
        },
        {
            "name": "Total Generated Power",
            "dataType": "DOUBLE",
            "unit": "kW",
            "type": {
                "metric": {
                    "expression": "sum(power)",
                    "variables": [
                        {
                            "name": "power",
                            "value": {
                                "propertyId": "Generated Power"
                            }
                        }
                    ],
                    "window": {
                        "tumbling": {
                            "interval": "1h"
                        }
                    }
                }
            }
        }
    ]
}
```
Output:  

```
{
    "assetModelId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
    "assetModelArn": "arn:aws:iotsitewise:us-west-2:123456789012:asset-model/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
    "assetModelStatus": {
        "state": "CREATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Mendefinisikan model aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/define-models.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [CreateAssetModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/create-asset-model.html)di *Referensi AWS CLI Perintah*. 

### `create-asset`
<a name="iotsitewise_CreateAsset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-asset`.

**AWS CLI**  
**Untuk membuat aset**  
`create-asset`Contoh berikut menciptakan aset turbin angin dari model aset turbin angin.  

```
aws iotsitewise create-asset \
    --asset-model-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE \
    --asset-name "Wind Turbine 1"
```
Output:  

```
{
    "assetId": "a1b2c3d4-5678-90ab-cdef-33333EXAMPLE",
    "assetArn": "arn:aws:iotsitewise:us-west-2:123456789012:asset/a1b2c3d4-5678-90ab-cdef-33333EXAMPLE",
    "assetStatus": {
        "state": "CREATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/create-assets.html) di * SiteWise Panduan Pengguna AWS IoT*.  
+  Untuk detail API, lihat [CreateAsset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/create-asset.html)di *Referensi AWS CLI Perintah*. 

### `create-dashboard`
<a name="iotsitewise_CreateDashboard_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-dashboard`.

**AWS CLI**  
**Untuk membuat dasbor**  
`create-dashboard`Contoh berikut membuat dasbor dengan diagram garis yang menampilkan total daya yang dihasilkan untuk ladang angin.  

```
aws iotsitewise create-dashboard \
    --project-id a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE \
    --dashboard-name "Wind Farm" \
    --dashboard-definition file://create-wind-farm-dashboard.json
```
Isi dari `create-wind-farm-dashboard.json`:  

```
{
    "widgets": [
        {
            "type": "monitor-line-chart",
            "title": "Generated Power",
            "x": 0,
            "y": 0,
            "height": 3,
            "width": 3,
            "metrics": [
                {
                    "label": "Power",
                    "type": "iotsitewise",
                    "assetId": "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE",
                    "propertyId": "a1b2c3d4-5678-90ab-cdef-99999EXAMPLE"
                }
            ]
        }
    ]
}
```
Output:  

```
{
    "dashboardId": "a1b2c3d4-5678-90ab-cdef-fffffEXAMPLE",
    "dashboardArn": "arn:aws:iotsitewise:us-west-2:123456789012:dashboard/a1b2c3d4-5678-90ab-cdef-fffffEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Membuat dasbor (CLI](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/create-dashboards-using-aws-cli.html)) di Panduan Pengguna *AWS IoT SiteWise *.  
+  Untuk detail API, lihat [CreateDashboard](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/create-dashboard.html)di *Referensi AWS CLI Perintah*. 

### `create-gateway`
<a name="iotsitewise_CreateGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-gateway`.

**AWS CLI**  
**Untuk membuat gateway**  
`create-gateway`Contoh berikut membuat gateway yang berjalan di AWS IoT Greengrass.  

```
aws iotsitewise create-gateway \
    --gateway-name ExampleCorpGateway \
    --gateway-platform greengrass={groupArn=arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/a1b2c3d4-5678-90ab-cdef-1b1b1EXAMPLE}
```
Output:  

```
{
    "gatewayId": "a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE",
    "gatewayArn": "arn:aws:iotsitewise:us-west-2:123456789012:gateway/a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi gateway](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/configure-gateway.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [CreateGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/create-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-portal`
<a name="iotsitewise_CreatePortal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-portal`.

**AWS CLI**  
**Untuk membuat portal**  
`create-portal`Contoh berikut membuat portal web untuk perusahaan peternakan angin. Anda dapat membuat portal hanya di Wilayah yang sama tempat Anda mengaktifkan AWS Single Sign-On.  

```
aws iotsitewise create-portal \
    --portal-name WindFarmPortal \
    --portal-description "A portal that contains wind farm projects for Example Corp." \
    --portal-contact-email support@example.com \
    --role-arn arn:aws:iam::123456789012:role/service-role/MySiteWiseMonitorServiceRole
```
Output:  

```
{
    "portalId": "a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE",
    "portalArn": "arn:aws:iotsitewise:us-west-2:123456789012:portal/a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE",
    "portalStartUrl": "https://a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE.app.iotsitewise.aws",
    "portalStatus": {
        "state": "CREATING"
    },
    "ssoApplicationId": "ins-a1b2c3d4-EXAMPLE"
}
```
*Untuk informasi selengkapnya, lihat [Memulai SiteWise Monitor AWS IoT](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/monitor-getting-started.html) di *Panduan SiteWise Pengguna AWS IoT dan [Mengaktifkan SSO AWS di](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/monitor-getting-started.html#monitor-enable-sso) Panduan Pengguna IoT*..AWS SiteWise *  
+  Untuk detail API, lihat [CreatePortal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/create-portal.html)di *Referensi AWS CLI Perintah*. 

### `create-project`
<a name="iotsitewise_CreateProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-project`.

**AWS CLI**  
**Untuk membuat proyek**  
`create-project`Contoh berikut menciptakan proyek ladang angin.  

```
aws iotsitewise create-project \
    --portal-id a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE \
    --project-name "Wind Farm 1" \
    --project-description "Contains asset visualizations for Wind Farm #1 for Example Corp."
```
Output:  

```
{
    "projectId": "a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE",
    "projectArn": "arn:aws:iotsitewise:us-west-2:123456789012:project/a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Membuat proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/create-projects.html) di Panduan *Aplikasi SiteWise Monitor AWS IoT*.  
+  Untuk detail API, lihat [CreateProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/create-project.html)di *Referensi AWS CLI Perintah*. 

### `delete-access-policy`
<a name="iotsitewise_DeleteAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-access-policy`.

**AWS CLI**  
**Untuk mencabut akses pengguna ke proyek atau portal**  
`delete-access-policy`Contoh berikut menghapus kebijakan akses yang memberikan akses administratif pengguna ke portal.  

```
aws iotsitewise delete-access-policy \
    --access-policy-id a1b2c3d4-5678-90ab-cdef-cccccEXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan atau menghapus administrator portal](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/administer-portals.html#portal-change-admins) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DeleteAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/delete-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-asset-model`
<a name="iotsitewise_DeleteAssetModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-asset-model`.

**AWS CLI**  
**Untuk menghapus model aset**  
`delete-asset-model`Contoh berikut menghapus model aset turbin angin.  

```
aws iotsitewise delete-asset-model \
    --asset-model-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Output:  

```
{
    "assetModelStatus": {
        "state": "DELETING"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus model aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/delete-assets-and-models.html#delete-asset-models) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [DeleteAssetModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/delete-asset-model.html)di *Referensi AWS CLI Perintah*. 

### `delete-asset`
<a name="iotsitewise_DeleteAsset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-asset`.

**AWS CLI**  
**Untuk menghapus aset**  
`delete-asset`Contoh berikut menghapus aset turbin angin.  

```
aws iotsitewise delete-asset \
    --asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE
```
Output:  

```
{
    "assetStatus": {
        "state": "DELETING"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/delete-assets-and-models.html#delete-assets) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [DeleteAsset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/delete-asset.html)di *Referensi AWS CLI Perintah*. 

### `delete-dashboard`
<a name="iotsitewise_DeleteDashboard_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-dashboard`.

**AWS CLI**  
**Untuk menghapus dasbor**  
`delete-dashboard`Contoh berikut menghapus dasbor turbin angin.  

```
aws iotsitewise delete-dashboard \
    --dashboard-id a1b2c3d4-5678-90ab-cdef-fffffEXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus dasbor](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/delete-dashboards.html) di Panduan Aplikasi Monitor *AWS IoT SiteWise *.  
+  Untuk detail API, lihat [DeleteDashboard](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/delete-dashboard.html)di *Referensi AWS CLI Perintah*. 

### `delete-gateway`
<a name="iotsitewise_DeleteGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-gateway`.

**AWS CLI**  
**Untuk menghapus gateway**  
`delete-gateway`Contoh berikut menghapus gateway.  

```
aws iotsitewise delete-gateway \
    --gateway-id a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyerap data menggunakan gateway](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/gateways.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DeleteGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/delete-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-portal`
<a name="iotsitewise_DeletePortal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-portal`.

**AWS CLI**  
**Untuk menghapus portal**  
`delete-portal`Contoh berikut menghapus portal web untuk perusahaan peternakan angin.  

```
aws iotsitewise delete-portal \
    --portal-id a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE
```
Output:  

```
{
    "portalStatus": {
        "state": "DELETING"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus portal](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/administer-portals.html#portal-delete-portal) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DeletePortal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/delete-portal.html)di *Referensi AWS CLI Perintah*. 

### `delete-project`
<a name="iotsitewise_DeleteProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-project`.

**AWS CLI**  
**Untuk menghapus proyek**  
`delete-project`Contoh berikut menghapus proyek ladang angin.  

```
aws iotsitewise delete-project \
    --project-id a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/delete-projects.html) di Panduan Aplikasi *Monitor AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DeleteProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/delete-project.html)di *Referensi AWS CLI Perintah*. 

### `describe-access-policy`
<a name="iotsitewise_DescribeAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-access-policy`.

**AWS CLI**  
**Untuk mendeskripsikan kebijakan akses**  
`describe-access-policy`Contoh berikut menjelaskan kebijakan akses yang memberikan akses administratif pengguna ke portal web untuk perusahaan peternakan angin.  

```
aws iotsitewise describe-access-policy \
    --access-policy-id a1b2c3d4-5678-90ab-cdef-cccccEXAMPLE
```
Output:  

```
{
    "accessPolicyId": "a1b2c3d4-5678-90ab-cdef-cccccEXAMPLE",
    "accessPolicyArn": "arn:aws:iotsitewise:us-west-2:123456789012:access-policy/a1b2c3d4-5678-90ab-cdef-cccccEXAMPLE",
    "accessPolicyIdentity": {
        "user": {
            "id": "a1b2c3d4e5-a1b2c3d4-5678-90ab-cdef-bbbbbEXAMPLE"
        }
    },
    "accessPolicyResource": {
        "portal": {
            "id": "a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE"
        }
    },
    "accessPolicyPermission": "ADMINISTRATOR",
    "accessPolicyCreationDate": "2020-02-20T22:35:15.552880124Z",
    "accessPolicyLastUpdateDate": "2020-02-20T22:35:15.552880124Z"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan atau menghapus administrator portal](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/administer-portals.html#portal-change-admins) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DescribeAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `describe-asset-model`
<a name="iotsitewise_DescribeAssetModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-asset-model`.

**AWS CLI**  
**Untuk menggambarkan model aset**  
`describe-asset-model`Contoh berikut menjelaskan model aset ladang angin.  

```
aws iotsitewise describe-asset-model \
    --asset-model-id a1b2c3d4-5678-90ab-cdef-22222EXAMPLE
```
Output:  

```
{
    "assetModelId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
    "assetModelArn": "arn:aws:iotsitewise:us-west-2:123456789012:asset-model/a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
    "assetModelName": "Wind Farm Model",
    "assetModelDescription": "Represents a wind farm that comprises many wind turbines",
    "assetModelProperties": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-99999EXAMPLE",
            "name": "Total Generated Power",
            "dataType": "DOUBLE",
            "unit": "kW",
            "type": {
                "metric": {
                    "expression": "sum(power)",
                    "variables": [
                        {
                            "name": "power",
                            "value": {
                                "propertyId": "a1b2c3d4-5678-90ab-cdef-66666EXAMPLE",
                                "hierarchyId": "a1b2c3d4-5678-90ab-cdef-77777EXAMPLE"
                            }
                        }
                    ],
                    "window": {
                        "tumbling": {
                            "interval": "1h"
                        }
                    }
                }
            }
        },
        {
            "id": "a1b2c3d4-5678-90ab-cdef-88888EXAMPLE",
            "name": "Region",
            "dataType": "STRING",
            "type": {
                "attribute": {
                    "defaultValue": " "
                }
            }
        }
    ],
    "assetModelHierarchies": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-77777EXAMPLE",
            "name": "Wind Turbines",
            "childAssetModelId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
        }
    ],
    "assetModelCreationDate": 1575671284.0,
    "assetModelLastUpdateDate": 1575671988.0,
    "assetModelStatus": {
        "state": "ACTIVE"
    }
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan model aset tertentu](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/discover-asset-resources.html#describe-asset-model) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DescribeAssetModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-asset-model.html)di *Referensi AWS CLI Perintah*. 

### `describe-asset-property`
<a name="iotsitewise_DescribeAssetProperty_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-asset-property`.

**AWS CLI**  
**Untuk menggambarkan properti aset**  
`describe-asset-property`Contoh berikut menjelaskan total properti daya yang dihasilkan aset ladang angin.  

```
aws iotsitewise describe-asset-property \
    --asset-id a1b2c3d4-5678-90ab-cdef-44444EXAMPLE \
    --property-id a1b2c3d4-5678-90ab-cdef-99999EXAMPLE
```
Output:  

```
{
    "assetId": "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE",
    "assetName": "Wind Farm 1",
    "assetModelId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
    "assetProperty": {
        "id": "a1b2c3d4-5678-90ab-cdef-99999EXAMPLE",
        "name": "Total Generated Power",
        "notification": {
            "topic": "$aws/sitewise/asset-models/a1b2c3d4-5678-90ab-cdef-22222EXAMPLE/assets/a1b2c3d4-5678-90ab-cdef-44444EXAMPLE/properties/a1b2c3d4-5678-90ab-cdef-99999EXAMPLE",
            "state": "DISABLED"
        },
        "dataType": "DOUBLE",
        "unit": "kW",
        "type": {
            "metric": {
                "expression": "sum(power)",
                "variables": [
                    {
                        "name": "power",
                        "value": {
                            "propertyId": "a1b2c3d4-5678-90ab-cdef-66666EXAMPLE",
                            "hierarchyId": "a1b2c3d4-5678-90ab-cdef-77777EXAMPLE"
                        }
                    }
                ],
                "window": {
                    "tumbling": {
                        "interval": "1h"
                    }
                }
            }
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan properti aset tertentu](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/discover-asset-resources.html#describe-asset-property) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DescribeAssetProperty](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-asset-property.html)di *Referensi AWS CLI Perintah*. 

### `describe-asset`
<a name="iotsitewise_DescribeAsset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-asset`.

**AWS CLI**  
**Untuk menggambarkan aset**  
`describe-asset`Contoh berikut menjelaskan aset ladang angin.  

```
aws iotsitewise describe-asset \
    --asset-id a1b2c3d4-5678-90ab-cdef-44444EXAMPLE
```
Output:  

```
{
    "assetId": "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE",
    "assetArn": "arn:aws:iotsitewise:us-west-2:123456789012:asset/a1b2c3d4-5678-90ab-cdef-44444EXAMPLE",
    "assetName": "Wind Farm 1",
    "assetModelId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
    "assetProperties": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-88888EXAMPLE",
            "name": "Region",
            "dataType": "STRING"
        },
        {
            "id": "a1b2c3d4-5678-90ab-cdef-99999EXAMPLE",
            "name": "Total Generated Power",
            "dataType": "DOUBLE",
            "unit": "kW"
        }
    ],
    "assetHierarchies": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-77777EXAMPLE",
            "name": "Wind Turbines"
        }
    ],
    "assetCreationDate": 1575672453.0,
    "assetLastUpdateDate": 1575672453.0,
    "assetStatus": {
        "state": "ACTIVE"
    }
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan aset tertentu](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/discover-asset-resources.html#describe-asset) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DescribeAsset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-asset.html)di *Referensi AWS CLI Perintah*. 

### `describe-dashboard`
<a name="iotsitewise_DescribeDashboard_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-dashboard`.

**AWS CLI**  
**Untuk menggambarkan dasbor**  
`describe-dashboard`Contoh berikut menjelaskan dasbor ladang angin yang ditentukan.  

```
aws iotsitewise describe-dashboard \
    --dashboard-id a1b2c3d4-5678-90ab-cdef-fffffEXAMPLE
```
Output:  

```
{
    "dashboardId": "a1b2c3d4-5678-90ab-cdef-fffffEXAMPLE",
    "dashboardArn": "arn:aws:iotsitewise:us-west-2:123456789012:dashboard/a1b2c3d4-5678-90ab-cdef-fffffEXAMPLE",
    "dashboardName": "Wind Farm",
    "projectId": "a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE",
    "dashboardDefinition": "{\"widgets\":[{\"type\":\"monitor-line-chart\",\"title\":\"Generated Power\",\"x\":0,\"y\":0,\"height\":3,\"width\":3,\"metrics\":[{\"label\":\"Power\",\"type\":\"iotsitewise\",\"assetId\":\"a1b2c3d4-5678-90ab-cdef-44444EXAMPLE\",\"propertyId\":\"a1b2c3d4-5678-90ab-cdef-99999EXAMPLE\"}]}]}",
    "dashboardCreationDate": "2020-05-01T20:32:12.228476348Z",
    "dashboardLastUpdateDate": "2020-05-01T20:32:12.228476348Z"
}
```
Untuk informasi selengkapnya, lihat [Melihat dasbor](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/view-dashboards.html) di Panduan Aplikasi *Monitor AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DescribeDashboard](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-dashboard.html)di *Referensi AWS CLI Perintah*. 

### `describe-gateway-capability-configuration`
<a name="iotsitewise_DescribeGatewayCapabilityConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-gateway-capability-configuration`.

**AWS CLI**  
**Untuk menggambarkan kemampuan gateway**  
`describe-gateway-capability-configuration`Contoh berikut menjelaskan kemampuan sumber OPC-UA.  

```
aws iotsitewise describe-gateway-capability-configuration \
    --gateway-id a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE \
    --capability-namespace "iotsitewise:opcuacollector:1"
```
Output:  

```
{
    "gatewayId": "a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE",
    "capabilityNamespace": "iotsitewise:opcuacollector:1",
    "capabilityConfiguration": "{\"sources\":[{\"name\":\"Wind Farm #1\",\"endpoint\":{\"certificateTrust\":{\"type\":\"TrustAny\"},\"endpointUri\":\"opc.tcp://203.0.113.0:49320\",\"securityPolicy\":\"BASIC256\",\"messageSecurityMode\":\"SIGN_AND_ENCRYPT\",\"identityProvider\":{\"type\":\"Username\",\"usernameSecretArn\":\"arn:aws:secretsmanager:us-east-1:123456789012:secret:greengrass-factory1-auth-3QNDmM\"},\"nodeFilterRules\":[]},\"measurementDataStreamPrefix\":\"\"}]}",
    "capabilitySyncStatus": "IN_SYNC"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi sumber data](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/configure-sources.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [DescribeGatewayCapabilityConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-gateway-capability-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-gateway`
<a name="iotsitewise_DescribeGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-gateway`.

**AWS CLI**  
**Untuk menggambarkan gateway**  
`describe-gateway`Contoh berikut menjelaskan gateway.  

```
aws iotsitewise describe-gateway \
    --gateway-id a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE
```
Output:  

```
{
    "gatewayId": "a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE",
    "gatewayName": "ExampleCorpGateway",
    "gatewayArn": "arn:aws:iotsitewise:us-west-2:123456789012:gateway/a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE",
    "gatewayPlatform": {
        "greengrass": {
            "groupArn": "arn:aws:greengrass:us-west-2:123456789012:/greengrass/groups/a1b2c3d4-5678-90ab-cdef-1b1b1EXAMPLE"
        }
    },
    "gatewayCapabilitySummaries": [
        {
            "capabilityNamespace": "iotsitewise:opcuacollector:1",
            "capabilitySyncStatus": "IN_SYNC"
        }
    ],
    "creationDate": 1588369971.457,
    "lastUpdateDate": 1588369971.457
}
```
Untuk informasi selengkapnya, lihat [Menyerap data menggunakan gateway](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/gateways.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DescribeGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-gateway.html)di *Referensi AWS CLI Perintah*. 

### `describe-logging-options`
<a name="iotsitewise_DescribeLoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-logging-options`.

**AWS CLI**  
**Untuk mengambil opsi pencatatan AWS SiteWise IoT saat ini**  
`describe-logging-options`Contoh berikut mengambil opsi pencatatan AWS SiteWise IoT saat ini untuk akun AWS Anda di Wilayah saat ini.  

```
aws iotsitewise describe-logging-options
```
Output:  

```
{
    "loggingOptions": {
        "level": "INFO"
    }
}
```
Untuk informasi selengkapnya, lihat [Memantau AWS IoT dengan CloudWatch Log SiteWise Amazon](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/monitor-cloudwatch-logs.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DescribeLoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-logging-options.html)di *Referensi AWS CLI Perintah*. 

### `describe-portal`
<a name="iotsitewise_DescribePortal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-portal`.

**AWS CLI**  
**Untuk menggambarkan portal**  
`describe-portal`Contoh berikut menjelaskan portal web untuk perusahaan peternakan angin.  

```
aws iotsitewise describe-portal \
    --portal-id a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE
```
Output:  

```
{
    "portalId": "a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE",
    "portalArn": "arn:aws:iotsitewise:us-west-2:123456789012:portal/a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE",
    "portalName": "WindFarmPortal",
    "portalDescription": "A portal that contains wind farm projects for Example Corp.",
    "portalClientId": "E-a1b2c3d4e5f6_a1b2c3d4e5f6EXAMPLE",
    "portalStartUrl": "https://a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE.app.iotsitewise.aws",
    "portalContactEmail": "support@example.com",
    "portalStatus": {
        "state": "ACTIVE"
    },
    "portalCreationDate": "2020-02-04T23:01:52.90248068Z",
    "portalLastUpdateDate": "2020-02-04T23:01:52.90248078Z",
    "roleArn": "arn:aws:iam::123456789012:role/MySiteWiseMonitorServiceRole"
}
```
Untuk informasi selengkapnya, lihat [Mengelola portal Anda](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/administer-portals.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [DescribePortal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-portal.html)di *Referensi AWS CLI Perintah*. 

### `describe-project`
<a name="iotsitewise_DescribeProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-project`.

**AWS CLI**  
**Untuk menggambarkan sebuah proyek**  
`describe-project`Contoh berikut menjelaskan proyek ladang angin.  

```
aws iotsitewise describe-project \
    --project-id a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE
```
Output:  

```
{
    "projectId": "a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE",
    "projectArn": "arn:aws:iotsitewise:us-west-2:123456789012:project/a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE",
    "projectName": "Wind Farm 1",
    "portalId": "a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE",
    "projectDescription": "Contains asset visualizations for Wind Farm #1 for Example Corp.",
    "projectCreationDate": "2020-02-20T21:58:43.362246001Z",
    "projectLastUpdateDate": "2020-02-20T21:58:43.362246095Z"
}
```
Untuk informasi selengkapnya, lihat [Melihat detail proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/view-project-details.html) di Panduan *Aplikasi SiteWise Monitor AWS IoT*.  
+  Untuk detail API, lihat [DescribeProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/describe-project.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-assets`
<a name="iotsitewise_DisassociateAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-assets`.

**AWS CLI**  
**Untuk memisahkan aset anak dari aset orang tua**  
`disassociate-assets`Contoh berikut memisahkan aset turbin angin dari aset ladang angin.  

```
aws iotsitewise disassociate-assets \
    --asset-id a1b2c3d4-5678-90ab-cdef-44444EXAMPLE \
    --hierarchy-id a1b2c3d4-5678-90ab-cdef-77777EXAMPLE \
    --child-asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaitkan aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/add-associated-assets.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [DisassociateAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/disassociate-assets.html)di *Referensi AWS CLI Perintah*. 

### `get-asset-property-aggregates`
<a name="iotsitewise_GetAssetPropertyAggregates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-asset-property-aggregates`.

**AWS CLI**  
**Untuk mengambil nilai rata-rata agregat dan menghitung nilai properti aset**  
`get-asset-property-aggregates`Contoh berikut mengambil daya total rata-rata aset turbin angin dan jumlah titik data daya total untuk periode 1 jam.  

```
aws iotsitewise get-asset-property-aggregates \
    --asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE \
    --property-id a1b2c3d4-5678-90ab-cdef-66666EXAMPLE \
    --start-date 1580849400 \
    --end-date 1580853000 \
    --aggregate-types AVERAGE COUNT \
    --resolution 1h
```
Output:  

```
{
    "aggregatedValues": [
        {
            "timestamp": 1580850000.0,
            "quality": "GOOD",
            "value": {
                "average": 8723.46538886233,
                "count": 12.0
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menanyakan agregat properti aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/query-industrial-data.html#aggregates) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [GetAssetPropertyAggregates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/get-asset-property-aggregates.html)di *Referensi AWS CLI Perintah*. 

### `get-asset-property-value-history`
<a name="iotsitewise_GetAssetPropertyValueHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-asset-property-value-history`.

**AWS CLI**  
**Untuk mengambil nilai historis properti aset**  
`get-asset-property-value-history`Contoh berikut mengambil nilai daya total aset turbin angin untuk jangka waktu 20 menit.  

```
aws iotsitewise get-asset-property-value-history \
    --asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE \
    --property-id a1b2c3d4-5678-90ab-cdef-66666EXAMPLE \
    --start-date 1580851800 \
    --end-date 1580853000
```
Output:  

```
{
    "assetPropertyValueHistory": [
        {
            "value": {
                "doubleValue": 7217.787046814844
            },
            "timestamp": {
                "timeInSeconds": 1580852100,
                "offsetInNanos": 0
            },
            "quality": "GOOD"
        },
        {
            "value": {
                "doubleValue": 6941.242811875451
            },
            "timestamp": {
                "timeInSeconds": 1580852400,
                "offsetInNanos": 0
            },
            "quality": "GOOD"
        },
        {
            "value": {
                "doubleValue": 6976.797662266717
            },
            "timestamp": {
                "timeInSeconds": 1580852700,
                "offsetInNanos": 0
            },
            "quality": "GOOD"
        },
        {
            "value": {
                "doubleValue": 6890.8677520453875
            },
            "timestamp": {
                "timeInSeconds": 1580853000,
                "offsetInNanos": 0
            },
            "quality": "GOOD"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menanyakan nilai properti aset historis](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/query-industrial-data.html#historical-values) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [GetAssetPropertyValueHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/get-asset-property-value-history.html)di *Referensi AWS CLI Perintah*. 

### `get-asset-property-value`
<a name="iotsitewise_GetAssetPropertyValue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-asset-property-value`.

**AWS CLI**  
**Untuk mengambil nilai aset properti saat ini**  
`get-asset-property-value`Contoh berikut mengambil daya total aset turbin angin saat ini.  

```
aws iotsitewise get-asset-property-value \
    --asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE \
    --property-id a1b2c3d4-5678-90ab-cdef-66666EXAMPLE
```
Output:  

```
{
    "propertyValue": {
        "value": {
            "doubleValue": 6890.8677520453875
        },
        "timestamp": {
            "timeInSeconds": 1580853000,
            "offsetInNanos": 0
        },
        "quality": "GOOD"
    }
}
```
Untuk informasi selengkapnya, lihat [Menanyakan nilai properti aset saat ini](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/query-industrial-data.html#current-values) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [GetAssetPropertyValue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/get-asset-property-value.html)di *Referensi AWS CLI Perintah*. 

### `list-access-policies`
<a name="iotsitewise_ListAccessPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-access-policies`.

**AWS CLI**  
**Untuk mencantumkan semua kebijakan akses**  
`list-access-policies`Contoh berikut mencantumkan semua kebijakan akses untuk pengguna yang merupakan administrator portal.  

```
aws iotsitewise list-access-policies \
    --identity-type USER \
    --identity-id a1b2c3d4e5-a1b2c3d4-5678-90ab-cdef-bbbbbEXAMPLE
```
Output:  

```
{
    "accessPolicySummaries": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-cccccEXAMPLE",
            "identity": {
                "user": {
                    "id": "a1b2c3d4e5-a1b2c3d4-5678-90ab-cdef-bbbbbEXAMPLE"
                }
            },
            "resource": {
                "portal": {
                    "id": "a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE"
                }
            },
            "permission": "ADMINISTRATOR"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola portal Anda](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/administer-portals.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [ListAccessPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-access-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-asset-models`
<a name="iotsitewise_ListAssetModels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-asset-models`.

**AWS CLI**  
**Untuk membuat daftar semua model aset**  
`list-asset-models`Contoh berikut mencantumkan semua model aset yang ditentukan di AWS akun Anda di Wilayah saat ini.  

```
aws iotsitewise list-asset-models
```
Output:  

```
{
    "assetModelSummaries": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
            "arn": "arn:aws:iotsitewise:us-west-2:123456789012:asset-model/a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
            "name": "Wind Farm Model",
            "description": "Represents a wind farm that comprises many wind turbines",
            "creationDate": 1575671284.0,
            "lastUpdateDate": 1575671988.0,
            "status": {
                "state": "ACTIVE"
            }
        },
        {
            "id": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "arn": "arn:aws:iotsitewise:us-west-2:123456789012:asset-model/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "name": "Wind Turbine Model",
            "description": "Represents a wind turbine manufactured by Example Corp",
            "creationDate": 1575671207.0,
            "lastUpdateDate": 1575686273.0,
            "status": {
                "state": "ACTIVE"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencantumkan semua model aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/discover-asset-resources.html#list-asset-models) di * SiteWise Panduan Pengguna AWS IoT*.  
+  Untuk detail API, lihat [ListAssetModels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-asset-models.html)di *Referensi AWS CLI Perintah*. 

### `list-assets`
<a name="iotsitewise_ListAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-assets`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua aset tingkat atas**  
`list-assets`Contoh berikut mencantumkan semua aset yang berada di level teratas dalam pohon hierarki aset dan ditentukan di AWS akun Anda di Wilayah saat ini.  

```
aws iotsitewise list-assets \
    --filter TOP_LEVEL
```
Output:  

```
{
    "assetSummaries": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE",
            "arn": "arn:aws:iotsitewise:us-west-2:123456789012:asset/a1b2c3d4-5678-90ab-cdef-44444EXAMPLE",
            "name": "Wind Farm 1",
            "assetModelId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
            "creationDate": 1575672453.0,
            "lastUpdateDate": 1575672453.0,
            "status": {
                "state": "ACTIVE"
            },
            "hierarchies": [
                {
                    "id": "a1b2c3d4-5678-90ab-cdef-77777EXAMPLE",
                    "name": "Wind Turbines"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencantumkan aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/discover-asset-resources.html#list-assets) di * SiteWise Panduan Pengguna AWS IoT*.  
**Contoh 2: Untuk membuat daftar semua aset berdasarkan model aset**  
`list-assets`Contoh berikut mencantumkan semua aset berdasarkan model aset dan didefinisikan di AWS akun Anda di Wilayah saat ini.  

```
aws iotsitewise list-assets \
    --asset-model-id a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Output:  

```
{
    "assetSummaries": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-33333EXAMPLE",
            "arn": "arn:aws:iotsitewise:us-west-2:123456789012:asset/a1b2c3d4-5678-90ab-cdef-33333EXAMPLE",
            "name": "Wind Turbine 1",
            "assetModelId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "creationDate": 1575671550.0,
            "lastUpdateDate": 1575686308.0,
            "status": {
                "state": "ACTIVE"
            },
            "hierarchies": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencantumkan aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/discover-asset-resources.html#list-assets) di * SiteWise Panduan Pengguna AWS IoT*.  
+  Untuk detail API, lihat [ListAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-assets.html)di *Referensi AWS CLI Perintah*. 

### `list-associated-assets`
<a name="iotsitewise_ListAssociatedAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-associated-assets`.

**AWS CLI**  
**Untuk mencantumkan semua aset yang terkait dengan aset dalam hierarki tertentu**  
`list-associated-assets`Contoh berikut mencantumkan semua aset turbin angin yang terkait dengan aset ladang angin yang ditentukan.  

```
aws iotsitewise list-associated-assets \
    --asset-id a1b2c3d4-5678-90ab-cdef-44444EXAMPLE \
    --hierarchy-id a1b2c3d4-5678-90ab-cdef-77777EXAMPLE
```
Output:  

```
{
    "assetSummaries": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-33333EXAMPLE",
            "arn": "arn:aws:iotsitewise:us-west-2:123456789012:asset/a1b2c3d4-5678-90ab-cdef-33333EXAMPLE",
            "name": "Wind Turbine 1",
            "assetModelId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "creationDate": 1575671550.0,
            "lastUpdateDate": 1575686308.0,
            "status": {
                "state": "ACTIVE"
            },
            "hierarchies": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencantumkan aset yang terkait dengan aset tertentu](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/discover-asset-resources.html#list-associated-assets) di * SiteWise Panduan Pengguna AWS IoT*.  
+  Untuk detail API, lihat [ListAssociatedAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-associated-assets.html)di *Referensi AWS CLI Perintah*. 

### `list-dashboards`
<a name="iotsitewise_ListDashboards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-dashboards`.

**AWS CLI**  
**Untuk membuat daftar semua dasbor dalam sebuah proyek**  
`list-dashboards`Contoh berikut mencantumkan semua dasbor yang didefinisikan dalam sebuah proyek.  

```
aws iotsitewise list-dashboards \
    --project-id a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE
```
Output:  

```
{
    "dashboardSummaries": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-fffffEXAMPLE",
            "name": "Wind Farm",
            "creationDate": "2020-05-01T20:32:12.228476348Z",
            "lastUpdateDate": "2020-05-01T20:32:12.228476348Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat dasbor](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/view-dashboards.html) di Panduan Aplikasi *Monitor AWS SiteWise IoT*.  
+  Untuk detail API, lihat [ListDashboards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-dashboards.html)di *Referensi AWS CLI Perintah*. 

### `list-gateways`
<a name="iotsitewise_ListGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-gateways`.

**AWS CLI**  
**Untuk daftar semua gateway**  
`list-gateways`Contoh berikut mencantumkan semua gateway yang ditentukan di AWS akun Anda di Wilayah saat ini.  

```
aws iotsitewise list-gateways
```
Output:  

```
{
    "gatewaySummaries": [
        {
            "gatewayId": "a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE",
            "gatewayName": "ExampleCorpGateway",
            "gatewayCapabilitySummaries": [
                {
                    "capabilityNamespace": "iotsitewise:opcuacollector:1",
                    "capabilitySyncStatus": "IN_SYNC"
                }
            ],
            "creationDate": 1588369971.457,
            "lastUpdateDate": 1588369971.457
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyerap data menggunakan gateway](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/gateways.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [ListGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-gateways.html)di *Referensi AWS CLI Perintah*. 

### `list-portals`
<a name="iotsitewise_ListPortals_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-portals`.

**AWS CLI**  
**Untuk daftar semua portal**  
`list-portals`Contoh berikut mencantumkan semua portal yang ditentukan di AWS akun Anda di Wilayah saat ini.  

```
aws iotsitewise list-portals
```
Output:  

```
{
    "portalSummaries": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE",
            "name": "WindFarmPortal",
            "description": "A portal that contains wind farm projects for Example Corp.",
            "startUrl": "https://a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE.app.iotsitewise.aws",
            "creationDate": "2020-02-04T23:01:52.90248068Z",
            "lastUpdateDate": "2020-02-04T23:01:52.90248078Z",
            "roleArn": "arn:aws:iam::123456789012:role/service-role/MySiteWiseMonitorServiceRole"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola portal Anda](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/administer-portals.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [ListPortals](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-portals.html)di *Referensi AWS CLI Perintah*. 

### `list-project-assets`
<a name="iotsitewise_ListProjectAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-project-assets`.

**AWS CLI**  
**Untuk mencantumkan semua aset yang terkait dengan proyek**  
`list-project-assets`Contoh berikut mencantumkan semua aset yang terkait dengan proyek ladang angin.  

```
aws iotsitewise list-projects \
    --project-id a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE
```
Output:  

```
{
    "assetIds": [
        "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menambahkan aset ke proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/add-assets-to-projects-sd.html) di Panduan *Aplikasi SiteWise Monitor AWS IoT*.  
+  Untuk detail API, lihat [ListProjectAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-project-assets.html)di *Referensi AWS CLI Perintah*. 

### `list-projects`
<a name="iotsitewise_ListProjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-projects`.

**AWS CLI**  
**Untuk membuat daftar semua proyek di portal**  
`list-projects`Contoh berikut mencantumkan semua proyek yang didefinisikan dalam portal.  

```
aws iotsitewise list-projects \
    --portal-id a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE
```
Output:  

```
{
    "projectSummaries": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE",
            "name": "Wind Farm 1",
            "description": "Contains asset visualizations for Wind Farm #1 for Example Corp.",
            "creationDate": "2020-02-20T21:58:43.362246001Z",
            "lastUpdateDate": "2020-02-20T21:58:43.362246095Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat detail proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/view-project-details.html) di Panduan *Aplikasi SiteWise Monitor AWS IoT*.  
+  Untuk detail API, lihat [ListProjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-projects.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="iotsitewise_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan semua tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk aset turbin angin.  

```
aws iotsitewise list-tags-for-resource \
    --resource-arn arn:aws:iotsitewise:us-west-2:123456789012:asset/a1b2c3d4-5678-90ab-cdef-33333EXAMPLE
```
Output:  

```
{
    "tags": {
        "Owner": "richard-roe"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/tag-resources.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-logging-options`
<a name="iotsitewise_PutLoggingOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-logging-options`.

**AWS CLI**  
**Untuk menentukan tingkat logging**  
`put-logging-options`Contoh berikut memungkinkan `INFO` level logging di AWS IoT SiteWise. Level lainnya termasuk `DEBUG` dan`OFF`.  

```
aws iotsitewise put-logging-options \
    --logging-options level=INFO
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memantau AWS IoT dengan CloudWatch Log SiteWise Amazon](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/monitor-cloudwatch-logs.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [PutLoggingOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/put-logging-options.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="iotsitewise_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tanda ke sumber daya**  
`tag-resource`Contoh berikut menambahkan tag pemilik ke aset turbin angin. Ini memungkinkan Anda mengontrol akses ke aset berdasarkan siapa yang memilikinya.  

```
aws iotsitewise tag-resource \
    --resource-arn arn:aws:iotsitewise:us-west-2:123456789012:asset/a1b2c3d4-5678-90ab-cdef-33333EXAMPLE \
    --tags Owner=richard-roe
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/tag-resources.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="iotsitewise_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag pemilik dari aset turbin angin.  

```
aws iotsitewise untag-resource \
    --resource-arn arn:aws:iotsitewise:us-west-2:123456789012:asset/a1b2c3d4-5678-90ab-cdef-33333EXAMPLE \
    --tag-keys Owner
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Anda](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/tag-resources.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-access-policy`
<a name="iotsitewise_UpdateAccessPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-access-policy`.

**AWS CLI**  
**Untuk memberikan kepemilikan proyek kepada penampil proyek**  
`update-access-policy`Contoh berikut memperbarui kebijakan akses yang memberikan kepemilikan proyek kepada penampil proyek.  

```
aws iotsitewise update-access-policy \
    --access-policy-id a1b2c3d4-5678-90ab-cdef-dddddEXAMPLE \
    --cli-input-json file://update-project-viewer-access-policy.json
```
Isi dari `update-project-viewer-access-policy.json`:  

```
{
    "accessPolicyIdentity": {
        "user": {
            "id": "a1b2c3d4e5-a1b2c3d4-5678-90ab-cdef-bbbbbEXAMPLE"
        }
    },
    "accessPolicyPermission": "ADMINISTRATOR",
    "accessPolicyResource": {
        "project": {
            "id": "a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE"
        }
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menetapkan pemilik proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/assign-project-owners.html) di Panduan Aplikasi *Monitor AWS SiteWise IoT*.  
+  Untuk detail API, lihat [UpdateAccessPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-access-policy.html)di *Referensi AWS CLI Perintah*. 

### `update-asset-model`
<a name="iotsitewise_UpdateAssetModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-asset-model`.

**AWS CLI**  
**Untuk memperbarui model aset**  
`update-asset-model`Contoh berikut memperbarui deskripsi model aset ladang angin. Contoh ini mencakup model yang ada IDs dan definisi, karena `update-asset-model` menimpa model yang ada dengan model baru.  

```
aws iotsitewise update-asset-model \
    --cli-input-json file://update-wind-farm-model.json
```
Isi dari `update-wind-farm-model.json`:  

```
{
    "assetModelName": "Wind Farm Model",
    "assetModelDescription": "Represents a wind farm that comprises many wind turbines",
    "assetModelProperties": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-88888EXAMPLE",
            "name": "Region",
            "dataType": "STRING",
            "type": {
                "attribute": {}
            }
        },
        {
            "id": "a1b2c3d4-5678-90ab-cdef-99999EXAMPLE",
            "name": "Total Generated Power",
            "dataType": "DOUBLE",
            "unit": "kW",
            "type": {
                "metric": {
                    "expression": "sum(power)",
                    "variables": [
                        {
                            "name": "power",
                            "value": {
                                "hierarchyId": "a1b2c3d4-5678-90ab-cdef-77777EXAMPLE",
                                "propertyId": "a1b2c3d4-5678-90ab-cdef-66666EXAMPLE"
                            }
                        }
                    ],
                    "window": {
                        "tumbling": {
                            "interval": "1h"
                        }
                    }
                }
            }
        }
    ],
    "assetModelHierarchies": [
        {
            "id": "a1b2c3d4-5678-90ab-cdef-77777EXAMPLE",
            "name": "Wind Turbines",
            "childAssetModelId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
        }
    ]
}
```
Output:  

```
{
    "assetModelId": "a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
    "assetModelArn": "arn:aws:iotsitewise:us-west-2:123456789012:asset-model/a1b2c3d4-5678-90ab-cdef-22222EXAMPLE",
    "assetModelStatus": {
        "state": "CREATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui model aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/update-assets-and-models.html#update-asset-models) di * SiteWise Panduan Pengguna AWS IoT*.  
+  Untuk detail API, lihat [UpdateAssetModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-asset-model.html)di *Referensi AWS CLI Perintah*. 

### `update-asset-property`
<a name="iotsitewise_UpdateAssetProperty_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-asset-property`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui alias properti aset**  
`update-asset-property`Contoh berikut memperbarui alias properti daya aset turbin angin.  

```
aws iotsitewise update-asset-property \
    --asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE \
    --property-id a1b2c3d4-5678-90ab-cdef-55555EXAMPLE \
    --property-alias "/examplecorp/windfarm/1/turbine/1/power" \
    --property-notification-state DISABLED
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memetakan aliran data industri ke properti aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/connect-data-streams.html) di Panduan Pengguna *AWS SiteWise IoT*.  
**Contoh 2: Untuk mengaktifkan notifikasi properti aset**  
`update-asset-property`Contoh berikut memungkinkan pemberitahuan pembaruan properti aset untuk properti daya aset turbin angin. Pembaruan nilai properti dipublikasikan ke topik MQTT`$aws/sitewise/asset-models/<assetModelId>/assets/<assetId>/properties/<propertyId>`, di mana setiap ID diganti dengan properti, aset, dan ID model properti aset.  

```
aws iotsitewise update-asset-property \
    --asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE \
    --property-id a1b2c3d4-5678-90ab-cdef-66666EXAMPLE \
    --property-notification-state ENABLED \
    --property-alias "/examplecorp/windfarm/1/turbine/1/power"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Berinteraksi dengan layanan lain](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/interact-with-other-services.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [UpdateAssetProperty](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-asset-property.html)di *Referensi AWS CLI Perintah*. 

### `update-asset`
<a name="iotsitewise_UpdateAsset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-asset`.

**AWS CLI**  
**Untuk memperbarui nama aset**  
`update-asset`Contoh berikut memperbarui nama aset turbin angin.  

```
aws iotsitewise update-asset \
    --asset-id a1b2c3d4-5678-90ab-cdef-33333EXAMPLE \
    --asset-name "Wind Turbine 2"
```
Output:  

```
{
    "assetStatus": {
        "state": "UPDATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui aset](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/update-assets-and-models.html#update-assets) di * SiteWise Panduan Pengguna AWS IoT*.  
+  Untuk detail API, lihat [UpdateAsset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-asset.html)di *Referensi AWS CLI Perintah*. 

### `update-dashboard`
<a name="iotsitewise_UpdateDashboard_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-dashboard`.

**AWS CLI**  
**Untuk memperbarui dasbor**  
`update-dashboard`Contoh berikut mengubah judul bagan garis dasbor yang menampilkan total daya yang dihasilkan untuk ladang angin.  

```
aws iotsitewise update-dashboard \
    --project-id a1b2c3d4-5678-90ab-cdef-fffffEXAMPLE \
    --dashboard-name "Wind Farm" \
    --dashboard-definition file://update-wind-farm-dashboard.json
```
Isi dari `update-wind-farm-dashboard.json`:  

```
{
    "widgets": [
        {
            "type": "monitor-line-chart",
            "title": "Total Generated Power",
            "x": 0,
            "y": 0,
            "height": 3,
            "width": 3,
            "metrics": [
                {
                    "label": "Power",
                    "type": "iotsitewise",
                    "assetId": "a1b2c3d4-5678-90ab-cdef-44444EXAMPLE",
                    "propertyId": "a1b2c3d4-5678-90ab-cdef-99999EXAMPLE"
                }
            ]
        }
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat dasbor (CLI](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/create-dashboards-using-aws-cli.html)) di Panduan Pengguna *AWS IoT SiteWise *.  
+  Untuk detail API, lihat [UpdateDashboard](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-dashboard.html)di *Referensi AWS CLI Perintah*. 

### `update-gateway-capability-configuration`
<a name="iotsitewise_UpdateGatewayCapabilityConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-gateway-capability-configuration`.

**AWS CLI**  
**Untuk memperbarui kemampuan gateway**  
`update-gateway-capability-configuration`Contoh berikut mengonfigurasi sumber OPC-UA dengan properti berikut:  
Mempercayai sertifikat apa pun.Menggunakan algoritma Basic256 untuk mengamankan pesan.Menggunakan SignAndEncrypt mode untuk mengamankan koneksi.Menggunakan kredensil otentikasi yang disimpan dalam rahasia Secrets Manager. AWS   

```
aws iotsitewise update-gateway-capability-configuration \
    --gateway-id a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE \
    --capability-namespace "iotsitewise:opcuacollector:1" \
    --capability-configuration file://opc-ua-capability-configuration.json
```
Isi dari `opc-ua-capability-configuration.json`:  

```
{
    "sources": [
        {
            "name": "Wind Farm #1",
            "endpoint": {
                "certificateTrust": {
                    "type": "TrustAny"
                },
                "endpointUri": "opc.tcp://203.0.113.0:49320",
                "securityPolicy": "BASIC256",
                "messageSecurityMode": "SIGN_AND_ENCRYPT",
                "identityProvider": {
                    "type": "Username",
                    "usernameSecretArn": "arn:aws:secretsmanager:us-west-2:123456789012:secret:greengrass-windfarm1-auth-1ABCDE"
                },
                "nodeFilterRules": []
            },
            "measurementDataStreamPrefix": ""
        }
    ]
}
```
Output:  

```
{
    "capabilityNamespace": "iotsitewise:opcuacollector:1",
    "capabilitySyncStatus": "OUT_OF_SYNC"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi sumber data](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/configure-sources.html) di Panduan *AWS Pengguna SiteWise IoT*.  
+  Untuk detail API, lihat [UpdateGatewayCapabilityConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-gateway-capability-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-gateway`
<a name="iotsitewise_UpdateGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-gateway`.

**AWS CLI**  
**Untuk memperbarui nama gateway**  
`update-gateway`Contoh berikut memperbarui nama gateway.  

```
aws iotsitewise update-gateway \
    --gateway-id a1b2c3d4-5678-90ab-cdef-1a1a1EXAMPLE \
    --gateway-name ExampleCorpGateway1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyerap data menggunakan gateway](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/gateways.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [UpdateGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-gateway.html)di *Referensi AWS CLI Perintah*. 

### `update-portal`
<a name="iotsitewise_UpdatePortal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-portal`.

**AWS CLI**  
**Untuk memperbarui detail portal**  
`update-portal`Contoh berikut memperbarui portal web untuk perusahaan peternakan angin.  

```
aws iotsitewise update-portal \
    --portal-id a1b2c3d4-5678-90ab-cdef-aaaaaEXAMPLE \
    --portal-name WindFarmPortal \
    --portal-description "A portal that contains wind farm projects for Example Corp." \
    --portal-contact-email support@example.com \
    --role-arn arn:aws:iam::123456789012:role/MySiteWiseMonitorServiceRole
```
Output:  

```
{
    "portalStatus": {
        "state": "UPDATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola portal Anda](https://docs.aws.amazon.com/iot-sitewise/latest/userguide/administer-portals.html) di Panduan Pengguna *AWS SiteWise IoT*.  
+  Untuk detail API, lihat [UpdatePortal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-portal.html)di *Referensi AWS CLI Perintah*. 

### `update-project`
<a name="iotsitewise_UpdateProject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-project`.

**AWS CLI**  
**Untuk memperbarui detail proyek**  
`update-project`Contoh berikut memperbarui proyek ladang angin.  

```
aws iotsitewise update-project \
    --project-id a1b2c3d4-5678-90ab-cdef-eeeeeEXAMPLE \
    --project-name "Wind Farm 1" \
    --project-description "Contains asset visualizations for Wind Farm #1 for Example Corp."
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengubah detail proyek](https://docs.aws.amazon.com/iot-sitewise/latest/appguide/edit-project-details.html) di Panduan *Aplikasi SiteWise Monitor AWS IoT*.  
+  Untuk detail API, lihat [UpdateProject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotsitewise/update-project.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT Things Graph contoh menggunakan AWS CLI
<a name="cli_2_iotthingsgraph_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT Things Graph.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-entity-to-thing`
<a name="iotthingsgraph_AssociateEntityToThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-entity-to-thing`.

**AWS CLI**  
**Untuk mengaitkan sesuatu dengan perangkat**  
`associate-entity-to-thing`Contoh berikut mengaitkan sesuatu dengan perangkat. Contoh menggunakan perangkat sensor gerak yang ada di namespace publik.  

```
aws iotthingsgraph associate-entity-to-thing \
    --thing-name "MotionSensorName" \
    --entity-id "urn:tdm:aws/examples:Device:HCSR501MotionSensor"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat dan Mengunggah Model](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-models-gs.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [AssociateEntityToThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/associate-entity-to-thing.html)di *Referensi AWS CLI Perintah*. 

### `create-flow-template`
<a name="iotthingsgraph_CreateFlowTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-flow-template`.

**AWS CLI**  
**Untuk membuat aliran**  
`create-flow-template`Contoh berikut menciptakan alur (alur kerja). Nilai `MyFlowDefinition` adalah GraphQL yang memodelkan aliran.  

```
aws iotthingsgraph create-flow-template \
    --definition language=GRAPHQL,text="MyFlowDefinition"
```
Output:  

```
{
    "summary": {
        "createdAt": 1559248067.545,
        "id": "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow",
        "revisionNumber": 1
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Alur](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-workflows.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [CreateFlowTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/create-flow-template.html)di *Referensi AWS CLI Perintah*. 

### `create-system-instance`
<a name="iotthingsgraph_CreateSystemInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-system-instance`.

**AWS CLI**  
**Untuk membuat instance sistem**  
`create-system-instance`Contoh berikut membuat instance sistem. Nilai `MySystemInstanceDefinition` adalah GraphQL yang memodelkan instance sistem.  

```
aws iotthingsgraph create-system-instance -\
    -definition language=GRAPHQL,text="MySystemInstanceDefinition" \
    --target CLOUD \
    --flow-actions-role-arn myRoleARN
```
Output:  

```
{
    "summary": {
        "id": "urn:tdm:us-west-2/123456789012/default:Deployment:Room218",
        "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/Room218",
        "status": "NOT_DEPLOYED",
        "target": "CLOUD",
        "createdAt": 1559249315.208,
        "updatedAt": 1559249315.208
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Sistem dan Konfigurasi Aliran](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [CreateSystemInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/create-system-instance.html)di *Referensi AWS CLI Perintah*. 

### `create-system-template`
<a name="iotthingsgraph_CreateSystemTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-system-template`.

**AWS CLI**  
**Untuk membuat sistem**  
`create-system-template`Contoh berikut menciptakan sistem. Nilai MySystemDefinition adalah GraphQL yang memodelkan sistem.  

```
aws iotthingsgraph create-system-template \
    --definition language=GRAPHQL,text="MySystemDefinition"
```
Output:  

```
{
    "summary": {
        "createdAt": 1559249776.254,
        "id": "urn:tdm:us-west-2/123456789012/default:System:MySystem",
        "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:System/default/MySystem",
        "revisionNumber": 1
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Sistem](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy-systems.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [CreateSystemTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/create-system-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-flow-template`
<a name="iotthingsgraph_DeleteFlowTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-flow-template`.

**AWS CLI**  
**Untuk menghapus aliran**  
`delete-flow-template`Contoh berikut menghapus alur (alur kerja).  

```
aws iotthingsgraph delete-flow-template \
    --id "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Manajemen Siklus Hidup untuk Entitas, Aliran, Sistem, dan Penerapan Grafik AWS IoT Things di Panduan Pengguna Grafik IoT](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-lifecycle.html) Things.AWS *  
+  Untuk detail API, lihat [DeleteFlowTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/delete-flow-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-namespace`
<a name="iotthingsgraph_DeleteNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-namespace`.

**AWS CLI**  
**Untuk menghapus namespace**  
`delete-namespace`Contoh berikut menghapus namespace.  

```
aws iotthingsgraph delete-namespace
```
Output:  

```
{
   "namespaceArn": "arn:aws:iotthingsgraph:us-west-2:123456789012",
   "namespaceName": "us-west-2/123456789012/default"
}
```
*Untuk informasi selengkapnya, lihat [Manajemen Siklus Hidup untuk Entitas, Aliran, Sistem, dan Penerapan Grafik AWS IoT Things di Panduan Pengguna Grafik IoT](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-lifecycle.html) Things.AWS *  
+  Untuk detail API, lihat [DeleteNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/delete-namespace.html)di *Referensi AWS CLI Perintah*. 

### `delete-system-instance`
<a name="iotthingsgraph_DeleteSystemInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-system-instance`.

**AWS CLI**  
**Untuk menghapus instance sistem**  
`delete-system-instance`Contoh berikut menghapus instance sistem.  

```
aws iotthingsgraph delete-system-instance \
    --id "urn:tdm:us-west-2/123456789012/default:Deployment:Room218"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Manajemen Siklus Hidup untuk Entitas, Aliran, Sistem, dan Penerapan Grafik AWS IoT Things di Panduan Pengguna Grafik IoT](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-lifecycle.html) Things.AWS *  
+  Untuk detail API, lihat [DeleteSystemInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/delete-system-instance.html)di *Referensi AWS CLI Perintah*. 

### `delete-system-template`
<a name="iotthingsgraph_DeleteSystemTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-system-template`.

**AWS CLI**  
**Untuk menghapus sistem**  
`delete-system-template`Contoh berikut menghapus sistem.  

```
aws iotthingsgraph delete-system-template \
    --id "urn:tdm:us-west-2/123456789012/default:System:MySystem"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Manajemen Siklus Hidup untuk Entitas, Aliran, Sistem, dan Penerapan Grafik AWS IoT Things di Panduan Pengguna Grafik IoT](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-lifecycle.html) Things.AWS *  
+  Untuk detail API, lihat [DeleteSystemTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/delete-system-template.html)di *Referensi AWS CLI Perintah*. 

### `deploy-system-instance`
<a name="iotthingsgraph_DeploySystemInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deploy-system-instance`.

**AWS CLI**  
**Untuk menyebarkan instance sistem**  
`delete-system-template`Contoh berikut menyebarkan instance sistem.  

```
aws iotthingsgraph deploy-system-instance \
    --id "urn:tdm:us-west-2/123456789012/default:Deployment:Room218"
```
Output:  

```
{
   "summary": {
      "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment:Room218",
      "createdAt": 1559249776.254,
      "id": "urn:tdm:us-west-2/123456789012/default:Deployment:Room218",
      "status": "DEPLOYED_IN_TARGET",
      "target": "CLOUD",
      "updatedAt": 1559249776.254
   }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Sistem dan Konfigurasi Aliran](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [DeploySystemInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/deploy-system-instance.html)di *Referensi AWS CLI Perintah*. 

### `deprecate-flow-template`
<a name="iotthingsgraph_DeprecateFlowTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deprecate-flow-template`.

**AWS CLI**  
**Untuk menghentikan aliran**  
`deprecate-flow-template`Contoh berikut menghentikan alur (alur kerja).  

```
aws iotthingsgraph deprecate-flow-template \
    --id "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Manajemen Siklus Hidup untuk Entitas, Aliran, Sistem, dan Penerapan Grafik AWS IoT Things di Panduan Pengguna Grafik IoT](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-lifecycle.html) Things.AWS *  
+  Untuk detail API, lihat [DeprecateFlowTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/deprecate-flow-template.html)di *Referensi AWS CLI Perintah*. 

### `deprecate-system-template`
<a name="iotthingsgraph_DeprecateSystemTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deprecate-system-template`.

**AWS CLI**  
**Untuk menghentikan sistem**  
`deprecate-system-template`Contoh berikut menghentikan sistem.  

```
aws iotthingsgraph deprecate-system-template \
    --id "urn:tdm:us-west-2/123456789012/default:System:MySystem"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Manajemen Siklus Hidup untuk Entitas, Aliran, Sistem, dan Penerapan Grafik AWS IoT Things di Panduan Pengguna Grafik IoT](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-lifecycle.html) Things.AWS *  
+  Untuk detail API, lihat [DeprecateSystemTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/deprecate-system-template.html)di *Referensi AWS CLI Perintah*. 

### `describe-namespace`
<a name="iotthingsgraph_DescribeNamespace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-namespace`.

**AWS CLI**  
**Untuk mendapatkan deskripsi namespace Anda**  
`describe-namespace`Contoh berikut mendapatkan deskripsi namespace Anda.  

```
aws iotthingsgraph describe-namespace
```
Output:  

```
{
    "namespaceName": "us-west-2/123456789012/default",
    "trackingNamespaceName": "aws",
    "trackingNamespaceVersion": 1,
    "namespaceVersion": 5
}
```
Untuk informasi selengkapnya, lihat [Ruang nama](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-whatis-namespace.html) di Panduan Pengguna Grafik *AWS IoT Things*.  
+  Untuk detail API, lihat [DescribeNamespace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/describe-namespace.html)di *Referensi AWS CLI Perintah*. 

### `dissociate-entity-from-thing`
<a name="iotthingsgraph_DissociateEntityFromThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`dissociate-entity-from-thing`.

**AWS CLI**  
**Untuk memisahkan sesuatu dari perangkat**  
`dissociate-entity-from-thing`Contoh berikut memisahkan sesuatu dari perangkat.  

```
aws iotthingsgraph dissociate-entity-from-thing \
    --thing-name "MotionSensorName" \
    --entity-type "DEVICE"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat dan Mengunggah Model](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-models-gs.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [DissociateEntityFromThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/dissociate-entity-from-thing.html)di *Referensi AWS CLI Perintah*. 

### `get-entities`
<a name="iotthingsgraph_GetEntities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-entities`.

**AWS CLI**  
**Untuk mendapatkan definisi untuk entitas**  
`get-entities`Contoh berikut mendapatkan definisi untuk model perangkat.  

```
aws iotthingsgraph get-entities \
    --ids "urn:tdm:aws/examples:DeviceModel:MotionSensor"
```
Output:  

```
{
    "descriptions": [
        {
            "id": "urn:tdm:aws/examples:DeviceModel:MotionSensor",
            "type": "DEVICE_MODEL",
            "createdAt": 1559256190.599,
            "definition": {
                "language": "GRAPHQL",
                "text": "##\n# Specification of motion sensor devices interface.\n##\ntype MotionSensor @deviceModel(id: \"urn:tdm:aws/examples:deviceModel:MotionSensor\",\n        capability: \"urn:tdm:aws/examples:capability:MotionSensorCapability\") {ignore:void}"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengunggah Model](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-models-gs.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [GetEntities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/get-entities.html)di *Referensi AWS CLI Perintah*. 

### `get-flow-template-revisions`
<a name="iotthingsgraph_GetFlowTemplateRevisions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-flow-template-revisions`.

**AWS CLI**  
**Untuk mendapatkan informasi revisi tentang aliran**  
`get-flow-template-revisions`Contoh berikut mendapatkan informasi revisi tentang alur (alur kerja).  

```
aws iotthingsgraph get-flow-template-revisions \
    --id urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow
```
Output:  

```
{
    "summaries": [
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow",
            "revisionNumber": 1,
            "createdAt": 1559247540.292
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Alur](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-workflows.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [GetFlowTemplateRevisions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/get-flow-template-revisions.html)di *Referensi AWS CLI Perintah*. 

### `get-flow-template`
<a name="iotthingsgraph_GetFlowTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-flow-template`.

**AWS CLI**  
**Untuk mendapatkan definisi aliran**  
`get-flow-template`Contoh berikut mendapat definisi untuk alur (alur kerja).  

```
aws iotthingsgraph get-flow-template \
    --id "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow"
```
Output:  

```
{
    "description": {
        "summary": {
            "id": "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow",
            "revisionNumber": 1,
            "createdAt": 1559247540.292
        },
        "definition": {
            "language": "GRAPHQL",
            "text": "{\nquery MyFlow($camera: string!, $screen: string!) @workflowType(id: \"urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow\") @annotation(type: \"tgc:FlowEvent\", id: \"sledged790c1b2bcd949e09da0c9bfc077f79d\", x: 1586, y: 653) @triggers(definition: \"{MotionSensor(description: \\\"\\\") @position(x: 1045, y: 635.6666564941406) {\\n  condition(expr: \\\"devices[name == \\\\\\\"motionSensor\\\\\\\"].events[name == \\\\\\\"StateChanged\\\\\\\"].lastEvent\\\")\\n  action(expr: \\\"\\\")\\n}}\") {\n  variables {\n    cameraResult @property(id: \"urn:tdm:aws/examples:property:CameraStateProperty\")\n  }\n  steps {\n    step(name: \"Camera\", outEvent: [\"sledged790c1b2bcd949e09da0c9bfc077f79d\"]) @position(x: 1377, y: 638.6666564941406) {\n      DeviceActivity(deviceModel: \"urn:tdm:aws/examples:deviceModel:Camera\", out: \"cameraResult\", deviceId: \"${camera}\") {\n        capture\n      }\n    }\n    step(name: \"Screen\", inEvent: [\"sledged790c1b2bcd949e09da0c9bfc077f79d\"]) @position(x: 1675.6666870117188, y: 637.9999847412109) {\n      DeviceActivity(deviceModel: \"urn:tdm:aws/examples:deviceModel:Screen\", deviceId: \"${screen}\") {\n        display(imageUrl: \"${cameraResult.lastClickedImage}\")\n      }\n    }\n  }\n}\n}"
        },
        "validatedNamespaceVersion": 5
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Alur](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-workflows.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [GetFlowTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/get-flow-template.html)di *Referensi AWS CLI Perintah*. 

### `get-namespace-deletion-status`
<a name="iotthingsgraph_GetNamespaceDeletionStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-namespace-deletion-status`.

**AWS CLI**  
**Untuk mendapatkan status tugas penghapusan namespace**  
`get-namespace-deletion-status`Contoh berikut mendapatkan status tugas penghapusan namespace.  

```
aws iotthingsgraph get-namespace-deletion-status
```
Output:  

```
{
   "namespaceArn": "arn:aws:iotthingsgraph:us-west-2:123456789012",
   "namespaceName": "us-west-2/123456789012/default"
   "status": "SUCCEEDED "
}
```
Untuk informasi selengkapnya, lihat [Ruang nama](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-whatis-namespace.html) di Panduan Pengguna Grafik *AWS IoT Things*.  
+  Untuk detail API, lihat [GetNamespaceDeletionStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/get-namespace-deletion-status.html)di *Referensi AWS CLI Perintah*. 

### `get-system-instance`
<a name="iotthingsgraph_GetSystemInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-system-instance`.

**AWS CLI**  
**Untuk mendapatkan instance sistem**  
`get-system-instance`Contoh berikut mendapat definisi untuk instance sistem.  

```
aws iotthingsgraph get-system-instance \
    --id "urn:tdm:us-west-2/123456789012/default:Deployment:Room218"
```
Output:  

```
{
    "description": {
        "summary": {
            "id": "urn:tdm:us-west-2/123456789012/default:Deployment:Room218",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/Room218",
            "status": "NOT_DEPLOYED",
            "target": "CLOUD",
            "createdAt": 1559249315.208,
            "updatedAt": 1559249315.208
        },
        "definition": {
            "language": "GRAPHQL",
            "text": "{\r\nquery Room218 @deployment(id: \"urn:tdm:us-west-2/123456789012/default:Deployment:Room218\", systemId: \"urn:tdm:us-west-2/123456789012/default:System:SecurityFlow\") {\r\n    motionSensor(deviceId: \"MotionSensorName\")\r\n    screen(deviceId: \"ScreenName\")\r\n    camera(deviceId: \"CameraName\") \r\n    triggers {MotionEventTrigger(description: \"a trigger\") {  \r\n    condition(expr: \"devices[name == 'motionSensor'].events[name == 'StateChanged'].lastEvent\") \r\n    action(expr: \"ThingsGraph.startFlow('SecurityFlow', bindings[name == 'camera'].deviceId, bindings[name == 'screen'].deviceId)\")\r\n    }\r\n   }\r\n  }\r\n  }"
        },
        "metricsConfiguration": {
            "cloudMetricEnabled": false
        },
        "validatedNamespaceVersion": 5,
        "flowActionsRoleArn": "arn:aws:iam::123456789012:role/ThingsGraphRole"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Sistem dan Konfigurasi Aliran](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [GetSystemInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/get-system-instance.html)di *Referensi AWS CLI Perintah*. 

### `get-system-template-revisions`
<a name="iotthingsgraph_GetSystemTemplateRevisions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-system-template-revisions`.

**AWS CLI**  
**Untuk mendapatkan informasi revisi tentang suatu sistem**  
`get-system-template-revisions`Contoh berikut mendapat informasi revisi tentang suatu sistem.  

```
aws iotthingsgraph get-system-template-revisions \
    --id "urn:tdm:us-west-2/123456789012/default:System:MySystem"
```
Output:  

```
{
    "summaries": [
        {
            "id": "urn:tdm:us-west-2/123456789012/default:System:MySystem",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:System/default/MySystem",
            "revisionNumber": 1,
            "createdAt": 1559247540.656
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Sistem dan Konfigurasi Aliran](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [GetSystemTemplateRevisions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/get-system-template-revisions.html)di *Referensi AWS CLI Perintah*. 

### `get-system-template`
<a name="iotthingsgraph_GetSystemTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-system-template`.

**AWS CLI**  
**Untuk mendapatkan sistem**  
`get-system-template`Contoh berikut mendapat definisi untuk suatu sistem.  

```
aws iotthingsgraph get-system-template \
    --id "urn:tdm:us-west-2/123456789012/default:System:MySystem"
```
Output:  

```
{
    "description": {
        "summary": {
            "id": "urn:tdm:us-west-2/123456789012/default:System:MySystem",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:System/default/MyFlow",
            "revisionNumber": 1,
            "createdAt": 1559247540.656
        },
        "definition": {
            "language": "GRAPHQL",
            "text": "{\ntype MySystem @systemType(id: \"urn:tdm:us-west-2/123456789012/default:System:MySystem\", description: \"\") {\n  camera: Camera @thing(id: \"urn:tdm:aws/examples:deviceModel:Camera\")\n  screen: Screen @thing(id: \"urn:tdm:aws/examples:deviceModel:Screen\")\n  motionSensor: MotionSensor @thing(id: \"urn:tdm:aws/examples:deviceModel:MotionSensor\")\n  MyFlow: MyFlow @workflow(id: \"urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow\")\n}\n}"
        },
        "validatedNamespaceVersion": 5
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Sistem dan Konfigurasi Aliran](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [GetSystemTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/get-system-template.html)di *Referensi AWS CLI Perintah*. 

### `get-upload-status`
<a name="iotthingsgraph_GetUploadStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-upload-status`.

**AWS CLI**  
**Untuk mendapatkan status upload entitas Anda**  
`get-upload-status`Contoh berikut mendapatkan status operasi upload entitas Anda. Nilai `MyUploadId` adalah nilai ID yang dikembalikan oleh `upload-entity-definitions` operasi.  

```
aws iotthingsgraph get-upload-status \
    --upload-id "MyUploadId"
```
Output:  

```
{
    "namespaceName": "us-west-2/123456789012/default",
    "namespaceVersion": 5,
    "uploadId": "f6294f1e-b109-4bbe-9073-f451a2dda2da",
    "uploadStatus": "SUCCEEDED"
}
```
Untuk informasi selengkapnya, lihat [Entitas Pemodelan](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-modelmanagement.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [GetUploadStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/get-upload-status.html)di *Referensi AWS CLI Perintah*. 

### `list-flow-execution-messages`
<a name="iotthingsgraph_ListFlowExecutionMessages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-flow-execution-messages`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang peristiwa dalam eksekusi aliran**  
`list-flow-execution-messages`Contoh berikut mendapatkan informasi tentang peristiwa dalam eksekusi aliran.  

```
aws iotthingsgraph list-flow-execution-messages \
    --flow-execution-id "urn:tdm:us-west-2/123456789012/default:Workflow:SecurityFlow_2019-05-11T19:39:55.317Z_MotionSensor_69b151ad-a611-42f5-ac21-fe537f9868ad"
```
Output:  

```
{
    "messages": [
        {
         "eventType": "EXECUTION_STARTED",
         "messageId": "f6294f1e-b109-4bbe-9073-f451a2dda2da",
         "payload": "Flow execution started",
         "timestamp": 1559247540.656
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Alur](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-workflows.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [ListFlowExecutionMessages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/list-flow-execution-messages.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="iotthingsgraph_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan semua tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk sumber daya Grafik AWS IoT Things.  

```
aws iotthingsgraph list-tags-for-resource \
    --resource-arn "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/Room218"
```
Output:  

```
{
   "tags": [
      {
         "key": "Type",
         "value": "Residential"
      }
   ]
}
```
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Grafik AWS IoT Things Anda](https://docs.aws.amazon.com/thingsgraph/latest/ug/tagging-tg.html) di Panduan Pengguna *AWS Grafik IoT Things*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `search-entities`
<a name="iotthingsgraph_SearchEntities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-entities`.

**AWS CLI**  
**Untuk mencari entitas**  
`search-entities`Contoh berikut mencari semua entitas tipe`EVENT`.  

```
aws iotthingsgraph search-entities \
    --entity-types "EVENT"
```
Output:  

```
{
    "descriptions": [
        {
            "id": "urn:tdm:aws/examples:Event:MotionSensorEvent",
            "type": "EVENT",
            "definition": {
                "language": "GRAPHQL",
                "text": "##\n# Description of events emitted by motion sensor.\n##\ntype MotionSensorEvent @eventType(id: \"urn:tdm:aws/examples:event:MotionSensorEvent\",\n            payload: \"urn:tdm:aws/examples:property:MotionSensorStateProperty\") {ignore:void}"
            }
        },
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Event:CameraClickedEventV2",
            "type": "EVENT",
            "definition": {
                "language": "GRAPHQL",
                "text": "type CameraClickedEventV2 @eventType(id: \"urn:tdm:us-west-2/123456789012/default:event:CameraClickedEventV2\",\r\npayload: \"urn:tdm:aws:Property:Boolean\"){ignore:void}"
            }
        },
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Event:MotionSensorEventV2",
            "type": "EVENT",
            "definition": {
                "language": "GRAPHQL",
                "text": "# Event emitted by the motion sensor.\r\ntype MotionSensorEventV2 @eventType(id: \"urn:tdm:us-west-2/123456789012/default:event:MotionSensorEventV2\",\r\npayload: \"urn:tdm:us-west-2/123456789012/default:property:MotionSensorStateProperty2\") {ignore:void}"
            }
        }
    ],
    "nextToken": "urn:tdm:us-west-2/123456789012/default:Event:MotionSensorEventV2"
}
```
Untuk informasi selengkapnya, lihat Referensi [Model Data Grafik AWS IoT Things](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-models.html) di Panduan *AWS Pengguna Grafik IoT Things*.  
+  Untuk detail API, lihat [SearchEntities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/search-entities.html)di *Referensi AWS CLI Perintah*. 

### `search-flow-executions`
<a name="iotthingsgraph_SearchFlowExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-flow-executions`.

**AWS CLI**  
**Untuk mencari eksekusi aliran**  
`search-flow-executions`Contoh berikut mencari semua eksekusi aliran dalam contoh sistem tertentu.  

```
aws iotthingsgraph search-flow-executions \
    --system-instance-id "urn:tdm:us-west-2/123456789012/default:Deployment:Room218"
```
Output:  

```
{
   "summaries": [
      {
         "createdAt": 1559247540.656,
         "flowExecutionId": "f6294f1e-b109-4bbe-9073-f451a2dda2da",
         "flowTemplateId": "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow",
         "status": "RUNNING ",
         "systemInstanceId": "urn:tdm:us-west-2/123456789012/default:System:MySystem",
         "updatedAt": 1559247540.656
      }
   ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Sistem dan Konfigurasi Aliran](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [SearchFlowExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/search-flow-executions.html)di *Referensi AWS CLI Perintah*. 

### `search-flow-templates`
<a name="iotthingsgraph_SearchFlowTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-flow-templates`.

**AWS CLI**  
**Untuk mencari alur (atau alur kerja)**  
`search-flow-templates`Contoh berikut mencari semua alur (alur kerja) yang berisi model perangkat Kamera.  

```
aws iotthingsgraph search-flow-templates \
    --filters name="DEVICE_MODEL_ID",value="urn:tdm:aws/examples:DeviceModel:Camera"
```
Output:  

```
{
    "summaries": [
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow",
            "revisionNumber": 1,
            "createdAt": 1559247540.292
        },
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Workflow:SecurityFlow",
            "revisionNumber": 3,
            "createdAt": 1548283099.27
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Alur](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-workflows.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [SearchFlowTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/search-flow-templates.html)di *Referensi AWS CLI Perintah*. 

### `search-system-instances`
<a name="iotthingsgraph_SearchSystemInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-system-instances`.

**AWS CLI**  
**Untuk mencari instance sistem**  
`search-system-instances`Contoh berikut mencari semua instance sistem yang berisi sistem yang ditentukan.  

```
aws iotthingsgraph search-system-instances \
    --filters name="SYSTEM_TEMPLATE_ID",value="urn:tdm:us-west-2/123456789012/default:System:SecurityFlow"
```
Output:  

```
{
    "summaries": [
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Deployment:DeploymentForSample",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/DeploymentForSample",
            "status": "NOT_DEPLOYED",
            "target": "GREENGRASS",
            "greengrassGroupName": "ThingsGraphGrnGr",
            "createdAt": 1555716314.707,
            "updatedAt": 1555716314.707
        },
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Deployment:MockDeployment",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/MockDeployment",
            "status": "DELETED_IN_TARGET",
            "target": "GREENGRASS",
            "greengrassGroupName": "ThingsGraphGrnGr",
            "createdAt": 1549416462.049,
            "updatedAt": 1549416722.361,
            "greengrassGroupId": "01d04b07-2a51-467f-9d03-0c90b3cdcaaf",
            "greengrassGroupVersionId": "7365aed7-2d3e-4d13-aad8-75443d45eb05"
        },
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Deployment:MockDeployment2",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/MockDeployment2",
            "status": "DEPLOYED_IN_TARGET",
            "target": "GREENGRASS",
            "greengrassGroupName": "ThingsGraphGrnGr",
            "createdAt": 1549572385.774,
            "updatedAt": 1549572418.408,
            "greengrassGroupId": "01d04b07-2a51-467f-9d03-0c90b3cdcaaf",
            "greengrassGroupVersionId": "bfa70ab3-2bf7-409c-a4d4-bc8328ae5b86"
        },
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Deployment:Room215",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/Room215",
            "status": "NOT_DEPLOYED",
            "target": "GREENGRASS",
            "greengrassGroupName": "ThingsGraphGG",
            "createdAt": 1547056918.413,
            "updatedAt": 1547056918.413
        },
        {
            "id": "urn:tdm:us-west-2/123456789012/default:Deployment:Room218",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/Room218",
            "status": "NOT_DEPLOYED",
            "target": "CLOUD",
            "createdAt": 1559249315.208,
            "updatedAt": 1559249315.208
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Sistem dan Konfigurasi Aliran](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [SearchSystemInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/search-system-instances.html)di *Referensi AWS CLI Perintah*. 

### `search-system-templates`
<a name="iotthingsgraph_SearchSystemTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-system-templates`.

**AWS CLI**  
**Untuk mencari sistem**  
`search-system-templates`Contoh berikut mencari semua sistem yang berisi aliran yang ditentukan.  

```
aws iotthingsgraph search-system-templates \
    --filters name="FLOW_TEMPLATE_ID",value="urn:tdm:us-west-2/123456789012/default:Workflow:SecurityFlow"
```
Output:  

```
{
    "summaries": [
        {
            "id": "urn:tdm:us-west-2/123456789012/default:System:SecurityFlow",
            "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:System/default/SecurityFlow",
            "revisionNumber": 1,
            "createdAt": 1548283099.433
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Alur](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-workflows.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [SearchSystemTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/search-system-templates.html)di *Referensi AWS CLI Perintah*. 

### `search-things`
<a name="iotthingsgraph_SearchThings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-things`.

**AWS CLI**  
**Untuk mencari hal-hal yang terkait dengan perangkat dan model perangkat**  
`search-things`Contoh berikut mencari semua hal yang terkait dengan HCSR501 MotionSensor perangkat.  

```
aws iotthingsgraph search-things \
    --entity-id "urn:tdm:aws/examples:Device:HCSR501MotionSensor"
```
Output:  

```
{
    "things": [
        {
            "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/MotionSensor1",
            "thingName": "MotionSensor1"
        },
        {
            "thingArn": "arn:aws:iot:us-west-2:123456789012:thing/TG_MS",
            "thingName": "TG_MS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengunggah Model](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-models-gs.html) di Panduan Pengguna *Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [SearchThings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/search-things.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="iotthingsgraph_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk membuat tag untuk sumber daya**  
`tag-resource`Contoh berikut membuat tag untuk sumber daya yang ditentukan.  

```
aws iotthingsgraph tag-resource \
    --resource-arn "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/Room218" \
    --tags key="Type",value="Residential"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Grafik AWS IoT Things Anda](https://docs.aws.amazon.com/thingsgraph/latest/ug/tagging-tg.html) di Panduan Pengguna *AWS Grafik IoT Things*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `undeploy-system-instance`
<a name="iotthingsgraph_UndeploySystemInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`undeploy-system-instance`.

**AWS CLI**  
**Untuk menghapus instans sistem dari targetnya**  
`undeploy-system-instance`Contoh berikut menghapus instance sistem dari targetnya.  

```
aws iotthingsgraph undeploy-system-instance \
    --id "urn:tdm:us-west-2/123456789012/default:Deployment:Room215"
```
Output:  

```
{
    "summary": {
        "id": "urn:tdm:us-west-2/123456789012/default:Deployment:Room215",
        "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/Room215",
        "status": "PENDING_DELETE",
        "target": "GREENGRASS",
        "greengrassGroupName": "ThingsGraphGrnGr",
        "createdAt": 1553189694.255,
        "updatedAt": 1559344549.601,
        "greengrassGroupId": "01d04b07-2a51-467f-9d03-0c90b3cdcaaf",
        "greengrassGroupVersionId": "731b371d-d644-4b67-ac64-3934e99b75d7"
    }
}
```
*Untuk informasi selengkapnya, lihat [Manajemen Siklus Hidup untuk Entitas, Aliran, Sistem, dan Penerapan Grafik AWS IoT Things di Panduan Pengguna Grafik IoT](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-lifecycle.html) Things.AWS *  
+  Untuk detail API, lihat [UndeploySystemInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/undeploy-system-instance.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="iotthingsgraph_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag untuk sumber daya**  
`untag-resource`Contoh berikut menghapus tag untuk sumber daya yang ditentukan.  

```
aws iotthingsgraph untag-resource \
    --resource-arn "arn:aws:iotthingsgraph:us-west-2:123456789012:Deployment/default/Room218" \
    --tag-keys "Type"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Grafik AWS IoT Things Anda](https://docs.aws.amazon.com/thingsgraph/latest/ug/tagging-tg.html) di Panduan Pengguna *AWS Grafik IoT Things*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-flow-template`
<a name="iotthingsgraph_UpdateFlowTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-flow-template`.

**AWS CLI**  
**Untuk memperbarui alur**  
`update-flow-template`Contoh berikut memperbarui alur (alur kerja). Nilai `MyFlowDefinition` adalah GraphQL yang memodelkan aliran.  

```
aws iotthingsgraph update-flow-template \
    --id "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow" \
    --definition language=GRAPHQL,text="MyFlowDefinition"
```
Output:  

```
{
    "summary": {
        "createdAt": 1559248067.545,
        "id": "urn:tdm:us-west-2/123456789012/default:Workflow:MyFlow",
        "revisionNumber": 2
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Alur](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-workflows.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [UpdateFlowTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/update-flow-template.html)di *Referensi AWS CLI Perintah*. 

### `update-system-template`
<a name="iotthingsgraph_UpdateSystemTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-system-template`.

**AWS CLI**  
**Untuk memperbarui sistem**  
`update-system-template`Contoh berikut memperbarui sistem. Nilai `MySystemDefinition` adalah GraphQL yang memodelkan sistem.  

```
aws iotthingsgraph update-system-template \
    --id "urn:tdm:us-west-2/123456789012/default:System:MySystem" \
    --definition language=GRAPHQL,text="MySystemDefinition"
```
Output:  

```
{
    "summary": {
        "createdAt": 1559249776.254,
        "id": "urn:tdm:us-west-2/123456789012/default:System:MySystem",
        "arn": "arn:aws:iotthingsgraph:us-west-2:123456789012:System/default/MySystem",
        "revisionNumber": 2
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Sistem](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-sysdeploy-systems.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [UpdateSystemTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/update-system-template.html)di *Referensi AWS CLI Perintah*. 

### `upload-entity-definitions`
<a name="iotthingsgraph_UploadEntityDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-entity-definitions`.

**AWS CLI**  
**Untuk mengunggah definisi entitas**  
`upload-entity-definitions`Contoh berikut mengunggah definisi entitas ke namespace Anda. Nilai `MyEntityDefinitions` adalah GraphQL yang memodelkan entitas.  

```
aws iotthingsgraph upload-entity-definitions \
    --document language=GRAPHQL,text="MyEntityDefinitions"
```
Output:  

```
{
    "uploadId": "f6294f1e-b109-4bbe-9073-f451a2dda2da"
}
```
Untuk informasi selengkapnya, lihat [Entitas Pemodelan](https://docs.aws.amazon.com/thingsgraph/latest/ug/iot-tg-modelmanagement.html) di *Panduan Pengguna Grafik AWS IoT Things*.  
+  Untuk detail API, lihat [UploadEntityDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotthingsgraph/upload-entity-definitions.html)di *Referensi AWS CLI Perintah*. 

# AWS IoT Wireless contoh menggunakan AWS CLI
<a name="cli_2_iot-wireless_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS IoT Wireless.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-aws-account-with-partner-account`
<a name="iot-wireless_AssociateAwsAccountWithPartnerAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-aws-account-with-partner-account`.

**AWS CLI**  
**Untuk mengaitkan akun mitra dengan AWS akun Anda**  
`associate-aws-account-with-partner-account`Contoh berikut mengaitkan kredensi akun Sidewalk berikut dengan akun Anda. AWS   

```
aws iotwireless associate-aws-account-with-partner-account \
    --sidewalk AmazonId="12345678901234",AppServerPrivateKey="a123b45c6d78e9f012a34cd5e6a7890b12c3d45e6f78a1b234c56d7e890a1234"
```
Output:  

```
{
    "Sidewalk": {
        "AmazonId": "12345678901234",
        "AppServerPrivateKey": "a123b45c6d78e9f012a34cd5e6a7890b12c3d45e6f78a1b234c56d7e890a1234"
    }
}
```
Untuk informasi selengkapnya, lihat [Integrasi Sidewalk Amazon untuk AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/iot-sidewalk.html) Core di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [AssociateAwsAccountWithPartnerAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/associate-aws-account-with-partner-account.html)di *Referensi AWS CLI Perintah*. 

### `associate-wireless-device-with-thing`
<a name="iot-wireless_AssociateWirelessDeviceWithThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-wireless-device-with-thing`.

**AWS CLI**  
**Untuk mengaitkan sesuatu ke perangkat nirkabel**  
`associate-wireless-device-with-thing`Contoh berikut mengaitkan sesuatu ke perangkat nirkabel Anda yang memiliki ID yang ditentukan.  

```
aws iotwireless associate-wireless-device-with-thing \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d" \
    --thing-arn "arn:aws:iot:us-east-1:123456789012:thing/MyIoTWirelessThing"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menambahkan gateway dan perangkat nirkabel Anda ke AWS IoT Core for WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-onboard-devices.html).*  
+  Untuk detail API, lihat [AssociateWirelessDeviceWithThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/associate-wireless-device-with-thing.html)di *Referensi AWS CLI Perintah*. 

### `associate-wireless-gateway-with-certificate`
<a name="iot-wireless_AssociateWirelessGatewayWithCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-wireless-gateway-with-certificate`.

**AWS CLI**  
**Untuk mengaitkan sertifikat dengan gateway nirkabel**  
Berikut ini `associate-wireless-gateway-with-certificate` mengaitkan gateway nirkabel dengan sertifikat.  

```
aws iotwireless associate-wireless-gateway-with-certificate \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d" \
    --iot-certificate-id "a123b45c6d78e9f012a34cd5e6a7890b12c3d45e6f78a1b234c56d7e890a1234"
```
Output:  

```
{
    "IotCertificateId": "a123b45c6d78e9f012a34cd5e6a7890b12c3d45e6f78a1b234c56d7e890a1234"
}
```
*Untuk informasi selengkapnya, lihat [Menambahkan gateway dan perangkat nirkabel Anda ke AWS IoT Core for WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-onboard-devices.html).*  
+  Untuk detail API, lihat [AssociateWirelessGatewayWithCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/associate-wireless-gateway-with-certificate.html)di *Referensi AWS CLI Perintah*. 

### `associate-wireless-gateway-with-thing`
<a name="iot-wireless_AssociateWirelessGatewayWithThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-wireless-gateway-with-thing`.

**AWS CLI**  
**Untuk mengaitkan sesuatu ke gateway nirkabel**  
`associate-wireless-gateway-with-thing`Contoh berikut mengaitkan sesuatu ke gateway nirkabel.  

```
aws iotwireless associate-wireless-gateway-with-thing \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d" \
    --thing-arn "arn:aws:iot:us-east-1:123456789012:thing/MyIoTWirelessThing"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menambahkan gateway dan perangkat nirkabel Anda ke AWS IoT Core for WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-onboard-devices.html).*  
+  Untuk detail API, lihat [AssociateWirelessGatewayWithThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/associate-wireless-gateway-with-thing.html)di *Referensi AWS CLI Perintah*. 

### `create-destination`
<a name="iot-wireless_CreateDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-destination`.

**AWS CLI**  
**Untuk membuat tujuan nirkabel IoT**  
`create-destination`Contoh berikut membuat tujuan untuk memetakan pesan perangkat ke aturan AWS IoT. Sebelum Anda menjalankan perintah ini, Anda harus telah membuat peran IAM yang memberikan AWS IoT Core LoRa untuk WAN izin yang diperlukan untuk mengirim data ke aturan IoT. AWS   

```
aws iotwireless create-destination \
    --name IoTWirelessDestination \
    --expression-type RuleName \
    --expression IoTWirelessRule \
    --role-arn arn:aws:iam::123456789012:role/IoTWirelessDestinationRole
```
Output:  

```
{
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:Destination/IoTWirelessDestination",
    "Name": "IoTWirelessDestination"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan tujuan ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-create-destinations.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/create-destination.html)di *Referensi AWS CLI Perintah*. 

### `create-device-profile`
<a name="iot-wireless_CreateDeviceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-device-profile`.

**AWS CLI**  
**Untuk membuat profil perangkat baru**  
`create-device-profile`Contoh berikut membuat profil perangkat nirkabel IoT baru.  

```
aws iotwireless create-device-profile
```
Output:  

```
{
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:DeviceProfile/12345678-a1b2-3c45-67d8-e90fa1b2c34d",
    "Id": "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan profil ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateDeviceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/create-device-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-service-profile`
<a name="iot-wireless_CreateServiceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service-profile`.

**AWS CLI**  
**Untuk membuat profil layanan baru**  
`create-service-profile`Contoh berikut membuat profil layanan nirkabel IoT baru.  

```
aws iotwireless create-service-profile
```
Output:  

```
{
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:ServiceProfile/12345678-a1b2-3c45-67d8-e90fa1b2c34d",
    "Id": "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan profil ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [CreateServiceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/create-service-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-wireless-device`
<a name="iot-wireless_CreateWirelessDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-wireless-device`.

**AWS CLI**  
**Untuk membuat perangkat nirkabel IoT**  
`create-wireless-device`Contoh berikut membuat sumber daya perangkat nirkabel dari tipe LoRa WAN.  

```
aws iotwireless create-wireless-device \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "Description": "My LoRaWAN wireless device"
    "DestinationName": "IoTWirelessDestination"
    "LoRaWAN": {
        "DeviceProfileId": "ab0c23d3-b001-45ef-6a01-2bc3de4f5333",
        "ServiceProfileId": "fe98dc76-cd12-001e-2d34-5550432da100",
        "OtaaV1_1": {
            "AppKey": "3f4ca100e2fc675ea123f4eb12c4a012",
            "JoinEui": "b4c231a359bc2e3d",
            "NwkKey": "01c3f004a2d6efffe32c4eda14bcd2b4"
        },
        "DevEui": "ac12efc654d23fc2"
    },
    "Name": "SampleIoTWirelessThing"
    "Type": LoRaWAN
}
```
Output:  

```
{
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:WirelessDevice/1ffd32c8-8130-4194-96df-622f072a315f",
    "Id": "1ffd32c8-8130-4194-96df-622f072a315f"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [CreateWirelessDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/create-wireless-device.html)di *Referensi AWS CLI Perintah*. 

### `create-wireless-gateway-task-definition`
<a name="iot-wireless_CreateWirelessGatewayTaskDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-wireless-gateway-task-definition`.

**AWS CLI**  
**Untuk membuat definisi tugas gateway nirkabel**  
Berikut ini `create-wireless-gateway-task-definition` secara otomatis membuat tugas menggunakan definisi tugas ini untuk semua gateway dengan versi saat ini yang ditentukan.  

```
aws iotwireless create-wireless-gateway-task-definition \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "AutoCreateTasks": true,
    "Name": "TestAutoUpdate",
    "Update":{
        "UpdateDataSource" : "s3://cupsalphagafirmwarebin/station",
        "UpdateDataRole" : "arn:aws:iam::001234567890:role/SDK_Test_Role",
        "LoRaWAN" :{
            "CurrentVersion" :{
                "PackageVersion" : "1.0.0",
                "Station" : "2.0.5",
                "Model" : "linux"
            },
            "UpdateVersion" :{
                "PackageVersion" : "1.0.1",
                "Station" : "2.0.5",
                "Model" : "minihub"
            }
        }
    }
}
```
Output:  

```
{
    "Id": "b7d3baad-25c7-35e7-a4e1-1683a0d61da9"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [CreateWirelessGatewayTaskDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/create-wireless-gateway-task-definition.html)di *Referensi AWS CLI Perintah*. 

### `create-wireless-gateway-task`
<a name="iot-wireless_CreateWirelessGatewayTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-wireless-gateway-task`.

**AWS CLI**  
**Untuk membuat tugas untuk gateway nirkabel**  
`create-wireless-gateway-task`Contoh berikut membuat tugas untuk gateway nirkabel.  

```
aws iotwireless create-wireless-gateway-task \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d" \
    --wireless-gateway-task-definition-id "aa000102-0304-b0cd-ef56-a1b23cde456a"
```
Output:  

```
{
    "WirelessGatewayTaskDefinitionId": "aa204003-0604-30fb-ac82-a4f95aaf450a",
    "Status": "Success"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [CreateWirelessGatewayTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/create-wireless-gateway-task.html)di *Referensi AWS CLI Perintah*. 

### `create-wireless-gateway`
<a name="iot-wireless_CreateWirelessGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-wireless-gateway`.

**AWS CLI**  
**Untuk membuat gateway nirkabel**  
`create-wireless-gateway`Contoh berikut membuat gateway perangkat LoRa WAN nirkabel.  

```
aws iotwireless create-wireless-gateway \
    --lorawan GatewayEui="a1b2c3d4567890ab",RfRegion="US915" \
    --name "myFirstLoRaWANGateway" \
    --description "Using my first LoRaWAN gateway"
```
Output:  

```
{
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:WirelessGateway/12345678-a1b2-3c45-67d8-e90fa1b2c34d",
    "Id": "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [CreateWirelessGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/create-wireless-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-destination`
<a name="iot-wireless_DeleteDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-destination`.

**AWS CLI**  
**Untuk menghapus tujuan nirkabel IoT**  
`delete-destination`Contoh berikut menghapus sumber daya tujuan nirkabel dengan nama `IoTWirelessDestination` yang Anda buat.  

```
aws iotwireless delete-destination \
    --name "IoTWirelessDestination"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan tujuan ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-create-destinations.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/delete-destination.html)di *Referensi AWS CLI Perintah*. 

### `delete-device-profile`
<a name="iot-wireless_DeleteDeviceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-device-profile`.

**AWS CLI**  
**Untuk menghapus profil perangkat**  
`delete-device-profile`Contoh berikut menghapus profil perangkat dengan ID tertentu yang Anda buat.  

```
aws iotwireless delete-device-profile \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan profil ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteDeviceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/delete-device-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-service-profile`
<a name="iot-wireless_DeleteServiceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service-profile`.

**AWS CLI**  
**Untuk menghapus profil layanan**  
`delete-service-profile`Contoh berikut menghapus profil layanan dengan ID tertentu yang Anda buat.  

```
aws iotwireless delete-service-profile \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan profil ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [DeleteServiceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/delete-service-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-wireless-device`
<a name="iot-wireless_DeleteWirelessDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-wireless-device`.

**AWS CLI**  
**Untuk menghapus perangkat nirkabel**  
`delete-wireless-device`Contoh berikut menghapus perangkat nirkabel yang memiliki ID yang ditentukan.  

```
aws iotwireless delete-wireless-device \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [DeleteWirelessDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/delete-wireless-device.html)di *Referensi AWS CLI Perintah*. 

### `delete-wireless-gateway-task-definition`
<a name="iot-wireless_DeleteWirelessGatewayTaskDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-wireless-gateway-task-definition`.

**AWS CLI**  
**Untuk menghapus definisi tugas gateway nirkabel**  
`delete-wireless-gateway-task-definition`Contoh berikut menghapus definisi tugas gateway nirkabel yang Anda buat dengan ID berikut.  

```
aws iotwireless delete-wireless-gateway-task-definition \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [DeleteWirelessGatewayTaskDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/delete-wireless-gateway-task-definition.html)di *Referensi AWS CLI Perintah*. 

### `delete-wireless-gateway-task`
<a name="iot-wireless_DeleteWirelessGatewayTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-wireless-gateway-task`.

**AWS CLI**  
**Untuk menghapus tugas gateway nirkabel**  
`delete-wireless-gateway-task`Contoh berikut menghapus tugas gateway nirkabel yang memiliki ID yang ditentukan.  

```
aws iotwireless delete-wireless-gateway-task \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [DeleteWirelessGatewayTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/delete-wireless-gateway-task.html)di *Referensi AWS CLI Perintah*. 

### `delete-wireless-gateway`
<a name="iot-wireless_DeleteWirelessGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-wireless-gateway`.

**AWS CLI**  
**Untuk menghapus gateway nirkabel**  
`delete-wireless-gateway`Contoh berikut menghapus gateway nirkabel yang memiliki ID tertentu.  

```
aws iotwireless delete-wireless-gateway \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [DeleteWirelessGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/delete-wireless-gateway.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-aws-account-from-partner-account`
<a name="iot-wireless_DisassociateAwsAccountFromPartnerAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-aws-account-from-partner-account`.

**AWS CLI**  
**Untuk memisahkan akun mitra dari akun AWS **  
`disassociate-aws-account-from-partner-account`Contoh berikut memisahkan akun mitra dari akun Anda yang saat ini terkait AWS .  

```
aws iotwireless disassociate-aws-account-from-partner-account \
    --partner-account-id "12345678901234" \
    --partner-type "Sidewalk"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menambahkan gateway dan perangkat nirkabel Anda ke AWS IoT Core for WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-onboard-devices.html).*  
+  Untuk detail API, lihat [DisassociateAwsAccountFromPartnerAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/disassociate-aws-account-from-partner-account.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-wireless-device-from-thing`
<a name="iot-wireless_DisassociateWirelessDeviceFromThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-wireless-device-from-thing`.

**AWS CLI**  
**Untuk memisahkan benda dari perangkat nirkabel**  
`disassociate-wireless-device-from-thing`Contoh berikut memisahkan perangkat nirkabel dari hal yang saat ini terkait.  

```
aws iotwireless disassociate-wireless-device-from-thing \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menambahkan gateway dan perangkat nirkabel Anda ke AWS IoT Core for WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-onboard-devices.html).*  
+  Untuk detail API, lihat [DisassociateWirelessDeviceFromThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/disassociate-wireless-device-from-thing.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-wireless-gateway-from-certificate`
<a name="iot-wireless_DisassociateWirelessGatewayFromCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-wireless-gateway-from-certificate`.

**AWS CLI**  
**Untuk memisahkan sertifikat dari gateway nirkabel**  
Berikut ini `disassociate-wireless-gateway-from-certificate` memisahkan gateway nirkabel dari sertifikat yang saat ini terkait.  

```
aws iotwireless disassociate-wireless-gateway-from-certificate \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menambahkan gateway dan perangkat nirkabel Anda ke AWS IoT Core for WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-onboard-devices.html).*  
+  Untuk detail API, lihat [DisassociateWirelessGatewayFromCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/disassociate-wireless-gateway-from-certificate.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-wireless-gateway-from-thing`
<a name="iot-wireless_DisassociateWirelessGatewayFromThing_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-wireless-gateway-from-thing`.

**AWS CLI**  
**Untuk memisahkan benda itu dari gateway nirkabel**  
`disassociate-wireless-gateway-from-thing`Contoh berikut memisahkan gateway nirkabel dari hal yang saat ini terkait.  

```
aws iotwireless disassociate-wireless-gateway-from-thing \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menambahkan gateway dan perangkat nirkabel Anda ke AWS IoT Core for WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-onboard-devices.html).*  
+  Untuk detail API, lihat [DisassociateWirelessGatewayFromThing](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/disassociate-wireless-gateway-from-thing.html)di *Referensi AWS CLI Perintah*. 

### `get-destination`
<a name="iot-wireless_GetDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-destination`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang tujuan nirkabel IoT**  
`get-destination`Contoh berikut mendapatkan informasi tentang sumber daya tujuan dengan nama `IoTWirelessDestination` yang Anda buat.  

```
aws iotwireless get-destination \
    --name "IoTWirelessDestination"
```
Output:  

```
{
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:Destination/IoTWirelessDestination",
    "Name": "IoTWirelessDestination",
    "Expression": "IoTWirelessRule",
    "ExpressionType": "RuleName",
    "RoleArn": "arn:aws:iam::123456789012:role/IoTWirelessDestinationRole"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan tujuan ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-create-destinations.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-destination.html)di *Referensi AWS CLI Perintah*. 

### `get-device-profile`
<a name="iot-wireless_GetDeviceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-device-profile`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang profil perangkat**  
`get-device-profile`Contoh berikut mendapatkan informasi tentang profil perangkat dengan ID tertentu yang Anda buat.  

```
aws iotwireless get-device-profile \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Output:  

```
{
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:DeviceProfile/12345678-a1b2-3c45-67d8-e90fa1b2c34d",
    "Id": "12345678-a1b2-3c45-67d8-e90fa1b2c34d",
    "LoRaWAN": {
    "MacVersion": "1.0.3",
    "MaxDutyCycle": 10,
    "Supports32BitFCnt": false,
    "RegParamsRevision": "RP002-1.0.1",
    "SupportsJoin": true,
    "RfRegion": "US915",
    "MaxEirp": 13,
    "SupportsClassB": false,
    "SupportsClassC": false
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan profil ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetDeviceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-device-profile.html)di *Referensi AWS CLI Perintah*. 

### `get-partner-account`
<a name="iot-wireless_GetPartnerAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-partner-account`.

**AWS CLI**  
**Untuk mendapatkan informasi akun mitra**  
`get-partner-account`Contoh berikut mendapatkan informasi tentang akun Sidewalk Anda yang memiliki ID berikut.  

```
aws iotwireless get-partner-account \
    --partner-account-id "12345678901234" \
    --partner-type "Sidewalk"
```
Output:  

```
{
    "Sidewalk": {
        "AmazonId": "12345678901234",
        "Fingerprint": "a123b45c6d78e9f012a34cd5e6a7890b12c3d45e6f78a1b234c56d7e890a1234"
    },
    "AccountLinked": false
}
```
Untuk informasi selengkapnya, lihat [Integrasi Sidewalk Amazon untuk AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/iot-sidewalk.html) Core di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetPartnerAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-partner-account.html)di *Referensi AWS CLI Perintah*. 

### `get-service-endpoint`
<a name="iot-wireless_GetServiceEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-endpoint`.

**AWS CLI**  
**Untuk mendapatkan titik akhir layanan**  
`get-service-endpoint`Contoh berikut mendapatkan titik akhir khusus akun untuk protokol CUPS.  

```
aws iotwireless get-service-endpoint
```
Output:  

```
{
    "ServiceType": "CUPS",
    "ServiceEndpoint": "https://A1RMKZ37ACAGOT.cups.lorawan.us-east-1.amazonaws.com:443",
    "ServerTrust": "-----BEGIN CERTIFICATE-----\n
    MIIESTCCAzGgAwIBAgITBn+UV4WH6Kx33rJTMlu8mYtWDTANBgkqhkiG9w0BAQsF\n
    ADA5MQswCQYDVQQGEwJVUzEPMA0GA1UEChMGQW1hem9uMRkwFwYDVQQDExBBbWF6\n
    b24gUm9vdCBDQSAxMB4XDTE1MTAyMjAwMDAwMFoXDTI1MTAxOTAwMDAwMFowRjEL\n
    MAkGA1UEBhMCVVMxDzANBgNVBAoTBkFtYXpvbjEVMBMGA1UECxMMU2VydmVyIENB\n
    IDFCMQ8wDQYDVQQDEwZBbWF6b24wggEiMA0GCSqGSIb3DQEBAQUAA4IBDwAwggEK\n
    AoIBAQDCThZn3c68asg3Wuw6MLAd5tES6BIoSMzoKcG5blPVo+sDORrMd4f2AbnZ\n
    cMzPa43j4wNxhplty6aUKk4T1qe9BOwKFjwK6zmxxLVYo7bHViXsPlJ6qOMpFge5\n
    blDP+18x+B26A0piiQOuPkfyDyeR4xQghfj66Yo19V+emU3nazfvpFA+ROz6WoVm\n
    B5x+F2pV8xeKNR7u6azDdU5YVX1TawprmxRC1+WsAYmz6qP+z8ArDITC2FMVy2fw\n
    0IjKOtEXc/VfmtTFch5+AfGYMGMqqvJ6LcXiAhqG5TI+Dr0RtM88k+8XUBCeQ8IG\n
    KuANaL7TiItKZYxK1MMuTJtV9IblAgMBAAGjggE7MIIBNzASBgNVHRMBAf8ECDAG\n
    AQH/AgEAMA4GA1UdDwEB/wQEAwIBhjAdBgNVHQ4EFgQUWaRmBlKge5WSPKOUByeW\n
    dFv5PdAwHwYDVR0jBBgwFoAUhBjMhTTsvAyUlC4IWZzHshBOCggwewYIKwYBBQUH\n
    AQEEbzBtMC8GCCsGAQUFBzABhiNodHRwOi8vb2NzcC5yb290Y2ExLmFtYXpvbnRy\n
    dXN0LmNvbTA6BggrBgEFBQcwAoYuaHR0cDovL2NydC5yb290Y2ExLmFtYXpvbnRy\n
    dXN0LmNvbS9yb290Y2ExLmNlcjA/BgNVHR8EODA2MDSgMqAwhi5odHRwOi8vY3Js\n
    LnJvb3RjYTEuYW1hem9udHJ1c3QuY29tL3Jvb3RjYTEuY3JsMBMGA1UdIAQMMAow\n
    CAYGZ4EMAQIBMA0GCSqGSIb3DQEBCwUAA4IBAQCFkr41u3nPo4FCHOTjY3NTOVI1\n
    59Gt/a6ZiqyJEi+752+a1U5y6iAwYfmXss2lJwJFqMp2PphKg5625kXg8kP2CN5t\n
    6G7bMQcT8C8xDZNtYTd7WPD8UZiRKAJPBXa30/AbwuZe0GaFEQ8ugcYQgSn+IGBI\n
    8/LwhBNTZTUVEWuCUUBVV18YtbAiPq3yXqMB48Oz+ctBWuZSkbvkNodPLamkB2g1\n
    upRyzQ7qDn1X8nn8N8V7YJ6y68AtkHcNSRAnpTitxBKjtKPISLMVCx7i4hncxHZS\n
    yLyKQXhw2W2Xs0qLeC1etA+jTGDK4UfLeC0SF7FSi8o5LL21L8IzApar2pR/\n
    -----END CERTIFICATE-----\n"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetServiceEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-service-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `get-service-profile`
<a name="iot-wireless_GetServiceProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-profile`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang profil layanan**  
`get-service-profile`Contoh berikut mendapatkan informasi tentang profil layanan dengan ID tertentu yang Anda buat.  

```
aws iotwireless get-service-profile \
    --id "12345678-a1b2-3c45-67d8-e90fa1b2c34d"
```
Output:  

```
{
    "Arn": "arn:aws:iotwireless:us-east-1:651419225604:ServiceProfile/538185bb-d7e7-4b95-96a0-c51aa4a5b9a0",
    "Id": "12345678-a1b2-3c45-67d8-e90fa1b2c34d",
    "LoRaWAN": {
        "HrAllowed": false,
        "NwkGeoLoc": false,
        "DrMax": 15,
        "UlBucketSize": 4096,
        "PrAllowed": false,
        "ReportDevStatusBattery": false,
        "DrMin": 0,
        "DlRate": 60,
        "AddGwMetadata": false,
        "ReportDevStatusMargin": false,
        "MinGwDiversity": 1,
        "RaAllowed": false,
        "DlBucketSize": 4096,
        "DevStatusReqFreq": 24,
        "TargetPer": 5,
        "UlRate": 60
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan profil ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [GetServiceProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-service-profile.html)di *Referensi AWS CLI Perintah*. 

### `get-wireless-device-statistics`
<a name="iot-wireless_GetWirelessDeviceStatistics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-wireless-device-statistics`.

**AWS CLI**  
**Untuk mendapatkan informasi pengoperasian tentang perangkat nirkabel**  
`get-wireless-device-statistics`Contoh berikut mendapatkan informasi pengoperasian tentang perangkat nirkabel.  

```
aws iotwireless get-wireless-device-statistics \
    --wireless-device-id "1ffd32c8-8130-4194-96df-622f072a315f"
```
Output:  

```
{
    "WirelessDeviceId": "1ffd32c8-8130-4194-96df-622f072a315f"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetWirelessDeviceStatistics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-wireless-device-statistics.html)di *Referensi AWS CLI Perintah*. 

### `get-wireless-device`
<a name="iot-wireless_GetWirelessDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-wireless-device`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang perangkat nirkabel**  
`get-wireless-device`Contoh berikut mencantumkan widget yang tersedia di AWS akun Anda.  

```
aws iotwireless get-wireless-device \
    --identifier "1ffd32c8-8130-4194-96df-622f072a315f" \
    --identifier-type WirelessDeviceID
```
Output:  

```
{
    "Name": "myLoRaWANDevice",
    "ThingArn": "arn:aws:iot:us-east-1:123456789012:thing/44b87eb4-9bce-423d-b5fc-973f5ecc358b",
    "DestinationName": "IoTWirelessDestination",
    "Id": "1ffd32c8-8130-4194-96df-622f072a315f",
    "ThingName": "44b87eb4-9bce-423d-b5fc-973f5ecc358b",
    "Type": "LoRaWAN",
    "LoRaWAN": {
        "DeviceProfileId": "ab0c23d3-b001-45ef-6a01-2bc3de4f5333",
        "ServiceProfileId": "fe98dc76-cd12-001e-2d34-5550432da100",
        "OtaaV1_1": {
            "AppKey": "3f4ca100e2fc675ea123f4eb12c4a012",
            "JoinEui": "b4c231a359bc2e3d",
            "NwkKey": "01c3f004a2d6efffe32c4eda14bcd2b4"
        },
        "DevEui": "ac12efc654d23fc2"
    },
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:WirelessDevice/1ffd32c8-8130-4194-96df-622f072a315f",
    "Description": "My LoRaWAN wireless device"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetWirelessDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-wireless-device.html)di *Referensi AWS CLI Perintah*. 

### `get-wireless-gateway-certificate`
<a name="iot-wireless_GetWirelessGatewayCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-wireless-gateway-certificate`.

**AWS CLI**  
**Untuk mendapatkan ID sertifikat yang terkait dengan gateway nirkabel**  
`get-wireless-gateway-certificate`Contoh berikut mendapatkan ID sertifikat yang terkait dengan gateway nirkabel yang memiliki ID tertentu.  

```
aws iotwireless get-wireless-gateway-certificate \
    --id "6c44ab31-8b4d-407a-bed3-19b6c7cda551"
```
Output:  

```
{
    "IotCertificateId": "8ea4aeae3db34c78cce75d9abd830356869ead6972997e0603e5fd032c804b6f"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetWirelessGatewayCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-wireless-gateway-certificate.html)di *Referensi AWS CLI Perintah*. 

### `get-wireless-gateway-firmware-information`
<a name="iot-wireless_GetWirelessGatewayFirmwareInformation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-wireless-gateway-firmware-information`.

**AWS CLI**  
**Untuk mendapatkan informasi firmware tentang gateway nirkabel**  
`get-wireless-gateway-firmware-information`Contoh berikut mendapatkan versi firmware dan informasi lain tentang gateway nirkabel.  

```
aws iotwireless get-wireless-gateway-firmware-information \
    --id "3039b406-5cc9-4307-925b-9948c63da25b"
```
Output:  

```
{
    "LoRaWAN" :{
        "CurrentVersion" :{
            "PackageVersion" : "1.0.0",
            "Station" : "2.0.5",
            "Model" : "linux"
        }
    }
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetWirelessGatewayFirmwareInformation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-wireless-gateway-firmware-information.html)di *Referensi AWS CLI Perintah*. 

### `get-wireless-gateway-statistics`
<a name="iot-wireless_GetWirelessGatewayStatistics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-wireless-gateway-statistics`.

**AWS CLI**  
**Untuk mendapatkan informasi pengoperasian tentang gateway nirkabel**  
`get-wireless-gateway-statistics`Contoh berikut mendapatkan informasi operasi tentang gateway nirkabel.  

```
aws iotwireless get-wireless-gateway-statistics \
    --wireless-gateway-id "3039b406-5cc9-4307-925b-9948c63da25b"
```
Output:  

```
{
    "WirelessGatewayId": "3039b406-5cc9-4307-925b-9948c63da25b"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetWirelessGatewayStatistics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-wireless-gateway-statistics.html)di *Referensi AWS CLI Perintah*. 

### `get-wireless-gateway-task-definition`
<a name="iot-wireless_GetWirelessGatewayTaskDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-wireless-gateway-task-definition`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang definisi tugas gateway nirkabel**  
`get-wireless-gateway-task-definition`Contoh berikut mendapatkan informasi tentang definisi tugas nirkabel dengan ID yang ditentukan.  

```
aws iotwireless get-wireless-gateway-task-definition \
    --id "b7d3baad-25c7-35e7-a4e1-1683a0d61da9"
```
Output:  

```
{
    "AutoCreateTasks": true,
    "Name": "TestAutoUpdate",
    "Update":{
        "UpdateDataSource" : "s3://cupsalphagafirmwarebin/station",
        "UpdateDataRole" : "arn:aws:iam::001234567890:role/SDK_Test_Role",
        "LoRaWAN" :{
            "CurrentVersion" :{
                "PackageVersion" : "1.0.0",
                "Station" : "2.0.5",
                "Model" : "linux"
            },
            "UpdateVersion" :{
                "PackageVersion" : "1.0.1",
                "Station" : "2.0.5",
                "Model" : "minihub"
            }
        }
    }
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetWirelessGatewayTaskDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-wireless-gateway-task-definition.html)di *Referensi AWS CLI Perintah*. 

### `get-wireless-gateway-task`
<a name="iot-wireless_GetWirelessGatewayTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-wireless-gateway-task`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang tugas gateway nirkabel**  
`get-wireless-gateway-task`Contoh berikut mendapatkan informasi tentang tugas gateway nirkabel dengan ID yang ditentukan.  

```
aws iotwireless get-wireless-gateway-task \
    --id "11693a46-6866-47c3-a031-c9a616e7644b"
```
Output:  

```
{
    "WirelessGatewayId": "6c44ab31-8b4d-407a-bed3-19b6c7cda551",
    "WirelessGatewayTaskDefinitionId": "b7d3baad-25c7-35e7-a4e1-1683a0d61da9",
    "Status": "Success"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetWirelessGatewayTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-wireless-gateway-task.html)di *Referensi AWS CLI Perintah*. 

### `get-wireless-gateway`
<a name="iot-wireless_GetWirelessGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-wireless-gateway`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang gateway nirkabel**  
`get-wireless-gateway`Contoh berikut mendapatkan informasi tentang gateway nirkabel`myFirstLoRaWANGateway`.  

```
aws iotwireless get-wireless-gateway \
    --identifier "12345678-a1b2-3c45-67d8-e90fa1b2c34d" \
    --identifier-type WirelessGatewayId
```
Output:  

```
{
    "Description": "My first LoRaWAN gateway",
    "ThingArn": "arn:aws:iot:us-east-1:123456789012:thing/a1b2c3d4-5678-90ab-cdef-12ab345c67de",
    "LoRaWAN": {
        "RfRegion": "US915",
        "GatewayEui": "a1b2c3d4567890ab"
    },
    "ThingName": "a1b2c3d4-5678-90ab-cdef-12ab345c67de",
    "Id": "12345678-a1b2-3c45-67d8-e90fa1b2c34d",
    "Arn": "arn:aws:iotwireless:us-east-1:123456789012:WirelessGateway/6c44ab31-8b4d-407a-bed3-19b6c7cda551",
    "Name": "myFirstLoRaWANGateway"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [GetWirelessGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/get-wireless-gateway.html)di *Referensi AWS CLI Perintah*. 

### `list-destinations`
<a name="iot-wireless_ListDestinations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-destinations`.

**AWS CLI**  
**Untuk membuat daftar tujuan nirkabel**  
`list-destinations`Contoh berikut mencantumkan tujuan yang tersedia yang terdaftar ke AWS akun Anda.  

```
aws iotwireless list-destinations
```
Output:  

```
{
    "DestinationList": [
        {
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:Destination/IoTWirelessDestination",
            "Name": "IoTWirelessDestination",
            "Expression": "IoTWirelessRule",
            "Description": "Destination for messages processed using IoTWirelessRule",
            "RoleArn": "arn:aws:iam::123456789012:role/IoTWirelessDestinationRole"
        },
        {
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:Destination/IoTWirelessDestination2",
            "Name": "IoTWirelessDestination2",
            "Expression": "IoTWirelessRule2",
            "RoleArn": "arn:aws:iam::123456789012:role/IoTWirelessDestinationRole"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menambahkan tujuan ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-create-destinations.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListDestinations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/list-destinations.html)di *Referensi AWS CLI Perintah*. 

### `list-device-profiles`
<a name="iot-wireless_ListDeviceProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-device-profiles`.

**AWS CLI**  
**Untuk membuat daftar profil perangkat**  
`list-device-profiles`Contoh berikut mencantumkan profil perangkat yang tersedia yang terdaftar ke AWS akun Anda.  

```
aws iotwireless list-device-profiles
```
Output:  

```
{
    "DeviceProfileList": [
        {
            "Id": "12345678-a1b2-3c45-67d8-e90fa1b2c34d",
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:DeviceProfile/12345678-a1b2-3c45-67d8-e90fa1b2c34d"
        },
        {
            "Id": "a1b2c3d4-5678-90ab-cdef-12ab345c67de",
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:DeviceProfile/a1b2c3d4-5678-90ab-cdef-12ab345c67de"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menambahkan profil ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListDeviceProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/list-device-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-partner-accounts`
<a name="iot-wireless_ListPartnerAccounts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-partner-accounts`.

**AWS CLI**  
**Untuk membuat daftar akun mitra**  
`list-partner-accounts`Contoh berikut mencantumkan akun mitra yang tersedia yang terkait dengan AWS akun Anda.  

```
aws iotwireless list-partner-accounts
```
Output:  

```
{
    "Sidewalk": [
        {
            "AmazonId": "78965678771228",
            "Fingerprint": "bd96d8ef66dbfd2160eb60e156849e82ad7018b8b73c1ba0b4fc65c32498ee35"
        },
        {
            "AmazonId": "89656787651228",
            "Fingerprint": "bc5e99e151c07be14be7e6603e4489c53f858b271213a36ebe3370777ba06e9b"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Integrasi Sidewalk Amazon untuk AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/iot-sidewalk.html) Core di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListPartnerAccounts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/list-partner-accounts.html)di *Referensi AWS CLI Perintah*. 

### `list-service-profiles`
<a name="iot-wireless_ListServiceProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-profiles`.

**AWS CLI**  
**Untuk membuat daftar profil layanan**  
`list-service-profiles`Contoh berikut mencantumkan profil layanan yang tersedia yang terdaftar ke AWS akun Anda.  

```
aws iotwireless list-service-profiles
```
Output:  

```
{
    "ServiceProfileList": [
        {
            "Id": "12345678-a1b2-3c45-67d8-e90fa1b2c34d",
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:ServiceProfile/538185bb-d7e7-4b95-96a0-c51aa4a5b9a0"
        },
        {
            "Id": "a1b2c3d4-5678-90ab-cdef-12ab345c67de",
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:ServiceProfile/ea8bc823-5d13-472e-8d26-9550737d8100"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menambahkan profil ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-define-profiles.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListServiceProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/list-service-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="iot-wireless_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang ditetapkan ke sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag yang ditetapkan ke sumber daya tujuan nirkabel.  

```
aws iotwireless list-tags-for-resource \
    --resource-arn "arn:aws:iotwireless:us-east-1:123456789012:Destination/IoTWirelessDestination"
```
Output:  

```
{
    "Tags": [
        {
            "Value": "MyValue",
            "Key": "MyTag"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan Inti AWS IoT Anda untuk sumber daya LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-describe-resource.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-wireless-devices`
<a name="iot-wireless_ListWirelessDevices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-wireless-devices`.

**AWS CLI**  
**Untuk daftar perangkat nirkabel yang tersedia**  
`list-wireless-devices`Contoh berikut mencantumkan perangkat nirkabel yang tersedia yang terdaftar ke AWS akun Anda.  

```
aws iotwireless list-wireless-devices
```
Output:  

```
{
    "WirelessDeviceList": [
        {
            "Name": "myLoRaWANDevice",
            "DestinationName": "IoTWirelessDestination",
            "Id": "1ffd32c8-8130-4194-96df-622f072a315f",
            "Type": "LoRaWAN",
            "LoRaWAN": {
                "DevEui": "ac12efc654d23fc2"
            },
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:WirelessDevice/1ffd32c8-8130-4194-96df-622f072a315f"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [ListWirelessDevices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/list-wireless-devices.html)di *Referensi AWS CLI Perintah*. 

### `list-wireless-gateway-task-definitions`
<a name="iot-wireless_ListWirelessGatewayTaskDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-wireless-gateway-task-definitions`.

**AWS CLI**  
**Untuk membuat daftar definisi tugas gateway nirkabel**  
`list-wireless-gateway-task-definitions`Contoh berikut mencantumkan definisi tugas gateway nirkabel yang tersedia yang terdaftar ke AWS akun Anda.  

```
aws iotwireless list-wireless-gateway-task-definitions
```
Output:  

```
{
    "TaskDefinitions": [
        {
            "Id": "b7d3baad-25c7-35e7-a4e1-1683a0d61da9",
            "LoRaWAN" :
                {
                "CurrentVersion" :{
                    "PackageVersion" : "1.0.0",
                    "Station" : "2.0.5",
                    "Model" : "linux"
                },
                "UpdateVersion" :{
                    "PackageVersion" : "1.0.1",
                    "Station" : "2.0.5",
                    "Model" : "minihub"
                }
            }
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [ListWirelessGatewayTaskDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/list-wireless-gateway-task-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-wireless-gateways`
<a name="iot-wireless_ListWirelessGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-wireless-gateways`.

**AWS CLI**  
**Untuk membuat daftar gateway nirkabel**  
`list-wireless-gateways`Contoh berikut mencantumkan gateway nirkabel yang tersedia di akun Anda AWS .  

```
aws iotwireless list-wireless-gateways
```
Output:  

```
{
    "WirelessGatewayList": [
        {
            "Description": "My first LoRaWAN gateway",
            "LoRaWAN": {
                "RfRegion": "US915",
                "GatewayEui": "dac632ebc01d23e4"
            },
            "Id": "3039b406-5cc9-4307-925b-9948c63da25b",
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:WirelessGateway/3039b406-5cc9-4307-925b-9948c63da25b",
            "Name": "myFirstLoRaWANGateway"
        },
        {
            "Description": "My second LoRaWAN gateway",
            "LoRaWAN": {
                "RfRegion": "US915",
                "GatewayEui": "cda123fffe92ecd2"
            },
            "Id": "3285bdc7-5a12-4991-84ed-dadca65e342e",
            "Arn": "arn:aws:iotwireless:us-east-1:123456789012:WirelessGateway/3285bdc7-5a12-4991-84ed-dadca65e342e",
            "Name": "mySecondLoRaWANGateway"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [ListWirelessGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/list-wireless-gateways.html)di *Referensi AWS CLI Perintah*. 

### `send-data-to-wireless-device`
<a name="iot-wireless_SendDataToWirelessDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-data-to-wireless-device`.

**AWS CLI**  
**Untuk mengirim data ke perangkat nirkabel**  
`send-data-to-wireless-device`Contoh berikut mengirimkan bingkai data aplikasi yang didekripsi ke perangkat nirkabel.  

```
aws iotwireless send-data-to-wireless-device \
    --id "11aa5eae-2f56-4b8e-a023-b28d98494e49" \
    --transmit-mode "1" \
    --payload-data "SGVsbG8gVG8gRGV2c2lt" \
    --wireless-metadata LoRaWAN={FPort=1}
```
Output:  

```
{
    MessageId: "6011dd36-0043d6eb-0072-0008"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [SendDataToWirelessDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/send-data-to-wireless-device.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="iot-wireless_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menentukan kunci tag dan nilai untuk sumber daya**  
`tag-resource`Contoh berikut menandai tujuan nirkabel `IoTWirelessDestination` dengan kunci `MyTag` dan nilai`MyValue`.  

```
aws iotwireless tag-resource \
    --resource-arn "arn:aws:iotwireless:us-east-1:651419225604:Destination/IoTWirelessDestination" \
    --tags Key="MyTag",Value="MyValue"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menjelaskan Inti AWS IoT Anda untuk sumber daya LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-describe-resource.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `test-wireless-device`
<a name="iot-wireless_TestWirelessDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`test-wireless-device`.

**AWS CLI**  
**Untuk menguji perangkat nirkabel**  
`test-wireless-device`Contoh berikut mengirimkan data uplink `Hello` ke perangkat dengan ID tertentu.  

```
aws iotwireless test-wireless-device \
    --id "11aa5eae-2f56-4b8e-a023-b28d98494e49"
```
Output:  

```
{
    Result: "Test succeeded. one message is sent with payload: hello"
}
```
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [TestWirelessDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/test-wireless-device.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="iot-wireless_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus satu atau beberapa tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag `MyTag` dan nilainya dari tujuan nirkabel`IoTWirelessDestination`.  

```
aws iotwireless untag-resource \
    --resource-arn "arn:aws:iotwireless:us-east-1:123456789012:Destination/IoTWirelessDestination" \
    --tag-keys "MyTag"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menjelaskan Inti AWS IoT Anda untuk sumber daya LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-describe-resource.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-destination`
<a name="iot-wireless_UpdateDestination_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-destination`.

**AWS CLI**  
**Untuk memperbarui properti tujuan**  
`update-destination`Contoh berikut memperbarui properti deskripsi tujuan nirkabel.  

```
aws iotwireless update-destination \
    --name "IoTWirelessDestination" \
    --description "Destination for messages processed using IoTWirelessRule"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan tujuan ke AWS IoT Core untuk LoRa WAN di Panduan](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan-create-destinations.html) Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UpdateDestination](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/update-destination.html)di *Referensi AWS CLI Perintah*. 

### `update-partner-account`
<a name="iot-wireless_UpdatePartnerAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-partner-account`.

**AWS CLI**  
**Untuk memperbarui properti akun mitra**  
Berikut ini `update-partner-account` memperbarui `AppServerPrivateKey` untuk akun yang memiliki ID yang ditentukan.  

```
aws iotwireless update-partner-account \
    --partner-account-id "78965678771228" \
    --partner-type "Sidewalk" \
    --sidewalk AppServerPrivateKey="f798ab4899346a88599180fee9e14fa1ada7b6df989425b7c6d2146dd6c815bb"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Integrasi Sidewalk Amazon untuk AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/iot-sidewalk.html) Core di Panduan Pengembang *AWS IoT*.  
+  Untuk detail API, lihat [UpdatePartnerAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/update-partner-account.html)di *Referensi AWS CLI Perintah*. 

### `update-wireless-device`
<a name="iot-wireless_UpdateWirelessDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-wireless-device`.

**AWS CLI**  
**Untuk memperbarui properti perangkat nirkabel**  
`update-wireless-device`Contoh berikut memperbarui properti perangkat nirkabel yang terdaftar ke AWS akun Anda.  

```
aws iotwireless update-wireless-device \
    --id "1ffd32c8-8130-4194-96df-622f072a315f" \
    --destination-name IoTWirelessDestination2 \
    --description "Using my first LoRaWAN device"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [UpdateWirelessDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/update-wireless-device.html)di *Referensi AWS CLI Perintah*. 

### `update-wireless-gateway`
<a name="iot-wireless_UpdateWirelessGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-wireless-gateway`.

**AWS CLI**  
**Untuk memperbarui gateway nirkabel**  
`update-wireless-gateway`Contoh berikut memperbarui deskripsi gateway nirkabel Anda.  

```
aws iotwireless update-wireless-gateway \
    --id "3285bdc7-5a12-4991-84ed-dadca65e342e" \
    --description "Using my LoRaWAN gateway"
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghubungkan perangkat dan gateway ke AWS IoT Core untuk WAN LoRa di Panduan Pengembang AWS IoT](https://docs.aws.amazon.com/iot/latest/developerguide/connect-iot-lorawan.html).*  
+  Untuk detail API, lihat [UpdateWirelessGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/iotwireless/update-wireless-gateway.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon IVS menggunakan AWS CLI
<a name="cli_2_ivs_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS Command Line Interface dengan menggunakan Amazon IVS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-get-channel`
<a name="ivs_BatchGetChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-channel`.

**AWS CLI**  
**Untuk mendapatkan informasi konfigurasi saluran tentang beberapa saluran**  
`batch-get-channel`Contoh berikut mencantumkan informasi tentang saluran yang ditentukan.  

```
aws ivs batch-get-channel \
    --arns arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh \
        arn:aws:ivs:us-west-2:123456789012:channel/efghEFGHijkl
```
Output:  

```
{
    "channels": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
            "authorized": false,
            "containerFormat": "TS",
            "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
            "insecureIngest": false,
            "latencyMode": "LOW",
            "multitrackInputConfiguration": {
                "enabled": false,
                "maximumResolution": "FULL_HD",
                "policy": "ALLOW"
            },
            "name": "channel-1",
            "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel-1.abcdEFGH.m3u8",
            "preset": "",
            "playbackRestrictionPolicyArn": "",
            "recordingConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABCD12cdEFgh",
            "srt": {
                "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
                "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
            },
            "tags": {},
            "type": "STANDARD"
        },
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:channel/efghEFGHijkl",
            "authorized": false,
            "containerFormat": "FRAGMENTED_MP4",
            "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
            "insecureIngest": false,
            "latencyMode": "LOW",
            "multitrackInputConfiguration": {
                "enabled": true,
                "maximumResolution": "FULL_HD",
                "policy": "ALLOW"
            },
            "name": "channel-2",
            "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel-2.abcdEFGH.m3u8",
            "preset": "",
            "playbackRestrictionPolicyArn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ"",
            "recordingConfigurationArn": "",
            "srt": {
                "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
                "passphrase": "BA1C2defGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
            },
            "tags": {},
            "type": "STANDARD"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [BatchGetChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/batch-get-channel.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-stream-key`
<a name="ivs_BatchGetStreamKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-stream-key`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang beberapa tombol aliran**  
`batch-get-stream-key`Contoh berikut mendapat informasi tentang kunci aliran tertentu.  

```
aws ivs batch-get-stream-key \
    --arns arn:aws:ivs:us-west-2:123456789012:stream-key/skSKABCDefgh \
       arn:aws:ivs:us-west-2:123456789012:stream-key/skSKIJKLmnop
```
Output:  

```
{
    "streamKeys": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/skSKABCDefgh",
            "value": "sk_us-west-2_abcdABCDefgh_567890abcdef",
            "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
            "tags": {}
        },
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/skSKIJKLmnop",
            "value": "sk_us-west-2_abcdABCDefgh_567890ghijkl",
            "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
            "tags": {}
        }
     ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [BatchGetStreamKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/batch-get-stream-key.html)di *Referensi AWS CLI Perintah*. 

### `batch-start-viewer-session-revocation`
<a name="ivs_BatchStartViewerSessionRevocation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-start-viewer-session-revocation`.

**AWS CLI**  
**Untuk mencabut sesi penampil untuk beberapa pasangan Channel-ARN dan Viewer-ID**  
`batch-start-viewer-session-revocation`Contoh berikut melakukan pencabutan sesi pada beberapa pasangan Channel-ARN dan Viewer-ID secara bersamaan. Permintaan dapat selesai secara normal tetapi mengembalikan nilai di bidang kesalahan jika pemanggil tidak memiliki izin untuk mencabut sesi tertentu.  

```
aws ivs batch-start-viewer-session-revocation \
    --viewer-sessions '[{"channelArn":"arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh1","viewerId":"abcdefg1","viewerSessionVersionsLessThanOrEqualTo":1234567890}, \
      {"channelArn":"arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh2","viewerId":"abcdefg2","viewerSessionVersionsLessThanOrEqualTo":1234567890}]'
```
Output:  

```
{
    "errors": [
        {
            "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh1",
            "viewerId": "abcdefg1",
            "code": "403",
            "message": "not authorized",
        },
        {
            "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh2",
            "viewerId": "abcdefg2",
            "code": "403",
            "message": "not authorized",
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan Saluran Privat](https://docs.aws.amazon.com/ivs/latest/userguide/private-channels.html) dalam *Panduan Pengguna Amazon Interactive Video Service*.  
+  Untuk detail API, lihat [BatchStartViewerSessionRevocation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/batch-start-viewer-session-revocation.html)di *Referensi AWS CLI Perintah*. 

### `create-channel`
<a name="ivs_CreateChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-channel`.

**AWS CLI**  
**Contoh 1: Untuk membuat saluran tanpa rekaman**  
`create-channel`Contoh berikut membuat saluran baru dan kunci aliran terkait untuk memulai streaming.  

```
aws ivs create-channel \
    --name 'test-channel' \
    --no-insecure-ingest
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "authorized": false,
        "containerFormat": "TS",
        "name": "test-channel",
        "latencyMode": "LOW",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "tags": {},
        "type": "STANDARD"
    },
    "streamKey": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/g1H2I3j4k5L6",
        "value": "sk_us-west-2_abcdABCDefgh_567890abcdef",
        "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
**Contoh 2: Untuk membuat saluran dengan perekaman diaktifkan, menggunakan RecordingConfiguration sumber daya yang ditentukan oleh ARN-nya**  
`create-channel`Contoh berikut membuat saluran baru dan kunci streaming terkait untuk memulai streaming, dan mengatur perekaman untuk saluran:  

```
aws ivs create-channel \
    --name test-channel-with-recording \
    --insecure-ingest \
    --recording-configuration-arn 'arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABCD12cdEFgh'
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "containerFormat": "TS",
        "name": "test-channel-with-recording",
        "latencyMode": "LOW",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABCD12cdEFgh",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "BA1C2defGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": true,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {},
        "type": "STANDARD"
    },
    "streamKey": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/abcdABCDefgh",
        "value": "sk_us-west-2_abcdABCDefgh_567890abcdef",
        "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Merekam ke Amazon S3 di Panduan Pengguna](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/record-to-s3.html) Latensi *Rendah IVS*.  
**Contoh 3: Untuk membuat saluran dengan kebijakan pembatasan pemutaran yang ditentukan oleh ARN**  
`create-channel`Contoh berikut membuat saluran baru dan kunci streaming terkait untuk memulai streaming, dan menyiapkan kebijakan pembatasan pemutaran untuk saluran:  

```
aws ivs create-channel \
    --name test-channel-with-playback-restriction-policy\
    --insecure-ingest \
    --playback-restriction-policy-arn 'arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ'
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "containerFormat": "TS",
        "name": "test-channel-with-playback-restriction-policy",
        "latencyMode": "LOW",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2edfGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": true,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {},
        "type": "STANDARD"
    },
    "streamKey": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/abcdABCDefgh",
        "value": "sk_us-west-2_abcdABCDefgh_567890abcdef",
        "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
**Contoh 4: Untuk membuat saluran dengan multitrack diaktifkan**  
`create-channel`Contoh berikut membuat saluran baru dan kunci aliran terkait untuk memulai streaming, dan mengaktifkan multitrack.  

```
aws ivs create-channel \
    --name 'test-channel' \
    --no-insecure-ingest \
    --container-format 'FRAGMENTED_MP4' \
    --multitrack-input-configuration '{"enabled": true,"maximumResolution": "FULL_HD","policy": "ALLOW"}'
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "authorized": false,
        "containerFormat": "FRAGMENTED_MP4",
        "name": "test-channel",
        "latencyMode": "LOW",
        "multitrackInputConfiguration": {
            "enabled": true,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "tags": {},
        "type": "STANDARD"
    },
    "streamKey": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/g1H2I3j4k5L6",
        "value": "sk_us-west-2_abcdABCDefgh_567890abcdef",
        "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multitrack-video.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [CreateChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/create-channel.html)di *Referensi AWS CLI Perintah*. 

### `create-playback-restriction-policy`
<a name="ivs_CreatePlaybackRestrictionPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-playback-restriction-policy`.

**AWS CLI**  
**Untuk membuat kebijakan pembatasan pemutaran**  
`create-playback-restriction-policy`Contoh berikut membuat kebijakan resriction pemutaran baru.  

```
aws ivs create-playback-restriction-policy \
    --name "test-playback-restriction-policy" \
    --enable-strict-origin-enforcement \
    --tags "key1=value1, key2=value2" \
    --allowed-countries US MX \
    --allowed-origins https://www.website1.com https://www.website2.com
```
Output:  

```
{
    "playbackRestrictionPolicy": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ",
        "allowedCountries": [
            "US",
            "MX"
        ],
        "allowedOrigins": [
            "https://www.website1.com",
            "https://www.website2.com"
        ],
        "enableStrictOriginEnforcement": true,
        "name": "test-playback-restriction-policy",
        "tags": {
            "key1": "value1",
            "key2": "value2"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [CreatePlaybackRestrictionPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/create-playback-restriction-policy.html)di *Referensi AWS CLI Perintah*. 

### `create-recording-configuration`
<a name="ivs_CreateRecordingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-recording-configuration`.

**AWS CLI**  
**Untuk membuat sumber RecordingConfiguration daya**  
`create-recording-configuration`Contoh berikut membuat RecordingConfiguration sumber daya untuk mengaktifkan perekaman ke Amazon S3.  

```
aws ivs create-recording-configuration \
    --name "test-recording-config" \
    --recording-reconnect-window-seconds 60 \
    --tags "key1=value1, key2=value2" \
    --rendition-configuration renditionSelection="CUSTOM",renditions="HD" \
    --thumbnail-configuration recordingMode="INTERVAL",targetIntervalSeconds=1,storage="LATEST",resolution="LOWEST_RESOLUTION" \
    --destination-configuration s3={bucketName=demo-recording-bucket}
```
Output:  

```
{
    "recordingConfiguration": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABcdef34ghIJ",
        "name": "test-recording-config",
        "destinationConfiguration": {
            "s3": {
                "bucketName": "demo-recording-bucket"
            }
        },
        "state": "CREATING",
        "tags": {
            "key1": "value1",
            "key2": "value2"
        },
        "thumbnailConfiguration": {
            "recordingMode": "INTERVAL",
            "targetIntervalSeconds": 1,
            "resolution": "LOWEST_RESOLUTION",
            "storage": [
                "LATEST"
            ]
        },
        "recordingReconnectWindowSeconds": 60,
        "renditionConfiguration": {
            "renditionSelection": "CUSTOM",
            "renditions": [
                "HD"
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Merekam ke Amazon S3](https://docs.aws.amazon.com/ivs/latest/userguide/record-to-s3.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [CreateRecordingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/create-recording-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-stream-key`
<a name="ivs_CreateStreamKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stream-key`.

**AWS CLI**  
**Untuk membuat kunci aliran**  
`create-stream-key`Contoh berikut membuat kunci aliran untuk ARN tertentu (Amazon Resource Name).  

```
aws ivs create-stream-key \
    --channel-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh
```
Output:  

```
{
    "streamKey": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/abcdABCDefgh",
        "value": "sk_us-west-2_abcdABCDefgh_567890abcdef",
        "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [CreateStreamKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/create-stream-key.html)di *Referensi AWS CLI Perintah*. 

### `delete-channel`
<a name="ivs_DeleteChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-channel`.

**AWS CLI**  
**Untuk menghapus saluran dan kunci aliran terkait**  
`delete-channel`Contoh berikut menghapus saluran dengan ARN yang ditentukan (Amazon Resource Name).  

```
aws ivs delete-channel \
    --arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [DeleteChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/delete-channel.html)di *Referensi AWS CLI Perintah*. 

### `delete-playback-key-pair`
<a name="ivs_DeletePlaybackKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-playback-key-pair`.

**AWS CLI**  
**Untuk menghapus key pair playback yang ditentukan**  
`delete-playback-key-pair`Contoh berikut mengembalikan sidik jari dari key pair yang ditentukan.  

```
aws ivs delete-playback-key-pair \
    --arn arn:aws:ivs:us-west-2:123456789012:playback-key/abcd1234efgh
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiapkan Saluran Privat](https://docs.aws.amazon.com/ivs/latest/userguide/private-channels.html) dalam *Panduan Pengguna Amazon Interactive Video Service*.  
+  Untuk detail API, lihat [DeletePlaybackKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/delete-playback-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `delete-playback-restriction-policy`
<a name="ivs_DeletePlaybackRestrictionPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-playback-restriction-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan pembatasan pemutaran**  
`delete-playback-restriction-policy`Contoh berikut menghapus kebijakan pemutaran ulang dengan kebijakan yang ditentukan ARN (Nama Sumber Daya Amazon).  

```
aws ivs delete-playback-restriction-policy \
    --arn "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [DeletePlaybackRestrictionPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/delete-playback-restriction-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-recording-configuration`
<a name="ivs_DeleteRecordingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-recording-configuration`.

**AWS CLI**  
**Untuk menghapus RecordingConfiguration sumber daya yang ditentukan oleh ARN-nya**  
`delete-recording-configuration`Contoh berikut menghapus RecordingConfiguration sumber daya dengan ARN yang ditentukan.  

```
aws ivs delete-recording-configuration \
    --arn "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABcdef34ghIJ"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Merekam ke Amazon S3](https://docs.aws.amazon.com/ivs/latest/userguide/record-to-s3.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DeleteRecordingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/delete-recording-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-stream-key`
<a name="ivs_DeleteStreamKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stream-key`.

**AWS CLI**  
**Untuk menghapus kunci aliran**  
`delete-stream-key`Contoh berikut menghapus kunci aliran untuk ARN tertentu (Amazon Resource Name), sehingga tidak dapat lagi digunakan untuk streaming.  

```
aws ivs delete-stream-key \
    --arn arn:aws:ivs:us-west-2:123456789012:stream-key/g1H2I3j4k5L6
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [DeleteStreamKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/delete-stream-key.html)di *Referensi AWS CLI Perintah*. 

### `get-channel`
<a name="ivs_GetChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-channel`.

**AWS CLI**  
**Untuk mendapatkan informasi konfigurasi saluran**  
`get-channel`Contoh berikut mendapatkan konfigurasi saluran untuk saluran tertentu ARN (Amazon Resource Name).  

```
aws ivs get-channel \
    --arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh'
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "authorized": false,
        "containerFormat": "TS",
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "latencyMode": "LOW",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "name": "channel-1",
        "playbackRestrictionPolicyArn": "",
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "tags": {}
        "type": "STANDARD",
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [GetChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/get-channel.html)di *Referensi AWS CLI Perintah*. 

### `get-playback-key-pair`
<a name="ivs_GetPlaybackKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-playback-key-pair`.

**AWS CLI**  
**Untuk mendapatkan key pair playback yang ditentukan**  
`get-playback-key-pair`Contoh berikut mengembalikan sidik jari dari key pair yang ditentukan.  

```
aws ivs get-playback-key-pair \
    --arn arn:aws:ivs:us-west-2:123456789012:playback-key/abcd1234efgh
```
Output:  

```
{
    "keyPair": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:playback-key/abcd1234efgh",
        "name": "my-playback-key",
        "fingerprint": "0a:1b:2c:ab:cd:ef:34:56:70:b1:b2:71:01:2a:a3:72",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan Saluran Privat](https://docs.aws.amazon.com/ivs/latest/userguide//private-channels.html) dalam *Panduan Pengguna Amazon Interactive Video Service*.  
+  Untuk detail API, lihat [GetPlaybackKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/get-playback-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `get-playback-restriction-policy`
<a name="ivs_GetPlaybackRestrictionPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-playback-restriction-policy`.

**AWS CLI**  
**Untuk mendapatkan informasi konfigurasi kebijakan pembatasan pemutaran**  
`get-playback-restriction-policy`Contoh berikut mendapatkan konfigurasi kebijakan pembatasan pemutaran dengan kebijakan yang ditentukan ARN (Nama Sumber Daya Amazon).  

```
aws ivs get-playback-restriction-policy \
    --arn "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ"
```
Output:  

```
{
    "playbackRestrictionPolicy": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ",
        "allowedCountries": [
            "US",
            "MX"
        ],
        "allowedOrigins": [
            "https://www.website1.com",
            "https://www.website2.com"
        ],
        "enableStrictOriginEnforcement": true,
        "name": "test-playback-restriction-policy",
        "tags": {
            "key1": "value1",
            "key2": "value2"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [GetPlaybackRestrictionPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/get-playback-restriction-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-recording-configuration`
<a name="ivs_GetRecordingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-recording-configuration`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sumber RecordingConfiguration daya**  
`get-recording-configuration`Contoh berikut mendapatkan informasi tentang RecordingConfiguration sumber daya untuk ARN yang ditentukan.  

```
aws ivs get-recording-configuration \
    --arn "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABcdef34ghIJ"
```
Output:  

```
{
    "recordingConfiguration": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABcdef34ghIJ",
        "destinationConfiguration": {
            "s3": {
                "bucketName": "demo-recording-bucket"
            }
        },
        "name": "test-recording-config",
        "recordingReconnectWindowSeconds": 60,
        "state": "ACTIVE",
        "tags": {
            "key1" : "value1",
            "key2" : "value2"
        },
        "thumbnailConfiguration": {
            "recordingMode": "INTERVAL",
            "targetIntervalSeconds": 1,
            "resolution": "LOWEST_RESOLUTION",
            "storage": [
                "LATEST"
            ]
        },
        "renditionConfiguration": {
            "renditionSelection": "CUSTOM",
            "renditions": [
                "HD"
            ]
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Merekam ke Amazon S3](https://docs.aws.amazon.com/ivs/latest/userguide/record-to-s3.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [GetRecordingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/get-recording-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-stream-key`
<a name="ivs_GetStreamKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stream-key`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang aliran**  
`get-stream-key`Contoh berikut mendapatkan informasi tentang kunci aliran tertentu.  

```
aws ivs get-stream-key \
    --arn arn:aws:ivs:us-west-2:123456789012:stream-key/skSKABCDefgh --region=us-west-2
```
Output:  

```
{
    "streamKey": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/skSKABCDefgh",
        "value": "sk_us-west-2_abcdABCDefgh_567890abcdef",
        "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [GetStreamKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/get-stream-key.html)di *Referensi AWS CLI Perintah*. 

### `get-stream-session`
<a name="ivs_GetStreamSession_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stream-session`.

**AWS CLI**  
**Untuk mendapatkan metadata untuk aliran tertentu**  
`get-stream-session`Contoh berikut mendapatkan konfigurasi metadata untuk saluran yang ditentukan ARN (Nama Sumber Daya Amazon) dan aliran yang ditentukan; `streamId` jika tidak disediakan, aliran terbaru untuk saluran dipilih.  

```
aws ivs get-stream-session \
    --channel-arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh' \
    --stream-id 'mystream'
```
Output:  

```
{
    "streamSession": {
        "streamId": "mystream1",
        "startTime": "2023-06-26T19:09:28+00:00",
        "channel": {
            "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
            "name": "mychannel",
            "latencyMode": "LOW",
            "type": "STANDARD",
            "recordingConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABcdef34ghIJ",
            "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
            "playbackUrl": "url-string",
            "authorized": false,
            "insecureIngest": false,
            "preset": ""
        },
        "ingestConfiguration": {
            "audio": {
                "channels": 2,
                "codec": "mp4a.40.2",
                "sampleRate": 8000,
                "targetBitrate": 46875,
                "track": "Track0"
            },
            "video": {
                "avcProfile": "Baseline",
                "avcLevel": "4.2",
                "codec": "avc1.42C02A",
                "encoder": "Lavf58.45.100",
                "level": "4.2",
                "profile": "Baseline",
                "targetBitrate": 8789062,
                "targetFramerate": 60,
                "track": "Track0",
                "videoHeight": 1080,
                "videoWidth": 1920
            }
        },
        "ingestConfigurations": {
            "audioConfigurations": [
                {
                    "channels": 2,
                    "codec": "mp4a.40.2",
                    "sampleRate": 8000,
                    "targetBitrate": 46875,
                    "track": "Track0"
                }
            ],
            "videoConfigurations": [
                {
                    "codec": "avc1.42C02A",
                    "encoder": "Lavf58.45.100",
                    "level": "4.2",
                    "profile": "Baseline",
                    "targetBitrate": 8789062,
                    "targetFramerate": 60,
                    "track": "Track0",
                    "videoHeight": 1080,
                    "videoWidth": 1920
                }
            ]
        },
        "recordingConfiguration": {
            "arn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABcdef34ghIJ",
            "name": "test-recording-config",
            "destinationConfiguration": {
                "s3": {
                    "bucketName": "demo-recording-bucket"
                }
            },
            "state": "ACTIVE",
            "tags": {
                "key1": "value1",
                "key2": "value2"
            },
            "thumbnailConfiguration": {
                "recordingMode": "INTERVAL",
                "targetIntervalSeconds": 1,
                "resolution": "LOWEST_RESOLUTION",
                "storage": [
                    "LATEST"
                ]
            },
            "recordingReconnectWindowSeconds": 60,
            "renditionConfiguration": {
                "renditionSelection": "CUSTOM",
                "renditions": [
                    "HD"
                ]
            }
        },
        "truncatedEvents": [
            {
                "code": "StreamTakeoverInvalidPriority",
                "name": "Stream Takeover Failure",
                "type": "IVS Stream State Change",
                "eventTime": "2023-06-26T19:09:48+00:00"
            },
            {
                "name": "Stream Takeover",
                "type": "IVS Stream State Change",
                "eventTime": "2023-06-26T19:09:47+00:00"
            },
            {
                "name": "Recording Start",
                "type": "IVS Recording State Change",
                "eventTime": "2023-06-26T19:09:35+00:00"
            },
            {
                "name": "Stream Start",
                "type": "IVS Stream State Change",
                "eventTime": "2023-06-26T19:09:34+00:00"
            },
            {
                "name": "Session Created",
                "type": "IVS Stream State Change",
                "eventTime": "2023-06-26T19:09:28+00:00"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [GetStreamSession](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/get-stream-session.html)di *Referensi AWS CLI Perintah*. 

### `get-stream`
<a name="ivs_GetStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stream`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang aliran**  
`get-stream`Contoh berikut mendapatkan informasi tentang aliran untuk saluran yang ditentukan.  

```
aws ivs get-stream \
    --channel-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh
```
Output:  

```
{
    "stream": {
        "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "startTime": "2020-05-05T21:55:38Z",
        "state": "LIVE",
        "health": "HEALTHY",
        "streamId": "st-ABCDEfghij01234KLMN5678",
        "viewerCount": 1
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [GetStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/get-stream.html)di *Referensi AWS CLI Perintah*. 

### `import-playback-key-pair`
<a name="ivs_ImportPlaybackKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-playback-key-pair`.

**AWS CLI**  
**Untuk mengimpor bagian publik dari key pair baru**  
`import-playback-key-pair`Contoh berikut mengimpor kunci publik tertentu (ditentukan sebagai string dalam format PEM) dan mengembalikan arn dan sidik jari dari key pair baru.  

```
aws ivs import-playback-key-pair \
    --name "my-playback-key" \
    --public-key-material "G1lbnQxOTA3BgNVBAMMMFdoeSBhcmUgeW91IGRl..."
```
Output:  

```
{
    "keyPair": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:playback-key/abcd1234efgh",
        "name": "my-playback-key",
        "fingerprint": "0a:1b:2c:ab:cd:ef:34:56:70:b1:b2:71:01:2a:a3:72",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan Saluran Privat](https://docs.aws.amazon.com/ivs/latest/userguide//private-channels.html) dalam *Panduan Pengguna Amazon Interactive Video Service*.  
+  Untuk detail API, lihat [ImportPlaybackKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/import-playback-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `list-channels`
<a name="ivs_ListChannels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-channels`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan informasi ringkasan tentang semua saluran**  
`list-channels`Contoh berikut mencantumkan semua saluran untuk AWS akun Anda.  

```
aws ivs list-channels
```
Output:  

```
{
    "channels": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
            "name": "channel-1",
            "latencyMode": "LOW",
            "authorized": false,
            "insecureIngest": false,
            "preset": "",
            "playbackRestrictionPolicyArn": "",
            "recordingConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABCD12cdEFgh",
            "tags": {},
            "type": "STANDARD"
        },
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:channel/efghEFGHijkl",
            "name": "channel-2",
            "latencyMode": "LOW",
            "authorized": false,
            "preset": "",
            "playbackRestrictionPolicyArn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ",
            "recordingConfigurationArn": "",
            "tags": {},
            "type": "STANDARD"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
**Contoh 2: Untuk mendapatkan informasi ringkasan tentang semua saluran, disaring oleh RecordingConfiguration ARN yang ditentukan**  
`list-channels`Contoh berikut mencantumkan semua saluran untuk AWS akun Anda, yang terkait dengan RecordingConfiguration ARN yang ditentukan.  

```
aws ivs list-channels \
    --filter-by-recording-configuration-arn "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABCD12cdEFgh"
```
Output:  

```
{
    "channels": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
            "name": "channel-1",
            "latencyMode": "LOW",
            "authorized": false,
            "insecureIngest": false,
            "preset": "",
            "playbackRestrictionPolicyArn": "",
            "recordingConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABCD12cdEFgh",
            "tags": {},
            "type": "STANDARD"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Merekam ke Amazon S3 di Panduan Pengguna](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/record-to-s3.html) Latensi *Rendah IVS*.  
**Contoh 3: Untuk mendapatkan informasi ringkasan tentang semua saluran, disaring oleh PlaybackRestrictionPolicy ARN yang ditentukan**  
`list-channels`Contoh berikut mencantumkan semua saluran untuk AWS akun Anda, yang terkait dengan PlaybackRestrictionPolicy ARN yang ditentukan.  

```
aws ivs list-channels \
    --filter-by-playback-restriction-policy-arn "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ"
```
Output:  

```
{
    "channels": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:channel/efghEFGHijkl",
            "name": "channel-2",
            "latencyMode": "LOW",
            "authorized": false,
            "preset": "",
            "playbackRestrictionPolicyArn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ",
            "recordingConfigurationArn": "",
            "tags": {},
            "type": "STANDARD"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [ListChannels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/list-channels.html)di *Referensi AWS CLI Perintah*. 

### `list-playback-key-pairs`
<a name="ivs_ListPlaybackKeyPairs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-playback-key-pairs`.

**AWS CLI**  
**Untuk mendapatkan informasi ringkasan tentang semua pasangan kunci pemutaran**  
`list-playback-key-pairs`Contoh berikut mengembalikan informasi tentang semua pasangan kunci.  

```
aws ivs list-playback-key-pairs
```
Output:  

```
{
    "keyPairs": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:playback-key/abcd1234efgh",
            "name": "test-key-0",
            "tags": {}
        },
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:playback-key/ijkl5678mnop",
            "name": "test-key-1",
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menyiapkan Saluran Privat](https://docs.aws.amazon.com/ivs/latest/userguide//private-channels.html) dalam *Panduan Pengguna Amazon Interactive Video Service*.  
+  Untuk detail API, lihat [ListPlaybackKeyPairs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/list-playback-key-pairs.html)di *Referensi AWS CLI Perintah*. 

### `list-playback-restriction-policies`
<a name="ivs_ListPlaybackRestrictionPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-playback-restriction-policies`.

**AWS CLI**  
**Untuk mendapatkan informasi ringkasan tentang semua kebijakan pembatasan pemutaran**  
`list-playback-restriction-policies`Contoh berikut mencantumkan semua kebijakan pembatasan pemutaran untuk AWS akun Anda.  

```
aws ivs list-playback-restriction-policies
```
Output:  

```
{
    "playbackRestrictionPolicies": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ",
            "allowedCountries": [
                "US",
                "MX"
            ],
            "allowedOrigins": [
                "https://www.website1.com",
                "https://www.website2.com"
            ],
            "enableStrictOriginEnforcement": true,
            "name": "test-playback-restriction-policy",
            "tags": {
                "key1": "value1",
                "key2": "value2"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [ListPlaybackRestrictionPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/list-playback-restriction-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-recording-configurations`
<a name="ivs_ListRecordingConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-recording-configurations`.

**AWS CLI**  
**Untuk membuat daftar semua RecordingConfiguration sumber daya yang dibuat di akun ini**  
`list-recording-configurations`Contoh berikut mendapatkan informasi tentang semua RecordingConfiguration sumber daya di akun Anda.  

```
aws ivs list-recording-configurations
```
Output:  

```
{
    "recordingConfigurations": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABcdef34ghIJ",
            "name": "test-recording-config-1",
            "destinationConfiguration": {
                "s3": {
                    "bucketName": "demo-recording-bucket-1"
                }
            },
            "state": "ACTIVE",
            "tags": {}
        },
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/CD12abcdGHIJ",
            "name": "test-recording-config-2",
            "destinationConfiguration": {
                "s3": {
                    "bucketName": "demo-recording-bucket-2"
                }
            },
            "state": "ACTIVE",
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Merekam ke Amazon S3](https://docs.aws.amazon.com/ivs/latest/userguide/record-to-s3.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListRecordingConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/list-recording-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-stream-keys`
<a name="ivs_ListStreamKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stream-keys`.

**AWS CLI**  
**Untuk mendapatkan daftar tombol aliran**  
`list-stream-keys`Contoh berikut mencantumkan semua kunci aliran untuk ARN tertentu (Amazon Resource Name).  

```
aws ivs list-stream-keys \
    --channel-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh
```
Output:  

```
{
    "streamKeys": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:stream-key/abcdABCDefgh",
            "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
            "tags": {}
        }
    ]
}
```
FFor selengkapnya, lihat [Membuat Saluran di Panduan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [ListStreamKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/list-stream-keys.html)di *Referensi AWS CLI Perintah*. 

### `list-stream-sessions`
<a name="ivs_ListStreamSessions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stream-sessions`.

**AWS CLI**  
**Untuk mendapatkan ringkasan aliran saat ini dan sebelumnya untuk saluran tertentu di wilayah saat ini AWS **  
`list-stream-sessions`Contoh berikut melaporkan informasi ringkasan untuk aliran untuk saluran tertentu ARN (Nama Sumber Daya Amazon).  

```
aws ivs list-stream-sessions \
    --channel-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh \
    --max-results 25 \
    --next-token ""
```
Output:  

```
{
    "nextToken": "set-2",
    "streamSessions": [
        {
            "startTime": 1641578182,
            "endTime": 1641579982,
            "hasErrorEvent": false,
            "streamId": "mystream"
        }
        ...
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [ListStreamSessions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/list-stream-sessions.html)di *Referensi AWS CLI Perintah*. 

### `list-streams`
<a name="ivs_ListStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-streams`.

**AWS CLI**  
**Untuk mendapatkan daftar streaming langsung dan statusnya**  
`list-streams`Contoh berikut mencantumkan semua streaming langsung untuk AWS akun Anda.  

```
aws ivs list-streams
```
Output:  

```
{
   "streams": [
        {
            "channelArn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
            "state": "LIVE",
            "health": "HEALTHY",
            "streamId": "st-ABCDEfghij01234KLMN5678",
            "viewerCount": 1
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [ListStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/list-streams.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="ivs_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan semua tag untuk AWS sumber daya (misalnya: saluran, kunci aliran)**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk ARN sumber daya tertentu (Amazon Resource Name).  

```
aws ivs list-tags-for-resource \
    --resource-arn arn:aws:ivs:us-west-2:12345689012:channel/abcdABCDefgh
```
Output:  

```
{
    "tags":
    {
        "key1": "value1",
        "key2": "value2"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/ivs/latest/APIReference/Welcome.html) di *Referensi API Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-metadata`
<a name="ivs_PutMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-metadata`.

**AWS CLI**  
**Untuk menyisipkan metadata ke aliran aktif untuk saluran tertentu**  
`put-metadata`Contoh berikut menyisipkan metadata yang diberikan ke dalam aliran untuk saluran yang ditentukan.  

```
aws ivs put-metadata \
    --channel-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh \
    --metadata '{"my": "metadata"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [PutMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/put-metadata.html)di *Referensi AWS CLI Perintah*. 

### `start-viewer-session-revocation`
<a name="ivs_StartViewerSessionRevocation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-viewer-session-revocation`.

**AWS CLI**  
**Untuk mencabut sesi penampil untuk pasangan Channel-ARN dan Viewer-ID yang diberikan**  
`start-viewer-session-revocation`Contoh berikut memulai proses pencabutan sesi penampil yang terkait dengan ARN saluran tertentu dan ID penampil, hingga dan termasuk nomor versi sesi yang ditentukan. Jika versi tidak disediakan, defaultnya ke 0.  

```
aws ivs batch-start-viewer-session-revocation \
    --channel-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh \
    --viewer-id abcdefg \
    --viewer-session-versions-less-than-or-equal-to 1234567890
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiapkan Saluran Privat](https://docs.aws.amazon.com/ivs/latest/userguide/private-channels.html) dalam *Panduan Pengguna Amazon Interactive Video Service*.  
+  Untuk detail API, lihat [StartViewerSessionRevocation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/start-viewer-session-revocation.html)di *Referensi AWS CLI Perintah*. 

### `stop-stream`
<a name="ivs_StopStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-stream`.

**AWS CLI**  
**Untuk menghentikan aliran tertentu**  
`stop-stream`Contoh berikut menghentikan aliran pada saluran yang ditentukan.  

```
aws ivs stop-stream \
    --channel-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [StopStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/stop-stream.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="ivs_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambah atau memperbarui tag untuk AWS sumber daya (misalnya: channel, stream key)**  
`tag-resource`Contoh berikut menambahkan atau memperbarui tag untuk ARN sumber daya tertentu (Amazon Resource Name).  

```
aws ivs tag-resource \
    --resource-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh \
    --tags "tagkey1=tagvalue1, tagkey2=tagvalue2"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/ivs/latest/APIReference/Welcome.html) di *Referensi API Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="ivs_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag untuk AWS sumber daya (misalnya: saluran, kunci aliran)**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan untuk ARN sumber daya tertentu (Amazon Resource Name).  

```
aws ivs untag-resource \
    --resource-arn arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh \
    --tag-keys "tagkey1, tagkey2"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/ivs/latest/APIReference/Welcome.html) di *Referensi API Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-channel`
<a name="ivs_UpdateChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-channel`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui informasi konfigurasi saluran**  
`update-channel`Contoh berikut memperbarui konfigurasi saluran untuk ARN saluran tertentu untuk mengubah nama saluran. Ini tidak memengaruhi aliran saluran ini yang sedang berlangsung; Anda harus menghentikan dan memulai ulang aliran agar perubahan diterapkan.  

```
aws ivs update-channel \
    --arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh' \
    --name 'channel-1' \
    --insecure-ingest
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "name": "channel-1",
        "latencyMode": "LOW",
        "containerFormat": "TS",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": true,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/getting-started-create-channel.html) di Panduan Pengguna *Latensi Rendah IVS*.  
**Contoh 2: Untuk memperbarui konfigurasi saluran untuk mengaktifkan perekaman**  
`update-channel`Contoh berikut memperbarui konfigurasi saluran untuk ARN saluran tertentu untuk mengaktifkan perekaman. Ini tidak memengaruhi aliran saluran ini yang sedang berlangsung; Anda harus menghentikan dan memulai ulang aliran agar perubahan diterapkan.  

```
aws ivs update-channel \
    --arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh' \
    --no-insecure-ingest \
    --recording-configuration-arn 'arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABCD12cdEFgh'
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "name": "test-channel-with-recording",
        "latencyMode": "LOW",
        "containerFormat": "TS",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:recording-configuration/ABCD12cdEFgh",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "BA1C2defGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Merekam ke Amazon S3 di Panduan Pengguna](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/record-to-s3.html) Latensi *Rendah IVS*.  
**Contoh 3: Untuk memperbarui konfigurasi saluran untuk menonaktifkan perekaman**  
`update-channel`Contoh berikut memperbarui konfigurasi saluran untuk ARN saluran tertentu untuk menonaktifkan perekaman. Ini tidak memengaruhi aliran saluran ini yang sedang berlangsung; Anda harus menghentikan dan memulai ulang aliran agar perubahan diterapkan.  

```
aws ivs update-channel \
    --arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh' \
    --recording-configuration-arn ''
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "name": "test-channel-with-recording",
        "latencyMode": "LOW",
        "containerFormat": "TS",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2edfGHijkLMNo3PqQRstUvwxyzaBCDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Merekam ke Amazon S3 di Panduan Pengguna](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/record-to-s3.html) Latensi *Rendah IVS*.  
**Contoh 4: Untuk memperbarui konfigurasi saluran untuk mengaktifkan pembatasan pemutaran**  
`update-channel`Contoh berikut memperbarui konfigurasi saluran untuk ARN saluran tertentu untuk menerapkan kebijakan pembatasan pemutaran. Ini tidak memengaruhi aliran saluran ini yang sedang berlangsung; Anda harus menghentikan dan memulai ulang aliran agar perubahan diterapkan.  

```
aws ivs update-channel \
    --arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh' \
    --no-insecure-ingest \
    --playback-restriction-policy-arn 'arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ'
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "name": "test-channel-with-playback-restriction-policy",
        "latencyMode": "LOW",
        "containerFormat": "TS",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaCBDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
**Contoh 5: Untuk memperbarui konfigurasi saluran untuk menonaktifkan pembatasan pemutaran**  
`update-channel`Contoh berikut memperbarui konfigurasi saluran untuk ARN saluran tertentu untuk menonaktifkan pembatasan pemutaran. Ini tidak memengaruhi aliran saluran ini yang sedang berlangsung; Anda harus menghentikan dan memulai ulang aliran agar perubahan diterapkan.  

```
aws ivs update-channel \
    --arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh' \
    --playback-restriction-policy-arn ''
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "name": "test-channel-with-playback-restriction-policy",
        "latencyMode": "LOW",
        "containerFormat": "TS",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaBCDeFghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
**Contoh 6: Untuk memperbarui konfigurasi saluran untuk mengaktifkan multitrack**  
`update-channel`Contoh berikut memperbarui konfigurasi saluran untuk ARN saluran tertentu untuk mengaktifkan multitrack. Ini tidak memengaruhi aliran saluran ini yang sedang berlangsung; Anda harus menghentikan dan memulai ulang aliran agar perubahan diterapkan.  

```
aws ivs update-channel \
    --arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh' \
    --container-format 'FRAGMENTED_MP4' \
    --multitrack-input-configuration '{"enabled": true,"maximumResolution": "FULL_HD","policy": "ALLOW"}'
```
Output:  

```
{
    "channel": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "containerFormat": "FRAGMENTED_MP4",
        "name": "test-channel-with-multitrack",
        "latencyMode": "LOW",
        "multitrackInputConfiguration": {
            "enabled": true,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaCBDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multitrack-video.html) di Panduan Pengguna *Latensi Rendah IVS*.  
**Contoh 7: Untuk memperbarui konfigurasi saluran untuk menonaktifkan pembatasan pemutaran**  
`update-channel`Contoh berikut memperbarui konfigurasi saluran untuk ARN saluran tertentu untuk menonaktifkan multitrack. Ini tidak memengaruhi aliran saluran ini yang sedang berlangsung; Anda harus menghentikan dan memulai ulang aliran agar perubahan diterapkan.  

```
aws ivs update-channel \
    --arn 'arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh' \
    --container-format 'TS' \
    --multitrack-input-configuration '{"enabled": false}'
```
Output:  

```
{
    "channel": {
        ""arn": "arn:aws:ivs:us-west-2:123456789012:channel/abcdABCDefgh",
        "containerFormat": "TS",
        "name": "test-channel-with-multitrack",
        "latencyMode": "LOW",
        "multitrackInputConfiguration": {
            "enabled": false,
            "maximumResolution": "FULL_HD",
            "policy": "ALLOW"
        },
        "type": "STANDARD",
        "playbackRestrictionPolicyArn": "",
        "recordingConfigurationArn": "",
        "srt": {
            "endpoint": "a1b2c3d4e5f6.srt.live-video.net",
            "passphrase": "AB1C2defGHijkLMNo3PqQRstUvwxyzaCBDEfghh4ijklMN5opqrStuVWxyzAbCDEfghIJ"
        },
        "ingestEndpoint": "a1b2c3d4e5f6.global-contribute.live-video.net",
        "insecureIngest": false,
        "playbackUrl": "https://a1b2c3d4e5f6.us-west-2.playback.live-video.net/api/video/v1/us-west-2.123456789012.channel.abcdEFGH.m3u8",
        "preset": "",
        "authorized": false,
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multitrack-video.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [UpdateChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/update-channel.html)di *Referensi AWS CLI Perintah*. 

### `update-playback-restriction-policy`
<a name="ivs_UpdatePlaybackRestrictionPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-playback-restriction-policy`.

**AWS CLI**  
**Untuk memperbarui kebijakan pembatasan pemutaran**  
`update-playback-restriction-policy`Contoh berikut memperbarui kebijakan pembatasan pemutaran dengan kebijakan ARN yang ditentukan untuk menonaktifkan penegakan asal yang ketat. Ini tidak memengaruhi aliran saluran terkait yang sedang berlangsung; Anda harus menghentikan dan memulai ulang aliran agar perubahan diterapkan.  

```
aws ivs update-playback-restriction-policy \
    --arn "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ" \
    --no-enable-strict-origin-enforcement
```
Output:  

```
{
    "playbackRestrictionPolicy": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:playback-restriction-policy/ABcdef34ghIJ",
        "allowedCountries": [
            "US",
            "MX"
        ],
        "allowedOrigins": [
            "https://www.website1.com",
            "https://www.website2.com"
        ],
        "enableStrictOriginEnforcement": false,
        "name": "test-playback-restriction-policy",
        "tags": {
            "key1": "value1",
            "key2": "value2"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Konten dan Pemirsa yang Tidak Diinginkan](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/undesired-content.html) di Panduan Pengguna *Latensi Rendah IVS*.  
+  Untuk detail API, lihat [UpdatePlaybackRestrictionPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs/update-playback-restriction-policy.html)di *Referensi AWS CLI Perintah*. 

# Contoh Obrolan Amazon IVS menggunakan AWS CLI
<a name="cli_2_ivschat_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum AWS Command Line Interface dengan menggunakan Obrolan IVS Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-chat-token`
<a name="ivschat_CreateChatToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-chat-token`.

**AWS CLI**  
**Untuk membuat token obrolan**  
`create-chat-token`Contoh berikut membuat token obrolan terenkripsi yang digunakan untuk membuat WebSocket koneksi individual ke sebuah ruangan. Token berlaku selama satu menit, dan koneksi (sesi) yang dibuat dengan token berlaku untuk durasi yang ditentukan.  

```
aws ivschat create-chat-token \
    --roomIdentifier "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6", \
    --userId" "11231234" \
    --capabilities "SEND_MESSAGE", \
    --sessionDurationInMinutes" 30
```
Output:  

```
{
    "token": "ACEGmnoq#1rstu2...BDFH3vxwy!4hlm!#5",
    "sessionExpirationTime": "2022-03-16T04:44:09+00:00"
    "state": "CREATING",
    "tokenExpirationTime": "2022-03-16T03:45:09+00:00"
}
```
Untuk informasi selengkapnya, lihat [Langkah 3: Mengautentikasi dan Mengotorisasi Klien Obrolan](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [CreateChatToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/create-chat-token.html)di *Referensi AWS CLI Perintah*. 

### `create-logging-configuration`
<a name="ivschat_CreateLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-logging-configuration`.

**AWS CLI**  
**Untuk membuat LoggingConfiguration sumber daya obrolan**  
`create-logging-configuration`Contoh berikut menciptakan LoggingConfiguration sumber daya yang memungkinkan klien untuk menyimpan dan merekam pesan terkirim.  

```
aws ivschat create-logging-configuration \
    --destination-configuration s3={bucketName=demo-logging-bucket} \
    --name "test-logging-config" \
    --tags "key1=value1, key2=value2"
```
Output:  

```
{
    "arn": "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ",
    "createTime": "2022-09-14T17:48:00.653000+00:00",
    "destinationConfiguration": {
        "s3": {
            "bucketName": "demo-logging-bucket"
        }
    },
    "id": "ABcdef34ghIJ",
    "name": "test-logging-config",
    "state": "ACTIVE",
    "tags": { "key1" : "value1", "key2" : "value2" },
    "updateTime": "2022-09-14T17:48:01.104000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [CreateLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/create-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-room`
<a name="ivschat_CreateRoom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-room`.

**AWS CLI**  
**Untuk membuat ruangan**  
`create-room`Contoh berikut menciptakan ruangan baru.  

```
aws ivschat create-room \
    --name "test-room-1" \
    --logging-configuration-identifiers "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ" \
    --maximum-message-length 256 \
    --maximum-message-rate-per-second 5
```
Output:  

```
{
    "arn": "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6",
    "id": "g1H2I3j4k5L6",
    "createTime": "2022-03-16T04:44:09+00:00",
    "loggingConfigurationIdentifiers": ["arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ"],
    "maximumMessageLength": 256,
    "maximumMessageRatePerSecond": 5,
    "name": "test-room-1",
    "tags": {}
    "updateTime": "2022-03-16T07:22:09+00:00"
}
```
Untuk informasi selengkapnya, lihat [Langkah 2: Membuat Ruang Obrolan](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [CreateRoom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/create-room.html)di *Referensi AWS CLI Perintah*. 

### `delete-logging-configuration`
<a name="ivschat_DeleteLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-logging-configuration`.

**AWS CLI**  
**Untuk menghapus LoggingConfiguration sumber daya obrolan**  
`delete-logging-configuration`Contoh berikut menghapus LoggingConfiguration sumber daya untuk ARN yang ditentukan.  

```
aws ivschat delete-logging-configuration \
    --identifier "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DeleteLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/delete-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-message`
<a name="ivschat_DeleteMessage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-message`.

**AWS CLI**  
**Untuk menghapus pesan dari ruangan tertentu**  
`delete-message`Contoh berikut mengirimkan genap ke ruang yang ditentukan, yang mengarahkan klien untuk menghapus pesan yang ditentukan: yaitu, membatalkan render dari tampilan dan menghapusnya dari riwayat obrolan klien.  

```
aws ivschat delete-message \
    --roomIdentifier "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6" \
    --id "ABC123def456" \
    --reason "Message contains profanity"
```
Output:  

```
{
    "id": "12345689012"
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DeleteMessage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/delete-message.html)di *Referensi AWS CLI Perintah*. 

### `delete-room`
<a name="ivschat_DeleteRoom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-room`.

**AWS CLI**  
**Untuk menghapus ruangan**  
`delete-room`Contoh berikut menghapus ruangan yang ditentukan. Klien yang terhubung terputus. Setelah berhasil ia mengembalikan HTTP 204 dengan badan respons kosong.  

```
aws ivschat delete-room \
    --identifier "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DeleteRoom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/delete-room.html)di *Referensi AWS CLI Perintah*. 

### `disconnect-user`
<a name="ivschat_DisconnectUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disconnect-user`.

**AWS CLI**  
**Untuk memutuskan koneksi pengguna dari sebuah ruangan**  
`disconnect-user`Contoh berikut memutus semua koneksi untuk pengguna yang ditentukan dari ruangan yang ditentukan. Setelah berhasil ia mengembalikan HTTP 200 dengan badan respons kosong.  

```
aws ivschat disconnect-user \
    --roomIdentifier "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6" \
    --userId "ABC123def456" \
    --reason "Violated terms of service"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DisconnectUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/disconnect-user.html)di *Referensi AWS CLI Perintah*. 

### `get-logging-configuration`
<a name="ivschat_GetLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-logging-configuration`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sumber LoggingConfiguration daya**  
`get-logging-configuration`Contoh berikut mendapatkan informasi tentang LoggingConfiguration sumber daya untuk ARN yang ditentukan.  

```
aws ivschat get-logging-configuration \
    --identifier "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ"
```
Output:  

```
{
    "arn": "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ",
    "createTime": "2022-09-14T17:48:00.653000+00:00",
    "destinationConfiguration": {
        "s3": {
            "bucketName": "demo-logging-bucket"
        }
    },
    "id": "ABcdef34ghIJ",
    "name": "test-logging-config",
    "state": "ACTIVE",
    "tags": { "key1" : "value1", "key2" : "value2" },
    "updateTime": "2022-09-14T17:48:01.104000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [GetLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/get-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-room`
<a name="ivschat_GetRoom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-room`.

**AWS CLI**  
**Untuk mendapatkan ruangan yang ditentukan**  
`get-room`Contoh berikut mendapat informasi tentang ruangan yang ditentukan.  

```
aws ivschat get-room \
    --identifier "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6"
```
Output:  

```
{
    "arn": "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6",
    "createTime": "2022-03-16T04:44:09+00:00",
    "id": "g1H2I3j4k5L6",
    "loggingConfigurationIdentifiers": ["arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ"],
    "maximumMessageLength": 256,
    "maximumMessageRatePerSecond": 5,
    "name": "test-room-1",
    "tags": {},
    "updateTime": "2022-03-16T07:22:09+00:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [GetRoom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/get-room.html)di *Referensi AWS CLI Perintah*. 

### `list-logging-configurations`
<a name="ivschat_ListLoggingConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-logging-configurations`.

**AWS CLI**  
**Untuk mendapatkan informasi ringkasan tentang semua konfigurasi logging untuk pengguna di AWS wilayah tempat permintaan API diproses**  
`list-logging-configurations`Contoh berikut mencantumkan informasi tentang semua LoggingConfiguration sumber daya untuk pengguna di AWS wilayah tempat permintaan API diproses.  

```
aws ivschat list-logging-configurations \
    --max-results 2 \
    --next-token ""
```
Output:  

```
{
    "nextToken": "set-2",
    "loggingConfigurations": [
        {
            "arn": "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ",
            "createTime": "2022-09-14T17:48:00.653000+00:00",
            "destinationConfiguration": {
                "s3": {
                    "bucketName": "demo-logging-bucket"
                }
            },
            "id": "ABcdef34ghIJ",
            "name": "test-logging-config",
            "state": "ACTIVE",
            "tags": { "key1" : "value1", "key2" : "value2" },
            "updateTime": "2022-09-14T17:48:01.104000+00:00"
        }
        ...
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListLoggingConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/list-logging-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-rooms`
<a name="ivschat_ListRooms_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-rooms`.

**AWS CLI**  
**Untuk mendapatkan informasi ringkasan tentang semua kamar Anda di wilayah saat ini**  
`list-rooms`Contoh berikut mendapatkan informasi ringkasan tentang semua kamar di AWS wilayah tempat permintaan diproses. Hasil diurutkan dalam urutan menurun dari UpdateTime.  

```
aws ivschat list-rooms \
    --logging-configuration-identifier "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ" \
    --max-results 10 \
    --next-token ""
```
Output:  

```
{
    "nextToken": "page3",
    "rooms": [
        {
            "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6",
            "createTime": "2022-03-16T04:44:09+00:00",
            "id": "g1H2I3j4k5L6",
            "loggingConfigurationIdentifiers": ["arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ"],
            "name": "test-room-1",
            "tags": {},
            "updateTime": "2022-03-16T07:22:09+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListRooms](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/list-rooms.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="ivschat_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan semua tag untuk AWS sumber daya (misalnya: Room)**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag untuk ARN sumber daya tertentu (Amazon Resource Name).  

```
aws ivschat list-tags-for-resource \
    --resource-arn arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6
```
Output:  

```
{
    "tags":
    {
        "key1": "value1",
        "key2": "value2"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/ivs/latest/APIReference/Welcome.html) di *Referensi API Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `send-event`
<a name="ivschat_SendEvent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-event`.

**AWS CLI**  
**Untuk mengirim acara ke sebuah ruangan**  
`send-event`Contoh berikut mengirimkan acara yang diberikan ke ruangan yang ditentukan.  

```
aws ivschat send-event \
    --roomIdentifier "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6" \
    --eventName "SystemMessage" \
    --attributes \
        "msgType"="user-notification", \
        "msgText"="This chat room will close in 15 minutes."
```
Output:  

```
{
    "id": "12345689012"
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [SendEvent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/send-event.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="ivschat_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambah atau memperbarui tag untuk AWS sumber daya (misalnya: Room)**  
`tag-resource`Contoh berikut menambahkan atau memperbarui tag untuk ARN sumber daya tertentu (Amazon Resource Name). Setelah berhasil ia mengembalikan HTTP 200 dengan badan respons kosong.  

```
aws ivschat tag-resource \
    --resource-arn arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6 \
    --tags "tagkey1=tagkeyvalue1, tagkey2=tagkeyvalue2"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/ivs/latest/APIReference/Welcome.html) di *Referensi API Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="ivschat_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag untuk AWS sumber daya (misalnya: Room)**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan untuk ARN sumber daya tertentu (Amazon Resource Name). Setelah berhasil ia mengembalikan HTTP 200 dengan badan respons kosong.  

```
aws ivschat untag-resource \
    --resource-arn arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6 \
    --tag-keys "tagkey1, tagkey2"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai](https://docs.aws.amazon.com/ivs/latest/APIReference/Welcome.html) di *Referensi API Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-logging-configuration`
<a name="ivschat_UpdateLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-logging-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi logging ruangan**  
`update-logging-configuration`Contoh berikut memperbarui LoggingConfiguration sumber daya dengan data yang diberikan.  

```
aws ivschat update-logging-configuration \
    --destination-configuration s3={bucketName=demo-logging-bucket} \
    --identifier "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ" \
    --name "test-logging-config"
```
Output:  

```
{
    "arn": "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ",
    "createTime": "2022-09-14T17:48:00.653000+00:00",
    "destinationConfiguration": {
        "s3": {
            "bucketName": "demo-logging-bucket"
        }
    },
    "id": "ABcdef34ghIJ",
    "name": "test-logging-config",
    "state": "ACTIVE",
    "tags": { "key1" : "value1", "key2" : "value2" },
    "updateTime": "2022-09-14T17:48:01.104000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [UpdateLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/update-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-room`
<a name="ivschat_UpdateRoom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-room`.

**AWS CLI**  
**Untuk memperbarui konfigurasi ruangan**  
`update-room`Contoh berikut memperbarui konfigurasi ruangan yang ditentukan dengan data yang diberikan.  

```
aws ivschat update-room \
    --identifier "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6" \
    --logging-configuration-identifiers "arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ" \
    --name "chat-room-a" \
    --maximum-message-length 256 \
    --maximum-message-rate-per-second 5
```
Output:  

```
{
    "arn": "arn:aws:ivschat:us-west-2:12345689012:room/g1H2I3j4k5L6",
    "createTime": "2022-03-16T04:44:09+00:00",
    "id": "g1H2I3j4k5L6",
    "loggingConfigurationIdentifiers": ["arn:aws:ivschat:us-west-2:123456789012:logging-configuration/ABcdef34ghIJ"],
    "maximumMessageLength": 256,
    "maximumMessageRatePerSecond": 5,
    "name": "chat-room-a",
    "tags": {},
    "updateTime": "2022-03-16T07:22:09+00:00"
}
```
Untuk informasi selengkapnya, lihat [Memulai Obrolan Amazon IVS](https://docs.aws.amazon.com/ivs/latest/userguide/getting-started-chat.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [UpdateRoom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivschat/update-room.html)di *Referensi AWS CLI Perintah*. 

# Contoh Streaming Waktu Nyata Amazon IVS menggunakan AWS CLI
<a name="cli_2_ivs-realtime_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan menerapkan skenario umum AWS Command Line Interface dengan menggunakan Streaming Real-Time Amazon IVS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-encoder-configuration`
<a name="ivs-realtime_CreateEncoderConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-encoder-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi encoder komposisi**  
`create-encoder-configuration`Contoh berikut membuat konfigurasi encoder komposisi dengan properti yang ditentukan.  

```
aws ivs-realtime create-encoder-configuration \
    --name test-ec --video bitrate=3500000,framerate=30.0,height=1080,width=1920
```
Output:  

```
{
    "encoderConfiguration": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef",
        "name": "test-ec",
        "tags": {},
        "video": {
            "bitrate": 3500000,
            "framerate": 30,
            "height": 1080,
            "width": 1920
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [CreateEncoderConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/create-encoder-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-ingest-configuration`
<a name="ivs-realtime_CreateIngestConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ingest-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi ingest**  
`create-ingest-configuration`Contoh berikut membuat konfigurasi ingest menggunakan protokol RTMPS.  

```
aws ivs-realtime create-ingest-configuration \
    --name ingest1 \
    --ingest-protocol rtmps
```
Output:  

```
{
    "ingestConfiguration": {
        "name": "ingest1",
        "arn": "arn:aws:ivs:us-west-2:123456789012:ingest-configuration/AbCdEfGh1234",
        "ingestProtocol": "RTMPS",
        "streamKey": "rt_123456789012_us-west-2_AbCdEfGh1234_abcd1234efgh5678ijkl9012MNOP34",
        "stageArn": "",
        "participantId": "xyZ654abC321",
        "state": "INACTIVE",
        "userId": "",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [IVS Stream Ingest \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-stream-ingest.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [CreateIngestConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/create-ingest-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-participant-token`
<a name="ivs-realtime_CreateParticipantToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-participant-token`.

**AWS CLI**  
**Untuk membuat token peserta panggung**  
`create-participant-token`Contoh berikut membuat toke peserta untuk tahap yang ditentukan.  

```
aws ivs-realtime create-participant-token \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --user-id bob
```
Output:  

```
{
    "participantToken": {
        "expirationTime": "2023-03-07T09:47:43+00:00",
        "participantId": "ABCDEfghij01234KLMN6789",
        "token": "abcd1234defg5678"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/userguide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [CreateParticipantToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/create-participant-token.html)di *Referensi AWS CLI Perintah*. 

### `create-stage`
<a name="ivs-realtime_CreateStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stage`.

**AWS CLI**  
**Contoh 1: Untuk membuat panggung**  
`create-stage`Contoh berikut membuat token peserta tahap dan tahap untuk pengguna tertentu.  

```
aws ivs-realtime create-stage \
    --name stage1 \
    --participant-token-configurations userId=alice
```
Output:  

```
{
    "participantTokens": [
        {
            "participantId": "ABCDEfghij01234KLMN5678",
            "token": "a1b2c3d4567890ab",
            "userId": "alice"
        }
    ],
    "stage": {
        "activeSessionId": "st-a1b2c3d4e5f6g",
        "arn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
        "autoParticipantRecordingConfiguration": {
            "storageConfigurationArn": "",
            "mediaTypes": [
                "AUDIO_VIDEO"
            ],
            "thumbnailConfiguration": {
                "targetIntervalSeconds": 60,
                "storage": [
                    "SEQUENTIAL"
                ],
                "recordingMode": "DISABLED"
            },
            "recordingReconnectWindowSeconds": 0,
            "hlsConfiguration": {
                "targetSegmentDurationSeconds": 6
            },
            "recordParticipantReplicas": true
        },
        "endpoints": {
            "events": "wss://global.events.live-video.net",
            "rtmp": "rtmp://9x0y8z7s6t5u.global-contribute-staging.live-video.net/app/",
            "rtmps": "rtmps://9x0y8z7s6t5u.global-contribute-staging.live-video.net:443/app/",
            "whip": "https://9x0y8z7s6t5u.global-bm.whip.live-video.net"
        },
        "name": "stage1",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
**Contoh 2: Untuk membuat panggung dan mengkonfigurasi rekaman peserta individu**  
`create-stage`Contoh berikut membuat panggung dan mengkonfigurasi rekaman peserta individu.  

```
aws ivs-realtime create-stage \
    --name stage1 \
    --auto-participant-recording-configuration '{"mediaTypes": ["AUDIO_VIDEO"],"storageConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:storage-configuration/abcdABCDefgh", "recordingReconnectWindowSeconds": 100, \
        "hlsConfiguration": {"targetSegmentDurationSeconds": 5}}'
```
Output:  

```
{
    "stage": {
        "activeSessionId": "st-a1b2c3d4e5f6g",
        "arn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
        "autoParticipantRecordingConfiguration": {
            "storageConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:storage-configuration/abcdABCDefgh"
            "mediaTypes": [
                "AUDIO_VIDEO"
            ],
            "thumbnailConfiguration": {
                "targetIntervalSeconds": 60,
                "storage": [
                    "SEQUENTIAL"
                ],
                "recordingMode": "DISABLED"
            },
            "recordingReconnectWindowSeconds": 100,
            "hlsConfiguration": {
                "targetSegmentDurationSeconds": 5
            },
            "recordParticipantReplicas": true
        },
        "endpoints": {
            "events": "wss://global.events.live-video.net",
            "rtmp": "rtmp://9x0y8z7s6t5u.global-contribute-staging.live-video.net/app/",
            "rtmps": "rtmps://9x0y8z7s6t5u.global-contribute-staging.live-video.net:443/app/",
            "whip": "https://9x0y8z7s6t5u.global-bm.whip.live-video.net"
        },
        "name": "stage1",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
**Contoh 3: Untuk membuat panggung dan mengonfigurasi perekaman peserta individu dengan perekaman thumbnail diaktifkan**  
`create-stage`Contoh berikut membuat panggung dan mengkonfigurasi perekaman peserta individu dengan rekaman thumbnail diaktifkan.  

```
aws ivs-realtime create-stage \
    --name stage1 \
    --auto-participant-recording-configuration '{"mediaTypes": ["AUDIO_VIDEO"],"storageConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:storage-configuration/abcdABCDefgh", \
        "thumbnailConfiguration": {"recordingMode": "INTERVAL","storage": ["SEQUENTIAL"],"targetIntervalSeconds": 60}}'
```
Output:  

```
{
    "stage": {
        "activeSessionId": "st-a1b2c3d4e5f6g",
        "arn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
        "autoParticipantRecordingConfiguration": {
            "storageConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:storage-configuration/abcdABCDefgh",
            "mediaTypes": [
                "AUDIO_VIDEO"
            ],
            "thumbnailConfiguration": {
                "targetIntervalSeconds": 60,
                "storage": [
                    "SEQUENTIAL"
                ],
                "recordingMode": "INTERVAL"
            },
            "recordingReconnectWindowSeconds": 0,
            "hlsConfiguration": {
                "targetSegmentDurationSeconds": 6
            },
            "recordParticipantReplicas": true
        },
        "endpoints": {
            "events": "wss://global.events.live-video.net",
            "rtmp": "rtmp://9x0y8z7s6t5u.global-contribute-staging.live-video.net/app/",
            "rtmps": "rtmps://9x0y8z7s6t5u.global-contribute-staging.live-video.net:443/app/",
            "whip": "https://9x0y8z7s6t5u.global-bm.whip.live-video.net"
        },
        "name": "stage1",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
+  Untuk detail API, lihat [CreateStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/create-stage.html)di *Referensi AWS CLI Perintah*. 

### `create-storage-configuration`
<a name="ivs-realtime_CreateStorageConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-storage-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi penyimpanan komposisi**  
`create-storage-configuration`Contoh berikut membuat konfigurasi penyimpanan komposisi dengan properti yang ditentukan.  

```
aws ivs-realtime create-storage-configuration \
    --name "test-sc" --s3 "bucketName=amzn-s3-demo-bucket"
```
Output:  

```
{
    "storageConfiguration": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/ABabCDcdEFef",
        "name": "test-sc",
        "s3": {
            "bucketName": "amzn-s3-demo-bucket"
        },
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [CreateStorageConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/create-storage-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-encoder-configuration`
<a name="ivs-realtime_DeleteEncoderConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-encoder-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi encoder komposisi**  
Berikut ini `delete-encoder-configuration` menghapus konfigurasi encoder komposisi yang ditentukan oleh ARN yang diberikan (Amazon Resource Name).  

```
aws ivs-realtime delete-encoder-configuration \
    --arn "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DeleteEncoderConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/delete-encoder-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-ingest-configuration`
<a name="ivs-realtime_DeleteIngestConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ingest-configuration`.

**AWS CLI**  
**Contoh 1: Untuk menghapus konfigurasi ingest yang tidak aktif**  
`delete-ingest-configuration`Contoh berikut menghapus konfigurasi ingest yang tidak aktif untuk ARN konfigurasi ingest-tertentu (Nama Sumber Daya Amazon).  

```
aws ivs-realtime delete-ingest-configuration \
    --arn arn:aws:ivs:us-west-2:123456789012:ingest-configuration/AbCdEfGh1234
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [IVS Stream Ingest \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-stream-ingest.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
**Contoh 2: Untuk memaksa menghapus konfigurasi ingest aktif**  
`delete-ingest-configuration`Contoh berikut memaksa penghapusan konfigurasi ingest aktif untuk ARN konfigurasi ingest-tertentu (Nama Sumber Daya Amazon).  

```
aws ivs-realtime delete-ingest-configuration \
    --arn arn:aws:ivs:us-west-2:123456789012:ingest-configuration/AbCdEfGh1234 \
    --force
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [IVS Stream Ingest \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-stream-ingest.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DeleteIngestConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/delete-ingest-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-public-key`
<a name="ivs-realtime_DeletePublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-public-key`.

**AWS CLI**  
**Untuk menghapus kunci publik**  
Berikut ini `delete-public-key` menghapus kunci publik yang ditentukan.  

```
aws ivs-realtime delete-public-key \
    --arn arn:aws:ivs:us-west-2:123456789012:public-key/abcdABC1efg2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendistribusikan Token Peserta](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/getting-started-distribute-tokens.html) di *Panduan Pengguna Streaming Waktu Nyata Amazon IVS*.  
+  Untuk detail API, lihat [DeletePublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/delete-public-key.html)di *Referensi AWS CLI Perintah*. 

### `delete-stage`
<a name="ivs-realtime_DeleteStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stage`.

**AWS CLI**  
**Untuk menghapus panggung**  
`delete-stage`Contoh berikut menghapus tahap yang ditentukan.  

```
aws ivs-realtime delete-stage \
    --arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/userguide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DeleteStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/delete-stage.html)di *Referensi AWS CLI Perintah*. 

### `delete-storage-configuration`
<a name="ivs-realtime_DeleteStorageConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-storage-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi penyimpanan komposisi**  
Berikut ini `delete-storage-configuration` menghapus konfigurasi penyimpanan komposisi yang ditentukan oleh ARN yang diberikan (Nama Sumber Daya Amazon).  

```
aws ivs-realtime delete-storage-configuration \
    --arn "arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/ABabCDcdEFef"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DeleteStorageConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/delete-storage-configuration.html)di *Referensi AWS CLI Perintah*. 

### `disconnect-participant`
<a name="ivs-realtime_DisconnectParticipant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disconnect-participant`.

**AWS CLI**  
**Untuk memutuskan sambungan peserta panggung**  
`disconnect-participant`Contoh berikut memutus peserta yang ditentukan dari tahap yang ditentukan.  

```
aws ivs-realtime disconnect-participant \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --participant-id ABCDEfghij01234KLMN5678
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/userguide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [DisconnectParticipant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/disconnect-participant.html)di *Referensi AWS CLI Perintah*. 

### `get-composition`
<a name="ivs-realtime_GetComposition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-composition`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan komposisi dengan pengaturan tata letak default**  
`get-composition`Contoh berikut mendapatkan komposisi untuk ARN (Amazon Resource Name) yang ditentukan.  

```
aws ivs-realtime get-composition \
    --arn "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh"
```
Output:  

```
{
    "composition": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh",
        "destinations": [
            {
                "configuration": {
                    "channel": {
                        "channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg",
                        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                    },
                    "name": ""
                },
                "id": "AabBCcdDEefF",
                "startTime": "2023-10-16T23:26:00+00:00",
                "state": "ACTIVE"
            },
            {
                "configuration": {
                    "name": "",
                    "s3": {
                        "encoderConfigurationArns": [
                            "arn:aws:ivs:arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                        ],
                        "recordingConfiguration": {
                            "format": "HLS",
                            "hlsConfiguration": {
                                "targetSegmentDurationSeconds": 2
                            }
                        },
                        "storageConfigurationArn": "arn:arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE",
                    }
                },
                "detail": {
                    "s3": {
                        "recordingPrefix": "aBcDeFgHhGfE/AbCdEfGhHgFe/GHFabcgefABC/composite"
                    }
                },
                "id": "GHFabcgefABC",
                "startTime": "2023-10-16T23:26:00+00:00",
                "state": "STARTING"
            }
        ],
        "layout": {
            "grid": {
                "featuredParticipantAttribute": "",
                "gridGap": 2,
                "omitStoppedVideo": false,
                "participantOrderAttribute": "",
                "videoAspectRatio": "VIDEO",
                "videoFillMode": ""
            }
        },
        "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd",
        "startTime": "2023-10-16T23:24:00+00:00",
        "state": "ACTIVE",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Perekaman Komposit IVS \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-composite-recording.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
**Contoh 2: Untuk mendapatkan komposisi dengan tata letak PiP**  
`get-composition`Contoh berikut mendapatkan komposisi untuk ARN (Amazon Resource Name) yang ditentukan, yang menggunakan tata letak PiP.  

```
aws ivs-realtime get-composition \
    --arn "arn:aws:ivs:ap-northeast-1:123456789012:composition/wxyzWXYZpqrs"
```
Output:  

```
{
    "composition": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/wxyzWXYZpqrs",
        "destinations": [
            {
                "configuration": {
                    "channel": {
                        "channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg",
                        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                    },
                    "name": ""
                },
                "id": "AabBCcdDEefF",
                "startTime": "2023-10-16T23:26:00+00:00",
                "state": "ACTIVE"
            },
            {
                "configuration": {
                    "name": "",
                    "s3": {
                        "encoderConfigurationArns": [
                            "arn:aws:ivs:arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                        ],
                        "recordingConfiguration": {
                            "format": "HLS",
                            "hlsConfiguration": {
                                "targetSegmentDurationSeconds": 2
                            }
                        },
                        "storageConfigurationArn": "arn:arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE"
                    }
                },
                "detail": {
                    "s3": {
                        "recordingPrefix": "aBcDeFgHhGfE/AbCdEfGhHgFe/GHFabcgefABC/composite"
                    }
                },
                "id": "GHFabcgefABC",
                "startTime": "2023-10-16T23:26:00+00:00",
                "state": "STARTING"
            }
        ],
        "layout": {
            "pip": {
                "featuredParticipantAttribute": "abcdefg",
                "gridGap": 0,
                "omitStoppedVideo": false,
                "participantOrderAttribute": "",
                "pipBehavior": "STATIC",
                "pipOffset": 0,
                "pipParticipantAttribute": "",
                "pipPosition": "BOTTOM_RIGHT",
                "videoFillMode": "COVER"
            }
        },
        "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd",
        "startTime": "2023-10-16T23:24:00+00:00",
        "state": "ACTIVE",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Perekaman Komposit IVS \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-composite-recording.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
**Contoh 3: Untuk mendapatkan komposisi dengan rekaman thumbnail diaktifkan**  
`get-composition`Contoh berikut mendapatkan komposisi untuk ARN (Amazon Resource Name) yang ditentukan, yang memiliki rekaman thumbnail diaktifkan dengan pengaturan default.  

```
aws ivs-realtime get-composition \
    --arn "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh"
```
Output:  

```
{
    "composition": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh",
        "destinations": [
            {
                "configuration": {
                    "channel": {
                        "channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg",
                        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                    },
                    "name": ""
                },
                "id": "AabBCcdDEefF",
                "startTime": "2023-10-16T23:26:00+00:00",
                "state": "ACTIVE"
            },
            {
                "configuration": {
                    "name": "",
                    "s3": {
                        "encoderConfigurationArns": [
                            "arn:aws:ivs:arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                        ],
                        "recordingConfiguration": {
                            "format": "HLS",
                            "hlsConfiguration": {
                                "targetSegmentDurationSeconds": 2
                            }
                        },
                        "storageConfigurationArn": "arn:arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE",
                        "thumbnailConfigurations": [
                           {
                              "targetIntervalSeconds": 60,
                              "storage": [
                                  "SEQUENTIAL"
                              ],
                           }
                        ]
                    }
                },
                "detail": {
                    "s3": {
                        "recordingPrefix": "aBcDeFgHhGfE/AbCdEfGhHgFe/GHFabcgefABC/composite"
                    }
                },
                "id": "GHFabcgefABC",
                "startTime": "2023-10-16T23:26:00+00:00",
                "state": "STARTING"
            }
        ],
        "layout": {
            "grid": {
                "featuredParticipantAttribute": ""
                "gridGap": 2,
                "omitStoppedVideo": false,
                "participantOrderAttribute": "",
                "videoAspectRatio": "VIDEO",
                "videoFillMode": ""                }
        },
        "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd",
        "startTime": "2023-10-16T23:24:00+00:00",
        "state": "ACTIVE",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Perekaman Komposit IVS \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-composite-recording.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [GetComposition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/get-composition.html)di *Referensi AWS CLI Perintah*. 

### `get-encoder-configuration`
<a name="ivs-realtime_GetEncoderConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-encoder-configuration`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi encoder komposisi**  
`get-encoder-configuration`Contoh berikut mendapatkan konfigurasi encoder komposisi yang ditentukan oleh ARN yang diberikan (Amazon Resource Name).  

```
aws ivs-realtime get-encoder-configuration \
    --arn "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/abcdABCDefgh"
```
Output:  

```
{
    "encoderConfiguration": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/abcdABCDefgh",
        "name": "test-ec",
        "tags": {},
        "video": {
            "bitrate": 3500000,
            "framerate": 30,
            "height": 1080,
            "width": 1920
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [GetEncoderConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/get-encoder-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-ingest-configuration`
<a name="ivs-realtime_GetIngestConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ingest-configuration`.

**AWS CLI**  
**Untuk mendapatkan informasi konfigurasi tertelan**  
`get-ingest-configuration`Contoh berikut mendapatkan konfigurasi ingest untuk ARN konfigurasi ingest-tertentu (Nama Sumber Daya Amazon).  

```
aws ivs-realtime get-ingest-configuration \
    --arn arn:aws:ivs:us-west-2:123456789012:ingest-configuration/AbCdEfGh1234
```
Output:  

```
{
    "ingestConfiguration": {
        "name": "ingest1",
        "arn": "arn:aws:ivs:us-west-2:123456789012:ingest-configuration/AbCdEfGh1234",
        "ingestProtocol": "RTMPS",
        "streamKey": "rt_123456789012_us-west-2_AbCdEfGh1234_abcd1234efgh5678ijkl9012MNOP34",
        "stageArn": "",
        "participantId": "xyZ654abC321",
        "state": "INACTIVE",
        "userId": "",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [IVS Stream Ingest \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-stream-ingest.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [GetIngestConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/get-ingest-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-participant`
<a name="ivs-realtime_GetParticipant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-participant`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan peserta panggung**  
`get-participant`Contoh berikut mendapatkan peserta tahap untuk ID peserta dan ID sesi tertentu di ARN tahap tertentu (Nama Sumber Daya Amazon).  

```
aws ivs-realtime get-participant \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g \
    --participant-id abCDEf12GHIj
```
Output:  

```
{
    "participant": {
        "browserName": "Google Chrome",
        "browserVersion": "116",
        "firstJoinTime": "2023-04-26T20:30:34+00:00",
        "ispName": "Comcast",
        "osName": "Microsoft Windows 10 Pro",
        "osVersion": "10.0.19044",
        "participantId": "abCDEf12GHIj",
        "published": true,
        "recordingS3BucketName": "bucket-name",
        "recordingS3Prefix": "abcdABCDefgh/st-a1b2c3d4e5f6g/abCDEf12GHIj/1234567890",
        "recordingState": "ACTIVE",
        "sdkVersion": "",
        "state": "CONNECTED",
        "userId": ""
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
**Contoh 2: Untuk mendapatkan peserta panggung yang telah direplikasi ke tahap lain**  
`get-participant`Contoh berikut mendapatkan peserta tahap untuk ID peserta dan ID sesi tertentu di ARN tahap tertentu (Nama Sumber Daya Amazon), ketika peserta juga telah direplikasi ke tahap lain.  

```
aws ivs-realtime get-participant \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g \
    --participant-id abCDEf12GHIj
```
Output:  

```
{
    "participant": {
        "browserName": "Google Chrome",
        "browserVersion": "116",
        "firstJoinTime": "2023-04-26T20:30:34+00:00",
        "ispName": "Comcast",
        "osName": "Microsoft Windows 10 Pro",
        "osVersion": "10.0.19044",
        "participantId": "abCDEf12GHIj",
        "published": true,
        "recordingS3BucketName": "bucket-name",
        "recordingS3Prefix": "abcdABCDefgh/st-a1b2c3d4e5f6g/abCDEf12GHIj/1234567890",
        "recordingState": "ACTIVE",
        "replicationState": "ACTIVE",
        "replicationType": "SOURCE",
        "sdkVersion": "",
        "state": "CONNECTED",
        "userId": ""
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
**Contoh 3: Untuk mendapatkan peserta panggung yang telah direplikasi dari tahap lain**  
`get-participant`Contoh berikut mendapatkan peserta tahap untuk ID peserta dan ID sesi tertentu di ARN tahap tertentu (Nama Sumber Daya Amazon), ketika peserta telah direplikasi dari tahap lain.  

```
aws ivs-realtime get-participant \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g \
    --participant-id abCDEf12GHIj
```
Output:  

```
{
    "participant": {
        "browserName": "Google Chrome",
        "browserVersion": "116",
        "firstJoinTime": "2023-04-26T20:30:34+00:00",
        "ispName": "Comcast",
        "osName": "Microsoft Windows 10 Pro",
        "osVersion": "10.0.19044",
        "participantId": "abCDEf12GHIj",
        "published": true,
        "recordingS3BucketName": "bucket-name",
        "recordingS3Prefix": "abcdABCDefgh/st-a1b2c3d4e5f6g/abCDEf12GHIj/1234567890",
        "recordingState": "ACTIVE",
        "replicationState": "ACTIVE",
        "replicationType": "REPLICA",
        "sdkVersion": "",
        "state": "CONNECTED",
        "userId": ""
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
+  Untuk detail API, lihat [GetParticipant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/get-participant.html)di *Referensi AWS CLI Perintah*. 

### `get-public-key`
<a name="ivs-realtime_GetPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-public-key`.

**AWS CLI**  
**Untuk mendapatkan kunci publik yang ada digunakan untuk menandatangani token peserta panggung**  
`get-public-key`Contoh berikut mendapatkan kunci publik yang ditentukan oleh ARN yang disediakan, untuk menandatangani token peserta tahap.  

```
aws ivs-realtime get-public-key \
    --arn arn:aws:ivs:us-west-2:123456789012:public-key/abcdABC1efg2
```
Output:  

```
{
    "publicKey": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:public-key/abcdABC1efg2",
        "name": "",
        "publicKeyMaterial": "-----BEGIN PUBLIC KEY-----\nMHYwEAYHKoZIzj0CAQYFK4EEACIDYgAEqVWUtqs6EktQMR1sCYmEzGvRwtaycI16\n9pmzcpiWu/uhNStGlteJ5odRfRwVkoQUMnSZXTCcbn9bBTTmiWo4mJcFOOAzsthH\n0UAb8NdD4tUE0At4a9hYP9IETEXAMPLE\n-----END PUBLIC KEY-----",
        "fingerprint": "12:a3:44:56:bc:7d:e8:9f:10:2g:34:hi:56:78:90:12",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mendistribusikan Token Peserta](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/getting-started-distribute-tokens.html) di *Panduan Pengguna Streaming Waktu Nyata Amazon IVS*.  
+  Untuk detail API, lihat [GetPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/get-public-key.html)di *Referensi AWS CLI Perintah*. 

### `get-stage-session`
<a name="ivs-realtime_GetStageSession_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stage-session`.

**AWS CLI**  
**Untuk mendapatkan sesi panggung**  
`get-stage-session`Contoh berikut mendapatkan sesi tahap untuk ID sesi tertentu dari ARN tahap tertentu (Amazon Resource Name).  

```
aws ivs-realtime get-stage-session \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g
```
Output:  

```
{
    "stageSession": {
        "endTime": "2023-04-26T20:36:29+00:00",
        "sessionId": "st-a1b2c3d4e5f6g",
        "startTime": "2023-04-26T20:30:29.602000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/userguide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [GetStageSession](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/get-stage-session.html)di *Referensi AWS CLI Perintah*. 

### `get-stage`
<a name="ivs-realtime_GetStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-stage`.

**AWS CLI**  
**Untuk mendapatkan informasi konfigurasi panggung**  
`get-stage`Contoh berikut mendapatkan konfigurasi tahap untuk ARN tahap tertentu (Amazon Resource Name).  

```
aws ivs-realtime get-stage \
    --arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh
```
Output:  

```
{
    "stage": {
        "activeSessionId": "st-a1b2c3d4e5f6g",
        "arn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
        "autoParticipantRecordingConfiguration": {
            "storageConfigurationArn": "",
            "mediaTypes": [
                "AUDIO_VIDEO"
            ],
            "thumbnailConfiguration": {
                "targetIntervalSeconds": 60,
                "storage": [
                    "SEQUENTIAL"
                ],
                "recordingMode": "DISABLED"
            },
            "recordingReconnectWindowSeconds": 0,
            "hlsConfiguration": {
                "targetSegmentDurationSeconds": 6
            },
            "recordParticipantReplicas": true
        },
        "endpoints": {
            "events": "wss://global.events.live-video.net",
            "rtmp": "rtmp://9x0y8z7s6t5u.global-contribute-staging.live-video.net/app/",
            "rtmps": "rtmps://9x0y8z7s6t5u.global-contribute-staging.live-video.net:443/app/",
            "whip": "https://9x0y8z7s6t5u.global-bm.whip.live-video.net"
        },
        "name": "test",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
+  Untuk detail API, lihat [GetStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/get-stage.html)di *Referensi AWS CLI Perintah*. 

### `get-storage-configuration`
<a name="ivs-realtime_GetStorageConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-storage-configuration`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi penyimpanan komposisi**  
`get-storage-configuration`Contoh berikut mendapatkan konfigurasi penyimpanan komposisi yang ditentukan oleh ARN yang diberikan (Amazon Resource Name).  

```
aws ivs-realtime get-storage-configuration \
    --name arn "arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/abcdABCDefgh"
```
Output:  

```
{
    "storageConfiguration": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/abcdABCDefgh",
        "name": "test-sc",
        "s3": {
            "bucketName": "amzn-s3-demo-bucket"
        },
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [GetStorageConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/get-storage-configuration.html)di *Referensi AWS CLI Perintah*. 

### `import-public-key`
<a name="ivs-realtime_ImportPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-public-key`.

**AWS CLI**  
**Untuk mengimpor kunci publik yang ada untuk digunakan untuk menandatangani token peserta panggung**  
`import-public-key`Contoh berikut mengimpor kunci publik dari file material, yang akan digunakan untuk menandatangani token peserta tahap.  

```
aws ivs-realtime import-public-key \
    --public-key-material="`cat public.pem`"
```
Output:  

```
{
    "publicKey": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:public-key/abcdABC1efg2",
        "name": "",
        "publicKeyMaterial": "-----BEGIN PUBLIC KEY-----\nMHYwEAYHKoZIzj0CAQYFK4EEACIDYgAEqVWUtqs6EktQMR1sCYmEzGvRwtaycI16\n9pmzcpiWu/uhNStGlteJ5odRfRwVkoQUMnSZXTCcbn9bBTTmiWo4mJcFOOAzsthH\n0UAb8NdD4tUE0At4a9hYP9IETEXAMPLE\n-----END PUBLIC KEY-----",
        "fingerprint": "12:a3:44:56:bc:7d:e8:9f:10:2g:34:hi:56:78:90:12",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mendistribusikan Token Peserta](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/getting-started-distribute-tokens.html) di *Panduan Pengguna Streaming Waktu Nyata Amazon IVS*.  
+  Untuk detail API, lihat [ImportPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/import-public-key.html)di *Referensi AWS CLI Perintah*. 

### `list-compositions`
<a name="ivs-realtime_ListCompositions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-compositions`.

**AWS CLI**  
**Untuk mendapatkan daftar komposisi**  
Berikut ini `list-compositions` mencantumkan semua komposisi untuk AWS akun Anda, di AWS wilayah tempat permintaan API diproses.  

```
aws ivs-realtime list-compositions
```
Output:  

```
{
    "compositions": [
        {
            "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh",
            "destinations": [
                {
                    "id": "AabBCcdDEefF",
                    "startTime": "2023-10-16T23:25:23+00:00",
                    "state": "ACTIVE"
                }
            ],
            "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd",
            "startTime": "2023-10-16T23:25:21+00:00",
            "state": "ACTIVE",
            "tags": {}
        },
        {
            "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/ABcdabCDefgh",
            "destinations": [
                {
                    "endTime": "2023-10-16T23:25:00.786512+00:00",
                    "id": "aABbcCDdeEFf",
                    "startTime": "2023-10-16T23:24:01+00:00",
                    "state": "STOPPED"
                },
                {
                    "endTime": "2023-10-16T23:25:00.786512+00:00",
                    "id": "deEFfaABbcCD",
                    "startTime": "2023-10-16T23:24:01+00:00",
                    "state": "STOPPED"
                }
            ],
            "endTime": "2023-10-16T23:25:00+00:00",
            "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/efghabcdABCD",
            "startTime": "2023-10-16T23:24:00+00:00",
            "state": "STOPPED",
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListCompositions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-compositions.html)di *Referensi AWS CLI Perintah*. 

### `list-encoder-configurations`
<a name="ivs-realtime_ListEncoderConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-encoder-configurations`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi encoder komposisi**  
Berikut ini `list-encoder-configurations` mencantumkan semua konfigurasi encoder komposisi untuk AWS akun Anda, di AWS wilayah tempat permintaan API diproses.  

```
aws ivs-realtime list-encoder-configurations
```
Output:  

```
{
    "encoderConfigurations": [
        {
            "arn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/abcdABCDefgh",
            "name": "test-ec-1",
            "tags": {}
        },
        {
            "arn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABCefgEFGabc",
            "name": "test-ec-2",
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListEncoderConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-encoder-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-ingest-configurations`
<a name="ivs-realtime_ListIngestConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-ingest-configurations`.

**AWS CLI**  
**Untuk mendapatkan informasi ringkasan tentang semua konfigurasi ingest**  
`list-ingest-configurations`Contoh berikut mencantumkan semua konfigurasi ingest untuk AWS akun Anda, di AWS wilayah tempat permintaan API diproses.  

```
aws ivs-realtime list-ingest-configurations
```
Output:  

```
{
    "ingestConfigurations": [
        {
            "name": "",
            "arn": "arn:aws:ivs:us-west-2:123456789012:ingest-configuration/XYZuvwSt4567",
            "ingestProtocol": "RTMPS",
            "stageArn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
            "participnatId": "abC789Xyz456",
            "state": "INACTIVE"
            "userId": "",
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [IVS Stream Ingest \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-stream-ingest.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListIngestConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-ingest-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-participant-events`
<a name="ivs-realtime_ListParticipantEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-participant-events`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan daftar acara peserta panggung**  
`list-participant-events`Contoh berikut mencantumkan semua peristiwa peserta untuk ID peserta tertentu dan ID sesi dari ARN tahap tertentu (Nama Sumber Daya Amazon).  

```
aws ivs-realtime list-participant-events \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g \
    --participant-id abCDEf12GHIj
```
Output:  

```
{
    "events": [
        {
            "eventTime": "2023-04-26T20:36:28+00:00",
            "name": "LEFT",
            "participantId": "abCDEf12GHIj"
        },
        {
            "eventTime": "2023-04-26T20:36:28+00:00",
            "name": "PUBLISH_STOPPED",
            "participantId": "abCDEf12GHIj"
        },
        {
            "eventTime": "2023-04-26T20:30:34+00:00",
            "name": "JOINED",
            "participantId": "abCDEf12GHIj"
        },
        {
            "eventTime": "2023-04-26T20:30:34+00:00",
            "name": "PUBLISH_STARTED",
            "participantId": "abCDEf12GHIj"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
**Contoh 2: Untuk mendapatkan daftar acara peserta panggung, termasuk replikasi peserta berhenti dan mulai**  
`list-participant-events`Contoh berikut mencantumkan semua acara peserta untuk ID sesi tertentu dari ARN tahap tertentu (Nama Sumber Daya Amazon), tempat peserta direplikasi ke tahap lain.  

```
aws ivs-realtime list-participant-events \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g \
    --participant-id abCDEf12GHIj
```
Output:  

```
{
    "events": [
        {
            "eventTime": "2025-04-26T20:36:28+00:00",
            "name": "LEFT",
            "participantId": "abCDEf12GHIj"
        },
        {
            "eventTime": "2025-04-26T20:36:28+00:00",
            "name": "PUBLISH_STOPPED",
            "participantId": "abCDEf12GHIj"
        },
        {
            "eventTime": "2025-04-26T20:30:34+00:00",
            "name": "JOINED",
            "participantId": "abCDEf12GHIj"
        },
        {
            "eventTime": "2025-04-26T20:30:34+00:00",
            "name": "PUBLISH_STARTED",
            "participantId": "abCDEf12GHIj"
        },
        {
            "name": "REPLICATION_STARTED",
            "participantId": "abCDEf12GHIj",
            "eventTime": "2025-04-26T20:30:34+00:00",
            "destinationStageArn": "arn:aws:ivs:us-west-2:12345678901:stage/ABCDabcdefgh",
            "destinationSessionId": "st-b1c2d3e4f5g6a"
        },
        {
            "name": "REPLICATION_STOPPED",
            "participantId": "abCDEf12GHIj",
            "eventTime": "2025-04-26T20:32:34+00:00",
            "destinationStageArn": "arn:aws:ivs:us-west-2:12345678901:stage/ABCDabcdefgh",
            "destinationSessionId": "st-b1c2d3e4f5g6a"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
+  Untuk detail API, lihat [ListParticipantEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-participant-events.html)di *Referensi AWS CLI Perintah*. 

### `list-participant-replicas`
<a name="ivs-realtime_ListParticipantReplicas_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-participant-replicas`.

**AWS CLI**  
**Untuk mendapatkan daftar replika peserta panggung**  
`list-participant-replicas`Contoh berikut mencantumkan semua peserta tahap yang direplikasi dari ARN tahap sumber yang ditentukan (Nama Sumber Daya Amazon) ke tahap lain.  

```
aws ivs-realtime list-participant-replicas \
    --source-stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --participant-id abCDEf12GHIj
```
Output:  

```
{
    "replicas": [
        {
            "sourceStageArn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
            "participantId": "abCDEf12GHIj",
            "sourceSessionId": "st-a1b2c3d4e5f6g",
            "destinationStageArn": "arn:aws:ivs:us-west-2:012345678901:stage/ABCDabcdefgh",
            "destinationSessionId": "st-b1c2d3e4f5g6a",
            "replicationState": "ACTIVE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Replikasi Peserta IVS di Panduan](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-participant-replication.html) Pengguna *Streaming Waktu Nyata Amazon IVS*.  
+  Untuk detail API, lihat [ListParticipantReplicas](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-participant-replicas.html)di *Referensi AWS CLI Perintah*. 

### `list-participants`
<a name="ivs-realtime_ListParticipants_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-participants`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan daftar peserta panggung**  
`list-participants`Contoh berikut mencantumkan semua peserta untuk ID sesi tertentu dari ARN tahap tertentu (Nama Sumber Daya Amazon).  

```
aws ivs-realtime list-participants \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g
```
Output:  

```
{
    "participants": [
        {
            "firstJoinTime": "2023-04-26T20:30:34+00:00",
            "participantId": "abCDEf12GHIj",
            "published": true,
            "recordingState": "STOPPED",
            "state": "DISCONNECTED",
            "userId": ""
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
**Contoh 2: Untuk mendapatkan daftar peserta tahap, ketika peserta telah direplikasi ke tahap lain**  
`list-participants`Contoh berikut mencantumkan semua peserta untuk ID sesi tertentu dari ARN tahap tertentu (Nama Sumber Daya Amazon), ketika peserta telah direplikasi ke tahap lain.  

```
aws ivs-realtime list-participants \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g
```
Output:  

```
{
    "participants": [
        {
            "firstJoinTime": "2023-04-26T20:30:34+00:00",
            "participantId": "abCDEf12GHIj",
            "published": true,
            "recordingState": "STOPPED",
            "state": "DISCONNECTED",
            "userId": "",
            "replicationState": "ACTIVE",
            "replicationType": "SOURCE",
            "sourceStageArn": "",
            "sourceSessionId": ""
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
**Contoh 3: Untuk mendapatkan daftar peserta tahap, ketika peserta telah direplikasi dari tahap lain**  
`list-participants`Contoh berikut mencantumkan semua peserta untuk ID sesi tertentu dari ARN tahap tertentu (Nama Sumber Daya Amazon), ketika peserta telah direplikasi dari tahap lain.  

```
aws ivs-realtime list-participants \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --session-id st-a1b2c3d4e5f6g
```
Output:  

```
{
    "participants": [
        {
            "firstJoinTime": "2023-04-26T20:30:34+00:00",
            "participantId": "abCDEf12GHIj",
            "published": true,
            "recordingState": "STOPPED",
            "state": "DISCONNECTED",
            "userId": "",
            "replicationState": "ACTIVE",
            "replicationType": "REPLICA",
            "sourceStageArn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
            "sourceSessionId": "st-a1b2c3d4e5f6g"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
+  Untuk detail API, lihat [ListParticipants](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-participants.html)di *Referensi AWS CLI Perintah*. 

### `list-public-keys`
<a name="ivs-realtime_ListPublicKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-public-keys`.

**AWS CLI**  
**Untuk mencantumkan kunci publik yang ada yang tersedia untuk menandatangani token peserta panggung**  
`list-public-keys`Contoh berikut mencantumkan semua kunci publik yang tersedia untuk menandatangani token peserta tahap, di AWS wilayah tempat permintaan API diproses.  

```
aws ivs-realtime list-public-keys
```
Output:  

```
{
    "publicKeys": [
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:public-key/abcdABC1efg2",
            "name": "",
            "tags": {}
        },
        {
            "arn": "arn:aws:ivs:us-west-2:123456789012:public-key/3bcdABCDefg4",
            "name": "",
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendistribusikan Token Peserta](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/getting-started-distribute-tokens.html) di *Panduan Pengguna Streaming Waktu Nyata Amazon IVS*.  
+  Untuk detail API, lihat [ListPublicKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-public-keys.html)di *Referensi AWS CLI Perintah*. 

### `list-stage-sessions`
<a name="ivs-realtime_ListStageSessions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stage-sessions`.

**AWS CLI**  
**Untuk mendapatkan daftar sesi panggung**  
`list-stage-sessions`Contoh berikut mencantumkan semua sesi untuk ARN tahap tertentu (Nama Sumber Daya Amazon).  

```
aws ivs-realtime list-stage-sessions \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh
```
Output:  

```
{
    "stageSessions": [
        {
            "endTime": "2023-04-26T20:36:29+00:00",
            "sessionId": "st-a1b2c3d4e5f6g",
            "startTime": "2023-04-26T20:30:29.602000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/userguide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListStageSessions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-stage-sessions.html)di *Referensi AWS CLI Perintah*. 

### `list-stages`
<a name="ivs-realtime_ListStages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stages`.

**AWS CLI**  
**Untuk mendapatkan informasi ringkasan tentang semua tahapan**  
`list-stages`Contoh berikut mencantumkan semua tahapan untuk AWS akun Anda, di AWS wilayah tempat permintaan API diproses.  

```
aws ivs-realtime list-stages
```
Output:  

```
{
    "stages": [
        {
            "activeSessionId": "st-a1b2c3d4e5f6g",
            "arn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
            "name": "stage1",
            "tags": {}
        },
        {
            "activeSessionId": "st-a123bcd456efg",
            "arn": "arn:aws:ivs:us-west-2:123456789012:stage/abcd1234ABCD",
            "name": "stage2",
            "tags": {}
        },
        {
            "activeSessionId": "st-abcDEF1234ghi",
            "arn": "arn:aws:ivs:us-west-2:123456789012:stage/ABCD1234efgh",
            "name": "stage3",
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListStages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-stages.html)di *Referensi AWS CLI Perintah*. 

### `list-storage-configurations`
<a name="ivs-realtime_ListStorageConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-storage-configurations`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi penyimpanan komposisi**  
Berikut ini `list-storage-configurations` mencantumkan semua konfigurasi penyimpanan komposisi untuk AWS akun Anda, di AWS wilayah tempat permintaan API diproses.  

```
aws ivs-realtime list-storage-configurations
```
Output:  

```
{
    "storageConfigurations": [
        {
            "arn": "arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/abcdABCDefgh",
            "name": "test-sc-1",
            "s3": {
                "bucketName": "amzn-s3-demo-bucket-1"
            },
            "tags": {}
        },
        {
            "arn": "arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/ABCefgEFGabc",
            "name": "test-sc-2",
            "s3": {
                "bucketName": "amzn-s3-demo-bucket-2"
            },
            "tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [ListStorageConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/list-storage-configurations.html)di *Referensi AWS CLI Perintah*. 

### `start-composition`
<a name="ivs-realtime_StartComposition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-composition`.

**AWS CLI**  
**Contoh 1: Untuk memulai komposisi dengan pengaturan tata letak default**  
`start-composition`Contoh berikut memulai komposisi untuk tahap tertentu yang akan dialirkan ke lokasi yang ditentukan.  

```
aws ivs-realtime start-composition \
    --stage-arn arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd \
    --destinations '[{"channel": {"channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg", \
        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"}}, \
        {"s3":{"encoderConfigurationArns":["arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"], \
        "recordingConfiguration": {"hlsConfiguration": {"targetSegmentDurationSeconds": 5}}, \
        "storageConfigurationArn":"arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE"}}]'
```
Output:  

```
{
    "composition": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh",
        "destinations": [
            {
                "configuration": {
                    "channel": {
                        "channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg",
                        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                    },
                    "name": ""
                },
                "id": "AabBCcdDEefF",
                "state": "STARTING"
            },
            {
                "configuration": {
                    "name": "",
                    "s3": {
                        "encoderConfigurationArns": [
                            "arn:aws:ivs:arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                        ],
                        "recordingConfiguration": {
                            "format": "HLS",
                            "hlsConfiguration": {
                                "targetSegmentDurationSeconds": 5
                            }
                        },
                        "storageConfigurationArn": "arn:arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE"
                    }
                },
                "detail": {
                    "s3": {
                        "recordingPrefix": "aBcDeFgHhGfE/AbCdEfGhHgFe/GHFabcgefABC/composite"
                    }
                },
                "id": "GHFabcgefABC",
                "state": "STARTING"
            }
        ],
        "layout": {
            "grid": {
                "featuredParticipantAttribute": ""
                "gridGap": 2,
                "omitStoppedVideo": false,
                "participantOrderAttribute": "",
                "videoAspectRatio": "VIDEO",
                "videoFillMode": ""
            }
        },
        "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd",
        "startTime": "2023-10-16T23:24:00+00:00",
        "state": "STARTING",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Perekaman Komposit IVS \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-composite-recording.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
**Contoh 2: Untuk memulai komposisi dengan tata letak PiP**  
`start-composition`Contoh berikut memulai komposisi untuk tahap tertentu yang akan dialirkan ke lokasi yang ditentukan menggunakan tata letak PiP.  

```
aws ivs-realtime start-composition \
    --stage-arn arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd \
    --destinations '[{"channel": {"channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg", \
        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"}}, \
        {"s3":{"encoderConfigurationArns":["arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"], \
        "storageConfigurationArn":"arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE"}}]' \
    --layout pip='{featuredParticipantAttribute="abcdefg"}'
```
Output:  

```
{
    "composition": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/wxyzWXYZpqrs",
        "destinations": [
            {
                "configuration": {
                    "channel": {
                        "channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg",
                        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                    },
                    "name": ""
                },
                "id": "AabBCcdDEefF",
                "state": "STARTING"
            },
            {
                "configuration": {
                    "name": "",
                    "s3": {
                        "encoderConfigurationArns": [
                            "arn:aws:ivs:arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                        ],
                        "recordingConfiguration": {
                            "format": "HLS",
                            "hlsConfiguration": {
                                "targetSegmentDurationSeconds": 2
                            }
                        },
                        "storageConfigurationArn": "arn:arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE"
                    }
                },
                "detail": {
                    "s3": {
                        "recordingPrefix": "aBcDeFgHhGfE/AbCdEfGhHgFe/GHFabcgefABC/composite"
                    }
                },
                "id": "GHFabcgefABC",
                "state": "STARTING"
            }
        ],
        "layout": {
            "pip": {
                "featuredParticipantAttribute": "abcdefg",
                "gridGap": 0,
                "omitStoppedVideo": false,
                "participantOrderAttribute": "",
                "pipBehavior": "STATIC",
                "pipOffset": 0,
                "pipParticipantAttribute": "",
                "pipPosition": "BOTTOM_RIGHT",
                "videoFillMode": "COVER"
            }
        },
        "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd",
        "startTime": "2023-10-16T23:24:00+00:00",
        "state": "STARTING",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Perekaman Komposit IVS \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-composite-recording.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
**Contoh 3: Untuk memulai komposisi dengan perekaman thumbnail diaktifkan**  
`start-composition`Contoh berikut memulai komposisi untuk tahap tertentu yang akan dialirkan ke lokasi tertentu dengan perekaman thumbnail diaktifkan.  

```
aws ivs-realtime start-composition \
    --stage-arn arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd \
    --destinations '[{"channel": {"channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg", \
        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"}}, \
        {"s3": {"encoderConfigurationArns": ["arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"], \
        "storageConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE", \
        "thumbnailConfigurations": [{"storage": ["SEQUENTIAL"],"targetIntervalSeconds": 60}]}}]'
```
Output:  

```
{
    "composition": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh",
        "destinations": [
            {
                "configuration": {
                    "channel": {
                        "channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg",
                        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                    },
                    "name": ""
                },
                "id": "AabBCcdDEefF",
                "state": "STARTING"
            },
            {
                "configuration": {
                    "name": "",
                    "s3": {
                        "encoderConfigurationArns": [
                            "arn:aws:ivs:arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                        ],
                        "recordingConfiguration": {
                            "format": "HLS",
                            "hlsConfiguration": {
                                "targetSegmentDurationSeconds": 2
                            }
                        },
                        "storageConfigurationArn": "arn:arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE",
                        "thumbnailConfigurations": [
                           {
                              "targetIntervalSeconds": 60,
                              "storage": [
                                  "SEQUENTIAL"
                              ]
                           }
                        ]
                    }
                },
                "detail": {
                    "s3": {
                        "recordingPrefix": "aBcDeFgHhGfE/AbCdEfGhHgFe/GHFabcgefABC/composite"
                    }
                },
                "id": "GHFabcgefABC",
                "state": "STARTING"
            }
        ],
        "layout": {
            "grid": {
                "featuredParticipantAttribute": ""
                "gridGap": 2,
                "omitStoppedVideo": false,
                "participantOrderAttribute": "",
                "videoAspectRatio": "VIDEO",
                "videoFillMode": ""
            }
        },
        "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd",
        "startTime": "2023-10-16T23:24:00+00:00",
        "state": "STARTING",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Perekaman Komposit (Streaming Waktu Nyata)](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-composite-recording.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
**Contoh 4: Untuk memulai komposisi menggunakan tata letak kisi dengan pemesanan peserta kustom**  
`start-composition`Contoh berikut memulai komposisi untuk tahap tertentu yang akan dialirkan ke lokasi yang ditentukan menggunakan tata letak kisi dengan urutan peserta kustom.  

```
aws ivs-realtime start-composition \
    --stage-arn arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd \
    --destinations '[{"channel": {"channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg", \
        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"}}, \
        {"s3": {"encoderConfigurationArns": ["arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"], \
        "storageConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE", \
        "thumbnailConfigurations": [{"storage": ["SEQUENTIAL"],"targetIntervalSeconds": 60}]}}]' \
    --layout grid='{participantOrderAttribute="abcdefg"}'
```
Output:  

```
{
    "composition": {
        "arn": "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh",
        "destinations": [
            {
                "configuration": {
                    "channel": {
                        "channelArn": "arn:aws:ivs:ap-northeast-1:123456789012:channel/abcABCdefDEg",
                        "encoderConfigurationArn": "arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                    },
                    "name": ""
                },
                "id": "AabBCcdDEefF",
                "state": "STARTING"
            },
            {
                "configuration": {
                    "name": "",
                    "s3": {
                        "encoderConfigurationArns": [
                            "arn:aws:ivs:arn:aws:ivs:ap-northeast-1:123456789012:encoder-configuration/ABabCDcdEFef"
                        ],
                        "recordingConfiguration": {
                            "format": "HLS",
                            "hlsConfiguration": {
                                "targetSegmentDurationSeconds": 2
                            }
                        },
                        "storageConfigurationArn": "arn:arn:aws:ivs:ap-northeast-1:123456789012:storage-configuration/FefABabCDcdE",
                        "thumbnailConfigurations": [
                           {
                              "targetIntervalSeconds": 60,
                              "storage": [
                                  "SEQUENTIAL"
                              ]
                           }
                        ]
                    }
                },
                "detail": {
                    "s3": {
                        "recordingPrefix": "aBcDeFgHhGfE/AbCdEfGhHgFe/GHFabcgefABC/composite"
                    }
                },
                "id": "GHFabcgefABC",
                "state": "STARTING"
            }
        ],
        "layout": {
            "grid": {
                "featuredParticipantAttribute": ""
                "gridGap": 2,
                "omitStoppedVideo": false,
                "participantOrderAttribute": "abcdefg",
                "videoAspectRatio": "VIDEO",
                "videoFillMode": ""
            }
        },
        "stageArn": "arn:aws:ivs:ap-northeast-1:123456789012:stage/defgABCDabcd",
        "startTime": "2023-10-16T23:24:00+00:00",
        "state": "STARTING",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Perekaman Komposit IVS \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-composite-recording.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [StartComposition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/start-composition.html)di *Referensi AWS CLI Perintah*. 

### `start-participant-replication`
<a name="ivs-realtime_StartParticipantReplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-participant-replication`.

**AWS CLI**  
**Untuk mulai mereplikasi peserta dari satu tahap ke tahap lain**  
`start-participant-replication`Contoh berikut mereplikasi peserta dari tahap sumber ke tahap tujuan, dengan setiap tahap ditentukan oleh ARN (Amazon Resource Name).  

```
aws ivs-realtime start-participant-replication \
    --source-stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --destination-stage-arn arn:aws:ivs:us-west-2:234567890123:stage/bcdABCDefghi \
    --participant-id abCDEf12GHIj
```
Output:  

```
{
    "accessControlAllowOrigin": "*",
    "accessControlExposeHeaders": "Access-Control-Allow-Origin,Access-Control-Expose-Headers,Cache-Control,Content-Length, \
    Content-Security-Policy,Content-Type,date,Strict-Transport-Security,x-amz-apigw-id,x-amzn-errormessage,x-amzn-errortype, \
    x-amzn-requestid,x-amzn-trace-id,X-Content-Type-Options,X-Frame-Options",
    "cacheControl": "no-store, no-cache",
    "contentSecurityPolicy": "default-src 'self'; upgrade-insecure-requests;",
    "strictTransportSecurity": "max-age:47304000; includeSubDomains",
    "xContentTypeOptions": "nosniff",
    "xFrameOptions": "DENY"
}
```
Untuk informasi selengkapnya, lihat [Replikasi Peserta IVS di Panduan](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-participant-replication.html) Pengguna *Streaming Waktu Nyata Amazon IVS*.  
+  Untuk detail API, lihat [StartParticipantReplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/start-participant-replication.html)di *Referensi AWS CLI Perintah*. 

### `stop-composition`
<a name="ivs-realtime_StopComposition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-composition`.

**AWS CLI**  
**Untuk menghentikan komposisi**  
Berikut ini `stop-composition` menghentikan komposisi yang ditentukan oleh ARN yang diberikan (Nama Sumber Daya Amazon).  

```
aws ivs-realtime stop-composition \
    --arn "arn:aws:ivs:ap-northeast-1:123456789012:composition/abcdABCDefgh"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [StopComposition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/stop-composition.html)di *Referensi AWS CLI Perintah*. 

### `stop-participant-replication`
<a name="ivs-realtime_StopParticipantReplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-participant-replication`.

**AWS CLI**  
**Untuk berhenti mereplikasi peserta dari satu tahap ke tahap lain**  
`stop-participant-replication`Contoh berikut berhenti mereplikasi peserta dari tahap sumber ke tahap tujuan, dengan setiap tahap ditentukan oleh ARN (Nama Sumber Daya Amazon).  

```
aws ivs-realtime stop-participant-replication \
    --source-stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --destination-stage-arn arn:aws:ivs:us-west-2:234567890123:stage/bcdABCDefghi \
    --participant-id abCDEf12GHIj
```
Output:  

```
{
    "accessControlAllowOrigin": "*",
    "accessControlExposeHeaders": "Access-Control-Allow-Origin,Access-Control-Expose-Headers,Cache-Control,Content-Length, \
    Content-Security-Policy,Content-Type,date,Strict-Transport-Security,x-amz-apigw-id,x-amzn-errormessage,x-amzn-errortype, \
    x-amzn-requestid,x-amzn-trace-id,X-Content-Type-Options,X-Frame-Options",
    "cacheControl": "no-store, no-cache",
    "contentSecurityPolicy": "default-src 'self'; upgrade-insecure-requests;",
    "strictTransportSecurity": "max-age:47304000; includeSubDomains",
    "xContentTypeOptions": "nosniff",
    "xFrameOptions": "DENY"
}
```
Untuk informasi selengkapnya, lihat [Replikasi Peserta IVS di Panduan](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-participant-replication.html) Pengguna *Streaming Waktu Nyata Amazon IVS*.  
+  Untuk detail API, lihat [StopParticipantReplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/stop-participant-replication.html)di *Referensi AWS CLI Perintah*. 

### `update-ingest-configuration`
<a name="ivs-realtime_UpdateIngestConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-ingest-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi ingest**  
`update-inegst-configuration`Contoh berikut memperbarui konfigurasi ingest untuk melampirkannya ke panggung.  

```
aws ivs-realtime update-ingest-configuration \
    --arn arn:aws:ivs:us-west-2:123456789012:ingest-configuration/AbCdEfGh1234 \
    --stage-arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh
```
Output:  

```
{
    "ingestConfiguration": {
        "name": "ingest1",
        "arn": "arn:aws:ivs:us-west-2:123456789012:ingest-configuration/AbCdEfGh1234",
        "ingestProtocol": "RTMPS",
        "streamKey": "rt_123456789012_us-west-2_AbCdEfGh1234_abcd1234efgh5678ijkl9012MNOP34",
        "stageArn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
        "participantId": "xyZ654abC321",
        "state": "INACTIVE",
        "userId": "",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [IVS Stream Ingest \$1 Streaming Waktu Nyata](https://docs.aws.amazon.com/ivs/latest/RealTimeUserGuide/rt-stream-ingest.html) di *Panduan Pengguna Layanan Video Interaktif Amazon*.  
+  Untuk detail API, lihat [UpdateIngestConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/update-ingest-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-stage`
<a name="ivs-realtime_UpdateStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-stage`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui konfigurasi tahap**  
`update-stage`Contoh berikut memperbarui tahap untuk ARN tahap tertentu untuk memperbarui nama panggung dan mengonfigurasi perekaman peserta individu dengan perekaman thumbnail diaktifkan.  

```
aws ivs-realtime update-stage \
    --arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --auto-participant-recording-configuration '{"mediaTypes": ["AUDIO_VIDEO"],"storageConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:storage-configuration/abcdABCDefgh", "recordingReconnectWindowSeconds": 100, \
        "thumbnailConfiguration": {"recordingMode": "INTERVAL","storage": ["SEQUENTIAL"],"targetIntervalSeconds": 60}} \
        "hlsConfiguration": {"targetSegmentDurationSeconds": 5}}' \
    --name stage1a
```
Output:  

```
{
    "stage": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
        "autoParticipantRecordingConfiguration": {
            "mediaTypes": [
                "AUDIO_VIDEO"
            ],
            "storageConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:storage-configuration/abcdABCDefgh",
            "thumbnailConfiguration": {
                "targetIntervalSeconds": 60,
                "storage": [
                    "SEQUENTIAL"
                ],
                "recordingMode": "INTERVAL"
            },
            "recordingReconnectWindowSeconds": 100,
            "hlsConfiguration": {
                "targetSegmentDurationSeconds": 5
            },
            "recordParticipantReplicas": true
        },
        "endpoints": {
            "events": "wss://global.events.live-video.net",
            "rtmp": "rtmp://9x0y8z7s6t5u.global-contribute-staging.live-video.net/app/",
            "rtmps": "rtmps://9x0y8z7s6t5u.global-contribute-staging.live-video.net:443/app/",
            "whip": "https://1a2b3c4d5e6f.global-bm.whip.live-video.net"
        },
        "name": "stage1a",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
**Contoh 2: Untuk memperbarui konfigurasi panggung, termasuk menonaktifkan rekaman replika peserta**  
`update-stage`Contoh berikut memperbarui tahap untuk ARN tahap tertentu untuk memperbarui nama panggung dan mengonfigurasi perekaman peserta individu dengan perekaman thumbnail diaktifkan dan rekaman replika peserta dinonaktifkan.  

```
aws ivs-realtime update-stage \
    --arn arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh \
    --auto-participant-recording-configuration '{"mediaTypes": ["AUDIO_VIDEO"],"storageConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:storage-configuration/abcdABCDefgh", "recordingReconnectWindowSeconds": 100, \
        "thumbnailConfiguration": {"recordingMode": "INTERVAL","storage": ["SEQUENTIAL"],"targetIntervalSeconds": 60}, "recordParticipantReplicas":false} \
        "hlsConfiguration": {"targetSegmentDurationSeconds": 5}}' \
    --name stage1a
```
Output:  

```
{
    "stage": {
        "arn": "arn:aws:ivs:us-west-2:123456789012:stage/abcdABCDefgh",
        "autoParticipantRecordingConfiguration": {
            "mediaTypes": [
                "AUDIO_VIDEO"
            ],
            "storageConfigurationArn": "arn:aws:ivs:us-west-2:123456789012:storage-configuration/abcdABCDefgh",
            "thumbnailConfiguration": {
                "targetIntervalSeconds": 60,
                "storage": [
                    "SEQUENTIAL"
                ],
                "recordingMode": "INTERVAL"
            },
            "recordingReconnectWindowSeconds": 100,
            "hlsConfiguration": {
                "targetSegmentDurationSeconds": 5
            },
            "recordParticipantReplicas": false
        },
        "endpoints": {
            "events": "wss://global.events.live-video.net",
            "rtmp": "rtmp://9x0y8z7s6t5u.global-contribute-staging.live-video.net/app/",
            "rtmps": "rtmps://9x0y8z7s6t5u.global-contribute-staging.live-video.net:443/app/",
            "whip": "https://1a2b3c4d5e6f.global-bm.whip.live-video.net"
        },
        "name": "stage1a",
        "tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan Beberapa Host di Amazon IVS Stream di Panduan Pengguna Streaming](https://docs.aws.amazon.com/ivs/latest/LowLatencyUserGuide/multiple-hosts.html) *Latensi Rendah Amazon IVS*.  
+  Untuk detail API, lihat [UpdateStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ivs-realtime/update-stage.html)di *Referensi AWS CLI Perintah*. 

# Amazon Kendra contoh menggunakan AWS CLI
<a name="cli_2_kendra_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Kendra. AWS Command Line Interface 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-data-source`
<a name="kendra_CreateDataSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-data-source`.

**AWS CLI**  
**Untuk membuat konektor sumber data Amazon Kendra**  
Berikut ini `create-data-source` membuat dan mengkonfigurasi konektor sumber data Amazon Kendra. Anda dapat menggunakan `describe-data-source` untuk melihat status konektor sumber data, dan membaca pesan kesalahan apa pun jika status menunjukkan konektor sumber data “GAGAL” untuk sepenuhnya dibuat.  

```
aws kendra create-data-source \
    --name "example data source 1" \
    --description "Example data source 1 for example index 1 contains the first set of example documents" \
    --tags '{"Key": "test resources", "Value": "kendra"}, {"Key": "test resources", "Value": "aws"}' \
    --role-arn "arn:aws:iam::my-account-id:role/KendraRoleForS3TemplateConfigDataSource" \
    --index-id exampleindex1 \
    --language-code "es" \
    --schedule "0 0 18 ? * TUE,MON,WED,THU,FRI,SAT *" \
    --configuration '{"TemplateConfiguration": {"Template": file://s3schemaconfig.json}}' \
    --type "TEMPLATE" \
    --custom-document-enrichment-configuration '{"PostExtractionHookConfiguration": {"LambdaArn": "arn:aws:iam::my-account-id:function/my-function-ocr-docs", "S3Bucket": "s3://amzn-s3-demo-bucket/scanned-image-text-example-docs"}, "RoleArn": "arn:aws:iam:my-account-id:role/KendraRoleForCDE"}' \
    --vpc-configuration '{"SecurityGroupIds": ["sg-1234567890abcdef0"], "SubnetIds": ["subnet-1c234","subnet-2b134"]}'
```
Output:  

```
{
    "Id": "exampledatasource1"
}
```
Untuk informasi selengkapnya, lihat [Memulai indeks Amazon Kendra dan konektor sumber data di Panduan](https://docs.aws.amazon.com/kendra/latest/dg/getting-started.html) Pengembang *Amazon Kendra*.  
+  Untuk detail API, lihat [CreateDataSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kendra/create-data-source.html)di *Referensi AWS CLI Perintah*. 

### `create-index`
<a name="kendra_CreateIndex_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-index`.

**AWS CLI**  
**Untuk membuat indeks Amazon Kendra**  
Berikut ini `create-index` membuat dan mengkonfigurasi indeks Amazon Kendra. Anda dapat menggunakan `describe-index` untuk melihat status indeks, dan membaca pesan kesalahan apa pun jika status menunjukkan indeks “GAGAL” untuk sepenuhnya dibuat.  

```
aws kendra create-index \
    --name "example index 1" \
    --description "Example index 1 contains the first set of example documents" \
    --tags '{"Key": "test resources", "Value": "kendra"}, {"Key": "test resources", "Value": "aws"}' \
    --role-arn "arn:aws:iam::my-account-id:role/KendraRoleForExampleIndex" \
    --edition "DEVELOPER_EDITION" \
    --server-side-encryption-configuration '{"KmsKeyId": "my-kms-key-id"}' \
    --user-context-policy "USER_TOKEN" \
    --user-token-configurations '{"JsonTokenTypeConfiguration": {"GroupAttributeField": "groupNameField", "UserNameAttributeField": "userNameField"}}'
```
Output:  

```
{
   "Id": index1
}
```
Untuk informasi selengkapnya, lihat [Memulai indeks Amazon Kendra dan konektor sumber data di Panduan](https://docs.aws.amazon.com/kendra/latest/dg/getting-started.html) Pengembang *Amazon Kendra*.  
+  Untuk detail API, lihat [CreateIndex](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kendra/create-index.html)di *Referensi AWS CLI Perintah*. 

### `describe-data-source`
<a name="kendra_DescribeDataSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-data-source`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang konektor sumber data Amazon Kendra**  
Berikut ini `describe-data-source` mendapatkan informasi tentang konektor sumber data Amazon Kendra. Anda dapat melihat konfigurasi konektor sumber data, dan membaca pesan kesalahan apa pun jika status menunjukkan konektor sumber data “GAGAL” untuk sepenuhnya dibuat.  

```
aws kendra describe-data-source \
    --id exampledatasource1 \
    --index-id exampleindex1
```
Output:  

```
{
    "Configuration": {
        "TemplateConfiguration": {
            "Template": {
                "connectionConfiguration": {
                    "repositoryEndpointMetadata": {
                        "BucketName": "amzn-s3-demo-bucket"
                    }
                },
                "repositoryConfigurations": {
                    "document":{
                        "fieldMappings": [
                            {
                                "indexFieldName":"_document_title",
                                "indexFieldType":"STRING",
                                "dataSourceFieldName": "title"
                            },
                            {
                                "indexFieldName":"_last_updated_at",
                                "indexFieldType":"DATE",
                                "dataSourceFieldName": "modified_date"
                            }
                        ]
                    }
                },
                "additionalProperties": {
                    "inclusionPatterns": [
                        "*.txt",
                        "*.doc",
                        "*.docx"
                    ],
                    "exclusionPatterns": [
                        "*.json"
                    ],
                    "inclusionPrefixes": [
                        "PublicExampleDocsFolder"
                    ],
                    "exclusionPrefixes": [
                        "PrivateDocsFolder/private"
                    ],
                    "aclConfigurationFilePath": "ExampleDocsFolder/AclConfig.json",
                    "metadataFilesPrefix": "metadata"
                },
                "syncMode": "FULL_CRAWL",
                "type" : "S3",
                "version": "1.0.0"
            }
        }
    },
    "CreatedAt": 2024-02-25T13:30:10+00:00,
    "CustomDocumentEnrichmentConfiguration": {
        "PostExtractionHookConfiguration": {
            "LambdaArn": "arn:aws:iam::my-account-id:function/my-function-ocr-docs",
            "S3Bucket": "s3://amzn-s3-demo-bucket/scanned-image-text-example-docs/function"
        },
        "RoleArn": "arn:aws:iam:my-account-id:role/KendraRoleForCDE"
    }
    "Description": "Example data source 1 for example index 1 contains the first set of example documents",
    "Id": exampledatasource1,
    "IndexId": exampleindex1,
    "LanguageCode": "en",
    "Name": "example data source 1",
    "RoleArn": "arn:aws:iam::my-account-id:role/KendraRoleForS3TemplateConfigDataSource",
    "Schedule": "0 0 18 ? * TUE,MON,WED,THU,FRI,SAT *",
    "Status": "ACTIVE",
    "Type": "TEMPLATE",
    "UpdatedAt": 1709163615,
    "VpcConfiguration": {
        "SecurityGroupIds": ["sg-1234567890abcdef0"],
        "SubnetIds": ["subnet-1c234","subnet-2b134"]
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai indeks Amazon Kendra dan konektor sumber data di Panduan](https://docs.aws.amazon.com/kendra/latest/dg/getting-started.html) Pengembang *Amazon Kendra*.  
+  Untuk detail API, lihat [DescribeDataSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kendra/describe-data-source.html)di *Referensi AWS CLI Perintah*. 

### `describe-index`
<a name="kendra_DescribeIndex_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-index`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang indeks Amazon Kendra**  
Berikut ini `describe-index` mendapatkan informasi tentang indeks Amazon Kendra. Anda dapat melihat konfigurasi indeks, dan membaca pesan kesalahan apa pun jika status menunjukkan indeks “GAGAL” untuk sepenuhnya dibuat.  

```
aws kendra describe-index \
    --id exampleindex1
```
Output:  

```
{
    "CapacityUnits": {
        "QueryCapacityUnits": 0,
        "StorageCapacityUnits": 0
    },
    "CreatedAt": 2024-02-25T12:30:10+00:00,
    "Description": "Example index 1 contains the first set of example documents",
    "DocumentMetadataConfigurations": [
        {
            "Name": "_document_title",
            "Relevance": {
                "Importance": 8
            },
            "Search": {
                "Displayable": true,
                "Facetable": false,
                "Searchable": true,
                "Sortable": false
            },
            "Type": "STRING_VALUE"
        },
        {
            "Name": "_document_body",
            "Relevance": {
                "Importance": 5
            },
            "Search": {
                "Displayable": true,
                "Facetable": false,
                "Searchable": true,
                "Sortable": false
            },
            "Type": "STRING_VALUE"
        },
        {
            "Name": "_last_updated_at",
            "Relevance": {
                "Importance": 6,
                "Duration": "2628000s",
                "Freshness": true
            },
            "Search": {
                "Displayable": true,
                "Facetable": false,
                "Searchable": true,
                "Sortable": true
            },
            "Type": "DATE_VALUE"
        },
        {
            "Name": "department_custom_field",
            "Relevance": {
                "Importance": 7,
                "ValueImportanceMap": {
                    "Human Resources" : 4,
                    "Marketing and Sales" : 2,
                    "Research and innvoation" : 3,
                    "Admin" : 1
                }
            },
            "Search": {
                "Displayable": true,
                "Facetable": true,
                "Searchable": true,
                "Sortable": true
            },
            "Type": "STRING_VALUE"
        }
    ],
    "Edition": "DEVELOPER_EDITION",
    "Id": "index1",
    "IndexStatistics": {
        "FaqStatistics": {
            "IndexedQuestionAnswersCount": 10
        },
        "TextDocumentStatistics": {
            "IndexedTextBytes": 1073741824,
            "IndexedTextDocumentsCount": 1200
        }
    },
    "Name": "example index 1",
    "RoleArn": "arn:aws:iam::my-account-id:role/KendraRoleForExampleIndex",
    "ServerSideEncryptionConfiguration": {
        "KmsKeyId": "my-kms-key-id"
    },
    "Status": "ACTIVE",
    "UpdatedAt": 1709163615,
    "UserContextPolicy": "USER_TOKEN",
    "UserTokenConfigurations": [
        {
            "JsonTokenTypeConfiguration": {
                "GroupAttributeField": "groupNameField",
                "UserNameAttributeField": "userNameField"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai indeks Amazon Kendra dan konektor sumber data di Panduan](https://docs.aws.amazon.com/kendra/latest/dg/getting-started.html) Pengembang *Amazon Kendra*.  
+  Untuk detail API, lihat [DescribeIndex](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kendra/describe-index.html)di *Referensi AWS CLI Perintah*. 

### `update-data-source`
<a name="kendra_UpdateDataSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-data-source`.

**AWS CLI**  
**Untuk memperbarui konektor sumber data Amazon Kendra**  
Berikut ini `update-data-source` memperbarui konfigurasi konektor sumber data Amazon Kendra. Jika tindakan berhasil, layanan mengirim kembali tidak ada output, kode status HTTP 200, atau kode pengembalian AWS CLI 0. Anda dapat menggunakan `describe-data-source` untuk melihat konfigurasi dan status konektor sumber data.  

```
aws kendra update-data-source \
    --id exampledatasource1 \
    --index-id exampleindex1 \
    --name "new name for example data source 1" \
    --description "new description for example data source 1" \
    --role-arn arn:aws:iam::my-account-id:role/KendraNewRoleForExampleDataSource \
    --configuration '{"TemplateConfiguration": {"Template": file://s3schemanewconfig.json}}' \
    --custom-document-enrichment-configuration '{"PostExtractionHookConfiguration": {"LambdaArn": "arn:aws:iam::my-account-id:function/my-function-ocr-docs", "S3Bucket": "s3://amzn-s3-demo-bucket/scanned-image-text-example-docs"}, "RoleArn": "arn:aws:iam:my-account-id:role/KendraNewRoleForCDE"}' \
    --language-code "es" \
    --schedule "0 0 18 ? * MON,WED,FRI *" \
    --vpc-configuration '{"SecurityGroupIds": ["sg-1234567890abcdef0"], "SubnetIds": ["subnet-1c234","subnet-2b134"]}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai indeks Amazon Kendra dan konektor sumber data di Panduan](https://docs.aws.amazon.com/kendra/latest/dg/getting-started.html) Pengembang *Amazon Kendra*.  
+  Untuk detail API, lihat [UpdateDataSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kendra/update-data-source.html)di *Referensi AWS CLI Perintah*. 

### `update-index`
<a name="kendra_UpdateIndex_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-index`.

**AWS CLI**  
**Untuk memperbarui indeks Amazon Kendra**  
Berikut ini `update-index` memperbarui konfigurasi indeks Amazon Kendra. Jika tindakan berhasil, layanan mengirim kembali tidak ada output, kode status HTTP 200, atau kode pengembalian AWS CLI 0. Anda dapat menggunakan `describe-index` untuk melihat konfigurasi dan status indeks.  

```
aws kendra update-index \
    --id enterpriseindex1 \
    --name "new name for Enterprise Edition index 1" \
    --description "new description for Enterprise Edition index 1" \
    --role-arn arn:aws:iam::my-account-id:role/KendraNewRoleForEnterpriseIndex \
    --capacity-units '{"QueryCapacityUnits": 2, "StorageCapacityUnits": 1}' \
    --document-metadata-configuration-updates '{"Name": "_document_title", "Relevance": {"Importance": 6}}, {"Name": "_last_updated_at", "Relevance": {"Importance": 8}}' \
    --user-context-policy "USER_TOKEN" \
    --user-token-configurations '{"JsonTokenTypeConfiguration": {"GroupAttributeField": "groupNameField", "UserNameAttributeField": "userNameField"}}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai indeks Amazon Kendra dan konektor sumber data di Panduan](https://docs.aws.amazon.com/kendra/latest/dg/getting-started.html) Pengembang *Amazon Kendra*.  
+  Untuk detail API, lihat [UpdateIndex](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kendra/update-index.html)di *Referensi AWS CLI Perintah*. 

# Contoh Kinesis menggunakan AWS CLI
<a name="cli_2_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface Kinesis with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags-to-stream`
<a name="kinesis_AddTagsToStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-stream`.

**AWS CLI**  
**Untuk menambahkan tag ke aliran data**  
`add-tags-to-stream`Contoh berikut memberikan tag dengan kunci `samplekey` dan nilai `example` untuk aliran tertentu.  

```
aws kinesis add-tags-to-stream \
    --stream-name samplestream \
    --tags samplekey=example
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Streaming Anda di Panduan Pengembang *Amazon Kinesis* Data Streams](https://docs.aws.amazon.com/streams/latest/dev/tagging.html).  
+  Untuk detail API, lihat [AddTagsToStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/add-tags-to-stream.html)di *Referensi AWS CLI Perintah*. 

### `create-stream`
<a name="kinesis_CreateStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stream`.

**AWS CLI**  
**Untuk membuat aliran data**  
`create-stream`Contoh berikut membuat aliran data bernama samplestream dengan 3 pecahan.  

```
aws kinesis create-stream \
    --stream-name samplestream \
    --shard-count 3
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Stream](https://docs.aws.amazon.com/streams/latest/dev/kinesis-using-sdk-java-create-stream.html) di Panduan *Pengembang Amazon Kinesis Data Streams*.  
+  Untuk detail API, lihat [CreateStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/create-stream.html)di *Referensi AWS CLI Perintah*. 

### `decrease-stream-retention-period`
<a name="kinesis_DecreaseStreamRetentionPeriod_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decrease-stream-retention-period`.

**AWS CLI**  
**Untuk mengurangi periode retensi aliran data**  
`decrease-stream-retention-period`Contoh berikut mengurangi periode retensi (lamanya waktu catatan data dapat diakses setelah ditambahkan ke aliran) dari aliran bernama samplestream hingga 48 jam.  

```
aws kinesis decrease-stream-retention-period \
    --stream-name samplestream \
    --retention-period-hours 48
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengubah Periode Retensi Data](https://docs.aws.amazon.com/streams/latest/dev/kinesis-extended-retention.html) di Panduan *Pengembang Amazon Kinesis Data Streams*.  
+  Untuk detail API, lihat [DecreaseStreamRetentionPeriod](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/decrease-stream-retention-period.html)di *Referensi AWS CLI Perintah*. 

### `delete-stream`
<a name="kinesis_DeleteStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stream`.

**AWS CLI**  
**Untuk menghapus aliran data**  
`delete-stream`Contoh berikut menghapus aliran data yang ditentukan.  

```
aws kinesis delete-stream \
    --stream-name samplestream
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Stream](https://docs.aws.amazon.com/streams/latest/dev/kinesis-using-sdk-java-delete-stream.html) di Panduan Pengembang *Amazon Kinesis Data* Streams.  
+  Untuk detail API, lihat [DeleteStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/delete-stream.html)di *Referensi AWS CLI Perintah*. 

### `deregister-stream-consumer`
<a name="kinesis_DeregisterStreamConsumer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-stream-consumer`.

**AWS CLI**  
**Untuk membatalkan pendaftaran konsumen aliran data**  
`deregister-stream-consumer`Contoh berikut membatalkan pendaftaran konsumen tertentu dari aliran data yang ditentukan.  

```
aws kinesis deregister-stream-consumer \
    --stream-arn arn:aws:kinesis:us-west-2:123456789012:stream/samplestream \
    --consumer-name KinesisConsumerApplication
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengembangkan Konsumen dengan Fan-Out yang Ditingkatkan Menggunakan API Aliran Data Kinesis di Panduan Pengembang Amazon Kinesis *Data Streams*](https://docs.aws.amazon.com/streams/latest/dev/building-enhanced-consumers-api.html).  
+  Untuk detail API, lihat [DeregisterStreamConsumer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/deregister-stream-consumer.html)di *Referensi AWS CLI Perintah*. 

### `describe-limits`
<a name="kinesis_DescribeLimits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-limits`.

**AWS CLI**  
**Untuk menggambarkan batas pecahan**  
`describe-limits`Contoh berikut menampilkan batas pecahan dan penggunaan untuk AWS akun saat ini.  

```
aws kinesis describe-limits
```
Output:  

```
{
    "ShardLimit": 500,
    "OpenShardCount": 29
}
```
Untuk informasi selengkapnya, lihat [Mengubah Ulang Stream](https://docs.aws.amazon.com/streams/latest/dev/kinesis-using-sdk-java-resharding.html) di Panduan Pengembang *Amazon Kinesis* Data Streams.  
+  Untuk detail API, lihat [DescribeLimits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/describe-limits.html)di *Referensi AWS CLI Perintah*. 

### `describe-stream-consumer`
<a name="kinesis_DescribeStreamConsumer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stream-consumer`.

**AWS CLI**  
**Untuk menggambarkan konsumen aliran data**  
`describe-stream-consumer`Contoh berikut mengembalikan deskripsi konsumen tertentu, terdaftar dengan aliran data yang ditentukan.  

```
aws kinesis describe-stream-consumer \
    --stream-arn arn:aws:kinesis:us-west-2:012345678912:stream/samplestream \
    --consumer-name KinesisConsumerApplication
```
Output:  

```
{
    "ConsumerDescription": {
        "ConsumerName": "KinesisConsumerApplication",
        "ConsumerARN": "arn:aws:kinesis:us-west-2:123456789012:stream/samplestream/consumer/KinesisConsumerApplication:1572383852",
        "ConsumerStatus": "ACTIVE",
        "ConsumerCreationTimestamp": 1572383852.0,
        "StreamARN": "arn:aws:kinesis:us-west-2:123456789012:stream/samplestream"
    }
}
```
Untuk informasi selengkapnya, lihat [Membaca Data dari Amazon Kinesis Data](https://docs.aws.amazon.com/streams/latest/dev/building-consumers.html) Streams *di Panduan Pengembang Amazon Kinesis Data Streams*.  
+  Untuk detail API, lihat [DescribeStreamConsumer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/describe-stream-consumer.html)di *Referensi AWS CLI Perintah*. 

### `describe-stream-summary`
<a name="kinesis_DescribeStreamSummary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stream-summary`.

**AWS CLI**  
**Untuk menggambarkan ringkasan aliran data**  
`describe-stream-summary`Contoh berikut memberikan deskripsi yang diringkas (tanpa daftar pecahan) dari aliran data yang ditentukan.  

```
aws kinesis describe-stream-summary \
    --stream-name samplestream
```
Output:  

```
{
    "StreamDescriptionSummary": {
        "StreamName": "samplestream",
        "StreamARN": "arn:aws:kinesis:us-west-2:123456789012:stream/samplestream",
        "StreamStatus": "ACTIVE",
        "RetentionPeriodHours": 48,
        "StreamCreationTimestamp": 1572297168.0,
        "EnhancedMonitoring": [
            {
                "ShardLevelMetrics": []
            }
        ],
        "EncryptionType": "NONE",
        "OpenShardCount": 3,
        "ConsumerCount": 0
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Streaming di Panduan Pengembang *Amazon Kinesis Data* Streams](https://docs.aws.amazon.com/streams/latest/dev/working-with-streams.html).  
+  Untuk detail API, lihat [DescribeStreamSummary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/describe-stream-summary.html)di *Referensi AWS CLI Perintah*. 

### `describe-stream`
<a name="kinesis_DescribeStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stream`.

**AWS CLI**  
**Untuk menggambarkan aliran data**  
`describe-stream`Contoh berikut mengembalikan rincian aliran data yang ditentukan.  

```
aws kinesis describe-stream \
    --stream-name samplestream
```
Output:  

```
{
    "StreamDescription": {
        "Shards": [
            {
                "ShardId": "shardId-000000000000",
                "HashKeyRange": {
                    "StartingHashKey": "0",
                    "EndingHashKey": "113427455640312821154458202477256070484"
                },
                "SequenceNumberRange": {
                    "StartingSequenceNumber": "49600871682957036442365024926191073437251060580128653314"
                }
            },
            {
                "ShardId": "shardId-000000000001",
                "HashKeyRange": {
                    "StartingHashKey": "113427455640312821154458202477256070485",
                    "EndingHashKey": "226854911280625642308916404954512140969"
                },
                "SequenceNumberRange": {
                    "StartingSequenceNumber": "49600871682979337187563555549332609155523708941634633746"
                }
            },
            {
                "ShardId": "shardId-000000000002",
                "HashKeyRange": {
                    "StartingHashKey": "226854911280625642308916404954512140970",
                    "EndingHashKey": "340282366920938463463374607431768211455"
                },
                "SequenceNumberRange": {
                    "StartingSequenceNumber": "49600871683001637932762086172474144873796357303140614178"
                }
            }
        ],
        "StreamARN": "arn:aws:kinesis:us-west-2:123456789012:stream/samplestream",
        "StreamName": "samplestream",
        "StreamStatus": "ACTIVE",
        "RetentionPeriodHours": 24,
        "EnhancedMonitoring": [
            {
                "ShardLevelMetrics": []
            }
        ],
        "EncryptionType": "NONE",
        "KeyId": null,
        "StreamCreationTimestamp": 1572297168.0
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Streaming di Panduan Pengembang *Amazon Kinesis Data* Streams](https://docs.aws.amazon.com/streams/latest/dev/working-with-streams.html).  
+  Untuk detail API, lihat [DescribeStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/describe-stream.html)di *Referensi AWS CLI Perintah*. 

### `disable-enhanced-monitoring`
<a name="kinesis_DisableEnhancedMonitoring_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-enhanced-monitoring`.

**AWS CLI**  
**Untuk menonaktifkan pemantauan yang disempurnakan untuk metrik tingkat shard**  
`disable-enhanced-monitoring`Contoh berikut menonaktifkan pemantauan aliran data Kinesis yang disempurnakan untuk metrik tingkat shard.  

```
aws kinesis disable-enhanced-monitoring \
    --stream-name samplestream --shard-level-metrics ALL
```
Output:  

```
{
    "StreamName": "samplestream",
    "CurrentShardLevelMetrics": [
        "IncomingBytes",
        "OutgoingRecords",
        "IteratorAgeMilliseconds",
        "IncomingRecords",
        "ReadProvisionedThroughputExceeded",
        "WriteProvisionedThroughputExceeded",
        "OutgoingBytes"
    ],
    "DesiredShardLevelMetrics": []
}
```
Untuk informasi [selengkapnya, lihat Memantau Aliran di Amazon Kinesis Data](https://docs.aws.amazon.com/streams/latest/dev/monitoring.html) Streams di Panduan Pengembang Amazon Kinesis *Data Streams*.  
+  Untuk detail API, lihat [DisableEnhancedMonitoring](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/disable-enhanced-monitoring.html)di *Referensi AWS CLI Perintah*. 

### `enable-enhanced-monitoring`
<a name="kinesis_EnableEnhancedMonitoring_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-enhanced-monitoring`.

**AWS CLI**  
**Untuk mengaktifkan pemantauan yang disempurnakan untuk metrik tingkat shard**  
`enable-enhanced-monitoring`Contoh berikut memungkinkan pemantauan aliran data Kinesis yang disempurnakan untuk metrik tingkat shard.  

```
aws kinesis enable-enhanced-monitoring \
    --stream-name samplestream \
    --shard-level-metrics ALL
```
Output:  

```
{
    "StreamName": "samplestream",
    "CurrentShardLevelMetrics": [],
    "DesiredShardLevelMetrics": [
        "IncomingBytes",
        "OutgoingRecords",
        "IteratorAgeMilliseconds",
        "IncomingRecords",
        "ReadProvisionedThroughputExceeded",
        "WriteProvisionedThroughputExceeded",
        "OutgoingBytes"
    ]
}
```
Untuk informasi [selengkapnya, lihat Memantau Aliran di Amazon Kinesis Data](https://docs.aws.amazon.com/streams/latest/dev/monitoring.html) Streams di Panduan Pengembang Amazon Kinesis *Data Streams*.  
+  Untuk detail API, lihat [EnableEnhancedMonitoring](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/enable-enhanced-monitoring.html)di *Referensi AWS CLI Perintah*. 

### `get-records`
<a name="kinesis_GetRecords_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-records`.

**AWS CLI**  
**Untuk mendapatkan catatan dari pecahan**  
`get-records`Contoh berikut mendapatkan catatan data dari pecahan Kinesis aliran data menggunakan iterator shard tertentu.  

```
aws kinesis get-records \
    --shard-iterator AAAAAAAAAAF7/0mWD7IuHj1yGv/TKuNgx2ukD5xipCY4cy4gU96orWwZwcSXh3K9tAmGYeOZyLZrvzzeOFVf9iN99hUPw/w/b0YWYeehfNvnf1DYt5XpDJghLKr3DzgznkTmMymDP3R+3wRKeuEw6/kdxY2yKJH0veaiekaVc4N2VwK/GvaGP2Hh9Fg7N++q0Adg6fIDQPt4p8RpavDbk+A4sL9SWGE1
```
Output:  

```
{
    "Records": [],
    "MillisBehindLatest": 80742000
}
```
Untuk informasi selengkapnya, lihat [Mengembangkan Konsumen Menggunakan API Kinesis Data Streams AWS dengan SDK for Java](https://docs.aws.amazon.com/streams/latest/dev/developing-consumers-with-sdk.html) di Panduan Pengembang Amazon *Kinesis Data Streams*.  
+  Untuk detail API, lihat [GetRecords](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/get-records.html)di *Referensi AWS CLI Perintah*. 

### `get-shard-iterator`
<a name="kinesis_GetShardIterator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-shard-iterator`.

**AWS CLI**  
**Untuk mendapatkan iterator shard**  
`get-shard-iterator`Contoh berikut menggunakan tipe iterator `AT_SEQUENCE_NUMBER` shard dan menghasilkan iterator shard untuk mulai membaca catatan data persis dari posisi yang dilambangkan dengan nomor urut yang ditentukan.  

```
aws kinesis get-shard-iterator \
    --stream-name samplestream \
    --shard-id shardId-000000000001 \
    --shard-iterator-type LATEST
```
Output:  

```
{
    "ShardIterator": "AAAAAAAAAAFEvJjIYI+3jw/4aqgH9FifJ+n48XWTh/IFIsbILP6o5eDueD39NXNBfpZ10WL5K6ADXk8w+5H+Qhd9cFA9k268CPXCz/kebq1TGYI7Vy+lUkA9BuN3xvATxMBGxRY3zYK05gqgvaIRn94O8SqeEqwhigwZxNWxID3Ej7YYYcxQi8Q/fIrCjGAy/n2r5Z9G864YpWDfN9upNNQAR/iiOWKs"
}
```
Untuk informasi selengkapnya, lihat [Mengembangkan Konsumen Menggunakan API Kinesis Data Streams AWS dengan SDK for Java](https://docs.aws.amazon.com/streams/latest/dev/developing-consumers-with-sdk.html) di Panduan Pengembang Amazon *Kinesis Data Streams*.  
+  Untuk detail API, lihat [GetShardIterator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/get-shard-iterator.html)di *Referensi AWS CLI Perintah*. 

### `increase-stream-retention-period`
<a name="kinesis_IncreaseStreamRetentionPeriod_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`increase-stream-retention-period`.

**AWS CLI**  
**Untuk meningkatkan periode retensi aliran data**  
`increase-stream-retention-period`Contoh berikut meningkatkan periode retensi (lamanya waktu catatan data dapat diakses setelah ditambahkan ke aliran) dari aliran yang ditentukan menjadi 168 jam.  

```
aws kinesis increase-stream-retention-period \
    --stream-name samplestream \
    --retention-period-hours 168
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengubah Periode Retensi Data](https://docs.aws.amazon.com/streams/latest/dev/kinesis-extended-retention.html) di Panduan *Pengembang Amazon Kinesis Data Streams*.  
+  Untuk detail API, lihat [IncreaseStreamRetentionPeriod](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/increase-stream-retention-period.html)di *Referensi AWS CLI Perintah*. 

### `list-shards`
<a name="kinesis_ListShards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-shards`.

**AWS CLI**  
**Untuk membuat daftar pecahan dalam aliran data**  
`list-shards`Contoh berikut mencantumkan semua pecahan dalam aliran yang ditentukan dimulai dengan pecahan yang IDnya segera mengikuti yang ditentukan `exclusive-start-shard-id` dari. `shardId-000000000000`  

```
aws kinesis list-shards \
    --stream-name samplestream \
    --exclusive-start-shard-id shardId-000000000000
```
Output:  

```
{
    "Shards": [
        {
            "ShardId": "shardId-000000000001",
            "HashKeyRange": {
                "StartingHashKey": "113427455640312821154458202477256070485",
                "EndingHashKey": "226854911280625642308916404954512140969"
            },
            "SequenceNumberRange": {
                "StartingSequenceNumber": "49600871682979337187563555549332609155523708941634633746"
            }
        },
        {
            "ShardId": "shardId-000000000002",
            "HashKeyRange": {
                "StartingHashKey": "226854911280625642308916404954512140970",
                "EndingHashKey": "340282366920938463463374607431768211455"
            },
            "SequenceNumberRange": {
                "StartingSequenceNumber": "49600871683001637932762086172474144873796357303140614178"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Pecahan](https://docs.aws.amazon.com/streams/latest/dev/kinesis-using-sdk-java-list-shards.html) di Panduan Pengembang *Amazon Kinesis Data Streams*.  
+  Untuk detail API, lihat [ListShards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/list-shards.html)di *Referensi AWS CLI Perintah*. 

### `list-streams`
<a name="kinesis_ListStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-streams`.

**AWS CLI**  
**Untuk membuat daftar aliran data**  
`list-streams`Contoh berikut mencantumkan semua aliran data aktif di akun dan wilayah saat ini.  

```
aws kinesis list-streams
```
Output:  

```
{
    "StreamNames": [
        "samplestream",
        "samplestream1"
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Aliran](https://docs.aws.amazon.com/streams/latest/dev/kinesis-using-sdk-java-list-streams.html) di Panduan Pengembang *Amazon Kinesis Data* Streams.  
+  Untuk detail API, lihat [ListStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/list-streams.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-stream`
<a name="kinesis_ListTagsForStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-stream`.

**AWS CLI**  
**Untuk mencantumkan tag untuk aliran data**  
`list-tags-for-stream`Contoh berikut mencantumkan tag yang dilampirkan ke aliran data yang ditentukan.  

```
aws kinesis list-tags-for-stream \
    --stream-name samplestream
```
Output:  

```
{
    "Tags": [
        {
            "Key": "samplekey",
            "Value": "example"
        }
    ],
    "HasMoreTags": false
}
```
Untuk informasi selengkapnya, lihat [Menandai Streaming Anda di Panduan Pengembang *Amazon Kinesis* Data Streams](https://docs.aws.amazon.com/streams/latest/dev/tagging.html).  
+  Untuk detail API, lihat [ListTagsForStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/list-tags-for-stream.html)di *Referensi AWS CLI Perintah*. 

### `merge-shards`
<a name="kinesis_MergeShards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`merge-shards`.

**AWS CLI**  
**Untuk menggabungkan pecahan**  
`merge-shards`Contoh berikut menggabungkan dua pecahan yang berdekatan dengan Shardid-000000000000 IDs dan ShardID-0000000001 dalam aliran data yang ditentukan dan menggabungkannya menjadi pecahan tunggal.  

```
aws kinesis merge-shards \
    --stream-name samplestream \
    --shard-to-merge shardId-000000000000 \
    --adjacent-shard-to-merge shardId-000000000001
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggabungkan Dua Pecahan](https://docs.aws.amazon.com/streams/latest/dev/kinesis-using-sdk-java-resharding-merge.html) di Panduan Pengembang *Amazon Kinesis* Data Streams.  
+  Untuk detail API, lihat [MergeShards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/merge-shards.html)di *Referensi AWS CLI Perintah*. 

### `put-record`
<a name="kinesis_PutRecord_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-record`.

**AWS CLI**  
**Untuk menulis catatan ke dalam aliran data**  
`put-record`Contoh berikut menulis catatan data tunggal ke dalam aliran data yang ditentukan menggunakan kunci partisi yang ditentukan.  

```
aws kinesis put-record \
    --stream-name samplestream \
    --data sampledatarecord \
    --partition-key samplepartitionkey
```
Output:  

```
{
    "ShardId": "shardId-000000000009",
    "SequenceNumber": "49600902273357540915989931256901506243878407835297513618",
    "EncryptionType": "KMS"
}
```
Untuk informasi selengkapnya, lihat [Mengembangkan Produsen Menggunakan API Amazon Kinesis Data Streams AWS dengan SDK for Java](https://docs.aws.amazon.com/streams/latest/dev/developing-producers-with-sdk.html) di Panduan Pengembang Amazon *Kinesis Data Streams*.  
+  Untuk detail API, lihat [PutRecord](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/put-record.html)di *Referensi AWS CLI Perintah*. 

### `put-records`
<a name="kinesis_PutRecords_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-records`.

**AWS CLI**  
**Untuk menulis beberapa catatan ke dalam aliran data**  
`put-records`Contoh berikut menulis catatan data menggunakan kunci partisi yang ditentukan dan catatan data lain menggunakan kunci partisi yang berbeda dalam satu panggilan.  

```
aws kinesis put-records \
    --stream-name samplestream \
    --records Data=blob1,PartitionKey=partitionkey1 Data=blob2,PartitionKey=partitionkey2
```
Output:  

```
{
    "FailedRecordCount": 0,
    "Records": [
        {
            "SequenceNumber": "49600883331171471519674795588238531498465399900093808706",
            "ShardId": "shardId-000000000004"
        },
        {
            "SequenceNumber": "49600902273357540915989931256902715169698037101720764562",
            "ShardId": "shardId-000000000009"
        }
    ],
    "EncryptionType": "KMS"
}
```
Untuk informasi selengkapnya, lihat [Mengembangkan Produsen Menggunakan API Amazon Kinesis Data Streams AWS dengan SDK for Java](https://docs.aws.amazon.com/streams/latest/dev/developing-producers-with-sdk.html) di Panduan Pengembang Amazon *Kinesis Data Streams*.  
+  Untuk detail API, lihat [PutRecords](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/put-records.html)di *Referensi AWS CLI Perintah*. 

### `register-stream-consumer`
<a name="kinesis_RegisterStreamConsumer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-stream-consumer`.

**AWS CLI**  
**Untuk mendaftarkan konsumen aliran data**  
`register-stream-consumer`Contoh berikut mendaftarkan konsumen yang dipanggil `KinesisConsumerApplication` dengan aliran data yang ditentukan.  

```
aws kinesis register-stream-consumer \
    --stream-arn arn:aws:kinesis:us-west-2:012345678912:stream/samplestream \
    --consumer-name KinesisConsumerApplication
```
Output:  

```
{
    "Consumer": {
        "ConsumerName": "KinesisConsumerApplication",
        "ConsumerARN": "arn:aws:kinesis:us-west-2: 123456789012:stream/samplestream/consumer/KinesisConsumerApplication:1572383852",
        "ConsumerStatus": "CREATING",
        "ConsumerCreationTimestamp": 1572383852.0
    }
}
```
Untuk informasi selengkapnya, lihat [Mengembangkan Konsumen dengan Fan-Out yang Ditingkatkan Menggunakan API Aliran Data Kinesis di Panduan Pengembang Amazon Kinesis *Data Streams*](https://docs.aws.amazon.com/streams/latest/dev/building-enhanced-consumers-api.html).  
+  Untuk detail API, lihat [RegisterStreamConsumer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/register-stream-consumer.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags-from-stream`
<a name="kinesis_RemoveTagsFromStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags-from-stream`.

**AWS CLI**  
**Untuk menghapus tag dari aliran data**  
`remove-tags-from-stream`Contoh berikut menghapus tag dengan kunci yang ditentukan dari aliran data yang ditentukan.  

```
aws kinesis remove-tags-from-stream \
    --stream-name samplestream \
    --tag-keys samplekey
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Streaming Anda di Panduan Pengembang *Amazon Kinesis* Data Streams](https://docs.aws.amazon.com/streams/latest/dev/tagging.html).  
+  Untuk detail API, lihat [RemoveTagsFromStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/remove-tags-from-stream.html)di *Referensi AWS CLI Perintah*. 

### `split-shard`
<a name="kinesis_SplitShard_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`split-shard`.

**AWS CLI**  
**Untuk membagi pecahan**  
`split-shard`Contoh berikut membagi pecahan yang ditentukan menjadi dua pecahan baru menggunakan kunci hash awal baru 10.  

```
aws kinesis split-shard \
    --stream-name samplestream \
    --shard-to-split shardId-000000000000 \
    --new-starting-hash-key 10
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memisahkan Shard di Panduan](https://docs.aws.amazon.com/streams/latest/dev/kinesis-using-sdk-java-resharding-split.html) Pengembang *Amazon Kinesis* Data Streams.  
+  Untuk detail API, lihat [SplitShard](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/split-shard.html)di *Referensi AWS CLI Perintah*. 

### `start-stream-encryption`
<a name="kinesis_StartStreamEncryption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-stream-encryption`.

**AWS CLI**  
**Untuk mengaktifkan enkripsi aliran data**  
`start-stream-encryption`Contoh berikut memungkinkan enkripsi sisi server untuk aliran tertentu, menggunakan kunci KMS yang ditentukan AWS .  

```
aws kinesis start-stream-encryption \
    --encryption-type KMS \
    --key-id arn:aws:kms:us-west-2:012345678912:key/a3c4a7cd-728b-45dd-b334-4d3eb496e452 \
    --stream-name samplestream
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Perlindungan Data di Amazon Kinesis Data](https://docs.aws.amazon.com/streams/latest/dev/server-side-encryption.html) Streams *di Panduan Pengembang Amazon Kinesis Data Streams*.  
+  Untuk detail API, lihat [StartStreamEncryption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/start-stream-encryption.html)di *Referensi AWS CLI Perintah*. 

### `stop-stream-encryption`
<a name="kinesis_StopStreamEncryption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-stream-encryption`.

**AWS CLI**  
**Untuk menonaktifkan enkripsi aliran data**  
`stop-stream-encryption`Contoh berikut menonaktifkan enkripsi sisi server untuk aliran tertentu, menggunakan kunci KMS yang ditentukan. AWS   

```
aws kinesis start-stream-encryption \
    --encryption-type KMS \
    --key-id arn:aws:kms:us-west-2:012345678912:key/a3c4a7cd-728b-45dd-b334-4d3eb496e452 \
    --stream-name samplestream
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Perlindungan Data di Amazon Kinesis Data](https://docs.aws.amazon.com/streams/latest/dev/server-side-encryption.html) Streams *di Panduan Pengembang Amazon Kinesis Data Streams*.  
+  Untuk detail API, lihat [StopStreamEncryption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/stop-stream-encryption.html)di *Referensi AWS CLI Perintah*. 

### `update-shard-count`
<a name="kinesis_UpdateShardCount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-shard-count`.

**AWS CLI**  
**Untuk memperbarui jumlah pecahan dalam aliran data**  
`update-shard-count`Contoh berikut memperbarui jumlah pecahan dari aliran data yang ditentukan ke 6. Contoh ini menggunakan penskalaan seragam, yang menciptakan pecahan dengan ukuran yang sama.  

```
aws kinesis update-shard-count \
    --stream-name samplestream \
    --scaling-type UNIFORM_SCALING \
    --target-shard-count 6
```
Output:  

```
{
    "StreamName": "samplestream",
    "CurrentShardCount": 3,
    "TargetShardCount": 6
}
```
Untuk informasi selengkapnya, lihat [Mengubah Ulang Stream](https://docs.aws.amazon.com/streams/latest/dev/kinesis-using-sdk-java-resharding.html) di Panduan Pengembang *Amazon Kinesis* Data Streams.  
+  Untuk detail API, lihat [UpdateShardCount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kinesis/update-shard-count.html)di *Referensi AWS CLI Perintah*. 

# AWS KMS contoh menggunakan AWS CLI
<a name="cli_2_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS KMS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `cancel-key-deletion`
<a name="kms_CancelKeyDeletion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-key-deletion`.

**AWS CLI**  
**Untuk membatalkan penghapusan terjadwal kunci KMS yang dikelola pelanggan**  
`cancel-key-deletion`Contoh berikut membatalkan penghapusan terjadwal kunci KMS yang dikelola pelanggan.  

```
aws kms cancel-key-deletion \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "KeyId": "arn:aws:kms:us-west-2:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab"
}
```
Ketika `cancel-key-deletion` perintah berhasil, penghapusan terjadwal dibatalkan. Namun, status kunci dari kunci KMS adalah`Disabled`, jadi Anda tidak dapat menggunakan kunci KMS dalam operasi kriptografi. Untuk mengembalikan fungsinya, gunakan `enable-key` perintah.  
Untuk informasi selengkapnya, lihat [Penjadwalan dan pembatalan penghapusan kunci di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/deleting-keys.html#deleting-keys-scheduling-key-deletion) Layanan *Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [CancelKeyDeletion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/cancel-key-deletion.html)di *Referensi AWS CLI Perintah*. 

### `connect-custom-key-store`
<a name="kms_ConnectCustomKeyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`connect-custom-key-store`.

**AWS CLI**  
**Untuk menghubungkan toko kunci kustom**  
`connect-custom-key-store`Contoh berikut menghubungkan kembali toko kunci kustom yang ditentukan. Anda dapat menggunakan perintah seperti ini untuk menghubungkan toko kunci khusus untuk pertama kalinya atau untuk menghubungkan kembali toko kunci yang terputus.  
Anda dapat menggunakan perintah ini untuk menghubungkan toko kunci AWS CloudHSM atau toko kunci eksternal.  

```
aws kms connect-custom-key-store \
    --custom-key-store-id cks-1234567890abcdef0
```
Perintah ini tidak memberikan output apa pun. Untuk memverifikasi bahwa perintah itu efektif, gunakan `describe-custom-key-stores` perintah.  
*Untuk informasi tentang menghubungkan penyimpanan kunci AWS CloudHSM, [lihat Menyambungkan dan memutuskan penyimpanan kunci AWS CloudHSM di Panduan Pengembang Layanan Manajemen Kunci](https://docs.aws.amazon.com/kms/latest/developerguide/disconnect-keystore.html).AWS *  
Untuk informasi tentang menghubungkan penyimpanan kunci eksternal, lihat [Menghubungkan dan memutuskan penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/xks-connect-disconnect.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [ConnectCustomKeyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/connect-custom-key-store.html)di *Referensi AWS CLI Perintah*. 

### `create-alias`
<a name="kms_CreateAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-alias`.

**AWS CLI**  
**Untuk membuat alias untuk kunci KMS**  
`create-alias`Perintah berikut membuat alias bernama `example-alias` untuk kunci KMS diidentifikasi oleh ID kunci. `1234abcd-12ab-34cd-56ef-1234567890ab`  
Nama alias harus dimulai dengan`alias/`. Jangan gunakan nama alias yang dimulai dengan`alias/aws`; ini dicadangkan untuk digunakan oleh AWS.  

```
aws kms create-alias \
    --alias-name alias/example-alias \
    --target-key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Perintah ini tidak mengembalikan output apa pun. Untuk melihat alias baru, gunakan `list-aliases` perintah.  
Untuk informasi selengkapnya, lihat [Menggunakan alias](https://docs.aws.amazon.com/kms/latest/developerguide/kms-alias.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [CreateAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/create-alias.html)di *Referensi AWS CLI Perintah*. 

### `create-custom-key-store`
<a name="kms_CreateCustomKeyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-custom-key-store`.

**AWS CLI**  
**Contoh 1: Untuk membuat toko kunci AWS CloudHSM**  
`create-custom-key-store`Contoh berikut membuat penyimpanan kunci AWS CloudHSM yang didukung oleh klaster AWS CloudHSM menggunakan parameter yang diperlukan. Anda juga dapat menambahkan`custom-key-store-type``parameter with the default value: ``AWS_CLOUDHSM`.  
Untuk menentukan input file untuk `trust-anchor-certificate` perintah di AWS CLI, `file://` awalan diperlukan.  

```
aws kms create-custom-key-store \
    --custom-key-store-name ExampleCloudHSMKeyStore \
    --cloud-hsm-cluster-id cluster-1a23b4cdefg \
    --key-store-password kmsPswd \
    --trust-anchor-certificate file://customerCA.crt
```
Output:  

```
{
    "CustomKeyStoreId": cks-1234567890abcdef0
}
```
Untuk informasi selengkapnya, lihat [Membuat penyimpanan kunci AWS CloudHSM](https://docs.aws.amazon.com/kms/latest/developerguide/create-keystore.html) di Panduan *AWS Pengembang Layanan Manajemen Kunci*.  
**Contoh 2: Untuk membuat penyimpanan kunci eksternal dengan konektivitas titik akhir publik**  
`create-custom-key-store`Contoh berikut membuat penyimpanan kunci eksternal (XKS) yang berkomunikasi dengan AWS KMS melalui internet.  
Dalam contoh ini, `XksProxyUriPath` menggunakan awalan opsional dari. `example-prefix`  
CATATAN: Jika Anda menggunakan AWS CLI versi 1.0, jalankan perintah berikut sebelum menentukan parameter dengan nilai HTTP atau HTTPS, seperti parameter. XksProxyUriEndpoint   

```
aws configure set cli_follow_urlparam false
```
Jika tidak, AWS CLI versi 1.0 menggantikan nilai parameter dengan konten yang ditemukan di alamat URI tersebut.  

```
aws kms create-custom-key-store \
    --custom-key-store-name ExamplePublicEndpointXKS \
    --custom-key-store-type EXTERNAL_KEY_STORE \
    --xks-proxy-connectivity PUBLIC_ENDPOINT \
    --xks-proxy-uri-endpoint "https://myproxy.xks.example.com" \
    --xks-proxy-uri-path "/example-prefix/kms/xks/v1" \
    --xks-proxy-authentication-credential "AccessKeyId=ABCDE12345670EXAMPLE, RawSecretAccessKey=DXjSUawnel2fr6SKC7G25CNxTyWKE5PF9XX6H/u9pSo="
```
Output:  

```
{
    "CustomKeyStoreId": cks-2234567890abcdef0
}
```
Untuk informasi selengkapnya, lihat [Membuat penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/create-keystorecreate-xks-keystore.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 3: Untuk membuat penyimpanan kunci eksternal dengan konektivitas layanan titik akhir VPC**  
`create-custom-key-store`Contoh berikut membuat penyimpanan kunci eksternal (XKS) yang menggunakan layanan endpoint Amazon VPC untuk berkomunikasi dengan KMS. AWS   
CATATAN: Jika Anda menggunakan AWS CLI versi 1.0, jalankan perintah berikut sebelum menentukan parameter dengan nilai HTTP atau HTTPS, seperti parameter. XksProxyUriEndpoint   

```
aws configure set cli_follow_urlparam false
```
Jika tidak, AWS CLI versi 1.0 menggantikan nilai parameter dengan konten yang ditemukan di alamat URI tersebut.  

```
aws kms create-custom-key-store \
    --custom-key-store-name ExampleVPCEndpointXKS \
    --custom-key-store-type EXTERNAL_KEY_STORE \
    --xks-proxy-connectivity VPC_ENDPOINT_SERVICE \
    --xks-proxy-uri-endpoint "https://myproxy-private.xks.example.com" \
    --xks-proxy-uri-path "/kms/xks/v1" \
    --xks-proxy-vpc-endpoint-service-name "com.amazonaws.vpce.us-east-1.vpce-svc-example1" \
    --xks-proxy-authentication-credential "AccessKeyId=ABCDE12345670EXAMPLE, RawSecretAccessKey=DXjSUawnel2fr6SKC7G25CNxTyWKE5PF9XX6H/u9pSo="
```
Output:  

```
{
    "CustomKeyStoreId": cks-3234567890abcdef0
}
```
Untuk informasi selengkapnya, lihat [Membuat penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/create-keystorecreate-xks-keystore.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [CreateCustomKeyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/create-custom-key-store.html)di *Referensi AWS CLI Perintah*. 

### `create-grant`
<a name="kms_CreateGrant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-grant`.

**AWS CLI**  
**Untuk membuat hibah**  
`create-grant`Contoh berikut membuat hibah yang memungkinkan `exampleUser` pengguna untuk menggunakan `decrypt` perintah pada kunci KMS `1234abcd-12ab-34cd-56ef-1234567890ab` contoh. Kepala sekolah yang pensiun adalah `adminRole` perannya. Hibah menggunakan batasan `EncryptionContextSubset` hibah untuk mengizinkan izin ini hanya jika konteks enkripsi dalam `decrypt` permintaan menyertakan pasangan nilai `"Department": "IT"` kunci.  

```
aws kms create-grant \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --grantee-principal arn:aws:iam::123456789012:user/exampleUser \
    --operations Decrypt \
    --constraints EncryptionContextSubset={Department=IT} \
    --retiring-principal arn:aws:iam::123456789012:role/adminRole
```
Output:  

```
{
    "GrantId": "1a2b3c4d2f5e69f440bae30eaec9570bb1fb7358824f9ddfa1aa5a0dab1a59b2",
    "GrantToken": "<grant token here>"
}
```
Untuk melihat informasi terperinci tentang hibah, gunakan `list-grants` perintah.  
Untuk informasi selengkapnya, lihat [Hibah di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/grants.html) di Panduan *Pengembang Layanan Manajemen AWS Utama*.  
+  Untuk detail API, lihat [CreateGrant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/create-grant.html)di *Referensi AWS CLI Perintah*. 

### `create-key`
<a name="kms_CreateKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-key`.

**AWS CLI**  
**Contoh 1: Untuk membuat kunci KMS yang dikelola pelanggan di AWS KMS**  
`create-key`Contoh berikut membuat kunci KMS enkripsi simetris.  
Untuk membuat kunci KMS dasar, kunci enkripsi simetris, Anda tidak perlu menentukan parameter apa pun. Nilai default untuk parameter tersebut membuat kunci enkripsi simetris.  
Karena perintah ini tidak menentukan kebijakan kunci, kunci KMS mendapatkan [kebijakan kunci default untuk kunci](https://docs.aws.amazon.com/kms/latest/developerguide/key-policies.html#key-policy-default) KMS yang dibuat secara terprogram. Untuk melihat kebijakan kunci, gunakan `get-key-policy` perintah. Untuk mengubah kebijakan kunci, gunakan `put-key-policy` perintah.  

```
aws kms create-key
```
`create-key`Perintah mengembalikan metadata kunci, termasuk ID kunci dan ARN dari kunci KMS baru. Anda dapat menggunakan nilai-nilai ini untuk mengidentifikasi kunci KMS dalam operasi AWS KMS lainnya. Output tidak termasuk tag. Untuk melihat tag untuk kunci KMS, gunakan tombol. `list-resource-tags command`  
Output:  

```
{
    "KeyMetadata": {
        "AWSAccountId": "111122223333",
        "Arn": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "CreationDate": "2017-07-05T14:04:55-07:00",
        "CurrentKeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6",
        "CustomerMasterKeySpec": "SYMMETRIC_DEFAULT",
        "Description": "",
        "Enabled": true,
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "KeyManager": "CUSTOMER",
        "KeySpec": "SYMMETRIC_DEFAULT",
        "KeyState": "Enabled",
        "KeyUsage": "ENCRYPT_DECRYPT",
        "MultiRegion": false,
        "Origin": "AWS_KMS"
        "EncryptionAlgorithms": [
            "SYMMETRIC_DEFAULT"
        ]
    }
}
```
Catatan: `create-key` Perintah tidak memungkinkan Anda menentukan alias, Untuk membuat alias untuk kunci KMS baru, gunakan perintah. `create-alias`  
Untuk informasi selengkapnya, lihat [Membuat AWS kunci](https://docs.aws.amazon.com/kms/latest/developerguide/create-keys.html) *di Panduan Pengembang Layanan Manajemen Kunci*.  
**Contoh 2: Untuk membuat kunci KMS RSA asimetris untuk enkripsi dan dekripsi**  
`create-key`Contoh berikut membuat kunci KMS yang berisi asimetris RSA key pair untuk enkripsi dan dekripsi. Spesifikasi kunci dan penggunaan kunci tidak dapat diubah setelah kunci dibuat. :  

```
aws kms create-key \
   --key-spec RSA_4096 \
   --key-usage ENCRYPT_DECRYPT
```
Output:  

```
{
    "KeyMetadata": {
        "Arn": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "AWSAccountId": "111122223333",
        "CreationDate": "2021-04-05T14:04:55-07:00",
        "CustomerMasterKeySpec": "RSA_4096",
        "Description": "",
        "Enabled": true,
        "EncryptionAlgorithms": [
            "RSAES_OAEP_SHA_1",
            "RSAES_OAEP_SHA_256"
        ],
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "KeyManager": "CUSTOMER",
        "KeySpec": "RSA_4096",
        "KeyState": "Enabled",
        "KeyUsage": "ENCRYPT_DECRYPT",
        "MultiRegion": false,
        "Origin": "AWS_KMS"
    }
}
```
Untuk informasi selengkapnya, lihat [Kunci asimetris di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 3: Untuk membuat kunci KMS kurva elips asimetris untuk penandatanganan dan verifikasi**  
Untuk membuat kunci KMS asimetris yang berisi key pair asymmetric elliptic curve (ECC) untuk penandatanganan dan verifikasi. `--key-usage`Parameter diperlukan meskipun `SIGN_VERIFY` merupakan satu-satunya nilai yang valid untuk kunci ECC KMS. Spesifikasi kunci dan penggunaan kunci tidak dapat diubah setelah kunci dibuat. :  

```
aws kms create-key \
    --key-spec ECC_NIST_P521 \
    --key-usage SIGN_VERIFY
```
Output:  

```
{
    "KeyMetadata": {
        "Arn": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "AWSAccountId": "111122223333",
        "CreationDate": "2019-12-02T07:48:55-07:00",
        "CustomerMasterKeySpec": "ECC_NIST_P521",
        "Description": "",
        "Enabled": true,
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "KeyManager": "CUSTOMER",
        "KeySpec": "ECC_NIST_P521",
        "KeyState": "Enabled",
        "KeyUsage": "SIGN_VERIFY",
        "MultiRegion": false,
        "Origin": "AWS_KMS",
        "SigningAlgorithms": [
            "ECDSA_SHA_512"
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Kunci asimetris di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 4: Untuk membuat kunci KMS ML-DSA asimetris untuk penandatanganan dan verifikasi**  
Contoh ini membuat kunci modul-kisi digital signature algorithm (ML-DSA) untuk penandatanganan dan verifikasi. Parameter penggunaan kunci diperlukan meskipun `SIGN_VERIFY` merupakan satu-satunya nilai yang valid untuk kunci ML-DSA.  

```
aws kms create-key \
    --key-spec ML_DSA_65 \
    --key-usage SIGN_VERIFY
```
Output:  

```
{
    "KeyMetadata": {
        "Arn": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "AWSAccountId": "111122223333",
        "CreationDate": "2019-12-02T07:48:55-07:00",
        "Description": "",
        "Enabled": true,
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "KeyManager": "CUSTOMER",
        "KeySpec": "ML_DSA_65",
        "KeyState": "Enabled",
        "KeyUsage": "SIGN_VERIFY",
        "MultiRegion": false,
        "Origin": "AWS_KMS",
        "SigningAlgorithms": [
            "ML_DSA_SHAKE_256"
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Kunci asimetris di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 5: Untuk membuat kunci HMAC KMS**  
`create-key`Contoh berikut membuat kunci KMS HMAC 384-bit. `GENERATE_VERIFY_MAC`Nilai untuk `--key-usage` parameter diperlukan meskipun itu satu-satunya nilai yang valid untuk kunci HMAC KMS.  

```
aws kms create-key \
    --key-spec HMAC_384 \
    --key-usage GENERATE_VERIFY_MAC
```
Output:  

```
{
    "KeyMetadata": {
        "Arn": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "AWSAccountId": "111122223333",
        "CreationDate": "2022-04-05T14:04:55-07:00",
        "CustomerMasterKeySpec": "HMAC_384",
        "Description": "",
        "Enabled": true,
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "KeyManager": "CUSTOMER",
        "KeySpec": "HMAC_384",
        "KeyState": "Enabled",
        "KeyUsage": "GENERATE_VERIFY_MAC",
        "MacAlgorithms": [
            "HMAC_SHA_384"
        ],
        "MultiRegion": false,
        "Origin": "AWS_KMS"
    }
}
```
Untuk informasi selengkapnya, lihat [kunci HMAC di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/hmac.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 6: Untuk membuat kunci KMS primer Multi-wilayah**  
`create-key`Contoh berikut membuat kunci enkripsi simetris primer Multi-region. Karena nilai default untuk semua parameter membuat kunci enkripsi simetris, hanya `--multi-region` parameter yang diperlukan untuk kunci KMS ini. Di AWS CLI, untuk menunjukkan bahwa parameter Boolean benar, cukup tentukan nama parameternya.  

```
aws kms create-key \
    --multi-region
```
Output:  

```
{
    "KeyMetadata": {
        "Arn": "arn:aws:kms:us-west-2:111122223333:key/mrk-1234abcd12ab34cd56ef12345678990ab",
        "AWSAccountId": "111122223333",
        "CreationDate": "2021-09-02T016:15:21-09:00",
        "CurrentKeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6",
        "CustomerMasterKeySpec": "SYMMETRIC_DEFAULT",
        "Description": "",
        "Enabled": true,
        "EncryptionAlgorithms": [
          "SYMMETRIC_DEFAULT"
        ],
        "KeyId": "mrk-1234abcd12ab34cd56ef12345678990ab",
        "KeyManager": "CUSTOMER",
        "KeySpec": "SYMMETRIC_DEFAULT",
        "KeyState": "Enabled",
        "KeyUsage": "ENCRYPT_DECRYPT",
        "MultiRegion": true,
        "MultiRegionConfiguration": {
            "MultiRegionKeyType": "PRIMARY",
            "PrimaryKey": {
                "Arn": "arn:aws:kms:us-west-2:111122223333:key/mrk-1234abcd12ab34cd56ef12345678990ab",
                "Region": "us-west-2"
            },
            "ReplicaKeys": []
        },
        "Origin": "AWS_KMS"
    }
}
```
Untuk informasi selengkapnya, lihat [Kunci asimetris di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 7: Untuk membuat kunci KMS untuk bahan kunci impor**  
`create-key`Contoh berikut membuat membuat kunci KMS tanpa bahan kunci. Ketika operasi selesai, Anda dapat mengimpor materi kunci Anda sendiri ke dalam kunci KMS. Untuk membuat kunci KMS ini, atur `--origin` parameter ke`EXTERNAL`.  

```
aws kms create-key \
    --origin EXTERNAL
```
Output:  

```
{
     "KeyMetadata": {
         "Arn": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
         "AWSAccountId": "111122223333",
         "CreationDate": "2019-12-02T07:48:55-07:00",
         "CustomerMasterKeySpec": "SYMMETRIC_DEFAULT",
         "Description": "",
         "Enabled": false,
         "EncryptionAlgorithms": [
             "SYMMETRIC_DEFAULT"
         ],
         "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
         "KeyManager": "CUSTOMER",
         "KeySpec": "SYMMETRIC_DEFAULT",
         "KeyState": "PendingImport",
         "KeyUsage": "ENCRYPT_DECRYPT",
         "MultiRegion": false,
         "Origin": "EXTERNAL"
     }
 }
```
Untuk informasi selengkapnya, lihat [Mengimpor materi kunci dalam kunci AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/importing-keys.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 6: Untuk membuat kunci KMS di toko kunci AWS CloudHSM**  
`create-key`Contoh berikut membuat membuat kunci KMS di toko kunci AWS CloudHSM tertentu. Operasi membuat kunci KMS dan metadatanya di AWS KMS dan membuat materi kunci di klaster CloudHSM yang terkait dengan penyimpanan kunci AWS kustom. Parameter `--custom-key-store-id` dan `--origin` diperlukan.  

```
aws kms create-key \
    --origin AWS_CLOUDHSM \
    --custom-key-store-id cks-1234567890abcdef0
```
Output:  

```
{
    "KeyMetadata": {
        "Arn": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "AWSAccountId": "111122223333",
        "CloudHsmClusterId": "cluster-1a23b4cdefg",
        "CreationDate": "2019-12-02T07:48:55-07:00",
        "CustomerMasterKeySpec": "SYMMETRIC_DEFAULT",
        "CustomKeyStoreId": "cks-1234567890abcdef0",
        "Description": "",
        "Enabled": true,
        "EncryptionAlgorithms": [
            "SYMMETRIC_DEFAULT"
        ],
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "KeyManager": "CUSTOMER",
        "KeySpec": "SYMMETRIC_DEFAULT",
        "KeyState": "Enabled",
        "KeyUsage": "ENCRYPT_DECRYPT",
        "MultiRegion": false,
        "Origin": "AWS_CLOUDHSM"
    }
}
```
Untuk informasi selengkapnya, lihat [AWS Penyimpanan kunci CloudHSM](https://docs.aws.amazon.com/kms/latest/developerguide/keystore-cloudhsm.html) di Panduan *AWS Pengembang Layanan Manajemen Kunci*.  
**Contoh 8: Untuk membuat kunci KMS di toko kunci eksternal**  
`create-key`Contoh berikut membuat membuat kunci KMS di toko kunci eksternal yang ditentukan. `--xks-key-id`Parameter `--custom-key-store-id``--origin`,, dan diperlukan dalam perintah ini.  
`--xks-key-id`Parameter menentukan ID kunci enkripsi simetris yang ada di pengelola kunci eksternal Anda. Kunci ini berfungsi sebagai bahan kunci eksternal untuk kunci KMS.Nilai `--origin` parameter `EXTERNAL_KEY_STORE` `custom-key-store-id` harus.Parameter harus mengidentifikasi penyimpanan kunci eksternal yang terhubung ke proxy penyimpanan kunci eksternal.  

```
aws kms create-key \
    --origin EXTERNAL_KEY_STORE \
    --custom-key-store-id cks-9876543210fedcba9 \
    --xks-key-id bb8562717f809024
```
Output:  

```
{
    "KeyMetadata": {
        "Arn": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "AWSAccountId": "111122223333",
        "CreationDate": "2022-12-02T07:48:55-07:00",
        "CustomerMasterKeySpec": "SYMMETRIC_DEFAULT",
        "CustomKeyStoreId": "cks-9876543210fedcba9",
        "Description": "",
        "Enabled": true,
        "EncryptionAlgorithms": [
            "SYMMETRIC_DEFAULT"
        ],
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "KeyManager": "CUSTOMER",
        "KeySpec": "SYMMETRIC_DEFAULT",
        "KeyState": "Enabled",
        "KeyUsage": "ENCRYPT_DECRYPT",
        "MultiRegion": false,
        "Origin": "EXTERNAL_KEY_STORE",
        "XksKeyConfiguration": {
            "Id": "bb8562717f809024"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/keystore-external.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [CreateKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/create-key.html)di *Referensi AWS CLI Perintah*. 

### `decrypt`
<a name="kms_Decrypt_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decrypt`.

**AWS CLI**  
**Contoh 1: Untuk mendekripsi pesan terenkripsi dengan kunci KMS simetris (Linux dan macOS)**  
Contoh `decrypt` perintah berikut menunjukkan cara yang disarankan untuk mendekripsi data dengan CLI. AWS Versi ini menunjukkan cara mendekripsi data di bawah kunci KMS simetris.  
Berikan ciphertext dalam file.Dalam nilai `--ciphertext-blob` parameter, gunakan `fileb://` awalan, yang memberitahu CLI untuk membaca data dari file biner. Jika file tidak ada di direktori saat ini, ketik path lengkap ke file. Untuk informasi lebih lanjut tentang membaca nilai parameter AWS CLI dari file, lihat Memuat parameter AWS CLI dari file < https://docs.aws.amazon.com/cli/ latest/userguide/cli - usage-parameters-file .html> di *Panduan Pengguna Antarmuka Baris AWS Perintah dan Praktik Terbaik untuk Parameter File Lokal< https://aws.amazon.com/blogs/ pengembang/ best-practices-for-local -file-parameters/> di *Blog Alat Baris* Perintah*. Tentukan kunci KMS untuk mendekripsi cipherText.Parameter tidak diperlukan saat AWS mendekripsi dengan kunci KMS simetris. `--key-id` AWS KMS bisa mendapatkan ID kunci dari kunci KMS yang digunakan untuk mengenkripsi data dari metadata dalam ciphertext. Tetapi selalu merupakan praktik terbaik untuk menentukan kunci KMS yang Anda gunakan. Praktek ini memastikan bahwa Anda menggunakan kunci KMS yang Anda inginkan, dan mencegah Anda dari secara tidak sengaja mendekripsi ciphertext menggunakan kunci KMS yang tidak Anda percayai. Minta output plaintext sebagai nilai teks.Parameter `--query` memberitahu CLI untuk mendapatkan hanya nilai bidang dari output. `Plaintext` `--output`Parameter mengembalikan output sebagai text.base64-decode plaintext dan menyimpannya dalam file.Contoh berikut pipa (\$1) nilai `Plaintext` parameter ke utilitas Base64, yang menerjemahkan itu. Kemudian, itu mengalihkan (>) output yang diterjemahkan ke file. `ExamplePlaintext`  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda.  

```
aws kms decrypt \
    --ciphertext-blob fileb://ExampleEncryptedFile \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --output text \
    --query Plaintext | base64 \
    --decode > ExamplePlaintextFile
```
Perintah ini tidak menghasilkan output. Output dari `decrypt` perintah adalah base64-decoded dan disimpan dalam file.  
Untuk informasi selengkapnya, lihat [Mendekripsi](https://docs.aws.amazon.com/kms/latest/APIReference/API_Decrypt.html) di Referensi *API Layanan Manajemen AWS Kunci*.  
**Contoh 2: Untuk mendekripsi pesan terenkripsi dengan tombol KMS simetris (prompt perintah Windows)**  
Contoh berikut adalah sama dengan yang sebelumnya kecuali bahwa ia menggunakan `certutil` utilitas untuk Base64-decode data plaintext. Prosedur ini membutuhkan dua perintah, seperti yang ditunjukkan pada contoh berikut.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda.  

```
aws kms decrypt ^
    --ciphertext-blob fileb://ExampleEncryptedFile ^
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab ^
    --output text ^
    --query Plaintext > ExamplePlaintextFile.base64
```
Jalankan perintah `certutil`.  

```
certutil -decode ExamplePlaintextFile.base64 ExamplePlaintextFile
```
Output:  

```
Input Length = 18
Output Length = 12
CertUtil: -decode command completed successfully.
```
Untuk informasi selengkapnya, lihat [Mendekripsi](https://docs.aws.amazon.com/kms/latest/APIReference/API_Decrypt.html) di Referensi *API Layanan Manajemen AWS Kunci*.  
**Contoh 3: Untuk mendekripsi pesan terenkripsi dengan kunci KMS asimetris (Linux dan macOS)**  
Contoh `decrypt` perintah berikut menunjukkan cara mendekripsi data yang dienkripsi di bawah kunci KMS asimetris RSA.  
Saat menggunakan kunci KMS asimetris, `encryption-algorithm` parameter, yang menentukan algoritma yang digunakan untuk mengenkripsi plaintext, diperlukan.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda.  

```
aws kms decrypt \
    --ciphertext-blob fileb://ExampleEncryptedFile \
    --key-id 0987dcba-09fe-87dc-65ba-ab0987654321 \
    --encryption-algorithm RSAES_OAEP_SHA_256 \
    --output text \
    --query Plaintext | base64 \
    --decode > ExamplePlaintextFile
```
Perintah ini tidak menghasilkan output. Output dari `decrypt` perintah adalah base64-decoded dan disimpan dalam file.  
Untuk informasi selengkapnya, lihat [Kunci asimetris di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [Mendekripsi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/decrypt.html) di Referensi *AWS CLI Perintah*. 

### `delete-alias`
<a name="kms_DeleteAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-alias`.

**AWS CLI**  
**Untuk menghapus alias AWS KMS**  
`delete-alias`Contoh berikut menghapus `alias/example-alias` alias. Nama alias harus dimulai dengan alias/.  

```
aws kms delete-alias \
    --alias-name alias/example-alias
```
Perintah ini tidak menghasilkan output. Untuk menemukan alias, gunakan `list-aliases` perintah.  
Untuk informasi selengkapnya, lihat [Menghapus alias](https://docs.aws.amazon.com/kms/latest/developerguide/alias-manage.html#alias-delete) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [DeleteAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/delete-alias.html)di *Referensi AWS CLI Perintah*. 

### `delete-custom-key-store`
<a name="kms_DeleteCustomKeyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-custom-key-store`.

**AWS CLI**  
**Untuk menghapus toko kunci kustom**  
`delete-custom-key-store`Contoh berikut menghapus toko kunci kustom yang ditentukan.  
Menghapus penyimpanan kunci AWS CloudHSM tidak berpengaruh pada klaster CloudHSM terkait. Menghapus penyimpanan kunci eksternal tidak berpengaruh pada proxy penyimpanan kunci eksternal terkait, pengelola kunci eksternal, atau kunci eksternal.  
**CATATAN:** Sebelum Anda dapat menghapus toko kunci khusus, Anda harus menjadwalkan penghapusan semua kunci KMS di toko kunci khusus dan kemudian menunggu kunci KMS tersebut dihapus. Kemudian, Anda harus memutuskan sambungan toko kunci khusus. Untuk bantuan menemukan kunci KMS di toko kunci kustom Anda, lihat [Menghapus penyimpanan kunci (API) CloudHSM](https://docs.aws.amazon.com/kms/latest/developerguide/delete-keystore.html#delete-keystore-api) di Panduan *AWS Pengembang Layanan Manajemen Kunci*. AWS   

```
delete-custom-key-store \
    --custom-key-store-id cks-1234567890abcdef0
```
Perintah ini tidak memberikan output apa pun. Untuk memverifikasi bahwa penyimpanan kunci khusus dihapus, gunakan `describe-custom-key-stores` perintah.  
*Untuk selengkapnya tentang menghapus penyimpanan kunci AWS CloudHSM, lihat [Menghapus penyimpanan kunci AWS CloudHSM di Panduan Pengembang Layanan Manajemen](https://docs.aws.amazon.com/kms/latest/developerguide/delete-keystore.html) Kunci.AWS *  
Untuk informasi tentang menghapus penyimpanan kunci eksternal, lihat [Menghapus penyimpanan kunci eksternal di Panduan](https://docs.aws.amazon.com/kms/latest/developerguide/delete-xks.html) *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [DeleteCustomKeyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/delete-custom-key-store.html)di *Referensi AWS CLI Perintah*. 

### `delete-imported-key-material`
<a name="kms_DeleteImportedKeyMaterial_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-imported-key-material`.

**AWS CLI**  
**Untuk menghapus materi kunci yang diimpor dari kunci KMS**  
`delete-imported-key-material`Contoh berikut menghapus materi kunci yang telah diimpor ke kunci KMS.  

```
aws kms delete-imported-key-material \
   --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
    "KeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6"
}
```
Untuk informasi selengkapnya, lihat [Menghapus materi kunci yang diimpor](https://docs.aws.amazon.com/kms/latest/developerguide/importing-keys-delete-key-material.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [DeleteImportedKeyMaterial](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/delete-imported-key-material.html)di *Referensi AWS CLI Perintah*. 

### `derive-shared-secret`
<a name="kms_DeriveSharedSecret_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`derive-shared-secret`.

**AWS CLI**  
**Untuk mendapatkan rahasia bersama**  
`derive-shared-secret`Contoh berikut memperoleh rahasia bersama menggunakan algoritma perjanjian kunci.  
Anda harus menggunakan kurva eliptik yang direkomendasikan NIST asimetris (ECC) atau SM2 (hanya Wilayah Tiongkok) key pair KMS dengan nilai to call. `KeyUsage` `KEY_AGREEMENT` DeriveSharedSecret  

```
aws kms derive-shared-secret \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --key-agreement-algorithm ECDH \
    --public-key "MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAvH3Yj0wbkLEpUl95Cv1cJVjsVNSjwGq3tCLnzXfhVwVvmzGN8pYj3U8nKwgouaHbBWNJYjP5VutbbkKS4Kv4GojwZBJyHN17kmxo8yTjRmjR15SKIQ8cqRA2uaERMLnpztIXdZp232PQPbWGxDyXYJ0aJ5EFSag"
```
Output:  

```
{
    "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
    "SharedSecret": "MEYCIQCKZLWyTk5runarx6XiAkU9gv3lbwPO/pHa+DXFehzdDwIhANwpsIV2g/9SPWLLsF6p/hiSskuIXMTRwqrMdVKWTMHG",
    "KeyAgreementAlgorithm": "ECDH",
    "KeyOrigin": "AWS_KMS"
}
```
Untuk informasi selengkapnya, lihat [DeriveSharedSecret](https://docs.aws.amazon.com/kms/latest/APIReference/API_DeriveSharedSecret.html)di *Referensi API Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [DeriveSharedSecret](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/derive-shared-secret.html)di *Referensi AWS CLI Perintah*. 

### `describe-custom-key-stores`
<a name="kms_DescribeCustomKeyStores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-custom-key-stores`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan detail tentang toko kunci AWS CloudHSM**  
`describe-custom-key-store`Contoh berikut menampilkan rincian tentang penyimpanan kunci AWS CloudHSM yang ditentukan. Perintahnya sama untuk semua jenis penyimpanan kunci khusus, tetapi outputnya berbeda dengan jenis penyimpanan kunci dan, untuk penyimpanan kunci eksternal, opsi konektivitasnya.  
Secara default, perintah ini menampilkan informasi tentang semua toko kunci khusus di akun dan Wilayah. Untuk menampilkan informasi tentang penyimpanan kunci khusus tertentu, gunakan `custom-key-store-id` parameter `custom-key-store-name` atau.  

```
aws kms describe-custom-key-stores \
    --custom-key-store-name ExampleCloudHSMKeyStore
```
Output dari perintah ini mencakup rincian berguna tentang penyimpanan kunci AWS CloudHSM termasuk status koneksinya (). `ConnectionState` Jika status koneksi`FAILED`, output mencakup `ConnectionErrorCode` bidang yang menjelaskan masalah.  
Output:  

```
{
    "CustomKeyStores": [
        {
            "CloudHsmClusterId": "cluster-1a23b4cdefg",
            "ConnectionState": "CONNECTED",
            "CreationDate": "2022-04-05T14:04:55-07:00",
            "CustomKeyStoreId": "cks-1234567890abcdef0",
            "CustomKeyStoreName": "ExampleExternalKeyStore",
            "TrustAnchorCertificate": "<certificate appears here>"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat penyimpanan kunci AWS CloudHSM](https://docs.aws.amazon.com/kms/latest/developerguide/view-keystore.html) di Panduan *AWS Pengembang Layanan Manajemen Kunci*.  
**Contoh 2: Untuk mendapatkan detail tentang penyimpanan kunci eksternal dengan konektivitas titik akhir publik**  
`describe-custom-key-store`Contoh berikut menampilkan rincian tentang penyimpanan kunci eksternal yang ditentukan. Perintahnya sama untuk semua jenis penyimpanan kunci khusus, tetapi outputnya berbeda dengan jenis penyimpanan kunci dan, untuk penyimpanan kunci eksternal, opsi konektivitasnya.  
Secara default, perintah ini menampilkan informasi tentang semua toko kunci khusus di akun dan Wilayah. Untuk menampilkan informasi tentang penyimpanan kunci khusus tertentu, gunakan `custom-key-store-id` parameter `custom-key-store-name` atau.  

```
aws kms describe-custom-key-stores \
    --custom-key-store-id cks-9876543210fedcba9
```
Output dari perintah ini mencakup rincian berguna tentang penyimpanan kunci eksternal termasuk status koneksi (`ConnectionState`). Jika status koneksi`FAILED`, output mencakup `ConnectionErrorCode` bidang yang menjelaskan masalah.  
Output:  

```
{
    "CustomKeyStores": [
        {
            "CustomKeyStoreId": "cks-9876543210fedcba9",
            "CustomKeyStoreName": "ExampleXKS",
            "ConnectionState": "CONNECTED",
            "CreationDate": "2022-12-02T07:48:55-07:00",
            "CustomKeyStoreType": "EXTERNAL_KEY_STORE",
            "XksProxyConfiguration": {
                "AccessKeyId": "ABCDE12345670EXAMPLE",
                "Connectivity": "PUBLIC_ENDPOINT",
                "UriEndpoint": "https://myproxy.xks.example.com",
                "UriPath": "/example-prefix/kms/xks/v1"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/view-xks-keystore.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 3: Untuk mendapatkan detail tentang penyimpanan kunci eksternal dengan konektivitas layanan titik akhir VPC**  
`describe-custom-key-store`Contoh berikut menampilkan rincian tentang penyimpanan kunci eksternal yang ditentukan. Perintahnya sama untuk semua jenis penyimpanan kunci khusus, tetapi outputnya berbeda dengan jenis penyimpanan kunci dan, untuk penyimpanan kunci eksternal, opsi konektivitasnya.  
Secara default, perintah ini menampilkan informasi tentang semua toko kunci khusus di akun dan Wilayah. Untuk menampilkan informasi tentang penyimpanan kunci khusus tertentu, gunakan `custom-key-store-id` parameter `custom-key-store-name` atau.  

```
aws kms describe-custom-key-stores \
    --custom-key-store-id cks-2234567890abcdef0
```
Output dari perintah ini mencakup rincian berguna tentang penyimpanan kunci eksternal termasuk status koneksi (`ConnectionState`). Jika status koneksi`FAILED`, output mencakup `ConnectionErrorCode` bidang yang menjelaskan masalah.  
Output:  

```
{
    "CustomKeyStores": [
        {
            "CustomKeyStoreId": "cks-3234567890abcdef0",
            "CustomKeyStoreName": "ExampleVPCExternalKeyStore",
            "ConnectionState": "CONNECTED",
            "CreationDate": "2022-12-22T07:48:55-07:00",
            "CustomKeyStoreType": "EXTERNAL_KEY_STORE",
            "XksProxyConfiguration": {
                "AccessKeyId": "ABCDE12345670EXAMPLE",
                "Connectivity": "VPC_ENDPOINT_SERVICE",
                "UriEndpoint": "https://myproxy-private.xks.example.com",
                "UriPath": "/kms/xks/v1",
                "VpcEndpointServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-example1"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/view-xks-keystore.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [DescribeCustomKeyStores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/describe-custom-key-stores.html)di *Referensi AWS CLI Perintah*. 

### `describe-key`
<a name="kms_DescribeKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-key`.

**AWS CLI**  
**Contoh 1: Untuk menemukan informasi rinci tentang kunci KMS**  
`describe-key`Contoh berikut mendapatkan informasi rinci tentang kunci AWS terkelola untuk Amazon S3 di akun contoh dan Wilayah. Anda dapat menggunakan perintah ini untuk menemukan detail tentang kunci AWS terkelola dan kunci yang dikelola pelanggan.  
Untuk menentukan kunci KMS, gunakan `key-id` parameter. Contoh ini menggunakan nilai nama alias, tetapi Anda dapat menggunakan ID kunci, ARN kunci, nama alias, atau alias ARN dalam perintah ini.  

```
aws kms describe-key \
    --key-id alias/aws/s3
```
Output:  

```
{
    "KeyMetadata": {
        "AWSAccountId": "846764612917",
        "KeyId": "b8a9477d-836c-491f-857e-07937918959b",
        "Arn": "arn:aws:kms:us-west-2:846764612917:key/b8a9477d-836c-491f-857e-07937918959b",
        "CurrentKeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6",
        "CreationDate": 2017-06-30T21:44:32.140000+00:00,
        "Enabled": true,
        "Description": "Default KMS key that protects my S3 objects when no other key is defined",
        "KeyUsage": "ENCRYPT_DECRYPT",
        "KeyState": "Enabled",
        "Origin": "AWS_KMS",
        "KeyManager": "AWS",
        "CustomerMasterKeySpec": "SYMMETRIC_DEFAULT",
        "EncryptionAlgorithms": [
            "SYMMETRIC_DEFAULT"
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat AWS kunci](https://docs.aws.amazon.com/kms/latest/developerguide/viewing-keys.html) *di Panduan Pengembang Layanan Manajemen Kunci*.  
**Contoh 2: Untuk mendapatkan detail tentang kunci KMS asimetris RSA**  
`describe-key`Contoh berikut mendapatkan informasi rinci tentang kunci KMS RSA asimetris yang digunakan untuk penandatanganan dan verifikasi.  

```
aws kms describe-key \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "KeyMetadata": {
        "AWSAccountId": "111122223333",
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "Arn": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "CreationDate": "2019-12-02T19:47:14.861000+00:00",
        "CustomerMasterKeySpec": "RSA_2048",
        "Enabled": false,
        "Description": "",
        "KeyState": "Disabled",
        "Origin": "AWS_KMS",
        "MultiRegion": false,
        "KeyManager": "CUSTOMER",
        "KeySpec": "RSA_2048",
        "KeyUsage": "SIGN_VERIFY",
        "SigningAlgorithms": [
            "RSASSA_PKCS1_V1_5_SHA_256",
            "RSASSA_PKCS1_V1_5_SHA_384",
            "RSASSA_PKCS1_V1_5_SHA_512",
            "RSASSA_PSS_SHA_256",
            "RSASSA_PSS_SHA_384",
            "RSASSA_PSS_SHA_512"
        ]
    }
}
```
**Contoh 3: Untuk mendapatkan detail tentang kunci replika Multi-wilayah**  
`describe-key`Contoh berikut mendapatkan metadata untuk kunci replika Multi-wilayah. Kunci Multi-region ini adalah kunci enkripsi simetris. Output dari `describe-key` perintah untuk setiap kunci Multi-region mengembalikan informasi tentang kunci utama dan semua replika nya.  

```
aws kms describe-key \
    --key-id arn:aws:kms:ap-northeast-1:111122223333:key/mrk-1234abcd12ab34cd56ef1234567890ab
```
Output:  

```
{
    "KeyMetadata": {
        "MultiRegion": true,
        "AWSAccountId": "111122223333",
        "Arn": "arn:aws:kms:ap-northeast-1:111122223333:key/mrk-1234abcd12ab34cd56ef1234567890ab",
        "CreationDate": "2021-06-28T21:09:16.114000+00:00",
        "CurrentKeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6",
        "Description": "",
        "Enabled": true,
        "KeyId": "mrk-1234abcd12ab34cd56ef1234567890ab",
        "KeyManager": "CUSTOMER",
        "KeyState": "Enabled",
        "KeyUsage": "ENCRYPT_DECRYPT",
        "Origin": "AWS_KMS",
        "CustomerMasterKeySpec": "SYMMETRIC_DEFAULT",
        "EncryptionAlgorithms": [
            "SYMMETRIC_DEFAULT"
        ],
        "MultiRegionConfiguration": {
            "MultiRegionKeyType": "PRIMARY",
            "PrimaryKey": {
                "Arn": "arn:aws:kms:us-west-2:111122223333:key/mrk-1234abcd12ab34cd56ef1234567890ab",
                "Region": "us-west-2"
            },
            "ReplicaKeys": [
                {
                    "Arn": "arn:aws:kms:eu-west-1:111122223333:key/mrk-1234abcd12ab34cd56ef1234567890ab",
                    "Region": "eu-west-1"
                },
                {
                    "Arn": "arn:aws:kms:ap-northeast-1:111122223333:key/mrk-1234abcd12ab34cd56ef1234567890ab",
                    "Region": "ap-northeast-1"
                },
                {
                    "Arn": "arn:aws:kms:sa-east-1:111122223333:key/mrk-1234abcd12ab34cd56ef1234567890ab",
                    "Region": "sa-east-1"
                }
            ]
        }
    }
}
```
**Contoh 4: Untuk mendapatkan detail tentang kunci HMAC KMS**  
`describe-key`Contoh berikut mendapatkan informasi rinci tentang kunci HMAC KMS.  

```
aws kms describe-key \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "KeyMetadata": {
        "AWSAccountId": "123456789012",
        "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
        "Arn": "arn:aws:kms:us-west-2:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab",
        "CreationDate": "2022-04-03T22:23:10.194000+00:00",
        "Enabled": true,
        "Description": "Test key",
        "KeyUsage": "GENERATE_VERIFY_MAC",
        "KeyState": "Enabled",
        "Origin": "AWS_KMS",
        "KeyManager": "CUSTOMER",
        "CustomerMasterKeySpec": "HMAC_256",
        "MacAlgorithms": [
            "HMAC_SHA_256"
        ],
        "MultiRegion": false
    }
}
```
+  Untuk detail API, lihat [DescribeKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/describe-key.html)di *Referensi AWS CLI Perintah*. 

### `disable-key-rotation`
<a name="kms_DisableKeyRotation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-key-rotation`.

**AWS CLI**  
**Untuk menonaktifkan rotasi otomatis tombol KMS**  
`disable-key-rotation`Contoh berikut menonaktifkan rotasi otomatis kunci KMS yang dikelola pelanggan. Untuk mengaktifkan kembali rotasi otomatis, gunakan `enable-key-rotation` perintah.  

```
aws kms disable-key-rotation \
    --key-id arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab
```
Perintah ini tidak menghasilkan output. Untuk memverifikasi bahwa rotasi otomatis dinonaktifkan untuk kunci KMS, gunakan `get-key-rotation-status` perintah.  
Untuk informasi selengkapnya, lihat [Memutar kunci](https://docs.aws.amazon.com/kms/latest/developerguide/rotate-keys.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [DisableKeyRotation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/disable-key-rotation.html)di *Referensi AWS CLI Perintah*. 

### `disable-key`
<a name="kms_DisableKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-key`.

**AWS CLI**  
**Untuk menonaktifkan sementara kunci KMS**  
`disable-key`Perintah berikut menonaktifkan kunci KMS yang dikelola pelanggan. Untuk mengaktifkan kembali kunci KMS, gunakan perintah. `enable-key`  

```
aws kms disable-key \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan dan Menonaktifkan Kunci di Panduan](https://docs.aws.amazon.com/kms/latest/developerguide/enabling-keys.html) Pengembang *Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [DisableKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/disable-key.html)di *Referensi AWS CLI Perintah*. 

### `disconnect-custom-key-store`
<a name="kms_DisconnectCustomKeyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disconnect-custom-key-store`.

**AWS CLI**  
**Untuk memutuskan sambungan toko kunci kustom**  
`disconnect-custom-key-store`Contoh berikut memutus penyimpanan kunci kustom dari klaster AWS CloudHSM. Anda mungkin memutuskan penyimpanan kunci untuk memecahkan masalah, memperbarui pengaturannya, atau untuk mencegah kunci KMS di keystore digunakan dalam operasi kriptografi.  
Perintah ini sama untuk semua toko kunci khusus, termasuk toko kunci AWS CloudHSM dan toko kunci eksternal.  
Sebelum menjalankan perintah ini, ganti contoh ID penyimpanan kunci kustom dengan yang valid.  

```
$ aws kms disconnect-custom-key-store \
    --custom-key-store-id cks-1234567890abcdef0
```
Perintah ini tidak menghasilkan keluaran. verifikasi bahwa perintah itu efektif, gunakan perintah. `describe-custom-key-stores`  
*Untuk informasi selengkapnya tentang memutuskan sambungan AWS penyimpanan kunci CloudHSM, [lihat Menyambungkan dan memutuskan penyimpanan kunci AWS CloudHSM di Panduan Pengembang Layanan Manajemen](https://docs.aws.amazon.com/kms/latest/developerguide/disconnect-keystore.html) Kunci.AWS *  
Untuk informasi selengkapnya tentang memutuskan penyimpanan kunci eksternal, lihat [Menghubungkan dan memutuskan penyimpanan kunci eksternal di Panduan](https://docs.aws.amazon.com/kms/latest/developerguide/xks-connect-disconnect.html) *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [DisconnectCustomKeyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/disconnect-custom-key-store.html)di *Referensi AWS CLI Perintah*. 

### `enable-key-rotation`
<a name="kms_EnableKeyRotation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-key-rotation`.

**AWS CLI**  
**Untuk mengaktifkan rotasi otomatis tombol KMS**  
`enable-key-rotation`Contoh berikut memungkinkan rotasi otomatis kunci KMS yang dikelola pelanggan dengan periode rotasi 180 hari. Kunci KMS akan diputar satu tahun (perkiraan 365 hari) dari tanggal perintah ini selesai dan setiap tahun setelahnya.  
`--key-id`Parameter mengidentifikasi kunci KMS. Contoh ini menggunakan nilai ARN kunci, tetapi Anda dapat menggunakan ID kunci atau ARN dari kunci `--rotation-period-in-days` KMS.Parameter menentukan jumlah hari antara setiap tanggal rotasi. Tentukan nilai antara 90 dan 2560 hari. Jika tidak ada nilai yang ditentukan, nilai default adalah 365 hari.  

```
aws kms enable-key-rotation \
    --key-id arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab \
    --rotation-period-in-days 180
```
Perintah ini tidak menghasilkan output. Untuk memverifikasi bahwa kunci KMS diaktifkan, gunakan `get-key-rotation-status` perintah.  
Untuk informasi selengkapnya, lihat [Memutar kunci](https://docs.aws.amazon.com/kms/latest/developerguide/rotate-keys.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [EnableKeyRotation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/enable-key-rotation.html)di *Referensi AWS CLI Perintah*. 

### `enable-key`
<a name="kms_EnableKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-key`.

**AWS CLI**  
**Untuk mengaktifkan kunci KMS**  
`enable-key`Contoh berikut memungkinkan kunci yang dikelola pelanggan. Anda dapat menggunakan perintah seperti ini untuk mengaktifkan kunci KMS yang Anda nonaktifkan sementara dengan menggunakan `disable-key` perintah. Anda juga dapat menggunakannya untuk mengaktifkan kunci KMS yang dinonaktifkan karena dijadwalkan untuk dihapus dan penghapusan dibatalkan.  
Untuk menentukan kunci KMS, gunakan `key-id` parameter. Contoh ini menggunakan nilai ID kunci, tetapi Anda dapat menggunakan ID kunci atau nilai ARN kunci dalam perintah ini.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan yang valid.  

```
aws kms enable-key \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Perintah ini tidak menghasilkan output. Untuk memverifikasi bahwa kunci KMS diaktifkan, gunakan `describe-key` perintah. Lihat nilai `KeyState` dan `Enabled` bidang dalam `describe-key` output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan dan Menonaktifkan Kunci di Panduan](https://docs.aws.amazon.com/kms/latest/developerguide/enabling-keys.html) Pengembang *Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [EnableKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/enable-key.html)di *Referensi AWS CLI Perintah*. 

### `encrypt`
<a name="kms_Encrypt_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`encrypt`.

**AWS CLI**  
**Contoh 1: Untuk mengenkripsi isi file di Linux atau macOS**  
`encrypt`Perintah berikut menunjukkan cara yang disarankan untuk mengenkripsi data dengan CLI AWS .  

```
aws kms encrypt \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --plaintext fileb://ExamplePlaintextFile \
    --output text \
    --query CiphertextBlob | base64 \
    --decode > ExampleEncryptedFile
```
Perintah melakukan beberapa hal:  
Menggunakan `--plaintext` parameter untuk menunjukkan data yang akan dienkripsi. Nilai parameter ini harus Base64-encode.Nilai `plaintext` parameter harus base64-dikodekan, atau Anda harus menggunakan awalan`fileb://`, yang memberitahu AWS CLI untuk membaca data biner dari file.Jika file tidak dalam direktori saat ini, ketik path lengkap ke file. Misalnya: `fileb:///var/tmp/ExamplePlaintextFile` atau `fileb://C:\Temp\ExamplePlaintextFile`. [Untuk informasi lebih lanjut tentang membaca nilai parameter AWS CLI dari file, lihat [Memuat Parameter dari File](https://docs.aws.amazon.com/cli/latest/userguide/cli-using-param.html#cli-using-param-file) di *Panduan Pengguna Antarmuka Baris AWS Perintah* dan [Praktik Terbaik untuk Parameter File Lokal](https://blogs.aws.amazon.com/cli/post/TxLWWN1O25V1HE/Best-Practices-for-Local-File-Parameters) di Blog Alat Baris AWS Perintah.Menggunakan `--output` dan `--query` parameter untuk mengontrol output perintah.Parameter ini mengekstrak data terenkripsi, yang disebut *ciphertext*, dari output perintah.Untuk informasi lebih lanjut tentang mengontrol output, lihat Mengontrol Perintah Output](https://docs.aws.amazon.com/cli/latest/userguide/controlling-output.html) dalam *Panduan Pengguna Antarmuka Baris AWS Perintah.Menggunakan* `base64` utilitas untuk memecahkan kode output yang diekstraksi ke dalam data biner.Ciphertext yang dikembalikan oleh perintah yang berhasil adalah teks yang dikodekan base64. `encrypt` Anda harus memecahkan kode teks ini sebelum Anda dapat menggunakan AWS CLI untuk mendekripsi itu.Menyimpan ciphertext biner ke file.Bagian terakhir dari perintah `> ExampleEncryptedFile` () menyimpan ciphertext biner ke file untuk membuat dekripsi lebih mudah. Untuk contoh perintah yang menggunakan AWS CLI untuk mendekripsi data, lihat contoh dekripsi.  
**Contoh 2: Menggunakan AWS CLI untuk mengenkripsi data pada Windows**  
Contoh ini sama dengan yang sebelumnya, kecuali bahwa ia menggunakan `certutil` alat sebagai gantinya`base64`. Prosedur ini membutuhkan dua perintah, seperti yang ditunjukkan pada contoh berikut.  

```
aws kms encrypt \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --plaintext fileb://ExamplePlaintextFile \
    --output text \
    --query CiphertextBlob > C:\Temp\ExampleEncryptedFile.base64

certutil -decode C:\Temp\ExampleEncryptedFile.base64 C:\Temp\ExampleEncryptedFile
```
**Contoh 3: Mengenkripsi dengan tombol KMS asimetris**  
`encrypt`Perintah berikut menunjukkan cara mengenkripsi plaintext dengan kunci KMS asimetris. parameter `--encryption-algorithm` diperlukan. Seperti pada semua perintah `encrypt` CLI, `plaintext` parameter harus dikodekan base64, atau Anda harus menggunakan `fileb://` awalan, yang memberi tahu AWS CLI untuk membaca data biner dari file.  

```
aws kms encrypt \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --encryption-algorithm RSAES_OAEP_SHA_256 \
    --plaintext fileb://ExamplePlaintextFile \
    --output text \
    --query CiphertextBlob | base64 \
    --decode > ExampleEncryptedFile
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [Enkripsi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/encrypt.html) di *Referensi AWS CLI Perintah*. 

### `generate-data-key-pair-without-plaintext`
<a name="kms_GenerateDataKeyPairWithoutPlaintext_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-data-key-pair-without-plaintext`.

**AWS CLI**  
**Untuk menghasilkan ECC NIST P384 asymmetric data key pair**  
`generate-data-key-pair-without-plaintext`Contoh berikut meminta key pair ECC NIST P384 untuk digunakan di luar. AWS  
Perintah mengembalikan kunci publik plaintext dan salinan kunci pribadi yang dienkripsi di bawah kunci KMS yang ditentukan. Itu tidak mengembalikan kunci pribadi plaintext. Anda dapat dengan aman menyimpan kunci pribadi terenkripsi dengan data terenkripsi, dan memanggil AWS KMS untuk mendekripsi kunci pribadi saat Anda perlu menggunakannya.  
Untuk meminta ECC NIST P384 asymmetric data key pair, gunakan parameter `key-pair-spec` dengan nilai. `ECC_NIST_P384`  
Kunci KMS yang Anda tentukan harus berupa kunci KMS enkripsi simetris, yaitu kunci KMS dengan nilai. `KeySpec` `SYMMETRIC_DEFAULT`  
CATATAN: Nilai-nilai dalam output dari contoh ini terpotong untuk tampilan.  

```
aws kms generate-data-key-pair-without-plaintext \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --key-pair-spec ECC_NIST_P384
```
Output:  

```
{
    "PrivateKeyCiphertextBlob": "AQIDAHi6LtupRpdKl2aJTzkK6FbhOtQkMlQJJH3PdtHvS/y+hAFFxmiD134doUDzMGmfCEtcAAAHaTCCB2UGCSqGSIb3DQEHBqCCB1...",
    "PublicKey": "MIIBojANBgkqhkiG9w0BAQEFAAOCAY8AMIIBigKCAYEA3A3eGMyPrvSn7+LdlJE1oUoQV5HpEuHAVbdOyND+NmYDH/mL1OSIEuLrcdZ5hrMH4pk83r40l...",
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "KeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6",
    "KeyPairSpec": "ECC_NIST_P384"
}
```
The `PublicKey` dan dikembalikan dalam `PrivateKeyCiphertextBlob` format yang dikodekan base64.  
Untuk informasi selengkapnya, lihat [Pasangan kunci data](https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#data-key-pairs) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [GenerateDataKeyPairWithoutPlaintext](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/generate-data-key-pair-without-plaintext.html)di *Referensi AWS CLI Perintah*. 

### `generate-data-key-pair`
<a name="kms_GenerateDataKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-data-key-pair`.

**AWS CLI**  
**Untuk menghasilkan sebuah 2048-bit RSA asymmetric data key pair**  
`generate-data-key-pair`Contoh berikut meminta 2048-bit RSA asymmetric data key pair untuk digunakan di luar. AWS Perintah mengembalikan kunci publik plaintext dan kunci pribadi plaintext untuk segera digunakan dan dihapus, dan salinan kunci pribadi yang dienkripsi di bawah kunci KMS yang ditentukan. Anda dapat dengan aman menyimpan kunci pribadi terenkripsi dengan data terenkripsi.  
Untuk meminta 2048-bit RSA asymmetric data key pair, gunakan parameter `key-pair-spec` dengan nilai. `RSA_2048`  
Kunci KMS yang Anda tentukan harus berupa kunci KMS enkripsi simetris, yaitu kunci KMS dengan nilai. `KeySpec` `SYMMETRIC_DEFAULT`  
CATATAN: Nilai-nilai dalam output dari contoh ini terpotong untuk tampilan.  

```
aws kms generate-data-key-pair \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --key-pair-spec RSA_2048
```
Output:  

```
{
    "PrivateKeyCiphertextBlob": "AQIDAHi6LtupRpdKl2aJTzkK6FbhOtQkMlQJJH3PdtHvS/y+hAFFxmiD134doUDzMGmfCEtcAAAHaTCCB2UGCSqGSIb3DQEHBqCCB1...",
    "PrivateKeyPlaintext": "MIIG/QIBADANBgkqhkiG9w0BAQEFAASCBucwggbjAgEAAoIBgQDcDd4YzI+u9Kfv4t2UkTWhShBXkekS4cBVt07I0P42ZgMf+YvU5IgS4ut...",
    "PublicKey": "MIIBojANBgkqhkiG9w0BAQEFAAOCAY8AMIIBigKCAYEA3A3eGMyPrvSn7+LdlJE1oUoQV5HpEuHAVbdOyND+NmYDH/mL1OSIEuLrcdZ5hrMH4pk83r40l...",
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "KeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6"
    "KeyPairSpec": "RSA_2048"
}
```
The`PublicKey`,`PrivateKeyPlaintext`, dan dikembalikan dalam `PrivateKeyCiphertextBlob` format yang dikodekan base64.  
Untuk informasi selengkapnya, lihat [Pasangan kunci data](https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#data-key-pairs) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [GenerateDataKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/generate-data-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `generate-data-key-without-plaintext`
<a name="kms_GenerateDataKeyWithoutPlaintext_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-data-key-without-plaintext`.

**AWS CLI**  
**Untuk menghasilkan kunci data simetris 256-bit tanpa kunci plaintext**  
`generate-data-key-without-plaintext`Contoh berikut meminta salinan terenkripsi dari kunci data simetris 256-bit untuk digunakan di luar. AWS Anda dapat memanggil AWS KMS untuk mendekripsi kunci data saat Anda siap menggunakannya.  
Untuk meminta kunci data 256-bit, gunakan `key-spec` parameter dengan nilai. `AES_256` Untuk meminta kunci data 128-bit, gunakan `key-spec` parameter dengan nilai. `AES_128` Untuk semua panjang kunci data lainnya, gunakan `number-of-bytes` parameter.  
Kunci KMS yang Anda tentukan harus berupa kunci KMS enkripsi simetris, yaitu kunci KMS dengan nilai spesifikasi kunci SYMMETRIC\$1DEFAULT.  

```
aws kms generate-data-key-without-plaintext \
    --key-id "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab" \
    --key-spec AES_256
```
Output:  

```
{
    "CiphertextBlob": "AQEDAHjRYf5WytIc0C857tFSnBaPn2F8DgfmThbJlGfR8P3WlwAAAH4wfAYJKoZIhvcNAQcGoG8wbQIBADBoBgkqhkiG9w0BBwEwHgYJYIZIAWUDBAEuMBEEDEFogL",
    "KeyId": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "KeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6"
}
```
`CiphertextBlob`(Kunci data terenkripsi) dikembalikan dalam format yang dikodekan base64.  
Untuk informasi selengkapnya, lihat [Kunci data](https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#data-keys) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [GenerateDataKeyWithoutPlaintext](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/generate-data-key-without-plaintext.html)di *Referensi AWS CLI Perintah*. 

### `generate-data-key`
<a name="kms_GenerateDataKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-data-key`.

**AWS CLI**  
**Contoh 1: Untuk menghasilkan kunci data simetris 256-bit**  
`generate-data-key`Contoh berikut meminta kunci data simetris 256-bit untuk digunakan di luar. AWS Perintah mengembalikan kunci data plaintext untuk segera digunakan dan dihapus, dan salinan kunci data yang dienkripsi di bawah kunci KMS yang ditentukan. Anda dapat dengan aman menyimpan kunci data terenkripsi dengan data terenkripsi.  
Untuk meminta kunci data 256-bit, gunakan `key-spec` parameter dengan nilai. `AES_256` Untuk meminta kunci data 128-bit, gunakan `key-spec` parameter dengan nilai. `AES_128` Untuk semua panjang kunci data lainnya, gunakan `number-of-bytes` parameter.  
Kunci KMS yang Anda tentukan harus berupa kunci KMS enkripsi simetris, yaitu kunci KMS dengan nilai spesifikasi kunci SYMMETRIC\$1DEFAULT.  

```
aws kms generate-data-key \
    --key-id alias/ExampleAlias \
    --key-spec AES_256
```
Output:  

```
{
    "Plaintext": "VdzKNHGzUAzJeRBVY+uUmofUGGiDzyB3+i9fVkh3piw=",
    "KeyId": "arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "KeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6",
    "CiphertextBlob": "AQEDAHjRYf5WytIc0C857tFSnBaPn2F8DgfmThbJlGfR8P3WlwAAAH4wfAYJKoZIhvcNAQcGoG8wbQIBADBoBgkqhkiG9w0BBwEwHgYJYIZIAWUDBAEuMBEEDEFogLqPWZconQhwHAIBEIA7d9AC7GeJJM34njQvg4Wf1d5sw0NIo1MrBqZa+YdhV8MrkBQPeac0ReRVNDt9qleAt+SHgIRF8P0H+7U="
}
```
`Plaintext`(Kunci data teks biasa) dan `CiphertextBlob` (kunci data terenkripsi) dikembalikan dalam format yang disandikan base64.  
Untuk informasi selengkapnya, lihat [Kunci data](https://docs.aws.amazon.com/kms/latest/developerguide/data-keys.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*. **Contoh 2: Untuk menghasilkan kunci data simetris 512-bit**  
`generate-data-key`Contoh berikut meminta kunci data simetris 512-bit untuk enkripsi dan dekripsi. Perintah mengembalikan kunci data plaintext untuk segera digunakan dan dihapus, dan salinan kunci data yang dienkripsi di bawah kunci KMS yang ditentukan. Anda dapat dengan aman menyimpan kunci data terenkripsi dengan data terenkripsi.  
Untuk meminta panjang kunci selain 128 atau 256 bit, gunakan `number-of-bytes` parameter. Untuk meminta kunci data 512-bit, contoh berikut menggunakan `number-of-bytes` parameter dengan nilai 64 (byte).  
Kunci KMS yang Anda tentukan harus berupa kunci KMS enkripsi simetris, yaitu kunci KMS dengan nilai spesifikasi kunci SYMMETRIC\$1DEFAULT.  
CATATAN: Nilai-nilai dalam output dari contoh ini terpotong untuk tampilan.  

```
aws kms generate-data-key \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --number-of-bytes 64
```
Output:  

```
{
    "CiphertextBlob": "AQIBAHi6LtupRpdKl2aJTzkK6FbhOtQkMlQJJH3PdtHvS/y+hAEnX/QQNmMwDfg2korNMEc8AAACaDCCAmQGCSqGSIb3DQEHBqCCAlUwggJRAgEAMIICSgYJKoZ...",
    "Plaintext": "ty8Lr0Bk6OF07M2BWt6qbFdNB+G00ZLtf5MSEb4al3R2UKWGOp06njAwy2n72VRm2m7z/Pm9Wpbvttz6a4lSo9hgPvKhZ5y6RTm4OovEXiVfBveyX3DQxDzRSwbKDPk/...",
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "KeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6"
}
```
`Plaintext`(Kunci data teks biasa) dan `CiphertextBlob` (kunci data terenkripsi) dikembalikan dalam format yang disandikan base64.  
Untuk informasi selengkapnya, lihat [Kunci data](https://docs.aws.amazon.com/kms/latest/developerguide/data-keys.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [GenerateDataKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/generate-data-key.html)di *Referensi AWS CLI Perintah*. 

### `generate-mac`
<a name="kms_GenerateMac_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-mac`.

**AWS CLI**  
**Contoh 1: Untuk menghasilkan HMAC untuk pesan**  
`generate-mac`Perintah berikut menghasilkan HMAC untuk pesan, kunci HMAC KMS, dan algoritma MAC. Algoritma harus didukung oleh kunci HMAC KMS yang ditentukan.  
Di AWS CLI v2, nilai `message` parameter harus dikodekan Base64. Atau, Anda dapat menyimpan pesan dalam file dan menggunakan `fileb://` awalan, yang memberitahu AWS CLI untuk membaca data biner dari file.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda. ID kunci harus mewakili kunci HMAC KMS dengan penggunaan kunci. `GENERATE_VERIFY_MAC`  

```
msg=(echo 'Hello World' | base64)

aws kms generate-mac \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --message fileb://Message \
    --mac-algorithm HMAC_SHA_384
```
Output:  

```
{
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "Mac": "<HMAC_TAG>",
    "MacAlgorithm": "HMAC_SHA_384"
}
```
Untuk informasi selengkapnya tentang menggunakan kunci KMS HMAC di AWS KMS, lihat [kunci HMAC di AWS KMS di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/hmac.html) Layanan Manajemen *AWS Kunci*.  
**Contoh 2: Untuk menyimpan HMAC dalam file (Linux dan macOS)**  
`generate-mac`Contoh berikut menghasilkan HMAC untuk pesan singkat yang disimpan dalam file lokal. Perintah juga mendapatkan `Mac` properti dari respons, Base64-mendekodekannya dan menyimpannya dalam file. ExampleMac Anda dapat menggunakan file MAC dalam `verify-mac` perintah yang memverifikasi MAC.  
`generate-mac`Perintah ini memerlukan pesan yang disandikan Base64 dan algoritma MAC yang didukung oleh kunci HMAC KMS Anda. Untuk mendapatkan algoritma MAC yang didukung oleh tombol KMS Anda, gunakan perintah. `describe-key`  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda. ID kunci harus mewakili kunci KMS asimetris dengan penggunaan kunci GENERATE\$1VERIFY\$1MAC.  

```
echo 'hello world' | base64 > EncodedMessage

aws kms generate-mac \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --message fileb://EncodedMessage \
    --mac-algorithm HMAC_SHA_384 \
    --output text \
    --query Mac | base64 --decode > ExampleMac
```
Perintah ini tidak menghasilkan output. Contoh ini mengekstrak `Mac` properti output dan menyimpannya dalam file.  
Untuk informasi selengkapnya tentang menggunakan kunci KMS HMAC di AWS KMS, lihat [kunci HMAC di AWS KMS di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/hmac.html) Layanan Manajemen *AWS Kunci*.  
+  Untuk detail API, lihat [GenerateMac](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/generate-mac.html)di *Referensi AWS CLI Perintah*. 

### `generate-random`
<a name="kms_GenerateRandom_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-random`.

**AWS CLI**  
**Contoh 1: Untuk menghasilkan string byte acak 256-bit (Linux atau macOS)**  
`generate-random`Contoh berikut menghasilkan 256-bit (32-byte), string byte acak yang dikodekan base64. Contoh menerjemahkan string byte dan menyimpannya dalam file acak.  
Ketika Anda menjalankan perintah ini, Anda harus menggunakan `number-of-bytes` parameter untuk menentukan panjang nilai acak dalam byte.  
Anda tidak menentukan kunci KMS ketika Anda menjalankan perintah ini. String byte acak tidak terkait dengan kunci KMS apa pun.  
Secara default, AWS KMS menghasilkan nomor acak. Namun, jika Anda menentukan [penyimpanan kunci khusus](https://docs.aws.amazon.com/kms/latest/developerguide/custom-key-store-overview.html), string byte acak dihasilkan di klaster AWS CloudHSM yang terkait dengan penyimpanan kunci kustom.  
Contoh ini menggunakan parameter dan nilai berikut:  
Ini menggunakan `--number-of-bytes` parameter yang diperlukan dengan nilai `32` untuk meminta string 32-byte (256-bit). Ini menggunakan `--output` parameter dengan nilai untuk `text` mengarahkan AWS CLI untuk mengembalikan output sebagai teks, bukan JSON.Ini menggunakan untuk mengekstrak nilai `Plaintext` properti dari response.It pipa (\$1) output dari perintah `--query parameter` ke `base64` utilitas, yang menerjemahkan output yang diekstraksi.Ini menggunakan operator pengalihan (>) untuk menyimpan string byte yang diterjemahkan ke file. Ini menggunakan operator pengalihan (>) `ExampleRandom` untuk menyimpan ciphertext biner ke file.  

```
aws kms generate-random \
    --number-of-bytes 32 \
    --output text \
    --query Plaintext | base64 --decode > ExampleRandom
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [GenerateRandom](https://docs.aws.amazon.com/kms/latest/APIReference/API_GenerateRandom.html)di *Referensi API Layanan Manajemen AWS Kunci*.  
**Contoh 2: Untuk menghasilkan nomor acak 256-bit (Windows Command Prompt)**  
Contoh berikut menggunakan `generate-random` perintah untuk menghasilkan string byte acak 256-bit (32-byte) yang dikodekan base64. Contoh menerjemahkan string byte dan menyimpannya dalam file acak. Contoh ini sama dengan contoh sebelumnya, kecuali bahwa ia menggunakan `certutil` utilitas di Windows untuk base64-decode string byte acak sebelum menyimpannya dalam file.  
Pertama, buat string byte acak yang dikodekan base64 dan simpan dalam file sementara,. `ExampleRandom.base64`  

```
aws kms generate-random \
    --number-of-bytes 32 \
    --output text \
    --query Plaintext > ExampleRandom.base64
```
Karena output dari `generate-random` perintah disimpan dalam file, contoh ini tidak menghasilkan output.  
Sekarang gunakan `certutil -decode` perintah untuk memecahkan kode string byte yang dikodekan base64 dalam file. `ExampleRandom.base64` Kemudian, ia menyimpan string byte yang diterjemahkan dalam file. `ExampleRandom`  

```
certutil -decode ExampleRandom.base64 ExampleRandom
```
Output:  

```
Input Length = 18
Output Length = 12
CertUtil: -decode command completed successfully.
```
Untuk informasi selengkapnya, lihat [GenerateRandom](https://docs.aws.amazon.com/kms/latest/APIReference/API_GenerateRandom.html)di *Referensi API Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [GenerateRandom](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/generate-random.html)di *Referensi AWS CLI Perintah*. 

### `get-key-policy`
<a name="kms_GetKeyPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-key-policy`.

**AWS CLI**  
**Untuk menyalin kebijakan kunci dari satu kunci KMS ke kunci KMS lainnya**  
`get-key-policy`Contoh berikut mendapatkan kebijakan kunci dari satu kunci KMS dan menyimpannya dalam file teks. Kemudian, itu menggantikan kebijakan kunci KMS yang berbeda menggunakan file teks sebagai input kebijakan.  
Karena `--policy` parameter `put-key-policy` membutuhkan string, Anda harus menggunakan `--output text` opsi untuk mengembalikan output sebagai string teks bukan JSON.  

```
aws kms get-key-policy \
    --policy-name default \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --query Policy \
    --output text > policy.txt

aws kms put-key-policy \
    --policy-name default \
    --key-id 0987dcba-09fe-87dc-65ba-ab0987654321 \
    --policy file://policy.txt
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [PutKeyPolicy](https://docs.aws.amazon.com/kms/latest/APIReference/API_PutKeyPolicy.html)di *Referensi API AWS KMS*.  
+  Untuk detail API, lihat [GetKeyPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/get-key-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-key-rotation-status`
<a name="kms_GetKeyRotationStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-key-rotation-status`.

**AWS CLI**  
**Untuk mengambil status rotasi untuk kunci KMS.**  
`get-key-rotation-status`Contoh berikut mengembalikan informasi tentang status rotasi kunci KMS yang ditentukan, termasuk apakah rotasi otomatis diaktifkan, periode rotasi, dan tanggal rotasi terjadwal berikutnya. Anda dapat menggunakan perintah ini pada kunci KMS yang dikelola pelanggan dan kunci KMS yang AWS dikelola. Namun, semua kunci KMS yang AWS dikelola secara otomatis diputar setiap tahun.  

```
aws kms get-key-rotation-status \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
    "KeyRotationEnabled": true,
    "NextRotationDate": "2024-02-14T18:14:33.587000+00:00",
    "RotationPeriodInDays": 365
}
```
Untuk informasi selengkapnya, lihat [Memutar kunci](https://docs.aws.amazon.com/kms/latest/developerguide/rotate-keys.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [GetKeyRotationStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/get-key-rotation-status.html)di *Referensi AWS CLI Perintah*. 

### `get-parameters-for-import`
<a name="kms_GetParametersForImport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-parameters-for-import`.

**AWS CLI**  
**Untuk mendapatkan item yang diperlukan untuk mengimpor materi kunci ke kunci KMS**  
`get-parameters-for-import`Contoh berikut mendapatkan kunci publik dan token impor yang Anda butuhkan untuk mengimpor materi kunci ke kunci KMS. Saat Anda menggunakan `import-key-material` perintah, pastikan untuk menggunakan token impor dan materi kunci yang dienkripsi oleh kunci publik yang dikembalikan dalam perintah yang sama`get-parameters-for-import`. Juga, algoritma pembungkus yang Anda tentukan dalam perintah ini harus menjadi salah satu yang Anda gunakan untuk mengenkripsi materi kunci dengan kunci publik.  
Untuk menentukan kunci KMS, gunakan `key-id` parameter. Contoh ini menggunakan ID kunci, tetapi Anda dapat menggunakan ID kunci atau kunci ARN dalam perintah ini.  

```
aws kms get-parameters-for-import \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --wrapping-algorithm RSAES_OAEP_SHA_256 \
    --wrapping-key-spec RSA_2048
```
Output:  

```
{
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "PublicKey": "<public key base64 encoded data>",
    "ImportToken": "<import token base64 encoded data>",
    "ParametersValidTo": 1593893322.32
}
```
Untuk informasi selengkapnya, lihat [Mengunduh kunci publik dan token impor](https://docs.aws.amazon.com/kms/latest/developerguide/importing-keys-get-public-key-and-token.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [GetParametersForImport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/get-parameters-for-import.html)di *Referensi AWS CLI Perintah*. 

### `get-public-key`
<a name="kms_GetPublicKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-public-key`.

**AWS CLI**  
**Contoh 1: Untuk mengunduh kunci publik dari kunci KMS asimetris**  
`get-public-key`Contoh berikut mengunduh kunci publik dari kunci KMS asimetris.  
Selain mengembalikan kunci publik, output mencakup informasi yang Anda butuhkan untuk menggunakan kunci publik dengan aman di luar AWS KMS, termasuk penggunaan kunci dan algoritma enkripsi yang didukung.  

```
aws kms get-public-key \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "PublicKey": "jANBgkqhkiG9w0BAQEFAAOCAg8AMIICCgKCAgEAl5epvg1/QtJhxSi2g9SDEVg8QV/...",
    "CustomerMasterKeySpec": "RSA_4096",
    "KeyUsage": "ENCRYPT_DECRYPT",
    "EncryptionAlgorithms": [
        "RSAES_OAEP_SHA_1",
        "RSAES_OAEP_SHA_256"
    ]
}
```
Untuk informasi selengkapnya tentang penggunaan kunci KMS asimetris di AWS KMS, lihat [Kunci asimetris di AWS KMS di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) Layanan Manajemen *AWS Kunci*. **Contoh 2: Untuk mengonversi kunci publik ke format DER (Linux dan macOS)**  
`get-public-key`Contoh berikut mengunduh kunci publik dari kunci KMS asimetris dan menyimpannya dalam file DER.  
Saat Anda menggunakan `get-public-key` perintah di AWS CLI, ia mengembalikan kunci publik X.509 yang dikodekan DER yang dikodekan oleh Base64. Contoh ini mendapatkan nilai `PublicKey` properti sebagai teks. Ini Base64-mendekode `PublicKey` dan menyimpannya dalam file. `public_key.der` `output`Parameter mengembalikan output sebagai teks, bukan JSON. `--query`Parameter hanya mendapatkan `PublicKey` properti, bukan properti yang Anda butuhkan untuk menggunakan kunci publik dengan aman di luar AWS KMS.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda.  

```
aws kms get-public-key \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --output text \
    --query PublicKey | base64 --decode > public_key.der
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya tentang penggunaan kunci KMS asimetris di AWS KMS, lihat [Kunci asimetris di AWS KMS di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) Layanan Manajemen *AWS Kunci*.  
+  Untuk detail API, lihat [GetPublicKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/get-public-key.html)di *Referensi AWS CLI Perintah*. 

### `import-key-material`
<a name="kms_ImportKeyMaterial_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-key-material`.

**AWS CLI**  
**Untuk mengimpor materi kunci ke kunci KMS**  
`import-key-material`Contoh berikut mengunggah materi kunci ke kunci KMS yang dibuat tanpa materi kunci. Status kunci dari kunci KMS harus`PendingImport`.  
Perintah ini menggunakan materi kunci yang Anda enkripsi dengan kunci publik yang dikembalikan `get-parameters-for-import` perintah. Ini juga menggunakan token impor dari `get-parameters-for-import` perintah yang sama.  
`expiration-model`Parameter menunjukkan bahwa bahan utama secara otomatis kedaluwarsa pada tanggal dan waktu yang ditentukan oleh `valid-to` parameter. Ketika materi kunci kedaluwarsa, AWS KMS menghapus materi kunci, status kunci kunci KMS berubah menjadi `Pending import` dan kunci KMS menjadi tidak dapat digunakan. Untuk mengembalikan kunci KMS, Anda harus mengimpor ulang materi kunci yang sama. Untuk menggunakan bahan kunci yang berbeda, Anda harus membuat kunci KMS baru.  
Sebelum menjalankan perintah ini, ganti contoh ID kunci dengan ID kunci yang valid atau ARN kunci dari akun Anda AWS .  

```
aws kms import-key-material \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --encrypted-key-material fileb://EncryptedKeyMaterial.bin \
    --import-token fileb://ImportToken.bin \
    --expiration-model KEY_MATERIAL_EXPIRES \
    --valid-to 2021-09-21T19:00:00Z
```
Output:  

```
{
    "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
    "KeyMaterialId": "0b7fd7ddbac6eef27907413567cad8c810e2883dc8a7534067a82ee1142fc1e6"
}
```
Untuk informasi selengkapnya tentang mengimpor materi utama, lihat [Mengimpor Materi Utama](https://docs.aws.amazon.com/kms/latest/developerguide/importing-keys.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [ImportKeyMaterial](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/import-key-material.html)di *Referensi AWS CLI Perintah*. 

### `list-aliases`
<a name="kms_ListAliases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-aliases`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua alias di AWS akun dan Wilayah**  
Contoh berikut menggunakan `list-aliases` perintah untuk daftar semua alias di Wilayah default AWS akun. Outputnya mencakup alias yang terkait dengan kunci KMS AWS terkelola dan kunci KMS yang dikelola pelanggan.  

```
aws kms list-aliases
```
Output:  

```
{
    "Aliases": [
        {
            "AliasArn": "arn:aws:kms:us-west-2:111122223333:alias/testKey",
            "AliasName": "alias/testKey",
            "TargetKeyId": "1234abcd-12ab-34cd-56ef-1234567890ab"
        },
        {
            "AliasArn": "arn:aws:kms:us-west-2:111122223333:alias/FinanceDept",
            "AliasName": "alias/FinanceDept",
            "TargetKeyId": "0987dcba-09fe-87dc-65ba-ab0987654321"
        },
        {
            "AliasArn": "arn:aws:kms:us-west-2:111122223333:alias/aws/dynamodb",
            "AliasName": "alias/aws/dynamodb",
            "TargetKeyId": "1a2b3c4d-5e6f-1a2b-3c4d-5e6f1a2b3c4d"
        },
        {
            "AliasArn": "arn:aws:kms:us-west-2:111122223333:alias/aws/ebs",
            "AliasName": "alias/aws/ebs",
            "TargetKeyId": "0987ab65-43cd-21ef-09ab-87654321cdef"
        },
        ...
    ]
}
```
**Contoh 2: Untuk daftar semua alias untuk kunci KMS tertentu**  
Contoh berikut menggunakan `list-aliases` perintah dan `key-id` parameternya untuk daftar semua alias yang terkait dengan kunci KMS tertentu.  
Setiap alias dikaitkan dengan hanya satu kunci KMS, tetapi kunci KMS dapat memiliki beberapa alias. Perintah ini sangat berguna karena konsol AWS KMS hanya mencantumkan satu alias untuk setiap tombol KMS. Untuk menemukan semua alias untuk kunci KMS, Anda harus menggunakan perintah. `list-aliases`  
Contoh ini menggunakan ID kunci kunci KMS untuk `--key-id` parameter, tetapi Anda dapat menggunakan ID kunci, kunci ARN, nama alias, atau alias ARN dalam perintah ini.  

```
aws kms list-aliases --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "Aliases": [
        {
            "TargetKeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
            "AliasArn": "arn:aws:kms:us-west-2:111122223333:alias/oregon-test-key",
            "AliasName": "alias/oregon-test-key"
        },
        {
            "TargetKeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
            "AliasArn": "arn:aws:kms:us-west-2:111122223333:alias/project121-test",
            "AliasName": "alias/project121-test"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Alias](https://docs.aws.amazon.com/kms/latest/developerguide/programming-aliases.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [ListAliases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/list-aliases.html)di *Referensi AWS CLI Perintah*. 

### `list-grants`
<a name="kms_ListGrants_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-grants`.

**AWS CLI**  
**Untuk melihat hibah pada kunci AWS KMS**  
`list-grants`Contoh berikut menampilkan semua hibah pada kunci KMS AWS terkelola yang ditentukan untuk Amazon DynamoDB di akun Anda. Hibah ini memungkinkan DynamoDB untuk menggunakan kunci KMS atas nama Anda untuk mengenkripsi tabel DynamoDB sebelum menulisnya ke disk. Anda dapat menggunakan perintah seperti ini untuk melihat hibah pada kunci KMS yang AWS dikelola dan kunci KMS yang dikelola pelanggan di AWS akun dan Wilayah.  
Perintah ini menggunakan `key-id` parameter dengan ID kunci untuk mengidentifikasi kunci KMS. Anda dapat menggunakan ID kunci atau kunci ARN untuk mengidentifikasi kunci KMS. Untuk mendapatkan ID kunci atau kunci ARN dari kunci KMS yang AWS dikelola, gunakan perintah or. `list-keys` `list-aliases`  

```
aws kms list-grants \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output menunjukkan bahwa hibah memberikan izin Amazon DynamoDB untuk menggunakan kunci KMS untuk operasi kriptografi, dan memberikan izin untuk melihat detail tentang kunci KMS () dan untuk menghentikan hibah `DescribeKey` (). `RetireGrant` Batasan `EncryptionContextSubset` membatasi izin ini untuk permintaan yang menyertakan pasangan konteks enkripsi yang ditentukan. Akibatnya, izin dalam hibah hanya efektif pada akun tertentu dan tabel DynamoDB.  

```
{
    "Grants": [
        {
            "Constraints": {
                "EncryptionContextSubset": {
                    "aws:dynamodb:subscriberId": "123456789012",
                    "aws:dynamodb:tableName": "Services"
                }
            },
            "IssuingAccount": "arn:aws:iam::123456789012:root",
            "Name": "8276b9a6-6cf0-46f1-b2f0-7993a7f8c89a",
            "Operations": [
                "Decrypt",
                "Encrypt",
                "GenerateDataKey",
                "ReEncryptFrom",
                "ReEncryptTo",
                "RetireGrant",
                "DescribeKey"
            ],
            "GrantId": "1667b97d27cf748cf05b487217dd4179526c949d14fb3903858e25193253fe59",
            "KeyId": "arn:aws:kms:us-west-2:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab",
            "RetiringPrincipal": "dynamodb.us-west-2.amazonaws.com",
            "GranteePrincipal": "dynamodb.us-west-2.amazonaws.com",
            "CreationDate": "2021-05-13T18:32:45.144000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Hibah di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/grants.html) di Panduan *Pengembang Layanan Manajemen AWS Utama*.  
+  Untuk detail API, lihat [ListGrants](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/list-grants.html)di *Referensi AWS CLI Perintah*. 

### `list-key-policies`
<a name="kms_ListKeyPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-key-policies`.

**AWS CLI**  
**Untuk mendapatkan nama kebijakan kunci untuk kunci KMS**  
`list-key-policies`Contoh berikut mendapatkan nama-nama kebijakan utama untuk kunci yang dikelola pelanggan di akun contoh dan Wilayah. Anda dapat menggunakan perintah ini untuk menemukan nama kebijakan kunci untuk kunci AWS terkelola dan kunci yang dikelola pelanggan.  
Karena satu-satunya nama kebijakan kunci yang valid adalah`default`, perintah ini tidak berguna.  
Untuk menentukan kunci KMS, gunakan `key-id` parameter. Contoh ini menggunakan nilai ID kunci, tetapi Anda dapat menggunakan ID kunci atau kunci ARN dalam perintah ini.  

```
aws kms list-key-policies \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "PolicyNames": [
    "default"
    ]
}
```
Untuk informasi selengkapnya tentang kebijakan kunci AWS KMS, lihat [Menggunakan Kebijakan Utama di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/key-policies.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [ListKeyPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/list-key-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-key-rotations`
<a name="kms_ListKeyRotations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-key-rotations`.

**AWS CLI**  
**Untuk mengambil informasi tentang semua rotasi material kunci yang telah selesai**  
`list-key-rotations`Contoh berikut mencantumkan informasi tentang semua rotasi material kunci yang diselesaikan untuk kunci KMS yang ditentukan.  

```
aws kms list-key-rotations \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "Rotations": [
        {
            "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
            "RotationDate": "2024-03-02T10:11:36.564000+00:00",
            "RotationType": "AUTOMATIC"
        },
        {
            "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab",
            "RotationDate": "2024-04-05T15:14:47.757000+00:00",
            "RotationType": "ON_DEMAND"
        }
    ],
    "Truncated": false
}
```
Untuk informasi selengkapnya, lihat [Memutar kunci](https://docs.aws.amazon.com/kms/latest/developerguide/rotate-keys.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [ListKeyRotations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/list-key-rotations.html)di *Referensi AWS CLI Perintah*. 

### `list-keys`
<a name="kms_ListKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-keys`.

**AWS CLI**  
**Untuk mendapatkan kunci KMS di akun dan Wilayah**  
`list-keys`Contoh berikut mendapatkan kunci KMS di akun dan Region. Perintah ini mengembalikan kunci AWS terkelola dan kunci yang dikelola pelanggan.  

```
aws kms list-keys
```
Output:  

```
{
    "Keys": [
        {
            "KeyArn": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
            "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab"
        },
        {
            "KeyArn": "arn:aws:kms:us-west-2:111122223333:key/0987dcba-09fe-87dc-65ba-ab0987654321",
            "KeyId": "0987dcba-09fe-87dc-65ba-ab0987654321"
        },
        {
            "KeyArn": "arn:aws:kms:us-east-2:111122223333:key/1a2b3c4d-5e6f-1a2b-3c4d-5e6f1a2b3c4d",
            "KeyId": "1a2b3c4d-5e6f-1a2b-3c4d-5e6f1a2b3c4d"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat AWS Kunci](https://docs.aws.amazon.com/kms/latest/developerguide/viewing-keys.html) *di Panduan Pengembang Layanan Manajemen Kunci*.  
+  Untuk detail API, lihat [ListKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/list-keys.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-tags`
<a name="kms_ListResourceTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-tags`.

**AWS CLI**  
**Untuk mendapatkan tag pada kunci KMS**  
`list-resource-tags`Contoh berikut mendapatkan tag untuk kunci KMS. Untuk menambah atau mengganti tag sumber daya pada tombol KMS, gunakan `tag-resource` perintah. Output menunjukkan bahwa kunci KMS ini memiliki dua tag sumber daya, yang masing-masing memiliki kunci dan nilai.  
Untuk menentukan kunci KMS, gunakan `key-id` parameter. Contoh ini menggunakan nilai ID kunci, tetapi Anda dapat menggunakan ID kunci atau kunci ARN dalam perintah ini.  

```
aws kms list-resource-tags \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "Tags": [
    {
        "TagKey": "Dept",
        "TagValue": "IT"
    },
    {
        "TagKey": "Purpose",
        "TagValue": "Test"
    }
    ],
    "Truncated": false
}
```
Untuk informasi selengkapnya tentang penggunaan tag di AWS KMS, lihat [Menandai kunci](https://docs.aws.amazon.com/kms/latest/developerguide/tagging-keys.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [ListResourceTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/list-resource-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-retirable-grants`
<a name="kms_ListRetirableGrants_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-retirable-grants`.

**AWS CLI**  
**Untuk melihat hibah bahwa kepala sekolah dapat pensiun**  
`list-retirable-grants`Contoh berikut menampilkan semua hibah yang `ExampleAdmin` pengguna dapat pensiun pada kunci KMS di AWS akun dan Wilayah. Anda dapat menggunakan perintah seperti ini untuk melihat hibah bahwa setiap prinsipal akun dapat pensiun pada kunci KMS di AWS akun dan Wilayah.  
Nilai `retiring-principal` parameter yang diperlukan harus berupa Nama Sumber Daya Amazon (ARN) dari akun, pengguna, atau peran.  
Anda tidak dapat menentukan layanan untuk nilai `retiring-principal` dalam perintah ini, meskipun layanan dapat menjadi prinsipal pensiun. Untuk menemukan hibah di mana layanan tertentu adalah kepala sekolah pensiun, gunakan perintah. `list-grants`  
Output menunjukkan bahwa `ExampleAdmin` pengguna memiliki izin untuk menghentikan hibah pada dua kunci KMS yang berbeda di akun dan wilayah. Selain kepala sekolah yang pensiun, akun memiliki izin untuk mempensiunkan hibah apa pun di akun.  

```
aws kms list-retirable-grants \
    --retiring-principal arn:aws:iam::111122223333:user/ExampleAdmin
```
Output:  

```
{
    "Grants": [
        {
            "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
            "GrantId": "156b69c63cb154aa21f59929ff19760717be8d9d82b99df53e18b94a15a5e88e",
            "Name": "",
            "CreationDate": 2021-01-14T20:17:36.419000+00:00,
            "GranteePrincipal": "arn:aws:iam::111122223333:user/ExampleUser",
            "RetiringPrincipal": "arn:aws:iam::111122223333:user/ExampleAdmin",
            "IssuingAccount": "arn:aws:iam::111122223333:root",
            "Operations": [
                "Encrypt"
            ],
            "Constraints": {
                "EncryptionContextSubset": {
                    "Department": "IT"
                }
            }
        },
        {
            "KeyId": "arn:aws:kms:us-west-2:111122223333:key/0987dcba-09fe-87dc-65ba-ab0987654321",
            "GrantId": "8c94d1f12f5e69f440bae30eaec9570bb1fb7358824f9ddfa1aa5a0dab1a59b2",
            "Name": "",
            "CreationDate": "2021-02-02T19:49:49.638000+00:00",
            "GranteePrincipal": "arn:aws:iam::111122223333:role/ExampleRole",
            "RetiringPrincipal": "arn:aws:iam::111122223333:user/ExampleAdmin",
            "IssuingAccount": "arn:aws:iam::111122223333:root",
            "Operations": [
                "Decrypt"
            ],
            "Constraints": {
                "EncryptionContextSubset": {
                    "Department": "IT"
                }
            }
        }
    ],
    "Truncated": false
}
```
Untuk informasi selengkapnya, lihat [Hibah di AWS KMS](https://docs.aws.amazon.com/kms/latest/developerguide/grants.html) di Panduan *Pengembang Layanan Manajemen AWS Utama*.  
+  Untuk detail API, lihat [ListRetirableGrants](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/list-retirable-grants.html)di *Referensi AWS CLI Perintah*. 

### `put-key-policy`
<a name="kms_PutKeyPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-key-policy`.

**AWS CLI**  
**Untuk mengubah kebijakan kunci untuk kunci KMS**  
`put-key-policy`Contoh berikut mengubah kebijakan kunci untuk kunci yang dikelola pelanggan.  
Untuk memulai, buat kebijakan kunci dan simpan dalam file JSON lokal. Dalam contoh ini, file tersebut adalah`key_policy.json`. Anda juga dapat menentukan kebijakan kunci sebagai nilai string `policy` parameter.  
Pernyataan pertama dalam kebijakan kunci ini memberikan izin AWS akun untuk menggunakan kebijakan IAM untuk mengontrol akses ke kunci KMS. Pernyataan kedua memberikan izin `test-user` pengguna untuk menjalankan `list-keys` perintah `describe-key` dan pada kunci KMS.  
Isi dari `key_policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Id" : "key-default-1",
    "Statement" : [
        {
            "Sid" : "Enable IAM User Permissions",
            "Effect" : "Allow",
            "Principal" : {
                "AWS" : "arn:aws:iam::111122223333:root"
            },
            "Action" : "kms:*",
            "Resource" : "*"
        },
        {
            "Sid" : "Allow Use of Key",
            "Effect" : "Allow",
            "Principal" : {
                "AWS" : "arn:aws:iam::111122223333:user/test-user"
            },
            "Action" : [
                "kms:DescribeKey",
                "kms:ListKeys"
            ],
            "Resource" : "*"
        }
    ]
}
```
Untuk mengidentifikasi kunci KMS, contoh ini menggunakan ID kunci, tetapi Anda juga dapat menggunakan kunci ARN. Untuk menentukan kebijakan kunci, perintah menggunakan `policy` parameter. Untuk menunjukkan bahwa kebijakan tersebut ada dalam file, kebijakan tersebut menggunakan `file://` awalan yang diperlukan. Awalan ini diperlukan untuk mengidentifikasi file pada semua sistem operasi yang didukung. Akhirnya, perintah menggunakan `policy-name` parameter dengan nilai`default`. Jika tidak ada nama kebijakan yang ditentukan, nilai defaultnya adalah`default`. Satu-satunya nilai yang valid adalah `default`.  

```
aws kms put-key-policy \
    --policy-name default \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --policy file://key_policy.json
```
Perintah ini tidak menghasilkan output apa pun. Untuk memverifikasi bahwa perintah itu efektif, gunakan `get-key-policy` perintah. Contoh perintah berikut mendapatkan kebijakan kunci untuk kunci KMS yang sama. `output`Parameter dengan nilai `text` mengembalikan format teks yang mudah dibaca.  

```
aws kms get-key-policy \
    --policy-name default \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --output text
```
Output:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Id" : "key-default-1",
    "Statement" : [
        {
            "Sid" : "Enable IAM User Permissions",
            "Effect" : "Allow",
            "Principal" : {
                "AWS" : "arn:aws:iam::111122223333:root"
            },
            "Action" : "kms:*",
            "Resource" : "*"
            },
            {
            "Sid" : "Allow Use of Key",
            "Effect" : "Allow",
            "Principal" : {
                "AWS" : "arn:aws:iam::111122223333:user/test-user"
            },
            "Action" : [ "kms:Describe", "kms:List" ],
            "Resource" : "*"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengubah Kebijakan Utama](https://docs.aws.amazon.com/kms/latest/developerguide/key-policy-modifying.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [PutKeyPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/put-key-policy.html)di *Referensi AWS CLI Perintah*. 

### `re-encrypt`
<a name="kms_ReEncrypt_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`re-encrypt`.

**AWS CLI**  
**Contoh 1: Untuk mengenkripsi ulang pesan terenkripsi di bawah kunci KMS simetris yang berbeda (Linux dan macOS).**  
Contoh `re-encrypt` perintah berikut menunjukkan cara yang disarankan untuk mengenkripsi ulang data dengan CLI. AWS   
Berikan ciphertext dalam file.Dalam nilai `--ciphertext-blob` parameter, gunakan `fileb://` awalan, yang memberitahu CLI untuk membaca data dari file biner. Jika file tidak ada di direktori saat ini, ketik path lengkap ke file. Untuk informasi lebih lanjut tentang membaca nilai parameter AWS CLI dari file, lihat Memuat parameter [AWS CLI dari file di Panduan Pengguna Antarmuka Baris AWS Perintah dan Praktik Terbaik untuk Parameter File](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters-file.html) *Lokal di Blog Alat Baris AWS * [*Perintah*. Tentukan kunci KMS sumber, yang mendekripsi ciphertext. Parameter](https://aws.amazon.com/blogs/developer/best-practices-for-local-file-parameters/) tidak diperlukan saat mendekripsi dengan kunci KMS enkripsi `--source-key-id` simetris. AWS KMS bisa mendapatkan kunci KMS yang digunakan untuk mengenkripsi data dari metadata di gumpalan ciphertext. Tetapi selalu merupakan praktik terbaik untuk menentukan kunci KMS yang Anda gunakan. Praktik ini memastikan bahwa Anda menggunakan kunci KMS yang Anda inginkan, dan mencegah Anda mendekripsi ciphertext secara tidak sengaja menggunakan kunci KMS yang tidak Anda percayai. Tentukan kunci KMS tujuan, yang mengenkripsi ulang data.Parameter selalu diperlukan. `--destination-key-id` Contoh ini menggunakan ARN kunci, tetapi Anda dapat menggunakan pengidentifikasi kunci yang valid.Minta output teks biasa sebagai nilai teks.Parameter `--query` memberitahu CLI untuk mendapatkan hanya nilai bidang dari output. `Plaintext` `--output`Parameter mengembalikan output sebagai text.base64-decode plaintext dan menyimpannya dalam file.Contoh berikut pipa (\$1) nilai `Plaintext` parameter ke utilitas Base64, yang menerjemahkan itu. Kemudian, itu mengalihkan (>) output yang diterjemahkan ke file. `ExamplePlaintext`  
Sebelum menjalankan perintah ini, ganti kunci contoh IDs dengan pengidentifikasi kunci yang valid dari AWS akun Anda.  

```
aws kms re-encrypt \
    --ciphertext-blob fileb://ExampleEncryptedFile \
    --source-key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --destination-key-id 0987dcba-09fe-87dc-65ba-ab0987654321 \
    --query CiphertextBlob \
    --output text | base64 --decode > ExampleReEncryptedFile
```
Perintah ini tidak menghasilkan output. Output dari `re-encrypt` perintah adalah base64-decoded dan disimpan dalam file.  
Untuk informasi selengkapnya, lihat [ReEncrypt](https://docs.aws.amazon.com/kms/latest/APIReference/API_ReEncrypt.html)di *Referensi API Layanan Manajemen AWS Kunci*.  
**Contoh 2: Untuk mengenkripsi ulang pesan terenkripsi di bawah tombol KMS simetris yang berbeda (prompt perintah Windows).**  
Contoh `re-encrypt` perintah berikut adalah sama dengan yang sebelumnya kecuali bahwa ia menggunakan `certutil` utilitas untuk Base64-decode data plaintext. Prosedur ini membutuhkan dua perintah, seperti yang ditunjukkan pada contoh berikut.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda.  

```
aws kms re-encrypt ^
    --ciphertext-blob fileb://ExampleEncryptedFile ^
    --source-key-id 1234abcd-12ab-34cd-56ef-1234567890ab ^
    --destination-key-id 0987dcba-09fe-87dc-65ba-ab0987654321 ^
    --query CiphertextBlob ^
    --output text > ExampleReEncryptedFile.base64
```
Kemudian gunakan `certutil` utilitas  

```
certutil -decode ExamplePlaintextFile.base64 ExamplePlaintextFile
```
Output:  

```
Input Length = 18
Output Length = 12
CertUtil: -decode command completed successfully.
```
Untuk informasi selengkapnya, lihat [ReEncrypt](https://docs.aws.amazon.com/kms/latest/APIReference/API_ReEncrypt.html)di *Referensi API Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [ReEncrypt](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/re-encrypt.html)di *Referensi AWS CLI Perintah*. 

### `retire-grant`
<a name="kms_RetireGrant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`retire-grant`.

**AWS CLI**  
**Untuk pensiun hibah pada kunci master pelanggan**  
`retire-grant`Contoh berikut menghapus hibah dari kunci KMS.  
Contoh perintah berikut menentukan `grant-id` dan `key-id` parameter. Nilai `key-id` parameter harus menjadi kunci ARN dari kunci KMS.  

```
aws kms retire-grant \
    --grant-id 1234a2345b8a4e350500d432bccf8ecd6506710e1391880c4f7f7140160c9af3 \
    --key-id arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab
```
Perintah ini tidak menghasilkan output. Untuk mengonfirmasi bahwa hibah telah pensiun, gunakan `list-grants` perintah.  
Untuk informasi selengkapnya, lihat [Pensiun dan pencabutan hibah di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#grant-delete) Layanan *Manajemen AWS Utama*.  
+  Untuk detail API, lihat [RetireGrant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/retire-grant.html)di *Referensi AWS CLI Perintah*. 

### `revoke-grant`
<a name="kms_RevokeGrant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-grant`.

**AWS CLI**  
**Untuk mencabut hibah pada kunci master pelanggan**  
`revoke-grant`Contoh berikut menghapus hibah dari kunci KMS. Contoh perintah berikut menentukan `grant-id` dan `key-id` parameter. Nilai `key-id` parameter dapat berupa ID kunci atau kunci ARN dari kunci KMS.  

```
aws kms revoke-grant \
    --grant-id 1234a2345b8a4e350500d432bccf8ecd6506710e1391880c4f7f7140160c9af3 \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Perintah ini tidak menghasilkan output. Untuk mengonfirmasi bahwa hibah telah dicabut, gunakan `list-grants` perintah.  
Untuk informasi selengkapnya, lihat [Pensiun dan pencabutan hibah di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#grant-delete) Layanan *Manajemen AWS Utama*.  
+  Untuk detail API, lihat [RevokeGrant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/revoke-grant.html)di *Referensi AWS CLI Perintah*. 

### `rotate-key-on-demand`
<a name="kms_RotateKeyOnDemand_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rotate-key-on-demand`.

**AWS CLI**  
**Untuk melakukan rotasi on-demand dari kunci KMS**  
`rotate-key-on-demand`Contoh berikut segera memulai rotasi bahan kunci untuk kunci KMS yang ditentukan.  

```
aws kms rotate-key-on-demand \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Output:  

```
{
    "KeyId": "1234abcd-12ab-34cd-56ef-1234567890ab"
}
```
Untuk informasi selengkapnya, lihat [Cara melakukan rotasi kunci sesuai permintaan](https://docs.aws.amazon.com/kms/latest/developerguide/rotate-keys.html#rotating-keys-on-demand) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [RotateKeyOnDemand](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/rotate-key-on-demand.html)di *Referensi AWS CLI Perintah*. 

### `schedule-key-deletion`
<a name="kms_ScheduleKeyDeletion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`schedule-key-deletion`.

**AWS CLI**  
**Untuk menjadwalkan penghapusan kunci KMS yang dikelola pelanggan.**  
`schedule-key-deletion`Contoh berikut menjadwalkan kunci KMS terkelola pelanggan yang ditentukan untuk dihapus dalam 15 hari.  
`--key-id`Parameter mengidentifikasi kunci KMS. Contoh ini menggunakan nilai ARN kunci, tetapi Anda dapat menggunakan ID kunci atau ARN dari kunci `--pending-window-in-days` KMS.Parameter menentukan panjang masa tunggu 7-30 hari. Secara default, masa tunggu adalah 30 hari. Contoh ini menentukan nilai 15, yang memberitahu AWS untuk secara permanen menghapus kunci KMS 15 hari setelah perintah selesai.  

```
aws kms schedule-key-deletion \
    --key-id arn:aws:kms:us-west-2:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab \
    --pending-window-in-days 15
```
Respons termasuk ARN kunci, status kunci, periode tunggu (`PendingWindowInDays`), dan tanggal penghapusan dalam waktu Unix. Untuk melihat tanggal penghapusan dalam waktu setempat, gunakan konsol AWS KMS. Kunci KMS dalam status `PendingDeletion` kunci tidak dapat digunakan dalam operasi kriptografi.  

```
{
    "KeyId": "arn:aws:kms:us-west-2:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "DeletionDate": "2022-06-18T23:43:51.272000+00:00",
    "KeyState": "PendingDeletion",
    "PendingWindowInDays": 15
}
```
Untuk informasi selengkapnya, lihat [Menghapus kunci](https://docs.aws.amazon.com/kms/latest/developerguide/deleting-keys.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [ScheduleKeyDeletion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/schedule-key-deletion.html)di *Referensi AWS CLI Perintah*. 

### `sign`
<a name="kms_Sign_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`sign`.

**AWS CLI**  
**Contoh 1: Untuk menghasilkan tanda tangan digital untuk pesan**  
`sign`Contoh berikut menghasilkan tanda tangan kriptografi untuk pesan singkat. Output dari perintah mencakup `Signature` bidang yang dikodekan basis-64 yang dapat Anda verifikasi dengan menggunakan perintah. `verify`  
Anda harus menentukan pesan yang akan ditandatangani dan algoritma penandatanganan yang didukung oleh kunci KMS asimetris Anda. Untuk mendapatkan algoritma penandatanganan untuk kunci KMS Anda, gunakan perintah. `describe-key`  
Di AWS CLI v2, nilai `message` parameter harus dikodekan Base64. Atau, Anda dapat menyimpan pesan dalam file dan menggunakan `fileb://` awalan, yang memberitahu AWS CLI untuk membaca data biner dari file.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda. ID kunci harus mewakili kunci KMS asimetris dengan penggunaan kunci SIGN\$1VERIFY.  

```
msg=(echo 'Hello World' | base64)

aws kms sign \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --message fileb://UnsignedMessage \
    --message-type RAW \
    --signing-algorithm RSASSA_PKCS1_V1_5_SHA_256
```
Output:  

```
{
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "Signature": "ABCDEFhpyVYyTxbafE74ccSvEJLJr3zuoV1Hfymz4qv+/fxmxNLA7SE1SiF8lHw80fKZZ3bJ...",
    "SigningAlgorithm": "RSASSA_PKCS1_V1_5_SHA_256"
}
```
Untuk informasi selengkapnya tentang penggunaan kunci KMS asimetris di AWS KMS, lihat [Kunci asimetris di AWS KMS di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) Layanan Manajemen *AWS Kunci*.  
**Contoh 2: Untuk menyimpan tanda tangan digital dalam file (Linux dan macOS)**  
`sign`Contoh berikut menghasilkan tanda tangan kriptografi untuk pesan singkat yang disimpan dalam file lokal. Perintah juga mendapatkan `Signature` properti dari respons, Base64-mendekodekannya dan menyimpannya dalam file. ExampleSignature Anda dapat menggunakan file tanda tangan dalam `verify` perintah yang memverifikasi tanda tangan.  
`sign`Perintah ini memerlukan pesan yang disandikan Base64 dan algoritme penandatanganan yang didukung oleh kunci KMS asimetris Anda. Untuk mendapatkan algoritma penandatanganan yang didukung oleh kunci KMS Anda, gunakan perintah. `describe-key`  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda. ID kunci harus mewakili kunci KMS asimetris dengan penggunaan kunci SIGN\$1VERIFY.  

```
echo 'hello world' | base64 > EncodedMessage

aws kms sign \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --message fileb://EncodedMessage \
    --message-type RAW \
    --signing-algorithm RSASSA_PKCS1_V1_5_SHA_256 \
    --output text \
    --query Signature | base64 --decode > ExampleSignature
```
Perintah ini tidak menghasilkan output. Contoh ini mengekstrak `Signature` properti output dan menyimpannya dalam file.  
Untuk informasi selengkapnya tentang penggunaan kunci KMS asimetris di AWS KMS, lihat [Kunci asimetris di AWS KMS di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) Layanan Manajemen *AWS Kunci*.  
+  Untuk detail API, lihat *Referensi AWS CLI Perintah* [Masuk](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/sign.html). 

### `tag-resource`
<a name="kms_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke kunci KMS**  
`tag-resource`Contoh berikut menambahkan `"Purpose":"Test"` dan `"Dept":"IT"` tag ke kunci KMS yang dikelola pelanggan. Anda dapat menggunakan tag seperti ini untuk memberi label kunci KMS dan membuat kategori kunci KMS untuk izin dan audit.  
Untuk menentukan kunci KMS, gunakan `key-id` parameter. Contoh ini menggunakan nilai ID kunci, tetapi Anda dapat menggunakan ID kunci atau kunci ARN dalam perintah ini.  

```
aws kms tag-resource \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --tags TagKey='Purpose',TagValue='Test' TagKey='Dept',TagValue='IT'
```
Perintah ini tidak menghasilkan output. Untuk melihat tag pada tombol AWS KMS KMS, gunakan perintah. `list-resource-tags`  
Untuk informasi selengkapnya tentang penggunaan tag di AWS KMS, lihat [Menandai kunci](https://docs.aws.amazon.com/kms/latest/developerguide/tagging-keys.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="kms_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari kunci KMS**  
`untag-resource`Contoh berikut menghapus tag dengan `"Purpose"` kunci dari kunci KMS yang dikelola pelanggan.  
Untuk menentukan kunci KMS, gunakan `key-id` parameter. Contoh ini menggunakan nilai ID kunci, tetapi Anda dapat menggunakan ID kunci atau kunci ARN dalam perintah ini. Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda.  

```
aws kms untag-resource \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --tag-key 'Purpose'
```
Perintah ini tidak menghasilkan output. Untuk melihat tag pada tombol AWS KMS KMS, gunakan perintah. `list-resource-tags`  
Untuk informasi selengkapnya tentang penggunaan tag di AWS KMS, lihat [Menandai kunci](https://docs.aws.amazon.com/kms/latest/developerguide/tagging-keys.html) di Panduan *Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-alias`
<a name="kms_UpdateAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-alias`.

**AWS CLI**  
**Untuk mengaitkan alias dengan kunci KMS yang berbeda**  
`update-alias`Contoh berikut mengaitkan alias `alias/test-key` dengan kunci KMS yang berbeda.  
`--alias-name`Parameter menentukan alias. Nilai nama alias harus dimulai dengan`alias/`. `--target-key-id` Parameter menentukan kunci KMS untuk mengasosiasikan dengan alias. Anda tidak perlu menentukan kunci KMS saat ini untuk alias.  

```
aws kms update-alias \
    --alias-name alias/test-key \
    --target-key-id 1234abcd-12ab-34cd-56ef-1234567890ab
```
Perintah ini tidak menghasilkan output. Untuk menemukan alias, gunakan `list-aliases` perintah.  
Untuk informasi selengkapnya, lihat [Memperbarui alias](https://docs.aws.amazon.com/kms/latest/developerguide/alias-manage.html#alias-update) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [UpdateAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/update-alias.html)di *Referensi AWS CLI Perintah*. 

### `update-custom-key-store`
<a name="kms_UpdateCustomKeyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-custom-key-store`.

**AWS CLI**  
**Contoh 1: Untuk mengedit nama ramah dari toko kunci kustom**  
`update-custom-key-store`Contoh berikut mengubah nama toko kunci kustom. Contoh ini berfungsi untuk penyimpanan kunci AWS CloudHSM atau penyimpanan kunci eksternal.  
Gunakan `custom-key-store-id` untuk mengidentifikasi toko kunci. Gunakan `new-custom-key-store-name` parameter untuk menentukan nama ramah baru.  
Untuk memperbarui nama ramah dari toko kunci AWS CloudHSM, Anda harus terlebih dahulu memutuskan sambungan key store, seperti dengan menggunakan perintah. `disconnect-custom-key-store` Anda dapat memperbarui nama ramah dari toko kunci eksternal saat terhubung atau terputus. Untuk menemukan status koneksi toko kunci kustom Anda, gunakan `describe-custom-key-store` perintah.  

```
aws kms update-custom-key-store \
    --custom-key-store-id cks-1234567890abcdef0 \
    --new-custom-key-store-name ExampleKeyStore
```
Perintah ini tidak mengembalikan data apa pun. Untuk memverifikasi bahwa perintah berfungsi, gunakan `describe-custom-key-stores` perintah.  
*Untuk informasi selengkapnya tentang memperbarui penyimpanan kunci AWS CloudHSM, lihat [Mengedit setelan penyimpanan kunci AWS CloudHSM di Panduan Pengembang Layanan Manajemen Kunci](https://docs.aws.amazon.com/kms/latest/developerguide/update-keystore.html).AWS *  
Untuk informasi selengkapnya tentang memperbarui penyimpanan kunci eksternal, lihat [Mengedit properti penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/update-xks-keystore.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 2: Untuk mengedit kata sandi kmsuser dari toko kunci AWS CloudHSM**  
`update-custom-key-store`Contoh berikut memperbarui nilai `kmsuser` kata sandi ke kata sandi saat ini untuk `kmsuser` di klaster CloudHSM yang terkait dengan penyimpanan kunci yang ditentukan. Perintah ini tidak mengubah `kmsuser` kata sandi klaster. Itu hanya memberi tahu AWS KMS kata sandi saat ini. Jika KMS tidak memiliki `kmsuser` kata sandi saat ini, KMS tidak dapat terhubung ke toko kunci AWS CloudHSM.  
**CATATAN:** Sebelum memperbarui toko kunci AWS CloudHSM, Anda harus memutusnya. Gunakan perintah `disconnect-custom-key-store`. Setelah perintah selesai, Anda dapat menghubungkan kembali toko kunci CloudHSM AWS . Gunakan perintah `connect-custom-key-store`.  

```
aws kms update-custom-key-store \
    --custom-key-store-id cks-1234567890abcdef0 \
    --key-store-password ExamplePassword
```
Perintah ini tidak memberikan output apa pun. Untuk memverifikasi bahwa perubahan itu efektif, gunakan `describe-custom-key-stores` perintah.  
*Untuk informasi selengkapnya tentang memperbarui penyimpanan kunci AWS CloudHSM, lihat [Mengedit setelan penyimpanan kunci AWS CloudHSM di Panduan Pengembang Layanan Manajemen Kunci](https://docs.aws.amazon.com/kms/latest/developerguide/update-keystore.html).AWS *  
**Contoh 3: Untuk mengedit klaster AWS CloudHSM dari toko kunci CloudHSM AWS **  
Contoh berikut mengubah klaster AWS CloudHSM yang dikaitkan dengan penyimpanan kunci AWS CloudHSM ke cluster terkait, seperti cadangan yang berbeda dari cluster yang sama.  
**CATATAN:** Sebelum memperbarui toko kunci AWS CloudHSM, Anda harus memutusnya. Gunakan perintah `disconnect-custom-key-store`. Setelah perintah selesai, Anda dapat menghubungkan kembali toko kunci CloudHSM AWS . Gunakan perintah `connect-custom-key-store`.  

```
aws kms update-custom-key-store \
    --custom-key-store-id cks-1234567890abcdef0 \
    --cloud-hsm-cluster-id cluster-1a23b4cdefg
```
Perintah ini tidak memberikan output apa pun. Untuk memverifikasi bahwa perubahan itu efektif, gunakan `describe-custom-key-stores` perintah.  
*Untuk informasi selengkapnya tentang memperbarui penyimpanan kunci AWS CloudHSM, lihat [Mengedit setelan penyimpanan kunci AWS CloudHSM di Panduan Pengembang Layanan Manajemen Kunci](https://docs.aws.amazon.com/kms/latest/developerguide/update-keystore.html).AWS *  
**Contoh 4: Untuk mengedit kredensi otentikasi proxy dari penyimpanan kunci eksternal**  
Contoh berikut memperbarui kredensi otentikasi proxy untuk penyimpanan kunci eksternal Anda. Anda harus menentukan keduanya `raw-secret-access-key` dan`access-key-id`, bahkan jika Anda hanya mengubah salah satu nilai. Anda dapat menggunakan fitur ini untuk memperbaiki kredensi yang tidak valid atau untuk mengubah kredensialnya saat proxy penyimpanan kunci eksternal memutarnya.  
Tetapkan kredensi otentikasi proxy untuk AWS KMS di toko kunci eksternal Anda. Kemudian gunakan perintah ini untuk memberikan kredensi ke AWS KMS. AWS KMS menggunakan kredensi ini untuk menandatangani permintaannya ke proxy penyimpanan kunci eksternal Anda.  
Anda dapat memperbarui kredensi otentikasi proxy saat penyimpanan kunci eksternal terhubung atau terputus. Untuk menemukan status koneksi toko kunci kustom Anda, gunakan `describe-custom-key-store` perintah.  

```
aws kms update-custom-key-store \
    --custom-key-store-id cks-1234567890abcdef0 \
    --xks-proxy-authentication-credential "AccessKeyId=ABCDE12345670EXAMPLE, RawSecretAccessKey=DXjSUawnel2fr6SKC7G25CNxTyWKE5PF9XX6H/u9pSo="
```
Perintah ini tidak memberikan output apa pun. Untuk memverifikasi bahwa perubahan itu efektif, gunakan `describe-custom-key-stores` perintah.  
Untuk informasi selengkapnya tentang memperbarui penyimpanan kunci eksternal, lihat [Mengedit properti penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/update-xks-keystore.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
**Contoh 5: Untuk mengedit konektivitas proxy dari penyimpanan kunci eksternal**  
Contoh berikut mengubah opsi konektivitas proxy penyimpanan kunci eksternal dari konektivitas titik akhir publik ke konektivitas layanan titik akhir VPC. Selain mengubah `xks-proxy-connectivity` nilai, Anda harus mengubah `xks-proxy-uri-endpoint` nilai untuk mencerminkan nama DNS pribadi yang terkait dengan layanan titik akhir VPC. Anda juga harus menambahkan `xks-proxy-vpc-endpoint-service-name` nilai.  
**CATATAN:** Sebelum memperbarui konektivitas proxy dari toko eksternal, Anda harus memutusnya. Gunakan perintah `disconnect-custom-key-store`. Setelah perintah selesai, Anda dapat menghubungkan kembali penyimpanan kunci eksternal dengan menggunakan perintah. `connect-custom-key-store`  

```
aws kms update-custom-key-store \
    --custom-key-store-id cks-1234567890abcdef0 \
    --xks-proxy-connectivity VPC_ENDPOINT_SERVICE \
    --xks-proxy-uri-endpoint "https://myproxy-private.xks.example.com" \
    --xks-proxy-vpc-endpoint-service-name "com.amazonaws.vpce.us-east-1.vpce-svc-example"
```
Perintah ini tidak memberikan output apa pun. Untuk memverifikasi bahwa perubahan itu efektif, gunakan `describe-custom-key-stores` perintah.  
Untuk informasi selengkapnya tentang memperbarui penyimpanan kunci eksternal, lihat [Mengedit properti penyimpanan kunci eksternal](https://docs.aws.amazon.com/kms/latest/developerguide/update-xks-keystore.html) di *Panduan Pengembang Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [UpdateCustomKeyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/update-custom-key-store.html)di *Referensi AWS CLI Perintah*. 

### `update-key-description`
<a name="kms_UpdateKeyDescription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-key-description`.

**AWS CLI**  
**Contoh 1: Untuk menambah atau mengubah deskripsi ke kunci KMS yang dikelola pelanggan**  
`update-key-description`Contoh berikut menambahkan deskripsi ke kunci KMS yang dikelola pelanggan. Anda dapat menggunakan perintah yang sama untuk mengubah deskripsi yang ada.  
`--key-id`Parameter mengidentifikasi kunci KMS dalam perintah. Contoh ini menggunakan nilai ARN kunci, tetapi Anda dapat menggunakan ID kunci atau ARN kunci dari kunci KMS.Parameter menentukan deskripsi baru`--description`. Nilai parameter ini menggantikan deskripsi kunci KMS saat ini, jika ada.  

```
aws kms update-key-description \
    --key-id arn:aws:kms:us-west-2:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab \
    --description "IT Department test key"
```
Perintah ini tidak menghasilkan output. Untuk melihat deskripsi kunci KMS, gunakan `describe-key` perintah.  
Untuk informasi selengkapnya, lihat [UpdateKeyDescription](https://docs.aws.amazon.com/cli/latest/reference/kms/update-key-description.html)di *Referensi API Layanan Manajemen AWS Kunci*.  
**Contoh 2: Untuk menghapus deskripsi kunci KMS yang dikelola pelanggan**  
`update-key-description`Contoh berikut menghapus deskripsi ke kunci KMS yang dikelola pelanggan.  
`--key-id`Parameter mengidentifikasi kunci KMS dalam perintah. Contoh ini menggunakan nilai ID kunci, tetapi Anda dapat menggunakan ID kunci atau ARN kunci dari kunci `--description` KMS.Parameter dengan nilai string kosong (“) menghapus deskripsi yang ada.  

```
aws kms update-key-description \
    --key-id 0987dcba-09fe-87dc-65ba-ab0987654321 \
    --description ''
```
Perintah ini tidak menghasilkan output. Untuk melihat deskripsi kunci KMS, gunakan perintah deskripsi-kunci.  
Untuk informasi selengkapnya, lihat [UpdateKeyDescription](https://docs.aws.amazon.com/cli/latest/reference/kms/update-key-description.html)di *Referensi API Layanan Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [UpdateKeyDescription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/update-key-description.html)di *Referensi AWS CLI Perintah*. 

### `verify-mac`
<a name="kms_VerifyMac_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-mac`.

**AWS CLI**  
**Contoh 1: Untuk memverifikasi HMAC**  
`verify-mac`Perintah berikut memverifikasi HMAC untuk pesan tertentu, kunci HMAC KMS, dan algoritma MAC. Nilai 'true' dalam MacValid nilai dalam respons menunjukkan bahwa HMAC valid.  
Di AWS CLI v2, nilai `message` parameter harus dikodekan Base64. Atau, Anda dapat menyimpan pesan dalam file dan menggunakan `fileb://` awalan, yang memberitahu AWS CLI untuk membaca data biner dari file.  
MAC yang Anda tentukan tidak dapat dikodekan base64. Untuk bantuan decoding MAC yang dikembalikan `generate-mac` perintah, lihat contoh `generate-mac` perintah.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda. ID kunci harus mewakili kunci HMAC KMS dengan penggunaan kunci. `GENERATE_VERIFY_MAC`  

```
msg=(echo 'Hello World' | base64)

aws kms verify-mac \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --message fileb://Message \
    --mac-algorithm HMAC_SHA_384 \
    --mac fileb://ExampleMac
```
Output:  

```
{
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "MacValid": true,
    "MacAlgorithm": "HMAC_SHA_384"
}
```
Untuk informasi selengkapnya tentang menggunakan kunci KMS HMAC di AWS KMS, lihat [kunci HMAC di AWS KMS di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/hmac.html) Layanan Manajemen *AWS Kunci*.  
+  Untuk detail API, lihat [VerifyMac](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/verify-mac.html)di *Referensi AWS CLI Perintah*. 

### `verify`
<a name="kms_Verify_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify`.

**AWS CLI**  
**Untuk memverifikasi tanda tangan digital**  
`verify`Perintah berikut memverifikasi tanda tangan kriptografi untuk pesan singkat yang disandikan Base64. ID kunci, pesan, jenis pesan, dan algoritma penandatanganan harus sama dengan yang digunakan untuk menandatangani pesan.  
Di AWS CLI v2, nilai `message` parameter harus dikodekan Base64. Atau, Anda dapat menyimpan pesan dalam file dan menggunakan `fileb://` awalan, yang memberitahu AWS CLI untuk membaca data biner dari file.  
Tanda tangan yang Anda tentukan tidak dapat dikodekan base64. Untuk bantuan decoding tanda tangan yang dikembalikan `sign` perintah, lihat contoh `sign` perintah.  
Output dari perintah termasuk `SignatureValid` bidang Boolean yang menunjukkan bahwa tanda tangan telah diverifikasi. Jika validasi tanda tangan gagal, `verify` perintah juga gagal.  
Sebelum menjalankan perintah ini, ganti ID kunci contoh dengan ID kunci yang valid dari AWS akun Anda.  

```
aws kms verify \
    --key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
    --message fileb://EncodedMessage \
    --message-type RAW \
    --signing-algorithm RSASSA_PKCS1_V1_5_SHA_256 \
    --signature fileb://ExampleSignature
```
Output:  

```
{
    "KeyId": "arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab",
    "SignatureValid": true,
    "SigningAlgorithm": "RSASSA_PKCS1_V1_5_SHA_256"
}
```
Untuk informasi selengkapnya tentang penggunaan kunci KMS asimetris di AWS KMS, lihat [Menggunakan kunci asimetris di Panduan Pengembang](https://docs.aws.amazon.com/kms/latest/developerguide/symmetric-asymmetric.html) Layanan *Manajemen AWS Kunci*.  
+  Untuk detail API, lihat [Verifikasi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kms/verify.html) di *Referensi AWS CLI Perintah*. 

# Contoh Lake Formation menggunakan AWS CLI
<a name="cli_2_lakeformation_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Lake Formation.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-lf-tags-to-resource`
<a name="lakeformation_AddLfTagsToResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-lf-tags-to-resource`.

**AWS CLI**  
**Untuk melampirkan satu atau beberapa LF-tag ke sumber daya yang ada**  
`add-lf-tags-to-resource`Contoh berikut melampirkan LF-tag yang diberikan ke sumber daya tabel.  

```
aws lakeformation add-lf-tags-to-resource \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Resource": {
        "Table": {
            "CatalogId": "123456789111",
            "DatabaseName": "tpc",
            "Name": "dl_tpc_promotion"
        }
    },
    "LFTags": [{
        "CatalogId": "123456789111",
        "TagKey": "usergroup",
        "TagValues": [
            "analyst"
        ]
    }]
}
```
Output:  

```
{
    "Failures": []
}
```
Untuk informasi selengkapnya, lihat [Menetapkan LF-tag ke sumber daya Katalog Data di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/TBAC-assigning-tags.html) Pengembang *AWS Lake Formation*.  
+  Untuk detail API, lihat [AddLfTagsToResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/add-lf-tags-to-resource.html)di *Referensi AWS CLI Perintah*. 

### `batch-grant-permissions`
<a name="lakeformation_BatchGrantPermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-grant-permissions`.

**AWS CLI**  
**Untuk memberikan izin massal pada sumber daya kepada kepala sekolah**  
`batch-grant-permissions`Contoh berikut massal memberikan akses pada sumber daya tertentu ke kepala sekolah.  

```
aws lakeformation batch-grant-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Entries": [{
            "Id": "1",
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
            },
            "Resource": {
                "Table": {
                    "CatalogId": "123456789111",
                    "DatabaseName": "tpc",
                    "Name": "dl_tpc_promotion"
                }
            },
            "Permissions": [
                "ALL"
            ],
            "PermissionsWithGrantOption": [
                "ALL"
            ]
        },
        {
            "Id": "2",
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
            },
            "Resource": {
                "Table": {
                    "CatalogId": "123456789111",
                    "DatabaseName": "tpc",
                    "Name": "dl_tpc_customer"
                }
            },
            "Permissions": [
                "ALL"
            ],
            "PermissionsWithGrantOption": [
                "ALL"
            ]
        },
        {
            "Id": "3",
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-business-analyst"
            },
            "Resource": {
                "Table": {
                    "CatalogId": "123456789111",
                    "DatabaseName": "tpc",
                    "Name": "dl_tpc_promotion"
                }
            },
            "Permissions": [
                "ALL"
            ],
            "PermissionsWithGrantOption": [
                "ALL"
            ]
        },
        {
            "Id": "4",
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
            },
            "Resource": {
                "DataCellsFilter": {
                    "TableCatalogId": "123456789111",
                    "DatabaseName": "tpc",
                    "TableName": "dl_tpc_item",
                    "Name": "developer_item"
                }
            },
            "Permissions": [
                "SELECT"
            ],
            "PermissionsWithGrantOption": []
        }
    ]
}
```
Output:  

```
{
    "Failures": []
}
```
Untuk informasi selengkapnya, lihat [Memberikan dan mencabut izin pada sumber daya Katalog Data di](https://docs.aws.amazon.com/lake-formation/latest/dg/granting-catalog-permissions.html) Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [BatchGrantPermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/batch-grant-permissions.html)di *Referensi AWS CLI Perintah*. 

### `batch-revoke-permissions`
<a name="lakeformation_BatchRevokePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-revoke-permissions`.

**AWS CLI**  
**Untuk mencabut izin secara massal pada sumber daya dari prinsipal**  
`batch-revoke-permissions`Contoh berikut massal mencabut akses pada sumber daya tertentu dari prinsipal.  

```
aws lakeformation batch-revoke-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Entries": [{
            "Id": "1",
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
            },
            "Resource": {
                "Table": {
                    "CatalogId": "123456789111",
                    "DatabaseName": "tpc",
                    "Name": "dl_tpc_promotion"
                }
            },
            "Permissions": [
                "ALL"
            ],
            "PermissionsWithGrantOption": [
                "ALL"
            ]
        },
        {
            "Id": "2",
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-business-analyst"
            },
            "Resource": {
                "Table": {
                    "CatalogId": "123456789111",
                    "DatabaseName": "tpc",
                    "Name": "dl_tpc_promotion"
                }
            },
            "Permissions": [
                "ALL"
            ],
            "PermissionsWithGrantOption": [
                "ALL"
            ]
        }
    ]
}
```
Output:  

```
{
    "Failures": []
}
```
Untuk informasi selengkapnya, lihat [Memberikan dan mencabut izin pada sumber daya Katalog Data di](https://docs.aws.amazon.com/lake-formation/latest/dg/granting-catalog-permissions.html) Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [BatchRevokePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/batch-revoke-permissions.html)di *Referensi AWS CLI Perintah*. 

### `cancel-transaction`
<a name="lakeformation_CancelTransaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-transaction`.

**AWS CLI**  
**Untuk membatalkan transaksi**  
`cancel-transaction`Contoh berikut membatalkan transaksi.  

```
aws lakeformation cancel-transaction \
    --transaction-id='b014d972ca8347b89825e33c5774aec4'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [CancelTransaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/cancel-transaction.html)di *Referensi AWS CLI Perintah*. 

### `commit-transaction`
<a name="lakeformation_CommitTransaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`commit-transaction`.

**AWS CLI**  
**Untuk melakukan transaksi**  
`commit-transaction`Contoh berikut melakukan transaksi.  

```
aws lakeformation commit-transaction \
    --transaction-id='b014d972ca8347b89825e33c5774aec4'
```
Output:  

```
{
    "TransactionStatus": "committed"
}
```
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [CommitTransaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/commit-transaction.html)di *Referensi AWS CLI Perintah*. 

### `create-data-cells-filter`
<a name="lakeformation_CreateDataCellsFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-data-cells-filter`.

**AWS CLI**  
**Contoh 1: Untuk membuat filter sel data**  
`create-data-cells-filter`Contoh berikut membuat filter sel data untuk memungkinkan seseorang memberikan akses ke kolom tertentu berdasarkan kondisi baris.  

```
aws lakeformation create-data-cells-filter \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "TableData": {
        "ColumnNames": ["p_channel_details", "p_start_date_sk", "p_promo_name"],
        "DatabaseName": "tpc",
        "Name": "developer_promotion",
        "RowFilter": {
            "FilterExpression": "p_promo_name='ese'"
        },
        "TableCatalogId": "123456789111",
        "TableName": "dl_tpc_promotion"
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemfilteran data dan keamanan tingkat sel di Lake Formation di Panduan Pengembang AWS](https://docs.aws.amazon.com/lake-formation/latest/dg/data-filtering.html) *Lake Formation*.  
**Contoh 2: Untuk membuat filter kolom**  
`create-data-cells-filter`Contoh berikut membuat filter data untuk memungkinkan seseorang untuk memberikan akses ke kolom tertentu.  

```
aws lakeformation create-data-cells-filter \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "TableData": {
        "ColumnNames": ["p_channel_details", "p_start_date_sk", "p_promo_name"],
        "DatabaseName": "tpc",
        "Name": "developer_promotion_allrows",
        "RowFilter": {
            "AllRowsWildcard": {}
        },
        "TableCatalogId": "123456789111",
        "TableName": "dl_tpc_promotion"
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemfilteran data dan keamanan tingkat sel di Lake Formation di Panduan Pengembang AWS](https://docs.aws.amazon.com/lake-formation/latest/dg/data-filtering.html) *Lake Formation*.  
**Contoh 3: Untuk membuat filter data dengan kolom kecualikan**  
`create-data-cells-filter`Contoh berikut membuat filter data untuk memungkinkan seseorang untuk memberikan akses semua kecuali kolom yang disebutkan.  

```
aws lakeformation create-data-cells-filter \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "TableData": {
        "ColumnWildcard": {
            "ExcludedColumnNames": ["p_channel_details", "p_start_date_sk"]
        },
        "DatabaseName": "tpc",
        "Name": "developer_promotion_excludecolumn",
        "RowFilter": {
            "AllRowsWildcard": {}
        },
        "TableCatalogId": "123456789111",
        "TableName": "dl_tpc_promotion"
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemfilteran data dan keamanan tingkat sel di Lake Formation di Panduan Pengembang AWS](https://docs.aws.amazon.com/lake-formation/latest/dg/data-filtering.html) *Lake Formation*.  
+  Untuk detail API, lihat [CreateDataCellsFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/create-data-cells-filter.html)di *Referensi AWS CLI Perintah*. 

### `create-lf-tag`
<a name="lakeformation_CreateLfTag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-lf-tag`.

**AWS CLI**  
**Untuk membuat LF-tag**  
`create-lf-tag`Contoh berikut membuat LF-tag dengan nama dan nilai yang ditentukan.  

```
aws lakeformation create-lf-tag \
    --catalog-id '123456789111' \
    --tag-key 'usergroup' \
    --tag-values '["developer","analyst","campaign"]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola LF-tag untuk kontrol akses metadata](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-tags.html) di Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [CreateLfTag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/create-lf-tag.html)di *Referensi AWS CLI Perintah*. 

### `delete-data-cells-filter`
<a name="lakeformation_DeleteDataCellsFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-data-cells-filter`.

**AWS CLI**  
**Untuk menghapus filter sel data**  
`delete-data-cells-filter`Contoh berikut menghapus filter sel data yang diberikan.  

```
aws lakeformation delete-data-cells-filter \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "TableCatalogId": "123456789111",
    "DatabaseName": "tpc",
    "TableName": "dl_tpc_promotion",
    "Name": "developer_promotion"
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pemfilteran data dan keamanan tingkat sel di Lake Formation di Panduan Pengembang AWS](https://docs.aws.amazon.com/lake-formation/latest/dg/data-filtering.html) *Lake Formation*.  
+  Untuk detail API, lihat [DeleteDataCellsFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/delete-data-cells-filter.html)di *Referensi AWS CLI Perintah*. 

### `delete-lf-tag`
<a name="lakeformation_DeleteLfTag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-lf-tag`.

**AWS CLI**  
**Untuk menghapus definisi LF-tag**  
`delete-lf-tag`Contoh berikut menghapus definisi LF-tag.  

```
aws lakeformation delete-lf-tag \
    --catalog-id '123456789111' \
    --tag-key 'usergroup'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola LF-tag untuk kontrol akses metadata](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-tags.html) di Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [DeleteLfTag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/delete-lf-tag.html)di *Referensi AWS CLI Perintah*. 

### `delete-objects-on-cancel`
<a name="lakeformation_DeleteObjectsOnCancel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-objects-on-cancel`.

**AWS CLI**  
**Untuk menghapus objek saat transaksi dibatalkan**  
`delete-objects-on-cancel`Contoh berikut menghapus objek s3 yang terdaftar saat transaksi dibatalkan.  

```
aws lakeformation delete-objects-on-cancel \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "012345678901",
    "DatabaseName": "tpc",
    "TableName": "dl_tpc_household_demographics_gov",
    "TransactionId": "1234d972ca8347b89825e33c5774aec4",
    "Objects": [{
        "Uri": "s3://lf-data-lake-012345678901/target/dl_tpc_household_demographics_gov/run-unnamed-1-part-block-0-r-00000-snappy-ff26b17504414fe88b302cd795eabd00.parquet",
        "ETag": "1234ab1fc50a316b149b4e1f21a73800"
    }]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [DeleteObjectsOnCancel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/delete-objects-on-cancel.html)di *Referensi AWS CLI Perintah*. 

### `deregister-resource`
<a name="lakeformation_DeregisterResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-resource`.

**AWS CLI**  
**Untuk membatalkan pendaftaran penyimpanan data lake**  
`deregister-resource`Contoh berikut membatalkan pendaftaran sumber daya seperti yang dikelola oleh Lake Formation.  

```
aws lakeformation deregister-resource \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ResourceArn": "arn:aws:s3:::lf-emr-athena-result-123"
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan lokasi Amazon S3 ke danau data Anda di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/register-data-lake.html) *Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [DeregisterResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/deregister-resource.html)di *Referensi AWS CLI Perintah*. 

### `describe-transaction`
<a name="lakeformation_DescribeTransaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-transaction`.

**AWS CLI**  
**Untuk mengambil detail transaksi**  
`describe-transaction`Contoh berikut mengembalikan rincian transaksi tunggal.  

```
aws lakeformation describe-transaction \
    --transaction-id='8cb4b1a7cc8d486fbaca9a64e7d9f5ce'
```
Output:  

```
{
    "TransactionDescription": {
        "TransactionId": "12345972ca8347b89825e33c5774aec4",
        "TransactionStatus": "committed",
        "TransactionStartTime": "2022-08-10T14:29:04.046000+00:00",
        "TransactionEndTime": "2022-08-10T14:29:09.681000+00:00"
    }
}
```
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [DescribeTransaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/describe-transaction.html)di *Referensi AWS CLI Perintah*. 

### `extend-transaction`
<a name="lakeformation_ExtendTransaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`extend-transaction`.

**AWS CLI**  
**Untuk memperpanjang transaksi**  
`extend-transaction`Contoh berikut memperluas transaksi.  

```
aws lakeformation extend-transaction \
    --transaction-id='8cb4b1a7cc8d486fbaca9a64e7d9f5ce'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [ExtendTransaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/extend-transaction.html)di *Referensi AWS CLI Perintah*. 

### `get-data-lake-settings`
<a name="lakeformation_GetDataLakeSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-data-lake-settings`.

**AWS CLI**  
**Untuk mengambil pengaturan danau data yang dikelola AWS Lake Formation**  
`get-data-lake-settings`Contoh berikut mengambil daftar administrator data lake dan pengaturan data lake lainnya.  

```
aws lakeformation get-data-lake-settings \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111"
}
```
Output:  

```
{
    "DataLakeSettings": {
        "DataLakeAdmins": [{
            "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-admin"
        }],
        "CreateDatabaseDefaultPermissions": [],
        "CreateTableDefaultPermissions": [
                {
                        "Principal": {
                            "DataLakePrincipalIdentifier": "IAM_ALLOWED_PRINCIPALS"
                        },
                        "Permissions": [
                            "ALL"
                        ]
                }
        ],
        "TrustedResourceOwners": [],
        "AllowExternalDataFiltering": true,
        "ExternalDataFilteringAllowList": [{
            "DataLakePrincipalIdentifier": "123456789111"
        }],
        "AuthorizedSessionTagValueList": [
            "Amazon EMR"
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mengubah setelan keamanan default untuk data lake Anda](https://docs.aws.amazon.com/lake-formation/latest/dg/change-settings.html) di *Panduan Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [GetDataLakeSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-data-lake-settings.html)di *Referensi AWS CLI Perintah*. 

### `get-effective-permissions-for-path`
<a name="lakeformation_GetEffectivePermissionsForPath_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-effective-permissions-for-path`.

**AWS CLI**  
**Untuk mengambil izin pada sumber daya yang terletak di jalur tertentu**  
`get-effective-permissions-for-path`Contoh berikut mengembalikan izin Lake Formation untuk tabel atau sumber database tertentu yang terletak di jalur di Amazon S3.  

```
aws lakeformation get-effective-permissions-for-path \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "ResourceArn": "arn:aws:s3:::lf-data-lake-123456789111"
}
```
Output:  

```
{
    "Permissions": [{
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-campaign-manager"
            },
            "Resource": {
                "Database": {
                    "Name": "tpc"
                }
            },
            "Permissions": [
                "DESCRIBE"
            ],
            "PermissionsWithGrantOption": []
        },
        {
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:role/EMR-RuntimeRole"
            },
            "Resource": {
                "Database": {
                    "Name": "tpc"
                }
            },
            "Permissions": [
                "ALL"
            ],
            "PermissionsWithGrantOption": []
        },
        {
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:saml-provider/oktaSAMLProvider:user/emr-developer"
            },
            "Resource": {
                "Database": {
                    "Name": "tpc"
                }
            },
            "Permissions": [
                "ALL",
                "DESCRIBE"
            ],
            "PermissionsWithGrantOption": []
        },
        {
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-admin"
            },
            "Resource": {
                "Database": {
                    "Name": "tpc"
                }
            },
            "Permissions": [
                "ALL",
                "ALTER",
                "CREATE_TABLE",
                "DESCRIBE",
                "DROP"
            ],
            "PermissionsWithGrantOption": [
                "ALL",
                "ALTER",
                "CREATE_TABLE",
                "DESCRIBE",
                "DROP"
            ]
        },
        {
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:role/LF-GlueServiceRole"
            },
            "Resource": {
                "Database": {
                    "Name": "tpc"
                }
            },
            "Permissions": [
                "CREATE_TABLE"
            ],
            "PermissionsWithGrantOption": []
        }
    ],
    "NextToken": "E5SlJDSTZleUp6SWpvaU9UQTNORE0zTXpFeE5Ua3pJbjE5TENKbGVIQnBjbUYwYVc5dUlqcDdJbk5sWTI5dVpITWlPakUyTm=="
}
```
Untuk informasi selengkapnya, lihat [Mengelola izin Lake Formation](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-permissions.html) di *Panduan Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [GetEffectivePermissionsForPath](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-effective-permissions-for-path.html)di *Referensi AWS CLI Perintah*. 

### `get-lf-tag`
<a name="lakeformation_GetLfTag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-lf-tag`.

**AWS CLI**  
**Untuk mengambil definisi LF-tag**  
`get-lf-tag`Contoh berikut mengambil definisi LF-tag.  

```
aws lakeformation get-lf-tag \
    --catalog-id '123456789111' \
    --tag-key 'usergroup'
```
Output:  

```
{
    "CatalogId": "123456789111",
    "TagKey": "usergroup",
    "TagValues": [
        "analyst",
        "campaign",
        "developer"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola LF-tag untuk kontrol akses metadata](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-tags.html) di Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [GetLfTag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-lf-tag.html)di *Referensi AWS CLI Perintah*. 

### `get-query-state`
<a name="lakeformation_GetQueryState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-state`.

**AWS CLI**  
**Untuk mengambil status kueri yang dikirimkan**  
`get-query-state`Contoh berikut mengembalikan keadaan query sebelumnya dikirimkan.  

```
aws lakeformation get-query-state \
    --query-id='1234273f-4a62-4cda-8d98-69615ee8be9b'
```
Output:  

```
{
    "State": "FINISHED"
}
```
Untuk informasi selengkapnya, lihat [Operasi data transaksional di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/transactions-data-operations.html) *Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [GetQueryState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-query-state.html)di *Referensi AWS CLI Perintah*. 

### `get-query-statistics`
<a name="lakeformation_GetQueryStatistics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-statistics`.

**AWS CLI**  
**Untuk mengambil statistik kueri**  
`get-query-statistics`Contoh berikut mengambil statistik pada perencanaan dan pelaksanaan query.  

```
aws lakeformation get-query-statistics \
    --query-id='1234273f-4a62-4cda-8d98-69615ee8be9b'
```
Output:  

```
{
    "ExecutionStatistics": {
        "AverageExecutionTimeMillis": 0,
        "DataScannedBytes": 0,
        "WorkUnitsExecutedCount": 0
    },
    "PlanningStatistics": {
        "EstimatedDataToScanBytes": 43235,
        "PlanningTimeMillis": 2377,
        "QueueTimeMillis": 440,
        "WorkUnitsGeneratedCount": 1
    },
    "QuerySubmissionTime": "2022-08-11T02:14:38.641870+00:00"
}
```
Untuk informasi selengkapnya, lihat [Operasi data transaksional di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/transactions-data-operations.html) *Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [GetQueryStatistics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-query-statistics.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-lf-tags`
<a name="lakeformation_GetResourceLfTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-lf-tags`.

**AWS CLI**  
**Untuk daftar LF-tag**  
`list-lf-tags`Contoh berikut mengembalikan daftar LF-tag yang pemohon memiliki izin untuk melihat.  

```
aws lakeformation list-lf-tags \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "ResourceShareType": "ALL",
    "MaxResults": 2
}
```
Output:  

```
{
"LFTags": [{
        "CatalogId": "123456789111",
        "TagKey": "category",
        "TagValues": [
            "private",
            "public"
        ]
    },
    {
        "CatalogId": "123456789111",
        "TagKey": "group",
        "TagValues": [
            "analyst",
            "campaign",
            "developer"
        ]
    }],
    "NextToken": "kIiwiZXhwaXJhdGlvbiI6eyJzZWNvbmRzIjoxNjYwMDY4dCI6ZmFsc2V9"
}
```
Untuk informasi selengkapnya, lihat [Mengelola LF-tag untuk kontrol akses metadata](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-tags.html) di Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [GetResourceLfTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-resource-lf-tags.html)di *Referensi AWS CLI Perintah*. 

### `get-table-objects`
<a name="lakeformation_GetTableObjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-table-objects`.

**AWS CLI**  
**Untuk daftar objek dari tabel yang diatur**  
`get-table-objects`Contoh berikut mengembalikan kumpulan objek Amazon S3 yang membentuk tabel diatur yang ditentukan.  

```
aws lakeformation get-table-objects \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "012345678901",
    "DatabaseName": "tpc",
    "TableName": "dl_tpc_household_demographics_gov",
    "QueryAsOfTime": "2022-08-10T15:00:00"
}
```
Output:  

```
{
    "Objects": [{
        "PartitionValues": [],
        "Objects": [{
            "Uri": "s3://lf-data-lake-012345678901/target/dl_tpc_household_demographics_gov/run-unnamed-1-part-block-0-r-00000-snappy-ff26b17504414fe88b302cd795eabd00.parquet",
            "ETag": "12345b1fc50a316b149b4e1f21a73800",
            "Size": 43235
        }]
    }]
}
```
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [GetTableObjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-table-objects.html)di *Referensi AWS CLI Perintah*. 

### `get-work-unit-results`
<a name="lakeformation_GetWorkUnitResults_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-work-unit-results`.

**AWS CLI**  
**Untuk mengambil unit kerja dari kueri yang diberikan**  
`get-work-unit-results`Contoh berikut mengembalikan unit kerja yang dihasilkan dari query.  

```
aws lakeformation get-work-units \
    --query-id='1234273f-4a62-4cda-8d98-69615ee8be9b' \
    --work-unit-id '0' \
    --work-unit-token 'B2fMSdmQXe9umX8Ux8XCo4=' outfile
```
Output:  

```
outfile with Blob content.
```
Untuk informasi selengkapnya, lihat [Operasi data transaksional di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/transactions-data-operations.html) *Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [GetWorkUnitResults](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-work-unit-results.html)di *Referensi AWS CLI Perintah*. 

### `get-work-units`
<a name="lakeformation_GetWorkUnits_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-work-units`.

**AWS CLI**  
**Untuk mengambil unit kerja**  
`get-work-units`Contoh berikut mengambil unit kerja yang dihasilkan oleh StartQueryPlanning operasi.  

```
aws lakeformation get-work-units \
    --query-id='1234273f-4a62-4cda-8d98-69615ee8be9b'
```
Output:  

```
{
    "WorkUnitRanges": [{
        "WorkUnitIdMax": 0,
        "WorkUnitIdMin": 0,
        "WorkUnitToken": "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"
    }],
    "QueryId": "1234273f-4a62-4cda-8d98-69615ee8be9b"
}
```
Untuk informasi selengkapnya, lihat [Operasi data transaksional di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/transactions-data-operations.html) *Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [GetWorkUnits](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/get-work-units.html)di *Referensi AWS CLI Perintah*. 

### `grant-permissions`
<a name="lakeformation_GrantPermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`grant-permissions`.

**AWS CLI**  
**Contoh 1: Untuk memberikan izin kepada prinsipal pada sumber daya menggunakan LF-tag**  
`grant-permissions`Contoh berikut memberikan SEMUA izin kepada prinsipal pada sumber daya database yang cocok dengan kebijakan LF-tag.  

```
aws lakeformation grant-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Principal": {
        "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-admin"
    },
    "Resource": {
        "LFTagPolicy": {
            "CatalogId": "123456789111",
            "ResourceType": "DATABASE",
            "Expression": [{
                "TagKey": "usergroup",
                "TagValues": [
                    "analyst",
                    "developer"
                ]
            }]
        }
    },
    "Permissions": [
        "ALL"
    ],
    "PermissionsWithGrantOption": [
        "ALL"
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memberikan dan mencabut izin pada sumber daya Katalog Data di](https://docs.aws.amazon.com/lake-formation/latest/dg/granting-catalog-permissions.html) Panduan Pengembang *AWS Lake* Formation.  
**Contoh 2: Untuk memberikan izin tingkat kolom kepada kepala sekolah**  
`grant-permissions`Contoh berikut memberikan izin untuk memilih kolom tertentu untuk kepala sekolah.  

```
aws lakeformation grant-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Principal": {
        "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
    },
    "Resource": {
        "TableWithColumns": {
            "CatalogId": "123456789111",
            "ColumnNames": ["p_end_date_sk"],
            "DatabaseName": "tpc",
            "Name": "dl_tpc_promotion"
        }
    },
    "Permissions": [
        "SELECT"
    ],
    "PermissionsWithGrantOption": []
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memberikan dan mencabut izin pada sumber daya Katalog Data di](https://docs.aws.amazon.com/lake-formation/latest/dg/granting-catalog-permissions.html) Panduan Pengembang *AWS Lake* Formation.  
**Contoh 3: Untuk memberikan izin tabel kepada kepala sekolah**  
`grant-permissions`Contoh berikut memberikan izin pilih pada semua tabel database yang diberikan kepada kepala sekolah.  

```
aws lakeformation grant-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Principal": {
        "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
    },
    "Resource": {
        "Table": {
            "CatalogId": "123456789111",
            "DatabaseName": "tpc",
            "TableWildcard": {}
        }
    },
    "Permissions": [
        "SELECT"
    ],
    "PermissionsWithGrantOption": []
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memberikan dan mencabut izin pada sumber daya Katalog Data di](https://docs.aws.amazon.com/lake-formation/latest/dg/granting-catalog-permissions.html) Panduan Pengembang *AWS Lake* Formation.  
**Contoh 4: Untuk memberikan izin pada LF-tag kepada kepala sekolah**  
`grant-permissions`Contoh berikut memberikan izin asosiasi pada LF-tag kepada kepala sekolah.  

```
aws lakeformation grant-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Principal": {
        "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
    },
    "Resource": {
        "LFTag": {
            "CatalogId": "123456789111",
            "TagKey": "category",
            "TagValues": [
                "private", "public"
            ]
        }

    },
    "Permissions": [
        "ASSOCIATE"
    ],
    "PermissionsWithGrantOption": []
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memberikan dan mencabut izin pada sumber daya Katalog Data di](https://docs.aws.amazon.com/lake-formation/latest/dg/granting-catalog-permissions.html) Panduan Pengembang *AWS Lake* Formation.  
**Contoh 5: Untuk memberikan izin pada lokasi data kepada kepala sekolah**  
`grant-permissions`Contoh berikut memberikan izin pada lokasi data kepada kepala sekolah.  

```
aws lakeformation grant-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Principal": {
        "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
    },
    "Resource": {
        "DataLocation": {
            "CatalogId": "123456789111",
            "ResourceArn": "arn:aws:s3:::lf-data-lake-123456789111"
        }
    },
    "Permissions": [
        "DATA_LOCATION_ACCESS"
    ],
    "PermissionsWithGrantOption": []
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memberikan dan mencabut izin pada sumber daya Katalog Data di](https://docs.aws.amazon.com/lake-formation/latest/dg/granting-catalog-permissions.html) Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [GrantPermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/grant-permissions.html)di *Referensi AWS CLI Perintah*. 

### `list-data-cells-filter`
<a name="lakeformation_ListDataCellsFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-data-cells-filter`.

**AWS CLI**  
**Untuk membuat daftar filter sel data**  
`list-data-cells-filter`Contoh berikut daftar filter sel data untuk tabel yang diberikan.  

```
aws lakeformation list-data-cells-filter \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "MaxResults": 2,
    "Table": {
        "CatalogId": "123456789111",
        "DatabaseName": "tpc",
        "Name": "dl_tpc_promotion"
    }
}
```
Output:  

```
{
    "DataCellsFilters": [{
            "TableCatalogId": "123456789111",
            "DatabaseName": "tpc",
            "TableName": "dl_tpc_promotion",
            "Name": "developer_promotion",
            "RowFilter": {
                "FilterExpression": "p_promo_name='ese'"
            },
            "ColumnNames": [
                "p_channel_details",
                "p_start_date_sk",
                "p_purpose",
                "p_promo_id",
                "p_promo_name",
                "p_end_date_sk",
                "p_discount_active"
            ]
        },
        {
            "TableCatalogId": "123456789111",
            "DatabaseName": "tpc",
            "TableName": "dl_tpc_promotion",
            "Name": "developer_promotion_allrows",
            "RowFilter": {
                "FilterExpression": "TRUE",
                "AllRowsWildcard": {}
            },
            "ColumnNames": [
                "p_channel_details",
                "p_start_date_sk",
                "p_promo_name"
            ]
        }
    ],
    "NextToken": "2MDA2MTgwNiwibmFub3MiOjE0MDAwMDAwMH19"
}
```
Untuk informasi selengkapnya, lihat [Pemfilteran data dan keamanan tingkat sel di Lake Formation di Panduan Pengembang AWS](https://docs.aws.amazon.com/lake-formation/latest/dg/data-filtering.html) *Lake Formation*.  
+  Untuk detail API, lihat [ListDataCellsFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/list-data-cells-filter.html)di *Referensi AWS CLI Perintah*. 

### `list-permissions`
<a name="lakeformation_ListPermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-permissions`.

**AWS CLI**  
**Contoh 1: Untuk mengambil daftar izin utama pada sumber daya**  
`list-permissions`Contoh berikut mengembalikan daftar izin utama pada sumber daya database.  

```
aws lakeformation list-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "ResourceType": "DATABASE",
    "MaxResults": 2
}
```
Output:  

```
{
    "PrincipalResourcePermissions": [{
        "Principal": {
            "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-campaign-manager"
        },
        "Resource": {
            "Database": {
                "CatalogId": "123456789111",
                "Name": "tpc"
            }
        },
        "Permissions": [
            "DESCRIBE"
        ],
        "PermissionsWithGrantOption": []
    }],
    "NextToken": "E5SlJDSTZleUp6SWpvaU9UQTNORE0zTXpFeE5Ua3pJbjE5TENKbGVIQnBjbUYwYVc5dUlqcDdJbk5sWTI5dVpITWlPakUyTm"
}
```
Untuk informasi selengkapnya, lihat [Mengelola izin Lake Formation](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-permissions.html) di *Panduan Pengembang AWS Lake Formation*.  
**Contoh 2: Untuk mengambil daftar izin utama pada tabel dengan filter data**  
`list-permissions`Contoh berikut mencantumkan izin pada tabel dengan filter data terkait yang diberikan kepada prinsipal.  

```
aws lakeformation list-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Resource": {
        "Table": {
            "CatalogId": "123456789111",
            "DatabaseName": "tpc",
            "Name": "dl_tpc_customer"
        }
    },
    "IncludeRelated": "TRUE",
    "MaxResults": 10
}
```
Output:  

```
{
    "PrincipalResourcePermissions": [{
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:role/Admin"
            },
            "Resource": {
                "Table": {
                    "CatalogId": "123456789111",
                    "DatabaseName": "customer",
                    "Name": "customer_invoice"
                }
            },
            "Permissions": [
                "ALL",
                "ALTER",
                "DELETE",
                "DESCRIBE",
                "DROP",
                "INSERT"
            ],
            "PermissionsWithGrantOption": [
                "ALL",
                "ALTER",
                "DELETE",
                "DESCRIBE",
                "DROP",
                "INSERT"
            ]
        },
        {
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:role/Admin"
            },
            "Resource": {
                "TableWithColumns": {
                    "CatalogId": "123456789111",
                    "DatabaseName": "customer",
                    "Name": "customer_invoice",
                    "ColumnWildcard": {}
                }
            },
            "Permissions": [
                "SELECT"
            ],
            "PermissionsWithGrantOption": [
                "SELECT"
            ]
        },
        {
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:role/Admin"
            },
            "Resource": {
                "DataCellsFilter": {
                    "TableCatalogId": "123456789111",
                    "DatabaseName": "customer",
                    "TableName": "customer_invoice",
                    "Name": "dl_us_customer"
                }
            },
            "Permissions": [
                "DESCRIBE",
                "SELECT",
                "DROP"
            ],
            "PermissionsWithGrantOption": []
        }
    ],
    "NextToken": "VyeUFjY291bnRQZXJtaXNzaW9ucyI6ZmFsc2V9"
}
```
Untuk informasi selengkapnya, lihat [Mengelola izin Lake Formation](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-permissions.html) di *Panduan Pengembang AWS Lake Formation*.  
**Contoh 3: Untuk mengambil daftar izin utama pada LF-tag**  
`list-permissions`Contoh berikut mencantumkan izin pada LF-tag yang diberikan kepada prinsipal.  

```
aws lakeformation list-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Resource": {
        "LFTag": {
            "CatalogId": "123456789111",
            "TagKey": "category",
            "TagValues": [
                "private"
            ]
        }
    },
    "MaxResults": 10
}
```
Output:  

```
{
    "PrincipalResourcePermissions": [{
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-admin"
            },
            "Resource": {
                "LFTag": {
                    "CatalogId": "123456789111",
                    "TagKey": "category",
                    "TagValues": [
                        "*"
                    ]
                }
            },
            "Permissions": [
                "DESCRIBE"
            ],
            "PermissionsWithGrantOption": [
                "DESCRIBE"
            ]
        },
        {
            "Principal": {
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-admin"
            },
            "Resource": {
                "LFTag": {
                    "CatalogId": "123456789111",
                    "TagKey": "category",
                    "TagValues": [
                        "*"
                    ]
                }
            },
            "Permissions": [
                "ASSOCIATE"
            ],
            "PermissionsWithGrantOption": [
                "ASSOCIATE"
            ]
        }
    ],
    "NextToken": "EJwY21GMGFXOXVJanA3SW5Ocm1pc3Npb25zIjpmYWxzZX0="
}
```
Untuk informasi selengkapnya, lihat [Mengelola izin Lake Formation](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-permissions.html) di *Panduan Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [ListPermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/list-permissions.html)di *Referensi AWS CLI Perintah*. 

### `list-resources`
<a name="lakeformation_ListResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resources`.

**AWS CLI**  
**Untuk daftar sumber daya yang dikelola oleh Lake Formation**  
`list-resources`Contoh berikut mencantumkan sumber daya yang cocok dengan kondisi yang dikelola oleh Lake Formation.  

```
aws lakeformation list-resources \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "FilterConditionList": [{
        "Field": "ROLE_ARN",
        "ComparisonOperator": "CONTAINS",
        "StringValueList": [
            "123456789111"
        ]
    }],
    "MaxResults": 10
}
```
Output:  

```
{
    "ResourceInfoList": [{
            "ResourceArn": "arn:aws:s3:::lf-data-lake-123456789111",
            "RoleArn": "arn:aws:iam::123456789111:role/LF-GlueServiceRole",
            "LastModified": "2022-07-21T02:12:46.669000+00:00"
        },
        {
            "ResourceArn": "arn:aws:s3:::lf-emr-test-123456789111",
            "RoleArn": "arn:aws:iam::123456789111:role/EMRLFS3Role",
            "LastModified": "2022-07-29T16:22:03.211000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola izin Lake Formation](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-permissions.html) di *Panduan Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [ListResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/list-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-transactions`
<a name="lakeformation_ListTransactions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-transactions`.

**AWS CLI**  
**Untuk mencantumkan semua detail transaksi**  
`list-transactions`Contoh berikut mengembalikan metadata tentang transaksi dan statusnya.  

```
aws lakeformation list-transactions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "StatusFilter": "ALL",
    "MaxResults": 3
}
```
Output:  

```
{
    "Transactions": [{
            "TransactionId": "1234569f08804cb790d950d4d0fe485e",
            "TransactionStatus": "committed",
            "TransactionStartTime": "2022-08-10T14:32:29.220000+00:00",
            "TransactionEndTime": "2022-08-10T14:32:33.751000+00:00"
        },
        {
            "TransactionId": "12345972ca8347b89825e33c5774aec4",
            "TransactionStatus": "committed",
            "TransactionStartTime": "2022-08-10T14:29:04.046000+00:00",
            "TransactionEndTime": "2022-08-10T14:29:09.681000+00:00"
        },
        {
            "TransactionId": "12345daf6cb047dbba8ad9b0414613b2",
            "TransactionStatus": "committed",
            "TransactionStartTime": "2022-08-10T13:56:51.261000+00:00",
            "TransactionEndTime": "2022-08-10T13:56:51.547000+00:00"
        }
    ],
    "NextToken": "77X1ebypsI7os+X2lhHsZLGNCDK3nNGpwRdFpicSOHgcX1/QMoniUAKcpR3kj3ts3PVdMA=="
}
```
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [ListTransactions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/list-transactions.html)di *Referensi AWS CLI Perintah*. 

### `put-data-lake-settings`
<a name="lakeformation_PutDataLakeSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-data-lake-settings`.

**AWS CLI**  
**Untuk mengatur pengaturan AWS danau data yang dikelola Lake Formation**  
`put-data-lake-settings`Contoh berikut menetapkan daftar administrator data lake dan pengaturan data lake lainnya.  

```
aws lakeformation put-data-lake-settings \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "DataLakeSettings": {
        "DataLakeAdmins": [{
                "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-admin"
            }
        ],
        "CreateDatabaseDefaultPermissions": [],
        "CreateTableDefaultPermissions": [],
        "TrustedResourceOwners": [],
        "AllowExternalDataFiltering": true,
        "ExternalDataFilteringAllowList": [{
            "DataLakePrincipalIdentifier ": "123456789111"
        }],
        "AuthorizedSessionTagValueList": ["Amazon EMR"]
    }
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengubah setelan keamanan default untuk data lake Anda](https://docs.aws.amazon.com/lake-formation/latest/dg/change-settings.html) di *Panduan Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [PutDataLakeSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/put-data-lake-settings.html)di *Referensi AWS CLI Perintah*. 

### `register-resource`
<a name="lakeformation_RegisterResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-resource`.

**AWS CLI**  
**Contoh 1: Untuk mendaftarkan penyimpanan data lake menggunakan Service Linked Role**  
`register-resource`Contoh berikut mendaftarkan sumber daya yang dikelola oleh Lake Formation menggunakan peran terkait Layanan.  

```
aws lakeformation register-resource \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ResourceArn": "arn:aws:s3:::lf-emr-athena-result-123",
    "UseServiceLinkedRole": true
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan lokasi Amazon S3 ke danau data Anda di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/register-data-lake.html) *Pengembang AWS Lake Formation*.  
**Contoh 2: Untuk mendaftarkan penyimpanan data lake menggunakan peran khusus**  
`register-resource`Contoh berikut mendaftarkan sumber daya yang dikelola oleh Lake Formation menggunakan peran kustom.  

```
aws lakeformation register-resource \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "ResourceArn": "arn:aws:s3:::lf-emr-athena-result-123",
    "UseServiceLinkedRole": false,
    "RoleArn": "arn:aws:iam::123456789111:role/LF-GlueServiceRole"
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan lokasi Amazon S3 ke danau data Anda di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/register-data-lake.html) *Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [RegisterResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/register-resource.html)di *Referensi AWS CLI Perintah*. 

### `remove-lf-tags-from-resource`
<a name="lakeformation_RemoveLfTagsFromResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-lf-tags-from-resource`.

**AWS CLI**  
**Untuk menghapus LF-tag dari sumber daya**  
`remove-lf-tags-from-resource`Contoh berikut menghapus asosiasi LF-tag dengan sumber daya tabel.  

```
aws lakeformation remove-lf-tags-from-resource \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Resource": {
        "Table": {
            "CatalogId": "123456789111",
            "DatabaseName": "tpc",
            "Name": "dl_tpc_promotion"
        }
    },
    "LFTags": [{
        "CatalogId": "123456789111",
        "TagKey": "usergroup",
        "TagValues": [
            "developer"
        ]
    }]
}
```
Output:  

```
{
    "Failures": []
}
```
Untuk informasi selengkapnya, lihat [Menetapkan LF-tag ke sumber daya Katalog Data di Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/TBAC-assigning-tags.html) Pengembang *AWS Lake Formation*.  
+  Untuk detail API, lihat [RemoveLfTagsFromResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/remove-lf-tags-from-resource.html)di *Referensi AWS CLI Perintah*. 

### `revoke-permissions`
<a name="lakeformation_RevokePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-permissions`.

**AWS CLI**  
**Untuk mencabut izin sumber daya dari prinsipal**  
`revoke-permissions`Contoh berikut mencabut akses utama ke tabel tertentu dari database yang diberikan.  

```
aws lakeformation revoke-permissions \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "123456789111",
    "Principal": {
        "DataLakePrincipalIdentifier": "arn:aws:iam::123456789111:user/lf-developer"
    },
    "Resource": {
        "Table": {
            "CatalogId": "123456789111",
            "DatabaseName": "tpc",
            "Name": "dl_tpc_promotion"
        }
    },
    "Permissions": [
        "ALL"
    ],
    "PermissionsWithGrantOption": []
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memberikan dan mencabut izin pada sumber daya Katalog Data di](https://docs.aws.amazon.com/lake-formation/latest/dg/granting-catalog-permissions.html) Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [RevokePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/revoke-permissions.html)di *Referensi AWS CLI Perintah*. 

### `search-databases-by-lf-tags`
<a name="lakeformation_SearchDatabasesByLfTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-databases-by-lf-tags`.

**AWS CLI**  
**Untuk mencari sumber daya database dengan LFTags**  
`search-databases-by-lf-tags`Contoh berikut pencarian pada sumber daya database pencocokan LFTag ekspresi.  

```
aws lakeformation search-databases-by-lf-tags \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "MaxResults": 1,
    "CatalogId": "123456789111",
    "Expression": [{
        "TagKey": "usergroup",
        "TagValues": [
            "developer"
        ]
    }]
}
```
Output:  

```
{
    "DatabaseList": [{
        "Database": {
            "CatalogId": "123456789111",
            "Name": "tpc"
        },
        "LFTags": [{
            "CatalogId": "123456789111",
            "TagKey": "usergroup",
            "TagValues": [
                "developer"
            ]
        }]
    }]
}
```
Untuk informasi selengkapnya, lihat [Melihat sumber daya yang ditetapkan LF-tag dalam Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/TBAC-view-tag-resources.html) *Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [SearchDatabasesByLfTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/search-databases-by-lf-tags.html)di *Referensi AWS CLI Perintah*. 

### `search-tables-by-lf-tags`
<a name="lakeformation_SearchTablesByLfTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-tables-by-lf-tags`.

**AWS CLI**  
**Untuk mencari sumber daya tabel dengan LFTags**  
Berikut `search-tables-by-lf-tags` contoh pencarian pada sumber daya tabel LFTag ekspresi pencocokan.  

```
aws lakeformation search-tables-by-lf-tags \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "MaxResults": 2,
    "CatalogId": "123456789111",
    "Expression": [{
        "TagKey": "usergroup",
        "TagValues": [
            "developer"
        ]
    }]
}
```
Output:  

```
{
    "NextToken": "c2VhcmNoQWxsVGFnc0luVGFibGVzIjpmYWxzZX0=",
    "TableList": [{
        "Table": {
            "CatalogId": "123456789111",
            "DatabaseName": "tpc",
            "Name": "dl_tpc_item"
        },
        "LFTagOnDatabase": [{
            "CatalogId": "123456789111",
            "TagKey": "usergroup",
            "TagValues": [
                "developer"
            ]
        }],
        "LFTagsOnTable": [{
            "CatalogId": "123456789111",
            "TagKey": "usergroup",
            "TagValues": [
                "developer"
            ]
        }],
        "LFTagsOnColumns": [{
                "Name": "i_item_desc",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_container",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_wholesale_cost",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_manufact_id",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_brand_id",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_formulation",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_current_price",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_size",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_rec_start_date",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_manufact",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_item_sk",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_manager_id",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_item_id",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_class_id",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_class",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_category",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_category_id",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_brand",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_units",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_rec_end_date",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_color",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            },
            {
                "Name": "i_product_name",
                "LFTags": [{
                    "CatalogId": "123456789111",
                    "TagKey": "usergroup",
                    "TagValues": [
                        "developer"
                    ]
                }]
            }
        ]
    }]
}
```
Untuk informasi selengkapnya, lihat [Melihat sumber daya yang ditetapkan LF-tag dalam Panduan](https://docs.aws.amazon.com/lake-formation/latest/dg/TBAC-view-tag-resources.html) *Pengembang AWS Lake Formation*.  
+  Untuk detail API, lihat [SearchTablesByLfTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/search-tables-by-lf-tags.html)di *Referensi AWS CLI Perintah*. 

### `start-query-planning`
<a name="lakeformation_StartQueryPlanning_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-query-planning`.

**AWS CLI**  
**Untuk memproses pernyataan kueri**  
`start-query-planning`Contoh berikut mengirimkan permintaan untuk memproses pernyataan query.  

```
aws lakeformation start-query-planning \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "QueryPlanningContext": {
        "CatalogId": "012345678901",
        "DatabaseName": "tpc"
    },
    "QueryString": "select * from dl_tpc_household_demographics_gov where hd_income_band_sk=9"
}
```
Output:  

```
{
    "QueryId": "772a273f-4a62-4cda-8d98-69615ee8be9b"
}
```
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [StartQueryPlanning](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/start-query-planning.html)di *Referensi AWS CLI Perintah*. 

### `start-transaction`
<a name="lakeformation_StartTransaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-transaction`.

**AWS CLI**  
**Untuk memulai transaksi baru**  
`start-transaction`Contoh berikut memulai transaksi baru dan mengembalikan ID transaksinya.  

```
aws lakeformation start-transaction \
    --transaction-type = 'READ_AND_WRITE'
```
Output:  

```
{
    "TransactionId": "b014d972ca8347b89825e33c5774aec4"
}
```
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [StartTransaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/start-transaction.html)di *Referensi AWS CLI Perintah*. 

### `update-lf-tag`
<a name="lakeformation_UpdateLfTag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-lf-tag`.

**AWS CLI**  
**Untuk memperbarui definisi LF-tag**  
`update-lf-tag`Contoh berikut memperbarui definisi LF-tag.  

```
aws lakeformation update-lf-tag \
    --catalog-id '123456789111' \
    --tag-key 'usergroup' \
    --tag-values-to-add '["admin"]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola LF-tag untuk kontrol akses metadata](https://docs.aws.amazon.com/lake-formation/latest/dg/managing-tags.html) di Panduan Pengembang *AWS Lake* Formation.  
+  Untuk detail API, lihat [UpdateLfTag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/update-lf-tag.html)di *Referensi AWS CLI Perintah*. 

### `update-table-objects`
<a name="lakeformation_UpdateTableObjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-table-objects`.

**AWS CLI**  
**Untuk memodifikasi objek dari tabel yang diatur**  
`update-table-objects`Contoh berikut menambahkan objek S3 yang disediakan ke tabel diatur yang ditentukan.  

```
aws lakeformation update-table-objects \
    --cli-input-json file://input.json
```
Isi dari `input.json`:  

```
{
    "CatalogId": "012345678901",
    "DatabaseName": "tpc",
    "TableName": "dl_tpc_household_demographics_gov",
    "TransactionId": "12347a9f75424b9b915f6ff201d2a190",
    "WriteOperations": [{
        "AddObject": {
            "Uri": "s3://lf-data-lake-012345678901/target/dl_tpc_household_demographics_gov/run-unnamed-1-part-block-0-r-00000-snappy-ff26b17504414fe88b302cd795eabd00.parquet",
            "ETag": "1234ab1fc50a316b149b4e1f21a73800",
            "Size": 42200
        }
    }]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi lebih lanjut, lihat [Membaca dari dan menulis ke data lake dalam transaksi](https://docs.aws.amazon.com/lake-formation/latest/dg/transaction-ops.html) di *AWS Lake Formation Developer Guide*.  
+  Untuk detail API, lihat [UpdateTableObjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lakeformation/update-table-objects.html)di *Referensi AWS CLI Perintah*. 

# Contoh Lambda menggunakan AWS CLI
<a name="cli_2_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Lambda AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-layer-version-permission`
<a name="lambda_AddLayerVersionPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-layer-version-permission`.

**AWS CLI**  
**Untuk menambahkan izin ke versi lapisan**  
`add-layer-version-permission`Contoh berikut memberikan izin untuk akun yang ditentukan untuk menggunakan versi 1 dari lapisan`my-layer`.  

```
aws lambda add-layer-version-permission \
    --layer-name my-layer \
    --statement-id xaccount \
    --action lambda:GetLayerVersion  \
    --principal 123456789012 \
    --version-number 1
```
Output:  

```
{
    "RevisionId": "35d87451-f796-4a3f-a618-95a3671b0a0c",
    "Statement":
    {
        "Sid":"xaccount",
        "Effect":"Allow",
        "Principal":{
            "AWS":"arn:aws:iam::210987654321:root"
        },
        "Action":"lambda:GetLayerVersion",
        "Resource":"arn:aws:lambda:us-east-2:123456789012:layer:my-layer:1"
    }
}
```
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [AddLayerVersionPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/add-layer-version-permission.html)di *Referensi AWS CLI Perintah*. 

### `add-permission`
<a name="lambda_AddPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-permission`.

**AWS CLI**  
**Untuk menambahkan izin ke fungsi Lambda yang ada**  
`add-permission`Contoh berikut memberikan izin layanan Amazon SNS untuk memanggil fungsi bernama. `my-function`  

```
aws lambda add-permission \
    --function-name my-function \
    --action lambda:InvokeFunction \
    --statement-id sns \
    --principal sns.amazonaws.com
```
Output:  

```
{
    "Statement":
    {
        "Sid":"sns",
        "Effect":"Allow",
        "Principal":{
            "Service":"sns.amazonaws.com"
        },
        "Action":"lambda:InvokeFunction",
        "Resource":"arn:aws:lambda:us-east-2:123456789012:function:my-function"
    }
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan Kebijakan Berbasis Sumber Daya untuk Lambda AWS di Panduan Pengembang Lambda](https://docs.aws.amazon.com/lambda/latest/dg/access-control-resource-based.html).AWS *  
+  Untuk detail API, lihat [AddPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/add-permission.html)di *Referensi AWS CLI Perintah*. 

### `create-alias`
<a name="lambda_CreateAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-alias`.

**AWS CLI**  
**Untuk membuat alias untuk fungsi Lambda**  
`create-alias`Contoh berikut membuat alias bernama `LIVE` yang menunjuk ke versi 1 dari fungsi `my-function` Lambda.  

```
aws lambda create-alias \
    --function-name my-function \
    --description "alias for live version of function" \
    --function-version 1 \
    --name LIVE
```
Output:  

```
{
    "FunctionVersion": "1",
    "Name": "LIVE",
    "AliasArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:LIVE",
    "RevisionId": "873282ed-4cd3-4dc8-a069-d0c647e470c6",
    "Description": "alias for live version of function"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Alias Fungsi AWS Lambda](https://docs.aws.amazon.com/lambda/latest/dg/aliases-intro.html) di Panduan Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [CreateAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/create-alias.html)di *Referensi AWS CLI Perintah*. 

### `create-event-source-mapping`
<a name="lambda_CreateEventSourceMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-event-source-mapping`.

**AWS CLI**  
**Untuk membuat pemetaan antara sumber peristiwa dan fungsi AWS Lambda**  
`create-event-source-mapping`Contoh berikut membuat pemetaan antara antrian SQS dan fungsi Lambda`my-function`.  

```
aws lambda create-event-source-mapping \
    --function-name my-function \
    --batch-size 5 \
    --event-source-arn arn:aws:sqs:us-west-2:123456789012:mySQSqueue
```
Output:  

```
{
    "UUID": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
    "StateTransitionReason": "USER_INITIATED",
    "LastModified": 1569284520.333,
    "BatchSize": 5,
    "State": "Creating",
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
    "EventSourceArn": "arn:aws:sqs:us-west-2:123456789012:mySQSqueue"
}
```
*Untuk informasi selengkapnya, lihat [Pemetaan Sumber Peristiwa AWS Lambda di Panduan Pengembang](https://docs.aws.amazon.com/lambda/latest/dg/invocation-eventsourcemapping.html) Lambda AWS .*  
+  Untuk detail API, lihat [CreateEventSourceMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/create-event-source-mapping.html)di *Referensi AWS CLI Perintah*. 

### `create-function`
<a name="lambda_CreateFunction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-function`.

**AWS CLI**  
**Untuk membuat fungsi Lambda**  
`create-function`Contoh berikut menciptakan fungsi Lambda bernama. `my-function`  

```
aws lambda create-function \
    --function-name my-function \
    --runtime nodejs22.x \
    --zip-file fileb://my-function.zip \
    --handler my-function.handler \
    --role arn:aws:iam::123456789012:role/service-role/MyTestFunction-role-tges6bf4
```
Isi dari `my-function.zip`:  

```
This file is a deployment package that contains your function code and any dependencies.
```
Output:  

```
{
    "TracingConfig": {
        "Mode": "PassThrough"
    },
    "CodeSha256": "PFn4S+er27qk+UuZSTKEQfNKG/XNn7QJs90mJgq6oH8=",
    "FunctionName": "my-function",
    "CodeSize": 308,
    "RevisionId": "873282ed-4cd3-4dc8-a069-d0c647e470c6",
    "MemorySize": 128,
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
    "Version": "$LATEST",
    "Role": "arn:aws:iam::123456789012:role/service-role/MyTestFunction-role-zgur6bf4",
    "Timeout": 3,
    "LastModified": "2025-10-14T22:26:11.234+0000",
    "Handler": "my-function.handler",
    "Runtime": "nodejs22.x",
    "Description": ""
}
```
Untuk informasi selengkapnya, lihat [Mengkonfigurasi memori fungsi Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-memory.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [CreateFunction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/create-function.html)di *Referensi AWS CLI Perintah*. 

### `delete-alias`
<a name="lambda_DeleteAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-alias`.

**AWS CLI**  
**Untuk menghapus alias fungsi Lambda**  
`delete-alias`Contoh berikut menghapus alias bernama `LIVE` dari fungsi Lambda`my-function`.  

```
aws lambda delete-alias \
    --function-name my-function \
    --name LIVE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi Alias Fungsi AWS Lambda](https://docs.aws.amazon.com/lambda/latest/dg/aliases-intro.html) di Panduan Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [DeleteAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/delete-alias.html)di *Referensi AWS CLI Perintah*. 

### `delete-event-source-mapping`
<a name="lambda_DeleteEventSourceMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-event-source-mapping`.

**AWS CLI**  
**Untuk menghapus pemetaan antara sumber peristiwa dan fungsi AWS Lambda**  
`delete-event-source-mapping`Contoh berikut menghapus pemetaan antara antrian SQS dan fungsi Lambda. `my-function`  

```
aws lambda delete-event-source-mapping \
    --uuid  a1b2c3d4-5678-90ab-cdef-11111EXAMPLE
```
Output:  

```
{
    "UUID": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
    "StateTransitionReason": "USER_INITIATED",
    "LastModified": 1569285870.271,
    "BatchSize": 5,
    "State": "Deleting",
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
    "EventSourceArn": "arn:aws:sqs:us-west-2:123456789012:mySQSqueue"
}
```
*Untuk informasi selengkapnya, lihat [Pemetaan Sumber Peristiwa AWS Lambda di Panduan Pengembang](https://docs.aws.amazon.com/lambda/latest/dg/invocation-eventsourcemapping.html) Lambda AWS .*  
+  Untuk detail API, lihat [DeleteEventSourceMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/delete-event-source-mapping.html)di *Referensi AWS CLI Perintah*. 

### `delete-function-concurrency`
<a name="lambda_DeleteFunctionConcurrency_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-function-concurrency`.

**AWS CLI**  
**Untuk menghapus batas eksekusi bersamaan yang dicadangkan dari suatu fungsi**  
`delete-function-concurrency`Contoh berikut menghapus batas eksekusi bersamaan yang dicadangkan dari fungsi. `my-function`  

```
aws lambda delete-function-concurrency \
    --function-name  my-function
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Reservasi Konkurensi untuk Fungsi Lambda di](https://docs.aws.amazon.com/lambda/latest/dg/per-function-concurrency.html) Panduan Pengembang AWS Lambda.*  
+  Untuk detail API, lihat [DeleteFunctionConcurrency](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/delete-function-concurrency.html)di *Referensi AWS CLI Perintah*. 

### `delete-function-event-invoke-config`
<a name="lambda_DeleteFunctionEventInvokeConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-function-event-invoke-config`.

**AWS CLI**  
**Untuk menghapus konfigurasi pemanggilan asinkron**  
`delete-function-event-invoke-config`Contoh berikut menghapus konfigurasi pemanggilan asinkron untuk alias fungsi yang `GREEN` ditentukan.  

```
aws lambda delete-function-event-invoke-config --function-name my-function:GREEN
```
+  Untuk detail API, lihat [DeleteFunctionEventInvokeConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/delete-function-event-invoke-config.html)di *Referensi AWS CLI Perintah*. 

### `delete-function`
<a name="lambda_DeleteFunction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-function`.

**AWS CLI**  
**Contoh 1: Untuk menghapus fungsi Lambda dengan nama fungsi**  
`delete-function`Contoh berikut menghapus fungsi Lambda `my-function` bernama dengan menentukan nama fungsi.  

```
aws lambda delete-function \
    --function-name my-function
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menghapus fungsi Lambda dengan fungsi ARN**  
`delete-function`Contoh berikut menghapus fungsi Lambda `my-function` bernama dengan menentukan ARN fungsi.  

```
aws lambda delete-function \
    --function-name arn:aws:lambda:us-west-2:123456789012:function:my-function
```
Perintah ini tidak menghasilkan output.  
**Contoh 3: Untuk menghapus fungsi Lambda dengan fungsi sebagian ARN**  
`delete-function`Contoh berikut menghapus fungsi Lambda `my-function` bernama dengan menentukan ARN sebagian fungsi.  

```
aws lambda delete-function \
    --function-name 123456789012:function:my-function
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Konfigurasi Fungsi AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/resource-model.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [DeleteFunction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/delete-function.html)di *Referensi AWS CLI Perintah*. 

### `delete-layer-version`
<a name="lambda_DeleteLayerVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-layer-version`.

**AWS CLI**  
**Untuk menghapus versi layer Lambda**  
`delete-layer-version`Contoh berikut menghapus versi 2 dari layer bernama`my-layer`.  

```
aws lambda delete-layer-version \
    --layer-name my-layer \
    --version-number 2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [DeleteLayerVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/delete-layer-version.html)di *Referensi AWS CLI Perintah*. 

### `delete-provisioned-concurrency-config`
<a name="lambda_DeleteProvisionedConcurrencyConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-provisioned-concurrency-config`.

**AWS CLI**  
**Untuk menghapus konfigurasi konkurensi yang disediakan**  
`delete-provisioned-concurrency-config`Contoh berikut menghapus konfigurasi konkurensi yang disediakan untuk `GREEN` alias fungsi yang ditentukan.  

```
aws lambda delete-provisioned-concurrency-config \
    --function-name my-function \
    --qualifier GREEN
```
+  Untuk detail API, lihat [DeleteProvisionedConcurrencyConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/delete-provisioned-concurrency-config.html)di *Referensi AWS CLI Perintah*. 

### `get-account-settings`
<a name="lambda_GetAccountSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-account-settings`.

**AWS CLI**  
**Untuk mengambil detail tentang akun Anda di suatu Wilayah AWS **  
`get-account-settings`Contoh berikut menampilkan batas Lambda dan informasi penggunaan untuk akun Anda.  

```
aws lambda get-account-settings
```
Output:  

```
{
    "AccountLimit": {
       "CodeSizeUnzipped": 262144000,
       "UnreservedConcurrentExecutions": 1000,
       "ConcurrentExecutions": 1000,
       "CodeSizeZipped": 52428800,
       "TotalCodeSize": 80530636800
    },
    "AccountUsage": {
       "FunctionCount": 4,
       "TotalCodeSize": 9426
    }
}
```
Untuk informasi selengkapnya, lihat [Batas AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/limits.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [GetAccountSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-account-settings.html)di *Referensi AWS CLI Perintah*. 

### `get-alias`
<a name="lambda_GetAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-alias`.

**AWS CLI**  
**Untuk mengambil rincian tentang alias fungsi**  
`get-alias`Contoh berikut menampilkan rincian untuk alias bernama `LIVE` pada fungsi `my-function` Lambda.  

```
aws lambda get-alias \
    --function-name my-function \
    --name LIVE
```
Output:  

```
{
    "FunctionVersion": "3",
    "Name": "LIVE",
    "AliasArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:LIVE",
    "RevisionId": "594f41fb-b85f-4c20-95c7-6ca5f2a92c93",
    "Description": "alias for live version of function"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Alias Fungsi AWS Lambda](https://docs.aws.amazon.com/lambda/latest/dg/aliases-intro.html) di Panduan Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [GetAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-alias.html)di *Referensi AWS CLI Perintah*. 

### `get-event-source-mapping`
<a name="lambda_GetEventSourceMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-event-source-mapping`.

**AWS CLI**  
**Untuk mengambil detail tentang pemetaan sumber peristiwa**  
`get-event-source-mapping`Contoh berikut menampilkan rincian untuk pemetaan antara antrian SQS dan fungsi Lambda`my-function`.  

```
aws lambda get-event-source-mapping \
    --uuid "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
```
Output:  

```
{
    "UUID": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
    "StateTransitionReason": "USER_INITIATED",
    "LastModified": 1569284520.333,
    "BatchSize": 5,
    "State": "Enabled",
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
    "EventSourceArn": "arn:aws:sqs:us-west-2:123456789012:mySQSqueue"
}
```
*Untuk informasi selengkapnya, lihat [Pemetaan Sumber Peristiwa AWS Lambda di Panduan Pengembang](https://docs.aws.amazon.com/lambda/latest/dg/invocation-eventsourcemapping.html) Lambda AWS .*  
+  Untuk detail API, lihat [GetEventSourceMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-event-source-mapping.html)di *Referensi AWS CLI Perintah*. 

### `get-function-concurrency`
<a name="lambda_GetFunctionConcurrency_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-function-concurrency`.

**AWS CLI**  
**Untuk melihat setelan konkurensi cadangan untuk suatu fungsi**  
`get-function-concurrency`Contoh berikut mengambil pengaturan konkurensi cadangan untuk fungsi yang ditentukan.  

```
aws lambda get-function-concurrency \
    --function-name my-function
```
Output:  

```
{
    "ReservedConcurrentExecutions": 250
}
```
+  Untuk detail API, lihat [GetFunctionConcurrency](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-function-concurrency.html)di *Referensi AWS CLI Perintah*. 

### `get-function-configuration`
<a name="lambda_GetFunctionConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-function-configuration`.

**AWS CLI**  
**Untuk mengambil pengaturan khusus versi dari fungsi Lambda**  
`get-function-configuration`Contoh berikut menampilkan pengaturan untuk versi 2 dari `my-function` fungsi.  

```
aws lambda get-function-configuration \
    --function-name  my-function:2
```
Output:  

```
{
    "FunctionName": "my-function",
    "LastModified": "2019-09-26T20:28:40.438+0000",
    "RevisionId": "e52502d4-9320-4688-9cd6-152a6ab7490d",
    "MemorySize": 256,
    "Version": "2",
    "Role": "arn:aws:iam::123456789012:role/service-role/my-function-role-uy3l9qyq",
    "Timeout": 3,
    "Runtime": "nodejs10.x",
    "TracingConfig": {
        "Mode": "PassThrough"
    },
    "CodeSha256": "5tT2qgzYUHaqwR716pZ2dpkn/0J1FrzJmlKidWoaCgk=",
    "Description": "",
    "VpcConfig": {
        "SubnetIds": [],
        "VpcId": "",
        "SecurityGroupIds": []
    },
    "CodeSize": 304,
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:2",
    "Handler": "index.handler"
}
```
Untuk informasi selengkapnya, lihat [Konfigurasi Fungsi AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/resource-model.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [GetFunctionConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-function-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-function-event-invoke-config`
<a name="lambda_GetFunctionEventInvokeConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-function-event-invoke-config`.

**AWS CLI**  
**Untuk melihat konfigurasi pemanggilan asinkron**  
`get-function-event-invoke-config`Contoh berikut mengambil konfigurasi pemanggilan asinkron untuk alias fungsi tertentu. `BLUE`  

```
aws lambda get-function-event-invoke-config \
    --function-name my-function:BLUE
```
Output:  

```
{
    "LastModified": 1577824396.653,
    "FunctionArn": "arn:aws:lambda:us-east-2:123456789012:function:my-function:BLUE",
    "MaximumRetryAttempts": 0,
    "MaximumEventAgeInSeconds": 3600,
    "DestinationConfig": {
        "OnSuccess": {},
        "OnFailure": {
            "Destination": "arn:aws:sqs:us-east-2:123456789012:failed-invocations"
        }
    }
}
```
+  Untuk detail API, lihat [GetFunctionEventInvokeConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-function-event-invoke-config.html)di *Referensi AWS CLI Perintah*. 

### `get-function`
<a name="lambda_GetFunction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-function`.

**AWS CLI**  
**Untuk mengambil informasi tentang suatu fungsi**  
`get-function`Contoh berikut menampilkan informasi tentang `my-function` fungsi.  

```
aws lambda get-function \
    --function-name  my-function
```
Output:  

```
{
    "Concurrency": {
        "ReservedConcurrentExecutions": 100
    },
    "Code": {
        "RepositoryType": "S3",
        "Location": "https://awslambda-us-west-2-tasks.s3.us-west-2.amazonaws.com/snapshots/123456789012/my-function..."
    },
    "Configuration": {
        "TracingConfig": {
            "Mode": "PassThrough"
        },
        "Version": "$LATEST",
        "CodeSha256": "5tT2qgzYUHoqwR616pZ2dpkn/0J1FrzJmlKidWaaCgk=",
        "FunctionName": "my-function",
        "VpcConfig": {
            "SubnetIds": [],
            "VpcId": "",
            "SecurityGroupIds": []
        },
        "MemorySize": 128,
        "RevisionId": "28f0fb31-5c5c-43d3-8955-03e76c5c1075",
        "CodeSize": 304,
        "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
        "Handler": "index.handler",
        "Role": "arn:aws:iam::123456789012:role/service-role/helloWorldPython-role-uy3l9qyq",
        "Timeout": 3,
        "LastModified": "2025-09-24T18:20:35.054+0000",
        "Runtime": "nodejs22.x",
        "Description": ""
    }
}
```
Untuk informasi selengkapnya, lihat [Mengkonfigurasi memori fungsi Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-memory.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [GetFunction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-function.html)di *Referensi AWS CLI Perintah*. 

### `get-layer-version-by-arn`
<a name="lambda_GetLayerVersionByArn_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-layer-version-by-arn`.

**AWS CLI**  
**Untuk mengambil informasi tentang versi lapisan Lambda**  
`get-layer-version-by-arn`Contoh berikut menampilkan informasi tentang versi layer dengan Amazon Resource Name (ARN) yang ditentukan.  

```
aws lambda get-layer-version-by-arn \
    --arn "arn:aws:lambda:us-west-2:123456789012:layer:AWSLambda-Python311-SciPy1x:2"
```
Output:  

```
{
    "LayerVersionArn": "arn:aws:lambda:us-west-2:123456789012:layer:AWSLambda-Python311-SciPy1x:2",
    "Description": "AWS Lambda SciPy layer for Python 3.11 (scipy-1.1.0, numpy-1.15.4) https://github.com/scipy/scipy/releases/tag/v1.1.0 https://github.com/numpy/numpy/releases/tag/v1.15.4",
    "CreatedDate": "2023-10-12T10:09:38.398+0000",
    "LayerArn": "arn:aws:lambda:us-west-2:123456789012:layer:AWSLambda-Python311-SciPy1x",
    "Content": {
        "CodeSize": 41784542,
        "CodeSha256": "GGmv8ocUw4cly0T8HL0Vx/f5V4RmSCGNjDIslY4VskM=",
        "Location": "https://awslambda-us-west-2-layers.s3.us-west-2.amazonaws.com/snapshots/123456789012/..."
    },
    "Version": 2,
    "CompatibleRuntimes": [
        "python3.11"
    ],
    "LicenseInfo": "SciPy: https://github.com/scipy/scipy/blob/main/LICENSE.txt, NumPy: https://github.com/numpy/numpy/blob/main/LICENSE.txt"
}
```
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [GetLayerVersionByArn](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-layer-version-by-arn.html)di *Referensi AWS CLI Perintah*. 

### `get-layer-version-policy`
<a name="lambda_GetLayerVersionPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-layer-version-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan izin untuk versi lapisan Lambda**  
`get-layer-version-policy`Contoh berikut menampilkan informasi kebijakan tentang versi 1 untuk lapisan bernama`my-layer`.  

```
aws lambda get-layer-version-policy \
    --layer-name my-layer \
    --version-number 1
```
Output:  

```
{
    "Policy": {
        "Version":"2012-10-17",		 	 	 
        "Id":"default",
        "Statement":
        [
            {
                "Sid":"xaccount",
                "Effect":"Allow",
                "Principal": {"AWS":"arn:aws:iam::123456789012:root"},
                "Action":"lambda:GetLayerVersion",
                "Resource":"arn:aws:lambda:us-west-2:123456789012:layer:my-layer:1"
            }
        ]
    },
    "RevisionId": "c68f21d2-cbf0-4026-90f6-1375ee465cd0"
}
```
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [GetLayerVersionPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-layer-version-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-layer-version`
<a name="lambda_GetLayerVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-layer-version`.

**AWS CLI**  
**Untuk mengambil informasi tentang versi lapisan Lambda**  
`get-layer-version`Contoh berikut menampilkan informasi untuk versi 1 dari layer bernama`my-layer`.  

```
aws lambda get-layer-version \
    --layer-name my-layer \
    --version-number 1
```
Output:  

```
{
    "Content": {
        "Location": "https://awslambda-us-east-2-layers.s3.us-east-2.amazonaws.com/snapshots/123456789012/my-layer-4aaa2fbb-ff77-4b0a-ad92-5b78a716a96a?versionId=27iWyA73cCAYqyH...",
        "CodeSha256": "tv9jJO+rPbXUUXuRKi7CwHzKtLDkDRJLB3cC3Z/ouXo=",
        "CodeSize": 169
    },
    "LayerArn": "arn:aws:lambda:us-east-2:123456789012:layer:my-layer",
    "LayerVersionArn": "arn:aws:lambda:us-east-2:123456789012:layer:my-layer:1",
    "Description": "My Python layer",
    "CreatedDate": "2018-11-14T23:03:52.894+0000",
    "Version": 1,
    "LicenseInfo": "MIT",
    "CompatibleRuntimes": [
        "python3.10",
        "python3.11"
    ]
}
```
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [GetLayerVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-layer-version.html)di *Referensi AWS CLI Perintah*. 

### `get-policy`
<a name="lambda_GetPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan IAM berbasis sumber daya untuk fungsi, versi, atau alias**  
`get-policy`Contoh berikut menampilkan informasi kebijakan tentang fungsi `my-function` Lambda.  

```
aws lambda get-policy \
    --function-name my-function
```
Output:  

```
{
    "Policy": {
        "Version":"2012-10-17",		 	 	 
        "Id":"default",
        "Statement":
        [
            {
                "Sid":"iot-events",
                "Effect":"Allow",
                "Principal": {"Service":"iotevents.amazonaws.com"},
                "Action":"lambda:InvokeFunction",
                "Resource":"arn:aws:lambda:us-west-2:123456789012:function:my-function"
            }
        ]
    },
    "RevisionId": "93017fc9-59cb-41dc-901b-4845ce4bf668"
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan Kebijakan Berbasis Sumber Daya untuk Lambda AWS di Panduan Pengembang Lambda](https://docs.aws.amazon.com/lambda/latest/dg/access-control-resource-based.html).AWS *  
+  Untuk detail API, lihat [GetPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-provisioned-concurrency-config`
<a name="lambda_GetProvisionedConcurrencyConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-provisioned-concurrency-config`.

**AWS CLI**  
**Untuk melihat konfigurasi konkurensi yang disediakan**  
`get-provisioned-concurrency-config`Contoh berikut menampilkan detail untuk konfigurasi konkurensi yang disediakan untuk `BLUE` alias fungsi yang ditentukan.  

```
aws lambda get-provisioned-concurrency-config \
    --function-name my-function \
    --qualifier BLUE
```
Output:  

```
{
    "RequestedProvisionedConcurrentExecutions": 100,
    "AvailableProvisionedConcurrentExecutions": 100,
    "AllocatedProvisionedConcurrentExecutions": 100,
    "Status": "READY",
    "LastModified": "2019-12-31T20:28:49+0000"
}
```
+  Untuk detail API, lihat [GetProvisionedConcurrencyConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/get-provisioned-concurrency-config.html)di *Referensi AWS CLI Perintah*. 

### `invoke`
<a name="lambda_Invoke_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`invoke`.

**AWS CLI**  
**Contoh 1: Untuk menjalankan fungsi Lambda secara sinkron**  
`invoke`Contoh berikut memanggil `my-function` fungsi sinkron. `cli-binary-format`Opsi ini diperlukan jika Anda menggunakan AWS CLI versi 2. Untuk informasi selengkapnya, lihat [opsi baris perintah global yang didukung AWS CLI](https://docs.aws.amazon.com/cli/latest/userguide/cli-configure-options.html#cli-configure-options-list) di *Panduan Pengguna Antarmuka Baris AWS Perintah*.  

```
aws lambda invoke \
    --function-name my-function \
    --cli-binary-format raw-in-base64-out \
    --payload '{ "name": "Bob" }' \
    response.json
```
Output:  

```
{
    "ExecutedVersion": "$LATEST",
    "StatusCode": 200
}
```
Untuk informasi selengkapnya, lihat [Memanggil fungsi Lambda](https://docs.aws.amazon.com/lambda/latest/dg/invocation-sync.html) secara sinkron di Panduan Pengembang *AWS Lambda*.  
**Contoh 2: Untuk menjalankan fungsi Lambda secara asinkron**  
`invoke`Contoh berikut memanggil `my-function` fungsi asinkron. `cli-binary-format`Opsi ini diperlukan jika Anda menggunakan AWS CLI versi 2. Untuk informasi selengkapnya, lihat [opsi baris perintah global yang didukung AWS CLI](https://docs.aws.amazon.com/cli/latest/userguide/cli-configure-options.html#cli-configure-options-list) di *Panduan Pengguna Antarmuka Baris AWS Perintah*.  

```
aws lambda invoke \
    --function-name my-function \
    --invocation-type Event \
    --cli-binary-format raw-in-base64-out \
    --payload '{ "name": "Bob" }' \
    response.json
```
Output:  

```
{
    "StatusCode": 202
}
```
*Untuk informasi selengkapnya, lihat [Memanggil fungsi Lambda](https://docs.aws.amazon.com/lambda/latest/dg/invocation-async.html) secara asinkron di AWS Panduan Pengembang Lambda.*  
+  Untuk detail API, lihat [Memanggil](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/invoke.html) di *Referensi AWS CLI Perintah*. 

### `list-aliases`
<a name="lambda_ListAliases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-aliases`.

**AWS CLI**  
**Untuk mengambil daftar alias untuk fungsi Lambda**  
`list-aliases`Contoh berikut menampilkan daftar alias untuk fungsi `my-function` Lambda.  

```
aws lambda list-aliases \
    --function-name my-function
```
Output:  

```
{
    "Aliases": [
        {
            "AliasArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:BETA",
            "RevisionId": "a410117f-ab16-494e-8035-7e204bb7933b",
            "FunctionVersion": "2",
            "Name": "BETA",
            "Description": "alias for beta version of function"
        },
        {
            "AliasArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:LIVE",
            "RevisionId": "21d40116-f8b1-40ba-9360-3ea284da1bb5",
            "FunctionVersion": "1",
            "Name": "LIVE",
            "Description": "alias for live version of function"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Alias Fungsi AWS Lambda](https://docs.aws.amazon.com/lambda/latest/dg/aliases-intro.html) di Panduan Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [ListAliases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-aliases.html)di *Referensi AWS CLI Perintah*. 

### `list-event-source-mappings`
<a name="lambda_ListEventSourceMappings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-event-source-mappings`.

**AWS CLI**  
**Untuk membuat daftar pemetaan sumber peristiwa untuk suatu fungsi**  
`list-event-source-mappings`Contoh berikut menampilkan daftar pemetaan sumber peristiwa untuk fungsi Lambda`my-function`.  

```
aws lambda list-event-source-mappings \
    --function-name my-function
```
Output:  

```
{
    "EventSourceMappings": [
        {
            "UUID": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
            "StateTransitionReason": "USER_INITIATED",
            "LastModified": 1569284520.333,
            "BatchSize": 5,
            "State": "Enabled",
            "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
            "EventSourceArn": "arn:aws:sqs:us-west-2:123456789012:mySQSqueue"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Pemetaan Sumber Peristiwa AWS Lambda di Panduan Pengembang](https://docs.aws.amazon.com/lambda/latest/dg/invocation-eventsourcemapping.html) Lambda AWS .*  
+  Untuk detail API, lihat [ListEventSourceMappings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-event-source-mappings.html)di *Referensi AWS CLI Perintah*. 

### `list-function-event-invoke-configs`
<a name="lambda_ListFunctionEventInvokeConfigs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-function-event-invoke-configs`.

**AWS CLI**  
**Untuk melihat daftar konfigurasi pemanggilan asinkron**  
`list-function-event-invoke-configs`Contoh berikut mencantumkan konfigurasi pemanggilan asinkron untuk fungsi yang ditentukan.  

```
aws lambda list-function-event-invoke-configs \
    --function-name my-function
```
Output:  

```
{
    "FunctionEventInvokeConfigs": [
        {
            "LastModified": 1577824406.719,
            "FunctionArn": "arn:aws:lambda:us-east-2:123456789012:function:my-function:GREEN",
            "MaximumRetryAttempts": 2,
            "MaximumEventAgeInSeconds": 1800
        },
        {
            "LastModified": 1577824396.653,
            "FunctionArn": "arn:aws:lambda:us-east-2:123456789012:function:my-function:BLUE",
            "MaximumRetryAttempts": 0,
            "MaximumEventAgeInSeconds": 3600
        }
    ]
}
```
+  Untuk detail API, lihat [ListFunctionEventInvokeConfigs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-function-event-invoke-configs.html)di *Referensi AWS CLI Perintah*. 

### `list-functions`
<a name="lambda_ListFunctions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-functions`.

**AWS CLI**  
**Untuk mengambil daftar fungsi Lambda**  
`list-functions`Contoh berikut menampilkan daftar semua fungsi untuk pengguna saat ini.  

```
aws lambda list-functions
```
Output:  

```
{
    "Functions": [
        {
            "TracingConfig": {
                "Mode": "PassThrough"
            },
            "Version": "$LATEST",
            "CodeSha256": "dBG9m8SGdmlEjw/JYXlhhvCrAv5TxvXsbL/RMr0fT/I=",
            "FunctionName": "helloworld",
            "MemorySize": 128,
            "RevisionId": "1718e831-badf-4253-9518-d0644210af7b",
            "CodeSize": 294,
            "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:helloworld",
            "Handler": "helloworld.handler",
            "Role": "arn:aws:iam::123456789012:role/service-role/MyTestFunction-role-zgur6bf4",
            "Timeout": 3,
            "LastModified": "2025-09-23T18:32:33.857+0000",
            "Runtime": "nodejs22.x",
            "Description": ""
        },
        {
            "TracingConfig": {
                "Mode": "PassThrough"
            },
            "Version": "$LATEST",
            "CodeSha256": "sU0cJ2/hOZevwV/lTxCuQqK3gDZP3i8gUoqUUVRmY6E=",
            "FunctionName": "my-function",
            "VpcConfig": {
                "SubnetIds": [],
                "VpcId": "",
                "SecurityGroupIds": []
            },
            "MemorySize": 256,
            "RevisionId": "93017fc9-59cb-41dc-901b-4845ce4bf668",
            "CodeSize": 266,
            "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
            "Handler": "index.handler",
            "Role": "arn:aws:iam::123456789012:role/service-role/helloWorldPython-role-uy3l9qyq",
            "Timeout": 3,
            "LastModified": "2025-10-01T16:47:28.490+0000",
            "Runtime": "nodejs22.x",
            "Description": ""
        },
        {
            "Layers": [
                {
                    "CodeSize": 41784542,
                    "Arn": "arn:aws:lambda:us-west-2:420165488524:layer:AWSLambda-Python37-SciPy1x:2"
                },
                {
                    "CodeSize": 4121,
                    "Arn": "arn:aws:lambda:us-west-2:123456789012:layer:pythonLayer:1"
                }
            ],
            "TracingConfig": {
                "Mode": "PassThrough"
            },
            "Version": "$LATEST",
            "CodeSha256": "ZQukCqxtkqFgyF2cU41Avj99TKQ/hNihPtDtRcc08mI=",
            "FunctionName": "my-python-function",
            "VpcConfig": {
                "SubnetIds": [],
                "VpcId": "",
                "SecurityGroupIds": []
            },
            "MemorySize": 128,
            "RevisionId": "80b4eabc-acf7-4ea8-919a-e874c213707d",
            "CodeSize": 299,
            "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-python-function",
            "Handler": "lambda_function.lambda_handler",
            "Role": "arn:aws:iam::123456789012:role/service-role/my-python-function-role-z5g7dr6n",
            "Timeout": 3,
            "LastModified": "2025-10-01T19:40:41.643+0000",
            "Runtime": "python3.11",
            "Description": ""
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengkonfigurasi memori fungsi Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-memory.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [ListFunctions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-functions.html)di *Referensi AWS CLI Perintah*. 

### `list-layer-versions`
<a name="lambda_ListLayerVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-layer-versions`.

**AWS CLI**  
**Untuk membuat daftar versi layer AWS Lambda**  
`list-layers-versions`Contoh berikut menampilkan informasi tentang versi untuk layer bernama`my-layer`.  

```
aws lambda list-layer-versions \
    --layer-name my-layer
```
Output:  

```
{
    "Layers": [
        {
            "LayerVersionArn": "arn:aws:lambda:us-east-2:123456789012:layer:my-layer:2",
            "Version": 2,
            "Description": "My layer",
            "CreatedDate": "2023-11-15T00:37:46.592+0000",
            "CompatibleRuntimes": [
                "python3.10",
                "python3.11"
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [ListLayerVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-layer-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-layers`
<a name="lambda_ListLayers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-layers`.

**AWS CLI**  
**Untuk membuat daftar layer yang kompatibel dengan runtime fungsi Anda**  
`list-layers`Contoh berikut menampilkan informasi tentang layer yang kompatibel dengan runtime Python 3.11.  

```
aws lambda list-layers \
    --compatible-runtime python3.11
```
Output:  

```
{
    "Layers": [
        {
            "LayerName": "my-layer",
            "LayerArn": "arn:aws:lambda:us-east-2:123456789012:layer:my-layer",
            "LatestMatchingVersion": {
                "LayerVersionArn": "arn:aws:lambda:us-east-2:123456789012:layer:my-layer:2",
                "Version": 2,
                "Description": "My layer",
                "CreatedDate": "2023-11-15T00:37:46.592+0000",
                "CompatibleRuntimes": [
                    "python3.10",
                    "python3.11"
                ]
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [ListLayers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-layers.html)di *Referensi AWS CLI Perintah*. 

### `list-provisioned-concurrency-configs`
<a name="lambda_ListProvisionedConcurrencyConfigs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-provisioned-concurrency-configs`.

**AWS CLI**  
**Untuk mendapatkan daftar konfigurasi konkurensi yang disediakan**  
`list-provisioned-concurrency-configs`Contoh berikut mencantumkan konfigurasi konkurensi yang disediakan untuk fungsi yang ditentukan.  

```
aws lambda list-provisioned-concurrency-configs \
    --function-name my-function
```
Output:  

```
{
    "ProvisionedConcurrencyConfigs": [
        {
            "FunctionArn": "arn:aws:lambda:us-east-2:123456789012:function:my-function:GREEN",
            "RequestedProvisionedConcurrentExecutions": 100,
            "AvailableProvisionedConcurrentExecutions": 100,
            "AllocatedProvisionedConcurrentExecutions": 100,
            "Status": "READY",
            "LastModified": "2019-12-31T20:29:00+0000"
        },
        {
            "FunctionArn": "arn:aws:lambda:us-east-2:123456789012:function:my-function:BLUE",
            "RequestedProvisionedConcurrentExecutions": 100,
            "AvailableProvisionedConcurrentExecutions": 100,
            "AllocatedProvisionedConcurrentExecutions": 100,
            "Status": "READY",
            "LastModified": "2019-12-31T20:28:49+0000"
        }
    ]
}
```
+  Untuk detail API, lihat [ListProvisionedConcurrencyConfigs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-provisioned-concurrency-configs.html)di *Referensi AWS CLI Perintah*. 

### `list-tags`
<a name="lambda_ListTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags`.

**AWS CLI**  
**Untuk mengambil daftar tag untuk fungsi Lambda**  
`list-tags`Contoh berikut menampilkan tag yang dilampirkan ke fungsi `my-function` Lambda.  

```
aws lambda list-tags \
    --resource arn:aws:lambda:us-west-2:123456789012:function:my-function
```
Output:  

```
{
    "Tags": {
        "Category": "Web Tools",
        "Department": "Sales"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai Fungsi Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/tagging.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [ListTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-versions-by-function`
<a name="lambda_ListVersionsByFunction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-versions-by-function`.

**AWS CLI**  
**Untuk mengambil daftar versi fungsi**  
`list-versions-by-function`Contoh berikut menampilkan daftar versi untuk fungsi `my-function` Lambda.  

```
aws lambda list-versions-by-function \
    --function-name my-function
```
Output:  

```
{
    "Versions": [
        {
            "TracingConfig": {
                "Mode": "PassThrough"
            },
            "Version": "$LATEST",
            "CodeSha256": "sU0cJ2/hOZevwV/lTxCuQqK3gDZP3i8gUoqUUVRmY6E=",
            "FunctionName": "my-function",
            "VpcConfig": {
                "SubnetIds": [],
                "VpcId": "",
                "SecurityGroupIds": []
            },
            "MemorySize": 256,
            "RevisionId": "93017fc9-59cb-41dc-901b-4845ce4bf668",
            "CodeSize": 266,
            "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:$LATEST",
            "Handler": "index.handler",
            "Role": "arn:aws:iam::123456789012:role/service-role/helloWorldPython-role-uy3l9qyq",
            "Timeout": 3,
            "LastModified": "2019-10-01T16:47:28.490+0000",
            "Runtime": "nodejs10.x",
            "Description": ""
        },
        {
            "TracingConfig": {
                "Mode": "PassThrough"
            },
            "Version": "1",
            "CodeSha256": "5tT2qgzYUHoqwR616pZ2dpkn/0J1FrzJmlKidWaaCgk=",
            "FunctionName": "my-function",
            "VpcConfig": {
                "SubnetIds": [],
                "VpcId": "",
                "SecurityGroupIds": []
            },
            "MemorySize": 256,
            "RevisionId": "949c8914-012e-4795-998c-e467121951b1",
            "CodeSize": 304,
            "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:1",
            "Handler": "index.handler",
            "Role": "arn:aws:iam::123456789012:role/service-role/helloWorldPython-role-uy3l9qyq",
            "Timeout": 3,
            "LastModified": "2019-09-26T20:28:40.438+0000",
            "Runtime": "nodejs10.x",
            "Description": "new version"
        },
        {
            "TracingConfig": {
                "Mode": "PassThrough"
            },
            "Version": "2",
            "CodeSha256": "sU0cJ2/hOZevwV/lTxCuQqK3gDZP3i8gUoqUUVRmY6E=",
            "FunctionName": "my-function",
            "VpcConfig": {
                "SubnetIds": [],
                "VpcId": "",
                "SecurityGroupIds": []
            },
            "MemorySize": 256,
            "RevisionId": "cd669f21-0f3d-4e1c-9566-948837f2e2ea",
            "CodeSize": 266,
            "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:2",
            "Handler": "index.handler",
            "Role": "arn:aws:iam::123456789012:role/service-role/helloWorldPython-role-uy3l9qyq",
            "Timeout": 3,
            "LastModified": "2019-10-01T16:47:28.490+0000",
            "Runtime": "nodejs10.x",
            "Description": "newer version"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Alias Fungsi AWS Lambda](https://docs.aws.amazon.com/lambda/latest/dg/aliases-intro.html) di Panduan Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [ListVersionsByFunction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/list-versions-by-function.html)di *Referensi AWS CLI Perintah*. 

### `publish-layer-version`
<a name="lambda_PublishLayerVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`publish-layer-version`.

**AWS CLI**  
**Untuk membuat versi layer Lambda**  
`publish-layer-version`Contoh berikut membuat versi layer pustaka Python baru. Perintah mengambil konten lapisan file bernama `layer.zip` dalam bucket S3 yang ditentukan.  

```
aws lambda publish-layer-version \
    --layer-name my-layer \
    --description "My Python layer" \
    --license-info "MIT" \
    --content S3Bucket=lambda-layers-us-west-2-123456789012,S3Key=layer.zip \
    --compatible-runtimes python3.10 python3.11
```
Output:  

```
{
    "Content": {
        "Location": "https://awslambda-us-west-2-layers.s3.us-west-2.amazonaws.com/snapshots/123456789012/my-layer-4aaa2fbb-ff77-4b0a-ad92-5b78a716a96a?versionId=27iWyA73cCAYqyH...",
        "CodeSha256": "tv9jJO+rPbXUUXuRKi7CwHzKtLDkDRJLB3cC3Z/ouXo=",
        "CodeSize": 169
    },
    "LayerArn": "arn:aws:lambda:us-west-2:123456789012:layer:my-layer",
    "LayerVersionArn": "arn:aws:lambda:us-west-2:123456789012:layer:my-layer:1",
    "Description": "My Python layer",
    "CreatedDate": "2023-11-14T23:03:52.894+0000",
    "Version": 1,
    "LicenseInfo": "MIT",
    "CompatibleRuntimes": [
        "python3.10",
        "python3.11"
    ]
}
```
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [PublishLayerVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/publish-layer-version.html)di *Referensi AWS CLI Perintah*. 

### `publish-version`
<a name="lambda_PublishVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`publish-version`.

**AWS CLI**  
**Untuk mempublikasikan versi baru dari suatu fungsi**  
`publish-version`Contoh berikut menerbitkan versi baru dari fungsi `my-function` Lambda.  

```
aws lambda publish-version \
    --function-name my-function
```
Output:  

```
{
    "TracingConfig": {
        "Mode": "PassThrough"
    },
    "CodeSha256": "dBG9m8SGdmlEjw/JYXlhhvCrAv5TxvXsbL/RMr0fT/I=",
    "FunctionName": "my-function",
    "CodeSize": 294,
    "RevisionId": "f31d3d39-cc63-4520-97d4-43cd44c94c20",
    "MemorySize": 128,
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:3",
    "Version": "2",
    "Role": "arn:aws:iam::123456789012:role/service-role/MyTestFunction-role-zgur6bf4",
    "Timeout": 3,
    "LastModified": "2019-09-23T18:32:33.857+0000",
    "Handler": "my-function.handler",
    "Runtime": "nodejs10.x",
    "Description": ""
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Alias Fungsi AWS Lambda](https://docs.aws.amazon.com/lambda/latest/dg/aliases-intro.html) di Panduan Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [PublishVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/publish-version.html)di *Referensi AWS CLI Perintah*. 

### `put-function-concurrency`
<a name="lambda_PutFunctionConcurrency_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-function-concurrency`.

**AWS CLI**  
**Untuk mengonfigurasi batas konkurensi cadangan untuk suatu fungsi**  
`put-function-concurrency`Contoh berikut mengonfigurasi 100 eksekusi bersamaan yang dicadangkan untuk fungsi tersebut. `my-function`  

```
aws lambda put-function-concurrency \
    --function-name  my-function  \
    --reserved-concurrent-executions 100
```
Output:  

```
{
    "ReservedConcurrentExecutions": 100
}
```
*Untuk informasi selengkapnya, lihat [Reservasi Konkurensi untuk Fungsi Lambda di](https://docs.aws.amazon.com/lambda/latest/dg/per-function-concurrency.html) Panduan Pengembang AWS Lambda.*  
+  Untuk detail API, lihat [PutFunctionConcurrency](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/put-function-concurrency.html)di *Referensi AWS CLI Perintah*. 

### `put-function-event-invoke-config`
<a name="lambda_PutFunctionEventInvokeConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-function-event-invoke-config`.

**AWS CLI**  
**Untuk mengonfigurasi penanganan kesalahan untuk pemanggilan asinkron**  
`put-function-event-invoke-config`Contoh berikut menetapkan usia acara maksimum satu jam dan menonaktifkan percobaan ulang untuk fungsi yang ditentukan.  

```
aws lambda put-function-event-invoke-config \
    --function-name my-function \
    --maximum-event-age-in-seconds 3600 \
    --maximum-retry-attempts 0
```
Output:  

```
{
    "LastModified": 1573686021.479,
    "FunctionArn": "arn:aws:lambda:us-east-2:123456789012:function:my-function:$LATEST",
    "MaximumRetryAttempts": 0,
    "MaximumEventAgeInSeconds": 3600,
    "DestinationConfig": {
        "OnSuccess": {},
        "OnFailure": {}
    }
}
```
+  Untuk detail API, lihat [PutFunctionEventInvokeConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/put-function-event-invoke-config.html)di *Referensi AWS CLI Perintah*. 

### `put-provisioned-concurrency-config`
<a name="lambda_PutProvisionedConcurrencyConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-provisioned-concurrency-config`.

**AWS CLI**  
**Untuk mengalokasikan konkurensi yang disediakan**  
`put-provisioned-concurrency-config`Contoh berikut mengalokasikan 100 konkurensi yang disediakan untuk `BLUE` alias fungsi yang ditentukan.  

```
aws lambda put-provisioned-concurrency-config \
    --function-name my-function \
    --qualifier BLUE \
    --provisioned-concurrent-executions 100
```
Output:  

```
{
    "Requested ProvisionedConcurrentExecutions": 100,
    "Allocated ProvisionedConcurrentExecutions": 0,
    "Status": "IN_PROGRESS",
    "LastModified": "2019-11-21T19:32:12+0000"
}
```
+  Untuk detail API, lihat [PutProvisionedConcurrencyConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/put-provisioned-concurrency-config.html)di *Referensi AWS CLI Perintah*. 

### `remove-layer-version-permission`
<a name="lambda_RemoveLayerVersionPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-layer-version-permission`.

**AWS CLI**  
**Untuk menghapus izin versi lapisan**  
`remove-layer-version-permission`Contoh berikut menghapus izin untuk akun untuk mengkonfigurasi versi lapisan.  

```
aws lambda remove-layer-version-permission \
    --layer-name my-layer \
    --statement-id xaccount \
    --version-number 1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Lapisan AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/configuration-layers.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [RemoveLayerVersionPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/remove-layer-version-permission.html)di *Referensi AWS CLI Perintah*. 

### `remove-permission`
<a name="lambda_RemovePermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-permission`.

**AWS CLI**  
**Untuk menghapus izin dari fungsi Lambda yang ada**  
`remove-permission`Contoh berikut menghapus izin untuk memanggil fungsi bernama`my-function`.  

```
aws lambda remove-permission \
    --function-name my-function \
    --statement-id sns
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menggunakan Kebijakan Berbasis Sumber Daya untuk Lambda AWS di Panduan Pengembang Lambda](https://docs.aws.amazon.com/lambda/latest/dg/access-control-resource-based.html).AWS *  
+  Untuk detail API, lihat [RemovePermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/remove-permission.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="lambda_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke fungsi Lambda yang ada**  
`tag-resource`Contoh berikut menambahkan tag dengan nama kunci `DEPARTMENT` dan nilai `Department A` untuk fungsi Lambda tertentu.  

```
aws lambda tag-resource \
    --resource arn:aws:lambda:us-west-2:123456789012:function:my-function \
    --tags "DEPARTMENT=Department A"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Fungsi Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/tagging.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="lambda_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari fungsi Lambda yang ada**  
`untag-resource`Contoh berikut menghapus tag dengan `DEPARTMENT` tag nama kunci dari fungsi `my-function` Lambda.  

```
aws lambda untag-resource \
    --resource arn:aws:lambda:us-west-2:123456789012:function:my-function \
    --tag-keys DEPARTMENT
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Fungsi Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/tagging.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-alias`
<a name="lambda_UpdateAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-alias`.

**AWS CLI**  
**Untuk memperbarui alias fungsi**  
`update-alias`Contoh berikut memperbarui alias bernama `LIVE` untuk menunjuk ke versi 3 dari fungsi `my-function` Lambda.  

```
aws lambda update-alias \
    --function-name my-function \
    --function-version 3 \
    --name LIVE
```
Output:  

```
{
    "FunctionVersion": "3",
    "Name": "LIVE",
    "AliasArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function:LIVE",
    "RevisionId": "594f41fb-b85f-4c20-95c7-6ca5f2a92c93",
    "Description": "alias for live version of function"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Alias Fungsi AWS Lambda](https://docs.aws.amazon.com/lambda/latest/dg/aliases-intro.html) di Panduan Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [UpdateAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/update-alias.html)di *Referensi AWS CLI Perintah*. 

### `update-event-source-mapping`
<a name="lambda_UpdateEventSourceMapping_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-event-source-mapping`.

**AWS CLI**  
**Untuk memperbarui pemetaan antara sumber peristiwa dan fungsi AWS Lambda**  
`update-event-source-mapping`Contoh berikut memperbarui ukuran batch ke 8 dalam pemetaan yang ditentukan.  

```
aws lambda update-event-source-mapping \
    --uuid  "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE" \
    --batch-size 8
```
Output:  

```
{
    "UUID": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE",
    "StateTransitionReason": "USER_INITIATED",
    "LastModified": 1569284520.333,
    "BatchSize": 8,
    "State": "Updating",
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
    "EventSourceArn": "arn:aws:sqs:us-west-2:123456789012:mySQSqueue"
}
```
*Untuk informasi selengkapnya, lihat [Pemetaan Sumber Peristiwa AWS Lambda di Panduan Pengembang](https://docs.aws.amazon.com/lambda/latest/dg/invocation-eventsourcemapping.html) Lambda AWS .*  
+  Untuk detail API, lihat [UpdateEventSourceMapping](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/update-event-source-mapping.html)di *Referensi AWS CLI Perintah*. 

### `update-function-code`
<a name="lambda_UpdateFunctionCode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-function-code`.

**AWS CLI**  
**Untuk memperbarui kode fungsi Lambda**  
`update-function-code`Contoh berikut menggantikan kode versi `my-function` fungsi yang tidak dipublikasikan (\$1LATEST) dengan isi file zip yang ditentukan.  

```
aws lambda update-function-code \
    --function-name  my-function \
    --zip-file fileb://my-function.zip
```
Output:  

```
{
    "FunctionName": "my-function",
    "LastModified": "2019-09-26T20:28:40.438+0000",
    "RevisionId": "e52502d4-9320-4688-9cd6-152a6ab7490d",
    "MemorySize": 256,
    "Version": "$LATEST",
    "Role": "arn:aws:iam::123456789012:role/service-role/my-function-role-uy3l9qyq",
    "Timeout": 3,
    "Runtime": "nodejs10.x",
    "TracingConfig": {
        "Mode": "PassThrough"
    },
    "CodeSha256": "5tT2qgzYUHaqwR716pZ2dpkn/0J1FrzJmlKidWoaCgk=",
    "Description": "",
    "VpcConfig": {
        "SubnetIds": [],
        "VpcId": "",
        "SecurityGroupIds": []
    },
    "CodeSize": 304,
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
    "Handler": "index.handler"
}
```
Untuk informasi selengkapnya, lihat [Konfigurasi Fungsi AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/resource-model.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [UpdateFunctionCode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/update-function-code.html)di *Referensi AWS CLI Perintah*. 

### `update-function-configuration`
<a name="lambda_UpdateFunctionConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-function-configuration`.

**AWS CLI**  
**Untuk memodifikasi konfigurasi suatu fungsi**  
`update-function-configuration`Contoh berikut memodifikasi ukuran memori menjadi 256 MB untuk versi fungsi yang tidak dipublikasikan (\$1LATEST). `my-function`  

```
aws lambda update-function-configuration \
    --function-name  my-function \
    --memory-size 256
```
Output:  

```
{
    "FunctionName": "my-function",
    "LastModified": "2019-09-26T20:28:40.438+0000",
    "RevisionId": "e52502d4-9320-4688-9cd6-152a6ab7490d",
    "MemorySize": 256,
    "Version": "$LATEST",
    "Role": "arn:aws:iam::123456789012:role/service-role/my-function-role-uy3l9qyq",
    "Timeout": 3,
    "Runtime": "nodejs10.x",
    "TracingConfig": {
        "Mode": "PassThrough"
    },
    "CodeSha256": "5tT2qgzYUHaqwR716pZ2dpkn/0J1FrzJmlKidWoaCgk=",
    "Description": "",
    "VpcConfig": {
        "SubnetIds": [],
        "VpcId": "",
        "SecurityGroupIds": []
    },
    "CodeSize": 304,
    "FunctionArn": "arn:aws:lambda:us-west-2:123456789012:function:my-function",
    "Handler": "index.handler"
}
```
Untuk informasi selengkapnya, lihat [Konfigurasi Fungsi AWS Lambda di Panduan](https://docs.aws.amazon.com/lambda/latest/dg/resource-model.html) Pengembang *AWS Lambda*.  
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/update-function-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-function-event-invoke-config`
<a name="lambda_UpdateFunctionEventInvokeConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-function-event-invoke-config`.

**AWS CLI**  
**Untuk memperbarui konfigurasi pemanggilan asinkron**  
`update-function-event-invoke-config`Contoh berikut menambahkan tujuan on-failure ke konfigurasi pemanggilan asinkron yang ada untuk fungsi yang ditentukan.  

```
aws lambda update-function-event-invoke-config \
    --function-name my-function \
    --destination-config '{"OnFailure":{"Destination": "arn:aws:sqs:us-east-2:123456789012:destination"}}'
```
Output:  

```
{
    "LastModified": 1573687896.493,
    "FunctionArn": "arn:aws:lambda:us-east-2:123456789012:function:my-function:$LATEST",
    "MaximumRetryAttempts": 0,
    "MaximumEventAgeInSeconds": 3600,
    "DestinationConfig": {
        "OnSuccess": {},
        "OnFailure": {
            "Destination": "arn:aws:sqs:us-east-2:123456789012:destination"
        }
    }
}
```
+  Untuk detail API, lihat [UpdateFunctionEventInvokeConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lambda/update-function-event-invoke-config.html)di *Referensi AWS CLI Perintah*. 

# Contoh License Manager menggunakan AWS CLI
<a name="cli_2_license-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With License Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-license-configuration`
<a name="license-manager_CreateLicenseConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-license-configuration`.

**AWS CLI**  
**Contoh 1: Untuk membuat konfigurasi lisensi**  
`create-license-configuration`Contoh berikut membuat konfigurasi lisensi dengan batas keras 10 core.  

```
aws license-manager create-license-configuration --name my-license-configuration \
    --license-counting-type Core \
    --license-count 10 \
    --license-count-hard-limit
```
Output:  

```
{
  "LicenseConfigurationArn": "arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-6eb6586f508a786a2ba41EXAMPLE1111"
}
```
**Contoh 2: Untuk membuat konfigurasi lisensi**  
`create-license-configuration`Contoh berikut membuat konfigurasi lisensi dengan batas lunak 100 vCPUs. Ini menggunakan aturan untuk mengaktifkan optimasi vCPU.  

```
aws license-manager create-license-configuration --name my-license-configuration
    --license-counting-type vCPU \
    --license-count 100 \
    --license-rules "#honorVcpuOptimization=true"
```
Output:  

```
{
  "LicenseConfigurationArn": "arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-6eb6586f508a786a2ba41EXAMPLE2222"
}
```
+  Untuk detail API, lihat [CreateLicenseConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/create-license-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-license-configuration`
<a name="license-manager_DeleteLicenseConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-license-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi lisensi**  
`delete-license-configuration`Contoh berikut menghapus konfigurasi lisensi yang ditentukan.  

```
aws license-manager delete-license-configuration \
    --license-configuration-arn arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-6eb6586f508a786a2ba4f56c1EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteLicenseConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/delete-license-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-license-configuration`
<a name="license-manager_GetLicenseConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-license-configuration`.

**AWS CLI**  
**Untuk mendapatkan informasi konfigurasi lisensi**  
`get-license-configuration`Contoh berikut menampilkan rincian untuk konfigurasi lisensi yang ditentukan.  

```
aws license-manager get-license-configuration \
    --license-configuration-arn arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-38b658717b87478aaa7c00883EXAMPLE
```
Output:  

```
{
    "LicenseConfigurationId": "lic-38b658717b87478aaa7c00883EXAMPLE",
    "LicenseConfigurationArn": "arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-38b658717b87478aaa7c00883EXAMPLE",
    "Name": "my-license-configuration",
    "LicenseCountingType": "vCPU",
    "LicenseRules": [],
    "LicenseCountHardLimit": false,
    "ConsumedLicenses": 0,
    "Status": "AVAILABLE",
    "OwnerAccountId": "123456789012",
    "ConsumedLicenseSummaryList": [
        {
            "ResourceType": "EC2_INSTANCE",
            "ConsumedLicenses": 0
        },
        {
            "ResourceType": "EC2_HOST",
            "ConsumedLicenses": 0
        },
        {
            "ResourceType": "SYSTEMS_MANAGER_MANAGED_INSTANCE",
            "ConsumedLicenses": 0
        }
    ],
    "ManagedResourceSummaryList": [
        {
            "ResourceType": "EC2_INSTANCE",
            "AssociationCount": 0
        },
        {
            "ResourceType": "EC2_HOST",
            "AssociationCount": 0
        },
        {
            "ResourceType": "EC2_AMI",
            "AssociationCount": 2
        },
        {
            "ResourceType": "SYSTEMS_MANAGER_MANAGED_INSTANCE",
            "AssociationCount": 0
        }
    ]
}
```
+  Untuk detail API, lihat [GetLicenseConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/get-license-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-service-settings`
<a name="license-manager_GetServiceSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-settings`.

**AWS CLI**  
**Untuk mendapatkan pengaturan License Manager**  
`get-service-settings`Contoh berikut menampilkan pengaturan layanan untuk License Manager di Region saat ini.  

```
aws license-manager get-service-settings
```
Berikut ini menunjukkan contoh keluaran jika penemuan sumber daya lintas akun dinonaktifkan.  

```
{
    "OrganizationConfiguration": {
        "EnableIntegration": false
    },
    "EnableCrossAccountsDiscovery": false
}
```
Berikut ini menunjukkan contoh keluaran jika penemuan sumber daya lintas akun diaktifkan.  

```
{
    "S3BucketArn": "arn:aws:s3:::aws-license-manager-service-c22d6279-35c4-47c4-bb",
    "OrganizationConfiguration": {
        "EnableIntegration": true
    },
    "EnableCrossAccountsDiscovery": true
}
```
+  Untuk detail API, lihat [GetServiceSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/get-service-settings.html)di *Referensi AWS CLI Perintah*. 

### `list-associations-for-license-configuration`
<a name="license-manager_ListAssociationsForLicenseConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-associations-for-license-configuration`.

**AWS CLI**  
**Untuk mendapatkan asosiasi untuk konfigurasi lisensi**  
`list-associations-for-license-configuration`Contoh berikut menampilkan informasi rinci untuk asosiasi konfigurasi lisensi yang ditentukan.  

```
aws license-manager list-associations-for-license-configuration \
    --license-configuration-arn arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-38b658717b87478aaa7c00883EXAMPLE
```
Output:  

```
{
    "LicenseConfigurationAssociations": [
        {
            "ResourceArn": "arn:aws:ec2:us-west-2::image/ami-1234567890abcdef0",
            "ResourceType": "EC2_AMI",
            "ResourceOwnerId": "123456789012",
            "AssociationTime": 1568825118.617
        },
        {
            "ResourceArn": "arn:aws:ec2:us-west-2::image/ami-0abcdef1234567890",
            "ResourceType": "EC2_AMI",
            "ResourceOwnerId": "123456789012",
            "AssociationTime": 1568825118.946
        }
    ]
}
```
+  Untuk detail API, lihat [ListAssociationsForLicenseConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/list-associations-for-license-configuration.html)di *Referensi AWS CLI Perintah*. 

### `list-license-configurations`
<a name="license-manager_ListLicenseConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-license-configurations`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua konfigurasi lisensi Anda**  
`list-license-configurations`Contoh berikut mencantumkan semua konfigurasi lisensi Anda.  

```
aws license-manager list-license-configurations
```
Output:  

```
{
    "LicenseConfigurations": [
        {
            "LicenseConfigurationId": "lic-6eb6586f508a786a2ba4f56c1EXAMPLE",
            "LicenseConfigurationArn": "arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-6eb6586f508a786a2ba4f56c1EXAMPLE",
            "Name": "my-license-configuration",
            "LicenseCountingType": "Core",
            "LicenseRules": [],
            "LicenseCount": 10,
            "LicenseCountHardLimit": true,
            "ConsumedLicenses": 0,
            "Status": "AVAILABLE",
            "OwnerAccountId": "123456789012",
            "ConsumedLicenseSummaryList": [
                {
                    "ResourceType": "EC2_INSTANCE",
                    "ConsumedLicenses": 0
                },
                {
                    "ResourceType": "EC2_HOST",
                    "ConsumedLicenses": 0
                },
                {
                    "ResourceType": "SYSTEMS_MANAGER_MANAGED_INSTANCE",
                    "ConsumedLicenses": 0
                }
            ],
            "ManagedResourceSummaryList": [
                {
                    "ResourceType": "EC2_INSTANCE",
                    "AssociationCount": 0
                },
                {
                    "ResourceType": "EC2_HOST",
                    "AssociationCount": 0
                },
                {
                    "ResourceType": "EC2_AMI",
                    "AssociationCount": 0
                },
                {
                    "ResourceType": "SYSTEMS_MANAGER_MANAGED_INSTANCE",
                    "AssociationCount": 0
                }
            ]
        },
        {
            ...
        }
    ]
}
```
**Contoh 2: Untuk membuat daftar konfigurasi lisensi tertentu**  
`list-license-configurations`Contoh berikut hanya mencantumkan konfigurasi lisensi yang ditentukan.  

```
aws license-manager list-license-configurations \
    --license-configuration-arns arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-38b658717b87478aaa7c00883EXAMPLE
```
+  Untuk detail API, lihat [ListLicenseConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/list-license-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-license-specifications-for-resource`
<a name="license-manager_ListLicenseSpecificationsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-license-specifications-for-resource`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi lisensi untuk sumber daya**  
`list-license-specifications-for-resource`Contoh berikut mencantumkan konfigurasi lisensi yang terkait dengan Amazon Machine Image (AMI) yang ditentukan.  

```
aws license-manager list-license-specifications-for-resource \
    --resource-arn arn:aws:ec2:us-west-2::image/ami-1234567890abcdef0
```
Output:  

```
{
    "LicenseConfigurationArn": "arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-38b658717b87478aaa7c00883EXAMPLE"
}
```
+  Untuk detail API, lihat [ListLicenseSpecificationsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/list-license-specifications-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-inventory`
<a name="license-manager_ListResourceInventory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-inventory`.

**AWS CLI**  
**Untuk membuat daftar sumber daya dalam inventaris sumber daya**  
`list-resource-inventory`Contoh berikut mencantumkan sumber daya yang dikelola menggunakan inventaris Systems Manager.  

```
aws license-manager list-resource-inventory
```
Output:  

```
{
    "ResourceInventoryList": [
        {
            "Platform": "Red Hat Enterprise Linux Server",
            "ResourceType": "EC2Instance",
            "PlatformVersion": "7.4",
            "ResourceArn": "arn:aws:ec2:us-west-2:1234567890129:instance/i-05d3cdfb05bd36376",
            "ResourceId": "i-05d3cdfb05bd36376",
            "ResourceOwningAccountId": "1234567890129"
        },
        {
            "Platform": "Amazon Linux",
            "ResourceType": "EC2Instance",
            "PlatformVersion": "2",
            "ResourceArn": "arn:aws:ec2:us-west-2:1234567890129:instance/i-0b1d036cfd4594808",
            "ResourceId": "i-0b1d036cfd4594808",
            "ResourceOwningAccountId": "1234567890129"
        },
        {
            "Platform": "Microsoft Windows Server 2019 Datacenter",
            "ResourceType": "EC2Instance",
            "PlatformVersion": "10.0.17763",
            "ResourceArn": "arn:aws:ec2:us-west-2:1234567890129:instance/i-0cdb3b54a2a8246ad",
            "ResourceId": "i-0cdb3b54a2a8246ad",
            "ResourceOwningAccountId": "1234567890129"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourceInventory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/list-resource-inventory.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="license-manager_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk konfigurasi lisensi**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk konfigurasi lisensi yang ditentukan.  

```
aws license-manager list-tags-for-resource \
    --resource-arn arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-6eb6586f508a786a2ba4f56c1EXAMPLE
```
Output:  

```
{
    "Tags": [
        {
            "Key": "project",
            "Value": "lima"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-usage-for-license-configuration`
<a name="license-manager_ListUsageForLicenseConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-usage-for-license-configuration`.

**AWS CLI**  
**Untuk membuat daftar lisensi yang digunakan untuk konfigurasi lisensi**  
`list-usage-for-license-configuration`Contoh berikut mencantumkan informasi tentang sumber daya yang menggunakan lisensi untuk konfigurasi lisensi yang ditentukan. Misalnya, jika jenis lisensinya adalah vCPU, setiap instance menggunakan satu lisensi per vCPU.  

```
aws license-manager list-usage-for-license-configuration \
    --license-configuration-arn arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-38b658717b87478aaa7c00883EXAMPLE
```
Output:  

```
{
    "LicenseConfigurationUsageList": [
        {
            "ResourceArn": "arn:aws:ec2:us-west-2:123456789012:instance/i-04a636d18e83cfacb",
            "ResourceType": "EC2_INSTANCE",
            "ResourceStatus": "running",
            "ResourceOwnerId": "123456789012",
            "AssociationTime": 1570892850.519,
            "ConsumedLicenses": 2
        }
    ]
}
```
+  Untuk detail API, lihat [ListUsageForLicenseConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/list-usage-for-license-configuration.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="license-manager_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag konfigurasi lisensi**  
`tag-resource`Contoh berikut menambahkan tag yang ditentukan (nama kunci dan nilai) ke konfigurasi lisensi yang ditentukan.  

```
aws license-manager tag-resource \
    --tags Key=project,Value=lima \
    --resource-arn arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-6eb6586f508a786a2ba4f56c1EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="license-manager_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari konfigurasi lisensi**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan (nama kunci dan sumber daya) dari konfigurasi lisensi yang ditentukan.  

```
aws license-manager untag-resource \
    --tag-keys project \
    --resource-arn arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-6eb6586f508a786a2ba4f56c1EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-license-configuration`
<a name="license-manager_UpdateLicenseConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-license-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi lisensi**  
`update-license-configuration`Contoh berikut memperbarui konfigurasi lisensi yang ditentukan untuk menghapus batas keras.  

```
aws license-manager update-license-configuration \
    --no-license-count-hard-limit \
    --license-configuration-arn arn:aws:license-manager:us-west-2:880185128111:license-configuration:lic-6eb6586f508a786a2ba4f56c1EXAMPLE
```
Perintah ini tidak menghasilkan output.  
`update-license-configuration`Contoh berikut memperbarui konfigurasi lisensi yang ditentukan untuk mengubah statusnya menjadi`DISABLED`.  

```
aws license-manager update-license-configuration \
    --license-configuration-status DISABLED
    --license-configuration-arn arn:aws:license-manager:us-west-2:880185128111:license-configuration:lic-6eb6586f508a786a2ba4f56c1EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdateLicenseConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/update-license-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-license-specifications-for-resource`
<a name="license-manager_UpdateLicenseSpecificationsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-license-specifications-for-resource`.

**AWS CLI**  
**Untuk memperbarui konfigurasi lisensi untuk sumber daya**  
`update-license-specifications-for-resource`Contoh berikut menggantikan konfigurasi lisensi yang terkait dengan Amazon Machine Image (AMI) yang ditentukan dengan menghapus satu konfigurasi lisensi dan menambahkan yang lain.  

```
aws license-manager update-license-specifications-for-resource \
    --resource-arn arn:aws:ec2:us-west-2::image/ami-1234567890abcdef0 \
    --remove-license-specifications LicenseConfigurationArn=arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-38b658717b87478aaa7c00883EXAMPLE \
    --add-license-specifications LicenseConfigurationArn=arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-42b6deb06e5399a980d555927EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdateLicenseSpecificationsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/update-license-specifications-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-service-settings`
<a name="license-manager_UpdateServiceSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service-settings`.

**AWS CLI**  
**Untuk memperbarui pengaturan License Manager**  
`update-service-settings`Contoh berikut memungkinkan penemuan sumber daya lintas akun untuk License Manager di AWS Wilayah saat ini. Bucket Amazon S3 adalah Sinkronisasi Data Sumber Daya yang diperlukan untuk inventaris Systems Manager.  

```
aws license-manager update-service-settings \
    --organization-configuration EnableIntegration=true \
    --enable-cross-accounts-discovery \
    --s3-bucket-arn arn:aws:s3:::aws-license-manager-service-abcd1234EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdateServiceSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/license-manager/update-service-settings.html)di *Referensi AWS CLI Perintah*. 

# Contoh Lightsail menggunakan AWS CLI
<a name="cli_2_lightsail_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Lightsail.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `allocate-static-ip`
<a name="lightsail_AllocateStaticIp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`allocate-static-ip`.

**AWS CLI**  
**Untuk membuat IP statis**  
`allocate-static-ip`Contoh berikut menciptakan IP statis yang ditentukan, yang dapat dilampirkan ke sebuah instance.  

```
aws lightsail allocate-static-ip \
    --static-ip-name StaticIp-1
```
Output:  

```
{
    "operations": [
        {
            "id": "b5d06d13-2f19-4683-889f-dEXAMPLEed79",
            "resourceName": "StaticIp-1",
            "resourceType": "StaticIp",
            "createdAt": 1571071325.076,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "AllocateStaticIp",
            "status": "Succeeded",
            "statusChangedAt": 1571071325.274
        }
    ]
}
```
+  Untuk detail API, lihat [AllocateStaticIp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/allocate-static-ip.html)di *Referensi AWS CLI Perintah*. 

### `attach-disk`
<a name="lightsail_AttachDisk_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-disk`.

**AWS CLI**  
**Untuk melampirkan disk penyimpanan blok ke sebuah instance**  
`attach-disk`Contoh berikut melampirkan disk `Disk-1` untuk contoh `WordPress_Multisite-1` dengan jalur disk `/dev/xvdf`  

```
aws lightsail attach-disk \
    --disk-name Disk-1 \
    --disk-path /dev/xvdf \
    --instance-name WordPress_Multisite-1
```
Output:  

```
{
    "operations": [
        {
            "id": "10a08267-19ce-43be-b913-6EXAMPLE7e80",
            "resourceName": "Disk-1",
            "resourceType": "Disk",
            "createdAt": 1571071465.472,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "WordPress_Multisite-1",
            "operationType": "AttachDisk",
            "status": "Started",
            "statusChangedAt": 1571071465.472
        },
        {
            "id": "2912c477-5295-4539-88c9-bEXAMPLEd1f0",
            "resourceName": "WordPress_Multisite-1",
            "resourceType": "Instance",
            "createdAt": 1571071465.474,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "Disk-1",
            "operationType": "AttachDisk",
            "status": "Started",
            "statusChangedAt": 1571071465.474
        }
    ]
}
```
+  Untuk detail API, lihat [AttachDisk](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/attach-disk.html)di *Referensi AWS CLI Perintah*. 

### `attach-instances-to-load-balancer`
<a name="lightsail_AttachInstancesToLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-instances-to-load-balancer`.

**AWS CLI**  
**Untuk melampirkan instance ke penyeimbang beban**  
`attach-instances-to-load-balancer`Contoh berikut melampirkan instance`MEAN-1`,`MEAN-2`, dan `MEAN-3` ke penyeimbang beban. `LoadBalancer-1`  

```
aws lightsail attach-instances-to-load-balancer \
    --instance-names {"MEAN-1","MEAN-2","MEAN-3"} \
    --load-balancer-name LoadBalancer-1
```
Output:  

```
{
    "operations": [
        {
            "id": "8055d19d-abb2-40b9-b527-1EXAMPLE3c7b",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1571071699.892,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "MEAN-2",
            "operationType": "AttachInstancesToLoadBalancer",
            "status": "Started",
            "statusChangedAt": 1571071699.892
        },
        {
            "id": "c35048eb-8538-456a-a118-0EXAMPLEfb73",
            "resourceName": "MEAN-2",
            "resourceType": "Instance",
            "createdAt": 1571071699.887,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "LoadBalancer-1",
            "operationType": "AttachInstancesToLoadBalancer",
            "status": "Started",
            "statusChangedAt": 1571071699.887
        },
        {
            "id": "910d09e0-adc5-4372-bc2e-0EXAMPLEd891",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1571071699.882,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "MEAN-3",
            "operationType": "AttachInstancesToLoadBalancer",
            "status": "Started",
            "statusChangedAt": 1571071699.882
        },
        {
            "id": "178b18ac-43e8-478c-9bed-1EXAMPLE4755",
            "resourceName": "MEAN-3",
            "resourceType": "Instance",
            "createdAt": 1571071699.901,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "LoadBalancer-1",
            "operationType": "AttachInstancesToLoadBalancer",
            "status": "Started",
            "statusChangedAt": 1571071699.901
        },
        {
            "id": "fb62536d-2a98-4190-a6fc-4EXAMPLE7470",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1571071699.885,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "MEAN-1",
            "operationType": "AttachInstancesToLoadBalancer",
            "status": "Started",
            "statusChangedAt": 1571071699.885
        },
        {
            "id": "787dac0d-f98d-46c3-8571-3EXAMPLE5a85",
            "resourceName": "MEAN-1",
            "resourceType": "Instance",
            "createdAt": 1571071699.901,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "LoadBalancer-1",
            "operationType": "AttachInstancesToLoadBalancer",
            "status": "Started",
            "statusChangedAt": 1571071699.901
        }
    ]
}
```
+  Untuk detail API, lihat [AttachInstancesToLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/attach-instances-to-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `attach-load-balancer-tls-certificate`
<a name="lightsail_AttachLoadBalancerTlsCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-load-balancer-tls-certificate`.

**AWS CLI**  
**Untuk melampirkan sertifikat TLS ke penyeimbang beban**  
`attach-load-balancer-tls-certificate`Contoh berikut melampirkan sertifikat TLS penyeimbang beban `Certificate2` ke penyeimbang beban. `LoadBalancer-1`  

```
aws lightsail attach-load-balancer-tls-certificate \
    --certificate-name Certificate2 \
    --load-balancer-name LoadBalancer-1
```
Output:  

```
{
    "operations": [
        {
            "id": "cf1ad6e3-3cbb-4b8a-a7f2-3EXAMPLEa118",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1571072255.416,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "Certificate2",
            "operationType": "AttachLoadBalancerTlsCertificate",
            "status": "Succeeded",
            "statusChangedAt": 1571072255.416
        },
        {
            "id": "dae1bcfb-d531-4c06-b4ea-bEXAMPLEc04e",
            "resourceName": "Certificate2",
            "resourceType": "LoadBalancerTlsCertificate",
            "createdAt": 1571072255.416,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "LoadBalancer-1",
            "operationType": "AttachLoadBalancerTlsCertificate",
            "status": "Succeeded",
            "statusChangedAt": 1571072255.416
        }
    ]
}
```
+  Untuk detail API, lihat [AttachLoadBalancerTlsCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/attach-load-balancer-tls-certificate.html)di *Referensi AWS CLI Perintah*. 

### `attach-static-ip`
<a name="lightsail_AttachStaticIp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-static-ip`.

**AWS CLI**  
**Untuk melampirkan IP statis ke sebuah instance**  
`attach-static-ip`Contoh berikut melampirkan IP statis `StaticIp-1` ke instance`MEAN-1`.  

```
aws lightsail attach-static-ip \
    --static-ip-name StaticIp-1 \
    --instance-name MEAN-1
```
Output:  

```
{
    "operations": [
        {
            "id": "45e6fa13-4808-4b8d-9292-bEXAMPLE20b2",
            "resourceName": "StaticIp-1",
            "resourceType": "StaticIp",
            "createdAt": 1571072569.375,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "MEAN-1",
            "operationType": "AttachStaticIp",
            "status": "Succeeded",
            "statusChangedAt": 1571072569.375
        },
        {
            "id": "9ee09a17-863c-4e51-8a6d-3EXAMPLE5475",
            "resourceName": "MEAN-1",
            "resourceType": "Instance",
            "createdAt": 1571072569.376,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "StaticIp-1",
            "operationType": "AttachStaticIp",
            "status": "Succeeded",
            "statusChangedAt": 1571072569.376
        }
    ]
}
```
+  Untuk detail API, lihat [AttachStaticIp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/attach-static-ip.html)di *Referensi AWS CLI Perintah*. 

### `close-instance-public-ports`
<a name="lightsail_CloseInstancePublicPorts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`close-instance-public-ports`.

**AWS CLI**  
**Untuk menutup port firewall untuk sebuah instance**  
`close-instance-public-ports`Contoh berikut menutup port TCP `22` pada contoh. `MEAN-2`  

```
aws lightsail close-instance-public-ports \
    --instance-name MEAN-2 \
    --port-info fromPort=22,protocol=TCP,toPort=22
```
Output:  

```
{
    "operation": {
        "id": "4f328636-1c96-4649-ae6d-1EXAMPLEf446",
        "resourceName": "MEAN-2",
        "resourceType": "Instance",
        "createdAt": 1571072845.737,
        "location": {
            "availabilityZone": "us-west-2a",
            "regionName": "us-west-2"
        },
        "isTerminal": true,
        "operationDetails": "22/tcp",
        "operationType": "CloseInstancePublicPorts",
        "status": "Succeeded",
        "statusChangedAt": 1571072845.737
    }
}
```
+  Untuk detail API, lihat [CloseInstancePublicPorts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/close-instance-public-ports.html)di *Referensi AWS CLI Perintah*. 

### `copy-snapshot`
<a name="lightsail_CopySnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-snapshot`.

**AWS CLI**  
**Contoh 1: Untuk menyalin snapshot dalam Wilayah yang sama AWS **  
`copy-snapshot`Contoh berikut menyalin snapshot instance `MEAN-1-1571075291` sebagai snapshot instance `MEAN-1-Copy` dalam Wilayah yang sama AWS . `us-west-2`  

```
aws lightsail copy-snapshot \
    --source-snapshot-name MEAN-1-1571075291 \
    --target-snapshot-name MEAN-1-Copy \
    --source-region us-west-2
```
Output:  

```
{
    "operations": [
        {
            "id": "ced16fc1-f401-4556-8d82-1EXAMPLEb982",
            "resourceName": "MEAN-1-Copy",
            "resourceType": "InstanceSnapshot",
            "createdAt": 1571075581.498,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "us-west-2:MEAN-1-1571075291",
            "operationType": "CopySnapshot",
            "status": "Started",
            "statusChangedAt": 1571075581.498
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menyalin snapshot dari satu AWS Wilayah ke Wilayah lainnya di Amazon Lightsail di Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-copying-snapshots-from-one-region-to-another).*  
**Contoh 2: Untuk menyalin snapshot dari satu AWS Wilayah ke Wilayah lainnya**  
`copy-snapshot`Contoh berikut menyalin snapshot instance `MEAN-1-1571075291` sebagai snapshot instance `MEAN-1-1571075291-Copy` dari AWS Region `us-west-2` ke. `us-east-1`  

```
aws lightsail copy-snapshot \
    --source-snapshot-name MEAN-1-1571075291 \
    --target-snapshot-name MEAN-1-1571075291-Copy \
    --source-region us-west-2 \
    --region us-east-1
```
Output:  

```
{
    "operations": [
        {
            "id": "91116b79-119c-4451-b44a-dEXAMPLEd97b",
            "resourceName": "MEAN-1-1571075291-Copy",
            "resourceType": "InstanceSnapshot",
            "createdAt": 1571075695.069,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-east-1"
            },
            "isTerminal": false,
            "operationDetails": "us-west-2:MEAN-1-1571075291",
            "operationType": "CopySnapshot",
            "status": "Started",
            "statusChangedAt": 1571075695.069
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menyalin snapshot dari satu AWS Wilayah ke Wilayah lainnya di Amazon Lightsail di Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-copying-snapshots-from-one-region-to-another).*  
**Contoh 3: Untuk menyalin snapshot otomatis dalam Wilayah yang sama AWS **  
`copy-snapshot`Contoh berikut menyalin snapshot `2019-10-14` otomatis instance `WordPress-1` sebagai snapshot manual `WordPress-1-10142019` di Wilayah. AWS `us-west-2`  

```
aws lightsail copy-snapshot \
    --source-resource-name WordPress-1 \
    --restore-date 2019-10-14 \
    --target-snapshot-name WordPress-1-10142019 \
    --source-region us-west-2
```
Output:  

```
{
    "operations": [
        {
            "id": "be3e6754-cd1d-48e6-ad9f-2EXAMPLE1805",
            "resourceName": "WordPress-1-10142019",
            "resourceType": "InstanceSnapshot",
            "createdAt": 1571082412.311,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "us-west-2:WordPress-1",
            "operationType": "CopySnapshot",
            "status": "Started",
            "statusChangedAt": 1571082412.311
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menyimpan snapshot otomatis instance atau disk di Amazon Lightsail dalam Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-keeping-automatic-snapshots).*  
**Contoh 4: Untuk menyalin snapshot otomatis dari satu AWS Wilayah ke Wilayah lainnya**  
`copy-snapshot`Contoh berikut menyalin snapshot `2019-10-14` otomatis instance `WordPress-1` sebagai snapshot manual `WordPress-1-10142019` dari AWS Region `us-west-2` ke. `us-east-1`  

```
aws lightsail copy-snapshot \
    --source-resource-name WordPress-1 \
    --restore-date 2019-10-14 \
    --target-snapshot-name WordPress-1-10142019 \
    --source-region us-west-2 \
    --region us-east-1
```
Output:  

```
{
    "operations": [
        {
            "id": "dffa128b-0b07-476e-b390-bEXAMPLE3775",
            "resourceName": "WordPress-1-10142019",
            "resourceType": "InstanceSnapshot",
            "createdAt": 1571082493.422,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-east-1"
            },
            "isTerminal": false,
            "operationDetails": "us-west-2:WordPress-1",
            "operationType": "CopySnapshot",
            "status": "Started",
            "statusChangedAt": 1571082493.422
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menyimpan snapshot otomatis instance atau disk di Amazon Lightsail dalam Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-keeping-automatic-snapshots).*  
+  Untuk detail API, lihat [CopySnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/copy-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-disk-from-snapshot`
<a name="lightsail_CreateDiskFromSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-disk-from-snapshot`.

**AWS CLI**  
**Untuk membuat membuat disk dari snapshot disk**  
`create-disk-from-snapshot`Contoh berikut membuat disk penyimpanan blok bernama `Disk-2` dari snapshot disk penyimpanan blok tertentu. Disk dibuat di AWS Wilayah dan Zona Ketersediaan yang ditentukan, dengan ruang penyimpanan 32 GB.  

```
aws lightsail create-disk-from-snapshot \
    --disk-name Disk-2 \
    --disk-snapshot-name Disk-1-1566839161 \
    --availability-zone us-west-2a \
    --size-in-gb 32
```
Output:  

```
{
    "operations": [
        {
            "id": "d42b605d-5ef1-4b4a-8791-7a3e8b66b5e7",
            "resourceName": "Disk-2",
            "resourceType": "Disk",
            "createdAt": 1569624941.471,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateDiskFromSnapshot",
            "status": "Started",
            "statusChangedAt": 1569624941.791
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat disk penyimpanan blok dari snapshot di Amazon Lightsail di](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/create-new-block-storage-disk-from-snapshot) Panduan *Pengembang* Lightsail.  
+  Untuk detail API, lihat [CreateDiskFromSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-disk-from-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-disk-snapshot`
<a name="lightsail_CreateDiskSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-disk-snapshot`.

**AWS CLI**  
**Contoh 1: Untuk membuat snapshot dari disk**  
`create-disk-snapshot`Contoh berikut membuat snapshot bernama `DiskSnapshot-1` disk penyimpanan blok tertentu.  

```
aws lightsail create-disk-snapshot \
    --disk-name Disk-1 \
    --disk-snapshot-name DiskSnapshot-1
```
Output:  

```
{
    "operations": [
        {
            "id": "fa74c6d2-03a3-4f42-a7c7-792f124d534b",
            "resourceName": "DiskSnapshot-1",
            "resourceType": "DiskSnapshot",
            "createdAt": 1569625129.739,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "Disk-1",
            "operationType": "CreateDiskSnapshot",
            "status": "Started",
            "statusChangedAt": 1569625129.739
        },
        {
            "id": "920a25df-185c-4528-87cd-7b85f5488c06",
            "resourceName": "Disk-1",
            "resourceType": "Disk",
            "createdAt": 1569625129.739,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "DiskSnapshot-1",
            "operationType": "CreateDiskSnapshot",
            "status": "Started",
            "statusChangedAt": 1569625129.739
        }
    ]
}
```
**Contoh 2: Untuk membuat snapshot dari disk sistem instance**  
`create-disk-snapshot`Contoh berikut membuat snapshot dari disk sistem instance tertentu.  

```
aws lightsail create-disk-snapshot \
    --instance-name WordPress-1 \
    --disk-snapshot-name SystemDiskSnapshot-1
```
Output:  

```
{
    "operations": [
        {
            "id": "f508cf1c-6597-42a6-a4c3-4aebd75af0d9",
            "resourceName": "SystemDiskSnapshot-1",
            "resourceType": "DiskSnapshot",
            "createdAt": 1569625294.685,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "WordPress-1",
            "operationType": "CreateDiskSnapshot",
            "status": "Started",
            "statusChangedAt": 1569625294.685
        },
        {
            "id": "0bb9f712-da3b-4d99-b508-3bf871d989e5",
            "resourceName": "WordPress-1",
            "resourceType": "Instance",
            "createdAt": 1569625294.685,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "SystemDiskSnapshot-1",
            "operationType": "CreateDiskSnapshot",
            "status": "Started",
            "statusChangedAt": 1569625294.685
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Snapshot di Amazon Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/understanding-instance-snapshots-in-amazon-lightsail) [dan Membuat snapshot volume root instance di Amazon Lightsail di Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-create-an-instance-root-volume-snapshot).*  
+  Untuk detail API, lihat [CreateDiskSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-disk-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-disk`
<a name="lightsail_CreateDisk_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-disk`.

**AWS CLI**  
**Untuk membuat disk penyimpanan blok**  
`create-disk`Contoh berikut membuat disk penyimpanan blok `Disk-1` di AWS Wilayah dan Availability Zone yang ditentukan, dengan 32 GB ruang penyimpanan.  

```
aws lightsail create-disk \
    --disk-name Disk-1 \
    --availability-zone us-west-2a \
    --size-in-gb 32
```
Output:  

```
{
    "operations": [
        {
            "id": "1c85e2ec-86ba-4697-b936-77f4d3dc013a",
            "resourceName": "Disk-1",
            "resourceType": "Disk",
            "createdAt": 1569449220.36,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateDisk",
            "status": "Started",
            "statusChangedAt": 1569449220.588
        }
    ]
}
```
+  Untuk detail API, lihat [CreateDisk](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-disk.html)di *Referensi AWS CLI Perintah*. 

### `create-domain-entry`
<a name="lightsail_CreateDomainEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-domain-entry`.

**AWS CLI**  
**Untuk membuat entri domain (catatan DNS)**  
`create-domain-entry`Contoh berikut membuat catatan DNS (A) untuk puncak domain tertentu yang menunjuk ke alamat IP instans.  
**Catatan:** Operasi API terkait domain Lightsail hanya tersedia di Wilayah. `us-east-1` Jika profil CLI Anda dikonfigurasi untuk menggunakan Wilayah yang berbeda, Anda harus menyertakan `--region us-east-1` parameter atau perintah gagal.  

```
aws lightsail create-domain-entry \
    --region us-east-1 \
    --domain-name example.com \
    --domain-entry name=example.com,type=A,target=192.0.2.0
```
Output:  

```
{
    "operation": {
        "id": "5be4494d-56f4-41fc-8730-693dcd0ef9e2",
        "resourceName": "example.com",
        "resourceType": "Domain",
        "createdAt": 1569865296.519,
        "location": {
            "availabilityZone": "all",
            "regionName": "global"
        },
        "isTerminal": true,
        "operationType": "CreateDomainEntry",
        "status": "Succeeded",
        "statusChangedAt": 1569865296.519
    }
}
```
*Untuk informasi selengkapnya, lihat [DNS di Amazon Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/understanding-dns-in-amazon-lightsail) [dan Membuat zona DNS untuk mengelola catatan DNS domain Anda di Amazon Lightsail dalam Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/lightsail-how-to-create-dns-entry).*  
+  Untuk detail API, lihat [CreateDomainEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-domain-entry.html)di *Referensi AWS CLI Perintah*. 

### `create-domain`
<a name="lightsail_CreateDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-domain`.

**AWS CLI**  
**Untuk membuat domain (zona DNS)**  
`create-domain`Contoh berikut membuat zona DNS untuk domain tertentu.  
**Catatan:** Operasi API terkait domain Lightsail hanya tersedia di Wilayah. `us-east-1` Jika profil CLI Anda dikonfigurasi untuk menggunakan Wilayah yang berbeda, Anda harus menyertakan `--region us-east-1` parameter atau perintah gagal.  

```
aws lightsail create-domain \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "operation": {
        "id": "64e522c8-9ae1-4c05-9b65-3f237324dc34",
        "resourceName": "example.com",
        "resourceType": "Domain",
        "createdAt": 1569864291.92,
        "location": {
            "availabilityZone": "all",
            "regionName": "global"
        },
        "isTerminal": true,
        "operationType": "CreateDomain",
        "status": "Succeeded",
        "statusChangedAt": 1569864292.109
    }
}
```
*Untuk informasi selengkapnya, lihat [DNS di Amazon Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/understanding-dns-in-amazon-lightsail) [dan Membuat zona DNS untuk mengelola catatan DNS domain Anda di Amazon Lightsail dalam Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/lightsail-how-to-create-dns-entry).*  
+  Untuk detail API, lihat [CreateDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-domain.html)di *Referensi AWS CLI Perintah*. 

### `create-instance-snapshot`
<a name="lightsail_CreateInstanceSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-instance-snapshot`.

**AWS CLI**  
**Untuk membuat snapshot dari sebuah instance**  
`create-instance-snapshot`Contoh berikut membuat snapshot dari contoh yang ditentukan.  

```
aws lightsail create-instance-snapshot \
    --instance-name WordPress-1 \
    --instance-snapshot-name WordPress-Snapshot-1
```
Output:  

```
{
    "operations": [
        {
            "id": "4c3db559-9dd0-41e7-89c0-2cb88c19786f",
            "resourceName": "WordPress-Snapshot-1",
            "resourceType": "InstanceSnapshot",
            "createdAt": 1569866438.48,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "WordPress-1",
            "operationType": "CreateInstanceSnapshot",
            "status": "Started",
            "statusChangedAt": 1569866438.48
        },
        {
            "id": "c04fdc45-2981-488c-88b5-d6d2fd759a6a",
            "resourceName": "WordPress-1",
            "resourceType": "Instance",
            "createdAt": 1569866438.48,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "WordPress-Snapshot-1",
            "operationType": "CreateInstanceSnapshot",
            "status": "Started",
            "statusChangedAt": 1569866438.48
        }
    ]
}
```
+  Untuk detail API, lihat [CreateInstanceSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-instance-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-instances-from-snapshot`
<a name="lightsail_CreateInstancesFromSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-instances-from-snapshot`.

**AWS CLI**  
**Untuk membuat instance dari snapshot**  
`create-instances-from-snapshot`Contoh berikut membuat instance dari snapshot instance yang ditentukan, di AWS Region dan Availability Zone yang ditentukan, menggunakan bundel \$112 USD.  
**Catatan:** Bundel yang Anda tentukan harus sama dengan atau lebih besar dalam spesifikasi daripada bundel instance sumber asli yang digunakan untuk membuat snapshot.  

```
aws lightsail create-instances-from-snapshot \
    --instance-snapshot-name WordPress-1-1569866208 \
    --instance-names WordPress-2 \
    --availability-zone us-west-2a \
    --bundle-id small_3_0
```
Output:  

```
{
    "operations": [
        {
            "id": "003f8271-b711-464d-b9b8-7f3806cb496e",
            "resourceName": "WordPress-2",
            "resourceType": "Instance",
            "createdAt": 1569865914.908,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateInstancesFromSnapshot",
            "status": "Started",
            "statusChangedAt": 1569865914.908
        }
    ]
}
```
+  Untuk detail API, lihat [CreateInstancesFromSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-instances-from-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-instances`
<a name="lightsail_CreateInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-instances`.

**AWS CLI**  
**Contoh 1: Untuk membuat satu contoh**  
`create-instances`Contoh berikut membuat instance di AWS Region dan Availability Zone yang ditentukan, menggunakan WordPress cetak biru, dan bundel \$15.00 USD.  

```
aws lightsail create-instances \
    --instance-names Instance-1 \
    --availability-zone us-west-2a \
    --blueprint-id wordpress \
    --bundle-id nano_3_0
```
Output:  

```
{
    "operations": [
        {
            "id": "9a77158f-7be3-4d6d-8054-cf5ae2b720cc",
            "resourceName": "Instance-1",
            "resourceType": "Instance",
            "createdAt": 1569447986.061,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateInstance",
            "status": "Started",
            "statusChangedAt": 1569447986.061
        }
    ]
}
```
**Contoh 2: Untuk membuat beberapa instance sekaligus**  
`create-instances`Contoh berikut membuat tiga instance di AWS Region dan Availability Zone yang ditentukan, menggunakan WordPress cetak biru, dan bundel \$15.00 USD.  

```
aws lightsail create-instances \
    --instance-names {"Instance1","Instance2","Instance3"} \
    --availability-zone us-west-2a \
    --blueprint-id wordpress \
    --bundle-id nano_3_0
```
Output:  

```
{
    "operations": [
        {
            "id": "5492f015-9d2e-48c6-8eea-b516840e6903",
            "resourceName": "Instance1",
            "resourceType": "Instance",
            "createdAt": 1569448780.054,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateInstance",
            "status": "Started",
            "statusChangedAt": 1569448780.054
        },
        {
            "id": "c58b5f46-2676-44c8-b95c-3ad375898515",
            "resourceName": "Instance2",
            "resourceType": "Instance",
            "createdAt": 1569448780.054,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateInstance",
            "status": "Started",
            "statusChangedAt": 1569448780.054
        },
        {
            "id": "a5ad8006-9bee-4499-9eb7-75e42e6f5882",
            "resourceName": "Instance3",
            "resourceType": "Instance",
            "createdAt": 1569448780.054,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateInstance",
            "status": "Started",
            "statusChangedAt": 1569448780.054
        }
    ]
}
```
+  Untuk detail API, lihat [CreateInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-instances.html)di *Referensi AWS CLI Perintah*. 

### `create-key-pair`
<a name="lightsail_CreateKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-key-pair`.

**AWS CLI**  
**Untuk membuat pasangan kunci**  
`create-key-pair`Contoh berikut membuat key pair yang dapat Anda gunakan untuk mengautentikasi dan menghubungkan ke sebuah instance.  

```
aws lightsail create-key-pair \
    --key-pair-name MyPersonalKeyPair
```
Outputnya memberikan nilai private key base64 yang dapat Anda gunakan untuk mengautentikasi instance yang menggunakan key pair yang dibuat. **Catatan:** Salin dan tempel nilai kunci pribadi base64 ke lokasi yang aman karena Anda tidak dapat mengambilnya nanti.  

```
{
    "keyPair": {
        "name": "MyPersonalKeyPair",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:KeyPair/55025c71-198f-403b-b42f-a69433e724fb",
        "supportCode": "621291663362/MyPersonalKeyPair",
        "createdAt": 1569866556.567,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "resourceType": "KeyPair"
    },
    "publicKeyBase64": "ssh-rsa ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQCV0xUEwx96amPERH7K1bVT1tTFl9OmNk6o7m5YVHk9xlOdMbDRbFvhtXvw4jzJXXz5pBMxWOaGMz5K8QyTVOznoqp13Z8SBooH29hgmBNXiII1XPzEwqbj8mfo1+YVM5s5VuxWwm+BHUgedGUXno6uF7agqxZNO1kPLJBIVTW26SSYBJ0tE+y804UyVsjrbUqCaMXDhmfXpWulMPwuXhwcKh7e8hwoTfkiX0E6Ql+KqF/MiA3w6DCjEqvvdIO7SiEZJFsuGNfYDDN3w60Rel5MUhmn3OJdn4y/A7NWb3IxL4pPfVE4rgFRKU8n1jp9kwRnlVMVBOWuGXk6n+H6M2f1 ",
    "privateKeyBase64": "-----BEGIN RSA PRIVATE KEY-----EXAMPLETCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC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\nNYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=\n-----END RSA PRIVATE KEY-----",
    "operation": {
        "id": "67f984db-9994-45fe-ad38-59bafcaf82ef",
        "resourceName": "MyPersonalKeyPair",
        "resourceType": "KeyPair",
        "createdAt": 1569866556.567,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "isTerminal": true,
        "operationType": "CreateKeyPair",
        "status": "Succeeded",
        "statusChangedAt": 1569866556.704
    }
}
```
+  Untuk detail API, lihat [CreateKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `create-load-balancer-tls-certificate`
<a name="lightsail_CreateLoadBalancerTlsCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-load-balancer-tls-certificate`.

**AWS CLI**  
**Untuk membuat sertifikat TLS untuk penyeimbang beban**  
`create-load-balancer-tls-certificate`Contoh berikut membuat sertifikat TLS yang dilampirkan ke penyeimbang beban tertentu. Sertifikat yang dibuat berlaku untuk domain yang ditentukan. **Catatan:** Hanya dua sertifikat yang dapat dibuat untuk penyeimbang beban.  

```
aws lightsail create-load-balancer-tls-certificate \
    --certificate-alternative-names abc.example.com \
    --certificate-domain-name example.com \
    --certificate-name MySecondCertificate \
    --load-balancer-name MyFirstLoadBalancer
```
Output:  

```
{
    "operations": [
        {
            "id": "be663aed-cb46-41e2-9b23-e2f747245bd4",
            "resourceName": "MySecondCertificate",
            "resourceType": "LoadBalancerTlsCertificate",
            "createdAt": 1569867364.971,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "MyFirstLoadBalancer",
            "operationType": "CreateLoadBalancerTlsCertificate",
            "status": "Succeeded",
            "statusChangedAt": 1569867365.219
        },
        {
            "id": "f3dfa930-969e-41cc-ac7d-337178716f6d",
            "resourceName": "MyFirstLoadBalancer",
            "resourceType": "LoadBalancer",
            "createdAt": 1569867364.971,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "MySecondCertificate",
            "operationType": "CreateLoadBalancerTlsCertificate",
            "status": "Succeeded",
            "statusChangedAt": 1569867365.219
        }
    ]
}
```
+  Untuk detail API, lihat [CreateLoadBalancerTlsCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-load-balancer-tls-certificate.html)di *Referensi AWS CLI Perintah*. 

### `create-load-balancer`
<a name="lightsail_CreateLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-load-balancer`.

**AWS CLI**  
**Untuk membuat penyeimbang beban**  
`create-load-balancer`Contoh berikut membuat penyeimbang beban dengan sertifikat TLS. Sertifikat TLS berlaku untuk domain yang ditentukan, dan mengarahkan lalu lintas ke instance di port 80.  

```
aws lightsail create-load-balancer \
    --certificate-alternative-names www.example.com test.example.com \
    --certificate-domain-name example.com \
    --certificate-name Certificate-1 \
    --instance-port 80 \
    --load-balancer-name LoadBalancer-1
```
Output:  

```
{
    "operations": [
        {
            "id": "cc7b920a-83d8-4762-a74e-9174fe1540be",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1569867169.406,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateLoadBalancer",
            "status": "Started",
            "statusChangedAt": 1569867169.406
        },
        {
            "id": "658ed43b-f729-42f3-a8e4-3f8024d3c98d",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancerTlsCertificate",
            "createdAt": 1569867170.193,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "LoadBalancer-1",
            "operationType": "CreateLoadBalancerTlsCertificate",
            "status": "Succeeded",
            "statusChangedAt": 1569867170.54
        },
        {
            "id": "4757a342-5181-4870-b1e0-227eebc35ab5",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1569867170.193,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "Certificate-1",
            "operationType": "CreateLoadBalancerTlsCertificate",
            "status": "Succeeded",
            "statusChangedAt": 1569867170.54
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat penyeimbang [beban Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/understanding-lightsail-load-balancers) di Panduan Pengembang Lightsail.*  
+  Untuk detail API, lihat [CreateLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `create-relational-database-from-snapshot`
<a name="lightsail_CreateRelationalDatabaseFromSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-relational-database-from-snapshot`.

**AWS CLI**  
**Untuk membuat database terkelola dari snapshot**  
`create-relational-database-from-snapshot`Contoh berikut membuat database terkelola dari snapshot yang ditentukan di AWS Region dan Availability Zone yang ditentukan, menggunakan paket database standar \$115 USD. **Catatan:** Bundel yang Anda tentukan harus sama dengan atau lebih besar dalam spesifikasi daripada bundel database sumber asli yang digunakan untuk membuat snapshot.  

```
aws lightsail create-relational-database-from-snapshot \
    --relational-database-snapshot-name Database-Oregon-1-1566839359 \
    --relational-database-name Database-1 \
    --availability-zone us-west-2a \
    --relational-database-bundle-id micro_1_0 \
    --no-publicly-accessible
```
Output:  

```
{
    "operations": [
        {
            "id": "ad6d9193-9d5c-4ea1-97ae-8fe6de600b4c",
            "resourceName": "Database-1",
            "resourceType": "RelationalDatabase",
            "createdAt": 1569867916.938,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateRelationalDatabaseFromSnapshot",
            "status": "Started",
            "statusChangedAt": 1569867918.643
        }
    ]
}
```
+  Untuk detail API, lihat [CreateRelationalDatabaseFromSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-relational-database-from-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-relational-database-snapshot`
<a name="lightsail_CreateRelationalDatabaseSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-relational-database-snapshot`.

**AWS CLI**  
**Untuk membuat snapshot dari database terkelola**  
`create-relational-database-snapshot`Contoh berikut membuat snapshot dari database terkelola yang ditentukan.  

```
aws lightsail create-relational-database-snapshot \
    --relational-database-name Database1 \
    --relational-database-snapshot-name RelationalDatabaseSnapshot1
```
Output:  

```
{
    "operations": [
        {
            "id": "853667fb-ea91-4c02-8d20-8fc5fd43b9eb",
            "resourceName": "RelationalDatabaseSnapshot1",
            "resourceType": "RelationalDatabaseSnapshot",
            "createdAt": 1569868074.645,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "Database1",
            "operationType": "CreateRelationalDatabaseSnapshot",
            "status": "Started",
            "statusChangedAt": 1569868074.645
        },
        {
            "id": "fbafa521-3cac-4be8-9773-1c143780b239",
            "resourceName": "Database1",
            "resourceType": "RelationalDatabase",
            "createdAt": 1569868074.645,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "RelationalDatabaseSnapshot1",
            "operationType": "CreateRelationalDatabaseSnapshot",
            "status": "Started",
            "statusChangedAt": 1569868074.645
        }
    ]
}
```
+  Untuk detail API, lihat [CreateRelationalDatabaseSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-relational-database-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-relational-database`
<a name="lightsail_CreateRelationalDatabase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-relational-database`.

**AWS CLI**  
**Untuk membuat database terkelola**  
`create-relational-database`Contoh berikut membuat database terkelola di AWS Region dan Availability Zone yang ditentukan, menggunakan mesin database MySQL 5.6 (mysql\$15\$16), dan paket database standar \$115 USD (micro\$11\$10). Basis data terkelola diisi sebelumnya dengan nama pengguna master, dan tidak dapat diakses publik.  

```
aws lightsail create-relational-database \
    --relational-database-name Database-1 \
    --availability-zone us-west-2a \
    --relational-database-blueprint-id mysql_5_6 \
    --relational-database-bundle-id micro_1_0 \
    --master-database-name dbmaster \
    --master-username user \
    --no-publicly-accessible
```
Output:  

```
{
    "operations": [
        {
            "id": "b52bedee-73ed-4798-8d2a-9c12df89adcd",
            "resourceName": "Database-1",
            "resourceType": "RelationalDatabase",
            "createdAt": 1569450017.244,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "CreateRelationalDatabase",
            "status": "Started",
            "statusChangedAt": 1569450018.637
        }
    ]
}
```
+  Untuk detail API, lihat [CreateRelationalDatabase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/create-relational-database.html)di *Referensi AWS CLI Perintah*. 

### `delete-auto-snapshot`
<a name="lightsail_DeleteAutoSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-auto-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot otomatis**  
`delete-auto-snapshot`Contoh berikut menghapus snapshot otomatis instance`2019-10-10`. `WordPress-1`  

```
aws lightsail delete-auto-snapshot \
    --resource-name WordPress-1 \
    --date 2019-10-10
```
Output:  

```
{
    "operations": [
        {
            "id": "31c36e09-3d52-46d5-b6d8-7EXAMPLE534a",
            "resourceName": "WordPress-1",
            "resourceType": "Instance",
            "createdAt": 1571088141.501,
            "location": {
                "availabilityZone": "us-west-2",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "DeleteAutoSnapshot-2019-10-10",
            "operationType": "DeleteAutoSnapshot",
            "status": "Succeeded"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menghapus snapshot otomatis instance atau disk di Amazon Lightsail di Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-deleting-automatic-snapshots).*  
+  Untuk detail API, lihat [DeleteAutoSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-auto-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-disk-snapshot`
<a name="lightsail_DeleteDiskSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-disk-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot dari disk penyimpanan blok**  
`delete-disk-snapshot`Contoh berikut menghapus snapshot tertentu dari disk penyimpanan blok  

```
aws lightsail delete-disk-snapshot \
    --disk-snapshot-name DiskSnapshot-1
```
Output:  

```
{
    "operations": [
        {
            "id": "d1e5766d-b81e-4595-ad5d-02afbccfcd5d",
            "resourceName": "DiskSnapshot-1",
            "resourceType": "DiskSnapshot",
            "createdAt": 1569873552.79,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "DeleteDiskSnapshot",
            "status": "Succeeded",
            "statusChangedAt": 1569873552.79
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteDiskSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-disk-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-disk`
<a name="lightsail_DeleteDisk_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-disk`.

**AWS CLI**  
**Untuk menghapus disk penyimpanan blok**  
`delete-disk`Contoh berikut menghapus disk penyimpanan blok yang ditentukan.  

```
aws lightsail delete-disk \
    --disk-name Disk-1
```
Output:  

```
{
    "operations": [
        {
            "id": "6378c70f-4d75-4f7a-ab66-730fca0bb2fc",
            "resourceName": "Disk-1",
            "resourceType": "Disk",
            "createdAt": 1569872887.864,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "DeleteDisk",
            "status": "Succeeded",
            "statusChangedAt": 1569872887.864
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteDisk](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-disk.html)di *Referensi AWS CLI Perintah*. 

### `delete-domain-entry`
<a name="lightsail_DeleteDomainEntry_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-domain-entry`.

**AWS CLI**  
**Untuk menghapus entri domain (catatan DNS)**  
`delete-domain-entry`Contoh berikut menghapus entri domain tertentu dari domain yang ada.  
**Catatan:** Operasi API terkait domain Lightsail hanya tersedia di Wilayah. `us-east-1` Jika profil CLI Anda dikonfigurasi untuk menggunakan Wilayah yang berbeda, Anda harus menyertakan `--region us-east-1` parameter atau perintah gagal.  

```
aws lightsail delete-domain-entry \
    --region us-east-1 \
    --domain-name example.com \
    --domain-entry name=123.example.com,target=192.0.2.0,type=A
```
Output:  

```
{
    "operation": {
        "id": "06eacd01-d785-420e-8daa-823150c7dca1",
        "resourceName": "example.com ",
        "resourceType": "Domain",
        "createdAt": 1569874157.005,
        "location": {
            "availabilityZone": "all",
            "regionName": "global"
        },
        "isTerminal": true,
        "operationType": "DeleteDomainEntry",
        "status": "Succeeded",
        "statusChangedAt": 1569874157.005
    }
}
```
+  Untuk detail API, lihat [DeleteDomainEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-domain-entry.html)di *Referensi AWS CLI Perintah*. 

### `delete-domain`
<a name="lightsail_DeleteDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-domain`.

**AWS CLI**  
**Untuk menghapus domain (zona DNS)**  
`delete-domain`Contoh berikut menghapus domain yang ditentukan dan semua entri dalam domain (catatan DNS).  
**Catatan:** Operasi API terkait domain Lightsail hanya tersedia di Wilayah. `us-east-1` Jika profil CLI Anda dikonfigurasi untuk menggunakan Wilayah yang berbeda, Anda harus menyertakan `--region us-east-1` parameter atau perintah gagal.  

```
aws lightsail delete-domain \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "operation": {
        "id": "fcef5265-5af1-4a46-a3d7-90b5e18b9b32",
        "resourceName": "example.com",
        "resourceType": "Domain",
        "createdAt": 1569873788.13,
        "location": {
            "availabilityZone": "all",
            "regionName": "global"
        },
        "isTerminal": true,
        "operationType": "DeleteDomain",
        "status": "Succeeded",
        "statusChangedAt": 1569873788.13
    }
}
```
+  Untuk detail API, lihat [DeleteDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-domain.html)di *Referensi AWS CLI Perintah*. 

### `delete-instance-snapshot`
<a name="lightsail_DeleteInstanceSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-instance-snapshot`.

**AWS CLI**  
**judul**  
`delete-instance-snapshot`Contoh berikut menghapus snapshot tertentu dari sebuah instance.  

```
aws lightsail delete-instance-snapshot \
    --instance-snapshot-name WordPress-1-Snapshot-1
```
Output:  

```
{
    "operations": [
        {
            "id": "14dad182-976a-46c6-bfd4-9480482bf0ea",
            "resourceName": "WordPress-1-Snapshot-1",
            "resourceType": "InstanceSnapshot",
            "createdAt": 1569874524.562,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "DeleteInstanceSnapshot",
            "status": "Succeeded",
            "statusChangedAt": 1569874524.562
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteInstanceSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-instance-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-instance`
<a name="lightsail_DeleteInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-instance`.

**AWS CLI**  
**Untuk menghapus sebuah instance**  
`delete-instance`Contoh berikut menghapus contoh yang ditentukan.  

```
aws lightsail delete-instance \
    --instance-name WordPress-1
```
Output:  

```
{
    "operations": [
        {
            "id": "d77345a3-8f80-4d2e-b47d-aaa622718df2",
            "resourceName": "Disk-1",
            "resourceType": "Disk",
            "createdAt": 1569874357.469,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "WordPress-1",
            "operationType": "DetachDisk",
            "status": "Started",
            "statusChangedAt": 1569874357.469
        },
        {
            "id": "708fa606-2bfd-4e48-a2c1-0b856585b5b1",
            "resourceName": "WordPress-1",
            "resourceType": "Instance",
            "createdAt": 1569874357.465,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "Disk-1",
            "operationType": "DetachDisk",
            "status": "Started",
            "statusChangedAt": 1569874357.465
        },
        {
            "id": "3187e823-8acb-405d-b098-fad5ceb17bec",
            "resourceName": "WordPress-1",
            "resourceType": "Instance",
            "createdAt": 1569874357.829,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "DeleteInstance",
            "status": "Succeeded",
            "statusChangedAt": 1569874357.829
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-instance.html)di *Referensi AWS CLI Perintah*. 

### `delete-key-pair`
<a name="lightsail_DeleteKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-key-pair`.

**AWS CLI**  
**Untuk menghapus pasangan kunci**  
`delete-key-pair`Contoh berikut menghapus key pair yang ditentukan.  

```
aws lightsail delete-key-pair \
    --key-pair-name MyPersonalKeyPair
```
Output:  

```
{
    "operation": {
        "id": "81621463-df38-4810-b866-6e801a15abbf",
        "resourceName": "MyPersonalKeyPair",
        "resourceType": "KeyPair",
        "createdAt": 1569874626.466,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "isTerminal": true,
        "operationType": "DeleteKeyPair",
        "status": "Succeeded",
        "statusChangedAt": 1569874626.685
    }
}
```
+  Untuk detail API, lihat [DeleteKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `delete-known-host-keys`
<a name="lightsail_DeleteKnownHostKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-known-host-keys`.

**AWS CLI**  
**Untuk menghapus kunci host yang dikenal dari sebuah instance**  
`delete-known-host-keys`Contoh berikut menghapus kunci host dikenal dari instance yang ditentukan.  

```
aws lightsail delete-known-host-keys \
    --instance-name Instance-1
```
Output:  

```
{
    "operations": [
        {
            "id": "c61afe9c-45a4-41e6-a97e-d212364da3f5",
            "resourceName": "Instance-1",
            "resourceType": "Instance",
            "createdAt": 1569874760.201,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "DeleteKnownHostKeys",
            "status": "Succeeded",
            "statusChangedAt": 1569874760.201
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Memecahkan masalah koneksi dengan klien SSH atau RDP berbasis browser Amazon Lightsail di Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-troubleshooting-browser-based-ssh-rdp-client-connection).*  
+  Untuk detail API, lihat [DeleteKnownHostKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-known-host-keys.html)di *Referensi AWS CLI Perintah*. 

### `delete-load-balancer-tls-certificate`
<a name="lightsail_DeleteLoadBalancerTlsCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-load-balancer-tls-certificate`.

**AWS CLI**  
**Untuk menghapus sertifikat TLS untuk penyeimbang beban**  
`delete-load-balancer-tls-certificate`Contoh berikut menghapus sertifikat TLS specifie dari load balancer yang ditentukan.  

```
aws lightsail delete-load-balancer-tls-certificate \
    --load-balancer-name MyFirstLoadBalancer \
    --certificate-name MyFirstCertificate
```
Output:  

```
{
    "operations": [
        {
            "id": "50bec274-e45e-4caa-8a69-b763ef636583",
            "resourceName": "MyFirstCertificate",
            "resourceType": "LoadBalancerTlsCertificate",
            "createdAt": 1569874989.48,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "DeleteLoadBalancerTlsCertificate",
            "status": "Started",
            "statusChangedAt": 1569874989.48
        },
        {
            "id": "78c58cdc-a59a-4b27-8213-500638634a8f",
            "resourceName": "MyFirstLoadBalancer",
            "resourceType": "LoadBalancer",
            "createdAt": 1569874989.48,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "DeleteLoadBalancerTlsCertificate",
            "status": "Started",
            "statusChangedAt": 1569874989.48
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteLoadBalancerTlsCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-load-balancer-tls-certificate.html)di *Referensi AWS CLI Perintah*. 

### `delete-load-balancer`
<a name="lightsail_DeleteLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-load-balancer`.

**AWS CLI**  
**Untuk menghapus penyeimbang beban**  
`delete-load-balancer`Contoh berikut menghapus penyeimbang beban yang ditentukan dan sertifikat TLS terkait.  

```
aws lightsail delete-load-balancer \
    --load-balancer-name MyFirstLoadBalancer
```
Output:  

```
{
    "operations": [
        {
            "id": "a8c968c7-72a3-4680-a714-af8f03eea535",
            "resourceName": "MyFirstLoadBalancer",
            "resourceType": "LoadBalancer",
            "createdAt": 1569875092.125,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "DeleteLoadBalancer",
            "status": "Succeeded",
            "statusChangedAt": 1569875092.125
        },
        {
            "id": "f91a29fc-8ce3-4e69-a227-ea70ca890bf5",
            "resourceName": "MySecondCertificate",
            "resourceType": "LoadBalancerTlsCertificate",
            "createdAt": 1569875091.938,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "DeleteLoadBalancerTlsCertificate",
            "status": "Started",
            "statusChangedAt": 1569875091.938
        },
        {
            "id": "cf64c060-154b-4eb4-ba57-84e2e41563d6",
            "resourceName": "MyFirstLoadBalancer",
            "resourceType": "LoadBalancer",
            "createdAt": 1569875091.94,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "DeleteLoadBalancerTlsCertificate",
            "status": "Started",
            "statusChangedAt": 1569875091.94
        }
    ]
}
```
Untuk informasi lebih lanjut, lihat judul di *panduan*.  
+  Untuk detail API, lihat [DeleteLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `delete-relational-database-snapshot`
<a name="lightsail_DeleteRelationalDatabaseSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-relational-database-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot dari database terkelola**  
`delete-relational-database-snapshot`Contoh berikut menghapus snapshot tertentu dari database terkelola.  

```
aws lightsail delete-relational-database-snapshot \
    --relational-database-snapshot-name Database-Oregon-1-1566839359
```
Output:  

```
{
    "operations": [
        {
            "id": "b99acae8-735b-4823-922f-30af580e3729",
            "resourceName": "Database-Oregon-1-1566839359",
            "resourceType": "RelationalDatabaseSnapshot",
            "createdAt": 1569875293.58,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "DeleteRelationalDatabaseSnapshot",
            "status": "Succeeded",
            "statusChangedAt": 1569875293.58
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteRelationalDatabaseSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-relational-database-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-relational-database`
<a name="lightsail_DeleteRelationalDatabase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-relational-database`.

**AWS CLI**  
**Untuk menghapus database terkelola**  
`delete-relational-database`Contoh berikut menghapus database terkelola yang ditentukan.  

```
aws lightsail delete-relational-database \
    --relational-database-name Database-1
```
Output:  

```
{
    "operations": [
        {
            "id": "3b0c41c1-053d-46f0-92a3-14f76141dc86",
            "resourceName": "Database-1",
            "resourceType": "RelationalDatabase",
            "createdAt": 1569875210.999,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "DeleteRelationalDatabase",
            "status": "Started",
            "statusChangedAt": 1569875210.999
        },
        {
            "id": "01ddeae8-a87a-4a4b-a1f3-092c71bf9180",
            "resourceName": "Database-1",
            "resourceType": "RelationalDatabase",
            "createdAt": 1569875211.029,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "Database-1-FinalSnapshot-1569875210793",
            "operationType": "CreateRelationalDatabaseSnapshot",
            "status": "Started",
            "statusChangedAt": 1569875211.029
        },
        {
            "id": "74d73681-30e8-4532-974e-1f23cd3f9f73",
            "resourceName": "Database-1-FinalSnapshot-1569875210793",
            "resourceType": "RelationalDatabaseSnapshot",
            "createdAt": 1569875211.029,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "Database-1",
            "operationType": "CreateRelationalDatabaseSnapshot",
            "status": "Started",
            "statusChangedAt": 1569875211.029
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteRelationalDatabase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/delete-relational-database.html)di *Referensi AWS CLI Perintah*. 

### `detach-static-ip`
<a name="lightsail_DetachStaticIp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-static-ip`.

**AWS CLI**  
**Untuk melepaskan IP statis dari sebuah instance**  
`detach-static-ip`Contoh berikut melepaskan IP statis `StaticIp-1` dari setiap instance terlampir.  

```
aws lightsail detach-static-ip \
    --static-ip-name StaticIp-1
```
Output:  

```
{
    "operations": [
        {
            "id": "2a43d8a3-9f2d-4fe7-bdd0-eEXAMPLE3cf3",
            "resourceName": "StaticIp-1",
            "resourceType": "StaticIp",
            "createdAt": 1571088261.999,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "MEAN-1",
            "operationType": "DetachStaticIp",
            "status": "Succeeded",
            "statusChangedAt": 1571088261.999
        },
        {
            "id": "41a7d40c-74e8-4d2e-a837-cEXAMPLEf747",
            "resourceName": "MEAN-1",
            "resourceType": "Instance",
            "createdAt": 1571088262.022,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "StaticIp-1",
            "operationType": "DetachStaticIp",
            "status": "Succeeded",
            "statusChangedAt": 1571088262.022
        }
    ]
}
```
+  Untuk detail API, lihat [DetachStaticIp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/detach-static-ip.html)di *Referensi AWS CLI Perintah*. 

### `get-active-names`
<a name="lightsail_GetActiveNames_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-active-names`.

**AWS CLI**  
**Untuk mendapatkan nama sumber daya aktif**  
`get-active-names`Contoh berikut mengembalikan nama sumber daya aktif di AWS Wilayah dikonfigurasi.  

```
aws lightsail get-active-names
```
Output:  

```
{
    "activeNames": [
        "WordPress-1",
        "StaticIp-1",
        "MEAN-1",
        "Plesk_Hosting_Stack_on_Ubuntu-1"
    ]
}
```
+  Untuk detail API, lihat [GetActiveNames](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-active-names.html)di *Referensi AWS CLI Perintah*. 

### `get-auto-snapshots`
<a name="lightsail_GetAutoSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-auto-snapshots`.

**AWS CLI**  
**Untuk mendapatkan snapshot otomatis yang tersedia untuk sebuah instance**  
`get-auto-snapshots`Contoh berikut mengembalikan snapshot otomatis yang tersedia misalnya`WordPress-1`.  

```
aws lightsail get-auto-snapshots \
    --resource-name WordPress-1
```
Output:  

```
{
    "resourceName": "WordPress-1",
    "resourceType": "Instance",
    "autoSnapshots": [
        {
            "date": "2019-10-14",
            "createdAt": 1571033872.0,
            "status": "Success",
            "fromAttachedDisks": []
        },
        {
            "date": "2019-10-13",
            "createdAt": 1570947473.0,
            "status": "Success",
            "fromAttachedDisks": []
        },
        {
            "date": "2019-10-12",
            "createdAt": 1570861072.0,
            "status": "Success",
            "fromAttachedDisks": []
        },
        {
            "date": "2019-10-11",
            "createdAt": 1570774672.0,
            "status": "Success",
            "fromAttachedDisks": []
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menyimpan snapshot otomatis instance atau disk di Amazon Lightsail dalam Panduan Pengembang Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-keeping-automatic-snapshots).*  
+  Untuk detail API, lihat [GetAutoSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-auto-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `get-blueprints`
<a name="lightsail_GetBlueprints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-blueprints`.

**AWS CLI**  
**Untuk mendapatkan cetak biru untuk instance baru**  
`get-blueprints`Contoh berikut menampilkan detail tentang semua cetak biru yang tersedia yang dapat digunakan untuk membuat instance baru di Amazon Lightsail.  

```
aws lightsail get-blueprints
```
Output:  

```
{
    "blueprints": [
        {
            "blueprintId": "wordpress",
            "name": "WordPress",
            "group": "wordpress",
            "type": "app",
            "description": "Bitnami, the leaders in application packaging, and Automattic, the experts behind WordPress, have teamed up to offer this official WordPress image. This image is a pre-configured, ready-to-run image for running WordPress on Amazon Lightsail. WordPress is the world's most popular content management platform. Whether it's for an enterprise or small business website, or a personal or corporate blog, content authors can easily create content using its new Gutenberg editor, and developers can extend the base platform with additional features. Popular plugins like Jetpack, Akismet, All in One SEO Pack, WP Mail, Google Analytics for WordPress, and Amazon Polly are all pre-installed in this image. Let's Encrypt SSL certificates are supported through an auto-configuration script.",
            "isActive": true,
            "minPower": 0,
            "version": "6.5.3-0",
            "versionCode": "1",
            "productUrl": "https://aws.amazon.com/marketplace/pp/B00NN8Y43U",
            "licenseUrl": "https://aws.amazon.com/marketplace/pp/B00NN8Y43U#pdp-usage",
            "platform": "LINUX_UNIX"
        },
        {
            "blueprintId": "lamp_8_bitnami",
            "name": "LAMP (PHP 8)",
            "group": "lamp_8",
            "type": "app",
            "description": "LAMP with PHP 8.X packaged by Bitnami enables you to quickly start building your websites and applications by providing a coding framework. As a developer, it provides standalone project directories to store your applications. This blueprint is configured for production environments. It includes SSL auto-configuration with Let's Encrypt certificates, and the latest releases of PHP, Apache, and MariaDB on Linux. This application also includes phpMyAdmin, PHP main modules and Composer.",
            "isActive": true,
            "minPower": 0,
            "version": "8.2.18-4",
            "versionCode": "1",
            "productUrl": "https://aws.amazon.com/marketplace/pp/prodview-6g3gzfcih6dvu",
            "licenseUrl": "https://aws.amazon.com/marketplace/pp/prodview-6g3gzfcih6dvu#pdp-usage",
            "platform": "LINUX_UNIX"
        },
        {
            "blueprintId": "nodejs",
            "name": "Node.js",
            "group": "node",
            "type": "app",
            "description": "Node.js packaged by Bitnami is a pre-configured, ready to run image for Node.js on Amazon EC2. It includes the latest version of Node.js, Apache, Python and Redis. The image supports multiple Node.js applications, each with its own virtual host and project directory. It is configured for production use and is secure by default, as all ports except HTTP, HTTPS and SSH ports are closed. Let's Encrypt SSL certificates are supported through an auto-configuration script. Developers benefit from instant access to a secure, update and consistent Node.js environment without having to manually install and configure multiple components and libraries.",
            "isActive": true,
            "minPower": 0,
            "version": "18.20.2-0",
            "versionCode": "1",
            "productUrl": "https://aws.amazon.com/marketplace/pp/B00NNZUAKO",
            "licenseUrl": "https://aws.amazon.com/marketplace/pp/B00NNZUAKO#pdp-usage",
            "platform": "LINUX_UNIX"
        },
        ...
        }
    ]
}
```
+  Untuk detail API, lihat [GetBlueprints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-blueprints.html)di *Referensi AWS CLI Perintah*. 

### `get-bundles`
<a name="lightsail_GetBundles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bundles`.

**AWS CLI**  
**Untuk mendapatkan bundel untuk instance baru**  
`get-bundles`Contoh berikut menampilkan detail tentang semua bundel yang tersedia yang dapat digunakan untuk membuat instance baru di Amazon Lightsail.  

```
aws lightsail get-bundles
```
Output:  

```
{
    "bundles": [
        {
            "price": 5.0,
            "cpuCount": 2,
            "diskSizeInGb": 20,
            "bundleId": "nano_3_0",
            "instanceType": "nano",
            "isActive": true,
            "name": "Nano",
            "power": 298,
            "ramSizeInGb": 0.5,
            "transferPerMonthInGb": 1024,
            "supportedPlatforms": [
                "LINUX_UNIX"
            ]
        },
        {
            "price": 7.0,
            "cpuCount": 2,
            "diskSizeInGb": 40,
            "bundleId": "micro_3_0",
            "instanceType": "micro",
            "isActive": true,
            "name": "Micro",
            "power": 500,
            "ramSizeInGb": 1.0,
            "transferPerMonthInGb": 2048,
            "supportedPlatforms": [
                "LINUX_UNIX"
            ]
        },
        {
            "price": 12.0,
            "cpuCount": 2,
            "diskSizeInGb": 60,
            "bundleId": "small_3_0",
            "instanceType": "small",
            "isActive": true,
            "name": "Small",
            "power": 1000,
            "ramSizeInGb": 2.0,
            "transferPerMonthInGb": 3072,
            "supportedPlatforms": [
                "LINUX_UNIX"
            ]
        },
        ...
        }
    ]
}
```
+  Untuk detail API, lihat [GetBundles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-bundles.html)di *Referensi AWS CLI Perintah*. 

### `get-cloud-formation-stack-records`
<a name="lightsail_GetCloudFormationStackRecords_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-cloud-formation-stack-records`.

**AWS CLI**  
**Untuk mendapatkan catatan CloudFormation tumpukan dan tumpukan terkait**  
`get-cloud-formation-stack-records`Contoh berikut menampilkan detail tentang catatan CloudFormation tumpukan dan tumpukan terkait yang digunakan untuk membuat sumber daya Amazon EC2 dari snapshot Amazon Lightsail yang diekspor.  

```
aws lightsail get-cloud-formation-stack-records
```
Output:  

```
{
    "cloudFormationStackRecords": [
        {
            "name": "CloudFormationStackRecord-588a4243-e2d1-490d-8200-3a7513ecebdf",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:CloudFormationStackRecord/28d646ab-27bc-48d9-a422-1EXAMPLE6d37",
            "createdAt": 1565301666.586,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "CloudFormationStackRecord",
            "state": "Succeeded",
            "sourceInfo": [
                {
                    "resourceType": "ExportSnapshotRecord",
                    "name": "ExportSnapshotRecord-e02f23d7-0453-4aa9-9c95-91aa01a141dd",
                    "arn": "arn:aws:lightsail:us-west-2:111122223333:ExportSnapshotRecord/f12b8792-f3ea-4d6f-b547-2EXAMPLE8796"
                }
            ],
            "destinationInfo": {
                "id": "arn:aws:cloudformation:us-west-2:111122223333:stack/Lightsail-Stack-588a4243-e2d1-490d-8200-3EXAMPLEebdf/063203b0-ba28-11e9-838b-0EXAMPLE8b00",
                "service": "Aws::CloudFormation::Stack"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [GetCloudFormationStackRecords](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-cloud-formation-stack-records.html)di *Referensi AWS CLI Perintah*. 

### `get-disk-snapshot`
<a name="lightsail_GetDiskSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-disk-snapshot`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang snapshot disk**  
`get-disk-snapshot`Contoh berikut menampilkan detail tentang snapshot `Disk-1-1566839161` disk.  

```
aws lightsail get-disk-snapshot \
    --disk-snapshot-name Disk-1-1566839161
```
Output:  

```
{
    "diskSnapshot": {
        "name": "Disk-1-1566839161",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:DiskSnapshot/e2d0fa53-8ee0-41a0-8e56-0EXAMPLE1051",
        "supportCode": "6EXAMPLE3362/snap-0EXAMPLE06100d09",
        "createdAt": 1566839163.749,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "resourceType": "DiskSnapshot",
        "tags": [],
        "sizeInGb": 8,
        "state": "completed",
        "progress": "100%",
        "fromDiskName": "Disk-1",
        "fromDiskArn": "arn:aws:lightsail:us-west-2:111122223333:Disk/c21cfb0a-07f2-44ae-9a23-bEXAMPLE8096",
        "isFromAutoSnapshot": false
    }
}
```
Untuk informasi lebih lanjut, lihat judul di *panduan*.  
+  Untuk detail API, lihat [GetDiskSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-disk-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `get-disk-snapshots`
<a name="lightsail_GetDiskSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-disk-snapshots`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua snapshot disk**  
`get-disk-snapshots`Contoh berikut menampilkan detail tentang semua snapshot disk di AWS Wilayah yang dikonfigurasi.  

```
aws lightsail get-disk-snapshots
```
Output:  

```
{
    "diskSnapshots": [
        {
            "name": "Disk-2-1571090588",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:DiskSnapshot/32e889a9-38d4-4687-9f21-eEXAMPLE7839",
            "supportCode": "6EXAMPLE3362/snap-0EXAMPLE1ca192a4",
            "createdAt": 1571090591.226,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "DiskSnapshot",
            "tags": [],
            "sizeInGb": 8,
            "state": "completed",
            "progress": "100%",
            "fromDiskName": "Disk-2",
            "fromDiskArn": "arn:aws:lightsail:us-west-2:111122223333:Disk/6a343ff8-6341-422d-86e2-bEXAMPLE16c2",
            "isFromAutoSnapshot": false
        },
        {
            "name": "Disk-1-1566839161",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:DiskSnapshot/e2d0fa53-8ee0-41a0-8e56-0EXAMPLE1051",
            "supportCode": "6EXAMPLE3362/snap-0EXAMPLEe06100d09",
            "createdAt": 1566839163.749,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "DiskSnapshot",
            "tags": [],
            "sizeInGb": 8,
            "state": "completed",
            "progress": "100%",
            "fromDiskName": "Disk-1",
            "fromDiskArn": "arn:aws:lightsail:us-west-2:111122223333:Disk/c21cfb0a-07f2-44ae-9a23-bEXAMPLE8096",
            "isFromAutoSnapshot": false
        }
    ]
}
```
+  Untuk detail API, lihat [GetDiskSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-disk-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `get-disk`
<a name="lightsail_GetDisk_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-disk`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang disk penyimpanan blok**  
`get-disk`Contoh berikut menampilkan rincian tentang disk`Disk-1`.  

```
aws lightsail get-disk \
    --disk-name Disk-1
```
Output:  

```
{
    "disk": {
        "name": "Disk-1",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:Disk/c21cfb0a-07f2-44ae-9a23-bEXAMPLE8096",
        "supportCode": "6EXAMPLE3362/vol-0EXAMPLEf2f88b32f",
        "createdAt": 1566585439.587,
        "location": {
            "availabilityZone": "us-west-2a",
            "regionName": "us-west-2"
        },
        "resourceType": "Disk",
        "tags": [],
        "sizeInGb": 8,
        "isSystemDisk": false,
        "iops": 100,
        "path": "/dev/xvdf",
        "state": "in-use",
        "attachedTo": "WordPress_Multisite-1",
        "isAttached": true,
        "attachmentState": "attached"
    }
}
```
Untuk informasi lebih lanjut, lihat judul di *panduan*.  
+  Untuk detail API, lihat [GetDisk](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-disk.html)di *Referensi AWS CLI Perintah*. 

### `get-disks`
<a name="lightsail_GetDisks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-disks`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua disk penyimpanan blok**  
`get-disks`Contoh berikut menampilkan rincian tentang semua disk di AWS Wilayah dikonfigurasi.  

```
aws lightsail get-disks
```
Output:  

```
{
    "disks": [
        {
            "name": "Disk-2",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:Disk/6a343ff8-6341-422d-86e2-bEXAMPLE16c2",
            "supportCode": "6EXAMPLE3362/vol-0EXAMPLE929602087",
            "createdAt": 1571090461.634,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "resourceType": "Disk",
            "tags": [],
            "sizeInGb": 8,
            "isSystemDisk": false,
            "iops": 100,
            "state": "available",
            "isAttached": false,
            "attachmentState": "detached"
        },
        {
            "name": "Disk-1",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:Disk/c21cfb0a-07f2-44ae-9a23-bEXAMPLE8096",
            "supportCode": "6EXAMPLE3362/vol-0EXAMPLEf2f88b32f",
            "createdAt": 1566585439.587,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "resourceType": "Disk",
            "tags": [],
            "sizeInGb": 8,
            "isSystemDisk": false,
            "iops": 100,
            "path": "/dev/xvdf",
            "state": "in-use",
            "attachedTo": "WordPress_Multisite-1",
            "isAttached": true,
            "attachmentState": "attached"
        }
    ]
}
```
+  Untuk detail API, lihat [GetDisks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-disks.html)di *Referensi AWS CLI Perintah*. 

### `get-domain`
<a name="lightsail_GetDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang domain**  
`get-domain`Contoh berikut menampilkan rincian tentang domain`example.com`.  
**Catatan:** Operasi API terkait domain Lightsail hanya tersedia di Wilayah. `us-east-1` AWS Jika profil CLI Anda dikonfigurasi untuk menggunakan Wilayah yang berbeda, Anda harus menyertakan parameter`` --region us-east-1`` atau perintah gagal.  

```
aws lightsail get-domain \
    --domain-name example.com \
    --region us-east-1
```
Output:  

```
{
    "domain": {
        "name": "example.com",
        "arn": "arn:aws:lightsail:global:111122223333:Domain/28cda903-3f15-44b2-9baf-3EXAMPLEb304",
        "supportCode": "6EXAMPLE3362//hostedzone/ZEXAMPLEONGSC1",
        "createdAt": 1570728588.6,
        "location": {
            "availabilityZone": "all",
            "regionName": "global"
        },
        "resourceType": "Domain",
        "tags": [],
        "domainEntries": [
            {
                "id": "-1682899164",
                "name": "example.com",
                "target": "192.0.2.0",
                "isAlias": false,
                "type": "A"
            },
            {
                "id": "1703104243",
                "name": "example.com",
                "target": "ns-137.awsdns-17.com",
                "isAlias": false,
                "type": "NS"
            },
            {
                "id": "-1038331153",
                "name": "example.com",
                "target": "ns-1710.awsdns-21.co.uk",
                "isAlias": false,
                "type": "NS"
            },
            {
                "id": "-2107289565",
                "name": "example.com",
                "target": "ns-692.awsdns-22.net",
                "isAlias": false,
                "type": "NS"
            },
            {
                "id": "1582095705",
                "name": "example.com",
                "target": "ns-1436.awsdns-51.org",
                "isAlias": false,
                "type": "NS"
            },
            {
                "id": "-1769796132",
                "name": "example.com",
                "target": "ns-1710.awsdns-21.co.uk. awsdns-hostmaster.amazon.com. 1 7200 900 1209600 86400",
                "isAlias": false,
                "type": "SOA"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [GetDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-domain.html)di *Referensi AWS CLI Perintah*. 

### `get-domains`
<a name="lightsail_GetDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domains`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua domain**  
`get-domains`Contoh berikut menampilkan detail tentang semua domain di AWS Wilayah yang dikonfigurasi.  
**Catatan:** Operasi API terkait domain Lightsail hanya tersedia di Wilayah. `us-east-1` AWS Jika profil CLI Anda dikonfigurasi untuk menggunakan Wilayah yang berbeda, Anda harus menyertakan `--region us-east-1` parameter atau perintah gagal.  

```
aws lightsail get-domains \
    --region us-east-1
```
Output:  

```
{
    "domains": [
        {
            "name": "example.com",
            "arn": "arn:aws:lightsail:global:111122223333:Domain/28cda903-3f15-44b2-9baf-3EXAMPLEb304",
            "supportCode": "6EXAMPLE3362//hostedzone/ZEXAMPLEONGSC1",
            "createdAt": 1570728588.6,
            "location": {
                "availabilityZone": "all",
                "regionName": "global"
            },
            "resourceType": "Domain",
            "tags": [],
            "domainEntries": [
                {
                    "id": "-1682899164",
                    "name": "example.com",
                    "target": "192.0.2.0",
                    "isAlias": false,
                    "type": "A"
                },
                {
                    "id": "1703104243",
                    "name": "example.com",
                    "target": "ns-137.awsdns-17.com",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "-1038331153",
                    "name": "example.com",
                    "target": "ns-4567.awsdns-21.co.uk",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "-2107289565",
                    "name": "example.com",
                    "target": "ns-333.awsdns-22.net",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "1582095705",
                    "name": "example.com",
                    "target": "ns-1111.awsdns-51.org",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "-1769796132",
                    "name": "example.com",
                    "target": "ns-1234.awsdns-21.co.uk. awsdns-hostmaster.amazon.com. 1 7200 900 1209600 86400",
                    "isAlias": false,
                    "type": "SOA"
                },
                {
                    "id": "1029454894",
                    "name": "_dead6a124ede046a0319eb44a4eb3cbc.example.com",
                    "target": "_be133b0a0899fb7b6bf79d9741d1a383.hkvuiqjoua.acm-validations.aws",
                    "isAlias": false,
                    "type": "CNAME"
                }
            ]
        },
        {
            "name": "example.net",
            "arn": "arn:aws:lightsail:global:111122223333:Domain/9c9f0d70-c92e-4753-86c2-6EXAMPLE029d",
            "supportCode": "6EXAMPLE3362//hostedzone/ZEXAMPLE5TPKMV",
            "createdAt": 1556661071.384,
            "location": {
                "availabilityZone": "all",
                "regionName": "global"
            },
            "resourceType": "Domain",
            "tags": [],
            "domainEntries": [
                {
                    "id": "-766320943",
                    "name": "example.net",
                    "target": "192.0.2.2",
                    "isAlias": false,
                    "type": "A"
                },
                {
                    "id": "-453913825",
                    "name": "example.net",
                    "target": "ns-123.awsdns-10.net",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "1553601564",
                    "name": "example.net",
                    "target": "ns-4444.awsdns-47.co.uk",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "1653797661",
                    "name": "example.net",
                    "target": "ns-7890.awsdns-61.org",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "706414698",
                    "name": "example.net",
                    "target": "ns-123.awsdns-44.com",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "337271745",
                    "name": "example.net",
                    "target": "ns-4444.awsdns-47.co.uk. awsdns-hostmaster.amazon.com. 1 7200 900 1209600 86400",
                    "isAlias": false,
                    "type": "SOA"
                },
                {
                    "id": "-1785431096",
                    "name": "www.example.net",
                    "target": "192.0.2.2",
                    "isAlias": false,
                    "type": "A"
                }
            ]
        },
        {
            "name": "example.org",
            "arn": "arn:aws:lightsail:global:111122223333:Domain/f0f13ba3-3df0-4fdc-8ebb-1EXAMPLEf26e",
            "supportCode": "6EXAMPLE3362//hostedzone/ZEXAMPLEAFO38",
            "createdAt": 1556661199.106,
            "location": {
                "availabilityZone": "all",
                "regionName": "global"
            },
            "resourceType": "Domain",
            "tags": [],
            "domainEntries": [
                {
                    "id": "2065301345",
                    "name": "example.org",
                    "target": "192.0.2.4",
                    "isAlias": false,
                    "type": "A"
                },
                {
                    "id": "-447198516",
                    "name": "example.org",
                    "target": "ns-123.awsdns-45.com",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "136463022",
                    "name": "example.org",
                    "target": "ns-9999.awsdns-15.co.uk",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "1395941679",
                    "name": "example.org",
                    "target": "ns-555.awsdns-01.net",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "872052569",
                    "name": "example.org",
                    "target": "ns-6543.awsdns-38.org",
                    "isAlias": false,
                    "type": "NS"
                },
                {
                    "id": "1001949377",
                    "name": "example.org",
                    "target": "ns-1234.awsdns-15.co.uk. awsdns-hostmaster.amazon.com. 1 7200 900 1209600 86400",
                    "isAlias": false,
                    "type": "SOA"
                },
                {
                    "id": "1046191192",
                    "name": "www.example.org",
                    "target": "192.0.2.4",
                    "isAlias": false,
                    "type": "A"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [GetDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-domains.html)di *Referensi AWS CLI Perintah*. 

### `get-export-snapshot-record`
<a name="lightsail_GetExportSnapshotRecord_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-export-snapshot-record`.

**AWS CLI**  
**Untuk mendapatkan catatan snapshot yang diekspor ke Amazon EC2**  
`get-export-snapshot-record`Contoh berikut menampilkan detail tentang instans Amazon Lightsail atau snapshot disk yang diekspor ke Amazon EC2.  

```
aws lightsail get-export-snapshot-records
```
Output:  

```
{
    "exportSnapshotRecords": [
        {
            "name": "ExportSnapshotRecord-d2da10ce-0b3c-4ae1-ab3a-2EXAMPLEa586",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:ExportSnapshotRecord/076c7060-b0cc-4162-98f0-2EXAMPLEe28e",
            "createdAt": 1543534665.678,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "ExportSnapshotRecord",
            "state": "Succeeded",
            "sourceInfo": {
                "resourceType": "InstanceSnapshot",
                "createdAt": 1540339310.706,
                "name": "WordPress-512MB-Oregon-1-1540339219",
                "arn": "arn:aws:lightsail:us-west-2:111122223333:InstanceSnapshot/5446f534-ed60-4c17-b4a5-bEXAMPLEf8b7",
                "fromResourceName": "WordPress-512MB-Oregon-1",
                "fromResourceArn": "arn:aws:lightsail:us-west-2:111122223333:Instance/4b8f1f24-e4d1-4cf3-88ff-cEXAMPLEa397",
                "instanceSnapshotInfo": {
                    "fromBundleId": "nano_2_0",
                    "fromBlueprintId": "wordpress_4_9_8",
                    "fromDiskInfo": [
                        {
                            "path": "/dev/sda1",
                            "sizeInGb": 20,
                            "isSystemDisk": true
                        }
                    ]
                }
            },
            "destinationInfo": {
                "id": "ami-0EXAMPLEc0d65058e",
                "service": "Aws::EC2::Image"
            }
        },
        {
            "name": "ExportSnapshotRecord-1c94e884-40ff-4fe1-9302-0EXAMPLE14c2",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:ExportSnapshotRecord/fb392ce8-6567-4013-9bfd-3EXAMPLE5b4c",
            "createdAt": 1543432110.2,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "ExportSnapshotRecord",
            "state": "Succeeded",
            "sourceInfo": {
                "resourceType": "InstanceSnapshot",
                "createdAt": 1540833603.545,
                "name": "LAMP_PHP_5-512MB-Oregon-1-1540833565",
                "arn": "arn:aws:lightsail:us-west-2:111122223333:InstanceSnapshot/82334399-b5f2-49ec-8382-0EXAMPLEe45f",
                "fromResourceName": "LAMP_PHP_5-512MB-Oregon-1",
                "fromResourceArn": "arn:aws:lightsail:us-west-2:111122223333:Instance/863b9f35-ab1e-4418-bdd2-1EXAMPLEbab2",
                "instanceSnapshotInfo": {
                    "fromBundleId": "nano_2_0",
                    "fromBlueprintId": "lamp_5_6_37_2",
                    "fromDiskInfo": [
                        {
                            "path": "/dev/sda1",
                            "sizeInGb": 20,
                            "isSystemDisk": true
                        }
                    ]
                }
            },
            "destinationInfo": {
                "id": "ami-0EXAMPLE7c5ec84e2",
                "service": "Aws::EC2::Image"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [GetExportSnapshotRecord](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-export-snapshot-record.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-access-details`
<a name="lightsail_GetInstanceAccessDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-access-details`.

**AWS CLI**  
**Untuk mendapatkan informasi kunci host untuk sebuah instance**  
`get-instance-access-details`Contoh berikut menampilkan informasi kunci host misalnya`WordPress_Multisite-1`.  

```
aws lightsail get-instance-access-details \
    --instance-name WordPress_Multisite-1
```
Output:  

```
{
    "accessDetails": {
        "certKey": "ssh-rsa-cert-v01@openssh.com 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",
        "ipAddress": "192.0.2.0",
        "privateKey": "-----BEGIN RSA PRIVATE KEY-----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\nwEXAMPLExMlcysRgcWB9RNgf3AuOpFd2i6XT/riNsvvkpmJ+VooU8g==\n-----END RSA PRIVATE KEY-----\n",
        "protocol": "ssh",
        "instanceName": "WordPress_Multisite-1",
        "username": "bitnami",
        "hostKeys": [
            {
                "algorithm": "ssh-rsa",
                "publicKey": "AEXAMPLEaC1yc2EAAAADAQABAAABAQCoeR9ieZTjQ3pXCHczuAYZFjlF7t+uBkXuqeGMRex78pCvmS+DiEXAMPLEuJ1Q8dcKhrQL4HpXbD9dosVCTaJnJwb4MQqsuSVFdHFzy3guP+BKclWqtxJEXAMPLEsBGqZZlrIv6a9bTA0TCplZ8AD+hSRTaSXXqg6FT+Qf16IktH0XlMs7xIEXAMPLEmNtjCpzZiGXDHzytoMvUgwa8uHPp44Og36EUu4VqQxoUHPJKoXvcQizyk3K8ym0hP0TpDZhD8cqwRfd6EHp4Q1br/Ot6y9HwvykEXAMPLEAfbKjbR42+u6+OSlkr4d339q2U1sTDytJhhs8HUel1wTfGRfp",
                "witnessedAt": 1570744377.699,
                "fingerprintSHA1": "SHA1:GEXAMPLEMoYgUg0ucadqU9Bt3Lk",
                "fingerprintSHA256": "SHA256:IEXAMPLEcB5vgxnAUoJawbdZ+MwELhIp6FUxuwq/LIU"
            },
            {
                "algorithm": "ssh-ed25519",
                "publicKey": "AEXAMPLEaC1lZDI1NTE5AAAAIC1gwGPDfGaONxEXAMPLEJX3UNap781QxHQmn8nzlrUv",
                "witnessedAt": 1570744377.697,
                "fingerprintSHA1": "SHA1:VEXAMPLE5ReqSmTgv03sSUw9toU",
                "fingerprintSHA256": "SHA256:0EXAMPLEdE6tI95k3TJpG+qhJbAoknB0yz9nAEaDt3A"
            },
            {
                "algorithm": "ecdsa-sha2-nistp256",
                "publicKey": "AEXAMPLEZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAyNTYAAABEXAMPLE9B4mZy8YSsZW7cixCDq5yHSAAxjJkDo54C+EnKlDCsYtUkxxEXAMPLE6VOWL2z63RTKa2AUPgd8irjxWI=",
                "witnessedAt": 1570744377.707,
                "fingerprintSHA1": "SHA1:UEXAMPLEOYCfXsCf2G6tDg+7YG0",
                "fingerprintSHA256": "SHA256:wEXAMPLEQ9a/iEXAMPLEhRufm6U9vFU4cpkMPHnBsNA"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [GetInstanceAccessDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-instance-access-details.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-metric-data`
<a name="lightsail_GetInstanceMetricData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-metric-data`.

**AWS CLI**  
**Untuk mendapatkan data metrik untuk sebuah instance**  
`get-instance-metric-data`Contoh berikut mengembalikan persentase rata-rata `CPUUtilization` setiap `7200` detik (2 jam) antara `1571342400` dan `1571428800` misalnya`MEAN-1`.  
Kami menyarankan Anda menggunakan konverter waktu unix untuk mengidentifikasi waktu mulai dan akhir.  

```
aws lightsail get-instance-metric-data \
    --instance-name MEAN-1 \
    --metric-name CPUUtilization \
    --period 7200 \
    --start-time 1571342400 \
    --end-time 1571428800 \
    --unit Percent \
    --statistics Average
```
Output:  

```
{
    "metricName": "CPUUtilization",
    "metricData": [
        {
            "average": 0.26113718770120725,
            "timestamp": 1571342400.0,
            "unit": "Percent"
        },
        {
            "average": 0.26861268928111953,
            "timestamp": 1571392800.0,
            "unit": "Percent"
        },
        {
            "average": 0.28187475104748777,
            "timestamp": 1571378400.0,
            "unit": "Percent"
        },
        {
            "average": 0.2651936960458352,
            "timestamp": 1571421600.0,
            "unit": "Percent"
        },
        {
            "average": 0.2561856213712188,
            "timestamp": 1571371200.0,
            "unit": "Percent"
        },
        {
            "average": 0.3021383254607764,
            "timestamp": 1571356800.0,
            "unit": "Percent"
        },
        {
            "average": 0.2618381649223539,
            "timestamp": 1571407200.0,
            "unit": "Percent"
        },
        {
            "average": 0.26331929394825787,
            "timestamp": 1571400000.0,
            "unit": "Percent"
        },
        {
            "average": 0.2576348407007818,
            "timestamp": 1571385600.0,
            "unit": "Percent"
        },
        {
            "average": 0.2513008454658378,
            "timestamp": 1571364000.0,
            "unit": "Percent"
        },
        {
            "average": 0.26329974562758346,
            "timestamp": 1571414400.0,
            "unit": "Percent"
        },
        {
            "average": 0.2667092536656445,
            "timestamp": 1571349600.0,
            "unit": "Percent"
        }
    ]
}
```
+  Untuk detail API, lihat [GetInstanceMetricData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-instance-metric-data.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-port-states`
<a name="lightsail_GetInstancePortStates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-port-states`.

**AWS CLI**  
**Untuk mendapatkan informasi firewall untuk sebuah contoh**  
`get-instance-port-states`Contoh berikut mengembalikan port firewall dikonfigurasi misalnya`MEAN-1`.  

```
aws lightsail get-instance-port-states \
    --instance-name MEAN-1
```
Output:  

```
{
    "portStates": [
        {
            "fromPort": 80,
            "toPort": 80,
            "protocol": "tcp",
            "state": "open"
        },
        {
            "fromPort": 22,
            "toPort": 22,
            "protocol": "tcp",
            "state": "open"
        },
        {
            "fromPort": 443,
            "toPort": 443,
            "protocol": "tcp",
            "state": "open"
        }
    ]
}
```
+  Untuk detail API, lihat [GetInstancePortStates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-instance-port-states.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-snapshot`
<a name="lightsail_GetInstanceSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-snapshot`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang snapshot instance tertentu**  
`get-instance-snapshot`Contoh berikut menampilkan rincian tentang snapshot contoh yang ditentukan.  

```
aws lightsail get-instance-snapshot \
    --instance-snapshot-name MEAN-1-1571419854
```
Output:  

```
{
    "instanceSnapshot": {
        "name": "MEAN-1-1571419854",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:InstanceSnapshot/ac54700c-48a8-40fd-b065-2EXAMPLEac8f",
        "supportCode": "6EXAMPLE3362/ami-0EXAMPLE67a73020d",
        "createdAt": 1571419891.927,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "resourceType": "InstanceSnapshot",
        "tags": [],
        "state": "available",
        "fromAttachedDisks": [],
        "fromInstanceName": "MEAN-1",
        "fromInstanceArn": "arn:aws:lightsail:us-west-2:111122223333:Instance/bd470fc5-a68b-44c5-8dbc-8EXAMPLEbada",
        "fromBlueprintId": "mean",
        "fromBundleId": "medium_3_0",
        "isFromAutoSnapshot": false,
        "sizeInGb": 80
    }
}
```
+  Untuk detail API, lihat [GetInstanceSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-instance-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-snapshots`
<a name="lightsail_GetInstanceSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-snapshots`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua snapshot instans Anda**  
`get-instance-snapshots`Contoh berikut menampilkan detail tentang semua snapshot instance di AWS Wilayah yang dikonfigurasi.  

```
aws lightsail get-instance-snapshots
```
Output:  

```
{
    "instanceSnapshots": [
        {
            "name": "MEAN-1-1571421498",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:InstanceSnapshot/a20e6ebe-b0ee-4ae4-a750-3EXAMPLEcb0c",
            "supportCode": "6EXAMPLE3362/ami-0EXAMPLEe33cabfa1",
            "createdAt": 1571421527.755,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "InstanceSnapshot",
            "tags": [
                {
                    "key": "no_delete"
                }
            ],
            "state": "available",
            "fromAttachedDisks": [],
            "fromInstanceName": "MEAN-1",
            "fromInstanceArn": "arn:aws:lightsail:us-west-2:111122223333:Instance/1761aa0a-6038-4f25-8b94-2EXAMPLE19fd",
            "fromBlueprintId": "wordpress",
            "fromBundleId": "micro_3_0",
            "isFromAutoSnapshot": false,
            "sizeInGb": 40
        },
        {
            "name": "MEAN-1-1571419854",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:InstanceSnapshot/ac54700c-48a8-40fd-b065-2EXAMPLEac8f",
            "supportCode": "6EXAMPLE3362/ami-0EXAMPLE67a73020d",
            "createdAt": 1571419891.927,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "InstanceSnapshot",
            "tags": [],
            "state": "available",
            "fromAttachedDisks": [],
            "fromInstanceName": "MEAN-1",
            "fromInstanceArn": "arn:aws:lightsail:us-west-2:111122223333:Instance/bd470fc5-a68b-44c5-8dbc-8EXAMPLEbada",
            "fromBlueprintId": "mean",
            "fromBundleId": "medium_3_0",
            "isFromAutoSnapshot": false,
            "sizeInGb": 80
        }
    ]
}
```
+  Untuk detail API, lihat [GetInstanceSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-instance-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `get-instance-state`
<a name="lightsail_GetInstanceState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance-state`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang keadaan sebuah instance**  
`get-instance-state`Contoh berikut mengembalikan keadaan contoh tertentu.  

```
aws lightsail get-instance-state \
    --instance-name MEAN-1
```
Output:  

```
{
    "state": {
        "code": 16,
        "name": "running"
    }
}
```
+  Untuk detail API, lihat [GetInstanceState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-instance-state.html)di *Referensi AWS CLI Perintah*. 

### `get-instance`
<a name="lightsail_GetInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instance`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sebuah instance**  
`get-instance`Contoh berikut menampilkan rincian tentang instance`MEAN-1`.  

```
aws lightsail get-instance \
    --instance-name MEAN-1
```
Output:  

```
{
    "instance": {
        "name": "MEAN-1",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:Instance/bd470fc5-a68b-44c5-8dbc-EXAMPLE4bada",
        "supportCode": "6EXAMPLE3362/i-05EXAMPLE407c97d3",
        "createdAt": 1570635023.124,
        "location": {
            "availabilityZone": "us-west-2a",
            "regionName": "us-west-2"
        },
        "resourceType": "Instance",
        "tags": [],
        "blueprintId": "mean",
        "blueprintName": "MEAN",
        "bundleId": "medium_3_0",
        "isStaticIp": false,
        "privateIpAddress": "192.0.2.0",
        "publicIpAddress": "192.0.2.0",
        "hardware": {
            "cpuCount": 2,
            "disks": [
                {
                    "createdAt": 1570635023.124,
                    "sizeInGb": 80,
                    "isSystemDisk": true,
                    "iops": 240,
                    "path": "/dev/xvda",
                    "attachedTo": "MEAN-1",
                    "attachmentState": "attached"
                }
            ],
            "ramSizeInGb": 4.0
        },
        "networking": {
            "monthlyTransfer": {
                "gbPerMonthAllocated": 4096
            },
            "ports": [
                {
                    "fromPort": 80,
                    "toPort": 80,
                    "protocol": "tcp",
                    "accessFrom": "Anywhere (0.0.0.0/0)",
                    "accessType": "public",
                    "commonName": "",
                    "accessDirection": "inbound"
                },
                {
                    "fromPort": 22,
                    "toPort": 22,
                    "protocol": "tcp",
                    "accessFrom": "Anywhere (0.0.0.0/0)",
                    "accessType": "public",
                    "commonName": "",
                    "accessDirection": "inbound"
                },
                {
                    "fromPort": 443,
                    "toPort": 443,
                    "protocol": "tcp",
                    "accessFrom": "Anywhere (0.0.0.0/0)",
                    "accessType": "public",
                    "commonName": "",
                    "accessDirection": "inbound"
                }
            ]
        },
        "state": {
            "code": 16,
            "name": "running"
        },
        "username": "bitnami",
        "sshKeyName": "MyKey"
    }
}
```
+  Untuk detail API, lihat [GetInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-instance.html)di *Referensi AWS CLI Perintah*. 

### `get-instances`
<a name="lightsail_GetInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-instances`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua contoh**  
`get-instances`Contoh berikut menampilkan rincian tentang semua instance di AWS Wilayah dikonfigurasi.  

```
aws lightsail get-instances
```
Output:  

```
{
    "instances": [
        {
            "name": "Windows_Server_2022-1",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:Instance/0f44fbb9-8f55-4e47-a25e-EXAMPLE04763",
            "supportCode": "62EXAMPLE362/i-0bEXAMPLE71a686b9",
            "createdAt": 1571332358.665,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "resourceType": "Instance",
            "tags": [],
            "blueprintId": "windows_server_2022",
            "blueprintName": "Windows Server 2022",
            "bundleId": "large_win_3_0",
            "isStaticIp": false,
            "privateIpAddress": "192.0.2.0",
            "publicIpAddress": "192.0.2.0",
            "hardware": {
                "cpuCount": 1,
                "disks": [
                    {
                        "createdAt": 1571332358.665,
                        "sizeInGb": 160,
                        "isSystemDisk": true,
                        "iops": 180,
                        "path": "/dev/sda1",
                        "attachedTo": "Windows_Server_2022-1",
                        "attachmentState": "attached"
                    },
                    {
                        "name": "my-disk-for-windows-server",
                        "arn": "arn:aws:lightsail:us-west-2:111122223333:Disk/4123a81c-484c-49ea-afea-5EXAMPLEda87",
                        "supportCode": "6EXAMPLE3362/vol-0EXAMPLEb2b99ca3d",
                        "createdAt": 1571355063.494,
                        "location": {
                            "availabilityZone": "us-west-2a",
                            "regionName": "us-west-2"
                        },
                        "resourceType": "Disk",
                        "tags": [],
                        "sizeInGb": 128,
                        "isSystemDisk": false,
                        "iops": 384,
                        "path": "/dev/xvdf",
                        "state": "in-use",
                        "attachedTo": "Windows_Server_2022-1",
                        "isAttached": true,
                        "attachmentState": "attached"
                    }
                ],
                "ramSizeInGb": 8.0
            },
            "networking": {
                "monthlyTransfer": {
                    "gbPerMonthAllocated": 3072
                },
                "ports": [
                    {
                        "fromPort": 80,
                        "toPort": 80,
                        "protocol": "tcp",
                        "accessFrom": "Anywhere (0.0.0.0/0)",
                        "accessType": "public",
                        "commonName": "",
                        "accessDirection": "inbound"
                    },
                    {
                        "fromPort": 22,
                        "toPort": 22,
                        "protocol": "tcp",
                        "accessFrom": "Anywhere (0.0.0.0/0)",
                        "accessType": "public",
                        "commonName": "",
                        "accessDirection": "inbound"
                    },
                    {
                        "fromPort": 3389,
                        "toPort": 3389,
                        "protocol": "tcp",
                        "accessFrom": "Anywhere (0.0.0.0/0)",
                        "accessType": "public",
                        "commonName": "",
                        "accessDirection": "inbound"
                    }
                ]
            },
            "state": {
                "code": 16,
                "name": "running"
            },
            "username": "Administrator",
            "sshKeyName": "LightsailDefaultKeyPair"
        },
        {
            "name": "MEAN-1",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:Instance/bd470fc5-a68b-44c5-8dbc-8EXAMPLEbada",
            "supportCode": "6EXAMPLE3362/i-0EXAMPLEa407c97d3",
            "createdAt": 1570635023.124,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "resourceType": "Instance",
            "tags": [],
            "blueprintId": "mean",
            "blueprintName": "MEAN",
            "bundleId": "medium_3_0",
            "isStaticIp": false,
            "privateIpAddress": "192.0.2.0",
            "publicIpAddress": "192.0.2.0",
            "hardware": {
                "cpuCount": 2,
                "disks": [
                    {
                        "name": "Disk-1",
                        "arn": "arn:aws:lightsail:us-west-2:111122223333:Disk/c21cfb0a-07f2-44ae-9a23-bEXAMPLE8096",
                        "supportCode": "6EXAMPLE3362/vol-0EXAMPLEf2f88b32f",
                        "createdAt": 1566585439.587,
                        "location": {
                            "availabilityZone": "us-west-2a",
                            "regionName": "us-west-2"
                        },
                        "resourceType": "Disk",
                        "tags": [
                            {
                                "key": "test"
                            }
                        ],
                        "sizeInGb": 8,
                        "isSystemDisk": false,
                        "iops": 240,
                        "path": "/dev/xvdf",
                        "state": "in-use",
                        "attachedTo": "MEAN-1",
                        "isAttached": true,
                        "attachmentState": "attached"
                    },
                    {
                        "createdAt": 1570635023.124,
                        "sizeInGb": 80,
                        "isSystemDisk": true,
                        "iops": 240,
                        "path": "/dev/sda1",
                        "attachedTo": "MEAN-1",
                        "attachmentState": "attached"
                    }
                ],
                "ramSizeInGb": 4.0
            },
            "networking": {
                "monthlyTransfer": {
                    "gbPerMonthAllocated": 4096
                },
                "ports": [
                    {
                        "fromPort": 80,
                        "toPort": 80,
                        "protocol": "tcp",
                        "accessFrom": "Anywhere (0.0.0.0/0)",
                        "accessType": "public",
                        "commonName": "",
                        "accessDirection": "inbound"
                    },
                    {
                        "fromPort": 22,
                        "toPort": 22,
                        "protocol": "tcp",
                        "accessFrom": "Anywhere (0.0.0.0/0)",
                        "accessType": "public",
                        "commonName": "",
                        "accessDirection": "inbound"
                    },
                    {
                        "fromPort": 443,
                        "toPort": 443,
                        "protocol": "tcp",
                        "accessFrom": "Anywhere (0.0.0.0/0)",
                        "accessType": "public",
                        "commonName": "",
                        "accessDirection": "inbound"
                    }
                ]
            },
            "state": {
                "code": 16,
                "name": "running"
            },
            "username": "bitnami",
            "sshKeyName": "MyTestKey"
        }
    ]
}
```
+  Untuk detail API, lihat [GetInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-instances.html)di *Referensi AWS CLI Perintah*. 

### `get-key-pair`
<a name="lightsail_GetKeyPair_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-key-pair`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang key pair**  
`get-key-pair`Contoh berikut menampilkan rincian tentang key pair yang ditentukan.  

```
aws lightsail get-key-pair \
    --key-pair-name MyKey1
```
Output:  

```
{
    "keyPair": {
        "name": "MyKey1",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:KeyPair/19a4efdf-3054-43d6-91fd-eEXAMPLE21bf",
        "supportCode": "6EXAMPLE3362/MyKey1",
        "createdAt": 1571255026.975,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "resourceType": "KeyPair",
        "tags": [],
        "fingerprint": "00:11:22:33:44:55:66:77:88:99:aa:bb:cc:dd:ee:ff:gg:hh:ii:jj"
    }
}
```
+  Untuk detail API, lihat [GetKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-key-pair.html)di *Referensi AWS CLI Perintah*. 

### `get-key-pairs`
<a name="lightsail_GetKeyPairs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-key-pairs`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua pasangan kunci**  
`get-key-pairs`Contoh berikut menampilkan rincian tentang semua pasangan kunci di AWS Region dikonfigurasi.  

```
aws lightsail get-key-pairs
```
Output:  

```
{
    "keyPairs": [
        {
            "name": "MyKey1",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:KeyPair/19a4efdf-3054-43d6-91fd-eEXAMPLE21bf",
            "supportCode": "6EXAMPLE3362/MyKey1",
            "createdAt": 1571255026.975,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "KeyPair",
            "tags": [],
            "fingerprint": "00:11:22:33:44:55:66:77:88:99:aa:bb:cc:dd:ee:ff:gg:hh:ii:jj"
        }
    ]
}
```
+  Untuk detail API, lihat [GetKeyPairs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-key-pairs.html)di *Referensi AWS CLI Perintah*. 

### `get-load-balancer-tls-certificates`
<a name="lightsail_GetLoadBalancerTlsCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-load-balancer-tls-certificates`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sertifikat TLS untuk penyeimbang beban**  
`get-load-balancer-tls-certificates`Contoh berikut menampilkan rincian tentang sertifikat TLS untuk penyeimbang beban yang ditentukan.  

```
aws lightsail get-load-balancer-tls-certificates \
    --load-balancer-name LoadBalancer-1
```
Output:  

```
{
    "tlsCertificates": [
        {
            "name": "example-com",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:LoadBalancerTlsCertificate/d7bf4643-6a02-4cd4-b3c4-fEXAMPLE9b4d",
            "supportCode": "6EXAMPLE3362/arn:aws:acm:us-west-2:333322221111:certificate/9af8e32c-a54e-4a67-8c63-cEXAMPLEb314",
            "createdAt": 1571678025.3,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "LoadBalancerTlsCertificate",
            "loadBalancerName": "LoadBalancer-1",
            "isAttached": false,
            "status": "ISSUED",
            "domainName": "example.com",
            "domainValidationRecords": [
                {
                    "name": "_dEXAMPLE4ede046a0319eb44a4eb3cbc.example.com.",
                    "type": "CNAME",
                    "value": "_bEXAMPLE0899fb7b6bf79d9741d1a383.hkvuiqjoua.acm-validations.aws.",
                    "validationStatus": "SUCCESS",
                    "domainName": "example.com"
                }
            ],
            "issuedAt": 1571678070.0,
            "issuer": "Amazon",
            "keyAlgorithm": "RSA-2048",
            "notAfter": 1605960000.0,
            "notBefore": 1571616000.0,
            "serial": "00:11:22:33:44:55:66:77:88:99:aa:bb:cc:dd:ee:ff",
            "signatureAlgorithm": "SHA256WITHRSA",
            "subject": "CN=example.com",
            "subjectAlternativeNames": [
                "example.com"
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [GetLoadBalancerTlsCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-load-balancer-tls-certificates.html)di *Referensi AWS CLI Perintah*. 

### `get-load-balancer`
<a name="lightsail_GetLoadBalancer_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-load-balancer`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang penyeimbang beban**  
`get-load-balancer`Contoh berikut menampilkan rincian tentang penyeimbang beban yang ditentukan.  

```
aws lightsail get-load-balancer \
    --load-balancer-name LoadBalancer-1
```
Output:  

```
{
    "loadBalancer": {
        "name": "LoadBalancer-1",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:LoadBalancer/40486b2b-1ad0-4152-83e4-cEXAMPLE6f4b",
        "supportCode": "6EXAMPLE3362/arn:aws:elasticloadbalancing:us-west-2:333322221111:loadbalancer/app/bEXAMPLE128cb59d86f946a9395dd304/1EXAMPLE8dd9d77e",
        "createdAt": 1571677906.723,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "resourceType": "LoadBalancer",
        "tags": [],
        "dnsName": "bEXAMPLE128cb59d86f946a9395dd304-1486911371.us-west-2.elb.amazonaws.com",
        "state": "active",
        "protocol": "HTTP",
        "publicPorts": [
            80
        ],
        "healthCheckPath": "/",
        "instancePort": 80,
        "instanceHealthSummary": [
            {
                "instanceName": "MEAN-3",
                "instanceHealth": "healthy"
            },
            {
                "instanceName": "MEAN-1",
                "instanceHealth": "healthy"
            },
            {
                "instanceName": "MEAN-2",
                "instanceHealth": "healthy"
            }
        ],
        "tlsCertificateSummaries": [
            {
                "name": "example-com",
                "isAttached": false
            }
        ],
        "configurationOptions": {
            "SessionStickinessEnabled": "false",
            "SessionStickiness_LB_CookieDurationSeconds": "86400"
        }
    }
}
```
+  Untuk detail API, lihat [GetLoadBalancer](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-load-balancer.html)di *Referensi AWS CLI Perintah*. 

### `get-load-balancers`
<a name="lightsail_GetLoadBalancers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-load-balancers`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua penyeimbang beban**  
`get-load-balancers`Contoh berikut menampilkan detail tentang semua penyeimbang beban di Wilayah yang dikonfigurasi AWS .  

```
aws lightsail get-load-balancers
```
Output:  

```
{
    "loadBalancers": [
        {
            "name": "LoadBalancer-1",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:LoadBalancer/40486b2b-1ad0-4152-83e4-cEXAMPLE6f4b",
            "supportCode": "6EXAMPLE3362/arn:aws:elasticloadbalancing:us-west-2:333322221111:loadbalancer/app/bEXAMPLE128cb59d86f946a9395dd304/1EXAMPLE8dd9d77e",
            "createdAt": 1571677906.723,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "LoadBalancer",
            "tags": [],
            "dnsName": "bEXAMPLE128cb59d86f946a9395dd304-1486911371.us-west-2.elb.amazonaws.com",
            "state": "active",
            "protocol": "HTTP",
            "publicPorts": [
                80
            ],
            "healthCheckPath": "/",
            "instancePort": 80,
            "instanceHealthSummary": [
                {
                    "instanceName": "MEAN-3",
                    "instanceHealth": "healthy"
                },
                {
                    "instanceName": "MEAN-1",
                    "instanceHealth": "healthy"
                },
                {
                    "instanceName": "MEAN-2",
                    "instanceHealth": "healthy"
                }
            ],
            "tlsCertificateSummaries": [
                {
                    "name": "example-com",
                    "isAttached": false
                }
            ],
            "configurationOptions": {
                "SessionStickinessEnabled": "false",
                "SessionStickiness_LB_CookieDurationSeconds": "86400"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [GetLoadBalancers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-load-balancers.html)di *Referensi AWS CLI Perintah*. 

### `get-operation`
<a name="lightsail_GetOperation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-operation`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang satu operasi**  
`get-operation`Contoh berikut menampilkan rincian tentang operasi yang ditentukan.  

```
aws lightsail get-operation \
    --operation-id e5700e8a-daf2-4b49-bc01-3EXAMPLE910a
```
Output:  

```
{
    "operation": {
        "id": "e5700e8a-daf2-4b49-bc01-3EXAMPLE910a",
        "resourceName": "Instance-1",
        "resourceType": "Instance",
        "createdAt": 1571679872.404,
        "location": {
            "availabilityZone": "us-west-2a",
            "regionName": "us-west-2"
        },
        "isTerminal": true,
        "operationType": "CreateInstance",
        "status": "Succeeded",
        "statusChangedAt": 1571679890.304
    }
}
```
+  Untuk detail API, lihat [GetOperation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-operation.html)di *Referensi AWS CLI Perintah*. 

### `get-operations-for-resource`
<a name="lightsail_GetOperationsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-operations-for-resource`.

**AWS CLI**  
**Untuk mendapatkan semua operasi untuk sumber daya**  
`get-operations-for-resource`Contoh berikut menampilkan rincian tentang semua operasi untuk sumber daya yang ditentukan.  

```
aws lightsail get-operations-for-resource \
    --resource-name LoadBalancer-1
```
Output:  

```
{
    "operations": [
        {
            "id": "e2973046-43f8-4252-a4b4-9EXAMPLE69ce",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1571678786.071,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "MEAN-1",
            "operationType": "DetachInstancesFromLoadBalancer",
            "status": "Succeeded",
            "statusChangedAt": 1571679087.57
        },
        {
            "id": "2d742a18-0e7f-48c8-9705-3EXAMPLEf98a",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1571678782.784,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "MEAN-1",
            "operationType": "AttachInstancesToLoadBalancer",
            "status": "Succeeded",
            "statusChangedAt": 1571678798.465
        },
        {
            "id": "6c700fcc-4246-40ab-952b-1EXAMPLEdac2",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1571678775.297,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "MEAN-3",
            "operationType": "AttachInstancesToLoadBalancer",
            "status": "Succeeded",
            "statusChangedAt": 1571678842.806
        },
        ...
        }
    ]
}
```
+  Untuk detail API, lihat [GetOperationsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-operations-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `get-operations`
<a name="lightsail_GetOperations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-operations`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua operasi**  
`get-operations`Contoh berikut menampilkan rincian tentang semua operasi di AWS Wilayah dikonfigurasi.  

```
aws lightsail get-operations
```
Output:  

```
{
    "operations": [
        {
            "id": "e5700e8a-daf2-4b49-bc01-3EXAMPLE910a",
            "resourceName": "Instance-1",
            "resourceType": "Instance",
            "createdAt": 1571679872.404,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "CreateInstance",
            "status": "Succeeded",
            "statusChangedAt": 1571679890.304
        },
        {
            "id": "701a3339-930e-4914-a9f9-7EXAMPLE68d7",
            "resourceName": "WordPress-1",
            "resourceType": "Instance",
            "createdAt": 1571678786.072,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "LoadBalancer-1",
            "operationType": "DetachInstancesFromLoadBalancer",
            "status": "Succeeded",
            "statusChangedAt": 1571679086.399
        },
        {
            "id": "e2973046-43f8-4252-a4b4-9EXAMPLE69ce",
            "resourceName": "LoadBalancer-1",
            "resourceType": "LoadBalancer",
            "createdAt": 1571678786.071,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "WordPress-1",
            "operationType": "DetachInstancesFromLoadBalancer",
            "status": "Succeeded",
            "statusChangedAt": 1571679087.57
        },
        ...
        }
    ]
}
```
+  Untuk detail API, lihat [GetOperations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-operations.html)di *Referensi AWS CLI Perintah*. 

### `get-regions`
<a name="lightsail_GetRegions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-regions`.

**AWS CLI**  
**Untuk mendapatkan semua AWS Wilayah untuk Amazon Lightsail**  
`get-regions`Contoh berikut menampilkan detail tentang semua AWS Wilayah untuk Amazon Lightsail.  

```
aws lightsail get-regions
```
Output:  

```
{
    "regions": [
        {
            "continentCode": "NA",
            "description": "This region is recommended to serve users in the eastern United States",
            "displayName": "Virginia",
            "name": "us-east-1",
            "availabilityZones": [],
            "relationalDatabaseAvailabilityZones": []
        },
        {
            "continentCode": "NA",
            "description": "This region is recommended to serve users in the eastern United States",
            "displayName": "Ohio",
            "name": "us-east-2",
            "availabilityZones": [],
            "relationalDatabaseAvailabilityZones": []
        },
        {
            "continentCode": "NA",
            "description": "This region is recommended to serve users in the northwestern United States, Alaska, and western Canada",
            "displayName": "Oregon",
            "name": "us-west-2",
            "availabilityZones": [],
            "relationalDatabaseAvailabilityZones": []
        },
        ...
        }
    ]
}
```
+  Untuk detail API, lihat [GetRegions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-regions.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-blueprints`
<a name="lightsail_GetRelationalDatabaseBlueprints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-blueprints`.

**AWS CLI**  
**Untuk mendapatkan cetak biru untuk database relasional baru**  
`get-relational-database-blueprints`Contoh berikut menampilkan detail tentang semua cetak biru database relasional yang tersedia yang dapat digunakan untuk membuat database relasional baru di Amazon Lightsail.  

```
aws lightsail get-relational-database-blueprints
```
Output:  

```
{
    "blueprints": [
        {
            "blueprintId": "mysql_5_6",
            "engine": "mysql",
            "engineVersion": "5.6.44",
            "engineDescription": "MySQL Community Edition",
            "engineVersionDescription": "MySQL 5.6.44",
            "isEngineDefault": false
        },
        {
            "blueprintId": "mysql_5_7",
            "engine": "mysql",
            "engineVersion": "5.7.26",
            "engineDescription": "MySQL Community Edition",
            "engineVersionDescription": "MySQL 5.7.26",
            "isEngineDefault": true
        },
        {
            "blueprintId": "mysql_8_0",
            "engine": "mysql",
            "engineVersion": "8.0.16",
            "engineDescription": "MySQL Community Edition",
            "engineVersionDescription": "MySQL 8.0.16",
            "isEngineDefault": false
        },
        {
            "blueprintId": "postgres_9_6",
            "engine": "postgres",
            "engineVersion": "9.6.15",
            "engineDescription": "PostgreSQL",
            "engineVersionDescription": "PostgreSQL 9.6.15-R1",
            "isEngineDefault": false
        },
        {
            "blueprintId": "postgres_10",
            "engine": "postgres",
            "engineVersion": "10.10",
            "engineDescription": "PostgreSQL",
            "engineVersionDescription": "PostgreSQL 10.10-R1",
            "isEngineDefault": false
        },
        {
            "blueprintId": "postgres_11",
            "engine": "postgres",
            "engineVersion": "11.5",
            "engineDescription": "PostgreSQL",
            "engineVersionDescription": "PostgreSQL 11.5-R1",
            "isEngineDefault": true
        }
    ]
}
```
+  Untuk detail API, lihat [GetRelationalDatabaseBlueprints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-blueprints.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-bundles`
<a name="lightsail_GetRelationalDatabaseBundles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-bundles`.

**AWS CLI**  
**Untuk mendapatkan bundel untuk database relasional baru**  
`get-relational-database-bundles`Contoh berikut menampilkan detail tentang semua bundel database relasional yang tersedia yang dapat digunakan untuk membuat database relasional baru di Amazon Lightsail. Perhatikan bahwa respon tidak termasuk bundel tidak aktif karena `--include-inactive` bendera tidak ditentukan dalam perintah. Anda tidak dapat menggunakan bundel yang tidak aktif untuk membuat database relasional baru.  

```
aws lightsail get-relational-database-bundles
```
Output:  

```
{
    "bundles": [
        {
            "bundleId": "micro_2_0",
            "name": "Micro",
            "price": 15.0,
            "ramSizeInGb": 1.0,
            "diskSizeInGb": 40,
            "transferPerMonthInGb": 100,
            "cpuCount": 2,
            "isEncrypted": true,
            "isActive": true
        },
        {
            "bundleId": "micro_ha_2_0",
            "name": "Micro with High Availability",
            "price": 30.0,
            "ramSizeInGb": 1.0,
            "diskSizeInGb": 40,
            "transferPerMonthInGb": 100,
            "cpuCount": 2,
            "isEncrypted": true,
            "isActive": true
        },
        {
            "bundleId": "small_2_0",
            "name": "Small",
            "price": 30.0,
            "ramSizeInGb": 2.0,
            "diskSizeInGb": 80,
            "transferPerMonthInGb": 100,
            "cpuCount": 2,
            "isEncrypted": true,
            "isActive": true
        },
        {
            "bundleId": "small_ha_2_0",
            "name": "Small with High Availability",
            "price": 60.0,
            "ramSizeInGb": 2.0,
            "diskSizeInGb": 80,
            "transferPerMonthInGb": 100,
            "cpuCount": 2,
            "isEncrypted": true,
            "isActive": true
        },
        {
            "bundleId": "medium_2_0",
            "name": "Medium",
            "price": 60.0,
            "ramSizeInGb": 4.0,
            "diskSizeInGb": 120,
            "transferPerMonthInGb": 100,
            "cpuCount": 2,
            "isEncrypted": true,
            "isActive": true
        },
        {
            "bundleId": "medium_ha_2_0",
            "name": "Medium with High Availability",
            "price": 120.0,
            "ramSizeInGb": 4.0,
            "diskSizeInGb": 120,
            "transferPerMonthInGb": 100,
            "cpuCount": 2,
            "isEncrypted": true,
            "isActive": true
        },
        {
            "bundleId": "large_2_0",
            "name": "Large",
            "price": 115.0,
            "ramSizeInGb": 8.0,
            "diskSizeInGb": 240,
            "transferPerMonthInGb": 200,
            "cpuCount": 2,
            "isEncrypted": true,
            "isActive": true
        },
        {
            "bundleId": "large_ha_2_0",
            "name": "Large with High Availability",
            "price": 230.0,
            "ramSizeInGb": 8.0,
            "diskSizeInGb": 240,
            "transferPerMonthInGb": 200,
            "cpuCount": 2,
            "isEncrypted": true,
            "isActive": true
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat database di Amazon Lightsail di Panduan](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-creating-a-database) Pengembang Amazon *Lightsail*.  
+  Untuk detail API, lihat [GetRelationalDatabaseBundles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-bundles.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-events`
<a name="lightsail_GetRelationalDatabaseEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-events`.

**AWS CLI**  
**Untuk mendapatkan acara untuk database relasional**  
`get-relational-database-events`Contoh berikut menampilkan rincian tentang peristiwa dalam 17 jam terakhir (1020 menit) untuk database relasional yang ditentukan.  

```
aws lightsail get-relational-database-events \
    --relational-database-name Database-1 \
    --duration-in-minutes 1020
```
Output:  

```
{
    "relationalDatabaseEvents": [
        {
            "resource": "Database-1",
            "createdAt": 1571654146.553,
            "message": "Backing up Relational Database",
            "eventCategories": [
                "backup"
            ]
        },
        {
            "resource": "Database-1",
            "createdAt": 1571654249.98,
            "message": "Finished Relational Database backup",
            "eventCategories": [
                "backup"
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [GetRelationalDatabaseEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-events.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-log-events`
<a name="lightsail_GetRelationalDatabaseLogEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-log-events`.

**AWS CLI**  
**Untuk mendapatkan peristiwa log untuk database relasional**  
`get-relational-database-log-events`Contoh berikut menampilkan rincian tentang log yang ditentukan antara `1570733176` dan `1571597176` untuk database `Database1` relasional. Informasi yang dikembalikan dikonfigurasi untuk memulai`head`.  
Kami menyarankan Anda menggunakan konverter waktu unix untuk mengidentifikasi waktu mulai dan akhir.  

```
aws lightsail get-relational-database-log-events \
    --relational-database-name Database1 \
    --log-stream-name error \
    --start-from-head \
    --start-time 1570733176 \
    --end-time 1571597176
```
Output:  

```
{
    "resourceLogEvents": [
        {
            "createdAt": 1570820267.0,
            "message": "2019-10-11 18:57:47 20969 [Warning] IP address '192.0.2.0' could not be resolved: Name or service not known"
        },
        {
            "createdAt": 1570860974.0,
            "message": "2019-10-12 06:16:14 20969 [Warning] IP address '8192.0.2.0' could not be resolved: Temporary failure in name resolution"
        },
        {
            "createdAt": 1570860977.0,
            "message": "2019-10-12 06:16:17 20969 [Warning] IP address '192.0.2.0' could not be resolved: Temporary failure in name resolution"
        },
        {
            "createdAt": 1570860979.0,
            "message": "2019-10-12 06:16:19 20969 [Warning] IP address '192.0.2.0' could not be resolved: Temporary failure in name resolution"
        },
        {
            "createdAt": 1570860981.0,
            "message": "2019-10-12 06:16:21 20969 [Warning] IP address '192.0.2.0' could not be resolved: Temporary failure in name resolution"
        },
        {
            "createdAt": 1570860982.0,
            "message": "2019-10-12 06:16:22 20969 [Warning] IP address '192.0.2.0' could not be resolved: Temporary failure in name resolution"
        },
        {
            "createdAt": 1570860984.0,
            "message": "2019-10-12 06:16:24 20969 [Warning] IP address '192.0.2.0' could not be resolved: Temporary failure in name resolution"
        },
        {
            "createdAt": 1570860986.0,
            "message": "2019-10-12 06:16:26 20969 [Warning] IP address '192.0.2.0' could not be resolved: Temporary failure in name resolution"
        },
        ...
        }
    ],
    "nextBackwardToken": "eEXAMPLEZXJUZXh0IjoiZnRWb3F3cUpRSlQ5NndMYThxelRUZlFhR3J6c2dKWEEvM2kvajZMZzVVVWpqRDN0YjFXTjNrak5pRk9iVFRZdjkwVGlpZGw5NFJGSFRQTEdJSjdpQnFCRk5CZFJlYTZaSXpScStuZjJEYXhqM2grUFVJOEpIYlU5YWJ2QitvQWN5cEFyVUo3VDk1QWY3bVF6MEwvcVovVldZdGc9Iiwibm9uY2UiOiJBNHpzdWMvUkZZKzRvUzhEIiwiY2lwaGVyIjoiQUVTL0dDTS9Ob1BhZGEXAMPLEQ==",
    "nextForwardToken": "eEXAMPLEZXJUZXh0IjoiT09Lb0Z6ZFRJbHhaNEQ5N2tPbkkwRmwwNUxPZjFTbFFwUklQbzlSaWgvMWVXbEk4aG56VHg4bW1Gb3grbDVodUVNZEdiZXN0TzVYcjlLK1FUdFB2RlJLS2FMcU05WkN3Rm1uVzBkOFpDR2g0b1BBVlg2NVFGNDNPazZzRXJieHRuU0xzdkRNTkFUMTZibU9HM2YyaGxiS0hUUDA9Iiwibm9uY2UiOiJFQmI4STQ3cU5aWXNXZ0g4IiwiY2lwaGVyIjoiQUVTL0dDTS9Ob1BhZGEXAMPLEQ=="
}
```
+  Untuk detail API, lihat [GetRelationalDatabaseLogEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-log-events.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-log-streams`
<a name="lightsail_GetRelationalDatabaseLogStreams_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-log-streams`.

**AWS CLI**  
**Untuk mendapatkan aliran log untuk database relasional**  
`get-relational-database-log-streams`Contoh berikut mengembalikan semua aliran log yang tersedia untuk database relasional tertentu.  

```
aws lightsail get-relational-database-log-streams \
--relational-database-name Database1
```
Output:  

```
{
    "logStreams": [
        "audit",
        "error",
        "general",
        "slowquery"
    ]
}
```
+  Untuk detail API, lihat [GetRelationalDatabaseLogStreams](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-log-streams.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-master-user-password`
<a name="lightsail_GetRelationalDatabaseMasterUserPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-master-user-password`.

**AWS CLI**  
**Untuk mendapatkan kata sandi pengguna utama untuk database relasional**  
`get-relational-database-master-user-password`Contoh berikut mengembalikan informasi tentang password pengguna master untuk database relasional tertentu.  

```
aws lightsail get-relational-database-master-user-password \
    --relational-database-name Database-1
```
Output:  

```
{
    "masterUserPassword": "VEXAMPLEec.9qvx,_t<)Wkf)kwboM,>2",
    "createdAt": 1571259453.959
}
```
+  Untuk detail API, lihat [GetRelationalDatabaseMasterUserPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-master-user-password.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-metric-data`
<a name="lightsail_GetRelationalDatabaseMetricData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-metric-data`.

**AWS CLI**  
**Untuk mendapatkan data metrik untuk database relasional**  
`get-relational-database-metric-data`Contoh berikut mengembalikan jumlah hitungan metrik `DatabaseConnections` selama periode 24 jam (`86400`detik) antara `1570733176` dan `1571597176` untuk database `Database1` relasional.  
Kami menyarankan Anda menggunakan konverter waktu unix untuk mengidentifikasi waktu mulai dan akhir.  

```
aws lightsail get-relational-database-metric-data \
    --relational-database-name Database1 \
    --metric-name DatabaseConnections \
    --period 86400 \
    --start-time 1570733176 \
    --end-time 1571597176 \
    --unit Count \
    --statistics Sum
```
Output:  

```
{
    "metricName": "DatabaseConnections",
    "metricData": [
        {
            "sum": 1.0,
            "timestamp": 1571510760.0,
            "unit": "Count"
        },
        {
            "sum": 1.0,
            "timestamp": 1570733160.0,
            "unit": "Count"
        },
        {
            "sum": 1.0,
            "timestamp": 1570992360.0,
            "unit": "Count"
        },
        {
            "sum": 0.0,
            "timestamp": 1571251560.0,
            "unit": "Count"
        },
        {
            "sum": 721.0,
            "timestamp": 1570819560.0,
            "unit": "Count"
        },
        {
            "sum": 1.0,
            "timestamp": 1571078760.0,
            "unit": "Count"
        },
        {
            "sum": 2.0,
            "timestamp": 1571337960.0,
            "unit": "Count"
        },
        {
            "sum": 684.0,
            "timestamp": 1570905960.0,
            "unit": "Count"
        },
        {
            "sum": 0.0,
            "timestamp": 1571165160.0,
            "unit": "Count"
        },
        {
            "sum": 1.0,
            "timestamp": 1571424360.0,
            "unit": "Count"
        }
    ]
}
```
+  Untuk detail API, lihat [GetRelationalDatabaseMetricData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-metric-data.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-parameters`
<a name="lightsail_GetRelationalDatabaseParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-parameters`.

**AWS CLI**  
**Untuk mendapatkan parameter untuk database relasional**  
`get-relational-database-parameters`Contoh berikut mengembalikan informasi tentang semua parameter yang tersedia untuk database relasional tertentu.  

```
aws lightsail get-relational-database-parameters \
    --relational-database-name Database-1
```
Output:  

```
{
    "parameters": [
        {
            "allowedValues": "0,1",
            "applyMethod": "pending-reboot",
            "applyType": "dynamic",
            "dataType": "boolean",
            "description": "Automatically set all granted roles as active after the user has authenticated successfully.",
            "isModifiable": true,
            "parameterName": "activate_all_roles_on_login",
            "parameterValue": "0"
        },
        {
            "allowedValues": "0,1",
            "applyMethod": "pending-reboot",
            "applyType": "static",
            "dataType": "boolean",
            "description": "Controls whether user-defined functions that have only an xxx symbol for the main function can be loaded",
            "isModifiable": false,
            "parameterName": "allow-suspicious-udfs"
        },
        {
            "allowedValues": "0,1",
            "applyMethod": "pending-reboot",
            "applyType": "dynamic",
            "dataType": "boolean",
            "description": "Sets the autocommit mode",
            "isModifiable": true,
            "parameterName": "autocommit"
        },
        {
            "allowedValues": "0,1",
            "applyMethod": "pending-reboot",
            "applyType": "static",
            "dataType": "boolean",
            "description": "Controls whether the server autogenerates SSL key and certificate files in the data directory, if they do not already exist.",
            "isModifiable": false,
            "parameterName": "auto_generate_certs"
        },
        ...
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memperbarui parameter database di Amazon Lightsail](https://lightsail.aws.amazon.com/ls/docs/en_us/articles/amazon-lightsail-updating-database-parameters) dalam Panduan Pengembang *Lightsail*.  
+  Untuk detail API, lihat [GetRelationalDatabaseParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-parameters.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-snapshot`
<a name="lightsail_GetRelationalDatabaseSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-snapshot`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang snapshot database relasional**  
`get-relational-database-snapshot`Contoh berikut menampilkan rincian tentang snapshot database relasional yang ditentukan.  

```
aws lightsail get-relational-database-snapshot \
    --relational-database-snapshot-name Database-1-1571350042
```
Output:  

```
{
    "relationalDatabaseSnapshot": {
        "name": "Database-1-1571350042",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabaseSnapshot/0389bbad-4b85-4c3d-9EXAMPLEaee3643d2",
        "supportCode": "6EXAMPLE3362/ls-8EXAMPLE2ba7ad041451946fafc2ad19cfbd9eb2",
        "createdAt": 1571350046.238,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "resourceType": "RelationalDatabaseSnapshot",
        "tags": [],
        "engine": "mysql",
        "engineVersion": "8.0.16",
        "sizeInGb": 40,
        "state": "available",
        "fromRelationalDatabaseName": "Database-1",
        "fromRelationalDatabaseArn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabase/7ea932b1-b85a-4bd5-9b3e-bEXAMPLE8cc4",
        "fromRelationalDatabaseBundleId": "micro_1_0",
        "fromRelationalDatabaseBlueprintId": "mysql_8_0"
    }
}
```
+  Untuk detail API, lihat [GetRelationalDatabaseSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database-snapshots`
<a name="lightsail_GetRelationalDatabaseSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database-snapshots`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua snapshot database relasional**  
`get-relational-database-snapshots`Contoh berikut menampilkan rincian tentang semua snapshot database relasional di Wilayah dikonfigurasi AWS .  

```
aws lightsail get-relational-database-snapshots
```
Output:  

```
{
    "relationalDatabaseSnapshots": [
        {
            "name": "Database-1-1571350042",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabaseSnapshot/0389bbad-4b85-4c3d-9861-6EXAMPLE43d2",
            "supportCode": "6EXAMPLE3362/ls-8EXAMPLE2ba7ad041451946fafc2ad19cfbd9eb2",
            "createdAt": 1571350046.238,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "RelationalDatabaseSnapshot",
            "tags": [],
            "engine": "mysql",
            "engineVersion": "8.0.16",
            "sizeInGb": 40,
            "state": "available",
            "fromRelationalDatabaseName": "Database-1",
            "fromRelationalDatabaseArn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabase/7ea932b1-b85a-4bd5-9b3e-bEXAMPLE8cc4",
            "fromRelationalDatabaseBundleId": "micro_1_0",
            "fromRelationalDatabaseBlueprintId": "mysql_8_0"
        },
        {
            "name": "Database1-Console",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabaseSnapshot/8b94136e-06ec-4b1a-a3fb-5EXAMPLEe1e9",
            "supportCode": "6EXAMPLE3362/ls-9EXAMPLE14b000d34c8d1c432734e137612d5b5c",
            "createdAt": 1571249981.025,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "RelationalDatabaseSnapshot",
            "tags": [
                {
                    "key": "test"
                }
            ],
            "engine": "mysql",
            "engineVersion": "5.6.44",
            "sizeInGb": 40,
            "state": "available",
            "fromRelationalDatabaseName": "Database1",
            "fromRelationalDatabaseArn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabase/a6161cb7-4535-4f16-9dcf-8EXAMPLE3d4e",
            "fromRelationalDatabaseBundleId": "micro_1_0",
            "fromRelationalDatabaseBlueprintId": "mysql_5_6"
        }
    ]
}
```
+  Untuk detail API, lihat [GetRelationalDatabaseSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-database`
<a name="lightsail_GetRelationalDatabase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-database`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang database relasional**  
`get-relational-database`Contoh berikut menampilkan rincian tentang database relasional tertentu.  

```
aws lightsail get-relational-database \
    --relational-database-name Database-1
```
Output:  

```
{
    "relationalDatabase": {
        "name": "Database-1",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabase/7ea932b1-b85a-4bd5-9b3e-bEXAMPLE8cc4",
        "supportCode": "6EXAMPLE3362/ls-9EXAMPLE8ad863723b62cc8901a8aa6e794ae0d2",
        "createdAt": 1571259453.795,
        "location": {
            "availabilityZone": "us-west-2a",
            "regionName": "us-west-2"
        },
        "resourceType": "RelationalDatabase",
        "tags": [],
        "relationalDatabaseBlueprintId": "mysql_8_0",
        "relationalDatabaseBundleId": "micro_1_0",
        "masterDatabaseName": "dbmaster",
        "hardware": {
            "cpuCount": 1,
            "diskSizeInGb": 40,
            "ramSizeInGb": 1.0
        },
        "state": "available",
        "backupRetentionEnabled": false,
        "pendingModifiedValues": {},
        "engine": "mysql",
        "engineVersion": "8.0.16",
        "masterUsername": "dbmasteruser",
        "parameterApplyStatus": "in-sync",
        "preferredBackupWindow": "10:01-10:31",
        "preferredMaintenanceWindow": "sat:11:14-sat:11:44",
        "publiclyAccessible": true,
        "masterEndpoint": {
            "port": 3306,
            "address": "ls-9EXAMPLE8ad863723b62ccEXAMPLEa6e794ae0d2.czowadgeezqi.us-west-2.rds.amazonaws.com"
        },
        "pendingMaintenanceActions": []
    }
}
```
+  Untuk detail API, lihat [GetRelationalDatabase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-database.html)di *Referensi AWS CLI Perintah*. 

### `get-relational-databases`
<a name="lightsail_GetRelationalDatabases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-relational-databases`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua database relasional**  
`get-relational-databases`Contoh berikut menampilkan rincian tentang semua database relasional di Wilayah dikonfigurasi AWS .  

```
aws lightsail get-relational-databases
```
Output:  

```
{
    "relationalDatabases": [
        {
            "name": "MySQL",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabase/8529020c-3ab9-4d51-92af-5EXAMPLE8979",
            "supportCode": "6EXAMPLE3362/ls-3EXAMPLEa995d8c3b06b4501356e5f2f28e1aeba",
            "createdAt": 1554306019.155,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "resourceType": "RelationalDatabase",
            "tags": [],
            "relationalDatabaseBlueprintId": "mysql_8_0",
            "relationalDatabaseBundleId": "micro_1_0",
            "masterDatabaseName": "dbmaster",
            "hardware": {
                "cpuCount": 1,
                "diskSizeInGb": 40,
                "ramSizeInGb": 1.0
            },
            "state": "available",
            "backupRetentionEnabled": true,
            "pendingModifiedValues": {},
            "engine": "mysql",
            "engineVersion": "8.0.15",
            "latestRestorableTime": 1571686200.0,
            "masterUsername": "dbmasteruser",
            "parameterApplyStatus": "in-sync",
            "preferredBackupWindow": "07:51-08:21",
            "preferredMaintenanceWindow": "tue:12:18-tue:12:48",
            "publiclyAccessible": true,
            "masterEndpoint": {
                "port": 3306,
                "address": "ls-3EXAMPLEa995d8c3b06b4501356e5f2fEXAMPLEa.czowadgeezqi.us-west-2.rds.amazonaws.com"
            },
            "pendingMaintenanceActions": []
        },
        {
            "name": "Postgres",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:RelationalDatabase/e9780b6b-d0ab-4af2-85f1-1EXAMPLEac68",
            "supportCode": "6EXAMPLE3362/ls-3EXAMPLEb4fffb5cec056220c734713e14bd5fcd",
            "createdAt": 1554306000.814,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "resourceType": "RelationalDatabase",
            "tags": [],
            "relationalDatabaseBlueprintId": "postgres_11",
            "relationalDatabaseBundleId": "micro_1_0",
            "masterDatabaseName": "dbmaster",
            "hardware": {
                "cpuCount": 1,
                "diskSizeInGb": 40,
                "ramSizeInGb": 1.0
            },
            "state": "available",
            "backupRetentionEnabled": true,
            "pendingModifiedValues": {},
            "engine": "postgres",
            "engineVersion": "11.1",
            "latestRestorableTime": 1571686339.0,
            "masterUsername": "dbmasteruser",
            "parameterApplyStatus": "in-sync",
            "preferredBackupWindow": "06:19-06:49",
            "preferredMaintenanceWindow": "sun:10:19-sun:10:49",
            "publiclyAccessible": false,
            "masterEndpoint": {
                "port": 5432,
                "address": "ls-3EXAMPLEb4fffb5cec056220c734713eEXAMPLEd.czowadgeezqi.us-west-2.rds.amazonaws.com"
            },
            "pendingMaintenanceActions": []
        }
    ]
}
```
+  Untuk detail API, lihat [GetRelationalDatabases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-relational-databases.html)di *Referensi AWS CLI Perintah*. 

### `get-static-ip`
<a name="lightsail_GetStaticIp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-static-ip`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang IP statis**  
`get-static-ip`Contoh berikut menampilkan rincian tentang IP statis yang ditentukan.  

```
aws lightsail get-static-ip \
    --static-ip-name StaticIp-1
```
Output:  

```
{
    "staticIp": {
        "name": "StaticIp-1",
        "arn": "arn:aws:lightsail:us-west-2:111122223333:StaticIp/2257cd76-1f0e-4ac0-82e2-2EXAMPLE23ad",
        "supportCode": "6EXAMPLE3362/192.0.2.0",
        "createdAt": 1571071325.076,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "resourceType": "StaticIp",
        "ipAddress": "192.0.2.0",
        "isAttached": false
    }
}
```
+  Untuk detail API, lihat [GetStaticIp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-static-ip.html)di *Referensi AWS CLI Perintah*. 

### `get-static-ips`
<a name="lightsail_GetStaticIps_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-static-ips`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang semua statis IPs**  
`get-static-ips`Contoh berikut menampilkan rincian tentang semua statis IPs di AWS Region dikonfigurasi.  

```
aws lightsail get-static-ips
```
Output:  

```
{
    "staticIps": [
        {
            "name": "StaticIp-1",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:StaticIp/2257cd76-1f0e-4ac0-8EXAMPLE16f9423ad",
            "supportCode": "6EXAMPLE3362/192.0.2.0",
            "createdAt": 1571071325.076,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "StaticIp",
            "ipAddress": "192.0.2.0",
            "isAttached": false
        },
        {
            "name": "StaticIP-2",
            "arn": "arn:aws:lightsail:us-west-2:111122223333:StaticIp/c61edb40-e5f0-4fd6-ae7c-8EXAMPLE19f8",
            "supportCode": "6EXAMPLE3362/192.0.2.2",
            "createdAt": 1568305385.681,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "resourceType": "StaticIp",
            "ipAddress": "192.0.2.2",
            "attachedTo": "WordPress-1",
            "isAttached": true
        }
    ]
}
```
+  Untuk detail API, lihat [GetStaticIps](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/get-static-ips.html)di *Referensi AWS CLI Perintah*. 

### `is-vpc-peered`
<a name="lightsail_IsVpcPeered_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`is-vpc-peered`.

**AWS CLI**  
**Untuk mengidentifikasi apakah cloud pribadi virtual Amazon Lightsail Anda diintip**  
`is-vpc-peered`Contoh berikut mengembalikan status peering Amazon Lightsail virtual private cloud (VPC) untuk Wilayah tertentu. AWS   

```
aws lightsail is-vpc-peered \
    --region us-west-2
```
Output:  

```
{
    "isPeered": true
}
```
+  Untuk detail API, lihat [IsVpcPeered](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/is-vpc-peered.html)di *Referensi AWS CLI Perintah*. 

### `open-instance-public-ports`
<a name="lightsail_OpenInstancePublicPorts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`open-instance-public-ports`.

**AWS CLI**  
**Untuk membuka port firewall untuk sebuah contoh**  
`open-instance-public-ports`Contoh berikut membuka port TCP 22 pada contoh yang ditentukan.  

```
aws lightsail open-instance-public-ports \
    --instance-name MEAN-2 \
    --port-info fromPort=22,protocol=TCP,toPort=22
```
Output:  

```
{
    "operation": {
        "id": "719744f0-a022-46f2-9f11-6EXAMPLE4642",
        "resourceName": "MEAN-2",
        "resourceType": "Instance",
        "createdAt": 1571072906.849,
        "location": {
            "availabilityZone": "us-west-2a",
            "regionName": "us-west-2"
        },
        "isTerminal": true,
        "operationDetails": "22/tcp",
        "operationType": "OpenInstancePublicPorts",
        "status": "Succeeded",
        "statusChangedAt": 1571072906.849
    }
}
```
+  Untuk detail API, lihat [OpenInstancePublicPorts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/open-instance-public-ports.html)di *Referensi AWS CLI Perintah*. 

### `peer-vpc`
<a name="lightsail_PeerVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`peer-vpc`.

**AWS CLI**  
**Untuk mengintip cloud pribadi virtual Amazon Lightsail**  
`peer-vpc`Contoh berikut mengintip Amazon Lightsail virtual private cloud (VPC) untuk Wilayah tertentu. AWS   

```
aws lightsail peer-vpc \
    --region us-west-2
```
Output:  

```
{
    "operation": {
        "id": "787e846a-54ac-497f-bce2-9EXAMPLE5d91",
        "resourceName": "vpc-0EXAMPLEa5261efb3",
        "resourceType": "PeeredVpc",
        "createdAt": 1571694233.104,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "isTerminal": true,
        "operationDetails": "vpc-e2b3eb9b",
        "operationType": "PeeredVpc",
        "status": "Succeeded",
        "statusChangedAt": 1571694233.104
    }
}
```
+  Untuk detail API, lihat [PeerVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/peer-vpc.html)di *Referensi AWS CLI Perintah*. 

### `reboot-instance`
<a name="lightsail_RebootInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-instance`.

**AWS CLI**  
**Untuk me-reboot sebuah instance**  
`reboot-instance`Contoh berikut reboot instance yang ditentukan.  

```
aws lightsail reboot-instance \
    --instance-name MEAN-1
```
Output:  

```
{
    "operations": [
        {
            "id": "2b679f1c-8b71-4bb4-8e97-8EXAMPLEed93",
            "resourceName": "MEAN-1",
            "resourceType": "Instance",
            "createdAt": 1571694445.49,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationDetails": "",
            "operationType": "RebootInstance",
            "status": "Succeeded",
            "statusChangedAt": 1571694445.49
        }
    ]
}
```
+  Untuk detail API, lihat [RebootInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/reboot-instance.html)di *Referensi AWS CLI Perintah*. 

### `reboot-relational-database`
<a name="lightsail_RebootRelationalDatabase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-relational-database`.

**AWS CLI**  
**Untuk me-reboot database relasional**  
`reboot-relational-database`Contoh berikut reboot database relasional tertentu.  

```
aws lightsail reboot-relational-database \
    --relational-database-name Database-1
```
Output:  

```
{
    "operations": [
        {
            "id": "e4c980c0-3137-496c-9c91-1EXAMPLEdec2",
            "resourceName": "Database-1",
            "resourceType": "RelationalDatabase",
            "createdAt": 1571694532.91,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationDetails": "",
            "operationType": "RebootRelationalDatabase",
            "status": "Started",
            "statusChangedAt": 1571694532.91
        }
    ]
}
```
+  Untuk detail API, lihat [RebootRelationalDatabase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/reboot-relational-database.html)di *Referensi AWS CLI Perintah*. 

### `release-static-ip`
<a name="lightsail_ReleaseStaticIp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`release-static-ip`.

**AWS CLI**  
**Untuk menghapus IP statis**  
`release-static-ip`Contoh berikut menghapus IP statis yang ditentukan.  

```
aws lightsail release-static-ip \
    --static-ip-name StaticIp-1
```
Output:  

```
{
    "operations": [
        {
            "id": "e374c002-dc6d-4c7f-919f-2EXAMPLE13ce",
            "resourceName": "StaticIp-1",
            "resourceType": "StaticIp",
            "createdAt": 1571694962.003,
            "location": {
                "availabilityZone": "all",
                "regionName": "us-west-2"
            },
            "isTerminal": true,
            "operationType": "ReleaseStaticIp",
            "status": "Succeeded",
            "statusChangedAt": 1571694962.003
        }
    ]
}
```
+  Untuk detail API, lihat [ReleaseStaticIp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/release-static-ip.html)di *Referensi AWS CLI Perintah*. 

### `start-instance`
<a name="lightsail_StartInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-instance`.

**AWS CLI**  
**Untuk memulai sebuah instance**  
`start-instance`Contoh berikut memulai contoh yang ditentukan.  

```
aws lightsail start-instance \
    --instance-name WordPress-1
```
Output:  

```
{
    "operations": [
        {
            "id": "f88d2a93-7cea-4165-afce-2d688cb18f23",
            "resourceName": "WordPress-1",
            "resourceType": "Instance",
            "createdAt": 1571695583.463,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "StartInstance",
            "status": "Started",
            "statusChangedAt": 1571695583.463
        }
    ]
}
```
+  Untuk detail API, lihat [StartInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/start-instance.html)di *Referensi AWS CLI Perintah*. 

### `start-relational-database`
<a name="lightsail_StartRelationalDatabase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-relational-database`.

**AWS CLI**  
**Untuk memulai database relasional**  
`start-relational-database`Contoh berikut memulai database relasional yang ditentukan.  

```
aws lightsail start-relational-database \
    --relational-database-name Database-1
```
Output:  

```
{
    "operations": [
        {
            "id": "4d5294ec-a38a-4fda-9e37-aEXAMPLE0d24",
            "resourceName": "Database-1",
            "resourceType": "RelationalDatabase",
            "createdAt": 1571695998.822,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "StartRelationalDatabase",
            "status": "Started",
            "statusChangedAt": 1571695998.822
        }
    ]
}
```
+  Untuk detail API, lihat [StartRelationalDatabase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/start-relational-database.html)di *Referensi AWS CLI Perintah*. 

### `stop-instance`
<a name="lightsail_StopInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-instance`.

**AWS CLI**  
**Untuk menghentikan sebuah instance**  
`stop-instance`Contoh berikut menghentikan contoh yang ditentukan.  

```
aws lightsail stop-instance \
--instance-name WordPress-1
```
Output:  

```
{
    "operations": [
        {
            "id": "265357e2-2943-4d51-888a-1EXAMPLE7585",
            "resourceName": "WordPress-1",
            "resourceType": "Instance",
            "createdAt": 1571695471.134,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "StopInstance",
            "status": "Started",
            "statusChangedAt": 1571695471.134
        }
    ]
}
```
+  Untuk detail API, lihat [StopInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/stop-instance.html)di *Referensi AWS CLI Perintah*. 

### `stop-relational-database`
<a name="lightsail_StopRelationalDatabase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-relational-database`.

**AWS CLI**  
**Untuk menghentikan database relasional**  
`stop-relational-database`Contoh berikut menghentikan database relasional yang ditentukan.  

```
aws lightsail stop-relational-database \
    --relational-database-name Database-1
```
Output:  

```
{
    "operations": [
        {
            "id": "cc559c19-4adb-41e4-b75b-5EXAMPLE4e61",
            "resourceName": "Database-1",
            "resourceType": "RelationalDatabase",
            "createdAt": 1571695526.29,
            "location": {
                "availabilityZone": "us-west-2a",
                "regionName": "us-west-2"
            },
            "isTerminal": false,
            "operationType": "StopRelationalDatabase",
            "status": "Started",
            "statusChangedAt": 1571695526.29
        }
    ]
}
```
+  Untuk detail API, lihat [StopRelationalDatabase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/stop-relational-database.html)di *Referensi AWS CLI Perintah*. 

### `unpeer-vpc`
<a name="lightsail_UnpeerVpc_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unpeer-vpc`.

**AWS CLI**  
**Untuk menghapus cloud pribadi virtual Amazon Lightsail**  
`unpeer-vpc`Contoh berikut mengacaukan cloud pribadi virtual Amazon Lightsail (VPC) untuk Wilayah yang ditentukan. AWS   

```
aws lightsail unpeer-vpc \
    --region us-west-2
```
Output:  

```
{
    "operation": {
        "id": "531aca64-7157-47ab-84c6-eEXAMPLEd898",
        "resourceName": "vpc-0EXAMPLEa5261efb3",
        "resourceType": "PeeredVpc",
        "createdAt": 1571694109.945,
        "location": {
            "availabilityZone": "all",
            "regionName": "us-west-2"
        },
        "isTerminal": true,
        "operationDetails": "vpc-e2b3eb9b",
        "operationType": "UnpeeredVpc",
        "status": "Succeeded",
        "statusChangedAt": 1571694109.945
    }
}
```
+  Untuk detail API, lihat [UnpeerVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/lightsail/unpeer-vpc.html)di *Referensi AWS CLI Perintah*. 

# Contoh Macie menggunakan AWS CLI
<a name="cli_2_macie2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Macie.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-buckets`
<a name="macie2_DescribeBuckets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-buckets`.

**AWS CLI**  
**Untuk menanyakan data tentang satu atau beberapa bucket S3 yang dipantau dan dianalisis Amazon Macie untuk akun Anda**  
`describe-buckets`Contoh berikut menanyakan metadata untuk semua bucket S3 yang namanya dimulai dengan amzn-s3-demo-bucket dan berada di Wilayah saat ini. AWS   

```
aws macie2 describe-buckets \
    --criteria '{"bucketName":{"prefix":"amzn-s3-demo-bucket"}}'
```
Output:  

```
{
    "buckets": [
        {
            "accountId": "123456789012",
            "allowsUnencryptedObjectUploads": "FALSE",
            "automatedDiscoveryMonitoringStatus": "MONITORED",
            "bucketArn": "arn:aws:s3:::amzn-s3-demo-bucket1",
            "bucketCreatedAt": "2020-05-18T19:54:00+00:00",
            "bucketName": "amzn-s3-demo-bucket1",
            "classifiableObjectCount": 13,
            "classifiableSizeInBytes": 1592088,
            "jobDetails": {
                "isDefinedInJob": "TRUE",
                "isMonitoredByJob": "TRUE",
                "lastJobId": "08c81dc4a2f3377fae45c9ddaEXAMPLE",
                "lastJobRunTime": "2024-08-19T14:55:30.270000+00:00"
            },
            "lastAutomatedDiscoveryTime": "2024-10-22T19:11:25.364000+00:00",
            "lastUpdated": "2024-10-25T07:33:06.337000+00:00",
            "objectCount": 13,
            "objectCountByEncryptionType": {
                "customerManaged": 0,
                "kmsManaged": 2,
                "s3Managed": 7,
                "unencrypted": 4,
                "unknown": 0
            },
            "publicAccess": {
                "effectivePermission": "NOT_PUBLIC",
                "permissionConfiguration": {
                    "accountLevelPermissions": {
                        "blockPublicAccess": {
                            "blockPublicAcls": true,
                            "blockPublicPolicy": true,
                            "ignorePublicAcls": true,
                            "restrictPublicBuckets": true
                        }
                    },
                    "bucketLevelPermissions": {
                        "accessControlList": {
                            "allowsPublicReadAccess": false,
                            "allowsPublicWriteAccess": false
                        },
                        "blockPublicAccess": {
                            "blockPublicAcls": true,
                            "blockPublicPolicy": true,
                            "ignorePublicAcls": true,
                            "restrictPublicBuckets": true
                        },
                        "bucketPolicy": {
                            "allowsPublicReadAccess": false,
                            "allowsPublicWriteAccess": false
                        }
                    }
                }
            },
            "region": "us-west-2",
            "replicationDetails": {
                "replicated": false,
                "replicatedExternally": false,
                "replicationAccounts": []
            },
            "sensitivityScore": 78,
            "serverSideEncryption": {
                "kmsMasterKeyId": null,
                "type": "NONE"
            },
            "sharedAccess": "NOT_SHARED",
            "sizeInBytes": 4549746,
            "sizeInBytesCompressed": 0,
            "tags": [
                {
                    "key": "Division",
                    "value": "HR"
                },
                {
                    "key": "Team",
                    "value": "Recruiting"
                }
            ],
            "unclassifiableObjectCount": {
                "fileType": 0,
                "storageClass": 0,
                "total": 0
            },
            "unclassifiableObjectSizeInBytes": {
                "fileType": 0,
                "storageClass": 0,
                "total": 0
            },
            "versioning": true
        },
        {
            "accountId": "123456789012",
            "allowsUnencryptedObjectUploads": "TRUE",
            "automatedDiscoveryMonitoringStatus": "MONITORED",
            "bucketArn": "arn:aws:s3:::amzn-s3-demo-bucket2",
            "bucketCreatedAt": "2020-11-25T18:24:38+00:00",
            "bucketName": "amzn-s3-demo-bucket2",
            "classifiableObjectCount": 8,
            "classifiableSizeInBytes": 133810,
            "jobDetails": {
                "isDefinedInJob": "TRUE",
                "isMonitoredByJob": "FALSE",
                "lastJobId": "188d4f6044d621771ef7d65f2EXAMPLE",
                "lastJobRunTime": "2024-07-09T19:37:11.511000+00:00"
            },
            "lastAutomatedDiscoveryTime": "2024-10-24T19:11:25.364000+00:00",
            "lastUpdated": "2024-10-25T07:33:06.337000+00:00",
            "objectCount": 8,
            "objectCountByEncryptionType": {
                "customerManaged": 0,
                "kmsManaged": 0,
                "s3Managed": 8,
                "unencrypted": 0,
                "unknown": 0
            },
            "publicAccess": {
                "effectivePermission": "NOT_PUBLIC",
                "permissionConfiguration": {
                    "accountLevelPermissions": {
                        "blockPublicAccess": {
                            "blockPublicAcls": true,
                            "blockPublicPolicy": true,
                            "ignorePublicAcls": true,
                            "restrictPublicBuckets": true
                        }
                    },
                    "bucketLevelPermissions": {
                        "accessControlList": {
                            "allowsPublicReadAccess": false,
                            "allowsPublicWriteAccess": false
                        },
                        "blockPublicAccess": {
                            "blockPublicAcls": true,
                            "blockPublicPolicy": true,
                            "ignorePublicAcls": true,
                            "restrictPublicBuckets": true
                        },
                        "bucketPolicy": {
                            "allowsPublicReadAccess": false,
                            "allowsPublicWriteAccess": false
                        }
                    }
                }
            },
            "region": "us-west-2",
            "replicationDetails": {
                "replicated": false,
                "replicatedExternally": false,
                "replicationAccounts": []
            },
            "sensitivityScore": 95,
            "serverSideEncryption": {
                "kmsMasterKeyId": null,
                "type": "AES256"
            },
            "sharedAccess": "EXTERNAL",
            "sizeInBytes": 175978,
            "sizeInBytesCompressed": 0,
            "tags": [
                {
                    "key": "Division",
                    "value": "HR"
                },
                {
                    "key": "Team",
                    "value": "Recruiting"
                }
            ],
            "unclassifiableObjectCount": {
                "fileType": 3,
                "storageClass": 0,
                "total": 3
            },
            "unclassifiableObjectSizeInBytes": {
                "fileType": 2999826,
                "storageClass": 0,
                "total": 2999826
            },
            "versioning": true
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memfilter inventaris bucket S3 di Panduan](https://docs.aws.amazon.com/macie/latest/user/monitoring-s3-inventory-filter.html) Pengguna *Amazon Macie*.  
+  Untuk detail API, lihat [DescribeBuckets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/macie2/describe-buckets.html)di *Referensi AWS CLI Perintah*. 

# Contoh Grafana yang Dikelola Amazon menggunakan AWS CLI
<a name="cli_2_grafana_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS Command Line Interface dengan menggunakan Grafana Dikelola Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `list-workspaces`
<a name="grafana_ListWorkspaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-workspaces`.

**AWS CLI**  
**Untuk mencantumkan ruang kerja untuk akun di Wilayah yang ditentukan oleh kredensi pengguna**  
`list-workspaces`Contoh berikut mencantumkan ruang kerja Grafana untuk Wilayah akun.  

```
aws grafana list-workspaces
```
Output:  

```
{
    "workspaces": [
        {
            "authentication": {
                "providers": [
                    "AWS_SSO"
                ]
            },
            "created": "2022-04-04T16:20:21.796000-07:00",
            "description": "to test tags",
            "endpoint": "g-949e7b44df.grafana-workspace.us-east-1.amazonaws.com",
            "grafanaVersion": "8.2",
            "id": "g-949e7b44df",
            "modified": "2022-04-04T16:20:21.796000-07:00",
            "name": "testtag2",
            "notificationDestinations": [
                "SNS"
            ],
            "status": "ACTIVE"
        },
        {
            "authentication": {
                "providers": [
                    "AWS_SSO"
                ]
            },
            "created": "2022-04-20T10:22:15.115000-07:00",
            "description": "ww",
            "endpoint": "g-bffa51ed1b.grafana-workspace.us-east-1.amazonaws.com",
            "grafanaVersion": "8.2",
            "id": "g-bffa51ed1b",
            "modified": "2022-04-20T10:22:15.115000-07:00",
            "name": "ww",
            "notificationDestinations": [
                "SNS"
            ],
            "status": "ACTIVE"
        }
    ]
}
```
+  Untuk detail API, lihat [ListWorkspaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/grafana/list-workspaces.html)di *Referensi AWS CLI Perintah*. 

# MediaConnect contoh menggunakan AWS CLI
<a name="cli_2_mediaconnect_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with MediaConnect.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-flow-outputs`
<a name="mediaconnect_AddFlowOutputs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-flow-outputs`.

**AWS CLI**  
**Untuk menambahkan output ke aliran**  
`add-flow-outputs`Contoh berikut menambahkan output ke aliran yang ditentukan.  

```
aws mediaconnect add-flow-outputs \
--flow-arn arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame \
--outputs Description='NYC stream',Destination=192.0.2.12,Name=NYC,Port=3333,Protocol=rtp-fec,SmoothingLatency=100 Description='LA stream',Destination=203.0.113.9,Name=LA,Port=4444,Protocol=rtp-fec,SmoothingLatency=100
```
Output:  

```
{
    "Outputs": [
        {
            "Port": 3333,
            "OutputArn": "arn:aws:mediaconnect:us-east-1:111122223333:output:2-3aBC45dEF67hiJ89-c34de5fG678h:NYC",
            "Name": "NYC",
            "Description": "NYC stream",
            "Destination": "192.0.2.12",
            "Transport": {
                "Protocol": "rtp-fec",
                "SmoothingLatency": 100
            }
        },
        {
            "Port": 4444,
            "OutputArn": "arn:aws:mediaconnect:us-east-1:111122223333:output:2-987655dEF67hiJ89-c34de5fG678h:LA",
            "Name": "LA",
            "Description": "LA stream",
            "Destination": "203.0.113.9",
            "Transport": {
                "Protocol": "rtp-fec",
                "SmoothingLatency": 100
            }
        }
    ],
    "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan Output ke Alur](https://docs.aws.amazon.com/mediaconnect/latest/ug/outputs-add.html) di * MediaConnect Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [AddFlowOutputs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/add-flow-outputs.html)di *Referensi AWS CLI Perintah*. 

### `create-flow`
<a name="mediaconnect_CreateFlow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-flow`.

**AWS CLI**  
**Untuk membuat aliran**  
`create-flow`Contoh berikut menciptakan aliran dengan konfigurasi yang ditentukan.  

```
aws mediaconnect create-flow \
    --availability-zone us-west-2c \
    --name ExampleFlow \
    --source Description='Example source, backup',IngestPort=1055,Name=BackupSource,Protocol=rtp,WhitelistCidr=10.24.34.0/23
```
Output:  

```
{
    "Flow": {
        "FlowArn": "arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:ExampleFlow",
        "AvailabilityZone": "us-west-2c",
        "EgressIp": "54.245.71.21",
        "Source": {
            "IngestPort": 1055,
            "SourceArn": "arn:aws:mediaconnect:us-east-1:123456789012:source:2-3aBC45dEF67hiJ89-c34de5fG678h:BackupSource",
            "Transport": {
                "Protocol": "rtp",
                "MaxBitrate": 80000000
            },
            "Description": "Example source, backup",
            "IngestIp": "54.245.71.21",
            "WhitelistCidr": "10.24.34.0/23",
            "Name": "mySource"
        },
        "Entitlements": [],
        "Name": "ExampleFlow",
        "Outputs": [],
        "Status": "STANDBY",
        "Description": "Example source, backup"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Alur](https://docs.aws.amazon.com/mediaconnect/latest/ug/flows-create.html) di *Panduan MediaConnect Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreateFlow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/create-flow.html)di *Referensi AWS CLI Perintah*. 

### `delete-flow`
<a name="mediaconnect_DeleteFlow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-flow`.

**AWS CLI**  
**Untuk menghapus aliran**  
`delete-flow`Contoh berikut menghapus aliran yang ditentukan.  

```
aws mediaconnect delete-flow \
    --flow-arn arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow
```
Output:  

```
{
    "FlowArn": "arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow",
    "Status": "DELETING"
}
```
Untuk informasi selengkapnya, lihat [Menghapus Alur](https://docs.aws.amazon.com/mediaconnect/latest/ug/flows-delete.html) di * MediaConnect Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DeleteFlow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/delete-flow.html)di *Referensi AWS CLI Perintah*. 

### `describe-flow`
<a name="mediaconnect_DescribeFlow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-flow`.

**AWS CLI**  
**Untuk melihat detail aliran**  
`describe-flow`Contoh berikut menampilkan detail alur yang ditentukan, seperti ARN, Availability Zone, status, source, entitlements, dan output.  

```
aws mediaconnect describe-flow \
    --flow-arn arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow
```
Output:  

```
{
    "Flow": {
        "EgressIp": "54.201.4.39",
        "AvailabilityZone": "us-west-2c",
        "Status": "ACTIVE",
        "FlowArn": "arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow",
        "Entitlements": [
            {
                "EntitlementArn": "arn:aws:mediaconnect:us-west-2:123456789012:entitlement:1-AaBb11CcDd22EeFf-34DE5fG12AbC:MyEntitlement",
                "Description": "Assign to this account",
                "Name": "MyEntitlement",
                "Subscribers": [
                    "444455556666"
                ]
            }
        ],
        "Description": "NYC awards show",
        "Name": "AwardsShow",
        "Outputs": [
            {
                "Port": 2355,
                "Name": "NYC",
                "Transport": {
                    "SmoothingLatency": 0,
                    "Protocol": "rtp-fec"
                },
                "OutputArn": "arn:aws:mediaconnect:us-east-1:123456789012:output:2-3aBC45dEF67hiJ89-c34de5fG678h:NYC",
                "Destination": "192.0.2.0"
            },
            {
                "Port": 3025,
                "Name": "LA",
                "Transport": {
                    "SmoothingLatency": 0,
                    "Protocol": "rtp-fec"
                },
                "OutputArn": "arn:aws:mediaconnect:us-east-1:123456789012:output:2-987655dEF67hiJ89-c34de5fG678h:LA",
                "Destination": "192.0.2.0"
            }
        ],
        "Source": {
            "IngestIp": "54.201.4.39",
            "SourceArn": "arn:aws:mediaconnect:us-east-1:123456789012:source:3-4aBC56dEF78hiJ90-4de5fG6Hi78Jk:ShowSource",
            "Transport": {
                "MaxBitrate": 80000000,
                "Protocol": "rtp"
            },
            "IngestPort": 1069,
            "Description": "Saturday night show",
            "Name": "ShowSource",
            "WhitelistCidr": "10.24.34.0/23"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Aliran](https://docs.aws.amazon.com/mediaconnect/latest/ug/flows-view-details.html) di *Panduan MediaConnect Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DescribeFlow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/describe-flow.html)di *Referensi AWS CLI Perintah*. 

### `grant-flow-entitlements`
<a name="mediaconnect_GrantFlowEntitlements_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`grant-flow-entitlements`.

**AWS CLI**  
**Untuk memberikan hak pada aliran**  
`grant-flow-entitlements`Contoh berikut memberikan hak atas alur yang ada yang ditentukan untuk membagikan konten Anda dengan akun lain AWS .  

```
aws mediaconnect grant-flow-entitlements \
    --flow-arn arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame \
    --entitlements Description='For AnyCompany',Encryption={"Algorithm=aes128,KeyType=static-key,RoleArn=arn:aws:iam::111122223333:role/MediaConnect-ASM,SecretArn=arn:aws:secretsmanager:us-west-2:111122223333:secret:mySecret1"},Name=AnyCompany_Entitlement,Subscribers=444455556666 Description='For Example Corp',Name=ExampleCorp,Subscribers=777788889999
```
Output:  

```
{
    "Entitlements": [
        {
            "Name": "AnyCompany_Entitlement",
            "EntitlementArn": "arn:aws:mediaconnect:us-west-2:111122223333:entitlement:1-11aa22bb11aa22bb-3333cccc4444:AnyCompany_Entitlement",
            "Subscribers": [
                "444455556666"
            ],
            "Description": "For AnyCompany",
            "Encryption": {
                "SecretArn": "arn:aws:secretsmanager:us-west-2:111122223333:secret:mySecret1",
                "Algorithm": "aes128",
                "RoleArn": "arn:aws:iam::111122223333:role/MediaConnect-ASM",
                "KeyType": "static-key"
            }
        },
        {
            "Name": "ExampleCorp",
            "EntitlementArn": "arn:aws:mediaconnect:us-west-2:111122223333:entitlement:1-3333cccc4444dddd-1111aaaa2222:ExampleCorp",
            "Subscribers": [
                "777788889999"
            ],
            "Description": "For Example Corp"
        }
    ],
    "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame"
}
```
Untuk informasi selengkapnya, lihat [Memberikan Hak pada Alur](https://docs.aws.amazon.com/mediaconnect/latest/ug/entitlements-grant.html) di Panduan Pengguna *AWS Elemental MediaConnect *.  
+  Untuk detail API, lihat [GrantFlowEntitlements](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/grant-flow-entitlements.html)di *Referensi AWS CLI Perintah*. 

### `list-entitlements`
<a name="mediaconnect_ListEntitlements_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-entitlements`.

**AWS CLI**  
**Untuk melihat daftar hak**  
`list-entitlements`Contoh berikut menampilkan daftar semua hak yang telah diberikan ke akun.  

```
aws mediaconnect list-entitlements
```
Output:  

```
{
    "Entitlements": [
        {
            "EntitlementArn": "arn:aws:mediaconnect:us-west-2:111122223333:entitlement:1-11aa22bb11aa22bb-3333cccc4444:MyEntitlement",
            "EntitlementName": "MyEntitlement"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ListEntitlements](https://docs.aws.amazon.com/mediaconnect/latest/api/v1-entitlements.html)di *Referensi MediaConnect API AWS Elemental*.  
+  Untuk detail API, lihat [ListEntitlements](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/list-entitlements.html)di *Referensi AWS CLI Perintah*. 

### `list-flows`
<a name="mediaconnect_ListFlows_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-flows`.

**AWS CLI**  
**Untuk melihat daftar alur**  
`list-flows`Contoh berikut menampilkan daftar aliran.  

```
aws mediaconnect list-flows
```
Output:  

```
{
    "Flows": [
        {
            "Status": "STANDBY",
            "SourceType": "OWNED",
            "AvailabilityZone": "us-west-2a",
            "Description": "NYC awards show",
            "Name": "AwardsShow",
            "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow"
        },
        {
            "Status": "STANDBY",
            "SourceType": "OWNED",
            "AvailabilityZone": "us-west-2c",
            "Description": "LA basketball game",
            "Name": "BasketballGame",
            "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BasketballGame"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Daftar Alur](https://docs.aws.amazon.com/mediaconnect/latest/ug/flows-view-list.html) di *Panduan MediaConnect Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListFlows](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/list-flows.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="mediaconnect_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber MediaConnect daya**  
`list-tags-for-resource`Contoh berikut menampilkan kunci tag dan nilai-nilai yang terkait dengan MediaConnect sumber daya yang ditentukan.  

```
aws mediaconnect list-tags-for-resource \
    --resource-arn arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BasketballGame
```
Output:  

```
{
    "Tags": {
        "region": "west",
        "stage": "prod"
    }
}
```
Untuk informasi selengkapnya, lihat [ListTagsForResource TagResource, UntagResource](https://docs.aws.amazon.com/mediaconnect/latest/api/tags-resourcearn.html) di *Referensi MediaConnect API AWS Elemental*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `remove-flow-output`
<a name="mediaconnect_RemoveFlowOutput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-flow-output`.

**AWS CLI**  
**Untuk menghapus output dari aliran**  
`remove-flow-output`Contoh berikut menghapus output dari aliran yang ditentukan.  

```
aws mediaconnect remove-flow-output \
    --flow-arn arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame \
    --output-arn arn:aws:mediaconnect:us-east-1:111122223333:output:2-3aBC45dEF67hiJ89-c34de5fG678h:NYC
```
Output:  

```
{
    "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame",
    "OutputArn": "arn:aws:mediaconnect:us-east-1:111122223333:output:2-3aBC45dEF67hiJ89-c34de5fG678h:NYC"
}
```
Untuk informasi selengkapnya, lihat [Menghapus Output dari Alur](https://docs.aws.amazon.com/mediaconnect/latest/ug/outputs-remove.html) di * MediaConnect Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [RemoveFlowOutput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/remove-flow-output.html)di *Referensi AWS CLI Perintah*. 

### `revoke-flow-entitlement`
<a name="mediaconnect_RevokeFlowEntitlement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-flow-entitlement`.

**AWS CLI**  
**Untuk mencabut hak**  
`revoke-flow-entitlement`Contoh berikut mencabut hak pada alur yang ditentukan.  

```
aws mediaconnect revoke-flow-entitlement \
    --flow-arn arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame \
    --entitlement-arn arn:aws:mediaconnect:us-west-2:111122223333:entitlement:1-11aa22bb11aa22bb-3333cccc4444:AnyCompany_Entitlement
```
Output:  

```
{
    "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame",
    "EntitlementArn": "arn:aws:mediaconnect:us-west-2:111122223333:entitlement:1-11aa22bb11aa22bb-3333cccc4444:AnyCompany_Entitlement"
}
```
Untuk informasi selengkapnya, lihat [Mencabut Hak](https://docs.aws.amazon.com/mediaconnect/latest/ug/entitlements-revoke.html) di Panduan Pengguna *AWS Elemental MediaConnect *.  
+  Untuk detail API, lihat [RevokeFlowEntitlement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/revoke-flow-entitlement.html)di *Referensi AWS CLI Perintah*. 

### `start-flow`
<a name="mediaconnect_StartFlow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-flow`.

**AWS CLI**  
**Untuk memulai aliran**  
`start-flow`Contoh berikut memulai aliran yang ditentukan.  

```
aws mediaconnect start-flow \
    --flow-arn arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "FlowArn": "arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow",
    "Status": "STARTING"
}
```
Untuk informasi selengkapnya, lihat [Memulai Alur](https://docs.aws.amazon.com/mediaconnect/latest/ug/flows-start.html) di *Panduan MediaConnect Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [StartFlow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/start-flow.html)di *Referensi AWS CLI Perintah*. 

### `stop-flow`
<a name="mediaconnect_StopFlow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-flow`.

**AWS CLI**  
**Untuk menghentikan aliran**  
`stop-flow`Contoh berikut menghentikan aliran yang ditentukan.  

```
aws mediaconnect stop-flow \
    --flow-arn arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow
```
Output:  

```
{
    "Status": "STOPPING",
    "FlowArn": "arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow"
}
```
Untuk informasi selengkapnya, lihat [Menghentikan Aliran](https://docs.aws.amazon.com/mediaconnect/latest/ug/flows-stop.html) di *Panduan MediaConnect Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [StopFlow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/stop-flow.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="mediaconnect_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber MediaConnect daya**  
`tag-resource`Contoh berikut menambahkan tag dengan nama kunci dan nilai ke MediaConnect sumber daya yang ditentukan.  

```
aws mediaconnect tag-resource \
    --resource-arn arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BasketballGame
    --tags region=west
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ListTagsForResource TagResource, UntagResource](https://docs.aws.amazon.com/mediaconnect/latest/api/tags-resourcearn.html) di *Referensi MediaConnect API AWS Elemental*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="mediaconnect_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber MediaConnect daya**  
`untag-resource`Contoh berikut menghapus tag dengan nama kunci yang ditentukan dan nilai terkait dari MediaConnect sumber daya.  

```
aws mediaconnect untag-resource \
    --resource-arn arn:aws:mediaconnect:us-east-1:123456789012:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BasketballGame \
    --tag-keys region
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [ListTagsForResource TagResource, UntagResource](https://docs.aws.amazon.com/mediaconnect/latest/api/tags-resourcearn.html) di *Referensi MediaConnect API AWS Elemental*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-flow-entitlement`
<a name="mediaconnect_UpdateFlowEntitlement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-flow-entitlement`.

**AWS CLI**  
**Untuk memperbarui hak**  
`update-flow-entitlement`Contoh berikut memperbarui hak yang ditentukan dengan deskripsi dan pelanggan baru.  

```
aws mediaconnect update-flow-entitlement \
    --flow-arn arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame \
    --entitlement-arn arn:aws:mediaconnect:us-west-2:111122223333:entitlement:1-11aa22bb11aa22bb-3333cccc4444:AnyCompany_Entitlement \
    --description 'For AnyCompany Affiliate' \
    --subscribers 777788889999
```
Output:  

```
{
    "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame",
    "Entitlement": {
        "Name": "AnyCompany_Entitlement",
        "Description": "For AnyCompany Affiliate",
        "EntitlementArn": "arn:aws:mediaconnect:us-west-2:111122223333:entitlement:1-11aa22bb11aa22bb-3333cccc4444:AnyCompany_Entitlement",
        "Encryption": {
            "KeyType": "static-key",
            "Algorithm": "aes128",
            "RoleArn": "arn:aws:iam::111122223333:role/MediaConnect-ASM",
            "SecretArn": "arn:aws:secretsmanager:us-west-2:111122223333:secret:mySecret1"
        },
        "Subscribers": [
            "777788889999"
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Hak](https://docs.aws.amazon.com/mediaconnect/latest/ug/entitlements-update.html) di * MediaConnect Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [UpdateFlowEntitlement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/update-flow-entitlement.html)di *Referensi AWS CLI Perintah*. 

### `update-flow-output`
<a name="mediaconnect_UpdateFlowOutput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-flow-output`.

**AWS CLI**  
**Untuk memperbarui output pada aliran**  
`update-flow-output`Contoh berikut memperbarui output pada aliran yang ditentukan.  

```
aws mediaconnect update-flow-output \
    --flow-arn arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame \
    --output-arn arn:aws:mediaconnect:us-east-1:111122223333:output:2-3aBC45dEF67hiJ89-c34de5fG678h:NYC \
    --port 3331
```
Output:  

```
{
    "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:BaseballGame",
    "Output": {
        "Name": "NYC",
        "Port": 3331,
        "Description": "NYC stream",
        "Transport": {
            "Protocol": "rtp-fec",
            "SmoothingLatency": 100
        },
        "OutputArn": "arn:aws:mediaconnect:us-east-1:111122223333:output:2-3aBC45dEF67hiJ89-c34de5fG678h:NYC",
        "Destination": "192.0.2.12"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Output pada Alur](https://docs.aws.amazon.com/mediaconnect/latest/ug/outputs-update.html) di * MediaConnect Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [UpdateFlowOutput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/update-flow-output.html)di *Referensi AWS CLI Perintah*. 

### `update-flow-source`
<a name="mediaconnect_UpdateFlowSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-flow-source`.

**AWS CLI**  
**Untuk memperbarui sumber aliran yang ada**  
`update-flow-source`Contoh berikut memperbarui sumber aliran yang ada.  

```
aws mediaconnect update-flow-source \
    --flow-arn arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow \
    --source-arn arn:aws:mediaconnect:us-east-1:111122223333:source:3-4aBC56dEF78hiJ90-4de5fG6Hi78Jk:ShowSource \
    --description 'Friday night show' \
    --ingest-port 3344 \
    --protocol rtp-fec \
    --whitelist-cidr 10.24.34.0/23
```
Output:  

```
{
    "FlowArn": "arn:aws:mediaconnect:us-east-1:111122223333:flow:1-23aBC45dEF67hiJ8-12AbC34DE5fG:AwardsShow",
    "Source": {
        "IngestIp": "34.210.136.56",
        "WhitelistCidr": "10.24.34.0/23",
        "Transport": {
            "Protocol": "rtp-fec"
        },
        "IngestPort": 3344,
        "Name": "ShowSource",
        "Description": "Friday night show",
        "SourceArn": "arn:aws:mediaconnect:us-east-1:111122223333:source:3-4aBC56dEF78hiJ90-4de5fG6Hi78Jk:ShowSource"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Sumber Aliran](https://docs.aws.amazon.com/mediaconnect/latest/ug/source-update.html) di *Panduan MediaConnect Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [UpdateFlowSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconnect/update-flow-source.html)di *Referensi AWS CLI Perintah*. 

# MediaConvert contoh menggunakan AWS CLI
<a name="cli_2_mediaconvert_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with MediaConvert.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `cancel-job`
<a name="mediaconvert_CancelJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-job`.

**AWS CLI**  
**Untuk membatalkan pekerjaan yang berada dalam antrian**  
`cancel-job`Contoh berikut membatalkan pekerjaan dengan ID`1234567891234-abc123`. Anda tidak dapat membatalkan pekerjaan yang telah mulai diproses oleh layanan.  

```
aws mediaconvert cancel-job \
    --endpoint-url https://abcd1234.mediaconvert.region-name-1.amazonaws.com \
    --region region-name-1 \
    --id 1234567891234-abc123
```
Untuk mendapatkan titik akhir khusus akun Anda, gunakan`describe-endpoints`, atau kirim perintah tanpa titik akhir. Layanan mengembalikan kesalahan dan titik akhir Anda.  
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Pekerjaan AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-jobs.html) di * MediaConvert Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CancelJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/cancel-job.html)di *Referensi AWS CLI Perintah*. 

### `create-job-template`
<a name="mediaconvert_CreateJobTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-job-template`.

**AWS CLI**  
**Untuk membuat template pekerjaan**  
`create-job-template`Contoh berikut membuat template pekerjaan dengan pengaturan transcoding yang ditentukan dalam file `job-template.json` yang berada di sistem Anda.  

```
aws mediaconvert create-job-template \
    --endpoint-url https://abcd1234.mediaconvert.region-name-1.amazonaws.com \
    --region region-name-1 \
    --name JobTemplate1 \
    --cli-input-json file://~/job-template.json
```
Jika Anda membuat file JSON template pekerjaan Anda dengan menggunakan `get-job-template` dan kemudian memodifikasi file, hapus `JobTemplate` objek, tetapi simpan objek anak Pengaturan di dalamnya. Juga, pastikan untuk menghapus pasangan kunci-nilai berikut:`LastUpdated`,, `Arn``Type`, dan. `CreatedAt` Anda dapat menentukan kategori, deskripsi, nama, dan antrian baik di file JSON atau di baris perintah.  
Untuk mendapatkan titik akhir khusus akun Anda, gunakan`describe-endpoints`, atau kirim perintah tanpa titik akhir. Layanan mengembalikan kesalahan dan titik akhir Anda.  
Jika permintaan Anda berhasil, layanan mengembalikan spesifikasi JSON untuk template pekerjaan yang Anda buat.  
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS Elemental MediaConvert Job Templates](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-job-templates.html) di *AWS Elemental MediaConvert User Guide*.  
+  Untuk detail API, lihat [CreateJobTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/create-job-template.html)di *Referensi AWS CLI Perintah*. 

### `create-job`
<a name="mediaconvert_CreateJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-job`.

**AWS CLI**  
**Untuk membuat pekerjaan**  
`create-job`Contoh berikut membuat pekerjaan transcoding dengan pengaturan yang ditentukan dalam file `job.json` yang berada di sistem tempat Anda mengirim perintah. Spesifikasi pekerjaan JSON ini mungkin menentukan setiap pengaturan secara individual, referensi template pekerjaan, atau preset output referensi.  

```
aws mediaconvert create-job \
    --endpoint-url https://abcd1234.mediaconvert.region-name-1.amazonaws.com \
    --region region-name-1 \
    --cli-input-json file://~/job.json
```
**Anda dapat menggunakan MediaConvert konsol AWS Elemental untuk menghasilkan spesifikasi pekerjaan JSON dengan memilih pengaturan pekerjaan Anda, dan kemudian memilih **Tampilkan pekerjaan JSON** di bagian bawah bagian Job.**  
Untuk mendapatkan titik akhir khusus akun Anda, gunakan`describe-endpoints`, atau kirim perintah tanpa titik akhir. Layanan mengembalikan kesalahan dan titik akhir Anda.  
Jika permintaan Anda berhasil, layanan mengembalikan spesifikasi pekerjaan JSON yang Anda kirim bersama permintaan Anda.  
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Pekerjaan AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-jobs.html) di * MediaConvert Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreateJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/create-job.html)di *Referensi AWS CLI Perintah*. 

### `create-preset`
<a name="mediaconvert_CreatePreset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-preset`.

**AWS CLI**  
**Untuk membuat preset keluaran kustom**  
`create-preset`Contoh berikut membuat preset keluaran kustom berdasarkan pengaturan output yang ditentukan dalam file`preset.json`. Anda dapat menentukan kategori, deskripsi, dan nama baik di file JSON atau di baris perintah.  

```
aws mediaconvert create-preset \
    --endpoint-url https://abcd1234.mediaconvert.region-name-1.amazonaws.com
    --region region-name-1 \
    --cli-input-json file://~/preset.json
```
Jika Anda membuat file JSON preset Anda dengan menggunakan `get-preset` dan kemudian memodifikasi file output, pastikan bahwa Anda menghapus pasangan kunci-nilai berikut:`LastUpdated`,,, dan. `Arn` `Type` `CreatedAt`  
Untuk mendapatkan titik akhir khusus akun Anda, gunakan`describe-endpoints`, atau kirim perintah tanpa titik akhir. Layanan mengembalikan kesalahan dan titik akhir Anda.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Preset MediaConvert Output AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-presets.html) di Panduan Pengguna *AWS Elemental MediaConvert *.  
+  Untuk detail API, lihat [CreatePreset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/create-preset.html)di *Referensi AWS CLI Perintah*. 

### `create-queue`
<a name="mediaconvert_CreateQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-queue`.

**AWS CLI**  
**Untuk membuat antrian kustom**  
`create-queue`Contoh berikut membuat antrian transcoding kustom.  

```
aws mediaconvert create-queue \
    --endpoint-url https://abcd1234.mediaconvert.region-name-1.amazonaws.com \
    --region region-name-1 \
    --name Queue1 \
    --description "Keep this queue empty unless job is urgent."
```
Untuk mendapatkan titik akhir khusus akun Anda, gunakan`describe-endpoints`, atau kirim perintah tanpa titik akhir. Layanan mengembalikan kesalahan dan titik akhir Anda.  
Output:  

```
{
    "Queue": {
        "Status": "ACTIVE",
        "Name": "Queue1",
        "LastUpdated": 1518034928,
        "Arn": "arn:aws:mediaconvert:region-name-1:012345678998:queues/Queue1",
        "Type": "CUSTOM",
        "CreatedAt": 1518034928,
        "Description": "Keep this queue empty unless job is urgent."
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Antrian AWS Elemental di Panduan Pengguna *AWS MediaConvert Elemental*](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-queues.html).  
+  Untuk detail API, lihat [CreateQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/create-queue.html)di *Referensi AWS CLI Perintah*. 

### `delete-job-template`
<a name="mediaconvert_DeleteJobTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-job-template`.

**AWS CLI**  
**Untuk menghapus template pekerjaan**  
`delete-job-template`Contoh berikut menghapus template pekerjaan kustom yang ditentukan.  

```
aws mediaconvert delete-job-template \
    --name "DASH Streaming" \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Perintah ini tidak menghasilkan output. Jalankan `aws mediaconvert list-job-templates` untuk mengonfirmasi bahwa template Anda telah dihapus.  
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS Elemental MediaConvert Job Templates](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-job-templates.html) di *AWS Elemental MediaConvert User Guide*.  
+  Untuk detail API, lihat [DeleteJobTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/delete-job-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-preset`
<a name="mediaconvert_DeletePreset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-preset`.

**AWS CLI**  
**Untuk menghapus antrean sesuai permintaan khusus**  
`delete-preset`Contoh berikut menghapus preset kustom yang ditentukan.  

```
aws mediaconvert delete-preset \
    --name SimpleMP4 \
    --endpoint-url  https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Perintah ini tidak menghasilkan output. Jalankan `aws mediaconvert list-presets` untuk mengonfirmasi bahwa preset Anda telah dihapus.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Preset MediaConvert Output AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-presets.html) di Panduan Pengguna *AWS Elemental MediaConvert *.  
+  Untuk detail API, lihat [DeletePreset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/delete-preset.html)di *Referensi AWS CLI Perintah*. 

### `delete-queue`
<a name="mediaconvert_DeleteQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-queue`.

**AWS CLI**  
**Untuk menghapus antrean sesuai permintaan khusus**  
`delete-queue`Contoh berikut menghapus antrian sesuai permintaan khusus yang ditentukan.  
Anda tidak dapat menghapus antrian default Anda. Anda tidak dapat menghapus antrian cadangan yang memiliki paket harga aktif atau yang berisi pekerjaan yang belum diproses.  

```
aws mediaconvert delete-queue \
    --name Customer1 \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Perintah ini tidak menghasilkan output. Jalankan `aws mediaconvert list-queues` untuk mengonfirmasi bahwa antrian Anda telah dihapus.  
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Antrian AWS Elemental di Panduan Pengguna *AWS MediaConvert Elemental*](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-queues.html).  
+  Untuk detail API, lihat [DeleteQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/delete-queue.html)di *Referensi AWS CLI Perintah*. 

### `describe-endpoints`
<a name="mediaconvert_DescribeEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-endpoints`.

**AWS CLI**  
**Untuk mendapatkan titik akhir khusus akun Anda**  
`describe-endpoints`Contoh berikut mengambil titik akhir yang Anda butuhkan untuk mengirim permintaan lain ke layanan.  

```
aws mediaconvert describe-endpoints
```
Output:  

```
{
    "Endpoints": [
        {
            "Url": "https://abcd1234.mediaconvert.region-name-1.amazonaws.com"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai MediaConvert Menggunakan API di](https://docs.aws.amazon.com/mediaconvert/latest/apireference/getting-started.html) *Referensi MediaConvert API AWS Elemental*.  
+  Untuk detail API, lihat [DescribeEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/describe-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `get-job-template`
<a name="mediaconvert_GetJobTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-job-template`.

**AWS CLI**  
**Untuk mendapatkan detail untuk template pekerjaan**  
`get-job-template`Contoh berikut menampilkan definisi JSON dari template pekerjaan kustom yang ditentukan.  

```
aws mediaconvert get-job-template \
    --name "DASH Streaming" \
    --endpoint-url https://abcd1234.mediaconvert.us-east-1.amazonaws.com
```
Output:  

```
{
    "JobTemplate": {
        "StatusUpdateInterval": "SECONDS_60",
        "LastUpdated": 1568652998,
        "Description": "Create a DASH streaming ABR stack",
        "CreatedAt": 1568652998,
        "Priority": 0,
        "Name": "DASH Streaming",
        "Settings": {
            ...<truncatedforbrevity>...
        },
        "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:jobTemplates/DASH Streaming",
        "Type": "CUSTOM"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS Elemental MediaConvert Job Templates](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-job-templates.html) di *AWS Elemental MediaConvert User Guide*.  
+  Untuk detail API, lihat [GetJobTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/get-job-template.html)di *Referensi AWS CLI Perintah*. 

### `get-job`
<a name="mediaconvert_GetJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-job`.

**AWS CLI**  
**Untuk mendapatkan detail untuk pekerjaan tertentu**  
Contoh berikut meminta informasi untuk pekerjaan dengan ID`1234567890987-1ab2c3`, yang dalam contoh ini berakhir dengan kesalahan.  

```
aws mediaconvert get-job \
    --endpoint-url https://abcd1234.mediaconvert.region-name-1.amazonaws.com \
    --region region-name-1 \
    --id 1234567890987-1ab2c3
```
Untuk mendapatkan titik akhir khusus akun Anda, gunakan`describe-endpoints`, atau kirim perintah tanpa titik akhir. Layanan mengembalikan kesalahan dan titik akhir Anda.  
Jika permintaan Anda berhasil, layanan akan mengembalikan file JSON dengan informasi pekerjaan, termasuk pengaturan pekerjaan, kesalahan yang dikembalikan, dan data pekerjaan lainnya, sebagai berikut:  

```
{
    "Job": {
        "Status": "ERROR",
        "Queue": "arn:aws:mediaconvert:region-name-1:012345678998:queues/Queue1",
        "Settings": {
            ...<truncated for brevity>...
        },
        "ErrorMessage": "Unable to open input file [s3://my-input-bucket/file-name.mp4]: [Failed probe/open: [Failed to read data: AssumeRole failed]]",
        "ErrorCode": 1434,
        "Role": "arn:aws:iam::012345678998:role/MediaConvertServiceRole",
        "Arn": "arn:aws:mediaconvert:us-west-1:012345678998:jobs/1234567890987-1ab2c3",
        "UserMetadata": {},
        "Timing": {
            "FinishTime": 1517442131,
            "SubmitTime": 1517442103,
            "StartTime": 1517442104
        },
        "Id": "1234567890987-1ab2c3",
        "CreatedAt": 1517442103
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Pekerjaan AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-jobs.html) di * MediaConvert Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [GetJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/get-job.html)di *Referensi AWS CLI Perintah*. 

### `get-preset`
<a name="mediaconvert_GetPreset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-preset`.

**AWS CLI**  
**Untuk mendapatkan detail untuk preset tertentu**  
`get-preset`Contoh berikut meminta definisi JSON dari preset kustom yang ditentukan.  

```
aws mediaconvert get-preset \
    --name SimpleMP4 \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Output:  

```
{
    "Preset": {
        "Description": "Creates basic MP4 file. No filtering or preproccessing.",
        "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:presets/SimpleMP4",
        "LastUpdated": 1568843141,
        "Name": "SimpleMP4",
        "Settings": {
            "ContainerSettings": {
                "Mp4Settings": {
                    "FreeSpaceBox": "EXCLUDE",
                    "CslgAtom": "INCLUDE",
                    "MoovPlacement": "PROGRESSIVE_DOWNLOAD"
                },
                "Container": "MP4"
            },
            "AudioDescriptions": [
                {
                    "LanguageCodeControl": "FOLLOW_INPUT",
                    "AudioTypeControl": "FOLLOW_INPUT",
                    "CodecSettings": {
                        "AacSettings": {
                            "RawFormat": "NONE",
                            "CodecProfile": "LC",
                            "AudioDescriptionBroadcasterMix": "NORMAL",
                            "SampleRate": 48000,
                            "Bitrate": 96000,
                            "RateControlMode": "CBR",
                            "Specification": "MPEG4",
                            "CodingMode": "CODING_MODE_2_0"
                        },
                        "Codec": "AAC"
                    }
                }
            ],
            "VideoDescription": {
                "RespondToAfd": "NONE",
                "TimecodeInsertion": "DISABLED",
                "Sharpness": 50,
                "ColorMetadata": "INSERT",
                "CodecSettings": {
                    "H264Settings": {
                        "FramerateControl": "INITIALIZE_FROM_SOURCE",
                        "SpatialAdaptiveQuantization": "ENABLED",
                        "Softness": 0,
                        "Telecine": "NONE",
                        "CodecLevel": "AUTO",
                        "QualityTuningLevel": "SINGLE_PASS",
                        "UnregisteredSeiTimecode": "DISABLED",
                        "Slices": 1,
                        "Syntax": "DEFAULT",
                        "GopClosedCadence": 1,
                        "AdaptiveQuantization": "HIGH",
                        "EntropyEncoding": "CABAC",
                        "InterlaceMode": "PROGRESSIVE",
                        "ParControl": "INITIALIZE_FROM_SOURCE",
                        "NumberBFramesBetweenReferenceFrames": 2,
                        "GopSizeUnits": "FRAMES",
                        "RepeatPps": "DISABLED",
                        "CodecProfile": "MAIN",
                        "FieldEncoding": "PAFF",
                        "GopSize": 90.0,
                        "SlowPal": "DISABLED",
                        "SceneChangeDetect": "ENABLED",
                        "GopBReference": "DISABLED",
                        "RateControlMode": "CBR",
                        "FramerateConversionAlgorithm": "DUPLICATE_DROP",
                        "FlickerAdaptiveQuantization": "DISABLED",
                        "DynamicSubGop": "STATIC",
                        "MinIInterval": 0,
                        "TemporalAdaptiveQuantization": "ENABLED",
                        "Bitrate": 400000,
                        "NumberReferenceFrames": 3
                    },
                    "Codec": "H_264"
                },
                "AfdSignaling": "NONE",
                "AntiAlias": "ENABLED",
                "ScalingBehavior": "DEFAULT",
                "DropFrameTimecode": "ENABLED"
            }
        },
        "Type": "CUSTOM",
        "CreatedAt": 1568841521
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Preset MediaConvert Output AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-presets.html) di Panduan Pengguna *AWS Elemental MediaConvert *.  
+  Untuk detail API, lihat [GetPreset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/get-preset.html)di *Referensi AWS CLI Perintah*. 

### `get-queue`
<a name="mediaconvert_GetQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-queue`.

**AWS CLI**  
**Untuk mendapatkan detail untuk antrian**  
`get-queue`Contoh berikut mengambil rincian antrian kustom yang ditentukan.  

```
aws mediaconvert get-queue \
    --name Customer1 \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Output:  

```
{
    "Queue": {
        "LastUpdated": 1526428502,
        "Type": "CUSTOM",
        "SubmittedJobsCount": 0,
        "Status": "ACTIVE",
        "PricingPlan": "ON_DEMAND",
        "CreatedAt": 1526428502,
        "ProgressingJobsCount": 0,
        "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:queues/Customer1",
        "Name": "Customer1"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Antrian AWS Elemental di Panduan Pengguna *AWS MediaConvert Elemental*](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-queues.html).  
+  Untuk detail API, lihat [GetQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/get-queue.html)di *Referensi AWS CLI Perintah*. 

### `list-job-templates`
<a name="mediaconvert_ListJobTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-job-templates`.

**AWS CLI**  
**Contoh 1: Untuk daftar template pekerjaan kustom Anda**  
`list-job-templates`Contoh berikut mencantumkan semua template pekerjaan kustom di Wilayah saat ini. Untuk membuat daftar templat pekerjaan sistem, lihat contoh berikutnya.  

```
aws mediaconvert list-job-templates \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Output:  

```
{
    "JobTemplates": [
        {
            "Description": "Create a DASH streaming ABR stack",
            "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:jobTemplates/DASH Streaming",
            "Name": "DASH Streaming",
            "LastUpdated": 1568653007,
            "Priority": 0,
            "Settings": {
                ...<truncatedforbrevity>...
            },
            "Type": "CUSTOM",
            "StatusUpdateInterval": "SECONDS_60",
            "CreatedAt": 1568653007
        },
        {
            "Description": "Create a high-res file",
            "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:jobTemplates/File",
            "Name": "File",
            "LastUpdated": 1568653007,
            "Priority": 0,
            "Settings": {
                ...<truncatedforbrevity>...
            },
            "Type": "CUSTOM",
            "StatusUpdateInterval": "SECONDS_60",
            "CreatedAt": 1568653023
        }
    ]
}
```
**Contoh 2: Untuk membuat daftar templat pekerjaan MediaConvert sistem**  
`list-job-templates`Contoh berikut mencantumkan semua template pekerjaan sistem.  

```
aws mediaconvert list-job-templates \
    --endpoint-url https://abcd1234.mediaconvert.us-east-1.amazonaws.com \
    --list-by SYSTEM
```
Output:  

```
{
    "JobTemplates": [
        {
            "CreatedAt": 1568321779,
            "Arn": "arn:aws:mediaconvert:us-east-1:123456789012:jobTemplates/System-Generic_Mp4_Hev1_Avc_Aac_Sdr_Qvbr",
            "Name": "System-Generic_Mp4_Hev1_Avc_Aac_Sdr_Qvbr",
            "Description": "GENERIC, MP4, AVC + HEV1(HEVC,SDR), AAC, SDR, QVBR",
            "Category": "GENERIC",
            "Settings": {
                "AdAvailOffset": 0,
                "OutputGroups": [
                    {
                        "Outputs": [
                            {
                                "Extension": "mp4",
                                "Preset": "System-Generic_Hd_Mp4_Avc_Aac_16x9_Sdr_1280x720p_30Hz_5Mbps_Qvbr_Vq9",
                                "NameModifier": "_Generic_Hd_Mp4_Avc_Aac_16x9_Sdr_1280x720p_30Hz_5000Kbps_Qvbr_Vq9"
                            },
                            {
                                "Extension": "mp4",
                                "Preset": "System-Generic_Hd_Mp4_Avc_Aac_16x9_Sdr_1920x1080p_30Hz_10Mbps_Qvbr_Vq9",
                                "NameModifier": "_Generic_Hd_Mp4_Avc_Aac_16x9_Sdr_1920x1080p_30Hz_10000Kbps_Qvbr_Vq9"
                            },
                            {
                                "Extension": "mp4",
                                "Preset": "System-Generic_Sd_Mp4_Avc_Aac_16x9_Sdr_640x360p_30Hz_0.8Mbps_Qvbr_Vq7",
                                "NameModifier": "_Generic_Sd_Mp4_Avc_Aac_16x9_Sdr_640x360p_30Hz_800Kbps_Qvbr_Vq7"
                            },
                            {
                                "Extension": "mp4",
                                "Preset": "System-Generic_Hd_Mp4_Hev1_Aac_16x9_Sdr_1280x720p_30Hz_4Mbps_Qvbr_Vq9",
                                "NameModifier": "_Generic_Hd_Mp4_Hev1_Aac_16x9_Sdr_1280x720p_30Hz_4000Kbps_Qvbr_Vq9"
                            },
                            {
                                "Extension": "mp4",
                                "Preset": "System-Generic_Hd_Mp4_Hev1_Aac_16x9_Sdr_1920x1080p_30Hz_8Mbps_Qvbr_Vq9",
                                "NameModifier": "_Generic_Hd_Mp4_Hev1_Aac_16x9_Sdr_1920x1080p_30Hz_8000Kbps_Qvbr_Vq9"
                            },
                            {
                                "Extension": "mp4",
                                "Preset": "System-Generic_Uhd_Mp4_Hev1_Aac_16x9_Sdr_3840x2160p_30Hz_12Mbps_Qvbr_Vq9",
                                "NameModifier": "_Generic_Uhd_Mp4_Hev1_Aac_16x9_Sdr_3840x2160p_30Hz_12000Kbps_Qvbr_Vq9"
                            }
                        ],
                        "OutputGroupSettings": {
                            "FileGroupSettings": {

                            },
                            "Type": "FILE_GROUP_SETTINGS"
                        },
                        "Name": "File Group"
                    }
                ]
            },
            "Type": "SYSTEM",
            "LastUpdated": 1568321779
        },
        ...<truncatedforbrevity>...
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS Elemental MediaConvert Job Templates](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-job-templates.html) di *AWS Elemental MediaConvert User Guide*.  
+  Untuk detail API, lihat [ListJobTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/list-job-templates.html)di *Referensi AWS CLI Perintah*. 

### `list-jobs`
<a name="mediaconvert_ListJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-jobs`.

**AWS CLI**  
**Untuk mendapatkan detail untuk semua pekerjaan di suatu wilayah**  
Contoh berikut meminta informasi untuk semua pekerjaan Anda di wilayah yang ditentukan.  

```
aws mediaconvert list-jobs \
    --endpoint-url https://abcd1234.mediaconvert.region-name-1.amazonaws.com \
    --region region-name-1
```
Untuk mendapatkan titik akhir khusus akun Anda, gunakan`describe-endpoints`, atau kirim perintah tanpa titik akhir. Layanan mengembalikan kesalahan dan titik akhir Anda.  
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Pekerjaan AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-jobs.html) di * MediaConvert Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/list-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-presets`
<a name="mediaconvert_ListPresets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-presets`.

**AWS CLI**  
**Contoh 1: Untuk daftar preset keluaran kustom Anda**  
`list-presets`Contoh berikut mencantumkan preset keluaran kustom Anda. Untuk membuat daftar preset sistem, lihat contoh berikutnya.  

```
aws mediaconvert list-presets \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Output:  

```
{
    "Presets": [
        {
            "Name": "SimpleMP4",
            "CreatedAt": 1568841521,
            "Settings": {
                ......
            },
            "Arn": "arn:aws:mediaconvert:us-east-1:003235472598:presets/SimpleMP4",
            "Type": "CUSTOM",
            "LastUpdated": 1568843141,
            "Description": "Creates basic MP4 file. No filtering or preproccessing."
        },
        {
            "Name": "SimpleTS",
            "CreatedAt": 1568843113,
            "Settings": {
                ... truncated for brevity ...
            },
            "Arn": "arn:aws:mediaconvert:us-east-1:003235472598:presets/SimpleTS",
            "Type": "CUSTOM",
            "LastUpdated": 1568843113,
            "Description": "Create a basic transport stream."
        }
    ]
}
```
**Contoh 2: Untuk daftar preset output sistem**  
`list-presets`Contoh berikut mencantumkan preset MediaConvert sistem yang tersedia. Untuk membuat daftar preset kustom Anda, lihat contoh sebelumnya.  

```
aws mediaconvert list-presets \
    --list-by SYSTEM \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Output:  

```
{
    "Presets": [
        {
            "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:presets/System-Avc_16x9_1080p_29_97fps_8500kbps",
            "Name": "System-Avc_16x9_1080p_29_97fps_8500kbps",
            "CreatedAt": 1568321789,
            "Description": "Wifi, 1920x1080, 16:9, 29.97fps, 8500kbps",
            "LastUpdated": 1568321789,
            "Type": "SYSTEM",
            "Category": "HLS",
            "Settings": {
            ...<output settings removed for brevity>...
            }
        },

        ...<list of presets shortened for brevity>...

        {
            "Arn": "arn:aws:mediaconvert:us-east-1:123456789012:presets/System-Xdcam_HD_1080i_29_97fps_35mpbs",
            "Name": "System-Xdcam_HD_1080i_29_97fps_35mpbs",
            "CreatedAt": 1568321790,
            "Description": "XDCAM MPEG HD, 1920x1080i, 29.97fps, 35mbps",
            "LastUpdated": 1568321790,
            "Type": "SYSTEM",
            "Category": "MXF",
            "Settings": {
            ...<output settings removed for brevity>...
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Preset MediaConvert Output AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-presets.html) di Panduan Pengguna *AWS Elemental MediaConvert *.  
+  Untuk detail API, lihat [ListPresets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/list-presets.html)di *Referensi AWS CLI Perintah*. 

### `list-queues`
<a name="mediaconvert_ListQueues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-queues`.

**AWS CLI**  
**Untuk membuat daftar antrian Anda**  
`list-queues`Contoh berikut mencantumkan semua MediaConvert antrian Anda.  

```
aws mediaconvert list-queues \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Output:  

```
{
    "Queues": [
        {
            "PricingPlan": "ON_DEMAND",
            "Type": "SYSTEM",
            "Status": "ACTIVE",
            "CreatedAt": 1503451595,
            "Name": "Default",
            "SubmittedJobsCount": 0,
            "ProgressingJobsCount": 0,
            "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:queues/Default",
            "LastUpdated": 1534549158
        },
        {
            "PricingPlan": "ON_DEMAND",
            "Type": "CUSTOM",
            "Status": "ACTIVE",
            "CreatedAt": 1537460025,
            "Name": "Customer1",
            "SubmittedJobsCount": 0,
            "Description": "Jobs we run for our cusotmer.",
            "ProgressingJobsCount": 0,
            "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:queues/Customer1",
            "LastUpdated": 1537460025
        },
        {
            "ProgressingJobsCount": 0,
            "Status": "ACTIVE",
            "Name": "transcode-library",
            "SubmittedJobsCount": 0,
            "LastUpdated": 1564066204,
            "ReservationPlan": {
                "Status": "ACTIVE",
                "ReservedSlots": 1,
                "PurchasedAt": 1564066203,
                "Commitment": "ONE_YEAR",
                "ExpiresAt": 1595688603,
                "RenewalType": "EXPIRE"
            },
            "PricingPlan": "RESERVED",
            "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:queues/transcode-library",
            "Type": "CUSTOM",
            "CreatedAt": 1564066204
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Antrian AWS Elemental di Panduan Pengguna *AWS MediaConvert Elemental*](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-queues.html).  
+  Untuk detail API, lihat [ListQueues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/list-queues.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="mediaconvert_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag pada MediaConvert antrian, templat pekerjaan, atau preset keluaran**  
`list-tags-for-resource`Contoh berikut mencantumkan tag pada preset output yang ditentukan.  

```
aws mediaconvert list-tags-for-resource \
    --arn arn:aws:mediaconvert:us-west-2:123456789012:presets/SimpleMP4 \
    --endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Output:  

```
{
    "ResourceTags": {
        "Tags": {
            "customer": "zippyVideo"
        },
        "Arn": "arn:aws:mediaconvert:us-west-2:123456789012:presets/SimpleMP4"
    }
}
```
*Untuk informasi selengkapnya, lihat [ MediaConvert Menandai Antrian AWS Elemen, Template Pekerjaan, dan Preset Output](https://docs.aws.amazon.com/mediaconvert/latest/ug/tagging-queues-templates-presets.html) di AWS Panduan Pengguna Elemental. MediaConvert *  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-job-template`
<a name="mediaconvert_UpdateJobTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-job-template`.

**AWS CLI**  
**Untuk mengubah template pekerjaan**  
`update-job-template`Contoh berikut menggantikan definisi JSON dari template pekerjaan kustom yang ditentukan dengan definisi JSON dalam file yang disediakan.  
aws mediaconvert update-job-template --name File1 --endpoint-url -- file: //\$1/ .json https://abcd1234.mediaconvert.us-west-2.amazonaws.com cli-input-json job-template-update  
Isi dari `job-template-update.json`:  

```
{
    "Description": "A simple job template that generates a single file output.",
    "Queue": "arn:aws:mediaconvert:us-east-1:012345678998:queues/Default",
    "Name": "SimpleFile",
    "Settings": {
      "OutputGroups": [
        {
          "Name": "File Group",
          "Outputs": [
            {
              "ContainerSettings": {
                "Container": "MP4",
                "Mp4Settings": {
                  "CslgAtom": "INCLUDE",
                  "FreeSpaceBox": "EXCLUDE",
                  "MoovPlacement": "PROGRESSIVE_DOWNLOAD"
                }
              },
              "VideoDescription": {
                "ScalingBehavior": "DEFAULT",
                "TimecodeInsertion": "DISABLED",
                "AntiAlias": "ENABLED",
                "Sharpness": 50,
                "CodecSettings": {
                  "Codec": "H_264",
                  "H264Settings": {
                    "InterlaceMode": "PROGRESSIVE",
                    "NumberReferenceFrames": 3,
                    "Syntax": "DEFAULT",
                    "Softness": 0,
                    "GopClosedCadence": 1,
                    "GopSize": 90,
                    "Slices": 1,
                    "GopBReference": "DISABLED",
                    "SlowPal": "DISABLED",
                    "SpatialAdaptiveQuantization": "ENABLED",
                    "TemporalAdaptiveQuantization": "ENABLED",
                    "FlickerAdaptiveQuantization": "DISABLED",
                    "EntropyEncoding": "CABAC",
                    "Bitrate": 400000,
                    "FramerateControl": "INITIALIZE_FROM_SOURCE",
                    "RateControlMode": "CBR",
                    "CodecProfile": "MAIN",
                    "Telecine": "NONE",
                    "MinIInterval": 0,
                    "AdaptiveQuantization": "HIGH",
                    "CodecLevel": "AUTO",
                    "FieldEncoding": "PAFF",
                    "SceneChangeDetect": "ENABLED",
                    "QualityTuningLevel": "SINGLE_PASS",
                    "FramerateConversionAlgorithm": "DUPLICATE_DROP",
                    "UnregisteredSeiTimecode": "DISABLED",
                    "GopSizeUnits": "FRAMES",
                    "ParControl": "INITIALIZE_FROM_SOURCE",
                    "NumberBFramesBetweenReferenceFrames": 2,
                    "RepeatPps": "DISABLED",
                    "DynamicSubGop": "STATIC"
                  }
                },
                "AfdSignaling": "NONE",
                "DropFrameTimecode": "ENABLED",
                "RespondToAfd": "NONE",
                "ColorMetadata": "INSERT"
              },
              "AudioDescriptions": [
                {
                  "AudioTypeControl": "FOLLOW_INPUT",
                  "CodecSettings": {
                    "Codec": "AAC",
                    "AacSettings": {
                      "AudioDescriptionBroadcasterMix": "NORMAL",
                      "Bitrate": 96000,
                      "RateControlMode": "CBR",
                      "CodecProfile": "LC",
                      "CodingMode": "CODING_MODE_2_0",
                      "RawFormat": "NONE",
                      "SampleRate": 48000,
                      "Specification": "MPEG4"
                    }
                  },
                  "LanguageCodeControl": "FOLLOW_INPUT"
                }
              ]
            }
          ],
          "OutputGroupSettings": {
            "Type": "FILE_GROUP_SETTINGS",
            "FileGroupSettings": {}
          }
        }
      ],
      "AdAvailOffset": 0
    },
    "StatusUpdateInterval": "SECONDS_60",
    "Priority": 0
}
```
Sistem mengembalikan payload JSON yang Anda kirim dengan permintaan Anda, bahkan ketika permintaan menghasilkan kesalahan. Oleh karena itu, JSON yang dikembalikan belum tentu merupakan definisi baru dari template pekerjaan.  
Karena payload JSON bisa panjang, Anda mungkin perlu menggulir ke atas untuk melihat pesan kesalahan apa pun.  
Untuk informasi selengkapnya, lihat [Bekerja dengan AWS Elemental MediaConvert Job Templates](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-job-templates.html) di *AWS Elemental MediaConvert User Guide*.  
+  Untuk detail API, lihat [UpdateJobTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/update-job-template.html)di *Referensi AWS CLI Perintah*. 

### `update-preset`
<a name="mediaconvert_UpdatePreset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-preset`.

**AWS CLI**  
**Untuk mengubah preset**  
`update-preset`Contoh berikut menggantikan deskripsi untuk preset yang ditentukan.  

```
aws mediaconvert update-preset \
--name Customer1 \
--description "New description text."
--endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "Preset": {
        "Arn": "arn:aws:mediaconvert:us-east-1:003235472598:presets/SimpleMP4",
        "Settings": {
        ...<output settings removed for brevity>...
        },
        "Type": "CUSTOM",
        "LastUpdated": 1568938411,
        "Description": "New description text.",
        "Name": "SimpleMP4",
        "CreatedAt": 1568938240
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Preset MediaConvert Output AWS Elemental](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-presets.html) di Panduan Pengguna *AWS Elemental MediaConvert *.  
+  Untuk detail API, lihat [UpdatePreset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/update-preset.html)di *Referensi AWS CLI Perintah*. 

### `update-queue`
<a name="mediaconvert_UpdateQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-queue`.

**AWS CLI**  
**Untuk mengubah antrian**  
`update-queue`Contoh berikut menjeda antrian yang ditentukan, dengan mengubah statusnya menjadi. `PAUSED`  

```
aws mediaconvert update-queue \
--name Customer1 \
--status PAUSED
--endpoint-url https://abcd1234.mediaconvert.us-west-2.amazonaws.com
```
Output:  

```
{
    "Queue": {
        "LastUpdated": 1568839845,
        "Status": "PAUSED",
        "ProgressingJobsCount": 0,
        "CreatedAt": 1526428516,
        "Arn": "arn:aws:mediaconvert:us-west-1:123456789012:queues/Customer1",
        "Name": "Customer1",
        "SubmittedJobsCount": 0,
        "PricingPlan": "ON_DEMAND",
        "Type": "CUSTOM"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan MediaConvert Antrian AWS Elemental di Panduan Pengguna *AWS MediaConvert Elemental*](https://docs.aws.amazon.com/mediaconvert/latest/ug/working-with-queues.html).  
+  Untuk detail API, lihat [UpdateQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediaconvert/update-queue.html)di *Referensi AWS CLI Perintah*. 

# MediaLive contoh menggunakan AWS CLI
<a name="cli_2_medialive_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with MediaLive.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-channel`
<a name="medialive_CreateChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-channel`.

**AWS CLI**  
**Untuk membuat saluran**  
`create-channel`Contoh berikut membuat saluran dengan meneruskan file JSON yang berisi parameter yang ingin Anda tentukan.  
Saluran dalam contoh ini menyerap input HLS PULL yang terhubung ke sumber yang berisi video, audio, dan teks yang disematkan. Saluran membuat satu grup keluaran HLS dengan server Akamai sebagai tujuan. Grup output berisi dua output: satu untuk video H.265 dan audio AAC, dan satu untuk keterangan Web-VTT, hanya dalam bahasa Inggris.  
JSON untuk saluran contoh ini mencakup parameter minimum yang diperlukan untuk saluran yang menggunakan input HLS PULL dan yang menghasilkan grup keluaran HLS dengan Akamai sebagai tujuan. JSON berisi bagian utama ini:  
`InputAttachments`, yang menentukan satu sumber untuk audio, dan satu sumber untuk teks. Itu tidak menentukan pemilih video, yang berarti MediaLive mengekstrak video pertama yang ditemukannya di sumbernya. `Destinations`, yang berisi dua alamat IP (URLs) untuk grup keluaran tunggal di saluran ini. Alamat ini memerlukan kata sandi. `EncoderSettings`, yang berisi subbagian. `AudioDescriptions`, yang menentukan bahwa saluran berisi satu aset output audio, yang menggunakan sumber dari InputAttachments, dan menghasilkan audio dalam format AAC. `CaptionDescriptions`, yang menentukan bahwa saluran berisi satu aset keluaran teks, yang menggunakan sumber dari InputAttachments, dan menghasilkan teks dalam format Web-VTT. `VideoDescriptions`, yang menentukan bahwa saluran berisi satu aset keluaran video, dengan resolusi yang ditentukan. `OutputGroups`, yang menentukan kelompok output. Dalam contoh ini ada satu kelompok bernama`Akamai`. Koneksi dibuat menggunakan HLS PUT. Grup output berisi dua output. Satu output adalah untuk aset video (bernama`Video_high`) dan aset audio (bernama`Audio_EN`). Satu output adalah untuk aset teks (bernama`WebVTT_EN`).  
Dalam contoh ini, beberapa parameter tidak mengandung nilai atau mengandung parameter kosong bersarang. Misalnya, OutputSettings untuk `Video_and_audio` output berisi beberapa parameter bersarang yang berakhir pada parameter kosong M3U8Settings. Parameter ini harus disertakan, tetapi Anda dapat menghilangkan satu, beberapa, atau semua turunannya, yang berarti bahwa anak akan mengambil nilai defaultnya atau menjadi nol.  
Semua parameter yang berlaku untuk saluran contoh ini tetapi yang tidak ditentukan dalam file ini akan mengambil nilai default, disetel ke null, atau mengambil nilai unik yang dihasilkan oleh MediaLive.  

```
aws medialive create-channel \
    --cli-input-json file://channel-in-hls-out-hls-akamai.json
```
Isi dari `channel-in-hls-out-hls-akamai.json`:  

```
{
    "Name": "News_West",
    "RoleArn": "arn:aws:iam::111122223333:role/MediaLiveAccessRole",
    "InputAttachments": [
        {
            "InputAttachmentName": "local_news",
            "InputId": "1234567",
            "InputSettings": {
                "AudioSelectors": [
                    {
                        "Name": "English-Audio",
                        "SelectorSettings": {
                            "AudioLanguageSelection": {
                                "LanguageCode": "EN"
                            }
                        }
                    }
                ],
                "CaptionSelectors": [
                    {
                        "LanguageCode": "ENE",
                        "Name": "English_embedded"
                    }
                ]
            }
        }
    ],
    "Destinations": [
        {
            "Id": "akamai-server-west",
            "Settings": [
                {
                    "PasswordParam": "/medialive/examplecorp1",
                    "Url": "http://203.0.113.55/news/news_west",
                    "Username": "examplecorp"
                },
                {
                    "PasswordParam": "/medialive/examplecorp2",
                    "Url": "http://203.0.113.82/news/news_west",
                    "Username": "examplecorp"
                }
            ]
        }
    ],
    "EncoderSettings": {
        "AudioDescriptions": [
            {
                "AudioSelectorName": "English-Audio",
                "CodecSettings": {
                    "AacSettings": {}
                },
                "Name": "Audio_EN"
            }
        ],
        "CaptionDescriptions": [
            {
                "CaptionSelectorName": "English_embedded",
                "DestinationSettings": {
                    "WebvttDestinationSettings": {}
                },
                "Name": "WebVTT_EN"
            }
        ],
        "VideoDescriptions": [
            {
                "Height": 720,
                "Name": "Video_high",
                "Width": 1280
            }
        ],
        "OutputGroups": [
            {
                "Name": "Akamai",
                "OutputGroupSettings": {
                    "HlsGroupSettings": {
                        "Destination": {
                            "DestinationRefId": "akamai-server-west"
                        },
                        "HlsCdnSettings": {
                            "HlsBasicPutSettings": {}
                        }
                    }
                },
                "Outputs": [
                    {
                        "AudioDescriptionNames": [
                            "Audio_EN"
                        ],
                        "OutputName": "Video_and_audio",
                        "OutputSettings": {
                            "HlsOutputSettings": {
                                "HlsSettings": {
                                    "StandardHlsSettings": {
                                        "M3u8Settings": {}
                                    }
                                },
                                "NameModifier": "_1"
                            }
                        },
                        "VideoDescriptionName": "Video_high"
                    },
                    {
                        "CaptionDescriptionNames": [
                            "WebVTT_EN"
                        ],
                        "OutputName": "Captions-WebVTT",
                        "OutputSettings": {
                            "HlsOutputSettings": {
                                "HlsSettings": {
                                    "StandardHlsSettings": {
                                        "M3u8Settings": {}
                                    }
                                },
                                "NameModifier": "_2"
                            }
                        }
                    }
                ]
            }
        ],
        "TimecodeConfig": {
            "Source": "EMBEDDED"
        }
    }
}
```
**Output:**  
Output mengulangi kembali isi file JSON, ditambah nilai-nilai berikut. Semua parameter diurutkan menurut abjad.  
`ARN`untuk saluran. Bagian terakhir dari ARN adalah ID saluran unik. `EgressEndpoints`kosong di saluran contoh ini karena hanya digunakan untuk input PUSH. Ketika itu berlaku, itu menunjukkan alamat pada konten MediaLive yang didorong ke. `OutputGroups`,`Outputs`. Ini menunjukkan semua parameter untuk grup keluaran dan output, termasuk yang tidak Anda sertakan tetapi relevan dengan saluran ini. Parameter mungkin kosong (mungkin menunjukkan parameter atau fitur dinonaktifkan dalam konfigurasi saluran ini) atau mungkin menampilkan nilai default yang akan berlaku. `LogLevel`diatur ke default (DISABLED). `Tags`diatur ke default (null). `PipelinesRunningCount`dan `State` menunjukkan status saluran saat ini.  
Untuk informasi selengkapnya, lihat [Membuat Saluran dari Awal](https://docs.aws.amazon.com/medialive/latest/ug/creating-channel-scratch.html) di *Panduan MediaLive Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreateChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medialive/create-channel.html)di *Referensi AWS CLI Perintah*. 

### `create-input`
<a name="medialive_CreateInput_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-input`.

**AWS CLI**  
**Untuk membuat masukan**  
`create-input`Contoh berikut membuat `HLS PULL` input dengan meneruskan file JSON yang berisi parameter yang berlaku untuk jenis input ini. JSON untuk masukan contoh ini menentukan dua sumber (alamat) ke input, untuk mendukung redundansi dalam ingest. Alamat ini memerlukan kata sandi.  

```
aws medialive create-input \
    --cli-input-json file://input-hls-pull-news.json
```
Isi dari `input-hls-pull-news.json`:  

```
{
    "Name": "local_news",
    "RequestId": "cli000059",
    "Sources": [
            {
                    "Url": "https://203.0.113.13/newschannel/anytownusa.m3u8",
                    "Username": "examplecorp",
                    "PasswordParam": "/medialive/examplecorp1"
            },
       {
                    "Url": "https://198.51.100.54/fillervideos/oceanwaves.mp4",
                    "Username": "examplecorp",
                    "PasswordParam": "examplecorp2"
            }
    ],
    "Type": "URL_PULL"
}
```
**Output:**  
Output mengulangi kembali isi file JSON, ditambah nilai-nilai berikut. Semua parameter diurutkan menurut abjad.  
`Arn`untuk input. Bagian terakhir dari ARN adalah ID input unik. `Attached Channels`, yang selalu kosong untuk input yang baru dibuat. `Destinations`, yang kosong dalam contoh ini karena hanya digunakan dengan input PUSH. `Id`untuk input, sama dengan ID di ARN. `MediaConnectFlows`, yang kosong dalam contoh ini karena hanya digunakan dengan input tipe MediaConnect. `SecurityGroups`, yang kosong dalam contoh ini karena hanya digunakan dengan input PUSH. `State`dari masukan ini. `Tags`, yang kosong (default untuk parameter ini).  
Untuk informasi selengkapnya, lihat [Membuat Input](https://docs.aws.amazon.com/medialive/latest/ug/create-input.html) di *Panduan MediaLive Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreateInput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/medialive/create-input.html)di *Referensi AWS CLI Perintah*. 

# MediaPackage contoh menggunakan AWS CLI
<a name="cli_2_mediapackage_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with MediaPackage.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-channel`
<a name="mediapackage_CreateChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-channel`.

**AWS CLI**  
**Untuk membuat saluran**  
`create-channel`Perintah berikut membuat saluran bernama `sportschannel` di akun saat ini.  

```
aws mediapackage create-channel --id sportschannel
```
Output:  

```
{
   "Arn": "arn:aws:mediapackage:us-west-2:111222333:channels/6d345804ec3f46c9b454a91d4a80d0e0",
   "HlsIngest": {
        "IngestEndpoints": [
            {
                "Id": "6d345804ec3f46c9b454a91d4a80d0e0",
                "Password": "generatedwebdavpassword1",
                "Url": "https://f31c86aed53b815a.mediapackage.us-west-2.amazonaws.com/in/v2/6d345804ec3f46c9b454a91d4a80d0e0/6d345804ec3f46c9b454a91d4a80d0e0/channel",
                "Username": "generatedwebdavusername1"
            },
            {
                "Id": "2daa32878af24803b24183727211b8ff",
                "Password": "generatedwebdavpassword2",
                "Url": "https://6ebbe7e04c4b0afa.mediapackage.us-west-2.amazonaws.com/in/v2/6d345804ec3f46c9b454a91d4a80d0e0/2daa32878af24803b24183727211b8ff/channel",
                "Username": "generatedwebdavusername2"
            }
        ]
    },
    "Id": "sportschannel",
    "Tags": {
        "region": "west"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Saluran](https://docs.aws.amazon.com/mediapackage/latest/ug/channels-create.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreateChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/create-channel.html)di *Referensi AWS CLI Perintah*. 

### `create-origin-endpoint`
<a name="mediapackage_CreateOriginEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-origin-endpoint`.

**AWS CLI**  
**Untuk membuat titik akhir asal**  
`create-origin-endpoint`Perintah berikut membuat titik akhir asal bernama `cmafsports` dengan pengaturan paket yang disediakan dalam file JSON dan pengaturan titik akhir yang ditentukan.  

```
aws mediapackage create-origin-endpoint \
    --channel-id sportschannel \
    --id cmafsports \
    --cmaf-package file://file/path/cmafpkg.json --description "cmaf output of sports" \
    --id cmaf_sports \
    --manifest-name sports_channel \
    --startover-window-seconds 300 \
    --tags region=west,media=sports \
    --time-delay-seconds 10
```
Output:  

```
{
    "Arn": "arn:aws:mediapackage:us-west-2:111222333:origin_endpoints/1dc6718be36f4f34bb9cd86bc50925e6",
    "ChannelId": "sportschannel",
    "CmafPackage": {
        "HlsManifests": [
            {
                "AdMarkers": "PASSTHROUGH",
                "Id": "cmaf_sports_endpoint",
                "IncludeIframeOnlyStream": true,
                "ManifestName": "index",
                "PlaylistType": "EVENT",
                "PlaylistWindowSeconds": 300,
                "ProgramDateTimeIntervalSeconds": 300,
                "Url": "https://c4af3793bf76b33c.mediapackage.us-west-2.amazonaws.com/out/v1/1dc6718be36f4f34bb9cd86bc50925e6/cmaf_sports_endpoint/index.m3u8"
            }
        ],
        "SegmentDurationSeconds": 2,
        "SegmentPrefix": "sportschannel"
    },
    "Description": "cmaf output of sports",
    "Id": "cmaf_sports",
    "ManifestName": "sports_channel",
    "StartoverWindowSeconds": 300,
    "Tags": {
        "region": "west",
        "media": "sports"
    },
    "TimeDelaySeconds": 10,
    "Url": "",
    "Whitelist": []
}
```
Untuk informasi selengkapnya, lihat [Membuat Titik Akhir](https://docs.aws.amazon.com/mediapackage/latest/ug/endpoints-create.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreateOriginEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/create-origin-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-channel`
<a name="mediapackage_DeleteChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-channel`.

**AWS CLI**  
**Untuk menghapus saluran**  
`delete-channel`Perintah berikut menghapus saluran bernama`test`.  

```
aws mediapackage delete-channel \
    --id test
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Saluran](https://docs.aws.amazon.com/mediapackage/latest/ug/channels-delete.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DeleteChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/delete-channel.html)di *Referensi AWS CLI Perintah*. 

### `delete-origin-endpoint`
<a name="mediapackage_DeleteOriginEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-origin-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir asal**  
`delete-origin-endpoint`Perintah berikut menghapus titik akhir asal bernama. `tester2`  

```
aws mediapackage delete-origin-endpoint \
    --id tester2
```
Untuk informasi selengkapnya, lihat [Menghapus Titik Akhir di Panduan](https://docs.aws.amazon.com/mediapackage/latest/ug/endpoints-delete.html) Pengguna *AWS Elemental MediaPackage *.  
+  Untuk detail API, lihat [DeleteOriginEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/delete-origin-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `describe-channel`
<a name="mediapackage_DescribeChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-channel`.

**AWS CLI**  
**Untuk mendeskripsikan saluran**  
`describe-channel`Perintah berikut menampilkan semua rincian saluran bernama`test`.  

```
aws mediapackage describe-channel \
    --id test
```
Output:  

```
{
    "Arn": "arn:aws:mediapackage:us-west-2:111222333:channels/584797f1740548c389a273585dd22a63",
    "HlsIngest": {
        "IngestEndpoints": [
            {
                "Id": "584797f1740548c389a273585dd22a63",
                "Password": "webdavgeneratedpassword1",
                "Url": "https://9be9c4405c474882.mediapackage.us-west-2.amazonaws.com/in/v2/584797f1740548c389a273585dd22a63/584797f1740548c389a273585dd22a63/channel",
                "Username": "webdavgeneratedusername1"
            },
            {
                "Id": "7d187c8616fd455f88aaa5a9fcf74442",
                "Password": "webdavgeneratedpassword2",
                "Url": "https://7bf454c57220328d.mediapackage.us-west-2.amazonaws.com/in/v2/584797f1740548c389a273585dd22a63/7d187c8616fd455f88aaa5a9fcf74442/channel",
                "Username": "webdavgeneratedusername2"
            }
        ]
    },
    "Id": "test",
    "Tags": {}
}
```
*Untuk informasi selengkapnya, lihat Melihat Detail Saluran < https://docs.aws.amazon.com/mediapackage/ latest/ug/channels -view.html> di Panduan Pengguna Elemental AWS MediaPackage *  
+  Untuk detail API, lihat [DescribeChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/describe-channel.html)di *Referensi AWS CLI Perintah*. 

### `describe-origin-endpoint`
<a name="mediapackage_DescribeOriginEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-origin-endpoint`.

**AWS CLI**  
**Untuk menggambarkan titik akhir asal**  
`describe-origin-endpoint`Perintah berikut menampilkan semua rincian dari titik akhir asal bernama`cmaf_sports`.  

```
aws mediapackage describe-origin-endpoint \
    --id cmaf_sports
```
Output:  

```
{
    "Arn": "arn:aws:mediapackage:us-west-2:111222333:origin_endpoints/1dc6718be36f4f34bb9cd86bc50925e6",
    "ChannelId": "sportschannel",
    "CmafPackage": {
        "HlsManifests": [
            {
                "AdMarkers": "NONE",
                "Id": "cmaf_sports_endpoint",
                "IncludeIframeOnlyStream": false,
                "PlaylistType": "EVENT",
                "PlaylistWindowSeconds": 60,
                "ProgramDateTimeIntervalSeconds": 0,
                "Url": "https://c4af3793bf76b33c.mediapackage.us-west-2.amazonaws.com/out/v1/1dc6718be36f4f34bb9cd86bc50925e6/cmaf_sports_endpoint/index.m3u8"
            }
        ],
        "SegmentDurationSeconds": 2,
        "SegmentPrefix": "sportschannel"
    },
    "Id": "cmaf_sports",
    "ManifestName": "index",
    "StartoverWindowSeconds": 0,
    "Tags": {
        "region": "west",
        "media": "sports"
    },
    "TimeDelaySeconds": 0,
    "Url": "",
    "Whitelist": []
}
```
Untuk informasi selengkapnya, lihat [Melihat Titik Akhir Tunggal](https://docs.aws.amazon.com/mediapackage/latest/ug/endpoints-view-one.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DescribeOriginEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/describe-origin-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `list-channels`
<a name="mediapackage_ListChannels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-channels`.

**AWS CLI**  
**Untuk daftar semua saluran**  
`list-channels`Perintah berikut mencantumkan semua saluran yang dikonfigurasi pada AWS akun saat ini.  

```
aws mediapackage list-channels
```
Output:  

```
{
    "Channels": [
        {
            "Arn": "arn:aws:mediapackage:us-west-2:111222333:channels/584797f1740548c389a273585dd22a63",
            "HlsIngest": {
                "IngestEndpoints": [
                    {
                        "Id": "584797f1740548c389a273585dd22a63",
                        "Password": "webdavgeneratedpassword1",
                        "Url": "https://9be9c4405c474882.mediapackage.us-west-2.amazonaws.com/in/v2/584797f1740548c389a273585dd22a63/584797f1740548c389a273585dd22a63/channel",
                        "Username": "webdavgeneratedusername1"
                    },
                    {
                        "Id": "7d187c8616fd455f88aaa5a9fcf74442",
                        "Password": "webdavgeneratedpassword2",
                        "Url": "https://7bf454c57220328d.mediapackage.us-west-2.amazonaws.com/in/v2/584797f1740548c389a273585dd22a63/7d187c8616fd455f88aaa5a9fcf74442/channel",
                        "Username": "webdavgeneratedusername2"
                    }
                ]
            },
            "Id": "test",
            "Tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Saluran](https://docs.aws.amazon.com/mediapackage/latest/ug/channels-view.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListChannels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/list-channels.html)di *Referensi AWS CLI Perintah*. 

### `list-origin-endpoints`
<a name="mediapackage_ListOriginEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-origin-endpoints`.

**AWS CLI**  
**Untuk mencantumkan semua titik akhir asal pada saluran**  
`list-origin-endpoints`Perintah berikut mencantumkan semua titik akhir asal yang dikonfigurasi pada saluran bernama`test`.  

```
aws mediapackage list-origin-endpoints \
    --channel-id test
```
Output:  

```
{
    "OriginEndpoints": [
        {
            "Arn": "arn:aws:mediapackage:us-west-2:111222333:origin_endpoints/247cff871f2845d3805129be22f2c0a2",
            "ChannelId": "test",
            "DashPackage": {
                "ManifestLayout": "FULL",
                "ManifestWindowSeconds": 60,
                "MinBufferTimeSeconds": 30,
                "MinUpdatePeriodSeconds": 15,
                "PeriodTriggers": [],
                "Profile": "NONE",
                "SegmentDurationSeconds": 2,
                "SegmentTemplateFormat": "NUMBER_WITH_TIMELINE",
                "StreamSelection": {
                    "MaxVideoBitsPerSecond": 2147483647,
                    "MinVideoBitsPerSecond": 0,
                    "StreamOrder": "ORIGINAL"
                },
                "SuggestedPresentationDelaySeconds": 25
            },
            "Id": "tester2",
            "ManifestName": "index",
            "StartoverWindowSeconds": 0,
            "Tags": {},
            "TimeDelaySeconds": 0,
            "Url": "https://8343f7014c0ea438.mediapackage.us-west-2.amazonaws.com/out/v1/247cff871f2845d3805129be22f2c0a2/index.mpd",
            "Whitelist": []
        },
        {
            "Arn": "arn:aws:mediapackage:us-west-2:111222333:origin_endpoints/869e237f851549e9bcf10e3bc2830839",
            "ChannelId": "test",
            "HlsPackage": {
                "AdMarkers": "NONE",
                "IncludeIframeOnlyStream": false,
                "PlaylistType": "EVENT",
                "PlaylistWindowSeconds": 60,
                "ProgramDateTimeIntervalSeconds": 0,
                "SegmentDurationSeconds": 6,
                "StreamSelection": {
                    "MaxVideoBitsPerSecond": 2147483647,
                    "MinVideoBitsPerSecond": 0,
                    "StreamOrder": "ORIGINAL"
                },
                "UseAudioRenditionGroup": false
            },
            "Id": "tester",
            "ManifestName": "index",
            "StartoverWindowSeconds": 0,
            "Tags": {},
            "TimeDelaySeconds": 0,
            "Url": "https://8343f7014c0ea438.mediapackage.us-west-2.amazonaws.com/out/v1/869e237f851549e9bcf10e3bc2830839/index.m3u8",
            "Whitelist": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat semua Titik Akhir yang Terkait dengan Saluran](https://docs.aws.amazon.com/mediapackage/latest/ug/endpoints-view-all.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListOriginEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/list-origin-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="mediapackage_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang ditetapkan ke sumber daya**  
`list-tags-for-resource`Perintah berikut mencantumkan tag yang ditetapkan ke sumber daya yang ditentukan.  

```
aws mediapackage list-tags-for-resource \
    --resource-arn arn:aws:mediapackage:us-west-2:111222333:channels/6d345804ec3f46c9b454a91d4a80d0e0
```
Output:  

```
{
    "Tags": {
        "region": "west"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya di AWS Elemental MediaPackage](https://docs.aws.amazon.com/mediapackage/latest/ug/tagging.html) dalam Panduan Pengguna *AWS Elemental MediaPackage *.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `rotate-ingest-endpoint-credentials`
<a name="mediapackage_RotateIngestEndpointCredentials_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rotate-ingest-endpoint-credentials`.

**AWS CLI**  
**Untuk memutar kredenal ingest**  
`rotate-ingest-endpoint-credentials`Perintah berikut memutar nama pengguna dan kata sandi WebDAV untuk titik akhir ingest yang ditentukan.  

```
aws mediapackage rotate-ingest-endpoint-credentials \
    --id test \
    --ingest-endpoint-id 584797f1740548c389a273585dd22a63
```
Output:  

```
{
    "Arn": "arn:aws:mediapackage:us-west-2:111222333:channels/584797f1740548c389a273585dd22a63",
    "HlsIngest": {
        "IngestEndpoints": [
            {
                "Id": "584797f1740548c389a273585dd22a63",
                "Password": "webdavregeneratedpassword1",
                "Url": "https://9be9c4405c474882.mediapackage.us-west-2.amazonaws.com/in/v2/584797f1740548c389a273585dd22a63/584797f1740548c389a273585dd22a63/channel",
                "Username": "webdavregeneratedusername1"
            },
            {
                "Id": "7d187c8616fd455f88aaa5a9fcf74442",
                "Password": "webdavgeneratedpassword2",
                "Url": "https://7bf454c57220328d.mediapackage.us-west-2.amazonaws.com/in/v2/584797f1740548c389a273585dd22a63/7d187c8616fd455f88aaa5a9fcf74442/channel",
                "Username": "webdavgeneratedusername2"
            }
        ]
    },
    "Id": "test",
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [Memutar Kredensial pada URL Input](https://docs.aws.amazon.com/mediapackage/latest/ug/channels-rotate-creds) di Panduan Pengguna *AWS Elemental MediaPackage *.  
+  Untuk detail API, lihat [RotateIngestEndpointCredentials](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/rotate-ingest-endpoint-credentials.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="mediapackage_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tanda ke sumber daya**  
`tag-resource`Perintah berikut menambahkan pasangan `region=west` kunci dan nilai ke sumber daya yang ditentukan.  

```
aws mediapackage tag-resource \
    --resource-arn arn:aws:mediapackage:us-west-2:111222333:channels/6d345804ec3f46c9b454a91d4a80d0e0 \
    --tags region=west
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya di AWS Elemental MediaPackage](https://docs.aws.amazon.com/mediapackage/latest/ug/tagging.html) dalam Panduan Pengguna *AWS Elemental MediaPackage *.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="mediapackage_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Perintah berikut menghapus tag dengan kunci `region` dari saluran yang ditentukan.  

```
aws mediapackage untag-resource \
    --resource-arn arn:aws:mediapackage:us-west-2:111222333:channels/6d345804ec3f46c9b454a91d4a80d0e0 \
    --tag-keys region
```
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya di AWS Elemental MediaPackage](https://docs.aws.amazon.com/mediapackage/latest/ug/tagging.html) dalam Panduan Pengguna *AWS Elemental MediaPackage *.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-channel`
<a name="mediapackage_UpdateChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-channel`.

**AWS CLI**  
**Untuk memperbarui saluran**  
`update-channel`Perintah berikut memperbarui saluran bernama `sportschannel` untuk menyertakan deskripsi`24x7 sports`.  

```
aws mediapackage update-channel \
    --id sportschannel \
    --description "24x7 sports"
```
Output:  

```
{
    "Arn": "arn:aws:mediapackage:us-west-2:111222333:channels/6d345804ec3f46c9b454a91d4a80d0e0",
    "Description": "24x7 sports",
    "HlsIngest": {
        "IngestEndpoints": [
            {
                "Id": "6d345804ec3f46c9b454a91d4a80d0e0",
                "Password": "generatedwebdavpassword1",
                "Url": "https://f31c86aed53b815a.mediapackage.us-west-2.amazonaws.com/in/v2/6d345804ec3f46c9b454a91d4a80d0e0/6d345804ec3f46c9b454a91d4a80d0e0/channel",
                "Username": "generatedwebdavusername1"
            },
            {
                "Id": "2daa32878af24803b24183727211b8ff",
                "Password": "generatedwebdavpassword2",
                "Url": "https://6ebbe7e04c4b0afa.mediapackage.us-west-2.amazonaws.com/in/v2/6d345804ec3f46c9b454a91d4a80d0e0/2daa32878af24803b24183727211b8ff/channel",
                "Username": "generatedwebdavusername2"
            }
        ]
    },
    "Id": "sportschannel",
    "Tags": {}
}
```
Untuk informasi selengkapnya, lihat [Mengedit Saluran](https://docs.aws.amazon.com/mediapackage/latest/ug/channels-edit.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [UpdateChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/update-channel.html)di *Referensi AWS CLI Perintah*. 

### `update-origin-endpoint`
<a name="mediapackage_UpdateOriginEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-origin-endpoint`.

**AWS CLI**  
**Untuk memperbarui titik akhir asal**  
`update-origin-endpoint`Perintah berikut memperbarui titik akhir asal bernama`cmaf_sports`. Ini mengubah waktu tunda menjadi `0` detik.  

```
aws mediapackage update-origin-endpoint \
    --id cmaf_sports \
    --time-delay-seconds 0
```
Output:  

```
{
    "Arn": "arn:aws:mediapackage:us-west-2:111222333:origin_endpoints/1dc6718be36f4f34bb9cd86bc50925e6",
    "ChannelId": "sportschannel",
    "CmafPackage": {
        "HlsManifests": [
            {
                "AdMarkers": "NONE",
                "Id": "cmaf_sports_endpoint",
                "IncludeIframeOnlyStream": false,
                "PlaylistType": "EVENT",
                "PlaylistWindowSeconds": 60,
                "ProgramDateTimeIntervalSeconds": 0,
                "Url": "https://c4af3793bf76b33c.mediapackage.us-west-2.amazonaws.com/out/v1/1dc6718be36f4f34bb9cd86bc50925e6/cmaf_sports_endpoint/index.m3u8"
            }
        ],
        "SegmentDurationSeconds": 2,
        "SegmentPrefix": "sportschannel"
    },
    "Id": "cmaf_sports",
    "ManifestName": "index",
    "StartoverWindowSeconds": 0,
    "Tags": {
        "region": "west",
        "media": "sports"
    },
    "TimeDelaySeconds": 0,
    "Url": "",
    "Whitelist": []
}
```
Untuk informasi selengkapnya, lihat [Mengedit Titik Akhir](https://docs.aws.amazon.com/mediapackage/latest/ug/endpoints-edit.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [UpdateOriginEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage/update-origin-endpoint.html)di *Referensi AWS CLI Perintah*. 

# MediaPackage Contoh VOD menggunakan AWS CLI
<a name="cli_2_mediapackage-vod_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with MediaPackage VOD.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-asset`
<a name="mediapackage-vod_CreateAsset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-asset`.

**AWS CLI**  
**Untuk membuat aset**  
`create-asset`Contoh berikut membuat aset bernama `Chicken_Asset` di AWS akun saat ini. Aset menyerap file `30sec_chicken.smil` ke MediaPackage.  

```
aws mediapackage-vod create-asset \
    --id chicken_asset \
    --packaging-group-id hls_chicken_gp \
    --source-role-arn arn:aws:iam::111122223333:role/EMP_Vod \
    --source-arn arn:aws:s3::111122223333:video-bucket/A/30sec_chicken.smil
```
Output:  

```
{
    "Arn":"arn:aws:mediapackage-vod:us-west-2:111122223333:assets/chicken_asset",
    "Id":"chicken_asset",
    "PackagingGroupId":"hls_chicken_gp",
    "SourceArn":"arn:aws:s3::111122223333:video-bucket/A/30sec_chicken.smil",
    "SourceRoleArn":"arn:aws:iam::111122223333:role/EMP_Vod",
    "EgressEndpoints":[
        {
            "PackagingConfigurationId":"New_config_1",
            "Url":"https://c75ea2668ab49d02bca7ae10ef31c59e.egress.mediapackage-vod.us-west-2.amazonaws.com/out/v1/6644b55df1744261ab3732a8e5cdaf07/904b06a58c7645e08d57d40d064216ac/f5b2e633ff4942228095d164c10074f3/index.m3u8"
        },
        {
            "PackagingConfigurationId":"new_hls",
            "Url":" https://c75ea2668ab49d02bca7ae10ef31c59e.egress.mediapackage-vod.us-west-2.amazonaws.com/out/v1/6644b55df1744261ab3732a8e5cdaf07/fe8f1f00a80e424cb4f8da4095835e9e/7370ec57432343af816332356d2bd5c6/string.m3u8"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengkonsumsi Aset](https://docs.aws.amazon.com/mediapackage/latest/ug/asset-create.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreateAsset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/create-asset.html)di *Referensi AWS CLI Perintah*. 

### `create-packaging-configuration`
<a name="mediapackage-vod_CreatePackagingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-packaging-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi kemasan**  
`create-packaging-configuration`Contoh berikut membuat konfigurasi kemasan bernama `new_hls` dalam kelompok kemasan bernama`hls_chicken`. Contoh ini menggunakan file pada disk bernama `hls_pc.json` untuk memberikan rincian.  

```
aws mediapackage-vod create-packaging-configuration \
    --id new_hls \
    --packaging-group-id hls_chicken \
    --hls-package file://hls_pc.json
```
Isi dari `hls_pc.json`:  

```
{
    "HlsManifests":[
        {
            "AdMarkers":"NONE",
            "IncludeIframeOnlyStream":false,
            "ManifestName":"string",
            "ProgramDateTimeIntervalSeconds":60,
            "RepeatExtXKey":true,
            "StreamSelection":{
                "MaxVideoBitsPerSecond":1000,
                "MinVideoBitsPerSecond":0,
                "StreamOrder":"ORIGINAL"
            }
        }
    ],
    "SegmentDurationSeconds":6,
    "UseAudioRenditionGroup":false
}
```
Output:  

```
{
    "Arn":"arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-configurations/new_hls",
    "Id":"new_hls",
    "PackagingGroupId":"hls_chicken",
    "HlsManifests":{
        "SegmentDurationSeconds":6,
        "UseAudioRenditionGroup":false,
        "HlsMarkers":[
            {
                "AdMarkers":"NONE",
                "IncludeIframeOnlyStream":false,
                "ManifestName":"string",
                "ProgramDateTimeIntervalSeconds":60,
                "RepeatExtXKey":true,
                "StreamSelection":{
                    "MaxVideoBitsPerSecond":1000,
                    "MinVideoBitsPerSecond":0,
                    "StreamOrder":"ORIGINAL"
                }
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Konfigurasi Kemasan](https://docs.aws.amazon.com/mediapackage/latest/ug/pkg-cfig-create.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreatePackagingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/create-packaging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-packaging-group`
<a name="mediapackage-vod_CreatePackagingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-packaging-group`.

**AWS CLI**  
**Untuk membuat grup kemasan**  
`create-packaging-group`Contoh berikut mencantumkan semua grup kemasan yang dikonfigurasi di AWS akun saat ini.  

```
aws mediapackage-vod create-packaging-group \
    --id hls_chicken
```
Output:  

```
{
    "Arn": "arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-groups/hls_chicken",
    "Id": "hls_chicken"
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup Kemasan](https://docs.aws.amazon.com/mediapackage/latest/ug/pkg-group-create.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [CreatePackagingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/create-packaging-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-asset`
<a name="mediapackage-vod_DeleteAsset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-asset`.

**AWS CLI**  
**Untuk menghapus aset**  
`delete-asset`Contoh berikut menghapus aset bernama`30sec_chicken`.  

```
aws mediapackage-vod delete-asset \
    --id 30sec_chicken
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Aset](https://docs.aws.amazon.com/mediapackage/latest/ug/asset-delete.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DeleteAsset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/delete-asset.html)di *Referensi AWS CLI Perintah*. 

### `delete-packaging-configuration`
<a name="mediapackage-vod_DeletePackagingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-packaging-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi kemasan**  
`delete-packaging-configuration`Contoh berikut menghapus konfigurasi kemasan bernama`CMAF`.  

```
aws mediapackage-vod delete-packaging-configuration \
    --id CMAF
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Konfigurasi Kemasan](https://docs.aws.amazon.com/mediapackage/latest/ug/pkg-cfig-delete.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DeletePackagingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/delete-packaging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-packaging-group`
<a name="mediapackage-vod_DeletePackagingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-packaging-group`.

**AWS CLI**  
**Untuk menghapus grup kemasan**  
`delete-packaging-group`Contoh berikut menghapus kelompok kemasan bernama`Dash_widevine`.  

```
aws mediapackage-vod delete-packaging-group \
    --id Dash_widevine
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Grup Kemasan](https://docs.aws.amazon.com/mediapackage/latest/ug/pkg-group-delete.html) di * MediaPackage Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DeletePackagingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/delete-packaging-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-asset`
<a name="mediapackage-vod_DescribeAsset_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-asset`.

**AWS CLI**  
**Untuk mendeskripsikan aset**  
`describe-asset`Contoh berikut menampilkan semua rincian aset bernama`30sec_chicken`.  

```
aws mediapackage-vod describe-asset \
    --id 30sec_chicken
```
Output:  

```
{
    "Arn":"arn:aws:mediapackage-vod:us-west-2:111122223333:assets/30sec_chicken",
    "Id":"30sec_chicken",
    "PackagingGroupId":"Packaging_group_1",
    "SourceArn":"arn:aws:s3::111122223333:video-bucket/A/30sec_chicken.smil",
    "SourceRoleArn":"arn:aws:iam::111122223333:role/EMP_Vod",
    "EgressEndpoints":[
        {
            "PackagingConfigurationId":"DASH",
            "Url":"https://a5f46a44118ba3e3724ef39ef532e701.egress.mediapackage-vod.us-west-2.amazonaws.com/out/v1/aad7962c569946119c2d5a691be5663c/66c25aff456d463aae0855172b3beb27/4ddfda6da17c4c279a1b8401cba31892/index.mpd"
        },
        {
            "PackagingConfigurationId":"HLS",
            "Url":"https://a5f46a44118ba3e3724ef39ef532e701.egress.mediapackage-vod.us-west-2.amazonaws.com/out/v1/aad7962c569946119c2d5a691be5663c/6e5bf286a3414254a2bf0d22ae148d7e/06b5875b4d004c3cbdc4da2dc4d14638/index.m3u8"
        },
        {
            "PackagingConfigurationId":"CMAF",
            "Url":"https://a5f46a44118ba3e3724ef39ef532e701.egress.mediapackage-vod.us-west-2.amazonaws.com/out/v1/aad7962c569946119c2d5a691be5663c/628fb5d8d89e4702958b020af27fde0e/05eb062214064238ad6330a443aff7f7/index.m3u8"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Aset](https://docs.aws.amazon.com/mediapackage/latest/ug/asset-view.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DescribeAsset](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/describe-asset.html)di *Referensi AWS CLI Perintah*. 

### `describe-packaging-configuration`
<a name="mediapackage-vod_DescribePackagingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-packaging-configuration`.

**AWS CLI**  
**Untuk menggambarkan konfigurasi kemasan**  
`describe-packaging-configuration`Contoh berikut menampilkan semua rincian konfigurasi kemasan bernama`DASH`.  

```
aws mediapackage-vod describe-packaging-configuration \
    --id DASH
```
Output:  

```
{
    "Arn":"arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-configurations/DASH",
    "Id":"DASH",
    "PackagingGroupId":"Packaging_group_1",
    "DashPackage":[
        {
            "SegmentDurationSeconds":"2"
        },
        {
            "DashManifests":{
                "ManifestName":"index",
                "MinBufferTimeSeconds":"30",
                "Profile":"NONE"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Konfigurasi Kemasan](https://docs.aws.amazon.com/mediapackage/latest/ug/pkg-cfig-view.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DescribePackagingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/describe-packaging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-packaging-group`
<a name="mediapackage-vod_DescribePackagingGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-packaging-group`.

**AWS CLI**  
**Untuk menggambarkan kelompok pengemasan**  
`describe-packaging-group`Contoh berikut menampilkan semua rincian kelompok kemasan bernama`Packaging_group_1`.  

```
aws mediapackage-vod describe-packaging-group \
    --id Packaging_group_1
```
Output:  

```
{
    "Arn": "arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-groups/Packaging_group_1",
    "Id": "Packaging_group_1"
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Grup Kemasan](https://docs.aws.amazon.com/mediapackage/latest/ug/pkg-group-view.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DescribePackagingGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/describe-packaging-group.html)di *Referensi AWS CLI Perintah*. 

### `list-assets`
<a name="mediapackage-vod_ListAssets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-assets`.

**AWS CLI**  
**Untuk daftar semua aset**  
`list-assets`Contoh berikut mencantumkan semua aset yang dikonfigurasi dalam AWS akun saat ini.  

```
aws mediapackage-vod list-assets
```
Output:  

```
{
    "Assets": [
        "Arn": "arn:aws:mediapackage-vod:us-west-2:111122223333:assets/30sec_chicken",
        "Id": "30sec_chicken",
        "PackagingGroupId": "Packaging_group_1",
        "SourceArn": "arn:aws:s3::111122223333:video-bucket/A/30sec_chicken.smil",
        "SourceRoleArn": "arn:aws:iam::111122223333:role/EMP_Vod"
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Aset](https://docs.aws.amazon.com/mediapackage/latest/ug/asset-view.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListAssets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/list-assets.html)di *Referensi AWS CLI Perintah*. 

### `list-packaging-configurations`
<a name="mediapackage-vod_ListPackagingConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-packaging-configurations`.

**AWS CLI**  
**Untuk membuat daftar semua konfigurasi kemasan**  
`list-packaging-configurations`Contoh berikut mencantumkan semua konfigurasi kemasan yang dikonfigurasi pada grup kemasan bernama`Packaging_group_1`.  

```
aws mediapackage-vod list-packaging-configurations \
    --packaging-group-id Packaging_group_1
```
Output:  

```
{
    "PackagingConfigurations":[
        {
            "Arn":"arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-configurations/CMAF",
            "Id":"CMAF",
            "PackagingGroupId":"Packaging_group_1",
            "CmafPackage":[
                {
                    "SegmentDurationSeconds":"2"
                },
                {
                    "HlsManifests":{
                        "AdMarkers":"NONE",
                        "RepeatExtXKey":"False",
                        "ManifestName":"index",
                        "ProgramDateTimeIntervalSeconds":"0",
                        "IncludeIframeOnlyStream":"False"
                    }
                }
            ]
        },
        {
            "Arn":"arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-configurations/DASH",
            "Id":"DASH",
            "PackagingGroupId":"Packaging_group_1",
            "DashPackage":[
                {
                    "SegmentDurationSeconds":"2"
                },
                {
                    "DashManifests":{
                        "ManifestName":"index",
                        "MinBufferTimeSeconds":"30",
                        "Profile":"NONE"
                    }
                }
            ]
        },
        {
            "Arn":"arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-configurations/HLS",
            "Id":"HLS",
            "PackagingGroupId":"Packaging_group_1",
            "HlsPackage":[
                {
                    "SegmentDurationSeconds":"6",
                    "UseAudioRenditionGroup":"False"
                },
                {
                    "HlsManifests":{
                        "AdMarkers":"NONE",
                        "RepeatExtXKey":"False",
                        "ManifestName":"index",
                        "ProgramDateTimeIntervalSeconds":"0",
                        "IncludeIframeOnlyStream":"False"
                    }
                }
            ]
        },
        {
            "Arn":"arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-configurations/New_config_0_copy",
            "Id":"New_config_0_copy",
            "PackagingGroupId":"Packaging_group_1",
            "HlsPackage":[
                {
                    "SegmentDurationSeconds":"6",
                    "UseAudioRenditionGroup":"False"
                },
                {
                    "Encryption":{
                        "EncryptionMethod":"AWS_128",
                        "SpekeKeyProvider":{
                           "RoleArn":"arn:aws:iam:111122223333::role/SPEKERole",
                            "Url":"https://lfgubdvs97.execute-api.us-west-2.amazonaws.com/EkeStage/copyProtection/",
                            "SystemIds":[
                                "81376844-f976-481e-a84e-cc25d39b0b33"
                            ]
                        }
                    }
                },
                {
                    "HlsManifests":{
                        "AdMarkers":"NONE",
                        "RepeatExtXKey":"False",
                        "ManifestName":"index",
                        "ProgramDateTimeIntervalSeconds":"0",
                        "IncludeIframeOnlyStream":"False"
                    }
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Konfigurasi Kemasan](https://docs.aws.amazon.com/mediapackage/latest/ug/pkg-cfig-view.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListPackagingConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/list-packaging-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-packaging-groups`
<a name="mediapackage-vod_ListPackagingGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-packaging-groups`.

**AWS CLI**  
**Untuk membuat daftar semua kelompok kemasan**  
`list-packaging-groups`Contoh berikut mencantumkan semua grup kemasan yang dikonfigurasi di AWS akun saat ini.  

```
aws mediapackage-vod list-packaging-groups
```
Output:  

```
{
    "PackagingGroups": [
        {
            "Arn": "arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-groups/Dash_widevine",
            "Id": "Dash_widevine"
        },
        {
            "Arn": "arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-groups/Encrypted_HLS",
            "Id": "Encrypted_HLS"
        },
        {
            "Arn": "arn:aws:mediapackage-vod:us-west-2:111122223333:packaging-groups/Packaging_group_1",
            "Id": "Packaging_group_1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Grup Kemasan](https://docs.aws.amazon.com/mediapackage/latest/ug/pkg-group-view.html) di *Panduan MediaPackage Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListPackagingGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediapackage-vod/list-packaging-groups.html)di *Referensi AWS CLI Perintah*. 

# MediaStore Contoh Data Plane menggunakan AWS CLI
<a name="cli_2_mediastore-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With MediaStore Data Plane.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-object`
<a name="mediastore-data_DeleteObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-object`.

**AWS CLI**  
**Untuk menghapus objek**  
`delete-object`Contoh berikut menghapus objek yang ditentukan.  

```
aws mediastore-data delete-object \
    --endpoint=https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --path=/folder_name/README.md
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-delete.html) di * MediaStore Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DeleteObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore-data/delete-object.html)di *Referensi AWS CLI Perintah*. 

### `describe-object`
<a name="mediastore-data_DescribeObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-object`.

**AWS CLI**  
**Untuk melihat header untuk objek**  
`describe-object`Contoh berikut menampilkan header untuk objek di jalur yang ditentukan.  

```
aws mediastore-data describe-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --path events/baseball/setup.jpg
```
Output:  

```
{
    "LastModified": "Fri, 19 Jul 2019 21:50:31 GMT",
    "ContentType": "image/jpeg",
    "ContentLength": "3860266",
    "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3"
}
```
Untuk informasi selengkapnya, lihat [Melihat Detail Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-view-details.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DescribeObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore-data/describe-object.html)di *Referensi AWS CLI Perintah*. 

### `get-object`
<a name="mediastore-data_GetObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object`.

**AWS CLI**  
**Contoh 1: Untuk mengunduh seluruh objek**  
`get-object`Contoh berikut mendownload objek yang ditentukan.  

```
aws mediastore-data get-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --path events/baseball/setup.jpg setup.jpg
```
Output:  

```
{
    "ContentType": "image/jpeg",
    "StatusCode": 200,
    "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3",
    "ContentLength": "3860266",
    "LastModified": "Fri, 19 Jul 2019 21:50:31 GMT"
}
```
**Contoh 2: Untuk men-download bagian dari objek**  
`get-object`Contoh berikut mendownload bagian tertentu dari suatu objek.  

```
aws mediastore-data get-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --path events/baseball/setup.jpg setup.jpg \
    --range "bytes=0-100"
```
Output:  

```
{
    "StatusCode": 206,
    "LastModified": "Fri, 19 Jul 2019 21:50:31 GMT",
    "ContentType": "image/jpeg",
    "ContentRange": "bytes 0-100/3860266",
    "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3",
    "ContentLength": "101"
}
```
Untuk informasi selengkapnya, lihat [Mengunduh Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-download.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [GetObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore-data/get-object.html)di *Referensi AWS CLI Perintah*. 

### `list-items`
<a name="mediastore-data_ListItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-items`.

**AWS CLI**  
**Contoh 1: Untuk melihat daftar item (objek dan folder) yang disimpan dalam wadah**  
`list-items`Contoh berikut menampilkan daftar item (objek dan folder) yang disimpan dalam wadah yang ditentukan.  

```
aws mediastore-data list-items \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com
```
Output:  

```
{
    "Items": [
        {
            "Type": "OBJECT",
            "ContentLength": 3784,
            "Name": "setup.jpg",
            "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3",
            "ContentType": "image/jpeg",
            "LastModified": 1563571859.379
        },
        {
            "Type": "FOLDER",
            "Name": "events"
        }
    ]
}
```
**Contoh 2: Untuk melihat daftar item (objek dan folder) yang disimpan dalam folder**  
`list-items`Contoh berikut menampilkan daftar item (objek dan folder) yang disimpan dalam folder yang ditentukan.  

```
aws mediastore-data list-items \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --path events/baseball
```
Output:  

```
{
    "Items": [
        {
            "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3",
            "ContentType": "image/jpeg",
            "Type": "OBJECT",
            "ContentLength": 3860266,
            "LastModified": 1563573031.872,
            "Name": "setup.jpg"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Daftar Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-view-list.html) di *Panduan MediaStore Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [ListItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore-data/list-items.html)di *Referensi AWS CLI Perintah*. 

### `put-object`
<a name="mediastore-data_PutObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object`.

**AWS CLI**  
**Contoh 1: Untuk mengunggah objek ke wadah**  
`put-object`Contoh berikut meng-upload objek ke wadah tertentu.  

```
aws mediastore-data put-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --body ReadMe.md \
    --path ReadMe.md \
    --cache-control "max-age=6, public" \
    --content-type binary/octet-stream
```
Output:  

```
{
    "ContentSHA256": "f29bc64a9d3732b4b9035125fdb3285f5b6455778edca72414671e0ca3b2e0de",
    "StorageClass": "TEMPORAL",
    "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3"
}
```
**Contoh 2: Untuk mengunggah objek ke folder dalam wadah**  
`put-object`Contoh berikut meng-upload objek ke folder tertentu dalam wadah.  

```
aws mediastore-data put-object \
    --endpoint https://aaabbbcccdddee.data.mediastore.us-west-2.amazonaws.com \
    --body ReadMe.md \
    --path /september-events/ReadMe.md \
    --cache-control "max-age=6, public" \
    --content-type binary/octet-stream
```
Output:  

```
{
    "ETag": "2aa333bbcc8d8d22d777e999c88d4aa9eeeeee4dd89ff7f555555555555da6d3",
    "ContentSHA256": "f29bc64a9d3732b4b9035125fdb3285f5b6455778edca72414671e0ca3b2e0de",
    "StorageClass": "TEMPORAL"
}
```
Untuk informasi selengkapnya, lihat [Mengunggah Objek](https://docs.aws.amazon.com/mediastore/latest/ug/objects-upload.html) di * MediaStore Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [PutObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediastore-data/put-object.html)di *Referensi AWS CLI Perintah*. 

# MediaTailor contoh menggunakan AWS CLI
<a name="cli_2_mediatailor_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with MediaTailor.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-playback-configuration`
<a name="mediatailor_DeletePlaybackConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-playback-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi**  
Berikut ini `delete-playback-configuration` menghapus konfigurasi bernama`campaign_short`.  

```
aws mediatailor delete-playback-configuration \
    --name campaign_short
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Konfigurasi](https://docs.aws.amazon.com/mediatailor/latest/ug/configurations-delete.html) di * MediaTailor Panduan Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [DeletePlaybackConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediatailor/delete-playback-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-playback-configuration`
<a name="mediatailor_GetPlaybackConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-playback-configuration`.

**AWS CLI**  
**Untuk mendeskripsikan konfigurasi**  
Berikut ini `get-playback-configuration` menampilkan semua rincian konfigurasi bernama`west_campaign`.  

```
aws mediatailor get-playback-configuration \
    --name west_campaign
```
Output:  

```
{
     "AdDecisionServerUrl": "http://your.ads.url",
     "CdnConfiguration": {},
     "DashConfiguration": {
         "ManifestEndpointPrefix": "https://170c14299689462897d0cc45fc2000bb.mediatailor.us-west-2.amazonaws.com/v1/dash/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/west_campaign/",
         "MpdLocation": "EMT_DEFAULT",
         "OriginManifestType": "MULTI_PERIOD"
     },
     "HlsConfiguration": {
         "ManifestEndpointPrefix": "https://170c14299689462897d0cc45fc2000bb.mediatailor.us-west-2.amazonaws.com/v1/master/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/west_campaign/"
     },
     "Name": "west_campaign",
     "PlaybackConfigurationArn": "arn:aws:mediatailor:us-west-2:123456789012:playbackConfiguration/west_campaign",
     "PlaybackEndpointPrefix": "https://170c14299689462897d0cc45fc2000bb.mediatailor.us-west-2.amazonaws.com",
     "SessionInitializationEndpointPrefix": "https://170c14299689462897d0cc45fc2000bb.mediatailor.us-west-2.amazonaws.com/v1/session/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/west_campaign/",
     "Tags": {},
     "VideoContentSourceUrl": "https://8343f7014c0ea438.mediapackage.us-west-2.amazonaws.com/out/v1/683f0f2ff7cd43a48902e6dcd5e16dcf/index.m3u8"
}
```
Untuk informasi selengkapnya, lihat [Melihat Konfigurasi](https://docs.aws.amazon.com/mediatailor/latest/ug/configurations-view.html) di *Panduan MediaTailor Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [GetPlaybackConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediatailor/get-playback-configuration.html)di *Referensi AWS CLI Perintah*. 

### `list-playback-configurations`
<a name="mediatailor_ListPlaybackConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-playback-configurations`.

**AWS CLI**  
**Untuk daftar semua konfigurasi**  
Berikut ini `list-playback-configurations` menampilkan semua detail konfigurasi pada AWS akun saat ini.  

```
aws mediatailor list-playback-configurations
```
Output:  

```
{
    "Items": [
        {
            "AdDecisionServerUrl": "http://your.ads.url",
            "CdnConfiguration": {},
            "DashConfiguration": {
                "ManifestEndpointPrefix": "https://170c14299689462897d0cc45fc2000bb.mediatailor.us-west-2.amazonaws.com/v1/dash/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/west_campaign/",
                "MpdLocation": "EMT_DEFAULT",
                "OriginManifestType": "MULTI_PERIOD"
            },
            "HlsConfiguration": {
                "ManifestEndpointPrefix": "https://170c14299689462897d0cc45fc2000bb.mediatailor.us-west-2.amazonaws.com/v1/master/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/west_campaign/"
            },
            "Name": "west_campaign",
            "PlaybackConfigurationArn": "arn:aws:mediatailor:us-west-2:123456789012:playbackConfiguration/west_campaign",
            "PlaybackEndpointPrefix": "https://170c14299689462897d0cc45fc2000bb.mediatailor.us-west-2.amazonaws.com",
            "SessionInitializationEndpointPrefix": "https://170c14299689462897d0cc45fc2000bb.mediatailor.us-west-2.amazonaws.com/v1/session/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/west_campaign/",
            "Tags": {},
            "VideoContentSourceUrl": "https://8343f7014c0ea438.mediapackage.us-west-2.amazonaws.com/out/v1/683f0f2ff7cd43a48902e6dcd5e16dcf/index.m3u8"
        },
        {
            "AdDecisionServerUrl": "http://your.ads.url",
            "CdnConfiguration": {},
            "DashConfiguration": {
                "ManifestEndpointPrefix": "https://73511f91d6a24ca2b93f3cf1d7cedd67.mediatailor.us-west-2.amazonaws.com/v1/dash/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/sports_campaign/",
                "MpdLocation": "DISABLED",
                "OriginManifestType": "MULTI_PERIOD"
            },
            "HlsConfiguration": {
                "ManifestEndpointPrefix": "https://73511f91d6a24ca2b93f3cf1d7cedd67.mediatailor.us-west-2.amazonaws.com/v1/master/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/sports_campaign/"
            },
            "Name": "sports_campaign",
            "PlaybackConfigurationArn": "arn:aws:mediatailor:us-west-2:123456789012:playbackConfiguration/sports_campaign",
            "PlaybackEndpointPrefix": "https://73511f91d6a24ca2b93f3cf1d7cedd67.mediatailor.us-west-2.amazonaws.com",
            "SessionInitializationEndpointPrefix": "https://73511f91d6a24ca2b93f3cf1d7cedd67.mediatailor.us-west-2.amazonaws.com/v1/session/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/sports_campaign/",
            "SlateAdUrl": "http://s3.bucket/slate_ad.mp4",
            "Tags": {},
            "VideoContentSourceUrl": "https://c4af3793bf76b33c.mediapackage.us-west-2.amazonaws.com/out/v1/1dc6718be36f4f34bb9cd86bc50925e6/sports_endpoint/index.m3u8"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat Melihat Konfigurasi< https://docs.aws.amazon.com/mediatailor/ latest/ug/configurations -view.html> di Panduan Pengguna Elemental.AWS MediaTailor *  
+  Untuk detail API, lihat [ListPlaybackConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediatailor/list-playback-configurations.html)di *Referensi AWS CLI Perintah*. 

### `put-playback-configuration`
<a name="mediatailor_PutPlaybackConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-playback-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi**  
Berikut ini `put-playback-configuration` membuat konfigurasi bernama`campaign_short`.  

```
aws mediatailor put-playback-configuration \
    --name campaign_short \
    --ad-decision-server-url http://your.ads.url \
    --video-content-source-url http://video.bucket/index.m3u8
```
Output:  

```
{
    "AdDecisionServerUrl": "http://your.ads.url",
    "CdnConfiguration": {},
    "DashConfiguration": {
         "ManifestEndpointPrefix": "https://13484114d38f4383bc0d6a7cb879bd00.mediatailor.us-west-2.amazonaws.com/v1/dash/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/campaign_short/",
         "MpdLocation": "EMT_DEFAULT",
         "OriginManifestType": "MULTI_PERIOD"
    },
    "HlsConfiguration": {
        "ManifestEndpointPrefix": "https://13484114d38f4383bc0d6a7cb879bd00.mediatailor.us-west-2.amazonaws.com/v1/master/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/campaign_short/"
    },
    "Name": "campaign_short",
    "PlaybackConfigurationArn": "arn:aws:mediatailor:us-west-2:123456789012:playbackConfiguration/campaign_short",
    "PlaybackEndpointPrefix": "https://13484114d38f4383bc0d6a7cb879bd00.mediatailor.us-west-2.amazonaws.com",
    "SessionInitializationEndpointPrefix": "https://13484114d38f4383bc0d6a7cb879bd00.mediatailor.us-west-2.amazonaws.com/v1/session/1cbfeaaecb69778e0c167d0505a2bc57da2b1754/campaign_short/",
    "Tags": {},
    "VideoContentSourceUrl": "http://video.bucket/index.m3u8"
}
```
Untuk informasi selengkapnya, lihat [Membuat Konfigurasi](https://docs.aws.amazon.com/mediatailor/latest/ug/configurations-create.html) di *Panduan MediaTailor Pengguna AWS Elemental*.  
+  Untuk detail API, lihat [PutPlaybackConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/mediatailor/put-playback-configuration.html)di *Referensi AWS CLI Perintah*. 

# Contoh MemoryDB menggunakan AWS CLI
<a name="cli_2_memorydb_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda bagaimana melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface dengan MemoryDB.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `copy-snapshot`
<a name="memorydb_CopySnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-snapshot`.

**AWS CLI**  
**Untuk menyalin snapshot**  
`copy-snapshot`Contoh berikut membuat salinan snapshot.  

```
aws memorydb copy-snapshot \
    --source-snapshot-name my-cluster-snapshot \
    --target-snapshot-name my-cluster-snapshot-copy
```
Output  

```
{
    "Snapshot": {
        "Name": "my-cluster-snapshot-copy",
        "Status": "creating",
        "Source": "manual",
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:snapshot/my-cluster-snapshot-copy",
        "ClusterConfiguration": {
            "Name": "my-cluster",
            "Description": " ",
            "NodeType": "db.r6g.large",
            "EngineVersion": "6.2",
            "MaintenanceWindow": "wed:03:00-wed:04:00",
            "Port": 6379,
            "ParameterGroupName": "default.memorydb-redis6",
            "SubnetGroupName": "my-sg",
            "VpcId": "vpc-xx2574fc",
            "SnapshotRetentionLimit": 0,
            "SnapshotWindow": "04:30-05:30",
            "NumShards": 2
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menyalin snapshot](https://docs.aws.amazon.com/memorydb/latest/devguide/snapshots-copying.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [CopySnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/copy-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-acl`
<a name="memorydb_CreateAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-acl`.

**AWS CLI**  
**Untuk membuat ACL**  
`create-acl`Contoh berikut membuat daftar kontrol Access baru.  

```
aws memorydb create-acl \
    --acl-name "new-acl-1" \
    --user-names "my-user"
```
Output:  

```
{
    "ACL": {
        "Name": "new-acl-1",
        "Status": "creating",
        "UserNames": [
            "my-user"
        ],
        "MinimumEngineVersion": "6.2",
        "Clusters": [],
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:acl/new-acl-1"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna dengan Daftar Kontrol Akses di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.acls.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [CreateAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/create-acl.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster`
<a name="memorydb_CreateCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster`.

**AWS CLI**  
**Untuk membuat cluster**  
`create-cluster`Contoh berikut membuat cluster baru.  

```
aws memorydb create-cluster \
    --cluster-name my-new-cluster \
    --node-type db.r6g.large \
    --acl-name my-acl \
    --subnet-group my-sg
```
Output:  

```
{
    "Cluster": {
        "Name": "my-new-cluster",
        "Status": "creating",
        "NumberOfShards": 1,
        "AvailabilityMode": "MultiAZ",
        "ClusterEndpoint": {
            "Port": 6379
        },
        "NodeType": "db.r6g.large",
        "EngineVersion": "6.2",
        "EnginePatchVersion": "6.2.6",
        "ParameterGroupName": "default.memorydb-redis6",
        "ParameterGroupStatus": "in-sync",
        "SubnetGroupName": "my-sg",
        "TLSEnabled": true,
        "ARN": "arn:aws:memorydb:us-east-1:49165xxxxxx:cluster/my-new-cluster",
        "SnapshotRetentionLimit": 0,
        "MaintenanceWindow": "sat:10:00-sat:11:00",
        "SnapshotWindow": "07:30-08:30",
        "ACLName": "my-acl",
        "AutoMinorVersionUpgrade": true
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Cluster](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [CreateCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/create-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-parameter-group`
<a name="memorydb_CreateParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-parameter-group`.

**AWS CLI**  
**Untuk membuat grup parameter**  
`create-parameter-group`Contoh berikut membuat grup parameter.  

```
aws memorydb create-parameter-group \
    --parameter-group-name myRedis6x \
    --family memorydb_redis6 \
    --description "my-parameter-group"
```
Output:  

```
{
    "ParameterGroup": {
        "Name": "myredis6x",
        "Family": "memorydb_redis6",
        "Description": "my-parameter-group",
        "ARN": "arn:aws:memorydb:us-east-1:49165xxxxxx:parametergroup/myredis6x"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup parameter](https://docs.aws.amazon.com/memorydb/latest/devguide/parametergroups.creating.html) di *Panduan Pengguna MemoryDB*.  
+  Untuk detail API, lihat [CreateParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/create-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `create-snapshot`
<a name="memorydb_CreateSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-snapshot`.

**AWS CLI**  
**Untuk membuat snapshot**  
`create-snapshot`Contoh berikut membuat snapshot.  

```
aws memorydb create-snapshot \
    --cluster-name my-cluster \
    --snapshot-name my-cluster-snapshot
```
Output:  

```
{
    "Snapshot": {
        "Name": "my-cluster-snapshot1",
        "Status": "creating",
        "Source": "manual",
        "ARN": "arn:aws:memorydb:us-east-1:49165xxxxxx:snapshot/my-cluster-snapshot",
        "ClusterConfiguration": {
            "Name": "my-cluster",
            "Description": "",
            "NodeType": "db.r6g.large",
            "EngineVersion": "6.2",
            "MaintenanceWindow": "wed:03:00-wed:04:00",
            "Port": 6379,
            "ParameterGroupName": "default.memorydb-redis6",
            "SubnetGroupName": "my-sg",
            "VpcId": "vpc-862xxxxc",
            "SnapshotRetentionLimit": 0,
            "SnapshotWindow": "04:30-05:30",
            "NumShards": 2
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat snapshot manual](https://docs.aws.amazon.com/memorydb/latest/devguide/snapshots-manual.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [CreateSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/create-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-subnet-group`
<a name="memorydb_CreateSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subnet-group`.

**AWS CLI**  
**Untuk membuat grup subnet**  
`create-subnet-group`Contoh berikut membuat grup subnet.  

```
aws memorydb create-subnet-group \
    --subnet-group-name mysubnetgroup \
    --description "my subnet group" \
    --subnet-ids subnet-5623xxxx
```
Output:  

```
{
    "SubnetGroup": {
        "Name": "mysubnetgroup",
        "Description": "my subnet group",
        "VpcId": "vpc-86257xxx",
        "Subnets": [
            {
                "Identifier": "subnet-5623xxxx",
                "AvailabilityZone": {
                    "Name": "us-east-1a"
                }
            }
        ],
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:subnetgroup/mysubnetgroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat grup subnet di Panduan Pengguna](https://docs.aws.amazon.com/memorydb/latest/devguide/subnetgroups.creating.html) *MemoryDB*.  
+  Untuk detail API, lihat [CreateSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/create-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `create-user`
<a name="memorydb_CreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user`.

**AWS CLI**  
**Untuk membuat pengguna**  
`create-user`Contoh berikut menciptakan pengguna baru.  

```
aws memorydb create-user \
    --user-name user-name-1 \
    --access-string "~objects:* ~items:* ~public:*" \
     --authentication-mode \
         Passwords="enterapasswordhere",Type=password
```
Output:  

```
{
    "User": {
        "Name": "user-name-1",
        "Status": "active",
        "AccessString": "off ~objects:* ~items:* ~public:* resetchannels -@all",
        "ACLNames": [],
        "MinimumEngineVersion": "6.2",
        "Authentication": {
            "Type": "password",
            "PasswordCount": 1
        },
        "ARN": "arn:aws:memorydb:us-west-2:491658xxxxxx:user/user-name-1"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna dengan Daftar Kontrol Akses di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.acls.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [CreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/create-user.html)di *Referensi AWS CLI Perintah*. 

### `delete-acl`
<a name="memorydb_DeleteAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-acl`.

**AWS CLI**  
**Untuk menghapus ACL**  
`delete-acl`Contoh berikut menghapus daftar kontrol Access.  

```
aws memorydb delete-acl \
    --acl-name "new-acl-1"
```
Output:  

```
{
    "ACL": {
        "Name": "new-acl-1",
        "Status": "deleting",
        "UserNames": [
            "pat"
        ],
        "MinimumEngineVersion": "6.2",
        "Clusters": [],
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:acl/new-acl-1"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna dengan Daftar Kontrol Akses di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.acls.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DeleteAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/delete-acl.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster`
<a name="memorydb_DeleteCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster`.

**AWS CLI**  
**Untuk menghapus klaster**  
`delete-cluster`Contoh berikut menghapus cluster.  

```
aws memorydb delete-cluster \
    --cluster-name my-new-cluster
```
Output:  

```
{
    "Cluster": {
        "Name": "my-new-cluster",
        "Status": "deleting",
        "NumberOfShards": 1,
        "ClusterEndpoint": {
            "Address": "clustercfg.my-new-cluster.xxxxx.memorydb.us-east-1.amazonaws.com",
            "Port": 6379
        },
        "NodeType": "db.r6g.large",
        "EngineVersion": "6.2",
        "EnginePatchVersion": "6.2.6",
        "ParameterGroupName": "default.memorydb-redis6",
        "ParameterGroupStatus": "in-sync",
        "SubnetGroupName": "my-sg",
        "TLSEnabled": true,
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:cluster/my-new-cluster",
        "SnapshotRetentionLimit": 0,
        "MaintenanceWindow": "sat:10:00-sat:11:00",
        "SnapshotWindow": "07:30-08:30",
        "AutoMinorVersionUpgrade": true
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus klaster di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.delete.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DeleteCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/delete-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-parameter-group`
<a name="memorydb_DeleteParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-parameter-group`.

**AWS CLI**  
**Untuk menghapus grup parameter**  
`delete-parameter-group`Contoh berikut menghapus grup parameter.  

```
aws memorydb delete-parameter-group \
    --parameter-group-name myRedis6x
```
Output:  

```
{
    "ParameterGroup": {
        "Name": "myredis6x",
        "Family": "memorydb_redis6",
        "Description": "my-parameter-group",
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:parametergroup/myredis6x"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus grup parameter di Panduan Pengguna](https://docs.aws.amazon.com/memorydb/latest/devguide/parametergroups.deleting.html) *MemoryDB*.  
+  Untuk detail API, lihat [DeleteParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/delete-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-snapshot`
<a name="memorydb_DeleteSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot**  
`delete-snapshot`Contoh berikut menghapus snapshot.  

```
aws memorydb delete-snapshot \
    --snapshot-name my-cluster-snapshot
```
Output:  

```
{
    "Snapshot": {
        "Name": "my-cluster-snapshot",
        "Status": "deleting",
        "Source": "manual",
        "ARN": "arn:aws:memorydb:us-east-1:49165xxxxxx:snapshot/my-cluster-snapshot",
        "ClusterConfiguration": {
            "Name": "my-cluster",
            "Description": "",
            "NodeType": "db.r6g.large",
            "EngineVersion": "6.2",
            "MaintenanceWindow": "wed:03:00-wed:04:00",
            "Port": 6379,
            "ParameterGroupName": "default.memorydb-redis6",
            "SubnetGroupName": "my-sg",
            "VpcId": "vpc-862xxxxc",
            "SnapshotRetentionLimit": 0,
            "SnapshotWindow": "04:30-05:30",
            "NumShards": 2
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus snapshot](https://docs.aws.amazon.com/memorydb/latest/devguide/snapshots-deleting.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DeleteSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/delete-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-subnet-group`
<a name="memorydb_DeleteSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-subnet-group`.

**AWS CLI**  
**Untuk menghapus grup subnet**  
`delete-subnet-group`Contoh berikut menghapus subnet.  

```
aws memorydb delete-subnet-group \
    --subnet-group-name mysubnetgroup
```
Output:  

```
{
    "SubnetGroup": {
        "Name": "mysubnetgroup",
        "Description": "my subnet group",
        "VpcId": "vpc-86xxxx4fc",
        "Subnets": [
            {
                "Identifier": "subnet-56xxx61b",
                "AvailabilityZone": {
                    "Name": "us-east-1a"
                }
            }
        ],
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:subnetgroup/mysubnetgroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus grup subnet](https://docs.aws.amazon.com/memorydb/latest/devguide/subnetgroups.deleting.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DeleteSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/delete-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-user`
<a name="memorydb_DeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna**  
`delete-user`Contoh berikut menghapus pengguna.  

```
aws memorydb delete-user \
    --user-name my-user
```
Output:  

```
{
    "User": {
        "Name": "my-user",
        "Status": "deleting",
        "AccessString": "on ~app::* resetchannels -@all +@read",
        "ACLNames": [
            "my-acl"
        ],
        "MinimumEngineVersion": "6.2",
        "Authentication": {
            "Type": "password",
            "PasswordCount": 1
        },
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:user/my-user"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna dengan Daftar Kontrol Akses di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.acls.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/delete-user.html)di *Referensi AWS CLI Perintah*. 

### `describe-acls`
<a name="memorydb_DescribeAcls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-acls`.

**AWS CLI**  
**Untuk mengembalikan daftar ACLs**  
Berikut ini describe-acls` mengembalikan daftar. ACLs  

```
aws memorydb describe-acls
```
Output:  

```
{
    "ACLs": [
        {
            "Name": "open-access",
            "Status": "active",
            "UserNames": [
                "default"
            ],
            "MinimumEngineVersion": "6.2",
            "Clusters": [],
            "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:acl/open-access"
        },
        {
            "Name": my-acl",
            "Status": "active",
            "UserNames": [],
            "MinimumEngineVersion": "6.2",
            "Clusters": [
                "my-cluster"
            ],
            "ARN": "arn:aws:memorydb:us-east-1:49165xxxxxxx:acl/my-acl"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna dengan Daftar Kontrol Akses di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.acls.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DescribeAcls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-acls.html)di *Referensi AWS CLI Perintah*. 

### `describe-clusters`
<a name="memorydb_DescribeClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-clusters`.

**AWS CLI**  
**Untuk mengembalikan daftar cluster**  
Berikut ini menjelaskan clusters` mengembalikan daftar cluster.  

```
aws memorydb describe-clusters
```
Output:  

```
{
    "Clusters": [
        {
                "Name": "my-cluster",
                "Status": "available",
                "NumberOfShards": 2,
                "ClusterEndpoint": {
                    "Address": "clustercfg.my-cluster.llru6f.memorydb.us-east-1.amazonaws.com",
                    "Port": 6379
                },
                "NodeType": "db.r6g.large",
                "EngineVersion": "6.2",
                "EnginePatchVersion": "6.2.6",
                "ParameterGroupName": "default.memorydb-redis6",
                "ParameterGroupStatus": "in-sync",
                "SecurityGroups": [
                    {
                        "SecurityGroupId": "sg-0a1434xxxxxc9fae",
                        "Status": "active"
                    }
                ],
                "SubnetGroupName": "pat-sg",
                "TLSEnabled": true,
                "ARN": "arn:aws:memorydb:us-east-1:49165xxxxxx:cluster/my-cluster",
                "SnapshotRetentionLimit": 0,
                "MaintenanceWindow": "wed:03:00-wed:04:00",
                "SnapshotWindow": "04:30-05:30",
                "ACLName": "my-acl",
                "AutoMinorVersionUpgrade": true
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola cluster di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DescribeClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-clusters.html)di *Referensi AWS CLI Perintah*. 

### `describe-engine-versions`
<a name="memorydb_DescribeEngineVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-engine-versions`.

**AWS CLI**  
**Untuk mengembalikan daftar versi mesin**  
Berikut describe-engine-versions `mengembalikan daftar versi mesin.  

```
aws memorydb describe-engine-versions
```
Output:  

```
{
    "EngineVersions": [
        {
            "EngineVersion": "6.2",
            "EnginePatchVersion": "6.2.6",
            "ParameterGroupFamily": "memorydb_redis6"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Versi mesin dan peningkatan di Panduan Pengguna](https://docs.aws.amazon.com/memorydb/latest/devguide/engine-versions.htmll) *MemoryDB*.  
+  Untuk detail API, lihat [DescribeEngineVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-engine-versions.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="memorydb_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
**Untuk mengembalikan daftar acara**  
Berikut ini menjelaskan peristiwa` mengembalikan daftar peristiwa.  

```
aws memorydb describe-events
```
Output:  

```
{
    "Events": [
        {
            "SourceName": "my-cluster",
            "SourceType": "cluster",
            "Message": "Increase replica count started for replication group my-cluster on 2022-07-22T14:09:01.440Z",
            "Date": "2022-07-22T07:09:01.443000-07:00"
        },
        {
            "SourceName": "my-user",
            "SourceType": "user",
            "Message": "Create user my-user operation completed.",
            "Date": "2022-07-22T07:00:02.975000-07:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memantau peristiwa](https://docs.aws.amazon.com/memorydb/latest/devguide/monitoring-events.html) di *Panduan Pengguna MemoryDB*.  
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-parameter-groups`
<a name="memorydb_DescribeParameterGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-parameter-groups`.

**AWS CLI**  
**Untuk mengembalikan daftar grup parameter**  
Berikut describe-parameter-groups `mengembalikan daftar kelompok parameter.  

```
aws memorydb describe-parameter-groups
```
Output:  

```
{
    "ParameterGroups": [
        {
            "Name": "default.memorydb-redis6",
            "Family": "memorydb_redis6",
            "Description": "Default parameter group for memorydb_redis6",
            "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:parametergroup/default.memorydb-redis6"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi parameter engine menggunakan grup parameter di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/parametergroups.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DescribeParameterGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-parameter-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-parameters`
<a name="memorydb_DescribeParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-parameters`.

**AWS CLI**  
**Untuk mengembalikan daftar parameter**  
Berikut ini menjelaskan parameter` mengembalikan daftar parameter.  

```
aws memorydb describe-parameters
```
Output:  

```
{
    "Parameters": [
        {
            "Name": "acllog-max-len",
            "Value": "128",
            "Description": "The maximum length of the ACL Log",
            "DataType": "integer",
            "AllowedValues": "1-10000",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "activedefrag",
            "Value": "no",
            "Description": "Enabled active memory defragmentation",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "active-defrag-cycle-max",
            "Value": "75",
            "Description": "Maximal effort for defrag in CPU percentage",
            "DataType": "integer",
            "AllowedValues": "1-75",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "active-defrag-cycle-min",
            "Value": "5",
            "Description": "Minimal effort for defrag in CPU percentage",
            "DataType": "integer",
            "AllowedValues": "1-75",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "active-defrag-ignore-bytes",
            "Value": "104857600",
            "Description": "Minimum amount of fragmentation waste to start active defrag",
            "DataType": "integer",
            "AllowedValues": "1048576-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "active-defrag-max-scan-fields",
            "Value": "1000",
            "Description": "Maximum number of set/hash/zset/list fields that will be processed from the main dictionary scan",
            "DataType": "integer",
            "AllowedValues": "1-1000000",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "active-defrag-threshold-lower",
            "Value": "10",
            "Description": "Minimum percentage of fragmentation to start active defrag",
            "DataType": "integer",
            "AllowedValues": "1-100",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "active-defrag-threshold-upper",
            "Value": "100",
            "Description": "Maximum percentage of fragmentation at which we use maximum effort",
            "DataType": "integer",
            "AllowedValues": "1-100",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "active-expire-effort",
            "Value": "1",
            "Description": "The amount of effort that redis uses to expire items in the active expiration job",
            "DataType": "integer",
            "AllowedValues": "1-10",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "activerehashing",
            "Value": "yes",
            "Description": "Apply rehashing or not",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "client-output-buffer-limit-normal-hard-limit",
            "Value": "0",
            "Description": "Normal client output buffer hard limit in bytes",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "client-output-buffer-limit-normal-soft-limit",
            "Value": "0",
            "Description": "Normal client output buffer soft limit in bytes",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "client-output-buffer-limit-normal-soft-seconds",
            "Value": "0",
            "Description": "Normal client output buffer soft limit in seconds",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "client-output-buffer-limit-pubsub-hard-limit",
            "Value": "33554432",
            "Description": "Pubsub client output buffer hard limit in bytes",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "client-output-buffer-limit-pubsub-soft-limit",
            "Value": "8388608",
            "Description": "Pubsub client output buffer soft limit in bytes",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "client-output-buffer-limit-pubsub-soft-seconds",
            "Value": "60",
            "Description": "Pubsub client output buffer soft limit in seconds",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "hash-max-ziplist-entries",
            "Value": "512",
            "Description": "The maximum number of hash entries in order for the dataset to be compressed",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "hash-max-ziplist-value",
            "Value": "64",
            "Description": "The threshold of biggest hash entries in order for the dataset to be compressed",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "hll-sparse-max-bytes",
            "Value": "3000",
            "Description": "HyperLogLog sparse representation bytes limit",
            "DataType": "integer",
            "AllowedValues": "1-16000",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "lazyfree-lazy-eviction",
            "Value": "no",
            "Description": "Perform an asynchronous delete on evictions",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "lazyfree-lazy-expire",
            "Value": "no",
            "Description": "Perform an asynchronous delete on expired keys",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "lazyfree-lazy-server-del",
            "Value": "no",
            "Description": "Perform an asynchronous delete on key updates",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "lazyfree-lazy-user-del",
            "Value": "no",
            "Description": "Specifies whether the default behavior of DEL command acts the same as UNLINK",
            "DataType": "string",
            "AllowedValues": "yes,no",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "lfu-decay-time",
            "Value": "1",
            "Description": "The amount of time in minutes to decrement the key counter for LFU eviction policyd",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "lfu-log-factor",
            "Value": "10",
            "Description": "The log factor for incrementing key counter for LFU eviction policy",
            "DataType": "integer",
            "AllowedValues": "1-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "list-compress-depth",
            "Value": "0",
            "Description": "Number of quicklist ziplist nodes from each side of the list to exclude from compression. The head and tail of the list are always uncompressed for fast push/pop operations",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "maxmemory-policy",
            "Value": "noeviction",
            "Description": "Max memory policy",
            "DataType": "string",
            "AllowedValues": "volatile-lru,allkeys-lru,volatile-lfu,allkeys-lfu,volatile-random,allkeys-random,volatile-ttl,noeviction",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "maxmemory-samples",
            "Value": "3",
            "Description": "Max memory samples",
            "DataType": "integer",
            "AllowedValues": "1-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "notify-keyspace-events",
            "Description": "The keyspace events for Redis to notify Pub/Sub clients about. By default all notifications are disabled",
            "DataType": "string",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "set-max-intset-entries",
            "Value": "512",
            "Description": "The limit in the size of the set in order for the dataset to be compressed",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "slowlog-log-slower-than",
            "Value": "10000",
            "Description": "The execution time, in microseconds, to exceed in order for the command to get logged. Note that a negative number disables the slow log, while a value of zero forces the logging of every command",
            "DataType": "integer",
            "AllowedValues": "-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "slowlog-max-len",
            "Value": "128",
            "Description": "The length of the slow log. There is no limit to this length. Just be aware that it will consume memory. You can reclaim memory used by the slow log with SLOWLOG RESET.",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "stream-node-max-bytes",
            "Value": "4096",
            "Description": "The maximum size of a single node in a stream in bytes",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "stream-node-max-entries",
            "Value": "100",
            "Description": "The maximum number of items a single node in a stream can contain",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "tcp-keepalive",
            "Value": "300",
            "Description": "If non-zero, send ACKs every given number of seconds",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "timeout",
            "Value": "0",
            "Description": "Close connection if client is idle for a given number of seconds, or never if 0",
            "DataType": "integer",
            "AllowedValues": "0,20-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "tracking-table-max-keys",
            "Value": "1000000",
            "Description": "The maximum number of keys allowed for the tracking table for client side caching",
            "DataType": "integer",
            "AllowedValues": "1-100000000",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "zset-max-ziplist-entries",
            "Value": "128",
            "Description": "The maximum number of sorted set entries in order for the dataset to be compressed",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        },
        {
            "Name": "zset-max-ziplist-value",
            "Value": "64",
            "Description": "The threshold of biggest sorted set entries in order for the dataset to be compressed",
            "DataType": "integer",
            "AllowedValues": "0-",
            "MinimumEngineVersion": "6.2.4"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi parameter engine menggunakan grup parameter di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/parametergroups.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DescribeParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-snapshots`
<a name="memorydb_DescribeSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-snapshots`.

**AWS CLI**  
**Untuk mengembalikan daftar snapshot**  
Berikut ini describe-snapshots` mengembalikan daftar snapshot.  

```
aws memorydb describe-snapshots
```
Output:  

```
{
"Snapshots": [
    {
        "Name": "my-cluster-snapshot",
        "Status": "available",
        "Source": "manual",
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx2:snapshot/my-cluster-snapshot",
        "ClusterConfiguration": {
            "Name": "my-cluster",
            "Description": " ",
            "NodeType": "db.r6g.large",
            "EngineVersion": "6.2",
            "MaintenanceWindow": "wed:03:00-wed:04:00",
            "Port": 6379,
            "ParameterGroupName": "default.memorydb-redis6",
            "SubnetGroupName": "my-sg",
            "VpcId": "vpc-862574fc",
            "SnapshotRetentionLimit": 0,
            "SnapshotWindow": "04:30-05:30",
            "NumShards": 2
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Snapshot dan restore di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/snapshots.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DescribeSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `describe-subnet-groups`
<a name="memorydb_DescribeSubnetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-subnet-groups`.

**AWS CLI**  
**Untuk mengembalikan daftar grup subnet**  
Berikut describe-subnet-groups `mengembalikan daftar kelompok subnet.  

```
aws memorydb describe-subnet-groups
```
Output  

```
{
    "SubnetGroups": [
        {
            "Name": "my-sg",
            "Description": "pat-sg",
            "VpcId": "vpc-86xxx4fc",
            "Subnets": [
                {
                    "Identifier": "subnet-faxx84a6",
                    "AvailabilityZone": {
                        "Name": "us-east-1b"
                    }
                },
                {
                    "Identifier": "subnet-56xxf61b",
                    "AvailabilityZone": {
                        "Name": "us-east-1a"
                    }
                }
            ],
            "ARN": "arn:aws:memorydb:us-east-1:49165xxxxxx:subnetgroup/my-sg"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Subnet dan grup subnet](https://docs.aws.amazon.com/memorydb/latest/devguide/subnetgroups.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DescribeSubnetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-subnet-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-users`
<a name="memorydb_DescribeUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-users`.

**AWS CLI**  
**Untuk mengembalikan daftar pengguna**  
Berikut ini describe-users` mengembalikan daftar pengguna.  

```
aws memorydb describe-users
```
Output  

```
{
    "Users": [
        {
            "Name": "default",
            "Status": "active",
            "AccessString": "on ~* &* +@all",
            "ACLNames": [
                "open-access"
            ],
            "MinimumEngineVersion": "6.0",
            "Authentication": {
                "Type": "no-password"
            },
            "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:user/default"
        },
        {
            "Name": "my-user",
            "Status": "active",
            "AccessString": "off ~objects:* ~items:* ~public:* resetchannels -@all",
            "ACLNames": [],
            "MinimumEngineVersion": "6.2",
            "Authentication": {
                "Type": "password",
                "PasswordCount": 2
            },
            "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:user/my-user"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna dengan Daftar Kontrol Akses di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.acls.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [DescribeUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/describe-users.html)di *Referensi AWS CLI Perintah*. 

### `failover-shard`
<a name="memorydb_FailoverShard_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`failover-shard`.

**AWS CLI**  
**Untuk gagal karena pecahan**  
Failover-shard` berikut gagal di atas pecahan.  

```
aws memorydb failover-shard \
    --cluster-name my-cluster --shard-name 0001
```
Output:  

```
{
    "Cluster": {
        "Name": "my-cluster",
        "Status": "available",
        "NumberOfShards": 2,
        "ClusterEndpoint": {
            "Address": "clustercfg.my-cluster.xxxxxx.memorydb.us-east-1.amazonaws.com",
            "Port": 6379
        },
        "NodeType": "db.r6g.large",
        "EngineVersion": "6.2",
        "EnginePatchVersion": "6.2.6",
        "ParameterGroupName": "default.memorydb-redis6",
        "ParameterGroupStatus": "in-sync",
        "SecurityGroups": [
            {
                "SecurityGroupId": "sg-0a143xxxx45c9fae",
                "Status": "active"
            }
        ],
        "SubnetGroupName": "my-sg",
        "TLSEnabled": true,
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:cluster/my-cluster",
        "SnapshotRetentionLimit": 0,
        "MaintenanceWindow": "wed:03:00-wed:04:00",
        "SnapshotWindow": "04:30-05:30",
        "AutoMinorVersionUpgrade": true
    }
}
```
*Untuk informasi selengkapnya, lihat [Meminimalkan waktu henti dengan MultiAZ](https://docs.aws.amazon.com/memorydb/latest/devguide/autofailover.html) di Panduan Pengguna MemoryDB.*  
+  Untuk detail API, lihat [FailoverShard](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/failover-shard.html)di *Referensi AWS CLI Perintah*. 

### `list-allowed-node-type-updates`
<a name="memorydb_ListAllowedNodeTypeUpdates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-allowed-node-type-updates`.

**AWS CLI**  
**Untuk mengembalikan daftar pembaruan tipe node yang diizinkan**  
Berikut list-allowed-node-type -updates mengembalikan daftar update tipe node yang tersedia.  

```
aws memorydb list-allowed-node-type-updates
```
Output:  

```
{
    "Cluster": {
        "Name": "my-cluster",
        "Status": "available",
        "NumberOfShards": 2,
        "ClusterEndpoint": {
            "Address": "clustercfg.my-cluster.xxxxxx.memorydb.us-east-1.amazonaws.com",
            "Port": 6379
        },
        "NodeType": "db.r6g.large",
        "EngineVersion": "6.2",
        "EnginePatchVersion": "6.2.6",
        "ParameterGroupName": "default.memorydb-redis6",
        "ParameterGroupStatus": "in-sync",
        "SecurityGroups": [
            {
                "SecurityGroupId": "sg-0a143xxxx45c9fae",
                "Status": "active"
            }
        ],
        "SubnetGroupName": "my-sg",
        "TLSEnabled": true,
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:cluster/my-cluster",
        "SnapshotRetentionLimit": 0,
        "MaintenanceWindow": "wed:03:00-wed:04:00",
        "SnapshotWindow": "04:30-05:30",
        "AutoMinorVersionUpgrade": true
    }
}
```
Untuk informasi selengkapnya, lihat [Penskalaan](https://docs.aws.amazon.com/memorydb/latest/devguide/scaling.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [ListAllowedNodeTypeUpdates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/list-allowed-node-type-updates.html)di *Referensi AWS CLI Perintah*. 

### `list-tags`
<a name="memorydb_ListTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags`.

**AWS CLI**  
**Untuk mengembalikan daftar tag**  
Berikut daftar-tag mengembalikan daftar tag.  

```
aws memorydb list-tags \
    --resource-arn arn:aws:memorydb:us-east-1:491658xxxxxx:cluster/my-cluster
```
Output:  

```
{
    "TagList": [
        {
            "Key": "mytag",
            "Value": "myvalue"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya](https://docs.aws.amazon.com/memorydb/latest/devguide/tagging-resources.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [ListTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/list-tags.html)di *Referensi AWS CLI Perintah*. 

### `reset-parameter-group`
<a name="memorydb_ResetParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-parameter-group`.

**AWS CLI**  
**Untuk mengatur ulang grup parameter**  
Berikut reset-parameter-group `me-reset grup parameter.  

```
aws memorydb reset-parameter-group \
    --parameter-group-name my-parameter-group \
    --all-parameters
```
Output:  

```
{
    "ParameterGroup": {
        "Name": "my-parameter-group",
        "Family": "memorydb_redis6",
        "Description": "my parameter group",
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:parametergroup/my-parameter-group"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi parameter engine menggunakan grup parameter di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/parametergroups.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [ResetParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/reset-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="memorydb_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai sumber daya**  
Berikut tag-resource` menambahkan tag ke sumber daya.  

```
aws memorydb tag-resource \
    --resource-arn arn:aws:memorydb:us-east-1:491658xxxxxx:cluster/my-cluster \
    --tags Key="mykey",Value="myvalue"
```
Output:  

```
{
    "TagList": [
        {
            "Key": "mytag",
            "Value": "myvalue"
        },
        {
            "Key": "mykey",
            "Value": "myvalue"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya](https://docs.aws.amazon.com/memorydb/latest/devguide/tagging-resources.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="memorydb_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk memperbarui ACL**  
Berikut update-acl` memperbarui ACL dengan menambahkan pengguna.  

```
aws memorydb untag-resource \
    --resource-arn arn:aws:memorydb:us-east-1:491658xxxxx:cluster/my-cluster \
    --tag-keys mykey
```
Output:  

```
{
    "TagList": [
        {
            "Key": "mytag",
            "Value": "myvalue"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya](https://docs.aws.amazon.com/memorydb/latest/devguide/tagging-resources.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-cluster`
<a name="memorydb_UpdateCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-cluster`.

**AWS CLI**  
**Untuk memperbarui klaster**  
Berikut update-cluster`` memperbarui kelompok parameter cluster ke. my-parameter-group  

```
aws memorydb update-cluster \
    --cluster-name my-cluster \
    --parameter-group-name my-parameter-group
```
Output:  

```
{
    "Cluster": {
        "Name": "my-cluster",
        "Status": "available",
        "NumberOfShards": 2,
        "AvailabilityMode": "MultiAZ",
        "ClusterEndpoint": {
            "Address": "clustercfg.my-cluster.llru6f.memorydb.us-east-1.amazonaws.com",
            "Port": 6379
        },
        "NodeType": "db.r6g.large",
        "EngineVersion": "6.2",
        "EnginePatchVersion": "6.2.6",
        "ParameterGroupName": "my-parameter-group",
        "ParameterGroupStatus": "in-sync",
        "SecurityGroups": [
            {
                "SecurityGroupId": "sg-0a143xxxxxc9fae",
                "Status": "active"
            }
        ],
        "SubnetGroupName": "pat-sg",
        "TLSEnabled": true,
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:cluster/my-cluster",
        "SnapshotRetentionLimit": 0,
        "MaintenanceWindow": "wed:03:00-wed:04:00",
        "SnapshotWindow": "04:30-05:30",
        "ACLName": "my-acl",
        "AutoMinorVersionUpgrade": true
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi klaster](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.modify.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [UpdateCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/update-cluster.html)di *Referensi AWS CLI Perintah*. 

### `update-parameter-group`
<a name="memorydb_UpdateParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-parameter-group`.

**AWS CLI**  
**Untuk memperbarui grup parameter**  
Berikut update-parameter-group ``memperbarui grup parameter.  

```
aws memorydb update-parameter-group \
    --parameter-group-name my-parameter-group \
    --parameter-name-values "ParameterName=activedefrag, ParameterValue=no"
```
Output:  

```
{
    "ParameterGroup": {
        "Name": "my-parameter-group",
        "Family": "memorydb_redis6",
        "Description": "my parameter group",
        "ARN": "arn:aws:memorydb:us-east-1:49165xxxxxx:parametergroup/my-parameter-group"
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi grup parameter di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/parametergroups.modifying.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [UpdateParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/update-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `update-subnet-group`
<a name="memorydb_UpdateSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-subnet-group`.

**AWS CLI**  
**Untuk memperbarui grup subnet**  
Berikut update-subnet-group `memperbarui subnet ID grup subnet.  

```
aws memorydb update-subnet-group \
    --subnet-group-name my-sg \
    --subnet-ids subnet-01f29d458f3xxxxx
```
Output:  

```
{
    "SubnetGroup": {
        "Name": "my-sg-1",
        "Description": "my-sg",
        "VpcId": "vpc-09d2cfc01xxxxxxx",
        "Subnets": [
            {
                "Identifier": "subnet-01f29d458fxxxxxx",
                "AvailabilityZone": {
                    "Name": "us-east-1a"
                }
            }
        ],
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:subnetgroup/my-sg"
    }
}
```
Untuk informasi selengkapnya, lihat [Subnet dan grup subnet](https://docs.aws.amazon.com/memorydb/latest/devguide/subnetgroups.html) di Panduan Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [UpdateSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/update-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `update-user`
<a name="memorydb_UpdateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user`.

**AWS CLI**  
**Untuk memperbarui pengguna**  
Berikut ini `update-user` memodifikasi string akses pengguna.  

```
aws memorydb update-user \
    --user-name my-user \
    --access-string "off ~objects:* ~items:* ~public:* resetchannels -@all"
```
Output:  

```
{
    "User": {
        "Name": "my-user",
        "Status": "modifying",
        "AccessString": "off ~objects:* ~items:* ~public:* resetchannels -@all",
        "ACLNames": [
            "myt-acl"
        ],
        "MinimumEngineVersion": "6.2",
        "Authentication": {
            "Type": "password",
            "PasswordCount": 2
        },
        "ARN": "arn:aws:memorydb:us-east-1:491658xxxxxx:user/my-user"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengautentikasi pengguna dengan Daftar Kontrol Akses di Panduan](https://docs.aws.amazon.com/memorydb/latest/devguide/clusters.acls.html) Pengguna *MemoryDB*.  
+  Untuk detail API, lihat [UpdateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/memorydb/update-user.html)di *Referensi AWS CLI Perintah*. 

# Amazon MSK contoh menggunakan AWS CLI
<a name="cli_2_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan MSK AWS Command Line Interface with Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-cluster`
<a name="kafka_CreateCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster`.

**AWS CLI**  
**Untuk membuat cluster MSK Amazon**  
`create-cluster`Contoh berikut membuat cluster MSK bernama `MessagingCluster` dengan tiga node broker. File JSON bernama `brokernodegroupinfo.json` menentukan tiga subnet di mana Anda ingin Amazon MSK untuk mendistribusikan node broker. Contoh ini tidak menentukan tingkat pemantauan, sehingga cluster mendapatkan `DEFAULT` level.  

```
aws kafka create-cluster \
    --cluster-name "MessagingCluster" \
    --broker-node-group-info file://brokernodegroupinfo.json \
    --kafka-version "2.2.1" \
    --number-of-broker-nodes 3
```
Isi dari `brokernodegroupinfo.json`:  

```
{
    "InstanceType": "kafka.m5.xlarge",
    "BrokerAZDistribution": "DEFAULT",
    "ClientSubnets": [
        "subnet-0123456789111abcd",
        "subnet-0123456789222abcd",
        "subnet-0123456789333abcd"
    ]
}
```
Output:  

```
{
    "ClusterArn": "arn:aws:kafka:us-west-2:123456789012:cluster/MessagingCluster/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE-2",
    "ClusterName": "MessagingCluster",
    "State": "CREATING"
}
```
Untuk informasi selengkapnya, lihat [Membuat Cluster MSK Amazon](https://docs.aws.amazon.com/msk/latest/developerguide/msk-create-cluster.html) di *Amazon Managed Streaming for Apache* Kafka.  
+  Untuk detail API, lihat [CreateCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kafka/create-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-configuration`
<a name="kafka_CreateConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi MSK Amazon kustom**  
`create-configuration`Contoh berikut membuat konfigurasi MSK kustom dengan properti server yang ditentukan dalam file input.  

```
aws kafka create-configuration \
    --name "CustomConfiguration" \
    --description "Topic autocreation enabled; Apache ZooKeeper timeout 2000 ms; Log rolling 604800000 ms." \
    --kafka-versions "2.2.1" \
    --server-properties file://configuration.txt
```
Isi dari `configuration.txt`:  

```
auto.create.topics.enable = true
zookeeper.connection.timeout.ms = 2000
log.roll.ms = 604800000
```
Perintah ini tidak menghasilkan output. Output:  

```
{
    "Arn": "arn:aws:kafka:us-west-2:123456789012:configuration/CustomConfiguration/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE-2",
    "CreationTime": "2019-10-09T15:26:05.548Z",
    "LatestRevision":
        {
            "CreationTime": "2019-10-09T15:26:05.548Z",
            "Description": "Topic autocreation enabled; Apache ZooKeeper timeout 2000 ms; Log rolling 604800000 ms.",
            "Revision": 1
        },
    "Name": "CustomConfiguration"
}
```
Untuk informasi selengkapnya, lihat [Operasi Konfigurasi MSK Amazon di Panduan](https://docs.aws.amazon.com/msk/latest/developerguide/msk-configuration-operations.html) Pengembang *Amazon Managed Streaming for Apache* Kafka.  
+  Untuk detail API, lihat [CreateConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kafka/create-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster`
<a name="kafka_DescribeCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster`.

**AWS CLI**  
**Untuk menggambarkan sebuah cluster**  
`describe-cluster`Contoh berikut menjelaskan cluster MSK Amazon.  

```
aws kafka describe-cluster \
    --cluster-arn arn:aws:kafka:us-east-1:123456789012:cluster/demo-cluster-1/6357e0b2-0e6a-4b86-a0b4-70df934c2e31-5
```
Output:  

```
{
    "ClusterInfo": {
        "BrokerNodeGroupInfo": {
            "BrokerAZDistribution": "DEFAULT",
            "ClientSubnets": [
                "subnet-cbfff283",
                "subnet-6746046b"
            ],
            "InstanceType": "kafka.m5.large",
            "SecurityGroups": [
                "sg-f839b688"
            ],
            "StorageInfo": {
                "EbsStorageInfo": {
                    "VolumeSize": 100
                }
            }
        },
        "ClusterArn": "arn:aws:kafka:us-east-1:123456789012:cluster/demo-cluster-1/6357e0b2-0e6a-4b86-a0b4-70df934c2e31-5",
        "ClusterName": "demo-cluster-1",
        "CreationTime": "2020-07-09T02:31:36.223000+00:00",
        "CurrentBrokerSoftwareInfo": {
            "KafkaVersion": "2.2.1"
        },
        "CurrentVersion": "K3AEGXETSR30VB",
        "EncryptionInfo": {
            "EncryptionAtRest": {
                "DataVolumeKMSKeyId": "arn:aws:kms:us-east-1:123456789012:key/a7ca56d5-0768-4b64-a670-339a9fbef81c"
            },
            "EncryptionInTransit": {
                "ClientBroker": "TLS_PLAINTEXT",
                "InCluster": true
            }
        },
        "EnhancedMonitoring": "DEFAULT",
        "OpenMonitoring": {
            "Prometheus": {
                "JmxExporter": {
                    "EnabledInBroker": false
                },
                "NodeExporter": {
                    "EnabledInBroker": false
                }
            }
        },
        "NumberOfBrokerNodes": 2,
        "State": "ACTIVE",
        "Tags": {},
        "ZookeeperConnectString": "z-2.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:2181,z-1.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:2181,z-3.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:2181"
    }
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Cluster MSK Amazon di Panduan](https://docs.aws.amazon.com/msk/latest/developerguide/msk-list-clusters.html) Pengembang *Amazon Managed Streaming for Apache* Kafka.  
+  Untuk detail API, lihat [DescribeCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kafka/describe-cluster.html)di *Referensi AWS CLI Perintah*. 

### `get-bootstrap-brokers`
<a name="kafka_GetBootstrapBrokers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bootstrap-brokers`.

**AWS CLI**  
**Untuk mendapatkan broker bootstrap**  
`get-bootstrap-brokers`Contoh berikut mengambil informasi broker bootstrap untuk cluster MSK Amazon.  

```
aws kafka get-bootstrap-brokers \
    --cluster-arn arn:aws:kafka:us-east-1:123456789012:cluster/demo-cluster-1/6357e0b2-0e6a-4b86-a0b4-70df934c2e31-5
```
Output:  

```
{
    "BootstrapBrokerString": "b-1.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:9092,b-2.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:9092",
    "BootstrapBrokerStringTls": "b-1.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:9094,b-2.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:9094"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan Broker Bootstrap](https://docs.aws.amazon.com/msk/latest/developerguide/msk-get-bootstrap-brokers.html) di *Amazon Managed Streaming for Apache Kafka* Developer Guide.  
+  Untuk detail API, lihat [GetBootstrapBrokers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kafka/get-bootstrap-brokers.html)di *Referensi AWS CLI Perintah*. 

### `list-clusters`
<a name="kafka_ListClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-clusters`.

**AWS CLI**  
**Untuk daftar cluster yang tersedia**  
`list-clusters`Contoh berikut mencantumkan kluster MSK Amazon di akun Anda AWS .  

```
aws kafka list-clusters
```
Output:  

```
{
    "ClusterInfoList": [
        {
            "BrokerNodeGroupInfo": {
                "BrokerAZDistribution": "DEFAULT",
                "ClientSubnets": [
                    "subnet-cbfff283",
                    "subnet-6746046b"
                ],
                "InstanceType": "kafka.m5.large",
                "SecurityGroups": [
                    "sg-f839b688"
                ],
                "StorageInfo": {
                    "EbsStorageInfo": {
                        "VolumeSize": 100
                    }
                }
            },
            "ClusterArn": "arn:aws:kafka:us-east-1:123456789012:cluster/demo-cluster-1/6357e0b2-0e6a-4b86-a0b4-70df934c2e31-5",
            "ClusterName": "demo-cluster-1",
            "CreationTime": "2020-07-09T02:31:36.223000+00:00",
            "CurrentBrokerSoftwareInfo": {
                "KafkaVersion": "2.2.1"
            },
            "CurrentVersion": "K3AEGXETSR30VB",
            "EncryptionInfo": {
                "EncryptionAtRest": {
                    "DataVolumeKMSKeyId": "arn:aws:kms:us-east-1:123456789012:key/a7ca56d5-0768-4b64-a670-339a9fbef81c"
                },
                "EncryptionInTransit": {
                    "ClientBroker": "TLS_PLAINTEXT",
                    "InCluster": true
                }
            },
            "EnhancedMonitoring": "DEFAULT",
            "OpenMonitoring": {
                "Prometheus": {
                    "JmxExporter": {
                        "EnabledInBroker": false
                    },
                    "NodeExporter": {
                        "EnabledInBroker": false
                    }
                }
            },
            "NumberOfBrokerNodes": 2,
            "State": "ACTIVE",
            "Tags": {},
            "ZookeeperConnectString": "z-2.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:2181,z-1.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:2181,z-3.demo-cluster-1.xuy0sb.c5.kafka.us-east-1.amazonaws.com:2181"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Cluster MSK Amazon di Panduan](https://docs.aws.amazon.com/msk/latest/developerguide/msk-list-clusters.html) Pengembang *Amazon Managed Streaming for Apache* Kafka.  
+  Untuk detail API, lihat [ListClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kafka/list-clusters.html)di *Referensi AWS CLI Perintah*. 

### `update-broker-storage`
<a name="kafka_UpdateBrokerStorage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-broker-storage`.

**AWS CLI**  
**Untuk memperbarui penyimpanan EBS untuk broker**  
`update-broker-storage`Contoh berikut memperbarui jumlah penyimpanan EBS untuk semua broker di cluster. Amazon MSK menetapkan jumlah penyimpanan target untuk setiap broker ke jumlah yang ditentukan dalam contoh. Anda bisa mendapatkan versi cluster saat ini dengan menjelaskan cluster atau dengan mencantumkan semua cluster.  

```
aws kafka update-broker-storage \
    --cluster-arn "arn:aws:kafka:us-west-2:123456789012:cluster/MessagingCluster/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE-2" \
    --current-version "K21V3IB1VIZYYH" \
    --target-broker-ebs-volume-info "KafkaBrokerNodeId=ALL,VolumeSizeGB=1100"
```
Output mengembalikan ARN untuk operasi ini`update-broker-storage`. Untuk menentukan apakah operasi ini selesai, gunakan `describe-cluster-operation` perintah dengan ARN ini sebagai input.  

```
{
    "ClusterArn": "arn:aws:kafka:us-west-2:123456789012:cluster/MessagingCluster/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE-2",
    "ClusterOperationArn": "arn:aws:kafka:us-west-2:123456789012:cluster-operation/V123450123/a1b2c3d4-1234-abcd-cdef-22222EXAMPLE-2/a1b2c3d4-abcd-1234-bcde-33333EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Penyimpanan EBS untuk Broker di Panduan](https://docs.aws.amazon.com/msk/latest/developerguide/msk-update-storage.html) Pengembang *Amazon Managed Streaming for Apache* Kafka.  
+  Untuk detail API, lihat [UpdateBrokerStorage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kafka/update-broker-storage.html)di *Referensi AWS CLI Perintah*. 

### `update-cluster-configuration`
<a name="kafka_UpdateClusterConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-cluster-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi kluster MSK Amazon**  
`update-cluster-configuration`Contoh berikut memperbarui konfigurasi cluster MSK yang ada yang ditentukan. Ini menggunakan konfigurasi MSK khusus.  

```
aws kafka update-cluster-configuration \
    --cluster-arn "arn:aws:kafka:us-west-2:123456789012:cluster/MessagingCluster/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE-2" \
    --configuration-info file://configuration-info.json \
    --current-version "K21V3IB1VIZYYH"
```
Isi dari `configuration-info.json`:  

```
{
    "Arn": "arn:aws:kafka:us-west-2:123456789012:configuration/CustomConfiguration/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE-2",
    "Revision": 1
}
```
Output mengembalikan ARN untuk operasi ini`update-cluster-configuration`. Untuk menentukan apakah operasi ini selesai, gunakan `describe-cluster-operation` perintah dengan ARN ini sebagai input.  

```
{
    "ClusterArn": "arn:aws:kafka:us-west-2:123456789012:cluster/MessagingCluster/a1b2c3d4-5678-90ab-cdef-11111EXAMPLE-2",
    "ClusterOperationArn": "arn:aws:kafka:us-west-2:123456789012:cluster-operation/V123450123/a1b2c3d4-1234-abcd-cdef-22222EXAMPLE-2/a1b2c3d4-abcd-1234-bcde-33333EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Konfigurasi Cluster MSK Amazon di Panduan](https://docs.aws.amazon.com/msk/latest/developerguide/msk-update-cluster-cofig.html) Pengembang *Amazon Managed Streaming for Apache* Kafka.  
+  Untuk detail API, lihat [UpdateClusterConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/kafka/update-cluster-configuration.html)di *Referensi AWS CLI Perintah*. 

# Contoh Network Flow Monitor menggunakan AWS CLI
<a name="cli_2_networkflowmonitor_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Network Flow Monitor.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-monitor`
<a name="networkflowmonitor_CreateMonitor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-monitor`.

**AWS CLI**  
**Untuk membuat monitor**  
`create-monitor`Contoh berikut membuat monitor bernama `demo` dalam akun yang ditentukan.  

```
aws networkflowmonitor create-monitor \
    --monitor-name demo \
    --local-resources type="AWS::EC2::VPC",identifier="arn:aws:ec2:us-east-1:123456789012:vpc/vpc-03ea55eeda25adbb0"  \
    --scope-arn arn:aws:networkflowmonitor:us-east-1:123456789012:scope/e21cda79-30a0-4c12-9299-d8629d76d8cf
```
Output:  

```
{
    "monitorArn": "arn:aws:networkflowmonitor:us-east-1:123456789012:monitor/demo",
    "monitorName": "demo",
    "monitorStatus": "ACTIVE",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Membuat monitor di Monitor Aliran Jaringan](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-monitors-create.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateMonitor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/create-monitor.html)di *Referensi AWS CLI Perintah*. 

### `create-scope`
<a name="networkflowmonitor_CreateScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-scope`.

**AWS CLI**  
**Untuk membuat ruang lingkup**  
`create-scope`Contoh berikut membuat ruang lingkup yang mencakup seperangkat sumber daya yang Network Flow Monitor akan menghasilkan metrik lalu lintas jaringan.  

```
aws networkflowmonitor create-scope \
    --targets '[{"targetIdentifier":{"targetId":{"accountId":"123456789012"},"targetType":"ACCOUNT"},"region":"us-east-1"}]'
```
Output:  

```
{
    "scopeId": "97626f8d-8a21-4b5d-813a-1a0962dd4615",
    "status": "IN_PROGRESS",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Komponen dan fitur Network Flow Monitor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-components.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [CreateScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/create-scope.html)di *Referensi AWS CLI Perintah*. 

### `delete-monitor`
<a name="networkflowmonitor_DeleteMonitor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-monitor`.

**AWS CLI**  
**Untuk menghapus monitor**  
`delete-monitor`Contoh berikut menghapus monitor bernama `demo` dalam akun yang ditentukan.  

```
aws networkflowmonitor delete-monitor \
    --monitor-name demo
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus monitor di Monitor Aliran Jaringan](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-monitors-delete.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteMonitor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/delete-monitor.html)di *Referensi AWS CLI Perintah*. 

### `delete-scope`
<a name="networkflowmonitor_DeleteScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-scope`.

**AWS CLI**  
**Untuk menghapus ruang lingkup**  
`delete-scope`Contoh berikut menghapus lingkup tertentu.  

```
aws networkflowmonitor delete-scope \
    --scope-id fdc20616-6bb4-4242-a24e-a748e65ca7ac
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Komponen dan fitur Network Flow Monitor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-components.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [DeleteScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/delete-scope.html)di *Referensi AWS CLI Perintah*. 

### `get-monitor`
<a name="networkflowmonitor_GetMonitor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-monitor`.

**AWS CLI**  
**Untuk mengambil informasi tentang monitor**  
`get-monitor`Contoh berikut menampilkan informasi tentang monitor yang disebutkan `demo` dalam akun yang ditentukan.  

```
aws networkflowmonitor get-monitor \
    --monitor-name Demo
```
Output:  

```
{
    "monitorArn": "arn:aws:networkflowmonitor:us-east-1:123456789012:monitor/Demo",
    "monitorName": "Demo",
    "monitorStatus": "ACTIVE",
    "localResources": [
        {
            "type": "AWS::EC2::VPC",
            "identifier": "arn:aws:ec2:us-east-1:123456789012:vpc/vpc-03ea55eeda25adbb0"
        }
    ],
    "remoteResources": [],
    "createdAt": "2024-12-09T12:21:51.616000-06:00",
    "modifiedAt": "2024-12-09T12:21:55.412000-06:00",
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Komponen dan fitur Network Flow Monitor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-components.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetMonitor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/get-monitor.html)di *Referensi AWS CLI Perintah*. 

### `get-query-results-workload-insights-top-contributors-data`
<a name="networkflowmonitor_GetQueryResultsWorkloadInsightsTopContributorsData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-results-workload-insights-top-contributors-data`.

**AWS CLI**  
**Untuk mengambil data kontributor teratas tentang wawasan beban kerja**  
`get-query-results-workload-insights-top-contributors-data`Contoh berikut mengembalikan data untuk query tertentu.  

```
aws networkflowmonitor get-query-results-workload-insights-top-contributors-data \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf \
    --query-id cc4f4ab3-3103-33b8-80ff-d6597a0c6cea
```
Output:  

```
{
    "datapoints": [
        {
            "timestamps": [
                "2024-12-09T19:00:00+00:00",
                "2024-12-09T19:05:00+00:00",
                "2024-12-09T19:10:00+00:00"
            ],
            "values": [
                259943.0,
                194856.0,
                216432.0
            ],
            "label": "use1-az6"
        }
    ],
    "unit": "Bytes"
}
```
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [GetQueryResultsWorkloadInsightsTopContributorsData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/get-query-results-workload-insights-top-contributors-data.html)di *Referensi AWS CLI Perintah*. 

### `get-query-results-workload-insights-top-contributors`
<a name="networkflowmonitor_GetQueryResultsWorkloadInsightsTopContributors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-results-workload-insights-top-contributors`.

**AWS CLI**  
**Untuk mengambil kontributor teratas tentang wawasan beban kerja**  
`get-query-results-workload-insights-top-contributors`Contoh berikut mengembalikan data untuk query tertentu.  

```
aws networkflowmonitor get-query-results-workload-insights-top-contributors \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf \
    --query-id 1fc423d3-b144-37a6-80e6-e2c7d26eea0c
```
Output:  

```
{
    "topContributors": [
        {
            "accountId": "123456789012",
            "localSubnetId": "subnet-0a5b30fb95dca2c14",
            "localAz": "use1-az6",
            "localVpcId": "vpc-03ea55eeda25adbb0",
            "localRegion": "us-east-1",
            "remoteIdentifier": "",
            "value": 908443,
            "localSubnetArn": "arn:aws:ec2:us-east-1:123456789012:subnet/subnet-0a5b30fb95dca2c14",
            "localVpcArn": "arn:aws:ec2:us-east-1:123456789012:vpc/vpc-03ea55eeda25adbb0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [GetQueryResultsWorkloadInsightsTopContributors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/get-query-results-workload-insights-top-contributors.html)di *Referensi AWS CLI Perintah*. 

### `get-query-status-monitor-top-contributors`
<a name="networkflowmonitor_GetQueryStatusMonitorTopContributors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-status-monitor-top-contributors`.

**AWS CLI**  
**Untuk mengambil status kueri**  
`get-query-status-monitor-top-contributors`Contoh berikut menampilkan status kueri saat ini di akun yang ditentukan.  

```
aws networkflowmonitor get-query-status-monitor-top-contributors \
    --monitor-name Demo \
    --query-id 5398eabd-bc40-3f5f-aba3-bcb639d3c7ca
```
Output:  

```
{
    "status": "SUCCEEDED"
}
```
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [GetQueryStatusMonitorTopContributors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/get-query-status-monitor-top-contributors.html)di *Referensi AWS CLI Perintah*. 

### `get-query-status-workload-insights-top-contributors-data`
<a name="networkflowmonitor_GetQueryStatusWorkloadInsightsTopContributorsData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-status-workload-insights-top-contributors-data`.

**AWS CLI**  
**Untuk mengambil status kueri**  
`get-query-status-workload-insights-top-contributors-data`Contoh berikut menampilkan status kueri saat ini di akun yang ditentukan.  

```
aws networkflowmonitor get-query-status-workload-insights-top-contributors-data \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf \
    --query-id 4333754d-8ae1-3f29-b6b7-c36db2e7f8ac
```
Output:  

```
{
    "status": "SUCCEEDED"
}
```
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [GetQueryStatusWorkloadInsightsTopContributorsData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/get-query-status-workload-insights-top-contributors-data.html)di *Referensi AWS CLI Perintah*. 

### `get-query-status-workload-insights-top-contributors`
<a name="networkflowmonitor_GetQueryStatusWorkloadInsightsTopContributors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-query-status-workload-insights-top-contributors`.

**AWS CLI**  
**Untuk mengambil status kueri**  
`get-query-status-workload-insights-top-contributors`Contoh berikut menampilkan status kueri saat ini di akun yang ditentukan.  

```
aws networkflowmonitor get-query-status-workload-insights-top-contributors \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf \
    --query-id f2a87c70-3e5a-362e-8beb-4747d13d8419
```
Output:  

```
{
    "status": "SUCCEEDED"
}
```
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [GetQueryStatusWorkloadInsightsTopContributors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/get-query-status-workload-insights-top-contributors.html)di *Referensi AWS CLI Perintah*. 

### `get-scope`
<a name="networkflowmonitor_GetScope_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-scope`.

**AWS CLI**  
**Untuk mengambil informasi tentang ruang lingkup**  
`get-scope`Contoh berikut menampilkan informasi tentang lingkup, seperti status, tag, nama dan rincian target.  

```
aws networkflowmonitor get-scope \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf
```
Output:  

```
{
    "scopeId": "e21cda79-30a0-4c12-9299-d8629d76d8cf",
    "status": "SUCCEEDED",
    "scopeArn": "arn:aws:networkflowmonitor:us-east-1:123456789012:scope/e21cda79-30a0-4c12-9299-d8629d76d8cf",
    "targets": [
        {
            "targetIdentifier": {
                "targetId": {
                    "accountId": "123456789012"
                },
                "targetType": "ACCOUNT"
            },
            "region": "us-east-1"
        }
    ],
    "tags": {}
}
```
Untuk informasi selengkapnya, lihat [Komponen dan fitur Network Flow Monitor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-components.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [GetScope](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/get-scope.html)di *Referensi AWS CLI Perintah*. 

### `list-monitors`
<a name="networkflowmonitor_ListMonitors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-monitors`.

**AWS CLI**  
**Untuk mengambil daftar monitor**  
`list-monitors`Contoh berikut mengembalikan semua monitor di akun yang ditentukan.  

```
aws networkflowmonitor list-monitors
```
Output:  

```
{
    "monitors": [
        {
            "monitorArn": "arn:aws:networkflowmonitor:us-east-1:123456789012:monitor/Demo",
            "monitorName": "Demo",
            "monitorStatus": "ACTIVE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Komponen dan fitur Network Flow Monitor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-components.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListMonitors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/list-monitors.html)di *Referensi AWS CLI Perintah*. 

### `list-scopes`
<a name="networkflowmonitor_ListScopes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-scopes`.

**AWS CLI**  
**Untuk mengambil daftar cakupan**  
`list-scopes`Contoh berikut mencantumkan semua cakupan dalam akun yang ditentukan.  

```
aws networkflowmonitor list-scopes
```
Output:  

```
{
    "scopes": [
        {
            "scopeId": "fdc20616-6bb4-4242-a24e-a748e65ca7ac",
            "status": "SUCCEEDED",
            "scopeArn": "arn:aws:networkflowmonitor:us-east-1:123456789012:scope/fdc20616-6bb4-4242-a24e-a748e65ca7ac"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Komponen dan fitur Network Flow Monitor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-components.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListScopes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/list-scopes.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="networkflowmonitor_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk daftar tag**  
`list-tags-for-resource`Contoh berikut mengembalikan semua tag yang terkait dengan sumber daya yang ditentukan.  

```
aws networkflowmonitor list-tags-for-resource \
    --resource-arn arn:aws:networkflowmonitor:us-east-1:123456789012:monitor/Demo
```
Output:  

```
{
    "tags": {
        "Value": "Production",
        "Key": "stack"
    }
}
```
Untuk informasi selengkapnya, lihat [Menandai CloudWatch sumber daya Amazon Anda](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Tagging.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-query-monitor-top-contributors`
<a name="networkflowmonitor_StartQueryMonitorTopContributors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-query-monitor-top-contributors`.

**AWS CLI**  
**Untuk memulai kueri**  
`start-query-monitor-top-contributors`Contoh berikut memulai query yang mengembalikan ID query untuk mengambil kontributor teratas.  

```
aws networkflowmonitor start-query-monitor-top-contributors \
    --monitor-name Demo \
    --start-time 2024-12-09T19:00:00Z \
    --end-time 2024-12-09T19:15:00Z \
    --metric-name DATA_TRANSFERRED \
    --destination-category UNCLASSIFIED
```
Output:  

```
{
    "queryId": "aecd3a88-0283-35b0-a17d-6e944dc8531d"
}
```
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [StartQueryMonitorTopContributors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/start-query-monitor-top-contributors.html)di *Referensi AWS CLI Perintah*. 

### `start-query-workload-insights-top-contributors-data`
<a name="networkflowmonitor_StartQueryWorkloadInsightsTopContributorsData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-query-workload-insights-top-contributors-data`.

**AWS CLI**  
**Untuk memulai kueri**  
`start-query-workload-insights-top-contributors-data`Contoh berikut memulai query yang mengembalikan ID query untuk mengambil kontributor teratas.  

```
aws networkflowmonitor start-query-workload-insights-top-contributors-data \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf \
    --start-time 2024-12-09T19:00:00Z \
    --end-time 2024-12-09T19:15:00Z \
    --metric-name DATA_TRANSFERRED \
    --destination-category UNCLASSIFIED
```
Output:  

```
{
    "queryId": "cc4f4ab3-3103-33b8-80ff-d6597a0c6cea"
}
```
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [StartQueryWorkloadInsightsTopContributorsData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/start-query-workload-insights-top-contributors-data.html)di *Referensi AWS CLI Perintah*. 

### `start-query-workload-insights-top-contributors`
<a name="networkflowmonitor_StartQueryWorkloadInsightsTopContributors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-query-workload-insights-top-contributors`.

**AWS CLI**  
**Untuk memulai kueri**  
`start-query-workload-insights-top-contributors`Contoh berikut memulai query yang mengembalikan ID query untuk mengambil kontributor teratas.  

```
aws networkflowmonitor start-query-workload-insights-top-contributors \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf \
    --start-time 2024-12-09T19:00:00Z \
    --end-time 2024-12-09T19:15:00Z \
    --metric-name DATA_TRANSFERRED \
    --destination-category UNCLASSIFIED
```
Output:  

```
{
    "queryId": "1fc423d3-b144-37a6-80e6-e2c7d26eea0c"
}
```
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [StartQueryWorkloadInsightsTopContributors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/start-query-workload-insights-top-contributors.html)di *Referensi AWS CLI Perintah*. 

### `stop-query-monitor-top-contributors`
<a name="networkflowmonitor_StopQueryMonitorTopContributors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-query-monitor-top-contributors`.

**AWS CLI**  
**Untuk menghentikan kueri**  
`stop-query-monitor-top-contributors`Contoh berikut menghentikan kueri di akun yang ditentukan.  

```
aws networkflowmonitor stop-query-monitor-top-contributors \
    --monitor-name Demo \
    --query-id aecd3a88-0283-35b0-a17d-6e944dc8531d
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [StopQueryMonitorTopContributors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/stop-query-monitor-top-contributors.html)di *Referensi AWS CLI Perintah*. 

### `stop-query-workload-insights-top-contributors-data`
<a name="networkflowmonitor_StopQueryWorkloadInsightsTopContributorsData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-query-workload-insights-top-contributors-data`.

**AWS CLI**  
**Untuk menghentikan kueri**  
`stop-query-workload-insights-top-contributors-data`Contoh berikut menghentikan kueri di akun yang ditentukan.  

```
aws networkflowmonitor stop-query-workload-insights-top-contributors-data \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf \
    --query-id cc4f4ab3-3103-33b8-80ff-d6597a0c6cea
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [StopQueryWorkloadInsightsTopContributorsData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/stop-query-workload-insights-top-contributors-data.html)di *Referensi AWS CLI Perintah*. 

### `stop-query-workload-insights-top-contributors`
<a name="networkflowmonitor_StopQueryWorkloadInsightsTopContributors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-query-workload-insights-top-contributors`.

**AWS CLI**  
**Untuk menghentikan kueri**  
`stop-query-workload-insights-top-contributors`Contoh berikut menghentikan kueri di akun yang ditentukan.  

```
aws networkflowmonitor stop-query-workload-insights-top-contributors \
    --scope-id e21cda79-30a0-4c12-9299-d8629d76d8cf \
    --query-id 1fc423d3-b144-37a6-80e6-e2c7d26eea0c
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengevaluasi alur jaringan dengan wawasan beban kerja](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-configure-evaluate-flows.html) di * CloudWatch Panduan Pengguna Amazon*.  
+  Untuk detail API, lihat [StopQueryWorkloadInsightsTopContributors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/stop-query-workload-insights-top-contributors.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="networkflowmonitor_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya yang ditentukan**  
`tag-resource`Contoh berikut menambahkan tag ke monitor di akun yang ditentukan.  

```
aws networkflowmonitor tag-resource \
    --resource-arn arn:aws:networkflowmonitor:us-east-1:123456789012:monitor/Demo \
    --tags Key=stack,Value=Production
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai CloudWatch sumber daya Amazon Anda](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Tagging.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="networkflowmonitor_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya yang ditentukan**  
`untag-resource`Contoh berikut menghapus tag dari monitor di akun yang ditentukan.  

```
aws networkflowmonitor untag-resource \
    --resource-arn arn:aws:networkflowmonitor:us-east-1:123456789012:monitor/Demo \
    --tag-keys stack
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai CloudWatch sumber daya Amazon Anda](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-Tagging.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-monitor`
<a name="networkflowmonitor_UpdateMonitor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-monitor`.

**AWS CLI**  
**Untuk memperbarui monitor yang ada**  
`update-monitor`Contoh berikut memperbarui monitor yang disebutkan `Demo` dalam akun yang ditentukan.  

```
aws networkflowmonitor update-monitor \
    --monitor-name Demo \
    --local-resources-to-add type="AWS::EC2::VPC",identifier="arn:aws:ec2:us-east-1:123456789012:vpc/vpc-048d08dfbec623f94"
```
Output:  

```
{
    "monitorArn": "arn:aws:networkflowmonitor:us-east-1:123456789012:monitor/Demo",
    "monitorName": "Demo",
    "monitorStatus": "ACTIVE",
    "tags": {
        "Value": "Production",
        "Key": "stack"
    }
}
```
Untuk informasi selengkapnya, lihat [Komponen dan fitur Network Flow Monitor](https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch-NetworkFlowMonitor-components.html) di *Panduan CloudWatch Pengguna Amazon*.  
+  Untuk detail API, lihat [UpdateMonitor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkflowmonitor/update-monitor.html)di *Referensi AWS CLI Perintah*. 

# Contoh Network Manager menggunakan AWS CLI
<a name="cli_2_networkmanager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Network Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-customer-gateway`
<a name="networkmanager_AssociateCustomerGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-customer-gateway`.

**AWS CLI**  
**Untuk mengaitkan gateway pelanggan**  
`associate-customer-gateway`Contoh berikut mengaitkan gateway pelanggan `cgw-11223344556677889` di jaringan global yang ditentukan dengan perangkat`device-07f6fd08867abc123`.  

```
aws networkmanager associate-customer-gateway \
    --customer-gateway-arn arn:aws:ec2:us-west-2:123456789012:customer-gateway/cgw-11223344556677889  \
    --global-network-id global-network-01231231231231231 \
    --device-id device-07f6fd08867abc123 \
    --region us-west-2
```
Output:  

```
{
    "CustomerGatewayAssociation": {
        "CustomerGatewayArn": "arn:aws:ec2:us-west-2:123456789012:customer-gateway/cgw-11223344556677889",
        "GlobalNetworkId": "global-network-01231231231231231",
        "DeviceId": "device-07f6fd08867abc123",
        "State": "PENDING"
    }
}
```
Untuk informasi selengkapnya, lihat [Asosiasi Gateway Pelanggan](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#cgw-association) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [AssociateCustomerGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/associate-customer-gateway.html)di *Referensi AWS CLI Perintah*. 

### `associate-link`
<a name="networkmanager_AssociateLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-link`.

**AWS CLI**  
**Untuk mengaitkan tautan**  
`associate-link`Contoh berikut mengaitkan tautan `link-11112222aaaabbbb1` dengan perangkat`device-07f6fd08867abc123`. Tautan dan perangkat berada di jaringan global yang ditentukan.  

```
aws networkmanager associate-link \
    --global-network-id global-network-01231231231231231 \
    --device-id device-07f6fd08867abc123 \
    --link-id link-11112222aaaabbbb1 \
    --region us-west-2
```
Output:  

```
{
    "LinkAssociation": {
        "GlobalNetworkId": "global-network-01231231231231231",
        "DeviceId": "device-07f6fd08867abc123",
        "LinkId": "link-11112222aaaabbbb1",
        "LinkAssociationState": "PENDING"
    }
}
```
Untuk informasi selengkapnya, lihat [Asosiasi Perangkat dan Tautan](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#device-link-association) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [AssociateLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/associate-link.html)di *Referensi AWS CLI Perintah*. 

### `create-core-network`
<a name="networkmanager_CreateCoreNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-core-network`.

**AWS CLI**  
**Untuk membuat jaringan inti**  
`create-core-network`Contoh berikut membuat jaringan inti menggunakan deskripsi opsional dan tag dalam jaringan global AWS Cloud WAN.  

```
aws networkmanager create-core-network \
    --global-network-id global-network-cdef-EXAMPLE22222 \
    --description "Main headquarters location" \
    --tags Key=Name,Value="New York City office"
```
Output:  

```
{
    "CoreNetwork": {
        "GlobalNetworkId": "global-network-cdef-EXAMPLE22222",
        "CoreNetworkId": "core-network-cdef-EXAMPLE33333",
        "CoreNetworkArn": "arn:aws:networkmanager::987654321012:core-network/core-network-cdef-EXAMPLE33333",
        "Description": "Main headquarters location",
        "CreatedAt": "2022-01-10T19:53:59+00:00",
        "State": "AVAILABLE",
        "Tags": [
            {
                "Key": "Name",
                "Value": "New York City office"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Jaringan global dan inti](https://docs.aws.amazon.com/network-manager/latest/cloudwan/cloudwan-core-network-policy.html) di *Panduan Pengguna AWS Cloud WAN*.  
+  Untuk detail API, lihat [CreateCoreNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/create-core-network.html)di *Referensi AWS CLI Perintah*. 

### `create-device`
<a name="networkmanager_CreateDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-device`.

**AWS CLI**  
**Untuk membuat perangkat**  
`create-device`Contoh berikut membuat perangkat dalam jaringan global yang ditentukan. Detail perangkat mencakup deskripsi, jenis, vendor, model, dan nomor seri.  

```
aws networkmanager create-device
    --global-network-id global-network-01231231231231231 \
    --description "New York office device" \
    --type "office device" \
    --vendor "anycompany" \
    --model "abcabc" \
    --serial-number "1234" \
    --region us-west-2
```
Output:  

```
{
    "Device": {
        "DeviceId": "device-07f6fd08867abc123",
        "DeviceArn": "arn:aws:networkmanager::123456789012:device/global-network-01231231231231231/device-07f6fd08867abc123",
        "GlobalNetworkId": "global-network-01231231231231231",
        "Description": "New York office device",
        "Type": "office device",
        "Vendor": "anycompany",
        "Model": "abcabc",
        "SerialNumber": "1234",
        "CreatedAt": 1575554005.0,
        "State": "PENDING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Perangkat](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-devices) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [CreateDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/create-device.html)di *Referensi AWS CLI Perintah*. 

### `create-global-network`
<a name="networkmanager_CreateGlobalNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-global-network`.

**AWS CLI**  
**Untuk membuat jaringan global**  
`create-global-network`Contoh berikut menciptakan jaringan global baru. Keadaan awal pada penciptaan adalah`PENDING`.  

```
aws networkmanager create-global-network
```
Output:  

```
{
    "GlobalNetwork": {
        "GlobalNetworkId": "global-network-00a77fc0f722dae74",
        "GlobalNetworkArn": "arn:aws:networkmanager::987654321012:global-network/global-network-00a77fc0f722dae74",
        "CreatedAt": "2022-03-14T20:31:56+00:00",
        "State": "PENDING"
    }
}
```
+  Untuk detail API, lihat [CreateGlobalNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/create-global-network.html)di *Referensi AWS CLI Perintah*. 

### `create-link`
<a name="networkmanager_CreateLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-link`.

**AWS CLI**  
**Untuk membuat tautan**  
`create-link`Contoh berikut membuat link dalam jaringan global yang ditentukan. Tautan tersebut mencakup deskripsi dan detail tentang jenis tautan, bandwidth, dan penyedia. ID situs menunjukkan situs yang terkait dengan tautan tersebut.  

```
aws networkmanager create-link \
    --global-network-id global-network-01231231231231231 \
    --description "VPN Link" \
    --type "broadband" \
    --bandwidth UploadSpeed=10,DownloadSpeed=20 \
    --provider "AnyCompany" \
    --site-id site-444555aaabbb11223 \
    --region us-west-2
```
Output:  

```
{
    "Link": {
        "LinkId": "link-11112222aaaabbbb1",
        "LinkArn": "arn:aws:networkmanager::123456789012:link/global-network-01231231231231231/link-11112222aaaabbbb1",
        "GlobalNetworkId": "global-network-01231231231231231",
        "SiteId": "site-444555aaabbb11223",
        "Description": "VPN Link",
        "Type": "broadband",
        "Bandwidth": {
            "UploadSpeed": 10,
            "DownloadSpeed": 20
        },
        "Provider": "AnyCompany",
        "CreatedAt": 1575555811.0,
        "State": "PENDING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tautan](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-links) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [CreateLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/create-link.html)di *Referensi AWS CLI Perintah*. 

### `create-site`
<a name="networkmanager_CreateSite_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-site`.

**AWS CLI**  
**Untuk membuat situs**  
`create-site`Contoh berikut membuat situs di jaringan global yang ditentukan. Detail situs mencakup deskripsi dan informasi lokasi.  

```
aws networkmanager create-site \
    --global-network-id global-network-01231231231231231 \
    --description  "New York head office" \
    --location Latitude=40.7128,Longitude=-74.0060 \
    --region us-west-2
```
Output:  

```
{
    "Site": {
        "SiteId": "site-444555aaabbb11223",
        "SiteArn": "arn:aws:networkmanager::123456789012:site/global-network-01231231231231231/site-444555aaabbb11223",
        "GlobalNetworkId": "global-network-01231231231231231",
        "Description": "New York head office",
        "Location": {
            "Latitude": "40.7128",
            "Longitude": "-74.0060"
        },
        "CreatedAt": 1575554300.0,
        "State": "PENDING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Situs](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-sites) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [CreateSite](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/create-site.html)di *Referensi AWS CLI Perintah*. 

### `create-vpc-attachment`
<a name="networkmanager_CreateVpcAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vpc-attachment`.

**AWS CLI**  
**Untuk membuat lampiran VPC**  
`create-vpc-attachment`Contoh berikut membuat lampiran VPC dengan IPv6 dukungan dalam jaringan inti.  

```
aws networkmanager create-vpc-attachment \
    --core-network-id core-network-0fab62fe438d94db6 \
    --vpc-arn arn:aws:ec2:us-east-1:987654321012:vpc/vpc-09f37f69e2786eeb8  \
    --subnet-arns arn:aws:ec2:us-east-1:987654321012:subnet/subnet-04ca4e010857e7bb7 \
    --Ipv6Support=true
```
Output:  

```
{
    "VpcAttachment": {
        "Attachment": {
            "CoreNetworkId": "core-network-0fab62fe438d94db6",
            "AttachmentId": "attachment-05e1da6eba87a06e6",
            "OwnerAccountId": "987654321012",
            "AttachmentType": "VPC",
            "State": "CREATING",
            "EdgeLocation": "us-east-1",
            "ResourceArn": "arn:aws:ec2:us-east-1:987654321012:vpc/vpc-09f37f69e2786eeb8",
            "Tags": [],
            "CreatedAt": "2022-03-10T20:59:14+00:00",
            "UpdatedAt": "2022-03-10T20:59:14+00:00"
        },
        "SubnetArns": [
            "arn:aws:ec2:us-east-1:987654321012:subnet/subnet-04ca4e010857e7bb7"
        ],
        "Options": {
            "Ipv6Support": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat lampiran](https://docs.aws.amazon.com/vpc/latest/cloudwan/cloudwan-create-attachment.html) di *Panduan Pengguna Cloud WAN*.  
+  Untuk detail API, lihat [CreateVpcAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/create-vpc-attachment.html)di *Referensi AWS CLI Perintah*. 

### `delete-attachment`
<a name="networkmanager_DeleteAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-attachment`.

**AWS CLI**  
**Untuk menghapus lampiran**  
`delete-attachment`Contoh berikut menghapus lampiran Connect.  

```
aws networkmanager delete-attachment \
    --attachment-id attachment-01feddaeae26ab68c
```
Output:  

```
{
    "Attachment": {
        "CoreNetworkId": "core-network-0f4b0a9d5ee7761d1",
        "AttachmentId": "attachment-01feddaeae26ab68c",
        "OwnerAccountId": "987654321012",
        "AttachmentType": "CONNECT",
        "State": "DELETING",
        "EdgeLocation": "us-east-1",
        "ResourceArn": "arn:aws:networkmanager::987654321012:attachment/attachment-02c3964448fedf5aa",
        "CreatedAt": "2022-03-15T19:18:41+00:00",
        "UpdatedAt": "2022-03-15T19:28:59+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus lampiran](https://docs.aws.amazon.com/vpc/latest/cloudwan/cloudwan-attachments-working-with.html#cloudwan-attachments-deleting) di *Panduan Pengguna Cloud WAN*.  
+  Untuk detail API, lihat [DeleteAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-attachment.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-analytics-configuration`
<a name="networkmanager_DeleteBucketAnalyticsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-analytics-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi analitik untuk bucket**  
`delete-bucket-analytics-configuration`Contoh berikut menghapus konfigurasi analitik untuk bucket dan ID yang ditentukan.  

```
aws s3api delete-bucket-analytics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 1
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteBucketAnalyticsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-bucket-analytics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-metrics-configuration`
<a name="networkmanager_DeleteBucketMetricsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-metrics-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi metrik untuk bucket**  
`delete-bucket-metrics-configuration`Contoh berikut menghapus konfigurasi metrik untuk bucket dan ID yang ditentukan.  

```
aws s3api delete-bucket-metrics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 123
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteBucketMetricsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-bucket-metrics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-core-network`
<a name="networkmanager_DeleteCoreNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-core-network`.

**AWS CLI**  
**Untuk menghapus jaringan inti**  
`delete-core-network`Contoh berikut menghapus jaringan inti dari jaringan global Cloud WAN.  

```
aws networkmanager delete-core-network \
    --core-network-id core-network-0fab62fe438d94db6
```
Output:  

```
{
    "CoreNetwork": {
        "GlobalNetworkId": "global-network-0d59060f16a73bc41",
        "CoreNetworkId": "core-network-0fab62fe438d94db6",
        "Description": "Main headquarters location",
        "CreatedAt": "2021-12-09T18:31:11+00:00",
        "State": "DELETING",
        "Segments": [
            {
                "Name": "dev",
                "EdgeLocations": [
                    "us-east-1"
                ],
                "SharedSegments": []
            }
        ],
        "Edges": [
            {
                "EdgeLocation": "us-east-1",
                "Asn": 64512,
                "InsideCidrBlocks": []
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Jaringan inti](https://docs.aws.amazon.com/vpc/latest/cloudwan/cloudwan-networks-working-with.html#cloudwan-core-networks) di *Panduan Pengguna Cloud WAN*.  
+  Untuk detail API, lihat [DeleteCoreNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-core-network.html)di *Referensi AWS CLI Perintah*. 

### `delete-device`
<a name="networkmanager_DeleteDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-device`.

**AWS CLI**  
**Untuk menghapus perangkat**  
`delete-device`Contoh berikut menghapus perangkat yang ditentukan dari jaringan global yang ditentukan.  

```
aws networkmanager delete-device \
    --global-network-id global-network-01231231231231231 \
    --device-id device-07f6fd08867abc123 \
    --region us-west-2
```
Output:  

```
{
    "Device": {
        "DeviceId": "device-07f6fd08867abc123",
        "DeviceArn": "arn:aws:networkmanager::123456789012:device/global-network-01231231231231231/device-07f6fd08867abc123",
        "GlobalNetworkId": "global-network-01231231231231231",
        "Description": "New York office device",
        "Type": "office device",
        "Vendor": "anycompany",
        "Model": "abcabc",
        "SerialNumber": "1234",
        "SiteId": "site-444555aaabbb11223",
        "CreatedAt": 1575554005.0,
        "State": "DELETING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Perangkat](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-devices) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [DeleteDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-device.html)di *Referensi AWS CLI Perintah*. 

### `delete-global-network`
<a name="networkmanager_DeleteGlobalNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-global-network`.

**AWS CLI**  
**Untuk menghapus jaringan global**  
`delete-global-network`Contoh berikut menghapus jaringan global.  

```
aws networkmanager delete-global-network \
    --global-network-id global-network-052bedddccb193b6b
```
Output:  

```
{
    "GlobalNetwork": {
        "GlobalNetworkId": "global-network-052bedddccb193b6b",
        "GlobalNetworkArn": "arn:aws:networkmanager::987654321012:global-network/global-network-052bedddccb193b6b",
        "CreatedAt": "2021-12-09T18:19:12+00:00",
        "State": "DELETING"
    }
}
```
+  Untuk detail API, lihat [DeleteGlobalNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-global-network.html)di *Referensi AWS CLI Perintah*. 

### `delete-link`
<a name="networkmanager_DeleteLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-link`.

**AWS CLI**  
**Untuk menghapus tautan**  
`delete-link`Contoh berikut menghapus link yang ditentukan dari jaringan global yang ditentukan.  

```
aws networkmanager delete-link \
    --global-network-id global-network-01231231231231231  \
    --link-id link-11112222aaaabbbb1 \
    --region us-west-2
```
Output:  

```
{
    "Link": {
        "LinkId": "link-11112222aaaabbbb1",
        "LinkArn": "arn:aws:networkmanager::123456789012:link/global-network-01231231231231231/link-11112222aaaabbbb1",
        "GlobalNetworkId": "global-network-01231231231231231",
        "SiteId": "site-444555aaabbb11223",
        "Description": "VPN Link",
        "Type": "broadband",
        "Bandwidth": {
            "UploadSpeed": 20,
            "DownloadSpeed": 20
        },
        "Provider": "AnyCompany",
        "CreatedAt": 1575555811.0,
        "State": "DELETING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tautan](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-links) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [DeleteLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-link.html)di *Referensi AWS CLI Perintah*. 

### `delete-public-access-block`
<a name="networkmanager_DeletePublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-public-access-block`.

**AWS CLI**  
**Untuk menghapus konfigurasi blokir akses publik untuk bucket**  
`delete-public-access-block`Contoh berikut menghapus konfigurasi blokir akses publik pada bucket yang ditentukan.  

```
aws s3api delete-public-access-block \
    --bucket amzn-s3-demo-bucket
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeletePublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `delete-site`
<a name="networkmanager_DeleteSite_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-site`.

**AWS CLI**  
**Untuk menghapus situs**  
`delete-site`Contoh berikut menghapus situs tertentu (`site-444555aaabbb11223`) dalam jaringan global yang ditentukan.  

```
aws networkmanager delete-site \
    --global-network-id global-network-01231231231231231  \
    --site-id site-444555aaabbb11223 \
    --region us-west-2
```
Output:  

```
{
    "Site": {
        "SiteId": "site-444555aaabbb11223",
        "SiteArn": "arn:aws:networkmanager::123456789012:site/global-network-01231231231231231/site-444555aaabbb11223",
        "GlobalNetworkId": "global-network-01231231231231231",
        "Description": "New York head office",
        "Location": {
            "Latitude": "40.7128",
            "Longitude": "-74.0060"
        },
        "CreatedAt": 1575554300.0,
        "State": "DELETING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Situs](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-sites) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [DeleteSite](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/delete-site.html)di *Referensi AWS CLI Perintah*. 

### `deregister-transit-gateway`
<a name="networkmanager_DeregisterTransitGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-transit-gateway`.

**AWS CLI**  
**Untuk membatalkan pendaftaran gateway transit dari jaringan global**  
`deregister-transit-gateway`Contoh berikut membatalkan pendaftaran gateway transit yang ditentukan dari jaringan global yang ditentukan.  

```
aws networkmanager deregister-transit-gateway \
    --global-network-id global-network-01231231231231231 \
    --transit-gateway-arn arn:aws:ec2:us-west-2:123456789012:transit-gateway/tgw-123abc05e04123abc \
    --region us-west-2
```
Output:  

```
{
    "TransitGatewayRegistration": {
        "GlobalNetworkId": "global-network-01231231231231231",
        "TransitGatewayArn": "arn:aws:ec2:us-west-2:123456789012:transit-gateway/tgw-123abc05e04123abc",
        "State": {
            "Code": "DELETING"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Pendaftaran Gateway Transit](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-registrations.html) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [DeregisterTransitGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/deregister-transit-gateway.html)di *Referensi AWS CLI Perintah*. 

### `describe-global-networks`
<a name="networkmanager_DescribeGlobalNetworks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-global-networks`.

**AWS CLI**  
**Untuk menggambarkan jaringan global Anda**  
`describe-global-networks`Contoh berikut menjelaskan semua jaringan global Anda di akun Anda.  

```
aws networkmanager describe-global-networks \
    --region us-west-2
```
Output:  

```
{
    "GlobalNetworks": [
        {
            "GlobalNetworkId": "global-network-01231231231231231",
            "GlobalNetworkArn": "arn:aws:networkmanager::123456789012:global-network/global-network-01231231231231231",
            "Description": "Company 1 global network",
            "CreatedAt": 1575553525.0,
            "State": "AVAILABLE"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeGlobalNetworks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/describe-global-networks.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-customer-gateway`
<a name="networkmanager_DisassociateCustomerGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-customer-gateway`.

**AWS CLI**  
**Untuk memisahkan gateway pelanggan**  
`disassociate-customer-gateway`Contoh berikut memisahkan gateway pelanggan yang ditentukan (`cgw-11223344556677889`) dari jaringan global yang ditentukan.  

```
aws networkmanager disassociate-customer-gateway \
    --global-network-id global-network-01231231231231231 \
    --customer-gateway-arn arn:aws:ec2:us-west-2:123456789012:customer-gateway/cgw-11223344556677889 \
    --region us-west-2
```
Output:  

```
{
    "CustomerGatewayAssociation": {
        "CustomerGatewayArn": "arn:aws:ec2:us-west-2:123456789012:customer-gateway/cgw-11223344556677889",
        "GlobalNetworkId": "global-network-01231231231231231",
        "DeviceId": "device-07f6fd08867abc123",
        "State": "DELETING"
    }
}
```
Untuk informasi selengkapnya, lihat [Asosiasi Gateway Pelanggan](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#cgw-association) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [DisassociateCustomerGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/disassociate-customer-gateway.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-link`
<a name="networkmanager_DisassociateLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-link`.

**AWS CLI**  
**Untuk memisahkan tautan**  
`disassociate-link`Contoh berikut memisahkan tautan yang ditentukan dari perangkat `device-07f6fd08867abc123` di jaringan global yang ditentukan.  

```
aws networkmanager disassociate-link \
    --global-network-id global-network-01231231231231231 \
    --device-id device-07f6fd08867abc123 \
    --link-id link-11112222aaaabbbb1 \
    --region us-west-2
```
Output:  

```
{
    "LinkAssociation": {
        "GlobalNetworkId": "global-network-01231231231231231",
        "DeviceId": "device-07f6fd08867abc123",
        "LinkId": "link-11112222aaaabbbb1",
        "LinkAssociationState": "DELETING"
    }
}
```
Untuk informasi selengkapnya, lihat [Asosiasi Perangkat dan Tautan](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#device-link-association) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [DisassociateLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/disassociate-link.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-analytics-configuration`
<a name="networkmanager_GetBucketAnalyticsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-analytics-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi analitik untuk bucket dengan ID tertentu**  
`get-bucket-analytics-configuration`Contoh berikut menampilkan konfigurasi analitik untuk bucket dan ID yang ditentukan.  

```
aws s3api get-bucket-analytics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 1
```
Output:  

```
{
    "AnalyticsConfiguration": {
        "StorageClassAnalysis": {},
        "Id": "1"
    }
}
```
+  Untuk detail API, lihat [GetBucketAnalyticsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-bucket-analytics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-metrics-configuration`
<a name="networkmanager_GetBucketMetricsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-metrics-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi metrik untuk bucket dengan ID tertentu**  
`get-bucket-metrics-configuration`Contoh berikut menampilkan konfigurasi metrik untuk bucket dan ID yang ditentukan.  

```
aws s3api get-bucket-metrics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 123
```
Output:  

```
{
    "MetricsConfiguration": {
        "Filter": {
            "Prefix": "logs"
        },
        "Id": "123"
    }
}
```
+  Untuk detail API, lihat [GetBucketMetricsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-bucket-metrics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-customer-gateway-associations`
<a name="networkmanager_GetCustomerGatewayAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-customer-gateway-associations`.

**AWS CLI**  
**Untuk mendapatkan asosiasi gateway pelanggan Anda**  
`get-customer-gateway-associations`Contoh berikut mendapatkan asosiasi gateway pelanggan untuk jaringan global yang ditentukan.  

```
aws networkmanager get-customer-gateway-associations \
    --global-network-id global-network-01231231231231231 \
    --region us-west-2
```
Output:  

```
{
    "CustomerGatewayAssociations": [
        {
            "CustomerGatewayArn": "arn:aws:ec2:us-west-2:123456789012:customer-gateway/cgw-11223344556677889",
            "GlobalNetworkId": "global-network-01231231231231231",
            "DeviceId": "device-07f6fd08867abc123",
            "State": "AVAILABLE"
        }
    ]
}
```
+  Untuk detail API, lihat [GetCustomerGatewayAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-customer-gateway-associations.html)di *Referensi AWS CLI Perintah*. 

### `get-devices`
<a name="networkmanager_GetDevices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-devices`.

**AWS CLI**  
**Untuk mendapatkan perangkat Anda**  
`get-devices`Contoh berikut mendapatkan perangkat dalam jaringan global yang ditentukan.  

```
aws networkmanager get-devices \
    --global-network-id global-network-01231231231231231 \
    --region us-west-2
```
Output:  

```
{
    "Devices": [
        {
            "DeviceId": "device-07f6fd08867abc123",
            "DeviceArn": "arn:aws:networkmanager::123456789012:device/global-network-01231231231231231/device-07f6fd08867abc123",
            "GlobalNetworkId": "global-network-01231231231231231",
            "Description": "NY office device",
            "Type": "office device",
            "Vendor": "anycompany",
            "Model": "abcabc",
            "SerialNumber": "1234",
            "CreatedAt": 1575554005.0,
            "State": "AVAILABLE"
        }
    ]
}
```
+  Untuk detail API, lihat [GetDevices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-devices.html)di *Referensi AWS CLI Perintah*. 

### `get-link-associations`
<a name="networkmanager_GetLinkAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-link-associations`.

**AWS CLI**  
**Untuk mendapatkan asosiasi tautan Anda**  
`get-link-associations`Contoh berikut mendapatkan asosiasi link dalam jaringan global yang ditentukan.  

```
aws networkmanager get-link-associations \
    --global-network-id global-network-01231231231231231 \
    --region us-west-2
```
Output:  

```
{
    "LinkAssociations": [
        {
            "GlobalNetworkId": "global-network-01231231231231231",
            "DeviceId": "device-07f6fd08867abc123",
            "LinkId": "link-11112222aaaabbbb1",
            "LinkAssociationState": "AVAILABLE"
        }
    ]
}
```
+  Untuk detail API, lihat [GetLinkAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-link-associations.html)di *Referensi AWS CLI Perintah*. 

### `get-links`
<a name="networkmanager_GetLinks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-links`.

**AWS CLI**  
**Untuk mendapatkan tautan Anda**  
`get-links`Contoh berikut mendapatkan link dalam jaringan global yang ditentukan.  

```
aws networkmanager get-links \
    --global-network-id global-network-01231231231231231 \
    --region us-west-2
```
Output:  

```
{
    "Links": [
        {
            "LinkId": "link-11112222aaaabbbb1",
            "LinkArn": "arn:aws:networkmanager::123456789012:link/global-network-01231231231231231/link-11112222aaaabbbb1",
            "GlobalNetworkId": "global-network-01231231231231231",
            "SiteId": "site-444555aaabbb11223",
            "Description": "VPN Link",
            "Type": "broadband",
            "Bandwidth": {
                "UploadSpeed": 10,
                "DownloadSpeed": 20
            },
            "Provider": "AnyCompany",
            "CreatedAt": 1575555811.0,
            "State": "AVAILABLE"
        }
    ]
}
```
+  Untuk detail API, lihat [GetLinks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-links.html)di *Referensi AWS CLI Perintah*. 

### `get-object-retention`
<a name="networkmanager_GetObjectRetention_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object-retention`.

**AWS CLI**  
**Untuk mengambil konfigurasi retensi objek untuk objek**  
`get-object-retention`Contoh berikut mengambil konfigurasi retensi objek untuk objek tertentu.  

```
aws s3api get-object-retention \
    --bucket amzn-s3-demo-bucket-with-object-lock \
    --key doc1.rtf
```
Output:  

```
{
    "Retention": {
        "Mode": "GOVERNANCE",
        "RetainUntilDate": "2025-01-01T00:00:00.000Z"
    }
}
```
+  Untuk detail API, lihat [GetObjectRetention](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-object-retention.html)di *Referensi AWS CLI Perintah*. 

### `get-public-access-block`
<a name="networkmanager_GetPublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-public-access-block`.

**AWS CLI**  
**Untuk menyetel atau memodifikasi konfigurasi blokir akses publik untuk bucket**  
`get-public-access-block`Contoh berikut menampilkan konfigurasi blok akses publik untuk bucket yang ditentukan.  

```
aws s3api get-public-access-block --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "PublicAccessBlockConfiguration": {
        "IgnorePublicAcls": true,
        "BlockPublicPolicy": true,
        "BlockPublicAcls": true,
        "RestrictPublicBuckets": true
    }
}
```
+  Untuk detail API, lihat [GetPublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `get-sites`
<a name="networkmanager_GetSites_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sites`.

**AWS CLI**  
**Untuk mendapatkan situs Anda**  
`get-sites`Contoh berikut mendapatkan situs dalam jaringan global yang ditentukan.  

```
aws networkmanager get-sites \
    --global-network-id global-network-01231231231231231 \
    --region us-west-2
```
Output:  

```
{
    "Sites": [
        {
            "SiteId": "site-444555aaabbb11223",
            "SiteArn": "arn:aws:networkmanager::123456789012:site/global-network-01231231231231231/site-444555aaabbb11223",
            "GlobalNetworkId": "global-network-01231231231231231",
            "Description": "NY head office",
            "Location": {
                "Latitude": "40.7128",
                "Longitude": "-74.0060"
            },
            "CreatedAt": 1575554528.0,
            "State": "AVAILABLE"
        }
    ]
}
```
+  Untuk detail API, lihat [GetSites](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-sites.html)di *Referensi AWS CLI Perintah*. 

### `get-transit-gateway-registrations`
<a name="networkmanager_GetTransitGatewayRegistrations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-transit-gateway-registrations`.

**AWS CLI**  
**Untuk mendapatkan pendaftaran gateway transit Anda**  
`get-transit-gateway-registrations`Contoh berikut mendapatkan gateway transit yang terdaftar ke jaringan global yang ditentukan.  

```
aws networkmanager get-transit-gateway-registrations \
    --global-network-id global-network-01231231231231231 \
    --region us-west-2
```
Output:  

```
{
    "TransitGatewayRegistrations": [
        {
            "GlobalNetworkId": "global-network-01231231231231231",
            "TransitGatewayArn": "arn:aws:ec2:us-west-2:123456789012:transit-gateway/tgw-123abc05e04123abc",
            "State": {
                "Code": "AVAILABLE"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [GetTransitGatewayRegistrations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-transit-gateway-registrations.html)di *Referensi AWS CLI Perintah*. 

### `get-vpc-attachment`
<a name="networkmanager_GetVpcAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vpc-attachment`.

**AWS CLI**  
**Untuk mendapatkan lampiran VPC**  
`get-vpc-attachment`Contoh berikut mengembalikan informasi tentang lampiran VPC.  

```
aws networkmanager get-vpc-attachment \
    --attachment-id  attachment-03b7ea450134787da
```
Output:  

```
{
    "VpcAttachment": {
        "Attachment": {
            "CoreNetworkId": "core-network-0522de1b226a5d7b3",
            "AttachmentId": "attachment-03b7ea450134787da",
            "OwnerAccountId": "987654321012",
            "AttachmentType": "VPC",
            "State": "CREATING",
            "EdgeLocation": "us-east-1",
            "ResourceArn": "arn:aws:ec2:us-east-1:987654321012:vpc/vpc-a7c4bbda",
            "Tags": [
                {
                    "Key": "Name",
                    "Value": "DevVPC"
                }
            ],
            "CreatedAt": "2022-03-11T17:48:58+00:00",
            "UpdatedAt": "2022-03-11T17:48:58+00:00"
        },
        "SubnetArns": [
            "arn:aws:ec2:us-east-1:987654321012:subnet/subnet-202cde6c",
            "arn:aws:ec2:us-east-1:987654321012:subnet/subnet-e5022dba",
            "arn:aws:ec2:us-east-1:987654321012:subnet/subnet-2387ae02",
            "arn:aws:ec2:us-east-1:987654321012:subnet/subnet-cda9dffc"
        ],
        "Options": {
            "Ipv6Support": false
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Lampiran](https://docs.aws.amazon.com/vpc/latest/cloudwan/cloudwan-attachments-working-with.html) di *Panduan Pengguna Cloud WAN*.  
+  Untuk detail API, lihat [GetVpcAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/get-vpc-attachment.html)di *Referensi AWS CLI Perintah*. 

### `list-bucket-analytics-configurations`
<a name="networkmanager_ListBucketAnalyticsConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bucket-analytics-configurations`.

**AWS CLI**  
**Untuk mengambil daftar konfigurasi analitik untuk bucket**  
Berikut ini `list-bucket-analytics-configurations` mengambil daftar konfigurasi analitik untuk bucket yang ditentukan.  

```
aws s3api list-bucket-analytics-configurations \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "AnalyticsConfigurationList": [
        {
            "StorageClassAnalysis": {},
            "Id": "1"
        }
    ],
    "IsTruncated": false
}
```
+  Untuk detail API, lihat [ListBucketAnalyticsConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/list-bucket-analytics-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-bucket-metrics-configurations`
<a name="networkmanager_ListBucketMetricsConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bucket-metrics-configurations`.

**AWS CLI**  
**Untuk mengambil daftar konfigurasi metrik untuk bucket**  
`list-bucket-metrics-configurations`Contoh berikut mengambil daftar konfigurasi metrik untuk bucket yang ditentukan.  

```
aws s3api list-bucket-metrics-configurations \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "IsTruncated": false,
    "MetricsConfigurationList": [
        {
            "Filter": {
                "Prefix": "logs"
            },
            "Id": "123"
        },
        {
            "Filter": {
                "Prefix": "tmp"
            },
            "Id": "234"
        }
    ]
}
```
+  Untuk detail API, lihat [ListBucketMetricsConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/list-bucket-metrics-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="networkmanager_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk sumber daya perangkat tertentu (`device-07f6fd08867abc123`).  

```
aws networkmanager list-tags-for-resource \
    --resource-arn arn:aws:networkmanager::123456789012:device/global-network-01231231231231231/device-07f6fd08867abc123 \
    --region us-west-2
```
Output:  

```
{
    "TagList": [
        {
            "Key": "Network",
            "Value": "Northeast"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-metrics-configuration`
<a name="networkmanager_PutBucketMetricsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-metrics-configuration`.

**AWS CLI**  
**Untuk menyetel konfigurasi metrik untuk bucket**  
`put-bucket-metrics-configuration`Contoh berikut menetapkan konfigurasi metrik dengan ID 123 untuk bucket yang ditentukan.  

```
aws s3api put-bucket-metrics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 123 \
    --metrics-configuration '{"Id": "123", "Filter": {"Prefix": "logs"}}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutBucketMetricsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/put-bucket-metrics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-object-retention`
<a name="networkmanager_PutObjectRetention_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object-retention`.

**AWS CLI**  
**Untuk mengatur konfigurasi retensi objek untuk objek**  
`put-object-retention`Contoh berikut menetapkan konfigurasi retensi objek untuk objek yang ditentukan hingga 2025-01-01.  

```
aws s3api put-object-retention \
    --bucket amzn-s3-demo-bucket-with-object-lock \
    --key doc1.rtf \
    --retention '{ "Mode": "GOVERNANCE", "RetainUntilDate": "2025-01-01T00:00:00" }'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutObjectRetention](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/put-object-retention.html)di *Referensi AWS CLI Perintah*. 

### `put-public-access-block`
<a name="networkmanager_PutPublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-public-access-block`.

**AWS CLI**  
**Untuk menyetel konfigurasi blokir akses publik untuk bucket**  
`put-public-access-block`Contoh berikut menetapkan konfigurasi akses publik blok restriktif untuk bucket yang ditentukan.  

```
aws s3api put-public-access-block \
    --bucket amzn-s3-demo-bucket \
    --public-access-block-configuration "BlockPublicAcls=true,IgnorePublicAcls=true,BlockPublicPolicy=true,RestrictPublicBuckets=true"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutPublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/put-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `register-transit-gateway`
<a name="networkmanager_RegisterTransitGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-transit-gateway`.

**AWS CLI**  
**Untuk mendaftarkan gateway transit di jaringan global**  
`register-transit-gateway`Contoh berikut mendaftarkan gateway transit `tgw-123abc05e04123abc` di jaringan global yang ditentukan.  

```
aws networkmanager register-transit-gateway \
    --global-network-id global-network-01231231231231231 \
    --transit-gateway-arn arn:aws:ec2:us-west-2:123456789012:transit-gateway/tgw-123abc05e04123abc \
    --region us-west-2
```
Output:  

```
{
    "TransitGatewayRegistration": {
        "GlobalNetworkId": "global-network-01231231231231231",
        "TransitGatewayArn": "arn:aws:ec2:us-west-2:123456789012:transit-gateway/tgw-123abc05e04123abc",
        "State": {
            "Code": "PENDING"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Pendaftaran Gateway Transit](https://docs.aws.amazon.com/vpc/latest/tgw/tgw-registrations.html) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [RegisterTransitGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/register-transit-gateway.html)di *Referensi AWS CLI Perintah*. 

### `reject-attachment`
<a name="networkmanager_RejectAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-attachment`.

**AWS CLI**  
**Untuk menolak lampiran**  
`reject-attachment`Contoh berikut menolak permintaan lampiran VPC.  

```
aws networkmanager reject-attachment \
    --attachment-id  attachment-03b7ea450134787da
```
Output:  

```
{
    "Attachment": {
        "CoreNetworkId": "core-network-0522de1b226a5d7b3",
        "AttachmentId": "attachment-03b7ea450134787da",
        "OwnerAccountId": "987654321012",
        "AttachmentType": "VPC",
        "State": "AVAILABLE",
        "EdgeLocation": "us-east-1",
        "ResourceArn": "arn:aws:ec2:us-east-1:987654321012:vpc/vpc-a7c4bbda",
        "CreatedAt": "2022-03-11T17:48:58+00:00",
        "UpdatedAt": "2022-03-11T17:51:25+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Penerimaan lampiran](https://docs.aws.amazon.com/vpc/latest/cloudwan/cloudwan-attachments-working-with.html#cloudwan-attachments-acceptance) di *Panduan Pengguna Cloud WAN*.  
+  Untuk detail API, lihat [RejectAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/reject-attachment.html)di *Referensi AWS CLI Perintah*. 

### `start-route-analysis`
<a name="networkmanager_StartRouteAnalysis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-route-analysis`.

**AWS CLI**  
**Untuk memulai analisis rute**  
`start-route-analysis`Contoh berikut memulai analisis antara sumber dan tujuan, termasuk opsional`include-return-path`.  

```
aws networkmanager start-route-analysis \
    --global-network-id global-network-00aa0aaa0b0aaa000 \
    --source TransitGatewayAttachmentArn=arn:aws:ec2:us-east-1:503089527312:transit-gateway-attachment/tgw-attach-0d4a2d491bf68c093,IpAddress=10.0.0.0 \
    --destination TransitGatewayAttachmentArn=arn:aws:ec2:us-west-1:503089527312:transit-gateway-attachment/tgw-attach-002577f30bb181742,IpAddress=11.0.0.0 \
    --include-return-path
```
Output:  

```
{
    "RouteAnalysis": {
        "GlobalNetworkId": "global-network-00aa0aaa0b0aaa000
        "OwnerAccountId": "1111222233333",
        "RouteAnalysisId": "a1873de1-273c-470c-1a2bc2345678",
        "StartTimestamp": 1695760154.0,
        "Status": "RUNNING",
        "Source": {
            "TransitGatewayAttachmentArn": "arn:aws:ec2:us-east-1:111122223333:transit-gateway-attachment/tgw-attach-1234567890abcdef0,
            "TransitGatewayArn": "arn:aws:ec2:us-east-1:111122223333:transit-gateway/tgw-abcdef01234567890",
            "IpAddress": "10.0.0.0"
        },
        "Destination": {
            "TransitGatewayAttachmentArn": "arn:aws:ec2:us-west-1:555555555555:transit-gateway-attachment/tgw-attach-021345abcdef6789",
            "TransitGatewayArn": "arn:aws:ec2:us-west-1:111122223333:transit-gateway/tgw-09876543210fedcba0",
            "IpAddress": "11.0.0.0"
        },
        "IncludeReturnPath": true,
        "UseMiddleboxes": false
    }
}
```
Untuk informasi selengkapnya, lihat [Route Analyzer](https://docs.aws.amazon.com/network-manager/latest/tgwnm/route-analyzer.html) di Panduan Pengguna *AWS Global Networks for Transit Gateways*.  
+  Untuk detail API, lihat [StartRouteAnalysis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/start-route-analysis.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="networkmanager_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menerapkan tag ke sumber daya**  
`tag-resource`Contoh berikut menerapkan tag `Network=Northeast` ke perangkat`device-07f6fd08867abc123`.  

```
aws networkmanager tag-resource \
    --resource-arn arn:aws:networkmanager::123456789012:device/global-network-01231231231231231/device-07f6fd08867abc123 \
    --tags Key=Network,Value=Northeast \
    --region us-west-2
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="networkmanager_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag dengan kunci `Network` dari perangkat`device-07f6fd08867abc123`.  

```
aws networkmanager untag-resource \
    --resource-arn arn:aws:networkmanager::123456789012:device/global-network-01231231231231231/device-07f6fd08867abc123 ]
    --tag-keys Network \
    --region us-west-2
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-device`
<a name="networkmanager_UpdateDevice_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-device`.

**AWS CLI**  
**Untuk memperbarui perangkat**  
`update-device`Contoh berikut memperbarui perangkat `device-07f6fd08867abc123` dengan menentukan ID situs untuk perangkat.  

```
aws networkmanager update-device \
    --global-network-id global-network-01231231231231231 \
    --device-id device-07f6fd08867abc123 \
    --site-id site-444555aaabbb11223 \
    --region us-west-2
```
Output:  

```
{
    "Device": {
        "DeviceId": "device-07f6fd08867abc123",
        "DeviceArn": "arn:aws:networkmanager::123456789012:device/global-network-01231231231231231/device-07f6fd08867abc123",
        "GlobalNetworkId": "global-network-01231231231231231",
        "Description": "NY office device",
        "Type": "Office device",
        "Vendor": "anycompany",
        "Model": "abcabc",
        "SerialNumber": "1234",
        "SiteId": "site-444555aaabbb11223",
        "CreatedAt": 1575554005.0,
        "State": "UPDATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Perangkat](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-devices) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [UpdateDevice](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/update-device.html)di *Referensi AWS CLI Perintah*. 

### `update-global-network`
<a name="networkmanager_UpdateGlobalNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-global-network`.

**AWS CLI**  
**Untuk memperbarui jaringan global**  
`update-global-network`Contoh berikut memperbarui deskripsi untuk jaringan global`global-network-01231231231231231`.  

```
aws networkmanager update-global-network \
    --global-network-id global-network-01231231231231231 \
    --description "Head offices" \
    --region us-west-2
```
Output:  

```
{
    "GlobalNetwork": {
        "GlobalNetworkId": "global-network-01231231231231231",
        "GlobalNetworkArn": "arn:aws:networkmanager::123456789012:global-network/global-network-01231231231231231",
        "Description": "Head offices",
        "CreatedAt": 1575553525.0,
        "State": "UPDATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Jaringan Global](https://docs.aws.amazon.com/vpc/latest/tgw/global-networks.html) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [UpdateGlobalNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/update-global-network.html)di *Referensi AWS CLI Perintah*. 

### `update-link`
<a name="networkmanager_UpdateLink_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-link`.

**AWS CLI**  
**Untuk memperbarui tautan**  
`update-link`Contoh berikut memperbarui informasi bandwidth untuk link`link-11112222aaaabbbb1`.  

```
aws networkmanager update-link \
    --global-network-id global-network-01231231231231231 \
    --link-id link-11112222aaaabbbb1 \
    --bandwidth  UploadSpeed=20,DownloadSpeed=20 \
    --region us-west-2
```
Output:  

```
{
    "Link": {
        "LinkId": "link-11112222aaaabbbb1",
        "LinkArn": "arn:aws:networkmanager::123456789012:link/global-network-01231231231231231/link-11112222aaaabbbb1",
        "GlobalNetworkId": "global-network-01231231231231231",
        "SiteId": "site-444555aaabbb11223",
        "Description": "VPN Link",
        "Type": "broadband",
        "Bandwidth": {
            "UploadSpeed": 20,
            "DownloadSpeed": 20
        },
        "Provider": "AnyCompany",
        "CreatedAt": 1575555811.0,
        "State": "UPDATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Tautan](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-links) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [UpdateLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/update-link.html)di *Referensi AWS CLI Perintah*. 

### `update-site`
<a name="networkmanager_UpdateSite_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-site`.

**AWS CLI**  
**Untuk memperbarui situs**  
`update-site`Contoh berikut memperbarui deskripsi untuk situs `site-444555aaabbb11223` di jaringan global yang ditentukan.  

```
aws networkmanager update-site \
    --global-network-id global-network-01231231231231231 \
    --site-id site-444555aaabbb11223 \
    --description "New York Office site" \
    --region us-west-2
```
Output:  

```
{
    "Site": {
        "SiteId": "site-444555aaabbb11223",
        "SiteArn": "arn:aws:networkmanager::123456789012:site/global-network-01231231231231231/site-444555aaabbb11223",
        "GlobalNetworkId": "global-network-01231231231231231",
        "Description": "New York Office site",
        "Location": {
            "Latitude": "40.7128",
            "Longitude": "-74.0060"
        },
        "CreatedAt": 1575554528.0,
        "State": "UPDATING"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Situs](https://docs.aws.amazon.com/vpc/latest/tgw/on-premises-networks.html#working-with-sites) di *Panduan Manajer Jaringan Gateway Transit*.  
+  Untuk detail API, lihat [UpdateSite](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/networkmanager/update-site.html)di *Referensi AWS CLI Perintah*. 

# OpenSearch Contoh layanan menggunakan AWS CLI
<a name="cli_2_elasticsearch-service_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan OpenSearch Layanan AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-elasticsearch-domain`
<a name="elasticsearch-service_CreateElasticsearchDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-elasticsearch-domain`.

**AWS CLI**  
**Untuk membuat domain Amazon Elasticsearch Service**  
`create-elasticsearch-domain`Perintah berikut membuat domain Amazon Elasticsearch Service baru dalam VPC dan membatasi akses ke satu pengguna. Amazon ES menyimpulkan ID VPC dari subnet dan grup keamanan yang ditentukan. IDs  

```
aws es create-elasticsearch-domain \
    --domain-name vpc-cli-example \
    --elasticsearch-version 6.2 \
    --elasticsearch-cluster-config InstanceType=m4.large.elasticsearch,InstanceCount=1 \
    --ebs-options EBSEnabled=true,VolumeType=standard,VolumeSize=10 \
    --access-policies '{"Version":"2012-10-17",		 	 	  "Statement": [ { "Effect": "Allow", "Principal": {"AWS": "arn:aws:iam::123456789012:root" }, "Action":"es:*", "Resource": "arn:aws:es:us-west-1:123456789012:domain/vpc-cli-example/*" } ] }' \
    --vpc-options SubnetIds=subnet-1a2a3a4a,SecurityGroupIds=sg-2a3a4a5a
```
Output:  

```
{
    "DomainStatus": {
        "ElasticsearchClusterConfig": {
            "DedicatedMasterEnabled": false,
            "InstanceCount": 1,
            "ZoneAwarenessEnabled": false,
            "InstanceType": "m4.large.elasticsearch"
        },
        "DomainId": "123456789012/vpc-cli-example",
        "CognitoOptions": {
            "Enabled": false
        },
        "VPCOptions": {
            "SubnetIds": [
                "subnet-1a2a3a4a"
            ],
            "VPCId": "vpc-3a4a5a6a",
            "SecurityGroupIds": [
                "sg-2a3a4a5a"
            ],
            "AvailabilityZones": [
                "us-west-1c"
            ]
        },
        "Created": true,
        "Deleted": false,
        "EBSOptions": {
            "VolumeSize": 10,
            "VolumeType": "standard",
            "EBSEnabled": true
        },
        "Processing": true,
        "DomainName": "vpc-cli-example",
        "SnapshotOptions": {
            "AutomatedSnapshotStartHour": 0
        },
        "ElasticsearchVersion": "6.2",
        "AccessPolicies": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::123456789012:root\"},\"Action\":\"es:*\",\"Resource\":\"arn:aws:es:us-west-1:123456789012:domain/vpc-cli-example/*\"}]}",
        "AdvancedOptions": {
            "rest.action.multi.allow_explicit_index": "true"
        },
        "EncryptionAtRestOptions": {
            "Enabled": false
        },
        "ARN": "arn:aws:es:us-west-1:123456789012:domain/vpc-cli-example"
    }
}
```
*Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Domain Layanan Amazon Elasticsearch di Panduan Pengembang Amazon Elasticsearch Service](https://docs.aws.amazon.com/elasticsearch-service/latest/developerguide/es-createupdatedomains.html).*  
+  Untuk detail API, lihat [CreateElasticsearchDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/es/create-elasticsearch-domain.html)di *Referensi AWS CLI Perintah*. 

### `describe-elasticsearch-domain-config`
<a name="elasticsearch-service_DescribeElasticsearchDomainConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-elasticsearch-domain-config`.

**AWS CLI**  
**Untuk mendapatkan detail konfigurasi domain**  
`describe-elasticsearch-domain-config`Contoh berikut memberikan rincian konfigurasi untuk domain tertentu, bersama dengan informasi status untuk setiap komponen domain individu.  

```
aws es describe-elasticsearch-domain-config \
    --domain-name cli-example
```
Output:  

```
{
    "DomainConfig": {
        "ElasticsearchVersion": {
            "Options": "7.4",
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "ElasticsearchClusterConfig": {
            "Options": {
                "InstanceType": "c5.large.elasticsearch",
                "InstanceCount": 1,
                "DedicatedMasterEnabled": true,
                "ZoneAwarenessEnabled": false,
                "DedicatedMasterType": "c5.large.elasticsearch",
                "DedicatedMasterCount": 3,
                "WarmEnabled": true,
                "WarmType": "ultrawarm1.medium.elasticsearch",
                "WarmCount": 2
            },
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "EBSOptions": {
            "Options": {
                "EBSEnabled": true,
                "VolumeType": "gp2",
                "VolumeSize": 10
            },
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "AccessPolicies": {
            "Options": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"*\"},\"Action\":\"es:*\",\"Resource\":\"arn:aws:es:us-east-1:123456789012:domain/cli-example/*\"}]}",
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "SnapshotOptions": {
            "Options": {
                "AutomatedSnapshotStartHour": 0
            },
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "VPCOptions": {
            "Options": {},
            "Status": {
                "CreationDate": 1591210426.162,
                "UpdateDate": 1591210426.162,
                "UpdateVersion": 18,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "CognitoOptions": {
            "Options": {
                "Enabled": false
            },
            "Status": {
                "CreationDate": 1591210426.163,
                "UpdateDate": 1591210426.163,
                "UpdateVersion": 18,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "EncryptionAtRestOptions": {
            "Options": {
                "Enabled": true,
                "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/1a2a3a4a-1a2a-1a2a-1a2a-1a2a3a4a5a6a"
            },
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "NodeToNodeEncryptionOptions": {
            "Options": {
                "Enabled": true
            },
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "AdvancedOptions": {
            "Options": {
                "rest.action.multi.allow_explicit_index": "true"
            },
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "LogPublishingOptions": {
            "Options": {},
            "Status": {
                "CreationDate": 1591210426.164,
                "UpdateDate": 1591210426.164,
                "UpdateVersion": 18,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "DomainEndpointOptions": {
            "Options": {
                "EnforceHTTPS": true,
                "TLSSecurityPolicy": "Policy-Min-TLS-1-0-2019-07"
            },
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589395827.325,
                "UpdateVersion": 8,
                "State": "Active",
                "PendingDeletion": false
            }
        },
        "AdvancedSecurityOptions": {
            "Options": {
                "Enabled": true,
                "InternalUserDatabaseEnabled": true
            },
            "Status": {
                "CreationDate": 1589395034.946,
                "UpdateDate": 1589827485.577,
                "UpdateVersion": 14,
                "State": "Active",
                "PendingDeletion": false
            }
        }
    }
}
```
*Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Domain Layanan Amazon Elasticsearch di Panduan Pengembang Amazon Elasticsearch Service](https://docs.aws.amazon.com/elasticsearch-service/latest/developerguide/es-createupdatedomains.html).*  
+  Untuk detail API, lihat [DescribeElasticsearchDomainConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/es/describe-elasticsearch-domain-config.html)di *Referensi AWS CLI Perintah*. 

### `describe-elasticsearch-domain`
<a name="elasticsearch-service_DescribeElasticsearchDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-elasticsearch-domain`.

**AWS CLI**  
**Untuk mendapatkan detail untuk satu domain**  
`describe-elasticsearch-domain`Contoh berikut memberikan rincian konfigurasi untuk domain tertentu.  

```
aws es describe-elasticsearch-domain \
    --domain-name cli-example
```
Output:  

```
{
    "DomainStatus": {
        "DomainId": "123456789012/cli-example",
        "DomainName": "cli-example",
        "ARN": "arn:aws:es:us-east-1:123456789012:domain/cli-example",
        "Created": true,
        "Deleted": false,
        "Endpoint": "search-cli-example-1a2a3a4a5a6a7a8a9a0a.us-east-1.es.amazonaws.com",
        "Processing": false,
        "UpgradeProcessing": false,
        "ElasticsearchVersion": "7.4",
        "ElasticsearchClusterConfig": {
            "InstanceType": "c5.large.elasticsearch",
            "InstanceCount": 1,
            "DedicatedMasterEnabled": true,
            "ZoneAwarenessEnabled": false,
            "DedicatedMasterType": "c5.large.elasticsearch",
            "DedicatedMasterCount": 3,
            "WarmEnabled": true,
            "WarmType": "ultrawarm1.medium.elasticsearch",
            "WarmCount": 2
        },
        "EBSOptions": {
            "EBSEnabled": true,
            "VolumeType": "gp2",
            "VolumeSize": 10
        },
        "AccessPolicies": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"*\"},\"Action\":\"es:*\",\"Resource\":\"arn:aws:es:us-east-1:123456789012:domain/cli-example/*\"}]}",
        "SnapshotOptions": {
            "AutomatedSnapshotStartHour": 0
        },
        "CognitoOptions": {
            "Enabled": false
        },
        "EncryptionAtRestOptions": {
            "Enabled": true,
            "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/1a2a3a4a-1a2a-1a2a-1a2a-1a2a3a4a5a6a"
        },
        "NodeToNodeEncryptionOptions": {
            "Enabled": true
        },
        "AdvancedOptions": {
            "rest.action.multi.allow_explicit_index": "true"
        },
        "ServiceSoftwareOptions": {
            "CurrentVersion": "R20200522",
            "NewVersion": "",
            "UpdateAvailable": false,
            "Cancellable": false,
            "UpdateStatus": "COMPLETED",
            "Description": "There is no software update available for this domain.",
            "AutomatedUpdateDate": 0.0
        },
        "DomainEndpointOptions": {
            "EnforceHTTPS": true,
            "TLSSecurityPolicy": "Policy-Min-TLS-1-0-2019-07"
        },
        "AdvancedSecurityOptions": {
            "Enabled": true,
            "InternalUserDatabaseEnabled": true
        }
    }
}
```
*Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Domain Layanan Amazon Elasticsearch di Panduan Pengembang Amazon Elasticsearch Service](https://docs.aws.amazon.com/elasticsearch-service/latest/developerguide/es-createupdatedomains.html).*  
+  Untuk detail API, lihat [DescribeElasticsearchDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/es/describe-elasticsearch-domain.html)di *Referensi AWS CLI Perintah*. 

### `describe-elasticsearch-domains`
<a name="elasticsearch-service_DescribeElasticsearchDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-elasticsearch-domains`.

**AWS CLI**  
**Untuk mendapatkan detail untuk satu atau beberapa domain**  
`describe-elasticsearch-domains`Contoh berikut memberikan rincian konfigurasi untuk satu atau beberapa domain.  

```
aws es describe-elasticsearch-domains \
    --domain-names cli-example-1 cli-example-2
```
Output:  

```
{
    "DomainStatusList": [{
            "DomainId": "123456789012/cli-example-1",
            "DomainName": "cli-example-1",
            "ARN": "arn:aws:es:us-east-1:123456789012:domain/cli-example-1",
            "Created": true,
            "Deleted": false,
            "Endpoint": "search-cli-example-1-1a2a3a4a5a6a7a8a9a0a.us-east-1.es.amazonaws.com",
            "Processing": false,
            "UpgradeProcessing": false,
            "ElasticsearchVersion": "7.4",
            "ElasticsearchClusterConfig": {
                "InstanceType": "c5.large.elasticsearch",
                "InstanceCount": 1,
                 "DedicatedMasterEnabled": true,
                "ZoneAwarenessEnabled": false,
                "DedicatedMasterType": "c5.large.elasticsearch",
                "DedicatedMasterCount": 3,
                "WarmEnabled": true,
                "WarmType": "ultrawarm1.medium.elasticsearch",
                "WarmCount": 2
            },
            "EBSOptions": {
                "EBSEnabled": true,
                "VolumeType": "gp2",
                "VolumeSize": 10
            },
            "AccessPolicies": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"*\"},\"Action\":\"es:*\",\"Resource\":\"arn:aws:es:us-east-1:123456789012:domain/cli-example-1/*\"}]}",
            "SnapshotOptions": {
                "AutomatedSnapshotStartHour": 0
            },
            "CognitoOptions": {
                "Enabled": false
            },
            "EncryptionAtRestOptions": {
                "Enabled": true,
                "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/1a2a3a4a-1a2a-1a2a-1a2a-1a2a3a4a5a6a"
            },
            "NodeToNodeEncryptionOptions": {
                "Enabled": true
            },
            "AdvancedOptions": {
                "rest.action.multi.allow_explicit_index": "true"
            },
            "ServiceSoftwareOptions": {
                "CurrentVersion": "R20200522",
                "NewVersion": "",
                "UpdateAvailable": false,
                "Cancellable": false,
                "UpdateStatus": "COMPLETED",
                "Description": "There is no software update available for this domain.",
                "AutomatedUpdateDate": 0.0
            },
            "DomainEndpointOptions": {
                "EnforceHTTPS": true,
                "TLSSecurityPolicy": "Policy-Min-TLS-1-0-2019-07"
            },
            "AdvancedSecurityOptions": {
                "Enabled": true,
                "InternalUserDatabaseEnabled": true
            }
        },
        {
            "DomainId": "123456789012/cli-example-2",
            "DomainName": "cli-example-2",
            "ARN": "arn:aws:es:us-east-1:123456789012:domain/cli-example-2",
            "Created": true,
            "Deleted": false,
            "Processing": true,
            "UpgradeProcessing": false,
            "ElasticsearchVersion": "7.4",
            "ElasticsearchClusterConfig": {
                "InstanceType": "r5.large.elasticsearch",
                "InstanceCount": 1,
                "DedicatedMasterEnabled": false,
                "ZoneAwarenessEnabled": false,
                "WarmEnabled": false
            },
            "EBSOptions": {
                "EBSEnabled": true,
                "VolumeType": "gp2",
                "VolumeSize": 10
            },
            "AccessPolicies": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Deny\",\"Principal\":{\"AWS\":\"*\"},\"Action\":\"es:*\",\"Resource\":\"arn:aws:es:us-east-1:123456789012:domain/cli-example-2/*\"}]}",
            "SnapshotOptions": {
                "AutomatedSnapshotStartHour": 0
            },
            "CognitoOptions": {
                "Enabled": false
            },
            "EncryptionAtRestOptions": {
                "Enabled": false
            },
            "NodeToNodeEncryptionOptions": {
                "Enabled": false
            },
            "AdvancedOptions": {
                "rest.action.multi.allow_explicit_index": "true"
            },
            "ServiceSoftwareOptions": {
                "CurrentVersion": "",
                "NewVersion": "",
                "UpdateAvailable": false,
                "Cancellable": false,
                "UpdateStatus": "COMPLETED",
                "Description": "There is no software update available for this domain.",
                "AutomatedUpdateDate": 0.0
            },
            "DomainEndpointOptions": {
                "EnforceHTTPS": false,
                "TLSSecurityPolicy": "Policy-Min-TLS-1-0-2019-07"
            },
            "AdvancedSecurityOptions": {
                "Enabled": false,
                "InternalUserDatabaseEnabled": false
            }
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Domain Layanan Amazon Elasticsearch di Panduan Pengembang Amazon Elasticsearch Service](https://docs.aws.amazon.com/elasticsearch-service/latest/developerguide/es-createupdatedomains.html).*  
+  Untuk detail API, lihat [DescribeElasticsearchDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/es/describe-elasticsearch-domains.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-elasticsearch-instances`
<a name="elasticsearch-service_DescribeReservedElasticsearchInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-elasticsearch-instances`.

**AWS CLI**  
**Untuk melihat semua instance yang dicadangkan**  
`describe-elasticsearch-domains`Contoh berikut memberikan ringkasan semua instance yang telah Anda pesan di suatu wilayah.  

```
aws es describe-reserved-elasticsearch-instances
```
Output:  

```
{
    "ReservedElasticsearchInstances": [{
        "FixedPrice": 100.0,
        "ReservedElasticsearchInstanceOfferingId": "1a2a3a4a5-1a2a-3a4a-5a6a-1a2a3a4a5a6a",
        "ReservationName": "my-reservation",
        "PaymentOption": "PARTIAL_UPFRONT",
        "UsagePrice": 0.0,
        "ReservedElasticsearchInstanceId": "9a8a7a6a-5a4a-3a2a-1a0a-9a8a7a6a5a4a",
        "RecurringCharges": [{
            "RecurringChargeAmount": 0.603,
            "RecurringChargeFrequency": "Hourly"
        }],
        "State": "payment-pending",
        "StartTime": 1522872571.229,
        "ElasticsearchInstanceCount": 3,
        "Duration": 31536000,
        "ElasticsearchInstanceType": "m4.2xlarge.elasticsearch",
        "CurrencyCode": "USD"
    }]
}
```
Untuk informasi selengkapnya, lihat [Instans Cadangan](https://docs.aws.amazon.com/elasticsearch-service/latest/developerguide/aes-ri.html) di Panduan Pengembang *Amazon Elasticsearch Service*.  
+  Untuk detail API, lihat [DescribeReservedElasticsearchInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/es/describe-reserved-elasticsearch-instances.html)di *Referensi AWS CLI Perintah*. 

### `list-domain-names`
<a name="elasticsearch-service_ListDomainNames_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-domain-names`.

**AWS CLI**  
**Untuk daftar semua domain**  
`list-domain-names`Contoh berikut memberikan ringkasan singkat dari semua domain di wilayah tersebut.  

```
aws es list-domain-names
```
Output:  

```
{
    "DomainNames": [{
            "DomainName": "cli-example-1"
        },
        {
            "DomainName": "cli-example-2"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Membuat dan Mengelola Domain Layanan Amazon Elasticsearch di Panduan Pengembang Amazon Elasticsearch Service](https://docs.aws.amazon.com/elasticsearch-service/latest/developerguide/es-createupdatedomains.html).*  
+  Untuk detail API, lihat [ListDomainNames](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/es/list-domain-names.html)di *Referensi AWS CLI Perintah*. 

# Organizations contoh menggunakan AWS CLI
<a name="cli_2_organizations_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS Command Line Interface with Organizations.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-handshake`
<a name="organizations_AcceptHandshake_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-handshake`.

**AWS CLI**  
**Untuk menerima jabat tangan dari akun lain**  
Bill, pemilik sebuah organisasi, sebelumnya telah mengundang akun Juan untuk bergabung dengan organisasinya. Contoh berikut menunjukkan akun Juan menerima jabat tangan dan dengan demikian menyetujui undangan tersebut.  

```
aws organizations accept-handshake --handshake-id h-examplehandshakeid111
```
Outputnya menunjukkan hal berikut:  

```
{
        "Handshake": {
                "Action": "INVITE",
                "Arn": "arn:aws:organizations::111111111111:handshake/o-exampleorgid/invite/h-examplehandshakeid111",
                "RequestedTimestamp": 1481656459.257,
                "ExpirationTimestamp": 1482952459.257,
                "Id": "h-examplehandshakeid111",
                "Parties": [
                        {
                                "Id": "o-exampleorgid",
                                "Type": "ORGANIZATION"
                        },
                        {
                                "Id": "juan@example.com",
                                "Type": "EMAIL"
                        }
                ],
                "Resources": [
                        {
                                "Resources": [
                                        {
                                                "Type": "MASTER_EMAIL",
                                                "Value": "bill@amazon.com"
                                        },
                                        {
                                                "Type": "MASTER_NAME",
                                                "Value": "Org Master Account"
                                        },
                                        {
                                                "Type": "ORGANIZATION_FEATURE_SET",
                                                "Value": "ALL"
                                        }
                                ],
                                "Type": "ORGANIZATION",
                                "Value": "o-exampleorgid"
                        },
                        {
                                "Type": "EMAIL",
                                "Value": "juan@example.com"
                        }
                ],
                "State": "ACCEPTED"
        }
}
```
+  Untuk detail API, lihat [AcceptHandshake](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/accept-handshake.html)di *Referensi AWS CLI Perintah*. 

### `attach-policy`
<a name="organizations_AttachPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`attach-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan ke root, OU, atau akun**  
**Contoh 1**  
Contoh berikut menunjukkan cara melampirkan kebijakan kontrol layanan (SCP) ke OU:  

```
aws organizations attach-policy
                --policy-id p-examplepolicyid111
                --target-id ou-examplerootid111-exampleouid111
```
**Contoh 2**  
Contoh berikut menunjukkan cara melampirkan kebijakan kontrol layanan langsung ke akun:  

```
aws organizations attach-policy
                --policy-id p-examplepolicyid111
                --target-id 333333333333
```
+  Untuk detail API, lihat [AttachPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/attach-policy.html)di *Referensi AWS CLI Perintah*. 

### `cancel-handshake`
<a name="organizations_CancelHandshake_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-handshake`.

**AWS CLI**  
**Untuk membatalkan jabat tangan yang dikirim dari akun lain**  
Bill sebelumnya mengirim undangan ke akun Susan untuk bergabung dengan organisasinya. Dia berubah pikiran dan memutuskan untuk membatalkan undangan sebelum Susan menerimanya. Contoh berikut menunjukkan pembatalan Bill:  

```
aws organizations cancel-handshake --handshake-id h-examplehandshakeid111
```
Outputnya mencakup objek jabat tangan yang menunjukkan bahwa statusnya sekarang`CANCELED`:  

```
{
        "Handshake": {
                "Id": "h-examplehandshakeid111",
                "State":"CANCELED",
                "Action": "INVITE",
                "Arn": "arn:aws:organizations::111111111111:handshake/o-exampleorgid/invite/h-examplehandshakeid111",
                "Parties": [
                        {
                                "Id": "o-exampleorgid",
                                "Type": "ORGANIZATION"
                        },
                        {
                                "Id": "susan@example.com",
                                "Type": "EMAIL"
                        }
                ],
                "Resources": [
                        {
                                "Type": "ORGANIZATION",
                                "Value": "o-exampleorgid",
                                "Resources": [
                                        {
                                                "Type": "MASTER_EMAIL",
                                                "Value": "bill@example.com"
                                        },
                                        {
                                                "Type": "MASTER_NAME",
                                                "Value": "Master Account"
                                        },
                                        {
                                                "Type": "ORGANIZATION_FEATURE_SET",
                                                "Value": "CONSOLIDATED_BILLING"
                                        }
                                ]
                        },
                        {
                                "Type": "EMAIL",
                                "Value": "anika@example.com"
                        },
                        {
                                "Type": "NOTES",
                                "Value": "This is a request for Susan's account to join Bob's organization."
                        }
                ],
                "RequestedTimestamp": 1.47008383521E9,
                "ExpirationTimestamp": 1.47137983521E9
        }
}
```
+  Untuk detail API, lihat [CancelHandshake](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/cancel-handshake.html)di *Referensi AWS CLI Perintah*. 

### `create-account`
<a name="organizations_CreateAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-account`.

**AWS CLI**  
**Untuk membuat akun anggota yang secara otomatis menjadi bagian dari organisasi**  
Contoh berikut menunjukkan cara membuat akun anggota dalam suatu organisasi. Akun anggota dikonfigurasi dengan nama Akun Produksi dan alamat email susan@example.com. Organizations secara otomatis membuat peran IAM menggunakan nama default OrganizationAccountAccessRole karena parameter RoleName tidak ditentukan. Selain itu, pengaturan yang memungkinkan pengguna IAM atau peran dengan izin yang cukup untuk mengakses data penagihan akun diatur ke nilai default ALLOW karena IamUserAccessToBilling parameter tidak ditentukan. Organizations secara otomatis mengirimkan email “Selamat Datang di AWS” kepada Susan:  

```
aws organizations create-account --email susan@example.com --account-name "Production Account"
```
Outputnya mencakup objek permintaan yang menunjukkan bahwa statusnya sekarang`IN_PROGRESS`:  

```
{
        "CreateAccountStatus": {
                "State": "IN_PROGRESS",
                "Id": "car-examplecreateaccountrequestid111"
        }
}
```
Anda nantinya dapat menanyakan status permintaan saat ini dengan memberikan nilai respons Id ke describe-create-account-status perintah sebagai nilai untuk create-account-request-id parameter.  
Untuk informasi selengkapnya, lihat Membuat AWS Akun di Organisasi Anda di *Panduan Pengguna AWS Organizations*.  
+  Untuk detail API, lihat [CreateAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/create-account.html)di *Referensi AWS CLI Perintah*. 

### `create-organization`
<a name="organizations_CreateOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-organization`.

**AWS CLI**  
**Contoh 1: Untuk membuat organisasi baru**  
Bill ingin membuat organisasi menggunakan kredensyal dari akun 111111111111. Contoh berikut menunjukkan bahwa akun menjadi akun utama di organisasi baru. Karena dia tidak menentukan set fitur, organisasi baru default ke semua fitur yang diaktifkan dan kebijakan kontrol layanan diaktifkan di root.  

```
aws organizations create-organization
```
Outputnya mencakup objek organisasi dengan rincian tentang organisasi baru:  

```
{
        "Organization": {
                "AvailablePolicyTypes": [
                        {
                                "Status": "ENABLED",
                                "Type": "SERVICE_CONTROL_POLICY"
                        }
                ],
                "MasterAccountId": "111111111111",
                "MasterAccountArn": "arn:aws:organizations::111111111111:account/o-exampleorgid/111111111111",
                "MasterAccountEmail": "bill@example.com",
                "FeatureSet": "ALL",
                "Id": "o-exampleorgid",
                "Arn": "arn:aws:organizations::111111111111:organization/o-exampleorgid"
        }
}
```
**Contoh 2: Untuk membuat organisasi baru dengan hanya fitur penagihan terkonsolidasi yang diaktifkan**  
Contoh berikut membuat organisasi yang hanya mendukung fitur penagihan konsolidasi:  

```
aws organizations create-organization --feature-set CONSOLIDATED_BILLING
```
Outputnya mencakup objek organisasi dengan rincian tentang organisasi baru:  

```
{
        "Organization": {
                "Arn": "arn:aws:organizations::111111111111:organization/o-exampleorgid",
                "AvailablePolicyTypes": [],
                "Id": "o-exampleorgid",
                "MasterAccountArn": "arn:aws:organizations::111111111111:account/o-exampleorgid/111111111111",
                "MasterAccountEmail": "bill@example.com",
                "MasterAccountId": "111111111111",
                "FeatureSet": "CONSOLIDATED_BILLING"
        }
}
```
Untuk informasi selengkapnya, lihat Membuat Organisasi di *Panduan Pengguna AWS Organizations*.  
+  Untuk detail API, lihat [CreateOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/create-organization.html)di *Referensi AWS CLI Perintah*. 

### `create-organizational-unit`
<a name="organizations_CreateOrganizationalUnit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-organizational-unit`.

**AWS CLI**  
**Untuk membuat OU di root atau induk OU**  
Contoh berikut menunjukkan cara membuat OU yang bernama AccountingOu:  

```
aws organizations create-organizational-unit --parent-id r-examplerootid111 --name AccountingOU
```
Outputnya mencakup objek OrganizationalUnit dengan detail tentang OU baru:  

```
{
        "OrganizationalUnit": {
                "Id": "ou-examplerootid111-exampleouid111",
                "Arn": "arn:aws:organizations::111111111111:ou/o-exampleorgid/ou-examplerootid111-exampleouid111",
                "Name": "AccountingOU"
        }
}
```
+  Untuk detail API, lihat [CreateOrganizationalUnit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/create-organizational-unit.html)di *Referensi AWS CLI Perintah*. 

### `create-policy`
<a name="organizations_CreatePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-policy`.

**AWS CLI**  
**Contoh 1: Untuk membuat kebijakan dengan file sumber teks untuk kebijakan JSON**  
Contoh berikut menunjukkan cara membuat kebijakan kontrol layanan (SCP) bernama`AllowAllS3Actions`. Isi kebijakan diambil dari file di komputer lokal yang disebut`policy.json`.  

```
aws organizations create-policy --content file://policy.json --name AllowAllS3Actions, --type SERVICE_CONTROL_POLICY --description "Allows delegation of all S3 actions"
```
Outputnya mencakup objek kebijakan dengan detail tentang kebijakan baru:  

```
{
        "Policy": {
                "Content": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"s3:*\"],\"Resource\":[\"*\"]}]}",
                "PolicySummary": {
                        "Arn": "arn:aws:organizations::o-exampleorgid:policy/service_control_policy/p-examplepolicyid111",
                        "Description": "Allows delegation of all S3 actions",
                        "Name": "AllowAllS3Actions",
                        "Type":"SERVICE_CONTROL_POLICY"
                }
        }
}
```
**Contoh 2: Untuk membuat kebijakan dengan kebijakan JSON sebagai parameter**  
Contoh berikut menunjukkan cara membuat SCP yang sama, kali ini dengan menyematkan konten kebijakan sebagai string JSON dalam parameter. String harus lolos dengan garis miring terbalik sebelum tanda kutip ganda untuk memastikan bahwa mereka diperlakukan sebagai literal dalam parameter, yang dengan sendirinya dikelilingi oleh tanda kutip ganda:  

```
aws organizations create-policy --content "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Action\":[\"s3:*\"],\"Resource\":[\"*\"]}]}" --name AllowAllS3Actions --type SERVICE_CONTROL_POLICY --description "Allows delegation of all S3 actions"
```
Untuk informasi selengkapnya tentang membuat dan menggunakan kebijakan di organisasi Anda, lihat Mengelola Kebijakan *AWS Organisasi di Panduan Pengguna Organizations*.  
+  Untuk detail API, lihat [CreatePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/create-policy.html)di *Referensi AWS CLI Perintah*. 

### `decline-handshake`
<a name="organizations_DeclineHandshake_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decline-handshake`.

**AWS CLI**  
**Untuk menolak jabat tangan yang dikirim dari akun lain**  
Contoh berikut menunjukkan bahwa Susan, admin yang merupakan pemilik akun 22222222222222, menolak undangan untuk bergabung dengan organisasi Bill. DeclineHandshake Operasi mengembalikan objek jabat tangan, menunjukkan bahwa keadaan sekarang DITOLAK:  

```
aws organizations decline-handshake --handshake-id h-examplehandshakeid111
```
Outputnya mencakup objek jabat tangan yang menunjukkan status baru: `DECLINED`  

```
{
        "Handshake": {
                "Id": "h-examplehandshakeid111",
                "State": "DECLINED",
                "Resources": [
                        {
                                "Type": "ORGANIZATION",
                                "Value": "o-exampleorgid",
                                "Resources": [
                                        {
                                                "Type": "MASTER_EMAIL",
                                                "Value": "bill@example.com"
                                        },
                                        {
                                                "Type": "MASTER_NAME",
                                                "Value": "Master Account"
                                        }
                                ]
                        },
                        {
                                "Type": "EMAIL",
                                "Value": "susan@example.com"
                        },
                        {
                                "Type": "NOTES",
                                "Value": "This is an invitation to Susan's account to join the Bill's organization."
                        }
                ],
                "Parties": [
                        {
                                "Type": "EMAIL",
                                "Id": "susan@example.com"
                        },
                        {
                                "Type": "ORGANIZATION",
                                "Id": "o-exampleorgid"
                        }
                ],
                "Action": "INVITE",
                "RequestedTimestamp": 1470684478.687,
                "ExpirationTimestamp": 1471980478.687,
                "Arn": "arn:aws:organizations::111111111111:handshake/o-exampleorgid/invite/h-examplehandshakeid111"
        }
}
```
+  Untuk detail API, lihat [DeclineHandshake](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/decline-handshake.html)di *Referensi AWS CLI Perintah*. 

### `delete-organization`
<a name="organizations_DeleteOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-organization`.

**AWS CLI**  
**Untuk menghapus organisasi**  
Contoh berikut menunjukkan cara menghapus organisasi. Untuk melakukan operasi ini, Anda harus menjadi admin akun master di organisasi. Contoh ini mengasumsikan bahwa Anda sebelumnya menghapus semua akun anggota OUs, dan kebijakan dari organisasi:  

```
aws organizations delete-organization
```
+  Untuk detail API, lihat [DeleteOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/delete-organization.html)di *Referensi AWS CLI Perintah*. 

### `delete-organizational-unit`
<a name="organizations_DeleteOrganizationalUnit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-organizational-unit`.

**AWS CLI**  
**Untuk menghapus OU**  
Contoh berikut menunjukkan cara menghapus OU. Contoh mengasumsikan bahwa Anda sebelumnya menghapus semua akun dan lainnya OUs dari OU:  

```
aws organizations delete-organizational-unit --organizational-unit-id ou-examplerootid111-exampleouid111
```
+  Untuk detail API, lihat [DeleteOrganizationalUnit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/delete-organizational-unit.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy`
<a name="organizations_DeletePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan**  
Contoh berikut menunjukkan cara menghapus kebijakan dari organisasi. Contoh ini mengasumsikan bahwa Anda sebelumnya melepaskan kebijakan dari semua entitas:  

```
aws organizations delete-policy --policy-id p-examplepolicyid111
```
+  Untuk detail API, lihat [DeletePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/delete-policy.html)di *Referensi AWS CLI Perintah*. 

### `describe-account`
<a name="organizations_DescribeAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account`.

**AWS CLI**  
**Untuk mendapatkan detail tentang akun**  
Contoh berikut menunjukkan cara meminta detail tentang akun:  

```
aws organizations describe-account --account-id 555555555555
```
Output menunjukkan objek akun dengan rincian tentang akun:  

```
{
        "Account": {
                "Id": "555555555555",
                "Arn": "arn:aws:organizations::111111111111:account/o-exampleorgid/555555555555",
                "Name": "Beta account",
                "Email": "anika@example.com",
                "JoinedMethod": "INVITED",
                "JoinedTimeStamp": 1481756563.134,
                "Status": "ACTIVE"
        }
}
```
+  Untuk detail API, lihat [DescribeAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/describe-account.html)di *Referensi AWS CLI Perintah*. 

### `describe-create-account-status`
<a name="organizations_DescribeCreateAccountStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-create-account-status`.

**AWS CLI**  
**Untuk mendapatkan status terbaru tentang permintaan untuk membuat akun**  
Contoh berikut menunjukkan cara meminta status terbaru untuk permintaan sebelumnya untuk membuat akun di organisasi. --request-id yang ditentukan berasal dari respons panggilan asli ke create-account. Permintaan pembuatan akun menunjukkan dengan bidang status bahwa Organizations berhasil menyelesaikan pembuatan akun.  
Perintah:  

```
aws organizations describe-create-account-status --create-account-request-id car-examplecreateaccountrequestid111
```
Output:  

```
{
  "CreateAccountStatus": {
    "State": "SUCCEEDED",
    "AccountId": "555555555555",
    "AccountName": "Beta account",
    "RequestedTimestamp": 1470684478.687,
    "CompletedTimestamp": 1470684532.472,
    "Id": "car-examplecreateaccountrequestid111"
  }
}
```
+  Untuk detail API, lihat [DescribeCreateAccountStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/describe-create-account-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-handshake`
<a name="organizations_DescribeHandshake_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-handshake`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang jabat tangan**  
Contoh berikut menunjukkan cara meminta detail tentang jabat tangan. ID jabat tangan berasal dari panggilan asli ke`InviteAccountToOrganization`, atau dari panggilan ke `ListHandshakesForAccount` atau`ListHandshakesForOrganization`:  

```
aws organizations describe-handshake --handshake-id h-examplehandshakeid111
```
Outputnya mencakup objek jabat tangan yang memiliki semua detail tentang jabat tangan yang diminta:  

```
{
        "Handshake": {
                "Id": "h-examplehandshakeid111",
                "State": "OPEN",
                "Resources": [
                        {
                                "Type": "ORGANIZATION",
                                "Value": "o-exampleorgid",
                                "Resources": [
                                        {
                                                "Type": "MASTER_EMAIL",
                                                "Value": "bill@example.com"
                                        },
                                        {
                                                "Type": "MASTER_NAME",
                                                "Value": "Master Account"
                                        }
                                ]
                        },
                        {
                                "Type": "EMAIL",
                                "Value": "anika@example.com"
                        }
                ],
                "Parties": [
                        {
                                "Type": "ORGANIZATION",
                                "Id": "o-exampleorgid"
                        },
                        {
                                "Type": "EMAIL",
                                "Id": "anika@example.com"
                        }
                ],
                "Action": "INVITE",
                "RequestedTimestamp": 1470158698.046,
                "ExpirationTimestamp": 1471454698.046,
                "Arn": "arn:aws:organizations::111111111111:handshake/o-exampleorgid/invite/h-examplehandshakeid111"
        }
}
```
+  Untuk detail API, lihat [DescribeHandshake](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/describe-handshake.html)di *Referensi AWS CLI Perintah*. 

### `describe-organization`
<a name="organizations_DescribeOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-organization`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang organisasi saat ini**  
Contoh berikut menunjukkan cara meminta detail tentang organisasi:  

```
aws organizations describe-organization
```
Outputnya mencakup objek organisasi yang memiliki rincian tentang organisasi:  

```
{
        "Organization": {
                "MasterAccountArn": "arn:aws:organizations::111111111111:account/o-exampleorgid/111111111111",
                "MasterAccountEmail": "bill@example.com",
                "MasterAccountId": "111111111111",
                "Id": "o-exampleorgid",
                "FeatureSet": "ALL",
                "Arn": "arn:aws:organizations::111111111111:organization/o-exampleorgid",
                "AvailablePolicyTypes": [
                        {
                                "Status": "ENABLED",
                                "Type": "SERVICE_CONTROL_POLICY"
                        }
                ]
        }
}
```
+  Untuk detail API, lihat [DescribeOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/describe-organization.html)di *Referensi AWS CLI Perintah*. 

### `describe-organizational-unit`
<a name="organizations_DescribeOrganizationalUnit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-organizational-unit`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang OU**  
`describe-organizational-unit`Contoh berikut meminta rincian tentang OU.  

```
aws organizations describe-organizational-unit \
    --organizational-unit-id ou-examplerootid111-exampleouid111
```
Output:  

```
{
    "OrganizationalUnit": {
        "Name": "Accounting Group",
        "Arn": "arn:aws:organizations::123456789012:ou/o-exampleorgid/ou-examplerootid111-exampleouid111",
        "Id": "ou-examplerootid111-exampleouid111"
    }
}
```
+  Untuk detail API, lihat [DescribeOrganizationalUnit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/describe-organizational-unit.html)di *Referensi AWS CLI Perintah*. 

### `describe-policy`
<a name="organizations_DescribePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-policy`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kebijakan**  
Contoh berikut menunjukkan cara meminta informasi tentang kebijakan:  

```
aws organizations describe-policy --policy-id p-examplepolicyid111
```
Outputnya mencakup objek kebijakan yang berisi detail tentang kebijakan:  

```
{
        "Policy": {
                "Content": "{\n  \"Version\": \"2012-10-17\",\n  \"Statement\": [\n    {\n      \"Effect\": \"Allow\",\n      \"Action\": \"*\",\n      \"Resource\": \"*\"\n    }\n  ]\n}",
                "PolicySummary": {
                        "Arn": "arn:aws:organizations::111111111111:policy/o-exampleorgid/service_control_policy/p-examplepolicyid111",
                        "Type": "SERVICE_CONTROL_POLICY",
                        "Id": "p-examplepolicyid111",
                        "AwsManaged": false,
                        "Name": "AllowAllS3Actions",
                        "Description": "Enables admins to delegate S3 permissions"
                }
        }
}
```
+  Untuk detail API, lihat [DescribePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/describe-policy.html)di *Referensi AWS CLI Perintah*. 

### `detach-policy`
<a name="organizations_DetachPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detach-policy`.

**AWS CLI**  
**Untuk melepaskan kebijakan dari root, OU, atau akun**  
Contoh berikut menunjukkan cara melepaskan kebijakan dari OU:  

```
aws organizations  detach-policy  --target-id ou-examplerootid111-exampleouid111 --policy-id p-examplepolicyid111
```
+  Untuk detail API, lihat [DetachPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/detach-policy.html)di *Referensi AWS CLI Perintah*. 

### `disable-policy-type`
<a name="organizations_DisablePolicyType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-policy-type`.

**AWS CLI**  
**Untuk menonaktifkan jenis kebijakan di root**  
Contoh berikut menunjukkan cara menonaktifkan jenis kebijakan kebijakan kontrol layanan (SCP) di root:  

```
aws organizations disable-policy-type --root-id r-examplerootid111 --policy-type SERVICE_CONTROL_POLICY
```
Output menunjukkan bahwa elemen PolicyTypes respon tidak lagi menyertakan SERVICE\$1CONTROL\$1POLICY:  

```
{
        "Root": {
                "PolicyTypes": [],
                "Name": "Root",
                "Id": "r-examplerootid111",
                "Arn": "arn:aws:organizations::111111111111:root/o-exampleorgid/r-examplerootid111"
        }
}
```
+  Untuk detail API, lihat [DisablePolicyType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/disable-policy-type.html)di *Referensi AWS CLI Perintah*. 

### `enable-all-features`
<a name="organizations_EnableAllFeatures_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-all-features`.

**AWS CLI**  
**Untuk mengaktifkan semua fitur dalam suatu organisasi**  
Contoh ini menunjukkan administrator yang meminta semua akun yang diundang di organisasi untuk menyetujui semua fitur yang diaktifkan di organisasi. AWS Organizations mengirimkan email ke alamat yang terdaftar di setiap akun anggota yang diundang meminta pemilik untuk menyetujui perubahan ke semua fitur dengan menerima jabat tangan yang dikirim. Setelah semua akun anggota yang diundang menerima jabat tangan, administrator organisasi dapat menyelesaikan perubahan ke semua fitur, dan mereka yang memiliki izin yang sesuai dapat membuat kebijakan dan menerapkannya ke root, OUs, dan akun:  

```
aws organizations enable-all-features
```
Outputnya adalah objek jabat tangan yang dikirim ke semua akun anggota yang diundang untuk persetujuan:  

```
{
        "Handshake": {
                "Action": "ENABLE_ALL_FEATURES",
                "Arn":"arn:aws:organizations::111111111111:handshake/o-exampleorgid/enable_all_features/h-examplehandshakeid111",
                "ExpirationTimestamp":1.483127868609E9,
                "Id":"h-examplehandshakeid111",
                "Parties": [
                        {
                                "id":"o-exampleorgid",
                                "type":"ORGANIZATION"
                        }
                ],
                "requestedTimestamp":1.481831868609E9,
                "resources": [
                        {
                                "type":"ORGANIZATION",
                                "value":"o-exampleorgid"
                        }
                ],
                "state":"REQUESTED"
        }
}
```
+  Untuk detail API, lihat [EnableAllFeatures](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/enable-all-features.html)di *Referensi AWS CLI Perintah*. 

### `enable-policy-type`
<a name="organizations_EnablePolicyType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-policy-type`.

**AWS CLI**  
**Untuk mengaktifkan penggunaan jenis kebijakan di root**  
Contoh berikut menunjukkan cara mengaktifkan jenis kebijakan kebijakan kontrol layanan (SCP) di root:  

```
aws organizations enable-policy-type --root-id r-examplerootid111 --policy-type SERVICE_CONTROL_POLICY
```
Output menunjukkan objek root dengan elemen respons PolicyTypes yang menunjukkan bahwa sekarang SCPs diaktifkan:  

```
{
        "Root": {
                "PolicyTypes": [
                        {
                                "Status":"ENABLED",
                                "Type":"SERVICE_CONTROL_POLICY"
                        }
                ],
                "Id": "r-examplerootid111",
                "Name": "Root",
                "Arn": "arn:aws:organizations::111111111111:root/o-exampleorgid/r-examplerootid111"
        }
}
```
+  Untuk detail API, lihat [EnablePolicyType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/enable-policy-type.html)di *Referensi AWS CLI Perintah*. 

### `invite-account-to-organization`
<a name="organizations_InviteAccountToOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`invite-account-to-organization`.

**AWS CLI**  
**Mengundang akun untuk bergabung dengan organisasi**  
Contoh berikut menunjukkan akun master yang dimiliki oleh bill@example.com mengundang akun milik juan@example.com untuk bergabung dengan organisasi:  

```
aws organizations invite-account-to-organization --target '{"Type": "EMAIL", "Id": "juan@example.com"}' --notes "This is a request for Juan's account to join Bill's organization."
```
Outputnya mencakup struktur jabat tangan yang menunjukkan apa yang dikirim ke akun yang diundang:  

```
{
        "Handshake": {
                "Action": "INVITE",
                "Arn": "arn:aws:organizations::111111111111:handshake/o-exampleorgid/invite/h-examplehandshakeid111",
                "ExpirationTimestamp": 1482952459.257,
                "Id": "h-examplehandshakeid111",
                "Parties": [
                        {
                                "Id": "o-exampleorgid",
                                "Type": "ORGANIZATION"
                        },
                        {
                                "Id": "juan@example.com",
                                "Type": "EMAIL"
                        }
                ],
                "RequestedTimestamp": 1481656459.257,
                "Resources": [
                        {
                                "Resources": [
                                        {
                                                "Type": "MASTER_EMAIL",
                                                "Value": "bill@amazon.com"
                                        },
                                        {
                                                "Type": "MASTER_NAME",
                                                "Value": "Org Master Account"
                                        },
                                        {
                                                "Type": "ORGANIZATION_FEATURE_SET",
                                                "Value": "FULL"
                                        }
                                ],
                                "Type": "ORGANIZATION",
                                "Value": "o-exampleorgid"
                        },
                        {
                                "Type": "EMAIL",
                                "Value": "juan@example.com"
                        }
                ],
                "State": "OPEN"
        }
}
```
+  Untuk detail API, lihat [InviteAccountToOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/invite-account-to-organization.html)di *Referensi AWS CLI Perintah*. 

### `leave-organization`
<a name="organizations_LeaveOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`leave-organization`.

**AWS CLI**  
**Untuk meninggalkan organisasi sebagai akun anggota**  
Contoh berikut menunjukkan administrator akun anggota yang meminta untuk meninggalkan organisasi yang saat ini menjadi anggota:  

```
aws organizations leave-organization
```
+  Untuk detail API, lihat [LeaveOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/leave-organization.html)di *Referensi AWS CLI Perintah*. 

### `list-accounts-for-parent`
<a name="organizations_ListAccountsForParent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-accounts-for-parent`.

**AWS CLI**  
**Untuk mengambil daftar semua akun di root induk tertentu atau OU**  
Contoh berikut menunjukkan cara meminta daftar akun di OU:  

```
aws organizations list-accounts-for-parent --parent-id ou-examplerootid111-exampleouid111
```
Outputnya mencakup daftar objek ringkasan akun.  

```
{
        "Accounts": [
                {
                        "Arn": "arn:aws:organizations::111111111111:account/o-exampleorgid/333333333333",
                        "JoinedMethod": "INVITED",
                        "JoinedTimestamp": 1481835795.536,
                        "Id": "333333333333",
                        "Name": "Development Account",
                        "Email": "juan@example.com",
                        "Status": "ACTIVE"
                },
                {
                        "Arn": "arn:aws:organizations::111111111111:account/o-exampleorgid/444444444444",
                        "JoinedMethod": "INVITED",
                        "JoinedTimestamp": 1481835812.143,
                        "Id": "444444444444",
                        "Name": "Test Account",
                        "Email": "anika@example.com",
                        "Status": "ACTIVE"
                }
        ]
}
```
+  Untuk detail API, lihat [ListAccountsForParent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-accounts-for-parent.html)di *Referensi AWS CLI Perintah*. 

### `list-accounts`
<a name="organizations_ListAccounts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-accounts`.

**AWS CLI**  
**Untuk mengambil daftar semua akun dalam suatu organisasi**  
Contoh berikut menunjukkan cara meminta daftar akun di organisasi:  

```
aws organizations list-accounts
```
Outputnya mencakup daftar objek ringkasan akun.  

```
{
        "Accounts": [
                {
                        "Arn": "arn:aws:organizations::111111111111:account/o-exampleorgid/111111111111",
                        "JoinedMethod": "INVITED",
                        "JoinedTimestamp": 1481830215.45,
                        "Id": "111111111111",
                        "Name": "Master Account",
                        "Email": "bill@example.com",
                        "Status": "ACTIVE"
                },
                {
                        "Arn": "arn:aws:organizations::111111111111:account/o-exampleorgid/222222222222",
                        "JoinedMethod": "INVITED",
                        "JoinedTimestamp": 1481835741.044,
                        "Id": "222222222222",
                        "Name": "Production Account",
                        "Email": "alice@example.com",
                        "Status": "ACTIVE"
                },
                {
                        "Arn": "arn:aws:organizations::111111111111:account/o-exampleorgid/333333333333",
                        "JoinedMethod": "INVITED",
                        "JoinedTimestamp": 1481835795.536,
                        "Id": "333333333333",
                        "Name": "Development Account",
                        "Email": "juan@example.com",
                        "Status": "ACTIVE"
                },
                {
                        "Arn": "arn:aws:organizations::111111111111:account/o-exampleorgid/444444444444",
                        "JoinedMethod": "INVITED",
                        "JoinedTimestamp": 1481835812.143,
                        "Id": "444444444444",
                        "Name": "Test Account",
                        "Email": "anika@example.com",
                        "Status": "ACTIVE"
                }
        ]
}
```
+  Untuk detail API, lihat [ListAccounts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-accounts.html)di *Referensi AWS CLI Perintah*. 

### `list-children`
<a name="organizations_ListChildren_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-children`.

**AWS CLI**  
**Untuk mengambil akun anak dan OUs OU atau root orang tua**  
Berikut contoh Anda bagaimana untuk daftar root atau OU yang berisi account 444444444444:  

```
aws organizations list-children --child-type ORGANIZATIONAL_UNIT --parent-id ou-examplerootid111-exampleouid111
```
Output menunjukkan dua anak OUs yang dikandung oleh orang tua:  

```
{
        "Children": [
                {
                        "Id": "ou-examplerootid111-exampleouid111",
                        "Type":"ORGANIZATIONAL_UNIT"
                },
                {
                        "Id":"ou-examplerootid111-exampleouid222",
                        "Type":"ORGANIZATIONAL_UNIT"
                }
        ]
}
```
+  Untuk detail API, lihat [ListChildren](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-children.html)di *Referensi AWS CLI Perintah*. 

### `list-create-account-status`
<a name="organizations_ListCreateAccountStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-create-account-status`.

**AWS CLI**  
**Contoh 1: Untuk mengambil daftar permintaan pembuatan akun yang dibuat di organisasi saat ini**  
Contoh berikut menunjukkan cara meminta daftar permintaan pembuatan akun untuk organisasi yang telah berhasil diselesaikan:  

```
aws organizations list-create-account-status --states SUCCEEDED
```
Outputnya mencakup array objek dengan informasi tentang setiap permintaan.  

```
{
        "CreateAccountStatuses": [
                {
                        "AccountId": "444444444444",
                        "AccountName": "Developer Test Account",
                        "CompletedTimeStamp": 1481835812.143,
                        "Id": "car-examplecreateaccountrequestid111",
                        "RequestedTimeStamp": 1481829432.531,
                        "State": "SUCCEEDED"
                }
        ]
}
```
**Contoh 2: Untuk mengambil daftar permintaan pembuatan akun yang sedang berlangsung yang dibuat di organisasi saat ini**  
Contoh berikut mendapatkan daftar permintaan pembuatan akun yang sedang berlangsung untuk organisasi:  

```
aws organizations list-create-account-status --states IN_PROGRESS
```
Outputnya mencakup array objek dengan informasi tentang setiap permintaan.  

```
{
        "CreateAccountStatuses": [
                {
                  "State": "IN_PROGRESS",
                  "Id": "car-examplecreateaccountrequestid111",
                  "RequestedTimeStamp": 1481829432.531,
                  "AccountName": "Production Account"
                }
        ]
}
```
+  Untuk detail API, lihat [ListCreateAccountStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-create-account-status.html)di *Referensi AWS CLI Perintah*. 

### `list-handshakes-for-account`
<a name="organizations_ListHandshakesForAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-handshakes-for-account`.

**AWS CLI**  
**Untuk mengambil daftar jabat tangan yang dikirim ke akun**  
Contoh berikut menunjukkan cara mendapatkan daftar semua jabat tangan yang terkait dengan akun kredenal yang digunakan untuk memanggil operasi:  

```
aws organizations list-handshakes-for-account
```
Outputnya mencakup daftar struktur jabat tangan dengan informasi tentang setiap jabat tangan termasuk statusnya saat ini:  

```
{
        "Handshake": {
                "Action": "INVITE",
                "Arn": "arn:aws:organizations::111111111111:handshake/o-exampleorgid/invite/h-examplehandshakeid111",
                "ExpirationTimestamp": 1482952459.257,
                "Id": "h-examplehandshakeid111",
                "Parties": [
                        {
                                "Id": "o-exampleorgid",
                                "Type": "ORGANIZATION"
                        },
                        {
                                "Id": "juan@example.com",
                                "Type": "EMAIL"
                        }
                ],
                "RequestedTimestamp": 1481656459.257,
                "Resources": [
                        {
                                "Resources": [
                                        {
                                                "Type": "MASTER_EMAIL",
                                                "Value": "bill@amazon.com"
                                        },
                                        {
                                                "Type": "MASTER_NAME",
                                                "Value": "Org Master Account"
                                        },
                                        {
                                                "Type": "ORGANIZATION_FEATURE_SET",
                                                "Value": "FULL"
                                        }
                                ],
                                "Type": "ORGANIZATION",
                                "Value": "o-exampleorgid"
                        },
                        {
                                "Type": "EMAIL",
                                "Value": "juan@example.com"
                        }
                ],
                "State": "OPEN"
        }
}
```
+  Untuk detail API, lihat [ListHandshakesForAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-handshakes-for-account.html)di *Referensi AWS CLI Perintah*. 

### `list-handshakes-for-organization`
<a name="organizations_ListHandshakesForOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-handshakes-for-organization`.

**AWS CLI**  
**Untuk mengambil daftar jabat tangan yang terkait dengan organisasi**  
Contoh berikut menunjukkan cara mendapatkan daftar jabat tangan yang terkait dengan organisasi saat ini:  

```
aws organizations list-handshakes-for-organization
```
Outputnya menunjukkan dua jabat tangan. Yang pertama adalah undangan ke akun Juan dan menunjukkan keadaan TERBUKA. Yang kedua adalah undangan ke akun Anika dan menunjukkan status DITERIMA:  

```
{
        "Handshakes": [
                {
                        "Action": "INVITE",
                        "Arn": "arn:aws:organizations::111111111111:handshake/o-exampleorgid/invite/h-examplehandshakeid111",
                        "ExpirationTimestamp": 1482952459.257,
                        "Id": "h-examplehandshakeid111",
                        "Parties": [
                                {
                                        "Id": "o-exampleorgid",
                                        "Type": "ORGANIZATION"
                                },
                                {
                                        "Id": "juan@example.com",
                                        "Type": "EMAIL"
                                }
                        ],
                        "RequestedTimestamp": 1481656459.257,
                        "Resources": [
                                {
                                        "Resources": [
                                                {
                                                        "Type": "MASTER_EMAIL",
                                                        "Value": "bill@amazon.com"
                                                },
                                                {
                                                        "Type": "MASTER_NAME",
                                                        "Value": "Org Master Account"
                                                },
                                                {
                                                        "Type": "ORGANIZATION_FEATURE_SET",
                                                        "Value": "FULL"
                                                }
                                        ],
                                        "Type": "ORGANIZATION",
                                        "Value": "o-exampleorgid"
                                },
                                {
                                        "Type": "EMAIL",
                                        "Value": "juan@example.com"
                                },
                                {
                                        "Type":"NOTES",
                                        "Value":"This is an invitation to Juan's account to join Bill's organization."
                                }
                        ],
                        "State": "OPEN"
                },
                {
                        "Action": "INVITE",
                        "State":"ACCEPTED",
                        "Arn": "arn:aws:organizations::111111111111:handshake/o-exampleorgid/invite/h-examplehandshakeid111",
                        "ExpirationTimestamp": 1.471797437427E9,
                        "Id": "h-examplehandshakeid222",
                        "Parties": [
                                {
                                        "Id": "o-exampleorgid",
                                        "Type": "ORGANIZATION"
                                },
                                {
                                        "Id": "anika@example.com",
                                        "Type": "EMAIL"
                                }
                        ],
                        "RequestedTimestamp": 1.469205437427E9,
                        "Resources": [
                                {
                                        "Resources": [
                                                {
                                                        "Type":"MASTER_EMAIL",
                                                        "Value":"bill@example.com"
                                                },
                                                {
                                                        "Type":"MASTER_NAME",
                                                        "Value":"Master Account"
                                                }
                                        ],
                                        "Type":"ORGANIZATION",
                                        "Value":"o-exampleorgid"
                                },
                                {
                                        "Type":"EMAIL",
                                        "Value":"anika@example.com"
                                },
                                {
                                        "Type":"NOTES",
                                        "Value":"This is an invitation to Anika's account to join Bill's organization."
                                }
                        ]
                }
        ]
}
```
+  Untuk detail API, lihat [ListHandshakesForOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-handshakes-for-organization.html)di *Referensi AWS CLI Perintah*. 

### `list-organizational-units-for-parent`
<a name="organizations_ListOrganizationalUnitsForParent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-organizational-units-for-parent`.

**AWS CLI**  
**Untuk mengambil daftar OU atau root induk OUs **  
Contoh berikut menunjukkan kepada Anda cara mendapatkan daftar OUs di root tertentu:  

```
aws organizations list-organizational-units-for-parent --parent-id r-examplerootid111
```
Output menunjukkan bahwa root yang ditentukan berisi dua OUs dan menunjukkan rincian masing-masing:  

```
{
        "OrganizationalUnits": [
                {
                        "Name": "AccountingDepartment",
                        "Arn": "arn:aws:organizations::o-exampleorgid:ou/r-examplerootid111/ou-examplerootid111-exampleouid111"
                },
                {
                        "Name": "ProductionDepartment",
                        "Arn": "arn:aws:organizations::o-exampleorgid:ou/r-examplerootid111/ou-examplerootid111-exampleouid222"
                }
        ]
}
```
+  Untuk detail API, lihat [ListOrganizationalUnitsForParent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-organizational-units-for-parent.html)di *Referensi AWS CLI Perintah*. 

### `list-parents`
<a name="organizations_ListParents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-parents`.

**AWS CLI**  
**Untuk membuat daftar induk OUs atau akar untuk akun atau anak OU**  
Berikut contoh Anda bagaimana untuk daftar root atau induk OU yang berisi account 444444444444:  

```
aws organizations list-parents --child-id 444444444444
```
Output menunjukkan bahwa akun yang ditentukan ada di OU dengan ID tertentu:  

```
{
  "Parents": [
        {
          "Id": "ou-examplerootid111-exampleouid111",
          "Type": "ORGANIZATIONAL_UNIT"
        }
  ]
}
```
+  Untuk detail API, lihat [ListParents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-parents.html)di *Referensi AWS CLI Perintah*. 

### `list-policies-for-target`
<a name="organizations_ListPoliciesForTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policies-for-target`.

**AWS CLI**  
**Untuk mengambil daftar SCPs terlampir langsung ke akun**  
Contoh berikut menunjukkan cara mendapatkan daftar semua kebijakan kontrol layanan (SCPs), seperti yang ditentukan oleh parameter Filter, yang langsung dilampirkan ke akun:  

```
aws organizations list-policies-for-target --filter SERVICE_CONTROL_POLICY --target-id 444444444444
```
Output mencakup daftar struktur kebijakan dengan informasi ringkasan tentang kebijakan. Daftar ini tidak menyertakan kebijakan yang berlaku untuk akun karena warisan dari lokasinya dalam hierarki OU:  

```
{
        "Policies": [
                {
                        "Type": "SERVICE_CONTROL_POLICY",
                        "Name": "AllowAllEC2Actions",
                        "AwsManaged", false,
                        "Id": "p-examplepolicyid222",
                        "Arn": "arn:aws:organizations::o-exampleorgid:policy/service_control_policy/p-examplepolicyid222",
                        "Description": "Enables account admins to delegate permissions for any EC2 actions to users and roles in their accounts."
                }
        ]
}
```
+  Untuk detail API, lihat [ListPoliciesForTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-policies-for-target.html)di *Referensi AWS CLI Perintah*. 

### `list-policies`
<a name="organizations_ListPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policies`.

**AWS CLI**  
**Untuk mengambil daftar semua kebijakan dalam organisasi dari jenis tertentu**  
Contoh berikut menunjukkan cara untuk mendapatkan daftar SCPs, seperti yang ditentukan oleh parameter filter:  

```
aws organizations list-policies --filter SERVICE_CONTROL_POLICY
```
Outputnya mencakup daftar kebijakan dengan informasi ringkasan:  

```
{
        "Policies": [
                {
                        "Type": "SERVICE_CONTROL_POLICY",
                        "Name": "AllowAllS3Actions",
                        "AwsManaged": false,
                        "Id": "p-examplepolicyid111",
                        "Arn": "arn:aws:organizations::111111111111:policy/service_control_policy/p-examplepolicyid111",
                        "Description": "Enables account admins to delegate permissions for any S3 actions to users and roles in their accounts."
                },
                {
                        "Type": "SERVICE_CONTROL_POLICY",
                        "Name": "AllowAllEC2Actions",
                        "AwsManaged": false,
                        "Id": "p-examplepolicyid222",
                        "Arn": "arn:aws:organizations::111111111111:policy/service_control_policy/p-examplepolicyid222",
                        "Description": "Enables account admins to delegate permissions for any EC2 actions to users and roles in their accounts."
                },
                {
                        "AwsManaged": true,
                        "Description": "Allows access to every operation",
                        "Type": "SERVICE_CONTROL_POLICY",
                        "Id": "p-FullAWSAccess",
                        "Arn": "arn:aws:organizations::aws:policy/service_control_policy/p-FullAWSAccess",
                        "Name": "FullAWSAccess"
                }
        ]
}
```
+  Untuk detail API, lihat [ListPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-roots`
<a name="organizations_ListRoots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-roots`.

**AWS CLI**  
**Untuk mengambil daftar akar dalam suatu organisasi**  
Contoh ini menunjukkan kepada Anda cara mendapatkan daftar root untuk suatu organisasi:  

```
aws organizations list-roots
```
Outputnya mencakup daftar struktur root dengan informasi ringkasan:  

```
{
        "Roots": [
                {
                        "Name": "Root",
                        "Arn": "arn:aws:organizations::111111111111:root/o-exampleorgid/r-examplerootid111",
                        "Id": "r-examplerootid111",
                        "PolicyTypes": [
                                {
                                        "Status":"ENABLED",
                                        "Type":"SERVICE_CONTROL_POLICY"
                                }
                        ]
                }
        ]
}
```
+  Untuk detail API, lihat [ListRoots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-roots.html)di *Referensi AWS CLI Perintah*. 

### `list-targets-for-policy`
<a name="organizations_ListTargetsForPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-targets-for-policy`.

**AWS CLI**  
**Untuk mengambil daftar akar, OUs, dan akun yang dilampirkan kebijakan**  
Contoh berikut menunjukkan cara mendapatkan daftar akar, OUs, dan akun yang dilampirkan kebijakan yang ditentukan:  

```
aws organizations list-targets-for-policy --policy-id p-FullAWSAccess
```
Outputnya mencakup daftar objek lampiran dengan informasi ringkasan tentang akar OUs, dan akun yang dilampirkan kebijakan:  

```
{
        "Targets": [
                {
                        "Arn": "arn:aws:organizations::111111111111:root/o-exampleorgid/r-examplerootid111",
                        "Name": "Root",
                        "TargetId":"r-examplerootid111",
                        "Type":"ROOT"
                },
                {
                        "Arn": "arn:aws:organizations::111111111111:account/o-exampleorgid/333333333333;",
                        "Name": "Developer Test Account",
                        "TargetId": "333333333333",
                        "Type": "ACCOUNT"
                },
                {
                        "Arn":"arn:aws:organizations::111111111111:ou/o-exampleorgid/ou-examplerootid111-exampleouid111",
                        "Name":"Accounting",
                        "TargetId":"ou-examplerootid111-exampleouid111",
                        "Type":"ORGANIZATIONAL_UNIT"
                }
        ]
}
```
+  Untuk detail API, lihat [ListTargetsForPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/list-targets-for-policy.html)di *Referensi AWS CLI Perintah*. 

### `move-account`
<a name="organizations_MoveAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`move-account`.

**AWS CLI**  
**Untuk memindahkan akun di antara akar atau OUs**  
Contoh berikut menunjukkan cara memindahkan akun master di organisasi dari root ke OU:  

```
aws organizations move-account --account-id 333333333333 --source-parent-id r-examplerootid111 --destination-parent-id ou-examplerootid111-exampleouid111
```
+  Untuk detail API, lihat [MoveAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/move-account.html)di *Referensi AWS CLI Perintah*. 

### `remove-account-from-organization`
<a name="organizations_RemoveAccountFromOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-account-from-organization`.

**AWS CLI**  
**Untuk menghapus akun dari organisasi sebagai akun utama**  
Contoh berikut menunjukkan cara menghapus akun dari organisasi:  

```
aws organizations remove-account-from-organization --account-id 333333333333
```
+  Untuk detail API, lihat [RemoveAccountFromOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/remove-account-from-organization.html)di *Referensi AWS CLI Perintah*. 

### `update-organizational-unit`
<a name="organizations_UpdateOrganizationalUnit_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-organizational-unit`.

**AWS CLI**  
**Untuk mengganti nama OU**  
Contoh ini menunjukkan cara mengganti nama OU: Dalam contoh ini, OU diganti namanya menjadi “AccountingOu”:  

```
aws organizations update-organizational-unit --organizational-unit-id ou-examplerootid111-exampleouid111 --name AccountingOU
```
Output menunjukkan nama baru:  

```
{
        "OrganizationalUnit": {
                "Id": "ou-examplerootid111-exampleouid111"
                "Name": "AccountingOU",
                "Arn": "arn:aws:organizations::111111111111:ou/o-exampleorgid/ou-examplerootid111-exampleouid111""
        }
}
```
+  Untuk detail API, lihat [UpdateOrganizationalUnit](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/update-organizational-unit.html)di *Referensi AWS CLI Perintah*. 

### `update-policy`
<a name="organizations_UpdatePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-policy`.

**AWS CLI**  
**Contoh 1: Untuk mengganti nama kebijakan**  
`update-policy`Contoh berikut mengganti nama kebijakan dan memberikan deskripsi baru.  

```
aws organizations update-policy \
    --policy-id p-examplepolicyid111 \
    --name Renamed-Policy \
    --description "This description replaces the original."
```
Output menunjukkan nama dan deskripsi baru.  

```
{
    "Policy": {
        "Content": "{\n  \"Version\":\"2012-10-17\",\n  \"Statement\":{\n    \"Effect\":\"Allow\",\n    \"Action\":\"ec2:*\",\n    \"Resource\":\"*\"\n  }\n}\n",
        "PolicySummary": {
            "Id": "p-examplepolicyid111",
            "AwsManaged": false,
            "Arn":"arn:aws:organizations::111111111111:policy/o-exampleorgid/service_control_policy/p-examplepolicyid111",
            "Description": "This description replaces the original.",
            "Name": "Renamed-Policy",
            "Type": "SERVICE_CONTROL_POLICY"
        }
    }
}
```
**Contoh 2: Untuk mengganti konten teks JSON kebijakan**  
Contoh berikut menunjukkan cara mengganti teks JSON SCP pada contoh sebelumnya dengan string teks kebijakan JSON baru yang memungkinkan S3 alih-alih EC2:  

```
aws organizations update-policy \
    --policy-id p-examplepolicyid111 \
    --content "{\"Version\":\"2012-10-17\",\"Statement\":{\"Effect\":\"Allow\",\"Action\":\"s3:*\",\"Resource\":\"*\"}}"
```
Output menunjukkan konten baru:  

```
{
    "Policy": {
        "Content": "{ \"Version\": \"2012-10-17\", \"Statement\": { \"Effect\": \"Allow\", \"Action\": \"s3:*\", \"Resource\": \"*\" } }",
        "PolicySummary": {
            "Arn": "arn:aws:organizations::111111111111:policy/o-exampleorgid/service_control_policy/p-examplepolicyid111",
            "AwsManaged": false;
            "Description": "This description replaces the original.",
            "Id": "p-examplepolicyid111",
            "Name": "Renamed-Policy",
            "Type": "SERVICE_CONTROL_POLICY"
        }
    }
}
```
+  Untuk detail API, lihat [UpdatePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/organizations/update-policy.html)di *Referensi AWS CLI Perintah*. 

# AWS Outposts contoh menggunakan AWS CLI
<a name="cli_2_outposts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Outposts.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `get-outpost-instance-types`
<a name="outposts_GetOutpostInstanceTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-outpost-instance-types`.

**AWS CLI**  
**Untuk mendapatkan jenis instance di Outpost Anda**  
`get-outpost-instance-types`Contoh berikut mendapatkan jenis instance untuk Outpost yang ditentukan.  

```
aws outposts get-outpost-instance-types \
    --outpost-id op-0ab23c4567EXAMPLE
```
Output:  

```
{
    "InstanceTypes": [
        {
            "InstanceType": "c5d.large"
        },
        {
            "InstanceType": "i3en.24xlarge"
        },
        {
            "InstanceType": "m5d.large"
        },
        {
            "InstanceType": "r5d.large"
        }
    ],
    "OutpostId": "op-0ab23c4567EXAMPLE",
    "OutpostArn": "arn:aws:outposts:us-west-2:123456789012:outpost/op-0ab23c4567EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Meluncurkan instance di Outpost Anda](https://docs.aws.amazon.com/outposts/latest/userguide/launch-instance.html) di Panduan *AWS Pengguna Outposts*.  
+  Untuk detail API, lihat [GetOutpostInstanceTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/outposts/get-outpost-instance-types.html)di *Referensi AWS CLI Perintah*. 

### `get-outpost`
<a name="outposts_GetOutpost_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-outpost`.

**AWS CLI**  
**Untuk mendapatkan detail Outpost**  
`get-outpost`Contoh berikut menampilkan rincian untuk Outpost yang ditentukan.  

```
aws outposts get-outpost \
    --outpost-id op-0ab23c4567EXAMPLE
```
Output:  

```
{
    "Outpost": {
        "OutpostId": "op-0ab23c4567EXAMPLE",
        "OwnerId": "123456789012",
        "OutpostArn": "arn:aws:outposts:us-west-2:123456789012:outpost/op-0ab23c4567EXAMPLE",
        "SiteId": "os-0ab12c3456EXAMPLE",
        "Name": "EXAMPLE",
        "LifeCycleStatus": "ACTIVE",
        "AvailabilityZone": "us-west-2a",
        "AvailabilityZoneId": "usw2-az1",
        "Tags": {}
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Outposts](https://docs.aws.amazon.com/outposts/latest/userguide/work-with-outposts.html) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [GetOutpost](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/outposts/get-outpost.html)di *Referensi AWS CLI Perintah*. 

### `list-outposts`
<a name="outposts_ListOutposts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-outposts`.

**AWS CLI**  
**Untuk daftar Outposts**  
`list-outposts`Contoh berikut mencantumkan Outposts di akun Anda AWS .  

```
aws outposts list-outposts
```
Output:  

```
{
    "Outposts": [
        {
            "OutpostId": "op-0ab23c4567EXAMPLE",
            "OwnerId": "123456789012",
            "OutpostArn": "arn:aws:outposts:us-west-2:123456789012:outpost/op-0ab23c4567EXAMPLE",
            "SiteId": "os-0ab12c3456EXAMPLE",
            "Name": "EXAMPLE",
            "Description": "example",
            "LifeCycleStatus": "ACTIVE",
            "AvailabilityZone": "us-west-2a",
            "AvailabilityZoneId": "usw2-az1",
            "Tags": {
                "Name": "EXAMPLE"
            }
        },
        {
            "OutpostId": "op-4fe3dc21baEXAMPLE",
            "OwnerId": "123456789012",
            "OutpostArn": "arn:aws:outposts:us-west-2:123456789012:outpost/op-4fe3dc21baEXAMPLE",
            "SiteId": "os-0ab12c3456EXAMPLE",
            "Name": "EXAMPLE2",
            "LifeCycleStatus": "ACTIVE",
            "AvailabilityZone": "us-west-2a",
            "AvailabilityZoneId": "usw2-az1",
            "Tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Outposts](https://docs.aws.amazon.com/outposts/latest/userguide/work-with-outposts.html) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [ListOutposts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/outposts/list-outposts.html)di *Referensi AWS CLI Perintah*. 

### `list-sites`
<a name="outposts_ListSites_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-sites`.

**AWS CLI**  
**Untuk daftar situs**  
`list-sites`Contoh berikut mencantumkan situs Outpost yang tersedia di AWS akun Anda.  

```
aws outposts list-sites
```
Output:  

```
{
    "Sites": [
        {
            "SiteId": "os-0ab12c3456EXAMPLE",
            "AccountId": "123456789012",
            "Name": "EXAMPLE",
            "Description": "example",
            "Tags": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Outposts](https://docs.aws.amazon.com/outposts/latest/userguide/work-with-outposts.html) di Panduan Pengguna *AWS Outposts*.  
+  Untuk detail API, lihat [ListSites](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/outposts/list-sites.html)di *Referensi AWS CLI Perintah*. 

# AWS Payment Cryptography contoh menggunakan AWS CLI
<a name="cli_2_payment-cryptography_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Payment Cryptography.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-alias`
<a name="payment-cryptography_CreateAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-alias`.

**AWS CLI**  
**Untuk membuat alias untuk kunci**  
`create-alias`Contoh berikut membuat alias untuk kunci.  

```
aws payment-cryptography create-alias \
    --alias-name alias/sampleAlias1 \
    --key-arn arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h
```
Output:  

```
{
    "Alias": {
        "AliasName": "alias/sampleAlias1",
        "KeyArn": "arn:aws:payment-cryptography:us-west-2:123456789012:key/kwapwa6qaifllw2h"
    }
}
```
Untuk informasi selengkapnya, lihat [Tentang alias](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/alias-about.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [CreateAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/create-alias.html)di *Referensi AWS CLI Perintah*. 

### `create-key`
<a name="payment-cryptography_CreateKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-key`.

**AWS CLI**  
**Untuk membuat kunci**  
`create-key`Contoh berikut menghasilkan kunci TDES 2KEY yang dapat Anda gunakan untuk menghasilkan dan memverifikasi nilai CVV2 CVV/.  

```
aws payment-cryptography create-key \
    --exportable \
    --key-attributes KeyAlgorithm=TDES_2KEY, KeyUsage=TR31_C0_CARD_VERIFICATION_KEY,KeyClass=SYMMETRIC_KEY, KeyModesOfUse={Generate=true,Verify=true}
```
Output:  

```
{
    "Key": {
        "CreateTimestamp": "1686800690",
        "Enabled": true,
        "Exportable": true,
        "KeyArn": "arn:aws:payment-cryptography:us-west-2:123456789012:key/kwapwa6qaifllw2h",
        "KeyAttributes": {
            "KeyAlgorithm": "TDES_2KEY",
            "KeyClass": "SYMMETRIC_KEY",
            "KeyModesOfUse": {
                "Decrypt": false,
                "DeriveKey": false,
                "Encrypt": false,
                "Generate": true,
                "NoRestrictions": false,
                "Sign": false,
                "Unwrap": false,
                "Verify": true,
                "Wrap": false
            },
            "KeyUsage": "TR31_C0_CARD_VERIFICATION_KEY"
        },
        "KeyCheckValue": "F2E50F",
        "KeyCheckValueAlgorithm": "ANSI_X9_24",
        "KeyOrigin": "AWS_PAYMENT_CRYPTOGRAPHY",
        "KeyState": "CREATE_COMPLETE",
        "UsageStartTimestamp": "1686800690"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghasilkan kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/create-keys.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [CreateKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/create-key.html)di *Referensi AWS CLI Perintah*. 

### `delete-alias`
<a name="payment-cryptography_DeleteAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-alias`.

**AWS CLI**  
**Untuk menghapus alias**  
`delete-alias`Contoh berikut menghapus alias. Itu tidak mempengaruhi kuncinya.  

```
aws payment-cryptography delete-alias \
    --alias-name alias/sampleAlias1
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Tentang alias](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/alias-about.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [DeleteAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/delete-alias.html)di *Referensi AWS CLI Perintah*. 

### `delete-key`
<a name="payment-cryptography_DeleteKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-key`.

**AWS CLI**  
**Untuk menghapus kunci**  
`delete-key`Contoh berikut menjadwalkan kunci untuk dihapus setelah 7 hari, yang merupakan periode tunggu default.  

```
aws payment-cryptography delete-key \
    --key-identifier arn:aws:payment-cryptography:us-west-2:123456789012:key/kwapwa6qaifllw2h
```
Output:  

```
{
    "Key": {
        "CreateTimestamp": "1686801198",
        "DeletePendingTimestamp": "1687405998",
        "Enabled": true,
        "Exportable": true,
        "KeyArn": "arn:aws:payment-cryptography:us-west-2:123456789012:key/kwapwa6qaifllw2h",
        "KeyAttributes": {
            "KeyAlgorithm": "TDES_2KEY",
            "KeyClass": "SYMMETRIC_KEY",
            "KeyModesOfUse": {
                "Decrypt": false,
                "DeriveKey": false,
                "Encrypt": false,
                "Generate": true,
                "NoRestrictions": false,
                "Sign": false,
                "Unwrap": false,
                "Verify": true,
                "Wrap": false
            },
            "KeyUsage": "TR31_C0_CARD_VERIFICATION_KEY"
        },
        "KeyCheckValue": "F2E50F",
        "KeyCheckValueAlgorithm": "ANSI_X9_24",
        "KeyOrigin": "AWS_PAYMENT_CRYPTOGRAPHY",
        "KeyState": "DELETE_PENDING",
        "UsageStartTimestamp": "1686801190"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys-deleting.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [DeleteKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/delete-key.html)di *Referensi AWS CLI Perintah*. 

### `export-key`
<a name="payment-cryptography_ExportKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`export-key`.

**AWS CLI**  
**Untuk mengekspor kunci**  
`export-key`Contoh berikut mengekspor kunci.  

```
aws payment-cryptography export-key \
    --export-key-identifier arn:aws:payment-cryptography:us-west-2:123456789012:key/lco3w6agsk7zgu2l \
    --key-material '{"Tr34KeyBlock": { \
        "CertificateAuthorityPublicKeyIdentifier": "arn:aws:payment-cryptography:us-west-2:123456789012:key/ftobshq7pvioc5fx", \
        "ExportToken": "export-token-cu4lg26ofcziixny", \
        "KeyBlockFormat": "X9_TR34_2012", \
        "WrappingKeyCertificate": file://wrapping-key-certificate.pem }}'
```
Isi dari `wrapping-key-certificate.pem`:  

```
LS0tLS1CRUdJTiBDRVJUSUZJQ0FURS0tLS0tCk1JSUV2VENDQXFXZ0F3SUJBZ0lSQU1ZZS8xMXFUK2svVzlRUDJQOElVdWd3RFFZSktvWklodmNOQVFFTkJRQXcKZ1lreEN6QUpCZ05WQkFZVEFsVlRNUmt3RndZRFZRUUtEQkJCVjFNZ1EzSjVjSFJ2WjNKaGNHaDVNU0V3SHdZRApWUVFMREJoQlYxTWdVR0Y1YldWdWRDQkRjbmx3ZEc5bmNtRndhSGt4RVRBUEJnTlZCQWdNQ0ZacGNtZHBibWxoCk1SVXdFd1lEVlFRRERBd3dOelUxTlRZNU5UTTNOVEF4RWpBUUJnTlZCQWNNQ1VGeWJHbHVaM1J2YmpBZUZ3MHkKTXpBMk1UTXhOelV6TVROYUZ3MHlNekEyTWpBeE9EVXpNVEphTUN3eEZUQVRCZ05WQkFNTUREQTNOVFUxTmprMQpNemMxTURFVE1CRUdBMVVFQlJNS09URTFNRGMzTnpRMk9EQ0NBU0l3RFFZSktvWklodmNOQVFFQkJRQURnZ0VQCkFEQ0NBUW9DZ2dFQkFNUjZsVTZ0SFJwcWtCQmI1Z2FFa0FrbVRxNEgwNUQ2UXR2MS9WemhSaThtNVBFMjVtMFIKVnRtZmsxcUEySi94TEROTEl3dHFDR3BIVldOM0JMdFhuSmh2Y1dNNkI0QlRRVXNicENMbG9PYW1jMGF0UXRmeQo0ZUhoWHJoT2lDMFVpR05zeTc5ZlltTkZ3Q3RrSDhvZzJXTEdYNldXNSszRzlTaFZKR3dhbWpNamtlOVo1a0FhCnJKZHk4Y2tsMTFBTS8wQjVZRFR2TU5KVTcyZnVUMlJ5KzVoRmdFTE14aS8vbGE1TnFCQWp5VTY0cmV3eGdVSjAKZ1pVM3lJU2F2UjFwMElNOFNvZzdXUHlkVlNNTitZeTdLMG1OL3lFa3FZTWQxZWxvS1I0OVV3V0hvdzFMcHVzcwpzMDh5a0diWGxsMnBvZ3NvSmZZaFFGWTc4UmRsTU9vY2dOc0NBd0VBQWFOOE1Ib3dDUVlEVlIwVEJBSXdBREFmCkJnTlZIU01FR0RBV2dCU2tDVlVEZzJGZDdPZWpVSUlVRnBvbUpxWG9FREFkQmdOVkhRNEVGZ1FVZU1sRzJ5dkgKamxsQzM2OUV2U3hIcXBBODVkMHdEZ1lEVlIwUEFRSC9CQVFEQWdXZ01CMEdBMVVkSlFRV01CUUdDQ3NHQVFVRgpCd01CQmdnckJnRUZCUWNEQWpBTkJna3Foa2lHOXcwQkFRMEZBQU9DQWdFQURNS2gxbnhYWWtncVkwYmMwVjA1ClNCUTBlcm5vMmsxbXdRQnhpUDBpcUpMdWNFUnF6b0RzOTBJWTN5SjhjMkMzU2kzU1JrVzBmQUhKR0VucTlzblgKbGdGWnRBZmtNbzR4Wllpb1JGZmY1TWdSOUdNaUZNQnVQS2tIeGxKc0R2NllSbnp1Zmkza1lDT1NzeWE4U2tTMQp2M2l2UEpLcTk3aDBBaThoNFQ3clBtN0NNSnYxZ0JTUEF4UVdtdndES2RrTjFsd0VudmtGdzlLZjhqeVpaNjhGCjlmUFV4Z1RvYm1MSmNialZxaFdsQ3U1VE9mSGNPR2RLRURwZE54RE12ODNZZ1ZaWUszclc4UHVxWWIyWFdMR2IKdmFISXh2RGVnOVJwNDByVVpETGVyalptb0gwUWpEZmxCV1RYK0JqU3ZLMm5yUGpzZzJIUC91S1VncVIwQWM5eAo0UjF5YjU2cHh3eU54TUU2NmFTVWNVQ3F1WTloY1Q3eWxWNjc3REVhRHpLTG1abnpMcWdWZU5PaUtzQTMvTi9hCnI2UW56VjNabEtJbCs5aWZwNTVPaTVLMXFyWFkyeVlPL1V2SXBXZjAxcFNFUERHN0hXSllnaGorbXpDRFVkM24KdldBeHBjUXlYRGlybS8wSkRZTWtuYzhjK2Z4QmxQR3ZiT2cwWldOeVUwSVpqRmx3aDVwUnIrMnRkT3lhRkZrNApWNytmMkpRWXdKZWgzWDdQL0N6WldKMlQvbnVzaVZXd0Y2K0hueDQ2ZHVGTzhXSWJZTnJUU1hTQnFEV04vdWpZCjBwYUhwS1poUTJOVnV1M0t3a2JaTDUzRjBRM09EVjcydGtiTHJyajZvOUNGd3JGUFluV0owSWtsemN0d1VtQ24KNjd5TzlSVjVzcC83YlNxTkhYNFRuNmc9Ci0tLS0tRU5EIENFUlRJRklDQVRFEXAMPLE=
```
Output:  

```
{
    "WrappedKey": {
        "KeyMaterial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
        "WrappedKeyMaterialFormat": "TR34_KEY_BLOCK"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengekspor kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys-export.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [ExportKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/export-key.html)di *Referensi AWS CLI Perintah*. 

### `get-alias`
<a name="payment-cryptography_GetAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-alias`.

**AWS CLI**  
**Untuk mendapatkan alias**  
`get-alias`Contoh berikut mengembalikan ARN dari kunci yang terkait dengan alias.  

```
aws payment-cryptography get-alias \
    --alias-name alias/sampleAlias1
```
Output:  

```
{
    "Alias": {
        "AliasName": "alias/sampleAlias1",
        "KeyArn": "arn:aws:payment-cryptography:us-west-2:123456789012:key/kwapwa6qaifllw2h"
    }
}
```
Untuk informasi selengkapnya, lihat [Tentang alias](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/alias-about.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [GetAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/get-alias.html)di *Referensi AWS CLI Perintah*. 

### `get-key`
<a name="payment-cryptography_GetKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-key`.

**AWS CLI**  
**Untuk mendapatkan metadata kunci**  
`get-key`Contoh berikut mengembalikan metadata kunci yang terkait dengan alias. Operasi ini tidak mengembalikan materi kriptografi.  

```
aws payment-cryptography get-key \
    --key-identifier alias/sampleAlias1
```
Output:  

```
{
    "Key": {
        "CreateTimestamp": "1686800690",
        "DeletePendingTimestamp": "1687405998",
        "Enabled": true,
        "Exportable": true,
        "KeyArn": "arn:aws:payment-cryptography:us-west-2:123456789012:key/kwapwa6qaifllw2h",
        "KeyAttributes": {
            "KeyAlgorithm": "TDES_2KEY",
            "KeyClass": "SYMMETRIC_KEY",
            "KeyModesOfUse": {
                "Decrypt": false,
                "DeriveKey": false,
                "Encrypt": false,
                "Generate": true,
                "NoRestrictions": false,
                "Sign": false,
                "Unwrap": false,
                "Verify": true,
                "Wrap": false
            },
            "KeyUsage": "TR31_C0_CARD_VERIFICATION_KEY"
        },
        "KeyCheckValue": "F2E50F",
        "KeyCheckValueAlgorithm": "ANSI_X9_24",
        "KeyOrigin": "AWS_PAYMENT_CRYPTOGRAPHY",
        "KeyState": "DELETE_PENDING",
        "UsageStartTimestamp": "1686801190"
    }
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/getkeys.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [GetKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/get-key.html)di *Referensi AWS CLI Perintah*. 

### `get-parameters-for-export`
<a name="payment-cryptography_GetParametersForExport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-parameters-for-export`.

**AWS CLI**  
**Untuk menginisialisasi proses ekspor**  
`get-parameters-for-export`Contoh berikut menghasilkan key pair, menandatangani kunci, dan kemudian mengembalikan sertifikat dan root sertifikat.  

```
aws payment-cryptography get-parameters-for-export \
    --signing-key-algorithm RSA_2048 \
    --key-material-type TR34_KEY_BLOCK
```
Output:  

```
{
    "ExportToken": "export-token-ep5cwyzune7oya53",
    "ParametersValidUntilTimestamp": "1687415640",
    "SigningKeyAlgorithm": "RSA_2048",
    "SigningKeyCertificate":

    "MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
    VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
    b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
    BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
    MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
    VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
    b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
    YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
    21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
    rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
    Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
    nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
    FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
    NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=",
    "SigningKeyCertificateChain":
    "NIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
    VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
    b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
    BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
    MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
    VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
    b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
    YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
    21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
    rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
    Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
    nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
    FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
    NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE="
}
```
Untuk informasi selengkapnya, lihat [Mengekspor kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys-export.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [GetParametersForExport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/get-parameters-for-export.html)di *Referensi AWS CLI Perintah*. 

### `get-parameters-for-import`
<a name="payment-cryptography_GetParametersForImport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-parameters-for-import`.

**AWS CLI**  
**Untuk menginisialisasi proses impor**  
`get-parameters-for-import`Contoh berikut menghasilkan key pair, menandatangani kunci, dan kemudian mengembalikan sertifikat dan root sertifikat.  

```
aws payment-cryptography get-parameters-for-import \
    --key-material-type TR34_KEY_BLOCK \
    --wrapping-key-algorithm RSA_2048
```
Output:  

```
{
    "ImportToken": "import-token-qgmafpaa7nt2kfbb",
    "ParametersValidUntilTimestamp": "1687415640",
    "WrappingKeyAlgorithm": "RSA_2048",
    "WrappingKeyCertificate":
    "MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
    VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
    b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
    BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
    MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
    VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
    b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
    YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
    21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
    rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
    Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
    nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
    FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
    NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=",
    "WrappingKeyCertificateChain":
    "NIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
    VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
    b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
    BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
    MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
    VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
    b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
    YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
    21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
    rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
    Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
    nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
    FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
    NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE="
}
```
Untuk informasi selengkapnya, lihat [Mengimpor kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys-import.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [GetParametersForImport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/get-parameters-for-import.html)di *Referensi AWS CLI Perintah*. 

### `get-public-key-certificate`
<a name="payment-cryptography_GetPublicKeyCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-public-key-certificate`.

**AWS CLI**  
**Untuk mengembalikan kunci publik**  
`get-public-key-certificate`Contoh berikut mengembalikan bagian kunci publik dari sebuah key pair.  

```
aws payment-cryptography get-public-key-certificate \
    --key-identifier arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h
```
Output:  

```
{
    "KeyCertificate":
    "MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
    VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
    b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
    BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
    MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
    VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
    b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
    YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
    21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
    rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
    Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
    nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
    FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
    NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=",
    "KeyCertificateChain":
    "NIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
    VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
    b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
    BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
    MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
    VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
    b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
    YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
    21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
    rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
    Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
    nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
    FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
    NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE="
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan publik key/certificate yang terkait dengan key pair](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys.getpubliccertificate-example.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [GetPublicKeyCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/get-public-key-certificate.html)di *Referensi AWS CLI Perintah*. 

### `import-key`
<a name="payment-cryptography_ImportKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-key`.

**AWS CLI**  
**Untuk mengimpor kunci TR-34**  
`import-key`Contoh berikut mengimpor kunci TR-34.  

```
aws payment-cryptography import-key \
        --key-material='{ "Tr34KeyBlock": {" \
            CertificateAuthorityPublicKeyIdentifier": "arn:aws:payment-cryptography:us-west-2:123456789012:key/rmm5wn2q564njnjm", \
            "ImportToken": "import-token-5ott6ho5nts7bbcg", \
            "KeyBlockFormat": "X9_TR34_2012", \
            "SigningKeyCertificate": file://signing-key-certificate.pem, \
            "WrappedKeyBlock": file://wrapped-key-block.pem }}'
```
Isi dari `signing-key-certificate.pem`:  

```
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
```
Isi dari `wrapped-key-block.pem`:  

```
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
```
Output:  

```
{
    "Key": {
        "CreateTimestamp": "2023-06-09T16:56:27.621000-07:00",
        "Enabled": true,
        "KeyArn": "arn:aws:payment-cryptography:us-west-2:123456789012:key/bzmvgyxdg3sktwxd",
        "KeyAttributes": {
            "KeyAlgorithm": "TDES_2KEY",
            "KeyClass": "SYMMETRIC_KEY",
            "KeyModesOfUse": {
                "Decrypt": false,
                "DeriveKey": false,
                "Encrypt": false,
                "Generate": true,
                "NoRestrictions": false,
                "Sign": false,
                "Unwrap": false,
                "Verify": true,
                "Wrap": false
            },
            "KeyUsage": "TR31_C0_CARD_VERIFICATION_KEY"
        },
        "KeyCheckValue": "D9B20E",
        "KeyCheckValueAlgorithm": "ANSI_X9_24",
        "KeyOrigin": "EXTERNAL",
        "KeyState": "CREATE_COMPLETE",
        "UsageStartTimestamp": "2023-06-09T16:56:27.621000-07:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengimpor kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys-import.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [ImportKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/import-key.html)di *Referensi AWS CLI Perintah*. 

### `list-aliases`
<a name="payment-cryptography_ListAliases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-aliases`.

**AWS CLI**  
**Untuk mendapatkan daftar alias**  
`list-aliases`Contoh berikut menunjukkan semua alias di akun Anda di Wilayah ini.  

```
aws payment-cryptography list-aliases
```
Output:  

```
{
    "Aliases": [
        {
            "AliasName": "alias/sampleAlias1",
            "KeyArn": "arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h"
        },
        {
            "AliasName": "alias/sampleAlias2",
            "KeyArn": "arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tentang alias](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/alias-about.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [ListAliases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/list-aliases.html)di *Referensi AWS CLI Perintah*. 

### `list-keys`
<a name="payment-cryptography_ListKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-keys`.

**AWS CLI**  
**Untuk mendapatkan daftar kunci**  
`list-keys`Contoh berikut menunjukkan semua kunci di akun Anda di Wilayah ini.  

```
aws payment-cryptography list-keys
```
Output:  

```
{
    "Keys": [
    {
        "CreateTimestamp": "1666506840",
        "Enabled": false,
        "Exportable": true,
        "KeyArn": "arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h",
        "KeyAttributes": {
            "KeyAlgorithm": "TDES_3KEY",
            "KeyClass": "SYMMETRIC_KEY",
            "KeyModesOfUse": {
                "Decrypt": true,
                "DeriveKey": false,
                "Encrypt": true,
                "Generate": false,
                "NoRestrictions": false,
                "Sign": false,
                "Unwrap": true,
                "Verify": false,
                "Wrap": true
            },
            "KeyUsage": "TR31_P1_PIN_GENERATION_KEY"
        },
        "KeyCheckValue": "369D",
        "KeyCheckValueAlgorithm": "ANSI_X9_24",
        "KeyOrigin": "AWS_PAYMENT_CRYPTOGRAPHY",
        "KeyState": "CREATE_COMPLETE",
        "UsageStopTimestamp": "1666938840"
    }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/alias-about.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [ListKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/list-keys.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="payment-cryptography_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mendapatkan daftar tag untuk kunci**  
`list-tags-for-resource`Contoh berikut mendapatkan tag untuk kunci.  

```
aws payment-cryptography list-tags-for-resource \
    --resource-arn arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h
```
Output:  

```
{
    "Tags": [
        {
            "Key": "BIN",
            "Value": "20151120"
        },
        {
            "Key": "Project",
            "Value": "Production"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola tag kunci dengan operasi API](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/manage-tags-api.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `restore-key`
<a name="payment-cryptography_RestoreKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-key`.

**AWS CLI**  
**Untuk mengembalikan kunci yang dijadwalkan untuk dihapus**  
`restore-key`Contoh berikut membatalkan penghapusan kunci.  

```
aws payment-cryptography restore-key \
    --key-identifier arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h
```
Output:  

```
{
    "Key": {
        "KeyArn": "arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h",
        "KeyAttributes": {
            "KeyUsage": "TR31_V2_VISA_PIN_VERIFICATION_KEY",
            "KeyClass": "SYMMETRIC_KEY",
            "KeyAlgorithm": "TDES_3KEY",
            "KeyModesOfUse": {
                "Encrypt": false,
                "Decrypt": false,
                "Wrap": false,
                "Unwrap": false,
                "Generate": true,
                "Sign": false,
                "Verify": true,
                "DeriveKey": false,
                "NoRestrictions": false
            }
        },
        "KeyCheckValue": "",
        "KeyCheckValueAlgorithm": "ANSI_X9_24",
        "Enabled": false,
        "Exportable": true,
        "KeyState": "CREATE_COMPLETE",
        "KeyOrigin": "AWS_PAYMENT_CRYPTOGRAPHY",
        "CreateTimestamp": "1686800690",
        "UsageStopTimestamp": "1687405998"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys-deleting.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [RestoreKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/restore-key.html)di *Referensi AWS CLI Perintah*. 

### `start-key-usage`
<a name="payment-cryptography_StartKeyUsage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-key-usage`.

**AWS CLI**  
**Untuk mengaktifkan kunci**  
`start-key-usage`Contoh berikut memungkinkan kunci yang akan digunakan.  

```
aws payment-cryptography start-key-usage \
    --key-identifier arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h
```
Output:  

```
{
    "Key": {
        "CreateTimestamp": "1686800690",
        "Enabled": true,
        "Exportable": true,
        "KeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/alsuwfxug3pgy6xh",
        "KeyAttributes": {
            "KeyAlgorithm": "TDES_3KEY",
            "KeyClass": "SYMMETRIC_KEY",
            "KeyModesOfUse": {
                "Decrypt": true,
                "DeriveKey": false,
                "Encrypt": true,
                "Generate": false,
                "NoRestrictions": false,
                "Sign": false,
                "Unwrap": true,
                "Verify": false,
                "Wrap": true
            },
            "KeyUsage": "TR31_P1_PIN_GENERATION_KEY"
        },
        "KeyCheckValue": "369D",
        "KeyCheckValueAlgorithm": "ANSI_X9_24",
        "KeyOrigin": "AWS_PAYMENT_CRYPTOGRAPHY",
        "KeyState": "CREATE_COMPLETE",
        "UsageStartTimestamp": "1686800690"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan dan menonaktifkan kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys-enable-disable.html) di Panduan Pengguna *Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [StartKeyUsage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/start-key-usage.html)di *Referensi AWS CLI Perintah*. 

### `stop-key-usage`
<a name="payment-cryptography_StopKeyUsage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-key-usage`.

**AWS CLI**  
**Untuk menonaktifkan kunci**  
`stop-key-usage`Contoh berikut menonaktifkan kunci.  

```
aws payment-cryptography stop-key-usage \
    --key-identifier arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h
```
Output:  

```
{
    "Key": {
        "CreateTimestamp": "1686800690",
        "Enabled": true,
        "Exportable": true,
        "KeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/alsuwfxug3pgy6xh",
        "KeyAttributes": {
            "KeyAlgorithm": "TDES_3KEY",
            "KeyClass": "SYMMETRIC_KEY",
            "KeyModesOfUse": {
                "Decrypt": true,
                "DeriveKey": false,
                "Encrypt": true,
                "Generate": false,
                "NoRestrictions": false,
                "Sign": false,
                "Unwrap": true,
                "Verify": false,
                "Wrap": true
            },
            "KeyUsage": "TR31_P1_PIN_GENERATION_KEY"
        },
        "KeyCheckValue": "369D",
        "KeyCheckValueAlgorithm": "ANSI_X9_24",
        "KeyOrigin": "AWS_PAYMENT_CRYPTOGRAPHY",
        "KeyState": "CREATE_COMPLETE",
        "UsageStartTimestamp": "1686800690"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan dan menonaktifkan kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/keys-enable-disable.html) di Panduan Pengguna *Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [StopKeyUsage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/stop-key-usage.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="payment-cryptography_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai kunci**  
`tag-resource`Contoh berikut menandai kunci.  

```
aws payment-cryptography tag-resource \
    --resource-arn arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h \
    --tags Key=sampleTag,Value=sampleValue
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola tag kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/manage-tags-api.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="payment-cryptography_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari kunci**  
`untag-resource`Contoh berikut menghapus tag dari kunci.  

```
aws payment-cryptography untag-resource \
    --resource-arn arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h \
    --tag-keys sampleTag
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola tag kunci](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/manage-tags-api.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-alias`
<a name="payment-cryptography_UpdateAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-alias`.

**AWS CLI**  
**Untuk memperbarui alias**  
`update-alias`Contoh berikut mengaitkan alias dengan kunci yang berbeda.  

```
aws payment-cryptography update-alias \
    --alias-name alias/sampleAlias1 \
    --key-arn arn:aws:payment-cryptography:us-east-2:123456789012:key/tqv5yij6wtxx64pi
```
Output:  

```
{
    "Alias": {
        "AliasName": "alias/sampleAlias1",
        "KeyArn": "arn:aws:payment-cryptography:us-west-2:123456789012:key/tqv5yij6wtxx64pi "
    }
}
```
Untuk informasi selengkapnya, lihat [Tentang alias](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/alias-about.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [UpdateAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography/update-alias.html)di *Referensi AWS CLI Perintah*. 

# AWS Payment Cryptography Contoh Data Plane menggunakan AWS CLI
<a name="cli_2_payment-cryptography-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With AWS Payment Cryptography Data Plane.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `decrypt-data`
<a name="payment-cryptography-data_DecryptData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decrypt-data`.

**AWS CLI**  
**Untuk mendekripsi ciphertext**  
`decrypt-data`Contoh berikut mendekripsi data ciphertext menggunakan kunci simetris. Untuk operasi ini, kunci harus `KeyModesOfUse` disetel ke `Decrypt` dan `KeyUsage` disetel ke`TR31_D0_SYMMETRIC_DATA_ENCRYPTION_KEY`.  

```
aws payment-cryptography-data decrypt-data \
    --key-identifier arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h \
    --cipher-text 33612AB9D6929C3A828EB6030082B2BD \
    --decryption-attributes 'Symmetric={Mode=CBC}'
```
Output:  

```
{
    "KeyArn": "arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h",
    "KeyCheckValue": "71D7AE",
    "PlainText": "31323334313233343132333431323334"
}
```
Untuk informasi selengkapnya, lihat [Mendekripsi data di Panduan](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/decrypt-data.html) Pengguna *Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [DecryptData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/decrypt-data.html)di *Referensi AWS CLI Perintah*. 

### `encrypt-data`
<a name="payment-cryptography-data_EncryptData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`encrypt-data`.

**AWS CLI**  
**Untuk mengenkripsi data**  
`encrypt-data`Contoh berikut mengenkripsi data plaintext menggunakan kunci simetris. Untuk operasi ini, kunci harus `KeyModesOfUse` disetel ke `Encrypt` dan `KeyUsage` disetel ke`TR31_D0_SYMMETRIC_DATA_ENCRYPTION_KEY`.  

```
aws payment-cryptography-data encrypt-data \
    --key-identifier arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h \
    --plain-text 31323334313233343132333431323334 \
    --encryption-attributes 'Symmetric={Mode=CBC}'
```
Output:  

```
{
    "KeyArn": "arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h",
    "KeyCheckValue": "71D7AE",
    "CipherText": "33612AB9D6929C3A828EB6030082B2BD"
}
```
Untuk informasi selengkapnya, lihat [Mengenkripsi data](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/encrypt-data.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [EncryptData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/encrypt-data.html)di *Referensi AWS CLI Perintah*. 

### `generate-card-validation-data`
<a name="payment-cryptography-data_GenerateCardValidationData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-card-validation-data`.

**AWS CLI**  
**Untuk menghasilkan CVV**  
`generate-card-validation-data`Contoh berikut menghasilkan CVV/CVV2.  

```
aws payment-cryptography-data generate-card-validation-data \
    --key-identifier arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h \
    --primary-account-number=171234567890123 \
    --generation-attributes CardVerificationValue2={CardExpiryDate=0123}
```
Output:  

```
{
    "KeyArn": "arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h",
    "KeyCheckValue": "CADDA1",
    "ValidationData": "801"
}
```
Untuk informasi selengkapnya, lihat [Menghasilkan data kartu](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/generate-card-data.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [GenerateCardValidationData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/generate-card-validation-data.html)di *Referensi AWS CLI Perintah*. 

### `generate-mac`
<a name="payment-cryptography-data_GenerateMac_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-mac`.

**AWS CLI**  
**Untuk menghasilkan MAC**  
`generate-card-validation-data`Contoh berikut menghasilkan Hash Based Message Authentication Code (HMAC) untuk otentikasi data kartu menggunakan algoritma HMAC\$1 dan kunci enkripsi HMACSHA256 . Kuncinya harus `KeyUsage` disetel ke `TR31_M7_HMAC_KEY` dan `KeyModesOfUse` ke`Generate`.  

```
aws payment-cryptography-data generate-mac \
    --key-identifier arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h \
    --message-data "3b313038383439303031303733393431353d32343038323236303030373030303f33" \
    --generation-attributes Algorithm=HMAC_SHA256
```
Output:  

```
{
    "KeyArn": "arn:aws:payment-cryptography:us-east-2:123456789012:key/kwapwa6qaifllw2h,
    "KeyCheckValue": "2976E7",
    "Mac": "ED87F26E961C6D0DDB78DA5038AA2BDDEA0DCE03E5B5E96BDDD494F4A7AA470C"
}
```
Untuk informasi selengkapnya, lihat [Menghasilkan MAC](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/generate-mac.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [GenerateMac](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/generate-mac.html)di *Referensi AWS CLI Perintah*. 

### `generate-pin-data`
<a name="payment-cryptography-data_GeneratePinData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-pin-data`.

**AWS CLI**  
**Untuk menghasilkan PIN**  
`generate-card-validation-data`Contoh berikut menghasilkan PIN acak baru menggunakan skema PIN Visa.  

```
aws payment-cryptography-data generate-pin-data \
    --generation-key-identifier arn:aws:payment-cryptography:us-east-2:111122223333:key/37y2tsl45p5zjbh2 \
    --encryption-key-identifier arn:aws:payment-cryptography:us-east-2:111122223333:key/ivi5ksfsuplneuyt \
    --primary-account-number 171234567890123 \
    --pin-block-format ISO_FORMAT_0 \
    --generation-attributes VisaPin={PinVerificationKeyIndex=1}
```
Output:  

```
{
    "GenerationKeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/37y2tsl45p5zjbh2",
    "GenerationKeyCheckValue": "7F2363",
    "EncryptionKeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/ivi5ksfsuplneuyt",
    "EncryptionKeyCheckValue": "7CC9E2",
    "EncryptedPinBlock": "AC17DC148BDA645E",
    "PinData": {
        "VerificationValue": "5507"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghasilkan data PIN](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/generate-pin-data.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [GeneratePinData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/generate-pin-data.html)di *Referensi AWS CLI Perintah*. 

### `re-encrypt-data`
<a name="payment-cryptography-data_ReEncryptData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`re-encrypt-data`.

**AWS CLI**  
**Untuk mengenkripsi ulang data dengan kunci yang berbeda**  
`re-encrypt-data`Contoh berikut mendekripsi teks sandi yang dienkripsi menggunakan kunci simetris AES dan mengenkripsi ulang menggunakan kunci Derived Unique Key Per Transaction (DUKPT).  

```
aws payment-cryptography-data re-encrypt-data \
    --incoming-key-identifier arn:aws:payment-cryptography:us-west-2:111122223333:key/hyvv7ymboitd4vfy \
    --outgoing-key-identifier arn:aws:payment-cryptography:us-west-2:111122223333:key/jl6ythkcvzesbxen \
    --cipher-text 4D2B0BDBA192D5AEFEAA5B3EC28E4A65383C313FFA25140101560F75FE1B99F27192A90980AB9334 \
    --incoming-encryption-attributes "Dukpt={Mode=ECB,KeySerialNumber=0123456789111111}" \
    --outgoing-encryption-attributes '{"Symmetric": {"Mode": "ECB"}}'
```
Output:  

```
{
    "CipherText": "F94959DA30EEFF0C035483C6067667CF6796E3C1AD28C2B61F9CFEB772A8DD41C0D6822931E0D3B1",
    "KeyArn": "arn:aws:payment-cryptography:us-west-2:111122223333:key/jl6ythkcvzesbxen",
    "KeyCheckValue": "2E8CD9"
}
```
Untuk informasi selengkapnya, lihat [Mengenkripsi dan mendekripsi data](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/crypto-ops.encryptdecrypt.html) di Panduan Pengguna *Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [ReEncryptData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/re-encrypt-data.html)di *Referensi AWS CLI Perintah*. 

### `translate-pin-data`
<a name="payment-cryptography-data_TranslatePinData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`translate-pin-data`.

**AWS CLI**  
**Untuk menerjemahkan data PIN**  
`translate-pin-data`Contoh berikut menerjemahkan PIN dari enkripsi PEK TDES menggunakan blok PIN ISO 0 ke Blok PIN AES ISO 4 menggunakan algoritma DUKPT.  

```
aws payment-cryptography-data translate-pin-data \
    --encrypted-pin-block "AC17DC148BDA645E" \
    --incoming-translation-attributes=IsoFormat0='{PrimaryAccountNumber=171234567890123}' \
    --incoming-key-identifier arn:aws:payment-cryptography:us-east-2:111122223333:key/ivi5ksfsuplneuyt \
    --outgoing-key-identifier arn:aws:payment-cryptography:us-east-2:111122223333:key/4pmyquwjs3yj4vwe \
    --outgoing-translation-attributes IsoFormat4="{PrimaryAccountNumber=171234567890123}" \
    --outgoing-dukpt-attributes KeySerialNumber="FFFF9876543210E00008"
```
Output:  

```
{
    "PinBlock": "1F4209C670E49F83E75CC72E81B787D9",
    "KeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/ivi5ksfsuplneuyt
    "KeyCheckValue": "7CC9E2"
}
```
Untuk informasi selengkapnya, lihat [Terjemahkan data PIN](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/translate-pin-data.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [TranslatePinData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/translate-pin-data.html)di *Referensi AWS CLI Perintah*. 

### `verify-auth-request-cryptogram`
<a name="payment-cryptography-data_VerifyAuthRequestCryptogram_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-auth-request-cryptogram`.

**AWS CLI**  
**Untuk memverifikasi permintaan autentikasi**  
`verify-auth-request-cryptogram`Contoh berikut memverifikasi Cryptogram Permintaan Otorisasi (ARQC).  

```
aws payment-cryptography-data verify-auth-request-cryptogram \
    --auth-request-cryptogram F6E1BD1E6037FB3E \
    --auth-response-attributes '{"ArpcMethod1": {"AuthResponseCode": "1111"}}' \
    --key-identifier arn:aws:payment-cryptography:us-west-2:111122223333:key/pboipdfzd4mdklya \
    --major-key-derivation-mode "EMV_OPTION_A" \
    --session-key-derivation-attributes '{"EmvCommon": {"ApplicationTransactionCounter": "1234","PanSequenceNumber": "01","PrimaryAccountNumber": "471234567890123"}}' \
    --transaction-data "123456789ABCDEF"
```
Output:  

```
{
    "AuthResponseValue": "D899B8C6FBF971AA",
    "KeyArn": "arn:aws:payment-cryptography:us-west-2:111122223333:key/pboipdfzd4mdklya",
    "KeyCheckValue": "985792"
}
```
Untuk informasi selengkapnya, lihat [kriptogram Verifikasi permintaan auth (ARQC) di Panduan Pengguna Kriptografi AWS](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/data-operations.verifyauthrequestcryptogram.html) *Pembayaran*.  
+  Untuk detail API, lihat [VerifyAuthRequestCryptogram](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/verify-auth-request-cryptogram.html)di *Referensi AWS CLI Perintah*. 

### `verify-card-validation-data`
<a name="payment-cryptography-data_VerifyCardValidationData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-card-validation-data`.

**AWS CLI**  
**Untuk memvalidasi CVV**  
`verify-card-validation-data`Contoh berikut memvalidasi CVV/ CVV2 untuk PAN.  

```
aws payment-cryptography-data verify-card-validation-data \
    --key-identifier arn:aws:payment-cryptography:us-east-2:111122223333:key/tqv5yij6wtxx64pi \
    --primary-account-number=171234567890123 \
    --verification-attributes CardVerificationValue2={CardExpiryDate=0123} \
    --validation-data 801
```
Output:  

```
{
    "KeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/tqv5yij6wtxx64pi",
    "KeyCheckValue": "CADDA1"
}
```
Untuk informasi selengkapnya, lihat [Verifikasi data kartu](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/verify-card-data.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [VerifyCardValidationData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/verify-card-validation-data.html)di *Referensi AWS CLI Perintah*. 

### `verify-mac`
<a name="payment-cryptography-data_VerifyMac_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-mac`.

**AWS CLI**  
**Untuk memverifikasi MAC**  
`verify-mac`Contoh berikut memverifikasi Hash Based Message Authentication Code (HMAC) untuk otentikasi data kartu menggunakan algoritma HMAC\$1 dan kunci enkripsi HMACSHA256 .  

```
aws payment-cryptography-data verify-mac \
    --key-identifier arn:aws:payment-cryptography:us-east-2:111122223333:key/qnobl5lghrzunce6 \
    --message-data "3b343038383439303031303733393431353d32343038323236303030373030303f33" \
    --verification-attributes='Algorithm=HMAC_SHA256' \
    --mac ED87F26E961C6D0DDB78DA5038AA2BDDEA0DCE03E5B5E96BDDD494F4A7AA470C
```
Output:  

```
{
    "KeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/qnobl5lghrzunce6,
    "KeyCheckValue": "2976E7",
}
```
Untuk informasi selengkapnya, lihat [Verifikasi MAC](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/verify-mac.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [VerifyMac](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/verify-mac.html)di *Referensi AWS CLI Perintah*. 

### `verify-pin-data`
<a name="payment-cryptography-data_VerifyPinData_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-pin-data`.

**AWS CLI**  
**Untuk memverifikasi PIN**  
`verify-pin-data`Contoh berikut memvalidasi PIN untuk PAN.  

```
aws payment-cryptography-data verify-pin-data \
    --verification-key-identifier arn:aws:payment-cryptography:us-east-2:111122223333:key/37y2tsl45p5zjbh2 \
    --encryption-key-identifier arn:aws:payment-cryptography:us-east-2:111122223333:key/ivi5ksfsuplneuyt \
    --primary-account-number 171234567890123 \
    --pin-block-format ISO_FORMAT_0 \
    --verification-attributes VisaPin="{PinVerificationKeyIndex=1,VerificationValue=5507}" \
    --encrypted-pin-block AC17DC148BDA645E
```
Output:  

```
{
    "VerificationKeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/37y2tsl45p5zjbh2",
    "VerificationKeyCheckValue": "7F2363",
    "EncryptionKeyArn": "arn:aws:payment-cryptography:us-east-2:111122223333:key/ivi5ksfsuplneuyt",
    "EncryptionKeyCheckValue": "7CC9E2",
}
```
Untuk informasi selengkapnya, lihat [Verifikasi data PIN](https://docs.aws.amazon.com/payment-cryptography/latest/userguide/verify-pin-data.html) di *Panduan Pengguna Kriptografi AWS Pembayaran*.  
+  Untuk detail API, lihat [VerifyPinData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/payment-cryptography-data/verify-pin-data.html)di *Referensi AWS CLI Perintah*. 

# Amazon Pinpoint contoh menggunakan AWS CLI
<a name="cli_2_pinpoint_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface dengan Amazon Pinpoint.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-app`
<a name="pinpoint_CreateApp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-app`.

**AWS CLI**  
**Contoh 1: Untuk membuat aplikasi**  
`create-app`Contoh berikut membuat aplikasi baru (proyek).  

```
aws pinpoint create-app \
    --create-application-request Name=ExampleCorp
```
Output:  

```
{
    "ApplicationResponse": {
        "Arn": "arn:aws:mobiletargeting:us-west-2:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example",
        "Id": "810c7aab86d42fb2b56c8c966example",
        "Name": "ExampleCorp",
        "tags": {}
    }
}
```
**Contoh 2: Untuk membuat aplikasi yang diberi tag**  
`create-app`Contoh berikut membuat aplikasi baru (proyek) dan mengaitkan tag (kunci dan nilai) dengan aplikasi.  

```
aws pinpoint create-app \
    --create-application-request Name=ExampleCorp,tags={"Stack"="Test"}
```
Output:  

```
{
    "ApplicationResponse": {
        "Arn": "arn:aws:mobiletargeting:us-west-2:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example",
        "Id": "810c7aab86d42fb2b56c8c966example",
        "Name": "ExampleCorp",
        "tags": {
            "Stack": "Test"
        }
    }
}
```
+  Untuk detail API, lihat [CreateApp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/create-app.html)di *Referensi AWS CLI Perintah*. 

### `create-sms-template`
<a name="pinpoint_CreateSmsTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-sms-template`.

**AWS CLI**  
**Membuat template pesan untuk pesan yang dikirim melalui saluran SMS**  
`create-sms-template`Contoh berikut membuat template pesan SMS.  

```
aws pinpoint create-sms-template \
    --template-name TestTemplate \
    --sms-template-request file://myfile.json \
    --region us-east-1
```
Isi dari `myfile.json`:  

```
{
    "Body": "hello\n how are you?\n food is good",
    "TemplateDescription": "Test SMS Template"
}
```
Output:  

```
{
    "CreateTemplateMessageBody": {
        "Arn": "arn:aws:mobiletargeting:us-east-1:AIDACKCEVSQ6C2EXAMPLE:templates/TestTemplate/SMS",
        "Message": "Created",
        "RequestID": "8c36b17f-a0b0-400f-ac21-29e9b62a975d"
    }
}
```
Untuk informasi selengkapnya, lihat [templat pesan Amazon Pinpoint](https://docs.aws.amazon.com/pinpoint/latest/userguide/messages-templates.html) di Panduan Pengguna *Amazon Pinpoint*.  
+  Untuk detail API, lihat [CreateSmsTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/create-sms-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-app`
<a name="pinpoint_DeleteApp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-app`.

**AWS CLI**  
**Untuk menghapus aplikasi**  
`delete-app`Contoh berikut menghapus aplikasi (proyek).  

```
aws pinpoint delete-app \
    --application-id 810c7aab86d42fb2b56c8c966example
```
Output:  

```
{
    "ApplicationResponse": {
        "Arn": "arn:aws:mobiletargeting:us-west-2:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example",
        "Id": "810c7aab86d42fb2b56c8c966example",
        "Name": "ExampleCorp",
        "tags": {}
    }
}
```
+  Untuk detail API, lihat [DeleteApp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/delete-app.html)di *Referensi AWS CLI Perintah*. 

### `get-apns-channel`
<a name="pinpoint_GetApnsChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-apns-channel`.

**AWS CLI**  
**Untuk mengambil informasi tentang status dan pengaturan APNs saluran untuk aplikasi**  
`get-apns-channel`Contoh berikut mengambil informasi tentang status dan pengaturan APNs saluran untuk aplikasi.  

```
aws pinpoint get-apns-channel \
    --application-id 9ab1068eb0a6461c86cce7f27ce0efd7 \
    --region us-east-1
```
Output:  

```
{
    "APNSChannelResponse": {
        "ApplicationId": "9ab1068eb0a6461c86cce7f27ce0efd7",
        "CreationDate": "2019-05-09T21:54:45.082Z",
        "DefaultAuthenticationMethod": "CERTIFICATE",
        "Enabled": true,
        "HasCredential": true,
        "HasTokenKey": false,
        "Id": "apns",
        "IsArchived": false,
        "LastModifiedDate": "2019-05-09T22:04:01.067Z",
        "Platform": "APNS",
        "Version": 2
    }
}
```
+  Untuk detail API, lihat [GetApnsChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-apns-channel.html)di *Referensi AWS CLI Perintah*. 

### `get-app`
<a name="pinpoint_GetApp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-app`.

**AWS CLI**  
**Untuk mengambil informasi tentang aplikasi (proyek)**  
`get-app`Contoh berikut mengambil informasi tentang aplikasi (proyek).  

```
aws pinpoint get-app \
    --application-id 810c7aab86d42fb2b56c8c966example \
    --region us-east-1
```
Output:  

```
{
    "ApplicationResponse": {
        "Arn": "arn:aws:mobiletargeting:us-east-1:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example",
        "Id": "810c7aab86d42fb2b56c8c966example",
        "Name": "ExampleCorp",
        "tags": {
                "Year": "2019",
                "Stack": "Production"
            }
    }
}
```
+  Untuk detail API, lihat [GetApp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-app.html)di *Referensi AWS CLI Perintah*. 

### `get-apps`
<a name="pinpoint_GetApps_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-apps`.

**AWS CLI**  
**Untuk mengambil informasi tentang semua aplikasi Anda**  
`get-apps`Contoh berikut mengambil informasi tentang semua aplikasi Anda (proyek).  

```
aws pinpoint get-apps
```
Output:  

```
{
    "ApplicationsResponse": {
        "Item": [
            {
                "Arn": "arn:aws:mobiletargeting:us-west-2:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example",
                "Id": "810c7aab86d42fb2b56c8c966example",
                "Name": "ExampleCorp",
                "tags": {
                    "Year": "2019",
                    "Stack": "Production"
                }
            },
            {
                "Arn": "arn:aws:mobiletargeting:us-west-2:AIDACKCEVSQ6C2EXAMPLE:apps/42d8c7eb0990a57ba1d5476a3example",
                "Id": "42d8c7eb0990a57ba1d5476a3example",
                "Name": "AnyCompany",
                "tags": {}
            },
            {
                "Arn": "arn:aws:mobiletargeting:us-west-2:AIDACKCEVSQ6C2EXAMPLE:apps/80f5c382b638ffe5ad12376bbexample",
                "Id": "80f5c382b638ffe5ad12376bbexample",
                "Name": "ExampleCorp_Test",
                "tags": {
                    "Year": "2019",
                    "Stack": "Test"
                }
            }
        ],
        "NextToken": "eyJDcmVhdGlvbkRhdGUiOiIyMDE5LTA3LTE2VDE0OjM4OjUzLjkwM1oiLCJBY2NvdW50SWQiOiI1MTIzOTcxODM4NzciLCJBcHBJZCI6Ijk1ZTM2MGRiMzBkMjQ1ZjRiYTYwYjhlMzllMzZlNjZhIn0"
    }
}
```
Kehadiran nilai `NextToken` respons menunjukkan bahwa ada lebih banyak output yang tersedia. Panggil perintah lagi dan berikan nilai itu sebagai parameter `NextToken` input.  
+  Untuk detail API, lihat [GetApps](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-apps.html)di *Referensi AWS CLI Perintah*. 

### `get-campaign`
<a name="pinpoint_GetCampaign_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-campaign`.

**AWS CLI**  
**Untuk mengambil informasi tentang status, konfigurasi, dan setelan lain untuk kampanye**  
`get-campaign`Contoh berikut mengambil informasi tentang status, konfigurasi, dan setelan lain untuk kampanye.  

```
aws pinpoint get-campaign \
    --application-id 6e0b7591a90841d2b5d93fa11143e5a7 \
    --campaign-id a1e63c6cc0eb43ed826ffcc3cc90b30d \
    --region us-east-1
```
Output:  

```
{
    "CampaignResponse": {
        "AdditionalTreatments": [],
        "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
        "Arn": "arn:aws:mobiletargeting:us-east-1:AIDACKCEVSQ6C2EXAMPLE:apps/6e0b7591a90841d2b5d93fa11143e5a7/campaigns/a1e63c6cc0eb43ed826ffcc3cc90b30d",
        "CreationDate": "2019-10-08T18:40:16.581Z",
        "Description": " ",
        "HoldoutPercent": 0,
        "Id": "a1e63c6cc0eb43ed826ffcc3cc90b30d",
        "IsPaused": false,
        "LastModifiedDate": "2019-10-08T18:40:16.581Z",
        "Limits": {
            "Daily": 0,
            "MaximumDuration": 60,
            "MessagesPerSecond": 50,
            "Total": 0
        },
        "MessageConfiguration": {
            "EmailMessage": {
                "FromAddress": "sender@example.com",
                "HtmlBody": "<!DOCTYPE html>\n  <html lang=\"en\">\n    <head>\n    <meta http-equiv=\"Content-Type\" content=\"text/html; charset=utf-8\" />\n</head>\n<body>Hello</body>\n</html>",
                "Title": "PinpointDemo"
            }
        },
        "Name": "MyCampaign",
        "Schedule": {
            "IsLocalTime": false,
            "StartTime": "IMMEDIATE",
            "Timezone": "utc"
        },
        "SegmentId": "b66c9e42f71444b2aa2e0ffc1df28f60",
        "SegmentVersion": 1,
        "State": {
            "CampaignStatus": "COMPLETED"
        },
        "tags": {},
        "TemplateConfiguration": {},
        "Version": 1
    }
}
```
+  Untuk detail API, lihat [GetCampaign](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-campaign.html)di *Referensi AWS CLI Perintah*. 

### `get-campaigns`
<a name="pinpoint_GetCampaigns_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-campaigns`.

**AWS CLI**  
**Untuk mengambil informasi tentang status, konfigurasi, dan setelan lainnya untuk semua kampanye yang terkait dengan aplikasi**  
`get-campaigns`Contoh berikut mengambil informasi tentang status, konfigurasi, dan setelan lainnya untuk semua kampanye yang terkait dengan aplikasi.  

```
aws pinpoint get-campaigns \
    --application-id 6e0b7591a90841d2b5d93fa11143e5a7 \
    --region us-east-1
```
Output:  

```
{
    "CampaignsResponse": {
        "Item": [
            {
                "AdditionalTreatments": [],
                "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
                "Arn": "arn:aws:mobiletargeting:us-east-1:AIDACKCEVSQ6C2EXAMPLE:apps/6e0b7591a90841d2b5d93fa11143e5a7/campaigns/7e1280344c8f4a9aa40a00b006fe44f1",
                "CreationDate": "2019-10-08T18:40:22.905Z",
                "Description": " ",
                "HoldoutPercent": 0,
                "Id": "7e1280344c8f4a9aa40a00b006fe44f1",
                "IsPaused": false,
                "LastModifiedDate": "2019-10-08T18:40:22.905Z",
                "Limits": {},
                "MessageConfiguration": {
                    "EmailMessage": {
                        "FromAddress": "sender@example.com",
                        "HtmlBody": "<!DOCTYPE html>\n    <html lang=\"en\">\n    <head>\n    <meta http-equiv=\"Content-Type\" content=\"text/html; charset=utf-8\" />\n</head>\n<body>Hello</body>\n</html>",
                        "Title": "PInpointDemo Test"
                    }
                },
                "Name": "MyCampaign1",
                "Schedule": {
                    "IsLocalTime": false,
                    "QuietTime": {},
                    "StartTime": "IMMEDIATE",
                    "Timezone": "UTC"
                },
                "SegmentId": "b66c9e42f71444b2aa2e0ffc1df28f60",
                "SegmentVersion": 1,
                "State": {
                    "CampaignStatus": "COMPLETED"
                },
                "tags": {},
                "TemplateConfiguration": {},
                "Version": 1
            },
            {
                "AdditionalTreatments": [],
                "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
                "Arn": "arn:aws:mobiletargeting:us-east-1:AIDACKCEVSQ6C2EXAMPLE:apps/6e0b7591a90841d2b5d93fa11143e5a7/campaigns/a1e63c6cc0eb43ed826ffcc3cc90b30d",
                "CreationDate": "2019-10-08T18:40:16.581Z",
                "Description": " ",
                "HoldoutPercent": 0,
                "Id": "a1e63c6cc0eb43ed826ffcc3cc90b30d",
                "IsPaused": false,
                "LastModifiedDate": "2019-10-08T18:40:16.581Z",
                "Limits": {
                    "Daily": 0,
                    "MaximumDuration": 60,
                    "MessagesPerSecond": 50,
                    "Total": 0
                },
                "MessageConfiguration": {
                    "EmailMessage": {
                        "FromAddress": "sender@example.com",
                        "HtmlBody": "<!DOCTYPE html>\n    <html lang=\"en\">\n    <head>\n    <meta http-equiv=\"Content-Type\" content=\"text/html; charset=utf-8\" />\n</head>\n<body>Demo</body>\n</html>",
                        "Title": "PinpointDemo"
                    }
                },
                "Name": "MyCampaign2",
                "Schedule": {
                    "IsLocalTime": false,
                    "StartTime": "IMMEDIATE",
                    "Timezone": "utc"
                },
                "SegmentId": "b66c9e42f71444b2aa2e0ffc1df28f60",
                "SegmentVersion": 1,
                "State": {
                    "CampaignStatus": "COMPLETED"
                },
                "tags": {},
                "TemplateConfiguration": {},
                "Version": 1
            }
        ]
    }
}
```
+  Untuk detail API, lihat [GetCampaigns](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-campaigns.html)di *Referensi AWS CLI Perintah*. 

### `get-channels`
<a name="pinpoint_GetChannels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-channels`.

**AWS CLI**  
**Untuk mengambil informasi tentang riwayat dan status setiap saluran untuk aplikasi**  
`get-channels`Contoh berikut mengambil informasi tentang riwayat dan status setiap saluran untuk aplikasi.  

```
aws pinpoint get-channels \
    --application-id 6e0b7591a90841d2b5d93fa11143e5a7 \
    --region us-east-1
```
Output:  

```
{
    "ChannelsResponse": {
        "Channels": {
            "GCM": {
                "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
                "CreationDate": "2019-10-08T18:28:23.182Z",
                "Enabled": true,
                "HasCredential": true,
                "Id": "gcm",
                "IsArchived": false,
                "LastModifiedDate": "2019-10-08T18:28:23.182Z",
                "Version": 1
            },
            "SMS": {
                "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
                "CreationDate": "2019-10-08T18:39:18.511Z",
                "Enabled": true,
                "Id": "sms",
                "IsArchived": false,
                "LastModifiedDate": "2019-10-08T18:39:18.511Z",
                "Version": 1
            },
            "EMAIL": {
                "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
                "CreationDate": "2019-10-08T18:27:23.990Z",
                "Enabled": true,
                "Id": "email",
                "IsArchived": false,
                "LastModifiedDate": "2019-10-08T18:27:23.990Z",
                "Version": 1
            },
            "IN_APP": {
                "Enabled": true,
                "IsArchived": false,
                "Version": 0
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetChannels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-channels.html)di *Referensi AWS CLI Perintah*. 

### `get-email-channel`
<a name="pinpoint_GetEmailChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-email-channel`.

**AWS CLI**  
**Untuk mengambil informasi tentang status dan pengaturan saluran Email untuk aplikasi**  
`get-email-channel`Contoh berikut mengambil status dan pengaturan saluran Email untuk aplikasi.  

```
aws pinpoint get-email-channel \
    --application-id 6e0b7591a90841d2b5d93fa11143e5a7 \
    --region us-east-1
```
Output:  

```
{
    "EmailChannelResponse": {
        "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
        "CreationDate": "2019-10-08T18:27:23.990Z",
        "Enabled": true,
        "FromAddress": "sender@example.com",
        "Id": "email",
        "Identity": "arn:aws:ses:us-east-1:AIDACKCEVSQ6C2EXAMPLE:identity/sender@example.com",
        "IsArchived": false,
        "LastModifiedDate": "2019-10-08T18:27:23.990Z",
        "MessagesPerSecond": 1,
        "Platform": "EMAIL",
        "RoleArn": "arn:aws:iam::AIDACKCEVSQ6C2EXAMPLE:role/pinpoint-events",
        "Version": 1
    }
}
```
+  Untuk detail API, lihat [GetEmailChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-email-channel.html)di *Referensi AWS CLI Perintah*. 

### `get-endpoint`
<a name="pinpoint_GetEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-endpoint`.

**AWS CLI**  
**Untuk mengambil informasi tentang pengaturan dan atribut titik akhir tertentu untuk aplikasi**  
`get-endpoint`Contoh berikut mengambil informasi tentang pengaturan dan atribut titik akhir tertentu untuk aplikasi.  

```
aws pinpoint get-endpoint \
    --application-id 611e3e3cdd47474c9c1399a505665b91 \
    --endpoint-id testendpoint \
    --region us-east-1
```
Output:  

```
{
    "EndpointResponse": {
        "Address": "+11234567890",
        "ApplicationId": "611e3e3cdd47474c9c1399a505665b91",
        "Attributes": {},
        "ChannelType": "SMS",
        "CohortId": "63",
        "CreationDate": "2019-01-28T23:55:11.534Z",
        "EffectiveDate": "2021-08-06T00:04:51.763Z",
        "EndpointStatus": "ACTIVE",
        "Id": "testendpoint",
        "Location": {
            "Country": "USA"
        },
        "Metrics": {
            "SmsDelivered": 1.0
        },
        "OptOut": "ALL",
        "RequestId": "a204b1f2-7e26-48a7-9c80-b49a2143489d",
        "User": {
            "UserAttributes": {
                "Age": [
                    "24"
                ]
            },
        "UserId": "testuser"
        }
    }
}
```
+  Untuk detail API, lihat [GetEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `get-gcm-channel`
<a name="pinpoint_GetGcmChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-gcm-channel`.

**AWS CLI**  
**Untuk mengambil informasi tentang status dan pengaturan saluran GCM untuk aplikasi**  
`get-gcm-channel`Contoh berikut mengambil informasi tentang status dan pengaturan saluran GCM untuk aplikasi.  

```
aws pinpoint get-gcm-channel \
    --application-id 6e0b7591a90841d2b5d93fa11143e5a7 \
    --region us-east-1
```
Output:  

```
{
    "GCMChannelResponse": {
        "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
        "CreationDate": "2019-10-08T18:28:23.182Z",
        "Enabled": true,
        "HasCredential": true,
        "Id": "gcm",
        "IsArchived": false,
        "LastModifiedDate": "2019-10-08T18:28:23.182Z",
        "Platform": "GCM",
        "Version": 1
    }
}
```
+  Untuk detail API, lihat [GetGcmChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-gcm-channel.html)di *Referensi AWS CLI Perintah*. 

### `get-sms-channel`
<a name="pinpoint_GetSmsChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sms-channel`.

**AWS CLI**  
**Untuk mengambil informasi tentang status dan pengaturan saluran SMS untuk suatu aplikasi**  
`get-sms-channel`Contoh berikut mengambil status dan pengaturan saluran sms untuk aplikasi.  

```
aws pinpoint get-sms-channel \
    --application-id 6e0b7591a90841d2b5d93fa11143e5a7 \
    --region us-east-1
```
Output:  

```
{
    "SMSChannelResponse": {
        "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
        "CreationDate": "2019-10-08T18:39:18.511Z",
        "Enabled": true,
        "Id": "sms",
        "IsArchived": false,
        "LastModifiedDate": "2019-10-08T18:39:18.511Z",
        "Platform": "SMS",
        "PromotionalMessagesPerSecond": 20,
        "TransactionalMessagesPerSecond": 20,
        "Version": 1
    }
}
```
+  Untuk detail API, lihat [GetSmsChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-sms-channel.html)di *Referensi AWS CLI Perintah*. 

### `get-sms-template`
<a name="pinpoint_GetSmsTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sms-template`.

**AWS CLI**  
**Mengambil konten dan pengaturan template pesan untuk pesan yang dikirim melalui saluran SMS**  
`get-sms-template`Contoh berikut mengambil konten dan pengaturan template pesan SMS.  

```
aws pinpoint get-sms-template \
    --template-name TestTemplate \
    --region us-east-1
```
Output:  

```
{
    "SMSTemplateResponse": {
        "Arn": "arn:aws:mobiletargeting:us-east-1:AIDACKCEVSQ6C2EXAMPLE:templates/TestTemplate/SMS",
        "Body": "hello\n how are you?\n food is good",
        "CreationDate": "2023-06-20T21:37:30.124Z",
        "LastModifiedDate": "2023-06-20T21:37:30.124Z",
        "tags": {},
        "TemplateDescription": "Test SMS Template",
        "TemplateName": "TestTemplate",
        "TemplateType": "SMS",
        "Version": "1"
    }
}
```
Untuk informasi selengkapnya, lihat [templat pesan Amazon Pinpoint](https://docs.aws.amazon.com/pinpoint/latest/userguide/messages-templates.html) di Panduan Pengguna *Amazon Pinpoint*.  
+  Untuk detail API, lihat [GetSmsTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-sms-template.html)di *Referensi AWS CLI Perintah*. 

### `get-voice-channel`
<a name="pinpoint_GetVoiceChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-voice-channel`.

**AWS CLI**  
**Untuk mengambil informasi tentang status dan pengaturan saluran suara untuk aplikasi**  
`get-voice-channel`Contoh berikut mengambil status dan pengaturan saluran suara untuk aplikasi.  

```
aws pinpoint get-voice-channel \
    --application-id 6e0b7591a90841d2b5d93fa11143e5a7 \
    --region us-east-1
```
Output:  

```
{
    "VoiceChannelResponse": {
        "ApplicationId": "6e0b7591a90841d2b5d93fa11143e5a7",
        "CreationDate": "2022-04-28T00:17:03.836Z",
        "Enabled": true,
        "Id": "voice",
        "IsArchived": false,
        "LastModifiedDate": "2022-04-28T00:17:03.836Z",
        "Platform": "VOICE",
        "Version": 1
    }
}
```
+  Untuk detail API, lihat [GetVoiceChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/get-voice-channel.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="pinpoint_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mengambil daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mengambil semua tag (nama kunci dan nilai) yang terkait dengan sumber daya yang ditentukan.  

```
aws pinpoint list-tags-for-resource \
    --resource-arn arn:aws:mobiletargeting:us-west-2:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example
```
Output:  

```
{
    "TagsModel": {
        "tags": {
            "Year": "2019",
            "Stack": "Production"
        }
    }
}
```
*Untuk informasi selengkapnya, lihat 'Menandai Sumber Daya Amazon Pinpoint https://docs.aws.amazon.com/pinpoint/ latest/developerguide/tagging < -resources.html>'\$1\$1 di Panduan Pengembang Amazon Pinpoint.*  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `phone-number-validate`
<a name="pinpoint_PhoneNumberValidate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`phone-number-validate`.

**AWS CLI**  
**Mengambil informasi tentang nomor telepon**  
Berikut ini `phone-number-validate` mengambil informasi tentang nomor telepon.  

```
aws pinpoint phone-number-validate \
    --number-validate-request PhoneNumber="+12065550142" \
    --region us-east-1
```
Output:  

```
{
    "NumberValidateResponse": {
        "Carrier": "ExampleCorp Mobile",
        "City": "Seattle",
        "CleansedPhoneNumberE164": "+12065550142",
        "CleansedPhoneNumberNational": "2065550142",
        "Country": "United States",
        "CountryCodeIso2": "US",
        "CountryCodeNumeric": "1",
        "OriginalPhoneNumber": "+12065550142",
        "PhoneType": "MOBILE",
        "PhoneTypeCode": 0,
        "Timezone": "America/Los_Angeles",
        "ZipCode": "98101"
    }
}
```
Untuk informasi selengkapnya, lihat [saluran SMS Amazon Pinpoint](https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms.html) di Panduan Pengguna *Amazon Pinpoint*.  
+  Untuk detail API, lihat [PhoneNumberValidate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/phone-number-validate.html)di *Referensi AWS CLI Perintah*. 

### `send-messages`
<a name="pinpoint_SendMessages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-messages`.

**AWS CLI**  
**Untuk mengirim pesan SMS menggunakan titik akhir aplikasi**  
`send-messages`Contoh berikut mengirimkan pesan langsung untuk aplikasi dengan titik akhir.  

```
aws pinpoint send-messages \
    --application-id 611e3e3cdd47474c9c1399a505665b91 \
    --message-request file://myfile.json \
    --region us-west-2
```
Isi dari `myfile.json`:  

```
{
    "MessageConfiguration": {
        "SMSMessage": {
            "Body": "hello, how are you?"
        }
    },
    "Endpoints": {
        "testendpoint": {}
    }
}
```
Output:  

```
{
    "MessageResponse": {
        "ApplicationId": "611e3e3cdd47474c9c1399a505665b91",
        "EndpointResult": {
            "testendpoint": {
                "Address": "+12345678900",
                "DeliveryStatus": "SUCCESSFUL",
                "MessageId": "itnuqhai5alf1n6ahv3udc05n7hhddr6gb3lq6g0",
                "StatusCode": 200,
                "StatusMessage": "MessageId: itnuqhai5alf1n6ahv3udc05n7hhddr6gb3lq6g0"
            }
        },
        "RequestId": "c7e23264-04b2-4a46-b800-d24923f74753"
    }
}
```
Untuk informasi selengkapnya, lihat [saluran SMS Amazon Pinpoint](https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms.html) di Panduan Pengguna *Amazon Pinpoint*.  
+  Untuk detail API, lihat [SendMessages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/send-messages.html)di *Referensi AWS CLI Perintah*. 

### `send-users-messages`
<a name="pinpoint_SendUsersMessages_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-users-messages`.

**AWS CLI**  
**Untuk mengirim pesan SMS untuk pengguna aplikasi**  
`send-users-messages`Contoh berikut mengirimkan pesan langsung untuk pengguna aplikasi.  

```
aws pinpoint send-users-messages \
    --application-id 611e3e3cdd47474c9c1399a505665b91 \
    --send-users-message-request file://myfile.json \
    --region us-west-2
```
Isi dari `myfile.json`:  

```
{
    "MessageConfiguration": {
        "SMSMessage": {
            "Body": "hello, how are you?"
        }
    },
    "Users": {
        "testuser": {}
    }
}
```
Output:  

```
{
    "SendUsersMessageResponse": {
        "ApplicationId": "611e3e3cdd47474c9c1399a505665b91",
        "RequestId": "e0b12cf5-2359-11e9-bb0b-d5fb91876b25",
        "Result": {
            "testuser": {
                "testuserendpoint": {
                    "DeliveryStatus": "SUCCESSFUL",
                    "MessageId": "7qu4hk5bqhda3i7i2n4pjf98qcuh8b7p45ifsmo0",
                    "StatusCode": 200,
                    "StatusMessage": "MessageId: 7qu4hk5bqhda3i7i2n4pjf98qcuh8b7p45ifsmo0",
                    "Address": "+12345678900"
                }
            }
        }
    }
}
```
Untuk informasi selengkapnya, lihat [saluran SMS Amazon Pinpoint](https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms.html) di Panduan Pengguna *Amazon Pinpoint*.  
+  Untuk detail API, lihat [SendUsersMessages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/send-users-messages.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="pinpoint_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya**  
Contoh berikut menambahkan dua tag (nama kunci dan nilai) ke sumber daya.  

```
aws pinpoint list-tags-for-resource \
    --resource-arn arn:aws:mobiletargeting:us-east-1:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example \
    --tags-model tags={Stack=Production,Year=2019}
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat 'Menandai Sumber Daya Amazon Pinpoint https://docs.aws.amazon.com/pinpoint/ latest/developerguide/tagging < -resources.html>'\$1\$1 di Panduan Pengembang Amazon Pinpoint.*  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="pinpoint_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menghapus tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag tertentu (nama kunci dan nilai) dari sumber daya.  

```
aws pinpoint untag-resource \
    --resource-arn arn:aws:mobiletargeting:us-west-2:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example \
    --tag-keys Year
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menghapus beberapa tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan (nama kunci dan nilai) dari sumber daya.  

```
aws pinpoint untag-resource \
    --resource-arn arn:aws:mobiletargeting:us-east-1:AIDACKCEVSQ6C2EXAMPLE:apps/810c7aab86d42fb2b56c8c966example \
    --tag-keys Year Stack
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat 'Menandai Sumber Daya Amazon Pinpoint https://docs.aws.amazon.com/pinpoint/ latest/developerguide/tagging < -resources.html>'\$1\$1 di Panduan Pengembang Amazon Pinpoint.*  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-sms-channel`
<a name="pinpoint_UpdateSmsChannel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-sms-channel`.

**AWS CLI**  
**Untuk mengaktifkan saluran SMS atau memperbarui status dan pengaturan saluran SMS untuk suatu aplikasi.**  
`update-sms-channel`Contoh berikut memungkinkan saluran SMS untuk saluran SMS untuk suatu aplikasi.  

```
aws pinpoint update-sms-channel \
    --application-id 611e3e3cdd47474c9c1399a505665b91 \
    --sms-channel-request Enabled=true \
    --region us-west-2
```
Output:  

```
{
    "SMSChannelResponse": {
        "ApplicationId": "611e3e3cdd47474c9c1399a505665b91",
        "CreationDate": "2019-01-28T23:25:25.224Z",
        "Enabled": true,
        "Id": "sms",
        "IsArchived": false,
        "LastModifiedDate": "2023-05-18T23:22:50.977Z",
        "Platform": "SMS",
        "PromotionalMessagesPerSecond": 20,
        "TransactionalMessagesPerSecond": 20,
        "Version": 3
    }
}
```
Untuk informasi selengkapnya, lihat [saluran SMS Amazon Pinpoint](https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms.html) di Panduan Pengguna *Amazon Pinpoint*.  
+  Untuk detail API, lihat [UpdateSmsChannel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pinpoint/update-sms-channel.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Polly menggunakan AWS CLI
<a name="cli_2_polly_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Polly. AWS Command Line Interface 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-lexicon`
<a name="polly_DeleteLexicon_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-lexicon`.

**AWS CLI**  
**Untuk menghapus leksikon**  
`delete-lexicon`Contoh berikut menghapus leksikon yang ditentukan.  

```
aws polly delete-lexicon \
    --name w3c
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan DeleteLexicon operasi](https://docs.aws.amazon.com/polly/latest/dg/gs-delete-lexicon.html) di Panduan *Pengembang Amazon Polly*.  
+  Untuk detail API, lihat [DeleteLexicon](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/polly/delete-lexicon.html)di *Referensi AWS CLI Perintah*. 

### `get-lexicon`
<a name="polly_GetLexicon_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-lexicon`.

**AWS CLI**  
**Untuk mengambil konten leksikon**  
`get-lexicon`Contoh berikut mengambil isi dari leksikon pengucapan yang ditentukan.  

```
aws polly get-lexicon \
    --name w3c
```
Output:  

```
{
    "Lexicon": {
        "Content": "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<lexicon version=\"1.0\" \n      xmlns=    \"http://www.w3.org/2005/01/pronunciation-lexicon\"\n      xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" \n          xsi:schemaLocation=\"http://www.w3.org/2005/01/pronunciation-lexicon \n        http://www.w3.org/TR/2007/CR-pronunciation-    lexicon-20071212/pls.xsd\"\n      alphabet=\"ipa\" \n      xml:lang=\"en-US\">\n  <lexeme>\n    <grapheme>W3C</grapheme>\n        <alias>World Wide Web Consortium</alias>\n  </lexeme>\n</lexicon>\n",
        "Name": "w3c"
    },
    "LexiconAttributes": {
        "Alphabet": "ipa",
        "LanguageCode": "en-US",
        "LastModified": 1603908910.99,
        "LexiconArn": "arn:aws:polly:us-west-2:880185128111:lexicon/w3c",
        "LexemesCount": 1,
        "Size": 492
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan GetLexicon operasi](https://docs.aws.amazon.com/polly/latest/dg/gs-get-lexicon.html) di Panduan *Pengembang Amazon Polly*.  
+  Untuk detail API, lihat [GetLexicon](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/polly/get-lexicon.html)di *Referensi AWS CLI Perintah*. 

### `get-speech-synthesis-task`
<a name="polly_GetSpeechSynthesisTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-speech-synthesis-task`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang tugas sintesis ucapan**  
`get-speech-synthesis-task`Contoh berikut mengambil informasi tentang tugas sintesis ucapan yang ditentukan.  

```
aws polly get-speech-synthesis-task \
    --task-id 70b61c0f-57ce-4715-a247-cae8729dcce9
```
Output:  

```
{
    "SynthesisTask": {
        "TaskId": "70b61c0f-57ce-4715-a247-cae8729dcce9",
        "TaskStatus": "completed",
        "OutputUri": "https://s3.us-west-2.amazonaws.com/amzn-s3-demo-bucket/70b61c0f-57ce-4715-a247-cae8729dcce9.mp3",
        "CreationTime": 1603911042.689,
        "RequestCharacters": 1311,
        "OutputFormat": "mp3",
        "TextType": "text",
        "VoiceId": "Joanna"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat file audio panjang](https://docs.aws.amazon.com/polly/latest/dg/longer-cli.html) di Panduan *Pengembang Amazon Polly*.  
+  Untuk detail API, lihat [GetSpeechSynthesisTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/polly/get-speech-synthesis-task.html)di *Referensi AWS CLI Perintah*. 

### `list-lexicons`
<a name="polly_ListLexicons_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-lexicons`.

**AWS CLI**  
**Untuk membuat daftar leksikon Anda**  
`list-lexicons`Contoh berikut mencantumkan leksikon pengucapan Anda.  

```
aws polly list-lexicons
```
Output:  

```
{
    "Lexicons": [
        {
            "Name": "w3c",
            "Attributes": {
                "Alphabet": "ipa",
                "LanguageCode": "en-US",
                "LastModified": 1603908910.99,
                "LexiconArn": "arn:aws:polly:us-east-2:123456789012:lexicon/w3c",
                "LexemesCount": 1,
                "Size": 492
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan ListLexicons operasi](https://docs.aws.amazon.com/polly/latest/dg/gs-list-lexicons.html) di Panduan *Pengembang Amazon Polly*.  
+  Untuk detail API, lihat [ListLexicons](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/polly/list-lexicons.html)di *Referensi AWS CLI Perintah*. 

### `list-speech-synthesis-tasks`
<a name="polly_ListSpeechSynthesisTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-speech-synthesis-tasks`.

**AWS CLI**  
**Untuk membuat daftar tugas sintesis ucapan Anda**  
`list-speech-synthesis-tasks`Contoh berikut mencantumkan tugas sintesis ucapan Anda.  

```
aws polly list-speech-synthesis-tasks
```
Output:  

```
{
    "SynthesisTasks": [
        {
            "TaskId": "70b61c0f-57ce-4715-a247-cae8729dcce9",
            "TaskStatus": "completed",
            "OutputUri": "https://s3.us-west-2.amazonaws.com/amzn-s3-demo-bucket/70b61c0f-57ce-4715-a247-cae8729dcce9.mp3",
            "CreationTime": 1603911042.689,
            "RequestCharacters": 1311,
            "OutputFormat": "mp3",
            "TextType": "text",
            "VoiceId": "Joanna"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat file audio panjang](https://docs.aws.amazon.com/polly/latest/dg/longer-cli.html) di Panduan *Pengembang Amazon Polly*.  
+  Untuk detail API, lihat [ListSpeechSynthesisTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/polly/list-speech-synthesis-tasks.html)di *Referensi AWS CLI Perintah*. 

### `put-lexicon`
<a name="polly_PutLexicon_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-lexicon`.

**AWS CLI**  
**Untuk menyimpan leksikon**  
`put-lexicon`Contoh berikut menyimpan leksikon pengucapan yang ditentukan. `example.pls`File tersebut menentukan leksikon yang sesuai dengan PLS W3C.  

```
aws polly put-lexicon \
    --name w3c \
    --content file://example.pls
```
Isi dari `example.pls`  

```
{
    <?xml version="1.0" encoding="UTF-8"?>
    <lexicon version="1.0"
        xmlns="http://www.w3.org/2005/01/pronunciation-lexicon"
        xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
        xsi:schemaLocation="http://www.w3.org/2005/01/pronunciation-lexicon
            http://www.w3.org/TR/2007/CR-pronunciation-lexicon-20071212/pls.xsd"
        alphabet="ipa"
        xml:lang="en-US">
        <lexeme>
            <grapheme>W3C</grapheme>
            <alias>World Wide Web Consortium</alias>
        </lexeme>
    </lexicon>
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan PutLexicon operasi](https://docs.aws.amazon.com/polly/latest/dg/gs-put-lexicon.html) di Panduan *Pengembang Amazon Polly*.  
+  Untuk detail API, lihat [PutLexicon](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/polly/put-lexicon.html)di *Referensi AWS CLI Perintah*. 

### `start-speech-synthesis-task`
<a name="polly_StartSpeechSynthesisTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-speech-synthesis-task`.

**AWS CLI**  
**Untuk mensintesis teks**  
`start-speech-synthesis-task`Contoh berikut mensintesis teks `text_file.txt` dan menyimpan MP3 file yang dihasilkan dalam bucket yang ditentukan.  

```
aws polly start-speech-synthesis-task \
    --output-format mp3 \
    --output-s3-bucket-name amzn-s3-demo-bucket \
    --text  file://text_file.txt \
    --voice-id Joanna
```
Output:  

```
{
    "SynthesisTask": {
        "TaskId": "70b61c0f-57ce-4715-a247-cae8729dcce9",
        "TaskStatus": "scheduled",
        "OutputUri": "https://s3.us-east-2.amazonaws.com/amzn-s3-demo-bucket/70b61c0f-57ce-4715-a247-cae8729dcce9.mp3",
        "CreationTime": 1603911042.689,
        "RequestCharacters": 1311,
        "OutputFormat": "mp3",
        "TextType": "text",
        "VoiceId": "Joanna"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat file audio panjang](https://docs.aws.amazon.com/polly/latest/dg/longer-cli.html) di Panduan *Pengembang Amazon Polly*.  
+  Untuk detail API, lihat [StartSpeechSynthesisTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/polly/start-speech-synthesis-task.html)di *Referensi AWS CLI Perintah*. 

# Daftar Harga AWS contoh menggunakan AWS CLI
<a name="cli_2_pricing_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Daftar Harga AWS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-services`
<a name="pricing_DescribeServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-services`.

**AWS CLI**  
**Untuk mengambil metadata layanan**  
Contoh ini mengambil metadata untuk kode layanan Amazon EC2.  
Perintah:  

```
aws pricing describe-services --service-code AmazonEC2 --format-version aws_v1 --max-items 1
```
Output:  

```
{
  "Services": [
      {
          "ServiceCode": "AmazonEC2",
          "AttributeNames": [
              "volumeType",
              "maxIopsvolume",
              "instance",
              "instanceCapacity10xlarge",
              "locationType",
              "instanceFamily",
              "operatingSystem",
              "clockSpeed",
              "LeaseContractLength",
              "ecu",
              "networkPerformance",
              "instanceCapacity8xlarge",
              "group",
              "maxThroughputvolume",
              "gpuMemory",
              "ebsOptimized",
              "elasticGpuType",
              "maxVolumeSize",
              "gpu",
              "processorFeatures",
              "intelAvxAvailable",
              "instanceCapacity4xlarge",
              "servicecode",
              "groupDescription",
              "processorArchitecture",
              "physicalCores",
              "productFamily",
              "enhancedNetworkingSupported",
              "intelTurboAvailable",
              "memory",
              "dedicatedEbsThroughput",
              "vcpu",
              "OfferingClass",
              "instanceCapacityLarge",
              "capacitystatus",
              "termType",
              "storage",
              "intelAvx2Available",
              "storageMedia",
              "physicalProcessor",
              "provisioned",
              "servicename",
              "PurchaseOption",
              "instanceCapacity18xlarge",
              "instanceType",
              "tenancy",
              "usagetype",
              "normalizationSizeFactor",
              "instanceCapacity2xlarge",
              "instanceCapacity16xlarge",
              "maxIopsBurstPerformance",
              "instanceCapacity12xlarge",
              "instanceCapacity32xlarge",
              "instanceCapacityXlarge",
              "licenseModel",
              "currentGeneration",
              "preInstalledSw",
              "location",
              "instanceCapacity24xlarge",
              "instanceCapacity9xlarge",
              "instanceCapacityMedium",
              "operation"
          ]
      }
  ],
  "FormatVersion": "aws_v1"
}
```
+  Untuk detail API, lihat [DescribeServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pricing/describe-services.html)di *Referensi AWS CLI Perintah*. 

### `get-attribute-values`
<a name="pricing_GetAttributeValues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-attribute-values`.

**AWS CLI**  
**Untuk mengambil daftar nilai atribut**  
`get-attribute-values`Contoh berikut mengambil daftar nilai yang tersedia untuk atribut yang diberikan.  

```
aws pricing get-attribute-values \
    --service-code AmazonEC2 \
    --attribute-name volumeType \
    --max-items 2
```
Output:  

```
{
    "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAyfQ==",
    "AttributeValues": [
        {
            "Value": "Cold HDD"
        },
        {
            "Value": "General Purpose"
        }
    ]
}
```
+  Untuk detail API, lihat [GetAttributeValues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pricing/get-attribute-values.html)di *Referensi AWS CLI Perintah*. 

### `get-products`
<a name="pricing_GetProducts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-products`.

**AWS CLI**  
**Untuk mengambil daftar produk**  
Contoh ini mengambil daftar produk yang cocok dengan kriteria yang diberikan.  
Perintah:  

```
aws pricing get-products --filters file://filters.json --format-version aws_v1 --max-results 1 --service-code AmazonEC2
```
filters.json:  

```
        [
  {
    "Type": "TERM_MATCH",
    "Field": "ServiceCode",
    "Value": "AmazonEC2"
  },
  {
    "Type": "TERM_MATCH",
    "Field": "volumeType",
    "Value": "Provisioned IOPS"
  }
]
```
Output:  

```
{
  "FormatVersion": "aws_v1",
  "NextToken": "WGDY7ko8fQXdlaUZVdasFQ==:RVSagyIFn770XQOzdUIcO9BY6ucBG9itXAZGZF/zioUzOsUKh6PCcPWaOyPZRiMePb986TeoKYB9l55fw/CyoMq5ymnGmT1Vj39TljbbAlhcqnVfTmPIilx8Uy5bdDaBYy/e/2Ofw9Edzsykbs8LTBuNbiDQ+BBds5yeI9AQkUepruKk3aEahFPxJ55kx/zk",
  "PriceList": [
      "{\"product\":{\"productFamily\":\"Storage\",\"attributes\":{\"storageMedia\":\"SSD-backed\",\"maxThroughputvolume\":\"320 MB/sec\",\"volumeType\":\"Provisioned IOPS\",\"maxIopsvolume\":\"20000\",\"servicecode\":\"AmazonEC2\",\"usagetype\":\"APS1-EBS:VolumeUsage.piops\",\"locationType\":\"AWS Region\",\"location\":\"Asia Pacific (Singapore)\",\"servicename\":\"Amazon Elastic Compute Cloud\",\"maxVolumeSize\":\"16 TiB\",\"operation\":\"\"},\"sku\":\"3MKHN58N7RDDVGKJ\"},\"serviceCode\":\"AmazonEC2\",\"terms\":{\"OnDemand\":{\"3MKHN58N7RDDVGKJ.JRTCKXETXF\":{\"priceDimensions\":{\"3MKHN58N7RDDVGKJ.JRTCKXETXF.6YS6EN2CT7\":{\"unit\":\"GB-Mo\",\"endRange\":\"Inf\",\"description\":\"$0.138 per GB-month of Provisioned IOPS SSD (io1)  provisioned storage - Asia Pacific (Singapore)\",\"appliesTo\":[],\"rateCode\":\"3MKHN58N7RDDVGKJ.JRTCKXETXF.6YS6EN2CT7\",\"beginRange\":\"0\",\"pricePerUnit\":{\"USD\":\"0.1380000000\"}}},\"sku\":\"3MKHN58N7RDDVGKJ\",\"effectiveDate\":\"2018-08-01T00:00:00Z\",\"offerTermCode\":\"JRTCKXETXF\",\"termAttributes\":{}}}},\"version\":\"20180808005701\",\"publicationDate\":\"2018-08-08T00:57:01Z\"}"
  ]
}
```
+  Untuk detail API, lihat [GetProducts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pricing/get-products.html)di *Referensi AWS CLI Perintah*. 

# AWS Private CA contoh menggunakan AWS CLI
<a name="cli_2_acm-pca_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Private CA.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-certificate-authority-audit-report`
<a name="acm-pca_CreateCertificateAuthorityAuditReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-certificate-authority-audit-report`.

**AWS CLI**  
**Untuk membuat laporan audit otoritas sertifikat**  
`create-certificate-authority-audit-report`Perintah berikut membuat laporan audit untuk CA pribadi yang diidentifikasi oleh ARN.  

```
aws acm-pca create-certificate-authority-audit-report --certificate-authority-arn arn:aws:acm-pca:us-east-1:accountid:certificate-authority/12345678-1234-1234-1234-123456789012 --s3-bucket-name your-bucket-name --audit-report-response-format JSON
```
+  Untuk detail API, lihat [CreateCertificateAuthorityAuditReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/create-certificate-authority-audit-report.html)di *Referensi AWS CLI Perintah*. 

### `create-certificate-authority`
<a name="acm-pca_CreateCertificateAuthority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-certificate-authority`.

**AWS CLI**  
**Untuk membuat otoritas sertifikat pribadi**  
`create-certificate-authority`Perintah berikut membuat otoritas sertifikat pribadi di AWS akun Anda.  

```
aws acm-pca create-certificate-authority --certificate-authority-configuration file://C:\ca_config.txt --revocation-configuration file://C:\revoke_config.txt --certificate-authority-type "SUBORDINATE" --idempotency-token 98256344
```
+  Untuk detail API, lihat [CreateCertificateAuthority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/create-certificate-authority.html)di *Referensi AWS CLI Perintah*. 

### `delete-certificate-authority`
<a name="acm-pca_DeleteCertificateAuthority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-certificate-authority`.

**AWS CLI**  
**Untuk menghapus otoritas sertifikat pribadi**  
`delete-certificate-authority`Perintah berikut menghapus otoritas sertifikat yang diidentifikasi oleh ARN.  

```
aws acm-pca delete-certificate-authority --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012
```
+  Untuk detail API, lihat [DeleteCertificateAuthority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/delete-certificate-authority.html)di *Referensi AWS CLI Perintah*. 

### `describe-certificate-authority-audit-report`
<a name="acm-pca_DescribeCertificateAuthorityAuditReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-certificate-authority-audit-report`.

**AWS CLI**  
**Untuk menggambarkan laporan audit untuk otoritas sertifikat**  
`describe-certificate-authority-audit-report`Perintah berikut mencantumkan informasi tentang laporan audit yang ditentukan untuk CA yang diidentifikasi oleh ARN.  

```
aws acm-pca describe-certificate-authority-audit-report --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/99999999-8888-7777-6666-555555555555 --audit-report-id 11111111-2222-3333-4444-555555555555
```
+  Untuk detail API, lihat [DescribeCertificateAuthorityAuditReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/describe-certificate-authority-audit-report.html)di *Referensi AWS CLI Perintah*. 

### `describe-certificate-authority`
<a name="acm-pca_DescribeCertificateAuthority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-certificate-authority`.

**AWS CLI**  
**Untuk menggambarkan otoritas sertifikat swasta**  
`describe-certificate-authority`Perintah berikut mencantumkan informasi tentang CA pribadi yang diidentifikasi oleh ARN.  

```
aws acm-pca describe-certificate-authority --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012
```
+  Untuk detail API, lihat [DescribeCertificateAuthority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/describe-certificate-authority.html)di *Referensi AWS CLI Perintah*. 

### `get-certificate-authority-certificate`
<a name="acm-pca_GetCertificateAuthorityCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-certificate-authority-certificate`.

**AWS CLI**  
**Untuk mengambil sertifikat otoritas sertifikat (CA)**  
`get-certificate-authority-certificate`Perintah berikut mengambil sertifikat dan rantai sertifikat untuk CA pribadi yang ditentukan oleh ARN.  

```
aws acm-pca get-certificate-authority-certificate --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012 --output text
```
+  Untuk detail API, lihat [GetCertificateAuthorityCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/get-certificate-authority-certificate.html)di *Referensi AWS CLI Perintah*. 

### `get-certificate-authority-csr`
<a name="acm-pca_GetCertificateAuthorityCsr_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-certificate-authority-csr`.

**AWS CLI**  
**Untuk mengambil permintaan penandatanganan sertifikat untuk otoritas sertifikat**  
`get-certificate-authority-csr`Perintah berikut mengambil CSR untuk CA pribadi yang ditentukan oleh ARN.  

```
aws acm-pca get-certificate-authority-csr --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012 --output text
```
+  Untuk detail API, lihat [GetCertificateAuthorityCsr](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/get-certificate-authority-csr.html)di *Referensi AWS CLI Perintah*. 

### `get-certificate`
<a name="acm-pca_GetCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-certificate`.

**AWS CLI**  
**Untuk mengambil sertifikat yang dikeluarkan**  
`get-certificate`Contoh berikut mengambil sertifikat dari CA pribadi yang ditentukan.  

```
aws acm-pca get-certificate \
    --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012 \
    --certificate-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012/certificate/6707447683a9b7f4055627ffd55cebcc \
    --output text
```
Output:  

```
-----BEGIN CERTIFICATE-----
MIIEDzCCAvegAwIBAgIRAJuJ8f6ZVYL7gG/rS3qvrZMwDQYJKoZIhvcNAQELBQAw
cTELMAkGA1UEBhMCVVMxEzARBgNVBAgMCldhc2hpbmd0b24xEDAOBgNVBAcMB1Nl
    ....certificate body truncated for brevity....
tKCSglgZZrd4FdLw1EkGm+UVXnodwMtJEQyy3oTfZjURPIyyaqskTu/KSS7YDjK0
KQNy73D6LtmdOEbAyq10XiDxqY41lvKHJ1eZrPaBmYNABxU=
-----END CERTIFICATE---- -----BEGIN CERTIFICATE-----
MIIDrzCCApegAwIBAgIRAOskdzLvcj1eShkoyEE693AwDQYJKoZIhvcNAQELBQAw
cTELMAkGA1UEBhMCVVMxEzARBgNVBAgMCldhc2hpbmd0b24xEDAOBgNVBAcMB1Nl
    ...certificate body truncated for brevity....
kdRGB6P2hpxstDOUIwAoCbhoaWwfA4ybJznf+jOQhAziNlRdKQRR8nODWpKt7H9w
dJ5nxsTk/fniJz86Ddtp6n8s82wYdkN3cVffeK72A9aTCOU=
-----END CERTIFICATE-----
```
Bagian pertama dari output adalah sertifikat itu sendiri. Bagian kedua adalah rantai sertifikat yang berantai ke sertifikat CA root. Perhatikan bahwa ketika Anda menggunakan `--output text` opsi, `TAB` karakter disisipkan di antara dua bagian sertifikat (yang merupakan penyebab teks indentasi). Jika Anda bermaksud untuk mengambil output ini dan mengurai sertifikat dengan alat lain, Anda mungkin perlu menghapus `TAB` karakter sehingga diproses dengan benar.  
+  Untuk detail API, lihat [GetCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/get-certificate.html)di *Referensi AWS CLI Perintah*. 

### `import-certificate-authority-certificate`
<a name="acm-pca_ImportCertificateAuthorityCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-certificate-authority-certificate`.

**AWS CLI**  
**Untuk mengimpor sertifikat otoritas sertifikat Anda ke ACM PCA**  
`import-certificate-authority-certificate`Perintah berikut mengimpor sertifikat CA pribadi yang ditandatangani untuk CA yang ditentukan oleh ARN ke ACM PCA.  

```
aws acm-pca import-certificate-authority-certificate --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012 --certificate file://C:\ca_cert.pem --certificate-chain file://C:\ca_cert_chain.pem
```
+  Untuk detail API, lihat [ImportCertificateAuthorityCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/import-certificate-authority-certificate.html)di *Referensi AWS CLI Perintah*. 

### `issue-certificate`
<a name="acm-pca_IssueCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`issue-certificate`.

**AWS CLI**  
**Untuk mengeluarkan sertifikat pribadi**  
`issue-certificate`Perintah berikut menggunakan CA pribadi yang ditentukan oleh ARN untuk mengeluarkan sertifikat pribadi.  

```
aws acm-pca issue-certificate --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012 --csr file://C:\cert_1.csr --signing-algorithm "SHA256WITHRSA" --validity Value=365,Type="DAYS" --idempotency-token 1234
```
+  Untuk detail API, lihat [IssueCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/issue-certificate.html)di *Referensi AWS CLI Perintah*. 

### `list-certificate-authorities`
<a name="acm-pca_ListCertificateAuthorities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-certificate-authorities`.

**AWS CLI**  
**Untuk mendaftarkan otoritas sertifikat pribadi Anda**  
`list-certificate-authorities`Perintah berikut mencantumkan informasi tentang semua pribadi CAs di akun Anda.  

```
aws acm-pca list-certificate-authorities --max-results 10
```
+  Untuk detail API, lihat [ListCertificateAuthorities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/list-certificate-authorities.html)di *Referensi AWS CLI Perintah*. 

### `list-tags`
<a name="acm-pca_ListTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags`.

**AWS CLI**  
**Untuk membuat daftar tag untuk otoritas sertifikat Anda**  
`list-tags`Perintah berikut mencantumkan tag yang terkait dengan CA pribadi yang ditentukan oleh ARN.  

```
aws acm-pca list-tags --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/123455678-1234-1234-1234-123456789012 --max-results 10
```
+  Untuk detail API, lihat [ListTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/list-tags.html)di *Referensi AWS CLI Perintah*. 

### `revoke-certificate`
<a name="acm-pca_RevokeCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-certificate`.

**AWS CLI**  
**Untuk mencabut sertifikat pribadi**  
`revoke-certificate`Perintah berikut mencabut sertifikat pribadi dari CA yang diidentifikasi oleh ARN.  

```
aws acm-pca revoke-certificate --certificate-authority-arn arn:aws:acm-pca:us-west-2:1234567890:certificate-authority/12345678-1234-1234-1234-123456789012 --certificate-serial 67:07:44:76:83:a9:b7:f4:05:56:27:ff:d5:5c:eb:cc --revocation-reason "KEY_COMPROMISE"
```
+  Untuk detail API, lihat [RevokeCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/revoke-certificate.html)di *Referensi AWS CLI Perintah*. 

### `tag-certificate-authority`
<a name="acm-pca_TagCertificateAuthority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-certificate-authority`.

**AWS CLI**  
**Untuk melampirkan tag ke otoritas sertifikat pribadi**  
`tag-certificate-authority`Perintah berikut melampirkan satu atau beberapa tag ke CA pribadi Anda.  

```
aws acm-pca tag-certificate-authority --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012 --tags Key=Admin,Value=Alice
```
+  Untuk detail API, lihat [TagCertificateAuthority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/tag-certificate-authority.html)di *Referensi AWS CLI Perintah*. 

### `untag-certificate-authority`
<a name="acm-pca_UntagCertificateAuthority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-certificate-authority`.

**AWS CLI**  
**Untuk menghapus satu atau beberapa tag dari otoritas sertifikat pribadi Anda**  
`untag-certificate-authority`Perintah berikut menghapus tag dari CA pribadi yang diidentifikasi oleh ARN.  

```
aws acm-pca untag-certificate-authority --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012 --tags Key=Purpose,Value=Website
```
+  Untuk detail API, lihat [UntagCertificateAuthority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/untag-certificate-authority.html)di *Referensi AWS CLI Perintah*. 

### `update-certificate-authority`
<a name="acm-pca_UpdateCertificateAuthority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-certificate-authority`.

**AWS CLI**  
**Untuk memperbarui konfigurasi otoritas sertifikat pribadi Anda**  
`update-certificate-authority`Perintah berikut memperbarui status dan konfigurasi CA pribadi yang diidentifikasi oleh ARN.  

```
aws acm-pca update-certificate-authority --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-1232456789012 --revocation-configuration file://C:\revoke_config.txt --status "DISABLED"
```
+  Untuk detail API, lihat [UpdateCertificateAuthority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/acm-pca/update-certificate-authority.html)di *Referensi AWS CLI Perintah*. 

# AWS Proton contoh menggunakan AWS CLI
<a name="cli_2_proton_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Proton.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `cancel-service-instance-deployment`
<a name="proton_CancelServiceInstanceDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-service-instance-deployment`.

**AWS CLI**  
**Untuk membatalkan penerapan instance layanan**  
`cancel-service-instance-deployment`Contoh berikut membatalkan penerapan instance layanan.  

```
aws proton cancel-service-instance-deployment \
    --service-instance-name "instance-one" \
    --service-name "simple-svc"
```
Output:  

```
{
    "serviceInstance": {
        "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc/service-instance/instance-one",
        "createdAt": "2021-04-02T21:29:59.962000+00:00",
        "deploymentStatus": "CANCELLING",
        "environmentName": "simple-env",
        "lastDeploymentAttemptedAt": "2021-04-02T21:45:15.406000+00:00",
        "lastDeploymentSucceededAt": "2021-04-02T21:38:00.823000+00:00",
        "name": "instance-one",
        "serviceName": "simple-svc",
        "spec": "proton: ServiceSpec\npipeline:\n  my_sample_pipeline_optional_input: abc\n  my_sample_pipeline_required_input: '123'\ninstances:\n- name: my-instance\n  environment: MySimpleEnv\n  spec:\n    my_sample_service_instance_optional_input: def\n    my_sample_service_instance_required_input: '456'\n- name: my-other-instance\n  environment: MySimpleEnv\n  spec:\n    my_sample_service_instance_required_input: '789'\n",
        "templateMajorVersion": "1",
        "templateMinorVersion": "1",
        "templateName": "svc-simple"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui instance layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-instance-update.html) *di Panduan Administrator AWS Proton* atau [Memperbarui instance layanan](https://docs.aws.amazon.com/proton/latest/userguide/ug-svc-instance-update.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [CancelServiceInstanceDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/cancel-service-instance-deployment.html)di *Referensi AWS CLI Perintah*. 

### `cancel-service-pipeline-deployment`
<a name="proton_CancelServicePipelineDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-service-pipeline-deployment`.

**AWS CLI**  
**Untuk membatalkan penerapan saluran pipa layanan**  
`cancel-service-pipeline-deployment`Contoh berikut membatalkan penerapan pipeline layanan.  

```
aws proton cancel-service-pipeline-deployment \
    --service-name "simple-svc"
```
Output:  

```
{
    "pipeline": {
        "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc/pipeline",
        "createdAt": "2021-04-02T21:29:59.962000+00:00",
        "deploymentStatus": "CANCELLING",
        "lastDeploymentAttemptedAt": "2021-04-02T22:02:45.095000+00:00",
        "lastDeploymentSucceededAt": "2021-04-02T21:39:28.991000+00:00",
        "templateMajorVersion": "1",
        "templateMinorVersion": "1",
        "templateName": "svc-simple"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui pipeline layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-pipeline-update.html) *di Panduan Administrator AWS Proton* atau [Perbarui saluran layanan](https://docs.aws.amazon.com/proton/latest/userguide/ag-svc-pipeline-update.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [CancelServicePipelineDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/cancel-service-pipeline-deployment.html)di *Referensi AWS CLI Perintah*. 

### `create-service`
<a name="proton_CreateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service`.

**AWS CLI**  
**Untuk membuat layanan**  
`create-service`Contoh berikut membuat layanan dengan pipa layanan.  

```
aws proton create-service \
    --name "MySimpleService" \
    --template-name "fargate-service" \
    --template-major-version "1" \
    --branch-name "mainline" \
    --repository-connection-arn "arn:aws:codestar-connections:region-id:account-id:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111" \
    --repository-id "myorg/myapp" \
    --spec file://spec.yaml
```
Isi dari `spec.yaml`:  

```
proton: ServiceSpec

pipeline:
    my_sample_pipeline_required_input: "hello"
    my_sample_pipeline_optional_input: "bye"

instances:
    - name: "acme-network-dev"
        environment: "ENV_NAME"
        spec:
            my_sample_service_instance_required_input: "hi"
            my_sample_service_instance_optional_input: "ho"
```
Output:  

```
{
    "service": {
        "arn": "arn:aws:proton:region-id:123456789012:service/MySimpleService",
        "createdAt": "2020-11-18T19:50:27.460000+00:00",
        "lastModifiedAt": "2020-11-18T19:50:27.460000+00:00",
        "name": "MySimpleService",
        "repositoryConnectionArn": "arn:aws:codestar-connections:region-id:123456789012connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "repositoryId": "myorg/myapp",
        "status": "CREATE_IN_PROGRESS",
        "templateName": "fargate-service"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-create-svc.html) *di Panduan Administrator AWS Proton* dan [Membuat layanan](https://docs.aws.amazon.com/proton/latest/userguide/ug-svc-create.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [CreateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/create-service.html)di *Referensi AWS CLI Perintah*. 

### `delete-service`
<a name="proton_DeleteService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service`.

**AWS CLI**  
**Untuk menghapus layanan**  
`delete-service`Contoh berikut menghapus layanan.  

```
aws proton delete-service \
    --name "simple-svc"
```
Output:  

```
{
    "service": {
        "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc",
        "branchName": "mainline",
        "createdAt": "2020-11-28T22:40:50.512000+00:00",
        "description": "Edit by updating description",
        "lastModifiedAt": "2020-11-29T00:30:39.248000+00:00",
        "name": "simple-svc",
        "repositoryConnectionArn": "arn:aws:codestar-connections:region-id:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "repositoryId": "myorg/myapp",
        "status": "DELETE_IN_PROGRESS",
        "templateName": "fargate-service"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-delete.html) *di Panduan Administrator AWS Proton*.  
+  Untuk detail API, lihat [DeleteService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/delete-service.html)di *Referensi AWS CLI Perintah*. 

### `get-service-instance`
<a name="proton_GetServiceInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-instance`.

**AWS CLI**  
**Untuk mendapatkan detail instance layanan**  
`get-service-instance`Contoh berikut mendapatkan data detail untuk instance layanan.  

```
aws proton get-service-instance \
    --name "instance-one" \
    --service-name "simple-svc"
```
Output:  

```
{
    "serviceInstance": {
        "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc/service-instance/instance-one",
        "createdAt": "2020-11-28T22:40:50.512000+00:00",
        "deploymentStatus": "SUCCEEDED",
        "environmentName": "simple-env",
        "lastDeploymentAttemptedAt": "2020-11-28T22:40:50.512000+00:00",
        "lastDeploymentSucceededAt": "2020-11-28T22:40:50.512000+00:00",
        "name": "instance-one",
        "serviceName": "simple-svc",
        "spec": "proton: ServiceSpec\npipeline:\n  my_sample_pipeline_optional_input: hello world\n  my_sample_pipeline_required_input: pipeline up\ninstances:\n- name: instance-one\n  environment: my-simple-env\n  spec:\n    my_sample_service_instance_optional_input: Ola\n    my_sample_service_instance_required_input: Ciao\n",
        "templateMajorVersion": "1",
        "templateMinorVersion": "0",
        "templateName": "svc-simple"
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat data layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-view.html) *di Panduan Administrator AWS Proton* atau [Melihat data layanan](https://docs.aws.amazon.com/proton/latest/userguide/ug-svc-view.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [GetServiceInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/get-service-instance.html)di *Referensi AWS CLI Perintah*. 

### `get-service`
<a name="proton_GetService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service`.

**AWS CLI**  
**Untuk mendapatkan detail layanan**  
`get-service`Contoh berikut mendapatkan data detail untuk suatu layanan.  

```
aws proton get-service \
    --name "simple-svc"
```
Output:  

```
{
    "service": {
        "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc",
        "branchName": "mainline",
        "createdAt": "2020-11-28T22:40:50.512000+00:00",
        "lastModifiedAt": "2020-11-28T22:44:51.207000+00:00",
        "name": "simple-svc",
        "pipeline": {
            "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc/pipeline/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "createdAt": "2020-11-28T22:40:50.512000+00:00",
            "deploymentStatus": "SUCCEEDED",
            "lastDeploymentAttemptedAt": "2020-11-28T22:40:50.512000+00:00",
            "lastDeploymentSucceededAt": "2020-11-28T22:40:50.512000+00:00",
            "spec": "proton: ServiceSpec\npipeline:\n  my_sample_pipeline_required_input: hello\n  my_sample_pipeline_optional_input: bye\ninstances:\n- name: instance-svc-simple\n  environment: my-simple-env\n  spec:\n    my_sample_service_instance_required_input: hi\n    my_sample_service_instance_optional_input: ho\n",
            "templateMajorVersion": "1",
            "templateMinorVersion": "1",
            "templateName": "svc-simple"
        },
        "repositoryConnectionArn": "arn:aws:codestar-connections:region-id:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "repositoryId": "myorg/myapp",
        "spec": "proton: ServiceSpec\npipeline:\n  my_sample_pipeline_required_input: hello\n  my_sample_pipeline_optional_input: bye\ninstances:\n- name: instance-svc-simple\n  environment: my-simple-env\n  spec:\n    my_sample_service_instance_required_input: hi\n    my_sample_service_instance_optional_input: ho\n",
        "status": "ACTIVE",
        "templateName": "svc-simple"
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat data layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-view.html) *di Panduan Administrator AWS Proton* atau [Melihat data layanan](https://docs.aws.amazon.com/proton/latest/userguide/ug-svc-view.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [GetService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/get-service.html)di *Referensi AWS CLI Perintah*. 

### `list-service-instances`
<a name="proton_ListServiceInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-instances`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua instance layanan**  
`list-service-instances`Contoh berikut mencantumkan instance layanan.  

```
aws proton list-service-instances
```
Output:  

```
{
    "serviceInstances": [
        {
            "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc/service-instance/instance-one",
            "createdAt": "2020-11-28T22:40:50.512000+00:00",
            "deploymentStatus": "SUCCEEDED",
            "environmentArn": "arn:aws:proton:region-id:123456789012:environment/simple-env",
            "lastDeploymentAttemptedAt": "2020-11-28T22:40:50.512000+00:00",
            "lastDeploymentSucceededAt": "2020-11-28T22:40:50.512000+00:00",
            "name": "instance-one",
            "serviceName": "simple-svc",
            "templateMajorVersion": "1",
            "templateMinorVersion": "0",
            "templateName": "fargate-service"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat data instance layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-instance-view.html) *di Panduan Administrator AWS Proton* atau [Melihat data instance layanan](https://docs.aws.amazon.com/proton/latest/userguide/ag-svc-instance-view.html) di Panduan Pengguna * AWS Proton*.  
**Contoh 2: Untuk daftar contoh layanan yang ditentukan**  
`get-service-instance`Contoh berikut mendapat instance layanan.  

```
aws proton get-service-instance \
    --name "instance-one" \
    --service-name "simple-svc"
```
Output:  

```
{
    "serviceInstance": {
        "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc/service-instance/instance-one",
        "createdAt": "2020-11-28T22:40:50.512000+00:00",
        "deploymentStatus": "SUCCEEDED",
        "environmentName": "simple-env",
        "lastDeploymentAttemptedAt": "2020-11-28T22:40:50.512000+00:00",
        "lastDeploymentSucceededAt": "2020-11-28T22:40:50.512000+00:00",
        "name": "instance-one",
        "serviceName": "simple-svc",
        "spec": "proton: ServiceSpec\npipeline:\n  my_sample_pipeline_optional_input: hello world\n  my_sample_pipeline_required_input: pipeline up\ninstances:\n- name: instance-one\n  environment: my-simple-env\n  spec:\n    my_sample_service_instance_optional_input: Ola\n    my_sample_service_instance_required_input: Ciao\n",
        "templateMajorVersion": "1",
        "templateMinorVersion": "0",
        "templateName": "svc-simple"
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat data instance layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-instance-view.html) *di Panduan Administrator AWS Proton* atau [Melihat data instance layanan](https://docs.aws.amazon.com/proton/latest/userguide/ag-svc-instance-view.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [ListServiceInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/list-service-instances.html)di *Referensi AWS CLI Perintah*. 

### `update-service-instance`
<a name="proton_UpdateServiceInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service-instance`.

**AWS CLI**  
**Untuk memperbarui instance layanan ke versi minor baru**  
`update-service-instance`Contoh berikut memperbarui instance layanan ke versi minor baru dari template layanannya yang menambahkan instance baru bernama "my-other-instance" dengan input baru yang diperlukan.  

```
aws proton update-service-instance \
    --service-name "simple-svc" \
    --spec "file://service-spec.yaml " \
    --template-major-version "1" \
    --template-minor-version "1" \
    --deployment-type "MINOR_VERSION" \
    --name "instance-one"
```
Isi dari `service-spec.yaml`:  

```
proton: ServiceSpec
pipeline:
    my_sample_pipeline_optional_input: "abc"
    my_sample_pipeline_required_input: "123"
instances:
    - name: "instance-one"
        environment: "simple-env"
        spec:
            my_sample_service_instance_optional_input: "def"
            my_sample_service_instance_required_input: "456"
    - name: "my-other-instance"
        environment: "simple-env"
        spec:
            my_sample_service_instance_required_input: "789"
```
Output:  

```
{
    "serviceInstance": {
        "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc/service-instance/instance-one",
        "createdAt": "2021-04-02T21:29:59.962000+00:00",
        "deploymentStatus": "IN_PROGRESS",
        "environmentName": "arn:aws:proton:region-id:123456789012:environment/simple-env",
        "lastDeploymentAttemptedAt": "2021-04-02T21:38:00.823000+00:00",
        "lastDeploymentSucceededAt": "2021-04-02T21:29:59.962000+00:00",
        "name": "instance-one",
        "serviceName": "simple-svc",
        "templateMajorVersion": "1",
        "templateMinorVersion": "0",
        "templateName": "svc-simple"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui instance layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-instance-update.html) *di Panduan Administrator AWS Proton* atau [Memperbarui instance layanan](https://docs.aws.amazon.com/proton/latest/userguide/ag-svc-instance-update.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [UpdateServiceInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/update-service-instance.html)di *Referensi AWS CLI Perintah*. 

### `update-service-pipeline`
<a name="proton_UpdateServicePipeline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service-pipeline`.

**AWS CLI**  
**Untuk memperbarui pipeline layanan**  
`update-service-pipeline`Contoh berikut memperbarui pipeline layanan ke versi minor baru dari template layanannya.  

```
aws proton update-service-pipeline \
    --service-name "simple-svc" \
    --spec "file://service-spec.yaml" \
    --template-major-version "1" \
    --template-minor-version "1" \
    --deployment-type "MINOR_VERSION"
```
Output:  

```
{
    "pipeline": {
        "arn": "arn:aws:proton:region-id:123456789012:service/simple-svc/pipeline/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "createdAt": "2021-04-02T21:29:59.962000+00:00",
        "deploymentStatus": "IN_PROGRESS",
        "lastDeploymentAttemptedAt": "2021-04-02T21:39:28.991000+00:00",
        "lastDeploymentSucceededAt": "2021-04-02T21:29:59.962000+00:00",
        "spec": "proton: ServiceSpec\n\npipeline:\n  my_sample_pipeline_optional_input: \"abc\"\n  my_sample_pipeline_required_input: \"123\"\n\ninstances:\n  - name: \"my-instance\"\n    environment: \"MySimpleEnv\"\n    spec:\n      my_sample_service_instance_optional_input: \"def\"\n      my_sample_service_instance_required_input: \"456\"\n  - name: \"my-other-instance\"\n    environment: \"MySimpleEnv\"\n    spec:\n      my_sample_service_instance_required_input: \"789\"\n",
        "templateMajorVersion": "1",
        "templateMinorVersion": "0",
        "templateName": "svc-simple"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui pipeline layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-pipeline-update.html) *di Panduan Administrator AWS Proton* atau [Perbarui saluran layanan](https://docs.aws.amazon.com/proton/latest/userguide/ag-svc-pipeline-update.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [UpdateServicePipeline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/update-service-pipeline.html)di *Referensi AWS CLI Perintah*. 

### `update-service`
<a name="proton_UpdateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service`.

**AWS CLI**  
**Untuk memperbarui layanan**  
`update-service`Contoh berikut mengedit deskripsi layanan.  

```
aws proton update-service \
    --name "MySimpleService" \
    --description "Edit by updating description"
```
Output:  

```
{
    "service": {
        "arn": "arn:aws:proton:region-id:123456789012:service/MySimpleService",
        "branchName": "mainline",
        "createdAt": "2021-03-12T22:39:42.318000+00:00",
        "description": "Edit by updating description",
        "lastModifiedAt": "2021-03-12T22:44:21.975000+00:00",
        "name": "MySimpleService",
        "repositoryConnectionArn": "arn:aws:codestar-connections:region-id:123456789012:connection/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "repositoryId": "myorg/myapp",
        "status": "ACTIVE",
        "templateName": "fargate-service"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit layanan](https://docs.aws.amazon.com/proton/latest/adminguide/ag-svc-update.html) *di Panduan Administrator AWS Proton* atau [Mengedit layanan](https://docs.aws.amazon.com/proton/latest/userguide/ug-svc-update.html) di Panduan Pengguna * AWS Proton*.  
+  Untuk detail API, lihat [UpdateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/proton/update-service.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon RDS menggunakan AWS CLI
<a name="cli_2_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon RDS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-option-to-option-group`
<a name="rds_AddOptionToOptionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-option-to-option-group`.

**AWS CLI**  
**Untuk menambahkan opsi ke grup opsi**  
`add-option-to-option-group`Contoh berikut menambahkan opsi ke grup opsi yang ditentukan.  

```
aws rds add-option-to-option-group \
    --option-group-name myoptiongroup \
    --options OptionName=OEM,Port=5500,DBSecurityGroupMemberships=default \
    --apply-immediately
```
Output:  

```
{
    "OptionGroup": {
        "OptionGroupName": "myoptiongroup",
        "OptionGroupDescription": "Test Option Group",
        "EngineName": "oracle-ee",
        "MajorEngineVersion": "12.1",
        "Options": [
            {
                "OptionName": "Timezone",
                "OptionDescription": "Change time zone",
                "Persistent": true,
                "Permanent": false,
                "OptionSettings": [
                    {
                        "Name": "TIME_ZONE",
                        "Value": "Australia/Sydney",
                        "DefaultValue": "UTC",
                        "Description": "Specifies the timezone the user wants to change the system time to",
                        "ApplyType": "DYNAMIC",
                        "DataType": "STRING",
                        "AllowedValues": "Africa/Cairo,Africa/Casablanca,Africa/Harare,Africa/Lagos,Africa/Luanda,Africa/Monrovia,Africa/Nairobi,Africa/Tripoli,Africa/Windhoek,America/Araguaina,America/Argentina/Buenos_Aires,America/Asuncion,America/Bogota,America/Caracas,America/Chicago,America/Chihuahua,America/Cuiaba,America/Denver,America/Detroit,America/Fortaleza,America/Godthab,America/Guatemala,America/Halifax,America/Lima,America/Los_Angeles,America/Manaus,America/Matamoros,America/Mexico_City,America/Monterrey,America/Montevideo,America/New_York,America/Phoenix,America/Santiago,America/Sao_Paulo,America/Tijuana,America/Toronto,Asia/Amman,Asia/Ashgabat,Asia/Baghdad,Asia/Baku,Asia/Bangkok,Asia/Beirut,Asia/Calcutta,Asia/Damascus,Asia/Dhaka,Asia/Hong_Kong,Asia/Irkutsk,Asia/Jakarta,Asia/Jerusalem,Asia/Kabul,Asia/Karachi,Asia/Kathmandu,Asia/Kolkata,Asia/Krasnoyarsk,Asia/Magadan,Asia/Manila,Asia/Muscat,Asia/Novosibirsk,Asia/Rangoon,Asia/Riyadh,Asia/Seoul,Asia/Shanghai,Asia/Singapore,Asia/Taipei,Asia/Tehran,Asia/Tokyo,Asia/Ulaanbaatar,Asia/Vladivostok,Asia/Yakutsk,Asia/Yerevan,Atlantic/Azores,Atlantic/Cape_Verde,Australia/Adelaide,Australia/Brisbane,Australia/Darwin,Australia/Eucla,Australia/Hobart,Australia/Lord_Howe,Australia/Perth,Australia/Sydney,Brazil/DeNoronha,Brazil/East,Canada/Newfoundland,Canada/Saskatchewan,Etc/GMT-3,Europe/Amsterdam,Europe/Athens,Europe/Berlin,Europe/Dublin,Europe/Helsinki,Europe/Kaliningrad,Europe/London,Europe/Madrid,Europe/Moscow,Europe/Paris,Europe/Prague,Europe/Rome,Europe/Sarajevo,Pacific/Apia,Pacific/Auckland,Pacific/Chatham,Pacific/Fiji,Pacific/Guam,Pacific/Honolulu,Pacific/Kiritimati,Pacific/Marquesas,Pacific/Samoa,Pacific/Tongatapu,Pacific/Wake,US/Alaska,US/Central,US/East-Indiana,US/Eastern,US/Pacific,UTC",
                        "IsModifiable": true,
                        "IsCollection": false
                    }
                ],
                "DBSecurityGroupMemberships": [],
                "VpcSecurityGroupMemberships": []
            },
            {
                "OptionName": "OEM",
                "OptionDescription": "Oracle 12c EM Express",
                "Persistent": false,
                "Permanent": false,
                "Port": 5500,
                "OptionSettings": [],
                "DBSecurityGroupMemberships": [
                    {
                        "DBSecurityGroupName": "default",
                        "Status": "authorized"
                    }
                ],
                "VpcSecurityGroupMemberships": []
            }
        ],
        "AllowsVpcAndNonVpcInstanceMemberships": false,
        "OptionGroupArn": "arn:aws:rds:us-east-1:123456789012:og:myoptiongroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan Opsi ke Grup Opsi](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithOptionGroups.html#USER_WorkingWithOptionGroups.AddOption) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [AddOptionToOptionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/add-option-to-option-group.html)di *Referensi AWS CLI Perintah*. 

### `add-role-to-db-cluster`
<a name="rds_AddRoleToDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-role-to-db-cluster`.

**AWS CLI**  
**Untuk mengaitkan peran AWS Identity and Access Management (IAM) dengan cluster DB**  
`add-role-to-db-cluster`Contoh berikut mengaitkan peran dengan cluster DB.  

```
aws rds add-role-to-db-cluster \
    --db-cluster-identifier mydbcluster \
    --role-arn arn:aws:iam::123456789012:role/RDSLoadFromS3
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Mengaitkan peran IAM dengan kluster DB MySQL Amazon Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/AuroraMySQL.Integrating.Authorizing.IAM.AddRoleToDBCluster.html) di Panduan Pengguna Amazon Aurora.*  
+  Untuk detail API, lihat [AddRoleToDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/add-role-to-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `add-role-to-db-instance`
<a name="rds_AddRoleToDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-role-to-db-instance`.

**AWS CLI**  
**Untuk mengaitkan peran AWS Identity and Access Management (IAM) dengan instans DB**  
`add-role-to-db-instance`Contoh berikut menambahkan peran ke instance Oracle DB bernama`test-instance`.  

```
aws rds add-role-to-db-instance \
    --db-instance-identifier test-instance \
    --feature-name S3_INTEGRATION \
    --role-arn arn:aws:iam::111122223333:role/rds-s3-integration-role
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Prasyarat untuk Integrasi Oracle Amazon RDS dengan Amazon S3 di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/oracle-s3-integration.html#oracle-s3-integration.preparing) Amazon RDS.*  
+  Untuk detail API, lihat [AddRoleToDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/add-role-to-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `add-source-identifier-to-subscription`
<a name="rds_AddSourceIdentifierToSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-source-identifier-to-subscription`.

**AWS CLI**  
**Untuk menambahkan pengenal sumber ke langganan**  
`add-source-identifier`Contoh berikut menambahkan pengenal sumber lain ke langganan yang ada.  

```
aws rds add-source-identifier-to-subscription \
    --subscription-name my-instance-events \
    --source-identifier test-instance-repl
```
Output:  

```
{
    "EventSubscription": {
        "SubscriptionCreationTime": "Tue Jul 31 23:22:01 UTC 2018",
        "CustSubscriptionId": "my-instance-events",
        "EventSubscriptionArn": "arn:aws:rds:us-east-1:123456789012:es:my-instance-events",
        "Enabled": false,
        "Status": "modifying",
        "EventCategoriesList": [
            "backup",
            "recovery"
        ],
        "CustomerAwsId": "123456789012",
        "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:interesting-events",
        "SourceType": "db-instance",
        "SourceIdsList": [
            "test-instance",
            "test-instance-repl"
        ]
    }
}
```
+  Untuk detail API, lihat [AddSourceIdentifierToSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/add-source-identifier-to-subscription.html)di *Referensi AWS CLI Perintah*. 

### `add-tags-to-resource`
<a name="rds_AddTagsToResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya**  
`add-tags-to-resource`Contoh berikut menambahkan tag ke database RDS.  

```
aws rds add-tags-to-resource \
    --resource-name arn:aws:rds:us-east-1:123456789012:db:database-mysql \
    --tags "[{\"Key\": \"Name\",\"Value\": \"MyDatabase\"},{\"Key\": \"Environment\",\"Value\": \"test\"}]"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_Tagging.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [AddTagsToResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/add-tags-to-resource.html)di *Referensi AWS CLI Perintah*. 

### `apply-pending-maintenance-action`
<a name="rds_ApplyPendingMaintenanceAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`apply-pending-maintenance-action`.

**AWS CLI**  
**Untuk menerapkan tindakan pemeliharaan yang tertunda**  
`apply-pending-maintenance-action`Contoh berikut menerapkan tindakan pemeliharaan tertunda untuk cluster DB.  

```
aws rds apply-pending-maintenance-action \
    --resource-identifier arn:aws:rds:us-east-1:123456789012:cluster:my-db-cluster \
    --apply-action system-update \
    --opt-in-type immediate
```
Output:  

```
{
    "ResourcePendingMaintenanceActions": {
        "ResourceIdentifier": "arn:aws:rds:us-east-1:123456789012:cluster:my-db-cluster",
        "PendingMaintenanceActionDetails": [
            {
                "Action": "system-update",
                "OptInStatus": "immediate",
                "CurrentApplyDate": "2021-01-23T01:07:36.100Z",
                "Description": "Upgrade to Aurora PostgreSQL 3.3.2"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memelihara instans DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_UpgradeDBInstance.Maintenance.html) di *Panduan Pengguna Amazon RDS* dan [Memelihara klaster DB Amazon Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_UpgradeDBInstance.Maintenance.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [ApplyPendingMaintenanceAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/apply-pending-maintenance-action.html)di *Referensi AWS CLI Perintah*. 

### `authorize-db-security-group-ingress`
<a name="rds_AuthorizeDbSecurityGroupIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`authorize-db-security-group-ingress`.

**AWS CLI**  
**Untuk mengaitkan peran AWS Identity and Access Management (IAM) dengan instans DB**  
`authorize-db-security-group-ingress`Contoh berikut mengkonfigurasi grup keamanan default dengan aturan masuk untuk rentang IP CIDR 192.0.2.0/24.  

```
aws rds authorize-db-security-group-ingress \
    --db-security-group-name default \
    --cidrip 192.0.2.0/24
```
Output:  

```
{
    "DBSecurityGroup": {
        "OwnerId": "123456789012",
        "DBSecurityGroupName": "default",
        "DBSecurityGroupDescription": "default",
        "EC2SecurityGroups": [],
        "IPRanges": [
            {
                "Status": "authorizing",
                "CIDRIP": "192.0.2.0/24"
            }
        ],
        "DBSecurityGroupArn": "arn:aws:rds:us-east-1:111122223333:secgrp:default"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengotorisasi Akses Jaringan ke Grup Keamanan DB dari Rentang IP](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithSecurityGroups.html#USER_WorkingWithSecurityGroups.Authorizing) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [AuthorizeDbSecurityGroupIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/authorize-db-security-group-ingress.html)di *Referensi AWS CLI Perintah*. 

### `backtrack-db-cluster`
<a name="rds_BacktrackDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`backtrack-db-cluster`.

**AWS CLI**  
**Untuk mundur cluster Aurora DB**  
`backtrack-db-cluster`Contoh berikut memutarbalikkan cluster sampel cluster DB yang ditentukan ke 19 Maret 2018, pukul 10 pagi.  

```
aws rds backtrack-db-cluster --db-cluster-identifier sample-cluster --backtrack-to 2018-03-19T10:00:00+00:00
```
Perintah ini mengeluarkan blok JSON yang mengakui perubahan pada sumber daya RDS.  
+  Untuk detail API, lihat [BacktrackDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/backtrack-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `cancel-export-task`
<a name="rds_CancelExportTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-export-task`.

**AWS CLI**  
**Untuk membatalkan ekspor snapshot ke Amazon S3**  
`cancel-export-task`Contoh berikut membatalkan tugas ekspor yang sedang berlangsung yang mengekspor snapshot ke Amazon S3.  

```
aws rds cancel-export-task \
    --export-task-identifier my-s3-export-1
```
Output:  

```
{
    "ExportTaskIdentifier": "my-s3-export-1",
    "SourceArn": "arn:aws:rds:us-east-1:123456789012:snapshot:publisher-final-snapshot",
    "SnapshotTime": "2019-03-24T20:01:09.815Z",
    "S3Bucket": "amzn-s3-demo-bucket",
    "S3Prefix": "",
    "IamRoleArn": "arn:aws:iam::123456789012:role/service-role/export-snap-S3-role",
    "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/abcd0000-7bfd-4594-af38-aabbccddeeff",
    "Status": "CANCELING",
    "PercentProgress": 0,
    "TotalExtractedDataInGB": 0
}
```
*Untuk informasi selengkapnya, lihat [Membatalkan tugas ekspor snapshot](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ExportSnapshot.html#USER_ExportSnapshot.Canceling) di *Panduan Pengguna Amazon RDS atau [Membatalkan tugas ekspor snapshot di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_ExportSnapshot.html#USER_ExportSnapshot.Canceling) Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [CancelExportTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/cancel-export-task.html)di *Referensi AWS CLI Perintah*. 

### `copy-db-cluster-parameter-group`
<a name="rds_CopyDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk menyalin grup parameter cluster DB**  
`copy-db-cluster-parameter-group`Contoh berikut membuat salinan kelompok parameter cluster DB.  

```
aws rds copy-db-cluster-parameter-group \
    --source-db-cluster-parameter-group-identifier mydbclusterpg \
    --target-db-cluster-parameter-group-identifier mydbclusterpgcopy \
    --target-db-cluster-parameter-group-description "Copy of mydbclusterpg parameter group"
```
Output:  

```
{
    "DBClusterParameterGroup": {
        "DBClusterParameterGroupName": "mydbclusterpgcopy",
        "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:cluster-pg:mydbclusterpgcopy",
        "DBParameterGroupFamily": "aurora-mysql5.7",
        "Description": "Copy of mydbclusterpg parameter group"
    }
}
```
Untuk informasi selengkapnya, lihat [Menyalin Grup Parameter Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html#USER_WorkingWithParamGroups.CopyingCluster) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [CopyDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/copy-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `copy-db-cluster-snapshot`
<a name="rds_CopyDbClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-db-cluster-snapshot`.

**AWS CLI**  
**Untuk menyalin snapshot cluster DB**  
`copy-db-cluster-snapshot`Contoh berikut membuat salinan snapshot cluster DB, termasuk tag-nya.  

```
aws rds copy-db-cluster-snapshot \
    --source-db-cluster-snapshot-identifier arn:aws:rds:us-east-1:123456789012:cluster-snapshot:rds:myaurora-2019-06-04-09-16
    --target-db-cluster-snapshot-identifier myclustersnapshotcopy \
    --copy-tags
```
Output:  

```
{
    "DBClusterSnapshot": {
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1b",
            "us-east-1e"
        ],
        "DBClusterSnapshotIdentifier": "myclustersnapshotcopy",
        "DBClusterIdentifier": "myaurora",
        "SnapshotCreateTime": "2019-06-04T09:16:42.649Z",
        "Engine": "aurora-mysql",
        "AllocatedStorage": 0,
        "Status": "available",
        "Port": 0,
        "VpcId": "vpc-6594f31c",
        "ClusterCreateTime": "2019-04-15T14:18:42.785Z",
        "MasterUsername": "myadmin",
        "EngineVersion": "5.7.mysql_aurora.2.04.2",
        "LicenseModel": "aurora-mysql",
        "SnapshotType": "manual",
        "PercentProgress": 100,
        "StorageEncrypted": true,
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/AKIAIOSFODNN7EXAMPLE",
        "DBClusterSnapshotArn": "arn:aws:rds:us-east-1:123456789012:cluster-snapshot:myclustersnapshotcopy",
        "IAMDatabaseAuthenticationEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Menyalin Snapshot di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_CopySnapshot.html) Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [CopyDbClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/copy-db-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `copy-db-parameter-group`
<a name="rds_CopyDbParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-db-parameter-group`.

**AWS CLI**  
**Untuk menyalin grup parameter cluster DB**  
`copy-db-parameter-group`Contoh berikut membuat salinan grup parameter DB.  

```
aws rds copy-db-parameter-group \
    --source-db-parameter-group-identifier mydbpg \
    --target-db-parameter-group-identifier mydbpgcopy \
    --target-db-parameter-group-description "Copy of mydbpg parameter group"
```
Output:  

```
{
    "DBParameterGroup": {
        "DBParameterGroupName": "mydbpgcopy",
        "DBParameterGroupArn": "arn:aws:rds:us-east-1:814387698303:pg:mydbpgcopy",
        "DBParameterGroupFamily": "mysql5.7",
        "Description": "Copy of mydbpg parameter group"
    }
}
```
Untuk informasi selengkapnya, lihat [Menyalin Grup Parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html#USER_WorkingWithParamGroups.Copying) di Panduan *Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [CopyDbParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/copy-db-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `copy-db-snapshot`
<a name="rds_CopyDbSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-db-snapshot`.

**AWS CLI**  
**Untuk menyalin snapshot DB**  
`copy-db-snapshot`Contoh berikut membuat salinan snapshot DB.  

```
aws rds copy-db-snapshot \
    --source-db-snapshot-identifier rds:database-mysql-2019-06-06-08-38
    --target-db-snapshot-identifier mydbsnapshotcopy
```
Output:  

```
{
    "DBSnapshot": {
        "VpcId": "vpc-6594f31c",
        "Status": "creating",
        "Encrypted": true,
        "SourceDBSnapshotIdentifier": "arn:aws:rds:us-east-1:123456789012:snapshot:rds:database-mysql-2019-06-06-08-38",
        "MasterUsername": "admin",
        "Iops": 1000,
        "Port": 3306,
        "LicenseModel": "general-public-license",
        "DBSnapshotArn": "arn:aws:rds:us-east-1:123456789012:snapshot:mydbsnapshotcopy",
        "EngineVersion": "5.6.40",
        "OptionGroupName": "default:mysql-5-6",
        "ProcessorFeatures": [],
        "Engine": "mysql",
        "StorageType": "io1",
        "DbiResourceId": "db-ZI7UJ5BLKMBYFGX7FDENCKADC4",
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/AKIAIOSFODNN7EXAMPLE",
        "SnapshotType": "manual",
        "IAMDatabaseAuthenticationEnabled": false,
        "SourceRegion": "us-east-1",
        "DBInstanceIdentifier": "database-mysql",
        "InstanceCreateTime": "2019-04-30T15:45:53.663Z",
        "AvailabilityZone": "us-east-1f",
        "PercentProgress": 0,
        "AllocatedStorage": 100,
        "DBSnapshotIdentifier": "mydbsnapshotcopy"
    }
}
```
Untuk informasi selengkapnya, lihat [Menyalin Snapshot](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_CopySnapshot.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [CopyDbSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/copy-db-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `copy-option-group`
<a name="rds_CopyOptionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-option-group`.

**AWS CLI**  
**Untuk menyalin grup opsi**  
`copy-option-group`Contoh berikut membuat salinan grup opsi.  

```
aws rds copy-option-group \
    --source-option-group-identifier myoptiongroup \
    --target-option-group-identifier new-option-group \
    --target-option-group-description "My option group copy"
```
Output:  

```
{
    "OptionGroup": {
        "Options": [],
        "OptionGroupName": "new-option-group",
        "MajorEngineVersion": "11.2",
        "OptionGroupDescription": "My option group copy",
        "AllowsVpcAndNonVpcInstanceMemberships": true,
        "EngineName": "oracle-ee",
        "OptionGroupArn": "arn:aws:rds:us-east-1:123456789012:og:new-option-group"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Salinan Grup Opsi](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithOptionGroups.html#USER_WorkingWithOptionGroups.Copy) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [CopyOptionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/copy-option-group.html)di *Referensi AWS CLI Perintah*. 

### `create-blue-green-deployment`
<a name="rds_CreateBlueGreenDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-blue-green-deployment`.

**AWS CLI**  
**Contoh 1: Untuk membuat blue/green penyebaran untuk RDS untuk MySQL DB instance**  
`create-blue-green-deployment`Contoh berikut membuat blue/green penyebaran untuk instance MySQL DB.  

```
aws rds create-blue-green-deployment \
    --blue-green-deployment-name bgd-cli-test-instance \
    --source arn:aws:rds:us-east-1:123456789012:db:my-db-instance \
    --target-engine-version 8.0 \
    --target-db-parameter-group-name mysql-80-group
```
Output:  

```
{
    "BlueGreenDeployment": {
        "BlueGreenDeploymentIdentifier": "bgd-v53303651eexfake",
        "BlueGreenDeploymentName": "bgd-cli-test-instance",
        "Source": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
        "SwitchoverDetails": [
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3"
            }
        ],
        "Tasks": [
            {
                "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                "Status": "PENDING"
            },
            {
                "Name": "DB_ENGINE_VERSION_UPGRADE",
                "Status": "PENDING"
            },
            {
                "Name": "CONFIGURE_BACKUPS",
                "Status": "PENDING"
            },
            {
                "Name": "CREATING_TOPOLOGY_OF_SOURCE",
                "Status": "PENDING"
            }
        ],
        "Status": "PROVISIONING",
        "CreateTime": "2022-02-25T21:18:51.183000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/blue-green-deployments-creating.html) di *Panduan Pengguna Amazon RDS*.  
**Contoh 2: Untuk membuat blue/green penyebaran untuk cluster DB MySQL Aurora**  
`create-blue-green-deployment`Contoh berikut membuat blue/green penyebaran untuk cluster DB MySQL Aurora.  

```
aws rds create-blue-green-deployment \
    --blue-green-deployment-name my-blue-green-deployment \
    --source arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster \
    --target-engine-version 8.0 \
    --target-db-cluster-parameter-group-name ams-80-binlog-enabled \
    --target-db-parameter-group-name mysql-80-cluster-group
```
Output:  

```
{
      "BlueGreenDeployment": {
        "BlueGreenDeploymentIdentifier": "bgd-wi89nwzglccsfake",
        "BlueGreenDeploymentName": "my-blue-green-deployment",
        "Source": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
        "SwitchoverDetails": [
          {
            "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
            "Status": "PROVISIONING"
          },
          {
            "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1",
            "Status": "PROVISIONING"
          },
          {
            "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2",
            "Status": "PROVISIONING"
          },
          {
            "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3",
            "Status": "PROVISIONING"
          },
          {
            "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint",
            "Status": "PROVISIONING"
          },
          {
            "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint",
            "Status": "PROVISIONING"
          }
        ],
        "Tasks": [
          {
            "Name": "CREATING_READ_REPLICA_OF_SOURCE",
            "Status": "PENDING"
          },
          {
            "Name": "DB_ENGINE_VERSION_UPGRADE",
            "Status": "PENDING"
          },
          {
            "Name": "CREATE_DB_INSTANCES_FOR_CLUSTER",
            "Status": "PENDING"
          },
          {
            "Name": "CREATE_CUSTOM_ENDPOINTS",
            "Status": "PENDING"
          }
        ],
        "Status": "PROVISIONING",
        "CreateTime": "2022-02-25T21:12:00.288000+00:00"
      }
}
```
Untuk informasi selengkapnya, lihat [Membuat blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments-creating.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [CreateBlueGreenDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-blue-green-deployment.html)di *Referensi AWS CLI Perintah*. 

### `create-db-cluster-endpoint`
<a name="rds_CreateDbClusterEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-cluster-endpoint`.

**AWS CLI**  
**Untuk membuat endpoint cluster DB kustom**  
`create-db-cluster-endpoint`Contoh berikut membuat endpoint cluster DB kustom dan mengaitkannya dengan cluster Aurora DB yang ditentukan.  

```
aws rds create-db-cluster-endpoint \
    --db-cluster-endpoint-identifier mycustomendpoint \
    --endpoint-type reader \
    --db-cluster-identifier mydbcluster \
    --static-members dbinstance1 dbinstance2
```
Output:  

```
{
    "DBClusterEndpointIdentifier": "mycustomendpoint",
    "DBClusterIdentifier": "mydbcluster",
    "DBClusterEndpointResourceIdentifier": "cluster-endpoint-ANPAJ4AE5446DAEXAMPLE",
    "Endpoint": "mycustomendpoint.cluster-custom-cnpexample.us-east-1.rds.amazonaws.com",
    "Status": "creating",
    "EndpointType": "CUSTOM",
    "CustomEndpointType": "READER",
    "StaticMembers": [
        "dbinstance1",
        "dbinstance2"
    ],
    "ExcludedMembers": [],
    "DBClusterEndpointArn": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:mycustomendpoint"
}
```
Untuk informasi selengkapnya, lihat [Manajemen Koneksi Amazon Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Overview.Endpoints.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [CreateDbClusterEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-cluster-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-db-cluster-parameter-group`
<a name="rds_CreateDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk membuat grup parameter cluster DB**  
`create-db-cluster-parameter-group`Contoh berikut membuat kelompok parameter cluster DB.  

```
aws rds create-db-cluster-parameter-group \
    --db-cluster-parameter-group-name mydbclusterparametergroup \
    --db-parameter-group-family aurora5.6 \
    --description "My new cluster parameter group"
```
Output:  

```
{
    "DBClusterParameterGroup": {
        "DBClusterParameterGroupName": "mydbclusterparametergroup",
        "DBParameterGroupFamily": "aurora5.6",
        "Description": "My new cluster parameter group",
        "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:cluster-pg:mydbclusterparametergroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup Parameter Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html#USER_WorkingWithParamGroups.CreatingCluster) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [CreateDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `create-db-cluster-snapshot`
<a name="rds_CreateDbClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-cluster-snapshot`.

**AWS CLI**  
**Untuk membuat snapshot cluster DB**  
`create-db-cluster-snapshot`Contoh berikut membuat snapshot cluster DB.  

```
aws rds create-db-cluster-snapshot \
    --db-cluster-identifier mydbcluster \
    --db-cluster-snapshot-identifier mydbclustersnapshot
```
Output:  

```
{
    "DBClusterSnapshot": {
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1b",
            "us-east-1e"
        ],
        "DBClusterSnapshotIdentifier": "mydbclustersnapshot",
        "DBClusterIdentifier": "mydbcluster",
        "SnapshotCreateTime": "2019-06-18T21:21:00.469Z",
        "Engine": "aurora-mysql",
        "AllocatedStorage": 1,
        "Status": "creating",
        "Port": 0,
        "VpcId": "vpc-6594f31c",
        "ClusterCreateTime": "2019-04-15T14:18:42.785Z",
        "MasterUsername": "myadmin",
        "EngineVersion": "5.7.mysql_aurora.2.04.2",
        "LicenseModel": "aurora-mysql",
        "SnapshotType": "manual",
        "PercentProgress": 0,
        "StorageEncrypted": true,
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/AKIAIOSFODNN7EXAMPLE",
        "DBClusterSnapshotArn": "arn:aws:rds:us-east-1:123456789012:cluster-snapshot:mydbclustersnapshot",
        "IAMDatabaseAuthenticationEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Snapshot Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_CreateSnapshotCluster.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [CreateDbClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-db-cluster`
<a name="rds_CreateDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-cluster`.

**AWS CLI**  
**Contoh 1: Untuk membuat cluster DB MySQL 5.7 yang kompatibel**  
`create-db-cluster`Contoh berikut membuat cluster DB MySQL 5.7 kompatibel menggunakan versi mesin default. Ganti kata sandi sampel `secret99` dengan kata sandi yang aman. Saat Anda menggunakan konsol untuk membuat cluster DB, Amazon RDS secara otomatis membuat instans DB penulis untuk cluster DB Anda. Namun, ketika Anda menggunakan AWS CLI untuk membuat cluster DB, Anda harus secara eksplisit membuat instance DB penulis untuk cluster DB Anda menggunakan perintah CLI. `create-db-instance` AWS   

```
aws rds create-db-cluster \
    --db-cluster-identifier sample-cluster \
    --engine aurora-mysql \
    --engine-version 5.7 \
    --master-username admin \
    --master-user-password secret99 \
    --db-subnet-group-name default \
    --vpc-security-group-ids sg-0b9130572daf3dc16
```
Output:  

```
{
    "DBCluster": {
        "DBSubnetGroup": "default",
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-0b9130572daf3dc16",
                "Status": "active"
            }
        ],
        "AllocatedStorage": 1,
        "AssociatedRoles": [],
        "PreferredBackupWindow": "09:12-09:42",
        "ClusterCreateTime": "2023-02-27T23:21:33.048Z",
        "DeletionProtection": false,
        "IAMDatabaseAuthenticationEnabled": false,
        "ReadReplicaIdentifiers": [],
        "EngineMode": "provisioned",
        "Engine": "aurora-mysql",
        "StorageEncrypted": false,
        "MultiAZ": false,
        "PreferredMaintenanceWindow": "mon:04:31-mon:05:01",
        "HttpEndpointEnabled": false,
        "BackupRetentionPeriod": 1,
        "DbClusterResourceId": "cluster-ANPAJ4AE5446DAEXAMPLE",
        "DBClusterIdentifier": "sample-cluster",
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1b",
            "us-east-1e"
        ],
        "MasterUsername": "master",
        "EngineVersion": "5.7.mysql_aurora.2.11.1",
        "DBClusterArn": "arn:aws:rds:us-east-1:123456789012:cluster:sample-cluster",
        "DBClusterMembers": [],
        "Port": 3306,
        "Status": "creating",
        "Endpoint": "sample-cluster.cluster-cnpexample.us-east-1.rds.amazonaws.com",
        "DBClusterParameterGroup": "default.aurora-mysql5.7",
        "HostedZoneId": "Z2R2ITUGPM61AM",
        "ReaderEndpoint": "sample-cluster.cluster-ro-cnpexample.us-east-1.rds.amazonaws.com",
        "CopyTagsToSnapshot": false
    }
}
```
**Contoh 2: Untuk membuat cluster DB yang kompatibel dengan PostgreSQL**  
`create-db-cluster`Contoh berikut membuat cluster DB yang kompatibel dengan PostgreSQL menggunakan versi mesin default. Ganti kata sandi contoh `secret99` dengan kata sandi yang aman. Saat Anda menggunakan konsol untuk membuat cluster DB, Amazon RDS secara otomatis membuat instans DB penulis untuk cluster DB Anda. Namun, ketika Anda menggunakan AWS CLI untuk membuat cluster DB, Anda harus secara eksplisit membuat instance DB penulis untuk cluster DB Anda menggunakan perintah CLI. `create-db-instance` AWS   

```
aws rds create-db-cluster \
    --db-cluster-identifier sample-pg-cluster \
    --engine aurora-postgresql \
    --master-username master \
    --master-user-password secret99 \
    --db-subnet-group-name default \
    --vpc-security-group-ids sg-0b9130572daf3dc16
```
Output:  

```
{
    "DBCluster": {
        "Endpoint": "sample-pg-cluster.cluster-cnpexample.us-east-1.rds.amazonaws.com",
        "HttpEndpointEnabled": false,
        "DBClusterMembers": [],
        "EngineMode": "provisioned",
        "CopyTagsToSnapshot": false,
        "HostedZoneId": "Z2R2ITUGPM61AM",
        "IAMDatabaseAuthenticationEnabled": false,
        "AllocatedStorage": 1,
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-0b9130572daf3dc16",
                "Status": "active"
            }
        ],
        "DeletionProtection": false,
        "StorageEncrypted": false,
        "BackupRetentionPeriod": 1,
        "PreferredBackupWindow": "09:56-10:26",
        "ClusterCreateTime": "2023-02-27T23:26:08.371Z",
        "DBClusterParameterGroup": "default.aurora-postgresql13",
        "EngineVersion": "13.7",
        "Engine": "aurora-postgresql",
        "Status": "creating",
        "DBClusterIdentifier": "sample-pg-cluster",
        "MultiAZ": false,
        "Port": 5432,
        "DBClusterArn": "arn:aws:rds:us-east-1:123456789012:cluster:sample-pg-cluster",
        "AssociatedRoles": [],
        "DbClusterResourceId": "cluster-ANPAJ4AE5446DAEXAMPLE",
        "PreferredMaintenanceWindow": "wed:03:33-wed:04:03",
        "ReaderEndpoint": "sample-pg-cluster.cluster-ro-cnpexample.us-east-1.rds.amazonaws.com",
        "MasterUsername": "master",
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1b",
            "us-east-1c"
        ],
        "ReadReplicaIdentifiers": [],
        "DBSubnetGroup": "default"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat klaster DB Amazon Aurora di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.CreateInstance.html) Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [CreateDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-db-instance-read-replica`
<a name="rds_CreateDbInstanceReadReplica_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-instance-read-replica`.

**AWS CLI**  
**Untuk membuat instance DB baca replika**  
Contoh ini membuat replika baca dari instance DB yang ada bernama`test-instance`. Replika baca diberi nama`test-instance-repl`.  

```
aws rds create-db-instance-read-replica \
    --db-instance-identifier test-instance-repl \
    --source-db-instance-identifier test-instance
```
Output:  

```
{
    "DBInstance": {
        "IAMDatabaseAuthenticationEnabled": false,
        "MonitoringInterval": 0,
        "DBInstanceArn": "arn:aws:rds:us-east-1:123456789012:db:test-instance-repl",
        "ReadReplicaSourceDBInstanceIdentifier": "test-instance",
        "DBInstanceIdentifier": "test-instance-repl",
        ...some output truncated...
    }
}
```
+  Untuk detail API, lihat [CreateDbInstanceReadReplica](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-instance-read-replica.html)di *Referensi AWS CLI Perintah*. 

### `create-db-instance`
<a name="rds_CreateDBInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-instance`.

**AWS CLI**  
**Untuk membuat instance DB**  
`create-db-instance`Contoh berikut menggunakan opsi yang diperlukan untuk meluncurkan instans DB baru.  

```
aws rds create-db-instance \
    --db-instance-identifier test-mysql-instance \
    --db-instance-class db.t3.micro \
    --engine mysql \
    --master-username admin \
    --master-user-password secret99 \
    --allocated-storage 20
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceIdentifier": "test-mysql-instance",
        "DBInstanceClass": "db.t3.micro",
        "Engine": "mysql",
        "DBInstanceStatus": "creating",
        "MasterUsername": "admin",
        "AllocatedStorage": 20,
        "PreferredBackupWindow": "12:55-13:25",
        "BackupRetentionPeriod": 1,
        "DBSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-12345abc",
                "Status": "active"
            }
        ],
        "DBParameterGroups": [
            {
                "DBParameterGroupName": "default.mysql5.7",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "DBSubnetGroup": {
            "DBSubnetGroupName": "default",
            "DBSubnetGroupDescription": "default",
            "VpcId": "vpc-2ff2ff2f",
            "SubnetGroupStatus": "Complete",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-########",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2c"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-########",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2d"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-########",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2a"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-########",
                    "SubnetAvailabilityZone": {
                        "Name": "us-west-2b"
                    },
                    "SubnetStatus": "Active"
                }
            ]
        },
        "PreferredMaintenanceWindow": "sun:08:07-sun:08:37",
        "PendingModifiedValues": {
            "MasterUserPassword": "****"
        },
        "MultiAZ": false,
        "EngineVersion": "5.7.22",
        "AutoMinorVersionUpgrade": true,
        "ReadReplicaDBInstanceIdentifiers": [],
        "LicenseModel": "general-public-license",
        "OptionGroupMemberships": [
            {
                "OptionGroupName": "default:mysql-5-7",
                "Status": "in-sync"
            }
        ],
        "PubliclyAccessible": true,
        "StorageType": "gp2",
        "DbInstancePort": 0,
        "StorageEncrypted": false,
        "DbiResourceId": "db-5555EXAMPLE44444444EXAMPLE",
        "CACertificateIdentifier": "rds-ca-2019",
        "DomainMemberships": [],
        "CopyTagsToSnapshot": false,
        "MonitoringInterval": 0,
        "DBInstanceArn": "arn:aws:rds:us-west-2:123456789012:db:test-mysql-instance",
        "IAMDatabaseAuthenticationEnabled": false,
        "PerformanceInsightsEnabled": false,
        "DeletionProtection": false,
        "AssociatedRoles": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Instans Amazon RDS DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_CreateDBInstance.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Membuat DBInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-instance.html) di *Referensi AWS CLI Perintah*. 

### `create-db-parameter-group`
<a name="rds_CreateDBParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-parameter-group`.

**AWS CLI**  
**Untuk membuat grup parameter DB**  
`create-db-parameter-group`Contoh berikut membuat grup parameter DB.  

```
aws rds create-db-parameter-group \
    --db-parameter-group-name mydbparametergroup \
    --db-parameter-group-family MySQL5.6 \
    --description "My new parameter group"
```
Output:  

```
{
    "DBParameterGroup": {
        "DBParameterGroupName": "mydbparametergroup",
        "DBParameterGroupFamily": "mysql5.6",
        "Description": "My new parameter group",
        "DBParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:pg:mydbparametergroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup Parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html#USER_WorkingWithParamGroups.Creating) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Membuat DBParameter Grup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-parameter-group.html) di *Referensi AWS CLI Perintah*. 

### `create-db-proxy-endpoint`
<a name="rds_CreateDbProxyEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-proxy-endpoint`.

**AWS CLI**  
**Untuk membuat endpoint proxy DB untuk database RDS**  
`create-db-proxy-endpoint`Contoh berikut menciptakan titik akhir proxy DB.  

```
aws rds create-db-proxy-endpoint \
    --db-proxy-name proxyExample \
    --db-proxy-endpoint-name "proxyep1" \
    --vpc-subnet-ids subnetgroup1 subnetgroup2
```
Output:  

```
{
"DBProxyEndpoint": {
        "DBProxyEndpointName": "proxyep1",
        "DBProxyEndpointArn": "arn:aws:rds:us-east-1:123456789012:db-proxy-endpoint:prx-endpoint-0123a01b12345c0ab",
        "DBProxyName": "proxyExample",
        "Status": "creating",
        "VpcId": "vpc-1234567",
        "VpcSecurityGroupIds": [
            "sg-1234",
            "sg-5678"
        ],
        "VpcSubnetIds": [
            "subnetgroup1",
            "subnetgroup2"
        ],
        "Endpoint": "proxyep1.endpoint.proxy-ab0cd1efghij.us-east-1.rds.amazonaws.com",
        "CreatedDate": "2023-04-05T16:09:33.452000+00:00",
        "TargetRole": "READ_WRITE",
        "IsDefault": false
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat titik akhir proxy](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-endpoints.html#rds-proxy-endpoints.CreatingEndpoint) di *Panduan Pengguna Amazon RDS dan [Membuat titik akhir proxy](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-endpoints.html#rds-proxy-endpoints.CreatingEndpoint) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [CreateDbProxyEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-proxy-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-db-proxy`
<a name="rds_CreateDbProxy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-proxy`.

**AWS CLI**  
**Untuk membuat proxy DB untuk database RDS**  
`create-db-proxy`Contoh berikut membuat proxy DB.  

```
aws rds create-db-proxy \
    --db-proxy-name proxyExample \
    --engine-family MYSQL \
    --auth Description="proxydescription1",AuthScheme="SECRETS",SecretArn="arn:aws:secretsmanager:us-west-2:123456789123:secret:secretName-1234f",IAMAuth="DISABLED",ClientPasswordAuthType="MYSQL_NATIVE_PASSWORD" \
    --role-arn arn:aws:iam::123456789123:role/ProxyRole \
    --vpc-subnet-ids subnetgroup1 subnetgroup2
```
Output:  

```
{
"DBProxy": {
        "DBProxyName": "proxyExample",
        "DBProxyArn": "arn:aws:rds:us-east-1:123456789012:db-proxy:prx-0123a01b12345c0ab",
        "EngineFamily": "MYSQL",
        "VpcId": "vpc-1234567",
        "VpcSecuritytGroupIds": [
            "sg-1234",
            "sg-5678",
            "sg-9101"
        ],
        "VpcSubnetIds": [
            "subnetgroup1",
            "subnetgroup2"
        ],
        "Auth": "[
            {
                "Description": "proxydescription1",
                "AuthScheme": "SECRETS",
                "SecretArn": "arn:aws:secretsmanager:us-west-2:123456789123:secret:proxysecret1-Abcd1e",
                "IAMAuth": "DISABLED"
            }
        ]",
        "RoleArn": "arn:aws:iam::12345678912:role/ProxyRole",
        "Endpoint": "proxyExample.proxy-ab0cd1efghij.us-east-1.rds.amazonaws.com",
        "RequireTLS": false,
        "IdleClientTimeout": 1800,
        "DebuggingLogging": false,
        "CreatedDate": "2023-04-05T16:09:33.452000+00:00",
        "UpdatedDate": "2023-04-13T01:49:38.568000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-setup.html#rds-proxy-creating) di *Panduan Pengguna Amazon RDS dan [Membuat Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-setup.html#rds-proxy-creating) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [CreateDbProxy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-proxy.html)di *Referensi AWS CLI Perintah*. 

### `create-db-security-group`
<a name="rds_CreateDbSecurityGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-security-group`.

**AWS CLI**  
**Untuk membuat grup keamanan Amazon RDS DB**  
`create-db-security-group`Perintah berikut membuat grup keamanan Amazon RDS DB baru:  

```
aws rds create-db-security-group --db-security-group-name mysecgroup --db-security-group-description "My Test Security Group"
```
Dalam contoh, grup keamanan DB baru diberi nama `mysecgroup` dan memiliki deskripsi.  
Output:  

```
{
    "DBSecurityGroup": {
        "OwnerId": "123456789012",
        "DBSecurityGroupName": "mysecgroup",
        "DBSecurityGroupDescription": "My Test Security Group",
        "VpcId": "vpc-a1b2c3d4",
        "EC2SecurityGroups": [],
        "IPRanges": [],
        "DBSecurityGroupArn": "arn:aws:rds:us-west-2:123456789012:secgrp:mysecgroup"
    }
}
```
+  Untuk detail API, lihat [CreateDbSecurityGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-security-group.html)di *Referensi AWS CLI Perintah*. 

### `create-db-shard-group`
<a name="rds_CreateDbShardGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-shard-group`.

**AWS CLI**  
**Contoh 1: Untuk membuat cluster DB utama Aurora PostgreSQL**  
`create-db-cluster`Contoh berikut membuat cluster DB primer Aurora PostgreSQL SQL yang kompatibel dengan Aurora Serverless v2 dan Aurora Limitless Database.  

```
aws rds create-db-cluster \
    --db-cluster-identifier my-sv2-cluster \
    --engine aurora-postgresql \
    --engine-version 15.2-limitless \
    --storage-type aurora-iopt1 \
    --serverless-v2-scaling-configuration MinCapacity=2,MaxCapacity=16 \
    --enable-limitless-database \
    --master-username myuser \
    --master-user-password mypassword \
    --enable-cloudwatch-logs-exports postgresql
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "us-east-2b",
            "us-east-2c",
            "us-east-2a"
        ],
        "BackupRetentionPeriod": 1,
        "DBClusterIdentifier": "my-sv2-cluster",
        "DBClusterParameterGroup": "default.aurora-postgresql15",
        "DBSubnetGroup": "default",
        "Status": "creating",
        "Endpoint": "my-sv2-cluster.cluster-cekycexample.us-east-2.rds.amazonaws.com",
        "ReaderEndpoint": "my-sv2-cluster.cluster-ro-cekycexample.us-east-2.rds.amazonaws.com",
        "MultiAZ": false,
        "Engine": "aurora-postgresql",
        "EngineVersion": "15.2-limitless",
        "Port": 5432,
        "MasterUsername": "myuser",
        "PreferredBackupWindow": "06:05-06:35",
        "PreferredMaintenanceWindow": "mon:08:25-mon:08:55",
        "ReadReplicaIdentifiers": [],
        "DBClusterMembers": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-########",
                "Status": "active"
            }
        ],
        "HostedZoneId": "Z2XHWR1EXAMPLE",
        "StorageEncrypted": false,
        "DbClusterResourceId": "cluster-XYEDT6ML6FHIXH4Q2J1EXAMPLE",
        "DBClusterArn": "arn:aws:rds:us-east-2:123456789012:cluster:my-sv2-cluster",
        "AssociatedRoles": [],
        "IAMDatabaseAuthenticationEnabled": false,
        "ClusterCreateTime": "2024-02-19T16:24:07.771000+00:00",
        "EnabledCloudwatchLogsExports": [
            "postgresql"
        ],
        "EngineMode": "provisioned",
        "DeletionProtection": false,
        "HttpEndpointEnabled": false,
        "CopyTagsToSnapshot": false,
        "CrossAccountClone": false,
        "DomainMemberships": [],
        "TagList": [],
        "StorageType": "aurora-iopt1",
        "AutoMinorVersionUpgrade": true,
        "ServerlessV2ScalingConfiguration": {
            "MinCapacity": 2.0,
            "MaxCapacity": 16.0
        },
        "NetworkType": "IPV4",
        "IOOptimizedNextAllowedModificationTime": "2024-03-21T16:24:07.781000+00:00",
        "LimitlessDatabase": {
            "Status": "not-in-use",
            "MinRequiredACU": 96.0
        }
    }
}
```
**Contoh 2: Untuk membuat instance DB utama (penulis)**  
`create-db-instance`Contoh berikut membuat instance DB primer (penulis) Aurora Serverless v2. Saat Anda menggunakan konsol untuk membuat cluster DB, Amazon RDS secara otomatis membuat instans DB penulis untuk cluster DB Anda. Namun, ketika Anda menggunakan AWS CLI untuk membuat cluster DB, Anda harus secara eksplisit membuat instance DB penulis untuk cluster DB Anda menggunakan perintah CLI. `create-db-instance` AWS   

```
aws rds create-db-instance \
    --db-instance-identifier my-sv2-instance \
    --db-cluster-identifier my-sv2-cluster \
    --engine aurora-postgresql \
    --db-instance-class db.serverless
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceIdentifier": "my-sv2-instance",
        "DBInstanceClass": "db.serverless",
        "Engine": "aurora-postgresql",
        "DBInstanceStatus": "creating",
        "MasterUsername": "myuser",
        "AllocatedStorage": 1,
        "PreferredBackupWindow": "06:05-06:35",
        "BackupRetentionPeriod": 1,
        "DBSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-########",
                "Status": "active"
            }
        ],
        "DBParameterGroups": [
            {
                "DBParameterGroupName": "default.aurora-postgresql15",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "DBSubnetGroup": {
            "DBSubnetGroupName": "default",
            "DBSubnetGroupDescription": "default",
            "VpcId": "vpc-########",
            "SubnetGroupStatus": "Complete",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-########",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-2c"
                    },
                    "SubnetOutpost": {},
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-########",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-2a"
                    },
                    "SubnetOutpost": {},
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-########",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-2b"
                    },
                    "SubnetOutpost": {},
                    "SubnetStatus": "Active"
                }
            ]
        },
        "PreferredMaintenanceWindow": "fri:09:01-fri:09:31",
        "PendingModifiedValues": {
            "PendingCloudwatchLogsExports": {
                "LogTypesToEnable": [
                    "postgresql"
                ]
            }
        },
        "MultiAZ": false,
        "EngineVersion": "15.2-limitless",
        "AutoMinorVersionUpgrade": true,
        "ReadReplicaDBInstanceIdentifiers": [],
        "LicenseModel": "postgresql-license",
        "OptionGroupMemberships": [
            {
                "OptionGroupName": "default:aurora-postgresql-15",
                "Status": "in-sync"
            }
        ],
        "PubliclyAccessible": false,
        "StorageType": "aurora-iopt1",
        "DbInstancePort": 0,
        "DBClusterIdentifier": "my-sv2-cluster",
        "StorageEncrypted": false,
        "DbiResourceId": "db-BIQTE3B3K3RM7M74SK5EXAMPLE",
        "CACertificateIdentifier": "rds-ca-rsa2048-g1",
        "DomainMemberships": [],
        "CopyTagsToSnapshot": false,
        "MonitoringInterval": 0,
        "PromotionTier": 1,
        "DBInstanceArn": "arn:aws:rds:us-east-2:123456789012:db:my-sv2-instance",
        "IAMDatabaseAuthenticationEnabled": false,
        "PerformanceInsightsEnabled": false,
        "DeletionProtection": false,
        "AssociatedRoles": [],
        "TagList": [],
        "CustomerOwnedIpEnabled": false,
        "BackupTarget": "region",
        "NetworkType": "IPV4",
        "StorageThroughput": 0,
        "CertificateDetails": {
            "CAIdentifier": "rds-ca-rsa2048-g1"
        },
        "DedicatedLogVolume": false
    }
}
```
**Contoh 3: Untuk membuat grup pecahan DB**  
`create-db-shard-group`Contoh berikut membuat grup pecahan DB di cluster DB utama Aurora PostgreSQL Anda.  

```
aws rds create-db-shard-group \
    --db-shard-group-identifier my-db-shard-group \
    --db-cluster-identifier my-sv2-cluster \
    --max-acu 768
```
Output:  

```
{
    "DBShardGroupResourceId": "shardgroup-a6e3a0226aa243e2ac6c7a1234567890",
    "DBShardGroupIdentifier": "my-db-shard-group",
    "DBClusterIdentifier": "my-sv2-cluster",
    "MaxACU": 768.0,
    "ComputeRedundancy": 0,
    "Status": "creating",
    "PubliclyAccessible": false,
    "Endpoint": "my-sv2-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan Aurora Tanpa Server v2](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-serverless-v2.html) di Panduan Pengguna Amazon Aurora.*  
+  Untuk detail API, lihat [CreateDbShardGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-shard-group.html)di *Referensi AWS CLI Perintah*. 

### `create-db-snapshot`
<a name="rds_CreateDBSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-snapshot`.

**AWS CLI**  
**Untuk membuat snapshot DB**  
`create-db-snapshot`Contoh berikut membuat snapshot DB.  

```
aws rds create-db-snapshot \
    --db-instance-identifier database-mysql \
    --db-snapshot-identifier mydbsnapshot
```
Output:  

```
{
    "DBSnapshot": {
        "DBSnapshotIdentifier": "mydbsnapshot",
        "DBInstanceIdentifier": "database-mysql",
        "Engine": "mysql",
        "AllocatedStorage": 100,
        "Status": "creating",
        "Port": 3306,
        "AvailabilityZone": "us-east-1b",
        "VpcId": "vpc-6594f31c",
        "InstanceCreateTime": "2019-04-30T15:45:53.663Z",
        "MasterUsername": "admin",
        "EngineVersion": "5.6.40",
        "LicenseModel": "general-public-license",
        "SnapshotType": "manual",
        "Iops": 1000,
        "OptionGroupName": "default:mysql-5-6",
        "PercentProgress": 0,
        "StorageType": "io1",
        "Encrypted": true,
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/AKIAIOSFODNN7EXAMPLE",
        "DBSnapshotArn": "arn:aws:rds:us-east-1:123456789012:snapshot:mydbsnapshot",
        "IAMDatabaseAuthenticationEnabled": false,
        "ProcessorFeatures": [],
        "DbiResourceId": "db-AKIAIOSFODNN7EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Snapshot DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_CreateSnapshot.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Membuat DBSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-snapshot.html) di *Referensi AWS CLI Perintah*. 

### `create-db-subnet-group`
<a name="rds_CreateDbSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-db-subnet-group`.

**AWS CLI**  
**Untuk membuat grup subnet DB**  
`create-db-subnet-group`Contoh berikut menciptakan grup subnet DB yang disebut `mysubnetgroup` menggunakan subnet yang ada.  

```
aws rds create-db-subnet-group \
    --db-subnet-group-name mysubnetgroup \
    --db-subnet-group-description "test DB subnet group" \
    --subnet-ids '["subnet-0a1dc4e1a6f123456","subnet-070dd7ecb3aaaaaaa","subnet-00f5b198bc0abcdef"]'
```
Output:  

```
{
    "DBSubnetGroup": {
        "DBSubnetGroupName": "mysubnetgroup",
        "DBSubnetGroupDescription": "test DB subnet group",
        "VpcId": "vpc-0f08e7610a1b2c3d4",
        "SubnetGroupStatus": "Complete",
        "Subnets": [
            {
                "SubnetIdentifier": "subnet-070dd7ecb3aaaaaaa",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2b"
                },
                "SubnetStatus": "Active"
            },
            {
                "SubnetIdentifier": "subnet-00f5b198bc0abcdef",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2d"
                },
                "SubnetStatus": "Active"
            },
            {
                "SubnetIdentifier": "subnet-0a1dc4e1a6f123456",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2b"
                },
                "SubnetStatus": "Active"
            }
        ],
        "DBSubnetGroupArn": "arn:aws:rds:us-west-2:0123456789012:subgrp:mysubnetgroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Instans DB di VPC](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_VPC.WorkingWithRDSInstanceinaVPC.html#USER_VPC.InstanceInVPC) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [CreateDbSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-db-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `create-event-subscription`
<a name="rds_CreateEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-event-subscription`.

**AWS CLI**  
**Untuk membuat langganan acara**  
`create-event-subscription`Contoh berikut membuat langganan untuk acara pencadangan dan pemulihan untuk instans DB di AWS akun saat ini. Pemberitahuan dikirim ke topik Layanan Pemberitahuan Sederhana Amazon, yang ditentukan oleh`--sns-topic-arn`.  

```
aws rds create-event-subscription \
    --subscription-name my-instance-events \
    --source-type db-instance \
    --event-categories '["backup","recovery"]' \
    --sns-topic-arn arn:aws:sns:us-east-1:123456789012:interesting-events
```
Output:  

```
{
    "EventSubscription": {
        "Status": "creating",
        "CustSubscriptionId": "my-instance-events",
        "SubscriptionCreationTime": "Tue Jul 31 23:22:01 UTC 2018",
        "EventCategoriesList": [
            "backup",
            "recovery"
        ],
        "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:interesting-events",
        "CustomerAwsId": "123456789012",
        "EventSubscriptionArn": "arn:aws:rds:us-east-1:123456789012:es:my-instance-events",
        "SourceType": "db-instance",
        "Enabled": true
    }
}
```
+  Untuk detail API, lihat [CreateEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `create-global-cluster`
<a name="rds_CreateGlobalCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-global-cluster`.

**AWS CLI**  
**Untuk membuat cluster DB global**  
`create-global-cluster`Contoh berikut membuat cluster DB global yang kompatibel dengan Aurora MySQL baru.  

```
aws rds create-global-cluster \
    --global-cluster-identifier myglobalcluster \
    --engine aurora-mysql
```
Output:  

```
{
    "GlobalCluster": {
        "GlobalClusterIdentifier": "myglobalcluster",
        "GlobalClusterResourceId": "cluster-f0e523bfe07aabb",
        "GlobalClusterArn": "arn:aws:rds::123456789012:global-cluster:myglobalcluster",
        "Status": "available",
        "Engine": "aurora-mysql",
        "EngineVersion": "5.7.mysql_aurora.2.07.2",
        "StorageEncrypted": false,
        "DeletionProtection": false,
        "GlobalClusterMembers": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat database global Aurora di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-global-database-getting-started.html#aurora-global-database-creating) Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [CreateGlobalCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-global-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-option-group`
<a name="rds_CreateOptionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-option-group`.

**AWS CLI**  
**Untuk Membuat grup opsi Amazon RDS**  
`create-option-group`Perintah berikut membuat grup opsi Amazon RDS baru untuk `Oracle Enterprise Edition` versi `11.2`, is named ``MyOptionGroup` dan menyertakan deskripsi.  

```
aws rds create-option-group \
    --option-group-name MyOptionGroup \
    --engine-name oracle-ee \
    --major-engine-version 11.2 \
    --option-group-description "Oracle Database Manager Database Control"
```
Output:  

```
{
    "OptionGroup": {
        "OptionGroupName": "myoptiongroup",
        "OptionGroupDescription": "Oracle Database Manager Database Control",
        "EngineName": "oracle-ee",
        "MajorEngineVersion": "11.2",
        "Options": [],
        "AllowsVpcAndNonVpcInstanceMemberships": true,
        "OptionGroupArn": "arn:aws:rds:us-west-2:123456789012:og:myoptiongroup"
    }
}
```
+  Untuk detail API, lihat [CreateOptionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/create-option-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-blue-green-deployment`
<a name="rds_DeleteBlueGreenDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-blue-green-deployment`.

**AWS CLI**  
**Contoh 1: Untuk menghapus sumber daya di lingkungan hijau untuk RDS untuk instance MySQL DB**  
`delete-blue-green-deployment`Contoh berikut menghapus sumber daya dalam lingkungan hijau untuk RDS untuk MySQL DB instance.  

```
aws rds delete-blue-green-deployment \
    --blue-green-deployment-identifier bgd-v53303651eexfake \
    --delete-target
```
Output:  

```
{
    "BlueGreenDeployment": {
        "BlueGreenDeploymentIdentifier": "bgd-v53303651eexfake",
        "BlueGreenDeploymentName": "bgd-cli-test-instance",
        "Source": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
        "Target": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-green-rkfbpe",
        "SwitchoverDetails": [
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-green-rkfbpe",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1-green-j382ha",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2-green-ejv4ao",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3-green-vlpz3t",
                "Status": "AVAILABLE"
            }
        ],
        "Tasks": [
            {
                "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                "Status": "COMPLETED"
            },
            {
                "Name": "DB_ENGINE_VERSION_UPGRADE",
                "Status": "COMPLETED"
            },
            {
                "Name": "CONFIGURE_BACKUPS",
                "Status": "COMPLETED"
            },
            {
                "Name": "CREATING_TOPOLOGY_OF_SOURCE",
                "Status": "COMPLETED"
            }
        ],
        "Status": "DELETING",
        "CreateTime": "2022-02-25T21:18:51.183000+00:00",
        "DeleteTime": "2022-02-25T22:25:31.331000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/blue-green-deployments-deleting.html) di Panduan Pengguna *Amazon RDS.*  
**Contoh 2: Untuk menghapus sumber daya di lingkungan hijau untuk cluster DB MySQL Aurora**  
`delete-blue-green-deployment`Contoh berikut menghapus sumber daya di lingkungan hijau untuk cluster DB MySQL Aurora.  

```
aws rds delete-blue-green-deployment \
    --blue-green-deployment-identifier bgd-wi89nwzglccsfake \
    --delete-target
```
Output:  

```
{
    "BlueGreenDeployment": {
        "BlueGreenDeploymentIdentifier": "bgd-wi89nwzglccsfake",
        "BlueGreenDeploymentName": "my-blue-green-deployment",
        "Source": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
        "Target": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-green-3rnukl",
        "SwitchoverDetails": [
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-green-3rnukl",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1-green-gpmaxf",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2-green-j2oajq",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3-green-mkxies",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint-green-4sqjrq",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint-green-gwwzlg",
                "Status": "AVAILABLE"
            }
        ],
        "Tasks": [
            {
                "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                "Status": "COMPLETED"
            },
            {
                "Name": "DB_ENGINE_VERSION_UPGRADE",
                "Status": "COMPLETED"
            },
            {
                "Name": "CREATE_DB_INSTANCES_FOR_CLUSTER",
                "Status": "COMPLETED"
            },
            {
                "Name": "CREATE_CUSTOM_ENDPOINTS",
                "Status": "COMPLETED"
            }
        ],
        "Status": "DELETING",
        "CreateTime": "2022-02-25T21:12:00.288000+00:00",
        "DeleteTime": "2022-02-25T22:29:11.336000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus blue/green penerapan di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments-deleting.html) Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DeleteBlueGreenDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-blue-green-deployment.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-cluster-endpoint`
<a name="rds_DeleteDbClusterEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-cluster-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir cluster DB kustom**  
`delete-db-cluster-endpoint`Contoh berikut menghapus titik akhir cluster DB kustom yang ditentukan.  

```
aws rds delete-db-cluster-endpoint \
    --db-cluster-endpoint-identifier mycustomendpoint
```
Output:  

```
{
    "DBClusterEndpointIdentifier": "mycustomendpoint",
    "DBClusterIdentifier": "mydbcluster",
    "DBClusterEndpointResourceIdentifier": "cluster-endpoint-ANPAJ4AE5446DAEXAMPLE",
    "Endpoint": "mycustomendpoint.cluster-custom-cnpexample.us-east-1.rds.amazonaws.com",
    "Status": "deleting",
    "EndpointType": "CUSTOM",
    "CustomEndpointType": "READER",
    "StaticMembers": [
        "dbinstance1",
        "dbinstance2",
        "dbinstance3"
    ],
    "ExcludedMembers": [],
    "DBClusterEndpointArn": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:mycustomendpoint"
}
```
Untuk informasi selengkapnya, lihat [Manajemen Koneksi Amazon Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Overview.Endpoints.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DeleteDbClusterEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-cluster-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-cluster-parameter-group`
<a name="rds_DeleteDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk menghapus grup parameter cluster DB**  
`delete-db-cluster-parameter-group`Contoh berikut menghapus kelompok parameter cluster DB yang ditentukan.  

```
aws rds delete-db-cluster-parameter-group \
    --db-cluster-parameter-group-name mydbclusterparametergroup
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Grup Parameter DB dan Grup Parameter Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [DeleteDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-cluster-snapshot`
<a name="rds_DeleteDbClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-cluster-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot cluster DB**  
`delete-db-cluster-snapshot`Contoh berikut menghapus snapshot cluster DB yang ditentukan.  

```
aws rds delete-db-cluster-snapshot \
    --db-cluster-snapshot-identifier mydbclustersnapshot
```
Output:  

```
{
    "DBClusterSnapshot": {
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1b",
            "us-east-1e"
        ],
        "DBClusterSnapshotIdentifier": "mydbclustersnapshot",
        "DBClusterIdentifier": "mydbcluster",
        "SnapshotCreateTime": "2019-06-18T21:21:00.469Z",
        "Engine": "aurora-mysql",
        "AllocatedStorage": 0,
        "Status": "available",
        "Port": 0,
        "VpcId": "vpc-6594f31c",
        "ClusterCreateTime": "2019-04-15T14:18:42.785Z",
        "MasterUsername": "myadmin",
        "EngineVersion": "5.7.mysql_aurora.2.04.2",
        "LicenseModel": "aurora-mysql",
        "SnapshotType": "manual",
        "PercentProgress": 100,
        "StorageEncrypted": true,
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/AKIAIOSFODNN7EXAMPLE",
        "DBClusterSnapshotArn": "arn:aws:rds:us-east-1:123456789012:cluster-snapshot:mydbclustersnapshot",
        "IAMDatabaseAuthenticationEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Snapshot di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_DeleteSnapshot.html) Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DeleteDbClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-cluster`
<a name="rds_DeleteDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-cluster`.

**AWS CLI**  
**Contoh 1: Untuk menghapus instans DB di cluster DB**  
`delete-db-instance`Contoh berikut menghapus instans DB akhir dalam cluster DB. Anda tidak dapat menghapus cluster DB jika berisi instance DB yang tidak dalam status **menghapus.** Anda tidak dapat mengambil snapshot akhir saat menghapus instans DB di cluster DB.  

```
aws rds delete-db-instance \
    --db-instance-identifier database-3
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceIdentifier": "database-3",
        "DBInstanceClass": "db.r4.large",
        "Engine": "aurora-postgresql",
        "DBInstanceStatus": "deleting",

    ...output omitted...

    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Instans DB di Cluster Aurora DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_DeleteInstance.html) di Panduan Pengguna *Amazon Aurora*.  
**Contoh 2: Untuk menghapus cluster DB**  
`delete-db-cluster`Contoh berikut menghapus cluster DB bernama `mycluster` dan mengambil snapshot akhir bernama. `mycluster-final-snapshot` Status cluster DB **tersedia** saat snapshot sedang diambil. Untuk mengikuti kemajuan penghapusan, gunakan perintah CLI`describe-db-clusters`.  

```
aws rds delete-db-cluster \
    --db-cluster-identifier mycluster \
    --no-skip-final-snapshot \
    --final-db-snapshot-identifier mycluster-final-snapshot
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 20,
        "AvailabilityZones": [
            "eu-central-1b",
            "eu-central-1c",
            "eu-central-1a"
        ],
        "BackupRetentionPeriod": 7,
        "DBClusterIdentifier": "mycluster",
        "DBClusterParameterGroup": "default.aurora-postgresql10",
        "DBSubnetGroup": "default-vpc-aa11bb22",
        "Status": "available",

    ...output omitted...

    }
}
```
Untuk informasi selengkapnya, lihat [Cluster Aurora dengan Instans DB Tunggal di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_DeleteInstance.html#USER_DeleteInstance.LastInstance) Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [DeleteDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-instance-automated-backup`
<a name="rds_DeleteDbInstanceAutomatedBackup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-instance-automated-backup`.

**AWS CLI**  
**Untuk menghapus cadangan otomatis yang direplikasi dari Wilayah**  
`delete-db-instance-automated-backup`Contoh berikut menghapus cadangan otomatis dengan Nama Sumber Daya Amazon (ARN) yang ditentukan.  

```
aws rds delete-db-instance-automated-backup \
    --db-instance-automated-backups-arn "arn:aws:rds:us-west-2:123456789012:auto-backup:ab-jkib2gfq5rv7replzadausbrktni2bn4example"
```
Output:  

```
{
    "DBInstanceAutomatedBackup": {
        "DBInstanceArn": "arn:aws:rds:us-east-1:123456789012:db:new-orcl-db",
        "DbiResourceId": "db-JKIB2GFQ5RV7REPLZA4EXAMPLE",
        "Region": "us-east-1",
        "DBInstanceIdentifier": "new-orcl-db",
        "RestoreWindow": {},
        "AllocatedStorage": 20,
        "Status": "deleting",
        "Port": 1521,
        "AvailabilityZone": "us-east-1b",
        "VpcId": "vpc-########",
        "InstanceCreateTime": "2020-12-04T15:28:31Z",
        "MasterUsername": "admin",
        "Engine": "oracle-se2",
        "EngineVersion": "12.1.0.2.v21",
        "LicenseModel": "bring-your-own-license",
        "OptionGroupName": "default:oracle-se2-12-1",
        "Encrypted": false,
        "StorageType": "gp2",
        "IAMDatabaseAuthenticationEnabled": false,
        "BackupRetentionPeriod": 7,
        "DBInstanceAutomatedBackupsArn": "arn:aws:rds:us-west-2:123456789012:auto-backup:ab-jkib2gfq5rv7replzadausbrktni2bn4example"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus cadangan yang direplikasi di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ReplicateBackups.html#AutomatedBackups.Delete) *Amazon* RDS.  
+  Untuk detail API, lihat [DeleteDbInstanceAutomatedBackup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-instance-automated-backup.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-instance`
<a name="rds_DeleteDBInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-instance`.

**AWS CLI**  
**Untuk menghapus instans DB**  
`delete-db-instance`Contoh berikut menghapus instance DB tertentu setelah membuat snapshot DB akhir bernama. `test-instance-final-snap`  

```
aws rds delete-db-instance \
    --db-instance-identifier test-instance \
    --final-db-snapshot-identifier test-instance-final-snap
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceIdentifier": "test-instance",
        "DBInstanceStatus": "deleting",
        ...some output truncated...
    }
}
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-instance.html) di *Referensi AWS CLI Perintah*. 

### `delete-db-parameter-group`
<a name="rds_DeleteDBParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-parameter-group`.

**AWS CLI**  
**Untuk menghapus grup parameter DB**  
`command`Contoh berikut menghapus grup parameter DB.  

```
aws rds delete-db-parameter-group \
    --db-parameter-group-name mydbparametergroup
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Grup Parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Menghapus DBParameter Grup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-parameter-group.html) di *Referensi AWS CLI Perintah*. 

### `delete-db-proxy-endpoint`
<a name="rds_DeleteDbProxyEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-proxy-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir proxy DB untuk database RDS**  
`delete-db-proxy-endpoint`Contoh berikut menghapus titik akhir proxy DB untuk database target.  

```
aws rds delete-db-proxy-endpoint \
    --db-proxy-endpoint-name proxyEP1
```
Output:  

```
{
"DBProxyEndpoint":
    {
        "DBProxyEndpointName": "proxyEP1",
        "DBProxyEndpointArn": "arn:aws:rds:us-east-1:123456789012:db-proxy-endpoint:prx-endpoint-0123a01b12345c0ab",
        "DBProxyName": "proxyExample",
        "Status": "deleting",
        "VpcId": "vpc-1234567",
        "VpcSecurityGroupIds": [
            "sg-1234",
            "sg-5678"
        ],
        "VpcSubnetIds": [
            "subnetgroup1",
            "subnetgroup2"
        ],
        "Endpoint": "proxyEP1.endpoint.proxy-ab0cd1efghij.us-east-1.rds.amazonaws.com",
        "CreatedDate": "2023-04-13T01:49:38.568000+00:00",
        "TargetRole": "READ_ONLY",
        "IsDefault": false
    }
}
```
*Untuk informasi selengkapnya, lihat [Menghapus titik akhir proxy](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-endpoints.html#rds-proxy-endpoints.DeletingEndpoint) di *Panduan Pengguna Amazon RDS dan [Menghapus titik akhir proxy di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-endpoints.html#rds-proxy-endpoints.DeletingEndpoint) Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [DeleteDbProxyEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-proxy-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-proxy`
<a name="rds_DeleteDbProxy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-proxy`.

**AWS CLI**  
**Untuk menghapus proxy DB untuk database RDS**  
`delete-db-proxy`Contoh berikut menghapus proxy DB.  

```
aws rds delete-db-proxy \
    --db-proxy-name proxyExample
```
Output:  

```
{
        "DBProxy":
        {
            "DBProxyName": "proxyExample",
            "DBProxyArn": "arn:aws:rds:us-east-1:123456789012:db-proxy:prx-0123a01b12345c0ab",
            "Status": "deleting",
            "EngineFamily": "PostgreSQL",
            "VpcId": "vpc-1234567",
            "VpcSecurityGroupIds": [
                "sg-1234",
                "sg-5678"
            ],
            "VpcSubnetIds": [
                "subnetgroup1",
                "subnetgroup2"
            ],
            "Auth": "[
                {
                "Description": "proxydescription`"
                "AuthScheme": "SECRETS",
                "SecretArn": "arn:aws:secretsmanager:us-west-2:123456789123:secret:proxysecret1-Abcd1e",
                "IAMAuth": "DISABLED"
                } ],
            "RoleArn": "arn:aws:iam::12345678912:role/ProxyPostgreSQLRole",
            "Endpoint": "proxyExample.proxy-ab0cd1efghij.us-east-1.rds.amazonaws.com",
            "RequireTLS": false,
            "IdleClientTimeout": 1800,
            "DebuggingLogging": false,
        "CreatedDate": "2023-04-05T16:09:33.452000+00:00",
        "UpdatedDate": "2023-04-13T01:49:38.568000+00:00"
    }
}
```
*Untuk informasi selengkapnya, lihat [Menghapus Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-managing.html#rds-proxy-deleting) di *Panduan Pengguna Amazon RDS dan [Menghapus Proxy RDS di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-managing.html#rds-proxy-deleting) Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [DeleteDbProxy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-proxy.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-security-group`
<a name="rds_DeleteDbSecurityGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-security-group`.

**AWS CLI**  
**Untuk menghapus grup keamanan DB**  
`delete-db-security-group`Contoh berikut menghapus grup keamanan DB bernama`mysecuritygroup`.  

```
aws rds delete-db-security-group \
    --db-security-group-name mysecuritygroup
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan grup keamanan DB (platform EC2-Classic)](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithSecurityGroups.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [DeleteDbSecurityGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-security-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-shard-group`
<a name="rds_DeleteDbShardGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-shard-group`.

**AWS CLI**  
**Contoh 1: Untuk menghapus grup pecahan DB tidak berhasil**  
`delete-db-shard-group`Contoh berikut menunjukkan kesalahan yang terjadi ketika Anda mencoba untuk menghapus grup shard DB sebelum menghapus semua database dan skema Anda.  

```
aws rds delete-db-shard-group \
    --db-shard-group-identifier limitless-test-shard-grp
```
Output:  

```
An error occurred (InvalidDBShardGroupState) when calling the DeleteDBShardGroup operation: Unable to delete the DB shard group limitless-test-db-shard-group.
Delete all of your Limitless Database databases and schemas, then try again.
```
**Contoh 2: Untuk menghapus grup pecahan DB dengan sukses**  
`delete-db-shard-group`Contoh berikut menghapus grup pecahan DB setelah Anda menghapus semua database dan skema Anda, termasuk skema. `public`  

```
aws rds delete-db-shard-group \
    --db-shard-group-identifier limitless-test-shard-grp
```
Output:  

```
{
    "DBShardGroupResourceId": "shardgroup-7bb446329da94788b3f957746example",
    "DBShardGroupIdentifier": "limitless-test-shard-grp",
    "DBClusterIdentifier": "limitless-test-cluster",
    "MaxACU": 768.0,
    "ComputeRedundancy": 0,
    "Status": "deleting",
    "PubliclyAccessible": true,
    "Endpoint": "limitless-test-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
}
```
Untuk informasi selengkapnya, lihat [Menghapus cluster DB Aurora dan instans DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_DeleteCluster.html) di Panduan Pengguna Amazon *Aurora*.  
+  Untuk detail API, lihat [DeleteDbShardGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-shard-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-snapshot`
<a name="rds_DeleteDbSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-snapshot`.

**AWS CLI**  
**Untuk menghapus snapshot DB**  
`delete-db-snapshot`Contoh berikut menghapus snapshot DB yang ditentukan.  

```
aws rds delete-db-snapshot \
    --db-snapshot-identifier mydbsnapshot
```
Output:  

```
{
    "DBSnapshot": {
        "DBSnapshotIdentifier": "mydbsnapshot",
        "DBInstanceIdentifier": "database-mysql",
        "SnapshotCreateTime": "2019-06-18T22:08:40.702Z",
        "Engine": "mysql",
        "AllocatedStorage": 100,
        "Status": "deleted",
        "Port": 3306,
        "AvailabilityZone": "us-east-1b",
        "VpcId": "vpc-6594f31c",
        "InstanceCreateTime": "2019-04-30T15:45:53.663Z",
        "MasterUsername": "admin",
        "EngineVersion": "5.6.40",
        "LicenseModel": "general-public-license",
        "SnapshotType": "manual",
        "Iops": 1000,
        "OptionGroupName": "default:mysql-5-6",
        "PercentProgress": 100,
        "StorageType": "io1",
        "Encrypted": true,
        "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/AKIAIOSFODNN7EXAMPLE",
        "DBSnapshotArn": "arn:aws:rds:us-east-1:123456789012:snapshot:mydbsnapshot",
        "IAMDatabaseAuthenticationEnabled": false,
        "ProcessorFeatures": [],
        "DbiResourceId": "db-AKIAIOSFODNN7EXAMPLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Snapshot](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_DeleteSnapshot.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [DeleteDbSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-db-subnet-group`
<a name="rds_DeleteDbSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-db-subnet-group`.

**AWS CLI**  
**Untuk menghapus grup subnet DB**  
`delete-db-subnet-group`Contoh berikut menghapus grup subnet DB yang disebut. `mysubnetgroup`  

```
aws rds delete-db-subnet-group --db-subnet-group-name mysubnetgroup
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Instans DB di VPC](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_VPC.WorkingWithRDSInstanceinaVPC.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [DeleteDbSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-db-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-event-subscription`
<a name="rds_DeleteEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-event-subscription`.

**AWS CLI**  
**Untuk menghapus langganan acara**  
`delete-event-subscription`Contoh berikut menghapus langganan acara yang ditentukan.  

```
aws rds delete-event-subscription --subscription-name my-instance-events
```
Output:  

```
{
    "EventSubscription": {
        "EventSubscriptionArn": "arn:aws:rds:us-east-1:123456789012:es:my-instance-events",
        "CustomerAwsId": "123456789012",
        "Enabled": false,
        "SourceIdsList": [
            "test-instance"
        ],
        "SourceType": "db-instance",
        "EventCategoriesList": [
            "backup",
            "recovery"
        ],
        "SubscriptionCreationTime": "2018-07-31 23:22:01.893",
        "CustSubscriptionId": "my-instance-events",
        "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:interesting-events",
        "Status": "deleting"
    }
}
```
+  Untuk detail API, lihat [DeleteEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `delete-global-cluster`
<a name="rds_DeleteGlobalCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-global-cluster`.

**AWS CLI**  
**Untuk menghapus cluster DB global**  
`delete-global-cluster`Contoh berikut menghapus cluster DB global yang kompatibel dengan Aurora MySQL. Output menunjukkan cluster yang Anda hapus, tetapi `describe-global-clusters` perintah berikutnya tidak mencantumkan cluster DB itu.  

```
aws rds delete-global-cluster \
    --global-cluster-identifier myglobalcluster
```
Output:  

```
{
    "GlobalCluster": {
        "GlobalClusterIdentifier": "myglobalcluster",
        "GlobalClusterResourceId": "cluster-f0e523bfe07aabb",
        "GlobalClusterArn": "arn:aws:rds::123456789012:global-cluster:myglobalcluster",
        "Status": "available",
        "Engine": "aurora-mysql",
        "EngineVersion": "5.7.mysql_aurora.2.07.2",
        "StorageEncrypted": false,
        "DeletionProtection": false,
        "GlobalClusterMembers": []
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus database global Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-global-database-managing.html#aurora-global-database-deleting) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DeleteGlobalCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-global-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-option-group`
<a name="rds_DeleteOptionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-option-group`.

**AWS CLI**  
**Untuk menghapus grup opsi**  
`delete-option-group`Contoh berikut menghapus grup opsi yang ditentukan.  

```
aws rds delete-option-group \
    --option-group-name myoptiongroup
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus Grup Opsi](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithOptionGroups.html#USER_WorkingWithOptionGroups.Delete) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [DeleteOptionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/delete-option-group.html)di *Referensi AWS CLI Perintah*. 

### `deregister-db-proxy-targets`
<a name="rds_DeregisterDbProxyTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-db-proxy-targets`.

**AWS CLI**  
**Untuk membatalkan pendaftaran target proxy DB dari grup target database**  
`deregister-db-proxy-targets`Contoh berikut menghapus hubungan antara proxy `proxyExample` dan targetnya.  

```
aws rds deregister-db-proxy-targets \
    --db-proxy-name proxyExample \
    --db-instance-identifiers database-1
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menghapus Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-managing.html#rds-proxy-deleting) di *Panduan Pengguna Amazon RDS dan [Menghapus Proxy RDS di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-managing.html#rds-proxy-deleting) Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [DeregisterDbProxyTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/deregister-db-proxy-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-attributes`
<a name="rds_DescribeAccountAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-attributes`.

**AWS CLI**  
**Untuk menggambarkan atribut akun**  
`describe-account-attributes`Contoh berikut mengambil atribut untuk AWS akun saat ini.  

```
aws rds describe-account-attributes
```
Output:  

```
{
    "AccountQuotas": [
        {
            "Max": 40,
            "Used": 4,
            "AccountQuotaName": "DBInstances"
        },
        {
            "Max": 40,
            "Used": 0,
            "AccountQuotaName": "ReservedDBInstances"
        },
        {
            "Max": 100000,
            "Used": 40,
            "AccountQuotaName": "AllocatedStorage"
        },
        {
            "Max": 25,
            "Used": 0,
            "AccountQuotaName": "DBSecurityGroups"
        },
        {
            "Max": 20,
            "Used": 0,
            "AccountQuotaName": "AuthorizationsPerDBSecurityGroup"
        },
        {
            "Max": 50,
            "Used": 1,
            "AccountQuotaName": "DBParameterGroups"
        },
        {
            "Max": 100,
            "Used": 3,
            "AccountQuotaName": "ManualSnapshots"
        },
        {
            "Max": 20,
            "Used": 0,
            "AccountQuotaName": "EventSubscriptions"
        },
        {
            "Max": 50,
            "Used": 1,
            "AccountQuotaName": "DBSubnetGroups"
        },
        {
            "Max": 20,
            "Used": 1,
            "AccountQuotaName": "OptionGroups"
        },
        {
            "Max": 20,
            "Used": 6,
            "AccountQuotaName": "SubnetsPerDBSubnetGroup"
        },
        {
            "Max": 5,
            "Used": 0,
            "AccountQuotaName": "ReadReplicasPerMaster"
        },
        {
            "Max": 40,
            "Used": 1,
            "AccountQuotaName": "DBClusters"
        },
        {
            "Max": 50,
            "Used": 0,
            "AccountQuotaName": "DBClusterParameterGroups"
        },
        {
            "Max": 5,
            "Used": 0,
            "AccountQuotaName": "DBClusterRoles"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAccountAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-account-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-blue-green-deployments`
<a name="rds_DescribeBlueGreenDeployments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-blue-green-deployments`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan blue/green penerapan instans RDS DB setelah pembuatan selesai**  
`describe-blue-green-deployment`Contoh berikut mengambil rincian blue/green penerapan setelah pembuatan selesai.  

```
aws rds describe-blue-green-deployments \
    --blue-green-deployment-identifier bgd-v53303651eexfake
```
Output:  

```
{
    "BlueGreenDeployments": [
        {
            "BlueGreenDeploymentIdentifier": "bgd-v53303651eexfake",
            "BlueGreenDeploymentName": "bgd-cli-test-instance",
            "Source": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
            "Target": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-green-rkfbpe",
            "SwitchoverDetails": [
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-green-rkfbpe",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1-green-j382ha",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2-green-ejv4ao",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3-green-vlpz3t",
                    "Status": "AVAILABLE"
                }
            ],
            "Tasks": [
                {
                    "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "DB_ENGINE_VERSION_UPGRADE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CONFIGURE_BACKUPS",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CREATING_TOPOLOGY_OF_SOURCE",
                    "Status": "COMPLETED"
                }
            ],
            "Status": "AVAILABLE",
            "CreateTime": "2022-02-25T21:18:51.183000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/blue-green-deployments-viewing.html) di *Panduan Pengguna Amazon RDS*.  
**Contoh 2: Untuk menggambarkan blue/green penyebaran untuk cluster DB MySQL Aurora**  
`describe-blue-green-deployment`Contoh berikut mengambil rincian blue/green penyebaran.  

```
aws rds describe-blue-green-deployments \
    --blue-green-deployment-identifier bgd-wi89nwzglccsfake
```
Output:  

```
{
    "BlueGreenDeployments": [
        {
            "BlueGreenDeploymentIdentifier": "bgd-wi89nwzglccsfake",
            "BlueGreenDeploymentName": "my-blue-green-deployment",
            "Source": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
            "Target": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-green-3rnukl",
            "SwitchoverDetails": [
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-green-3rnukl",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1-green-gpmaxf",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2-green-j2oajq",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3-green-mkxies",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint-green-4sqjrq",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint-green-gwwzlg",
                    "Status": "AVAILABLE"
                }
            ],
            "Tasks": [
                {
                    "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "DB_ENGINE_VERSION_UPGRADE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CREATE_DB_INSTANCES_FOR_CLUSTER",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CREATE_CUSTOM_ENDPOINTS",
                    "Status": "COMPLETED"
                }
            ],
            "Status": "AVAILABLE",
            "CreateTime": "2022-02-25T21:12:00.288000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments-viewing.html) di Panduan Pengguna *Amazon Aurora*.  
**Contoh 3: Untuk menjelaskan blue/green penerapan untuk cluster MySQL Aurora setelah peralihan**  
`describe-blue-green-deployment`Contoh berikut mengambil rincian tentang blue/green penerapan setelah lingkungan hijau dipromosikan menjadi lingkungan produksi.  

```
aws rds describe-blue-green-deployments \
    --blue-green-deployment-identifier bgd-wi89nwzglccsfake
```
Output:  

```
{
    "BlueGreenDeployments": [
        {
            "BlueGreenDeploymentIdentifier": "bgd-wi89nwzglccsfake",
            "BlueGreenDeploymentName": "my-blue-green-deployment",
            "Source": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-old1",
            "Target": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
            "SwitchoverDetails": [
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
                    "Status": "SWITCHOVER_COMPLETED"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1",
                    "Status": "SWITCHOVER_COMPLETED"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2",
                    "Status": "SWITCHOVER_COMPLETED"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3",
                    "Status": "SWITCHOVER_COMPLETED"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint",
                    "Status": "SWITCHOVER_COMPLETED"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint",
                    "Status": "SWITCHOVER_COMPLETED"
                }
            ],
            "Tasks": [
                {
                    "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "DB_ENGINE_VERSION_UPGRADE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CREATE_DB_INSTANCES_FOR_CLUSTER",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CREATE_CUSTOM_ENDPOINTS",
                    "Status": "COMPLETED"
                }
            ],
            "Status": "SWITCHOVER_COMPLETED",
            "CreateTime": "2022-02-25T22:38:49.522000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments-viewing.html) di Panduan Pengguna *Amazon Aurora*.  
**Contoh 4: Untuk menggambarkan blue/green penerapan gabungan**  
`describe-blue-green-deployment`Contoh berikut mengambil rincian blue/green penerapan gabungan.  

```
aws rds describe-blue-green-deployments
```
Output:  

```
{
    "BlueGreenDeployments": [
        {
            "BlueGreenDeploymentIdentifier": "bgd-wi89nwzgfakelccs",
            "BlueGreenDeploymentName": "my-blue-green-deployment",
            "Source": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
            "Target": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-green-3rnukl",
            "SwitchoverDetails": [
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-green-3rnukl",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1-green-gpmaxf",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2-green-j2oajq",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3-green-mkxies",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint-green-4sqjrq",
                    "Status": "AVAILABLE"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint-green-gwwzlg",
                    "Status": "AVAILABLE"
                }
            ],
            "Tasks": [
                {
                    "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "DB_ENGINE_VERSION_UPGRADE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CREATE_DB_INSTANCES_FOR_CLUSTER",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CREATE_CUSTOM_ENDPOINTS",
                    "Status": "COMPLETED"
                }
            ],
            "Status": "AVAILABLE",
            "CreateTime": "2022-02-25T21:12:00.288000+00:00"
        },
        {
            "BlueGreenDeploymentIdentifier": "bgd-v5330365fake1eex",
            "BlueGreenDeploymentName": "bgd-cli-test-instance",
            "Source": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-old1",
            "Target": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
            "SwitchoverDetails": [
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
                    "Status": "SWITCHOVER_COMPLETED"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1",
                    "Status": "SWITCHOVER_COMPLETED"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2",
                    "Status": "SWITCHOVER_COMPLETED"
                },
                {
                    "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3-old1",
                    "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3",
                    "Status": "SWITCHOVER_COMPLETED"
                }
            ],
            "Tasks": [
                {
                    "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "DB_ENGINE_VERSION_UPGRADE",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CONFIGURE_BACKUPS",
                    "Status": "COMPLETED"
                },
                {
                    "Name": "CREATING_TOPOLOGY_OF_SOURCE",
                    "Status": "COMPLETED"
                }
            ],
            "Status": "SWITCHOVER_COMPLETED",
            "CreateTime": "2022-02-25T22:33:22.225000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/blue-green-deployments-viewing.html) di *Panduan Pengguna Amazon RDS dan [Melihat blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments-viewing.html) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeBlueGreenDeployments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-blue-green-deployments.html)di *Referensi AWS CLI Perintah*. 

### `describe-certificates`
<a name="rds_DescribeCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-certificates`.

**AWS CLI**  
**Untuk menggambarkan sertifikat**  
`describe-certificates`Contoh berikut mengambil rincian sertifikat yang terkait dengan wilayah default pengguna.  

```
aws rds describe-certificates
```
Output:  

```
{
    "Certificates": [
        {
            "CertificateIdentifier": "rds-ca-ecc384-g1",
            "CertificateType": "CA",
            "Thumbprint": "2ee3dcc06e50192559b13929e73484354f23387d",
            "ValidFrom": "2021-05-24T22:06:59+00:00",
            "ValidTill": "2121-05-24T23:06:59+00:00",
            "CertificateArn": "arn:aws:rds:us-west-2::cert:rds-ca-ecc384-g1",
            "CustomerOverride": false
        },
        {
            "CertificateIdentifier": "rds-ca-rsa4096-g1",
            "CertificateType": "CA",
            "Thumbprint": "19da4f2af579a8ae1f6a0fa77aa5befd874b4cab",
            "ValidFrom": "2021-05-24T22:03:20+00:00",
            "ValidTill": "2121-05-24T23:03:20+00:00",
            "CertificateArn": "arn:aws:rds:us-west-2::cert:rds-ca-rsa4096-g1",
            "CustomerOverride": false
        },
        {
            "CertificateIdentifier": "rds-ca-rsa2048-g1",
            "CertificateType": "CA",
            "Thumbprint": "7c40cb42714b6fdb2b296f9bbd0e8bb364436a76",
            "ValidFrom": "2021-05-24T21:59:00+00:00",
            "ValidTill": "2061-05-24T22:59:00+00:00",
            "CertificateArn": "arn:aws:rds:us-west-2::cert:rds-ca-rsa2048-g1",
            "CustomerOverride": true,
            "CustomerOverrideValidTill": "2061-05-24T22:59:00+00:00"
        },
        {
            "CertificateIdentifier": "rds-ca-2019",
            "CertificateType": "CA",
            "Thumbprint": "d40ddb29e3750dffa671c3140bbf5f478d1c8096",
            "ValidFrom": "2019-08-22T17:08:50+00:00",
            "ValidTill": "2024-08-22T17:08:50+00:00",
            "CertificateArn": "arn:aws:rds:us-west-2::cert:rds-ca-2019",
            "CustomerOverride": false
        }
    ],
    "DefaultCertificateForNewLaunches": "rds-ca-rsa2048-g1"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan SSL/TLS untuk mengenkripsi sambungan ke instans DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/UsingWithRDS.SSL.html) di *Panduan Pengguna Amazon RDS* dan [Menggunakan SSL/TLS untuk mengenkripsi sambungan ke kluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/UsingWithRDS.SSL.html) di Panduan Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-certificates.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-backtracks`
<a name="rds_DescribeDbClusterBacktracks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-backtracks`.

**AWS CLI**  
**Untuk menggambarkan backtrack untuk cluster DB**  
`describe-db-cluster-backtracks`Contoh berikut mengambil rincian tentang cluster DB tertentu.  

```
aws rds describe-db-cluster-backtracks \
    --db-cluster-identifier mydbcluster
```
Output:  

```
{
    "DBClusterBacktracks": [
        {
            "DBClusterIdentifier": "mydbcluster",
            "BacktrackIdentifier": "2f5f5294-0dd2-44c9-9f50-EXAMPLE",
            "BacktrackTo": "2021-02-12T04:59:22Z",
            "BacktrackedFrom": "2021-02-12T14:37:31.640Z",
            "BacktrackRequestCreationTime": "2021-02-12T14:36:18.819Z",
            "Status": "COMPLETED"
        },
        {
            "DBClusterIdentifier": "mydbcluster",
            "BacktrackIdentifier": "3c7a6421-af2a-4ea3-ae95-EXAMPLE",
            "BacktrackTo": "2021-02-11T22:53:46Z",
            "BacktrackedFrom": "2021-02-12T00:09:27.006Z",
            "BacktrackRequestCreationTime": "2021-02-12T00:07:53.487Z",
            "Status": "COMPLETED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melacak kembali klaster Aurora DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/AuroraMySQL.Managing.Backtrack.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DescribeDbClusterBacktracks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-cluster-backtracks.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-endpoints`
<a name="rds_DescribeDbClusterEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-endpoints`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan titik akhir cluster DB**  
`describe-db-cluster-endpoints`Contoh berikut mengambil detail untuk titik akhir cluster DB Anda. Jenis cluster Aurora yang paling umum memiliki dua titik akhir. Satu titik akhir memiliki tipe`WRITER`. Anda dapat menggunakan endpoint ini untuk semua pernyataan SQL. Endpoint lainnya memiliki tipe`READER`. Anda dapat menggunakan endpoint ini hanya untuk SELECT dan pernyataan SQL read-only lainnya.  

```
aws rds describe-db-cluster-endpoints
```
Output:  

```
{
    "DBClusterEndpoints": [
        {
            "DBClusterIdentifier": "my-database-1",
            "Endpoint": "my-database-1.cluster-cnpexample.us-east-1.rds.amazonaws.com",
            "Status": "creating",
            "EndpointType": "WRITER"
        },
        {
            "DBClusterIdentifier": "my-database-1",
            "Endpoint": "my-database-1.cluster-ro-cnpexample.us-east-1.rds.amazonaws.com",
            "Status": "creating",
            "EndpointType": "READER"
        },
        {
            "DBClusterIdentifier": "mydbcluster",
            "Endpoint": "mydbcluster.cluster-cnpexamle.us-east-1.rds.amazonaws.com",
            "Status": "available",
            "EndpointType": "WRITER"
        },
        {
            "DBClusterIdentifier": "mydbcluster",
            "Endpoint": "mydbcluster.cluster-ro-cnpexample.us-east-1.rds.amazonaws.com",
            "Status": "available",
            "EndpointType": "READER"
        }
    ]
}
```
**Contoh 2: Untuk menggambarkan titik akhir cluster DB dari satu cluster DB**  
`describe-db-cluster-endpoints`Contoh berikut mengambil rincian untuk titik akhir cluster DB dari satu cluster DB tertentu. Cluster Aurora Tanpa Server hanya memiliki satu titik akhir dengan tipe. `WRITER`  

```
aws rds describe-db-cluster-endpoints \
    --db-cluster-identifier serverless-cluster
```
Output:  

```
{
    "DBClusterEndpoints": [
        {
            "Status": "available",
            "Endpoint": "serverless-cluster.cluster-cnpexample.us-east-1.rds.amazonaws.com",
            "DBClusterIdentifier": "serverless-cluster",
            "EndpointType": "WRITER"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Manajemen Koneksi Amazon Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Overview.Endpoints.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DescribeDbClusterEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-cluster-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-parameter-groups`
<a name="rds_DescribeDbClusterParameterGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-parameter-groups`.

**AWS CLI**  
**Untuk menggambarkan kelompok parameter cluster DB**  
`describe-db-cluster-parameter-groups`Contoh berikut mengambil detail untuk grup parameter cluster DB Anda.  

```
aws rds describe-db-cluster-parameter-groups
```
Output:  

```
{
    "DBClusterParameterGroups": [
        {
            "DBClusterParameterGroupName": "default.aurora-mysql5.7",
            "DBParameterGroupFamily": "aurora-mysql5.7",
            "Description": "Default cluster parameter group for aurora-mysql5.7",
            "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:cluster-pg:default.aurora-mysql5.7"
        },
        {
            "DBClusterParameterGroupName": "default.aurora-postgresql9.6",
            "DBParameterGroupFamily": "aurora-postgresql9.6",
            "Description": "Default cluster parameter group for aurora-postgresql9.6",
            "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:cluster-pg:default.aurora-postgresql9.6"
        },
        {
            "DBClusterParameterGroupName": "default.aurora5.6",
            "DBParameterGroupFamily": "aurora5.6",
            "Description": "Default cluster parameter group for aurora5.6",
            "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:cluster-pg:default.aurora5.6"
        },
        {
            "DBClusterParameterGroupName": "mydbclusterpg",
            "DBParameterGroupFamily": "aurora-mysql5.7",
            "Description": "My DB cluster parameter group",
            "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:cluster-pg:mydbclusterpg"
        },
        {
            "DBClusterParameterGroupName": "mydbclusterpgcopy",
            "DBParameterGroupFamily": "aurora-mysql5.7",
            "Description": "Copy of mydbclusterpg parameter group",
            "DBClusterParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:cluster-pg:mydbclusterpgcopy"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Grup Parameter DB dan Grup Parameter Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [DescribeDbClusterParameterGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-cluster-parameter-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-parameters`
<a name="rds_DescribeDbClusterParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-parameters`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan parameter dalam kelompok parameter cluster DB**  
`describe-db-cluster-parameters`Contoh berikut mengambil rincian tentang parameter dalam kelompok parameter cluster DB.  

```
aws rds describe-db-cluster-parameters \
    --db-cluster-parameter-group-name mydbclusterpg
```
Output:  

```
{
    "Parameters": [
        {
            "ParameterName": "allow-suspicious-udfs",
            "Description": "Controls whether user-defined functions that have only an xxx symbol for the main function can be loaded",
            "Source": "engine-default",
            "ApplyType": "static",
            "DataType": "boolean",
            "AllowedValues": "0,1",
            "IsModifiable": false,
            "ApplyMethod": "pending-reboot",
            "SupportedEngineModes": [
                "provisioned"
            ]
        },
        {
            "ParameterName": "aurora_lab_mode",
            "ParameterValue": "0",
            "Description": "Enables new features in the Aurora engine.",
            "Source": "engine-default",
            "ApplyType": "static",
            "DataType": "boolean",
            "AllowedValues": "0,1",
            "IsModifiable": true,
            "ApplyMethod": "pending-reboot",
            "SupportedEngineModes": [
                "provisioned"
            ]
        },
        ...some output truncated...
    ]
}
```
**Contoh 2: Untuk mencantumkan hanya nama parameter dalam grup parameter cluster DB**  
`describe-db-cluster-parameters`Contoh berikut mengambil hanya nama-nama parameter dalam kelompok parameter cluster DB.  

```
aws rds describe-db-cluster-parameters \
    --db-cluster-parameter-group-name default.aurora-mysql5.7 \
    --query 'Parameters[].{ParameterName:ParameterName}'
```
Output:  

```
[
    {
        "ParameterName": "allow-suspicious-udfs"
    },
    {
        "ParameterName": "aurora_binlog_read_buffer_size"
    },
    {
        "ParameterName": "aurora_binlog_replication_max_yield_seconds"
    },
    {
        "ParameterName": "aurora_binlog_use_large_read_buffer"
    },
    {
        "ParameterName": "aurora_lab_mode"
    },

    ...some output truncated...
    }
]
```
**Contoh 3: Untuk menjelaskan hanya parameter yang dapat dimodifikasi dalam grup parameter cluster DB**  
`describe-db-cluster-parameters`Contoh berikut mengambil nama hanya parameter yang dapat Anda modifikasi dalam kelompok parameter cluster DB.  

```
aws rds describe-db-cluster-parameters \
    --db-cluster-parameter-group-name default.aurora-mysql5.7 \
    --query 'Parameters[].{ParameterName:ParameterName,IsModifiable:IsModifiable} | [?IsModifiable == `true`]'
```
Output:  

```
[
    {
        "ParameterName": "aurora_binlog_read_buffer_size",
        "IsModifiable": true
    },
    {
        "ParameterName": "aurora_binlog_replication_max_yield_seconds",
        "IsModifiable": true
    },
    {
        "ParameterName": "aurora_binlog_use_large_read_buffer",
        "IsModifiable": true
    },
    {
        "ParameterName": "aurora_lab_mode",
        "IsModifiable": true
    },

    ...some output truncated...
    }
]
```
**Contoh 4: Untuk menjelaskan hanya parameter Boolean yang dapat dimodifikasi dalam grup parameter cluster DB**  
`describe-db-cluster-parameters`Contoh berikut mengambil nama hanya parameter yang dapat Anda modifikasi dalam kelompok parameter cluster DB dan yang memiliki tipe data Boolean.  

```
aws rds describe-db-cluster-parameters \
    --db-cluster-parameter-group-name default.aurora-mysql5.7 \
    --query 'Parameters[].{ParameterName:ParameterName,DataType:DataType,IsModifiable:IsModifiable} | [?DataType == `boolean`] | [?IsModifiable == `true`]'
```
Output:  

```
[
    {
        "DataType": "boolean",
        "ParameterName": "aurora_binlog_use_large_read_buffer",
        "IsModifiable": true
    },
    {
        "DataType": "boolean",
        "ParameterName": "aurora_lab_mode",
        "IsModifiable": true
    },
    {
        "DataType": "boolean",
        "ParameterName": "autocommit",
        "IsModifiable": true
    },
    {
        "DataType": "boolean",
        "ParameterName": "automatic_sp_privileges",
        "IsModifiable": true
    },
    ...some output truncated...
    }
]
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Grup Parameter DB dan Grup Parameter Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [DescribeDbClusterParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-cluster-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-snapshot-attributes`
<a name="rds_DescribeDbClusterSnapshotAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-snapshot-attributes`.

**AWS CLI**  
**Untuk mendeskripsikan nama atribut dan nilai untuk snapshot cluster DB**  
`describe-db-cluster-snapshot-attributes`Contoh berikut mengambil rincian nama atribut dan nilai untuk snapshot cluster DB yang ditentukan.  

```
aws rds describe-db-cluster-snapshot-attributes \
    --db-cluster-snapshot-identifier myclustersnapshot
```
Output:  

```
{
    "DBClusterSnapshotAttributesResult": {
        "DBClusterSnapshotIdentifier": "myclustersnapshot",
        "DBClusterSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": [
                    "123456789012"
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Berbagi Snapshot Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_ShareSnapshot.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DescribeDbClusterSnapshotAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-cluster-snapshot-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-cluster-snapshots`
<a name="rds_DescribeDbClusterSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-cluster-snapshots`.

**AWS CLI**  
**Untuk mendeskripsikan snapshot cluster DB untuk cluster DB**  
`describe-db-cluster-snapshots`Contoh berikut mengambil rincian untuk snapshot cluster DB untuk cluster DB yang ditentukan.  

```
aws rds describe-db-cluster-snapshots \
    --db-cluster-identifier mydbcluster
```
Output:  

```
{
    "DBClusterSnapshots": [
        {
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1e"
            ],
            "DBClusterSnapshotIdentifier": "myclustersnapshotcopy",
            "DBClusterIdentifier": "mydbcluster",
            "SnapshotCreateTime": "2019-06-04T09:16:42.649Z",
            "Engine": "aurora-mysql",
            "AllocatedStorage": 0,
            "Status": "available",
            "Port": 0,
            "VpcId": "vpc-6594f31c",
            "ClusterCreateTime": "2019-04-15T14:18:42.785Z",
            "MasterUsername": "myadmin",
            "EngineVersion": "5.7.mysql_aurora.2.04.2",
            "LicenseModel": "aurora-mysql",
            "SnapshotType": "manual",
            "PercentProgress": 100,
            "StorageEncrypted": true,
            "KmsKeyId": "arn:aws:kms:us-east-1:123456789012:key/AKIAIOSFODNN7EXAMPLE",
            "DBClusterSnapshotArn": "arn:aws:rds:us-east-1:814387698303:cluster-snapshot:myclustersnapshotcopy",
            "IAMDatabaseAuthenticationEnabled": false
        },
        {
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1e"
            ],
            "DBClusterSnapshotIdentifier": "rds:mydbcluster-2019-06-20-09-16",
            "DBClusterIdentifier": "mydbcluster",
            "SnapshotCreateTime": "2019-06-20T09:16:26.569Z",
            "Engine": "aurora-mysql",
            "AllocatedStorage": 0,
            "Status": "available",
            "Port": 0,
            "VpcId": "vpc-6594f31c",
            "ClusterCreateTime": "2019-04-15T14:18:42.785Z",
            "MasterUsername": "myadmin",
            "EngineVersion": "5.7.mysql_aurora.2.04.2",
            "LicenseModel": "aurora-mysql",
            "SnapshotType": "automated",
            "PercentProgress": 100,
            "StorageEncrypted": true,
            "KmsKeyId": "arn:aws:kms:us-east-1:814387698303:key/AKIAIOSFODNN7EXAMPLE",
            "DBClusterSnapshotArn": "arn:aws:rds:us-east-1:123456789012:cluster-snapshot:rds:mydbcluster-2019-06-20-09-16",
            "IAMDatabaseAuthenticationEnabled": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Snapshot Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_CreateSnapshotCluster.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DescribeDbClusterSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-cluster-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-clusters`
<a name="rds_DescribeDbClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-clusters`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan cluster DB**  
`describe-db-clusters`Contoh berikut mengambil rincian cluster DB yang ditentukan.  

```
aws rds describe-db-clusters \
    --db-cluster-identifier mydbcluster
```
Output:  

```
{
    "DBClusters": [
        {
            "AllocatedStorage": 1,
            "AvailabilityZones": [
                "us-east-1a",
                "us-east-1b",
                "us-east-1e"
            ],
            "BackupRetentionPeriod": 1,
            "DatabaseName": "mydbcluster",
            "DBClusterIdentifier": "mydbcluster",
            "DBClusterParameterGroup": "default.aurora-mysql5.7",
            "DBSubnetGroup": "default",
            "Status": "available",
            "EarliestRestorableTime": "2019-06-19T09:16:28.210Z",
            "Endpoint": "mydbcluster.cluster-cnpexample.us-east-1.rds.amazonaws.com",
            "ReaderEndpoint": "mydbcluster.cluster-ro-cnpexample.us-east-1.rds.amazonaws.com",
            "MultiAZ": true,
            "Engine": "aurora-mysql",
            "EngineVersion": "5.7.mysql_aurora.2.04.2",
            "LatestRestorableTime": "2019-06-20T22:38:14.908Z",
            "Port": 3306,
            "MasterUsername": "myadmin",
            "PreferredBackupWindow": "09:09-09:39",
            "PreferredMaintenanceWindow": "sat:04:09-sat:04:39",
            "ReadReplicaIdentifiers": [],
            "DBClusterMembers": [
                {
                    "DBInstanceIdentifier": "dbinstance3",
                    "IsClusterWriter": false,
                    "DBClusterParameterGroupStatus": "in-sync",
                    "PromotionTier": 1
                },
                {
                    "DBInstanceIdentifier": "dbinstance1",
                    "IsClusterWriter": false,
                    "DBClusterParameterGroupStatus": "in-sync",
                    "PromotionTier": 1
                },
                {
                    "DBInstanceIdentifier": "dbinstance2",
                    "IsClusterWriter": false,
                    "DBClusterParameterGroupStatus": "in-sync",
                    "PromotionTier": 1
                },
                {
                    "DBInstanceIdentifier": "mydbcluster",
                    "IsClusterWriter": false,
                    "DBClusterParameterGroupStatus": "in-sync",
                    "PromotionTier": 1
                },
                {
                    "DBInstanceIdentifier": "mydbcluster-us-east-1b",
                    "IsClusterWriter": false,
                    "DBClusterParameterGroupStatus": "in-sync",
                    "PromotionTier": 1
                },
                {
                    "DBInstanceIdentifier": "mydbcluster",
                    "IsClusterWriter": true,
                    "DBClusterParameterGroupStatus": "in-sync",
                    "PromotionTier": 1
                }
            ],
            "VpcSecurityGroups": [
                {
                    "VpcSecurityGroupId": "sg-0b9130572daf3dc16",
                    "Status": "active"
                }
            ],
            "HostedZoneId": "Z2R2ITUGPM61AM",
            "StorageEncrypted": true,
            "KmsKeyId": "arn:aws:kms:us-east-1:814387698303:key/AKIAIOSFODNN7EXAMPLE",
            "DbClusterResourceId": "cluster-AKIAIOSFODNN7EXAMPLE",
            "DBClusterArn": "arn:aws:rds:us-east-1:123456789012:cluster:mydbcluster",
            "AssociatedRoles": [],
            "IAMDatabaseAuthenticationEnabled": false,
            "ClusterCreateTime": "2019-04-15T14:18:42.785Z",
            "EngineMode": "provisioned",
            "DeletionProtection": false,
            "HttpEndpointEnabled": false
        }
    ]
}
```
**Contoh 2: Untuk daftar atribut tertentu dari semua cluster DB**  
`describe-db-clusters`Contoh berikut hanya mengambil`DBClusterIdentifier`,`Endpoint`, dan `ReaderEndpoint` atribut semua cluster DB Anda di Wilayah saat ini AWS .  

```
aws rds describe-db-clusters \
    --query 'DBClusters[].{DBClusterIdentifier:DBClusterIdentifier,Endpoint:Endpoint,ReaderEndpoint:ReaderEndpoint}'
```
Output:  

```
[
    {
        "Endpoint": "cluster-57-2020-05-01-2270.cluster-cnpexample.us-east-1.rds.amazonaws.com",
        "ReaderEndpoint": "cluster-57-2020-05-01-2270.cluster-ro-cnpexample.us-east-1.rds.amazonaws.com",
        "DBClusterIdentifier": "cluster-57-2020-05-01-2270"
    },
    {
        "Endpoint": "cluster-57-2020-05-01-4615.cluster-cnpexample.us-east-1.rds.amazonaws.com",
        "ReaderEndpoint": "cluster-57-2020-05-01-4615.cluster-ro-cnpexample.us-east-1.rds.amazonaws.com",
        "DBClusterIdentifier": "cluster-57-2020-05-01-4615"
    },
    {
        "Endpoint": "pg2-cluster.cluster-cnpexample.us-east-1.rds.amazonaws.com",
        "ReaderEndpoint": "pg2-cluster.cluster-ro-cnpexample.us-east-1.rds.amazonaws.com",
        "DBClusterIdentifier": "pg2-cluster"
    },
    ...output omitted...
    }
]
```
**Contoh 3: Untuk daftar cluster DB dengan atribut tertentu**  
`describe-db-clusters`Contoh berikut hanya mengambil `DBClusterIdentifier` dan `Engine` atribut cluster DB Anda yang menggunakan mesin `aurora-postgresql` DB.  

```
aws rds describe-db-clusters \
    --query 'DBClusters[].{DBClusterIdentifier:DBClusterIdentifier,Engine:Engine} | [?Engine == `aurora-postgresql`]'
```
Output:  

```
[
    {
        "Engine": "aurora-postgresql",
        "DBClusterIdentifier": "pg2-cluster"
    }
]
```
Untuk informasi selengkapnya, lihat [Cluster DB Amazon Aurora di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Overview.html) Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeDbClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-clusters.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-engine-versions`
<a name="rds_DescribeDBEngineVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-engine-versions`.

**AWS CLI**  
**Untuk menggambarkan versi mesin DB untuk mesin MySQL DB**  
`describe-db-engine-versions`Contoh berikut menampilkan rincian tentang masing-masing versi mesin DB untuk mesin DB yang ditentukan.  

```
aws rds describe-db-engine-versions \
    --engine mysql
```
Output:  

```
{
    "DBEngineVersions": [
        {
            "Engine": "mysql",
            "EngineVersion": "5.5.46",
            "DBParameterGroupFamily": "mysql5.5",
            "DBEngineDescription": "MySQL Community Edition",
            "DBEngineVersionDescription": "MySQL 5.5.46",
            "ValidUpgradeTarget": [
                {
                    "Engine": "mysql",
                    "EngineVersion": "5.5.53",
                    "Description": "MySQL 5.5.53",
                    "AutoUpgrade": false,
                    "IsMajorVersionUpgrade": false
                },
                {
                    "Engine": "mysql",
                    "EngineVersion": "5.5.54",
                    "Description": "MySQL 5.5.54",
                    "AutoUpgrade": false,
                    "IsMajorVersionUpgrade": false
                },
                {
                    "Engine": "mysql",
                    "EngineVersion": "5.5.57",
                    "Description": "MySQL 5.5.57",
                    "AutoUpgrade": false,
                    "IsMajorVersionUpgrade": false
                },
                ...some output truncated...
            ]
        }
```
Untuk informasi selengkapnya, lihat [Apa itu Amazon Relational Database Service (Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/Welcome.html))? di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-engine-versions.html) dalam *Referensi AWS CLI Perintah*. 

### `describe-db-instance-automated-backups`
<a name="rds_DescribeDbInstanceAutomatedBackups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-instance-automated-backups`.

**AWS CLI**  
**Untuk menggambarkan backup otomatis untuk instans DB**  
`describe-db-instance-automated-backups`Contoh berikut menampilkan rincian tentang backup otomatis untuk instans DB tertentu. Detailnya termasuk cadangan otomatis yang direplikasi di Wilayah lain. AWS   

```
aws rds describe-db-instance-automated-backups \
    --db-instance-identifier new-orcl-db
```
Output:  

```
{
    "DBInstanceAutomatedBackups": [
        {
            "DBInstanceArn": "arn:aws:rds:us-east-1:123456789012:db:new-orcl-db",
            "DbiResourceId": "db-JKIB2GFQ5RV7REPLZA4EXAMPLE",
            "Region": "us-east-1",
            "DBInstanceIdentifier": "new-orcl-db",
            "RestoreWindow": {
                "EarliestTime": "2020-12-07T21:05:20.939Z",
                "LatestTime": "2020-12-07T21:05:20.939Z"
            },
            "AllocatedStorage": 20,
            "Status": "replicating",
            "Port": 1521,
            "InstanceCreateTime": "2020-12-04T15:28:31Z",
            "MasterUsername": "admin",
            "Engine": "oracle-se2",
            "EngineVersion": "12.1.0.2.v21",
            "LicenseModel": "bring-your-own-license",
            "OptionGroupName": "default:oracle-se2-12-1",
            "Encrypted": false,
            "StorageType": "gp2",
            "IAMDatabaseAuthenticationEnabled": false,
            "BackupRetentionPeriod": 14,
            "DBInstanceAutomatedBackupsArn": "arn:aws:rds:us-west-2:123456789012:auto-backup:ab-jkib2gfq5rv7replzadausbrktni2bn4example"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menemukan informasi tentang cadangan yang direplikasi di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ReplicateBackups.html#AutomatedBackups.Replicating.Describe) Pengguna *Amazon RDS*.  
+  Untuk detail API, lihat [DescribeDbInstanceAutomatedBackups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-instance-automated-backups.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-instances`
<a name="rds_DescribeDBInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-instances`.

**AWS CLI**  
**Untuk menggambarkan instance DB**  
`describe-db-instances`Contoh berikut mengambil rincian tentang instans DB tertentu.  

```
aws rds describe-db-instances \
    --db-instance-identifier mydbinstancecf
```
Output:  

```
{
    "DBInstances": [
        {
            "DBInstanceIdentifier": "mydbinstancecf",
            "DBInstanceClass": "db.t3.small",
            "Engine": "mysql",
            "DBInstanceStatus": "available",
            "MasterUsername": "masterawsuser",
            "Endpoint": {
                "Address": "mydbinstancecf.abcexample.us-east-1.rds.amazonaws.com",
                "Port": 3306,
                "HostedZoneId": "Z2R2ITUGPM61AM"
            },
            ...some output truncated...
        }
    ]
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-instances.html) di *Referensi AWS CLI Perintah*. 

### `describe-db-log-files`
<a name="rds_DescribeDbLogFiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-log-files`.

**AWS CLI**  
**Untuk mendeskripsikan file log untuk instance DB**  
`describe-db-log-files`Contoh berikut mengambil rincian tentang file log untuk instance DB tertentu.  

```
aws rds describe-db-log-files -\
    -db-instance-identifier test-instance
```
Output:  

```
{
    "DescribeDBLogFiles": [
        {
            "Size": 0,
            "LastWritten": 1533060000000,
            "LogFileName": "error/mysql-error-running.log"
        },
        {
            "Size": 2683,
            "LastWritten": 1532994300000,
            "LogFileName": "error/mysql-error-running.log.0"
        },
        {
            "Size": 107,
            "LastWritten": 1533057300000,
            "LogFileName": "error/mysql-error-running.log.18"
        },
        {
            "Size": 13105,
            "LastWritten": 1532991000000,
            "LogFileName": "error/mysql-error-running.log.23"
        },
        {
            "Size": 0,
            "LastWritten": 1533061200000,
            "LogFileName": "error/mysql-error.log"
        },
        {
            "Size": 3519,
            "LastWritten": 1532989252000,
            "LogFileName": "mysqlUpgrade"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeDbLogFiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-log-files.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-parameter-groups`
<a name="rds_DescribeDBParameterGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-parameter-groups`.

**AWS CLI**  
**Untuk menggambarkan grup parameter DB Anda**  
`describe-db-parameter-groups`Contoh berikut mengambil rincian tentang grup parameter DB Anda.  

```
aws rds describe-db-parameter-groups
```
Output:  

```
{
    "DBParameterGroups": [
        {
            "DBParameterGroupName": "default.aurora-mysql5.7",
            "DBParameterGroupFamily": "aurora-mysql5.7",
            "Description": "Default parameter group for aurora-mysql5.7",
            "DBParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:pg:default.aurora-mysql5.7"
        },
        {
            "DBParameterGroupName": "default.aurora-postgresql9.6",
            "DBParameterGroupFamily": "aurora-postgresql9.6",
            "Description": "Default parameter group for aurora-postgresql9.6",
            "DBParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:pg:default.aurora-postgresql9.6"
        },
        {
            "DBParameterGroupName": "default.aurora5.6",
            "DBParameterGroupFamily": "aurora5.6",
            "Description": "Default parameter group for aurora5.6",
            "DBParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:pg:default.aurora5.6"
        },
        {
            "DBParameterGroupName": "default.mariadb10.1",
            "DBParameterGroupFamily": "mariadb10.1",
            "Description": "Default parameter group for mariadb10.1",
            "DBParameterGroupArn": "arn:aws:rds:us-east-1:123456789012:pg:default.mariadb10.1"
        },
        ...some output truncated...
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Grup Parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-parameter-groups.html) dalam *Referensi AWS CLI Perintah*. 

### `describe-db-parameters`
<a name="rds_DescribeDBParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-parameters`.

**AWS CLI**  
**Untuk menggambarkan parameter dalam kelompok parameter DB**  
`describe-db-parameters`Contoh berikut mengambil rincian kelompok parameter DB yang ditentukan.  

```
aws rds describe-db-parameters \
    --db-parameter-group-name mydbpg
```
Output:  

```
{
    "Parameters": [
        {
            "ParameterName": "allow-suspicious-udfs",
            "Description": "Controls whether user-defined functions that have only an xxx symbol for the main function can be loaded",
            "Source": "engine-default",
            "ApplyType": "static",
            "DataType": "boolean",
            "AllowedValues": "0,1",
            "IsModifiable": false,
            "ApplyMethod": "pending-reboot"
        },
        {
            "ParameterName": "auto_generate_certs",
            "Description": "Controls whether the server autogenerates SSL key and certificate files in the data directory, if they do not already exist.",
            "Source": "engine-default",
            "ApplyType": "static",
            "DataType": "boolean",
            "AllowedValues": "0,1",
            "IsModifiable": false,
            "ApplyMethod": "pending-reboot"
        },
        ...some output truncated...
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Grup Parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-parameters.html) di *Referensi AWS CLI Perintah*. 

### `describe-db-proxies`
<a name="rds_DescribeDbProxies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-proxies`.

**AWS CLI**  
**Untuk menggambarkan proxy DB untuk database RDS**  
`describe-db-proxies`Contoh berikut mengembalikan informasi tentang proxy DB.  

```
aws rds describe-db-proxies
```
Output:  

```
{
    "DBProxies": [
        {
            "DBProxyName": "proxyExample1",
            "DBProxyArn": "arn:aws:rds:us-east-1:123456789012:db-proxy:prx-0123a01b12345c0ab",
            "Status": "available",
            "EngineFamily": "PostgreSQL",
            "VpcId": "vpc-1234567",
            "VpcSecurityGroupIds": [
                "sg-1234"
            ],
            "VpcSubnetIds": [
                "subnetgroup1",
                "subnetgroup2"
            ],
            "Auth": "[
                {
                    "Description": "proxydescription1"
                    "AuthScheme": "SECRETS",
                    "SecretArn": "arn:aws:secretsmanager:us-west-2:123456789123:secret:secretName-1234f",
                    "IAMAuth": "DISABLED"
                }
            ]",
            "RoleArn": "arn:aws:iam::12345678912??:role/ProxyPostgreSQLRole",
            "Endpoint": "proxyExample1.proxy-ab0cd1efghij.us-east-1.rds.amazonaws.com",
            "RequireTLS": false,
            "IdleClientTimeout": 1800,
            "DebuggingLogging": false,
            "CreatedDate": "2023-04-05T16:09:33.452000+00:00",
            "UpdatedDate": "2023-04-13T01:49:38.568000+00:00"
        },
        {
            "DBProxyName": "proxyExample2",
            "DBProxyArn": "arn:aws:rds:us-east-1:123456789012:db-proxy:prx-1234a12b23456c1ab",
            "Status": "available",
            "EngineFamily": "PostgreSQL",
            "VpcId": "sg-1234567",
            "VpcSecurityGroupIds": [
                "sg-1234"
            ],
            "VpcSubnetIds": [
                "subnetgroup1",
                "subnetgroup2"
            ],
            "Auth": "[
                {
                    "Description": "proxydescription2"
                    "AuthScheme": "SECRETS",
                    "SecretArn": "aarn:aws:secretsmanager:us-west-2:123456789123:secret:secretName-1234f",
                    "IAMAuth": "DISABLED"
                }
            ]",
            "RoleArn": "arn:aws:iam::12345678912:role/ProxyPostgreSQLRole",
            "Endpoint": "proxyExample2.proxy-ab0cd1efghij.us-east-1.rds.amazonaws.com",
            "RequireTLS": false,
            "IdleClientTimeout": 1800,
            "DebuggingLogging": false,
            "CreatedDate": "2022-01-05T16:19:33.452000+00:00",
            "UpdatedDate": "2023-04-13T01:49:38.568000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-setup.html#rds-proxy-viewing) di *Panduan Pengguna Amazon RDS dan [Melihat Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-setup.html#rds-proxy-viewing) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeDbProxies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-proxies.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-proxy-endpoints`
<a name="rds_DescribeDbProxyEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-proxy-endpoints`.

**AWS CLI**  
**Untuk menggambarkan titik akhir proxy DB**  
`describe-db-proxy-endpoints`Contoh berikut mengembalikan informasi tentang titik akhir proxy DB.  

```
aws rds describe-db-proxy-endpoints
```
Output:  

```
{
    "DBProxyEndpoints": [
        {
            "DBProxyEndpointName": "proxyEndpoint1",
            "DBProxyEndpointArn": "arn:aws:rds:us-east-1:123456789012:db-proxy-endpoint:prx-endpoint-0123a01b12345c0ab",
            "DBProxyName": "proxyExample",
            "Status": "available",
            "VpcId": "vpc-1234567",
            "VpcSecurityGroupIds": [
                "sg-1234"
            ],
            "VpcSubnetIds": [
                "subnetgroup1",
                "subnetgroup2"
            ],
            "Endpoint": "proxyEndpoint1.endpoint.proxy-ab0cd1efghij.us-east-1.rds.amazonaws.com",
            "CreatedDate": "2023-04-05T16:09:33.452000+00:00",
            "TargetRole": "READ_WRITE",
            "IsDefault": false
        },
        {
            "DBProxyEndpointName": "proxyEndpoint2",
            "DBProxyEndpointArn": "arn:aws:rds:us-east-1:123456789012:db-proxy-endpoint:prx-endpoint-4567a01b12345c0ab",
            "DBProxyName": "proxyExample2",
            "Status": "available",
            "VpcId": "vpc1234567",
            "VpcSecurityGroupIds": [
                "sg-5678"
            ],
            "VpcSubnetIds": [
                "subnetgroup1",
                "subnetgroup2"
            ],
            "Endpoint": "proxyEndpoint2.endpoint.proxy-cd1ef2klmnop.us-east-1.rds.amazonaws.com",
            "CreatedDate": "2023-04-05T16:09:33.452000+00:00",
            "TargetRole": "READ_WRITE",
            "IsDefault": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat titik akhir proxy](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-endpoints.html#rds-proxy-endpoints.DescribingEndpoint) di *Panduan Pengguna Amazon RDS dan [Membuat titik akhir proxy](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-endpoints.html#rds-proxy-endpoints.DescribingEndpoint) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeDbProxyEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-proxy-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-proxy-target-groups`
<a name="rds_DescribeDbProxyTargetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-proxy-target-groups`.

**AWS CLI**  
**Untuk menggambarkan titik akhir proxy DB**  
`describe-db-proxy-target-groups`Contoh berikut mengembalikan informasi tentang kelompok target proxy DB.  

```
aws rds describe-db-proxy-target-groups \
    --db-proxy-name proxyExample
```
Output:  

```
{
"TargetGroups":
    {
        "DBProxyName": "proxyExample",
        "TargetGroupName": "default",
        "TargetGroupArn": "arn:aws:rds:us-east-1:123456789012:target-group:prx-tg-0123a01b12345c0ab",
        "IsDefault": true,
        "Status": "available",
        "ConnectionPoolConfig": {
            "MaxConnectionsPercent": 100,
            "MaxIdleConnectionsPercent": 50,
            "ConnectionBorrowTimeout": 120,
            "SessionPinningFilters": []
        },
        "CreatedDate": "2023-05-02T18:41:19.495000+00:00",
        "UpdatedDate": "2023-05-02T18:41:21.762000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-setup.html#rds-proxy-viewing) di *Panduan Pengguna Amazon RDS dan [Melihat Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-setup.html#rds-proxy-viewing) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeDbProxyTargetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-proxy-target-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-proxy-targets`
<a name="rds_DescribeDbProxyTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-proxy-targets`.

**AWS CLI**  
**Untuk menggambarkan target proxy DB**  
`describe-db-proxy-targets`Contoh berikut mengembalikan informasi tentang target proxy DB.  

```
aws rds describe-db-proxy-targets \
    --db-proxy-name proxyExample
```
Output:  

```
{
    "Targets": [
        {
            "Endpoint": "database1.ab0cd1efghij.us-east-1.rds.amazonaws.com",
            "TrackedClusterId": "database1",
            "RdsResourceId": "database1-instance-1",
            "Port": 3306,
            "Type": "RDS_INSTANCE",
            "Role": "READ_WRITE",
            "TargetHealth": {
                "State": "UNAVAILABLE",
                "Reason": "PENDING_PROXY_CAPACITY",
                "Description": "DBProxy Target is waiting for proxy to scale to desired capacity"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-setup.html#rds-proxy-viewing) di *Panduan Pengguna Amazon RDS dan [Melihat proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-setup.html#rds-proxy-viewing) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeDbProxyTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-proxy-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-recommendations`
<a name="rds_DescribeDbRecommendations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-recommendations`.

**AWS CLI**  
**Contoh 1: Untuk daftar semua rekomendasi DB**  
`describe-db-recommendations`Contoh berikut mencantumkan semua rekomendasi DB di AWS akun Anda.  

```
aws rds describe-db-recommendations
```
Output:  

```
{
    "DBRecommendations": [
        {
            "RecommendationId": "12ab3cde-f456-7g8h-9012-i3j45678k9lm",
            "TypeId": "config_recommendation::old_minor_version",
            "Severity": "informational",
            "ResourceArn": "arn:aws:rds:us-west-2:111122223333:db:database-1",
            "Status": "active",
            "CreatedTime": "2024-02-21T23:14:19.292000+00:00",
            "UpdatedTime": "2024-02-21T23:14:19+00:00",
            "Detection": "**[resource-name]** is not running the latest minor DB engine version",
            "Recommendation": "Upgrade to latest engine version",
            "Description": "Your database resources aren't running the latest minor DB engine version. The latest minor version contains the latest security fixes and other improvements.",
            "RecommendedActions": [
                {
                    "ActionId": "12ab34c5de6fg7h89i0jk1lm234n5678",
                    "Operation": "modifyDbInstance",
                    "Parameters": [
                        {
                            "Key": "EngineVersion",
                            "Value": "5.7.44"
                        },
                        {
                            "Key": "DBInstanceIdentifier",
                            "Value": "database-1"
                        }
                    ],
                    "ApplyModes": [
                        "immediately",
                        "next-maintenance-window"
                    ],
                    "Status": "ready",
                    "ContextAttributes": [
                        {
                            "Key": "Recommended value",
                            "Value": "5.7.44"
                        },
                        {
                            "Key": "Current engine version",
                            "Value": "5.7.42"
                        }
                    ]
                }
            ],
            "Category": "security",
            "Source": "RDS",
            "TypeDetection": "**[resource-count] resources** are not running the latest minor DB engine version",
            "TypeRecommendation": "Upgrade to latest engine version",
            "Impact": "Reduced database performance and data security at risk",
            "AdditionalInfo": "We recommend that you maintain your database with the latest DB engine minor version as this version includes the latest security and functionality fixes. The DB engine minor version upgrades contain only the changes which are backward-compatible with earlier minor versions of the same major version of the DB engine.",
            "Links": [
                {
                    "Text": "Upgrading an RDS DB instance engine version",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_UpgradeDBInstance.Upgrading.html"
                },
                {
                    "Text": "Using Amazon RDS Blue/Green Deployments for database updates for Amazon Aurora",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments.html"
                },
                {
                    "Text": "Using Amazon RDS Blue/Green Deployments for database updates for Amazon RDS",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/blue-green-deployments.html"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat dan menanggapi rekomendasi Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/monitoring-recommendations.html) di *Panduan Pengguna Amazon RDS* [dan Melihat serta menanggapi rekomendasi Amazon RDS di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/monitoring-recommendations.html) *Aurora*.  
**Contoh 2: Untuk membuat daftar rekomendasi DB tingkat keparahan tinggi**  
`describe-db-recommendations`Contoh berikut mencantumkan rekomendasi DB tingkat keparahan tinggi di AWS akun Anda.  

```
aws rds describe-db-recommendations \
    --filters Name=severity,Values=high
```
Output:  

```
{
    "DBRecommendations": [
        {
            "RecommendationId": "12ab3cde-f456-7g8h-9012-i3j45678k9lm",
            "TypeId": "config_recommendation::rds_extended_support",
            "Severity": "high",
            "ResourceArn": "arn:aws:rds:us-west-2:111122223333:db:database-1",
            "Status": "active",
            "CreatedTime": "2024-02-21T23:14:19.392000+00:00",
            "UpdatedTime": "2024-02-21T23:14:19+00:00",
            "Detection": "Your databases will be auto-enrolled to RDS Extended Support on February 29",
            "Recommendation": "Upgrade your major version before February 29, 2024 to avoid additional charges",
            "Description": "Your PostgreSQL 11 and MySQL 5.7 databases will be automatically enrolled into RDS Extended Support on February 29, 2024. To avoid the increase in charges due to RDS Extended Support, we recommend upgrading your databases to a newer major engine version before February 29, 2024.\nTo learn more about the RDS Extended Support pricing, refer to the pricing page.",
            "RecommendedActions": [
                {
                    "ActionId": "12ab34c5de6fg7h89i0jk1lm234n5678",
                    "Parameters": [],
                    "ApplyModes": [
                        "manual"
                    ],
                    "Status": "ready",
                    "ContextAttributes": []
                }
            ],
            "Category": "cost optimization",
            "Source": "RDS",
            "TypeDetection": "Your database will be auto-enrolled to RDS Extended Support on February 29",
            "TypeRecommendation": "Upgrade your major version before February 29, 2024 to avoid additional charges",
            "Impact": "Increase in charges due to RDS Extended Support",
            "AdditionalInfo": "With Amazon RDS Extended Support, you can continue running your database on a major engine version past the RDS end of standard support date for an additional cost. This paid feature gives you more time to upgrade to a supported major engine version.\nDuring Extended Support, Amazon RDS will supply critical CVE patches and bug fixes.",
            "Links": [
                {
                    "Text": "Amazon RDS Extended Support pricing for RDS for MySQL",
                    "Url": "https://aws.amazon.com/rds/mysql/pricing/"
                },
                {
                    "Text": "Amazon RDS Extended Support for RDS for MySQL and PostgreSQL databases",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html"
                },
                {
                    "Text": "Amazon RDS Extended Support pricing for Amazon Aurora PostgreSQL",
                    "Url": "https://aws.amazon.com/rds/aurora/pricing/"
                },
                {
                    "Text": "Amazon RDS Extended Support for Aurora PostgreSQL databases",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/extended-support.html"
                },
                {
                    "Text": "Amazon RDS Extended Support pricing for RDS for PostgreSQL",
                    "Url": "https://aws.amazon.com/rds/postgresql/pricing/"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat dan menanggapi rekomendasi Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/monitoring-recommendations.html) di *Panduan Pengguna Amazon RDS* [dan Melihat serta menanggapi rekomendasi Amazon RDS di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/monitoring-recommendations.html) *Aurora*.  
**Contoh 3: Untuk daftar rekomendasi DB untuk instans DB tertentu**  
`describe-db-recommendations`Contoh berikut mencantumkan semua rekomendasi DB untuk instance DB tertentu.  

```
aws rds describe-db-recommendations \
    --filters Name=dbi-resource-id,Values=database-1
```
Output:  

```
{
    "DBRecommendations": [
        {
            "RecommendationId": "12ab3cde-f456-7g8h-9012-i3j45678k9lm",
            "TypeId": "config_recommendation::old_minor_version",
            "Severity": "informational",
            "ResourceArn": "arn:aws:rds:us-west-2:111122223333:db:database-1",
            "Status": "active",
            "CreatedTime": "2024-02-21T23:14:19.292000+00:00",
            "UpdatedTime": "2024-02-21T23:14:19+00:00",
            "Detection": "**[resource-name]** is not running the latest minor DB engine version",
            "Recommendation": "Upgrade to latest engine version",
            "Description": "Your database resources aren't running the latest minor DB engine version. The latest minor version contains the latest security fixes and other improvements.",
            "RecommendedActions": [
                {
                    "ActionId": "12ab34c5de6fg7h89i0jk1lm234n5678",
                    "Operation": "modifyDbInstance",
                    "Parameters": [
                        {
                            "Key": "EngineVersion",
                            "Value": "5.7.44"
                        },
                        {
                            "Key": "DBInstanceIdentifier",
                            "Value": "database-1"
                        }
                    ],
                    "ApplyModes": [
                        "immediately",
                        "next-maintenance-window"
                    ],
                    "Status": "ready",
                    "ContextAttributes": [
                        {
                            "Key": "Recommended value",
                            "Value": "5.7.44"
                        },
                        {
                            "Key": "Current engine version",
                            "Value": "5.7.42"
                        }
                    ]
                }
            ],
            "Category": "security",
            "Source": "RDS",
            "TypeDetection": "**[resource-count] resources** are not running the latest minor DB engine version",
            "TypeRecommendation": "Upgrade to latest engine version",
            "Impact": "Reduced database performance and data security at risk",
            "AdditionalInfo": "We recommend that you maintain your database with the latest DB engine minor version as this version includes the latest security and functionality fixes. The DB engine minor version upgrades contain only the changes which are backward-compatible with earlier minor versions of the same major version of the DB engine.",
            "Links": [
                {
                    "Text": "Upgrading an RDS DB instance engine version",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_UpgradeDBInstance.Upgrading.html"
                },
                {
                    "Text": "Using Amazon RDS Blue/Green Deployments for database updates for Amazon Aurora",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments.html"
                },
                {
                    "Text": "Using Amazon RDS Blue/Green Deployments for database updates for Amazon RDS",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/blue-green-deployments.html"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat dan menanggapi rekomendasi Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/monitoring-recommendations.html) di *Panduan Pengguna Amazon RDS* [dan Melihat serta menanggapi rekomendasi Amazon RDS di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/monitoring-recommendations.html) *Aurora*.  
**Contoh 4: Untuk daftar semua rekomendasi DB aktif**  
`describe-db-recommendations`Contoh berikut mencantumkan semua rekomendasi DB aktif di AWS akun Anda.  

```
aws rds describe-db-recommendations \
    --filters Name=status,Values=active
```
Output:  

```
{
    "DBRecommendations": [
        {
            "RecommendationId": "12ab3cde-f456-7g8h-9012-i3j45678k9lm",
            "TypeId": "config_recommendation::old_minor_version",
            "Severity": "informational",
            "ResourceArn": "arn:aws:rds:us-west-2:111122223333:db:database-1",
            "Status": "active",
            "CreatedTime": "2024-02-21T23:14:19.292000+00:00",
            "UpdatedTime": "2024-02-21T23:14:19+00:00",
            "Detection": "**[resource-name]** is not running the latest minor DB engine version",
            "Recommendation": "Upgrade to latest engine version",
            "Description": "Your database resources aren't running the latest minor DB engine version. The latest minor version contains the latest security fixes and other improvements.",
            "RecommendedActions": [
                {
                    "ActionId": "12ab34c5de6fg7h89i0jk1lm234n5678",
                    "Operation": "modifyDbInstance",
                    "Parameters": [
                        {
                            "Key": "EngineVersion",
                            "Value": "5.7.44"
                        },
                        {
                            "Key": "DBInstanceIdentifier",
                            "Value": "database-1"
                        }
                    ],
                    "ApplyModes": [
                        "immediately",
                        "next-maintenance-window"
                    ],
                    "Status": "ready",
                    "ContextAttributes": [
                        {
                            "Key": "Recommended value",
                            "Value": "5.7.44"
                        },
                        {
                            "Key": "Current engine version",
                            "Value": "5.7.42"
                        }
                    ]
                }
            ],
            "Category": "security",
            "Source": "RDS",
            "TypeDetection": "**[resource-count] resources** are not running the latest minor DB engine version",
            "TypeRecommendation": "Upgrade to latest engine version",
            "Impact": "Reduced database performance and data security at risk",
            "AdditionalInfo": "We recommend that you maintain your database with the latest DB engine minor version as this version includes the latest security and functionality fixes. The DB engine minor version upgrades contain only the changes which are backward-compatible with earlier minor versions of the same major version of the DB engine.",
            "Links": [
                {
                    "Text": "Upgrading an RDS DB instance engine version",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_UpgradeDBInstance.Upgrading.html"
                },
                {
                    "Text": "Using Amazon RDS Blue/Green Deployments for database updates for Amazon Aurora",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments.html"
                },
                {
                    "Text": "Using Amazon RDS Blue/Green Deployments for database updates for Amazon RDS",
                    "Url": "https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/blue-green-deployments.html"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat dan menanggapi rekomendasi Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/monitoring-recommendations.html) di *Panduan Pengguna Amazon RDS* [dan Melihat serta menanggapi rekomendasi Amazon RDS di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/monitoring-recommendations.html) *Aurora*.  
+  Untuk detail API, lihat [DescribeDbRecommendations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-recommendations.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-security-groups`
<a name="rds_DescribeDbSecurityGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-security-groups`.

**AWS CLI**  
**Untuk daftar grup keamanan DB**  
`describe-db-security-groups`Contoh berikut mencantumkan grup keamanan DB.  

```
aws rds describe-db-security-groups
```
Output:  

```
{
    "DBSecurityGroups": [
        {
            "OwnerId": "123456789012",
            "DBSecurityGroupName": "default",
            "DBSecurityGroupDescription": "default",
            "EC2SecurityGroups": [],
            "IPRanges": [],
            "DBSecurityGroupArn": "arn:aws:rds:us-west-1:111122223333:secgrp:default"
        },
        {
            "OwnerId": "123456789012",
            "DBSecurityGroupName": "mysecgroup",
            "DBSecurityGroupDescription": "My Test Security Group",
            "VpcId": "vpc-1234567f",
            "EC2SecurityGroups": [],
            "IPRanges": [],
            "DBSecurityGroupArn": "arn:aws:rds:us-west-1:111122223333:secgrp:mysecgroup"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Grup Keamanan DB yang Tersedia](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithSecurityGroups.html#USER_WorkingWithSecurityGroups.Listing) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [DescribeDbSecurityGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-security-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-shard-groups`
<a name="rds_DescribeDbShardGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-shard-groups`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan kelompok pecahan DB**  
`describe-db-shard-groups`Contoh berikut mengambil rincian grup shard DB Anda.  

```
aws rds describe-db-shard-groups
```
Output:  

```
{
    "DBShardGroups": [
        {
            "DBShardGroupResourceId": "shardgroup-7bb446329da94788b3f957746example",
            "DBShardGroupIdentifier": "limitless-test-shard-grp",
            "DBClusterIdentifier": "limitless-test-cluster",
            "MaxACU": 768.0,
            "ComputeRedundancy": 0,
            "Status": "available",
            "PubliclyAccessible": true,
            "Endpoint": "limitless-test-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
        },
        {
            "DBShardGroupResourceId": "shardgroup-a6e3a0226aa243e2ac6c7a1234567890",
            "DBShardGroupIdentifier": "my-db-shard-group",
            "DBClusterIdentifier": "my-sv2-cluster",
            "MaxACU": 768.0,
            "ComputeRedundancy": 0,
            "Status": "available",
            "PubliclyAccessible": false,
            "Endpoint": "my-sv2-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cluster DB Amazon Aurora di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Overview.html) Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeDbShardGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-shard-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-snapshot-attributes`
<a name="rds_DescribeDbSnapshotAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-snapshot-attributes`.

**AWS CLI**  
**Untuk mendeskripsikan nama atribut dan nilai untuk snapshot DB**  
`describe-db-snapshot-attributes`Contoh berikut menjelaskan nama atribut dan nilai untuk snapshot DB.  

```
aws rds describe-db-snapshot-attributes \
    --db-snapshot-identifier mydbsnapshot
```
Output:  

```
{
    "DBSnapshotAttributesResult": {
        "DBSnapshotIdentifier": "mydbsnapshot",
        "DBSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": [
                    "123456789012",
                    "210987654321"
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Berbagi Snapshot DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ShareSnapshot.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [DescribeDbSnapshotAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-snapshot-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-db-snapshots`
<a name="rds_DescribeDBSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-snapshots`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan snapshot DB untuk instance DB**  
`describe-db-snapshots`Contoh berikut mengambil rincian snapshot DB untuk instance DB.  

```
aws rds describe-db-snapshots \
    --db-snapshot-identifier mydbsnapshot
```
Output:  

```
{
    "DBSnapshots": [
        {
            "DBSnapshotIdentifier": "mydbsnapshot",
            "DBInstanceIdentifier": "mysqldb",
            "SnapshotCreateTime": "2018-02-08T22:28:08.598Z",
            "Engine": "mysql",
            "AllocatedStorage": 20,
            "Status": "available",
            "Port": 3306,
            "AvailabilityZone": "us-east-1f",
            "VpcId": "vpc-6594f31c",
            "InstanceCreateTime": "2018-02-08T22:24:55.973Z",
            "MasterUsername": "mysqladmin",
            "EngineVersion": "5.6.37",
            "LicenseModel": "general-public-license",
            "SnapshotType": "manual",
            "OptionGroupName": "default:mysql-5-6",
            "PercentProgress": 100,
            "StorageType": "gp2",
            "Encrypted": false,
            "DBSnapshotArn": "arn:aws:rds:us-east-1:123456789012:snapshot:mydbsnapshot",
            "IAMDatabaseAuthenticationEnabled": false,
            "ProcessorFeatures": [],
            "DbiResourceId": "db-AKIAIOSFODNN7EXAMPLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat Snapshot DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_CreateSnapshot.html) di *Panduan Pengguna Amazon RDS*.  
**Contoh 2: Untuk menemukan jumlah snapshot manual yang diambil**  
`describe-db-snapshots`Contoh berikut menggunakan `length` operator dalam `--query` opsi untuk mengembalikan jumlah snapshot manual yang telah diambil di AWS Wilayah tertentu.  

```
aws rds describe-db-snapshots \
    --snapshot-type manual \
    --query "length(*[].{DBSnapshots:SnapshotType})" \
    --region eu-central-1
```
Output:  

```
35
```
Untuk informasi selengkapnya, lihat [Membuat Snapshot DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_CreateSnapshot.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Menjelaskan DBSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-snapshots.html) di *Referensi AWS CLI Perintah*. 

### `describe-db-subnet-groups`
<a name="rds_DescribeDbSubnetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-db-subnet-groups`.

**AWS CLI**  
**Untuk menggambarkan grup subnet DB**  
`describe-db-subnet-groups`Contoh berikut mengambil rincian kelompok subnet DB yang ditentukan.  

```
aws rds describe-db-subnet-groups
```
Output:  

```
{
    "DBSubnetGroups": [
        {
            "DBSubnetGroupName": "mydbsubnetgroup",
            "DBSubnetGroupDescription": "My DB Subnet Group",
            "VpcId": "vpc-971c12ee",
            "SubnetGroupStatus": "Complete",
            "Subnets": [
                {
                    "SubnetIdentifier": "subnet-d8c8e7f4",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1a"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-718fdc7d",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1f"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-cbc8e7e7",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1a"
                    },
                    "SubnetStatus": "Active"
                },
                {
                    "SubnetIdentifier": "subnet-0ccde220",
                    "SubnetAvailabilityZone": {
                        "Name": "us-east-1a"
                    },
                    "SubnetStatus": "Active"
                }
            ],
            "DBSubnetGroupArn": "arn:aws:rds:us-east-1:123456789012:subgrp:mydbsubnetgroup"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Amazon Virtual Private Cloud VPCs dan Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_VPC.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [DescribeDbSubnetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-db-subnet-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-engine-default-cluster-parameters`
<a name="rds_DescribeEngineDefaultClusterParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-engine-default-cluster-parameters`.

**AWS CLI**  
**Untuk mendeskripsikan mesin default dan informasi parameter sistem untuk mesin database Aurora**  
`describe-engine-default-cluster-parameters`Contoh berikut mengambil rincian mesin default dan informasi parameter sistem untuk cluster Aurora DB dengan kompatibilitas MySQL 5.7.  

```
aws rds describe-engine-default-cluster-parameters \
    --db-parameter-group-family aurora-mysql5.7
```
Output:  

```
{
    "EngineDefaults": {
        "Parameters": [
            {
                "ParameterName": "aurora_load_from_s3_role",
                "Description": "IAM role ARN used to load data from AWS S3",
                "Source": "engine-default",
                "ApplyType": "dynamic",
                "DataType": "string",
                "IsModifiable": true,
                "SupportedEngineModes": [
                    "provisioned"
                ]
            },
            ...some output truncated...
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Grup Parameter DB dan Grup Parameter Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [DescribeEngineDefaultClusterParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-engine-default-cluster-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-engine-default-parameters`
<a name="rds_DescribeEngineDefaultParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-engine-default-parameters`.

**AWS CLI**  
**Untuk menggambarkan mesin default dan informasi parameter sistem untuk mesin database**  
`describe-engine-default-parameters`Contoh berikut mengambil rincian untuk mesin default dan informasi parameter sistem untuk MySQL 5.7 instans DB.  

```
aws rds describe-engine-default-parameters \
    --db-parameter-group-family mysql5.7
```
Output:  

```
{
    "EngineDefaults": {
        "Parameters": [
            {
                "ParameterName": "allow-suspicious-udfs",
                "Description": "Controls whether user-defined functions that have only an xxx symbol for the main function can be loaded",
                "Source": "engine-default",
                "ApplyType": "static",
                "DataType": "boolean",
                "AllowedValues": "0,1",
                "IsModifiable": false
            },
            ...some output truncated...
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Grup Parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [DescribeEngineDefaultParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-engine-default-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-categories`
<a name="rds_DescribeEventCategories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-categories`.

**AWS CLI**  
**Untuk menggambarkan kategori acara**  
`describe-event-categories`Contoh berikut mengambil rincian tentang kategori acara untuk semua sumber acara yang tersedia.  

```
aws rds describe-event-categories
```
Output:  

```
{
    "EventCategoriesMapList": [
        {
            "SourceType": "db-instance",
            "EventCategories": [
                "deletion",
                "read replica",
                "failover",
                "restoration",
                "maintenance",
                "low storage",
                "configuration change",
                "backup",
                "creation",
                "availability",
                "recovery",
                "failure",
                "backtrack",
                "notification"
            ]
        },
        {
            "SourceType": "db-security-group",
            "EventCategories": [
                "configuration change",
                "failure"
            ]
        },
        {
            "SourceType": "db-parameter-group",
            "EventCategories": [
                "configuration change"
            ]
        },
        {
            "SourceType": "db-snapshot",
            "EventCategories": [
                "deletion",
                "creation",
                "restoration",
                "notification"
            ]
        },
        {
            "SourceType": "db-cluster",
            "EventCategories": [
                "failover",
                "failure",
                "notification"
            ]
        },
        {
            "SourceType": "db-cluster-snapshot",
            "EventCategories": [
                "backup"
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeEventCategories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-event-categories.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-subscriptions`
<a name="rds_DescribeEventSubscriptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-subscriptions`.

**AWS CLI**  
**Untuk menggambarkan langganan acara**  
Contoh ini menjelaskan semua langganan acara Amazon RDS untuk akun saat ini AWS .  

```
aws rds describe-event-subscriptions
```
Output:  

```
{
    "EventSubscriptionsList": [
        {
            "EventCategoriesList": [
                "backup",
                "recovery"
            ],
            "Enabled": true,
            "EventSubscriptionArn": "arn:aws:rds:us-east-1:123456789012:es:my-instance-events",
            "Status": "creating",
            "SourceType": "db-instance",
            "CustomerAwsId": "123456789012",
            "SubscriptionCreationTime": "2018-07-31 23:22:01.893",
            "CustSubscriptionId": "my-instance-events",
            "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:interesting-events"
        },
        ...some output truncated...
    ]
}
```
+  Untuk detail API, lihat [DescribeEventSubscriptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-event-subscriptions.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="rds_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
**Untuk menggambarkan peristiwa**  
`describe-events`Contoh berikut mengambil rincian untuk peristiwa yang telah terjadi untuk instans DB tertentu.  

```
aws rds describe-events \
    --source-identifier test-instance \
    --source-type db-instance
```
Output:  

```
{
    "Events": [
        {
            "SourceType": "db-instance",
            "SourceIdentifier": "test-instance",
            "EventCategories": [
                "backup"
            ],
            "Message": "Backing up DB instance",
            "Date": "2018-07-31T23:09:23.983Z",
            "SourceArn": "arn:aws:rds:us-east-1:123456789012:db:test-instance"
        },
        {
            "SourceType": "db-instance",
            "SourceIdentifier": "test-instance",
            "EventCategories": [
                "backup"
            ],
            "Message": "Finished DB Instance backup",
            "Date": "2018-07-31T23:15:13.049Z",
            "SourceArn": "arn:aws:rds:us-east-1:123456789012:db:test-instance"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-export-tasks`
<a name="rds_DescribeExportTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-export-tasks`.

**AWS CLI**  
**Untuk menggambarkan tugas ekspor snapshot**  
`describe-export-tasks`Contoh berikut mengembalikan informasi tentang ekspor snapshot ke Amazon S3.  

```
aws rds describe-export-tasks
```
Output:  

```
{
    "ExportTasks": [
        {
            "ExportTaskIdentifier": "test-snapshot-export",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:snapshot:test-snapshot",
            "SnapshotTime": "2020-03-02T18:26:28.163Z",
            "TaskStartTime": "2020-03-02T18:57:56.896Z",
            "TaskEndTime": "2020-03-02T19:10:31.985Z",
            "S3Bucket": "amzn-s3-demo-bucket",
            "S3Prefix": "",
            "IamRoleArn": "arn:aws:iam::123456789012:role/service-role/ExportRole",
            "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/abcd0000-7fca-4128-82f2-aabbccddeeff",
            "Status": "COMPLETE",
            "PercentProgress": 100,
            "TotalExtractedDataInGB": 0
        },
        {
            "ExportTaskIdentifier": "my-s3-export",
            "SourceArn": "arn:aws:rds:us-west-2:123456789012:snapshot:db5-snapshot-test",
            "SnapshotTime": "2020-03-27T20:48:42.023Z",
            "S3Bucket": "amzn-s3-demo-bucket",
            "S3Prefix": "",
            "IamRoleArn": "arn:aws:iam::123456789012:role/service-role/ExportRole",
            "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/abcd0000-7fca-4128-82f2-aabbccddeeff",
            "Status": "STARTING",
            "PercentProgress": 0,
            "TotalExtractedDataInGB": 0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memantau Ekspor Snapshot](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ExportSnapshot.html#USER_ExportSnapshot.Monitoring) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [DescribeExportTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-export-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-global-clusters`
<a name="rds_DescribeGlobalClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-global-clusters`.

**AWS CLI**  
**Untuk menggambarkan cluster DB global**  
`describe-global-clusters`Contoh berikut mencantumkan cluster DB global Aurora di Wilayah saat ini. AWS   

```
aws rds describe-global-clusters
```
Output:  

```
{
    "GlobalClusters": [
        {
            "GlobalClusterIdentifier": "myglobalcluster",
            "GlobalClusterResourceId": "cluster-f5982077e3b5aabb",
            "GlobalClusterArn": "arn:aws:rds::123456789012:global-cluster:myglobalcluster",
            "Status": "available",
            "Engine": "aurora-mysql",
            "EngineVersion": "5.7.mysql_aurora.2.07.2",
            "StorageEncrypted": false,
            "DeletionProtection": false,
            "GlobalClusterMembers": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola database global Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-global-database-managing.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [DescribeGlobalClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-global-clusters.html)di *Referensi AWS CLI Perintah*. 

### `describe-option-group-options`
<a name="rds_DescribeOptionGroupOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-option-group-options`.

**AWS CLI**  
**Untuk menjelaskan semua opsi yang tersedia**  
`describe-option-group-options`Contoh berikut mencantumkan dua opsi untuk contoh Oracle Database 19c.  

```
aws rds describe-option-group-options \
    --engine-name oracle-ee \
    --major-engine-version 19 \
    --max-items 2
```
Output:  

```
{
    "OptionGroupOptions": [
        {
            "Name": "APEX",
            "Description": "Oracle Application Express Runtime Environment",
            "EngineName": "oracle-ee",
            "MajorEngineVersion": "19",
            "MinimumRequiredMinorEngineVersion": "0.0.0.ru-2019-07.rur-2019-07.r1",
            "PortRequired": false,
            "OptionsDependedOn": [],
            "OptionsConflictsWith": [],
            "Persistent": false,
            "Permanent": false,
            "RequiresAutoMinorEngineVersionUpgrade": false,
            "VpcOnly": false,
            "SupportsOptionVersionDowngrade": false,
            "OptionGroupOptionSettings": [],
            "OptionGroupOptionVersions": [
                {
                    "Version": "19.1.v1",
                    "IsDefault": true
                },
                {
                    "Version": "19.2.v1",
                    "IsDefault": false
                }
            ]
        },
        {
            "Name": "APEX-DEV",
            "Description": "Oracle Application Express Development Environment",
            "EngineName": "oracle-ee",
            "MajorEngineVersion": "19",
            "MinimumRequiredMinorEngineVersion": "0.0.0.ru-2019-07.rur-2019-07.r1",
            "PortRequired": false,
            "OptionsDependedOn": [
                "APEX"
            ],
            "OptionsConflictsWith": [],
            "Persistent": false,
            "Permanent": false,
            "RequiresAutoMinorEngineVersionUpgrade": false,
            "VpcOnly": false,
            "OptionGroupOptionSettings": []
        }
    ],
    "NextToken": "eyJNYXJrZXIiOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAyfQ=="
}
```
Untuk informasi selengkapnya, lihat [Daftar Pengaturan Opsi dan Opsi untuk Grup Opsi](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithOptionGroups.html#USER_WorkingWithOptionGroups.ListOption) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [DescribeOptionGroupOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-option-group-options.html)di *Referensi AWS CLI Perintah*. 

### `describe-option-groups`
<a name="rds_DescribeOptionGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-option-groups`.

**AWS CLI**  
**Untuk menjelaskan grup opsi yang tersedia**  
`describe-option-groups`Contoh berikut mencantumkan grup opsi untuk contoh Oracle Database 19c.  

```
aws rds describe-option-groups \
    --engine-name oracle-ee \
    --major-engine-version 19
```
Output:  

```
{
    "OptionGroupsList": [
        {
            "OptionGroupName": "default:oracle-ee-19",
            "OptionGroupDescription": "Default option group for oracle-ee 19",
            "EngineName": "oracle-ee",
            "MajorEngineVersion": "19",
            "Options": [],
            "AllowsVpcAndNonVpcInstanceMemberships": true,
            "OptionGroupArn": "arn:aws:rds:us-west-1:111122223333:og:default:oracle-ee-19"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Pengaturan Opsi dan Opsi untuk Grup Opsi](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithOptionGroups.html#USER_WorkingWithOptionGroups.ListOption) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [DescribeOptionGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-option-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-orderable-db-instance-options`
<a name="rds_DescribeOrderableDBInstanceOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-orderable-db-instance-options`.

**AWS CLI**  
**Untuk menjelaskan opsi instans DB yang dapat dipesan**  
`describe-orderable-db-instance-options`Contoh berikut mengambil rincian tentang opsi yang dapat dipesan untuk instance DB yang menjalankan mesin MySQL DB.  

```
aws rds describe-orderable-db-instance-options \
    --engine mysql
```
Output:  

```
{
    "OrderableDBInstanceOptions": [
        {
            "MinStorageSize": 5,
            "ReadReplicaCapable": true,
            "MaxStorageSize": 6144,
            "AvailabilityZones": [
                {
                    "Name": "us-east-1a"
                },
                {
                    "Name": "us-east-1b"
                },
                {
                    "Name": "us-east-1c"
                },
                {
                    "Name": "us-east-1d"
                }
            ],
            "SupportsIops": false,
            "AvailableProcessorFeatures": [],
            "MultiAZCapable": true,
            "DBInstanceClass": "db.m1.large",
            "Vpc": true,
            "StorageType": "gp2",
            "LicenseModel": "general-public-license",
            "EngineVersion": "5.5.46",
            "SupportsStorageEncryption": false,
            "SupportsEnhancedMonitoring": true,
            "Engine": "mysql",
            "SupportsIAMDatabaseAuthentication": false,
            "SupportsPerformanceInsights": false
        }
    ]
    ...some output truncated...
}
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-orderable-db-instance-options.html) di *Referensi AWS CLI Perintah*. 

### `describe-pending-maintenance-actions`
<a name="rds_DescribePendingMaintenanceActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-pending-maintenance-actions`.

**AWS CLI**  
**Untuk membuat daftar sumber daya dengan setidaknya satu tindakan pemeliharaan yang tertunda**  
`describe-pending-maintenance-actions`Contoh berikut mencantumkan tindakan pemeliharaan tertunda untuk instance DB.  

```
aws rds describe-pending-maintenance-actions
```
Output:  

```
{
    "PendingMaintenanceActions": [
        {
            "ResourceIdentifier": "arn:aws:rds:us-west-2:123456789012:cluster:global-db1-cl1",
            "PendingMaintenanceActionDetails": [
                {
                    "Action": "system-update",
                    "Description": "Upgrade to Aurora PostgreSQL 2.4.2"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mempertahankan Instans DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_UpgradeDBInstance.Maintenance.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [DescribePendingMaintenanceActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-pending-maintenance-actions.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-db-instances-offerings`
<a name="rds_DescribeReservedDbInstancesOfferings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-db-instances-offerings`.

**AWS CLI**  
**Untuk menggambarkan penawaran instans DB yang dipesan**  
`describe-reserved-db-instances-offerings`Contoh berikut mengambil rincian tentang opsi instans DB yang dicadangkan untuk`oracle`.  

```
aws rds describe-reserved-db-instances-offerings \
    --product-description oracle
```
Output:  

```
{
    "ReservedDBInstancesOfferings": [
        {
            "CurrencyCode": "USD",
            "UsagePrice": 0.0,
            "ProductDescription": "oracle-se2(li)",
            "ReservedDBInstancesOfferingId": "005bdee3-9ef4-4182-aa0c-58ef7cb6c2f8",
            "MultiAZ": true,
            "DBInstanceClass": "db.m4.xlarge",
            "OfferingType": "Partial Upfront",
            "RecurringCharges": [
                {
                    "RecurringChargeAmount": 0.594,
                    "RecurringChargeFrequency": "Hourly"
                }
            ],
            "FixedPrice": 4089.0,
            "Duration": 31536000
        },
    ...some output truncated...
}
```
+  Untuk detail API, lihat [DescribeReservedDbInstancesOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-reserved-db-instances-offerings.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-db-instances`
<a name="rds_DescribeReservedDbInstances_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-db-instances`.

**AWS CLI**  
**Untuk menggambarkan instans DB yang dicadangkan**  
`describe-reserved-db-instances`Contoh berikut mengambil rincian tentang instans DB yang dicadangkan di akun saat ini AWS .  

```
aws rds describe-reserved-db-instances
```
Output:  

```
{
    "ReservedDBInstances": [
        {
            "ReservedDBInstanceId": "myreservedinstance",
            "ReservedDBInstancesOfferingId": "12ab34cd-59af-4b2c-a660-1abcdef23456",
            "DBInstanceClass": "db.t3.micro",
            "StartTime": "2020-06-01T13:44:21.436Z",
            "Duration": 31536000,
            "FixedPrice": 0.0,
            "UsagePrice": 0.0,
            "CurrencyCode": "USD",
            "DBInstanceCount": 1,
            "ProductDescription": "sqlserver-ex(li)",
            "OfferingType": "No Upfront",
            "MultiAZ": false,
            "State": "payment-pending",
            "RecurringCharges": [
                {
                    "RecurringChargeAmount": 0.014,
                    "RecurringChargeFrequency": "Hourly"
                }
            ],
            "ReservedDBInstanceArn": "arn:aws:rds:us-west-2:123456789012:ri:myreservedinstance",
            "LeaseId": "a1b2c3d4-6b69-4a59-be89-5e11aa446666"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Instans DB Cadangan untuk Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithReservedDBInstances.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [DescribeReservedDbInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-reserved-db-instances.html)di *Referensi AWS CLI Perintah*. 

### `describe-source-regions`
<a name="rds_DescribeSourceRegions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-source-regions`.

**AWS CLI**  
**Untuk mendeskripsikan daerah sumber**  
`describe-source-regions`Contoh berikut mengambil rincian tentang semua AWS Wilayah sumber. Ini juga menunjukkan bahwa cadangan otomatis hanya dapat direplikasi dari AS Barat (Oregon) ke AWS Wilayah tujuan, AS Timur (Virginia N.).  

```
aws rds describe-source-regions \
    --region us-east-1
```
Output:  

```
{
    "SourceRegions": [
        {
            "RegionName": "af-south-1",
            "Endpoint": "https://rds.af-south-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": false
        },
        {
            "RegionName": "ap-east-1",
            "Endpoint": "https://rds.ap-east-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": false
        },
        {
            "RegionName": "ap-northeast-1",
            "Endpoint": "https://rds.ap-northeast-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "ap-northeast-2",
            "Endpoint": "https://rds.ap-northeast-2.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "ap-northeast-3",
            "Endpoint": "https://rds.ap-northeast-3.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": false
        },
        {
            "RegionName": "ap-south-1",
            "Endpoint": "https://rds.ap-south-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "ap-southeast-1",
            "Endpoint": "https://rds.ap-southeast-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "ap-southeast-2",
            "Endpoint": "https://rds.ap-southeast-2.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "ap-southeast-3",
            "Endpoint": "https://rds.ap-southeast-3.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": false
        },
        {
            "RegionName": "ca-central-1",
            "Endpoint": "https://rds.ca-central-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "eu-north-1",
            "Endpoint": "https://rds.eu-north-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "eu-south-1",
            "Endpoint": "https://rds.eu-south-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": false
        },
        {
            "RegionName": "eu-west-1",
            "Endpoint": "https://rds.eu-west-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "eu-west-2",
            "Endpoint": "https://rds.eu-west-2.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "eu-west-3",
            "Endpoint": "https://rds.eu-west-3.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "me-central-1",
             "Endpoint": "https://rds.me-central-1.amazonaws.com",
             "Status": "available",
             "SupportsDBInstanceAutomatedBackupsReplication": false
        },
        {
            "RegionName": "me-south-1",
            "Endpoint": "https://rds.me-south-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": false
        },
        {
            "RegionName": "sa-east-1",
            "Endpoint": "https://rds.sa-east-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "us-east-2",
            "Endpoint": "https://rds.us-east-2.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "us-west-1",
            "Endpoint": "https://rds.us-west-1.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        },
        {
            "RegionName": "us-west-2",
           "Endpoint": "https://rds.us-west-2.amazonaws.com",
            "Status": "available",
            "SupportsDBInstanceAutomatedBackupsReplication": true
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menemukan informasi tentang cadangan yang direplikasi di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ReplicateBackups.html#AutomatedBackups.Replicating.Describe) Pengguna *Amazon RDS*.  
+  Untuk detail API, lihat [DescribeSourceRegions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-source-regions.html)di *Referensi AWS CLI Perintah*. 

### `describe-valid-db-instance-modifications`
<a name="rds_DescribeValidDbInstanceModifications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-valid-db-instance-modifications`.

**AWS CLI**  
**Untuk menjelaskan modifikasi yang valid untuk instans DB**  
`describe-valid-db-instance-modifications`Contoh berikut mengambil rincian tentang modifikasi yang valid untuk instans DB tertentu.  

```
aws rds describe-valid-db-instance-modifications \
    --db-instance-identifier test-instance
```
Output:  

```
{
    "ValidDBInstanceModificationsMessage": {
        "ValidProcessorFeatures": [],
        "Storage": [
            {
                "StorageSize": [
                    {
                        "Step": 1,
                        "To": 20,
                        "From": 20
                    },
                    {
                        "Step": 1,
                        "To": 6144,
                        "From": 22
                    }
                ],
                "ProvisionedIops": [
                    {
                        "Step": 1,
                        "To": 0,
                        "From": 0
                    }
                ],
                "IopsToStorageRatio": [
                    {
                        "To": 0.0,
                        "From": 0.0
                    }
                ],
                "StorageType": "gp2"
            },
            {
                "StorageSize": [
                    {
                        "Step": 1,
                        "To": 6144,
                        "From": 100
                    }
                ],
                "ProvisionedIops": [
                    {
                        "Step": 1,
                        "To": 40000,
                        "From": 1000
                    }
                ],
                "IopsToStorageRatio": [
                    {
                        "To": 50.0,
                        "From": 1.0
                    }
                ],
                "StorageType": "io1"
            },
            {
                "StorageSize": [
                    {
                        "Step": 1,
                        "To": 20,
                        "From": 20
                    },
                    {
                        "Step": 1,
                        "To": 3072,
                        "From": 22
                    }
                ],
                "ProvisionedIops": [
                    {
                        "Step": 1,
                        "To": 0,
                        "From": 0
                    }
                ],
                "IopsToStorageRatio": [
                    {
                        "To": 0.0,
                        "From": 0.0
                    }
                ],
                "StorageType": "magnetic"
            }
        ]
    }
}
```
+  Untuk detail API, lihat [DescribeValidDbInstanceModifications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/describe-valid-db-instance-modifications.html)di *Referensi AWS CLI Perintah*. 

### `download-db-log-file-portion`
<a name="rds_DownloadDbLogFilePortion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`download-db-log-file-portion`.

**AWS CLI**  
**Contoh 1: Untuk mengunduh bagian terbaru dari file log DB**  
`download-db-log-file-portion`Contoh berikut hanya mengunduh bagian terbaru dari file log Anda, menyimpannya ke file lokal bernama`tail.txt`.  

```
aws rds download-db-log-file-portion \
    --db-instance-identifier test-instance \
    --log-file-name log.txt \
    --output text > tail.txt
```
File yang disimpan mungkin berisi baris kosong. Mereka muncul di akhir setiap bagian dari file log saat sedang diunduh.  
**Contoh 2: Untuk mengunduh seluruh file log DB**  
`download-db-log-file-portion`Contoh berikut mengunduh seluruh file log, menggunakan `--starting-token 0` parameter, dan menyimpan output ke file lokal bernama`full.txt`.  

```
aws rds download-db-log-file-portion \
    --db-instance-identifier test-instance \
    --log-file-name log.txt \
    --starting-token 0 \
    --output text > full.txt
```
File yang disimpan mungkin berisi baris kosong. Mereka muncul di akhir setiap bagian dari file log saat sedang diunduh.  
+  Untuk detail API, lihat [DownloadDbLogFilePortion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/download-db-log-file-portion.html)di *Referensi AWS CLI Perintah*. 

### `generate-auth-token`
<a name="rds_GenerateAuthToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-auth-token`.

**AWS CLI**  
**Untuk menghasilkan token otentikasi**  
`generate-db-auth-token`Contoh berikut menghasilkan token otentikasi untuk digunakan dengan otentikasi database IAM.  

```
aws rds generate-db-auth-token \
    --hostname aurmysql-test.cdgmuqiadpid.us-west-2.rds.amazonaws.com \
    --port 3306 \
    --region us-east-1 \
    --username jane_doe
```
Output:  

```
aurmysql-test.cdgmuqiadpid.us-west-2.rds.amazonaws.com:3306/?Action=connect&DBUser=jane_doe&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAIESZCNJ3OEXAMPLE%2F20180731%2Fus-east-1%2Frds-db%2Faws4_request&X-Amz-Date=20180731T235209Z&X-Amz-Expires=900&X-Amz-SignedHeaders=host&X-Amz-Signature=5a8753ebEXAMPLEa2c724e5667797EXAMPLE9d6ec6e3f427191fa41aeEXAMPLE
```
+  Untuk detail API, lihat [GenerateAuthToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/generate-auth-token.html)di *Referensi AWS CLI Perintah*. 

### `generate-db-auth-token`
<a name="rds_GenerateDbAuthToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`generate-db-auth-token`.

**AWS CLI**  
**Untuk menghasilkan token otentikasi IAM**  
`generate-db-auth-token`Contoh berikut menghasilkan token otentikasi IAM untuk terhubung ke database.  

```
aws rds generate-db-auth-token \
    --hostname mydb.123456789012.us-east-1.rds.amazonaws.com \
    --port 3306 \
    --region us-east-1 \
    --username db_user
```
Output:  

```
mydb.123456789012.us-east-1.rds.amazonaws.com:3306/?Action=connect&DBUser=db_user&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAIEXAMPLE%2Fus-east-1%2Frds-db%2Faws4_request&X-Amz-Date=20210123T011543Z&X-Amz-Expires=900&X-Amz-SignedHeaders=host&X-Amz-Signature=88987EXAMPLE1EXAMPLE2EXAMPLE3EXAMPLE4EXAMPLE5EXAMPLE6
```
*Untuk informasi selengkapnya, lihat [Menyambungkan ke instans DB menggunakan autentikasi IAM](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/UsingWithRDS.IAMDBAuth.Connecting.html) di *Panduan Pengguna Amazon RDS* dan [Menyambungkan ke cluster DB menggunakan autentikasi IAM di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/UsingWithRDS.IAMDBAuth.Connecting.html) Panduan Pengguna Amazon Aurora.*  
+  Untuk detail API, lihat [GenerateDbAuthToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/generate-db-auth-token.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="rds_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag pada sumber daya Amazon RDS**  
`list-tags-for-resource`Contoh berikut mencantumkan semua tag pada instance DB.  

```
aws rds list-tags-for-resource \
    --resource-name arn:aws:rds:us-east-1:123456789012:db:orcl1
```
Output:  

```
{
    "TagList": [
        {
            "Key": "Environment",
            "Value": "test"
        },
        {
            "Key": "Name",
            "Value": "MyDatabase"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_Tagging.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `modify-certificates`
<a name="rds_ModifyCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-certificates`.

**AWS CLI**  
**Untuk mengganti sementara SSL/TLS sertifikat default sistem untuk instans DB baru**  
`modify-certificates`Contoh berikut untuk sementara mengesampingkan SSL/TLS sertifikat system-default untuk instance DB baru.  

```
aws rds modify-certificates \
    --certificate-identifier rds-ca-2019
```
Output:  

```
{
    "Certificate": {
        "CertificateIdentifier": "rds-ca-2019",
        "CertificateType": "CA",
        "Thumbprint": "EXAMPLE123456789012",
        "ValidFrom": "2019-09-19T18:16:53Z",
        "ValidTill": "2024-08-22T17:08:50Z",
        "CertificateArn": "arn:aws:rds:us-east-1::cert:rds-ca-2019",
        "CustomerOverride": true,
        "CustomerOverrideValidTill": "2024-08-22T17:08:50Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Memutar SSL/TLS sertifikat Anda](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/UsingWithRDS.SSL-certificate-rotation.html) di *Panduan Pengguna Amazon RDS dan [Memutar SSL/TLS sertifikat Anda](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/UsingWithRDS.SSL-certificate-rotation.html) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [ModifyCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-certificates.html)di *Referensi AWS CLI Perintah*. 

### `modify-current-db-cluster-capacity`
<a name="rds_ModifyCurrentDbClusterCapacity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-current-db-cluster-capacity`.

**AWS CLI**  
**Untuk menskalakan kapasitas cluster DB Aurora Serverless**  
`modify-current-db-cluster-capacity`Contoh berikut menskalakan kapasitas cluster DB Tanpa Server Aurora menjadi 8.  

```
aws rds modify-current-db-cluster-capacity \
    --db-cluster-identifier mydbcluster \
    --capacity 8
```
Output:  

```
{
    "DBClusterIdentifier": "mydbcluster",
    "PendingCapacity": 8,
    "CurrentCapacity": 1,
    "SecondsBeforeTimeout": 300,
    "TimeoutAction": "ForceApplyCapacityChange"
}
```
*Untuk informasi selengkapnya, lihat [Menskalakan kapasitas klaster V1 DB Tanpa Server Aurora secara manual di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-serverless.setting-capacity.html) Panduan Pengguna Amazon Aurora.*  
+  Untuk detail API, lihat [ModifyCurrentDbClusterCapacity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-current-db-cluster-capacity.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-cluster-endpoint`
<a name="rds_ModifyDbClusterEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-cluster-endpoint`.

**AWS CLI**  
**Untuk memodifikasi titik akhir cluster DB kustom**  
`modify-db-cluster-endpoint`Contoh berikut memodifikasi titik akhir cluster DB kustom yang ditentukan.  

```
aws rds modify-db-cluster-endpoint \
    --db-cluster-endpoint-identifier mycustomendpoint \
    --static-members dbinstance1 dbinstance2 dbinstance3
```
Output:  

```
{
    "DBClusterEndpointIdentifier": "mycustomendpoint",
    "DBClusterIdentifier": "mydbcluster",
    "DBClusterEndpointResourceIdentifier": "cluster-endpoint-ANPAJ4AE5446DAEXAMPLE",
    "Endpoint": "mycustomendpoint.cluster-custom-cnpexample.us-east-1.rds.amazonaws.com",
    "Status": "modifying",
    "EndpointType": "CUSTOM",
    "CustomEndpointType": "READER",
    "StaticMembers": [
        "dbinstance1",
        "dbinstance2",
        "dbinstance3"
    ],
    "ExcludedMembers": [],
    "DBClusterEndpointArn": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:mycustomendpoint"
}
```
Untuk informasi selengkapnya, lihat [Manajemen Koneksi Amazon Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Overview.Endpoints.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [ModifyDbClusterEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-cluster-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-cluster-parameter-group`
<a name="rds_ModifyDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-cluster-parameter-group`.

**AWS CLI**  
**Untuk memodifikasi parameter dalam kelompok parameter cluster DB**  
`modify-db-cluster-parameter-group`Contoh berikut memodifikasi nilai-nilai parameter dalam kelompok parameter cluster DB.  

```
aws rds modify-db-cluster-parameter-group \
    --db-cluster-parameter-group-name mydbclusterpg \
    --parameters "ParameterName=server_audit_logging,ParameterValue=1,ApplyMethod=immediate" \
                 "ParameterName=server_audit_logs_upload,ParameterValue=1,ApplyMethod=immediate"
```
Output:  

```
{
    "DBClusterParameterGroupName": "mydbclusterpg"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup parameter DB dan grup parameter cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [ModifyDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-cluster-snapshot-attribute`
<a name="rds_ModifyDbClusterSnapshotAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-cluster-snapshot-attribute`.

**AWS CLI**  
**Untuk memodifikasi atribut snapshot cluster DB**  
`modify-db-cluster-snapshot-attribute`Contoh berikut membuat perubahan pada atribut snapshot cluster DB yang ditentukan.  

```
aws rds modify-db-cluster-snapshot-attribute \
    --db-cluster-snapshot-identifier myclustersnapshot \
    --attribute-name restore \
    --values-to-add 123456789012
```
Output:  

```
{
    "DBClusterSnapshotAttributesResult": {
        "DBClusterSnapshotIdentifier": "myclustersnapshot",
        "DBClusterSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": [
                    "123456789012"
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan dari Snapshot Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_RestoreFromSnapshot.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [ModifyDbClusterSnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-cluster-snapshot-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-cluster`
<a name="rds_ModifyDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-cluster`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi cluster DB**  
`modify-db-cluster`Contoh berikut mengubah kata sandi pengguna utama untuk cluster DB bernama `cluster-2` dan menetapkan periode retensi cadangan menjadi 14 hari. `--apply-immediately`Parameter menyebabkan perubahan segera dilakukan, alih-alih menunggu hingga jendela pemeliharaan berikutnya.  

```
aws rds modify-db-cluster \
    --db-cluster-identifier cluster-2 \
    --backup-retention-period 14 \
    --master-user-password newpassword99 \
    --apply-immediately
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "eu-central-1b",
            "eu-central-1c",
            "eu-central-1a"
        ],
        "BackupRetentionPeriod": 14,
        "DatabaseName": "",
        "DBClusterIdentifier": "cluster-2",
        "DBClusterParameterGroup": "default.aurora5.6",
        "DBSubnetGroup": "default-vpc-2305ca49",
        "Status": "available",
        "EarliestRestorableTime": "2020-06-03T02:07:29.637Z",
        "Endpoint": "cluster-2.cluster-############.eu-central-1.rds.amazonaws.com",
        "ReaderEndpoint": "cluster-2.cluster-ro-############.eu-central-1.rds.amazonaws.com",
        "MultiAZ": false,
        "Engine": "aurora",
        "EngineVersion": "5.6.10a",
        "LatestRestorableTime": "2020-06-04T15:11:25.748Z",
        "Port": 3306,
        "MasterUsername": "admin",
        "PreferredBackupWindow": "01:55-02:25",
        "PreferredMaintenanceWindow": "thu:21:14-thu:21:44",
        "ReadReplicaIdentifiers": [],
        "DBClusterMembers": [
            {
                "DBInstanceIdentifier": "cluster-2-instance-1",
                "IsClusterWriter": true,
                "DBClusterParameterGroupStatus": "in-sync",
                "PromotionTier": 1
            }
        ],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-20a5c047",
                "Status": "active"
            }
        ],
        "HostedZoneId": "Z1RLNU0EXAMPLE",
        "StorageEncrypted": true,
        "KmsKeyId": "arn:aws:kms:eu-central-1:123456789012:key/d1bd7c8f-5cdb-49ca-8a62-a1b2c3d4e5f6",
        "DbClusterResourceId": "cluster-AGJ7XI77XVIS6FUXHU1EXAMPLE",
        "DBClusterArn": "arn:aws:rds:eu-central-1:123456789012:cluster:cluster-2",
        "AssociatedRoles": [],
        "IAMDatabaseAuthenticationEnabled": false,
        "ClusterCreateTime": "2020-04-03T14:44:02.764Z",
        "EngineMode": "provisioned",
        "DeletionProtection": false,
        "HttpEndpointEnabled": false,
        "CopyTagsToSnapshot": true,
        "CrossAccountClone": false,
        "DomainMemberships": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Cluster DB Amazon Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Modifying.html) di Panduan Pengguna *Amazon Aurora*.  
**Contoh 2: Untuk mengaitkan grup keamanan VPC dengan cluster DB**  
`modify-db-instance`Contoh berikut mengaitkan grup keamanan VPC tertentu dan menghapus grup keamanan DB dari cluster DB.  

```
aws rds modify-db-cluster \
    --db-cluster-identifier dbName \
    --vpc-security-group-ids sg-ID
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "us-west-2c",
            "us-west-2b",
            "us-west-2a"
        ],
        "BackupRetentionPeriod": 1,
        "DBClusterIdentifier": "dbName",
        "DBClusterParameterGroup": "default.aurora-mysql8.0",
        "DBSubnetGroup": "default",
        "Status": "available",
        "EarliestRestorableTime": "2024-02-15T01:12:13.966000+00:00",
        "Endpoint": "dbName.cluster-abcdefghji.us-west-2.rds.amazonaws.com",
        "ReaderEndpoint": "dbName.cluster-ro-abcdefghji.us-west-2.rds.amazonaws.com",
        "MultiAZ": false,
        "Engine": "aurora-mysql",
        "EngineVersion": "8.0.mysql_aurora.3.04.1",
        "LatestRestorableTime": "2024-02-15T02:25:33.696000+00:00",
        "Port": 3306,
        "MasterUsername": "admin",
        "PreferredBackupWindow": "10:59-11:29",
        "PreferredMaintenanceWindow": "thu:08:54-thu:09:24",
        "ReadReplicaIdentifiers": [],
        "DBClusterMembers": [
            {
                "DBInstanceIdentifier": "dbName-instance-1",
                "IsClusterWriter": true,
                "DBClusterParameterGroupStatus": "in-sync",
                "PromotionTier": 1
            }
        ],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-ID",
                "Status": "active"
            }
        ],
        ...output omitted...
    }
}
```
Untuk informasi selengkapnya, lihat [Mengontrol akses dengan grup keamanan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Overview.RDSSecurityGroups.html) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [ModifyDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-instance`
<a name="rds_ModifyDBInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-instance`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi instance DB**  
`modify-db-instance`Contoh berikut mengaitkan grup opsi dan grup parameter dengan instance Microsoft SQL Server DB yang kompatibel. `--apply-immediately`Parameter menyebabkan grup opsi dan parameter segera dikaitkan, alih-alih menunggu hingga jendela pemeliharaan berikutnya.  

```
aws rds modify-db-instance \
    --db-instance-identifier database-2 \
    --option-group-name test-se-2017 \
    --db-parameter-group-name test-sqlserver-se-2017 \
    --apply-immediately
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceIdentifier": "database-2",
        "DBInstanceClass": "db.r4.large",
        "Engine": "sqlserver-se",
        "DBInstanceStatus": "available",

        ...output omitted...

        "DBParameterGroups": [
            {
                "DBParameterGroupName": "test-sqlserver-se-2017",
                "ParameterApplyStatus": "applying"
            }
        ],
        "AvailabilityZone": "us-west-2d",

        ...output omitted...

        "MultiAZ": true,
        "EngineVersion": "14.00.3281.6.v1",
        "AutoMinorVersionUpgrade": false,
        "ReadReplicaDBInstanceIdentifiers": [],
        "LicenseModel": "license-included",
        "OptionGroupMemberships": [
            {
                "OptionGroupName": "test-se-2017",
                "Status": "pending-apply"
            }
        ],
        "CharacterSetName": "SQL_Latin1_General_CP1_CI_AS",
        "SecondaryAvailabilityZone": "us-west-2c",
        "PubliclyAccessible": true,
        "StorageType": "gp2",

        ...output omitted...

        "DeletionProtection": false,
        "AssociatedRoles": [],
        "MaxAllocatedStorage": 1000
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Instans Amazon RDS DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/Overview.DBInstance.Modifying.html) di Panduan Pengguna *Amazon RDS.*  
**Contoh 2: Untuk mengaitkan grup keamanan VPC dengan instans DB**  
`modify-db-instance`Contoh berikut mengaitkan grup keamanan VPC tertentu dan menghapus grup keamanan DB dari instans DB:  

```
aws rds modify-db-instance \
    --db-instance-identifier dbName \
    --vpc-security-group-ids sg-ID
```
Output:  

```
{
"DBInstance": {
    "DBInstanceIdentifier": "dbName",
    "DBInstanceClass": "db.t3.micro",
    "Engine": "mysql",
    "DBInstanceStatus": "available",
    "MasterUsername": "admin",
    "Endpoint": {
        "Address": "dbName.abcdefghijk.us-west-2.rds.amazonaws.com",
        "Port": 3306,
        "HostedZoneId": "ABCDEFGHIJK1234"
    },
    "AllocatedStorage": 20,
    "InstanceCreateTime": "2024-02-15T00:37:58.793000+00:00",
    "PreferredBackupWindow": "11:57-12:27",
    "BackupRetentionPeriod": 7,
    "DBSecurityGroups": [],
    "VpcSecurityGroups": [
        {
            "VpcSecurityGroupId": "sg-ID",
            "Status": "active"
        }
    ],
    ... output omitted ...
    "MultiAZ": false,
    "EngineVersion": "8.0.35",
    "AutoMinorVersionUpgrade": true,
    "ReadReplicaDBInstanceIdentifiers": [],
    "LicenseModel": "general-public-license",

    ... output omitted ...
    }
}
```
Untuk informasi selengkapnya, lihat [Mengontrol akses dengan grup keamanan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/Overview.RDSSecurityGroups.html) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Memodifikasi DBInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-instance.html) dalam *Referensi AWS CLI Perintah*. 

### `modify-db-parameter-group`
<a name="rds_ModifyDBParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-parameter-group`.

**AWS CLI**  
**Untuk memodifikasi grup parameter DB**  
`modify-db-parameter-group`Contoh berikut mengubah nilai parameter dalam kelompok `clr enabled` parameter DB. `--apply-immediately`Parameter menyebabkan grup parameter DB segera dimodifikasi, alih-alih menunggu hingga jendela pemeliharaan berikutnya.  

```
aws rds modify-db-parameter-group \
    --db-parameter-group-name test-sqlserver-se-2017 \
    --parameters "ParameterName='clr enabled',ParameterValue=1,ApplyMethod=immediate"
```
Output:  

```
{
    "DBParameterGroupName": "test-sqlserver-se-2017"
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Parameter dalam Grup Parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html#USER_WorkingWithParamGroups.Modifying) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [Memodifikasi DBParameter Grup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-parameter-group.html) di *Referensi AWS CLI Perintah*. 

### `modify-db-proxy-endpoint`
<a name="rds_ModifyDbProxyEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-proxy-endpoint`.

**AWS CLI**  
**Untuk memodifikasi titik akhir proxy DB untuk database RDS**  
`modify-db-proxy-endpoint`Contoh berikut memodifikasi titik akhir proxy DB `proxyEndpoint` untuk mengatur waktu baca menjadi 65 detik.  

```
aws rds modify-db-proxy-endpoint \
    --db-proxy-endpoint-name proxyEndpoint \
    --cli-read-timeout 65
```
Output:  

```
{
"DBProxyEndpoint":
    {
        "DBProxyEndpointName": "proxyEndpoint",
        "DBProxyEndpointArn": "arn:aws:rds:us-east-1:123456789012:db-proxy-endpoint:prx-endpoint-0123a01b12345c0ab",
        "DBProxyName": "proxyExample",
        "Status": "available",
        "VpcId": "vpc-1234567",
        "VpcSecurityGroupIds": [
            "sg-1234"
        ],
        "VpcSubnetIds": [
            "subnetgroup1",
            "subnetgroup2"
        ],
        "Endpoint": "proxyEndpoint.endpoint.proxyExample-ab0cd1efghij.us-east-1.rds.amazonaws.com",
        "CreatedDate": "2023-04-05T16:09:33.452000+00:00",
        "TargetRole": "READ_WRITE",
        "IsDefault": "false"
    }
}
```
*Untuk informasi selengkapnya, lihat [Memodifikasi titik akhir proxy](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-endpoints.html#rds-proxy-endpoints.ModifyingEndpoint) di *Panduan Pengguna Amazon RDS dan [Memodifikasi titik akhir proxy di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-endpoints.html#rds-proxy-endpoints.ModifyingEndpoint) Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [ModifyDbProxyEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-proxy-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-proxy-target-group`
<a name="rds_ModifyDbProxyTargetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-proxy-target-group`.

**AWS CLI**  
**Untuk memodifikasi titik akhir proxy DB**  
`modify-db-proxy-target-group`Contoh berikut memodifikasi grup target proxy DB untuk mengatur koneksi maksimum hingga 80 persen dan koneksi idle maksimum menjadi 10 persen.  

```
aws rds modify-db-proxy-target-group \
    --target-group-name default \
    --db-proxy-name proxyExample \
    --connection-pool-config MaxConnectionsPercent=80,MaxIdleConnectionsPercent=10
```
Output:  

```
{
"DBProxyTargetGroup":
    {
        "DBProxyName": "proxyExample",
        "TargetGroupName": "default",
        "TargetGroupArn": "arn:aws:rds:us-east-1:123456789012:target-group:prx-tg-0123a01b12345c0ab",
        "IsDefault": true,
        "Status": "available",
        "ConnectionPoolConfig": {
            "MaxConnectionsPercent": 80,
            "MaxIdleConnectionsPercent": 10,
            "ConnectionBorrowTimeout": 120,
            "SessionPinningFilters": []
        },
        "CreatedDate": "2023-05-02T18:41:19.495000+00:00",
        "UpdatedDate": "2023-05-02T18:41:21.762000+00:00"
    }
}
```
*Untuk informasi selengkapnya, lihat [Memodifikasi Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-managing.html#rds-proxy-modifying-proxy) di *Panduan Pengguna Amazon RDS dan [Memodifikasi Proxy RDS di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-managing.html#rds-proxy-modifying-proxy) Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [ModifyDbProxyTargetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-proxy-target-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-proxy`
<a name="rds_ModifyDbProxy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-proxy`.

**AWS CLI**  
**Untuk memodifikasi proxy DB untuk database RDS**  
`modify-db-proxy`Contoh berikut memodifikasi proxy DB bernama `proxyExample` memerlukan SSL untuk koneksinya.  

```
aws rds modify-db-proxy \
    --db-proxy-name proxyExample \
    --require-tls
```
Output:  

```
{
"DBProxy":
    {
        "DBProxyName": "proxyExample",
        "DBProxyArn": "arn:aws:rds:us-east-1:123456789012:db-proxy:prx-0123a01b12345c0ab",
        "Status": "modifying"
        "EngineFamily": "PostgreSQL",
        "VpcId": "sg-1234567",
        "VpcSecurityGroupIds": [
            "sg-1234"
        ],
        "VpcSubnetIds": [
            "subnetgroup1",
            "subnetgroup2"
        ],
        "Auth": "[
            {
                "Description": "proxydescription1",
                "AuthScheme": "SECRETS",
                "SecretArn": "arn:aws:secretsmanager:us-west-2:123456789123:secret:proxysecret1-Abcd1e",
                "IAMAuth": "DISABLED"
            }
        ]",
        "RoleArn": "arn:aws:iam::12345678912:role/ProxyPostgreSQLRole",
        "Endpoint": "proxyExample.proxy-ab0cd1efghij.us-east-1.rds.amazonaws.com",
        "RequireTLS": true,
        "IdleClientTimeout": 1800,
        "DebuggingLogging": false,
        "CreatedDate": "2023-04-05T16:09:33.452000+00:00",
        "UpdatedDate": "2023-04-13T01:49:38.568000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-managing.html#rds-proxy-modifying-proxy) di *Panduan Pengguna Amazon RDS* dan [Membuat Proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-managing.html#rds-proxy-modifying-proxy) di Panduan Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [ModifyDbProxy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-proxy.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-shard-group`
<a name="rds_ModifyDbShardGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-shard-group`.

**AWS CLI**  
**Contoh 1: Untuk memodifikasi grup pecahan DB**  
`modify-db-shard-group`Contoh berikut mengubah kapasitas maksimum grup shard DB.  

```
aws rds modify-db-shard-group \
    --db-shard-group-identifier my-db-shard-group \
    --max-acu 1000
```
Output:  

```
{
    "DBShardGroups": [
        {
            "DBShardGroupResourceId": "shardgroup-a6e3a0226aa243e2ac6c7a1234567890",
            "DBShardGroupIdentifier": "my-db-shard-group",
            "DBClusterIdentifier": "my-sv2-cluster",
            "MaxACU": 768.0,
            "ComputeRedundancy": 0,
            "Status": "available",
            "PubliclyAccessible": false,
            "Endpoint": "my-sv2-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cluster DB Amazon Aurora di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Overview.html) Pengguna *Amazon* Aurora.  
**Contoh 2: Untuk menggambarkan grup pecahan DB Anda**  
`describe-db-shard-groups`Contoh berikut mengambil rincian grup shard DB Anda setelah Anda menjalankan perintah. `modify-db-shard-group` Kapasitas maksimum grup `my-db-shard-group` pecahan DB sekarang 1000 unit ACUs kapasitas Aurora ().  

```
aws rds describe-db-shard-groups
```
Output:  

```
{
    "DBShardGroups": [
        {
            "DBShardGroupResourceId": "shardgroup-7bb446329da94788b3f957746example",
            "DBShardGroupIdentifier": "limitless-test-shard-grp",
            "DBClusterIdentifier": "limitless-test-cluster",
            "MaxACU": 768.0,
            "ComputeRedundancy": 0,
            "Status": "available",
            "PubliclyAccessible": true,
            "Endpoint": "limitless-test-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
        },
        {
            "DBShardGroupResourceId": "shardgroup-a6e3a0226aa243e2ac6c7a1234567890",
            "DBShardGroupIdentifier": "my-db-shard-group",
            "DBClusterIdentifier": "my-sv2-cluster",
            "MaxACU": 1000.0,
            "ComputeRedundancy": 0,
            "Status": "available",
            "PubliclyAccessible": false,
            "Endpoint": "my-sv2-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cluster DB Amazon Aurora di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/Aurora.Overview.html) Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [ModifyDbShardGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-shard-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-snapshot-attribute`
<a name="rds_ModifyDbSnapshotAttribute_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-snapshot-attribute`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan dua AWS akun untuk memulihkan snapshot DB**  
`modify-db-snapshot-attribute`Contoh berikut memberikan izin ke dua AWS akun, dengan pengidentifikasi `111122223333` dan`444455556666`, untuk mengembalikan snapshot DB bernama. `mydbsnapshot`  

```
aws rds modify-db-snapshot-attribute \
    --db-snapshot-identifier mydbsnapshot \
    --attribute-name restore \
    --values-to-add {"111122223333","444455556666"}
```
Output:  

```
{
    "DBSnapshotAttributesResult": {
        "DBSnapshotIdentifier": "mydbsnapshot",
        "DBSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": [
                    "111122223333",
                    "444455556666"
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Berbagi Snapshot](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ShareSnapshot.html#USER_ShareSnapshot.Sharing) di *Panduan Pengguna Amazon RDS*.  
**Contoh 2: Untuk mencegah AWS akun memulihkan snapshot DB**  
`modify-db-snapshot-attribute`Contoh berikut menghapus izin dari AWS akun tertentu untuk mengembalikan snapshot DB bernama`mydbsnapshot`. Saat menentukan satu akun, pengenal akun tidak dapat dikelilingi oleh tanda kutip atau tanda kurung gigi.  

```
aws rds modify-db-snapshot-attribute \
    --db-snapshot-identifier mydbsnapshot \
    --attribute-name restore \
    --values-to-remove 444455556666
```
Output:  

```
{
    "DBSnapshotAttributesResult": {
        "DBSnapshotIdentifier": "mydbsnapshot",
        "DBSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": [
                    "111122223333"
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Berbagi Snapshot](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ShareSnapshot.html#USER_ShareSnapshot.Sharing) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [ModifyDbSnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-snapshot-attribute.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-snapshot-attributes`
<a name="rds_ModifyDbSnapshotAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-snapshot-attributes`.

**AWS CLI**  
**Untuk memodifikasi atribut snapshot DB**  
`modify-db-snapshot-attribute`Contoh berikut mengizinkan dua pengidentifikasi AWS akun, `111122223333` dan`444455556666`, untuk mengembalikan snapshot DB bernama. `mydbsnapshot`  

```
aws rds modify-db-snapshot-attribute \
    --db-snapshot-identifier mydbsnapshot \
    --attribute-name restore \
    --values-to-add '["111122223333","444455556666"]'
```
Output:  

```
{
    "DBSnapshotAttributesResult": {
        "DBSnapshotIdentifier": "mydbsnapshot",
        "DBSnapshotAttributes": [
            {
                "AttributeName": "restore",
                "AttributeValues": [
                    "111122223333",
                    "444455556666"
                ]
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Berbagi Snapshot](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ShareSnapshot.html#USER_ShareSnapshot.Sharing) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [ModifyDbSnapshotAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-snapshot-attributes.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-snapshot`
<a name="rds_ModifyDbSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-snapshot`.

**AWS CLI**  
**Untuk memodifikasi snapshot DB**  
`modify-db-snapshot`Contoh berikut memutakhirkan snapshot PostgeSQL 10.6 bernama PostgreSQL 11.7. `db5-snapshot-upg-test` **Versi mesin DB baru ditampilkan setelah snapshot selesai ditingkatkan dan statusnya tersedia.**  

```
aws rds modify-db-snapshot \
    --db-snapshot-identifier db5-snapshot-upg-test \
    --engine-version 11.7
```
Output:  

```
{
    "DBSnapshot": {
        "DBSnapshotIdentifier": "db5-snapshot-upg-test",
        "DBInstanceIdentifier": "database-5",
        "SnapshotCreateTime": "2020-03-27T20:49:17.092Z",
        "Engine": "postgres",
        "AllocatedStorage": 20,
        "Status": "upgrading",
        "Port": 5432,
        "AvailabilityZone": "us-west-2a",
        "VpcId": "vpc-2ff27557",
        "InstanceCreateTime": "2020-03-27T19:59:04.735Z",
        "MasterUsername": "postgres",
        "EngineVersion": "10.6",
        "LicenseModel": "postgresql-license",
        "SnapshotType": "manual",
        "OptionGroupName": "default:postgres-11",
        "PercentProgress": 100,
        "StorageType": "gp2",
        "Encrypted": false,
        "DBSnapshotArn": "arn:aws:rds:us-west-2:123456789012:snapshot:db5-snapshot-upg-test",
        "IAMDatabaseAuthenticationEnabled": false,
        "ProcessorFeatures": [],
        "DbiResourceId": "db-GJMF75LM42IL6BTFRE4UZJ5YM4"
    }
}
```
*Untuk informasi selengkapnya, lihat [Memutakhirkan Snapshot PostgreSQL DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_UpgradeDBSnapshot.PostgreSQL.html) di Panduan Pengguna Amazon RDS.*  
+  Untuk detail API, lihat [ModifyDbSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `modify-db-subnet-group`
<a name="rds_ModifyDbSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-db-subnet-group`.

**AWS CLI**  
**Untuk memodifikasi grup subnet DB**  
`modify-db-subnet-group`Contoh berikut menambahkan subnet dengan ID `subnet-08e41f9e230222222` ke grup subnet DB bernama. `mysubnetgroup` Untuk menjaga subnet yang ada di grup subnet, sertakan nilainya IDs sebagai dalam opsi. `--subnet-ids` Pastikan untuk memiliki subnet dengan setidaknya dua Availability Zone yang berbeda dalam grup subnet DB.  

```
aws rds modify-db-subnet-group \
    --db-subnet-group-name mysubnetgroup \
    --subnet-ids '["subnet-0a1dc4e1a6f123456","subnet-070dd7ecb3aaaaaaa","subnet-00f5b198bc0abcdef","subnet-08e41f9e230222222"]'
```
Output:  

```
{
    "DBSubnetGroup": {
        "DBSubnetGroupName": "mysubnetgroup",
        "DBSubnetGroupDescription": "test DB subnet group",
        "VpcId": "vpc-0f08e7610a1b2c3d4",
        "SubnetGroupStatus": "Complete",
        "Subnets": [
            {
                "SubnetIdentifier": "subnet-08e41f9e230222222",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2a"
                },
                "SubnetStatus": "Active"
            },
            {
                "SubnetIdentifier": "subnet-070dd7ecb3aaaaaaa",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2b"
                },
                "SubnetStatus": "Active"
            },
            {
                "SubnetIdentifier": "subnet-00f5b198bc0abcdef",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2d"
                },
                "SubnetStatus": "Active"
            },
            {
                "SubnetIdentifier": "subnet-0a1dc4e1a6f123456",
                "SubnetAvailabilityZone": {
                    "Name": "us-west-2b"
                },
                "SubnetStatus": "Active"
            }
        ],
        "DBSubnetGroupArn": "arn:aws:rds:us-west-2:534026745191:subgrp:mysubnetgroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Langkah 3: Membuat Grup Subnet DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_VPC.WorkingWithRDSInstanceinaVPC.html#USER_VPC.CreateDBSubnetGroup) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [ModifyDbSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-db-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-event-subscription`
<a name="rds_ModifyEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-event-subscription`.

**AWS CLI**  
**Untuk memodifikasi langganan acara**  
`modify-event-subscription`Contoh berikut menonaktifkan langganan acara yang ditentukan, sehingga tidak lagi menerbitkan pemberitahuan ke topik Layanan Pemberitahuan Sederhana Amazon yang ditentukan.  

```
aws rds modify-event-subscription \
    --subscription-name my-instance-events \
    --no-enabled
```
Output:  

```
{
    "EventSubscription": {
        "EventCategoriesList": [
            "backup",
            "recovery"
        ],
        "CustomerAwsId": "123456789012",
        "SourceType": "db-instance",
        "SubscriptionCreationTime": "Tue Jul 31 23:22:01 UTC 2018",
        "EventSubscriptionArn": "arn:aws:rds:us-east-1:123456789012:es:my-instance-events",
        "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:interesting-events",
        "CustSubscriptionId": "my-instance-events",
        "Status": "modifying",
        "Enabled": false
    }
}
```
+  Untuk detail API, lihat [ModifyEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `modify-global-cluster`
<a name="rds_ModifyGlobalCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-global-cluster`.

**AWS CLI**  
**Untuk memodifikasi cluster DB global**  
`modify-global-cluster`Contoh berikut memungkinkan perlindungan penghapusan untuk cluster DB global yang kompatibel dengan Aurora MySQL.  

```
aws rds modify-global-cluster \
    --global-cluster-identifier myglobalcluster \
    --deletion-protection
```
Output:  

```
{
    "GlobalCluster": {
        "GlobalClusterIdentifier": "myglobalcluster",
        "GlobalClusterResourceId": "cluster-f0e523bfe07aabb",
        "GlobalClusterArn": "arn:aws:rds::123456789012:global-cluster:myglobalcluster",
        "Status": "available",
        "Engine": "aurora-mysql",
        "EngineVersion": "5.7.mysql_aurora.2.07.2",
        "StorageEncrypted": false,
        "DeletionProtection": true,
        "GlobalClusterMembers": []
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola database global Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-global-database-managing.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [ModifyGlobalCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/modify-global-cluster.html)di *Referensi AWS CLI Perintah*. 

### `promote-read-replica-db-cluster`
<a name="rds_PromoteReadReplicaDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`promote-read-replica-db-cluster`.

**AWS CLI**  
**Untuk mempromosikan replika baca cluster DB**  
`promote-read-replica-db-cluster`Contoh berikut mempromosikan replika baca yang ditentukan untuk menjadi cluster DB mandiri.  

```
aws rds promote-read-replica-db-cluster \
    --db-cluster-identifier mydbcluster-1
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1b",
            "us-east-1c"
        ],
        "BackupRetentionPeriod": 1,
        "DatabaseName": "",
        "DBClusterIdentifier": "mydbcluster-1",
        ...some output truncated...
    }
}
```
Untuk informasi selengkapnya, lihat [Mempromosikan replika baca menjadi klaster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/AuroraMySQL.Replication.CrossRegion.html#AuroraMySQL.Replication.CrossRegion.Promote) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [PromoteReadReplicaDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/promote-read-replica-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `promote-read-replica`
<a name="rds_PromoteReadReplica_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`promote-read-replica`.

**AWS CLI**  
**Untuk mempromosikan replika baca**  
`promote-read-replica`Contoh berikut mempromosikan replika baca yang ditentukan untuk menjadi instance DB mandiri.  

```
aws rds promote-read-replica \
    --db-instance-identifier test-instance-repl
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceArn": "arn:aws:rds:us-east-1:123456789012:db:test-instance-repl",
        "StorageType": "standard",
        "ReadReplicaSourceDBInstanceIdentifier": "test-instance",
        "DBInstanceStatus": "modifying",
        ...some output truncated...
    }
}
```
+  Untuk detail API, lihat [PromoteReadReplica](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/promote-read-replica.html)di *Referensi AWS CLI Perintah*. 

### `purchase-reserved-db-instance`
<a name="rds_PurchaseReservedDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purchase-reserved-db-instance`.

**AWS CLI**  
**Untuk membeli penawaran instans DB yang dipesan**  
`purchase-reserved-db-instances-offering`Contoh berikut membeli penawaran instans DB cadangan. `reserved-db-instances-offering-id`Harus berupa ID penawaran yang valid, seperti yang dikembalikan oleh `describe-reserved-db-instances-offering` perintah.  
aws rds purchase-reserved-db-instances -penawaran -- reserved-db-instances-offering id 438012d3-4a52-4cc7-b2e3-8dff72e0e706  
+  Untuk detail API, lihat [PurchaseReservedDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/purchase-reserved-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `purchase-reserved-db-instances-offerings`
<a name="rds_PurchaseReservedDbInstancesOfferings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purchase-reserved-db-instances-offerings`.

**AWS CLI**  
**Contoh 1: Untuk menemukan instans DB cadangan untuk dibeli**  
`describe-reserved-db-instances-offerings`Contoh berikut mencantumkan instance MySQL DB cadangan yang tersedia dengan kelas instans db.t2.micro dan durasi satu tahun. ID penawaran diperlukan untuk membeli instans DB yang dipesan.  

```
aws rds describe-reserved-db-instances-offerings \
    --product-description mysql \
    --db-instance-class db.t2.micro \
    --duration 1
```
Output:  

```
{
    "ReservedDBInstancesOfferings": [
        {
            "ReservedDBInstancesOfferingId": "8ba30be1-b9ec-447f-8f23-6114e3f4c7b4",
            "DBInstanceClass": "db.t2.micro",
            "Duration": 31536000,
            "FixedPrice": 51.0,
            "UsagePrice": 0.0,
            "CurrencyCode": "USD",
            "ProductDescription": "mysql",
            "OfferingType": "Partial Upfront",
            "MultiAZ": false,
            "RecurringCharges": [
                {
                    "RecurringChargeAmount": 0.006,
                    "RecurringChargeFrequency": "Hourly"
                }
            ]
        },
    ... some output truncated ...
    ]
}
```
Untuk informasi selengkapnya, lihat [Instans DB Cadangan untuk Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithReservedDBInstances.html) di Panduan Pengguna *Amazon RDS.*  
**Contoh 2: Untuk membeli instans DB yang dipesan**  
`purchase-reserved-db-instances-offering`Contoh berikut menunjukkan cara membeli penawaran instans DB cadangan dari contoh sebelumnya.  
aws rds purchase-reserved-db-instances -penawaran -- reserved-db-instances-offering id 8ba30be1-b9ec-447f-8f23-6114e3f4c7b4  
Output:  

```
{
    "ReservedDBInstance": {
        "ReservedDBInstanceId": "ri-2020-06-29-16-54-57-670",
        "ReservedDBInstancesOfferingId": "8ba30be1-b9ec-447f-8f23-6114e3f4c7b4",
        "DBInstanceClass": "db.t2.micro",
        "StartTime": "2020-06-29T16:54:57.670Z",
        "Duration": 31536000,
        "FixedPrice": 51.0,
        "UsagePrice": 0.0,
        "CurrencyCode": "USD",
        "DBInstanceCount": 1,
        "ProductDescription": "mysql",
        "OfferingType": "Partial Upfront",
        "MultiAZ": false,
        "State": "payment-pending",
        "RecurringCharges": [
            {
                "RecurringChargeAmount": 0.006,
                "RecurringChargeFrequency": "Hourly"
            }
        ],
        "ReservedDBInstanceArn": "arn:aws:rds:us-west-2:123456789012:ri:ri-2020-06-29-16-54-57-670"
    }
}
```
Untuk informasi selengkapnya, lihat [Instans DB Cadangan untuk Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithReservedDBInstances.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [PurchaseReservedDbInstancesOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/purchase-reserved-db-instances-offerings.html)di *Referensi AWS CLI Perintah*. 

### `reboot-db-instance`
<a name="rds_RebootDBInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-db-instance`.

**AWS CLI**  
**Untuk me-reboot instance DB**  
`reboot-db-instance`Contoh berikut memulai reboot dari instance DB yang ditentukan.  

```
aws rds reboot-db-instance \
    --db-instance-identifier test-mysql-instance
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceIdentifier": "test-mysql-instance",
        "DBInstanceClass": "db.t3.micro",
        "Engine": "mysql",
        "DBInstanceStatus": "rebooting",
        "MasterUsername": "admin",
        "Endpoint": {
            "Address": "test-mysql-instance.############.us-west-2.rds.amazonaws.com",
            "Port": 3306,
            "HostedZoneId": "Z1PVIF0EXAMPLE"
        },

    ... output omitted...

    }
}
```
Untuk informasi selengkapnya, lihat [Mem-boot Ulang Instans DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_RebootInstance.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [Reboot DBInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/reboot-db-instance.html) di *Referensi AWS CLI Perintah*. 

### `reboot-db-shard-group`
<a name="rds_RebootDbShardGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-db-shard-group`.

**AWS CLI**  
**Contoh 1: Untuk me-reboot grup shard DB**  
`reboot-db-shard-group`Contoh berikut reboot grup shard DB.  

```
aws rds reboot-db-shard-group \
    --db-shard-group-identifier my-db-shard-group
```
Output:  

```
{
    "DBShardGroups": [
        {
            "DBShardGroupResourceId": "shardgroup-a6e3a0226aa243e2ac6c7a1234567890",
            "DBShardGroupIdentifier": "my-db-shard-group",
            "DBClusterIdentifier": "my-sv2-cluster",
            "MaxACU": 1000.0,
            "ComputeRedundancy": 0,
            "Status": "available",
            "PubliclyAccessible": false,
            "Endpoint": "my-sv2-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mem-boot ulang cluster Amazon Aurora DB atau instans DB Amazon Aurora di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_RebootCluster.html) Aurora.*  
**Contoh 2: Untuk menggambarkan grup pecahan DB Anda**  
`describe-db-shard-groups`Contoh berikut mengambil rincian grup shard DB Anda setelah Anda menjalankan perintah. `reboot-db-shard-group` Grup pecahan DB sekarang `my-db-shard-group` sedang reboot.  

```
aws rds describe-db-shard-groups
```
Output:  

```
{
    "DBShardGroups": [
        {
            "DBShardGroupResourceId": "shardgroup-7bb446329da94788b3f957746example",
            "DBShardGroupIdentifier": "limitless-test-shard-grp",
            "DBClusterIdentifier": "limitless-test-cluster",
            "MaxACU": 768.0,
            "ComputeRedundancy": 0,
            "Status": "available",
            "PubliclyAccessible": true,
            "Endpoint": "limitless-test-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
        },
        {
            "DBShardGroupResourceId": "shardgroup-a6e3a0226aa243e2ac6c7a1234567890",
            "DBShardGroupIdentifier": "my-db-shard-group",
            "DBClusterIdentifier": "my-sv2-cluster",
            "MaxACU": 1000.0,
            "ComputeRedundancy": 0,
            "Status": "rebooting",
            "PubliclyAccessible": false,
            "Endpoint": "my-sv2-cluster.limitless-cekycexample.us-east-2.rds.amazonaws.com"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Mem-boot ulang cluster Amazon Aurora DB atau instans DB Amazon Aurora di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_RebootCluster.html) Aurora.*  
+  Untuk detail API, lihat [RebootDbShardGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/reboot-db-shard-group.html)di *Referensi AWS CLI Perintah*. 

### `register-db-proxy-targets`
<a name="rds_RegisterDbProxyTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-db-proxy-targets`.

**AWS CLI**  
**Untuk mendaftarkan proxy DB dengan database**  
`register-db-proxy-targets`Contoh berikut menciptakan hubungan antara database dan proxy.  

```
aws rds register-db-proxy-targets \
    --db-proxy-name proxyExample \
    --db-cluster-identifiers database-5
```
Output:  

```
{
    "DBProxyTargets": [
        {
            "RdsResourceId": "database-5",
            "Port": 3306,
            "Type": "TRACKED_CLUSTER",
            "TargetHealth": {
                "State": "REGISTERING"
            }
        },
        {
            "Endpoint": "database-5instance-1.ab0cd1efghij.us-east-1.rds.amazonaws.com",
            "RdsResourceId": "database-5",
            "Port": 3306,
            "Type": "RDS_INSTANCE",
            "TargetHealth": {
                "State": "REGISTERING"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/rds-proxy-setup.html#rds-proxy-creating) di *Panduan Pengguna Amazon RDS dan [Membuat proxy RDS](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/rds-proxy-setup.html#rds-proxy-creating) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [RegisterDbProxyTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/register-db-proxy-targets.html)di *Referensi AWS CLI Perintah*. 

### `remove-from-global-cluster`
<a name="rds_RemoveFromGlobalCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-from-global-cluster`.

**AWS CLI**  
**Untuk melepaskan cluster sekunder Aurora dari cluster database global Aurora**  
`remove-from-global-cluster`Contoh berikut melepaskan cluster sekunder Aurora dari cluster database global Aurora. Cluster berubah dari read-only menjadi cluster mandiri dengan kemampuan baca-tulis.  

```
aws rds remove-from-global-cluster \
    --region us-west-2 \
    --global-cluster-identifier myglobalcluster \
    --db-cluster-identifier arn:aws:rds:us-west-2:123456789012:cluster:DB-1
```
Output:  

```
{
    "GlobalCluster": {
        "GlobalClusterIdentifier": "myglobalcluster",
        "GlobalClusterResourceId": "cluster-abc123def456gh",
        "GlobalClusterArn": "arn:aws:rds::123456789012:global-cluster:myglobalcluster",
        "Status": "available",
        "Engine": "aurora-postgresql",
        "EngineVersion": "10.11",
        "StorageEncrypted": true,
        "DeletionProtection": false,
        "GlobalClusterMembers": [
            {
                "DBClusterArn": "arn:aws:rds:us-east-1:123456789012:cluster:js-global-cluster",
                "Readers": [
                    "arn:aws:rds:us-west-2:123456789012:cluster:DB-1"
                ],
                "IsWriter": true
            },
            {
                "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:DB-1",
                "Readers": [],
                "IsWriter": false,
                "GlobalWriteForwardingStatus": "disabled"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus klaster dari database global Amazon Aurora di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-global-database-managing.html#aurora-global-database-detaching) Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [RemoveFromGlobalCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/remove-from-global-cluster.html)di *Referensi AWS CLI Perintah*. 

### `remove-option-from-option-group`
<a name="rds_RemoveOptionFromOptionGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-option-from-option-group`.

**AWS CLI**  
**Untuk menghapus opsi dari grup opsi**  
`remove-option-from-option-group`Contoh berikut menghapus `OEM` opsi dari`myoptiongroup`.  

```
aws rds remove-option-from-option-group \
    --option-group-name myoptiongroup \
    --options OEM \
    --apply-immediately
```
Output:  

```
{
    "OptionGroup": {
        "OptionGroupName": "myoptiongroup",
        "OptionGroupDescription": "Test",
        "EngineName": "oracle-ee",
        "MajorEngineVersion": "19",
        "Options": [],
        "AllowsVpcAndNonVpcInstanceMemberships": true,
        "OptionGroupArn": "arn:aws:rds:us-east-1:123456789012:og:myoptiongroup"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghapus Opsi dari Grup Opsi](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithOptionGroups.html#USER_WorkingWithOptionGroups.RemoveOption) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [RemoveOptionFromOptionGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/remove-option-from-option-group.html)di *Referensi AWS CLI Perintah*. 

### `remove-role-from-db-cluster`
<a name="rds_RemoveRoleFromDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-role-from-db-cluster`.

**AWS CLI**  
**Untuk memisahkan peran AWS Identity and Access Management (IAM) dari cluster DB**  
`remove-role-from-db-cluster`Contoh berikut menghapus peran dari cluster DB.  

```
aws rds remove-role-from-db-cluster \
    --db-cluster-identifier mydbcluster \
    --role-arn arn:aws:iam::123456789012:role/RDSLoadFromS3
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Mengaitkan peran IAM dengan kluster DB MySQL Amazon Aurora](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/AuroraMySQL.Integrating.Authorizing.IAM.AddRoleToDBCluster.html) di Panduan Pengguna Amazon Aurora.*  
+  Untuk detail API, lihat [RemoveRoleFromDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/remove-role-from-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `remove-role-from-db-instance`
<a name="rds_RemoveRoleFromDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-role-from-db-instance`.

**AWS CLI**  
**Untuk memisahkan peran AWS Identity and Access Management (IAM) dari instans DB**  
`remove-role-from-db-instance`Contoh berikut menghapus peran bernama `rds-s3-integration-role` dari instance Oracle DB bernama`test-instance`.  

```
aws rds remove-role-from-db-instance \
    --db-instance-identifier test-instance \
    --feature-name S3_INTEGRATION \
    --role-arn arn:aws:iam::111122223333:role/rds-s3-integration-role
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan Integrasi Server SQL RDS dengan S3 di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/User.SQLServer.Options.S3-integration.html#Appendix.SQLServer.Options.S3-integration.disabling) *Amazon* RDS.  
+  Untuk detail API, lihat [RemoveRoleFromDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/remove-role-from-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `remove-source-identifier-from-subscription`
<a name="rds_RemoveSourceIdentifierFromSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-source-identifier-from-subscription`.

**AWS CLI**  
**Untuk menghapus pengenal sumber dari langganan**  
`remove-source-identifier`Contoh berikut menghapus pengenal sumber yang ditentukan dari langganan yang ada.  

```
aws rds remove-source-identifier-from-subscription \
    --subscription-name my-instance-events \
    --source-identifier test-instance-repl
```
Output:  

```
{
    "EventSubscription": {
        "EventSubscriptionArn": "arn:aws:rds:us-east-1:123456789012:es:my-instance-events",
        "SubscriptionCreationTime": "Tue Jul 31 23:22:01 UTC 2018",
        "EventCategoriesList": [
            "backup",
            "recovery"
        ],
        "SnsTopicArn": "arn:aws:sns:us-east-1:123456789012:interesting-events",
        "Status": "modifying",
        "CustSubscriptionId": "my-instance-events",
        "CustomerAwsId": "123456789012",
        "SourceIdsList": [
            "test-instance"
        ],
        "SourceType": "db-instance",
        "Enabled": false
    }
}
```
+  Untuk detail API, lihat [RemoveSourceIdentifierFromSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/remove-source-identifier-from-subscription.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags-from-resource`
<a name="rds_RemoveTagsFromResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags-from-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`remove-tags-from-resource`Contoh berikut menghapus tag dari sumber daya.  

```
aws rds remove-tags-from-resource \
    --resource-name arn:aws:rds:us-east-1:123456789012:db:mydbinstance \
    --tag-keys Name Environment
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menandai sumber daya Amazon RDS](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_Tagging.html) di *Panduan Pengguna Amazon RDS dan Menandai sumber daya [Amazon RDS di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_Tagging.html) Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [RemoveTagsFromResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/remove-tags-from-resource.html)di *Referensi AWS CLI Perintah*. 

### `reset-db-cluster-parameter-group`
<a name="rds_ResetDbClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-db-cluster-parameter-group`.

**AWS CLI**  
**Contoh 1: Untuk mengatur ulang semua parameter ke nilai defaultnya**  
`reset-db-cluster-parameter-group`Contoh berikut me-reset semua nilai parameter dalam kelompok parameter cluster DB yang dibuat pelanggan ke nilai default mereka.  

```
aws rds reset-db-cluster-parameter-group \
    --db-cluster-parameter-group-name mydbclpg \
    --reset-all-parameters
```
Output:  

```
{
    "DBClusterParameterGroupName": "mydbclpg"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup parameter DB dan grup parameter cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon Aurora*.  
**Contoh 2: Untuk mengatur ulang parameter tertentu ke nilai defaultnya**  
`reset-db-cluster-parameter-group`Contoh berikut me-reset nilai parameter untuk parameter tertentu ke nilai default mereka dalam kelompok parameter cluster DB yang dibuat pelanggan.  

```
aws rds reset-db-cluster-parameter-group \
    --db-cluster-parameter-group-name mydbclpgy \
    --parameters "ParameterName=max_connections,ApplyMethod=immediate" \
                 "ParameterName=max_allowed_packet,ApplyMethod=immediate"
```
Output:  

```
{
    "DBClusterParameterGroupName": "mydbclpg"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup parameter DB dan grup parameter cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [ResetDbClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/reset-db-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `reset-db-parameter-group`
<a name="rds_ResetDbParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-db-parameter-group`.

**AWS CLI**  
**Contoh 1: Untuk mengatur ulang semua parameter ke nilai defaultnya**  
`reset-db-parameter-group`Contoh berikut me-reset semua nilai parameter dalam grup parameter DB yang dibuat pelanggan ke nilai default mereka.  

```
aws rds reset-db-parameter-group \
    --db-parameter-group-name mypg \
    --reset-all-parameters
```
Output:  

```
{
    "DBParameterGroupName": "mypg"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon RDS* dan [Bekerja dengan grup parameter DB dan grup parameter cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di Panduan Pengguna *Amazon Aurora*.  
**Contoh 2: Untuk mengatur ulang parameter tertentu ke nilai defaultnya**  
`reset-db-parameter-group`Contoh berikut me-reset nilai parameter untuk parameter tertentu ke nilai default mereka dalam kelompok parameter DB yang dibuat pelanggan.  

```
aws rds reset-db-parameter-group \
    --db-parameter-group-name mypg \
    --parameters "ParameterName=max_connections,ApplyMethod=immediate" \
                 "ParameterName=max_allowed_packet,ApplyMethod=immediate"
```
Output:  

```
{
    "DBParameterGroupName": "mypg"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan grup parameter DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_WorkingWithParamGroups.html) di *Panduan Pengguna Amazon RDS* dan [Bekerja dengan grup parameter DB dan grup parameter cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_WorkingWithParamGroups.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [ResetDbParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/reset-db-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `restore-db-cluster-from-s3`
<a name="rds_RestoreDbClusterFromS3_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-db-cluster-from-s3`.

**AWS CLI**  
**Untuk memulihkan cluster Amazon Aurora DB dari Amazon S3**  
`restore-db-cluster-from-s3`Contoh berikut mengembalikan kluster DB yang kompatibel dengan Amazon Aurora MySQL versi 5.7 dari file cadangan MySQL 5.7 DB di Amazon S3.  

```
aws rds restore-db-cluster-from-s3 \
    --db-cluster-identifier cluster-s3-restore \
    --engine aurora-mysql \
    --master-username admin \
    --master-user-password mypassword \
    --s3-bucket-name amzn-s3-demo-bucket \
    --s3-prefix test-backup \
    --s3-ingestion-role-arn arn:aws:iam::123456789012:role/service-role/TestBackup \
    --source-engine mysql \
    --source-engine-version 5.7.28
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "us-west-2c",
            "us-west-2a",
            "us-west-2b"
        ],
        "BackupRetentionPeriod": 1,
        "DBClusterIdentifier": "cluster-s3-restore",
        "DBClusterParameterGroup": "default.aurora-mysql5.7",
        "DBSubnetGroup": "default",
        "Status": "creating",
        "Endpoint": "cluster-s3-restore.cluster-co3xyzabc123.us-west-2.rds.amazonaws.com",
        "ReaderEndpoint": "cluster-s3-restore.cluster-ro-co3xyzabc123.us-west-2.rds.amazonaws.com",
        "MultiAZ": false,
        "Engine": "aurora-mysql",
        "EngineVersion": "5.7.12",
        "Port": 3306,
        "MasterUsername": "admin",
        "PreferredBackupWindow": "11:15-11:45",
        "PreferredMaintenanceWindow": "thu:12:19-thu:12:49",
        "ReadReplicaIdentifiers": [],
        "DBClusterMembers": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-########",
                "Status": "active"
            }
        ],
        "HostedZoneId": "Z1PVIF0EXAMPLE",
        "StorageEncrypted": false,
        "DbClusterResourceId": "cluster-SU5THYQQHOWCXZZDGXREXAMPLE",
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:cluster-s3-restore",
        "AssociatedRoles": [],
        "IAMDatabaseAuthenticationEnabled": false,
        "ClusterCreateTime": "2020-07-27T14:22:08.095Z",
        "EngineMode": "provisioned",
        "DeletionProtection": false,
        "HttpEndpointEnabled": false,
        "CopyTagsToSnapshot": false,
        "CrossAccountClone": false,
        "DomainMemberships": []
    }
}
```
*Untuk informasi selengkapnya, lihat [Memigrasi Data dari MySQL dengan Menggunakan Bucket Amazon S3 di Panduan Pengguna Amazon](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/AuroraMySQL.Migrating.ExtMySQL.html#AuroraMySQL.Migrating.ExtMySQL.S3) Aurora.*  
+  Untuk detail API, lihat [RestoreDbClusterFromS3](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/restore-db-cluster-from-s3.html) di *Referensi AWS CLI Perintah*. 

### `restore-db-cluster-from-snapshot`
<a name="rds_RestoreDbClusterFromSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-db-cluster-from-snapshot`.

**AWS CLI**  
**Untuk memulihkan cluster DB dari snapshot**  
Berikut ini `restore-db-cluster-from-snapshot` mengembalikan klaster Aurora PostgreSQL DB yang kompatibel dengan PostgreSQL versi 10.7 dari snapshot cluster DB bernama. `test-instance-snapshot`  

```
aws rds restore-db-cluster-from-snapshot \
    --db-cluster-identifier newdbcluster \
    --snapshot-identifier test-instance-snapshot \
    --engine aurora-postgresql \
    --engine-version 10.7
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "us-west-2c",
            "us-west-2a",
            "us-west-2b"
        ],
        "BackupRetentionPeriod": 7,
        "DatabaseName": "",
        "DBClusterIdentifier": "newdbcluster",
        "DBClusterParameterGroup": "default.aurora-postgresql10",
        "DBSubnetGroup": "default",
        "Status": "creating",
        "Endpoint": "newdbcluster.cluster-############.us-west-2.rds.amazonaws.com",
        "ReaderEndpoint": "newdbcluster.cluster-ro-############.us-west-2.rds.amazonaws.com",
        "MultiAZ": false,
        "Engine": "aurora-postgresql",
        "EngineVersion": "10.7",
        "Port": 5432,
        "MasterUsername": "postgres",
        "PreferredBackupWindow": "09:33-10:03",
        "PreferredMaintenanceWindow": "sun:12:22-sun:12:52",
        "ReadReplicaIdentifiers": [],
        "DBClusterMembers": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-########",
                "Status": "active"
            }
        ],
        "HostedZoneId": "Z1PVIF0EXAMPLE",
        "StorageEncrypted": true,
        "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/287364e4-33e3-4755-a3b0-a1b2c3d4e5f6",
        "DbClusterResourceId": "cluster-5DSB5IFQDDUVAWOUWM1EXAMPLE",
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:newdbcluster",
        "AssociatedRoles": [],
        "IAMDatabaseAuthenticationEnabled": false,
        "ClusterCreateTime": "2020-06-05T15:06:58.634Z",
        "EngineMode": "provisioned",
        "DeletionProtection": false,
        "HttpEndpointEnabled": false,
        "CopyTagsToSnapshot": false,
        "CrossAccountClone": false,
        "DomainMemberships": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan dari Snapshot Cluster DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_RestoreFromSnapshot.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [RestoreDbClusterFromSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/restore-db-cluster-from-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `restore-db-cluster-to-point-in-time`
<a name="rds_RestoreDbClusterToPointInTime_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-db-cluster-to-point-in-time`.

**AWS CLI**  
**Untuk mengembalikan cluster DB ke waktu tertentu**  
`restore-db-cluster-to-point-in-time`Contoh berikut mengembalikan cluster DB bernama `database-4` ke waktu terbaru yang mungkin. Menggunakan `copy-on-write` as the restore type mengembalikan cluster DB baru sebagai tiruan dari cluster DB sumber.  

```
aws rds restore-db-cluster-to-point-in-time \
    --source-db-cluster-identifier database-4 \
    --db-cluster-identifier sample-cluster-clone \
    --restore-type copy-on-write \
    --use-latest-restorable-time
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "us-west-2c",
            "us-west-2a",
            "us-west-2b"
        ],
        "BackupRetentionPeriod": 7,
        "DatabaseName": "",
        "DBClusterIdentifier": "sample-cluster-clone",
        "DBClusterParameterGroup": "default.aurora-postgresql10",
        "DBSubnetGroup": "default",
        "Status": "creating",
        "Endpoint": "sample-cluster-clone.cluster-############.us-west-2.rds.amazonaws.com",
        "ReaderEndpoint": "sample-cluster-clone.cluster-ro-############.us-west-2.rds.amazonaws.com",
        "MultiAZ": false,
        "Engine": "aurora-postgresql",
        "EngineVersion": "10.7",
        "Port": 5432,
        "MasterUsername": "postgres",
        "PreferredBackupWindow": "09:33-10:03",
        "PreferredMaintenanceWindow": "sun:12:22-sun:12:52",
        "ReadReplicaIdentifiers": [],
        "DBClusterMembers": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sg-########",
                "Status": "active"
            }
        ],
        "HostedZoneId": "Z1PVIF0EXAMPLE",
        "StorageEncrypted": true,
        "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/287364e4-33e3-4755-a3b0-a1b2c3d4e5f6",
        "DbClusterResourceId": "cluster-BIZ77GDSA2XBSTNPFW1EXAMPLE",
        "DBClusterArn": "arn:aws:rds:us-west-2:123456789012:cluster:sample-cluster-clone",
        "AssociatedRoles": [],
        "IAMDatabaseAuthenticationEnabled": false,
        "CloneGroupId": "8d19331a-099a-45a4-b4aa-11aa22bb33cc44dd",
        "ClusterCreateTime": "2020-03-10T19:57:38.967Z",
        "EngineMode": "provisioned",
        "DeletionProtection": false,
        "HttpEndpointEnabled": false,
        "CopyTagsToSnapshot": false,
        "CrossAccountClone": false
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan Cluster DB ke Waktu Tertentu](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PIT.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [RestoreDbClusterToPointInTime](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/restore-db-cluster-to-point-in-time.html)di *Referensi AWS CLI Perintah*. 

### `restore-db-instance-from-db-snapshot`
<a name="rds_RestoreDbInstanceFromDbSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-db-instance-from-db-snapshot`.

**AWS CLI**  
**Untuk mengembalikan instans DB dari snapshot DB**  
`restore-db-instance-from-db-snapshot`Contoh berikut membuat instance DB baru bernama `db7-new-instance` dengan kelas instans `db.t3.small` DB dari snapshot DB yang ditentukan. Instance DB sumber dari mana snapshot diambil menggunakan kelas instans DB yang tidak digunakan lagi, jadi Anda tidak dapat memutakhirkannya.  

```
aws rds restore-db-instance-from-db-snapshot \
    --db-instance-identifier db7-new-instance \
    --db-snapshot-identifier db7-test-snapshot \
    --db-instance-class db.t3.small
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceIdentifier": "db7-new-instance",
        "DBInstanceClass": "db.t3.small",
        "Engine": "mysql",
        "DBInstanceStatus": "creating",

        ...output omitted...

        "PreferredMaintenanceWindow": "mon:07:37-mon:08:07",
        "PendingModifiedValues": {},
        "MultiAZ": false,
        "EngineVersion": "5.7.22",
        "AutoMinorVersionUpgrade": true,
        "ReadReplicaDBInstanceIdentifiers": [],
        "LicenseModel": "general-public-license",

        ...output omitted...

        "DBInstanceArn": "arn:aws:rds:us-west-2:123456789012:db:db7-new-instance",
        "IAMDatabaseAuthenticationEnabled": false,
        "PerformanceInsightsEnabled": false,
        "DeletionProtection": false,
        "AssociatedRoles": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan dari Snapshot DB](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_RestoreFromSnapshot.html) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [RestoreDbInstanceFromDbSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/restore-db-instance-from-db-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `restore-db-instance-from-s3`
<a name="rds_RestoreDbInstanceFromS3_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-db-instance-from-s3`.

**AWS CLI**  
**Untuk memulihkan instans DB dari cadangan di Amazon S3**  
`restore-db-instance-from-s3`Contoh berikut membuat instance DB baru bernama `restored-test-instance` dari cadangan yang ada di bucket `my-backups` S3.  

```
aws rds restore-db-instance-from-s3 \
    --db-instance-identifier restored-test-instance \
    --allocated-storage 250 --db-instance-class db.m4.large --engine mysql \
    --master-username master --master-user-password secret99 \
    --s3-bucket-name my-backups --s3-ingestion-role-arn arn:aws:iam::123456789012:role/my-role \
    --source-engine mysql --source-engine-version 5.6.27
```
+  Untuk detail API, lihat [RestoreDbInstanceFromS3](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/restore-db-instance-from-s3.html) di *Referensi AWS CLI Perintah*. 

### `restore-db-instance-to-point-in-time`
<a name="rds_RestoreDbInstanceToPointInTime_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-db-instance-to-point-in-time`.

**AWS CLI**  
**Contoh 1: Untuk mengembalikan instans DB ke suatu titik waktu**  
`restore-db-instance-to-point-in-time`Contoh berikut mengembalikan `test-instance` ke instance DB baru bernama`restored-test-instance`, pada waktu yang ditentukan.  

```
aws rds restore-db-instance-to-point-in-time \
    --source-db-instance-identifier test-instance \
    --target-db-instance restored-test-instance \
    --restore-time 2018-07-30T23:45:00.000Z
```
Output:  

```
{
    "DBInstance": {
        "AllocatedStorage": 20,
        "DBInstanceArn": "arn:aws:rds:us-east-1:123456789012:db:restored-test-instance",
        "DBInstanceStatus": "creating",
        "DBInstanceIdentifier": "restored-test-instance",
        ...some output omitted...
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan instans DB ke waktu yang ditentukan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PIT.html) di *Panduan Pengguna Amazon RDS*.  
**Contoh 2: Untuk mengembalikan instans DB ke waktu tertentu dari cadangan yang direplikasi**  
`restore-db-instance-to-point-in-time`Contoh berikut mengembalikan instance Oracle DB ke waktu yang ditentukan dari cadangan otomatis yang direplikasi.  

```
aws rds restore-db-instance-to-point-in-time \
    --source-db-instance-automated-backups-arn "arn:aws:rds:us-west-2:123456789012:auto-backup:ab-jkib2gfq5rv7replzadausbrktni2bn4example" \
    --target-db-instance-identifier myorclinstance-from-replicated-backup \
    --restore-time 2020-12-08T18:45:00.000Z
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceIdentifier": "myorclinstance-from-replicated-backup",
        "DBInstanceClass": "db.t3.micro",
        "Engine": "oracle-se2",
        "DBInstanceStatus": "creating",
        "MasterUsername": "admin",
        "DBName": "ORCL",
        "AllocatedStorage": 20,
        "PreferredBackupWindow": "07:45-08:15",
        "BackupRetentionPeriod": 14,
        ... some output omitted ...
        "DbiResourceId": "db-KGLXG75BGVIWKQT7NQ4EXAMPLE",
        "CACertificateIdentifier": "rds-ca-2019",
        "DomainMemberships": [],
        "CopyTagsToSnapshot": false,
        "MonitoringInterval": 0,
        "DBInstanceArn": "arn:aws:rds:us-west-2:123456789012:db:myorclinstance-from-replicated-backup",
        "IAMDatabaseAuthenticationEnabled": false,
        "PerformanceInsightsEnabled": false,
        "DeletionProtection": false,
        "AssociatedRoles": [],
        "TagList": []
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan ke waktu tertentu dari cadangan yang direplikasi](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ReplicateBackups.html#AutomatedBackups.PiTR) di Panduan Pengguna *Amazon RDS.*  
+  Untuk detail API, lihat [RestoreDbInstanceToPointInTime](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/restore-db-instance-to-point-in-time.html)di *Referensi AWS CLI Perintah*. 

### `start-activity-stream`
<a name="rds_StartActivityStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-activity-stream`.

**AWS CLI**  
**Untuk memulai aliran aktivitas database**  
`start-activity-stream`Contoh berikut memulai aliran aktivitas asinkron untuk memantau cluster Aurora bernama. my-pg-cluster  

```
aws rds start-activity-stream \
    --region us-east-1 \
    --mode async \
    --kms-key-id arn:aws:kms:us-east-1:1234567890123:key/a12c345d-6ef7-890g-h123-456i789jk0l1 \
    --resource-arn arn:aws:rds:us-east-1:1234567890123:cluster:my-pg-cluster \
    --apply-immediately
```
Output:  

```
{
    "KmsKeyId": "arn:aws:kms:us-east-1:1234567890123:key/a12c345d-6ef7-890g-h123-456i789jk0l1",
    "KinesisStreamName": "aws-rds-das-cluster-0ABCDEFGHI1JKLM2NOPQ3R4S",
    "Status": "starting",
    "Mode": "async",
    "ApplyImmediately": true
}
```
Untuk informasi selengkapnya, lihat [Memulai aliran aktivitas database](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/DBActivityStreams.html#DBActivityStreams.Enabling) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [StartActivityStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/start-activity-stream.html)di *Referensi AWS CLI Perintah*. 

### `start-db-cluster`
<a name="rds_StartDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-db-cluster`.

**AWS CLI**  
**Untuk memulai cluster DB**  
`start-db-cluster`Contoh berikut memulai cluster DB dan instance DB-nya.  

```
aws rds start-db-cluster \
    --db-cluster-identifier mydbcluster
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1e",
            "us-east-1b"
        ],
        "BackupRetentionPeriod": 1,
        "DatabaseName": "mydb",
        "DBClusterIdentifier": "mydbcluster",
        ...some output truncated...
    }
}
```
Untuk informasi selengkapnya, lihat [Menghentikan dan memulai klaster Amazon Aurora DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-cluster-stop-start.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [StartDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/start-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `start-db-instance-automated-backups-replication`
<a name="rds_StartDbInstanceAutomatedBackupsReplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-db-instance-automated-backups-replication`.

**AWS CLI**  
**Untuk mengaktifkan pencadangan otomatis lintas wilayah**  
`start-db-instance-automated-backups-replication`Contoh berikut mereplikasi backup otomatis dari instans DB di Wilayah AS Timur (Virginia N.) ke AS Barat (Oregon). Periode retensi cadangan adalah 14 hari.  

```
aws rds start-db-instance-automated-backups-replication \
    --region us-west-2 \
    --source-db-instance-arn "arn:aws:rds:us-east-1:123456789012:db:new-orcl-db" \
    --backup-retention-period 14
```
Output:  

```
{
    "DBInstanceAutomatedBackup": {
        "DBInstanceArn": "arn:aws:rds:us-east-1:123456789012:db:new-orcl-db",
        "DbiResourceId": "db-JKIB2GFQ5RV7REPLZA4EXAMPLE",
        "Region": "us-east-1",
        "DBInstanceIdentifier": "new-orcl-db",
        "RestoreWindow": {},
        "AllocatedStorage": 20,
        "Status": "pending",
        "Port": 1521,
        "InstanceCreateTime": "2020-12-04T15:28:31Z",
        "MasterUsername": "admin",
        "Engine": "oracle-se2",
        "EngineVersion": "12.1.0.2.v21",
        "LicenseModel": "bring-your-own-license",
        "OptionGroupName": "default:oracle-se2-12-1",
        "Encrypted": false,
        "StorageType": "gp2",
        "IAMDatabaseAuthenticationEnabled": false,
        "BackupRetentionPeriod": 14,
        "DBInstanceAutomatedBackupsArn": "arn:aws:rds:us-west-2:123456789012:auto-backup:ab-jkib2gfq5rv7replzadausbrktni2bn4example"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan pencadangan otomatis lintas wilayah di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ReplicateBackups.html#AutomatedBackups.Replicating.Enable) *Amazon* RDS.  
+  Untuk detail API, lihat [StartDbInstanceAutomatedBackupsReplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/start-db-instance-automated-backups-replication.html)di *Referensi AWS CLI Perintah*. 

### `start-db-instance`
<a name="rds_StartDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-db-instance`.

**AWS CLI**  
**Untuk memulai instance DB**  
`start-db-instance`Contoh berikut memulai instance DB tertentu.  

```
aws rds start-db-instance \
    --db-instance-identifier test-instance
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceStatus": "starting",
        ...some output truncated...
    }
}
```
+  Untuk detail API, lihat [StartDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/start-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `start-export-task`
<a name="rds_StartExportTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-export-task`.

**AWS CLI**  
**Untuk mengekspor snapshot ke Amazon S3**  
`start-export-task`Contoh berikut mengekspor snapshot DB yang diberi nama `db5-snapshot-test` ke bucket Amazon S3 bernama. `amzn-s3-demo-bucket`  

```
aws rds start-export-task \
    --export-task-identifier my-s3-export \
    --source-arn arn:aws:rds:us-west-2:123456789012:snapshot:db5-snapshot-test \
    --s3-bucket-name amzn-s3-demo-bucket \
    --iam-role-arn arn:aws:iam::123456789012:role/service-role/ExportRole \
    --kms-key-id arn:aws:kms:us-west-2:123456789012:key/abcd0000-7fca-4128-82f2-aabbccddeeff
```
Output:  

```
{
    "ExportTaskIdentifier": "my-s3-export",
    "SourceArn": "arn:aws:rds:us-west-2:123456789012:snapshot:db5-snapshot-test",
    "SnapshotTime": "2020-03-27T20:48:42.023Z",
    "S3Bucket": "amzn-s3-demo-bucket",
    "IamRoleArn": "arn:aws:iam::123456789012:role/service-role/ExportRole",
    "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/abcd0000-7fca-4128-82f2-aabbccddeeff",
    "Status": "STARTING",
    "PercentProgress": 0,
    "TotalExtractedDataInGB": 0
}
```
Untuk informasi selengkapnya, lihat [Mengekspor Snapshot ke Bucket Amazon S3 di Panduan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ExportSnapshot.html#USER_ExportSnapshot.Exporting) Pengguna *Amazon RDS*.  
+  Untuk detail API, lihat [StartExportTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/start-export-task.html)di *Referensi AWS CLI Perintah*. 

### `stop-activity-stream`
<a name="rds_StopActivityStream_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-activity-stream`.

**AWS CLI**  
**Untuk menghentikan aliran aktivitas database**  
`stop-activity-stream`Contoh berikut menghentikan aliran aktivitas di cluster Aurora bernama. my-pg-cluster  

```
aws rds stop-activity-stream \
    --region us-east-1 \
    --resource-arn arn:aws:rds:us-east-1:1234567890123:cluster:my-pg-cluster \
    --apply-immediately
```
Output:  

```
{
    "KmsKeyId": "arn:aws:kms:us-east-1:1234567890123:key/a12c345d-6ef7-890g-h123-456i789jk0l1",
    "KinesisStreamName": "aws-rds-das-cluster-0ABCDEFGHI1JKLM2NOPQ3R4S",
    "Status": "stopping"
}
```
Untuk informasi selengkapnya, lihat [Menghentikan aliran aktivitas](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/DBActivityStreams.html#DBActivityStreams.Disabling) di *Panduan Pengguna Amazon Aurora*.  
+  Untuk detail API, lihat [StopActivityStream](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/stop-activity-stream.html)di *Referensi AWS CLI Perintah*. 

### `stop-db-cluster`
<a name="rds_StopDbCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-db-cluster`.

**AWS CLI**  
**Untuk menghentikan cluster DB**  
`stop-db-cluster`Contoh berikut menghentikan cluster DB dan instance DB-nya.  

```
aws rds stop-db-cluster \
    --db-cluster-identifier mydbcluster
```
Output:  

```
{
    "DBCluster": {
        "AllocatedStorage": 1,
        "AvailabilityZones": [
            "us-east-1a",
            "us-east-1e",
            "us-east-1b"
        ],
        "BackupRetentionPeriod": 1,
        "DatabaseName": "mydb",
        "DBClusterIdentifier": "mydbcluster",
        ...some output truncated...
    }
}
```
Untuk informasi selengkapnya, lihat [Menghentikan dan memulai klaster Amazon Aurora DB](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/aurora-cluster-stop-start.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [StopDbCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/stop-db-cluster.html)di *Referensi AWS CLI Perintah*. 

### `stop-db-instance-automated-backups-replication`
<a name="rds_StopDbInstanceAutomatedBackupsReplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-db-instance-automated-backups-replication`.

**AWS CLI**  
**Untuk berhenti mereplikasi cadangan otomatis**  
Berikut ini `stop-db-instance-automated-backups-replication` mengakhiri replikasi cadangan otomatis ke Wilayah Barat AS (Oregon). Pencadangan yang direplikasi dipertahankan sesuai dengan periode retensi cadangan yang ditetapkan.  

```
aws rds stop-db-instance-automated-backups-replication \
    --region us-west-2 \
    --source-db-instance-arn "arn:aws:rds:us-east-1:123456789012:db:new-orcl-db"
```
Output:  

```
{
    "DBInstanceAutomatedBackup": {
        "DBInstanceArn": "arn:aws:rds:us-east-1:123456789012:db:new-orcl-db",
        "DbiResourceId": "db-JKIB2GFQ5RV7REPLZA4EXAMPLE",
        "Region": "us-east-1",
        "DBInstanceIdentifier": "new-orcl-db",
        "RestoreWindow": {
            "EarliestTime": "2020-12-04T23:13:21.030Z",
            "LatestTime": "2020-12-07T19:59:57Z"
        },
        "AllocatedStorage": 20,
        "Status": "replicating",
        "Port": 1521,
        "InstanceCreateTime": "2020-12-04T15:28:31Z",
        "MasterUsername": "admin",
        "Engine": "oracle-se2",
        "EngineVersion": "12.1.0.2.v21",
        "LicenseModel": "bring-your-own-license",
        "OptionGroupName": "default:oracle-se2-12-1",
        "Encrypted": false,
        "StorageType": "gp2",
        "IAMDatabaseAuthenticationEnabled": false,
        "BackupRetentionPeriod": 7,
        "DBInstanceAutomatedBackupsArn": "arn:aws:rds:us-west-2:123456789012:auto-backup:ab-jkib2gfq5rv7replzadausbrktni2bn4example"
    }
}
```
Untuk informasi selengkapnya, lihat [Menghentikan replikasi pencadangan otomatis](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_ReplicateBackups.html#AutomatedBackups.StopReplicating) di *Panduan Pengguna Amazon RDS*.  
+  Untuk detail API, lihat [StopDbInstanceAutomatedBackupsReplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/stop-db-instance-automated-backups-replication.html)di *Referensi AWS CLI Perintah*. 

### `stop-db-instance`
<a name="rds_StopDbInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-db-instance`.

**AWS CLI**  
**Untuk menghentikan instans DB**  
`stop-db-instance`Contoh berikut menghentikan instans DB yang ditentukan.  

```
aws rds stop-db-instance \
    --db-instance-identifier test-instance
```
Output:  

```
{
    "DBInstance": {
        "DBInstanceStatus": "stopping",
        ...some output truncated...
    }
}
```
+  Untuk detail API, lihat [StopDbInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/stop-db-instance.html)di *Referensi AWS CLI Perintah*. 

### `switchover-blue-green-deployment`
<a name="rds_SwitchoverBlueGreenDeployment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`switchover-blue-green-deployment`.

**AWS CLI**  
**Contoh 1: Untuk mengganti blue/green penerapan untuk instans RDS DB**  
`switchover-blue-green-deployment`Contoh berikut mempromosikan lingkungan hijau yang ditentukan sebagai lingkungan produksi baru.  

```
aws rds switchover-blue-green-deployment \
    --blue-green-deployment-identifier bgd-wi89nwzglccsfake \
    --switchover-timeout 300
```
Output:  

```
{
    "BlueGreenDeployment": {
        "BlueGreenDeploymentIdentifier": "bgd-v53303651eexfake",
        "BlueGreenDeploymentName": "bgd-cli-test-instance",
        "Source": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
        "Target": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-green-blhi1e",
        "SwitchoverDetails": [
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-green-blhi1e",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-1-green-k5fv7u",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-2-green-ggsh8m",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-db-instance-replica-3-green-o2vwm0",
                "Status": "AVAILABLE"
            }
        ],
        "Tasks": [
            {
                "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                "Status": "COMPLETED"
            },
            {
                "Name": "DB_ENGINE_VERSION_UPGRADE",
                "Status": "COMPLETED"
            },
            {
                "Name": "CONFIGURE_BACKUPS",
                "Status": "COMPLETED"
            },
            {
                "Name": "CREATING_TOPOLOGY_OF_SOURCE",
                "Status": "COMPLETED"
            }
        ],
        "Status": "SWITCHOVER_IN_PROGRESS",
        "CreateTime": "2022-02-25T22:33:22.225000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengalihkan blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/blue-green-deployments-switching.html) di *Panduan Pengguna Amazon RDS*.  
**Contoh 2: Untuk mempromosikan blue/green penyebaran untuk cluster DB MySQL Aurora**  
`switchover-blue-green-deployment`Contoh berikut mempromosikan lingkungan hijau yang ditentukan sebagai lingkungan produksi baru.  

```
aws rds switchover-blue-green-deployment \
    --blue-green-deployment-identifier bgd-wi89nwzglccsfake \
    --switchover-timeout 300
```
Output:  

```
{
    "BlueGreenDeployment": {
        "BlueGreenDeploymentIdentifier": "bgd-wi89nwzglccsfake",
        "BlueGreenDeploymentName": "my-blue-green-deployment",
        "Source": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
        "Target": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-green-3ud8z6",
        "SwitchoverDetails": [
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster:my-aurora-mysql-cluster-green-3ud8z6",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-1-green-bvxc73",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-2-green-7wc4ie",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:db:my-aurora-mysql-cluster-3-green-p4xxkz",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-excluded-member-endpoint-green-np1ikl",
                "Status": "AVAILABLE"
            },
            {
                "SourceMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint",
                "TargetMember": "arn:aws:rds:us-east-1:123456789012:cluster-endpoint:my-reader-endpoint-green-miszlf",
                "Status": "AVAILABLE"
            }
        ],
        "Tasks": [
            {
                "Name": "CREATING_READ_REPLICA_OF_SOURCE",
                "Status": "COMPLETED"
            },
            {
                "Name": "DB_ENGINE_VERSION_UPGRADE",
                "Status": "COMPLETED"
            },
            {
                "Name": "CREATE_DB_INSTANCES_FOR_CLUSTER",
                "Status": "COMPLETED"
            },
            {
                "Name": "CREATE_CUSTOM_ENDPOINTS",
                "Status": "COMPLETED"
            }
        ],
        "Status": "SWITCHOVER_IN_PROGRESS",
        "CreateTime": "2022-02-25T22:38:49.522000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengalihkan blue/green penerapan](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/blue-green-deployments-switching.html) di Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [SwitchoverBlueGreenDeployment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds/switchover-blue-green-deployment.html)di *Referensi AWS CLI Perintah*. 

# Contoh Layanan Data Amazon RDS menggunakan AWS CLI
<a name="cli_2_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS Command Line Interface dengan menggunakan Layanan Data Amazon RDS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-execute-statement`
<a name="rds-data_BatchExecuteStatement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-execute-statement`.

**AWS CLI**  
**Untuk mengeksekusi pernyataan SQL batch**  
`batch-execute-statement`Contoh berikut mengeksekusi pernyataan SQL batch atas array data dengan set parameter.  

```
aws rds-data batch-execute-statement \
    --resource-arn "arn:aws:rds:us-west-2:123456789012:cluster:mydbcluster" \
    --database "mydb" \
    --secret-arn "arn:aws:secretsmanager:us-west-2:123456789012:secret:mysecret" \
    --sql "insert into mytable values (:id, :val)" \
    --parameter-sets "[[{\"name\": \"id\", \"value\": {\"longValue\": 1}},{\"name\": \"val\", \"value\": {\"stringValue\": \"ValueOne\"}}],
        [{\"name\": \"id\", \"value\": {\"longValue\": 2}},{\"name\": \"val\", \"value\": {\"stringValue\": \"ValueTwo\"}}],
        [{\"name\": \"id\", \"value\": {\"longValue\": 3}},{\"name\": \"val\", \"value\": {\"stringValue\": \"ValueThree\"}}]]"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menggunakan API Data untuk Aurora Tanpa Server di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/data-api.html) *Amazon* RDS.  
+  Untuk detail API, lihat [BatchExecuteStatement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds-data/batch-execute-statement.html)di *Referensi AWS CLI Perintah*. 

### `begin-transaction`
<a name="rds-data_BeginTransaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`begin-transaction`.

**AWS CLI**  
**Untuk memulai transaksi SQL**  
`begin-transaction`Contoh berikut memulai transaksi SQL.  

```
aws rds-data begin-transaction \
    --resource-arn "arn:aws:rds:us-west-2:123456789012:cluster:mydbcluster" \
    --database "mydb" \
    --secret-arn "arn:aws:secretsmanager:us-west-2:123456789012:secret:mysecret"
```
Output:  

```
{
    "transactionId": "ABC1234567890xyz"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan API Data untuk Aurora Tanpa Server di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/data-api.html) *Amazon* RDS.  
+  Untuk detail API, lihat [BeginTransaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds-data/begin-transaction.html)di *Referensi AWS CLI Perintah*. 

### `commit-transaction`
<a name="rds-data_CommitTransaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`commit-transaction`.

**AWS CLI**  
**Untuk melakukan transaksi SQL**  
`commit-transaction`Contoh berikut mengakhiri transaksi SQL yang ditentukan dan melakukan perubahan yang Anda buat sebagai bagian darinya.  

```
aws rds-data commit-transaction \
    --resource-arn "arn:aws:rds:us-west-2:123456789012:cluster:mydbcluster" \
    --secret-arn "arn:aws:secretsmanager:us-west-2:123456789012:secret:mysecret" \
    --transaction-id "ABC1234567890xyz"
```
Output:  

```
{
    "transactionStatus": "Transaction Committed"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan API Data untuk Aurora Tanpa Server di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/data-api.html) *Amazon* RDS.  
+  Untuk detail API, lihat [CommitTransaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds-data/commit-transaction.html)di *Referensi AWS CLI Perintah*. 

### `execute-statement`
<a name="rds-data_ExecuteStatement_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`execute-statement`.

**AWS CLI**  
**Contoh 1: Untuk mengeksekusi pernyataan SQL yang merupakan bagian dari transaksi**  
`execute-statement`Contoh berikut menjalankan pernyataan SQL yang merupakan bagian dari transaksi.  

```
aws rds-data execute-statement \
    --resource-arn "arn:aws:rds:us-west-2:123456789012:cluster:mydbcluster" \
    --database "mydb" \
    --secret-arn "arn:aws:secretsmanager:us-west-2:123456789012:secret:mysecret" \
    --sql "update mytable set quantity=5 where id=201" \
    --transaction-id "ABC1234567890xyz"
```
Output:  

```
{
    "numberOfRecordsUpdated": 1
}
```
**Contoh 2: Untuk mengeksekusi pernyataan SQL dengan parameter**  
`execute-statement`Contoh berikut menjalankan pernyataan SQL dengan parameter.  

```
aws rds-data execute-statement \
    --resource-arn "arn:aws:rds:us-east-1:123456789012:cluster:mydbcluster" \
    --database "mydb" \
    --secret-arn "arn:aws:secretsmanager:us-east-1:123456789012:secret:mysecret" \
    --sql "insert into mytable values (:id, :val)" \
    --parameters "[{\"name\": \"id\", \"value\": {\"longValue\": 1}},{\"name\": \"val\", \"value\": {\"stringValue\": \"value1\"}}]"
```
Output:  

```
{
    "numberOfRecordsUpdated": 1
}
```
Untuk informasi selengkapnya, lihat [Menggunakan API Data untuk Aurora Tanpa Server di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/data-api.html) *Amazon* RDS.  
+  Untuk detail API, lihat [ExecuteStatement](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds-data/execute-statement.html)di *Referensi AWS CLI Perintah*. 

### `rollback-transaction`
<a name="rds-data_RollbackTransaction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rollback-transaction`.

**AWS CLI**  
**Untuk memutar kembali transaksi SQL**  
`rollback-transaction`Contoh berikut menggulung kembali transaksi SQL yang ditentukan.  

```
aws rds-data rollback-transaction \
    --resource-arn "arn:aws:rds:us-west-2:123456789012:cluster:mydbcluster" \
    --secret-arn "arn:aws:secretsmanager:us-west-2:123456789012:secret:mysecret" \
    --transaction-id "ABC1234567890xyz"
```
Output:  

```
{
    "transactionStatus": "Rollback Complete"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan API Data untuk Aurora Tanpa Server di Panduan Pengguna](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/data-api.html) *Amazon* RDS.  
+  Untuk detail API, lihat [RollbackTransaction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rds-data/rollback-transaction.html)di *Referensi AWS CLI Perintah*. 

# Contoh Performance Insights Amazon RDS menggunakan AWS CLI
<a name="cli_2_pi_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum AWS Command Line Interface dengan menggunakan Performance Insights Amazon RDS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-performance-analysis-report`
<a name="pi_CreatePerformanceAnalysisReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-performance-analysis-report`.

**AWS CLI**  
**Untuk membuat laporan analisis kinerja**  
`create-performance-analysis-report`Contoh berikut membuat laporan analisis kinerja dengan waktu mulai `1682969503` dan waktu akhir `1682979503` untuk database`db-abcdefg123456789`.  

```
aws pi create-performance-analysis-report \
    --service-type RDS \
    --identifier db-abcdefg123456789 \
    --start-time 1682969503 \
    --end-time 1682979503
```
Output:  

```
{
    "AnalysisReportId": "report-0234d3ed98e28fb17"
}
```
*Untuk informasi selengkapnya tentang membuat laporan analisis kinerja, lihat [Membuat laporan analisis kinerja di Performance Insights](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.UsingDashboard.CreatingPerfAnlysisReport.html) di *Panduan Pengguna Amazon RDS* dan [Membuat laporan analisis kinerja di Performance Insights di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.UsingDashboard.CreatingPerfAnlysisReport.html) Panduan Pengguna Amazon Aurora.*  
+  Untuk detail API, lihat [CreatePerformanceAnalysisReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/create-performance-analysis-report.html)di *Referensi AWS CLI Perintah*. 

### `delete-performance-analysis-report`
<a name="pi_DeletePerformanceAnalysisReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-performance-analysis-report`.

**AWS CLI**  
**Untuk menghapus laporan analisis kinerja**  
`delete-performance-analysis-report`Contoh berikut menghapus laporan analisis kinerja dengan ID `report-0d99cc91c4422ee61` laporan.  

```
aws pi delete-performance-analysis-report \
    --service-type RDS \
    --identifier db-abcdefg123456789 \
    --analysis-report-id report-0d99cc91c4422ee61
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya tentang menghapus laporan analisis kinerja, lihat [Menghapus laporan analisis kinerja di Performance Insights di](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.UsingDashboard.DeletePerfAnalysisReport.html) Panduan *Pengguna Amazon RDS [dan Menghapus laporan analisis kinerja di Performance Insights di](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.UsingDashboard.DeletePerfAnalysisReport.html) Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [DeletePerformanceAnalysisReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/delete-performance-analysis-report.html)di *Referensi AWS CLI Perintah*. 

### `describe-dimension-keys`
<a name="pi_DescribeDimensionKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-dimension-keys`.

**AWS CLI**  
**Contoh 1: Untuk menggambarkan kunci dimensi**  
Contoh ini meminta nama semua acara tunggu. Data dirangkum berdasarkan nama acara, dan nilai agregat dari peristiwa tersebut selama periode waktu yang ditentukan.  
Perintah:  

```
aws pi describe-dimension-keys --service-type RDS --identifier db-LKCGOBK26374TPTDFXOIWVCPPM --start-time 1527026400 --end-time 1527080400 --metric db.load.avg --group-by '{"Group":"db.wait_event"}'
```
Output:  

```
{
    "AlignedEndTime": 1.5270804E9,
    "AlignedStartTime": 1.5270264E9,
    "Keys": [
        {
            "Dimensions": {"db.wait_event.name": "wait/synch/mutex/innodb/aurora_lock_thread_slot_futex"},
            "Total": 0.05906906851195666
        },
        {
            "Dimensions": {"db.wait_event.name": "wait/io/aurora_redo_log_flush"},
            "Total": 0.015824722186149193
        },
        {
            "Dimensions": {"db.wait_event.name": "CPU"},
            "Total": 0.008014396230265477
        },
        {
            "Dimensions": {"db.wait_event.name": "wait/io/aurora_respond_to_client"},
            "Total": 0.0036361612526204477
        },
        {
            "Dimensions": {"db.wait_event.name": "wait/io/table/sql/handler"},
            "Total": 0.0019108398419382965
        },
        {
            "Dimensions": {"db.wait_event.name": "wait/synch/cond/mysys/my_thread_var::suspend"},
            "Total": 8.533847837782684E-4
        },
        {
            "Dimensions": {"db.wait_event.name": "wait/io/file/csv/data"},
            "Total": 6.864181956477376E-4
        },
        {
            "Dimensions": {"db.wait_event.name": "Unknown"},
            "Total": 3.895887056379051E-4
        },
        {
            "Dimensions": {"db.wait_event.name": "wait/synch/mutex/sql/FILE_AS_TABLE::LOCK_shim_lists"},
            "Total": 3.710368625122906E-5
        },
        {
            "Dimensions": {"db.wait_event.name": "wait/lock/table/sql/handler"},
            "Total": 0
        }
    ]
}
```
**Contoh 2: Untuk menemukan ID SQL untuk pernyataan yang paling berkontribusi pada pemuatan DB**  
Berikut ini `describe-dimension-keys` meminta pernyataan SQL dan SQL ID untuk 10 pernyataan yang memberikan kontribusi paling besar untuk beban DB.  

```
aws pi describe-dimension-keys \
    --service-type RDS \
    --identifier db-abcdefg123456789 \
    --start-time 2023-05-01T00:00:00Z \
    --end-time 2023-05-01T01:00:00Z \
    --metric db.load.avg \
    --group-by '{"Group": "db.sql", "Dimensions": ["db.sql.id", "db.sql.statement"],"Limit": 10}'
```
Output:  

```
{
    "AlignedEndTime": 1.5270804E9,
    "AlignedStartTime": 1.5270264E9,
    "Identifier": "db-abcdefg123456789",
    "MetricList": [
        {
            "Keys": [
                {
                    "Dimensions": {"db.sql.id": "AKIAIOSFODNN7EXAMPLE", "db.sql.statement": "SELECT * FROM customers WHERE customer_id = 123"},
                    "Total": 25.5,"Partitions": [12.3, 13.2]
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya tentang dimensi dalam Performance Insights, lihat [Pemuatan database](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.Overview.ActiveSessions.html) di *Panduan Pengguna Amazon RDS dan [pemuatan Database](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.Overview.ActiveSessions.html) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [DescribeDimensionKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/describe-dimension-keys.html)di *Referensi AWS CLI Perintah*. 

### `get-dimension-key-details`
<a name="pi_GetDimensionKeyDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-dimension-key-details`.

**AWS CLI**  
**Untuk mendapatkan detail untuk grup dimensi tertentu untuk instance DB**  
`get-dimension-key-details`Contoh berikut mengambil teks lengkap dari pernyataan SQL untuk contoh DB. `db-10BCD2EFGHIJ3KL4M5NO6PQRS5` `--group` adalah `db.sql`, dan `--group-identifier` adalah `db.sql.id`. Dalam contoh ini, `example-sql-id` merupakan ID SQL diambil dengan menggunakan `get-resource-metrics` atau `describe-dimension-keys` operasi. Dalam contoh ini, detail dimensinya tersedia. Dengan demikian, Wawasan Performa mengambil teks lengkap pernyataan SQL, tanpa memotongnya.  

```
aws pi get-dimension-key-details \
    --service-type RDS \
    --identifier db-10BCD2EFGHIJ3KL4M5NO6PQRS5 \
    --group db.sql \
    --group-identifier example-sql-id \
    --requested-dimensions statement
```
Output:  

```
{
    "Dimensions":[
        {
            "Value": "SELECT e.last_name, d.department_name FROM employees e, departments d WHERE e.department_id=d.department_id",
            "Dimension": "db.sql.statement",
            "Status": "AVAILABLE"
        },
    ...
    ]
}
```
Untuk informasi selengkapnya tentang dimensi dalam Performance Insights, lihat [Pemuatan database](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.Overview.ActiveSessions.html) di *Panduan Pengguna Amazon RDS dan [pemuatan Database](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.Overview.ActiveSessions.html) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [GetDimensionKeyDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/get-dimension-key-details.html)di *Referensi AWS CLI Perintah*. 

### `get-performance-analysis-report`
<a name="pi_GetPerformanceAnalysisReport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-performance-analysis-report`.

**AWS CLI**  
**Untuk mendapatkan laporan analisis kinerja**  
`get-performance-analysis-report`Contoh berikut mendapatkan laporan analisis kinerja untuk database `db-abcdefg123456789` dengan ID laporan`report-0d99cc91c4422ee61`. Respons memberikan status laporan, ID, detail waktu, dan wawasan.  

```
aws pi get-performance-analysis-report \
    --service-type RDS \
    --identifier db-abcdefg123456789 \
    --analysis-report-id report-0d99cc91c4422ee61
```
Output:  

```
{
    "AnalysisReport": {
        "Status": "Succeeded",
        "ServiceType": "RDS",
        "Identifier": "db-abcdefg123456789",
        "StartTime": 1680583486.584,
        "AnalysisReportId": "report-0d99cc91c4422ee61",
        "EndTime": 1680587086.584,
        "CreateTime": 1680587087.139,
        "Insights": [
            ... (Condensed for space)
       ]
    }
}
```
Untuk informasi selengkapnya tentang laporan analisis kinerja, lihat [Menganalisis kinerja database untuk jangka waktu](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.UsingDashboard.AnalyzePerformanceTimePeriod.html) tertentu di *Panduan Pengguna Amazon RDS* dan [Menganalisis kinerja database untuk jangka waktu tertentu](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.UsingDashboard.AnalyzePerformanceTimePeriod.html) dalam Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [GetPerformanceAnalysisReport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/get-performance-analysis-report.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-metadata`
<a name="pi_GetResourceMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-metadata`.

**AWS CLI**  
**Untuk mendapatkan metadata sumber daya untuk database**  
`get-resource-metadata`Contoh berikut mendapatkan metadata sumber daya untuk database. `db-abcdefg123456789` Respons menunjukkan bahwa statistik SQL digest diaktifkan.  

```
aws pi get-resource-metadata \
    --service-type RDS \
    --identifier db-abcdefg123456789
```
Output:  

```
{
    "Identifier": "db-abcdefg123456789",
    "Features":{
        "SQL_DIGEST_STATISTICS":{
            "Status": "ENABLED"
        }
    }
}
```
*Untuk informasi selengkapnya tentang statistik SQL untuk Performance Insights, [lihat statistik SQL untuk Performance Insights](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/sql-statistics.html) di Panduan Pengguna *Amazon RDS dan [statistik SQL untuk Performance Insights](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/sql-statistics.html) di Panduan Pengguna* Amazon Aurora.*  
+  Untuk detail API, lihat [GetResourceMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/get-resource-metadata.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-metrics`
<a name="pi_GetResourceMetrics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-metrics`.

**AWS CLI**  
**Untuk mendapatkan metrik sumber daya**  
*Contoh ini meminta titik data untuk grup dimensi *db.wait\$1event, dan untuk dimensi db.wait\$1event.name* dalam grup itu.* Sebagai tanggapan, titik data yang relevan dikelompokkan berdasarkan dimensi yang diminta (*db.wait\$1event.name*).  
Perintah:  

```
aws pi get-resource-metrics --service-type RDS --identifier db-LKCGOBK26374TPTDFXOIWVCPPM --start-time 1527026400 --end-time 1527080400 --period-in-seconds 300 --metric db.load.avg --metric-queries file://metric-queries.json
```
Argumen untuk `--metric-queries` disimpan dalam file JSON,`metric-queries.json`. Berikut adalah isi dari file tersebut:  

```
[
    {
        "Metric": "db.load.avg",
        "GroupBy": {
            "Group":"db.wait_event"
        }
    }
]
```
Output:  

```
{
    "AlignedEndTime": 1.5270804E9,
    "AlignedStartTime": 1.5270264E9,
    "Identifier": "db-LKCGOBK26374TPTDFXOIWVCPPM",
    "MetricList": [
        {
            "Key": {
                "Metric": "db.load.avg"
            },
            "DataPoints": [
                {
                    "Timestamp": 1527026700.0,
                    "Value": 1.3533333333333333
                },
                {
                    "Timestamp": 1527027000.0,
                    "Value": 0.88
                },
                <...remaining output omitted...>
            ]
        },
        {
            "Key": {
                "Metric": "db.load.avg",
                "Dimensions": {
                    "db.wait_event.name": "wait/synch/mutex/innodb/aurora_lock_thread_slot_futex"
                }
            },
            "DataPoints": [
                {
                    "Timestamp": 1527026700.0,
                    "Value": 0.8566666666666667
                },
                {
                    "Timestamp": 1527027000.0,
                    "Value": 0.8633333333333333
                },
                <...remaining output omitted...>
            ],
        },
            <...remaining output omitted...>
    ]
}
```
+  Untuk detail API, lihat [GetResourceMetrics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/get-resource-metrics.html)di *Referensi AWS CLI Perintah*. 

### `list-available-resource-dimensions`
<a name="pi_ListAvailableResourceDimensions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-available-resource-dimensions`.

**AWS CLI**  
**Untuk membuat daftar dimensi yang dapat ditanyakan untuk jenis metrik pada instans DB**  
`list-available-resource-dimensions`Contoh berikut mencantumkan `db.load` metrik yang dapat Anda kueri untuk database`db-abcdefg123456789`.  

```
aws pi list-available-resource-dimensions \
    --service-type RDS \
    --identifier db-abcdefg123456789 \
    --metrics db.load
```
Output:  

```
{
    "MetricDimensions": [
        {
            "Metric": "db.load",
            "Groups": [
                {
                    "Group": "db.user",
                    "Dimensions": [
                        {
                            "Identifier": "db.user.id"
                        },
                        {
                            "Identifier": "db.user.name"
                        }
                    ]
                },
                {
                    "Group": "db.sql_tokenized",
                    "Dimensions": [
                        {
                            "Identifier": "db.sql_tokenized.id"
                        },
                        {
                            "Identifier": "db.sql_tokenized.db_id"
                        },
                        {
                            "Identifier": "db.sql_tokenized.statement"
                        }
                    ]
                },
                ...
            ]
        }
    ]
}
```
Untuk informasi selengkapnya tentang dimensi dalam Performance Insights, lihat [Pemuatan database](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.Overview.ActiveSessions.html) di *Panduan Pengguna Amazon RDS dan [pemuatan Database](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.Overview.ActiveSessions.html) di Panduan Pengguna* *Amazon* Aurora.  
+  Untuk detail API, lihat [ListAvailableResourceDimensions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/list-available-resource-dimensions.html)di *Referensi AWS CLI Perintah*. 

### `list-available-resource-metrics`
<a name="pi_ListAvailableResourceMetrics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-available-resource-metrics`.

**AWS CLI**  
**Untuk membuat daftar metrik yang dapat ditanyakan untuk jenis metrik pada instans DB**  
`list-available-resource-metrics`Contoh berikut mencantumkan `db.load` metrik yang dapat Anda kueri untuk database`db-abcdefg123456789`.  

```
aws pi list-available-resource-metrics \
    --service-type RDS \
    --identifier db-abcdefg123456789 \
    --metric-types "os" "db"
```
Output:  

```
{
    "Metrics": [
        {
            "Description": "The number of virtual CPUs for the DB instance",
            "Metric": "os.general.numVCPUs",
            "Unit": "vCPUs"
        },
        ......,
        {
            "Description": "Time spent reading data file blocks by backends in this instance",
            "Metric": "db.IO.read_latency",
            "Unit": "Milliseconds per block"
        },
        ......
    ]
}
```
Untuk informasi selengkapnya tentang metrik di Performance Insights, [lihat Pemuatan database](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.Overview.ActiveSessions.html) di Panduan Pengguna *Amazon RDS [dan Pemuatan Database](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.Overview.ActiveSessions.html) di Panduan Pengguna* Amazon *Aurora*.  
+  Untuk detail API, lihat [ListAvailableResourceMetrics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/list-available-resource-metrics.html)di *Referensi AWS CLI Perintah*. 

### `list-performance-analysis-reports`
<a name="pi_ListPerformanceAnalysisReports_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-performance-analysis-reports`.

**AWS CLI**  
**Untuk membuat daftar laporan analisis kinerja untuk database**  
`list-performance-analysis-reports`Contoh berikut mencantumkan laporan analisis kinerja untuk database`db-abcdefg123456789`. Respons ini mencantumkan semua laporan dengan ID laporan, status, dan detail periode waktu.  

```
aws pi list-performance-analysis-reports \
    --service-type RDS \
    --identifier db-abcdefg123456789
```
Output:  

```
{
    "AnalysisReports": [
        {
            "Status": "Succeeded",
            "EndTime": 1680587086.584,
            "CreateTime": 1680587087.139,
            "StartTime": 1680583486.584,
            "AnalysisReportId": "report-0d99cc91c4422ee61"
        },
        {
            "Status": "Succeeded",
            "EndTime": 1681491137.914,
            "CreateTime": 1681491145.973,
            "StartTime": 1681487537.914,
            "AnalysisReportId": "report-002633115cc002233"
        },
        {
            "Status": "Succeeded",
            "EndTime": 1681493499.849,
            "CreateTime": 1681493507.762,
            "StartTime": 1681489899.849,
            "AnalysisReportId": "report-043b1e006b47246f9"
        },
        {
            "Status": "InProgress",
            "EndTime": 1682979503.0,
            "CreateTime": 1682979618.994,
            "StartTime": 1682969503.0,
            "AnalysisReportId": "report-01ad15f9b88bcbd56"
        }
    ]
}
```
Untuk informasi selengkapnya tentang laporan analisis kinerja, lihat [Menganalisis kinerja database untuk jangka waktu](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.UsingDashboard.AnalyzePerformanceTimePeriod.html) tertentu di *Panduan Pengguna Amazon RDS* dan [Menganalisis kinerja database untuk jangka waktu tertentu](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.UsingDashboard.AnalyzePerformanceTimePeriod.html) dalam Panduan Pengguna *Amazon Aurora*.  
+  Untuk detail API, lihat [ListPerformanceAnalysisReports](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/list-performance-analysis-reports.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="pi_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag untuk laporan analisis kinerja**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk laporan analisis kinerja dengan ID laporan`report-0d99cc91c4422ee61`.  

```
aws pi list-tags-for-resource \
    --service-type RDS \
    --resource-arn arn:aws:pi:us-west-2:123456789012:perf-reports/RDS/db-abcdefg123456789/report-0d99cc91c4422ee61
```
Output:  

```
{
    "Tags": [
        {
            "Value": "test-tag",
            "Key": "name"
        }
    ]
}
```
Untuk informasi selengkapnya tentang menandai laporan analisis performa, lihat [Menambahkan tag ke laporan analisis kinerja di Performance Insights di](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.UsingDashboard.ManagePerfAnalysisReportTags.html) Panduan *Pengguna Amazon RDS* [dan Menambahkan tag ke laporan analisis kinerja di Performance Insights](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.UsingDashboard.ManagePerfAnalysisReportTags.html) di Panduan Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="pi_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke laporan analisis kinerja**  
`tag-resource`Contoh berikut menambahkan kunci tag `name` dengan nilai tag `test-tag` ke laporan analisis kinerja dengan ID laporan`report-0d99cc91c4422ee61`.  

```
aws pi tag-resource \
    --service-type RDS \
    --resource-arn arn:aws:pi:us-west-2:123456789012:perf-reports/RDS/db-abcdefg123456789/report-0d99cc91c4422ee61 \
    --tags Key=name,Value=test-tag
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya tentang menandai laporan analisis performa, lihat [Menambahkan tag ke laporan analisis kinerja di Performance Insights di](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.UsingDashboard.ManagePerfAnalysisReportTags.html) Panduan *Pengguna Amazon RDS* [dan Menambahkan tag ke laporan analisis kinerja di Performance Insights](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.UsingDashboard.ManagePerfAnalysisReportTags.html) di Panduan Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="pi_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag untuk laporan analisis kinerja**  
`untag-resource`Contoh berikut menghapus tag `name` untuk laporan analisis kinerja dengan ID `report-0d99cc91c4422ee61` laporan.  

```
aws pi untag-resource \
    --service-type RDS \
    --resource-arn arn:aws:pi:us-west-2:123456789012:perf-reports/RDS/db-abcdefg123456789/report-0d99cc91c4422ee61 \
    --tag-keys name
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya tentang menandai laporan analisis performa, lihat [Menambahkan tag ke laporan analisis kinerja di Performance Insights di](https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_PerfInsights.UsingDashboard.ManagePerfAnalysisReportTags.html) Panduan *Pengguna Amazon RDS* [dan Menambahkan tag ke laporan analisis kinerja di Performance Insights](https://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/USER_PerfInsights.UsingDashboard.ManagePerfAnalysisReportTags.html) di Panduan Pengguna *Amazon* Aurora.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/pi/untag-resource.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Redshift menggunakan AWS CLI
<a name="cli_2_redshift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Amazon Redshift.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-reserved-node-exchange`
<a name="redshift_AcceptReservedNodeExchange_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-reserved-node-exchange`.

**AWS CLI**  
**Untuk menerima pertukaran node cadangan**  
`accept-reserved-node-exchange`Contoh berikut menerima pertukaran node DC1 reserved untuk node DC2 reserved.  

```
aws redshift accept-reserved-node-exchange /
    --reserved-node-id 12345678-12ab-12a1-1a2a-12ab-12a12EXAMPLE /
    --target-reserved-node-offering-id 12345678-12ab-12a1-1a2a-12ab-12a12EXAMPLE
```
Output:  

```
{
    "ExchangedReservedNode": {
        "ReservedNodeId": "12345678-12ab-12a1-1a2a-12ab-12a12EXAMPLE",
        "ReservedNodeOfferingId": "12345678-12ab-12a1-1a2a-12ab-12a12EXAMPLE",
        "NodeType": "dc2.large",
        "StartTime": "2019-12-06T21:17:26Z",
        "Duration": 31536000,
        "FixedPrice": 0.0,
        "UsagePrice": 0.0,
        "CurrencyCode": "USD",
        "NodeCount": 1,
        "State": "exchanging",
        "OfferingType": "All Upfront",
        "RecurringCharges": [
            {
                "RecurringChargeAmount": 0.0,
                "RecurringChargeFrequency": "Hourly"
            }
        ],
        "ReservedNodeOfferingType": "Regular"
    }
}
```
Untuk informasi selengkapnya, lihat [Memutakhirkan Node Cadangan Dengan AWS CLI](https://docs.aws.amazon.com/redshift/latest/mgmt/purchase-reserved-node-offering-console.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [AcceptReservedNodeExchange](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/accept-reserved-node-exchange.html)di *Referensi AWS CLI Perintah*. 

### `authorize-cluster-security-group-ingress`
<a name="redshift_AuthorizeClusterSecurityGroupIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`authorize-cluster-security-group-ingress`.

**AWS CLI**  
Mengotorisasi Akses ke GroupThis contoh Keamanan EC2 mengotorisasi akses ke grup keamanan Amazon EC2 bernama.Perintah:  

```
aws redshift authorize-cluster-security-group-ingress --cluster-security-group-name mysecuritygroup --ec2-security-group-name myec2securitygroup --ec2-security-group-owner-id 123445677890
```
Mengotorisasi Akses ke rentang CIDRContoh ini mengotorisasi akses ke rentang CIDR.Command:  

```
aws redshift authorize-cluster-security-group-ingress --cluster-security-group-name mysecuritygroup --cidrip 192.168.100.100/32
```
+  Untuk detail API, lihat [AuthorizeClusterSecurityGroupIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/authorize-cluster-security-group-ingress.html)di *Referensi AWS CLI Perintah*. 

### `authorize-snapshot-access`
<a name="redshift_AuthorizeSnapshotAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`authorize-snapshot-access`.

**AWS CLI**  
Otorisasi AWS Akun untuk Memulihkan SnapshotThis contoh mengotorisasi AWS akun `444455556666` untuk memulihkan snapshot. `my-snapshot-id` Secara default, output dalam format JSON.Command:  

```
aws redshift authorize-snapshot-access --snapshot-id my-snapshot-id --account-with-restore-access 444455556666
```
Hasil:  

```
{
   "Snapshot": {
      "Status": "available",
      "SnapshotCreateTime": "2013-07-17T22:04:18.947Z",
      "EstimatedSecondsToCompletion": 0,
      "AvailabilityZone": "us-east-1a",
      "ClusterVersion": "1.0",
      "MasterUsername": "adminuser",
      "Encrypted": false,
      "OwnerAccount": "111122223333",
      "BackupProgressInMegabytes": 11.0,
      "ElapsedTimeInSeconds": 0,
      "DBName": "dev",
      "CurrentBackupRateInMegabytesPerSecond: 0.1534,
      "ClusterCreateTime": "2013-01-22T21:59:29.559Z",
      "ActualIncrementalBackupSizeInMegabytes"; 11.0,
      "SnapshotType": "manual",
      "NodeType": "dw.hs1.xlarge",
      "ClusterIdentifier": "mycluster",
      "TotalBackupSizeInMegabytes": 20.0,
      "Port": 5439,
      "NumberOfNodes": 2,
      "SnapshotIdentifier": "my-snapshot-id"
   }
}
```
+  Untuk detail API, lihat [AuthorizeSnapshotAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/authorize-snapshot-access.html)di *Referensi AWS CLI Perintah*. 

### `batch-delete-cluster-snapshots`
<a name="redshift_BatchDeleteClusterSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-delete-cluster-snapshots`.

**AWS CLI**  
**Untuk menghapus satu set snapshot cluster**  
`batch-delete-cluster-snapshots`Contoh berikut menghapus satu set snapshot cluster manual.  

```
aws redshift batch-delete-cluster-snapshots \
        --identifiers SnapshotIdentifier=mycluster-2019-11-06-14-12 SnapshotIdentifier=mycluster-2019-11-06-14-20
```
Output:  

```
{
    "Resources": [
        "mycluster-2019-11-06-14-12",
        "mycluster-2019-11-06-14-20"
    ]
}
```
Untuk informasi selengkapnya, lihat [Snapshot Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [BatchDeleteClusterSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/batch-delete-cluster-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `batch-modify-cluster-snapshots`
<a name="redshift_BatchModifyClusterSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-modify-cluster-snapshots`.

**AWS CLI**  
**Untuk memodifikasi satu set snapshot cluster**  
`batch-modify-cluster-snapshots`Contoh berikut memodifikasi pengaturan untuk satu set snapshot cluster.  

```
aws redshift batch-modify-cluster-snapshots \
    --snapshot-identifier-list mycluster-2019-11-06-16-31 mycluster-2019-11-06-16-32 \
    --manual-snapshot-retention-period 30
```
Output:  

```
{
    "Resources": [
        "mycluster-2019-11-06-16-31",
        "mycluster-2019-11-06-16-32"
    ],
    "Errors": [],
    "ResponseMetadata": {
        "RequestId": "12345678-12ab-12a1-1a2a-12ab-12a12EXAMPLE",
        "HTTPStatusCode": 200,
        "HTTPHeaders": {
                "x-amzn-requestid": "12345678-12ab-12a1-1a2a-12ab-12a12EXAMPLE,
                "content-type": "text/xml",
                "content-length": "480",
                "date": "Sat, 07 Dec 2019 00:36:09 GMT",
                "connection": "keep-alive"
        },
        "RetryAttempts": 0
    }
}
```
Untuk informasi selengkapnya, lihat [Snapshot Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [BatchModifyClusterSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/batch-modify-cluster-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `cancel-resize`
<a name="redshift_CancelResize_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-resize`.

**AWS CLI**  
**Untuk membatalkan pengubahan ukuran klaster**  
`cancel-resize`Contoh berikut membatalkan operasi pengubahan ukuran klasik untuk sebuah cluster.  

```
aws redshift cancel-resize \
    --cluster-identifier mycluster
```
Output:  

```
{
    "TargetNodeType": "dc2.large",
    "TargetNumberOfNodes": 2,
    "TargetClusterType": "multi-node",
    "Status": "CANCELLING",
    "ResizeType": "ClassicResize",
    "TargetEncryptionType": "NONE"
}
```
Untuk informasi selengkapnya, lihat [Mengubah Ukuran Cluster di Amazon Redshift di](https://docs.aws.amazon.com/redshift/latest/mgmt/rs-resize-tutorial.html) Panduan Manajemen Cluster Amazon *Redshift*.  
+  Untuk detail API, lihat [CancelResize](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/cancel-resize.html)di *Referensi AWS CLI Perintah*. 

### `copy-cluster-snapshot`
<a name="redshift_CopyClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-cluster-snapshot`.

**AWS CLI**  
Dapatkan Deskripsi Semua Cluster VersionsThis contoh mengembalikan deskripsi semua versi cluster. Secara default, output dalam format JSON.Command:  

```
aws redshift copy-cluster-snapshot --source-snapshot-identifier cm:examplecluster-2013-01-22-19-27-58 --target-snapshot-identifier my-saved-snapshot-copy
```
Hasil:  

```
{
   "Snapshot": {
      "Status": "available",
      "SnapshotCreateTime": "2013-01-22T19:27:58.931Z",
      "AvailabilityZone": "us-east-1c",
      "ClusterVersion": "1.0",
      "MasterUsername": "adminuser",
      "DBName": "dev",
      "ClusterCreateTime": "2013-01-22T19:23:59.368Z",
      "SnapshotType": "manual",
      "NodeType": "dw.hs1.xlarge",
      "ClusterIdentifier": "examplecluster",
      "Port": 5439,
      "NumberOfNodes": "2",
      "SnapshotIdentifier": "my-saved-snapshot-copy"
   },
   "ResponseMetadata": {
      "RequestId": "3b279691-64e3-11e2-bec0-17624ad140dd"
   }
}
```
+  Untuk detail API, lihat [CopyClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/copy-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster-parameter-group`
<a name="redshift_CreateClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster-parameter-group`.

**AWS CLI**  
Buat GroupThis contoh Parameter Cluster membuat parameter cluster baru Group.Command:  

```
aws redshift create-cluster-parameter-group --parameter-group-name myclusterparametergroup --parameter-group-family redshift-1.0 --description "My first cluster parameter group"
```
Hasil:  

```
{
   "ClusterParameterGroup": {
      "ParameterGroupFamily": "redshift-1.0",
      "Description": "My first cluster parameter group",
      "ParameterGroupName": "myclusterparametergroup"
   },
   "ResponseMetadata": {
      "RequestId": "739448f0-64cc-11e2-8f7d-3b939af52818"
   }
}
```
+  Untuk detail API, lihat [CreateClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster-security-group`
<a name="redshift_CreateClusterSecurityGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster-security-group`.

**AWS CLI**  
Membuat GroupThis contoh Keamanan Cluster membuat grup keamanan klaster baru. Secara default, output dalam format JSON.Command:  

```
aws redshift create-cluster-security-group --cluster-security-group-name mysecuritygroup --description "This is my cluster security group"
```
Hasil:  

```
{
   "create_cluster_security_group_response": {
      "create_cluster_security_group_result": {
         "cluster_security_group": {
            "description": "This is my cluster security group",
            "owner_id": "300454760768",
            "cluster_security_group_name": "mysecuritygroup",
            "ec2_security_groups": \[],
            "ip_ranges": \[]
         }
      },
      "response_metadata": {
         "request_id": "5df486a0-343a-11e2-b0d8-d15d0ef48549"
      }
   }
}
```
Anda juga dapat memperoleh informasi yang sama dalam format teks menggunakan `--output text` option.Command:  
`--output text`Option.command:  
 Option.command:  

```
aws redshift create-cluster-security-group --cluster-security-group-name mysecuritygroup --description "This is my cluster security group" --output text
```
Hasil:  

```
This is my cluster security group   300454760768    mysecuritygroup
a0c0bfab-343a-11e2-95d2-c3dc9fe8ab57
```
+  Untuk detail API, lihat [CreateClusterSecurityGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-cluster-security-group.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster-snapshot`
<a name="redshift_CreateClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster-snapshot`.

**AWS CLI**  
Buat SnapshotThis contoh Cluster membuat snapshot cluster baru. Secara default, output dalam format JSON.Command:  

```
aws redshift create-cluster-snapshot --cluster-identifier mycluster --snapshot-identifier my-snapshot-id
```
Hasil:  

```
{
   "Snapshot": {
      "Status": "creating",
      "SnapshotCreateTime": "2013-01-22T22:20:33.548Z",
      "AvailabilityZone": "us-east-1a",
      "ClusterVersion": "1.0",
      "MasterUsername": "adminuser",
      "DBName": "dev",
      "ClusterCreateTime": "2013-01-22T21:59:29.559Z",
      "SnapshotType": "manual",
      "NodeType": "dw.hs1.xlarge",
      "ClusterIdentifier": "mycluster",
      "Port": 5439,
      "NumberOfNodes": "2",
      "SnapshotIdentifier": "my-snapshot-id"
   },
   "ResponseMetadata": {
      "RequestId": "f024d1a5-64e1-11e2-88c5-53eb05787dfb"
   }
}
```
+  Untuk detail API, lihat [CreateClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster-subnet-group`
<a name="redshift_CreateClusterSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster-subnet-group`.

**AWS CLI**  
Buat GroupThis contoh Cluster Subnet membuat cluster subnet group.Command baru:  

```
aws redshift create-cluster-subnet-group --cluster-subnet-group-name mysubnetgroup  --description "My subnet group" --subnet-ids subnet-763fdd1c
```
Hasil:  

```
{
   "ClusterSubnetGroup": {
      "Subnets": [
         {
            "SubnetStatus": "Active",
            "SubnetIdentifier": "subnet-763fdd1c",
            "SubnetAvailabilityZone": {
               "Name": "us-east-1a"
            }
         } ],
      "VpcId": "vpc-7e3fdd14",
      "SubnetGroupStatus": "Complete",
      "Description": "My subnet group",
      "ClusterSubnetGroupName": "mysubnetgroup"
   },
   "ResponseMetadata": {
      "RequestId": "500b8ce2-698f-11e2-9790-fd67517fb6fd"
   }
}
```
+  Untuk detail API, lihat [CreateClusterSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-cluster-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `create-cluster`
<a name="redshift_CreateCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-cluster`.

**AWS CLI**  
Buat Cluster dengan ParametersThis contoh Minimal membuat cluster dengan set minimal parameter. Secara default, output dalam format JSON.Command:  

```
aws redshift create-cluster --node-type dw.hs1.xlarge --number-of-nodes 2 --master-username adminuser --master-user-password TopSecret1 --cluster-identifier mycluster
```
Hasil:  

```
{
   "Cluster": {
      "NodeType": "dw.hs1.xlarge",
      "ClusterVersion": "1.0",
      "PubliclyAccessible": "true",
      "MasterUsername": "adminuser",
      "ClusterParameterGroups": [
         {
            "ParameterApplyStatus": "in-sync",
            "ParameterGroupName": "default.redshift-1.0"
         } ],
      "ClusterSecurityGroups": [
         {
            "Status": "active",
            "ClusterSecurityGroupName": "default"
         } ],
      "AllowVersionUpgrade": true,
      "VpcSecurityGroups": \[],
      "PreferredMaintenanceWindow": "sat:03:30-sat:04:00",
      "AutomatedSnapshotRetentionPeriod": 1,
      "ClusterStatus": "creating",
      "ClusterIdentifier": "mycluster",
      "DBName": "dev",
      "NumberOfNodes": 2,
      "PendingModifiedValues": {
         "MasterUserPassword": "\****"
      }
   },
   "ResponseMetadata": {
      "RequestId": "7cf4bcfc-64dd-11e2-bea9-49e0ce183f07"
   }
}
```
+  Untuk detail API, lihat [CreateCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-cluster.html)di *Referensi AWS CLI Perintah*. 

### `create-event-subscription`
<a name="redshift_CreateEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-event-subscription`.

**AWS CLI**  
**Untuk membuat langganan notifikasi untuk suatu acara**  
`create-event-subscription`Contoh berikut membuat langganan pemberitahuan acara.  

```
aws redshift create-event-subscription \
    --subscription-name mysubscription \
    --sns-topic-arn arn:aws:sns:us-west-2:123456789012:MySNStopic \
    --source-type cluster \
    --source-ids mycluster
```
Output:  

```
{
        "EventSubscription": {
        "CustomerAwsId": "123456789012",
        "CustSubscriptionId": "mysubscription",
        "SnsTopicArn": "arn:aws:sns:us-west-2:123456789012:MySNStopic",
        "Status": "active",
        "SubscriptionCreationTime": "2019-12-09T20:05:19.365Z",
        "SourceType": "cluster",
        "SourceIdsList": [
            "mycluster"
        ],
        "EventCategoriesList": [],
        "Severity": "INFO",
        "Enabled": true,
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Berlangganan Pemberitahuan Peristiwa Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-event-notifications.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [CreateEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `create-hsm-client-certificate`
<a name="redshift_CreateHsmClientCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-hsm-client-certificate`.

**AWS CLI**  
**Untuk membuat sertifikat klien HSM**  
`create-hsm-client-certificate`Contoh berikut menghasilkan sertifikat klien HSM yang dapat digunakan cluster untuk terhubung ke HSM.  

```
aws redshift create-hsm-client-certificate \
    --hsm-client-certificate-identifier myhsmclientcert
```
Output:  

```
{
    "HsmClientCertificate": {
        "HsmClientCertificateIdentifier": "myhsmclientcert",
        "HsmClientCertificatePublicKey": "-----BEGIN CERTIFICATE-----
        MIICiEXAMPLECQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
        VVMxCzAJBgNVBAgTEXAMPLEwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
        b24xFDASBgNVBAsTC0lBTSBDb25EXAMPLEIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
        BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb2EXAMPLETEwNDI1MjA0NTIxWhcN
        MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBEXAMPLEMRAwDgYD
        EXAMPLETZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
        b2xlMRIwEAEXAMPLEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
        YXpvbi5jb20wgZ8wDQYJKEXAMPLEAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
        21uUSfwfEvySWtC2XADZ4nB+BLYgVIk6EXAMPLE3G93vUEIO3IyNoH/f0wYK8m9T
        rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugEXAMPLEzZswY6786m86gpE
        Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEEXAMPLEEAtCu4
        nUhVVxYUEXAMPLEh8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
        FFBjvSfpJIlJ00zbhNYS5f6GEXAMPLEl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
        NYiytVbZPQUQ5Yaxu2jXnimvw3rEXAMPLE=-----END CERTIFICATE-----\n",
    "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Referensi Izin API Amazon Redshift di Panduan Manajemen](https://docs.aws.amazon.com/redshift/latest/mgmt/redshift-policy-resources.resource-permissions.html) Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [CreateHsmClientCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-hsm-client-certificate.html)di *Referensi AWS CLI Perintah*. 

### `create-hsm-configuration`
<a name="redshift_CreateHsmConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-hsm-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi HSM**  
`create-hsm-configuration`Contoh berikut membuat konfigurasi HSM tertentu yang berisi informasi yang diperlukan oleh cluster untuk menyimpan dan menggunakan kunci enkripsi database dalam modul keamanan perangkat keras (HSM).  

```
aws redshift create-hsm-configuration /
    --hsm-configuration-identifier myhsmconnection
    --description "My HSM connection"
    --hsm-ip-address 192.0.2.09
    --hsm-partition-name myhsmpartition /
    --hsm-partition-password A1b2c3d4 /
    --hsm-server-public-certificate myhsmclientcert
```
Output:  

```
{
    "HsmConfiguration": {
        "HsmConfigurationIdentifier": "myhsmconnection",
        "Description": "My HSM connection",
        "HsmIpAddress": "192.0.2.09",
        "HsmPartitionName": "myhsmpartition",
        "Tags": []
    }
}
```
+  Untuk detail API, lihat [CreateHsmConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-hsm-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-snapshot-copy-grant`
<a name="redshift_CreateSnapshotCopyGrant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-snapshot-copy-grant`.

**AWS CLI**  
**Untuk membuat hibah salinan snapshot**  
`create-snapshot-copy-grant`Contoh berikut membuat hibah salinan snapshot dan mengenkripsi snapshot yang disalin di Wilayah tujuan. AWS   

```
aws redshift create-snapshot-copy-grant \
    --snapshot-copy-grant-name mysnapshotcopygrantname
```
Output:  

```
{
    "SnapshotCopyGrant": {
        "SnapshotCopyGrantName": "mysnapshotcopygrantname",
        "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/bPxRfih3yCo8nvbEXAMPLEKEY",
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Enkripsi Database Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-db-encryption.html) di Panduan Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [CreateSnapshotCopyGrant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-snapshot-copy-grant.html)di *Referensi AWS CLI Perintah*. 

### `create-snapshot-schedule`
<a name="redshift_CreateSnapshotSchedule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-snapshot-schedule`.

**AWS CLI**  
**Untuk membuat jadwal snapshot**  
`create-snapshot-schedule`Contoh berikut membuat jadwal snapshot dengan deskripsi yang ditentukan dan tingkat setiap 12 jam.  

```
aws redshift create-snapshot-schedule \
    --schedule-definitions "rate(12 hours)" \
    --schedule-identifier mysnapshotschedule \
    --schedule-description "My schedule description"
```
Output:  

```
{
    "ScheduleDefinitions": [
        "rate(12 hours)"
    ],
    "ScheduleIdentifier": "mysnapshotschedule",
    "ScheduleDescription": "My schedule description",
    "Tags": []
}
```
Untuk informasi selengkapnya, lihat [Jadwal Snapshot Otomatis di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#automated-snapshot-schedules) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [CreateSnapshotSchedule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-snapshot-schedule.html)di *Referensi AWS CLI Perintah*. 

### `create-tags`
<a name="redshift_CreateTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-tags`.

**AWS CLI**  
**Untuk membuat tag untuk sebuah cluster**  
`create-tags`Contoh berikut menambahkan key/value pasangan tag yang ditentukan ke cluster tertentu.  

```
aws redshift create-tags \
    --resource-name arn:aws:redshift:us-west-2:123456789012:cluster:mycluster \
    --tags "Key"="mytags","Value"="tag1"
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya di Amazon](https://docs.aws.amazon.com/redshift/latest/mgmt/amazon-redshift-tagging.html) Redshift di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [CreateTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/create-tags.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster-parameter-group`
<a name="redshift_DeleteClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster-parameter-group`.

**AWS CLI**  
Hapus GroupThis contoh Parameter Cluster menghapus parameter cluster Group.Command:  

```
aws redshift delete-cluster-parameter-group --parameter-group-name myclusterparametergroup
```
+  Untuk detail API, lihat [DeleteClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster-security-group`
<a name="redshift_DeleteClusterSecurityGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster-security-group`.

**AWS CLI**  
Menghapus GroupThis contoh Keamanan Cluster menghapus grup keamanan klaster.Command:  

```
aws redshift delete-cluster-security-group --cluster-security-group-name mysecuritygroup
```
+  Untuk detail API, lihat [DeleteClusterSecurityGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-cluster-security-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster-snapshot`
<a name="redshift_DeleteClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster-snapshot`.

**AWS CLI**  
Menghapus SnapshotThis contoh Cluster menghapus cluster Snapshot.Command:  

```
aws redshift delete-cluster-snapshot --snapshot-identifier my-snapshot-id
```
+  Untuk detail API, lihat [DeleteClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster-subnet-group`
<a name="redshift_DeleteClusterSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster-subnet-group`.

**AWS CLI**  
Menghapus GroupThis contoh subnet Cluster menghapus cluster subnet group.Command:  

```
aws redshift delete-cluster-subnet-group --cluster-subnet-group-name mysubnetgroup
```
Hasil:  

```
{
   "ResponseMetadata": {
      "RequestId": "253fbffd-6993-11e2-bc3a-47431073908a"
   }
}
```
+  Untuk detail API, lihat [DeleteClusterSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-cluster-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-cluster`
<a name="redshift_DeleteCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-cluster`.

**AWS CLI**  
Hapus Cluster tanpa SnapshotThis contoh Final Cluster menghapus cluster, memaksa penghapusan data sehingga tidak ada snapshot cluster akhir yang dibuat.Command:  

```
aws redshift delete-cluster --cluster-identifier mycluster --skip-final-cluster-snapshot
```
Menghapus Cluster, Mengizinkan SnapshotThis contoh Final Cluster menghapus klaster, tetapi menentukan snapshot.Command cluster akhir:  

```
aws redshift delete-cluster --cluster-identifier mycluster --final-cluster-snapshot-identifier myfinalsnapshot
```
+  Untuk detail API, lihat [DeleteCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-cluster.html)di *Referensi AWS CLI Perintah*. 

### `delete-event-subscription`
<a name="redshift_DeleteEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-event-subscription`.

**AWS CLI**  
**Untuk menghapus langganan acara**  
`delete-event-subscription`Contoh berikut menghapus langganan pemberitahuan acara yang ditentukan.  

```
aws redshift delete-event-subscription \
    --subscription-name mysubscription
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Berlangganan Pemberitahuan Peristiwa Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-event-notifications.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [DeleteEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `delete-hsm-client-certificate`
<a name="redshift_DeleteHsmClientCertificate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-hsm-client-certificate`.

**AWS CLI**  
**Untuk menghapus sertifikat klien HSM**  
`delete-hsm-client-certificate`Contoh berikut menghapus sertifikat klien HSM.  

```
aws redshift delete-hsm-client-certificate \
    --hsm-client-certificate-identifier myhsmclientcert
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Referensi Izin API Amazon Redshift di Panduan Manajemen](https://docs.aws.amazon.com/redshift/latest/mgmt/redshift-policy-resources.resource-permissions.html) Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [DeleteHsmClientCertificate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-hsm-client-certificate.html)di *Referensi AWS CLI Perintah*. 

### `delete-hsm-configuration`
<a name="redshift_DeleteHsmConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-hsm-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi HSM**  
`delete-hsm-configuration`Contoh berikut menghapus konfigurasi HSM yang ditentukan dari akun saat ini AWS .  

```
aws redshift delete-hsm-configuration /
    --hsm-configuration-identifier myhsmconnection
```
Perintah ini tidak menghasilkan output apa pun.  
+  Untuk detail API, lihat [DeleteHsmConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-hsm-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-scheduled-action`
<a name="redshift_DeleteScheduledAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-scheduled-action`.

**AWS CLI**  
**Untuk menghapus tindakan terjadwal**  
`delete-scheduled-action`Contoh berikut menghapus tindakan terjadwal yang ditentukan.  

```
aws redshift delete-scheduled-action \
    --scheduled-action-name myscheduledaction
```
Perintah ini tidak menghasilkan output apa pun.  
+  Untuk detail API, lihat [DeleteScheduledAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-scheduled-action.html)di *Referensi AWS CLI Perintah*. 

### `delete-snapshot-copy-grant`
<a name="redshift_DeleteSnapshotCopyGrant_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-snapshot-copy-grant`.

**AWS CLI**  
**Untuk menghapus hibah salinan snapshot**  
`delete-snapshot-copy-grant`Contoh berikut menghapus hibah salinan snapshot yang ditentukan.  

```
aws redshift delete-snapshot-copy-grant \
    --snapshot-copy-grant-name mysnapshotcopygrantname
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Enkripsi Database Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-db-encryption.html) di Panduan Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DeleteSnapshotCopyGrant](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-snapshot-copy-grant.html)di *Referensi AWS CLI Perintah*. 

### `delete-snapshot-schedule`
<a name="redshift_DeleteSnapshotSchedule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-snapshot-schedule`.

**AWS CLI**  
**Untuk menghapus jadwal snapshot**  
`delete-snapshot-schedule`Contoh berikut menghapus jadwal snapshot yang ditentukan. Anda harus memisahkan cluster sebelum menghapus jadwal.  

```
aws redshift delete-snapshot-schedule \
    --schedule-identifier mysnapshotschedule
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Jadwal Snapshot Otomatis di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#automated-snapshot-schedules) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DeleteSnapshotSchedule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-snapshot-schedule.html)di *Referensi AWS CLI Perintah*. 

### `delete-tags`
<a name="redshift_DeleteTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-tags`.

**AWS CLI**  
**Untuk menghapus tag dari klaster**  
`delete-tags`Contoh berikut menghapus tag dengan nama kunci yang ditentukan dari cluster yang ditentukan.  

```
aws redshift delete-tags \
    --resource-name arn:aws:redshift:us-west-2:123456789012:cluster:mycluster \
    --tag-keys "clustertagkey" "clustertagvalue"
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya di Amazon](https://docs.aws.amazon.com/redshift/latest/mgmt/amazon-redshift-tagging.html) Redshift di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [DeleteTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/delete-tags.html)di *Referensi AWS CLI Perintah*. 

### `describe-account-attributes`
<a name="redshift_DescribeAccountAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-account-attributes`.

**AWS CLI**  
**Untuk mendeskripsikan atribut AWS akun**  
`describe-account-attributes`Contoh berikut menampilkan atribut yang dilampirkan ke AWS akun panggilan.  

```
aws redshift describe-account-attributes
```
Output:  

```
{
    "AccountAttributes": [
        {
            "AttributeName": "max-defer-maintenance-duration",
            "AttributeValues": [
                {
                    "AttributeValue": "45"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeAccountAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-account-attributes.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster-db-revisions`
<a name="redshift_DescribeClusterDbRevisions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster-db-revisions`.

**AWS CLI**  
**Untuk menggambarkan revisi DB untuk sebuah cluster**  
`describe-cluster-db-revisions`Contoh berikut menampilkan rincian dari array `ClusterDbRevision` objek untuk cluster tertentu.  

```
aws redshift describe-cluster-db-revisions \
    --cluster-identifier mycluster
```
Output:  

```
{
    "ClusterDbRevisions": [
        {
            "ClusterIdentifier": "mycluster",
            "CurrentDatabaseRevision": "11420",
            "DatabaseRevisionReleaseDate": "2019-11-22T16:43:49.597Z",
            "RevisionTargets": []
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeClusterDbRevisions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-cluster-db-revisions.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster-parameter-groups`
<a name="redshift_DescribeClusterParameterGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster-parameter-groups`.

**AWS CLI**  
Dapatkan Deskripsi All Cluster Parameter GroupsThis contoh mengembalikan deskripsi semua kelompok parameter cluster untuk akun, dengan header kolom. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-cluster-parameter-groups
```
Hasil:  

```
{
   "ParameterGroups": [
      {
         "ParameterGroupFamily": "redshift-1.0",
         "Description": "My first cluster parameter group",
         "ParameterGroupName": "myclusterparametergroup"
      } ],
   "ResponseMetadata": {
      "RequestId": "8ceb8f6f-64cc-11e2-bea9-49e0ce183f07"
   }
}
```
Anda juga dapat memperoleh informasi yang sama dalam format teks menggunakan `--output text` option.Command:  
`--output text`Option.command:  
 Option.command:  

```
aws redshift describe-cluster-parameter-groups --output text
```
Hasil:  

```
redshift-1.0        My first cluster parameter group        myclusterparametergroup
RESPONSEMETADATA    9e665a36-64cc-11e2-8f7d-3b939af52818
```
+  Untuk detail API, lihat [DescribeClusterParameterGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-cluster-parameter-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster-parameters`
<a name="redshift_DescribeClusterParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster-parameters`.

**AWS CLI**  
Ambil Parameter untuk GroupThis contoh Parameter Cluster Tertentu mengambil parameter untuk grup parameter bernama. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-cluster-parameters --parameter-group-name myclusterparametergroup
```
Hasil:  

```
{
   "Parameters": [
      {
         "Description": "Sets the display format for date and time values.",
         "DataType": "string",
         "IsModifiable": true,
         "Source": "engine-default",
         "ParameterValue": "ISO, MDY",
         "ParameterName": "datestyle"
      },
      {
         "Description": "Sets the number of digits displayed for floating-point values",
         "DataType": "integer",
         "IsModifiable": true,
         "AllowedValues": "-15-2",
         "Source": "engine-default",
         "ParameterValue": "0",
         "ParameterName": "extra_float_digits"
      },
      (...remaining output omitted...)
   ]
}
```
Anda juga dapat memperoleh informasi yang sama dalam format teks menggunakan `--output text` option.Command:  
`--output text`Option.command:  
 Option.command:  

```
aws redshift describe-cluster-parameters --parameter-group-name myclusterparametergroup --output text
```
Hasil:  

```
RESPONSEMETADATA    cdac40aa-64cc-11e2-9e70-918437dd236d
Sets the display format for date and time values.   string  True    engine-default  ISO, MDY        datestyle
Sets the number of digits displayed for floating-point values       integer True    -15-2   engine-default  0       extra_float_digits
This parameter applies a user-defined label to a group of queries that are run during the same session..    string  True    engine-default  default query_group
require ssl for all databaseconnections     boolean True    true,false      engine-default  false   require_ssl
Sets the schema search order for names that are not schema-qualified.       string  True    engine-default  $user, public   search_path
Aborts any statement that takes over the specified number of milliseconds.  integer True    engine-default  0       statement_timeout
wlm json configuration      string  True    engine-default  \[{"query_concurrency":5}]      wlm_json_configuration
```
+  Untuk detail API, lihat [DescribeClusterParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-cluster-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster-security-groups`
<a name="redshift_DescribeClusterSecurityGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster-security-groups`.

**AWS CLI**  
Dapatkan Deskripsi All Cluster Security GroupsThis contoh mengembalikan deskripsi semua grup keamanan klaster untuk akun tersebut. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-cluster-security-groups
```
Hasil:  

```
{
   "ClusterSecurityGroups": [
      {
         "OwnerId": "100447751468",
         "Description": "default",
         "ClusterSecurityGroupName": "default",
         "EC2SecurityGroups": \[],
         "IPRanges": [
            {
               "Status": "authorized",
               "CIDRIP": "0.0.0.0/0"
            }
         ]
      },
      {
         "OwnerId": "100447751468",
         "Description": "This is my cluster security group",
         "ClusterSecurityGroupName": "mysecuritygroup",
         "EC2SecurityGroups": \[],
         "IPRanges": \[]
      },
      (...remaining output omitted...)
   ]
}
```
+  Untuk detail API, lihat [DescribeClusterSecurityGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-cluster-security-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster-snapshots`
<a name="redshift_DescribeClusterSnapshots_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster-snapshots`.

**AWS CLI**  
Dapatkan Deskripsi Semua Cluster SnapshotsThis contoh mengembalikan deskripsi semua snapshot cluster untuk akun. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-cluster-snapshots
```
Hasil:  

```
{
   "Snapshots": [
      {
         "Status": "available",
         "SnapshotCreateTime": "2013-07-17T22:02:22.852Z",
         "EstimatedSecondsToCompletion": -1,
         "AvailabilityZone": "us-east-1a",
         "ClusterVersion": "1.0",
         "MasterUsername": "adminuser",
         "Encrypted": false,
         "OwnerAccount": "111122223333",
         "BackupProgressInMegabytes": 20.0,
         "ElapsedTimeInSeconds": 0,
         "DBName": "dev",
         "CurrentBackupRateInMegabytesPerSecond: 0.0,
         "ClusterCreateTime": "2013-01-22T21:59:29.559Z",
         "ActualIncrementalBackupSizeInMegabytes"; 20.0
         "SnapshotType": "automated",
         "NodeType": "dw.hs1.xlarge",
         "ClusterIdentifier": "mycluster",
         "Port": 5439,
         "TotalBackupSizeInMegabytes": 20.0,
         "NumberOfNodes": "2",
         "SnapshotIdentifier": "cm:mycluster-2013-01-22-22-04-18"
      },
      {
         "EstimatedSecondsToCompletion": 0,
         "OwnerAccount": "111122223333",
         "CurrentBackupRateInMegabytesPerSecond: 0.1534,
         "ActualIncrementalBackupSizeInMegabytes"; 11.0,
         "NumberOfNodes": "2",
         "Status": "available",
         "ClusterVersion": "1.0",
         "MasterUsername": "adminuser",
         "AccountsWithRestoreAccess": [
            {
               "AccountID": "444455556666"
            } ],
         "TotalBackupSizeInMegabytes": 20.0,
         "DBName": "dev",
         "BackupProgressInMegabytes": 11.0,
         "ClusterCreateTime": "2013-01-22T21:59:29.559Z",
         "ElapsedTimeInSeconds": 0,
         "ClusterIdentifier": "mycluster",
         "SnapshotCreateTime": "2013-07-17T22:04:18.947Z",
         "AvailabilityZone": "us-east-1a",
         "NodeType": "dw.hs1.xlarge",
         "Encrypted": false,
         "SnapshotType": "manual",
         "Port": 5439,
         "SnapshotIdentifier": "my-snapshot-id"
      } ]
   }
   (...remaining output omitted...)
```
+  Untuk detail API, lihat [DescribeClusterSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-cluster-snapshots.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster-subnet-groups`
<a name="redshift_DescribeClusterSubnetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster-subnet-groups`.

**AWS CLI**  
Dapatkan Deskripsi Semua Cluster Subnet GroupsThis contoh mengembalikan deskripsi dari semua kelompok subnet cluster. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-cluster-subnet-groups
```
Hasil:  

```
{
   "ClusterSubnetGroups": [
      {
         "Subnets": [
            {
               "SubnetStatus": "Active",
               "SubnetIdentifier": "subnet-763fdd1c",
               "SubnetAvailabilityZone": {
                  "Name": "us-east-1a"
               }
            }
         ],
         "VpcId": "vpc-7e3fdd14",
         "SubnetGroupStatus": "Complete",
         "Description": "My subnet group",
         "ClusterSubnetGroupName": "mysubnetgroup"
      }
   ],
   "ResponseMetadata": {
      "RequestId": "37fa8c89-6990-11e2-8f75-ab4018764c77"
   }
}
```
+  Untuk detail API, lihat [DescribeClusterSubnetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-cluster-subnet-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster-tracks`
<a name="redshift_DescribeClusterTracks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster-tracks`.

**AWS CLI**  
**Untuk menggambarkan trek cluster**  
`describe-cluster-tracks`Contoh berikut menampilkan rincian trek pemeliharaan yang tersedia.  

```
aws redshift describe-cluster-tracks \
    --maintenance-track-name current
```
Output:  

```
{
    "MaintenanceTracks": [
        {
            "MaintenanceTrackName": "current",
            "DatabaseVersion": "1.0.11420",
            "UpdateTargets": [
                {
                    "MaintenanceTrackName": "preview_features",
                    "DatabaseVersion": "1.0.11746",
                    "SupportedOperations": [
                        {
                            "OperationName": "restore-from-cluster-snapshot"
                        }
                    ]
                },
                {
                    "MaintenanceTrackName": "trailing",
                    "DatabaseVersion": "1.0.11116",
                    "SupportedOperations": [
                        {
                            "OperationName": "restore-from-cluster-snapshot"
                        },
                        {
                            "OperationName": "modify-cluster"
                        }
                    ]
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memilih Trek Pemeliharaan Cluster](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-clusters.html#rs-mgmt-maintenance-tracks) di *Panduan Manajemen Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeClusterTracks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-cluster-tracks.html)di *Referensi AWS CLI Perintah*. 

### `describe-cluster-versions`
<a name="redshift_DescribeClusterVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cluster-versions`.

**AWS CLI**  
Dapatkan Deskripsi Semua Cluster VersionsThis contoh mengembalikan deskripsi semua versi cluster. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-cluster-versions
```
Hasil:  

```
{
   "ClusterVersions": [
      {
      "ClusterVersion": "1.0",
      "Description": "Initial release",
      "ClusterParameterGroupFamily": "redshift-1.0"
      } ],
   "ResponseMetadata": {
      "RequestId": "16a53de3-64cc-11e2-bec0-17624ad140dd"
   }
}
```
+  Untuk detail API, lihat [DescribeClusterVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-cluster-versions.html)di *Referensi AWS CLI Perintah*. 

### `describe-clusters`
<a name="redshift_DescribeClusters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-clusters`.

**AWS CLI**  
Dapatkan Deskripsi Semua ClustersThis contoh mengembalikan deskripsi semua cluster untuk akun. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-clusters
```
Hasil:  

```
{
   "Clusters": [
   {
      "NodeType": "dw.hs1.xlarge",
      "Endpoint": {
         "Port": 5439,
         "Address": "mycluster.coqoarplqhsn.us-east-1.redshift.amazonaws.com"
      },
      "ClusterVersion": "1.0",
      "PubliclyAccessible": "true",
      "MasterUsername": "adminuser",
      "ClusterParameterGroups": [
         {
            "ParameterApplyStatus": "in-sync",
            "ParameterGroupName": "default.redshift-1.0"
         } ],
      "ClusterSecurityGroups": [
         {
            "Status": "active",
            "ClusterSecurityGroupName": "default"
         } ],
      "AllowVersionUpgrade": true,
      "VpcSecurityGroups": \[],
      "AvailabilityZone": "us-east-1a",
      "ClusterCreateTime": "2013-01-22T21:59:29.559Z",
      "PreferredMaintenanceWindow": "sat:03:30-sat:04:00",
      "AutomatedSnapshotRetentionPeriod": 1,
      "ClusterStatus": "available",
      "ClusterIdentifier": "mycluster",
      "DBName": "dev",
      "NumberOfNodes": 2,
      "PendingModifiedValues": {}
   } ],
   "ResponseMetadata": {
      "RequestId": "65b71cac-64df-11e2-8f5b-e90bd6c77476"
   }
}
```
Anda juga dapat memperoleh informasi yang sama dalam format teks menggunakan `--output text` option.Command:  
`--output text`Option.command:  
 Option.command:  

```
aws redshift describe-clusters --output text
```
Hasil:  

```
dw.hs1.xlarge       1.0     true    adminuser       True    us-east-1a      2013-01-22T21:59:29.559Z        sat:03:30-sat:04:00     1       available       mycluster       dev     2
ENDPOINT    5439    mycluster.coqoarplqhsn.us-east-1.redshift.amazonaws.com
in-sync     default.redshift-1.0
active      default
PENDINGMODIFIEDVALUES
RESPONSEMETADATA    934281a8-64df-11e2-b07c-f7fbdd006c67
```
+  Untuk detail API, lihat [DescribeClusters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-clusters.html)di *Referensi AWS CLI Perintah*. 

### `describe-default-cluster-parameters`
<a name="redshift_DescribeDefaultClusterParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-default-cluster-parameters`.

**AWS CLI**  
Dapatkan Deskripsi ParametersThis contoh Cluster Default mengembalikan deskripsi parameter cluster default untuk `redshift-1.0` keluarga. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-default-cluster-parameters --parameter-group-family redshift-1.0
```
Hasil:  

```
{
   "DefaultClusterParameters": {
   "ParameterGroupFamily": "redshift-1.0",
   "Parameters": [
      {
         "Description": "Sets the display format for date and time values.",
         "DataType": "string",
         "IsModifiable": true,
         "Source": "engine-default",
         "ParameterValue": "ISO, MDY",
         "ParameterName": "datestyle"
      },
      {
         "Description": "Sets the number of digits displayed for floating-point values",
         "DataType": "integer",
         "IsModifiable": true,
         "AllowedValues": "-15-2",
         "Source": "engine-default",
         "ParameterValue": "0",
         "ParameterName": "extra_float_digits"
      },
      (...remaining output omitted...)
      ]
   }
}
```
Untuk melihat daftar keluarga grup parameter yang valid, gunakan `describe-cluster-parameter-groups` perintah.  
`describe-cluster-parameter-groups`perintah.  
 perintah.  
+  Untuk detail API, lihat [DescribeDefaultClusterParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-default-cluster-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-categories`
<a name="redshift_DescribeEventCategories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-categories`.

**AWS CLI**  
**Untuk mendeskripsikan kategori acara untuk sebuah cluster**  
`describe-event-categories`Contoh berikut menampilkan rincian untuk kategori acara untuk cluster.  

```
aws redshift describe-event-categories \
    --source-type cluster
```
Output:  

```
{
    "EventCategoriesMapList": [
        {
            "SourceType": "cluster",
            "Events": [
                {
                    "EventId": "REDSHIFT-EVENT-2000",
                    "EventCategories": [
                        "management"
                    ],
                    "EventDescription": "Cluster <cluster name> created at <time in UTC>.",
                    "Severity": "INFO"
                },
                {
                    "EventId": "REDSHIFT-EVENT-2001",
                    "EventCategories": [
                        "management"
                    ],
                    "EventDescription": "Cluster <cluster name> deleted at <time in UTC>.",
                    "Severity": "INFO"
                },
                {
                    "EventId": "REDSHIFT-EVENT-3625",
                    "EventCategories": [
                        "monitoring"
                    ],
                    "EventDescription": "The cluster <cluster name> can't be resumed with its previous elastic network interface <ENI id>. We will allocate a new elastic network interface and associate it with the cluster node.",
                    "Severity": "INFO"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeEventCategories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-event-categories.html)di *Referensi AWS CLI Perintah*. 

### `describe-event-subscriptions`
<a name="redshift_DescribeEventSubscriptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-event-subscriptions`.

**AWS CLI**  
**Untuk menggambarkan langganan acara**  
`describe-event-subscriptions`Contoh berikut menampilkan langganan pemberitahuan acara untuk langganan yang ditentukan.  

```
aws redshift describe-event-subscriptions \
    --subscription-name mysubscription
```
Output:  

```
{
    "EventSubscriptionsList": [
        {
            "CustomerAwsId": "123456789012",
            "CustSubscriptionId": "mysubscription",
            "SnsTopicArn": "arn:aws:sns:us-west-2:123456789012:MySNStopic",
            "Status": "active",
            "SubscriptionCreationTime": "2019-12-09T21:50:21.332Z",
            "SourceIdsList": [],
            "EventCategoriesList": [
                "management"
            ],
            "Severity": "ERROR",
            "Enabled": true,
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Berlangganan Pemberitahuan Peristiwa Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-event-notifications.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeEventSubscriptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-event-subscriptions.html)di *Referensi AWS CLI Perintah*. 

### `describe-events`
<a name="redshift_DescribeEvents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-events`.

**AWS CLI**  
Jelaskan Semua PeristiwaContoh ini mengembalikan semua peristiwa. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-events
```
Hasil:  

```
{
   "Events": [
      {
      "Date": "2013-01-22T19:17:03.640Z",
      "SourceIdentifier": "myclusterparametergroup",
      "Message": "Cluster parameter group myclusterparametergroup has been created.",
      "SourceType": "cluster-parameter-group"
      } ],
   "ResponseMetadata": {
      "RequestId": "9f056111-64c9-11e2-9390-ff04f2c1e638"
   }
}
```
Anda juga dapat memperoleh informasi yang sama dalam format teks menggunakan `--output text` option.Command:  
`--output text`Option.command:  
 Option.command:  

```
aws redshift describe-events --output text
```
Hasil:  

```
2013-01-22T19:17:03.640Z    myclusterparametergroup Cluster parameter group myclusterparametergroup has been created.       cluster-parameter-group
RESPONSEMETADATA    8e5fe765-64c9-11e2-bce3-e56f52c50e17
```
+  Untuk detail API, lihat [DescribeEvents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-events.html)di *Referensi AWS CLI Perintah*. 

### `describe-hsm-client-certificates`
<a name="redshift_DescribeHsmClientCertificates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-hsm-client-certificates`.

**AWS CLI**  
**Untuk menggambarkan sertifikat klien HSM**  
`describe-hsm-client-certificates`Contoh berikut menampilkan rincian untuk sertifikat klien HSM yang ditentukan.  

```
aws redshift describe-hsm-client-certificates \
    --hsm-client-certificate-identifier myhsmclientcert
```
Output:  

```
{
    "HsmClientCertificates": [
        {
        "HsmClientCertificateIdentifier": "myhsmclientcert",
        "HsmClientCertificatePublicKey": "-----BEGIN CERTIFICATE-----\
        EXAMPLECAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
        VVMxCzAJBgNVBAEXAMPLERAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
        b24xFDASBgNVBAsTC0lBTSBDb25zEXAMPLEwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
        BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhEXAMPLEDI1MjA0EXAMPLEN
        EXAMPLE0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
        VQQHEwdTZWF0dGEXAMPLEQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
        b2xlMRIwEAYDVQQDEwlUZXN0Q2lsEXAMPLEdBgkqhkiG9w0BCQEWEG5vb25lQGFt
        YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIEXAMPLEMaK0dn+a4GmWIWJ
        21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
        rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY67EXAMPLEE
        EXAMPLEZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
        nUhVVxYUntneD9EXAMPLE6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
        FFBjvSfpJIlJ00zbhNYS5f6GuoEDEXAMPLEBHjJnyp378OD8uTs7fLvjx79LjSTb
        NYiytVbZPQUQ5Yaxu2jXnimvw3rEXAMPLE=-----END CERTIFICATE-----\n",
        "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Referensi Izin API Amazon Redshift di Panduan Manajemen](https://docs.aws.amazon.com/redshift/latest/mgmt/redshift-policy-resources.resource-permissions.html) Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeHsmClientCertificates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-hsm-client-certificates.html)di *Referensi AWS CLI Perintah*. 

### `describe-hsm-configurations`
<a name="redshift_DescribeHsmConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-hsm-configurations`.

**AWS CLI**  
**Untuk menggambarkan konfigurasi HSM**  
`describe-hsm-configurations`Contoh berikut menampilkan detail untuk konfigurasi HSM yang tersedia untuk akun panggilan AWS .  

```
aws redshift describe-hsm-configurations /
    --hsm-configuration-identifier myhsmconnection
```
Output:  

```
{
    "HsmConfigurations": [
        {
            "HsmConfigurationIdentifier": "myhsmconnection",
            "Description": "My HSM connection",
            "HsmIpAddress": "192.0.2.09",
            "HsmPartitionName": "myhsmpartition",
            "Tags": []
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeHsmConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-hsm-configurations.html)di *Referensi AWS CLI Perintah*. 

### `describe-logging-status`
<a name="redshift_DescribeLoggingStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-logging-status`.

**AWS CLI**  
**Untuk mendeskripsikan status logging untuk sebuah klaster**  
`describe-logging-status`Contoh berikut menampilkan apakah informasi, seperti kueri dan upaya koneksi, sedang dicatat untuk sebuah cluster.  

```
aws redshift describe-logging-status \
    --cluster-identifier mycluster
```
Output:  

```
{
    "LoggingEnabled": false
}
```
Untuk informasi selengkapnya, lihat [Logging Audit Database](https://docs.aws.amazon.com/redshift/latest/mgmt/db-auditing.html) di *Panduan Manajemen Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeLoggingStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-logging-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-node-configuration-options`
<a name="redshift_DescribeNodeConfigurationOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-node-configuration-options`.

**AWS CLI**  
**Untuk menggambarkan opsi konfigurasi simpul**  
`describe-node-configuration-options`Contoh berikut menampilkan properti konfigurasi node yang mungkin seperti tipe node, jumlah node, dan penggunaan disk untuk snapshot cluster yang ditentukan.  

```
aws redshift describe-node-configuration-options \
    --action-type restore-cluster \
    --snapshot-identifier rs:mycluster-2019-12-09-16-42-43
```
Output:  

```
{
    "NodeConfigurationOptionList": [
        {
            "NodeType": "dc2.large",
            "NumberOfNodes": 2,
            "EstimatedDiskUtilizationPercent": 19.61
        },
        {
            "NodeType": "dc2.large",
            "NumberOfNodes": 4,
            "EstimatedDiskUtilizationPercent": 9.96
        },
        {
            "NodeType": "ds2.xlarge",
            "NumberOfNodes": 2,
            "EstimatedDiskUtilizationPercent": 1.53
        },
        {
            "NodeType": "ds2.xlarge",
            "NumberOfNodes": 4,
            "EstimatedDiskUtilizationPercent": 0.78
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membeli Node Cadangan Amazon Redshift di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/purchase-reserved-node-instance.html) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeNodeConfigurationOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-node-configuration-options.html)di *Referensi AWS CLI Perintah*. 

### `describe-orderable-cluster-options`
<a name="redshift_DescribeOrderableClusterOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-orderable-cluster-options`.

**AWS CLI**  
Menjelaskan Semua OptionsThis contoh Cluster yang Dapat Dipesan mengembalikan deskripsi semua opsi cluster yang dapat dipesan. Secara default, output dalam format JSON.Command:  

```
aws redshift describe-orderable-cluster-options
```
Hasil:  

```
{
   "OrderableClusterOptions": [
      {
         "NodeType": "dw.hs1.8xlarge",
         "AvailabilityZones": [
            { "Name": "us-east-1a" },
            { "Name": "us-east-1b" },
            { "Name": "us-east-1c" } ],
         "ClusterVersion": "1.0",
         "ClusterType": "multi-node"
      },
      {
         "NodeType": "dw.hs1.xlarge",
         "AvailabilityZones": [
            { "Name": "us-east-1a" },
            { "Name": "us-east-1b" },
            { "Name": "us-east-1c" } ],
         "ClusterVersion": "1.0",
         "ClusterType": "multi-node"
      },
      {
      "NodeType": "dw.hs1.xlarge",
      "AvailabilityZones": [
         { "Name": "us-east-1a" },
         { "Name": "us-east-1b" },
         { "Name": "us-east-1c" } ],
      "ClusterVersion": "1.0",
      "ClusterType": "single-node"
      } ],
   "ResponseMetadata": {
      "RequestId": "f6000035-64cb-11e2-9135-ff82df53a51a"
   }
}
```
Anda juga dapat memperoleh informasi yang sama dalam format teks menggunakan `--output text` option.Command:  
`--output text`Option.command:  
 Option.command:  

```
aws redshift describe-orderable-cluster-options --output text
```
Hasil:  

```
dw.hs1.8xlarge      1.0     multi-node
us-east-1a
us-east-1b
us-east-1c
dw.hs1.xlarge       1.0     multi-node
us-east-1a
us-east-1b
us-east-1c
dw.hs1.xlarge       1.0     single-node
us-east-1a
us-east-1b
us-east-1c
RESPONSEMETADATA    e648696b-64cb-11e2-bec0-17624ad140dd
```
+  Untuk detail API, lihat [DescribeOrderableClusterOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-orderable-cluster-options.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-node-offerings`
<a name="redshift_DescribeReservedNodeOfferings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-node-offerings`.

**AWS CLI**  
Jelaskan OfferingsThis contoh Node Cadangan menunjukkan semua penawaran node cadangan yang tersedia untuk Purchase.command:  

```
aws redshift describe-reserved-node-offerings
```
Hasil:  

```
{
   "ReservedNodeOfferings": [
      {
         "OfferingType": "Heavy Utilization",
         "FixedPrice": "",
         "NodeType": "dw.hs1.xlarge",
         "UsagePrice": "",
         "RecurringCharges": [
            {
               "RecurringChargeAmount": "",
               "RecurringChargeFrequency": "Hourly"
            } ],
         "Duration": 31536000,
         "ReservedNodeOfferingId": "ceb6a579-cf4c-4343-be8b-d832c45ab51c"
      },
      {
         "OfferingType": "Heavy Utilization",
         "FixedPrice": "",
         "NodeType": "dw.hs1.8xlarge",
         "UsagePrice": "",
         "RecurringCharges": [
            {
            "RecurringChargeAmount": "",
            "RecurringChargeFrequency": "Hourly"
            } ],
         "Duration": 31536000,
         "ReservedNodeOfferingId": "e5a2ff3b-352d-4a9c-ad7d-373c4cab5dd2"
      },
      ...remaining output omitted...
   ],
   "ResponseMetadata": {
      "RequestId": "8b1a1a43-75ff-11e2-9666-e142fe91ddd1"
   }
}
```
Jika Anda ingin membeli penawaran node yang dicadangkan, Anda dapat menelepon `purchase-reserved-node-offering` menggunakan valid *ReservedNodeOfferingId*.  
`purchase-reserved-node-offering`menggunakan yang valid *ReservedNodeOfferingId*.  
 menggunakan yang valid *ReservedNodeOfferingId*.  
*ReservedNodeOfferingId*.  
.  
+  Untuk detail API, lihat [DescribeReservedNodeOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-reserved-node-offerings.html)di *Referensi AWS CLI Perintah*. 

### `describe-reserved-nodes`
<a name="redshift_DescribeReservedNodes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-reserved-nodes`.

**AWS CLI**  
 NodesThis Contoh Description Reserved menunjukkan penawaran node reserved yang telah dibeli.Command:  

```
aws redshift describe-reserved-nodes
```
Hasil:  

```
{
   "ResponseMetadata": {
      "RequestId": "bc29ce2e-7600-11e2-9949-4b361e7420b7"
   },
   "ReservedNodes": [
      {
         "OfferingType": "Heavy Utilization",
         "FixedPrice": "",
         "NodeType": "dw.hs1.xlarge",
         "ReservedNodeId": "1ba8e2e3-bc01-4d65-b35d-a4a3e931547e",
         "UsagePrice": "",
         "RecurringCharges": [
            {
               "RecurringChargeAmount": "",
               "RecurringChargeFrequency": "Hourly"
            } ],
         "NodeCount": 1,
         "State": "payment-pending",
         "StartTime": "2013-02-13T17:08:39.051Z",
         "Duration": 31536000,
         "ReservedNodeOfferingId": "ceb6a579-cf4c-4343-be8b-d832c45ab51c"
      }
   ]
}
```
+  Untuk detail API, lihat [DescribeReservedNodes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-reserved-nodes.html)di *Referensi AWS CLI Perintah*. 

### `describe-resize`
<a name="redshift_DescribeResize_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-resize`.

**AWS CLI**  
Jelaskan ResizeThis contoh menggambarkan pengubahan ukuran terbaru dari sebuah cluster. Permintaan itu untuk 3 node tipe `dw.hs1.8xlarge` .Command:  

```
aws redshift describe-resize --cluster-identifier mycluster
```
Hasil:  

```
{
   "Status": "NONE",
   "TargetClusterType": "multi-node",
   "TargetNodeType": "dw.hs1.8xlarge",
   "ResponseMetadata": {
      "RequestId": "9f52b0b4-7733-11e2-aa9b-318b2909bd27"
   },
   "TargetNumberOfNodes": "3"
}
```
+  Untuk detail API, lihat [DescribeResize](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-resize.html)di *Referensi AWS CLI Perintah*. 

### `describe-scheduled-actions`
<a name="redshift_DescribeScheduledActions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-scheduled-actions`.

**AWS CLI**  
**Untuk menggambarkan tindakan terjadwal**  
`describe-scheduled-actions`Contoh berikut menampilkan detail untuk setiap tindakan yang dijadwalkan saat ini.  

```
aws redshift describe-scheduled-actions
```
Output:  

```
{
    "ScheduledActions": [
        {
            "ScheduledActionName": "resizecluster",
            "TargetAction": {
                "ResizeCluster": {
                    "ClusterIdentifier": "mycluster",
                    "NumberOfNodes": 4,
                    "Classic": false
                }
            },
            "Schedule": "at(2019-12-10T00:07:00)",
            "IamRole": "arn:aws:iam::123456789012:role/myRedshiftRole",
            "State": "ACTIVE",
            "NextInvocations": [
                "2019-12-10T00:07:00Z"
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeScheduledActions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-scheduled-actions.html)di *Referensi AWS CLI Perintah*. 

### `describe-snapshot-copy-grants`
<a name="redshift_DescribeSnapshotCopyGrants_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-snapshot-copy-grants`.

**AWS CLI**  
**Untuk menggambarkan hibah salinan snapshot**  
`describe-snapshot-copy-grants`Contoh berikut menampilkan rincian untuk hibah salinan snapshot cluster yang ditentukan.  

```
aws redshift describe-snapshot-copy-grants \
    --snapshot-copy-grant-name mysnapshotcopygrantname
```
Output:  

```
{
    "SnapshotCopyGrants": [
        {
            "SnapshotCopyGrantName": "mysnapshotcopygrantname",
            "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/bPxRfih3yCo8nvbEXAMPLEKEY",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Enkripsi Database Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-db-encryption.html) di Panduan Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeSnapshotCopyGrants](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-snapshot-copy-grants.html)di *Referensi AWS CLI Perintah*. 

### `describe-snapshot-schedules`
<a name="redshift_DescribeSnapshotSchedules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-snapshot-schedules`.

**AWS CLI**  
**Untuk menggambarkan jadwal snapshot**  
`describe-snapshot-schedules`Contoh berikut menampilkan rincian untuk jadwal snapshot cluster yang ditentukan.  

```
aws redshift describe-snapshot-schedules \
    --cluster-identifier mycluster \
    --schedule-identifier mysnapshotschedule
```
Output:  

```
{
    "SnapshotSchedules": [
        {
            "ScheduleDefinitions": [
                "rate(12 hours)"
            ],
            "ScheduleIdentifier": "mysnapshotschedule",
            "ScheduleDescription": "My schedule description",
            "Tags": [],
            "AssociatedClusterCount": 1,
            "AssociatedClusters": [
                {
                    "ClusterIdentifier": "mycluster",
                    "ScheduleAssociationState": "ACTIVE"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Jadwal Snapshot Otomatis di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#automated-snapshot-schedules) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeSnapshotSchedules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-snapshot-schedules.html)di *Referensi AWS CLI Perintah*. 

### `describe-storage`
<a name="redshift_DescribeStorage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-storage`.

**AWS CLI**  
**Untuk menggambarkan penyimpanan**  
`describe-storage`Contoh berikut menampilkan detail tentang penyimpanan cadangan dan ukuran penyimpanan sementara untuk akun.  

```
aws redshift describe-storage
```
Output:  

```
{
    "TotalBackupSizeInMegaBytes": 193149.0,
    "TotalProvisionedStorageInMegaBytes": 655360.0
}
```
Untuk informasi selengkapnya, lihat [Mengelola Penyimpanan Snapshot](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#managing-snapshot-storage) di Panduan Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeStorage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-storage.html)di *Referensi AWS CLI Perintah*. 

### `describe-table-restore-status`
<a name="redshift_DescribeTableRestoreStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-table-restore-status`.

**AWS CLI**  
**Untuk menjelaskan status permintaan pemulihan tabel dari snapshot cluster**  
`describe-table-restore-status`Contoh berikut menampilkan rincian untuk permintaan pemulihan tabel yang dibuat untuk cluster tertentu.  

```
aws redshift describe-table-restore-status /
    --cluster-identifier mycluster
```
Output:  

```
{
    "TableRestoreStatusDetails": [
        {
            "TableRestoreRequestId": "z1116630-0e80-46f4-ba86-bd9670411ebd",
            "Status": "IN_PROGRESS",
            "RequestTime": "2019-12-27T18:22:12.257Z",
            "ClusterIdentifier": "mycluster",
            "SnapshotIdentifier": "mysnapshotid",
            "SourceDatabaseName": "dev",
            "SourceSchemaName": "public",
            "SourceTableName": "mytable",
            "TargetDatabaseName": "dev",
            "TargetSchemaName": "public",
            "NewTableName": "mytable-clone"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulihkan Tabel dari Snapshot di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#working-with-snapshot-restore-table-from-snapshot) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeTableRestoreStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-table-restore-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-tags`
<a name="redshift_DescribeTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tags`.

**AWS CLI**  
**Untuk mendeskripsikan tag**  
`describe-tags`Contoh berikut menampilkan sumber daya cluster tertentu terkait dengan nama tag tertentu dan nilai-nilai.  

```
aws redshift describe-tags \
    --resource-name arn:aws:redshift:us-west-2:123456789012:cluster:mycluster \
    --tag-keys clustertagkey \
    --tag-values clustertagvalue
```
Output:  

```
{
    "TaggedResources": [
                    {
            "Tag": {
                "Key": "clustertagkey",
                "Value": "clustertagvalue"
            },
            "ResourceName": "arn:aws:redshift:us-west-2:123456789012:cluster:mycluster",
            "ResourceType": "cluster"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya di Amazon](https://docs.aws.amazon.com/redshift/latest/mgmt/amazon-redshift-tagging.html) Redshift di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/describe-tags.html)di *Referensi AWS CLI Perintah*. 

### `disable-snapshot-copy`
<a name="redshift_DisableSnapshotCopy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-snapshot-copy`.

**AWS CLI**  
**Untuk menonaktifkan salinan snapshot untuk klaster**  
`disable-snapshot-copy`Contoh berikut menonaktifkan salinan otomatis snapshot untuk cluster yang ditentukan.  

```
aws redshift disable-snapshot-copy \
    --cluster-identifier mycluster
```
Output:  

```
{
    "Cluster": {
        "ClusterIdentifier": "mycluster",
        "NodeType": "dc2.large",
        "ClusterStatus": "available",
        "ClusterAvailabilityStatus": "Available",
        "MasterUsername": "adminuser",
        "DBName": "dev",
        "Endpoint": {
            "Address": "mycluster.cmeaswqeuae.us-west-2.redshift.amazonaws.com",
            "Port": 5439
        },
        "ClusterCreateTime": "2019-12-05T18:44:36.991Z",
        "AutomatedSnapshotRetentionPeriod": 3,
        "ManualSnapshotRetentionPeriod": -1,
        "ClusterSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sh-i9b431cd",
                "Status": "active"
            }
        ],
        "ClusterParameterGroups": [
            {
                "ParameterGroupName": "default.redshift-1.0",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "ClusterSubnetGroupName": "default",
        "VpcId": "vpc-b1fel7t9",
        "AvailabilityZone": "us-west-2f",
        "PreferredMaintenanceWindow": "sat:16:00-sat:16:30",
        "PendingModifiedValues": {
            "NodeType": "dc2.large",
            "NumberOfNodes": 2,
            "ClusterType": "multi-node"
        },
        "ClusterVersion": "1.0",
        "AllowVersionUpgrade": true,
        "NumberOfNodes": 4,
        "PubliclyAccessible": false,
        "Encrypted": false,
        "Tags": [
            {
                "Key": "mytags",
                "Value": "tag1"
            }
        ],
        "EnhancedVpcRouting": false,
        "IamRoles": [
            {
                "IamRoleArn": "arn:aws:iam::123456789012:role/myRedshiftRole",
                "ApplyStatus": "in-sync"
            }
        ],
        "MaintenanceTrackName": "current",
        "DeferredMaintenanceWindows": [],
        "ExpectedNextSnapshotScheduleTime": "2019-12-10T04:42:43.390Z",
        "ExpectedNextSnapshotScheduleTimeStatus": "OnTrack",
        "NextMaintenanceWindowStartTime": "2019-12-14T16:00:00Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Menyalin Snapshot ke AWS Wilayah Lain di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#cross-region-snapshot-copy) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [DisableSnapshotCopy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/disable-snapshot-copy.html)di *Referensi AWS CLI Perintah*. 

### `enable-snapshot-copy`
<a name="redshift_EnableSnapshotCopy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-snapshot-copy`.

**AWS CLI**  
**Untuk mengaktifkan salinan snapshot untuk klaster**  
`enable-snapshot-copy`Contoh berikut memungkinkan salinan otomatis snapshot untuk cluster yang ditentukan.  

```
aws redshift enable-snapshot-copy \
    --cluster-identifier mycluster \
    --destination-region us-west-1
```
Output:  

```
{
    "Cluster": {
        "ClusterIdentifier": "mycluster",
        "NodeType": "dc2.large",
        "ClusterStatus": "available",
        "ClusterAvailabilityStatus": "Available",
        "MasterUsername": "adminuser",
        "DBName": "dev",
        "Endpoint": {
            "Address": "mycluster.cmeaswqeuae.us-west-2.redshift.amazonaws.com",
            "Port": 5439
        },
        "ClusterCreateTime": "2019-12-05T18:44:36.991Z",
        "AutomatedSnapshotRetentionPeriod": 3,
        "ManualSnapshotRetentionPeriod": -1,
        "ClusterSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sh-f4c731cd",
                "Status": "active"
            }
        ],
        "ClusterParameterGroups": [
            {
                "ParameterGroupName": "default.redshift-1.0",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "ClusterSubnetGroupName": "default",
        "VpcId": "vpc-b1ael7t9",
        "AvailabilityZone": "us-west-2f",
        "PreferredMaintenanceWindow": "sat:16:00-sat:16:30",
        "PendingModifiedValues": {
            "NodeType": "dc2.large",
            "NumberOfNodes": 2,
            "ClusterType": "multi-node"
        },
        "ClusterVersion": "1.0",
        "AllowVersionUpgrade": true,
        "NumberOfNodes": 4,
        "PubliclyAccessible": false,
        "Encrypted": false,
        "ClusterSnapshotCopyStatus": {
            "DestinationRegion": "us-west-1",
            "RetentionPeriod": 7,
            "ManualSnapshotRetentionPeriod": -1
        },
        "Tags": [
            {
                "Key": "mytags",
                "Value": "tag1"
            }
        ],
        "EnhancedVpcRouting": false,
        "IamRoles": [
            {
                "IamRoleArn": "arn:aws:iam::123456789012:role/myRedshiftRole",
                "ApplyStatus": "in-sync"
            }
        ],
        "MaintenanceTrackName": "current",
        "DeferredMaintenanceWindows": [],
        "ExpectedNextSnapshotScheduleTime": "2019-12-10T04:42:43.390Z",
        "ExpectedNextSnapshotScheduleTimeStatus": "OnTrack",
        "NextMaintenanceWindowStartTime": "2019-12-14T16:00:00Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Menyalin Snapshot ke AWS Wilayah Lain di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#cross-region-snapshot-copy) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [EnableSnapshotCopy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/enable-snapshot-copy.html)di *Referensi AWS CLI Perintah*. 

### `get-cluster-credentials`
<a name="redshift_GetClusterCredentials_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-cluster-credentials`.

**AWS CLI**  
**Untuk mendapatkan kredensi klaster untuk akun AWS **  
`get-cluster-credentials`Contoh berikut mengambil kredensil sementara yang memungkinkan akses ke database Amazon Redshift.  

```
aws redshift get-cluster-credentials \
    --db-user adminuser --db-name dev \
    --cluster-identifier mycluster
```
Output:  

```
{
    "DbUser": "IAM:adminuser",
    "DbPassword": "AMAFUyyuros/QjxPTtgzcsuQsqzIasdzJEN04aCtWDzXx1O9d6UmpkBtvEeqFly/EXAMPLE==",
    "Expiration": "2019-12-10T17:25:05.770Z"
}
```
*Untuk informasi selengkapnya, lihat [Membuat Kredensyal Database IAM Menggunakan Amazon Redshift CLI atau API di Panduan Manajemen Cluster](https://docs.aws.amazon.com/redshift/latest/mgmt/generating-iam-credentials-cli-api.html) Amazon Redshift.*  
+  Untuk detail API, lihat [GetClusterCredentials](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/get-cluster-credentials.html)di *Referensi AWS CLI Perintah*. 

### `get-reserved-node-exchange-offerings`
<a name="redshift_GetReservedNodeExchangeOfferings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-reserved-node-exchange-offerings`.

**AWS CLI**  
**Untuk mendapatkan penawaran pertukaran node yang dipesan**  
`get-reserved-node-exchange-offerings`Contoh berikut mengambil array yang cocok dengan node `DC1` reserved yang ditentukan. `DC2` `ReservedNodeOfferings`  

```
aws redshift get-reserved-node-exchange-offerings \
    --reserved-node-id 12345678-12ab-12a1-1a2a-12ab-12a12EXAMPLE
```
Output:  

```
{
    "ReservedNodeOfferings": [
        {
            "ReservedNodeOfferingId": "12345678-12ab-12a1-1a2a-12ab-12a12EXAMPLE",
            "NodeType": "dc2.large",
            "Duration": 31536000,
            "FixedPrice": 0.0,
            "UsagePrice": 0.0,
            "CurrencyCode": "USD",
            "OfferingType": "All Upfront",
            "RecurringCharges": [
                {
                    "RecurringChargeAmount": 0.0,
                    "RecurringChargeFrequency": "Hourly"
                }
            ],
            "ReservedNodeOfferingType": "Regular"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memutakhirkan Node Cadangan Dengan AWS CLI](https://docs.aws.amazon.com/redshift/latest/mgmt/purchase-reserved-node-offering-console.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [GetReservedNodeExchangeOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/get-reserved-node-exchange-offerings.html)di *Referensi AWS CLI Perintah*. 

### `modify-cluster-iam-roles`
<a name="redshift_ModifyClusterIamRoles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cluster-iam-roles`.

**AWS CLI**  
**Untuk memodifikasi peran IAM untuk sebuah cluster**  
`modify-cluster-iam-roles`Contoh berikut menghapus peran AWS IAM tertentu dari cluster tertentu.  

```
aws redshift modify-cluster-iam-roles \
    --cluster-identifier mycluster \
    --remove-iam-roles arn:aws:iam::123456789012:role/myRedshiftRole
```
Output:  

```
{
    "Cluster": {
        "ClusterIdentifier": "mycluster",
        "NodeType": "dc2.large",
        "ClusterStatus": "available",
        "ClusterAvailabilityStatus": "Available",
        "MasterUsername": "adminuser",
        "DBName": "dev",
        "Endpoint": {
            "Address": "mycluster.cmeaswqeuae.us-west-2.redshift.amazonaws.com",
            "Port": 5439
        },
        "ClusterCreateTime": "2019-12-05T18:44:36.991Z",
        "AutomatedSnapshotRetentionPeriod": 3,
        "ManualSnapshotRetentionPeriod": -1,
        "ClusterSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sh-f9b731sd",
                "Status": "active"
            }
        ],
        "ClusterParameterGroups": [
            {
                "ParameterGroupName": "default.redshift-1.0",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "ClusterSubnetGroupName": "default",
        "VpcId": "vpc-b2fal7t9",
        "AvailabilityZone": "us-west-2f",
        "PreferredMaintenanceWindow": "sat:16:00-sat:16:30",
        "PendingModifiedValues": {
            "NodeType": "dc2.large",
            "NumberOfNodes": 2,
            "ClusterType": "multi-node"
        },
        "ClusterVersion": "1.0",
        "AllowVersionUpgrade": true,
        "NumberOfNodes": 4,
        "PubliclyAccessible": false,
        "Encrypted": false,
        "ClusterSnapshotCopyStatus": {
            "DestinationRegion": "us-west-1",
            "RetentionPeriod": 7,
            "ManualSnapshotRetentionPeriod": -1
        },
        "Tags": [
            {
                "Key": "mytags",
                "Value": "tag1"
            }
        ],
        "EnhancedVpcRouting": false,
        "IamRoles": [],
        "MaintenanceTrackName": "current",
        "DeferredMaintenanceWindows": [],
        "ExpectedNextSnapshotScheduleTime": "2019-12-11T04:42:55.631Z",
        "ExpectedNextSnapshotScheduleTimeStatus": "OnTrack",
        "NextMaintenanceWindowStartTime": "2019-12-14T16:00:00Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Kebijakan Berbasis Identitas (Kebijakan IAM) untuk Amazon Redshift di](https://docs.aws.amazon.com/redshift/latest/mgmt/redshift-iam-access-control-identity-based.html) Panduan Manajemen Cluster Amazon *Redshift*.  
+  Untuk detail API, lihat [ModifyClusterIamRoles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-cluster-iam-roles.html)di *Referensi AWS CLI Perintah*. 

### `modify-cluster-maintenance`
<a name="redshift_ModifyClusterMaintenance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cluster-maintenance`.

**AWS CLI**  
**Untuk memodifikasi pemeliharaan cluster**  
`modify-cluster-maintenance`Contoh berikut menunda pemeliharaan cluster yang ditentukan selama 30 hari.  

```
aws redshift modify-cluster-maintenance \
    --cluster-identifier mycluster \
    --defer-maintenance \
    --defer-maintenance-duration 30
```
Output:  

```
{
    "Cluster": {
        "ClusterIdentifier": "mycluster",
        "NodeType": "dc2.large",
        "ClusterStatus": "available",
        "ClusterAvailabilityStatus": "Available",
        "MasterUsername": "adminuser",
        "DBName": "dev",
        "Endpoint": {
            "Address": "mycluster.cmeaswqeuae.us-west-2.redshift.amazonaws.com",
            "Port": 5439
        },
        "ClusterCreateTime": "2019-12-05T18:44:36.991Z",
        "AutomatedSnapshotRetentionPeriod": 3,
        "ManualSnapshotRetentionPeriod": -1,
        "ClusterSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sh-a1a123ab",
                "Status": "active"
            }
        ],
        "ClusterParameterGroups": [
            {
                "ParameterGroupName": "default.redshift-1.0",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "ClusterSubnetGroupName": "default",
        "VpcId": "vpc-b1ael7t9",
        "AvailabilityZone": "us-west-2f",
        "PreferredMaintenanceWindow": "sat:16:00-sat:16:30",
        "PendingModifiedValues": {
            "NodeType": "dc2.large",
            "NumberOfNodes": 2,
            "ClusterType": "multi-node"
        },
        "ClusterVersion": "1.0",
        "AllowVersionUpgrade": true,
        "NumberOfNodes": 4,
        "PubliclyAccessible": false,
        "Encrypted": false,
        "ClusterSnapshotCopyStatus": {
            "DestinationRegion": "us-west-1",
            "RetentionPeriod": 7,
            "ManualSnapshotRetentionPeriod": -1
        },
        "Tags": [
            {
                "Key": "mytags",
                "Value": "tag1"
            }
        ],
        "EnhancedVpcRouting": false,
        "IamRoles": [],
        "MaintenanceTrackName": "current",
        "DeferredMaintenanceWindows": [
            {
                "DeferMaintenanceIdentifier": "dfm-mUdVIfFcT1B4SGhw6fyF",
                "DeferMaintenanceStartTime": "2019-12-10T18:18:39.354Z",
                "DeferMaintenanceEndTime": "2020-01-09T18:18:39.354Z"
            }
        ],
        "ExpectedNextSnapshotScheduleTime": "2019-12-11T04:42:55.631Z",
        "ExpectedNextSnapshotScheduleTimeStatus": "OnTrack",
        "NextMaintenanceWindowStartTime": "2020-01-11T16:00:00Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Pemeliharaan Cluster](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-clusters.html#rs-cluster-maintenance) di *Panduan Manajemen Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [ModifyClusterMaintenance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-cluster-maintenance.html)di *Referensi AWS CLI Perintah*. 

### `modify-cluster-parameter-group`
<a name="redshift_ModifyClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cluster-parameter-group`.

**AWS CLI**  
**Ubah parameter dalam grup parameter**  
`modify-cluster-parameter-group`Contoh berikut memodifikasi parameter *wlm\$1json\$1configuration* untuk manajemen beban kerja. Ini menerima parameter dari file yang berisi konten JSON yang ditunjukkan di bawah ini.  

```
aws redshift modify-cluster-parameter-group \
    --parameter-group-name myclusterparametergroup \
    --parameters file://modify_pg.json
```
Isi dari `modify_pg.json`:  

```
[
    {
        "ParameterName": "wlm_json_configuration",
        "ParameterValue": "[{\"user_group\":\"example_user_group1\",\"query_group\": \"example_query_group1\", \"query_concurrency\":7},{\"query_concurrency\":5}]"
    }
]
```
Output:  

```
{
   "ParameterGroupStatus": "Your parameter group has been updated but changes won't get applied until you reboot the associated Clusters.",
   "ParameterGroupName": "myclusterparametergroup",
   "ResponseMetadata": {
      "RequestId": "09974cc0-64cd-11e2-bea9-49e0ce183f07"
   }
}
```
+  Untuk detail API, lihat [ModifyClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-cluster-snapshot-schedule`
<a name="redshift_ModifyClusterSnapshotSchedule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cluster-snapshot-schedule`.

**AWS CLI**  
**Untuk mengubah jadwal snapshot cluster**  
`modify-cluster-snapshot-schedule`Contoh berikut menghapus jadwal snapshot yang ditentukan dari cluster yang ditentukan.  

```
aws redshift modify-cluster-snapshot-schedule \
    --cluster-identifier mycluster \
    --schedule-identifier mysnapshotschedule \
    --disassociate-schedule
```
Perintah ini tidak menghasilkan output apa pun.  
Untuk informasi selengkapnya, lihat [Jadwal Snapshot Otomatis di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#automated-snapshot-schedules) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [ModifyClusterSnapshotSchedule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-cluster-snapshot-schedule.html)di *Referensi AWS CLI Perintah*. 

### `modify-cluster-snapshot`
<a name="redshift_ModifyClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cluster-snapshot`.

**AWS CLI**  
**Untuk memodifikasi snapshot cluster**  
`modify-cluster-snapshot`Contoh berikut menetapkan pengaturan periode retensi manual untuk snapshot cluster yang ditentukan ke nilai 10 hari.  

```
aws redshift modify-cluster-snapshot \
    --snapshot-identifier mycluster-2019-11-06-16-32 \
    --manual-snapshot-retention-period 10
```
Output:  

```
{
    "Snapshot": {
        "SnapshotIdentifier": "mycluster-2019-11-06-16-32",
        "ClusterIdentifier": "mycluster",
        "SnapshotCreateTime": "2019-12-07T00:34:05.633Z",
        "Status": "available",
        "Port": 5439,
        "AvailabilityZone": "us-west-2f",
        "ClusterCreateTime": "2019-12-05T18:44:36.991Z",
        "MasterUsername": "adminuser",
        "ClusterVersion": "1.0",
        "SnapshotType": "manual",
        "NodeType": "dc2.large",
        "NumberOfNodes": 2,
        "DBName": "dev",
        "VpcId": "vpc-b1cel7t9",
        "Encrypted": false,
        "EncryptedWithHSM": false,
        "OwnerAccount": "123456789012",
        "TotalBackupSizeInMegaBytes": 64384.0,
        "ActualIncrementalBackupSizeInMegaBytes": 24.0,
        "BackupProgressInMegaBytes": 24.0,
        "CurrentBackupRateInMegaBytesPerSecond": 13.0011,
        "EstimatedSecondsToCompletion": 0,
        "ElapsedTimeInSeconds": 1,
        "Tags": [
            {
                "Key": "mytagkey",
                "Value": "mytagvalue"
            }
        ],
        "EnhancedVpcRouting": false,
        "MaintenanceTrackName": "current",
        "ManualSnapshotRetentionPeriod": 10,
        "ManualSnapshotRemainingDays": 6,
        "SnapshotRetentionStartTime": "2019-12-07T00:34:07.479Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Snapshot Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [ModifyClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `modify-cluster-subnet-group`
<a name="redshift_ModifyClusterSubnetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cluster-subnet-group`.

**AWS CLI**  
Memodifikasi Subnet dalam GroupThis contoh Cluster Subnet menunjukkan cara memodifikasi daftar subnet dalam grup subnet cache. Secara default, output dalam format JSON.Command:  

```
aws redshift modify-cluster-subnet-group --cluster-subnet-group-name mysubnetgroup --subnet-ids subnet-763fdd1 subnet-ac830e9
```
Hasil:  

```
{
   "ClusterSubnetGroup":
   {
      "Subnets": [
         {
            "SubnetStatus": "Active",
            "SubnetIdentifier": "subnet-763fdd1c",
            "SubnetAvailabilityZone":
               { "Name": "us-east-1a" }
         },
         {
            "SubnetStatus": "Active",
            "SubnetIdentifier": "subnet-ac830e9",
            "SubnetAvailabilityZone":
               { "Name": "us-east-1b" }
         } ],
      "VpcId": "vpc-7e3fdd14",
      "SubnetGroupStatus": "Complete",
      "Description": "My subnet group",
      "ClusterSubnetGroupName": "mysubnetgroup"
   },
   "ResponseMetadata": {
      "RequestId": "8da93e89-8372-f936-93a8-873918938197a"
   }
}
```
+  Untuk detail API, lihat [ModifyClusterSubnetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-cluster-subnet-group.html)di *Referensi AWS CLI Perintah*. 

### `modify-cluster`
<a name="redshift_ModifyCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-cluster`.

**AWS CLI**  
Mengaitkan Grup Keamanan dengan ClusterThis contoh menunjukkan cara mengaitkan grup keamanan klaster dengan Cluster.command yang ditentukan:  

```
aws redshift modify-cluster --cluster-identifier mycluster --cluster-security-groups mysecuritygroup
```
Ubah Jendela Pemeliharaan untuk ClusterThis menunjukkan cara mengubah jendela pemeliharaan pilihan mingguan untuk cluster menjadi jendela minimum empat jam mulai hari Minggu pukul 11:15, dan berakhir Senin pukul 3:15 pagi. Perintah:  

```
aws redshift modify-cluster --cluster-identifier mycluster --preferred-maintenance-window Sun:23:15-Mon:03:15
```
Ubah Kata Sandi Master untuk ClusterThis contoh menunjukkan cara mengubah kata sandi master untuk cluster.Command:  

```
aws redshift modify-cluster --cluster-identifier mycluster --master-user-password A1b2c3d4
```
+  Untuk detail API, lihat [ModifyCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-cluster.html)di *Referensi AWS CLI Perintah*. 

### `modify-event-subscription`
<a name="redshift_ModifyEventSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-event-subscription`.

**AWS CLI**  
**Untuk memodifikasi langganan acara**  
`modify-event-subscription`Contoh berikut menonaktifkan langganan pemberitahuan acara yang ditentukan.  

```
aws redshift modify-event-subscription \
    --subscription-name mysubscription \
    --no-enabled
```
Output:  

```
{
    "EventSubscription": {
        "CustomerAwsId": "123456789012",
        "CustSubscriptionId": "mysubscription",
        "SnsTopicArn": "arn:aws:sns:us-west-2:123456789012:MySNStopic",
        "Status": "active",
        "SubscriptionCreationTime": "2019-12-09T21:50:21.332Z",
        "SourceIdsList": [],
        "EventCategoriesList": [
            "management"
        ],
        "Severity": "ERROR",
        "Enabled": false,
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Berlangganan Pemberitahuan Peristiwa Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-event-notifications.html) di Panduan Manajemen Cluster *Amazon Redshift*.  
+  Untuk detail API, lihat [ModifyEventSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-event-subscription.html)di *Referensi AWS CLI Perintah*. 

### `modify-scheduled-action`
<a name="redshift_ModifyScheduledAction_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-scheduled-action`.

**AWS CLI**  
**Untuk memodifikasi tindakan terjadwal**  
`modify-scheduled-action`Contoh berikut menambahkan deskripsi untuk tindakan terjadwal tertentu yang ada.  

```
aws redshift modify-scheduled-action \
    --scheduled-action-name myscheduledaction \
    --scheduled-action-description "My scheduled action"
```
Output:  

```
{
    "ScheduledActionName": "myscheduledaction",
    "TargetAction": {
        "ResizeCluster": {
            "ClusterIdentifier": "mycluster",
            "NumberOfNodes": 2,
            "Classic": false
        }
    },
    "Schedule": "at(2019-12-25T00:00:00)",
    "IamRole": "arn:aws:iam::123456789012:role/myRedshiftRole",
    "ScheduledActionDescription": "My scheduled action",
    "State": "ACTIVE",
    "NextInvocations": [
        "2019-12-25T00:00:00Z"
    ]
}
```
+  Untuk detail API, lihat [ModifyScheduledAction](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-scheduled-action.html)di *Referensi AWS CLI Perintah*. 

### `modify-snapshot-copy-retention-period`
<a name="redshift_ModifySnapshotCopyRetentionPeriod_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-snapshot-copy-retention-period`.

**AWS CLI**  
**Untuk mengubah periode penyimpanan salinan snapshot**  
`modify-snapshot-copy-retention-period`Contoh berikut memodifikasi jumlah hari untuk menyimpan snapshot untuk cluster yang ditentukan di AWS Wilayah tujuan setelah disalin dari Wilayah sumber. AWS   

```
aws redshift modify-snapshot-copy-retention-period \
    --cluster-identifier mycluster \
    --retention-period 15
```
Output:  

```
{
    "Cluster": {
        "ClusterIdentifier": "mycluster",
        "NodeType": "dc2.large",
        "ClusterStatus": "available",
        "ClusterAvailabilityStatus": "Available",
        "MasterUsername": "adminuser",
        "DBName": "dev",
        "Endpoint": {
            "Address": "mycluster.cmeaswqeuae.us-west-2.redshift.amazonaws.com",
            "Port": 5439
        },
        "ClusterCreateTime": "2019-12-05T18:44:36.991Z",
        "AutomatedSnapshotRetentionPeriod": 3,
        "ManualSnapshotRetentionPeriod": -1,
        "ClusterSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sh-a1a123ab",
                "Status": "active"
            }
        ],
        "ClusterParameterGroups": [
            {
                "ParameterGroupName": "default.redshift-1.0",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "ClusterSubnetGroupName": "default",
        "VpcId": "vpc-b1fet7t9",
        "AvailabilityZone": "us-west-2f",
        "PreferredMaintenanceWindow": "sat:16:00-sat:16:30",
        "PendingModifiedValues": {
            "NodeType": "dc2.large",
            "NumberOfNodes": 2,
            "ClusterType": "multi-node"
        },
        "ClusterVersion": "1.0",
        "AllowVersionUpgrade": true,
        "NumberOfNodes": 4,
        "PubliclyAccessible": false,
        "Encrypted": false,
        "ClusterSnapshotCopyStatus": {
            "DestinationRegion": "us-west-1",
            "RetentionPeriod": 15,
            "ManualSnapshotRetentionPeriod": -1
        },
        "Tags": [
            {
                "Key": "mytags",
                "Value": "tag1"
            }
        ],
        "EnhancedVpcRouting": false,
        "IamRoles": [],
        "MaintenanceTrackName": "current",
        "DeferredMaintenanceWindows": [
            {
                "DeferMaintenanceIdentifier": "dfm-mUdVSfDcT1F4SGhw6fyF",
                "DeferMaintenanceStartTime": "2019-12-10T18:18:39.354Z",
                "DeferMaintenanceEndTime": "2020-01-09T18:18:39.354Z"
            }
        ],
        "NextMaintenanceWindowStartTime": "2020-01-11T16:00:00Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Format Jadwal Snapshot](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#working-with-snapshot-scheduling) di Panduan Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [ModifySnapshotCopyRetentionPeriod](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-snapshot-copy-retention-period.html)di *Referensi AWS CLI Perintah*. 

### `modify-snapshot-schedule`
<a name="redshift_ModifySnapshotSchedule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-snapshot-schedule`.

**AWS CLI**  
**Untuk mengubah jadwal snapshot**  
`modify-snapshot-schedule`Contoh berikut memodifikasi tingkat jadwal snapshot yang ditentukan untuk setiap 10 jam.  

```
aws redshift modify-snapshot-schedule \
    --schedule-identifier mysnapshotschedule \
    --schedule-definitions "rate(10 hours)"
```
Output:  

```
{
    "ScheduleDefinitions": [
        "rate(10 hours)"
    ],
    "ScheduleIdentifier": "mysnapshotschedule",
    "ScheduleDescription": "My schedule description",
    "Tags": []
}
```
Untuk informasi selengkapnya, lihat [Format Jadwal Snapshot](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#working-with-snapshot-scheduling) di Panduan Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [ModifySnapshotSchedule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/modify-snapshot-schedule.html)di *Referensi AWS CLI Perintah*. 

### `purchase-reserved-node-offering`
<a name="redshift_PurchaseReservedNodeOffering_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purchase-reserved-node-offering`.

**AWS CLI**  
Membeli NodeThis contoh Reserved menunjukkan cara membeli penawaran node reserved. `reserved-node-offering-id`Ini diperoleh dengan `describe-reserved-node-offerings` memanggil.Command:  

```
aws redshift purchase-reserved-node-offering --reserved-node-offering-id ceb6a579-cf4c-4343-be8b-d832c45ab51c
```
Hasil:  

```
{
   "ReservedNode": {
      "OfferingType": "Heavy Utilization",
      "FixedPrice": "",
      "NodeType": "dw.hs1.xlarge",
      "ReservedNodeId": "1ba8e2e3-bc01-4d65-b35d-a4a3e931547e",
      "UsagePrice": "",
      "RecurringCharges": [
         {
            "RecurringChargeAmount": "",
            "RecurringChargeFrequency": "Hourly"
         }
      ],
      "NodeCount": 1,
      "State": "payment-pending",
      "StartTime": "2013-02-13T17:08:39.051Z",
      "Duration": 31536000,
      "ReservedNodeOfferingId": "ceb6a579-cf4c-4343-be8b-d832c45ab51c"
   },
   "ResponseMetadata": {
      "RequestId": "01bda7bf-7600-11e2-b605-2568d7396e7f"
   }
}
```
+  Untuk detail API, lihat [PurchaseReservedNodeOffering](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/purchase-reserved-node-offering.html)di *Referensi AWS CLI Perintah*. 

### `reboot-cluster`
<a name="redshift_RebootCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-cluster`.

**AWS CLI**  
Reboot ClusterThis contoh me-reboot sebuah cluster. Secara default, output dalam format JSON.Command:  

```
aws redshift reboot-cluster --cluster-identifier mycluster
```
Hasil:  

```
{
   "Cluster": {
      "NodeType": "dw.hs1.xlarge",
      "Endpoint": {
         "Port": 5439,
         "Address": "mycluster.coqoarplqhsn.us-east-1.redshift.amazonaws.com"
      },
      "ClusterVersion": "1.0",
      "PubliclyAccessible": "true",
      "MasterUsername": "adminuser",
      "ClusterParameterGroups": [
         {
         "ParameterApplyStatus": "in-sync",
         "ParameterGroupName": "default.redshift-1.0"
         }
      ],
      "ClusterSecurityGroups": [
         {
         "Status": "active",
         "ClusterSecurityGroupName": "default"
         }
      ],
      "AllowVersionUpgrade": true,
      "VpcSecurityGroups": \[],
      "AvailabilityZone": "us-east-1a",
      "ClusterCreateTime": "2013-01-22T21:59:29.559Z",
      "PreferredMaintenanceWindow": "sun:23:15-mon:03:15",
      "AutomatedSnapshotRetentionPeriod": 1,
      "ClusterStatus": "rebooting",
      "ClusterIdentifier": "mycluster",
      "DBName": "dev",
      "NumberOfNodes": 2,
      "PendingModifiedValues": {}
   },
   "ResponseMetadata": {
      "RequestId": "61c8b564-64e8-11e2-8f7d-3b939af52818"
   }
}
```
+  Untuk detail API, lihat [RebootCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/reboot-cluster.html)di *Referensi AWS CLI Perintah*. 

### `reset-cluster-parameter-group`
<a name="redshift_ResetClusterParameterGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-cluster-parameter-group`.

**AWS CLI**  
Reset Parameter dalam GroupThis contoh Parameter menunjukkan cara mengatur ulang semua parameter dalam parameter Group.Command:  

```
aws redshift reset-cluster-parameter-group --parameter-group-name myclusterparametergroup --reset-all-parameters
```
+  Untuk detail API, lihat [ResetClusterParameterGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/reset-cluster-parameter-group.html)di *Referensi AWS CLI Perintah*. 

### `resize-cluster`
<a name="redshift_ResizeCluster_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resize-cluster`.

**AWS CLI**  
**Untuk mengubah ukuran cluster**  
`resize-cluster`Contoh berikut mengubah ukuran cluster yang ditentukan.  

```
aws redshift resize-cluster \
    --cluster-identifier mycluster \
    --cluster-type multi-node \
    --node-type dc2.large \
    --number-of-nodes 6 \
    --classic
```
Output:  

```
{
    "Cluster": {
        "ClusterIdentifier": "mycluster",
        "NodeType": "dc2.large",
        "ClusterStatus": "resizing",
        "ClusterAvailabilityStatus": "Modifying",
        "MasterUsername": "adminuser",
        "DBName": "dev",
        "Endpoint": {
            "Address": "mycluster.cmeaswqeuae.us-west-2.redshift.amazonaws.com",
            "Port": 5439
        },
        "ClusterCreateTime": "2019-12-05T18:44:36.991Z",
        "AutomatedSnapshotRetentionPeriod": 3,
        "ManualSnapshotRetentionPeriod": -1,
        "ClusterSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sh-a1a123ab",
                "Status": "active"
            }
        ],
        "ClusterParameterGroups": [
            {
                "ParameterGroupName": "default.redshift-1.0",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "ClusterSubnetGroupName": "default",
        "VpcId": "vpc-a1abc1a1",
        "AvailabilityZone": "us-west-2f",
        "PreferredMaintenanceWindow": "sat:16:00-sat:16:30",
        "PendingModifiedValues": {
            "NodeType": "dc2.large",
            "NumberOfNodes": 6,
            "ClusterType": "multi-node"
        },
        "ClusterVersion": "1.0",
        "AllowVersionUpgrade": true,
        "NumberOfNodes": 4,
        "PubliclyAccessible": false,
        "Encrypted": false,
        "ClusterSnapshotCopyStatus": {
            "DestinationRegion": "us-west-1",
            "RetentionPeriod": 15,
            "ManualSnapshotRetentionPeriod": -1
        },
        "Tags": [
            {
                "Key": "mytags",
                "Value": "tag1"
            }
        ],
        "EnhancedVpcRouting": false,
        "IamRoles": [],
        "MaintenanceTrackName": "current",
        "DeferredMaintenanceWindows": [
            {
                "DeferMaintenanceIdentifier": "dfm-mUdVCfDcT1B4SGhw6fyF",
                "DeferMaintenanceStartTime": "2019-12-10T18:18:39.354Z",
                "DeferMaintenanceEndTime": "2020-01-09T18:18:39.354Z"
            }
        ],
        "NextMaintenanceWindowStartTime": "2020-01-11T16:00:00Z",
        "ResizeInfo": {
            "ResizeType": "ClassicResize",
            "AllowCancelResize": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengubah Ukuran Cluster](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-clusters.html#cluster-resize-intro) di Panduan Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [ResizeCluster](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/resize-cluster.html)di *Referensi AWS CLI Perintah*. 

### `restore-from-cluster-snapshot`
<a name="redshift_RestoreFromClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-from-cluster-snapshot`.

**AWS CLI**  
Memulihkan Cluster Dari SnapshotThis contoh mengembalikan cluster dari Snapshot.Command:  

```
aws redshift restore-from-cluster-snapshot --cluster-identifier mycluster-clone --snapshot-identifier my-snapshot-id
```
Hasil:  

```
{
   "Cluster": {
      "NodeType": "dw.hs1.xlarge",
      "ClusterVersion": "1.0",
      "PubliclyAccessible": "true",
      "MasterUsername": "adminuser",
      "ClusterParameterGroups": [
         {
         "ParameterApplyStatus": "in-sync",
         "ParameterGroupName": "default.redshift-1.0"
         }
      ],
      "ClusterSecurityGroups": [
         {
         "Status": "active",
         "ClusterSecurityGroupName": "default"
         }
      ],
      "AllowVersionUpgrade": true,
      "VpcSecurityGroups": \[],
      "PreferredMaintenanceWindow": "sun:23:15-mon:03:15",
      "AutomatedSnapshotRetentionPeriod": 1,
      "ClusterStatus": "creating",
      "ClusterIdentifier": "mycluster-clone",
      "DBName": "dev",
      "NumberOfNodes": 2,
      "PendingModifiedValues": {}
   },
   "ResponseMetadata": {
      "RequestId": "77fd512b-64e3-11e2-8f5b-e90bd6c77476"
   }
}
```
+  Untuk detail API, lihat [RestoreFromClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/restore-from-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `restore-table-from-cluster-snapshot`
<a name="redshift_RestoreTableFromClusterSnapshot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-table-from-cluster-snapshot`.

**AWS CLI**  
**Untuk mengembalikan tabel dari snapshot cluster**  
`restore-table-from-cluster-snapshot`Contoh berikut membuat tabel baru dari tabel yang ditentukan dalam snapshot cluster tertentu.  

```
aws redshift restore-table-from-cluster-snapshot /
    --cluster-identifier mycluster /
    --snapshot-identifier mycluster-2019-11-19-16-17 /
    --source-database-name dev /
    --source-schema-name public /
    --source-table-name mytable /
    --target-database-name dev /
    --target-schema-name public /
    --new-table-name mytable-clone
```
Output:  

```
{
    "TableRestoreStatus": {
        "TableRestoreRequestId": "a123a12b-abc1-1a1a-a123-a1234ab12345",
        "Status": "PENDING",
        "RequestTime": "2019-12-20T00:20:16.402Z",
        "ClusterIdentifier": "mycluster",
        "SnapshotIdentifier": "mycluster-2019-11-19-16-17",
        "SourceDatabaseName": "dev",
        "SourceSchemaName": "public",
        "SourceTableName": "mytable",
        "TargetDatabaseName": "dev",
        "TargetSchemaName": "public",
        "NewTableName": "mytable-clone"
    }
}
```
Untuk informasi selengkapnya, lihat [Memulihkan Tabel dari Snapshot di Panduan](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-snapshots.html#working-with-snapshot-restore-table-from-snapshot) Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [RestoreTableFromClusterSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/restore-table-from-cluster-snapshot.html)di *Referensi AWS CLI Perintah*. 

### `revoke-cluster-security-group-ingress`
<a name="redshift_RevokeClusterSecurityGroupIngress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-cluster-security-group-ingress`.

**AWS CLI**  
Mencabut Akses dari GroupThis contoh Keamanan EC2 mencabut akses ke grup keamanan Amazon EC2 bernama.Perintah:  

```
aws redshift revoke-cluster-security-group-ingress --cluster-security-group-name mysecuritygroup --ec2-security-group-name myec2securitygroup --ec2-security-group-owner-id 123445677890
```
Mencabut Akses ke rentang CIDRContoh ini mencabut akses ke rentang CIDR.Command:  

```
aws redshift revoke-cluster-security-group-ingress --cluster-security-group-name mysecuritygroup --cidrip 192.168.100.100/32
```
+  Untuk detail API, lihat [RevokeClusterSecurityGroupIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/revoke-cluster-security-group-ingress.html)di *Referensi AWS CLI Perintah*. 

### `revoke-snapshot-access`
<a name="redshift_RevokeSnapshotAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`revoke-snapshot-access`.

**AWS CLI**  
Mencabut otorisasi AWS akun untuk memulihkan SnapshotThis contoh mencabut otorisasi AWS akun `444455556666` untuk mengembalikan snapshot. `my-snapshot-id` Secara default, output dalam format JSON.Command:  

```
aws redshift revoke-snapshot-access --snapshot-id my-snapshot-id --account-with-restore-access 444455556666
```
Hasil:  

```
{
   "Snapshot": {
      "Status": "available",
      "SnapshotCreateTime": "2013-07-17T22:04:18.947Z",
      "EstimatedSecondsToCompletion": 0,
      "AvailabilityZone": "us-east-1a",
      "ClusterVersion": "1.0",
      "MasterUsername": "adminuser",
      "Encrypted": false,
      "OwnerAccount": "111122223333",
      "BackupProgressInMegabytes": 11.0,
      "ElapsedTimeInSeconds": 0,
      "DBName": "dev",
      "CurrentBackupRateInMegabytesPerSecond: 0.1534,
      "ClusterCreateTime": "2013-01-22T21:59:29.559Z",
      "ActualIncrementalBackupSizeInMegabytes"; 11.0,
      "SnapshotType": "manual",
      "NodeType": "dw.hs1.xlarge",
      "ClusterIdentifier": "mycluster",
      "TotalBackupSizeInMegabytes": 20.0,
      "Port": 5439,
      "NumberOfNodes": 2,
      "SnapshotIdentifier": "my-snapshot-id"
   }
}
```
+  Untuk detail API, lihat [RevokeSnapshotAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/revoke-snapshot-access.html)di *Referensi AWS CLI Perintah*. 

### `rotate-encryption-key`
<a name="redshift_RotateEncryptionKey_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rotate-encryption-key`.

**AWS CLI**  
**Untuk memutar kunci enkripsi untuk klaster**  
`rotate-encryption-key`Contoh berikut memutar kunci enkripsi untuk cluster tertentu.  

```
aws redshift rotate-encryption-key \
    --cluster-identifier mycluster
```
Output:  

```
{
    "Cluster": {
        "ClusterIdentifier": "mycluster",
        "NodeType": "dc2.large",
        "ClusterStatus": "rotating-keys",
        "ClusterAvailabilityStatus": "Modifying",
        "MasterUsername": "adminuser",
        "DBName": "dev",
        "Endpoint": {
            "Address": "mycluster.cmeaswqeuae.us-west-2.redshift.amazonaws.com",
            "Port": 5439
        },
        "ClusterCreateTime": "2019-12-10T19:25:45.886Z",
        "AutomatedSnapshotRetentionPeriod": 30,
        "ManualSnapshotRetentionPeriod": -1,
        "ClusterSecurityGroups": [],
        "VpcSecurityGroups": [
            {
                "VpcSecurityGroupId": "sh-a1a123ab",
                "Status": "active"
            }
        ],
        "ClusterParameterGroups": [
            {
                "ParameterGroupName": "default.redshift-1.0",
                "ParameterApplyStatus": "in-sync"
            }
        ],
        "ClusterSubnetGroupName": "default",
        "VpcId": "vpc-a1abc1a1",
        "AvailabilityZone": "us-west-2a",
        "PreferredMaintenanceWindow": "sat:16:00-sat:16:30",
        "PendingModifiedValues": {},
        "ClusterVersion": "1.0",
        "AllowVersionUpgrade": true,
        "NumberOfNodes": 2,
        "PubliclyAccessible": false,
        "Encrypted": true,
        "Tags": [],
        "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/bPxRfih3yCo8nvbEXAMPLEKEY",
        "EnhancedVpcRouting": false,
        "IamRoles": [
            {
                "IamRoleArn": "arn:aws:iam::123456789012:role/myRedshiftRole",
                "ApplyStatus": "in-sync"
            }
        ],
        "MaintenanceTrackName": "current",
        "DeferredMaintenanceWindows": [],
        "NextMaintenanceWindowStartTime": "2019-12-14T16:00:00Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Enkripsi Database Amazon Redshift](https://docs.aws.amazon.com/redshift/latest/mgmt/working-with-db-encryption.html) di Panduan Manajemen *Cluster Amazon Redshift*.  
+  Untuk detail API, lihat [RotateEncryptionKey](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/redshift/rotate-encryption-key.html)di *Referensi AWS CLI Perintah*. 

# Contoh Rekognition Amazon menggunakan AWS CLI
<a name="cli_2_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon Rekognition.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `compare-faces`
<a name="rekognition_CompareFaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`compare-faces`.

Untuk informasi selengkapnya, lihat [Membandingkan wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-comparefaces.html).

**AWS CLI**  
**Untuk membandingkan wajah dalam dua gambar**  
`compare-faces`Perintah berikut membandingkan wajah dalam dua gambar yang disimpan dalam bucket Amazon S3.  

```
aws rekognition compare-faces \
    --source-image '{"S3Object":{"Bucket":"MyImageS3Bucket","Name":"source.jpg"}}' \
    --target-image '{"S3Object":{"Bucket":"MyImageS3Bucket","Name":"target.jpg"}}'
```
Output:  

```
{
    "UnmatchedFaces": [],
    "FaceMatches": [
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.12368916720151901,
                    "Top": 0.16007372736930847,
                    "Left": 0.5901257991790771,
                    "Height": 0.25140416622161865
                },
                "Confidence": 100.0,
                "Pose": {
                    "Yaw": -3.7351467609405518,
                    "Roll": -0.10309021919965744,
                    "Pitch": 0.8637830018997192
                },
                "Quality": {
                    "Sharpness": 95.51618957519531,
                    "Brightness": 65.29893493652344
                },
                "Landmarks": [
                    {
                        "Y": 0.26721030473709106,
                        "X": 0.6204193830490112,
                        "Type": "eyeLeft"
                    },
                    {
                        "Y": 0.26831310987472534,
                        "X": 0.6776827573776245,
                        "Type": "eyeRight"
                    },
                    {
                        "Y": 0.3514654338359833,
                        "X": 0.6241428852081299,
                        "Type": "mouthLeft"
                    },
                    {
                        "Y": 0.35258132219314575,
                        "X": 0.6713621020317078,
                        "Type": "mouthRight"
                    },
                    {
                        "Y": 0.3140771687030792,
                        "X": 0.6428444981575012,
                        "Type": "nose"
                    }
                ]
            },
            "Similarity": 100.0
        }
    ],
    "SourceImageFace": {
        "BoundingBox": {
            "Width": 0.12368916720151901,
            "Top": 0.16007372736930847,
            "Left": 0.5901257991790771,
            "Height": 0.25140416622161865
        },
        "Confidence": 100.0
    }
}
```
Untuk informasi selengkapnya, lihat [Membandingkan Wajah dalam Gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-comparefaces.html) di Panduan *Pengembang Rekognition Amazon*.  
+  Untuk detail API, lihat [CompareFaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/compare-faces.html)di *Referensi AWS CLI Perintah*. 

### `create-collection`
<a name="rekognition_CreateCollection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-collection`.

Untuk informasi selengkapnya, lihat [Membuat koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/create-collection-procedure.html).

**AWS CLI**  
**Untuk membuat koleksi**  
`create-collection`Perintah berikut membuat koleksi dengan nama yang ditentukan.  

```
aws rekognition create-collection \
    --collection-id "MyCollection"
```
Output:  

```
{
    "CollectionArn": "aws:rekognition:us-west-2:123456789012:collection/MyCollection",
    "FaceModelVersion": "4.0",
    "StatusCode": 200
}
```
Untuk informasi selengkapnya, lihat [Membuat Koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/create-collection-procedure.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [CreateCollection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/create-collection.html)di *Referensi AWS CLI Perintah*. 

### `create-stream-processor`
<a name="rekognition_CreateStreamProcessor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-stream-processor`.

**AWS CLI**  
**Untuk membuat prosesor aliran baru**  
`create-stream-processor`Contoh berikut membuat prosesor aliran baru dengan konfigurasi yang ditentukan.  

```
aws rekognition create-stream-processor --name my-stream-processor\
    --input '{"KinesisVideoStream":{"Arn":"arn:aws:kinesisvideo:us-west-2:123456789012:stream/macwebcam/1530559711205"}}'\
    --stream-processor-output '{"KinesisDataStream":{"Arn":"arn:aws:kinesis:us-west-2:123456789012:stream/AmazonRekognitionRekStream"}}'\
    --role-arn arn:aws:iam::123456789012:role/AmazonRekognitionDetect\
    --settings '{"FaceSearch":{"CollectionId":"MyCollection","FaceMatchThreshold":85.5}}'
```
Output:  

```
{
    "StreamProcessorArn": "arn:aws:rekognition:us-west-2:123456789012:streamprocessor/my-stream-processor"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Video Streaming](https://docs.aws.amazon.com/rekognition/latest/dg/streaming-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [CreateStreamProcessor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/create-stream-processor.html)di *Referensi AWS CLI Perintah*. 

### `delete-collection`
<a name="rekognition_DeleteCollection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-collection`.

Untuk informasi selengkapnya, lihat [Menghapus koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-collection-procedure.html).

**AWS CLI**  
**Untuk menghapus koleksi**  
`delete-collection`Perintah berikut menghapus koleksi yang ditentukan.  

```
aws rekognition delete-collection \
    --collection-id MyCollection
```
Output:  

```
{
    "StatusCode": 200
}
```
Untuk informasi selengkapnya, lihat [Menghapus Koleksi di Panduan](https://docs.aws.amazon.com/rekognition/latest/dg/delete-collection-procedure.html) Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [DeleteCollection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/delete-collection.html)di *Referensi AWS CLI Perintah*. 

### `delete-faces`
<a name="rekognition_DeleteFaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-faces`.

Untuk informasi selengkapnya, lihat [Menghapus wajah dari koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-faces-procedure.html).

**AWS CLI**  
**Untuk menghapus wajah dari koleksi**  
`delete-faces`Perintah berikut menghapus wajah yang ditentukan dari koleksi.  

```
aws rekognition delete-faces \
    --collection-id MyCollection
    --face-ids '["0040279c-0178-436e-b70a-e61b074e96b0"]'
```
Output:  

```
{
    "DeletedFaces": [
        "0040279c-0178-436e-b70a-e61b074e96b0"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menghapus Wajah dari Koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-faces-procedure.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [DeleteFaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/delete-faces.html)di *Referensi AWS CLI Perintah*. 

### `delete-stream-processor`
<a name="rekognition_DeleteStreamProcessor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-stream-processor`.

**AWS CLI**  
**Untuk menghapus prosesor aliran**  
`delete-stream-processor`Perintah berikut menghapus prosesor aliran yang ditentukan.  

```
aws rekognition delete-stream-processor \
    --name my-stream-processor
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Video Streaming](https://docs.aws.amazon.com/rekognition/latest/dg/streaming-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [DeleteStreamProcessor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/delete-stream-processor.html)di *Referensi AWS CLI Perintah*. 

### `describe-collection`
<a name="rekognition_DescribeCollection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-collection`.

Untuk informasi selengkapnya, lihat [Menjelaskan koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/describe-collection-procedure.html).

**AWS CLI**  
**Untuk menggambarkan koleksi**  
`describe-collection`Contoh berikut menampilkan rincian tentang koleksi yang ditentukan.  

```
aws rekognition describe-collection \
    --collection-id MyCollection
```
Output:  

```
{
    "FaceCount": 200,
    "CreationTimestamp": 1569444828.274,
    "CollectionARN": "arn:aws:rekognition:us-west-2:123456789012:collection/MyCollection",
    "FaceModelVersion": "4.0"
}
```
Untuk informasi selengkapnya, lihat [Menjelaskan Koleksi di Panduan](https://docs.aws.amazon.com/rekognition/latest/dg/describe-collection-procedure.html) Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [DescribeCollection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/describe-collection.html)di *Referensi AWS CLI Perintah*. 

### `describe-stream-processor`
<a name="rekognition_DescribeStreamProcessor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-stream-processor`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang prosesor aliran**  
`describe-stream-processor`Perintah berikut menampilkan rincian tentang prosesor aliran yang ditentukan.  

```
aws rekognition describe-stream-processor \
    --name my-stream-processor
```
Output:  

```
{
    "Status": "STOPPED",
    "Name": "my-stream-processor",
    "LastUpdateTimestamp": 1532449292.712,
    "Settings": {
        "FaceSearch": {
            "FaceMatchThreshold": 80.0,
            "CollectionId": "my-collection"
        }
    },
    "RoleArn": "arn:aws:iam::123456789012:role/AmazonRekognitionDetectStream",
    "StreamProcessorArn": "arn:aws:rekognition:us-west-2:123456789012:streamprocessor/my-stream-processpr",
    "Output": {
        "KinesisDataStream": {
            "Arn": "arn:aws:kinesis:us-west-2:123456789012:stream/AmazonRekognitionRekStream"
        }
    },
    "Input": {
        "KinesisVideoStream": {
            "Arn": "arn:aws:kinesisvideo:us-west-2:123456789012:stream/macwebcam/123456789012"
        }
    },
    "CreationTimestamp": 1532449292.712
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Video Streaming](https://docs.aws.amazon.com/rekognition/latest/dg/streaming-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [DescribeStreamProcessor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/describe-stream-processor.html)di *Referensi AWS CLI Perintah*. 

### `detect-faces`
<a name="rekognition_DetectFaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-faces`.

Untuk informasi selengkapnya, lihat [Mendeteksi wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-detect-images.html).

**AWS CLI**  
**Untuk mendeteksi wajah dalam gambar**  
`detect-faces`Perintah berikut mendeteksi wajah dalam gambar tertentu yang disimpan dalam bucket Amazon S3.  

```
aws rekognition detect-faces \
    --image '{"S3Object":{"Bucket":"MyImageS3Bucket","Name":"MyFriend.jpg"}}' \
    --attributes "ALL"
```
Output:  

```
{
    "FaceDetails": [
        {
            "Confidence": 100.0,
            "Eyeglasses": {
                "Confidence": 98.91107940673828,
                "Value": false
            },
            "Sunglasses": {
                "Confidence": 99.7966537475586,
                "Value": false
            },
            "Gender": {
                "Confidence": 99.56611633300781,
                "Value": "Male"
            },
            "Landmarks": [
                {
                    "Y": 0.26721030473709106,
                    "X": 0.6204193830490112,
                    "Type": "eyeLeft"
                },
                {
                    "Y": 0.26831310987472534,
                    "X": 0.6776827573776245,
                    "Type": "eyeRight"
                },
                {
                    "Y": 0.3514654338359833,
                    "X": 0.6241428852081299,
                    "Type": "mouthLeft"
                },
                {
                    "Y": 0.35258132219314575,
                    "X": 0.6713621020317078,
                    "Type": "mouthRight"
                },
                {
                    "Y": 0.3140771687030792,
                    "X": 0.6428444981575012,
                    "Type": "nose"
                },
                {
                    "Y": 0.24662546813488007,
                    "X": 0.6001564860343933,
                    "Type": "leftEyeBrowLeft"
                },
                {
                    "Y": 0.24326619505882263,
                    "X": 0.6303644776344299,
                    "Type": "leftEyeBrowRight"
                },
                {
                    "Y": 0.23818562924861908,
                    "X": 0.6146903038024902,
                    "Type": "leftEyeBrowUp"
                },
                {
                    "Y": 0.24373626708984375,
                    "X": 0.6640064716339111,
                    "Type": "rightEyeBrowLeft"
                },
                {
                    "Y": 0.24877218902111053,
                    "X": 0.7025929093360901,
                    "Type": "rightEyeBrowRight"
                },
                {
                    "Y": 0.23938551545143127,
                    "X": 0.6823262572288513,
                    "Type": "rightEyeBrowUp"
                },
                {
                    "Y": 0.265746533870697,
                    "X": 0.6112898588180542,
                    "Type": "leftEyeLeft"
                },
                {
                    "Y": 0.2676128149032593,
                    "X": 0.6317071914672852,
                    "Type": "leftEyeRight"
                },
                {
                    "Y": 0.262735515832901,
                    "X": 0.6201658248901367,
                    "Type": "leftEyeUp"
                },
                {
                    "Y": 0.27025148272514343,
                    "X": 0.6206279993057251,
                    "Type": "leftEyeDown"
                },
                {
                    "Y": 0.268223375082016,
                    "X": 0.6658390760421753,
                    "Type": "rightEyeLeft"
                },
                {
                    "Y": 0.2672517001628876,
                    "X": 0.687832236289978,
                    "Type": "rightEyeRight"
                },
                {
                    "Y": 0.26383838057518005,
                    "X": 0.6769183874130249,
                    "Type": "rightEyeUp"
                },
                {
                    "Y": 0.27138751745224,
                    "X": 0.676596462726593,
                    "Type": "rightEyeDown"
                },
                {
                    "Y": 0.32283174991607666,
                    "X": 0.6350004076957703,
                    "Type": "noseLeft"
                },
                {
                    "Y": 0.3219289481639862,
                    "X": 0.6567046642303467,
                    "Type": "noseRight"
                },
                {
                    "Y": 0.3420318365097046,
                    "X": 0.6450609564781189,
                    "Type": "mouthUp"
                },
                {
                    "Y": 0.3664324879646301,
                    "X": 0.6455618143081665,
                    "Type": "mouthDown"
                },
                {
                    "Y": 0.26721030473709106,
                    "X": 0.6204193830490112,
                    "Type": "leftPupil"
                },
                {
                    "Y": 0.26831310987472534,
                    "X": 0.6776827573776245,
                    "Type": "rightPupil"
                },
                {
                    "Y": 0.26343393325805664,
                    "X": 0.5946047306060791,
                    "Type": "upperJawlineLeft"
                },
                {
                    "Y": 0.3543180525302887,
                    "X": 0.6044883728027344,
                    "Type": "midJawlineLeft"
                },
                {
                    "Y": 0.4084877669811249,
                    "X": 0.6477024555206299,
                    "Type": "chinBottom"
                },
                {
                    "Y": 0.3562754988670349,
                    "X": 0.707981526851654,
                    "Type": "midJawlineRight"
                },
                {
                    "Y": 0.26580461859703064,
                    "X": 0.7234612107276917,
                    "Type": "upperJawlineRight"
                }
            ],
            "Pose": {
                "Yaw": -3.7351467609405518,
                "Roll": -0.10309021919965744,
                "Pitch": 0.8637830018997192
            },
            "Emotions": [
                {
                    "Confidence": 8.74203109741211,
                    "Type": "SURPRISED"
                },
                {
                    "Confidence": 2.501944065093994,
                    "Type": "ANGRY"
                },
                {
                    "Confidence": 0.7378743290901184,
                    "Type": "DISGUSTED"
                },
                {
                    "Confidence": 3.5296201705932617,
                    "Type": "HAPPY"
                },
                {
                    "Confidence": 1.7162904739379883,
                    "Type": "SAD"
                },
                {
                    "Confidence": 9.518536567687988,
                    "Type": "CONFUSED"
                },
                {
                    "Confidence": 0.45474427938461304,
                    "Type": "FEAR"
                },
                {
                    "Confidence": 72.79895782470703,
                    "Type": "CALM"
                }
            ],
            "AgeRange": {
                "High": 48,
                "Low": 32
            },
            "EyesOpen": {
                "Confidence": 98.93987274169922,
                "Value": true
            },
            "BoundingBox": {
                "Width": 0.12368916720151901,
                "Top": 0.16007372736930847,
                "Left": 0.5901257991790771,
                "Height": 0.25140416622161865
            },
            "Smile": {
                "Confidence": 93.4493179321289,
                "Value": false
            },
            "MouthOpen": {
                "Confidence": 90.53053283691406,
                "Value": false
            },
            "Quality": {
                "Sharpness": 95.51618957519531,
                "Brightness": 65.29893493652344
            },
            "Mustache": {
                "Confidence": 89.85221099853516,
                "Value": false
            },
            "Beard": {
                "Confidence": 86.1991195678711,
                "Value": true
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Wajah dalam Gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-detect-images.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [DetectFaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/detect-faces.html)di *Referensi AWS CLI Perintah*. 

### `detect-labels`
<a name="rekognition_DetectLabels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-labels`.

Untuk informasi selengkapnya, lihat [Mendeteksi label dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detect-labels-image.html).

**AWS CLI**  
**Untuk mendeteksi label dalam gambar**  
`detect-labels`Contoh berikut mendeteksi adegan dan objek dalam gambar yang disimpan dalam bucket Amazon S3.  

```
aws rekognition detect-labels \
    --image '{"S3Object":{"Bucket":"bucket","Name":"image"}}'
```
Output:  

```
{
    "Labels": [
        {
            "Instances": [],
            "Confidence": 99.15271759033203,
            "Parents": [
                {
                    "Name": "Vehicle"
                },
                {
                    "Name": "Transportation"
                }
            ],
            "Name": "Automobile"
        },
        {
            "Instances": [],
            "Confidence": 99.15271759033203,
            "Parents": [
                {
                    "Name": "Transportation"
                }
            ],
            "Name": "Vehicle"
        },
        {
            "Instances": [],
            "Confidence": 99.15271759033203,
            "Parents": [],
            "Name": "Transportation"
        },
        {
            "Instances": [
                {
                    "BoundingBox": {
                        "Width": 0.10616336017847061,
                        "Top": 0.5039216876029968,
                        "Left": 0.0037978808395564556,
                        "Height": 0.18528179824352264
                    },
                    "Confidence": 99.15271759033203
                },
                {
                    "BoundingBox": {
                        "Width": 0.2429988533258438,
                        "Top": 0.5251884460449219,
                        "Left": 0.7309805154800415,
                        "Height": 0.21577216684818268
                    },
                    "Confidence": 99.1286392211914
                },
                {
                    "BoundingBox": {
                        "Width": 0.14233611524105072,
                        "Top": 0.5333095788955688,
                        "Left": 0.6494812965393066,
                        "Height": 0.15528248250484467
                    },
                    "Confidence": 98.48368072509766
                },
                {
                    "BoundingBox": {
                        "Width": 0.11086395382881165,
                        "Top": 0.5354844927787781,
                        "Left": 0.10355594009160995,
                        "Height": 0.10271988064050674
                    },
                    "Confidence": 96.45606231689453
                },
                {
                    "BoundingBox": {
                        "Width": 0.06254628300666809,
                        "Top": 0.5573825240135193,
                        "Left": 0.46083059906959534,
                        "Height": 0.053911514580249786
                    },
                    "Confidence": 93.65448760986328
                },
                {
                    "BoundingBox": {
                        "Width": 0.10105438530445099,
                        "Top": 0.534368634223938,
                        "Left": 0.5743985772132874,
                        "Height": 0.12226245552301407
                    },
                    "Confidence": 93.06217193603516
                },
                {
                    "BoundingBox": {
                        "Width": 0.056389667093753815,
                        "Top": 0.5235804319381714,
                        "Left": 0.9427769780158997,
                        "Height": 0.17163699865341187
                    },
                    "Confidence": 92.6864013671875
                },
                {
                    "BoundingBox": {
                        "Width": 0.06003860384225845,
                        "Top": 0.5441341400146484,
                        "Left": 0.22409997880458832,
                        "Height": 0.06737709045410156
                    },
                    "Confidence": 90.4227066040039
                },
                {
                    "BoundingBox": {
                        "Width": 0.02848697081208229,
                        "Top": 0.5107086896896362,
                        "Left": 0,
                        "Height": 0.19150497019290924
                    },
                    "Confidence": 86.65286254882812
                },
                {
                    "BoundingBox": {
                        "Width": 0.04067881405353546,
                        "Top": 0.5566273927688599,
                        "Left": 0.316415935754776,
                        "Height": 0.03428703173995018
                    },
                    "Confidence": 85.36471557617188
                },
                {
                    "BoundingBox": {
                        "Width": 0.043411049991846085,
                        "Top": 0.5394920110702515,
                        "Left": 0.18293385207653046,
                        "Height": 0.0893595889210701
                    },
                    "Confidence": 82.21705627441406
                },
                {
                    "BoundingBox": {
                        "Width": 0.031183116137981415,
                        "Top": 0.5579366683959961,
                        "Left": 0.2853088080883026,
                        "Height": 0.03989990055561066
                    },
                    "Confidence": 81.0157470703125
                },
                {
                    "BoundingBox": {
                        "Width": 0.031113790348172188,
                        "Top": 0.5504819750785828,
                        "Left": 0.2580395042896271,
                        "Height": 0.056484755128622055
                    },
                    "Confidence": 56.13441467285156
                },
                {
                    "BoundingBox": {
                        "Width": 0.08586374670267105,
                        "Top": 0.5438792705535889,
                        "Left": 0.5128012895584106,
                        "Height": 0.08550430089235306
                    },
                    "Confidence": 52.37760925292969
                }
            ],
            "Confidence": 99.15271759033203,
            "Parents": [
                {
                    "Name": "Vehicle"
                },
                {
                    "Name": "Transportation"
                }
            ],
            "Name": "Car"
        },
        {
            "Instances": [],
            "Confidence": 98.9914321899414,
            "Parents": [],
            "Name": "Human"
        },
        {
            "Instances": [
                {
                    "BoundingBox": {
                        "Width": 0.19360728561878204,
                        "Top": 0.35072067379951477,
                        "Left": 0.43734854459762573,
                        "Height": 0.2742200493812561
                    },
                    "Confidence": 98.9914321899414
                },
                {
                    "BoundingBox": {
                        "Width": 0.03801717236638069,
                        "Top": 0.5010883808135986,
                        "Left": 0.9155802130699158,
                        "Height": 0.06597328186035156
                    },
                    "Confidence": 85.02790832519531
                }
            ],
            "Confidence": 98.9914321899414,
            "Parents": [],
            "Name": "Person"
        },
        {
            "Instances": [],
            "Confidence": 93.24951934814453,
            "Parents": [],
            "Name": "Machine"
        },
        {
            "Instances": [
                {
                    "BoundingBox": {
                        "Width": 0.03561960905790329,
                        "Top": 0.6468243598937988,
                        "Left": 0.7850857377052307,
                        "Height": 0.08878646790981293
                    },
                    "Confidence": 93.24951934814453
                },
                {
                    "BoundingBox": {
                        "Width": 0.02217046171426773,
                        "Top": 0.6149078607559204,
                        "Left": 0.04757237061858177,
                        "Height": 0.07136218994855881
                    },
                    "Confidence": 91.5025863647461
                },
                {
                    "BoundingBox": {
                        "Width": 0.016197510063648224,
                        "Top": 0.6274210214614868,
                        "Left": 0.6472989320755005,
                        "Height": 0.04955997318029404
                    },
                    "Confidence": 85.14686584472656
                },
                {
                    "BoundingBox": {
                        "Width": 0.020207518711686134,
                        "Top": 0.6348286867141724,
                        "Left": 0.7295016646385193,
                        "Height": 0.07059963047504425
                    },
                    "Confidence": 83.34547424316406
                },
                {
                    "BoundingBox": {
                        "Width": 0.020280985161662102,
                        "Top": 0.6171894669532776,
                        "Left": 0.08744934946298599,
                        "Height": 0.05297485366463661
                    },
                    "Confidence": 79.9981460571289
                },
                {
                    "BoundingBox": {
                        "Width": 0.018318990245461464,
                        "Top": 0.623889148235321,
                        "Left": 0.6836880445480347,
                        "Height": 0.06730121374130249
                    },
                    "Confidence": 78.87144470214844
                },
                {
                    "BoundingBox": {
                        "Width": 0.021310249343514442,
                        "Top": 0.6167286038398743,
                        "Left": 0.004064912907779217,
                        "Height": 0.08317798376083374
                    },
                    "Confidence": 75.89361572265625
                },
                {
                    "BoundingBox": {
                        "Width": 0.03604431077837944,
                        "Top": 0.7030032277107239,
                        "Left": 0.9254803657531738,
                        "Height": 0.04569442570209503
                    },
                    "Confidence": 64.402587890625
                },
                {
                    "BoundingBox": {
                        "Width": 0.009834849275648594,
                        "Top": 0.5821820497512817,
                        "Left": 0.28094568848609924,
                        "Height": 0.01964157074689865
                    },
                    "Confidence": 62.79907989501953
                },
                {
                    "BoundingBox": {
                        "Width": 0.01475677452981472,
                        "Top": 0.6137543320655823,
                        "Left": 0.5950819253921509,
                        "Height": 0.039063986390829086
                    },
                    "Confidence": 59.40483474731445
                }
            ],
            "Confidence": 93.24951934814453,
            "Parents": [
                {
                    "Name": "Machine"
                }
            ],
            "Name": "Wheel"
        },
        {
            "Instances": [],
            "Confidence": 92.61514282226562,
            "Parents": [],
            "Name": "Road"
        },
        {
            "Instances": [],
            "Confidence": 92.37877655029297,
            "Parents": [
                {
                    "Name": "Person"
                }
            ],
            "Name": "Sport"
        },
        {
            "Instances": [],
            "Confidence": 92.37877655029297,
            "Parents": [
                {
                    "Name": "Person"
                }
            ],
            "Name": "Sports"
        },
        {
            "Instances": [
                {
                    "BoundingBox": {
                        "Width": 0.12326609343290329,
                        "Top": 0.6332163214683533,
                        "Left": 0.44815489649772644,
                        "Height": 0.058117982000112534
                    },
                    "Confidence": 92.37877655029297
                }
            ],
            "Confidence": 92.37877655029297,
            "Parents": [
                {
                    "Name": "Person"
                },
                {
                    "Name": "Sport"
                }
            ],
            "Name": "Skateboard"
        },
        {
            "Instances": [],
            "Confidence": 90.62931060791016,
            "Parents": [
                {
                    "Name": "Person"
                }
            ],
            "Name": "Pedestrian"
        },
        {
            "Instances": [],
            "Confidence": 88.81334686279297,
            "Parents": [],
            "Name": "Asphalt"
        },
        {
            "Instances": [],
            "Confidence": 88.81334686279297,
            "Parents": [],
            "Name": "Tarmac"
        },
        {
            "Instances": [],
            "Confidence": 88.23201751708984,
            "Parents": [],
            "Name": "Path"
        },
        {
            "Instances": [],
            "Confidence": 80.26520538330078,
            "Parents": [],
            "Name": "Urban"
        },
        {
            "Instances": [],
            "Confidence": 80.26520538330078,
            "Parents": [
                {
                    "Name": "Building"
                },
                {
                    "Name": "Urban"
                }
            ],
            "Name": "Town"
        },
        {
            "Instances": [],
            "Confidence": 80.26520538330078,
            "Parents": [],
            "Name": "Building"
        },
        {
            "Instances": [],
            "Confidence": 80.26520538330078,
            "Parents": [
                {
                    "Name": "Building"
                },
                {
                    "Name": "Urban"
                }
            ],
            "Name": "City"
        },
        {
            "Instances": [],
            "Confidence": 78.37934875488281,
            "Parents": [
                {
                    "Name": "Car"
                },
                {
                    "Name": "Vehicle"
                },
                {
                    "Name": "Transportation"
                }
            ],
            "Name": "Parking Lot"
        },
        {
            "Instances": [],
            "Confidence": 78.37934875488281,
            "Parents": [
                {
                    "Name": "Car"
                },
                {
                    "Name": "Vehicle"
                },
                {
                    "Name": "Transportation"
                }
            ],
            "Name": "Parking"
        },
        {
            "Instances": [],
            "Confidence": 74.37590026855469,
            "Parents": [
                {
                    "Name": "Building"
                },
                {
                    "Name": "Urban"
                },
                {
                    "Name": "City"
                }
            ],
            "Name": "Downtown"
        },
        {
            "Instances": [],
            "Confidence": 69.84622955322266,
            "Parents": [
                {
                    "Name": "Road"
                }
            ],
            "Name": "Intersection"
        },
        {
            "Instances": [],
            "Confidence": 57.68518829345703,
            "Parents": [
                {
                    "Name": "Sports Car"
                },
                {
                    "Name": "Car"
                },
                {
                    "Name": "Vehicle"
                },
                {
                    "Name": "Transportation"
                }
            ],
            "Name": "Coupe"
        },
        {
            "Instances": [],
            "Confidence": 57.68518829345703,
            "Parents": [
                {
                    "Name": "Car"
                },
                {
                    "Name": "Vehicle"
                },
                {
                    "Name": "Transportation"
                }
            ],
            "Name": "Sports Car"
        },
        {
            "Instances": [],
            "Confidence": 56.59492111206055,
            "Parents": [
                {
                    "Name": "Path"
                }
            ],
            "Name": "Sidewalk"
        },
        {
            "Instances": [],
            "Confidence": 56.59492111206055,
            "Parents": [
                {
                    "Name": "Path"
                }
            ],
            "Name": "Pavement"
        },
        {
            "Instances": [],
            "Confidence": 55.58770751953125,
            "Parents": [
                {
                    "Name": "Building"
                },
                {
                    "Name": "Urban"
                }
            ],
            "Name": "Neighborhood"
        }
    ],
    "LabelModelVersion": "2.0"
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Label dalam Gambar](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detect-labels-image.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [DetectLabels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/detect-labels.html)di *Referensi AWS CLI Perintah*. 

### `detect-moderation-labels`
<a name="rekognition_DetectModerationLabels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-moderation-labels`.

Untuk informasi selengkapnya, lihat [Mendeteksi gambar yang tidak pantas](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-images.html).

**AWS CLI**  
**Untuk mendeteksi konten yang tidak aman dalam gambar**  
`detect-moderation-labels`Perintah berikut mendeteksi konten yang tidak aman dalam gambar tertentu yang disimpan dalam bucket Amazon S3.  

```
aws rekognition detect-moderation-labels \
    --image "S3Object={Bucket=MyImageS3Bucket,Name=gun.jpg}"
```
Output:  

```
{
    "ModerationModelVersion": "3.0",
    "ModerationLabels": [
        {
            "Confidence": 97.29618072509766,
            "ParentName": "Violence",
            "Name": "Weapon Violence"
        },
        {
            "Confidence": 97.29618072509766,
            "ParentName": "",
            "Name": "Violence"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Gambar Tidak Aman di Panduan](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-images.html) Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [DetectModerationLabels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/detect-moderation-labels.html)di *Referensi AWS CLI Perintah*. 

### `detect-text`
<a name="rekognition_DetectText_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-text`.

Untuk informasi selengkapnya, lihat [Mendeteksi teks dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/text-detecting-text-procedure.html).

**AWS CLI**  
**Untuk mendeteksi teks dalam gambar**  
`detect-text`Perintah berikut mendeteksi teks dalam gambar yang ditentukan.  

```
aws rekognition detect-text \
    --image '{"S3Object":{"Bucket":"MyImageS3Bucket","Name":"ExamplePicture.jpg"}}'
```
Output:  

```
{
    "TextDetections": [
        {
            "Geometry": {
                "BoundingBox": {
                    "Width": 0.24624845385551453,
                    "Top": 0.28288066387176514,
                    "Left": 0.391388863325119,
                    "Height": 0.022687450051307678
                },
                "Polygon": [
                    {
                        "Y": 0.28288066387176514,
                        "X": 0.391388863325119
                    },
                    {
                        "Y": 0.2826388478279114,
                        "X": 0.6376373171806335
                    },
                    {
                        "Y": 0.30532628297805786,
                        "X": 0.637677013874054
                    },
                    {
                        "Y": 0.305568128824234,
                        "X": 0.39142853021621704
                    }
                ]
            },
            "Confidence": 94.35709381103516,
            "DetectedText": "ESTD 1882",
            "Type": "LINE",
            "Id": 0
        },
        {
            "Geometry": {
                "BoundingBox": {
                    "Width": 0.33933889865875244,
                    "Top": 0.32603850960731506,
                    "Left": 0.34534579515457153,
                    "Height": 0.07126858830451965
                },
                "Polygon": [
                    {
                        "Y": 0.32603850960731506,
                        "X": 0.34534579515457153
                    },
                    {
                        "Y": 0.32633158564567566,
                        "X": 0.684684693813324
                    },
                    {
                        "Y": 0.3976001739501953,
                        "X": 0.684575080871582
                    },
                    {
                        "Y": 0.3973070979118347,
                        "X": 0.345236212015152
                    }
                ]
            },
            "Confidence": 99.95779418945312,
            "DetectedText": "BRAINS",
            "Type": "LINE",
            "Id": 1
        },
        {
            "Confidence": 97.22098541259766,
            "Geometry": {
                "BoundingBox": {
                    "Width": 0.061079490929841995,
                    "Top": 0.2843210697174072,
                    "Left": 0.391391396522522,
                    "Height": 0.021029088646173477
                },
                "Polygon": [
                    {
                        "Y": 0.2843210697174072,
                        "X": 0.391391396522522
                    },
                    {
                        "Y": 0.2828207015991211,
                        "X": 0.4524524509906769
                    },
                    {
                        "Y": 0.3038259446620941,
                        "X": 0.4534534513950348
                    },
                    {
                        "Y": 0.30532634258270264,
                        "X": 0.3923923969268799
                    }
                ]
            },
            "DetectedText": "ESTD",
            "ParentId": 0,
            "Type": "WORD",
            "Id": 2
        },
        {
            "Confidence": 91.49320983886719,
            "Geometry": {
                "BoundingBox": {
                    "Width": 0.07007007300853729,
                    "Top": 0.2828207015991211,
                    "Left": 0.5675675868988037,
                    "Height": 0.02250562608242035
                },
                "Polygon": [
                    {
                        "Y": 0.2828207015991211,
                        "X": 0.5675675868988037
                    },
                    {
                        "Y": 0.2828207015991211,
                        "X": 0.6376376152038574
                    },
                    {
                        "Y": 0.30532634258270264,
                        "X": 0.6376376152038574
                    },
                    {
                        "Y": 0.30532634258270264,
                        "X": 0.5675675868988037
                    }
                ]
            },
            "DetectedText": "1882",
            "ParentId": 0,
            "Type": "WORD",
            "Id": 3
        },
        {
            "Confidence": 99.95779418945312,
            "Geometry": {
                "BoundingBox": {
                    "Width": 0.33933934569358826,
                    "Top": 0.32633158564567566,
                    "Left": 0.3453453481197357,
                    "Height": 0.07127484679222107
                },
                "Polygon": [
                    {
                        "Y": 0.32633158564567566,
                        "X": 0.3453453481197357
                    },
                    {
                        "Y": 0.32633158564567566,
                        "X": 0.684684693813324
                    },
                    {
                        "Y": 0.39759939908981323,
                        "X": 0.6836836934089661
                    },
                    {
                        "Y": 0.39684921503067017,
                        "X": 0.3453453481197357
                    }
                ]
            },
            "DetectedText": "BRAINS",
            "ParentId": 1,
            "Type": "WORD",
            "Id": 4
        }
    ]
}
```
+  Untuk detail API, lihat [DetectText](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/detect-text.html)di *Referensi AWS CLI Perintah*. 

### `get-celebrity-info`
<a name="rekognition_GetCelebrityInfo_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-celebrity-info`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang selebriti**  
`get-celebrity-info`Perintah berikut menampilkan informasi tentang selebriti yang ditentukan. `id`Parameter berasal dari panggilan sebelumnya ke`recognize-celebrities`.  

```
aws rekognition get-celebrity-info --id nnnnnnn
```
Output:  

```
{
    "Name": "Celeb A",
    "Urls": [
        "www.imdb.com/name/aaaaaaaaa"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan Informasi Tentang Selebriti](https://docs.aws.amazon.com/rekognition/latest/dg/get-celebrity-info-procedure.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [GetCelebrityInfo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/get-celebrity-info.html)di *Referensi AWS CLI Perintah*. 

### `get-celebrity-recognition`
<a name="rekognition_GetCelebrityRecognition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-celebrity-recognition`.

**AWS CLI**  
**Untuk mendapatkan hasil operasi pengakuan selebriti**  
`get-celebrity-recognition`Perintah berikut menampilkan hasil operasi pengenalan selebriti yang Anda mulai sebelumnya dengan menelepon`start-celebrity-recognition`.  

```
aws rekognition get-celebrity-recognition  \
    --job-id 1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef
```
Output:  

```
{
    "NextToken": "3D01ClxlCiT31VsRDkAO3IybLb/h5AtDWSGuhYi+N1FIJwwPtAkuKzDhL2rV3GcwmNt77+12",
    "Celebrities": [
        {
            "Timestamp": 0,
            "Celebrity": {
                "Confidence": 96.0,
                "Face": {
                    "BoundingBox": {
                        "Width": 0.70333331823349,
                        "Top": 0.16750000417232513,
                        "Left": 0.19555555284023285,
                        "Height": 0.3956249952316284
                    },
                    "Landmarks": [
                        {
                            "Y": 0.31031012535095215,
                            "X": 0.441436767578125,
                            "Type": "eyeLeft"
                        },
                        {
                            "Y": 0.3081788718700409,
                            "X": 0.6437258720397949,
                            "Type": "eyeRight"
                        },
                        {
                            "Y": 0.39542075991630554,
                            "X": 0.5572493076324463,
                            "Type": "nose"
                        },
                        {
                            "Y": 0.4597957134246826,
                            "X": 0.4579732120037079,
                            "Type": "mouthLeft"
                        },
                        {
                            "Y": 0.45688048005104065,
                            "X": 0.6349081993103027,
                            "Type": "mouthRight"
                        }
                    ],
                    "Pose": {
                        "Yaw": 8.943398475646973,
                        "Roll": -2.0309247970581055,
                        "Pitch": -0.5674862861633301
                    },
                    "Quality": {
                        "Sharpness": 99.40211486816406,
                        "Brightness": 89.47132110595703
                    },
                    "Confidence": 99.99861145019531
                },
                "Name": "CelebrityA",
                "Urls": [
                    "www.imdb.com/name/111111111"
                ],
                "Id": "nnnnnn"
            }
        },
        {
            "Timestamp": 467,
            "Celebrity": {
                "Confidence": 99.0,
                "Face": {
                    "BoundingBox": {
                        "Width": 0.6877777576446533,
                        "Top": 0.18437500298023224,
                        "Left": 0.20555555820465088,
                        "Height": 0.3868750035762787
                    },
                    "Landmarks": [
                        {
                            "Y": 0.31895750761032104,
                            "X": 0.4411413371562958,
                            "Type": "eyeLeft"
                        },
                        {
                            "Y": 0.3140959143638611,
                            "X": 0.6523157954216003,
                            "Type": "eyeRight"
                        },
                        {
                            "Y": 0.4016456604003906,
                            "X": 0.5682755708694458,
                            "Type": "nose"
                        },
                        {
                            "Y": 0.46894142031669617,
                            "X": 0.4597797095775604,
                            "Type": "mouthLeft"
                        },
                        {
                            "Y": 0.46971091628074646,
                            "X": 0.6286435127258301,
                            "Type": "mouthRight"
                        }
                    ],
                    "Pose": {
                        "Yaw": 10.433465957641602,
                        "Roll": -3.347442388534546,
                        "Pitch": 1.3709543943405151
                    },
                    "Quality": {
                        "Sharpness": 99.5531005859375,
                        "Brightness": 88.5764389038086
                    },
                    "Confidence": 99.99148559570312
                },
                "Name": "Jane Celebrity",
                "Urls": [
                    "www.imdb.com/name/111111111"
                ],
                "Id": "nnnnnn"
            }
        }
    ],
    "JobStatus": "SUCCEEDED",
    "VideoMetadata": {
        "Format": "QuickTime / MOV",
        "FrameRate": 29.978118896484375,
        "Codec": "h264",
        "DurationMillis": 4570,
        "FrameHeight": 1920,
        "FrameWidth": 1080
    }
}
```
Untuk informasi selengkapnya, lihat [Mengenali Selebriti dalam Video Tersimpan](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-video-sqs.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [GetCelebrityRecognition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/get-celebrity-recognition.html)di *Referensi AWS CLI Perintah*. 

### `get-content-moderation`
<a name="rekognition_GetContentModeration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-content-moderation`.

**AWS CLI**  
**Untuk mendapatkan hasil operasi konten yang tidak aman**  
`get-content-moderation`Perintah berikut menampilkan hasil operasi konten tidak aman yang Anda mulai sebelumnya dengan menelepon`start-content-moderation`.  

```
aws rekognition get-content-moderation \
    --job-id 1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef
```
Output:  

```
{
    "NextToken": "dlhcKMHMzpCBGFukz6IO3JMcWiJAamCVhXHt3r6b4b5Tfbyw3q7o+Jeezt+ZpgfOnW9FCCgQ",
    "ModerationLabels": [
        {
            "Timestamp": 0,
            "ModerationLabel": {
                "Confidence": 97.39583587646484,
                "ParentName": "",
                "Name": "Violence"
            }
        },
        {
            "Timestamp": 0,
            "ModerationLabel": {
                "Confidence": 97.39583587646484,
                "ParentName": "Violence",
                "Name": "Weapon Violence"
            }
        }
    ],
    "JobStatus": "SUCCEEDED",
    "VideoMetadata": {
        "Format": "QuickTime / MOV",
        "FrameRate": 29.97515869140625,
        "Codec": "h264",
        "DurationMillis": 6039,
        "FrameHeight": 1920,
        "FrameWidth": 1080
    }
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Video Tersimpan Tidak Aman di Panduan](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-videos.html) Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [GetContentModeration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/get-content-moderation.html)di *Referensi AWS CLI Perintah*. 

### `get-face-detection`
<a name="rekognition_GetFaceDetection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-face-detection`.

**AWS CLI**  
**Untuk mendapatkan hasil operasi deteksi wajah**  
`get-face-detection`Perintah berikut menampilkan hasil operasi deteksi wajah yang Anda mulai sebelumnya dengan menelepon`start-face-detection`.  

```
aws rekognition get-face-detection \
    --job-id 1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef
```
Output:  

```
{
    "Faces": [
        {
            "Timestamp": 467,
            "Face": {
                "BoundingBox": {
                    "Width": 0.1560753583908081,
                    "Top": 0.13555361330509186,
                    "Left": -0.0952017530798912,
                    "Height": 0.6934483051300049
                },
                "Landmarks": [
                    {
                        "Y": 0.4013825058937073,
                        "X": -0.041750285774469376,
                        "Type": "eyeLeft"
                    },
                    {
                        "Y": 0.41695496439933777,
                        "X": 0.027979329228401184,
                        "Type": "eyeRight"
                    },
                    {
                        "Y": 0.6375303268432617,
                        "X": -0.04034662991762161,
                        "Type": "mouthLeft"
                    },
                    {
                        "Y": 0.6497718691825867,
                        "X": 0.013960429467260838,
                        "Type": "mouthRight"
                    },
                    {
                        "Y": 0.5238034129142761,
                        "X": 0.008022055961191654,
                        "Type": "nose"
                    }
                ],
                "Pose": {
                    "Yaw": -58.07863998413086,
                    "Roll": 1.9384294748306274,
                    "Pitch": -24.66305160522461
                },
                "Quality": {
                    "Sharpness": 83.14741516113281,
                    "Brightness": 25.75942611694336
                },
                "Confidence": 87.7622299194336
            }
        },
        {
            "Timestamp": 967,
            "Face": {
                "BoundingBox": {
                    "Width": 0.28559377789497375,
                    "Top": 0.19436298310756683,
                    "Left": 0.024553587660193443,
                    "Height": 0.7216082215309143
                },
                "Landmarks": [
                    {
                        "Y": 0.4650231599807739,
                        "X": 0.16269078850746155,
                        "Type": "eyeLeft"
                    },
                    {
                        "Y": 0.4843238294124603,
                        "X": 0.2782580852508545,
                        "Type": "eyeRight"
                    },
                    {
                        "Y": 0.71530681848526,
                        "X": 0.1741468608379364,
                        "Type": "mouthLeft"
                    },
                    {
                        "Y": 0.7310671210289001,
                        "X": 0.26857468485832214,
                        "Type": "mouthRight"
                    },
                    {
                        "Y": 0.582602322101593,
                        "X": 0.2566150426864624,
                        "Type": "nose"
                    }
                ],
                "Pose": {
                    "Yaw": 11.487052917480469,
                    "Roll": 5.074230670928955,
                    "Pitch": 15.396159172058105
                },
                "Quality": {
                    "Sharpness": 73.32209777832031,
                    "Brightness": 54.96497344970703
                },
                "Confidence": 99.99998474121094
            }
        }
    ],
    "NextToken": "OzL223pDKy9116O/02KXRqFIEAwxjy4PkgYcm3hSo0rdysbXg5Ex0eFgTGEj0ADEac6S037U",
    "JobStatus": "SUCCEEDED",
    "VideoMetadata": {
        "Format": "QuickTime / MOV",
        "FrameRate": 29.970617294311523,
        "Codec": "h264",
        "DurationMillis": 6806,
        "FrameHeight": 1080,
        "FrameWidth": 1920
    }
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Wajah dalam Video Tersimpan](https://docs.aws.amazon.com/rekognition/latest/dg/faces-sqs-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [GetFaceDetection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/get-face-detection.html)di *Referensi AWS CLI Perintah*. 

### `get-face-search`
<a name="rekognition_GetFaceSearch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-face-search`.

**AWS CLI**  
**Untuk mendapatkan hasil operasi pencarian wajah**  
`get-face-search`Perintah berikut menampilkan hasil operasi pencarian wajah yang Anda mulai sebelumnya dengan menelepon`start-face-search`.  

```
aws rekognition get-face-search  \
    --job-id 1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef
```
Output:  

```
{
    "Persons": [
        {
            "Timestamp": 467,
            "FaceMatches": [],
            "Person": {
                "Index": 0,
                "Face": {
                    "BoundingBox": {
                        "Width": 0.1560753583908081,
                        "Top": 0.13555361330509186,
                        "Left": -0.0952017530798912,
                        "Height": 0.6934483051300049
                    },
                    "Landmarks": [
                        {
                            "Y": 0.4013825058937073,
                            "X": -0.041750285774469376,
                            "Type": "eyeLeft"
                        },
                        {
                            "Y": 0.41695496439933777,
                            "X": 0.027979329228401184,
                            "Type": "eyeRight"
                        },
                        {
                            "Y": 0.6375303268432617,
                            "X": -0.04034662991762161,
                            "Type": "mouthLeft"
                        },
                        {
                            "Y": 0.6497718691825867,
                            "X": 0.013960429467260838,
                            "Type": "mouthRight"
                        },
                        {
                            "Y": 0.5238034129142761,
                            "X": 0.008022055961191654,
                            "Type": "nose"
                        }
                    ],
                    "Pose": {
                        "Yaw": -58.07863998413086,
                        "Roll": 1.9384294748306274,
                        "Pitch": -24.66305160522461
                    },
                    "Quality": {
                        "Sharpness": 83.14741516113281,
                        "Brightness": 25.75942611694336
                    },
                    "Confidence": 87.7622299194336
                }
            }
        },
        {
            "Timestamp": 967,
            "FaceMatches": [
                {
                    "Face": {
                        "BoundingBox": {
                            "Width": 0.12368900328874588,
                            "Top": 0.16007399559020996,
                            "Left": 0.5901259779930115,
                            "Height": 0.2514039874076843
                        },
                        "FaceId": "056a95fa-2060-4159-9cab-7ed4daa030fa",
                        "ExternalImageId": "image3.jpg",
                        "Confidence": 100.0,
                        "ImageId": "08f8a078-8929-37fd-8e8f-aadf690e8232"
                    },
                    "Similarity": 98.44476318359375
                }
            ],
            "Person": {
                "Index": 1,
                "Face": {
                    "BoundingBox": {
                        "Width": 0.28559377789497375,
                        "Top": 0.19436298310756683,
                        "Left": 0.024553587660193443,
                        "Height": 0.7216082215309143
                    },
                    "Landmarks": [
                        {
                            "Y": 0.4650231599807739,
                            "X": 0.16269078850746155,
                            "Type": "eyeLeft"
                        },
                        {
                            "Y": 0.4843238294124603,
                            "X": 0.2782580852508545,
                            "Type": "eyeRight"
                        },
                        {
                            "Y": 0.71530681848526,
                            "X": 0.1741468608379364,
                            "Type": "mouthLeft"
                        },
                        {
                            "Y": 0.7310671210289001,
                            "X": 0.26857468485832214,
                            "Type": "mouthRight"
                        },
                        {
                            "Y": 0.582602322101593,
                            "X": 0.2566150426864624,
                            "Type": "nose"
                        }
                    ],
                    "Pose": {
                        "Yaw": 11.487052917480469,
                        "Roll": 5.074230670928955,
                        "Pitch": 15.396159172058105
                    },
                    "Quality": {
                        "Sharpness": 73.32209777832031,
                        "Brightness": 54.96497344970703
                    },
                    "Confidence": 99.99998474121094
                }
            }
        }
    ],
    "NextToken": "5bkgcezyuaqhtWk3C8OTW6cjRghrwV9XDMivm5B3MXm+Lv6G+L+GejyFHPhoNa/ldXIC4c/d",
    "JobStatus": "SUCCEEDED",
    "VideoMetadata": {
        "Format": "QuickTime / MOV",
        "FrameRate": 29.970617294311523,
        "Codec": "h264",
        "DurationMillis": 6806,
        "FrameHeight": 1080,
        "FrameWidth": 1920
    }
}
```
Untuk informasi selengkapnya, lihat [Mencari Video Tersimpan untuk Wajah](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-person-search-videos.html) di Panduan *Pengembang Rekognition Amazon*.  
+  Untuk detail API, lihat [GetFaceSearch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/get-face-search.html)di *Referensi AWS CLI Perintah*. 

### `get-label-detection`
<a name="rekognition_GetLabelDetection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-label-detection`.

**AWS CLI**  
**Untuk mendapatkan hasil operasi deteksi objek dan adegan**  
`get-label-detection`Perintah berikut menampilkan hasil operasi deteksi objek dan adegan yang Anda mulai sebelumnya dengan menelepon`start-label-detection`.  

```
aws rekognition get-label-detection  \
    --job-id 1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef
```
Output:  

```
{
    "Labels": [
        {
            "Timestamp": 0,
            "Label": {
                "Instances": [],
                "Confidence": 50.19071578979492,
                "Parents": [
                    {
                        "Name": "Person"
                    },
                    {
                        "Name": "Crowd"
                    }
                ],
                "Name": "Audience"
            }
        },
        {
            "Timestamp": 0,
            "Label": {
                "Instances": [],
                "Confidence": 55.74115753173828,
                "Parents": [
                    {
                        "Name": "Room"
                    },
                    {
                        "Name": "Indoors"
                    },
                    {
                        "Name": "School"
                    }
                ],
                "Name": "Classroom"
            }
        }
    ],
    "JobStatus": "SUCCEEDED",
    "LabelModelVersion": "2.0",
    "VideoMetadata": {
        "Format": "QuickTime / MOV",
        "FrameRate": 29.970617294311523,
        "Codec": "h264",
        "DurationMillis": 6806,
        "FrameHeight": 1080,
        "FrameWidth": 1920
    },
    "NextToken": "BMugzAi4L72IERzQdbpyMQuEFBsjlo5W0Yx3mfG+sR9mm98E1/CpObenspRfs/5FBQFs4X7G"
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Label dalam Video](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detecting-labels-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [GetLabelDetection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/get-label-detection.html)di *Referensi AWS CLI Perintah*. 

### `get-person-tracking`
<a name="rekognition_GetPersonTracking_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-person-tracking`.

**AWS CLI**  
**Untuk mendapatkan hasil operasi pathing orang**  
`get-person-tracking`Perintah berikut menampilkan hasil operasi pathing orang yang Anda mulai sebelumnya dengan menelepon`start-person-tracking`.  

```
aws rekognition get-person-tracking  \
    --job-id 1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef
```
Output:  

```
{
    "Persons": [
        {
            "Timestamp": 500,
            "Person": {
                "BoundingBox": {
                    "Width": 0.4151041805744171,
                    "Top": 0.07870370149612427,
                    "Left": 0.0,
                    "Height": 0.9212962985038757
                },
                "Index": 0
            }
        },
        {
            "Timestamp": 567,
            "Person": {
                "BoundingBox": {
                    "Width": 0.4755208194255829,
                    "Top": 0.07777778059244156,
                    "Left": 0.0,
                    "Height": 0.9194444417953491
                },
                "Index": 0
            }
        }
    ],
    "NextToken": "D/vRIYNyhG79ugdta3f+8cRg9oSRo+HigGOuxRiYpTn0ExnqTi1CJektVAc4HrAXDv25eHYk",
    "JobStatus": "SUCCEEDED",
    "VideoMetadata": {
        "Format": "QuickTime / MOV",
        "FrameRate": 29.970617294311523,
        "Codec": "h264",
        "DurationMillis": 6806,
        "FrameHeight": 1080,
        "FrameWidth": 1920
    }
}
```
Untuk informasi selengkapnya, lihat [People Pathing](https://docs.aws.amazon.com/rekognition/latest/dg/persons.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [GetPersonTracking](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/get-person-tracking.html)di *Referensi AWS CLI Perintah*. 

### `index-faces`
<a name="rekognition_IndexFaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`index-faces`.

Untuk informasi selengkapnya, lihat [Menambahkan wajah ke koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/add-faces-to-collection-procedure.html).

**AWS CLI**  
**Untuk menambahkan wajah ke koleksi**  
`index-faces`Perintah berikut menambahkan wajah yang ditemukan dalam gambar ke koleksi yang ditentukan.  

```
aws rekognition index-faces \
    --image '{"S3Object":{"Bucket":"MyVideoS3Bucket","Name":"MyPicture.jpg"}}' \
    --collection-id MyCollection \
    --max-faces 1 \
    --quality-filter "AUTO" \
    --detection-attributes "ALL" \
    --external-image-id "MyPicture.jpg"
```
Output:  

```
{
    "FaceRecords": [
        {
            "FaceDetail": {
                "Confidence": 99.993408203125,
                "Eyeglasses": {
                    "Confidence": 99.11750030517578,
                    "Value": false
                },
                "Sunglasses": {
                    "Confidence": 99.98249053955078,
                    "Value": false
                },
                "Gender": {
                    "Confidence": 99.92769622802734,
                    "Value": "Male"
                },
                "Landmarks": [
                    {
                        "Y": 0.26750367879867554,
                        "X": 0.6202793717384338,
                        "Type": "eyeLeft"
                    },
                    {
                        "Y": 0.26642778515815735,
                        "X": 0.6787431836128235,
                        "Type": "eyeRight"
                    },
                    {
                        "Y": 0.31361380219459534,
                        "X": 0.6421601176261902,
                        "Type": "nose"
                    },
                    {
                        "Y": 0.3495299220085144,
                        "X": 0.6216195225715637,
                        "Type": "mouthLeft"
                    },
                    {
                        "Y": 0.35194727778434753,
                        "X": 0.669899046421051,
                        "Type": "mouthRight"
                    },
                    {
                        "Y": 0.26844894886016846,
                        "X": 0.6210268139839172,
                        "Type": "leftPupil"
                    },
                    {
                        "Y": 0.26707562804222107,
                        "X": 0.6817160844802856,
                        "Type": "rightPupil"
                    },
                    {
                        "Y": 0.24834522604942322,
                        "X": 0.6018546223640442,
                        "Type": "leftEyeBrowLeft"
                    },
                    {
                        "Y": 0.24397172033786774,
                        "X": 0.6172008514404297,
                        "Type": "leftEyeBrowUp"
                    },
                    {
                        "Y": 0.24677404761314392,
                        "X": 0.6339119076728821,
                        "Type": "leftEyeBrowRight"
                    },
                    {
                        "Y": 0.24582654237747192,
                        "X": 0.6619398593902588,
                        "Type": "rightEyeBrowLeft"
                    },
                    {
                        "Y": 0.23973053693771362,
                        "X": 0.6804757118225098,
                        "Type": "rightEyeBrowUp"
                    },
                    {
                        "Y": 0.24441994726657867,
                        "X": 0.6978968977928162,
                        "Type": "rightEyeBrowRight"
                    },
                    {
                        "Y": 0.2695908546447754,
                        "X": 0.6085202693939209,
                        "Type": "leftEyeLeft"
                    },
                    {
                        "Y": 0.26716896891593933,
                        "X": 0.6315826177597046,
                        "Type": "leftEyeRight"
                    },
                    {
                        "Y": 0.26289820671081543,
                        "X": 0.6202316880226135,
                        "Type": "leftEyeUp"
                    },
                    {
                        "Y": 0.27123287320137024,
                        "X": 0.6205548048019409,
                        "Type": "leftEyeDown"
                    },
                    {
                        "Y": 0.2668408751487732,
                        "X": 0.6663622260093689,
                        "Type": "rightEyeLeft"
                    },
                    {
                        "Y": 0.26741549372673035,
                        "X": 0.6910083889961243,
                        "Type": "rightEyeRight"
                    },
                    {
                        "Y": 0.2614026665687561,
                        "X": 0.6785826086997986,
                        "Type": "rightEyeUp"
                    },
                    {
                        "Y": 0.27075251936912537,
                        "X": 0.6789616942405701,
                        "Type": "rightEyeDown"
                    },
                    {
                        "Y": 0.3211299479007721,
                        "X": 0.6324167847633362,
                        "Type": "noseLeft"
                    },
                    {
                        "Y": 0.32276326417922974,
                        "X": 0.6558475494384766,
                        "Type": "noseRight"
                    },
                    {
                        "Y": 0.34385165572166443,
                        "X": 0.6444970965385437,
                        "Type": "mouthUp"
                    },
                    {
                        "Y": 0.3671635091304779,
                        "X": 0.6459195017814636,
                        "Type": "mouthDown"
                    }
                ],
                "Pose": {
                    "Yaw": -9.54541015625,
                    "Roll": -0.5709401965141296,
                    "Pitch": 0.6045494675636292
                },
                "Emotions": [
                    {
                        "Confidence": 39.90074157714844,
                        "Type": "HAPPY"
                    },
                    {
                        "Confidence": 23.38753890991211,
                        "Type": "CALM"
                    },
                    {
                        "Confidence": 5.840933322906494,
                        "Type": "CONFUSED"
                    }
                ],
                "AgeRange": {
                    "High": 63,
                    "Low": 45
                },
                "EyesOpen": {
                    "Confidence": 99.80887603759766,
                    "Value": true
                },
                "BoundingBox": {
                    "Width": 0.18562500178813934,
                    "Top": 0.1618015021085739,
                    "Left": 0.5575000047683716,
                    "Height": 0.24770642817020416
                },
                "Smile": {
                    "Confidence": 99.69740295410156,
                    "Value": false
                },
                "MouthOpen": {
                    "Confidence": 99.97393798828125,
                    "Value": false
                },
                "Quality": {
                    "Sharpness": 95.54405975341797,
                    "Brightness": 63.867706298828125
                },
                "Mustache": {
                    "Confidence": 97.05007934570312,
                    "Value": false
                },
                "Beard": {
                    "Confidence": 87.34505462646484,
                    "Value": false
                }
            },
            "Face": {
                "BoundingBox": {
                    "Width": 0.18562500178813934,
                    "Top": 0.1618015021085739,
                    "Left": 0.5575000047683716,
                    "Height": 0.24770642817020416
                },
                "FaceId": "ce7ed422-2132-4a11-ab14-06c5c410f29f",
                "ExternalImageId": "example-image.jpg",
                "Confidence": 99.993408203125,
                "ImageId": "8d67061e-90d2-598f-9fbd-29c8497039c0"
            }
        }
    ],
    "UnindexedFaces": [],
    "FaceModelVersion": "3.0",
    "OrientationCorrection": "ROTATE_0"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan Wajah ke Koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/add-faces-to-collection-procedure.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [IndexFaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/index-faces.html)di *Referensi AWS CLI Perintah*. 

### `list-collections`
<a name="rekognition_ListCollections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-collections`.

Untuk informasi selengkapnya, lihat [Daftar koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-collection-procedure.html).

**AWS CLI**  
**Untuk daftar koleksi yang tersedia**  
`list-collections`Perintah berikut mencantumkan koleksi yang tersedia di AWS akun.  

```
aws rekognition list-collections
```
Output:  

```
{
    "FaceModelVersions": [
        "2.0",
        "3.0",
        "3.0",
        "3.0",
        "4.0",
        "1.0",
        "3.0",
        "4.0",
        "4.0",
        "4.0"
    ],
    "CollectionIds": [
        "MyCollection1",
        "MyCollection2",
        "MyCollection3",
        "MyCollection4",
        "MyCollection5",
        "MyCollection6",
        "MyCollection7",
        "MyCollection8",
        "MyCollection9",
        "MyCollection10"
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-collection-procedure.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [ListCollections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/list-collections.html)di *Referensi AWS CLI Perintah*. 

### `list-faces`
<a name="rekognition_ListFaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-faces`.

Untuk informasi selengkapnya, lihat [Daftar wajah dalam koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-faces-in-collection-procedure.html).

**AWS CLI**  
**Untuk membuat daftar wajah dalam koleksi**  
`list-faces`Perintah berikut mencantumkan wajah-wajah dalam koleksi yang ditentukan.  

```
aws rekognition list-faces \
    --collection-id MyCollection
```
Output:  

```
{
    "FaceModelVersion": "3.0",
    "Faces": [
        {
            "BoundingBox": {
                "Width": 0.5216310024261475,
                "Top": 0.3256250023841858,
                "Left": 0.13394300639629364,
                "Height": 0.3918749988079071
            },
            "FaceId": "0040279c-0178-436e-b70a-e61b074e96b0",
            "ExternalImageId": "image1.jpg",
            "Confidence": 100.0,
            "ImageId": "f976e487-3719-5e2d-be8b-ea2724c26991"
        },
        {
            "BoundingBox": {
                "Width": 0.5074880123138428,
                "Top": 0.3774999976158142,
                "Left": 0.18302799761295319,
                "Height": 0.3812499940395355
            },
            "FaceId": "086261e8-6deb-4bc0-ac73-ab22323cc38d",
            "ExternalImageId": "image2.jpg",
            "Confidence": 99.99930572509766,
            "ImageId": "ae1593b0-a8f6-5e24-a306-abf529e276fa"
        },
        {
            "BoundingBox": {
                "Width": 0.5574039816856384,
                "Top": 0.37187498807907104,
                "Left": 0.14559100568294525,
                "Height": 0.4181250035762787
            },
            "FaceId": "11c4bd3c-19c5-4eb8-aecc-24feb93a26e1",
            "ExternalImageId": "image3.jpg",
            "Confidence": 99.99960327148438,
            "ImageId": "80739b4d-883f-5b78-97cf-5124038e26b9"
        },
        {
            "BoundingBox": {
                "Width": 0.18562500178813934,
                "Top": 0.1618019938468933,
                "Left": 0.5575000047683716,
                "Height": 0.24770599603652954
            },
            "FaceId": "13692fe4-990a-4679-b14a-5ac23d135eab",
            "ExternalImageId": "image4.jpg",
            "Confidence": 99.99340057373047,
            "ImageId": "8df18239-9ad1-5acd-a46a-6581ff98f51b"
        },
        {
            "BoundingBox": {
                "Width": 0.5307819843292236,
                "Top": 0.2862499952316284,
                "Left": 0.1564060002565384,
                "Height": 0.3987500071525574
            },
            "FaceId": "2eb5f3fd-e2a9-4b1c-a89f-afa0a518fe06",
            "ExternalImageId": "image5.jpg",
            "Confidence": 99.99970245361328,
            "ImageId": "3c314792-197d-528d-bbb6-798ed012c150"
        },
        {
            "BoundingBox": {
                "Width": 0.5773710012435913,
                "Top": 0.34437501430511475,
                "Left": 0.12396000325679779,
                "Height": 0.4337500035762787
            },
            "FaceId": "57189455-42b0-4839-a86c-abda48b13174",
            "ExternalImageId": "image6.jpg",
            "Confidence": 100.0,
            "ImageId": "0aff2f37-e7a2-5dbc-a3a3-4ef6ec18eaa0"
        },
        {
            "BoundingBox": {
                "Width": 0.5349419713020325,
                "Top": 0.29124999046325684,
                "Left": 0.16389399766921997,
                "Height": 0.40187498927116394
            },
            "FaceId": "745f7509-b1fa-44e0-8b95-367b1359638a",
            "ExternalImageId": "image7.jpg",
            "Confidence": 99.99979400634766,
            "ImageId": "67a34327-48d1-5179-b042-01e52ccfeada"
        },
        {
            "BoundingBox": {
                "Width": 0.41499999165534973,
                "Top": 0.09187500178813934,
                "Left": 0.28083300590515137,
                "Height": 0.3112500011920929
            },
            "FaceId": "8d3cfc70-4ba8-4b36-9644-90fba29c2dac",
            "ExternalImageId": "image8.jpg",
            "Confidence": 99.99769592285156,
            "ImageId": "a294da46-2cb1-5cc4-9045-61d7ca567662"
        },
        {
            "BoundingBox": {
                "Width": 0.48166701197624207,
                "Top": 0.20999999344348907,
                "Left": 0.21250000596046448,
                "Height": 0.36125001311302185
            },
            "FaceId": "bd4ceb4d-9acc-4ab7-8ef8-1c2d2ba0a66a",
            "ExternalImageId": "image9.jpg",
            "Confidence": 99.99949645996094,
            "ImageId": "5e1a7588-e5a0-5ee3-bd00-c642518dfe3a"
        },
        {
            "BoundingBox": {
                "Width": 0.18562500178813934,
                "Top": 0.1618019938468933,
                "Left": 0.5575000047683716,
                "Height": 0.24770599603652954
            },
            "FaceId": "ce7ed422-2132-4a11-ab14-06c5c410f29f",
            "ExternalImageId": "image10.jpg",
            "Confidence": 99.99340057373047,
            "ImageId": "8d67061e-90d2-598f-9fbd-29c8497039c0"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Daftar Wajah dalam Koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-faces-in-collection-procedure.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [ListFaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/list-faces.html)di *Referensi AWS CLI Perintah*. 

### `list-stream-processors`
<a name="rekognition_ListStreamProcessors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-stream-processors`.

**AWS CLI**  
**Untuk mencantumkan prosesor streaming di akun Anda**  
`list-stream-processors`Perintah berikut mencantumkan prosesor aliran di akun Anda dan status masing-masing.  

```
aws rekognition list-stream-processors
```
Output:  

```
{
    "StreamProcessors": [
        {
            "Status": "STOPPED",
            "Name": "my-stream-processor"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Video Streaming](https://docs.aws.amazon.com/rekognition/latest/dg/streaming-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [ListStreamProcessors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/list-stream-processors.html)di *Referensi AWS CLI Perintah*. 

### `recognize-celebrities`
<a name="rekognition_RecognizeCelebrities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`recognize-celebrities`.

Untuk informasi selengkapnya, lihat [Mengenali selebriti dalam sebuah gambar](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-procedure-image.html).

**AWS CLI**  
**Untuk mengenali selebriti dalam sebuah gambar**  
`recognize-celebrities`Perintah berikut mengenali selebriti dalam gambar tertentu yang disimpan dalam bucket Amazon S3. :  

```
aws rekognition recognize-celebrities \
    --image "S3Object={Bucket=MyImageS3Bucket,Name=moviestars.jpg}"
```
Output:  

```
{
    "UnrecognizedFaces": [
        {
            "BoundingBox": {
                "Width": 0.14416666328907013,
                "Top": 0.07777778059244156,
                "Left": 0.625,
                "Height": 0.2746031880378723
            },
            "Confidence": 99.9990234375,
            "Pose": {
                "Yaw": 10.80408763885498,
                "Roll": -12.761146545410156,
                "Pitch": 10.96889877319336
            },
            "Quality": {
                "Sharpness": 94.1185531616211,
                "Brightness": 79.18367004394531
            },
            "Landmarks": [
                {
                    "Y": 0.18220913410186768,
                    "X": 0.6702951788902283,
                    "Type": "eyeLeft"
                },
                {
                    "Y": 0.16337193548679352,
                    "X": 0.7188183665275574,
                    "Type": "eyeRight"
                },
                {
                    "Y": 0.20739148557186127,
                    "X": 0.7055801749229431,
                    "Type": "nose"
                },
                {
                    "Y": 0.2889308035373688,
                    "X": 0.687512218952179,
                    "Type": "mouthLeft"
                },
                {
                    "Y": 0.2706988751888275,
                    "X": 0.7250053286552429,
                    "Type": "mouthRight"
                }
            ]
        }
    ],
    "CelebrityFaces": [
        {
            "MatchConfidence": 100.0,
            "Face": {
                "BoundingBox": {
                    "Width": 0.14000000059604645,
                    "Top": 0.1190476194024086,
                    "Left": 0.82833331823349,
                    "Height": 0.2666666805744171
                },
                "Confidence": 99.99359130859375,
                "Pose": {
                    "Yaw": -10.509642601013184,
                    "Roll": -14.51749324798584,
                    "Pitch": 13.799399375915527
                },
                "Quality": {
                    "Sharpness": 78.74752044677734,
                    "Brightness": 42.201324462890625
                },
                "Landmarks": [
                    {
                        "Y": 0.2290833294391632,
                        "X": 0.8709492087364197,
                        "Type": "eyeLeft"
                    },
                    {
                        "Y": 0.20639978349208832,
                        "X": 0.9153988361358643,
                        "Type": "eyeRight"
                    },
                    {
                        "Y": 0.25417643785476685,
                        "X": 0.8907724022865295,
                        "Type": "nose"
                    },
                    {
                        "Y": 0.32729196548461914,
                        "X": 0.8876466155052185,
                        "Type": "mouthLeft"
                    },
                    {
                        "Y": 0.3115464746952057,
                        "X": 0.9238573312759399,
                        "Type": "mouthRight"
                    }
                ]
            },
            "Name": "Celeb A",
            "Urls": [
                "www.imdb.com/name/aaaaaaaaa"
            ],
            "Id": "1111111"
        },
        {
            "MatchConfidence": 97.0,
            "Face": {
                "BoundingBox": {
                    "Width": 0.13333334028720856,
                    "Top": 0.24920634925365448,
                    "Left": 0.4449999928474426,
                    "Height": 0.2539682686328888
                },
                "Confidence": 99.99979400634766,
                "Pose": {
                    "Yaw": 6.557040691375732,
                    "Roll": -7.316643714904785,
                    "Pitch": 9.272967338562012
                },
                "Quality": {
                    "Sharpness": 83.23492431640625,
                    "Brightness": 78.83267974853516
                },
                "Landmarks": [
                    {
                        "Y": 0.3625510632991791,
                        "X": 0.48898839950561523,
                        "Type": "eyeLeft"
                    },
                    {
                        "Y": 0.35366007685661316,
                        "X": 0.5313721299171448,
                        "Type": "eyeRight"
                    },
                    {
                        "Y": 0.3894785940647125,
                        "X": 0.5173314809799194,
                        "Type": "nose"
                    },
                    {
                        "Y": 0.44889405369758606,
                        "X": 0.5020005702972412,
                        "Type": "mouthLeft"
                    },
                    {
                        "Y": 0.4408611059188843,
                        "X": 0.5351271629333496,
                        "Type": "mouthRight"
                    }
                ]
            },
            "Name": "Celeb B",
            "Urls": [
                "www.imdb.com/name/bbbbbbbbb"
            ],
            "Id": "2222222"
        },
        {
            "MatchConfidence": 100.0,
            "Face": {
                "BoundingBox": {
                    "Width": 0.12416666746139526,
                    "Top": 0.2968254089355469,
                    "Left": 0.2150000035762787,
                    "Height": 0.23650793731212616
                },
                "Confidence": 99.99958801269531,
                "Pose": {
                    "Yaw": 7.801797866821289,
                    "Roll": -8.326810836791992,
                    "Pitch": 7.844768047332764
                },
                "Quality": {
                    "Sharpness": 86.93206024169922,
                    "Brightness": 79.81291198730469
                },
                "Landmarks": [
                    {
                        "Y": 0.4027804136276245,
                        "X": 0.2575301229953766,
                        "Type": "eyeLeft"
                    },
                    {
                        "Y": 0.3934555947780609,
                        "X": 0.2956969439983368,
                        "Type": "eyeRight"
                    },
                    {
                        "Y": 0.4309830069541931,
                        "X": 0.2837020754814148,
                        "Type": "nose"
                    },
                    {
                        "Y": 0.48186683654785156,
                        "X": 0.26812544465065,
                        "Type": "mouthLeft"
                    },
                    {
                        "Y": 0.47338807582855225,
                        "X": 0.29905644059181213,
                        "Type": "mouthRight"
                    }
                ]
            },
            "Name": "Celeb C",
            "Urls": [
                "www.imdb.com/name/ccccccccc"
            ],
            "Id": "3333333"
        },
        {
            "MatchConfidence": 97.0,
            "Face": {
                "BoundingBox": {
                    "Width": 0.11916666477918625,
                    "Top": 0.3698412775993347,
                    "Left": 0.008333333767950535,
                    "Height": 0.22698412835597992
                },
                "Confidence": 99.99999237060547,
                "Pose": {
                    "Yaw": 16.38478660583496,
                    "Roll": -1.0260354280471802,
                    "Pitch": 5.975185394287109
                },
                "Quality": {
                    "Sharpness": 83.23492431640625,
                    "Brightness": 61.408443450927734
                },
                "Landmarks": [
                    {
                        "Y": 0.4632347822189331,
                        "X": 0.049406956881284714,
                        "Type": "eyeLeft"
                    },
                    {
                        "Y": 0.46388113498687744,
                        "X": 0.08722897619009018,
                        "Type": "eyeRight"
                    },
                    {
                        "Y": 0.5020678639411926,
                        "X": 0.0758260041475296,
                        "Type": "nose"
                    },
                    {
                        "Y": 0.544157862663269,
                        "X": 0.054029736667871475,
                        "Type": "mouthLeft"
                    },
                    {
                        "Y": 0.5463630557060242,
                        "X": 0.08464983850717545,
                        "Type": "mouthRight"
                    }
                ]
            },
            "Name": "Celeb D",
            "Urls": [
                "www.imdb.com/name/ddddddddd"
            ],
            "Id": "4444444"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengenali Selebriti dalam Gambar](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-procedure-image.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [RecognizeCelebrities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/recognize-celebrities.html)di *Referensi AWS CLI Perintah*. 

### `search-faces-by-image`
<a name="rekognition_SearchFacesByImage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-faces-by-image`.

Untuk informasi selengkapnya, lihat [Mencari wajah (gambar)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-image-procedure.html).

**AWS CLI**  
**Untuk mencari wajah dalam koleksi yang cocok dengan wajah terbesar dalam sebuah gambar.**  
`search-faces-by-image`Perintah berikut mencari wajah dalam koleksi yang cocok dengan wajah terbesar dalam gambar yang ditentukan. :  

```
aws rekognition search-faces-by-image \
    --image '{"S3Object":{"Bucket":"MyImageS3Bucket","Name":"ExamplePerson.jpg"}}' \
    --collection-id MyFaceImageCollection

{
    "SearchedFaceBoundingBox": {
        "Width": 0.18562500178813934,
        "Top": 0.1618015021085739,
        "Left": 0.5575000047683716,
        "Height": 0.24770642817020416
    },
    "SearchedFaceConfidence": 99.993408203125,
    "FaceMatches": [
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.18562500178813934,
                    "Top": 0.1618019938468933,
                    "Left": 0.5575000047683716,
                    "Height": 0.24770599603652954
                },
                "FaceId": "ce7ed422-2132-4a11-ab14-06c5c410f29f",
                "ExternalImageId": "example-image.jpg",
                "Confidence": 99.99340057373047,
                "ImageId": "8d67061e-90d2-598f-9fbd-29c8497039c0"
            },
            "Similarity": 99.97913360595703
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.18562500178813934,
                    "Top": 0.1618019938468933,
                    "Left": 0.5575000047683716,
                    "Height": 0.24770599603652954
                },
                "FaceId": "13692fe4-990a-4679-b14a-5ac23d135eab",
                "ExternalImageId": "image3.jpg",
                "Confidence": 99.99340057373047,
                "ImageId": "8df18239-9ad1-5acd-a46a-6581ff98f51b"
            },
            "Similarity": 99.97913360595703
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.41499999165534973,
                    "Top": 0.09187500178813934,
                    "Left": 0.28083300590515137,
                    "Height": 0.3112500011920929
                },
                "FaceId": "8d3cfc70-4ba8-4b36-9644-90fba29c2dac",
                "ExternalImageId": "image2.jpg",
                "Confidence": 99.99769592285156,
                "ImageId": "a294da46-2cb1-5cc4-9045-61d7ca567662"
            },
            "Similarity": 99.18069458007812
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.48166701197624207,
                    "Top": 0.20999999344348907,
                    "Left": 0.21250000596046448,
                    "Height": 0.36125001311302185
                },
                "FaceId": "bd4ceb4d-9acc-4ab7-8ef8-1c2d2ba0a66a",
                "ExternalImageId": "image1.jpg",
                "Confidence": 99.99949645996094,
                "ImageId": "5e1a7588-e5a0-5ee3-bd00-c642518dfe3a"
            },
            "Similarity": 98.66607666015625
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5349419713020325,
                    "Top": 0.29124999046325684,
                    "Left": 0.16389399766921997,
                    "Height": 0.40187498927116394
                },
                "FaceId": "745f7509-b1fa-44e0-8b95-367b1359638a",
                "ExternalImageId": "image9.jpg",
                "Confidence": 99.99979400634766,
                "ImageId": "67a34327-48d1-5179-b042-01e52ccfeada"
            },
            "Similarity": 98.24278259277344
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5307819843292236,
                    "Top": 0.2862499952316284,
                    "Left": 0.1564060002565384,
                    "Height": 0.3987500071525574
                },
                "FaceId": "2eb5f3fd-e2a9-4b1c-a89f-afa0a518fe06",
                "ExternalImageId": "image10.jpg",
                "Confidence": 99.99970245361328,
                "ImageId": "3c314792-197d-528d-bbb6-798ed012c150"
            },
            "Similarity": 98.10665893554688
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5074880123138428,
                    "Top": 0.3774999976158142,
                    "Left": 0.18302799761295319,
                    "Height": 0.3812499940395355
                },
                "FaceId": "086261e8-6deb-4bc0-ac73-ab22323cc38d",
                "ExternalImageId": "image6.jpg",
                "Confidence": 99.99930572509766,
                "ImageId": "ae1593b0-a8f6-5e24-a306-abf529e276fa"
            },
            "Similarity": 98.10526275634766
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5574039816856384,
                    "Top": 0.37187498807907104,
                    "Left": 0.14559100568294525,
                    "Height": 0.4181250035762787
                },
                "FaceId": "11c4bd3c-19c5-4eb8-aecc-24feb93a26e1",
                "ExternalImageId": "image5.jpg",
                "Confidence": 99.99960327148438,
                "ImageId": "80739b4d-883f-5b78-97cf-5124038e26b9"
            },
            "Similarity": 97.94659423828125
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5773710012435913,
                    "Top": 0.34437501430511475,
                    "Left": 0.12396000325679779,
                    "Height": 0.4337500035762787
                },
                "FaceId": "57189455-42b0-4839-a86c-abda48b13174",
                "ExternalImageId": "image8.jpg",
                "Confidence": 100.0,
                "ImageId": "0aff2f37-e7a2-5dbc-a3a3-4ef6ec18eaa0"
            },
            "Similarity": 97.93476867675781
        }
    ],
    "FaceModelVersion": "3.0"
}
```
Untuk informasi selengkapnya, lihat [Mencari Wajah Menggunakan Gambar](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-image-procedure.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [SearchFacesByImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/search-faces-by-image.html)di *Referensi AWS CLI Perintah*. 

### `search-faces`
<a name="rekognition_SearchFaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-faces`.

Untuk informasi selengkapnya, lihat [Mencari wajah (ID wajah)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-id-procedure.html).

**AWS CLI**  
**Untuk mencari wajah dalam koleksi yang cocok dengan ID wajah.**  
`search-faces`Perintah berikut mencari wajah dalam koleksi yang cocok dengan ID wajah yang ditentukan.  

```
aws rekognition search-faces \
    --face-id 8d3cfc70-4ba8-4b36-9644-90fba29c2dac \
    --collection-id MyCollection
```
Output:  

```
{
    "SearchedFaceId": "8d3cfc70-4ba8-4b36-9644-90fba29c2dac",
    "FaceModelVersion": "3.0",
    "FaceMatches": [
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.48166701197624207,
                    "Top": 0.20999999344348907,
                    "Left": 0.21250000596046448,
                    "Height": 0.36125001311302185
                },
                "FaceId": "bd4ceb4d-9acc-4ab7-8ef8-1c2d2ba0a66a",
                "ExternalImageId": "image1.jpg",
                "Confidence": 99.99949645996094,
                "ImageId": "5e1a7588-e5a0-5ee3-bd00-c642518dfe3a"
            },
            "Similarity": 99.30997467041016
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.18562500178813934,
                    "Top": 0.1618019938468933,
                    "Left": 0.5575000047683716,
                    "Height": 0.24770599603652954
                },
                "FaceId": "ce7ed422-2132-4a11-ab14-06c5c410f29f",
                "ExternalImageId": "example-image.jpg",
                "Confidence": 99.99340057373047,
                "ImageId": "8d67061e-90d2-598f-9fbd-29c8497039c0"
            },
            "Similarity": 99.24862670898438
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.18562500178813934,
                    "Top": 0.1618019938468933,
                    "Left": 0.5575000047683716,
                    "Height": 0.24770599603652954
                },
                "FaceId": "13692fe4-990a-4679-b14a-5ac23d135eab",
                "ExternalImageId": "image3.jpg",
                "Confidence": 99.99340057373047,
                "ImageId": "8df18239-9ad1-5acd-a46a-6581ff98f51b"
            },
            "Similarity": 99.24862670898438
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5349419713020325,
                    "Top": 0.29124999046325684,
                    "Left": 0.16389399766921997,
                    "Height": 0.40187498927116394
                },
                "FaceId": "745f7509-b1fa-44e0-8b95-367b1359638a",
                "ExternalImageId": "image9.jpg",
                "Confidence": 99.99979400634766,
                "ImageId": "67a34327-48d1-5179-b042-01e52ccfeada"
            },
            "Similarity": 96.73158264160156
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5307819843292236,
                    "Top": 0.2862499952316284,
                    "Left": 0.1564060002565384,
                    "Height": 0.3987500071525574
                },
                "FaceId": "2eb5f3fd-e2a9-4b1c-a89f-afa0a518fe06",
                "ExternalImageId": "image10.jpg",
                "Confidence": 99.99970245361328,
                "ImageId": "3c314792-197d-528d-bbb6-798ed012c150"
            },
            "Similarity": 96.48291015625
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5074880123138428,
                    "Top": 0.3774999976158142,
                    "Left": 0.18302799761295319,
                    "Height": 0.3812499940395355
                },
                "FaceId": "086261e8-6deb-4bc0-ac73-ab22323cc38d",
                "ExternalImageId": "image6.jpg",
                "Confidence": 99.99930572509766,
                "ImageId": "ae1593b0-a8f6-5e24-a306-abf529e276fa"
            },
            "Similarity": 96.43287658691406
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5574039816856384,
                    "Top": 0.37187498807907104,
                    "Left": 0.14559100568294525,
                    "Height": 0.4181250035762787
                },
                "FaceId": "11c4bd3c-19c5-4eb8-aecc-24feb93a26e1",
                "ExternalImageId": "image5.jpg",
                "Confidence": 99.99960327148438,
                "ImageId": "80739b4d-883f-5b78-97cf-5124038e26b9"
            },
            "Similarity": 95.25305938720703
        },
        {
            "Face": {
                "BoundingBox": {
                    "Width": 0.5773710012435913,
                    "Top": 0.34437501430511475,
                    "Left": 0.12396000325679779,
                    "Height": 0.4337500035762787
                },
                "FaceId": "57189455-42b0-4839-a86c-abda48b13174",
                "ExternalImageId": "image8.jpg",
                "Confidence": 100.0,
                "ImageId": "0aff2f37-e7a2-5dbc-a3a3-4ef6ec18eaa0"
            },
            "Similarity": 95.22837829589844
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencari Wajah Menggunakan ID Wajahnya](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-id-procedure.html) di Panduan Pengembang *Amazon Rekognition*.  
+  Untuk detail API, lihat [SearchFaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/search-faces.html)di *Referensi AWS CLI Perintah*. 

### `start-celebrity-recognition`
<a name="rekognition_StartCelebrityRecognition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-celebrity-recognition`.

**AWS CLI**  
**Untuk memulai pengakuan selebriti dalam video yang disimpan**  
`start-celebrity-recognition`Perintah berikut memulai pekerjaan untuk mencari selebriti dalam file video tertentu yang disimpan dalam bucket Amazon S3.  

```
aws rekognition start-celebrity-recognition \
    --video "S3Object={Bucket=MyVideoS3Bucket,Name=MyVideoFile.mpg}"
```
Output:  

```
{
    "JobId": "1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef"
}
```
Untuk informasi selengkapnya, lihat [Mengenali Selebriti dalam Video Tersimpan](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-video-sqs.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [StartCelebrityRecognition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/start-celebrity-recognition.html)di *Referensi AWS CLI Perintah*. 

### `start-content-moderation`
<a name="rekognition_StartContentModeration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-content-moderation`.

**AWS CLI**  
**Untuk memulai pengenalan konten yang tidak aman dalam video yang disimpan**  
`start-content-moderation`Perintah berikut memulai pekerjaan untuk mendeteksi konten yang tidak aman dalam file video tertentu yang disimpan dalam bucket Amazon S3.  

```
aws rekognition start-content-moderation \
    --video "S3Object={Bucket=MyVideoS3Bucket,Name=MyVideoFile.mpg}"
```
Output:  

```
{
    "JobId": "1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef"
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Video Tersimpan Tidak Aman di Panduan](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-videos.html) Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [StartContentModeration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/start-content-moderation.html)di *Referensi AWS CLI Perintah*. 

### `start-face-detection`
<a name="rekognition_StartFaceDetection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-face-detection`.

**AWS CLI**  
**Untuk mendeteksi wajah dalam video**  
`start-face-detection`Perintah berikut memulai pekerjaan untuk mendeteksi wajah dalam file video tertentu yang disimpan dalam bucket Amazon S3.  

```
aws rekognition start-face-detection
    --video "S3Object={Bucket=MyVideoS3Bucket,Name=MyVideoFile.mpg}"
```
Output:  

```
{
    "JobId": "1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef"
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Wajah dalam Video Tersimpan](https://docs.aws.amazon.com/rekognition/latest/dg/faces-sqs-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [StartFaceDetection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/start-face-detection.html)di *Referensi AWS CLI Perintah*. 

### `start-face-search`
<a name="rekognition_StartFaceSearch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-face-search`.

**AWS CLI**  
**Untuk mencari wajah dalam koleksi yang cocok dengan wajah yang terdeteksi dalam video**  
`start-face-search`Perintah berikut memulai pekerjaan untuk mencari wajah dalam koleksi yang cocok dengan wajah yang terdeteksi dalam file video yang ditentukan dalam bucket Amazon S3.  

```
aws rekognition start-face-search \
    --video "S3Object={Bucket=MyVideoS3Bucket,Name=MyVideoFile.mpg}" \
    --collection-id collection
```
Output:  

```
{
    "JobId": "1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef"
}
```
Untuk informasi selengkapnya, lihat [Mencari Video Tersimpan untuk Wajah](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-person-search-videos.html) di Panduan *Pengembang Rekognition Amazon*.  
+  Untuk detail API, lihat [StartFaceSearch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/start-face-search.html)di *Referensi AWS CLI Perintah*. 

### `start-label-detection`
<a name="rekognition_StartLabelDetection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-label-detection`.

**AWS CLI**  
**Untuk mendeteksi objek dan adegan dalam video**  
`start-label-detection`Perintah berikut memulai pekerjaan untuk mendeteksi objek dan adegan dalam file video tertentu yang disimpan dalam bucket Amazon S3.  

```
aws rekognition start-label-detection \
    --video "S3Object={Bucket=MyVideoS3Bucket,Name=MyVideoFile.mpg}"
```
Output:  

```
{
    "JobId": "1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef"
}
```
Untuk informasi selengkapnya, lihat [Mendeteksi Label dalam Video](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detecting-labels-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [StartLabelDetection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/start-label-detection.html)di *Referensi AWS CLI Perintah*. 

### `start-person-tracking`
<a name="rekognition_StartPersonTracking_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-person-tracking`.

**AWS CLI**  
**Untuk memulai jalur orang dalam video yang disimpan**  
`start-person-tracking`Perintah berikut memulai pekerjaan untuk melacak jalur yang diambil orang di bagian video tertentu yang disimpan di bucket Amazon S3. :  

```
aws rekognition start-person-tracking \
    --video "S3Object={Bucket=MyVideoS3Bucket,Name=MyVideoFile.mpg}"
```
Output:  

```
{
    "JobId": "1234567890abcdef1234567890abcdef1234567890abcdef1234567890abcdef"
}
```
Untuk informasi selengkapnya, lihat [People Pathing](https://docs.aws.amazon.com/rekognition/latest/dg/persons.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [StartPersonTracking](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/start-person-tracking.html)di *Referensi AWS CLI Perintah*. 

### `start-stream-processor`
<a name="rekognition_StartStreamProcessor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-stream-processor`.

**AWS CLI**  
**Untuk memulai prosesor streaming**  
`start-stream-processor`Perintah berikut memulai prosesor aliran video yang ditentukan.  

```
aws rekognition start-stream-processor \
    --name my-stream-processor
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Video Streaming](https://docs.aws.amazon.com/rekognition/latest/dg/streaming-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [StartStreamProcessor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/start-stream-processor.html)di *Referensi AWS CLI Perintah*. 

### `stop-stream-processor`
<a name="rekognition_StopStreamProcessor_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-stream-processor`.

**AWS CLI**  
**Untuk menghentikan prosesor aliran yang sedang berjalan**  
`stop-stream-processor`Perintah berikut menghentikan prosesor aliran berjalan yang ditentukan.  

```
aws rekognition stop-stream-processor \
    --name my-stream-processor
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Video Streaming](https://docs.aws.amazon.com/rekognition/latest/dg/streaming-video.html) di Panduan Pengembang *Rekognition Amazon*.  
+  Untuk detail API, lihat [StopStreamProcessor](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/rekognition/stop-stream-processor.html)di *Referensi AWS CLI Perintah*. 

# AWS RAM contoh menggunakan AWS CLI
<a name="cli_2_ram_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS RAM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-resource-share-invitation`
<a name="ram_AcceptResourceShareInvitation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-resource-share-invitation`.

**AWS CLI**  
**Untuk menerima undangan berbagi sumber daya**  
`accept-resource-share-invitation`Contoh berikut menerima undangan berbagi sumber daya yang ditentukan. Kepala sekolah di akun yang diundang dapat segera mulai menggunakan sumber daya di bagian.  

```
aws ram accept-resource-share-invitation \
    --resource-share-invitation-arn arn:aws:ram:us-west-2:111111111111:resource-share-invitation/1e3477be-4a95-46b4-bbe0-c4001EXAMPLE
```
Output:  

```
{
    "resourceShareInvitation": {
        "resourceShareInvitationArn": "arn:aws:ram:us-west-2:111111111111:resource-share-invitation/1e3477be-4a95-46b4-bbe0-c4001EXAMPLE",
        "resourceShareName": "MyLicenseShare",
        "resourceShareArn": "arn:aws:ram:us-west-2:111111111111:resource-share/27d09b4b-5e12-41d1-a4f2-19dedEXAMPLE",
        "senderAccountId": "111111111111",
        "receiverAccountId": "222222222222",
        "invitationTimestamp": "2021-09-22T15:07:35.620000-07:00",
        "status": "ACCEPTED"
    }
}
```
+  Untuk detail API, lihat [AcceptResourceShareInvitation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/accept-resource-share-invitation.html)di *Referensi AWS CLI Perintah*. 

### `associate-resource-share-permission`
<a name="ram_AssociateResourceSharePermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-resource-share-permission`.

**AWS CLI**  
**Untuk mengaitkan izin yang dikelola RAM dengan pembagian sumber daya**  
`associate-resource-share-permission`Contoh berikut menggantikan izin terkelola yang ada untuk jenis sumber daya yang relevan dengan izin terkelola yang ditentukan. Akses ke semua sumber daya dari jenis sumber daya yang relevan diatur oleh izin baru.  

```
aws ram associate-resource-share-permission \
    --permission-arn arn:aws:ram::aws:permission/AWSRAMPermissionGlueDatabaseReadWrite \
    --replace \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/27d09b4b-5e12-41d1-a4f2-19dedEXAMPLE
```
Output:  

```
{
    "returnValue": true
}
```
+  Untuk detail API, lihat [AssociateResourceSharePermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/associate-resource-share-permission.html)di *Referensi AWS CLI Perintah*. 

### `associate-resource-share`
<a name="ram_AssociateResourceShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-resource-share`.

**AWS CLI**  
**Contoh 1: Untuk mengaitkan sumber daya dengan pembagian sumber daya**  
`associate-resource-share`Contoh berikut menambahkan konfigurasi lisensi untuk berbagi sumber daya tertentu.  

```
aws ram associate-resource-share \
    --resource-share arn:aws:ram:us-west-2:123456789012:resource-share/27d09b4b-5e12-41d1-a4f2-19dedEXAMPLE \
    --resource-arns arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-36be0485f5ae379cc74cf8e92EXAMPLE
```
Output:  

```
{
    "resourceShareAssociations": [
        {
           "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/27d09b4b-5e12-41d1-a4f2-19dedEXAMPLE",
           "associatedEntity": "arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-36be0485f5ae379cc74cf8e92EXAMPLE",
           "associationType": "RESOURCE",
           "status": "ASSOCIATING",
           "external": false
        }
    ]
}
```
**Contoh 2: Untuk mengaitkan prinsipal dengan pembagian sumber daya**  
`associate-resource-share`Contoh berikut memberikan akses untuk berbagi sumber daya yang ditentukan ke semua akun di unit organisasi yang ditentukan.  

```
aws ram associate-resource-share \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/27d09b4b-5e12-41d1-a4f2-19dedEXAMPLE \
    --principals arn:aws:organizations::123456789012:ou/o-63bEXAMPLE/ou-46xi-rEXAMPLE
```
Output:  

```
{
    "resourceShareAssociations": [
        {
            "status": "ASSOCIATING",
            "associationType": "PRINCIPAL",
            "associatedEntity": "arn:aws:organizations::123456789012:ou/o-63bEXAMPLE/ou-46xi-rEXAMPLE",
            "external": false,
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/27d09b4b-5e12-41d1-a4f2-19dedEXAMPLE"
        }
    ]
}
```
+  Untuk detail API, lihat [AssociateResourceShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/associate-resource-share.html)di *Referensi AWS CLI Perintah*. 

### `create-resource-share`
<a name="ram_CreateResourceShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource-share`.

**AWS CLI**  
**Contoh 1: Untuk membuat pembagian sumber daya**  
`create-resource-share`Contoh berikut menciptakan berbagi sumber daya kosong dengan nama yang ditentukan. Anda harus secara terpisah menambahkan sumber daya, prinsipal, dan izin untuk berbagi.  

```
aws ram create-resource-share \
    --name MyNewResourceShare
```
Output:  

```
{
    "resourceShare": {
        "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/4476c27d-8feb-4b21-afe9-7de23EXAMPLE",
        "name": "MyNewResourceShare",
        "owningAccountId": "123456789012",
        "allowExternalPrincipals": true,
        "status": "ACTIVE",
        "creationTime": 1634586271.302,
        "lastUpdatedTime": 1634586271.302
    }
}
```
**Contoh 2: Untuk membuat pembagian sumber daya dengan AWS akun sebagai prinsipal**  
`create-resource-share`Contoh berikut membuat berbagi sumber daya dan memberikan akses ke AWS akun yang ditentukan (222222222222). Jika prinsipal yang ditentukan bukan bagian dari AWS Organisasi yang sama, maka undangan dikirim dan harus diterima sebelum akses diberikan.  

```
aws ram create-resource-share \
    --name MyNewResourceShare \
    --principals 222222222222
```
**Contoh 3: Untuk membuat pembagian sumber daya yang dibatasi untuk AWS Organisasi Anda**  
`create-resource-share`Contoh berikut membuat pembagian sumber daya yang dibatasi untuk akun di AWS Organisasi tempat akun Anda menjadi anggotanya, dan menambahkan OU yang ditentukan sebagai prinsipal. Semua akun di OU itu dapat menggunakan sumber daya dalam pembagian sumber daya.  

```
aws ram create-resource-share \
    --name MyNewResourceShare \
    --no-allow-external-principals \
    --principals arn:aws:organizations::123456789012:ou/o-63bEXAMPLE/ou-46xi-rEXAMPLE
```
Output:  

```
{
    "resourceShare": {
        "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7be8694e-095c-41ca-9ce8-7be4aEXAMPLE",
        "name": "MyNewResourceShare",
        "owningAccountId": "123456789012",
        "allowExternalPrincipals": false,
        "status": "ACTIVE",
        "creationTime": 1634587042.49,
        "lastUpdatedTime": 1634587042.49
    }
}
```
+  Untuk detail API, lihat [CreateResourceShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/create-resource-share.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-share`
<a name="ram_DeleteResourceShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-share`.

**AWS CLI**  
**Untuk menghapus pembagian sumber daya**  
`delete-resource-share`Contoh berikut menghapus share sumber daya yang ditentukan.  

```
aws ram delete-resource-share \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE
```
Output berikut menunjukkan keberhasilan:  

```
{
    "returnValue": true
}
```
+  Untuk detail API, lihat [DeleteResourceShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/delete-resource-share.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-resource-share-permission`
<a name="ram_DisassociateResourceSharePermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-resource-share-permission`.

**AWS CLI**  
**Untuk menghapus izin yang dikelola RAM untuk jenis sumber daya dari pembagian sumber daya**  
`disassociate-resource-share-permission`Contoh berikut menghapus izin terkelola RAM untuk database Glue dari pembagian sumber daya yang ditentukan.  

```
aws ram disassociate-resource-share-permission \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/27d09b4b-5e12-41d1-a4f2-19dedEXAMPLE \
    --permission-arn arn:aws:ram::aws:permission/AWSRAMPermissionGlueDatabaseReadWrite
```
Output:  

```
{
    "returnValue": true
}
```
+  Untuk detail API, lihat [DisassociateResourceSharePermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/disassociate-resource-share-permission.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-resource-share`
<a name="ram_DisassociateResourceShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-resource-share`.

**AWS CLI**  
**Untuk menghapus sumber daya dari pembagian sumber daya**  
`disassociate-resource-share`Contoh berikut menghapus sumber daya yang ditentukan, dalam hal ini subnet VPC, dari berbagi sumber daya yang ditentukan. Setiap prinsipal dengan akses ke pembagian sumber daya tidak dapat lagi melakukan operasi pada sumber daya itu.  

```
aws ram disassociate-resource-share \
    --resource-arns arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0250c25a1fEXAMPLE \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE
```
Output:  

```
{
    "resourceShareAssociations": [
        "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE",
        "associatedEntity": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0250c25a1fEXAMPLE",
        "associationType": "RESOURCE",
        "status": "DISASSOCIATING",
        "external": false
    ]
}
```
+  Untuk detail API, lihat [DisassociateResourceShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/disassociate-resource-share.html)di *Referensi AWS CLI Perintah*. 

### `enable-sharing-with-aws-organization`
<a name="ram_EnableSharingWithAwsOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-sharing-with-aws-organization`.

**AWS CLI**  
**Untuk mengaktifkan berbagi sumber daya di seluruh AWS Organizations**  
`enable-sharing-with-aws-organization`Contoh berikut memungkinkan berbagi sumber daya di seluruh organisasi dan unit organisasi Anda.  

```
aws ram enable-sharing-with-aws-organization
```
Output berikut menunjukkan keberhasilan.  

```
{
    "returnValue": true
}
```
+  Untuk detail API, lihat [EnableSharingWithAwsOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/enable-sharing-with-aws-organization.html)di *Referensi AWS CLI Perintah*. 

### `get-permission`
<a name="ram_GetPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-permission`.

**AWS CLI**  
**Untuk mengambil detail untuk izin yang dikelola RAM**  
`get-permission`Contoh berikut menampilkan rincian untuk versi default dari izin terkelola RAM yang ditentukan.  

```
aws ram get-permission \
    --permission-arn arn:aws:ram::aws:permission/AWSRAMPermissionGlueTableReadWriteForDatabase
```
Output:  

```
{
    "permission": {
        "arn": "arn:aws:ram::aws:permission/AWSRAMPermissionGlueTableReadWriteForDatabase",
        "version": "2",
        "defaultVersion": true,
        "name": "AWSRAMPermissionGlueTableReadWriteForDatabase",
        "resourceType": "glue:Database",
        "permission": "{\"Effect\":\"Allow\",\"Action\":[\"glue:GetTable\", \"glue:UpdateTable\", \"glue:DeleteTable\", \"glue:BatchDeleteTable\", \"glue:BatchDeleteTableVersion\", \"glue:GetTableVersion\", \"glue:GetTableVersions\", \"glue:GetPartition\", \"glue:GetPartitions\", \"glue:BatchGetPartition\", \"glue:BatchCreatePartition\", \"glue:CreatePartition\", \"glue:UpdatePartition\", \"glue:BatchDeletePartition\", \"glue:DeletePartition\", \"glue:GetTables\", \"glue:SearchTables\"]}",
        "creationTime": 1624912434.431,
        "lastUpdatedTime": 1624912434.431,
        "isResourceTypeDefault": false
    }
}
```
+  Untuk detail API, lihat [GetPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/get-permission.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-policies`
<a name="ram_GetResourcePolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-policies`.

**AWS CLI**  
**Untuk mendapatkan kebijakan untuk sumber daya**  
`get-resource-policies`Contoh berikut menampilkan kebijakan izin berbasis sumber daya untuk sumber daya tertentu yang terkait dengan pembagian sumber daya.  

```
aws ram get-resource-policies \
    --resource-arns arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0250c25a1fEXAMPLE
```
Output:  

```
{
    "policies": [
         "{\"Version\":\"2008-10-17\",\"Statement\":[{\"Sid\":\"RamStatement1\",\"Effect\":\"Allow\",\"Principal\":{\"AWS\":[]},\"Action\":[\"ec2:RunInstances\",\"ec2:CreateNetworkInterface\",\"ec2:DescribeSubnets\"],\"Resource\":\"arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0250c25a1fEXAMPLE\"}]}"
    ]
}
```
+  Untuk detail API, lihat [GetResourcePolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/get-resource-policies.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-share-associations`
<a name="ram_GetResourceShareAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-share-associations`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua asosiasi sumber daya untuk semua jenis sumber daya**  
`get-resource-share-associations`Contoh berikut mencantumkan asosiasi sumber daya untuk semua jenis sumber daya di semua pembagian sumber daya Anda.  

```
aws ram get-resource-share-associations \
    --association-type RESOURCE
```
Output:  

```
{
    "resourceShareAssociations": [
        {
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE",
            "associatedEntity": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0250c25a1fEXAMPLE",
            "resourceShareName": "MySubnetShare",
            "associationType": "RESOURCE",
            "status": "ASSOCIATED",
            "creationTime": 1565303590.973,
            "lastUpdatedTime": 1565303591.695,
            "external": false
        },
        {
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/8167bdfe-4480-4a01-8632-315e0EXAMPLE",
            "associatedEntity": "arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-36be0485f5ae379cc74cf8e92EXAMPLE",
            "resourceShareName": "MyLicenseShare",
            "associationType": "RESOURCE",
            "status": "ASSOCIATED",
            "creationTime": 1632342958.457,
            "lastUpdatedTime": 1632342958.907,
            "external": false
        }
    ]
}
```
**Contoh 2: Untuk mencantumkan asosiasi utama untuk pembagian sumber daya**  
`get-resource-share-associations`Contoh berikut hanya mencantumkan asosiasi utama hanya untuk pembagian sumber daya yang ditentukan.  

```
aws ram get-resource-share-associations \
   --resource-share-arns arn:aws:ram:us-west-2:123456789012:resource-share/7be8694e-095c-41ca-9ce8-7be4aEXAMPLE \
   --association-type PRINCIPAL
```
Output:  

```
{
    "resourceShareAssociations": [
        {
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7be8694e-095c-41ca-9ce8-7be4aEXAMPLE",
            "resourceShareName": "MyNewResourceShare",
            "associatedEntity": "arn:aws:organizations::123456789012:ou/o-63bEXAMPLE/ou-46xi-rEXAMPLE",
            "associationType": "PRINCIPAL",
            "status": "ASSOCIATED",
            "creationTime": 1634587042.49,
            "lastUpdatedTime": 1634587044.291,
            "external": false
        }
    ]
}
```
+  Untuk detail API, lihat [GetResourceShareAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/get-resource-share-associations.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-share-invitations`
<a name="ram_GetResourceShareInvitations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-share-invitations`.

**AWS CLI**  
**Untuk membuat daftar undangan berbagi sumber daya Anda**  
`get-resource-share-invitations`Contoh berikut mencantumkan undangan berbagi sumber daya Anda saat ini.  

```
aws ram get-resource-share-invitations
```
Output:  

```
{
    "resourceShareInvitations": [
        {
            "resourceShareInvitationArn": "arn:aws:ram:us-west2-1:111111111111:resource-share-invitation/32b639f0-14b8-7e8f-55ea-e6117EXAMPLE",
            "resourceShareName": "project-resource-share",
            "resourceShareArn": "arn:aws:ram:us-west-2:111111111111:resource-share/fcb639f0-1449-4744-35bc-a983fEXAMPLE",
            "senderAccountId": "111111111111",
            "receiverAccountId": "222222222222",
            "invitationTimestamp": 1565312166.258,
            "status": "PENDING"
        }
    ]
}
```
+  Untuk detail API, lihat [GetResourceShareInvitations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/get-resource-share-invitations.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-shares`
<a name="ram_GetResourceShares_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-shares`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar pembagian sumber daya yang Anda miliki dan bagikan dengan orang lain**  
`get-resource-shares`Contoh berikut mencantumkan pembagian sumber daya yang dibuat dan dibagikan dengan orang lain.  

```
aws ram get-resource-shares \
    --resource-owner SELF
```
Output:  

```
{
    "resourceShares": [
        {
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/3ab63985-99d9-1cd2-7d24-75e93EXAMPLE",
            "name": "my-resource-share",
            "owningAccountId": "123456789012",
            "allowExternalPrincipals": false,
            "status": "ACTIVE",
            "tags": [
                {
                    "key": "project",
                    "value": "lima"
                }
            ]
            "creationTime": 1565295733.282,
            "lastUpdatedTime": 1565295733.282
        },
        {
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE",
            "name": "my-resource-share",
            "owningAccountId": "123456789012",
            "allowExternalPrincipals": true,
            "status": "ACTIVE",
            "creationTime": 1565295733.282,
            "lastUpdatedTime": 1565295733.282
        }
    ]
}
```
**Contoh 2: Untuk mencantumkan saham sumber daya yang dimiliki oleh orang lain dan dibagikan dengan Anda**  
`get-resource-shares`Contoh berikut mencantumkan pembagian sumber daya yang dibuat dan dibagikan orang lain dengan Anda. Dalam contoh ini, tidak ada.  

```
aws ram get-resource-shares \
    --resource-owner OTHER-ACCOUNTS
```
Output:  

```
{
    "resourceShares": []
}
```
+  Untuk detail API, lihat [GetResourceShares](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/get-resource-shares.html)di *Referensi AWS CLI Perintah*. 

### `list-pending-invitation-resources`
<a name="ram_ListPendingInvitationResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-pending-invitation-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber daya yang tersedia dalam pembagian sumber daya yang tertunda**  
`list-pending-invitation-resources`Contoh berikut mencantumkan semua sumber daya yang ada di bagian sumber daya yang terkait dengan undangan yang ditentukan.  

```
aws ram list-pending-invitation-resources \
    --resource-share-invitation-arn arn:aws:ram:us-west-2:123456789012:resource-share-invitation/1e3477be-4a95-46b4-bbe0-c4001EXAMPLE
```
Output:  

```
{
   "resources": [
        {
            "arn": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-04a555b0e6EXAMPLE",
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7be8694e-095c-41ca-9ce8-7be4aEXAMPLE",
            "creationTime": 1634676051.269,
            "lastUpdatedTime": 1634676052.07,
            "status": "AVAILABLE",
            "type": "ec2:Subnet"
        },
        {
            "arn": "arn:aws:license-manager:us-west-2:123456789012:license-configuration:lic-36be0485f5ae379cc74cf8e92EXAMPLE",
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE",
            "creationTime": 1624912434.431,
            "lastUpdatedTime": 1624912434.431,
            "status": "AVAILABLE",
            "type": "license-manager:LicenseConfiguration"
      }
   ]
}
```
+  Untuk detail API, lihat [ListPendingInvitationResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/list-pending-invitation-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-permissions`
<a name="ram_ListPermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-permissions`.

**AWS CLI**  
**Untuk mencantumkan izin terkelola RAM yang tersedia**  
`list-permissions`Contoh berikut mencantumkan semua izin terkelola RAM yang tersedia hanya untuk jenis sumber daya database AWS Glue.  

```
aws ram list-permissions \
    --resource-type glue:Database
```
Output:  

```
{
    "permissions": [
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMDefaultPermissionGlueDatabase",
            "version": "1",
            "defaultVersion": true,
            "name": "AWSRAMDefaultPermissionGlueDatabase",
            "resourceType": "glue:Database",
            "creationTime": 1592007820.935,
            "lastUpdatedTime": 1592007820.935,
            "isResourceTypeDefault": true
        },
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMPermissionGlueAllTablesReadWriteForDatabase",
            "version": "2",
            "defaultVersion": true,
            "name": "AWSRAMPermissionGlueAllTablesReadWriteForDatabase",
            "resourceType": "glue:Database",
            "creationTime": 1624912413.323,
            "lastUpdatedTime": 1624912413.323,
            "isResourceTypeDefault": false
        },
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMPermissionGlueDatabaseReadWrite",
            "version": "2",
            "defaultVersion": true,
            "name": "AWSRAMPermissionGlueDatabaseReadWrite",
            "resourceType": "glue:Database",
            "creationTime": 1624912417.4,
            "lastUpdatedTime": 1624912417.4,
            "isResourceTypeDefault": false
        },
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMPermissionGlueTableReadWriteForDatabase",
            "version": "2",
            "defaultVersion": true,
            "name": "AWSRAMPermissionGlueTableReadWriteForDatabase",
            "resourceType": "glue:Database",
            "creationTime": 1624912434.431,
            "lastUpdatedTime": 1624912434.431,
            "isResourceTypeDefault": false
        }
    ]
}
```
`list-permissions`Contoh berikut menampilkan izin terkelola RAM yang tersedia untuk semua jenis sumber daya.  

```
aws ram list-permissions
```
Output:  

```
{
    "permissions": [
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMBlankEndEntityCertificateAPICSRPassthroughIssuanceCertificateAuthority",
            "version": "1",
            "defaultVersion": true,
            "name": "AWSRAMBlankEndEntityCertificateAPICSRPassthroughIssuanceCertificateAuthority",
            "resourceType": "acm-pca:CertificateAuthority",
            "creationTime": 1623264861.085,
            "lastUpdatedTime": 1623264861.085,
            "isResourceTypeDefault": false
        },
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMDefaultPermissionAppMesh",
            "version": "1",
            "defaultVersion": true,
            "name": "AWSRAMDefaultPermissionAppMesh",
            "resourceType": "appmesh:Mesh",
            "creationTime": 1589307188.584,
            "lastUpdatedTime": 1589307188.584,
            "isResourceTypeDefault": true
        },
        ...TRUNCATED FOR BREVITY...
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMSubordinateCACertificatePathLen0IssuanceCertificateAuthority",
            "version": "1",
            "defaultVersion": true,
            "name": "AWSRAMSubordinateCACertificatePathLen0IssuanceCertificateAuthority",
            "resourceType": "acm-pca:CertificateAuthority",
            "creationTime": 1623264876.75,
            "lastUpdatedTime": 1623264876.75,
            "isResourceTypeDefault": false
        }
    ]
}
```
+  Untuk detail API, lihat [ListPermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/list-permissions.html)di *Referensi AWS CLI Perintah*. 

### `list-principals`
<a name="ram_ListPrincipals_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-principals`.

**AWS CLI**  
**Untuk daftar prinsipal dengan akses ke sumber daya**  
`list-principals`Contoh berikut menampilkan daftar prinsipal yang dapat mengakses sumber daya dari jenis yang ditentukan melalui pembagian sumber daya apa pun.  

```
aws ram list-principals \
    --resource-type ec2:Subnet
```
Output:  

```
{
    "principals": [
        {
            "id": "arn:aws:organizations::123456789012:ou/o-gx7EXAMPLE/ou-29c5-zEXAMPLE",
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE",
            "creationTime": 1565298209.737,
            "lastUpdatedTime": 1565298211.019,
            "external": false
        }
    ]
}
```
+  Untuk detail API, lihat [ListPrincipals](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/list-principals.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-share-permissions`
<a name="ram_ListResourceSharePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-share-permissions`.

**AWS CLI**  
**Untuk mencantumkan semua izin yang dikelola RAM yang saat ini dilampirkan ke pembagian sumber daya**  
`list-resource-share-permissions`Contoh berikut mencantumkan semua izin yang dikelola RAM yang dilampirkan ke pembagian sumber daya yang ditentukan.  

```
aws ram list-resource-share-permissions \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/27d09b4b-5e12-41d1-a4f2-19dedEXAMPLE
```
Output:  

```
{
    "permissions": [
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMDefaultPermissionLicenseConfiguration",
            "version": "1",
            "resourceType": "license-manager:LicenseConfiguration",
            "status": "ASSOCIATED",
            "lastUpdatedTime": 1632342984.234
        },
        {
            "arn": "arn:aws:ram::aws:permission/AWSRAMPermissionGlueDatabaseReadWrite",
            "version": "2",
            "resourceType": "glue:Database",
            "status": "ASSOCIATED",
            "lastUpdatedTime": 1632512462.297
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourceSharePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/list-resource-share-permissions.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-types`
<a name="ram_ListResourceTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-types`.

**AWS CLI**  
**Untuk daftar jenis sumber daya yang didukung oleh AWS RAM**  
`list-resource-types`Contoh berikut mencantumkan semua jenis sumber daya yang saat ini didukung oleh AWS RAM.  

```
aws ram list-resource-types
```
Output:  

```
{
    "resourceTypes": [
        {
            "resourceType": "route53resolver:FirewallRuleGroup",
            "serviceName": "route53resolver"
        },
        {
            "resourceType": "ec2:LocalGatewayRouteTable",
            "serviceName": "ec2"
        },
        ...OUTPUT TRUNCATED FOR BREVITY...
        {
            "resourceType": "ec2:Subnet",
            "serviceName": "ec2"
        },
        {
            "resourceType": "ec2:TransitGatewayMulticastDomain",
            "serviceName": "ec2"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourceTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/list-resource-types.html)di *Referensi AWS CLI Perintah*. 

### `list-resources`
<a name="ram_ListResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber daya yang terkait dengan pembagian sumber daya**  
`list-resources`Contoh berikut mencantumkan semua sumber daya dalam pembagian sumber daya tertentu yang merupakan jenis sumber daya yang ditentukan.  

```
aws ram list-resources \
    --resource-type ec2:Subnet \
    --resource-owner SELF \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE
```
Output:  

```
{
    "resources": [
        {
            "arn": "aarn:aws:ec2:us-west-2:123456789012:subnet/subnet-0250c25a1f4e15235",
            "type": "ec2:Subnet",
            "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE",
            "creationTime": 1565301545.023,
            "lastUpdatedTime": 1565301545.947
        }
    ]
}
```
+  Untuk detail API, lihat [ListResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/list-resources.html)di *Referensi AWS CLI Perintah*. 

### `promote-resource-share-created-from-policy`
<a name="ram_PromoteResourceShareCreatedFromPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`promote-resource-share-created-from-policy`.

**AWS CLI**  
**Untuk mempromosikan pembagian sumber daya berbasis kebijakan sumber daya ke fungsionalitas penuh dalam RAM AWS **  
`promote-resource-share-created-from-policy`Contoh berikut mengambil pembagian sumber daya yang Anda buat secara implisit dengan melampirkan kebijakan berbasis sumber daya, dan mengubahnya menjadi berfungsi penuh dengan AWS konsol RAM dan operasi CLI dan API-nya.  

```
aws ram promote-resource-share-created-from-policy \
    --resource-share-arn arn:aws:ram:us-east-1:123456789012:resource-share/91fa8429-2d06-4032-909a-90909EXAMPLE
```
Output:  

```
{
    "returnValue": true
}
```
+  Untuk detail API, lihat [PromoteResourceShareCreatedFromPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/promote-resource-share-created-from-policy.html)di *Referensi AWS CLI Perintah*. 

### `reject-resource-share-invitation`
<a name="ram_RejectResourceShareInvitation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-resource-share-invitation`.

**AWS CLI**  
**Untuk menolak undangan berbagi sumber daya**  
`reject-resource-share-invitation`Contoh berikut menolak undangan berbagi sumber daya yang ditentukan.  

```
aws ram reject-resource-share-invitation \
    --resource-share-invitation-arn arn:aws:ram:us-west-2:111111111111:resource-share-invitation/32b639f0-14b8-7e8f-55ea-e6117EXAMPLE
```
Output:  

```
"resourceShareInvitations": [
    {
        "resourceShareInvitationArn": "arn:aws:ram:us-west2-1:111111111111:resource-share-invitation/32b639f0-14b8-7e8f-55ea-e6117EXAMPLE",
        "resourceShareName": "project-resource-share",
        "resourceShareArn": "arn:aws:ram:us-west-2:111111111111:resource-share/fcb639f0-1449-4744-35bc-a983fEXAMPLE",
        "senderAccountId": "111111111111",
        "receiverAccountId": "222222222222",
        "invitationTimestamp": 1565319592.463,
        "status": "REJECTED"
    }
]
```
+  Untuk detail API, lihat [RejectResourceShareInvitation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/reject-resource-share-invitation.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="ram_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke pembagian sumber daya**  
`tag-resource`Contoh berikut menambahkan kunci tag `project` dan nilai terkait `lima` untuk berbagi sumber daya tertentu.  

```
aws ram tag-resource \
    --tags key=project,value=lima \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="ram_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari pembagian sumber daya**  
`untag-resource`Contoh berikut menghapus kunci `project` tag dan nilai terkait dari berbagi sumber daya tertentu.  

```
aws ram untag-resource \
    --tag-keys project \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-resource-share`
<a name="ram_UpdateResourceShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resource-share`.

**AWS CLI**  
**Untuk memperbarui pembagian sumber daya**  
`update-resource-share`Contoh berikut mengubah pembagian sumber daya yang ditentukan untuk mengizinkan prinsipal eksternal yang tidak ada dalam Organisasi. AWS   

```
aws ram update-resource-share \
    --allow-external-principals \
    --resource-share-arn arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE
```
Output:  

```
{
    "resourceShare": {
        "resourceShareArn": "arn:aws:ram:us-west-2:123456789012:resource-share/7ab63972-b505-7e2a-420d-6f5d3EXAMPLE",
        "name": "my-resource-share",
        "owningAccountId": "123456789012",
        "allowExternalPrincipals": true,
        "status": "ACTIVE",
        "creationTime": 1565295733.282,
        "lastUpdatedTime": 1565303080.023
    }
}
```
+  Untuk detail API, lihat [UpdateResourceShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ram/update-resource-share.html)di *Referensi AWS CLI Perintah*. 

# Contoh Resource Explorer menggunakan AWS CLI
<a name="cli_2_resource-explorer-2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Resource Explorer.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-default-view`
<a name="resource-explorer-2_AssociateDefaultView_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-default-view`.

**AWS CLI**  
**Untuk menetapkan tampilan Resource Explorer sebagai default untuk AWS Region**  
`associate-default-view`Contoh berikut menetapkan tampilan, seperti yang ditentukan oleh ARN, menjadi tampilan default untuk AWS Wilayah di mana Anda memanggil operasi.  

```
aws resource-explorer-2 associate-default-view \
    --view-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-Main-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111
```
Output:  

```
{
    "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-Main-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Menyetel tampilan default di AWS Wilayah](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-set-default.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [AssociateDefaultView](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/associate-default-view.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-view`
<a name="resource-explorer-2_BatchGetView_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-view`.

**AWS CLI**  
**Untuk mengambil detail tentang beberapa tampilan Resource Explorer**  
`batch-get-view`Contoh berikut menampilkan rincian tentang dua tampilan yang ditentukan oleh mereka ARNs. Gunakan spasi untuk memisahkan kelipatan ARNs dalam parameter --view-arn.  

```
aws resource-explorer-2 batch-get-view \
    --view-arns arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222, \
                arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-Main-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111
```
Output:  

```
{
    "Views": [
        {
            "Filters": {
                "FilterString": "service:ec2"
            },
            "IncludedProperties": [
                {
                    "Name": "tags"
                }
            ],
            "LastUpdatedAt": "2022-07-13T21:33:45.249000+00:00",
            "Owner": "123456789012",
            "Scope": "arn:aws:iam::123456789012:root",
            "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222"
        },
        {
            "Filters": {
                "FilterString": ""
            },
            "IncludedProperties": [
                {
                    "Name": "tags"
                }
            ],
            "LastUpdatedAt": "2022-07-13T20:34:11.314000+00:00",
            "Owner": "123456789012",
            "Scope": "arn:aws:iam::123456789012:root",
            "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-Main-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111"
        }
    ]
    "Errors": []
}
```
Untuk informasi selengkapnya tentang tampilan, lihat [Tentang tampilan Resource Explorer](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-about.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [BatchGetView](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/batch-get-view.html)di *Referensi AWS CLI Perintah*. 

### `create-index`
<a name="resource-explorer-2_CreateIndex_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-index`.

**AWS CLI**  
**Untuk mengaktifkan Resource Explorer di AWS Region dengan membuat indeks**  
`create-index`Contoh berikut membuat indeks lokal di AWS Wilayah di mana operasi dipanggil. AWS CLI secara otomatis menghasilkan nilai `client-token` parameter acak dan memasukkannya ke dalam panggilan ke AWS jika Anda tidak menentukan nilai.  

```
aws resource-explorer-2 create-index \
    --region us-east-1
```
Output:  

```
{
    "Arn": "arn:aws:resource-explorer-2:us-east-1:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222c",
    "CreatedAt": "2022-11-01T20:00:59.149Z",
    "State": "CREATING"
}
```
Setelah Anda membuat indeks lokal, Anda dapat mengubahnya menjadi indeks agregator untuk akun dengan menjalankan [update-index-type](https://docs.aws.amazon.com/cli/latest/reference/resource-explorer-2/update-index-type.html)perintah.  
Untuk informasi selengkapnya, lihat [Mengaktifkan Penjelajah Sumber Daya di AWS Wilayah untuk mengindeks sumber daya Anda](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-service-register.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [CreateIndex](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/create-index.html)di *Referensi AWS CLI Perintah*. 

### `create-view`
<a name="resource-explorer-2_CreateView_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-view`.

**AWS CLI**  
**Contoh 1: Untuk membuat tampilan tanpa filter untuk indeks di Wilayah AWS **  
`create-view`Contoh berikut membuat tampilan di AWS Wilayah tertentu yang mengembalikan semua hasil di Wilayah tanpa pemfilteran apa pun. Tampilan menyertakan bidang Tag opsional pada hasil yang dikembalikan. Karena tampilan ini dibuat di Wilayah yang berisi indeks agregator, tampilan ini dapat menyertakan hasil dari semua Wilayah di akun yang berisi indeks Resource Explorer.  

```
aws resource-explorer-2 create-view \
    --view-name My-Main-View \
    --included-properties Name=tags \
    --region us-east-1
```
Output:  

```
{
    "View": {
        "Filters": {
            "FilterString": ""
        },
        "IncludedProperties": [
            {
                "Name": "tags"
            }
        ],
        "LastUpdatedAt": "2022-07-13T20:34:11.314000+00:00",
        "Owner": "123456789012",
        "Scope": "arn:aws:iam::123456789012:root",
        "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-Main-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111"
    }
}
```
**Contoh 2: Untuk membuat tampilan yang hanya menampilkan sumber daya yang terkait dengan Amazon EC2**  
Berikut ini `create-view` membuat tampilan di AWS Wilayah `us-east-1` yang hanya menampilkan sumber daya tersebut di Wilayah yang terkait dengan layanan Amazon EC2. Tampilan mencakup `Tags` bidang opsional pada hasil yang dikembalikan. Karena tampilan ini dibuat di Wilayah yang berisi indeks agregator, tampilan ini dapat menyertakan hasil dari semua Wilayah di akun yang berisi indeks Resource Explorer.  

```
aws resource-explorer-2 create-view \
    --view-name My-EC2-Only-View \
    --included-properties Name=tags \
    --filters FilterString="service:ec2" \
    --region us-east-1
```
Output:  

```
{
    "View": {
        "Filters": {
            "FilterString": "service:ec2"
        },
        "IncludedProperties": [
            {
                "Name":"tags"
            }
        ],
        "LastUpdatedAt": "2022-07-13T21:35:09.059Z",
        "Owner": "123456789012",
        "Scope": "arn:aws:iam::123456789012:root",
        "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat tampilan untuk penelusuran](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-create.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [CreateView](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/create-view.html)di *Referensi AWS CLI Perintah*. 

### `delete-index`
<a name="resource-explorer-2_DeleteIndex_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-index`.

**AWS CLI**  
**Untuk mematikan Resource Explorer di AWS Region dengan menghapus indeksnya**  
`delete-index`Contoh berikut menghapus indeks Resource Explorer yang ditentukan di AWS Wilayah tempat Anda membuat permintaan.  

```
aws resource-explorer-2 delete-index \
    --arn arn:aws:resource-explorer-2:us-west-2:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222 \
    --region us-west-2
```
Output:  

```
{
    "Arn": "arn:aws:resource-explorer-2:us-west-2:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222",
    "State": "DELETING"
}
```
Untuk informasi selengkapnya tentang menghapus indeks, lihat [Menonaktifkan Penjelajah AWS Sumber Daya di AWS Wilayah](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-service-deregister.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [DeleteIndex](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/delete-index.html)di *Referensi AWS CLI Perintah*. 

### `delete-view`
<a name="resource-explorer-2_DeleteView_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-view`.

**AWS CLI**  
**Untuk menghapus tampilan Resource Explorer**  
`delete-view`Contoh berikut menghapus tampilan yang ditentukan oleh ARN nya.  

```
aws resource-explorer-2 delete-view \
    --view-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111
```
Output:  

```
{
    "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Menghapus tampilan](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-delete.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [DeleteView](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/delete-view.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-default-view`
<a name="resource-explorer-2_DisassociateDefaultView_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-default-view`.

**AWS CLI**  
**Untuk menghapus tampilan Resource Explorer default untuk AWS Wilayah**  
Berikut ini `disassociate-default-view` menghapus tampilan Resource Explorer default untuk AWS Wilayah di mana Anda memanggil operasi. Setelah melakukan operasi ini, semua operasi pencarian di Wilayah harus secara eksplisit menentukan tampilan atau operasi gagal.  

```
aws resource-explorer-2 disassociate-default-view
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyetel tampilan default di AWS Wilayah](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-set-default.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [DisassociateDefaultView](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/disassociate-default-view.html)di *Referensi AWS CLI Perintah*. 

### `get-default-view`
<a name="resource-explorer-2_GetDefaultView_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-default-view`.

**AWS CLI**  
**Untuk mengambil tampilan Resource Explorer yang merupakan tampilan default untuk Region AWS **  
`get-default-view`Contoh berikut mengambil ARN dari tampilan yang merupakan default untuk Wilayah AWS di mana Anda memanggil operasi.  

```
aws resource-explorer-2 get-default-view
```
Output:  

```
{
    "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/default-view/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Menyetel tampilan default di AWS Wilayah](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-set-default.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [GetDefaultView](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/get-default-view.html)di *Referensi AWS CLI Perintah*. 

### `get-index`
<a name="resource-explorer-2_GetIndex_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-index`.

**AWS CLI**  
**Contoh 1: Untuk mengambil detail untuk indeks agregator Resource Explorer**  
`get-index`Contoh berikut menampilkan rincian untuk indeks Resource Explorer di AWS Wilayah tertentu. Karena Region yang ditentukan berisi indeks agregator untuk akun, output mencantumkan Wilayah yang mereplikasi data ke dalam indeks Region ini.  

```
aws resource-explorer-2 get-index \
    --region us-east-1
```
Output:  

```
{
    "Arn": "arn:aws:resource-explorer-2:us-east-1:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111",
    "CreatedAt": "2022-07-12T18:59:10.503000+00:00",
    "LastUpdatedAt": "2022-07-13T18:41:58.799000+00:00",
    "ReplicatingFrom": [
        "ap-south-1",
        "us-west-2"
    ],
    "State": "ACTIVE",
    "Tags": {},
    "Type": "AGGREGATOR"
}
```
**Contoh 2: Untuk mengambil detail untuk indeks lokal Resource Explorer**  
`get-index`Contoh berikut menampilkan rincian untuk indeks Resource Explorer di AWS Wilayah tertentu. Karena Wilayah yang ditentukan berisi indeks lokal, output mencantumkan Wilayah tempat ia mereplikasi data dari indeks Wilayah ini.  

```
aws resource-explorer-2 get-index \
    --region us-west-2
```
Output:  

```
{
    "Arn": "arn:aws:resource-explorer-2:us-west-2:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222",
    "CreatedAt": "2022-07-12T18:59:10.503000+00:00",
    "LastUpdatedAt": "2022-07-13T18:41:58.799000+00:00",
    "ReplicatingTo": [
        "us-west-2"
    ],
    "State": "ACTIVE",
    "Tags": {},
    "Type": "LOCAL"
}
```
Untuk informasi selengkapnya tentang indeks, lihat [Memeriksa AWS Wilayah mana yang mengaktifkan Resource Explorer di](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-service-check.html) *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [GetIndex](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/get-index.html)di *Referensi AWS CLI Perintah*. 

### `get-view`
<a name="resource-explorer-2_GetView_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-view`.

**AWS CLI**  
**Untuk mengambil detail tentang tampilan Resource Explorer**  
`get-view`Contoh berikut menampilkan rincian tentang tampilan yang ditentukan oleh ARN nya.  

```
aws resource-explorer-2 get-view \
    --view-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111
```
Output:  

```
{
  "Tags" : {},
  "View" : {
        "Filters" : {
            "FilterString" : "service:ec2"
        },
        "IncludedProperties" : [
            {
                "Name" : "tags"
            }
        ],
        "LastUpdatedAt" : "2022-07-13T21:33:45.249Z",
        "Owner" : "123456789012",
        "Scope" : "arn:aws:iam::123456789012:root",
        "ViewArn" : "arn:aws:resource-explorer-2:us-east-1:123456789012:view/EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111"
  }
}
```
Untuk informasi selengkapnya tentang tampilan, lihat [Tentang tampilan Resource Explorer](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-about.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [GetView](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/get-view.html)di *Referensi AWS CLI Perintah*. 

### `list-indexes`
<a name="resource-explorer-2_ListIndexes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-indexes`.

**AWS CLI**  
**Untuk membuat daftar AWS Wilayah tempat Resource Explorer memiliki indeks**  
`list-indexes`Contoh berikut mencantumkan indeks untuk semua Wilayah di mana Resource Explorer memiliki indeks. Respons menentukan jenis setiap indeks, AWS Wilayah, dan ARN-nya.  

```
aws resource-explorer-2 list-indexes
```
Output:  

```
{
    "Indexes": [
        {
            "Arn": "arn:aws:resource-explorer-2:us-west-2:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111",
            "Region": "us-west-2",
            "Type": "AGGREGATOR"
        },
        {
            "Arn": "arn:aws:resource-explorer-2:us-east-1:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222",
            "Region": "us-east-1",
            "Type": "LOCAL"
        },
        {
            "Arn": "arn:aws:resource-explorer-2:us-east-2:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE33333",
            "Region": "us-east-2",
            "Type": "LOCAL"
        },
        {
            "Arn": "arn:aws:resource-explorer-2:us-west-1:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE44444",
            "Region": "us-west-1",
            "Type": "LOCAL"
        }
    ]
}
```
Untuk informasi selengkapnya tentang indeks, lihat [Memeriksa AWS Wilayah mana yang mengaktifkan Resource Explorer di](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-service-check.html) *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [ListIndexes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/list-indexes.html)di *Referensi AWS CLI Perintah*. 

### `list-supported-resource-types`
<a name="resource-explorer-2_ListSupportedResourceTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-supported-resource-types`.

**AWS CLI**  
**Untuk membuat daftar AWS Wilayah tempat Resource Explorer memiliki indeks**  
`list-supported-resource-types`Contoh berikut mencantumkan semua jenis sumber daya yang saat ini didukung oleh &AREXlong;. Contoh respons mencakup `NextToken` nilai, yang menunjukkan bahwa ada lebih banyak output yang tersedia untuk diambil dengan panggilan tambahan.  

```
aws resource-explorer-2 list-supported-resource-types \
    --max-items 10
```
Output:  

```
{
    "ResourceTypes": [
        {
            "ResourceType": "cloudfront:cache-policy",
            "Service": "cloudfront"
        },
        {
            "ResourceType": "cloudfront:distribution",
            "Service": "cloudfront"
        },
        {
            "ResourceType": "cloudfront:function",
            "Service": "cloudfront"
        },
        {
            "ResourceType": "cloudfront:origin-access-identity",
            "Service": "cloudfront"
        },
        {
            "ResourceType": "cloudfront:origin-request-policy",
            "Service": "cloudfront"
        },
        {
            "ResourceType": "cloudfront:realtime-log-config",
            "Service": "cloudfront"
        },
        {
            "ResourceType": "cloudfront:response-headers-policy",
            "Service": "cloudfront"
        },
        {
            "ResourceType": "cloudwatch:alarm",
            "Service": "cloudwatch"
        },
        {
            "ResourceType": "cloudwatch:dashboard",
            "Service": "cloudwatch"
        },
        {
            "ResourceType": "cloudwatch:insight-rule",
            "Service": "cloudwatch"
        }
    ],
    "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAxMH0="
}
```
Untuk mendapatkan bagian berikutnya dari output, panggil operasi lagi, dan berikan nilai `NextToken` respons panggilan sebelumnya sebagai nilai untuk`--starting-token`. `NextToken`Ulangi sampai tidak ada respon.  

```
aws resource-explorer-2 list-supported-resource-types \
    --max-items 10  \
    --starting-token eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAxMH0=
```
Output:  

```
{
    "ResourceTypes": [
        {
            "ResourceType": "cloudwatch:metric-stream",
            "Service": "cloudwatch"
        },
        {
            "ResourceType": "dynamodb:table",
            "Service": "dynamodb"
        },
        {
            "ResourceType": "ec2:capacity-reservation",
            "Service": "ec2"
        },
        {
            "ResourceType": "ec2:capacity-reservation-fleet",
            "Service": "ec2"
        },
        {
            "ResourceType": "ec2:client-vpn-endpoint",
            "Service": "ec2"
        },
        {
            "ResourceType": "ec2:customer-gateway",
            "Service": "ec2"
        },
        {
            "ResourceType": "ec2:dedicated-host",
            "Service": "ec2"
        },
        {
            "ResourceType": "ec2:dhcp-options",
            "Service": "ec2"
        },
        {
            "ResourceType": "ec2:egress-only-internet-gateway",
            "Service": "ec2"
        },
        {
            "ResourceType": "ec2:elastic-gpu",
            "Service": "ec2"
        }
    ],
    "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAyMH0="
}
```
Untuk informasi selengkapnya tentang indeks, lihat [Memeriksa AWS Wilayah mana yang mengaktifkan Resource Explorer di](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-service-check.html) *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [ListSupportedResourceTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/list-supported-resource-types.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="resource-explorer-2_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang dilampirkan ke tampilan atau indeks Resource Explorer**  
`list-tags-for-resource`Contoh berikut mencantumkan kunci tag dan pasangan nilai yang dilampirkan untuk melihat dengan ARN yang ditentukan. Anda harus memanggil operasi dari AWS Wilayah yang berisi sumber daya.  

```
aws resource-explorer-2 list-tags-for-resource \
    --resource-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111
```
Output:  

```
{
    "Tags": {
        "application": "MainCorpApp",
        "department": "1234"
    }
}
```
Untuk informasi selengkapnya tentang menandai tampilan, lihat [Menandai tampilan untuk kontrol akses di Panduan](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-tag.html) *Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-views`
<a name="resource-explorer-2_ListViews_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-views`.

**AWS CLI**  
**Untuk mencantumkan tampilan Resource Explorer yang tersedia di AWS Wilayah**  
`list-views`Contoh berikut mencantumkan semua tampilan yang tersedia di Wilayah tempat Anda menjalankan operasi.  

```
aws resource-explorer-2 list-views
```
Output:  

```
{
    "Views": [
        "arn:aws:resource-explorer-2:us-east-1:123456789012:view/EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111",
        "arn:aws:resource-explorer-2:us-east-1:123456789012:view/Default-All-Resources-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222",
        "arn:aws:resource-explorer-2:us-east-1:123456789012:view/Production-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE33333"
    ]
}
```
Untuk informasi selengkapnya tentang tampilan, lihat [Tentang tampilan Resource Explorer](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-about.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [ListViews](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/list-views.html)di *Referensi AWS CLI Perintah*. 

### `search`
<a name="resource-explorer-2_Search_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search`.

**AWS CLI**  
**Contoh 1: Untuk mencari menggunakan tampilan default**  
`search`Contoh berikut menampilkan semua sumber daya dalam yang ditentukan yang terkait dengan layanan. Pencarian menggunakan tampilan default untuk Wilayah. Contoh respons mencakup `NextToken` nilai, yang menunjukkan bahwa ada lebih banyak output yang tersedia untuk diambil dengan panggilan tambahan.  

```
aws resource-explorer-2 search \
    --query-string "service:iam"
```
Output:  

```
{
    "Count": {
        "Complete": true,
        "TotalResources": 55
    },
    "NextToken": "AG9VOEF1KLEXAMPLEOhJHVwo5chEXAMPLER5XiEpNrgsEXAMPLE...b0CmOFOryHEXAMPLE",
    "Resources": [{
        "Arn": "arn:aws:iam::123456789012:policy/service-role/Some-Policy-For-A-Service-Role",
        "LastReportedAt": "2022-07-21T12:34:42Z",
        "OwningAccountId": "123456789012",
        "Properties": [],
        "Region": "global",
        "ResourceType": "iam:policy",
        "Service": "iam"
    }, {
        "Arn": "arn:aws:iam::123456789012:policy/service-role/Another-Policy-For-A-Service-Role",
        "LastReportedAt": "2022-07-21T12:34:42Z",
        "OwningAccountId": "123456789012",
        "Properties": [],
        "Region": "global",
        "ResourceType": "iam:policy",
        "Service": "iam"
    }, {
       ... TRUNCATED FOR BREVITY ...
    }],
    "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/my-default-view/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111"
}
```
**Contoh 2: Untuk mencari menggunakan tampilan tertentu**  
`search`Contoh pencarian berikut menampilkan semua sumber daya (“\$1”) di AWS Wilayah tertentu yang terlihat melalui tampilan yang ditentukan. Hasilnya hanya mencakup sumber daya yang terkait dengan Amazon EC2 karena filter yang dilampirkan pada tampilan.  

```
aws resource-explorer-2 search \
    -- query-string "*" \
    -- view-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-EC2-view/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222
```
Output:  

```
HTTP/1.1 200 OK
Date: Tue, 01 Nov 2022 20:00:59 GMT
Content-Type: application/json
Content-Length: <PayloadSizeBytes>

    {
        "Count": {
            "Complete": true,
            "TotalResources": 67
        },
        "Resources": [{
            "Arn": "arn:aws:ec2:us-east-1:123456789012:network-acl/acl-1a2b3c4d",
            "LastReportedAt": "2022-07-21T18:52:02Z",
            "OwningAccountId": "123456789012",
            "Properties": [{
                "Data": [{
                    "Key": "Department",
                    "Value": "AppDevelopment"
                }, {
                    "Key": "Environment",
                    "Value": "Production"
                }],
                "LastReportedAt": "2021-11-15T14:48:29Z",
                "Name": "tags"
            }],
            "Region": "us-east-1",
            "ResourceType": "ec2:network-acl",
            "Service": "ec2"
        }, {
            "Arn": "arn:aws:ec2:us-east-1:123456789012:subnet/subnet-1a2b3c4d",
            "LastReportedAt": "2022-07-21T21:22:23Z",
            "OwningAccountId": "123456789012",
            "Properties": [{
                "Data": [{
                    "Key": "Department",
                    "Value": "AppDevelopment"
                }, {
                    "Key": "Environment",
                    "Value": "Production"
                }],
                "LastReportedAt": "2021-07-29T19:02:39Z",
                "Name": "tags"
            }],
            "Region": "us-east-1",
            "ResourceType": "ec2:subnet",
            "Service": "ec2"
        }, {
            "Arn": "arn:aws:ec2:us-east-1:123456789012:dhcp-options/dopt-1a2b3c4d",
            "LastReportedAt": "2022-07-21T06:08:53Z",
            "OwningAccountId": "123456789012",
            "Properties": [{
                "Data": [{
                    "Key": "Department",
                    "Value": "AppDevelopment"
                }, {
                    "Key": "Environment",
                    "Value": "Production"
                }],
                "LastReportedAt": "2021-11-15T15:11:05Z",
                "Name": "tags"
            }],
            "Region": "us-east-1",
            "ResourceType": "ec2:dhcpoptions",
            "Service": "ec2"
        }, {
            ... TRUNCATED FOR BREVITY ...
        }],
        "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-EC2-view/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222"
    }
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS Resource Explorer untuk mencari sumber daya](https://docs.aws.amazon.com/resource-explorer/latest/userguide/using-search.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [Cari](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/search.html) di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="resource-explorer-2_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menandai tampilan Resource Explorer**  
`tag-resource`Contoh berikut menambahkan kunci tag “lingkungan” dengan nilai “produksi” ke tampilan dengan ARN yang ditentukan.  

```
aws resource-explorer-2 tag-resource \
    --resource-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-View//EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111 \
    --tags environment=production
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai tampilan untuk kontrol akses](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-tag.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="resource-explorer-2_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari tampilan Resource Explorer**  
`untag-resource`Contoh berikut menghapus tag apa pun dengan nama kunci “lingkungan” dari tampilan dengan ARN yang ditentukan.  

```
aws resource-explorer-2 untag-resource \
    --resource-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-View//EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111 \
    --tag-keys environment
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai tampilan untuk kontrol akses](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-tag.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-index-type`
<a name="resource-explorer-2_UpdateIndexType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-index-type`.

**AWS CLI**  
**Untuk mengubah jenis indeks Resource Explorer**  
`update-index-type`Contoh berikut mengonversi indeks yang ditentukan dari jenis `local` ke jenis `aggregator` untuk mengaktifkan kemampuan untuk mencari sumber daya di semua AWS Wilayah dalam akun. Anda harus mengirim permintaan ke AWS Wilayah yang berisi indeks yang ingin Anda perbarui.  

```
aws resource-explorer-2 update-index-type \
    --arn arn:aws:resource-explorer-2:us-east-1:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111 \
    --type aggregator \
    --region us-east-1
```
Output:  

```
{
    "Arn":"arn:aws:resource-explorer-2:us-east-1:123456789012:index/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111",
    "LastUpdatedAt":"2022-07-13T18:41:58.799Z",
    "State":"updating",
    "Type":"aggregator"
}
```
Untuk informasi selengkapnya tentang mengubah jenis indeks, lihat [Mengaktifkan pencarian lintas wilayah dengan membuat indeks agregator](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-aggregator-region.html) di Panduan *Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [UpdateIndexType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/update-index-type.html)di *Referensi AWS CLI Perintah*. 

### `update-view`
<a name="resource-explorer-2_UpdateView_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-view`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui IncludedProperties bidang untuk tampilan Resource Explorer**  
`update-view`Contoh berikut memperbarui tampilan yang ditentukan dengan menambahkan ``tags`` ke opsional``IncludedProperties``. Setelah menjalankan operasi ini, operasi pencarian yang menggunakan tampilan ini menyertakan informasi tentang tag yang dilampirkan ke sumber daya yang muncul di hasil.  

```
aws resource-explorer-2 update-view \
    --included-properties Name=tags \
    --view-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222
```
Output:  

```
{
    "View": {
        "Filters": {
            "FilterString": ""
        },
        "IncludedProperties": [
            {
                "Name": "tags"
            }
        ],
        "LastUpdatedAt": "2022-07-19T17:41:21.710000+00:00",
        "Owner": "123456789012",
        "Scope": "arn:aws:iam::123456789012:root",
        "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-EC2-Only-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE11111"
    }
}
```
**Contoh 2: Untuk memperbarui filter yang dilampirkan ke tampilan**  
`update-view`Contoh berikut memperbarui tampilan yang ditentukan untuk menggunakan filter yang membatasi hasil hanya pada jenis sumber daya yang terkait dengan layanan Amazon EC2.  

```
aws resource-explorer-2 update-view \
    --filters FilterString="service:ec2" \
    --view-arn arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222
```
Output:  

```
{
    "View": {
    "Filters": {
        "FilterString": "service:ec2"
    },
    "IncludedProperties": [],
    "LastUpdatedAt": "2022-07-19T17:41:21.710000+00:00",
        "Owner": "123456789012",
        "Scope": "arn:aws:iam::123456789012:root",
        "ViewArn": "arn:aws:resource-explorer-2:us-east-1:123456789012:view/My-View/EXAMPLE8-90ab-cdef-fedc-EXAMPLE22222"
    }
}
```
Untuk informasi selengkapnya tentang tampilan, lihat [Tentang tampilan Resource Explorer](https://docs.aws.amazon.com/resource-explorer/latest/userguide/manage-views-about.html) di *Panduan Pengguna AWS Resource Explorer*.  
+  Untuk detail API, lihat [UpdateView](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-explorer-2/update-view.html)di *Referensi AWS CLI Perintah*. 

# Contoh Resource Groups menggunakan AWS CLI
<a name="cli_2_resource-groups_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Resource Groups.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-group`
<a name="resource-groups_CreateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group`.

**AWS CLI**  
**Contoh 1: Untuk membuat grup sumber daya berbasis tag**  
`create-group`Contoh berikut membuat grup sumber daya berbasis tag dari instans Amazon EC2 di wilayah saat ini. Ini didasarkan pada kueri untuk sumber daya yang ditandai dengan kunci`Name`, dan nilainya`WebServers`. Nama grup adalah`tbq-WebServer`. Kueri berada dalam file JSON terpisah yang diteruskan ke perintah.  

```
aws resource-groups create-group \
    --name tbq-WebServer \
    --resource-query file://query.json
```
Isi dari `query.json`:  

```
{
    "Type": "TAG_FILTERS_1_0",
    "Query": "{\"ResourceTypeFilters\":[\"AWS::EC2::Instance\"],\"TagFilters\":[{\"Key\":\"Name\", \"Values\":[\"WebServers\"]}]}"
}
```
Output:  

```
{
    "Group": {
        "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer",
        "Name": "tbq-WebServer"
    },
    "ResourceQuery": {
        "Type": "TAG_FILTERS_1_0",
        "Query": "{\"ResourceTypeFilters\":[\"AWS::EC2::Instance\"],\"TagFilters\":[{\"Key\":\"Name\", \"Values\":[\"WebServers\"]}]}"
    }
}
```
**Contoh 2: Untuk membuat grup sumber CloudFormation daya berbasis tumpukan**  
`create-group`Contoh berikut membuat grup sumber daya AWS CloudFormation berbasis tumpukan bernama. `sampleCFNstackgroup` Kueri mencakup semua sumber daya dalam CloudFormation tumpukan tertentu yang didukung oleh AWS Resource Groups.  

```
aws resource-groups create-group \
    --name cbq-CFNstackgroup \
    --resource-query file://query.json
```
Isi dari `query.json`:  

```
{
    "Type": "CLOUDFORMATION_STACK_1_0",
    "Query": "{\"ResourceTypeFilters\":[\"AWS::AllSupported\"],\"StackIdentifier\":\"arn:aws:cloudformation:us-west-2:123456789012:stack/MyCFNStack/1415z9z0-z39z-11z8-97z5-500z212zz6fz\"}"
}
```
Output:  

```
{
    "Group": {
        "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/cbq-CFNstackgroup",
        "Name": "cbq-CFNstackgroup"
    },
    "ResourceQuery": {
        "Type": "CLOUDFORMATION_STACK_1_0",
        "Query": "{\"ResourceTypeFilters\":[\"AWS::AllSupported\"],\"StackIdentifier\":\"arn:aws:cloudformation:us-east-2:123456789012:stack/MyCFNStack/1415z9z0-z39z-11z8-97z5-500z212zz6fz\"}"}'
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Grup](https://docs.aws.amazon.com/ARG/latest/userguide/gettingstarted-query.html) di *Panduan Pengguna AWS Resource Groups*.  
+  Untuk detail API, lihat [CreateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/create-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-group`
<a name="resource-groups_DeleteGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group`.

**AWS CLI**  
**Untuk memperbarui deskripsi untuk grup sumber daya**  
`delete-group`Contoh berikut memperbarui grup sumber daya yang ditentukan.  

```
aws resource-groups delete-group \
    --group-name tbq-WebServer
```
Output:  

```
{
    "Group": {
        "GroupArn": "arn:aws:resource-groups:us-west-2:1234567890:group/tbq-WebServer",
        "Name": "tbq-WebServer"
    }
}
```
Untuk selengkapnya, lihat [Menghapus Grup](https://docs.aws.amazon.com/ARG/latest/userguide/deleting-resource-groups.html) di *Panduan Pengguna AWS Resource Groups*.  
+  Untuk detail API, lihat [DeleteGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/delete-group.html)di *Referensi AWS CLI Perintah*. 

### `get-group-query`
<a name="resource-groups_GetGroupQuery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group-query`.

**AWS CLI**  
**Untuk mendapatkan kueri yang dilampirkan ke grup sumber daya**  
`get-group-query`Contoh berikut menampilkan query yang dilampirkan ke kelompok sumber daya tertentu.  

```
aws resource-groups get-group-query \
    --group-name tbq-WebServer
```
Output:  

```
{
    "GroupQuery": {
        "GroupName": "tbq-WebServer",
        "ResourceQuery": {
            "Type": "TAG_FILTERS_1_0",
            "Query": "{\"ResourceTypeFilters\":[\"AWS::EC2::Instance\"],\"TagFilters\":[{\"Key\":\"Name\", \"Values\":[\"WebServers\"]}]}"
        }
    }
}
```
+  Untuk detail API, lihat [GetGroupQuery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/get-group-query.html)di *Referensi AWS CLI Perintah*. 

### `get-group`
<a name="resource-groups_GetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang grup sumber daya**  
`get-group`Contoh berikut menampilkan rincian tentang kelompok sumber daya yang ditentukan. Untuk mendapatkan kueri yang dilampirkan ke grup, gunakan`get-group-query`.  

```
aws resource-groups get-group \
    --group-name tbq-WebServer
```
Output:  

```
{
    "Group": {
        "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer",
        "Name": "tbq-WebServer",
        "Description": "A tag-based query resource group of WebServers."
    }
}
```
+  Untuk detail API, lihat [GetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/get-group.html)di *Referensi AWS CLI Perintah*. 

### `get-tags`
<a name="resource-groups_GetTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-tags`.

**AWS CLI**  
**Untuk mengambil tag yang dilampirkan ke grup sumber daya**  
`get-tags`Contoh berikut menampilkan kunci tag dan pasangan nilai yang dilampirkan ke grup sumber daya tertentu (grup itu sendiri, bukan anggotanya).  

```
aws resource-groups get-tags \
    --arn arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer
```
Output:  

```
{
    "Arn": "arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer",
    "Tags": {
        "QueryType": "tags",
        "QueryResources": "ec2-instances"
    }
}
```
+  Untuk detail API, lihat [GetTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/get-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-group-resources`
<a name="resource-groups_ListGroupResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-group-resources`.

**AWS CLI**  
**Untuk membuat daftar semua sumber daya dalam grup sumber daya**  
Contoh 1: `list-resource-groups` Contoh berikut mencantumkan semua sumber daya yang merupakan bagian dari grup sumber daya yang ditentukan.  

```
aws resource-groups list-group-resources \
    --group-name tbq-WebServer
```
Output:  

```
{
    "ResourceIdentifiers": [
        {
            "ResourceArn": "arn:aws:ec2:us-west-2:123456789012:instance/i-09f77fa38c12345ab",
            "ResourceType": "AWS::EC2::Instance"
        }
    ]
}
```
Contoh 2: Contoh berikut mencantumkan semua sumber daya dalam grup yang juga memiliki 'tipe sumber daya' dari ': :EC2: :Instance'AWS. :  
aws resource-groups list-group-resources --group-name tbq- WebServer --filters name=Resource-type, Values=: :EC2: :Instance AWS  
+  Untuk detail API, lihat [ListGroupResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/list-group-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-groups`
<a name="resource-groups_ListGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups`.

**AWS CLI**  
**Untuk daftar grup sumber daya yang tersedia**  
`list-groups`Contoh berikut menampilkan daftar semua kelompok sumber daya.  

```
aws resource-groups list-groups
```
Output:  

```
{
    "GroupIdentifiers": [
        {
            "GroupName": "tbq-WebServer",
            "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer3"
        },
        {
            "GroupName": "cbq-CFNStackQuery",
            "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/cbq-CFNStackQuery"
        }
    ],
    "Groups": [
        {
            "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer",
            "Name": "tbq-WebServer"
        },
        {
            "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/cbq-CFNStackQuery",
            "Name": "cbq-CFNStackQuery"
        }
    ]
}
```
+  Untuk detail API, lihat [ListGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/list-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-groups`
<a name="resource-groups_ListResourceGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-groups`.

**AWS CLI**  
**Untuk membuat daftar semua sumber daya dalam grup sumber daya**  
`list-resource-groups`Contoh berikut mencantumkan semua sumber daya yang merupakan bagian dari kelompok sumber daya yang ditentukan.  

```
aws resource-groups list-group-resources \
    --group-name tbq-WebServer
```
Output:  

```
{
    "ResourceIdentifiers": [
        {
            "ResourceArn": "arn:aws:ec2:us-west-2:123456789012:instance/i-09f77fa38c12345ab",
            "ResourceType": "AWS::EC2::Instance"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourceGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/list-resource-groups.html)di *Referensi AWS CLI Perintah*. 

### `put-group-configuration`
<a name="resource-groups_PutGroupConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-group-configuration`.

**AWS CLI**  
**Untuk melampirkan konfigurasi layanan ke grup sumber daya**  
Contoh 1: `put-group-configuration` Contoh berikut menentukan bahwa grup sumber daya hanya berisi reservasi kapasitas Amazon EC2 untuk instans dalam atau keluarga. `C5` `M5`  

```
aws resource-groups put-group-configuration \
    --group MyTestGroup \
    --configuration file://config.json
```
Isi dari `config.json`:  

```
[
    {
        "Type": "AWS::EC2::HostManagement",
        "Parameters": [
            {
                "Name": "allowed-host-families",
                "Values": [ "c5", "m5" ]
            },
                {
                    "Name": "any-host-based-license-configuration",
                    "Values": [ "true" ]
                }
        ]
    },
    {
        "Type": "AWS::ResourceGroups::Generic",
        "Parameters": [
            {
                "Name": "allowed-resource-types",
                "Values": [ "AWS::EC2::Host" ]
            },
            {
                "Name": "deletion-protection",
                "Values": [ "UNLESS_EMPTY" ]
            }
        ]
    }
]
```
Perintah ini tidak menghasilkan output jika berhasil.  
Untuk informasi selengkapnya, lihat [Konfigurasi layanan untuk grup sumber daya](https://docs.aws.amazon.com/ARG/latest/APIReference/about-slg.html) di *Panduan Referensi API Resource Groups*.  
+  Untuk detail API, lihat [PutGroupConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/put-group-configuration.html)di *Referensi AWS CLI Perintah*. 

### `search-resources`
<a name="resource-groups_SearchResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-resources`.

**AWS CLI**  
**Untuk menemukan sumber daya yang cocok dengan kueri**  
`search-resources`Contoh berikut mengambil daftar semua AWS sumber daya yang cocok dengan query yang ditentukan.  

```
aws resource-groups search-resources \
    --resource-query file://query.json
```
Isi dari `query.json`:  

```
{
    "Type": "TAG_FILTERS_1_0",
    "Query": "{\"ResourceTypeFilters\":[\"AWS::EC2::Instance\"],\"TagFilters\":[{\"Key\":\"Patch Group\", \"Values\":[\"Dev\"]}]}"
}
```
Output:  

```
{
    "ResourceIdentifiers": [
        {
            "ResourceArn": "arn:aws:ec2:us-west-2:123456789012:instance/i-01a23bc45d67890ef",
            "ResourceType": "AWS::EC2::Instance"
        }
    ]
}
```
+  Untuk detail API, lihat [SearchResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/search-resources.html)di *Referensi AWS CLI Perintah*. 

### `tag`
<a name="resource-groups_Tag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag`.

**AWS CLI**  
**Untuk melampirkan tag ke grup sumber daya**  
`tag`Contoh berikut melampirkan kunci tag yang ditentukan dan pasangan nilai ke grup sumber daya tertentu (grup itu sendiri, bukan anggotanya).  

```
aws resource-groups tag \
    --tags QueryType=tags,QueryResources=ec2-instances \
    --arn arn:aws:resource-groups:us-west-2:128716708097:group/tbq-WebServer
```
Output:  

```
{
    "Arn": "arn:aws:resource-groups:us-west-2:128716708097:group/tbq-WebServer",
    "Tags": {
        "QueryType": "tags",
        "QueryResources": "ec2-instances"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola tag](https://docs.aws.amazon.com/ARG/latest/userguide/tagging-resources.html) di *Panduan Pengguna AWS Resource Groups*.  
+  Untuk detail API, lihat [Tag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/tag.html) di *Referensi AWS CLI Perintah*. 

### `untag`
<a name="resource-groups_Untag_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag`.

**AWS CLI**  
**Untuk menghapus tag dari grup sumber daya**  
`untags`Contoh berikut menghapus tag apa pun dengan kunci yang ditentukan dari grup sumber daya itu sendiri, bukan anggotanya.  

```
aws resource-groups untag \
    --arn arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer \
    --keys QueryType
```
Output:  

```
{
    "Arn": "arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer",
    "Keys": [
        "QueryType"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola tag](https://docs.aws.amazon.com/ARG/latest/userguide/tagging-resources.html) di *Panduan Pengguna AWS Resource Groups*.  
+  Untuk detail API, lihat [Untag](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/untag.html) di *Referensi AWS CLI Perintah*. 

### `update-group-query`
<a name="resource-groups_UpdateGroupQuery_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-group-query`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui kueri untuk grup sumber daya berbasis tag**  
`update-group-query`Contoh berikut memperbarui kueri yang dilampirkan ke grup sumber daya berbasis tag yang ditentukan.  

```
aws resource-groups update-group-query \
    --group-name tbq-WebServer \
    --resource-query '{"Type":"TAG_FILTERS_1_0", "Query":"{\"ResourceTypeFilters\":[\"AWS::EC2::Instance\"],\"TagFilters\":[{\"Key\":\"Name\", \"Values\":[\"WebServers\"]}]}"}'
```
Output:  

```
{
    "Group": {
        "GroupArn": "arn:aws:resource-groups:us-east-2:123456789012:group/tbq-WebServer",
        "Name": "tbq-WebServer"
    },
    "ResourceQuery": {
        "Type": "TAG_FILTERS_1_0",
        "Query": "{\"ResourceTypeFilters\":[\"AWS::EC2::Instance\"],\"TagFilters\":[{\"Key\":\"Name\", \"Values\":[\"WebServers\"]}]}"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Grup](https://docs.aws.amazon.com/ARG/latest/userguide/updating-resource-groups.html) di *Panduan Pengguna AWS Resource Groups*.  
**Contoh 2: Untuk memperbarui kueri untuk grup sumber daya CloudFormation berbasis tumpukan**  
`update-group-query`Contoh berikut memperbarui kueri yang dilampirkan ke grup sumber daya AWS CloudFormation berbasis tumpukan yang ditentukan.  

```
aws resource-groups update-group-query \
    --group-name cbq-CFNstackgroup \
    --resource-query '{"Type": "CLOUDFORMATION_STACK_1_0", "Query": "{\"ResourceTypeFilters\":[\"AWS::AllSupported\"],\"StackIdentifier\":\"arn:aws:cloudformation:us-west-2:123456789012:stack/MyCFNStack/1415z9z0-z39z-11z8-97z5-500z212zz6fz\"}"}'
```
Output:  

```
{
    "Group": {
        "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/cbq-CFNstackgroup",
        "Name": "cbq-CFNstackgroup"
    },
    "ResourceQuery": {
        "Type": "CLOUDFORMATION_STACK_1_0",
        "Query": "{\"ResourceTypeFilters\":[\"AWS::AllSupported\"],\"StackIdentifier\":\"arn:aws:cloudformation:us-west-2:123456789012:stack/MyCFNStack/1415z9z0-z39z-11z8-97z5-500z212zz6fz\"}"
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Grup](https://docs.aws.amazon.com/ARG/latest/userguide/updating-resource-groups.html) di *Panduan Pengguna AWS Resource Groups*.  
+  Untuk detail API, lihat [UpdateGroupQuery](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/update-group-query.html)di *Referensi AWS CLI Perintah*. 

### `update-group`
<a name="resource-groups_UpdateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-group`.

**AWS CLI**  
**Untuk memperbarui deskripsi untuk grup sumber daya**  
`update-group`Contoh berikut memperbarui deskripsi untuk grup sumber daya yang ditentukan.  

```
aws resource-groups update-group \
    --group-name tbq-WebServer \
    --description "Resource group for all web server resources."
```
Output:  

```
{
    "Group": {
        "GroupArn": "arn:aws:resource-groups:us-west-2:123456789012:group/tbq-WebServer",
        "Name": "tbq-WebServer"
        "Description": "Resource group for all web server resources."
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Grup](https://docs.aws.amazon.com/ARG/latest/userguide/updating-resource-groups.html) di *Panduan Pengguna AWS Resource Groups*.  
+  Untuk detail API, lihat [UpdateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resource-groups/update-group.html)di *Referensi AWS CLI Perintah*. 

# Contoh API Penandaan Resource Groups menggunakan AWS CLI
<a name="cli_2_resource-groups-tagging-api_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan API Penandaan AWS Command Line Interface With Resource Groups.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `get-resources`
<a name="resource-groups-tagging-api_GetResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resources`.

**AWS CLI**  
**Untuk mendapatkan daftar sumber daya yang ditandai**  
`get-resources`Contoh berikut menampilkan daftar sumber daya di akun yang ditandai dengan nama kunci dan nilai yang ditentukan.  

```
aws resourcegroupstaggingapi get-resources \
    --tag-filters Key=Environment,Values=Production \
    --tags-per-page 100
```
Output:  

```
{
    "ResourceTagMappingList": [
        {
            "ResourceARN": " arn:aws:inspector:us-west-2:123456789012:target/0-nvgVhaxX/template/0-7sbz2Kz0",
            "Tags": [
                {
                    "Key": "Environment",
                    "Value": "Production"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [GetResources](https://docs.aws.amazon.com/resourcegroupstagging/latest/APIReference/API_GetResources.html)di *Referensi API Penandaan Resource Groups*.  
+  Untuk detail API, lihat [GetResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resourcegroupstaggingapi/get-resources.html)di *Referensi AWS CLI Perintah*. 

### `get-tag-keys`
<a name="resource-groups-tagging-api_GetTagKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-tag-keys`.

**AWS CLI**  
**Untuk mendapatkan daftar semua kunci tag**  
`get-tag-keys`Contoh berikut mengambil daftar semua nama kunci tag yang digunakan oleh sumber daya di akun.  

```
aws resourcegroupstaggingapi get-tag-keys
```
Output:  

```
{
    "TagKeys": [
        "Environment",
        "CostCenter",
        "Department"
    ]
}
```
Untuk informasi selengkapnya, lihat [GetTagKeys](https://docs.aws.amazon.com/resourcegroupstagging/latest/APIReference/API_GetTagKeys.html)di *Referensi API Penandaan Resource Groups*.  
+  Untuk detail API, lihat [GetTagKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resourcegroupstaggingapi/get-tag-keys.html)di *Referensi AWS CLI Perintah*. 

### `get-tag-values`
<a name="resource-groups-tagging-api_GetTagValues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-tag-values`.

**AWS CLI**  
**Untuk mendapatkan daftar semua nilai tag**  
`get-tag-values`Contoh berikut menampilkan semua nilai yang digunakan untuk kunci yang ditentukan untuk semua sumber daya di  

```
aws resourcegroupstaggingapi get-tag-values \
    --key=Environment
```
Output:  

```
{
    "TagValues": [
        "Alpha",
        "Gamma",
        "Production"
    ]
}
```
Untuk informasi selengkapnya, lihat [GetTagValues](https://docs.aws.amazon.com/resourcegroupstagging/latest/APIReference/API_GetTagValues.html)di *Referensi API Penandaan Resource Groups*.  
+  Untuk detail API, lihat [GetTagValues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resourcegroupstaggingapi/get-tag-values.html)di *Referensi AWS CLI Perintah*. 

### `tag-resources`
<a name="resource-groups-tagging-api_TagResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resources`.

**AWS CLI**  
**Untuk melampirkan tag ke sumber daya**  
`tag-resources`Contoh berikut menandai sumber daya yang ditentukan dengan nama kunci dan nilai.  

```
aws resourcegroupstaggingapi tag-resources \
    --resource-arn-list arn:aws:s3:::MyProductionBucket \
    --tags Environment=Production,CostCenter=1234
```
Output:  

```
{
    "FailedResourcesMap": {}
}
```
Untuk informasi selengkapnya, lihat [TagResources](https://docs.aws.amazon.com/resourcegroupstagging/latest/APIReference/API_TagResources.html)di *Referensi API Penandaan Resource Groups*.  
+  Untuk detail API, lihat [TagResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resourcegroupstaggingapi/tag-resources.html)di *Referensi AWS CLI Perintah*. 

### `untag-resources`
<a name="resource-groups-tagging-api_UntagResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resources`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya**  
`untag-resources`Contoh berikut menghapus kunci tag yang ditentukan dan nilai terkait dari sumber daya yang ditentukan.  

```
aws resourcegroupstaggingapi untag-resources \
    --resource-arn-list arn:aws:s3:::amzn-s3-demo-bucket \
    --tag-keys Environment CostCenter
```
Output:  

```
{
    "FailedResourcesMap": {}
}
```
Untuk informasi selengkapnya, lihat [UntagResources](https://docs.aws.amazon.com/resourcegroupstagging/latest/APIReference/API_UntagResources.html)di *Referensi API Penandaan Resource Groups*.  
+  Untuk detail API, lihat [UntagResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/resourcegroupstaggingapi/untag-resources.html)di *Referensi AWS CLI Perintah*. 

# Rute 53 contoh menggunakan AWS CLI
<a name="cli_2_route-53_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Route 53.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `change-resource-record-sets`
<a name="route-53_ChangeResourceRecordSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`change-resource-record-sets`.

**AWS CLI**  
**Untuk membuat, memperbarui, atau menghapus kumpulan catatan sumber daya**  
`change-resource-record-sets`Perintah berikut membuat catatan sumber daya yang ditetapkan menggunakan `hosted-zone-id` `Z1R8UBAEXAMPLE` dan konfigurasi berformat JSON dalam file: `C:\awscli\route53\change-resource-record-sets.json`  

```
aws route53 change-resource-record-sets --hosted-zone-id Z1R8UBAEXAMPLE --change-batch file://C:\awscli\route53\change-resource-record-sets.json
```
Untuk informasi selengkapnya, lihat POST ChangeResourceRecordSets di *Referensi API Amazon Route 53*.  
Konfigurasi dalam file JSON tergantung pada jenis kumpulan catatan sumber daya yang ingin Anda buat:  
BasicWeightedAliasWeighted AliasLatencyLatency AliasFailoverFailover Alias  
**Sintaks dasar**:  

```
{
  "Comment": "optional comment about the changes in this change batch request",
  "Changes": [
    {
      "Action": "CREATE"|"DELETE"|"UPSERT",
      "ResourceRecordSet": {
        "Name": "DNS domain name",
        "Type": "SOA"|"A"|"TXT"|"NS"|"CNAME"|"MX"|"PTR"|"SRV"|"SPF"|"AAAA",
        "TTL": time to live in seconds,
        "ResourceRecords": [
          {
            "Value": "applicable value for the record type"
          },
          {...}
        ]
      }
    },
    {...}
  ]
}
```
**Sintaks tertimbang**:  

```
{
  "Comment": "optional comment about the changes in this change batch request",
  "Changes": [
    {
      "Action": "CREATE"|"DELETE"|"UPSERT",
      "ResourceRecordSet": {
        "Name": "DNS domain name",
        "Type": "SOA"|"A"|"TXT"|"NS"|"CNAME"|"MX"|"PTR"|"SRV"|"SPF"|"AAAA",
        "SetIdentifier": "unique description for this resource record set",
        "Weight": value between 0 and 255,
        "TTL": time to live in seconds,
        "ResourceRecords": [
          {
            "Value": "applicable value for the record type"
          },
          {...}
        ],
        "HealthCheckId": "optional ID of an Amazon Route 53 health check"
      }
    },
    {...}
  ]
}
```
**Sintaks Alias**:  

```
{
  "Comment": "optional comment about the changes in this change batch request",
  "Changes": [
    {
      "Action": "CREATE"|"DELETE"|"UPSERT",
      "ResourceRecordSet": {
        "Name": "DNS domain name",
        "Type": "SOA"|"A"|"TXT"|"NS"|"CNAME"|"MX"|"PTR"|"SRV"|"SPF"|"AAAA",
        "AliasTarget": {
          "HostedZoneId": "hosted zone ID for your CloudFront distribution, Amazon S3 bucket, Elastic Load Balancing load balancer, or Amazon Route 53 hosted zone",
          "DNSName": "DNS domain name for your CloudFront distribution, Amazon S3 bucket, Elastic Load Balancing load balancer, or another resource record set in this hosted zone",
          "EvaluateTargetHealth": true|false
        },
        "HealthCheckId": "optional ID of an Amazon Route 53 health check"
      }
    },
    {...}
  ]
}
```
Sintaks **Alias Tertimbang**:  

```
{
  "Comment": "optional comment about the changes in this change batch request",
  "Changes": [
    {
      "Action": "CREATE"|"DELETE"|"UPSERT",
      "ResourceRecordSet": {
        "Name": "DNS domain name",
        "Type": "SOA"|"A"|"TXT"|"NS"|"CNAME"|"MX"|"PTR"|"SRV"|"SPF"|"AAAA",
        "SetIdentifier": "unique description for this resource record set",
        "Weight": value between 0 and 255,
        "AliasTarget": {
          "HostedZoneId": "hosted zone ID for your CloudFront distribution, Amazon S3 bucket, Elastic Load Balancing load balancer, or Amazon Route 53 hosted zone",
          "DNSName": "DNS domain name for your CloudFront distribution, Amazon S3 bucket, Elastic Load Balancing load balancer, or another resource record set in this hosted zone",
          "EvaluateTargetHealth": true|false
        },
        "HealthCheckId": "optional ID of an Amazon Route 53 health check"
      }
    },
    {...}
  ]
}
```
**Sintaks Latensi**:  

```
{
  "Comment": "optional comment about the changes in this change batch request",
  "Changes": [
    {
      "Action": "CREATE"|"DELETE"|"UPSERT",
      "ResourceRecordSet": {
        "Name": "DNS domain name",
        "Type": "SOA"|"A"|"TXT"|"NS"|"CNAME"|"MX"|"PTR"|"SRV"|"SPF"|"AAAA",
        "SetIdentifier": "unique description for this resource record set",
        "Region": "Amazon EC2 region name",
        "TTL": time to live in seconds,
        "ResourceRecords": [
          {
            "Value": "applicable value for the record type"
          },
          {...}
        ],
        "HealthCheckId": "optional ID of an Amazon Route 53 health check"
      }
    },
    {...}
  ]
}
```
Sintaks **Alias Latensi**:  

```
{
  "Comment": "optional comment about the changes in this change batch request",
  "Changes": [
    {
      "Action": "CREATE"|"DELETE"|"UPSERT",
      "ResourceRecordSet": {
        "Name": "DNS domain name",
        "Type": "SOA"|"A"|"TXT"|"NS"|"CNAME"|"MX"|"PTR"|"SRV"|"SPF"|"AAAA",
        "SetIdentifier": "unique description for this resource record set",
        "Region": "Amazon EC2 region name",
        "AliasTarget": {
          "HostedZoneId": "hosted zone ID for your CloudFront distribution, Amazon S3 bucket, Elastic Load Balancing load balancer, or Amazon Route 53 hosted zone",
          "DNSName": "DNS domain name for your CloudFront distribution, Amazon S3 bucket, Elastic Load Balancing load balancer, or another resource record set in this hosted zone",
          "EvaluateTargetHealth": true|false
        },
        "HealthCheckId": "optional ID of an Amazon Route 53 health check"
      }
    },
    {...}
  ]
}
```
**Sintaks Failover**:  

```
{
  "Comment": "optional comment about the changes in this change batch request",
  "Changes": [
    {
      "Action": "CREATE"|"DELETE"|"UPSERT",
      "ResourceRecordSet": {
        "Name": "DNS domain name",
        "Type": "SOA"|"A"|"TXT"|"NS"|"CNAME"|"MX"|"PTR"|"SRV"|"SPF"|"AAAA",
        "SetIdentifier": "unique description for this resource record set",
        "Failover": "PRIMARY" | "SECONDARY",
        "TTL": time to live in seconds,
        "ResourceRecords": [
          {
            "Value": "applicable value for the record type"
          },
          {...}
        ],
        "HealthCheckId": "ID of an Amazon Route 53 health check"
      }
    },
    {...}
  ]
}
```
Sintaks **Alias Failover**:  

```
{
  "Comment": "optional comment about the changes in this change batch request",
  "Changes": [
    {
      "Action": "CREATE"|"DELETE"|"UPSERT",
      "ResourceRecordSet": {
        "Name": "DNS domain name",
        "Type": "SOA"|"A"|"TXT"|"NS"|"CNAME"|"MX"|"PTR"|"SRV"|"SPF"|"AAAA",
        "SetIdentifier": "unique description for this resource record set",
        "Failover": "PRIMARY" | "SECONDARY",
        "AliasTarget": {
          "HostedZoneId": "hosted zone ID for your CloudFront distribution, Amazon S3 bucket, Elastic Load Balancing load balancer, or Amazon Route 53 hosted zone",
          "DNSName": "DNS domain name for your CloudFront distribution, Amazon S3 bucket, Elastic Load Balancing load balancer, or another resource record set in this hosted zone",
          "EvaluateTargetHealth": true|false
        },
        "HealthCheckId": "optional ID of an Amazon Route 53 health check"
      }
    },
    {...}
  ]
}
```
+  Untuk detail API, lihat [ChangeResourceRecordSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/change-resource-record-sets.html)di *Referensi AWS CLI Perintah*. 

### `change-tags-for-resource`
<a name="route-53_ChangeTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`change-tags-for-resource`.

**AWS CLI**  
Perintah berikut menambahkan tag bernama `owner` ke sumber daya pemeriksaan kesehatan yang ditentukan oleh ID:  

```
aws route53 change-tags-for-resource --resource-type healthcheck --resource-id 6233434j-18c1-34433-ba8e-3443434 --add-tags Key=owner,Value=myboss
```
Perintah berikut menghapus tag bernama `owner` dari sumber daya zona host yang ditentukan oleh ID:  

```
aws route53 change-tags-for-resource --resource-type hostedzone --resource-id Z1523434445 --remove-tag-keys owner
```
+  Untuk detail API, lihat [ChangeTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/change-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `create-health-check`
<a name="route-53_CreateHealthCheck_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-health-check`.

**AWS CLI**  
**Untuk membuat pemeriksaan kesehatan**  
`create-health-check`Perintah berikut membuat pemeriksaan kesehatan menggunakan referensi pemanggil `2014-04-01-18:47` dan konfigurasi berformat JSON dalam file: `C:\awscli\route53\create-health-check.json`  

```
aws route53 create-health-check --caller-reference 2014-04-01-18:47 --health-check-config file://C:\awscli\route53\create-health-check.json
```
Sintaks JSON:  

```
{
  "IPAddress": "IP address of the endpoint to check",
  "Port": port on the endpoint to check--required when Type is "TCP",
  "Type": "HTTP"|"HTTPS"|"HTTP_STR_MATCH"|"HTTPS_STR_MATCH"|"TCP",
  "ResourcePath": "path of the file that you want Amazon Route 53 to request--all Types except TCP",
  "FullyQualifiedDomainName": "domain name of the endpoint to check--all Types except TCP",
  "SearchString": "if Type is HTTP_STR_MATCH or HTTPS_STR_MATCH, the string to search for in the response body from the specified resource",
  "RequestInterval": 10 | 30,
  "FailureThreshold": integer between 1 and 10
}
```
Untuk menambahkan pemeriksaan kesehatan ke kumpulan catatan sumber daya Route 53, gunakan `change-resource-record-sets` perintah.  
Untuk informasi selengkapnya, lihat Amazon Route 53 Health Checks dan DNS Failover di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [CreateHealthCheck](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/create-health-check.html)di *Referensi AWS CLI Perintah*. 

### `create-hosted-zone`
<a name="route-53_CreateHostedZone_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-hosted-zone`.

**AWS CLI**  
**Untuk membuat zona yang dihosting**  
`create-hosted-zone`Perintah berikut menambahkan zona host bernama `example.com` menggunakan referensi `2014-04-01-18:47` pemanggil. Komentar opsional mencakup spasi, sehingga harus dilampirkan dalam tanda kutip:  

```
aws route53 create-hosted-zone --name example.com --caller-reference 2014-04-01-18:47 --hosted-zone-config Comment="command-line version"
```
Untuk informasi selengkapnya, lihat Bekerja dengan Zona yang Dihosting di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [CreateHostedZone](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/create-hosted-zone.html)di *Referensi AWS CLI Perintah*. 

### `delete-health-check`
<a name="route-53_DeleteHealthCheck_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-health-check`.

**AWS CLI**  
**Untuk menghapus pemeriksaan kesehatan**  
`delete-health-check`Perintah berikut menghapus pemeriksaan kesehatan dengan `health-check-id` dari`e75b48d9-547a-4c3d-88a5-ae4002397608`:  

```
aws route53 delete-health-check --health-check-id e75b48d9-547a-4c3d-88a5-ae4002397608
```
+  Untuk detail API, lihat [DeleteHealthCheck](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/delete-health-check.html)di *Referensi AWS CLI Perintah*. 

### `delete-hosted-zone`
<a name="route-53_DeleteHostedZone_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-hosted-zone`.

**AWS CLI**  
**Untuk menghapus zona yang dihosting**  
`delete-hosted-zone`Perintah berikut menghapus zona yang dihosting dengan `id` dari`Z36KTIQEXAMPLE`:  

```
aws route53 delete-hosted-zone --id Z36KTIQEXAMPLE
```
+  Untuk detail API, lihat [DeleteHostedZone](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/delete-hosted-zone.html)di *Referensi AWS CLI Perintah*. 

### `get-change`
<a name="route-53_GetChange_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-change`.

**AWS CLI**  
**Untuk mendapatkan status perubahan pada kumpulan rekaman sumber daya**  
`get-change`Perintah berikut mendapatkan status dan informasi lain tentang `change-resource-record-sets` permintaan yang memiliki `Id` dari`/change/CWPIK4URU2I5S`:  

```
aws route53 get-change --id /change/CWPIK4URU2I5S
```
+  Untuk detail API, lihat [GetChange](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/get-change.html)di *Referensi AWS CLI Perintah*. 

### `get-health-check`
<a name="route-53_GetHealthCheck_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-health-check`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pemeriksaan kesehatan**  
`get-health-check`Perintah berikut mendapatkan informasi tentang pemeriksaan kesehatan `health-check-id` yang memiliki`02ec8401-9879-4259-91fa-04e66d094674`:  

```
aws route53 get-health-check --health-check-id 02ec8401-9879-4259-91fa-04e66d094674
```
+  Untuk detail API, lihat [GetHealthCheck](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/get-health-check.html)di *Referensi AWS CLI Perintah*. 

### `get-hosted-zone`
<a name="route-53_GetHostedZone_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-hosted-zone`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang zona yang dihosting**  
`get-hosted-zone`Perintah berikut mendapatkan informasi tentang zona yang dihosting dengan `id` dari`Z1R8UBAEXAMPLE`:  

```
aws route53 get-hosted-zone --id Z1R8UBAEXAMPLE
```
+  Untuk detail API, lihat [GetHostedZone](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/get-hosted-zone.html)di *Referensi AWS CLI Perintah*. 

### `list-health-checks`
<a name="route-53_ListHealthChecks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-health-checks`.

**AWS CLI**  
**Untuk membuat daftar pemeriksaan kesehatan yang terkait dengan AWS akun saat ini**  
`list-health-checks`Perintah berikut mencantumkan informasi terperinci tentang 100 pemeriksaan kesehatan pertama yang terkait dengan AWS akun saat ini. :  

```
aws route53 list-health-checks
```
Jika Anda memiliki lebih dari 100 pemeriksaan kesehatan, atau jika Anda ingin mencantumkannya dalam kelompok yang lebih kecil dari 100, sertakan `--maxitems` parameternya. Misalnya, untuk membuat daftar pemeriksaan kesehatan satu per satu, gunakan perintah berikut:  

```
aws route53 list-health-checks --max-items 1
```
Untuk melihat pemeriksaan kesehatan berikutnya, ambil nilai `NextToken` dari respons ke perintah sebelumnya, dan sertakan dalam `--starting-token` parameter, misalnya:  

```
aws route53 list-health-checks --max-items 1 --starting-token Z3M3LMPEXAMPLE
```
+  Untuk detail API, lihat [ListHealthChecks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/list-health-checks.html)di *Referensi AWS CLI Perintah*. 

### `list-hosted-zones-by-name`
<a name="route-53_ListHostedZonesByName_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-hosted-zones-by-name`.

**AWS CLI**  
Perintah berikut mencantumkan hingga 100 zona yang dihosting yang diurutkan berdasarkan nama domain:  

```
aws route53 list-hosted-zones-by-name
```
Output:  

```
{
  "HostedZones": [
      {
          "ResourceRecordSetCount": 2,
          "CallerReference": "test20150527-2",
          "Config": {
              "Comment": "test2",
              "PrivateZone": false
          },
          "Id": "/hostedzone/Z119WBBTVP5WFX",
          "Name": "2.example.com."
      },
      {
          "ResourceRecordSetCount": 2,
          "CallerReference": "test20150527-1",
          "Config": {
              "Comment": "test",
              "PrivateZone": false
          },
          "Id": "/hostedzone/Z3P5QSUBK4POTI",
          "Name": "www.example.com."
      }
  ],
  "IsTruncated": false,
  "MaxItems": "100"
}
```
Perintah berikut mencantumkan zona yang dihosting yang diurutkan berdasarkan nama, dimulai dengan`www.example.com`:  

```
aws route53 list-hosted-zones-by-name --dns-name www.example.com
```
Output:  

```
{
  "HostedZones": [
      {
          "ResourceRecordSetCount": 2,
          "CallerReference": "mwunderl20150527-1",
          "Config": {
              "Comment": "test",
              "PrivateZone": false
          },
          "Id": "/hostedzone/Z3P5QSUBK4POTI",
          "Name": "www.example.com."
      }
  ],
  "DNSName": "www.example.com",
  "IsTruncated": false,
  "MaxItems": "100"
}
```
+  Untuk detail API, lihat [ListHostedZonesByName](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/list-hosted-zones-by-name.html)di *Referensi AWS CLI Perintah*. 

### `list-hosted-zones`
<a name="route-53_ListHostedZones_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-hosted-zones`.

**AWS CLI**  
**Untuk membuat daftar zona yang dihosting yang terkait dengan AWS akun saat ini**  
`list-hosted-zones`Perintah berikut mencantumkan informasi ringkasan tentang 100 zona host pertama yang terkait dengan AWS akun saat ini. :  

```
aws route53 list-hosted-zones
```
Jika Anda memiliki lebih dari 100 zona yang dihosting, atau jika Anda ingin mencantumkannya dalam grup yang lebih kecil dari 100, sertakan `--max-items` parameternya. Misalnya, untuk membuat daftar zona yang dihosting satu per satu, gunakan perintah berikut:  

```
aws route53 list-hosted-zones --max-items 1
```
Untuk melihat informasi tentang zona host berikutnya, ambil nilai `NextToken` dari respon ke perintah sebelumnya, dan sertakan dalam `--starting-token` parameter, misalnya:  

```
aws route53 list-hosted-zones --max-items 1 --starting-token Z3M3LMPEXAMPLE
```
+  Untuk detail API, lihat [ListHostedZones](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/list-hosted-zones.html)di *Referensi AWS CLI Perintah*. 

### `list-query-logging-configs`
<a name="route-53_ListQueryLoggingConfigs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-query-logging-configs`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi pencatatan kueri**  
`list-query-logging-configs`Contoh berikut mencantumkan informasi tentang 100 konfigurasi pencatatan kueri pertama di AWS akun Anda, untuk zona `Z1OX3WQEXAMPLE` yang dihosting.  

```
aws route53 list-query-logging-configs \
    --hosted-zone-id Z1OX3WQEXAMPLE
```
Output:  

```
{
    "QueryLoggingConfigs": [
        {
            "Id": "964ff34e-ae03-4f06-80a2-9683cexample",
            "HostedZoneId": "Z1OX3WQEXAMPLE",
            "CloudWatchLogsLogGroupArn": "arn:aws:logs:us-east-1:111122223333:log-group:/aws/route53/example.com:*"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencatat kueri DNS di Panduan](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/query-logs.html) *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [ListQueryLoggingConfigs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/list-query-logging-configs.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-record-sets`
<a name="route-53_ListResourceRecordSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-record-sets`.

**AWS CLI**  
**Untuk mencantumkan kumpulan rekaman sumber daya di zona yang dihosting**  
`list-resource-record-sets`Perintah berikut mencantumkan informasi ringkasan tentang 100 set catatan sumber daya pertama di zona host tertentu. :  

```
aws route53 list-resource-record-sets --hosted-zone-id Z2LD58HEXAMPLE
```
Jika zona yang dihosting berisi lebih dari 100 kumpulan catatan sumber daya, atau jika Anda ingin mencantumkannya dalam grup yang lebih kecil dari 100, sertakan `--maxitems` parameternya. Misalnya, untuk mencantumkan set catatan sumber daya satu per satu, gunakan perintah berikut:  

```
aws route53 list-resource-record-sets --hosted-zone-id Z2LD58HEXAMPLE --max-items 1
```
Untuk melihat informasi tentang catatan sumber daya berikutnya yang ditetapkan di zona yang dihosting, ambil nilai `NextToken` dari respons ke perintah sebelumnya, dan sertakan dalam `--starting-token` parameter, misalnya:  

```
aws route53 list-resource-record-sets --hosted-zone-id Z2LD58HEXAMPLE --max-items 1 --starting-token Z3M3LMPEXAMPLE
```
Untuk melihat semua kumpulan catatan sumber daya dari nama tertentu, gunakan `--query` parameter untuk memfilternya. Contoh:  

```
aws route53 list-resource-record-sets --hosted-zone-id Z2LD58HEXAMPLE --query "ResourceRecordSets[?Name == 'example.domain.']"
```
+  Untuk detail API, lihat [ListResourceRecordSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53/list-resource-record-sets.html)di *Referensi AWS CLI Perintah*. 

# Route 53 contoh pendaftaran domain menggunakan AWS CLI
<a name="cli_2_route-53-domains_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan pendaftaran domain AWS Command Line Interface with Route 53.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `check-domain-availability`
<a name="route-53-domains_CheckDomainAvailability_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`check-domain-availability`.

**AWS CLI**  
**Untuk menentukan apakah Anda dapat mendaftarkan nama domain dengan Route 53**  
`check-domain-availability`Perintah berikut mengembalikan informasi tentang apakah nama `example.com` domain tersedia untuk didaftarkan menggunakan Route 53.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains check-domain-availability \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "Availability": "UNAVAILABLE"
}
```
Route 53 mendukung sejumlah besar domain tingkat atas (TLDs), seperti `.com` dan`.jp`, tetapi kami tidak mendukung semua yang tersedia. TLDs Jika Anda memeriksa ketersediaan domain dan Route 53 tidak mendukung TLD, `check-domain-availability` menampilkan pesan berikut.  

```
An error occurred (UnsupportedTLD) when calling the CheckDomainAvailability operation: <top-level domain> tld is not supported.
```
Untuk daftar yang dapat Anda gunakan saat mendaftarkan domain dengan Route 53, lihat [Domain yang Dapat Anda Daftarkan dengan Amazon Route 53](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/registrar-tld-list.html) di *Panduan Pengembang Amazon Route 53*. TLDs Untuk informasi selengkapnya tentang mendaftarkan domain dengan Amazon Route 53, lihat [Mendaftarkan Domain Baru](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-register.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [CheckDomainAvailability](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/check-domain-availability.html)di *Referensi AWS CLI Perintah*. 

### `check-domain-transferability`
<a name="route-53-domains_CheckDomainTransferability_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`check-domain-transferability`.

**AWS CLI**  
**Untuk menentukan apakah domain dapat ditransfer ke Route 53**  
`check-domain-transferability`Perintah berikut mengembalikan informasi tentang apakah Anda dapat mentransfer nama domain `example.com` ke Route 53.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains check-domain-transferability \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "Transferability": {
        "Transferable": "UNTRANSFERABLE"
    }
}
```
Untuk informasi selengkapnya, lihat [Mentransfer Pendaftaran Domain ke Amazon Route 53](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-transfer-to-route-53.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [CheckDomainTransferability](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/check-domain-transferability.html)di *Referensi AWS CLI Perintah*. 

### `delete-tags-for-domain`
<a name="route-53-domains_DeleteTagsForDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-tags-for-domain`.

**AWS CLI**  
**Untuk menghapus tag untuk domain**  
`delete-tags-for-domain`Perintah berikut menghapus tiga tag dari domain yang ditentukan. Perhatikan bahwa Anda hanya menentukan kunci tag, bukan nilai tag.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains delete-tags-for-domain \
    --region us-east-1 \
    --domain-name example.com \
    --tags-to-delete accounting-key hr-key engineering-key
```
Perintah ini tidak menghasilkan output.  
Untuk mengonfirmasi bahwa tag telah dihapus, Anda dapat menjalankannya [list-tags-for-domain](https://docs.aws.amazon.com/cli/latest/reference/route53domains/list-tags-for-domain.html). Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Amazon Route 53](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/tagging-resources.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [DeleteTagsForDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/delete-tags-for-domain.html)di *Referensi AWS CLI Perintah*. 

### `disable-domain-auto-renew`
<a name="route-53-domains_DisableDomainAutoRenew_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-domain-auto-renew`.

**AWS CLI**  
**Untuk menonaktifkan perpanjangan otomatis domain**  
`disable-domain-auto-renew`Perintah berikut mengonfigurasi Route 53 agar *tidak* memperbarui domain secara otomatis `example.com` sebelum pendaftaran domain kedaluwarsa.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains disable-domain-auto-renew \
    --region us-east-1 \
    --domain-name example.com
```
Perintah ini tidak menghasilkan output.  
Untuk mengonfirmasi bahwa pengaturan telah diubah, Anda dapat menjalankannya [get-domain-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-domain-detail.html). Jika perpanjangan otomatis dinonaktifkan, nilainya `AutoRenew` adalah`False`. Untuk informasi selengkapnya tentang perpanjangan otomatis, lihat Memperbarui Pendaftaran untuk Domain < https://docs.aws.amazon.com/Route53/ latest/DeveloperGuide/domain -renew.html di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [DisableDomainAutoRenew](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/disable-domain-auto-renew.html)di *Referensi AWS CLI Perintah*. 

### `disable-domain-transfer-lock`
<a name="route-53-domains_DisableDomainTransferLock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-domain-transfer-lock`.

**AWS CLI**  
**Untuk menonaktifkan kunci transfer pada domain**  
`disable-domain-transfer-lock`Perintah berikut menghapus kunci transfer pada domain `example.com` sehingga domain dapat ditransfer ke registrar lain. Perintah ini mengubah `clientTransferProhibited` status.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains disable-domain-transfer-lock \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "OperationId": "3f28e0ac-126a-4113-9048-cc930example"
}
```
Untuk mengonfirmasi bahwa kunci transfer telah diubah, Anda dapat menjalankannya [get-domain-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-domain-detail.html). Ketika kunci transfer dinonaktifkan, nilai `StatusList` *tidak* termasuk`clientTransferProhibited`.  
Untuk informasi selengkapnya tentang proses transfer, lihat [Mentransfer Domain dari Amazon Route 53 ke Registrar Lain di Panduan](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-transfer-from-route-53.html) *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [DisableDomainTransferLock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/disable-domain-transfer-lock.html)di *Referensi AWS CLI Perintah*. 

### `enable-domain-auto-renew`
<a name="route-53-domains_EnableDomainAutoRenew_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-domain-auto-renew`.

**AWS CLI**  
**Untuk mengaktifkan perpanjangan otomatis domain**  
`enable-domain-auto-renew`Perintah berikut mengonfigurasi Route 53 untuk memperbarui domain secara otomatis `example.com` sebelum pendaftaran domain kedaluwarsa.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains enable-domain-auto-renew \
    --region us-east-1 \
    --domain-name example.com
```
Perintah ini tidak menghasilkan output. Untuk mengonfirmasi bahwa pengaturan telah diubah, Anda dapat menjalankannya [get-domain-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-domain-detail.html). Jika perpanjangan otomatis diaktifkan, nilainya `AutoRenew` adalah`True`.  
Untuk informasi selengkapnya tentang perpanjangan otomatis, lihat Memperbarui Pendaftaran untuk Domain < https://docs.aws.amazon.com/Route53/ latest/DeveloperGuide/domain -renew.html di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [EnableDomainAutoRenew](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/enable-domain-auto-renew.html)di *Referensi AWS CLI Perintah*. 

### `enable-domain-transfer-lock`
<a name="route-53-domains_EnableDomainTransferLock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-domain-transfer-lock`.

**AWS CLI**  
**Untuk mengaktifkan kunci transfer pada domain**  
`enable-domain-transfer-lock`Perintah berikut mengunci domain tertentu sehingga tidak dapat ditransfer ke registrar lain. Perintah ini mengubah `clientTransferProhibited` status.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains enable-domain-transfer-lock \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "OperationId": "3f28e0ac-126a-4113-9048-cc930example"
}
```
Untuk mengonfirmasi bahwa kunci transfer telah diubah, Anda dapat menjalankannya [get-domain-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-domain-detail.html). Ketika kunci transfer diaktifkan, nilai `StatusList` termasuk`clientTransferProhibited`.  
Untuk informasi selengkapnya tentang proses transfer, lihat [Mentransfer Domain dari Amazon Route 53 ke Registrar Lain di Panduan](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-transfer-from-route-53.html) *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [EnableDomainTransferLock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/enable-domain-transfer-lock.html)di *Referensi AWS CLI Perintah*. 

### `get-contact-reachability-status`
<a name="route-53-domains_GetContactReachabilityStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-contact-reachability-status`.

**AWS CLI**  
**Untuk menentukan apakah kontak pendaftar telah menanggapi email konfirmasi**  
`get-contact-reachability-status`Perintah berikut mengembalikan informasi tentang apakah kontak pendaftar untuk domain tertentu telah menanggapi email konfirmasi.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains get-contact-reachability-status \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "domainName": "example.com",
    "status": "DONE"
}
```
Untuk informasi selengkapnya, lihat [Mengirim Ulang Email Otorisasi dan Konfirmasi](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-click-email-link.html) di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [GetContactReachabilityStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/get-contact-reachability-status.html)di *Referensi AWS CLI Perintah*. 

### `get-domain-detail`
<a name="route-53-domains_GetDomainDetail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain-detail`.

**AWS CLI**  
**Untuk mendapatkan informasi rinci tentang domain tertentu**  
`get-domain-detail`Perintah berikut menampilkan informasi rinci tentang domain yang ditentukan.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains get-domain-detail \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "DomainName": "example.com",
    "Nameservers": [
        {
            "Name": "ns-2048.awsdns-64.com",
            "GlueIps": []
        },
        {
            "Name": "ns-2049.awsdns-65.net",
            "GlueIps": []
        },
        {
            "Name": "ns-2050.awsdns-66.org",
            "GlueIps": []
        },
        {
            "Name": "ns-2051.awsdns-67.co.uk",
            "GlueIps": []
        }
    ],
    "AutoRenew": true,
    "AdminContact": {
        "FirstName": "Saanvi",
        "LastName": "Sarkar",
        "ContactType": "COMPANY",
        "OrganizationName": "Example",
        "AddressLine1": "123 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "ssarkar@example.com",
        "ExtraParams": []
    },
    "RegistrantContact": {
        "FirstName": "Alejandro",
        "LastName": "Rosalez",
        "ContactType": "COMPANY",
        "OrganizationName": "Example",
        "AddressLine1": "123 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "arosalez@example.com",
        "ExtraParams": []
    },
    "TechContact": {
        "FirstName": "Wang",
        "LastName": "Xiulan",
        "ContactType": "COMPANY",
        "OrganizationName": "Example",
        "AddressLine1": "123 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "wxiulan@example.com",
        "ExtraParams": []
    },
    "AdminPrivacy": true,
    "RegistrantPrivacy": true,
    "TechPrivacy": true,
    "RegistrarName": "Amazon Registrar, Inc.",
    "WhoIsServer": "whois.registrar.amazon",
    "RegistrarUrl": "http://registrar.amazon.com",
    "AbuseContactEmail": "abuse@registrar.amazon.com",
    "AbuseContactPhone": "+1.2062661000",
    "CreationDate": 1444934889.601,
    "ExpirationDate": 1602787689.0,
    "StatusList": [
        "clientTransferProhibited"
    ]
}
```
+  Untuk detail API, lihat [GetDomainDetail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/get-domain-detail.html)di *Referensi AWS CLI Perintah*. 

### `get-domain-suggestions`
<a name="route-53-domains_GetDomainSuggestions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-domain-suggestions`.

**AWS CLI**  
**Untuk mendapatkan daftar nama domain yang disarankan**  
`get-domain-suggestions`Perintah berikut menampilkan daftar nama domain yang disarankan berdasarkan nama domain`example.com`. Responsnya hanya mencakup nama domain yang tersedia. Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains get-domain-suggestions \
    --region us-east-1 \
    --domain-name example.com \
    --suggestion-count 10 \
    --only-available
```
Output:  

```
{
    "SuggestionsList": [
        {
            "DomainName": "egzaampal.com",
            "Availability": "AVAILABLE"
        },
        {
            "DomainName": "examplelaw.com",
            "Availability": "AVAILABLE"
        },
        {
            "DomainName": "examplehouse.net",
            "Availability": "AVAILABLE"
        },
        {
            "DomainName": "homeexample.net",
            "Availability": "AVAILABLE"
        },
        {
            "DomainName": "examplelist.com",
            "Availability": "AVAILABLE"
       },
        {
            "DomainName": "examplenews.net",
            "Availability": "AVAILABLE"
        },
        {
            "DomainName": "officeexample.com",
            "Availability": "AVAILABLE"
        },
        {
            "DomainName": "exampleworld.com",
            "Availability": "AVAILABLE"
        },
        {
            "DomainName": "exampleart.com",
            "Availability": "AVAILABLE"
        }
    ]
}
```
+  Untuk detail API, lihat [GetDomainSuggestions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/get-domain-suggestions.html)di *Referensi AWS CLI Perintah*. 

### `get-operation-detail`
<a name="route-53-domains_GetOperationDetail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-operation-detail`.

**AWS CLI**  
**Untuk mendapatkan status operasi saat ini**  
Beberapa operasi pendaftaran domain beroperasi secara asinkron dan mengembalikan respons sebelum selesai. Operasi ini mengembalikan ID operasi yang dapat Anda gunakan untuk mendapatkan status saat ini. `get-operation-detail`Perintah berikut mengembalikan status operasi yang ditentukan.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains get-operation-detail \
    --region us-east-1 \
    --operation-id edbd8d63-7fe7-4343-9bc5-54033example
```
Output:  

```
{
    "OperationId": "edbd8d63-7fe7-4343-9bc5-54033example",
    "Status": "SUCCESSFUL",
    "DomainName": "example.com",
    "Type": "DOMAIN_LOCK",
    "SubmittedDate": 1573749367.864
}
```
+  Untuk detail API, lihat [GetOperationDetail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/get-operation-detail.html)di *Referensi AWS CLI Perintah*. 

### `list-domains`
<a name="route-53-domains_ListDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-domains`.

**AWS CLI**  
**Untuk membuat daftar domain yang terdaftar dengan akun saat ini AWS **  
`list-domains`Perintah berikut mencantumkan informasi ringkasan tentang domain yang terdaftar dengan AWS akun saat ini.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains list-domains
    --region us-east-1
```
Output:  

```
{
    "Domains": [
        {
            "DomainName": "example.com",
            "AutoRenew": true,
            "TransferLock": true,
            "Expiry": 1602712345.0
        },
        {
            "DomainName": "example.net",
            "AutoRenew": true,
            "TransferLock": true,
            "Expiry": 1602723456.0
        },
        {
            "DomainName": "example.org",
            "AutoRenew": true,
            "TransferLock": true,
            "Expiry": 1602734567.0
        }
    ]
}
```
+  Untuk detail API, lihat [ListDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/list-domains.html)di *Referensi AWS CLI Perintah*. 

### `list-operations`
<a name="route-53-domains_ListOperations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-operations`.

**AWS CLI**  
**Untuk mencantumkan status operasi yang mengembalikan ID operasi**  
Beberapa operasi pendaftaran domain berjalan secara asinkron dan mengembalikan respons sebelum selesai. Operasi ini mengembalikan ID operasi yang dapat Anda gunakan untuk mendapatkan status saat ini. `list-operations`Perintah berikut mencantumkan informasi ringkasan, termasuk status, tentang operasi registrasi domain saat ini.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains list-operations
    --region us-east-1
```
Output:  

```
{
    "Operations": [
        {
            "OperationId": "aab9822f-1da0-4bf3-8a15-fd4e0example",
            "Status": "SUCCESSFUL",
            "Type": "DOMAIN_LOCK",
            "SubmittedDate": 1455321739.986
        },
        {
            "OperationId": "c24379ed-76be-42f8-bdad-9379bexample",
            "Status": "SUCCESSFUL",
            "Type": "UPDATE_NAMESERVER",
            "SubmittedDate": 1468960475.109
        },
        {
            "OperationId": "f47e1297-ef9e-4c2b-ae1e-a5fcbexample",
            "Status": "SUCCESSFUL",
            "Type": "RENEW_DOMAIN",
            "SubmittedDate": 1473561835.943
        },
        {
            "OperationId": "75584f23-b15f-459e-aed7-dc6f5example",
            "Status": "SUCCESSFUL",
            "Type": "UPDATE_DOMAIN_CONTACT",
            "SubmittedDate": 1547501003.41
        }
    ]
}
```
Outputnya mencakup semua operasi yang mengembalikan ID operasi dan yang telah Anda lakukan di semua domain yang pernah Anda daftarkan menggunakan AWS akun saat ini. Jika Anda hanya ingin mendapatkan operasi yang Anda kirimkan setelah tanggal yang ditentukan, Anda dapat menyertakan `submitted-since` parameter dan menentukan tanggal dalam format Unix dan Waktu Universal Terkoordinasi (UTC). Perintah berikut mendapatkan status semua operasi yang diajukan setelah pukul 12:00 UTC pada 1 Januari 2020.  

```
aws route53domains list-operations \
    --submitted-since 1577836800
```
+  Untuk detail API, lihat [ListOperations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/list-operations.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-domain`
<a name="route-53-domains_ListTagsForDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-domain`.

**AWS CLI**  
**Untuk mencantumkan tag untuk domain**  
`list-tags-for-domain`Perintah berikut mencantumkan tag yang saat ini terkait dengan domain yang ditentukan.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains list-tags-for-domain \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "TagList": [
        {
            "Key": "key1",
            "Value": "value1"
        },
        {
            "Key": "key2",
            "Value": "value2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Amazon Route 53](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/tagging-resources.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [ListTagsForDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/list-tags-for-domain.html)di *Referensi AWS CLI Perintah*. 

### `register-domain`
<a name="route-53-domains_RegisterDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-domain`.

**AWS CLI**  
**Untuk mendaftarkan domain**  
`register-domain`Perintah berikut mendaftarkan domain, mengambil semua nilai parameter dari file berformat JSON.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains register-domain \
    --region us-east-1 \
    --cli-input-json file://register-domain.json
```
Isi dari `register-domain.json`:  

```
{
    "DomainName": "example.com",
    "DurationInYears": 1,
    "AutoRenew": true,
    "AdminContact": {
        "FirstName": "Martha",
        "LastName": "Rivera",
        "ContactType": "PERSON",
        "OrganizationName": "Example",
        "AddressLine1": "1 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "mrivera@example.com"
    },
    "RegistrantContact": {
        "FirstName": "Li",
        "LastName": "Juan",
        "ContactType": "PERSON",
        "OrganizationName": "Example",
        "AddressLine1": "1 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "ljuan@example.com"
    },
    "TechContact": {
        "FirstName": "Mateo",
        "LastName": "Jackson",
        "ContactType": "PERSON",
        "OrganizationName": "Example",
        "AddressLine1": "1 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "mjackson@example.com"
    },
    "PrivacyProtectAdminContact": true,
    "PrivacyProtectRegistrantContact": true,
    "PrivacyProtectTechContact": true
}
```
Output:  

```
{
    "OperationId": "b114c44a-9330-47d1-a6e8-a0b11example"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation-detail`. Untuk informasi selengkapnya, lihat [get-operation-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-operation-detail.html).  
Untuk informasi lebih lanjut, lihat [Mendaftarkan Domain Baru](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-register.html) dalam *Panduan Pengembang Amazon Route 53*.  
Untuk informasi tentang domain tingkat atas (TLDs) mana yang memerlukan nilai `ExtraParams` dan nilai validnya, lihat [ExtraParam](https://docs.aws.amazon.com/Route53/latest/APIReference/API_domains_ExtraParam.html)di Referensi *API Amazon Route 53*.  
+  Untuk detail API, lihat [RegisterDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/register-domain.html)di *Referensi AWS CLI Perintah*. 

### `renew-domain`
<a name="route-53-domains_RenewDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`renew-domain`.

**AWS CLI**  
**Untuk memperbarui domain**  
`renew-domain`Perintah berikut memperbarui domain yang ditentukan selama lima tahun. Untuk mendapatkan nilai`current-expiry-year`, gunakan `get-domain-detail` perintah, dan konversi nilai dari `ExpirationDate` dari format Unix.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains renew-domain \
    --region us-east-1 \
    --domain-name example.com \
    --duration-in-years 5 \
    --current-expiry-year 2020
```
Output:  

```
{
    "OperationId": "3f28e0ac-126a-4113-9048-cc930example"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation-detail`. Untuk informasi selengkapnya, lihat [get-operation-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-operation-detail.html).  
Registri untuk setiap domain tingkat atas (TLD), seperti.com atau .org, mengontrol jumlah maksimum tahun yang dapat Anda perbarui domain. Untuk mendapatkan periode perpanjangan maksimum untuk domain Anda, lihat bagian “Periode Pendaftaran dan Perpanjangan” untuk TLD Anda di [Domain yang Dapat Anda Daftarkan dengan Amazon Route 53 di Panduan Pengembang Amazon *Route*](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/registrar-tld-list.html) 53.  
Untuk informasi selengkapnya, lihat [Memperbarui Pendaftaran untuk Domain](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-renew.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [RenewDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/renew-domain.html)di *Referensi AWS CLI Perintah*. 

### `resend-contact-reachability-email`
<a name="route-53-domains_ResendContactReachabilityEmail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resend-contact-reachability-email`.

**AWS CLI**  
**Untuk mengirim ulang email konfirmasi ke alamat email saat ini untuk kontak pendaftar**  
`resend-contact-reachability-email`Perintah berikut mengirimkan ulang email konfirmasi ke alamat email saat ini untuk kontak pendaftar untuk domain example.com.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains resend-contact-reachability-email \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "domainName": "example.com",
    "emailAddress": "moliveira@example.com",
    "isAlreadyVerified": true
}
```
Jika nilainya`true`, seperti dalam contoh ini, kontak pendaftar telah mengkonfirmasi bahwa alamat email yang ditentukan dapat dijangkau. `isAlreadyVerified`  
Untuk informasi selengkapnya, lihat [Mengirim Ulang Email Otorisasi dan Konfirmasi](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-click-email-link.html) di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [ResendContactReachabilityEmail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/resend-contact-reachability-email.html)di *Referensi AWS CLI Perintah*. 

### `retrieve-domain-auth-code`
<a name="route-53-domains_RetrieveDomainAuthCode_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`retrieve-domain-auth-code`.

**AWS CLI**  
**Untuk mendapatkan kode otorisasi untuk domain sehingga Anda dapat mentransfer domain ke registrar lain**  
`retrieve-domain-auth-code`Perintah berikut mendapatkan kode otorisasi saat ini untuk domain example.com. Anda memberikan nilai ini ke registrar domain lain ketika Anda ingin mentransfer domain ke registrar tersebut.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains retrieve-domain-auth-code \
    --region us-east-1 \
    --domain-name example.com
```
Output:  

```
{
    "AuthCode": ")o!v3dJeXampLe"
}
```
Untuk informasi selengkapnya, lihat [Mentransfer Domain dari Amazon Route 53 ke Registrar Lain di Panduan](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-transfer-from-route-53.html) *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [RetrieveDomainAuthCode](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/retrieve-domain-auth-code.html)di *Referensi AWS CLI Perintah*. 

### `transfer-domain`
<a name="route-53-domains_TransferDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`transfer-domain`.

**AWS CLI**  
**Untuk mentransfer domain ke Amazon Route 53**  
`transfer-domain`Perintah berikut mentransfer domain ke Route 53, dengan parameter yang disediakan oleh file berformat JSON. `C:\temp\transfer-domain.json`  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains transfer-domain \
    --region us-east-1 \
    --cli-input-json file://C:\temp\transfer-domain.json
```
Isi dari `transfer-domain.json`:  

```
{
    "DomainName": "example.com",
    "DurationInYears": 1,
    "Nameservers": [
        {
            "Name": "ns-2048.awsdns-64.com"
        },
        {
            "Name": "ns-2049.awsdns-65.net"
        },
        {
            "Name": "ns-2050.awsdns-66.org"
        },
        {
            "Name": "ns-2051.awsdns-67.co.uk"
        }
    ],
    "AuthCode": ")o!v3dJeXampLe",
    "AutoRenew": true,
    "AdminContact": {
        "FirstName": "Martha",
        "LastName": "Rivera",
        "ContactType": "PERSON",
        "OrganizationName": "Example",
        "AddressLine1": "1 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "mrivera@example.com"
    },
    "RegistrantContact": {
        "FirstName": "Li",
        "LastName": "Juan",
        "ContactType": "PERSON",
        "OrganizationName": "Example",
        "AddressLine1": "1 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "ljuan@example.com"
    },
    "TechContact": {
        "FirstName": "Mateo",
        "LastName": "Jackson",
        "ContactType": "PERSON",
        "OrganizationName": "Example",
        "AddressLine1": "1 Main Street",
        "City": "Anytown",
        "State": "WA",
        "CountryCode": "US",
        "ZipCode": "98101",
        "PhoneNumber": "+1.8005551212",
        "Email": "mjackson@example.com"
    },
    "PrivacyProtectAdminContact": true,
    "PrivacyProtectRegistrantContact": true,
    "PrivacyProtectTechContact": true
}
```
Output:  

```
{
    "OperationId": "b114c44a-9330-47d1-a6e8-a0b11example"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation-detail`. Untuk informasi selengkapnya, lihat [get-operation-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-operation-detail.html).  
Untuk informasi selengkapnya, lihat [Mentransfer Pendaftaran Domain ke Amazon Route 53](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-transfer-to-route-53.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [TransferDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/transfer-domain.html)di *Referensi AWS CLI Perintah*. 

### `update-domain-contact-privacy`
<a name="route-53-domains_UpdateDomainContactPrivacy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-domain-contact-privacy`.

**AWS CLI**  
**Untuk memperbarui pengaturan privasi untuk kontak untuk domain**  
`update-domain-contact-privacy`Perintah berikut mematikan perlindungan privasi untuk kontak administratif untuk domain example.com. Perintah ini hanya berjalan di `us-east-1` Wilayah.  
Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains update-domain-contact-privacy \
    --region us-east-1 \
    --domain-name example.com \
    --no-admin-privacy
```
Output:  

```
{
    "OperationId": "b3a219e9-d801-4244-b533-b7256example"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya`get-operation-detail`. Untuk informasi selengkapnya, lihat [get-operation-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-operation-detail.html).  
Untuk informasi selengkapnya, lihat [Mengaktifkan atau Menonaktifkan Perlindungan Privasi untuk Informasi Kontak untuk Domain di Panduan](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-privacy-protection.html) Pengembang *Amazon Route 53*.  
+  Untuk detail API, lihat [UpdateDomainContactPrivacy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/update-domain-contact-privacy.html)di *Referensi AWS CLI Perintah*. 

### `update-domain-contact`
<a name="route-53-domains_UpdateDomainContact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-domain-contact`.

**AWS CLI**  
**Untuk memperbarui informasi kontak untuk domain**  
`update-domain-contact`Perintah berikut memperbarui informasi kontak untuk domain, mendapatkan parameter dari file berformat JSON. `C:\temp\update-domain-contact.json`  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains update-domain-contact \
    --region us-east-1 \
    --cli-input-json file://C:\temp\update-domain-contact.json
```
Isi dari `update-domain-contact.json`:  

```
{
    "AdminContact": {
        "AddressLine1": "101 Main Street",
        "AddressLine2": "Suite 1a",
        "City": "Seattle",
        "ContactType": "COMPANY",
        "CountryCode": "US",
        "Email": "w.xiulan@example.com",
        "FirstName": "Wang",
        "LastName": "Xiulan",
        "OrganizationName": "Example",
        "PhoneNumber": "+1.8005551212",
        "State": "WA",
        "ZipCode": "98101"
    },
    "DomainName": "example.com",
    "RegistrantContact": {
        "AddressLine1": "101 Main Street",
        "AddressLine2": "Suite 1a",
        "City": "Seattle",
        "ContactType": "COMPANY",
        "CountryCode": "US",
        "Email": "w.xiulan@example.com",
        "FirstName": "Wang",
        "LastName": "Xiulan",
        "OrganizationName": "Example",
        "PhoneNumber": "+1.8005551212",
        "State": "WA",
        "ZipCode": "98101"
    },
    "TechContact": {
        "AddressLine1": "101 Main Street",
        "AddressLine2": "Suite 1a",
        "City": "Seattle",
        "ContactType": "COMPANY",
        "CountryCode": "US",
        "Email": "w.xiulan@example.com",
        "FirstName": "Wang",
        "LastName": "Xiulan",
        "OrganizationName": "Example",
        "PhoneNumber": "+1.8005551212",
        "State": "WA",
        "ZipCode": "98101"
    }
}
```
Output:  

```
{
    "OperationId": "b3a219e9-d801-4244-b533-b7256example"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya [get-domain-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-domain-detail.html). Untuk informasi selengkapnya, lihat [Memperbarui Informasi Kontak untuk Domain](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-update-contacts.html#domain-update-contacts-basic) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [UpdateDomainContact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/update-domain-contact.html)di *Referensi AWS CLI Perintah*. 

### `update-domain-nameservers`
<a name="route-53-domains_UpdateDomainNameservers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-domain-nameservers`.

**AWS CLI**  
**Untuk memperbarui server nama untuk domain**  
`update-domain-nameservers`Perintah berikut memperbarui server nama untuk domain.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains update-domain-nameservers \
    --region us-east-1 \
    --domain-name example.com \
    --nameservers Name=ns-1.awsdns-01.org Name=ns-2.awsdns-02.co.uk Name=ns-3.awsdns-03.net Name=ns-4.awsdns-04.com
```
Output:  

```
{
    "OperationId": "f1691ec4-0e7a-489e-82e0-b19d3example"
}
```
Untuk mengonfirmasi bahwa operasi berhasil, Anda dapat menjalankannya [get-domain-detail](https://docs.aws.amazon.com/cli/latest/reference/route53domains/get-domain-detail.html).  
Untuk informasi selengkapnya, lihat [Menambahkan atau Mengubah Server Nama dan Catatan Glue untuk Domain](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/domain-name-servers-glue-records.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [UpdateDomainNameservers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/update-domain-nameservers.html)di *Referensi AWS CLI Perintah*. 

### `update-tags-for-domain`
<a name="route-53-domains_UpdateTagsForDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-tags-for-domain`.

**AWS CLI**  
**Untuk menambah atau memperbarui tag untuk domain**  
`update-tags-for-domain`Perintah berikut menambahkan atau memperbarui dua kunci dan nilai yang sesuai untuk domain example.com. Untuk memperbarui nilai kunci, cukup sertakan kunci dan nilai baru. Anda dapat menambahkan atau memperbarui tag hanya dalam satu domain pada satu waktu.  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains update-tags-for-domain \
    --region us-east-1 \
    --domain-name example.com \
    --tags-to-update "Key=key1,Value=value1" "Key=key2,Value=value2"
```
Perintah ini tidak menghasilkan output. Untuk mengonfirmasi bahwa tag telah ditambahkan atau diperbarui, Anda dapat menjalankannya [list-tags-for-domain](https://docs.aws.amazon.com/cli/latest/reference/route53domains/list-tags-for-domain.html).  
Untuk informasi selengkapnya, lihat [Menandai Sumber Daya Amazon Route 53](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/tagging-resources.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [UpdateTagsForDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/update-tags-for-domain.html)di *Referensi AWS CLI Perintah*. 

### `view-billing`
<a name="route-53-domains_ViewBilling_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`view-billing`.

**AWS CLI**  
**Untuk mendapatkan informasi penagihan untuk biaya pendaftaran domain untuk akun saat ini AWS **  
`view-billing`Perintah berikut mengembalikan semua catatan penagihan terkait domain untuk akun saat ini untuk periode dari 1 Januari 2018 (1514764800 dalam waktu Unix) dan tengah malam pada tanggal 31 Desember 2019 (1577836800 dalam waktu Unix).  
Perintah ini hanya berjalan di `us-east-1` Wilayah. Jika wilayah default Anda diatur ke`us-east-1`, Anda dapat menghilangkan `region` parameter.  

```
aws route53domains view-billing \
    --region us-east-1 \
    --start-time 1514764800 \
    --end-time 1577836800
```
Output:  

```
{
    "BillingRecords": [
        {
            "DomainName": "example.com",
            "Operation": "RENEW_DOMAIN",
            "InvoiceId": "149962827",
            "BillDate": 1536618063.181,
            "Price": 12.0
        },
        {
            "DomainName": "example.com",
            "Operation": "RENEW_DOMAIN",
            "InvoiceId": "290913289",
            "BillDate": 1568162630.884,
            "Price": 12.0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [ViewBilling](https://docs.aws.amazon.com/Route53/latest/APIReference/API_domains_ViewBilling.html)di *Referensi API Amazon Route 53*.  
+  Untuk detail API, lihat [ViewBilling](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53domains/view-billing.html)di *Referensi AWS CLI Perintah*. 

# Route 53 Profil contoh menggunakan AWS CLI
<a name="cli_2_route53profiles_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Profil AWS Command Line Interface with Route 53.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-profile`
<a name="route53profiles_AssociateProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-profile`.

**AWS CLI**  
**Untuk mengaitkan Profil**  
`associate-profile`Contoh berikut mengaitkan Profil ke VPC.  

```
aws route53profiles associate-profile \
    --name test-association \
    --profile-id rp-4987774726example \
    --resource-id vpc-0af3b96b3example
```
Output:  

```
{
    "ProfileAssociation": {
        "CreationTime": 1710851336.527,
        "Id": "rpassoc-489ce212fexample",
        "ModificationTime": 1710851336.527,
        "Name": "test-association",
        "OwnerId": "123456789012",
        "ProfileId": "rp-4987774726example",
        "ResourceId": "vpc-0af3b96b3example",
        "Status": "CREATING",
        "StatusMessage": "Creating Profile Association"
    }
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Profil](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/profile-high-level-steps.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [AssociateProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/associate-profile.html)di *Referensi AWS CLI Perintah*. 

### `associate-resource-to-profile`
<a name="route53profiles_AssociateResourceToProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-resource-to-profile`.

**AWS CLI**  
**Untuk mengaitkan sumber daya ke Profil**  
`associate-resource-to-profile`Contoh berikut mengaitkan grup aturan DNS Firewall dengan prioritas 102 ke Profil.  

```
aws route53profiles associate-resource-to-profile \
    --name test-resource-association \
    --profile-id rp-4987774726example \
    --resource-arn arn:aws:route53resolver:us-east-1:123456789012:firewall-rule-group/rslvr-frg-cfe7f72example \
    --resource-properties "{\"priority\": 102}"
```
Output:  

```
{
    "ProfileResourceAssociation": {
        "CreationTime": 1710851216.613,
        "Id": "rpr-001913120a7example",
        "ModificationTime": 1710851216.613,
        "Name": "test-resource-association",
        "OwnerId": "123456789012",
        "ProfileId": "rp-4987774726example",
        "ResourceArn": "arn:aws:route53resolver:us-east-1:123456789012:firewall-rule-group/rslvr-frg-cfe7f72example",
        "ResourceProperties": "{\"priority\":102}",
        "ResourceType": "FIREWALL_RULE_GROUP",
        "Status": "UPDATING",
        "StatusMessage": "Updating the Profile to DNS Firewall rule group association"
    }
}
```
+  Untuk detail API, lihat [AssociateResourceToProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/associate-resource-to-profile.html)di *Referensi AWS CLI Perintah*. 

### `create-profile`
<a name="route53profiles_CreateProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-profile`.

**AWS CLI**  
**Untuk membuat Profil**  
`create-profile`Contoh berikut membuat Profil.  

```
aws route53profiles create-profile \
    --name test
```
Output:  

```
{
    "Profile": {
        "Arn": "arn:aws:route53profiles:us-east-1:123456789012:profile/rp-6ffe47d5example",
        "ClientToken": "2ca1a304-32b3-4f5f-bc4c-EXAMPLE11111",
        "CreationTime": 1710850903.578,
        "Id": "rp-6ffe47d5example",
        "ModificationTime": 1710850903.578,
        "Name": "test",
        "OwnerId": "123456789012",
        "ShareStatus": "NOT_SHARED",
        "Status": "COMPLETE",
        "StatusMessage": "Created Profile"
    }
}
```
+  Untuk detail API, lihat [CreateProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/create-profile.html)di *Referensi AWS CLI Perintah*. 

### `delete-profile`
<a name="route53profiles_DeleteProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-profile`.

**AWS CLI**  
**Untuk menghapus Profil**  
`delete-profile`Contoh berikut menghapus Profil.  

```
aws route53profiles delete-profile \
    --profile-id rp-6ffe47d5example
```
Output:  

```
{
    "Profile": {
        "Arn": "arn:aws:route53profiles:us-east-1:123456789012:profile/rp-6ffe47d5example",
        "ClientToken": "0a15fec0-05d9-4f78-bec0-EXAMPLE11111",
        "CreationTime": 1710850903.578,
        "Id": "rp-6ffe47d5example",
        "ModificationTime": 1710850903.578,
        "Name": "test",
        "OwnerId": "123456789012",
        "ShareStatus": "NOT_SHARED",
        "Status": "DELETED",
        "StatusMessage": "Deleted Profile"
    }
}
```
+  Untuk detail API, lihat [DeleteProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/delete-profile.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-profile`
<a name="route53profiles_DisassociateProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-profile`.

**AWS CLI**  
**Untuk memisahkan Profil**  
`disassociate-profile`Contoh berikut memisahkan Profil dari VPC.  

```
aws route53profiles disassociate-profile \
    --profile-id rp-4987774726example \
    --resource-id vpc-0af3b96b3example
```
Output:  

```
{
    "ProfileAssociation": {
        "CreationTime": 1710851336.527,
        "Id": "rpassoc-489ce212fexample",
        "ModificationTime": 1710851401.362,
        "Name": "test-association",
        "OwnerId": "123456789012",
        "ProfileId": "rp-4987774726example",
        "ResourceId": "vpc-0af3b96b3example",
        "Status": "DELETING",
        "StatusMessage": "Deleting Profile Association"
    }
}
```
+  Untuk detail API, lihat [DisassociateProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/disassociate-profile.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-resource-from-profile`
<a name="route53profiles_DisassociateResourceFromProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-resource-from-profile`.

**AWS CLI**  
**Untuk memisahkan sumber daya dari Profil**  
`disassociate-resource-from-profile`Contoh berikut memisahkan grup aturan DNS Firewall dari Profil.  

```
aws route53profiles disassociate-resource-from-profile \
    --profile-id rp-4987774726example \
    --resource-arn arn:aws:route53resolver:us-east-1:123456789012:firewall-rule-group/rslvr-frg-cfe7f72example
```
Output:  

```
{
    "ProfileResourceAssociation": {
        "CreationTime": 1710851216.613,
        "Id": "rpr-001913120a7example",
        "ModificationTime": 1710852624.36,
        "Name": "test-resource-association",
        "OwnerId": "123456789012",
        "ProfileId": "rp-4987774726example",
        "ResourceArn": "arn:aws:route53resolver:us-east-1:123456789012:firewall-rule-group/rslvr-frg-cfe7f72example",
        "ResourceProperties": "{\"priority\":105}",
        "ResourceType": "FIREWALL_RULE_GROUP",
        "Status": "DELETING",
        "StatusMessage": "Deleting the Profile to DNS Firewall rule group association"
    }
}
```
+  Untuk detail API, lihat [DisassociateResourceFromProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/disassociate-resource-from-profile.html)di *Referensi AWS CLI Perintah*. 

### `get-profile-association`
<a name="route53profiles_GetProfileAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-profile-association`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang asosiasi Profil**  
Berikut ini `get-profile-association` mengembalikan informasi tentang asosiasi Profil tertentu.  

```
aws route53profiles get-profile-association \
    --profile-association-id rpassoc-489ce212fexample
```
Output:  

```
{
    "ProfileAssociation": {
        "CreationTime": 1709338817.148,
        "Id": "rrpassoc-489ce212fexample",
        "ModificationTime": 1709338974.772,
        "Name": "test-association",
        "OwnerId": "123456789012",
        "ProfileId": "rp-4987774726example",
        "ResourceId": "vpc-0af3b96b3example",
        "Status": "COMPLETE",
        "StatusMessage": "Created Profile Association"
    }
}
```
+  Untuk detail API, lihat [GetProfileAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/get-profile-association.html)di *Referensi AWS CLI Perintah*. 

### `get-profile-resource-association`
<a name="route53profiles_GetProfileResourceAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-profile-resource-association`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sumber daya yang terkait dengan Profil**  
Berikut ini `get-profile-resource-association` mengembalikan informasi tentang asosiasi sumber daya tertentu ke Profil.  

```
aws route53profiles get-profile-resource-association \
    --profile-resource-association-id rpr-001913120a7example
```
Output:  

```
{
    "ProfileResourceAssociation": {
        "CreationTime": 1710851216.613,
        "Id": "rpr-001913120a7example",
        "ModificationTime": 1710852303.798,
        "Name": "test-resource-association",
        "OwnerId": "123456789012",
        "ProfileId": "rp-4987774726example",
        "ResourceArn": "arn:aws:route53resolver:us-east-1:123456789012:firewall-rule-group/rslvr-frg-cfe7f72example",
        "ResourceProperties": "{\"priority\":105}",
        "ResourceType": "FIREWALL_RULE_GROUP",
        "Status": "COMPLETE",
        "StatusMessage": "Completed creation of Profile to DNS Firewall rule group association"
    }
}
```
+  Untuk detail API, lihat [GetProfileResourceAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/get-profile-resource-association.html)di *Referensi AWS CLI Perintah*. 

### `get-profile`
<a name="route53profiles_GetProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-profile`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang Profil**  
Berikut ini `get-profile` mengembalikan informasi tentang Profil yang ditentukan.  

```
aws route53profiles get-profile \
    --profile-id rp-4987774726example
```
Output:  

```
{
    "Profile": {
        "Arn": "arn:aws:route53profiles:us-east-1:123456789012:profile/rp-4987774726example",
        "ClientToken": "0cbc5ae7-4921-4204-bea9-EXAMPLE11111",
        "CreationTime": 1710851044.288,
        "Id": "rp-4987774726example",
        "ModificationTime": 1710851044.288,
        "Name": "test",
        "OwnerId": "123456789012",
        "ShareStatus": "NOT_SHARED",
        "Status": "COMPLETE",
        "StatusMessage": "Created Profile"
    }
}
```
+  Untuk detail API, lihat [GetProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/get-profile.html)di *Referensi AWS CLI Perintah*. 

### `list-profile-associations`
<a name="route53profiles_ListProfileAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-profile-associations`.

**AWS CLI**  
**Untuk daftar Asosiasi profil**  
Berikut ini `list-profile-associations` mencantumkan Asosiasi profil di AWS akun Anda.  

```
aws route53profiles list-profile-associations
```
Output:  

```
{
    "ProfileAssociations": [
        {
            "CreationTime": 1709338817.148,
            "Id": "rpassoc-489ce212fexample",
            "ModificationTime": 1709338974.772,
            "Name": "test-association",
            "OwnerId": "123456789012",
            "ProfileId": "rp-4987774726example",
            "ResourceId": "vpc-0af3b96b3example",
            "Status": "COMPLETE",
            "StatusMessage": "Created Profile Association"
        }
    ]
}
```
+  Untuk detail API, lihat [ListProfileAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/list-profile-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-profile-resource-associations`
<a name="route53profiles_ListProfileResourceAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-profile-resource-associations`.

**AWS CLI**  
**Untuk daftar Asosiasi sumber daya Profil**  
Berikut ini `list-profile-resource-associations` mencantumkan Asosiasi sumber daya Profil untuk Profil yang ditentukan.  

```
aws route53profiles list-profile-resource-associations \
    --profile-id rp-4987774726example
```
Output:  

```
{
     "ProfileResourceAssociations": [
         {
             "CreationTime": 1710851216.613,
             "Id": "rpr-001913120a7example",
             "ModificationTime": 1710851216.613,
             "Name": "test-resource-association",
             "OwnerId": "123456789012",
             "ProfileId": "rp-4987774726example",
             "ResourceArn": "arn:aws:route53resolver:us-east-1:123456789012:firewall-rule-group/rslvr-frg-cfe7f72example",
             "ResourceProperties": "{\"priority\":102}",
             "ResourceType": "FIREWALL_RULE_GROUP",
             "Status": "COMPLETE",
             "StatusMessage": "Completed creation of Profile to DNS Firewall rule group association"
         }
     ]
 }
```
+  Untuk detail API, lihat [ListProfileResourceAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/list-profile-resource-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-profiles`
<a name="route53profiles_ListProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-profiles`.

**AWS CLI**  
**Untuk daftar Profil**  
Berikut ini `list-profiles` mencantumkan Profil di AWS akun Anda dan menampilkan informasi tambahan tentang mereka.  

```
aws route53profiles list-profiles
```
Output:  

```
{
     "ProfileSummaries": [
         {
             "Arn": "arn:aws:route53profiles:us-east-1:123456789012:profile/rp-4987774726example",
             "Id": "rp-4987774726example",
             "Name": "test",
             "ShareStatus": "NOT_SHARED"
         }
     ]
 }
```
+  Untuk detail API, lihat [ListProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/list-profiles.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="route53profiles_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
Berikut `list-tags-for-resource` daftar tag untuk sumber daya yang ditentukan.  

```
aws route53profiles list-tags-for-resource \
    --resource-arn arn:aws:route53profiles:us-east-1:123456789012:profile/rp-4987774726example
```
Output:  

```
{
    "Tags": {
        "my-key-2": "my-value-2",
        "my-key-1": "my-value-1"
    }
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-profile-resource-association`
<a name="route53profiles_UpdateProfileResourceAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-profile-resource-association`.

**AWS CLI**  
**Untuk memperbarui sumber daya yang terkait dengan Profil**  
Berikut ini `update-profile-resource-association` memperbarui prioritas grup aturan DNS Firewall yang terkait dengan Profil.  

```
aws route53profiles update-profile-resource-association \
    --profile-resource-association-id rpr-001913120a7example \
    --resource-properties "{\"priority\": 105}"
```
Output:  

```
{
    "ProfileResourceAssociation": {
        "CreationTime": 1710851216.613,
        "Id": "rpr-001913120a7example",
        "ModificationTime": 1710852303.798,
        "Name": "test-resource-association",
        "OwnerId": "123456789012",
        "ProfileId": "rp-4987774726example",
        "ResourceArn": "arn:aws:route53resolver:us-east-1:123456789012:firewall-rule-group/rslvr-frg-cfe7f72example",
        "ResourceProperties": "{\"priority\":105}",
        "ResourceType": "FIREWALL_RULE_GROUP",
        "Status": "UPDATING",
        "StatusMessage": "Updating the Profile to DNS Firewall rule group association"
    }
}
```
+  Untuk detail API, lihat [UpdateProfileResourceAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53profiles/update-profile-resource-association.html)di *Referensi AWS CLI Perintah*. 

# Contoh Route 53 Resolver menggunakan AWS CLI
<a name="cli_2_route53resolver_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface dengan Route 53 Resolver.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-firewall-rule-group`
<a name="route53resolver_AssociateFirewallRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-firewall-rule-group`.

**AWS CLI**  
**Untuk mengaitkan grup aturan firewall dengan VPC**  
`associate-firewall-rule-group`Contoh berikut mengaitkan grup aturan DNS Firewall dengan Amazon VPC.  

```
aws route53resolver associate-firewall-rule-group \
    --name test-association \
    --firewall-rule-group-id rslvr-frg-47f93271fexample \
    --vpc-id vpc-31e92222 \
    --priority 101
```
Output:  

```
{
    "FirewallRuleGroupAssociation": {
        "Id": "rslvr-frgassoc-57e8873d7example",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group-association/rslvr-frgassoc-57e8873d7example",
        "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
        "VpcId": "vpc-31e92222",
        "Name": "test-association",
        "Priority": 101,
        "MutationProtection": "DISABLED",
        "Status": "UPDATING",
        "StatusMessage": "Creating Firewall Rule Group Association",
        "CreatorRequestId": "2ca1a304-32b3-4f5f-bc4c-EXAMPLE11111",
        "CreationTime": "2021-05-25T21:47:48.755768Z",
        "ModificationTime": "2021-05-25T21:47:48.755768Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola asosiasi antara grup aturan DNS Firewall VPC dan Route 53 Resolver DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-vpc-associating-rule-group.html) di Panduan Pengembang *Amazon* Route 53.  
+  Untuk detail API, lihat [AssociateFirewallRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/associate-firewall-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `associate-resolver-endpoint-ip-address`
<a name="route53resolver_AssociateResolverEndpointIpAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-resolver-endpoint-ip-address`.

**AWS CLI**  
**Untuk mengaitkan alamat IP lain dengan titik akhir Resolver**  
`associate-resolver-endpoint-ip-address`Contoh berikut mengaitkan alamat IP lain dengan titik akhir Resolver masuk. Jika Anda hanya menentukan subnet ID dan menghilangkan alamat IP dari `--ip-address` parameter, Resolver memilih alamat IP untuk Anda dari antara alamat IP yang tersedia di subnet yang ditentukan.  

```
aws route53resolver associate-resolver-endpoint-ip-address \
    --resolver-endpoint-id rslvr-in-497098ad5example \
    --ip-address="SubnetId=subnet-12d8exam,Ip=192.0.2.118"
```
Output:  

```
{
    "ResolverEndpoint": {
        "Id": "rslvr-in-497098ad5example",
        "CreatorRequestId": "AWSConsole.25.0123456789",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-endpoint/rslvr-in-497098ad5example",
        "Name": "my-inbound-endpoint",
        "SecurityGroupIds": [
            "sg-05cd7b25d6example"
        ],
        "Direction": "INBOUND",
        "IpAddressCount": 3,
        "HostVPCId": "vpc-304bexam",
        "Status": "UPDATING",
        "StatusMessage": "Updating the Resolver Endpoint",
        "CreationTime": "2020-01-02T23:25:45.538Z",
        "ModificationTime": "2020-01-02T23:25:45.538Z"
    }
}
```
Untuk selengkapnya, lihat [Nilai yang Anda Tentukan Saat Membuat atau Mengedit Titik Akhir Masuk](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-forwarding-inbound-queries.html#resolver-forwarding-inbound-queries-values) di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [AssociateResolverEndpointIpAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/associate-resolver-endpoint-ip-address.html)di *Referensi AWS CLI Perintah*. 

### `associate-resolver-rule`
<a name="route53resolver_AssociateResolverRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-resolver-rule`.

**AWS CLI**  
**Untuk mengaitkan aturan Resolver dengan VPC**  
`associate-resolver-rule`Contoh berikut mengaitkan aturan Resolver dengan VPC Amazon. Setelah Anda menjalankan perintah, Resolver mulai meneruskan kueri DNS ke jaringan Anda berdasarkan pengaturan dalam aturan, seperti nama domain kueri yang diteruskan.  

```
aws route53resolver associate-resolver-rule \
    --name my-resolver-rule-association \
    --resolver-rule-id rslvr-rr-42b60677c0example \
    --vpc-id vpc-304bexam
```
Output:  

```
{
    "ResolverRuleAssociation": {
        "Id": "rslvr-rrassoc-d61cbb2c8bexample",
        "ResolverRuleId": "rslvr-rr-42b60677c0example",
        "Name": "my-resolver-rule-association",
        "VPCId": "vpc-304bexam",
        "Status": "CREATING",
        "StatusMessage": "[Trace id: 1-5dc5a8fa-ec2cc480d2ef07617example] Creating the association."
    }
}
```
Untuk informasi selengkapnya, lihat [Meneruskan Kueri DNS Keluar ke Jaringan Anda](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-forwarding-outbound-queries.html) di Panduan Pengembang *Amazon* Route 53.  
+  Untuk detail API, lihat [AssociateResolverRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/associate-resolver-rule.html)di *Referensi AWS CLI Perintah*. 

### `create-firewall-domain-list`
<a name="route53resolver_CreateFirewallDomainList_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-firewall-domain-list`.

**AWS CLI**  
**Untuk membuat daftar domain Route 53 Resolver DNS Firewall**  
`create-firewall-domain-list`Contoh berikut membuat daftar domain Route 53 Resolver DNS Firewall, bernama test, di akun Anda. AWS   

```
aws route53resolver create-firewall-domain-list \
    --creator-request-id my-request-id \
    --name test
```
Output:  

```
{
    "FirewallDomainList": {
        "Id": "rslvr-fdl-d61cbb2cbexample",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-domain-list/rslvr-fdl-d61cbb2cbexample",
        "Name": "test",
        "DomainCount": 0,
        "Status": "COMPLETE",
        "StatusMessage": "Created Firewall Domain List",
        "CreatorRequestId": "my-request-id",
        "CreationTime": "2021-05-25T15:55:51.115365Z",
        "ModificationTime": "2021-05-25T15:55:51.115365Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola daftar domain Anda sendiri](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-user-managed-domain-lists.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [CreateFirewallDomainList](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/create-firewall-domain-list.html)di *Referensi AWS CLI Perintah*. 

### `create-firewall-rule-group`
<a name="route53resolver_CreateFirewallRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-firewall-rule-group`.

**AWS CLI**  
**Untuk membuat grup aturan Firewall**  
`create-firewall-rule-group`Contoh berikut membuat grup aturan DNS Firewall.  

```
aws route53resolver create-firewall-rule-group \
    --creator-request-id my-request-id \
    --name test
```
Output:  

```
{
    "FirewallRuleGroup": {
        "Id": "rslvr-frg-47f93271fexample",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group/rslvr-frg-47f93271fexample",
        "Name": "test",
        "RuleCount": 0,
        "Status": "COMPLETE",
        "StatusMessage": "Created Firewall Rule Group",
        "OwnerId": "123456789012",
        "CreatorRequestId": "my-request-id",
        "ShareStatus": "NOT_SHARED",
        "CreationTime": "2021-05-25T18:59:26.490017Z",
        "ModificationTime": "2021-05-25T18:59:26.490017Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [CreateFirewallRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/create-firewall-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `create-firewall-rule`
<a name="route53resolver_CreateFirewallRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-firewall-rule`.

**AWS CLI**  
**Untuk membuat aturan firewall**  
`create-firewall-rule`Contoh berikut membuat aturan firewall dalam aturan DNS Firewall untuk domain yang tercantum dalam daftar domain DNS Firewall.  

```
aws route53resolver create-firewall-rule \
    --name allow-rule \
    --firewall-rule-group-id rslvr-frg-47f93271fexample \
    --firewall-domain-list-id rslvr-fdl-9e956e9ffexample \
    --priority 101 \
    --action ALLOW
```
Output:  

```
{
    "FirewallRule": {
        "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
        "FirewallDomainListId": "rslvr-fdl-9e956e9ffexample",
        "Name": "allow-rule",
        "Priority": 101,
        "Action": "ALLOW",
        "CreatorRequestId": "d81e3fb7-020b-415e-939f-EXAMPLE11111",
        "CreationTime": "2021-05-25T21:44:00.346093Z",
        "ModificationTime": "2021-05-25T21:44:00.346093Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [CreateFirewallRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/create-firewall-rule.html)di *Referensi AWS CLI Perintah*. 

### `create-resolver-endpoint`
<a name="route53resolver_CreateResolverEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resolver-endpoint`.

**AWS CLI**  
**Untuk membuat titik akhir Resolver masuk**  
`create-resolver-endpoint`Contoh berikut menciptakan titik akhir Resolver inbound. Anda dapat menggunakan perintah yang sama untuk membuat endpoint masuk dan keluar.  
aws route53resolver create-resolver-endpoint --name my-inbound-endpoint -- creator-request-id 2020-01- 01-18:47 -- security-group-ids “sg-f62bexam” --direction INBOUND --ip-address = subnet-ba47exam, IP = 192.0.2.255 = subnet-12d8exam, IP = 192.0.2.254 SubnetId SubnetId  
Output:  

```
{
    "ResolverEndpoint": {
        "Id": "rslvr-in-f9ab8a03f1example",
        "CreatorRequestId": "2020-01-01-18:47",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-endpoint/rslvr-in-f9ab8a03f1example",
        "Name": "my-inbound-endpoint",
        "SecurityGroupIds": [
            "sg-f62bexam"
        ],
        "Direction": "INBOUND",
        "IpAddressCount": 2,
        "HostVPCId": "vpc-304examp",
        "Status": "CREATING",
        "StatusMessage": "[Trace id: 1-5dc1ff84-f3477826e4a190025example] Creating the Resolver Endpoint",
        "CreationTime": "2020-01-01T23:02:29.583Z",
        "ModificationTime": "2020-01-01T23:02:29.583Z"
    }
}
```
**Untuk membuat titik akhir Resolver keluar**  
`create-resolver-endpoint`Contoh berikut membuat endpoint resolver keluar menggunakan nilai-nilai dalam dokumen berformat JSON. `create-outbound-resolver-endpoint.json`  

```
aws route53resolver create-resolver-endpoint \
    --cli-input-json file://c:\temp\create-outbound-resolver-endpoint.json
```
Isi dari `create-outbound-resolver-endpoint.json`:  

```
{
   "CreatorRequestId": "2020-01-01-18:47",
   "Direction": "OUTBOUND",
   "IpAddresses": [
      {
         "Ip": "192.0.2.255",
         "SubnetId": "subnet-ba47exam"
      },
      {
         "Ip": "192.0.2.254",
         "SubnetId": "subnet-12d8exam"
      }
   ],
   "Name": "my-outbound-endpoint",
   "SecurityGroupIds": [ "sg-05cd7b25d6example" ],
   "Tags": [
      {
         "Key": "my-key-name",
         "Value": "my-key-value"
      }
   ]
}
```
Untuk informasi selengkapnya, lihat [Menyelesaikan Kueri DNS Antara VPCs dan Jaringan Anda](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver.html) di Panduan Pengembang *Amazon Route 53*.  
+  Untuk detail API, lihat [CreateResolverEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/create-resolver-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `create-resolver-rule`
<a name="route53resolver_CreateResolverRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resolver-rule`.

**AWS CLI**  
**Untuk membuat aturan Resolver**  
`create-resolver-rule`Contoh berikut membuat aturan penerusan Resolver. Aturan menggunakan rslvr-out-d contoh titik akhir 5e5920e37outbound untuk meneruskan kueri DNS ke alamat IP 10.24.8.75 dan 10.24.8.156. `example.com`  

```
aws route53resolver create-resolver-rule \
    --creator-request-id 2020-01-02-18:47 \
    --domain-name example.com \
    --name my-rule \
    --resolver-endpoint-id rslvr-out-d5e5920e37example \
    --rule-type FORWARD \
    --target-ips "Ip=10.24.8.75" "Ip=10.24.8.156"
```
Output:  

```
{
    "ResolverRule": {
        "Status": "COMPLETE",
        "RuleType": "FORWARD",
        "ResolverEndpointId": "rslvr-out-d5e5920e37example",
        "Name": "my-rule",
        "DomainName": "example.com.",
        "CreationTime": "2022-05-10T21:35:30.923187Z",
        "TargetIps": [
            {
                "Ip": "10.24.8.75",
                "Port": 53
            },
            {
                "Ip": "10.24.8.156",
                "Port": 53
            }
        ],
        "CreatorRequestId": "2022-05-10-16:33",
        "ModificationTime": "2022-05-10T21:35:30.923187Z",
        "ShareStatus": "NOT_SHARED",
        "Arn": "arn:aws:route53resolver:us-east-1:111117012054:resolver-rule/rslvr-rr-b1e0b905e93611111",
        "OwnerId": "111111111111",
        "Id": "rslvr-rr-rslvr-rr-b1e0b905e93611111",
        "StatusMessage": "[Trace id: 1-22222222-3e56afcc71a3724664f22e24] Successfully created Resolver Rule."
    }
}
```
+  Untuk detail API, lihat [CreateResolverRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/create-resolver-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-firewall-domain-list`
<a name="route53resolver_DeleteFirewallDomainList_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-firewall-domain-list`.

**AWS CLI**  
**Untuk menghapus daftar domain Route 53 Resolver DNS Firewall**  
`delete-firewall-domain-list`Contoh berikut menghapus daftar domain Route 53 Resolver DNS Firewall, bernama test, di akun Anda. AWS   

```
aws route53resolver delete-firewall-domain-list \
    --firewall-domain-list-id rslvr-fdl-9e956e9ffexample
```
Output:  

```
{
    "FirewallDomainList": {
        "Id": "rslvr-fdl-9e956e9ffexample",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-domain-list/rslvr-fdl-9e956e9ffexample",
        "Name": "test",
        "DomainCount": 6,
        "Status": "DELETING",
        "StatusMessage": "Deleting the Firewall Domain List",
        "CreatorRequestId": "my-request-id",
        "CreationTime": "2021-05-25T15:55:51.115365Z",
        "ModificationTime": "2021-05-25T18:58:05.588024Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola daftar domain Anda sendiri](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-user-managed-domain-lists.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [DeleteFirewallDomainList](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/delete-firewall-domain-list.html)di *Referensi AWS CLI Perintah*. 

### `delete-firewall-rule-group`
<a name="route53resolver_DeleteFirewallRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-firewall-rule-group`.

**AWS CLI**  
**Untuk menghapus grup aturan firewall**  
`delete-firewall-rule-group`Contoh berikut menghapus grup aturan firewall.  

```
aws route53resolver delete-firewall-rule-group \
    --firewall-rule-group-id rslvr-frg-47f93271fexample
```
Output:  

```
{
    "FirewallRuleGroup": {
        "Id": "rslvr-frg-47f93271fexample",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group/rslvr-frg-47f93271fexample",
        "Name": "test",
        "RuleCount": 0,
        "Status": "UPDATING",
        "StatusMessage": "Updating Firewall Rule Group",
        "OwnerId": "123456789012",
        "CreatorRequestId": "my-request-id",
        "ShareStatus": "NOT_SHARED",
        "CreationTime": "2021-05-25T18:59:26.490017Z",
        "ModificationTime": "2021-05-25T21:51:53.028688Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [DeleteFirewallRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/delete-firewall-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-firewall-rule`
<a name="route53resolver_DeleteFirewallRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-firewall-rule`.

**AWS CLI**  
**Untuk menghapus aturan firewall**  
`delete-firewall-rule`Contoh berikut menghapus aturan firewall tertentu.  

```
aws route53resolver delete-firewall-rule \
    --firewall-rule-group-id rslvr-frg-47f93271fexample \
    --firewall-domain-list-id rslvr-fdl-9e956e9ffexample
```
Output:  

```
{
    "FirewallRule": {
        "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
        "FirewallDomainListId": "rslvr-fdl-9e956e9ffexample",
        "Name": "allow-rule",
        "Priority": 102,
        "Action": "ALLOW",
        "CreatorRequestId": "d81e3fb7-020b-415e-939f-EXAMPLE11111",
        "CreationTime": "2021-05-25T21:44:00.346093Z",
        "ModificationTime": "2021-05-25T21:45:59.611600Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [DeleteFirewallRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/delete-firewall-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-resolver-endpoint`
<a name="route53resolver_DeleteResolverEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resolver-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir Resolver**  
`delete-resolver-endpoint`Contoh berikut menghapus titik akhir yang ditentukan.  
**Penting** Jika Anda menghapus titik akhir masuk, kueri DNS dari jaringan Anda tidak lagi diteruskan ke Resolver di VPC yang Anda tentukan di titik akhir. Jika Anda menghapus titik akhir keluar, Resolver berhenti meneruskan kueri DNS dari VPC ke jaringan untuk aturan yang menentukan titik akhir keluar yang dihapus.  

```
aws route53resolver delete-resolver-endpoint \
    --resolver-endpoint-id rslvr-in-497098ad59example
```
Output:  

```
{
    "ResolverEndpoint": {
        "Id": "rslvr-in-497098ad59example",
        "CreatorRequestId": "AWSConsole.25.157290example",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-endpoint/rslvr-in-497098ad59example",
        "Name": "my-inbound-endpoint",
        "SecurityGroupIds": [
            "sg-05cd7b25d6example"
        ],
        "Direction": "INBOUND",
        "IpAddressCount": 5,
        "HostVPCId": "vpc-304bexam",
        "Status": "DELETING",
        "StatusMessage": "[Trace id: 1-5dc5b658-811b5be0922bbc382example] Deleting ResolverEndpoint.",
        "CreationTime": "2020-01-01T23:25:45.538Z",
        "ModificationTime": "2020-01-02T23:25:45.538Z"
    }
}
```
+  Untuk detail API, lihat [DeleteResolverEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/delete-resolver-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-resolver-rule`
<a name="route53resolver_DeleteResolverRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resolver-rule`.

**AWS CLI**  
**Untuk menghapus aturan Resolver**  
`delete-resolver-rule`Contoh berikut menghapus aturan yang ditentukan.  
**Catatan** Jika aturan dikaitkan dengan aturan apapun VPCs, Anda harus terlebih dahulu memisahkan aturan dari VPCs sebelum Anda dapat menghapusnya.  

```
aws route53resolver delete-resolver-rule \
    --resolver-rule-id rslvr-rr-5b3809426bexample
```
Output:  

```
{
    "ResolverRule": {
        "Id": "rslvr-rr-5b3809426bexample",
        "CreatorRequestId": "2020-01-03-18:47",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-rule/rslvr-rr-5b3809426bexample",
        "DomainName": "zenith.example.com.",
        "Status": "DELETING",
        "StatusMessage": "[Trace id: 1-5dc5e05b-602e67b052cb74f05example] Deleting Resolver Rule.",
        "RuleType": "FORWARD",
        "Name": "my-resolver-rule",
        "TargetIps": [
            {
                "Ip": "192.0.2.50",
                "Port": 53
            }
        ],
        "ResolverEndpointId": "rslvr-out-d5e5920e3example",
        "OwnerId": "111122223333",
        "ShareStatus": "NOT_SHARED"
    }
}
```
+  Untuk detail API, lihat [DeleteResolverRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/delete-resolver-rule.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-firewall-rule-group`
<a name="route53resolver_DisassociateFirewallRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-firewall-rule-group`.

**AWS CLI**  
**Untuk memisahkan grup aturan firewall dari VPC**  
`disassociate-firewall-rule-group`Contoh berikut memisahkan grup aturan DNS Firewall dari VPC Amazon.  

```
aws route53resolver disassociate-firewall-rule-group \
    --firewall-rule-group-association-id rslvr-frgassoc-57e8873d7example
```
Output:  

```
{
    "FirewallRuleGroupAssociation": {
        "Id": "rslvr-frgassoc-57e8873d7example",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group-association/rslvr-frgassoc-57e8873d7example",
        "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
        "VpcId": "vpc-31e92222",
        "Name": "test-association",
        "Priority": 103,
        "MutationProtection": "DISABLED",
        "Status": "DELETING",
        "StatusMessage": "Deleting the Firewall Rule Group Association",
        "CreatorRequestId": "2ca1a304-32b3-4f5f-bc4c-EXAMPLE11111",
        "CreationTime": "2021-05-25T21:47:48.755768Z",
        "ModificationTime": "2021-05-25T21:51:02.377887Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola asosiasi antara grup aturan DNS Firewall VPC dan Route 53 Resolver DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-vpc-associating-rule-group.html) di Panduan Pengembang *Amazon* Route 53.  
+  Untuk detail API, lihat [DisassociateFirewallRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/disassociate-firewall-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-resolver-endpoint-ip-address`
<a name="route53resolver_DisassociateResolverEndpointIpAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-resolver-endpoint-ip-address`.

**AWS CLI**  
**Untuk memisahkan alamat IP dari titik akhir Resolver**  
`disassociate-resolver-endpoint-ip-address`Contoh berikut menghapus alamat IP dari titik akhir masuk atau keluar Resolver tertentu.  
**Catatan** Endpoint harus memiliki setidaknya dua alamat IP. Jika titik akhir saat ini hanya memiliki dua alamat IP dan Anda ingin mengganti satu alamat dengan alamat lain, Anda harus terlebih dahulu menggunakan [associate-resolver-endpoint-ip-address](https://docs.aws.amazon.com/cli/latest/reference/route53resolver/associate-resolver-endpoint-ip-address.html) untuk mengaitkan alamat IP baru. Kemudian Anda dapat memisahkan salah satu alamat IP asli dari titik akhir.  

```
aws route53resolver disassociate-resolver-endpoint-ip-address \
    --resolver-endpoint-id rslvr-in-f9ab8a03f1example \
    --ip-address="SubnetId=subnet-12d8a459,Ip=172.31.40.121"
```
Output:  

```
{
    "ResolverEndpoint": {
        "Id": "rslvr-in-f9ab8a03f1example",
        "CreatorRequestId": "2020-01-01-18:47",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-endpoint/rslvr-in-f9ab8a03f1example",
        "Name": "my-inbound-endpoint",
        "SecurityGroupIds": [
            "sg-f62bexam"
        ],
        "Direction": "INBOUND",
        "IpAddressCount": 3,
        "HostVPCId": "vpc-304bexam",
        "Status": "UPDATING",
        "StatusMessage": "Updating the Resolver Endpoint",
        "CreationTime": "2020-01-01T23:02:29.583Z",
        "ModificationTime": "2020-01-05T23:02:29.583Z"
    }
}
```
+  Untuk detail API, lihat [DisassociateResolverEndpointIpAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/disassociate-resolver-endpoint-ip-address.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-resolver-rule`
<a name="route53resolver_DisassociateResolverRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-resolver-rule`.

**AWS CLI**  
**Untuk memisahkan aturan Resolver dari VPC Amazon**  
`disassociate-resolver-rule`Contoh berikut menghapus hubungan antara aturan Resolver yang ditentukan dan VPC yang ditentukan. Anda dapat memisahkan aturan dari VPC dalam keadaan berikut:  
Untuk kueri DNS yang berasal dari VPC ini, Anda ingin Resolver menghentikan penerusan kueri ke jaringan Anda untuk nama domain yang ditentukan dalam aturan. Anda ingin menghapus aturan penerusan. Jika aturan saat ini dikaitkan dengan satu atau lebih VPCs, Anda harus memisahkan aturan dari semua VPCs sebelum Anda dapat menghapusnya.  

```
aws route53resolver disassociate-resolver-rule \
    --resolver-rule-id rslvr-rr-4955cb98ceexample \
    --vpc-id vpc-304bexam
```
Output:  

```
{
    "ResolverRuleAssociation": {
        "Id": "rslvr-rrassoc-322f4e8b9cexample",
        "ResolverRuleId": "rslvr-rr-4955cb98ceexample",
        "Name": "my-resolver-rule-association",
        "VPCId": "vpc-304bexam",
        "Status": "DELETING",
        "StatusMessage": "[Trace id: 1-5dc5ffa2-a26c38004c1f94006example] Deleting Association"
    }
}
```
+  Untuk detail API, lihat [DisassociateResolverRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/disassociate-resolver-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-firewall-config`
<a name="route53resolver_GetFirewallConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-firewall-config`.

**AWS CLI**  
**Untuk mendapatkan konfigurasi firewall untuk VPC**  
`get-firewall-config`Contoh berikut mengambil perilaku DNS Firewall untuk VPC yang ditentukan.  

```
aws route53resolver get-firewall-config \
    --resource-id vpc-31e92222
```
Output:  

```
{
    "FirewallConfig": {
        "Id": "rslvr-fc-86016850cexample",
        "ResourceId": "vpc-31e9222",
        "OwnerId": "123456789012",
        "FirewallFailOpen": "DISABLED"
    }
}
```
Untuk informasi selengkapnya, lihat konfigurasi [DNS Firewall VPC](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-vpc-configuration.html) di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [GetFirewallConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/get-firewall-config.html)di *Referensi AWS CLI Perintah*. 

### `get-firewall-domain-list`
<a name="route53resolver_GetFirewallDomainList_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-firewall-domain-list`.

**AWS CLI**  
**Untuk mendapatkan daftar domain Route 53 Resolver DNS Firewall**  
`get-firewall-domain-list`Contoh berikut mengambil daftar domain dengan ID yang Anda tentukan.  

```
aws route53resolver get-firewall-domain-list \
    --firewall-domain-list-id rslvr-fdl-42b60677cexample
```
Output:  

```
{
    "FirewallDomainList": {
        "Id": "rslvr-fdl-9e956e9ffexample",
        "Arn": "arn:aws:route53resolver:us-west-2:123457689012:firewall-domain-list/rslvr-fdl-42b60677cexample",
        "Name": "test",
        "DomainCount": 0,
        "Status": "COMPLETE",
        "StatusMessage": "Created Firewall Domain List",
        "CreatorRequestId": "my-request-id",
        "CreationTime": "2021-05-25T15:55:51.115365Z",
        "ModificationTime": "2021-05-25T15:55:51.115365Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola daftar domain Anda sendiri](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-user-managed-domain-lists.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [GetFirewallDomainList](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/get-firewall-domain-list.html)di *Referensi AWS CLI Perintah*. 

### `get-firewall-rule-group-association`
<a name="route53resolver_GetFirewallRuleGroupAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-firewall-rule-group-association`.

**AWS CLI**  
**Untuk mendapatkan asosiasi grup aturan firewall**  
`get-firewall-rule-group-association`Contoh berikut mengambil asosiasi grup aturan firewall.  

```
aws route53resolver get-firewall-rule-group-association \
    --firewall-rule-group-association-id rslvr-frgassoc-57e8873d7example
```
Output:  

```
{
    "FirewallRuleGroupAssociation": {
        "Id": "rslvr-frgassoc-57e8873d7example",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group-association/rslvr-frgassoc-57e8873d7example",
        "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
        "VpcId": "vpc-31e92222",
        "Name": "test-association",
        "Priority": 101,
        "MutationProtection": "DISABLED",
        "Status": "COMPLETE",
        "StatusMessage": "Finished rule group association update",
        "CreatorRequestId": "2ca1a304-32b3-4f5f-bc4c-EXAMPLE11111",
        "CreationTime": "2021-05-25T21:47:48.755768Z",
        "ModificationTime": "2021-05-25T21:47:48.755768Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola asosiasi antara grup aturan DNS Firewall VPC dan Route 53 Resolver DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-vpc-associating-rule-group.html) di Panduan Pengembang *Amazon* Route 53.  
+  Untuk detail API, lihat [GetFirewallRuleGroupAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/get-firewall-rule-group-association.html)di *Referensi AWS CLI Perintah*. 

### `get-firewall-rule-group-policy`
<a name="route53resolver_GetFirewallRuleGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-firewall-rule-group-policy`.

**AWS CLI**  
**Untuk mendapatkan kebijakan AWS IAM**  
`get-firewall-rule-group-policy`Contoh berikut mendapatkan kebijakan AWS Identity and Access Management (AWS IAM) untuk berbagi grup aturan yang ditentukan.  

```
aws route53resolver get-firewall-rule-group-policy \
    --arn arn:aws:route53resolver:us-west-2:AWS_ACCOUNT_ID:firewall-rule-group/rslvr-frg-47f93271fexample
```
Output:  

```
{
    "FirewallRuleGroupPolicy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"test\",\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::AWS_ACCOUNT_ID:root\"},\"Action\":[\"route53resolver:GetFirewallRuleGroup\",\"route53resolver:ListFirewallRuleGroups\"],\"Resource\":\"arn:aws:route53resolver:us-east-1:AWS_ACCOUNT_ID:firewall-rule-group/rslvr-frg-47f93271fexample\"}]}"
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [GetFirewallRuleGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/get-firewall-rule-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-firewall-rule-group`
<a name="route53resolver_GetFirewallRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-firewall-rule-group`.

**AWS CLI**  
**Untuk mendapatkan grup aturan Firewall**  
`get-firewall-rule-group`Contoh berikut mengambil informasi tentang grup aturan DNS Firewall dengan ID yang Anda berikan.  

```
aws route53resolver get-firewall-rule-group \
    --firewall-rule-group-id rslvr-frg-47f93271fexample
```
Output:  

```
{
    "FirewallRuleGroup": {
        "Id": "rslvr-frg-47f93271fexample",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group/rslvr-frg-47f93271fexample",
        "Name": "test",
        "RuleCount": 0,
        "Status": "COMPLETE",
        "StatusMessage": "Created Firewall Rule Group",
        "OwnerId": "123456789012",
        "CreatorRequestId": "my-request-id",
        "ShareStatus": "NOT_SHARED",
        "CreationTime": "2021-05-25T18:59:26.490017Z",
        "ModificationTime": "2021-05-25T18:59:26.490017Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [GetFirewallRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/get-firewall-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `get-resolver-endpoint`
<a name="route53resolver_GetResolverEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resolver-endpoint`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang titik akhir Resolver**  
`get-resolver-endpoint`Contoh berikut menampilkan rincian untuk titik akhir yang ditentukan keluar. Anda dapat menggunakan `get-resolver-endpoint` titik akhir masuk dan keluar dengan menentukan ID titik akhir yang berlaku.  

```
aws route53resolver get-resolver-endpoint \
    --resolver-endpoint-id rslvr-out-d5e5920e37example
```
Output:  

```
{
    "ResolverEndpoint": {
        "Id": "rslvr-out-d5e5920e37example",
        "CreatorRequestId": "2020-01-01-18:47",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-endpoint/rslvr-out-d5e5920e37example",
        "Name": "my-outbound-endpoint",
        "SecurityGroupIds": [
            "sg-05cd7b25d6example"
        ],
        "Direction": "OUTBOUND",
        "IpAddressCount": 2,
        "HostVPCId": "vpc-304bexam",
        "Status": "OPERATIONAL",
        "StatusMessage": "This Resolver Endpoint is operational.",
        "CreationTime": "2020-01-01T23:50:50.979Z",
        "ModificationTime": "2020-01-02T23:50:50.979Z"
    }
}
```
Untuk selengkapnya, lihat [Nilai yang Anda Tentukan Saat Membuat atau Mengedit Titik Akhir Masuk](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-forwarding-inbound-queries.html#resolver-forwarding-inbound-queries-values) di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [GetResolverEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/get-resolver-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `get-resolver-rule-association`
<a name="route53resolver_GetResolverRuleAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resolver-rule-association`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang hubungan antara aturan Resolver dan VPC**  
`get-resolver-rule-association`Contoh berikut menampilkan detail tentang hubungan antara aturan Resolver tertentu dan VPC. Anda mengaitkan aturan resolver dan VPC menggunakan. [associate-resolver-rule](https://docs.aws.amazon.com/cli/latest/reference/route53resolver/associate-resolver-rule.html)  

```
aws route53resolver get-resolver-rule-association \
    --resolver-rule-association-id rslvr-rrassoc-d61cbb2c8bexample
```
Output:  

```
{
    "ResolverRuleAssociation": {
        "Id": "rslvr-rrassoc-d61cbb2c8bexample",
        "ResolverRuleId": "rslvr-rr-42b60677c0example",
        "Name": "my-resolver-rule-association",
        "VPCId": "vpc-304bexam",
        "Status": "COMPLETE",
        "StatusMessage": ""
    }
}
```
+  Untuk detail API, lihat [GetResolverRuleAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/get-resolver-rule-association.html)di *Referensi AWS CLI Perintah*. 

### `get-resolver-rule`
<a name="route53resolver_GetResolverRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resolver-rule`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang aturan Resolver**  
`get-resolver-rule`Contoh berikut menampilkan detail tentang aturan Resolver yang ditentukan, seperti nama domain tempat aturan meneruskan kueri DNS dan ID titik akhir resolver keluar yang terkait dengan aturan tersebut.  

```
aws route53resolver get-resolver-rule \
    --resolver-rule-id rslvr-rr-42b60677c0example
```
Output:  

```
{
    "ResolverRule": {
        "Id": "rslvr-rr-42b60677c0example",
        "CreatorRequestId": "2020-01-01-18:47",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-rule/rslvr-rr-42b60677c0example",
        "DomainName": "example.com.",
        "Status": "COMPLETE",
        "StatusMessage": "[Trace id: 1-5dc4b177-ff1d9d001a0f80005example] Successfully created Resolver Rule.",
        "RuleType": "FORWARD",
        "Name": "my-rule",
        "TargetIps": [
            {
                "Ip": "192.0.2.45",
                "Port": 53
            }
        ],
        "ResolverEndpointId": "rslvr-out-d5e5920e37example",
        "OwnerId": "111122223333",
        "ShareStatus": "NOT_SHARED"
    }
}
```
Untuk selengkapnya, lihat [Nilai yang Anda Tentukan Saat Membuat atau Mengedit Aturan](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-forwarding-outbound-queries.html#resolver-forwarding-outbound-queries-rule-values) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [GetResolverRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/get-resolver-rule.html)di *Referensi AWS CLI Perintah*. 

### `import-firewall-domains`
<a name="route53resolver_ImportFirewallDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-firewall-domains`.

**AWS CLI**  
**Untuk mengimpor domain ke dalam daftar domain**  
`import-firewall-domains`Contoh berikut mengimpor satu set domain dari file ke dalam daftar domain DNS Firewall yang Anda tentukan.  

```
aws route53resolver import-firewall-domains \
    --firewall-domain-list-id rslvr-fdl-d61cbb2cbexample \
    --operation REPLACE \
    --domain-file-url s3://PATH/TO/YOUR/FILE
```
Output:  

```
{
    "Id": "rslvr-fdl-d61cbb2cbexample",
    "Name": "test",
    "Status": "IMPORTING",
    "StatusMessage": "Importing domains from provided file."
}
```
Untuk informasi selengkapnya, lihat [Mengelola daftar domain Anda sendiri](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-user-managed-domain-lists.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [ImportFirewallDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/import-firewall-domains.html)di *Referensi AWS CLI Perintah*. 

### `list-firewall-configs`
<a name="route53resolver_ListFirewallConfigs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-firewall-configs`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi firewall**  
`list-firewall-configs`Contoh berikut mencantumkan konfigurasi DNS Firewall Anda.  

```
aws route53resolver list-firewall-configs
```
Output:  

```
{
    "FirewallConfigs": [
        {
            "Id": "rslvr-fc-86016850cexample",
            "ResourceId": "vpc-31e92222",
            "OwnerId": "123456789012",
            "FirewallFailOpen": "DISABLED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat konfigurasi [DNS Firewall VPC](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-vpc-configuration.html) di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [ListFirewallConfigs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-firewall-configs.html)di *Referensi AWS CLI Perintah*. 

### `list-firewall-domain-lists`
<a name="route53resolver_ListFirewallDomainLists_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-firewall-domain-lists`.

**AWS CLI**  
**Untuk membuat daftar semua daftar domain Route 53 Resolver DNS Firewall**  
`list-firewall-domain-lists`Contoh berikut mencantumkan semua daftar domain.  

```
aws route53resolver list-firewall-domain-lists
```
Output:  

```
{
    "FirewallDomainLists": [
        {
            "Id": "rslvr-fdl-2c46f2ecfexample",
            "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-domain-list/rslvr-fdl-2c46f2ecfexample",
            "Name": "AWSManagedDomainsMalwareDomainList",
            "CreatorRequestId": "AWSManagedDomainsMalwareDomainList",
            "ManagedOwnerName": "Route 53 Resolver DNS Firewall"
        },
        {
            "Id": "rslvr-fdl-aa970e9e1example",
            "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-domain-list/rslvr-fdl-aa970e9e1example",
            "Name": "AWSManagedDomainsBotnetCommandandControl",
            "CreatorRequestId": "AWSManagedDomainsBotnetCommandandControl",
            "ManagedOwnerName": "Route 53 Resolver DNS Firewall"
        },
        {
            "Id": "rslvr-fdl-42b60677cexample",
            "Arn": "arn:aws:route53resolver:us-west-2:123456789111:firewall-domain-list/rslvr-fdl-42b60677cexample",
            "Name": "test",
            "CreatorRequestId": "my-request-id"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [daftar domain Route 53 Resolver DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-domain-lists.html) di Panduan Pengembang *Amazon Route 53*.  
+  Untuk detail API, lihat [ListFirewallDomainLists](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-firewall-domain-lists.html)di *Referensi AWS CLI Perintah*. 

### `list-firewall-domains`
<a name="route53resolver_ListFirewallDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-firewall-domains`.

**AWS CLI**  
**Untuk membuat daftar domain dalam daftar domain**  
`list-firewall-domains`Contoh berikut mencantumkan domain dalam daftar domain DNS Firewall yang Anda tentukan.  

```
aws route53resolver list-firewall-domains \
    --firewall-domain-list-id rslvr-fdl-d61cbb2cbexample
```
Output:  

```
{
    "Domains": [
        "test1.com.",
        "test2.com.",
        "test3.com."
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola daftar domain Anda sendiri](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-user-managed-domain-lists.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [ListFirewallDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-firewall-domains.html)di *Referensi AWS CLI Perintah*. 

### `list-firewall-rule-group-associations`
<a name="route53resolver_ListFirewallRuleGroupAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-firewall-rule-group-associations`.

**AWS CLI**  
**Untuk mencantumkan asosiasi grup aturan DNS Firewall**  
`list-firewall-rule-group-associations`Contoh berikut mencantumkan asosiasi grup aturan DNS Firewall Anda dengan Amazon VPCs.  

```
aws route53resolver list-firewall-rule-group-associations
```
Output:  

```
{
    "FirewallRuleGroupAssociations": [
        {
            "Id": "rslvr-frgassoc-57e8873d7example",
            "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group-association/rslvr-frgassoc-57e8873d7example",
            "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
            "VpcId": "vpc-31e92222",
            "Name": "test-association",
            "Priority": 101,
            "MutationProtection": "DISABLED",
            "Status": "UPDATING",
            "StatusMessage": "Creating Firewall Rule Group Association",
            "CreatorRequestId": "2ca1a304-32b3-4f5f-bc4c-EXAMPLE11111",
            "CreationTime": "2021-05-25T21:47:48.755768Z",
            "ModificationTime": "2021-05-25T21:47:48.755768Z"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi antara VPC Anda dan grup aturan Route 53 Resolver DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-vpc-associating-rule-group.html) di Panduan Pengembang *Amazon* Route 53.  
+  Untuk detail API, lihat [ListFirewallRuleGroupAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-firewall-rule-group-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-firewall-rule-groups`
<a name="route53resolver_ListFirewallRuleGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-firewall-rule-groups`.

**AWS CLI**  
**Untuk mendapatkan daftar grup aturan Firewall Anda**  
`list-firewall-rule-groups`Contoh berikut mencantumkan grup aturan DNS Firewall Anda.  

```
aws route53resolver list-firewall-rule-groups
```
Output:  

```
{
    "FirewallRuleGroups": [
        {
            "Id": "rslvr-frg-47f93271fexample",
            "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group/rslvr-frg-47f93271fexample",
            "Name": "test",
            "OwnerId": "123456789012",
            "CreatorRequestId": "my-request-id",
            "ShareStatus": "NOT_SHARED"
        }
    ]
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [ListFirewallRuleGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-firewall-rule-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-firewall-rules`
<a name="route53resolver_ListFirewallRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-firewall-rules`.

**AWS CLI**  
**Untuk daftar aturan firewall**  
`list-firewall-rules`Contoh berikut mencantumkan semua aturan DNS Firewall Anda dalam grup aturan firewall.  

```
aws route53resolver list-firewall-rules \
    --firewall-rule-group-id rslvr-frg-47f93271fexample
```
Output:  

```
{
    "FirewallRules": [
        {
            "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
            "FirewallDomainListId": "rslvr-fdl-9e956e9ffexample",
            "Name": "allow-rule",
            "Priority": 101,
            "Action": "ALLOW",
            "CreatorRequestId": "d81e3fb7-020b-415e-939f-EXAMPLE11111",
            "CreationTime": "2021-05-25T21:44:00.346093Z",
            "ModificationTime": "2021-05-25T21:44:00.346093Z"
        }
    ]
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [ListFirewallRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-firewall-rules.html)di *Referensi AWS CLI Perintah*. 

### `list-resolver-endpoint-ip-addresses`
<a name="route53resolver_ListResolverEndpointIpAddresses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resolver-endpoint-ip-addresses`.

**AWS CLI**  
**Untuk mencantumkan alamat IP untuk titik akhir masuk atau keluar yang ditentukan**  
`list-resolver-endpoint-ip-addresses`Contoh berikut mencantumkan informasi tentang alamat IP yang terkait dengan titik akhir `rslvr-in-f9ab8a03f1example` masuk. Anda juga dapat menggunakan `list-resolver-endpoint-ip-addresses` titik akhir keluar dengan menentukan ID titik akhir yang berlaku.  

```
aws route53resolver list-resolver-endpoint-ip-addresses \
    --resolver-endpoint-id rslvr-in-f9ab8a03f1example
```
Output:  

```
{
    "MaxResults": 10,
    "IpAddresses": [
        {
            "IpId": "rni-1de60cdbfeexample",
            "SubnetId": "subnet-ba47exam",
            "Ip": "192.0.2.44",
            "Status": "ATTACHED",
            "StatusMessage": "This IP address is operational.",
            "CreationTime": "2020-01-03T23:02:29.587Z",
            "ModificationTime": "2020-01-03T23:03:05.555Z"
        },
        {
            "IpId": "rni-aac7085e38example",
            "SubnetId": "subnet-12d8exam",
            "Ip": "192.0.2.45",
            "Status": "ATTACHED",
            "StatusMessage": "This IP address is operational.",
            "CreationTime": "2020-01-03T23:02:29.593Z",
            "ModificationTime": "2020-01-03T23:02:55.060Z"
        }
    ]
}
```
Untuk informasi selengkapnya tentang nilai dalam output, lihat [Nilai yang Anda Tentukan Saat Membuat atau Mengedit Titik Akhir Masuk](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-forwarding-inbound-queries.html#resolver-forwarding-inbound-queries-values), dan [Nilai yang Anda Tentukan Saat Membuat atau Mengedit Titik Akhir Keluar](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-forwarding-outbound-queries.html#resolver-forwarding-outbound-queries-endpoint-values), keduanya dalam Panduan Pengembang *Amazon Route* 53.  
+  Untuk detail API, lihat [ListResolverEndpointIpAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-resolver-endpoint-ip-addresses.html)di *Referensi AWS CLI Perintah*. 

### `list-resolver-endpoints`
<a name="route53resolver_ListResolverEndpoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resolver-endpoints`.

**AWS CLI**  
**Untuk mencantumkan titik akhir Resolver di Wilayah AWS **  
`list-resolver-endpoints`Contoh berikut mencantumkan titik akhir Resolver masuk dan keluar yang ada di akun saat ini.  

```
aws route53resolver list-resolver-endpoints
```
Output:  

```
{
    "MaxResults": 10,
    "ResolverEndpoints": [
        {
            "Id": "rslvr-in-497098ad59example",
            "CreatorRequestId": "2020-01-01-18:47",
            "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-endpoint/rslvr-in-497098ad59example",
            "Name": "my-inbound-endpoint",
            "SecurityGroupIds": [
                "sg-05cd7b25d6example"
            ],
            "Direction": "INBOUND",
            "IpAddressCount": 2,
            "HostVPCId": "vpc-304bexam",
            "Status": "OPERATIONAL",
            "StatusMessage": "This Resolver Endpoint is operational.",
            "CreationTime": "2020-01-01T23:25:45.538Z",
            "ModificationTime": "2020-01-01T23:25:45.538Z"
        },
        {
            "Id": "rslvr-out-d5e5920e37example",
            "CreatorRequestId": "2020-01-01-18:48",
            "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-endpoint/rslvr-out-d5e5920e37example",
            "Name": "my-outbound-endpoint",
            "SecurityGroupIds": [
                "sg-05cd7b25d6example"
            ],
            "Direction": "OUTBOUND",
            "IpAddressCount": 2,
            "HostVPCId": "vpc-304bexam",
            "Status": "OPERATIONAL",
            "StatusMessage": "This Resolver Endpoint is operational.",
            "CreationTime": "2020-01-01T23:50:50.979Z",
            "ModificationTime": "2020-01-01T23:50:50.979Z"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResolverEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-resolver-endpoints.html)di *Referensi AWS CLI Perintah*. 

### `list-resolver-rule-associations`
<a name="route53resolver_ListResolverRuleAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resolver-rule-associations`.

**AWS CLI**  
**Untuk membuat daftar asosiasi antara aturan Resolver dan VPCs**  
`list-resolver-rule-associations`Contoh berikut mencantumkan asosiasi antara aturan resolver dan VPCs di akun saat ini AWS .  

```
aws route53resolver list-resolver-rule-associations
```
Output:  

```
{
    "MaxResults": 30,
    "ResolverRuleAssociations": [
        {
            "Id": "rslvr-autodefined-assoc-vpc-304bexam-internet-resolver",
            "ResolverRuleId": "rslvr-autodefined-rr-internet-resolver",
            "Name": "System Rule Association",
            "VPCId": "vpc-304bexam",
            "Status": "COMPLETE",
            "StatusMessage": ""
        },
        {
            "Id": "rslvr-rrassoc-d61cbb2c8bexample",
            "ResolverRuleId": "rslvr-rr-42b60677c0example",
            "Name": "my-resolver-rule-association",
            "VPCId": "vpc-304bexam",
            "Status": "COMPLETE",
            "StatusMessage": ""
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cara Route 53 Resolver Memajukan Kueri DNS dari Jaringan Anda ke Jaringan Anda di Panduan VPCs Pengembang](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver.html#resolver-overview-forward-vpc-to-network) *Amazon* Route 53.  
+  Untuk detail API, lihat [ListResolverRuleAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-resolver-rule-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-resolver-rules`
<a name="route53resolver_ListResolverRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resolver-rules`.

**AWS CLI**  
**Untuk membuat daftar aturan Resolver**  
`list-resolver-rules`Contoh berikut mencantumkan semua aturan Resolver di akun saat ini AWS .  

```
aws route53resolver list-resolver-rules
```
Output:  

```
{
    "MaxResults": 30,
    "ResolverRules": [
        {
            "Id": "rslvr-autodefined-rr-internet-resolver",
            "CreatorRequestId": "",
            "Arn": "arn:aws:route53resolver:us-west-2::autodefined-rule/rslvr-autodefined-rr-internet-resolver",
            "DomainName": ".",
            "Status": "COMPLETE",
            "RuleType": "RECURSIVE",
            "Name": "Internet Resolver",
            "OwnerId": "Route 53 Resolver",
            "ShareStatus": "NOT_SHARED"
        },
        {
            "Id": "rslvr-rr-42b60677c0example",
            "CreatorRequestId": "2020-01-01-18:47",
            "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-rule/rslvr-rr-42b60677c0bc4e299",
            "DomainName": "example.com.",
            "Status": "COMPLETE",
            "StatusMessage": "[Trace id: 1-5dc4b177-ff1d9d001a0f80005example] Successfully created Resolver Rule.",
            "RuleType": "FORWARD",
            "Name": "my-rule",
            "TargetIps": [
                {
                    "Ip": "192.0.2.45",
                    "Port": 53
                }
            ],
            "ResolverEndpointId": "rslvr-out-d5e5920e37example",
            "OwnerId": "111122223333",
            "ShareStatus": "NOT_SHARED"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cara Route 53 Resolver Memajukan Kueri DNS dari Jaringan Anda ke Jaringan Anda di Panduan VPCs Pengembang](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver.html#resolver-overview-forward-vpc-to-network) *Amazon* Route 53.  
+  Untuk detail API, lihat [ListResolverRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-resolver-rules.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="route53resolver_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag untuk sumber daya Resolver**  
`list-tags-for-resource`Contoh berikut mencantumkan tag yang ditetapkan untuk aturan Resolver tertentu.  

```
aws route53resolver list-tags-for-resource \
    --resource-arn "arn:aws:route53resolver:us-west-2:111122223333:resolver-rule/rslvr-rr-42b60677c0example"
```
Output:  

```
{
    "Tags": [
        {
            "Key": "my-key-1",
            "Value": "my-value-1"
        },
        {
            "Key": "my-key-2",
            "Value": "my-value-2"
        }
    ]
}
```
Untuk informasi tentang penggunaan tag untuk alokasi biaya, lihat [Menggunakan Tag Alokasi Biaya](https://docs.aws.amazon.com/awsaccountbilling/latest/aboutv2/cost-alloc-tags.html) di Panduan Pengguna *AWS Billing and Cost* Management.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `put-firewall-rule-group-policy`
<a name="route53resolver_PutFirewallRuleGroupPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-firewall-rule-group-policy`.

**AWS CLI**  
**Untuk melampirkan kebijakan AWS IAM untuk membagikan kebijakan grup aturan Firewall**  
`put-firewall-rule-group-policy`Contoh berikut melampirkan kebijakan AWS Identity and Access Management (AWS IAM) untuk berbagi grup aturan.  

```
aws route53resolver put-firewall-rule-group-policy \
    --firewall-rule-group-policy "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Sid\":\"test\",\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::AWS_ACCOUNT_ID:root\"},\"Action\":[\"route53resolver:GetFirewallRuleGroup\",\"route53resolver:ListFirewallRuleGroups\"],\"Resource\":\"arn:aws:route53resolver:us-east-1:AWS_ACCOUNT_ID:firewall-rule-group/rslvr-frg-47f93271fexample\"}]}"
```
Output:  

```
{
    "ReturnValue": true
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [PutFirewallRuleGroupPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/put-firewall-rule-group-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-resolver-rule-policy`
<a name="route53resolver_PutResolverRulePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-resolver-rule-policy`.

**AWS CLI**  
**Untuk berbagi aturan Resolver dengan akun lain AWS **  
`put-resolver-rule-policy`Contoh berikut menentukan aturan Resolver yang ingin Anda bagikan dengan AWS akun lain, akun yang ingin Anda bagikan aturannya, dan operasi terkait aturan yang Anda inginkan agar akun dapat dilakukan sesuai aturan.  
**Catatan** Anda harus menjalankan perintah ini menggunakan kredensyal dari akun yang sama yang membuat aturan.  

```
aws route53resolver put-resolver-rule-policy \
    --region us-east-1 \
    --arn "arn:aws:route53resolver:us-east-1:111122223333:resolver-rule/rslvr-rr-42b60677c0example" \
    --resolver-rule-policy "{\"Version\": \"2012-10-17\", \
        \"Statement\": [ { \
        \"Effect\" : \"Allow\", \
        \"Principal\" : {\"AWS\" : \"444455556666\" }, \
        \"Action\" : [ \
            \"route53resolver:GetResolverRule\", \
            \"route53resolver:AssociateResolverRule\", \
            \"route53resolver:DisassociateResolverRule\", \
            \"route53resolver:ListResolverRules\", \
            \"route53resolver:ListResolverRuleAssociations\" ], \
        \"Resource\" : [ \"arn:aws:route53resolver:us-east-1:111122223333:resolver-rule/rslvr-rr-42b60677c0example\" ] } ] }"
```
Output:  

```
{
    "ReturnValue": true
}
```
Setelah menjalankan`put-resolver-rule-policy`, Anda dapat menjalankan dua perintah Resource Access Manager (RAM) berikut. Anda harus menggunakan akun yang ingin Anda bagikan aturannya:  
`get-resource-share-invitations`mengembalikan nilai`resourceShareInvitationArn`. Anda memerlukan nilai ini untuk menerima undangan untuk menggunakan aturan bersama. `accept-resource-share-invitation`menerima undangan untuk menggunakan aturan bersama.  
Untuk informasi selengkapnya, lihat dokumentasi berikut ini:  
[get-resource-share-invitations[accept-resource-share-invitations](https://docs.aws.amazon.com/cli/latest/reference/ram/accept-resource-share-invitation.html)](https://docs.aws.amazon.com/cli/latest/reference/ram/get-resource-share-invitations.html)[Berbagi Aturan Penerusan dengan AWS Akun Lain dan Menggunakan Aturan Bersama](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-rules-managing.html#resolver-rules-managing-sharing) di Panduan Pengembang *Amazon Route 53*  
+  Untuk detail API, lihat [PutResolverRulePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/put-resolver-rule-policy.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="route53resolver_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk mengaitkan tag dengan sumber daya Resolver**  
`tag-resource`Contoh berikut mengaitkan dua key/value pasangan tag dengan aturan Resolver yang ditentukan.  

```
aws route53resolver tag-resource \
    --resource-arn "arn:aws:route53resolver:us-west-2:111122223333:resolver-rule/rslvr-rr-42b60677c0example" \
    --tags "Key=my-key-1,Value=my-value-1" "Key=my-key-2,Value=my-value-2"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi tentang penggunaan tag untuk alokasi biaya, lihat [Menggunakan Tag Alokasi Biaya](https://docs.aws.amazon.com/awsaccountbilling/latest/aboutv2/cost-alloc-tags.html) di Panduan Pengguna *AWS Billing and Cost* Management.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="route53resolver_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya Resolver**  
`untag-resource`Contoh berikut menghapus dua tag dari aturan Resolver yang ditentukan.  

```
aws route53resolver untag-resource \
    --resource-arn "arn:aws:route53resolver:us-west-2:111122223333:resolver-rule/rslvr-rr-42b60677c0example" \
    --tag-keys my-key-1 my-key-2
```
Perintah ini tidak menghasilkan output. Untuk mengonfirmasi bahwa tag telah dihapus, Anda dapat menggunakan [list-tags-for-resource](https://docs.aws.amazon.com/cli/latest/reference/route53resolver/list-tags-for-resource.html).  
Untuk informasi tentang penggunaan tag untuk alokasi biaya, lihat [Menggunakan Tag Alokasi Biaya](https://docs.aws.amazon.com/awsaccountbilling/latest/aboutv2/cost-alloc-tags.html) di Panduan Pengguna *AWS Billing and Cost* Management.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-firewall-config`
<a name="route53resolver_UpdateFirewallConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-firewall-config`.

**AWS CLI**  
**Untuk memperbarui konfigurasi firewall**  
`update-firewall-config`Contoh berikut memperbarui konfigurasi DNS Firewall.  

```
aws route53resolver update-firewall-config \
    --resource-id vpc-31e92222 \
    --firewall-fail-open DISABLED
```
Output:  

```
{
    "FirewallConfig": {
        "Id": "rslvr-fc-86016850cexample",
        "ResourceId": "vpc-31e92222",
        "OwnerId": "123456789012",
        "FirewallFailOpen": "DISABLED"
    }
}
```
Untuk informasi selengkapnya, lihat konfigurasi [DNS Firewall VPC](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-vpc-configuration.html) di Panduan *Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [UpdateFirewallConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/update-firewall-config.html)di *Referensi AWS CLI Perintah*. 

### `update-firewall-domains`
<a name="route53resolver_UpdateFirewallDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-firewall-domains`.

**AWS CLI**  
**Untuk memperbarui daftar domain**  
`update-firewall-domains`Contoh berikut menambahkan domain ke daftar domain dengan ID yang Anda berikan.  

```
aws route53resolver update-firewall-domains \
    --firewall-domain-list-id rslvr-fdl-42b60677cexampleb \
    --operation ADD \
    --domains test1.com test2.com test3.com
```
Output:  

```
{
    "Id": "rslvr-fdl-42b60677cexample",
    "Name": "test",
    "Status": "UPDATING",
    "StatusMessage": "Updating the Firewall Domain List"
}
```
Untuk informasi selengkapnya, lihat [Mengelola daftar domain Anda sendiri](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-user-managed-domain-lists.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [UpdateFirewallDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/update-firewall-domains.html)di *Referensi AWS CLI Perintah*. 

### `update-firewall-rule-group-association`
<a name="route53resolver_UpdateFirewallRuleGroupAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-firewall-rule-group-association`.

**AWS CLI**  
**Untuk memperbarui asosiasi grup aturan firewall**  
`update-firewall-rule-group-association`Contoh berikut memperbarui asosiasi grup aturan firewall.  

```
aws route53resolver update-firewall-rule-group-association \
    --firewall-rule-group-association-id rslvr-frgassoc-57e8873d7example \
    --priority 103
```
Output:  

```
{
    "FirewallRuleGroupAssociation": {
        "Id": "rslvr-frgassoc-57e8873d7example",
        "Arn": "arn:aws:route53resolver:us-west-2:123456789012:firewall-rule-group-association/rslvr-frgassoc-57e8873d7example",
        "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
        "VpcId": "vpc-31e92222",
        "Name": "test-association",
        "Priority": 103,
        "MutationProtection": "DISABLED",
        "Status": "UPDATING",
        "StatusMessage": "Updating the Firewall Rule Group Association Attributes",
        "CreatorRequestId": "2ca1a304-32b3-4f5f-bc4c-EXAMPLE11111",
        "CreationTime": "2021-05-25T21:47:48.755768Z",
        "ModificationTime": "2021-05-25T21:50:09.272569Z"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi antara VPC Anda dan grup aturan Route 53 Resolver DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-vpc-associating-rule-group.html) di Panduan Pengembang *Amazon* Route 53.  
+  Untuk detail API, lihat [UpdateFirewallRuleGroupAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/update-firewall-rule-group-association.html)di *Referensi AWS CLI Perintah*. 

### `update-firewall-rule`
<a name="route53resolver_UpdateFirewallRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-firewall-rule`.

**AWS CLI**  
**Untuk memperbarui aturan firewall**  
`update-firewall-rule`Contoh berikut memperbarui aturan firewall dengan parameter yang Anda tentukan.  

```
aws route53resolver update-firewall-rule \
    --firewall-rule-group-id rslvr-frg-47f93271fexample \
    --firewall-domain-list-id rslvr-fdl-9e956e9ffexample \
    --priority 102
```
Output:  

```
{
    "FirewallRule": {
        "FirewallRuleGroupId": "rslvr-frg-47f93271fexample",
        "FirewallDomainListId": "rslvr-fdl-9e956e9ffexample",
        "Name": "allow-rule",
        "Priority": 102,
        "Action": "ALLOW",
        "CreatorRequestId": "d81e3fb7-020b-415e-939f-EXAMPLE11111",
        "CreationTime": "2021-05-25T21:44:00.346093Z",
        "ModificationTime": "2021-05-25T21:45:59.611600Z"
    }
}
```
Untuk selengkapnya, lihat [Mengelola grup aturan dan aturan di DNS Firewall](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-dns-firewall-rule-group-managing.html) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [UpdateFirewallRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/update-firewall-rule.html)di *Referensi AWS CLI Perintah*. 

### `update-resolver-endpoint`
<a name="route53resolver_UpdateResolverEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resolver-endpoint`.

**AWS CLI**  
**Untuk memperbarui nama titik akhir Resolver**  
`update-resolver-endpoint`Contoh berikut memperbarui nama titik akhir Resolver. Memperbarui nilai lain tidak didukung.  

```
aws route53resolver update-resolver-endpoint \
    --resolver-endpoint-id rslvr-in-b5d45e32bdc445f09 \
    --name my-renamed-inbound-endpoint
```
Output:  

```
{
    "ResolverEndpoint": {
        "Id": "rslvr-in-b5d45e32bdexample",
        "CreatorRequestId": "2020-01-02-18:48",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-endpoint/rslvr-in-b5d45e32bdexample",
        "Name": "my-renamed-inbound-endpoint",
        "SecurityGroupIds": [
            "sg-f62bexam"
        ],
        "Direction": "INBOUND",
        "IpAddressCount": 2,
        "HostVPCId": "vpc-304bexam",
        "Status": "OPERATIONAL",
        "StatusMessage": "This Resolver Endpoint is operational.",
        "CreationTime": "2020-01-01T18:33:59.265Z",
        "ModificationTime": "2020-01-08T18:33:59.265Z"
    }
}
```
+  Untuk detail API, lihat [UpdateResolverEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/update-resolver-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `update-resolver-rule`
<a name="route53resolver_UpdateResolverRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resolver-rule`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui pengaturan titik akhir Resolver**  
`update-resolver-rule`Contoh berikut memperbarui nama aturan, alamat IP di jaringan lokal tempat kueri DNS diteruskan, dan ID titik akhir Resolver keluar yang Anda gunakan untuk meneruskan kueri ke jaringan Anda.  
**Catatan** Nilai yang `TargetIps` ada untuk ditimpa, jadi Anda harus menentukan semua alamat IP yang ingin Anda miliki aturan setelah pembaruan.  

```
aws route53resolver update-resolver-rule \
    --resolver-rule-id rslvr-rr-1247fa64f3example \
    --config Name="my-2nd-rule",TargetIps=[{Ip=192.0.2.45,Port=53},{Ip=192.0.2.46,Port=53}],ResolverEndpointId=rslvr-out-7b89ed0d25example
```
Output:  

```
{
    "ResolverRule": {
        "Id": "rslvr-rr-1247fa64f3example",
        "CreatorRequestId": "2020-01-02-18:47",
        "Arn": "arn:aws:route53resolver:us-west-2:111122223333:resolver-rule/rslvr-rr-1247fa64f3example",
        "DomainName": "www.example.com.",
        "Status": "COMPLETE",
        "StatusMessage": "[Trace id: 1-5dcc90b9-8a8ee860aba1ebd89example] Successfully updated Resolver Rule.",
        "RuleType": "FORWARD",
        "Name": "my-2nd-rule",
        "TargetIps": [
            {
                "Ip": "192.0.2.45",
                "Port": 53
            },
            {
                "Ip": "192.0.2.46",
                "Port": 53
            }
        ],
        "ResolverEndpointId": "rslvr-out-7b89ed0d25example",
        "OwnerId": "111122223333",
        "ShareStatus": "NOT_SHARED"
    }
}
```
**Contoh 2: Untuk memperbarui pengaturan Titik akhir Resolver menggunakan file untuk pengaturan ``config``**  
Anda juga dapat menyertakan `config` pengaturan dalam file JSON dan kemudian menentukan file itu saat Anda menelepon`update-resolver-rule`.  

```
aws route53resolver update-resolver-rule \
    --resolver-rule-id rslvr-rr-1247fa64f3example \
    --config file://c:\temp\update-resolver-rule.json
```
Isi dari `update-resolver-rule.json`.  

```
{
    "Name": "my-2nd-rule",
    "TargetIps": [
        {
            "Ip": "192.0.2.45",
            "Port": 53
        },
        {
            "Ip": "192.0.2.46",
            "Port": 53
        }
    ],
    "ResolverEndpointId": "rslvr-out-7b89ed0d25example"
}
```
Untuk selengkapnya, lihat [Nilai yang Anda Tentukan Saat Membuat atau Mengedit Aturan](https://docs.aws.amazon.com/Route53/latest/DeveloperGuide/resolver-forwarding-outbound-queries.html#resolver-forwarding-outbound-queries-rule-values) di *Panduan Pengembang Amazon Route 53*.  
+  Untuk detail API, lihat [UpdateResolverRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/route53resolver/update-resolver-rule.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon S3 menggunakan AWS CLI
<a name="cli_2_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon S3. AWS Command Line Interface 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `abort-multipart-upload`
<a name="s3_AbortMultipartUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`abort-multipart-upload`.

**AWS CLI**  
**Untuk membatalkan unggahan multipart yang ditentukan**  
`abort-multipart-upload`Perintah berikut membatalkan unggahan multibagian untuk kunci `multipart/01` di bucket. `amzn-s3-demo-bucket`  

```
aws s3api abort-multipart-upload \
    --bucket amzn-s3-demo-bucket \
    --key multipart/01 \
    --upload-id dfRtDYU0WWCCcH43C3WFbkRONycyCpTJJvxu2i5GYkZljF.Yxwh6XG7WfS2vC4to6HiV6Yjlx.cph0gtNBtJ8P3URCSbB7rjxI5iEwVDmgaXZOGgkk5nVTW16HOQ5l0R
```
ID unggahan yang diperlukan oleh perintah ini adalah output oleh `create-multipart-upload` dan juga dapat diambil dengan`list-multipart-uploads`.  
+  Untuk detail API, lihat [AbortMultipartUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/abort-multipart-upload.html)di *Referensi AWS CLI Perintah*. 

### `complete-multipart-upload`
<a name="s3_CompleteMultipartUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`complete-multipart-upload`.

**AWS CLI**  
Perintah berikut menyelesaikan unggahan multipart untuk kunci `multipart/01` di bucket: `amzn-s3-demo-bucket`  

```
aws s3api complete-multipart-upload --multipart-upload file://mpustruct --bucket amzn-s3-demo-bucket --key 'multipart/01' --upload-id dfRtDYU0WWCCcH43C3WFbkRONycyCpTJJvxu2i5GYkZljF.Yxwh6XG7WfS2vC4to6HiV6Yjlx.cph0gtNBtJ8P3URCSbB7rjxI5iEwVDmgaXZOGgkk5nVTW16HOQ5l0R
```
ID unggahan yang diperlukan oleh perintah ini adalah output oleh `create-multipart-upload` dan juga dapat diambil dengan`list-multipart-uploads`.  
Opsi unggahan multibagian dalam perintah di atas mengambil struktur JSON yang menjelaskan bagian-bagian dari unggahan multibagian yang harus dipasang kembali ke dalam file lengkap. Dalam contoh ini, `file://` awalan digunakan untuk memuat struktur JSON dari file di folder lokal bernama. `mpustruct`  
mpustruct:  

```
{
  "Parts": [
    {
      "ETag": "e868e0f4719e394144ef36531ee6824c",
      "PartNumber": 1
    },
    {
      "ETag": "6bb2b12753d66fe86da4998aa33fffb0",
      "PartNumber": 2
    },
    {
      "ETag": "d0a0112e841abec9c9ec83406f0159c8",
      "PartNumber": 3
    }
  ]
}
```
 ETag Nilai untuk setiap bagian adalah upload adalah output setiap kali Anda mengunggah bagian menggunakan `upload-part` perintah dan juga dapat diambil dengan memanggil `list-parts` atau dihitung dengan mengambil MD5 checksum dari setiap bagian.  
Output:  

```
{
    "ETag": "\"3944a9f7a4faab7f78788ff6210f63f0-3\"",
    "Bucket": "amzn-s3-demo-bucket",
    "Location": "https://amzn-s3-demo-bucket.s3.amazonaws.com/multipart%2F01",
    "Key": "multipart/01"
}
```
+  Untuk detail API, lihat [CompleteMultipartUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/complete-multipart-upload.html)di *Referensi AWS CLI Perintah*. 

### `copy-object`
<a name="s3_CopyObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-object`.

**AWS CLI**  
Perintah berikut menyalin objek dari `bucket-1` ke`bucket-2`:  

```
aws s3api copy-object --copy-source bucket-1/test.txt --key test.txt --bucket bucket-2
```
Output:  

```
{
    "CopyObjectResult": {
        "LastModified": "2015-11-10T01:07:25.000Z",
        "ETag": "\"589c8b79c230a6ecd5a7e1d040a9a030\""
    },
    "VersionId": "YdnYvTCVDqRRFA.NFJjy36p0hxifMlkA"
}
```
+  Untuk detail API, lihat [CopyObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/copy-object.html)di *Referensi AWS CLI Perintah*. 

### `cp`
<a name="s3_Cp_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cp`.

**AWS CLI**  
**Contoh 1: Menyalin file lokal ke S3**  
`cp`Perintah berikut menyalin satu file ke bucket dan kunci tertentu:  

```
aws s3 cp test.txt s3://amzn-s3-demo-bucket/test2.txt
```
Output:  

```
upload: test.txt to s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 2: Menyalin file lokal ke S3 dengan tanggal kedaluwarsa**  
`cp`Perintah berikut menyalin satu file ke bucket dan kunci tertentu yang kedaluwarsa pada stempel waktu ISO 8601 yang ditentukan:  

```
aws s3 cp test.txt s3://amzn-s3-demo-bucket/test2.txt \
    --expires 2014-10-01T20:30:00Z
```
Output:  

```
upload: test.txt to s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 3: Menyalin file dari S3 ke S3**  
`cp`Perintah berikut menyalin objek s3 tunggal ke bucket dan kunci tertentu:  

```
aws s3 cp s3://amzn-s3-demo-bucket/test.txt s3://amzn-s3-demo-bucket/test2.txt
```
Output:  

```
copy: s3://amzn-s3-demo-bucket/test.txt to s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 4: Menyalin objek S3 ke file lokal**  
`cp`Perintah berikut menyalin satu objek ke file tertentu secara lokal:  

```
aws s3 cp s3://amzn-s3-demo-bucket/test.txt test2.txt
```
Output:  

```
download: s3://amzn-s3-demo-bucket/test.txt to test2.txt
```
**Contoh 5: Menyalin objek S3 dari satu ember ke ember lainnya**  
`cp`Perintah berikut menyalin satu objek ke bucket tertentu sambil mempertahankan nama aslinya:  

```
aws s3 cp s3://amzn-s3-demo-bucket/test.txt s3://amzn-s3-demo-bucket2/
```
Output:  

```
copy: s3://amzn-s3-demo-bucket/test.txt to s3://amzn-s3-demo-bucket2/test.txt
```
**Contoh 6: Menyalin objek S3 secara rekursif ke direktori lokal**  
Ketika diteruskan dengan parameter`--recursive`, `cp` perintah berikut secara rekursif menyalin semua objek di bawah awalan dan ember yang ditentukan ke direktori tertentu. Dalam contoh ini, ember `amzn-s3-demo-bucket` memiliki objek `test1.txt` dan`test2.txt`:  

```
aws s3 cp s3://amzn-s3-demo-bucket . \
    --recursive
```
Output:  

```
download: s3://amzn-s3-demo-bucket/test1.txt to test1.txt
download: s3://amzn-s3-demo-bucket/test2.txt to test2.txt
```
**Contoh 7: Menyalin file lokal secara rekursif ke S3**  
Ketika diteruskan dengan parameter`--recursive`, `cp` perintah berikut secara rekursif menyalin semua file di bawah direktori tertentu ke bucket dan awalan tertentu sementara mengecualikan beberapa file dengan menggunakan parameter. `--exclude` Dalam contoh ini, direktori `myDir` memiliki file `test1.txt` dan`test2.jpg`:  

```
aws s3 cp myDir s3://amzn-s3-demo-bucket/ \
    --recursive \
    --exclude "*.jpg"
```
Output:  

```
upload: myDir/test1.txt to s3://amzn-s3-demo-bucket/test1.txt
```
**Contoh 8: Menyalin objek S3 secara rekursif ke ember lain**  
Ketika diteruskan dengan parameter`--recursive`, `cp` perintah berikut secara rekursif menyalin semua objek di bawah bucket tertentu ke bucket lain sambil mengecualikan beberapa objek dengan menggunakan parameter. `--exclude` Dalam contoh ini, ember `amzn-s3-demo-bucket` memiliki objek `test1.txt` dan`another/test1.txt`:  

```
aws s3 cp s3://amzn-s3-demo-bucket/ s3://amzn-s3-demo-bucket2/ \
    --recursive \
    --exclude "another/*"
```
Output:  

```
copy: s3://amzn-s3-demo-bucket/test1.txt to s3://amzn-s3-demo-bucket2/test1.txt
```
Anda dapat menggabungkan `--exclude` dan `--include` opsi untuk menyalin hanya objek yang cocok dengan pola, tidak termasuk semua yang lain:  

```
aws s3 cp s3://amzn-s3-demo-bucket/logs/ s3://amzn-s3-demo-bucket2/logs/ \
    --recursive \
    --exclude "*" \
    --include "*.log"
```
Output:  

```
copy: s3://amzn-s3-demo-bucket/logs/test/test.log to s3://amzn-s3-demo-bucket2/logs/test/test.log
copy: s3://amzn-s3-demo-bucket/logs/test3.log to s3://amzn-s3-demo-bucket2/logs/test3.log
```
**Contoh 9: Mengatur Daftar Kontrol Akses (ACL) saat menyalin objek S3**  
`cp`Perintah berikut menyalin satu objek ke bucket dan kunci tertentu saat menyetel ACL ke`public-read-write`:  

```
aws s3 cp s3://amzn-s3-demo-bucket/test.txt s3://amzn-s3-demo-bucket/test2.txt \
    --acl public-read-write
```
Output:  

```
copy: s3://amzn-s3-demo-bucket/test.txt to s3://amzn-s3-demo-bucket/test2.txt
```
Perhatikan bahwa jika Anda menggunakan `--acl` opsi, pastikan bahwa setiap kebijakan IAM terkait menyertakan `"s3:PutObjectAcl"` tindakan:  

```
aws iam get-user-policy \
    --user-name myuser \
    --policy-name mypolicy
```
Output:  

```
{
    "UserName": "myuser",
    "PolicyName": "mypolicy",
    "PolicyDocument": {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Action": [
                    "s3:PutObject",
                    "s3:PutObjectAcl"
                ],
                "Resource": [
                    "arn:aws:s3:::amzn-s3-demo-bucket/*"
                ],
                "Effect": "Allow",
                "Sid": "Stmt1234567891234"
            }
        ]
    }
}
```
**Contoh 10: Memberikan izin untuk objek S3**  
`cp`Perintah berikut menggambarkan penggunaan `--grants` opsi untuk memberikan akses baca ke semua pengguna yang diidentifikasi oleh URI dan kontrol penuh untuk pengguna tertentu yang diidentifikasi oleh ID Canonical mereka:  

```
aws s3 cp file.txt s3://amzn-s3-demo-bucket/ --grants read=uri=http://acs.amazonaws.com/groups/global/AllUsers full=id=79a59df900b949e55d96a1e698fbacedfd6e09d98eacf8f8d5218e7cd47ef2be
```
Output:  

```
upload: file.txt to s3://amzn-s3-demo-bucket/file.txt
```
**Contoh 11: Mengunggah aliran file lokal ke S3**  
PowerShell dapat mengubah pengkodean atau menambahkan CRLF ke input pipa.  
`cp`Perintah berikut mengunggah aliran file lokal dari input standar ke bucket dan kunci tertentu:  

```
aws s3 cp - s3://amzn-s3-demo-bucket/stream.txt
```
**Contoh 12: Mengunggah aliran file lokal yang lebih besar dari 50GB ke S3**  
`cp`Perintah berikut mengunggah aliran file lokal 51GB dari input standar ke bucket dan kunci tertentu. `--expected-size`Opsi harus disediakan, atau unggahan mungkin gagal ketika mencapai batas bagian default 10.000:  

```
aws s3 cp - s3://amzn-s3-demo-bucket/stream.txt --expected-size 54760833024
```
**Contoh 13: Mengunduh objek S3 sebagai aliran file lokal**  
PowerShell dapat mengubah pengkodean atau menambahkan CRLF ke output pipa atau dialihkan.  
`cp`Perintah berikut mengunduh objek S3 secara lokal sebagai aliran ke output standar. Mengunduh sebagai aliran saat ini tidak kompatibel dengan `--recursive` parameter:  

```
aws s3 cp s3://amzn-s3-demo-bucket/stream.txt -
```
**Contoh 14: Mengunggah ke titik akses S3**  
`cp`Perintah berikut mengunggah satu file (`mydoc.txt`) ke titik akses (`myaccesspoint`) di key (`mykey`):  

```
aws s3 cp mydoc.txt s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/mykey
```
Output:  

```
upload: mydoc.txt to s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/mykey
```
**Contoh 15: Mengunduh dari titik akses S3**  
`cp`Perintah berikut mengunduh satu objek (`mykey`) dari titik akses (`myaccesspoint`) ke file lokal (`mydoc.txt`):  

```
aws s3 cp s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/mykey mydoc.txt
```
Output:  

```
download: s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/mykey to mydoc.txt
```
+  Untuk detail API, lihat [Cp](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/cp.html) di *Referensi AWS CLI Perintah*. 

### `create-bucket`
<a name="s3_CreateBucket_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-bucket`.

**AWS CLI**  
**Contoh 1: Untuk membuat ember**  
`create-bucket`Contoh berikut membuat bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api create-bucket \
    --bucket amzn-s3-demo-bucket \
    --region us-east-1
```
Output:  

```
{
    "Location": "/amzn-s3-demo-bucket"
}
```
Lihat informasi yang lebih lengkap di [Membuat bucket](https://docs.aws.amazon.com/AmazonS3/latest/userguide/create-bucket-overview.html) dalam *Panduan Pengguna Amazon S3*.  
**Contoh 2: Untuk membuat ember dengan pemilik diberlakukan**  
`create-bucket`Contoh berikut membuat bucket bernama yang menggunakan setelan `amzn-s3-demo-bucket` yang diterapkan pemilik bucket untuk Kepemilikan Objek S3.  

```
aws s3api create-bucket \
    --bucket amzn-s3-demo-bucket \
    --region us-east-1 \
    --object-ownership BucketOwnerEnforced
```
Output:  

```
{
    "Location": "/amzn-s3-demo-bucket"
}
```
Untuk informasi selengkapnya, lihat [Mengontrol kepemilikan objek dan menonaktifkan ACLs](https://docs.aws.amazon.com/AmazonS3/latest/userguide/about-object-ownership.html) di Panduan Pengguna *Amazon S3*.  
**Contoh 3: Untuk membuat bucket di luar wilayah ``us-east-1``**  
`create-bucket`Contoh berikut membuat bucket bernama `amzn-s3-demo-bucket` di `eu-west-1` wilayah tersebut. Daerah di luar `us-east-1` memerlukan yang sesuai `LocationConstraint` untuk ditentukan untuk membuat ember di wilayah yang diinginkan.  

```
aws s3api create-bucket \
    --bucket amzn-s3-demo-bucket \
    --region eu-west-1 \
    --create-bucket-configuration LocationConstraint=eu-west-1
```
Output:  

```
{
    "Location": "http://amzn-s3-demo-bucket.s3.amazonaws.com/"
}
```
Lihat informasi yang lebih lengkap di [Membuat bucket](https://docs.aws.amazon.com/AmazonS3/latest/userguide/create-bucket-overview.html) dalam *Panduan Pengguna Amazon S3*.  
+  Untuk detail API, lihat [CreateBucket](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/create-bucket.html)di *Referensi AWS CLI Perintah*. 

### `create-multipart-upload`
<a name="s3_CreateMultipartUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-multipart-upload`.

**AWS CLI**  
Perintah berikut membuat unggahan multipart di bucket `amzn-s3-demo-bucket` dengan kunci`multipart/01`:  

```
aws s3api create-multipart-upload --bucket amzn-s3-demo-bucket --key 'multipart/01'
```
Output:  

```
{
    "Bucket": "amzn-s3-demo-bucket",
    "UploadId": "dfRtDYU0WWCCcH43C3WFbkRONycyCpTJJvxu2i5GYkZljF.Yxwh6XG7WfS2vC4to6HiV6Yjlx.cph0gtNBtJ8P3URCSbB7rjxI5iEwVDmgaXZOGgkk5nVTW16HOQ5l0R",
    "Key": "multipart/01"
}
```
File yang sudah selesai akan diberi nama `01` dalam folder yang disebut `multipart` dalam ember`amzn-s3-demo-bucket`. Simpan ID unggah, kunci, dan nama bucket untuk digunakan dengan `upload-part` perintah.  
+  Untuk detail API, lihat [CreateMultipartUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/create-multipart-upload.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-analytics-configuration`
<a name="s3_DeleteBucketAnalyticsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-analytics-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi analitik untuk bucket**  
`delete-bucket-analytics-configuration`Contoh berikut menghapus konfigurasi analitik untuk bucket dan ID yang ditentukan.  

```
aws s3api delete-bucket-analytics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 1
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteBucketAnalyticsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-analytics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-cors`
<a name="s3_DeleteBucketCors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-cors`.

**AWS CLI**  
Perintah berikut menghapus konfigurasi Cross-Origin Resource Sharing dari bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api delete-bucket-cors --bucket amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeleteBucketCors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-cors.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-encryption`
<a name="s3_DeleteBucketEncryption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-encryption`.

**AWS CLI**  
**Untuk menghapus konfigurasi enkripsi sisi server dari bucket**  
`delete-bucket-encryption`Contoh berikut menghapus konfigurasi enkripsi sisi server dari bucket yang ditentukan.  

```
aws s3api delete-bucket-encryption \
    --bucket amzn-s3-demo-bucket
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteBucketEncryption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-encryption.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-intelligent-tiering-configuration`
<a name="s3_DeleteBucketIntelligentTieringConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-intelligent-tiering-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi S3 Intelligent-Tiering pada bucket**  
`delete-bucket-intelligent-tiering-configuration`Contoh berikut menghapus konfigurasi S3 Intelligent-Tiering, bernama ExampleConfig, pada bucket.  

```
aws s3api delete-bucket-intelligent-tiering-configuration \
    --bucket amzn-s3-demo-bucket \
    --id ExampleConfig
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Menggunakan S3 Intelligent-Tiering di](https://docs.aws.amazon.com/AmazonS3/latest/userguide/using-intelligent-tiering.html) Panduan Pengguna Amazon S3.*  
+  Untuk detail API, lihat [DeleteBucketIntelligentTieringConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-intelligent-tiering-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-inventory-configuration`
<a name="s3_DeleteBucketInventoryConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-inventory-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi inventaris bucket**  
`delete-bucket-inventory-configuration`Contoh berikut menghapus konfigurasi inventaris dengan ID `1` untuk bucket yang ditentukan.  

```
aws s3api delete-bucket-inventory-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 1
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteBucketInventoryConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-inventory-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-lifecycle`
<a name="s3_DeleteBucketLifecycle_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-lifecycle`.

**AWS CLI**  
Perintah berikut menghapus konfigurasi siklus hidup dari bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api delete-bucket-lifecycle --bucket amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeleteBucketLifecycle](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-lifecycle.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-metrics-configuration`
<a name="s3_DeleteBucketMetricsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-metrics-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi metrik untuk bucket**  
`delete-bucket-metrics-configuration`Contoh berikut menghapus konfigurasi metrik untuk bucket dan ID yang ditentukan.  

```
aws s3api delete-bucket-metrics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 123
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteBucketMetricsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-metrics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-ownership-controls`
<a name="s3_DeleteBucketOwnershipControls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-ownership-controls`.

**AWS CLI**  
**Untuk menghapus pengaturan kepemilikan bucket dari bucket**  
`delete-bucket-ownership-controls`Contoh berikut menghapus setelan kepemilikan bucket pada bucket.  

```
aws s3api delete-bucket-ownership-controls \
    --bucket amzn-s3-demo-bucket
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyetel Kepemilikan Objek pada bucket yang ada](https://docs.aws.amazon.com/AmazonS3/latest/userguide/object-ownership-existing-bucket.html) di *Panduan Pengguna Amazon S3*.  
+  Untuk detail API, lihat [DeleteBucketOwnershipControls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-ownership-controls.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-policy`
<a name="s3_DeleteBucketPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-policy`.

**AWS CLI**  
Perintah berikut menghapus kebijakan bucket dari bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api delete-bucket-policy --bucket amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-replication`
<a name="s3_DeleteBucketReplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-replication`.

**AWS CLI**  
Perintah berikut menghapus konfigurasi replikasi dari bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api delete-bucket-replication --bucket amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeleteBucketReplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-replication.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-tagging`
<a name="s3_DeleteBucketTagging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-tagging`.

**AWS CLI**  
Perintah berikut menghapus konfigurasi penandaan dari bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api delete-bucket-tagging --bucket amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeleteBucketTagging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-tagging.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket-website`
<a name="s3_DeleteBucketWebsite_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket-website`.

**AWS CLI**  
Perintah berikut menghapus konfigurasi situs web dari bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api delete-bucket-website --bucket amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeleteBucketWebsite](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket-website.html)di *Referensi AWS CLI Perintah*. 

### `delete-bucket`
<a name="s3_DeleteBucket_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-bucket`.

**AWS CLI**  
Perintah berikut menghapus bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api delete-bucket --bucket amzn-s3-demo-bucket --region us-east-1
```
+  Untuk detail API, lihat [DeleteBucket](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-bucket.html)di *Referensi AWS CLI Perintah*. 

### `delete-object-tagging`
<a name="s3_DeleteObjectTagging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-object-tagging`.

**AWS CLI**  
**Untuk menghapus set tag dari suatu objek**  
`delete-object-tagging`Contoh berikut menghapus tag dengan kunci yang ditentukan dari objek`doc1.rtf`.  

```
aws s3api delete-object-tagging \
    --bucket amzn-s3-demo-bucket \
    --key doc1.rtf
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteObjectTagging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-object-tagging.html)di *Referensi AWS CLI Perintah*. 

### `delete-object`
<a name="s3_DeleteObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-object`.

**AWS CLI**  
Perintah berikut menghapus objek bernama `test.txt` dari bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api delete-object --bucket amzn-s3-demo-bucket --key test.txt
```
Jika pembuatan versi bucket diaktifkan, output akan berisi ID versi penanda hapus:  

```
{
  "VersionId": "9_gKg5vG56F.TTEUdwkxGpJ3tNDlWlGq",
  "DeleteMarker": true
}
```
Untuk informasi selengkapnya tentang menghapus objek, lihat Menghapus Objek di Panduan Pengembang *Amazon S3*.  
+  Untuk detail API, lihat [DeleteObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-object.html)di *Referensi AWS CLI Perintah*. 

### `delete-objects`
<a name="s3_DeleteObjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-objects`.

**AWS CLI**  
Perintah berikut menghapus objek dari bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api delete-objects --bucket amzn-s3-demo-bucket --delete file://delete.json
```
`delete.json`adalah dokumen JSON di direktori saat ini yang menentukan objek yang akan dihapus:  

```
{
  "Objects": [
    {
      "Key": "test1.txt"
    }
  ],
  "Quiet": false
}
```
Output:  

```
{
    "Deleted": [
        {
            "DeleteMarkerVersionId": "mYAT5Mc6F7aeUL8SS7FAAqUPO1koHwzU",
            "Key": "test1.txt",
            "DeleteMarker": true
        }
    ]
}
```
+  Untuk detail API, lihat [DeleteObjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-objects.html)di *Referensi AWS CLI Perintah*. 

### `delete-public-access-block`
<a name="s3_DeletePublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-public-access-block`.

**AWS CLI**  
**Untuk menghapus konfigurasi blokir akses publik untuk bucket**  
`delete-public-access-block`Contoh berikut menghapus konfigurasi blokir akses publik pada bucket yang ditentukan.  

```
aws s3api delete-public-access-block \
    --bucket amzn-s3-demo-bucket
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeletePublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/delete-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-accelerate-configuration`
<a name="s3_GetBucketAccelerateConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-accelerate-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi percepatan bucket**  
`get-bucket-accelerate-configuration`Contoh berikut mengambil konfigurasi percepatan untuk bucket yang ditentukan.  

```
aws s3api get-bucket-accelerate-configuration \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "Status": "Enabled"
}
```
+  Untuk detail API, lihat [GetBucketAccelerateConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-accelerate-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-acl`
<a name="s3_GetBucketAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-acl`.

**AWS CLI**  
Perintah berikut mengambil daftar kontrol akses untuk bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api get-bucket-acl --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "Owner": {
        "DisplayName": "my-username",
        "ID": "7009a8971cd538e11f6b6606438875e7c86c5b672f46db45460ddcd087d36c32"
    },
    "Grants": [
        {
            "Grantee": {
                "DisplayName": "my-username",
                "ID": "7009a8971cd538e11f6b6606438875e7c86c5b672f46db45460ddcd087d36c32"
            },
            "Permission": "FULL_CONTROL"
        }
    ]
}
```
+  Untuk detail API, lihat [GetBucketAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-acl.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-analytics-configuration`
<a name="s3_GetBucketAnalyticsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-analytics-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi analitik untuk bucket dengan ID tertentu**  
`get-bucket-analytics-configuration`Contoh berikut menampilkan konfigurasi analitik untuk bucket dan ID yang ditentukan.  

```
aws s3api get-bucket-analytics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 1
```
Output:  

```
{
    "AnalyticsConfiguration": {
        "StorageClassAnalysis": {},
        "Id": "1"
    }
}
```
+  Untuk detail API, lihat [GetBucketAnalyticsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-analytics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-cors`
<a name="s3_GetBucketCors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-cors`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi Cross-Origin Resource Sharing untuk bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api get-bucket-cors --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "CORSRules": [
        {
            "AllowedHeaders": [
                "*"
            ],
            "ExposeHeaders": [
                "x-amz-server-side-encryption"
            ],
            "AllowedMethods": [
                "PUT",
                "POST",
                "DELETE"
            ],
            "MaxAgeSeconds": 3000,
            "AllowedOrigins": [
                "http://www.example.com"
            ]
        },
        {
            "AllowedHeaders": [
                "Authorization"
            ],
            "MaxAgeSeconds": 3000,
            "AllowedMethods": [
                "GET"
            ],
            "AllowedOrigins": [
                "*"
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [GetBucketCors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-cors.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-encryption`
<a name="s3_GetBucketEncryption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-encryption`.

**AWS CLI**  
**Untuk mengambil konfigurasi enkripsi sisi server untuk bucket**  
`get-bucket-encryption`Contoh berikut mengambil konfigurasi enkripsi sisi server untuk bucket. `amzn-s3-demo-bucket`  

```
aws s3api get-bucket-encryption \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "ServerSideEncryptionConfiguration": {
        "Rules": [
            {
                "ApplyServerSideEncryptionByDefault": {
                    "SSEAlgorithm": "AES256"
                }
            }
        ]
    }
}
```
+  Untuk detail API, lihat [GetBucketEncryption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-encryption.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-intelligent-tiering-configuration`
<a name="s3_GetBucketIntelligentTieringConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-intelligent-tiering-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi S3 Intelligent-Tiering pada bucket**  
`get-bucket-intelligent-tiering-configuration`Contoh berikut mengambil konfigurasi S3 Intelligent-Tiering, bernama, pada bucket. ExampleConfig  

```
aws s3api get-bucket-intelligent-tiering-configuration \
    --bucket amzn-s3-demo-bucket \
    --id ExampleConfig
```
Output:  

```
{
    "IntelligentTieringConfiguration": {
        "Id": "ExampleConfig2",
        "Filter": {
            "Prefix": "images"
        },
        "Status": "Enabled",
        "Tierings": [
            {
                "Days": 90,
                "AccessTier": "ARCHIVE_ACCESS"
            },
            {
                "Days": 180,
                "AccessTier": "DEEP_ARCHIVE_ACCESS"
            }
        ]
    }
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan S3 Intelligent-Tiering di](https://docs.aws.amazon.com/AmazonS3/latest/userguide/using-intelligent-tiering.html) Panduan Pengguna Amazon S3.*  
+  Untuk detail API, lihat [GetBucketIntelligentTieringConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-intelligent-tiering-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-inventory-configuration`
<a name="s3_GetBucketInventoryConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-inventory-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi inventaris untuk bucket**  
`get-bucket-inventory-configuration`Contoh berikut mengambil konfigurasi inventaris untuk bucket yang ditentukan dengan ID`1`.  

```
aws s3api get-bucket-inventory-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 1
```
Output:  

```
{
    "InventoryConfiguration": {
        "IsEnabled": true,
        "Destination": {
            "S3BucketDestination": {
                "Format": "ORC",
                "Bucket": "arn:aws:s3:::amzn-s3-demo-bucket",
                "AccountId": "123456789012"
            }
        },
        "IncludedObjectVersions": "Current",
        "Id": "1",
        "Schedule": {
            "Frequency": "Weekly"
        }
    }
}
```
+  Untuk detail API, lihat [GetBucketInventoryConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-inventory-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-lifecycle-configuration`
<a name="s3_GetBucketLifecycleConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-lifecycle-configuration`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi siklus hidup untuk bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api get-bucket-lifecycle-configuration --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "Rules": [
        {
            "ID": "Move rotated logs to Glacier",
            "Prefix": "rotated/",
            "Status": "Enabled",
            "Transitions": [
                {
                    "Date": "2015-11-10T00:00:00.000Z",
                    "StorageClass": "GLACIER"
                }
            ]
        },
        {
            "Status": "Enabled",
            "Prefix": "",
            "NoncurrentVersionTransitions": [
                {
                    "NoncurrentDays": 0,
                    "StorageClass": "GLACIER"
                }
            ],
            "ID": "Move old versions to Glacier"
        }
    ]
}
```
+  Untuk detail API, lihat [GetBucketLifecycleConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-lifecycle-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-lifecycle`
<a name="s3_GetBucketLifecycle_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-lifecycle`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi siklus hidup untuk bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api get-bucket-lifecycle --bucket amzn-s3-demo-bucket
```
Output:  

```
{
  "Rules": [
    {
      "ID": "Move to Glacier after sixty days (objects in logs/2015/)",
      "Prefix": "logs/2015/",
      "Status": "Enabled",
      "Transition": {
        "Days": 60,
        "StorageClass": "GLACIER"
      }
    },
    {
      "Expiration": {
        "Date": "2016-01-01T00:00:00.000Z"
      },
      "ID": "Delete 2014 logs in 2016.",
      "Prefix": "logs/2014/",
      "Status": "Enabled"
    }
  ]
}
```
+  Untuk detail API, lihat [GetBucketLifecycle](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-lifecycle.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-location`
<a name="s3_GetBucketLocation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-location`.

**AWS CLI**  
Perintah berikut mengambil batasan lokasi untuk bucket bernama`amzn-s3-demo-bucket`, jika ada kendala:  

```
aws s3api get-bucket-location --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "LocationConstraint": "us-west-2"
}
```
+  Untuk detail API, lihat [GetBucketLocation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-location.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-logging`
<a name="s3_GetBucketLogging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-logging`.

**AWS CLI**  
**Untuk mengambil status logging untuk bucket**  
`get-bucket-logging`Contoh berikut mengambil status logging untuk bucket yang ditentukan.  

```
aws s3api get-bucket-logging \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "LoggingEnabled": {
        "TargetPrefix": "",
        "TargetBucket": "amzn-s3-demo-bucket-logs"
          }
}
```
+  Untuk detail API, lihat [GetBucketLogging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-logging.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-metrics-configuration`
<a name="s3_GetBucketMetricsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-metrics-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi metrik untuk bucket dengan ID tertentu**  
`get-bucket-metrics-configuration`Contoh berikut menampilkan konfigurasi metrik untuk bucket dan ID yang ditentukan.  

```
aws s3api get-bucket-metrics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 123
```
Output:  

```
{
    "MetricsConfiguration": {
        "Filter": {
            "Prefix": "logs"
        },
        "Id": "123"
    }
}
```
+  Untuk detail API, lihat [GetBucketMetricsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-metrics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-notification-configuration`
<a name="s3_GetBucketNotificationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-notification-configuration`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi notifikasi untuk bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api get-bucket-notification-configuration --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "TopicConfigurations": [
        {
            "Id": "YmQzMmEwM2EjZWVlI0NGItNzVtZjI1MC00ZjgyLWZDBiZWNl",
            "TopicArn": "arn:aws:sns:us-west-2:123456789012:my-notification-topic",
            "Events": [
                "s3:ObjectCreated:*"
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [GetBucketNotificationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-notification-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-notification`
<a name="s3_GetBucketNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-notification`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi notifikasi untuk bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api get-bucket-notification --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "TopicConfiguration": {
        "Topic": "arn:aws:sns:us-west-2:123456789012:my-notification-topic",
        "Id": "YmQzMmEwM2EjZWVlI0NGItNzVtZjI1MC00ZjgyLWZDBiZWNl",
        "Event": "s3:ObjectCreated:*",
        "Events": [
            "s3:ObjectCreated:*"
        ]
    }
}
```
+  Untuk detail API, lihat [GetBucketNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-notification.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-ownership-controls`
<a name="s3_GetBucketOwnershipControls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-ownership-controls`.

**AWS CLI**  
**Untuk mengambil pengaturan kepemilikan bucket dari bucket**  
`get-bucket-ownership-controls`Contoh berikut mengambil pengaturan kepemilikan bucket dari bucket.  

```
aws s3api get-bucket-ownership-controls \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "OwnershipControls": {
        "Rules": [
            {
                "ObjectOwnership": "BucketOwnerEnforced"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat setelan Kepemilikan Objek untuk bucket S3](https://docs.aws.amazon.com/AmazonS3/latest/userguide/object-ownership-retrieving.html) di Panduan *Pengguna Amazon S3*.  
+  Untuk detail API, lihat [GetBucketOwnershipControls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-ownership-controls.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-policy-status`
<a name="s3_GetBucketPolicyStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-policy-status`.

**AWS CLI**  
**Untuk mengambil status kebijakan untuk bucket yang menunjukkan apakah bucket bersifat publik**  
`get-bucket-policy-status`Contoh berikut mengambil status kebijakan untuk bucket`amzn-s3-demo-bucket`.  

```
aws s3api get-bucket-policy-status \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "PolicyStatus": {
        "IsPublic": false
    }
}
```
+  Untuk detail API, lihat [GetBucketPolicyStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-policy-status.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-policy`
<a name="s3_GetBucketPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-policy`.

**AWS CLI**  
Perintah berikut mengambil kebijakan bucket untuk bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api get-bucket-policy --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "Policy": "{\"Version\":\"2008-10-17\",\"Statement\":[{\"Sid\":\"\",\"Effect\":\"Allow\",\"Principal\":\"*\",\"Action\":\"s3:GetObject\",\"Resource\":\"arn:aws:s3:::amzn-s3-demo-bucket/*\"},{\"Sid\":\"\",\"Effect\":\"Deny\",\"Principal\":\"*\",\"Action\":\"s3:GetObject\",\"Resource\":\"arn:aws:s3:::amzn-s3-demo-bucket/secret/*\"}]}"
}
```
Dapatkan dan letakkan kebijakan bucket Contoh berikut menunjukkan bagaimana Anda dapat mengunduh kebijakan bucket Amazon S3, membuat modifikasi pada file, dan kemudian `put-bucket-policy` menggunakannya untuk menerapkan kebijakan bucket yang dimodifikasi. Untuk mengunduh kebijakan bucket ke file, Anda dapat menjalankan:  

```
aws s3api get-bucket-policy --bucket amzn-s3-demo-bucket --query Policy --output text > policy.json
```
Anda kemudian dapat memodifikasi `policy.json` file sesuai kebutuhan. Terakhir, Anda dapat menerapkan kebijakan yang dimodifikasi ini kembali ke bucket S3 dengan menjalankan:  
`policy.json`berkas sesuai kebutuhan. Terakhir, Anda dapat menerapkan kebijakan yang dimodifikasi ini kembali ke bucket S3 dengan menjalankan:  
 berkas sesuai kebutuhan. Terakhir, Anda dapat menerapkan kebijakan yang dimodifikasi ini kembali ke bucket S3 dengan menjalankan:  

```
aws s3api put-bucket-policy --bucket amzn-s3-demo-bucket --policy file://policy.json
```
+  Untuk detail API, lihat [GetBucketPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-replication`
<a name="s3_GetBucketReplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-replication`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi replikasi untuk bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api get-bucket-replication --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "ReplicationConfiguration": {
        "Rules": [
            {
                "Status": "Enabled",
                "Prefix": "",
                "Destination": {
                    "Bucket": "arn:aws:s3:::amzn-s3-demo-bucket-backup",
                    "StorageClass": "STANDARD"
                },
                "ID": "ZmUwNzE4ZmQ4tMjVhOS00MTlkLOGI4NDkzZTIWJjNTUtYTA1"
            }
        ],
        "Role": "arn:aws:iam::123456789012:role/s3-replication-role"
    }
}
```
+  Untuk detail API, lihat [GetBucketReplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-replication.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-request-payment`
<a name="s3_GetBucketRequestPayment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-request-payment`.

**AWS CLI**  
**Untuk mengambil konfigurasi pembayaran permintaan untuk bucket**  
`get-bucket-request-payment`Contoh berikut mengambil konfigurasi requester pay untuk bucket yang ditentukan.  

```
aws s3api get-bucket-request-payment \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "Payer": "BucketOwner"
}
```
+  Untuk detail API, lihat [GetBucketRequestPayment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-request-payment.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-tagging`
<a name="s3_GetBucketTagging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-tagging`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi penandaan untuk bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api get-bucket-tagging --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "TagSet": [
        {
            "Value": "marketing",
            "Key": "organization"
        }
    ]
}
```
+  Untuk detail API, lihat [GetBucketTagging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-tagging.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-versioning`
<a name="s3_GetBucketVersioning_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-versioning`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi pembuatan versi untuk bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api get-bucket-versioning --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "Status": "Enabled"
}
```
+  Untuk detail API, lihat [GetBucketVersioning](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-versioning.html)di *Referensi AWS CLI Perintah*. 

### `get-bucket-website`
<a name="s3_GetBucketWebsite_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-bucket-website`.

**AWS CLI**  
Perintah berikut mengambil konfigurasi situs web statis untuk bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api get-bucket-website --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "IndexDocument": {
        "Suffix": "index.html"
    },
    "ErrorDocument": {
        "Key": "error.html"
    }
}
```
+  Untuk detail API, lihat [GetBucketWebsite](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-bucket-website.html)di *Referensi AWS CLI Perintah*. 

### `get-object-acl`
<a name="s3_GetObjectAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object-acl`.

**AWS CLI**  
Perintah berikut mengambil daftar kontrol akses untuk objek dalam bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api get-object-acl --bucket amzn-s3-demo-bucket --key index.html
```
Output:  

```
{
    "Owner": {
        "DisplayName": "my-username",
        "ID": "7009a8971cd538e11f6b6606438875e7c86c5b672f46db45460ddcd087d36c32"
    },
    "Grants": [
        {
            "Grantee": {
                "DisplayName": "my-username",
                "ID": "7009a8971cd538e11f6b6606438875e7c86c5b672f46db45460ddcd087d36c32"
            },
            "Permission": "FULL_CONTROL"
        },
        {
            "Grantee": {
                "URI": "http://acs.amazonaws.com/groups/global/AllUsers"
            },
            "Permission": "READ"
        }
    ]
}
```
+  Untuk detail API, lihat [GetObjectAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-object-acl.html)di *Referensi AWS CLI Perintah*. 

### `get-object-attributes`
<a name="s3_GetObjectAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object-attributes`.

**AWS CLI**  
**Untuk mengambil metadata dari objek tanpa mengembalikan objek itu sendiri**  
`get-object-attributes`Contoh berikut mengambil metadata dari objek. `doc1.rtf`  

```
aws s3api get-object-attributes \
    --bucket amzn-s3-demo-bucket \
    --key doc1.rtf \
    --object-attributes "StorageClass" "ETag" "ObjectSize"
```
Output:  

```
{
    "LastModified": "2022-03-15T19:37:31+00:00",
    "VersionId": "IuCPjXTDzHNfldAuitVBIKJpF2p1fg4P",
    "ETag": "b662d79adeb7c8d787ea7eafb9ef6207",
    "StorageClass": "STANDARD",
    "ObjectSize": 405
}
```
Untuk informasi selengkapnya, lihat [GetObjectAttributes](https://docs.aws.amazon.com/AmazonS3/latest/API/API_GetObjectAttributes.html)di Referensi API Amazon S3.  
+  Untuk detail API, lihat [GetObjectAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-object-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-object-legal-hold`
<a name="s3_GetObjectLegalHold_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object-legal-hold`.

**AWS CLI**  
**Mengambil status Legal Hold dari suatu objek**  
`get-object-legal-hold`Contoh berikut mengambil status Penahanan Hukum untuk objek yang ditentukan.  

```
aws s3api get-object-legal-hold \
    --bucket amzn-s3-demo-bucket-with-object-lock \
    --key doc1.rtf
```
Output:  

```
{
    "LegalHold": {
        "Status": "ON"
    }
}
```
+  Untuk detail API, lihat [GetObjectLegalHold](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-object-legal-hold.html)di *Referensi AWS CLI Perintah*. 

### `get-object-lock-configuration`
<a name="s3_GetObjectLockConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object-lock-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi kunci objek untuk bucket**  
`get-object-lock-configuration`Contoh berikut mengambil konfigurasi kunci objek untuk bucket yang ditentukan.  

```
aws s3api get-object-lock-configuration \
    --bucket amzn-s3-demo-bucket-with-object-lock
```
Output:  

```
{
    "ObjectLockConfiguration": {
        "ObjectLockEnabled": "Enabled",
        "Rule": {
            "DefaultRetention": {
                "Mode": "COMPLIANCE",
                "Days": 50
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-object-lock-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-object-retention`
<a name="s3_GetObjectRetention_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object-retention`.

**AWS CLI**  
**Untuk mengambil konfigurasi retensi objek untuk objek**  
`get-object-retention`Contoh berikut mengambil konfigurasi retensi objek untuk objek tertentu.  

```
aws s3api get-object-retention \
    --bucket amzn-s3-demo-bucket-with-object-lock \
    --key doc1.rtf
```
Output:  

```
{
    "Retention": {
        "Mode": "GOVERNANCE",
        "RetainUntilDate": "2025-01-01T00:00:00.000Z"
    }
}
```
+  Untuk detail API, lihat [GetObjectRetention](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-object-retention.html)di *Referensi AWS CLI Perintah*. 

### `get-object-tagging`
<a name="s3_GetObjectTagging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object-tagging`.

**AWS CLI**  
**Untuk mengambil tag yang dilampirkan ke objek**  
`get-object-tagging`Contoh berikut mengambil nilai-nilai untuk kunci tertentu dari objek tertentu.  

```
aws s3api get-object-tagging \
    --bucket amzn-s3-demo-bucket \
    --key doc1.rtf
```
Output:  

```
{
    "TagSet": [
        {
            "Value": "confidential",
            "Key": "designation"
        }
    ]
}
```
`get-object-tagging`Contoh berikut mencoba untuk mengambil set tag objek`doc2.rtf`, yang tidak memiliki tag.  

```
aws s3api get-object-tagging \
    --bucket amzn-s3-demo-bucket \
    --key doc2.rtf
```
Output:  

```
{
    "TagSet": []
}
```
`get-object-tagging`Contoh berikut mengambil set tag objek`doc3.rtf`, yang memiliki beberapa tag.  

```
aws s3api get-object-tagging \
    --bucket amzn-s3-demo-bucket \
    --key doc3.rtf
```
Output:  

```
{
    "TagSet": [
        {
            "Value": "confidential",
            "Key": "designation"
        },
        {
            "Value": "finance",
            "Key": "department"
        },
        {
            "Value": "payroll",
            "Key": "team"
        }
    ]
}
```
+  Untuk detail API, lihat [GetObjectTagging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-object-tagging.html)di *Referensi AWS CLI Perintah*. 

### `get-object-torrent`
<a name="s3_GetObjectTorrent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object-torrent`.

**AWS CLI**  
Perintah berikut membuat torrent untuk objek dalam bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api get-object-torrent --bucket amzn-s3-demo-bucket --key large-video-file.mp4 large-video-file.torrent
```
File torrent disimpan secara lokal di folder saat ini. Perhatikan bahwa output filename (`large-video-file.torrent`) ditentukan tanpa nama pilihan dan harus menjadi argumen terakhir dalam perintah.  
+  Untuk detail API, lihat [GetObjectTorrent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-object-torrent.html)di *Referensi AWS CLI Perintah*. 

### `get-object`
<a name="s3_GetObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-object`.

**AWS CLI**  
Contoh berikut menggunakan `get-object` perintah untuk mengunduh objek dari Amazon S3:  

```
aws s3api get-object --bucket text-content --key dir/my_images.tar.bz2 my_images.tar.bz2
```
Perhatikan bahwa parameter outfile ditentukan tanpa nama opsi seperti “--outfile”. Nama file output harus menjadi parameter terakhir dalam perintah.  
Contoh di bawah ini menunjukkan penggunaan `--range` untuk men-download rentang byte tertentu dari sebuah objek. Perhatikan rentang byte perlu diawali dengan “byte =”:  

```
aws s3api get-object --bucket text-content --key dir/my_data --range bytes=8888-9999 my_data_range
```
Untuk informasi selengkapnya tentang mengambil objek, lihat Mendapatkan Objek di Panduan Pengembang *Amazon S3*.  
+  Untuk detail API, lihat [GetObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-object.html)di *Referensi AWS CLI Perintah*. 

### `get-public-access-block`
<a name="s3_GetPublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-public-access-block`.

**AWS CLI**  
**Untuk menyetel atau memodifikasi konfigurasi blokir akses publik untuk bucket**  
`get-public-access-block`Contoh berikut menampilkan konfigurasi blok akses publik untuk bucket yang ditentukan.  

```
aws s3api get-public-access-block \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "PublicAccessBlockConfiguration": {
        "IgnorePublicAcls": true,
        "BlockPublicPolicy": true,
        "BlockPublicAcls": true,
        "RestrictPublicBuckets": true
    }
}
```
+  Untuk detail API, lihat [GetPublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/get-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `head-bucket`
<a name="s3_HeadBucket_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`head-bucket`.

**AWS CLI**  
Perintah berikut memverifikasi akses ke bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api head-bucket --bucket amzn-s3-demo-bucket
```
Jika bucket ada dan Anda memiliki akses ke sana, tidak ada output yang dikembalikan. Jika tidak, pesan kesalahan akan ditampilkan. Contoh:  

```
A client error (404) occurred when calling the HeadBucket operation: Not Found
```
+  Untuk detail API, lihat [HeadBucket](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/head-bucket.html)di *Referensi AWS CLI Perintah*. 

### `head-object`
<a name="s3_HeadObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`head-object`.

**AWS CLI**  
Perintah berikut mengambil metadata untuk objek dalam bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api head-object --bucket amzn-s3-demo-bucket --key index.html
```
Output:  

```
{
    "AcceptRanges": "bytes",
    "ContentType": "text/html",
    "LastModified": "Thu, 16 Apr 2015 18:19:14 GMT",
    "ContentLength": 77,
    "VersionId": "null",
    "ETag": "\"30a6ec7e1a9ad79c203d05a589c8b400\"",
    "Metadata": {}
}
```
+  Untuk detail API, lihat [HeadObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/head-object.html)di *Referensi AWS CLI Perintah*. 

### `list-bucket-analytics-configurations`
<a name="s3_ListBucketAnalyticsConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bucket-analytics-configurations`.

**AWS CLI**  
**Untuk mengambil daftar konfigurasi analitik untuk bucket**  
Berikut ini `list-bucket-analytics-configurations` mengambil daftar konfigurasi analitik untuk bucket yang ditentukan.  

```
aws s3api list-bucket-analytics-configurations \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "AnalyticsConfigurationList": [
        {
            "StorageClassAnalysis": {},
            "Id": "1"
        }
    ],
    "IsTruncated": false
}
```
+  Untuk detail API, lihat [ListBucketAnalyticsConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-bucket-analytics-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-bucket-intelligent-tiering-configurations`
<a name="s3_ListBucketIntelligentTieringConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bucket-intelligent-tiering-configurations`.

**AWS CLI**  
**Untuk mengambil semua konfigurasi S3 Intelligent-Tiering pada bucket**  
`list-bucket-intelligent-tiering-configurations`Contoh berikut mengambil semua konfigurasi S3 Intelligent-Tiering pada bucket.  

```
aws s3api list-bucket-intelligent-tiering-configurations \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "IsTruncated": false,
    "IntelligentTieringConfigurationList": [
        {
            "Id": "ExampleConfig",
            "Filter": {
                "Prefix": "images"
            },
            "Status": "Enabled",
            "Tierings": [
                {
                    "Days": 90,
                    "AccessTier": "ARCHIVE_ACCESS"
                },
                {
                    "Days": 180,
                    "AccessTier": "DEEP_ARCHIVE_ACCESS"
                }
            ]
        },
        {
            "Id": "ExampleConfig2",
            "Status": "Disabled",
            "Tierings": [
                {
                    "Days": 730,
                    "AccessTier": "ARCHIVE_ACCESS"
                }
            ]
        },
        {
            "Id": "ExampleConfig3",
            "Filter": {
                "Tag": {
                    "Key": "documents",
                    "Value": "taxes"
                }
            },
            "Status": "Enabled",
            "Tierings": [
                {
                    "Days": 90,
                    "AccessTier": "ARCHIVE_ACCESS"
                },
                {
                    "Days": 365,
                    "AccessTier": "DEEP_ARCHIVE_ACCESS"
                }
            ]
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Menggunakan S3 Intelligent-Tiering di](https://docs.aws.amazon.com/AmazonS3/latest/userguide/using-intelligent-tiering.html) Panduan Pengguna Amazon S3.*  
+  Untuk detail API, lihat [ListBucketIntelligentTieringConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-bucket-intelligent-tiering-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-bucket-inventory-configurations`
<a name="s3_ListBucketInventoryConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bucket-inventory-configurations`.

**AWS CLI**  
**Untuk mengambil daftar konfigurasi inventaris untuk bucket**  
`list-bucket-inventory-configurations`Contoh berikut mencantumkan konfigurasi inventaris untuk bucket yang ditentukan.  

```
aws s3api list-bucket-inventory-configurations \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "InventoryConfigurationList": [
        {
            "IsEnabled": true,
            "Destination": {
                "S3BucketDestination": {
                    "Format": "ORC",
                    "Bucket": "arn:aws:s3:::amzn-s3-demo-bucket",
                    "AccountId": "123456789012"
                }
            },
            "IncludedObjectVersions": "Current",
            "Id": "1",
            "Schedule": {
                "Frequency": "Weekly"
            }
        },
        {
            "IsEnabled": true,
            "Destination": {
                "S3BucketDestination": {
                    "Format": "CSV",
                    "Bucket": "arn:aws:s3:::amzn-s3-demo-bucket",
                    "AccountId": "123456789012"
                }
            },
            "IncludedObjectVersions": "Current",
            "Id": "2",
            "Schedule": {
                "Frequency": "Daily"
            }
        }
    ],
    "IsTruncated": false
}
```
+  Untuk detail API, lihat [ListBucketInventoryConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-bucket-inventory-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-bucket-metrics-configurations`
<a name="s3_ListBucketMetricsConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-bucket-metrics-configurations`.

**AWS CLI**  
**Untuk mengambil daftar konfigurasi metrik untuk bucket**  
`list-bucket-metrics-configurations`Contoh berikut mengambil daftar konfigurasi metrik untuk bucket yang ditentukan.  

```
aws s3api list-bucket-metrics-configurations \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "IsTruncated": false,
    "MetricsConfigurationList": [
        {
            "Filter": {
                "Prefix": "logs"
            },
            "Id": "123"
        },
        {
            "Filter": {
                "Prefix": "tmp"
            },
            "Id": "234"
        }
    ]
}
```
+  Untuk detail API, lihat [ListBucketMetricsConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-bucket-metrics-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-buckets`
<a name="s3_ListBuckets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-buckets`.

**AWS CLI**  
Perintah berikut menggunakan `list-buckets` perintah untuk menampilkan nama semua bucket Amazon S3 Anda (di semua wilayah):  

```
aws s3api list-buckets --query "Buckets[].Name"
```
Opsi kueri menyaring output dari `list-buckets` down ke hanya nama bucket.  
Untuk informasi selengkapnya tentang bucket, lihat Bekerja dengan Bucket Amazon S3 di Panduan Pengembang Amazon *S3*.  
+  Untuk detail API, lihat [ListBuckets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-buckets.html)di *Referensi AWS CLI Perintah*. 

### `list-multipart-uploads`
<a name="s3_ListMultipartUploads_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-multipart-uploads`.

**AWS CLI**  
Perintah berikut mencantumkan semua unggahan multipart aktif untuk bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api list-multipart-uploads --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "Uploads": [
        {
            "Initiator": {
                "DisplayName": "username",
                "ID": "arn:aws:iam::0123456789012:user/username"
            },
            "Initiated": "2015-06-02T18:01:30.000Z",
            "UploadId": "dfRtDYU0WWCCcH43C3WFbkRONycyCpTJJvxu2i5GYkZljF.Yxwh6XG7WfS2vC4to6HiV6Yjlx.cph0gtNBtJ8P3URCSbB7rjxI5iEwVDmgaXZOGgkk5nVTW16HOQ5l0R",
            "StorageClass": "STANDARD",
            "Key": "multipart/01",
            "Owner": {
                "DisplayName": "aws-account-name",
                "ID": "100719349fc3b6dcd7c820a124bf7aecd408092c3d7b51b38494939801fc248b"
            }
        }
    ],
    "CommonPrefixes": []
}
```
Unggahan multipart yang sedang berlangsung menimbulkan biaya penyimpanan di Amazon S3. Selesaikan atau batalkan unggahan multibagian aktif untuk menghapus bagian-bagiannya dari akun Anda.  
+  Untuk detail API, lihat [ListMultipartUploads](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-multipart-uploads.html)di *Referensi AWS CLI Perintah*. 

### `list-object-versions`
<a name="s3_ListObjectVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-object-versions`.

**AWS CLI**  
Perintah berikut mengambil informasi versi untuk objek dalam bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api list-object-versions --bucket amzn-s3-demo-bucket --prefix index.html
```
Output:  

```
{
    "DeleteMarkers": [
        {
            "Owner": {
                "DisplayName": "my-username",
                "ID": "7009a8971cd660687538875e7c86c5b672fe116bd438f46db45460ddcd036c32"
            },
            "IsLatest": true,
            "VersionId": "B2VsEK5saUNNHKcOAJj7hIE86RozToyq",
            "Key": "index.html",
            "LastModified": "2015-11-10T00:57:03.000Z"
        },
        {
            "Owner": {
                "DisplayName": "my-username",
                "ID": "7009a8971cd660687538875e7c86c5b672fe116bd438f46db45460ddcd036c32"
            },
            "IsLatest": false,
            "VersionId": ".FLQEZscLIcfxSq.jsFJ.szUkmng2Yw6",
            "Key": "index.html",
            "LastModified": "2015-11-09T23:32:20.000Z"
        }
    ],
    "Versions": [
        {
            "LastModified": "2015-11-10T00:20:11.000Z",
            "VersionId": "Rb_l2T8UHDkFEwCgJjhlgPOZC0qJ.vpD",
            "ETag": "\"0622528de826c0df5db1258a23b80be5\"",
            "StorageClass": "STANDARD",
            "Key": "index.html",
            "Owner": {
                "DisplayName": "my-username",
                "ID": "7009a8971cd660687538875e7c86c5b672fe116bd438f46db45460ddcd036c32"
            },
            "IsLatest": false,
            "Size": 38
        },
        {
            "LastModified": "2015-11-09T23:26:41.000Z",
            "VersionId": "rasWWGpgk9E4s0LyTJgusGeRQKLVIAFf",
            "ETag": "\"06225825b8028de826c0df5db1a23be5\"",
            "StorageClass": "STANDARD",
            "Key": "index.html",
            "Owner": {
                "DisplayName": "my-username",
                "ID": "7009a8971cd660687538875e7c86c5b672fe116bd438f46db45460ddcd036c32"
            },
            "IsLatest": false,
            "Size": 38
        },
        {
            "LastModified": "2015-11-09T22:50:50.000Z",
            "VersionId": "null",
            "ETag": "\"d1f45267a863c8392e07d24dd592f1b9\"",
            "StorageClass": "STANDARD",
            "Key": "index.html",
            "Owner": {
                "DisplayName": "my-username",
                "ID": "7009a8971cd660687538875e7c86c5b672fe116bd438f46db45460ddcd036c32"
            },
            "IsLatest": false,
            "Size": 533823
        }
    ]
}
```
+  Untuk detail API, lihat [ListObjectVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-object-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-objects-v2`
<a name="s3_ListObjectsV2_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-objects-v2`.

**AWS CLI**  
**Untuk mendapatkan daftar objek dalam ember**  
`list-objects-v2`Contoh berikut mencantumkan objek dalam bucket yang ditentukan.  

```
aws s3api list-objects-v2 \
    --bucket amzn-s3-demo-bucket
```
Output:  

```
{
    "Contents": [
        {
            "LastModified": "2019-11-05T23:11:50.000Z",
            "ETag": "\"621503c373607d548b37cff8778d992c\"",
            "StorageClass": "STANDARD",
            "Key": "doc1.rtf",
            "Size": 391
        },
        {
            "LastModified": "2019-11-05T23:11:50.000Z",
            "ETag": "\"a2cecc36ab7c7fe3a71a273b9d45b1b5\"",
            "StorageClass": "STANDARD",
            "Key": "doc2.rtf",
            "Size": 373
        },
        {
            "LastModified": "2019-11-05T23:11:50.000Z",
            "ETag": "\"08210852f65a2e9cb999972539a64d68\"",
            "StorageClass": "STANDARD",
            "Key": "doc3.rtf",
            "Size": 399
        },
        {
            "LastModified": "2019-11-05T23:11:50.000Z",
            "ETag": "\"d1852dd683f404306569471af106988e\"",
            "StorageClass": "STANDARD",
            "Key": "doc4.rtf",
            "Size": 6225
        }
    ]
}
```
+  Untuk detail API, lihat [ListObjectsV2](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-objects-v2.html) di *Referensi AWS CLI Perintah*. 

### `list-objects`
<a name="s3_ListObjects_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-objects`.

**AWS CLI**  
Contoh berikut menggunakan `list-objects` perintah untuk menampilkan nama semua objek dalam bucket yang ditentukan:  

```
aws s3api list-objects --bucket text-content --query 'Contents[].{Key: Key, Size: Size}'
```
Contoh menggunakan `--query` argumen untuk memfilter output `list-objects` turun ke nilai kunci dan ukuran untuk setiap objek  
Untuk informasi selengkapnya tentang objek, lihat Bekerja dengan Objek Amazon S3 di Panduan Pengembang *Amazon S3*.  
+  Untuk detail API, lihat [ListObjects](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-objects.html)di *Referensi AWS CLI Perintah*. 

### `list-parts`
<a name="s3_ListParts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-parts`.

**AWS CLI**  
Perintah berikut mencantumkan semua bagian yang telah diunggah untuk unggahan multibagian dengan kunci `multipart/01` di bucket: `amzn-s3-demo-bucket`  

```
aws s3api list-parts --bucket amzn-s3-demo-bucket --key 'multipart/01' --upload-id dfRtDYU0WWCCcH43C3WFbkRONycyCpTJJvxu2i5GYkZljF.Yxwh6XG7WfS2vC4to6HiV6Yjlx.cph0gtNBtJ8P3URCSbB7rjxI5iEwVDmgaXZOGgkk5nVTW16HOQ5l0R
```
Output:  

```
{
    "Owner": {
        "DisplayName": "aws-account-name",
        "ID": "100719349fc3b6dcd7c820a124bf7aecd408092c3d7b51b38494939801fc248b"
    },
    "Initiator": {
        "DisplayName": "username",
        "ID": "arn:aws:iam::0123456789012:user/username"
    },
    "Parts": [
        {
            "LastModified": "2015-06-02T18:07:35.000Z",
            "PartNumber": 1,
            "ETag": "\"e868e0f4719e394144ef36531ee6824c\"",
            "Size": 5242880
        },
        {
            "LastModified": "2015-06-02T18:07:42.000Z",
            "PartNumber": 2,
            "ETag": "\"6bb2b12753d66fe86da4998aa33fffb0\"",
            "Size": 5242880
        },
        {
            "LastModified": "2015-06-02T18:07:47.000Z",
            "PartNumber": 3,
            "ETag": "\"d0a0112e841abec9c9ec83406f0159c8\"",
            "Size": 5242880
        }
    ],
    "StorageClass": "STANDARD"
}
```
+  Untuk detail API, lihat [ListParts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/list-parts.html)di *Referensi AWS CLI Perintah*. 

### `ls`
<a name="s3_Ls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ls`.

**AWS CLI**  
**Contoh 1: Daftar semua bucket milik pengguna**  
`ls`Perintah berikut mencantumkan semua bucket yang dimiliki oleh pengguna. Dalam contoh ini, pengguna memiliki ember `amzn-s3-demo-bucket` dan. `amzn-s3-demo-bucket2` Stempel waktu adalah tanggal ember dibuat, ditunjukkan di zona waktu mesin Anda. Tanggal ini dapat berubah saat membuat perubahan pada bucket Anda, seperti mengedit kebijakan bucket. Perhatikan jika `s3://` digunakan untuk argumen jalur`<S3Uri>`, itu akan mencantumkan semua bucket juga.  

```
aws s3 ls
```
Output:  

```
2013-07-11 17:08:50 amzn-s3-demo-bucket
2013-07-24 14:55:44 amzn-s3-demo-bucket2
```
**Contoh 2: Daftar semua awalan dan objek dalam ember**  
`ls`Perintah berikut mencantumkan objek dan awalan umum di bawah bucket dan awalan yang ditentukan. Dalam contoh ini, pengguna memiliki ember `amzn-s3-demo-bucket` dengan objek `test.txt` dan`somePrefix/test.txt`. Itu `LastWriteTime` dan `Length` sewenang-wenang. Perhatikan bahwa karena `ls` perintah tidak memiliki interaksi dengan sistem file lokal, skema `s3://` URI tidak diperlukan untuk menyelesaikan ambiguitas dan dapat dihilangkan.  

```
aws s3 ls s3://amzn-s3-demo-bucket
```
Output:  

```
                           PRE somePrefix/
2013-07-25 17:06:27         88 test.txt
```
**Contoh 3: Daftar semua awalan dan objek dalam bucket dan awalan tertentu**  
`ls`Perintah berikut mencantumkan objek dan awalan umum di bawah bucket dan awalan yang ditentukan. Namun, tidak ada objek atau awalan umum di bawah ember dan awalan yang ditentukan.  

```
aws s3 ls s3://amzn-s3-demo-bucket/noExistPrefix
```
Output:  

```
None
```
**Contoh 4: Secara rekursif mencantumkan semua awalan dan objek dalam ember**  
`ls`Perintah berikut akan secara rekursif mencantumkan objek dalam ember. Alih-alih ditampilkan `PRE dirname/` dalam output, semua konten dalam ember akan terdaftar secara berurutan.  

```
aws s3 ls s3://amzn-s3-demo-bucket \
    --recursive
```
Output:  

```
2013-09-02 21:37:53         10 a.txt
2013-09-02 21:37:53    2863288 foo.zip
2013-09-02 21:32:57         23 foo/bar/.baz/a
2013-09-02 21:32:58         41 foo/bar/.baz/b
2013-09-02 21:32:57        281 foo/bar/.baz/c
2013-09-02 21:32:57         73 foo/bar/.baz/d
2013-09-02 21:32:57        452 foo/bar/.baz/e
2013-09-02 21:32:57        896 foo/bar/.baz/hooks/bar
2013-09-02 21:32:57        189 foo/bar/.baz/hooks/foo
2013-09-02 21:32:57        398 z.txt
```
**Contoh 5: Meringkas semua awalan dan objek dalam ember**  
`ls`Perintah berikut menunjukkan perintah yang sama menggunakan opsi --human-readable dan --summarize. --human-readable menampilkan ukuran file di. Bytes/MiB/KiB/GiB/TiB/PiB/EiB --summarize menampilkan jumlah total objek dan ukuran total di akhir daftar hasil:  

```
aws s3 ls s3://amzn-s3-demo-bucket \
    --recursive \
    --human-readable \
    --summarize
```
Output:  

```
2013-09-02 21:37:53   10 Bytes a.txt
2013-09-02 21:37:53  2.9 MiB foo.zip
2013-09-02 21:32:57   23 Bytes foo/bar/.baz/a
2013-09-02 21:32:58   41 Bytes foo/bar/.baz/b
2013-09-02 21:32:57  281 Bytes foo/bar/.baz/c
2013-09-02 21:32:57   73 Bytes foo/bar/.baz/d
2013-09-02 21:32:57  452 Bytes foo/bar/.baz/e
2013-09-02 21:32:57  896 Bytes foo/bar/.baz/hooks/bar
2013-09-02 21:32:57  189 Bytes foo/bar/.baz/hooks/foo
2013-09-02 21:32:57  398 Bytes z.txt

Total Objects: 10
   Total Size: 2.9 MiB
```
**Contoh 6: Daftar dari titik akses S3**  
Berikut daftar `ls` perintah objek dari access point (`myaccesspoint`):  

```
aws s3 ls s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/
```
Output:  

```
                           PRE somePrefix/
2013-07-25 17:06:27         88 test.txt
```
+  Untuk detail API, lihat [Ls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/ls.html) di *Referensi AWS CLI Perintah*. 

### `mb`
<a name="s3_Mb_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`mb`.

**AWS CLI**  
**Contoh 1: Buat ember**  
`mb`Perintah berikut membuat ember. Dalam contoh ini, pengguna membuat ember`amzn-s3-demo-bucket`. Bucket dibuat di wilayah yang ditentukan dalam file konfigurasi pengguna:  

```
aws s3 mb s3://amzn-s3-demo-bucket
```
Output:  

```
make_bucket: s3://amzn-s3-demo-bucket
```
**Contoh 2: Buat ember di wilayah yang ditentukan**  
`mb`Perintah berikut membuat bucket di wilayah yang ditentukan oleh `--region` parameter. Dalam contoh ini, pengguna membuat bucket `amzn-s3-demo-bucket` di wilayah tersebut`us-west-1`:  

```
aws s3 mb s3://amzn-s3-demo-bucket \
    --region us-west-1
```
Output:  

```
make_bucket: s3://amzn-s3-demo-bucket
```
**Contoh 3: Buat ember dengan tag tertentu**  
`mb`Perintah berikut membuat bucket dengan tag tertentu menggunakan `--tags` parameter. Dalam contoh ini, pengguna membuat ember `amzn-s3-demo-bucket` dengan dua tag dengan kunci `Key1` dan`Key2`, masing-masing.  

```
aws s3 mb s3://amzn-s3-demo-bucket \
    --tags Key1 Value1 \
    --tags Key2 Value2
```
Output:  

```
make_bucket: s3://amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [Mb](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/mb.html) di *Referensi AWS CLI Perintah*. 

### `mv`
<a name="s3_Mv_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`mv`.

**AWS CLI**  
**Contoh 1: Pindahkan file lokal ke bucket yang ditentukan**  
`mv`Perintah berikut memindahkan satu file ke bucket dan kunci tertentu.  

```
aws s3 mv test.txt s3://amzn-s3-demo-bucket/test2.txt
```
Output:  

```
move: test.txt to s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 2: Pindahkan objek ke bucket dan kunci yang ditentukan**  
`mv`Perintah berikut memindahkan objek s3 tunggal ke bucket dan kunci tertentu.  

```
aws s3 mv s3://amzn-s3-demo-bucket/test.txt s3://amzn-s3-demo-bucket/test2.txt
```
Output:  

```
move: s3://amzn-s3-demo-bucket/test.txt to s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 3: Pindahkan objek S3 ke direktori lokal**  
`mv`Perintah berikut memindahkan satu objek ke file tertentu secara lokal.  

```
aws s3 mv s3://amzn-s3-demo-bucket/test.txt test2.txt
```
Output:  

```
move: s3://amzn-s3-demo-bucket/test.txt to test2.txt
```
**Contoh 4: Pindahkan objek dengan nama aslinya ke ember yang ditentukan**  
`mv`Perintah berikut memindahkan satu objek ke bucket tertentu sambil mempertahankan nama aslinya:  

```
aws s3 mv s3://amzn-s3-demo-bucket/test.txt s3://amzn-s3-demo-bucket2/
```
Output:  

```
move: s3://amzn-s3-demo-bucket/test.txt to s3://amzn-s3-demo-bucket2/test.txt
```
**Contoh 5: Pindahkan semua objek dan awalan dalam ember ke direktori lokal**  
Ketika diteruskan dengan parameter`--recursive`, `mv` perintah berikut secara rekursif memindahkan semua objek di bawah awalan dan ember yang ditentukan ke direktori tertentu. Dalam contoh ini, ember `amzn-s3-demo-bucket` memiliki objek `test1.txt` dan`test2.txt`.  

```
aws s3 mv s3://amzn-s3-demo-bucket . \
    --recursive
```
Output:  

```
move: s3://amzn-s3-demo-bucket/test1.txt to test1.txt
move: s3://amzn-s3-demo-bucket/test2.txt to test2.txt
```
**Contoh 6: Pindahkan semua objek dan awalan dalam ember ke direktori lokal, kecuali file ``.jpg``**  
Ketika diteruskan dengan parameter`--recursive`, `mv` perintah berikut secara rekursif memindahkan semua file di bawah direktori tertentu ke bucket dan awalan tertentu sementara mengecualikan beberapa file dengan menggunakan parameter. `--exclude` Dalam contoh ini, direktori `myDir` memiliki file `test1.txt` dan`test2.jpg`.  

```
aws s3 mv myDir s3://amzn-s3-demo-bucket/ \
    --recursive \
    --exclude "*.jpg"
```
Output:  

```
move: myDir/test1.txt to s3://amzn-s3-demo-bucket2/test1.txt
```
**Contoh 7: Pindahkan semua objek dan awalan dalam ember ke direktori lokal, kecuali awalan yang ditentukan**  
Ketika diteruskan dengan parameter`--recursive`, `mv` perintah berikut secara rekursif memindahkan semua objek di bawah bucket tertentu ke bucket lain sambil mengecualikan beberapa objek dengan menggunakan parameter. `--exclude` Dalam contoh ini, ember `amzn-s3-demo-bucket` memiliki objek `test1.txt` dan`another/test1.txt`.  

```
aws s3 mv s3://amzn-s3-demo-bucket/ s3://amzn-s3-demo-bucket2/ \
    --recursive \
    --exclude "amzn-s3-demo-bucket/another/*"
```
Output:  

```
move: s3://amzn-s3-demo-bucket/test1.txt to s3://amzn-s3-demo-bucket2/test1.txt
```
**Contoh 8: Pindahkan objek ke bucket yang ditentukan dan atur ACL**  
`mv`Perintah berikut memindahkan satu objek ke bucket dan kunci tertentu saat mengatur ACL ke`public-read-write`.  

```
aws s3 mv s3://amzn-s3-demo-bucket/test.txt s3://amzn-s3-demo-bucket/test2.txt \
    --acl public-read-write
```
Output:  

```
move: s3://amzn-s3-demo-bucket/test.txt to s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 9: Pindahkan file lokal ke bucket yang ditentukan dan berikan izin**  
`mv`Perintah berikut menggambarkan penggunaan `--grants` opsi untuk memberikan akses baca ke semua pengguna dan kontrol penuh ke pengguna tertentu yang diidentifikasi oleh alamat email mereka.  

```
aws s3 mv file.txt s3://amzn-s3-demo-bucket/ \
    --grants read=uri=http://acs.amazonaws.com/groups/global/AllUsers full=emailaddress=user@example.com
```
Output:  

```
move: file.txt to s3://amzn-s3-demo-bucket/file.txt
```
**Contoh 10: Pindahkan file ke titik akses S3**  
`mv`Perintah berikut memindahkan satu file bernama `mydoc.txt` ke titik akses bernama `myaccesspoint` pada kunci bernama`mykey`.  

```
aws s3 mv mydoc.txt s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/mykey
```
Output:  

```
move: mydoc.txt to s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/mykey
```
+  Untuk detail API, lihat [Mv](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/mv.html) di *Referensi AWS CLI Perintah*. 

### `presign`
<a name="s3_Presign_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`presign`.

**AWS CLI**  
**Contoh 1: Untuk membuat URL yang telah ditandatangani sebelumnya dengan masa pakai default satu jam yang menautkan ke objek dalam bucket S3**  
`presign`Perintah berikut menghasilkan URL yang telah ditandatangani sebelumnya untuk bucket dan kunci tertentu yang valid selama satu jam.  

```
aws s3 presign s3://amzn-s3-demo-bucket/test2.txt
```
Output:  

```
https://amzn-s3-demo-bucket.s3.us-west-2.amazonaws.com/key?X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAEXAMPLE123456789%2F20210621%2Fus-west-2%2Fs3%2Faws4_request&X-Amz-Date=20210621T041609Z&X-Amz-Expires=3600&X-Amz-SignedHeaders=host&X-Amz-Signature=EXAMBLE1234494d5fba3fed607f98018e1dfc62e2529ae96d844123456
```
**Contoh 2: Untuk membuat URL yang telah ditandatangani sebelumnya dengan masa pakai khusus yang menautkan ke objek di bucket S3**  
`presign`Perintah berikut menghasilkan URL yang telah ditandatangani sebelumnya untuk bucket dan kunci tertentu yang berlaku selama satu minggu.  

```
aws s3 presign s3://amzn-s3-demo-bucket/test2.txt \
    --expires-in 604800
```
Output:  

```
https://amzn-s3-demo-bucket.s3.us-west-2.amazonaws.com/key?X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAEXAMPLE123456789%2F20210621%2Fus-west-2%2Fs3%2Faws4_request&X-Amz-Date=20210621T041609Z&X-Amz-Expires=604800&X-Amz-SignedHeaders=host&X-Amz-Signature=EXAMBLE1234494d5fba3fed607f98018e1dfc62e2529ae96d844123456
```
Untuk informasi selengkapnya, lihat [Berbagi Objek dengan Orang Lain](https://docs.aws.amazon.com/AmazonS3/latest/dev/ShareObjectPreSignedURL.html) di *panduan Panduan Pengembang S3*.  
+  Untuk detail API, lihat [Presign](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/presign.html) di *Referensi AWS CLI Perintah*. 

### `put-bucket-accelerate-configuration`
<a name="s3_PutBucketAccelerateConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-accelerate-configuration`.

**AWS CLI**  
**Untuk mengatur konfigurasi percepatan ember**  
`put-bucket-accelerate-configuration`Contoh berikut memungkinkan konfigurasi percepatan untuk bucket yang ditentukan.  

```
aws s3api put-bucket-accelerate-configuration \
    --bucket amzn-s3-demo-bucket \
    --accelerate-configuration Status=Enabled
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutBucketAccelerateConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-accelerate-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-acl`
<a name="s3_PutBucketAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-acl`.

**AWS CLI**  
Contoh ini memberikan `full control` kepada dua AWS pengguna (*user1@example.com* dan *user2@example.com*) dan `read` izin untuk semua orang:  

```
aws s3api put-bucket-acl --bucket amzn-s3-demo-bucket --grant-full-control emailaddress=user1@example.com,emailaddress=user2@example.com --grant-read uri=http://acs.amazonaws.com/groups/global/AllUsers
```
Lihat http://docs.aws.amazon. com/AmazonS3/latest/API/RESTBucketPUTacl.html untuk detail tentang kustom ACLs (perintah s3api ACL, seperti`put-bucket-acl`, menggunakan notasi argumen singkatan yang sama).  
+  Untuk detail API, lihat [PutBucketAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-acl.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-analytics-configuration`
<a name="s3_PutBucketAnalyticsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-analytics-configuration`.

**AWS CLI**  
**Untuk menetapkan konfigurasi analitik untuk bucket**  
`put-bucket-analytics-configuration`Contoh berikut mengonfigurasi analitik untuk bucket yang ditentukan.  

```
aws s3api put-bucket-analytics-configuration \
    --bucket amzn-s3-demo-bucket --id 1 \
    --analytics-configuration '{"Id": "1","StorageClassAnalysis": {}}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutBucketAnalyticsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-analytics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-cors`
<a name="s3_PutBucketCors_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-cors`.

**AWS CLI**  
Contoh berikut memungkinkan`PUT`,`POST`, dan `DELETE` permintaan dari *www.example.com*, dan memungkinkan `GET` permintaan dari domain apa pun:  

```
aws s3api put-bucket-cors --bucket amzn-s3-demo-bucket --cors-configuration file://cors.json

cors.json:
{
  "CORSRules": [
    {
      "AllowedOrigins": ["http://www.example.com"],
      "AllowedHeaders": ["*"],
      "AllowedMethods": ["PUT", "POST", "DELETE"],
      "MaxAgeSeconds": 3000,
      "ExposeHeaders": ["x-amz-server-side-encryption"]
    },
    {
      "AllowedOrigins": ["*"],
      "AllowedHeaders": ["Authorization"],
      "AllowedMethods": ["GET"],
      "MaxAgeSeconds": 3000
    }
  ]
}
```
+  Untuk detail API, lihat [PutBucketCors](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-cors.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-encryption`
<a name="s3_PutBucketEncryption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-encryption`.

**AWS CLI**  
**Untuk mengonfigurasi enkripsi sisi server untuk bucket**  
`put-bucket-encryption`Contoh berikut menetapkan AES256 enkripsi sebagai default untuk bucket yang ditentukan.  

```
aws s3api put-bucket-encryption \
    --bucket amzn-s3-demo-bucket \
    --server-side-encryption-configuration '{"Rules": [{"ApplyServerSideEncryptionByDefault": {"SSEAlgorithm": "AES256"}}]}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutBucketEncryption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-encryption.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-intelligent-tiering-configuration`
<a name="s3_PutBucketIntelligentTieringConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-intelligent-tiering-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi S3 Intelligent-Tiering pada bucket**  
`put-bucket-intelligent-tiering-configuration`Contoh berikut memperbarui konfigurasi S3 Intelligent-Tiering, bernama ExampleConfig, pada bucket. Konfigurasi akan mengalihkan objek yang belum diakses di bawah gambar awalan ke Akses Arsip setelah 90 hari dan Akses Arsip Dalam setelah 180 hari.  

```
aws s3api put-bucket-intelligent-tiering-configuration \
    --bucket amzn-s3-demo-bucket \
    --id "ExampleConfig" \
    --intelligent-tiering-configuration file://intelligent-tiering-configuration.json
```
Isi dari `intelligent-tiering-configuration.json`:  

```
{
    "Id": "ExampleConfig",
    "Status": "Enabled",
    "Filter": {
        "Prefix": "images"
        },
    "Tierings": [
        {
            "Days": 90,
            "AccessTier": "ARCHIVE_ACCESS"
        },
        {
            "Days": 180,
            "AccessTier": "DEEP_ARCHIVE_ACCESS"
        }
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyetel Kepemilikan Objek pada bucket yang ada](https://docs.aws.amazon.com/AmazonS3/latest/userguide/object-ownership-existing-bucket.html) di *Panduan Pengguna Amazon S3*.  
+  Untuk detail API, lihat [PutBucketIntelligentTieringConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-intelligent-tiering-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-inventory-configuration`
<a name="s3_PutBucketInventoryConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-inventory-configuration`.

**AWS CLI**  
**Contoh 1: Untuk mengatur konfigurasi inventaris untuk bucket**  
`put-bucket-inventory-configuration`Contoh berikut menetapkan laporan inventaris berformat ORC mingguan untuk bucket. `amzn-s3-demo-bucket`  

```
aws s3api put-bucket-inventory-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 1 \
    --inventory-configuration '{"Destination": { "S3BucketDestination": { "AccountId": "123456789012", "Bucket": "arn:aws:s3:::amzn-s3-demo-bucket", "Format": "ORC" }}, "IsEnabled": true, "Id": "1", "IncludedObjectVersions": "Current", "Schedule": { "Frequency": "Weekly" }}'
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk mengatur konfigurasi inventaris untuk bucket**  
`put-bucket-inventory-configuration`Contoh berikut menetapkan laporan inventaris berformat CSV harian untuk bucket. `amzn-s3-demo-bucket`  

```
aws s3api put-bucket-inventory-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 2 \
    --inventory-configuration '{"Destination": { "S3BucketDestination": { "AccountId": "123456789012", "Bucket": "arn:aws:s3:::amzn-s3-demo-bucket", "Format": "CSV" }}, "IsEnabled": true, "Id": "2", "IncludedObjectVersions": "Current", "Schedule": { "Frequency": "Daily" }}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutBucketInventoryConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-inventory-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-lifecycle-configuration`
<a name="s3_PutBucketLifecycleConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-lifecycle-configuration`.

**AWS CLI**  
Perintah berikut menerapkan konfigurasi siklus hidup ke bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api put-bucket-lifecycle-configuration --bucket amzn-s3-demo-bucket --lifecycle-configuration  file://lifecycle.json
```
File `lifecycle.json` adalah dokumen JSON di folder saat ini yang menentukan dua aturan:  

```
{
    "Rules": [
        {
            "ID": "Move rotated logs to Glacier",
            "Prefix": "rotated/",
            "Status": "Enabled",
            "Transitions": [
                {
                    "Date": "2015-11-10T00:00:00.000Z",
                    "StorageClass": "GLACIER"
                }
            ]
        },
        {
            "Status": "Enabled",
            "Prefix": "",
            "NoncurrentVersionTransitions": [
                {
                    "NoncurrentDays": 2,
                    "StorageClass": "GLACIER"
                }
            ],
            "ID": "Move old versions to Glacier"
        }
    ]
}
```
Aturan pertama memindahkan file dengan awalan `rotated` ke Glacier pada tanggal yang ditentukan. Aturan kedua memindahkan versi objek lama ke Glacier ketika mereka tidak lagi saat ini. *Untuk informasi tentang format stempel waktu yang dapat diterima, lihat Menentukan Nilai Parameter dalam Panduan Pengguna CLI AWS .*  
+  Untuk detail API, lihat [PutBucketLifecycleConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-lifecycle-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-lifecycle`
<a name="s3_PutBucketLifecycle_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-lifecycle`.

**AWS CLI**  
Perintah berikut menerapkan konfigurasi siklus hidup ke bucket: `amzn-s3-demo-bucket`  

```
aws s3api put-bucket-lifecycle --bucket amzn-s3-demo-bucket --lifecycle-configuration file://lifecycle.json
```
File `lifecycle.json` adalah dokumen JSON di folder saat ini yang menentukan dua aturan:  

```
{
  "Rules": [
    {
      "ID": "Move to Glacier after sixty days (objects in logs/2015/)",
      "Prefix": "logs/2015/",
      "Status": "Enabled",
      "Transition": {
        "Days": 60,
        "StorageClass": "GLACIER"
      }
    },
    {
      "Expiration": {
        "Date": "2016-01-01T00:00:00.000Z"
      },
      "ID": "Delete 2014 logs in 2016.",
      "Prefix": "logs/2014/",
      "Status": "Enabled"
    }
  ]
}
```
Aturan pertama memindahkan file ke Amazon Glacier setelah enam puluh hari. Aturan kedua menghapus file dari Amazon S3 pada tanggal yang ditentukan. *Untuk informasi tentang format stempel waktu yang dapat diterima, lihat Menentukan Nilai Parameter dalam Panduan Pengguna CLI AWS .*  
Setiap aturan dalam contoh di atas menentukan kebijakan (`Transition`atau`Expiration`) dan awalan file (nama folder) yang berlaku. Anda juga dapat membuat aturan yang berlaku untuk seluruh bucket dengan menentukan awalan kosong:  

```
{
  "Rules": [
    {
      "ID": "Move to Glacier after sixty days (all objects in bucket)",
      "Prefix": "",
      "Status": "Enabled",
      "Transition": {
        "Days": 60,
        "StorageClass": "GLACIER"
      }
    }
  ]
}
```
+  Untuk detail API, lihat [PutBucketLifecycle](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-lifecycle.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-logging`
<a name="s3_PutBucketLogging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-logging`.

**AWS CLI**  
**Contoh 1: Untuk mengatur pencatatan kebijakan bucket**  
`put-bucket-logging`Contoh berikut menetapkan kebijakan logging untuk *amzn-s3-demo-bucket*. Pertama, berikan izin utama layanan logging dalam kebijakan bucket Anda menggunakan `put-bucket-policy` perintah.  

```
aws s3api put-bucket-policy \
    --bucket amzn-s3-demo-bucket \
    --policy file://policy.json
```
Isi dari `policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Sid": "S3ServerAccessLogsPolicy",
            "Effect": "Allow",
            "Principal": {"Service": "logging.s3.amazonaws.com"},
            "Action": "s3:PutObject",
            "Resource": "arn:aws:s3:::amzn-s3-demo-bucket/Logs/*",
            "Condition": {
                "ArnLike": {"aws:SourceARN": "arn:aws:s3:::SOURCE-BUCKET-NAME"},
                "StringEquals": {"aws:SourceAccount": "SOURCE-AWS-ACCOUNT-ID"}
            }
        }
    ]
}
```
Untuk menerapkan kebijakan pencatatan, gunakan`put-bucket-logging`.  

```
aws s3api put-bucket-logging \
    --bucket amzn-s3-demo-bucket \
    --bucket-logging-status file://logging.json
```
Isi dari `logging.json`:  

```
{
     "LoggingEnabled": {
         "TargetBucket": "amzn-s3-demo-bucket",
         "TargetPrefix": "Logs/"
     }
 }
```
`put-bucket-policy`Perintah diperlukan untuk memberikan `s3:PutObject` izin kepada prinsipal layanan logging.  
Untuk informasi selengkapnya, lihat [Logging Akses Server Amazon S3](https://docs.aws.amazon.com/AmazonS3/latest/userguide/ServerLogs.html) di Panduan Pengguna *Amazon S3*.  
**Contoh 2: Untuk menetapkan kebijakan bucket untuk akses log hanya ke satu pengguna**  
`put-bucket-logging`Contoh berikut menetapkan kebijakan logging untuk *amzn-s3-demo-bucket*. AWS Pengguna *bob@example.com* akan memiliki kontrol penuh atas file log, dan tidak ada orang lain yang memiliki akses. Pertama, berikan izin S3 dengan`put-bucket-acl`.  

```
aws s3api put-bucket-acl \
    --bucket amzn-s3-demo-bucket \
    --grant-write URI=http://acs.amazonaws.com/groups/s3/LogDelivery \
    --grant-read-acp URI=http://acs.amazonaws.com/groups/s3/LogDelivery
```
Kemudian terapkan kebijakan logging menggunakan`put-bucket-logging`.  

```
aws s3api put-bucket-logging \
    --bucket amzn-s3-demo-bucket \
    --bucket-logging-status file://logging.json
```
Isi dari `logging.json`:  

```
{
    "LoggingEnabled": {
        "TargetBucket": "amzn-s3-demo-bucket",
        "TargetPrefix": "amzn-s3-demo-bucket-logs/",
        "TargetGrants": [
            {
                "Grantee": {
                    "Type": "AmazonCustomerByEmail",
                    "EmailAddress": "bob@example.com"
                },
                "Permission": "FULL_CONTROL"
            }
        ]
    }
}
```
`put-bucket-acl`perintah diperlukan untuk memberikan sistem pengiriman log S3 izin yang diperlukan (izin tulis dan baca-acp).  
Untuk informasi selengkapnya, lihat [Logging Akses Server Amazon S3 di Panduan](https://docs.aws.amazon.com/AmazonS3/latest/userguide/ServerLogs.html) Pengembang *Amazon S3*.  
+  Untuk detail API, lihat [PutBucketLogging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-logging.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-metrics-configuration`
<a name="s3_PutBucketMetricsConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-metrics-configuration`.

**AWS CLI**  
**Untuk menyetel konfigurasi metrik untuk bucket**  
`put-bucket-metrics-configuration`Contoh berikut menetapkan konfigurasi metrik dengan ID 123 untuk bucket yang ditentukan.  

```
aws s3api put-bucket-metrics-configuration \
    --bucket amzn-s3-demo-bucket \
    --id 123 \
    --metrics-configuration '{"Id": "123", "Filter": {"Prefix": "logs"}}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutBucketMetricsConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-metrics-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-notification-configuration`
<a name="s3_PutBucketNotificationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-notification-configuration`.

**AWS CLI**  
**Untuk mengaktifkan notifikasi yang ditentukan ke bucket**  
`put-bucket-notification-configuration`Contoh berikut menerapkan konfigurasi notifikasi ke bucket bernama`amzn-s3-demo-bucket`. File tersebut `notification.json` adalah dokumen JSON di folder saat ini yang menentukan topik SNS dan jenis acara untuk dipantau.  

```
aws s3api put-bucket-notification-configuration \
    --bucket amzn-s3-demo-bucket \
    --notification-configuration file://notification.json
```
Isi dari `notification.json`:  

```
{
    "TopicConfigurations": [
        {
            "TopicArn": "arn:aws:sns:us-west-2:123456789012:s3-notification-topic",
            "Events": [
                "s3:ObjectCreated:*"
            ]
        }
    ]
}
```
Topik SNS harus memiliki kebijakan IAM yang melekat padanya yang memungkinkan Amazon S3 untuk mempublikasikannya.  

```
{
    "Version":"2012-10-17",		 	 	 
    "Id": "example-ID",
    "Statement": [
        {
            "Sid": "example-statement-ID",
            "Effect": "Allow",
            "Principal": {
                "Service": "s3.amazonaws.com"
            },
            "Action": [
                "SNS:Publish"
            ],
            "Resource": "arn:aws:sns:us-west-2:123456789012::s3-notification-topic",
            "Condition": {
                "ArnLike": {
                    "aws:SourceArn": "arn:aws:s3:*:*:amzn-s3-demo-bucket"
                }
            }
        }
    ]
}
```
+  Untuk detail API, lihat [PutBucketNotificationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-notification-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-notification`
<a name="s3_PutBucketNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-notification`.

**AWS CLI**  
Menerapkan konfigurasi notifikasi ke bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api put-bucket-notification --bucket amzn-s3-demo-bucket --notification-configuration file://notification.json
```
File `notification.json` ini adalah dokumen JSON di folder saat ini yang menentukan topik SNS dan jenis acara untuk dipantau:  

```
{
  "TopicConfiguration": {
    "Event": "s3:ObjectCreated:*",
    "Topic": "arn:aws:sns:us-west-2:123456789012:s3-notification-topic"
  }
}
```
Topik SNS harus memiliki kebijakan IAM yang melekat padanya yang memungkinkan Amazon S3 untuk mempublikasikannya:  

```
{
 "Version":"2012-10-17",		 	 	 
 "Id": "example-ID",
 "Statement": [
  {
   "Sid": "example-statement-ID",
   "Effect": "Allow",
   "Principal": {
     "Service": "s3.amazonaws.com"
   },
   "Action": [
    "SNS:Publish"
   ],
   "Resource": "arn:aws:sns:us-west-2:123456789012:amzn-s3-demo-bucket",
   "Condition": {
      "ArnLike": {
      "aws:SourceArn": "arn:aws:s3:*:*:amzn-s3-demo-bucket"
    }
   }
  }
 ]
}
```
+  Untuk detail API, lihat [PutBucketNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-notification.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-ownership-controls`
<a name="s3_PutBucketOwnershipControls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-ownership-controls`.

**AWS CLI**  
**Untuk memperbarui setelan kepemilikan bucket pada bucket**  
`put-bucket-ownership-controls`Contoh berikut memperbarui setelan kepemilikan bucket pada bucket.  

```
aws s3api put-bucket-ownership-controls \
    --bucket amzn-s3-demo-bucket \
    --ownership-controls="Rules=[{ObjectOwnership=BucketOwnerEnforced}]"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyetel Kepemilikan Objek pada bucket yang ada](https://docs.aws.amazon.com/AmazonS3/latest/userguide/object-ownership-existing-bucket.html) di *Panduan Pengguna Amazon S3*.  
+  Untuk detail API, lihat [PutBucketOwnershipControls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-ownership-controls.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-policy`
<a name="s3_PutBucketPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-policy`.

**AWS CLI**  
Contoh ini memungkinkan semua pengguna untuk mengambil objek apa pun di *amzn-s3-demo-bucket* kecuali yang ada di. *MySecretFolder* Ini juga memberikan `put` dan `delete` izin kepada pengguna root AWS akun`1234-5678-9012`:  

```
aws s3api put-bucket-policy --bucket amzn-s3-demo-bucket --policy file://policy.json

policy.json:
{
   "Statement": [
      {
         "Effect": "Allow",
         "Principal": "*",
         "Action": "s3:GetObject",
         "Resource": "arn:aws:s3:::amzn-s3-demo-bucket/*"
      },
      {
         "Effect": "Deny",
         "Principal": "*",
         "Action": "s3:GetObject",
         "Resource": "arn:aws:s3:::amzn-s3-demo-bucket/MySecretFolder/*"
      },
      {
         "Effect": "Allow",
         "Principal": {
            "AWS": "arn:aws:iam::123456789012:root"
         },
         "Action": [
            "s3:DeleteObject",
            "s3:PutObject"
         ],
         "Resource": "arn:aws:s3:::amzn-s3-demo-bucket/*"
      }
   ]
}
```
+  Untuk detail API, lihat [PutBucketPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-replication`
<a name="s3_PutBucketReplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-replication`.

**AWS CLI**  
**Untuk mengonfigurasi replikasi untuk bucket S3**  
`put-bucket-replication`Contoh berikut menerapkan konfigurasi replikasi ke bucket S3 yang ditentukan.  

```
aws s3api put-bucket-replication \
    --bucket amzn-s3-demo-bucket1 \
    --replication-configuration file://replication.json
```
Isi dari `replication.json`:  

```
{
    "Role": "arn:aws:iam::123456789012:role/s3-replication-role",
    "Rules": [
        {
            "Status": "Enabled",
            "Priority": 1,
            "DeleteMarkerReplication": { "Status": "Disabled" },
            "Filter" : { "Prefix": ""},
            "Destination": {
                "Bucket": "arn:aws:s3:::amzn-s3-demo-bucket2"
            }
        }
    ]
}
```
Bucket tujuan harus mengaktifkan versi. Peran yang ditentukan harus memiliki izin untuk menulis ke bucket tujuan dan memiliki hubungan kepercayaan yang memungkinkan Amazon S3 untuk mengambil peran tersebut.  
Contoh kebijakan izin peran:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action": [
                "s3:GetReplicationConfiguration",
                "s3:ListBucket"
            ],
            "Resource": [
                "arn:aws:s3:::amzn-s3-demo-bucket1"
            ]
        },
        {
            "Effect": "Allow",
            "Action": [
                "s3:GetObjectVersion",
                "s3:GetObjectVersionAcl",
                "s3:GetObjectVersionTagging"
            ],
            "Resource": [
                "arn:aws:s3:::amzn-s3-demo-bucket1/*"
            ]
        },
        {
            "Effect": "Allow",
            "Action": [
                "s3:ReplicateObject",
                "s3:ReplicateDelete",
                "s3:ReplicateTags"
            ],
            "Resource": "arn:aws:s3:::amzn-s3-demo-bucket2/*"
        }
    ]
}
```
Contoh kebijakan hubungan kepercayaan:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": {
                "Service": "s3.amazonaws.com"
            },
            "Action": "sts:AssumeRole"
        }
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Ini adalah judul topik](https://docs.aws.amazon.com/AmazonS3/latest/user-guide/enable-replication.html) di *Panduan Pengguna Konsol Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [PutBucketReplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-replication.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-request-payment`
<a name="s3_PutBucketRequestPayment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-request-payment`.

**AWS CLI**  
**Contoh 1: Untuk mengaktifkan konfigurasi ``requester pays`` untuk sebuah bucket**  
`put-bucket-request-payment`Contoh berikut memungkinkan `requester pays` untuk bucket yang ditentukan.  

```
aws s3api put-bucket-request-payment \
    --bucket amzn-s3-demo-bucket \
    --request-payment-configuration '{"Payer":"Requester"}'
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menonaktifkan konfigurasi ``requester pays`` untuk bucket**  
`put-bucket-request-payment`Contoh berikut menonaktifkan `requester pays` untuk bucket yang ditentukan.  

```
aws s3api put-bucket-request-payment \
    --bucket amzn-s3-demo-bucket \
    --request-payment-configuration '{"Payer":"BucketOwner"}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutBucketRequestPayment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-request-payment.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-tagging`
<a name="s3_PutBucketTagging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-tagging`.

**AWS CLI**  
Perintah berikut menerapkan konfigurasi penandaan ke bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api put-bucket-tagging --bucket amzn-s3-demo-bucket --tagging file://tagging.json
```
File `tagging.json` adalah dokumen JSON di folder saat ini yang menentukan tag:  

```
{
   "TagSet": [
     {
       "Key": "organization",
       "Value": "marketing"
     }
   ]
}
```
Atau terapkan konfigurasi penandaan `amzn-s3-demo-bucket` langsung dari baris perintah:  

```
aws s3api put-bucket-tagging --bucket amzn-s3-demo-bucket --tagging 'TagSet=[{Key=organization,Value=marketing}]'
```
+  Untuk detail API, lihat [PutBucketTagging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-tagging.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-versioning`
<a name="s3_PutBucketVersioning_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-versioning`.

**AWS CLI**  
Perintah berikut memungkinkan pembuatan versi pada bucket bernama: `amzn-s3-demo-bucket`  

```
aws s3api put-bucket-versioning --bucket amzn-s3-demo-bucket --versioning-configuration Status=Enabled
```
Perintah berikut memungkinkan pembuatan versi, dan menggunakan kode mfa  

```
aws s3api put-bucket-versioning --bucket amzn-s3-demo-bucket --versioning-configuration Status=Enabled --mfa "SERIAL 123456"
```
+  Untuk detail API, lihat [PutBucketVersioning](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-versioning.html)di *Referensi AWS CLI Perintah*. 

### `put-bucket-website`
<a name="s3_PutBucketWebsite_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-bucket-website`.

**AWS CLI**  
Menerapkan konfigurasi situs web statis ke bucket bernama`amzn-s3-demo-bucket`:  

```
aws s3api put-bucket-website --bucket amzn-s3-demo-bucket --website-configuration file://website.json
```
File tersebut `website.json` adalah dokumen JSON di folder saat ini yang menentukan halaman indeks dan kesalahan untuk situs web:  

```
{
    "IndexDocument": {
        "Suffix": "index.html"
    },
    "ErrorDocument": {
        "Key": "error.html"
    }
}
```
+  Untuk detail API, lihat [PutBucketWebsite](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-bucket-website.html)di *Referensi AWS CLI Perintah*. 

### `put-object-acl`
<a name="s3_PutObjectAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object-acl`.

**AWS CLI**  
Perintah berikut memberikan `full control` kepada dua AWS pengguna (*user1@example.com* dan *user2@example.com*) dan `read` izin untuk semua orang:  

```
aws s3api put-object-acl --bucket amzn-s3-demo-bucket --key file.txt --grant-full-control emailaddress=user1@example.com,emailaddress=user2@example.com --grant-read uri=http://acs.amazonaws.com/groups/global/AllUsers
```
Lihat http://docs.aws.amazon. com/AmazonS3/latest/API/RESTBucketPUTacl.html untuk detail tentang kustom ACLs (perintah s3api ACL, seperti`put-object-acl`, menggunakan notasi argumen singkatan yang sama).  
+  Untuk detail API, lihat [PutObjectAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-object-acl.html)di *Referensi AWS CLI Perintah*. 

### `put-object-legal-hold`
<a name="s3_PutObjectLegalHold_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object-legal-hold`.

**AWS CLI**  
**Untuk menerapkan Penahanan Hukum pada suatu objek**  
`put-object-legal-hold`Contoh berikut menetapkan Penahanan Hukum pada objek`doc1.rtf`.  

```
aws s3api put-object-legal-hold \
    --bucket amzn-s3-demo-bucket-with-object-lock \
    --key doc1.rtf \
    --legal-hold Status=ON
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutObjectLegalHold](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-object-legal-hold.html)di *Referensi AWS CLI Perintah*. 

### `put-object-lock-configuration`
<a name="s3_PutObjectLockConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object-lock-configuration`.

**AWS CLI**  
**Untuk mengatur konfigurasi kunci objek pada ember**  
`put-object-lock-configuration`Contoh berikut menetapkan kunci objek 50 hari pada bucket yang ditentukan.  

```
aws s3api put-object-lock-configuration \
    --bucket amzn-s3-demo-bucket-with-object-lock \
    --object-lock-configuration '{ "ObjectLockEnabled": "Enabled", "Rule": { "DefaultRetention": { "Mode": "COMPLIANCE", "Days": 50 }}}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutObjectLockConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-object-lock-configuration.html)di *Referensi AWS CLI Perintah*. 

### `put-object-retention`
<a name="s3_PutObjectRetention_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object-retention`.

**AWS CLI**  
**Untuk mengatur konfigurasi retensi objek untuk objek**  
`put-object-retention`Contoh berikut menetapkan konfigurasi retensi objek untuk objek yang ditentukan hingga 2025-01-01.  

```
aws s3api put-object-retention \
    --bucket amzn-s3-demo-bucket-with-object-lock \
    --key doc1.rtf \
    --retention '{ "Mode": "GOVERNANCE", "RetainUntilDate": "2025-01-01T00:00:00" }'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutObjectRetention](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-object-retention.html)di *Referensi AWS CLI Perintah*. 

### `put-object-tagging`
<a name="s3_PutObjectTagging_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object-tagging`.

**AWS CLI**  
**Untuk mengatur tag pada objek**  
`put-object-tagging`Contoh berikut menetapkan tag dengan kunci `designation` dan nilai `confidential` pada objek tertentu.  

```
aws s3api put-object-tagging \
    --bucket amzn-s3-demo-bucket \
    --key doc1.rtf \
    --tagging '{"TagSet": [{ "Key": "designation", "Value": "confidential" }]}'
```
Perintah ini tidak menghasilkan output.  
`put-object-tagging`Contoh berikut menetapkan beberapa tag set pada objek tertentu.  

```
aws s3api put-object-tagging \
    --bucket amzn-s3-demo-bucket-example \
    --key doc3.rtf \
    --tagging '{"TagSet": [{ "Key": "designation", "Value": "confidential" }, { "Key": "department", "Value": "finance" }, { "Key": "team", "Value": "payroll" } ]}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutObjectTagging](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-object-tagging.html)di *Referensi AWS CLI Perintah*. 

### `put-object`
<a name="s3_PutObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-object`.

**AWS CLI**  
**Contoh 1: Unggah objek ke Amazon S3**  
Contoh `put-object` perintah berikut mengunggah objek ke Amazon S3.  

```
aws s3api put-object \
    --bucket amzn-s3-demo-bucket \
    --key my-dir/MySampleImage.png \
    --body MySampleImage.png
```
Untuk informasi selengkapnya tentang mengunggah objek, lihat Mengunggah Objek < http://docs.aws.amazon. com/AmazonS3/latest/dev/UploadingObjects.html> di Panduan Pengembang *Amazon S3*.  
**Contoh 2: Unggah file video ke Amazon S3**  
Contoh `put-object` perintah berikut mengunggah file video.  

```
aws s3api put-object \
    --bucket amzn-s3-demo-bucket \
    --key my-dir/big-video-file.mp4 \
    --body /media/videos/f-sharp-3-data-services.mp4
```
Untuk informasi selengkapnya tentang mengunggah objek, lihat Mengunggah Objek < http://docs.aws.amazon. com/AmazonS3/latest/dev/UploadingObjects.html> di Panduan Pengembang *Amazon S3*.  
+  Untuk detail API, lihat [PutObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-object.html)di *Referensi AWS CLI Perintah*. 

### `put-public-access-block`
<a name="s3_PutPublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-public-access-block`.

**AWS CLI**  
**Untuk menyetel konfigurasi blokir akses publik untuk bucket**  
`put-public-access-block`Contoh berikut menetapkan konfigurasi akses publik blok restriktif untuk bucket yang ditentukan.  

```
aws s3api put-public-access-block \
    --bucket amzn-s3-demo-bucket \
    --public-access-block-configuration "BlockPublicAcls=true,IgnorePublicAcls=true,BlockPublicPolicy=true,RestrictPublicBuckets=true"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutPublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/put-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `rb`
<a name="s3_Rb_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rb`.

**AWS CLI**  
**Contoh 1: Hapus ember**  
`rb`Perintah berikut menghapus ember. Dalam contoh ini, bucket pengguna adalah`amzn-s3-demo-bucket`. Perhatikan bahwa ember harus kosong untuk menghapus:  

```
aws s3 rb s3://amzn-s3-demo-bucket
```
Output:  

```
remove_bucket: amzn-s3-demo-bucket
```
**Contoh 2: Paksa menghapus ember**  
`rb`Perintah berikut menggunakan `--force` parameter untuk pertama-tama menghapus semua objek di ember dan kemudian menghapus ember itu sendiri. Dalam contoh ini, bucket pengguna adalah `amzn-s3-demo-bucket` dan objek di dalamnya `amzn-s3-demo-bucket` adalah `test1.txt` dan`test2.txt`:  

```
aws s3 rb s3://amzn-s3-demo-bucket \
    --force
```
Output:  

```
delete: s3://amzn-s3-demo-bucket/test1.txt
delete: s3://amzn-s3-demo-bucket/test2.txt
remove_bucket: amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [Rb](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/rb.html) di *Referensi AWS CLI Perintah*. 

### `restore-object`
<a name="s3_RestoreObject_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-object`.

**AWS CLI**  
**Untuk membuat permintaan pemulihan untuk objek**  
`restore-object`Contoh berikut mengembalikan objek Amazon S3 Glacier yang ditentukan untuk bucket selama 10 hari. `my-glacier-bucket`  

```
aws s3api restore-object \
    --bucket my-glacier-bucket \
    --key doc1.rtf \
    --restore-request Days=10
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [RestoreObject](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/restore-object.html)di *Referensi AWS CLI Perintah*. 

### `rm`
<a name="s3_Rm_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rm`.

**AWS CLI**  
**Contoh 1: Hapus objek S3**  
`rm`Perintah berikut menghapus objek s3 tunggal:  

```
aws s3 rm s3://amzn-s3-demo-bucket/test2.txt
```
Output:  

```
delete: s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 2: Hapus semua konten dalam ember**  
`rm`Perintah berikut secara rekursif menghapus semua objek di bawah bucket dan awalan tertentu ketika diteruskan dengan parameter. `--recursive` Dalam contoh ini, ember `amzn-s3-demo-bucket` berisi objek `test1.txt` dan`test2.txt`:  

```
aws s3 rm s3://amzn-s3-demo-bucket \
    --recursive
```
Output:  

```
delete: s3://amzn-s3-demo-bucket/test1.txt
delete: s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 3: Hapus semua konten dalam ember, kecuali file ``.jpg``**  
`rm`Perintah berikut secara rekursif menghapus semua objek di bawah bucket dan awalan tertentu ketika diteruskan dengan parameter `--recursive` sementara mengecualikan beberapa objek dengan menggunakan parameter. `--exclude` Dalam contoh ini, ember `amzn-s3-demo-bucket` memiliki objek `test1.txt` dan`test2.jpg`:  

```
aws s3 rm s3://amzn-s3-demo-bucket/ \
    --recursive \
    --exclude "*.jpg"
```
Output:  

```
delete: s3://amzn-s3-demo-bucket/test1.txt
```
**Contoh 4: Hapus semua konten dalam ember, kecuali objek di bawah awalan yang ditentukan**  
`rm`Perintah berikut secara rekursif menghapus semua objek di bawah bucket dan awalan tertentu ketika diteruskan dengan parameter `--recursive` sementara mengecualikan semua objek di bawah awalan tertentu dengan menggunakan parameter. `--exclude` Dalam contoh ini, ember `amzn-s3-demo-bucket` memiliki objek `test1.txt` dan`another/test.txt`:  

```
aws s3 rm s3://amzn-s3-demo-bucket/ \
    --recursive \
    --exclude "another/*"
```
Output:  

```
delete: s3://amzn-s3-demo-bucket/test1.txt
```
**Contoh 5: Hapus objek dari titik akses S3**  
`rm`Perintah berikut menghapus satu objek (`mykey`) dari titik akses (`myaccesspoint`). :: `rm` Perintah berikut menghapus satu objek (`mykey`) dari titik akses (`myaccesspoint`).  

```
aws s3 rm s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/mykey
```
Output:  

```
delete: s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/mykey
```
+  Untuk detail API, lihat [Rm](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/rm.html) di *Referensi AWS CLI Perintah*. 

### `select-object-content`
<a name="s3_SelectObjectContent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`select-object-content`.

**AWS CLI**  
**Untuk memfilter konten objek Amazon S3 berdasarkan pernyataan SQL**  
`select-object-content`Contoh berikut menyaring objek `my-data-file.csv` dengan pernyataan SQL tertentu dan mengirimkan output ke file.  

```
aws s3api select-object-content \
    --bucket amzn-s3-demo-bucket \
    --key my-data-file.csv \
    --expression "select * from s3object limit 100" \
    --expression-type 'SQL' \
    --input-serialization '{"CSV": {}, "CompressionType": "NONE"}' \
    --output-serialization '{"CSV": {}}' "output.csv"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SelectObjectContent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/select-object-content.html)di *Referensi AWS CLI Perintah*. 

### `sync`
<a name="s3_Sync_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`sync`.

**AWS CLI**  
**Contoh 1: Sinkronkan semua objek lokal ke bucket yang ditentukan**  
`sync`Perintah berikut menyinkronkan objek dari direktori lokal ke awalan dan bucket yang ditentukan dengan mengunggah file lokal ke S3. File lokal akan memerlukan pengunggahan jika ukuran file lokal berbeda dari ukuran objek S3, waktu modifikasi terakhir dari file lokal lebih baru dari waktu modifikasi terakhir dari objek S3, atau file lokal tidak ada di bawah ember dan awalan yang ditentukan. Dalam contoh ini, pengguna menyinkronkan bucket `amzn-s3-demo-bucket` ke direktori lokal saat ini. Direktori lokal saat ini berisi file `test.txt` dan file`test2.txt`. Ember tidak `amzn-s3-demo-bucket` berisi benda.  

```
aws s3 sync . s3://amzn-s3-demo-bucket
```
Output:  

```
upload: test.txt to s3://amzn-s3-demo-bucket/test.txt
upload: test2.txt to s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 2: Sinkronkan semua objek S3 dari bucket S3 yang ditentukan ke bucket lain**  
`sync`Perintah berikut menyinkronkan objek di bawah awalan dan bucket yang ditentukan ke objek di bawah awalan dan bucket lain yang ditentukan dengan menyalin objek S3. Objek S3 akan memerlukan penyalinan jika ukuran dua objek S3 berbeda, waktu modifikasi terakhir dari sumber lebih baru dari waktu modifikasi terakhir dari tujuan, atau objek S3 tidak ada di bawah bucket dan tujuan awalan yang ditentukan.  
Dalam contoh ini, pengguna menyinkronkan bucket `amzn-s3-demo-bucket` ke bucket`amzn-s3-demo-bucket2`. Ember `amzn-s3-demo-bucket` berisi benda-benda `test.txt` dan`test2.txt`. Ember tidak `amzn-s3-demo-bucket2` berisi benda:  

```
aws s3 sync s3://amzn-s3-demo-bucket s3://amzn-s3-demo-bucket2
```
Output:  

```
copy: s3://amzn-s3-demo-bucket/test.txt to s3://amzn-s3-demo-bucket2/test.txt
copy: s3://amzn-s3-demo-bucket/test2.txt to s3://amzn-s3-demo-bucket2/test2.txt
```
**Contoh 3: Sinkronkan semua objek S3 dari bucket S3 yang ditentukan ke direktori lokal**  
`sync`Perintah berikut menyinkronkan file dari bucket S3 yang ditentukan ke direktori lokal dengan mengunduh objek S3. Objek S3 akan memerlukan pengunduhan jika ukuran objek S3 berbeda dari ukuran file lokal, waktu modifikasi terakhir dari objek S3 lebih baru dari waktu modifikasi terakhir dari file lokal, atau objek S3 tidak ada di direktori lokal. Perhatikan bahwa ketika objek diunduh dari S3, waktu modifikasi terakhir dari file lokal diubah ke waktu modifikasi terakhir dari objek S3. Dalam contoh ini, pengguna menyinkronkan bucket `amzn-s3-demo-bucket` ke direktori lokal saat ini. Ember `amzn-s3-demo-bucket` berisi benda-benda `test.txt` dan`test2.txt`. Direktori lokal saat ini tidak memiliki file:  

```
aws s3 sync s3://amzn-s3-demo-bucket .
```
Output:  

```
download: s3://amzn-s3-demo-bucket/test.txt to test.txt
download: s3://amzn-s3-demo-bucket/test2.txt to test2.txt
```
**Contoh 4: Sinkronkan semua objek lokal ke bucket yang ditentukan dan hapus semua file yang tidak cocok**  
`sync`Perintah berikut menyinkronkan objek di bawah awalan dan bucket yang ditentukan ke file dalam direktori lokal dengan mengunggah file lokal ke S3. Karena `--delete` parameternya, file apa pun yang ada di bawah awalan dan bucket yang ditentukan tetapi tidak ada di direktori lokal akan dihapus. Dalam contoh ini, pengguna menyinkronkan bucket `amzn-s3-demo-bucket` ke direktori lokal saat ini. Direktori lokal saat ini berisi file `test.txt` dan file`test2.txt`. Ember `amzn-s3-demo-bucket` berisi objek`test3.txt`:  

```
aws s3 sync . s3://amzn-s3-demo-bucket \
    --delete
```
Output:  

```
upload: test.txt to s3://amzn-s3-demo-bucket/test.txt
upload: test2.txt to s3://amzn-s3-demo-bucket/test2.txt
delete: s3://amzn-s3-demo-bucket/test3.txt
```
**Contoh 5: Sinkronkan semua objek lokal ke bucket yang ditentukan kecuali file ``.jpg``**  
`sync`Perintah berikut menyinkronkan objek di bawah awalan dan bucket yang ditentukan ke file dalam direktori lokal dengan mengunggah file lokal ke S3. Karena `--exclude` parameternya, semua file yang cocok dengan pola yang ada di S3 dan secara lokal akan dikecualikan dari sinkronisasi. Dalam contoh ini, pengguna menyinkronkan bucket `amzn-s3-demo-bucket` ke direktori lokal saat ini. Direktori lokal saat ini berisi file `test.jpg` dan file`test2.txt`. Ember `amzn-s3-demo-bucket` berisi objek dengan `test.jpg` ukuran yang berbeda dari lokal`test.jpg`:  

```
aws s3 sync . s3://amzn-s3-demo-bucket \
    --exclude "*.jpg"
```
Output:  

```
upload: test2.txt to s3://amzn-s3-demo-bucket/test2.txt
```
**Contoh 6: Sinkronkan semua objek lokal ke bucket yang ditentukan kecuali file direktori yang ditentukan**  
`sync`Perintah berikut menyinkronkan file di bawah direktori lokal ke objek di bawah awalan dan ember tertentu dengan mengunduh objek S3. Contoh ini menggunakan flag `--exclude` parameter untuk mengecualikan direktori tertentu dan awalan S3 dari perintah. `sync` Dalam contoh ini, pengguna menyinkronkan direktori lokal saat ini ke bucket`amzn-s3-demo-bucket`. Direktori lokal saat ini berisi file `test.txt` dan file`another/test2.txt`. Ember `amzn-s3-demo-bucket` berisi benda-benda `another/test5.txt` dan`test1.txt`:  

```
aws s3 sync s3://amzn-s3-demo-bucket/ . \
    --exclude "*another/*"
```
Output:  

```
download: s3://amzn-s3-demo-bucket/test1.txt to test1.txt
```
**Contoh 7: Sinkronkan semua objek antar ember di berbagai wilayah**  
`sync`Perintah berikut menyinkronkan file antara dua bucket di wilayah yang berbeda:  

```
aws s3 sync s3://my-us-west-2-bucket s3://my-us-east-1-bucket \
    --source-region us-west-2 \
    --region us-east-1
```
Output:  

```
download: s3://my-us-west-2-bucket/test1.txt to s3://my-us-east-1-bucket/test1.txt
```
**Contoh 8: Sinkronkan ke titik akses S3**  
`sync`Perintah berikut menyinkronkan direktori saat ini ke titik akses (`myaccesspoint`):  

```
aws s3 sync . s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/
```
Output:  

```
upload: test.txt to s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/test.txt
upload: test2.txt to s3://arn:aws:s3:us-west-2:123456789012:accesspoint/myaccesspoint/test2.txt
```
+  Untuk detail API, lihat [Sinkronisasi](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/sync.html) dalam *Referensi AWS CLI Perintah*. 

### `upload-part-copy`
<a name="s3_UploadPartCopy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-part-copy`.

**AWS CLI**  
**Untuk meng-upload bagian dari objek dengan menyalin data dari objek yang ada sebagai sumber data**  
`upload-part-copy`Contoh berikut mengunggah bagian dengan menyalin data dari objek yang ada sebagai sumber data.  

```
aws s3api upload-part-copy \
    --bucket amzn-s3-demo-bucket \
    --key "Map_Data_June.mp4" \
    --copy-source "amzn-s3-demo-bucket/copy_of_Map_Data_June.mp4" \
    --part-number 1 \
    --upload-id "bq0tdE1CDpWQYRPLHuNG50xAT6pA5D.m_RiBy0ggOH6b13pVRY7QjvLlf75iFdJqp_2wztk5hvpUM2SesXgrzbehG5hViyktrfANpAD0NO.Nk3XREBqvGeZF6U3ipiSm"
```
Output:  

```
{
    "CopyPartResult": {
        "LastModified": "2019-12-13T23:16:03.000Z",
        "ETag": "\"711470fc377698c393d94aed6305e245\""
    }
}
```
+  Untuk detail API, lihat [UploadPartCopy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/upload-part-copy.html)di *Referensi AWS CLI Perintah*. 

### `upload-part`
<a name="s3_UploadPart_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`upload-part`.

**AWS CLI**  
Perintah berikut mengunggah bagian pertama dalam unggahan multibagian yang dimulai dengan perintah: `create-multipart-upload`  

```
aws s3api upload-part --bucket amzn-s3-demo-bucket --key 'multipart/01' --part-number 1 --body part01 --upload-id  "dfRtDYU0WWCCcH43C3WFbkRONycyCpTJJvxu2i5GYkZljF.Yxwh6XG7WfS2vC4to6HiV6Yjlx.cph0gtNBtJ8P3URCSbB7rjxI5iEwVDmgaXZOGgkk5nVTW16HOQ5l0R"
```
`body`Opsi ini mengambil nama atau jalur file lokal untuk diunggah (jangan gunakan awalan file://). Ukuran bagian minimum adalah 5 MB. Upload ID dikembalikan oleh `create-multipart-upload` dan juga dapat diambil dengan`list-multipart-uploads`. Bucket dan kunci ditentukan saat Anda membuat unggahan multipart.  
Output:  

```
{
    "ETag": "\"e868e0f4719e394144ef36531ee6824c\""
}
```
Simpan ETag nilai setiap bagian untuk nanti. Mereka diminta untuk menyelesaikan unggahan multipart.  
+  Untuk detail API, lihat [UploadPart](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/upload-part.html)di *Referensi AWS CLI Perintah*. 

### `website`
<a name="s3_Website_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`website`.

**AWS CLI**  
**Konfigurasikan bucket S3 sebagai situs web statis**  
Perintah berikut mengonfigurasi bucket bernama `amzn-s3-demo-bucket` sebagai situs web statis. Opsi dokumen indeks menentukan file di mana pengunjung `amzn-s3-demo-bucket` akan diarahkan ketika mereka menavigasi ke URL situs web. Dalam hal ini, ember berada di wilayah us-west-2, sehingga situs akan muncul di. `http://amzn-s3-demo-bucket.s3-website-us-west-2.amazonaws.com`  
Semua file dalam ember yang muncul di situs statis harus dikonfigurasi untuk memungkinkan pengunjung membukanya. Izin file dikonfigurasi secara terpisah dari konfigurasi situs web bucket.  

```
aws s3 website s3://amzn-s3-demo-bucket/ \
    --index-document index.html \
    --error-document error.html
```
Untuk informasi tentang hosting situs web statis di Amazon S3, lihat [Hosting Situs Web Statis di Panduan](https://docs.aws.amazon.com/AmazonS3/latest/userguide/WebsiteHosting.html) *Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [Situs Web](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3api/website.html) di *Referensi AWS CLI Perintah*. 

# Contoh Kontrol Amazon S3 menggunakan AWS CLI
<a name="cli_2_s3-control_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS Command Line Interface dengan menggunakan Kontrol Amazon S3 dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-access-point`
<a name="s3-control_CreateAccessPoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-access-point`.

**AWS CLI**  
**Untuk membuat titik akses**  
`create-access-point`Contoh berikut membuat titik akses yang diberi nama `finance-ap` untuk bucket `business-records` di akun 123456789012. Sebelum menjalankan contoh ini, ganti nama titik akses, nama bucket, dan nomor akun dengan nilai yang sesuai untuk kasus penggunaan Anda.  

```
aws s3control create-access-point \
    --account-id 123456789012 \
    --bucket business-records \
    --name finance-ap
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Titik Akses](https://docs.aws.amazon.com/AmazonS3/latest/dev/creating-access-points.html) di *Panduan Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [CreateAccessPoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/create-access-point.html)di *Referensi AWS CLI Perintah*. 

### `create-job`
<a name="s3-control_CreateJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-job`.

**AWS CLI**  
**Untuk membuat pekerjaan operasi batch Amazon S3**  
`create-job`Contoh berikut membuat pekerjaan operasi batch Amazon S3 untuk menandai objek sebagai. `confidential` in the bucket ``employee-records`  

```
aws s3control create-job \
    --account-id 123456789012 \
    --operation '{"S3PutObjectTagging": { "TagSet": [{"Key":"confidential", "Value":"true"}] }}' \
    --report '{"Bucket":"arn:aws:s3:::employee-records-logs","Prefix":"batch-op-create-job", "Format":"Report_CSV_20180820","Enabled":true,"ReportScope":"AllTasks"}' \
    --manifest '{"Spec":{"Format":"S3BatchOperations_CSV_20180820","Fields":["Bucket","Key"]},"Location":{"ObjectArn":"arn:aws:s3:::employee-records-logs/inv-report/7a6a9be4-072c-407e-85a2-ec3e982f773e.csv","ETag":"69f52a4e9f797e987155d9c8f5880897"}}' \
    --priority 42 \
    --role-arn arn:aws:iam::123456789012:role/S3BatchJobRole
```
Output:  

```
{
    "JobId": "93735294-df46-44d5-8638-6356f335324e"
}
```
+  Untuk detail API, lihat [CreateJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/create-job.html)di *Referensi AWS CLI Perintah*. 

### `delete-access-point-policy`
<a name="s3-control_DeleteAccessPointPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-access-point-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan titik akses**  
`delete-access-point-policy`Contoh berikut menghapus kebijakan titik akses dari titik akses yang disebutkan `finance-ap` di akun 123456789012. Sebelum menjalankan contoh ini, ganti nama titik akses dan nomor akun dengan nilai yang sesuai untuk kasus penggunaan Anda.  

```
aws s3control delete-access-point-policy \
    --account-id 123456789012 \
    --name finance-ap
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Akses Data dengan Titik Akses Amazon S3](https://docs.aws.amazon.com/AmazonS3/latest/dev/access-points.html) di Panduan *Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [DeleteAccessPointPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/delete-access-point-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-access-point`
<a name="s3-control_DeleteAccessPoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-access-point`.

**AWS CLI**  
**Untuk menghapus titik akses**  
`delete-access-point`Contoh berikut menghapus titik akses bernama `finance-ap` dalam akun 123456789012. Sebelum menjalankan contoh ini, ganti nama titik akses dan nomor akun dengan nilai yang sesuai untuk kasus penggunaan Anda.  

```
aws s3control delete-access-point \
    --account-id 123456789012 \
    --name finance-ap
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Akses Data dengan Titik Akses Amazon S3](https://docs.aws.amazon.com/AmazonS3/latest/dev/access-points.html) di Panduan *Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [DeleteAccessPoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/delete-access-point.html)di *Referensi AWS CLI Perintah*. 

### `delete-public-access-block`
<a name="s3-control_DeletePublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-public-access-block`.

**AWS CLI**  
**Untuk menghapus blokir setelan akses publik untuk akun**  
`delete-public-access-block`Contoh berikut menghapus blokir pengaturan akses publik untuk akun yang ditentukan.  

```
aws s3control delete-public-access-block \
    --account-id 123456789012
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeletePublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/delete-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `describe-job`
<a name="s3-control_DescribeJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-job`.

**AWS CLI**  
**Untuk menggambarkan pekerjaan operasi batch Amazon S3**  
Berikut ini `describe-job` menyediakan parameter konfigurasi dan status untuk pekerjaan operasi batch yang ditentukan.  

```
aws s3control describe-job \
    --account-id 123456789012 \
    --job-id 93735294-df46-44d5-8638-6356f335324e
```
Output:  

```
{
    "Job": {
        "TerminationDate": "2019-10-03T21:49:53.944Z",
        "JobId": "93735294-df46-44d5-8638-6356f335324e",
        "FailureReasons": [],
        "Manifest": {
            "Spec": {
                "Fields": [
                    "Bucket",
                    "Key"
                ],
                "Format": "S3BatchOperations_CSV_20180820"
            },
            "Location": {
                "ETag": "69f52a4e9f797e987155d9c8f5880897",
                "ObjectArn": "arn:aws:s3:::employee-records-logs/inv-report/7a6a9be4-072c-407e-85a2-ec3e982f773e.csv"
            }
        },
        "Operation": {
            "S3PutObjectTagging": {
                "TagSet": [
                    {
                        "Value": "true",
                        "Key": "confidential"
                    }
                ]
            }
        },
        "RoleArn": "arn:aws:iam::123456789012:role/S3BatchJobRole",
        "ProgressSummary": {
            "TotalNumberOfTasks": 8,
            "NumberOfTasksFailed": 0,
            "NumberOfTasksSucceeded": 8
        },
        "Priority": 42,
        "Report": {
            "ReportScope": "AllTasks",
            "Format": "Report_CSV_20180820",
            "Enabled": true,
            "Prefix": "batch-op-create-job",
            "Bucket": "arn:aws:s3:::employee-records-logs"
        },
        "JobArn": "arn:aws:s3:us-west-2:123456789012:job/93735294-df46-44d5-8638-6356f335324e",
        "CreationTime": "2019-10-03T21:48:48.048Z",
        "Status": "Complete"
    }
}
```
+  Untuk detail API, lihat [DescribeJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/describe-job.html)di *Referensi AWS CLI Perintah*. 

### `get-access-point-policy-status`
<a name="s3-control_GetAccessPointPolicyStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-access-point-policy-status`.

**AWS CLI**  
**Untuk mengambil status kebijakan jalur akses**  
`get-access-point-policy-status`Contoh berikut mengambil status kebijakan titik akses untuk titik akses yang disebutkan `finance-ap` di akun 123456789012. Status kebijakan titik akses menunjukkan apakah kebijakan titik akses mengizinkan akses publik. Sebelum menjalankan contoh ini, ganti nama titik akses dan nomor akun dengan nilai yang sesuai untuk kasus penggunaan Anda.  

```
aws s3control get-access-point-policy-status \
    --account-id 123456789012 \
    --name finance-ap
```
Output:  

```
{
    "PolicyStatus": {
        "IsPublic": false
    }
}
```
Untuk informasi selengkapnya tentang kapan kebijakan jalur akses dianggap publik, lihat [Arti “Publik”](https://docs.aws.amazon.com/AmazonS3/latest/dev/access-control-block-public-access.html#access-control-block-public-access-policy-status) di *Panduan Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [GetAccessPointPolicyStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/get-access-point-policy-status.html)di *Referensi AWS CLI Perintah*. 

### `get-access-point-policy`
<a name="s3-control_GetAccessPointPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-access-point-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan titik akses**  
`get-access-point-policy`Contoh berikut mengambil kebijakan titik akses dari titik akses yang disebutkan `finance-ap` di akun 123456789012. Sebelum menjalankan contoh ini, ganti nama titik akses dan nomor akun dengan nilai yang sesuai untuk kasus penggunaan Anda.  

```
aws s3control get-access-point-policy \
    --account-id 123456789012 \
    --name finance-ap
```
Output:  

```
{
    "Policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::123456789012:role/Admin\"},\"Action\":\"s3:GetObject\",\"Resource\":\"arn:aws:s3:us-west-2:123456789012:accesspoint/finance-ap/object/records/*\"}]}"
}
```
Untuk informasi selengkapnya, lihat [Mengelola Akses Data dengan Titik Akses Amazon S3](https://docs.aws.amazon.com/AmazonS3/latest/dev/access-points.html) di Panduan *Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [GetAccessPointPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/get-access-point-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-access-point`
<a name="s3-control_GetAccessPoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-access-point`.

**AWS CLI**  
**Untuk mengambil detail konfigurasi titik akses**  
`get-access-point`Contoh berikut mengambil rincian konfigurasi untuk titik akses yang disebutkan `finance-ap` dalam akun 123456789012. Sebelum menjalankan contoh ini, ganti nama titik akses dan nomor akun dengan nilai yang sesuai untuk kasus penggunaan Anda.  

```
aws s3control get-access-point \
    --account-id 123456789012 \
    --name finance-ap
```
Output:  

```
{
    "Name": "finance-ap",
    "Bucket": "business-records",
    "NetworkOrigin": "Internet",
    "PublicAccessBlockConfiguration": {
        "BlockPublicAcls": false,
        "IgnorePublicAcls": false,
        "BlockPublicPolicy": false,
        "RestrictPublicBuckets": false
    },
    "CreationDate": "2020-01-01T00:00:00Z"
}
```
Untuk informasi selengkapnya, lihat [Mengelola Akses Data dengan Titik Akses Amazon S3](https://docs.aws.amazon.com/AmazonS3/latest/dev/access-points.html) di Panduan *Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [GetAccessPoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/get-access-point.html)di *Referensi AWS CLI Perintah*. 

### `get-multi-region-access-point-routes`
<a name="s3-control_GetMultiRegionAccessPointRoutes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-multi-region-access-point-routes`.

**AWS CLI**  
**Untuk menanyakan konfigurasi rute Titik Akses Multi-Wilayah saat ini**  
`get-multi-region-access-point-routes`Contoh berikut mengembalikan konfigurasi routing saat ini untuk Titik Akses Multi-Region yang ditentukan.  

```
aws s3control get-multi-region-access-point-routes \
    --region Region \
    --account-id 111122223333 \
    --mrap MultiRegionAccessPoint_ARN
```
Output:  

```
{
    "Mrap": "arn:aws:s3::111122223333:accesspoint/0000000000000.mrap",
    "Routes": [
        {
            "Bucket": "amzn-s3-demo-bucket1",
            "Region": "ap-southeast-2",
            "TrafficDialPercentage": 100
        },
        {
            "Bucket": "amzn-s3-demo-bucket2",
            "Region": "us-west-1",
            "TrafficDialPercentage": 0
        }
    ]
}
```
+  Untuk detail API, lihat [GetMultiRegionAccessPointRoutes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/get-multi-region-access-point-routes.html)di *Referensi AWS CLI Perintah*. 

### `get-public-access-block`
<a name="s3-control_GetPublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-public-access-block`.

**AWS CLI**  
**Untuk mencantumkan setelan akses blokir publik untuk akun**  
`get-public-access-block`Contoh berikut menampilkan pengaturan blok akses publik untuk akun yang ditentukan.  

```
aws s3control get-public-access-block \
    --account-id 123456789012
```
Output:  

```
{
   "PublicAccessBlockConfiguration": {
      "BlockPublicPolicy": true,
      "RestrictPublicBuckets": true,
      "IgnorePublicAcls": true,
      "BlockPublicAcls": true
   }
}
```
+  Untuk detail API, lihat [GetPublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/get-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `list-access-points`
<a name="s3-control_ListAccessPoints_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-access-points`.

**AWS CLI**  
**Contoh 1: Untuk mengambil daftar semua titik akses untuk akun**  
`list-access-points`Contoh berikut menampilkan daftar semua titik akses yang dilampirkan ke bucket yang dimiliki oleh akun 123456789012.  

```
aws s3control list-access-points \
    --account-id 123456789012
```
Output:  

```
{
    "AccessPointList": [
        {
            "Name": "finance-ap",
            "NetworkOrigin": "Internet",
            "Bucket": "business-records"
        },
        {
            "Name": "managers-ap",
            "NetworkOrigin": "Internet",
            "Bucket": "business-records"
        },
        {
            "Name": "private-network-ap",
            "NetworkOrigin": "VPC",
            "VpcConfiguration": {
                "VpcId": "1a2b3c"
            },
            "Bucket": "business-records"
        },
        {
            "Name": "customer-ap",
            "NetworkOrigin": "Internet",
            "Bucket": "external-docs"
        },
        {
            "Name": "public-ap",
            "NetworkOrigin": "Internet",
            "Bucket": "external-docs"
        }
    ]
}
```
**Contoh 2: Untuk mengambil daftar semua titik akses untuk ember**  
`list-access-points`Contoh berikut mengambil daftar semua titik akses yang dilampirkan ke bucket yang `external-docs` dimiliki oleh akun 123456789012.  

```
aws s3control list-access-points \
    --account-id 123456789012 \
    --bucket external-docs
```
Output:  

```
{
    "AccessPointList": [
        {
            "Name": "customer-ap",
            "NetworkOrigin": "Internet",
            "Bucket": "external-docs"
        },
        {
            "Name": "public-ap",
            "NetworkOrigin": "Internet",
            "Bucket": "external-docs"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Akses Data dengan Titik Akses Amazon S3](https://docs.aws.amazon.com/AmazonS3/latest/dev/access-points.html) di Panduan *Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [ListAccessPoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/list-access-points.html)di *Referensi AWS CLI Perintah*. 

### `list-jobs`
<a name="s3-control_ListJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-jobs`.

**AWS CLI**  
**Untuk membuat daftar akun, pekerjaan operasi batch Amazon S3**  
`list-jobs`Contoh berikut mencantumkan semua pekerjaan operasi batch terbaru untuk akun yang ditentukan.  

```
aws s3control list-jobs \
    --account-id 123456789012
```
Output:  

```
{
    "Jobs": [
        {
            "Operation": "S3PutObjectTagging",
            "ProgressSummary": {
                "NumberOfTasksFailed": 0,
                "NumberOfTasksSucceeded": 8,
                "TotalNumberOfTasks": 8
            },
            "CreationTime": "2019-10-03T21:48:48.048Z",
            "Status": "Complete",
            "JobId": "93735294-df46-44d5-8638-6356f335324e",
            "Priority": 42
        },
        {
            "Operation": "S3PutObjectTagging",
            "ProgressSummary": {
                "NumberOfTasksFailed": 0,
                "NumberOfTasksSucceeded": 0,
                "TotalNumberOfTasks": 0
            },
            "CreationTime": "2019-10-03T21:46:07.084Z",
            "Status": "Failed",
            "JobId": "3f3c7619-02d3-4779-97f6-1d98dd313108",
            "Priority": 42
        },
    ]
}
```
+  Untuk detail API, lihat [ListJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/list-jobs.html)di *Referensi AWS CLI Perintah*. 

### `put-access-point-policy`
<a name="s3-control_PutAccessPointPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-access-point-policy`.

**AWS CLI**  
**Untuk menetapkan kebijakan titik akses**  
`put-access-point-policy`Contoh berikut menempatkan kebijakan titik akses yang ditentukan untuk titik akses `finance-ap` di akun 123456789012. Jika titik akses `finance-ap` sudah memiliki kebijakan, perintah ini menggantikan kebijakan yang ada dengan yang ditentukan dalam perintah ini. Sebelum menjalankan contoh ini, ganti nomor akun, nama titik akses, dan pernyataan kebijakan dengan nilai yang sesuai untuk kasus penggunaan Anda.  

```
aws s3control put-access-point-policy \
    --account-id 123456789012 \
    --name finance-ap \
    --policy file://ap-policy.json
```
Isi dari `ap-policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": {
                "AWS": "arn:aws:iam::123456789012:user/Alice"
            },
            "Action": "s3:GetObject",
            "Resource": "arn:aws:s3:us-west-2:123456789012:accesspoint/finance-ap/object/Alice/*"
        }
    ]
}
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Akses Data dengan Titik Akses Amazon S3](https://docs.aws.amazon.com/AmazonS3/latest/dev/access-points.html) di Panduan *Pengembang Layanan Penyimpanan Sederhana Amazon*.  
+  Untuk detail API, lihat [PutAccessPointPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/put-access-point-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-public-access-block`
<a name="s3-control_PutPublicAccessBlock_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-public-access-block`.

**AWS CLI**  
**Mengedit blokir setelan akses publik untuk akun**  
`put-public-access-block`Contoh berikut mengaktifkan semua pengaturan blokir akses publik `true` untuk akun yang ditentukan.  

```
aws s3control put-public-access-block \
    --account-id 123456789012 \
    --public-access-block-configuration '{"BlockPublicAcls": true, "IgnorePublicAcls": true, "BlockPublicPolicy": true, "RestrictPublicBuckets": true}'
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutPublicAccessBlock](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/put-public-access-block.html)di *Referensi AWS CLI Perintah*. 

### `submit-multi-region-access-point-routes`
<a name="s3-control_SubmitMultiRegionAccessPointRoutes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`submit-multi-region-access-point-routes`.

**AWS CLI**  
**Untuk memperbarui konfigurasi perutean Titik Akses Multi-Wilayah**  
`submit-multi-region-access-point-routes`Contoh berikut memperbarui status perutean `amzn-s3-demo-bucket1` dan `amzn-s3-demo-bucket2` di `ap-southeast-2` Wilayah untuk Titik Akses Multi-Region Anda.  

```
aws s3control submit-multi-region-access-point-routes \
    --region ap-southeast-2 \
    --account-id 111122223333 \
    --mrap MultiRegionAccessPoint_ARN \
    --route-updates Bucket=amzn-s3-demo-bucket1,TrafficDialPercentage=100 Bucket=amzn-s3-demo-bucket2,TrafficDialPercentage=0
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SubmitMultiRegionAccessPointRoutes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/submit-multi-region-access-point-routes.html)di *Referensi AWS CLI Perintah*. 

### `update-job-priority`
<a name="s3-control_UpdateJobPriority_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-job-priority`.

**AWS CLI**  
**Untuk memperbarui prioritas pekerjaan pekerjaan operasi batch Amazon S3**  
`update-job-priority`Contoh berikut memperbarui pekerjaan yang ditentukan ke prioritas baru.  

```
aws s3control update-job-priority \
    --account-id 123456789012 \
    --job-id 8d9a18fe-c303-4d39-8ccc-860d372da386 \
    --priority 52
```
Output:  

```
{
    "JobId": "8d9a18fe-c303-4d39-8ccc-860d372da386",
    "Priority": 52
}
```
+  Untuk detail API, lihat [UpdateJobPriority](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/update-job-priority.html)di *Referensi AWS CLI Perintah*. 

### `update-job-status`
<a name="s3-control_UpdateJobStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-job-status`.

**AWS CLI**  
**Untuk memperbarui status pekerjaan operasi batch Amazon S3**  
`update-job-status`Contoh berikut membatalkan pekerjaan yang ditentukan yang menunggu persetujuan.  

```
aws s3control update-job-status \
    --account-id 123456789012 \
    --job-id 8d9a18fe-c303-4d39-8ccc-860d372da386 \
    --requested-job-status Cancelled
```
Output:  

```
{
    "Status": "Cancelled",
    "JobId": "8d9a18fe-c303-4d39-8ccc-860d372da386"
}
```
`update-job-status`Contoh berikut mengonfirmasi dan menjalankan yang ditentukan yang menunggu persetujuan.  

```
aws s3control update-job-status \
    --account-id 123456789012 \
    --job-id 5782949f-3301-4fb3-be34-8d5bab54dbca \
    --requested-job-status Ready

Output::

{
    "Status": "Ready",
    "JobId": "5782949f-3301-4fb3-be34-8d5bab54dbca"
}
```
`update-job-status`Contoh berikut membatalkan pekerjaan tertentu yang sedang berjalan.  

```
 aws s3control update-job-status \
    --account-id 123456789012 \
    --job-id 5782949f-3301-4fb3-be34-8d5bab54dbca \
    --requested-job-status Cancelled

Output::
{
         "Status": "Cancelling",
         "JobId": "5782949f-3301-4fb3-be34-8d5bab54dbca"
}
```
+  Untuk detail API, lihat [UpdateJobStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/s3control/update-job-status.html)di *Referensi AWS CLI Perintah*. 

# Secrets Manager contoh menggunakan AWS CLI
<a name="cli_2_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Secrets Manager AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-get-secret-value`
<a name="secrets-manager_BatchGetSecretValue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-secret-value`.

**AWS CLI**  
**Contoh 1: Untuk mengambil nilai rahasia untuk sekelompok rahasia yang terdaftar berdasarkan nama**  
`batch-get-secret-value`Contoh berikut mendapatkan rahasia nilai rahasia untuk tiga rahasia.  

```
aws secretsmanager batch-get-secret-value \
    --secret-id-list MySecret1 MySecret2 MySecret3
```
Output:  

```
{
    "SecretValues": [
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MySecret1-a1b2c3",
            "Name": "MySecret1",
            "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLEaaaaa",
            "SecretString": "{\"username\":\"diego_ramirez\",\"password\":\"EXAMPLE-PASSWORD\",\"engine\":\"mysql\",\"host\":\"secretsmanagertutorial.cluster.us-west-2.rds.amazonaws.com\",\"port\":3306,\"dbClusterIdentifier\":\"secretsmanagertutorial\"}",
            "VersionStages": [
                "AWSCURRENT"
            ],
            "CreatedDate": "1523477145.729"
        },
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MySecret2-a1b2c3",
            "Name": "MySecret2",
            "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLEbbbbb",
            "SecretString": "{\"username\":\"akua_mansa\",\"password\":\"EXAMPLE-PASSWORD\"",
            "VersionStages": [
                "AWSCURRENT"
            ],
            "CreatedDate": "1673477781.275"
        },
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MySecret3-a1b2c3",
            "Name": "MySecret3",
            "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLEccccc",
            "SecretString": "{\"username\":\"jie_liu\",\"password\":\"EXAMPLE-PASSWORD\"",
            "VersionStages": [
                "AWSCURRENT"
            ],
            "CreatedDate": "1373477721.124"
        }
    ],
    "Errors": []
}
```
Untuk informasi selengkapnya, lihat [Mengambil sekelompok rahasia dalam satu kelompok](https://docs.aws.amazon.com/secretsmanager/latest/userguide/retrieving-secrets_batch.html) di *Panduan Pengguna AWS Secrets Manager*.  
**Contoh 2: Untuk mengambil nilai rahasia untuk sekelompok rahasia yang dipilih oleh filter**  
`batch-get-secret-value`Contoh berikut mendapatkan rahasia nilai rahasia di akun Anda yang memiliki `MySecret` nama. Pemfilteran berdasarkan nama peka huruf besar/kecil.  

```
aws secretsmanager batch-get-secret-value \
    --filters Key="name",Values="MySecret"
```
Output:  

```
{
    "SecretValues": [
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MySecret1-a1b2c3",
            "Name": "MySecret1",
            "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLEaaaaa",
            "SecretString": "{\"username\":\"diego_ramirez\",\"password\":\"EXAMPLE-PASSWORD\",\"engine\":\"mysql\",\"host\":\"secretsmanagertutorial.cluster.us-west-2.rds.amazonaws.com\",\"port\":3306,\"dbClusterIdentifier\":\"secretsmanagertutorial\"}",
            "VersionStages": [
                "AWSCURRENT"
            ],
            "CreatedDate": "1523477145.729"
        },
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MySecret2-a1b2c3",
            "Name": "MySecret2",
            "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLEbbbbb",
            "SecretString": "{\"username\":\"akua_mansa\",\"password\":\"EXAMPLE-PASSWORD\"",
            "VersionStages": [
                "AWSCURRENT"
            ],
            "CreatedDate": "1673477781.275"
        },
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MySecret3-a1b2c3",
            "Name": "MySecret3",
            "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLEccccc",
            "SecretString": "{\"username\":\"jie_liu\",\"password\":\"EXAMPLE-PASSWORD\"",
            "VersionStages": [
                "AWSCURRENT"
            ],
            "CreatedDate": "1373477721.124"
        }
    ],
    "Errors": []
}
```
Untuk informasi selengkapnya, lihat [Mengambil sekelompok rahasia dalam satu kelompok](https://docs.aws.amazon.com/secretsmanager/latest/userguide/retrieving-secrets_batch.html) di *Panduan Pengguna AWS Secrets Manager*.  
+  Untuk detail API, lihat [BatchGetSecretValue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/batch-get-secret-value.html)di *Referensi AWS CLI Perintah*. 

### `cancel-rotate-secret`
<a name="secrets-manager_CancelRotateSecret_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-rotate-secret`.

**AWS CLI**  
**Untuk mematikan rotasi otomatis untuk rahasia**  
`cancel-rotate-secret`Contoh berikut mematikan rotasi otomatis untuk sebuah rahasia. Untuk melanjutkan rotasi, hubungi`rotate-secret`.  

```
aws secretsmanager cancel-rotate-secret \
    --secret-id MyTestSecret
```
Output:  

```
{
  "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
  "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Memutar rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/rotating-secrets.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [CancelRotateSecret](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/cancel-rotate-secret.html)di *Referensi AWS CLI Perintah*. 

### `create-secret`
<a name="secrets-manager_CreateSecret_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-secret`.

**AWS CLI**  
**Contoh 1: Untuk membuat rahasia dari kredensil dalam file JSON**  
`create-secret`Contoh berikut membuat rahasia dari kredensil dalam file. Untuk informasi selengkapnya, lihat [Memuat parameter AWS CLI dari file](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters-file.html) di Panduan Pengguna *AWS CLI*.  

```
aws secretsmanager create-secret \
    --name MyTestSecret \
    --secret-string file://mycreds.json
```
Isi dari `mycreds.json`:  

```
{
  "engine": "mysql",
  "username": "saanvis",
  "password": "EXAMPLE-PASSWORD",
  "host": "my-database-endpoint.us-west-2.rds.amazonaws.com",
  "dbname": "myDatabase",
  "port": "3306"
}
```
Output:  

```
{
  "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
  "Name": "MyTestSecret",
  "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Membuat rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_create-basic-secret.html) di *Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk membuat rahasia**  
`create-secret`Contoh berikut menciptakan rahasia dengan dua pasangan kunci-nilai. Saat Anda memasukkan perintah di shell perintah, ada risiko riwayat perintah diakses atau utilitas memiliki akses ke parameter perintah Anda. Ini menjadi perhatian jika perintah tersebut menyertakan nilai rahasia. *Untuk informasi selengkapnya, lihat [Mengurangi risiko menggunakan alat baris perintah untuk menyimpan rahasia di Panduan Pengguna Secrets](https://docs.aws.amazon.com/secretsmanager/latest/userguide/security_cli-exposure-risks.html) Manager.*  

```
aws secretsmanager create-secret \
    --name MyTestSecret \
    --description "My test secret created with the CLI." \
    --secret-string "{\"user\":\"diegor\",\"password\":\"EXAMPLE-PASSWORD\"}"
```
Output:  

```
{
  "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
  "Name": "MyTestSecret",
  "VersionId": "EXAMPLE1-90ab-cdef-fedc-ba987EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Membuat rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_create-basic-secret.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [CreateSecret](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/create-secret.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-policy`
<a name="secrets-manager_DeleteResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan berbasis sumber daya yang dilampirkan pada rahasia**  
`delete-resource-policy`Contoh berikut menghapus kebijakan berbasis sumber daya yang dilampirkan pada rahasia.  

```
aws secretsmanager delete-resource-policy \
    --secret-id MyTestSecret
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Otentikasi dan kontrol akses](https://docs.aws.amazon.com/secretsmanager/latest/userguide/auth-and-access.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [DeleteResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/delete-resource-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-secret`
<a name="secrets-manager_DeleteSecret_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-secret`.

**AWS CLI**  
**Contoh 1: Untuk menghapus rahasia**  
`delete-secret`Contoh berikut menghapus rahasia. Anda dapat memulihkan rahasia dengan `restore-secret` sampai tanggal dan waktu di bidang `DeletionDate` respons. Untuk menghapus rahasia yang direplikasi ke wilayah lain, pertama-tama hapus replika dengan`remove-regions-from-replication`, lalu panggil. `delete-secret`  

```
aws secretsmanager delete-secret \
    --secret-id MyTestSecret \
    --recovery-window-in-days 7
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret",
    "DeletionDate": 1524085349.095
}
```
Untuk informasi selengkapnya, lihat [Menghapus rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_delete-secret.html) *di Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk menghapus rahasia segera**  
`delete-secret`Contoh berikut menghapus rahasia segera tanpa jendela pemulihan. Anda tidak dapat memulihkan rahasia ini.  

```
aws secretsmanager delete-secret \
    --secret-id MyTestSecret \
    --force-delete-without-recovery
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret",
    "DeletionDate": 1508750180.309
}
```
Untuk informasi selengkapnya, lihat [Menghapus rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_delete-secret.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [DeleteSecret](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/delete-secret.html)di *Referensi AWS CLI Perintah*. 

### `describe-secret`
<a name="secrets-manager_DescribeSecret_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-secret`.

**AWS CLI**  
**Untuk mengambil detail rahasia**  
`describe-secret`Contoh berikut menunjukkan rincian rahasia.  

```
aws secretsmanager describe-secret \
    --secret-id MyTestSecret
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-Ca8JGt",
    "Name": "MyTestSecret",
    "Description": "My test secret",
    "KmsKeyId": "arn:aws:kms:us-west-2:123456789012:key/EXAMPLE1-90ab-cdef-fedc-ba987EXAMPLE",
    "RotationEnabled": true,
    "RotationLambdaARN": "arn:aws:lambda:us-west-2:123456789012:function:MyTestRotationLambda",
    "RotationRules": {
        "AutomaticallyAfterDays": 2,
        "Duration": "2h",
        "ScheduleExpression": "cron(0 16 1,15 * ? *)"
    },
    "LastRotatedDate": 1525747253.72,
    "LastChangedDate": 1523477145.729,
    "LastAccessedDate": 1524572133.25,
    "Tags": [
        {
            "Key": "SecondTag",
            "Value": "AnotherValue"
        },
        {
            "Key": "FirstTag",
            "Value": "SomeValue"
        }
    ],
    "VersionIdsToStages": {
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111": [
            "AWSPREVIOUS"
        ],
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222": [
            "AWSCURRENT"
        ],
        "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333": [
            "AWSPENDING"
        ]
    },
    "CreatedDate": 1521534252.66,
    "PrimaryRegion": "us-west-2",
    "ReplicationStatus": [
        {
            "Region": "eu-west-3",
            "KmsKeyId": "alias/aws/secretsmanager",
            "Status": "InSync",
            "StatusMessage": "Replication succeeded"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/getting-started.html#term_secret) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [DescribeSecret](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/describe-secret.html)di *Referensi AWS CLI Perintah*. 

### `get-random-password`
<a name="secrets-manager_GetRandomPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-random-password`.

**AWS CLI**  
**Untuk menghasilkan kata sandi acak**  
`get-random-password`Contoh berikut menghasilkan kata sandi acak sepanjang 20 karakter yang mencakup setidaknya satu huruf besar, huruf kecil, angka, dan tanda baca.  

```
aws secretsmanager get-random-password \
    --require-each-included-type \
    --password-length 20
```
Output:  

```
{
    "RandomPassword": "EXAMPLE-PASSWORD"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan mengelola rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/managing-secrets.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [GetRandomPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/get-random-password.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-policy`
<a name="secrets-manager_GetResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-policy`.

**AWS CLI**  
**Untuk mengambil kebijakan berbasis sumber daya yang dilampirkan pada rahasia**  
`get-resource-policy`Contoh berikut mengambil kebijakan berbasis sumber daya yang dilampirkan pada rahasia.  

```
aws secretsmanager get-resource-policy \
    --secret-id MyTestSecret
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret",
    "ResourcePolicy": "{\n\"Version\":\"2012-10-17\",\n\"Statement\":[{\n\"Effect\":\"Allow\",\n
    \"Principal\":{\n\"AWS\":\"arn:aws:iam::123456789012:root\"\n},\n\"Action\":
    \"secretsmanager:GetSecretValue\",\n\"Resource\":\"*\"\n}]\n}"
}
```
Untuk informasi selengkapnya, lihat [Otentikasi dan kontrol akses](https://docs.aws.amazon.com/secretsmanager/latest/userguide/auth-and-access.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [GetResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/get-resource-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-secret-value`
<a name="secrets-manager_GetSecretValue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-secret-value`.

**AWS CLI**  
**Contoh 1: Untuk mengambil nilai rahasia terenkripsi dari sebuah rahasia**  
`get-secret-value`Contoh berikut mendapatkan nilai rahasia saat ini.  

```
aws secretsmanager get-secret-value \
    --secret-id MyTestSecret
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret",
    "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "SecretString": "{\"user\":\"diegor\",\"password\":\"EXAMPLE-PASSWORD\"}",
    "VersionStages": [
        "AWSCURRENT"
    ],
    "CreatedDate": 1523477145.713
}
```
Untuk informasi selengkapnya, lihat [Mengambil rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/retrieving-secrets.html) di *Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk mengambil nilai rahasia sebelumnya**  
`get-secret-value`Contoh berikut mendapatkan nilai rahasia sebelumnya. :  

```
aws secretsmanager get-secret-value \
    --secret-id MyTestSecret
    --version-stage AWSPREVIOUS
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret",
    "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
    "SecretString": "{\"user\":\"diegor\",\"password\":\"PREVIOUS-EXAMPLE-PASSWORD\"}",
    "VersionStages": [
        "AWSPREVIOUS"
    ],
    "CreatedDate": 1523477145.713
}
```
Untuk informasi selengkapnya, lihat [Mengambil rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/retrieving-secrets.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [GetSecretValue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/get-secret-value.html)di *Referensi AWS CLI Perintah*. 

### `list-secret-version-ids`
<a name="secrets-manager_ListSecretVersionIds_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-secret-version-ids`.

**AWS CLI**  
**Untuk daftar semua versi rahasia yang terkait dengan rahasia**  
`list-secret-version-ids`Contoh berikut mendapat daftar semua versi rahasia.  

```
aws secretsmanager list-secret-version-ids \
    --secret-id MyTestSecret
```
Output:  

```
{
  "Versions": [
    {
        "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "VersionStages": [
            "AWSPREVIOUS"
        ],
        "LastAccessedDate": 1523477145.713,
        "CreatedDate": 1523477145.713
    },
    {
        "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "VersionStages": [
            "AWSCURRENT"
        ],
        "LastAccessedDate": 1523477145.713,
        "CreatedDate": 1523486221.391
    },
    {
        "CreatedDate": 1.51197446236E9,
        "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333;"
    }
    ],
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Versi](https://docs.aws.amazon.com/secretsmanager/latest/userguide/getting-started.html#term_version) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [ListSecretVersionIds](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/list-secret-version-ids.html)di *Referensi AWS CLI Perintah*. 

### `list-secrets`
<a name="secrets-manager_ListSecrets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-secrets`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar rahasia di akun Anda**  
`list-secrets`Contoh berikut mendapatkan daftar rahasia di akun Anda.  

```
aws secretsmanager list-secrets
```
Output:  

```
{
    "SecretList": [
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
            "Name": "MyTestSecret",
            "LastChangedDate": 1523477145.729,
            "SecretVersionsToStages": {
                "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111": [
                    "AWSCURRENT"
                ]
            }
        },
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:AnotherSecret-d4e5f6",
            "Name": "AnotherSecret",
            "LastChangedDate": 1523482025.685,
            "SecretVersionsToStages": {
                "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222": [
                    "AWSCURRENT"
                ]
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menemukan rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_search-secret.html) *di Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk memfilter daftar rahasia di akun Anda**  
`list-secrets`Contoh berikut mendapatkan daftar rahasia di akun Anda yang ada `Test` di nama. Pemfilteran berdasarkan nama peka huruf besar/kecil.  

```
aws secretsmanager list-secrets \
    --filter Key="name",Values="Test"
```
Output:  

```
{
    "SecretList": [
        {
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
            "Name": "MyTestSecret",
            "LastChangedDate": 1523477145.729,
            "SecretVersionsToStages": {
                "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111": [
                    "AWSCURRENT"
                ]
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menemukan rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_search-secret.html) *di Panduan Pengguna Secrets Manager*.  
**Contoh 3: Untuk membuat daftar rahasia di akun Anda yang dikelola oleh layanan lain**  
`list-secrets`Contoh berikut mengembalikan rahasia di akun Anda yang dikelola oleh Amazon RDS.  

```
aws secretsmanager list-secrets \
    --filter Key="owning-service",Values="rds"
```
Output:  

```
{
    "SecretList": [
        {
            "Name": "rds!cluster-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Tags": [
                {
                    "Value": "arn:aws:rds:us-west-2:123456789012:cluster:database-1",
                    "Key": "aws:rds:primaryDBClusterArn"
                },
                {
                    "Value": "rds",
                    "Key": "aws:secretsmanager:owningService"
                }
            ],
            "RotationRules": {
                "AutomaticallyAfterDays": 1
            },
            "LastChangedDate": 1673477781.275,
            "LastRotatedDate": 1673477781.26,
            "SecretVersionsToStages": {
                "a1b2c3d4-5678-90ab-cdef-EXAMPLEaaaaa": [
                    "AWSPREVIOUS"
                ],
                "a1b2c3d4-5678-90ab-cdef-EXAMPLEbbbbb": [
                    "AWSCURRENT",
                    "AWSPENDING"
                ]
            },
            "OwningService": "rds",
            "RotationEnabled": true,
            "CreatedDate": 1673467300.7,
            "LastAccessedDate": 1673395200.0,
            "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:rds!cluster-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111-a1b2c3",
            "Description": "Secret associated with primary RDS DB cluster: arn:aws:rds:us-west-2:123456789012:cluster:database-1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Rahasia yang dikelola oleh layanan lain](https://docs.aws.amazon.com/secretsmanager/latest/userguide/service-linked-secrets.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [ListSecrets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/list-secrets.html)di *Referensi AWS CLI Perintah*. 

### `put-resource-policy`
<a name="secrets-manager_PutResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-resource-policy`.

**AWS CLI**  
**Untuk menambahkan kebijakan berbasis sumber daya ke rahasia**  
`put-resource-policy`Contoh berikut menambahkan kebijakan izin ke rahasia, memeriksa terlebih dahulu bahwa kebijakan tersebut tidak menyediakan akses luas ke rahasia tersebut. Kebijakan dibaca dari file. Untuk informasi selengkapnya, lihat [Memuat parameter AWS CLI dari file](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters-file.html) di Panduan Pengguna *AWS CLI*.  

```
aws secretsmanager put-resource-policy \
    --secret-id MyTestSecret \
    --resource-policy file://mypolicy.json \
    --block-public-policy
```
Isi dari `mypolicy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": {
                "AWS": "arn:aws:iam::123456789012:role/MyRole"
            },
            "Action": "secretsmanager:GetSecretValue",
            "Resource": "*"
        }
    ]
}
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Melampirkan kebijakan izin ke rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/auth-and-access_resource-policies.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [PutResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/put-resource-policy.html)di *Referensi AWS CLI Perintah*. 

### `put-secret-value`
<a name="secrets-manager_PutSecretValue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-secret-value`.

**AWS CLI**  
**Contoh 1: Untuk menyimpan nilai rahasia baru dalam rahasia**  
`put-secret-value`Contoh berikut membuat versi baru dari rahasia dengan dua pasangan kunci-nilai.  

```
aws secretsmanager put-secret-value \
    --secret-id MyTestSecret \
    --secret-string "{\"user\":\"diegor\",\"password\":\"EXAMPLE-PASSWORD\"}"
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-1a2b3c",
    "Name": "MyTestSecret",
    "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "VersionStages": [
        "AWSCURRENT"
    ]
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_update-secret.html) *di Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk menyimpan nilai rahasia baru dari kredensyal dalam file JSON**  
`put-secret-value`Contoh berikut membuat versi baru dari rahasia dari kredensil dalam file. Untuk informasi selengkapnya, lihat [Memuat parameter AWS CLI dari file](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters-file.html) di Panduan Pengguna *AWS CLI*.  

```
aws secretsmanager put-secret-value \
    --secret-id MyTestSecret \
    --secret-string file://mycreds.json
```
Isi dari `mycreds.json`:  

```
{
  "engine": "mysql",
  "username": "saanvis",
  "password": "EXAMPLE-PASSWORD",
  "host": "my-database-endpoint.us-west-2.rds.amazonaws.com",
  "dbname": "myDatabase",
  "port": "3306"
}
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret",
    "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "VersionStages": [
        "AWSCURRENT"
    ]
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_update-secret.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [PutSecretValue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/put-secret-value.html)di *Referensi AWS CLI Perintah*. 

### `remove-regions-from-replication`
<a name="secrets-manager_RemoveRegionsFromReplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-regions-from-replication`.

**AWS CLI**  
**Untuk menghapus rahasia replika**  
`remove-regions-from-replication`Contoh berikut menghapus rahasia replika di eu-west-3. Untuk menghapus rahasia utama yang direplikasi ke wilayah lain, pertama-tama hapus replika dan kemudian panggil. `delete-secret`  

```
aws secretsmanager remove-regions-from-replication \
    --secret-id MyTestSecret \
    --remove-replica-regions eu-west-3
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-1a2b3c",
    "ReplicationStatus": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus rahasia replika](https://docs.aws.amazon.com/secretsmanager/latest/userguide/delete-replica.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [RemoveRegionsFromReplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/remove-regions-from-replication.html)di *Referensi AWS CLI Perintah*. 

### `replicate-secret-to-regions`
<a name="secrets-manager_ReplicateSecretToRegions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`replicate-secret-to-regions`.

**AWS CLI**  
**Untuk mereplikasi rahasia ke wilayah lain**  
`replicate-secret-to-regions`Contoh berikut mereplikasi rahasia eu-west-3. Replika dienkripsi dengan kunci yang dikelola. AWS `aws/secretsmanager`  

```
aws secretsmanager replicate-secret-to-regions \
    --secret-id MyTestSecret \
    --add-replica-regions Region=eu-west-3
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-1a2b3c",
    "ReplicationStatus": [
        {
            "Region": "eu-west-3",
            "KmsKeyId": "alias/aws/secretsmanager",
            "Status": "InProgress"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mereplikasi rahasia ke Wilayah lain](https://docs.aws.amazon.com/secretsmanager/latest/userguide/replicate-existing-secret.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [ReplicateSecretToRegions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/replicate-secret-to-regions.html)di *Referensi AWS CLI Perintah*. 

### `restore-secret`
<a name="secrets-manager_RestoreSecret_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-secret`.

**AWS CLI**  
**Untuk mengembalikan rahasia yang sebelumnya dihapus**  
`restore-secret`Contoh berikut mengembalikan rahasia yang sebelumnya dijadwalkan untuk dihapus.  

```
aws secretsmanager restore-secret \
    --secret-id MyTestSecret
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Menghapus rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_delete-secret.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [RestoreSecret](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/restore-secret.html)di *Referensi AWS CLI Perintah*. 

### `rotate-secret`
<a name="secrets-manager_RotateSecret_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rotate-secret`.

**AWS CLI**  
**Contoh 1: Untuk mengkonfigurasi dan memulai rotasi otomatis untuk rahasia**  
`rotate-secret`Contoh berikut mengkonfigurasi dan memulai rotasi otomatis untuk rahasia. Secrets Manager memutar rahasia sekali segera, dan kemudian setiap delapan jam dalam jendela dua jam. Output menunjukkan `VersionId` versi rahasia baru yang dibuat oleh rotasi.  

```
aws secretsmanager rotate-secret \
    --secret-id MyTestDatabaseSecret \
    --rotation-lambda-arn arn:aws:lambda:us-west-2:1234566789012:function:SecretsManagerTestRotationLambda \
    --rotation-rules "{\"ScheduleExpression\": \"cron(0 8/8 * * ? *)\", \"Duration\": \"2h\"}"
```
Output:  

```
{
    "ARN": "aws:arn:secretsmanager:us-west-2:123456789012:secret:MyTestDatabaseSecret-a1b2c3",
    "Name": "MyTestDatabaseSecret",
    "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Memutar rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/rotating-secrets.html) *di Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk mengkonfigurasi dan memulai rotasi otomatis pada interval rotasi**  
`rotate-secret`Contoh berikut mengkonfigurasi dan memulai rotasi otomatis untuk rahasia. Secrets Manager memutar rahasia sekali segera, dan kemudian setiap 10 hari. Output menunjukkan `VersionId` versi rahasia baru yang dibuat oleh rotasi.  

```
aws secretsmanager rotate-secret \
    --secret-id MyTestDatabaseSecret \
    --rotation-lambda-arn arn:aws:lambda:us-west-2:1234566789012:function:SecretsManagerTestRotationLambda \
    --rotation-rules "{\"ScheduleExpression\": \"rate(10 days)\"}"
```
Output:  

```
{
    "ARN": "aws:arn:secretsmanager:us-west-2:123456789012:secret:MyTestDatabaseSecret-a1b2c3",
    "Name": "MyTestDatabaseSecret",
    "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Memutar rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/rotating-secrets.html) *di Panduan Pengguna Secrets Manager*.  
**Contoh 3: Untuk segera memutar rahasia**  
`rotate-secret`Contoh berikut memulai rotasi langsung. Output menunjukkan `VersionId` versi rahasia baru yang dibuat oleh rotasi. Rahasianya harus sudah memiliki rotasi yang dikonfigurasi.  

```
aws secretsmanager rotate-secret \
    --secret-id MyTestDatabaseSecret
```
Output:  

```
{
    "ARN": "aws:arn:secretsmanager:us-west-2:123456789012:secret:MyTestDatabaseSecret-a1b2c3",
    "Name": "MyTestDatabaseSecret",
    "VersionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Memutar rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/rotating-secrets.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [RotateSecret](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/rotate-secret.html)di *Referensi AWS CLI Perintah*. 

### `stop-replication-to-replica`
<a name="secrets-manager_StopReplicationToReplica_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-replication-to-replica`.

**AWS CLI**  
**Untuk mempromosikan rahasia replika ke primer**  
`stop-replication-to-replica`Contoh berikut menghapus link antara rahasia replika ke primer. Rahasia replika dipromosikan menjadi rahasia utama di wilayah replika. Anda harus menelepon `stop-replication-to-replica` dari dalam wilayah replika.  

```
aws secretsmanager stop-replication-to-replica \
    --secret-id MyTestSecret
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3"
}
```
Untuk informasi selengkapnya, lihat [Mempromosikan rahasia replika](https://docs.aws.amazon.com/secretsmanager/latest/userguide/standalone-secret.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [StopReplicationToReplica](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/stop-replication-to-replica.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="secrets-manager_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan tag ke rahasia**  
Contoh berikut menunjukkan cara melampirkan tag dengan sintaks singkatan.  

```
aws secretsmanager tag-resource \
    --secret-id MyTestSecret \
    --tags Key=FirstTag,Value=FirstValue
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai rahasia Anda](https://docs.aws.amazon.com/secretsmanager/latest/userguide/managing-secrets_tagging.html) di *Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk menambahkan beberapa tag ke rahasia**  
`tag-resource`Contoh berikut melampirkan dua tag kunci-nilai ke rahasia.  

```
aws secretsmanager tag-resource \
    --secret-id MyTestSecret \
    --tags '[{"Key": "FirstTag", "Value": "FirstValue"}, {"Key": "SecondTag", "Value": "SecondValue"}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/managing-secrets_tagging.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="secrets-manager_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari rahasia**  
`untag-resource`Contoh berikut menghapus dua tag dari rahasia. Untuk setiap tag, kunci dan nilai dihapus.  

```
aws secretsmanager untag-resource \
    --secret-id MyTestSecret \
    --tag-keys '[ "FirstTag", "SecondTag"]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/managing-secrets_tagging.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-secret-version-stage`
<a name="secrets-manager_UpdateSecretVersionStage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-secret-version-stage`.

**AWS CLI**  
**Contoh 1: Untuk mengembalikan rahasia ke versi sebelumnya**  
`update-secret-version-stage`Contoh berikut memindahkan label pementasan AWS CURRENT ke versi rahasia sebelumnya, yang mengembalikan rahasia ke versi sebelumnya. Untuk menemukan ID untuk versi sebelumnya, gunakan`list-secret-version-ids`. Untuk contoh ini, versi dengan label CURRENT adalah a1b2c3d4-5678-90ab-cdef- dan versi dengan label AWS PREVIOUS adalah a1b2c3d4-5678-90ab-cdef-. EXAMPLE11111 AWS EXAMPLE22222 Dalam contoh ini, Anda memindahkan label AWS CURRENT dari versi 11111 ke 22222. Karena label AWS CURRENT dihapus dari versi, `update-secret-version-stage` secara otomatis memindahkan label AWS PREVIOUS ke versi tersebut (11111). Efeknya adalah versi AWS CURRENT dan AWS PREVIOUS ditukar.  

```
aws secretsmanager update-secret-version-stage \
    --secret-id MyTestSecret \
    --version-stage AWSCURRENT \
    --move-to-version-id a1b2c3d4-5678-90ab-cdef-EXAMPLE22222 \
    --remove-from-version-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Versi](https://docs.aws.amazon.com/secretsmanager/latest/userguide/getting-started.html#term_version) di *Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk menambahkan label pementasan yang dilampirkan ke versi rahasia**  
`update-secret-version-stage`Contoh berikut menambahkan label pementasan ke versi rahasia. Anda dapat meninjau hasilnya dengan menjalankan `list-secret-version-ids` dan melihat bidang `VersionStages` respons untuk versi yang terpengaruh.  

```
aws secretsmanager update-secret-version-stage \
    --secret-id MyTestSecret \
    --version-stage STAGINGLABEL1 \
    --move-to-version-id EXAMPLE1-90ab-cdef-fedc-ba987EXAMPLE
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Versi](https://docs.aws.amazon.com/secretsmanager/latest/userguide/getting-started.html#term_version) di *Panduan Pengguna Secrets Manager*.  
**Contoh 3: Untuk menghapus label pementasan yang dilampirkan ke versi rahasia**  
`update-secret-version-stage`Contoh berikut menghapus label pementasan yang dilampirkan ke versi rahasia. Anda dapat meninjau hasilnya dengan menjalankan `list-secret-version-ids` dan melihat bidang `VersionStages` respons untuk versi yang terpengaruh.  

```
aws secretsmanager update-secret-version-stage \
    --secret-id MyTestSecret \
    --version-stage STAGINGLABEL1 \
    --remove-from-version-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Versi](https://docs.aws.amazon.com/secretsmanager/latest/userguide/getting-started.html#term_version) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [UpdateSecretVersionStage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/update-secret-version-stage.html)di *Referensi AWS CLI Perintah*. 

### `update-secret`
<a name="secrets-manager_UpdateSecret_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-secret`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui deskripsi rahasia**  
`update-secret`Contoh berikut memperbarui deskripsi rahasia.  

```
aws secretsmanager update-secret \
    --secret-id MyTestSecret \
    --description "This is a new description for the secret."
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_update-secret.html) *di Panduan Pengguna Secrets Manager*.  
**Contoh 2: Untuk memperbarui kunci enkripsi yang terkait dengan rahasia**  
`update-secret`Contoh berikut memperbarui kunci KMS yang digunakan untuk mengenkripsi nilai rahasia. Kunci KMS harus berada di wilayah yang sama dengan rahasia.  

```
aws secretsmanager update-secret \
    --secret-id MyTestSecret \
    --kms-key-id arn:aws:kms:us-west-2:123456789012:key/EXAMPLE1-90ab-cdef-fedc-ba987EXAMPLE
```
Output:  

```
{
    "ARN": "arn:aws:secretsmanager:us-west-2:123456789012:secret:MyTestSecret-a1b2c3",
    "Name": "MyTestSecret"
}
```
Untuk informasi selengkapnya, lihat [Memodifikasi rahasia](https://docs.aws.amazon.com/secretsmanager/latest/userguide/manage_update-secret.html) *di Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [UpdateSecret](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/update-secret.html)di *Referensi AWS CLI Perintah*. 

### `validate-resource-policy`
<a name="secrets-manager_ValidateResourcePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`validate-resource-policy`.

**AWS CLI**  
**Untuk memvalidasi kebijakan sumber daya**  
`validate-resource-policy`Contoh berikut memeriksa bahwa kebijakan sumber daya tidak memberikan akses luas ke rahasia. Kebijakan dibaca dari file pada disk. Untuk informasi selengkapnya, lihat [Memuat parameter AWS CLI dari file](https://docs.aws.amazon.com/cli/latest/userguide/cli-usage-parameters-file.html) di Panduan Pengguna *AWS CLI*.  

```
aws secretsmanager validate-resource-policy \
    --resource-policy file://mypolicy.json
```
Isi dari `mypolicy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": {
                "AWS": "arn:aws:iam::123456789012:role/MyRole"
            },
            "Action": "secretsmanager:GetSecretValue",
            "Resource": "*"
        }
    ]
}
```
Output:  

```
{
    "PolicyValidationPassed": true,
    "ValidationErrors": []
}
```
Untuk informasi selengkapnya, lihat [Referensi izin untuk Secrets Manager](https://docs.aws.amazon.com/secretsmanager/latest/userguide/reference_iam-permissions.html) di *Panduan Pengguna Secrets Manager*.  
+  Untuk detail API, lihat [ValidateResourcePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/secretsmanager/validate-resource-policy.html)di *Referensi AWS CLI Perintah*. 

# Contoh CSPM Security Hub menggunakan AWS CLI
<a name="cli_2_securityhub_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan CSPM AWS Command Line Interface with Security Hub.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-administrator-invitation`
<a name="securityhub_AcceptAdministratorInvitation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-administrator-invitation`.

**AWS CLI**  
**Untuk menerima undangan dari akun administrator**  
`accept-administrator-invitation`Contoh berikut menerima undangan yang ditentukan dari akun administrator yang ditentukan.  

```
aws securityhub accept-invitation \
    --administrator-id 123456789012 \
    --invitation-id 7ab938c5d52d7904ad09f9e7c20cc4eb
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [AcceptAdministratorInvitation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/accept-administrator-invitation.html)di *Referensi AWS CLI Perintah*. 

### `accept-invitation`
<a name="securityhub_AcceptInvitation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-invitation`.

**AWS CLI**  
**Untuk menerima undangan dari akun administrator**  
`accept-invitation`Contoh berikut menerima undangan yang ditentukan dari akun administrator yang ditentukan.  

```
aws securityhub accept-invitation \
    --master-id 123456789012 \
    --invitation-id 7ab938c5d52d7904ad09f9e7c20cc4eb
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [AcceptInvitation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/accept-invitation.html)di *Referensi AWS CLI Perintah*. 

### `batch-delete-automation-rules`
<a name="securityhub_BatchDeleteAutomationRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-delete-automation-rules`.

**AWS CLI**  
**Untuk menghapus aturan otomatisasi**  
`batch-delete-automation-rules`Contoh berikut menghapus aturan otomatisasi yang ditentukan. Anda dapat menghapus satu atau beberapa aturan dengan satu perintah. Hanya akun administrator Security Hub yang dapat menjalankan perintah ini.  

```
aws securityhub batch-delete-automation-rules \
    --automation-rules-arns '["arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"]'
```
Output:  

```
{
    "ProcessedAutomationRules": [
        "arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    ],
    "UnprocessedAutomationRules": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus aturan otomatisasi](https://docs.aws.amazon.com/securityhub/latest/userguide/automation-rules.html#delete-automation-rules) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [BatchDeleteAutomationRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-delete-automation-rules.html)di *Referensi AWS CLI Perintah*. 

### `batch-disable-standards`
<a name="securityhub_BatchDisableStandards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-disable-standards`.

**AWS CLI**  
**Untuk menonaktifkan standar**  
`batch-disable-standards`Contoh berikut menonaktifkan standar yang terkait dengan ARN berlangganan yang ditentukan.  

```
aws securityhub batch-disable-standards \
    --standards-subscription-arns "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1"
```
Output:  

```
{
    "StandardsSubscriptions": [
        {
            "StandardsArn": "arn:aws:securityhub:eu-central-1::standards/pci-dss/v/3.2.1",
            "StandardsInput": { },
            "StandardsStatus": "DELETING",
            "StandardsSubscriptionArn": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menonaktifkan atau mengaktifkan standar keamanan](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards-enable-disable.html) di Panduan Pengguna *AWS Security Hub*.  
+  Untuk detail API, lihat [BatchDisableStandards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-disable-standards.html)di *Referensi AWS CLI Perintah*. 

### `batch-enable-standards`
<a name="securityhub_BatchEnableStandards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-enable-standards`.

**AWS CLI**  
**Untuk mengaktifkan standar**  
`batch-enable-standards`Contoh berikut memungkinkan standar PCI DSS untuk akun yang meminta.  

```
aws securityhub batch-enable-standards \
    --standards-subscription-requests '{"StandardsArn":"arn:aws:securityhub:us-west-1::standards/pci-dss/v/3.2.1"}'
```
Output:  

```
{
    "StandardsSubscriptions": [
        {
            "StandardsArn": "arn:aws:securityhub:us-west-1::standards/pci-dss/v/3.2.1",
            "StandardsInput": { },
            "StandardsStatus": "PENDING",
            "StandardsSubscriptionArn": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menonaktifkan atau mengaktifkan standar keamanan](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards-enable-disable.html) di Panduan Pengguna *AWS Security Hub*.  
+  Untuk detail API, lihat [BatchEnableStandards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-enable-standards.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-automation-rules`
<a name="securityhub_BatchGetAutomationRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-automation-rules`.

**AWS CLI**  
**Untuk mendapatkan detail untuk aturan otomatisasi**  
`batch-get-automation-rules`Contoh berikut mendapatkan rincian untuk aturan otomatisasi yang ditentukan. Anda bisa mendapatkan detail untuk satu atau lebih aturan otomatisasi dengan satu perintah.  

```
aws securityhub batch-get-automation-rules \
    --automation-rules-arns '["arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"]'
```
Output:  

```
{
    "Rules": [
        {
            "RuleArn": "arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "RuleStatus": "ENABLED",
            "RuleOrder": 1,
            "RuleName": "Suppress informational findings",
            "Description": "Suppress GuardDuty findings with Informational severity",
            "IsTerminal": false,
            "Criteria": {
                "ProductName": [
                    {
                        "Value": "GuardDuty",
                        "Comparison": "EQUALS"
                    }
                ],
                "SeverityLabel": [
                    {
                        "Value": "INFORMATIONAL",
                        "Comparison": "EQUALS"
                    }
                ],
                "WorkflowStatus": [
                    {
                        "Value": "NEW",
                        "Comparison": "EQUALS"
                    }
                ],
                "RecordState": [
                    {
                        "Value": "ACTIVE",
                        "Comparison": "EQUALS"
                    }
                ]
            },
            "Actions": [
                {
                    "Type": "FINDING_FIELDS_UPDATE",
                    "FindingFieldsUpdate": {
                        "Note": {
                            "Text": "Automatically suppress GuardDuty findings with Informational severity",
                            "UpdatedBy": "sechub-automation"
                        },
                        "Workflow": {
                            "Status": "SUPPRESSED"
                        }
                    }
                }
            ],
            "CreatedAt": "2023-05-31T17:56:14.837000+00:00",
            "UpdatedAt": "2023-05-31T17:59:38.466000+00:00",
            "CreatedBy": "arn:aws:iam::123456789012:role/Admin"
        }
    ],
    "UnprocessedAutomationRules": []
}
```
Untuk informasi selengkapnya, lihat [Melihat aturan otomatisasi](https://docs.aws.amazon.com/securityhub/latest/userguide/automation-rules.html#view-automation-rules) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [BatchGetAutomationRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-get-automation-rules.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-configuration-policy-associations`
<a name="securityhub_BatchGetConfigurationPolicyAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-configuration-policy-associations`.

**AWS CLI**  
**Untuk mendapatkan detail asosiasi konfigurasi untuk sejumlah target**  
`batch-get-configuration-policy-associations`Contoh berikut mengambil rincian asosiasi untuk target yang ditentukan. Anda dapat memberikan akun IDs, unit organisasi IDs, atau ID root untuk target.  

```
aws securityhub batch-get-configuration-policy-associations \
    --target '{"OrganizationalUnitId": "ou-6hi7-8j91kl2m"}'
```
Output:  

```
{
    "ConfigurationPolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
    "TargetId": "ou-6hi7-8j91kl2m",
    "TargetType": "ORGANIZATIONAL_UNIT",
    "AssociationType": "APPLIED",
    "UpdatedAt": "2023-09-26T21:13:01.816000+00:00",
    "AssociationStatus": "SUCCESS",
    "AssociationStatusMessage": "Association applied successfully on this target."
}
```
Untuk informasi selengkapnya, lihat [Melihat kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/view-policy.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [BatchGetConfigurationPolicyAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-get-configuration-policy-associations.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-security-controls`
<a name="securityhub_BatchGetSecurityControls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-security-controls`.

**AWS CLI**  
**Untuk mendapatkan detail kontrol keamanan**  
`batch-get-security-controls`Contoh berikut mendapatkan rincian untuk kontrol keamanan ACM.1 dan IAM.1 di akun saat ini dan Wilayah. AWS AWS   

```
aws securityhub batch-get-security-controls \
    --security-control-ids '["ACM.1", "IAM.1"]'
```
Output:  

```
{
    "SecurityControls": [
        {
            "SecurityControlId": "ACM.1",
            "SecurityControlArn": "arn:aws:securityhub:us-east-2:123456789012:security-control/ACM.1",
            "Title": "Imported and ACM-issued certificates should be renewed after a specified time period",
            "Description": "This control checks whether an AWS Certificate Manager (ACM) certificate is renewed within the specified time period. It checks both imported certificates and certificates provided by ACM. The control fails if the certificate isn't renewed within the specified time period. Unless you provide a custom parameter value for the renewal period, Security Hub uses a default value of 30 days.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/ACM.1/remediation",
            "SeverityRating": "MEDIUM",
            "SecurityControlStatus": "ENABLED"
            "UpdateStatus": "READY",
            "Parameters": {
                "daysToExpiration": {
                    "ValueType": CUSTOM,
                    "Value": {
                        "Integer": 15
                    }
                }
            },
            "LastUpdateReason": "Updated control parameter"
        },
        {
            "SecurityControlId": "IAM.1",
            "SecurityControlArn": "arn:aws:securityhub:us-east-2:123456789012:security-control/IAM.1",
            "Title": "IAM policies should not allow full \"*\" administrative privileges",
            "Description": "This AWS control checks whether the default version of AWS Identity and Access Management (IAM) policies (also known as customer managed policies) do not have administrator access with a statement that has \"Effect\": \"Allow\" with \"Action\": \"*\" over \"Resource\": \"*\". It only checks for the Customer Managed Policies that you created, but not inline and AWS Managed Policies.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/IAM.1/remediation",
            "SeverityRating": "HIGH",
            "SecurityControlStatus": "ENABLED"
            "UpdateStatus": "READY",
            "Parameters": {}
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat detail untuk kontrol](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards-control-details.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [BatchGetSecurityControls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-get-security-controls.html)di *Referensi AWS CLI Perintah*. 

### `batch-get-standards-control-associations`
<a name="securityhub_BatchGetStandardsControlAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-get-standards-control-associations`.

**AWS CLI**  
**Untuk mendapatkan status pemberdayaan kontrol**  
`batch-get-standards-control-associations`Contoh berikut mengidentifikasi apakah kontrol yang ditentukan diaktifkan dalam standar yang ditentukan.  

```
aws securityhub batch-get-standards-control-associations \
    --standards-control-association-ids '[{"SecurityControlId": "Config.1","StandardsArn": "arn:aws:securityhub:us-east-1:123456789012:ruleset/cis-aws-foundations-benchmark/v/1.2.0"}, {"SecurityControlId": "IAM.6","StandardsArn": "arn:aws:securityhub:us-east-1:123456789012:standards/aws-foundational-security-best-practices/v/1.0.0"}]'
```
Output:  

```
{
    "StandardsControlAssociationDetails": [
        {
            "StandardsArn": "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0",
            "SecurityControlId": "Config.1",
            "SecurityControlArn": "arn:aws:securityhub:us-east-1:068873283051:security-control/Config.1",
            "AssociationStatus": "ENABLED",
            "RelatedRequirements": [
                "CIS AWS Foundations 2.5"
            ],
            "UpdatedAt": "2022-10-27T16:07:12.960000+00:00",
            "StandardsControlTitle": "Ensure AWS Config is enabled",
            "StandardsControlDescription": "AWS Config is a web service that performs configuration management of supported AWS resources within your account and delivers log files to you. The recorded information includes the configuration item (AWS resource), relationships between configuration items (AWS resources), and any configuration changes between resources. It is recommended to enable AWS Config in all regions.",
            "StandardsControlArns": [
                "arn:aws:securityhub:us-east-1:068873283051:control/cis-aws-foundations-benchmark/v/1.2.0/2.5"
            ]
        },
        {
            "StandardsArn": "arn:aws:securityhub:us-east-1::standards/aws-foundational-security-best-practices/v/1.0.0",
            "SecurityControlId": "IAM.6",
            "SecurityControlArn": "arn:aws:securityhub:us-east-1:068873283051:security-control/IAM.6",
            "AssociationStatus": "DISABLED",
            "RelatedRequirements": [],
            "UpdatedAt": "2022-11-22T21:30:35.080000+00:00",
            "UpdatedReason": "test",
            "StandardsControlTitle": "Hardware MFA should be enabled for the root user",
            "StandardsControlDescription": "This AWS control checks whether your AWS account is enabled to use a hardware multi-factor authentication (MFA) device to sign in with root user credentials.",
            "StandardsControlArns": [
                "arn:aws:securityhub:us-east-1:068873283051:control/aws-foundational-security-best-practices/v/1.0.0/IAM.6"
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan dan menonaktifkan kontrol dalam standar tertentu di Panduan Pengguna AWS](https://docs.aws.amazon.com/securityhub/latest/userguide/controls-configure.html) *Security Hub*.  
+  Untuk detail API, lihat [BatchGetStandardsControlAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-get-standards-control-associations.html)di *Referensi AWS CLI Perintah*. 

### `batch-import-findings`
<a name="securityhub_BatchImportFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-import-findings`.

**AWS CLI**  
**Untuk memperbarui temuan**  
`batch-import-findings`Contoh berikut memperbarui temuan.  

```
aws securityhub batch-import-findings \
     --findings '
        [{
            "AwsAccountId": "123456789012",
            "CreatedAt": "2020-05-27T17:05:54.832Z",
            "Description": "Vulnerability in a CloudTrail trail",
            "FindingProviderFields": {
                "Severity": {
                    "Label": "LOW",
                    "Original": "10"
                },
                "Types": [
                    "Software and Configuration Checks/Vulnerabilities/CVE"
                ]
            },
            "GeneratorId": "TestGeneratorId",
            "Id": "Id1",
            "ProductArn": "arn:aws:securityhub:us-west-1:123456789012:product/123456789012/default",
            "Resources": [
                {
                    "Id": "arn:aws:cloudtrail:us-west-1:123456789012:trail/TrailName",
                    "Partition": "aws",
                    "Region": "us-west-1",
                    "Type": "AwsCloudTrailTrail"
                }
            ],
            "SchemaVersion": "2018-10-08",
            "Title": "CloudTrail trail vulnerability",
            "UpdatedAt": "2020-06-02T16:05:54.832Z"
        }]'
```
Output:  

```
{
    "FailedCount": 0,
    "SuccessCount": 1,
    "FailedFindings": []
}
```
Untuk informasi selengkapnya, lihat [Menggunakan BatchImportFindings untuk membuat dan memperbarui temuan](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-update-batchimportfindings.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [BatchImportFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-import-findings.html)di *Referensi AWS CLI Perintah*. 

### `batch-update-automation-rules`
<a name="securityhub_BatchUpdateAutomationRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-update-automation-rules`.

**AWS CLI**  
**Untuk memperbarui aturan otomatisasi**  
`batch-update-automation-rules`Contoh berikut memperbarui aturan otomatisasi yang ditentukan. Anda dapat memperbarui satu atau beberapa aturan dengan satu perintah. Hanya akun administrator Security Hub yang dapat menjalankan perintah ini.  

```
aws securityhub batch-update-automation-rules \
    --update-automation-rules-request-items '[ \
        { \
            "Actions": [{ \
                "Type": "FINDING_FIELDS_UPDATE", \
                "FindingFieldsUpdate": { \
                    "Note": { \
                        "Text": "Known issue that is a risk", \
                        "UpdatedBy": "sechub-automation" \
                    }, \
                    "Workflow": { \
                        "Status": "NEW" \
                    } \
                } \
            }], \
            "Criteria": { \
                "SeverityLabel": [{ \
                    "Value": "LOW", \
                    "Comparison": "EQUALS" \
                }] \
            }, \
            "RuleArn": "arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111", \
            "RuleOrder": 1, \
            "RuleStatus": "DISABLED" \
        } \
    ]'
```
Output:  

```
{
    "ProcessedAutomationRules": [
        "arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    ],
    "UnprocessedAutomationRules": []
}
```
Untuk informasi selengkapnya, lihat [Mengedit aturan otomatisasi](https://docs.aws.amazon.com/securityhub/latest/userguide/automation-rules.html#edit-automation-rules) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [BatchUpdateAutomationRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-update-automation-rules.html)di *Referensi AWS CLI Perintah*. 

### `batch-update-findings`
<a name="securityhub_BatchUpdateFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-update-findings`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui temuan**  
`batch-update-findings`Contoh berikut memperbarui dua temuan untuk menambahkan catatan, mengubah label keparahan, dan menyelesaikannya.  

```
aws securityhub batch-update-findings \
    --finding-identifiers '[{"Id": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111", "ProductArn": "arn:aws:securityhub:us-west-1::product/aws/securityhub"}, {"Id": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222", "ProductArn": "arn:aws:securityhub:us-west-1::product/aws/securityhub"}]' \
    --note '{"Text": "Known issue that is not a risk.", "UpdatedBy": "user1"}' \
    --severity '{"Label": "LOW"}' \
    --workflow '{"Status": "RESOLVED"}'
```
Output:  

```
{
    "ProcessedFindings": [
        {
            "Id": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "ProductArn": "arn:aws:securityhub:us-west-1::product/aws/securityhub"
        },
        {
            "Id": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "ProductArn": "arn:aws:securityhub:us-west-1::product/aws/securityhub"
        }
    ],
    "UnprocessedFindings": []
}
```
Untuk informasi selengkapnya, lihat [Menggunakan BatchUpdateFindings untuk memperbarui temuan](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-update-batchupdatefindings.html) di *Panduan Pengguna AWS Security Hub*.  
**Contoh 2: Untuk memperbarui temuan menggunakan sintaks singkatan**  
`batch-update-findings`Contoh berikut memperbarui dua temuan untuk menambahkan catatan, mengubah label keparahan, dan menyelesaikannya menggunakan sintaks singkatan.  

```
aws securityhub batch-update-findings \
    --finding-identifiers Id="arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",ProductArn="arn:aws:securityhub:us-west-1::product/aws/securityhub" Id="arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",ProductArn="arn:aws:securityhub:us-west-1::product/aws/securityhub" \
    --note Text="Known issue that is not a risk.",UpdatedBy="user1" \
    --severity Label="LOW" \
    --workflow Status="RESOLVED"
```
Output:  

```
{
    "ProcessedFindings": [
        {
            "Id": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "ProductArn": "arn:aws:securityhub:us-west-1::product/aws/securityhub"
        },
        {
            "Id": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "ProductArn": "arn:aws:securityhub:us-west-1::product/aws/securityhub"
        }
    ],
    "UnprocessedFindings": []
}
```
Untuk informasi selengkapnya, lihat [Menggunakan BatchUpdateFindings untuk memperbarui temuan](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-update-batchupdatefindings.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [BatchUpdateFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-update-findings.html)di *Referensi AWS CLI Perintah*. 

### `batch-update-standards-control-associations`
<a name="securityhub_BatchUpdateStandardsControlAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-update-standards-control-associations`.

**AWS CLI**  
**Untuk memperbarui status pemberdayaan kontrol dalam standar yang diaktifkan**  
`batch-update-standards-control-associations`Contoh berikut menonaktifkan CloudTrail .1 dalam standar yang ditentukan.  

```
aws securityhub batch-update-standards-control-associations \
    --standards-control-association-updates '[{"SecurityControlId": "CloudTrail.1", "StandardsArn": "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0", "AssociationStatus": "DISABLED", "UpdatedReason": "Not applicable to environment"}, {"SecurityControlId": "CloudTrail.1", "StandardsArn": "arn:aws:securityhub:::standards/cis-aws-foundations-benchmark/v/1.4.0", "AssociationStatus": "DISABLED", "UpdatedReason": "Not applicable to environment"}]'
```
Perintah ini tidak menghasilkan output saat berhasil.  
*Untuk informasi selengkapnya, lihat [Mengaktifkan dan menonaktifkan kontrol dalam standar tertentu](https://docs.aws.amazon.com/securityhub/latest/userguide/controls-configure.html) serta [Mengaktifkan dan menonaktifkan kontrol di semua standar dalam Panduan Pengguna Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards-enable-disable-controls.html).AWS *  
+  Untuk detail API, lihat [BatchUpdateStandardsControlAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/batch-update-standards-control-associations.html)di *Referensi AWS CLI Perintah*. 

### `create-action-target`
<a name="securityhub_CreateActionTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-action-target`.

**AWS CLI**  
**Untuk membuat tindakan kustom**  
`create-action-target`Contoh berikut membuat tindakan kustom. Ini memberikan nama, deskripsi, dan pengidentifikasi untuk tindakan tersebut.  

```
aws securityhub create-action-target \
    --name "Send to remediation" \
    --description "Action to send the finding for remediation tracking" \
    --id "Remediation"
```
Output:  

```
{
    "ActionTargetArn": "arn:aws:securityhub:us-west-1:123456789012:action/custom/Remediation"
}
```
Untuk informasi selengkapnya, lihat [Membuat tindakan kustom dan mengaitkannya dengan aturan CloudWatch Peristiwa](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-cloudwatch-events.html#securityhub-cwe-configure) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [CreateActionTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/create-action-target.html)di *Referensi AWS CLI Perintah*. 

### `create-automation-rule`
<a name="securityhub_CreateAutomationRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-automation-rule`.

**AWS CLI**  
**Untuk membuat aturan otomatisasi**  
`create-automation-rule`Contoh berikut membuat aturan otomatisasi di AWS akun saat ini dan AWS Wilayah. Security Hub memfilter temuan Anda berdasarkan kriteria yang ditentukan dan menerapkan tindakan pada temuan yang cocok. Hanya akun administrator Security Hub yang dapat menjalankan perintah ini.  

```
aws securityhub create-automation-rule \
    --actions '[{ \
        "Type": "FINDING_FIELDS_UPDATE", \
        "FindingFieldsUpdate": { \
            "Severity": { \
                "Label": "HIGH" \
            }, \
            "Note": { \
                "Text": "Known issue that is a risk. Updated by automation rules", \
                "UpdatedBy": "sechub-automation" \
            } \
        } \
    }]' \
    --criteria '{ \
        "SeverityLabel": [{ \
            "Value": "INFORMATIONAL", \
            "Comparison": "EQUALS" \
        }] \
    }' \
    --description "A sample rule" \
    --no-is-terminal \
    --rule-name "sample rule" \
    --rule-order 1 \
    --rule-status "ENABLED"
```
Output:  

```
{
    "RuleArn": "arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Membuat aturan otomatisasi](https://docs.aws.amazon.com/securityhub/latest/userguide/automation-rules.html#create-automation-rules) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [CreateAutomationRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/create-automation-rule.html)di *Referensi AWS CLI Perintah*. 

### `create-configuration-policy`
<a name="securityhub_CreateConfigurationPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-configuration-policy`.

**AWS CLI**  
**Untuk membuat kebijakan konfigurasi**  
`create-configuration-policy`Contoh berikut membuat kebijakan konfigurasi dengan pengaturan yang ditentukan.  

```
aws securityhub create-configuration-policy \
    --name "SampleConfigurationPolicy" \
    --description "SampleDescription" \
    --configuration-policy '{"SecurityHub": {"ServiceEnabled": true, "EnabledStandardIdentifiers": ["arn:aws:securityhub:eu-central-1::standards/aws-foundational-security-best-practices/v/1.0.0","arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0"],"SecurityControlsConfiguration":{"DisabledSecurityControlIdentifiers": ["CloudTrail.2"], "SecurityControlCustomParameters": [{"SecurityControlId": "ACM.1", "Parameters": {"daysToExpiration": {"ValueType": "CUSTOM", "Value": {"Integer": 15}}}}]}}}' \
    --tags '{"Environment": "Prod"}'
```
Output:  

```
{
    "Arn": "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "Name": "SampleConfigurationPolicy",
    "Description": "SampleDescription",
    "UpdatedAt": "2023-11-28T20:28:04.494000+00:00",
    "CreatedAt": "2023-11-28T20:28:04.494000+00:00",
    "ConfigurationPolicy": {
        "SecurityHub": {
            "ServiceEnabled": true,
            "EnabledStandardIdentifiers": [
                "arn:aws:securityhub:eu-central-1::standards/aws-foundational-security-best-practices/v/1.0.0",
                "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0"
            ],
            "SecurityControlsConfiguration": {
                "DisabledSecurityControlIdentifiers": [
                    "CloudTrail.2"
                ],
                "SecurityControlCustomParameters": [
                    {
                        "SecurityControlId": "ACM.1",
                        "Parameters": {
                            "daysToExpiration": {
                                "ValueType": "CUSTOM",
                                "Value": {
                                    "Integer": 15
                                }
                            }
                        }
                    }
                ]
            }
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat dan mengaitkan kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/create-associate-policy.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [CreateConfigurationPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/create-configuration-policy.html)di *Referensi AWS CLI Perintah*. 

### `create-finding-aggregator`
<a name="securityhub_CreateFindingAggregator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-finding-aggregator`.

**AWS CLI**  
**Untuk mengaktifkan menemukan agregasi**  
`create-finding-aggregator`Contoh berikut mengkonfigurasi agregasi pencarian. Dijalankan dari US East (Virginia), yang menunjuk US East (Virginia) sebagai Wilayah agregasi. Ini menunjukkan untuk hanya menautkan Wilayah tertentu, dan untuk tidak secara otomatis menautkan Wilayah baru. Ini memilih AS Barat (California N.) dan AS Barat (Oregon) sebagai Wilayah terkait.  

```
aws securityhub create-finding-aggregator \
    --region us-east-1 \
    --region-linking-mode SPECIFIED_REGIONS \
    --regions us-west-1,us-west-2
```
Output:  

```
{
    "FindingAggregatorArn": "arn:aws:securityhub:us-east-1:222222222222:finding-aggregator/123e4567-e89b-12d3-a456-426652340000",
    "FindingAggregationRegion": "us-east-1",
    "RegionLinkingMode": "SPECIFIED_REGIONS",
    "Regions": "us-west-1,us-west-2"
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan agregasi pencarian](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-aggregation-enable.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [CreateFindingAggregator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/create-finding-aggregator.html)di *Referensi AWS CLI Perintah*. 

### `create-insight`
<a name="securityhub_CreateInsight_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-insight`.

**AWS CLI**  
**Untuk membuat wawasan khusus**  
`create-insight`Contoh berikut menciptakan wawasan khusus bernama Temuan peran kritis yang mengembalikan temuan penting yang terkait dengan AWS peran.  

```
aws securityhub create-insight \
    --filters '{"ResourceType": [{ "Comparison": "EQUALS", "Value": "AwsIamRole"}], "SeverityLabel": [{"Comparison": "EQUALS", "Value": "CRITICAL"}]}' \
    --group-by-attribute "ResourceId" \
    --name "Critical role findings"
```
Output:  

```
{
    "InsightArn": "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Mengelola wawasan khusus](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-custom-insights.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [CreateInsight](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/create-insight.html)di *Referensi AWS CLI Perintah*. 

### `create-members`
<a name="securityhub_CreateMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-members`.

**AWS CLI**  
**Untuk menambahkan akun sebagai akun anggota**  
`create-members`Contoh berikut menambahkan dua akun sebagai akun anggota ke akun administrator yang meminta.  

```
aws securityhub create-members \
    --account-details '[{"AccountId": "123456789111"}, {"AccountId": "123456789222"}]'
```
Output:  

```
{
    "UnprocessedAccounts": []
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [CreateMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/create-members.html)di *Referensi AWS CLI Perintah*. 

### `decline-invitations`
<a name="securityhub_DeclineInvitations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decline-invitations`.

**AWS CLI**  
**Untuk menolak undangan menjadi akun anggota**  
`decline-invitations`Contoh berikut menolak undangan untuk menjadi akun anggota dari akun administrator yang ditentukan. Akun anggota adalah akun yang meminta.  

```
aws securityhub decline-invitations \
    --account-ids "123456789012"
```
Output:  

```
{
    "UnprocessedAccounts": []
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DeclineInvitations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/decline-invitations.html)di *Referensi AWS CLI Perintah*. 

### `delete-action-target`
<a name="securityhub_DeleteActionTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-action-target`.

**AWS CLI**  
**Untuk menghapus tindakan kustom**  
`delete-action-target`Contoh berikut menghapus tindakan kustom yang diidentifikasi oleh ARN yang ditentukan.  

```
aws securityhub delete-action-target \
    --action-target-arn "arn:aws:securityhub:us-west-1:123456789012:action/custom/Remediation"
```
Output:  

```
{
    "ActionTargetArn": "arn:aws:securityhub:us-west-1:123456789012:action/custom/Remediation"
}
```
Untuk informasi selengkapnya, lihat [Membuat tindakan kustom dan mengaitkannya dengan aturan CloudWatch Peristiwa](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-cloudwatch-events.html#securityhub-cwe-configure) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DeleteActionTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/delete-action-target.html)di *Referensi AWS CLI Perintah*. 

### `delete-configuration-policy`
<a name="securityhub_DeleteConfigurationPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-configuration-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan konfigurasi**  
`delete-configuration-policy`Contoh berikut menghapus kebijakan konfigurasi yang ditentukan.  

```
aws securityhub delete-configuration-policy \
    --identifier "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus dan melepaskan kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/delete-disassociate-policy.html) di Panduan Pengguna *AWS Security Hub*.  
+  Untuk detail API, lihat [DeleteConfigurationPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/delete-configuration-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-finding-aggregator`
<a name="securityhub_DeleteFindingAggregator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-finding-aggregator`.

**AWS CLI**  
**Untuk berhenti menemukan agregasi**  
`delete-finding-aggregator`Contoh berikut berhenti menemukan agregasi. Dijalankan dari US East (Virginia), yang merupakan Wilayah agregasi.  

```
aws securityhub delete-finding-aggregator \
    --region us-east-1 \
    --finding-aggregator-arn arn:aws:securityhub:us-east-1:222222222222:finding-aggregator/123e4567-e89b-12d3-a456-426652340000
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Berhenti menemukan agregasi](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-aggregation-stop.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DeleteFindingAggregator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/delete-finding-aggregator.html)di *Referensi AWS CLI Perintah*. 

### `delete-insight`
<a name="securityhub_DeleteInsight_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-insight`.

**AWS CLI**  
**Untuk menghapus wawasan kustom**  
`delete-insight`Contoh berikut menghapus wawasan kustom dengan ARN yang ditentukan.  

```
aws securityhub delete-insight \
    --insight-arn "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
```
Output:  

```
{
   "InsightArn": "arn:aws:securityhub:eu-central-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Mengelola wawasan khusus](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-custom-insights.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DeleteInsight](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/delete-insight.html)di *Referensi AWS CLI Perintah*. 

### `delete-invitations`
<a name="securityhub_DeleteInvitations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-invitations`.

**AWS CLI**  
**Untuk menghapus undangan untuk menjadi akun anggota**  
`delete-invitations`Contoh berikut menghapus undangan untuk menjadi akun anggota untuk akun administrator yang ditentukan. Akun anggota adalah akun yang meminta.  

```
aws securityhub delete-invitations \
    --account-ids "123456789012"
```
Output:  

```
{
    "UnprocessedAccounts": []
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DeleteInvitations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/delete-invitations.html)di *Referensi AWS CLI Perintah*. 

### `delete-members`
<a name="securityhub_DeleteMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-members`.

**AWS CLI**  
**Untuk menghapus akun anggota**  
`delete-members`Contoh berikut menghapus akun anggota yang ditentukan dari akun administrator yang meminta.  

```
aws securityhub delete-members \
    --account-ids "123456789111" "123456789222"
```
Output:  

```
{
    "UnprocessedAccounts": []
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DeleteMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/delete-members.html)di *Referensi AWS CLI Perintah*. 

### `describe-action-targets`
<a name="securityhub_DescribeActionTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-action-targets`.

**AWS CLI**  
**Untuk mengambil detail tentang tindakan kustom**  
`describe-action-targets`Contoh berikut mengambil informasi tentang tindakan kustom yang diidentifikasi oleh ARN yang ditentukan.  

```
aws securityhub describe-action-targets \
    --action-target-arns "arn:aws:securityhub:us-west-1:123456789012:action/custom/Remediation"
```
Output:  

```
{
    "ActionTargets": [
        {
            "ActionTargetArn": "arn:aws:securityhub:us-west-1:123456789012:action/custom/Remediation",
            "Description": "Action to send the finding for remediation tracking",
            "Name": "Send to remediation"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membuat tindakan kustom dan mengaitkannya dengan aturan CloudWatch Peristiwa](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-cloudwatch-events.html#securityhub-cwe-configure) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DescribeActionTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/describe-action-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-hub`
<a name="securityhub_DescribeHub_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-hub`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang sumber daya hub**  
`describe-hub`Contoh berikut mengembalikan tanggal berlangganan dan pengaturan konfigurasi lainnya untuk sumber daya hub yang ditentukan. Sumber daya hub diidentifikasi oleh ARN-nya.  

```
aws securityhub describe-hub \
    --hub-arn "arn:aws:securityhub:us-west-1:123456789012:hub/default"
```
Output:  

```
{
    "HubArn": "arn:aws:securityhub:us-west-1:123456789012:hub/default",
    "SubscribedAt": "2019-11-19T23:15:10.046Z",
    "AutoEnableControls": true,
    "ControlFindingGenerator": "SECURITY_CONTROL"
}
```
Untuk informasi selengkapnya, lihat [AWS:SecurityHub:: :Hub](https://docs.aws.amazon.com/AWSCloudFormation/latest/TemplateReference/aws-resource-securityhub-hub.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [DescribeHub](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/describe-hub.html)di *Referensi AWS CLI Perintah*. 

### `describe-organization-configuration`
<a name="securityhub_DescribeOrganizationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-organization-configuration`.

**AWS CLI**  
**Untuk melihat cara Security Hub dikonfigurasi untuk organisasi**  
`describe-organization-configuration`Contoh berikut menampilkan informasi tentang cara organisasi dikonfigurasi di Security Hub. Dalam contoh ini, organisasi menggunakan konfigurasi pusat. Hanya akun administrator Security Hub yang dapat menjalankan perintah ini.  

```
aws securityhub describe-organization-configuration
```
Output:  

```
{
    "AutoEnable": false,
    "MemberAccountLimitReached": false,
    "AutoEnableStandards": "NONE",
    "OrganizationConfiguration": {
        "ConfigurationType": "LOCAL",
        "Status": "ENABLED",
        "StatusMessage": "Central configuration has been enabled successfully"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun dengan AWS Organizations](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts-orgs.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DescribeOrganizationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/describe-organization-configuration.html)di *Referensi AWS CLI Perintah*. 

### `describe-products`
<a name="securityhub_DescribeProducts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-products`.

**AWS CLI**  
**Untuk mengembalikan informasi tentang integrasi produk yang tersedia**  
`describe-products`Contoh berikut mengembalikan integrasi produk yang tersedia satu per satu.  

```
aws securityhub describe-products \
    --max-results 1
```
Output:  

```
{
    "NextToken": "U2FsdGVkX18vvPlOqb7RDrWRWVFBJI46MOIAb+nZmRJmR15NoRi2gm13sdQEn3O/pq/78dGs+bKpgA+7HMPHO0qX33/zoRI+uIG/F9yLNhcOrOWzFUdy36JcXLQji3Rpnn/cD1SVkGA98qI3zPOSDg==",
    "Products": [
        {
            "ProductArn": "arn:aws:securityhub:us-west-1:123456789333:product/crowdstrike/crowdstrike-falcon",
            "ProductName": "CrowdStrike Falcon",
            "CompanyName": "CrowdStrike",
            "Description": "CrowdStrike Falcon's single lightweight sensor unifies next-gen antivirus, endpoint detection and response, and 24/7 managed hunting, via the cloud.",
            "Categories": [
                "Endpoint Detection and Response (EDR)",
                "AV Scanning and Sandboxing",
                "Threat Intelligence Feeds and Reports",
                "Endpoint Forensics",
                "Network Forensics"
            ],
            "IntegrationTypes": [
                "SEND_FINDINGS_TO_SECURITY_HUB"
            ],
            "MarketplaceUrl": "https://aws.amazon.com/marketplace/seller-profile?id=a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "ActivationUrl": "https://falcon.crowdstrike.com/support/documentation",
            "ProductSubscriptionResourcePolicy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"123456789333\"},\"Action\":[\"securityhub:BatchImportFindings\"],\"Resource\":\"arn:aws:securityhub:us-west-1:123456789012:product-subscription/crowdstrike/crowdstrike-falcon\",\"Condition\":{\"StringEquals\":{\"securityhub:TargetAccount\":\"123456789012\"}}},{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"123456789012\"},\"Action\":[\"securityhub:BatchImportFindings\"],\"Resource\":\"arn:aws:securityhub:us-west-1:123456789333:product/crowdstrike/crowdstrike-falcon\",\"Condition\":{\"StringEquals\":{\"securityhub:TargetAccount\":\"123456789012\"}}}]}"
        }
   ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola integrasi produk](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-integrations-managing.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DescribeProducts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/describe-products.html)di *Referensi AWS CLI Perintah*. 

### `describe-standards-controls`
<a name="securityhub_DescribeStandardsControls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-standards-controls`.

**AWS CLI**  
**Untuk meminta daftar kontrol dalam standar yang diaktifkan**  
`describe-standards-controls`Contoh berikut meminta daftar kontrol dalam langganan akun pemohon ke standar PCI DSS. Permintaan mengembalikan dua kontrol sekaligus.  

```
aws securityhub describe-standards-controls \
    --standards-subscription-arn "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1" \
    --max-results 2
```
Output:  

```
{
    "Controls": [
        {
            "StandardsControlArn": "arn:aws:securityhub:us-west-1:123456789012:control/pci-dss/v/3.2.1/PCI.AutoScaling.1",
            "ControlStatus": "ENABLED",
            "ControlStatusUpdatedAt": "2020-05-15T18:49:04.473000+00:00",
            "ControlId": "PCI.AutoScaling.1",
            "Title": "Auto scaling groups associated with a load balancer should use health checks",
            "Description": "This AWS control checks whether your Auto Scaling groups that are associated with a load balancer are using Elastic Load Balancing health checks.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/PCI.AutoScaling.1/remediation",
            "SeverityRating": "LOW",
            "RelatedRequirements": [
                "PCI DSS 2.2"
            ]
        },
        {
            "StandardsControlArn": "arn:aws:securityhub:us-west-1:123456789012:control/pci-dss/v/3.2.1/PCI.CW.1",
            "ControlStatus": "ENABLED",
            "ControlStatusUpdatedAt": "2020-05-15T18:49:04.498000+00:00",
            "ControlId": "PCI.CW.1",
            "Title": "A log metric filter and alarm should exist for usage of the \"root\" user",
            "Description": "This control checks for the CloudWatch metric filters using the following pattern { $.userIdentity.type = \"Root\" && $.userIdentity.invokedBy NOT EXISTS && $.eventType != \"AwsServiceEvent\" } It checks that the log group name is configured for use with active multi-region CloudTrail, that there is at least one Event Selector for a Trail with IncludeManagementEvents set to true and ReadWriteType set to All, and that there is at least one active subscriber to an SNS topic associated with the alarm.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/PCI.CW.1/remediation",
            "SeverityRating": "MEDIUM",
            "RelatedRequirements": [
                "PCI DSS 7.2.1"
            ]
        }
    ],
    "NextToken": "U2FsdGVkX1+eNkPoZHVl11ip5HUYQPWSWZGmftcmJiHL8JoKEsCDuaKayiPDyLK+LiTkShveoOdvfxXCkOBaGhohIXhsIedN+LSjQV/l7kfCfJcq4PziNC1N9xe9aq2pjlLVZnznTfSImrodT5bRNHe4fELCQq/z+5ka+5Lzmc11axcwTd5lKgQyQqmUVoeriHZhyIiBgWKf7oNYdBVG8OEortVWvSkoUTt+B2ThcnC7l43kI0UNxlkZ6sc64AsW"
}
```
Untuk informasi selengkapnya, lihat [Melihat detail untuk kontrol](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards-view-controls.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DescribeStandardsControls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/describe-standards-controls.html)di *Referensi AWS CLI Perintah*. 

### `describe-standards`
<a name="securityhub_DescribeStandards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-standards`.

**AWS CLI**  
**Untuk mengembalikan daftar standar yang tersedia**  
`describe-standards`Contoh berikut mengembalikan daftar standar yang tersedia.  

```
aws securityhub describe-standards
```
Output:  

```
{
    "Standards": [
        {
            "StandardsArn": "arn:aws:securityhub:us-west-1::standards/aws-foundational-security-best-practices/v/1.0.0",
            "Name": "AWS Foundational Security Best Practices v1.0.0",
            "Description": "The AWS Foundational Security Best Practices standard is a set of automated security checks that detect when AWS accounts and deployed resources do not align to security best practices. The standard is defined by AWS security experts. This curated set of controls helps improve your security posture in AWS, and cover AWS's most popular and foundational services.",
            "EnabledByDefault": true
        },
        {
            "StandardsArn": "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0",
            "Name": "CIS AWS Foundations Benchmark v1.2.0",
            "Description": "The Center for Internet Security (CIS) AWS Foundations Benchmark v1.2.0 is a set of security configuration best practices for AWS. This Security Hub standard automatically checks for your compliance readiness against a subset of CIS requirements.",
            "EnabledByDefault": true
        },
        {
            "StandardsArn": "arn:aws:securityhub:us-west-1::standards/pci-dss/v/3.2.1",
            "Name": "PCI DSS v3.2.1",
            "Description": "The Payment Card Industry Data Security Standard (PCI DSS) v3.2.1 is an information security standard for entities that store, process, and/or transmit cardholder data. This Security Hub standard automatically checks for your compliance readiness against a subset of PCI DSS requirements.",
            "EnabledByDefault": false
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Standar keamanan di AWS Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DescribeStandards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/describe-standards.html)di *Referensi AWS CLI Perintah*. 

### `disable-import-findings-for-product`
<a name="securityhub_DisableImportFindingsForProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-import-findings-for-product`.

**AWS CLI**  
**Untuk berhenti menerima temuan dari integrasi produk**  
`disable-import-findings-for-product`Contoh berikut menonaktifkan aliran temuan untuk langganan yang ditentukan untuk integrasi produk.  

```
aws securityhub disable-import-findings-for-product \
    --product-subscription-arn "arn:aws:securityhub:us-west-1:123456789012:product-subscription/crowdstrike/crowdstrike-falcon"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola integrasi produk](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-integrations-managing.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DisableImportFindingsForProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/disable-import-findings-for-product.html)di *Referensi AWS CLI Perintah*. 

### `disable-organization-admin-account`
<a name="securityhub_DisableOrganizationAdminAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-organization-admin-account`.

**AWS CLI**  
**Untuk menghapus akun administrator Security Hub**  
`disable-organization-admin-account`Contoh berikut mencabut penetapan akun yang ditentukan sebagai akun administrator Security Hub untuk Organizations AWS .  

```
aws securityhub disable-organization-admin-account \
    --admin-account-id 777788889999
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menetapkan akun administrator Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/designate-orgs-admin-account.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DisableOrganizationAdminAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/disable-organization-admin-account.html)di *Referensi AWS CLI Perintah*. 

### `disable-security-hub`
<a name="securityhub_DisableSecurityHub_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disable-security-hub`.

**AWS CLI**  
**Untuk menonaktifkan AWS Security Hub**  
`disable-security-hub`Contoh berikut menonaktifkan AWS Security Hub untuk akun yang meminta.  

```
aws securityhub disable-security-hub
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan AWS Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-disable.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DisableSecurityHub](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/disable-security-hub.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-from-administrator-account`
<a name="securityhub_DisassociateFromAdministratorAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-from-administrator-account`.

**AWS CLI**  
**Untuk memisahkan diri dari akun administrator**  
`disassociate-from-administrator-account`Contoh berikut memisahkan akun yang meminta dari akun administrator saat ini.  

```
aws securityhub disassociate-from-administrator-account
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DisassociateFromAdministratorAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/disassociate-from-administrator-account.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-from-master-account`
<a name="securityhub_DisassociateFromMasterAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-from-master-account`.

**AWS CLI**  
**Untuk memisahkan diri dari akun administrator**  
`disassociate-from-master-account`Contoh berikut memisahkan akun yang meminta dari akun administrator saat ini.  

```
aws securityhub disassociate-from-master-account
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DisassociateFromMasterAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/disassociate-from-master-account.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-members`
<a name="securityhub_DisassociateMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-members`.

**AWS CLI**  
**Untuk memisahkan akun anggota**  
`disassociate-members`Contoh berikut memisahkan akun anggota yang ditentukan dari akun administrator yang meminta.  

```
aws securityhub disassociate-members  \
    --account-ids "123456789111" "123456789222"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [DisassociateMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/disassociate-members.html)di *Referensi AWS CLI Perintah*. 

### `enable-import-findings-for-product`
<a name="securityhub_EnableImportFindingsForProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-import-findings-for-product`.

**AWS CLI**  
**Untuk mulai menerima temuan dari integrasi produk**  
`enable-import-findings-for-product`Contoh berikut memungkinkan aliran temuan dari integrasi produk yang ditentukan.  

```
aws securityhub enable-import-findings-for-product \
    --product-arn "arn:aws:securityhub:us-east-1:123456789333:product/crowdstrike/crowdstrike-falcon"
```
Output:  

```
{
    "ProductSubscriptionArn": "arn:aws:securityhub:us-east-1:123456789012:product-subscription/crowdstrike/crowdstrike-falcon"
}
```
Untuk informasi selengkapnya, lihat [Mengelola integrasi produk](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-integrations-managing.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [EnableImportFindingsForProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/enable-import-findings-for-product.html)di *Referensi AWS CLI Perintah*. 

### `enable-organization-admin-account`
<a name="securityhub_EnableOrganizationAdminAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-organization-admin-account`.

**AWS CLI**  
**Untuk menetapkan akun organisasi sebagai akun administrator Security Hub**  
`enable-organization-admin-account`Contoh berikut menunjuk akun yang ditentukan sebagai akun administrator Security Hub.  

```
aws securityhub enable-organization-admin-account \
    --admin-account-id 777788889999
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menetapkan akun administrator Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/designate-orgs-admin-account.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [EnableOrganizationAdminAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/enable-organization-admin-account.html)di *Referensi AWS CLI Perintah*. 

### `enable-security-hub`
<a name="securityhub_EnableSecurityHub_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`enable-security-hub`.

**AWS CLI**  
**Untuk mengaktifkan AWS Security Hub**  
`enable-security-hub`Contoh berikut memungkinkan AWS Security Hub untuk akun yang meminta. Ini mengkonfigurasi Security Hub untuk mengaktifkan standar default. Untuk sumber daya hub, ia memberikan nilai `Security` ke tag`Department`.  

```
aws securityhub enable-security-hub \
    --enable-default-standards \
    --tags '{"Department": "Security"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-settingup.html#securityhub-enable) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [EnableSecurityHub](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/enable-security-hub.html)di *Referensi AWS CLI Perintah*. 

### `get-administrator-account`
<a name="securityhub_GetAdministratorAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-administrator-account`.

**AWS CLI**  
**Untuk mengambil informasi tentang akun administrator**  
`get-administrator-account`Contoh berikut mengambil informasi tentang akun administrator untuk akun yang meminta.  

```
aws securityhub get-administrator-account
```
Output:  

```
{
   "Master": {
      "AccountId": "123456789012",
      "InvitationId": "7ab938c5d52d7904ad09f9e7c20cc4eb",
      "InvitedAt": 2020-06-01T20:21:18.042000+00:00,
      "MemberStatus": "ASSOCIATED"
   }
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetAdministratorAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-administrator-account.html)di *Referensi AWS CLI Perintah*. 

### `get-configuration-policy-association`
<a name="securityhub_GetConfigurationPolicyAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-configuration-policy-association`.

**AWS CLI**  
**Untuk mendapatkan detail asosiasi konfigurasi untuk target**  
`get-configuration-policy-association`Contoh berikut mengambil rincian asosiasi untuk target yang ditentukan. Anda dapat memberikan ID akun, ID unit organisasi, atau ID root untuk target.  

```
aws securityhub get-configuration-policy-association \
    --target '{"OrganizationalUnitId": "ou-6hi7-8j91kl2m"}'
```
Output:  

```
{
    "ConfigurationPolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
    "TargetId": "ou-6hi7-8j91kl2m",
    "TargetType": "ORGANIZATIONAL_UNIT",
    "AssociationType": "APPLIED",
    "UpdatedAt": "2023-09-26T21:13:01.816000+00:00",
    "AssociationStatus": "SUCCESS",
    "AssociationStatusMessage": "Association applied successfully on this target."
}
```
Untuk informasi selengkapnya, lihat [Melihat kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/view-policy.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetConfigurationPolicyAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-configuration-policy-association.html)di *Referensi AWS CLI Perintah*. 

### `get-configuration-policy`
<a name="securityhub_GetConfigurationPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-configuration-policy`.

**AWS CLI**  
**Untuk melihat detail kebijakan konfigurasi**  
`get-configuration-policy`Contoh berikut mengambil rincian tentang kebijakan konfigurasi yang ditentukan.  

```
aws securityhub get-configuration-policy \
   --identifier "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
```
Output:  

```
{
    "Arn": "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "Id": "ce5ed1e7-9639-4e2f-9313-fa87fcef944b",
    "Name": "SampleConfigurationPolicy",
    "Description": "SampleDescription",
    "UpdatedAt": "2023-11-28T20:28:04.494000+00:00",
    "CreatedAt": "2023-11-28T20:28:04.494000+00:00",
    "ConfigurationPolicy": {
        "SecurityHub": {
            "ServiceEnabled": true,
            "EnabledStandardIdentifiers": [
                "arn:aws:securityhub:eu-central-1::standards/aws-foundational-security-best-practices/v/1.0.0",
                "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0"
            ],
            "SecurityControlsConfiguration": {
                "DisabledSecurityControlIdentifiers": [
                    "CloudTrail.2"
                ],
                "SecurityControlCustomParameters": [
                    {
                        "SecurityControlId": "ACM.1",
                        "Parameters": {
                            "daysToExpiration": {
                                "ValueType": "CUSTOM",
                                "Value": {
                                    "Integer": 15
                                }
                            }
                        }
                    }
                ]
            }
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/view-policy.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetConfigurationPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-configuration-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-enabled-standards`
<a name="securityhub_GetEnabledStandards_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-enabled-standards`.

**AWS CLI**  
**Untuk mengambil informasi tentang standar yang diaktifkan**  
`get-enabled-standards`Contoh berikut mengambil informasi tentang standar PCI DSS.  

```
aws securityhub get-enabled-standards \
    --standards-subscription-arn "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1"
```
Output:  

```
{
    "StandardsSubscriptions": [
        {
            "StandardsArn": "arn:aws:securityhub:us-west-1::standards/pci-dss/v/3.2.1",
            "StandardsInput": { },
            "StandardsStatus": "READY",
            "StandardsSubscriptionArn": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Standar keamanan di AWS Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetEnabledStandards](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-enabled-standards.html)di *Referensi AWS CLI Perintah*. 

### `get-finding-aggregator`
<a name="securityhub_GetFindingAggregator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-finding-aggregator`.

**AWS CLI**  
**Untuk mengambil konfigurasi agregasi temuan saat ini**  
`get-finding-aggregator`Contoh berikut mengambil konfigurasi agregasi temuan saat ini.  

```
aws securityhub get-finding-aggregator \
    --finding-aggregator-arn arn:aws:securityhub:us-east-1:222222222222:finding-aggregator/123e4567-e89b-12d3-a456-426652340000
```
Output:  

```
{
    "FindingAggregatorArn": "arn:aws:securityhub:us-east-1:222222222222:finding-aggregator/123e4567-e89b-12d3-a456-426652340000",
    "FindingAggregationRegion": "us-east-1",
    "RegionLinkingMode": "SPECIFIED_REGIONS",
    "Regions": "us-west-1,us-west-2"
}
```
Untuk informasi selengkapnya, lihat [Melihat konfigurasi agregasi temuan saat ini](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-aggregation-view-config.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetFindingAggregator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-finding-aggregator.html)di *Referensi AWS CLI Perintah*. 

### `get-finding-history`
<a name="securityhub_GetFindingHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-finding-history`.

**AWS CLI**  
**Untuk menemukan sejarah**  
`get-finding-history`Contoh berikut mencapai 90 hari terakhir sejarah untuk temuan yang ditentukan. Dalam contoh ini, hasilnya terbatas pada dua catatan sejarah penemuan.  

```
aws securityhub get-finding-history \
    --finding-identifier Id="arn:aws:securityhub:us-east-1:123456789012:security-control/S3.17/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",ProductArn="arn:aws:securityhub:us-east-1::product/aws/securityhub"
```
Output:  

```
{
    "Records": [
        {
            "FindingIdentifier": {
                "Id": "arn:aws:securityhub:us-east-1:123456789012:security-control/S3.17/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
                "ProductArn": "arn:aws:securityhub:us-east-1::product/aws/securityhub"
            },
            "UpdateTime": "2023-06-02T03:15:25.685000+00:00",
            "FindingCreated": false,
            "UpdateSource": {
                "Type": "BATCH_IMPORT_FINDINGS",
                "Identity": "arn:aws:securityhub:us-east-1::product/aws/securityhub"
            },
            "Updates": [
                {
                    "UpdatedField": "Compliance.RelatedRequirements",
                    "OldValue": "[\"NIST.800-53.r5 SC-12(2)\",\"NIST.800-53.r5 SC-12(3)\",\"NIST.800-53.r5 SC-12(6)\",\"NIST.800-53.r5 CM-3(6)\",\"NIST.800-53.r5 SC-13\",\"NIST.800-53.r5 SC-28\",\"NIST.800-53.r5 SC-28(1)\",\"NIST.800-53.r5 SC-7(10)\"]",
                    "NewValue": "[\"NIST.800-53.r5 SC-12(2)\",\"NIST.800-53.r5 CM-3(6)\",\"NIST.800-53.r5 SC-13\",\"NIST.800-53.r5 SC-28\",\"NIST.800-53.r5 SC-28(1)\",\"NIST.800-53.r5 SC-7(10)\",\"NIST.800-53.r5 CA-9(1)\",\"NIST.800-53.r5 SI-7(6)\",\"NIST.800-53.r5 AU-9\"]"
                },
                {
                    "UpdatedField": "LastObservedAt",
                    "OldValue": "2023-06-01T09:15:38.587Z",
                    "NewValue": "2023-06-02T03:15:22.946Z"
                },
                {
                    "UpdatedField": "UpdatedAt",
                    "OldValue": "2023-06-01T09:15:31.049Z",
                    "NewValue": "2023-06-02T03:15:14.861Z"
                },
                {
                    "UpdatedField": "ProcessedAt",
                    "OldValue": "2023-06-01T09:15:41.058Z",
                    "NewValue": "2023-06-02T03:15:25.685Z"
                }
            ]
        },
        {
            "FindingIdentifier": {
                "Id": "arn:aws:securityhub:us-east-1:123456789012:security-control/S3.17/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
                "ProductArn": "arn:aws:securityhub:us-east-1::product/aws/securityhub"
            },
            "UpdateTime": "2023-05-23T02:06:51.518000+00:00",
            "FindingCreated": "true",
            "UpdateSource": {
                "Type": "BATCH_IMPORT_FINDINGS",
                "Identity": "arn:aws:securityhub:us-east-1::product/aws/securityhub"
            },
            "Updates": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menemukan riwayat](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-view-details.html#finding-history) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetFindingHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-finding-history.html)di *Referensi AWS CLI Perintah*. 

### `get-findings`
<a name="securityhub_GetFindings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-findings`.

**AWS CLI**  
**Contoh 1: Untuk mengembalikan temuan yang dihasilkan untuk standar tertentu**  
`get-findings`Contoh berikut mengembalikan temuan untuk standar PCI DSS.  

```
aws securityhub get-findings \
    --filters '{"GeneratorId":[{"Value": "pci-dss","Comparison":"PREFIX"}]}' \
    --max-items 1
```
Output:  

```
{
    "Findings": [
        {
            "SchemaVersion": "2018-10-08",
            "Id": "arn:aws:securityhub:eu-central-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "ProductArn": "arn:aws:securityhub:us-west-1::product/aws/securityhub",
            "GeneratorId": "pci-dss/v/3.2.1/PCI.Lambda.2",
            "AwsAccountId": "123456789012",
            "Types": [
                "Software and Configuration Checks/Industry and Regulatory Standards/PCI-DSS"
            ],
            "FindingProviderFields": {
                "Severity": {
                    "Original": 0,
                    "Label": "INFORMATIONAL"
                },
                "Types": [
                    "Software and Configuration Checks/Industry and Regulatory Standards/PCI-DSS"
                ]
            },
            "FirstObservedAt": "2020-06-02T14:02:49.159Z",
            "LastObservedAt": "2020-06-02T14:02:52.397Z",
            "CreatedAt": "2020-06-02T14:02:49.159Z",
            "UpdatedAt": "2020-06-02T14:02:52.397Z",
            "Severity": {
                "Original": 0,
                "Label": "INFORMATIONAL",
                "Normalized": 0
            },
            "Title": "PCI.Lambda.2 Lambda functions should be in a VPC",
            "Description": "This AWS control checks whether a Lambda function is in a VPC.",
            "Remediation": {
                "Recommendation": {
                    "Text": "For directions on how to fix this issue, please consult the AWS Security Hub PCI DSS documentation.",
                    "Url": "https://docs.aws.amazon.com/console/securityhub/PCI.Lambda.2/remediation"
                }
            },
            "ProductFields": {
                "StandardsArn": "arn:aws:securityhub:::standards/pci-dss/v/3.2.1",
                "StandardsSubscriptionArn": "arn:aws:securityhub:us-west-1:123456789012:subscription/pci-dss/v/3.2.1",
                "ControlId": "PCI.Lambda.2",
                "RecommendationUrl": "https://docs.aws.amazon.com/console/securityhub/PCI.Lambda.2/remediation",
                "RelatedAWSResources:0/name": "securityhub-lambda-inside-vpc-0e904a3b",
                "RelatedAWSResources:0/type": "AWS::Config::ConfigRule",
                "StandardsControlArn": "arn:aws:securityhub:us-west-1:123456789012:control/pci-dss/v/3.2.1/PCI.Lambda.2",
                "aws/securityhub/SeverityLabel": "INFORMATIONAL",
                "aws/securityhub/ProductName": "Security Hub",
                "aws/securityhub/CompanyName": "AWS",
                "aws/securityhub/FindingId": "arn:aws:securityhub:eu-central-1::product/aws/securityhub/arn:aws:securityhub:eu-central-1:123456789012:subscription/pci-dss/v/3.2.1/PCI.Lambda.2/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
        },
            "Resources": [
                {
                    "Type": "AwsAccount",
                    "Id": "AWS::::Account:123456789012",
                    "Partition": "aws",
                    "Region": "us-west-1"
                }
            ],
            "Compliance": {
                "Status": "PASSED",
                "RelatedRequirements": [
                    "PCI DSS 1.2.1",
                    "PCI DSS 1.3.1",
                    "PCI DSS 1.3.2",
                    "PCI DSS 1.3.4"
                ]
            },
            "WorkflowState": "NEW",
            "Workflow": {
                "Status": "NEW"
            },
            "RecordState": "ARCHIVED"
        }
    ],
    "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAxfQ=="
}
```
**Contoh 2: Untuk mengembalikan temuan tingkat keparahan kritis yang memiliki status alur kerja NOTIFIED**  
`get-findings`Contoh berikut mengembalikan temuan yang memiliki nilai label keparahan CRITICAL dan status alur kerja NOTIFIED. Hasilnya diurutkan dalam urutan menurun berdasarkan nilai Keyakinan.  

```
aws securityhub get-findings \
    --filters '{"SeverityLabel":[{"Value": "CRITICAL","Comparison":"EQUALS"}],"WorkflowStatus": [{"Value":"NOTIFIED","Comparison":"EQUALS"}]}' \
    --sort-criteria '{ "Field": "Confidence", "SortOrder": "desc"}' \
    --max-items 1
```
Output:  

```
{
    "Findings": [
        {
            "SchemaVersion": "2018-10-08",
            "Id": "arn:aws:securityhub:us-west-1: 123456789012:subscription/cis-aws-foundations-benchmark/v/1.2.0/1.13/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "ProductArn": "arn:aws:securityhub:us-west-2::product/aws/securityhub",
            "GeneratorId": "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0/rule/1.13",
            "AwsAccountId": "123456789012",
            "Types": [
                "Software and Configuration Checks/Industry and Regulatory Standards/CIS AWS Foundations Benchmark"
            ],
            "FindingProviderFields" {
                "Severity": {
                    "Original": 90,
                    "Label": "CRITICAL"
                },
                "Types": [
                    "Software and Configuration Checks/Industry and Regulatory Standards/CIS AWS Foundations Benchmark"
                ]
            },
            "FirstObservedAt": "2020-05-21T20:16:34.752Z",
            "LastObservedAt": "2020-06-09T08:16:37.171Z",
            "CreatedAt": "2020-05-21T20:16:34.752Z",
            "UpdatedAt": "2020-06-09T08:16:36.430Z",
            "Severity": {
                "Original": 90,
                "Label": "CRITICAL",
                "Normalized": 90
            },
            "Title": "1.13 Ensure MFA is enabled for the \"root\" account",
            "Description": "The root account is the most privileged user in an AWS account. MFA adds an extra layer of protection on top of a user name and password. With MFA enabled, when a user signs in to an AWS website, they will be prompted for their user name and password as well as for an authentication code from their AWS MFA device.",
            "Remediation": {
                "Recommendation": {
                    "Text": "For directions on how to fix this issue, please consult the AWS Security Hub CIS documentation.",
                    "Url": "https://docs.aws.amazon.com/console/securityhub/standards-cis-1.13/remediation"
                }
            },
            "ProductFields": {
                "StandardsGuideArn": "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0",
                "StandardsGuideSubscriptionArn": "arn:aws:securityhub:us-west-1:123456789012:subscription/cis-aws-foundations-benchmark/v/1.2.0",
                "RuleId": "1.13",
                "RecommendationUrl": "https://docs.aws.amazon.com/console/securityhub/standards-cis-1.13/remediation",
                "RelatedAWSResources:0/name": "securityhub-root-account-mfa-enabled-5pftha",
                "RelatedAWSResources:0/type": "AWS::Config::ConfigRule",
                "StandardsControlArn": "arn:aws:securityhub:us-west-1:123456789012:control/cis-aws-foundations-benchmark/v/1.2.0/1.13",
                "aws/securityhub/SeverityLabel": "CRITICAL",
                "aws/securityhub/ProductName": "Security Hub",
                "aws/securityhub/CompanyName": "AWS",
                "aws/securityhub/FindingId": "arn:aws:securityhub:us-west-1::product/aws/securityhub/arn:aws:securityhub:us-west-1:123456789012:subscription/cis-aws-foundations-benchmark/v/1.2.0/1.13/finding/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
            },
            "Resources": [
                {
                    "Type": "AwsAccount",
                    "Id": "AWS::::Account:123456789012",
                    "Partition": "aws",
                    "Region": "us-west-1"
                }
            ],
            "Compliance": {
                "Status": "FAILED"
            },
            "WorkflowState": "NEW",
            "Workflow": {
                "Status": "NOTIFIED"
            },
            "RecordState": "ACTIVE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memfilter dan mengelompokkan temuan](https://docs.aws.amazon.com/securityhub/latest/userguide/findings-filtering-grouping.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetFindings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-findings.html)di *Referensi AWS CLI Perintah*. 

### `get-insight-results`
<a name="securityhub_GetInsightResults_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-insight-results`.

**AWS CLI**  
**Untuk mengambil hasil untuk wawasan**  
`get-insight-results`Contoh berikut mengembalikan daftar hasil wawasan untuk wawasan dengan ARN yang ditentukan.  

```
aws securityhub get-insight-results \
    --insight-arn "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
```
Output:  

```
{
    "InsightResults": {
        "GroupByAttribute": "ResourceId",
        "InsightArn": "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "ResultValues": [
            {
                "Count": 10,
                "GroupByAttributeValue": "AWS::::Account:123456789111"
            },
            {
                "Count": 3,
                "GroupByAttributeValue": "AWS::::Account:123456789222"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat dan mengambil tindakan terhadap hasil dan temuan wawasan](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-insights-view-take-action.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetInsightResults](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-insight-results.html)di *Referensi AWS CLI Perintah*. 

### `get-insights`
<a name="securityhub_GetInsights_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-insights`.

**AWS CLI**  
**Untuk mengambil detail tentang wawasan**  
`get-insights`Contoh berikut mengambil detail konfigurasi untuk wawasan dengan ARN yang ditentukan.  

```
aws securityhub get-insights \
    --insight-arns "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
```
Output:  

```
{
    "Insights": [
        {
            "Filters": {
               "ResourceType": [
                    {
                        "Comparison": "EQUALS",
                        "Value": "AwsIamRole"
                    }
                ],
                "SeverityLabel": [
                    {
                        "Comparison": "EQUALS",
                        "Value": "CRITICAL"
                    }
                ],
            },
            "GroupByAttribute": "ResourceId",
            "InsightArn": "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Name": "Critical role findings"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Wawasan di AWS Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-insights.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetInsights](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-insights.html)di *Referensi AWS CLI Perintah*. 

### `get-invitations-count`
<a name="securityhub_GetInvitationsCount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-invitations-count`.

**AWS CLI**  
**Untuk mengambil jumlah undangan yang tidak diterima**  
`get-invitations-count`Contoh berikut mengambil jumlah undangan yang ditolak atau tidak ditanggapi oleh akun yang meminta.  

```
aws securityhub get-invitations-count
```
Output:  

```
{
  "InvitationsCount": 3
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetInvitationsCount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-invitations-count.html)di *Referensi AWS CLI Perintah*. 

### `get-master-account`
<a name="securityhub_GetMasterAccount_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-master-account`.

**AWS CLI**  
**Untuk mengambil informasi tentang akun administrator**  
`get-master-account`Contoh berikut mengambil informasi tentang akun administrator untuk akun yang meminta.  

```
aws securityhub get-master-account
```
Output:  

```
{
   "Master": {
      "AccountId": "123456789012",
      "InvitationId": "7ab938c5d52d7904ad09f9e7c20cc4eb",
      "InvitedAt": 2020-06-01T20:21:18.042000+00:00,
      "MemberStatus": "ASSOCIATED"
   }
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetMasterAccount](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-master-account.html)di *Referensi AWS CLI Perintah*. 

### `get-members`
<a name="securityhub_GetMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-members`.

**AWS CLI**  
**Untuk mengambil informasi tentang akun anggota yang dipilih**  
`get-members`Contoh berikut mengambil informasi tentang akun anggota yang ditentukan.  

```
aws securityhub get-members \
    --account-ids "444455556666" "777788889999"
```
Output:  

```
{
    "Members": [
        {
            "AccountId": "123456789111",
            "AdministratorId": "123456789012",
            "InvitedAt": 2020-06-01T20:15:15.289000+00:00,
            "MasterId": "123456789012",
            "MemberStatus": "ASSOCIATED",
            "UpdatedAt": 2020-06-01T20:15:15.289000+00:00
        },
        {
            "AccountId": "123456789222",
            "AdministratorId": "123456789012",
            "InvitedAt": 2020-06-01T20:15:15.289000+00:00,
            "MasterId": "123456789012",
            "MemberStatus": "ASSOCIATED",
            "UpdatedAt": 2020-06-01T20:15:15.289000+00:00
        }
    ],
    "UnprocessedAccounts": [ ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-members.html)di *Referensi AWS CLI Perintah*. 

### `get-security-control-definition`
<a name="securityhub_GetSecurityControlDefinition_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-security-control-definition`.

**AWS CLI**  
**Untuk mendapatkan detail definisi kontrol keamanan**  
`get-security-control-definition`Contoh berikut mengambil rincian definisi untuk kontrol keamanan Security Hub. Detail termasuk judul kontrol, deskripsi, ketersediaan Wilayah, parameter, dan informasi lainnya.  

```
aws securityhub get-security-control-definition \
    --security-control-id ACM.1
```
Output:  

```
{
    "SecurityControlDefinition": {
        "SecurityControlId": "ACM.1",
        "Title": "Imported and ACM-issued certificates should be renewed after a specified time period",
        "Description": "This control checks whether an AWS Certificate Manager (ACM) certificate is renewed within the specified time period. It checks both imported certificates and certificates provided by ACM. The control fails if the certificate isn't renewed within the specified time period. Unless you provide a custom parameter value for the renewal period, Security Hub uses a default value of 30 days.",
        "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/ACM.1/remediation",
        "SeverityRating": "MEDIUM",
        "CurrentRegionAvailability": "AVAILABLE",
        "ParameterDefinitions": {
            "daysToExpiration": {
                "Description": "Number of days within which the ACM certificate must be renewed",
                "ConfigurationOptions": {
                    "Integer": {
                        "DefaultValue": 30,
                        "Min": 14,
                        "Max": 365
                    }
                }
            }
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Parameter kontrol khusus](https://docs.aws.amazon.com/securityhub/latest/userguide/custom-control-parameters.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [GetSecurityControlDefinition](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/get-security-control-definition.html)di *Referensi AWS CLI Perintah*. 

### `invite-members`
<a name="securityhub_InviteMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`invite-members`.

**AWS CLI**  
**Untuk mengirim undangan ke akun anggota**  
`invite-members`Contoh berikut mengirimkan undangan ke akun anggota yang ditentukan.  

```
aws securityhub invite-members \
    --account-ids "123456789111" "123456789222"
```
Output:  

```
{
    "UnprocessedAccounts": []
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [InviteMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/invite-members.html)di *Referensi AWS CLI Perintah*. 

### `list-automation-rules`
<a name="securityhub_ListAutomationRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-automation-rules`.

**AWS CLI**  
**Untuk melihat daftar aturan otomatisasi**  
`list-automation-rules`Contoh berikut mencantumkan aturan otomatisasi untuk AWS akun. Hanya akun administrator Security Hub yang dapat menjalankan perintah ini.  

```
aws securityhub list-automation-rules \
    --max-results 3 \
    --next-token NULL
```
Output:  

```
{
    "AutomationRulesMetadata": [
        {
            "RuleArn": "arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "RuleStatus": "ENABLED",
            "RuleOrder": 1,
            "RuleName": "Suppress informational findings",
            "Description": "Suppress GuardDuty findings with Informational severity",
            "IsTerminal": false,
            "CreatedAt": "2023-05-31T17:56:14.837000+00:00",
            "UpdatedAt": "2023-05-31T17:59:38.466000+00:00",
            "CreatedBy": "arn:aws:iam::123456789012:role/Admin"
        },
        {
            "RuleArn": "arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "RuleStatus": "ENABLED",
            "RuleOrder": 1,
            "RuleName": "sample rule",
            "Description": "A sample rule",
            "IsTerminal": false,
            "CreatedAt": "2023-07-15T23:37:20.223000+00:00",
            "UpdatedAt": "2023-07-15T23:37:20.223000+00:00",
            "CreatedBy": "arn:aws:iam::123456789012:role/Admin"
        },
        {
            "RuleArn": "arn:aws:securityhub:us-east-1:123456789012:automation-rule/a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "RuleStatus": "ENABLED",
            "RuleOrder": 1,
            "RuleName": "sample rule",
            "Description": "A sample rule",
            "IsTerminal": false,
            "CreatedAt": "2023-07-15T23:45:25.126000+00:00",
            "UpdatedAt": "2023-07-15T23:45:25.126000+00:00",
            "CreatedBy": "arn:aws:iam::123456789012:role/Admin"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat aturan otomatisasi](https://docs.aws.amazon.com/securityhub/latest/userguide/automation-rules.html#view-automation-rules) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListAutomationRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-automation-rules.html)di *Referensi AWS CLI Perintah*. 

### `list-configuration-policies`
<a name="securityhub_ListConfigurationPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-configuration-policies`.

**AWS CLI**  
**Untuk membuat daftar ringkasan kebijakan konfigurasi**  
`list-configuration-policies`Contoh berikut mencantumkan ringkasan kebijakan konfigurasi untuk organisasi.  

```
aws securityhub list-configuration-policies \
    --max-items 3
```
Output:  

```
{
    "ConfigurationPolicySummaries": [
        {
            "Arn": "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Name": "SampleConfigurationPolicy1",
            "Description": "SampleDescription1",
            "UpdatedAt": "2023-09-26T21:08:36.214000+00:00",
            "ServiceEnabled": true
        },
        {
            "Arn": "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "Name": "SampleConfigurationPolicy2",
            "Description": "SampleDescription2"
            "UpdatedAt": "2023-11-28T19:26:25.207000+00:00",
            "ServiceEnabled": true
        },
        {
            "Arn": "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "Name": "SampleConfigurationPolicy3",
            "Description": "SampleDescription3",
            "UpdatedAt": "2023-11-28T20:28:04.494000+00:00",
            "ServiceEnabled": true
        }
}
```
Untuk informasi selengkapnya, lihat [Melihat kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/view-policy.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListConfigurationPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-configuration-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-configuration-policy-associations`
<a name="securityhub_ListConfigurationPolicyAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-configuration-policy-associations`.

**AWS CLI**  
**Untuk membuat daftar asosiasi konfigurasi**  
`list-configuration-policy-associations`Contoh berikut mencantumkan ringkasan asosiasi konfigurasi untuk organisasi. Tanggapan tersebut mencakup asosiasi dengan kebijakan konfigurasi dan perilaku yang dikelola sendiri.  

```
aws securityhub list-configuration-policy-associations \
    --filters '{"AssociationType": "APPLIED"}' \
    --max-items 4
```
Output:  

```
{
    "ConfigurationPolicyAssociationSummaries": [
        {
            "ConfigurationPolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "TargetId": "r-1ab2",
            "TargetType": "ROOT",
            "AssociationType": "APPLIED",
            "UpdatedAt": "2023-11-28T19:26:49.417000+00:00",
            "AssociationStatus": "FAILED",
            "AssociationStatusMessage": "Policy association failed because 2 organizational units or accounts under this root failed."
        },
        {
            "ConfigurationPolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "TargetId": "ou-1ab2-c3de4f5g",
            "TargetType": "ORGANIZATIONAL_UNIT",
            "AssociationType": "APPLIED",
            "UpdatedAt": "2023-09-26T21:14:05.283000+00:00",
            "AssociationStatus": "FAILED",
            "AssociationStatusMessage": "One or more children under this target failed association."
        },
        {
            "ConfigurationPolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
            "TargetId": "ou-6hi7-8j91kl2m",
            "TargetType": "ORGANIZATIONAL_UNIT",
            "AssociationType": "APPLIED",
            "UpdatedAt": "2023-09-26T21:13:01.816000+00:00",
            "AssociationStatus": "SUCCESS",
            "AssociationStatusMessage": "Association applied successfully on this target."
        },
        {
            "ConfigurationPolicyId": "SELF_MANAGED_SECURITY_HUB",
            "TargetId": "111122223333",
            "TargetType": "ACCOUNT",
            "AssociationType": "APPLIED",
            "UpdatedAt": "2023-11-28T22:01:26.409000+00:00",
            "AssociationStatus": "SUCCESS"
    }
}
```
Untuk informasi selengkapnya, lihat [Melihat status dan detail kebijakan konfigurasi](https://docs.aws.amazon.com/securityhub/latest/userguide/view-policy.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListConfigurationPolicyAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-configuration-policy-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-enabled-products-for-import`
<a name="securityhub_ListEnabledProductsForImport_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-enabled-products-for-import`.

**AWS CLI**  
**Untuk mengembalikan daftar integrasi produk yang diaktifkan**  
`list-enabled-products-for-import`Contoh berikut mengembalikan daftar ARNS berlangganan untuk integrasi produk yang saat ini diaktifkan.  

```
aws securityhub list-enabled-products-for-import
```
Output:  

```
{
    "ProductSubscriptions": [ "arn:aws:securityhub:us-west-1:123456789012:product-subscription/crowdstrike/crowdstrike-falcon", "arn:aws:securityhub:us-west-1:123456789012:product-subscription/aws/securityhub" ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola integrasi produk](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-integrations-managing.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListEnabledProductsForImport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-enabled-products-for-import.html)di *Referensi AWS CLI Perintah*. 

### `list-finding-aggregators`
<a name="securityhub_ListFindingAggregators_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-finding-aggregators`.

**AWS CLI**  
**Untuk daftar widget yang tersedia**  
`list-finding-aggregators`Contoh berikut mengembalikan ARN dari konfigurasi agregasi temuan.  

```
aws securityhub list-finding-aggregators
```
Output:  

```
{
    "FindingAggregatorArn": "arn:aws:securityhub:us-east-1:222222222222:finding-aggregator/123e4567-e89b-12d3-a456-426652340000"
}
```
Untuk informasi selengkapnya, lihat [Melihat konfigurasi agregasi temuan saat ini](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-aggregation-view-config.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListFindingAggregators](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-finding-aggregators.html)di *Referensi AWS CLI Perintah*. 

### `list-invitations`
<a name="securityhub_ListInvitations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-invitations`.

**AWS CLI**  
**Untuk menampilkan daftar undangan**  
`list-invitations`Contoh berikut mengambil daftar undangan yang dikirim ke akun yang meminta.  

```
aws securityhub list-invitations
```
Output:  

```
{
    "Invitations": [
        {
            "AccountId": "123456789012",
            "InvitationId": "7ab938c5d52d7904ad09f9e7c20cc4eb",
            "InvitedAt": 2020-06-01T20:21:18.042000+00:00,
            "MemberStatus": "ASSOCIATED"
        }
    ],
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListInvitations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-invitations.html)di *Referensi AWS CLI Perintah*. 

### `list-members`
<a name="securityhub_ListMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-members`.

**AWS CLI**  
**Untuk mengambil daftar akun anggota**  
`list-members`Contoh berikut mengembalikan daftar akun anggota untuk akun administrator yang meminta.  

```
aws securityhub list-members
```
Output:  

```
{
    "Members": [
        {
            "AccountId": "123456789111",
            "AdministratorId": "123456789012",
            "InvitedAt": 2020-06-01T20:15:15.289000+00:00,
            "MasterId": "123456789012",
            "MemberStatus": "ASSOCIATED",
            "UpdatedAt": 2020-06-01T20:15:15.289000+00:00
        },
        {
            "AccountId": "123456789222",
            "AdministratorId": "123456789012",
            "InvitedAt": 2020-06-01T20:15:15.289000+00:00,
            "MasterId": "123456789012",
            "MemberStatus": "ASSOCIATED",
            "UpdatedAt": 2020-06-01T20:15:15.289000+00:00
        }
    ],
}
```
Untuk informasi selengkapnya, lihat [Mengelola akun administrator dan anggota](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-members.html)di *Referensi AWS CLI Perintah*. 

### `list-organization-admin-accounts`
<a name="securityhub_ListOrganizationAdminAccounts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-organization-admin-accounts`.

**AWS CLI**  
**Untuk mencantumkan akun administrator Security Hub yang ditunjuk**  
`list-organization-admin-accounts`Contoh berikut mencantumkan akun administrator Security Hub untuk organisasi.  

```
aws securityhub list-organization-admin-accounts
```
Output:  

```
{
    AdminAccounts": [
        { "AccountId": "777788889999" },
        { "Status": "ENABLED" }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menetapkan akun administrator Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/designate-orgs-admin-account.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListOrganizationAdminAccounts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-organization-admin-accounts.html)di *Referensi AWS CLI Perintah*. 

### `list-security-control-definitions`
<a name="securityhub_ListSecurityControlDefinitions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-security-control-definitions`.

**AWS CLI**  
**Contoh 1: Untuk daftar semua kontrol keamanan yang tersedia**  
`list-security-control-definitions`Contoh berikut mencantumkan kontrol keamanan yang tersedia di semua standar Security Hub. Contoh ini membatasi hasil hingga tiga kontrol.  

```
aws securityhub list-security-control-definitions \
    --max-items 3
```
Output:  

```
{
    "SecurityControlDefinitions": [
        {
            "SecurityControlId": "ACM.1",
            "Title": "Imported and ACM-issued certificates should be renewed after a specified time period",
            "Description": "This control checks whether an AWS Certificate Manager (ACM) certificate is renewed within the specified time period. It checks both imported certificates and certificates provided by ACM. The control fails if the certificate isn't renewed within the specified time period. Unless you provide a custom parameter value for the renewal period, Security Hub uses a default value of 30 days.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/ACM.1/remediation",
            "SeverityRating": "MEDIUM",
            "CurrentRegionAvailability": "AVAILABLE",
            "CustomizableProperties": [
                "Parameters"
            ]
        },
        {
            "SecurityControlId": "ACM.2",
            "Title": "RSA certificates managed by ACM should use a key length of at least 2,048 bits",
            "Description": "This control checks whether RSA certificates managed by AWS Certificate Manager use a key length of at least 2,048 bits. The control fails if the key length is smaller than 2,048 bits.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/ACM.2/remediation",
            "SeverityRating": "HIGH",
            "CurrentRegionAvailability": "AVAILABLE",
            "CustomizableProperties": []
        },
        {
            "SecurityControlId": "APIGateway.1",
            "Title": "API Gateway REST and WebSocket API execution logging should be enabled",
            "Description": "This control checks whether all stages of an Amazon API Gateway REST or WebSocket API have logging enabled. The control fails if the 'loggingLevel' isn't 'ERROR' or 'INFO' for all stages of the API. Unless you provide custom parameter values to indicate that a specific log type should be enabled, Security Hub produces a passed finding if the logging level is either 'ERROR' or 'INFO'.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/APIGateway.1/remediation",
            "SeverityRating": "MEDIUM",
            "CurrentRegionAvailability": "AVAILABLE",
            "CustomizableProperties": [
                "Parameters"
            ]
        }
    ],
    "NextToken": "U2FsdGVkX1/UprCPzxVbkDeHikDXbDxfgJZ1w2RG1XWsFPTMTIQPVE0m/FduIGxS7ObRtAbaUt/8/RCQcg2PU0YXI20hH/GrhoOTgv+TSm0qvQVFhkJepWmqh+NYawjocVBeos6xzn/8qnbF9IuwGg=="
}
```
Untuk informasi selengkapnya, lihat [Melihat detail untuk standar](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards-view-controls.html) di *Panduan Pengguna AWS Security Hub*.  
**Contoh 2: Untuk daftar kontrol keamanan yang tersedia untuk standar tertentu**  
`list-security-control-definitions`Contoh berikut mencantumkan kontrol keamanan yang tersedia untuk CIS AWS Foundations Benchmark v1.4.0. Contoh ini membatasi hasil hingga tiga kontrol.  

```
aws securityhub list-security-control-definitions \
    --standards-arn "arn:aws:securityhub:us-east-1::standards/cis-aws-foundations-benchmark/v/1.4.0" \
    --max-items 3
```
Output:  

```
{
    "SecurityControlDefinitions": [
        {
            "SecurityControlId": "CloudTrail.1",
            "Title": "CloudTrail should be enabled and configured with at least one multi-Region trail that includes read and write management events",
            "Description": "This AWS control checks that there is at least one multi-region AWS CloudTrail trail includes read and write management events.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/CloudTrail.1/remediation",
            "SeverityRating": "HIGH",
            "CurrentRegionAvailability": "AVAILABLE",
            "CustomizableProperties": []
        },
        {
            "SecurityControlId": "CloudTrail.2",
            "Title": "CloudTrail should have encryption at-rest enabled",
            "Description": "This AWS control checks whether AWS CloudTrail is configured to use the server side encryption (SSE) AWS Key Management Service (AWS KMS) customer master key (CMK) encryption. The check will pass if the KmsKeyId is defined.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/CloudTrail.2/remediation",
            "SeverityRating": "MEDIUM",
            "CurrentRegionAvailability": "AVAILABLE",
            "CustomizableProperties": []
        },
        {
            "SecurityControlId": "CloudTrail.4",
            "Title": "CloudTrail log file validation should be enabled",
            "Description": "This AWS control checks whether CloudTrail log file validation is enabled.",
            "RemediationUrl": "https://docs.aws.amazon.com/console/securityhub/CloudTrail.4/remediation",
            "SeverityRating": "MEDIUM",
            "CurrentRegionAvailability": "AVAILABLE",
            "CustomizableProperties": []
        }
    ],
    "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAzfQ=="
}
```
Untuk informasi selengkapnya, lihat [Melihat detail untuk standar](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards-view-controls.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [ListSecurityControlDefinitions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-security-control-definitions.html)di *Referensi AWS CLI Perintah*. 

### `list-standards-control-associations`
<a name="securityhub_ListStandardsControlAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-standards-control-associations`.

**AWS CLI**  
**Untuk mendapatkan status pemberdayaan kontrol di setiap standar yang diaktifkan**  
`list-standards-control-associations`Contoh berikut mencantumkan status pemberdayaan CloudTrail .1 di setiap standar yang diaktifkan.  

```
aws securityhub list-standards-control-associations \
    --security-control-id CloudTrail.1
```
Output:  

```
{
    "StandardsControlAssociationSummaries": [
        {
            "StandardsArn": "arn:aws:securityhub:us-east-2::standards/nist-800-53/v/5.0.0",
            "SecurityControlId": "CloudTrail.1",
            "SecurityControlArn": "arn:aws:securityhub:us-east-2:123456789012:security-control/CloudTrail.1",
            "AssociationStatus": "ENABLED",
            "RelatedRequirements": [
                "NIST.800-53.r5 AC-2(4)",
                "NIST.800-53.r5 AC-4(26)",
                "NIST.800-53.r5 AC-6(9)",
                "NIST.800-53.r5 AU-10",
                "NIST.800-53.r5 AU-12",
                "NIST.800-53.r5 AU-2",
                "NIST.800-53.r5 AU-3",
                "NIST.800-53.r5 AU-6(3)",
                "NIST.800-53.r5 AU-6(4)",
                "NIST.800-53.r5 AU-14(1)",
                "NIST.800-53.r5 CA-7",
                "NIST.800-53.r5 SC-7(9)",
                "NIST.800-53.r5 SI-3(8)",
                "NIST.800-53.r5 SI-4(20)",
                "NIST.800-53.r5 SI-7(8)",
                "NIST.800-53.r5 SA-8(22)"
            ],
            "UpdatedAt": "2023-05-15T17:52:21.304000+00:00",
            "StandardsControlTitle": "CloudTrail should be enabled and configured with at least one multi-Region trail that includes read and write management events",
            "StandardsControlDescription": "This AWS control checks that there is at least one multi-region AWS CloudTrail trail includes read and write management events."
        },
        {
            "StandardsArn": "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0",
            "SecurityControlId": "CloudTrail.1",
            "SecurityControlArn": "arn:aws:securityhub:us-east-2:123456789012:security-control/CloudTrail.1",
            "AssociationStatus": "ENABLED",
            "RelatedRequirements": [
                "CIS AWS Foundations 2.1"
            ],
            "UpdatedAt": "2020-02-10T21:22:53.998000+00:00",
            "StandardsControlTitle": "Ensure CloudTrail is enabled in all regions",
            "StandardsControlDescription": "AWS CloudTrail is a web service that records AWS API calls for your account and delivers log files to you. The recorded information includes the identity of the API caller, the time of the API call, the source IP address of the API caller, the request parameters, and the response elements returned by the AWS service."
        },
        {
            "StandardsArn": "arn:aws:securityhub:us-east-2::standards/aws-foundational-security-best-practices/v/1.0.0",
            "SecurityControlId": "CloudTrail.1",
            "SecurityControlArn": "arn:aws:securityhub:us-east-2:123456789012:security-control/CloudTrail.1",
            "AssociationStatus": "DISABLED",
            "RelatedRequirements": [],
            "UpdatedAt": "2023-05-15T19:31:52.671000+00:00",
            "UpdatedReason": "Alternative compensating controls are in place",
            "StandardsControlTitle": "CloudTrail should be enabled and configured with at least one multi-Region trail that includes read and write management events",
            "StandardsControlDescription": "This AWS control checks that there is at least one multi-region AWS CloudTrail trail includes read and write management events."
        },
        {
            "StandardsArn": "arn:aws:securityhub:us-east-2::standards/cis-aws-foundations-benchmark/v/1.4.0",
            "SecurityControlId": "CloudTrail.1",
            "SecurityControlArn": "arn:aws:securityhub:us-east-2:123456789012:security-control/CloudTrail.1",
            "AssociationStatus": "ENABLED",
            "RelatedRequirements": [
                "CIS AWS Foundations Benchmark v1.4.0/3.1"
            ],
            "UpdatedAt": "2022-11-10T15:40:36.021000+00:00",
            "StandardsControlTitle": "Ensure CloudTrail is enabled in all regions",
            "StandardsControlDescription": "AWS CloudTrail is a web service that records AWS API calls for your account and delivers log files to you. The recorded information includes the identity of the API caller, the time of the API call, the source IP address of the API caller, the request parameters, and the response elements returned by the AWS service. CloudTrail provides a history of AWS API calls for an account, including API calls made via the Management Console, SDKs, command line tools, and higher-level AWS services (such as CloudFormation)."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaktifkan dan menonaktifkan kontrol dalam standar tertentu di Panduan Pengguna AWS](https://docs.aws.amazon.com/securityhub/latest/userguide/controls-configure.html) *Security Hub*.  
+  Untuk detail API, lihat [ListStandardsControlAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-standards-control-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="securityhub_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mengambil tag yang ditetapkan ke sumber daya**  
`list-tags-for-resource`Contoh berikut mengembalikan tag yang ditetapkan ke sumber daya hub tertentu.  

```
aws securityhub list-tags-for-resource \
    --resource-arn "arn:aws:securityhub:us-west-1:123456789012:hub/default"
```
Output:  

```
{
    "Tags": {
        "Department" : "Operations",
        "Area" : "USMidwest"
    }
}
```
Untuk informasi selengkapnya, lihat [AWS:SecurityHub:: :Hub](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-securityhub-hub.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `start-configuration-policy-association`
<a name="securityhub_StartConfigurationPolicyAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-configuration-policy-association`.

**AWS CLI**  
**Contoh 1: Untuk mengaitkan kebijakan konfigurasi**  
`start-configuration-policy-association`Contoh berikut mengaitkan kebijakan konfigurasi yang ditentukan dengan unit organisasi yang ditentukan. Konfigurasi dapat dikaitkan dengan akun target, unit organisasi, atau root.  

```
aws securityhub start-configuration-policy-association \
    --configuration-policy-identifier "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE33333" \
    --target '{"OrganizationalUnitId": "ou-6hi7-8j91kl2m"}'
```
Output:  

```
{
    "ConfigurationPolicyId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE33333",
    "TargetId": "ou-6hi7-8j91kl2m",
    "TargetType": "ORGANIZATIONAL_UNIT",
    "AssociationType": "APPLIED",
    "UpdatedAt": "2023-11-29T17:40:52.468000+00:00",
    "AssociationStatus": "PENDING"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan mengaitkan kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/create-associate-policy.html) di *Panduan Pengguna AWS Security Hub*.  
**Contoh 2: Untuk mengaitkan konfigurasi yang dikelola sendiri**  
`start-configuration-policy-association`Contoh berikut mengaitkan konfigurasi yang dikelola sendiri dengan akun yang ditentukan.  

```
aws securityhub start-configuration-policy-association \
    --configuration-policy-identifier "SELF_MANAGED_SECURITY_HUB" \
    --target '{"OrganizationalUnitId": "123456789012"}'
```
Output:  

```
{
    "ConfigurationPolicyId": "SELF_MANAGED_SECURITY_HUB",
    "TargetId": "123456789012",
    "TargetType": "ACCOUNT",
    "AssociationType": "APPLIED",
    "UpdatedAt": "2023-11-29T17:40:52.468000+00:00",
    "AssociationStatus": "PENDING"
}
```
Untuk informasi selengkapnya, lihat [Membuat dan mengaitkan kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/create-associate-policy.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [StartConfigurationPolicyAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/start-configuration-policy-association.html)di *Referensi AWS CLI Perintah*. 

### `start-configuration-policy-disassociation`
<a name="securityhub_StartConfigurationPolicyDisassociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-configuration-policy-disassociation`.

**AWS CLI**  
**Contoh 1: Untuk memisahkan kebijakan konfigurasi**  
`start-configuration-policy-disassociation`Contoh berikut memisahkan kebijakan konfigurasi dari unit organisasi yang ditentukan. Konfigurasi dapat terlepas dari akun target, unit organisasi, atau root.  

```
aws securityhub start-configuration-policy-disassociation \
    --configuration-policy-identifier "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE33333" \
    --target '{"OrganizationalUnitId": "ou-6hi7-8j91kl2m"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memisahkan konfigurasi dari akun dan OUs](https://docs.aws.amazon.com/securityhub/latest/userguide/delete-disassociate-policy.html#disassociate-policy) di *Panduan Pengguna AWS Security Hub*.  
**Contoh 2: Untuk memisahkan konfigurasi yang dikelola sendiri**  
`start-configuration-policy-disassociation`Contoh berikut memisahkan konfigurasi yang dikelola sendiri dari akun yang ditentukan.  

```
aws securityhub start-configuration-policy-disassociation \
    --configuration-policy-identifier "SELF_MANAGED_SECURITY_HUB" \
    --target '{"AccountId": "123456789012"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memisahkan konfigurasi dari akun dan OUs](https://docs.aws.amazon.com/securityhub/latest/userguide/delete-disassociate-policy.html#disassociate-policy) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [StartConfigurationPolicyDisassociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/start-configuration-policy-disassociation.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="securityhub_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menetapkan tag ke sumber daya**  
`tag-resource`Contoh berikut menetapkan nilai untuk tag Departemen dan Area ke sumber daya hub yang ditentukan.  

```
aws securityhub tag-resource \
    --resource-arn "arn:aws:securityhub:us-west-1:123456789012:hub/default" \
    --tags '{"Department":"Operations", "Area":"USMidwest"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [AWS:SecurityHub:: :Hub](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-securityhub-hub.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="securityhub_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus nilai tag dari sumber daya**  
`untag-resource`Contoh berikut menghapus tag Department dari sumber daya hub yang ditentukan.  

```
aws securityhub untag-resource \
    --resource-arn "arn:aws:securityhub:us-west-1:123456789012:hub/default" \
    --tag-keys "Department"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [AWS:SecurityHub:: :Hub](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-securityhub-hub.html) di *Panduan AWS CloudFormation Pengguna*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-action-target`
<a name="securityhub_UpdateActionTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-action-target`.

**AWS CLI**  
**Untuk memperbarui tindakan kustom**  
`update-action-target`Contoh berikut memperbarui nama tindakan kustom yang diidentifikasi oleh ARN yang ditentukan.  

```
aws securityhub update-action-target \
    --action-target-arn "arn:aws:securityhub:us-west-1:123456789012:action/custom/Remediation" \
    --name "Send to remediation"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat tindakan kustom dan mengaitkannya dengan aturan CloudWatch Peristiwa](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-cloudwatch-events.html#securityhub-cwe-configure) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [UpdateActionTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/update-action-target.html)di *Referensi AWS CLI Perintah*. 

### `update-configuration-policy`
<a name="securityhub_UpdateConfigurationPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-configuration-policy`.

**AWS CLI**  
**Untuk memperbarui kebijakan konfigurasi**  
`update-configuration-policy`Contoh berikut memperbarui kebijakan konfigurasi yang ada untuk menggunakan pengaturan yang ditentukan.  

```
aws securityhub update-configuration-policy \
    --identifier "arn:aws:securityhub:eu-central-1:508236694226:configuration-policy/09f37766-57d8-4ede-9d33-5d8b0fecf70e" \
    --name "SampleConfigurationPolicyUpdated" \
    --description "SampleDescriptionUpdated" \
    --configuration-policy '{"SecurityHub": {"ServiceEnabled": true, "EnabledStandardIdentifiers": ["arn:aws:securityhub:eu-central-1::standards/aws-foundational-security-best-practices/v/1.0.0","arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0"],"SecurityControlsConfiguration":{"DisabledSecurityControlIdentifiers": ["CloudWatch.1"], "SecurityControlCustomParameters": [{"SecurityControlId": "ACM.1", "Parameters": {"daysToExpiration": {"ValueType": "CUSTOM", "Value": {"Integer": 21}}}}]}}}' \
    --updated-reason "Disabling CloudWatch.1 and changing parameter value"
```
Output:  

```
{
    "Arn": "arn:aws:securityhub:eu-central-1:123456789012:configuration-policy/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
    "Name": "SampleConfigurationPolicyUpdated",
    "Description": "SampleDescriptionUpdated",
    "UpdatedAt": "2023-11-28T20:28:04.494000+00:00",
    "CreatedAt": "2023-11-28T20:28:04.494000+00:00",
    "ConfigurationPolicy": {
        "SecurityHub": {
            "ServiceEnabled": true,
            "EnabledStandardIdentifiers": [
                "arn:aws:securityhub:eu-central-1::standards/aws-foundational-security-best-practices/v/1.0.0",
                "arn:aws:securityhub:::ruleset/cis-aws-foundations-benchmark/v/1.2.0"
            ],
            "SecurityControlsConfiguration": {
                "DisabledSecurityControlIdentifiers": [
                    "CloudWatch.1"
                ],
                "SecurityControlCustomParameters": [
                    {
                        "SecurityControlId": "ACM.1",
                        "Parameters": {
                            "daysToExpiration": {
                                "ValueType": "CUSTOM",
                                "Value": {
                                    "Integer": 21
                                }
                            }
                        }
                    }
                ]
            }
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memperbarui kebijakan konfigurasi Security Hub](https://docs.aws.amazon.com/securityhub/latest/userguide/update-policy.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [UpdateConfigurationPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/update-configuration-policy.html)di *Referensi AWS CLI Perintah*. 

### `update-finding-aggregator`
<a name="securityhub_UpdateFindingAggregator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-finding-aggregator`.

**AWS CLI**  
**Untuk memperbarui konfigurasi agregasi temuan saat ini**  
`update-finding-aggregator`Contoh berikut mengubah konfigurasi agregasi temuan untuk menautkan dari Wilayah yang dipilih. Dijalankan dari US East (Virginia), yang merupakan Wilayah agregasi. Ini memilih AS Barat (California N.) dan AS Barat (Oregon) sebagai Wilayah terkait.  

```
aws securityhub update-finding-aggregator \
    --region us-east-1 \
    --finding-aggregator-arn arn:aws:securityhub:us-east-1:222222222222:finding-aggregator/123e4567-e89b-12d3-a456-426652340000 \
    --region-linking-mode SPECIFIED_REGIONS \
    --regions us-west-1,us-west-2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memperbarui konfigurasi agregasi pencarian](https://docs.aws.amazon.com/securityhub/latest/userguide/finding-aggregation-update.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [UpdateFindingAggregator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/update-finding-aggregator.html)di *Referensi AWS CLI Perintah*. 

### `update-insight`
<a name="securityhub_UpdateInsight_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-insight`.

**AWS CLI**  
**Contoh 1: Untuk mengubah filter untuk wawasan kustom**  
`update-insight`Contoh berikut mengubah filter untuk wawasan kustom. Wawasan yang diperbarui mencari temuan dengan tingkat keparahan tinggi yang terkait dengan AWS peran.  

```
aws securityhub update-insight \
    --insight-arn "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111" \
    --filters '{"ResourceType": [{ "Comparison": "EQUALS", "Value": "AwsIamRole"}], "SeverityLabel": [{"Comparison": "EQUALS", "Value": "HIGH"}]}' \
    --name "High severity role findings"
```
**Contoh 2: Untuk mengubah atribut pengelompokan untuk wawasan kustom**  
`update-insight`Contoh berikut mengubah atribut pengelompokan untuk wawasan kustom dengan ARN yang ditentukan. Atribut pengelompokan baru adalah ID sumber daya.  

```
aws securityhub update-insight \
    --insight-arn "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111" \
    --group-by-attribute "ResourceId" \
    --name "Critical role findings"
```
Output:  

```
{
    "Insights": [
        {
            "InsightArn": "arn:aws:securityhub:us-west-1:123456789012:insight/123456789012/custom/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Name": "Critical role findings",
            "Filters": {
                "SeverityLabel": [
                    {
                        "Value": "CRITICAL",
                        "Comparison": "EQUALS"
                    }
                ],
                "ResourceType": [
                    {
                        "Value": "AwsIamRole",
                        "Comparison": "EQUALS"
                    }
                ]
            },
            "GroupByAttribute": "ResourceId"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola wawasan khusus](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-custom-insights.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [UpdateInsight](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/update-insight.html)di *Referensi AWS CLI Perintah*. 

### `update-organization-configuration`
<a name="securityhub_UpdateOrganizationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-organization-configuration`.

**AWS CLI**  
**Untuk memperbarui cara Security Hub dikonfigurasi untuk organisasi**  
`update-organization-configuration`Contoh berikut menentukan bahwa Security Hub harus menggunakan konfigurasi pusat untuk mengkonfigurasi organisasi. Setelah menjalankan perintah ini, administrator Security Hub yang didelegasikan dapat membuat dan mengelola kebijakan konfigurasi untuk mengonfigurasi organisasi. Administrator yang didelegasikan juga dapat menggunakan perintah ini untuk beralih dari konfigurasi pusat ke lokal. Jika konfigurasi lokal adalah tipe konfigurasi, administrator yang didelegasikan dapat memilih apakah akan mengaktifkan Security Hub secara otomatis dan standar keamanan default di akun organisasi baru.  

```
aws securityhub update-organization-configuration \
    --no-auto-enable \
    --organization-configuration '{"ConfigurationType": "CENTRAL"}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola akun dengan AWS Organizations](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-accounts-orgs.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [UpdateOrganizationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/update-organization-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-security-control`
<a name="securityhub_UpdateSecurityControl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-security-control`.

**AWS CLI**  
**Untuk memperbarui properti kontrol keamanan**  
`update-security-control`Contoh berikut menentukan nilai kustom untuk parameter kontrol keamanan Security Hub.  

```
aws securityhub update-security-control \
    --security-control-id ACM.1 \
    --parameters '{"daysToExpiration": {"ValueType": "CUSTOM", "Value": {"Integer": 15}}}' \
    --last-update-reason "Internal compliance requirement"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Parameter kontrol khusus](https://docs.aws.amazon.com/securityhub/latest/userguide/custom-control-parameters.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [UpdateSecurityControl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/update-security-control.html)di *Referensi AWS CLI Perintah*. 

### `update-security-hub-configuration`
<a name="securityhub_UpdateSecurityHubConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-security-hub-configuration`.

**AWS CLI**  
**Untuk memperbarui konfigurasi Security Hub**  
`update-security-hub-configuration`Contoh berikut mengonfigurasi Security Hub untuk secara otomatis mengaktifkan kontrol baru untuk standar yang diaktifkan.  

```
aws securityhub update-security-hub-configuration \
    --auto-enable-controls
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaktifkan kontrol baru secara otomatis](https://docs.aws.amazon.com/securityhub/latest/userguide/controls-auto-enable.html) di *Panduan Pengguna AWS Security Hub*.  
+  Untuk detail API, lihat [UpdateSecurityHubConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/update-security-hub-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-standards-control`
<a name="securityhub_UpdateStandardsControl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-standards-control`.

**AWS CLI**  
**Contoh 1: Untuk menonaktifkan kontrol**  
`update-standards-control`Contoh berikut menonaktifkan PCI. AutoScaling.1 kontrol.  

```
aws securityhub update-standards-control \
    --standards-control-arn "arn:aws:securityhub:us-west-1:123456789012:control/pci-dss/v/3.2.1/PCI.AutoScaling.1" \
    --control-status "DISABLED" \
    --disabled-reason "Not applicable for my service"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk mengaktifkan kontrol**  
`update-standards-control`Contoh berikut memungkinkan PCI. AutoScaling.1 kontrol.  

```
aws securityhub update-standards-control \
    --standards-control-arn "arn:aws:securityhub:us-west-1:123456789012:control/pci-dss/v/3.2.1/PCI.AutoScaling.1" \
    --control-status "ENABLED"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan dan mengaktifkan kontrol individual](https://docs.aws.amazon.com/securityhub/latest/userguide/securityhub-standards-enable-disable-controls.html) di Panduan Pengguna *AWS Security Hub*.  
+  Untuk detail API, lihat [UpdateStandardsControl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securityhub/update-standards-control.html)di *Referensi AWS CLI Perintah*. 

# Contoh Security Lake menggunakan AWS CLI
<a name="cli_2_securitylake_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS Command Line Interface With Security Lake.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-aws-log-source`
<a name="securitylake_CreateAwsLogSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-aws-log-source`.

**AWS CLI**  
**Untuk menambahkan Layanan Web Amazon yang didukung secara native sebagai sumber Amazon Security Lake**  
`create-aws-logsource`Contoh berikut menambahkan Log Aliran VPC sebagai sumber Danau Keamanan di akun dan Wilayah yang ditunjuk.  

```
aws securitylake create-aws-log-source \
    --sources '[{"regions": ["us-east-1"], "accounts": ["123456789012"], "sourceName": "SH_FINDINGS", "sourceVersion": "2.0"}]'
```
Output:  

```
{
    "failed": [
        "123456789012"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menambahkan AWS layanan sebagai sumber](https://docs.aws.amazon.com/security-lake/latest/userguide/internal-sources.html#add-internal-sources) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [CreateAwsLogSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/create-aws-log-source.html)di *Referensi AWS CLI Perintah*. 

### `create-custom-log-source`
<a name="securitylake_CreateCustomLogSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-custom-log-source`.

**AWS CLI**  
**Untuk menambahkan sumber kustom sebagai sumber Amazon Security Lake**  
`create-custom-logsource`Contoh berikut menambahkan sumber kustom sebagai sumber Security Lake di akun penyedia log yang ditunjuk dan Wilayah yang ditunjuk.  

```
aws securitylake create-custom-log-source \
    --source-name "VPC_FLOW" \
    --event-classes '["DNS_ACTIVITY", "NETWORK_ACTIVITY"]' \
    --configuration '{"crawlerConfiguration": {"roleArn": "arn:aws:glue:eu-west-2:123456789012:crawler/E1WG1ZNPRXT0D4"},"providerIdentity": {"principal": "029189416600","externalId": "123456789012"}}' --region "us-east-1"
```
Output:  

```
{
    "customLogSource": {
        "attributes": {
            "crawlerArn": "arn:aws:glue:eu-west-2:123456789012:crawler/E1WG1ZNPRXT0D4",
            "databaseArn": "arn:aws:glue:eu-west-2:123456789012:database/E1WG1ZNPRXT0D4",
            "tableArn": "arn:aws:glue:eu-west-2:123456789012:table/E1WG1ZNPRXT0D4"
        },
        "provider": {
            "location": "amzn-s3-demo-bucket--usw2-az1--x-s3",
            "roleArn": "arn:aws:iam::123456789012:role/AmazonSecurityLake-Provider-testCustom2-eu-west-2"
        },
        "sourceName": "testCustom2"
        "sourceVersion": "2.0"
    }
}
```
Untuk informasi selengkapnya, lihat [Menambahkan sumber kustom](https://docs.aws.amazon.com/security-lake/latest/userguide/custom-sources.html#adding-custom-sources) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [CreateCustomLogSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/create-custom-log-source.html)di *Referensi AWS CLI Perintah*. 

### `create-data-lake-exception-subscription`
<a name="securitylake_CreateDataLakeExceptionSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-data-lake-exception-subscription`.

**AWS CLI**  
**Untuk mengirim pemberitahuan pengecualian Security Lake**  
`create-data-lake-exception-subscription`Contoh berikut mengirimkan pemberitahuan pengecualian Security Lake ke akun yang ditentukan melalui pengiriman SMS. Pesan pengecualian tetap untuk periode waktu yang ditentukan.  

```
aws securitylake create-data-lake-exception-subscription \
    --notification-endpoint "123456789012" \
    --exception-time-to-live 30 \
    --subscription-protocol "sms"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memecahkan Masalah Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/security-lake-troubleshoot.html#securitylake-data-lake-troubleshoot) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [CreateDataLakeExceptionSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/create-data-lake-exception-subscription.html)di *Referensi AWS CLI Perintah*. 

### `create-data-lake-organization-configuration`
<a name="securitylake_CreateDataLakeOrganizationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-data-lake-organization-configuration`.

**AWS CLI**  
**Untuk mengkonfigurasi Security Lake di akun organisasi baru**  
`create-data-lake-organization-configuration`Contoh berikut memungkinkan Security Lake dan kumpulan peristiwa sumber yang ditentukan dan log di akun organisasi baru.  

```
aws securitylake create-data-lake-organization-configuration \
    --auto-enable-new-account '[{"region":"us-east-1","sources":[{"sourceName":"SH_FINDINGS","sourceVersion": "1.0"}]}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun dengan AWS Organizations](https://docs.aws.amazon.com/security-lake/latest/userguide/multi-account-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [CreateDataLakeOrganizationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/create-data-lake-organization-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-data-lake`
<a name="securitylake_CreateDataLake_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-data-lake`.

**AWS CLI**  
**Contoh 1: Untuk mengkonfigurasi data lake Anda di beberapa Wilayah**  
`create-data-lake`Contoh berikut memungkinkan Amazon Security Lake di beberapa AWS Wilayah dan mengkonfigurasi data lake Anda.  

```
aws securitylake create-data-lake \
    --configurations '[{"encryptionConfiguration": {"kmsKeyId":"S3_MANAGED_KEY"},"region":"us-east-1","lifecycleConfiguration": {"expiration":{"days":365},"transitions":[{"days":60,"storageClass":"ONEZONE_IA"}]}}, {"encryptionConfiguration": {"kmsKeyId":"S3_MANAGED_KEY"},"region":"us-east-2","lifecycleConfiguration": {"expiration":{"days":365},"transitions":[{"days":60,"storageClass":"ONEZONE_IA"}]}}]' \
    --meta-store-manager-role-arn "arn:aws:iam:us-east-1:123456789012:role/service-role/AmazonSecurityLakeMetaStoreManager"
```
Output:  

```
{
    "dataLakes": [
        {
            "createStatus": "COMPLETED",
            "dataLakeArn": "arn:aws:securitylake:us-east-1:522481757177:data-lake/default",
            "encryptionConfiguration": {
                "kmsKeyId": "S3_MANAGED_KEY"
            },
            "lifecycleConfiguration": {
                "expiration": {
                    "days": 365
                },
                "transitions": [
                    {
                        "days": 60,
                        "storageClass": "ONEZONE_IA"
                    }
                ]
            },
            "region": "us-east-1",
            "replicationConfiguration": {
                "regions": [
                    "ap-northeast-3"
                ],
                "roleArn": "arn:aws:securitylake:ap-northeast-3:522481757177:data-lake/default"
            },
            "s3BucketArn": "arn:aws:s3:::aws-security-data-lake-us-east-1-gnevt6s8z7bzby8oi3uiaysbr8v2ml",
            "updateStatus": {
                "exception": {},
                "requestId": "f20a6450-d24a-4f87-a6be-1d4c075a59c2",
                "status": "INITIALIZED"
            }
        },
        {
            "createStatus": "COMPLETED",
            "dataLakeArn": "arn:aws:securitylake:us-east-2:522481757177:data-lake/default",
            "encryptionConfiguration": {
                "kmsKeyId": "S3_MANAGED_KEY"
            },
            "lifecycleConfiguration": {
                "expiration": {
                    "days": 365
                },
                "transitions": [
                    {
                        "days": 60,
                        "storageClass": "ONEZONE_IA"
                    }
                ]
            },
            "region": "us-east-2",
            "replicationConfiguration": {
                "regions": [
                    "ap-northeast-3"
                ],
                "roleArn": "arn:aws:securitylake:ap-northeast-3:522481757177:data-lake/default"
            },
            "s3BucketArn": "arn:aws:s3:::aws-security-data-lake-us-east-2-cehuifzl5rwmhm6m62h7zhvtseogr9",
            "updateStatus": {
                "exception": {},
                "requestId": "f20a6450-d24a-4f87-a6be-1d4c075a59c2",
                "status": "INITIALIZED"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/getting-started.html) di *Panduan Pengguna Amazon Security Lake*.  
**Contoh 2: Untuk mengkonfigurasi data lake Anda dalam satu Wilayah**  
`create-data-lake`Contoh berikut memungkinkan Amazon Security Lake di satu AWS Wilayah dan mengkonfigurasi data lake Anda.  

```
aws securitylake create-data-lake \
    --configurations '[{"encryptionConfiguration": {"kmsKeyId":"1234abcd-12ab-34cd-56ef-1234567890ab"},"region":"us-east-2","lifecycleConfiguration": {"expiration":{"days":500},"transitions":[{"days":30,"storageClass":"GLACIER"}]}}]' \
    --meta-store-manager-role-arn "arn:aws:iam:us-east-1:123456789012:role/service-role/AmazonSecurityLakeMetaStoreManager"
```
Output:  

```
{
    "dataLakes": [
        {
            "createStatus": "COMPLETED",
            "dataLakeArn": "arn:aws:securitylake:us-east-2:522481757177:data-lake/default",
            "encryptionConfiguration": {
                "kmsKeyId": "1234abcd-12ab-34cd-56ef-1234567890ab"
            },
            "lifecycleConfiguration": {
                "expiration": {
                    "days": 500
                },
                "transitions": [
                    {
                        "days": 30,
                        "storageClass": "GLACIER"
                    }
                ]
            },
            "region": "us-east-2",
            "replicationConfiguration": {
                "regions": [
                    "ap-northeast-3"
                ],
                "roleArn": "arn:aws:securitylake:ap-northeast-3:522481757177:data-lake/default"
            },
            "s3BucketArn": "arn:aws:s3:::aws-security-data-lake-us-east-2-cehuifzl5rwmhm6m62h7zhvtseogr9",
            "updateStatus": {
                "exception": {},
                "requestId": "77702a53-dcbf-493e-b8ef-518e362f3003",
                "status": "INITIALIZED"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/getting-started.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [CreateDataLake](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/create-data-lake.html)di *Referensi AWS CLI Perintah*. 

### `create-subscriber-notification`
<a name="securitylake_CreateSubscriberNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subscriber-notification`.

**AWS CLI**  
**Untuk membuat notifikasi pelanggan**  
`create-subscriber-notification`Contoh berikut menunjukkan cara menentukan pemberitahuan pelanggan untuk membuat pemberitahuan ketika data baru ditulis ke danau data.  

```
aws securitylake create-subscriber-notification \
    --subscriber-id "12345ab8-1a34-1c34-1bd4-12345ab9012" \
    --configuration '{"httpsNotificationConfiguration": {"targetRoleArn":"arn:aws:iam::XXX:role/service-role/RoleName", "endpoint":"https://account-management.$3.$2.securitylake.aws.dev/v1/datalake"}}'
```
Output:  

```
{
    "subscriberEndpoint": [
        "https://account-management.$3.$2.securitylake.aws.dev/v1/datalake"
    ]
}
```
Untuk informasi selengkapnya, lihat [Manajemen pelanggan](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [CreateSubscriberNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/create-subscriber-notification.html)di *Referensi AWS CLI Perintah*. 

### `create-subscriber`
<a name="securitylake_CreateSubscriber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subscriber`.

**AWS CLI**  
**Contoh 1: Untuk membuat pelanggan dengan akses data**  
`create-subscriber`Contoh berikut membuat pelanggan di Security Lake dengan akses ke data di AWS Wilayah saat ini untuk identitas pelanggan yang ditentukan untuk sumber. AWS   

```
aws securitylake create-subscriber \
    --access-types "S3" \
    --sources '[{"awsLogSource": {"sourceName": "VPC_FLOW","sourceVersion": "2.0"}}]' \
    --subscriber-name 'opensearch-s3' \
    --subscriber-identity '{"principal": "029189416600","externalId": "123456789012"}'
```
Output:  

```
{
    "subscriber": {
        "accessTypes": [
            "S3"
        ],
        "createdAt": "2024-07-17T19:08:26.787000+00:00",
        "roleArn": "arn:aws:iam::773172568199:role/AmazonSecurityLake-896f218b-cfba-40be-a255-8b49a65d0407",
        "s3BucketArn": "arn:aws:s3:::aws-security-data-lake-us-east-1-um632ufwpvxkyz0bc5hkb64atycnf3",
        "sources": [
            {
                "awsLogSource": {
                    "sourceName": "VPC_FLOW",
                    "sourceVersion": "2.0"
                }
            }
        ],
        "subscriberArn": "arn:aws:securitylake:us-east-1:773172568199:subscriber/896f218b-cfba-40be-a255-8b49a65d0407",
        "subscriberId": "896f218b-cfba-40be-a255-8b49a65d0407",
        "subscriberIdentity": {
            "externalId": "123456789012",
            "principal": "029189416600"
        },
        "subscriberName": "opensearch-s3",
        "subscriberStatus": "ACTIVE",
        "updatedAt": "2024-07-17T19:08:27.133000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat pelanggan dengan akses data](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-data-access.html#create-subscriber-data-access) di *Panduan Pengguna Amazon Security Lake*.  
**Contoh 2: Untuk membuat pelanggan dengan akses kueri**  
`create-subscriber`Contoh berikut membuat pelanggan di Security Lake dengan akses kueri di AWS Wilayah saat ini untuk identitas pelanggan yang ditentukan.  

```
aws securitylake create-subscriber \
    --access-types "LAKEFORMATION" \
    --sources '[{"awsLogSource": {"sourceName": "VPC_FLOW","sourceVersion": "2.0"}}]' \
    --subscriber-name 'opensearch-s3' \
    --subscriber-identity '{"principal": "029189416600","externalId": "123456789012"}'
```
Output:  

```
{
    "subscriber": {
        "accessTypes": [
            "LAKEFORMATION"
        ],
        "createdAt": "2024-07-18T01:05:55.853000+00:00",
        "resourceShareArn": "arn:aws:ram:us-east-1:123456789012:resource-share/8c31da49-c224-4f1e-bb12-37ab756d6d8a",
        "resourceShareName": "LakeFormation-V2-NAMENAMENA-123456789012",
        "sources": [
            {
                "awsLogSource": {
                    "sourceName": "VPC_FLOW",
                    "sourceVersion": "2.0"
                }
            }
        ],
        "subscriberArn": "arn:aws:securitylake:us-east-1:123456789012:subscriber/e762aabb-ce3d-4585-beab-63474597845d",
        "subscriberId": "e762aabb-ce3d-4585-beab-63474597845d",
        "subscriberIdentity": {
            "externalId": "123456789012",
            "principal": "029189416600"
        },
        "subscriberName": "opensearch-s3",
        "subscriberStatus": "ACTIVE",
        "updatedAt": "2024-07-18T01:05:58.393000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat pelanggan dengan akses kueri](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-query-access.html#create-query-subscriber-procedures) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [CreateSubscriber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/create-subscriber.html)di *Referensi AWS CLI Perintah*. 

### `delete-aws-log-source`
<a name="securitylake_DeleteAwsLogSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-aws-log-source`.

**AWS CLI**  
**Untuk menghapus layanan yang didukung secara asli. AWS **  
`delete-aws-logsource`Contoh berikut menghapus Log Aliran VPC sebagai sumber Danau Keamanan di akun dan Wilayah yang ditunjuk.  

```
aws securitylake delete-aws-log-source \
    --sources '[{"regions": ["us-east-1"], "accounts": ["123456789012"], "sourceName": "SH_FINDINGS", "sourceVersion": "2.0"}]'
```
Output:  

```
{
    "failed": [
        "123456789012"
    ]
}
```
Untuk informasi selengkapnya, lihat [Menghapus AWS layanan sebagai sumber](https://docs.aws.amazon.com/security-lake/latest/userguide/internal-sources.html#remove-internal-sources) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [DeleteAwsLogSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/delete-aws-log-source.html)di *Referensi AWS CLI Perintah*. 

### `delete-custom-log-source`
<a name="securitylake_DeleteCustomLogSource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-custom-log-source`.

**AWS CLI**  
**Untuk menghapus sumber kustom.**  
`delete-custom-logsource`Contoh berikut menghapus sumber kustom di akun penyedia log yang ditunjuk di Wilayah yang ditunjuk.  

```
aws securitylake delete-custom-log-source \
    --source-name "CustomSourceName"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus sumber kustom](https://docs.aws.amazon.com/security-lake/latest/userguide/custom-sources.html#delete-custom-source) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [DeleteCustomLogSource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/delete-custom-log-source.html)di *Referensi AWS CLI Perintah*. 

### `delete-data-lake-organization-configuration`
<a name="securitylake_DeleteDataLakeOrganizationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-data-lake-organization-configuration`.

**AWS CLI**  
**Untuk menghentikan pengumpulan sumber otomatis di akun anggota**  
`delete-data-lake-organization-configuration`Contoh berikut menghentikan pengumpulan otomatis temuan AWS Security Hub dari akun anggota baru yang bergabung dengan organisasi. Hanya administrator Security Lake yang didelegasikan yang dapat menjalankan perintah ini. Ini mencegah akun anggota baru dari secara otomatis menyumbangkan data ke data lake.  

```
aws securitylake delete-data-lake-organization-configuration \
    --auto-enable-new-account '[{"region":"us-east-1","sources":[{"sourceName":"SH_FINDINGS"}]}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun dengan AWS Organizations](https://docs.aws.amazon.com/securityhub/latest/userguide/multi-account-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [DeleteDataLakeOrganizationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/delete-data-lake-organization-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-data-lake`
<a name="securitylake_DeleteDataLake_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-data-lake`.

**AWS CLI**  
**Untuk menonaktifkan danau data Anda**  
`delete-data-lake`Contoh berikut menonaktifkan data lake Anda di AWS Wilayah tertentu. Di Wilayah yang ditentukan, sumber tidak lagi menyumbangkan data ke danau data. Untuk penyebaran Danau Keamanan yang menggunakan Organizations AWS , hanya administrator Security Lake yang didelegasikan untuk organisasi yang dapat menonaktifkan Security Lake untuk akun di organisasi.  

```
aws securitylake delete-data-lake \
    --regions "ap-northeast-1" "eu-central-1"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menonaktifkan Amazon Security Lake](https://docs.aws.amazon.com/securityhub/latest/userguide/disable-security-lake.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [DeleteDataLake](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/delete-data-lake.html)di *Referensi AWS CLI Perintah*. 

### `delete-subscriber-notification`
<a name="securitylake_DeleteSubscriberNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-subscriber-notification`.

**AWS CLI**  
**Untuk menghapus pemberitahuan pelanggan**  
`delete-subscriber-notification`Contoh berikut menunjukkan cara menghapus pemberitahuan pelanggan untuk pelanggan Security Lake tertentu.  

```
aws securitylake delete-subscriber-notification \
    --subscriber-id "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Manajemen pelanggan](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [DeleteSubscriberNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/delete-subscriber-notification.html)di *Referensi AWS CLI Perintah*. 

### `delete-subscriber`
<a name="securitylake_DeleteSubscriber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-subscriber`.

**AWS CLI**  
**Untuk menghapus pelanggan**  
`delete-subscriber`Contoh berikut menunjukkan cara menghapus pelanggan jika Anda tidak lagi ingin pelanggan mengkonsumsi data dari Security Lake.  

```
aws securitylake delete-subscriber \
    --subscriber-id "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Manajemen pelanggan](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [DeleteSubscriber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/delete-subscriber.html)di *Referensi AWS CLI Perintah*. 

### `get-data-lake-exception-subscription`
<a name="securitylake_GetDataLakeExceptionSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-data-lake-exception-subscription`.

**AWS CLI**  
**Untuk mendapatkan detail tentang langganan pengecualian**  
`get-data-lake-exception-subscription`Contoh berikut memberikan rincian tentang langganan pengecualian Security Lake. Dalam contoh ini, pengguna AWS akun yang ditentukan diberitahu tentang kesalahan melalui pengiriman SMS. Pesan pengecualian tetap ada di akun untuk periode waktu yang ditentukan. Langganan pengecualian memberi tahu pengguna Security Lake tentang kesalahan melalui protokol pilihan pemohon.  

```
aws securitylake get-data-lake-exception-subscription
```
Output:  

```
{
    "exceptionTimeToLive": 30,
    "notificationEndpoint": "123456789012",
    "subscriptionProtocol": "sms"
}
```
Untuk informasi selengkapnya, lihat [Memecahkan masalah status data lake](https://docs.aws.amazon.com/securityhub/latest/userguide/security-lake-troubleshoot.html#securitylake-data-lake-troubleshoot) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [GetDataLakeExceptionSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/get-data-lake-exception-subscription.html)di *Referensi AWS CLI Perintah*. 

### `get-data-lake-organization-configuration`
<a name="securitylake_GetDataLakeOrganizationConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-data-lake-organization-configuration`.

**AWS CLI**  
**Untuk mendapatkan detail tentang konfigurasi untuk akun organisasi baru**  
`get-data-lake-organization-configuration`Contoh berikut mengambil detail tentang log sumber yang akan dikirim oleh akun organisasi baru setelah orientasi ke Amazon Security Lake.  

```
aws securitylake get-data-lake-organization-configuration
```
Output:  

```
{
    "autoEnableNewAccount": [
        {
            "region": "us-east-1",
            "sources": [
                {
                    "sourceName": "VPC_FLOW",
                    "sourceVersion": "1.0"
                },
                {
                    "sourceName": "ROUTE53",
                    "sourceVersion": "1.0"
                },
                {
                    "sourceName": "SH_FINDINGS",
                    "sourceVersion": "1.0"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun dengan AWS Organizations](https://docs.aws.amazon.com/security-lake/latest/userguide/multi-account-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [GetDataLakeOrganizationConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/get-data-lake-organization-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-data-lake-sources`
<a name="securitylake_GetDataLakeSources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-data-lake-sources`.

**AWS CLI**  
**Untuk mendapatkan status pengumpulan log**  
`get-data-lake-sources`Contoh berikut mendapat snapshot dari koleksi log untuk akun yang ditentukan di AWS Wilayah saat ini. Akun tersebut mengaktifkan Amazon Security Lake.  

```
aws securitylake get-data-lake-sources \
    --accounts "123456789012"
```
Output:  

```
{
    "dataLakeSources": [
        {
            "account": "123456789012",
            "sourceName": "SH_FINDINGS",
            "sourceStatuses": [
                {
                    "resource": "vpc-1234567890abcdef0",
                    "status": "COLLECTING"
                }
            ]
        },
        {
            "account": "123456789012",
            "sourceName": "VPC_FLOW",
            "sourceStatuses": [
                {
                    "resource": "vpc-1234567890abcdef0",
                    "status": "NOT_COLLECTING"
                }
            ]
        },
        {
            "account": "123456789012",
            "sourceName": "LAMBDA_EXECUTION",
            "sourceStatuses": [
                {
                    "resource": "vpc-1234567890abcdef0",
                    "status": "COLLECTING"
                }
            ]
        },
        {
            "account": "123456789012",
            "sourceName": "ROUTE53",
            "sourceStatuses": [
                {
                    "resource": "vpc-1234567890abcdef0",
                    "status": "COLLECTING"
                }
            ]
        },
        {
            "account": "123456789012",
            "sourceName": "CLOUD_TRAIL_MGMT",
            "sourceStatuses": [
                {
                    "resource": "vpc-1234567890abcdef0",
                    "status": "COLLECTING"
                }
            ]
        }
    ],
    "dataLakeArn": null
}
```
Untuk informasi selengkapnya, lihat [Mengumpulkan data dari AWS layanan](https://docs.aws.amazon.com/security-lake/latest/userguide/internal-sources.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [GetDataLakeSources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/get-data-lake-sources.html)di *Referensi AWS CLI Perintah*. 

### `get-subscriber`
<a name="securitylake_GetSubscriber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-subscriber`.

**AWS CLI**  
**Untuk mengambil informasi langganan**  
`get-subscriber`Contoh berikut mengambil informasi berlangganan untuk pelanggan Security Lake yang ditentukan.  

```
aws securitylake get-subscriber \
    --subscriber-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "subscriber": {
        "accessTypes": [
            "LAKEFORMATION"
        ],
        "createdAt": "2024-04-19T15:19:44.421803+00:00",
        "resourceShareArn": "arn:aws:ram:eu-west-2:123456789012:resource-share/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "resourceShareName": "LakeFormation-V3-TKJGBHCKTZ-123456789012",
        "sources": [
            {
                "awsLogSource": {
                    "sourceName": "LAMBDA_EXECUTION",
                    "sourceVersion": "1.0"
                }
            },
            {
                "awsLogSource": {
                    "sourceName": "EKS_AUDIT",
                    "sourceVersion": "2.0"
                }
            },
            {
                "awsLogSource": {
                    "sourceName": "ROUTE53",
                    "sourceVersion": "1.0"
                }
            },
            {
                "awsLogSource": {
                    "sourceName": "SH_FINDINGS",
                    "sourceVersion": "1.0"
                }
            },
            {
                "awsLogSource": {
                    "sourceName": "VPC_FLOW",
                    "sourceVersion": "1.0"
                }
            },
            {
                "customLogSource": {
                    "attributes": {
                        "crawlerArn": "arn:aws:glue:eu-west-2:123456789012:crawler/testCustom2",
                        "databaseArn": "arn:aws:glue:eu-west-2:123456789012:database/amazon_security_lake_glue_db_eu_west_2",
                        "tableArn": "arn:aws:glue:eu-west-2:123456789012:table/amazon_security_lake_table_eu_west_2_ext_testcustom2"
                    },
                    "provider": {
                        "location": "s3://aws-security-data-lake-eu-west-2-8ugsus4ztnsfpjbldwbgf4vge98av9/ext/testCustom2/",
                        "roleArn": "arn:aws:iam::123456789012:role/AmazonSecurityLake-Provider-testCustom2-eu-west-2"
                    },
                    "sourceName": "testCustom2"
                }
            },
            {
                "customLogSource": {
                    "attributes": {
                        "crawlerArn": "arn:aws:glue:eu-west-2:123456789012:crawler/TestCustom",
                        "databaseArn": "arn:aws:glue:eu-west-2:123456789012:database/amazon_security_lake_glue_db_eu_west_2",
                        "tableArn": "arn:aws:glue:eu-west-2:123456789012:table/amazon_security_lake_table_eu_west_2_ext_testcustom"
                    },
                    "provider": {
                        "location": "s3://aws-security-data-lake-eu-west-2-8ugsus4ztnsfpjbldwbgf4vge98av9/ext/TestCustom/",
                        "roleArn": "arn:aws:iam::123456789012:role/AmazonSecurityLake-Provider-TestCustom-eu-west-2"
                    },
                    "sourceName": "TestCustom"
                }
            }
        ],
        "subscriberArn": "arn:aws:securitylake:eu-west-2:123456789012:subscriber/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "subscriberId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "subscriberIdentity": {
            "externalId": "123456789012",
            "principal": "123456789012"
        },
        "subscriberName": "test",
        "subscriberStatus": "ACTIVE",
        "updatedAt": "2024-04-19T15:19:55.230588+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Manajemen pelanggan](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [GetSubscriber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/get-subscriber.html)di *Referensi AWS CLI Perintah*. 

### `list-data-lake-exceptions`
<a name="securitylake_ListDataLakeExceptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-data-lake-exceptions`.

**AWS CLI**  
**Untuk membuat daftar masalah yang memengaruhi data lake Anda**  
`list-data-lake-exceptions`Contoh berikut mencantumkan masalah yang memengaruhi data lake Anda dalam 14 hari terakhir di AWS Wilayah yang ditentukan.  

```
aws securitylake list-data-lake-exceptions \
    --regions "us-east-1" "eu-west-3"
```
Output:  

```
{
    "exceptions": [
        {
            "exception": "The account does not have the required role permissions. Update your role permissions to use the new data source version.",
            "region": "us-east-1",
            "timestamp": "2024-02-29T12:24:15.641725+00:00"
        },
        {
            "exception": "The account does not have the required role permissions. Update your role permissions to use the new data source version.",
            "region": "eu-west-3",
            "timestamp": "2024-02-29T12:24:15.641725+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memecahkan Masalah Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/security-lake-troubleshoot.html#securitylake-data-lake-troubleshoot) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [ListDataLakeExceptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/list-data-lake-exceptions.html)di *Referensi AWS CLI Perintah*. 

### `list-data-lakes`
<a name="securitylake_ListDataLakes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-data-lakes`.

**AWS CLI**  
**Untuk membuat daftar objek konfigurasi Security Lake**  
`list-data-lakes`Contoh berikut mencantumkan objek konfigurasi Amazon Security Lake untuk AWS Wilayah tertentu. Anda dapat menggunakan perintah ini untuk menentukan apakah Danau Keamanan diaktifkan di Wilayah atau Wilayah tertentu.  

```
aws securitylake list-data-lakes \
    --regions "us-east-1"
```
Output:  

```
{
    "dataLakes": [
        {
            "createStatus": "COMPLETED",
            "dataLakeArn": "arn:aws:securitylake:us-east-1:123456789012:data-lake/default",
            "encryptionConfiguration": {
                "kmsKeyId": "S3_MANAGED_KEY"
            },
            "lifecycleConfiguration": {
                "expiration": {
                    "days": 365
                },
                "transitions": [
                    {
                        "days": 60,
                        "storageClass": "ONEZONE_IA"
                    }
                ]
            },
            "region": "us-east-1",
            "replicationConfiguration": {
                "regions": [
                    "ap-northeast-3"
                ],
                "roleArn": "arn:aws:securitylake:ap-northeast-3:123456789012:data-lake/default"
            },
            "s3BucketArn": "arn:aws:s3:::aws-security-data-lake-us-east-1-1234567890abcdef0",
            "updateStatus": {
                "exception": {
                    "code": "software.amazon.awssdk.services.s3.model.S3Exception",
                    "reason": ""
                },
                "requestId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
                "status": "FAILED"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memeriksa status Wilayah](https://docs.aws.amazon.com/security-lake/latest/userguide/manage-regions.html#check-region-status) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [ListDataLakes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/list-data-lakes.html)di *Referensi AWS CLI Perintah*. 

### `list-log-sources`
<a name="securitylake_ListLogSources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-log-sources`.

**AWS CLI**  
**Untuk mengambil sumber log Amazon Security Lake**  
`list-log-sources`Contoh berikut mencantumkan sumber log Amazon Security Lake di akun tertentu.  

```
aws securitylake list-log-sources \
    --accounts "123456789012"
```
Output:  

```
{
    "account": "123456789012",
    "region": "xy-region-1",
    "sources": [
        {
               "awsLogSource": {
                "sourceName": "VPC_FLOW",
                "sourceVersion": "2.0"
            }
        },
        {
            "awsLogSource": {
                "sourceName": "SH_FINDINGS",
                "sourceVersion": "2.0"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Manajemen sumber](https://docs.aws.amazon.com/security-lake/latest/userguide/source-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [ListLogSources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/list-log-sources.html)di *Referensi AWS CLI Perintah*. 

### `list-subscribers`
<a name="securitylake_ListSubscribers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-subscribers`.

**AWS CLI**  
**Untuk mengambil pelanggan Amazon Security Lake**  
`list-subscribers`Contoh berikut mencantumkan semua pelanggan Amazon Security Lake di akun tertentu.  

```
aws securitylake list-subscribers
```
Output:  

```
{
    "subscribers": [
        {
            "accessTypes": [
                "S3"
            ],
            "createdAt": "2024-06-04T15:02:28.921000+00:00",
            "roleArn": "arn:aws:iam::123456789012:role/AmazonSecurityLake-E1WG1ZNPRXT0D4",
            "s3BucketArn": "amzn-s3-demo-bucket--usw2-az1--x-s3",
            "sources": [
                {
                    "awsLogSource": {
                        "sourceName": "CLOUD_TRAIL_MGMT",
                        "sourceVersion": "2.0"
                    }
                },
                {
                    "awsLogSource": {
                        "sourceName": "LAMBDA_EXECUTION",
                        "sourceVersion": "1.0"
                    }
                },
                {
                    "customLogSource": {
                        "attributes": {
                            "crawlerArn": "arn:aws:glue:eu-west-2:123456789012:crawler/E1WG1ZNPRXT0D4",
                            "databaseArn": "arn:aws:glue:eu-west-2:123456789012:database/E1WG1ZNPRXT0D4",
                            "tableArn": "arn:aws:glue:eu-west-2:123456789012:table/E1WG1ZNPRXT0D4"
                        },
                        "provider": {
                            "location": "amzn-s3-demo-bucket--usw2-az1--x-s3",
                            "roleArn": "arn:aws:iam::123456789012:role/AmazonSecurityLake-E1WG1ZNPRXT0D4"
                        },
                        "sourceName": "testCustom2"
                    }
                }
            ],
            "subscriberArn": "arn:aws:securitylake:eu-west-2:123456789012:subscriber/E1WG1ZNPRXT0D4",
            "subscriberEndpoint": "arn:aws:sqs:eu-west-2:123456789012:AmazonSecurityLake-a1b2c3d4-5678-90ab-cdef-EXAMPLE11111-Main-Queue",
            "subscriberId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "subscriberIdentity": {
                "externalId": "ext123456789012",
                "principal": "123456789012"
            },
            "subscriberName": "Test",
            "subscriberStatus": "ACTIVE",
            "updatedAt": "2024-06-04T15:02:35.617000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Manajemen pelanggan](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [ListSubscribers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/list-subscribers.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="securitylake_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag untuk sumber daya yang ada**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk pelanggan Amazon Security Lake yang ditentukan. Dalam contoh ini, kunci tag Pemilik tidak memiliki nilai tag terkait. Anda dapat menggunakan operasi ini untuk mencantumkan tag untuk sumber daya Security Lake lainnya yang ada juga.  

```
aws securitylake list-tags-for-resource \
    --resource-arn "arn:aws:securitylake:us-east-1:123456789012:subscriber/1234abcd-12ab-34cd-56ef-1234567890ab"
```
Output:  

```
{
    "tags": [
        {
            "key": "Environment",
            "value": "Cloud"
        },
        {
            "key": "CostCenter",
            "value": "12345"
        },
        {
            "key": "Owner",
            "value": ""
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai sumber daya Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/tagging-resources.html#tags-retrieve) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `register-data-lake-delegated-administrator`
<a name="securitylake_RegisterDataLakeDelegatedAdministrator_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-data-lake-delegated-administrator`.

**AWS CLI**  
**Untuk menunjuk administrator yang didelegasikan**  
`register-data-lake-delegated-administrator`Contoh berikut menunjuk AWS akun yang ditentukan sebagai administrator Amazon Security Lake yang didelegasikan.  

```
aws securitylake register-data-lake-delegated-administrator \
    --account-id 123456789012
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola beberapa akun dengan AWS Organizations](https://docs.aws.amazon.com/security-lake/latest/userguide/multi-account-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [RegisterDataLakeDelegatedAdministrator](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/register-data-lake-delegated-administrator.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="securitylake_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya yang ada**  
`tag-resource`Contoh berikut menambahkan tag ke sumber daya pelanggan yang ada. Untuk membuat sumber daya baru dan menambahkan satu atau beberapa tag ke dalamnya, jangan gunakan operasi ini. Sebagai gantinya, gunakan operasi Buat yang sesuai untuk jenis sumber daya yang ingin Anda buat.  

```
aws securitylake tag-resource \
    --resource-arn "arn:aws:securitylake:us-east-1:123456789012:subscriber/1234abcd-12ab-34cd-56ef-1234567890ab" \
    --tags key=Environment,value=Cloud
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/tagging-resources.html#tags-retrieve) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="securitylake_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya yang ada**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan dari sumber daya pelanggan yang ada.  

```
aws securitylake untag-resource \
    --resource-arn "arn:aws:securitylake:us-east-1:123456789012:subscriber/1234abcd-12ab-34cd-56ef-1234567890ab" \
    --tags Environment Owner
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/tagging-resources.html#tags-retrieve) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-data-lake-exception-subscription`
<a name="securitylake_UpdateDataLakeExceptionSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-data-lake-exception-subscription`.

**AWS CLI**  
**Untuk memperbarui langganan pemberitahuan untuk pengecualian Security Lake**  
`update-data-lake-exception-subscription`Contoh berikut memperbarui langganan notifikasi yang memberi tahu pengguna tentang pengecualian Security Lake.  

```
aws securitylake update-data-lake-exception-subscription \
    --notification-endpoint "123456789012" \
    --exception-time-to-live 30 \
    --subscription-protocol "email"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memecahkan Masalah Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/security-lake-troubleshoot.html#securitylake-data-lake-troubleshoot) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [UpdateDataLakeExceptionSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/update-data-lake-exception-subscription.html)di *Referensi AWS CLI Perintah*. 

### `update-data-lake`
<a name="securitylake_UpdateDataLake_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-data-lake`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui pengaturan danau data Anda**  
`update-data-lake`Contoh berikut memperbarui pengaturan danau data Amazon Security Lake Anda. Anda dapat menggunakan operasi ini untuk menentukan enkripsi data, penyimpanan, dan pengaturan Wilayah rollup.  

```
aws securitylake update-data-lake \
    --configurations '[{"encryptionConfiguration": {"kmsKeyId":"S3_MANAGED_KEY"},"region":"us-east-1","lifecycleConfiguration": {"expiration":{"days":365},"transitions":[{"days":60,"storageClass":"ONEZONE_IA"}]}}, {"encryptionConfiguration": {"kmsKeyId":"S3_MANAGED_KEY"},"region":"us-east-2","lifecycleConfiguration": {"expiration":{"days":365},"transitions":[{"days":60,"storageClass":"ONEZONE_IA"}]}}]' \
    --meta-store-manager-role-arn "arn:aws:iam:us-east-1:123456789012:role/service-role/AmazonSecurityLakeMetaStoreManager"
```
Output:  

```
{
    "dataLakes": [
        {
            "createStatus": "COMPLETED",
            "dataLakeArn": "arn:aws:securitylake:us-east-1:522481757177:data-lake/default",
            "encryptionConfiguration": {
                "kmsKeyId": "S3_MANAGED_KEY"
            },
            "lifecycleConfiguration": {
                "expiration": {
                    "days": 365
                },
                "transitions": [
                    {
                        "days": 60,
                        "storageClass": "ONEZONE_IA"
                    }
                ]
            },
            "region": "us-east-1",
            "replicationConfiguration": {
                "regions": [
                    "ap-northeast-3"
                ],
                "roleArn": "arn:aws:securitylake:ap-northeast-3:522481757177:data-lake/default"
            },
            "s3BucketArn": "arn:aws:s3:::aws-security-data-lake-us-east-1-gnevt6s8z7bzby8oi3uiaysbr8v2ml",
            "updateStatus": {
                "exception": {},
                "requestId": "f20a6450-d24a-4f87-a6be-1d4c075a59c2",
                "status": "INITIALIZED"
            }
        },
        {
            "createStatus": "COMPLETED",
            "dataLakeArn": "arn:aws:securitylake:us-east-2:522481757177:data-lake/default",
            "encryptionConfiguration": {
                "kmsKeyId": "S3_MANAGED_KEY"
            },
            "lifecycleConfiguration": {
                "expiration": {
                    "days": 365
                },
                "transitions": [
                    {
                        "days": 60,
                        "storageClass": "ONEZONE_IA"
                    }
                ]
            },
            "region": "us-east-2",
            "replicationConfiguration": {
                "regions": [
                    "ap-northeast-3"
                ],
                "roleArn": "arn:aws:securitylake:ap-northeast-3:522481757177:data-lake/default"
            },
            "s3BucketArn": "arn:aws:s3:::aws-security-data-lake-us-east-2-cehuifzl5rwmhm6m62h7zhvtseogr9",
            "updateStatus": {
                "exception": {},
                "requestId": "f20a6450-d24a-4f87-a6be-1d4c075a59c2",
                "status": "INITIALIZED"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/getting-started.html) di *Panduan Pengguna Amazon Security Lake*.  
**Contoh 2: Untuk mengkonfigurasi data lake Anda dalam satu Wilayah**  
`create-data-lake`Contoh berikut memungkinkan Amazon Security Lake di satu AWS Wilayah dan mengkonfigurasi data lake Anda.  

```
aws securitylake create-data-lake \
    --configurations '[{"encryptionConfiguration": {"kmsKeyId":"1234abcd-12ab-34cd-56ef-1234567890ab"},"region":"us-east-2","lifecycleConfiguration": {"expiration":{"days":500},"transitions":[{"days":30,"storageClass":"GLACIER"}]}}]' \
    --meta-store-manager-role-arn "arn:aws:iam:us-east-1:123456789012:role/service-role/AmazonSecurityLakeMetaStoreManager"
```
Output:  

```
{
    "dataLakes": [
        {
            "createStatus": "COMPLETED",
            "dataLakeArn": "arn:aws:securitylake:us-east-2:522481757177:data-lake/default",
            "encryptionConfiguration": {
                "kmsKeyId": "1234abcd-12ab-34cd-56ef-1234567890ab"
            },
            "lifecycleConfiguration": {
                "expiration": {
                    "days": 500
                },
                "transitions": [
                    {
                        "days": 30,
                        "storageClass": "GLACIER"
                    }
                ]
            },
            "region": "us-east-2",
            "replicationConfiguration": {
                "regions": [
                    "ap-northeast-3"
                ],
                "roleArn": "arn:aws:securitylake:ap-northeast-3:522481757177:data-lake/default"
            },
            "s3BucketArn": "arn:aws:s3:::aws-security-data-lake-us-east-2-cehuifzl5rwmhm6m62h7zhvtseogr9",
            "updateStatus": {
                "exception": {},
                "requestId": "77702a53-dcbf-493e-b8ef-518e362f3003",
                "status": "INITIALIZED"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Amazon Security Lake](https://docs.aws.amazon.com/security-lake/latest/userguide/getting-started.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [UpdateDataLake](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/update-data-lake.html)di *Referensi AWS CLI Perintah*. 

### `update-subscriber-notification`
<a name="securitylake_UpdateSubscriberNotification_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-subscriber-notification`.

**AWS CLI**  
**Untuk memperbarui pemberitahuan pelanggan**  
`update-subscriber-notification`Contoh berikut menunjukkan bagaimana Anda dapat memperbarui metode notifikasi untuk pelanggan.  

```
aws securitylake update-subscriber-notification \
    --subscriber-id "12345ab8-1a34-1c34-1bd4-12345ab9012" \
    --configuration '{"httpsNotificationConfiguration": {"targetRoleArn":"arn:aws:iam::XXX:role/service-role/RoleName", "endpoint":"https://account-management.$3.$2.securitylake.aws.dev/v1/datalake"}}'
```
Output:  

```
{
    "subscriberEndpoint": [
        "https://account-management.$3.$2.securitylake.aws.dev/v1/datalake"
    ]
}
```
Untuk informasi selengkapnya, lihat [Manajemen pelanggan](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [UpdateSubscriberNotification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/update-subscriber-notification.html)di *Referensi AWS CLI Perintah*. 

### `update-subscriber`
<a name="securitylake_UpdateSubscriber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-subscriber`.

**AWS CLI**  
**Untuk memperbarui pelanggan Amazon Security Lake.**  
`update-subscriber`Contoh berikut memperbarui sumber akses data danau keamanan untuk pelanggan Security Lake tertentu.  

```
aws securitylake update-subscriber \
    --subscriber-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "subscriber": {
        "accessTypes": [
            "LAKEFORMATION"
        ],
        "createdAt": "2024-04-19T15:19:44.421803+00:00",
        "resourceShareArn": "arn:aws:ram:eu-west-2:123456789012:resource-share/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "resourceShareName": "LakeFormation-V3-TKJGBHCKTZ-123456789012",
        "sources": [
            {
                "awsLogSource": {
                    "sourceName": "LAMBDA_EXECUTION",
                    "sourceVersion": "1.0"
                }
            },
            {
                "awsLogSource": {
                    "sourceName": "EKS_AUDIT",
                    "sourceVersion": "2.0"
                }
            },
            {
                "awsLogSource": {
                    "sourceName": "ROUTE53",
                    "sourceVersion": "1.0"
                }
            },
            {
                "awsLogSource": {
                    "sourceName": "SH_FINDINGS",
                    "sourceVersion": "1.0"
                }
            },
            {
                "awsLogSource": {
                    "sourceName": "VPC_FLOW",
                    "sourceVersion": "1.0"
                }
            },
            {
                "customLogSource": {
                    "attributes": {
                        "crawlerArn": "arn:aws:glue:eu-west-2:123456789012:crawler/E1WG1ZNPRXT0D4",
                        "databaseArn": "arn:aws:glue:eu-west-2:123456789012:database/E1WG1ZNPRXT0D4",
                        "tableArn": "arn:aws:glue:eu-west-2:123456789012:table/E1WG1ZNPRXT0D4"
                    },
                    "provider": {
                        "location": "amzn-s3-demo-bucket--usw2-az1--x-s3",
                        "roleArn": "arn:aws:iam::123456789012:role/AmazonSecurityLake-E1WG1ZNPRXT0D4"
                    },
                    "sourceName": "testCustom2"
                }
            }
        ],
        "subscriberArn": "arn:aws:securitylake:eu-west-2:123456789012:subscriber/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "subscriberId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "subscriberIdentity": {
            "externalId": "123456789012",
            "principal": "123456789012"
        },
        "subscriberName": "test",
        "subscriberStatus": "ACTIVE",
        "updatedAt": "2024-07-18T20:47:37.098000+00:00"
    }
}
```
Untuk informasi selengkapnya, lihat [Manajemen pelanggan](https://docs.aws.amazon.com/security-lake/latest/userguide/subscriber-management.html) di *Panduan Pengguna Amazon Security Lake*.  
+  Untuk detail API, lihat [UpdateSubscriber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/securitylake/update-subscriber.html)di *Referensi AWS CLI Perintah*. 

# AWS Serverless Application Repository contoh menggunakan AWS CLI
<a name="cli_2_serverlessapplicationrepository_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS Serverless Application Repository.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `put-application-policy`
<a name="serverlessapplicationrepository_PutApplicationPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-application-policy`.

**AWS CLI**  
**Contoh 1: Untuk berbagi aplikasi secara publik**  
Berikut ini `put-application-policy` membagikan aplikasi secara publik, sehingga siapa pun dapat menemukan dan menyebarkan aplikasi Anda di AWS Serverless Application Repository.  

```
aws serverlessrepo put-application-policy \
    --application-id arn:aws:serverlessrepo:us-east-1:123456789012:applications/my-test-application \
    --statements Principals='*',Actions=Deploy
```
Output:  

```
{
    "Statements": [
        {
            "Actions": [
                "Deploy"
            ],
            "Principals": [
                ""
            ],
            "StatementId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
        }
    ]
}
```
**Contoh 2:** Untuk berbagi aplikasi secara pribadi  
Berikut ini `put-application-policy` membagikan aplikasi secara pribadi, sehingga hanya AWS akun tertentu yang dapat menemukan dan menyebarkan aplikasi Anda di AWS Serverless Application Repository.  

```
aws serverlessrepo put-application-policy \
    --application-id arn:aws:serverlessrepo:us-east-1:123456789012:applications/my-test-application \
    --statements Principals=111111111111,222222222222,Actions=Deploy
```
Output:  

```
{
    "Statements": [
        {
            "Actions": [
                "Deploy"
            ],
            "Principals": [
                "111111111111",
                "222222222222"
            ],
            "StatementId": "a1b2c3d4-5678-90ab-cdef-11111EXAMPLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Berbagi Aplikasi Melalui Konsol](https://docs.aws.amazon.com/serverlessrepo/latest/devguide/serverlessrepo-how-to-publish.html#share-application) di Panduan Pengembang *AWS Repositori Aplikasi Tanpa Server*  
+  Untuk detail API, lihat [PutApplicationPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/serverlessrepo/put-application-policy.html)di *Referensi AWS CLI Perintah*. 

# Contoh Service Catalog menggunakan AWS CLI
<a name="cli_2_service-catalog_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Service Catalog.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `accept-portfolio-share`
<a name="service-catalog_AcceptPortfolioShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`accept-portfolio-share`.

**AWS CLI**  
**Untuk menerima pembagian portofolio**  
`accept-portfolio-share`Contoh berikut menerima penawaran, yang dibuat oleh pengguna lain, untuk berbagi portofolio yang ditentukan.  

```
aws servicecatalog accept-portfolio-share \
    --portfolio-id port-2s6wuabcdefghijk
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AcceptPortfolioShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/accept-portfolio-share.html)di *Referensi AWS CLI Perintah*. 

### `associate-principal-with-portfolio`
<a name="service-catalog_AssociatePrincipalWithPortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-principal-with-portfolio`.

**AWS CLI**  
**Untuk mengasosiasikan prinsipal dengan portofolio**  
`associate-principal-with-portfolio`Contoh berikut mengaitkan pengguna dengan portofolio yang ditentukan.  

```
aws servicecatalog associate-principal-with-portfolio \
    --portfolio-id port-2s6abcdefwdh4 \
    --principal-arn arn:aws:iam::123456789012:user/usertest \
    --principal-type IAM
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AssociatePrincipalWithPortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/associate-principal-with-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `associate-product-with-portfolio`
<a name="service-catalog_AssociateProductWithPortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-product-with-portfolio`.

**AWS CLI**  
**Untuk mengaitkan produk dengan portofolio**  
`associate-product-with-portfolio`Contoh berikut mengaitkan produk yang diberikan dengan portofolio yang ditentukan.  

```
aws servicecatalog associate-product-with-portfolio
     --product-id prod-3p5abcdef3oyk
     --portfolio-id port-2s6abcdef5wdh4
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AssociateProductWithPortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/associate-product-with-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `associate-tag-option-with-resource`
<a name="service-catalog_AssociateTagOptionWithResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-tag-option-with-resource`.

**AWS CLI**  
**Untuk mengasosiasikan a TagOption dengan sumber daya**  
`associate-tag-option-with-resource`Contoh berikut mengaitkan yang ditentukan TagOption dengan sumber daya yang ditentukan.  

```
aws servicecatalog associate-tag-option-with-resource \
    --resource-id port-2s6abcdq5wdh4 \
    --tag-option-id tag-p3abc2pkpz5qc
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AssociateTagOptionWithResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/associate-tag-option-with-resource.html)di *Referensi AWS CLI Perintah*. 

### `copy-product`
<a name="service-catalog_CopyProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`copy-product`.

**AWS CLI**  
**Untuk menyalin produk**  
`copy-product`Contoh berikut membuat salinan dari produk yang ditentukan, menggunakan file JSON untuk meneruskan parameter.  

```
aws servicecatalog copy-product --cli-input-json file://copy-product-input.json
```
Isi dari `copy-product-input.json`:  

```
{
    "SourceProductArn": "arn:aws:catalog:us-west-2:123456789012:product/prod-tcabcd3syn2xy",
    "TargetProductName": "copy-of-myproduct",
    "CopyOptions": [
        "CopyTags"
    ]
}
```
Output:  

```
{
    "CopyProductToken": "copyproduct-abc5defgjkdji"
}
```
+  Untuk detail API, lihat [CopyProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/copy-product.html)di *Referensi AWS CLI Perintah*. 

### `create-portfolio-share`
<a name="service-catalog_CreatePortfolioShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-portfolio-share`.

**AWS CLI**  
**Untuk berbagi portofolio dengan akun**  
`create-portfolio-share`Contoh berikut berbagi portofolio yang ditentukan dengan akun yang ditentukan.  

```
aws servicecatalog create-portfolio-share \
    --portfolio-id port-2s6abcdef5wdh4 \
    --account-id 794123456789
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [CreatePortfolioShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/create-portfolio-share.html)di *Referensi AWS CLI Perintah*. 

### `create-portfolio`
<a name="service-catalog_CreatePortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-portfolio`.

**AWS CLI**  
**Untuk membuat portofolio**  
`create-portfolio`Contoh berikut menciptakan portofolio.  

```
aws servicecatalog create-portfolio  \
    --provider-name my-provider \
    --display-name my-portfolio
```
Output:  

```
{
    "PortfolioDetail": {
        "ProviderName": "my-provider",
        "DisplayName": "my-portfolio",
        "CreatedTime": 1571337221.555,
        "ARN": "arn:aws:catalog:us-east-2:123456789012:portfolio/port-2s6xmplq5wdh4",
        "Id": "port-2s6xmplq5wdh4"
    }
}
```
+  Untuk detail API, lihat [CreatePortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/create-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `create-product`
<a name="service-catalog_CreateProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-product`.

**AWS CLI**  
**Untuk membuat produk**  
`create-product`Contoh berikut membuat produk, menggunakan file JSON untuk meneruskan parameter.  

```
aws servicecatalog create-product \
    --cli-input-json file://create-product-input.json
```
Isi dari `create-product-input.json`:  

```
{
    "AcceptLanguage": "en",
    "Name": "test-product",
    "Owner": "test-owner",
    "Description": "test-description",
    "Distributor": "test-distributor",
    "SupportDescription": "test-support",
    "SupportEmail": "test@amazon.com",
    "SupportUrl": "https://aws.amazon.com",
    "ProductType": "CLOUD_FORMATION_TEMPLATE",
    "Tags": [
        {
            "Key": "region",
            "Value": "us-east-1"
        }
    ],
    "ProvisioningArtifactParameters": {
        "Name": "test-version-name",
        "Description": "test-version-description",
        "Info": {
            "LoadTemplateFromURL": "https://s3-us-west-1.amazonaws.com/cloudformation-templates-us-west-1/my-cfn-template.template"
        },
        "Type": "CLOUD_FORMATION_TEMPLATE"
    }
}
```
Output:  

```
{
    "Tags": [
        {
            "Key": "region",
            "Value": "us-east-1"
        }
    ],
    "ProductViewDetail": {
        "CreatedTime": 1576025036.0,
        "ProductARN": "arn:aws:catalog:us-west-2:1234568542028:product/prod-3p5abcdef3oyk",
        "Status": "CREATED",
        "ProductViewSummary": {
            "Type": "CLOUD_FORMATION_TEMPLATE",
            "Distributor": "test-distributor",
            "SupportUrl": "https://aws.amazon.com",
            "SupportEmail": "test@amazon.com",
            "Id": "prodview-abcd42wvx45um",
            "SupportDescription": "test-support",
            "ShortDescription": "test-description",
            "Owner": "test-owner",
            "Name": "test-product2",
            "HasDefaultPath": false,
            "ProductId": "prod-3p5abcdef3oyk"
        }
    },
    "ProvisioningArtifactDetail": {
        "CreatedTime": 1576025036.0,
        "Active": true,
        "Id": "pa-pq3p5lil12a34",
        "Description": "test-version-description",
        "Name": "test-version-name",
        "Type": "CLOUD_FORMATION_TEMPLATE"
    }
}
```
+  Untuk detail API, lihat [CreateProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/create-product.html)di *Referensi AWS CLI Perintah*. 

### `create-provisioning-artifact`
<a name="service-catalog_CreateProvisioningArtifact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-provisioning-artifact`.

**AWS CLI**  
**Untuk membuat artefak penyediaan**  
`create-provisioning-artifact`Contoh berikut membuat artefak penyediaan, menggunakan file JSON untuk meneruskan parameter.  

```
aws servicecatalog create-provisioning-artifact \
   --cli-input-json file://create-provisioning-artifact-input.json
```
Isi dari `create-provisioning-artifact-input.json`:  

```
{
    "ProductId": "prod-nfi2abcdefghi",
    "Parameters": {
        "Name": "test-provisioning-artifact",
        "Description": "test description",
        "Info": {
            "LoadTemplateFromURL": "https://s3-us-west-1.amazonaws.com/cloudformation-templates-us-west-1/my-cfn-template.template"
        },
        "Type": "CLOUD_FORMATION_TEMPLATE"
    }
}
```
Output:  

```
{
    "Info": {
        "TemplateUrl": "https://s3-us-west-1.amazonaws.com/cloudformation-templates-us-west-1/my-cfn-template.template"
    },
    "Status": "CREATING",
    "ProvisioningArtifactDetail": {
        "Id": "pa-bb4abcdefwnaio",
        "Name": "test-provisioning-artifact",
        "Description": "test description",
        "Active": true,
        "Type": "CLOUD_FORMATION_TEMPLATE",
        "CreatedTime": 1576022545.0
    }
}
```
+  Untuk detail API, lihat [CreateProvisioningArtifact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/create-provisioning-artifact.html)di *Referensi AWS CLI Perintah*. 

### `create-tag-option`
<a name="service-catalog_CreateTagOption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-tag-option`.

**AWS CLI**  
**Untuk membuat TagOption**  
`create-tag-option`Contoh berikut menciptakan a TagOption.  

```
aws servicecatalog create-tag-option
    --key 1234
    --value name
```
Output:  

```
{
    "TagOptionDetail": {
    "Id": "tag-iabcdn4fzjjms",
    "Value": "name",
    "Active": true,
    "Key": "1234"
    }
}
```
+  Untuk detail API, lihat [CreateTagOption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/create-tag-option.html)di *Referensi AWS CLI Perintah*. 

### `delete-portfolio-share`
<a name="service-catalog_DeletePortfolioShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-portfolio-share`.

**AWS CLI**  
**Untuk berhenti berbagi portofolio dengan akun**  
`delete-portfolio-share`Contoh berikut berhenti berbagi portofolio dengan akun yang ditentukan.  

```
aws servicecatalog delete-portfolio-share \
    --portfolio-id port-2s6abcdq5wdh4 \
    --account-id 123456789012
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeletePortfolioShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/delete-portfolio-share.html)di *Referensi AWS CLI Perintah*. 

### `delete-portfolio`
<a name="service-catalog_DeletePortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-portfolio`.

**AWS CLI**  
**Untuk menghapus portofolio**  
`delete-portfolio`Contoh berikut menghapus portofolio yang ditentukan.  

```
aws servicecatalog delete-portfolio \
    --id port-abcdlx4gox4do
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeletePortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/delete-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `delete-product`
<a name="service-catalog_DeleteProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-product`.

**AWS CLI**  
**Untuk menghapus produk**  
`delete-product`Contoh berikut menghapus produk yang ditentukan.  

```
aws servicecatalog delete-product \
    --id prod-abcdcek6yhbxi
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/delete-product.html)di *Referensi AWS CLI Perintah*. 

### `delete-provisioning-artifact`
<a name="service-catalog_DeleteProvisioningArtifact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-provisioning-artifact`.

**AWS CLI**  
**Untuk menghapus artefak penyediaan**  
`delete-provisioning-artifact`Contoh berikut menghapus artefak penyediaan yang ditentukan.  

```
aws servicecatalog delete-provisioning-artifact \
    --product-id prod-abc2uebuplcpw \
    --provisioning-artifact-id pa-pqabcddii7ouc
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteProvisioningArtifact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/delete-provisioning-artifact.html)di *Referensi AWS CLI Perintah*. 

### `delete-tag-option`
<a name="service-catalog_DeleteTagOption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-tag-option`.

**AWS CLI**  
**Untuk menghapus TagOption**  
`delete-tag-option`Contoh berikut menghapus yang ditentukan TagOption.  

```
aws servicecatalog delete-tag-option \
    --id tag-iabcdn4fzjjms
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteTagOption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/delete-tag-option.html)di *Referensi AWS CLI Perintah*. 

### `describe-copy-product-status`
<a name="service-catalog_DescribeCopyProductStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-copy-product-status`.

**AWS CLI**  
**Untuk menggambarkan status operasi produk salinan**  
`describe-copy-product-status`Contoh berikut menampilkan status saat ini dari operasi produk salinan asinkron yang ditentukan.  

```
aws servicecatalog describe-copy-product-status \
    --copy-product-token copyproduct-znn5tf5abcd3w
```
Output:  

```
{
    "CopyProductStatus": "SUCCEEDED",
    "TargetProductId": "prod-os6hog7abcdt2"
}
```
+  Untuk detail API, lihat [DescribeCopyProductStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/describe-copy-product-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-portfolio`
<a name="service-catalog_DescribePortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-portfolio`.

**AWS CLI**  
**Untuk menggambarkan portofolio**  
`describe-portfolio`Contoh berikut menampilkan rincian untuk portofolio yang ditentukan.  

```
aws servicecatalog describe-portfolio \
    --id port-2s6abcdq5wdh4
```
Output:  

```
{
    "TagOptions": [],
    "PortfolioDetail": {
        "ARN": "arn:aws:catalog:us-west-2:687558541234:portfolio/port-2s6abcdq5wdh4",
        "Id": "port-2s6wuzyq5wdh4",
        "CreatedTime": 1571337221.555,
        "DisplayName": "my-portfolio",
        "ProviderName": "my-provider"
    },
    "Tags": []
}
```
+  Untuk detail API, lihat [DescribePortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/describe-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `describe-product-as-admin`
<a name="service-catalog_DescribeProductAsAdmin_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-product-as-admin`.

**AWS CLI**  
**Untuk menggambarkan suatu produk sebagai administrator**  
`describe-product-as-admin`Contoh berikut menampilkan rincian untuk produk yang ditentukan menggunakan hak administrator.  

```
aws servicecatalog describe-product-as-admin \
    --id prod-abcdcek6yhbxi
```
Output:  

```
{
    "TagOptions": [],
    "ProductViewDetail": {
        "ProductARN": "arn:aws:catalog:us-west-2:687558542028:product/prod-abcdcek6yhbxi",
        "ProductViewSummary": {
            "SupportEmail": "test@amazon.com",
            "Type": "CLOUD_FORMATION_TEMPLATE",
            "Distributor": "test-distributor",
            "ShortDescription": "test-description",
            "Owner": "test-owner",
            "Id": "prodview-wi3l2j4abc6vc",
            "SupportDescription": "test-support",
            "ProductId": "prod-abcdcek6yhbxi",
            "HasDefaultPath": false,
            "Name": "test-product3",
            "SupportUrl": "https://aws.amazon.com"
        },
        "CreatedTime": 1577136715.0,
        "Status": "CREATED"
    },
    "ProvisioningArtifactSummaries": [
        {
            "CreatedTime": 1577136715.0,
            "Description": "test-version-description",
            "ProvisioningArtifactMetadata": {
                "SourceProvisioningArtifactId": "pa-abcdxkkiv5fcm"
            },
            "Name": "test-version-name-3",
            "Id": "pa-abcdxkkiv5fcm"
        }
    ],
    "Tags": [
        {
            "Value": "iad",
            "Key": "region"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeProductAsAdmin](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/describe-product-as-admin.html)di *Referensi AWS CLI Perintah*. 

### `describe-provisioned-product`
<a name="service-catalog_DescribeProvisionedProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-provisioned-product`.

**AWS CLI**  
**Untuk menggambarkan produk yang disediakan**  
`describe-provisioned-product`Contoh berikut menampilkan rincian untuk produk yang disediakan tertentu.  

```
aws servicecatalog describe-provisioned-product \
    --id pp-dpom27bm4abcd
```
Output:  

```
{
    "ProvisionedProductDetail": {
        "Status": "ERROR",
        "CreatedTime": 1577222793.358,
        "Arn": "arn:aws:servicecatalog:us-west-2:123456789012:stack/mytestppname3/pp-dpom27bm4abcd",
        "Id": "pp-dpom27bm4abcd",
        "StatusMessage": "AmazonCloudFormationException  Parameters: [KeyName] must have values (Service: AmazonCloudFormation; Status Code: 400; Error Code: ValidationError; Request ID: 5528602a-a9ef-427c-825c-f82c31b814f5)",
        "IdempotencyToken": "527c5358-2a1a-4b9e-b1b9-7293b0ddff42",
        "LastRecordId": "rec-tfuawdjovzxge",
        "Type": "CFN_STACK",
        "Name": "mytestppname3"
    },
    "CloudWatchDashboards": []
}
```
+  Untuk detail API, lihat [DescribeProvisionedProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/describe-provisioned-product.html)di *Referensi AWS CLI Perintah*. 

### `describe-provisioning-artifact`
<a name="service-catalog_DescribeProvisioningArtifact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-provisioning-artifact`.

**AWS CLI**  
**Untuk menggambarkan artefak penyediaan**  
`describe-provisioning-artifact`Contoh berikut menampilkan rincian untuk artefak penyediaan tertentu.  

```
aws servicecatalog describe-provisioning-artifact \
    --provisioning-artifact-id pa-pcz347abcdcfm \
    --product-id prod-abcdfz3syn2rg
```
Output:  

```
{
    "Info": {
        "TemplateUrl": "https://awsdocs.s3.amazonaws.com/servicecatalog/myexampledevelopment-environment.template"
    },
    "ProvisioningArtifactDetail": {
        "Id": "pa-pcz347abcdcfm",
        "Active": true,
        "Type": "CLOUD_FORMATION_TEMPLATE",
        "Description": "updated description",
        "CreatedTime": 1562097906.0,
        "Name": "updated name"
    },
    "Status": "AVAILABLE"
}
```
+  Untuk detail API, lihat [DescribeProvisioningArtifact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/describe-provisioning-artifact.html)di *Referensi AWS CLI Perintah*. 

### `describe-tag-option`
<a name="service-catalog_DescribeTagOption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tag-option`.

**AWS CLI**  
**Untuk menggambarkan TagOption**  
`describe-tag-option`Contoh berikut menampilkan rincian untuk yang ditentukan TagOption.  

```
aws servicecatalog describe-tag-option \
    --id tag-p3tej2abcd5qc
```
Output:  

```
{
    "TagOptionDetail": {
        "Active": true,
        "Id": "tag-p3tej2abcd5qc",
        "Value": "value-3",
        "Key": "1234"
    }
}
```
+  Untuk detail API, lihat [DescribeTagOption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/describe-tag-option.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-principal-from-portfolio`
<a name="service-catalog_DisassociatePrincipalFromPortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-principal-from-portfolio`.

**AWS CLI**  
**Untuk memisahkan kepala sekolah dari portofolio**  
`disassociate-principal-from-portfolio`Contoh berikut memisahkan prinsipal yang ditentukan dari portofolio.  

```
aws servicecatalog disassociate-principal-from-portfolio \
    --portfolio-id port-2s6abcdq5wdh4 \
    --principal-arn arn:aws:iam::123456789012:group/myendusers
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DisassociatePrincipalFromPortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/disassociate-principal-from-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-product-from-portfolio`
<a name="service-catalog_DisassociateProductFromPortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-product-from-portfolio`.

**AWS CLI**  
**Untuk memisahkan produk dari portofolio**  
`disassociate-product-from-portfolio`Contoh berikut memisahkan produk yang ditentukan dari portofolio.  

```
aws servicecatalog disassociate-product-from-portfolio \
    --product-id prod-3p5abcdmu3oyk \
    --portfolio-id port-2s6abcdq5wdh4
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DisassociateProductFromPortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/disassociate-product-from-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-tag-option-from-resource`
<a name="service-catalog_DisassociateTagOptionFromResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-tag-option-from-resource`.

**AWS CLI**  
**Untuk memisahkan a TagOption dari sumber daya**  
`disassociate-tag-option-from-resource`Contoh berikut memisahkan yang ditentukan `TagOption` dari sumber daya.  

```
aws servicecatalog disassociate-tag-option-from-resource \
     --resource-id port-2s6abcdq5wdh4 \
     --tag-option-id tag-p3abc2pkpz5qc
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DisassociateTagOptionFromResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/disassociate-tag-option-from-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-accepted-portfolio-shares`
<a name="service-catalog_ListAcceptedPortfolioShares_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-accepted-portfolio-shares`.

**AWS CLI**  
**Untuk mencantumkan saham portofolio yang diterima**  
`list-accepted-portfolio-shares`Contoh berikut mencantumkan semua portofolio yang berbagi diterima oleh akun ini, termasuk hanya portofolio Service Catalog default.  

```
aws servicecatalog list-accepted-portfolio-shares \
    --portfolio-share-type "AWS_SERVICECATALOG"
```
Output:  

```
{
    "PortfolioDetails": [
        {
            "ARN": "arn:aws:catalog:us-west-2:123456789012:portfolio/port-d2abcd5dpkuma",
            "Description": "AWS Service Catalog Reference blueprints for often-used AWS services such as EC2, S3, RDS, VPC and EMR.",
            "CreatedTime": 1574456190.687,
            "ProviderName": "AWS Service Catalog",
            "DisplayName": "Reference Architectures",
            "Id": "port-d2abcd5dpkuma"
        },
        {
            "ARN": "arn:aws:catalog:us-west-2:123456789012:portfolio/port-abcdefaua7zpu",
            "Description": "AWS well-architected blueprints for high reliability applications.",
            "CreatedTime": 1574461496.092,
            "ProviderName": "AWS Service Catalog",
            "DisplayName": "High Reliability Architectures",
            "Id": "port-abcdefaua7zpu"
        }
    ]
}
```
+  Untuk detail API, lihat [ListAcceptedPortfolioShares](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/list-accepted-portfolio-shares.html)di *Referensi AWS CLI Perintah*. 

### `list-portfolio-access`
<a name="service-catalog_ListPortfolioAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-portfolio-access`.

**AWS CLI**  
**Untuk membuat daftar akun dengan akses ke portofolio**  
`list-portfolio-access`Contoh berikut mencantumkan AWS akun yang memiliki akses ke portofolio yang ditentukan.  

```
aws servicecatalog list-portfolio-access \
    --portfolio-id port-2s6abcdq5wdh4
```
Output:  

```
{
    "AccountIds": [
        "123456789012"
    ]
}
```
+  Untuk detail API, lihat [ListPortfolioAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/list-portfolio-access.html)di *Referensi AWS CLI Perintah*. 

### `list-portfolios-for-product`
<a name="service-catalog_ListPortfoliosForProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-portfolios-for-product`.

**AWS CLI**  
**Untuk daftar portofolio yang terkait dengan produk**  
`list-portfolios-for-product`Contoh berikut mencantumkan portofolio yang terkait dengan produk yang ditentukan.  

```
aws servicecatalog list-portfolios-for-product \
    --product-id prod-abcdfz3syn2rg
```
Output:  

```
{
    "PortfolioDetails": [
        {
            "CreatedTime": 1571337221.555,
            "Id": "port-2s6abcdq5wdh4",
            "ARN": "arn:aws:catalog:us-west-2:123456789012:portfolio/port-2s6abcdq5wdh4",
            "DisplayName": "my-portfolio",
            "ProviderName": "my-provider"
        },
        {
            "CreatedTime": 1559665256.348,
            "Id": "port-5abcd3e5st4ei",
            "ARN": "arn:aws:catalog:us-west-2:123456789012:portfolio/port-5abcd3e5st4ei",
            "DisplayName": "test",
            "ProviderName": "provider-name"
        }
    ]
}
```
+  Untuk detail API, lihat [ListPortfoliosForProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/list-portfolios-for-product.html)di *Referensi AWS CLI Perintah*. 

### `list-portfolios`
<a name="service-catalog_ListPortfolios_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-portfolios`.

**AWS CLI**  
**Untuk daftar portofolio**  
`list-portfolios`Contoh berikut mencantumkan portofolio Service Catalog di Wilayah saat ini.  

```
aws servicecatalog list-portfolios
```
Output:  

```
{
    "PortfolioDetails": [
        {
           "CreatedTime": 1559665256.348,
           "ARN": "arn:aws:catalog:us-east-2:123456789012:portfolio/port-5pzcxmplst4ei",
           "DisplayName": "my-portfolio",
           "Id": "port-5pzcxmplst4ei",
           "ProviderName": "my-user"
        }
    ]
}
```
+  Untuk detail API, lihat [ListPortfolios](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/list-portfolios.html)di *Referensi AWS CLI Perintah*. 

### `list-principals-for-portfolio`
<a name="service-catalog_ListPrincipalsForPortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-principals-for-portfolio`.

**AWS CLI**  
**Untuk daftar semua prinsipal untuk portofolio**  
`list-principals-for-portfolio`Contoh berikut mencantumkan semua prinsipal untuk portofolio yang ditentukan.  

```
aws servicecatalog list-principals-for-portfolio \
    --portfolio-id port-2s6abcdq5wdh4
```
Output:  

```
{
    "Principals": [
        {
            "PrincipalARN": "arn:aws:iam::123456789012:user/usertest",
            "PrincipalType": "IAM"
        }
    ]
}
```
+  Untuk detail API, lihat [ListPrincipalsForPortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/list-principals-for-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `list-provisioning-artifacts`
<a name="service-catalog_ListProvisioningArtifacts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-provisioning-artifacts`.

**AWS CLI**  
**Untuk mencantumkan semua artefak penyediaan untuk suatu produk**  
`list-provisioning-artifacts`Contoh berikut mencantumkan semua artefak penyediaan untuk produk yang ditentukan.  

```
aws servicecatalog list-provisioning-artifacts \
    --product-id prod-nfi2abcdefgcpw
```
Output:  

```
{
    "ProvisioningArtifactDetails": [
        {
            "Id": "pa-abcdef54ipm6z",
            "Description": "test-version-description",
            "Type": "CLOUD_FORMATION_TEMPLATE",
            "CreatedTime": 1576021147.0,
            "Active": true,
            "Name": "test-version-name"
        },
        {
            "Id": "pa-bb4zyxwwnaio",
            "Description": "test description",
            "Type": "CLOUD_FORMATION_TEMPLATE",
            "CreatedTime": 1576022545.0,
            "Active": true,
            "Name": "test-provisioning-artifact-2"
        }
    ]
}
```
+  Untuk detail API, lihat [ListProvisioningArtifacts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/list-provisioning-artifacts.html)di *Referensi AWS CLI Perintah*. 

### `list-resources-for-tag-option`
<a name="service-catalog_ListResourcesForTagOption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resources-for-tag-option`.

**AWS CLI**  
**Untuk membuat daftar sumber daya yang terkait dengan TagOption**  
`list-resources-for-tag-option`Contoh berikut mencantumkan sumber daya yang terkait dengan yang ditentukan`TagOption`.  

```
aws servicecatalog list-resources-for-tag-option \
    --tag-option-id tag-p3tej2abcd5qc
```
Output:  

```
{
    "ResourceDetails": [
        {
            "ARN": "arn:aws:catalog:us-west-2:123456789012:product/prod-abcdfz3syn2rg",
            "Name": "my product",
            "Description": "description",
            "CreatedTime": 1562097906.0,
            "Id": "prod-abcdfz3syn2rg"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourcesForTagOption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/list-resources-for-tag-option.html)di *Referensi AWS CLI Perintah*. 

### `list-tag-options`
<a name="service-catalog_ListTagOptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tag-options`.

**AWS CLI**  
`list-tag-options`Contoh berikut mencantumkan semua nilai untuk`TagOptions`.  

```
aws servicecatalog list-tag-options
```
Output:  

```
{
    "TagOptionDetails": [
        {
            "Value": "newvalue",
            "Active": true,
            "Id": "tag-iabcdn4fzjjms",
            "Key": "1234"
        },
        {
            "Value": "value1",
            "Active": true,
            "Id": "tag-e3abcdvmwvrzy",
            "Key": "key"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTagOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/list-tag-options.html)di *Referensi AWS CLI Perintah*. 

### `provision-product`
<a name="service-catalog_ProvisionProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`provision-product`.

**AWS CLI**  
**Untuk menyediakan produk**  
`provision-product`Contoh berikut menyediakan produk yang ditentukan menggunakan artefak penyediaan yang ditentukan.  

```
aws servicecatalog provision-product \
    --product-id prod-abcdfz3syn2rg \
    --provisioning-artifact-id pa-abc347pcsccfm \
    --provisioned-product-name "mytestppname3"
```
Output:  

```
{
    "RecordDetail": {
        "RecordId": "rec-tfuawdabcdege",
        "CreatedTime": 1577222793.362,
        "ProvisionedProductId": "pp-abcd27bm4mldq",
        "PathId": "lpv2-abcdg3jp6t5k6",
        "RecordErrors": [],
        "ProductId": "prod-abcdfz3syn2rg",
        "UpdatedTime": 1577222793.362,
        "RecordType": "PROVISION_PRODUCT",
        "ProvisionedProductName": "mytestppname3",
        "ProvisioningArtifactId": "pa-pcz347abcdcfm",
        "RecordTags": [],
        "Status": "CREATED",
        "ProvisionedProductType": "CFN_STACK"
    }
}
```
+  Untuk detail API, lihat [ProvisionProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/provision-product.html)di *Referensi AWS CLI Perintah*. 

### `reject-portfolio-share`
<a name="service-catalog_RejectPortfolioShare_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reject-portfolio-share`.

**AWS CLI**  
**Untuk menolak pembagian portofolio**  
`reject-portfolio-share`Contoh berikut menolak pangsa portofolio untuk portofolio yang diberikan.  

```
aws servicecatalog reject-portfolio-share \
    --portfolio-id port-2s6wuabcdefghijk
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [RejectPortfolioShare](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/reject-portfolio-share.html)di *Referensi AWS CLI Perintah*. 

### `scan-provisioned-products`
<a name="service-catalog_ScanProvisionedProducts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`scan-provisioned-products`.

**AWS CLI**  
**Untuk mencantumkan semua produk yang tersedia**  
`scan-provisioned-products`Contoh berikut mencantumkan produk yang disediakan yang tersedia.  

```
aws servicecatalog scan-provisioned-products
```
Output:  

```
{
    "ProvisionedProducts": [
        {
            "Status": "ERROR",
            "Arn": "arn:aws:servicecatalog:us-west-2:123456789012:stack/mytestppname3/pp-abcd27bm4mldq",
            "StatusMessage": "AmazonCloudFormationException  Parameters: [KeyName] must have values (Service: AmazonCloudFormation; Status Code: 400; Error Code: ValidationError; Request ID: 5528602a-a9ef-427c-825c-f82c31b814f5)",
            "Id": "pp-abcd27bm4mldq",
            "Type": "CFN_STACK",
            "IdempotencyToken": "527c5358-2a1a-4b9e-b1b9-7293b0ddff42",
            "CreatedTime": 1577222793.358,
            "Name": "mytestppname3",
            "LastRecordId": "rec-tfuawdabcdxge"
        }
    ]
}
```
+  Untuk detail API, lihat [ScanProvisionedProducts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/scan-provisioned-products.html)di *Referensi AWS CLI Perintah*. 

### `search-products-as-admin`
<a name="service-catalog_SearchProductsAsAdmin_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-products-as-admin`.

**AWS CLI**  
**Untuk mencari produk dengan hak administrator**  
`search-products-as-admin`Contoh berikut mencari produk dengan hak istimewa admin, menggunakan ID portofolio sebagai filter.  

```
aws servicecatalog search-products-as-admin \
    --portfolio-id port-5abcd3e5st4ei
```
Output:  

```
{
    "ProductViewDetails": [
        {
            "ProductViewSummary": {
                "Name": "my product",
                "Owner": "owner name",
                "Type": "CLOUD_FORMATION_TEMPLATE",
                "ProductId": "prod-abcdfz3syn2rg",
                "HasDefaultPath": false,
                "Id": "prodview-abcdmyuzv2dlu",
                "ShortDescription": "description"
            },
            "ProductARN": "arn:aws:catalog:us-west-2:123456789012:product/prod-abcdfz3syn2rg",
            "CreatedTime": 1562097906.0,
            "Status": "CREATED"
        }
    ]
}
```
+  Untuk detail API, lihat [SearchProductsAsAdmin](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/search-products-as-admin.html)di *Referensi AWS CLI Perintah*. 

### `search-provisioned-products`
<a name="service-catalog_SearchProvisionedProducts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`search-provisioned-products`.

**AWS CLI**  
**Untuk mencari produk yang disediakan**  
`search-provisioned-products`Contoh berikut mencari produk yang disediakan yang cocok dengan ID produk yang ditentukan, menggunakan file JSON untuk meneruskan parameter.  

```
aws servicecatalog search-provisioned-products \
    --cli-input-json file://search-provisioned-products-input.json
```
Isi dari `search-provisioned-products-input.json`:  

```
{
    "Filters": {
        "SearchQuery": [
            "prod-tcjvfz3syn2rg"
        ]
    }
}
```
Output:  

```
{
    "ProvisionedProducts": [
        {
            "ProvisioningArtifactId": "pa-pcz347abcdcfm",
            "Name": "mytestppname3",
            "CreatedTime": 1577222793.358,
            "Id": "pp-abcd27bm4mldq",
            "Status": "ERROR",
            "UserArn": "arn:aws:iam::123456789012:user/cliuser",
            "StatusMessage": "AmazonCloudFormationException  Parameters: [KeyName] must have values (Service: AmazonCloudFormation; Status Code: 400; Error Code: ValidationError; Request ID: 5528602a-a9ef-427c-825c-f82c31b814f5)",
            "Arn": "arn:aws:servicecatalog:us-west-2:123456789012:stack/mytestppname3/pp-abcd27bm4mldq",
            "Tags": [
                {
                    "Value": "arn:aws:catalog:us-west-2:123456789012:product/prod-abcdfz3syn2rg",
                    "Key": "aws:servicecatalog:productArn"
                },
                {
                    "Value": "arn:aws:iam::123456789012:user/cliuser",
                    "Key": "aws:servicecatalog:provisioningPrincipalArn"
                },
                {
                    "Value": "value-3",
                    "Key": "1234"
                },
                {
                    "Value": "pa-pcz347abcdcfm",
                    "Key": "aws:servicecatalog:provisioningArtifactIdentifier"
                },
                {
                    "Value": "arn:aws:catalog:us-west-2:123456789012:portfolio/port-2s6abcdq5wdh4",
                    "Key": "aws:servicecatalog:portfolioArn"
                },
                {
                    "Value": "arn:aws:servicecatalog:us-west-2:123456789012:stack/mytestppname3/pp-abcd27bm4mldq",
                    "Key": "aws:servicecatalog:provisionedProductArn"
                }
            ],
            "IdempotencyToken": "527c5358-2a1a-4b9e-b1b9-7293b0ddff42",
            "UserArnSession": "arn:aws:iam::123456789012:user/cliuser",
            "Type": "CFN_STACK",
            "LastRecordId": "rec-tfuawdabcdxge",
            "ProductId": "prod-abcdfz3syn2rg"
        }
    ],
    "TotalResultsCount": 1
}
```
+  Untuk detail API, lihat [SearchProvisionedProducts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/search-provisioned-products.html)di *Referensi AWS CLI Perintah*. 

### `update-portfolio`
<a name="service-catalog_UpdatePortfolio_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-portfolio`.

**AWS CLI**  
**Untuk memperbarui portofolio**  
`update-portfolio`Contoh berikut memperbarui nama portofolio yang ditentukan.  

```
aws servicecatalog update-portfolio \
    --id port-5abcd3e5st4ei \
    --display-name "New portfolio name"
```
Output:  

```
{
    "PortfolioDetail": {
        "DisplayName": "New portfolio name",
        "ProviderName": "provider",
        "ARN": "arn:aws:catalog:us-west-2:123456789012:portfolio/port-5abcd3e5st4ei",
        "Id": "port-5abcd3e5st4ei",
        "CreatedTime": 1559665256.348
    },
    "Tags": []
}
```
+  Untuk detail API, lihat [UpdatePortfolio](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/update-portfolio.html)di *Referensi AWS CLI Perintah*. 

### `update-product`
<a name="service-catalog_UpdateProduct_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-product`.

**AWS CLI**  
**Untuk memperbarui produk**  
`update-product`Contoh berikut memperbarui nama dan pemilik produk yang ditentukan.  

```
aws servicecatalog update-product \
    --id prod-os6abc7drqlt2 \
    --name "New product name" \
    --owner "Updated product owner"
```
Output:  

```
{
    "Tags": [
        {
            "Value": "iad",
            "Key": "region"
        }
    ],
    "ProductViewDetail": {
        "ProductViewSummary": {
            "Owner": "Updated product owner",
            "ProductId": "prod-os6abc7drqlt2",
            "Distributor": "test-distributor",
            "SupportUrl": "https://aws.amazon.com",
            "Name": "New product name",
            "ShortDescription": "test-description",
            "HasDefaultPath": false,
            "Id": "prodview-6abcdgrfhvidy",
            "SupportDescription": "test-support",
            "SupportEmail": "test@amazon.com",
            "Type": "CLOUD_FORMATION_TEMPLATE"
        },
        "Status": "CREATED",
        "ProductARN": "arn:aws:catalog:us-west-2:123456789012:product/prod-os6abc7drqlt2",
        "CreatedTime": 1577136255.0
    }
}
```
+  Untuk detail API, lihat [UpdateProduct](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/update-product.html)di *Referensi AWS CLI Perintah*. 

### `update-provisioning-artifact`
<a name="service-catalog_UpdateProvisioningArtifact_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-provisioning-artifact`.

**AWS CLI**  
**Untuk memperbarui artefak penyediaan**  
`update-provisioning-artifact`Contoh berikut memperbarui nama dan deskripsi artefak penyediaan yang ditentukan, menggunakan file JSON untuk meneruskan parameter.  

```
aws servicecatalog update-provisioning-artifact \
    --cli-input-json file://update-provisioning-artifact-input.json
```
Isi dari `update-provisioning-artifact-input.json`:  

```
{
    "ProductId": "prod-abcdfz3syn2rg",
    "ProvisioningArtifactId": "pa-pcz347abcdcfm",
    "Name": "updated name",
    "Description": "updated description"
}
```
Output:  

```
{
    "Info": {
        "TemplateUrl": "https://awsdocs.s3.amazonaws.com/servicecatalog/myexampledevelopment-environment.template"
    },
    "Status": "AVAILABLE",
    "ProvisioningArtifactDetail": {
        "Active": true,
        "Description": "updated description",
        "Id": "pa-pcz347abcdcfm",
        "Name": "updated name",
        "Type": "CLOUD_FORMATION_TEMPLATE",
        "CreatedTime": 1562097906.0
    }
}
```
+  Untuk detail API, lihat [UpdateProvisioningArtifact](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/update-provisioning-artifact.html)di *Referensi AWS CLI Perintah*. 

### `update-tag-option`
<a name="service-catalog_UpdateTagOption_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-tag-option`.

**AWS CLI**  
**Untuk memperbarui TagOption**  
`update-tag-option`Contoh berikut memperbarui nilai`TagOption`, menggunakan file JSON yang ditentukan.  

```
aws servicecatalog update-tag-option --cli-input-json file://update-tag-option-input.json
```
Isi dari `update-tag-option-input.json`:  

```
{
    "Id": "tag-iabcdn4fzjjms",
    "Value": "newvalue",
    "Active": true
}
```
Output:  

```
{
    "TagOptionDetail": {
        "Value": "newvalue",
        "Key": "1234",
        "Active": true,
        "Id": "tag-iabcdn4fzjjms"
    }
}
```
+  Untuk detail API, lihat [UpdateTagOption](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/servicecatalog/update-tag-option.html)di *Referensi AWS CLI Perintah*. 

# Contoh Service Quotas menggunakan AWS CLI
<a name="cli_2_service-quotas_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Service Quotas AWS Command Line Interface with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `get-aws-default-service-quota`
<a name="service-quotas_GetAwsDefaultServiceQuota_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-aws-default-service-quota`.

**AWS CLI**  
**Untuk mendeskripsikan kuota layanan default**  
`get-aws-default-service-quota`Contoh berikut menampilkan rincian untuk kuota yang ditentukan.  

```
aws service-quotas get-aws-default-service-quota \
    --service-code ec2 \
    --quota-code L-1216C47A
```
Output:  

```
{
    "Quota": {
        "ServiceCode": "ec2",
        "ServiceName": "Amazon Elastic Compute Cloud (Amazon EC2)",
        "QuotaArn": "arn:aws:servicequotas:us-east-2::ec2/L-1216C47A",
        "QuotaCode": "L-1216C47A",
        "QuotaName": "Running On-Demand Standard (A, C, D, H, I, M, R, T, Z) instances",
        "Value": 5.0,
        "Unit": "None",
        "Adjustable": true,
        "GlobalQuota": false,
        "UsageMetric": {
            "MetricNamespace": "AWS/Usage",
            "MetricName": "ResourceCount",
            "MetricDimensions": {
                "Class": "Standard/OnDemand",
                "Resource": "vCPU",
                "Service": "EC2",
                "Type": "Resource"
            },
            "MetricStatisticRecommendation": "Maximum"
        }
    }
}
```
+  Untuk detail API, lihat [GetAwsDefaultServiceQuota](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/get-aws-default-service-quota.html)di *Referensi AWS CLI Perintah*. 

### `get-requested-service-quota-change`
<a name="service-quotas_GetRequestedServiceQuotaChange_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-requested-service-quota-change`.

**AWS CLI**  
**Untuk menjelaskan permintaan peningkatan kuota layanan**  
`get-requested-service-quota-change`Contoh berikut menjelaskan permintaan peningkatan kuota yang ditentukan.  

```
aws service-quotas get-requested-service-quota-change \
    --request-id d187537d15254312a9609aa51bbf7624u7W49tPO
```
Output:  

```
{
    "RequestedQuota": {
        "Id": "d187537d15254312a9609aa51bbf7624u7W49tPO",
        "CaseId": "6780195351",
        "ServiceCode": "ec2",
        "ServiceName": "Amazon Elastic Compute Cloud (Amazon EC2)",
        "QuotaCode": "L-20F13EBD",
        "QuotaName": "Running Dedicated c5n Hosts",
        "DesiredValue": 2.0,
        "Status": "CASE_OPENED",
        "Created": 1580446904.067,
        "LastUpdated": 1580446953.265,
        "Requester": "{\"accountId\":\"123456789012\",\"callerArn\":\"arn:aws:iam::123456789012:root\"}",
        "QuotaArn": "arn:aws:servicequotas:us-east-2:123456789012:ec2/L-20F13EBD",
        "GlobalQuota": false,
        "Unit": "None"
    }
}
```
+  Untuk detail API, lihat [GetRequestedServiceQuotaChange](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/get-requested-service-quota-change.html)di *Referensi AWS CLI Perintah*. 

### `get-service-quota`
<a name="service-quotas_GetServiceQuota_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-quota`.

**AWS CLI**  
**Untuk mendeskripsikan kuota layanan**  
`get-service-quota`Contoh berikut menampilkan rincian tentang kuota yang ditentukan.  

```
aws service-quotas get-service-quota \
    --service-code ec2 \
    --quota-code L-1216C47A
```
Output:  

```
{
    "Quota": {
        "ServiceCode": "ec2",
        "ServiceName": "Amazon Elastic Compute Cloud (Amazon EC2)",
        "QuotaArn": "arn:aws:servicequotas:us-east-2:123456789012:ec2/L-1216C47A",
        "QuotaCode": "L-1216C47A",
        "QuotaName": "Running On-Demand Standard (A, C, D, H, I, M, R, T, Z) instances",
        "Value": 1920.0,
        "Unit": "None",
        "Adjustable": true,
        "GlobalQuota": false,
        "UsageMetric": {
            "MetricNamespace": "AWS/Usage",
            "MetricName": "ResourceCount",
            "MetricDimensions": {
                "Class": "Standard/OnDemand",
                "Resource": "vCPU",
                "Service": "EC2",
                "Type": "Resource"
            },
            "MetricStatisticRecommendation": "Maximum"
        }
    }
}
```
+  Untuk detail API, lihat [GetServiceQuota](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/get-service-quota.html)di *Referensi AWS CLI Perintah*. 

### `list-aws-default-service-quotas`
<a name="service-quotas_ListAwsDefaultServiceQuotas_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-aws-default-service-quotas`.

**AWS CLI**  
**Untuk membuat daftar kuota default untuk layanan**  
`list-aws-default-service-quotas`Contoh berikut mencantumkan nilai default untuk kuota untuk layanan yang ditentukan.  

```
aws service-quotas list-aws-default-service-quotas \
    --service-code xray
```
Output:  

```
{
    "Quotas": [
        {
            "ServiceCode": "xray",
            "ServiceName": "AWS X-Ray",
            "QuotaArn": "arn:aws:servicequotas:us-west-2::xray/L-C6B6F05D",
            "QuotaCode": "L-C6B6F05D",
            "QuotaName": "Indexed annotations per trace",
            "Value": 50.0,
            "Unit": "None",
            "Adjustable": false,
            "GlobalQuota": false
        },
        {
            "ServiceCode": "xray",
            "ServiceName": "AWS X-Ray",
            "QuotaArn": "arn:aws:servicequotas:us-west-2::xray/L-D781C0FD",
            "QuotaCode": "L-D781C0FD",
            "QuotaName": "Segment document size",
            "Value": 64.0,
            "Unit": "Kilobytes",
            "Adjustable": false,
            "GlobalQuota": false
        },
        {
            "ServiceCode": "xray",
            "ServiceName": "AWS X-Ray",
            "QuotaArn": "arn:aws:servicequotas:us-west-2::xray/L-998BFF16",
            "QuotaCode": "L-998BFF16",
            "QuotaName": "Trace and service graph retention in days",
            "Value": 30.0,
            "Unit": "None",
            "Adjustable": false,
            "GlobalQuota": false
        }
    ]
}
```
+  Untuk detail API, lihat [ListAwsDefaultServiceQuotas](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/list-aws-default-service-quotas.html)di *Referensi AWS CLI Perintah*. 

### `list-requested-service-quota-change-history-by-quota`
<a name="service-quotas_ListRequestedServiceQuotaChangeHistoryByQuota_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-requested-service-quota-change-history-by-quota`.

**AWS CLI**  
**Untuk membuat daftar permintaan peningkatan kuota**  
`list-requested-service-quota-change-history-by-quota`Contoh berikut mencantumkan permintaan peningkatan kuota untuk kuota yang ditentukan.  

```
aws service-quotas list-requested-service-quota-change-history-by-quota \
    --service-code ec2 \
    --quota-code L-20F13EBD
```
Output:  

```
{
    "RequestedQuotas": [
        {
            "Id": "d187537d15254312a9609aa51bbf7624u7W49tPO",
            "CaseId": "6780195351",
            "ServiceCode": "ec2",
            "ServiceName": "Amazon Elastic Compute Cloud (Amazon EC2)",
            "QuotaCode": "L-20F13EBD",
            "QuotaName": "Running Dedicated c5n Hosts",
            "DesiredValue": 2.0,
            "Status": "CASE_OPENED",
            "Created": 1580446904.067,
            "LastUpdated": 1580446953.265,
            "Requester": "{\"accountId\":\"123456789012\",\"callerArn\":\"arn:aws:iam::123456789012:root\"}",
            "QuotaArn": "arn:aws:servicequotas:us-east-2:123456789012:ec2/L-20F13EBD",
            "GlobalQuota": false,
            "Unit": "None"
        }
    ]
}
```
+  Untuk detail API, lihat [ListRequestedServiceQuotaChangeHistoryByQuota](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/list-requested-service-quota-change-history-by-quota.html)di *Referensi AWS CLI Perintah*. 

### `list-requested-service-quota-change-history`
<a name="service-quotas_ListRequestedServiceQuotaChangeHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-requested-service-quota-change-history`.

**AWS CLI**  
**Untuk membuat daftar permintaan peningkatan kuota**  
`list-requested-service-quota-change-history`Contoh berikut mencantumkan permintaan peningkatan kuota untuk layanan yang ditentukan.  

```
aws service-quotas list-requested-service-quota-change-history \
    --service-code ec2
```
Output:  

```
{
    "RequestedQuotas": [
        {
            "Id": "d187537d15254312a9609aa51bbf7624u7W49tPO",
            "CaseId": "6780195351",
            "ServiceCode": "ec2",
            "ServiceName": "Amazon Elastic Compute Cloud (Amazon EC2)",
            "QuotaCode": "L-20F13EBD",
            "QuotaName": "Running Dedicated c5n Hosts",
            "DesiredValue": 2.0,
            "Status": "CASE_OPENED",
            "Created": 1580446904.067,
            "LastUpdated": 1580446953.265,
            "Requester": "{\"accountId\":\"123456789012\",\"callerArn\":\"arn:aws:iam::123456789012:root\"}",
            "QuotaArn": "arn:aws:servicequotas:us-east-2:123456789012:ec2/L-20F13EBD",
            "GlobalQuota": false,
            "Unit": "None"
        }
    ]
}
```
+  Untuk detail API, lihat [ListRequestedServiceQuotaChangeHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/list-requested-service-quota-change-history.html)di *Referensi AWS CLI Perintah*. 

### `list-service-quotas`
<a name="service-quotas_ListServiceQuotas_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-quotas`.

**AWS CLI**  
**Untuk membuat daftar kuota untuk layanan**  
`list-service-quotas`Contoh berikut menampilkan rincian tentang kuota untuk AWS CloudFormation.  

```
aws service-quotas list-service-quotas \
    --service-code cloudformation
```
Output:  

```
{
    "Quotas": [
        {
            "ServiceCode": "cloudformation",
            "ServiceName": "AWS CloudFormation",
            "QuotaArn": "arn:aws:servicequotas:us-east-2:123456789012:cloudformation/L-87D14FB7",
            "QuotaCode": "L-87D14FB7",
            "QuotaName": "Output count in CloudFormation template",
            "Value": 60.0,
            "Unit": "None",
            "Adjustable": false,
            "GlobalQuota": false
        },
        {
            "ServiceCode": "cloudformation",
            "ServiceName": "AWS CloudFormation",
            "QuotaArn": "arn:aws:servicequotas:us-east-2:123456789012:cloudformation/L-0485CB21",
            "QuotaCode": "L-0485CB21",
            "QuotaName": "Stack count",
            "Value": 200.0,
            "Unit": "None",
            "Adjustable": true,
            "GlobalQuota": false
        }
    ]
}
```
+  Untuk detail API, lihat [ListServiceQuotas](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/list-service-quotas.html)di *Referensi AWS CLI Perintah*. 

### `list-services`
<a name="service-quotas_ListServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-services`.

**AWS CLI**  
**Untuk daftar layanan yang tersedia**  
Perintah berikut mencantumkan layanan yang tersedia di Service Quotas.  

```
aws service-quotas list-services
```
Output:  

```
{
    "Services": [
        {
            "ServiceCode": "AWSCloudMap",
            "ServiceName": "AWS Cloud Map"
        },
        {
            "ServiceCode": "access-analyzer",
            "ServiceName": "Access Analyzer"
        },
        {
            "ServiceCode": "acm",
            "ServiceName": "AWS Certificate Manager (ACM)"
        },

        ...truncated...

        {
            "ServiceCode": "xray",
            "ServiceName": "AWS X-Ray"
        }
    ]
}
```
Anda dapat menambahkan `--query` parameter untuk memfilter tampilan ke informasi yang Anda minati. Contoh berikut hanya menampilkan kode layanan.  

```
aws service-quotas list-services \
    --query Services[*].ServiceCode
```
Output:  

```
[
    "AWSCloudMap",
    "access-analyzer",
    "acm",
    "acm-pca",
    "amplify",
    "apigateway",
    "application-autoscaling",
        ...truncated...
    "xray"
]
```
+  Untuk detail API, lihat [ListServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/list-services.html)di *Referensi AWS CLI Perintah*. 

### `request-service-quota-increase`
<a name="service-quotas_RequestServiceQuotaIncrease_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`request-service-quota-increase`.

**AWS CLI**  
**Meminta peningkatan kuota layanan**  
`request-service-quota-increase`Contoh berikut meminta peningkatan kuota layanan yang ditentukan.  

```
aws service-quotas request-service-quota-increase \
    --service-code ec2 \
    --quota-code L-20F13EBD \
    --desired-value 2
```
Output:  

```
{
    "RequestedQuota": {
        "Id": "d187537d15254312a9609aa51bbf7624u7W49tPO",
        "ServiceCode": "ec2",
        "ServiceName": "Amazon Elastic Compute Cloud (Amazon EC2)",
        "QuotaCode": "L-20F13EBD",
        "QuotaName": "Running Dedicated c5n Hosts",
        "DesiredValue": 2.0,
        "Status": "PENDING",
        "Created": 1580446904.067,
        "Requester": "{\"accountId\":\"123456789012\",\"callerArn\":\"arn:aws:iam::123456789012:root\"}",
        "QuotaArn": "arn:aws:servicequotas:us-east-2:123456789012:ec2/L-20F13EBD",
        "GlobalQuota": false,
        "Unit": "None"
    }
}
```
+  Untuk detail API, lihat [RequestServiceQuotaIncrease](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/service-quotas/request-service-quota-increase.html)di *Referensi AWS CLI Perintah*. 

# Amazon SES contoh menggunakan AWS CLI
<a name="cli_2_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `delete-identity`
<a name="ses_DeleteIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-identity`.

**AWS CLI**  
**Untuk menghapus identitas**  
Contoh berikut menggunakan `delete-identity` perintah untuk menghapus identitas dari daftar identitas yang diverifikasi dengan Amazon SES:  

```
aws ses delete-identity --identity user@example.com
```
Untuk informasi selengkapnya tentang identitas terverifikasi, lihat Memverifikasi Alamat Email dan Domain di Amazon SES di Panduan *Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [DeleteIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/delete-identity.html)di *Referensi AWS CLI Perintah*. 

### `get-identity-dkim-attributes`
<a name="ses_GetIdentityDkimAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-identity-dkim-attributes`.

**AWS CLI**  
**Untuk mendapatkan atribut Amazon SES Easy DKIM untuk daftar identitas**  
Contoh berikut menggunakan `get-identity-dkim-attributes` perintah untuk mengambil atribut Amazon SES Easy DKIM untuk daftar identitas:  

```
aws ses get-identity-dkim-attributes --identities "example.com" "user@example.com"
```
Output:  

```
{
   "DkimAttributes": {
       "example.com": {
           "DkimTokens": [
               "EXAMPLEjcs5xoyqytjsotsijas7236gr",
               "EXAMPLEjr76cvoc6mysspnioorxsn6ep",
               "EXAMPLEkbmkqkhlm2lyz77ppkulerm4k"
           ],
           "DkimEnabled": true,
           "DkimVerificationStatus": "Success"
       },
       "user@example.com": {
           "DkimEnabled": false,
           "DkimVerificationStatus": "NotStarted"
       }
   }
}
```
Jika Anda memanggil perintah ini dengan identitas yang belum pernah Anda kirimkan untuk verifikasi, identitas itu tidak akan muncul di output.  
Untuk informasi selengkapnya tentang Easy DKIM, lihat Easy DKIM di Amazon SES di Panduan *Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [GetIdentityDkimAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/get-identity-dkim-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-identity-notification-attributes`
<a name="ses_GetIdentityNotificationAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-identity-notification-attributes`.

**AWS CLI**  
**Untuk mendapatkan atribut notifikasi Amazon SES untuk daftar identitas**  
Contoh berikut menggunakan `get-identity-notification-attributes` perintah untuk mengambil atribut notifikasi Amazon SES untuk daftar identitas:  

```
aws ses get-identity-notification-attributes --identities "user1@example.com" "user2@example.com"
```
Output:  

```
{
   "NotificationAttributes": {
       "user1@example.com": {
           "ForwardingEnabled": false,
           "ComplaintTopic": "arn:aws:sns:us-east-1:EXAMPLE65304:MyTopic",
           "BounceTopic": "arn:aws:sns:us-east-1:EXAMPLE65304:MyTopic",
           "DeliveryTopic": "arn:aws:sns:us-east-1:EXAMPLE65304:MyTopic"
       },
       "user2@example.com": {
           "ForwardingEnabled": true
       }
   }
}
```
Perintah ini mengembalikan status penerusan umpan balik email dan, jika berlaku, Nama Sumber Daya Amazon (ARNs) dari topik Amazon SNS tempat pemberitahuan pentalan, keluhan, dan pengiriman dikirim.  
Jika Anda memanggil perintah ini dengan identitas yang belum pernah Anda kirimkan untuk verifikasi, identitas itu tidak akan muncul di output.  
Untuk informasi selengkapnya tentang notifikasi, lihat Menggunakan Pemberitahuan Dengan Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [GetIdentityNotificationAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/get-identity-notification-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-identity-verification-attributes`
<a name="ses_GetIdentityVerificationAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-identity-verification-attributes`.

**AWS CLI**  
**Untuk mendapatkan status verifikasi Amazon SES untuk daftar identitas**  
Contoh berikut menggunakan `get-identity-verification-attributes` perintah untuk mengambil status verifikasi Amazon SES untuk daftar identitas:  

```
aws ses get-identity-verification-attributes --identities "user1@example.com" "user2@example.com"
```
Output:  

```
{
   "VerificationAttributes": {
       "user1@example.com": {
           "VerificationStatus": "Success"
       },
       "user2@example.com": {
           "VerificationStatus": "Pending"
       }
   }
}
```
Jika Anda memanggil perintah ini dengan identitas yang belum pernah Anda kirimkan untuk verifikasi, identitas itu tidak akan muncul di output.  
Untuk informasi selengkapnya tentang identitas terverifikasi, lihat Memverifikasi Alamat Email dan Domain di Amazon SES di Panduan *Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [GetIdentityVerificationAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/get-identity-verification-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-send-quota`
<a name="ses_GetSendQuota_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-send-quota`.

**AWS CLI**  
**Untuk mendapatkan batas pengiriman Amazon SES Anda**  
Contoh berikut menggunakan `get-send-quota` perintah untuk mengembalikan batas pengiriman Amazon SES Anda:  

```
aws ses get-send-quota
```
Output:  

```
{
   "Max24HourSend": 200.0,
   "SentLast24Hours": 1.0,
   "MaxSendRate": 1.0
}
```
Max24 HourSend adalah kuota pengiriman Anda, yaitu jumlah email maksimum yang dapat Anda kirim dalam jangka waktu 24 jam. Kuota pengiriman mencerminkan periode waktu bergulir. Setiap kali Anda mencoba mengirim email, Amazon SES memeriksa berapa banyak email yang Anda kirim dalam 24 jam sebelumnya. Selama jumlah email yang Anda kirim kurang dari kuota Anda, permintaan kirim Anda akan diterima dan email Anda akan terkirim.  
SentLast24Hours adalah jumlah email yang telah Anda kirim dalam 24 jam sebelumnya.  
MaxSendRate adalah jumlah maksimum email yang dapat Anda kirim per detik.  
Perhatikan bahwa batas pengiriman didasarkan pada penerima, bukan pada pesan. Misalnya, email yang memiliki 10 penerima dihitung sebagai 10 terhadap kuota pengiriman Anda.  
Untuk informasi selengkapnya, lihat Mengelola Batas Pengiriman Amazon SES Anda di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [GetSendQuota](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/get-send-quota.html)di *Referensi AWS CLI Perintah*. 

### `get-send-statistics`
<a name="ses_GetSendStatistics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-send-statistics`.

**AWS CLI**  
**Untuk mendapatkan statistik pengiriman Amazon SES Anda**  
Contoh berikut menggunakan `get-send-statistics` perintah untuk mengembalikan statistik pengiriman Amazon SES Anda  

```
aws ses get-send-statistics
```
Output:  

```
{
   "SendDataPoints": [
       {
           "Complaints": 0,
           "Timestamp": "2013-06-12T19:32:00Z",
           "DeliveryAttempts": 2,
           "Bounces": 0,
           "Rejects": 0
       },
       {
           "Complaints": 0,
           "Timestamp": "2013-06-12T00:47:00Z",
           "DeliveryAttempts": 1,
           "Bounces": 0,
           "Rejects": 0
       }
   ]
}
```
Hasilnya adalah daftar titik data, yang mewakili dua minggu terakhir aktivitas pengiriman. Setiap titik data dalam daftar berisi statistik untuk interval 15 menit.  
Dalam contoh ini, hanya ada dua titik data karena satu-satunya email yang dikirim pengguna dalam dua minggu terakhir jatuh dalam dua interval 15 menit.  
Untuk informasi selengkapnya, lihat Memantau Statistik Penggunaan Amazon SES Anda di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [GetSendStatistics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/get-send-statistics.html)di *Referensi AWS CLI Perintah*. 

### `list-identities`
<a name="ses_ListIdentities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-identities`.

**AWS CLI**  
**Untuk mencantumkan semua identitas (alamat email dan domain) untuk akun tertentu AWS **  
Contoh berikut menggunakan `list-identities` perintah untuk mencantumkan semua identitas yang telah dikirimkan untuk verifikasi dengan Amazon SES:  

```
aws ses list-identities
```
Output:  

```
{
    "Identities": [
      "user@example.com",
      "example.com"
    ]
}
```
Daftar yang dikembalikan berisi semua identitas terlepas dari status verifikasi (verifikasi, verifikasi tertunda, kegagalan, dll.).  
Dalam contoh ini, alamat email *dan* domain dikembalikan karena kami tidak menentukan parameter tipe identitas.  
Untuk informasi selengkapnya tentang verifikasi, lihat Memverifikasi Alamat Email dan Domain di Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [ListIdentities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/list-identities.html)di *Referensi AWS CLI Perintah*. 

### `send-email`
<a name="ses_SendEmail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-email`.

**AWS CLI**  
**Untuk mengirim email yang diformat menggunakan Amazon SES**  
Contoh berikut menggunakan `send-email` perintah untuk mengirim email yang diformat:  

```
aws ses send-email --from sender@example.com --destination file://destination.json --message file://message.json
```
Output:  

```
{
   "MessageId": "EXAMPLEf3a5efcd1-51adec81-d2a4-4e3f-9fe2-5d85c1b23783-000000"
}
```
Tujuan dan pesannya adalah struktur data JSON yang disimpan dalam file.json di direktori saat ini. File-file ini adalah sebagai berikut:  
`destination.json`:  

```
{
  "ToAddresses":  ["recipient1@example.com", "recipient2@example.com"],
  "CcAddresses":  ["recipient3@example.com"],
  "BccAddresses": []
}
```
`message.json`:  

```
{
   "Subject": {
       "Data": "Test email sent using the AWS CLI",
       "Charset": "UTF-8"
   },
   "Body": {
       "Text": {
           "Data": "This is the message body in text format.",
           "Charset": "UTF-8"
       },
       "Html": {
           "Data": "This message body contains HTML formatting. It can, for example, contain links like this one: <a class=\"ulink\" href=\"http://docs.aws.amazon.com/ses/latest/DeveloperGuide\" target=\"_blank\">Amazon SES Developer Guide</a>.",
           "Charset": "UTF-8"
       }
   }
}
```
Ganti alamat email pengirim dan penerima dengan yang ingin Anda gunakan. Perhatikan bahwa alamat email pengirim harus diverifikasi dengan Amazon SES. Sampai Anda diberikan akses produksi ke Amazon SES, Anda juga harus memverifikasi alamat email setiap penerima kecuali penerima adalah simulator kotak surat Amazon SES. Untuk informasi selengkapnya tentang verifikasi, lihat Memverifikasi Alamat Email dan Domain di Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
ID Pesan dalam output menunjukkan bahwa panggilan ke kirim email berhasil.  
Jika Anda tidak menerima email, centang kotak Sampah Anda.  
Untuk informasi selengkapnya tentang mengirim email yang diformat, lihat Mengirim Email Berformat Menggunakan Amazon SES API di Panduan *Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [SendEmail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/send-email.html)di *Referensi AWS CLI Perintah*. 

### `send-raw-email`
<a name="ses_SendRawEmail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-raw-email`.

**AWS CLI**  
**Untuk mengirim email mentah menggunakan Amazon SES**  
Contoh berikut menggunakan `send-raw-email` perintah untuk mengirim email dengan lampiran TXT:  

```
aws ses send-raw-email --raw-message file://message.json
```
Output:  

```
{
   "MessageId": "EXAMPLEf3f73d99b-c63fb06f-d263-41f8-a0fb-d0dc67d56c07-000000"
}
```
Pesan mentah adalah struktur data JSON yang disimpan dalam file bernama `message.json` di direktori saat ini. Ini berisi yang berikut:  

```
{
   "Data": "From: sender@example.com\nTo: recipient@example.com\nSubject: Test email sent using the AWS CLI (contains an attachment)\nMIME-Version: 1.0\nContent-type: Multipart/Mixed; boundary=\"NextPart\"\n\n--NextPart\nContent-Type: text/plain\n\nThis is the message body.\n\n--NextPart\nContent-Type: text/plain;\nContent-Disposition: attachment; filename=\"attachment.txt\"\n\nThis is the text in the attachment.\n\n--NextPart--"
}
```
Seperti yang Anda lihat, “Data” adalah satu string panjang yang berisi seluruh konten email mentah dalam format MIME, termasuk lampiran yang disebut attachment.txt.  
Ganti sender@example.com dan recipient@example.com dengan alamat yang ingin Anda gunakan. Perhatikan bahwa alamat email pengirim harus diverifikasi dengan Amazon SES. Sampai Anda diberikan akses produksi ke Amazon SES, Anda juga harus memverifikasi alamat email penerima kecuali penerima adalah simulator kotak surat Amazon SES. Untuk informasi selengkapnya tentang verifikasi, lihat Memverifikasi Alamat Email dan Domain di Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
ID Pesan dalam output menunjukkan bahwa panggilan ke send-raw-email berhasil.  
Jika Anda tidak menerima email, centang kotak Sampah Anda.  
Untuk informasi selengkapnya tentang mengirim email mentah, lihat Mengirim Email Mentah Menggunakan Amazon SES API di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [SendRawEmail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/send-raw-email.html)di *Referensi AWS CLI Perintah*. 

### `set-identity-dkim-enabled`
<a name="ses_SetIdentityDkimEnabled_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-identity-dkim-enabled`.

**AWS CLI**  
**Untuk mengaktifkan atau menonaktifkan Easy DKIM untuk identitas terverifikasi Amazon SES**  
Contoh berikut menggunakan `set-identity-dkim-enabled` perintah untuk menonaktifkan DKIM untuk alamat email terverifikasi:  

```
aws ses set-identity-dkim-enabled --identity user@example.com --no-dkim-enabled
```
Untuk informasi selengkapnya tentang Easy DKIM, lihat Easy DKIM di Amazon SES di Panduan *Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [SetIdentityDkimEnabled](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/set-identity-dkim-enabled.html)di *Referensi AWS CLI Perintah*. 

### `set-identity-feedback-forwarding-enabled`
<a name="ses_SetIdentityFeedbackForwardingEnabled_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-identity-feedback-forwarding-enabled`.

**AWS CLI**  
**Untuk mengaktifkan atau menonaktifkan penerusan umpan balik email pentalan dan keluhan untuk identitas terverifikasi Amazon SES**  
Contoh berikut menggunakan `set-identity-feedback-forwarding-enabled` perintah untuk mengaktifkan alamat email terverifikasi untuk menerima pemberitahuan bouncing dan keluhan melalui email:  

```
aws ses set-identity-feedback-forwarding-enabled --identity user@example.com --forwarding-enabled
```
Anda diminta untuk menerima pemberitahuan pentalan dan keluhan melalui Amazon SNS atau penerusan umpan balik email, sehingga Anda hanya dapat menonaktifkan penerusan umpan balik email jika Anda memilih topik Amazon SNS untuk pemberitahuan bouncing dan keluhan.  
Untuk informasi selengkapnya tentang notifikasi, lihat Menggunakan Pemberitahuan Dengan Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [SetIdentityFeedbackForwardingEnabled](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/set-identity-feedback-forwarding-enabled.html)di *Referensi AWS CLI Perintah*. 

### `set-identity-notification-topic`
<a name="ses_SetIdentityNotificationTopic_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-identity-notification-topic`.

**AWS CLI**  
**Untuk mengatur topik Amazon SNS yang Amazon SES akan mempublikasikan bouncing, keluhan, pemberitahuan and/or pengiriman untuk identitas terverifikasi**  
Contoh berikut menggunakan `set-identity-notification-topic` perintah untuk menentukan topik Amazon SNS yang alamat email terverifikasi akan menerima pemberitahuan bouncing:  

```
aws ses set-identity-notification-topic --identity user@example.com --notification-type Bounce --sns-topic arn:aws:sns:us-east-1:EXAMPLE65304:MyTopic
```
Untuk informasi selengkapnya tentang notifikasi, lihat Menggunakan Pemberitahuan Dengan Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [SetIdentityNotificationTopic](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/set-identity-notification-topic.html)di *Referensi AWS CLI Perintah*. 

### `verify-domain-dkim`
<a name="ses_VerifyDomainDkim_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-domain-dkim`.

**AWS CLI**  
**Untuk menghasilkan token DKIM domain terverifikasi untuk penandatanganan DKIM dengan Amazon SES**  
Contoh berikut menggunakan `verify-domain-dkim` perintah untuk menghasilkan token DKIM untuk domain yang telah diverifikasi dengan Amazon SES:  

```
aws ses verify-domain-dkim --domain example.com
```
Output:  

```
{
   "DkimTokens": [
       "EXAMPLEq76owjnks3lnluwg65scbemvw",
       "EXAMPLEi3dnsj67hstzaj673klariwx2",
       "EXAMPLEwfbtcukvimehexktmdtaz6naj"
   ]
}
```
Untuk menyiapkan DKIM, Anda harus menggunakan token DKIM yang dikembalikan untuk memperbarui pengaturan DNS domain Anda dengan catatan CNAME yang mengarah ke kunci publik DKIM yang dihosting oleh Amazon SES. Untuk informasi selengkapnya, lihat DKIM Mudah di Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [VerifyDomainDkim](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/verify-domain-dkim.html)di *Referensi AWS CLI Perintah*. 

### `verify-domain-identity`
<a name="ses_VerifyDomainIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-domain-identity`.

**AWS CLI**  
**Untuk memverifikasi domain dengan Amazon SES**  
Contoh berikut menggunakan `verify-domain-identity` perintah untuk memverifikasi domain:  

```
aws ses verify-domain-identity --domain example.com
```
Output:  

```
{
   "VerificationToken": "eoEmxw+YaYhb3h3iVJHuXMJXqeu1q1/wwmvjuEXAMPLE"
}
```
Untuk menyelesaikan verifikasi domain, Anda harus menambahkan catatan TXT dengan token verifikasi yang dikembalikan ke pengaturan DNS domain Anda. Untuk informasi selengkapnya, lihat Memverifikasi Domain di Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [VerifyDomainIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/verify-domain-identity.html)di *Referensi AWS CLI Perintah*. 

### `verify-email-identity`
<a name="ses_VerifyEmailIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`verify-email-identity`.

**AWS CLI**  
**Untuk memverifikasi alamat email dengan Amazon SES**  
Contoh berikut menggunakan `verify-email-identity` perintah untuk memverifikasi alamat email:  

```
aws ses verify-email-identity --email-address user@example.com
```
Sebelum Anda dapat mengirim email menggunakan Amazon SES, Anda harus memverifikasi alamat atau domain tempat Anda mengirim email untuk membuktikan bahwa Anda memilikinya. Jika Anda belum memiliki akses produksi, Anda juga perlu memverifikasi alamat email apa pun yang Anda kirimi email kecuali alamat email yang disediakan oleh simulator kotak surat Amazon SES.  
Setelah verify-email-identity dipanggil, alamat email akan menerima email verifikasi. Pengguna harus mengklik tautan di email untuk menyelesaikan proses verifikasi.  
Untuk informasi selengkapnya, lihat Memverifikasi Alamat Email di Amazon SES di *Panduan Pengembang Layanan Email Sederhana Amazon*.  
+  Untuk detail API, lihat [VerifyEmailIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ses/verify-email-identity.html)di *Referensi AWS CLI Perintah*. 

# Contoh Shield menggunakan AWS CLI
<a name="cli_2_shield_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Shield.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-drt-log-bucket`
<a name="shield_AssociateDrtLogBucket_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-drt-log-bucket`.

**AWS CLI**  
**Untuk mengotorisasi DRT untuk mengakses bucket Amazon S3**  
`associate-drt-log-bucket`Contoh berikut membuat asosiasi antara DRT dan bucket S3 yang ditentukan. Ini memungkinkan DRT untuk mengakses bucket atas nama akun. :  

```
aws shield associate-drt-log-bucket \
    --log-bucket flow-logs-for-website-lb
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengotorisasi Tim Respons DDo S](https://docs.aws.amazon.com/waf/latest/developerguide/authorize-DRT.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [AssociateDrtLogBucket](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/associate-drt-log-bucket.html)di *Referensi AWS CLI Perintah*. 

### `associate-drt-role`
<a name="shield_AssociateDrtRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-drt-role`.

**AWS CLI**  
**Untuk mengotorisasi DRT untuk mengurangi potensi serangan atas nama Anda**  
`associate-drt-role`Contoh berikut menciptakan hubungan antara DRT dan peran yang ditentukan. DRT dapat menggunakan peran untuk mengakses dan mengelola akun.  

```
aws shield associate-drt-role \
    --role-arn arn:aws:iam::123456789012:role/service-role/DrtRole
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengotorisasi Tim Respons DDo S](https://docs.aws.amazon.com/waf/latest/developerguide/authorize-DRT.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [AssociateDrtRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/associate-drt-role.html)di *Referensi AWS CLI Perintah*. 

### `create-protection`
<a name="shield_CreateProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-protection`.

**AWS CLI**  
**Untuk mengaktifkan perlindungan AWS Shield Advanced untuk satu AWS sumber daya**  
`create-protection`Contoh berikut memungkinkan perlindungan Shield Advanced untuk AWS CloudFront distribusi yang ditentukan.  

```
aws shield create-protection \
    --name "Protection for CloudFront distribution" \
    --resource-arn arn:aws:cloudfront::123456789012:distribution/E198WC25FXOWY8
```
Output:  

```
{
    "ProtectionId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
}
```
Untuk informasi selengkapnya, lihat [Menentukan Sumber Daya Anda untuk Dilindungi](https://docs.aws.amazon.com/waf/latest/developerguide/ddos-choose-resources.html) di *Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [CreateProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/create-protection.html)di *Referensi AWS CLI Perintah*. 

### `create-subscription`
<a name="shield_CreateSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-subscription`.

**AWS CLI**  
**Untuk mengaktifkan perlindungan AWS Shield Advanced untuk akun**  
`create-subscription`Contoh berikut memungkinkan perlindungan Shield Advanced untuk akun.  

```
aws shield create-subscription
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai dengan AWS Shield Advanced](https://docs.aws.amazon.com/waf/latest/developerguide/getting-started-ddos.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [CreateSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/create-subscription.html)di *Referensi AWS CLI Perintah*. 

### `delete-protection`
<a name="shield_DeleteProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-protection`.

**AWS CLI**  
**Untuk menghapus perlindungan AWS Shield Advanced dari AWS sumber daya**  
`delete-protection`Contoh berikut menghapus perlindungan AWS Shield Advanced yang ditentukan.  

```
aws shield delete-protection \
    --protection-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menghapus AWS Shield Advanced dari AWS Sumber Daya](https://docs.aws.amazon.com/waf/latest/developerguide/remove-protection.html) di *Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [DeleteProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/delete-protection.html)di *Referensi AWS CLI Perintah*. 

### `describe-attack`
<a name="shield_DescribeAttack_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-attack`.

**AWS CLI**  
**Untuk mengambil deskripsi rinci tentang serangan**  
`describe-attack`Contoh berikut menampilkan rincian tentang serangan DDo S dengan ID serangan yang ditentukan. Anda bisa mendapatkan serangan IDs dengan menjalankan `list-attacks` perintah.  

```
aws shield describe-attack --attack-id a1b2c3d4-5678-90ab-cdef-EXAMPLE22222
```
Output:  

```
{
    "Attack": {
        "AttackId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "ResourceArn": "arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/testElb",
        "SubResources": [
            {
                "Type": "IP",
                "Id": "192.0.2.2",
                "AttackVectors": [
                    {
                        "VectorType": "SYN_FLOOD",
                        "VectorCounters": [
                            {
                                "Name": "SYN_FLOOD_BPS",
                                "Max": 982184.0,
                                "Average": 982184.0,
                                "Sum": 11786208.0,
                                "N": 12,
                                "Unit": "BPS"
                            }
                        ]
                    }
                ],
                "Counters": []
            },
            {
                "Type": "IP",
                "Id": "192.0.2.3",
                "AttackVectors": [
                    {
                        "VectorType": "SYN_FLOOD",
                        "VectorCounters": [
                            {
                                "Name": "SYN_FLOOD_BPS",
                                "Max": 982184.0,
                                "Average": 982184.0,
                                "Sum": 9821840.0,
                                "N": 10,
                                "Unit": "BPS"
                            }
                        ]
                    }
                ],
                "Counters": []
            },
            {
                "Type": "IP",
                "Id": "192.0.2.4",
                "AttackVectors": [
                    {
                        "VectorType": "SYN_FLOOD",
                        "VectorCounters": [
                            {
                                "Name": "SYN_FLOOD_BPS",
                                "Max": 982184.0,
                                "Average": 982184.0,
                                "Sum": 7857472.0,
                                "N": 8,
                                "Unit": "BPS"
                            }
                        ]
                    }
                ],
                "Counters": []
            },
            {
                "Type": "IP",
                "Id": "192.0.2.5",
                "AttackVectors": [
                    {
                        "VectorType": "SYN_FLOOD",
                        "VectorCounters": [
                            {
                                "Name": "SYN_FLOOD_BPS",
                                "Max": 982184.0,
                                "Average": 982184.0,
                                "Sum": 1964368.0,
                                "N": 2,
                                "Unit": "BPS"
                            }
                        ]
                    }
                ],
                "Counters": []
            },
            {
                "Type": "IP",
                "Id": "2001:DB8::bcde:4321:8765:0:0",
                "AttackVectors": [
                    {
                        "VectorType": "SYN_FLOOD",
                        "VectorCounters": [
                            {
                                "Name": "SYN_FLOOD_BPS",
                                "Max": 982184.0,
                                "Average": 982184.0,
                                "Sum": 1964368.0,
                                "N": 2,
                                "Unit": "BPS"
                            }
                        ]
                    }
                ],
                "Counters": []
            },
            {
                "Type": "IP",
                "Id": "192.0.2.6",
                "AttackVectors": [
                    {
                        "VectorType": "SYN_FLOOD",
                        "VectorCounters": [
                            {
                                "Name": "SYN_FLOOD_BPS",
                                "Max": 982184.0,
                                "Average": 982184.0,
                                "Sum": 1964368.0,
                                "N": 2,
                                "Unit": "BPS"
                            }
                        ]
                    }
                ],
                "Counters": []
            }
        ],
        "StartTime": 1576024927.457,
        "EndTime": 1576025647.457,
        "AttackCounters": [],
        "AttackProperties": [
            {
                "AttackLayer": "NETWORK",
                "AttackPropertyIdentifier": "SOURCE_IP_ADDRESS",
                "TopContributors": [
                    {
                        "Name": "198.51.100.5",
                        "Value": 2024475682
                    },
                    {
                        "Name": "198.51.100.8",
                        "Value": 1311380863
                    },
                    {
                        "Name": "203.0.113.4",
                        "Value": 900599855
                    },
                    {
                        "Name": "198.51.100.4",
                        "Value": 769417366
                    },
                    {
                        "Name": "203.1.113.13",
                        "Value": 757992847
                    }
                ],
                "Unit": "BYTES",
                "Total": 92773354841
            },
            {
                "AttackLayer": "NETWORK",
                "AttackPropertyIdentifier": "SOURCE_COUNTRY",
                "TopContributors": [
                    {
                        "Name": "United States",
                        "Value": 80938161764
                    },
                    {
                        "Name": "Brazil",
                        "Value": 9929864330
                    },
                    {
                        "Name": "Netherlands",
                        "Value": 1635009446
                    },
                    {
                        "Name": "Mexico",
                        "Value": 144832971
                    },
                    {
                        "Name": "Japan",
                        "Value": 45369000
                    }
                ],
                "Unit": "BYTES",
                "Total": 92773354841
            },
            {
                "AttackLayer": "NETWORK",
                "AttackPropertyIdentifier": "SOURCE_ASN",
                "TopContributors": [
                    {
                        "Name": "12345",
                        "Value": 74953625841
                    },
                    {
                        "Name": "12346",
                        "Value": 4440087595
                    },
                    {
                        "Name": "12347",
                        "Value": 1635009446
                    },
                    {
                        "Name": "12348",
                        "Value": 1221230000
                    },
                    {
                        "Name": "12349",
                        "Value": 1199425294
                    }
                ],
                "Unit": "BYTES",
                "Total": 92755479921
            }
        ],
        "Mitigations": []
    }
}
```
Untuk informasi selengkapnya, lihat [Meninjau Insiden DDo S di Panduan](https://docs.aws.amazon.com/waf/latest/developerguide/using-ddos-reports.html) *Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [DescribeAttack](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/describe-attack.html)di *Referensi AWS CLI Perintah*. 

### `describe-drt-access`
<a name="shield_DescribeDrtAccess_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-drt-access`.

**AWS CLI**  
**Untuk mengambil deskripsi otorisasi DRT harus mengurangi serangan atas nama Anda**  
`describe-drt-access`Contoh berikut mengambil peran dan otorisasi bucket S3 yang dimiliki DRT, yang memungkinkannya merespons potensi serangan atas nama Anda.  

```
aws shield describe-drt-access
```
Output:  

```
{
    "RoleArn": "arn:aws:iam::123456789012:role/service-role/DrtRole",
    "LogBucketList": [
        "flow-logs-for-website-lb"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengotorisasi Tim Respons DDo S](https://docs.aws.amazon.com/waf/latest/developerguide/authorize-DRT.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [DescribeDrtAccess](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/describe-drt-access.html)di *Referensi AWS CLI Perintah*. 

### `describe-emergency-contact-settings`
<a name="shield_DescribeEmergencyContactSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-emergency-contact-settings`.

**AWS CLI**  
**Untuk mengambil alamat e-mail darurat yang Anda miliki pada file dengan DRT**  
`describe-emergency-contact-settings`Contoh berikut mengambil alamat e-mail yang ada di file dengan DRT untuk account. Ini adalah alamat yang harus dihubungi DRT ketika menanggapi serangan yang dicurigai.  

```
aws shield describe-emergency-contact-settings
```
Output:  

```
{
    "EmergencyContactList": [
        {
            "EmailAddress": "ops@example.com"
        },
        {
            "EmailAddress": "ddos-notifications@example.com"
       }
    ]
}
```
*Untuk informasi selengkapnya, lihat Cara Kerja AWS Shield < https://docs.aws.amazon.com/waf/ latest/developerguide/ddos -overview.html> di Panduan Pengembang Shield Advanced.AWS *  
+  Untuk detail API, lihat [DescribeEmergencyContactSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/describe-emergency-contact-settings.html)di *Referensi AWS CLI Perintah*. 

### `describe-protection`
<a name="shield_DescribeProtection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-protection`.

**AWS CLI**  
**Untuk mengambil detail untuk AWS perlindungan Shield Advanced**  
`describe-protection`Contoh berikut menampilkan detail tentang perlindungan Shield Advanced dengan ID yang ditentukan. Anda dapat memperoleh perlindungan IDs dengan menjalankan `list-protections` perintah.  

```
aws shield describe-protection \
    --protection-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "Protection": {
        "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Name": "1.2.3.4",
        "ResourceArn": "arn:aws:ec2:us-west-2:123456789012:eip-allocation/eipalloc-0ac1537af40742a6d"
    }
}
```
Untuk informasi selengkapnya, lihat [Menentukan Sumber Daya Anda untuk Dilindungi](https://docs.aws.amazon.com/waf/latest/developerguide/ddos-choose-resources.html) di *Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [DescribeProtection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/describe-protection.html)di *Referensi AWS CLI Perintah*. 

### `describe-subscription`
<a name="shield_DescribeSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-subscription`.

**AWS CLI**  
**Untuk mengambil rincian perlindungan AWS Shield Advanced untuk akun**  
`describe-subscription`Contoh berikut menampilkan detail tentang perlindungan Shield Advanced yang disediakan untuk akun. :  

```
aws shield describe-subscription
```
Output:  

```
{
    "Subscription": {
        "StartTime": 1534368978.0,
        "EndTime": 1597613778.0,
        "TimeCommitmentInSeconds": 63244800,
        "AutoRenew": "ENABLED",
        "Limits": [
            {
                "Type": "GLOBAL_ACCELERATOR",
                "Max": 1000
            },
            {
                "Type": "ROUTE53_HOSTED_ZONE",
                "Max": 1000
            },
            {
                "Type": "CF_DISTRIBUTION",
                "Max": 1000
            },
            {
                "Type": "ELB_LOAD_BALANCER",
                "Max": 1000
            },
            {
                "Type": "EC2_ELASTIC_IP_ALLOCATION",
                "Max": 1000
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja AWS Shield](https://docs.aws.amazon.com/waf/latest/developerguide/ddos-overview.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [DescribeSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/describe-subscription.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-drt-log-bucket`
<a name="shield_DisassociateDrtLogBucket_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-drt-log-bucket`.

**AWS CLI**  
**Untuk menghapus otorisasi DRT untuk mengakses bucket Amazon S3 atas nama Anda**  
`disassociate-drt-log-bucket`Contoh berikut menghapus hubungan antara DRT dan bucket S3 yang ditentukan. Setelah perintah ini selesai, DRT tidak dapat lagi mengakses bucket atas nama akun.  

```
aws shield disassociate-drt-log-bucket \
    --log-bucket flow-logs-for-website-lb
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengotorisasi Tim Respons DDo S](https://docs.aws.amazon.com/waf/latest/developerguide/authorize-DRT.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [DisassociateDrtLogBucket](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/disassociate-drt-log-bucket.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-drt-role`
<a name="shield_DisassociateDrtRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-drt-role`.

**AWS CLI**  
**Untuk menghapus otorisasi DRT untuk mengurangi potensi serangan atas nama Anda**  
`disassociate-drt-role`Contoh berikut menghapus hubungan antara DRT dan akun. Setelah panggilan ini, DRT tidak dapat lagi mengakses atau mengelola akun Anda.  

```
aws shield disassociate-drt-role
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengotorisasi Tim Respons DDo S](https://docs.aws.amazon.com/waf/latest/developerguide/authorize-DRT.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [DisassociateDrtRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/disassociate-drt-role.html)di *Referensi AWS CLI Perintah*. 

### `get-subscription-state`
<a name="shield_GetSubscriptionState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-subscription-state`.

**AWS CLI**  
**Untuk mengambil status langganan AWS Shield Advanced akun saat ini**  
`get-subscription-state`Contoh berikut mengambil status perlindungan Shield Advanced untuk akun tersebut.  

```
aws shield get-subscription-state
```
Output:  

```
{
    "SubscriptionState": "ACTIVE"
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja AWS Shield](https://docs.aws.amazon.com/waf/latest/developerguide/ddos-overview.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [GetSubscriptionState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/get-subscription-state.html)di *Referensi AWS CLI Perintah*. 

### `list-attacks`
<a name="shield_ListAttacks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-attacks`.

**AWS CLI**  
**Untuk mengambil ringkasan serangan dari Shield Advanced AWS **  
`list-attacks`Contoh berikut mengambil ringkasan serangan untuk AWS CloudFront distribusi yang ditentukan selama periode waktu yang ditentukan. Respons termasuk serangan IDs yang dapat Anda berikan kepada `describe-attack` perintah untuk informasi rinci tentang serangan.  

```
aws shield list-attacks \
    --resource-arns arn:aws:cloudfront::12345678910:distribution/E1PXMP22ZVFAOR \
    --start-time FromInclusive=1529280000,ToExclusive=1529300000
```
Output:  

```
{
    "AttackSummaries": [
        {
            "AttackId": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "ResourceArn": "arn:aws:cloudfront::123456789012:distribution/E1PXMP22ZVFAOR",
            "StartTime": 1529280000.0,
            "EndTime": 1529449200.0,
            "AttackVectors": [
                {
                    "VectorType": "SYN_FLOOD"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Meninjau Insiden DDo S di Panduan](https://docs.aws.amazon.com/waf/latest/developerguide/using-ddos-reports.html) *Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [ListAttacks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/list-attacks.html)di *Referensi AWS CLI Perintah*. 

### `list-protections`
<a name="shield_ListProtections_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-protections`.

**AWS CLI**  
**Untuk mengambil ringkasan perlindungan dari Shield Advanced AWS **  
`list-protections`Contoh berikut mengambil ringkasan perlindungan yang diaktifkan untuk akun.  

```
aws shield list-protections
```
Output:  

```
{
    "Protections": [
        {
            "Id": "a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Name": "Protection for CloudFront distribution",
            "ResourceArn": "arn:aws:cloudfront::123456789012:distribution/E198WC25FXOWY8"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menentukan Sumber Daya Anda untuk Dilindungi](https://docs.aws.amazon.com/waf/latest/developerguide/ddos-choose-resources.html) di *Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [ListProtections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/list-protections.html)di *Referensi AWS CLI Perintah*. 

### `update-emergency-contact-settings`
<a name="shield_UpdateEmergencyContactSettings_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-emergency-contact-settings`.

**AWS CLI**  
**Untuk menentukan alamat email darurat yang ada di file dengan DRT**  
`update-emergency-contact-settings`Contoh berikut mendefinisikan dua alamat email yang harus dihubungi DRT ketika menanggapi serangan yang dicurigai.  

```
aws shield update-emergency-contact-settings \
        --emergency-contact-list EmailAddress=ops@example.com EmailAddress=ddos-notifications@example.com
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Kerja AWS Shield](https://docs.aws.amazon.com/waf/latest/developerguide/ddos-overview.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [UpdateEmergencyContactSettings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/update-emergency-contact-settings.html)di *Referensi AWS CLI Perintah*. 

### `update-subscription`
<a name="shield_UpdateSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-subscription`.

**AWS CLI**  
**Untuk mengubah langganan AWS Shield Advanced akun**  
`update-subscription`Contoh berikut memungkinkan perpanjangan otomatis langganan AWS Shield Advanced untuk akun tersebut.  

```
aws shield update-subscription \
    --auto-renew ENABLED
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Cara Kerja AWS Shield](https://docs.aws.amazon.com/waf/latest/developerguide/ddos-overview.html) di *Panduan Pengembang AWS Shield Advanced*.  
+  Untuk detail API, lihat [UpdateSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/shield/update-subscription.html)di *Referensi AWS CLI Perintah*. 

# Contoh penandatangan menggunakan AWS CLI
<a name="cli_2_signer_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Signer.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `cancel-signing-profile`
<a name="signer_CancelSigningProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-signing-profile`.

**AWS CLI**  
**Untuk menghapus profil penandatanganan**  
`cancel-signing-profile`Contoh berikut menghapus profil penandatanganan yang ada dari AWS Penandatangan.  

```
aws signer cancel-signing-profile \
    --profile-name MyProfile1
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [CancelSigningProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/cancel-signing-profile.html)di *Referensi AWS CLI Perintah*. 

### `describe-signing-job`
<a name="signer_DescribeSigningJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-signing-job`.

**AWS CLI**  
**Untuk menampilkan detail tentang pekerjaan penandatanganan**  
`describe-signing-job`Contoh berikut menampilkan rincian tentang pekerjaan penandatanganan yang ditentukan.  

```
aws signer describe-signing-job \
    --job-id 2065c468-73e2-4385-a6c9-0123456789abc
```
Output:  

```
{
    "status": "Succeeded",
    "completedAt": 1568412037,
    "platformId": "AmazonFreeRTOS-Default",
    "signingMaterial": {
        "certificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/6a55389b-306b-4e8c-a95c-0123456789abc"
    },
    "statusReason": "Signing Succeeded",
    "jobId": "2065c468-73e2-4385-a6c9-0123456789abc",
    "source": {
        "s3": {
            "version": "PNyFaUTgsQh5ZdMCcoCe6pT1gOpgB_M4",
            "bucketName": "signer-source",
            "key": "MyCode.rb"
        }
    },
    "profileName": "MyProfile2",
    "signedObject": {
        "s3": {
            "bucketName": "signer-destination",
            "key": "signed-2065c468-73e2-4385-a6c9-0123456789abc"
        }
    },
    "requestedBy": "arn:aws:iam::123456789012:user/maria",
    "createdAt": 1568412036
}
```
+  Untuk detail API, lihat [DescribeSigningJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/describe-signing-job.html)di *Referensi AWS CLI Perintah*. 

### `get-signing-platform`
<a name="signer_GetSigningPlatform_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-signing-platform`.

**AWS CLI**  
**Untuk menampilkan detail tentang platform penandatanganan**  
`get-signing-platform`Contoh berikut menampilkan rincian tentang platform penandatanganan yang ditentukan.  

```
aws signer get-signing-platform \
    --platform-id AmazonFreeRTOS-TI-CC3220SF
```
Output:  

```
{
    "category": "AWS",
    "displayName": "Amazon FreeRTOS SHA1-RSA CC3220SF-Format",
    "target": "SHA1-RSA-TISHA1",
    "platformId": "AmazonFreeRTOS-TI-CC3220SF",
    "signingConfiguration": {
        "encryptionAlgorithmOptions": {
            "defaultValue": "RSA",
            "allowedValues": [
                "RSA"
            ]
        },
        "hashAlgorithmOptions": {
            "defaultValue": "SHA1",
            "allowedValues": [
                "SHA1"
            ]
        }
    },
    "maxSizeInMB": 16,
    "partner": "AmazonFreeRTOS",
    "signingImageFormat": {
        "defaultFormat": "JSONEmbedded",
        "supportedFormats": [
            "JSONEmbedded"
        ]
    }
}
```
+  Untuk detail API, lihat [GetSigningPlatform](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/get-signing-platform.html)di *Referensi AWS CLI Perintah*. 

### `get-signing-profile`
<a name="signer_GetSigningProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-signing-profile`.

**AWS CLI**  
**Untuk menampilkan detail tentang profil penandatanganan**  
`get-signing-profile`Contoh berikut menampilkan rincian tentang profil penandatanganan yang ditentukan.  

```
aws signer get-signing-profile \
    --profile-name MyProfile3
```
Output:  

```
{
    "platformId": "AmazonFreeRTOS-TI-CC3220SF",
    "profileName": "MyProfile3",
    "status": "Active",
    "signingMaterial": {
        "certificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/6a55389b-306b-4e8c-a95c-0123456789abc"
    }
}
```
+  Untuk detail API, lihat [GetSigningProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/get-signing-profile.html)di *Referensi AWS CLI Perintah*. 

### `list-signing-jobs`
<a name="signer_ListSigningJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-signing-jobs`.

**AWS CLI**  
**Untuk membuat daftar semua pekerjaan penandatanganan**  
`list-signing-jobs`Contoh berikut menampilkan detail tentang semua pekerjaan penandatanganan untuk akun.  

```
aws signer list-signing-jobs
```
Dalam contoh ini, dua pekerjaan dikembalikan, satu berhasil, dan satu gagal.  

```
{
    "jobs": [
        {
            "status": "Succeeded",
            "signingMaterial": {
                "certificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/6a55389b-306b-4e8c-a95c-0123456789abc"
            },
            "jobId": "2065c468-73e2-4385-a6c9-0123456789abc",
            "source": {
                "s3": {
                    "version": "PNyFaUTgsQh5ZdMCcoCe6pT1gOpgB_M4",
                    "bucketName": "signer-source",
                    "key": "MyCode.rb"
                }
            },
            "signedObject": {
                "s3": {
                    "bucketName": "signer-destination",
                    "key": "signed-2065c468-73e2-4385-a6c9-0123456789abc"
                }
            },
            "createdAt": 1568412036
        },
        {
            "status": "Failed",
            "source": {
                "s3": {
                    "version": "PNyFaUTgsQh5ZdMCcoCe6pT1gOpgB_M4",
                    "bucketName": "signer-source",
                    "key": "MyOtherCode.rb"
                }
            },
            "signingMaterial": {
                "certificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/6a55389b-306b-4e8c-a95c-0123456789abc"
            },
            "createdAt": 1568402690,
            "jobId": "74d9825e-22fc-4a0d-b962-0123456789abc"
        }
    ]
}
```
+  Untuk detail API, lihat [ListSigningJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/list-signing-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-signing-platforms`
<a name="signer_ListSigningPlatforms_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-signing-platforms`.

**AWS CLI**  
**Untuk membuat daftar semua platform penandatanganan**  
`list-signing-platforms`Contoh berikut menampilkan detail tentang semua platform penandatanganan yang tersedia.  

```
aws signer list-signing-platforms
```
Output:  

```
{
    "platforms": [
        {
            "category": "AWS",
            "displayName": "AWS IoT Device Management SHA256-ECDSA ",
            "target": "SHA256-ECDSA",
            "platformId": "AWSIoTDeviceManagement-SHA256-ECDSA",
            "signingConfiguration": {
                "encryptionAlgorithmOptions": {
                    "defaultValue": "ECDSA",
                    "allowedValues": [
                        "ECDSA"
                    ]
                },
                "hashAlgorithmOptions": {
                    "defaultValue": "SHA256",
                    "allowedValues": [
                        "SHA256"
                    ]
                }
            },
            "maxSizeInMB": 2048,
            "partner": "AWSIoTDeviceManagement",
            "signingImageFormat": {
                "defaultFormat": "JSONDetached",
                "supportedFormats": [
                    "JSONDetached"
                ]
            }
        },
        {
            "category": "AWS",
            "displayName": "Amazon FreeRTOS SHA1-RSA CC3220SF-Format",
            "target": "SHA1-RSA-TISHA1",
            "platformId": "AmazonFreeRTOS-TI-CC3220SF",
            "signingConfiguration": {
                "encryptionAlgorithmOptions": {
                    "defaultValue": "RSA",
                    "allowedValues": [
                        "RSA"
                    ]
                },
                "hashAlgorithmOptions": {
                    "defaultValue": "SHA1",
                    "allowedValues": [
                        "SHA1"
                    ]
                }
            },
            "maxSizeInMB": 16,
            "partner": "AmazonFreeRTOS",
            "signingImageFormat": {
                "defaultFormat": "JSONEmbedded",
                "supportedFormats": [
                    "JSONEmbedded"
                ]
            }
        },
        {
            "category": "AWS",
            "displayName": "Amazon FreeRTOS SHA256-ECDSA",
            "target": "SHA256-ECDSA",
            "platformId": "AmazonFreeRTOS-Default",
            "signingConfiguration": {
                "encryptionAlgorithmOptions": {
                    "defaultValue": "ECDSA",
                    "allowedValues": [
                        "ECDSA"
                    ]
                },
                "hashAlgorithmOptions": {
                    "defaultValue": "SHA256",
                    "allowedValues": [
                        "SHA256"
                    ]
                }
            },
            "maxSizeInMB": 16,
            "partner": "AmazonFreeRTOS",
            "signingImageFormat": {
                "defaultFormat": "JSONEmbedded",
                "supportedFormats": [
                    "JSONEmbedded"
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [ListSigningPlatforms](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/list-signing-platforms.html)di *Referensi AWS CLI Perintah*. 

### `list-signing-profiles`
<a name="signer_ListSigningProfiles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-signing-profiles`.

**AWS CLI**  
**Untuk membuat daftar semua profil penandatanganan**  
`list-signing-profiles`Contoh berikut menampilkan detail tentang semua profil penandatanganan untuk akun.  

```
aws signer list-signing-profiles
```
Output:  

```
{
    "profiles": [
        {
            "platformId": "AmazonFreeRTOS-TI-CC3220SF",
            "profileName": "MyProfile4",
            "status": "Active",
            "signingMaterial": {
                "certificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/6a55389b-306b-4e8c-a95c-0123456789abc"
            }
        },
        {
            "platformId": "AWSIoTDeviceManagement-SHA256-ECDSA",
            "profileName": "MyProfile5",
            "status": "Active",
            "signingMaterial": {
                "certificateArn": "arn:aws:acm:us-west-2:123456789012:certificate/6a55389b-306b-4e8c-a95c-0123456789abc"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [ListSigningProfiles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/list-signing-profiles.html)di *Referensi AWS CLI Perintah*. 

### `put-signing-profile`
<a name="signer_PutSigningProfile_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-signing-profile`.

**AWS CLI**  
**Untuk membuat profil penandatanganan**  
`put-signing-profile`Contoh berikut membuat profil penandatanganan menggunakan sertifikat dan platform yang ditentukan.  

```
aws signer put-signing-profile \
    --profile-name MyProfile6 \
    --signing-material certificateArn=arn:aws:acm:us-west-2:123456789012:certificate/6a55389b-306b-4e8c-a95c-0123456789abc \
    --platform AmazonFreeRTOS-TI-CC3220SF
```
Output:  

```
{
    "arn": "arn:aws:signer:us-west-2:123456789012:/signing-profiles/MyProfile6"
}
```
+  Untuk detail API, lihat [PutSigningProfile](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/put-signing-profile.html)di *Referensi AWS CLI Perintah*. 

### `start-signing-job`
<a name="signer_StartSigningJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-signing-job`.

**AWS CLI**  
**Untuk memulai pekerjaan penandatanganan**  
`start-signing-job`Contoh berikut memulai pekerjaan penandatanganan pada kode yang ditemukan di sumber yang ditentukan. Ini menggunakan profil yang ditentukan untuk melakukan penandatanganan dan menempatkan kode yang ditandatangani di tujuan yang ditentukan.  

```
aws signer start-signing-job \
    --source 's3={bucketName=signer-source,key=MyCode.rb,version=PNyFaUTgsQh5ZdMCcoCe6pT1gOpgB_M4}' \
    --destination 's3={bucketName=signer-destination,prefix=signed-}' \
    --profile-name MyProfile7
```
Outputnya adalah ID dari pekerjaan penandatanganan.  

```
{
    "jobId": "2065c468-73e2-4385-a6c9-0123456789abc"
}
```
+  Untuk detail API, lihat [StartSigningJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/signer/start-signing-job.html)di *Referensi AWS CLI Perintah*. 

# Contoh Snowball Edge menggunakan AWS CLI
<a name="cli_2_snowball_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS Command Line Interface with Snowball Edge.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `get-snowball-usage`
<a name="snowball_GetSnowballUsage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-snowball-usage`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang batas layanan Snowball untuk akun Anda**  
`get-snowball-usage`Contoh berikut menampilkan informasi tentang batas layanan Snowball untuk akun Anda, dan juga jumlah Bola Salju yang digunakan akun Anda.  

```
aws snowball get-snowball-usage
```
Output:  

```
{
    "SnowballLimit": 1,
    "SnowballsInUse": 0
}
```
UNTUK informasi lebih lanjut, lihat [Batas Tepi AWS Snowball di Panduan](https://docs.aws.amazon.com/snowball/latest/developer-guide/limits.html) Pengembang *AWS Snowball*.  
+  Untuk detail API, lihat [GetSnowballUsage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/snowball/get-snowball-usage.html)di *Referensi AWS CLI Perintah*. 

### `list-jobs`
<a name="snowball_ListJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-jobs`.

**AWS CLI**  
**Untuk daftar pekerjaan Snowball saat ini di akun Anda**  
`list-jobs`Contoh berikut menampilkan array `JobListEntry` objek. Dalam contoh ini, satu pekerjaan terdaftar.  

```
aws snowball list-jobs
```
Output:  

```
{
    "JobListEntries": [
        {
            "CreationDate": 2016-09-27T14:50Z,
             "Description": "Important Photos 2016-08-11",
             "IsMaster": TRUE,
             "JobId": "ABCd1e324fe-022f-488e-a98b-3b0566063db1",
             "JobState": "Complete",
             "JobType": "IMPORT",
             "SnowballType": "EDGE"
        }
   ]
}
```
Untuk informasi selengkapnya, lihat [Pekerjaan untuk perangkat AWS Snowball Edge di Panduan](https://docs.aws.amazon.com/snowball/latest/developer-guide/jobs.html) Pengembang *AWS Snowball*.  
+  Untuk detail API, lihat [ListJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/snowball/list-jobs.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon SNS menggunakan AWS CLI
<a name="cli_2_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS Command Line Interface dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `add-permission`
<a name="sns_AddPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-permission`.

**AWS CLI**  
**Untuk menambahkan izin ke topik**  
`add-permission`Contoh berikut menambahkan izin untuk AWS akun `987654321098` untuk menggunakan `Publish` tindakan dengan topik yang ditentukan di bawah AWS akun`123456789012`.  

```
aws sns add-permission \
    --topic-arn arn:aws:sns:us-west-2:123456789012:MyTopic \
    --label Publish-Permission \
    --aws-account-id 987654321098 \
    --action-name Publish
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AddPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/add-permission.html)di *Referensi AWS CLI Perintah*. 

### `check-if-phone-number-is-opted-out`
<a name="sns_CheckIfPhoneNumberIsOptedOut_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`check-if-phone-number-is-opted-out`.

**AWS CLI**  
**Untuk memeriksa pesan SMS opt-out untuk nomor telepon**  
`check-if-phone-number-is-opted-out`Contoh berikut memeriksa apakah nomor telepon yang ditentukan dipilih untuk tidak menerima pesan SMS dari AWS akun saat ini.  

```
aws sns check-if-phone-number-is-opted-out \
    --phone-number +1555550100
```
Output:  

```
{
    "isOptedOut": false
}
```
+  Untuk detail API, lihat [CheckIfPhoneNumberIsOptedOut](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/check-if-phone-number-is-opted-out.html)di *Referensi AWS CLI Perintah*. 

### `confirm-subscription`
<a name="sns_ConfirmSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`confirm-subscription`.

**AWS CLI**  
**Untuk mengonfirmasi langganan**  
`confirm-subscription`Perintah berikut menyelesaikan proses konfirmasi yang dimulai saat Anda berlangganan topik SNS bernama. `my-topic` Parameter --token berasal dari pesan konfirmasi yang dikirim ke titik akhir notifikasi yang ditentukan dalam panggilan berlangganan.  

```
aws sns confirm-subscription \
    --topic-arn arn:aws:sns:us-west-2:123456789012:my-topic \
    --token 2336412f37fb687f5d51e6e241d7700ae02f7124d8268910b858cb4db727ceeb2474bb937929d3bdd7ce5d0cce19325d036bc858d3c217426bcafa9c501a2cace93b83f1dd3797627467553dc438a8c974119496fc3eff026eaa5d14472ded6f9a5c43aec62d83ef5f49109da7176391
```
Output:  

```
{
    "SubscriptionArn": "arn:aws:sns:us-west-2:123456789012:my-topic:8a21d249-4329-4871-acc6-7be709c6ea7f"
}
```
+  Untuk detail API, lihat [ConfirmSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/confirm-subscription.html)di *Referensi AWS CLI Perintah*. 

### `create-platform-application`
<a name="sns_CreatePlatformApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-platform-application`.

**AWS CLI**  
**Untuk membuat aplikasi platform**  
`create-platform-application`Contoh berikut membuat aplikasi platform Google Firebase menggunakan kredensyal platform yang ditentukan.  

```
aws sns create-platform-application \
    --name MyApplication \
    --platform GCM \
    --attributes PlatformCredential=EXAMPLEabcd12345jklm67890stuv12345bcdef
```
Output:  

```
{
    "PlatformApplicationArn": "arn:aws:sns:us-west-2:123456789012:app/GCM/MyApplication"
}
```
+  Untuk detail API, lihat [CreatePlatformApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/create-platform-application.html)di *Referensi AWS CLI Perintah*. 

### `create-topic`
<a name="sns_CreateTopic_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-topic`.

**AWS CLI**  
**Untuk membuat topik SNS**  
`create-topic`Contoh berikut membuat topik SNS bernama`my-topic`.  

```
aws sns create-topic \
    --name my-topic
```
Output:  

```
{
    "ResponseMetadata": {
        "RequestId": "1469e8d7-1642-564e-b85d-a19b4b341f83"
    },
    "TopicArn": "arn:aws:sns:us-west-2:123456789012:my-topic"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Antarmuka Baris AWS Perintah dengan Amazon SQS dan Amazon SNS](https://docs.aws.amazon.com/cli/latest/userguide/cli-sqs-queue-sns-topic.html) di Panduan Pengguna Antarmuka *Baris AWS Perintah*.  
+  Untuk detail API, lihat [CreateTopic](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/create-topic.html)di *Referensi AWS CLI Perintah*. 

### `delete-endpoint`
<a name="sns_DeleteEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-endpoint`.

**AWS CLI**  
**Untuk menghapus titik akhir aplikasi platform**  
`delete-endpoint`Contoh berikut menghapus endpoint aplikasi platform yang ditentukan.  

```
aws sns delete-endpoint \
    --endpoint-arn arn:aws:sns:us-west-2:123456789012:endpoint/GCM/MyApplication/12345678-abcd-9012-efgh-345678901234
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/delete-endpoint.html)di *Referensi AWS CLI Perintah*. 

### `delete-platform-application`
<a name="sns_DeletePlatformApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-platform-application`.

**AWS CLI**  
**Untuk menghapus aplikasi platform**  
`delete-platform-application`Contoh berikut menghapus aplikasi platform yang ditentukan.  

```
aws sns delete-platform-application \
    --platform-application-arn arn:aws:sns:us-west-2:123456789012:app/ADM/MyApplication
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeletePlatformApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/delete-platform-application.html)di *Referensi AWS CLI Perintah*. 

### `delete-topic`
<a name="sns_DeleteTopic_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-topic`.

**AWS CLI**  
**Untuk menghapus topik SNS**  
`delete-topic`Contoh berikut menghapus topik SNS yang ditentukan.  

```
aws sns delete-topic \
    --topic-arn "arn:aws:sns:us-west-2:123456789012:my-topic"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteTopic](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/delete-topic.html)di *Referensi AWS CLI Perintah*. 

### `get-endpoint-attributes`
<a name="sns_GetEndpointAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-endpoint-attributes`.

**AWS CLI**  
**Untuk membuat daftar atribut endpoint aplikasi platform**  
`get-endpoint-attributes`Contoh berikut mencantumkan atribut untuk endpoint aplikasi platform tertentu.  

```
aws sns get-endpoint-attributes \
    --endpoint-arn arn:aws:sns:us-west-2:123456789012:endpoint/GCM/MyApplication/12345678-abcd-9012-efgh-345678901234
```
Output:  

```
{
    "Attributes": {
        "Enabled": "true",
        "Token": "EXAMPLE12345..."
    }
}
```
+  Untuk detail API, lihat [GetEndpointAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/get-endpoint-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-platform-application-attributes`
<a name="sns_GetPlatformApplicationAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-platform-application-attributes`.

**AWS CLI**  
**Untuk membuat daftar atribut aplikasi platform**  
`get-platform-application-attributes`Contoh berikut mencantumkan atribut untuk aplikasi platform tertentu.  

```
aws sns get-platform-application-attributes \
    --platform-application-arn arn:aws:sns:us-west-2:123456789012:app/MPNS/MyApplication
```
Output:  

```
{
    "Attributes": {
        "Enabled": "true",
        "SuccessFeedbackSampleRate": "100"
    }
}
```
+  Untuk detail API, lihat [GetPlatformApplicationAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/get-platform-application-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-sms-attributes`
<a name="sns_GetSMSAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sms-attributes`.

**AWS CLI**  
**Untuk mencantumkan atribut pesan SMS default**  
`get-sms-attributes`Contoh berikut mencantumkan atribut default untuk mengirim pesan SMS.  

```
aws sns get-sms-attributes
```
Output:  

```
{
    "attributes": {
        "DefaultSenderID": "MyName"
    }
}
```
+  Untuk detail API, lihat [Dapatkan SMSAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/get-sms-attributes.html) *Referensi AWS CLI Perintah*. 

### `get-subscription-attributes`
<a name="sns_GetSubscriptionAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-subscription-attributes`.

**AWS CLI**  
**Untuk mengambil atribut langganan untuk topik**  
Berikut ini `get-subscription-attributes` menampilkan atribut langganan yang ditentukan. Anda bisa mendapatkan `subscription-arn` dari output `list-subscriptions` perintah.  

```
aws sns get-subscription-attributes \
    --subscription-arn "arn:aws:sns:us-west-2:123456789012:my-topic:8a21d249-4329-4871-acc6-7be709c6ea7f"
```
Output:  

```
{
    "Attributes": {
        "Endpoint": "my-email@example.com",
        "Protocol": "email",
        "RawMessageDelivery": "false",
        "ConfirmationWasAuthenticated": "false",
        "Owner": "123456789012",
        "SubscriptionArn": "arn:aws:sns:us-west-2:123456789012:my-topic:8a21d249-4329-4871-acc6-7be709c6ea7f",
        "TopicArn": "arn:aws:sns:us-west-2:123456789012:my-topic"
    }
}
```
+  Untuk detail API, lihat [GetSubscriptionAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/get-subscription-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-topic-attributes`
<a name="sns_GetTopicAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-topic-attributes`.

**AWS CLI**  
**Untuk mengambil atribut dari suatu topik**  
`get-topic-attributes`Contoh berikut menampilkan atribut untuk topik yang ditentukan.  

```
aws sns get-topic-attributes \
    --topic-arn "arn:aws:sns:us-west-2:123456789012:my-topic"
```
Output:  

```
{
    "Attributes": {
        "SubscriptionsConfirmed": "1",
        "DisplayName": "my-topic",
        "SubscriptionsDeleted": "0",
        "EffectiveDeliveryPolicy": "{\"http\":{\"defaultHealthyRetryPolicy\":{\"minDelayTarget\":20,\"maxDelayTarget\":20,\"numRetries\":3,\"numMaxDelayRetries\":0,\"numNoDelayRetries\":0,\"numMinDelayRetries\":0,\"backoffFunction\":\"linear\"},\"disableSubscriptionOverrides\":false}}",
        "Owner": "123456789012",
        "Policy": "{\"Version\":\"2008-10-17\",\"Id\":\"__default_policy_ID\",\"Statement\":[{\"Sid\":\"__default_statement_ID\",\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"*\"},\"Action\":[\"SNS:Subscribe\",\"SNS:ListSubscriptionsByTopic\",\"SNS:DeleteTopic\",\"SNS:GetTopicAttributes\",\"SNS:Publish\",\"SNS:RemovePermission\",\"SNS:AddPermission\",\"SNS:SetTopicAttributes\"],\"Resource\":\"arn:aws:sns:us-west-2:123456789012:my-topic\",\"Condition\":{\"StringEquals\":{\"AWS:SourceOwner\":\"0123456789012\"}}}]}",
        "TopicArn": "arn:aws:sns:us-west-2:123456789012:my-topic",
        "SubscriptionsPending": "0"
    }
}
```
+  Untuk detail API, lihat [GetTopicAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/get-topic-attributes.html)di *Referensi AWS CLI Perintah*. 

### `list-endpoints-by-platform-application`
<a name="sns_ListEndpointsByPlatformApplication_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-endpoints-by-platform-application`.

**AWS CLI**  
**Untuk membuat daftar titik akhir untuk aplikasi platform**  
`list-endpoints-by-platform-application`Contoh berikut mencantumkan titik akhir dan atribut endpoint untuk aplikasi platform tertentu.  

```
aws sns list-endpoints-by-platform-application \
    --platform-application-arn arn:aws:sns:us-west-2:123456789012:app/GCM/MyApplication
```
Output:  

```
{
    "Endpoints": [
        {
            "Attributes": {
                "Token": "EXAMPLE12345...,
                "Enabled": "true"
            },
            "EndpointArn": "arn:aws:sns:us-west-2:123456789012:endpoint/GCM/MyApplication/12345678-abcd-9012-efgh-345678901234"
        }
    ]
}
```
+  Untuk detail API, lihat [ListEndpointsByPlatformApplication](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/list-endpoints-by-platform-application.html)di *Referensi AWS CLI Perintah*. 

### `list-phone-numbers-opted-out`
<a name="sns_ListPhoneNumbersOptedOut_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-phone-numbers-opted-out`.

**AWS CLI**  
**Untuk membuat daftar opt-out pesan SMS**  
`list-phone-numbers-opted-out`Contoh berikut mencantumkan nomor telepon yang dipilih untuk tidak menerima pesan SMS.  

```
aws sns list-phone-numbers-opted-out
```
Output:  

```
{
    "phoneNumbers": [
        "+15555550100"
    ]
}
```
+  Untuk detail API, lihat [ListPhoneNumbersOptedOut](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/list-phone-numbers-opted-out.html)di *Referensi AWS CLI Perintah*. 

### `list-platform-applications`
<a name="sns_ListPlatformApplications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-platform-applications`.

**AWS CLI**  
**Untuk membuat daftar aplikasi platform**  
`list-platform-applications`Contoh berikut mencantumkan aplikasi platform untuk ADM dan MPNS.  

```
aws sns list-platform-applications
```
Output:  

```
{
    "PlatformApplications": [
        {
            "PlatformApplicationArn": "arn:aws:sns:us-west-2:123456789012:app/ADM/MyApplication",
            "Attributes": {
                "SuccessFeedbackSampleRate": "100",
                "Enabled": "true"
            }
        },
        {
            "PlatformApplicationArn": "arn:aws:sns:us-west-2:123456789012:app/MPNS/MyOtherApplication",
            "Attributes": {
                "SuccessFeedbackSampleRate": "100",
                "Enabled": "true"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [ListPlatformApplications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/list-platform-applications.html)di *Referensi AWS CLI Perintah*. 

### `list-subscriptions-by-topic`
<a name="sns_ListSubscriptionsByTopic_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-subscriptions-by-topic`.

**AWS CLI**  
**Untuk membuat daftar langganan yang terkait dengan topik**  
Berikut ini `list-subscriptions-by-topic` mengambil daftar langganan SNS yang terkait dengan topik yang ditentukan.  

```
aws sns list-subscriptions-by-topic \
    --topic-arn "arn:aws:sns:us-west-2:123456789012:my-topic"
```
Output:  

```
{
    "Subscriptions": [
        {
            "Owner": "123456789012",
            "Endpoint": "my-email@example.com",
            "Protocol": "email",
            "TopicArn": "arn:aws:sns:us-west-2:123456789012:my-topic",
            "SubscriptionArn": "arn:aws:sns:us-west-2:123456789012:my-topic:8a21d249-4329-4871-acc6-7be709c6ea7f"
        }
    ]
}
```
+  Untuk detail API, lihat [ListSubscriptionsByTopic](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/list-subscriptions-by-topic.html)di *Referensi AWS CLI Perintah*. 

### `list-subscriptions`
<a name="sns_ListSubscriptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-subscriptions`.

**AWS CLI**  
**Untuk membuat daftar langganan SNS Anda**  
`list-subscriptions`Contoh berikut menampilkan daftar langganan SNS di akun Anda AWS .  

```
aws sns list-subscriptions
```
Output:  

```
{
    "Subscriptions": [
        {
            "Owner": "123456789012",
            "Endpoint": "my-email@example.com",
            "Protocol": "email",
            "TopicArn": "arn:aws:sns:us-west-2:123456789012:my-topic",
            "SubscriptionArn": "arn:aws:sns:us-west-2:123456789012:my-topic:8a21d249-4329-4871-acc6-7be709c6ea7f"
        }
    ]
}
```
+  Untuk detail API, lihat [ListSubscriptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/list-subscriptions.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="sns_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag untuk suatu topik**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk topik Amazon SNS yang ditentukan.  

```
aws sns list-tags-for-resource \
    --resource-arn arn:aws:sns:us-west-2:123456789012:MyTopic
```
Output:  

```
{
    "Tags": [
        {
            "Key": "Team",
            "Value": "Alpha"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-topics`
<a name="sns_ListTopics_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-topics`.

**AWS CLI**  
**Untuk membuat daftar topik SNS Anda**  
`list-topics`Contoh berikut mencantumkan semua topik SNS di AWS akun Anda.  

```
aws sns list-topics
```
Output:  

```
{
    "Topics": [
        {
            "TopicArn": "arn:aws:sns:us-west-2:123456789012:my-topic"
        }
    ]
}
```
+  Untuk detail API, lihat [ListTopics](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/list-topics.html)di *Referensi AWS CLI Perintah*. 

### `opt-in-phone-number`
<a name="sns_OptInPhoneNumber_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`opt-in-phone-number`.

**AWS CLI**  
**Untuk ikut serta dalam pesan SMS**  
`opt-in-phone-number`Contoh berikut memilih nomor telepon yang ditentukan untuk menerima pesan SMS.  

```
aws sns opt-in-phone-number \
    --phone-number +15555550100
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [OptInPhoneNumber](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/opt-in-phone-number.html)di *Referensi AWS CLI Perintah*. 

### `publish`
<a name="sns_Publish_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`publish`.

**AWS CLI**  
**Contoh 1: Untuk mempublikasikan pesan ke topik**  
`publish`Contoh berikut menerbitkan pesan yang ditentukan ke topik SNS yang ditentukan. Pesan berasal dari file teks, yang memungkinkan Anda untuk memasukkan jeda baris.  

```
aws sns publish \
    --topic-arn "arn:aws:sns:us-west-2:123456789012:my-topic" \
    --message file://message.txt
```
Isi dari `message.txt`:  

```
Hello World
Second Line
```
Output:  

```
{
    "MessageId": "123a45b6-7890-12c3-45d6-111122223333"
}
```
**Contoh 2: Untuk mempublikasikan pesan SMS ke nomor telepon**  
`publish`Contoh berikut menerbitkan pesan `Hello world!` ke nomor `+1-555-555-0100` telepon.  

```
aws sns publish \
    --message "Hello world!" \
    --phone-number +1-555-555-0100
```
Output:  

```
{
    "MessageId": "123a45b6-7890-12c3-45d6-333322221111"
}
```
+  Untuk detail API, lihat [Menerbitkan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/publish.html) di *Referensi AWS CLI Perintah*. 

### `put-data-protection-policy`
<a name="sns_PutDataProtectionPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-data-protection-policy`.

**AWS CLI**  
**Untuk menetapkan kebijakan perlindungan data**  
**Contoh 1: Untuk menolak penerbit mempublikasikan pesan dengan CreditCardNumber**  
`put-data-protection-policy`Contoh berikut menyangkal penerbit dari menerbitkan pesan dengan. CreditCardNumber  

```
aws sns put-data-protection-policy \
    --resource-arn arn:aws:sns:us-east-1:123456789012:mytopic \
    --data-protection-policy "{\"Name\":\"data_protection_policy\",\"Description\":\"Example data protection policy\",\"Version\":\"2021-06-01\",\"Statement\":[{\"DataDirection\":\"Inbound\",\"Principal\":[\"*\"],\"DataIdentifier\":[\"arn:aws:dataprotection::aws:data-identifier/CreditCardNumber\"],\"Operation\":{\"Deny\":{}}}]}"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk memuat parameter dari file**  
Berikut ini `put-data-protection-policy` memuat parameter dari file.  

```
aws sns put-data-protection-policy \
    --resource-arn arn:aws:sns:us-west-2:123456789012:MyTopic \
    --data-protection-policy file://policy.json
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutDataProtectionPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/put-data-protection-policy.html)di *Referensi AWS CLI Perintah*. 

### `remove-permission`
<a name="sns_RemovePermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-permission`.

**AWS CLI**  
**Untuk menghapus izin dari topik**  
`remove-permission`Contoh berikut menghapus izin `Publish-Permission` dari topik yang ditentukan.  

```
aws sns remove-permission \
    --topic-arn arn:aws:sns:us-west-2:123456789012:MyTopic \
    --label Publish-Permission
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [RemovePermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/remove-permission.html)di *Referensi AWS CLI Perintah*. 

### `set-endpoint-attributes`
<a name="sns_SetEndpointAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-endpoint-attributes`.

**AWS CLI**  
**Untuk mengatur atribut titik akhir**  
`set-endpoint-attributes`Contoh berikut menonaktifkan endpoint aplikasi platform yang ditentukan.  

```
aws sns set-endpoint-attributes \
    --endpoint-arn arn:aws:sns:us-west-2:123456789012:endpoint/GCM/MyApplication/12345678-abcd-9012-efgh-345678901234 \
    --attributes Enabled=false
```
Output:  

```
{
    "Attributes": {
        "Enabled": "false",
        "Token": "EXAMPLE12345..."
    }
}
```
+  Untuk detail API, lihat [SetEndpointAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/set-endpoint-attributes.html)di *Referensi AWS CLI Perintah*. 

### `set-platform-application-attributes`
<a name="sns_SetPlatformApplicationAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-platform-application-attributes`.

**AWS CLI**  
**Untuk mengatur atribut aplikasi platform**  
`set-platform-application-attributes`Contoh berikut menetapkan `EventDeliveryFailure` atribut untuk aplikasi platform yang ditentukan ke ARN dari topik Amazon SNS yang ditentukan.  

```
aws sns set-platform-application-attributes \
    --platform-application-arn arn:aws:sns:us-west-2:123456789012:app/GCM/MyApplication \
    --attributes EventDeliveryFailure=arn:aws:sns:us-west-2:123456789012:AnotherTopic
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetPlatformApplicationAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/set-platform-application-attributes.html)di *Referensi AWS CLI Perintah*. 

### `set-sms-attributes`
<a name="sns_SetSMSAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-sms-attributes`.

**AWS CLI**  
**Untuk mengatur atribut pesan SMS**  
`set-sms-attributes`Contoh berikut menetapkan ID pengirim default untuk pesan SMS ke`MyName`.  

```
aws sns set-sms-attributes \
    --attributes DefaultSenderID=MyName
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [Menyetel SMSAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/set-sms-attributes.html) di *Referensi AWS CLI Perintah*. 

### `set-subscription-attributes`
<a name="sns_SetSubscriptionAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-subscription-attributes`.

**AWS CLI**  
**Untuk mengatur atribut langganan**  
`set-subscription-attributes`Contoh berikut menetapkan `RawMessageDelivery` atribut ke langganan SQS.  

```
aws sns set-subscription-attributes \
    --subscription-arn arn:aws:sns:us-east-1:123456789012:mytopic:f248de18-2cf6-578c-8592-b6f1eaa877dc \
    --attribute-name RawMessageDelivery \
    --attribute-value true
```
Perintah ini tidak menghasilkan output.  
`set-subscription-attributes`Contoh berikut menetapkan `FilterPolicy` atribut ke langganan SQS.  

```
aws sns set-subscription-attributes \
    --subscription-arn arn:aws:sns:us-east-1:123456789012:mytopic:f248de18-2cf6-578c-8592-b6f1eaa877dc \
    --attribute-name FilterPolicy \
    --attribute-value "{ \"anyMandatoryKey\": [\"any\", \"of\", \"these\"] }"
```
Perintah ini tidak menghasilkan output.  
`set-subscription-attributes`Contoh berikut menghapus `FilterPolicy` atribut dari langganan SQS.  

```
aws sns set-subscription-attributes \
    --subscription-arn arn:aws:sns:us-east-1:123456789012:mytopic:f248de18-2cf6-578c-8592-b6f1eaa877dc \
    --attribute-name FilterPolicy \
    --attribute-value "{}"
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetSubscriptionAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/set-subscription-attributes.html)di *Referensi AWS CLI Perintah*. 

### `set-topic-attributes`
<a name="sns_SetTopicAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-topic-attributes`.

**AWS CLI**  
**Untuk menetapkan atribut untuk topik**  
`set-topic-attributes`Contoh berikut menetapkan `DisplayName` atribut untuk topik tertentu.  

```
aws sns set-topic-attributes \
    --topic-arn arn:aws:sns:us-west-2:123456789012:MyTopic \
    --attribute-name DisplayName \
    --attribute-value MyTopicDisplayName
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [SetTopicAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/set-topic-attributes.html)di *Referensi AWS CLI Perintah*. 

### `subscribe`
<a name="sns_Subscribe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`subscribe`.

**AWS CLI**  
**Untuk berlangganan topik**  
`subscribe`Perintah berikut berlangganan alamat email ke topik yang ditentukan.  

```
aws sns subscribe \
    --topic-arn arn:aws:sns:us-west-2:123456789012:my-topic \
    --protocol email \
    --notification-endpoint my-email@example.com
```
Output:  

```
{
    "SubscriptionArn": "pending confirmation"
}
```
+  Untuk detail API, lihat [Berlangganan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/subscribe.html) di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="sns_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke topik**  
`tag-resource`Contoh berikut menambahkan tag metadata ke topik Amazon SNS yang ditentukan.  

```
aws sns tag-resource \
    --resource-arn arn:aws:sns:us-west-2:123456789012:MyTopic \
    --tags Key=Team,Value=Alpha
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `unsubscribe`
<a name="sns_Unsubscribe_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unsubscribe`.

**AWS CLI**  
**Untuk berhenti berlangganan dari suatu topik**  
`unsubscribe`Contoh berikut menghapus langganan yang ditentukan dari suatu topik.  

```
aws sns unsubscribe \
    --subscription-arn arn:aws:sns:us-west-2:0123456789012:my-topic:8a21d249-4329-4871-acc6-7be709c6ea7f
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [Berhenti berlangganan](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/unsubscribe.html) di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="sns_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari topik**  
`untag-resource`Contoh berikut menghapus tag apa pun dengan kunci yang ditentukan dari topik Amazon SNS yang ditentukan.  

```
aws sns untag-resource \
    --resource-arn arn:aws:sns:us-west-2:123456789012:MyTopic \
    --tag-keys Team
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sns/untag-resource.html)di *Referensi AWS CLI Perintah*. 

## Skenario
<a name="scenarios"></a>

### Buat titik akhir platform untuk pemberitahuan push
<a name="sns_CreatePlatformEndpoint_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat titik akhir platform untuk notifikasi push Amazon SNS.

**AWS CLI**  
**Untuk membuat endpoint aplikasi platform**  
`create-platform-endpoint`Contoh berikut membuat titik akhir untuk aplikasi platform tertentu menggunakan token yang ditentukan.  

```
aws sns create-platform-endpoint \
    --platform-application-arn arn:aws:sns:us-west-2:123456789012:app/GCM/MyApplication \
    --token EXAMPLE12345...
```
Output:  

```
{
      "EndpointArn": "arn:aws:sns:us-west-2:1234567890:endpoint/GCM/MyApplication/12345678-abcd-9012-efgh-345678901234"
}
```

# Contoh Amazon SQS menggunakan AWS CLI
<a name="cli_2_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon SQS. AWS Command Line Interface 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-permission`
<a name="sqs_AddPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-permission`.

**AWS CLI**  
**Untuk menambahkan izin ke antrian**  
Contoh ini memungkinkan AWS akun yang ditentukan untuk mengirim pesan ke antrian yang ditentukan.  
Perintah:  

```
aws sqs add-permission --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --label SendMessagesFromMyQueue --aws-account-ids 12345EXAMPLE --actions SendMessage
```
Output:  

```
None.
```
+  Untuk detail API, lihat [AddPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/add-permission.html)di *Referensi AWS CLI Perintah*. 

### `cancel-message-move-task`
<a name="sqs_CancelMessageMoveTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-message-move-task`.

**AWS CLI**  
**Untuk membatalkan tugas pemindahan pesan**  
`cancel-message-move-task`Contoh berikut membatalkan tugas pemindahan pesan yang ditentukan.  

```
aws sqs cancel-message-move-task \
    --task-handle AQEB6nR4...HzlvZQ==
```
Output:  

```
{
    "ApproximateNumberOfMessagesMoved": 102
}
```
*Untuk informasi selengkapnya, lihat [Izin Amazon SQS API: Tindakan dan referensi sumber daya di Panduan Pengembang](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-api-permissions-reference.html).*  
+  Untuk detail API, lihat [CancelMessageMoveTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/cancel-message-move-task.html)di *Referensi AWS CLI Perintah*. 

### `change-message-visibility-batch`
<a name="sqs_ChangeMessageVisibilityBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`change-message-visibility-batch`.

**AWS CLI**  
**Untuk mengubah visibilitas batas waktu beberapa pesan sebagai batch**  
Contoh ini mengubah visibilitas batas waktu 2 pesan yang ditentukan menjadi 10 jam (10 jam\$1 60 menit \$1 60 detik).  
Perintah:  

```
aws sqs change-message-visibility-batch --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --entries file://change-message-visibility-batch.json
```
Berkas masukan (change-message-visibility-batch.json):  

```
[
  {
    "Id": "FirstMessage",
        "ReceiptHandle": "AQEBhz2q...Jf3kaw==",
        "VisibilityTimeout": 36000
  },
  {
    "Id": "SecondMessage",
        "ReceiptHandle": "AQEBkTUH...HifSnw==",
        "VisibilityTimeout": 36000
  }
]
```
Output:  

```
{
  "Successful": [
    {
      "Id": "SecondMessage"
    },
    {
      "Id": "FirstMessage"
    }
  ]
}
```
+  Untuk detail API, lihat [ChangeMessageVisibilityBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/change-message-visibility-batch.html)di *Referensi AWS CLI Perintah*. 

### `change-message-visibility`
<a name="sqs_ChangeMessageVisibility_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`change-message-visibility`.

**AWS CLI**  
**Untuk mengubah visibilitas batas waktu pesan**  
Contoh ini mengubah visibilitas batas waktu pesan yang ditentukan menjadi 10 jam (10 jam\$1 60 menit \$1 60 detik).  
Perintah:  

```
aws sqs change-message-visibility --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --receipt-handle AQEBTpyI...t6HyQg== --visibility-timeout 36000
```
Output:  

```
None.
```
+  Untuk detail API, lihat [ChangeMessageVisibility](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/change-message-visibility.html)di *Referensi AWS CLI Perintah*. 

### `create-queue`
<a name="sqs_CreateQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-queue`.

**AWS CLI**  
**Untuk membuat antrian**  
Contoh ini membuat antrian dengan nama yang ditentukan, menetapkan periode penyimpanan pesan menjadi 3 hari (3 hari\$1 24 jam\$1 60 menit \$1 60 detik), dan mengatur antrian surat mati antrian ke antrian yang ditentukan dengan jumlah penerimaan maksimum 1.000 pesan.  
Perintah:  

```
aws sqs create-queue --queue-name MyQueue --attributes file://create-queue.json
```
File masukan (buat-antrean.json):  

```
{
  "RedrivePolicy": "{\"deadLetterTargetArn\":\"arn:aws:sqs:us-east-1:80398EXAMPLE:MyDeadLetterQueue\",\"maxReceiveCount\":\"1000\"}",
  "MessageRetentionPeriod": "259200"
}
```
Output:  

```
{
  "QueueUrl": "https://queue.amazonaws.com/80398EXAMPLE/MyQueue"
}
```
+  Untuk detail API, lihat [CreateQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/create-queue.html)di *Referensi AWS CLI Perintah*. 

### `delete-message-batch`
<a name="sqs_DeleteMessageBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-message-batch`.

**AWS CLI**  
**Untuk menghapus beberapa pesan sebagai batch**  
Contoh ini menghapus pesan yang ditentukan.  
Perintah:  

```
aws sqs delete-message-batch --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --entries file://delete-message-batch.json
```
Berkas masukan (delete-message-batch.json):  

```
[
  {
        "Id": "FirstMessage",
        "ReceiptHandle": "AQEB1mgl...Z4GuLw=="
  },
  {
    "Id": "SecondMessage",
        "ReceiptHandle": "AQEBLsYM...VQubAA=="
  }
]
```
Output:  

```
{
  "Successful": [
    {
      "Id": "FirstMessage"
    },
    {
      "Id": "SecondMessage"
    }
  ]
}
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/delete-message-batch.html)di *Referensi AWS CLI Perintah*. 

### `delete-message`
<a name="sqs_DeleteMessage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-message`.

**AWS CLI**  
**Untuk menghapus pesan**  
Contoh ini menghapus pesan yang ditentukan.  
Perintah:  

```
aws sqs delete-message --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --receipt-handle AQEBRXTo...q2doVA==
```
Output:  

```
None.
```
+  Untuk detail API, lihat [DeleteMessage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/delete-message.html)di *Referensi AWS CLI Perintah*. 

### `delete-queue`
<a name="sqs_DeleteQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-queue`.

**AWS CLI**  
**Untuk menghapus antrian**  
Contoh ini menghapus antrian yang ditentukan.  
Perintah:  

```
aws sqs delete-queue --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyNewerQueue
```
Output:  

```
None.
```
+  Untuk detail API, lihat [DeleteQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/delete-queue.html)di *Referensi AWS CLI Perintah*. 

### `get-queue-attributes`
<a name="sqs_GetQueueAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-queue-attributes`.

**AWS CLI**  
**Untuk mendapatkan atribut antrian**  
Contoh ini mendapatkan semua atribut antrian yang ditentukan.  
Perintah:  

```
aws sqs get-queue-attributes --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --attribute-names All
```
Output:  

```
{
  "Attributes": {
    "ApproximateNumberOfMessagesNotVisible": "0",
    "RedrivePolicy": "{\"deadLetterTargetArn\":\"arn:aws:sqs:us-east-1:80398EXAMPLE:MyDeadLetterQueue\",\"maxReceiveCount\":1000}",
    "MessageRetentionPeriod": "345600",
    "ApproximateNumberOfMessagesDelayed": "0",
    "MaximumMessageSize": "262144",
    "CreatedTimestamp": "1442426968",
    "ApproximateNumberOfMessages": "0",
    "ReceiveMessageWaitTimeSeconds": "0",
    "DelaySeconds": "0",
    "VisibilityTimeout": "30",
    "LastModifiedTimestamp": "1442426968",
    "QueueArn": "arn:aws:sqs:us-east-1:80398EXAMPLE:MyNewQueue"
  }
}
```
Contoh ini hanya mendapatkan ukuran pesan maksimum antrian yang ditentukan dan atribut batas waktu visibilitas.  
Perintah:  

```
aws sqs get-queue-attributes --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyNewQueue --attribute-names MaximumMessageSize VisibilityTimeout
```
Output:  

```
{
  "Attributes": {
    "VisibilityTimeout": "30",
    "MaximumMessageSize": "262144"
  }
}
```
+  Untuk detail API, lihat [GetQueueAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/get-queue-attributes.html)di *Referensi AWS CLI Perintah*. 

### `get-queue-url`
<a name="sqs_GetQueueUrl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-queue-url`.

**AWS CLI**  
**Untuk mendapatkan URL antrian**  
Contoh ini mendapatkan URL antrian yang ditentukan.  
Perintah:  

```
aws sqs get-queue-url --queue-name MyQueue
```
Output:  

```
{
  "QueueUrl": "https://queue.amazonaws.com/80398EXAMPLE/MyQueue"
}
```
+  Untuk detail API, lihat [GetQueueUrl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/get-queue-url.html)di *Referensi AWS CLI Perintah*. 

### `list-dead-letter-source-queues`
<a name="sqs_ListDeadLetterSourceQueues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-dead-letter-source-queues`.

**AWS CLI**  
**Untuk membuat daftar antrian sumber surat mati**  
Contoh ini mencantumkan antrian yang terkait dengan antrian sumber huruf mati yang ditentukan.  
Perintah:  

```
aws sqs list-dead-letter-source-queues --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue
```
Output:  

```
{
  "queueUrls": [
    "https://queue.amazonaws.com/80398EXAMPLE/MyQueue",
    "https://queue.amazonaws.com/80398EXAMPLE/MyOtherQueue"
  ]
}
```
+  Untuk detail API, lihat [ListDeadLetterSourceQueues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/list-dead-letter-source-queues.html)di *Referensi AWS CLI Perintah*. 

### `list-message-move-tasks`
<a name="sqs_ListMessageMoveTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-message-move-tasks`.

**AWS CLI**  
**Untuk mencantumkan tugas pemindahan pesan**  
`list-message-move-tasks`Contoh berikut mencantumkan 2 tugas pemindahan pesan terbaru dalam antrian yang ditentukan.  

```
aws sqs list-message-move-tasks \
    --source-arn arn:aws:sqs:us-west-2:80398EXAMPLE:MyQueue \
    --max-results 2
```
Output:  

```
{
    "Results": [
        {
            "TaskHandle": "AQEB6nR4...HzlvZQ==",
            "Status": "RUNNING",
            "SourceArn": "arn:aws:sqs:us-west-2:80398EXAMPLE:MyQueue1",
            "DestinationArn": "arn:aws:sqs:us-west-2:80398EXAMPLE:MyQueue2",
            "MaxNumberOfMessagesPerSecond": 50,
            "ApproximateNumberOfMessagesMoved": 203,
            "ApproximateNumberOfMessagesToMove": 30,
            "StartedTimestamp": 1442428276921
         },

         {
            "Status": "COMPLETED",
            "SourceArn": "arn:aws:sqs:us-west-2:80398EXAMPLE:MyQueue1",
            "DestinationArn": "arn:aws:sqs:us-west-2:80398EXAMPLE:MyQueue2",
            "ApproximateNumberOfMessagesMoved": 29,
            "ApproximateNumberOfMessagesToMove": 0,
            "StartedTimestamp": 1342428272093
         }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Izin Amazon SQS API: Tindakan dan referensi sumber daya di Panduan Pengembang](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-api-permissions-reference.html).*  
+  Untuk detail API, lihat [ListMessageMoveTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/list-message-move-tasks.html)di *Referensi AWS CLI Perintah*. 

### `list-queue-tags`
<a name="sqs_ListQueueTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-queue-tags`.

**AWS CLI**  
**Untuk mencantumkan semua tag alokasi biaya untuk antrian**  
`list-queue-tags`Contoh berikut menampilkan semua tag alokasi biaya yang terkait dengan antrian yang ditentukan.  

```
aws sqs list-queue-tags \
    --queue-url https://sqs.us-west-2.amazonaws.com/123456789012/MyQueue
```
Output:  

```
{
    "Tags": {
        "Team": "Alpha"
    }
}
```
Untuk informasi selengkapnya, lihat [Daftar Tag Alokasi Biaya di Panduan](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-queue-tags.html) *Pengembang Layanan Antrian Sederhana Amazon*.  
+  Untuk detail API, lihat [ListQueueTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/list-queue-tags.html)di *Referensi AWS CLI Perintah*. 

### `list-queues`
<a name="sqs_ListQueues_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-queues`.

**AWS CLI**  
**Untuk daftar antrian**  
Contoh ini mencantumkan semua antrian.  
Perintah:  

```
aws sqs list-queues
```
Output:  

```
{
  "QueueUrls": [
    "https://queue.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue",
    "https://queue.amazonaws.com/80398EXAMPLE/MyQueue",
    "https://queue.amazonaws.com/80398EXAMPLE/MyOtherQueue",
    "https://queue.amazonaws.com/80398EXAMPLE/TestQueue1",
        "https://queue.amazonaws.com/80398EXAMPLE/TestQueue2"
  ]
}
```
Contoh ini hanya mencantumkan antrian yang dimulai dengan “My”.  
Perintah:  

```
aws sqs list-queues --queue-name-prefix My
```
Output:  

```
{
  "QueueUrls": [
    "https://queue.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue",
    "https://queue.amazonaws.com/80398EXAMPLE/MyQueue",
    "https://queue.amazonaws.com/80398EXAMPLE/MyOtherQueue"
  ]
}
```
+  Untuk detail API, lihat [ListQueues](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/list-queues.html)di *Referensi AWS CLI Perintah*. 

### `purge-queue`
<a name="sqs_PurgeQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`purge-queue`.

**AWS CLI**  
**Untuk membersihkan antrian**  
Contoh ini menghapus semua pesan dalam antrian yang ditentukan.  
Perintah:  

```
aws sqs purge-queue --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyNewQueue
```
Output:  

```
None.
```
+  Untuk detail API, lihat [PurgeQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/purge-queue.html)di *Referensi AWS CLI Perintah*. 

### `receive-message`
<a name="sqs_ReceiveMessage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`receive-message`.

**AWS CLI**  
**Untuk menerima pesan**  
Contoh ini menerima hingga 10 pesan yang tersedia, mengembalikan semua atribut yang tersedia.  
Perintah:  

```
aws sqs receive-message --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --attribute-names All --message-attribute-names All --max-number-of-messages 10
```
Output:  

```
{
  "Messages": [
    {
      "Body": "My first message.",
      "ReceiptHandle": "AQEBzbVv...fqNzFw==",
      "MD5OfBody": "1000f835...a35411fa",
      "MD5OfMessageAttributes": "9424c491...26bc3ae7",
      "MessageId": "d6790f8d-d575-4f01-bc51-40122EXAMPLE",
      "Attributes": {
        "ApproximateFirstReceiveTimestamp": "1442428276921",
        "SenderId": "AIDAIAZKMSNQ7TEXAMPLE",
        "ApproximateReceiveCount": "5",
        "SentTimestamp": "1442428276921"
      },
      "MessageAttributes": {
        "PostalCode": {
          "DataType": "String",
          "StringValue": "ABC123"
        },
        "City": {
          "DataType": "String",
          "StringValue": "Any City"
        }
      }
    }
  ]
}
```
Contoh ini menerima pesan berikutnya yang tersedia, hanya mengembalikan SentTimestamp atribut SenderId dan serta atribut PostalCode pesan.  
Perintah:  

```
aws sqs receive-message --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --attribute-names SenderId SentTimestamp --message-attribute-names PostalCode
```
Output:  

```
{
  "Messages": [
    {
      "Body": "My first message.",
      "ReceiptHandle": "AQEB6nR4...HzlvZQ==",
      "MD5OfBody": "1000f835...a35411fa",
      "MD5OfMessageAttributes": "b8e89563...e088e74f",
      "MessageId": "d6790f8d-d575-4f01-bc51-40122EXAMPLE",
      "Attributes": {
        "SenderId": "AIDAIAZKMSNQ7TEXAMPLE",
        "SentTimestamp": "1442428276921"
      },
      "MessageAttributes": {
        "PostalCode": {
          "DataType": "String",
          "StringValue": "ABC123"
        }
      }
    }
  ]
}
```
+  Untuk detail API, lihat [ReceiveMessage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/receive-message.html)di *Referensi AWS CLI Perintah*. 

### `remove-permission`
<a name="sqs_RemovePermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-permission`.

**AWS CLI**  
**Untuk menghapus izin**  
Contoh ini menghapus izin dengan label yang ditentukan dari antrian yang ditentukan.  
Perintah:  

```
aws sqs remove-permission --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --label SendMessagesFromMyQueue
```
Output:  

```
None.
```
+  Untuk detail API, lihat [RemovePermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/remove-permission.html)di *Referensi AWS CLI Perintah*. 

### `send-message-batch`
<a name="sqs_SendMessageBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-message-batch`.

**AWS CLI**  
**Untuk mengirim beberapa pesan sebagai batch**  
Contoh ini mengirimkan 2 pesan dengan badan pesan tertentu, periode tunda, dan atribut pesan, ke antrian yang ditentukan.  
Perintah:  

```
aws sqs send-message-batch --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --entries file://send-message-batch.json
```
Berkas masukan (send-message-batch.json):  

```
[
  {
    "Id": "FuelReport-0001-2015-09-16T140731Z",
        "MessageBody": "Fuel report for account 0001 on 2015-09-16 at 02:07:31 PM.",
        "DelaySeconds": 10,
        "MessageAttributes": {
          "SellerName": {
            "DataType": "String",
                "StringValue": "Example Store"
      },
          "City": {
        "DataType": "String",
        "StringValue": "Any City"
      },
          "Region": {
            "DataType": "String",
                "StringValue": "WA"
      },
          "PostalCode": {
            "DataType": "String",
                "StringValue": "99065"
          },
          "PricePerGallon": {
            "DataType": "Number",
                "StringValue": "1.99"
      }
        }
  },
  {
    "Id": "FuelReport-0002-2015-09-16T140930Z",
        "MessageBody": "Fuel report for account 0002 on 2015-09-16 at 02:09:30 PM.",
        "DelaySeconds": 10,
        "MessageAttributes": {
          "SellerName": {
            "DataType": "String",
                "StringValue": "Example Fuels"
      },
          "City": {
        "DataType": "String",
        "StringValue": "North Town"
      },
          "Region": {
            "DataType": "String",
                "StringValue": "WA"
      },
          "PostalCode": {
            "DataType": "String",
                "StringValue": "99123"
          },
          "PricePerGallon": {
            "DataType": "Number",
                "StringValue": "1.87"
      }
        }
  }
]
```
Output:  

```
{
  "Successful": [
    {
      "MD5OfMessageBody": "203c4a38...7943237e",
      "MD5OfMessageAttributes": "10809b55...baf283ef",
      "Id": "FuelReport-0001-2015-09-16T140731Z",
      "MessageId": "d175070c-d6b8-4101-861d-adeb3EXAMPLE"
    },
    {
      "MD5OfMessageBody": "2cf0159a...c1980595",
      "MD5OfMessageAttributes": "55623928...ae354a25",
      "Id": "FuelReport-0002-2015-09-16T140930Z",
      "MessageId": "f9b7d55d-0570-413e-b9c5-a9264EXAMPLE"
    }
  ]
}
```
+  Untuk detail API, lihat [SendMessageBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/send-message-batch.html)di *Referensi AWS CLI Perintah*. 

### `send-message`
<a name="sqs_SendMessage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-message`.

**AWS CLI**  
**Untuk mengirim pesan**  
Contoh ini mengirimkan pesan dengan isi pesan tertentu, periode tunda, dan atribut pesan, ke antrian yang ditentukan.  
Perintah:  

```
aws sqs send-message --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue --message-body "Information about the largest city in Any Region." --delay-seconds 10 --message-attributes file://send-message.json
```
File masukan (send-message.json):  

```
{
  "City": {
    "DataType": "String",
    "StringValue": "Any City"
  },
  "Greeting": {
    "DataType": "Binary",
    "BinaryValue": "Hello, World!"
  },
  "Population": {
    "DataType": "Number",
    "StringValue": "1250800"
  }
}
```
Output:  

```
{
  "MD5OfMessageBody": "51b0a325...39163aa0",
  "MD5OfMessageAttributes": "00484c68...59e48f06",
  "MessageId": "da68f62c-0c07-4bee-bf5f-7e856EXAMPLE"
}
```
+  Untuk detail API, lihat [SendMessage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/send-message.html)di *Referensi AWS CLI Perintah*. 

### `set-queue-attributes`
<a name="sqs_SetQueueAttributes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`set-queue-attributes`.

**AWS CLI**  
**Untuk mengatur atribut antrian**  
Contoh ini menetapkan antrian yang ditentukan ke penundaan pengiriman 10 detik, ukuran pesan maksimum 128 KB (128 KB\$1 1.024 byte), periode penyimpanan pesan 3 hari (3 hari \$1 24 jam \$1 60 menit \$1 60 detik), waktu tunggu pesan terima 20 detik, dan batas waktu visibilitas default 60 detik. Contoh ini juga mengaitkan antrian surat mati yang ditentukan dengan jumlah penerimaan maksimum 1.000 pesan.  
Perintah:  

```
aws sqs set-queue-attributes --queue-url https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyNewQueue --attributes file://set-queue-attributes.json
```
Berkas masukan (set-queue-attributes.json):  

```
{
  "DelaySeconds": "10",
  "MaximumMessageSize": "131072",
  "MessageRetentionPeriod": "259200",
  "ReceiveMessageWaitTimeSeconds": "20",
  "RedrivePolicy": "{\"deadLetterTargetArn\":\"arn:aws:sqs:us-east-1:80398EXAMPLE:MyDeadLetterQueue\",\"maxReceiveCount\":\"1000\"}",
  "VisibilityTimeout": "60"
}
```
Output:  

```
None.
```
+  Untuk detail API, lihat [SetQueueAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/set-queue-attributes.html)di *Referensi AWS CLI Perintah*. 

### `start-message-move-task`
<a name="sqs_StartMessageMoveTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-message-move-task`.

**AWS CLI**  
*Contoh 1: \$1Untuk memulai tugas pemindahan pesan\$1*  
`start-message-move-task`Contoh berikut memulai tugas pemindahan pesan untuk menggerakkan ulang pesan dari antrian huruf mati yang ditentukan ke antrian sumber.  

```
aws sqs start-message-move-task \
    --source-arn arn:aws:sqs:us-west-2:80398EXAMPLE:MyQueue
```
Output:  

```
{
    "TaskHandle": "AQEB6nR4...HzlvZQ=="
}
```
Untuk informasi selengkapnya, lihat [Ini adalah judul topik](https://link.to.the/topic/page) di *Nama panduan Anda*.  
*Contoh 2: \$1Untuk memulai tugas pemindahan pesan dengan tingkat maksimum\$1*  
`start-message-move-task`Contoh berikut memulai tugas pemindahan pesan untuk menggerakkan ulang pesan dari antrian huruf mati yang ditentukan ke antrian tujuan yang ditentukan dengan kecepatan maksimum 50 pesan per detik.  

```
aws sqs start-message-move-task \
    --source-arn arn:aws:sqs:us-west-2:80398EXAMPLE:MyQueue1 \
    --destination-arn arn:aws:sqs:us-west-2:80398EXAMPLE:MyQueue2 \
    --max-number-of-messages-per-second 50
```
Output:  

```
{
    "TaskHandle": "AQEB6nR4...HzlvZQ=="
}
```
*Untuk informasi selengkapnya, lihat [Izin Amazon SQS API: Tindakan dan referensi sumber daya di Panduan Pengembang](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-api-permissions-reference.html).*  
+  Untuk detail API, lihat [StartMessageMoveTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/start-message-move-task.html)di *Referensi AWS CLI Perintah*. 

### `tag-queue`
<a name="sqs_TagQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-queue`.

**AWS CLI**  
**Untuk menambahkan tag alokasi biaya ke antrian**  
`tag-queue`Contoh berikut menambahkan tag alokasi biaya ke antrian Amazon SQS yang ditentukan.  

```
aws sqs tag-queue \
    --queue-url https://sqs.us-west-2.amazonaws.com/123456789012/MyQueue \
    --tags Priority=Highest
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan Tag Alokasi Biaya](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-queue-tags.html) di Panduan *Pengembang Layanan Antrian Sederhana Amazon*.  
+  Untuk detail API, lihat [TagQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/tag-queue.html)di *Referensi AWS CLI Perintah*. 

### `untag-queue`
<a name="sqs_UntagQueue_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-queue`.

**AWS CLI**  
**Untuk menghapus tag alokasi biaya dari antrian**  
`untag-queue`Contoh berikut menghapus tag alokasi biaya dari antrian Amazon SQS yang ditentukan.  

```
aws sqs untag-queue \
    --queue-url https://sqs.us-west-2.amazonaws.com/123456789012/MyQueue \
    --tag-keys "Priority"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menambahkan Tag Alokasi Biaya](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-queue-tags.html) di Panduan *Pengembang Layanan Antrian Sederhana Amazon*.  
+  Untuk detail API, lihat [UntagQueue](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sqs/untag-queue.html)di *Referensi AWS CLI Perintah*. 

# Contoh Storage Gateway menggunakan AWS CLI
<a name="cli_2_storage-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Storage Gateway.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `describe-gateway-information`
<a name="storage-gateway_DescribeGatewayInformation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-gateway-information`.

**AWS CLI**  
**Untuk menggambarkan gateway**  
`describe-gateway-information`Perintah berikut mengembalikan metadata tentang gateway yang ditentukan. Untuk menentukan gateway mana yang akan dijelaskan, gunakan Amazon Resource Name (ARN) dari gateway dalam perintah.  
Contoh ini menentukan gateway dengan id `sgw-12A3456B` di akun`123456789012`:  

```
aws storagegateway describe-gateway-information --gateway-arn "arn:aws:storagegateway:us-west-2:123456789012:gateway/sgw-12A3456B"
```
Perintah ini mengeluarkan blok JSON yang berisi metadata tentang gateway seperti namanya, antarmuka jaringan, zona waktu yang dikonfigurasi, dan status (apakah gateway sedang berjalan atau tidak).  
+  Untuk detail API, lihat [DescribeGatewayInformation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/storagegateway/describe-gateway-information.html)di *Referensi AWS CLI Perintah*. 

### `list-file-shares`
<a name="storage-gateway_ListFileShares_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-file-shares`.

**AWS CLI**  
**Untuk daftar berbagi file**  
`command-name`Contoh berikut mencantumkan widget yang tersedia di AWS akun Anda.  

```
aws storagegateway list-file-shares \
    --gateway-arn arn:aws:storagegateway:us-east-1:209870788375:gateway/sgw-FB02E292
```
Output:  

```
{
    "FileShareInfoList": [
        {
            "FileShareType": "NFS",
            "FileShareARN": "arn:aws:storagegateway:us-east-1:111122223333:share/share-2FA12345",
            "FileShareId": "share-2FA12345",
            "FileShareStatus": "AVAILABLE",
            "GatewayARN": "arn:aws:storagegateway:us-east-1:111122223333:gateway/sgw-FB0AAAAA"
        }
    ],
    "Marker": null
}
```
Untuk informasi selengkapnya, lihat [ListFileShares](https://docs.aws.amazon.com/storagegateway/latest/APIReference/API_ListFileShares.html)di *Referensi API Layanan AWS Storage Gateway*.  
+  Untuk detail API, lihat [ListFileShares](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/storagegateway/list-file-shares.html)di *Referensi AWS CLI Perintah*. 

### `list-gateways`
<a name="storage-gateway_ListGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-gateways`.

**AWS CLI**  
**Untuk membuat daftar gateway untuk akun**  
`list-gateways`Perintah berikut mencantumkan semua gateway yang ditentukan untuk akun:  

```
aws storagegateway list-gateways
```
Perintah ini mengeluarkan blok JSON yang berisi daftar gateway Amazon Resource Names ()ARNs.  
+  Untuk detail API, lihat [ListGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/storagegateway/list-gateways.html)di *Referensi AWS CLI Perintah*. 

### `list-volumes`
<a name="storage-gateway_ListVolumes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-volumes`.

**AWS CLI**  
**Untuk membuat daftar volume yang dikonfigurasi untuk gateway**  
`list-volumes`Perintah berikut mengembalikan daftar volume dikonfigurasi untuk gateway yang ditentukan. Untuk menentukan gateway mana yang akan dijelaskan, gunakan Amazon Resource Name (ARN) dari gateway dalam perintah.  
Contoh ini menentukan gateway dengan id `sgw-12A3456B` di akun`123456789012`:  

```
aws storagegateway list-volumes --gateway-arn "arn:aws:storagegateway:us-west-2:123456789012:gateway/sgw-12A3456B"
```
Perintah ini mengeluarkan blok JSON yang daftar volume yang mencakup tipe dan ARN untuk setiap volume.  
+  Untuk detail API, lihat [ListVolumes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/storagegateway/list-volumes.html)di *Referensi AWS CLI Perintah*. 

### `refresh-cache`
<a name="storage-gateway_RefreshCache_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`refresh-cache`.

**AWS CLI**  
**Untuk me-refresh cache berbagi file**  
`refresh-cache`Contoh berikut menyegarkan cache untuk berbagi file yang ditentukan.  

```
aws storagegateway refresh-cache \
    --file-share-arn arn:aws:storagegateway:us-east-1:111122223333:share/share-2FA12345
```
Output:  

```
{
    "FileShareARN": "arn:aws:storagegateway:us-east-1:111122223333:share/share-2FA12345",
    "NotificationId": "4954d4b1-abcd-ef01-1234-97950a7d3483"
}
```
Untuk informasi selengkapnya, lihat [ListFileShares](https://docs.aws.amazon.com/storagegateway/latest/APIReference/API_RefreshCache.html)di *Referensi API Layanan AWS Storage Gateway*.  
+  Untuk detail API, lihat [RefreshCache](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/storagegateway/refresh-cache.html)di *Referensi AWS CLI Perintah*. 

# AWS STS contoh menggunakan AWS CLI
<a name="cli_2_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `assume-role-with-saml`
<a name="sts_AssumeRoleWithSaml_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`assume-role-with-saml`.

**AWS CLI**  
**Untuk mendapatkan kredensi jangka pendek untuk peran yang diautentikasi dengan SAMP**  
`assume-role-with-saml`Perintah berikut mengambil satu set kredensyal jangka pendek untuk peran IAM. `TestSaml` Permintaan dalam contoh ini diautentikasi dengan menggunakan pernyataan SAMP yang disediakan oleh penyedia identitas Anda saat Anda mengautentikasi.  

```
aws sts assume-role-with-saml \
    --role-arn arn:aws:iam::123456789012:role/TestSaml \
    --principal-arn arn:aws:iam::123456789012:saml-provider/SAML-test \
    --saml-assertion "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"
```
Output:  

```
{
    "Issuer": "https://integ.example.com/idp/shibboleth</Issuer",
    "AssumedRoleUser": {
        "Arn": "arn:aws:sts::123456789012:assumed-role/TestSaml",
        "AssumedRoleId": "ARO456EXAMPLE789:TestSaml"
    },
    "Credentials": {
        "AccessKeyId": "ASIAV3ZUEFP6EXAMPLE",
        "SecretAccessKey": "8P+SQvWIuLnKhh8d++jpw0nNmQRBZvNEXAMPLEKEY",
        "SessionToken": "IQoJb3JpZ2luX2VjEOz////////////////////wEXAMPLEtMSJHMEUCIDoKK3JH9uGQE1z0sINr5M4jk+Na8KHDcCYRVjJCZEvOAiEA3OvJGtw1EcViOleS2vhs8VdCKFJQWPQrmGdeehM4IC1NtBmUpp2wUE8phUZampKsburEDy0KPkyQDYwT7WZ0wq5VSXDvp75YU9HFvlRd8Tx6q6fE8YQcHNVXAkiY9q6d+xo0rKwT38xVqr7ZD0u0iPPkUL64lIZbqBAz+scqKmlzm8FDrypNC9Yjc8fPOLn9FX9KSYvKTr4rvx3iSIlTJabIQwj2ICCR/oLxBA==",
        "Expiration": "2019-11-01T20:26:47Z"
    },
    "Audience": "https://signin.aws.amazon.com/saml",
    "SubjectType": "transient",
    "PackedPolicySize": "6",
    "NameQualifier": "SbdGOnUkh1i4+EXAMPLExL/jEvs=",
    "Subject": "SamlExample"
}
```
Untuk informasi lebih lanjut, lihat [Meminta Kredensial Keamanan Sementara](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_temp_request.html#api_assumerolewithsaml) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [AssumeRoleWithSaml](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sts/assume-role-with-saml.html)di *Referensi AWS CLI Perintah*. 

### `assume-role-with-web-identity`
<a name="sts_AssumeRoleWithWebIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`assume-role-with-web-identity`.

**AWS CLI**  
**Untuk mendapatkan kredensi jangka pendek untuk peran yang diautentikasi dengan Identitas Web (2."0) OAuth **  
`assume-role-with-web-identity`Perintah berikut mengambil satu set kredensyal jangka pendek untuk peran IAM. `app1` Permintaan diautentikasi dengan menggunakan token identitas web yang disediakan oleh penyedia identitas web yang ditentukan. Dua kebijakan tambahan diterapkan pada sesi untuk lebih membatasi apa yang dapat dilakukan pengguna. Kredensi yang dikembalikan kedaluwarsa satu jam setelah dibuat.  

```
aws sts assume-role-with-web-identity \
    --duration-seconds 3600 \
    --role-session-name "app1" \
    --provider-id "www.amazon.com" \
    --policy-arns "arn:aws:iam::123456789012:policy/q=webidentitydemopolicy1","arn:aws:iam::123456789012:policy/webidentitydemopolicy2" \
    --role-arn arn:aws:iam::123456789012:role/FederatedWebIdentityRole \
    --web-identity-token "Atza%7CIQEBLjAsAhRFiXuWpUXuRvQ9PZL3GMFcYevydwIUFAHZwXZXXXXXXXXJnrulxKDHwy87oGKPznh0D6bEQZTSCzyoCtL_8S07pLpr0zMbn6w1lfVZKNTBdDansFBmtGnIsIapjI6xKR02Yc_2bQ8LZbUXSGm6Ry6_BG7PrtLZtj_dfCTj92xNGed-CrKqjG7nPBjNIL016GGvuS5gSvPRUxWES3VYfm1wl7WTI7jn-Pcb6M-buCgHhFOzTQxod27L9CqnOLio7N3gZAGpsp6n1-AJBOCJckcyXe2c6uD0srOJeZlKUm2eTDVMf8IehDVI0r1QOnTV6KzzAI3OY87Vd_cVMQ"
```
Output:  

```
{
    "SubjectFromWebIdentityToken": "amzn1.account.AF6RHO7KZU5XRVQJGXK6HB56KR2A",
    "Audience": "client.5498841531868486423.1548@apps.example.com",
    "AssumedRoleUser": {
        "Arn": "arn:aws:sts::123456789012:assumed-role/FederatedWebIdentityRole/app1",
        "AssumedRoleId": "AROACLKWSDQRAOEXAMPLE:app1"
    },
    "Credentials": {
        "AccessKeyId": "AKIAIOSFODNN7EXAMPLE",
        "SecretAccessKey": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYzEXAMPLEKEY",
        "SessionToken": "AQoEXAMPLEH4aoAH0gNCAPyJxz4BlCFFxWNE1OPTgk5TthT+FvwqnKwRcOIfrRh3c/LTo6UDdyJwOOvEVPvLXCrrrUtdnniCEXAMPLE/IvU1dYUg2RVAJBanLiHb4IgRmpRV3zrkuWJOgQs8IZZaIv2BXIa2R4OlgkBN9bkUDNCJiBeb/AXlzBBko7b15fjrBs2+cTQtpZ3CYWFXG8C5zqx37wnOE49mRl/+OtkIKGO7fAE",
        "Expiration": "2020-05-19T18:06:10+00:00"
    },
    "Provider": "www.amazon.com"
}
```
Untuk informasi lebih lanjut, lihat [Meminta Kredensial Keamanan Sementara](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_temp_request.html#api_assumerolewithwebidentity) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [AssumeRoleWithWebIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sts/assume-role-with-web-identity.html)di *Referensi AWS CLI Perintah*. 

### `assume-role`
<a name="sts_AssumeRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`assume-role`.

**AWS CLI**  
**Untuk mengambil peran**  
`assume-role`Perintah berikut mengambil satu set kredensyal jangka pendek untuk peran IAM. `s3-access-example`  

```
aws sts assume-role \
    --role-arn arn:aws:iam::123456789012:role/xaccounts3access \
    --role-session-name s3-access-example
```
Output:  

```
{
    "AssumedRoleUser": {
        "AssumedRoleId": "AROA3XFRBF535PLBIFPI4:s3-access-example",
        "Arn": "arn:aws:sts::123456789012:assumed-role/xaccounts3access/s3-access-example"
    },
    "Credentials": {
        "SecretAccessKey": "9drTJvcXLB89EXAMPLELB8923FB892xMFI",
        "SessionToken": "AQoXdzELDDY//////////wEaoAK1wvxJY12r2IrDFT2IvAzTCn3zHoZ7YNtpiQLF0MqZye/qwjzP2iEXAMPLEbw/m3hsj8VBTkPORGvr9jM5sgP+w9IZWZnU+LWhmg+a5fDi2oTGUYcdg9uexQ4mtCHIHfi4citgqZTgco40Yqr4lIlo4V2b2Dyauk0eYFNebHtYlFVgAUj+7Indz3LU0aTWk1WKIjHmmMCIoTkyYp/k7kUG7moeEYKSitwQIi6Gjn+nyzM+PtoA3685ixzv0R7i5rjQi0YE0lf1oeie3bDiNHncmzosRM6SFiPzSvp6h/32xQuZsjcypmwsPSDtTPYcs0+YN/8BRi2/IcrxSpnWEXAMPLEXSDFTAQAM6Dl9zR0tXoybnlrZIwMLlMi1Kcgo5OytwU=",
        "Expiration": "2016-03-15T00:05:07Z",
        "AccessKeyId": "ASIAJEXAMPLEXEG2JICEA"
    }
}
```
Output dari perintah berisi kunci akses, kunci rahasia, dan token sesi yang dapat Anda gunakan untuk AWS mengautentikasi.  
Untuk penggunaan AWS CLI, Anda dapat mengatur profil bernama yang terkait dengan peran. Saat Anda menggunakan profil, AWS CLI akan memanggil peran assume-dan mengelola kredensional untuk Anda. Untuk informasi selengkapnya, lihat [Menggunakan peran IAM di AWS CLI](https://docs.aws.amazon.com/cli/latest/userguide/cli-configure-role.html) di Panduan Pengguna *AWS CLI*.  
+  Untuk detail API, lihat [AssumeRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sts/assume-role.html)di *Referensi AWS CLI Perintah*. 

### `assume-root`
<a name="sts_AssumeRoot_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`assume-root`.

**AWS CLI**  
**Untuk meluncurkan sesi istimewa**  
`assume-root`Perintah berikut mengambil sekumpulan kredensyal jangka pendek yang dapat Anda gunakan untuk menghapus kebijakan bucket Amazon S3 yang salah dikonfigurasi untuk akun anggota di organisasi Anda.  

```
aws sts assume-root \
    --duration-seconds 900 \
    --target-principal 111122223333 \
    --task-policy-arn arn=arn:aws:iam::aws:policy/root-task/S3UnlockBucketPolicy
```
Output:  

```
{
    "Credentials": {
        "SecretAccessKey": "9drTJvcXLB89EXAMPLELB8923FB892xMFI",
        "SessionToken": "AQoXdzELDDY//////////wEaoAK1wvxJY12r2IrDFT2IvAzTCn3zHoZ7YNtpiQLF0MqZye/qwjzP2iEXAMPLEbw/m3hsj8VBTkPORGvr9jM5sgP+w9IZWZnU+LWhmg+a5fDi2oTGUYcdg9uexQ4mtCHIHfi4citgqZTgco40Yqr4lIlo4V2b2Dyauk0eYFNebHtYlFVgAUj+7Indz3LU0aTWk1WKIjHmmMCIoTkyYp/k7kUG7moeEYKSitwQIi6Gjn+nyzM+PtoA3685ixzv0R7i5rjQi0YE0lf1oeie3bDiNHncmzosRM6SFiPzSvp6h/32xQuZsjcypmwsPSDtTPYcs0+YN/8BRi2/IcrxSpnWEXAMPLEXSDFTAQAM6Dl9zR0tXoybnlrZIwMLlMi1Kcgo5OytwU=",
        "Expiration": "2024-11-15T00:05:07Z",
        "AccessKeyId": "ASIAJEXAMPLEXEG2JICEA"
    },
    "SourceIdentity": "Alice",
}
```
Output dari perintah berisi kunci akses, kunci rahasia, dan token sesi yang dapat Anda gunakan untuk melakukan tindakan istimewa di akun anggota. Untuk informasi selengkapnya, lihat [Melakukan tugas istimewa pada akun anggota AWS Organizations](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_root-user-privileged-task.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [AssumeRoot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sts/assume-root.html)di *Referensi AWS CLI Perintah*. 

### `decode-authorization-message`
<a name="sts_DecodeAuthorizationMessage_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`decode-authorization-message`.

**AWS CLI**  
**Untuk memecahkan kode pesan otorisasi yang dikodekan dikembalikan sebagai tanggapan atas permintaan**  
`decode-authorization-message`Contoh berikut menerjemahkan informasi tambahan tentang status otorisasi permintaan dari pesan yang disandikan yang dikembalikan sebagai tanggapan atas permintaan Amazon Web Services.  

```
aws sts decode-authorization-message \
    --encoded-message EXAMPLEWodyRNrtlQARDip-eTA6i6DrlUhHhPQrLWB_lAbl5pAKxl9mPDLexYcGBreyIKQC1BGBIpBKr3dFDkwqeO7e2NMk5j_hmzAiChJN-8oy3EwiCjkUW5fdRNjcRvscGlUo_MhqHqHpR-Ojau7BMjOTWwOtHPhV_Zaz87yENdipr745EjQwRd5LaoL3vN8_5ZfA9UiBMKDgVh1gjqZJFUiQoubv78V1RbHNYnK44ElGKmUWYa020I1y6TNS9LXoNmc62GzkfGvoPGhD13br5tXEOo1rAm3vsPewRDFNkYL-4_1MWWezhRNEpqvXBDXLI9xEux7YYkRtjd45NJLFzZynBUubV8NHOevVuighd1Mvz3OiA-1_oPSe4TBtjfN9s7kjU1z70WpVbUgrLVp1xXTK1rf9Ea7t8shPd-3VzKhjS5tLrweFxNOKwV2GtT76B_fRp8HTYz-pOu3FZjwYStfvTb3GHs3-6rLribGO9jZOktkfE6vqxlFzLyeDr4P2ihC1wty9tArCvvGzIAUNmARQJ2VVWPxioqgoqCzMaDMZEO7wkku7QeakEVZdf00qlNLMmcaVZb1UPNqD-JWP5pwe_mAyqh0NLw-r1S56YC_90onj9A80sNrHlI-tIiNd7tgNTYzDuPQYD2FMDBnp82V9eVmYGtPp5NIeSpuf3fOHanFuBZgENxZQZ2dlH3xJGMTtYayzZrRXjiq_SfX9zeBbpCvrD-0AJK477RM84vmtCrsUpJgx-FaoPIb8LmmKVBLpIB0iFhU9sEHPqKHVPi6jdxXqKaZaFGvYVmVOiuQdNQKuyk0p067POFrZECLjjOtNPBOZCcuEKEXAMPLE
```
Output:  

```
{
    "DecodedMessage": "{\"allowed\":false,\"explicitDeny\":true,\"matchedStatements\":{\"items\":[{\"statementId\":\"VisualEditor0\",\"effect\":\"DENY\",\"principals\":{\"items\":[{\"value\":\"AROA123456789EXAMPLE\"}]},\"principalGroups\":{\"items\":[]},\"actions\":{\"items\":[{\"value\":\"ec2:RunInstances\"}]},\"resources\":{\"items\":[{\"value\":\"*\"}]},\"conditions\":{\"items\":[]}}]},\"failures\":{\"items\":[]},\"context\":{\"principal\":{\"id\":\"AROA123456789EXAMPLE:Ana\",\"arn\":\"arn:aws:sts::111122223333:assumed-role/Developer/Ana\"},\"action\":\"RunInstances\",\"resource\":\"arn:aws:ec2:us-east-1:111122223333:instance/*\",\"conditions\":{\"items\":[{\"key\":\"ec2:MetadataHttpPutResponseHopLimit\",\"values\":{\"items\":[{\"value\":\"2\"}]}},{\"key\":\"ec2:InstanceMarketType\",\"values\":{\"items\":[{\"value\":\"on-demand\"}]}},{\"key\":\"aws:Resource\",\"values\":{\"items\":[{\"value\":\"instance/*\"}]}},{\"key\":\"aws:Account\",\"values\":{\"items\":[{\"value\":\"111122223333\"}]}},{\"key\":\"ec2:AvailabilityZone\",\"values\":{\"items\":[{\"value\":\"us-east-1f\"}]}},{\"key\":\"ec2:ebsOptimized\",\"values\":{\"items\":[{\"value\":\"false\"}]}},{\"key\":\"ec2:IsLaunchTemplateResource\",\"values\":{\"items\":[{\"value\":\"false\"}]}},{\"key\":\"ec2:InstanceType\",\"values\":{\"items\":[{\"value\":\"t2.micro\"}]}},{\"key\":\"ec2:RootDeviceType\",\"values\":{\"items\":[{\"value\":\"ebs\"}]}},{\"key\":\"aws:Region\",\"values\":{\"items\":[{\"value\":\"us-east-1\"}]}},{\"key\":\"ec2:MetadataHttpEndpoint\",\"values\":{\"items\":[{\"value\":\"enabled\"}]}},{\"key\":\"aws:Service\",\"values\":{\"items\":[{\"value\":\"ec2\"}]}},{\"key\":\"ec2:InstanceID\",\"values\":{\"items\":[{\"value\":\"*\"}]}},{\"key\":\"ec2:MetadataHttpTokens\",\"values\":{\"items\":[{\"value\":\"required\"}]}},{\"key\":\"aws:Type\",\"values\":{\"items\":[{\"value\":\"instance\"}]}},{\"key\":\"ec2:Tenancy\",\"values\":{\"items\":[{\"value\":\"default\"}]}},{\"key\":\"ec2:Region\",\"values\":{\"items\":[{\"value\":\"us-east-1\"}]}},{\"key\":\"aws:ARN\",\"values\":{\"items\":[{\"value\":\"arn:aws:ec2:us-east-1:111122223333:instance/*\"}]}}]}}}"
}
```
Untuk informasi selengkapnya, lihat [Logika evaluasi kebijakan](https://docs.aws.amazon.com/IAM/latest/UserGuide/reference_policies_evaluation-logic.html) di *Panduan Pengguna AWS IAM*.  
+  Untuk detail API, lihat [DecodeAuthorizationMessage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sts/decode-authorization-message.html)di *Referensi AWS CLI Perintah*. 

### `get-caller-identity`
<a name="sts_GetCallerIdentity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-caller-identity`.

**AWS CLI**  
**Untuk mendapatkan detail tentang identitas IAM saat ini**  
`get-caller-identity`Perintah berikut menampilkan informasi tentang identitas IAM yang digunakan untuk mengautentikasi permintaan. Penelepon adalah pengguna IAM.  

```
aws sts get-caller-identity
```
Output:  

```
{
    "UserId": "AIDASAMPLEUSERID",
    "Account": "123456789012",
    "Arn": "arn:aws:iam::123456789012:user/DevAdmin"
}
```
+  Untuk detail API, lihat [GetCallerIdentity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sts/get-caller-identity.html)di *Referensi AWS CLI Perintah*. 

### `get-federation-token`
<a name="sts_GetFederationToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-federation-token`.

**AWS CLI**  
**Untuk mengembalikan satu set kredensi keamanan sementara menggunakan kredensil kunci akses pengguna IAM**  
`get-federation-token`Contoh berikut mengembalikan satu set kredensil keamanan sementara (terdiri dari ID kunci akses, kunci akses rahasia, dan token keamanan) untuk pengguna. Anda harus memanggil `GetFederationToken` operasi menggunakan kredensil keamanan jangka panjang dari pengguna IAM.  

```
aws sts get-federation-token \
    --name Bob \
    --policy file://myfile.json \
    --policy-arns arn=arn:aws:iam::aws:policy/AmazonS3ReadOnlyAccess \
    --duration-seconds 900
```
Isi dari `myfile.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Action": "ec2:Describe*",
            "Resource": "*"
        },
        {
            "Effect": "Allow",
            "Action": "elasticloadbalancing:Describe*",
            "Resource": "*"
        },
        {
            "Effect": "Allow",
            "Action": [
                "cloudwatch:ListMetrics",
                "cloudwatch:GetMetricStatistics",
                "cloudwatch:Describe*"
            ],
            "Resource": "*"
        },
        {
            "Effect": "Allow",
            "Action": "autoscaling:Describe*",
            "Resource": "*"
        }
    ]
}
```
Output:  

```
{
    "Credentials": {
        "AccessKeyId": "ASIAIOSFODNN7EXAMPLE",
        "SecretAccessKey": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY",
        "SessionToken": "EXAMPLEpZ2luX2VjEGoaCXVzLXdlc3QtMiJIMEYCIQC/W9pL5ArQyDD5JwFL3/h5+WGopQ24GEXweNctwhi9sgIhAMkg+MZE35iWM8s4r5Lr25f9rSTVPFH98G42QQunWMTfKq0DCOP//////////wEQAxoMNDUyOTI1MTcwNTA3Igxuy3AOpuuoLsk3MJwqgQPg8QOd9HuoClUxq26wnc/nm+eZLjHDyGf2KUAHK2DuaS/nrGSEXAMPLE",
        "Expiration": "2023-12-20T02:06:07+00:00"
    },
    "FederatedUser": {
        "FederatedUserId": "111122223333:Bob",
        "Arn": "arn:aws:sts::111122223333:federated-user/Bob"
    },
    "PackedPolicySize": 36
}
```
Untuk informasi lebih lanjut, lihat [Meminta Kredensial Keamanan Sementara](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_temp_request.html#api_getfederationtoken) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetFederationToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sts/get-federation-token.html)di *Referensi AWS CLI Perintah*. 

### `get-session-token`
<a name="sts_GetSessionToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-session-token`.

**AWS CLI**  
**Untuk mendapatkan satu set kredensi jangka pendek untuk identitas IAM**  
`get-session-token`Perintah berikut mengambil satu set kredensi jangka pendek untuk identitas IAM yang membuat panggilan. Kredensi yang dihasilkan dapat digunakan untuk permintaan di mana otentikasi multi-faktor (MFA) diperlukan oleh kebijakan. Kredensialnya kedaluwarsa 15 menit setelah dibuat.  

```
aws sts get-session-token \
    --duration-seconds 900 \
    --serial-number "YourMFADeviceSerialNumber" \
    --token-code 123456
```
Output:  

```
{
    "Credentials": {
        "AccessKeyId": "ASIAIOSFODNN7EXAMPLE",
        "SecretAccessKey": "wJalrXUtnFEMI/K7MDENG/bPxRfiCYzEXAMPLEKEY",
        "SessionToken": "AQoEXAMPLEH4aoAH0gNCAPyJxz4BlCFFxWNE1OPTgk5TthT+FvwqnKwRcOIfrRh3c/LTo6UDdyJwOOvEVPvLXCrrrUtdnniCEXAMPLE/IvU1dYUg2RVAJBanLiHb4IgRmpRV3zrkuWJOgQs8IZZaIv2BXIa2R4OlgkBN9bkUDNCJiBeb/AXlzBBko7b15fjrBs2+cTQtpZ3CYWFXG8C5zqx37wnOE49mRl/+OtkIKGO7fAE",
        "Expiration": "2020-05-19T18:06:10+00:00"
    }
}
```
Untuk informasi lebih lanjut, lihat [Meminta Kredensial Keamanan Sementara](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_credentials_temp_request.html#api_getsessiontoken) dalam *AWS Panduan Pengguna IAM*.  
+  Untuk detail API, lihat [GetSessionToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/sts/get-session-token.html)di *Referensi AWS CLI Perintah*. 

# Dukungan contoh menggunakan AWS CLI
<a name="cli_2_support_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Dukungan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-attachments-to-set`
<a name="support_AddAttachmentsToSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-attachments-to-set`.

**AWS CLI**  
**Untuk menambahkan lampiran ke set**  
`add-attachments-to-set`Contoh berikut menambahkan gambar ke set yang kemudian dapat Anda tentukan untuk kasus dukungan di AWS akun Anda.  

```
aws support add-attachments-to-set \
    --attachment-set-id "as-2f5a6faa2a4a1e600-mu-nk5xQlBr70-G1cUos5LZkd38KOAHZa9BMDVzNEXAMPLE" \
    --attachments fileName=troubleshoot-screenshot.png,data=base64-encoded-string
```
Output:  

```
{
    "attachmentSetId": "as-2f5a6faa2a4a1e600-mu-nk5xQlBr70-G1cUos5LZkd38KOAHZa9BMDVzNEXAMPLE",
    "expiryTime": "2020-05-14T17:04:40.790+0000"
}
```
Untuk informasi selengkapnya, lihat [Manajemen kasus](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html) di *AWS Support User Guide*.  
+  Untuk detail API, lihat [AddAttachmentsToSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/add-attachments-to-set.html)di *Referensi AWS CLI Perintah*. 

### `add-communication-to-case`
<a name="support_AddCommunicationToCase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-communication-to-case`.

**AWS CLI**  
**Untuk menambahkan komunikasi ke sebuah kasus**  
`add-communication-to-case`Contoh berikut menambahkan komunikasi ke kasus dukungan di AWS akun Anda.  

```
aws support add-communication-to-case \
    --case-id "case-12345678910-2013-c4c1d2bf33c5cf47" \
    --communication-body "I'm attaching a set of images to this case." \
    --cc-email-addresses "myemail@example.com" \
    --attachment-set-id "as-2f5a6faa2a4a1e600-mu-nk5xQlBr70-G1cUos5LZkd38KOAHZa9BMDVzNEXAMPLE"
```
Output:  

```
{
    "result": true
}
```
Untuk informasi selengkapnya, lihat [Manajemen kasus](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html) di *AWS Support User Guide*.  
+  Untuk detail API, lihat [AddCommunicationToCase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/add-communication-to-case.html)di *Referensi AWS CLI Perintah*. 

### `create-case`
<a name="support_CreateCase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-case`.

**AWS CLI**  
**Untuk membuat kasus**  
`create-case`Contoh berikut membuat kasus dukungan untuk AWS akun Anda.  

```
aws support create-case \
    --category-code "using-aws" \
    --cc-email-addresses "myemail@example.com" \
    --communication-body "I want to learn more about an AWS service." \
    --issue-type "technical" \
    --language "en" \
    --service-code "general-info" \
    --severity-code "low" \
    --subject "Question about my account"
```
Output:  

```
{
    "caseId": "case-12345678910-2013-c4c1d2bf33c5cf47"
}
```
Untuk informasi selengkapnya, lihat [Manajemen kasus](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html) di *AWS Support User Guide*.  
+  Untuk detail API, lihat [CreateCase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/create-case.html)di *Referensi AWS CLI Perintah*. 

### `describe-attachment`
<a name="support_DescribeAttachment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-attachment`.

**AWS CLI**  
**Untuk menggambarkan lampiran**  
`describe-attachment`Contoh berikut mengembalikan informasi tentang lampiran dengan ID yang ditentukan.  

```
aws support describe-attachment \
    --attachment-id "attachment-KBnjRNrePd9D6Jx0-Mm00xZuDEaL2JAj_0-gJv9qqDooTipsz3V1Nb19rCfkZneeQeDPgp8X1iVJyHH7UuhZDdNeqGoduZsPrAhyMakqlc60-iJjL5HqyYGiT1FG8EXAMPLE"
```
Output:  

```
{
    "attachment": {
        "fileName": "troubleshoot-screenshot.png",
        "data": "base64-blob"
    }
}
```
Untuk informasi selengkapnya, lihat [Manajemen kasus](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html) di *AWS Support User Guide*.  
+  Untuk detail API, lihat [DescribeAttachment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-attachment.html)di *Referensi AWS CLI Perintah*. 

### `describe-cases`
<a name="support_DescribeCases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-cases`.

**AWS CLI**  
**Untuk menggambarkan sebuah kasus**  
`describe-cases`Contoh berikut mengembalikan informasi tentang kasus dukungan yang ditentukan di AWS akun Anda.  

```
aws support describe-cases \
    --display-id "1234567890" \
    --after-time "2020-03-23T21:31:47.774Z" \
    --include-resolved-cases \
    --language "en" \
    --no-include-communications \
    --max-item 1
```
Output:  

```
{
    "cases": [
        {
            "status": "resolved",
            "ccEmailAddresses": [],
            "timeCreated": "2020-03-23T21:31:47.774Z",
            "caseId": "case-12345678910-2013-c4c1d2bf33c5cf47",
            "severityCode": "low",
            "language": "en",
            "categoryCode": "using-aws",
            "serviceCode": "general-info",
            "submittedBy": "myemail@example.com",
            "displayId": "1234567890",
            "subject": "Question about my account"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Manajemen kasus](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html) di *AWS Support User Guide*.  
+  Untuk detail API, lihat [DescribeCases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-cases.html)di *Referensi AWS CLI Perintah*. 

### `describe-communications`
<a name="support_DescribeCommunications_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-communications`.

**AWS CLI**  
**Untuk menggambarkan komunikasi terbaru untuk suatu kasus**  
`describe-communications`Contoh berikut mengembalikan komunikasi terbaru untuk kasus dukungan yang ditentukan di AWS akun Anda.  

```
aws support describe-communications \
    --case-id "case-12345678910-2013-c4c1d2bf33c5cf47" \
    --after-time "2020-03-23T21:31:47.774Z" \
    --max-item 1
```
Output:  

```
{
    "communications": [
        {
            "body": "I want to learn more about an AWS service.",
            "attachmentSet": [],
            "caseId": "case-12345678910-2013-c4c1d2bf33c5cf47",
            "timeCreated": "2020-05-12T23:12:35.000Z",
            "submittedBy": "Amazon Web Services"
        }
    ],
    "NextToken": "eyJuZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQEXAMPLE=="
}
```
Untuk informasi selengkapnya, lihat [Manajemen kasus](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html) di *AWS Support User Guide*.  
+  Untuk detail API, lihat [DescribeCommunications](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-communications.html)di *Referensi AWS CLI Perintah*. 

### `describe-services`
<a name="support_DescribeServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-services`.

**AWS CLI**  
**Untuk daftar AWS layanan dan kategori layanan**  
`describe-services`Contoh berikut mencantumkan kategori layanan yang tersedia untuk meminta informasi umum.  

```
aws support describe-services \
    --service-code-list "general-info"
```
Output:  

```
{
    "services": [
        {
            "code": "general-info",
            "name": "General Info and Getting Started",
            "categories": [
                {
                    "code": "charges",
                    "name": "How Will I Be Charged?"
                },
                {
                    "code": "gdpr-queries",
                    "name": "Data Privacy Query"
                },
                {
                    "code": "reserved-instances",
                    "name": "Reserved Instances"
                },
                {
                    "code": "resource",
                    "name": "Where is my Resource?"
                },
                {
                    "code": "using-aws",
                    "name": "Using AWS & Services"
                },
                {
                    "code": "free-tier",
                    "name": "Free Tier"
                },
                {
                    "code": "security-and-compliance",
                    "name": "Security & Compliance"
                },
                {
                    "code": "account-structure",
                    "name": "Account Structure"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Manajemen kasus](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html) di *AWS Support User Guide*.  
+  Untuk detail API, lihat [DescribeServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-services.html)di *Referensi AWS CLI Perintah*. 

### `describe-severity-levels`
<a name="support_DescribeSeverityLevels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-severity-levels`.

**AWS CLI**  
**Untuk daftar tingkat keparahan yang tersedia**  
`describe-severity-levels`Contoh berikut mencantumkan tingkat keparahan yang tersedia untuk kasus dukungan.  

```
aws support describe-severity-levels
```
Output:  

```
{
    "severityLevels": [
        {
            "code": "low",
            "name": "Low"
        },
        {
            "code": "normal",
            "name": "Normal"
        },
        {
            "code": "high",
            "name": "High"
        },
        {
            "code": "urgent",
            "name": "Urgent"
        },
        {
            "code": "critical",
            "name": "Critical"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memilih tingkat keparahan](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html#choosing-severity) di *Panduan Pengguna AWS Support*.  
+  Untuk detail API, lihat [DescribeSeverityLevels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-severity-levels.html)di *Referensi AWS CLI Perintah*. 

### `describe-trusted-advisor-check-refresh-statuses`
<a name="support_DescribeTrustedAdvisorCheckRefreshStatuses_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-trusted-advisor-check-refresh-statuses`.

**AWS CLI**  
**Untuk mencantumkan status penyegaran pemeriksaan AWS Trusted Advisor**  
`describe-trusted-advisor-check-refresh-statuses`Contoh berikut mencantumkan status penyegaran untuk dua pemeriksaan Trusted Advisor: Izin Bucket Amazon S3 dan Penggunaan IAM.  

```
aws support describe-trusted-advisor-check-refresh-statuses \
    --check-id "Pfx0RwqBli" "zXCkfM1nI3"
```
Output:  

```
{
    "statuses": [
        {
            "checkId": "Pfx0RwqBli",
            "status": "none",
            "millisUntilNextRefreshable": 0
        },
        {
            "checkId": "zXCkfM1nI3",
            "status": "none",
            "millisUntilNextRefreshable": 0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [AWS Trusted Advisor](https://docs.aws.amazon.com/awssupport/latest/user/trusted-advisor.html) di *Panduan Pengguna AWS Support*.  
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckRefreshStatuses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-trusted-advisor-check-refresh-statuses.html)di *Referensi AWS CLI Perintah*. 

### `describe-trusted-advisor-check-result`
<a name="support_DescribeTrustedAdvisorCheckResult_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-trusted-advisor-check-result`.

**AWS CLI**  
**Untuk mencantumkan hasil pemeriksaan AWS Trusted Advisor**  
`describe-trusted-advisor-check-result`Contoh berikut mencantumkan hasil pemeriksaan IAM Use.  

```
aws support describe-trusted-advisor-check-result \
    --check-id "zXCkfM1nI3"
```
Output:  

```
{
    "result": {
        "checkId": "zXCkfM1nI3",
        "timestamp": "2020-05-13T21:38:05Z",
        "status": "ok",
        "resourcesSummary": {
            "resourcesProcessed": 1,
            "resourcesFlagged": 0,
            "resourcesIgnored": 0,
            "resourcesSuppressed": 0
        },
        "categorySpecificSummary": {
            "costOptimizing": {
                "estimatedMonthlySavings": 0.0,
                "estimatedPercentMonthlySavings": 0.0
            }
        },
        "flaggedResources": [
            {
                "status": "ok",
                "resourceId": "47DEQpj8HBSa-_TImW-5JCeuQeRkm5NMpJWZEXAMPLE",
                "isSuppressed": false
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [AWS Trusted Advisor](https://docs.aws.amazon.com/awssupport/latest/user/trusted-advisor.html) di *Panduan Pengguna AWS Support*.  
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckResult](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-trusted-advisor-check-result.html)di *Referensi AWS CLI Perintah*. 

### `describe-trusted-advisor-check-summaries`
<a name="support_DescribeTrustedAdvisorCheckSummaries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-trusted-advisor-check-summaries`.

**AWS CLI**  
**Untuk membuat daftar ringkasan cek Trusted AWS Advisor**  
`describe-trusted-advisor-check-summaries`Contoh berikut mencantumkan hasil untuk dua pemeriksaan Trusted Advisor: Izin Bucket Amazon S3 dan Penggunaan IAM.  

```
aws support describe-trusted-advisor-check-summaries \
    --check-ids "Pfx0RwqBli" "zXCkfM1nI3"
```
Output:  

```
{
    "summaries": [
        {
            "checkId": "Pfx0RwqBli",
            "timestamp": "2020-05-13T21:38:12Z",
            "status": "ok",
            "hasFlaggedResources": true,
            "resourcesSummary": {
                "resourcesProcessed": 44,
                "resourcesFlagged": 0,
                "resourcesIgnored": 0,
                "resourcesSuppressed": 0
            },
            "categorySpecificSummary": {
                "costOptimizing": {
                    "estimatedMonthlySavings": 0.0,
                    "estimatedPercentMonthlySavings": 0.0
                }
            }
        },
        {
            "checkId": "zXCkfM1nI3",
            "timestamp": "2020-05-13T21:38:05Z",
            "status": "ok",
            "hasFlaggedResources": true,
            "resourcesSummary": {
                "resourcesProcessed": 1,
                "resourcesFlagged": 0,
                "resourcesIgnored": 0,
                "resourcesSuppressed": 0
            },
            "categorySpecificSummary": {
                "costOptimizing": {
                    "estimatedMonthlySavings": 0.0,
                    "estimatedPercentMonthlySavings": 0.0
                }
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [AWS Trusted Advisor](https://docs.aws.amazon.com/awssupport/latest/user/trusted-advisor.html) di *Panduan Pengguna AWS Support*.  
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckSummaries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-trusted-advisor-check-summaries.html)di *Referensi AWS CLI Perintah*. 

### `describe-trusted-advisor-checks`
<a name="support_DescribeTrustedAdvisorChecks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-trusted-advisor-checks`.

**AWS CLI**  
**Untuk daftar cek AWS Trusted Advisor yang tersedia**  
`describe-trusted-advisor-checks`Contoh berikut mencantumkan cek Trusted Advisor yang tersedia di akun Anda AWS . Informasi ini mencakup nama cek, ID, deskripsi, kategori, dan metadata. Perhatikan bahwa output dipersingkat agar mudah dibaca.  

```
aws support describe-trusted-advisor-checks \
    --language "en"
```
Output:  

```
{
    "checks": [
        {
            "id": "zXCkfM1nI3",
            "name": "IAM Use",
            "description": "Checks for your use of AWS Identity and Access Management (IAM). You can use IAM to create users, groups, and roles in AWS, and you can use permissions to control access to AWS resources. \n<br>\n<br>\n<b>Alert Criteria</b><br>\nYellow: No IAM users have been created for this account.\n<br>\n<br>\n<b>Recommended Action</b><br>\nCreate one or more IAM users and groups in your account. You can then create additional users whose permissions are limited to perform specific tasks in your AWS environment. For more information, see <a href=\"https://docs.aws.amazon.com/IAM/latest/UserGuide/IAMGettingStarted.html\" target=\"_blank\">Getting Started</a>. \n<br><br>\n<b>Additional Resources</b><br>\n<a href=\"https://docs.aws.amazon.com/IAM/latest/UserGuide/IAM_Introduction.html\" target=\"_blank\">What Is IAM?</a>",
            "category": "security",
            "metadata": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [AWS Trusted Advisor](https://docs.aws.amazon.com/awssupport/latest/user/trusted-advisor.html) di *Panduan Pengguna AWS Support*.  
+  Untuk detail API, lihat [DescribeTrustedAdvisorChecks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/describe-trusted-advisor-checks.html)di *Referensi AWS CLI Perintah*. 

### `refresh-trusted-advisor-check`
<a name="support_RefreshTrustedAdvisorCheck_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`refresh-trusted-advisor-check`.

**AWS CLI**  
**Untuk me-refresh pemeriksaan AWS Trusted Advisor**  
`refresh-trusted-advisor-check`Contoh berikut menyegarkan cek Trusted Advisor Amazon S3 Bucket Permissions di akun Anda. AWS   

```
aws support refresh-trusted-advisor-check \
    --check-id "Pfx0RwqBli"
```
Output:  

```
{
    "status": {
        "checkId": "Pfx0RwqBli",
        "status": "enqueued",
        "millisUntilNextRefreshable": 3599992
    }
}
```
Untuk informasi selengkapnya, lihat [AWS Trusted Advisor](https://docs.aws.amazon.com/awssupport/latest/user/trusted-advisor.html) di *Panduan Pengguna AWS Support*.  
+  Untuk detail API, lihat [RefreshTrustedAdvisorCheck](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/refresh-trusted-advisor-check.html)di *Referensi AWS CLI Perintah*. 

### `resolve-case`
<a name="support_ResolveCase_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resolve-case`.

**AWS CLI**  
**Untuk menyelesaikan kasus dukungan**  
`resolve-case`Contoh berikut menyelesaikan kasus dukungan di akun Anda AWS .  

```
aws support resolve-case \
    --case-id "case-12345678910-2013-c4c1d2bf33c5cf47"
```
Output:  

```
{
    "finalCaseStatus": "resolved",
    "initialCaseStatus": "work-in-progress"
}
```
Untuk informasi selengkapnya, lihat [Manajemen kasus](https://docs.aws.amazon.com/awssupport/latest/user/case-management.html) di *AWS Support User Guide*.  
+  Untuk detail API, lihat [ResolveCase](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/support/resolve-case.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon SWF menggunakan AWS CLI
<a name="cli_2_swf_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon SWF.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `count-closed-workflow-executions`
<a name="swf_CountClosedWorkflowExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`count-closed-workflow-executions`.

**AWS CLI**  
**Menghitung Eksekusi Alur Kerja Tertutup**  
Anda dapat menggunakan `swf count-closed-workflow-executions` untuk mengambil jumlah eksekusi alur kerja tertutup untuk domain tertentu. Anda dapat menentukan filter untuk menghitung kelas eksekusi tertentu.  
Itu `--domain` dan *salah satu* `--close-time-filter` atau `--start-time-filter` argumen diperlukan. Semua argumen lainnya adalah opsional.  

```
aws swf count-closed-workflow-executions \
    --domain DataFrobtzz \
    --close-time-filter "{ \"latestDate\" : 1377129600, \"oldestDate\" : 1370044800 }"
```
Output:  

```
{
    "count": 2,
    "truncated": false
}
```
Jika “terpotong” adalah`true`, maka “hitung” mewakili jumlah maksimum yang dapat dikembalikan oleh Amazon SWF. Hasil lebih lanjut terpotong.  
Untuk mengurangi jumlah hasil yang dikembalikan, Anda dapat:  
memodifikasi `--close-time-filter` atau `--start-time-filter` nilai untuk mempersempit rentang waktu yang dicari. Masing-masing dari ini saling eksklusif: Anda *hanya dapat menentukan salah satunya* dalam request.use the`--close-status-filter`,`--execution-filter`, `--tag-filter` atau `--type-filter` argumen untuk memfilter hasil lebih lanjut. Namun, argumen ini juga saling eksklusif.  
Lihat Juga [CountClosedWorkflowExecutions](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_CountClosedWorkflowExecutions.html)di Referensi *API Layanan Alur Kerja Sederhana Amazon*  
+  Untuk detail API, lihat [CountClosedWorkflowExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/count-closed-workflow-executions.html)di *Referensi AWS CLI Perintah*. 

### `count-open-workflow-executions`
<a name="swf_CountOpenWorkflowExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`count-open-workflow-executions`.

**AWS CLI**  
**Menghitung Eksekusi Alur Kerja Terbuka**  
Anda dapat menggunakan `swf count-open-workflow-executions` untuk mengambil jumlah eksekusi alur kerja terbuka untuk domain tertentu. Anda dapat menentukan filter untuk menghitung kelas eksekusi tertentu.  
`--start-time-filter`Argumen `--domain` dan diperlukan. Semua argumen lainnya adalah opsional.  

```
aws swf count-open-workflow-executions \
    --domain DataFrobtzz \
    --start-time-filter "{ \"latestDate\" : 1377129600, \"oldestDate\" : 1370044800 }"
```
Output:  

```
{
    "count": 4,
    "truncated": false
}
```
Jika “terpotong” adalah`true`, maka “hitung” mewakili jumlah maksimum yang dapat dikembalikan oleh Amazon SWF. Hasil lebih lanjut terpotong.  
Untuk mengurangi jumlah hasil yang dikembalikan, Anda dapat:  
memodifikasi `--start-time-filter` nilai untuk mempersempit rentang waktu yang dicari. Gunakan`--close-status-filter`,`--execution-filter`, `--tag-filter` atau `--type-filter` argumen untuk memfilter hasil lebih lanjut. Masing-masing saling eksklusif: Anda *hanya dapat menentukan salah satunya* dalam permintaan.  
Untuk informasi selengkapnya, lihat CountOpenWorkflowExecutions di Referensi *API Amazon Simple Workflow Service*  
+  Untuk detail API, lihat [CountOpenWorkflowExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/count-open-workflow-executions.html)di *Referensi AWS CLI Perintah*. 

### `deprecate-domain`
<a name="swf_DeprecateDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deprecate-domain`.

**AWS CLI**  
**Menghentikan Domain**  
Untuk menghentikan domain (Anda masih dapat melihatnya, tetapi tidak dapat membuat eksekusi alur kerja baru atau mendaftarkan jenis di dalamnya), gunakan. `swf deprecate-domain` Ini memiliki parameter tunggal yang diperlukan`--name`, yang mengambil nama domain untuk dihentikan.  

```
aws swf deprecate-domain \
    --name MyNeatNewDomain ""
```
Seperti halnya`register-domain`, tidak ada output yang dikembalikan. Namun, jika Anda menggunakan `list-domains` untuk melihat domain terdaftar, Anda akan melihat bahwa domain tersebut telah usang dan tidak lagi muncul di data yang dikembalikan.  

```
aws swf list-domains \
    --registration-status REGISTERED
        {
            "domainInfos": [
                {
                    "status": "REGISTERED",
                    "name": "DataFrobotz"
                },
                {
                    "status": "REGISTERED",
                    "name": "erontest"
                }
            ]
        }
```
Jika Anda menggunakan `--registration-status DEPRECATED` dengan`list-domains`, Anda akan melihat domain Anda yang tidak digunakan lagi.  

```
aws swf list-domains \
    --registration-status DEPRECATED
        {
            "domainInfos": [
                {
                    "status": "DEPRECATED",
                    "name": "MyNeatNewDomain"
                }
            ]
        }
```
Anda masih dapat menggunakan `describe-domain` untuk mendapatkan informasi tentang domain usang.  

```
aws swf describe-domain \
    --name MyNeatNewDomain
        {
            "domainInfo": {
                "status": "DEPRECATED",
                "name": "MyNeatNewDomain"
            },
            "configuration": {
                "workflowExecutionRetentionPeriodInDays": "0"
            }
        }
```
Lihat Juga [DeprecateDomain](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_DeprecateDomain.html)di Referensi *API Layanan Alur Kerja Sederhana Amazon*  
+  Untuk detail API, lihat [DeprecateDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/deprecate-domain.html)di *Referensi AWS CLI Perintah*. 

### `describe-domain`
<a name="swf_DescribeDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-domain`.

**AWS CLI**  
**Mendapatkan Informasi Tentang Domain**  
Untuk mendapatkan informasi terperinci tentang domain tertentu, gunakan `swf describe-domain` perintah. Ada satu parameter yang diperlukan:`--name`, yang mengambil nama domain yang Anda inginkan informasi tentang.  

```
aws swf describe-domain \
    --name DataFrobotz
        {
            "domainInfo": {
                "status": "REGISTERED",
                "name": "DataFrobotz"
            },
            "configuration": {
                "workflowExecutionRetentionPeriodInDays": "1"
            }
        }
```
Anda juga dapat menggunakan `describe-domain` untuk mendapatkan informasi tentang domain usang.  

```
aws swf describe-domain \
    --name MyNeatNewDomain
        {
            "domainInfo": {
                "status": "DEPRECATED",
                "name": "MyNeatNewDomain"
            },
            "configuration": {
                "workflowExecutionRetentionPeriodInDays": "0"
            }
        }
```
Lihat Juga [DescribeDomain](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_DescribeDomain.html)di Referensi *API Layanan Alur Kerja Sederhana Amazon*  
+  Untuk detail API, lihat [DescribeDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/describe-domain.html)di *Referensi AWS CLI Perintah*. 

### `list-activity-types`
<a name="swf_ListActivityTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-activity-types`.

**AWS CLI**  
**Jenis Kegiatan Daftar**  
Untuk mendapatkan daftar jenis aktivitas untuk domain, gunakan`swf list-activity-types`. `--registration-status`Argumen `--domain` dan diperlukan.  

```
aws swf list-activity-types \
    --domain DataFrobtzz \
    --registration-status REGISTERED
```
Output:  

```
{
    "typeInfos": [
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.451,
            "activityType": {
                "version": "1",
                "name": "confirm-user-email"
            },
            "description": "subscribe confirm-user-email activity"
        },
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.709,
            "activityType": {
                "version": "1",
                "name": "confirm-user-phone"
            },
            "description": "subscribe confirm-user-phone activity"
        },
        {
            "status": "REGISTERED",
            "creationDate": 1371454149.871,
            "activityType": {
                "version": "1",
                "name": "get-subscription-info"
            },
            "description": "subscribe get-subscription-info activity"
        },
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.909,
            "activityType": {
                "version": "1",
                "name": "send-subscription-success"
            },
            "description": "subscribe send-subscription-success activity"
        },
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.085,
            "activityType": {
                "version": "1",
                "name": "subscribe-user-sns"
            },
            "description": "subscribe subscribe-user-sns activity"
        }
    ]
}
```
Anda dapat menggunakan `--name` argumen untuk memilih hanya jenis aktivitas dengan nama tertentu:  

```
aws swf list-activity-types \
    --domain DataFrobtzz \
    --registration-status REGISTERED \
    --name "send-subscription-success"
```
Output:  

```
{
    "typeInfos": [
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.909,
            "activityType": {
                "version": "1",
                "name": "send-subscription-success"
            },
            "description": "subscribe send-subscription-success activity"
        }
    ]
}
```
Untuk mengambil hasil di halaman, Anda dapat mengatur `--maximum-page-size` argumen. Jika lebih banyak hasil yang dikembalikan daripada yang akan muat di halaman hasil, nextPageToken "" akan dikembalikan dalam kumpulan hasil:  

```
aws swf list-activity-types \
    --domain DataFrobtzz \
    --registration-status REGISTERED \
    --maximum-page-size 2
```
Output:  

```
{
    "nextPageToken": "AAAAKgAAAAEAAAAAAAAAA1Gp1BelJq+PmHvAnDxJYbup8+0R4LVtbXLDl7QNY7C3OpHo9Sz06D/GuFz1OyC73umBQ1tOPJ/gC/aYpzDMqUIWIA1T9W0s2DryyZX4OC/6Lhk9/o5kdsuWMSBkHhgaZjgwp3WJINIFJFdaSMxY2vYAX7AtRtpcqJuBDDRE9RaRqDGYqIYUMltarkiqpSY1ZVveBasBvlvyUb/WGAaqehiDz7/JzLT/wWNNUMOd+Nhe",
    "typeInfos": [
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.451,
            "activityType": {
                "version": "1",
                "name": "confirm-user-email"
            },
            "description": "subscribe confirm-user-email activity"
        },
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.709,
            "activityType": {
                "version": "1",
                "name": "confirm-user-phone"
            },
            "description": "subscribe confirm-user-phone activity"
        }
    ]
}
```
Anda dapat meneruskan nextPageToken nilai ke panggilan berikutnya `list-activity-types` dalam `--next-page-token` argumen, mengambil halaman hasil berikutnya:  

```
aws swf list-activity-types \
    --domain DataFrobtzz \
    --registration-status REGISTERED \
    --maximum-page-size 2 \
    --next-page-token "AAAAKgAAAAEAAAAAAAAAA1Gp1BelJq+PmHvAnDxJYbup8+0R4LVtbXLDl7QNY7C3OpHo9Sz06D/GuFz1OyC73umBQ1tOPJ/gC/aYpzDMqUIWIA1T9W0s2DryyZX4OC/6Lhk9/o5kdsuWMSBkHhgaZjgwp3WJINIFJFdaSMxY2vYAX7AtRtpcqJuBDDRE9RaRqDGYqIYUMltarkiqpSY1ZVveBasBvlvyUb/WGAaqehiDz7/JzLT/wWNNUMOd+Nhe"
```
Output:  

```
{
    "nextPageToken": "AAAAKgAAAAEAAAAAAAAAAw+7LZ4GRZPzTqBHsp2wBxWB8m1sgLCclgCuq3J+h/m3+vOfFqtkcjLwV5cc4OjNAzTCuq/XcylPumGwkjbajtqpZpbqOcVNfjFxGoi0LB2Olbvv0krbUISBvlpFPmSWpDSZJsxg5UxCcweteSlFn1PNSZ/MoinBZo8OTkjMuzcsTuKOzH9wCaR8ITcALJ3SaqHU3pyIRS5hPmFA3OLIc8zaAepjlaujo6hntNSCruB4"
    "typeInfos": [
        {
            "status": "REGISTERED",
            "creationDate": 1371454149.871,
            "activityType": {
                "version": "1",
                "name": "get-subscription-info"
            },
            "description": "subscribe get-subscription-info activity"
        },
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.909,
            "activityType": {
                "version": "1",
                "name": "send-subscription-success"
            },
            "description": "subscribe send-subscription-success activity"
        }
    ]
}
```
Jika masih ada lebih banyak hasil untuk dikembalikan, nextPageToken "" akan dikembalikan dengan hasilnya. Ketika tidak ada lagi halaman hasil untuk dikembalikan, "nextPageToken" *tidak* akan dikembalikan dalam set hasil.  
Anda dapat menggunakan `--reverse-order` argumen untuk membalikkan urutan hasil yang dikembalikan. Ini juga mempengaruhi hasil halaman.  

```
aws swf list-activity-types \
    --domain DataFrobtzz \
    --registration-status REGISTERED \
    --maximum-page-size 2 \
    --reverse-order
```
Output:  

```
{
    "nextPageToken": "AAAAKgAAAAEAAAAAAAAAAwXcpu5ePSyQkrC+8WMbmSrenuZC2ZkIXQYBPB/b9xIOVkj+bMEFhGj0KmmJ4rF7iddhjf7UMYCsfGkEn7mk+yMCgVc1JxDWmB0EH46bhcmcLmYNQihMDmUWocpr7To6/R7CLu0St1gkFayxOidJXErQW0zdNfQaIWAnF/cwioBbXlkz1fQzmDeU3M5oYGMPQIrUqkPq7pMEW0q0lK5eDN97NzFYdZZ/rlcLDWPZhUjY",
    "typeInfos": [
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.085,
            "activityType": {
                "version": "1",
                "name": "subscribe-user-sns"
            },
            "description": "subscribe subscribe-user-sns activity"
        },
        {
            "status": "REGISTERED",
            "creationDate": 1371454150.909,
            "activityType": {
                "version": "1",
                "name": "send-subscription-success"
            },
            "description": "subscribe send-subscription-success activity"
        }
    ]
}
```
Lihat Juga [ListActivityTypes](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_ListActivityTypes.html)di Referensi *API Layanan Alur Kerja Sederhana Amazon*  
+  Untuk detail API, lihat [ListActivityTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/list-activity-types.html)di *Referensi AWS CLI Perintah*. 

### `list-domains`
<a name="swf_ListDomains_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-domains`.

**AWS CLI**  
**Contoh 1: Untuk daftar domain terdaftar Anda**  
Contoh `list-domains` perintah berikut mencantumkan domain `REGISTERED` SWF yang telah Anda daftarkan untuk akun Anda.  

```
aws swf list-domains \
    --registration-status REGISTERED
```
Output:  

```
{
  "domainInfos": [
    {
      "status": "REGISTERED",
      "name": "DataFrobotz"
    },
    {
      "status": "REGISTERED",
      "name": "erontest"
    }
  ]
}
```
Untuk informasi selengkapnya, lihat [ListDomains](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_ListDomains.html)di Referensi *API Amazon Simple Workflow Service*  
**Contoh 2: Untuk mencantumkan domain Anda yang tidak digunakan lagi**  
Contoh `list-domains` perintah berikut mencantumkan domain `DEPRECATED` SWF yang telah Anda daftarkan untuk akun Anda. Domain usang adalah domain yang tidak dapat mendaftarkan alur kerja atau aktivitas baru, tetapi masih dapat ditanyakan.  

```
aws swf list-domains \
    --registration-status DEPRECATED
```
Output:  

```
{
  "domainInfos": [
    {
      "status": "DEPRECATED",
      "name": "MyNeatNewDomain"
    }
  ]
}
```
Untuk informasi selengkapnya, lihat [ListDomains](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_ListDomains.html)di Referensi *API Amazon Simple Workflow Service*  
**Contoh 3: Untuk daftar halaman pertama domain terdaftar**  
Contoh `list-domains` perintah berikut mencantumkan domain `REGISTERED` SWF halaman pertama yang telah Anda daftarkan untuk akun Anda menggunakan opsi. `--maximum-page-size`  

```
aws swf list-domains \
    --registration-status REGISTERED \
    --maximum-page-size 1
```
Output:  

```
{
    "domainInfos": [
        {
            "status": "REGISTERED",
            "name": "DataFrobotz"
        }
    ],
"nextPageToken": "AAAAKgAAAAEAAAAAAAAAA2QJKNtidVgd49TTeNwYcpD+QKT2ynuEbibcQWe2QKrslMGe63gpS0MgZGpcpoKttL4OCXRFn98Xif557it+wSZUsvUDtImjDLvguyuyyFdIZtvIxIKEOPm3k2r4OjAGaFsGOuVbrKljvla7wdU7FYH3OlkNCP8b7PBj9SBkUyGoiAghET74P93AuVIIkdKGtQ=="
}
```
Untuk informasi selengkapnya, lihat [ListDomains](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_ListDomains.html)di Referensi *API Amazon Simple Workflow Service*  
**Contoh 4: Untuk daftar satu halaman tertentu dari domain terdaftar**  
Contoh `list-domains` perintah berikut mencantumkan domain `REGISTERED` SWF halaman pertama yang telah Anda daftarkan untuk akun Anda menggunakan opsi. `--maximum-page-size`  
Ketika Anda membuat panggilan lagi, kali ini memberikan nilai `nextPageToken` dalam `--next-page-token` argumen, Anda akan mendapatkan halaman lain dari hasil.  

```
aws swf list-domains \
    --registration-status REGISTERED \
    --maximum-page-size 1 \
    --next-page-token "AAAAKgAAAAEAAAAAAAAAA2QJKNtidVgd49TTeNwYcpD+QKT2ynuEbibcQWe2QKrslMGe63gpS0MgZGpcpoKttL4OCXRFn98Xif557it+wSZUsvUDtImjDLvguyuyyFdIZtvIxIKEOPm3k2r4OjAGaFsGOuVbrKljvla7wdU7FYH3OlkNCP8b7PBj9SBkUyGoiAghET74P93AuVIIkdKGtQ=="
```
Output:  

```
{
    "domainInfos": [
        {
            "status": "REGISTERED",
            "name": "erontest"
        }
    ]
}
```
Ketika tidak ada halaman hasil lebih lanjut untuk diambil, tidak `nextPageToken` akan dikembalikan dalam hasil.  
Untuk informasi selengkapnya, lihat [ListDomains](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_ListDomains.html)di Referensi *API Amazon Simple Workflow Service*  
+  Untuk detail API, lihat [ListDomains](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/list-domains.html)di *Referensi AWS CLI Perintah*. 

### `list-workflow-types`
<a name="swf_ListWorkflowTypes_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-workflow-types`.

**AWS CLI**  
**Daftar Jenis Alur Kerja**  
Untuk mendapatkan daftar jenis alur kerja untuk domain, gunakan`swf list-workflow-types`. `--registration-status`Argumen `--domain` dan diperlukan. Berikut adalah contoh sederhana.  

```
aws swf list-workflow-types \
    --domain DataFrobtzz \
    --registration-status REGISTERED
```
Output:  

```
{
    "typeInfos": [
        {
            "status": "REGISTERED",
            "creationDate": 1371454149.598,
            "description": "DataFrobtzz subscribe workflow",
            "workflowType": {
                "version": "v3",
                "name": "subscribe"
            }
        }
    ]
}
```
Seperti halnya`list-activity-types`, Anda dapat menggunakan `--name` argumen untuk memilih hanya jenis alur kerja dengan nama tertentu, dan menggunakan `--maximum-page-size` argumen dalam koordinasi dengan `--next-page-token` hasil halaman. Untuk membalikkan urutan pengembalian hasil, gunakan`--reverse-order`.  
Lihat Juga [ListWorkflowTypes](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_ListWorkflowTypes.html)di Referensi *API Layanan Alur Kerja Sederhana Amazon*  
+  Untuk detail API, lihat [ListWorkflowTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/list-workflow-types.html)di *Referensi AWS CLI Perintah*. 

### `register-domain`
<a name="swf_RegisterDomain_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-domain`.

**AWS CLI**  
**Mendaftarkan Domain**  
Anda dapat menggunakan AWS CLI untuk mendaftarkan domain baru. Gunakan perintah `swf register-domain`. Ada dua parameter yang diperlukan`--name`, yang mengambil nama domain, dan`--workflow-execution-retention-period-in-days`, yang membutuhkan bilangan bulat untuk menentukan jumlah hari untuk menyimpan data eksekusi alur kerja pada domain ini, hingga periode maksimum 90 hari (untuk informasi lebih lanjut, lihat FAQ SWF < https://aws.amazon.com/swf/ faqs/ \$1retain\$1limit >). Data eksekusi alur kerja tidak akan disimpan setelah jumlah hari yang ditentukan telah berlalu.  

```
aws swf register-domain \
    --name MyNeatNewDomain \
    --workflow-execution-retention-period-in-days 0
    ""
```
Ketika Anda mendaftarkan domain, tidak ada yang dikembalikan (“”), tetapi Anda dapat `swf describe-domain` menggunakan `swf list-domains` atau melihat domain baru.  

```
aws swf list-domains \
    --registration-status REGISTERED
        {
            "domainInfos": [
                {
                    "status": "REGISTERED",
                    "name": "DataFrobotz"
                },
                {
                    "status": "REGISTERED",
                    "name": "MyNeatNewDomain"
                },
                {
                    "status": "REGISTERED",
                    "name": "erontest"
                }
            ]
        }
```
Menggunakan`swf describe-domain` :  

```
aws swf describe-domain --name MyNeatNewDomain
{
    "domainInfo": {
        "status": "REGISTERED",
        "name": "MyNeatNewDomain"
    },
    "configuration": {
        "workflowExecutionRetentionPeriodInDays": "0"
    }
}
```
Lihat Juga [RegisterDomain](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_RegisterDomain.html)di Referensi *API Layanan Alur Kerja Sederhana Amazon*  
+  Untuk detail API, lihat [RegisterDomain](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/register-domain.html)di *Referensi AWS CLI Perintah*. 

### `register-workflow-type`
<a name="swf_RegisterWorkflowType_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-workflow-type`.

**AWS CLI**  
**Mendaftarkan Jenis Alur Kerja**  
Untuk mendaftarkan tipe Workflow dengan AWS CLI, gunakan `swf register-workflow-type` perintah.  

```
aws swf register-workflow-type \
    --domain DataFrobtzz \
    --name "MySimpleWorkflow" \
    --workflow-version "v1"
```
Jika berhasil, perintah tidak menghasilkan output.  
Pada kesalahan (misalnya, jika Anda mencoba mendaftarkan tipe alur kerja yang sama, atau menentukan domain yang tidak ada), Anda akan mendapatkan respons di JSON.  

```
{
    "message": "WorkflowType=[name=MySimpleWorkflow, version=v1]",
    "__type": "com.amazonaws.swf.base.model#TypeAlreadyExistsFault"
}
```
Itu`--domain`, `--name` dan `--workflow-version` diperlukan. Anda juga dapat mengatur deskripsi alur kerja, batas waktu, dan kebijakan alur kerja anak.  
Untuk informasi selengkapnya, lihat [RegisterWorkflowType](https://docs.aws.amazon.com/amazonswf/latest/apireference/API_RegisterWorkflowType.html)di Referensi *API Amazon Simple Workflow Service*  
+  Untuk detail API, lihat [RegisterWorkflowType](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/swf/register-workflow-type.html)di *Referensi AWS CLI Perintah*. 

# Contoh Systems Manager menggunakan AWS CLI
<a name="cli_2_ssm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Systems Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `add-tags-to-resource`
<a name="ssm_AddTagsToResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-tags-to-resource`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan tag ke jendela pemeliharaan**  
`add-tags-to-resource`Contoh berikut menambahkan tag ke jendela pemeliharaan yang ditentukan.  

```
aws ssm add-tags-to-resource \
    --resource-type "MaintenanceWindow" \
    --resource-id "mw-03eb9db428EXAMPLE" \
    --tags "Key=Stack,Value=Production"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk menambahkan tag ke parameter**  
`add-tags-to-resource`Contoh berikut menambahkan dua tag ke parameter yang ditentukan.  

```
aws ssm add-tags-to-resource \
    --resource-type "Parameter" \
    --resource-id "My-Parameter" \
    --tags '[{"Key":"Region","Value":"East"},{"Key":"Environment", "Value":"Production"}]'
```
Perintah ini tidak menghasilkan output.  
**Contoh 3: Untuk menambahkan tag ke dokumen SSM**  
`add-tags-to-resource`Contoh berikut menambahkan tag ke dokumen yang ditentukan.  

```
aws ssm add-tags-to-resource \
    --resource-type "Document" \
    --resource-id "My-Document" \
    --tags "Key=Quarter,Value=Q322"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai sumber daya Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/tagging-resources.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [AddTagsToResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/add-tags-to-resource.html)di *Referensi AWS CLI Perintah*. 

### `associate-ops-item-related-item`
<a name="ssm_AssociateOpsItemRelatedItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-ops-item-related-item`.

**AWS CLI**  
**Untuk mengaitkan item terkait**  
`associate-ops-item-related-item`Contoh berikut mengaitkan item terkait dengan. OpsItem  

```
aws ssm associate-ops-item-related-item \
    --ops-item-id "oi-649fExample" \
    --association-type "RelatesTo" \
    --resource-type "AWS::SSMIncidents::IncidentRecord" \
    --resource-uri "arn:aws:ssm-incidents::111122223333:incident-record/Example-Response-Plan/c2bde883-f7d5-343a-b13a-bf5fe9ea689f"
```
Output:  

```
{
    "AssociationId": "61d7178d-a30d-4bc5-9b4e-a9e74EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan insiden Manajer Insiden OpsCenter di](https://docs.aws.amazon.com/systems-manager/latest/userguide/OpsCenter-create-OpsItems-for-Incident-Manager.html) *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [AssociateOpsItemRelatedItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/associate-ops-item-related-item.html)di *Referensi AWS CLI Perintah*. 

### `cancel-command`
<a name="ssm_CancelCommand_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-command`.

**AWS CLI**  
**Contoh 1: Untuk membatalkan perintah untuk semua instance**  
`cancel-command`Contoh berikut mencoba untuk membatalkan perintah tertentu yang sudah berjalan untuk semua instance.  

```
aws ssm cancel-command \
    --command-id "662add3d-5831-4a10-b64a-f2ff3EXAMPLE"
```
Perintah ini tidak menghasilkan output.  
**Contoh 2: Untuk membatalkan perintah untuk instance tertentu**  
`cancel-command`Contoh berikut mencoba untuk membatalkan perintah untuk instance tertentu saja.  

```
aws ssm cancel-command \
    --command-id "662add3d-5831-4a10-b64a-f2ff3EXAMPLE"
    --instance-ids "i-02573cafcfEXAMPLE"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Parameter Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-su-tag.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [CancelCommand](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/cancel-command.html)di *Referensi AWS CLI Perintah*. 

### `cancel-maintenance-window-execution`
<a name="ssm_CancelMaintenanceWindowExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`cancel-maintenance-window-execution`.

**AWS CLI**  
**Untuk membatalkan eksekusi jendela pemeliharaan**  
`cancel-maintenance-window-execution`Contoh ini menghentikan eksekusi jendela pemeliharaan yang ditentukan yang sudah berlangsung.  

```
aws ssm cancel-maintenance-window-execution \
    --window-execution-id j2l8d5b5c-mw66-tk4d-r3g9-1d4d1EXAMPLE
```
Output:  

```
{
    "WindowExecutionId": "j2l8d5b5c-mw66-tk4d-r3g9-1d4d1EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Systems Manager Maintenance Windows Tutorial (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-tutorials.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [CancelMaintenanceWindowExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/cancel-maintenance-window-execution.html)di *Referensi AWS CLI Perintah*. 

### `create-activation`
<a name="ssm_CreateActivation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-activation`.

**AWS CLI**  
**Untuk membuat aktivasi instance terkelola**  
`create-activation`Contoh berikut menciptakan aktivasi instance terkelola.  

```
aws ssm create-activation \
    --default-instance-name "HybridWebServers" \
    --iam-role "HybridWebServersRole" \
    --registration-limit 5
```
Output:  

```
{
    "ActivationId": "5743558d-563b-4457-8682-d16c3EXAMPLE",
    "ActivationCode": "dRmgnYaFv567vEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Langkah 4: Membuat Aktivasi Instans Terkelola untuk Lingkungan Hybrid](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-managed-instance-activation.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [CreateActivation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/create-activation.html)di *Referensi AWS CLI Perintah*. 

### `create-association-batch`
<a name="ssm_CreateAssociationBatch_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-association-batch`.

**AWS CLI**  
**Untuk membuat beberapa asosiasi**  
Contoh ini mengaitkan dokumen konfigurasi dengan beberapa instance. Output mengembalikan daftar operasi yang berhasil dan gagal, jika berlaku.  
Perintah:  

```
aws ssm create-association-batch --entries "Name=AWS-UpdateSSMAgent,InstanceId=i-1234567890abcdef0" "Name=AWS-UpdateSSMAgent,InstanceId=i-9876543210abcdef0"
```
Output:  

```
{
  "Successful": [
      {
          "Name": "AWS-UpdateSSMAgent",
          "InstanceId": "i-1234567890abcdef0",
          "AssociationVersion": "1",
          "Date": 1550504725.007,
          "LastUpdateAssociationDate": 1550504725.007,
          "Status": {
              "Date": 1550504725.007,
              "Name": "Associated",
              "Message": "Associated with AWS-UpdateSSMAgent"
          },
          "Overview": {
              "Status": "Pending",
              "DetailedStatus": "Creating"
          },
          "DocumentVersion": "$DEFAULT",
          "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
          "Targets": [
              {
                  "Key": "InstanceIds",
                  "Values": [
                      "i-1234567890abcdef0"
                  ]
              }
          ]
      },
      {
          "Name": "AWS-UpdateSSMAgent",
          "InstanceId": "i-9876543210abcdef0",
          "AssociationVersion": "1",
          "Date": 1550504725.057,
          "LastUpdateAssociationDate": 1550504725.057,
          "Status": {
              "Date": 1550504725.057,
              "Name": "Associated",
              "Message": "Associated with AWS-UpdateSSMAgent"
          },
          "Overview": {
              "Status": "Pending",
              "DetailedStatus": "Creating"
          },
          "DocumentVersion": "$DEFAULT",
          "AssociationId": "9c9f7f20-5154-4fed-a83e-0123456789ab",
          "Targets": [
              {
                  "Key": "InstanceIds",
                  "Values": [
                      "i-9876543210abcdef0"
                  ]
              }
          ]
      }
  ],
  "Failed": []
}
```
+  Untuk detail API, lihat [CreateAssociationBatch](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/create-association-batch.html)di *Referensi AWS CLI Perintah*. 

### `create-association`
<a name="ssm_CreateAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-association`.

**AWS CLI**  
**Contoh 1: Untuk mengaitkan dokumen menggunakan instance IDs**  
Contoh ini mengaitkan dokumen konfigurasi dengan instance, menggunakan instance IDs.  

```
aws ssm create-association \
    --instance-id "i-0cb2b964d3e14fd9f" \
    --name "AWS-UpdateSSMAgent"
```
Output:  

```
{
    "AssociationDescription": {
        "Status": {
            "Date": 1487875500.33,
            "Message": "Associated with AWS-UpdateSSMAgent",
            "Name": "Associated"
        },
        "Name": "AWS-UpdateSSMAgent",
        "InstanceId": "i-0cb2b964d3e14fd9f",
        "Overview": {
            "Status": "Pending",
            "DetailedStatus": "Creating"
        },
        "AssociationId": "b7c3266e-a544-44db-877e-b20d3a108189",
        "DocumentVersion": "$DEFAULT",
        "LastUpdateAssociationDate": 1487875500.33,
        "Date": 1487875500.33,
        "Targets": [
            {
                "Values": [
                    "i-0cb2b964d3e14fd9f"
                ],
                "Key": "InstanceIds"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [CreateAssociation](https://docs.aws.amazon.com/systems-manager/latest/APIReference/API_CreateAssociation.html)di *Referensi API AWS Systems Manager*.  
**Contoh 2: Untuk mengaitkan dokumen menggunakan target**  
Contoh ini mengaitkan dokumen konfigurasi dengan instance, menggunakan target.  

```
aws ssm create-association \
    --name "AWS-UpdateSSMAgent" \
    --targets "Key=instanceids,Values=i-0cb2b964d3e14fd9f"
```
Output:  

```
{
    "AssociationDescription": {
        "Status": {
            "Date": 1487875500.33,
            "Message": "Associated with AWS-UpdateSSMAgent",
            "Name": "Associated"
        },
        "Name": "AWS-UpdateSSMAgent",
        "InstanceId": "i-0cb2b964d3e14fd9f",
        "Overview": {
            "Status": "Pending",
            "DetailedStatus": "Creating"
        },
        "AssociationId": "b7c3266e-a544-44db-877e-b20d3a108189",
        "DocumentVersion": "$DEFAULT",
        "LastUpdateAssociationDate": 1487875500.33,
        "Date": 1487875500.33,
        "Targets": [
            {
                "Values": [
                    "i-0cb2b964d3e14fd9f"
                ],
                "Key": "InstanceIds"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [CreateAssociation](https://docs.aws.amazon.com/systems-manager/latest/APIReference/API_CreateAssociation.html)di *Referensi API AWS Systems Manager*.  
**Contoh 3: Untuk membuat asosiasi yang berjalan hanya sekali**  
Contoh ini menciptakan asosiasi baru yang hanya berjalan sekali pada tanggal dan waktu yang ditentukan. Asosiasi yang dibuat dengan tanggal di masa lalu atau sekarang (pada saat diproses tanggal di masa lalu) segera berjalan.  

```
aws ssm create-association \
    --name "AWS-UpdateSSMAgent" \
    --targets "Key=instanceids,Values=i-0cb2b964d3e14fd9f" \
    --schedule-expression "at(2020-05-14T15:55:00)"  \
    --apply-only-at-cron-interval
```
Output:  

```
{
    "AssociationDescription": {
        "Status": {
            "Date": 1487875500.33,
            "Message": "Associated with AWS-UpdateSSMAgent",
            "Name": "Associated"
        },
        "Name": "AWS-UpdateSSMAgent",
        "InstanceId": "i-0cb2b964d3e14fd9f",
        "Overview": {
            "Status": "Pending",
            "DetailedStatus": "Creating"
        },
        "AssociationId": "b7c3266e-a544-44db-877e-b20d3a108189",
        "DocumentVersion": "$DEFAULT",
        "LastUpdateAssociationDate": 1487875500.33,
        "Date": 1487875500.33,
        "Targets": [
            {
                "Values": [
                    "i-0cb2b964d3e14fd9f"
                ],
                "Key": "InstanceIds"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [CreateAssociation](https://docs.aws.amazon.com/systems-manager/latest/APIReference/API_CreateAssociation.html)di *Referensi atau Referensi API AWS Systems Manager*[: Cron dan ekspresi rate untuk Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/reference-cron-and-rate-expressions.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [CreateAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/create-association.html)di *Referensi AWS CLI Perintah*. 

### `create-document`
<a name="ssm_CreateDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-document`.

**AWS CLI**  
**Untuk membuat dokumen**  
`create-document`Contoh berikut membuat dokumen Systems Manager.  

```
aws ssm create-document \
    --content file://exampleDocument.yml \
    --name "Example" \
    --document-type "Automation" \
    --document-format YAML
```
Output:  

```
{
    "DocumentDescription": {
        "Hash": "fc2410281f40779e694a8b95975d0f9f316da8a153daa94e3d9921102EXAMPLE",
        "HashType": "Sha256",
        "Name": "Example",
        "Owner": "29884EXAMPLE",
        "CreatedDate": 1583256349.452,
        "Status": "Creating",
        "DocumentVersion": "1",
        "Description": "Document Example",
        "Parameters": [
            {
                "Name": "AutomationAssumeRole",
                "Type": "String",
                "Description": "(Required) The ARN of the role that allows Automation to perform the actions on your behalf. If no role is specified, Systems Manager Automation uses your IAM permissions to execute this document.",
                "DefaultValue": ""
            },
            {
                "Name": "InstanceId",
                "Type": "String",
                "Description": "(Required) The ID of the Amazon EC2 instance.",
                "DefaultValue": ""
            }
        ],
        "PlatformTypes": [
            "Windows",
            "Linux"
        ],
        "DocumentType": "Automation",
        "SchemaVersion": "0.3",
        "LatestVersion": "1",
        "DefaultVersion": "1",
        "DocumentFormat": "YAML",
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Dokumen Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/create-ssm-doc.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [CreateDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/create-document.html)di *Referensi AWS CLI Perintah*. 

### `create-maintenance-window`
<a name="ssm_CreateMaintenanceWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-maintenance-window`.

**AWS CLI**  
**Contoh 1: Untuk membuat jendela pemeliharaan**  
`create-maintenance-window`Contoh berikut membuat jendela pemeliharaan baru yang setiap lima menit hingga dua jam (sesuai kebutuhan), mencegah tugas baru dimulai dalam waktu satu jam setelah akhir eksekusi jendela pemeliharaan, memungkinkan target yang tidak terkait (contoh yang belum Anda daftarkan dengan jendela pemeliharaan), dan menunjukkan melalui penggunaan tag khusus bahwa pembuatnya bermaksud menggunakannya dalam tutorial.  

```
aws ssm create-maintenance-window \
    --name "My-Tutorial-Maintenance-Window" \
    --schedule "rate(5 minutes)" \
    --duration 2 --cutoff 1 \
    --allow-unassociated-targets \
    --tags "Key=Purpose,Value=Tutorial"
```
Output:  

```
{
    "WindowId": "mw-0c50858d01EXAMPLE"
}
```
**Contoh 2: Untuk membuat jendela pemeliharaan yang berjalan hanya sekali**  
`create-maintenance-window`Contoh berikut membuat jendela pemeliharaan baru yang hanya berjalan satu kali pada tanggal dan waktu yang ditentukan.  

```
aws ssm create-maintenance-window \
    --name My-One-Time-Maintenance-Window \
    --schedule "at(2020-05-14T15:55:00)" \
    --duration 5 \
    --cutoff 2 \
    --allow-unassociated-targets \
    --tags "Key=Environment,Value=Production"
```
Output:  

```
{
    "WindowId": "mw-01234567890abcdef"
}
```
Untuk informasi selengkapnya, lihat [Pemeliharaan Windows](https://docs.aws.amazon.com/systems-manager/latest/userguide/systems-manager-maintenance.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [CreateMaintenanceWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/create-maintenance-window.html)di *Referensi AWS CLI Perintah*. 

### `create-ops-item`
<a name="ssm_CreateOpsItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ops-item`.

**AWS CLI**  
**Untuk membuat OpsItems**  
`create-ops-item`Contoh berikut menggunakan kunci /aws/resources OperationalData untuk membuat OpsItem dengan sumber daya terkait Amazon DynamoDB.  

```
aws ssm create-ops-item \
    --title "EC2 instance disk full" \
    --description "Log clean up may have failed which caused the disk to be full" \
    --priority 2 \
    --source ec2 \
    --operational-data '{"/aws/resources":{"Value":"[{\"arn\": \"arn:aws:dynamodb:us-west-2:12345678:table/OpsItems\"}]","Type":"SearchableString"}}' \
    --notifications Arn="arn:aws:sns:us-west-2:12345678:TestUser"
```
Output:  

```
{
    "OpsItemId": "oi-1a2b3c4d5e6f"
}
```
Untuk informasi selengkapnya, lihat [Membuat OpsItems](https://docs.aws.amazon.com/systems-manager/latest/userguide/OpsCenter-creating-OpsItems.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [CreateOpsItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/create-ops-item.html)di *Referensi AWS CLI Perintah*. 

### `create-patch-baseline`
<a name="ssm_CreatePatchBaseline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-patch-baseline`.

**AWS CLI**  
**Contoh 1: Untuk membuat baseline patch dengan persetujuan otomatis**  
`create-patch-baseline`Contoh berikut membuat patch baseline untuk Windows Server yang menyetujui patch untuk lingkungan produksi tujuh hari setelah dirilis oleh Microsoft.  

```
aws ssm create-patch-baseline \
    --name "Windows-Production-Baseline-AutoApproval" \
    --operating-system "WINDOWS" \
    --approval-rules "PatchRules=[{PatchFilterGroup={PatchFilters=[{Key=MSRC_SEVERITY,Values=[Critical,Important,Moderate]},{Key=CLASSIFICATION,Values=[SecurityUpdates,Updates,UpdateRollups,CriticalUpdates]}]},ApproveAfterDays=7}]" \
    --description "Baseline containing all updates approved for Windows Server production systems"
```
Output:  

```
{
    "BaselineId": "pb-045f10b4f3EXAMPLE"
}
```
**Contoh 2: Untuk membuat baseline patch dengan tanggal cutoff persetujuan**  
`create-patch-baseline`Contoh berikut membuat baseline patch untuk Windows Server yang menyetujui semua tambalan untuk lingkungan produksi yang dirilis pada atau sebelum 7 Juli 2020.  

```
aws ssm create-patch-baseline \
    --name "Windows-Production-Baseline-AutoApproval" \
    --operating-system "WINDOWS" \
    --approval-rules "PatchRules=[{PatchFilterGroup={PatchFilters=[{Key=MSRC_SEVERITY,Values=[Critical,Important,Moderate]},{Key=CLASSIFICATION,Values=[SecurityUpdates,Updates,UpdateRollups,CriticalUpdates]}]},ApproveUntilDate=2020-07-07}]" \
    --description "Baseline containing all updates approved for Windows Server production systems"
```
Output:  

```
{
    "BaselineId": "pb-045f10b4f3EXAMPLE"
}
```
**Contoh 3: Untuk membuat baseline patch dengan aturan persetujuan yang disimpan dalam file JSON**  
`create-patch-baseline`Contoh berikut membuat baseline patch untuk Amazon Linux 2017.09 yang menyetujui tambalan untuk lingkungan produksi tujuh hari setelah dirilis, menentukan aturan persetujuan untuk baseline patch, dan menentukan repositori kustom untuk tambalan.  

```
aws ssm create-patch-baseline \
    --cli-input-json file://my-amazon-linux-approval-rules-and-repo.json
```
Isi dari `my-amazon-linux-approval-rules-and-repo.json`:  

```
{
    "Name": "Amazon-Linux-2017.09-Production-Baseline",
    "Description": "My approval rules patch baseline for Amazon Linux 2017.09 instances",
    "OperatingSystem": "AMAZON_LINUX",
    "Tags": [
        {
            "Key": "Environment",
            "Value": "Production"
        }
    ],
    "ApprovalRules": {
        "PatchRules": [
            {
                "ApproveAfterDays": 7,
                "EnableNonSecurity": true,
                "PatchFilterGroup": {
                    "PatchFilters": [
                        {
                            "Key": "SEVERITY",
                            "Values": [
                                "Important",
                                "Critical"
                            ]
                        },
                        {
                            "Key": "CLASSIFICATION",
                            "Values": [
                                "Security",
                                "Bugfix"
                            ]
                        },
                        {
                            "Key": "PRODUCT",
                            "Values": [
                                "AmazonLinux2017.09"
                            ]
                        }
                    ]
                }
            }
        ]
    },
    "Sources": [
        {
            "Name": "My-AL2017.09",
            "Products": [
                "AmazonLinux2017.09"
            ],
            "Configuration": "[amzn-main] \nname=amzn-main-Base\nmirrorlist=http://repo./$awsregion./$awsdomain//$releasever/main/mirror.list //nmirrorlist_expire=300//nmetadata_expire=300 \npriority=10 \nfailovermethod=priority \nfastestmirror_enabled=0 \ngpgcheck=1 \ngpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-amazon-ga \nenabled=1 \nretries=3 \ntimeout=5\nreport_instanceid=yes"
        }
    ]
}
```
**Contoh 4: Untuk membuat baseline patch yang menentukan patch yang disetujui dan ditolak**  
`create-patch-baseline`Contoh berikut secara eksplisit menentukan patch untuk menyetujui dan menolak sebagai pengecualian untuk aturan persetujuan default.  

```
aws ssm create-patch-baseline \
    --name "Amazon-Linux-2017.09-Alpha-Baseline" \
    --description "My custom approve/reject patch baseline for Amazon Linux 2017.09 instances" \
    --operating-system "AMAZON_LINUX" \
    --approved-patches "CVE-2018-1234567,example-pkg-EE-2018*.amzn1.noarch" \
    --approved-patches-compliance-level "HIGH" \
    --approved-patches-enable-non-security \
    --tags "Key=Environment,Value=Alpha"
```
Untuk informasi [selengkapnya, lihat Membuat Garis Dasar Patch Kustom](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-patch-baseline-console.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [CreatePatchBaseline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/create-patch-baseline.html)di *Referensi AWS CLI Perintah*. 

### `create-resource-data-sync`
<a name="ssm_CreateResourceDataSync_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource-data-sync`.

**AWS CLI**  
**Untuk membuat sinkronisasi data sumber daya**  
Contoh ini membuat sinkronisasi data sumber daya. Tidak ada output jika perintah berhasil.  
Perintah:  

```
aws ssm create-resource-data-sync --sync-name "ssm-resource-data-sync" --s3-destination "BucketName=ssm-bucket,Prefix=inventory,SyncFormat=JsonSerDe,Region=us-east-1"
```
+  Untuk detail API, lihat [CreateResourceDataSync](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/create-resource-data-sync.html)di *Referensi AWS CLI Perintah*. 

### `delete-activation`
<a name="ssm_DeleteActivation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-activation`.

**AWS CLI**  
**Untuk menghapus aktivasi instance terkelola**  
`delete-activation`Contoh berikut menghapus aktivasi instance terkelola.  

```
aws ssm delete-activation \
    --activation-id "aa673477-d926-42c1-8757-1358cEXAMPLE"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiapkan AWS Systems Manager untuk Lingkungan Hybrid](https://docs.aws.amazon.com/systems-manager/latest/userguide/systems-manager-managedinstances.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeleteActivation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-activation.html)di *Referensi AWS CLI Perintah*. 

### `delete-association`
<a name="ssm_DeleteAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-association`.

**AWS CLI**  
**Contoh 1: Untuk menghapus asosiasi menggunakan ID asosiasi**  
`delete-association`Contoh berikut menghapus asosiasi untuk ID asosiasi tertentu. Tidak ada output jika perintah berhasil.  

```
aws ssm delete-association \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengedit dan membuat versi baru asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-edit.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk menghapus asosiasi**  
`delete-association`Contoh berikut menghapus hubungan antara instance dan dokumen. Tidak ada output jika perintah berhasil.  

```
aws ssm delete-association \
    --instance-id "i-1234567890abcdef0" \
    --name "AWS-UpdateSSMAgent"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan asosiasi di Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/systems-manager-associations.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeleteAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-document`
<a name="ssm_DeleteDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-document`.

**AWS CLI**  
**Untuk menghapus dokumen**  
`delete-document`Contoh berikut menghapus dokumen Systems Manager.  

```
aws ssm delete-document \
    --name "Example"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membuat Dokumen Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/create-ssm-doc.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeleteDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-document.html)di *Referensi AWS CLI Perintah*. 

### `delete-inventory`
<a name="ssm_DeleteInventory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-inventory`.

**AWS CLI**  
**Untuk menghapus jenis inventaris kustom**  
Contoh ini menghapus skema inventaris kustom.  
Perintah:  

```
aws ssm delete-inventory --type-name "Custom:RackInfo" --schema-delete-option "DeleteSchema"
```
Output:  

```
{
  "DeletionId": "d72ac9e8-1f60-4d40-b1c6-bf8c78c68c4d",
  "TypeName": "Custom:RackInfo",
  "DeletionSummary": {
      "TotalCount": 1,
      "RemainingCount": 1,
      "SummaryItems": [
          {
              "Version": "1.0",
              "Count": 1,
              "RemainingCount": 1
          }
      ]
  }
}
```
**Untuk menonaktifkan jenis inventaris kustom**  
Contoh ini menonaktifkan skema inventaris kustom.  
Perintah:  

```
aws ssm delete-inventory --type-name "Custom:RackInfo" --schema-delete-option "DisableSchema"
```
Output:  

```
{
  "DeletionId": "6961492a-8163-44ec-aa1e-923364dd0850",
  "TypeName": "Custom:RackInformation",
  "DeletionSummary": {
      "TotalCount": 0,
      "RemainingCount": 0,
      "SummaryItems": []
  }
}
```
+  Untuk detail API, lihat [DeleteInventory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-inventory.html)di *Referensi AWS CLI Perintah*. 

### `delete-maintenance-window`
<a name="ssm_DeleteMaintenanceWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-maintenance-window`.

**AWS CLI**  
**Untuk menghapus jendela pemeliharaan**  
`delete-maintenance-window`Contoh ini menghapus jendela pemeliharaan yang ditentukan.  

```
aws ssm delete-maintenance-window \
    --window-id "mw-1a2b3c4d5e6f7g8h9"
```
Output:  

```
{
    "WindowId":"mw-1a2b3c4d5e6f7g8h9"
}
```
Untuk informasi selengkapnya, lihat [Menghapus Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-delete-mw.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeleteMaintenanceWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-maintenance-window.html)di *Referensi AWS CLI Perintah*. 

### `delete-parameter`
<a name="ssm_DeleteParameter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-parameter`.

**AWS CLI**  
**Untuk menghapus parameter**  
`delete-parameter`Contoh berikut menghapus parameter tunggal yang ditentukan.  

```
aws ssm delete-parameter \
    --name "MyParameter"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-working-with.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeleteParameter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-parameter.html)di *Referensi AWS CLI Perintah*. 

### `delete-parameters`
<a name="ssm_DeleteParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-parameters`.

**AWS CLI**  
**Untuk menghapus daftar parameter**  
`delete-parameters`Contoh berikut menghapus parameter yang ditentukan.  

```
aws ssm delete-parameters \
    --names "MyFirstParameter" "MySecondParameter" "MyInvalidParameterName"
```
Output:  

```
{
    "DeletedParameters": [
        "MyFirstParameter",
        "MySecondParameter"
    ],
    "InvalidParameters": [
        "MyInvalidParameterName"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-working-with.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeleteParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-parameters.html)di *Referensi AWS CLI Perintah*. 

### `delete-patch-baseline`
<a name="ssm_DeletePatchBaseline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-patch-baseline`.

**AWS CLI**  
**Untuk menghapus baseline patch**  
`delete-patch-baseline`Contoh berikut menghapus baseline patch yang ditentukan.  

```
aws ssm delete-patch-baseline \
    --baseline-id "pb-045f10b4f382baeda"
```
Output:  

```
{
    "BaselineId": "pb-045f10b4f382baeda"
}
```
Untuk informasi [selengkapnya, lihat Memperbarui atau Menghapus Garis Dasar Patch (Konsol)](https://docs.aws.amazon.com/systems-manager/latest/userguide/patch-baseline-update-or-delete.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeletePatchBaseline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-patch-baseline.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-data-sync`
<a name="ssm_DeleteResourceDataSync_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-data-sync`.

**AWS CLI**  
**Untuk menghapus sinkronisasi data sumber daya**  
Contoh ini menghapus sinkronisasi data sumber daya. Tidak ada output jika perintah berhasil.  
Perintah:  

```
aws ssm delete-resource-data-sync --sync-name "ssm-resource-data-sync"
```
+  Untuk detail API, lihat [DeleteResourceDataSync](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/delete-resource-data-sync.html)di *Referensi AWS CLI Perintah*. 

### `deregister-managed-instance`
<a name="ssm_DeregisterManagedInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-managed-instance`.

**AWS CLI**  
**Untuk membatalkan pendaftaran instance terkelola**  
`deregister-managed-instance`Contoh berikut deregisters instance terkelola tertentu.  

```
aws ssm deregister-managed-instance \
    --instance-id 'mi-08ab247cdfEXAMPLE'
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Membatalkan pendaftaran node terkelola di lingkungan hybrid dan multicloud](https://docs.aws.amazon.com/systems-manager/latest/userguide/fleet-manager-deregister-hybrid-nodes.html) di Panduan Pengguna Systems Manager AWS .*  
+  Untuk detail API, lihat [DeregisterManagedInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/deregister-managed-instance.html)di *Referensi AWS CLI Perintah*. 

### `deregister-patch-baseline-for-patch-group`
<a name="ssm_DeregisterPatchBaselineForPatchGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-patch-baseline-for-patch-group`.

**AWS CLI**  
**Untuk membatalkan pendaftaran grup patch dari baseline patch**  
`deregister-patch-baseline-for-patch-group`Contoh berikut membatalkan pendaftaran grup patch yang ditentukan dari baseline patch yang ditentukan.  

```
aws ssm deregister-patch-baseline-for-patch-group \
    --patch-group "Production" \
    --baseline-id "pb-0ca44a362fEXAMPLE"
```
Output:  

```
{
  "PatchGroup":"Production",
  "BaselineId":"pb-0ca44a362fEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menambahkan Grup Patch ke Garis Dasar Patch](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-patch-group-patchbaseline.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeregisterPatchBaselineForPatchGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/deregister-patch-baseline-for-patch-group.html)di *Referensi AWS CLI Perintah*. 

### `deregister-target-from-maintenance-window`
<a name="ssm_DeregisterTargetFromMaintenanceWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-target-from-maintenance-window`.

**AWS CLI**  
**Untuk menghapus target dari jendela pemeliharaan**  
`deregister-target-from-maintenance-window`Contoh berikut menghapus target yang ditentukan dari jendela pemeliharaan yang ditentukan.  

```
aws ssm deregister-target-from-maintenance-window \
    --window-id "mw-ab12cd34ef56gh78" \
    --window-target-id "1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d-1a2"
```
Output:  

```
{
    "WindowId":"mw-ab12cd34ef56gh78",
    "WindowTargetId":"1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d-1a2"
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-update.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeregisterTargetFromMaintenanceWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/deregister-target-from-maintenance-window.html)di *Referensi AWS CLI Perintah*. 

### `deregister-task-from-maintenance-window`
<a name="ssm_DeregisterTaskFromMaintenanceWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-task-from-maintenance-window`.

**AWS CLI**  
**Untuk menghapus tugas dari jendela pemeliharaan**  
`deregister-task-from-maintenance-window`Contoh berikut menghapus tugas yang ditentukan dari jendela pemeliharaan yang ditentukan.  

```
aws ssm deregister-task-from-maintenance-window \
    --window-id "mw-ab12cd34ef56gh78" \
    --window-task-id "1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d5e6c"
```
Output:  

```
{
    "WindowTaskId":"1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d5e6c",
    "WindowId":"mw-ab12cd34ef56gh78"
}
```
Untuk informasi selengkapnya, lihat [Systems Manager Maintenance Windows Tutorial (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-tutorials.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DeregisterTaskFromMaintenanceWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/deregister-task-from-maintenance-window.html)di *Referensi AWS CLI Perintah*. 

### `describe-activations`
<a name="ssm_DescribeActivations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-activations`.

**AWS CLI**  
**Untuk menggambarkan aktivasi**  
`describe-activations`Contoh berikut mencantumkan detail tentang aktivasi di AWS akun Anda.  

```
aws ssm describe-activations
```
Output:  

```
{
    "ActivationList": [
        {
            "ActivationId": "5743558d-563b-4457-8682-d16c3EXAMPLE",
            "Description": "Example1",
            "IamRole": "HybridWebServersRole,
            "RegistrationLimit": 5,
            "RegistrationsCount": 5,
            "ExpirationDate": 1584316800.0,
            "Expired": false,
            "CreatedDate": 1581954699.792
        },
        {
            "ActivationId": "3ee0322b-f62d-40eb-b672-13ebfEXAMPLE",
            "Description": "Example2",
            "IamRole": "HybridDatabaseServersRole",
            "RegistrationLimit": 5,
            "RegistrationsCount": 5,
            "ExpirationDate": 1580515200.0,
            "Expired": true,
            "CreatedDate": 1578064132.002
        },
    ]
}
```
Untuk informasi selengkapnya, lihat [Langkah 4: Membuat Aktivasi Instans Terkelola untuk Lingkungan Hybrid](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-managed-instance-activation.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeActivations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-activations.html)di *Referensi AWS CLI Perintah*. 

### `describe-association-execution-targets`
<a name="ssm_DescribeAssociationExecutionTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-association-execution-targets`.

**AWS CLI**  
**Untuk mendapatkan detail eksekusi asosiasi**  
`describe-association-execution-targets`Contoh berikut menjelaskan eksekusi asosiasi yang ditentukan.  

```
aws ssm describe-association-execution-targets \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab" \
    --execution-id "7abb6378-a4a5-4f10-8312-0123456789ab"
```
Output:  

```
{
    "AssociationExecutionTargets": [
        {
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "AssociationVersion": "1",
            "ExecutionId": "7abb6378-a4a5-4f10-8312-0123456789ab",
            "ResourceId": "i-1234567890abcdef0",
            "ResourceType": "ManagedInstance",
            "Status": "Success",
            "DetailedStatus": "Success",
            "LastExecutionDate": 1550505538.497,
            "OutputSource": {
                "OutputSourceId": "97fff367-fc5a-4299-aed8-0123456789ab",
                "OutputSourceType": "RunCommand"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat riwayat asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-history.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeAssociationExecutionTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-association-execution-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-association-executions`
<a name="ssm_DescribeAssociationExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-association-executions`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan rincian semua eksekusi untuk asosiasi**  
`describe-association-executions`Contoh berikut menjelaskan semua eksekusi asosiasi yang ditentukan.  

```
aws ssm describe-association-executions \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab"
```
Output:  

```
{
    "AssociationExecutions": [
        {
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "AssociationVersion": "1",
            "ExecutionId": "474925ef-1249-45a2-b93d-0123456789ab",
            "Status": "Success",
            "DetailedStatus": "Success",
            "CreatedTime": 1550505827.119,
            "ResourceCountByStatus": "{Success=1}"
        },
        {
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "AssociationVersion": "1",
            "ExecutionId": "7abb6378-a4a5-4f10-8312-0123456789ab",
            "Status": "Success",
            "DetailedStatus": "Success",
            "CreatedTime": 1550505536.843,
            "ResourceCountByStatus": "{Success=1}"
        },
        ...
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat riwayat asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-history.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk mendapatkan rincian semua eksekusi untuk asosiasi setelah tanggal dan waktu tertentu**  
`describe-association-executions`Contoh berikut menjelaskan semua eksekusi asosiasi setelah tanggal dan waktu yang ditentukan.  

```
aws ssm describe-association-executions \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab" \
    --filters "Key=CreatedTime,Value=2019-02-18T16:00:00Z,Type=GREATER_THAN"
```
Output:  

```
{
    "AssociationExecutions": [
        {
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "AssociationVersion": "1",
            "ExecutionId": "474925ef-1249-45a2-b93d-0123456789ab",
            "Status": "Success",
            "DetailedStatus": "Success",
            "CreatedTime": 1550505827.119,
            "ResourceCountByStatus": "{Success=1}"
        },
        {
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "AssociationVersion": "1",
            "ExecutionId": "7abb6378-a4a5-4f10-8312-0123456789ab",
            "Status": "Success",
            "DetailedStatus": "Success",
            "CreatedTime": 1550505536.843,
            "ResourceCountByStatus": "{Success=1}"
        },
        ...
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat riwayat asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-history.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeAssociationExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-association-executions.html)di *Referensi AWS CLI Perintah*. 

### `describe-association`
<a name="ssm_DescribeAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-association`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan detail asosiasi**  
`describe-association`Contoh berikut menjelaskan asosiasi untuk ID asosiasi tertentu.  

```
aws ssm describe-association \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab"
```
Output:  

```
{
    "AssociationDescription": {
        "Name": "AWS-GatherSoftwareInventory",
        "AssociationVersion": "1",
        "Date": 1534864780.995,
        "LastUpdateAssociationDate": 1543235759.81,
        "Overview": {
            "Status": "Success",
            "AssociationStatusAggregatedCount": {
                "Success": 2
            }
        },
        "DocumentVersion": "$DEFAULT",
        "Parameters": {
            "applications": [
                "Enabled"
            ],
            "awsComponents": [
                "Enabled"
            ],
            "customInventory": [
                "Enabled"
            ],
            "files": [
                ""
            ],
            "instanceDetailedInformation": [
                "Enabled"
            ],
            "networkConfig": [
                "Enabled"
            ],
            "services": [
                "Enabled"
            ],
            "windowsRegistry": [
                ""
            ],
            "windowsRoles": [
                "Enabled"
            ],
            "windowsUpdates": [
                "Enabled"
            ]
        },
        "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
        "Targets": [
            {
                "Key": "InstanceIds",
                "Values": [
                    "*"
                ]
            }
        ],
        "ScheduleExpression": "rate(24 hours)",
        "LastExecutionDate": 1550501886.0,
        "LastSuccessfulExecutionDate": 1550501886.0,
        "AssociationName": "Inventory-Association"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit dan membuat versi baru asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-edit.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk mendapatkan rincian asosiasi untuk contoh dan dokumen tertentu**  
`describe-association`Contoh berikut menjelaskan hubungan antara instance dan dokumen.  

```
aws ssm describe-association \
    --instance-id "i-1234567890abcdef0" \
    --name "AWS-UpdateSSMAgent"
```
Output:  

```
{
    "AssociationDescription": {
        "Status": {
            "Date": 1487876122.564,
            "Message": "Associated with AWS-UpdateSSMAgent",
            "Name": "Associated"
        },
        "Name": "AWS-UpdateSSMAgent",
        "InstanceId": "i-1234567890abcdef0",
        "Overview": {
            "Status": "Pending",
            "DetailedStatus": "Associated",
            "AssociationStatusAggregatedCount": {
                "Pending": 1
            }
        },
        "AssociationId": "d8617c07-2079-4c18-9847-1234567890ab",
        "DocumentVersion": "$DEFAULT",
        "LastUpdateAssociationDate": 1487876122.564,
        "Date": 1487876122.564,
        "Targets": [
            {
                "Values": [
                    "i-1234567890abcdef0"
                ],
                "Key": "InstanceIds"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit dan membuat versi baru asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-edit.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-association.html)di *Referensi AWS CLI Perintah*. 

### `describe-automation-executions`
<a name="ssm_DescribeAutomationExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-automation-executions`.

**AWS CLI**  
**Untuk menggambarkan eksekusi otomatisasi**  
`describe-automation-executions`Contoh berikut menampilkan rincian tentang eksekusi Otomasi.  

```
aws ssm describe-automation-executions \
    --filters Key=ExecutionId,Values=73c8eef8-f4ee-4a05-820c-e354fEXAMPLE
```
Output:  

```
{
    "AutomationExecutionMetadataList": [
        {
            "AutomationExecutionId": "73c8eef8-f4ee-4a05-820c-e354fEXAMPLE",
            "DocumentName": "AWS-StartEC2Instance",
            "DocumentVersion": "1",
            "AutomationExecutionStatus": "Success",
            "ExecutionStartTime": 1583737233.748,
            "ExecutionEndTime": 1583737234.719,
            "ExecutedBy": "arn:aws:sts::29884EXAMPLE:assumed-role/mw_service_role/OrchestrationService",
            "LogFile": "",
            "Outputs": {},
            "Mode": "Auto",
            "Targets": [],
            "ResolvedTargets": {
                "ParameterValues": [],
                "Truncated": false
            },
            "AutomationType": "Local"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjalankan Alur Kerja Otomasi Sederhana](https://docs.aws.amazon.com/systems-manager/latest/userguide/automation-working-executing.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeAutomationExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-automation-executions.html)di *Referensi AWS CLI Perintah*. 

### `describe-automation-step-executions`
<a name="ssm_DescribeAutomationStepExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-automation-step-executions`.

**AWS CLI**  
**Contoh 1: Untuk menjelaskan semua langkah untuk eksekusi otomatisasi**  
`describe-automation-step-executions`Contoh berikut menampilkan rincian tentang langkah-langkah eksekusi Otomasi.  

```
aws ssm describe-automation-step-executions \
    --automation-execution-id 73c8eef8-f4ee-4a05-820c-e354fEXAMPLE
```
Output:  

```
{
    "StepExecutions": [
        {
            "StepName": "startInstances",
            "Action": "aws:changeInstanceState",
            "ExecutionStartTime": 1583737234.134,
            "ExecutionEndTime": 1583737234.672,
            "StepStatus": "Success",
            "Inputs": {
                "DesiredState": "\"running\"",
                "InstanceIds": "[\"i-0cb99161f6EXAMPLE\"]"
            },
            "Outputs": {
                "InstanceStates": [
                    "running"
                ]
            },
            "StepExecutionId": "95e70479-cf20-4d80-8018-7e4e2EXAMPLE",
            "OverriddenParameters": {}
        }
    ]
}
```
**Contoh 2: Untuk menjelaskan langkah spesifik untuk eksekusi otomatisasi**  
`describe-automation-step-executions`Contoh berikut menampilkan rincian tentang langkah tertentu dari eksekusi Otomasi.  

```
aws ssm describe-automation-step-executions \
    --automation-execution-id 73c8eef8-f4ee-4a05-820c-e354fEXAMPLE \
    --filters Key=StepExecutionId,Values=95e70479-cf20-4d80-8018-7e4e2EXAMPLE
```
Untuk informasi selengkapnya, lihat [Menjalankan Alur Kerja Otomasi Langkah demi Langkah (Baris Perintah)](https://docs.aws.amazon.com/systems-manager/latest/userguide/automation-working-executing-manually.html#automation-working-executing-manually-commandline) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeAutomationStepExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-automation-step-executions.html)di *Referensi AWS CLI Perintah*. 

### `describe-available-patches`
<a name="ssm_DescribeAvailablePatches_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-available-patches`.

**AWS CLI**  
**Untuk mendapatkan tambalan yang tersedia**  
`describe-available-patches`Contoh berikut mengambil rincian tentang semua patch yang tersedia untuk Windows Server 2019 yang memiliki tingkat keparahan MSRC Critical.  

```
aws ssm describe-available-patches \
    --filters "Key=PRODUCT,Values=WindowsServer2019" "Key=MSRC_SEVERITY,Values=Critical"
```
Output:  

```
{
    "Patches": [
        {
            "Id": "fe6bd8c2-3752-4c8b-ab3e-1a7ed08767ba",
            "ReleaseDate": 1544047205.0,
            "Title": "2018-11 Update for Windows Server 2019 for x64-based Systems (KB4470788)",
            "Description": "Install this update to resolve issues in Windows. For a complete listing of the issues that are included in this update, see the associated Microsoft Knowledge Base article for more information. After you install this item, you may have to restart your computer.",
            "ContentUrl": "https://support.microsoft.com/en-us/kb/4470788",
            "Vendor": "Microsoft",
            "ProductFamily": "Windows",
            "Product": "WindowsServer2019",
            "Classification": "SecurityUpdates",
            "MsrcSeverity": "Critical",
            "KbNumber": "KB4470788",
            "MsrcNumber": "",
            "Language": "All"
        },
        {
            "Id": "c96115e1-5587-4115-b851-22baa46a3f11",
            "ReleaseDate": 1549994410.0,
            "Title": "2019-02 Security Update for Adobe Flash Player for Windows Server 2019 for x64-based Systems (KB4487038)",
            "Description": "A security issue has been identified in a Microsoft software product that could affect your system. You can help protect your system by installing this update from Microsoft. For a complete listing of the issues that are included in this update, see the associated Microsoft Knowledge Base article. After you install this update, you may have to restart your system.",
            "ContentUrl": "https://support.microsoft.com/en-us/kb/4487038",
            "Vendor": "Microsoft",
            "ProductFamily": "Windows",
            "Product": "WindowsServer2019",
            "Classification": "SecurityUpdates",
            "MsrcSeverity": "Critical",
            "KbNumber": "KB4487038",
            "MsrcNumber": "",
            "Language": "All"
        },
        ...
    ]
}
```
**Untuk mendapatkan detail tambalan tertentu**  
`describe-available-patches`Contoh berikut mengambil rincian tentang patch yang ditentukan.  

```
aws ssm describe-available-patches \
    --filters "Key=PATCH_ID,Values=KB4480979"
```
Output:  

```
{
    "Patches": [
        {
            "Id": "680861e3-fb75-432e-818e-d72e5f2be719",
            "ReleaseDate": 1546970408.0,
            "Title": "2019-01 Security Update for Adobe Flash Player for Windows Server 2016 for x64-based Systems (KB4480979)",
            "Description": "A security issue has been identified in a Microsoft software product that could affect your system. You can help protect your system by installing this update from Microsoft. For a complete listing of the issues that are included in this update, see the associated Microsoft Knowledge Base article. After you install this update, you may have to restart your system.",
            "ContentUrl": "https://support.microsoft.com/en-us/kb/4480979",
            "Vendor": "Microsoft",
            "ProductFamily": "Windows",
            "Product": "WindowsServer2016",
            "Classification": "SecurityUpdates",
            "MsrcSeverity": "Critical",
            "KbNumber": "KB4480979",
            "MsrcNumber": "",
            "Language": "All"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Cara Kerja Operasi Manajer Patch](https://docs.aws.amazon.com/systems-manager/latest/userguide/patch-manager-how-it-works.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeAvailablePatches](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-available-patches.html)di *Referensi AWS CLI Perintah*. 

### `describe-document-permission`
<a name="ssm_DescribeDocumentPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-document-permission`.

**AWS CLI**  
**Untuk menjelaskan izin dokumen**  
`describe-document-permission`Contoh berikut menampilkan rincian izin tentang dokumen Systems Manager yang dibagikan secara publik.  

```
aws ssm describe-document-permission \
    --name "Example" \
    --permission-type "Share"
```
Output:  

```
{
    "AccountIds": [
        "all"
    ],
    "AccountSharingInfoList": [
        {
            "AccountId": "all",
            "SharedDocumentVersion": "$DEFAULT"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Membagikan Dokumen Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/ssm-how-to-share.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeDocumentPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-document-permission.html)di *Referensi AWS CLI Perintah*. 

### `describe-document`
<a name="ssm_DescribeDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-document`.

**AWS CLI**  
**Untuk menampilkan detail dokumen**  
`describe-document`Contoh berikut menampilkan detail tentang dokumen Systems Manager di AWS akun Anda.  

```
aws ssm describe-document \
    --name "Example"
```
Output:  

```
{
    "Document": {
        "Hash": "fc2410281f40779e694a8b95975d0f9f316da8a153daa94e3d9921102EXAMPLE",
        "HashType": "Sha256",
        "Name": "Example",
        "Owner": "29884EXAMPLE",
        "CreatedDate": 1583257938.266,
        "Status": "Active",
        "DocumentVersion": "1",
        "Description": "Document Example",
        "Parameters": [
            {
                "Name": "AutomationAssumeRole",
                "Type": "String",
                "Description": "(Required) The ARN of the role that allows Automation to perform the actions on your behalf. If no role is specified, Systems Manager Automation uses your IAM permissions to execute this document.",
                "DefaultValue": ""
            },
            {
                "Name": "InstanceId",
                "Type": "String",
                "Description": "(Required) The ID of the Amazon EC2 instance.",
                "DefaultValue": ""
            }
        ],
        "PlatformTypes": [
            "Windows",
            "Linux"
        ],
        "DocumentType": "Automation",
        "SchemaVersion": "0.3",
        "LatestVersion": "1",
        "DefaultVersion": "1",
        "DocumentFormat": "YAML",
        "Tags": []
    }
}
```
Untuk informasi selengkapnya, lihat [Membuat Dokumen Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/create-ssm-doc.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-document.html)di *Referensi AWS CLI Perintah*. 

### `describe-effective-instance-associations`
<a name="ssm_DescribeEffectiveInstanceAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-effective-instance-associations`.

**AWS CLI**  
**Untuk mendapatkan rincian asosiasi yang efektif untuk sebuah contoh**  
`describe-effective-instance-associations`Contoh berikut mengambil rincian tentang asosiasi efektif untuk sebuah contoh.  
Perintah:  

```
aws ssm describe-effective-instance-associations --instance-id "i-1234567890abcdef0"
```
Output:  

```
{
    "Associations": [
        {
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "InstanceId": "i-1234567890abcdef0",
            "Content": "{\n    \"schemaVersion\": \"1.2\",\n    \"description\": \"Update the Amazon SSM Agent to the latest version or specified version.\",\n    \"parameters\": {\n        \"version\": {\n            \"default\": \"\",\n            \"description\": \"(Optional) A specific version of the Amazon SSM Agent to install. If not specified, the agent will be updated to the latest version.\",\n            \"type\": \"String\"\n        },\n        \"allowDowngrade\": {\n            \"default\": \"false\",\n            \"description\": \"(Optional) Allow the Amazon SSM Agent service to be downgraded to an earlier version. If set to false, the service can be upgraded to newer versions only (default). If set to true, specify the earlier version.\",\n            \"type\": \"String\",\n            \"allowedValues\": [\n                \"true\",\n                \"false\"\n            ]\n        }\n    },\n    \"runtimeConfig\": {\n        \"aws:updateSsmAgent\": {\n            \"properties\": [\n                {\n                \"agentName\": \"amazon-ssm-agent\",\n                \"source\": \"https://s3.{Region}.amazonaws.com/amazon-ssm-{Region}/ssm-agent-manifest.json\",\n                \"allowDowngrade\": \"{{ allowDowngrade }}\",\n                \"targetVersion\": \"{{ version }}\"\n                }\n            ]\n        }\n    }\n}\n",
            "AssociationVersion": "1"
        }
    ]
}
```
+  Untuk detail API, lihat [DescribeEffectiveInstanceAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-effective-instance-associations.html)di *Referensi AWS CLI Perintah*. 

### `describe-effective-patches-for-patch-baseline`
<a name="ssm_DescribeEffectivePatchesForPatchBaseline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-effective-patches-for-patch-baseline`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan semua tambalan yang ditentukan oleh baseline patch kustom**  
`describe-effective-patches-for-patch-baseline`Contoh berikut mengembalikan patch yang ditentukan oleh baseline patch kustom di akun saat ini. AWS Perhatikan bahwa untuk baseline kustom, hanya ID yang diperlukan untuk. `--baseline-id`  

```
aws ssm describe-effective-patches-for-patch-baseline \
    --baseline-id "pb-08b654cf9b9681f04"
```
Output:  

```
{
    "EffectivePatches": [
        {
            "Patch": {
                "Id": "fe6bd8c2-3752-4c8b-ab3e-1a7ed08767ba",
                "ReleaseDate": 1544047205.0,
                "Title": "2018-11 Update for Windows Server 2019 for x64-based Systems (KB4470788)",
                "Description": "Install this update to resolve issues in Windows. For a complete listing of the issues that are included in this update, see the associated Microsoft Knowledge Base article for more information. After you install this item, you may have to restart your computer.",
                "ContentUrl": "https://support.microsoft.com/en-us/kb/4470788",
                "Vendor": "Microsoft",
                "ProductFamily": "Windows",
                "Product": "WindowsServer2019",
                "Classification": "SecurityUpdates",
                "MsrcSeverity": "Critical",
                "KbNumber": "KB4470788",
                "MsrcNumber": "",
                "Language": "All"
            },
            "PatchStatus": {
                "DeploymentStatus": "APPROVED",
                "ComplianceLevel": "CRITICAL",
                "ApprovalDate": 1544047205.0
            }
        },
        {
            "Patch": {
                "Id": "915a6b1a-f556-4d83-8f50-b2e75a9a7e58",
                "ReleaseDate": 1549994400.0,
                "Title": "2019-02 Cumulative Update for .NET Framework 3.5 and 4.7.2 for Windows Server 2019 for x64 (KB4483452)",
                "Description": "A security issue has been identified in a Microsoft software product that could affect your system. You can help protect your system by installing this update from Microsoft. For a complete listing of the issues that are included in this update, see the associated Microsoft Knowledge Base article. After you install this update, you may have to restart your system.",
                "ContentUrl": "https://support.microsoft.com/en-us/kb/4483452",
                "Vendor": "Microsoft",
                "ProductFamily": "Windows",
                "Product": "WindowsServer2019",
                "Classification": "SecurityUpdates",
                "MsrcSeverity": "Important",
                "KbNumber": "KB4483452",
                "MsrcNumber": "",
                "Language": "All"
            },
            "PatchStatus": {
                "DeploymentStatus": "APPROVED",
                "ComplianceLevel": "CRITICAL",
                "ApprovalDate": 1549994400.0
            }
        },
        ...
    ],
    "NextToken": "--token string truncated--"
}
```
**Contoh 2: Untuk mendapatkan semua tambalan yang ditentukan oleh baseline patch AWS terkelola**  
`describe-effective-patches-for-patch-baseline`Contoh berikut mengembalikan patch yang ditentukan oleh baseline patch AWS terkelola. Perhatikan bahwa untuk baseline AWS terkelola, ARN baseline lengkap diperlukan untuk `--baseline-id`  

```
aws ssm describe-effective-patches-for-patch-baseline \
    --baseline-id "arn:aws:ssm:us-east-2:733109147000:patchbaseline/pb-020d361a05defe4ed"
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Bagaimana Patch Keamanan Dipilih](https://docs.aws.amazon.com/systems-manager/latest/userguide/patch-manager-how-it-works-selection.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeEffectivePatchesForPatchBaseline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-effective-patches-for-patch-baseline.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-associations-status`
<a name="ssm_DescribeInstanceAssociationsStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-associations-status`.

**AWS CLI**  
**Untuk menggambarkan status asosiasi instans**  
Contoh ini menunjukkan rincian asosiasi untuk sebuah instance.  
Perintah:  

```
aws ssm describe-instance-associations-status --instance-id "i-1234567890abcdef0"
```
Output:  

```
{
  "InstanceAssociationStatusInfos": [
      {
          "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
          "Name": "AWS-GatherSoftwareInventory",
          "DocumentVersion": "1",
          "AssociationVersion": "1",
          "InstanceId": "i-1234567890abcdef0",
          "ExecutionDate": 1550501886.0,
          "Status": "Success",
          "ExecutionSummary": "1 out of 1 plugin processed, 1 success, 0 failed, 0 timedout, 0 skipped. ",
          "AssociationName": "Inventory-Association"
      },
      {
          "AssociationId": "5c5a31f6-6dae-46f9-944c-0123456789ab",
          "Name": "AWS-UpdateSSMAgent",
          "DocumentVersion": "1",
          "AssociationVersion": "1",
          "InstanceId": "i-1234567890abcdef0",
          "ExecutionDate": 1550505828.548,
          "Status": "Success",
          "DetailedStatus": "Success",
          "AssociationName": "UpdateSSMAgent"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeInstanceAssociationsStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-instance-associations-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-information`
<a name="ssm_DescribeInstanceInformation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-information`.

**AWS CLI**  
**Contoh 1: Untuk mendeskripsikan informasi instans terkelola**  
`describe-instance-information`Contoh berikut mengambil detail dari setiap instans terkelola Anda.  

```
aws ssm describe-instance-information
```
**Contoh 2: Untuk mendeskripsikan informasi tentang instance terkelola tertentu**  
`describe-instance-information`Contoh berikut menunjukkan rincian instance yang dikelola`i-028ea792daEXAMPLE`.  

```
aws ssm describe-instance-information \
    --filters "Key=InstanceIds,Values=i-028ea792daEXAMPLE"
```
**Contoh 3: Untuk menjelaskan informasi tentang instance terkelola dengan kunci tag tertentu**  
`describe-instance-information`Contoh berikut menunjukkan rincian untuk instance terkelola yang memiliki kunci `DEV` tag.  

```
aws ssm describe-instance-information \
    --filters "Key=tag-key,Values=DEV"
```
Output:  

```
{
    "InstanceInformationList": [
        {
            "InstanceId": "i-028ea792daEXAMPLE",
            "PingStatus": "Online",
            "LastPingDateTime": 1582221233.421,
            "AgentVersion": "2.3.842.0",
            "IsLatestVersion": true,
            "PlatformType": "Linux",
            "PlatformName": "SLES",
            "PlatformVersion": "15.1",
            "ResourceType": "EC2Instance",
            "IPAddress": "192.0.2.0",
            "ComputerName": "ip-198.51.100.0.us-east-2.compute.internal",
            "AssociationStatus": "Success",
            "LastAssociationExecutionDate": 1582220806.0,
            "LastSuccessfulAssociationExecutionDate": 1582220806.0,
            "AssociationOverview": {
                "DetailedStatus": "Success",
                "InstanceAssociationStatusAggregatedCount": {
                    "Success": 2
                }
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Instans Terkelola](https://docs.aws.amazon.com/systems-manager/latest/userguide/managed_instances.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeInstanceInformation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-instance-information.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-patch-states-for-patch-group`
<a name="ssm_DescribeInstancePatchStatesForPatchGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-patch-states-for-patch-group`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan status instance untuk grup patch**  
`describe-instance-patch-states-for-patch-group`Contoh berikut mengambil rincian tentang status ringkasan patch per instance untuk grup patch yang ditentukan.  

```
aws ssm describe-instance-patch-states-for-patch-group \
    --patch-group "Production"
```
Output:  

```
{
    "InstancePatchStates": [
        {
            "InstanceId": "i-02573cafcfEXAMPLE",
            "PatchGroup": "Production",
            "BaselineId": "pb-0c10e65780EXAMPLE",
            "SnapshotId": "a3f5ff34-9bc4-4d2c-a665-4d1c1EXAMPLE",
            "OwnerInformation": "",
            "InstalledCount": 32,
            "InstalledOtherCount": 1,
            "InstalledPendingRebootCount": 0,
            "InstalledRejectedCount": 0,
            "MissingCount": 2,
            "FailedCount": 0,
            "UnreportedNotApplicableCount": 2671,
            "NotApplicableCount": 400,
            "OperationStartTime": "2021-08-04T11:03:50.590000-07:00",
            "OperationEndTime": "2021-08-04T11:04:21.555000-07:00",
            "Operation": "Scan",
            "RebootOption": "NoReboot",
            "CriticalNonCompliantCount": 0,
            "SecurityNonCompliantCount": 1,
            "OtherNonCompliantCount": 0
        },
        {
            "InstanceId": "i-0471e04240EXAMPLE",
            "PatchGroup": "Production",
            "BaselineId": "pb-09ca3fb51fEXAMPLE",
            "SnapshotId": "05d8ffb0-1bbe-4812-ba2d-d9b7bEXAMPLE",
            "OwnerInformation": "",
            "InstalledCount": 32,
            "InstalledOtherCount": 1,
            "InstalledPendingRebootCount": 0,
            "InstalledRejectedCount": 0,
            "MissingCount": 2,
            "FailedCount": 0,
            "UnreportedNotApplicableCount": 2671,
            "NotApplicableCount": 400,
            "OperationStartTime": "2021-08-04T22:06:20.340000-07:00",
            "OperationEndTime": "2021-08-04T22:07:11.220000-07:00",
            "Operation": "Scan",
            "RebootOption": "NoReboot",
            "CriticalNonCompliantCount": 0,
            "SecurityNonCompliantCount": 1,
            "OtherNonCompliantCount": 0
        }
    ]
}
```
**Contoh 2: Untuk mendapatkan status instance untuk grup tambalan dengan lebih dari lima tambalan yang hilang**  
`describe-instance-patch-states-for-patch-group`Contoh berikut mengambil detail tentang status ringkasan tambalan untuk grup patch yang ditentukan untuk instance dengan lebih dari lima tambalan yang hilang.  

```
aws ssm describe-instance-patch-states-for-patch-group \
    --filters Key=MissingCount,Type=GreaterThan,Values=5 \
    --patch-group "Production"
```
Output:  

```
{
    "InstancePatchStates": [
        {
            "InstanceId": "i-02573cafcfEXAMPLE",
            "PatchGroup": "Production",
            "BaselineId": "pb-0c10e65780EXAMPLE",
            "SnapshotId": "a3f5ff34-9bc4-4d2c-a665-4d1c1EXAMPLE",
            "OwnerInformation": "",
            "InstalledCount": 46,
            "InstalledOtherCount": 4,
            "InstalledPendingRebootCount": 1,
            "InstalledRejectedCount": 1,
            "MissingCount": 7,
            "FailedCount": 0,
            "UnreportedNotApplicableCount": 232,
            "NotApplicableCount": 654,
            "OperationStartTime": "2021-08-04T11:03:50.590000-07:00",
            "OperationEndTime": "2021-08-04T11:04:21.555000-07:00",
            "Operation": "Scan",
            "RebootOption": "NoReboot",
            "CriticalNonCompliantCount": 0,
            "SecurityNonCompliantCount": 1,
            "OtherNonCompliantCount": 1
        }
    ]
}
```
**Contoh 3: Untuk mendapatkan status instance untuk grup patch dengan kurang dari sepuluh instance yang memerlukan reboot**  
`describe-instance-patch-states-for-patch-group`Contoh berikut mengambil detail tentang status ringkasan tambalan untuk grup patch yang ditentukan untuk instance dengan kurang dari sepuluh instance yang memerlukan reboot.  

```
aws ssm describe-instance-patch-states-for-patch-group \
    --filters Key=InstalledPendingRebootCount,Type=LessThan,Values=10 \
    --patch-group "Production"
```
Output:  

```
{
    "InstancePatchStates": [
        {
            "InstanceId": "i-02573cafcfEXAMPLE",
            "BaselineId": "pb-0c10e65780EXAMPLE",
            "SnapshotId": "a3f5ff34-9bc4-4d2c-a665-4d1c1EXAMPLE",
            "PatchGroup": "Production",
            "OwnerInformation": "",
            "InstalledCount": 32,
            "InstalledOtherCount": 1,
            "InstalledPendingRebootCount": 4,
            "InstalledRejectedCount": 0,
            "MissingCount": 2,
            "FailedCount": 0,
            "UnreportedNotApplicableCount": 846,
            "NotApplicableCount": 212,
            "OperationStartTime": "2021-08-046T11:03:50.590000-07:00",
            "OperationEndTime": "2021-08-06T11:04:21.555000-07:00",
            "Operation": "Scan",
            "RebootOption": "NoReboot",
            "CriticalNonCompliantCount": 0,
            "SecurityNonCompliantCount": 1,
            "OtherNonCompliantCount": 0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memahami nilai status kepatuhan tambalan](https://docs.aws.amazon.com/systems-manager/latest/userguide/about-patch-compliance-states.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeInstancePatchStatesForPatchGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-instance-patch-states-for-patch-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-patch-states`
<a name="ssm_DescribeInstancePatchStates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-patch-states`.

**AWS CLI**  
**Untuk mendapatkan status ringkasan tambalan untuk instance**  
`describe-instance-patch-states`Contoh ini mendapatkan status ringkasan patch untuk sebuah instance.  

```
aws ssm describe-instance-patch-states \
    --instance-ids "i-1234567890abcdef0"
```
Output:  

```
{
    "InstancePatchStates": [
        {
            "InstanceId": "i-1234567890abcdef0",
            "PatchGroup": "my-patch-group",
            "BaselineId": "pb-0713accee01234567",
            "SnapshotId": "521c3536-930c-4aa9-950e-01234567abcd",
            "CriticalNonCompliantCount": 2,
            "SecurityNonCompliantCount": 2,
            "OtherNonCompliantCount": 1,
            "InstalledCount": 123,
            "InstalledOtherCount": 334,
            "InstalledPendingRebootCount": 0,
            "InstalledRejectedCount": 0,
            "MissingCount": 1,
            "FailedCount": 2,
            "UnreportedNotApplicableCount": 11,
            "NotApplicableCount": 2063,
            "OperationStartTime": "2021-05-03T11:00:56-07:00",
            "OperationEndTime": "2021-05-03T11:01:09-07:00",
            "Operation": "Scan",
            "LastNoRebootInstallOperationTime": "2020-06-14T12:17:41-07:00",
            "RebootOption": "RebootIfNeeded"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tentang Patch Compliance](https://docs.aws.amazon.com/systems-manager/latest/userguide/about-patch-compliance.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeInstancePatchStates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-instance-patch-states.html)di *Referensi AWS CLI Perintah*. 

### `describe-instance-patches`
<a name="ssm_DescribeInstancePatches_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-instance-patches`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan detail status patch untuk sebuah instance**  
`describe-instance-patches`Contoh berikut mengambil rincian tentang patch untuk contoh tertentu.  

```
aws ssm describe-instance-patches \
    --instance-id "i-1234567890abcdef0"
```
Output:  

```
{
    "Patches": [
        {
            "Title": "2019-01 Security Update for Adobe Flash Player for Windows Server 2016 for x64-based Systems (KB4480979)",
            "KBId": "KB4480979",
            "Classification": "SecurityUpdates",
            "Severity": "Critical",
            "State": "Installed",
            "InstalledTime": "2019-01-09T00:00:00+00:00"
        },
        {
            "Title": "",
            "KBId": "KB4481031",
            "Classification": "",
            "Severity": "",
            "State": "InstalledOther",
            "InstalledTime": "2019-02-08T00:00:00+00:00"
        },
        ...
    ],
    "NextToken": "--token string truncated--"
}
```
**Contoh 2: Untuk mendapatkan daftar tambalan dalam keadaan Hilang untuk sebuah instance**  
`describe-instance-patches`Contoh berikut mengambil informasi tentang patch yang berada dalam keadaan Hilang untuk instance tertentu.  

```
aws ssm describe-instance-patches \
    --instance-id "i-1234567890abcdef0" \
    --filters Key=State,Values=Missing
```
Output:  

```
{
    "Patches": [
        {
            "Title": "Windows Malicious Software Removal Tool x64 - February 2019 (KB890830)",
            "KBId": "KB890830",
            "Classification": "UpdateRollups",
            "Severity": "Unspecified",
            "State": "Missing",
            "InstalledTime": "1970-01-01T00:00:00+00:00"
        },
        ...
    ],
    "NextToken": "--token string truncated--"
}
```
Untuk informasi selengkapnya, lihat [Tentang Status Kepatuhan Patch](https://docs.aws.amazon.com/systems-manager/latest/userguide/about-patch-compliance-states.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 3: Untuk mendapatkan daftar tambalan yang diinstal sejak ditentukan InstalledTime untuk sebuah instance**  
`describe-instance-patches`Contoh berikut mengambil informasi tentang patch diinstal sejak waktu yang ditentukan untuk instance tertentu dengan menggabungkan penggunaan `--filters` dan. `--query`  

```
aws ssm describe-instance-patches \
    --instance-id "i-1234567890abcdef0" \
    --filters Key=State,Values=Installed \
    --query "Patches[?InstalledTime >= `2023-01-01T16:00:00`]"
```
Output:  

```
{
    "Patches": [
        {
            "Title": "2023-03 Cumulative Update for Windows Server 2019 (1809) for x64-based Systems (KB5023702)",
            "KBId": "KB5023702",
            "Classification": "SecurityUpdates",
            "Severity": "Critical",
            "State": "Installed",
            "InstalledTime": "2023-03-16T11:00:00+00:00"
        },
        ...
    ],
    "NextToken": "--token string truncated--"
}
```
+  Untuk detail API, lihat [DescribeInstancePatches](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-instance-patches.html)di *Referensi AWS CLI Perintah*. 

### `describe-inventory-deletions`
<a name="ssm_DescribeInventoryDeletions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-inventory-deletions`.

**AWS CLI**  
**Untuk mendapatkan penghapusan inventaris**  
Contoh ini mengambil rincian untuk operasi penghapusan inventaris.  
Perintah:  

```
aws ssm describe-inventory-deletions
```
Output:  

```
{
  "InventoryDeletions": [
      {
          "DeletionId": "6961492a-8163-44ec-aa1e-01234567850",
          "TypeName": "Custom:RackInformation",
          "DeletionStartTime": 1550254911.0,
          "LastStatus": "InProgress",
          "LastStatusMessage": "The Delete is in progress",
          "DeletionSummary": {
              "TotalCount": 0,
              "RemainingCount": 0,
              "SummaryItems": []
          },
          "LastStatusUpdateTime": 1550254911.0
      },
      {
          "DeletionId": "d72ac9e8-1f60-4d40-b1c6-987654321c4d",
          "TypeName": "Custom:RackInfo",
          "DeletionStartTime": 1550254859.0,
          "LastStatus": "InProgress",
          "LastStatusMessage": "The Delete is in progress",
          "DeletionSummary": {
              "TotalCount": 1,
              "RemainingCount": 1,
              "SummaryItems": [
                  {
                      "Version": "1.0",
                      "Count": 1,
                      "RemainingCount": 1
                  }
              ]
          },
          "LastStatusUpdateTime": 1550254859.0
      }
  ]
}
```
**Untuk mendapatkan detail penghapusan inventaris tertentu**  
Contoh ini mengambil rincian untuk operasi penghapusan inventaris tertentu.  
Perintah:  

```
aws ssm describe-inventory-deletions --deletion-id "d72ac9e8-1f60-4d40-b1c6-987654321c4d"
```
Output:  

```
{
  "InventoryDeletions": [
      {
          "DeletionId": "d72ac9e8-1f60-4d40-b1c6-987654321c4d",
          "TypeName": "Custom:RackInfo",
          "DeletionStartTime": 1550254859.0,
          "LastStatus": "InProgress",
          "LastStatusMessage": "The Delete is in progress",
          "DeletionSummary": {
              "TotalCount": 1,
              "RemainingCount": 1,
              "SummaryItems": [
                  {
                      "Version": "1.0",
                      "Count": 1,
                      "RemainingCount": 1
                  }
              ]
          },
          "LastStatusUpdateTime": 1550254859.0
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeInventoryDeletions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-inventory-deletions.html)di *Referensi AWS CLI Perintah*. 

### `describe-maintenance-window-execution-task-invocations`
<a name="ssm_DescribeMaintenanceWindowExecutionTaskInvocations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-maintenance-window-execution-task-invocations`.

**AWS CLI**  
**Untuk mendapatkan pemanggilan tugas tertentu dilakukan untuk eksekusi tugas jendela pemeliharaan**  
`describe-maintenance-window-execution-task-invocations`Contoh berikut mencantumkan pemanggilan untuk tugas tertentu yang dijalankan sebagai bagian dari eksekusi jendela pemeliharaan yang ditentukan.  

```
aws ssm describe-maintenance-window-execution-task-invocations \
    --window-execution-id "518d5565-5969-4cca-8f0e-da3b2a638355" \
    --task-id "ac0c6ae1-daa3-4a89-832e-d384503b6586"
```
Output:  

```
{
    "WindowExecutionTaskInvocationIdentities": [
        {
            "Status": "SUCCESS",
            "Parameters": "{\"documentName\":\"AWS-RunShellScript\",\"instanceIds\":[\"i-0000293ffd8c57862\"],\"parameters\":{\"commands\":[\"df\"]},\"maxConcurrency\":\"1\",\"maxErrors\":\"1\"}",
            "InvocationId": "e274b6e1-fe56-4e32-bd2a-8073c6381d8b",
            "StartTime": 1487692834.723,
            "EndTime": 1487692834.871,
            "WindowExecutionId": "518d5565-5969-4cca-8f0e-da3b2a638355",
            "TaskExecutionId": "ac0c6ae1-daa3-4a89-832e-d384503b6586"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Tugas dan Eksekusi Tugas (AWS CLI](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-task-info.html)) di Panduan Pengguna *Systems AWS Manager*.  
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutionTaskInvocations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-maintenance-window-execution-task-invocations.html)di *Referensi AWS CLI Perintah*. 

### `describe-maintenance-window-execution-tasks`
<a name="ssm_DescribeMaintenanceWindowExecutionTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-maintenance-window-execution-tasks`.

**AWS CLI**  
**Untuk membuat daftar semua tugas yang terkait dengan eksekusi jendela pemeliharaan**  
`ssm describe-maintenance-window-execution-tasks`Contoh berikut mencantumkan tugas-tugas yang terkait dengan eksekusi jendela pemeliharaan yang ditentukan.  

```
aws ssm describe-maintenance-window-execution-tasks \
    --window-execution-id "518d5565-5969-4cca-8f0e-da3b2EXAMPLE"
```
Output:  

```
{
    "WindowExecutionTaskIdentities": [
        {
            "Status": "SUCCESS",
            "TaskArn": "AWS-RunShellScript",
            "StartTime": 1487692834.684,
            "TaskType": "RUN_COMMAND",
            "EndTime": 1487692835.005,
            "WindowExecutionId": "518d5565-5969-4cca-8f0e-da3b2EXAMPLE",
            "TaskExecutionId": "ac0c6ae1-daa3-4a89-832e-d3845EXAMPLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Tugas dan Eksekusi Tugas (AWS CLI](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-task-info.html)) di Panduan Pengguna *Systems AWS Manager*.  
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutionTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-maintenance-window-execution-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-maintenance-window-executions`
<a name="ssm_DescribeMaintenanceWindowExecutions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-maintenance-window-executions`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua eksekusi untuk jendela pemeliharaan**  
`describe-maintenance-window-executions`Contoh berikut mencantumkan semua eksekusi untuk jendela pemeliharaan yang ditentukan.  

```
aws ssm describe-maintenance-window-executions \
    --window-id "mw-ab12cd34eEXAMPLE"
```
Output:  

```
{
    "WindowExecutions": [
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "WindowExecutionId": "6027b513-64fe-4cf0-be7d-1191aEXAMPLE",
            "Status": "IN_PROGRESS",
            "StartTime": "2021-08-04T11:00:00.000000-07:00"

        },
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "WindowExecutionId": "ff75b750-4834-4377-8f61-b3cadEXAMPLE",
            "Status": "SUCCESS",
            "StartTime": "2021-08-03T11:00:00.000000-07:00",
            "EndTime": "2021-08-03T11:37:21.450000-07:00"
        },
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "WindowExecutionId": "9fac7dd9-ff21-42a5-96ad-bbc4bEXAMPLE",
            "Status": "FAILED",
            "StatusDetails": "One or more tasks in the orchestration failed.",
            "StartTime": "2021-08-02T11:00:00.000000-07:00",
            "EndTime": "2021-08-02T11:22:36.190000-07:00"
        }
    ]
}
```
**Contoh 2: Untuk mencantumkan semua eksekusi untuk jendela pemeliharaan sebelum tanggal yang ditentukan**  
`describe-maintenance-window-executions`Contoh berikut mencantumkan semua eksekusi untuk jendela pemeliharaan yang ditentukan sebelum tanggal yang ditentukan.  

```
aws ssm describe-maintenance-window-executions \
    --window-id "mw-ab12cd34eEXAMPLE" \
    --filters "Key=ExecutedBefore,Values=2021-08-03T00:00:00Z"
```
Output:  

```
{
    "WindowExecutions": [
        {
        "WindowId": "mw-ab12cd34eEXAMPLE",
        "WindowExecutionId": "9fac7dd9-ff21-42a5-96ad-bbc4bEXAMPLE",
        "Status": "FAILED",
        "StatusDetails": "One or more tasks in the orchestration failed.",
        "StartTime": "2021-08-02T11:00:00.000000-07:00",
        "EndTime": "2021-08-02T11:22:36.190000-07:00"
    }
    ]
}
```
**Contoh 3: Untuk mencantumkan semua eksekusi untuk jendela pemeliharaan setelah tanggal yang ditentukan**  
`describe-maintenance-window-executions`Contoh berikut mencantumkan semua eksekusi untuk jendela pemeliharaan yang ditentukan setelah tanggal yang ditentukan.  

```
aws ssm describe-maintenance-window-executions \
    --window-id "mw-ab12cd34eEXAMPLE" \
    --filters "Key=ExecutedAfter,Values=2021-08-04T00:00:00Z"
```
Output:  

```
{
    "WindowExecutions": [
        {
        "WindowId": "mw-ab12cd34eEXAMPLE",
        "WindowExecutionId": "6027b513-64fe-4cf0-be7d-1191aEXAMPLE",
        "Status": "IN_PROGRESS",
        "StartTime": "2021-08-04T11:00:00.000000-07:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat informasi tentang tugas dan eksekusi tugas (AWS CLI](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-task-info.html)) di Panduan Pengguna *Systems AWS Manager*.  
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-maintenance-window-executions.html)di *Referensi AWS CLI Perintah*. 

### `describe-maintenance-window-schedule`
<a name="ssm_DescribeMaintenanceWindowSchedule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-maintenance-window-schedule`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan eksekusi yang akan datang untuk jendela pemeliharaan**  
`describe-maintenance-window-schedule`Contoh berikut mencantumkan semua eksekusi yang akan datang untuk jendela pemeliharaan yang ditentukan.  

```
aws ssm describe-maintenance-window-schedule \
    --window-id mw-ab12cd34eEXAMPLE
```
Output:  

```
{
    "ScheduledWindowExecutions": [
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "Name": "My-First-Maintenance-Window",
            "ExecutionTime": "2020-02-19T16:00Z"
        },
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "Name": "My-First-Maintenance-Window",
            "ExecutionTime": "2020-02-26T16:00Z"
        },
        ...
    ]
}
```
**Contoh 2: Untuk mencantumkan semua eksekusi yang akan datang untuk jendela pemeliharaan sebelum tanggal yang ditentukan**  
`describe-maintenance-window-schedule`Contoh berikut mencantumkan semua eksekusi yang akan datang untuk jendela pemeliharaan tertentu yang terjadi sebelum tanggal yang ditentukan.  

```
aws ssm describe-maintenance-window-schedule \
    --window-id mw-0ecb1226dd7b2e9a6 \
    --filters "Key=ScheduledBefore,Values=2020-02-15T06:00:00Z"
```
**Contoh 3: Untuk mencantumkan semua eksekusi yang akan datang untuk jendela pemeliharaan setelah tanggal yang ditentukan**  
`describe-maintenance-window-schedule`Contoh berikut mencantumkan semua eksekusi yang akan datang untuk jendela pemeliharaan tertentu yang terjadi setelah tanggal yang ditentukan.  

```
aws ssm describe-maintenance-window-schedule \
    --window-id mw-0ecb1226dd7b2e9a6 \
    --filters "Key=ScheduledAfter,Values=2020-02-15T06:00:00Z"
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Pemeliharaan Windows (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-describe.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeMaintenanceWindowSchedule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-maintenance-window-schedule.html)di *Referensi AWS CLI Perintah*. 

### `describe-maintenance-window-targets`
<a name="ssm_DescribeMaintenanceWindowTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-maintenance-window-targets`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua target untuk Jendela Pemeliharaan**  
`describe-maintenance-window-targets`Contoh berikut mencantumkan semua target untuk jendela pemeliharaan.  

```
aws ssm describe-maintenance-window-targets \
    --window-id "mw-06cf17cbefEXAMPLE"
```
Output:  

```
{
    "Targets": [
        {
            "ResourceType": "INSTANCE",
            "OwnerInformation": "Single instance",
            "WindowId": "mw-06cf17cbefEXAMPLE",
            "Targets": [
                {
                    "Values": [
                        "i-0000293ffdEXAMPLE"
                    ],
                    "Key": "InstanceIds"
                }
            ],
            "WindowTargetId": "350d44e6-28cc-44e2-951f-4b2c9EXAMPLE"
        },
        {
            "ResourceType": "INSTANCE",
            "OwnerInformation": "Two instances in a list",
            "WindowId": "mw-06cf17cbefEXAMPLE",
            "Targets": [
                {
                    "Values": [
                        "i-0000293ffdEXAMPLE",
                        "i-0cb2b964d3EXAMPLE"
                    ],
                    "Key": "InstanceIds"
                }
            ],
            "WindowTargetId": "e078a987-2866-47be-bedd-d9cf4EXAMPLE"
        }
    ]
}
```
**Contoh 2: Untuk mencantumkan semua target untuk jendela pemeliharaan yang cocok dengan nilai informasi pemilik tertentu**  
`describe-maintenance-window-targets`Contoh ini mencantumkan semua target untuk jendela pemeliharaan dengan nilai tertentu.  

```
aws ssm describe-maintenance-window-targets \
    --window-id "mw-0ecb1226ddEXAMPLE" \
    --filters "Key=OwnerInformation,Values=CostCenter1"
```
Output:  

```
{
    "Targets": [
        {
            "WindowId": "mw-0ecb1226ddEXAMPLE",
            "WindowTargetId": "da89dcc3-7f9c-481d-ba2b-edcb7d0057f9",
            "ResourceType": "INSTANCE",
            "Targets": [
                {
                    "Key": "tag:Environment",
                    "Values": [
                        "Prod"
                    ]
                }
            ],
            "OwnerInformation": "CostCenter1",
            "Name": "ProdTarget1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Pemeliharaan Windows (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-describe.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeMaintenanceWindowTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-maintenance-window-targets.html)di *Referensi AWS CLI Perintah*. 

### `describe-maintenance-window-tasks`
<a name="ssm_DescribeMaintenanceWindowTasks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-maintenance-window-tasks`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar semua tugas untuk jendela pemeliharaan**  
`describe-maintenance-window-tasks`Contoh berikut mencantumkan semua tugas untuk jendela pemeliharaan yang ditentukan.  

```
aws ssm describe-maintenance-window-tasks \
    --window-id "mw-06cf17cbefEXAMPLE"
```
Output:  

```
{
    "Tasks": [
        {
            "WindowId": "mw-06cf17cbefEXAMPLE",
            "WindowTaskId": "018b31c3-2d77-4b9e-bd48-c91edEXAMPLE",
            "TaskArn": "AWS-RestartEC2Instance",
            "TaskParameters": {},
            "Type": "AUTOMATION",
            "Description": "Restarting EC2 Instance for maintenance",
            "MaxConcurrency": "1",
            "MaxErrors": "1",
            "Name": "My-Automation-Example-Task",
            "Priority": 0,
            "ServiceRoleArn": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
            "Targets": [
                {
                    "Key": "WindowTargetIds",
                    "Values": [
                        "da89dcc3-7f9c-481d-ba2b-edcb7EXAMPLE"
                    ]
                }
            ]
        },
        {
            "WindowId": "mw-06cf17cbefEXAMPLE",
            "WindowTaskId": "1943dee0-0a17-4978-9bf4-3cc2fEXAMPLE",
            "TaskArn": "AWS-DisableS3BucketPublicReadWrite",
            "TaskParameters": {},
            "Type": "AUTOMATION",
            "Description": "Automation task to disable read/write access on public S3 buckets",
            "MaxConcurrency": "10",
            "MaxErrors": "5",
            "Name": "My-Disable-S3-Public-Read-Write-Access-Automation-Task",
            "Priority": 0,
            "ServiceRoleArn": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
            "Targets": [
                {
                    "Key": "WindowTargetIds",
                    "Values": [
                        "da89dcc3-7f9c-481d-ba2b-edcb7EXAMPLE"
                    ]
                }
            ]
        }
    ]
}
```
**Contoh 2: Untuk membuat daftar semua tugas untuk jendela pemeliharaan yang memanggil dokumen RunPowerShellScript perintah AWS-**  
`describe-maintenance-window-tasks`Contoh berikut mencantumkan semua tugas untuk jendela pemeliharaan tertentu yang memanggil dokumen `AWS-RunPowerShellScript` perintah.  

```
aws ssm describe-maintenance-window-tasks \
    --window-id "mw-ab12cd34eEXAMPLE" \
    --filters "Key=TaskArn,Values=AWS-RunPowerShellScript"
```
Output:  

```
{
    "Tasks": [
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "WindowTaskId": "0d36e6b4-3a4f-411e-adcb-3558eEXAMPLE",
            "TaskArn": "AWS-RunPowerShellScript",
            "Type": "RUN_COMMAND",
            "Targets": [
                {
                    "Key": "WindowTargetIds",
                    "Values": [
                        "da89dcc3-7f9c-481d-ba2b-edcb7EXAMPLE"
                    ]
                }
            ],
            "TaskParameters": {},
            "Priority": 1,
            "ServiceRoleArn": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
            "MaxConcurrency": "1",
            "MaxErrors": "1",
            "Name": "MyTask"
        }
    ]
}
```
**Contoh 3: Untuk membuat daftar semua tugas untuk jendela pemeliharaan yang memiliki Prioritas 3**  
`describe-maintenance-window-tasks`Contoh berikut mencantumkan semua tugas untuk jendela pemeliharaan tertentu yang memiliki a `Priority` of`3`.  

```
aws ssm describe-maintenance-window-tasks \
    --window-id "mw-ab12cd34eEXAMPLE" \
    --filters "Key=Priority,Values=3"
```
Output:  

```
{
    "Tasks": [
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "WindowTaskId": "0d36e6b4-3a4f-411e-adcb-3558eEXAMPLE",
            "TaskArn": "AWS-RunPowerShellScript",
            "Type": "RUN_COMMAND",
            "Targets": [
                {
                    "Key": "WindowTargetIds",
                    "Values": [
                        "da89dcc3-7f9c-481d-ba2b-edcb7EXAMPLE"
                    ]
                }
            ],
            "TaskParameters": {},
            "Priority": 3,
            "ServiceRoleArn": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
            "MaxConcurrency": "1",
            "MaxErrors": "1",
            "Name": "MyRunCommandTask"
        },
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "WindowTaskId": "ee45feff-ad65-4a6c-b478-5cab8EXAMPLE",
            "TaskArn": "AWS-RestartEC2Instance",
            "Type": "AUTOMATION",
            "Targets": [
                {
                    "Key": "WindowTargetIds",
                    "Values": [
                        "da89dcc3-7f9c-481d-ba2b-edcb7EXAMPLE"
                    ]
                }
            ],
            "TaskParameters": {},
            "Priority": 3,
            "ServiceRoleArn": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
            "MaxConcurrency": "10",
            "MaxErrors": "5",
            "Name": "My-Automation-Task",
            "Description": "A description for my Automation task"
        }
    ]
}
```
**Contoh 4: Untuk membuat daftar semua tugas untuk jendela pemeliharaan yang memiliki Prioritas 1 dan menggunakan Run Command**  
`describe-maintenance-window-tasks`Contoh ini mencantumkan semua tugas untuk jendela pemeliharaan tertentu yang memiliki `Priority` of `1` dan penggunaan`Run Command`.  

```
aws ssm describe-maintenance-window-tasks \
    --window-id "mw-ab12cd34eEXAMPLE" \
    --filters "Key=Priority,Values=1" "Key=TaskType,Values=RUN_COMMAND"
```
Output:  

```
{
    "Tasks": [
        {
            "WindowId": "mw-ab12cd34eEXAMPLE",
            "WindowTaskId": "0d36e6b4-3a4f-411e-adcb-3558eEXAMPLE",
            "TaskArn": "AWS-RunPowerShellScript",
            "Type": "RUN_COMMAND",
            "Targets": [
                {
                    "Key": "WindowTargetIds",
                    "Values": [
                        "da89dcc3-7f9c-481d-ba2b-edcb7EXAMPLE"
                    ]
                }
            ],
            "TaskParameters": {},
            "Priority": 1,
            "ServiceRoleArn": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
            "MaxConcurrency": "1",
            "MaxErrors": "1",
            "Name": "MyRunCommandTask"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat informasi tentang jendela pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-describe.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeMaintenanceWindowTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-maintenance-window-tasks.html)di *Referensi AWS CLI Perintah*. 

### `describe-maintenance-windows-for-target`
<a name="ssm_DescribeMaintenanceWindowsForTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-maintenance-windows-for-target`.

**AWS CLI**  
**Untuk mencantumkan semua jendela pemeliharaan yang terkait dengan instance tertentu**  
`describe-maintenance-windows-for-target`Contoh berikut mencantumkan jendela pemeliharaan yang memiliki target atau tugas yang terkait dengan instance yang ditentukan.  

```
aws ssm describe-maintenance-windows-for-target \
    --targets Key=InstanceIds,Values=i-1234567890EXAMPLE \
    --resource-type INSTANCE
```
Output:  

```
{
    "WindowIdentities": [
        {
            "WindowId": "mw-0c5ed765acEXAMPLE",
            "Name": "My-First-Maintenance-Window"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Pemeliharaan Windows (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-describe.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeMaintenanceWindowsForTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-maintenance-windows-for-target.html)di *Referensi AWS CLI Perintah*. 

### `describe-maintenance-windows`
<a name="ssm_DescribeMaintenanceWindows_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-maintenance-windows`.

**AWS CLI**  
**Contoh 1: Untuk daftar semua jendela pemeliharaan**  
`describe-maintenance-windows`Contoh berikut mencantumkan semua jendela pemeliharaan di AWS akun Anda di Wilayah saat ini.  

```
aws ssm describe-maintenance-windows
```
Output:  

```
{
    "WindowIdentities": [
        {
            "WindowId": "mw-0ecb1226ddEXAMPLE",
            "Name": "MyMaintenanceWindow-1",
            "Enabled": true,
            "Duration": 2,
            "Cutoff": 1,
            "Schedule": "rate(180 minutes)",
            "NextExecutionTime": "2020-02-12T23:19:20.596Z"
        },
        {
            "WindowId": "mw-03eb9db428EXAMPLE",
            "Name": "MyMaintenanceWindow-2",
            "Enabled": true,
            "Duration": 3,
            "Cutoff": 1,
            "Schedule": "rate(7 days)",
            "NextExecutionTime": "2020-02-17T23:22:00.956Z"
        },
    ]
}
```
**Contoh 2: Untuk mencantumkan semua jendela pemeliharaan yang diaktifkan**  
`describe-maintenance-windows`Contoh berikut mencantumkan semua jendela pemeliharaan yang diaktifkan.  

```
aws ssm describe-maintenance-windows \
    --filters "Key=Enabled,Values=true"
```
**Contoh 3: Untuk mencantumkan jendela pemeliharaan yang cocok dengan nama tertentu**  
`describe-maintenance-windows`Contoh ini mencantumkan semua jendela pemeliharaan dengan nama yang ditentukan.  

```
aws ssm describe-maintenance-windows \
    --filters "Key=Name,Values=MyMaintenanceWindow"
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Pemeliharaan Windows (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-describe.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeMaintenanceWindows](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-maintenance-windows.html)di *Referensi AWS CLI Perintah*. 

### `describe-ops-items`
<a name="ssm_DescribeOpsItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-ops-items`.

**AWS CLI**  
**Untuk membuat daftar satu set OpsItems**  
`describe-ops-items`Contoh berikut menampilkan daftar semua yang terbuka OpsItems di AWS akun Anda.  

```
aws ssm describe-ops-items \
    --ops-item-filters "Key=Status,Values=Open,Operator=Equal"
```
Output:  

```
{
    "OpsItemSummaries": [
        {
            "CreatedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
            "CreatedTime": "2020-03-14T17:02:46.375000-07:00",
            "LastModifiedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
            "LastModifiedTime": "2020-03-14T17:02:46.375000-07:00",
            "Source": "SSM",
            "Status": "Open",
            "OpsItemId": "oi-7cfc5EXAMPLE",
            "Title": "SSM Maintenance Window execution failed",
            "OperationalData": {
                "/aws/dedup": {
                    "Value": "{\"dedupString\":\"SSMOpsItems-SSM-maintenance-window-execution-failed\"}",
                    "Type": "SearchableString"
                },
                "/aws/resources": {
                    "Value": "[{\"arn\":\"arn:aws:ssm:us-east-2:111222333444:maintenancewindow/mw-034093d322EXAMPLE\"}]",
                    "Type": "SearchableString"
                }
            },
            "Category": "Availability",
            "Severity": "3"
        },
        {
            "CreatedBy": "arn:aws:sts::1112223233444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
            "CreatedTime": "2020-02-26T11:43:15.426000-08:00",
            "LastModifiedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
            "LastModifiedTime": "2020-02-26T11:43:15.426000-08:00",
            "Source": "EC2",
            "Status": "Open",
            "OpsItemId": "oi-6f966EXAMPLE",
            "Title": "EC2 instance stopped",
            "OperationalData": {
                "/aws/automations": {
                    "Value": "[ { \"automationType\": \"AWS:SSM:Automation\", \"automationId\": \"AWS-RestartEC2Instance\" } ]",
                    "Type": "SearchableString"
                },
                "/aws/dedup": {
                    "Value": "{\"dedupString\":\"SSMOpsItems-EC2-instance-stopped\"}",
                    "Type": "SearchableString"
                },
                "/aws/resources": {
                    "Value": "[{\"arn\":\"arn:aws:ec2:us-east-2:111222333444:instance/i-0beccfbc02EXAMPLE\"}]",
                    "Type": "SearchableString"
                }
            },
            "Category": "Availability",
            "Severity": "3"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan OpsItems](https://docs.aws.amazon.com/systems-manager/latest/userguide/OpsCenter-working-with-OpsItems.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeOpsItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-ops-items.html)di *Referensi AWS CLI Perintah*. 

### `describe-parameters`
<a name="ssm_DescribeParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-parameters`.

**AWS CLI**  
**Contoh 1: Untuk daftar semua parameter**  
`describe-parameters`Contoh berikut mencantumkan semua parameter di AWS akun saat ini dan Wilayah.  

```
aws ssm describe-parameters
```
Output:  

```
{
    "Parameters": [
        {
            "Name": "MySecureStringParameter",
            "Type": "SecureString",
            "KeyId": "alias/aws/ssm",
            "LastModifiedDate": 1582155479.205,
            "LastModifiedUser": "arn:aws:sts::111222333444:assumed-role/Admin/Richard-Roe-Managed",
            "Description": "This is a SecureString parameter",
            "Version": 2,
            "Tier": "Advanced",
            "Policies": [
                {
                    "PolicyText": "{\"Type\":\"Expiration\",\"Version\":\"1.0\",\"Attributes\":{\"Timestamp\":\"2020-07-07T22:30:00Z\"}}",
                    "PolicyType": "Expiration",
                    "PolicyStatus": "Pending"
                },
                {
                    "PolicyText": "{\"Type\":\"ExpirationNotification\",\"Version\":\"1.0\",\"Attributes\":{\"Before\":\"12\",\"Unit\":\"Hours\"}}",
                    "PolicyType": "ExpirationNotification",
                    "PolicyStatus": "Pending"
                }
            ]
        },
        {
            "Name": "MyStringListParameter",
            "Type": "StringList",
            "LastModifiedDate": 1582154764.222,
            "LastModifiedUser": "arn:aws:iam::111222333444:user/Mary-Major",
            "Description": "This is a StringList parameter",
            "Version": 1,
            "Tier": "Standard",
            "Policies": []
        },
        {
            "Name": "MyStringParameter",
            "Type": "String",
            "LastModifiedDate": 1582154711.976,
            "LastModifiedUser": "arn:aws:iam::111222333444:user/Alejandro-Rosalez",
            "Description": "This is a String parameter",
            "Version": 1,
            "Tier": "Standard",
            "Policies": []
        },
        {
            "Name": "latestAmi",
            "Type": "String",
            "LastModifiedDate": 1580862415.521,
            "LastModifiedUser": "arn:aws:sts::111222333444:assumed-role/lambda-ssm-role/Automation-UpdateSSM-Param",
            "Version": 3,
            "Tier": "Standard",
            "Policies": []
        }
    ]
}
```
**Contoh 2: Untuk mencantumkan semua parameter yang cocok dengan metadata tertentu**  
`describe-parameters`Contoh ini mencantumkan semua parameter yang cocok dengan filter.  
aws ssm mendeskripsikan parameter --filter “Kunci = Jenis, Nilai =” StringList  
Output:  

```
{
    "Parameters": [
        {
            "Name": "MyStringListParameter",
            "Type": "StringList",
            "LastModifiedDate": 1582154764.222,
            "LastModifiedUser": "arn:aws:iam::111222333444:user/Mary-Major",
            "Description": "This is a StringList parameter",
            "Version": 1,
            "Tier": "Standard",
            "Policies": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencari Parameter Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-search.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-parameters.html)di *Referensi AWS CLI Perintah*. 

### `describe-patch-baselines`
<a name="ssm_DescribePatchBaselines_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-patch-baselines`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar semua baseline patch**  
`describe-patch-baselines`Contoh berikut mengambil detail untuk semua baseline patch di akun Anda di Wilayah saat ini.  

```
aws ssm describe-patch-baselines
```
Output:  

```
{
    "BaselineIdentities": [
        {
            "BaselineName": "AWS-SuseDefaultPatchBaseline",
            "DefaultBaseline": true,
            "BaselineDescription": "Default Patch Baseline for Suse Provided by AWS.",
            "BaselineId": "arn:aws:ssm:us-east-2:733109147000:patchbaseline/pb-0123fdb36e334a3b2",
            "OperatingSystem": "SUSE"
        },
        {
            "BaselineName": "AWS-DefaultPatchBaseline",
            "DefaultBaseline": false,
            "BaselineDescription": "Default Patch Baseline Provided by AWS.",
            "BaselineId": "arn:aws:ssm:us-east-2:733109147000:patchbaseline/pb-020d361a05defe4ed",
            "OperatingSystem": "WINDOWS"
        },
        ...
        {
            "BaselineName": "MyWindowsPatchBaseline",
            "DefaultBaseline": true,
            "BaselineDescription": "My patch baseline for EC2 instances for Windows Server",
            "BaselineId": "pb-0ad00e0dd7EXAMPLE",
            "OperatingSystem": "WINDOWS"
        }
    ]
}
```
**Contoh 2: Untuk membuat daftar semua baseline patch yang disediakan oleh AWS**  
`describe-patch-baselines`Contoh berikut mencantumkan semua baseline patch yang disediakan oleh. AWS  

```
aws ssm describe-patch-baselines \
    --filters "Key=OWNER,Values=[AWS]"
```
**Contoh 3: Untuk membuat daftar semua baseline patch yang Anda miliki**  
`describe-patch-baselines`Contoh berikut mencantumkan semua baseline patch kustom yang dibuat di akun Anda di Wilayah saat ini.  

```
aws ssm describe-patch-baselines \
    --filters "Key=OWNER,Values=[Self]"
```
Untuk informasi [selengkapnya, lihat Tentang Garis Dasar Patch Standar dan Kustom di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-patch-baselines.html) Pengguna *AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribePatchBaselines](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-patch-baselines.html)di *Referensi AWS CLI Perintah*. 

### `describe-patch-group-state`
<a name="ssm_DescribePatchGroupState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-patch-group-state`.

**AWS CLI**  
**Untuk mendapatkan status grup patch**  
`describe-patch-group-state`Contoh berikut mengambil ringkasan kepatuhan patch tingkat tinggi untuk grup patch.  

```
aws ssm describe-patch-group-state \
    --patch-group "Production"
```
Output:  

```
{
    "Instances": 21,
    "InstancesWithCriticalNonCompliantPatches": 1,
    "InstancesWithFailedPatches": 2,
    "InstancesWithInstalledOtherPatches": 3,
    "InstancesWithInstalledPatches": 21,
    "InstancesWithInstalledPendingRebootPatches": 2,
    "InstancesWithInstalledRejectedPatches": 1,
    "InstancesWithMissingPatches": 3,
    "InstancesWithNotApplicablePatches": 4,
    "InstancesWithOtherNonCompliantPatches": 1,
    "InstancesWithSecurityNonCompliantPatches": 1,
    "InstancesWithUnreportedNotApplicablePatches": 2
}
```
*Untuk informasi selengkapnya, lihat Tentang grup tambalan < https://docs.aws.amazon.com/systems-manager/ latest/userguide/sysman -patch-patchgroups.html>\$1\$1 dan [Memahami nilai status kepatuhan](https://docs.aws.amazon.com/systems-manager/latest/userguide/about-patch-compliance-states.html) patch di Panduan Pengguna Systems Manager.AWS *  
+  Untuk detail API, lihat [DescribePatchGroupState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-patch-group-state.html)di *Referensi AWS CLI Perintah*. 

### `describe-patch-groups`
<a name="ssm_DescribePatchGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-patch-groups`.

**AWS CLI**  
**Untuk menampilkan pendaftaran grup tambalan**  
`describe-patch-groups`Contoh berikut mencantumkan pendaftaran grup patch.  

```
aws ssm describe-patch-groups
```
Output:  

```
{
    "Mappings": [
        {
            "PatchGroup": "Production",
            "BaselineIdentity": {
                "BaselineId": "pb-0123456789abcdef0",
                "BaselineName": "ProdPatching",
                "OperatingSystem": "WINDOWS",
                "BaselineDescription": "Patches for Production",
                "DefaultBaseline": false
            }
        },
        {
            "PatchGroup": "Development",
            "BaselineIdentity": {
                "BaselineId": "pb-0713accee01234567",
                "BaselineName": "DevPatching",
                "OperatingSystem": "WINDOWS",
                "BaselineDescription": "Patches for Development",
                "DefaultBaseline": true
            }
        },
        ...
    ]
}
```
*Untuk informasi selengkapnya, lihat Membuat Grup Patch < https://docs.aws.amazon.com/systems-manager/ latest/userguide/sysman - patch-group-tagging .html>\$1\$1 dan [Menambahkan Grup Patch ke Garis Dasar Patch di](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-patch-group-patchbaseline.html) Panduan Pengguna Systems Manager AWS .*  
+  Untuk detail API, lihat [DescribePatchGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-patch-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-patch-properties`
<a name="ssm_DescribePatchProperties_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-patch-properties`.

**AWS CLI**  
**Untuk membuat daftar ketersediaan patch Amazon Linux**  
`describe-patch-properties`Contoh berikut menampilkan daftar produk Amazon Linux yang tambalannya tersedia di AWS akun Anda.  

```
aws ssm describe-patch-properties \
    --operating-system AMAZON_LINUX \
    --property PRODUCT
```
Output:  

```
{
    "Properties": [
        {
            "Name": "AmazonLinux2012.03"
        },
        {
            "Name": "AmazonLinux2012.09"
        },
        {
            "Name": "AmazonLinux2013.03"
        },
        {
            "Name": "AmazonLinux2013.09"
        },
        {
            "Name": "AmazonLinux2014.03"
        },
        {
            "Name": "AmazonLinux2014.09"
        },
        {
            "Name": "AmazonLinux2015.03"
        },
        {
            "Name": "AmazonLinux2015.09"
        },
        {
            "Name": "AmazonLinux2016.03"
        },
        {
            "Name": "AmazonLinux2016.09"
        },
        {
            "Name": "AmazonLinux2017.03"
        },
        {
            "Name": "AmazonLinux2017.09"
        },
        {
            "Name": "AmazonLinux2018.03"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Tentang Patch Baseline](https://docs.aws.amazon.com/systems-manager/latest/userguide/about-patch-baselines.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribePatchProperties](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-patch-properties.html)di *Referensi AWS CLI Perintah*. 

### `describe-sessions`
<a name="ssm_DescribeSessions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-sessions`.

**AWS CLI**  
**Contoh 1: Untuk mencantumkan semua sesi Manajer Sesi yang aktif**  
`describe-sessions`Contoh ini mengambil daftar sesi aktif yang dibuat terbaru (baik sesi terhubung maupun terputus) selama 30 hari terakhir yang dimulai oleh pengguna yang ditentukan. Perintah ini hanya mengembalikan hasil untuk koneksi ke target yang dimulai menggunakan Session Manager. Itu tidak mencantumkan koneksi yang dibuat melalui cara lain, seperti Remote Desktop Connections atau SSH.  

```
aws ssm describe-sessions \
    --state "Active" \
    --filters "key=Owner,value=arn:aws:sts::123456789012:assumed-role/Administrator/Shirley-Rodriguez"
```
Output:  

```
{
    "Sessions": [
        {
            "SessionId": "John-07a16060613c408b5",
            "Target": "i-1234567890abcdef0",
            "Status": "Connected",
            "StartDate": 1550676938.352,
            "Owner": "arn:aws:sts::123456789012:assumed-role/Administrator/Shirley-Rodriguez",
            "OutputUrl": {}
        },
        {
            "SessionId": "John-01edf534b8b56e8eb",
            "Target": "i-9876543210abcdef0",
            "Status": "Connected",
            "StartDate": 1550676842.194,
            "Owner": "arn:aws:sts::123456789012:assumed-role/Administrator/Shirley-Rodriguez",
            "OutputUrl": {}
        }
    ]
}
```
**Contoh 2: Untuk mencantumkan semua sesi Manajer Sesi yang dihentikan**  
`describe-sessions`Contoh ini mengambil daftar sesi yang terakhir dihentikan dari 30 hari terakhir untuk semua pengguna.  

```
aws ssm describe-sessions \
    --state "History"
```
Output:  

```
{
    "Sessions": [
        {
            "SessionId": "Mary-Major-0022b1eb2b0d9e3bd",
            "Target": "i-1234567890abcdef0",
            "Status": "Terminated",
            "StartDate": 1550520701.256,
            "EndDate": 1550521931.563,
            "Owner": "arn:aws:sts::123456789012:assumed-role/Administrator/Mary-Major"
        },
        {
            "SessionId": "Jane-Roe-0db53f487931ed9d4",
            "Target": "i-9876543210abcdef0",
            "Status": "Terminated",
            "StartDate": 1550161369.149,
            "EndDate": 1550162580.329,
            "Owner": "arn:aws:sts::123456789012:assumed-role/Administrator/Jane-Roe"
        },
        ...
    ],
    "NextToken": "--token string truncated--"
}
```
Untuk informasi selengkapnya, lihat [Melihat Riwayat Sesi](https://docs.aws.amazon.com/systems-manager/latest/userguide/session-manager-working-with-view-history.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DescribeSessions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/describe-sessions.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-ops-item-related-item`
<a name="ssm_DisassociateOpsItemRelatedItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-ops-item-related-item`.

**AWS CLI**  
**Untuk menghapus asosiasi item terkait**  
`disassociate-ops-item-related-item`Contoh berikut menghapus hubungan antara OpsItem dan item terkait.  

```
aws ssm disassociate-ops-item-related-item \
    --ops-item-id "oi-f99f2EXAMPLE" \
    --association-id "e2036148-cccb-490e-ac2a-390e5EXAMPLE"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan insiden Manajer Insiden OpsCenter di](https://docs.aws.amazon.com/systems-manager/latest/userguide/OpsCenter-create-OpsItems-for-Incident-Manager.html) *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [DisassociateOpsItemRelatedItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/disassociate-ops-item-related-item.html)di *Referensi AWS CLI Perintah*. 

### `get-automation-execution`
<a name="ssm_GetAutomationExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-automation-execution`.

**AWS CLI**  
**Untuk menampilkan detail tentang eksekusi otomatisasi**  
`get-automation-execution`Contoh berikut menampilkan informasi rinci tentang eksekusi Otomasi.  

```
aws ssm get-automation-execution \
    --automation-execution-id 73c8eef8-f4ee-4a05-820c-e354fEXAMPLE
```
Output:  

```
{
    "AutomationExecution": {
        "AutomationExecutionId": "73c8eef8-f4ee-4a05-820c-e354fEXAMPLE",
        "DocumentName": "AWS-StartEC2Instance",
        "DocumentVersion": "1",
        "ExecutionStartTime": 1583737233.748,
        "ExecutionEndTime": 1583737234.719,
        "AutomationExecutionStatus": "Success",
        "StepExecutions": [
            {
                "StepName": "startInstances",
                "Action": "aws:changeInstanceState",
                "ExecutionStartTime": 1583737234.134,
                "ExecutionEndTime": 1583737234.672,
                "StepStatus": "Success",
                "Inputs": {
                    "DesiredState": "\"running\"",
                    "InstanceIds": "[\"i-0cb99161f6EXAMPLE\"]"
                },
                "Outputs": {
                    "InstanceStates": [
                        "running"
                    ]
                },
                "StepExecutionId": "95e70479-cf20-4d80-8018-7e4e2EXAMPLE",
                "OverriddenParameters": {}
            }
        ],
        "StepExecutionsTruncated": false,
        "Parameters": {
            "AutomationAssumeRole": [
                ""
            ],
            "InstanceId": [
                "i-0cb99161f6EXAMPLE"
            ]
        },
        "Outputs": {},
        "Mode": "Auto",
        "ExecutedBy": "arn:aws:sts::29884EXAMPLE:assumed-role/mw_service_role/OrchestrationService",
        "Targets": [],
        "ResolvedTargets": {
            "ParameterValues": [],
            "Truncated": false
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Panduan: Menambal AMI Linux (AWS CLI) di Panduan Pengguna AWS](https://docs.aws.amazon.com/systems-manager/latest/userguide/automation-walk-patch-linux-ami-cli.html) *Systems* Manager.  
+  Untuk detail API, lihat [GetAutomationExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-automation-execution.html)di *Referensi AWS CLI Perintah*. 

### `get-calendar-state`
<a name="ssm_GetCalendarState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-calendar-state`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan status kalender perubahan saat ini**  
`get-calendar-state`Contoh ini mengembalikan keadaan kalender pada saat ini. Karena contoh tidak menentukan waktu, status kalender saat ini dilaporkan.  

```
aws ssm get-calendar-state \
    --calendar-names "MyCalendar"
```
Output:  

```
{
    "State": "OPEN",
    "AtTime": "2020-02-19T22:28:51Z",
    "NextTransitionTime": "2020-02-24T21:15:19Z"
}
```
**Contoh 2: Untuk mendapatkan status kalender perubahan pada waktu yang ditentukan**  
`get-calendar-state`Contoh ini mengembalikan keadaan kalender pada waktu yang ditentukan.  

```
aws ssm get-calendar-state \
    --calendar-names "MyCalendar" \
    --at-time "2020-07-19T21:15:19Z"
```
Output:  

```
{
    "State": "CLOSED",
    "AtTime": "2020-07-19T21:15:19Z"
}
```
Untuk informasi selengkapnya, lihat [Mendapatkan Status Kalender Perubahan](https://docs.aws.amazon.com/systems-manager/latest/userguide/change-calendar-getstate.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetCalendarState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-calendar-state.html)di *Referensi AWS CLI Perintah*. 

### `get-command-invocation`
<a name="ssm_GetCommandInvocation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-command-invocation`.

**AWS CLI**  
**Untuk menampilkan rincian pemanggilan perintah**  
`get-command-invocation`Contoh berikut mencantumkan semua pemanggilan perintah yang ditentukan pada instance tertentu.  

```
aws ssm get-command-invocation \
    --command-id "ef7fdfd8-9b57-4151-a15c-db9a12345678" \
    --instance-id "i-1234567890abcdef0"
```
Output:  

```
{
    "CommandId": "ef7fdfd8-9b57-4151-a15c-db9a12345678",
    "InstanceId": "i-1234567890abcdef0",
    "Comment": "b48291dd-ba76-43e0-b9df-13e11ddaac26:6960febb-2907-4b59-8e1a-d6ce8EXAMPLE",
    "DocumentName": "AWS-UpdateSSMAgent",
    "DocumentVersion": "",
    "PluginName": "aws:updateSsmAgent",
    "ResponseCode": 0,
    "ExecutionStartDateTime": "2020-02-19T18:18:03.419Z",
    "ExecutionElapsedTime": "PT0.091S",
    "ExecutionEndDateTime": "2020-02-19T18:18:03.419Z",
    "Status": "Success",
    "StatusDetails": "Success",
    "StandardOutputContent": "Updating amazon-ssm-agent from 2.3.842.0 to latest\nSuccessfully downloaded https://s3.us-east-2.amazonaws.com/amazon-ssm-us-east-2/ssm-agent-manifest.json\namazon-ssm-agent 2.3.842.0 has already been installed, update skipped\n",
    "StandardOutputUrl": "",
    "StandardErrorContent": "",
    "StandardErrorUrl": "",
    "CloudWatchOutputConfig": {
        "CloudWatchLogGroupName": "",
        "CloudWatchOutputEnabled": false
    }
}
```
Untuk informasi selengkapnya, lihat [Memahami Status Perintah](https://docs.aws.amazon.com/systems-manager/latest/userguide/monitor-commands.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetCommandInvocation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-command-invocation.html)di *Referensi AWS CLI Perintah*. 

### `get-connection-status`
<a name="ssm_GetConnectionStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-connection-status`.

**AWS CLI**  
**Untuk menampilkan status koneksi dari instance terkelola**  
`get-connection-status`Contoh ini mengembalikan status koneksi dari instance terkelola tertentu.  

```
aws ssm get-connection-status \
    --target i-1234567890abcdef0
```
Output:  

```
{
    "Target": "i-1234567890abcdef0",
    "Status": "connected"
}
```
+  Untuk detail API, lihat [GetConnectionStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-connection-status.html)di *Referensi AWS CLI Perintah*. 

### `get-default-patch-baseline`
<a name="ssm_GetDefaultPatchBaseline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-default-patch-baseline`.

**AWS CLI**  
**Contoh 1: Untuk menampilkan baseline patch Windows default**  
`get-default-patch-baseline`Contoh berikut mengambil rincian untuk baseline patch default untuk Windows Server.  

```
aws ssm get-default-patch-baseline
```
Output:  

```
{
  "BaselineId": "pb-0713accee01612345",
  "OperatingSystem": "WINDOWS"
}
```
**Contoh 2: Untuk menampilkan baseline patch default untuk Amazon Linux**  
`get-default-patch-baseline`Contoh berikut mengambil detail untuk baseline patch default untuk Amazon Linux.  

```
aws ssm get-default-patch-baseline \
    --operating-system AMAZON_LINUX
```
Output:  

```
{
    "BaselineId": "pb-047c6eb9c8fc12345",
    "OperatingSystem": "AMAZON_LINUX"
}
```
*Untuk informasi selengkapnya, lihat Tentang Garis Dasar Patch Standar dan Kustom < https://docs.aws.amazon.com/systems-manager/ latest/userguide/sysman -patch-baselines.html>\$1\$1 dan Tetapkan Garis Dasar Patch yang Ada sebagai Default dalam Panduan [Pengguna Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/set-default-patch-baseline.html).AWS *  
+  Untuk detail API, lihat [GetDefaultPatchBaseline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-default-patch-baseline.html)di *Referensi AWS CLI Perintah*. 

### `get-deployable-patch-snapshot-for-instance`
<a name="ssm_GetDeployablePatchSnapshotForInstance_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-deployable-patch-snapshot-for-instance`.

**AWS CLI**  
**Untuk mengambil snapshot saat ini untuk baseline patch, sebuah instance menggunakan**  
`get-deployable-patch-snapshot-for-instance`Contoh berikut mengambil detail untuk snapshot saat ini untuk baseline patch tertentu yang digunakan oleh sebuah instance. Perintah ini harus dijalankan dari instance menggunakan kredensyal instance. Untuk memastikannya menggunakan kredensyal instance, jalankan `aws configure` dan tentukan hanya Wilayah instance Anda. Biarkan `Secret Key` bidang `Access Key` dan kosong.  
Tip: Gunakan `uuidgen` untuk menghasilkan a`snapshot-id`.  

```
aws ssm get-deployable-patch-snapshot-for-instance \
    --instance-id "i-1234567890abcdef0" \
    --snapshot-id "521c3536-930c-4aa9-950e-01234567abcd"
```
Output:  

```
{
    "InstanceId": "i-1234567890abcdef0",
    "SnapshotId": "521c3536-930c-4aa9-950e-01234567abcd",
    "Product": "AmazonLinux2018.03",
    "SnapshotDownloadUrl": "https://patch-baseline-snapshot-us-east-1.s3.amazonaws.com/ed85194ef27214f5984f28b4d664d14f7313568fea7d4b6ac6c10ad1f729d7e7-773304212436/AMAZON_LINUX-521c3536-930c-4aa9-950e-01234567abcd?X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20190215T164031Z&X-Amz-SignedHeaders=host&X-Amz-Expires=86400&X-Amz-Credential=AKIAJ5C56P35AEBRX2QQ%2F20190215%2Fus-east-1%2Fs3%2Faws4_request&X-Amz-Signature=efaaaf6e3878e77f48a6697e015efdbda9c426b09c5822055075c062f6ad2149"
}
```
Untuk informasi selengkapnya, lihat [Nama parameter: ID Snapshot](https://docs.aws.amazon.com/systems-manager/latest/userguide/patch-manager-about-aws-runpatchbaseline.html#patch-manager-about-aws-runpatchbaseline-parameters-snapshot-id) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetDeployablePatchSnapshotForInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-deployable-patch-snapshot-for-instance.html)di *Referensi AWS CLI Perintah*. 

### `get-document`
<a name="ssm_GetDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-document`.

**AWS CLI**  
**Untuk mendapatkan konten dokumen**  
`get-document`Contoh berikut menampilkan konten dokumen Systems Manager.  

```
aws ssm get-document \
    --name "AWS-RunShellScript"
```
Output:  

```
{
    "Name": "AWS-RunShellScript",
    "DocumentVersion": "1",
    "Status": "Active",
    "Content": "{\n    \"schemaVersion\":\"1.2\",\n    \"description\":\"Run a shell script or specify the commands to run.\",\n    \"parameters\":{\n        \"commands\":{\n            \"type\":\"StringList\",\n            \"description\":\"(Required) Specify a shell script or a command to run.\",\n            \"minItems\":1,\n            \"displayType\":\"textarea\"\n        },\n        \"workingDirectory\":{\n            \"type\":\"String\",\n            \"default\":\"\",\n            \"description\":\"(Optional) The path to the working directory on your instance.\",\n            \"maxChars\":4096\n        },\n        \"executionTimeout\":{\n            \"type\":\"String\",\n            \"default\":\"3600\",\n            \"description\":\"(Optional) The time in seconds for a command to complete before it is considered to have failed. Default is 3600 (1 hour). Maximum is 172800 (48 hours).\",\n            \"allowedPattern\":\"([1-9][0-9]{0,4})|(1[0-6][0-9]{4})|(17[0-1][0-9]{3})|(172[0-7][0-9]{2})|(172800)\"\n        }\n    },\n    \"runtimeConfig\":{\n        \"aws:runShellScript\":{\n            \"properties\":[\n                {\n                    \"id\":\"0.aws:runShellScript\",\n                    \"runCommand\":\"{{ commands }}\",\n                    \"workingDirectory\":\"{{ workingDirectory }}\",\n                    \"timeoutSeconds\":\"{{ executionTimeout }}\"\n                }\n            ]\n        }\n    }\n}\n",
    "DocumentType": "Command",
    "DocumentFormat": "JSON"
}
```
Untuk informasi selengkapnya, lihat [Dokumen AWS Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-ssm-docs.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-document.html)di *Referensi AWS CLI Perintah*. 

### `get-inventory-schema`
<a name="ssm_GetInventorySchema_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-inventory-schema`.

**AWS CLI**  
**Untuk melihat skema inventaris Anda**  
Contoh ini mengembalikan daftar nama jenis inventaris untuk akun.  
Perintah:  

```
aws ssm get-inventory-schema
```
Output:  

```
{
  "Schemas": [
      {
          "TypeName": "AWS:AWSComponent",
          "Version": "1.0",
          "Attributes": [
              {
                  "Name": "Name",
                  "DataType": "STRING"
              },
              {
                  "Name": "ApplicationType",
                  "DataType": "STRING"
              },
              {
                  "Name": "Publisher",
                  "DataType": "STRING"
              },
              {
                  "Name": "Version",
                  "DataType": "STRING"
              },
              {
                  "Name": "InstalledTime",
                  "DataType": "STRING"
              },
              {
                  "Name": "Architecture",
                  "DataType": "STRING"
              },
              {
                  "Name": "URL",
                  "DataType": "STRING"
              }
          ]
      },
      ...
  ],
  "NextToken": "--token string truncated--"
}
```
**Untuk melihat skema inventaris untuk jenis inventaris tertentu**  
Contoh ini mengembalikan skema inventaris untuk tipe inventaris AWS:AWS Komponen.  
Perintah:  

```
aws ssm get-inventory-schema --type-name "AWS:AWSComponent"
```
+  Untuk detail API, lihat [GetInventorySchema](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-inventory-schema.html)di *Referensi AWS CLI Perintah*. 

### `get-inventory`
<a name="ssm_GetInventory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-inventory`.

**AWS CLI**  
**Untuk melihat inventaris Anda**  
Contoh ini mendapatkan metadata kustom untuk inventaris Anda.  
Perintah:  

```
aws ssm get-inventory
```
Output:  

```
{
  "Entities": [
      {
          "Data": {
              "AWS:InstanceInformation": {
                  "Content": [
                      {
                          "ComputerName": "ip-172-31-44-222.us-west-2.compute.internal",
                          "InstanceId": "i-0cb2b964d3e14fd9f",
                          "IpAddress": "172.31.44.222",
                          "AgentType": "amazon-ssm-agent",
                          "ResourceType": "EC2Instance",
                          "AgentVersion": "2.0.672.0",
                          "PlatformVersion": "2016.09",
                          "PlatformName": "Amazon Linux AMI",
                          "PlatformType": "Linux"
                      }
                  ],
                  "TypeName": "AWS:InstanceInformation",
                  "SchemaVersion": "1.0",
                  "CaptureTime": "2017-02-20T18:03:58Z"
              }
          },
          "Id": "i-0cb2b964d3e14fd9f"
      }
  ]
}
```
+  Untuk detail API, lihat [GetInventory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-inventory.html)di *Referensi AWS CLI Perintah*. 

### `get-maintenance-window-execution-task-invocation`
<a name="ssm_GetMaintenanceWindowExecutionTaskInvocation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-maintenance-window-execution-task-invocation`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pemanggilan tugas jendela pemeliharaan**  
`get-maintenance-window-execution-task-invocation`Contoh berikut mencantumkan informasi tentang pemanggilan tugas tertentu yang merupakan bagian dari eksekusi jendela pemeliharaan yang ditentukan.  

```
aws ssm get-maintenance-window-execution-task-invocation \
    --window-execution-id "bc494bfa-e63b-49f6-8ad1-aa9f2EXAMPLE" \
    --task-id "96f2ad59-97e3-461d-a63d-40c8aEXAMPLE" \
    --invocation-id "a5273e2c-d2c6-4880-b3e1-5e550EXAMPLE"
```
Output:  

```
{
    "Status": "SUCCESS",
    "Parameters": "{\"comment\":\"\",\"documentName\":\"AWS-RunPowerShellScript\",\"instanceIds\":[\"i-1234567890EXAMPLE\"],\"maxConcurrency\":\"1\",\"maxErrors\":\"1\",\"parameters\":{\"executionTimeout\":[\"3600\"],\"workingDirectory\":[\"\"],\"commands\":[\"echo Hello\"]},\"timeoutSeconds\":600}",
    "ExecutionId": "03b6baa0-5460-4e15-83f2-ea685EXAMPLE",
    "InvocationId": "a5273e2c-d2c6-4880-b3e1-5e550EXAMPLE",
    "StartTime": 1549998326.421,
    "TaskType": "RUN_COMMAND",
    "EndTime": 1550001931.784,
    "WindowExecutionId": "bc494bfa-e63b-49f6-8ad1-aa9f2EXAMPLE",
    "StatusDetails": "Failed",
    "TaskExecutionId": "96f2ad59-97e3-461d-a63d-40c8aEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Tugas dan Eksekusi Tugas (AWS CLI](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-task-info.html)) di Panduan Pengguna *Systems AWS Manager*.  
+  Untuk detail API, lihat [GetMaintenanceWindowExecutionTaskInvocation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-maintenance-window-execution-task-invocation.html)di *Referensi AWS CLI Perintah*. 

### `get-maintenance-window-execution-task`
<a name="ssm_GetMaintenanceWindowExecutionTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-maintenance-window-execution-task`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang eksekusi tugas jendela pemeliharaan**  
`get-maintenance-window-execution-task`Contoh berikut mencantumkan informasi tentang tugas yang merupakan bagian dari eksekusi jendela pemeliharaan yang ditentukan.  

```
aws ssm get-maintenance-window-execution-task \
    --window-execution-id "518d5565-5969-4cca-8f0e-da3b2EXAMPLE" \
    --task-id "ac0c6ae1-daa3-4a89-832e-d3845EXAMPLE"
```
Output:  

```
{
    "WindowExecutionId": "518d5565-5969-4cca-8f0e-da3b2EXAMPLE",
    "TaskExecutionId": "ac0c6ae1-daa3-4a89-832e-d3845EXAMPLE",
    "TaskArn": "AWS-RunPatchBaseline",
    "ServiceRole": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
    "Type": "RUN_COMMAND",
    "TaskParameters": [
        {
            "BaselineOverride": {
                "Values": [
                    ""
                ]
            },
            "InstallOverrideList": {
                "Values": [
                    ""
                ]
            },
            "Operation": {
                "Values": [
                    "Scan"
                ]
            },
            "RebootOption": {
                "Values": [
                    "RebootIfNeeded"
                ]
            },
            "SnapshotId": {
                "Values": [
                    "{{ aws:ORCHESTRATION_ID }}"
                ]
            },
            "aws:InstanceId": {
                "Values": [
                    "i-02573cafcfEXAMPLE",
                    "i-0471e04240EXAMPLE",
                    "i-07782c72faEXAMPLE"
                ]
            }
        }
    ],
    "Priority": 1,
    "MaxConcurrency": "1",
    "MaxErrors": "3",
    "Status": "SUCCESS",
    "StartTime": "2021-08-04T11:45:35.088000-07:00",
    "EndTime": "2021-08-04T11:53:09.079000-07:00"
}
```
Untuk informasi selengkapnya, lihat [Melihat informasi tentang tugas dan eksekusi tugas (AWS CLI](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-task-info.html)) di Panduan Pengguna *Systems AWS Manager*.  
+  Untuk detail API, lihat [GetMaintenanceWindowExecutionTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-maintenance-window-execution-task.html)di *Referensi AWS CLI Perintah*. 

### `get-maintenance-window-execution`
<a name="ssm_GetMaintenanceWindowExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-maintenance-window-execution`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang eksekusi tugas jendela pemeliharaan**  
`get-maintenance-window-execution`Contoh berikut mencantumkan informasi tentang tugas yang dijalankan sebagai bagian dari eksekusi jendela pemeliharaan yang ditentukan.  

```
aws ssm get-maintenance-window-execution \
    --window-execution-id "518d5565-5969-4cca-8f0e-da3b2EXAMPLE"
```
Output:  

```
{
    "Status": "SUCCESS",
    "TaskIds": [
        "ac0c6ae1-daa3-4a89-832e-d3845EXAMPLE"
    ],
    "StartTime": 1487692834.595,
    "EndTime": 1487692835.051,
    "WindowExecutionId": "518d5565-5969-4cca-8f0e-da3b2EXAMPLE",
}
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Tugas dan Eksekusi Tugas (AWS CLI](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-task-info.html)) di Panduan Pengguna *Systems AWS Manager*.  
+  Untuk detail API, lihat [GetMaintenanceWindowExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-maintenance-window-execution.html)di *Referensi AWS CLI Perintah*. 

### `get-maintenance-window-task`
<a name="ssm_GetMaintenanceWindowTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-maintenance-window-task`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang tugas jendela pemeliharaan**  
`get-maintenance-window-task`Contoh berikut mengambil rincian tentang tugas jendela pemeliharaan yang ditentukan.  

```
aws ssm get-maintenance-window-task \
    --window-id mw-0c5ed765acEXAMPLE \
    --window-task-id 0e842a8d-2d44-4886-bb62-af8dcEXAMPLE
```
Output:  

```
{
    "ServiceRoleArn": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
    "MaxErrors": "1",
    "TaskArn": "AWS-RunPowerShellScript",
    "MaxConcurrency": "1",
    "WindowTaskId": "0e842a8d-2d44-4886-bb62-af8dcEXAMPLE",
    "TaskParameters": {},
    "Priority": 1,
    "TaskInvocationParameters": {
        "RunCommand": {
            "Comment": "",
            "TimeoutSeconds": 600,
            "Parameters": {
                "commands": [
                    "echo Hello"
                ],
                "executionTimeout": [
                    "3600"
                ],
                "workingDirectory": [
                    ""
                ]
            }
        }
    },
    "WindowId": "mw-0c5ed765acEXAMPLE",
    "TaskType": "RUN_COMMAND",
    "Targets": [
        {
            "Values": [
                "84c818da-b619-4d3d-9651-946f3EXAMPLE"
            ],
            "Key": "WindowTargetIds"
        }
    ],
    "Name": "ExampleTask"
}
```
Untuk informasi selengkapnya, lihat [Melihat Informasi Tentang Pemeliharaan Windows (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-describe.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetMaintenanceWindowTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-maintenance-window-task.html)di *Referensi AWS CLI Perintah*. 

### `get-maintenance-window`
<a name="ssm_GetMaintenanceWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-maintenance-window`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang jendela pemeliharaan**  
`get-maintenance-window`Contoh berikut mengambil rincian tentang jendela pemeliharaan yang ditentukan.  

```
aws ssm get-maintenance-window \
    --window-id "mw-03eb9db428EXAMPLE"
```
Output:  

```
{
    "AllowUnassociatedTargets": true,
    "CreatedDate": 1515006912.957,
    "Cutoff": 1,
    "Duration": 6,
    "Enabled": true,
    "ModifiedDate": 2020-01-01T10:04:04.099Z,
    "Name": "My-Maintenance-Window",
    "Schedule": "rate(3 days)",
    "WindowId": "mw-03eb9db428EXAMPLE",
    "NextExecutionTime": "2020-02-25T00:08:15.099Z"
}
```
Untuk informasi selengkapnya, lihat [Melihat informasi tentang jendela pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-describe.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetMaintenanceWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-maintenance-window.html)di *Referensi AWS CLI Perintah*. 

### `get-ops-item`
<a name="ssm_GetOpsItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ops-item`.

**AWS CLI**  
**Untuk melihat informasi tentang OpsItem**  
`get-ops-item`Contoh berikut menampilkan rincian tentang yang ditentukan OpsItem.  

```
aws ssm get-ops-item \
    --ops-item-id oi-0b725EXAMPLE
```
Output:  

```
{
    "OpsItem": {
        "CreatedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
        "CreatedTime": "2019-12-04T15:52:16.793000-08:00",
        "Description": "CloudWatch Event Rule SSMOpsItems-EC2-instance-terminated was triggered. Your EC2 instance has terminated. See below for more details.",
        "LastModifiedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
        "LastModifiedTime": "2019-12-04T15:52:16.793000-08:00",
        "Notifications": [],
        "RelatedOpsItems": [],
        "Status": "Open",
        "OpsItemId": "oi-0b725EXAMPLE",
        "Title": "EC2 instance terminated",
        "Source": "EC2",
        "OperationalData": {
            "/aws/automations": {
                "Value": "[ { \"automationType\": \"AWS:SSM:Automation\", \"automationId\": \"AWS-CreateManagedWindowsInstance\" }, { \"automationType\": \"AWS:SSM:Automation\", \"automationId\": \"AWS-CreateManagedLinuxInstance\" } ]",
                "Type": "SearchableString"
            },
            "/aws/dedup": {
                "Value": "{\"dedupString\":\"SSMOpsItems-EC2-instance-terminated\"}",
                "Type": "SearchableString"
            },
            "/aws/resources": {
                "Value": "[{\"arn\":\"arn:aws:ec2:us-east-2:111222333444:instance/i-05adec7e97EXAMPLE\"}]",
                "Type": "SearchableString"
            },
            "event-time": {
                "Value": "2019-12-04T23:52:16Z",
                "Type": "String"
            },
            "instance-state": {
                "Value": "terminated",
                "Type": "String"
            }
        },
        "Category": "Availability",
        "Severity": "4"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan OpsItems](https://docs.aws.amazon.com/systems-manager/latest/userguide/OpsCenter-working-with-OpsItems.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetOpsItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-ops-item.html)di *Referensi AWS CLI Perintah*. 

### `get-ops-summary`
<a name="ssm_GetOpsSummary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ops-summary`.

**AWS CLI**  
**Untuk melihat ringkasan dari semua OpsItems**  
`get-ops-summary`Contoh berikut menampilkan ringkasan semua OpsItems di AWS akun Anda.  

```
aws ssm get-ops-summary
```
Output:  

```
{
    "Entities": [
        {
            "Id": "oi-4309fEXAMPLE",
            "Data": {
                "AWS:OpsItem": {
                    "CaptureTime": "2020-02-26T18:58:32.918Z",
                    "Content": [
                        {
                            "AccountId": "111222333444",
                            "Category": "Availability",
                            "CreatedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
                            "CreatedTime": "2020-02-26T19:10:44.149Z",
                            "Description": "CloudWatch Event Rule SSMOpsItems-EC2-instance-terminated was triggered. Your EC2 instance has terminated. See below for more details.",
                            "LastModifiedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
                            "LastModifiedTime": "2020-02-26T19:10:44.149Z",
                            "Notifications": "",
                            "OperationalData": "{\"/aws/automations\":{\"type\":\"SearchableString\",\"value\":\"[ { \\\"automationType\\\": \\\"AWS:SSM:Automation\\\", \\\"automationId\\\": \\\"AWS-CreateManagedWindowsInstance\\\" }, { \\\"automationType\\\": \\\"AWS:SSM:Automation\\\", \\\"automationId\\\": \\\"AWS-CreateManagedLinuxInstance\\\" } ]\"},\"/aws/resources\":{\"type\":\"SearchableString\",\"value\":\"[{\\\"arn\\\":\\\"arn:aws:ec2:us-east-2:111222333444:instance/i-0acbd0800fEXAMPLE\\\"}]\"},\"/aws/dedup\":{\"type\":\"SearchableString\",\"value\":\"{\\\"dedupString\\\":\\\"SSMOpsItems-EC2-instance-terminated\\\"}\"}}",
                            "OpsItemId": "oi-4309fEXAMPLE",
                            "RelatedItems": "",
                            "Severity": "3",
                            "Source": "EC2",
                            "Status": "Open",
                            "Title": "EC2 instance terminated"
                        }
                    ]
                }
            }
        },
        {
            "Id": "oi-bb2a0e6a4541",
            "Data": {
                "AWS:OpsItem": {
                    "CaptureTime": "2019-11-26T19:20:06.161Z",
                    "Content": [
                        {
                            "AccountId": "111222333444",
                            "Category": "Availability",
                            "CreatedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
                            "CreatedTime": "2019-11-26T20:00:07.237Z",
                            "Description": "CloudWatch Event Rule SSMOpsItems-SSM-maintenance-window-execution-failed was triggered. Your SSM Maintenance Window execution has failed. See below for more details.",
                            "LastModifiedBy": "arn:aws:sts::111222333444:assumed-role/OpsItem-CWE-Role/fbf77cbe264a33509569f23e4EXAMPLE",
                            "LastModifiedTime": "2019-11-26T20:00:07.237Z",
                            "Notifications": "",
                            "OperationalData": "{\"/aws/resources\":{\"type\":\"SearchableString\",\"value\":\"[{\\\"arn\\\":\\\"arn:aws:ssm:us-east-2:111222333444:maintenancewindow/mw-0e83ba440dEXAMPLE\\\"}]\"},\"/aws/dedup\":{\"type\":\"SearchableString\",\"value\":\"{\\\"dedupString\\\":\\\"SSMOpsItems-SSM-maintenance-window-execution-failed\\\"}\"}}",
                            "OpsItemId": "oi-bb2a0EXAMPLE",
                            "RelatedItems": "",
                            "Severity": "3",
                            "Source": "SSM",
                            "Status": "Open",
                            "Title": "SSM Maintenance Window execution failed"
                        }
                    ]
                }
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan OpsItems](https://docs.aws.amazon.com/systems-manager/latest/userguide/OpsCenter-working-with-OpsItems.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetOpsSummary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-ops-summary.html)di *Referensi AWS CLI Perintah*. 

### `get-parameter-history`
<a name="ssm_GetParameterHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-parameter-history`.

**AWS CLI**  
**Untuk mendapatkan riwayat nilai untuk parameter**  
`get-parameter-history`Contoh berikut mencantumkan riwayat perubahan untuk parameter yang ditentukan, termasuk nilainya.  

```
aws ssm get-parameter-history \
    --name "MyStringParameter"
```
Output:  

```
{
    "Parameters": [
        {
            "Name": "MyStringParameter",
            "Type": "String",
            "LastModifiedDate": 1582154711.976,
            "LastModifiedUser": "arn:aws:iam::111222333444:user/Mary-Major",
            "Description": "This is the first version of my String parameter",
            "Value": "Veni",
            "Version": 1,
            "Labels": [],
            "Tier": "Standard",
            "Policies": []
        },
        {
            "Name": "MyStringParameter",
            "Type": "String",
            "LastModifiedDate": 1582156093.471,
            "LastModifiedUser": "arn:aws:iam::111222333444:user/Mary-Major",
            "Description": "This is the second version of my String parameter",
            "Value": "Vidi",
            "Version": 2,
            "Labels": [],
            "Tier": "Standard",
            "Policies": []
        },
        {
            "Name": "MyStringParameter",
            "Type": "String",
            "LastModifiedDate": 1582156117.545,
            "LastModifiedUser": "arn:aws:iam::111222333444:user/Mary-Major",
            "Description": "This is the third version of my String parameter",
            "Value": "Vici",
            "Version": 3,
            "Labels": [],
            "Tier": "Standard",
            "Policies": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan versi parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-versions.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetParameterHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-parameter-history.html)di *Referensi AWS CLI Perintah*. 

### `get-parameter`
<a name="ssm_GetParameter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-parameter`.

**AWS CLI**  
**Contoh 1: Untuk menampilkan nilai parameter**  
`get-parameter`Contoh berikut mencantumkan nilai untuk parameter tunggal yang ditentukan.  

```
aws ssm get-parameter \
    --name "MyStringParameter"
```
Output:  

```
{
    "Parameter": {
        "Name": "MyStringParameter",
        "Type": "String",
        "Value": "Veni",
        "Version": 1,
        "LastModifiedDate": 1530018761.888,
        "ARN": "arn:aws:ssm:us-east-2:111222333444:parameter/MyStringParameter"
        "DataType": "text"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-working-with.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk mendekripsi nilai parameter SecureString **  
`get-parameter`Contoh berikut mendekripsi nilai parameter yang ditentukan`SecureString`.  

```
aws ssm get-parameter \
    --name "MySecureStringParameter" \
    --with-decryption
```
Output:  

```
{
    "Parameter": {
        "Name": "MySecureStringParameter",
        "Type": "SecureString",
        "Value": "16679b88-310b-4895-a943-e0764EXAMPLE",
        "Version": 2,
        "LastModifiedDate": 1582155479.205,
        "ARN": "arn:aws:ssm:us-east-2:111222333444:parameter/MySecureStringParameter"
        "DataType": "text"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-working-with.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 3: Untuk menampilkan nilai parameter menggunakan label**  
`get-parameter`Contoh berikut mencantumkan nilai untuk parameter tunggal yang ditentukan dengan label tertentu.  

```
aws ssm get-parameter \
    --name "MyParameter:label"
```
Output:  

```
{
    "Parameter": {
        "Name": "MyParameter",
        "Type": "String",
        "Value": "parameter version 2",
        "Version": 2,
        "Selector": ":label",
        "LastModifiedDate": "2021-07-12T09:49:15.865000-07:00",
        "ARN": "arn:aws:ssm:us-west-2:786973925828:parameter/MyParameter",
        "DataType": "text"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan label parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-labels.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 4: Untuk menampilkan nilai parameter menggunakan versi**  
`get-parameter`Contoh berikut mencantumkan nilai untuk versi parameter tunggal yang ditentukan.  

```
aws ssm get-parameter \
    --name "MyParameter:2"
```
Output:  

```
{
    "Parameter": {
        "Name": "MyParameter",
        "Type": "String",
        "Value": "parameter version 2",
        "Version": 2,
        "Selector": ":2",
        "LastModifiedDate": "2021-07-12T09:49:15.865000-07:00",
        "ARN": "arn:aws:ssm:us-west-2:786973925828:parameter/MyParameter",
        "DataType": "text"
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan label parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-labels.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetParameter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-parameter.html)di *Referensi AWS CLI Perintah*. 

### `get-parameters-by-path`
<a name="ssm_GetParametersByPath_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-parameters-by-path`.

**AWS CLI**  
**Untuk membuat daftar parameter di jalur tertentu**  
`get-parameters-by-path`Contoh berikut mencantumkan parameter dalam hierarki yang ditentukan.  

```
aws ssm get-parameters-by-path \
    --path "/site/newyork/department/"
```
Output:  

```
{
    "Parameters": [
        {
            "Name": "/site/newyork/department/marketing",
            "Type": "String",
            "Value": "Floor 2",
            "Version": 1,
            "LastModifiedDate": 1530018761.888,
            "ARN": "arn:aws:ssm:us-east-1:111222333444:parameter/site/newyork/department/marketing"
        },
        {
            "Name": "/site/newyork/department/infotech",
            "Type": "String",
            "Value": "Floor 3",
            "Version": 1,
            "LastModifiedDate": 1530018823.429,
            "ARN": "arn:aws:ssm:us-east-1:111222333444:parameter/site/newyork/department/infotech"
        },
        ...
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan hierarki parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-hierarchies.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetParametersByPath](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-parameters-by-path.html)di *Referensi AWS CLI Perintah*. 

### `get-parameters`
<a name="ssm_GetParameters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-parameters`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar nilai untuk parameter**  
`get-parameters`Contoh berikut mencantumkan nilai-nilai untuk tiga parameter yang ditentukan.  

```
aws ssm get-parameters \
    --names "MyStringParameter" "MyStringListParameter" "MyInvalidParameterName"
```
Output:  

```
{
    "Parameters": [
        {
            "Name": "MyStringListParameter",
            "Type": "StringList",
            "Value": "alpha,beta,gamma",
            "Version": 1,
            "LastModifiedDate": 1582154764.222,
            "ARN": "arn:aws:ssm:us-east-2:111222333444:parameter/MyStringListParameter"
            "DataType": "text"
        },
        {
            "Name": "MyStringParameter",
            "Type": "String",
            "Value": "Vici",
            "Version": 3,
            "LastModifiedDate": 1582156117.545,
            "ARN": "arn:aws:ssm:us-east-2:111222333444:parameter/MyStringParameter"
            "DataType": "text"
        }
    ],
    "InvalidParameters": [
        "MyInvalidParameterName"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-working-with.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk mencantumkan nama dan nilai dari beberapa parameter menggunakan opsi ``--query``**  
`get-parameters`Contoh berikut mencantumkan nama dan nilai untuk parameter yang ditentukan.  

```
aws ssm get-parameters \
    --names MyStringParameter MyStringListParameter \
    --query "Parameters[*].{Name:Name,Value:Value}"
```
Output:  

```
[
    {
        "Name": "MyStringListParameter",
        "Value": "alpha,beta,gamma"
    },
    {
        "Name": "MyStringParameter",
        "Value": "Vidi"
    }
]
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-working-with.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 3: Untuk menampilkan nilai parameter menggunakan label**  
`get-parameter`Contoh berikut mencantumkan nilai untuk parameter tunggal yang ditentukan dengan label tertentu.  

```
aws ssm get-parameter \
    --name "MyParameter:label"
```
Output:  

```
{
    "Parameters": [
        {
            "Name": "MyLabelParameter",
            "Type": "String",
            "Value": "parameter by label",
            "Version": 1,
            "Selector": ":label",
            "LastModifiedDate": "2021-07-12T09:49:15.865000-07:00",
            "ARN": "arn:aws:ssm:us-west-2:786973925828:parameter/MyParameter",
            "DataType": "text"
        },
        {
            "Name": "MyVersionParameter",
            "Type": "String",
            "Value": "parameter by version",
            "Version": 2,
            "Selector": ":2",
            "LastModifiedDate": "2021-03-24T16:20:28.236000-07:00",
            "ARN": "arn:aws:ssm:us-west-2:786973925828:parameter/unlabel-param",
            "DataType": "text"
        }
    ],
    "InvalidParameters": []
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan label parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-labels.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetParameters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-parameters.html)di *Referensi AWS CLI Perintah*. 

### `get-patch-baseline-for-patch-group`
<a name="ssm_GetPatchBaselineForPatchGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-patch-baseline-for-patch-group`.

**AWS CLI**  
**Untuk menampilkan baseline patch untuk grup patch**  
`get-patch-baseline-for-patch-group`Contoh berikut mengambil rincian tentang baseline patch untuk kelompok patch yang ditentukan.  

```
aws ssm get-patch-baseline-for-patch-group \
    --patch-group "DEV"
```
Output:  

```
{
    "PatchGroup": "DEV",
    "BaselineId": "pb-0123456789abcdef0",
    "OperatingSystem": "WINDOWS"
}
```
*Untuk informasi selengkapnya, lihat Membuat Grup Patch < https://docs.aws.amazon.com/systems-manager/ latest/userguide/sysman - patch-group-tagging .html>\$1\$1 dan [Menambahkan Grup Patch ke Garis Dasar Patch di](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-patch-group-patchbaseline.html) Panduan Pengguna Systems Manager AWS .*  
+  Untuk detail API, lihat [GetPatchBaselineForPatchGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-patch-baseline-for-patch-group.html)di *Referensi AWS CLI Perintah*. 

### `get-patch-baseline`
<a name="ssm_GetPatchBaseline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-patch-baseline`.

**AWS CLI**  
**Untuk menampilkan baseline patch**  
`get-patch-baseline`Contoh berikut mengambil rincian untuk baseline patch yang ditentukan.  

```
aws ssm get-patch-baseline \
    --baseline-id "pb-0123456789abcdef0"
```
Output:  

```
{
    "BaselineId": "pb-0123456789abcdef0",
    "Name": "WindowsPatching",
    "OperatingSystem": "WINDOWS",
    "GlobalFilters": {
        "PatchFilters": []
    },
    "ApprovalRules": {
        "PatchRules": [
            {
                "PatchFilterGroup": {
                    "PatchFilters": [
                        {
                            "Key": "PRODUCT",
                            "Values": [
                                "WindowsServer2016"
                            ]
                        }
                    ]
                },
                "ComplianceLevel": "CRITICAL",
                "ApproveAfterDays": 0,
                "EnableNonSecurity": false
            }
        ]
    },
    "ApprovedPatches": [],
    "ApprovedPatchesComplianceLevel": "UNSPECIFIED",
    "ApprovedPatchesEnableNonSecurity": false,
    "RejectedPatches": [],
    "RejectedPatchesAction": "ALLOW_AS_DEPENDENCY",
    "PatchGroups": [
        "QA",
        "DEV"
    ],
    "CreatedDate": 1550244180.465,
    "ModifiedDate": 1550244180.465,
    "Description": "Patches for Windows Servers",
    "Sources": []
}
```
Untuk informasi selengkapnya, lihat [Tentang Patch Baseline](https://docs.aws.amazon.com/systems-manager/latest/userguide/about-patch-baselines.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetPatchBaseline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-patch-baseline.html)di *Referensi AWS CLI Perintah*. 

### `get-service-setting`
<a name="ssm_GetServiceSetting_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-setting`.

**AWS CLI**  
**Untuk mengambil pengaturan layanan untuk throughput Parameter Store**  
Berikut `get-service-setting` ini Contoh ini mengambil pengaturan layanan saat ini untuk throughput Parameter Store di wilayah tertentu.  

```
aws ssm get-service-setting \
    --setting-id arn:aws:ssm:us-east-1:123456789012:servicesetting/ssm/parameter-store/high-throughput-enabled
```
Output:  

```
{
    "ServiceSetting": {
        "SettingId": "/ssm/parameter-store/high-throughput-enabled",
        "SettingValue": "false",
        "LastModifiedDate": 1555532818.578,
        "LastModifiedUser": "System",
        "ARN": "arn:aws:ssm:us-east-1:123456789012:servicesetting/ssm/parameter-store/high-throughput-enabled",
        "Status": "Default"
    }
}
```
Untuk informasi selengkapnya, lihat [Meningkatkan Throughput Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-throughput.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [GetServiceSetting](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/get-service-setting.html)di *Referensi AWS CLI Perintah*. 

### `label-parameter-version`
<a name="ssm_LabelParameterVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`label-parameter-version`.

**AWS CLI**  
**Contoh 1: Untuk menambahkan label ke versi terbaru dari parameter**  
`label-parameter-version`Contoh berikut menambahkan label ke versi terbaru dari parameter yang ditentukan.  

```
aws ssm label-parameter-version \
    --name "MyStringParameter" \
    --labels "ProductionReady"
```
Output:  

```
{
    "InvalidLabels": [],
    "ParameterVersion": 3
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan label parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-labels.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk menambahkan label ke versi parameter tertentu**  
`label-parameter-version`Contoh berikut menambahkan label ke versi tertentu dari parameter.  

```
aws ssm label-parameter-version \
    --name "MyStringParameter" \
    --labels "ProductionReady" \
    --parameter-version "2" --labels "DevelopmentReady"
```
Untuk informasi selengkapnya, lihat [Bekerja dengan label parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-labels.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [LabelParameterVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/label-parameter-version.html)di *Referensi AWS CLI Perintah*. 

### `list-association-versions`
<a name="ssm_ListAssociationVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-association-versions`.

**AWS CLI**  
**Untuk mencantumkan semua versi asosiasi untuk ID asosiasi tertentu**  
`list-association-versions`Contoh berikut mencantumkan semua versi asosiasi yang ditentukan.  

```
aws ssm list-association-versions \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab"
```
Output:  

```
{
"AssociationVersions": [
        {
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "AssociationVersion": "1",
            "CreatedDate": 1550505536.726,
            "Name": "AWS-UpdateSSMAgent",
            "Parameters": {
                "allowDowngrade": [
                    "false"
                ],
                "version": [
                    ""
                ]
            },
            "Targets": [
                {
                    "Key": "InstanceIds",
                    "Values": [
                        "i-1234567890abcdef0"
                    ]
                }
            ],
            "ScheduleExpression": "cron(0 00 12 ? * SUN *)",
            "AssociationName": "UpdateSSMAgent"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan asosiasi di Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/systems-manager-associations.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ListAssociationVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-association-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-associations`
<a name="ssm_ListAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-associations`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar asosiasi Anda untuk contoh tertentu**  
Contoh daftar-asosiasi berikut mencantumkan semua asosiasi dengan AssociationName, Perbarui. SSMAgent  

```
aws ssm list-associations /
    --association-filter-list "key=AssociationName,value=UpdateSSMAgent"
```
Output:  

```
{
    "Associations": [
        {
            "Name": "AWS-UpdateSSMAgent",
            "InstanceId": "i-1234567890abcdef0",
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "AssociationVersion": "1",
            "Targets": [
                {
                    "Key": "InstanceIds",
                    "Values": [
                        "i-016648b75dd622dab"
                    ]
                }
            ],
            "Overview": {
                "Status": "Pending",
                "DetailedStatus": "Associated",
                "AssociationStatusAggregatedCount": {
                    "Pending": 1
                }
            },
            "ScheduleExpression": "cron(0 00 12 ? * SUN *)",
            "AssociationName": "UpdateSSMAgent"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan asosiasi di Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/systems-manager-associations.html) di *Panduan Pengguna Systems Manager*.  
**Contoh 2: Untuk membuat daftar asosiasi Anda untuk dokumen tertentu**  
Contoh daftar-asosiasi berikut mencantumkan semua asosiasi untuk dokumen yang ditentukan.  

```
aws ssm list-associations /
    --association-filter-list "key=Name,value=AWS-UpdateSSMAgent"
```
Output:  

```
{
    "Associations": [
        {
            "Name": "AWS-UpdateSSMAgent",
            "InstanceId": "i-1234567890abcdef0",
            "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
            "AssociationVersion": "1",
            "Targets": [
                {
                    "Key": "InstanceIds",
                    "Values": [
                        "i-1234567890abcdef0"
                    ]
                }
            ],
            "LastExecutionDate": 1550505828.548,
            "Overview": {
                "Status": "Success",
                "DetailedStatus": "Success",
                "AssociationStatusAggregatedCount": {
                    "Success": 1
                }
            },
            "ScheduleExpression": "cron(0 00 12 ? * SUN *)",
            "AssociationName": "UpdateSSMAgent"
        },
    {
            "Name": "AWS-UpdateSSMAgent",
            "InstanceId": "i-9876543210abcdef0",
            "AssociationId": "fbc07ef7-b985-4684-b82b-0123456789ab",
            "AssociationVersion": "1",
            "Targets": [
                {
                    "Key": "InstanceIds",
                    "Values": [
                        "i-9876543210abcdef0"
                    ]
                }
            ],
            "LastExecutionDate": 1550507531.0,
            "Overview": {
                "Status": "Success",
                "AssociationStatusAggregatedCount": {
                    "Success": 1
                }
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan asosiasi di Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/systems-manager-associations.html) di *Panduan Pengguna Systems Manager*.  
+  Untuk detail API, lihat [ListAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-command-invocations`
<a name="ssm_ListCommandInvocations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-command-invocations`.

**AWS CLI**  
**Untuk membuat daftar pemanggilan perintah tertentu**  
`list-command-invocations`Contoh berikut mencantumkan semua pemanggilan perintah.  

```
aws ssm list-command-invocations \
    --command-id "ef7fdfd8-9b57-4151-a15c-db9a12345678" \
    --details
```
Output:  

```
{
    "CommandInvocations": [
        {
            "CommandId": "ef7fdfd8-9b57-4151-a15c-db9a12345678",
            "InstanceId": "i-02573cafcfEXAMPLE",
            "InstanceName": "",
            "Comment": "b48291dd-ba76-43e0-b9df-13e11ddaac26:6960febb-2907-4b59-8e1a-d6ce8EXAMPLE",
            "DocumentName": "AWS-UpdateSSMAgent",
            "DocumentVersion": "",
            "RequestedDateTime": 1582136283.089,
            "Status": "Success",
            "StatusDetails": "Success",
            "StandardOutputUrl": "",
            "StandardErrorUrl": "",
            "CommandPlugins": [
                {
                    "Name": "aws:updateSsmAgent",
                    "Status": "Success",
                    "StatusDetails": "Success",
                    "ResponseCode": 0,
                    "ResponseStartDateTime": 1582136283.419,
                    "ResponseFinishDateTime": 1582136283.51,
                    "Output": "Updating amazon-ssm-agent from 2.3.842.0 to latest\nSuccessfully downloaded https://s3.us-east-2.amazonaws.com/amazon-ssm-us-east-2/ssm-agent-manifest.json\namazon-ssm-agent 2.3.842.0 has already been installed, update skipped\n",
                    "StandardOutputUrl": "",
                    "StandardErrorUrl": "",
                    "OutputS3Region": "us-east-2",
                    "OutputS3BucketName": "",
                    "OutputS3KeyPrefix": ""
                }
            ],
            "ServiceRole": "",
            "NotificationConfig": {
                "NotificationArn": "",
                "NotificationEvents": [],
                "NotificationType": ""
            },
            "CloudWatchOutputConfig": {
                "CloudWatchLogGroupName": "",
                "CloudWatchOutputEnabled": false
            }
        },
        {
            "CommandId": "ef7fdfd8-9b57-4151-a15c-db9a12345678",
            "InstanceId": "i-0471e04240EXAMPLE",
            "InstanceName": "",
            "Comment": "b48291dd-ba76-43e0-b9df-13e11ddaac26:6960febb-2907-4b59-8e1a-d6ce8EXAMPLE",
            "DocumentName": "AWS-UpdateSSMAgent",
            "DocumentVersion": "",
            "RequestedDateTime": 1582136283.02,
            "Status": "Success",
            "StatusDetails": "Success",
            "StandardOutputUrl": "",
            "StandardErrorUrl": "",
            "CommandPlugins": [
                {
                    "Name": "aws:updateSsmAgent",
                    "Status": "Success",
                    "StatusDetails": "Success",
                    "ResponseCode": 0,
                    "ResponseStartDateTime": 1582136283.812,
                    "ResponseFinishDateTime": 1582136295.031,
                    "Output": "Updating amazon-ssm-agent from 2.3.672.0 to latest\nSuccessfully downloaded https://s3.us-east-2.amazonaws.com/amazon-ssm-us-east-2/ssm-agent-manifest.json\nSuccessfully downloaded https://s3.us-east-2.amazonaws.com/amazon-ssm-us-east-2/amazon-ssm-agent-updater/2.3.842.0/amazon-ssm-agent-updater-snap-amd64.tar.gz\nSuccessfully downloaded https://s3.us-east-2.amazonaws.com/amazon-ssm-us-east-2/amazon-ssm-agent/2.3.672.0/amazon-ssm-agent-snap-amd64.tar.gz\nSuccessfully downloaded https://s3.us-east-2.amazonaws.com/amazon-ssm-us-east-2/amazon-ssm-agent/2.3.842.0/amazon-ssm-agent-snap-amd64.tar.gz\nInitiating amazon-ssm-agent update to 2.3.842.0\namazon-ssm-agent updated successfully to 2.3.842.0",
                    "StandardOutputUrl": "",
                    "StandardErrorUrl": "",
                    "OutputS3Region": "us-east-2",
                    "OutputS3BucketName": "",
                    "OutputS3KeyPrefix": "8bee3135-398c-4d31-99b6-e42d2EXAMPLE/i-0471e04240EXAMPLE/awsupdateSsmAgent"
                }
            ],
            "ServiceRole": "",
            "NotificationConfig": {
                "NotificationArn": "",
                "NotificationEvents": [],
                "NotificationType": ""
            },
            "CloudWatchOutputConfig": {
                "CloudWatchLogGroupName": "",
                "CloudWatchOutputEnabled": false
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memahami Status Perintah](https://docs.aws.amazon.com/systems-manager/latest/userguide/monitor-commands.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ListCommandInvocations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-command-invocations.html)di *Referensi AWS CLI Perintah*. 

### `list-commands`
<a name="ssm_ListCommands_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-commands`.

**AWS CLI**  
**Contoh 1: Untuk mendapatkan status perintah tertentu**  
`list-commands`Contoh berikut mengambil dan menampilkan status perintah yang ditentukan.  

```
aws ssm list-commands \
    --command-id "0831e1a8-a1ac-4257-a1fd-c831bEXAMPLE"
```
**Contoh 2: Untuk mendapatkan status perintah yang diminta setelah tanggal tertentu**  
`list-commands`Contoh berikut mengambil rincian perintah yang diminta setelah tanggal yang ditentukan.  

```
aws ssm list-commands \
    --filter "key=InvokedAfter,value=2020-02-01T00:00:00Z"
```
**Contoh 3: Untuk mencantumkan semua perintah yang diminta dalam AWS akun**  
`list-commands`Contoh berikut mencantumkan semua perintah yang diminta oleh pengguna di AWS akun saat ini dan Wilayah.  

```
aws ssm list-commands
```
Output:  

```
{
    "Commands": [
        {
            "CommandId": "8bee3135-398c-4d31-99b6-e42d2EXAMPLE",
            "DocumentName": "AWS-UpdateSSMAgent",
            "DocumentVersion": "",
            "Comment": "b48291dd-ba76-43e0-b9df-13e11ddaac26:6960febb-2907-4b59-8e1a-d6ce8EXAMPLE",
            "ExpiresAfter": "2020-02-19T11:28:02.500000-08:00",
            "Parameters": {},
            "InstanceIds": [
                "i-028ea792daEXAMPLE",
                "i-02feef8c46EXAMPLE",
                "i-038613f3f0EXAMPLE",
                "i-03a530a2d4EXAMPLE",
                "i-083b678d37EXAMPLE",
                "i-0dee81debaEXAMPLE"
            ],
            "Targets": [],
            "RequestedDateTime": "2020-02-19T10:18:02.500000-08:00",
            "Status": "Success",
            "StatusDetails": "Success",
            "OutputS3BucketName": "",
            "OutputS3KeyPrefix": "",
            "MaxConcurrency": "50",
            "MaxErrors": "100%",
            "TargetCount": 6,
            "CompletedCount": 6,
            "ErrorCount": 0,
            "DeliveryTimedOutCount": 0,
            "ServiceRole": "",
            "NotificationConfig": {
                "NotificationArn": "",
                "NotificationEvents": [],
                "NotificationType": ""
            },
            "CloudWatchOutputConfig": {
                "CloudWatchLogGroupName": "",
                "CloudWatchOutputEnabled": false
            }
        }
        {
            "CommandId": "e9ade581-c03d-476b-9b07-26667EXAMPLE",
            "DocumentName": "AWS-FindWindowsUpdates",
            "DocumentVersion": "1",
            "Comment": "",
            "ExpiresAfter": "2020-01-24T12:37:31.874000-08:00",
            "Parameters": {
                "KbArticleIds": [
                    ""
                ],
                "UpdateLevel": [
                    "All"
                ]
            },
            "InstanceIds": [],
            "Targets": [
                {
                    "Key": "InstanceIds",
                    "Values": [
                        "i-00ec29b21eEXAMPLE",
                        "i-09911ddd90EXAMPLE"
                    ]
                }
            ],
            "RequestedDateTime": "2020-01-24T11:27:31.874000-08:00",
            "Status": "Success",
            "StatusDetails": "Success",
            "OutputS3BucketName": "my-us-east-2-bucket",
            "OutputS3KeyPrefix": "my-rc-output",
            "MaxConcurrency": "50",
            "MaxErrors": "0",
            "TargetCount": 2,
            "CompletedCount": 2,
            "ErrorCount": 0,
            "DeliveryTimedOutCount": 0,
            "ServiceRole": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
            "NotificationConfig": {
                "NotificationArn": "arn:aws:sns:us-east-2:111222333444:my-us-east-2-notification-arn",
                "NotificationEvents": [
                    "All"
                ],
                "NotificationType": "Invocation"
            },
            "CloudWatchOutputConfig": {
                "CloudWatchLogGroupName": "",
                "CloudWatchOutputEnabled": false
            }
        }
        {
            "CommandId": "d539b6c3-70e8-4853-80e5-0ce4fEXAMPLE",
            "DocumentName": "AWS-RunPatchBaseline",
            "DocumentVersion": "1",
            "Comment": "",
            "ExpiresAfter": "2020-01-24T12:21:04.350000-08:00",
            "Parameters": {
                "InstallOverrideList": [
                    ""
                ],
                "Operation": [
                    "Install"
                ],
                "RebootOption": [
                    "RebootIfNeeded"
                ],
                "SnapshotId": [
                    ""
                ]
            },
            "InstanceIds": [],
            "Targets": [
                {
                    "Key": "InstanceIds",
                    "Values": [
                        "i-00ec29b21eEXAMPLE",
                        "i-09911ddd90EXAMPLE"
                    ]
                }
            ],
            "RequestedDateTime": "2020-01-24T11:11:04.350000-08:00",
            "Status": "Success",
            "StatusDetails": "Success",
            "OutputS3BucketName": "my-us-east-2-bucket",
            "OutputS3KeyPrefix": "my-rc-output",
            "MaxConcurrency": "50",
            "MaxErrors": "0",
            "TargetCount": 2,
            "CompletedCount": 2,
            "ErrorCount": 0,
            "DeliveryTimedOutCount": 0,
            "ServiceRole": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
            "NotificationConfig": {
                "NotificationArn": "arn:aws:sns:us-east-2:111222333444:my-us-east-2-notification-arn",
                "NotificationEvents": [
                    "All"
                ],
                "NotificationType": "Invocation"
            },
            "CloudWatchOutputConfig": {
                "CloudWatchLogGroupName": "",
                "CloudWatchOutputEnabled": false
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menjalankan Perintah Menggunakan Systems Manager Run Command](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ListCommands](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-commands.html)di *Referensi AWS CLI Perintah*. 

### `list-compliance-items`
<a name="ssm_ListComplianceItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-compliance-items`.

**AWS CLI**  
**Untuk mencantumkan item kepatuhan untuk contoh tertentu**  
Contoh ini mencantumkan semua item kepatuhan untuk contoh yang ditentukan.  
Perintah:  

```
aws ssm list-compliance-items --resource-ids "i-1234567890abcdef0" --resource-types "ManagedInstance"
```
Output:  

```
{
  "ComplianceItems": [
      {
          "ComplianceType": "Association",
          "ResourceType": "ManagedInstance",
          "ResourceId": "i-1234567890abcdef0",
          "Id": "8dfe3659-4309-493a-8755-0123456789ab",
          "Title": "",
          "Status": "COMPLIANT",
          "Severity": "UNSPECIFIED",
          "ExecutionSummary": {
              "ExecutionTime": 1550408470.0
          },
          "Details": {
              "DocumentName": "AWS-GatherSoftwareInventory",
              "DocumentVersion": "1"
          }
      },
      {
          "ComplianceType": "Association",
          "ResourceType": "ManagedInstance",
          "ResourceId": "i-1234567890abcdef0",
          "Id": "e4c2ed6d-516f-41aa-aa2a-0123456789ab",
          "Title": "",
          "Status": "COMPLIANT",
          "Severity": "UNSPECIFIED",
          "ExecutionSummary": {
              "ExecutionTime": 1550508475.0
          },
          "Details": {
              "DocumentName": "AWS-UpdateSSMAgent",
              "DocumentVersion": "1"
          }
      },
              ...
  ],
  "NextToken": "--token string truncated--"
}
```
**Untuk mencantumkan item kepatuhan untuk instance dan ID asosiasi tertentu**  
Contoh ini mencantumkan semua item kepatuhan untuk instance dan ID asosiasi yang ditentukan.  
Perintah:  

```
aws ssm list-compliance-items --resource-ids "i-1234567890abcdef0" --resource-types "ManagedInstance" --filters "Key=ComplianceType,Values=Association,Type=EQUAL" "Key=Id,Values=e4c2ed6d-516f-41aa-aa2a-0123456789ab,Type=EQUAL"
```
**Untuk mencantumkan item kepatuhan untuk sebuah instans setelah tanggal dan waktu tertentu**  
Contoh ini mencantumkan semua item kepatuhan untuk sebuah instance setelah tanggal dan waktu yang ditentukan.  
Perintah:  

```
aws ssm list-compliance-items --resource-ids "i-1234567890abcdef0" --resource-types "ManagedInstance" --filters "Key=ExecutionTime,Values=2019-02-18T16:00:00Z,Type=GREATER_THAN"
```
+  Untuk detail API, lihat [ListComplianceItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-compliance-items.html)di *Referensi AWS CLI Perintah*. 

### `list-compliance-summaries`
<a name="ssm_ListComplianceSummaries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-compliance-summaries`.

**AWS CLI**  
**Untuk membuat daftar ringkasan kepatuhan untuk semua jenis kepatuhan**  
Contoh ini mencantumkan ringkasan kepatuhan untuk semua jenis kepatuhan di akun Anda.  
Perintah:  

```
aws ssm list-compliance-summaries
```
Output:  

```
{
  "ComplianceSummaryItems": [
      {
          "ComplianceType": "Association",
          "CompliantSummary": {
              "CompliantCount": 2,
              "SeveritySummary": {
                  "CriticalCount": 0,
                  "HighCount": 0,
                  "MediumCount": 0,
                  "LowCount": 0,
                  "InformationalCount": 0,
                  "UnspecifiedCount": 2
              }
          },
          "NonCompliantSummary": {
              "NonCompliantCount": 0,
              "SeveritySummary": {
                  "CriticalCount": 0,
                  "HighCount": 0,
                  "MediumCount": 0,
                  "LowCount": 0,
                  "InformationalCount": 0,
                  "UnspecifiedCount": 0
              }
          }
      },
      {
          "ComplianceType": "Patch",
          "CompliantSummary": {
              "CompliantCount": 1,
              "SeveritySummary": {
                  "CriticalCount": 0,
                  "HighCount": 0,
                  "MediumCount": 0,
                  "LowCount": 0,
                  "InformationalCount": 0,
                  "UnspecifiedCount": 1
              }
          },
          "NonCompliantSummary": {
              "NonCompliantCount": 1,
              "SeveritySummary": {
                  "CriticalCount": 1,
                  "HighCount": 0,
                  "MediumCount": 0,
                  "LowCount": 0,
                  "InformationalCount": 0,
                  "UnspecifiedCount": 0
              }
          }
      },
              ...
  ],
  "NextToken": "eyJOZXh0VG9rZW4iOiBudWxsLCAiYm90b190cnVuY2F0ZV9hbW91bnQiOiAyfQ=="
}
```
**Untuk membuat daftar ringkasan kepatuhan untuk jenis kepatuhan tertentu**  
Contoh ini mencantumkan ringkasan kepatuhan untuk jenis kepatuhan Patch.  
Perintah:  

```
aws ssm list-compliance-summaries --filters "Key=ComplianceType,Values=Patch,Type=EQUAL"
```
+  Untuk detail API, lihat [ListComplianceSummaries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-compliance-summaries.html)di *Referensi AWS CLI Perintah*. 

### `list-document-metadata-history`
<a name="ssm_ListDocumentMetadataHistory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-document-metadata-history`.

**AWS CLI**  
**Contoh: Untuk melihat riwayat persetujuan dan status untuk templat perubahan**  
`list-document-metadata-history`Contoh berikut mengembalikan riwayat persetujuan untuk perubahan template Change Manager yang ditentukan.  

```
aws ssm list-document-metadata-history \
    --name MyChangeManageTemplate \
    --metadata DocumentReviews
```
Output:  

```
{
    "Name": "MyChangeManagerTemplate",
    "DocumentVersion": "1",
    "Author": "arn:aws:iam::111222333444;:user/JohnDoe",
    "Metadata": {
        "ReviewerResponse": [
            {
                "CreateTime": "2021-07-30T11:58:28.025000-07:00",
                "UpdatedTime": "2021-07-30T12:01:19.274000-07:00",
                "ReviewStatus": "APPROVED",
                "Comment": [
                    {
                        "Type": "COMMENT",
                        "Content": "I approve this template version"
                    }
                ],
                "Reviewer": "arn:aws:iam::111222333444;:user/ShirleyRodriguez"
            },
            {
                "CreateTime": "2021-07-30T11:58:28.025000-07:00",
                "UpdatedTime": "2021-07-30T11:58:28.025000-07:00",
                "ReviewStatus": "PENDING"
            }
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Meninjau dan menyetujui atau menolak templat perubahan di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/change-templates-review.html) Pengguna *AWS Systems Manager*.  
+  Untuk detail API, lihat [ListDocumentMetadataHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-document-metadata-history.html)di *Referensi AWS CLI Perintah*. 

### `list-document-versions`
<a name="ssm_ListDocumentVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-document-versions`.

**AWS CLI**  
**Untuk daftar versi dokumen**  
`list-document-versions`Contoh berikut mencantumkan semua versi untuk dokumen Systems Manager.  

```
aws ssm list-document-versions \
    --name "Example"
```
Output:  

```
{
    "DocumentVersions": [
        {
            "Name": "Example",
            "DocumentVersion": "1",
            "CreatedDate": 1583257938.266,
            "IsDefaultVersion": true,
            "DocumentFormat": "YAML",
            "Status": "Active"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengirim Perintah yang Menggunakan Parameter Versi Dokumen](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command-version.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ListDocumentVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-document-versions.html)di *Referensi AWS CLI Perintah*. 

### `list-documents`
<a name="ssm_ListDocuments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-documents`.

**AWS CLI**  
**Contoh 1: Untuk daftar dokumen**  
`list-documents`Contoh berikut mencantumkan dokumen yang dimiliki oleh akun permintaan yang ditandai dengan tag kustom.  

```
aws ssm list-documents \
    --filters Key=Owner,Values=Self Key=tag:DocUse,Values=Testing
```
Output:  

```
{
    "DocumentIdentifiers": [
        {
            "Name": "Example",
            "Owner": "29884EXAMPLE",
            "PlatformTypes": [
                "Windows",
                "Linux"
            ],
            "DocumentVersion": "1",
            "DocumentType": "Automation",
            "SchemaVersion": "0.3",
            "DocumentFormat": "YAML",
            "Tags": [
                {
                    "Key": "DocUse",
                    "Value": "Testing"
                }
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Dokumen AWS Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-ssm-docs.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk daftar dokumen bersama**  
`list-documents`Contoh berikut mencantumkan dokumen bersama, termasuk dokumen bersama pribadi yang tidak dimiliki oleh AWS.  

```
aws ssm list-documents \
    --filters Key=Name,Values=sharedDocNamePrefix  Key=Owner,Values=Private
```
Output:  

```
{
    "DocumentIdentifiers": [
        {
            "Name": "Example",
            "Owner": "12345EXAMPLE",
            "PlatformTypes": [
                "Windows",
                "Linux"
            ],
            "DocumentVersion": "1",
            "DocumentType": "Command",
            "SchemaVersion": "0.3",
            "DocumentFormat": "YAML",
            "Tags": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Dokumen AWS Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-ssm-docs.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ListDocuments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-documents.html)di *Referensi AWS CLI Perintah*. 

### `list-inventory-entries`
<a name="ssm_ListInventoryEntries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-inventory-entries`.

**AWS CLI**  
**Contoh 1: Untuk melihat entri jenis inventaris tertentu untuk sebuah instance**  
`list-inventory-entries`Contoh berikut ini mencantumkan entri inventaris untuk jenis AWS inventaris:Aplikasi pada instance tertentu.  

```
aws ssm list-inventory-entries \
    --instance-id "i-1234567890abcdef0" \
    --type-name "AWS:Application"
```
Output:  

```
{
  "TypeName": "AWS:Application",
  "InstanceId": "i-1234567890abcdef0",
  "SchemaVersion": "1.1",
  "CaptureTime": "2019-02-15T12:17:55Z",
  "Entries": [
    {
      "Architecture": "i386",
      "Name": "Amazon SSM Agent",
      "PackageId": "{88a60be2-89a1-4df8-812a-80863c2a2b68}",
      "Publisher": "Amazon Web Services",
      "Version": "2.3.274.0"
    },
    {
      "Architecture": "x86_64",
      "InstalledTime": "2018-05-03T13:42:34Z",
      "Name": "AmazonCloudWatchAgent",
      "Publisher": "",
      "Version": "1.200442.0"
    }
  ]
}
```
**Contoh 2: Untuk melihat entri inventaris kustom yang ditetapkan ke sebuah instance**  
`list-inventory-entries`Contoh berikut mencantumkan entri inventaris kustom yang ditetapkan ke sebuah instance.  

```
aws ssm list-inventory-entries \
    --instance-id "i-1234567890abcdef0" \
    --type-name "Custom:RackInfo"
```
Output:  

```
{
  "TypeName": "Custom:RackInfo",
  "InstanceId": "i-1234567890abcdef0",
  "SchemaVersion": "1.0",
  "CaptureTime": "2021-05-22T10:01:01Z",
  "Entries": [
    {
      "RackLocation": "Bay B/Row C/Rack D/Shelf E"
    }
  ]
}
```
+  Untuk detail API, lihat [ListInventoryEntries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-inventory-entries.html)di *Referensi AWS CLI Perintah*. 

### `list-ops-item-related-items`
<a name="ssm_ListOpsItemRelatedItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-ops-item-related-items`.

**AWS CLI**  
**Untuk membuat daftar sumber daya item terkait dari sebuah OpsItem**  
`list-ops-item-related-items`Contoh berikut mencantumkan sumber daya item terkait dari sebuah. OpsItem  

```
aws ssm list-ops-item-related-items \
    --ops-item-id "oi-f99f2EXAMPLE"
```
Output:  

```
{
    "Summaries": [
        {
            "OpsItemId": "oi-f99f2EXAMPLE",
            "AssociationId": "e2036148-cccb-490e-ac2a-390e5EXAMPLE",
            "ResourceType": "AWS::SSMIncidents::IncidentRecord",
            "AssociationType": "IsParentOf",
            "ResourceUri": "arn:aws:ssm-incidents::111122223333:incident-record/example-response/64bd9b45-1d0e-2622-840d-03a87a1451fa",
            "CreatedBy": {
                "Arn": "arn:aws:sts::111122223333:assumed-role/AWSServiceRoleForIncidentManager/IncidentResponse"
            },
            "CreatedTime": "2021-08-11T18:47:14.994000+00:00",
            "LastModifiedBy": {
                "Arn": "arn:aws:sts::111122223333:assumed-role/AWSServiceRoleForIncidentManager/IncidentResponse"
            },
            "LastModifiedTime": "2021-08-11T18:47:14.994000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan insiden Manajer Insiden OpsCenter di](https://docs.aws.amazon.com/systems-manager/latest/userguide/OpsCenter-create-OpsItems-for-Incident-Manager.html) *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ListOpsItemRelatedItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-ops-item-related-items.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-compliance-summaries`
<a name="ssm_ListResourceComplianceSummaries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-compliance-summaries`.

**AWS CLI**  
**Untuk membuat daftar jumlah ringkasan kepatuhan tingkat sumber daya**  
Contoh ini mencantumkan jumlah ringkasan kepatuhan tingkat sumber daya.  
Perintah:  

```
aws ssm list-resource-compliance-summaries
```
Output:  

```
{
  "ResourceComplianceSummaryItems": [
      {
          "ComplianceType": "Association",
          "ResourceType": "ManagedInstance",
          "ResourceId": "i-1234567890abcdef0",
          "Status": "COMPLIANT",
          "OverallSeverity": "UNSPECIFIED",
          "ExecutionSummary": {
              "ExecutionTime": 1550509273.0
          },
          "CompliantSummary": {
              "CompliantCount": 2,
              "SeveritySummary": {
                  "CriticalCount": 0,
                  "HighCount": 0,
                  "MediumCount": 0,
                  "LowCount": 0,
                  "InformationalCount": 0,
                  "UnspecifiedCount": 2
              }
          },
          "NonCompliantSummary": {
              "NonCompliantCount": 0,
              "SeveritySummary": {
                  "CriticalCount": 0,
                  "HighCount": 0,
                  "MediumCount": 0,
                  "LowCount": 0,
                  "InformationalCount": 0,
                  "UnspecifiedCount": 0
              }
          }
      },
      {
          "ComplianceType": "Patch",
          "ResourceType": "ManagedInstance",
          "ResourceId": "i-9876543210abcdef0",
          "Status": "COMPLIANT",
          "OverallSeverity": "UNSPECIFIED",
          "ExecutionSummary": {
              "ExecutionTime": 1550248550.0,
              "ExecutionId": "7abb6378-a4a5-4f10-8312-0123456789ab",
              "ExecutionType": "Command"
          },
          "CompliantSummary": {
              "CompliantCount": 397,
              "SeveritySummary": {
                  "CriticalCount": 0,
                  "HighCount": 0,
                  "MediumCount": 0,
                  "LowCount": 0,
                  "InformationalCount": 0,
                  "UnspecifiedCount": 397
              }
          },
          "NonCompliantSummary": {
              "NonCompliantCount": 0,
              "SeveritySummary": {
                  "CriticalCount": 0,
                  "HighCount": 0,
                  "MediumCount": 0,
                  "LowCount": 0,
                  "InformationalCount": 0,
                  "UnspecifiedCount": 0
              }
          }
      }
  ],
  "NextToken": "--token string truncated--"
}
```
**Untuk membuat daftar ringkasan kepatuhan tingkat sumber daya untuk jenis kepatuhan tertentu**  
Contoh ini mencantumkan ringkasan kepatuhan tingkat sumber daya untuk jenis kepatuhan Patch.  
Perintah:  

```
aws ssm list-resource-compliance-summaries --filters "Key=ComplianceType,Values=Patch,Type=EQUAL"
```
+  Untuk detail API, lihat [ListResourceComplianceSummaries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-resource-compliance-summaries.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-data-sync`
<a name="ssm_ListResourceDataSync_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-data-sync`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi sinkronisasi data sumber daya**  
Contoh ini mengambil informasi tentang konfigurasi sinkronisasi data sumber daya Anda.  

```
aws ssm list-resource-data-sync
```
Output:  

```
{
    "ResourceDataSyncItems": [
        {
            "SyncName": "MyResourceDataSync",
            "S3Destination": {
                "BucketName": "ssm-resource-data-sync",
                "SyncFormat": "JsonSerDe",
                "Region": "us-east-1"
            },
            "LastSyncTime": 1550261472.003,
            "LastSuccessfulSyncTime": 1550261472.003,
            "LastStatus": "Successful",
            "SyncCreatedTime": 1543235736.72,
            "LastSyncStatusMessage": "The sync was successfully completed"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourceDataSync](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-resource-data-sync.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="ssm_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mencantumkan tag yang diterapkan ke baseline patch**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk baseline patch.  

```
aws ssm list-tags-for-resource \
    --resource-type "PatchBaseline" \
    --resource-id "pb-0123456789abcdef0"
```
Output:  

```
{
    "TagList": [
        {
            "Key": "Environment",
            "Value": "Production"
        },
        {
            "Key": "Region",
            "Value": "EMEA"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai AWS Sumber Daya](https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html) di *Referensi AWS Umum*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `modify-document-permission`
<a name="ssm_ModifyDocumentPermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-document-permission`.

**AWS CLI**  
**Untuk memodifikasi izin dokumen**  
`modify-document-permission`Contoh berikut membagikan dokumen Systems Manager secara publik.  

```
aws ssm modify-document-permission \
    --name "Example" \
    --permission-type "Share" \
    --account-ids-to-add "All"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Membagikan Dokumen Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/ssm-how-to-share.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ModifyDocumentPermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/modify-document-permission.html)di *Referensi AWS CLI Perintah*. 

### `put-compliance-items`
<a name="ssm_PutComplianceItems_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-compliance-items`.

**AWS CLI**  
**Untuk mendaftarkan jenis kepatuhan dan rincian kepatuhan ke instans yang ditunjuk**  
Contoh ini mendaftarkan jenis kepatuhan `Custom:AVCheck` ke instance terkelola yang ditentukan. Tidak ada output jika perintah berhasil.  
Perintah:  

```
aws ssm put-compliance-items --resource-id "i-1234567890abcdef0" --resource-type "ManagedInstance" --compliance-type "Custom:AVCheck" --execution-summary "ExecutionTime=2019-02-18T16:00:00Z" --items "Id=Version2.0,Title=ScanHost,Severity=CRITICAL,Status=COMPLIANT"
```
+  Untuk detail API, lihat [PutComplianceItems](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/put-compliance-items.html)di *Referensi AWS CLI Perintah*. 

### `put-inventory`
<a name="ssm_PutInventory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-inventory`.

**AWS CLI**  
**Untuk menetapkan metadata pelanggan ke sebuah instance**  
Contoh ini menetapkan informasi lokasi rak ke instans. Tidak ada output jika perintah berhasil.  
Perintah (Linux):  

```
aws ssm put-inventory --instance-id "i-016648b75dd622dab" --items '[{"TypeName": "Custom:RackInfo","SchemaVersion": "1.0","CaptureTime": "2019-01-22T10:01:01Z","Content":[{"RackLocation": "Bay B/Row C/Rack D/Shelf E"}]}]'
```
Perintah (Windows):  

```
aws ssm put-inventory --instance-id "i-016648b75dd622dab" --items "TypeName=Custom:RackInfo,SchemaVersion=1.0,CaptureTime=2019-01-22T10:01:01Z,Content=[{RackLocation='Bay B/Row C/Rack D/Shelf F'}]"
```
+  Untuk detail API, lihat [PutInventory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/put-inventory.html)di *Referensi AWS CLI Perintah*. 

### `put-parameter`
<a name="ssm_PutParameter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-parameter`.

**AWS CLI**  
**Contoh 1: Untuk mengubah nilai parameter**  
`put-parameter`Contoh berikut mengubah nilai parameter yang ditentukan.  

```
aws ssm put-parameter \
    --name "MyStringParameter" \
    --type "String" \
    --value "Vici" \
    --overwrite
```
Output:  

```
{
    "Version": 2,
    "Tier": "Standard"
}
```
Untuk informasi selengkapnya, lihat [Membuat parameter Systems Manager (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/param-create-cli.html), [Mengelola tingkatan parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-advanced-parameters.html), dan [Bekerja dengan kebijakan parameter di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-policies.html) Pengguna *AWS Systems Manager*.  
**Contoh 2: Untuk membuat parameter lanjutan**  
`put-parameter`Contoh berikut menciptakan parameter lanjutan.  

```
aws ssm put-parameter \
    --name "MyAdvancedParameter" \
    --description "This is an advanced parameter" \
    --value "Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat [truncated]" \
    --type "String" \
    --tier Advanced
```
Output:  

```
{
    "Version": 1,
    "Tier": "Advanced"
}
```
Untuk informasi selengkapnya, lihat [Membuat parameter Systems Manager (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/param-create-cli.html), [Mengelola tingkatan parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-advanced-parameters.html), dan [Bekerja dengan kebijakan parameter di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-policies.html) Pengguna *AWS Systems Manager*.  
**Contoh 3: Untuk mengonversi parameter standar ke parameter lanjutan**  
`put-parameter`Contoh berikut mengubah parameter standar yang ada menjadi parameter lanjutan.  

```
aws ssm put-parameter \
    --name "MyConvertedParameter" \
    --value "abc123" \
    --type "String" \
    --tier Advanced \
    --overwrite
```
Output:  

```
{
    "Version": 2,
    "Tier": "Advanced"
}
```
Untuk informasi selengkapnya, lihat [Membuat parameter Systems Manager (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/param-create-cli.html), [Mengelola tingkatan parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-advanced-parameters.html), dan [Bekerja dengan kebijakan parameter di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-policies.html) Pengguna *AWS Systems Manager*.  
**Contoh 4: Untuk membuat parameter dengan kebijakan terlampir**  
`put-parameter`Contoh berikut membuat parameter lanjutan dengan kebijakan parameter terlampir.  

```
aws ssm put-parameter \
    --name "/Finance/Payroll/q2accesskey" \
    --value "P@sSwW)rd" \
    --type "SecureString" \
    --tier Advanced \
    --policies "[{\"Type\":\"Expiration\",\"Version\":\"1.0\",\"Attributes\":{\"Timestamp\":\"2020-06-30T00:00:00.000Z\"}},{\"Type\":\"ExpirationNotification\",\"Version\":\"1.0\",\"Attributes\":{\"Before\":\"5\",\"Unit\":\"Days\"}},{\"Type\":\"NoChangeNotification\",\"Version\":\"1.0\",\"Attributes\":{\"After\":\"60\",\"Unit\":\"Days\"}}]"
```
Output:  

```
{
    "Version": 1,
    "Tier": "Advanced"
}
```
Untuk informasi selengkapnya, lihat [Membuat parameter Systems Manager (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/param-create-cli.html), [Mengelola tingkatan parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-advanced-parameters.html), dan [Bekerja dengan kebijakan parameter di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-policies.html) Pengguna *AWS Systems Manager*.  
**Contoh 5: Untuk menambahkan kebijakan ke parameter yang ada**  
`put-parameter`Contoh berikut melampirkan kebijakan ke parameter lanjutan yang ada.  

```
aws ssm put-parameter \
    --name "/Finance/Payroll/q2accesskey" \
    --value "N3wP@sSwW)rd" \
    --type "SecureString" \
    --tier Advanced \
    --policies "[{\"Type\":\"Expiration\",\"Version\":\"1.0\",\"Attributes\":{\"Timestamp\":\"2020-06-30T00:00:00.000Z\"}},{\"Type\":\"ExpirationNotification\",\"Version\":\"1.0\",\"Attributes\":{\"Before\":\"5\",\"Unit\":\"Days\"}},{\"Type\":\"NoChangeNotification\",\"Version\":\"1.0\",\"Attributes\":{\"After\":\"60\",\"Unit\":\"Days\"}}]"
    --overwrite
```
Output:  

```
{
    "Version": 2,
    "Tier": "Advanced"
}
```
Untuk informasi selengkapnya, lihat [Membuat parameter Systems Manager (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/param-create-cli.html), [Mengelola tingkatan parameter](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-advanced-parameters.html), dan [Bekerja dengan kebijakan parameter di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-policies.html) Pengguna *AWS Systems Manager*.  
+  Untuk detail API, lihat [PutParameter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/put-parameter.html)di *Referensi AWS CLI Perintah*. 

### `register-default-patch-baseline`
<a name="ssm_RegisterDefaultPatchBaseline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-default-patch-baseline`.

**AWS CLI**  
**Untuk mengatur baseline patch default**  
`register-default-patch-baseline`Contoh berikut mendaftarkan baseline patch kustom yang ditentukan sebagai baseline patch default untuk jenis sistem operasi yang didukungnya.  

```
aws ssm register-default-patch-baseline \
    --baseline-id "pb-abc123cf9bEXAMPLE"
```
Output:  

```
{
    "BaselineId":"pb-abc123cf9bEXAMPLE"
}
```
`register-default-patch-baseline`Contoh berikut mendaftarkan baseline patch default yang disediakan oleh for AWS CentOS sebagai baseline patch default.  

```
aws ssm register-default-patch-baseline \
    --baseline-id "arn:aws:ssm:us-east-2:733109147000:patchbaseline/pb-0574b43a65ea646ed"
```
Output:  

```
{
    "BaselineId":"pb-abc123cf9bEXAMPLE"
}
```
Untuk informasi [selengkapnya, lihat Tentang Garis Dasar Patch Standar dan Kustom di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-patch-baselines.html) Pengguna *AWS Systems Manager*.  
+  Untuk detail API, lihat [RegisterDefaultPatchBaseline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/register-default-patch-baseline.html)di *Referensi AWS CLI Perintah*. 

### `register-patch-baseline-for-patch-group`
<a name="ssm_RegisterPatchBaselineForPatchGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-patch-baseline-for-patch-group`.

**AWS CLI**  
**Untuk mendaftarkan baseline patch untuk grup patch**  
`register-patch-baseline-for-patch-group`Contoh berikut mendaftarkan baseline patch untuk grup patch.  

```
aws ssm register-patch-baseline-for-patch-group \
    --baseline-id "pb-045f10b4f382baeda" \
    --patch-group "Production"
```
Output:  

```
{
    "BaselineId": "pb-045f10b4f382baeda",
    "PatchGroup": "Production"
}
```
*Untuk informasi selengkapnya, lihat Membuat Grup Patch < https://docs.aws.amazon.com/systems-manager/ latest/userguide/sysman - patch-group-tagging .html>\$1\$1 dan [Menambahkan Grup Patch ke Garis Dasar Patch di](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-patch-group-patchbaseline.html) Panduan Pengguna Systems Manager AWS .*  
+  Untuk detail API, lihat [RegisterPatchBaselineForPatchGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/register-patch-baseline-for-patch-group.html)di *Referensi AWS CLI Perintah*. 

### `register-target-with-maintenance-window`
<a name="ssm_RegisterTargetWithMaintenanceWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-target-with-maintenance-window`.

**AWS CLI**  
**Contoh 1: Untuk mendaftarkan satu target dengan jendela pemeliharaan**  
`register-target-with-maintenance-window`Contoh berikut mendaftarkan sebuah instance dengan jendela pemeliharaan.  

```
aws ssm register-target-with-maintenance-window \
    --window-id "mw-ab12cd34ef56gh78" \
    --target "Key=InstanceIds,Values=i-0000293ffd8c57862" \
    --owner-information "Single instance" \
    --resource-type "INSTANCE"
```
Output:  

```
{
    "WindowTargetId":"1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d-1a2"
}
```
**Contoh 2: Untuk mendaftarkan beberapa target dengan jendela pemeliharaan menggunakan instance IDs**  
`register-target-with-maintenance-window`Contoh berikut mendaftarkan dua instance dengan jendela pemeliharaan dengan menentukan instance mereka. IDs  

```
aws ssm register-target-with-maintenance-window \
    --window-id "mw-ab12cd34ef56gh78" \
    --target "Key=InstanceIds,Values=i-0000293ffd8c57862,i-0cb2b964d3e14fd9f" \
    --owner-information "Two instances in a list" \
    --resource-type "INSTANCE"
```
Output:  

```
{
    "WindowTargetId":"1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d-1a2"
}
```
**Contoh 3: Untuk mendaftarkan target dengan jendela pemeliharaan menggunakan tag sumber daya**  
`register-target-with-maintenance-window`Contoh berikut mendaftarkan instance dengan jendela pemeliharaan dengan menentukan tag sumber daya yang telah diterapkan ke instance.  

```
aws ssm register-target-with-maintenance-window \
    --window-id "mw-06cf17cbefcb4bf4f" \
    --targets "Key=tag:Environment,Values=Prod" "Key=Role,Values=Web" \
    --owner-information "Production Web Servers" \
    --resource-type "INSTANCE"
```
Output:  

```
{
    "WindowTargetId":"1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d-1a2"
}
```
**Contoh 4: Untuk mendaftarkan target menggunakan sekelompok kunci tag**  
`register-target-with-maintenance-window`Contoh berikut mendaftarkan instance yang semuanya memiliki satu atau lebih kunci tag yang ditetapkan untuk mereka, terlepas dari nilai kunci mereka.  

```
aws ssm register-target-with-maintenance-window \
    --window-id "mw-0c50858d01EXAMPLE" \
    --resource-type "INSTANCE" \
    --target "Key=tag-key,Values=Name,Instance-Type,CostCenter"
```
Output:  

```
{
    "WindowTargetId":"1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d-1a2"
}
```
**Contoh 5: Untuk mendaftarkan target menggunakan nama grup sumber daya**  
`register-target-with-maintenance-window`Contoh berikut mendaftarkan grup sumber daya tertentu, terlepas dari jenis sumber daya yang dikandungnya.  

```
aws ssm register-target-with-maintenance-window \
    --window-id "mw-0c50858d01EXAMPLE" \
    --resource-type "RESOURCE_GROUP" \
    --target "Key=resource-groups:Name,Values=MyResourceGroup"
```
Output:  

```
{
    "WindowTargetId":"1a2b3c4d-1a2b-1a2b-1a2b-1a2b3c4d-1a2"
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Instans Target dengan Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-targets.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [RegisterTargetWithMaintenanceWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/register-target-with-maintenance-window.html)di *Referensi AWS CLI Perintah*. 

### `register-task-with-maintenance-window`
<a name="ssm_RegisterTaskWithMaintenanceWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-task-with-maintenance-window`.

**AWS CLI**  
**Contoh 1: Untuk mendaftarkan tugas Otomasi dengan jendela pemeliharaan**  
`register-task-with-maintenance-window`Contoh berikut mendaftarkan tugas Otomasi dengan jendela pemeliharaan yang ditargetkan pada sebuah instance.  

```
aws ssm register-task-with-maintenance-window \
    --window-id "mw-082dcd7649EXAMPLE" \
    --targets Key=InstanceIds,Values=i-1234520122EXAMPLE \
    --task-arn AWS-RestartEC2Instance \
    --service-role-arn arn:aws:iam::111222333444:role/SSM --task-type AUTOMATION \
    --task-invocation-parameters "{\"Automation\":{\"DocumentVersion\":\"\$LATEST\",\"Parameters\":{\"InstanceId\":[\"{{RESOURCE_ID}}\"]}}}" \
    --priority 0 \
    --max-concurrency 1 \
    --max-errors 1 \
    --name "AutomationExample" \
    --description "Restarting EC2 Instance for maintenance"
```
Output:  

```
{
    "WindowTaskId":"11144444-5555-6666-7777-88888888"
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Tugas dengan Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-tasks.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk mendaftarkan tugas Lambda dengan Jendela Pemeliharaan**  
`register-task-with-maintenance-window`Contoh berikut mendaftarkan tugas Lambda dengan Jendela Pemeliharaan yang ditargetkan pada sebuah instance.  

```
aws ssm register-task-with-maintenance-window \
    --window-id "mw-082dcd7649dee04e4" \
    --targets Key=InstanceIds,Values=i-12344d305eEXAMPLE \
    --task-arn arn:aws:lambda:us-east-1:111222333444:function:SSMTestLAMBDA \
    --service-role-arn arn:aws:iam::111222333444:role/SSM \
    --task-type LAMBDA \
    --task-invocation-parameters '{"Lambda":{"Payload":"{\"InstanceId\":\"{{RESOURCE_ID}}\",\"targetType\":\"{{TARGET_TYPE}}\"}","Qualifier":"$LATEST"}}' \
    --priority 0 \
    --max-concurrency 10 \
    --max-errors 5 \
    --name "Lambda_Example" \
    --description "My Lambda Example"
```
Output:  

```
{
    "WindowTaskId":"22244444-5555-6666-7777-88888888"
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Tugas dengan Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-tasks.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 3: Untuk mendaftarkan tugas Run Command dengan jendela pemeliharaan**  
`register-task-with-maintenance-window`Contoh berikut mendaftarkan tugas Run Command dengan jendela pemeliharaan yang ditargetkan pada sebuah instance.  

```
aws ssm register-task-with-maintenance-window \
    --window-id "mw-082dcd7649dee04e4" \
    --targets "Key=InstanceIds,Values=i-12344d305eEXAMPLE" \
    --service-role-arn "arn:aws:iam::111222333444:role/SSM" \
    --task-type "RUN_COMMAND" \
    --name "SSMInstallPowerShellModule" \
    --task-arn "AWS-InstallPowerShellModule" \
    --task-invocation-parameters "{\"RunCommand\":{\"Comment\":\"\",\"OutputS3BucketName\":\"runcommandlogs\",\"Parameters\":{\"commands\":[\"Get-Module -ListAvailable\"],\"executionTimeout\":[\"3600\"],\"source\":[\"https:\/\/gallery.technet.microsoft.com\/EZOut-33ae0fb7\/file\/110351\/1\/EZOut.zip\"],\"workingDirectory\":[\"\\\\\"]},\"TimeoutSeconds\":600}}" \
    --max-concurrency 1 \
    --max-errors 1 \
    --priority 10
```
Output:  

```
{
    "WindowTaskId":"33344444-5555-6666-7777-88888888"
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Tugas dengan Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-tasks.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 4: Untuk mendaftarkan tugas Step Functions dengan jendela pemeliharaan**  
`register-task-with-maintenance-window`Contoh berikut mendaftarkan tugas Step Functions dengan jendela pemeliharaan yang ditargetkan pada sebuah instance.  

```
aws ssm register-task-with-maintenance-window \
    --window-id "mw-1234d787d6EXAMPLE" \
    --targets Key=WindowTargetIds,Values=12347414-69c3-49f8-95b8-ed2dcEXAMPLE \
    --task-arn arn:aws:states:us-east-1:111222333444:stateMachine:SSMTestStateMachine \
    --service-role-arn arn:aws:iam::111222333444:role/MaintenanceWindows \
    --task-type STEP_FUNCTIONS \
    --task-invocation-parameters '{"StepFunctions":{"Input":"{\"InstanceId\":\"{{RESOURCE_ID}}\"}"}}' \
    --priority 0 \
    --max-concurrency 10 \
    --max-errors 5 \
    --name "Step_Functions_Example" \
    --description "My Step Functions Example"
```
Output:  

```
{
    "WindowTaskId":"44444444-5555-6666-7777-88888888"
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Tugas dengan Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-tasks.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 5: Untuk mendaftarkan tugas menggunakan ID target windows pemeliharaan**  
`register-task-with-maintenance-window`Contoh berikut mendaftarkan tugas menggunakan ID target jendela pemeliharaan. ID target jendela pemeliharaan ada di output dari `aws ssm register-target-with-maintenance-window` perintah. Anda juga dapat mengambilnya dari output `aws ssm describe-maintenance-window-targets` perintah.  

```
aws ssm register-task-with-maintenance-window \
    --targets "Key=WindowTargetIds,Values=350d44e6-28cc-44e2-951f-4b2c9EXAMPLE" \
    --task-arn "AWS-RunShellScript" \
    --service-role-arn "arn:aws:iam::111222333444:role/MaintenanceWindowsRole" \
    --window-id "mw-ab12cd34eEXAMPLE" \
    --task-type "RUN_COMMAND" \
    --task-parameters  "{\"commands\":{\"Values\":[\"df\"]}}" \
    --max-concurrency 1 \
    --max-errors 1 \
    --priority 10
```
Output:  

```
{
    "WindowTaskId":"33344444-5555-6666-7777-88888888"
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan Tugas dengan Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/mw-cli-tutorial-tasks.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [RegisterTaskWithMaintenanceWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/register-task-with-maintenance-window.html)di *Referensi AWS CLI Perintah*. 

### `remove-tags-from-resource`
<a name="ssm_RemoveTagsFromResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-tags-from-resource`.

**AWS CLI**  
**Untuk menghapus tag dari baseline patch**  
`remove-tags-from-resource`Contoh berikut menghapus tag dari baseline patch.  

```
aws ssm remove-tags-from-resource \
    --resource-type "PatchBaseline" \
    --resource-id "pb-0123456789abcdef0" \
    --tag-keys "Region"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai AWS Sumber Daya](https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html) di *Referensi AWS Umum*.  
+  Untuk detail API, lihat [RemoveTagsFromResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/remove-tags-from-resource.html)di *Referensi AWS CLI Perintah*. 

### `reset-service-setting`
<a name="ssm_ResetServiceSetting_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-service-setting`.

**AWS CLI**  
**Untuk mengatur ulang setelan layanan untuk throughput Parameter Store**  
`reset-service-setting`Contoh berikut mengatur ulang setelan layanan untuk throughput Parameter Store di wilayah tertentu agar tidak lagi menggunakan peningkatan throughput.  

```
aws ssm reset-service-setting \
    --setting-id arn:aws:ssm:us-east-1:123456789012:servicesetting/ssm/parameter-store/high-throughput-enabled
```
Output:  

```
{
    "ServiceSetting": {
        "SettingId": "/ssm/parameter-store/high-throughput-enabled",
        "SettingValue": "false",
        "LastModifiedDate": 1555532818.578,
        "LastModifiedUser": "System",
        "ARN": "arn:aws:ssm:us-east-1:123456789012:servicesetting/ssm/parameter-store/high-throughput-enabled",
        "Status": "Default"
    }
}
```
Untuk informasi selengkapnya, lihat [Meningkatkan Throughput Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-throughput.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ResetServiceSetting](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/reset-service-setting.html)di *Referensi AWS CLI Perintah*. 

### `resume-session`
<a name="ssm_ResumeSession_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`resume-session`.

**AWS CLI**  
**Untuk melanjutkan sesi Manajer Sesi**  
`resume-session`Contoh ini melanjutkan sesi Session Manager dengan instance setelah terputus. Perhatikan bahwa perintah interaktif ini memerlukan plugin Session Manager untuk diinstal pada mesin klien yang melakukan panggilan.  

```
aws ssm resume-session \
    --session-id Mary-Major-07a16060613c408b5
```
Output:  

```
{
    "SessionId": "Mary-Major-07a16060613c408b5",
    "TokenValue": "AAEAAVbTGsaOnyvcUoNGqifbv5r/8lgxuQljCuY8qVcvOnoBAAAAAFxtd3jIXAFUUXGTJ7zF/AWJPwDviOlF5p3dlAgrqVIVO6IEXhkHLz0/1gXKRKEME71E6TLOplLDJAMZ+kREejkZu4c5AxMkrQjMF+gtHP1bYJKTwtHQd1wjulPLexO8SHl7g5R/wekrj6WsDUpnEegFBfGftpAIz2GXQVfTJXKfkc5qepQ11C11DOIT2dozOqXgHwfQHfAKLErM5dWDZqKwyT1Z3iw7unQdm3p5qsbrugiOZ7CRANTE+ihfGa6MEJJ97Jmat/a2TspEnOjNn9Mvu5iwXIW2yCvWZrGUj+/QI5Xr7s1XJBEnSKR54o4fN0GV9RWl0RZsZm1m1ki0JJtiwwgZ",
    "StreamUrl": "wss://ssmmessages.us-east-2.amazonaws.com/v1/data-channel/Mary-Major-07a16060613c408b5?role=publish_subscribe"
}
```
Untuk informasi selengkapnya, lihat [Menginstal Plugin Session Manager untuk AWS CLI](https://docs.aws.amazon.com/systems-manager/latest/userguide/session-manager-working-with-install-plugin.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [ResumeSession](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/resume-session.html)di *Referensi AWS CLI Perintah*. 

### `send-automation-signal`
<a name="ssm_SendAutomationSignal_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-automation-signal`.

**AWS CLI**  
**Untuk mengirim sinyal ke eksekusi otomatisasi**  
`send-automation-signal`Contoh berikut mengirimkan sinyal Approve ke eksekusi Automation.  

```
aws ssm send-automation-signal \
    --automation-execution-id 73c8eef8-f4ee-4a05-820c-e354fEXAMPLE \
    --signal-type "Approve"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menjalankan Alur Kerja Otomasi dengan Penyetuju](https://docs.aws.amazon.com/systems-manager/latest/userguide/automation-working-executing-approval.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [SendAutomationSignal](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/send-automation-signal.html)di *Referensi AWS CLI Perintah*. 

### `send-command`
<a name="ssm_SendCommand_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`send-command`.

**AWS CLI**  
**Contoh 1: Untuk menjalankan perintah pada satu atau beberapa instance jarak jauh**  
`send-command`Contoh berikut menjalankan `echo` perintah pada instance target.  

```
aws ssm send-command \
    --document-name "AWS-RunShellScript" \
    --parameters 'commands=["echo HelloWorld"]' \
    --targets "Key=instanceids,Values=i-1234567890abcdef0" \
    --comment "echo HelloWorld"
```
Output:  

```
{
    "Command": {
        "CommandId": "92853adf-ba41-4cd6-9a88-142d1EXAMPLE",
        "DocumentName": "AWS-RunShellScript",
        "DocumentVersion": "",
        "Comment": "echo HelloWorld",
        "ExpiresAfter": 1550181014.717,
        "Parameters": {
            "commands": [
                "echo HelloWorld"
            ]
        },
        "InstanceIds": [
            "i-0f00f008a2dcbefe2"
        ],
        "Targets": [],
        "RequestedDateTime": 1550173814.717,
        "Status": "Pending",
        "StatusDetails": "Pending",
        "OutputS3BucketName": "",
        "OutputS3KeyPrefix": "",
        "MaxConcurrency": "50",
        "MaxErrors": "0",
        "TargetCount": 1,
        "CompletedCount": 0,
        "ErrorCount": 0,
        "DeliveryTimedOutCount": 0,
        "ServiceRole": "",
        "NotificationConfig": {
            "NotificationArn": "",
            "NotificationEvents": [],
            "NotificationType": ""
        },
        "CloudWatchOutputConfig": {
            "CloudWatchLogGroupName": "",
            "CloudWatchOutputEnabled": false
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Menjalankan Perintah Menggunakan Systems Manager Run Command](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk mendapatkan informasi IP tentang sebuah instance**  
`send-command`Contoh berikut mengambil informasi IP tentang sebuah instance.  

```
aws ssm send-command \
    --instance-ids "i-1234567890abcdef0" \
    --document-name "AWS-RunShellScript" \
    --comment "IP config" \
    --parameters "commands=ifconfig"
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Menjalankan Perintah Menggunakan Systems Manager Run Command](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 3: Untuk menjalankan perintah pada instance dengan tag tertentu**  
`send-command`Contoh berikut menjalankan perintah pada instance yang memiliki kunci tag “ENV” dan nilai “Dev”.  

```
aws ssm send-command \
    --targets "Key=tag:ENV,Values=Dev" \
    --document-name "AWS-RunShellScript" \
    --parameters "commands=ifconfig"
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Menjalankan Perintah Menggunakan Systems Manager Run Command](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 4: Untuk menjalankan perintah yang mengirimkan notifikasi SNS**  
`send-command`Contoh berikut menjalankan perintah yang mengirimkan notifikasi SNS untuk semua peristiwa notifikasi dan jenis `Command` notifikasi.  

```
aws ssm send-command \
    --instance-ids "i-1234567890abcdef0" \
    --document-name "AWS-RunShellScript" \
    --comment "IP config" \
    --parameters "commands=ifconfig" \
    --service-role-arn "arn:aws:iam::123456789012:role/SNS_Role" \
    --notification-config "NotificationArn=arn:aws:sns:us-east-1:123456789012:SNSTopicName,NotificationEvents=All,NotificationType=Command"
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Menjalankan Perintah Menggunakan Systems Manager Run Command](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 5: Untuk menjalankan perintah yang mengeluarkan ke S3 dan CloudWatch**  
`send-command`Contoh berikut menjalankan perintah yang mengeluarkan detail perintah ke bucket S3 dan ke grup CloudWatch log Log.  

```
aws ssm send-command \
    --instance-ids "i-1234567890abcdef0" \
    --document-name "AWS-RunShellScript" \
    --comment "IP config" \
    --parameters "commands=ifconfig" \
    --output-s3-bucket-name "s3-bucket-name" \
    --output-s3-key-prefix "runcommand" \
    --cloud-watch-output-config "CloudWatchOutputEnabled=true,CloudWatchLogGroupName=CWLGroupName"
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Menjalankan Perintah Menggunakan Systems Manager Run Command](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 6: Untuk menjalankan perintah pada beberapa instance dengan tag yang berbeda**  
`send-command`Contoh berikut menjalankan perintah pada instance dengan dua kunci tag dan nilai yang berbeda.  

```
aws ssm send-command \
    --document-name "AWS-RunPowerShellScript" \
    --parameters commands=["echo helloWorld"] \
    --targets Key=tag:Env,Values=Dev Key=tag:Role,Values=WebServers
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Menjalankan Perintah Menggunakan Systems Manager Run Command](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 7: Untuk menargetkan beberapa instance dengan kunci tag yang sama**  
`send-command`Contoh berikut menjalankan perintah pada instance yang memiliki kunci tag yang sama tetapi dengan nilai yang berbeda.  

```
aws ssm send-command \
    --document-name "AWS-RunPowerShellScript" \
    --parameters commands=["echo helloWorld"] \
    --targets Key=tag:Env,Values=Dev,Test
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Menjalankan Perintah Menggunakan Systems Manager Run Command](https://docs.aws.amazon.com/systems-manager/latest/userguide/run-command.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 8: Untuk menjalankan perintah yang menggunakan dokumen bersama**  
`send-command`Contoh berikut menjalankan dokumen bersama pada instance target.  

```
aws ssm send-command \
    --document-name "arn:aws:ssm:us-east-1:123456789012:document/ExampleDocument" \
    --targets "Key=instanceids,Values=i-1234567890abcdef0"
```
Lihat contoh 1 untuk output sampel.  
Untuk informasi selengkapnya, lihat [Menggunakan dokumen SSM bersama](https://docs.aws.amazon.com/systems-manager/latest/userguide/ssm-using-shared.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [SendCommand](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/send-command.html)di *Referensi AWS CLI Perintah*. 

### `start-associations-once`
<a name="ssm_StartAssociationsOnce_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-associations-once`.

**AWS CLI**  
**Untuk menjalankan asosiasi segera dan hanya satu kali**  
`start-associations-once`Contoh berikut menjalankan asosiasi yang ditentukan segera dan hanya sekali. Tidak ada output jika perintah berhasil.  

```
aws ssm start-associations-once \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Melihat riwayat asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-history.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [StartAssociationsOnce](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/start-associations-once.html)di *Referensi AWS CLI Perintah*. 

### `start-automation-execution`
<a name="ssm_StartAutomationExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-automation-execution`.

**AWS CLI**  
**Contoh 1: Untuk menjalankan dokumen otomatisasi**  
`start-automation-execution`Contoh berikut menjalankan dokumen Automation.  

```
aws ssm start-automation-execution \
    --document-name "AWS-UpdateLinuxAmi" \
    --parameters "AutomationAssumeRole=arn:aws:iam::123456789012:role/SSMAutomationRole,SourceAmiId=ami-EXAMPLE,IamInstanceProfileName=EC2InstanceRole"
```
Output:  

```
{
  "AutomationExecutionId": "4105a4fc-f944-11e6-9d32-0a1b2EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menjalankan Alur Kerja Otomasi Secara Manual](https://docs.aws.amazon.com/systems-manager/latest/userguide/automation-working-executing-manually.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk menjalankan dokumen otomatisasi bersama**  
`start-automation-execution`Contoh berikut menjalankan dokumen Otomasi bersama.  

```
aws ssm start-automation-execution \
    --document-name "arn:aws:ssm:us-east-1:123456789012:document/ExampleDocument"
```
Output:  

```
{
  "AutomationExecutionId": "4105a4fc-f944-11e6-9d32-0a1b2EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Menggunakan dokumen SSM bersama](https://docs.aws.amazon.com/systems-manager/latest/userguide/ssm-using-shared.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [StartAutomationExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/start-automation-execution.html)di *Referensi AWS CLI Perintah*. 

### `start-change-request-execution`
<a name="ssm_StartChangeRequestExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-change-request-execution`.

**AWS CLI**  
**Contoh 1: Untuk memulai permintaan perubahan**  
`start-change-request-execution`Contoh berikut memulai permintaan perubahan dengan opsi minimal yang ditentukan.  

```
aws ssm start-change-request-execution \
    --change-request-name MyChangeRequest \
    --document-name AWS-HelloWorldChangeTemplate \
    --runbooks '[{"DocumentName": "AWS-HelloWorld","Parameters": {"AutomationAssumeRole": ["arn:aws:iam:us-east-2:1112223233444:role/MyChangeManagerAssumeRole"]}}]' \
    --parameters Approver="JohnDoe",ApproverType="IamUser",ApproverSnsTopicArn="arn:aws:sns:us-east-2:1112223233444:MyNotificationTopic"
```
Output:  

```
{
  "AutomationExecutionId": "9d32a4fc-f944-11e6-4105-0a1b2EXAMPLE"
}
```
**Contoh 2: Untuk memulai permintaan perubahan menggunakan file JSON eksternal**  
`start-automation-execution`Contoh berikut memulai permintaan perubahan dengan beberapa opsi yang ditentukan dalam file JSON.  

```
aws ssm start-change-request-execution \
    --cli-input-json file://MyChangeRequest.json
```
Isi dari `MyChangeRequest.json`:  

```
{
    "ChangeRequestName": "MyChangeRequest",
    "DocumentName": "AWS-HelloWorldChangeTemplate",
    "DocumentVersion": "$DEFAULT",
    "ScheduledTime": "2021-12-30T03:00:00",
    "ScheduledEndTime": "2021-12-30T03:05:00",
    "Tags": [
        {
            "Key": "Purpose",
            "Value": "Testing"
        }
    ],
    "Parameters": {
        "Approver": [
            "JohnDoe"
        ],
        "ApproverType": [
            "IamUser"
        ],
        "ApproverSnsTopicArn": [
            "arn:aws:sns:us-east-2:111222333444;:MyNotificationTopic
        ]
    },
    "Runbooks": [
        {
            "DocumentName": "AWS-HelloWorld",
            "DocumentVersion": "1",
            "MaxConcurrency": "1",
            "MaxErrors": "1",
            "Parameters": {
                "AutomationAssumeRole": [
                    "arn:aws:iam::111222333444:role/MyChangeManagerAssumeRole"
                ]
            }
        }
    ],
    "ChangeDetails": "### Document Name: HelloWorldChangeTemplate\n\n## What does this document do?\nThis change template demonstrates the feature set available for creating change templates for Change Manager. This template starts a Runbook workflow for the Automation document called AWS-HelloWorld.\n\n## Input Parameters\n* ApproverSnsTopicArn: (Required) Amazon Simple Notification Service ARN for approvers.\n* Approver: (Required) The name of the approver to send this request to.\n* ApproverType: (Required) The type of reviewer.\n  * Allowed Values: IamUser, IamGroup, IamRole, SSOGroup, SSOUser\n\n## Output Parameters\nThis document has no outputs \n"
}
```
Output:  

```
{
  "AutomationExecutionId": "9d32a4fc-f944-11e6-4105-0a1b2EXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Membuat permintaan perubahan](https://docs.aws.amazon.com/systems-manager/latest/userguide/change-requests-create.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [StartChangeRequestExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/start-change-request-execution.html)di *Referensi AWS CLI Perintah*. 

### `start-session`
<a name="ssm_StartSession_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-session`.

**AWS CLI**  
**Contoh 1: Untuk memulai sesi Manajer Sesi**  
`start-session`Contoh ini membuat koneksi dengan instance untuk sesi Session Manager. Perhatikan bahwa perintah interaktif ini memerlukan plugin Session Manager untuk diinstal pada mesin klien yang melakukan panggilan.  

```
aws ssm start-session \
    --target "i-1234567890abcdef0"
```
Output:  

```
Starting session with SessionId: Jane-Roe-07a16060613c408b5
```
**Contoh 2: Untuk memulai sesi Session Manager menggunakan SSH**  
`start-session`Contoh ini membuat koneksi dengan instance untuk sesi Session Manager menggunakan SSH. Perhatikan bahwa perintah interaktif ini memerlukan plugin Session Manager untuk diinstal pada mesin klien yang membuat panggilan, dan bahwa perintah tersebut menggunakan pengguna default pada instance, seperti `ec2-user` untuk instans EC2 untuk Linux.  

```
ssh -i /path/my-key-pair.pem ec2-user@i-02573cafcfEXAMPLE
```
Output:  

```
Starting session with SessionId: ec2-user-07a16060613c408b5
```
Untuk informasi selengkapnya, lihat [Memulai Sesi](https://docs.aws.amazon.com/systems-manager/latest/userguide/session-manager-working-with-sessions-start.html) dan [Menginstal Plugin Session Manager untuk AWS CLI](https://docs.aws.amazon.com/systems-manager/latest/userguide/session-manager-working-with-install-plugin.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [StartSession](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/start-session.html)di *Referensi AWS CLI Perintah*. 

### `stop-automation-execution`
<a name="ssm_StopAutomationExecution_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-automation-execution`.

**AWS CLI**  
**Untuk menghentikan eksekusi otomatisasi**  
`stop-automation-execution`Contoh berikut menghentikan dokumen Otomasi.  

```
aws ssm stop-automation-execution
    --automation-execution-id "4105a4fc-f944-11e6-9d32-0a1b2EXAMPLE"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menjalankan Alur Kerja Otomasi Secara Manual](https://docs.aws.amazon.com/systems-manager/latest/userguide/automation-working-executing-manually.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [StopAutomationExecution](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/stop-automation-execution.html)di *Referensi AWS CLI Perintah*. 

### `terminate-session`
<a name="ssm_TerminateSession_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`terminate-session`.

**AWS CLI**  
**Untuk mengakhiri sesi Manajer Sesi**  
`terminate-session`Contoh ini secara permanen mengakhiri sesi yang dibuat oleh pengguna “Shirley-Rodriguez” dan menutup koneksi data antara klien Session Manager dan SSM Agent pada instance.  

```
aws ssm terminate-session \
    --session-id "Shirley-Rodriguez-07a16060613c408b5"
```
Output:  

```
{
    "SessionId": "Shirley-Rodriguez-07a16060613c408b5"
}
```
Untuk informasi selengkapnya, lihat [Mengakhiri Sesi](https://docs.aws.amazon.com/systems-manager/latest/userguide/session-manager-working-with-sessions-end.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [TerminateSession](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/terminate-session.html)di *Referensi AWS CLI Perintah*. 

### `unlabel-parameter-version`
<a name="ssm_UnlabelParameterVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`unlabel-parameter-version`.

**AWS CLI**  
**Untuk menghapus label parameter**  
`unlabel-parameter-version`Contoh berikut menghapus label yang ditentukan dari versi parameter yang diberikan.  

```
aws ssm unlabel-parameter-version \
    --name "parameterName" \
    --parameter-version "version" \
    --labels "label_1" "label_2" "label_3"
```
Output:  

```
{
    "RemovedLabels": [
        "label_1"
        "label_2"
        "label_3"
    ],
    "InvalidLabels": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus label parameter (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-paramstore-labels.html#systems-manager-parameter-store-labels-cli-delete) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UnlabelParameterVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/unlabel-parameter-version.html)di *Referensi AWS CLI Perintah*. 

### `update-association-status`
<a name="ssm_UpdateAssociationStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-association-status`.

**AWS CLI**  
**Untuk memperbarui status asosiasi**  
`update-association-status`Contoh berikut memperbarui status asosiasi asosiasi antara instance dan dokumen.  

```
aws ssm update-association-status \
    --name "AWS-UpdateSSMAgent" \
    --instance-id "i-1234567890abcdef0" \
    --association-status "Date=1424421071.939,Name=Pending,Message=temp_status_change,AdditionalInfo=Additional-Config-Needed"
```
Output:  

```
{
    "AssociationDescription": {
        "Name": "AWS-UpdateSSMAgent",
        "InstanceId": "i-1234567890abcdef0",
        "AssociationVersion": "1",
        "Date": 1550507529.604,
        "LastUpdateAssociationDate": 1550507806.974,
        "Status": {
            "Date": 1424421071.0,
            "Name": "Pending",
            "Message": "temp_status_change",
            "AdditionalInfo": "Additional-Config-Needed"
        },
        "Overview": {
            "Status": "Success",
            "AssociationStatusAggregatedCount": {
                "Success": 1
            }
        },
        "DocumentVersion": "$DEFAULT",
        "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
        "Targets": [
            {
                "Key": "InstanceIds",
                "Values": [
                    "i-1234567890abcdef0"
                ]
            }
        ],
        "LastExecutionDate": 1550507808.0,
        "LastSuccessfulExecutionDate": 1550507808.0
    }
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan asosiasi di Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/systems-manager-associations.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateAssociationStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-association-status.html)di *Referensi AWS CLI Perintah*. 

### `update-association`
<a name="ssm_UpdateAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-association`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui asosiasi dokumen**  
`update-association`Contoh berikut memperbarui asosiasi dengan versi dokumen baru.  

```
aws ssm update-association \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab" \
    --document-version "\$LATEST"
```
Output:  

```
{
    "AssociationDescription": {
        "Name": "AWS-UpdateSSMAgent",
        "AssociationVersion": "2",
        "Date": 1550508093.293,
        "LastUpdateAssociationDate": 1550508106.596,
        "Overview": {
            "Status": "Pending",
            "DetailedStatus": "Creating"
        },
        "DocumentVersion": "$LATEST",
        "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
        "Targets": [
            {
                "Key": "tag:Name",
                "Values": [
                    "Linux"
                ]
            }
        ],
        "LastExecutionDate": 1550508094.879,
        "LastSuccessfulExecutionDate": 1550508094.879
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit dan membuat versi baru asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-edit.html) di *Panduan Pengguna AWS Systems Manager*.  
**Contoh 2: Untuk memperbarui ekspresi jadwal asosiasi**  
`update-association`Contoh berikut memperbarui ekspresi jadwal untuk asosiasi tertentu.  

```
aws ssm update-association \
    --association-id "8dfe3659-4309-493a-8755-0123456789ab" \
    --schedule-expression "cron(0 0 0/4 1/1 * ? *)"
```
Output:  

```
{
    "AssociationDescription": {
        "Name": "AWS-HelloWorld",
        "AssociationVersion": "2",
        "Date": "2021-02-08T13:54:19.203000-08:00",
        "LastUpdateAssociationDate": "2021-06-29T11:51:07.933000-07:00",
        "Overview": {
            "Status": "Pending",
            "DetailedStatus": "Creating"
        },
        "DocumentVersion": "$DEFAULT",
        "AssociationId": "8dfe3659-4309-493a-8755-0123456789ab",
        "Targets": [
            {
                "Key": "aws:NoOpAutomationTag",
                "Values": [
                    "AWS-NoOpAutomationTarget-Value"
                ]
            }
        ],
        "ScheduleExpression": "cron(0 0 0/4 1/1 * ? *)",
        "LastExecutionDate": "2021-06-26T19:00:48.110000-07:00",
        "ApplyOnlyAtCronInterval": false
    }
}
```
Untuk informasi selengkapnya, lihat [Mengedit dan membuat versi baru asosiasi](https://docs.aws.amazon.com/systems-manager/latest/userguide/sysman-state-assoc-edit.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-association.html)di *Referensi AWS CLI Perintah*. 

### `update-document-default-version`
<a name="ssm_UpdateDocumentDefaultVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-document-default-version`.

**AWS CLI**  
**Untuk memperbarui versi default dokumen**  
`update-document-default-version`Contoh berikut memperbarui versi default dari dokumen Systems Manager.  

```
aws ssm update-document-default-version \
    --name "Example" \
    --document-version "2"
```
Output:  

```
{
    "Description": {
        "Name": "Example",
        "DefaultVersion": "2"
    }
}
```
Untuk informasi selengkapnya, lihat [Menulis Konten Dokumen SSM](https://docs.aws.amazon.com/systems-manager/latest/userguide/create-ssm-doc.html#writing-ssm-doc-content) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateDocumentDefaultVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-document-default-version.html)di *Referensi AWS CLI Perintah*. 

### `update-document-metadata`
<a name="ssm_UpdateDocumentMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-document-metadata`.

**AWS CLI**  
**Contoh: Untuk menyetujui versi terbaru dari template perubahan**  
Berikut ini `update-document-metadata` memberikan persetujuan untuk versi terbaru dari template perubahan yang telah dikirimkan untuk ditinjau.  

```
aws ssm update-document-metadata \
    --name MyChangeManagerTemplate \
    --document-reviews 'Action=Approve,Comment=[{Type=Comment,Content=Approved!}]'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Meninjau dan menyetujui atau menolak templat perubahan di Panduan](https://docs.aws.amazon.com/systems-manager/latest/userguide/change-templates-review.html) Pengguna *AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateDocumentMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-document-metadata.html)di *Referensi AWS CLI Perintah*. 

### `update-document`
<a name="ssm_UpdateDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-document`.

**AWS CLI**  
**Untuk membuat versi baru dokumen**  
`update-document`Contoh berikut membuat versi baru dokumen saat dijalankan di komputer Windows. Dokumen yang ditentukan oleh `--document` harus dalam format JSON. Perhatikan bahwa `file://` harus direferensikan diikuti oleh jalur file konten. Karena di awal `--document-version` parameter, `$` Pada Windows Anda harus mengelilingi nilai dengan tanda kutip ganda. Di Linux, macOS, atau pada PowerShell prompt, Anda harus mengelilingi nilainya dengan tanda kutip tunggal.  
**Versi Windows**:  

```
aws ssm update-document \
    --name "RunShellScript" \
    --content "file://RunShellScript.json" \
    --document-version "$LATEST"
```
**Versi Linux/Mac**:  

```
aws ssm update-document \
    --name "RunShellScript" \
    --content "file://RunShellScript.json" \
    --document-version '$LATEST'
```
Output:  

```
{
  "DocumentDescription": {
      "Status": "Updating",
      "Hash": "f775e5df4904c6fa46686c4722fae9de1950dace25cd9608ff8d622046b68d9b",
      "Name": "RunShellScript",
      "Parameters": [
          {
              "Type": "StringList",
              "Name": "commands",
              "Description": "(Required) Specify a shell script or a command to run."
          }
      ],
      "DocumentType": "Command",
      "PlatformTypes": [
          "Linux"
      ],
      "DocumentVersion": "2",
      "HashType": "Sha256",
      "CreatedDate": 1487899655.152,
      "Owner": "809632081692",
      "SchemaVersion": "2.0",
      "DefaultVersion": "1",
      "LatestVersion": "2",
      "Description": "Run an updated script"
  }
}
```
+  Untuk detail API, lihat [UpdateDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-document.html)di *Referensi AWS CLI Perintah*. 

### `update-maintenance-window-target`
<a name="ssm_UpdateMaintenanceWindowTarget_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-maintenance-window-target`.

**AWS CLI**  
**Untuk memperbarui target jendela pemeliharaan**  
`update-maintenance-window-target`Contoh berikut hanya memperbarui nama target jendela pemeliharaan.  

```
aws ssm update-maintenance-window-target \
    --window-id "mw-0c5ed765acEXAMPLE" \
    --window-target-id "57e8344e-fe64-4023-8191-6bf05EXAMPLE" \
    --name "NewName" \
    --no-replace
```
Output:  

```
{
    "Description": "",
    "OwnerInformation": "",
    "WindowTargetId": "57e8344e-fe64-4023-8191-6bf05EXAMPLE",
    "WindowId": "mw-0c5ed765acEXAMPLE",
    "Targets": [
        {
            "Values": [
                "i-1234567890EXAMPLE"
            ],
            "Key": "InstanceIds"
        }
    ],
    "Name": "NewName"
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-update.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateMaintenanceWindowTarget](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-maintenance-window-target.html)di *Referensi AWS CLI Perintah*. 

### `update-maintenance-window-task`
<a name="ssm_UpdateMaintenanceWindowTask_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-maintenance-window-task`.

**AWS CLI**  
**Untuk memperbarui tugas jendela pemeliharaan**  
`update-maintenance-window-task`Contoh berikut memperbarui peran layanan untuk tugas jendela pemeliharaan.  

```
aws ssm update-maintenance-window-task \
    --window-id "mw-0c5ed765acEXAMPLE" \
    --window-task-id "23d3809e-9fbe-4ddf-b41a-b49d7EXAMPLE" \
    --service-role-arn "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM"
```
Output:  

```
{
    "ServiceRoleArn": "arn:aws:iam::111222333444:role/aws-service-role/ssm.amazonaws.com/AWSServiceRoleForAmazonSSM",
    "MaxErrors": "1",
    "TaskArn": "AWS-UpdateEC2Config",
    "MaxConcurrency": "1",
    "WindowTaskId": "23d3809e-9fbe-4ddf-b41a-b49d7EXAMPLE",
    "TaskParameters": {},
    "Priority": 1,
    "TaskInvocationParameters": {
        "RunCommand": {
            "TimeoutSeconds": 600,
            "Parameters": {
                "allowDowngrade": [
                    "false"
                ]
            }
        }
    },
    "WindowId": "mw-0c5ed765acEXAMPLE",
    "Description": "UpdateEC2Config",
    "Targets": [
        {
            "Values": [
                "57e8344e-fe64-4023-8191-6bf05EXAMPLE"
            ],
            "Key": "WindowTargetIds"
        }
    ],
    "Name": "UpdateEC2Config"
}
```
Untuk informasi selengkapnya, lihat [Memperbarui Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-update.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateMaintenanceWindowTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-maintenance-window-task.html)di *Referensi AWS CLI Perintah*. 

### `update-maintenance-window`
<a name="ssm_UpdateMaintenanceWindow_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-maintenance-window`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui jendela pemeliharaan**  
`update-maintenance-window`Contoh berikut memperbarui nama jendela pemeliharaan.  

```
aws ssm update-maintenance-window \
    --window-id "mw-1a2b3c4d5e6f7g8h9" \
    --name "My-Renamed-MW"
```
Output:  

```
{
    "Cutoff": 1,
    "Name": "My-Renamed-MW",
    "Schedule": "cron(0 16 ? * TUE *)",
    "Enabled": true,
    "AllowUnassociatedTargets": true,
    "WindowId": "mw-1a2b3c4d5e6f7g8h9",
    "Duration": 4
}
```
**Contoh 2: Untuk menonaktifkan jendela pemeliharaan**  
`update-maintenance-window`Contoh berikut menonaktifkan jendela pemeliharaan.  

```
aws ssm update-maintenance-window \
    --window-id "mw-1a2b3c4d5e6f7g8h9" \
    --no-enabled
```
**Contoh 3: Untuk mengaktifkan jendela pemeliharaan**  
`update-maintenance-window`Contoh berikut memungkinkan jendela pemeliharaan.  

```
aws ssm update-maintenance-window \
    --window-id "mw-1a2b3c4d5e6f7g8h9" \
    --enabled
```
Untuk informasi selengkapnya, lihat [Memperbarui Jendela Pemeliharaan (AWS CLI)](https://docs.aws.amazon.com/systems-manager/latest/userguide/maintenance-windows-cli-tutorials-update.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateMaintenanceWindow](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-maintenance-window.html)di *Referensi AWS CLI Perintah*. 

### `update-managed-instance-role`
<a name="ssm_UpdateManagedInstanceRole_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-managed-instance-role`.

**AWS CLI**  
**Untuk memperbarui peran IAM dari instans terkelola**  
`update-managed-instance-role`Contoh berikut memperbarui profil instans IAM dari instance terkelola.  

```
aws ssm update-managed-instance-role \
    --instance-id "mi-08ab247cdfEXAMPLE" \
    --iam-role "ExampleRole"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Langkah 4: Membuat Profil Instans IAM untuk Systems Manager](https://docs.aws.amazon.com/systems-manager/latest/userguide/setup-instance-profile.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateManagedInstanceRole](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-managed-instance-role.html)di *Referensi AWS CLI Perintah*. 

### `update-ops-item`
<a name="ssm_UpdateOpsItem_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-ops-item`.

**AWS CLI**  
**Untuk memperbarui OpsItem**  
`update-ops-item`Contoh berikut memperbarui deskripsi, prioritas, dan kategori untuk file OpsItem. Selain itu, perintah menentukan topik SNS tempat notifikasi dikirim saat ini OpsItem diedit atau diubah.  

```
aws ssm update-ops-item \
    --ops-item-id "oi-287b5EXAMPLE" \
    --description "Primary OpsItem for failover event 2020-01-01-fh398yf" \
    --priority 2 \
    --category "Security" \
    --notifications "Arn=arn:aws:sns:us-east-2:111222333444:my-us-east-2-topic"
```
Output:  

```
This command produces no output.
```
Untuk informasi selengkapnya, lihat [Bekerja dengan OpsItems](https://docs.aws.amazon.com/systems-manager/latest/userguide/OpsCenter-working-with-OpsItems.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateOpsItem](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-ops-item.html)di *Referensi AWS CLI Perintah*. 

### `update-patch-baseline`
<a name="ssm_UpdatePatchBaseline_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-patch-baseline`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui baseline patch**  
`update-patch-baseline`Contoh berikut menambahkan dua patch yang ditentukan sebagai ditolak dan satu tambalan sebagaimana disetujui untuk baseline patch yang ditentukan.  

```
aws ssm update-patch-baseline \
        --baseline-id "pb-0123456789abcdef0" \
        --rejected-patches "KB2032276" "MS10-048" \
        --approved-patches "KB2124261"
```
Output:  

```
{
    "BaselineId": "pb-0123456789abcdef0",
    "Name": "WindowsPatching",
    "OperatingSystem": "WINDOWS",
    "GlobalFilters": {
        "PatchFilters": []
    },
    "ApprovalRules": {
        "PatchRules": [
            {
                "PatchFilterGroup": {
                    "PatchFilters": [
                        {
                            "Key": "PRODUCT",
                            "Values": [
                                "WindowsServer2016"
                            ]
                        }
                    ]
                },
                "ComplianceLevel": "CRITICAL",
                "ApproveAfterDays": 0,
                "EnableNonSecurity": false
            }
        ]
    },
    "ApprovedPatches": [
        "KB2124261"
    ],
    "ApprovedPatchesComplianceLevel": "UNSPECIFIED",
    "ApprovedPatchesEnableNonSecurity": false,
    "RejectedPatches": [
        "KB2032276",
        "MS10-048"
    ],
    "RejectedPatchesAction": "ALLOW_AS_DEPENDENCY",
    "CreatedDate": 1550244180.465,
    "ModifiedDate": 1550244180.465,
    "Description": "Patches for Windows Servers",
    "Sources": []
}
```
**Contoh 2: Untuk mengganti nama baseline patch**  
`update-patch-baseline`Contoh berikut mengganti nama baseline patch yang ditentukan.  

```
aws ssm update-patch-baseline \
    --baseline-id "pb-0713accee01234567" \
    --name "Windows-Server-2012-R2-Important-and-Critical-Security-Updates"
```
*Untuk informasi selengkapnya, lihat Memperbarui atau Menghapus Garis Dasar Patch < https://docs.aws.amazon.com/systems-manager/ latest/userguide/patch - baseline-update-or-delete .html>`\$1\$1 di Panduan Pengguna Systems AWS Manager.*  
+  Untuk detail API, lihat [UpdatePatchBaseline](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-patch-baseline.html)di *Referensi AWS CLI Perintah*. 

### `update-resource-data-sync`
<a name="ssm_UpdateResourceDataSync_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resource-data-sync`.

**AWS CLI**  
**Untuk memperbarui sinkronisasi data sumber daya**  
`update-resource-data-sync`Contoh berikut memperbarui sinkronisasi data SyncFromSource sumber daya.  

```
aws ssm update-resource-data-sync \
    --sync-name exampleSync \
    --sync-type SyncFromSource \
    --sync-source '{"SourceType":"SingleAccountMultiRegions", "SourceRegions":["us-east-1", "us-west-2"]}'
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menyiapkan Systems Manager Explorer untuk Menampilkan Data dari Beberapa Akun dan Wilayah](https://docs.aws.amazon.com/systems-manager/latest/userguide/Explorer-resource-data-sync.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateResourceDataSync](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-resource-data-sync.html)di *Referensi AWS CLI Perintah*. 

### `update-service-setting`
<a name="ssm_UpdateServiceSetting_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-service-setting`.

**AWS CLI**  
**Untuk memperbarui setelan layanan untuk throughput Parameter Store**  
`update-service-setting`Contoh berikut memperbarui setelan layanan saat ini untuk throughput Parameter Store di wilayah tertentu untuk menggunakan peningkatan throughput.  

```
aws ssm update-service-setting \
    --setting-id arn:aws:ssm:us-east-1:123456789012:servicesetting/ssm/parameter-store/high-throughput-enabled \
    --setting-value true
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Meningkatkan Throughput Parameter Store](https://docs.aws.amazon.com/systems-manager/latest/userguide/parameter-store-throughput.html) di *Panduan Pengguna AWS Systems Manager*.  
+  Untuk detail API, lihat [UpdateServiceSetting](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ssm/update-service-setting.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Texttract menggunakan AWS CLI
<a name="cli_2_textract_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Textract. AWS Command Line Interface 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `analyze-document`
<a name="textract_AnalyzeDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`analyze-document`.

**AWS CLI**  
**Untuk menganalisis teks dalam dokumen**  
`analyze-document`Contoh berikut menunjukkan cara menganalisis teks dalam dokumen.  
Linux/macOS:  

```
aws textract analyze-document \
    --document '{"S3Object":{"Bucket":"bucket","Name":"document"}}' \
    --feature-types '["TABLES","FORMS"]'
```
Windows:  

```
aws textract analyze-document \
    --document "{\"S3Object\":{\"Bucket\":\"bucket\",\"Name\":\"document\"}}" \
    --feature-types "[\"TABLES\",\"FORMS\"]" \
    --region region-name
```
Output:  

```
{
    "Blocks": [
        {
            "Geometry": {
                "BoundingBox": {
                    "Width": 1.0,
                    "Top": 0.0,
                    "Left": 0.0,
                    "Height": 1.0
                },
                "Polygon": [
                    {
                        "Y": 0.0,
                        "X": 0.0
                    },
                    {
                        "Y": 0.0,
                        "X": 1.0
                    },
                    {
                        "Y": 1.0,
                        "X": 1.0
                    },
                    {
                        "Y": 1.0,
                        "X": 0.0
                    }
                ]
            },
            "Relationships": [
                {
                    "Type": "CHILD",
                    "Ids": [
                        "87586964-d50d-43e2-ace5-8a890657b9a0",
                        "a1e72126-21d9-44f4-a8d6-5c385f9002ba",
                        "e889d012-8a6b-4d2e-b7cd-7a8b327d876a"
                    ]
                }
            ],
            "BlockType": "PAGE",
            "Id": "c2227f12-b25d-4e1f-baea-1ee180d926b2"
        }
    ],
    "DocumentMetadata": {
        "Pages": 1
    }
}
```
Untuk informasi selengkapnya, lihat Menganalisis Teks Dokumen dengan Amazon Ttract di Panduan Pengembang *Amazon Texttract*  
+  Untuk detail API, lihat [AnalyzeDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/textract/analyze-document.html)di *Referensi AWS CLI Perintah*. 

### `detect-document-text`
<a name="textract_DetectDocumentText_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`detect-document-text`.

**AWS CLI**  
**Untuk mendeteksi teks dalam dokumen**  
Berikut `detect-document-text` ini Contoh berikut menunjukkan cara mendeteksi teks dalam dokumen.  
Linux/macOS:  

```
aws textract detect-document-text \
    --document '{"S3Object":{"Bucket":"bucket","Name":"document"}}'
```
Windows:  

```
aws textract detect-document-text \
    --document "{\"S3Object\":{\"Bucket\":\"bucket\",\"Name\":\"document\"}}" \
    --region region-name
```
Output:  

```
{
    "Blocks": [
        {
            "Geometry": {
                "BoundingBox": {
                    "Width": 1.0,
                    "Top": 0.0,
                    "Left": 0.0,
                    "Height": 1.0
                },
                "Polygon": [
                    {
                        "Y": 0.0,
                        "X": 0.0
                    },
                    {
                        "Y": 0.0,
                        "X": 1.0
                    },
                    {
                        "Y": 1.0,
                        "X": 1.0
                    },
                    {
                        "Y": 1.0,
                        "X": 0.0
                    }
                ]
            },
            "Relationships": [
                {
                    "Type": "CHILD",
                    "Ids": [
                        "896a9f10-9e70-4412-81ce-49ead73ed881",
                        "0da18623-dc4c-463d-a3d1-9ac050e9e720",
                        "167338d7-d38c-4760-91f1-79a8ec457bb2"
                    ]
                }
            ],
            "BlockType": "PAGE",
            "Id": "21f0535e-60d5-4bc7-adf2-c05dd851fa25"
        },
        {
            "Relationships": [
                {
                    "Type": "CHILD",
                    "Ids": [
                        "62490c26-37ea-49fa-8034-7a9ff9369c9c",
                        "1e4f3f21-05bd-4da9-ba10-15d01e66604c"
                    ]
                }
            ],
            "Confidence": 89.11581420898438,
            "Geometry": {
                "BoundingBox": {
                    "Width": 0.33642634749412537,
                    "Top": 0.17169663310050964,
                    "Left": 0.13885067403316498,
                    "Height": 0.49159330129623413
                },
                "Polygon": [
                    {
                        "Y": 0.17169663310050964,
                        "X": 0.13885067403316498
                    },
                    {
                        "Y": 0.17169663310050964,
                        "X": 0.47527703642845154
                    },
                    {
                        "Y": 0.6632899641990662,
                        "X": 0.47527703642845154
                    },
                    {
                        "Y": 0.6632899641990662,
                        "X": 0.13885067403316498
                    }
                ]
            },
            "Text": "He llo,",
            "BlockType": "LINE",
            "Id": "896a9f10-9e70-4412-81ce-49ead73ed881"
        },
        {
            "Relationships": [
                {
                    "Type": "CHILD",
                    "Ids": [
                        "19b28058-9516-4352-b929-64d7cef29daf"
                    ]
                }
            ],
            "Confidence": 85.5694351196289,
            "Geometry": {
                "BoundingBox": {
                    "Width": 0.33182239532470703,
                    "Top": 0.23131252825260162,
                    "Left": 0.5091826915740967,
                    "Height": 0.3766750991344452
                },
                "Polygon": [
                    {
                        "Y": 0.23131252825260162,
                        "X": 0.5091826915740967
                    },
                    {
                        "Y": 0.23131252825260162,
                        "X": 0.8410050868988037
                    },
                    {
                        "Y": 0.607987642288208,
                        "X": 0.8410050868988037
                    },
                    {
                        "Y": 0.607987642288208,
                        "X": 0.5091826915740967
                    }
                ]
            },
            "Text": "worlc",
            "BlockType": "LINE",
            "Id": "0da18623-dc4c-463d-a3d1-9ac050e9e720"
        }
    ],
    "DocumentMetadata": {
        "Pages": 1
    }
}
```
Untuk informasi selengkapnya, lihat Mendeteksi Teks Dokumen dengan Amazon Textract di Panduan Pengembang Amazon *Textract*  
+  Untuk detail API, lihat [DetectDocumentText](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/textract/detect-document-text.html)di *Referensi AWS CLI Perintah*. 

### `get-document-analysis`
<a name="textract_GetDocumentAnalysis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-document-analysis`.

**AWS CLI**  
**Untuk mendapatkan hasil analisis teks asinkron dari dokumen multi-halaman**  
`get-document-analysis`Contoh berikut menunjukkan cara mendapatkan hasil analisis teks asinkron dari dokumen multi-halaman.  

```
aws textract get-document-analysis \
    --job-id df7cf32ebbd2a5de113535fcf4d921926a701b09b4e7d089f3aebadb41e0712b \
    --max-results 1000
```
Output:  

```
{
    "Blocks": [
        {
            "Geometry": {
                "BoundingBox": {
                    "Width": 1.0,
                    "Top": 0.0,
                    "Left": 0.0,
                    "Height": 1.0
                },
                "Polygon": [
                    {
                        "Y": 0.0,
                        "X": 0.0
                    },
                    {
                        "Y": 0.0,
                        "X": 1.0
                    },
                    {
                        "Y": 1.0,
                        "X": 1.0
                    },
                    {
                        "Y": 1.0,
                        "X": 0.0
                    }
                ]
            },
            "Relationships": [
                {
                    "Type": "CHILD",
                    "Ids": [
                        "75966e64-81c2-4540-9649-d66ec341cd8f",
                        "bb099c24-8282-464c-a179-8a9fa0a057f0",
                        "5ebf522d-f9e4-4dc7-bfae-a288dc094595"
                    ]
                }
            ],
            "BlockType": "PAGE",
            "Id": "247c28ee-b63d-4aeb-9af0-5f7ea8ba109e",
            "Page": 1
        }
    ],
    "NextToken": "cY1W3eTFvoB0cH7YrKVudI4Gb0H8J0xAYLo8xI/JunCIPWCthaKQ+07n/ElyutsSy0+1VOImoTRmP1zw4P0RFtaeV9Bzhnfedpx1YqwB4xaGDA==",
    "DocumentMetadata": {
        "Pages": 1
    },
    "JobStatus": "SUCCEEDED"
}
```
Untuk informasi selengkapnya, lihat Mendeteksi dan Menganalisis Teks dalam Dokumen Multi-Halaman di Panduan Pengembang *Amazon Texttract*  
+  Untuk detail API, lihat [GetDocumentAnalysis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/textract/get-document-analysis.html)di *Referensi AWS CLI Perintah*. 

### `get-document-text-detection`
<a name="textract_GetDocumentTextDetection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-document-text-detection`.

**AWS CLI**  
**Untuk mendapatkan hasil deteksi teks asinkron dalam dokumen multi-halaman**  
`get-document-text-detection`Contoh berikut menunjukkan cara mendapatkan hasil deteksi teks asinkron dalam dokumen multi-halaman.  

```
aws textract get-document-text-detection \
    --job-id 57849a3dc627d4df74123dca269d69f7b89329c870c65bb16c9fd63409d200b9 \
    --max-results 1000
```
Output  

```
{
    "Blocks": [
        {
            "Geometry": {
                "BoundingBox": {
                    "Width": 1.0,
                    "Top": 0.0,
                    "Left": 0.0,
                    "Height": 1.0
                },
                "Polygon": [
                    {
                        "Y": 0.0,
                        "X": 0.0
                    },
                    {
                        "Y": 0.0,
                        "X": 1.0
                    },
                    {
                        "Y": 1.0,
                        "X": 1.0
                    },
                    {
                        "Y": 1.0,
                        "X": 0.0
                    }
                ]
            },
            "Relationships": [
                {
                    "Type": "CHILD",
                    "Ids": [
                        "1b926a34-0357-407b-ac8f-ec473160c6a9",
                        "0c35dc17-3605-4c9d-af1a-d9451059df51",
                        "dea3db8a-52c2-41c0-b50c-81f66f4aa758"
                    ]
                }
            ],
            "BlockType": "PAGE",
            "Id": "84671a5e-8c99-43be-a9d1-6838965da33e",
            "Page": 1
        }
    ],
    "NextToken": "GcqyoAJuZwujOT35EN4LCI3EUzMtiLq3nKyFFHvU5q1SaIdEBcSty+njNgoWwuMP/muqc96S4o5NzDqehhXvhkodMyVO5OJGyms5lsrCxibWJw==",
    "DocumentMetadata": {
        "Pages": 1
    },
    "JobStatus": "SUCCEEDED"
}
```
Untuk informasi selengkapnya, lihat Mendeteksi dan Menganalisis Teks dalam Dokumen Multi-Halaman di Panduan Pengembang *Amazon Texttract*  
+  Untuk detail API, lihat [GetDocumentTextDetection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/textract/get-document-text-detection.html)di *Referensi AWS CLI Perintah*. 

### `start-document-analysis`
<a name="textract_StartDocumentAnalysis_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-document-analysis`.

**AWS CLI**  
**Untuk mulai menganalisis teks dalam dokumen multi-halaman**  
`start-document-analysis`Contoh berikut menunjukkan bagaimana memulai analisis asinkron teks dalam dokumen multi-halaman.  
Linux/macOS:  

```
aws textract start-document-analysis \
    --document-location '{"S3Object":{"Bucket":"bucket","Name":"document"}}' \
    --feature-types '["TABLES","FORMS"]' \
    --notification-channel "SNSTopicArn=arn:snsTopic,RoleArn=roleArn"
```
Windows:  

```
aws textract start-document-analysis \
    --document-location "{\"S3Object\":{\"Bucket\":\"bucket\",\"Name\":\"document\"}}" \
    --feature-types "[\"TABLES\", \"FORMS\"]" \
    --region region-name \
    --notification-channel "SNSTopicArn=arn:snsTopic,RoleArn=roleArn"
```
Output:  

```
{
    "JobId": "df7cf32ebbd2a5de113535fcf4d921926a701b09b4e7d089f3aebadb41e0712b"
}
```
Untuk informasi selengkapnya, lihat Mendeteksi dan Menganalisis Teks dalam Dokumen Multi-Halaman di Panduan Pengembang *Amazon Texttract*  
+  Untuk detail API, lihat [StartDocumentAnalysis](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/textract/start-document-analysis.html)di *Referensi AWS CLI Perintah*. 

### `start-document-text-detection`
<a name="textract_StartDocumentTextDetection_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-document-text-detection`.

**AWS CLI**  
**Untuk mulai mendeteksi teks dalam dokumen multi-halaman**  
`start-document-text-detection`Contoh berikut menunjukkan bagaimana memulai deteksi asinkron teks dalam dokumen multi-halaman.  
Linux/macOS:  

```
aws textract start-document-text-detection \
        --document-location '{"S3Object":{"Bucket":"bucket","Name":"document"}}' \
        --notification-channel "SNSTopicArn=arn:snsTopic,RoleArn=roleARN"
```
Windows:  

```
aws textract start-document-text-detection \
    --document-location "{\"S3Object\":{\"Bucket\":\"bucket\",\"Name\":\"document\"}}" \
    --region region-name \
    --notification-channel "SNSTopicArn=arn:snsTopic,RoleArn=roleArn"
```
Output:  

```
{
    "JobId": "57849a3dc627d4df74123dca269d69f7b89329c870c65bb16c9fd63409d200b9"
}
```
Untuk informasi selengkapnya, lihat Mendeteksi dan Menganalisis Teks dalam Dokumen Multi-Halaman di Panduan Pengembang *Amazon Texttract*  
+  Untuk detail API, lihat [StartDocumentTextDetection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/textract/start-document-text-detection.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Transcribe menggunakan AWS CLI
<a name="cli_2_transcribe_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan AWS Command Line Interface with Amazon Transcribe.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-language-model`
<a name="transcribe_CreateLanguageModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-language-model`.

**AWS CLI**  
**Contoh 1: Untuk membuat model bahasa khusus menggunakan data pelatihan dan penyetelan.**  
`create-language-model`Contoh berikut membuat model bahasa kustom. Anda dapat menggunakan model bahasa khusus untuk meningkatkan kinerja transkripsi untuk domain seperti hukum, perhotelan, keuangan, dan asuransi. Untuk kode bahasa, masukkan kode bahasa yang valid. Untuk base-model-name, tentukan model dasar yang paling cocok untuk laju sampel audio yang ingin Anda transkripsikan dengan model bahasa khusus Anda. Untuk model-name, tentukan nama yang ingin Anda panggil model bahasa kustom.  

```
aws transcribe create-language-model \
    --language-code language-code \
    --base-model-name base-model-name \
    --model-name cli-clm-example \
    --input-data-config S3Uri="s3://amzn-s3-demo-bucket/Amazon-S3-Prefix-for-training-data",TuningDataS3Uri="s3://amzn-s3-demo-bucket/Amazon-S3-Prefix-for-tuning-data",DataAccessRoleArn="arn:aws:iam::AWS-account-number:role/IAM-role-with-permissions-to-create-a-custom-language-model"
```
Output:  

```
{
    "LanguageCode": "language-code",
    "BaseModelName": "base-model-name",
    "ModelName": "cli-clm-example",
    "InputDataConfig": {
        "S3Uri": "s3://amzn-s3-demo-bucket/Amazon-S3-Prefix/",
        "TuningDataS3Uri": "s3://amzn-s3-demo-bucket/Amazon-S3-Prefix/",
        "DataAccessRoleArn": "arn:aws:iam::AWS-account-number:role/IAM-role-with-permissions-create-a-custom-language-model"
    },
    "ModelStatus": "IN_PROGRESS"
}
```
*Untuk informasi selengkapnya, lihat [Meningkatkan Akurasi Transkripsi Khusus Domain dengan Model Bahasa Khusus](https://docs.aws.amazon.com/transcribe/latest/dg/custom-language-models.html) di Panduan Pengembang Amazon Transcribe.*  
**Contoh 2: Untuk membuat model bahasa kustom hanya menggunakan data pelatihan.**  
`create-language-model`Contoh berikut mentranskripsikan file audio Anda. Anda dapat menggunakan model bahasa khusus untuk meningkatkan kinerja transkripsi untuk domain seperti hukum, perhotelan, keuangan, dan asuransi. Untuk kode bahasa, masukkan kode bahasa yang valid. Untuk base-model-name, tentukan model dasar yang paling cocok untuk laju sampel audio yang ingin Anda transkripsikan dengan model bahasa khusus Anda. Untuk model-name, tentukan nama yang ingin Anda panggil model bahasa kustom.  

```
aws transcribe create-language-model \
    --language-code en-US \
    --base-model-name base-model-name \
    --model-name cli-clm-example \
    --input-data-config S3Uri="s3://amzn-s3-demo-bucket/Amazon-S3-Prefix-For-Training-Data",DataAccessRoleArn="arn:aws:iam::AWS-account-number:role/IAM-role-with-permissions-to-create-a-custom-language-model"
```
Output:  

```
{
    "LanguageCode": "en-US",
    "BaseModelName": "base-model-name",
    "ModelName": "cli-clm-example",
    "InputDataConfig": {
        "S3Uri": "s3://amzn-s3-demo-bucket/Amazon-S3-Prefix-For-Training-Data/",
        "DataAccessRoleArn": "arn:aws:iam::your-AWS-account-number:role/IAM-role-with-permissions-to-create-a-custom-language-model"
    },
    "ModelStatus": "IN_PROGRESS"
}
```
*Untuk informasi selengkapnya, lihat [Meningkatkan Akurasi Transkripsi Khusus Domain dengan Model Bahasa Khusus](https://docs.aws.amazon.com/transcribe/latest/dg/custom-language-models.html) di Panduan Pengembang Amazon Transcribe.*  
+  Untuk detail API, lihat [CreateLanguageModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/create-language-model.html)di *Referensi AWS CLI Perintah*. 

### `create-medical-vocabulary`
<a name="transcribe_CreateMedicalVocabulary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-medical-vocabulary`.

**AWS CLI**  
**Untuk membuat kosakata khusus medis**  
`create-medical-vocabulary`Contoh berikut membuat kosakata kustom. Untuk membuat kosakata khusus, Anda harus membuat file teks dengan semua istilah yang ingin Anda transkripsikan dengan lebih akurat. Untuk vocabulary-file-uri, tentukan URI Amazon Simple Storage Service (Amazon S3) dari file teks tersebut. Untuk kode bahasa, tentukan kode bahasa yang sesuai dengan bahasa kosakata kustom Anda. Untuk nama kosakata, tentukan apa yang ingin Anda sebut kosakata khusus Anda.  

```
aws transcribe create-medical-vocabulary \
    --vocabulary-name cli-medical-vocab-example \
    --language-code language-code \
    --vocabulary-file-uri https://amzn-s3-demo-bucket.AWS-Region.amazonaws.com/the-text-file-for-the-medical-custom-vocabulary.txt
```
Output:  

```
{
    "VocabularyName": "cli-medical-vocab-example",
    "LanguageCode": "language-code",
    "VocabularyState": "PENDING"
}
```
Untuk informasi selengkapnya, lihat [Kosakata Kustom Medis di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary-med.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [CreateMedicalVocabulary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/create-medical-vocabulary.html)di *Referensi AWS CLI Perintah*. 

### `create-vocabulary-filter`
<a name="transcribe_CreateVocabularyFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vocabulary-filter`.

**AWS CLI**  
**Untuk membuat filter kosakata**  
`create-vocabulary-filter`Contoh berikut membuat filter kosakata yang menggunakan file teks yang berisi daftar kata yang tidak ingin Anda tampilkan dalam transkripsi. Untuk kode bahasa, tentukan kode bahasa yang sesuai dengan bahasa filter kosakata Anda. Untuk vocabulary-filter-file-uri, tentukan URI Amazon Simple Storage Service (Amazon S3) dari file teks. Untuk vocabulary-filter-name, tentukan nama filter kosakata Anda.  

```
aws transcribe create-vocabulary-filter \
    --language-code language-code \
    --vocabulary-filter-file-uri s3://amzn-s3-demo-bucket/vocabulary-filter.txt \
    --vocabulary-filter-name cli-vocabulary-filter-example
```
Output:  

```
{
    "VocabularyFilterName": "cli-vocabulary-filter-example",
    "LanguageCode": "language-code"
}
```
Untuk informasi selengkapnya, lihat [Memfilter Kata yang Tidak Diinginkan](https://docs.aws.amazon.com/transcribe/latest/dg/filter-unwanted-words.html) di Panduan Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [CreateVocabularyFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/create-vocabulary-filter.html)di *Referensi AWS CLI Perintah*. 

### `create-vocabulary`
<a name="transcribe_CreateVocabulary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-vocabulary`.

**AWS CLI**  
**Untuk membuat kosakata khusus**  
`create-vocabulary`Contoh berikut membuat kosakata kustom. Untuk membuat kosakata khusus, Anda harus membuat file teks dengan semua istilah yang ingin Anda transkripsikan dengan lebih akurat. Untuk vocabulary-file-uri, tentukan URI Amazon Simple Storage Service (Amazon S3) dari file teks tersebut. Untuk kode bahasa, tentukan kode bahasa yang sesuai dengan bahasa kosakata kustom Anda. Untuk nama kosakata, tentukan apa yang ingin Anda sebut kosakata khusus Anda.  

```
aws transcribe create-vocabulary \
    --language-code language-code \
    --vocabulary-name cli-vocab-example \
    --vocabulary-file-uri s3://amzn-s3-demo-bucket/Amazon-S3-prefix/the-text-file-for-the-custom-vocabulary.txt
```
Output:  

```
{
    "VocabularyName": "cli-vocab-example",
    "LanguageCode": "language-code",
    "VocabularyState": "PENDING"
}
```
Untuk informasi selengkapnya, lihat [Kosakata Khusus di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [CreateVocabulary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/create-vocabulary.html)di *Referensi AWS CLI Perintah*. 

### `delete-language-model`
<a name="transcribe_DeleteLanguageModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-language-model`.

**AWS CLI**  
**Untuk menghapus model bahasa kustom**  
`delete-language-model`Contoh berikut menghapus model bahasa kustom.  

```
aws transcribe delete-language-model \
    --model-name model-name
```
Perintah ini tidak menghasilkan output.  
*Untuk informasi selengkapnya, lihat [Meningkatkan Akurasi Transkripsi Khusus Domain dengan Model Bahasa Khusus](https://docs.aws.amazon.com/transcribe/latest/dg/custom-language-models.html) di Panduan Pengembang Amazon Transcribe.*  
+  Untuk detail API, lihat [DeleteLanguageModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/delete-language-model.html)di *Referensi AWS CLI Perintah*. 

### `delete-medical-transcription-job`
<a name="transcribe_DeleteMedicalTranscriptionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-medical-transcription-job`.

**AWS CLI**  
**Untuk menghapus pekerjaan transkripsi medis**  
`delete-medical-transcription-job`Contoh berikut menghapus pekerjaan transkripsi medis.  

```
aws transcribe delete-medical-transcription-job \
    --medical-transcription-job-name medical-transcription-job-name
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteMedicalTranscriptionJob](https://docs.aws.amazon.com/transcribe/latest/dg/API_DeleteMedicalTranscriptionJob.html)di Panduan *Pengembang Amazon Transcribe*.  
+  Untuk detail API, lihat [DeleteMedicalTranscriptionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/delete-medical-transcription-job.html)di *Referensi AWS CLI Perintah*. 

### `delete-medical-vocabulary`
<a name="transcribe_DeleteMedicalVocabulary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-medical-vocabulary`.

**AWS CLI**  
**Untuk menghapus kosakata khusus medis**  
`delete-medical-vocabulary`Contoh berikut menghapus kosakata kustom medis. Untuk nama kosakata, tentukan nama kosakata khusus medis.  

```
aws transcribe delete-vocabulary \
    --vocabulary-name medical-custom-vocabulary-name
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kosakata Kustom Medis di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary-med.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [DeleteMedicalVocabulary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/delete-medical-vocabulary.html)di *Referensi AWS CLI Perintah*. 

### `delete-transcription-job`
<a name="transcribe_DeleteTranscriptionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-transcription-job`.

**AWS CLI**  
**Untuk menghapus salah satu pekerjaan transkripsi Anda**  
`delete-transcription-job`Contoh berikut menghapus salah satu pekerjaan transkripsi Anda.  

```
aws transcribe delete-transcription-job \
    --transcription-job-name your-transcription-job
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [DeleteTranscriptionJob](https://docs.aws.amazon.com/transcribe/latest/dg/API_DeleteTranscriptionJob.html)di Panduan *Pengembang Amazon Transcribe*.  
+  Untuk detail API, lihat [DeleteTranscriptionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/delete-transcription-job.html)di *Referensi AWS CLI Perintah*. 

### `delete-vocabulary-filter`
<a name="transcribe_DeleteVocabularyFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vocabulary-filter`.

**AWS CLI**  
**Untuk menghapus filter kosakata**  
`delete-vocabulary-filter`Contoh berikut menghapus filter kosakata.  

```
aws transcribe delete-vocabulary-filter \
    --vocabulary-filter-name vocabulary-filter-name
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memfilter Kata yang Tidak Diinginkan](https://docs.aws.amazon.com/transcribe/latest/dg/filter-unwanted-words.html) di Panduan Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [DeleteVocabularyFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/delete-vocabulary-filter.html)di *Referensi AWS CLI Perintah*. 

### `delete-vocabulary`
<a name="transcribe_DeleteVocabulary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-vocabulary`.

**AWS CLI**  
**Untuk menghapus kosakata khusus**  
`delete-vocabulary`Contoh berikut menghapus kosakata kustom.  

```
aws transcribe delete-vocabulary \
    --vocabulary-name vocabulary-name
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kosakata Khusus di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [DeleteVocabulary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/delete-vocabulary.html)di *Referensi AWS CLI Perintah*. 

### `describe-language-model`
<a name="transcribe_DescribeLanguageModel_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-language-model`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang model bahasa khusus tertentu**  
`describe-language-model`Contoh berikut mendapatkan informasi tentang model bahasa kustom tertentu. Misalnya, di bawah BaseModelName Anda dapat melihat apakah model Anda dilatih menggunakan WideBand model NarrowBand atau. Model bahasa khusus dengan model NarrowBand dasar dapat mentranskripsikan audio dengan laju sampel kurang dari 16 kHz. Model bahasa yang menggunakan model WideBand dasar dapat mentranskripsikan audio dengan laju sampel lebih besar dari 16 kHz. Parameter S3Uri menunjukkan awalan Amazon S3 yang Anda gunakan untuk mengakses data pelatihan untuk membuat model bahasa kustom.  

```
aws transcribe describe-language-model \
    --model-name cli-clm-example
```
Output:  

```
{
    "LanguageModel": {
        "ModelName": "cli-clm-example",
        "CreateTime": "2020-09-25T17:57:38.504000+00:00",
        "LastModifiedTime": "2020-09-25T17:57:48.585000+00:00",
        "LanguageCode": "language-code",
        "BaseModelName": "base-model-name",
        "ModelStatus": "IN_PROGRESS",
        "UpgradeAvailability": false,
        "InputDataConfig": {
            "S3Uri": "s3://amzn-s3-demo-bucket/Amazon-S3-Prefix/",
            "TuningDataS3Uri": "s3://amzn-s3-demo-bucket/Amazon-S3-Prefix/",
            "DataAccessRoleArn": "arn:aws:iam::AWS-account-number:role/IAM-role-with-permissions-to-create-a-custom-language-model"
        }
    }
}
```
*Untuk informasi selengkapnya, lihat [Meningkatkan Akurasi Transkripsi Khusus Domain dengan Model Bahasa Khusus](https://docs.aws.amazon.com/transcribe/latest/dg/custom-language-models.html) di Panduan Pengembang Amazon Transcribe.*  
+  Untuk detail API, lihat [DescribeLanguageModel](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/describe-language-model.html)di *Referensi AWS CLI Perintah*. 

### `get-medical-transcription-job`
<a name="transcribe_GetMedicalTranscriptionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-medical-transcription-job`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pekerjaan transkripsi medis tertentu**  
`get-medical-transcription-job`Contoh berikut mendapatkan informasi tentang pekerjaan transkripsi medis tertentu. Untuk mengakses hasil transkripsi, gunakan TranscriptFileUri parameter. Jika Anda telah mengaktifkan fitur tambahan untuk pekerjaan transkripsi, Anda dapat melihatnya di objek Pengaturan. Parameter khusus menunjukkan spesialisasi medis penyedia. Parameter Tipe menunjukkan apakah ucapan dalam pekerjaan transkripsi adalah percakapan medis, atau dikte medis.  

```
aws transcribe get-medical-transcription-job \
    --medical-transcription-job-name vocabulary-dictation-medical-transcription-job
```
Output:  

```
{
    "MedicalTranscriptionJob": {
        "MedicalTranscriptionJobName": "vocabulary-dictation-medical-transcription-job",
        "TranscriptionJobStatus": "COMPLETED",
        "LanguageCode": "en-US",
        "MediaSampleRateHertz": 48000,
        "MediaFormat": "mp4",
        "Media": {
            "MediaFileUri": "s3://Amazon-S3-Prefix/your-audio-file.file-extension"
        },
        "Transcript": {
            "TranscriptFileUri": "https://s3.Region.amazonaws.com/Amazon-S3-Prefix/vocabulary-dictation-medical-transcription-job.json"
        },
        "StartTime": "2020-09-21T21:17:27.045000+00:00",
        "CreationTime": "2020-09-21T21:17:27.016000+00:00",
        "CompletionTime": "2020-09-21T21:17:59.561000+00:00",
        "Settings": {
            "ChannelIdentification": false,
            "ShowAlternatives": false,
            "VocabularyName": "cli-medical-vocab-example"
        },
        "Specialty": "PRIMARYCARE",
        "Type": "DICTATION"
    }
}
```
Untuk informasi selengkapnya, lihat [Transkripsi Batch](https://docs.aws.amazon.com/transcribe/latest/dg/batch-med-transcription.html) di Panduan Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [GetMedicalTranscriptionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/get-medical-transcription-job.html)di *Referensi AWS CLI Perintah*. 

### `get-medical-vocabulary`
<a name="transcribe_GetMedicalVocabulary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-medical-vocabulary`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kosakata khusus medis**  
`get-medical-vocabulary`Contoh berikut mendapatkan informasi tentang kosakata khusus medis. Anda dapat menggunakan VocabularyState parameter untuk melihat status pemrosesan kosakata. Jika sudah SIAP, Anda bisa menggunakannya dalam StartMedicalTranscriptionJob operasi. :  

```
aws transcribe get-medical-vocabulary \
    --vocabulary-name medical-vocab-example
```
Output:  

```
{
    "VocabularyName": "medical-vocab-example",
    "LanguageCode": "en-US",
    "VocabularyState": "READY",
    "LastModifiedTime": "2020-09-19T23:59:04.349000+00:00",
    "DownloadUri": "https://link-to-download-the-text-file-used-to-create-your-medical-custom-vocabulary"
}
```
Untuk informasi selengkapnya, lihat [Kosakata Kustom Medis di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [GetMedicalVocabulary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/get-medical-vocabulary.html)di *Referensi AWS CLI Perintah*. 

### `get-transcription-job`
<a name="transcribe_GetTranscriptionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-transcription-job`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pekerjaan transkripsi tertentu**  
`get-transcription-job`Contoh berikut mendapatkan informasi tentang pekerjaan transkripsi tertentu. Untuk mengakses hasil transkripsi, gunakan TranscriptFileUri parameter. Gunakan MediaFileUri parameter untuk melihat file audio mana yang Anda transkripsikan dengan pekerjaan ini. Anda dapat menggunakan objek Pengaturan untuk melihat fitur opsional yang telah Anda aktifkan dalam pekerjaan transkripsi.  

```
aws transcribe get-transcription-job \
    --transcription-job-name your-transcription-job
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "your-transcription-job",
        "TranscriptionJobStatus": "COMPLETED",
        "LanguageCode": "language-code",
        "MediaSampleRateHertz": 48000,
        "MediaFormat": "mp4",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.file-extension"
        },
        "Transcript": {
            "TranscriptFileUri": "https://Amazon-S3-file-location-of-transcription-output"
        },
        "StartTime": "2020-09-18T22:27:23.970000+00:00",
        "CreationTime": "2020-09-18T22:27:23.948000+00:00",
        "CompletionTime": "2020-09-18T22:28:21.197000+00:00",
        "Settings": {
            "ChannelIdentification": false,
            "ShowAlternatives": false
        },
        "IdentifyLanguage": true,
        "IdentifiedLanguageScore": 0.8672199249267578
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai (Antarmuka Baris AWS Perintah)](https://docs.aws.amazon.com/transcribe/latest/dg/getting-started-cli.html) di Panduan *Pengembang Amazon Transcribe*.  
+  Untuk detail API, lihat [GetTranscriptionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/get-transcription-job.html)di *Referensi AWS CLI Perintah*. 

### `get-vocabulary-filter`
<a name="transcribe_GetVocabularyFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vocabulary-filter`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang filter kosakata**  
`get-vocabulary-filter`Contoh berikut mendapatkan informasi tentang filter kosakata. Anda dapat menggunakan DownloadUri parameter untuk mendapatkan daftar kata yang Anda gunakan untuk membuat filter kosakata.  

```
aws transcribe get-vocabulary-filter \
    --vocabulary-filter-name testFilter
```
Output:  

```
{
    "VocabularyFilterName": "testFilter",
    "LanguageCode": "language-code",
    "LastModifiedTime": "2020-05-07T22:39:32.147000+00:00",
    "DownloadUri": "https://Amazon-S3-location-to-download-your-vocabulary-filter"
}
```
Untuk informasi selengkapnya, lihat [Memfilter Kata yang Tidak Diinginkan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary.html) di Panduan *Pengembang Amazon Transcribe*.  
+  Untuk detail API, lihat [GetVocabularyFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/get-vocabulary-filter.html)di *Referensi AWS CLI Perintah*. 

### `get-vocabulary`
<a name="transcribe_GetVocabulary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-vocabulary`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kosakata khusus**  
`get-vocabulary`Contoh berikut mendapatkan informasi tentang kosakata kustom yang dibuat sebelumnya.  

```
aws transcribe get-vocabulary \
    --vocabulary-name cli-vocab-1
```
Output:  

```
{
    "VocabularyName": "cli-vocab-1",
    "LanguageCode": "language-code",
    "VocabularyState": "READY",
    "LastModifiedTime": "2020-09-19T23:22:32.836000+00:00",
    "DownloadUri": "https://link-to-download-the-text-file-used-to-create-your-custom-vocabulary"
}
```
Untuk informasi selengkapnya, lihat [Kosakata Khusus di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [GetVocabulary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/get-vocabulary.html)di *Referensi AWS CLI Perintah*. 

### `list-language-models`
<a name="transcribe_ListLanguageModels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-language-models`.

**AWS CLI**  
**Untuk membuat daftar model bahasa kustom Anda**  
`list-language-models`Contoh berikut mencantumkan model bahasa kustom yang terkait dengan AWS akun dan Wilayah Anda. Anda dapat menggunakan `TuningDataS3Uri` parameter `S3Uri` dan untuk menemukan awalan Amazon S3 yang telah Anda gunakan sebagai data pelatihan, atau data penyetelan Anda. Ini BaseModelName memberi tahu Anda apakah Anda telah menggunakan NarrowBand, atau WideBand model untuk membuat model bahasa khusus. Anda dapat mentranskripsikan audio dengan laju sampel kurang dari 16 kHz dengan model bahasa khusus menggunakan model dasar NarrowBand . Anda dapat mentranskripsikan audio 16 kHz atau lebih besar dengan model bahasa khusus menggunakan model dasar WideBand . `ModelStatus`Parameter menunjukkan apakah Anda dapat menggunakan model bahasa khusus dalam pekerjaan transkripsi. Jika nilainya SELESAI, Anda dapat menggunakannya dalam pekerjaan transkripsi.  

```
aws transcribe list-language-models
```
Output:  

```
{
    "Models": [
        {
            "ModelName": "cli-clm-2",
            "CreateTime": "2020-09-25T17:57:38.504000+00:00",
            "LastModifiedTime": "2020-09-25T17:57:48.585000+00:00",
            "LanguageCode": "language-code",
            "BaseModelName": "WideBand",
            "ModelStatus": "IN_PROGRESS",
            "UpgradeAvailability": false,
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/clm-training-data/",
                "TuningDataS3Uri": "s3://amzn-s3-demo-bucket/clm-tuning-data/",
                "DataAccessRoleArn": "arn:aws:iam::AWS-account-number:role/IAM-role-used-to-create-the-custom-language-model"
            }
        },
        {
            "ModelName": "cli-clm-1",
            "CreateTime": "2020-09-25T17:16:01.835000+00:00",
            "LastModifiedTime": "2020-09-25T17:16:15.555000+00:00",
            "LanguageCode": "language-code",
            "BaseModelName": "WideBand",
            "ModelStatus": "IN_PROGRESS",
            "UpgradeAvailability": false,
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/clm-training-data/",
                "DataAccessRoleArn": "arn:aws:iam::AWS-account-number:role/IAM-role-used-to-create-the-custom-language-model"
            }
        },
        {
            "ModelName": "clm-console-1",
            "CreateTime": "2020-09-24T19:26:28.076000+00:00",
            "LastModifiedTime": "2020-09-25T04:25:22.271000+00:00",
            "LanguageCode": "language-code",
            "BaseModelName": "NarrowBand",
            "ModelStatus": "COMPLETED",
            "UpgradeAvailability": false,
            "InputDataConfig": {
                "S3Uri": "s3://amzn-s3-demo-bucket/clm-training-data/",
                "DataAccessRoleArn": "arn:aws:iam::AWS-account-number:role/IAM-role-used-to-create-the-custom-language-model"
            }
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat [Meningkatkan Akurasi Transkripsi Khusus Domain dengan Model Bahasa Khusus](https://docs.aws.amazon.com/transcribe/latest/dg/custom-language-models.html) di Panduan Pengembang Amazon Transcribe.*  
+  Untuk detail API, lihat [ListLanguageModels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/list-language-models.html)di *Referensi AWS CLI Perintah*. 

### `list-medical-transcription-jobs`
<a name="transcribe_ListMedicalTranscriptionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-medical-transcription-jobs`.

**AWS CLI**  
**Untuk membuat daftar pekerjaan transkripsi medis Anda**  
`list-medical-transcription-jobs`Contoh berikut mencantumkan pekerjaan transkripsi medis yang terkait dengan AWS akun dan Wilayah Anda. Untuk mendapatkan informasi lebih lanjut tentang pekerjaan transkripsi tertentu, salin nilai MedicalTranscriptionJobName parameter dalam output transkripsi, dan tentukan nilai itu untuk `MedicalTranscriptionJobName` opsi perintah. `get-medical-transcription-job` Untuk melihat lebih banyak pekerjaan transkripsi Anda, salin nilai NextToken parameter, jalankan `list-medical-transcription-jobs` perintah lagi, dan tentukan nilai itu di `--next-token` opsi.  

```
aws transcribe list-medical-transcription-jobs
```
Output:  

```
{
    "NextToken": "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",
    "MedicalTranscriptionJobSummaries": [
        {
            "MedicalTranscriptionJobName": "vocabulary-dictation-medical-transcription-job",
            "CreationTime": "2020-09-21T21:17:27.016000+00:00",
            "StartTime": "2020-09-21T21:17:27.045000+00:00",
            "CompletionTime": "2020-09-21T21:17:59.561000+00:00",
            "LanguageCode": "en-US",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "CUSTOMER_BUCKET",
            "Specialty": "PRIMARYCARE",
            "Type": "DICTATION"
        },
        {
            "MedicalTranscriptionJobName": "alternatives-dictation-medical-transcription-job",
            "CreationTime": "2020-09-21T21:01:14.569000+00:00",
            "StartTime": "2020-09-21T21:01:14.592000+00:00",
            "CompletionTime": "2020-09-21T21:01:43.606000+00:00",
            "LanguageCode": "en-US",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "CUSTOMER_BUCKET",
            "Specialty": "PRIMARYCARE",
            "Type": "DICTATION"
        },
        {
            "MedicalTranscriptionJobName": "alternatives-conversation-medical-transcription-job",
            "CreationTime": "2020-09-21T19:09:18.171000+00:00",
            "StartTime": "2020-09-21T19:09:18.199000+00:00",
            "CompletionTime": "2020-09-21T19:10:22.516000+00:00",
            "LanguageCode": "en-US",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "CUSTOMER_BUCKET",
            "Specialty": "PRIMARYCARE",
            "Type": "CONVERSATION"
        },
        {
            "MedicalTranscriptionJobName": "speaker-id-conversation-medical-transcription-job",
            "CreationTime": "2020-09-21T18:43:37.157000+00:00",
            "StartTime": "2020-09-21T18:43:37.265000+00:00",
            "CompletionTime": "2020-09-21T18:44:21.192000+00:00",
            "LanguageCode": "en-US",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "CUSTOMER_BUCKET",
            "Specialty": "PRIMARYCARE",
            "Type": "CONVERSATION"
        },
        {
            "MedicalTranscriptionJobName": "multichannel-conversation-medical-transcription-job",
            "CreationTime": "2020-09-20T23:46:44.053000+00:00",
            "StartTime": "2020-09-20T23:46:44.081000+00:00",
            "CompletionTime": "2020-09-20T23:47:35.851000+00:00",
            "LanguageCode": "en-US",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "CUSTOMER_BUCKET",
            "Specialty": "PRIMARYCARE",
            "Type": "CONVERSATION"
        }
    ]
}
```
*Untuk informasi selengkapnya, lihat https://docs.aws.amazon.com/transcribe/ latest/dg/batch -med-transcription.html> di Panduan Pengembang Amazon Transcribe.*  
+  Untuk detail API, lihat [ListMedicalTranscriptionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/list-medical-transcription-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-medical-vocabularies`
<a name="transcribe_ListMedicalVocabularies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-medical-vocabularies`.

**AWS CLI**  
**Untuk membuat daftar kosakata khusus medis Anda**  
`list-medical-vocabularies`Contoh berikut mencantumkan kosakata khusus medis yang terkait dengan AWS akun dan Wilayah Anda. Untuk mendapatkan informasi lebih lanjut tentang pekerjaan transkripsi tertentu, salin nilai `MedicalTranscriptionJobName` parameter dalam output transkripsi, dan tentukan nilai itu untuk `MedicalTranscriptionJobName` opsi perintah. `get-medical-transcription-job` Untuk melihat lebih banyak pekerjaan transkripsi Anda, salin nilai `NextToken` parameter, jalankan `list-medical-transcription-jobs` perintah lagi, dan tentukan nilai itu di `--next-token` opsi.  

```
aws transcribe list-medical-vocabularies
```
Output:  

```
{
    "Vocabularies": [
        {
            "VocabularyName": "cli-medical-vocab-2",
            "LanguageCode": "en-US",
            "LastModifiedTime": "2020-09-21T21:44:59.521000+00:00",
            "VocabularyState": "READY"
        },
        {
            "VocabularyName": "cli-medical-vocab-1",
            "LanguageCode": "en-US",
            "LastModifiedTime": "2020-09-19T23:59:04.349000+00:00",
            "VocabularyState": "READY"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kosakata Kustom Medis di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary-med.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [ListMedicalVocabularies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/list-medical-vocabularies.html)di *Referensi AWS CLI Perintah*. 

### `list-transcription-jobs`
<a name="transcribe_ListTranscriptionJobs_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-transcription-jobs`.

**AWS CLI**  
**Untuk membuat daftar pekerjaan transkripsi Anda**  
`list-transcription-jobs`Contoh berikut mencantumkan pekerjaan transkripsi yang terkait dengan AWS akun dan Wilayah Anda.  

```
aws transcribe list-transcription-jobs
```
Output:  

```
{
    "NextToken": "NextToken",
    "TranscriptionJobSummaries": [
        {
            "TranscriptionJobName": "speak-id-job-1",
            "CreationTime": "2020-08-17T21:06:15.391000+00:00",
            "StartTime": "2020-08-17T21:06:15.416000+00:00",
            "CompletionTime": "2020-08-17T21:07:05.098000+00:00",
            "LanguageCode": "language-code",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "SERVICE_BUCKET"
        },
        {
            "TranscriptionJobName": "job-1",
            "CreationTime": "2020-08-17T20:50:24.207000+00:00",
            "StartTime": "2020-08-17T20:50:24.230000+00:00",
            "CompletionTime": "2020-08-17T20:52:18.737000+00:00",
            "LanguageCode": "language-code",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "SERVICE_BUCKET"
        },
        {
            "TranscriptionJobName": "sdk-test-job-4",
            "CreationTime": "2020-08-17T20:32:27.917000+00:00",
            "StartTime": "2020-08-17T20:32:27.956000+00:00",
            "CompletionTime": "2020-08-17T20:33:15.126000+00:00",
            "LanguageCode": "language-code",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "SERVICE_BUCKET"
        },
        {
            "TranscriptionJobName": "Diarization-speak-id",
            "CreationTime": "2020-08-10T22:10:09.066000+00:00",
            "StartTime": "2020-08-10T22:10:09.116000+00:00",
            "CompletionTime": "2020-08-10T22:26:48.172000+00:00",
            "LanguageCode": "language-code",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "SERVICE_BUCKET"
        },
        {
            "TranscriptionJobName": "your-transcription-job-name",
            "CreationTime": "2020-07-29T17:45:09.791000+00:00",
            "StartTime": "2020-07-29T17:45:09.826000+00:00",
            "CompletionTime": "2020-07-29T17:46:20.831000+00:00",
            "LanguageCode": "language-code",
            "TranscriptionJobStatus": "COMPLETED",
            "OutputLocationType": "SERVICE_BUCKET"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai (Antarmuka Baris AWS Perintah)](https://docs.aws.amazon.com/transcribe/latest/dg/getting-started-cli.html) di Panduan *Pengembang Amazon Transcribe*.  
+  Untuk detail API, lihat [ListTranscriptionJobs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/list-transcription-jobs.html)di *Referensi AWS CLI Perintah*. 

### `list-vocabularies`
<a name="transcribe_ListVocabularies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-vocabularies`.

**AWS CLI**  
**Untuk membuat daftar kosakata kustom Anda**  
`list-vocabularies`Contoh berikut mencantumkan kosakata kustom yang terkait dengan AWS akun dan Wilayah Anda.  

```
aws transcribe list-vocabularies
```
Output:  

```
{
    "NextToken": "NextToken",
    "Vocabularies": [
        {
            "VocabularyName": "ards-test-1",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-04-27T22:00:27.330000+00:00",
            "VocabularyState": "READY"
        },
        {
            "VocabularyName": "sample-test",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-04-24T23:04:11.044000+00:00",
            "VocabularyState": "READY"
        },
        {
            "VocabularyName": "CRLF-to-LF-test-3-1",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-04-24T22:12:22.277000+00:00",
            "VocabularyState": "READY"
        },
        {
            "VocabularyName": "CRLF-to-LF-test-2",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-04-24T21:53:50.455000+00:00",
            "VocabularyState": "READY"
        },
        {
            "VocabularyName": "CRLF-to-LF-1-1",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-04-24T21:39:33.356000+00:00",
            "VocabularyState": "READY"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Kosakata Khusus di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [ListVocabularies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/list-vocabularies.html)di *Referensi AWS CLI Perintah*. 

### `list-vocabulary-filters`
<a name="transcribe_ListVocabularyFilters_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-vocabulary-filters`.

**AWS CLI**  
**Untuk membuat daftar filter kosakata Anda**  
`list-vocabulary-filters`Contoh berikut mencantumkan filter kosakata yang terkait dengan AWS akun dan Wilayah Anda.  

```
aws transcribe list-vocabulary-filters
```
Output:  

```
{
    "NextToken": "NextToken": [
        {
            "VocabularyFilterName": "testFilter",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-05-07T22:39:32.147000+00:00"
        },
        {
            "VocabularyFilterName": "testFilter2",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-05-21T23:29:35.174000+00:00"
        },
        {
            "VocabularyFilterName": "filter2",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-05-08T20:18:26.426000+00:00"
        },
        {
            "VocabularyFilterName": "filter-review",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-06-03T18:52:30.448000+00:00"
        },
        {
            "VocabularyFilterName": "crlf-filt",
            "LanguageCode": "language-code",
            "LastModifiedTime": "2020-05-22T19:42:42.737000+00:00"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memfilter Kata yang Tidak Diinginkan](https://docs.aws.amazon.com/transcribe/latest/dg/filter-unwanted-words.html) di Panduan Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [ListVocabularyFilters](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/list-vocabulary-filters.html)di *Referensi AWS CLI Perintah*. 

### `start-medical-transcription-job`
<a name="transcribe_StartMedicalTranscriptionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-medical-transcription-job`.

**AWS CLI**  
**Contoh 1: Untuk mentranskripsikan dikte medis yang disimpan sebagai file audio**  
`start-medical-transcription-job`Contoh berikut mentranskripsikan file audio. Anda menentukan lokasi output transkripsi dalam `OutputBucketName` parameter.  

```
aws transcribe start-medical-transcription-job \
    --cli-input-json file://myfile.json
```
Isi dari `myfile.json`:  

```
{
    "MedicalTranscriptionJobName": "simple-dictation-medical-transcription-job",
    "LanguageCode": "language-code",
    "Specialty": "PRIMARYCARE",
    "Type": "DICTATION",
    "OutputBucketName":"amzn-s3-demo-bucket",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
    }
}
```
Output:  

```
{
    "MedicalTranscriptionJob": {
        "MedicalTranscriptionJobName": "simple-dictation-medical-transcription-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
        "StartTime": "2020-09-20T00:35:22.256000+00:00",
        "CreationTime": "2020-09-20T00:35:22.218000+00:00",
        "Specialty": "PRIMARYCARE",
        "Type": "DICTATION"
    }
}
```
Untuk informasi selengkapnya, lihat [Ikhtisar Transkripsi Batch](https://docs.aws.amazon.com/transcribe/latest/dg/batch-med-transcription.html) di Panduan Pengembang *Amazon Transcribe*.  
**Contoh 2: Untuk mentranskripsikan dialog klinis-pasien yang disimpan sebagai file audio**  
`start-medical-transcription-job`Contoh berikut mentranskripsikan file audio yang berisi dialog klinis-pasien. Anda menentukan lokasi output transkripsi dalam OutputBucketName parameter.  

```
aws transcribe start-medical-transcription-job \
    --cli-input-json file://mysecondfile.json
```
Isi dari `mysecondfile.json`:  

```
{
    "MedicalTranscriptionJobName": "simple-dictation-medical-transcription-job",
    "LanguageCode": "language-code",
    "Specialty": "PRIMARYCARE",
    "Type": "CONVERSATION",
    "OutputBucketName":"amzn-s3-demo-bucket",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
    }
}
```
Output:  

```
{
    "MedicalTranscriptionJob": {
        "MedicalTranscriptionJobName": "simple-conversation-medical-transcription-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
        "StartTime": "2020-09-20T23:19:49.965000+00:00",
        "CreationTime": "2020-09-20T23:19:49.941000+00:00",
        "Specialty": "PRIMARYCARE",
        "Type": "CONVERSATION"
    }
}
```
Untuk informasi selengkapnya, lihat [Ikhtisar Transkripsi Batch](https://docs.aws.amazon.com/transcribe/latest/dg/batch-med-transcription.html) di Panduan Pengembang *Amazon Transcribe*.  
**Contoh 3: Untuk mentranskripsikan file audio multisaluran dari dialog dokter-pasien**  
`start-medical-transcription-job`Contoh berikut mentranskripsikan audio dari setiap saluran dalam file audio dan menggabungkan transkripsi terpisah dari setiap saluran menjadi satu output transkripsi. Anda menentukan lokasi output transkripsi dalam `OutputBucketName` parameter.  

```
aws transcribe start-medical-transcription-job \
    --cli-input-json file://mythirdfile.json
```
Isi dari `mythirdfile.json`:  

```
{
    "MedicalTranscriptionJobName": "multichannel-conversation-medical-transcription-job",
    "LanguageCode": "language-code",
    "Specialty": "PRIMARYCARE",
    "Type": "CONVERSATION",
    "OutputBucketName":"amzn-s3-demo-bucket",
        "Media": {
          "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
        "Settings":{
          "ChannelIdentification": true
        }
}
```
Output:  

```
{
    "MedicalTranscriptionJob": {
        "MedicalTranscriptionJobName": "multichannel-conversation-medical-transcription-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
        "StartTime": "2020-09-20T23:46:44.081000+00:00",
        "CreationTime": "2020-09-20T23:46:44.053000+00:00",
        "Settings": {
            "ChannelIdentification": true
        },
        "Specialty": "PRIMARYCARE",
        "Type": "CONVERSATION"
    }
}
```
Untuk informasi selengkapnya, lihat [Identifikasi Saluran](https://docs.aws.amazon.com/transcribe/latest/dg/how-channel-id-med.html) di Panduan *Pengembang Amazon Transcribe*.  
**Contoh 4: Untuk mentranskripsikan file audio dari dialog klinis-pasien dan mengidentifikasi pembicara dalam output transkripsi**  
`start-medical-transcription-job`Contoh berikut mentranskripsikan file audio dan memberi label ucapan setiap pembicara dalam output transkripsi. Anda menentukan lokasi output transkripsi dalam `OutputBucketName` parameter.  

```
aws transcribe start-medical-transcription-job \
    --cli-input-json file://myfourthfile.json
```
Isi dari `myfourthfile.json`:  

```
{
    "MedicalTranscriptionJobName": "speaker-id-conversation-medical-transcription-job",
    "LanguageCode": "language-code",
    "Specialty": "PRIMARYCARE",
    "Type": "CONVERSATION",
    "OutputBucketName":"amzn-s3-demo-bucket",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
    "Settings":{
        "ShowSpeakerLabels": true,
        "MaxSpeakerLabels": 2
        }
}
```
Output:  

```
{
    "MedicalTranscriptionJob": {
        "MedicalTranscriptionJobName": "speaker-id-conversation-medical-transcription-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
        "StartTime": "2020-09-21T18:43:37.265000+00:00",
        "CreationTime": "2020-09-21T18:43:37.157000+00:00",
        "Settings": {
            "ShowSpeakerLabels": true,
            "MaxSpeakerLabels": 2
        },
        "Specialty": "PRIMARYCARE",
        "Type": "CONVERSATION"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengidentifikasi Pembicara](https://docs.aws.amazon.com/transcribe/latest/dg/diarization-med.html) di Panduan *Pengembang Amazon Transcribe*.  
**Contoh 5: Untuk mentranskripsikan percakapan medis yang disimpan sebagai file audio dengan hingga dua alternatif transkripsi**  
`start-medical-transcription-job`Contoh berikut membuat hingga dua transkripsi alternatif dari satu file audio. Setiap transkripsi memiliki tingkat kepercayaan yang terkait dengannya. Secara default, Amazon Transcribe mengembalikan transkripsi dengan tingkat kepercayaan tertinggi. Anda dapat menentukan bahwa Amazon Transcribe mengembalikan transkripsi tambahan dengan tingkat kepercayaan yang lebih rendah. Anda menentukan lokasi output transkripsi dalam `OutputBucketName` parameter.  

```
aws transcribe start-medical-transcription-job \
    --cli-input-json file://myfifthfile.json
```
Isi dari `myfifthfile.json`:  

```
{
    "MedicalTranscriptionJobName": "alternatives-conversation-medical-transcription-job",
    "LanguageCode": "language-code",
    "Specialty": "PRIMARYCARE",
    "Type": "CONVERSATION",
    "OutputBucketName":"amzn-s3-demo-bucket",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
    },
    "Settings":{
        "ShowAlternatives": true,
        "MaxAlternatives": 2
    }
}
```
Output:  

```
{
    "MedicalTranscriptionJob": {
        "MedicalTranscriptionJobName": "alternatives-conversation-medical-transcription-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
        "StartTime": "2020-09-21T19:09:18.199000+00:00",
        "CreationTime": "2020-09-21T19:09:18.171000+00:00",
        "Settings": {
            "ShowAlternatives": true,
            "MaxAlternatives": 2
        },
        "Specialty": "PRIMARYCARE",
        "Type": "CONVERSATION"
    }
}
```
Untuk informasi selengkapnya, lihat [Transkripsi Alternatif](https://docs.aws.amazon.com/transcribe/latest/dg/how-alternatives-med.html) di Panduan Pengembang *Amazon Transcribe*.  
**Contoh 6: Untuk mentranskripsikan file audio dikte medis dengan hingga dua transkripsi alternatif**  
`start-medical-transcription-job`Contoh berikut mentranskripsikan file audio dan menggunakan filter kosakata untuk menutupi kata-kata yang tidak diinginkan. Anda menentukan lokasi output transkripsi dalam OutputBucketName parameter.  

```
aws transcribe start-medical-transcription-job \
    --cli-input-json file://mysixthfile.json
```
Isi dari `mysixthfile.json`:  

```
{
    "MedicalTranscriptionJobName": "alternatives-conversation-medical-transcription-job",
    "LanguageCode": "language-code",
    "Specialty": "PRIMARYCARE",
    "Type": "DICTATION",
    "OutputBucketName":"amzn-s3-demo-bucket",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
    },
    "Settings":{
          "ShowAlternatives": true,
          "MaxAlternatives": 2
    }
}
```
Output:  

```
{
    "MedicalTranscriptionJob": {
        "MedicalTranscriptionJobName": "alternatives-dictation-medical-transcription-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
        "StartTime": "2020-09-21T21:01:14.592000+00:00",
        "CreationTime": "2020-09-21T21:01:14.569000+00:00",
        "Settings": {
            "ShowAlternatives": true,
            "MaxAlternatives": 2
        },
        "Specialty": "PRIMARYCARE",
        "Type": "DICTATION"
    }
}
```
Untuk informasi selengkapnya, lihat [Transkripsi Alternatif](https://docs.aws.amazon.com/transcribe/latest/dg/how-alternatives-med.html) di Panduan Pengembang *Amazon Transcribe*.  
**Contoh 7: Untuk mentranskripsikan file audio dikte medis dengan akurasi yang meningkat dengan menggunakan kosakata khusus**  
`start-medical-transcription-job`Contoh berikut mentranskripsikan file audio dan menggunakan kosakata khusus medis yang telah Anda buat sebelumnya untuk meningkatkan akurasi transkripsi. Anda menentukan lokasi output transkripsi dalam `OutputBucketName` parameter.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://myseventhfile.json
```
Isi dari `mysixthfile.json`:  

```
{
    "MedicalTranscriptionJobName": "vocabulary-dictation-medical-transcription-job",
    "LanguageCode": "language-code",
    "Specialty": "PRIMARYCARE",
    "Type": "DICTATION",
    "OutputBucketName":"amzn-s3-demo-bucket",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
    },
    "Settings":{
        "VocabularyName": "cli-medical-vocab-1"
    }
}
```
Output:  

```
{
    "MedicalTranscriptionJob": {
        "MedicalTranscriptionJobName": "vocabulary-dictation-medical-transcription-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.extension"
        },
        "StartTime": "2020-09-21T21:17:27.045000+00:00",
        "CreationTime": "2020-09-21T21:17:27.016000+00:00",
        "Settings": {
            "VocabularyName": "cli-medical-vocab-1"
        },
        "Specialty": "PRIMARYCARE",
        "Type": "DICTATION"
    }
}
```
Untuk informasi selengkapnya, lihat [Kosakata Kustom Medis di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary-med.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [StartMedicalTranscriptionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/start-medical-transcription-job.html)di *Referensi AWS CLI Perintah*. 

### `start-transcription-job`
<a name="transcribe_StartTranscriptionJob_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-transcription-job`.

**AWS CLI**  
**Contoh 1: Untuk mentranskripsikan file audio**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio Anda.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://myfile.json
```
Isi dari `myfile.json`:  

```
{
    "TranscriptionJobName": "cli-simple-transcription-job",
    "LanguageCode": "the-language-of-your-transcription-job",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai (Antarmuka Baris AWS Perintah)](https://docs.aws.amazon.com/transcribe/latest/dg/getting-started-cli.html) di Panduan *Pengembang Amazon Transcribe*.  
**Contoh 2: Untuk mentranskripsikan file audio multi-saluran**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio multi-saluran Anda.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://mysecondfile.json
```
Isi dari `mysecondfile.json`:  

```
{
    "TranscriptionJobName": "cli-channelid-job",
    "LanguageCode": "the-language-of-your-transcription-job",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
    },
    "Settings":{
        "ChannelIdentification":true
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-channelid-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "the-language-of-your-transcription-job",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
        },
        "StartTime": "2020-09-17T16:07:56.817000+00:00",
        "CreationTime": "2020-09-17T16:07:56.784000+00:00",
        "Settings": {
            "ChannelIdentification": true
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mentranskripsikan Audio Multi-Saluran](https://docs.aws.amazon.com/transcribe/latest/dg/channel-id.html) di Panduan Pengembang *Amazon Transcribe*.  
**Contoh 3: Untuk mentranskripsikan file audio dan mengidentifikasi speaker yang berbeda**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio Anda dan mengidentifikasi speaker dalam output transkripsi.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://mythirdfile.json
```
Isi dari `mythirdfile.json`:  

```
{
    "TranscriptionJobName": "cli-speakerid-job",
    "LanguageCode": "the-language-of-your-transcription-job",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
    },
    "Settings":{
    "ShowSpeakerLabels": true,
    "MaxSpeakerLabels": 2
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-speakerid-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "the-language-of-your-transcription-job",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
        },
        "StartTime": "2020-09-17T16:22:59.696000+00:00",
        "CreationTime": "2020-09-17T16:22:59.676000+00:00",
        "Settings": {
            "ShowSpeakerLabels": true,
            "MaxSpeakerLabels": 2
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Mengidentifikasi Pembicara](https://docs.aws.amazon.com/transcribe/latest/dg/diarization.html) di Panduan *Pengembang Amazon Transcribe*.  
**Contoh 4: Untuk mentranskripsikan file audio dan menutupi kata-kata yang tidak diinginkan dalam output transkripsi**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio Anda dan menggunakan filter kosakata yang sebelumnya Anda buat untuk menutupi kata-kata yang tidak diinginkan.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://myfourthfile.json
```
Isi dari `myfourthfile.json`:  

```
{
    "TranscriptionJobName": "cli-filter-mask-job",
    "LanguageCode": "the-language-of-your-transcription-job",
    "Media": {
          "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
    },
    "Settings":{
        "VocabularyFilterName": "your-vocabulary-filter",
        "VocabularyFilterMethod": "mask"
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-filter-mask-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "the-language-of-your-transcription-job",
        "Media": {
            "MediaFileUri": "s3://Amazon-S3-Prefix/your-media-file.file-extension"
        },
        "StartTime": "2020-09-18T16:36:18.568000+00:00",
        "CreationTime": "2020-09-18T16:36:18.547000+00:00",
        "Settings": {
            "VocabularyFilterName": "your-vocabulary-filter",
            "VocabularyFilterMethod": "mask"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memfilter Transkripsi di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/filter-transcriptions.html) Pengembang *Amazon Transcribe*.  
**Contoh 5: Untuk mentranskripsikan file audio dan menghapus kata-kata yang tidak diinginkan dalam output transkripsi**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio Anda dan menggunakan filter kosakata yang sebelumnya Anda buat untuk menutupi kata-kata yang tidak diinginkan.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://myfifthfile.json
```
Isi dari `myfifthfile.json`:  

```
{
    "TranscriptionJobName": "cli-filter-remove-job",
    "LanguageCode": "the-language-of-your-transcription-job",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
    },
    "Settings":{
        "VocabularyFilterName": "your-vocabulary-filter",
        "VocabularyFilterMethod": "remove"
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-filter-remove-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "the-language-of-your-transcription-job",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
        },
        "StartTime": "2020-09-18T16:36:18.568000+00:00",
        "CreationTime": "2020-09-18T16:36:18.547000+00:00",
        "Settings": {
            "VocabularyFilterName": "your-vocabulary-filter",
            "VocabularyFilterMethod": "remove"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memfilter Transkripsi di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/filter-transcriptions.html) Pengembang *Amazon Transcribe*.  
**Contoh 6: Untuk mentranskripsikan file audio dengan akurasi yang meningkat menggunakan kosakata khusus**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio Anda dan menggunakan filter kosakata yang sebelumnya Anda buat untuk menutupi kata-kata yang tidak diinginkan.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://mysixthfile.json
```
Isi dari `mysixthfile.json`:  

```
{
    "TranscriptionJobName": "cli-vocab-job",
    "LanguageCode": "the-language-of-your-transcription-job",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
    },
    "Settings":{
        "VocabularyName": "your-vocabulary"
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-vocab-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "the-language-of-your-transcription-job",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
        },
        "StartTime": "2020-09-18T16:36:18.568000+00:00",
        "CreationTime": "2020-09-18T16:36:18.547000+00:00",
        "Settings": {
            "VocabularyName": "your-vocabulary"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Memfilter Transkripsi di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/filter-transcriptions.html) Pengembang *Amazon Transcribe*.  
**Contoh 7: Untuk mengidentifikasi bahasa file audio dan menuliskannya**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio Anda dan menggunakan filter kosakata yang sebelumnya Anda buat untuk menutupi kata-kata yang tidak diinginkan.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://myseventhfile.json
```
Isi dari `myseventhfile.json`:  

```
{
    "TranscriptionJobName": "cli-identify-language-transcription-job",
    "IdentifyLanguage": true,
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-identify-language-transcription-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/Amazon-S3-prefix/your-media-file-name.file-extension"
        },
        "StartTime": "2020-09-18T22:27:23.970000+00:00",
        "CreationTime": "2020-09-18T22:27:23.948000+00:00",
        "IdentifyLanguage": true
    }
}
```
Untuk informasi selengkapnya, lihat [Mengidentifikasi Bahasa](https://docs.aws.amazon.com/transcribe/latest/dg/auto-lang-id.html) di Panduan *Pengembang Amazon Transcribe*.  
**Contoh 8: Untuk mentranskripsikan file audio dengan informasi yang dapat diidentifikasi secara pribadi disunting**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio Anda dan menyunting informasi identitas pribadi apa pun dalam keluaran transkripsi.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://myeighthfile.json
```
Isi dari `myeigthfile.json`:  

```
{
    "TranscriptionJobName": "cli-redaction-job",
    "LanguageCode": "language-code",
    "Media": {
        "MediaFileUri": "s3://Amazon-S3-Prefix/your-media-file.file-extension"
    },
    "ContentRedaction": {
        "RedactionOutput":"redacted",
        "RedactionType":"PII"
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-redaction-job",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://Amazon-S3-Prefix/your-media-file.file-extension"
        },
        "StartTime": "2020-09-25T23:49:13.195000+00:00",
        "CreationTime": "2020-09-25T23:49:13.176000+00:00",
        "ContentRedaction": {
            "RedactionType": "PII",
            "RedactionOutput": "redacted"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Redaksi Konten Otomatis](https://docs.aws.amazon.com/transcribe/latest/dg/content-redaction.html) di Panduan Pengembang *Amazon Transcribe*.  
**Contoh 9: Untuk menghasilkan transkrip dengan informasi identitas pribadi (PII) yang disunting dan transkrip yang tidak disunting**  
`start-transcription-job`Contoh berikut menghasilkan dua transkripsi file audio Anda, satu dengan informasi yang dapat diidentifikasi secara pribadi disunting, dan yang lainnya tanpa redaksi apa pun.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://myninthfile.json
```
Isi dari `myninthfile.json`:  

```
{
    "TranscriptionJobName": "cli-redaction-job-with-unredacted-transcript",
    "LanguageCode": "language-code",
    "Media": {
          "MediaFileUri": "s3://Amazon-S3-Prefix/your-media-file.file-extension"
        },
    "ContentRedaction": {
        "RedactionOutput":"redacted_and_unredacted",
        "RedactionType":"PII"
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-redaction-job-with-unredacted-transcript",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://Amazon-S3-Prefix/your-media-file.file-extension"
        },
        "StartTime": "2020-09-25T23:59:47.677000+00:00",
        "CreationTime": "2020-09-25T23:59:47.653000+00:00",
        "ContentRedaction": {
            "RedactionType": "PII",
            "RedactionOutput": "redacted_and_unredacted"
        }
    }
}
```
Untuk informasi selengkapnya, lihat [Redaksi Konten Otomatis](https://docs.aws.amazon.com/transcribe/latest/dg/content-redaction.html) di Panduan Pengembang *Amazon Transcribe*.  
**Contoh 10: Untuk menggunakan model bahasa kustom yang sebelumnya Anda buat untuk mentranskripsikan file audio.**  
`start-transcription-job`Contoh berikut mentranskripsikan file audio Anda dengan model bahasa khusus yang telah Anda buat sebelumnya.  

```
aws transcribe start-transcription-job \
    --cli-input-json file://mytenthfile.json
```
Isi dari `mytenthfile.json`:  

```
{
    "TranscriptionJobName": "cli-clm-2-job-1",
    "LanguageCode": "language-code",
    "Media": {
        "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.file-extension"
    },
    "ModelSettings": {
        "LanguageModelName":"cli-clm-2"
    }
}
```
Output:  

```
{
    "TranscriptionJob": {
        "TranscriptionJobName": "cli-clm-2-job-1",
        "TranscriptionJobStatus": "IN_PROGRESS",
        "LanguageCode": "language-code",
        "Media": {
            "MediaFileUri": "s3://amzn-s3-demo-bucket/your-audio-file.file-extension"
        },
        "StartTime": "2020-09-28T17:56:01.835000+00:00",
        "CreationTime": "2020-09-28T17:56:01.801000+00:00",
        "ModelSettings": {
            "LanguageModelName": "cli-clm-2"
        }
    }
}
```
*Untuk informasi selengkapnya, lihat [Meningkatkan Akurasi Transkripsi Khusus Domain dengan Model Bahasa Khusus](https://docs.aws.amazon.com/transcribe/latest/dg/custom-language-models.html) di Panduan Pengembang Amazon Transcribe.*  
+  Untuk detail API, lihat [StartTranscriptionJob](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/start-transcription-job.html)di *Referensi AWS CLI Perintah*. 

### `update-medical-vocabulary`
<a name="transcribe_UpdateMedicalVocabulary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-medical-vocabulary`.

**AWS CLI**  
**Untuk memperbarui kosakata khusus medis dengan istilah baru.**  
`update-medical-vocabulary`Contoh berikut menggantikan istilah yang digunakan dalam kosakata khusus medis dengan yang baru. Prasyarat: untuk mengganti istilah dalam kosakata khusus medis, Anda memerlukan file dengan istilah baru.  

```
aws transcribe update-medical-vocabulary \
    --vocabulary-file-uri s3://amzn-s3-demo-bucket/Amazon-S3-Prefix/medical-custom-vocabulary.txt \
    --vocabulary-name medical-custom-vocabulary \
    --language-code language
```
Output:  

```
{
    "VocabularyName": "medical-custom-vocabulary",
    "LanguageCode": "en-US",
    "VocabularyState": "PENDING"
}
```
Untuk informasi selengkapnya, lihat [Kosakata Kustom Medis di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [UpdateMedicalVocabulary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/update-medical-vocabulary.html)di *Referensi AWS CLI Perintah*. 

### `update-vocabulary-filter`
<a name="transcribe_UpdateVocabularyFilter_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-vocabulary-filter`.

**AWS CLI**  
**Untuk mengganti kata-kata dalam filter kosakata**  
`update-vocabulary-filter`Contoh berikut menggantikan kata-kata dalam filter kosakata dengan yang baru. Prasyarat: Untuk memperbarui filter kosakata dengan kata-kata baru, Anda harus menyimpan kata-kata itu sebagai file teks.  

```
aws transcribe update-vocabulary-filter \
    --vocabulary-filter-file-uri s3://amzn-s3-demo-bucket/Amazon-S3-Prefix/your-text-file-to-update-your-vocabulary-filter.txt \
    --vocabulary-filter-name vocabulary-filter-name
```
Output:  

```
{
    "VocabularyFilterName": "vocabulary-filter-name",
    "LanguageCode": "language-code",
    "LastModifiedTime": "2020-09-23T18:40:35.139000+00:00"
}
```
Untuk informasi selengkapnya, lihat [Memfilter Kata yang Tidak Diinginkan](https://docs.aws.amazon.com/transcribe/latest/dg/filter-unwanted-words.html) di Panduan Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [UpdateVocabularyFilter](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/update-vocabulary-filter.html)di *Referensi AWS CLI Perintah*. 

### `update-vocabulary`
<a name="transcribe_UpdateVocabulary_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-vocabulary`.

**AWS CLI**  
**Untuk memperbarui kosakata khusus dengan istilah baru.**  
`update-vocabulary`Contoh berikut menimpa istilah yang digunakan untuk membuat kosakata khusus dengan yang baru yang Anda berikan. Prasyarat: untuk mengganti istilah dalam kosakata khusus, Anda memerlukan file dengan istilah baru.  

```
aws transcribe update-vocabulary \
    --vocabulary-file-uri s3://amzn-s3-demo-bucket/Amazon-S3-Prefix/custom-vocabulary.txt \
    --vocabulary-name custom-vocabulary \
    --language-code language-code
```
Output:  

```
{
    "VocabularyName": "custom-vocabulary",
    "LanguageCode": "language",
    "VocabularyState": "PENDING"
}
```
Untuk informasi selengkapnya, lihat [Kosakata Khusus di Panduan](https://docs.aws.amazon.com/transcribe/latest/dg/how-vocabulary.html) Pengembang *Amazon Transcribe*.  
+  Untuk detail API, lihat [UpdateVocabulary](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/transcribe/update-vocabulary.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon Translate menggunakan AWS CLI
<a name="cli_2_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Amazon Translate.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `import-terminology`
<a name="translate_ImportTerminology_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`import-terminology`.

**AWS CLI**  
**Untuk mengimpor terminologi kustom dari file**  
`import-terminology`Contoh berikut membuat terminologi yang disebut `MyTestTerminology` dari `test-terminology.csv` file:  

```
aws translate import-terminology \
    --name MyTestTerminology \
    --description "Creating a test terminology in AWS Translate" \
    --merge-strategy OVERWRITE \
    --data-file fileb://test-terminology.csv \
    --terminology-data Format=CSV
```
Isi dari `test-terminology.csv`:  
en, fr, es, zh Halo dunia\$1 , Bonjour memuji le monde\$1 , Hola Mundo\$1 ,???? Amazon, Amazon, Amazon, Amazon  
Output:  

```
{
    "TerminologyProperties": {
        "SourceLanguageCode": "en",
        "Name": "MyTestTerminology",
        "TargetLanguageCodes": [
            "fr",
            "es",
            "zh"
        ],
        "SizeBytes": 97,
        "LastUpdatedAt": 1571089500.851,
        "CreatedAt": 1571089500.851,
        "TermCount": 6,
        "Arn": "arn:aws:translate:us-west-2:123456789012:terminology/MyTestTerminology/LATEST",
        "Description": "Creating a test terminology in AWS Translate"
    }
}
```
+  Untuk detail API, lihat [ImportTerminology](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/translate/import-terminology.html)di *Referensi AWS CLI Perintah*. 

# Trusted Advisor contoh menggunakan AWS CLI
<a name="cli_2_trustedadvisor_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with Trusted Advisor.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `get-organization-recommendation`
<a name="trustedadvisor_GetOrganizationRecommendation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-organization-recommendation`.

**AWS CLI**  
**Untuk mendapatkan rekomendasi organisasi**  
`get-organization-recommendation`Contoh berikut mendapat rekomendasi organisasi oleh pengenalnya.  

```
aws trustedadvisor get-organization-recommendation \
    --organization-recommendation-identifier arn:aws:trustedadvisor:::organization-recommendation/9534ec9b-bf3a-44e8-8213-2ed68b39d9d5
```
Output:  

```
{
    "organizationRecommendation": {
        "arn": "arn:aws:trustedadvisor:::organization-recommendation/9534ec9b-bf3a-44e8-8213-2ed68b39d9d5",
        "name": "Lambda Runtime Deprecation Warning",
        "description": "One or more lambdas are using a deprecated runtime",
        "awsServices": [
            "lambda"
        ],
        "checkArn": "arn:aws:trustedadvisor:::check/L4dfs2Q4C5",
        "id": "9534ec9b-bf3a-44e8-8213-2ed68b39d9d5",
        "lifecycleStage": "resolved",
        "pillars": [
            "security"
        ],
        "resourcesAggregates": {
            "errorCount": 0,
            "okCount": 0,
            "warningCount": 0
        },
        "source": "ta_check",
        "status": "warning",
        "type": "priority"
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [GetOrganizationRecommendation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/get-organization-recommendation.html)di *Referensi AWS CLI Perintah*. 

### `get-recommendation`
<a name="trustedadvisor_GetRecommendation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-recommendation`.

**AWS CLI**  
**Untuk mendapatkan rekomendasi**  
`get-recommendation`Contoh berikut mendapat rekomendasi oleh pengenalnya.  

```
aws trustedadvisor get-recommendation \
    --recommendation-identifier arn:aws:trustedadvisor::000000000000:recommendation/55fa4d2e-bbb7-491a-833b-5773e9589578
```
Output:  

```
{
    "recommendation": {
        "arn": "arn:aws:trustedadvisor::000000000000:recommendation/55fa4d2e-bbb7-491a-833b-5773e9589578",
        "name": "MFA Recommendation",
        "description": "Enable multi-factor authentication",
        "awsServices": [
            "iam"
        ],
        "checkArn": "arn:aws:trustedadvisor:::check/7DAFEmoDos",
        "id": "55fa4d2e-bbb7-491a-833b-5773e9589578",
        "lastUpdatedAt": "2023-11-01T15:57:58.673Z",
        "pillarSpecificAggregates": {
            "costOptimizing": {
                "estimatedMonthlySavings": 0.0,
                "estimatedPercentMonthlySavings": 0.0
            }
        },
        "pillars": [
            "security"
        ],
        "resourcesAggregates": {
            "errorCount": 1,
            "okCount": 0,
            "warningCount": 0
        },
        "source": "ta_check",
        "status": "error",
        "type": "standard"
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [GetRecommendation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/get-recommendation.html)di *Referensi AWS CLI Perintah*. 

### `list-checks`
<a name="trustedadvisor_ListChecks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-checks`.

**AWS CLI**  
**Untuk daftar cek Trusted Advisor**  
`list-checks`Contoh berikut mencantumkan semua cek Trusted Advisor.  

```
aws trustedadvisor list-checks
```
Output:  

```
{
    "checkSummaries": [
        {
            "arn": "arn:aws:trustedadvisor:::check/1iG5NDGVre",
            "awsServices": [
                "EC2"
            ],
            "description": "Checks security groups for rules that allow unrestricted access to a resource. Unrestricted access increases opportunities for malicious activity (hacking, denial-of-service attacks, loss of data)",
            "id": "1iG5NDGVre",
            "metadata": {
                "0": "Region",
                "1": "Security Group Name",
                "2": "Security Group ID",
                "3": "Protocol",
                "4": "Port",
                "5": "Status",
                "6": "IP Range"
            },
            "name": "Security Groups - Unrestricted Access",
            "pillars": [
                "security"
            ],
            "source": "ta_check"
        },
        {
            "arn": "arn:aws:trustedadvisor:::check/1qazXsw23e",
            "awsServices": [
                "RDS"
            ],
            "description": "Checks your usage of RDS and provides recommendations on purchase of Reserved Instances to help reduce costs incurred from using RDS On-Demand. AWS generates these recommendations by analyzing your On-Demand usage for the past 30 days. We then simulate every combination of reservations in the generated category of usage in order to identify the best number of each type of Reserved Instance to purchase to maximize your savings. This check covers recommendations based on partial upfront payment option with 1-year or 3-year commitment. This check is not available to accounts linked in Consolidated Billing. Recommendations are only available for the Paying Account.",
            "id": "1qazXsw23e",
            "metadata": {
                "0": "Region",
                "1": "Family",
                "2": "Instance Type",
                "3": "License Model",
                "4": "Database Edition",
                "5": "Database Engine",
                "6": "Deployment Option",
                "7": "Recommended number of Reserved Instances to purchase",
                "8": "Expected Average Reserved Instance Utilization",
                "9": "Estimated Savings with Recommendation (monthly)"
                "10": "Upfront Cost of Reserved Instances",
                "11": "Estimated cost of Reserved Instances (monthly)",
                "12": "Estimated On-Demand Cost Post Recommended Reserved Instance Purchase (monthly)",
                "13": "Estimated Break Even (months)",
                "14": "Lookback Period (days)",
                "15": "Term (years)"
            },
            "name": "Amazon Relational Database Service (RDS) Reserved Instance Optimization",
            "pillars": [
                "cost_optimizing"
            ],
            "source": "ta_check"
        },
        {
            "arn": "arn:aws:trustedadvisor:::check/1qw23er45t",
            "awsServices": [
                "Redshift"
            ],
            "description": "Checks your usage of Redshift and provides recommendations on purchase of Reserved Nodes to help reduce costs incurred from using Redshift On-Demand. AWS generates these recommendations by analyzing your On-Demand usage for the past 30 days. We then simulate every combination of reservations in the generated category of usage in order to identify the best number of each type of Reserved Nodes to purchase to maximize your savings. This check covers recommendations based on partial upfront payment option with 1-year or 3-year commitment. This check is not available to accounts linked in Consolidated Billing. Recommendations are only available for the Paying Account.",
            "id": "1qw23er45t",
            "metadata": {
                "0": "Region",
                "1": "Family",
                "2": "Node Type",
                "3": "Recommended number of Reserved Nodes to purchase",
                "4": "Expected Average Reserved Node Utilization",
                "5": "Estimated Savings with Recommendation (monthly)",
                "6": "Upfront Cost of Reserved Nodes",
                "7": "Estimated cost of Reserved Nodes (monthly)",
                "8": "Estimated On-Demand Cost Post Recommended Reserved Nodes Purchase (monthly)",
                "9": "Estimated Break Even (months)",
                "10": "Lookback Period (days)",
                "11": "Term (years)",
            },
            "name": "Amazon Redshift Reserved Node Optimization",
            "pillars": [
                "cost_optimizing"
            ],
            "source": "ta_check"
        },
    ],
    "nextToken": "REDACTED"
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [ListChecks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/list-checks.html)di *Referensi AWS CLI Perintah*. 

### `list-organization-recommendation-accounts`
<a name="trustedadvisor_ListOrganizationRecommendationAccounts_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-organization-recommendation-accounts`.

**AWS CLI**  
**Untuk membuat daftar akun rekomendasi organisasi**  
`list-organization-recommendation-accounts`Contoh berikut mencantumkan semua ringkasan rekomendasi akun untuk rekomendasi organisasi dengan pengenalnya.  

```
aws trustedadvisor list-organization-recommendation-accounts \
    --organization-recommendation-identifier arn:aws:trustedadvisor:::organization-recommendation/9534ec9b-bf3a-44e8-8213-2ed68b39d9d5
```
Output:  

```
{
    "accountRecommendationLifecycleSummaries": [{
        "accountId": "000000000000",
        "accountRecommendationArn": "arn:aws:trustedadvisor::000000000000:recommendation/9534ec9b-bf3a-44e8-8213-2ed68b39d9d5",
        "lifecycleStage": "resolved",
        "updateReason": "Resolved issue",
        "updateReasonCode": "valid_business_case",
        "lastUpdatedAt": "2023-01-17T18:25:44.552Z"
    }],
    "nextToken": "REDACTED"
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [ListOrganizationRecommendationAccounts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/list-organization-recommendation-accounts.html)di *Referensi AWS CLI Perintah*. 

### `list-organization-recommendation-resources`
<a name="trustedadvisor_ListOrganizationRecommendationResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-organization-recommendation-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber daya rekomendasi organisasi**  
`list-organization-recommendation-resources`Contoh berikut mencantumkan semua sumber daya untuk rekomendasi organisasi dengan pengenalnya.  

```
aws trustedadvisor list-organization-recommendation-resources \
    --organization-recommendation-identifier arn:aws:trustedadvisor:::organization-recommendation/5a694939-2e54-45a2-ae72-730598fa89d0
```
Output:  

```
{
    "organizationRecommendationResourceSummaries": [
        {
            "arn": "arn:aws:trustedadvisor::000000000000:recommendation-resource/5a694939-2e54-45a2-ae72-730598fa89d0/bb38affc0ce0681d9a6cd13f30238ba03a8f63dfe7a379dc403c619119d86af",
            "awsResourceId": "database-1-instance-1",
            "id": "bb38affc0ce0681d9a6cd13f302383ba03a8f63dfe7a379dc403c619119d86af",
            "lastUpdatedAt": "2023-11-01T15:09:51.891Z",
            "metadata": {
                "0": "14",
                "1": "208.79999999999998",
                "2": "database-1-instance-1",
                "3": "db.r5.large",
                "4": "false",
                "5": "us-west-2",
                "6": "arn:aws:rds:us-west-2:000000000000:db:database-1-instance-1",
                "7": "1"
            },
            "recommendationArn": "arn:aws:trustedadvisor:::organization-recommendation/5a694939-2e54-45a2-ae72-730598fa89d0",
            "regionCode": "us-west-2",
            "status": "warning"
        },
        {
            "arn": "arn:aws:trustedadvisor::000000000000:recommendation-resource/5a694939-2e54-45a2-ae72-730598fa89d0/51fded4d7a3278818df9cfe344ff5762cec46c095a6763d1ba1ba53bd0e1b0e6",
            "awsResourceId": "database-1",
            "id": "51fded4d7a3278818df9cfe344ff5762cec46c095a6763d1ba1ba53bd0e1b0e6",
            "lastUpdatedAt": "2023-11-01T15:09:51.891Z",
            "metadata": {
                "0": "14",
                "1": "31.679999999999996",
                "2": "database-1",
                "3": "db.t3.small",
                "4": "false",
                "5": "us-west-2",
                "6": "arn:aws:rds:us-west-2:000000000000:db:database-1",
                "7": "20"
            },
            "recommendationArn": "arn:aws:trustedadvisor:::organization-recommendation/5a694939-2e54-45a2-ae72-730598fa89d0",
            "regionCode": "us-west-2",
            "status": "warning"
        },
        {
            "arn": "arn:aws:trustedadvisor::000000000000:recommendation-resource/5a694939-2e54-45a2-ae72-730598fa89d0/f4d01bd20f4cd5372062aafc8786c489e48f0ead7cdab121463bf9f89e40a36b",
            "awsResourceId": "database-2-instance-1-us-west-2a",
            "id": "f4d01bd20f4cd5372062aafc8786c489e48f0ead7cdab121463bf9f89e40a36b",
            "lastUpdatedAt": "2023-11-01T15:09:51.891Z",
            "metadata": {
                "0": "14",
                "1": "187.20000000000002",
                "2": "database-2-instance-1-us-west-2a",
                "3": "db.r6g.large",
                "4": "true",
                "5": "us-west-2",
                "6": "arn:aws:rds:us-west-2:000000000000:db:database-2-instance-1-us-west-2a",
                "7": "1"
            },
            "recommendationArn": "arn:aws:trustedadvisor:::organization-recommendation/5a694939-2e54-45a2-ae72-730598fa89d0",
            "regionCode": "us-west-2",
            "status": "warning"
        },
    ],
    "nextToken": "REDACTED"
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [ListOrganizationRecommendationResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/list-organization-recommendation-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-organization-recommendations`
<a name="trustedadvisor_ListOrganizationRecommendations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-organization-recommendations`.

**AWS CLI**  
**Contoh 1: Untuk membuat daftar rekomendasi organisasi**  
`list-organization-recommendations`Contoh berikut mencantumkan semua rekomendasi organisasi dan tidak menyertakan filter.  

```
aws trustedadvisor list-organization-recommendations
```
Output:  

```
{
    "organizationRecommendationSummaries": [
        {
            "arn": "arn:aws:trustedadvisor:::organization-recommendation/9534ec9b-bf3a-44e8-8213-2ed68b39d9d5",
            "name": "Lambda Runtime Deprecation Warning",
            "awsServices": [
                "lambda"
            ],
            "checkArn": "arn:aws:trustedadvisor:::check/L4dfs2Q4C5",
            "id": "9534ec9b-bf3a-44e8-8213-2ed68b39d9d5",
            "lifecycleStage": "resolved",
            "pillars": [
                "security"
            ],
            "resourcesAggregates": {
                "errorCount": 0,
                "okCount": 0,
                "warningCount": 0
            },
            "source": "ta_check",
            "status": "warning",
            "type": "priority"
        },
        {
            "arn": "arn:aws:trustedadvisor:::organization-recommendation/4ecff4d4-1bc1-4c99-a5b8-0fff9ee500d6",
            "name": "Lambda Runtime Deprecation Warning",
            "awsServices": [
                "lambda"
            ],
            "checkArn": "arn:aws:trustedadvisor:::check/L4dfs2Q4C5",
            "id": "4ecff4d4-1bc1-4c99-a5b8-0fff9ee500d6",
            "lifecycleStage": "resolved",
            "pillars": [
                "security"
            ],
            "resourcesAggregates": {
                "errorCount": 0,
                "okCount": 0,
                "warningCount": 0
            },
            "source": "ta_check",
            "status": "warning",
            "type": "priority"
        },
    ],
    "nextToken": "REDACTED"
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
**Contoh 2: Untuk membuat daftar rekomendasi organisasi dengan filter**  
`list-organization-recommendations`Contoh berikut memfilter dan mengembalikan maksimal satu rekomendasi organisasi yang merupakan bagian dari pilar “keamanan”.  

```
aws trustedadvisor list-organization-recommendations \
    --pillar security \
    --max-items 100
```
Output:  

```
{
    "organizationRecommendationSummaries": [{
        "arn": "arn:aws:trustedadvisor:::organization-recommendation/9534ec9b-bf3a-44e8-8213-2ed68b39d9d5",
        "name": "Lambda Runtime Deprecation Warning",
        "awsServices": [
            "lambda"
        ],
        "checkArn": "arn:aws:trustedadvisor:::check/L4dfs2Q4C5",
        "id": "9534ec9b-bf3a-44e8-8213-2ed68b39d9d5",
        "lifecycleStage": "resolved",
        "pillars": [
            "security"
        ],
        "resourcesAggregates": {
            "errorCount": 0,
            "okCount": 0,
            "warningCount": 0
        },
        "source": "ta_check",
        "status": "warning",
        "type": "priority"
    }],
    "nextToken": "REDACTED"
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
**Contoh 3: Untuk membuat daftar rekomendasi organisasi dengan token pagination**  
`list-organization-recommendations`Contoh berikut menggunakan “NextToken” yang dikembalikan dari permintaan sebelumnya untuk mengambil halaman rekomendasi organisasi berikutnya.  

```
aws trustedadvisor list-organization-recommendations \
    --pillar security \
    --max-items 100 \
    --starting-token <next-token>
```
Output:  

```
{
    "organizationRecommendationSummaries": [{
        "arn": "arn:aws:trustedadvisor:::organization-recommendation/4ecff4d4-1bc1-4c99-a5b8-0fff9ee500d6",
        "name": "Lambda Runtime Deprecation Warning",
        "awsServices": [
            "lambda"
        ],
        "checkArn": "arn:aws:trustedadvisor:::check/L4dfs2Q4C5",
        "id": "4ecff4d4-1bc1-4c99-a5b8-0fff9ee500d6",
        "lifecycleStage": "resolved",
        "pillars": [
            "security"
        ],
        "resourcesAggregates": {
            "errorCount": 0,
            "okCount": 0,
            "warningCount": 0
        },
        "source": "ta_check",
        "status": "warning",
        "type": "priority"
    }]
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [ListOrganizationRecommendations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/list-organization-recommendations.html)di *Referensi AWS CLI Perintah*. 

### `list-recommendation-resources`
<a name="trustedadvisor_ListRecommendationResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-recommendation-resources`.

**AWS CLI**  
**Untuk membuat daftar sumber rekomendasi**  
`list-recommendation-resources`Contoh berikut mencantumkan semua sumber daya untuk rekomendasi oleh pengenalnya.  

```
aws trustedadvisor list-recommendation-resources \
    --recommendation-identifier arn:aws:trustedadvisor::000000000000:recommendation/55fa4d2e-bbb7-491a-833b-5773e9589578
```
Output:  

```
{
    "recommendationResourceSummaries": [
        {
            "arn": "arn:aws:trustedadvisor::000000000000:recommendation-resource/55fa4d2e-bbb7-491a-833b-5773e9589578/18959a1f1973cff8e706e9d9bde28bba36cd602a6b2cb86c8b61252835236010",
            "id": "18959a1f1973cff8e706e9d9bde28bba36cd602a6b2cb86c8b61252835236010",
            "awsResourceId": "webcms-dev-01",
            "lastUpdatedAt": "2023-11-01T15:09:51.891Z",
            "metadata": {
                "0": "14",
                "1": "123.12000000000002",
                "2": "webcms-dev-01",
                "3": "db.m6i.large",
                "4": "false",
                "5": "us-east-1",
                "6": "arn:aws:rds:us-east-1:000000000000:db:webcms-dev-01",
                "7": "20"
            },
            "recommendationArn": "arn:aws:trustedadvisor::000000000000:recommendation/55fa4d2e-bbb7-491a-833b-5773e9589578",
            "regionCode": "us-east-1",
            "status": "warning"
        },
        {
            "arn": "arn:aws:trustedadvisor::000000000000:recommendation-resource/55fa4d2e-bbb7-491a-833b-5773e9589578/e6367ff500ac90db8e4adeb4892e39ee9c36bbf812dcbce4b9e4fefcec9eb63e",
            "id": "e6367ff500ac90db8e4adeb4892e39ee9c36bbf812dcbce4b9e4fefcec9eb63e",
            "awsResourceId": "aws-dev-db-stack-instance-1",
            "lastUpdatedAt": "2023-11-01T15:09:51.891Z",
            "metadata": {
                "0": "14",
                "1": "29.52",
                "2": "aws-dev-db-stack-instance-1",
                "3": "db.t2.small",
                "4": "false",
                "5": "us-east-1",
                "6": "arn:aws:rds:us-east-1:000000000000:db:aws-dev-db-stack-instance-1",
                "7": "1"
            },
            "recommendationArn": "arn:aws:trustedadvisor::000000000000:recommendation/55fa4d2e-bbb7-491a-833b-5773e9589578",
            "regionCode": "us-east-1",
            "status": "warning"
        },
        {
            "arn": "arn:aws:trustedadvisor::000000000000:recommendation-resource/55fa4d2e-bbb7-491a-833b-5773e9589578/31aa78ba050a5015d2d38cca7f5f1ce88f70857c4e1c3ad03f8f9fd95dad7459",
            "id": "31aa78ba050a5015d2d38cca7f5f1ce88f70857c4e1c3ad03f8f9fd95dad7459",
            "awsResourceId": "aws-awesome-apps-stack-db",
            "lastUpdatedAt": "2023-11-01T15:09:51.891Z",
            "metadata": {
                "0": "14",
                "1": "114.48000000000002",
                "2": "aws-awesome-apps-stack-db",
                "3": "db.m6g.large",
                "4": "false",
                "5": "us-east-1",
                "6": "arn:aws:rds:us-east-1:000000000000:db:aws-awesome-apps-stack-db",
                "7": "100"
            },
            "recommendationArn": "arn:aws:trustedadvisor::000000000000:recommendation/55fa4d2e-bbb7-491a-833b-5773e9589578",
            "regionCode": "us-east-1",
            "status": "warning"
        }
    ],
    "nextToken": "REDACTED"
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [ListRecommendationResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/list-recommendation-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-recommendations`
<a name="trustedadvisor_ListRecommendations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-recommendations`.

**AWS CLI**  
**Contoh 1: Untuk daftar rekomendasi**  
`list-recommendations`Contoh berikut mencantumkan semua rekomendasi dan tidak menyertakan filter.  

```
aws trustedadvisor list-recommendations
```
Output:  

```
{
    "recommendationSummaries": [
        {
            "arn": "arn:aws:trustedadvisor::000000000000:recommendation/55fa4d2e-bbb7-491a-833b-5773e9589578",
            "name": "MFA Recommendation",
            "awsServices": [
                "iam"
            ],
            "checkArn": "arn:aws:trustedadvisor:::check/7DAFEmoDos",
            "id": "55fa4d2e-bbb7-491a-833b-5773e9589578",
            "lastUpdatedAt": "2023-11-01T15:57:58.673Z",
            "pillarSpecificAggregates": {
                "costOptimizing": {
                    "estimatedMonthlySavings": 0.0,
                    "estimatedPercentMonthlySavings": 0.0
                }
            },
            "pillars": [
                "security"
            ],
            "resourcesAggregates": {
                "errorCount": 1,
                "okCount": 0,
                "warningCount": 0
            },
            "source": "ta_check",
            "status": "error",
            "type": "standard"
        },
        {
            "arn": "arn:aws:trustedadvisor::000000000000:recommendation/8b602b6f-452d-4cb2-8a9e-c7650955d9cd",
            "name": "RDS clusters quota warning",
            "awsServices": [
                "rds"
            ],
            "checkArn": "arn:aws:trustedadvisor:::check/gjqMBn6pjz",
            "id": "8b602b6f-452d-4cb2-8a9e-c7650955d9cd",
            "lastUpdatedAt": "2023-11-01T15:58:17.397Z",
            "pillarSpecificAggregates": {
                "costOptimizing": {
                    "estimatedMonthlySavings": 0.0,
                    "estimatedPercentMonthlySavings": 0.0
                }
            },
            "pillars": [
                "service_limits"
            ],
            "resourcesAggregates": {
                "errorCount": 0,
                "okCount": 3,
                "warningCount": 6
            },
            "source": "ta_check",
            "status": "warning",
            "type": "standard"
        }
    ],
    "nextToken": "REDACTED"
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
**Contoh 2: Untuk daftar rekomendasi dengan filter**  
`list-recommendations`Contoh berikut mencantumkan rekomendasi dan menyertakan filter.  

```
aws trustedadvisor list-recommendations \
    --aws-service iam \
    --max-items 100
```
Output:  

```
{
    "recommendationSummaries": [{
        "arn": "arn:aws:trustedadvisor::000000000000:recommendation/55fa4d2e-bbb7-491a-833b-5773e9589578",
        "name": "MFA Recommendation",
        "awsServices": [
            "iam"
        ],
        "checkArn": "arn:aws:trustedadvisor:::check/7DAFEmoDos",
        "id": "55fa4d2e-bbb7-491a-833b-5773e9589578",
        "lastUpdatedAt": "2023-11-01T15:57:58.673Z",
        "pillarSpecificAggregates": {
            "costOptimizing": {
                "estimatedMonthlySavings": 0.0,
                "estimatedPercentMonthlySavings": 0.0
            }
        },
        "pillars": [
            "security"
        ],
        "resourcesAggregates": {
            "errorCount": 1,
            "okCount": 0,
            "warningCount": 0
        },
        "source": "ta_check",
        "status": "error",
        "type": "standard"
    }],
    "nextToken": "REDACTED"
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
**Contoh 3: Untuk membuat daftar rekomendasi dengan token pagination**  
`list-recommendations`Contoh berikut menggunakan “NextToken” yang dikembalikan dari permintaan sebelumnya untuk mengambil halaman berikutnya dari Rekomendasi yang difilter.  

```
aws trustedadvisor list-recommendations \
    --aws-service rds \
    --max-items 100 \
    --starting-token <next-token>
```
Output:  

```
{
    "recommendationSummaries": [{
        "arn": "arn:aws:trustedadvisor::000000000000:recommendation/8b602b6f-452d-4cb2-8a9e-c7650955d9cd",
        "name": "RDS clusters quota warning",
        "awsServices": [
            "rds"
        ],
        "checkArn": "arn:aws:trustedadvisor:::check/gjqMBn6pjz",
        "id": "8b602b6f-452d-4cb2-8a9e-c7650955d9cd",
        "lastUpdatedAt": "2023-11-01T15:58:17.397Z",
        "pillarSpecificAggregates": {
            "costOptimizing": {
                "estimatedMonthlySavings": 0.0,
                "estimatedPercentMonthlySavings": 0.0
            }
        },
        "pillars": [
            "service_limits"
        ],
        "resourcesAggregates": {
            "errorCount": 0,
            "okCount": 3,
            "warningCount": 6
        },
        "source": "ta_check",
        "status": "warning",
        "type": "standard"
    }]
}
```
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [ListRecommendations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/list-recommendations.html)di *Referensi AWS CLI Perintah*. 

### `update-organization-recommendation-lifecycle`
<a name="trustedadvisor_UpdateOrganizationRecommendationLifecycle_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-organization-recommendation-lifecycle`.

**AWS CLI**  
**Untuk memperbarui siklus hidup rekomendasi organisasi**  
`update-organization-recommendation-lifecycle`Contoh berikut memperbarui siklus hidup rekomendasi organisasi dengan pengenalnya.  

```
aws trustedadvisor update-organization-recommendation-lifecycle \
    --organization-recommendation-identifier arn:aws:trustedadvisor:::organization-recommendation/96b5e5ca-7930-444c-90c6-06d386128100 \
    --lifecycle-stage dismissed \
    --update-reason-code not_applicable
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [UpdateOrganizationRecommendationLifecycle](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/update-organization-recommendation-lifecycle.html)di *Referensi AWS CLI Perintah*. 

### `update-recommendation-lifecycle`
<a name="trustedadvisor_UpdateRecommendationLifecycle_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-recommendation-lifecycle`.

**AWS CLI**  
**Untuk memperbarui siklus hidup rekomendasi**  
`update-recommendation-lifecycle`Contoh berikut memperbarui siklus hidup rekomendasi dengan pengenalnya.  

```
aws trustedadvisor update-recommendation-lifecycle \
    --recommendation-identifier arn:aws:trustedadvisor::000000000000:recommendation/861c9c6e-f169-405a-8b59-537a8caccd7a \
    --lifecycle-stage resolved \
    --update-reason-code valid_business_case
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai API Trusted Advisor di Panduan Pengguna](https://docs.aws.amazon.com/awssupport/latest/user/get-started-with-aws-trusted-advisor-api.html) *Trusted Advisor*.AWS   
+  Untuk detail API, lihat [UpdateRecommendationLifecycle](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/trustedadvisor/update-recommendation-lifecycle.html)di *Referensi AWS CLI Perintah*. 

# Contoh Izin Terverifikasi menggunakan AWS CLI
<a name="cli_2_verifiedpermissions_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Izin Terverifikasi AWS Command Line Interface dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-identity-source`
<a name="verifiedpermissions_CreateIdentitySource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-identity-source`.

**AWS CLI**  
**Untuk membuat sumber identitas**  
`create-identity-source`Contoh berikut membuat sumber identitas yang memungkinkan Anda mereferensikan identitas yang disimpan di kumpulan pengguna Amazon Cognito yang ditentukan. Identitas tersebut tersedia di Izin Terverifikasi sebagai entitas tipe. `User`  

```
aws verifiedpermissions create-identity-source \
    --configuration file://config.txt \
    --principal-entity-type "User" \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Isi dari `config.txt`:  

```
{
    "cognitoUserPoolConfiguration": {
        "userPoolArn": "arn:aws:cognito-idp:us-west-2:123456789012:userpool/us-west-2_1a2b3c4d5",
        "clientIds":["a1b2c3d4e5f6g7h8i9j0kalbmc"]
    }
}
```
Output:  

```
{
    "createdDate": "2023-05-19T20:30:28.214829+00:00",
    "identitySourceId": "ISEXAMPLEabcdefg111111",
    "lastUpdatedDate": "2023-05-19T20:30:28.214829+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111"
}
```
Untuk informasi selengkapnya tentang sumber identitas, lihat [Menggunakan Izin Terverifikasi Amazon dengan penyedia identitas](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/identity-providers.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [CreateIdentitySource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/create-identity-source.html)di *Referensi AWS CLI Perintah*. 

### `create-policy-store`
<a name="verifiedpermissions_CreatePolicyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-policy-store`.

**AWS CLI**  
**Untuk membuat toko kebijakan**  
`create-policy-store`Contoh berikut membuat penyimpanan kebijakan di AWS Wilayah saat ini.  

```
aws verifiedpermissions create-policy-store \
    --validation-settings "mode=STRICT"
```
Output:  

```
{
    "arn": "arn:aws:verifiedpermissions::123456789012:policy-store/PSEXAMPLEabcdefg111111",
    "createdDate": "2023-05-16T17:41:29.103459+00:00",
    "lastUpdatedDate": "2023-05-16T17:41:29.103459+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111"
}
```
Untuk informasi selengkapnya tentang toko kebijakan, lihat penyimpanan [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-stores.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [CreatePolicyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/create-policy-store.html)di *Referensi AWS CLI Perintah*. 

### `create-policy-template`
<a name="verifiedpermissions_CreatePolicyTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-policy-template`.

**AWS CLI**  
**Untuk membuat templat kebijakan**  
`create-policy-template`Contoh berikut membuat template kebijakan dengan pernyataan yang berisi placeholder untuk prinsipal.  

```
aws verifiedpermissions create-policy-template \
    --statement file://template1.txt \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Isi dari `template1.txt`:  

```
permit(
    principal in ?principal,
    action == Action::"view",
    resource == Photo::"VacationPhoto94.jpg"
);
```
Output:  

```
{
    "createdDate": "2023-06-12T20:47:42.804511+00:00",
    "lastUpdatedDate": "2023-06-12T20:47:42.804511+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "policyTemplateId": "PTEXAMPLEabcdefg111111"
}
```
Untuk informasi selengkapnya tentang templat kebijakan, lihat [templat kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-templates.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [CreatePolicyTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/create-policy-template.html)di *Referensi AWS CLI Perintah*. 

### `create-policy`
<a name="verifiedpermissions_CreatePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-policy`.

**AWS CLI**  
**Contoh 1: Untuk membuat kebijakan statis**  
`create-policy`Contoh berikut membuat kebijakan statis dengan cakupan kebijakan yang menentukan prinsipal dan sumber daya.  

```
aws verifiedpermissions create-policy \
    --definition file://definition1.txt \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Isi file`definition1.txt`:  

```
{
    "static": {
        "description":  "Grant everyone of janeFriends UserGroup access to the vacationFolder Album",
        "statement": "permit(principal in UserGroup::\"janeFriends\", action, resource in Album::\"vacationFolder\" );"
    }
}
```
Output:  

```
{
    "createdDate": "2023-06-12T20:33:37.382907+00:00",
    "lastUpdatedDate": "2023-06-12T20:33:37.382907+00:00",
    "policyId": "SPEXAMPLEabcdefg111111",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "policyType": "STATIC",
    "principal": {
        "entityId": "janeFriends",
        "entityType": "UserGroup"
    },
    "resource": {
        "entityId": "vacationFolder",
        "entityType": "Album"
    }
}
```
**Contoh 2: Untuk membuat kebijakan statis yang memberikan akses ke sumber daya kepada semua orang**  
`create-policy`Contoh berikut membuat kebijakan statis dengan cakupan kebijakan yang hanya menentukan sumber daya.  

```
aws verifiedpermissions create-policy \
    --definition file://definition2.txt \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Isi file`definition2.txt`:  

```
{
    "static": {
        "description":  "Grant everyone access to the publicFolder Album",
        "statement": "permit(principal, action, resource in Album::\"publicFolder\");"
    }
}
```
Output:  

```
{
    "createdDate": "2023-06-12T20:39:44.975897+00:00",
    "lastUpdatedDate": "2023-06-12T20:39:44.975897+00:00",
    "policyId": "PbfR73F8oh5MMfr9uRtFDB",
    "policyStoreId": "PSEXAMPLEabcdefg222222",
    "policyType": "STATIC",
    "resource": {
        "entityId": "publicFolder",
        "entityType": "Album"
    }
}
```
**Contoh 3: Untuk membuat kebijakan terkait template yang dikaitkan dengan template yang ditentukan**  
`create-policy`Contoh berikut membuat kebijakan yang ditautkan templat menggunakan templat kebijakan yang ditentukan dan mengaitkan prinsipal yang ditentukan untuk digunakan dengan kebijakan terkait templat yang baru.  

```
aws verifiedpermissions create-policy \
    --definition file://definition.txt \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Isi dari `definition.txt`:  

```
{
    "templateLinked": {
        "policyTemplateId": "PTEXAMPLEabcdefg111111",
        "principal": {
            "entityType": "User",
            "entityId": "alice"
        }
    }
}
```
Output:  

```
{
    "createdDate": "2023-06-12T20:49:51.490211+00:00",
    "lastUpdatedDate": "2023-06-12T20:49:51.490211+00:00",
    "policyId": "TPEXAMPLEabcdefg111111",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "policyType": "TEMPLATE_LINKED",
    "principal": {
        "entityId": "alice",
        "entityType": "User"
    },
    "resource": {
        "entityId": "VacationPhoto94.jpg",
        "entityType": "Photo"
    }
}
```
Untuk informasi selengkapnya tentang kebijakan, lihat [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policies.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [CreatePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/create-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-identity-source`
<a name="verifiedpermissions_DeleteIdentitySource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-identity-source`.

**AWS CLI**  
**Untuk menghapus sumber identitas**  
`delete-identity-source`Contoh berikut menghapus sumber identitas yang memiliki Id tertentu.  

```
aws verifiedpermissions delete-identity-source \
    --identity-source-id ISEXAMPLEabcdefg111111 \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya tentang sumber identitas, lihat [Menggunakan Izin Terverifikasi Amazon dengan penyedia identitas](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/identity-providers.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [DeleteIdentitySource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/delete-identity-source.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy-store`
<a name="verifiedpermissions_DeletePolicyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy-store`.

**AWS CLI**  
**Untuk menghapus toko kebijakan**  
`delete-policy-store`Contoh berikut menghapus penyimpanan kebijakan yang memiliki Id yang ditentukan.  

```
aws verifiedpermissions delete-policy-store \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya tentang toko kebijakan, lihat penyimpanan [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-stores.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [DeletePolicyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/delete-policy-store.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy-template`
<a name="verifiedpermissions_DeletePolicyTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy-template`.

**AWS CLI**  
**Untuk menghapus templat kebijakan**  
`delete-policy-template`Contoh berikut menghapus template kebijakan yang memiliki Id tertentu.  

```
aws verifiedpermissions delete-policy \
    --policy-template-id PTEXAMPLEabcdefg111111 \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya tentang templat kebijakan, lihat [templat kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-templates.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [DeletePolicyTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/delete-policy-template.html)di *Referensi AWS CLI Perintah*. 

### `delete-policy`
<a name="verifiedpermissions_DeletePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan statis atau terkait templat**  
`delete-policy`Contoh berikut menghapus kebijakan yang memiliki Id yang ditentukan.  

```
aws verifiedpermissions delete-policy \
    --policy-id SPEXAMPLEabcdefg111111 \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya tentang kebijakan, lihat [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policies.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [DeletePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/delete-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-identity-source`
<a name="verifiedpermissions_GetIdentitySource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-identity-source`.

**AWS CLI**  
**Untuk mengambil detail tentang sumber identitas**  
`get-identity-source`Contoh berikut menampilkan rincian untuk sumber identitas dengan Id yang ditentukan.  

```
aws verifiedpermissions get-identity-source \
    --identity-source  ISEXAMPLEabcdefg111111 \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "createdDate": "2023-06-12T22:27:49.150035+00:00",
    "details": {
        "clientIds": [ "a1b2c3d4e5f6g7h8i9j0kalbmc" ],
        "discoveryUrl": "https://cognito-idp.us-west-2.amazonaws.com/us-west-2_1a2b3c4d5",
        "openIdIssuer": "COGNITO",
        "userPoolArn": "arn:aws:cognito-idp:us-west-2:123456789012:userpool/us-west-2_1a2b3c4d5"
    },
    "identitySourceId": "ISEXAMPLEabcdefg111111",
    "lastUpdatedDate": "2023-06-12T22:27:49.150035+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "principalEntityType": "User"
}
```
Untuk informasi selengkapnya tentang sumber identitas, lihat [Menggunakan Izin Terverifikasi Amazon dengan penyedia identitas](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/identity-providers.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [GetIdentitySource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/get-identity-source.html)di *Referensi AWS CLI Perintah*. 

### `get-policy-store`
<a name="verifiedpermissions_GetPolicyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy-store`.

**AWS CLI**  
**Untuk mengambil detail tentang toko kebijakan**  
`get-policy-store`Contoh berikut menampilkan detail untuk penyimpanan kebijakan dengan Id yang ditentukan.  

```
aws verifiedpermissions get-policy-store \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "arn": "arn:aws:verifiedpermissions::123456789012:policy-store/PSEXAMPLEabcdefg111111",
    "createdDate": "2023-06-05T20:16:46.225598+00:00",
    "lastUpdatedDate": "2023-06-08T20:40:23.173691+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "validationSettings": { "mode": "OFF" }
}
```
Untuk informasi selengkapnya tentang toko kebijakan, lihat penyimpanan [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-stores.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [GetPolicyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/get-policy-store.html)di *Referensi AWS CLI Perintah*. 

### `get-policy-template`
<a name="verifiedpermissions_GetPolicyTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy-template`.

**AWS CLI**  
**Untuk mengambil detail tentang templat kebijakan**  
`get-policy-template`Contoh berikut menampilkan rincian untuk template kebijakan dengan ID yang ditentukan.  

```
aws verifiedpermissions get-policy-template \
    --policy-template-id  PTEXAMPLEabcdefg111111 \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "createdDate": "2023-06-12T20:47:42.804511+00:00",
    "lastUpdatedDate": "2023-06-12T20:47:42.804511+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "policyTemplateId": "PTEXAMPLEabcdefg111111",
    "statement": "permit(\n    principal in ?principal,\n    action == Action::\"view\",\n    resource == Photo::\"VacationPhoto94.jpg\"\n);"
}
```
Untuk informasi selengkapnya tentang templat kebijakan, lihat [templat kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-templates.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [GetPolicyTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/get-policy-template.html)di *Referensi AWS CLI Perintah*. 

### `get-policy`
<a name="verifiedpermissions_GetPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-policy`.

**AWS CLI**  
**Untuk mengambil detail tentang kebijakan**  
`get-policy`Contoh berikut menampilkan detail kebijakan dengan ID yang ditentukan.  

```
aws verifiedpermissions get-policy \
    --policy-id PSEXAMPLEabcdefg111111 \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "createdDate": "2023-06-12T20:33:37.382907+00:00",
    "definition": {
        "static": {
            "description": "Grant everyone of janeFriends UserGroup access to the vacationFolder Album",
            "statement": "permit(principal in UserGroup::\"janeFriends\", action, resource in Album::\"vacationFolder\" );"
        }
    },
    "lastUpdatedDate": "2023-06-12T20:33:37.382907+00:00",
    "policyId": "SPEXAMPLEabcdefg111111",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "policyType": "STATIC",
    "principal": {
        "entityId": "janeFriends",
        "entityType": "UserGroup"
    },
    "resource": {
        "entityId": "vacationFolder",
        "entityType": "Album"
    }
}
```
Untuk informasi selengkapnya tentang kebijakan, lihat [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policies.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [GetPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/get-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-schema`
<a name="verifiedpermissions_GetSchema_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-schema`.

**AWS CLI**  
**Untuk mengambil skema di toko kebijakan**  
`get-schema`Contoh berikut menampilkan rincian skema di toko kebijakan yang ditentukan.  

```
aws verifiedpermissions get-schema \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "schema": "{\"MySampleNamespace\":{\"entityTypes\":{\"Employee\":{\"shape\":{\"attributes\":{\"jobLevel\":{\"type\":\"Long\"},\"name\":{\"type\":\"String\"}},\"type\":\"Record\"}}},\"actions\":{\"remoteAccess\":{\"appliesTo\":{\"principalTypes\":[\"Employee\"]}}}}}",
    "createdDate": "2023-06-14T17:47:13.999885+00:00",
    "lastUpdatedDate": "2023-06-14T17:47:13.999885+00:00"
}
```
Untuk informasi selengkapnya tentang skema, lihat [Skema penyimpanan kebijakan](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/schema.html) di Panduan Pengguna *Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [GetSchema](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/get-schema.html)di *Referensi AWS CLI Perintah*. 

### `is-authorized-with-token`
<a name="verifiedpermissions_IsAuthorizedWithToken_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`is-authorized-with-token`.

**AWS CLI**  
**Contoh 1: Untuk meminta keputusan otorisasi untuk permintaan pengguna (izinkan)**  
`is-authorized-with-token`Contoh berikut meminta keputusan otorisasi untuk pengguna yang diautentikasi oleh Amazon Cognito. Permintaan menggunakan token identitas yang disediakan oleh Cognito daripada token akses. Dalam contoh ini, penyimpanan informasi yang ditentukan dikonfigurasi untuk mengembalikan prinsipal sebagai entitas tipe. `CognitoUser`  

```
aws verifiedpermissions is-authorized-with-token \
    --action actionId="View",actionType="Action" \
    --resource entityId="vacationPhoto94.jpg",entityType="Photo" \
    --policy-store-id PSEXAMPLEabcdefg111111 \
    --identity-token "AbCdE12345...long.string...54321EdCbA"
```
Toko kebijakan berisi kebijakan dengan pernyataan berikut yang menerima identitas dari kumpulan pengguna Cognito dan Id aplikasi yang ditentukan.  

```
permit(
    principal == CognitoUser::"us-east-1_1a2b3c4d5|a1b2c3d4e5f6g7h8i9j0kalbmc",
    action,
    resource == Photo::"VacationPhoto94.jpg"
);
```
Output:  

```
{
    "decision":"Allow",
    "determiningPolicies":[
        {
        "determiningPolicyId":"SPEXAMPLEabcdefg111111"
        }
    ],
    "errors":[]
}
```
Untuk informasi selengkapnya tentang menggunakan identitas dari kumpulan pengguna Cognito, lihat [Menggunakan Izin Terverifikasi Amazon dengan penyedia identitas di Panduan Pengguna Izin](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/identity-providers.html) *Terverifikasi Amazon*.  
+  Untuk detail API, lihat [IsAuthorizedWithToken](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/is-authorized-with-token.html)di *Referensi AWS CLI Perintah*. 

### `is-authorized`
<a name="verifiedpermissions_IsAuthorized_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`is-authorized`.

**AWS CLI**  
**Contoh 1: Untuk meminta keputusan otorisasi untuk permintaan pengguna (izinkan)**  
`is-authorized`Contoh berikut meminta keputusan otorisasi untuk kepala sekolah tipe `User` bernama`Alice`, yang ingin melakukan `updatePhoto` operasi, pada sumber daya tipe `Photo` bernama`VacationPhoto94.jpg`.  
Tanggapan menunjukkan bahwa permintaan diizinkan oleh satu kebijakan.  

```
aws verifiedpermissions is-authorized \
    --principal entityType=User,entityId=alice \
    --action actionType=Action,actionId=view \
    --resource entityType=Photo,entityId=VactionPhoto94.jpg \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "decision": "ALLOW",
    "determiningPolicies": [
        {
            "policyId": "SPEXAMPLEabcdefg111111"
        }
    ],
    "errors": []
}
```
**Contoh 2: Untuk meminta keputusan otorisasi untuk permintaan pengguna (tolak)**  
Contoh berikut adalah sama dengan contoh sebelumnya, kecuali bahwa prinsipal adalah`User::"Bob"`. Toko kebijakan tidak berisi kebijakan apa pun yang memungkinkan pengguna tersebut mengakses`Album::"alice_folder"`.  
Output menunjukkan `Deny` bahwa implisit karena daftar `DeterminingPolicies` kosong.  

```
aws verifiedpermissions create-policy \
    --definition file://definition2.txt \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "decision": "DENY",
    "determiningPolicies": [],
    "errors": []
}
```
Untuk informasi selengkapnya, lihat [Panduan Pengguna Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/).  
+  Untuk detail API, lihat [IsAuthorized](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/is-authorized.html)di *Referensi AWS CLI Perintah*. 

### `list-identity-sources`
<a name="verifiedpermissions_ListIdentitySources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-identity-sources`.

**AWS CLI**  
**Untuk daftar sumber identitas yang tersedia**  
`list-identity-sources`Contoh berikut mencantumkan semua sumber identitas di toko kebijakan yang ditentukan.  

```
aws verifiedpermissions list-identity-sources \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "identitySources": [
        {
            "createdDate": "2023-06-12T22:27:49.150035+00:00",
            "details": {
                "clientIds": [ "a1b2c3d4e5f6g7h8i9j0kalbmc" ],
                "discoveryUrl": "https://cognito-idp.us-west-2.amazonaws.com/us-west-2_1a2b3c4d5",
                "openIdIssuer": "COGNITO",
                "userPoolArn": "arn:aws:cognito-idp:us-west-2:123456789012:userpool/us-west-2_1a2b3c4d5"
            },
            "identitySourceId": "ISEXAMPLEabcdefg111111",
            "lastUpdatedDate": "2023-06-12T22:27:49.150035+00:00",
            "policyStoreId": "PSEXAMPLEabcdefg111111",
            "principalEntityType": "User"
        }
    ]
}
```
Untuk informasi selengkapnya tentang sumber identitas, lihat [Menggunakan Izin Terverifikasi Amazon dengan penyedia identitas](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/identity-providers.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [ListIdentitySources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/list-identity-sources.html)di *Referensi AWS CLI Perintah*. 

### `list-policies`
<a name="verifiedpermissions_ListPolicies_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policies`.

**AWS CLI**  
**Untuk daftar kebijakan yang tersedia**  
`list-policies`Contoh berikut mencantumkan semua kebijakan di toko kebijakan yang ditentukan.  

```
aws verifiedpermissions list-policies \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "policies": [
        {
            "createdDate": "2023-06-12T20:33:37.382907+00:00",
            "definition": {
                "static": {
                    "description": "Grant everyone of janeFriends UserGroup access to the vacationFolder Album"
                }
            },
            "lastUpdatedDate": "2023-06-12T20:33:37.382907+00:00",
            "policyId": "SPEXAMPLEabcdefg111111",
            "policyStoreId": "PSEXAMPLEabcdefg111111",
            "policyType": "STATIC",
            "principal": {
                "entityId": "janeFriends",
                "entityType": "UserGroup"
            },
            "resource": {
                "entityId": "vacationFolder",
                "entityType": "Album"
            }
        },
        {
            "createdDate": "2023-06-12T20:39:44.975897+00:00",
            "definition": {
                "static": {
                    "description": "Grant everyone access to the publicFolder Album"
                }
            },
            "lastUpdatedDate": "2023-06-12T20:39:44.975897+00:00",
            "policyId": "SPEXAMPLEabcdefg222222",
            "policyStoreId": "PSEXAMPLEabcdefg111111",
            "policyType": "STATIC",
            "resource": {
                "entityId": "publicFolder",
                "entityType": "Album"
            }
        },
        {
            "createdDate": "2023-06-12T20:49:51.490211+00:00",
            "definition": {
                "templateLinked": {
                    "policyTemplateId": "PTEXAMPLEabcdefg111111"
                }
            },
            "lastUpdatedDate": "2023-06-12T20:49:51.490211+00:00",
            "policyId": "SPEXAMPLEabcdefg333333",
            "policyStoreId": "PSEXAMPLEabcdefg111111",
            "policyType": "TEMPLATE_LINKED",
            "principal": {
                "entityId": "alice",
                "entityType": "User"
            },
            "resource": {
                "entityId": "VacationPhoto94.jpg",
                "entityType": "Photo"
            }
        }
    ]
}
```
Untuk informasi selengkapnya tentang kebijakan, lihat [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policies.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [ListPolicies](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/list-policies.html)di *Referensi AWS CLI Perintah*. 

### `list-policy-stores`
<a name="verifiedpermissions_ListPolicyStores_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policy-stores`.

**AWS CLI**  
**Untuk daftar toko kebijakan yang tersedia**  
`list-policy-stores`Contoh berikut mencantumkan semua toko kebijakan di AWS Wilayah. Semua perintah untuk Izin Terverifikasi kecuali `create-policy-store` dan `list-policy-stores` mengharuskan Anda menentukan Id penyimpanan kebijakan yang ingin Anda gunakan.  

```
aws verifiedpermissions list-policy-stores
```
Output:  

```
{
    "policyStores": [
        {
            "arn": "arn:aws:verifiedpermissions::123456789012:policy-store/PSEXAMPLEabcdefg111111",
            "createdDate": "2023-06-05T20:16:46.225598+00:00",
            "policyStoreId": "PSEXAMPLEabcdefg111111"
        },
        {
            "arn": "arn:aws:verifiedpermissions::123456789012:policy-store/PSEXAMPLEabcdefg222222",
            "createdDate": "2023-06-08T18:09:37.364356+00:00",
            "policyStoreId": "PSEXAMPLEabcdefg222222"
        },
        {
            "arn": "arn:aws:verifiedpermissions::123456789012:policy-store/PSEXAMPLEabcdefg333333",
            "createdDate": "2023-06-08T18:09:46.920600+00:00",
            "policyStoreId": "PSEXAMPLEabcdefg333333"
        }
    ]
}
```
Untuk informasi selengkapnya tentang toko kebijakan, lihat penyimpanan [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-stores.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [ListPolicyStores](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/list-policy-stores.html)di *Referensi AWS CLI Perintah*. 

### `list-policy-templates`
<a name="verifiedpermissions_ListPolicyTemplates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-policy-templates`.

**AWS CLI**  
**Untuk membuat daftar templat kebijakan yang tersedia**  
`list-policy-templates`Contoh berikut mencantumkan semua templat kebijakan di toko kebijakan yang ditentukan.  

```
aws verifiedpermissions list-policy-templates \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "policyTemplates": [
        {
            "createdDate": "2023-06-12T20:47:42.804511+00:00",
            "lastUpdatedDate": "2023-06-12T20:47:42.804511+00:00",
            "policyStoreId": "PSEXAMPLEabcdefg111111",
            "policyTemplateId": "PTEXAMPLEabcdefg111111"
        }
    ]
}
```
Untuk informasi selengkapnya tentang templat kebijakan, lihat [templat kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-templates.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [ListPolicyTemplates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/list-policy-templates.html)di *Referensi AWS CLI Perintah*. 

### `put-schema`
<a name="verifiedpermissions_PutSchema_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-schema`.

**AWS CLI**  
**Untuk menyimpan skema ke toko kebijakan**  
`put-schema`Contoh berikut membuat atau menggantikan skema di toko kebijakan tertentu.  
`cedarJson`Parameter dalam file input mengambil representasi string dari objek JSON. Ini berisi tanda kutip tertanam (“) dalam pasangan tanda kutip terluar. Ini mengharuskan Anda untuk mengonversi JSON menjadi string dengan mendahului semua tanda kutip yang disematkan dengan karakter garis miring terbalik (") dan menggabungkan semua baris menjadi satu baris teks tanpa jeda baris.  
Contoh string dapat ditampilkan dibungkus di beberapa baris di sini untuk keterbacaan, tetapi operasi mengharuskan parameter dikirimkan sebagai string baris tunggal.  
aws verifiedpermissions put-schema --definition file: //schema.txt -- policy-store-id PSEXAMPLEabcdefg111111  
Isi dari `schema.txt`:  

```
{
    "cedarJson": "{\"MySampleNamespace\": {\"actions\": {\"remoteAccess\": {
            \"appliesTo\": {\"principalTypes\": [\"Employee\"]}}},\"entityTypes\": {
            \"Employee\": {\"shape\": {\"attributes\": {\"jobLevel\": {\"type\":
            \"Long\"},\"name\": {\"type\": \"String\"}},\"type\": \"Record\"}}}}}"
}
```
Output:  

```
{
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "namespaces": [
        "MySampleNamespace"
    ],
    "createdDate": "2023-06-14T17:47:13.999885+00:00",
    "lastUpdatedDate": "2023-06-14T17:47:13.999885+00:00"
}
```
Untuk informasi selengkapnya tentang skema, lihat [Skema penyimpanan kebijakan](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/schema.html) di Panduan Pengguna *Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [PutSchema](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/put-schema.html)di *Referensi AWS CLI Perintah*. 

### `update-identity-source`
<a name="verifiedpermissions_UpdateIdentitySource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-identity-source`.

**AWS CLI**  
**Untuk memperbarui sumber identitas**  
`update-identity-source`Contoh berikut memodifikasi sumber identitas yang ditentukan dengan menyediakan konfigurasi kumpulan pengguna Cognito baru dan mengubah jenis entitas yang dikembalikan oleh sumber identitas.  

```
aws verifiedpermissions update-identity-source
    --identity-source-id ISEXAMPLEabcdefg111111 \
    --update-configuration file://config.txt \
    --principal-entity-type "Employee" \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Isi dari `config.txt`:  

```
{
        "cognitoUserPoolConfiguration": {
                "userPoolArn": "arn:aws:cognito-idp:us-west-2:123456789012:userpool/us-west-2_1a2b3c4d5",
                "clientIds":["a1b2c3d4e5f6g7h8i9j0kalbmc"]
        }
}
```
Output:  

```
{
    "createdDate": "2023-05-19T20:30:28.214829+00:00",
    "identitySourceId": "ISEXAMPLEabcdefg111111",
    "lastUpdatedDate": "2023-05-19T20:30:28.214829+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111"
}
```
Untuk informasi selengkapnya tentang sumber identitas, lihat [Menggunakan Izin Terverifikasi Amazon dengan penyedia identitas](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/identity-providers.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [UpdateIdentitySource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/update-identity-source.html)di *Referensi AWS CLI Perintah*. 

### `update-policy-store`
<a name="verifiedpermissions_UpdatePolicyStore_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-policy-store`.

**AWS CLI**  
**Untuk memperbarui toko kebijakan**  
`update-policy-store`Contoh berikut memodifikasi penyimpanan kebijakan dengan mengubah setelan validasinya.  

```
aws verifiedpermissions update-policy-store \
    --validation-settings "mode=STRICT" \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Output:  

```
{
    "arn": "arn:aws:verifiedpermissions::123456789012:policy-store/PSEXAMPLEabcdefg111111",
    "createdDate": "2023-05-16T17:41:29.103459+00:00",
    "lastUpdatedDate": "2023-05-16T17:41:29.103459+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111"
}
```
Untuk informasi selengkapnya tentang toko kebijakan, lihat penyimpanan [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-stores.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [UpdatePolicyStore](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/update-policy-store.html)di *Referensi AWS CLI Perintah*. 

### `update-policy-template`
<a name="verifiedpermissions_UpdatePolicyTemplate_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-policy-template`.

**AWS CLI**  
**Contoh 1: Untuk memperbarui templat kebijakan**  
`update-policy-template`Contoh berikut memodifikasi kebijakan terkait templat yang ditentukan untuk menggantikan pernyataan kebijakannya.  

```
aws verifiedpermissions update-policy-template \
    --policy-template-id PTEXAMPLEabcdefg111111 \
    --statement file://template1.txt \
    --policy-store-id PSEXAMPLEabcdefg111111
```
Isi file`template1.txt`:  

```
permit(
    principal in ?principal,
    action == Action::"view",
    resource == Photo::"VacationPhoto94.jpg"
);
```
Output:  

```
{
    "createdDate": "2023-06-12T20:47:42.804511+00:00",
    "lastUpdatedDate": "2023-06-12T20:47:42.804511+00:00",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "policyTemplateId": "PTEXAMPLEabcdefg111111"
}
```
Untuk informasi selengkapnya tentang templat kebijakan, lihat [templat kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policy-templates.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [UpdatePolicyTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/update-policy-template.html)di *Referensi AWS CLI Perintah*. 

### `update-policy`
<a name="verifiedpermissions_UpdatePolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-policy`.

**AWS CLI**  
**Untuk memperbarui kebijakan statis**  
`update-policy`Contoh berikut memodifikasi kebijakan statis yang ada dengan memperbarui deskripsi dan pernyataannya.  

```
aws verifiedpermissions update-policy \
    --policy-id SPEXAMPLEabcdefg111111 \
    --definition file://updated-definition.txt \
    --policy-store-id PSEXAMPLEabcdefg111111
```
`statement`Parameter mengambil representasi string dari objek JSON. Ini berisi tanda kutip tertanam (“) dalam pasangan tanda kutip terluar. Ini mengharuskan Anda untuk mengonversi JSON menjadi string dengan mendahului semua tanda kutip yang disematkan dengan karakter garis miring terbalik (") dan menggabungkan semua baris menjadi satu baris teks tanpa jeda baris.  
Anda dapat menampilkan contoh string yang dibungkus di beberapa baris agar mudah dibaca, tetapi operasi memerlukan parameter yang akan dikirimkan sebagai string baris tunggal.  
Isi file`updated-definition.txt`:  

```
{
    "static": {
        "description": "Updated policy to grant janeFriends UserGroup access to the vacationFolder Album with view action only",
        "statement": "permit(principal in UserGroup::\"janeFriends\", action == Action::\"view\", resource in Album::\"vacationFolder\" );"
    }
}
```
Output:  

```
{
    "createdDate": "2023-06-12T20:33:37.382907+00:00",
    "lastUpdatedDate": "2023-06-12T20:33:37.382907+00:00",
    "policyId": "SPEXAMPLEabcdefg111111",
    "policyStoreId": "PSEXAMPLEabcdefg111111",
    "policyType": "STATIC",
    "principal": {
        "entityId": "janeFriends",
        "entityType": "UserGroup"
    },
    "resource": {
        "entityId": "vacationFolder",
        "entityType": "Album"
    }
}
```
Untuk informasi selengkapnya tentang kebijakan, lihat [kebijakan Izin Terverifikasi Amazon](https://docs.aws.amazon.com/verifiedpermissions/latest/userguide/policies.html) di *Panduan Pengguna Izin Terverifikasi Amazon*.  
+  Untuk detail API, lihat [UpdatePolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/verifiedpermissions/update-policy.html)di *Referensi AWS CLI Perintah*. 

# Contoh VPC Lattice menggunakan AWS CLI
<a name="cli_2_vpc-lattice_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With VPC Lattice.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-listener`
<a name="vpc-lattice_CreateListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-listener`.

**AWS CLI**  
**Untuk membuat pendengar**  
`create-listener`Contoh berikut membuat pendengar HTTPS dengan aturan default yang meneruskan lalu lintas ke grup target VPC Lattice yang ditentukan.  

```
aws vpc-lattice create-listener \
    --name my-service-listener \
    --protocol HTTPS \
    --port 443 \
    --service-identifier svc-0285b53b2eEXAMPLE \
    --default-action file://listener-config.json
```
Isi dari `listener-config.json`:  

```
{
    "forward": {
        "targetGroups": [
            {
                "targetGroupIdentifier": "tg-0eaa4b9ab4EXAMPLE"
            }
        ]
    }
}
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE/listener/listener-07cc7fb0abEXAMPLE",
    "defaultAction": {
        "forward": {
            "targetGroups": [
                {
                    "targetGroupIdentifier": "tg-0eaa4b9ab4EXAMPLE",
                    "weight": 100
                }
            ]
        }
    },
    "id": "listener-07cc7fb0abEXAMPLE",
    "name": "my-service-listener",
    "port": 443,
    "protocol": "HTTPS",
    "serviceArn": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE",
    "serviceId": "svc-0285b53b2eEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Pendengar](https://docs.aws.amazon.com/vpc-lattice/latest/ug/listeners.html) di Panduan Pengguna Amazon *VPC Lattice*.  
+  Untuk detail API, lihat [CreateListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/create-listener.html)di *Referensi AWS CLI Perintah*. 

### `create-resource-configuration`
<a name="vpc-lattice_CreateResourceConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi sumber daya**  
`create-resource-configuration`Contoh berikut membuat konfigurasi sumber daya yang menentukan IPv4 alamat tunggal.  

```
aws vpc-lattice create-resource-configuration \
    --name my-resource-config \
    --type SINGLE \
    --resource-gateway-identifier rgw-0bba03f3d56060135 \
    --resource-configuration-definition 'ipResource={ipAddress=10.0.14.85}'
```
Output:  

```
{
    "allowAssociationToShareableServiceNetwork": true,
    "arn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourceconfiguration/rcfg-07129f3acded87625",
    "id": "rcfg-07129f3acded87625",
    "name": "my-resource-config",
    "portRanges": [
        "1-65535"
    ],
    "protocol": "TCP",
    "resourceConfigurationDefinition": {
        "ipResource": {
            "ipAddress": "10.0.14.85"
        }
    },
    "resourceGatewayId": "rgw-0bba03f3d56060135",
    "status": "ACTIVE",
    "type": "SINGLE"
}
```
Untuk informasi selengkapnya, lihat [Konfigurasi sumber daya untuk sumber daya VPC](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-configuration.html) di Panduan Pengguna *Amazon VPC Lattice*.  
+  Untuk detail API, lihat [CreateResourceConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/create-resource-configuration.html)di *Referensi AWS CLI Perintah*. 

### `create-resource-gateway`
<a name="vpc-lattice_CreateResourceGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource-gateway`.

**AWS CLI**  
**Untuk membuat gateway sumber daya**  
`create-resource-gateway`Contoh berikut membuat gateway sumber daya untuk subnet tertentu.  

```
aws vpc-lattice create-resource-gateway \
    --name my-resource-gateway \
    --vpc-identifier vpc-0bf4c2739bc05a69 \
    --subnet-ids subnet-08e8943905b63a683
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourcegateway/rgw-0bba03f3d56060135",
    "id": "rgw-0bba03f3d56060135",
    "ipAddressType": "IPV4",
    "name": "my-resource-gateway",
    "securityGroupIds": [
        "sg-087ffd596c5fe962c"
    ],
    "status": "ACTIVE",
    "subnetIds": [
        "subnet-08e8943905b63a683"
    ],
    "vpcIdentifier": "vpc-0bf4c2739bc05a694"
}
```
Untuk informasi selengkapnya, lihat [Gateway sumber daya di Kisi VPC di Panduan Pengguna *Amazon VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-gateway.html).  
+  Untuk detail API, lihat [CreateResourceGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/create-resource-gateway.html)di *Referensi AWS CLI Perintah*. 

### `create-service-network-service-association`
<a name="vpc-lattice_CreateServiceNetworkServiceAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service-network-service-association`.

**AWS CLI**  
**Untuk membuat asosiasi layanan**  
`create-service-network-service-association`Contoh berikut mengaitkan layanan yang ditentukan dengan jaringan layanan yang ditentukan.  

```
aws vpc-lattice create-service-network-service-association \
    --service-identifier svc-0285b53b2eEXAMPLE \
    --service-network-identifier sn-080ec7dc93EXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetworkserviceassociation/snsa-0e16955a8cEXAMPLE",
    "createdBy": "123456789012",
    "dnsEntry": {
        "domainName": "my-lattice-service-0285b53b2eEXAMPLE.7d67968.vpc-lattice-svcs.us-east-2.on.aws",
        "hostedZoneId": "Z09127221KTH2CEXAMPLE"
    },
    "id": "snsa-0e16955a8cEXAMPLE",
    "status": "CREATE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html#service-network-service-associations) di *Panduan Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [CreateServiceNetworkServiceAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/create-service-network-service-association.html)di *Referensi AWS CLI Perintah*. 

### `create-service-network-vpc-association`
<a name="vpc-lattice_CreateServiceNetworkVpcAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service-network-vpc-association`.

**AWS CLI**  
**Untuk membuat asosiasi VPC**  
`create-service-network-vpc-association`Contoh berikut mengaitkan vpc yang ditentukan dengan jaringan layanan yang ditentukan. Grup keamanan yang ditentukan mengontrol sumber daya mana di VPC dapat mengakses jaringan layanan dan layanannya.  

```
aws vpc-lattice create-service-network-vpc-association \
    --vpc-identifier vpc-0a1b2c3d4eEXAMPLE \
    --service-network-identifier sn-080ec7dc93EXAMPLE \
    --security-group-ids sg-0aee16bc6cEXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetworkvpcassociation/snva-0821fc8631EXAMPLE",
    "createdBy": "123456789012",
    "id": "snva-0821fc8631EXAMPLE",
    "securityGroupIds": [
        "sg-0aee16bc6cEXAMPLE"
    ],
    "status": "CREATE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi VPC](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html#service-network-vpc-associations) di Panduan Pengguna Amazon *VPC Lattice*.  
+  Untuk detail API, lihat [CreateServiceNetworkVpcAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/create-service-network-vpc-association.html)di *Referensi AWS CLI Perintah*. 

### `create-service-network`
<a name="vpc-lattice_CreateServiceNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service-network`.

**AWS CLI**  
**Untuk membuat jaringan layanan**  
`create-service-network`Contoh berikut membuat jaringan layanan dengan nama yang ditentukan.  

```
aws vpc-lattice create-service-network \
    --name my-service-network
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetwork/sn-080ec7dc93EXAMPLE",
    "authType": "NONE",
    "id": "sn-080ec7dc93EXAMPLE",
    "name": "my-service-network"
}
```
Untuk informasi selengkapnya, lihat [Jaringan layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-networks.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [CreateServiceNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/create-service-network.html)di *Referensi AWS CLI Perintah*. 

### `create-service`
<a name="vpc-lattice_CreateService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-service`.

**AWS CLI**  
**Untuk membuat layanan**  
`create-service`Contoh berikut membuat layanan dengan nama yang ditentukan.  

```
aws vpc-lattice create-service \
    --name my-lattice-service
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE",
    "authType": "NONE",
    "dnsEntry": {
        "domainName": "my-lattice-service-0285b53b2eEXAMPLE.1a2b3c4.vpc-lattice-svcs.us-east-2.on.aws",
        "hostedZoneId": "Z09127221KTH2CEXAMPLE"
    },
    "id": "svc-0285b53b2eEXAMPLE",
    "name": "my-lattice-service",
    "status": "CREATE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Layanan di Kisi VPC di Panduan Pengguna Amazon *VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/services.html).  
+  Untuk detail API, lihat [CreateService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/create-service.html)di *Referensi AWS CLI Perintah*. 

### `create-target-group`
<a name="vpc-lattice_CreateTargetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-target-group`.

**AWS CLI**  
**Contoh 1: Untuk membuat grup target tipe INSTANCE**  
`create-target-group`Contoh berikut membuat grup target dengan nama, jenis, dan konfigurasi yang ditentukan.  

```
aws vpc-lattice create-target-group \
    --name my-lattice-target-group-instance \
    --type INSTANCE \
    --config file://tg-config.json
```
Isi dari `tg-config.json`:  

```
{
    "port": 443,
    "protocol": "HTTPS",
    "protocolVersion": "HTTP1",
    "vpcIdentifier": "vpc-f1663d9868EXAMPLE"
}
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:targetgroup/tg-0eaa4b9ab4EXAMPLE",
    "config": {
        "healthCheck": {
            "enabled": true,
            "healthCheckIntervalSeconds": 30,
            "healthCheckTimeoutSeconds": 5,
            "healthyThresholdCount": 5,
            "matcher": {
                "httpCode": "200"
            },
            "path": "/",
            "protocol": "HTTPS",
            "protocolVersion": "HTTP1",
            "unhealthyThresholdCount": 2
        },
        "port": 443,
        "protocol": "HTTPS",
        "protocolVersion": "HTTP1",
        "vpcIdentifier": "vpc-f1663d9868EXAMPLE"
    },
    "id": "tg-0eaa4b9ab4EXAMPLE",
    "name": "my-lattice-target-group-instance",
    "status": "CREATE_IN_PROGRESS",
    "type": "INSTANCE"
}
```
**Contoh 2: Untuk membuat grup target tipe IP**  
`create-target-group`Contoh berikut membuat grup target dengan nama, jenis, dan konfigurasi yang ditentukan.  

```
aws vpc-lattice create-target-group \
    --name my-lattice-target-group-ip \
    --type IP \
    --config file://tg-config.json
```
Isi dari `tg-config.json`:  

```
{
    "ipAddressType": "IPV4",
    "port": 443,
    "protocol": "HTTPS",
    "protocolVersion": "HTTP1",
    "vpcIdentifier": "vpc-f1663d9868EXAMPLE"
}
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:targetgroup/tg-0eaa4b9ab4EXAMPLE",
    "config": {
        "healthCheck": {
            "enabled": true,
            "healthCheckIntervalSeconds": 30,
            "healthCheckTimeoutSeconds": 5,
            "healthyThresholdCount": 5,
            "matcher": {
                "httpCode": "200"
            },
            "path": "/",
            "protocol": "HTTPS",
            "protocolVersion": "HTTP1",
            "unhealthyThresholdCount": 2
        },
        "ipAddressType": "IPV4",
        "port": 443,
        "protocol": "HTTPS",
        "protocolVersion": "HTTP1",
        "vpcIdentifier": "vpc-f1663d9868EXAMPLE"
    },
    "id": "tg-0eaa4b9ab4EXAMPLE",
    "name": "my-lattice-target-group-ip",
    "status": "CREATE_IN_PROGRESS",
    "type": "IP"
}
```
**Contoh 3: Untuk membuat grup target tipe LAMBDA**  
`create-target-group`Contoh berikut membuat grup target dengan nama, jenis, dan konfigurasi yang ditentukan.  

```
aws vpc-lattice create-target-group \
    --name my-lattice-target-group-lambda \
    --type LAMBDA
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:targetgroup/tg-0eaa4b9ab4EXAMPLE",
    "id": "tg-0eaa4b9ab4EXAMPLE",
    "name": "my-lattice-target-group-lambda",
    "status": "CREATE_IN_PROGRESS",
    "type": "LAMBDA"
}
```
**Contoh 4: Untuk membuat grup target tipe ALB**  
`create-target-group`Contoh berikut membuat grup target dengan nama, jenis, dan konfigurasi yang ditentukan.  

```
aws vpc-lattice create-target-group \
    --name my-lattice-target-group-alb \
    --type ALB \
    --config file://tg-config.json
```
Isi dari `tg-config.json`:  

```
{
    "port": 443,
    "protocol": "HTTPS",
    "protocolVersion": "HTTP1",
    "vpcIdentifier": "vpc-f1663d9868EXAMPLE"
}
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:targetgroup/tg-0eaa4b9ab4EXAMPLE",
    "config": {
        "port": 443,
        "protocol": "HTTPS",
        "protocolVersion": "HTTP1",
        "vpcIdentifier": "vpc-f1663d9868EXAMPLE"
    },
    "id": "tg-0eaa4b9ab4EXAMPLE",
    "name": "my-lattice-target-group-alb",
    "status": "CREATE_IN_PROGRESS",
    "type": "ALB"
}
```
Untuk informasi selengkapnya, lihat [Grup sasaran](https://docs.aws.amazon.com/vpc-lattice/latest/ug/target-groups.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [CreateTargetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/create-target-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-auth-policy`
<a name="vpc-lattice_DeleteAuthPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-auth-policy`.

**AWS CLI**  
**Untuk menghapus kebijakan autentikasi**  
`delete-auth-policy`Contoh berikut menghapus kebijakan autentikasi untuk layanan yang ditentukan.  

```
aws vpc-lattice delete-auth-policy \
    --resource-identifier svc-0285b53b2eEXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Kebijakan autentikasi](https://docs.aws.amazon.com/vpc-lattice/latest/ug/auth-policies.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [DeleteAuthPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-auth-policy.html)di *Referensi AWS CLI Perintah*. 

### `delete-listener`
<a name="vpc-lattice_DeleteListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-listener`.

**AWS CLI**  
**Untuk menghapus pendengar**  
`delete-listener`Contoh berikut menghapus pendengar yang ditentukan.  

```
aws vpc-lattice delete-listener \
    --listener-identifier listener-07cc7fb0abEXAMPLE \
    --service-identifier svc-0285b53b2eEXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Pendengar](https://docs.aws.amazon.com/vpc-lattice/latest/ug/listeners.html) di Panduan Pengguna Amazon *VPC Lattice*.  
+  Untuk detail API, lihat [DeleteListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-listener.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-configuration`
<a name="vpc-lattice_DeleteResourceConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-configuration`.

**AWS CLI**  
**Untuk menghapus konfigurasi sumber daya**  
`delete-resource-configuration`Contoh berikut menghapus konfigurasi sumber daya yang ditentukan.  

```
aws vpc-lattice delete-resource-configuration \
    --resource-configuration-identifier rcfg-07129f3acded87625
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Gateway sumber daya di Kisi VPC di Panduan Pengguna *Amazon VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-configuration.html).  
+  Untuk detail API, lihat [DeleteResourceConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-resource-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource-gateway`
<a name="vpc-lattice_DeleteResourceGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource-gateway`.

**AWS CLI**  
**Untuk menghapus gateway sumber daya**  
`delete-resource-gateway`Contoh berikut menghapus gateway sumber daya yang ditentukan.  

```
aws vpc-lattice delete-resource-gateway \
    --resource-gateway-identifier rgw-0bba03f3d56060135
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourcegateway/rgw-0bba03f3d56060135",
    "id": "rgw-0bba03f3d56060135",
    "name": "my-resource-gateway",
    "status": "DELETE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Gateway sumber daya di Kisi VPC di Panduan Pengguna *Amazon VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-gateway.html).  
+  Untuk detail API, lihat [DeleteResourceGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-resource-gateway.html)di *Referensi AWS CLI Perintah*. 

### `delete-service-network-service-association`
<a name="vpc-lattice_DeleteServiceNetworkServiceAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service-network-service-association`.

**AWS CLI**  
**Untuk menghapus asosiasi layanan**  
`delete-service-network-service-association`Contoh berikut memisahkan asosiasi layanan yang ditentukan.  

```
aws vpc-lattice delete-service-network-service-association \
    --service-network-service-association-identifier snsa-031fabb4d8EXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetworkserviceassociation/snsa-031fabb4d8EXAMPLE",
    "id": "snsa-031fabb4d8EXAMPLE",
    "status": "DELETE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html#service-network-service-associations) di *Panduan Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [DeleteServiceNetworkServiceAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-service-network-service-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-service-network-vpc-association`
<a name="vpc-lattice_DeleteServiceNetworkVpcAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service-network-vpc-association`.

**AWS CLI**  
**Untuk menghapus asosiasi VPC**  
`delete-service-network-vpc-association`Contoh berikut memisahkan asosiasi VPC yang ditentukan.  

```
aws vpc-lattice delete-service-network-vpc-association \
    --service-network-vpc-association-identifier snva-0821fc8631EXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetworkvpcassociation/snva-0821fc8631EXAMPLE",
    "id": "snva-0821fc8631EXAMPLE",
    "status": "DELETE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi VPC](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html#service-network-vpc-associations) di Panduan Pengguna Amazon *VPC Lattice*.  
+  Untuk detail API, lihat [DeleteServiceNetworkVpcAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-service-network-vpc-association.html)di *Referensi AWS CLI Perintah*. 

### `delete-service-network`
<a name="vpc-lattice_DeleteServiceNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service-network`.

**AWS CLI**  
**Untuk menghapus jaringan layanan**  
`delete-service-network`Contoh berikut menghapus jaringan layanan yang ditentukan.  

```
aws vpc-lattice delete-service-network \
    --service-network-identifier sn-080ec7dc93EXAMPLE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Jaringan layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-networks.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [DeleteServiceNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-service-network.html)di *Referensi AWS CLI Perintah*. 

### `delete-service`
<a name="vpc-lattice_DeleteService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-service`.

**AWS CLI**  
**Untuk menghapus layanan**  
`delete-service`Contoh berikut menghapus layanan yang ditentukan.  

```
aws vpc-lattice delete-service \
    --service-identifier svc-0285b53b2eEXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-west-2:123456789012:service/svc-0285b53b2eEXAMPLE",
    "id": "svc-0285b53b2eEXAMPLE",
    "name": "my-lattice-service",
    "status": "DELETE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Layanan di Kisi VPC di Panduan Pengguna Amazon *VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/services.html).  
+  Untuk detail API, lihat [DeleteService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-service.html)di *Referensi AWS CLI Perintah*. 

### `delete-target-group`
<a name="vpc-lattice_DeleteTargetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-target-group`.

**AWS CLI**  
**Untuk menghapus grup target**  
`delete-target-group`Contoh berikut menghapus kelompok target yang ditentukan.  

```
aws vpc-lattice delete-target-group \
    --target-group-identifier tg-0eaa4b9ab4EXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:targetgroup/tg-0eaa4b9ab4EXAMPLE",
    "id": "tg-0eaa4b9ab4EXAMPLE",
    "status": "DELETE_IN_PROGRESS"
}
```
Untuk informasi selengkapnya, lihat [Grup sasaran](https://docs.aws.amazon.com/vpc-lattice/latest/ug/target-groups.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [DeleteTargetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/delete-target-group.html)di *Referensi AWS CLI Perintah*. 

### `deregister-targets`
<a name="vpc-lattice_DeregisterTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-targets`.

**AWS CLI**  
**Untuk membatalkan pendaftaran target**  
`deregister-targets`Contoh berikut membatalkan pendaftaran target yang ditentukan dari kelompok target yang ditentukan.  

```
aws vpc-lattice deregister-targets \
    --targets i-07dd579bc5EXAMPLE \
    --target-group-identifier tg-0eaa4b9ab4EXAMPLE
```
Output:  

```
{
    "successful": [
        {
            "id": "i-07dd579bc5EXAMPLE",
            "port": 443
        }
    ],
    "unsuccessful": []
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan target](https://docs.aws.amazon.com/vpc-lattice/latest/ug/register-targets.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [DeregisterTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/deregister-targets.html)di *Referensi AWS CLI Perintah*. 

### `get-auth-policy`
<a name="vpc-lattice_GetAuthPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-auth-policy`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kebijakan autentikasi**  
`get-auth-policy`Contoh berikut mendapatkan informasi tentang kebijakan autentikasi untuk layanan yang ditentukan.  

```
aws vpc-lattice get-auth-policy \
    --resource-identifier svc-0285b53b2eEXAMPLE
```
Output:  

```
{
    "createdAt": "2023-06-07T03:51:20.266Z",
    "lastUpdatedAt": "2023-06-07T04:39:27.082Z",
    "policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::123456789012:role/my-clients\"},\"Action\":\"vpc-lattice-svcs:Invoke\",\"Resource\":\"arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE\"}]}",
    "state": "Active"
}
```
Untuk informasi selengkapnya, lihat [Kebijakan autentikasi](https://docs.aws.amazon.com/vpc-lattice/latest/ug/auth-policies.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [GetAuthPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-auth-policy.html)di *Referensi AWS CLI Perintah*. 

### `get-listener`
<a name="vpc-lattice_GetListener_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-listener`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang pendengar layanan**  
`get-listener`Contoh berikut mendapatkan informasi tentang listener tertentu untuk layanan tertentu.  

```
aws vpc-lattice get-listener \
    --listener-identifier listener-0ccf55918cEXAMPLE \
    --service-identifier svc-0285b53b2eEXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE/listener/listener-0ccf55918cEXAMPLE",
    "createdAt": "2023-05-07T05:08:45.192Z",
    "defaultAction": {
        "forward": {
            "targetGroups": [
                {
                    "targetGroupIdentifier": "tg-0ff213abb6EXAMPLE",
                    "weight": 1
                }
            ]
        }
    },
    "id": "listener-0ccf55918cEXAMPLE",
    "lastUpdatedAt": "2023-05-07T05:08:45.192Z",
    "name": "http-80",
    "port": 80,
    "protocol": "HTTP",
    "serviceArn": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE",
    "serviceId": "svc-0285b53b2eEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Mendefinisikan perutean](https://docs.aws.amazon.com/vpc-lattice/latest/ug/services.html#define-routing) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [GetListener](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-listener.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-configuration`
<a name="vpc-lattice_GetResourceConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-configuration`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang konfigurasi sumber daya**  
`get-resource-configuration`Contoh berikut mendapatkan informasi tentang konfigurasi sumber daya yang ditentukan.  

```
aws vpc-lattice get-resource-configuration \
    --resource-configuration-identifier rcfg-07129f3acded87625
```
Output:  

```
{
    "allowAssociationToShareableServiceNetwork": true,
    "amazonManaged": false,
    "arn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourceconfiguration/rcfg-07129f3acded87625",
    "createdAt": "2025-02-01T00:57:35.871000+00:00",
    "id": "rcfg-07129f3acded87625",
    "lastUpdatedAt": "2025-02-01T00:57:46.874000+00:00",
    "name": "my-resource-config",
    "portRanges": [
        "1-65535"
    ],
    "protocol": "TCP",
    "resourceConfigurationDefinition": {
        "ipResource": {
            "ipAddress": "10.0.14.85"
        }
    },
    "resourceGatewayId": "rgw-0bba03f3d56060135",
    "status": "ACTIVE",
    "type": "SINGLE"
}
```
Untuk informasi selengkapnya, lihat [Gateway sumber daya di Kisi VPC di Panduan Pengguna *Amazon VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-configuration.html).  
+  Untuk detail API, lihat [GetResourceConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-resource-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-resource-gateway`
<a name="vpc-lattice_GetResourceGateway_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resource-gateway`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang gateway sumber daya**  
`get-resource-gateway`Contoh berikut mendapatkan informasi tentang gateway sumber daya yang ditentukan.  

```
aws vpc-lattice get-resource-gateway \
    --resource-gateway-identifier rgw-0bba03f3d56060135
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourcegateway/rgw-0bba03f3d56060135",
    "createdAt": "2025-02-01T00:57:33.241000+00:00",
    "id": "rgw-0bba03f3d56060135",
    "ipAddressType": "IPV4",
    "lastUpdatedAt": "2025-02-01T00:57:44.351000+00:00",
    "name": "my-resource-gateway",
    "securityGroupIds": [
        "sg-087ffd596c5fe962c"
    ],
    "status": "ACTIVE",
    "subnetIds": [
        "subnet-08e8943905b63a683"
    ],
    "vpcId": "vpc-0bf4c2739bc05a694"
}
```
Untuk informasi selengkapnya, lihat [Gateway sumber daya di Kisi VPC di Panduan Pengguna *Amazon VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-gateway.html).  
+  Untuk detail API, lihat [GetResourceGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-resource-gateway.html)di *Referensi AWS CLI Perintah*. 

### `get-service-network-service-association`
<a name="vpc-lattice_GetServiceNetworkServiceAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-network-service-association`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang asosiasi layanan**  
`get-service-network-service-association`Contoh berikut mendapat informasi tentang asosiasi layanan yang ditentukan.  

```
aws vpc-lattice get-service-network-service-association \
    --service-network-service-association-identifier snsa-031fabb4d8EXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetworkserviceassociation/snsa-031fabb4d8EXAMPLE",
    "createdAt": "2023-05-05T21:48:16.076Z",
    "createdBy": "123456789012",
    "dnsEntry": {
        "domainName": "my-lattice-service-0285b53b2eEXAMPLE.7d67968.vpc-lattice-svcs.us-east-2.on.aws",
        "hostedZoneId": "Z09127221KTH2CEXAMPLE"
    },
    "id": "snsa-031fabb4d8EXAMPLE",
    "serviceArn": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE",
    "serviceId": "svc-0285b53b2eEXAMPLE",
    "serviceName": "my-lattice-service",
    "serviceNetworkArn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetwork/sn-080ec7dc93EXAMPLE",
    "serviceNetworkId": "sn-080ec7dc93EXAMPLE",
    "serviceNetworkName": "my-service-network",
    "status": "ACTIVE"
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html#service-network-service-associations) di *Panduan Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [GetServiceNetworkServiceAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-service-network-service-association.html)di *Referensi AWS CLI Perintah*. 

### `get-service-network-vpc-association`
<a name="vpc-lattice_GetServiceNetworkVpcAssociation_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-network-vpc-association`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang asosiasi VPC**  
`get-service-network-vpc-association`Contoh berikut mendapat informasi tentang asosiasi VPC yang ditentukan.  

```
aws vpc-lattice get-service-network-vpc-association \
    --service-network-vpc-association-identifier snva-0821fc8631EXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetworkvpcassociation/snva-0821fc8631EXAMPLE",
    "createdAt": "2023-06-06T23:41:08.421Z",
    "createdBy": "123456789012",
    "id": "snva-0c5dcb60d6EXAMPLE",
    "lastUpdatedAt": "2023-06-06T23:41:08.421Z",
    "securityGroupIds": [
        "sg-0aee16bc6cEXAMPLE"
    ],
    "serviceNetworkArn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetwork/sn-080ec7dc93EXAMPLE",
    "serviceNetworkId": "sn-080ec7dc93EXAMPLE",
    "serviceNetworkName": "my-service-network",
    "status": "ACTIVE",
    "vpcId": "vpc-0a1b2c3d4eEXAMPLE"
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi VPC](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html#service-network-vpc-associations) di Panduan Pengguna Amazon *VPC Lattice*.  
+  Untuk detail API, lihat [GetServiceNetworkVpcAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-service-network-vpc-association.html)di *Referensi AWS CLI Perintah*. 

### `get-service-network`
<a name="vpc-lattice_GetServiceNetwork_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-network`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang jaringan layanan**  
`get-service-network`Contoh berikut mendapat informasi tentang jaringan layanan yang ditentukan.  

```
aws vpc-lattice get-service-network \
    --service-network-identifier sn-080ec7dc93EXAMPLE
```
Output:  

```
{
   "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetwork/sn-080ec7dc93EXAMPLE",
   "authType": "AWS_IAM",
   "createdAt": "2023-05-05T15:26:08.417Z",
   "id": "sn-080ec7dc93EXAMPLE",
   "lastUpdatedAt": "2023-05-05T15:26:08.417Z",
   "name": "my-service-network",
   "numberOfAssociatedServices": 2,
   "numberOfAssociatedVPCs": 3
}
```
Untuk informasi selengkapnya, lihat [Jaringan layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-networks.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [GetServiceNetwork](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-service-network.html)di *Referensi AWS CLI Perintah*. 

### `get-service`
<a name="vpc-lattice_GetService_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang layanan**  
`get-service`Contoh berikut mendapat informasi tentang layanan yang ditentukan.  

```
aws vpc-lattice get-service \
    --service-identifier svc-0285b53b2eEXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE",
    "authType": "AWS_IAM",
    "createdAt": "2023-05-05T21:35:29.339Z",
    "dnsEntry": {
        "domainName": "my-lattice-service-0285b53b2eEXAMPLE.7d67968.vpc-lattice-svcs.us-east-2.on.aws",
        "hostedZoneId": "Z09127221KTH2CFUOHIZH"
    },
    "id": "svc-0285b53b2eEXAMPLE",
    "lastUpdatedAt": "2023-05-05T21:35:29.339Z",
    "name": "my-lattice-service",
    "status": "ACTIVE"
}
```
Untuk informasi selengkapnya, lihat [Layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/services.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [GetService](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-service.html)di *Referensi AWS CLI Perintah*. 

### `get-target-group`
<a name="vpc-lattice_GetTargetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-target-group`.

**AWS CLI**  
**Untuk mendapatkan informasi tentang kelompok sasaran**  
`get-target-group`Contoh berikut mendapat informasi tentang kelompok target yang ditentukan, yang memiliki jenis target`INSTANCE`.  

```
aws vpc-lattice get-target-group \
    --target-group-identifier tg-0eaa4b9ab4EXAMPLE
```
Output:  

```
{
    "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:targetgroup/tg-0eaa4b9ab4EXAMPLE",
    "config": {
        "healthCheck": {
            "enabled": true,
            "healthCheckIntervalSeconds": 30,
            "healthCheckTimeoutSeconds": 5,
            "healthyThresholdCount": 5,
            "matcher": {
                "httpCode": "200"
            },
            "path": "/",
            "protocol": "HTTPS",
            "protocolVersion": "HTTP1",
            "unhealthyThresholdCount": 2
        },
        "port": 443,
        "protocol": "HTTPS",
        "protocolVersion": "HTTP1",
        "vpcIdentifier": "vpc-f1663d9868EXAMPLE"
    },
    "createdAt": "2023-05-06T04:41:04.122Z",
    "id": "tg-0eaa4b9ab4EXAMPLE",
    "lastUpdatedAt": "2023-05-06T04:41:04.122Z",
    "name": "my-target-group",
    "serviceArns": [
        "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE"
    ],
    "status": "ACTIVE",
    "type": "INSTANCE"
}
```
Untuk informasi selengkapnya, lihat [Grup sasaran](https://docs.aws.amazon.com/vpc-lattice/latest/ug/target-groups.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [GetTargetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/get-target-group.html)di *Referensi AWS CLI Perintah*. 

### `list-listeners`
<a name="vpc-lattice_ListListeners_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-listeners`.

**AWS CLI**  
**Untuk daftar pendengar layanan**  
`list-listeners`Contoh berikut mencantumkan pendengar untuk layanan yang ditentukan.  

```
aws vpc-lattice list-listeners \
    --service-identifier svc-0285b53b2eEXAMPLE
```
Output:  

```
{
    "items": [
        {
            "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE/listener/listener-0ccf55918cEXAMPLE",
            "createdAt": "2023-05-07T05:08:45.192Z",
            "id": "listener-0ccf55918cEXAMPLE",
            "lastUpdatedAt": "2023-05-07T05:08:45.192Z",
            "name": "http-80",
            "port": 80,
            "protocol": "HTTP"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendefinisikan perutean](https://docs.aws.amazon.com/vpc-lattice/latest/ug/services.html#define-routing) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [ListListeners](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-listeners.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-configurations`
<a name="vpc-lattice_ListResourceConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-configurations`.

**AWS CLI**  
**Untuk membuat daftar konfigurasi sumber daya Anda**  
`list-resource-configurations`Contoh berikut mencantumkan konfigurasi sumber daya Anda.  

```
aws vpc-lattice list-resource-configurations
```
Output:  

```
{
    "items": [
        {
            "amazonManaged": false,
            "arn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourceconfiguration/rcfg-07129f3acded87625",
            "createdAt": "2025-02-01T00:57:35.871000+00:00",
            "id": "rcfg-07129f3acded87625",
            "lastUpdatedAt": "2025-02-01T00:57:46.874000+00:00",
            "name": "my-resource-config",
            "resourceGatewayId": "rgw-0bba03f3d56060135",
            "status": "ACTIVE",
            "type": "SINGLE"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Konfigurasi sumber daya](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-configuration.html) di Panduan Pengguna *Amazon VPC Lattice*.  
+  Untuk detail API, lihat [ListResourceConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-resource-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-endpoint-associations`
<a name="vpc-lattice_ListResourceEndpointAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-endpoint-associations`.

**AWS CLI**  
**Untuk membuat daftar asosiasi titik akhir VPC**  
`list-resource-endpoint-associations`Contoh berikut mencantumkan titik akhir VPC yang terkait dengan konfigurasi sumber daya yang ditentukan.  

```
aws vpc-lattice list-resource-endpoint-associations \
    --resource-configuration-identifier rcfg-07129f3acded87625
```
Output:  

```
{
    "items": [
        {
            "arn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourceendpointassociation/rea-0956a7435baf89326",
            "createdAt": "2025-02-01T00:57:38.998000+00:00",
            "id": "rea-0956a7435baf89326",
            "resourceConfigurationArn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourceconfiguration/rcfg-07129f3acded87625",
            "resourceConfigurationId": "rcfg-07129f3acded87625",
            "vpcEndpointId": "vpce-019b90d6f16d4f958",
            "vpcEndpointOwner": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi untuk konfigurasi sumber daya Kisi VPC di Panduan Pengguna Amazon *VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-configuration-associations.html).  
+  Untuk detail API, lihat [ListResourceEndpointAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-resource-endpoint-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-gateways`
<a name="vpc-lattice_ListResourceGateways_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-gateways`.

**AWS CLI**  
**Untuk membuat daftar gateway sumber daya Anda**  
`list-resource-gateways`Contoh berikut mencantumkan gateway sumber daya Anda.  

```
aws vpc-lattice list-resource-gateways
```
Output:  

```
{
    "items": [
        {
            "arn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourcegateway/rgw-0bba03f3d56060135",
            "createdAt": "2025-02-01T00:57:33.241000+00:00",
            "id": "rgw-0bba03f3d56060135",
            "ipAddressType": "IPV4",
            "lastUpdatedAt": "2025-02-01T00:57:44.351000+00:00",
            "name": "my-resource-gateway",
            "seurityGroupIds": [
                "sg-087ffd596c5fe962c"
            ],
            "status": "ACTIVE",
            "subnetIds": [
                "subnet-08e8943905b63a683"
            ],
            "vpcIdentifier": "vpc-0bf4c2739bc05a694"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Gateway sumber daya di Kisi VPC di Panduan Pengguna *Amazon VPC* Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/resource-gateway.html).  
+  Untuk detail API, lihat [ListResourceGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-resource-gateways.html)di *Referensi AWS CLI Perintah*. 

### `list-service-network-service-associations`
<a name="vpc-lattice_ListServiceNetworkServiceAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-network-service-associations`.

**AWS CLI**  
**Untuk membuat daftar asosiasi layanan**  
`list-service-network-service-associations`Contoh berikut mencantumkan asosiasi layanan untuk jaringan layanan yang ditentukan. `--query`Opsi ini mencakup output ke IDs asosiasi layanan.  

```
aws vpc-lattice list-service-network-service-associations \
    --service-network-identifier sn-080ec7dc93EXAMPLE \
    --query items[*].id
```
Output:  

```
[
    "snsa-031fabb4d8EXAMPLE",
    "snsa-0e16955a8cEXAMPLE"
]
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html#service-network-service-associations) di *Panduan Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [ListServiceNetworkServiceAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-service-network-service-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-service-network-vpc-associations`
<a name="vpc-lattice_ListServiceNetworkVpcAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-network-vpc-associations`.

**AWS CLI**  
**Untuk membuat daftar asosiasi VPC**  
`list-service-network-vpc-associations`Contoh berikut mencantumkan asosiasi VPC untuk jaringan layanan yang ditentukan. `--query`Opsi ini mencakup output ke IDs asosiasi VPC.  

```
aws vpc-lattice list-service-network-vpc-associations \
    --service-network-identifier sn-080ec7dc93EXAMPLE \
    --query items[*].id
```
Output:  

```
[
    "snva-0821fc8631EXAMPLE",
    "snva-0c5dcb60d6EXAMPLE"
]
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi VPC](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html#service-network-vpc-associations) di Panduan Pengguna Amazon *VPC Lattice*.  
+  Untuk detail API, lihat [ListServiceNetworkVpcAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-service-network-vpc-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-service-network-vpc-endpoint-associations`
<a name="vpc-lattice_ListServiceNetworkVpcEndpointAssociations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-network-vpc-endpoint-associations`.

**AWS CLI**  
**Untuk membuat daftar asosiasi titik akhir VPC**  
`list-service-network-vpc-endpoint-associations`Contoh berikut mencantumkan titik akhir VPC yang terkait dengan jaringan layanan tertentu.  

```
aws vpc-lattice list-service-network-vpc-endpoint-associations \
    --service-network-identifier sn-0808d1748faee0c1e
```
Output:  

```
{
    "items": [
        {
            "createdAt": "2025-02-01T01:21:36.667000+00:00",
            "serviceNetworkArn": "arn:aws:vpc-lattice:us-east-1:123456789012:servicenetwork/sn-0808d1748faee0c1e",
            "state": "ACTIVE",
            "vpcEndpointId": "vpce-0cc199f605eaeace7",
            "vpcEndpointOwnerId": "123456789012"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola asosiasi untuk jaringan layanan VPC Lattice](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-network-associations.html) di Panduan Pengguna Amazon *VPC* Lattice.  
+  Untuk detail API, lihat [ListServiceNetworkVpcEndpointAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-service-network-vpc-endpoint-associations.html)di *Referensi AWS CLI Perintah*. 

### `list-service-networks`
<a name="vpc-lattice_ListServiceNetworks_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-service-networks`.

**AWS CLI**  
**Untuk membuat daftar jaringan layanan Anda**  
`list-service-networks`Contoh berikut mencantumkan jaringan layanan yang dimiliki atau dibagikan dengan akun panggilan. `--query`Opsi ini mencakup hasil ke Nama Sumber Daya Amazon (ARN) dari jaringan layanan.  

```
aws vpc-lattice list-service-networks \
    --query items[*].arn
```
Output:  

```
[
    "arn:aws:vpc-lattice:us-east-2:123456789012:servicenetwork/sn-080ec7dc93EXAMPLE",
    "arn:aws:vpc-lattice:us-east-2:111122223333:servicenetwork/sn-0ec4d436cfEXAMPLE"
]
```
Untuk informasi selengkapnya, lihat [Jaringan layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/service-networks.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [ListServiceNetworks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-service-networks.html)di *Referensi AWS CLI Perintah*. 

### `list-services`
<a name="vpc-lattice_ListServices_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-services`.

**AWS CLI**  
**Untuk membuat daftar layanan Anda**  
`list-services`Contoh berikut mencantumkan layanan yang dimiliki atau dibagikan dengan akun panggilan. `--query`Opsi ini mencakup hasil ke Nama Sumber Daya Amazon (ARN) layanan.  

```
aws vpc-lattice list-services \
    --query items[*].arn
```
Output:  

```
[
    "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE",
    "arn:aws:vpc-lattice:us-east-2:111122223333:service/svc-0b8ac96550EXAMPLE"
]
```
Untuk informasi selengkapnya, lihat [Layanan](https://docs.aws.amazon.com/vpc-lattice/latest/ug/services.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [ListServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-services.html)di *Referensi AWS CLI Perintah*. 

### `list-target-groups`
<a name="vpc-lattice_ListTargetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-target-groups`.

**AWS CLI**  
**Untuk membuat daftar grup target Anda**  
`list-target-groups`Contoh berikut mencantumkan kelompok target dengan jenis target`LAMBDA`.  

```
aws vpc-lattice list-target-groups \
    --target-group-type LAMBDA
```
Output:  

```
{
    "items": [
        {
            "arn": "arn:aws:vpc-lattice:us-east-2:123456789012:targetgroup/tg-045c1b7d9dEXAMPLE",
            "createdAt": "2023-05-06T05:22:16.637Z",
            "id": "tg-045c1b7d9dEXAMPLE",
            "lastUpdatedAt": "2023-05-06T05:22:16.637Z",
            "name": "my-target-group-lam",
            "serviceArns": [
                "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE"
            ],
            "status": "ACTIVE",
            "type": "LAMBDA"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup sasaran](https://docs.aws.amazon.com/vpc-lattice/latest/ug/target-groups.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [ListTargetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-target-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-targets`
<a name="vpc-lattice_ListTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-targets`.

**AWS CLI**  
**Untuk membuat daftar target untuk kelompok sasaran**  
`list-targets`Contoh berikut mencantumkan target untuk kelompok target yang ditentukan.  

```
aws vpc-lattice list-targets \
    --target-group-identifier tg-0eaa4b9ab4EXAMPLE
```
Output:  

```
{
    "items": [
        {
            "id": "i-07dd579bc5EXAMPLE",
            "port": 443,
            "status": "HEALTHY"
        },
        {
            "id": "i-047b3c9078EXAMPLE",
            "port": 443,
            "reasonCode": "HealthCheckFailed",
            "status": "UNHEALTHY"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup sasaran](https://docs.aws.amazon.com/vpc-lattice/latest/ug/target-groups.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [ListTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/list-targets.html)di *Referensi AWS CLI Perintah*. 

### `put-auth-policy`
<a name="vpc-lattice_PutAuthPolicy_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-auth-policy`.

**AWS CLI**  
**Untuk membuat kebijakan autentikasi untuk layanan**  
`put-auth-policy`Contoh berikut memberikan akses ke permintaan dari prinsipal yang diautentikasi yang menggunakan peran IAM yang ditentukan. Sumber daya adalah ARN dari layanan yang dilampirkan kebijakan tersebut.  

```
aws vpc-lattice put-auth-policy \
    --resource-identifier svc-0285b53b2eEXAMPLE \
    --policy file://auth-policy.json
```
Isi dari `auth-policy.json`:  

```
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": {
                "AWS": "arn:aws:iam::123456789012:role/my-clients"
            },
            "Action": "vpc-lattice-svcs:Invoke",
            "Resource": "arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE"
        }
    ]
}
```
Output:  

```
{
    "policy": "{\"Version\":\"2012-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"AWS\":\"arn:aws:iam::123456789012:role/my-clients\"},\"Action\":\"vpc-lattice-svcs:Invoke\",\"Resource\":\"arn:aws:vpc-lattice:us-east-2:123456789012:service/svc-0285b53b2eEXAMPLE\"}]}",
    "state": "Active"
}
```
Untuk informasi selengkapnya, lihat [Kebijakan autentikasi](https://docs.aws.amazon.com/vpc-lattice/latest/ug/auth-policies.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [PutAuthPolicy](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/put-auth-policy.html)di *Referensi AWS CLI Perintah*. 

### `register-targets`
<a name="vpc-lattice_RegisterTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-targets`.

**AWS CLI**  
**Untuk mendaftarkan target**  
`register-targets`Contoh berikut mendaftarkan target yang ditentukan dengan kelompok target yang ditentukan.  

```
aws vpc-lattice register-targets \
    --targets id=i-047b3c9078EXAMPLE id=i-07dd579bc5EXAMPLE \
    --target-group-identifier tg-0eaa4b9ab4EXAMPLE
```
Output:  

```
{
    "successful": [
        {
            "id": "i-07dd579bc5EXAMPLE",
            "port": 443
        }
    ],
    "unsuccessful": [
        {
            "failureCode": "UnsupportedTarget",
            "failureMessage": "Instance targets must be in the same VPC as their target group",
            "id": "i-047b3c9078EXAMPLE",
            "port": 443
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mendaftarkan target](https://docs.aws.amazon.com/vpc-lattice/latest/ug/register-targets.html) di Panduan *Pengguna Amazon VPC Lattice*.  
+  Untuk detail API, lihat [RegisterTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/vpc-lattice/register-targets.html)di *Referensi AWS CLI Perintah*. 

# AWS WAF Classic contoh menggunakan AWS CLI
<a name="cli_2_waf_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS WAF Classic.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `put-logging-configuration`
<a name="waf_PutLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-logging-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi logging untuk web ACL ARN dengan Arn Kinesis Firehose stream yang ditentukan**  
`put-logging-configuration`Contoh berikut menampilkan konfigurasi logging untuk WAF dengan CloudFront.  

```
aws waf put-logging-configuration \
    --logging-configuration ResourceArn=arn:aws:waf::123456789012:webacl/3bffd3ed-fa2e-445e-869f-a6a7cf153fd3,LogDestinationConfigs=arn:aws:firehose:us-east-1:123456789012:deliverystream/aws-waf-logs-firehose-stream,RedactedFields=[]
```
Output:  

```
{
    "LoggingConfiguration": {
        "ResourceArn": "arn:aws:waf::123456789012:webacl/3bffd3ed-fa2e-445e-869f-a6a7cf153fd3",
        "LogDestinationConfigs": [
            "arn:aws:firehose:us-east-1:123456789012:deliverystream/aws-waf-logs-firehose-stream"
        ]
    }
}
```
+  Untuk detail API, lihat [PutLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf/put-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-byte-match-set`
<a name="waf_UpdateByteMatchSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-byte-match-set`.

**AWS CLI**  
**Untuk memperbarui set kecocokan byte**  
`update-byte-match-set`Perintah berikut menghapus ByteMatchTuple objek (filter) dalam ByteMatchSet:  

```
aws waf update-byte-match-set --byte-match-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 --updates Action="DELETE",ByteMatchTuple={FieldToMatch={Type="HEADER",Data="referer"},TargetString="badrefer1",TextTransformation="NONE",PositionalConstraint="CONTAINS"}
```
Untuk informasi selengkapnya, lihat Bekerja dengan Ketentuan Pencocokan String di panduan pengembang *AWS WAF*.  
+  Untuk detail API, lihat [UpdateByteMatchSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf/update-byte-match-set.html)di *Referensi AWS CLI Perintah*. 

### `update-ip-set`
<a name="waf_UpdateIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-ip-set`.

**AWS CLI**  
**Untuk memperbarui set IP**  
`update-ip-set`Perintah berikut memperbarui IPSet dengan IPv4 alamat dan menghapus IPv6 alamat:  

```
aws waf update-ip-set --ip-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 --updates Action="INSERT",IPSetDescriptor={Type="IPV4",Value="12.34.56.78/16"},Action="DELETE",IPSetDescriptor={Type="IPV6",Value="1111:0000:0000:0000:0000:0000:0000:0111/128"}
```
Atau Anda dapat menggunakan file JSON untuk menentukan input. Contoh:  

```
aws waf update-ip-set --ip-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1  --updates file://change.json
```
Dimana isi file JSON adalah:  

```
[
{
"Action": "INSERT",
"IPSetDescriptor":
{
"Type": "IPV4",
"Value": "12.34.56.78/16"
}
},
{
"Action": "DELETE",
"IPSetDescriptor":
{
"Type": "IPV6",
"Value": "1111:0000:0000:0000:0000:0000:0000:0111/128"
}
}
]
```
Untuk informasi selengkapnya, lihat Bekerja dengan Ketentuan Pencocokan IP di panduan pengembang *AWS WAF*.  
+  Untuk detail API, lihat [UpdateIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf/update-ip-set.html)di *Referensi AWS CLI Perintah*. 

### `update-rule`
<a name="waf_UpdateRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-rule`.

**AWS CLI**  
**Untuk memperbarui aturan**  
`update-rule`Perintah berikut menghapus objek Predikat dalam aturan:  

```
aws waf update-rule --rule-id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 --updates Action="DELETE",Predicate={Negated=false,Type="ByteMatch",DataId="MyByteMatchSetID"}
```
Untuk informasi selengkapnya, lihat Bekerja dengan Aturan di panduan pengembang *AWS WAF*.  
+  Untuk detail API, lihat [UpdateRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf/update-rule.html)di *Referensi AWS CLI Perintah*. 

### `update-size-constraint-set`
<a name="waf_UpdateSizeConstraintSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-size-constraint-set`.

**AWS CLI**  
**Untuk memperbarui set batasan ukuran**  
`update-size-constraint-set`Perintah berikut menghapus SizeConstraint objek (filter) dalam set batasan ukuran:  

```
aws waf update-size-constraint-set --size-constraint-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 --updates Action="DELETE",SizeConstraint={FieldToMatch={Type="QUERY_STRING"},TextTransformation="NONE",ComparisonOperator="GT",Size=0}
```
Untuk informasi selengkapnya, lihat Bekerja dengan Ketentuan Kendala Ukuran di panduan pengembang *AWS WAF*.  
+  Untuk detail API, lihat [UpdateSizeConstraintSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf/update-size-constraint-set.html)di *Referensi AWS CLI Perintah*. 

### `update-sql-injection-match-set`
<a name="waf_UpdateSqlInjectionMatchSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-sql-injection-match-set`.

**AWS CLI**  
**Untuk memperbarui SQL Injection Match Set**  
`update-sql-injection-match-set`Perintah berikut menghapus SqlInjectionMatchTuple objek (filter) dalam set kecocokan injeksi SQL:  

```
aws waf update-sql-injection-match-set --sql-injection-match-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 --updates Action="DELETE",SqlInjectionMatchTuple={FieldToMatch={Type="QUERY_STRING"},TextTransformation="URL_DECODE"}
```
Untuk informasi selengkapnya, lihat Bekerja dengan Ketentuan Pencocokan Injeksi SQL di panduan pengembang *AWS WAF*.  
+  Untuk detail API, lihat [UpdateSqlInjectionMatchSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf/update-sql-injection-match-set.html)di *Referensi AWS CLI Perintah*. 

### `update-web-acl`
<a name="waf_UpdateWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-web-acl`.

**AWS CLI**  
**Untuk memperbarui ACL web**  
`update-web-acl`Perintah berikut menghapus `ActivatedRule` objek di WebACL.  
aws waf update-web-acl -- web-acl-id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 --update action="Delete”, =' \$1Prioritas=1, =” -1-Contoh”, Action= \$1type="allow "\$1, Type="Regular"\$1 'ActivatedRuleRuleIdWAFRule  
Output:  

```
{
    "ChangeToken": "12cs345-67cd-890b-1cd2-c3a4567d89f1"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Web ACLs](https://docs.aws.amazon.com/waf/latest/developerguide/classic-web-acl-working-with.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [UpdateWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf/update-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `update-xss-match-set`
<a name="waf_UpdateXssMatchSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-xss-match-set`.

**AWS CLI**  
**Untuk memperbarui XSSMatch Set**  
`update-xss-match-set`Perintah berikut menghapus XssMatchTuple objek (filter) dalam: XssMatchSet  

```
aws waf update-xss-match-set --xss-match-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 --updates Action="DELETE",XssMatchTuple={FieldToMatch={Type="QUERY_STRING"},TextTransformation="URL_DECODE"}
```
Untuk informasi selengkapnya, lihat Bekerja dengan Ketentuan Pencocokan Skrip Lintas Situs di panduan pengembang *AWS WAF*.  
+  Untuk detail API, lihat [UpdateXssMatchSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf/update-xss-match-set.html)di *Referensi AWS CLI Perintah*. 

# AWS WAF Classic Regional contoh menggunakan AWS CLI
<a name="cli_2_waf-regional_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS WAF Classic Regional.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-web-acl`
<a name="waf-regional_AssociateWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-web-acl`.

**AWS CLI**  
**Untuk mengaitkan ACL web dengan sumber daya**  
`associate-web-acl`Perintah berikut mengaitkan ACL web, ditentukan oleh, dengan sumber daya web-acl-id, yang ditentukan oleh sumber daya-arn. Sumber daya ARN dapat merujuk ke penyeimbang beban aplikasi atau API Gateway:  

```
aws waf-regional associate-web-acl \
    --web-acl-id a123fae4-b567-8e90-1234-5ab67ac8ca90 \
    --resource-arn 12cs345-67cd-890b-1cd2-c3a4567d89f1
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Web ACLs](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-working-with.html) di *Panduan Pengembang AWS WAF*.  
+  Untuk detail API, lihat [AssociateWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/associate-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `put-logging-configuration`
<a name="waf-regional_PutLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-logging-configuration`.

**AWS CLI**  
**Untuk membuat konfigurasi logging untuk web ACL ARN dengan Arn Kinesis Firehose stream yang ditentukan**  
`put-logging-configuration`Contoh berikut menampilkan konfigurasi logging untuk WAF dengan ALB/APIGateway di Region`us-east-1`.  

```
aws waf-regional put-logging-configuration \
    --logging-configuration ResourceArn=arn:aws:waf-regional:us-east-1:123456789012:webacl/3bffd3ed-fa2e-445e-869f-a6a7cf153fd3,LogDestinationConfigs=arn:aws:firehose:us-east-1:123456789012:deliverystream/aws-waf-logs-firehose-stream,RedactedFields=[] \
    --region us-east-1
```
Output:  

```
{
    "LoggingConfiguration": {
        "ResourceArn": "arn:aws:waf-regional:us-east-1:123456789012:webacl/3bffd3ed-fa2e-445e-869f-a6a7cf153fd3",
        "LogDestinationConfigs": [
            "arn:aws:firehose:us-east-1:123456789012:deliverystream/aws-waf-logs-firehose-stream"
        ]
    }
}
```
+  Untuk detail API, lihat [PutLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/put-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `update-byte-match-set`
<a name="waf-regional_UpdateByteMatchSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-byte-match-set`.

**AWS CLI**  
**Untuk memperbarui set kecocokan byte**  
`update-byte-match-set`Perintah berikut menghapus `ByteMatchTuple` objek (filter) dalam file. `ByteMatchSet` Karena `updates` nilainya telah menyematkan tanda kutip ganda, Anda harus mengelilingi nilainya dengan tanda kutip tunggal.  

```
aws waf-regional update-byte-match-set \
    --byte-match-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 \
    --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 \
    --updates 'Action="DELETE",ByteMatchTuple={FieldToMatch={Type="HEADER",Data="referer"},TargetString="badrefer1",TextTransformation="NONE",PositionalConstraint="CONTAINS"}'
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Ketentuan Pencocokan String](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-string-conditions.html) di *Panduan Pengembang AWS WAF*.  
+  Untuk detail API, lihat [UpdateByteMatchSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/update-byte-match-set.html)di *Referensi AWS CLI Perintah*. 

### `update-ip-set`
<a name="waf-regional_UpdateIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-ip-set`.

**AWS CLI**  
**Untuk memperbarui set IP**  
`update-ip-set`Perintah berikut memperbarui IPSet dengan IPv4 alamat dan menghapus IPv6 alamat. Dapatkan nilainya `change-token` dengan menjalankan `get-change-token` perintah. Karena nilai untuk pembaruan menyertakan tanda kutip ganda yang disematkan, Anda harus mengelilingi nilainya dengan tanda kutip tunggal.  

```
aws waf update-ip-set \
    --ip-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 \
    --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 \
    --updates 'Action="INSERT",IPSetDescriptor={Type="IPV4",Value="12.34.56.78/16"},Action="DELETE",IPSetDescriptor={Type="IPV6",Value="1111:0000:0000:0000:0000:0000:0000:0111/128"}'
```
Atau Anda dapat menggunakan file JSON untuk menentukan input. Contoh:  

```
aws waf-regional update-ip-set \
    --ip-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 \
    --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1  \
    --updates file://change.json
```
Isi dari `change.json`  

```
[
    {
        "Action": "INSERT",
        "IPSetDescriptor":
        {
            "Type": "IPV4",
            "Value": "12.34.56.78/16"
        }
    },
    {
        "Action": "DELETE",
        "IPSetDescriptor":
        {
            "Type": "IPV6",
            "Value": "1111:0000:0000:0000:0000:0000:0000:0111/128"
        }
    }
]
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Ketentuan Pencocokan IP](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-ip-conditions.html) di *Panduan Pengembang AWS WAF*.  
+  Untuk detail API, lihat [UpdateIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/update-ip-set.html)di *Referensi AWS CLI Perintah*. 

### `update-rule`
<a name="waf-regional_UpdateRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-rule`.

**AWS CLI**  
**Untuk memperbarui aturan**  
`update-rule`Perintah berikut menghapus `Predicate` objek dalam aturan. Karena `updates` nilainya telah menyematkan tanda kutip ganda, Anda harus mengelilingi seluruh nilai dengan tanda kutip tunggal.  

```
aws waf-regional update-rule \
    --rule-id a123fae4-b567-8e90-1234-5ab67ac8ca90 \
    --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 \
    --updates 'Action="DELETE",Predicate={Negated=false,Type="ByteMatch",DataId="MyByteMatchSetID"}'
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Aturan](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-rules.html) di *Panduan Pengembang AWS WAF*.  
+  Untuk detail API, lihat [UpdateRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/update-rule.html)di *Referensi AWS CLI Perintah*. 

### `update-size-constraint-set`
<a name="waf-regional_UpdateSizeConstraintSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-size-constraint-set`.

**AWS CLI**  
**Untuk memperbarui set batasan ukuran**  
`update-size-constraint-set`Perintah berikut menghapus objek SizeConstraint `(filter) dalam set batasan ukuran. Karena `updates` nilainya berisi tanda kutip ganda yang disematkan, Anda harus mengelilingi seluruh nilai dengan tanda kutip tunggal.  

```
aws waf-regional update-size-constraint-set \
    --size-constraint-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 \
    --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 \
    --updates 'Action="DELETE",SizeConstraint={FieldToMatch={Type="QUERY_STRING"},TextTransformation="NONE",ComparisonOperator="GT",Size=0}'
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Ketentuan Kendala Ukuran di Panduan](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-size-conditions.html) Pengembang *AWS WAF*.  
+  Untuk detail API, lihat [UpdateSizeConstraintSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/update-size-constraint-set.html)di *Referensi AWS CLI Perintah*. 

### `update-sql-injection-match-set`
<a name="waf-regional_UpdateSqlInjectionMatchSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-sql-injection-match-set`.

**AWS CLI**  
**Untuk memperbarui SQL Injection Match Set**  
`update-sql-injection-match-set`Perintah berikut menghapus `SqlInjectionMatchTuple` objek (filter) dalam set kecocokan injeksi SQL. Karena `updates` nilainya berisi tanda kutip ganda yang disematkan, Anda harus mengelilingi seluruh nilai dalam tanda kutip tunggal. :  
aws waf-regional update-sql-injection-match -set -- sql-injection-match-set -id a123fae4-b567-8e90-1234-5ab67ac8ca90 --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 --update 'action="Delete”, = \$1= \$1type="Query\$1string "\$1, ="URL\$1DECODE"\$1 'SqlInjectionMatchTupleFieldToMatchTextTransformation  
Untuk informasi selengkapnya, lihat [Bekerja dengan Ketentuan Pencocokan Injeksi SQL](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-sql-conditions.html) di Panduan *Pengembang AWS WAF*.  
+  Untuk detail API, lihat [UpdateSqlInjectionMatchSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/update-sql-injection-match-set.html)di *Referensi AWS CLI Perintah*. 

### `update-web-acl`
<a name="waf-regional_UpdateWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-web-acl`.

**AWS CLI**  
**Untuk memperbarui ACL web**  
`update-web-acl`Perintah berikut menghapus `ActivatedRule` objek di WebACL. Karena `updates` nilainya berisi tanda kutip ganda yang disematkan, Anda harus mengelilingi seluruh nilai dalam tanda kutip tunggal.  

```
aws waf-regional update-web-acl \
    --web-acl-id a123fae4-b567-8e90-1234-5ab67ac8ca90 \
    --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 \
    --updates Action="DELETE",ActivatedRule='{Priority=1,RuleId="WAFRule-1-Example",Action={Type="ALLOW"},Type="ALLOW"}'
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Web ACLs](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-working-with.html) di *Panduan Pengembang AWS WAF*.  
+  Untuk detail API, lihat [UpdateWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/update-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `update-xss-match-set`
<a name="waf-regional_UpdateXssMatchSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-xss-match-set`.

**AWS CLI**  
**Untuk memperbarui XSSMatch Set**  
`update-xss-match-set`Perintah berikut menghapus `XssMatchTuple` objek (filter) dalam file`XssMatchSet`. Karena `updates` nilainya berisi tanda kutip ganda yang disematkan, Anda harus mengelilingi seluruh nilai dengan tanda kutip tunggal.  

```
aws waf-regional update-xss-match-set \
    --xss-match-set-id a123fae4-b567-8e90-1234-5ab67ac8ca90 \
    --change-token 12cs345-67cd-890b-1cd2-c3a4567d89f1 \
    --updates 'Action="DELETE",XssMatchTuple={FieldToMatch={Type="QUERY_STRING"},TextTransformation="URL_DECODE"}'
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Ketentuan Pencocokan Skrip Lintas Situs](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-xss-conditions.html) di Panduan Pengembang *AWS WAF*.  
+  Untuk detail API, lihat [UpdateXssMatchSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/waf-regional/update-xss-match-set.html)di *Referensi AWS CLI Perintah*. 

# AWS WAFV2 contoh menggunakan AWS CLI
<a name="cli_2_wafv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with AWS WAFV2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-web-acl`
<a name="wafv2_AssociateWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-web-acl`.

**AWS CLI**  
**Untuk mengaitkan ACL web dengan sumber daya regional AWS **  
`associate-web-acl`Contoh berikut mengaitkan ACL web tertentu dengan Application Load Balancer.  

```
aws wafv2 associate-web-acl \
    --web-acl-arn arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test-cli/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --resource-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/waf-cli-alb/1ea17125f8b25a2a \
    --region us-west-2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaitkan atau Memisahkan ACL Web dengan AWS Sumber Daya](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-associating-aws-resource.html) di WAF *AWS , Firewall AWS Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [AssociateWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/associate-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `check-capacity`
<a name="wafv2_CheckCapacity_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`check-capacity`.

**AWS CLI**  
**Untuk mendapatkan kapasitas yang digunakan oleh seperangkat aturan**  
Berikut ini `check-capacity` mengambil persyaratan kapasitas untuk kumpulan aturan yang berisi pernyataan aturan berbasis laju, dan pernyataan aturan AND yang berisi aturan bersarang.  

```
aws wafv2 check-capacity \
    --scope REGIONAL \
    --rules file://waf-rule-list.json \
    --region us-west-2
```
Isi file://waf-rule-list.json:  

```
[
    {
        "Name":"basic-rule",
        "Priority":0,
        "Statement":{
            "AndStatement":{
                "Statements":[
                    {
                        "ByteMatchStatement":{
                            "SearchString":"example.com",
                            "FieldToMatch":{
                                "SingleHeader":{
                                    "Name":"host"
                                }
                            },
                            "TextTransformations":[
                                {
                                    "Priority":0,
                                    "Type":"LOWERCASE"
                                }
                            ],
                            "PositionalConstraint":"EXACTLY"
                        }
                    },
                    {
                        "GeoMatchStatement":{
                            "CountryCodes":[
                                "US",
                                "IN"
                            ]
                        }
                    }
                ]
            }
        },
        "Action":{
            "Allow":{

            }
        },
        "VisibilityConfig":{
            "SampledRequestsEnabled":true,
            "CloudWatchMetricsEnabled":true,
            "MetricName":"basic-rule"
        }
    },
    {
        "Name":"rate-rule",
        "Priority":1,
        "Statement":{
            "RateBasedStatement":{
                "Limit":1000,
                "AggregateKeyType":"IP"
            }
        },
        "Action":{
            "Block":{

            }
        },
        "VisibilityConfig":{
            "SampledRequestsEnabled":true,
            "CloudWatchMetricsEnabled":true,
            "MetricName":"rate-rule"
        }
    }
]
```
Output:  

```
{
    "Capacity":15
}
```
Untuk informasi selengkapnya, lihat [AWS WAF Web ACL Capacity Units (WCU)](https://docs.aws.amazon.com/waf/latest/developerguide/how-aws-waf-works.html#aws-waf-capacity-units) di *AWS WAF, Firewall Manager, dan AWS Shield AWS Advanced* Developer Guide.  
+  Untuk detail API, lihat [CheckCapacity](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/check-capacity.html)di *Referensi AWS CLI Perintah*. 

### `create-ip-set`
<a name="wafv2_CreateIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-ip-set`.

**AWS CLI**  
**Untuk membuat set IP untuk digunakan di web ACLs dan grup aturan**  
`create-ip-set`Perintah berikut membuat set IP dengan spesifikasi rentang alamat tunggal.  

```
aws wafv2 create-ip-set \
    --name testip \
    --scope REGIONAL \
    --ip-address-version IPV4 \
    --addresses 198.51.100.0/16
```
Output:  

```
{
    "Summary":{
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/ipset/testip/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Description":"",
        "Name":"testip",
        "LockToken":"447e55ac-0000-0000-0000-86b67c17f8b5",
        "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    }
}
```
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [CreateIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/create-ip-set.html)di *Referensi AWS CLI Perintah*. 

### `create-regex-pattern-set`
<a name="wafv2_CreateRegexPatternSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-regex-pattern-set`.

**AWS CLI**  
**Untuk membuat set pola regex untuk digunakan di web ACLs dan grup aturan**  
`create-regex-pattern-set`Perintah berikut menciptakan pola regex yang ditetapkan dengan dua pola regex yang ditentukan.  

```
aws wafv2 create-regex-pattern-set \
    --name regexPatterSet01 \
    --scope REGIONAL \
    --description 'Test web-acl' \
    --regular-expression-list '[{"RegexString": "/[0-9]*/"},{"RegexString": "/[a-z]*/"}]'
```
Output:  

```
{
    "Summary":{
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/regexpatternset/regexPatterSet01/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Description":"Test web-acl",
        "Name":"regexPatterSet01",
        "LockToken":"0bc01e21-03c9-4b98-9433-6229cbf1ef1c",
        "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    }
}
```
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [CreateRegexPatternSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/create-regex-pattern-set.html)di *Referensi AWS CLI Perintah*. 

### `create-rule-group`
<a name="wafv2_CreateRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-rule-group`.

**AWS CLI**  
**Untuk membuat grup aturan khusus untuk digunakan di web Anda ACLs**  
`create-rule-group`Perintah berikut membuat grup aturan kustom untuk penggunaan regional. Pernyataan aturan untuk grup disediakan dalam file berformat JSON.  

```
aws wafv2 create-rule-group \
    --name "TestRuleGroup" \
    --scope REGIONAL \
    --capacity 250 \
    --rules file://waf-rule.json \
    --visibility-config SampledRequestsEnabled=true,CloudWatchMetricsEnabled=true,MetricName=TestRuleGroupMetrics \
    --region us-west-2
```
Isi file: //waf-rule.json:  

```
[
    {
        "Name":"basic-rule",
        "Priority":0,
        "Statement":{
            "AndStatement":{
                "Statements":[
                    {
                        "ByteMatchStatement":{
                            "SearchString":"example.com",
                            "FieldToMatch":{
                                "SingleHeader":{
                                    "Name":"host"
                                }
                            },
                            "TextTransformations":[
                                {
                                    "Priority":0,
                                    "Type":"LOWERCASE"
                                }
                            ],
                            "PositionalConstraint":"EXACTLY"
                        }
                    },
                    {
                        "GeoMatchStatement":{
                            "CountryCodes":[
                                "US",
                                "IN"
                            ]
                        }
                    }
                ]
            }
        },
        "Action":{
            "Allow":{

            }
        },
        "VisibilityConfig":{
            "SampledRequestsEnabled":true,
            "CloudWatchMetricsEnabled":true,
            "MetricName":"basic-rule"
        }
    }
]
```
Output:  

```
{
    "Summary":{
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/rulegroup/TestRuleGroup/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Description":"",
        "Name":"TestRuleGroup",
        "LockToken":"7b3bcec2-374e-4c5a-b2b9-563bf47249f0",
        "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola Grup Aturan Anda Sendiri](https://docs.aws.amazon.com/waf/latest/developerguide/waf-user-created-rule-groups.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [CreateRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/create-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `create-web-acl`
<a name="wafv2_CreateWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-web-acl`.

**AWS CLI**  
**Untuk membuat web ACL**  
`create-web-acl`Perintah berikut membuat ACL web untuk penggunaan regional. Pernyataan aturan untuk ACL web disediakan dalam file berformat JSON.  

```
aws wafv2 create-web-acl \
    --name TestWebAcl \
    --scope REGIONAL \
    --default-action Allow={} \
    --visibility-config SampledRequestsEnabled=true,CloudWatchMetricsEnabled=true,MetricName=TestWebAclMetrics \
    --rules file://waf-rule.json \
    --region us-west-2
```
Isi file: //waf-rule.json:  

```
[
    {
        "Name":"basic-rule",
        "Priority":0,
        "Statement":{
            "AndStatement":{
                "Statements":[
                    {
                        "ByteMatchStatement":{
                            "SearchString":"example.com",
                            "FieldToMatch":{
                                "SingleHeader":{
                                    "Name":"host"
                                }
                            },
                            "TextTransformations":[
                                {
                                    "Priority":0,
                                    "Type":"LOWERCASE"
                                }
                            ],
                            "PositionalConstraint":"EXACTLY"
                        }
                    },
                    {
                        "GeoMatchStatement":{
                            "CountryCodes":[
                                "US",
                                "IN"
                            ]
                        }
                    }
                ]
            }
        },
        "Action":{
            "Allow":{

            }
        },
        "VisibilityConfig":{
            "SampledRequestsEnabled":true,
            "CloudWatchMetricsEnabled":true,
            "MetricName":"basic-rule"
        }
    }
]
```
Output:  

```
{
    "Summary":{
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/TestWebAcl/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Description":"",
        "Name":"TestWebAcl",
        "LockToken":"2294b3a1-eb60-4aa0-a86f-a3ae04329de9",
        "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengelola dan Menggunakan Daftar Kontrol Akses Web (Web ACL)](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer* Guide.  
+  Untuk detail API, lihat [CreateWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/create-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `delete-ip-set`
<a name="wafv2_DeleteIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-ip-set`.

**AWS CLI**  
**Untuk menghapus set IP**  
Berikut ini `delete-ip-set` menghapus set IP yang ditentukan. Panggilan ini memerlukan ID, yang dapat Anda peroleh dari panggilan`list-ip-sets`,, dan token kunci, yang dapat Anda peroleh dari panggilan, `list-ip-sets` dan`get-ip-set`.  

```
aws wafv2 delete-ip-set \
    --name test1 \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --lock-token 46851772-db6f-459d-9385-49428812e357
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [DeleteIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/delete-ip-set.html)di *Referensi AWS CLI Perintah*. 

### `delete-logging-configuration`
<a name="wafv2_DeleteLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-logging-configuration`.

**AWS CLI**  
**Untuk menonaktifkan pencatatan untuk ACL web**  
Berikut ini `delete-logging-configuration` menghapus konfigurasi logging dari ACL web yang ditentukan.  

```
aws wafv2 delete-logging-configuration \
    --resource-arn arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mencatat Informasi Lalu Lintas ACL Web](https://docs.aws.amazon.com/waf/latest/developerguide/logging.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [DeleteLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/delete-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `delete-regex-pattern-set`
<a name="wafv2_DeleteRegexPatternSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-regex-pattern-set`.

**AWS CLI**  
**Untuk menghapus set pola regex**  
Berikut ini `delete-regex-pattern-set` memperbarui pengaturan untuk set pola regex yang ditentukan. Panggilan ini memerlukan ID, yang dapat Anda peroleh dari panggilan`list-regex-pattern-sets`,, dan token kunci, yang dapat Anda peroleh dari panggilan `list-regex-pattern-sets` atau panggilan`get-regex-pattern-set`.  

```
aws wafv2 delete-regex-pattern-set \
    --name regexPatterSet01 \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --lock-token 0bc01e21-03c9-4b98-9433-6229cbf1ef1c
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [DeleteRegexPatternSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/delete-regex-pattern-set.html)di *Referensi AWS CLI Perintah*. 

### `delete-rule-group`
<a name="wafv2_DeleteRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-rule-group`.

**AWS CLI**  
**Untuk menghapus grup aturan kustom**  
Berikut ini `delete-rule-group` menghapus grup aturan kustom yang ditentukan. Panggilan ini memerlukan ID, yang dapat Anda peroleh dari panggilan`list-rule-groups`,, dan token kunci, yang dapat Anda peroleh dari panggilan `list-rule-groups` atau panggilan`get-rule-group`.  

```
aws wafv2 delete-rule-group \
    --name TestRuleGroup \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --lock-token 7b3bcec2-0000-0000-0000-563bf47249f0
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Grup Aturan Anda Sendiri](https://docs.aws.amazon.com/waf/latest/developerguide/waf-user-created-rule-groups.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [DeleteRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/delete-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-web-acl`
<a name="wafv2_DeleteWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-web-acl`.

**AWS CLI**  
**Untuk menghapus ACL web**  
Berikut ini `delete-web-acl` menghapus ACL web yang ditentukan dari akun Anda. ACL web hanya dapat dihapus jika tidak terkait dengan sumber daya apa pun. Panggilan ini memerlukan ID, yang dapat Anda peroleh dari panggilan`list-web-acls`,, dan token kunci, yang dapat Anda peroleh dari panggilan `list-web-acls` atau panggilan`get-web-acl`.  

```
aws wafv2 delete-web-acl \
    --name test \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --lock-token ebab4ed2-155e-4c9a-9efb-e4c45665b1f5
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola dan Menggunakan Daftar Kontrol Akses Web (Web ACL)](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer* Guide.  
+  Untuk detail API, lihat [DeleteWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/delete-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `describe-managed-rule-group`
<a name="wafv2_DescribeManagedRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-managed-rule-group`.

**AWS CLI**  
**Untuk mengambil deskripsi untuk grup aturan terkelola**  
Berikut ini `describe-managed-rule-group` mengambil deskripsi untuk grup aturan AWS terkelola.  

```
aws wafv2 describe-managed-rule-group \
    --vendor-name AWS \
    --name AWSManagedRulesCommonRuleSet \
    --scope REGIONAL
```
Output:  

```
{
    "Capacity": 700,
    "Rules": [
        {
            "Name": "NoUserAgent_HEADER",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "UserAgent_BadBots_HEADER",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "SizeRestrictions_QUERYSTRING",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "SizeRestrictions_Cookie_HEADER",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "SizeRestrictions_BODY",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "SizeRestrictions_URIPATH",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "EC2MetaDataSSRF_BODY",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "EC2MetaDataSSRF_COOKIE",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "EC2MetaDataSSRF_URIPATH",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "EC2MetaDataSSRF_QUERYARGUMENTS",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "GenericLFI_QUERYARGUMENTS",
            "Action": {
                "Block": {}
            }
        },
        {
            }
            "Name": "GenericLFI_URIPATH",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "GenericLFI_BODY",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "RestrictedExtensions_URIPATH",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "RestrictedExtensions_QUERYARGUMENTS",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "GenericRFI_QUERYARGUMENTS",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "GenericRFI_BODY",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "GenericRFI_URIPATH",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "CrossSiteScripting_COOKIE",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "CrossSiteScripting_QUERYARGUMENTS",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "CrossSiteScripting_BODY",
            "Action": {
                "Block": {}
            }
        },
        {
            "Name": "CrossSiteScripting_URIPATH",
            "Action": {
                "Block": {}
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup Aturan Terkelola](https://docs.aws.amazon.com/waf/latest/developerguide/waf-managed-rule-groups.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [DescribeManagedRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/describe-managed-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-web-acl`
<a name="wafv2_DisassociateWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-web-acl`.

**AWS CLI**  
**Untuk memisahkan ACL web dari sumber daya regional AWS **  
`disassociate-web-acl`Contoh berikut menghapus asosiasi ACL web yang ada dari Application Load Balancer yang ditentukan.  

```
aws wafv2 disassociate-web-acl \
    --resource-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/waf-cli-alb/1ea17125f8b25a2a \
    --region us-west-2
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengaitkan atau Memisahkan ACL Web dengan AWS Sumber Daya](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-associating-aws-resource.html) di WAF *AWS , Firewall AWS Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [DisassociateWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/disassociate-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `get-ip-set`
<a name="wafv2_GetIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-ip-set`.

**AWS CLI**  
**Untuk mengambil set IP tertentu**  
Berikut ini `get-ip-set` mengambil IP set dengan nama yang ditentukan, ruang lingkup, dan ID. Anda bisa mendapatkan ID untuk set IP dari perintah `create-ip-set` dan`list-ip-sets`.  

```
aws wafv2 get-ip-set \
    --name testip \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "IPSet":{
        "Description":"",
        "Name":"testip",
        "IPAddressVersion":"IPV4",
        "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE1111",
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/ipset/testip/a1b2c3d4-5678-90ab-cdef-EXAMPLE1111",
        "Addresses":[
            "192.0.2.0/16"
        ]
    },
    "LockToken":"447e55ac-2396-4c6d-b9f9-86b67c17f8b5"
}
```
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [GetIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/get-ip-set.html)di *Referensi AWS CLI Perintah*. 

### `get-logging-configuration`
<a name="wafv2_GetLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-logging-configuration`.

**AWS CLI**  
**Untuk mengambil konfigurasi logging untuk ACL web**  
Berikut ini `get-logging-configuration` mengambil konfigurasi logging untuk ACL web tertentu.  

```
aws wafv2 get-logging-configuration \
    --resource-arn arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222 \
    --region us-west-2
```
Output:  

```
{
    "LoggingConfiguration":{
        "ResourceArn":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
        "RedactedFields":[
            {
                "Method":{

                }
            }
        ],
        "LogDestinationConfigs":[
            "arn:aws:firehose:us-west-2:123456789012:deliverystream/aws-waf-logs-custom-transformation"
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mencatat Informasi Lalu Lintas ACL Web](https://docs.aws.amazon.com/waf/latest/developerguide/logging.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [GetLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/get-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `get-rate-based-statement-managed-keys`
<a name="wafv2_GetRateBasedStatementManagedKeys_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-rate-based-statement-managed-keys`.

**AWS CLI**  
**Untuk mengambil daftar alamat IP yang diblokir oleh aturan berbasis tarif**  
Berikut ini `get-rate-based-statement-managed-keys` mengambil alamat IP yang saat ini diblokir oleh aturan berbasis tarif yang digunakan untuk aplikasi regional.  

```
aws wafv2 get-rate-based-statement-managed-keys \
    --scope REGIONAL \
    --web-acl-name testwebacl2 \
    --web-acl-id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --rule-name ratebasedtest
```
Output:  

```
{
    "ManagedKeysIPV4":{
        "IPAddressVersion":"IPV4",
        "Addresses":[
            "198.51.100.0/32"
        ]
    },
    "ManagedKeysIPV6":{
        "IPAddressVersion":"IPV6",
        "Addresses":[

        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Pernyataan Aturan Berbasis Tarif](https://docs.aws.amazon.com/waf/latest/developerguide/waf-rule-statement-type-rate-based.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [GetRateBasedStatementManagedKeys](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/get-rate-based-statement-managed-keys.html)di *Referensi AWS CLI Perintah*. 

### `get-regex-pattern-set`
<a name="wafv2_GetRegexPatternSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-regex-pattern-set`.

**AWS CLI**  
**Untuk mengambil set pola regex tertentu**  
Berikut ini `get-regex-pattern-set` mengambil pola regex yang ditetapkan dengan nama, cakupan, wilayah, dan ID yang ditentukan. Anda bisa mendapatkan ID untuk pola regex yang ditetapkan dari perintah `create-regex-pattern-set` dan. `list-regex-pattern-sets`  

```
aws wafv2 get-regex-pattern-set \
    --name regexPatterSet01 \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --region us-west-2
```
Output:  

```
{
    "RegexPatternSet":{
        "Description":"Test web-acl",
        "RegularExpressionList":[
            {
                "RegexString":"/[0-9]*/"
            },
            {
                "RegexString":"/[a-z]*/"
            }
        ],
        "Name":"regexPatterSet01",
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/regexpatternset/regexPatterSet01/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
    },
    "LockToken":"c8abf33f-b6fc-46ae-846e-42f994d57b29"
}
```
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [GetRegexPatternSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/get-regex-pattern-set.html)di *Referensi AWS CLI Perintah*. 

### `get-rule-group`
<a name="wafv2_GetRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-rule-group`.

**AWS CLI**  
**Untuk mengambil grup aturan khusus tertentu**  
Berikut ini `get-rule-group` mengambil grup aturan kustom dengan nama, cakupan, dan ID yang ditentukan. Anda bisa mendapatkan ID untuk grup aturan dari perintah `create-rule-group` dan`list-rule-groups`.  

```
aws wafv2 get-rule-group \
    --name ff \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "RuleGroup":{
        "Capacity":1,
        "Description":"",
        "Rules":[
            {
                "Priority":0,
                "Action":{
                    "Block":{

                    }
                },
                "VisibilityConfig":{
                    "SampledRequestsEnabled":true,
                    "CloudWatchMetricsEnabled":true,
                    "MetricName":"jj"
                },
                "Name":"jj",
                "Statement":{
                    "SizeConstraintStatement":{
                        "ComparisonOperator":"LE",
                        "TextTransformations":[
                            {
                                "Priority":0,
                                "Type":"NONE"
                            }
                        ],
                        "FieldToMatch":{
                            "UriPath":{

                            }
                        },
                        "Size":7
                    }
                }
            }
        ],
        "VisibilityConfig":{
            "SampledRequestsEnabled":true,
            "CloudWatchMetricsEnabled":true,
            "MetricName":"ff"
        },
        "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/rulegroup/ff/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Name":"ff"
    },
    "LockToken":"485458c9-1830-4234-af31-ec4d52ced1b3"
}
```
Untuk informasi selengkapnya, lihat [Mengelola Grup Aturan Anda Sendiri](https://docs.aws.amazon.com/waf/latest/developerguide/waf-user-created-rule-groups.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [GetRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/get-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `get-sampled-requests`
<a name="wafv2_GetSampledRequests_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sampled-requests`.

**AWS CLI**  
**Untuk mengambil sampel permintaan web untuk ACL web**  
Berikut ini `get-sampled-requests` mengambil sampel permintaan web untuk ACL web tertentu, metrik aturan, dan kerangka waktu.  

```
aws wafv2 get-sampled-requests \
    --web-acl-arn arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test-cli/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --rule-metric-name AWS-AWSManagedRulesSQLiRuleSet \
    --scope=REGIONAL \
    --time-window StartTime=2020-02-12T20:00Z,EndTime=2020-02-12T21:10Z \
    --max-items 100
```
Output:  

```
{
    "TimeWindow": {
    "EndTime": 1581541800.0,
    "StartTime": 1581537600.0
    },
    "SampledRequests": [
        {
            "Action": "BLOCK",
            "Timestamp": 1581541799.564,
            "RuleNameWithinRuleGroup": "AWS#AWSManagedRulesSQLiRuleSet#SQLi_BODY",
            "Request": {
                "Country": "US",
                "URI": "/",
                "Headers": [
                    {
                        "Name": "Host",
                        "Value": "alb-test-1EXAMPLE1.us-east-1.elb.amazonaws.com"
                    },
                    {
                        "Name": "Content-Length",
                        "Value": "7456"
                    },
                    {
                        "Name": "User-Agent",
                        "Value": "curl/7.53.1"
                    },
                    {
                        "Name": "Accept",
                        "Value": "/"
                    },
                    {
                        "Name": "Content-Type",
                        "Value": "application/x-www-form-urlencoded"
                    }
                ],
                "ClientIP": "198.51.100.08",
                "Method": "POST",
                "HTTPVersion": "HTTP/1.1"
            },
            "Weight": 1
        },
        {
            "Action": "BLOCK",
            "Timestamp": 1581541799.988,
            "RuleNameWithinRuleGroup": "AWS#AWSManagedRulesSQLiRuleSet#SQLi_BODY",
            "Request": {
                "Country": "US",
                "URI": "/",
                "Headers": [
                    {
                        "Name": "Host",
                        "Value": "alb-test-1EXAMPLE1.us-east-1.elb.amazonaws.com"
                    },
                    {
                        "Name": "Content-Length",
                        "Value": "7456"
                    },
                    {
                        "Name": "User-Agent",
                        "Value": "curl/7.53.1"
                    },
                    {
                        "Name": "Accept",
                        "Value": "/"
                    },
                    {
                        "Name": "Content-Type",
                        "Value": "application/x-www-form-urlencoded"
                    }
                ],
                "ClientIP": "198.51.100.08",
                "Method": "POST",
                "HTTPVersion": "HTTP/1.1"
            },
            "Weight": 3
        },
        {
            "Action": "BLOCK",
            "Timestamp": 1581541799.846,
            "RuleNameWithinRuleGroup": "AWS#AWSManagedRulesSQLiRuleSet#SQLi_BODY",
            "Request": {
                "Country": "US",
                "URI": "/",
                "Headers": [
                    {
                        "Name": "Host",
                        "Value": "alb-test-1EXAMPLE1.us-east-1.elb.amazonaws.com"
                    },
                    {
                        "Name": "Content-Length",
                        "Value": "7456"
                    },
                    {
                        "Name": "User-Agent",
                        "Value": "curl/7.53.1"
                    },
                    {
                        "Name": "Accept",
                        "Value": "/"
                    },
                    {
                        "Name": "Content-Type",
                        "Value": "application/x-www-form-urlencoded"
                    }
                ],
                "ClientIP": "198.51.100.08",
                "Method": "POST",
                "HTTPVersion": "HTTP/1.1"
            },
            "Weight": 1
        },
        {
            "Action": "BLOCK",
            "Timestamp": 1581541799.4,
            "RuleNameWithinRuleGroup": "AWS#AWSManagedRulesSQLiRuleSet#SQLi_BODY",
            "Request": {
                "Country": "US",
                "URI": "/",
                "Headers": [
                    {
                        "Name": "Host",
                        "Value": "alb-test-1EXAMPLE1.us-east-1.elb.amazonaws.com"
                    },
                    {
                        "Name": "Content-Length",
                        "Value": "7456"
                    },
                    {
                        "Name": "User-Agent",
                        "Value": "curl/7.53.1"
                    },
                    {
                        "Name": "Accept",
                        "Value": "/"
                    },
                    {
                        "Name": "Content-Type",
                        "Value": "application/x-www-form-urlencoded"
                    }
                ],
                "ClientIP": "198.51.100.08",
                "Method": "POST",
                "HTTPVersion": "HTTP/1.1"
            },
            "Weight": 1
        }
    ],
    "PopulationSize": 4
}
```
Untuk informasi selengkapnya, lihat [Melihat Contoh Permintaan Web](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-testing.html#web-acl-testing-view-sample) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [GetSampledRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/get-sampled-requests.html)di *Referensi AWS CLI Perintah*. 

### `get-web-acl-for-resource`
<a name="wafv2_GetWebAclForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-web-acl-for-resource`.

**AWS CLI**  
**Untuk mengambil ACL web yang terkait dengan sumber daya AWS **  
Berikut ini `get-web-acl-for-resource` mengambil JSON untuk ACL web yang terkait dengan sumber daya yang ditentukan.  

```
aws wafv2 get-web-acl-for-resource \
    --resource-arn arn:aws:elasticloadbalancing:us-west-2:123456789012:loadbalancer/app/waf-cli-alb/1ea17125f8b25a2a
```
Output:  

```
{
    "WebACL":{
        "Capacity":3,
        "Description":"",
        "Rules":[
            {
                "Priority":1,
                "Action":{
                    "Block":{

                    }
                },
                "VisibilityConfig":{
                    "SampledRequestsEnabled":true,
                    "CloudWatchMetricsEnabled":true,
                    "MetricName":"testrule01"
                },
                "Name":"testrule01",
                "Statement":{
                    "AndStatement":{
                        "Statements":[
                            {
                                "ByteMatchStatement":{
                                    "PositionalConstraint":"EXACTLY",
                                    "TextTransformations":[
                                        {
                                            "Priority":0,
                                            "Type":"NONE"
                                        }
                                    ],
                                    "SearchString":"dGVzdHN0cmluZw==",
                                    "FieldToMatch":{
                                        "UriPath":{

                                        }
                                    }
                                }
                            },
                            {
                                "SizeConstraintStatement":{
                                    "ComparisonOperator":"EQ",
                                    "TextTransformations":[
                                        {
                                            "Priority":0,
                                            "Type":"NONE"
                                        }
                                    ],
                                    "FieldToMatch":{
                                        "QueryString":{

                                       }
                                    },
                                    "Size":0
                                }
                            }
                        ]
                    }
                }
            }
        ],
        "VisibilityConfig":{
            "SampledRequestsEnabled":true,
            "CloudWatchMetricsEnabled":true,
            "MetricName":"test01"
        },
        "DefaultAction":{
            "Allow":{

            }
        },
        "Id":"9a1b2c3d4-5678-90ab-cdef-EXAMPLE11111  ",
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test01/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111  ",
        "Name":"test01"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan atau Memisahkan ACL Web dengan AWS Sumber Daya](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-associating-aws-resource.html) di WAF *AWS , Firewall AWS Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [GetWebAclForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/get-web-acl-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `get-web-acl`
<a name="wafv2_GetWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-web-acl`.

**AWS CLI**  
**Untuk mengambil ACL web**  
Berikut ini `get-web-acl` mengambil ACL web dengan nama, ruang lingkup, dan ID yang ditentukan. Anda bisa mendapatkan ID untuk ACL web dari perintah `create-web-acl` dan`list-web-acls`.  

```
aws wafv2 get-web-acl \
    --name test01 \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "WebACL":{
        "Capacity":3,
        "Description":"",
        "Rules":[
            {
                "Priority":1,
                "Action":{
                    "Block":{

                    }
                },
                "VisibilityConfig":{
                   "SampledRequestsEnabled":true,
                    "CloudWatchMetricsEnabled":true,
                    "MetricName":"testrule01"
                },
                "Name":"testrule01",
                "Statement":{
                    "AndStatement":{
                        "Statements":[
                            {
                                "ByteMatchStatement":{
                                    "PositionalConstraint":"EXACTLY",
                                    "TextTransformations":[
                                        {
                                            "Priority":0,
                                            "Type":"NONE"
                                        }
                                    ],
                                    "SearchString":"dGVzdHN0cmluZw==",
                                    "FieldToMatch":{
                                        "UriPath":{

                                        }
                                    }
                                }
                            },
                            {
                                "SizeConstraintStatement":{
                                    "ComparisonOperator":"EQ",
                                    "TextTransformations":[
                                        {
                                            "Priority":0,
                                            "Type":"NONE"
                                        }
                                    ],
                                    "FieldToMatch":{
                                        "QueryString":{

                                        }
                                    },
                                    "Size":0
                                }
                            }
                        ]
                    }
                }
            }
        ],
        "VisibilityConfig":{
            "SampledRequestsEnabled":true,
            "CloudWatchMetricsEnabled":true,
            "MetricName":"test01"
        },
        "DefaultAction":{
            "Allow":{

            }
        },
        "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test01/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "Name":"test01"
    },
    "LockToken":"e3db7e2c-d58b-4ee6-8346-6aec5511c6fb"
}
```
Untuk informasi selengkapnya, lihat [Mengelola dan Menggunakan Daftar Kontrol Akses Web (Web ACL)](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer* Guide.  
+  Untuk detail API, lihat [GetWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/get-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `list-available-managed-rule-groups`
<a name="wafv2_ListAvailableManagedRuleGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-available-managed-rule-groups`.

**AWS CLI**  
**Untuk mengambil grup aturan terkelola**  
Berikut ini `list-available-managed-rule-groups` menampilkan daftar semua grup aturan terkelola yang saat ini tersedia untuk digunakan di web Anda ACLs.  

```
aws wafv2 list-available-managed-rule-groups \
    --scope REGIONAL
```
Output:  

```
 {
    "ManagedRuleGroups": [
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesCommonRuleSet",
            "Description": "Contains rules that are generally applicable to web applications. This provides protection against exploitation of a wide range of vulnerabilities, including those described in OWASP publications and common Common Vulnerabilities and Exposures (CVE)."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesAdminProtectionRuleSet",
            "Description": "Contains rules that allow you to block external access to exposed admin pages. This may be useful if you are running third-party software or would like to reduce the risk of a malicious actor gaining administrative access to your application."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesKnownBadInputsRuleSet",
            "Description": "Contains rules that allow you to block request patterns that are known to be invalid and are associated with exploitation or discovery of vulnerabilities. This can help reduce the risk of a malicious actor discovering a vulnerable application."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesSQLiRuleSet",
            "Description": "Contains rules that allow you to block request patterns associated with exploitation of SQL databases, like SQL injection attacks. This can help prevent remote injection of unauthorized queries."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesLinuxRuleSet",
            "Description": "Contains rules that block request patterns associated with exploitation of vulnerabilities specific to Linux, including LFI attacks. This can help prevent attacks that expose file contents or execute code for which the attacker should not have had access."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesUnixRuleSet",
            "Description": "Contains rules that block request patterns associated with exploiting vulnerabilities specific to POSIX/POSIX-like OS, including LFI attacks. This can help prevent attacks that expose file contents or execute code for which access should not been allowed."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesWindowsRuleSet",
            "Description": "Contains rules that block request patterns associated with exploiting vulnerabilities specific to Windows, (e.g., PowerShell commands). This can help prevent exploits that allow attacker to run unauthorized commands or execute malicious code."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesPHPRuleSet",
            "Description": "Contains rules that block request patterns associated with exploiting vulnerabilities specific to the use of the PHP, including injection of unsafe PHP functions. This can help prevent exploits that allow an attacker to remotely execute code or commands."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesWordPressRuleSet",
            "Description": "The WordPress Applications group contains rules that block request patterns associated with the exploitation of vulnerabilities specific to WordPress sites."
        },
        {
            "VendorName": "AWS",
            "Name": "AWSManagedRulesAmazonIpReputationList",
            "Description": "This group contains rules that are based on Amazon threat intelligence. This is useful if you would like to block sources associated with bots or other threats."
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Grup Aturan Terkelola](https://docs.aws.amazon.com/waf/latest/developerguide/waf-managed-rule-groups.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [ListAvailableManagedRuleGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/list-available-managed-rule-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-ip-sets`
<a name="wafv2_ListIpSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-ip-sets`.

**AWS CLI**  
**Untuk mengambil daftar set IP**  
Berikut ini `list-ip-sets` mengambil semua set IP untuk akun yang memiliki cakupan regional.  

```
aws wafv2 list-ip-sets \
    --scope REGIONAL
```
Output:  

```
{
    "IPSets":[
        {
            "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/ipset/testip/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Description":"",
            "Name":"testip",
            "LockToken":"0674c84b-0304-47fe-8728-c6bff46af8fc",
            "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111  "
        }
    ],
    "NextMarker":"testip"
}
```
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [ListIpSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/list-ip-sets.html)di *Referensi AWS CLI Perintah*. 

### `list-logging-configurations`
<a name="wafv2_ListLoggingConfigurations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-logging-configurations`.

**AWS CLI**  
**Untuk mengambil daftar semua konfigurasi logging untuk suatu wilayah**  
Berikut ini `list-logging-configurations` mengambil semua konfigurasi logging untuk web ACLs yang dicakup untuk penggunaan regional di wilayah tersebut. `us-west-2`  

```
aws wafv2 list-logging-configurations \
    --scope REGIONAL \
    --region us-west-2
```
Output:  

```
{
    "LoggingConfigurations":[
        {
            "ResourceArn":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test-2/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "RedactedFields":[
                {
                    "QueryString":{

                    }
                }
            ],
            "LogDestinationConfigs":[
                "arn:aws:firehose:us-west-2:123456789012:deliverystream/aws-waf-logs-test"
            ]
        },
        {
            "ResourceArn":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "RedactedFields":[
                {
                    "Method":{

                    }
                }
            ],
            "LogDestinationConfigs":[
                "arn:aws:firehose:us-west-2:123456789012:deliverystream/aws-waf-logs-custom-transformation"
            ]
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mencatat Informasi Lalu Lintas ACL Web](https://docs.aws.amazon.com/waf/latest/developerguide/logging.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [ListLoggingConfigurations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/list-logging-configurations.html)di *Referensi AWS CLI Perintah*. 

### `list-regex-pattern-sets`
<a name="wafv2_ListRegexPatternSets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-regex-pattern-sets`.

**AWS CLI**  
**Untuk mengambil daftar set pola regex**  
Berikut ini `list-regex-pattern-sets` mengambil semua set pola regex untuk akun yang didefinisikan di wilayah. `us-west-2`  

```
aws wafv2 list-regex-pattern-sets \
--scope REGIONAL \
--region us-west-2
```
Output:  

```
{
    "NextMarker":"regexPatterSet01",
    "RegexPatternSets":[
        {
            "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/regexpatternset/regexPatterSet01/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Description":"Test web-acl",
            "Name":"regexPatterSet01",
            "LockToken":"f17743f7-0000-0000-0000-19a8b93bfb01",
            "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [ListRegexPatternSets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/list-regex-pattern-sets.html)di *Referensi AWS CLI Perintah*. 

### `list-resources-for-web-acl`
<a name="wafv2_ListResourcesForWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resources-for-web-acl`.

**AWS CLI**  
**Untuk mengambil sumber daya yang terkait dengan ACL web**  
Berikut ini `list-resources-for-web-acl` mengambil sumber daya API API Gateway REST API yang saat ini dikaitkan dengan ACL web tertentu di wilayah tersebut. `us-west-2`  

```
aws wafv2 list-resources-for-web-acl \
    --web-acl-arn arn:aws:wafv2:us-west-2:123456789012:regional/webacl/TestWebAcl/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --resource-type API_GATEWAY \
    --region us-west-2
```
Output:  

```
{
    "ResourceArns": [
        "arn:aws:apigateway:us-west-2::/restapis/EXAMPLE111/stages/testing"
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengaitkan atau Memisahkan ACL Web dengan AWS Sumber Daya](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl-associating-aws-resource.html) di WAF *AWS , Firewall AWS Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [ListResourcesForWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/list-resources-for-web-acl.html)di *Referensi AWS CLI Perintah*. 

### `list-rule-groups`
<a name="wafv2_ListRuleGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-rule-groups`.

**AWS CLI**  
**Untuk mengambil daftar grup aturan kustom**  
Berikut ini akan `list-rule-groups` mengambil semua grup aturan kustom yang ditentukan untuk akun untuk lingkup dan lokasi wilayah yang ditentukan.  

```
aws wafv2 list-rule-groups \
    --scope REGIONAL \
    --region us-west-2
```
Output:  

```
{
    "RuleGroups":[
        {
            "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/rulegroup/TestRuleGroup/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Description":"",
            "Name":"TestRuleGroup",
            "LockToken":"1eb5ec48-0000-0000-0000-ee9b906c541e",
            "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
        },
        {
            "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/rulegroup/test/a1b2c3d4-5678-90ab-cdef-EXAMPLE22222",
            "Description":"",
            "Name":"test",
            "LockToken":"b0f4583e-998b-4880-9069-3fbe45738b43",
            "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE22222"
        }
    ],
    "NextMarker":"test"
}
```
Untuk informasi selengkapnya, lihat [Mengelola Grup Aturan Anda Sendiri](https://docs.aws.amazon.com/waf/latest/developerguide/waf-user-created-rule-groups.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [ListRuleGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/list-rule-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="wafv2_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk mengambil semua tag untuk sumber daya AWS WAF**  
Berikut ini `list-tags-for-resource` mengambil daftar semua kunci tag, pasangan nilai untuk ACL web tertentu.  

```
aws wafv2 list-tags-for-resource \
    --resource-arn arn:aws:wafv2:us-west-2:123456789012:regional/webacl/testwebacl2/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111
```
Output:  

```
{
    "NextMarker":"",
    "TagInfoForResource":{
        "ResourceARN":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/testwebacl2/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "TagList":[

        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Memulai AWS WAF di AWS WAF](https://docs.aws.amazon.com/waf/latest/developerguide/getting-started.html)*, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-web-acls`
<a name="wafv2_ListWebAcls_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-web-acls`.

**AWS CLI**  
**Untuk mengambil web ACLs untuk ruang lingkup**  
Berikut ini `list-web-acls` mengambil semua web ACLs yang didefinisikan untuk akun untuk lingkup yang ditentukan.  

```
aws wafv2 list-web-acls \
    --scope REGIONAL
```
Output:  

```
{
    "NextMarker":"Testt",
    "WebACLs":[
        {
            "ARN":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/Testt/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
            "Description":"sssss",
            "Name":"Testt",
            "LockToken":"7f36cb30-74ef-4cff-8cd4-a77e1aba1746",
            "Id":"a1b2c3d4-5678-90ab-cdef-EXAMPLE11111"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola dan Menggunakan Daftar Kontrol Akses Web (Web ACL)](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer* Guide.  
+  Untuk detail API, lihat [ListWebAcls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/list-web-acls.html)di *Referensi AWS CLI Perintah*. 

### `put-logging-configuration`
<a name="wafv2_PutLoggingConfiguration_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-logging-configuration`.

**AWS CLI**  
**Untuk menambahkan konfigurasi logging ke ACL web**  
Berikut ini `put-logging-configuration` menambahkan konfigurasi `aws-waf-logs-custom-transformation` logging Amazon Kinesis Data Firehose ke ACL web yang ditentukan, tanpa bidang yang disunting dari log.  

```
aws wafv2 put-logging-configuration \
    --logging-configuration ResourceArn=arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test-cli/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111,LogDestinationConfigs=arn:aws:firehose:us-west-2:123456789012:deliverystream/aws-waf-logs-custom-transformation \
            --region us-west-2
```
Output:  

```
{
    "LoggingConfiguration":{
        "ResourceArn":"arn:aws:wafv2:us-west-2:123456789012:regional/webacl/test-cli/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111",
        "LogDestinationConfigs":[
            "arn:aws:firehose:us-west-2:123456789012:deliverystream/aws-waf-logs-custom-transformation"
        ]
    }
}
```
Untuk informasi selengkapnya, lihat [Mencatat Informasi Lalu Lintas ACL Web](https://docs.aws.amazon.com/waf/latest/developerguide/logging.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [PutLoggingConfiguration](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/put-logging-configuration.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="wafv2_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menambahkan tag ke sumber daya AWS WAF**  
`tag-resource`Contoh berikut menambahkan tag dengan kunci `Name` dan nilai diatur `AWSWAF` ke ACL web tertentu.  

```
aws wafv2 tag-resource \
    --resource-arn arn:aws:wafv2:us-west-2:123456789012:regional/webacl/apiGatewayWebAcl/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --tags Key=Name,Value=AWSWAF
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai AWS WAF di AWS WAF](https://docs.aws.amazon.com/waf/latest/developerguide/getting-started.html)*, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="wafv2_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag dari sumber daya AWS WAF**  
`untag-resource`Contoh berikut menghapus tag dengan kunci `KeyName` dari ACL web yang ditentukan.  

```
aws wafv2 untag-resource \
    --resource-arn arn:aws:wafv2:us-west-2:123456789012:regional/webacl/apiGatewayWebAcl/a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --tag-keys "KeyName"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulai AWS WAF di AWS WAF](https://docs.aws.amazon.com/waf/latest/developerguide/getting-started.html)*, AWS Firewall Manager, dan AWS Shield Advanced Developer Guide*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-ip-set`
<a name="wafv2_UpdateIpSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-ip-set`.

**AWS CLI**  
**Untuk memodifikasi pengaturan untuk set IP yang ada**  
Berikut ini `update-ip-set` memperbarui pengaturan untuk set IP yang ditentukan. Panggilan ini memerlukan ID, yang dapat Anda peroleh dari panggilan`list-ip-sets`,, dan token kunci yang dapat Anda peroleh dari panggilan, `list-ip-sets` dan`get-ip-set`. Panggilan ini juga mengembalikan token kunci yang dapat Anda gunakan untuk pembaruan berikutnya.  

```
aws wafv2 update-ip-set \
    --name testip \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --addresses 198.51.100.0/16 \
    --lock-token 447e55ac-2396-4c6d-b9f9-86b67c17f8b5
```
Output:  

```
{
    "NextLockToken": "0674c84b-0304-47fe-8728-c6bff46af8fc"
}
```
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [UpdateIpSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/update-ip-set.html)di *Referensi AWS CLI Perintah*. 

### `update-regex-pattern-set`
<a name="wafv2_UpdateRegexPatternSet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-regex-pattern-set`.

**AWS CLI**  
**Untuk mengubah pengaturan untuk set pola regex yang ada**  
Berikut ini `update-regex-pattern-set` memperbarui pengaturan untuk set pola regex yang ditentukan. Panggilan ini memerlukan ID, yang dapat Anda peroleh dari panggilan`list-regex-pattern-sets`,, dan token kunci yang dapat Anda peroleh dari panggilan, `list-regex-pattern-sets` dan`get-regex-pattern-set`. Panggilan ini juga mengembalikan token kunci yang dapat Anda gunakan untuk pembaruan berikutnya.  

```
aws wafv2 update-regex-pattern-set \
    --name ExampleRegex \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --regular-expression-list RegexString="^.+$"  \
    --lock-token ed207e9c-82e9-4a77-aadd-81e6173ab7eb
```
Output:  

```
{
    "NextLockToken": "12ebc73e-fa68-417d-a9b8-2bdd761a4fa5"
}
```
Untuk informasi selengkapnya, lihat [Set IP dan Set Pola Regex](https://docs.aws.amazon.com/waf/latest/developerguide/waf-referenced-set-managing.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced* Developer Guide.  
+  Untuk detail API, lihat [UpdateRegexPatternSet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/update-regex-pattern-set.html)di *Referensi AWS CLI Perintah*. 

### `update-rule-group`
<a name="wafv2_UpdateRuleGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-rule-group`.

**AWS CLI**  
**Untuk memperbarui grup aturan kustom**  
Berikut ini `update-rule-group` mengubah konfigurasi visibilitas untuk grup aturan kustom yang ada. Panggilan ini memerlukan ID, yang dapat Anda peroleh dari panggilan`list-rule-groups`,, dan token kunci yang dapat Anda peroleh dari panggilan, `list-rule-groups` dan`get-rule-group`. Panggilan ini juga mengembalikan token kunci yang dapat Anda gunakan untuk pembaruan berikutnya.  

```
aws wafv2 update-rule-group \
    --name TestRuleGroup \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --lock-token 7b3bcec2-0000-0000-0000-563bf47249f0 \
    --visibility-config SampledRequestsEnabled=false,CloudWatchMetricsEnabled=false,MetricName=TestMetricsForRuleGroup \
    --region us-west-2
```
Output:  

```
{
    "NextLockToken": "1eb5ec48-0000-0000-0000-ee9b906c541e"
}
```
Untuk informasi selengkapnya, lihat [Mengelola Grup Aturan Anda Sendiri](https://docs.aws.amazon.com/waf/latest/developerguide/waf-user-created-rule-groups.html) di *AWS WAF, AWS Firewall Manager, dan Panduan Pengembang Lanjutan AWS Shield*.  
+  Untuk detail API, lihat [UpdateRuleGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/update-rule-group.html)di *Referensi AWS CLI Perintah*. 

### `update-web-acl`
<a name="wafv2_UpdateWebAcl_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-web-acl`.

**AWS CLI**  
**Untuk memperbarui ACL web**  
Berikut ini `update-web-acl` mengubah pengaturan untuk ACL web yang ada. Panggilan ini memerlukan ID, yang dapat Anda peroleh dari panggilan,`list-web-acls`, dan token kunci dan pengaturan lainnya, yang dapat Anda peroleh dari panggilan tersebut`get-web-acl`. Panggilan ini juga mengembalikan token kunci yang dapat Anda gunakan untuk pembaruan berikutnya.  

```
aws wafv2 update-web-acl \
    --name TestWebAcl \
    --scope REGIONAL \
    --id a1b2c3d4-5678-90ab-cdef-EXAMPLE11111 \
    --lock-token 2294b3a1-0000-0000-0000-a3ae04329de9 \
    --default-action Block={} \
    --visibility-config SampledRequestsEnabled=false,CloudWatchMetricsEnabled=false,MetricName=NewMetricTestWebAcl \
    --rules file://waf-rule.json \
    --region us-west-2
```
Output:  

```
{
    "NextLockToken": "714a0cfb-0000-0000-0000-2959c8b9a684"
}
```
Untuk informasi selengkapnya, lihat [Mengelola dan Menggunakan Daftar Kontrol Akses Web (Web ACL)](https://docs.aws.amazon.com/waf/latest/developerguide/web-acl.html) di *AWS WAF, AWS Firewall Manager, dan AWS Shield Advanced Developer* Guide.  
+  Untuk detail API, lihat [UpdateWebAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/wafv2/update-web-acl.html)di *Referensi AWS CLI Perintah*. 

# WorkDocs contoh menggunakan AWS CLI
<a name="cli_2_workdocs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with WorkDocs.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `abort-document-version-upload`
<a name="workdocs_AbortDocumentVersionUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`abort-document-version-upload`.

**AWS CLI**  
**Untuk menghentikan unggahan versi dokumen**  
Contoh ini menghentikan unggahan versi dokumen yang dimulai sebelumnya.  
Perintah:  

```
aws workdocs abort-document-version-upload --document-id feaba64d4efdf271c2521b60a2a44a8f057e84beaabbe22f01267313209835f2 --version-id 1536773972914-ddb67663e782e7ce8455ebc962217cf9f9e47b5a9a702e5c84dcccd417da9313
```
Output:  

```
None
```
+  Untuk detail API, lihat [AbortDocumentVersionUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/abort-document-version-upload.html)di *Referensi AWS CLI Perintah*. 

### `activate-user`
<a name="workdocs_ActivateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`activate-user`.

**AWS CLI**  
**Untuk mengaktifkan pengguna**  
Contoh ini mengaktifkan pengguna yang tidak aktif.  
Perintah:  

```
aws workdocs activate-user --user-id "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c"
```
Output:  

```
{
  "User": {
      "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
      "Username": "exampleUser",
      "EmailAddress": "exampleUser@site.awsapps.com",
      "GivenName": "Example",
      "Surname": "User",
      "OrganizationId": "d-926726012c",
      "RootFolderId": "75f67c183aa1217409ac87576a45c03a5df5e6d8c51c35c01669970538e86cd0",
      "RecycleBinFolderId": "642b7dd3e60b14204534f3df7b1959e01b5d170f8c2707f410e40a8149120a57",
      "Status": "ACTIVE",
      "Type": "MINIMALUSER",
      "CreatedTimestamp": 1521226107.747,
      "ModifiedTimestamp": 1525297406.462,
      "Storage": {
          "StorageUtilizedInBytes": 0,
          "StorageRule": {
              "StorageAllocatedInBytes": 0,
              "StorageType": "QUOTA"
          }
      }
  }
}
```
+  Untuk detail API, lihat [ActivateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/activate-user.html)di *Referensi AWS CLI Perintah*. 

### `add-resource-permissions`
<a name="workdocs_AddResourcePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`add-resource-permissions`.

**AWS CLI**  
**Untuk menambahkan izin untuk sumber daya**  
Contoh ini menambahkan izin ke sumber daya untuk prinsipal tertentu.  
Perintah:  

```
aws workdocs add-resource-permissions --resource-id d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65 --principals Id=anonymous,Type=ANONYMOUS,Role=VIEWER
```
Output:  

```
{
  "ShareResults": [
      {
          "PrincipalId": "anonymous",
          "Role": "VIEWER",
          "Status": "SUCCESS",
          "ShareId": "d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65",
          "StatusMessage": ""
      }
  ]
}
```
+  Untuk detail API, lihat [AddResourcePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/add-resource-permissions.html)di *Referensi AWS CLI Perintah*. 

### `create-comment`
<a name="workdocs_CreateComment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-comment`.

**AWS CLI**  
**Untuk menambahkan komentar baru**  
Contoh ini menambahkan komentar baru ke versi dokumen yang ditentukan.  
Perintah:  

```
aws workdocs create-comment --document-id 15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3 --version-id 1521672507741-9f7df0ea5dd0b121c4f3564a0c7c0b4da95cd12c635d3c442af337a88e297920 --text "This is a comment."
```
Output:  

```
{
  "Comment": {
      "CommentId": "1534799058197-c7f5c84de9115875bbca93e0367bbebac609541d461636b760849b88b1609dd5",
      "ThreadId": "1534799058197-c7f5c84de9115875bbca93e0367bbebac609541d461636b760849b88b1609dd5",
      "Text": "This is a comment.",
      "Contributor": {
          "Id": "arn:aws:iam::123456789123:user/exampleUser",
          "Username": "exampleUser",
          "GivenName": "Example",
          "Surname": "User",
          "Status": "ACTIVE"
      },
      "CreatedTimestamp": 1534799058.197,
      "Status": "PUBLISHED",
      "Visibility": "PUBLIC"
  }
}
```
+  Untuk detail API, lihat [CreateComment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/create-comment.html)di *Referensi AWS CLI Perintah*. 

### `create-custom-metadata`
<a name="workdocs_CreateCustomMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-custom-metadata`.

**AWS CLI**  
**Untuk membuat metadata kustom**  
Contoh ini membuat metadata kustom untuk dokumen yang ditentukan.  
Perintah:  

```
aws workdocs create-custom-metadata --resource-id d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65 --custom-metadata KeyName1=example,KeyName2=example2
```
Output:  

```
None
```
+  Untuk detail API, lihat [CreateCustomMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/create-custom-metadata.html)di *Referensi AWS CLI Perintah*. 

### `create-folder`
<a name="workdocs_CreateFolder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-folder`.

**AWS CLI**  
**Untuk membuat folder**  
Contoh ini membuat folder.  
Perintah:  

```
aws workdocs create-folder --name documents --parent-folder-id 1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678
```
Output:  

```
{
  "Metadata": {
      "Id": "50893c0af679524d1a0e0651130ed6d073e1a05f95bd12c42dcde5d35634ed08",
      "Name": "documents",
      "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
      "ParentFolderId": "1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678",
      "CreatedTimestamp": 1534450467.622,
      "ModifiedTimestamp": 1534450467.622,
      "ResourceState": "ACTIVE",
      "Signature": "",
      "Size": 0,
      "LatestVersionSize": 0
  }
}
```
+  Untuk detail API, lihat [CreateFolder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/create-folder.html)di *Referensi AWS CLI Perintah*. 

### `create-labels`
<a name="workdocs_CreateLabels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-labels`.

**AWS CLI**  
**Untuk membuat label**  
Contoh ini membuat serangkaian label untuk dokumen.  
Perintah:  

```
aws workdocs create-labels --resource-id d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65 --labels "documents" "examples" "my_documents"
```
Output:  

```
None
```
+  Untuk detail API, lihat [CreateLabels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/create-labels.html)di *Referensi AWS CLI Perintah*. 

### `create-notification-subscription`
<a name="workdocs_CreateNotificationSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-notification-subscription`.

**AWS CLI**  
**Untuk membuat langganan notifikasi**  
`create-notification-subscription`Contoh berikut mengonfigurasi langganan notifikasi untuk WorkDocs organisasi Amazon yang ditentukan.  

```
aws workdocs create-notification-subscription \
    --organization-id d-123456789c \
    --protocol HTTPS \
    --subscription-type ALL \
    --notification-endpoint "https://example.com/example"
```
Output:  

```
{
    "Subscription": {
        "SubscriptionId": "123ab4c5-678d-901e-f23g-45h6789j0123",
        "EndPoint": "https://example.com/example",
        "Protocol": "HTTPS"
    }
}
```
Untuk informasi selengkapnya, lihat [Berlangganan Pemberitahuan](https://docs.aws.amazon.com/workdocs/latest/developerguide/subscribe-notifications.html) di *Panduan WorkDocs Pengembang Amazon*.  
+  Untuk detail API, lihat [CreateNotificationSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/create-notification-subscription.html)di *Referensi AWS CLI Perintah*. 

### `create-user`
<a name="workdocs_CreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user`.

**AWS CLI**  
**Untuk membuat pengguna baru**  
Contoh ini membuat pengguna baru di direktori Simple AD atau Microsoft AD.  
Perintah:  

```
aws workdocs create-user --organization-id d-926726012c --username exampleUser2 --email-address exampleUser2@site.awsapps.com --given-name example2Name --surname example2Surname --password examplePa$$w0rd
```
Output:  

```
{
  "User": {
      "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
      "Username": "exampleUser2",
      "EmailAddress": "exampleUser2@site.awsapps.com",
      "GivenName": "example2Name",
      "Surname": "example2Surname",
      "OrganizationId": "d-926726012c",
      "RootFolderId": "35b886cb17198cbd547655e58b025dff0cf34aaed638be52009567e23dc67390",
      "RecycleBinFolderId": "9858c3e9ed4c2460dde9aadb4c69fde998070dd46e5e985bd08ec6169ea249ff",
      "Status": "ACTIVE",
      "Type": "MINIMALUSER",
      "CreatedTimestamp": 1535478836.584,
      "ModifiedTimestamp": 1535478836.584,
      "Storage": {
          "StorageUtilizedInBytes": 0,
          "StorageRule": {
              "StorageAllocatedInBytes": 0,
              "StorageType": "QUOTA"
          }
      }
  }
}
```
+  Untuk detail API, lihat [CreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/create-user.html)di *Referensi AWS CLI Perintah*. 

### `deactivate-user`
<a name="workdocs_DeactivateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deactivate-user`.

**AWS CLI**  
**Untuk menonaktifkan pengguna**  
Contoh ini menonaktifkan pengguna aktif.  
Perintah:  

```
aws workdocs deactivate-user --user-id "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c"
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeactivateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/deactivate-user.html)di *Referensi AWS CLI Perintah*. 

### `delete-comment`
<a name="workdocs_DeleteComment_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-comment`.

**AWS CLI**  
**Untuk menghapus komentar tertentu dari versi dokumen**  
Contoh ini menghapus komentar yang ditentukan dari versi dokumen yang ditentukan.  
Perintah:  

```
aws workdocs delete-comment --document-id 15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3 --version-id 1521672507741-9f7df0ea5dd0b121c4f3564a0c7c0b4da95cd12c635d3c442af337a88e297920 --comment-id 1534799058197-c7f5c84de9115875bbca93e0367bbebac609541d461636b760849b88b1609dd5
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeleteComment](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/delete-comment.html)di *Referensi AWS CLI Perintah*. 

### `delete-custom-metadata`
<a name="workdocs_DeleteCustomMetadata_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-custom-metadata`.

**AWS CLI**  
**Untuk menghapus metadata kustom dari sumber daya**  
Contoh ini menghapus semua metadata kustom dari sumber daya yang ditentukan.  
Perintah:  

```
aws workdocs delete-custom-metadata --resource-id d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65 --delete-all
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeleteCustomMetadata](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/delete-custom-metadata.html)di *Referensi AWS CLI Perintah*. 

### `delete-document`
<a name="workdocs_DeleteDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-document`.

**AWS CLI**  
**Untuk menghapus dokumen**  
Contoh ini menghapus dokumen yang ditentukan.  
Perintah:  

```
aws workdocs delete-document --document-id b83ed5e5b167b65ef69de9d597627ff1a0d4f07a45e67f1fab7d26b54427de0a
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeleteDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/delete-document.html)di *Referensi AWS CLI Perintah*. 

### `delete-folder-contents`
<a name="workdocs_DeleteFolderContents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-folder-contents`.

**AWS CLI**  
**Untuk menghapus isi folder**  
Contoh ini menghapus isi folder yang ditentukan.  
Perintah:  

```
aws workdocs delete-folder-contents --folder-id 26fa8aa4ba2071447c194f7b150b07149dbdb9e1c8a301872dcd93a4735ce65d
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeleteFolderContents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/delete-folder-contents.html)di *Referensi AWS CLI Perintah*. 

### `delete-folder`
<a name="workdocs_DeleteFolder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-folder`.

**AWS CLI**  
**Untuk menghapus folder**  
Contoh ini menghapus folder yang ditentukan.  
Perintah:  

```
aws workdocs delete-folder --folder-id 26fa8aa4ba2071447c194f7b150b07149dbdb9e1c8a301872dcd93a4735ce65d
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeleteFolder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/delete-folder.html)di *Referensi AWS CLI Perintah*. 

### `delete-labels`
<a name="workdocs_DeleteLabels_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-labels`.

**AWS CLI**  
**Untuk menghapus label**  
Contoh ini menghapus label yang ditentukan dari dokumen.  
Perintah:  

```
aws workdocs delete-labels --resource-id d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65 --labels "documents" "examples"
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeleteLabels](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/delete-labels.html)di *Referensi AWS CLI Perintah*. 

### `delete-notification-subscription`
<a name="workdocs_DeleteNotificationSubscription_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-notification-subscription`.

**AWS CLI**  
**Untuk menghapus langganan notifikasi**  
`delete-notification-subscription`Contoh berikut menghapus langganan notifikasi yang ditentukan.  

```
aws workdocs delete-notification-subscription \
    --subscription-id 123ab4c5-678d-901e-f23g-45h6789j0123 \
    --organization-id d-123456789c
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Berlangganan Pemberitahuan](https://docs.aws.amazon.com/workdocs/latest/developerguide/subscribe-notifications.html) di *Panduan WorkDocs Pengembang Amazon*.  
+  Untuk detail API, lihat [DeleteNotificationSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/delete-notification-subscription.html)di *Referensi AWS CLI Perintah*. 

### `delete-user`
<a name="workdocs_DeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna**  
Contoh ini menghapus pengguna.  
Perintah:  

```
aws workdocs delete-user --user-id "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c"
```
Output:  

```
None
```
+  Untuk detail API, lihat [DeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/delete-user.html)di *Referensi AWS CLI Perintah*. 

### `describe-activities`
<a name="workdocs_DescribeActivities_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-activities`.

**AWS CLI**  
**Untuk mendapatkan daftar aktivitas pengguna**  
Contoh ini menampilkan daftar aktivitas pengguna terbaru untuk organisasi tertentu, dengan batas yang ditetapkan untuk dua aktivitas terbaru.  
Perintah:  

```
aws workdocs describe-activities --organization-id d-926726012c --limit 2
```
Output:  

```
{
  "UserActivities": [
      {
          "Type": "DOCUMENT_VERSION_DOWNLOADED",
          "TimeStamp": 1534800122.17,
          "Initiator": {
              "Id": "arn:aws:iam::123456789123:user/exampleUser"
          },
          "ResourceMetadata": {
              "Type": "document",
              "Name": "updatedDoc",
              "Id": "15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3",
              "Owner": {
                  "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
                  "GivenName": "exampleName",
                  "Surname": "exampleSurname"
              }
          }
      },
      {
          "Type": "DOCUMENT_VERSION_VIEWED",
          "TimeStamp": 1534799079.207,
          "Initiator": {
              "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
              "GivenName": "exampleName",
              "Surname": "exampleSurname"
          },
          "ResourceMetadata": {
              "Type": "document",
              "Name": "updatedDoc",
              "Id": "15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3",
              "Owner": {
                  "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
                  "GivenName": "exampleName",
                  "Surname": "exampleSurname"
              }
          }
      }
  ],
  "Marker": "DnF1ZXJ5VGhlbkZldGNoAgAAAAAAAAS7FmlTaU1OdlFTU1h1UU00VVFIbDlRWHcAAAAAAAAJTRY3bWh5eUgzaVF1ZXN2RUE5Wm8tTTdR"
}
```
+  Untuk detail API, lihat [DescribeActivities](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/describe-activities.html)di *Referensi AWS CLI Perintah*. 

### `describe-comments`
<a name="workdocs_DescribeComments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-comments`.

**AWS CLI**  
**Untuk daftar semua komentar untuk versi dokumen tertentu**  
Contoh ini mencantumkan semua komentar untuk versi dokumen yang ditentukan.  
Perintah:  

```
aws workdocs describe-comments --document-id 15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3 --version-id 1521672507741-9f7df0ea5dd0b121c4f3564a0c7c0b4da95cd12c635d3c442af337a88e297920
```
Output:  

```
{
  "Comments": [
      {
          "CommentId": "1534799058197-c7f5c84de9115875bbca93e0367bbebac609541d461636b760849b88b1609dd5",
          "ThreadId": "1534799058197-c7f5c84de9115875bbca93e0367bbebac609541d461636b760849b88b1609dd5",
          "Text": "This is a comment.",
          "Contributor": {
              "Username": "arn:aws:iam::123456789123:user/exampleUser",
              "Type": "USER"
          },
          "CreatedTimestamp": 1534799058.197,
          "Status": "PUBLISHED",
          "Visibility": "PUBLIC"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeComments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/describe-comments.html)di *Referensi AWS CLI Perintah*. 

### `describe-document-versions`
<a name="workdocs_DescribeDocumentVersions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-document-versions`.

**AWS CLI**  
**Untuk mengambil versi dokumen**  
Contoh ini mengambil versi dokumen untuk dokumen yang ditentukan, termasuk versi yang diinisialisasi dan URL untuk dokumen sumber.  
Perintah:  

```
aws workdocs describe-document-versions --document-id d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65 --fields SOURCE
```
Output:  

```
{
  "DocumentVersions": [
      {
          "Id": "1534452029587-15e129dfc187505c407588df255be83de2920d733859f1d2762411d22a83e3ef",
          "Name": "exampleDoc.docx",
          "ContentType": "application/vnd.openxmlformats-officedocument.wordprocessingml.document",
          "Size": 13922,
          "Signature": "1a23456b78901c23d4ef56gh7EXAMPLE",
          "Status": "ACTIVE",
          "CreatedTimestamp": 1534452029.587,
          "ModifiedTimestamp": 1534452029.849,
          "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
          "Source": {
              "ORIGINAL": "https://gb-us-west-2-prod-doc-source.s3.us-west-2.amazonaws.com/d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65/1534452029587-15e129dfc187505c407588df255be83de2920d733859f1d2762411d22a83e3ef?response-content-disposition=attachment%3B%20filename%2A%3DUTF-8%27%27exampleDoc29.docx&X-Amz-Algorithm=AWS1-ABCD-EFG234&X-Amz-Date=20180816T204149Z&X-Amz-SignedHeaders=host&X-Amz-Expires=900&X-Amz-Credential=AKIAIOSFODNN7EXAMPLE%2F20180816%2Fus-west-2%2Fs3%2Faws1_request&X-Amz-Signature=01Ab2c34d567e8f90123g456hi78j901k2345678l901234mno56pqr78EXAMPLE"
          }
      },
      {
          "Id": "1529005196082-bb75fa19abc287699cb07147f75816dce43a53a10f28dc001bf61ef2fab01c59",
          "Name": "exampleDoc.pdf",
          "ContentType": "application/pdf",
          "Size": 425916,
          "Signature": "1a23456b78901c23d4ef56gh7EXAMPLE",
          "Status": "ACTIVE",
          "CreatedTimestamp": 1529005196.082,
          "ModifiedTimestamp": 1529005196.796,
          "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
          "Source": {
              "ORIGINAL": "https://gb-us-west-2-prod-doc-source.s3.us-west-2.amazonaws.com/d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65/1529005196082-bb75fa19abc287699cb07147f75816dce43a53a10f28dc001bf61ef2fab01c59?response-content-disposition=attachment%3B%20filename%2A%3DUTF-8%27%27exampleDoc29.pdf&X-Amz-Algorithm=AWS1-ABCD-EFG234&X-Amz-Date=20180816T204149Z&X-Amz-SignedHeaders=host&X-Amz-Expires=900&X-Amz-Credential=AKIAIOSFODNN7EXAMPLE%2F20180816%2Fus-west-2%2Fs3%2Faws1_request&X-Amz-Signature=01Ab2c34d567e8f90123g456hi78j901k2345678l901234mno56pqr78EXAMPLE"
          }
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeDocumentVersions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/describe-document-versions.html)di *Referensi AWS CLI Perintah*. 

### `describe-folder-contents`
<a name="workdocs_DescribeFolderContents_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-folder-contents`.

**AWS CLI**  
**Untuk mendeskripsikan isi folder**  
Contoh ini menjelaskan semua konten aktif dari folder yang ditentukan, termasuk dokumen dan subfoldernya, diurutkan berdasarkan tanggal dalam urutan menaik.  
Perintah:  

```
aws workdocs describe-folder-contents --folder-id 1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678 --sort DATE --order ASCENDING --type ALL
```
Output:  

```
{
  "Folders": [
      {
          "Id": "50893c0af679524d1a0e0651130ed6d073e1a05f95bd12c42dcde5d35634ed08",
          "Name": "testing",
          "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
          "ParentFolderId": "1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678",
          "CreatedTimestamp": 1534450467.622,
          "ModifiedTimestamp": 1534451113.504,
          "ResourceState": "ACTIVE",
          "Signature": "1a23456b78901c23d4ef56gh7EXAMPLE",
          "Size": 23019,
          "LatestVersionSize": 11537
      }
  ],
  "Documents": [
      {
          "Id": "d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65",
          "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
          "ParentFolderId": "1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678",
          "CreatedTimestamp": 1529005196.082,
          "ModifiedTimestamp": 1534452483.01,
          "LatestVersionMetadata": {
              "Id": "1534452029587-15e129dfc187505c407588df255be83de2920d733859f1d2762411d22a83e3ef",
              "Name": "exampleDoc.docx",
              "ContentType": "application/vnd.openxmlformats-officedocument.wordprocessingml.document",
              "Size": 13922,
              "Signature": "1a23456b78901c23d4ef56gh7EXAMPLE",
              "Status": "ACTIVE",
              "CreatedTimestamp": 1534452029.587,
              "ModifiedTimestamp": 1534452029.587,
              "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c"
          },
          "ResourceState": "ACTIVE"
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeFolderContents](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/describe-folder-contents.html)di *Referensi AWS CLI Perintah*. 

### `describe-groups`
<a name="workdocs_DescribeGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-groups`.

**AWS CLI**  
**Untuk mengambil daftar grup**  
`describe-groups`Contoh berikut mencantumkan grup yang terkait dengan WorkDocs organisasi Amazon yang ditentukan.  

```
aws workdocs describe-groups \
    --search-query "e" \
    --organization-id d-123456789c
```
Output:  

```
{
    "Groups": [
        {
            "Id": "S-1-1-11-1122222222-2222233333-3333334444-4444&d-123456789c",
            "Name": "Example Group 1"
        },
        {
            "Id": "S-1-1-11-1122222222-2222233333-3333334444-5555&d-123456789c",
            "Name": "Example Group 2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Memulai Amazon WorkDocs](https://docs.aws.amazon.com/workdocs/latest/adminguide/getting_started.html) di *Panduan WorkDocs Administrasi Amazon*.  
+  Untuk detail API, lihat [DescribeGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/describe-groups.html)di *Referensi AWS CLI Perintah*. 

### `describe-notification-subscriptions`
<a name="workdocs_DescribeNotificationSubscriptions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-notification-subscriptions`.

**AWS CLI**  
**Untuk mengambil daftar langganan notifikasi**  
`describe-notification-subscriptions`Contoh berikut mengambil langganan notifikasi untuk organisasi Amazon WorkDocs yang ditentukan.  

```
aws workdocs describe-notification-subscriptions \
    --organization-id d-123456789c
```
Output:  

```
{
    "Subscriptions": [
        {
            "SubscriptionId": "123ab4c5-678d-901e-f23g-45h6789j0123",
            "EndPoint": "https://example.com/example",
            "Protocol": "HTTPS"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Berlangganan Pemberitahuan](https://docs.aws.amazon.com/workdocs/latest/developerguide/subscribe-notifications.html) di *Panduan WorkDocs Pengembang Amazon*.  
+  Untuk detail API, lihat [DescribeNotificationSubscriptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/describe-notification-subscriptions.html)di *Referensi AWS CLI Perintah*. 

### `describe-resource-permissions`
<a name="workdocs_DescribeResourcePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-resource-permissions`.

**AWS CLI**  
**Untuk mendapatkan daftar izin untuk sumber daya**  
Contoh ini mengembalikan daftar izin untuk sumber daya tertentu (dokumen atau folder).  
Perintah:  

```
aws workdocs describe-resource-permissions --resource-id 15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3
```
Output:  

```
{
  "Principals": [
      {
          "Id": "anonymous",
          "Type": "ANONYMOUS",
          "Roles": [
              {
                  "Role": "VIEWER",
                  "Type": "DIRECT"
              }
          ]
      },
      {
          "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
          "Type": "USER",
          "Roles": [
              {
                  "Role": "OWNER",
                  "Type": "DIRECT"
              }
          ]
      },
      {
          "Id": "d-926726012c",
          "Type": "ORGANIZATION",
          "Roles": [
              {
                  "Role": "VIEWER",
                  "Type": "INHERITED"
              }
          ]
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeResourcePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/describe-resource-permissions.html)di *Referensi AWS CLI Perintah*. 

### `describe-users`
<a name="workdocs_DescribeUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-users`.

**AWS CLI**  
**Untuk mengambil detail untuk pengguna tertentu**  
Contoh ini mengambil rincian untuk semua pengguna dalam organisasi tertentu.  
Perintah:  

```
aws workdocs describe-users --organization-id d-926726012c
```
Output:  

```
{
  "Users": [
      {
          "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
          "Username": "example1User",
          "OrganizationId": "d-926726012c",
          "RootFolderId": "3c0e3f849dd20a9771d937b9bbcc97e18796150ae56c26d64a4fa0320a2dedc9",
          "RecycleBinFolderId": "c277f4c4d647be1f5147b3184ffa96e1e2bf708278b696cacba68ba13b91f4fe",
          "Status": "INACTIVE",
          "Type": "USER",
          "CreatedTimestamp": 1535478999.452,
          "ModifiedTimestamp": 1535478999.452
      },
      {
          "Id": "S-1-1-11-1111111111-2222222222-3333333333-4444&d-926726012c",
          "Username": "example2User",
          "EmailAddress": "example2User@site.awsapps.com",
          "GivenName": "example2Name",
          "Surname": "example2Surname",
          "OrganizationId": "d-926726012c",
          "RootFolderId": "35b886cb17198cbd547655e58b025dff0cf34aaed638be52009567e23dc67390",
          "RecycleBinFolderId": "9858c3e9ed4c2460dde9aadb4c69fde998070dd46e5e985bd08ec6169ea249ff",
          "Status": "ACTIVE",
          "Type": "MINIMALUSER",
          "CreatedTimestamp": 1535478836.584,
          "ModifiedTimestamp": 1535478836.584
      }
  ]
}
```
+  Untuk detail API, lihat [DescribeUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/describe-users.html)di *Referensi AWS CLI Perintah*. 

### `get-document-path`
<a name="workdocs_GetDocumentPath_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-document-path`.

**AWS CLI**  
**Untuk mengambil informasi jalur dokumen**  
Contoh ini mengambil informasi jalur (hierarki dari folder root) untuk dokumen yang ditentukan, dan menyertakan nama folder induk.  
Perintah:  

```
aws workdocs get-document-path --document-id d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65 --fields NAME
```
Output:  

```
{
  "Path": {
      "Components": [
          {
              "Id": "a43d29cbb8e7c4d25cfee8b803a504b0dc63e760b55ad0c611c6b87691eb6ff3",
              "Name": "/"
          },
          {
              "Id": "1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678",
              "Name": "Top Level Folder"
          },
          {
              "Id": "d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65",
              "Name": "exampleDoc.docx"
          }
      ]
  }
}
```
+  Untuk detail API, lihat [GetDocumentPath](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/get-document-path.html)di *Referensi AWS CLI Perintah*. 

### `get-document-version`
<a name="workdocs_GetDocumentVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-document-version`.

**AWS CLI**  
**Untuk mengambil metadata versi untuk dokumen tertentu**  
Contoh ini mengambil metadata versi untuk dokumen yang ditentukan, termasuk URL sumber dan metadata kustom.  
Perintah:  

```
aws workdocs get-document-version --document-id 15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3 --version-id 1521672507741-9f7df0ea5dd0b121c4f3564a0c7c0b4da95cd12c635d3c442af337a88e297920 --fields SOURCE --include-custom-metadata
```
Output:  

```
{
  "Metadata": {
      "Id": "1521672507741-9f7df0ea5dd0b121c4f3564a0c7c0b4da95cd12c635d3c442af337a88e297920",
      "Name": "exampleDoc",
      "ContentType": "application/vnd.openxmlformats-officedocument.wordprocessingml.document",
      "Size": 11537,
      "Signature": "1a23456b78901c23d4ef56gh7EXAMPLE",
      "Status": "ACTIVE",
      "CreatedTimestamp": 1521672507.741,
      "ModifiedTimestamp": 1534451113.504,
      "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
      "Source": {
          "ORIGINAL": "https://gb-us-west-2-prod-doc-source.s3.us-west-2.amazonaws.com/15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3/1521672507741-9f7df0ea5dd0b121c4f3564a0c7c0b4da95cd12c635d3c442af337a88e297920?response-content-disposition=attachment%3B%20filename%2A%3DUTF-8%27%27exampleDoc&X-Amz-Algorithm=AWS1-ABCD-EFG234&X-Amz-Date=20180820T212202Z&X-Amz-SignedHeaders=host&X-Amz-Expires=900&X-Amz-Credential=AKIAIOSFODNN7EXAMPLE%2F20180820%2Fus-west-2%2Fs3%2Faws1_request&X-Amz-Signature=01Ab2c34d567e8f90123g456hi78j901k2345678l901234mno56pqr78EXAMPLE"
      }
  }
}
```
+  Untuk detail API, lihat [GetDocumentVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/get-document-version.html)di *Referensi AWS CLI Perintah*. 

### `get-document`
<a name="workdocs_GetDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-document`.

**AWS CLI**  
**Untuk mengambil detail dokumen**  
Contoh ini mengambil rincian dokumen yang ditentukan.  
Perintah:  

```
aws workdocs get-document --document-id d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65
```
Output:  

```
{
  "Metadata": {
      "Id": "d90d93c1fe44bad0c8471e973ebaab339090401a95e777cffa58e977d2983b65",
      "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
      "ParentFolderId": "1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678",
      "CreatedTimestamp": 1529005196.082,
      "ModifiedTimestamp": 1534452483.01,
      "LatestVersionMetadata": {
          "Id": "1534452029587-15e129dfc187505c407588df255be83de2920d733859f1d2762411d22a83e3ef",
          "Name": "exampleDoc.docx",
          "ContentType": "application/vnd.openxmlformats-officedocument.wordprocessingml.document",
          "Size": 13922,
          "Signature": "1a23456b78901c23d4ef56gh7EXAMPLE",
          "Status": "ACTIVE",
          "CreatedTimestamp": 1534452029.587,
          "ModifiedTimestamp": 1534452029.587,
          "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c"
      },
      "ResourceState": "ACTIVE"
  }
}
```
+  Untuk detail API, lihat [GetDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/get-document.html)di *Referensi AWS CLI Perintah*. 

### `get-folder-path`
<a name="workdocs_GetFolderPath_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-folder-path`.

**AWS CLI**  
**Untuk mengambil informasi jalur untuk folder**  
Contoh ini mengambil informasi jalur (hierarki dari folder root) untuk folder yang ditentukan, dan menyertakan nama folder induk.  
Perintah:  

```
aws workdocs get-folder-path --folder-id 50893c0af679524d1a0e0651130ed6d073e1a05f95bd12c42dcde5d35634ed08 --fields NAME
```
Output:  

```
{
  "Path": {
      "Components": [
          {
              "Id": "a43d29cbb8e7c4d25cfee8b803a504b0dc63e760b55ad0c611c6b87691eb6ff3",
              "Name": "/"
          },
          {
              "Id": "1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678",
              "Name": "Top Level Folder"
          },
          {
              "Id": "50893c0af679524d1a0e0651130ed6d073e1a05f95bd12c42dcde5d35634ed08",
              "Name": "Sublevel Folder"
          }
      ]
  }
}
```
+  Untuk detail API, lihat [GetFolderPath](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/get-folder-path.html)di *Referensi AWS CLI Perintah*. 

### `get-folder`
<a name="workdocs_GetFolder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-folder`.

**AWS CLI**  
**Untuk mengambil metadata untuk folder**  
Contoh ini mengambil metadata untuk folder tertentu.  
Perintah:  

```
aws workdocs get-folder --folder-id 50893c0af679524d1a0e0651130ed6d073e1a05f95bd12c42dcde5d35634ed08
```
Output:  

```
{
  "Metadata": {
      "Id": "50893c0af679524d1a0e0651130ed6d073e1a05f95bd12c42dcde5d35634ed08",
      "Name": "exampleFolder",
      "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
      "ParentFolderId": "1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678",
      "CreatedTimestamp": 1534450467.622,
      "ModifiedTimestamp": 1534451113.504,
      "ResourceState": "ACTIVE",
      "Signature": "1a23456b78901c23d4ef56gh7EXAMPLE",
      "Size": 23019,
      "LatestVersionSize": 11537
  }
}
```
+  Untuk detail API, lihat [GetFolder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/get-folder.html)di *Referensi AWS CLI Perintah*. 

### `get-resources`
<a name="workdocs_GetResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-resources`.

**AWS CLI**  
**Untuk mengambil sumber daya bersama**  
`get-resources`Contoh berikut mengambil sumber daya yang dibagikan dengan WorkDocs pengguna Amazon yang ditentukan.  

```
aws workdocs get-resources \
    --user-id "S-1-1-11-1111111111-2222222222-3333333333-3333" \
    --collection-type SHARED_WITH_ME
```
Output:  

```
{
"Folders": [],
"Documents": []
}
```
Untuk informasi selengkapnya, lihat [Berbagi File dan Folder](https://docs.aws.amazon.com/workdocs/latest/userguide/share-docs.html) di *Panduan WorkDocs Pengguna Amazon*.  
+  Untuk detail API, lihat [GetResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/get-resources.html)di *Referensi AWS CLI Perintah*. 

### `initiate-document-version-upload`
<a name="workdocs_InitiateDocumentVersionUpload_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`initiate-document-version-upload`.

**AWS CLI**  
**Untuk memulai upload versi dokumen**  
`initiate-document-upload`Contoh berikut membuat objek dokumen baru dan objek versi.  

```
aws workdocs initiate-document-version-upload \
    --name exampledocname \
    --parent-folder-id eacd546d952531c633452ed67cac23161aa0d5df2e8061223a59e8f67e7b6189
```
Output:  

```
{
    "Metadata": {
        "Id": "feaba64d4efdf271c2521b60a2a44a8f057e84beaabbe22f01267313209835f2",
        "CreatorId": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
        "ParentFolderId": "eacd546d952531c633452ed67cac23161aa0d5df2e8061223a59e8f67e7b6189",
        "CreatedTimestamp": 1536773972.914,
        "ModifiedTimestamp": 1536773972.914,
        "LatestVersionMetadata": {
            "Id": "1536773972914-ddb67663e782e7ce8455ebc962217cf9f9e47b5a9a702e5c84dcccd417da9313",
            "Name": "exampledocname",
            "ContentType": "application/octet-stream",
            "Size": 0,
            "Status": "INITIALIZED",
            "CreatedTimestamp": 1536773972.914,
            "ModifiedTimestamp": 1536773972.914,
            "CreatorId": "arn:aws:iam::123456789123:user/EXAMPLE"
        },
        "ResourceState": "ACTIVE"
    },
    "UploadMetadata": {
        "UploadUrl": "https://gb-us-west-2-prod-doc-source.s3.us-west-2.amazonaws.com/feaba64d4efdf271c2521b60a2a44a8f057e84beaabbe22f01267313209835f2/1536773972914-ddb67663e782e7ce8455ebc962217cf9f9e47b5a9a702e5c84dcccd417da9313?X-Amz-Algorithm=AWS1-ABCD-EFG234&X-Amz-Date=20180912T173932Z&X-Amz-SignedHeaders=content-type%3Bhost%3Bx-amz-server-side-encryption&X-Amz-Expires=899&X-Amz-Credential=AKIAIOSFODNN7EXAMPLE%2F20180912%2Fus-west-2%2Fs3%2Faws1_request&X-Amz-Signature=01Ab2c34d567e8f90123g456hi78j901k2345678l901234mno56pqr78EXAMPLE",
        "SignedHeaders": {
            "Content-Type": "application/octet-stream",
            "x-amz-server-side-encryption": "ABC123"
        }
    }
}
```
+  Untuk detail API, lihat [InitiateDocumentVersionUpload](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/initiate-document-version-upload.html)di *Referensi AWS CLI Perintah*. 

### `remove-all-resource-permissions`
<a name="workdocs_RemoveAllResourcePermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-all-resource-permissions`.

**AWS CLI**  
**Untuk menghapus semua izin dari sumber daya tertentu**  
Contoh ini menghapus semua izin dari sumber daya yang ditentukan.  
Perintah:  

```
aws workdocs remove-all-resource-permissions --resource-id 1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678
```
Output:  

```
None
```
+  Untuk detail API, lihat [RemoveAllResourcePermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/remove-all-resource-permissions.html)di *Referensi AWS CLI Perintah*. 

### `remove-resource-permission`
<a name="workdocs_RemoveResourcePermission_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`remove-resource-permission`.

**AWS CLI**  
**Untuk menghapus izin dari sumber daya**  
Contoh ini menghapus izin dari sumber daya untuk prinsipal yang ditentukan.  
Perintah:  

```
aws workdocs remove-resource-permission --resource-id 1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678 --principal-id anonymous
```
Output:  

```
None
```
+  Untuk detail API, lihat [RemoveResourcePermission](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/remove-resource-permission.html)di *Referensi AWS CLI Perintah*. 

### `update-document-version`
<a name="workdocs_UpdateDocumentVersion_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-document-version`.

**AWS CLI**  
**Untuk mengubah status versi dokumen menjadi Aktif**  
Contoh ini mengubah status versi dokumen menjadi Aktif.  
Perintah:  

```
aws workdocs update-document-version --document-id 15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3 --version-id 1521672507741-9f7df0ea5dd0b121c4f3564a0c7c0b4da95cd12c635d3c442af337a88e297920 --version-status ACTIVE
```
Output:  

```
None
```
+  Untuk detail API, lihat [UpdateDocumentVersion](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/update-document-version.html)di *Referensi AWS CLI Perintah*. 

### `update-document`
<a name="workdocs_UpdateDocument_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-document`.

**AWS CLI**  
**Untuk memperbarui dokumen**  
Contoh ini memperbarui nama dokumen dan folder induk.  
Perintah:  

```
aws workdocs update-document --document-id 15df51e0335cfcc6a2e4de9dd8be9f22ee40545ad9176f54758dcf903be982d3 --name updatedDoc --parent-folder-id 50893c0af679524d1a0e0651130ed6d073e1a05f95bd12c42dcde5d35634ed08
```
Output:  

```
None
```
+  Untuk detail API, lihat [UpdateDocument](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/update-document.html)di *Referensi AWS CLI Perintah*. 

### `update-folder`
<a name="workdocs_UpdateFolder_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-folder`.

**AWS CLI**  
**Untuk memperbarui folder**  
Contoh ini memperbarui nama folder dan folder induk.  
Perintah:  

```
aws workdocs update-folder --folder-id 50893c0af679524d1a0e0651130ed6d073e1a05f95bd12c42dcde5d35634ed08 --name exampleFolder1 --parent-folder-id 1ece93e5fe75315c7407c4967918b4fd9da87ddb2a588e67b7fdaf4a98fde678
```
Output:  

```
None
```
+  Untuk detail API, lihat [UpdateFolder](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/update-folder.html)di *Referensi AWS CLI Perintah*. 

### `update-user`
<a name="workdocs_UpdateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-user`.

**AWS CLI**  
**Untuk memperbarui pengguna**  
Contoh ini memperbarui zona waktu untuk pengguna yang ditentukan.  
Perintah:  

```
aws workdocs update-user --user-id "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c" --time-zone-id "America/Los_Angeles"
```
Output:  

```
{
  "User": {
      "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333&d-926726012c",
      "Username": "exampleUser",
      "EmailAddress": "exampleUser@site.awsapps.com",
      "GivenName": "Example",
      "Surname": "User",
      "OrganizationId": "d-926726012c",
      "RootFolderId": "c5eceb5e1a2d1d460c9d1af8330ae117fc8d39bb1d3ed6acd0992d5ff192d986",
      "RecycleBinFolderId": "6ca20102926ad15f04b1d248d6d6e44f2449944eda5c758f9a1e9df6a6b7fa66",
      "Status": "ACTIVE",
      "Type": "USER",
      "TimeZoneId": "America/Los_Angeles",
      "Storage": {
          "StorageUtilizedInBytes": 0,
          "StorageRule": {
              "StorageAllocatedInBytes": 53687091200,
              "StorageType": "QUOTA"
          }
      }
  }
}
```
+  Untuk detail API, lihat [UpdateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workdocs/update-user.html)di *Referensi AWS CLI Perintah*. 

# WorkMail Contoh Amazon menggunakan AWS CLI
<a name="cli_2_workmail_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface With Amazon WorkMail.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `associate-delegate-to-resource`
<a name="workmail_AssociateDelegateToResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-delegate-to-resource`.

**AWS CLI**  
**Untuk menambahkan delegasi ke sumber daya**  
`associate-delegate-to-resource`Perintah berikut menambahkan delegasi ke sumber daya.  

```
aws workmail associate-delegate-to-resource \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --resource-id r-68bf2d3b1c0244aab7264c24b9217443 \
    --entity-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AssociateDelegateToResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/associate-delegate-to-resource.html)di *Referensi AWS CLI Perintah*. 

### `associate-member-to-group`
<a name="workmail_AssociateMemberToGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`associate-member-to-group`.

**AWS CLI**  
**Untuk menambahkan anggota ke grup**  
`associate-member-to-group`Perintah berikut menambahkan anggota yang ditentukan ke grup.  

```
aws workmail associate-member-to-group \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --group-id S-1-1-11-1122222222-2222233333-3333334444-4444 \
    --member-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [AssociateMemberToGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/associate-member-to-group.html)di *Referensi AWS CLI Perintah*. 

### `create-alias`
<a name="workmail_CreateAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-alias`.

**AWS CLI**  
**Untuk membuat alias**  
`create-alias`Perintah berikut membuat alias untuk entitas tertentu (pengguna atau grup).  

```
aws workmail create-alias \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1122222222-2222233333-3333334444-4444 \
    --alias exampleAlias@site.awsapps.com
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [CreateAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/create-alias.html)di *Referensi AWS CLI Perintah*. 

### `create-group`
<a name="workmail_CreateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group`.

**AWS CLI**  
**Untuk membuat grup baru**  
`create-group`Perintah berikut membuat grup baru untuk organisasi tertentu.  

```
aws workmail create-group \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --name exampleGroup1
```
Output:  

```
{
    "GroupId": "S-1-1-11-1122222222-2222233333-3333334444-4444"
}
```
+  Untuk detail API, lihat [CreateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/create-group.html)di *Referensi AWS CLI Perintah*. 

### `create-resource`
<a name="workmail_CreateResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-resource`.

**AWS CLI**  
**Untuk membuat sumber daya baru**  
`create-resource`Perintah berikut membuat sumber daya baru (ruang rapat) untuk organisasi tertentu.  

```
aws workmail create-resource \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --name exampleRoom1 \
    --type ROOM
```
Output:  

```
{
    "ResourceId": "r-7afe0efbade843a58cdc10251fce992c"
}
```
+  Untuk detail API, lihat [CreateResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/create-resource.html)di *Referensi AWS CLI Perintah*. 

### `create-user`
<a name="workmail_CreateUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-user`.

**AWS CLI**  
**Untuk membuat pengguna baru**  
`create-user`Perintah berikut menciptakan pengguna baru.  

```
aws workmail create-user \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --name exampleName \
    --display-name exampleDisplayName \
    --password examplePa$$w0rd
```
Output:  

```
{
    "UserId": "S-1-1-11-1111111111-2222222222-3333333333-3333"
}
```
+  Untuk detail API, lihat [CreateUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/create-user.html)di *Referensi AWS CLI Perintah*. 

### `delete-access-control-rule`
<a name="workmail_DeleteAccessControlRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-access-control-rule`.

**AWS CLI**  
**Untuk menghapus aturan kontrol akses**  
`delete-access-control-rule`Contoh berikut menghapus aturan kontrol akses yang ditentukan dari WorkMail organisasi Amazon yang ditentukan.  

```
aws workmail delete-access-control-rule \
    --organization-id m-n1pq2345678r901st2u3vx45x6789yza \
    --name "myRule"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Aturan Kontrol Akses](https://docs.aws.amazon.com/workmail/latest/adminguide/access-rules.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [DeleteAccessControlRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/delete-access-control-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-alias`
<a name="workmail_DeleteAlias_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-alias`.

**AWS CLI**  
**Untuk menghapus alias**  
`delete-alias`Perintah berikut menghapus alias untuk entitas tertentu (pengguna atau grup).  

```
aws workmail delete-alias \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1122222222-2222233333-3333334444-4444 \
    --alias exampleAlias@site.awsapps.com
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteAlias](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/delete-alias.html)di *Referensi AWS CLI Perintah*. 

### `delete-group`
<a name="workmail_DeleteGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group`.

**AWS CLI**  
**Untuk menghapus grup yang ada**  
`delete-group`Perintah berikut menghapus grup yang ada dari Amazon WorkMail.  

```
aws workmail delete-group \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --group-id S-1-1-11-1122222222-2222233333-3333334444-4444
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/delete-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-mailbox-permissions`
<a name="workmail_DeleteMailboxPermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-mailbox-permissions`.

**AWS CLI**  
**Untuk menghapus izin kotak pesan**  
`delete-mailbox-permissions`Perintah berikut menghapus izin kotak pesan yang sebelumnya diberikan kepada pengguna atau grup. Entitas mewakili pengguna yang memiliki kotak pesan, dan penerima hibah mewakili pengguna atau grup yang akan menghapus izin.  

```
aws workmail delete-mailbox-permissions \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1122222222-2222233333-3333334444-4444 \
    --grantee-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteMailboxPermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/delete-mailbox-permissions.html)di *Referensi AWS CLI Perintah*. 

### `delete-resource`
<a name="workmail_DeleteResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-resource`.

**AWS CLI**  
**Untuk menghapus sumber daya yang ada**  
`delete-resource`Perintah berikut menghapus sumber daya yang ada dari Amazon WorkMail.  

```
aws workmail delete-resource \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --resource-id r-7afe0efbade843a58cdc10251fce992c
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/delete-resource.html)di *Referensi AWS CLI Perintah*. 

### `delete-user`
<a name="workmail_DeleteUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-user`.

**AWS CLI**  
**Untuk menghapus pengguna**  
`delete-user`Perintah berikut menghapus pengguna yang ditentukan dari Amazon WorkMail dan semua sistem berikutnya.  

```
aws workmail delete-user \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --user-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeleteUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/delete-user.html)di *Referensi AWS CLI Perintah*. 

### `deregister-from-work-mail`
<a name="workmail_DeregisterFromWorkMail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-from-work-mail`.

**AWS CLI**  
**Untuk menonaktifkan entitas yang ada**  
`deregister-from-work-mail`Perintah berikut menonaktifkan entitas yang ada (pengguna, grup, atau sumber daya) dari menggunakan Amazon WorkMail.  

```
aws workmail deregister-from-work-mail \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DeregisterFromWorkMail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/deregister-from-work-mail.html)di *Referensi AWS CLI Perintah*. 

### `describe-group`
<a name="workmail_DescribeGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-group`.

**AWS CLI**  
**Untuk mengambil informasi untuk grup**  
`describe-group`Perintah berikut mengambil informasi tentang grup yang ditentukan.  

```
aws workmail describe-group \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --group-id S-1-1-11-1122222222-2222233333-3333334444-4444
```
Output:  

```
{
    "GroupId": "S-1-1-11-1122222222-2222233333-3333334444-4444",
    "Name": "exampleGroup1",
    "State": "ENABLED"
}
```
+  Untuk detail API, lihat [DescribeGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/describe-group.html)di *Referensi AWS CLI Perintah*. 

### `describe-organization`
<a name="workmail_DescribeOrganization_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-organization`.

**AWS CLI**  
**Untuk mengambil informasi untuk suatu organisasi**  
`describe-organization`Perintah berikut mengambil informasi untuk WorkMail organisasi Amazon yang ditentukan.  

```
aws workmail describe-organization \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27
```
Output:  

```
{
    "OrganizationId": "m-d281d0a2fd824be5b6cd3d3ce909fd27",
    "Alias": "alias",
    "State": "Active",
    "DirectoryId": "d-926726012c",
    "DirectoryType": "VpcDirectory",
    "DefaultMailDomain": "site.awsapps.com",
    "CompletedDate": 1522693605.468,
    "ARN": "arn:aws:workmail:us-west-2:111122223333:organization/m-n1pq2345678r901st2u3vx45x6789yza"
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Organizations](https://docs.aws.amazon.com/workmail/latest/adminguide/organizations_overview.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [DescribeOrganization](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/describe-organization.html)di *Referensi AWS CLI Perintah*. 

### `describe-resource`
<a name="workmail_DescribeResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-resource`.

**AWS CLI**  
**Untuk mengambil informasi untuk sumber daya**  
`describe-resource`Perintah berikut mengambil informasi tentang sumber daya yang ditentukan.  

```
aws workmail describe-resource \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --resource-id r-7afe0efbade843a58cdc10251fce992c
```
Output:  

```
{
    "ResourceId": "r-7afe0efbade843a58cdc10251fce992c",
    "Name": "exampleRoom1",
    "Type": "ROOM",
    "BookingOptions": {
        "AutoAcceptRequests": true,
        "AutoDeclineRecurringRequests": false,
        "AutoDeclineConflictingRequests": true
    },
    "State": "ENABLED"
}
```
+  Untuk detail API, lihat [DescribeResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/describe-resource.html)di *Referensi AWS CLI Perintah*. 

### `describe-user`
<a name="workmail_DescribeUser_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-user`.

**AWS CLI**  
**Untuk mengambil informasi pengguna**  
`describe-user`Perintah berikut mengambil informasi tentang pengguna yang ditentukan.  

```
aws workmail describe-user \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --user-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Output:  

```
{
    "UserId": "S-1-1-11-1111111111-2222222222-3333333333-3333",
    "Name": "exampleUser1",
    "Email": "exampleUser1@site.awsapps.com",
    "DisplayName": "",
    "State": "ENABLED",
    "UserRole": "USER",
    "EnabledDate": 1532459261.827
}
```
+  Untuk detail API, lihat [DescribeUser](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/describe-user.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-delegate-from-resource`
<a name="workmail_DisassociateDelegateFromResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-delegate-from-resource`.

**AWS CLI**  
**Untuk menghapus anggota dari sumber daya**  
`disassociate-delegate-from-resource`Perintah berikut menghapus anggota yang ditentukan dari sumber daya.  

```
ws workmail disassociate-delegate-from-resource \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --resource-id r-68bf2d3b1c0244aab7264c24b9217443 \
    --entity-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DisassociateDelegateFromResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/disassociate-delegate-from-resource.html)di *Referensi AWS CLI Perintah*. 

### `disassociate-member-from-group`
<a name="workmail_DisassociateMemberFromGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`disassociate-member-from-group`.

**AWS CLI**  
**Untuk menghapus anggota dari grup**  
`disassociate-member-from-group`Perintah berikut menghapus anggota yang ditentukan dari grup.  

```
aws workmail disassociate-member-from-group \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --group-id S-1-1-11-1122222222-2222233333-3333334444-4444 \
    --member-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [DisassociateMemberFromGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/disassociate-member-from-group.html)di *Referensi AWS CLI Perintah*. 

### `get-access-control-effect`
<a name="workmail_GetAccessControlEffect_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-access-control-effect`.

**AWS CLI**  
**Untuk mendapatkan efek aturan kontrol akses**  
`get-access-control-effect`Contoh berikut mengambil efek dari aturan kontrol akses WorkMail organisasi Amazon yang ditentukan untuk alamat IP yang ditentukan, tindakan protokol akses, dan ID pengguna.  

```
aws workmail get-access-control-effect \
    --organization-id m-n1pq2345678r901st2u3vx45x6789yza \
    --ip-address "192.0.2.0" \
    --action "WindowsOutlook" \
    --user-id "S-1-1-11-1111111111-2222222222-3333333333-3333"
```
Output:  

```
{
    "Effect": "DENY",
    "MatchedRules": [
        "myRule"
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Aturan Kontrol Akses](https://docs.aws.amazon.com/workmail/latest/adminguide/access-rules.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [GetAccessControlEffect](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/get-access-control-effect.html)di *Referensi AWS CLI Perintah*. 

### `get-mailbox-details`
<a name="workmail_GetMailboxDetails_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-mailbox-details`.

**AWS CLI**  
**Untuk mendapatkan detail kotak pesan pengguna**  
`get-mailbox-details`Perintah berikut mengambil rincian tentang kotak pesan pengguna yang ditentukan.  

```
aws workmail get-mailbox-details \
    --organization-id m-n1pq2345678r901st2u3vx45x6789yza \
    --user-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Output:  

```
{
    "MailboxQuota": 51200,
    "MailboxSize": 0.03890800476074219
}
```
Untuk informasi selengkapnya, lihat [Mengelola Akun Pengguna](https://docs.aws.amazon.com/workmail/latest/adminguide/manage-users.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [GetMailboxDetails](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/get-mailbox-details.html)di *Referensi AWS CLI Perintah*. 

### `list-access-control-rules`
<a name="workmail_ListAccessControlRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-access-control-rules`.

**AWS CLI**  
**Untuk membuat daftar aturan kontrol akses**  
`list-access-control-rules`Contoh berikut mencantumkan aturan kontrol akses untuk WorkMail organisasi Amazon yang ditentukan.  

```
aws workmail list-access-control-rules \
    --organization-id m-n1pq2345678r901st2u3vx45x6789yza
```
Output:  

```
{
    "Rules": [
        {
            "Name": "default",
            "Effect": "ALLOW",
            "Description": "Default WorkMail Rule",
            "DateCreated": 0.0,
            "DateModified": 0.0
        },
        {
            "Name": "myRule",
            "Effect": "DENY",
            "Description": "my rule",
            "UserIds": [
            "S-1-1-11-1111111111-2222222222-3333333333-3333"
            ],
            "DateCreated": 1581635628.0,
            "DateModified": 1581635628.0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Bekerja dengan Aturan Kontrol Akses](https://docs.aws.amazon.com/workmail/latest/adminguide/access-rules.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [ListAccessControlRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-access-control-rules.html)di *Referensi AWS CLI Perintah*. 

### `list-aliases`
<a name="workmail_ListAliases_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-aliases`.

**AWS CLI**  
**Untuk membuat daftar alias untuk anggota**  
`list-aliases`Perintah berikut mencantumkan alias untuk anggota tertentu (pengguna atau grup).  

```
aws workmail list-aliases \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Output:  

```
{
    "Aliases": [
        "exampleAlias@site.awsapps.com",
        "exampleAlias1@site.awsapps.com"
    ]
}
```
+  Untuk detail API, lihat [ListAliases](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-aliases.html)di *Referensi AWS CLI Perintah*. 

### `list-group-members`
<a name="workmail_ListGroupMembers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-group-members`.

**AWS CLI**  
**Untuk daftar anggota grup**  
`list-group-members`Perintah berikut mencantumkan anggota grup yang ditentukan.  

```
aws workmail list-group-members \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --group-id S-1-1-11-1122222222-2222233333-3333334444-4444
```
Output:  

```
{
    "Members": [
        {
            "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333",
            "Name": "exampleUser1",
            "Type": "USER",
            "State": "ENABLED",
            "EnabledDate": 1532459261.827
        }
    ]
}
```
+  Untuk detail API, lihat [ListGroupMembers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-group-members.html)di *Referensi AWS CLI Perintah*. 

### `list-groups`
<a name="workmail_ListGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-groups`.

**AWS CLI**  
**Untuk mengambil daftar grup**  
`list-groups`Perintah berikut mengambil ringkasan grup dalam organisasi yang ditentukan.  

```
aws workmail list-groups \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27
```
Output:  

```
{
    "Groups": [
        {
            "Id": "S-1-1-11-1122222222-2222233333-3333334444-4444",
            "Name": "exampleGroup1",
            "State": "DISABLED"
        },
        {
            "Id": "S-4-4-44-1122222222-2222233333-3333334444-4444",
            "Name": "exampleGroup2",
            "State": "ENABLED"
        }
    ]
}
```
+  Untuk detail API, lihat [ListGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-groups.html)di *Referensi AWS CLI Perintah*. 

### `list-mailbox-permissions`
<a name="workmail_ListMailboxPermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-mailbox-permissions`.

**AWS CLI**  
**Untuk mengambil izin kotak pesan**  
`list-mailbox-permissions`Perintah berikut mengambil izin kotak pesan yang terkait dengan kotak pesan entitas tertentu.  

```
aws workmail list-mailbox-permissions \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1111111111-2222222222-3333333333-3333
```
Output:  

```
{
    "Permissions": [
        {
            "GranteeId": "S-1-1-11-1122222222-2222233333-3333334444-4444",
            "GranteeType": "USER",
            "PermissionValues": [
                "FULL_ACCESS"
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [ListMailboxPermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-mailbox-permissions.html)di *Referensi AWS CLI Perintah*. 

### `list-organizations`
<a name="workmail_ListOrganizations_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-organizations`.

**AWS CLI**  
**Untuk mengambil daftar organisasi**  
`list-organizations`Perintah berikut mengambil ringkasan dari organisasi pelanggan.  

```
aws workmail list-organizations
```
Output:  

```
{
    "OrganizationSummaries": [
        {
            "OrganizationId": "m-d281d0a2fd824be5b6cd3d3ce909fd27",
            "Alias": "exampleAlias",
            "State": "Active"
        }
    ]
}
```
+  Untuk detail API, lihat [ListOrganizations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-organizations.html)di *Referensi AWS CLI Perintah*. 

### `list-resource-delegates`
<a name="workmail_ListResourceDelegates_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resource-delegates`.

**AWS CLI**  
**Untuk membuat daftar delegasi untuk sumber daya**  
`list-resource-delegates`Perintah berikut mengambil delegasi yang terkait dengan sumber daya yang ditentukan.  

```
aws workmail list-resource-delegates \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --resource-id r-68bf2d3b1c0244aab7264c24b9217443
```
Output:  

```
{
    "Delegates": [
        {
            "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333",
            "Type": "USER"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResourceDelegates](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-resource-delegates.html)di *Referensi AWS CLI Perintah*. 

### `list-resources`
<a name="workmail_ListResources_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-resources`.

**AWS CLI**  
**Untuk mengambil daftar sumber daya**  
`list-resources`Perintah berikut mengambil ringkasan sumber daya untuk organisasi yang ditentukan.  

```
aws workmail list-resources \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27
```
Output:  

```
{
    "Resources": [
        {
            "Id": "r-7afe0efbade843a58cdc10251fce992c",
            "Name": "exampleRoom1",
            "Type": "ROOM",
            "State": "ENABLED"
        }
    ]
}
```
+  Untuk detail API, lihat [ListResources](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-resources.html)di *Referensi AWS CLI Perintah*. 

### `list-tags-for-resource`
<a name="workmail_ListTagsForResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-tags-for-resource`.

**AWS CLI**  
**Untuk membuat daftar tag untuk sumber daya**  
`list-tags-for-resource`Contoh berikut mencantumkan tag untuk WorkMail organisasi Amazon yang ditentukan.  

```
aws workmail list-tags-for-resource \
    --resource-arn arn:aws:workmail:us-west-2:111122223333:organization/m-n1pq2345678r901st2u3vx45x6789yza
```
Output:  

```
{
    "Tags": [
        {
            "Key": "priority",
            "Value": "1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai Organisasi](https://docs.aws.amazon.com/workmail/latest/adminguide/org-tag.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [ListTagsForResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-tags-for-resource.html)di *Referensi AWS CLI Perintah*. 

### `list-users`
<a name="workmail_ListUsers_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`list-users`.

**AWS CLI**  
**Untuk mengambil daftar pengguna**  
`list-users`Perintah berikut mengambil ringkasan dari pengguna dalam organisasi tertentu.  

```
aws workmail list-users \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27
```
Output:  

```
{
    "Users": [
        {
            "Id": "S-1-1-11-1111111111-2222222222-3333333333-3333",
            "Email": "exampleUser1@site.awsapps.com",
            "Name": "exampleUser1",
            "State": "ENABLED",
            "UserRole": "USER",
            "EnabledDate": 1532459261.827
        },
        {
            "Id": "S-1-1-11-1122222222-2222233333-3333334444-4444",
            "Name": "exampleGuestUser",
            "State": "DISABLED",
            "UserRole": "SYSTEM_USER"
        }
    ]
}
```
+  Untuk detail API, lihat [ListUsers](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/list-users.html)di *Referensi AWS CLI Perintah*. 

### `put-access-control-rule`
<a name="workmail_PutAccessControlRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-access-control-rule`.

**AWS CLI**  
**Untuk menempatkan aturan kontrol akses baru**  
`put-access-control-rule`Contoh berikut menyangkal akses pengguna yang ditentukan ke WorkMail organisasi Amazon yang ditentukan.  

```
aws workmail put-access-control-rule \
    --name "myRule" \
    --effect "DENY" \
    --description "my rule" \
    --user-ids "S-1-1-11-1111111111-2222222222-3333333333-3333" \
    --organization-id m-n1pq2345678r901st2u3vx45x6789yza
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Bekerja dengan Aturan Kontrol Akses](https://docs.aws.amazon.com/workmail/latest/adminguide/access-rules.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [PutAccessControlRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/put-access-control-rule.html)di *Referensi AWS CLI Perintah*. 

### `put-mailbox-permissions`
<a name="workmail_PutMailboxPermissions_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-mailbox-permissions`.

**AWS CLI**  
**Untuk menyetel izin kotak pesan**  
`put-mailbox-permissions`Perintah berikut menetapkan izin akses penuh untuk penerima hibah tertentu (pengguna atau grup). Entitas mewakili pemilik kotak pesan.  

```
aws workmail put-mailbox-permissions \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1111111111-2222222222-3333333333-3333 \
    --grantee-id S-1-1-11-1122222222-2222233333-3333334444-4444 \
    --permission-values FULL_ACCESS
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [PutMailboxPermissions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/put-mailbox-permissions.html)di *Referensi AWS CLI Perintah*. 

### `register-to-work-mail`
<a name="workmail_RegisterToWorkMail_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-to-work-mail`.

**AWS CLI**  
**Untuk mendaftarkan entitas yang sudah ada atau dinonaktifkan**  
`register-to-work-mail`Perintah berikut memungkinkan entitas yang sudah ada (pengguna, grup, atau sumber daya) yang ditentukan untuk menggunakan Amazon WorkMail.  

```
aws workmail register-to-work-mail \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1122222222-2222233333-3333334444-4444 \
    --email exampleGroup1@site.awsapps.com
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [RegisterToWorkMail](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/register-to-work-mail.html)di *Referensi AWS CLI Perintah*. 

### `reset-password`
<a name="workmail_ResetPassword_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reset-password`.

**AWS CLI**  
**Untuk mengatur ulang kata sandi pengguna**  
`reset-password`Perintah berikut mengatur ulang kata sandi untuk pengguna yang ditentukan.  

```
aws workmail reset-password \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --user-id S-1-1-11-1111111111-2222222222-3333333333-3333 \
    --password examplePa$$w0rd
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [ResetPassword](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/reset-password.html)di *Referensi AWS CLI Perintah*. 

### `tag-resource`
<a name="workmail_TagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`tag-resource`.

**AWS CLI**  
**Untuk menerapkan tag ke sumber daya**  
`tag-resource`Contoh berikut menerapkan tag dengan kunci “prioritas” dan nilai “1" ke WorkMail organisasi Amazon yang ditentukan.  

```
aws workmail tag-resource \
    --resource-arn arn:aws:workmail:us-west-2:111122223333:organization/m-n1pq2345678r901st2u3vx45x6789yza \
    --tags "Key=priority,Value=1"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Organisasi](https://docs.aws.amazon.com/workmail/latest/adminguide/org-tag.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [TagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/tag-resource.html)di *Referensi AWS CLI Perintah*. 

### `untag-resource`
<a name="workmail_UntagResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`untag-resource`.

**AWS CLI**  
**Untuk menghapus tag sumber daya**  
`untag-resource`Contoh berikut menghapus tag yang ditentukan dari WorkMail organisasi Amazon yang ditentukan.  

```
aws workmail untag-resource \
    --resource-arn arn:aws:workmail:us-west-2:111122223333:organization/m-n1pq2345678r901st2u3vx45x6789yza \
    --tag-keys "priority"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai Organisasi](https://docs.aws.amazon.com/workmail/latest/adminguide/org-tag.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [UntagResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/untag-resource.html)di *Referensi AWS CLI Perintah*. 

### `update-mailbox-quota`
<a name="workmail_UpdateMailboxQuota_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-mailbox-quota`.

**AWS CLI**  
**Untuk memperbarui kuota kotak pesan pengguna**  
`update-mailbox-quota`Perintah berikut mengubah kuota kotak pesan pengguna yang ditentukan.  

```
aws workmail update-mailbox-quota \
    --organization-id m-n1pq2345678r901st2u3vx45x6789yza \
    --user-id S-1-1-11-1111111111-2222222222-3333333333-3333 \
    --mailbox-quota 40000
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengelola Akun Pengguna](https://docs.aws.amazon.com/workmail/latest/adminguide/manage-users.html) di *Panduan WorkMail Administrator Amazon*.  
+  Untuk detail API, lihat [UpdateMailboxQuota](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/update-mailbox-quota.html)di *Referensi AWS CLI Perintah*. 

### `update-primary-email-address`
<a name="workmail_UpdatePrimaryEmailAddress_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-primary-email-address`.

**AWS CLI**  
**Untuk memperbarui alamat email utama**  
`update-primary-email-address`Perintah berikut memperbarui alamat email utama dari entitas tertentu (pengguna, grup, atau sumber daya).  

```
aws workmail update-primary-email-address \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --entity-id S-1-1-11-1111111111-2222222222-3333333333-3333 \
    --email exampleUser2@site.awsapps.com
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdatePrimaryEmailAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/update-primary-email-address.html)di *Referensi AWS CLI Perintah*. 

### `update-resource`
<a name="workmail_UpdateResource_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-resource`.

**AWS CLI**  
**Untuk memperbarui sumber daya**  
`update-resource`Perintah berikut memperbarui nama sumber daya yang ditentukan.  

```
aws workmail update-resource \
    --organization-id m-d281d0a2fd824be5b6cd3d3ce909fd27 \
    --resource-id r-7afe0efbade843a58cdc10251fce992c \
    --name exampleRoom2
```
Perintah ini tidak menghasilkan output.  
+  Untuk detail API, lihat [UpdateResource](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmail/update-resource.html)di *Referensi AWS CLI Perintah*. 

# Contoh Amazon WorkMail Message Flow menggunakan AWS CLI
<a name="cli_2_workmailmessageflow_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS Command Line Interface dengan menggunakan Alur WorkMail Pesan Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `get-raw-message-content`
<a name="workmailmessageflow_GetRawMessageContent_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-raw-message-content`.

**AWS CLI**  
**Untuk mendapatkan konten mentah dari pesan email**  
`get-raw-message-content`Contoh berikut mendapatkan konten mentah dari pesan email dalam transit dan mengirimkannya ke file teks bernama`test`.  

```
aws workmailmessageflow get-raw-message-content \
    --message-id a1b2cd34-ef5g-6h7j-kl8m-npq9012345rs \
    test
```
Isi file `test` setelah perintah berjalan:  

```
Subject: Hello World
From: =?UTF-8?Q?marymajor_marymajor?= <marymajor@example.com>
To: =?UTF-8?Q?mateojackson=40example=2Enet?= <mateojackson@example.net>
Date: Thu, 7 Nov 2019 19:22:46 +0000
Mime-Version: 1.0
Content-Type: multipart/alternative;
 boundary="=_EXAMPLE+"
References: <mail.1ab23c45.5de6.7f890g123hj45678@storage.wm.amazon.com>
X-Priority: 3 (Normal)
X-Mailer: Amazon WorkMail
Thread-Index: EXAMPLE
Thread-Topic: Hello World
Message-Id: <mail.1ab23c45.5de6.7f890g123hj45678@storage.wm.amazon.com>

This is a multi-part message in MIME format. Your mail reader does not
understand MIME message format.
--=_EXAMPLE+
Content-Type: text/plain; charset=UTF-8
Content-Transfer-Encoding: 7bit

hello world


--=_EXAMPLE+
Content-Type: text/html; charset=utf-8
Content-Transfer-Encoding: quoted-printable

<!DOCTYPE HTML><html>
<head>
<meta name=3D"Generator" content=3D"Amazon WorkMail v3.0-4510">
<meta http-equiv=3D"Content-Type" content=3D"text/html; charset=3Dutf-8">=

<title>testing</title>
</head>
<body>
<p style=3D"margin: 0px; font-family: Arial, Tahoma, Helvetica, sans-seri=
f; font-size: small;">hello world</p>
</body>
</html>
--=_EXAMPLE+--
```
Untuk informasi selengkapnya, lihat [Mengambil Konten Pesan dengan AWS Lambda](https://docs.aws.amazon.com/workmail/latest/adminguide/lambda-content.html) di Panduan Administrator * WorkMail Amazon*.  
+  Untuk detail API, lihat [GetRawMessageContent](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workmailmessageflow/get-raw-message-content.html)di *Referensi AWS CLI Perintah*. 

# WorkSpaces contoh menggunakan AWS CLI
<a name="cli_2_workspaces_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS Command Line Interface with WorkSpaces.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `create-tags`
<a name="workspaces_CreateTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-tags`.

**AWS CLI**  
**Untuk menambahkan tag ke WorkSpace**  
`create-tags`Contoh berikut menambahkan tag yang ditentukan ke yang ditentukan WorkSpace.  

```
aws workspaces create-tags \
    --resource-id ws-dk1xzr417 \
    --tags Key=Department,Value=Finance
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai WorkSpaces sumber daya](https://docs.aws.amazon.com/workspaces/latest/adminguide/tag-workspaces-resources.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [CreateTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/create-tags.html)di *Referensi AWS CLI Perintah*. 

### `create-workspaces`
<a name="workspaces_CreateWorkspaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-workspaces`.

**AWS CLI**  
**Contoh 1: Untuk membuat AlwaysOn WorkSpace**  
`create-workspaces`Contoh berikut menciptakan AlwaysOn WorkSpace untuk pengguna tertentu, menggunakan direktori dan bundel yang ditentukan.  

```
aws workspaces create-workspaces \
    --workspaces DirectoryId=d-926722edaf,UserName=Mateo,BundleId=wsb-0zsvgp8fc
```
Output:  

```
{
    "FailedRequests": [],
    "PendingRequests": [
        {
            "WorkspaceId": "ws-kcqms853t",
            "DirectoryId": "d-926722edaf",
            "UserName": "Mateo",
            "State": "PENDING",
            "BundleId": "wsb-0zsvgp8fc"
        }
    ]
}
```
**Contoh 2: Untuk membuat AutoStop WorkSpace**  
`create-workspaces`Contoh berikut menciptakan AutoStop WorkSpace untuk pengguna tertentu, menggunakan direktori dan bundel yang ditentukan.  

```
aws workspaces create-workspaces \
    --workspaces DirectoryId=d-926722edaf,UserName=Mary,BundleId=wsb-0zsvgp8fc,WorkspaceProperties={RunningMode=AUTO_STOP}
```
Output:  

```
{
    "FailedRequests": [],
    "PendingRequests": [
        {
            "WorkspaceId": "ws-dk1xzr417",
            "DirectoryId": "d-926722edaf",
            "UserName": "Mary",
            "State": "PENDING",
            "BundleId": "wsb-0zsvgp8fc"
        }
    ]
}
```
**Contoh 3: Untuk membuat user-decoupled WorkSpace**  
`create-workspaces`Contoh berikut membuat user-decoupled WorkSpace dengan menyetel nama pengguna ke`[UNDEFINED]`, dan menentukan nama, ID direktori, dan WorkSpace ID bundel.  

```
aws workspaces create-workspaces \
    --workspaces DirectoryId=d-926722edaf,UserName='"[UNDEFINED]"',WorkspaceName=MaryWorkspace1,BundleId=wsb-0zsvgp8fc,WorkspaceProperties={RunningMode=ALWAYS_ON}
```
Output:  

```
{
    "FailedRequests": [],
    "PendingRequests": [
        {
            "WorkspaceId": "ws-abcd1234",
            "DirectoryId": "d-926722edaf",
            "UserName": "[UNDEFINED]",
            "State": "PENDING",
            "BundleId": "wsb-0zsvgp8fc",
            "WorkspaceName": "MaryWorkspace1"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Meluncurkan desktop virtual](https://docs.aws.amazon.com/workspaces/latest/adminguide/launch-workspaces-tutorials.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [CreateWorkspaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/create-workspaces.html)di *Referensi AWS CLI Perintah*. 

### `delete-tags`
<a name="workspaces_DeleteTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-tags`.

**AWS CLI**  
**Untuk menghapus tag dari WorkSpace**  
`delete-tags`Contoh berikut menghapus tag yang ditentukan dari yang ditentukan WorkSpace.  

```
aws workspaces delete-tags \
    --resource-id ws-dk1xzr417 \
    --tag-keys Department
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Menandai WorkSpaces sumber daya](https://docs.aws.amazon.com/workspaces/latest/adminguide/tag-workspaces-resources.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [DeleteTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/delete-tags.html)di *Referensi AWS CLI Perintah*. 

### `deregister-workspace-directory`
<a name="workspaces_DeregisterWorkspaceDirectory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deregister-workspace-directory`.

**AWS CLI**  
**Untuk membatalkan pendaftaran direktori**  
`deregister-workspace-directory`Contoh berikut membatalkan pendaftaran direktori yang ditentukan.  

```
aws workspaces deregister-workspace-directory \
    --directory-id d-926722edaf
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendaftarkan direktori dengan WorkSpaces](https://docs.aws.amazon.com/workspaces/latest/adminguide/register-deregister-directory.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [DeregisterWorkspaceDirectory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/deregister-workspace-directory.html)di *Referensi AWS CLI Perintah*. 

### `describe-tags`
<a name="workspaces_DescribeTags_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-tags`.

**AWS CLI**  
**Untuk menggambarkan tag untuk WorkSpace**  
`describe-tags`Contoh berikut menjelaskan tag untuk yang ditentukan WorkSpace.  

```
aws workspaces describe-tags \
    --resource-id ws-dk1xzr417
```
Output:  

```
{
    "TagList": [
        {
            "Key": "Department",
            "Value": "Finance"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menandai WorkSpaces sumber daya](https://docs.aws.amazon.com/workspaces/latest/adminguide/tag-workspaces-resources.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/describe-tags.html)di *Referensi AWS CLI Perintah*. 

### `describe-workspace-bundles`
<a name="workspaces_DescribeWorkspaceBundles_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-workspace-bundles`.

**AWS CLI**  
**Untuk membuat daftar bundel yang disediakan oleh Amazon**  
`describe-workspace-bundles`Contoh berikut mencantumkan nama dan bundel IDs yang disediakan oleh Amazon, dalam format tabel dan diurutkan berdasarkan nama.  

```
aws workspaces describe-workspace-bundles \
    --owner AMAZON \
    --query "Bundles[*].[Name, BundleId]"
```
Output:  

```
[
    [
        "Standard with Amazon Linux 2",
        "wsb-clj85qzj1"
    ],
    [
        "Performance with Windows 10 (Server 2016 based)",
        "wsb-gm4d5tx2v"
    ],
    [
        "PowerPro with Windows 7",
        "wsb-1pzkp0bx4"
    ],
    [
        "Power with Amazon Linux 2",
        "wsb-2bs6k5lgn"
    ],
    [
        "Graphics with Windows 10 (Server 2019 based)",
        "wsb-03gyjnfyy"
    ],
    ...
]
```
Untuk informasi selengkapnya, lihat [WorkSpaces bundel dan gambar](https://docs.aws.amazon.com/workspaces/latest/adminguide/amazon-workspaces-bundles.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [DescribeWorkspaceBundles](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/describe-workspace-bundles.html)di *Referensi AWS CLI Perintah*. 

### `describe-workspace-directories`
<a name="workspaces_DescribeWorkspaceDirectories_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-workspace-directories`.

**AWS CLI**  
**Untuk mendeskripsikan direktori terdaftar**  
`describe-workspace-directories`Contoh berikut menjelaskan direktori terdaftar yang ditentukan.  

```
aws workspaces describe-workspace-directories \
    --directory-ids d-926722edaf
```
Output:  

```
{
    "Directories": [
        {
            "DirectoryId": "d-926722edaf",
            "Alias": "d-926722edaf",
            "DirectoryName": "example.com",
            "RegistrationCode": "WSpdx+9RJ8JT",
            "SubnetIds": [
                "subnet-9d19c4c6",
                "subnet-500d5819"
            ],
            "DnsIpAddresses": [
                "172.16.1.140",
                "172.16.0.30"
            ],
            "CustomerUserName": "Administrator",
            "IamRoleId": "arn:aws:iam::123456789012:role/workspaces_DefaultRole",
            "DirectoryType": "SIMPLE_AD",
            "WorkspaceSecurityGroupId": "sg-0d89e927e5645d7c5",
            "State": "REGISTERED",
            "WorkspaceCreationProperties": {
                "EnableInternetAccess": false,
                "UserEnabledAsLocalAdministrator": true,
                "EnableMaintenanceMode": true
            },
            "WorkspaceAccessProperties": {
                "DeviceTypeWindows": "ALLOW",
                "DeviceTypeOsx": "ALLOW",
                "DeviceTypeWeb": "DENY",
                "DeviceTypeIos": "ALLOW",
                "DeviceTypeAndroid": "ALLOW",
                "DeviceTypeChromeOs": "ALLOW",
                "DeviceTypeZeroClient": "ALLOW",
                "DeviceTypeLinux": "DENY"
            },
            "Tenancy": "SHARED",
            "SelfservicePermissions": {
                "RestartWorkspace": "ENABLED",
                "IncreaseVolumeSize": "DISABLED",
                "ChangeComputeType": "DISABLED",
                "SwitchRunningMode": "DISABLED",
                "RebuildWorkspace": "DISABLED"
            }
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola direktori untuk WorkSpaces Pribadi](https://docs.aws.amazon.com/workspaces/latest/adminguide/manage-workspaces-directory.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [DescribeWorkspaceDirectories](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/describe-workspace-directories.html)di *Referensi AWS CLI Perintah*. 

### `describe-workspaces-connection-status`
<a name="workspaces_DescribeWorkspacesConnectionStatus_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-workspaces-connection-status`.

**AWS CLI**  
**Untuk menggambarkan status koneksi dari WorkSpace**  
`describe-workspaces-connection-status`Contoh berikut menjelaskan status koneksi yang ditentukan WorkSpace.  

```
aws workspaces describe-workspaces-connection-status \
    --workspace-ids ws-dk1xzr417
```
Output:  

```
{
    "WorkspacesConnectionStatus": [
        {
            "WorkspaceId": "ws-dk1xzr417",
            "ConnectionState": "CONNECTED",
            "ConnectionStateCheckTimestamp": 1662526214.744
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Anda WorkSpaces](https://docs.aws.amazon.com/workspaces/latest/adminguide/administer-workspaces.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [DescribeWorkspacesConnectionStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/describe-workspaces-connection-status.html)di *Referensi AWS CLI Perintah*. 

### `describe-workspaces`
<a name="workspaces_DescribeWorkspaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`describe-workspaces`.

**AWS CLI**  
**Untuk menggambarkan a WorkSpace**  
`describe-workspaces`Contoh berikut menjelaskan yang ditentukan WorkSpace.  

```
aws workspaces describe-workspaces \
    --workspace-ids ws-dk1xzr417
```
Output:  

```
{
    "Workspaces": [
        {
            "WorkspaceId": "ws-dk1xzr417",
            "DirectoryId": "d-926722edaf",
            "UserName": "Mary",
            "IpAddress": "172.16.0.175",
            "State": "STOPPED",
            "BundleId": "wsb-0zsvgp8fc",
            "SubnetId": "subnet-500d5819",
            "ComputerName": "WSAMZN-RBSLTTD9",
            "WorkspaceProperties": {
                "RunningMode": "AUTO_STOP",
                "RunningModeAutoStopTimeoutInMinutes": 60,
                "RootVolumeSizeGib": 80,
                "UserVolumeSizeGib": 10,
                "ComputeTypeName": "VALUE"
            },
            "ModificationStates": []
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengelola Anda WorkSpaces](https://docs.aws.amazon.com/workspaces/latest/adminguide/administer-workspaces.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [DescribeWorkspaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/describe-workspaces.html)di *Referensi AWS CLI Perintah*. 

### `migrate-workspace`
<a name="workspaces_MigrateWorkspace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`migrate-workspace`.

**AWS CLI**  
**Untuk memigrasikan a WorkSpace**  
`migrate-workspace`Contoh berikut memigrasikan yang ditentukan WorkSpace ke bundel yang ditentukan.  

```
aws workspaces migrate-workspace \
    --source-workspace-id ws-dk1xzr417 \
    --bundle-id wsb-j4dky1gs4
```
Output:  

```
{
    "SourceWorkspaceId": "ws-dk1xzr417",
    "TargetWorkspaceId": "ws-x5h1lbkp5"
}
```
Untuk informasi selengkapnya, lihat [Memigrasi a WorkSpace](https://docs.aws.amazon.com/workspaces/latest/adminguide/migrate-workspaces.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [MigrateWorkspace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/migrate-workspace.html)di *Referensi AWS CLI Perintah*. 

### `modify-workspace-creation-properties`
<a name="workspaces_ModifyWorkspaceCreationProperties_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-workspace-creation-properties`.

**AWS CLI**  
**Untuk memodifikasi properti WorkSpace penciptaan direktori**  
`modify-workspace-creation-properties`Contoh berikut memungkinkan `EnableInternetAccess` properti untuk direktori tertentu. Ini memungkinkan penetapan otomatis alamat IP publik untuk yang WorkSpaces dibuat untuk direktori.  

```
aws workspaces modify-workspace-creation-properties \
    --resource-id d-926722edaf \
    --workspace-creation-properties EnableInternetAccess=true
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Perbarui detail direktori untuk Anda WorkSpaces](https://docs.aws.amazon.com/workspaces/latest/adminguide/update-directory-details.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [ModifyWorkspaceCreationProperties](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/modify-workspace-creation-properties.html)di *Referensi AWS CLI Perintah*. 

### `modify-workspace-properties`
<a name="workspaces_ModifyWorkspaceProperties_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-workspace-properties`.

**AWS CLI**  
**Untuk memodifikasi mode berjalan WorkSpace**  
`modify-workspace-properties`Contoh berikut menetapkan mode berjalan dari yang ditentukan WorkSpace untuk`AUTO_STOP`.  

```
aws workspaces modify-workspace-properties \
    --workspace-id ws-dk1xzr417 \
    --workspace-properties RunningMode=AUTO_STOP
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memodifikasi WorkSpace](https://docs.aws.amazon.com/workspaces/latest/adminguide/modify-workspaces.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [ModifyWorkspaceProperties](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/modify-workspace-properties.html)di *Referensi AWS CLI Perintah*. 

### `modify-workspace-state`
<a name="workspaces_ModifyWorkspaceState_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`modify-workspace-state`.

**AWS CLI**  
**Untuk memodifikasi keadaan a WorkSpace**  
`modify-workspace-state`Contoh berikut menetapkan keadaan yang ditentukan WorkSpace untuk`ADMIN_MAINTENANCE`.  

```
aws workspaces modify-workspace-state \
    --workspace-id ws-dk1xzr417 \
    --workspace-state ADMIN_MAINTENANCE
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [WorkSpace pemeliharaan](https://docs.aws.amazon.com/workspaces/latest/adminguide/workspace-maintenance.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [ModifyWorkspaceState](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/modify-workspace-state.html)di *Referensi AWS CLI Perintah*. 

### `reboot-workspaces`
<a name="workspaces_RebootWorkspaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`reboot-workspaces`.

**AWS CLI**  
**Untuk me-reboot WorkSpace**  
`reboot-workspaces`Contoh berikut reboot yang ditentukan WorkSpace.  

```
aws workspaces reboot-workspaces \
    --reboot-workspace-requests ws-dk1xzr417
```
Output:  

```
{
    "FailedRequests": []
}
```
Untuk informasi selengkapnya, lihat [Reboot a WorkSpace](https://docs.aws.amazon.com/workspaces/latest/adminguide/reboot-workspaces.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [RebootWorkspaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/reboot-workspaces.html)di *Referensi AWS CLI Perintah*. 

### `rebuild-workspaces`
<a name="workspaces_RebuildWorkspaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`rebuild-workspaces`.

**AWS CLI**  
**Untuk membangun kembali a WorkSpace**  
`rebuild-workspaces`Contoh berikut membangun kembali yang ditentukan. WorkSpace  

```
aws workspaces rebuild-workspaces \
    --rebuild-workspace-requests ws-dk1xzr417
```
Output:  

```
{
    "FailedRequests": []
}
```
Untuk informasi selengkapnya, lihat [Membangun kembali WorkSpace](https://docs.aws.amazon.com/workspaces/latest/adminguide/rebuild-workspace.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [RebuildWorkspaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/rebuild-workspaces.html)di *Referensi AWS CLI Perintah*. 

### `register-workspace-directory`
<a name="workspaces_RegisterWorkspaceDirectory_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`register-workspace-directory`.

**AWS CLI**  
**Untuk mendaftarkan direktori**  
`register-workspace-directory`Contoh berikut mendaftarkan direktori yang ditentukan untuk digunakan dengan Amazon WorkSpaces.  

```
aws workspaces register-workspace-directory \
    --directory-id d-926722edaf
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mendaftarkan AWS direktori Directory Service yang ada dengan WorkSpaces Personal](https://docs.aws.amazon.com/workspaces/latest/adminguide/register-deregister-directory.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [RegisterWorkspaceDirectory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/register-workspace-directory.html)di *Referensi AWS CLI Perintah*. 

### `restore-workspace`
<a name="workspaces_RestoreWorkspace_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`restore-workspace`.

**AWS CLI**  
**Untuk mengembalikan WorkSpace**  
`restore-workspace`Contoh berikut mengembalikan yang ditentukan WorkSpace.  

```
aws workspaces restore-workspace \
    --workspace-id ws-dk1xzr417
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Memulihkan a WorkSpace](https://docs.aws.amazon.com/workspaces/latest/adminguide/restore-workspace.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [RestoreWorkspace](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/restore-workspace.html)di *Referensi AWS CLI Perintah*. 

### `start-workspaces`
<a name="workspaces_StartWorkspaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`start-workspaces`.

**AWS CLI**  
**Untuk memulai sebuah AutoStop WorkSpace**  
`start-workspaces`Contoh berikut memulai yang ditentukan WorkSpace. WorkSpace Harus memiliki mode berjalan`AutoStop`.  

```
aws workspaces start-workspaces \
    --start-workspace-requests WorkspaceId=ws-dk1xzr417
```
Output:  

```
{
    "FailedRequests": []
}
```
Untuk informasi selengkapnya, lihat [Berhenti dan memulai AutoStop WorkSpace](https://docs.aws.amazon.com/workspaces/latest/adminguide/running-mode.html#stop-start-workspace) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [StartWorkspaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/start-workspaces.html)di *Referensi AWS CLI Perintah*. 

### `stop-workspaces`
<a name="workspaces_StopWorkspaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`stop-workspaces`.

**AWS CLI**  
**Untuk menghentikan sebuah AutoStop WorkSpace**  
`stop-workspaces`Contoh berikut menghentikan yang ditentukan WorkSpace. WorkSpace Harus memiliki mode berjalan`AutoStop`.  

```
aws workspaces stop-workspaces \
    --stop-workspace-requests WorkspaceId=ws-dk1xzr417
```
Output:  

```
{
    "FailedRequests": []
}
```
Untuk informasi selengkapnya, lihat [Berhenti dan memulai AutoStop WorkSpace](https://docs.aws.amazon.com/workspaces/latest/adminguide/running-mode.html#stop-start-workspace) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [StopWorkspaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/stop-workspaces.html)di *Referensi AWS CLI Perintah*. 

### `terminate-workspaces`
<a name="workspaces_TerminateWorkspaces_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`terminate-workspaces`.

**AWS CLI**  
**Untuk mengakhiri a WorkSpace**  
`terminate-workspaces`Contoh berikut mengakhiri ruang kerja yang ditentukan.  

```
aws workspaces terminate-workspaces \
    --terminate-workspace-requests ws-dk1xzr417
```
Output:  

```
{
    "FailedRequests": []
}
```
Untuk informasi selengkapnya, lihat [Menghapus a WorkSpace](https://docs.aws.amazon.com/workspaces/latest/adminguide/delete-workspaces.html) di *Panduan WorkSpaces Administrasi Amazon*.  
+  Untuk detail API, lihat [TerminateWorkspaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/workspaces/terminate-workspaces.html)di *Referensi AWS CLI Perintah*. 

# Contoh X-Ray menggunakan AWS CLI
<a name="cli_2_xray_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda bagaimana melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan X-Ray AWS Command Line Interface dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `batch-traces-get`
<a name="xray_BatchTracesGet_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`batch-traces-get`.

**AWS CLI**  
**Untuk mendapatkan daftar jejak**  
`batch-get-traces`Contoh berikut mengambil daftar jejak yang ditentukan oleh ID. Pelacakan lengkap mencakup dokumen untuk setiap segmen, dikompilasi dari semua dokumen segmen yang diterima dengan ID pelacakan yang sama.  

```
aws xray batch-get-traces \
    --trace-ids 1-5d82881a-0a9126e92a73e971eed891b9
```
Output:  

```
{
    "Traces": [
        {
            "Id": "1-5d82881a-0a9126e92a73e971eed891b9",
            "Duration": 0.232,
            "Segments": [
                {
                    "Id": "54aff5735b12dd28",
                    "Document": "{\"id\":\"54aff5735b12dd28\",\"name\":\"Scorekeep\",\"start_time\":1.568835610432E9,\"end_time\":1.568835610664E9,\"http\":{\"request\":{\"url\":\"http://scorekeep-env-1.m4fg2pfzpv.us-east-2.elasticbeanstalk.com/api/user\",\"method\":\"POST\",\"user_agent\":\"curl/7.59.0\",\"client_ip\":\"52.95.4.28\",\"x_forwarded_for\":true},\"response\":{\"status\":200}},\"aws\":{\"elastic_beanstalk\":{\"version_label\":\"Sample Application-1\",\"deployment_id\":3,\"environment_name\":\"Scorekeep-env-1\"},\"ec2\":{\"availability_zone\":\"us-east-2b\",\"instance_id\":\"i-0e3cf4d2de0f3f37a\"},\"xray\":{\"sdk_version\":\"1.1.0\",\"sdk\":\"X-Ray for Java\"}},\"service\":{\"runtime\":\"OpenJDK 64-Bit Server VM\",\"runtime_version\":\"1.8.0_222\"},\"trace_id\":\"1-5d82881a-0a9126e92a73e971eed891b9\",\"origin\":\"AWS::ElasticBeanstalk::Environment\",\"subsegments\":[{\"id\":\"2d6900034ccfe558\",\"name\":\"DynamoDB\",\"start_time\":1.568835610658E9,\"end_time\":1.568835610664E9,\"http\":{\"response\":{\"status\":200,\"content_length\":61}},\"aws\":{\"table_name\":\"scorekeep-user\",\"operation\":\"UpdateItem\",\"request_id\":\"TPEIDNDUROMLPOV17U4A79555NVV4KQNSO5AEMVJF66Q9ASUAAJG\",\"resource_names\":[\"scorekeep-user\"]},\"namespace\":\"aws\"}]}"
                },
                {
                    "Id": "0f278b6334c34e6b",
                    "Document": "{\"id\":\"0f278b6334c34e6b\",\"name\":\"DynamoDB\",\"start_time\":1.568835610658E9,\"end_time\":1.568835610664E9,\"parent_id\":\"2d6900034ccfe558\",\"inferred\":true,\"http\":{\"response\":{\"status\":200,\"content_length\":61}},\"aws\":{\"table_name\":\"scorekeep-user\",\"operation\":\"UpdateItem\",\"request_id\":\"TPEIDNDUROMLPOV17U4A79555NVV4KQNSO5AEMVJF66Q9ASUAAJG\",\"resource_names\":[\"scorekeep-user\"]},\"trace_id\":\"1-5d82881a-0a9126e92a73e971eed891b9\",\"origin\":\"AWS::DynamoDB::Table\"}"
                }
            ]
        }
    ],
    "UnprocessedTraceIds": []
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS X-Ray API dengan AWS CLI](https://docs.aws.amazon.com/xray/latest/devguide/xray-api-tutorial.html) di Panduan *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [BatchTracesGet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/batch-traces-get.html)di *Referensi AWS CLI Perintah*. 

### `create-group`
<a name="xray_CreateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-group`.

**AWS CLI**  
**Untuk membuat grup**  
`create-group`Contoh berikut membuat sumber daya grup bernama`AdminGroup`. Grup mendapatkan ekspresi filter yang mendefinisikan kriteria grup sebagai segmen yang terkait dengan layanan tertentu yang menyebabkan kesalahan atau kesalahan.  

```
aws xray create-group \
   --group-name "AdminGroup" \
   --filter-expression "service(\"mydomain.com\") {fault OR error}"
```
Output:  

```
{
    "GroupName": "AdminGroup",
    "GroupARN": "arn:aws:xray:us-west-2:123456789012:group/AdminGroup/123456789",
    "FilterExpression": "service(\"mydomain.com\") {fault OR error}"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html#xray-api-configuration-sampling) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [CreateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/create-group.html)di *Referensi AWS CLI Perintah*. 

### `create-sampling-rule`
<a name="xray_CreateSamplingRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`create-sampling-rule`.

**AWS CLI**  
**Untuk membuat aturan pengambilan sampel**  
`create-sampling-rule`Contoh berikut membuat aturan untuk mengontrol perilaku pengambilan sampel untuk aplikasi berinstrumen. Aturan disediakan oleh file JSON. Mayoritas bidang aturan pengambilan sampel diperlukan untuk membuat aturan.  

```
aws xray create-sampling-rule \
    --cli-input-json file://9000-base-scorekeep.json
```
Isi dari `9000-base-scorekeep.json`:  

```
{
    "SamplingRule": {
        "RuleName": "base-scorekeep",
        "ResourceARN": "*",
        "Priority": 9000,
        "FixedRate": 0.1,
        "ReservoirSize": 5,
        "ServiceName": "Scorekeep",
        "ServiceType": "*",
        "Host": "*",
        "HTTPMethod": "*",
        "URLPath": "*",
        "Version": 1
    }
}
```
Output:  

```
{
    "SamplingRuleRecord": {
        "SamplingRule": {
            "RuleName": "base-scorekeep",
            "RuleARN": "arn:aws:xray:us-west-2:123456789012:sampling-rule/base-scorekeep",
            "ResourceARN": "*",
            "Priority": 9000,
            "FixedRate": 0.1,
            "ReservoirSize": 5,
            "ServiceName": "Scorekeep",
            "ServiceType": "*",
            "Host": "*",
            "HTTPMethod": "*",
            "URLPath": "*",
            "Version": 1,
            "Attributes": {}
        },
        "CreatedAt": 1530574410.0,
        "ModifiedAt": 1530574410.0
    }
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html#xray-api-configuration-sampling) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [CreateSamplingRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/create-sampling-rule.html)di *Referensi AWS CLI Perintah*. 

### `delete-group`
<a name="xray_DeleteGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-group`.

**AWS CLI**  
**Untuk menghapus grup**  
`delete-group`Contoh berikut menghapus sumber daya grup yang ditentukan.  

```
aws xray delete-group \
    --group-name "AdminGroup" \
    --group-arn "arn:aws:xray:us-east-2:123456789012:group/AdminGroup/123456789"
```
Perintah ini tidak menghasilkan output.  
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html#xray-api-configuration-sampling) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [DeleteGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/delete-group.html)di *Referensi AWS CLI Perintah*. 

### `delete-sampling-rule`
<a name="xray_DeleteSamplingRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`delete-sampling-rule`.

**AWS CLI**  
**Untuk menghapus aturan pengambilan sampel**  
`delete-sampling-rule`Contoh berikut menghapus aturan sampling yang ditentukan. Anda dapat menentukan grup dengan menggunakan nama grup atau grup ARN.  

```
aws xray delete-sampling-rule \
    --rule-name polling-scorekeep
```
Output:  

```
{
    "SamplingRuleRecord": {
        "SamplingRule": {
            "RuleName": "polling-scorekeep",
            "RuleARN": "arn:aws:xray:us-west-2:123456789012:sampling-rule/polling-scorekeep",
            "ResourceARN": "*",
            "Priority": 5000,
            "FixedRate": 0.003,
            "ReservoirSize": 0,
            "ServiceName": "Scorekeep",
            "ServiceType": "*",
            "Host": "*",
            "HTTPMethod": "GET",
            "URLPath": "/api/state/*",
            "Version": 1,
            "Attributes": {}
        },
        "CreatedAt": 1530574399.0,
        "ModifiedAt": 1530574399.0
    }
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html#xray-api-configuration-sampling) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [DeleteSamplingRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/delete-sampling-rule.html)di *Referensi AWS CLI Perintah*. 

### `get-encryption-config`
<a name="xray_GetEncryptionConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-encryption-config`.

**AWS CLI**  
**Untuk mengambil konfigurasi enkripsi**  
`get-encryption-config`Contoh berikut mengambil konfigurasi enkripsi saat ini untuk data AWS X-Ray Anda.  

```
aws xray get-encryption-config
```
Output:  

```
{
    "EncryptionConfig": {
        "KeyId": "ae4aa6d49-a4d8-9df9-a475-4ff6d7898456",
        "Status": "ACTIVE",
        "Type": "NONE"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [GetEncryptionConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/get-encryption-config.html)di *Referensi AWS CLI Perintah*. 

### `get-group`
<a name="xray_GetGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-group`.

**AWS CLI**  
**Untuk mengambil grup**  
`get-group`Contoh berikut menampilkan rincian untuk sumber daya grup tertentu. Rinciannya mencakup nama grup, ARN grup, dan ekspresi filter yang menentukan kriteria untuk grup tersebut. Grup juga dapat diambil oleh ARN.  

```
aws xray get-group \
    --group-name "AdminGroup"
```
Output:  

```
{
    "Group": [
        {
            "GroupName": "AdminGroup",
            "GroupARN": "arn:aws:xray:us-west-2:123456789012:group/AdminGroup/123456789",
            "FilterExpression": "service(\"mydomain.com\") {fault OR error}"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html#xray-api-configuration-sampling) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [GetGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/get-group.html)di *Referensi AWS CLI Perintah*. 

### `get-groups`
<a name="xray_GetGroups_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-groups`.

**AWS CLI**  
**Untuk mengambil semua grup**  
Contoh berikut menampilkan rincian untuk semua grup aktif.  

```
aws xray get-groups
```
Output:  

```
{
    "Groups": [
        {
            "GroupName": "AdminGroup",
            "GroupARN": "arn:aws:xray:us-west-2:123456789012:group/AdminGroup/123456789",
            "FilterExpression": "service(\"example.com\") {fault OR error}"
        },
        {
            "GroupName": "SDETGroup",
            "GroupARN": "arn:aws:xray:us-west-2:123456789012:group/SDETGroup/987654321",
            "FilterExpression": "responsetime > 2"
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html#xray-api-configuration-sampling) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [GetGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/get-groups.html)di *Referensi AWS CLI Perintah*. 

### `get-sampling-rules`
<a name="xray_GetSamplingRules_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sampling-rules`.

**AWS CLI**  
**Untuk mengambil semua aturan pengambilan sampel**  
`get-sampling-rules`Contoh berikut menampilkan rincian untuk semua aturan sampling yang tersedia. :  

```
aws xray get-sampling-rules
```
Output:  

```
{
    "SamplingRuleRecords": [
        {
            "SamplingRule": {
                "RuleName": "Default",
                "RuleARN": "arn:aws:xray:us-east-1::sampling-rule/Default",
                "ResourceARN": "*",
                "Priority": 10000,
                "FixedRate": 0.01,
                "ReservoirSize": 0,
                "ServiceName": "*",
                "ServiceType": "*",
                "Host": "*",
                "HTTPMethod": "*",
                "URLPath": "*",
                "Version": 1,
                "Attributes": {}
            },
            "CreatedAt": 0.0,
            "ModifiedAt": 1530558121.0
        },
        {
            "SamplingRule": {
                "RuleName": "base-scorekeep",
                "RuleARN": "arn:aws:xray:us-east-1::sampling-rule/base-scorekeep",
                "ResourceARN": "*",
                "Priority": 9000,
                "FixedRate": 0.1,
                "ReservoirSize": 2,
                "ServiceName": "Scorekeep",
                "ServiceType": "*",
                "Host": "*",
                "HTTPMethod": "*",
                "URLPath": "*",
                "Version": 1,
                "Attributes": {}
            },
            "CreatedAt": 1530573954.0,
            "ModifiedAt": 1530920505.0
        },
        {
            "SamplingRule": {
                "RuleName": "polling-scorekeep",
                "RuleARN": "arn:aws:xray:us-east-1::sampling-rule/polling-scorekeep",
                "ResourceARN": "*",
                "Priority": 5000,
                "FixedRate": 0.003,
                "ReservoirSize": 0,
                "ServiceName": "Scorekeep",
                "ServiceType": "*",
                "Host": "*",
                "HTTPMethod": "GET",
                "URLPath": "/api/state/*",
                "Version": 1,
                "Attributes": {}
            },
            "CreatedAt": 1530918163.0,
            "ModifiedAt": 1530918163.0
        }
    ]
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Aturan Pengambilan Sampel dengan X-Ray API](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-sampling.html) di *Panduan Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [GetSamplingRules](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/get-sampling-rules.html)di *Referensi AWS CLI Perintah*. 

### `get-sampling-targets`
<a name="xray_GetSamplingTargets_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-sampling-targets`.

**AWS CLI**  
**Untuk meminta kuota sampling**  
`get-sampling-targets`Contoh berikut meminta kuota sampling untuk aturan yang digunakan layanan untuk sampel permintaan. Tanggapan dari AWS X-Ray termasuk kuota yang dapat digunakan sebagai pengganti meminjam dari reservoir.  

```
aws xray get-sampling-targets \
    --sampling-statistics-documents '[ { "RuleName": "base-scorekeep", "ClientID": "ABCDEF1234567890ABCDEF10", "Timestamp": "2018-07-07T00:20:06, "RequestCount": 110, "SampledCount": 20, "BorrowCount": 10 }, { "RuleName": "polling-scorekeep", 31, "BorrowCount": 0 } ]'
```
Output:  

```
{
    "SamplingTargetDocuments": [
        {
            "RuleName": "base-scorekeep",
            "FixedRate": 0.1,
            "ReservoirQuota": 2,
            "ReservoirQuotaTTL": 1530923107.0,
            "Interval": 10
        },
        {
            "RuleName": "polling-scorekeep",
            "FixedRate": 0.003,
            "ReservoirQuota": 0,
            "ReservoirQuotaTTL": 1530923107.0,
            "Interval": 10
        }
    ],
    "LastRuleModification": 1530920505.0,
    "UnprocessedStatistics": []
}
```
Untuk informasi selengkapnya, lihat [Menggunakan Aturan Pengambilan Sampel dengan X-Ray API](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-sampling.html) di *Panduan Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [GetSamplingTargets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/get-sampling-targets.html)di *Referensi AWS CLI Perintah*. 

### `get-service-graph`
<a name="xray_GetServiceGraph_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-service-graph`.

**AWS CLI**  
**Untuk mendapatkan grafik layanan**  
Contoh berikut menampilkan dokumen dalam jangka waktu tertentu yang menjelaskan layanan yang memproses permintaan masuk, dan layanan hilir yang mereka panggil sebagai hasilnya. :  

```
aws xray get-service-graph \
    --start-time 1568835392.0
    --end-time 1568835446.0
```
Output:  

```
{
    "Services": [
        {
            "ReferenceId": 0,
            "Name": "Scorekeep",
            "Names": [
                "Scorekeep"
            ],
            "Root": true,
            "Type": "AWS::ElasticBeanstalk::Environment",
            "State": "active",
            "StartTime": 1568835392.0,
            "EndTime": 1568835446.0,
            "Edges": [
                {
                    "ReferenceId": 1,
                    "StartTime": 1568835392.0,
                    "EndTime": 1568835446.0,
                    "SummaryStatistics": {
                        "OkCount": 14,
                        "ErrorStatistics": {
                            "ThrottleCount": 0,
                            "OtherCount": 0,
                            "TotalCount": 0
                        },
                        "FaultStatistics": {
                            "OtherCount": 0,
                            "TotalCount": 0
                        },
                        "TotalCount": 14,
                        "TotalResponseTime": 0.13
                    },
                    "ResponseTimeHistogram": [
                        {
                            "Value": 0.008,
                            "Count": 1
                        },
                        {
                            "Value": 0.005,
                            "Count": 7
                        },
                        {
                            "Value": 0.009,
                            "Count": 1
                        },
                        {
                            "Value": 0.021,
                            "Count": 1
                        },
                        {
                            "Value": 0.038,
                            "Count": 1
                        },
                        {
                            "Value": 0.007,
                            "Count": 1
                        },
                        {
                            "Value": 0.006,
                            "Count": 2
                        }
                    ],
                    "Aliases": []
                },

                ... TRUNCATED FOR BREVITY ...

            ]
        }
    ],
    "StartTime": 1568835392.0,
    "EndTime": 1568835446.0,
    "ContainsOldGroupVersions": false
}
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS X-Ray API dengan AWS CLI](https://docs.aws.amazon.com/xray/latest/devguide/xray-api-tutorial.html) di Panduan *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [GetServiceGraph](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/get-service-graph.html)di *Referensi AWS CLI Perintah*. 

### `get-trace-summaries`
<a name="xray_GetTraceSummaries_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`get-trace-summaries`.

**AWS CLI**  
**Untuk mendapatkan ringkasan jejak**  
`get-trace-summaries`Contoh berikut mengambil IDs dan metadata untuk jejak yang tersedia dalam jangka waktu tertentu.  

```
aws xray get-trace-summaries \
    --start-time 1568835392.0 \
    --end-time 1568835446.0
```
Output:  

```
[
    "http://scorekeep-env-1.123456789.us-east-2.elasticbeanstalk.com/api/move/VSAE93HF/GSSD2NTB/DP0PCC09",
    "http://scorekeep-env-1.123456789.us-east-2.elasticbeanstalk.com/api/move/GCQ2B35P/FREELDFT/4LRE643M",
    "http://scorekeep-env-1.123456789.us-east-2.elasticbeanstalk.com/api/game/VSAE93HF/GSSD2NTB/starttime/1568835513",
    "http://scorekeep-env-1.123456789.us-east-2.elasticbeanstalk.com/api/move/4MQNA5NN/L99KK2RF/null"
]
```
Untuk informasi selengkapnya, lihat [Menggunakan AWS X-Ray API dengan AWS CLI](https://docs.aws.amazon.com/xray/latest/devguide/xray-api-tutorial.html) di Panduan *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [GetTraceSummaries](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/get-trace-summaries.html)di *Referensi AWS CLI Perintah*. 

### `put-encryption-config`
<a name="xray_PutEncryptionConfig_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-encryption-config`.

**AWS CLI**  
**Untuk memperbarui konfigurasi enkripsi**  
Berikut ini`put-encryption-config``example updates the encryption configuration for AWS X-Ray data to use the default AWS managed KMS key ``aws/xray`.  

```
aws xray put-encryption-config \
    --type KMS \
    --key-id alias/aws/xray
```
Output:  

```
{
    "EncryptionConfig": {
        "KeyId": "arn:aws:kms:us-west-2:123456789012:key/c234g4e8-39e9-4gb0-84e2-b0ea215cbba5",
        "Status": "UPDATING",
        "Type": "KMS"
    }
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [PutEncryptionConfig](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/put-encryption-config.html)di *Referensi AWS CLI Perintah*. 

### `put-trace-segments`
<a name="xray_PutTraceSegments_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`put-trace-segments`.

**AWS CLI**  
**Untuk mengunggah segmen**  
`put-trace-segments`Contoh berikut mengunggah dokumen segmen ke AWS X-Ray. Dokumen segmen dikonsumsi sebagai daftar dokumen segmen JSON.  

```
aws xray put-trace-segments \
    --trace-segment-documents "{\"id\":\"20312a0e2b8809f4\",\"name\":\"DynamoDB\",\"trace_id\":\"1-5832862d-a43aafded3334a971fe312db\",\"start_time\":1.479706157195E9,\"end_time\":1.479706157202E9,\"parent_id\":\"79736b962fe3239e\",\"http\":{\"response\":{\"content_length\":60,\"status\":200}},\"inferred\":true,\"aws\":{\"consistent_read\":false,\"table_name\":\"scorekeep-session-xray\",\"operation\":\"GetItem\",\"request_id\":\"SCAU23OM6M8FO38UASGC7785ARVV4KQNSO5AEMVJF66Q9ASUAAJG\",\"resource_names\":[\"scorekeep-session-xray\"]},\"origin\":\"AWS::DynamoDB::Table\"}"
```
Output:  

```
{
    "UnprocessedTraceSegments": []
}
```
Untuk informasi selengkapnya, lihat [Mengirim Data Jejak ke AWS X-Ray](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-sendingdata.html#xray-api-segments) di *Panduan Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [PutTraceSegments](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/put-trace-segments.html)di *Referensi AWS CLI Perintah*. 

### `update-group`
<a name="xray_UpdateGroup_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-group`.

**AWS CLI**  
**Untuk memperbarui grup**  
`update-group`Contoh berikut memperbarui kriteria yang digunakan untuk menerima jejak ke dalam grup bernama`AdminGroup`. Anda dapat menentukan grup yang diinginkan dengan menggunakan nama grup atau grup ARN.  

```
aws xray update-group \
    --group-name "AdminGroup" \
    --group-arn "arn:aws:xray:us-west-2:123456789012:group/AdminGroup/123456789" \
    --filter-expression "service(\"mydomain.com\") {fault}"
```
Output:  

```
{
    "GroupName": "AdminGroup",
    "GroupARN": "arn:aws:xray:us-east-2:123456789012:group/AdminGroup/123456789",
    "FilterExpression": "service(\"mydomain.com\") {fault}"
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html#xray-api-configuration-sampling) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [UpdateGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/update-group.html)di *Referensi AWS CLI Perintah*. 

### `update-sampling-rule`
<a name="xray_UpdateSamplingRule_cli_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`update-sampling-rule`.

**AWS CLI**  
**Untuk memperbarui aturan pengambilan sampel**  
`update-sampling-rule`Contoh berikut memodifikasi konfigurasi aturan sampling ini. Aturan dikonsumsi dari file JSON. Hanya bidang yang diperbarui yang diperlukan.  

```
aws xray update-sampling-rule \
   --cli-input-json file://1000-default.json
```
Isi dari `1000-default.json`:  

```
{
    "SamplingRuleUpdate": {
        "RuleName": "Default",
        "FixedRate": 0.01,
        "ReservoirSize": 0
    }
}
```
Output:  

```
{
    "SamplingRuleRecords": [
        {
            "SamplingRule": {
                "RuleName": "Default",
                "RuleARN": "arn:aws:xray:us-west-2:123456789012:sampling-rule/Default",
                "ResourceARN": "*",
                "Priority": 10000,
                "FixedRate": 0.01,
                "ReservoirSize": 0,
                "ServiceName": "*",
                "ServiceType": "*",
                "Host": "*",
                "HTTPMethod": "*",
                "URLPath": "*",
                "Version": 1,
                "Attributes": {}
            },
            "CreatedAt": 0.0,
            "ModifiedAt": 1529959993.0
        }
   ]
}
```
Untuk informasi selengkapnya, lihat [Mengonfigurasi Pengaturan Pengambilan Sampel, Grup, dan Enkripsi dengan AWS X-Ray API di Panduan](https://docs.aws.amazon.com/en_pv/xray/latest/devguide/xray-api-configuration.html#xray-api-configuration-sampling) *Pengembang AWS X-Ray*.  
+  Untuk detail API, lihat [UpdateSamplingRule](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/xray/update-sampling-rule.html)di *Referensi AWS CLI Perintah*. 

# Contoh kode untuk SDK for Go V2
<a name="go_2_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk Go V2 dengan AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  Panduan **[Pengembang SDK for Go V2](https://aws.github.io/aws-sdk-go-v2/docs/)** — Selengkapnya tentang menggunakan Go AWS with. 
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23go)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [API Gateway](go_2_api-gateway_code_examples.md)
+ [Aurora](go_2_aurora_code_examples.md)
+ [Amazon Bedrock](go_2_bedrock_code_examples.md)
+ [Waktu Jalan Amazon Bedrock](go_2_bedrock-runtime_code_examples.md)
+ [CloudFormation](go_2_cloudformation_code_examples.md)
+ [CloudWatch Log](go_2_cloudwatch-logs_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](go_2_cognito-identity-provider_code_examples.md)
+ [Amazon DocumentDB](go_2_docdb_code_examples.md)
+ [DynamoDB](go_2_dynamodb_code_examples.md)
+ [IAM](go_2_iam_code_examples.md)
+ [Kinesis](go_2_kinesis_code_examples.md)
+ [Lambda](go_2_lambda_code_examples.md)
+ [Amazon MSK](go_2_kafka_code_examples.md)
+ [Pusat Partner](go_2_partnercentral-selling_code_examples.md)
+ [Amazon RDS](go_2_rds_code_examples.md)
+ [Amazon Redshift](go_2_redshift_code_examples.md)
+ [Amazon S3](go_2_s3_code_examples.md)
+ [Amazon SNS](go_2_sns_code_examples.md)
+ [Amazon SQS](go_2_sqs_code_examples.md)

# Contoh API Gateway menggunakan SDK for Go V2
<a name="go_2_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan API Gateway.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [AWS kontribusi komunitas](#aws_community_contributions)

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_go_2_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk Go V2**  
 Menunjukkan cara membuat dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Go SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-go-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh Aurora menggunakan SDK for Go V2
<a name="go_2_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Aurora.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Aurora
<a name="aurora_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Aurora.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
package main

import (
	"context"
	"fmt"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/rds"
)

// main uses the AWS SDK for Go V2 to create an Amazon Aurora client and list up to 20
// DB clusters in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	auroraClient := rds.NewFromConfig(sdkConfig)
	const maxClusters = 20
	fmt.Printf("Let's list up to %v DB clusters.\n", maxClusters)
	output, err := auroraClient.DescribeDBClusters(
		ctx, &rds.DescribeDBClustersInput{MaxRecords: aws.Int32(maxClusters)})
	if err != nil {
		fmt.Printf("Couldn't list DB clusters: %v\n", err)
		return
	}
	if len(output.DBClusters) == 0 {
		fmt.Println("No DB clusters found.")
	} else {
		for _, cluster := range output.DBClusters {
			fmt.Printf("DB cluster %v has database %v.\n", *cluster.DBClusterIdentifier,
				*cluster.DatabaseName)
		}
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusters) di *Referensi AWS SDK untuk Go API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="aurora_Scenario_GetStartedClusters_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter klaster DB Aurora dan mengatur nilai parameter.
+ Membuat klaster DB yang menggunakan grup parameter.
+ Membuat instans DB yang berisi basis data.
+ Mengambil snapshot klaster DB, lalu membersihkan sumber daya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 
Jalankan skenario interaktif di prompt perintah.  

```
import (
	"aurora/actions"
	"context"
	"fmt"
	"log"
	"slices"
	"sort"
	"strconv"
	"strings"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/google/uuid"
)

// GetStartedClusters is an interactive example that shows you how to use the AWS SDK for Go
// with Amazon Aurora to do the following:
//
// 1. Create a custom DB cluster parameter group and set parameter values.
// 2. Create an Aurora DB cluster that is configured to use the parameter group.
// 3. Create a DB instance in the DB cluster that contains a database.
// 4. Take a snapshot of the DB cluster.
// 5. Delete the DB instance, DB cluster, and parameter group.
type GetStartedClusters struct {
	sdkConfig  aws.Config
	dbClusters actions.DbClusters
	questioner demotools.IQuestioner
	helper     IScenarioHelper
	isTestRun  bool
}

// NewGetStartedClusters constructs a GetStartedClusters instance from a configuration.
// It uses the specified config to get an Amazon Relational Database Service (Amazon RDS)
// client and create wrappers for the actions used in the scenario.
func NewGetStartedClusters(sdkConfig aws.Config, questioner demotools.IQuestioner,
	helper IScenarioHelper) GetStartedClusters {
	auroraClient := rds.NewFromConfig(sdkConfig)
	return GetStartedClusters{
		sdkConfig:  sdkConfig,
		dbClusters: actions.DbClusters{AuroraClient: auroraClient},
		questioner: questioner,
		helper:     helper,
	}
}

// Run runs the interactive scenario.
func (scenario GetStartedClusters) Run(ctx context.Context, dbEngine string, parameterGroupName string,
	clusterName string, dbName string) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon Aurora DB Cluster demo.")
	log.Println(strings.Repeat("-", 88))

	parameterGroup := scenario.CreateParameterGroup(ctx, dbEngine, parameterGroupName)
	scenario.SetUserParameters(ctx, parameterGroupName)
	cluster := scenario.CreateCluster(ctx, clusterName, dbEngine, dbName, parameterGroup)
	scenario.helper.Pause(5)
	dbInstance := scenario.CreateInstance(ctx, cluster)
	scenario.DisplayConnection(cluster)
	scenario.CreateSnapshot(ctx, clusterName)
	scenario.Cleanup(ctx, dbInstance, cluster, parameterGroup)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}

// CreateParameterGroup shows how to get available engine versions for a specified
// database engine and create a DB cluster parameter group that is compatible with a
// selected engine family.
func (scenario GetStartedClusters) CreateParameterGroup(ctx context.Context, dbEngine string,
	parameterGroupName string) *types.DBClusterParameterGroup {

	log.Printf("Checking for an existing DB cluster parameter group named %v.\n",
		parameterGroupName)
	parameterGroup, err := scenario.dbClusters.GetParameterGroup(ctx, parameterGroupName)
	if err != nil {
		panic(err)
	}
	if parameterGroup == nil {
		log.Printf("Getting available database engine versions for %v.\n", dbEngine)
		engineVersions, err := scenario.dbClusters.GetEngineVersions(ctx, dbEngine, "")
		if err != nil {
			panic(err)
		}

		familySet := map[string]struct{}{}
		for _, family := range engineVersions {
			familySet[*family.DBParameterGroupFamily] = struct{}{}
		}
		var families []string
		for family := range familySet {
			families = append(families, family)
		}
		sort.Strings(families)
		familyIndex := scenario.questioner.AskChoice("Which family do you want to use?\n", families)
		log.Println("Creating a DB cluster parameter group.")
		_, err = scenario.dbClusters.CreateParameterGroup(
			ctx, parameterGroupName, families[familyIndex], "Example parameter group.")
		if err != nil {
			panic(err)
		}
		parameterGroup, err = scenario.dbClusters.GetParameterGroup(ctx, parameterGroupName)
		if err != nil {
			panic(err)
		}
	}
	log.Printf("Parameter group %v:\n", *parameterGroup.DBParameterGroupFamily)
	log.Printf("\tName: %v\n", *parameterGroup.DBClusterParameterGroupName)
	log.Printf("\tARN: %v\n", *parameterGroup.DBClusterParameterGroupArn)
	log.Printf("\tFamily: %v\n", *parameterGroup.DBParameterGroupFamily)
	log.Printf("\tDescription: %v\n", *parameterGroup.Description)
	log.Println(strings.Repeat("-", 88))
	return parameterGroup

}

// SetUserParameters shows how to get the parameters contained in a custom parameter
// group and update some of the parameter values in the group.
func (scenario GetStartedClusters) SetUserParameters(ctx context.Context, parameterGroupName string) {
	log.Println("Let's set some parameter values in your parameter group.")
	dbParameters, err := scenario.dbClusters.GetParameters(ctx, parameterGroupName, "")
	if err != nil {
		panic(err)
	}
	var updateParams []types.Parameter
	for _, dbParam := range dbParameters {
		if strings.HasPrefix(*dbParam.ParameterName, "auto_increment") &&
			*dbParam.IsModifiable && *dbParam.DataType == "integer" {
			log.Printf("The %v parameter is described as:\n\t%v",
				*dbParam.ParameterName, *dbParam.Description)
			rangeSplit := strings.Split(*dbParam.AllowedValues, "-")
			lower, _ := strconv.Atoi(rangeSplit[0])
			upper, _ := strconv.Atoi(rangeSplit[1])
			newValue := scenario.questioner.AskInt(
				fmt.Sprintf("Enter a value between %v and %v:", lower, upper),
				demotools.InIntRange{Lower: lower, Upper: upper})
			dbParam.ParameterValue = aws.String(strconv.Itoa(newValue))
			updateParams = append(updateParams, dbParam)
		}
	}
	err = scenario.dbClusters.UpdateParameters(ctx, parameterGroupName, updateParams)
	if err != nil {
		panic(err)
	}
	log.Println("You can get a list of parameters you've set by specifying a source of 'user'.")
	userParameters, err := scenario.dbClusters.GetParameters(ctx, parameterGroupName, "user")
	if err != nil {
		panic(err)
	}
	log.Println("Here are the parameters you've set:")
	for _, param := range userParameters {
		log.Printf("\t%v: %v\n", *param.ParameterName, *param.ParameterValue)
	}
	log.Println(strings.Repeat("-", 88))
}

// CreateCluster shows how to create an Aurora DB cluster that contains a database
// of a specified type. The database is also configured to use a custom DB cluster
// parameter group.
func (scenario GetStartedClusters) CreateCluster(ctx context.Context, clusterName string, dbEngine string,
	dbName string, parameterGroup *types.DBClusterParameterGroup) *types.DBCluster {

	log.Println("Checking for an existing DB cluster.")
	cluster, err := scenario.dbClusters.GetDbCluster(ctx, clusterName)
	if err != nil {
		panic(err)
	}
	if cluster == nil {
		adminUsername := scenario.questioner.Ask(
			"Enter an administrator user name for the database: ", demotools.NotEmpty{})
		adminPassword := scenario.questioner.Ask(
			"Enter a password for the administrator (at least 8 characters): ", demotools.NotEmpty{})
		engineVersions, err := scenario.dbClusters.GetEngineVersions(ctx, dbEngine, *parameterGroup.DBParameterGroupFamily)
		if err != nil {
			panic(err)
		}
		var engineChoices []string
		for _, engine := range engineVersions {
			engineChoices = append(engineChoices, *engine.EngineVersion)
		}
		log.Println("The available engines for your parameter group are:")
		engineIndex := scenario.questioner.AskChoice("Which engine do you want to use?\n", engineChoices)
		log.Printf("Creating DB cluster %v and database %v.\n", clusterName, dbName)
		log.Printf("The DB cluster is configured to use\nyour custom parameter group %v\n",
			*parameterGroup.DBClusterParameterGroupName)
		log.Printf("and selected engine %v.\n", engineChoices[engineIndex])
		log.Println("This typically takes several minutes.")
		cluster, err = scenario.dbClusters.CreateDbCluster(
			ctx, clusterName, *parameterGroup.DBClusterParameterGroupName, dbName, dbEngine,
			engineChoices[engineIndex], adminUsername, adminPassword)
		if err != nil {
			panic(err)
		}
		for *cluster.Status != "available" {
			scenario.helper.Pause(30)
			cluster, err = scenario.dbClusters.GetDbCluster(ctx, clusterName)
			if err != nil {
				panic(err)
			}
			log.Println("Cluster created and available.")
		}
	}
	log.Println("Cluster data:")
	log.Printf("\tDBClusterIdentifier: %v\n", *cluster.DBClusterIdentifier)
	log.Printf("\tARN: %v\n", *cluster.DBClusterArn)
	log.Printf("\tStatus: %v\n", *cluster.Status)
	log.Printf("\tEngine: %v\n", *cluster.Engine)
	log.Printf("\tEngine version: %v\n", *cluster.EngineVersion)
	log.Printf("\tDBClusterParameterGroup: %v\n", *cluster.DBClusterParameterGroup)
	log.Printf("\tEngineMode: %v\n", *cluster.EngineMode)
	log.Println(strings.Repeat("-", 88))
	return cluster
}

// CreateInstance shows how to create a DB instance in an existing Aurora DB cluster.
// A new DB cluster contains no DB instances, so you must add one. The first DB instance
// that is added to a DB cluster defaults to a read-write DB instance.
func (scenario GetStartedClusters) CreateInstance(ctx context.Context, cluster *types.DBCluster) *types.DBInstance {
	log.Println("Checking for an existing database instance.")
	dbInstance, err := scenario.dbClusters.GetInstance(ctx, *cluster.DBClusterIdentifier)
	if err != nil {
		panic(err)
	}
	if dbInstance == nil {
		log.Println("Let's create a database instance in your DB cluster.")
		log.Println("First, choose a DB instance type:")
		instOpts, err := scenario.dbClusters.GetOrderableInstances(
			ctx, *cluster.Engine, *cluster.EngineVersion)
		if err != nil {
			panic(err)
		}
		var instChoices []string
		for _, opt := range instOpts {
			instChoices = append(instChoices, *opt.DBInstanceClass)
		}
		slices.Sort(instChoices)
		instChoices = slices.Compact(instChoices)
		instIndex := scenario.questioner.AskChoice(
			"Which DB instance class do you want to use?\n", instChoices)
		log.Println("Creating a database instance. This typically takes several minutes.")
		dbInstance, err = scenario.dbClusters.CreateInstanceInCluster(
			ctx, *cluster.DBClusterIdentifier, *cluster.DBClusterIdentifier, *cluster.Engine,
			instChoices[instIndex])
		if err != nil {
			panic(err)
		}
		for *dbInstance.DBInstanceStatus != "available" {
			scenario.helper.Pause(30)
			dbInstance, err = scenario.dbClusters.GetInstance(ctx, *cluster.DBClusterIdentifier)
			if err != nil {
				panic(err)
			}
		}
	}
	log.Println("Instance data:")
	log.Printf("\tDBInstanceIdentifier: %v\n", *dbInstance.DBInstanceIdentifier)
	log.Printf("\tARN: %v\n", *dbInstance.DBInstanceArn)
	log.Printf("\tStatus: %v\n", *dbInstance.DBInstanceStatus)
	log.Printf("\tEngine: %v\n", *dbInstance.Engine)
	log.Printf("\tEngine version: %v\n", *dbInstance.EngineVersion)
	log.Println(strings.Repeat("-", 88))
	return dbInstance
}

// DisplayConnection displays connection information about an Aurora DB cluster and tips
// on how to connect to it.
func (scenario GetStartedClusters) DisplayConnection(cluster *types.DBCluster) {
	log.Println(
		"You can now connect to your database using your favorite MySql client.\n" +
			"One way to connect is by using the 'mysql' shell on an Amazon EC2 instance\n" +
			"that is running in the same VPC as your database cluster. Pass the endpoint,\n" +
			"port, and administrator user name to 'mysql' and enter your password\n" +
			"when prompted:")
	log.Printf("\n\tmysql -h %v -P %v -u %v -p\n",
		*cluster.Endpoint, *cluster.Port, *cluster.MasterUsername)
	log.Println("For more information, see the User Guide for Aurora:\n" +
		"\thttps://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/CHAP_GettingStartedAurora.CreatingConnecting.Aurora.html#CHAP_GettingStartedAurora.Aurora.Connect")
	log.Println(strings.Repeat("-", 88))
}

// CreateSnapshot shows how to create a DB cluster snapshot and wait until it's available.
func (scenario GetStartedClusters) CreateSnapshot(ctx context.Context, clusterName string) {
	if scenario.questioner.AskBool(
		"Do you want to create a snapshot of your DB cluster (y/n)? ", "y") {
		snapshotId := fmt.Sprintf("%v-%v", clusterName, scenario.helper.UniqueId())
		log.Printf("Creating a snapshot named %v. This typically takes a few minutes.\n", snapshotId)
		snapshot, err := scenario.dbClusters.CreateClusterSnapshot(ctx, clusterName, snapshotId)
		if err != nil {
			panic(err)
		}
		for *snapshot.Status != "available" {
			scenario.helper.Pause(30)
			snapshot, err = scenario.dbClusters.GetClusterSnapshot(ctx, snapshotId)
			if err != nil {
				panic(err)
			}
		}
		log.Println("Snapshot data:")
		log.Printf("\tDBClusterSnapshotIdentifier: %v\n", *snapshot.DBClusterSnapshotIdentifier)
		log.Printf("\tARN: %v\n", *snapshot.DBClusterSnapshotArn)
		log.Printf("\tStatus: %v\n", *snapshot.Status)
		log.Printf("\tEngine: %v\n", *snapshot.Engine)
		log.Printf("\tEngine version: %v\n", *snapshot.EngineVersion)
		log.Printf("\tDBClusterIdentifier: %v\n", *snapshot.DBClusterIdentifier)
		log.Printf("\tSnapshotCreateTime: %v\n", *snapshot.SnapshotCreateTime)
		log.Println(strings.Repeat("-", 88))
	}
}

// Cleanup shows how to clean up a DB instance, DB cluster, and DB cluster parameter group.
// Before the DB cluster parameter group can be deleted, all associated DB instances and
// DB clusters must first be deleted.
func (scenario GetStartedClusters) Cleanup(ctx context.Context, dbInstance *types.DBInstance, cluster *types.DBCluster,
	parameterGroup *types.DBClusterParameterGroup) {

	if scenario.questioner.AskBool(
		"\nDo you want to delete the database instance, DB cluster, and parameter group (y/n)? ", "y") {
		log.Printf("Deleting database instance %v.\n", *dbInstance.DBInstanceIdentifier)
		err := scenario.dbClusters.DeleteInstance(ctx, *dbInstance.DBInstanceIdentifier)
		if err != nil {
			panic(err)
		}
		log.Printf("Deleting database cluster %v.\n", *cluster.DBClusterIdentifier)
		err = scenario.dbClusters.DeleteDbCluster(ctx, *cluster.DBClusterIdentifier)
		if err != nil {
			panic(err)
		}
		log.Println(
			"Waiting for the DB instance and DB cluster to delete. This typically takes several minutes.")
		for dbInstance != nil || cluster != nil {
			scenario.helper.Pause(30)
			if dbInstance != nil {
				dbInstance, err = scenario.dbClusters.GetInstance(ctx, *dbInstance.DBInstanceIdentifier)
				if err != nil {
					panic(err)
				}
			}
			if cluster != nil {
				cluster, err = scenario.dbClusters.GetDbCluster(ctx, *cluster.DBClusterIdentifier)
				if err != nil {
					panic(err)
				}
			}
		}
		log.Printf("Deleting parameter group %v.", *parameterGroup.DBClusterParameterGroupName)
		err = scenario.dbClusters.DeleteParameterGroup(ctx, *parameterGroup.DBClusterParameterGroupName)
		if err != nil {
			panic(err)
		}
	}
}

// IScenarioHelper abstracts the function from a scenario so that it
// can be mocked for unit testing.
type IScenarioHelper interface {
	Pause(secs int)
	UniqueId() string
}
type ScenarioHelper struct{}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	time.Sleep(time.Duration(secs) * time.Second)
}

// UniqueId returns a new UUID.
func (helper ScenarioHelper) UniqueId() string {
	return uuid.New().String()
}
```
Tentukan fungsi-fungsi yang dipanggil oleh skenario untuk mengelola tindakan Aurora.  

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}


// GetParameterGroup gets a DB cluster parameter group by name.
func (clusters *DbClusters) GetParameterGroup(ctx context.Context, parameterGroupName string) (
	*types.DBClusterParameterGroup, error) {
	output, err := clusters.AuroraClient.DescribeDBClusterParameterGroups(
		ctx, &rds.DescribeDBClusterParameterGroupsInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
		})
	if err != nil {
		var notFoundError *types.DBParameterGroupNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("Parameter group %v does not exist.\n", parameterGroupName)
			err = nil
		} else {
			log.Printf("Error getting parameter group %v: %v\n", parameterGroupName, err)
		}
		return nil, err
	} else {
		return &output.DBClusterParameterGroups[0], err
	}
}


// CreateParameterGroup creates a DB cluster parameter group that is based on the specified
// parameter group family.
func (clusters *DbClusters) CreateParameterGroup(
	ctx context.Context, parameterGroupName string, parameterGroupFamily string, description string) (
	*types.DBClusterParameterGroup, error) {

	output, err := clusters.AuroraClient.CreateDBClusterParameterGroup(ctx,
		&rds.CreateDBClusterParameterGroupInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
			DBParameterGroupFamily:      aws.String(parameterGroupFamily),
			Description:                 aws.String(description),
		})
	if err != nil {
		log.Printf("Couldn't create parameter group %v: %v\n", parameterGroupName, err)
		return nil, err
	} else {
		return output.DBClusterParameterGroup, err
	}
}



// DeleteParameterGroup deletes the named DB cluster parameter group.
func (clusters *DbClusters) DeleteParameterGroup(ctx context.Context, parameterGroupName string) error {
	_, err := clusters.AuroraClient.DeleteDBClusterParameterGroup(ctx,
		&rds.DeleteDBClusterParameterGroupInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
		})
	if err != nil {
		log.Printf("Couldn't delete parameter group %v: %v\n", parameterGroupName, err)
		return err
	} else {
		return nil
	}
}



// GetParameters gets the parameters that are contained in a DB cluster parameter group.
func (clusters *DbClusters) GetParameters(ctx context.Context, parameterGroupName string, source string) (
	[]types.Parameter, error) {

	var output *rds.DescribeDBClusterParametersOutput
	var params []types.Parameter
	var err error
	parameterPaginator := rds.NewDescribeDBClusterParametersPaginator(clusters.AuroraClient,
		&rds.DescribeDBClusterParametersInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
			Source:                      aws.String(source),
		})
	for parameterPaginator.HasMorePages() {
		output, err = parameterPaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get paramaeters for %v: %v\n", parameterGroupName, err)
			break
		} else {
			params = append(params, output.Parameters...)
		}
	}
	return params, err
}



// UpdateParameters updates parameters in a named DB cluster parameter group.
func (clusters *DbClusters) UpdateParameters(ctx context.Context, parameterGroupName string, params []types.Parameter) error {
	_, err := clusters.AuroraClient.ModifyDBClusterParameterGroup(ctx,
		&rds.ModifyDBClusterParameterGroupInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
			Parameters:                  params,
		})
	if err != nil {
		log.Printf("Couldn't update parameters in %v: %v\n", parameterGroupName, err)
		return err
	} else {
		return nil
	}
}



// GetDbCluster gets data about an Aurora DB cluster.
func (clusters *DbClusters) GetDbCluster(ctx context.Context, clusterName string) (*types.DBCluster, error) {
	output, err := clusters.AuroraClient.DescribeDBClusters(ctx,
		&rds.DescribeDBClustersInput{
			DBClusterIdentifier: aws.String(clusterName),
		})
	if err != nil {
		var notFoundError *types.DBClusterNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("DB cluster %v does not exist.\n", clusterName)
			err = nil
		} else {
			log.Printf("Couldn't get DB cluster %v: %v\n", clusterName, err)
		}
		return nil, err
	} else {
		return &output.DBClusters[0], err
	}
}



// CreateDbCluster creates a DB cluster that is configured to use the specified parameter group.
// The newly created DB cluster contains a database that uses the specified engine and
// engine version.
func (clusters *DbClusters) CreateDbCluster(ctx context.Context, clusterName string, parameterGroupName string,
	dbName string, dbEngine string, dbEngineVersion string, adminName string, adminPassword string) (
	*types.DBCluster, error) {

	output, err := clusters.AuroraClient.CreateDBCluster(ctx, &rds.CreateDBClusterInput{
		DBClusterIdentifier:         aws.String(clusterName),
		Engine:                      aws.String(dbEngine),
		DBClusterParameterGroupName: aws.String(parameterGroupName),
		DatabaseName:                aws.String(dbName),
		EngineVersion:               aws.String(dbEngineVersion),
		MasterUserPassword:          aws.String(adminPassword),
		MasterUsername:              aws.String(adminName),
	})
	if err != nil {
		log.Printf("Couldn't create DB cluster %v: %v\n", clusterName, err)
		return nil, err
	} else {
		return output.DBCluster, err
	}
}



// DeleteDbCluster deletes a DB cluster without keeping a final snapshot.
func (clusters *DbClusters) DeleteDbCluster(ctx context.Context, clusterName string) error {
	_, err := clusters.AuroraClient.DeleteDBCluster(ctx, &rds.DeleteDBClusterInput{
		DBClusterIdentifier: aws.String(clusterName),
		SkipFinalSnapshot:   aws.Bool(true),
	})
	if err != nil {
		log.Printf("Couldn't delete DB cluster %v: %v\n", clusterName, err)
		return err
	} else {
		return nil
	}
}



// CreateClusterSnapshot creates a snapshot of a DB cluster.
func (clusters *DbClusters) CreateClusterSnapshot(ctx context.Context, clusterName string, snapshotName string) (
	*types.DBClusterSnapshot, error) {
	output, err := clusters.AuroraClient.CreateDBClusterSnapshot(ctx, &rds.CreateDBClusterSnapshotInput{
		DBClusterIdentifier:         aws.String(clusterName),
		DBClusterSnapshotIdentifier: aws.String(snapshotName),
	})
	if err != nil {
		log.Printf("Couldn't create snapshot %v: %v\n", snapshotName, err)
		return nil, err
	} else {
		return output.DBClusterSnapshot, nil
	}
}



// GetClusterSnapshot gets a DB cluster snapshot.
func (clusters *DbClusters) GetClusterSnapshot(ctx context.Context, snapshotName string) (*types.DBClusterSnapshot, error) {
	output, err := clusters.AuroraClient.DescribeDBClusterSnapshots(ctx,
		&rds.DescribeDBClusterSnapshotsInput{
			DBClusterSnapshotIdentifier: aws.String(snapshotName),
		})
	if err != nil {
		log.Printf("Couldn't get snapshot %v: %v\n", snapshotName, err)
		return nil, err
	} else {
		return &output.DBClusterSnapshots[0], nil
	}
}



// CreateInstanceInCluster creates a database instance in an existing DB cluster. The first database that is
// created defaults to a read-write DB instance.
func (clusters *DbClusters) CreateInstanceInCluster(ctx context.Context, clusterName string, instanceName string,
	dbEngine string, dbInstanceClass string) (*types.DBInstance, error) {
	output, err := clusters.AuroraClient.CreateDBInstance(ctx, &rds.CreateDBInstanceInput{
		DBInstanceIdentifier: aws.String(instanceName),
		DBClusterIdentifier:  aws.String(clusterName),
		Engine:               aws.String(dbEngine),
		DBInstanceClass:      aws.String(dbInstanceClass),
	})
	if err != nil {
		log.Printf("Couldn't create instance %v: %v\n", instanceName, err)
		return nil, err
	} else {
		return output.DBInstance, nil
	}
}



// GetInstance gets data about a DB instance.
func (clusters *DbClusters) GetInstance(ctx context.Context, instanceName string) (
	*types.DBInstance, error) {
	output, err := clusters.AuroraClient.DescribeDBInstances(ctx,
		&rds.DescribeDBInstancesInput{
			DBInstanceIdentifier: aws.String(instanceName),
		})
	if err != nil {
		var notFoundError *types.DBInstanceNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("DB instance %v does not exist.\n", instanceName)
			err = nil
		} else {
			log.Printf("Couldn't get instance %v: %v\n", instanceName, err)
		}
		return nil, err
	} else {
		return &output.DBInstances[0], nil
	}
}



// DeleteInstance deletes a DB instance.
func (clusters *DbClusters) DeleteInstance(ctx context.Context, instanceName string) error {
	_, err := clusters.AuroraClient.DeleteDBInstance(ctx, &rds.DeleteDBInstanceInput{
		DBInstanceIdentifier:   aws.String(instanceName),
		SkipFinalSnapshot:      aws.Bool(true),
		DeleteAutomatedBackups: aws.Bool(true),
	})
	if err != nil {
		log.Printf("Couldn't delete instance %v: %v\n", instanceName, err)
		return err
	} else {
		return nil
	}
}



// GetEngineVersions gets database engine versions that are available for the specified engine
// and parameter group family.
func (clusters *DbClusters) GetEngineVersions(ctx context.Context, engine string, parameterGroupFamily string) (
	[]types.DBEngineVersion, error) {
	output, err := clusters.AuroraClient.DescribeDBEngineVersions(ctx,
		&rds.DescribeDBEngineVersionsInput{
			Engine:                 aws.String(engine),
			DBParameterGroupFamily: aws.String(parameterGroupFamily),
		})
	if err != nil {
		log.Printf("Couldn't get engine versions for %v: %v\n", engine, err)
		return nil, err
	} else {
		return output.DBEngineVersions, nil
	}
}



// GetOrderableInstances uses a paginator to get DB instance options that can be used to create DB instances that are
// compatible with a set of specifications.
func (clusters *DbClusters) GetOrderableInstances(ctx context.Context, engine string, engineVersion string) (
	[]types.OrderableDBInstanceOption, error) {

	var output *rds.DescribeOrderableDBInstanceOptionsOutput
	var instances []types.OrderableDBInstanceOption
	var err error
	orderablePaginator := rds.NewDescribeOrderableDBInstanceOptionsPaginator(clusters.AuroraClient,
		&rds.DescribeOrderableDBInstanceOptionsInput{
			Engine:        aws.String(engine),
			EngineVersion: aws.String(engineVersion),
		})
	for orderablePaginator.HasMorePages() {
		output, err = orderablePaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get orderable DB instances: %v\n", err)
			break
		} else {
			instances = append(instances, output.OrderableDBInstanceOptions...)
		}
	}
	return instances, err
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [Buat DBCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBCluster)
  + [Buat DBCluster ParameterGroup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBClusterParameterGroup)
  + [Buat DBCluster Snapshot](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBClusterSnapshot)
  + [Buat DBInstance](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBInstance)
  + [Hapus DBCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBCluster)
  + [Hapus DBCluster ParameterGroup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBClusterParameterGroup)
  + [Hapus DBInstance](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBInstance)
  + [Jelaskan DBCluster ParameterGroups](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusterParameterGroups)
  + [Jelaskan DBCluster Parameter](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusterParameters)
  + [Jelaskan DBCluster Snapshots](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusterSnapshots)
  + [Jelaskan DBClusters](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusters)
  + [Jelaskan DBEngine Versi](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBInstances)
  + [DescribeOrderableDBInstancePilihan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeOrderableDBInstanceOptions)
  + [Memodifikasi DBCluster ParameterGroup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.ModifyDBClusterParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="aurora_CreateDBCluster_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// CreateDbCluster creates a DB cluster that is configured to use the specified parameter group.
// The newly created DB cluster contains a database that uses the specified engine and
// engine version.
func (clusters *DbClusters) CreateDbCluster(ctx context.Context, clusterName string, parameterGroupName string,
	dbName string, dbEngine string, dbEngineVersion string, adminName string, adminPassword string) (
	*types.DBCluster, error) {

	output, err := clusters.AuroraClient.CreateDBCluster(ctx, &rds.CreateDBClusterInput{
		DBClusterIdentifier:         aws.String(clusterName),
		Engine:                      aws.String(dbEngine),
		DBClusterParameterGroupName: aws.String(parameterGroupName),
		DatabaseName:                aws.String(dbName),
		EngineVersion:               aws.String(dbEngineVersion),
		MasterUserPassword:          aws.String(adminPassword),
		MasterUsername:              aws.String(adminName),
	})
	if err != nil {
		log.Printf("Couldn't create DB cluster %v: %v\n", clusterName, err)
		return nil, err
	} else {
		return output.DBCluster, err
	}
}
```
+  Untuk detail API, lihat [Membuat DBCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBCluster) di *Referensi AWS SDK untuk Go API*. 

### `CreateDBClusterParameterGroup`
<a name="aurora_CreateDBClusterParameterGroup_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterParameterGroup`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// CreateParameterGroup creates a DB cluster parameter group that is based on the specified
// parameter group family.
func (clusters *DbClusters) CreateParameterGroup(
	ctx context.Context, parameterGroupName string, parameterGroupFamily string, description string) (
	*types.DBClusterParameterGroup, error) {

	output, err := clusters.AuroraClient.CreateDBClusterParameterGroup(ctx,
		&rds.CreateDBClusterParameterGroupInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
			DBParameterGroupFamily:      aws.String(parameterGroupFamily),
			Description:                 aws.String(description),
		})
	if err != nil {
		log.Printf("Couldn't create parameter group %v: %v\n", parameterGroupName, err)
		return nil, err
	} else {
		return output.DBClusterParameterGroup, err
	}
}
```
+  Untuk detail API, lihat [Membuat DBCluster ParameterGroup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBClusterParameterGroup) di *Referensi AWS SDK untuk Go API*. 

### `CreateDBClusterSnapshot`
<a name="aurora_CreateDBClusterSnapshot_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterSnapshot`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// CreateClusterSnapshot creates a snapshot of a DB cluster.
func (clusters *DbClusters) CreateClusterSnapshot(ctx context.Context, clusterName string, snapshotName string) (
	*types.DBClusterSnapshot, error) {
	output, err := clusters.AuroraClient.CreateDBClusterSnapshot(ctx, &rds.CreateDBClusterSnapshotInput{
		DBClusterIdentifier:         aws.String(clusterName),
		DBClusterSnapshotIdentifier: aws.String(snapshotName),
	})
	if err != nil {
		log.Printf("Couldn't create snapshot %v: %v\n", snapshotName, err)
		return nil, err
	} else {
		return output.DBClusterSnapshot, nil
	}
}
```
+  Untuk detail API, lihat [Membuat DBCluster Snapshot](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBClusterSnapshot) di *Referensi AWS SDK untuk Go API*. 

### `CreateDBInstance`
<a name="aurora_CreateDBInstance_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// CreateInstanceInCluster creates a database instance in an existing DB cluster. The first database that is
// created defaults to a read-write DB instance.
func (clusters *DbClusters) CreateInstanceInCluster(ctx context.Context, clusterName string, instanceName string,
	dbEngine string, dbInstanceClass string) (*types.DBInstance, error) {
	output, err := clusters.AuroraClient.CreateDBInstance(ctx, &rds.CreateDBInstanceInput{
		DBInstanceIdentifier: aws.String(instanceName),
		DBClusterIdentifier:  aws.String(clusterName),
		Engine:               aws.String(dbEngine),
		DBInstanceClass:      aws.String(dbInstanceClass),
	})
	if err != nil {
		log.Printf("Couldn't create instance %v: %v\n", instanceName, err)
		return nil, err
	} else {
		return output.DBInstance, nil
	}
}
```
+  Untuk detail API, lihat [Membuat DBInstance](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBInstance) di *Referensi AWS SDK untuk Go API*. 

### `DeleteDBCluster`
<a name="aurora_DeleteDBCluster_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// DeleteDbCluster deletes a DB cluster without keeping a final snapshot.
func (clusters *DbClusters) DeleteDbCluster(ctx context.Context, clusterName string) error {
	_, err := clusters.AuroraClient.DeleteDBCluster(ctx, &rds.DeleteDBClusterInput{
		DBClusterIdentifier: aws.String(clusterName),
		SkipFinalSnapshot:   aws.Bool(true),
	})
	if err != nil {
		log.Printf("Couldn't delete DB cluster %v: %v\n", clusterName, err)
		return err
	} else {
		return nil
	}
}
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBCluster) di *Referensi AWS SDK untuk Go API*. 

### `DeleteDBClusterParameterGroup`
<a name="aurora_DeleteDBClusterParameterGroup_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBClusterParameterGroup`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// DeleteParameterGroup deletes the named DB cluster parameter group.
func (clusters *DbClusters) DeleteParameterGroup(ctx context.Context, parameterGroupName string) error {
	_, err := clusters.AuroraClient.DeleteDBClusterParameterGroup(ctx,
		&rds.DeleteDBClusterParameterGroupInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
		})
	if err != nil {
		log.Printf("Couldn't delete parameter group %v: %v\n", parameterGroupName, err)
		return err
	} else {
		return nil
	}
}
```
+  Untuk detail API, lihat [Menghapus DBCluster ParameterGroup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBClusterParameterGroup) di *Referensi AWS SDK untuk Go API*. 

### `DeleteDBInstance`
<a name="aurora_DeleteDBInstance_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// DeleteInstance deletes a DB instance.
func (clusters *DbClusters) DeleteInstance(ctx context.Context, instanceName string) error {
	_, err := clusters.AuroraClient.DeleteDBInstance(ctx, &rds.DeleteDBInstanceInput{
		DBInstanceIdentifier:   aws.String(instanceName),
		SkipFinalSnapshot:      aws.Bool(true),
		DeleteAutomatedBackups: aws.Bool(true),
	})
	if err != nil {
		log.Printf("Couldn't delete instance %v: %v\n", instanceName, err)
		return err
	} else {
		return nil
	}
}
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBInstance) di *Referensi AWS SDK untuk Go API*. 

### `DescribeDBClusterParameterGroups`
<a name="aurora_DescribeDBClusterParameterGroups_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameterGroups`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// GetParameterGroup gets a DB cluster parameter group by name.
func (clusters *DbClusters) GetParameterGroup(ctx context.Context, parameterGroupName string) (
	*types.DBClusterParameterGroup, error) {
	output, err := clusters.AuroraClient.DescribeDBClusterParameterGroups(
		ctx, &rds.DescribeDBClusterParameterGroupsInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
		})
	if err != nil {
		var notFoundError *types.DBParameterGroupNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("Parameter group %v does not exist.\n", parameterGroupName)
			err = nil
		} else {
			log.Printf("Error getting parameter group %v: %v\n", parameterGroupName, err)
		}
		return nil, err
	} else {
		return &output.DBClusterParameterGroups[0], err
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBCluster ParameterGroups](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusterParameterGroups) di *Referensi AWS SDK untuk Go API*. 

### `DescribeDBClusterParameters`
<a name="aurora_DescribeDBClusterParameters_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameters`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// GetParameters gets the parameters that are contained in a DB cluster parameter group.
func (clusters *DbClusters) GetParameters(ctx context.Context, parameterGroupName string, source string) (
	[]types.Parameter, error) {

	var output *rds.DescribeDBClusterParametersOutput
	var params []types.Parameter
	var err error
	parameterPaginator := rds.NewDescribeDBClusterParametersPaginator(clusters.AuroraClient,
		&rds.DescribeDBClusterParametersInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
			Source:                      aws.String(source),
		})
	for parameterPaginator.HasMorePages() {
		output, err = parameterPaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get paramaeters for %v: %v\n", parameterGroupName, err)
			break
		} else {
			params = append(params, output.Parameters...)
		}
	}
	return params, err
}
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Parameter](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusterParameters) di *Referensi AWS SDK untuk Go API*. 

### `DescribeDBClusterSnapshots`
<a name="aurora_DescribeDBClusterSnapshots_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterSnapshots`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// GetClusterSnapshot gets a DB cluster snapshot.
func (clusters *DbClusters) GetClusterSnapshot(ctx context.Context, snapshotName string) (*types.DBClusterSnapshot, error) {
	output, err := clusters.AuroraClient.DescribeDBClusterSnapshots(ctx,
		&rds.DescribeDBClusterSnapshotsInput{
			DBClusterSnapshotIdentifier: aws.String(snapshotName),
		})
	if err != nil {
		log.Printf("Couldn't get snapshot %v: %v\n", snapshotName, err)
		return nil, err
	} else {
		return &output.DBClusterSnapshots[0], nil
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Snapshot](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusterSnapshots) di *Referensi AWS SDK untuk Go API*. 

### `DescribeDBClusters`
<a name="aurora_DescribeDBClusters_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// GetDbCluster gets data about an Aurora DB cluster.
func (clusters *DbClusters) GetDbCluster(ctx context.Context, clusterName string) (*types.DBCluster, error) {
	output, err := clusters.AuroraClient.DescribeDBClusters(ctx,
		&rds.DescribeDBClustersInput{
			DBClusterIdentifier: aws.String(clusterName),
		})
	if err != nil {
		var notFoundError *types.DBClusterNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("DB cluster %v does not exist.\n", clusterName)
			err = nil
		} else {
			log.Printf("Couldn't get DB cluster %v: %v\n", clusterName, err)
		}
		return nil, err
	} else {
		return &output.DBClusters[0], err
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBClusters) di *Referensi AWS SDK untuk Go API*. 

### `DescribeDBEngineVersions`
<a name="aurora_DescribeDBEngineVersions_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// GetEngineVersions gets database engine versions that are available for the specified engine
// and parameter group family.
func (clusters *DbClusters) GetEngineVersions(ctx context.Context, engine string, parameterGroupFamily string) (
	[]types.DBEngineVersion, error) {
	output, err := clusters.AuroraClient.DescribeDBEngineVersions(ctx,
		&rds.DescribeDBEngineVersionsInput{
			Engine:                 aws.String(engine),
			DBParameterGroupFamily: aws.String(parameterGroupFamily),
		})
	if err != nil {
		log.Printf("Couldn't get engine versions for %v: %v\n", engine, err)
		return nil, err
	} else {
		return output.DBEngineVersions, nil
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBEngineVersions) dalam *Referensi AWS SDK untuk Go API*. 

### `DescribeDBInstances`
<a name="aurora_DescribeDBInstances_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// GetInstance gets data about a DB instance.
func (clusters *DbClusters) GetInstance(ctx context.Context, instanceName string) (
	*types.DBInstance, error) {
	output, err := clusters.AuroraClient.DescribeDBInstances(ctx,
		&rds.DescribeDBInstancesInput{
			DBInstanceIdentifier: aws.String(instanceName),
		})
	if err != nil {
		var notFoundError *types.DBInstanceNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("DB instance %v does not exist.\n", instanceName)
			err = nil
		} else {
			log.Printf("Couldn't get instance %v: %v\n", instanceName, err)
		}
		return nil, err
	} else {
		return &output.DBInstances[0], nil
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBInstances) di *Referensi AWS SDK untuk Go API*. 

### `DescribeOrderableDBInstanceOptions`
<a name="aurora_DescribeOrderableDBInstanceOptions_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// GetOrderableInstances uses a paginator to get DB instance options that can be used to create DB instances that are
// compatible with a set of specifications.
func (clusters *DbClusters) GetOrderableInstances(ctx context.Context, engine string, engineVersion string) (
	[]types.OrderableDBInstanceOption, error) {

	var output *rds.DescribeOrderableDBInstanceOptionsOutput
	var instances []types.OrderableDBInstanceOption
	var err error
	orderablePaginator := rds.NewDescribeOrderableDBInstanceOptionsPaginator(clusters.AuroraClient,
		&rds.DescribeOrderableDBInstanceOptionsInput{
			Engine:        aws.String(engine),
			EngineVersion: aws.String(engineVersion),
		})
	for orderablePaginator.HasMorePages() {
		output, err = orderablePaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get orderable DB instances: %v\n", err)
			break
		} else {
			instances = append(instances, output.OrderableDBInstanceOptions...)
		}
	}
	return instances, err
}
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeOrderableDBInstanceOptions) di *Referensi AWS SDK untuk Go API*. 

### `ModifyDBClusterParameterGroup`
<a name="aurora_ModifyDBClusterParameterGroup_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBClusterParameterGroup`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/aurora#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbClusters struct {
	AuroraClient *rds.Client
}



// UpdateParameters updates parameters in a named DB cluster parameter group.
func (clusters *DbClusters) UpdateParameters(ctx context.Context, parameterGroupName string, params []types.Parameter) error {
	_, err := clusters.AuroraClient.ModifyDBClusterParameterGroup(ctx,
		&rds.ModifyDBClusterParameterGroupInput{
			DBClusterParameterGroupName: aws.String(parameterGroupName),
			Parameters:                  params,
		})
	if err != nil {
		log.Printf("Couldn't update parameters in %v: %v\n", parameterGroupName, err)
		return err
	} else {
		return nil
	}
}
```
+  Untuk detail API, lihat [Memodifikasi DBCluster ParameterGroup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.ModifyDBClusterParameterGroup) dalam *Referensi AWS SDK untuk Go API*. 

# Contoh Amazon Bedrock menggunakan SDK for Go V2
<a name="go_2_bedrock_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon Bedrock.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Bedrock
<a name="bedrock_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Bedrock.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock#code-examples). 

```
package main

import (
	"context"
	"fmt"

	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/bedrock"
)

const region = "us-east-1"

// main uses the AWS SDK for Go (v2) to create an Amazon Bedrock client and
// list the available foundation models in your account and the chosen region.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx, config.WithRegion(region))
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	bedrockClient := bedrock.NewFromConfig(sdkConfig)
	result, err := bedrockClient.ListFoundationModels(ctx, &bedrock.ListFoundationModelsInput{})
	if err != nil {
		fmt.Printf("Couldn't list foundation models. Here's why: %v\n", err)
		return
	}
	if len(result.ModelSummaries) == 0 {
		fmt.Println("There are no foundation models.")
	}
	for _, modelSummary := range result.ModelSummaries {
		fmt.Println(*modelSummary.ModelId)
	}
}
```
+  Untuk detail API, lihat [ListFoundationModels](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrock#Client.ListFoundationModels)di *Referensi AWS SDK untuk Go API*. 

## Tindakan
<a name="actions"></a>

### `ListFoundationModels`
<a name="bedrock_ListFoundationModels_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFoundationModels`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock#code-examples). 
Buat daftar model foundation Bedrock yang tersedia.  

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/service/bedrock"
	"github.com/aws/aws-sdk-go-v2/service/bedrock/types"
)

// FoundationModelWrapper encapsulates Amazon Bedrock actions used in the examples.
// It contains a Bedrock service client that is used to perform foundation model actions.
type FoundationModelWrapper struct {
	BedrockClient *bedrock.Client
}



// ListPolicies lists Bedrock foundation models that you can use.
func (wrapper FoundationModelWrapper) ListFoundationModels(ctx context.Context) ([]types.FoundationModelSummary, error) {

	var models []types.FoundationModelSummary

	result, err := wrapper.BedrockClient.ListFoundationModels(ctx, &bedrock.ListFoundationModelsInput{})

	if err != nil {
		log.Printf("Couldn't list foundation models. Here's why: %v\n", err)
	} else {
		models = result.ModelSummaries
	}
	return models, err
}
```
+  Untuk detail API, lihat [ListFoundationModels](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrock#Client.ListFoundationModels)di *Referensi AWS SDK untuk Go API*. 

# Contoh Amazon Bedrock Runtime menggunakan SDK for Go V2
<a name="go_2_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon Bedrock Runtime.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Skenario](#scenarios)
+ [Generator Gambar Amazon Titan](#amazon_titan_image_generator)
+ [Antropik Claude](#anthropic_claude)

## Memulai
<a name="get_started"></a>

### Halo Amazon Bedrock
<a name="bedrock-runtime_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Bedrock.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples). 

```
package main

import (
	"context"
	"encoding/json"
	"flag"
	"fmt"
	"log"
	"os"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
)

// Each model provider defines their own individual request and response formats.
// For the format, ranges, and default values for the different models, refer to:
// https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters.html

type ClaudeRequest struct {
	Prompt            string `json:"prompt"`
	MaxTokensToSample int    `json:"max_tokens_to_sample"`
	// Omitting optional request parameters
}

type ClaudeResponse struct {
	Completion string `json:"completion"`
}

// main uses the AWS SDK for Go (v2) to create an Amazon Bedrock Runtime client
// and invokes Anthropic Claude 2 inside your account and the chosen region.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {

	region := flag.String("region", "us-east-1", "The AWS region")
	flag.Parse()

	fmt.Printf("Using AWS region: %s\n", *region)

	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx, config.WithRegion(*region))
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}

	client := bedrockruntime.NewFromConfig(sdkConfig)

	modelId := "anthropic.claude-v2"

	prompt := "Hello, how are you today?"

	// Anthropic Claude requires you to enclose the prompt as follows:
	prefix := "Human: "
	postfix := "\n\nAssistant:"
	wrappedPrompt := prefix + prompt + postfix

	request := ClaudeRequest{
		Prompt:            wrappedPrompt,
		MaxTokensToSample: 200,
	}

	body, err := json.Marshal(request)
	if err != nil {
		log.Panicln("Couldn't marshal the request: ", err)
	}

	result, err := client.InvokeModel(ctx, &bedrockruntime.InvokeModelInput{
		ModelId:     aws.String(modelId),
		ContentType: aws.String("application/json"),
		Body:        body,
	})

	if err != nil {
		errMsg := err.Error()
		if strings.Contains(errMsg, "no such host") {
			fmt.Printf("Error: The Bedrock service is not available in the selected region. Please double-check the service availability for your region at https://aws.amazon.com/about-aws/global-infrastructure/regional-product-services/.\n")
		} else if strings.Contains(errMsg, "Could not resolve the foundation model") {
			fmt.Printf("Error: Could not resolve the foundation model from model identifier: \"%v\". Please verify that the requested model exists and is accessible within the specified region.\n", modelId)
		} else {
			fmt.Printf("Error: Couldn't invoke Anthropic Claude. Here's why: %v\n", err)
		}
		os.Exit(1)
	}

	var response ClaudeResponse

	err = json.Unmarshal(result.Body, &response)

	if err != nil {
		log.Fatal("failed to unmarshal", err)
	}
	fmt.Println("Prompt:\n", prompt)
	fmt.Println("Response from Anthropic Claude:\n", response.Completion)
}
```
+  Untuk detail API, lihat [InvokeModel](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.InvokeModel)di *Referensi AWS SDK untuk Go API*. 

## Skenario
<a name="scenarios"></a>

### Gunakan beberapa model fondasi di Amazon Bedrock
<a name="bedrock-runtime_Scenario_InvokeModels_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menyiapkan dan mengirim prompt ke berbagai model berbahasa besar (LLMs) di Amazon Bedrock

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples). 
Gunakan beberapa model fondasi di Amazon Bedrock.  

```
import (
	"context"
	"encoding/base64"
	"fmt"
	"log"
	"math/rand"
	"os"
	"path/filepath"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/bedrock-runtime/actions"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// InvokeModelsScenario demonstrates how to use the Amazon Bedrock Runtime client
// to invoke various foundation models for text and image generation
//
// 1. Generate text with Anthropic Claude 2
// 2. Generate text with Meta Llama 2 Chat
// 3. Generate text and asynchronously process the response stream with Anthropic Claude 2
// 4. Generate an image with the Amazon Titan image generation model
type InvokeModelsScenario struct {
	sdkConfig             aws.Config
	invokeModelWrapper    actions.InvokeModelWrapper
	responseStreamWrapper actions.InvokeModelWithResponseStreamWrapper
	questioner            demotools.IQuestioner
}

// NewInvokeModelsScenario constructs an InvokeModelsScenario instance from a configuration.
// It uses the specified config to get a Bedrock Runtime client and create wrappers for the
// actions used in the scenario.
func NewInvokeModelsScenario(sdkConfig aws.Config, questioner demotools.IQuestioner) InvokeModelsScenario {
	client := bedrockruntime.NewFromConfig(sdkConfig)
	return InvokeModelsScenario{
		sdkConfig:             sdkConfig,
		invokeModelWrapper:    actions.InvokeModelWrapper{BedrockRuntimeClient: client},
		responseStreamWrapper: actions.InvokeModelWithResponseStreamWrapper{BedrockRuntimeClient: client},
		questioner:            questioner,
	}
}

// Runs the interactive scenario.
func (scenario InvokeModelsScenario) Run(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong with the demo: %v\n", r)
		}
	}()

	log.Println(strings.Repeat("=", 77))
	log.Println("Welcome to the Amazon Bedrock Runtime model invocation demo.")
	log.Println(strings.Repeat("=", 77))

	log.Printf("First, let's invoke a few large-language models using the synchronous client:\n\n")

	text2textPrompt := "In one paragraph, who are you?"

	log.Println(strings.Repeat("-", 77))
	log.Printf("Invoking Claude with prompt: %v\n", text2textPrompt)
	scenario.InvokeClaude(ctx, text2textPrompt)

	log.Println(strings.Repeat("=", 77))
	log.Printf("Now, let's invoke Claude with the asynchronous client and process the response stream:\n\n")

	log.Println(strings.Repeat("-", 77))
	log.Printf("Invoking Claude with prompt: %v\n", text2textPrompt)
	scenario.InvokeWithResponseStream(ctx, text2textPrompt)

	log.Println(strings.Repeat("=", 77))
	log.Printf("Now, let's create an image with the Amazon Titan image generation model:\n\n")

	text2ImagePrompt := "stylized picture of a cute old steampunk robot"
	seed := rand.Int63n(2147483648)

	log.Println(strings.Repeat("-", 77))
	log.Printf("Invoking Amazon Titan with prompt: %v\n", text2ImagePrompt)
	scenario.InvokeTitanImage(ctx, text2ImagePrompt, seed)

	log.Println(strings.Repeat("=", 77))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("=", 77))
}

func (scenario InvokeModelsScenario) InvokeClaude(ctx context.Context, prompt string) {
	completion, err := scenario.invokeModelWrapper.InvokeClaude(ctx, prompt)
	if err != nil {
		panic(err)
	}
	log.Printf("\nClaude     : %v\n", strings.TrimSpace(completion))
}

func (scenario InvokeModelsScenario) InvokeWithResponseStream(ctx context.Context, prompt string) {
	log.Println("\nClaude with response stream:")
	_, err := scenario.responseStreamWrapper.InvokeModelWithResponseStream(ctx, prompt)
	if err != nil {
		panic(err)
	}
	log.Println()
}

func (scenario InvokeModelsScenario) InvokeTitanImage(ctx context.Context, prompt string, seed int64) {
	base64ImageData, err := scenario.invokeModelWrapper.InvokeTitanImage(ctx, prompt, seed)
	if err != nil {
		panic(err)
	}
	imagePath := saveImage(base64ImageData, "amazon.titan-image-generator-v2")
	fmt.Printf("The generated image has been saved to %s\n", imagePath)
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [InvokeModel](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.InvokeModel)
  + [InvokeModelWithResponseStream](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.InvokeModelWithResponseStream)

## Generator Gambar Amazon Titan
<a name="amazon_titan_image_generator"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_TitanImageGenerator_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Titan Image di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Titan Image Generator.  

```
import (
	"context"
	"encoding/json"
	"log"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
)

// InvokeModelWrapper encapsulates Amazon Bedrock actions used in the examples.
// It contains a Bedrock Runtime client that is used to invoke foundation models.
type InvokeModelWrapper struct {
	BedrockRuntimeClient *bedrockruntime.Client
}



type TitanImageRequest struct {
	TaskType              string                `json:"taskType"`
	TextToImageParams     TextToImageParams     `json:"textToImageParams"`
	ImageGenerationConfig ImageGenerationConfig `json:"imageGenerationConfig"`
}
type TextToImageParams struct {
	Text string `json:"text"`
}
type ImageGenerationConfig struct {
	NumberOfImages int     `json:"numberOfImages"`
	Quality        string  `json:"quality"`
	CfgScale       float64 `json:"cfgScale"`
	Height         int     `json:"height"`
	Width          int     `json:"width"`
	Seed           int64   `json:"seed"`
}

type TitanImageResponse struct {
	Images []string `json:"images"`
}

// Invokes the Titan Image model to create an image using the input provided
// in the request body.
func (wrapper InvokeModelWrapper) InvokeTitanImage(ctx context.Context, prompt string, seed int64) (string, error) {
	modelId := "amazon.titan-image-generator-v2:0"

	body, err := json.Marshal(TitanImageRequest{
		TaskType: "TEXT_IMAGE",
		TextToImageParams: TextToImageParams{
			Text: prompt,
		},
		ImageGenerationConfig: ImageGenerationConfig{
			NumberOfImages: 1,
			Quality:        "standard",
			CfgScale:       8.0,
			Height:         512,
			Width:          512,
			Seed:           seed,
		},
	})

	if err != nil {
		log.Fatal("failed to marshal", err)
	}

	output, err := wrapper.BedrockRuntimeClient.InvokeModel(ctx, &bedrockruntime.InvokeModelInput{
		ModelId:     aws.String(modelId),
		ContentType: aws.String("application/json"),
		Body:        body,
	})

	if err != nil {
		ProcessError(err, modelId)
	}

	var response TitanImageResponse
	if err := json.Unmarshal(output.Body, &response); err != nil {
		log.Fatal("failed to unmarshal", err)
	}

	base64ImageData := response.Images[0]

	return base64ImageData, nil

}
```
+  Untuk detail API, lihat [InvokeModel](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.InvokeModel)di *Referensi AWS SDK untuk Go API*. 

## Antropik Claude
<a name="anthropic_claude"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AnthropicClaude_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.  

```
import (
	"context"
	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
	"github.com/aws/aws-sdk-go-v2/service/bedrockruntime/types"
)

// ConverseWrapper encapsulates Amazon Bedrock actions used in the examples.
// It contains a Bedrock Runtime client that is used to invoke Bedrock.
type ConverseWrapper struct {
	BedrockRuntimeClient *bedrockruntime.Client
}



func (wrapper ConverseWrapper) ConverseClaude(ctx context.Context, prompt string) (string, error) {
	var content = types.ContentBlockMemberText{
		Value: prompt,
	}
	var message = types.Message{
		Content: []types.ContentBlock{&content},
		Role:    "user",
	}
	modelId := "anthropic.claude-3-haiku-20240307-v1:0"
	var converseInput = bedrockruntime.ConverseInput{
		ModelId:  aws.String(modelId),
		Messages: []types.Message{message},
	}
	response, err := wrapper.BedrockRuntimeClient.Converse(ctx, &converseInput)
	if err != nil {
		ProcessError(err, modelId)
	}

	responseText, _ := response.Output.(*types.ConverseOutputMemberMessage)
	responseContentBlock := responseText.Value.Content[0]
	text, _ := responseContentBlock.(*types.ContentBlockMemberText)
	return text.Value, nil

}
```
+  Untuk detail API, lihat [Converse](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.Converse) di *Referensi AWS SDK untuk Go API*. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AnthropicClaude_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan Invoke Model API.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples). 
Gunakan model dasar Anthropic Claude 2 untuk menghasilkan teks.  

```
import (
	"context"
	"encoding/json"
	"log"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
)

// InvokeModelWrapper encapsulates Amazon Bedrock actions used in the examples.
// It contains a Bedrock Runtime client that is used to invoke foundation models.
type InvokeModelWrapper struct {
	BedrockRuntimeClient *bedrockruntime.Client
}



// Each model provider has their own individual request and response formats.
// For the format, ranges, and default values for Anthropic Claude, refer to:
// https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-claude.html

type ClaudeRequest struct {
	Prompt            string   `json:"prompt"`
	MaxTokensToSample int      `json:"max_tokens_to_sample"`
	Temperature       float64  `json:"temperature,omitempty"`
	StopSequences     []string `json:"stop_sequences,omitempty"`
}

type ClaudeResponse struct {
	Completion string `json:"completion"`
}

// Invokes Anthropic Claude on Amazon Bedrock to run an inference using the input
// provided in the request body.
func (wrapper InvokeModelWrapper) InvokeClaude(ctx context.Context, prompt string) (string, error) {
	modelId := "anthropic.claude-v2"

	// Anthropic Claude requires enclosing the prompt as follows:
	enclosedPrompt := "Human: " + prompt + "\n\nAssistant:"

	body, err := json.Marshal(ClaudeRequest{
		Prompt:            enclosedPrompt,
		MaxTokensToSample: 200,
		Temperature:       0.5,
		StopSequences:     []string{"\n\nHuman:"},
	})

	if err != nil {
		log.Fatal("failed to marshal", err)
	}

	output, err := wrapper.BedrockRuntimeClient.InvokeModel(ctx, &bedrockruntime.InvokeModelInput{
		ModelId:     aws.String(modelId),
		ContentType: aws.String("application/json"),
		Body:        body,
	})

	if err != nil {
		ProcessError(err, modelId)
	}

	var response ClaudeResponse
	if err := json.Unmarshal(output.Body, &response); err != nil {
		log.Fatal("failed to unmarshal", err)
	}

	return response.Completion, nil
}
```
+  Untuk detail API, lihat [InvokeModel](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.InvokeModel)di *Referensi AWS SDK untuk Go API*. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_AnthropicClaude_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Anthropic Claude, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
import (
	"bytes"
	"context"
	"encoding/json"
	"fmt"
	"log"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
	"github.com/aws/aws-sdk-go-v2/service/bedrockruntime/types"
)

// InvokeModelWithResponseStreamWrapper encapsulates Amazon Bedrock actions used in the examples.
// It contains a Bedrock Runtime client that is used to invoke foundation models.
type InvokeModelWithResponseStreamWrapper struct {
	BedrockRuntimeClient *bedrockruntime.Client
}



// Each model provider defines their own individual request and response formats.
// For the format, ranges, and default values for the different models, refer to:
// https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters.html

type Request struct {
	Prompt            string  `json:"prompt"`
	MaxTokensToSample int     `json:"max_tokens_to_sample"`
	Temperature       float64 `json:"temperature,omitempty"`
}

type Response struct {
	Completion string `json:"completion"`
}

// Invokes Anthropic Claude on Amazon Bedrock to run an inference and asynchronously
// process the response stream.

func (wrapper InvokeModelWithResponseStreamWrapper) InvokeModelWithResponseStream(ctx context.Context, prompt string) (string, error) {

	modelId := "anthropic.claude-v2"

	// Anthropic Claude requires you to enclose the prompt as follows:
	prefix := "Human: "
	postfix := "\n\nAssistant:"
	prompt = prefix + prompt + postfix

	request := ClaudeRequest{
		Prompt:            prompt,
		MaxTokensToSample: 200,
		Temperature:       0.5,
		StopSequences:     []string{"\n\nHuman:"},
	}

	body, err := json.Marshal(request)
	if err != nil {
		log.Panicln("Couldn't marshal the request: ", err)
	}

	output, err := wrapper.BedrockRuntimeClient.InvokeModelWithResponseStream(ctx, &bedrockruntime.InvokeModelWithResponseStreamInput{
		Body:        body,
		ModelId:     aws.String(modelId),
		ContentType: aws.String("application/json"),
	})

	if err != nil {
		errMsg := err.Error()
		if strings.Contains(errMsg, "no such host") {
			log.Printf("The Bedrock service is not available in the selected region. Please double-check the service availability for your region at https://aws.amazon.com/about-aws/global-infrastructure/regional-product-services/.\n")
		} else if strings.Contains(errMsg, "Could not resolve the foundation model") {
			log.Printf("Could not resolve the foundation model from model identifier: \"%v\". Please verify that the requested model exists and is accessible within the specified region.\n", modelId)
		} else {
			log.Printf("Couldn't invoke Anthropic Claude. Here's why: %v\n", err)
		}
	}

	resp, err := processStreamingOutput(ctx, output, func(ctx context.Context, part []byte) error {
		fmt.Print(string(part))
		return nil
	})

	if err != nil {
		log.Fatal("streaming output processing error: ", err)
	}

	return resp.Completion, nil

}

type StreamingOutputHandler func(ctx context.Context, part []byte) error

func processStreamingOutput(ctx context.Context, output *bedrockruntime.InvokeModelWithResponseStreamOutput, handler StreamingOutputHandler) (Response, error) {

	var combinedResult string
	resp := Response{}

	for event := range output.GetStream().Events() {
		switch v := event.(type) {
		case *types.ResponseStreamMemberChunk:

			//fmt.Println("payload", string(v.Value.Bytes))

			var resp Response
			err := json.NewDecoder(bytes.NewReader(v.Value.Bytes)).Decode(&resp)
			if err != nil {
				return resp, err
			}

			err = handler(ctx, []byte(resp.Completion))
			if err != nil {
				return resp, err
			}

			combinedResult += resp.Completion

		case *types.UnknownUnionMember:
			fmt.Println("unknown tag:", v.Tag)

		default:
			fmt.Println("union is nil or unknown type")
		}
	}

	resp.Completion = combinedResult

	return resp, nil
}
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.InvokeModelWithResponseStream)di *Referensi AWS SDK untuk Go API*. 

# CloudFormation contoh menggunakan SDK for Go V2
<a name="go_2_cloudformation_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan CloudFormation.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DescribeStacks`
<a name="cloudformation_DescribeStacks_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStacks`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/user_pools_and_lambda_triggers#code-examples). 

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
)

// StackOutputs defines a map of outputs from a specific stack.
type StackOutputs map[string]string

type CloudFormationActions struct {
	CfnClient *cloudformation.Client
}

// GetOutputs gets the outputs from a CloudFormation stack and puts them into a structured format.
func (actor CloudFormationActions) GetOutputs(ctx context.Context, stackName string) StackOutputs {
	output, err := actor.CfnClient.DescribeStacks(ctx, &cloudformation.DescribeStacksInput{
		StackName: aws.String(stackName),
	})
	if err != nil || len(output.Stacks) == 0 {
		log.Panicf("Couldn't find a CloudFormation stack named %v. Here's why: %v\n", stackName, err)
	}
	stackOutputs := StackOutputs{}
	for _, out := range output.Stacks[0].Outputs {
		stackOutputs[*out.OutputKey] = *out.OutputValue
	}
	return stackOutputs
}
```
+  Untuk detail API, lihat [DescribeStacks](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cloudformation#Client.DescribeStacks)di *Referensi AWS SDK untuk Go API*. 

# CloudWatch Contoh log menggunakan SDK for Go V2
<a name="go_2_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan CloudWatch Log.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `StartLiveTail`
<a name="cloudwatch-logs_StartLiveTail_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartLiveTail`.

**SDK untuk Go V2**  
Sertakan file-file yang diperlukan.  

```
import (
	"context"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs/types"
)
```
Tangani acara dari sesi Live Tail.  

```
func handleEventStreamAsync(stream *cloudwatchlogs.StartLiveTailEventStream) {
	eventsChan := stream.Events()
	for {
		event := <-eventsChan
		switch e := event.(type) {
		case *types.StartLiveTailResponseStreamMemberSessionStart:
			log.Println("Received SessionStart event")
		case *types.StartLiveTailResponseStreamMemberSessionUpdate:
			for _, logEvent := range e.Value.SessionResults {
				log.Println(*logEvent.Message)
			}
		default:
			// Handle on-stream exceptions
			if err := stream.Err(); err != nil {
				log.Fatalf("Error occured during streaming: %v", err)
			} else if event == nil {
				log.Println("Stream is Closed")
				return
			} else {
				log.Fatalf("Unknown event type: %T", e)
			}
		}
	}
}
```
Mulai sesi Live Tail.  

```
	cfg, err := config.LoadDefaultConfig(context.TODO())
	if err != nil {
		panic("configuration error, " + err.Error())
	}
	client := cloudwatchlogs.NewFromConfig(cfg)

	request := &cloudwatchlogs.StartLiveTailInput{
		LogGroupIdentifiers:   logGroupIdentifiers,
		LogStreamNames:        logStreamNames,
		LogEventFilterPattern: logEventFilterPattern,
	}

	response, err := client.StartLiveTail(context.TODO(), request)
	// Handle pre-stream Exceptions
	if err != nil {
		log.Fatalf("Failed to start streaming: %v", err)
	}

	// Start a Goroutine to handle events over stream
	stream := response.GetStream()
	go handleEventStreamAsync(stream)
```
Hentikan sesi Live Tail setelah periode waktu berlalu.  

```
	// Close the stream (which ends the session) after a timeout
	time.Sleep(10 * time.Second)
	stream.Close()
	log.Println("Event stream closed")
```
+  Untuk detail API, lihat [StartLiveTail](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs#Client.StartLiveTail)di *Referensi AWS SDK untuk Go API*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK for Go V2
<a name="go_2_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Penyedia Identitas Amazon Cognito.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon Cognito
<a name="cognito-identity-provider_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Cognito.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
package main

import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

// main uses the AWS SDK for Go V2 to create an Amazon Simple Notification Service
// (Amazon SNS) client and list the topics in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	cognitoClient := cognitoidentityprovider.NewFromConfig(sdkConfig)
	fmt.Println("Let's list the user pools for your account.")
	var pools []types.UserPoolDescriptionType
	paginator := cognitoidentityprovider.NewListUserPoolsPaginator(
		cognitoClient, &cognitoidentityprovider.ListUserPoolsInput{MaxResults: aws.Int32(10)})
	for paginator.HasMorePages() {
		output, err := paginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get user pools. Here's why: %v\n", err)
		} else {
			pools = append(pools, output.UserPools...)
		}
	}
	if len(pools) == 0 {
		fmt.Println("You don't have any user pools!")
	} else {
		for _, pool := range pools {
			fmt.Printf("\t%v: %v\n", *pool.Name, *pool.Id)
		}
	}
}
```
+  Untuk detail API, lihat [ListUserPools](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.ListUserPools)di *Referensi AWS SDK untuk Go API*. 

## Tindakan
<a name="actions"></a>

### `AdminCreateUser`
<a name="cognito-identity-provider_AdminCreateUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminCreateUser`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// AdminCreateUser uses administrator credentials to add a user to a user pool. This method leaves the user
// in a state that requires they enter a new password next time they sign in.
func (actor CognitoActions) AdminCreateUser(ctx context.Context, userPoolId string, userName string, userEmail string) error {
	_, err := actor.CognitoClient.AdminCreateUser(ctx, &cognitoidentityprovider.AdminCreateUserInput{
		UserPoolId:     aws.String(userPoolId),
		Username:       aws.String(userName),
		MessageAction:  types.MessageActionTypeSuppress,
		UserAttributes: []types.AttributeType{{Name: aws.String("email"), Value: aws.String(userEmail)}},
	})
	if err != nil {
		var userExists *types.UsernameExistsException
		if errors.As(err, &userExists) {
			log.Printf("User %v already exists in the user pool.", userName)
			err = nil
		} else {
			log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}
```
+  Untuk detail API, lihat [AdminCreateUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.AdminCreateUser)di *Referensi AWS SDK untuk Go API*. 

### `AdminSetUserPassword`
<a name="cognito-identity-provider_AdminSetUserPassword_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminSetUserPassword`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// AdminSetUserPassword uses administrator credentials to set a password for a user without requiring a
// temporary password.
func (actor CognitoActions) AdminSetUserPassword(ctx context.Context, userPoolId string, userName string, password string) error {
	_, err := actor.CognitoClient.AdminSetUserPassword(ctx, &cognitoidentityprovider.AdminSetUserPasswordInput{
		Password:   aws.String(password),
		UserPoolId: aws.String(userPoolId),
		Username:   aws.String(userName),
		Permanent:  true,
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't set password for user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}
```
+  Untuk detail API, lihat [AdminSetUserPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.AdminSetUserPassword)di *Referensi AWS SDK untuk Go API*. 

### `ConfirmForgotPassword`
<a name="cognito-identity-provider_ConfirmForgotPassword_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmForgotPassword`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// ConfirmForgotPassword confirms a user with a confirmation code and a new password.
func (actor CognitoActions) ConfirmForgotPassword(ctx context.Context, clientId string, code string, userName string, password string) error {
	_, err := actor.CognitoClient.ConfirmForgotPassword(ctx, &cognitoidentityprovider.ConfirmForgotPasswordInput{
		ClientId:         aws.String(clientId),
		ConfirmationCode: aws.String(code),
		Password:         aws.String(password),
		Username:         aws.String(userName),
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't confirm user %v. Here's why: %v", userName, err)
		}
	}
	return err
}
```
+  Untuk detail API, lihat [ConfirmForgotPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.ConfirmForgotPassword)di *Referensi AWS SDK untuk Go API*. 

### `DeleteUser`
<a name="cognito-identity-provider_DeleteUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// DeleteUser removes a user from the user pool.
func (actor CognitoActions) DeleteUser(ctx context.Context, userAccessToken string) error {
	_, err := actor.CognitoClient.DeleteUser(ctx, &cognitoidentityprovider.DeleteUserInput{
		AccessToken: aws.String(userAccessToken),
	})
	if err != nil {
		log.Printf("Couldn't delete user. Here's why: %v\n", err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.DeleteUser)di *Referensi AWS SDK untuk Go API*. 

### `ForgotPassword`
<a name="cognito-identity-provider_ForgotPassword_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ForgotPassword`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// ForgotPassword starts a password recovery flow for a user. This flow typically sends a confirmation code
// to the user's configured notification destination, such as email.
func (actor CognitoActions) ForgotPassword(ctx context.Context, clientId string, userName string) (*types.CodeDeliveryDetailsType, error) {
	output, err := actor.CognitoClient.ForgotPassword(ctx, &cognitoidentityprovider.ForgotPasswordInput{
		ClientId: aws.String(clientId),
		Username: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't start password reset for user '%v'. Here;s why: %v\n", userName, err)
	}
	return output.CodeDeliveryDetails, err
}
```
+  Untuk detail API, lihat [ForgotPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.ForgotPassword)di *Referensi AWS SDK untuk Go API*. 

### `InitiateAuth`
<a name="cognito-identity-provider_InitiateAuth_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InitiateAuth`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// SignIn signs in a user to Amazon Cognito using a username and password authentication flow.
func (actor CognitoActions) SignIn(ctx context.Context, clientId string, userName string, password string) (*types.AuthenticationResultType, error) {
	var authResult *types.AuthenticationResultType
	output, err := actor.CognitoClient.InitiateAuth(ctx, &cognitoidentityprovider.InitiateAuthInput{
		AuthFlow:       "USER_PASSWORD_AUTH",
		ClientId:       aws.String(clientId),
		AuthParameters: map[string]string{"USERNAME": userName, "PASSWORD": password},
	})
	if err != nil {
		var resetRequired *types.PasswordResetRequiredException
		if errors.As(err, &resetRequired) {
			log.Println(*resetRequired.Message)
		} else {
			log.Printf("Couldn't sign in user %v. Here's why: %v\n", userName, err)
		}
	} else {
		authResult = output.AuthenticationResult
	}
	return authResult, err
}
```
+  Untuk detail API, lihat [InitiateAuth](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.InitiateAuth)di *Referensi AWS SDK untuk Go API*. 

### `ListUserPools`
<a name="cognito-identity-provider_ListUserPools_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUserPools`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
package main

import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

// main uses the AWS SDK for Go V2 to create an Amazon Simple Notification Service
// (Amazon SNS) client and list the topics in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	cognitoClient := cognitoidentityprovider.NewFromConfig(sdkConfig)
	fmt.Println("Let's list the user pools for your account.")
	var pools []types.UserPoolDescriptionType
	paginator := cognitoidentityprovider.NewListUserPoolsPaginator(
		cognitoClient, &cognitoidentityprovider.ListUserPoolsInput{MaxResults: aws.Int32(10)})
	for paginator.HasMorePages() {
		output, err := paginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get user pools. Here's why: %v\n", err)
		} else {
			pools = append(pools, output.UserPools...)
		}
	}
	if len(pools) == 0 {
		fmt.Println("You don't have any user pools!")
	} else {
		for _, pool := range pools {
			fmt.Printf("\t%v: %v\n", *pool.Name, *pool.Id)
		}
	}
}
```
+  Untuk detail API, lihat [ListUserPools](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.ListUserPools)di *Referensi AWS SDK untuk Go API*. 

### `SignUp`
<a name="cognito-identity-provider_SignUp_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SignUp`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// SignUp signs up a user with Amazon Cognito.
func (actor CognitoActions) SignUp(ctx context.Context, clientId string, userName string, password string, userEmail string) (bool, error) {
	confirmed := false
	output, err := actor.CognitoClient.SignUp(ctx, &cognitoidentityprovider.SignUpInput{
		ClientId: aws.String(clientId),
		Password: aws.String(password),
		Username: aws.String(userName),
		UserAttributes: []types.AttributeType{
			{Name: aws.String("email"), Value: aws.String(userEmail)},
		},
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't sign up user %v. Here's why: %v\n", userName, err)
		}
	} else {
		confirmed = output.UserConfirmed
	}
	return confirmed, err
}
```
+  Untuk detail API, lihat [SignUp](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.SignUp)di *Referensi AWS SDK untuk Go API*. 

### `UpdateUserPool`
<a name="cognito-identity-provider_UpdateUserPool_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUserPool`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/cognito#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// Trigger and TriggerInfo define typed data for updating an Amazon Cognito trigger.
type Trigger int

const (
	PreSignUp Trigger = iota
	UserMigration
	PostAuthentication
)

type TriggerInfo struct {
	Trigger    Trigger
	HandlerArn *string
}

// UpdateTriggers adds or removes Lambda triggers for a user pool. When a trigger is specified with a `nil` value,
// it is removed from the user pool.
func (actor CognitoActions) UpdateTriggers(ctx context.Context, userPoolId string, triggers ...TriggerInfo) error {
	output, err := actor.CognitoClient.DescribeUserPool(ctx, &cognitoidentityprovider.DescribeUserPoolInput{
		UserPoolId: aws.String(userPoolId),
	})
	if err != nil {
		log.Printf("Couldn't get info about user pool %v. Here's why: %v\n", userPoolId, err)
		return err
	}
	lambdaConfig := output.UserPool.LambdaConfig
	for _, trigger := range triggers {
		switch trigger.Trigger {
		case PreSignUp:
			lambdaConfig.PreSignUp = trigger.HandlerArn
		case UserMigration:
			lambdaConfig.UserMigration = trigger.HandlerArn
		case PostAuthentication:
			lambdaConfig.PostAuthentication = trigger.HandlerArn
		}
	}
	_, err = actor.CognitoClient.UpdateUserPool(ctx, &cognitoidentityprovider.UpdateUserPoolInput{
		UserPoolId:   aws.String(userPoolId),
		LambdaConfig: lambdaConfig,
	})
	if err != nil {
		log.Printf("Couldn't update user pool %v. Here's why: %v\n", userPoolId, err)
	}
	return err
}
```
+  Untuk detail API, lihat [UpdateUserPool](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.UpdateUserPool)di *Referensi AWS SDK untuk Go API*. 

## Skenario
<a name="scenarios"></a>

### Secara otomatis mengonfirmasi pengguna yang dikenal dengan fungsi Lambda
<a name="cross_CognitoAutoConfirmUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengonfirmasi pengguna Amazon Cognito yang diketahui secara otomatis dengan fungsi Lambda.
+ Konfigurasikan kumpulan pengguna untuk memanggil fungsi Lambda untuk `PreSignUp` pemicunya.
+ Daftarkan pengguna dengan Amazon Cognito.
+ Fungsi Lambda memindai tabel DynamoDB dan secara otomatis mengonfirmasi pengguna yang dikenal.
+ Masuk sebagai pengguna baru, lalu bersihkan sumber daya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/user_pools_and_lambda_triggers#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"errors"
	"log"
	"strings"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// AutoConfirm separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type AutoConfirm struct {
	helper       IScenarioHelper
	questioner   demotools.IQuestioner
	resources    Resources
	cognitoActor *actions.CognitoActions
}

// NewAutoConfirm constructs a new auto confirm runner.
func NewAutoConfirm(sdkConfig aws.Config, questioner demotools.IQuestioner, helper IScenarioHelper) AutoConfirm {
	scenario := AutoConfirm{
		helper:       helper,
		questioner:   questioner,
		resources:    Resources{},
		cognitoActor: &actions.CognitoActions{CognitoClient: cognitoidentityprovider.NewFromConfig(sdkConfig)},
	}
	scenario.resources.init(scenario.cognitoActor, questioner)
	return scenario
}

// AddPreSignUpTrigger adds a Lambda handler as an invocation target for the PreSignUp trigger.
func (runner *AutoConfirm) AddPreSignUpTrigger(ctx context.Context, userPoolId string, functionArn string) {
	log.Printf("Let's add a Lambda function to handle the PreSignUp trigger from Cognito.\n" +
		"This trigger happens when a user signs up, and lets your function take action before the main Cognito\n" +
		"sign up processing occurs.\n")
	err := runner.cognitoActor.UpdateTriggers(
		ctx, userPoolId,
		actions.TriggerInfo{Trigger: actions.PreSignUp, HandlerArn: aws.String(functionArn)})
	if err != nil {
		panic(err)
	}
	log.Printf("Lambda function %v added to user pool %v to handle the PreSignUp trigger.\n",
		functionArn, userPoolId)
}

// SignUpUser signs up a user from the known user table with a password you specify.
func (runner *AutoConfirm) SignUpUser(ctx context.Context, clientId string, usersTable string) (string, string) {
	log.Println("Let's sign up a user to your Cognito user pool. When the user's email matches an email in the\n" +
		"DynamoDB known users table, it is automatically verified and the user is confirmed.")

	knownUsers, err := runner.helper.GetKnownUsers(ctx, usersTable)
	if err != nil {
		panic(err)
	}
	userChoice := runner.questioner.AskChoice("Which user do you want to use?\n", knownUsers.UserNameList())
	user := knownUsers.Users[userChoice]

	var signedUp bool
	var userConfirmed bool
	password := runner.questioner.AskPassword("Enter a password that has at least eight characters, uppercase, lowercase, numbers and symbols.\n"+
		"(the password will not display as you type):", 8)
	for !signedUp {
		log.Printf("Signing up user '%v' with email '%v' to Cognito.\n", user.UserName, user.UserEmail)
		userConfirmed, err = runner.cognitoActor.SignUp(ctx, clientId, user.UserName, password, user.UserEmail)
		if err != nil {
			var invalidPassword *types.InvalidPasswordException
			if errors.As(err, &invalidPassword) {
				password = runner.questioner.AskPassword("Enter another password:", 8)
			} else {
				panic(err)
			}
		} else {
			signedUp = true
		}
	}
	log.Printf("User %v signed up, confirmed = %v.\n", user.UserName, userConfirmed)

	log.Println(strings.Repeat("-", 88))

	return user.UserName, password
}

// SignInUser signs in a user.
func (runner *AutoConfirm) SignInUser(ctx context.Context, clientId string, userName string, password string) string {
	runner.questioner.Ask("Press Enter when you're ready to continue.")
	log.Printf("Let's sign in as %v...\n", userName)
	authResult, err := runner.cognitoActor.SignIn(ctx, clientId, userName, password)
	if err != nil {
		panic(err)
	}
	log.Printf("Successfully signed in. Your access token starts with: %v...\n", (*authResult.AccessToken)[:10])
	log.Println(strings.Repeat("-", 88))
	return *authResult.AccessToken
}

// Run runs the scenario.
func (runner *AutoConfirm) Run(ctx context.Context, stackName string) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			runner.resources.Cleanup(ctx)
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Printf("Welcome\n")

	log.Println(strings.Repeat("-", 88))

	stackOutputs, err := runner.helper.GetStackOutputs(ctx, stackName)
	if err != nil {
		panic(err)
	}
	runner.resources.userPoolId = stackOutputs["UserPoolId"]
	runner.helper.PopulateUserTable(ctx, stackOutputs["TableName"])

	runner.AddPreSignUpTrigger(ctx, stackOutputs["UserPoolId"], stackOutputs["AutoConfirmFunctionArn"])
	runner.resources.triggers = append(runner.resources.triggers, actions.PreSignUp)
	userName, password := runner.SignUpUser(ctx, stackOutputs["UserPoolClientId"], stackOutputs["TableName"])
	runner.helper.ListRecentLogEvents(ctx, stackOutputs["AutoConfirmFunction"])
	runner.resources.userAccessTokens = append(runner.resources.userAccessTokens,
		runner.SignInUser(ctx, stackOutputs["UserPoolClientId"], userName, password))

	runner.resources.Cleanup(ctx)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tangani `PreSignUp` pelatuk dengan fungsi Lambda.  

```
import (
	"context"
	"log"
	"os"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	dynamodbtypes "github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

const TABLE_NAME = "TABLE_NAME"

// UserInfo defines structured user data that can be marshalled to a DynamoDB format.
type UserInfo struct {
	UserName  string `dynamodbav:"UserName"`
	UserEmail string `dynamodbav:"UserEmail"`
}

// GetKey marshals the user email value to a DynamoDB key format.
func (user UserInfo) GetKey() map[string]dynamodbtypes.AttributeValue {
	userEmail, err := attributevalue.Marshal(user.UserEmail)
	if err != nil {
		panic(err)
	}
	return map[string]dynamodbtypes.AttributeValue{"UserEmail": userEmail}
}

type handler struct {
	dynamoClient *dynamodb.Client
}

// HandleRequest handles the PreSignUp event by looking up a user in an Amazon DynamoDB table and
// specifying whether they should be confirmed and verified.
func (h *handler) HandleRequest(ctx context.Context, event events.CognitoEventUserPoolsPreSignup) (events.CognitoEventUserPoolsPreSignup, error) {
	log.Printf("Received presignup from %v for user '%v'", event.TriggerSource, event.UserName)
	if event.TriggerSource != "PreSignUp_SignUp" {
		// Other trigger sources, such as PreSignUp_AdminInitiateAuth, ignore the response from this handler.
		return event, nil
	}
	tableName := os.Getenv(TABLE_NAME)
	user := UserInfo{
		UserEmail: event.Request.UserAttributes["email"],
	}
	log.Printf("Looking up email %v in table %v.\n", user.UserEmail, tableName)
	output, err := h.dynamoClient.GetItem(ctx, &dynamodb.GetItemInput{
		Key:       user.GetKey(),
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Error looking up email %v.\n", user.UserEmail)
		return event, err
	}
	if output.Item == nil {
		log.Printf("Email %v not found. Email verification is required.\n", user.UserEmail)
		return event, err
	}

	err = attributevalue.UnmarshalMap(output.Item, &user)
	if err != nil {
		log.Printf("Couldn't unmarshal DynamoDB item. Here's why: %v\n", err)
		return event, err
	}

	if user.UserName != event.UserName {
		log.Printf("UserEmail %v found, but stored UserName '%v' does not match supplied UserName '%v'. Verification is required.\n",
			user.UserEmail, user.UserName, event.UserName)
	} else {
		log.Printf("UserEmail %v found with matching UserName %v. User is confirmed.\n", user.UserEmail, user.UserName)
		event.Response.AutoConfirmUser = true
		event.Response.AutoVerifyEmail = true
	}

	return event, err
}

func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		log.Panicln(err)
	}
	h := handler{
		dynamoClient: dynamodb.NewFromConfig(sdkConfig),
	}
	lambda.Start(h.HandleRequest)
}
```
Buat struct yang melakukan tugas-tugas umum.  

```
import (
	"context"
	"log"
	"strings"
	"time"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// IScenarioHelper defines common functions used by the workflows in this example.
type IScenarioHelper interface {
	Pause(secs int)
	GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error)
	PopulateUserTable(ctx context.Context, tableName string)
	GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error)
	AddKnownUser(ctx context.Context, tableName string, user actions.User)
	ListRecentLogEvents(ctx context.Context, functionName string)
}

// ScenarioHelper contains AWS wrapper structs used by the workflows in this example.
type ScenarioHelper struct {
	questioner  demotools.IQuestioner
	dynamoActor *actions.DynamoActions
	cfnActor    *actions.CloudFormationActions
	cwlActor    *actions.CloudWatchLogsActions
	isTestRun   bool
}

// NewScenarioHelper constructs a new scenario helper.
func NewScenarioHelper(sdkConfig aws.Config, questioner demotools.IQuestioner) ScenarioHelper {
	scenario := ScenarioHelper{
		questioner:  questioner,
		dynamoActor: &actions.DynamoActions{DynamoClient: dynamodb.NewFromConfig(sdkConfig)},
		cfnActor:    &actions.CloudFormationActions{CfnClient: cloudformation.NewFromConfig(sdkConfig)},
		cwlActor:    &actions.CloudWatchLogsActions{CwlClient: cloudwatchlogs.NewFromConfig(sdkConfig)},
	}
	return scenario
}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	if !helper.isTestRun {
		time.Sleep(time.Duration(secs) * time.Second)
	}
}

// GetStackOutputs gets the outputs from the specified CloudFormation stack in a structured format.
func (helper ScenarioHelper) GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error) {
	return helper.cfnActor.GetOutputs(ctx, stackName), nil
}

// PopulateUserTable fills the known user table with example data.
func (helper ScenarioHelper) PopulateUserTable(ctx context.Context, tableName string) {
	log.Printf("First, let's add some users to the DynamoDB %v table we'll use for this example.\n", tableName)
	err := helper.dynamoActor.PopulateTable(ctx, tableName)
	if err != nil {
		panic(err)
	}
}

// GetKnownUsers gets the users from the known users table in a structured format.
func (helper ScenarioHelper) GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error) {
	knownUsers, err := helper.dynamoActor.Scan(ctx, tableName)
	if err != nil {
		log.Printf("Couldn't get known users from table %v. Here's why: %v\n", tableName, err)
	}
	return knownUsers, err
}

// AddKnownUser adds a user to the known users table.
func (helper ScenarioHelper) AddKnownUser(ctx context.Context, tableName string, user actions.User) {
	log.Printf("Adding user '%v' with email '%v' to the DynamoDB known users table...\n",
		user.UserName, user.UserEmail)
	err := helper.dynamoActor.AddUser(ctx, tableName, user)
	if err != nil {
		panic(err)
	}
}

// ListRecentLogEvents gets the most recent log stream and events for the specified Lambda function and displays them.
func (helper ScenarioHelper) ListRecentLogEvents(ctx context.Context, functionName string) {
	log.Println("Waiting a few seconds to let Lambda write to CloudWatch Logs...")
	helper.Pause(10)
	log.Println("Okay, let's check the logs to find what's happened recently with your Lambda function.")
	logStream, err := helper.cwlActor.GetLatestLogStream(ctx, functionName)
	if err != nil {
		panic(err)
	}
	log.Printf("Getting some recent events from log stream %v\n", *logStream.LogStreamName)
	events, err := helper.cwlActor.GetLogEvents(ctx, functionName, *logStream.LogStreamName, 10)
	if err != nil {
		panic(err)
	}
	for _, event := range events {
		log.Printf("\t%v", *event.Message)
	}
	log.Println(strings.Repeat("-", 88))
}
```
Buat struct yang membungkus tindakan Amazon Cognito.  

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// Trigger and TriggerInfo define typed data for updating an Amazon Cognito trigger.
type Trigger int

const (
	PreSignUp Trigger = iota
	UserMigration
	PostAuthentication
)

type TriggerInfo struct {
	Trigger    Trigger
	HandlerArn *string
}

// UpdateTriggers adds or removes Lambda triggers for a user pool. When a trigger is specified with a `nil` value,
// it is removed from the user pool.
func (actor CognitoActions) UpdateTriggers(ctx context.Context, userPoolId string, triggers ...TriggerInfo) error {
	output, err := actor.CognitoClient.DescribeUserPool(ctx, &cognitoidentityprovider.DescribeUserPoolInput{
		UserPoolId: aws.String(userPoolId),
	})
	if err != nil {
		log.Printf("Couldn't get info about user pool %v. Here's why: %v\n", userPoolId, err)
		return err
	}
	lambdaConfig := output.UserPool.LambdaConfig
	for _, trigger := range triggers {
		switch trigger.Trigger {
		case PreSignUp:
			lambdaConfig.PreSignUp = trigger.HandlerArn
		case UserMigration:
			lambdaConfig.UserMigration = trigger.HandlerArn
		case PostAuthentication:
			lambdaConfig.PostAuthentication = trigger.HandlerArn
		}
	}
	_, err = actor.CognitoClient.UpdateUserPool(ctx, &cognitoidentityprovider.UpdateUserPoolInput{
		UserPoolId:   aws.String(userPoolId),
		LambdaConfig: lambdaConfig,
	})
	if err != nil {
		log.Printf("Couldn't update user pool %v. Here's why: %v\n", userPoolId, err)
	}
	return err
}



// SignUp signs up a user with Amazon Cognito.
func (actor CognitoActions) SignUp(ctx context.Context, clientId string, userName string, password string, userEmail string) (bool, error) {
	confirmed := false
	output, err := actor.CognitoClient.SignUp(ctx, &cognitoidentityprovider.SignUpInput{
		ClientId: aws.String(clientId),
		Password: aws.String(password),
		Username: aws.String(userName),
		UserAttributes: []types.AttributeType{
			{Name: aws.String("email"), Value: aws.String(userEmail)},
		},
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't sign up user %v. Here's why: %v\n", userName, err)
		}
	} else {
		confirmed = output.UserConfirmed
	}
	return confirmed, err
}



// SignIn signs in a user to Amazon Cognito using a username and password authentication flow.
func (actor CognitoActions) SignIn(ctx context.Context, clientId string, userName string, password string) (*types.AuthenticationResultType, error) {
	var authResult *types.AuthenticationResultType
	output, err := actor.CognitoClient.InitiateAuth(ctx, &cognitoidentityprovider.InitiateAuthInput{
		AuthFlow:       "USER_PASSWORD_AUTH",
		ClientId:       aws.String(clientId),
		AuthParameters: map[string]string{"USERNAME": userName, "PASSWORD": password},
	})
	if err != nil {
		var resetRequired *types.PasswordResetRequiredException
		if errors.As(err, &resetRequired) {
			log.Println(*resetRequired.Message)
		} else {
			log.Printf("Couldn't sign in user %v. Here's why: %v\n", userName, err)
		}
	} else {
		authResult = output.AuthenticationResult
	}
	return authResult, err
}



// ForgotPassword starts a password recovery flow for a user. This flow typically sends a confirmation code
// to the user's configured notification destination, such as email.
func (actor CognitoActions) ForgotPassword(ctx context.Context, clientId string, userName string) (*types.CodeDeliveryDetailsType, error) {
	output, err := actor.CognitoClient.ForgotPassword(ctx, &cognitoidentityprovider.ForgotPasswordInput{
		ClientId: aws.String(clientId),
		Username: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't start password reset for user '%v'. Here;s why: %v\n", userName, err)
	}
	return output.CodeDeliveryDetails, err
}



// ConfirmForgotPassword confirms a user with a confirmation code and a new password.
func (actor CognitoActions) ConfirmForgotPassword(ctx context.Context, clientId string, code string, userName string, password string) error {
	_, err := actor.CognitoClient.ConfirmForgotPassword(ctx, &cognitoidentityprovider.ConfirmForgotPasswordInput{
		ClientId:         aws.String(clientId),
		ConfirmationCode: aws.String(code),
		Password:         aws.String(password),
		Username:         aws.String(userName),
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't confirm user %v. Here's why: %v", userName, err)
		}
	}
	return err
}



// DeleteUser removes a user from the user pool.
func (actor CognitoActions) DeleteUser(ctx context.Context, userAccessToken string) error {
	_, err := actor.CognitoClient.DeleteUser(ctx, &cognitoidentityprovider.DeleteUserInput{
		AccessToken: aws.String(userAccessToken),
	})
	if err != nil {
		log.Printf("Couldn't delete user. Here's why: %v\n", err)
	}
	return err
}



// AdminCreateUser uses administrator credentials to add a user to a user pool. This method leaves the user
// in a state that requires they enter a new password next time they sign in.
func (actor CognitoActions) AdminCreateUser(ctx context.Context, userPoolId string, userName string, userEmail string) error {
	_, err := actor.CognitoClient.AdminCreateUser(ctx, &cognitoidentityprovider.AdminCreateUserInput{
		UserPoolId:     aws.String(userPoolId),
		Username:       aws.String(userName),
		MessageAction:  types.MessageActionTypeSuppress,
		UserAttributes: []types.AttributeType{{Name: aws.String("email"), Value: aws.String(userEmail)}},
	})
	if err != nil {
		var userExists *types.UsernameExistsException
		if errors.As(err, &userExists) {
			log.Printf("User %v already exists in the user pool.", userName)
			err = nil
		} else {
			log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}



// AdminSetUserPassword uses administrator credentials to set a password for a user without requiring a
// temporary password.
func (actor CognitoActions) AdminSetUserPassword(ctx context.Context, userPoolId string, userName string, password string) error {
	_, err := actor.CognitoClient.AdminSetUserPassword(ctx, &cognitoidentityprovider.AdminSetUserPasswordInput{
		Password:   aws.String(password),
		UserPoolId: aws.String(userPoolId),
		Username:   aws.String(userName),
		Permanent:  true,
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't set password for user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}
```
Buat struct yang membungkus tindakan DynamoDB.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// DynamoActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type DynamoActions struct {
	DynamoClient *dynamodb.Client
}

// User defines structured user data.
type User struct {
	UserName  string
	UserEmail string
	LastLogin *LoginInfo `dynamodbav:",omitempty"`
}

// LoginInfo defines structured custom login data.
type LoginInfo struct {
	UserPoolId string
	ClientId   string
	Time       string
}

// UserList defines a list of users.
type UserList struct {
	Users []User
}

// UserNameList returns the usernames contained in a UserList as a list of strings.
func (users *UserList) UserNameList() []string {
	names := make([]string, len(users.Users))
	for i := 0; i < len(users.Users); i++ {
		names[i] = users.Users[i].UserName
	}
	return names
}

// PopulateTable adds a set of test users to the table.
func (actor DynamoActions) PopulateTable(ctx context.Context, tableName string) error {
	var err error
	var item map[string]types.AttributeValue
	var writeReqs []types.WriteRequest
	for i := 1; i < 4; i++ {
		item, err = attributevalue.MarshalMap(User{UserName: fmt.Sprintf("test_user_%v", i), UserEmail: fmt.Sprintf("test_email_%v@example.com", i)})
		if err != nil {
			log.Printf("Couldn't marshall user into DynamoDB format. Here's why: %v\n", err)
			return err
		}
		writeReqs = append(writeReqs, types.WriteRequest{PutRequest: &types.PutRequest{Item: item}})
	}
	_, err = actor.DynamoClient.BatchWriteItem(ctx, &dynamodb.BatchWriteItemInput{
		RequestItems: map[string][]types.WriteRequest{tableName: writeReqs},
	})
	if err != nil {
		log.Printf("Couldn't populate table %v with users. Here's why: %v\n", tableName, err)
	}
	return err
}

// Scan scans the table for all items.
func (actor DynamoActions) Scan(ctx context.Context, tableName string) (UserList, error) {
	var userList UserList
	output, err := actor.DynamoClient.Scan(ctx, &dynamodb.ScanInput{
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't scan table %v for items. Here's why: %v\n", tableName, err)
	} else {
		err = attributevalue.UnmarshalListOfMaps(output.Items, &userList.Users)
		if err != nil {
			log.Printf("Couldn't unmarshal items into users. Here's why: %v\n", err)
		}
	}
	return userList, err
}

// AddUser adds a user item to a table.
func (actor DynamoActions) AddUser(ctx context.Context, tableName string, user User) error {
	userItem, err := attributevalue.MarshalMap(user)
	if err != nil {
		log.Printf("Couldn't marshall user to item. Here's why: %v\n", err)
	}
	_, err = actor.DynamoClient.PutItem(ctx, &dynamodb.PutItemInput{
		Item:      userItem,
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't put item in table %v. Here's why: %v", tableName, err)
	}
	return err
}
```
Buat struct yang membungkus tindakan CloudWatch Log.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs/types"
)

type CloudWatchLogsActions struct {
	CwlClient *cloudwatchlogs.Client
}

// GetLatestLogStream gets the most recent log stream for a Lambda function.
func (actor CloudWatchLogsActions) GetLatestLogStream(ctx context.Context, functionName string) (types.LogStream, error) {
	var logStream types.LogStream
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.DescribeLogStreams(ctx, &cloudwatchlogs.DescribeLogStreamsInput{
		Descending:   aws.Bool(true),
		Limit:        aws.Int32(1),
		LogGroupName: aws.String(logGroupName),
		OrderBy:      types.OrderByLastEventTime,
	})
	if err != nil {
		log.Printf("Couldn't get log streams for log group %v. Here's why: %v\n", logGroupName, err)
	} else {
		logStream = output.LogStreams[0]
	}
	return logStream, err
}

// GetLogEvents gets the most recent eventCount events from the specified log stream.
func (actor CloudWatchLogsActions) GetLogEvents(ctx context.Context, functionName string, logStreamName string, eventCount int32) (
	[]types.OutputLogEvent, error) {
	var events []types.OutputLogEvent
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.GetLogEvents(ctx, &cloudwatchlogs.GetLogEventsInput{
		LogStreamName: aws.String(logStreamName),
		Limit:         aws.Int32(eventCount),
		LogGroupName:  aws.String(logGroupName),
	})
	if err != nil {
		log.Printf("Couldn't get log event for log stream %v. Here's why: %v\n", logStreamName, err)
	} else {
		events = output.Events
	}
	return events, err
}
```
Buat struct yang membungkus tindakan CloudFormation .  

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
)

// StackOutputs defines a map of outputs from a specific stack.
type StackOutputs map[string]string

type CloudFormationActions struct {
	CfnClient *cloudformation.Client
}

// GetOutputs gets the outputs from a CloudFormation stack and puts them into a structured format.
func (actor CloudFormationActions) GetOutputs(ctx context.Context, stackName string) StackOutputs {
	output, err := actor.CfnClient.DescribeStacks(ctx, &cloudformation.DescribeStacksInput{
		StackName: aws.String(stackName),
	})
	if err != nil || len(output.Stacks) == 0 {
		log.Panicf("Couldn't find a CloudFormation stack named %v. Here's why: %v\n", stackName, err)
	}
	stackOutputs := StackOutputs{}
	for _, out := range output.Stacks[0].Outputs {
		stackOutputs[*out.OutputKey] = *out.OutputValue
	}
	return stackOutputs
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"log"
	"user_pools_and_lambda_triggers/actions"

	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// Resources keeps track of AWS resources created during an example and handles
// cleanup when the example finishes.
type Resources struct {
	userPoolId       string
	userAccessTokens []string
	triggers         []actions.Trigger

	cognitoActor *actions.CognitoActions
	questioner   demotools.IQuestioner
}

func (resources *Resources) init(cognitoActor *actions.CognitoActions, questioner demotools.IQuestioner) {
	resources.userAccessTokens = []string{}
	resources.triggers = []actions.Trigger{}
	resources.cognitoActor = cognitoActor
	resources.questioner = questioner
}

// Cleanup deletes all AWS resources created during an example.
func (resources *Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong during cleanup.\n%v\n", r)
			log.Println("Use the AWS Management Console to remove any remaining resources \n" +
				"that were created for this scenario.")
		}
	}()

	wantDelete := resources.questioner.AskBool("Do you want to remove all of the AWS resources that were created "+
		"during this demo (y/n)?", "y")
	if wantDelete {
		for _, accessToken := range resources.userAccessTokens {
			err := resources.cognitoActor.DeleteUser(ctx, accessToken)
			if err != nil {
				log.Println("Couldn't delete user during cleanup.")
				panic(err)
			}
			log.Println("Deleted user.")
		}
		triggerList := make([]actions.TriggerInfo, len(resources.triggers))
		for i := 0; i < len(resources.triggers); i++ {
			triggerList[i] = actions.TriggerInfo{Trigger: resources.triggers[i], HandlerArn: nil}
		}
		err := resources.cognitoActor.UpdateTriggers(ctx, resources.userPoolId, triggerList...)
		if err != nil {
			log.Println("Couldn't update Cognito triggers during cleanup.")
			panic(err)
		}
		log.Println("Removed Cognito triggers from user pool.")
	} else {
		log.Println("Be sure to remove resources when you're done with them to avoid unexpected charges!")
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.DeleteUser)
  + [InitiateAuth](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.InitiateAuth)
  + [SignUp](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.SignUp)
  + [UpdateUserPool](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.UpdateUserPool)

### Secara otomatis memigrasikan pengguna yang dikenal dengan fungsi Lambda
<a name="cross_CognitoAutoMigrateUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memigrasi pengguna Amazon Cognito yang dikenal secara otomatis dengan fungsi Lambda.
+ Konfigurasikan kumpulan pengguna untuk memanggil fungsi Lambda untuk `MigrateUser` pemicunya.
+ Masuk ke Amazon Cognito dengan nama pengguna dan email yang tidak ada di kumpulan pengguna.
+ Fungsi Lambda memindai tabel DynamoDB dan secara otomatis memigrasikan pengguna yang dikenal ke kumpulan pengguna.
+ Lakukan alur lupa kata sandi untuk mengatur ulang kata sandi untuk pengguna yang dimigrasi.
+ Masuk sebagai pengguna baru, lalu bersihkan sumber daya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/user_pools_and_lambda_triggers#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"errors"
	"fmt"
	"log"
	"strings"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// MigrateUser separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type MigrateUser struct {
	helper       IScenarioHelper
	questioner   demotools.IQuestioner
	resources    Resources
	cognitoActor *actions.CognitoActions
}

// NewMigrateUser constructs a new migrate user runner.
func NewMigrateUser(sdkConfig aws.Config, questioner demotools.IQuestioner, helper IScenarioHelper) MigrateUser {
	scenario := MigrateUser{
		helper:       helper,
		questioner:   questioner,
		resources:    Resources{},
		cognitoActor: &actions.CognitoActions{CognitoClient: cognitoidentityprovider.NewFromConfig(sdkConfig)},
	}
	scenario.resources.init(scenario.cognitoActor, questioner)
	return scenario
}

// AddMigrateUserTrigger adds a Lambda handler as an invocation target for the MigrateUser trigger.
func (runner *MigrateUser) AddMigrateUserTrigger(ctx context.Context, userPoolId string, functionArn string) {
	log.Printf("Let's add a Lambda function to handle the MigrateUser trigger from Cognito.\n" +
		"This trigger happens when an unknown user signs in, and lets your function take action before Cognito\n" +
		"rejects the user.\n\n")
	err := runner.cognitoActor.UpdateTriggers(
		ctx, userPoolId,
		actions.TriggerInfo{Trigger: actions.UserMigration, HandlerArn: aws.String(functionArn)})
	if err != nil {
		panic(err)
	}
	log.Printf("Lambda function %v added to user pool %v to handle the MigrateUser trigger.\n",
		functionArn, userPoolId)

	log.Println(strings.Repeat("-", 88))
}

// SignInUser adds a new user to the known users table and signs that user in to Amazon Cognito.
func (runner *MigrateUser) SignInUser(ctx context.Context, usersTable string, clientId string) (bool, actions.User) {
	log.Println("Let's sign in a user to your Cognito user pool. When the username and email matches an entry in the\n" +
		"DynamoDB known users table, the email is automatically verified and the user is migrated to the Cognito user pool.")

	user := actions.User{}
	user.UserName = runner.questioner.Ask("\nEnter a username:")
	user.UserEmail = runner.questioner.Ask("\nEnter an email that you own. This email will be used to confirm user migration\n" +
		"during this example:")

	runner.helper.AddKnownUser(ctx, usersTable, user)

	var err error
	var resetRequired *types.PasswordResetRequiredException
	var authResult *types.AuthenticationResultType
	signedIn := false
	for !signedIn && resetRequired == nil {
		log.Printf("Signing in to Cognito as user '%v'. The expected result is a PasswordResetRequiredException.\n\n", user.UserName)
		authResult, err = runner.cognitoActor.SignIn(ctx, clientId, user.UserName, "_")
		if err != nil {
			if errors.As(err, &resetRequired) {
				log.Printf("\nUser '%v' is not in the Cognito user pool but was found in the DynamoDB known users table.\n"+
					"User migration is started and a password reset is required.", user.UserName)
			} else {
				panic(err)
			}
		} else {
			log.Printf("User '%v' successfully signed in. This is unexpected and probably means you have not\n"+
				"cleaned up a previous run of this scenario, so the user exist in the Cognito user pool.\n"+
				"You can continue this example and select to clean up resources, or manually remove\n"+
				"the user from your user pool and try again.", user.UserName)
			runner.resources.userAccessTokens = append(runner.resources.userAccessTokens, *authResult.AccessToken)
			signedIn = true
		}
	}

	log.Println(strings.Repeat("-", 88))
	return resetRequired != nil, user
}

// ResetPassword starts a password recovery flow.
func (runner *MigrateUser) ResetPassword(ctx context.Context, clientId string, user actions.User) {
	wantCode := runner.questioner.AskBool(fmt.Sprintf("In order to migrate the user to Cognito, you must be able to receive a confirmation\n"+
		"code by email at %v. Do you want to send a code (y/n)?", user.UserEmail), "y")
	if !wantCode {
		log.Println("To complete this example and successfully migrate a user to Cognito, you must enter an email\n" +
			"you own that can receive a confirmation code.")
		return
	}
	codeDelivery, err := runner.cognitoActor.ForgotPassword(ctx, clientId, user.UserName)
	if err != nil {
		panic(err)
	}
	log.Printf("\nA confirmation code has been sent to %v.", *codeDelivery.Destination)
	code := runner.questioner.Ask("Check your email and enter it here:")

	confirmed := false
	password := runner.questioner.AskPassword("\nEnter a password that has at least eight characters, uppercase, lowercase, numbers and symbols.\n"+
		"(the password will not display as you type):", 8)
	for !confirmed {
		log.Printf("\nConfirming password reset for user '%v'.\n", user.UserName)
		err = runner.cognitoActor.ConfirmForgotPassword(ctx, clientId, code, user.UserName, password)
		if err != nil {
			var invalidPassword *types.InvalidPasswordException
			if errors.As(err, &invalidPassword) {
				password = runner.questioner.AskPassword("\nEnter another password:", 8)
			} else {
				panic(err)
			}
		} else {
			confirmed = true
		}
	}
	log.Printf("User '%v' successfully confirmed and migrated.\n", user.UserName)
	log.Println("Signing in with your username and password...")
	authResult, err := runner.cognitoActor.SignIn(ctx, clientId, user.UserName, password)
	if err != nil {
		panic(err)
	}
	log.Printf("Successfully signed in. Your access token starts with: %v...\n", (*authResult.AccessToken)[:10])
	runner.resources.userAccessTokens = append(runner.resources.userAccessTokens, *authResult.AccessToken)

	log.Println(strings.Repeat("-", 88))
}

// Run runs the scenario.
func (runner *MigrateUser) Run(ctx context.Context, stackName string) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			runner.resources.Cleanup(ctx)
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Printf("Welcome\n")

	log.Println(strings.Repeat("-", 88))

	stackOutputs, err := runner.helper.GetStackOutputs(ctx, stackName)
	if err != nil {
		panic(err)
	}
	runner.resources.userPoolId = stackOutputs["UserPoolId"]

	runner.AddMigrateUserTrigger(ctx, stackOutputs["UserPoolId"], stackOutputs["MigrateUserFunctionArn"])
	runner.resources.triggers = append(runner.resources.triggers, actions.UserMigration)
	resetNeeded, user := runner.SignInUser(ctx, stackOutputs["TableName"], stackOutputs["UserPoolClientId"])
	if resetNeeded {
		runner.helper.ListRecentLogEvents(ctx, stackOutputs["MigrateUserFunction"])
		runner.ResetPassword(ctx, stackOutputs["UserPoolClientId"], user)
	}

	runner.resources.Cleanup(ctx)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tangani `MigrateUser` pelatuk dengan fungsi Lambda.  

```
import (
	"context"
	"log"
	"os"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
)

const TABLE_NAME = "TABLE_NAME"

// UserInfo defines structured user data that can be marshalled to a DynamoDB format.
type UserInfo struct {
	UserName  string `dynamodbav:"UserName"`
	UserEmail string `dynamodbav:"UserEmail"`
}

type handler struct {
	dynamoClient *dynamodb.Client
}

// HandleRequest handles the MigrateUser event by looking up a user in an Amazon DynamoDB table and
// specifying whether they should be migrated to the user pool.
func (h *handler) HandleRequest(ctx context.Context, event events.CognitoEventUserPoolsMigrateUser) (events.CognitoEventUserPoolsMigrateUser, error) {
	log.Printf("Received migrate trigger from %v for user '%v'", event.TriggerSource, event.UserName)
	if event.TriggerSource != "UserMigration_Authentication" {
		return event, nil
	}
	tableName := os.Getenv(TABLE_NAME)
	user := UserInfo{
		UserName: event.UserName,
	}
	log.Printf("Looking up user '%v' in table %v.\n", user.UserName, tableName)
	filterEx := expression.Name("UserName").Equal(expression.Value(user.UserName))
	expr, err := expression.NewBuilder().WithFilter(filterEx).Build()
	if err != nil {
		log.Printf("Error building expression to query for user '%v'.\n", user.UserName)
		return event, err
	}
	output, err := h.dynamoClient.Scan(ctx, &dynamodb.ScanInput{
		TableName:                 aws.String(tableName),
		FilterExpression:          expr.Filter(),
		ExpressionAttributeNames:  expr.Names(),
		ExpressionAttributeValues: expr.Values(),
	})
	if err != nil {
		log.Printf("Error looking up user '%v'.\n", user.UserName)
		return event, err
	}
	if len(output.Items) == 0 {
		log.Printf("User '%v' not found, not migrating user.\n", user.UserName)
		return event, err
	}

	var users []UserInfo
	err = attributevalue.UnmarshalListOfMaps(output.Items, &users)
	if err != nil {
		log.Printf("Couldn't unmarshal DynamoDB items. Here's why: %v\n", err)
		return event, err
	}

	user = users[0]
	log.Printf("UserName '%v' found with email %v. User is migrated and must reset password.\n", user.UserName, user.UserEmail)
	event.CognitoEventUserPoolsMigrateUserResponse.UserAttributes = map[string]string{
		"email":          user.UserEmail,
		"email_verified": "true", // email_verified is required for the forgot password flow.
	}
	event.CognitoEventUserPoolsMigrateUserResponse.FinalUserStatus = "RESET_REQUIRED"
	event.CognitoEventUserPoolsMigrateUserResponse.MessageAction = "SUPPRESS"

	return event, err
}

func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		log.Panicln(err)
	}
	h := handler{
		dynamoClient: dynamodb.NewFromConfig(sdkConfig),
	}
	lambda.Start(h.HandleRequest)
}
```
Buat struct yang melakukan tugas-tugas umum.  

```
import (
	"context"
	"log"
	"strings"
	"time"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// IScenarioHelper defines common functions used by the workflows in this example.
type IScenarioHelper interface {
	Pause(secs int)
	GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error)
	PopulateUserTable(ctx context.Context, tableName string)
	GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error)
	AddKnownUser(ctx context.Context, tableName string, user actions.User)
	ListRecentLogEvents(ctx context.Context, functionName string)
}

// ScenarioHelper contains AWS wrapper structs used by the workflows in this example.
type ScenarioHelper struct {
	questioner  demotools.IQuestioner
	dynamoActor *actions.DynamoActions
	cfnActor    *actions.CloudFormationActions
	cwlActor    *actions.CloudWatchLogsActions
	isTestRun   bool
}

// NewScenarioHelper constructs a new scenario helper.
func NewScenarioHelper(sdkConfig aws.Config, questioner demotools.IQuestioner) ScenarioHelper {
	scenario := ScenarioHelper{
		questioner:  questioner,
		dynamoActor: &actions.DynamoActions{DynamoClient: dynamodb.NewFromConfig(sdkConfig)},
		cfnActor:    &actions.CloudFormationActions{CfnClient: cloudformation.NewFromConfig(sdkConfig)},
		cwlActor:    &actions.CloudWatchLogsActions{CwlClient: cloudwatchlogs.NewFromConfig(sdkConfig)},
	}
	return scenario
}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	if !helper.isTestRun {
		time.Sleep(time.Duration(secs) * time.Second)
	}
}

// GetStackOutputs gets the outputs from the specified CloudFormation stack in a structured format.
func (helper ScenarioHelper) GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error) {
	return helper.cfnActor.GetOutputs(ctx, stackName), nil
}

// PopulateUserTable fills the known user table with example data.
func (helper ScenarioHelper) PopulateUserTable(ctx context.Context, tableName string) {
	log.Printf("First, let's add some users to the DynamoDB %v table we'll use for this example.\n", tableName)
	err := helper.dynamoActor.PopulateTable(ctx, tableName)
	if err != nil {
		panic(err)
	}
}

// GetKnownUsers gets the users from the known users table in a structured format.
func (helper ScenarioHelper) GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error) {
	knownUsers, err := helper.dynamoActor.Scan(ctx, tableName)
	if err != nil {
		log.Printf("Couldn't get known users from table %v. Here's why: %v\n", tableName, err)
	}
	return knownUsers, err
}

// AddKnownUser adds a user to the known users table.
func (helper ScenarioHelper) AddKnownUser(ctx context.Context, tableName string, user actions.User) {
	log.Printf("Adding user '%v' with email '%v' to the DynamoDB known users table...\n",
		user.UserName, user.UserEmail)
	err := helper.dynamoActor.AddUser(ctx, tableName, user)
	if err != nil {
		panic(err)
	}
}

// ListRecentLogEvents gets the most recent log stream and events for the specified Lambda function and displays them.
func (helper ScenarioHelper) ListRecentLogEvents(ctx context.Context, functionName string) {
	log.Println("Waiting a few seconds to let Lambda write to CloudWatch Logs...")
	helper.Pause(10)
	log.Println("Okay, let's check the logs to find what's happened recently with your Lambda function.")
	logStream, err := helper.cwlActor.GetLatestLogStream(ctx, functionName)
	if err != nil {
		panic(err)
	}
	log.Printf("Getting some recent events from log stream %v\n", *logStream.LogStreamName)
	events, err := helper.cwlActor.GetLogEvents(ctx, functionName, *logStream.LogStreamName, 10)
	if err != nil {
		panic(err)
	}
	for _, event := range events {
		log.Printf("\t%v", *event.Message)
	}
	log.Println(strings.Repeat("-", 88))
}
```
Buat struct yang membungkus tindakan Amazon Cognito.  

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// Trigger and TriggerInfo define typed data for updating an Amazon Cognito trigger.
type Trigger int

const (
	PreSignUp Trigger = iota
	UserMigration
	PostAuthentication
)

type TriggerInfo struct {
	Trigger    Trigger
	HandlerArn *string
}

// UpdateTriggers adds or removes Lambda triggers for a user pool. When a trigger is specified with a `nil` value,
// it is removed from the user pool.
func (actor CognitoActions) UpdateTriggers(ctx context.Context, userPoolId string, triggers ...TriggerInfo) error {
	output, err := actor.CognitoClient.DescribeUserPool(ctx, &cognitoidentityprovider.DescribeUserPoolInput{
		UserPoolId: aws.String(userPoolId),
	})
	if err != nil {
		log.Printf("Couldn't get info about user pool %v. Here's why: %v\n", userPoolId, err)
		return err
	}
	lambdaConfig := output.UserPool.LambdaConfig
	for _, trigger := range triggers {
		switch trigger.Trigger {
		case PreSignUp:
			lambdaConfig.PreSignUp = trigger.HandlerArn
		case UserMigration:
			lambdaConfig.UserMigration = trigger.HandlerArn
		case PostAuthentication:
			lambdaConfig.PostAuthentication = trigger.HandlerArn
		}
	}
	_, err = actor.CognitoClient.UpdateUserPool(ctx, &cognitoidentityprovider.UpdateUserPoolInput{
		UserPoolId:   aws.String(userPoolId),
		LambdaConfig: lambdaConfig,
	})
	if err != nil {
		log.Printf("Couldn't update user pool %v. Here's why: %v\n", userPoolId, err)
	}
	return err
}



// SignUp signs up a user with Amazon Cognito.
func (actor CognitoActions) SignUp(ctx context.Context, clientId string, userName string, password string, userEmail string) (bool, error) {
	confirmed := false
	output, err := actor.CognitoClient.SignUp(ctx, &cognitoidentityprovider.SignUpInput{
		ClientId: aws.String(clientId),
		Password: aws.String(password),
		Username: aws.String(userName),
		UserAttributes: []types.AttributeType{
			{Name: aws.String("email"), Value: aws.String(userEmail)},
		},
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't sign up user %v. Here's why: %v\n", userName, err)
		}
	} else {
		confirmed = output.UserConfirmed
	}
	return confirmed, err
}



// SignIn signs in a user to Amazon Cognito using a username and password authentication flow.
func (actor CognitoActions) SignIn(ctx context.Context, clientId string, userName string, password string) (*types.AuthenticationResultType, error) {
	var authResult *types.AuthenticationResultType
	output, err := actor.CognitoClient.InitiateAuth(ctx, &cognitoidentityprovider.InitiateAuthInput{
		AuthFlow:       "USER_PASSWORD_AUTH",
		ClientId:       aws.String(clientId),
		AuthParameters: map[string]string{"USERNAME": userName, "PASSWORD": password},
	})
	if err != nil {
		var resetRequired *types.PasswordResetRequiredException
		if errors.As(err, &resetRequired) {
			log.Println(*resetRequired.Message)
		} else {
			log.Printf("Couldn't sign in user %v. Here's why: %v\n", userName, err)
		}
	} else {
		authResult = output.AuthenticationResult
	}
	return authResult, err
}



// ForgotPassword starts a password recovery flow for a user. This flow typically sends a confirmation code
// to the user's configured notification destination, such as email.
func (actor CognitoActions) ForgotPassword(ctx context.Context, clientId string, userName string) (*types.CodeDeliveryDetailsType, error) {
	output, err := actor.CognitoClient.ForgotPassword(ctx, &cognitoidentityprovider.ForgotPasswordInput{
		ClientId: aws.String(clientId),
		Username: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't start password reset for user '%v'. Here;s why: %v\n", userName, err)
	}
	return output.CodeDeliveryDetails, err
}



// ConfirmForgotPassword confirms a user with a confirmation code and a new password.
func (actor CognitoActions) ConfirmForgotPassword(ctx context.Context, clientId string, code string, userName string, password string) error {
	_, err := actor.CognitoClient.ConfirmForgotPassword(ctx, &cognitoidentityprovider.ConfirmForgotPasswordInput{
		ClientId:         aws.String(clientId),
		ConfirmationCode: aws.String(code),
		Password:         aws.String(password),
		Username:         aws.String(userName),
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't confirm user %v. Here's why: %v", userName, err)
		}
	}
	return err
}



// DeleteUser removes a user from the user pool.
func (actor CognitoActions) DeleteUser(ctx context.Context, userAccessToken string) error {
	_, err := actor.CognitoClient.DeleteUser(ctx, &cognitoidentityprovider.DeleteUserInput{
		AccessToken: aws.String(userAccessToken),
	})
	if err != nil {
		log.Printf("Couldn't delete user. Here's why: %v\n", err)
	}
	return err
}



// AdminCreateUser uses administrator credentials to add a user to a user pool. This method leaves the user
// in a state that requires they enter a new password next time they sign in.
func (actor CognitoActions) AdminCreateUser(ctx context.Context, userPoolId string, userName string, userEmail string) error {
	_, err := actor.CognitoClient.AdminCreateUser(ctx, &cognitoidentityprovider.AdminCreateUserInput{
		UserPoolId:     aws.String(userPoolId),
		Username:       aws.String(userName),
		MessageAction:  types.MessageActionTypeSuppress,
		UserAttributes: []types.AttributeType{{Name: aws.String("email"), Value: aws.String(userEmail)}},
	})
	if err != nil {
		var userExists *types.UsernameExistsException
		if errors.As(err, &userExists) {
			log.Printf("User %v already exists in the user pool.", userName)
			err = nil
		} else {
			log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}



// AdminSetUserPassword uses administrator credentials to set a password for a user without requiring a
// temporary password.
func (actor CognitoActions) AdminSetUserPassword(ctx context.Context, userPoolId string, userName string, password string) error {
	_, err := actor.CognitoClient.AdminSetUserPassword(ctx, &cognitoidentityprovider.AdminSetUserPasswordInput{
		Password:   aws.String(password),
		UserPoolId: aws.String(userPoolId),
		Username:   aws.String(userName),
		Permanent:  true,
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't set password for user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}
```
Buat struct yang membungkus tindakan DynamoDB.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// DynamoActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type DynamoActions struct {
	DynamoClient *dynamodb.Client
}

// User defines structured user data.
type User struct {
	UserName  string
	UserEmail string
	LastLogin *LoginInfo `dynamodbav:",omitempty"`
}

// LoginInfo defines structured custom login data.
type LoginInfo struct {
	UserPoolId string
	ClientId   string
	Time       string
}

// UserList defines a list of users.
type UserList struct {
	Users []User
}

// UserNameList returns the usernames contained in a UserList as a list of strings.
func (users *UserList) UserNameList() []string {
	names := make([]string, len(users.Users))
	for i := 0; i < len(users.Users); i++ {
		names[i] = users.Users[i].UserName
	}
	return names
}

// PopulateTable adds a set of test users to the table.
func (actor DynamoActions) PopulateTable(ctx context.Context, tableName string) error {
	var err error
	var item map[string]types.AttributeValue
	var writeReqs []types.WriteRequest
	for i := 1; i < 4; i++ {
		item, err = attributevalue.MarshalMap(User{UserName: fmt.Sprintf("test_user_%v", i), UserEmail: fmt.Sprintf("test_email_%v@example.com", i)})
		if err != nil {
			log.Printf("Couldn't marshall user into DynamoDB format. Here's why: %v\n", err)
			return err
		}
		writeReqs = append(writeReqs, types.WriteRequest{PutRequest: &types.PutRequest{Item: item}})
	}
	_, err = actor.DynamoClient.BatchWriteItem(ctx, &dynamodb.BatchWriteItemInput{
		RequestItems: map[string][]types.WriteRequest{tableName: writeReqs},
	})
	if err != nil {
		log.Printf("Couldn't populate table %v with users. Here's why: %v\n", tableName, err)
	}
	return err
}

// Scan scans the table for all items.
func (actor DynamoActions) Scan(ctx context.Context, tableName string) (UserList, error) {
	var userList UserList
	output, err := actor.DynamoClient.Scan(ctx, &dynamodb.ScanInput{
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't scan table %v for items. Here's why: %v\n", tableName, err)
	} else {
		err = attributevalue.UnmarshalListOfMaps(output.Items, &userList.Users)
		if err != nil {
			log.Printf("Couldn't unmarshal items into users. Here's why: %v\n", err)
		}
	}
	return userList, err
}

// AddUser adds a user item to a table.
func (actor DynamoActions) AddUser(ctx context.Context, tableName string, user User) error {
	userItem, err := attributevalue.MarshalMap(user)
	if err != nil {
		log.Printf("Couldn't marshall user to item. Here's why: %v\n", err)
	}
	_, err = actor.DynamoClient.PutItem(ctx, &dynamodb.PutItemInput{
		Item:      userItem,
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't put item in table %v. Here's why: %v", tableName, err)
	}
	return err
}
```
Buat struct yang membungkus tindakan CloudWatch Log.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs/types"
)

type CloudWatchLogsActions struct {
	CwlClient *cloudwatchlogs.Client
}

// GetLatestLogStream gets the most recent log stream for a Lambda function.
func (actor CloudWatchLogsActions) GetLatestLogStream(ctx context.Context, functionName string) (types.LogStream, error) {
	var logStream types.LogStream
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.DescribeLogStreams(ctx, &cloudwatchlogs.DescribeLogStreamsInput{
		Descending:   aws.Bool(true),
		Limit:        aws.Int32(1),
		LogGroupName: aws.String(logGroupName),
		OrderBy:      types.OrderByLastEventTime,
	})
	if err != nil {
		log.Printf("Couldn't get log streams for log group %v. Here's why: %v\n", logGroupName, err)
	} else {
		logStream = output.LogStreams[0]
	}
	return logStream, err
}

// GetLogEvents gets the most recent eventCount events from the specified log stream.
func (actor CloudWatchLogsActions) GetLogEvents(ctx context.Context, functionName string, logStreamName string, eventCount int32) (
	[]types.OutputLogEvent, error) {
	var events []types.OutputLogEvent
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.GetLogEvents(ctx, &cloudwatchlogs.GetLogEventsInput{
		LogStreamName: aws.String(logStreamName),
		Limit:         aws.Int32(eventCount),
		LogGroupName:  aws.String(logGroupName),
	})
	if err != nil {
		log.Printf("Couldn't get log event for log stream %v. Here's why: %v\n", logStreamName, err)
	} else {
		events = output.Events
	}
	return events, err
}
```
Buat struct yang membungkus tindakan CloudFormation .  

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
)

// StackOutputs defines a map of outputs from a specific stack.
type StackOutputs map[string]string

type CloudFormationActions struct {
	CfnClient *cloudformation.Client
}

// GetOutputs gets the outputs from a CloudFormation stack and puts them into a structured format.
func (actor CloudFormationActions) GetOutputs(ctx context.Context, stackName string) StackOutputs {
	output, err := actor.CfnClient.DescribeStacks(ctx, &cloudformation.DescribeStacksInput{
		StackName: aws.String(stackName),
	})
	if err != nil || len(output.Stacks) == 0 {
		log.Panicf("Couldn't find a CloudFormation stack named %v. Here's why: %v\n", stackName, err)
	}
	stackOutputs := StackOutputs{}
	for _, out := range output.Stacks[0].Outputs {
		stackOutputs[*out.OutputKey] = *out.OutputValue
	}
	return stackOutputs
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"log"
	"user_pools_and_lambda_triggers/actions"

	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// Resources keeps track of AWS resources created during an example and handles
// cleanup when the example finishes.
type Resources struct {
	userPoolId       string
	userAccessTokens []string
	triggers         []actions.Trigger

	cognitoActor *actions.CognitoActions
	questioner   demotools.IQuestioner
}

func (resources *Resources) init(cognitoActor *actions.CognitoActions, questioner demotools.IQuestioner) {
	resources.userAccessTokens = []string{}
	resources.triggers = []actions.Trigger{}
	resources.cognitoActor = cognitoActor
	resources.questioner = questioner
}

// Cleanup deletes all AWS resources created during an example.
func (resources *Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong during cleanup.\n%v\n", r)
			log.Println("Use the AWS Management Console to remove any remaining resources \n" +
				"that were created for this scenario.")
		}
	}()

	wantDelete := resources.questioner.AskBool("Do you want to remove all of the AWS resources that were created "+
		"during this demo (y/n)?", "y")
	if wantDelete {
		for _, accessToken := range resources.userAccessTokens {
			err := resources.cognitoActor.DeleteUser(ctx, accessToken)
			if err != nil {
				log.Println("Couldn't delete user during cleanup.")
				panic(err)
			}
			log.Println("Deleted user.")
		}
		triggerList := make([]actions.TriggerInfo, len(resources.triggers))
		for i := 0; i < len(resources.triggers); i++ {
			triggerList[i] = actions.TriggerInfo{Trigger: resources.triggers[i], HandlerArn: nil}
		}
		err := resources.cognitoActor.UpdateTriggers(ctx, resources.userPoolId, triggerList...)
		if err != nil {
			log.Println("Couldn't update Cognito triggers during cleanup.")
			panic(err)
		}
		log.Println("Removed Cognito triggers from user pool.")
	} else {
		log.Println("Be sure to remove resources when you're done with them to avoid unexpected charges!")
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [ConfirmForgotPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.ConfirmForgotPassword)
  + [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.DeleteUser)
  + [ForgotPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.ForgotPassword)
  + [InitiateAuth](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.InitiateAuth)
  + [SignUp](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.SignUp)
  + [UpdateUserPool](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.UpdateUserPool)

### Menulis data aktivitas khusus dengan fungsi Lambda setelah otentikasi pengguna Amazon Cognito
<a name="cross_CognitoCustomActivityLog_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menulis data aktivitas kustom dengan fungsi Lambda setelah autentikasi pengguna Amazon Cognito.
+ Gunakan fungsi administrator untuk menambahkan pengguna ke kumpulan pengguna.
+ Konfigurasikan kumpulan pengguna untuk memanggil fungsi Lambda untuk `PostAuthentication` pemicunya.
+ Masuk pengguna baru ke Amazon Cognito.
+ Fungsi Lambda menulis informasi kustom ke CloudWatch Log dan ke tabel DynamoDB.
+ Dapatkan dan tampilkan data kustom dari tabel DynamoDB, lalu bersihkan sumber daya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/user_pools_and_lambda_triggers#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"errors"
	"log"
	"strings"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// ActivityLog separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type ActivityLog struct {
	helper       IScenarioHelper
	questioner   demotools.IQuestioner
	resources    Resources
	cognitoActor *actions.CognitoActions
}

// NewActivityLog constructs a new activity log runner.
func NewActivityLog(sdkConfig aws.Config, questioner demotools.IQuestioner, helper IScenarioHelper) ActivityLog {
	scenario := ActivityLog{
		helper:       helper,
		questioner:   questioner,
		resources:    Resources{},
		cognitoActor: &actions.CognitoActions{CognitoClient: cognitoidentityprovider.NewFromConfig(sdkConfig)},
	}
	scenario.resources.init(scenario.cognitoActor, questioner)
	return scenario
}

// AddUserToPool selects a user from the known users table and uses administrator credentials to add the user to the user pool.
func (runner *ActivityLog) AddUserToPool(ctx context.Context, userPoolId string, tableName string) (string, string) {
	log.Println("To facilitate this example, let's add a user to the user pool using administrator privileges.")
	users, err := runner.helper.GetKnownUsers(ctx, tableName)
	if err != nil {
		panic(err)
	}
	user := users.Users[0]
	log.Printf("Adding known user %v to the user pool.\n", user.UserName)
	err = runner.cognitoActor.AdminCreateUser(ctx, userPoolId, user.UserName, user.UserEmail)
	if err != nil {
		panic(err)
	}
	pwSet := false
	password := runner.questioner.AskPassword("\nEnter a password that has at least eight characters, uppercase, lowercase, numbers and symbols.\n"+
		"(the password will not display as you type):", 8)
	for !pwSet {
		log.Printf("\nSetting password for user '%v'.\n", user.UserName)
		err = runner.cognitoActor.AdminSetUserPassword(ctx, userPoolId, user.UserName, password)
		if err != nil {
			var invalidPassword *types.InvalidPasswordException
			if errors.As(err, &invalidPassword) {
				password = runner.questioner.AskPassword("\nEnter another password:", 8)
			} else {
				panic(err)
			}
		} else {
			pwSet = true
		}
	}

	log.Println(strings.Repeat("-", 88))

	return user.UserName, password
}

// AddActivityLogTrigger adds a Lambda handler as an invocation target for the PostAuthentication trigger.
func (runner *ActivityLog) AddActivityLogTrigger(ctx context.Context, userPoolId string, activityLogArn string) {
	log.Println("Let's add a Lambda function to handle the PostAuthentication trigger from Cognito.\n" +
		"This trigger happens after a user is authenticated, and lets your function take action, such as logging\n" +
		"the outcome.")
	err := runner.cognitoActor.UpdateTriggers(
		ctx, userPoolId,
		actions.TriggerInfo{Trigger: actions.PostAuthentication, HandlerArn: aws.String(activityLogArn)})
	if err != nil {
		panic(err)
	}
	runner.resources.triggers = append(runner.resources.triggers, actions.PostAuthentication)
	log.Printf("Lambda function %v added to user pool %v to handle PostAuthentication Cognito trigger.\n",
		activityLogArn, userPoolId)

	log.Println(strings.Repeat("-", 88))
}

// SignInUser signs in as the specified user.
func (runner *ActivityLog) SignInUser(ctx context.Context, clientId string, userName string, password string) {
	log.Printf("Now we'll sign in user %v and check the results in the logs and the DynamoDB table.", userName)
	runner.questioner.Ask("Press Enter when you're ready.")
	authResult, err := runner.cognitoActor.SignIn(ctx, clientId, userName, password)
	if err != nil {
		panic(err)
	}
	log.Println("Sign in successful.",
		"The PostAuthentication Lambda handler writes custom information to CloudWatch Logs.")

	runner.resources.userAccessTokens = append(runner.resources.userAccessTokens, *authResult.AccessToken)
}

// GetKnownUserLastLogin gets the login info for a user from the Amazon DynamoDB table and displays it.
func (runner *ActivityLog) GetKnownUserLastLogin(ctx context.Context, tableName string, userName string) {
	log.Println("The PostAuthentication handler also writes login data to the DynamoDB table.")
	runner.questioner.Ask("Press Enter when you're ready to continue.")
	users, err := runner.helper.GetKnownUsers(ctx, tableName)
	if err != nil {
		panic(err)
	}
	for _, user := range users.Users {
		if user.UserName == userName {
			log.Println("The last login info for the user in the known users table is:")
			log.Printf("\t%+v", *user.LastLogin)
		}
	}
	log.Println(strings.Repeat("-", 88))
}

// Run runs the scenario.
func (runner *ActivityLog) Run(ctx context.Context, stackName string) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			runner.resources.Cleanup(ctx)
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Printf("Welcome\n")

	log.Println(strings.Repeat("-", 88))

	stackOutputs, err := runner.helper.GetStackOutputs(ctx, stackName)
	if err != nil {
		panic(err)
	}
	runner.resources.userPoolId = stackOutputs["UserPoolId"]
	runner.helper.PopulateUserTable(ctx, stackOutputs["TableName"])
	userName, password := runner.AddUserToPool(ctx, stackOutputs["UserPoolId"], stackOutputs["TableName"])

	runner.AddActivityLogTrigger(ctx, stackOutputs["UserPoolId"], stackOutputs["ActivityLogFunctionArn"])
	runner.SignInUser(ctx, stackOutputs["UserPoolClientId"], userName, password)
	runner.helper.ListRecentLogEvents(ctx, stackOutputs["ActivityLogFunction"])
	runner.GetKnownUserLastLogin(ctx, stackOutputs["TableName"], userName)

	runner.resources.Cleanup(ctx)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tangani `PostAuthentication` pelatuk dengan fungsi Lambda.  

```
import (
	"context"
	"fmt"
	"log"
	"os"
	"time"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	dynamodbtypes "github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

const TABLE_NAME = "TABLE_NAME"

// LoginInfo defines structured login data that can be marshalled to a DynamoDB format.
type LoginInfo struct {
	UserPoolId string `dynamodbav:"UserPoolId"`
	ClientId   string `dynamodbav:"ClientId"`
	Time       string `dynamodbav:"Time"`
}

// UserInfo defines structured user data that can be marshalled to a DynamoDB format.
type UserInfo struct {
	UserName  string    `dynamodbav:"UserName"`
	UserEmail string    `dynamodbav:"UserEmail"`
	LastLogin LoginInfo `dynamodbav:"LastLogin"`
}

// GetKey marshals the user email value to a DynamoDB key format.
func (user UserInfo) GetKey() map[string]dynamodbtypes.AttributeValue {
	userEmail, err := attributevalue.Marshal(user.UserEmail)
	if err != nil {
		panic(err)
	}
	return map[string]dynamodbtypes.AttributeValue{"UserEmail": userEmail}
}

type handler struct {
	dynamoClient *dynamodb.Client
}

// HandleRequest handles the PostAuthentication event by writing custom data to the logs and
// to an Amazon DynamoDB table.
func (h *handler) HandleRequest(ctx context.Context, event events.CognitoEventUserPoolsPostAuthentication) (events.CognitoEventUserPoolsPostAuthentication, error) {
	log.Printf("Received post authentication trigger from %v for user '%v'", event.TriggerSource, event.UserName)
	tableName := os.Getenv(TABLE_NAME)
	user := UserInfo{
		UserName:  event.UserName,
		UserEmail: event.Request.UserAttributes["email"],
		LastLogin: LoginInfo{
			UserPoolId: event.UserPoolID,
			ClientId:   event.CallerContext.ClientID,
			Time:       time.Now().Format(time.UnixDate),
		},
	}
	// Write to CloudWatch Logs.
	fmt.Printf("%#v", user)

	// Also write to an external system. This examples uses DynamoDB to demonstrate.
	userMap, err := attributevalue.MarshalMap(user)
	if err != nil {
		log.Printf("Couldn't marshal to DynamoDB map. Here's why: %v\n", err)
	} else if len(userMap) == 0 {
		log.Printf("User info marshaled to an empty map.")
	} else {
		_, err := h.dynamoClient.PutItem(ctx, &dynamodb.PutItemInput{
			Item:      userMap,
			TableName: aws.String(tableName),
		})
		if err != nil {
			log.Printf("Couldn't write to DynamoDB. Here's why: %v\n", err)
		} else {
			log.Printf("Wrote user info to DynamoDB table %v.\n", tableName)
		}
	}

	return event, nil
}

func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		log.Panicln(err)
	}
	h := handler{
		dynamoClient: dynamodb.NewFromConfig(sdkConfig),
	}
	lambda.Start(h.HandleRequest)
}
```
Buat struct yang melakukan tugas-tugas umum.  

```
import (
	"context"
	"log"
	"strings"
	"time"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// IScenarioHelper defines common functions used by the workflows in this example.
type IScenarioHelper interface {
	Pause(secs int)
	GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error)
	PopulateUserTable(ctx context.Context, tableName string)
	GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error)
	AddKnownUser(ctx context.Context, tableName string, user actions.User)
	ListRecentLogEvents(ctx context.Context, functionName string)
}

// ScenarioHelper contains AWS wrapper structs used by the workflows in this example.
type ScenarioHelper struct {
	questioner  demotools.IQuestioner
	dynamoActor *actions.DynamoActions
	cfnActor    *actions.CloudFormationActions
	cwlActor    *actions.CloudWatchLogsActions
	isTestRun   bool
}

// NewScenarioHelper constructs a new scenario helper.
func NewScenarioHelper(sdkConfig aws.Config, questioner demotools.IQuestioner) ScenarioHelper {
	scenario := ScenarioHelper{
		questioner:  questioner,
		dynamoActor: &actions.DynamoActions{DynamoClient: dynamodb.NewFromConfig(sdkConfig)},
		cfnActor:    &actions.CloudFormationActions{CfnClient: cloudformation.NewFromConfig(sdkConfig)},
		cwlActor:    &actions.CloudWatchLogsActions{CwlClient: cloudwatchlogs.NewFromConfig(sdkConfig)},
	}
	return scenario
}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	if !helper.isTestRun {
		time.Sleep(time.Duration(secs) * time.Second)
	}
}

// GetStackOutputs gets the outputs from the specified CloudFormation stack in a structured format.
func (helper ScenarioHelper) GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error) {
	return helper.cfnActor.GetOutputs(ctx, stackName), nil
}

// PopulateUserTable fills the known user table with example data.
func (helper ScenarioHelper) PopulateUserTable(ctx context.Context, tableName string) {
	log.Printf("First, let's add some users to the DynamoDB %v table we'll use for this example.\n", tableName)
	err := helper.dynamoActor.PopulateTable(ctx, tableName)
	if err != nil {
		panic(err)
	}
}

// GetKnownUsers gets the users from the known users table in a structured format.
func (helper ScenarioHelper) GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error) {
	knownUsers, err := helper.dynamoActor.Scan(ctx, tableName)
	if err != nil {
		log.Printf("Couldn't get known users from table %v. Here's why: %v\n", tableName, err)
	}
	return knownUsers, err
}

// AddKnownUser adds a user to the known users table.
func (helper ScenarioHelper) AddKnownUser(ctx context.Context, tableName string, user actions.User) {
	log.Printf("Adding user '%v' with email '%v' to the DynamoDB known users table...\n",
		user.UserName, user.UserEmail)
	err := helper.dynamoActor.AddUser(ctx, tableName, user)
	if err != nil {
		panic(err)
	}
}

// ListRecentLogEvents gets the most recent log stream and events for the specified Lambda function and displays them.
func (helper ScenarioHelper) ListRecentLogEvents(ctx context.Context, functionName string) {
	log.Println("Waiting a few seconds to let Lambda write to CloudWatch Logs...")
	helper.Pause(10)
	log.Println("Okay, let's check the logs to find what's happened recently with your Lambda function.")
	logStream, err := helper.cwlActor.GetLatestLogStream(ctx, functionName)
	if err != nil {
		panic(err)
	}
	log.Printf("Getting some recent events from log stream %v\n", *logStream.LogStreamName)
	events, err := helper.cwlActor.GetLogEvents(ctx, functionName, *logStream.LogStreamName, 10)
	if err != nil {
		panic(err)
	}
	for _, event := range events {
		log.Printf("\t%v", *event.Message)
	}
	log.Println(strings.Repeat("-", 88))
}
```
Buat struct yang membungkus tindakan Amazon Cognito.  

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// Trigger and TriggerInfo define typed data for updating an Amazon Cognito trigger.
type Trigger int

const (
	PreSignUp Trigger = iota
	UserMigration
	PostAuthentication
)

type TriggerInfo struct {
	Trigger    Trigger
	HandlerArn *string
}

// UpdateTriggers adds or removes Lambda triggers for a user pool. When a trigger is specified with a `nil` value,
// it is removed from the user pool.
func (actor CognitoActions) UpdateTriggers(ctx context.Context, userPoolId string, triggers ...TriggerInfo) error {
	output, err := actor.CognitoClient.DescribeUserPool(ctx, &cognitoidentityprovider.DescribeUserPoolInput{
		UserPoolId: aws.String(userPoolId),
	})
	if err != nil {
		log.Printf("Couldn't get info about user pool %v. Here's why: %v\n", userPoolId, err)
		return err
	}
	lambdaConfig := output.UserPool.LambdaConfig
	for _, trigger := range triggers {
		switch trigger.Trigger {
		case PreSignUp:
			lambdaConfig.PreSignUp = trigger.HandlerArn
		case UserMigration:
			lambdaConfig.UserMigration = trigger.HandlerArn
		case PostAuthentication:
			lambdaConfig.PostAuthentication = trigger.HandlerArn
		}
	}
	_, err = actor.CognitoClient.UpdateUserPool(ctx, &cognitoidentityprovider.UpdateUserPoolInput{
		UserPoolId:   aws.String(userPoolId),
		LambdaConfig: lambdaConfig,
	})
	if err != nil {
		log.Printf("Couldn't update user pool %v. Here's why: %v\n", userPoolId, err)
	}
	return err
}



// SignUp signs up a user with Amazon Cognito.
func (actor CognitoActions) SignUp(ctx context.Context, clientId string, userName string, password string, userEmail string) (bool, error) {
	confirmed := false
	output, err := actor.CognitoClient.SignUp(ctx, &cognitoidentityprovider.SignUpInput{
		ClientId: aws.String(clientId),
		Password: aws.String(password),
		Username: aws.String(userName),
		UserAttributes: []types.AttributeType{
			{Name: aws.String("email"), Value: aws.String(userEmail)},
		},
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't sign up user %v. Here's why: %v\n", userName, err)
		}
	} else {
		confirmed = output.UserConfirmed
	}
	return confirmed, err
}



// SignIn signs in a user to Amazon Cognito using a username and password authentication flow.
func (actor CognitoActions) SignIn(ctx context.Context, clientId string, userName string, password string) (*types.AuthenticationResultType, error) {
	var authResult *types.AuthenticationResultType
	output, err := actor.CognitoClient.InitiateAuth(ctx, &cognitoidentityprovider.InitiateAuthInput{
		AuthFlow:       "USER_PASSWORD_AUTH",
		ClientId:       aws.String(clientId),
		AuthParameters: map[string]string{"USERNAME": userName, "PASSWORD": password},
	})
	if err != nil {
		var resetRequired *types.PasswordResetRequiredException
		if errors.As(err, &resetRequired) {
			log.Println(*resetRequired.Message)
		} else {
			log.Printf("Couldn't sign in user %v. Here's why: %v\n", userName, err)
		}
	} else {
		authResult = output.AuthenticationResult
	}
	return authResult, err
}



// ForgotPassword starts a password recovery flow for a user. This flow typically sends a confirmation code
// to the user's configured notification destination, such as email.
func (actor CognitoActions) ForgotPassword(ctx context.Context, clientId string, userName string) (*types.CodeDeliveryDetailsType, error) {
	output, err := actor.CognitoClient.ForgotPassword(ctx, &cognitoidentityprovider.ForgotPasswordInput{
		ClientId: aws.String(clientId),
		Username: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't start password reset for user '%v'. Here;s why: %v\n", userName, err)
	}
	return output.CodeDeliveryDetails, err
}



// ConfirmForgotPassword confirms a user with a confirmation code and a new password.
func (actor CognitoActions) ConfirmForgotPassword(ctx context.Context, clientId string, code string, userName string, password string) error {
	_, err := actor.CognitoClient.ConfirmForgotPassword(ctx, &cognitoidentityprovider.ConfirmForgotPasswordInput{
		ClientId:         aws.String(clientId),
		ConfirmationCode: aws.String(code),
		Password:         aws.String(password),
		Username:         aws.String(userName),
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't confirm user %v. Here's why: %v", userName, err)
		}
	}
	return err
}



// DeleteUser removes a user from the user pool.
func (actor CognitoActions) DeleteUser(ctx context.Context, userAccessToken string) error {
	_, err := actor.CognitoClient.DeleteUser(ctx, &cognitoidentityprovider.DeleteUserInput{
		AccessToken: aws.String(userAccessToken),
	})
	if err != nil {
		log.Printf("Couldn't delete user. Here's why: %v\n", err)
	}
	return err
}



// AdminCreateUser uses administrator credentials to add a user to a user pool. This method leaves the user
// in a state that requires they enter a new password next time they sign in.
func (actor CognitoActions) AdminCreateUser(ctx context.Context, userPoolId string, userName string, userEmail string) error {
	_, err := actor.CognitoClient.AdminCreateUser(ctx, &cognitoidentityprovider.AdminCreateUserInput{
		UserPoolId:     aws.String(userPoolId),
		Username:       aws.String(userName),
		MessageAction:  types.MessageActionTypeSuppress,
		UserAttributes: []types.AttributeType{{Name: aws.String("email"), Value: aws.String(userEmail)}},
	})
	if err != nil {
		var userExists *types.UsernameExistsException
		if errors.As(err, &userExists) {
			log.Printf("User %v already exists in the user pool.", userName)
			err = nil
		} else {
			log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}



// AdminSetUserPassword uses administrator credentials to set a password for a user without requiring a
// temporary password.
func (actor CognitoActions) AdminSetUserPassword(ctx context.Context, userPoolId string, userName string, password string) error {
	_, err := actor.CognitoClient.AdminSetUserPassword(ctx, &cognitoidentityprovider.AdminSetUserPasswordInput{
		Password:   aws.String(password),
		UserPoolId: aws.String(userPoolId),
		Username:   aws.String(userName),
		Permanent:  true,
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't set password for user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}
```
Buat struct yang membungkus tindakan DynamoDB.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// DynamoActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type DynamoActions struct {
	DynamoClient *dynamodb.Client
}

// User defines structured user data.
type User struct {
	UserName  string
	UserEmail string
	LastLogin *LoginInfo `dynamodbav:",omitempty"`
}

// LoginInfo defines structured custom login data.
type LoginInfo struct {
	UserPoolId string
	ClientId   string
	Time       string
}

// UserList defines a list of users.
type UserList struct {
	Users []User
}

// UserNameList returns the usernames contained in a UserList as a list of strings.
func (users *UserList) UserNameList() []string {
	names := make([]string, len(users.Users))
	for i := 0; i < len(users.Users); i++ {
		names[i] = users.Users[i].UserName
	}
	return names
}

// PopulateTable adds a set of test users to the table.
func (actor DynamoActions) PopulateTable(ctx context.Context, tableName string) error {
	var err error
	var item map[string]types.AttributeValue
	var writeReqs []types.WriteRequest
	for i := 1; i < 4; i++ {
		item, err = attributevalue.MarshalMap(User{UserName: fmt.Sprintf("test_user_%v", i), UserEmail: fmt.Sprintf("test_email_%v@example.com", i)})
		if err != nil {
			log.Printf("Couldn't marshall user into DynamoDB format. Here's why: %v\n", err)
			return err
		}
		writeReqs = append(writeReqs, types.WriteRequest{PutRequest: &types.PutRequest{Item: item}})
	}
	_, err = actor.DynamoClient.BatchWriteItem(ctx, &dynamodb.BatchWriteItemInput{
		RequestItems: map[string][]types.WriteRequest{tableName: writeReqs},
	})
	if err != nil {
		log.Printf("Couldn't populate table %v with users. Here's why: %v\n", tableName, err)
	}
	return err
}

// Scan scans the table for all items.
func (actor DynamoActions) Scan(ctx context.Context, tableName string) (UserList, error) {
	var userList UserList
	output, err := actor.DynamoClient.Scan(ctx, &dynamodb.ScanInput{
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't scan table %v for items. Here's why: %v\n", tableName, err)
	} else {
		err = attributevalue.UnmarshalListOfMaps(output.Items, &userList.Users)
		if err != nil {
			log.Printf("Couldn't unmarshal items into users. Here's why: %v\n", err)
		}
	}
	return userList, err
}

// AddUser adds a user item to a table.
func (actor DynamoActions) AddUser(ctx context.Context, tableName string, user User) error {
	userItem, err := attributevalue.MarshalMap(user)
	if err != nil {
		log.Printf("Couldn't marshall user to item. Here's why: %v\n", err)
	}
	_, err = actor.DynamoClient.PutItem(ctx, &dynamodb.PutItemInput{
		Item:      userItem,
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't put item in table %v. Here's why: %v", tableName, err)
	}
	return err
}
```
Buat struct yang membungkus tindakan CloudWatch Log.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs/types"
)

type CloudWatchLogsActions struct {
	CwlClient *cloudwatchlogs.Client
}

// GetLatestLogStream gets the most recent log stream for a Lambda function.
func (actor CloudWatchLogsActions) GetLatestLogStream(ctx context.Context, functionName string) (types.LogStream, error) {
	var logStream types.LogStream
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.DescribeLogStreams(ctx, &cloudwatchlogs.DescribeLogStreamsInput{
		Descending:   aws.Bool(true),
		Limit:        aws.Int32(1),
		LogGroupName: aws.String(logGroupName),
		OrderBy:      types.OrderByLastEventTime,
	})
	if err != nil {
		log.Printf("Couldn't get log streams for log group %v. Here's why: %v\n", logGroupName, err)
	} else {
		logStream = output.LogStreams[0]
	}
	return logStream, err
}

// GetLogEvents gets the most recent eventCount events from the specified log stream.
func (actor CloudWatchLogsActions) GetLogEvents(ctx context.Context, functionName string, logStreamName string, eventCount int32) (
	[]types.OutputLogEvent, error) {
	var events []types.OutputLogEvent
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.GetLogEvents(ctx, &cloudwatchlogs.GetLogEventsInput{
		LogStreamName: aws.String(logStreamName),
		Limit:         aws.Int32(eventCount),
		LogGroupName:  aws.String(logGroupName),
	})
	if err != nil {
		log.Printf("Couldn't get log event for log stream %v. Here's why: %v\n", logStreamName, err)
	} else {
		events = output.Events
	}
	return events, err
}
```
Buat struct yang membungkus tindakan CloudFormation .  

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
)

// StackOutputs defines a map of outputs from a specific stack.
type StackOutputs map[string]string

type CloudFormationActions struct {
	CfnClient *cloudformation.Client
}

// GetOutputs gets the outputs from a CloudFormation stack and puts them into a structured format.
func (actor CloudFormationActions) GetOutputs(ctx context.Context, stackName string) StackOutputs {
	output, err := actor.CfnClient.DescribeStacks(ctx, &cloudformation.DescribeStacksInput{
		StackName: aws.String(stackName),
	})
	if err != nil || len(output.Stacks) == 0 {
		log.Panicf("Couldn't find a CloudFormation stack named %v. Here's why: %v\n", stackName, err)
	}
	stackOutputs := StackOutputs{}
	for _, out := range output.Stacks[0].Outputs {
		stackOutputs[*out.OutputKey] = *out.OutputValue
	}
	return stackOutputs
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"log"
	"user_pools_and_lambda_triggers/actions"

	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// Resources keeps track of AWS resources created during an example and handles
// cleanup when the example finishes.
type Resources struct {
	userPoolId       string
	userAccessTokens []string
	triggers         []actions.Trigger

	cognitoActor *actions.CognitoActions
	questioner   demotools.IQuestioner
}

func (resources *Resources) init(cognitoActor *actions.CognitoActions, questioner demotools.IQuestioner) {
	resources.userAccessTokens = []string{}
	resources.triggers = []actions.Trigger{}
	resources.cognitoActor = cognitoActor
	resources.questioner = questioner
}

// Cleanup deletes all AWS resources created during an example.
func (resources *Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong during cleanup.\n%v\n", r)
			log.Println("Use the AWS Management Console to remove any remaining resources \n" +
				"that were created for this scenario.")
		}
	}()

	wantDelete := resources.questioner.AskBool("Do you want to remove all of the AWS resources that were created "+
		"during this demo (y/n)?", "y")
	if wantDelete {
		for _, accessToken := range resources.userAccessTokens {
			err := resources.cognitoActor.DeleteUser(ctx, accessToken)
			if err != nil {
				log.Println("Couldn't delete user during cleanup.")
				panic(err)
			}
			log.Println("Deleted user.")
		}
		triggerList := make([]actions.TriggerInfo, len(resources.triggers))
		for i := 0; i < len(resources.triggers); i++ {
			triggerList[i] = actions.TriggerInfo{Trigger: resources.triggers[i], HandlerArn: nil}
		}
		err := resources.cognitoActor.UpdateTriggers(ctx, resources.userPoolId, triggerList...)
		if err != nil {
			log.Println("Couldn't update Cognito triggers during cleanup.")
			panic(err)
		}
		log.Println("Removed Cognito triggers from user pool.")
	} else {
		log.Println("Be sure to remove resources when you're done with them to avoid unexpected charges!")
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [AdminCreateUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.AdminCreateUser)
  + [AdminSetUserPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.AdminSetUserPassword)
  + [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.DeleteUser)
  + [InitiateAuth](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.InitiateAuth)
  + [UpdateUserPool](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.UpdateUserPool)

# Contoh Amazon DocumentDB menggunakan SDK for Go V2
<a name="go_2_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon DocumentDB.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Go.  

```
package main

import (
	"context"
	"encoding/json"
	"fmt"

	"github.com/aws/aws-lambda-go/lambda"
)

type Event struct {
	Events []Record `json:"events"`
}

type Record struct {
	Event struct {
		OperationType string `json:"operationType"`
		NS            struct {
			DB   string `json:"db"`
			Coll string `json:"coll"`
		} `json:"ns"`
		FullDocument interface{} `json:"fullDocument"`
	} `json:"event"`
}

func main() {
	lambda.Start(handler)
}

func handler(ctx context.Context, event Event) (string, error) {
	fmt.Println("Loading function")
	for _, record := range event.Events {
		logDocumentDBEvent(record)
	}

	return "OK", nil
}

func logDocumentDBEvent(record Record) {
	fmt.Printf("Operation type: %s\n", record.Event.OperationType)
	fmt.Printf("db: %s\n", record.Event.NS.DB)
	fmt.Printf("collection: %s\n", record.Event.NS.Coll)
	docBytes, _ := json.MarshalIndent(record.Event.FullDocument, "", "  ")
	fmt.Printf("Full document: %s\n", string(docBytes))
}
```

# Contoh DynamoDB menggunakan SDK for Go V2
<a name="go_2_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 
Jalankan skenario interaktif untuk membuat tabel dan melakukan tindakan pada tabel tersebut.  

```
import (
	"context"
	"fmt"
	"log"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/dynamodb/actions"
)

// RunMovieScenario is an interactive example that shows you how to use the AWS SDK for Go
// to create and use an Amazon DynamoDB table that stores data about movies.
//
//  1. Create a table that can hold movie data.
//  2. Put, get, and update a single movie in the table.
//  3. Write movie data to the table from a sample JSON file.
//  4. Query for movies that were released in a given year.
//  5. Scan for movies that were released in a range of years.
//  6. Delete a movie from the table.
//  7. Delete the table.
//
// This example creates a DynamoDB service client from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// It uses a questioner from the `demotools` package to get input during the example.
// This package can be found in the ..\..\demotools folder of this repo.
//
// The specified movie sampler is used to get sample data from a URL that is loaded
// into the named table.
func RunMovieScenario(
	ctx context.Context, sdkConfig aws.Config, questioner demotools.IQuestioner, tableName string,
	movieSampler actions.IMovieSampler) {
	defer func() {
		if r := recover(); r != nil {
			fmt.Printf("Something went wrong with the demo.")
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon DynamoDB getting started demo.")
	log.Println(strings.Repeat("-", 88))

	tableBasics := actions.TableBasics{TableName: tableName,
		DynamoDbClient: dynamodb.NewFromConfig(sdkConfig)}

	exists, err := tableBasics.TableExists(ctx)
	if err != nil {
		panic(err)
	}
	if !exists {
		log.Printf("Creating table %v...\n", tableName)
		_, err = tableBasics.CreateMovieTable(ctx)
		if err != nil {
			panic(err)
		} else {
			log.Printf("Created table %v.\n", tableName)
		}
	} else {
		log.Printf("Table %v already exists.\n", tableName)
	}

	var customMovie actions.Movie
	customMovie.Title = questioner.Ask("Enter a movie title to add to the table:",
		demotools.NotEmpty{})
	customMovie.Year = questioner.AskInt("What year was it released?",
		demotools.NotEmpty{}, demotools.InIntRange{Lower: 1900, Upper: 2030})
	customMovie.Info = map[string]interface{}{}
	customMovie.Info["rating"] = questioner.AskFloat64(
		"Enter a rating between 1 and 10:",
		demotools.NotEmpty{}, demotools.InFloatRange{Lower: 1, Upper: 10})
	customMovie.Info["plot"] = questioner.Ask("What's the plot? ",
		demotools.NotEmpty{})
	err = tableBasics.AddMovie(ctx, customMovie)
	if err == nil {
		log.Printf("Added %v to the movie table.\n", customMovie.Title)
	}
	log.Println(strings.Repeat("-", 88))

	log.Printf("Let's update your movie. You previously rated it %v.\n", customMovie.Info["rating"])
	customMovie.Info["rating"] = questioner.AskFloat64(
		"What new rating would you give it?",
		demotools.NotEmpty{}, demotools.InFloatRange{Lower: 1, Upper: 10})
	log.Printf("You summarized the plot as '%v'.\n", customMovie.Info["plot"])
	customMovie.Info["plot"] = questioner.Ask("What would you say now?",
		demotools.NotEmpty{})
	attributes, err := tableBasics.UpdateMovie(ctx, customMovie)
	if err == nil {
		log.Printf("Updated %v with new values.\n", customMovie.Title)
		for _, attVal := range attributes {
			for valKey, val := range attVal {
				log.Printf("\t%v: %v\n", valKey, val)
			}
		}
	}
	log.Println(strings.Repeat("-", 88))

	log.Printf("Getting movie data from %v and adding 250 movies to the table...\n",
		movieSampler.GetURL())
	movies := movieSampler.GetSampleMovies()
	written, err := tableBasics.AddMovieBatch(ctx, movies, 250)
	if err != nil {
		panic(err)
	} else {
		log.Printf("Added %v movies to the table.\n", written)
	}

	show := 10
	if show > written {
		show = written
	}
	log.Printf("The first %v movies in the table are:", show)
	for index, movie := range movies[:show] {
		log.Printf("\t%v. %v\n", index+1, movie.Title)
	}
	movieIndex := questioner.AskInt(
		"Enter the number of a movie to get info about it: ",
		demotools.InIntRange{Lower: 1, Upper: show},
	)
	movie, err := tableBasics.GetMovie(ctx, movies[movieIndex-1].Title, movies[movieIndex-1].Year)
	if err == nil {
		log.Println(movie)
	}
	log.Println(strings.Repeat("-", 88))

	log.Println("Let's get a list of movies released in a given year.")
	releaseYear := questioner.AskInt("Enter a year between 1972 and 2018: ",
		demotools.InIntRange{Lower: 1972, Upper: 2018},
	)
	releases, err := tableBasics.Query(ctx, releaseYear)
	if err == nil {
		if len(releases) == 0 {
			log.Printf("I couldn't find any movies released in %v!\n", releaseYear)
		} else {
			for _, movie = range releases {
				log.Println(movie)
			}
		}
	}
	log.Println(strings.Repeat("-", 88))

	log.Println("Now let's scan for movies released in a range of years.")
	startYear := questioner.AskInt("Enter a year: ",
		demotools.InIntRange{Lower: 1972, Upper: 2018})
	endYear := questioner.AskInt("Enter another year: ",
		demotools.InIntRange{Lower: 1972, Upper: 2018})
	releases, err = tableBasics.Scan(ctx, startYear, endYear)
	if err == nil {
		if len(releases) == 0 {
			log.Printf("I couldn't find any movies released between %v and %v!\n", startYear, endYear)
		} else {
			log.Printf("Found %v movies. In this list, the plot is <nil> because "+
				"we used a projection expression when scanning for items to return only "+
				"the title, year, and rating.\n", len(releases))
			for _, movie = range releases {
				log.Println(movie)
			}
		}
	}
	log.Println(strings.Repeat("-", 88))

	var tables []string
	if questioner.AskBool("Do you want to list all of your tables? (y/n) ", "y") {
		tables, err = tableBasics.ListTables(ctx)
		if err == nil {
			log.Printf("Found %v tables:", len(tables))
			for _, table := range tables {
				log.Printf("\t%v", table)
			}
		}
	}
	log.Println(strings.Repeat("-", 88))

	log.Printf("Let's remove your movie '%v'.\n", customMovie.Title)
	if questioner.AskBool("Do you want to delete it from the table? (y/n) ", "y") {
		err = tableBasics.DeleteMovie(ctx, customMovie)
	}
	if err == nil {
		log.Printf("Deleted %v.\n", customMovie.Title)
	}

	if questioner.AskBool("Delete the table, too? (y/n)", "y") {
		err = tableBasics.DeleteTable(ctx)
	} else {
		log.Println("Don't forget to delete the table when you're done or you might " +
			"incur charges on your account.")
	}
	if err == nil {
		log.Printf("Deleted table %v.\n", tableBasics.TableName)
	}

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
Buat struct dan metode yang memanggil tindakan DynamoDB.  

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// TableExists determines whether a DynamoDB table exists.
func (basics TableBasics) TableExists(ctx context.Context) (bool, error) {
	exists := true
	_, err := basics.DynamoDbClient.DescribeTable(
		ctx, &dynamodb.DescribeTableInput{TableName: aws.String(basics.TableName)},
	)
	if err != nil {
		var notFoundEx *types.ResourceNotFoundException
		if errors.As(err, &notFoundEx) {
			log.Printf("Table %v does not exist.\n", basics.TableName)
			err = nil
		} else {
			log.Printf("Couldn't determine existence of table %v. Here's why: %v\n", basics.TableName, err)
		}
		exists = false
	}
	return exists, err
}



// CreateMovieTable creates a DynamoDB table with a composite primary key defined as
// a string sort key named `title`, and a numeric partition key named `year`.
// This function uses NewTableExistsWaiter to wait for the table to be created by
// DynamoDB before it returns.
func (basics TableBasics) CreateMovieTable(ctx context.Context) (*types.TableDescription, error) {
	var tableDesc *types.TableDescription
	table, err := basics.DynamoDbClient.CreateTable(ctx, &dynamodb.CreateTableInput{
		AttributeDefinitions: []types.AttributeDefinition{{
			AttributeName: aws.String("year"),
			AttributeType: types.ScalarAttributeTypeN,
		}, {
			AttributeName: aws.String("title"),
			AttributeType: types.ScalarAttributeTypeS,
		}},
		KeySchema: []types.KeySchemaElement{{
			AttributeName: aws.String("year"),
			KeyType:       types.KeyTypeHash,
		}, {
			AttributeName: aws.String("title"),
			KeyType:       types.KeyTypeRange,
		}},
		TableName:   aws.String(basics.TableName),
		BillingMode: types.BillingModePayPerRequest,
	})
	if err != nil {
		log.Printf("Couldn't create table %v. Here's why: %v\n", basics.TableName, err)
	} else {
		waiter := dynamodb.NewTableExistsWaiter(basics.DynamoDbClient)
		err = waiter.Wait(ctx, &dynamodb.DescribeTableInput{
			TableName: aws.String(basics.TableName)}, 5*time.Minute)
		if err != nil {
			log.Printf("Wait for table exists failed. Here's why: %v\n", err)
		}
		tableDesc = table.TableDescription
		log.Printf("Ccreating table test")
	}
	return tableDesc, err
}



// ListTables lists the DynamoDB table names for the current account.
func (basics TableBasics) ListTables(ctx context.Context) ([]string, error) {
	var tableNames []string
	var output *dynamodb.ListTablesOutput
	var err error
	tablePaginator := dynamodb.NewListTablesPaginator(basics.DynamoDbClient, &dynamodb.ListTablesInput{})
	for tablePaginator.HasMorePages() {
		output, err = tablePaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't list tables. Here's why: %v\n", err)
			break
		} else {
			tableNames = append(tableNames, output.TableNames...)
		}
	}
	return tableNames, err
}



// AddMovie adds a movie the DynamoDB table.
func (basics TableBasics) AddMovie(ctx context.Context, movie Movie) error {
	item, err := attributevalue.MarshalMap(movie)
	if err != nil {
		panic(err)
	}
	_, err = basics.DynamoDbClient.PutItem(ctx, &dynamodb.PutItemInput{
		TableName: aws.String(basics.TableName), Item: item,
	})
	if err != nil {
		log.Printf("Couldn't add item to table. Here's why: %v\n", err)
	}
	return err
}



// UpdateMovie updates the rating and plot of a movie that already exists in the
// DynamoDB table. This function uses the `expression` package to build the update
// expression.
func (basics TableBasics) UpdateMovie(ctx context.Context, movie Movie) (map[string]map[string]interface{}, error) {
	var err error
	var response *dynamodb.UpdateItemOutput
	var attributeMap map[string]map[string]interface{}
	update := expression.Set(expression.Name("info.rating"), expression.Value(movie.Info["rating"]))
	update.Set(expression.Name("info.plot"), expression.Value(movie.Info["plot"]))
	expr, err := expression.NewBuilder().WithUpdate(update).Build()
	if err != nil {
		log.Printf("Couldn't build expression for update. Here's why: %v\n", err)
	} else {
		response, err = basics.DynamoDbClient.UpdateItem(ctx, &dynamodb.UpdateItemInput{
			TableName:                 aws.String(basics.TableName),
			Key:                       movie.GetKey(),
			ExpressionAttributeNames:  expr.Names(),
			ExpressionAttributeValues: expr.Values(),
			UpdateExpression:          expr.Update(),
			ReturnValues:              types.ReturnValueUpdatedNew,
		})
		if err != nil {
			log.Printf("Couldn't update movie %v. Here's why: %v\n", movie.Title, err)
		} else {
			err = attributevalue.UnmarshalMap(response.Attributes, &attributeMap)
			if err != nil {
				log.Printf("Couldn't unmarshall update response. Here's why: %v\n", err)
			}
		}
	}
	return attributeMap, err
}



// AddMovieBatch adds a slice of movies to the DynamoDB table. The function sends
// batches of 25 movies to DynamoDB until all movies are added or it reaches the
// specified maximum.
func (basics TableBasics) AddMovieBatch(ctx context.Context, movies []Movie, maxMovies int) (int, error) {
	var err error
	var item map[string]types.AttributeValue
	written := 0
	batchSize := 25 // DynamoDB allows a maximum batch size of 25 items.
	start := 0
	end := start + batchSize
	for start < maxMovies && start < len(movies) {
		var writeReqs []types.WriteRequest
		if end > len(movies) {
			end = len(movies)
		}
		for _, movie := range movies[start:end] {
			item, err = attributevalue.MarshalMap(movie)
			if err != nil {
				log.Printf("Couldn't marshal movie %v for batch writing. Here's why: %v\n", movie.Title, err)
			} else {
				writeReqs = append(
					writeReqs,
					types.WriteRequest{PutRequest: &types.PutRequest{Item: item}},
				)
			}
		}
		_, err = basics.DynamoDbClient.BatchWriteItem(ctx, &dynamodb.BatchWriteItemInput{
			RequestItems: map[string][]types.WriteRequest{basics.TableName: writeReqs}})
		if err != nil {
			log.Printf("Couldn't add a batch of movies to %v. Here's why: %v\n", basics.TableName, err)
		} else {
			written += len(writeReqs)
		}
		start = end
		end += batchSize
	}

	return written, err
}



// GetMovie gets movie data from the DynamoDB table by using the primary composite key
// made of title and year.
func (basics TableBasics) GetMovie(ctx context.Context, title string, year int) (Movie, error) {
	movie := Movie{Title: title, Year: year}
	response, err := basics.DynamoDbClient.GetItem(ctx, &dynamodb.GetItemInput{
		Key: movie.GetKey(), TableName: aws.String(basics.TableName),
	})
	if err != nil {
		log.Printf("Couldn't get info about %v. Here's why: %v\n", title, err)
	} else {
		err = attributevalue.UnmarshalMap(response.Item, &movie)
		if err != nil {
			log.Printf("Couldn't unmarshal response. Here's why: %v\n", err)
		}
	}
	return movie, err
}



// Query gets all movies in the DynamoDB table that were released in the specified year.
// The function uses the `expression` package to build the key condition expression
// that is used in the query.
func (basics TableBasics) Query(ctx context.Context, releaseYear int) ([]Movie, error) {
	var err error
	var response *dynamodb.QueryOutput
	var movies []Movie
	keyEx := expression.Key("year").Equal(expression.Value(releaseYear))
	expr, err := expression.NewBuilder().WithKeyCondition(keyEx).Build()
	if err != nil {
		log.Printf("Couldn't build expression for query. Here's why: %v\n", err)
	} else {
		queryPaginator := dynamodb.NewQueryPaginator(basics.DynamoDbClient, &dynamodb.QueryInput{
			TableName:                 aws.String(basics.TableName),
			ExpressionAttributeNames:  expr.Names(),
			ExpressionAttributeValues: expr.Values(),
			KeyConditionExpression:    expr.KeyCondition(),
		})
		for queryPaginator.HasMorePages() {
			response, err = queryPaginator.NextPage(ctx)
			if err != nil {
				log.Printf("Couldn't query for movies released in %v. Here's why: %v\n", releaseYear, err)
				break
			} else {
				var moviePage []Movie
				err = attributevalue.UnmarshalListOfMaps(response.Items, &moviePage)
				if err != nil {
					log.Printf("Couldn't unmarshal query response. Here's why: %v\n", err)
					break
				} else {
					movies = append(movies, moviePage...)
				}
			}
		}
	}
	return movies, err
}



// Scan gets all movies in the DynamoDB table that were released in a range of years
// and projects them to return a reduced set of fields.
// The function uses the `expression` package to build the filter and projection
// expressions.
func (basics TableBasics) Scan(ctx context.Context, startYear int, endYear int) ([]Movie, error) {
	var movies []Movie
	var err error
	var response *dynamodb.ScanOutput
	filtEx := expression.Name("year").Between(expression.Value(startYear), expression.Value(endYear))
	projEx := expression.NamesList(
		expression.Name("year"), expression.Name("title"), expression.Name("info.rating"))
	expr, err := expression.NewBuilder().WithFilter(filtEx).WithProjection(projEx).Build()
	if err != nil {
		log.Printf("Couldn't build expressions for scan. Here's why: %v\n", err)
	} else {
		scanPaginator := dynamodb.NewScanPaginator(basics.DynamoDbClient, &dynamodb.ScanInput{
			TableName:                 aws.String(basics.TableName),
			ExpressionAttributeNames:  expr.Names(),
			ExpressionAttributeValues: expr.Values(),
			FilterExpression:          expr.Filter(),
			ProjectionExpression:      expr.Projection(),
		})
		for scanPaginator.HasMorePages() {
			response, err = scanPaginator.NextPage(ctx)
			if err != nil {
				log.Printf("Couldn't scan for movies released between %v and %v. Here's why: %v\n",
					startYear, endYear, err)
				break
			} else {
				var moviePage []Movie
				err = attributevalue.UnmarshalListOfMaps(response.Items, &moviePage)
				if err != nil {
					log.Printf("Couldn't unmarshal query response. Here's why: %v\n", err)
					break
				} else {
					movies = append(movies, moviePage...)
				}
			}
		}
	}
	return movies, err
}



// DeleteMovie removes a movie from the DynamoDB table.
func (basics TableBasics) DeleteMovie(ctx context.Context, movie Movie) error {
	_, err := basics.DynamoDbClient.DeleteItem(ctx, &dynamodb.DeleteItemInput{
		TableName: aws.String(basics.TableName), Key: movie.GetKey(),
	})
	if err != nil {
		log.Printf("Couldn't delete %v from the table. Here's why: %v\n", movie.Title, err)
	}
	return err
}



// DeleteTable deletes the DynamoDB table and all of its data.
func (basics TableBasics) DeleteTable(ctx context.Context) error {
	_, err := basics.DynamoDbClient.DeleteTable(ctx, &dynamodb.DeleteTableInput{
		TableName: aws.String(basics.TableName)})
	if err != nil {
		log.Printf("Couldn't delete table %v. Here's why: %v\n", basics.TableName, err)
	}
	return err
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [BatchWriteItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.BatchWriteItem)
  + [CreateTable](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.CreateTable)
  + [DeleteItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.DeleteItem)
  + [DeleteTable](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.DeleteTable)
  + [DescribeTable](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.DescribeTable)
  + [GetItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.GetItem)
  + [PutItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.PutItem)
  + [Kueri](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.Query)
  + [Scan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.Scan)
  + [UpdateItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.UpdateItem)

## Tindakan
<a name="actions"></a>

### `BatchExecuteStatement`
<a name="dynamodb_BatchExecuteStatement_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchExecuteStatement`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 
Tentukan struct penerima fungsi untuk contoh.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// PartiQLRunner encapsulates the Amazon DynamoDB service actions used in the
// PartiQL examples. It contains a DynamoDB service client that is used to act on the
// specified table.
type PartiQLRunner struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}
```
Gunakan batch pernyataan INSERT untuk menambahkan item.  

```
// AddMovieBatch runs a batch of PartiQL INSERT statements to add multiple movies to the
// DynamoDB table.
func (runner PartiQLRunner) AddMovieBatch(ctx context.Context, movies []Movie) error {
	statementRequests := make([]types.BatchStatementRequest, len(movies))
	for index, movie := range movies {
		params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year, movie.Info})
		if err != nil {
			panic(err)
		}
		statementRequests[index] = types.BatchStatementRequest{
			Statement: aws.String(fmt.Sprintf(
				"INSERT INTO \"%v\" VALUE {'title': ?, 'year': ?, 'info': ?}", runner.TableName)),
			Parameters: params,
		}
	}

	_, err := runner.DynamoDbClient.BatchExecuteStatement(ctx, &dynamodb.BatchExecuteStatementInput{
		Statements: statementRequests,
	})
	if err != nil {
		log.Printf("Couldn't insert a batch of items with PartiQL. Here's why: %v\n", err)
	}
	return err
}
```
Gunakan batch pernyataan SELECT untuk mendapatkan item.  

```
// GetMovieBatch runs a batch of PartiQL SELECT statements to get multiple movies from
// the DynamoDB table by title and year.
func (runner PartiQLRunner) GetMovieBatch(ctx context.Context, movies []Movie) ([]Movie, error) {
	statementRequests := make([]types.BatchStatementRequest, len(movies))
	for index, movie := range movies {
		params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year})
		if err != nil {
			panic(err)
		}
		statementRequests[index] = types.BatchStatementRequest{
			Statement: aws.String(
				fmt.Sprintf("SELECT * FROM \"%v\" WHERE title=? AND year=?", runner.TableName)),
			Parameters: params,
		}
	}

	output, err := runner.DynamoDbClient.BatchExecuteStatement(ctx, &dynamodb.BatchExecuteStatementInput{
		Statements: statementRequests,
	})
	var outMovies []Movie
	if err != nil {
		log.Printf("Couldn't get a batch of items with PartiQL. Here's why: %v\n", err)
	} else {
		for _, response := range output.Responses {
			var movie Movie
			err = attributevalue.UnmarshalMap(response.Item, &movie)
			if err != nil {
				log.Printf("Couldn't unmarshal response. Here's why: %v\n", err)
			} else {
				outMovies = append(outMovies, movie)
			}
		}
	}
	return outMovies, err
}
```
Gunakan batch pernyataan UPDATE untuk memperbarui item.  

```
// UpdateMovieBatch runs a batch of PartiQL UPDATE statements to update the rating of
// multiple movies that already exist in the DynamoDB table.
func (runner PartiQLRunner) UpdateMovieBatch(ctx context.Context, movies []Movie, ratings []float64) error {
	statementRequests := make([]types.BatchStatementRequest, len(movies))
	for index, movie := range movies {
		params, err := attributevalue.MarshalList([]interface{}{ratings[index], movie.Title, movie.Year})
		if err != nil {
			panic(err)
		}
		statementRequests[index] = types.BatchStatementRequest{
			Statement: aws.String(
				fmt.Sprintf("UPDATE \"%v\" SET info.rating=? WHERE title=? AND year=?", runner.TableName)),
			Parameters: params,
		}
	}

	_, err := runner.DynamoDbClient.BatchExecuteStatement(ctx, &dynamodb.BatchExecuteStatementInput{
		Statements: statementRequests,
	})
	if err != nil {
		log.Printf("Couldn't update the batch of movies. Here's why: %v\n", err)
	}
	return err
}
```
Gunakan batch DELETE untuk menghapus item.  

```
// DeleteMovieBatch runs a batch of PartiQL DELETE statements to remove multiple movies
// from the DynamoDB table.
func (runner PartiQLRunner) DeleteMovieBatch(ctx context.Context, movies []Movie) error {
	statementRequests := make([]types.BatchStatementRequest, len(movies))
	for index, movie := range movies {
		params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year})
		if err != nil {
			panic(err)
		}
		statementRequests[index] = types.BatchStatementRequest{
			Statement: aws.String(
				fmt.Sprintf("DELETE FROM \"%v\" WHERE title=? AND year=?", runner.TableName)),
			Parameters: params,
		}
	}

	_, err := runner.DynamoDbClient.BatchExecuteStatement(ctx, &dynamodb.BatchExecuteStatementInput{
		Statements: statementRequests,
	})
	if err != nil {
		log.Printf("Couldn't delete the batch of movies. Here's why: %v\n", err)
	}
	return err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.BatchExecuteStatement)di *Referensi AWS SDK untuk Go API*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// AddMovieBatch adds a slice of movies to the DynamoDB table. The function sends
// batches of 25 movies to DynamoDB until all movies are added or it reaches the
// specified maximum.
func (basics TableBasics) AddMovieBatch(ctx context.Context, movies []Movie, maxMovies int) (int, error) {
	var err error
	var item map[string]types.AttributeValue
	written := 0
	batchSize := 25 // DynamoDB allows a maximum batch size of 25 items.
	start := 0
	end := start + batchSize
	for start < maxMovies && start < len(movies) {
		var writeReqs []types.WriteRequest
		if end > len(movies) {
			end = len(movies)
		}
		for _, movie := range movies[start:end] {
			item, err = attributevalue.MarshalMap(movie)
			if err != nil {
				log.Printf("Couldn't marshal movie %v for batch writing. Here's why: %v\n", movie.Title, err)
			} else {
				writeReqs = append(
					writeReqs,
					types.WriteRequest{PutRequest: &types.PutRequest{Item: item}},
				)
			}
		}
		_, err = basics.DynamoDbClient.BatchWriteItem(ctx, &dynamodb.BatchWriteItemInput{
			RequestItems: map[string][]types.WriteRequest{basics.TableName: writeReqs}})
		if err != nil {
			log.Printf("Couldn't add a batch of movies to %v. Here's why: %v\n", basics.TableName, err)
		} else {
			written += len(writeReqs)
		}
		start = end
		end += batchSize
	}

	return written, err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [BatchWriteItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.BatchWriteItem)di *Referensi AWS SDK untuk Go API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// CreateMovieTable creates a DynamoDB table with a composite primary key defined as
// a string sort key named `title`, and a numeric partition key named `year`.
// This function uses NewTableExistsWaiter to wait for the table to be created by
// DynamoDB before it returns.
func (basics TableBasics) CreateMovieTable(ctx context.Context) (*types.TableDescription, error) {
	var tableDesc *types.TableDescription
	table, err := basics.DynamoDbClient.CreateTable(ctx, &dynamodb.CreateTableInput{
		AttributeDefinitions: []types.AttributeDefinition{{
			AttributeName: aws.String("year"),
			AttributeType: types.ScalarAttributeTypeN,
		}, {
			AttributeName: aws.String("title"),
			AttributeType: types.ScalarAttributeTypeS,
		}},
		KeySchema: []types.KeySchemaElement{{
			AttributeName: aws.String("year"),
			KeyType:       types.KeyTypeHash,
		}, {
			AttributeName: aws.String("title"),
			KeyType:       types.KeyTypeRange,
		}},
		TableName:   aws.String(basics.TableName),
		BillingMode: types.BillingModePayPerRequest,
	})
	if err != nil {
		log.Printf("Couldn't create table %v. Here's why: %v\n", basics.TableName, err)
	} else {
		waiter := dynamodb.NewTableExistsWaiter(basics.DynamoDbClient)
		err = waiter.Wait(ctx, &dynamodb.DescribeTableInput{
			TableName: aws.String(basics.TableName)}, 5*time.Minute)
		if err != nil {
			log.Printf("Wait for table exists failed. Here's why: %v\n", err)
		}
		tableDesc = table.TableDescription
		log.Printf("Ccreating table test")
	}
	return tableDesc, err
}
```
+  Untuk detail API, lihat [CreateTable](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.CreateTable)di *Referensi AWS SDK untuk Go API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// DeleteMovie removes a movie from the DynamoDB table.
func (basics TableBasics) DeleteMovie(ctx context.Context, movie Movie) error {
	_, err := basics.DynamoDbClient.DeleteItem(ctx, &dynamodb.DeleteItemInput{
		TableName: aws.String(basics.TableName), Key: movie.GetKey(),
	})
	if err != nil {
		log.Printf("Couldn't delete %v from the table. Here's why: %v\n", movie.Title, err)
	}
	return err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [DeleteItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.DeleteItem)di *Referensi AWS SDK untuk Go API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// DeleteTable deletes the DynamoDB table and all of its data.
func (basics TableBasics) DeleteTable(ctx context.Context) error {
	_, err := basics.DynamoDbClient.DeleteTable(ctx, &dynamodb.DeleteTableInput{
		TableName: aws.String(basics.TableName)})
	if err != nil {
		log.Printf("Couldn't delete table %v. Here's why: %v\n", basics.TableName, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteTable](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.DeleteTable)di *Referensi AWS SDK untuk Go API*. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// TableExists determines whether a DynamoDB table exists.
func (basics TableBasics) TableExists(ctx context.Context) (bool, error) {
	exists := true
	_, err := basics.DynamoDbClient.DescribeTable(
		ctx, &dynamodb.DescribeTableInput{TableName: aws.String(basics.TableName)},
	)
	if err != nil {
		var notFoundEx *types.ResourceNotFoundException
		if errors.As(err, &notFoundEx) {
			log.Printf("Table %v does not exist.\n", basics.TableName)
			err = nil
		} else {
			log.Printf("Couldn't determine existence of table %v. Here's why: %v\n", basics.TableName, err)
		}
		exists = false
	}
	return exists, err
}
```
+  Untuk detail API, lihat [DescribeTable](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.DescribeTable)di *Referensi AWS SDK untuk Go API*. 

### `ExecuteStatement`
<a name="dynamodb_ExecuteStatement_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 
Tentukan struct penerima fungsi untuk contoh.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// PartiQLRunner encapsulates the Amazon DynamoDB service actions used in the
// PartiQL examples. It contains a DynamoDB service client that is used to act on the
// specified table.
type PartiQLRunner struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}
```
Gunakan pernyataan INSERT untuk menambahkan item.  

```
// AddMovie runs a PartiQL INSERT statement to add a movie to the DynamoDB table.
func (runner PartiQLRunner) AddMovie(ctx context.Context, movie Movie) error {
	params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year, movie.Info})
	if err != nil {
		panic(err)
	}
	_, err = runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
		Statement: aws.String(
			fmt.Sprintf("INSERT INTO \"%v\" VALUE {'title': ?, 'year': ?, 'info': ?}",
				runner.TableName)),
		Parameters: params,
	})
	if err != nil {
		log.Printf("Couldn't insert an item with PartiQL. Here's why: %v\n", err)
	}
	return err
}
```
Gunakan pernyataan SELECT untuk mendapatkan item.  

```
// GetMovie runs a PartiQL SELECT statement to get a movie from the DynamoDB table by
// title and year.
func (runner PartiQLRunner) GetMovie(ctx context.Context, title string, year int) (Movie, error) {
	var movie Movie
	params, err := attributevalue.MarshalList([]interface{}{title, year})
	if err != nil {
		panic(err)
	}
	response, err := runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
		Statement: aws.String(
			fmt.Sprintf("SELECT * FROM \"%v\" WHERE title=? AND year=?",
				runner.TableName)),
		Parameters: params,
	})
	if err != nil {
		log.Printf("Couldn't get info about %v. Here's why: %v\n", title, err)
	} else {
		err = attributevalue.UnmarshalMap(response.Items[0], &movie)
		if err != nil {
			log.Printf("Couldn't unmarshal response. Here's why: %v\n", err)
		}
	}
	return movie, err
}
```
Gunakan pernyataan SELECT untuk mendapatkan daftar item dan memproyeksikan hasilnya.  

```
// GetAllMovies runs a PartiQL SELECT statement to get all movies from the DynamoDB table.
// pageSize is not typically required and is used to show how to paginate the results.
// The results are projected to return only the title and rating of each movie.
func (runner PartiQLRunner) GetAllMovies(ctx context.Context, pageSize int32) ([]map[string]interface{}, error) {
	var output []map[string]interface{}
	var response *dynamodb.ExecuteStatementOutput
	var err error
	var nextToken *string
	for moreData := true; moreData; {
		response, err = runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
			Statement: aws.String(
				fmt.Sprintf("SELECT title, info.rating FROM \"%v\"", runner.TableName)),
			Limit:     aws.Int32(pageSize),
			NextToken: nextToken,
		})
		if err != nil {
			log.Printf("Couldn't get movies. Here's why: %v\n", err)
			moreData = false
		} else {
			var pageOutput []map[string]interface{}
			err = attributevalue.UnmarshalListOfMaps(response.Items, &pageOutput)
			if err != nil {
				log.Printf("Couldn't unmarshal response. Here's why: %v\n", err)
			} else {
				log.Printf("Got a page of length %v.\n", len(response.Items))
				output = append(output, pageOutput...)
			}
			nextToken = response.NextToken
			moreData = nextToken != nil
		}
	}
	return output, err
}
```
Gunakan pernyataan UPDATE untuk memperbarui item.  

```
// UpdateMovie runs a PartiQL UPDATE statement to update the rating of a movie that
// already exists in the DynamoDB table.
func (runner PartiQLRunner) UpdateMovie(ctx context.Context, movie Movie, rating float64) error {
	params, err := attributevalue.MarshalList([]interface{}{rating, movie.Title, movie.Year})
	if err != nil {
		panic(err)
	}
	_, err = runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
		Statement: aws.String(
			fmt.Sprintf("UPDATE \"%v\" SET info.rating=? WHERE title=? AND year=?",
				runner.TableName)),
		Parameters: params,
	})
	if err != nil {
		log.Printf("Couldn't update movie %v. Here's why: %v\n", movie.Title, err)
	}
	return err
}
```
Gunakan pernyataan DELETE untuk menghapus sebuah item.  

```
// DeleteMovie runs a PartiQL DELETE statement to remove a movie from the DynamoDB table.
func (runner PartiQLRunner) DeleteMovie(ctx context.Context, movie Movie) error {
	params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year})
	if err != nil {
		panic(err)
	}
	_, err = runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
		Statement: aws.String(
			fmt.Sprintf("DELETE FROM \"%v\" WHERE title=? AND year=?",
				runner.TableName)),
		Parameters: params,
	})
	if err != nil {
		log.Printf("Couldn't delete %v from the table. Here's why: %v\n", movie.Title, err)
	}
	return err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [ExecuteStatement](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.ExecuteStatement)di *Referensi AWS SDK untuk Go API*. 

### `GetItem`
<a name="dynamodb_GetItem_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// GetMovie gets movie data from the DynamoDB table by using the primary composite key
// made of title and year.
func (basics TableBasics) GetMovie(ctx context.Context, title string, year int) (Movie, error) {
	movie := Movie{Title: title, Year: year}
	response, err := basics.DynamoDbClient.GetItem(ctx, &dynamodb.GetItemInput{
		Key: movie.GetKey(), TableName: aws.String(basics.TableName),
	})
	if err != nil {
		log.Printf("Couldn't get info about %v. Here's why: %v\n", title, err)
	} else {
		err = attributevalue.UnmarshalMap(response.Item, &movie)
		if err != nil {
			log.Printf("Couldn't unmarshal response. Here's why: %v\n", err)
		}
	}
	return movie, err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [GetItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.GetItem)di *Referensi AWS SDK untuk Go API*. 

### `ListTables`
<a name="dynamodb_ListTables_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// ListTables lists the DynamoDB table names for the current account.
func (basics TableBasics) ListTables(ctx context.Context) ([]string, error) {
	var tableNames []string
	var output *dynamodb.ListTablesOutput
	var err error
	tablePaginator := dynamodb.NewListTablesPaginator(basics.DynamoDbClient, &dynamodb.ListTablesInput{})
	for tablePaginator.HasMorePages() {
		output, err = tablePaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't list tables. Here's why: %v\n", err)
			break
		} else {
			tableNames = append(tableNames, output.TableNames...)
		}
	}
	return tableNames, err
}
```
+  Untuk detail API, lihat [ListTables](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.ListTables)di *Referensi AWS SDK untuk Go API*. 

### `PutItem`
<a name="dynamodb_PutItem_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// AddMovie adds a movie the DynamoDB table.
func (basics TableBasics) AddMovie(ctx context.Context, movie Movie) error {
	item, err := attributevalue.MarshalMap(movie)
	if err != nil {
		panic(err)
	}
	_, err = basics.DynamoDbClient.PutItem(ctx, &dynamodb.PutItemInput{
		TableName: aws.String(basics.TableName), Item: item,
	})
	if err != nil {
		log.Printf("Couldn't add item to table. Here's why: %v\n", err)
	}
	return err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [PutItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.PutItem)di *Referensi AWS SDK untuk Go API*. 

### `Query`
<a name="dynamodb_Query_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// Query gets all movies in the DynamoDB table that were released in the specified year.
// The function uses the `expression` package to build the key condition expression
// that is used in the query.
func (basics TableBasics) Query(ctx context.Context, releaseYear int) ([]Movie, error) {
	var err error
	var response *dynamodb.QueryOutput
	var movies []Movie
	keyEx := expression.Key("year").Equal(expression.Value(releaseYear))
	expr, err := expression.NewBuilder().WithKeyCondition(keyEx).Build()
	if err != nil {
		log.Printf("Couldn't build expression for query. Here's why: %v\n", err)
	} else {
		queryPaginator := dynamodb.NewQueryPaginator(basics.DynamoDbClient, &dynamodb.QueryInput{
			TableName:                 aws.String(basics.TableName),
			ExpressionAttributeNames:  expr.Names(),
			ExpressionAttributeValues: expr.Values(),
			KeyConditionExpression:    expr.KeyCondition(),
		})
		for queryPaginator.HasMorePages() {
			response, err = queryPaginator.NextPage(ctx)
			if err != nil {
				log.Printf("Couldn't query for movies released in %v. Here's why: %v\n", releaseYear, err)
				break
			} else {
				var moviePage []Movie
				err = attributevalue.UnmarshalListOfMaps(response.Items, &moviePage)
				if err != nil {
					log.Printf("Couldn't unmarshal query response. Here's why: %v\n", err)
					break
				} else {
					movies = append(movies, moviePage...)
				}
			}
		}
	}
	return movies, err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [Kueri](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.Query) di *Referensi API AWS SDK untuk Go *. 

### `Scan`
<a name="dynamodb_Scan_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// Scan gets all movies in the DynamoDB table that were released in a range of years
// and projects them to return a reduced set of fields.
// The function uses the `expression` package to build the filter and projection
// expressions.
func (basics TableBasics) Scan(ctx context.Context, startYear int, endYear int) ([]Movie, error) {
	var movies []Movie
	var err error
	var response *dynamodb.ScanOutput
	filtEx := expression.Name("year").Between(expression.Value(startYear), expression.Value(endYear))
	projEx := expression.NamesList(
		expression.Name("year"), expression.Name("title"), expression.Name("info.rating"))
	expr, err := expression.NewBuilder().WithFilter(filtEx).WithProjection(projEx).Build()
	if err != nil {
		log.Printf("Couldn't build expressions for scan. Here's why: %v\n", err)
	} else {
		scanPaginator := dynamodb.NewScanPaginator(basics.DynamoDbClient, &dynamodb.ScanInput{
			TableName:                 aws.String(basics.TableName),
			ExpressionAttributeNames:  expr.Names(),
			ExpressionAttributeValues: expr.Values(),
			FilterExpression:          expr.Filter(),
			ProjectionExpression:      expr.Projection(),
		})
		for scanPaginator.HasMorePages() {
			response, err = scanPaginator.NextPage(ctx)
			if err != nil {
				log.Printf("Couldn't scan for movies released between %v and %v. Here's why: %v\n",
					startYear, endYear, err)
				break
			} else {
				var moviePage []Movie
				err = attributevalue.UnmarshalListOfMaps(response.Items, &moviePage)
				if err != nil {
					log.Printf("Couldn't unmarshal query response. Here's why: %v\n", err)
					break
				} else {
					movies = append(movies, moviePage...)
				}
			}
		}
	}
	return movies, err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [Scan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.Scan) di *Referensi API AWS SDK untuk Go *. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples.
// It contains a DynamoDB service client that is used to act on the specified table.
type TableBasics struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// UpdateMovie updates the rating and plot of a movie that already exists in the
// DynamoDB table. This function uses the `expression` package to build the update
// expression.
func (basics TableBasics) UpdateMovie(ctx context.Context, movie Movie) (map[string]map[string]interface{}, error) {
	var err error
	var response *dynamodb.UpdateItemOutput
	var attributeMap map[string]map[string]interface{}
	update := expression.Set(expression.Name("info.rating"), expression.Value(movie.Info["rating"]))
	update.Set(expression.Name("info.plot"), expression.Value(movie.Info["plot"]))
	expr, err := expression.NewBuilder().WithUpdate(update).Build()
	if err != nil {
		log.Printf("Couldn't build expression for update. Here's why: %v\n", err)
	} else {
		response, err = basics.DynamoDbClient.UpdateItem(ctx, &dynamodb.UpdateItemInput{
			TableName:                 aws.String(basics.TableName),
			Key:                       movie.GetKey(),
			ExpressionAttributeNames:  expr.Names(),
			ExpressionAttributeValues: expr.Values(),
			UpdateExpression:          expr.Update(),
			ReturnValues:              types.ReturnValueUpdatedNew,
		})
		if err != nil {
			log.Printf("Couldn't update movie %v. Here's why: %v\n", movie.Title, err)
		} else {
			err = attributevalue.UnmarshalMap(response.Attributes, &attributeMap)
			if err != nil {
				log.Printf("Couldn't unmarshall update response. Here's why: %v\n", err)
			}
		}
	}
	return attributeMap, err
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
+  Untuk detail API, lihat [UpdateItem](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.UpdateItem)di *Referensi AWS SDK untuk Go API*. 

## Skenario
<a name="scenarios"></a>

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 
Jalankan skenario yang membuat tabel dan menjalankan batch kueri PartiQL.  

```
import (
	"context"
	"fmt"
	"log"
	"strings"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/dynamodb/actions"
)

// RunPartiQLBatchScenario shows you how to use the AWS SDK for Go
// to run batches of PartiQL statements to query a table that stores data about movies.
//
//   - Use batches of PartiQL statements to add, get, update, and delete data for
//     individual movies.
//
// This example creates an Amazon DynamoDB service client from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// This example creates and deletes a DynamoDB table to use during the scenario.
func RunPartiQLBatchScenario(ctx context.Context, sdkConfig aws.Config, tableName string) {
	defer func() {
		if r := recover(); r != nil {
			fmt.Printf("Something went wrong with the demo.")
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon DynamoDB PartiQL batch demo.")
	log.Println(strings.Repeat("-", 88))

	tableBasics := actions.TableBasics{
		DynamoDbClient: dynamodb.NewFromConfig(sdkConfig),
		TableName:      tableName,
	}
	runner := actions.PartiQLRunner{
		DynamoDbClient: dynamodb.NewFromConfig(sdkConfig),
		TableName:      tableName,
	}

	exists, err := tableBasics.TableExists(ctx)
	if err != nil {
		panic(err)
	}
	if !exists {
		log.Printf("Creating table %v...\n", tableName)
		_, err = tableBasics.CreateMovieTable(ctx)
		if err != nil {
			panic(err)
		} else {
			log.Printf("Created table %v.\n", tableName)
		}
	} else {
		log.Printf("Table %v already exists.\n", tableName)
	}
	log.Println(strings.Repeat("-", 88))

	currentYear, _, _ := time.Now().Date()
	customMovies := []actions.Movie{{
		Title: "House PartiQL",
		Year:  currentYear - 5,
		Info: map[string]interface{}{
			"plot":   "Wacky high jinks result from querying a mysterious database.",
			"rating": 8.5}}, {
		Title: "House PartiQL 2",
		Year:  currentYear - 3,
		Info: map[string]interface{}{
			"plot":   "Moderate high jinks result from querying another mysterious database.",
			"rating": 6.5}}, {
		Title: "House PartiQL 3",
		Year:  currentYear - 1,
		Info: map[string]interface{}{
			"plot":   "Tepid high jinks result from querying yet another mysterious database.",
			"rating": 2.5},
	},
	}

	log.Printf("Inserting a batch of movies into table '%v'.\n", tableName)
	err = runner.AddMovieBatch(ctx, customMovies)
	if err == nil {
		log.Printf("Added %v movies to the table.\n", len(customMovies))
	}
	log.Println(strings.Repeat("-", 88))

	log.Println("Getting data for a batch of movies.")
	movies, err := runner.GetMovieBatch(ctx, customMovies)
	if err == nil {
		for _, movie := range movies {
			log.Println(movie)
		}
	}
	log.Println(strings.Repeat("-", 88))

	newRatings := []float64{7.7, 4.4, 1.1}
	log.Println("Updating a batch of movies with new ratings.")
	err = runner.UpdateMovieBatch(ctx, customMovies, newRatings)
	if err == nil {
		log.Printf("Updated %v movies with new ratings.\n", len(customMovies))
	}
	log.Println(strings.Repeat("-", 88))

	log.Println("Getting projected data from the table to verify our update.")
	log.Println("Using a page size of 2 to demonstrate paging.")
	projections, err := runner.GetAllMovies(ctx, 2)
	if err == nil {
		log.Println("All movies:")
		for _, projection := range projections {
			log.Println(projection)
		}
	}
	log.Println(strings.Repeat("-", 88))

	log.Println("Deleting a batch of movies.")
	err = runner.DeleteMovieBatch(ctx, customMovies)
	if err == nil {
		log.Printf("Deleted %v movies.\n", len(customMovies))
	}

	err = tableBasics.DeleteTable(ctx)
	if err == nil {
		log.Printf("Deleted table %v.\n", tableBasics.TableName)
	}

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
Buat struct dan metode yang menjalankan pernyataan PartiQL.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// PartiQLRunner encapsulates the Amazon DynamoDB service actions used in the
// PartiQL examples. It contains a DynamoDB service client that is used to act on the
// specified table.
type PartiQLRunner struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// AddMovieBatch runs a batch of PartiQL INSERT statements to add multiple movies to the
// DynamoDB table.
func (runner PartiQLRunner) AddMovieBatch(ctx context.Context, movies []Movie) error {
	statementRequests := make([]types.BatchStatementRequest, len(movies))
	for index, movie := range movies {
		params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year, movie.Info})
		if err != nil {
			panic(err)
		}
		statementRequests[index] = types.BatchStatementRequest{
			Statement: aws.String(fmt.Sprintf(
				"INSERT INTO \"%v\" VALUE {'title': ?, 'year': ?, 'info': ?}", runner.TableName)),
			Parameters: params,
		}
	}

	_, err := runner.DynamoDbClient.BatchExecuteStatement(ctx, &dynamodb.BatchExecuteStatementInput{
		Statements: statementRequests,
	})
	if err != nil {
		log.Printf("Couldn't insert a batch of items with PartiQL. Here's why: %v\n", err)
	}
	return err
}



// GetMovieBatch runs a batch of PartiQL SELECT statements to get multiple movies from
// the DynamoDB table by title and year.
func (runner PartiQLRunner) GetMovieBatch(ctx context.Context, movies []Movie) ([]Movie, error) {
	statementRequests := make([]types.BatchStatementRequest, len(movies))
	for index, movie := range movies {
		params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year})
		if err != nil {
			panic(err)
		}
		statementRequests[index] = types.BatchStatementRequest{
			Statement: aws.String(
				fmt.Sprintf("SELECT * FROM \"%v\" WHERE title=? AND year=?", runner.TableName)),
			Parameters: params,
		}
	}

	output, err := runner.DynamoDbClient.BatchExecuteStatement(ctx, &dynamodb.BatchExecuteStatementInput{
		Statements: statementRequests,
	})
	var outMovies []Movie
	if err != nil {
		log.Printf("Couldn't get a batch of items with PartiQL. Here's why: %v\n", err)
	} else {
		for _, response := range output.Responses {
			var movie Movie
			err = attributevalue.UnmarshalMap(response.Item, &movie)
			if err != nil {
				log.Printf("Couldn't unmarshal response. Here's why: %v\n", err)
			} else {
				outMovies = append(outMovies, movie)
			}
		}
	}
	return outMovies, err
}



// GetAllMovies runs a PartiQL SELECT statement to get all movies from the DynamoDB table.
// pageSize is not typically required and is used to show how to paginate the results.
// The results are projected to return only the title and rating of each movie.
func (runner PartiQLRunner) GetAllMovies(ctx context.Context, pageSize int32) ([]map[string]interface{}, error) {
	var output []map[string]interface{}
	var response *dynamodb.ExecuteStatementOutput
	var err error
	var nextToken *string
	for moreData := true; moreData; {
		response, err = runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
			Statement: aws.String(
				fmt.Sprintf("SELECT title, info.rating FROM \"%v\"", runner.TableName)),
			Limit:     aws.Int32(pageSize),
			NextToken: nextToken,
		})
		if err != nil {
			log.Printf("Couldn't get movies. Here's why: %v\n", err)
			moreData = false
		} else {
			var pageOutput []map[string]interface{}
			err = attributevalue.UnmarshalListOfMaps(response.Items, &pageOutput)
			if err != nil {
				log.Printf("Couldn't unmarshal response. Here's why: %v\n", err)
			} else {
				log.Printf("Got a page of length %v.\n", len(response.Items))
				output = append(output, pageOutput...)
			}
			nextToken = response.NextToken
			moreData = nextToken != nil
		}
	}
	return output, err
}



// UpdateMovieBatch runs a batch of PartiQL UPDATE statements to update the rating of
// multiple movies that already exist in the DynamoDB table.
func (runner PartiQLRunner) UpdateMovieBatch(ctx context.Context, movies []Movie, ratings []float64) error {
	statementRequests := make([]types.BatchStatementRequest, len(movies))
	for index, movie := range movies {
		params, err := attributevalue.MarshalList([]interface{}{ratings[index], movie.Title, movie.Year})
		if err != nil {
			panic(err)
		}
		statementRequests[index] = types.BatchStatementRequest{
			Statement: aws.String(
				fmt.Sprintf("UPDATE \"%v\" SET info.rating=? WHERE title=? AND year=?", runner.TableName)),
			Parameters: params,
		}
	}

	_, err := runner.DynamoDbClient.BatchExecuteStatement(ctx, &dynamodb.BatchExecuteStatementInput{
		Statements: statementRequests,
	})
	if err != nil {
		log.Printf("Couldn't update the batch of movies. Here's why: %v\n", err)
	}
	return err
}



// DeleteMovieBatch runs a batch of PartiQL DELETE statements to remove multiple movies
// from the DynamoDB table.
func (runner PartiQLRunner) DeleteMovieBatch(ctx context.Context, movies []Movie) error {
	statementRequests := make([]types.BatchStatementRequest, len(movies))
	for index, movie := range movies {
		params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year})
		if err != nil {
			panic(err)
		}
		statementRequests[index] = types.BatchStatementRequest{
			Statement: aws.String(
				fmt.Sprintf("DELETE FROM \"%v\" WHERE title=? AND year=?", runner.TableName)),
			Parameters: params,
		}
	}

	_, err := runner.DynamoDbClient.BatchExecuteStatement(ctx, &dynamodb.BatchExecuteStatementInput{
		Statements: statementRequests,
	})
	if err != nil {
		log.Printf("Couldn't delete the batch of movies. Here's why: %v\n", err)
	}
	return err
}
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.BatchExecuteStatement)di *Referensi AWS SDK untuk Go API*. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/dynamodb#code-examples). 
Jalankan skenario yang membuat tabel dan menjalankan kueri PartiQL.  

```
import (
	"context"
	"fmt"
	"log"
	"strings"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/dynamodb/actions"
)

// RunPartiQLSingleScenario shows you how to use the AWS SDK for Go
// to use PartiQL to query a table that stores data about movies.
//
// * Use PartiQL statements to add, get, update, and delete data for individual movies.
//
// This example creates an Amazon DynamoDB service client from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// This example creates and deletes a DynamoDB table to use during the scenario.
func RunPartiQLSingleScenario(ctx context.Context, sdkConfig aws.Config, tableName string) {
	defer func() {
		if r := recover(); r != nil {
			fmt.Printf("Something went wrong with the demo.")
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon DynamoDB PartiQL single action demo.")
	log.Println(strings.Repeat("-", 88))

	tableBasics := actions.TableBasics{
		DynamoDbClient: dynamodb.NewFromConfig(sdkConfig),
		TableName:      tableName,
	}
	runner := actions.PartiQLRunner{
		DynamoDbClient: dynamodb.NewFromConfig(sdkConfig),
		TableName:      tableName,
	}

	exists, err := tableBasics.TableExists(ctx)
	if err != nil {
		panic(err)
	}
	if !exists {
		log.Printf("Creating table %v...\n", tableName)
		_, err = tableBasics.CreateMovieTable(ctx)
		if err != nil {
			panic(err)
		} else {
			log.Printf("Created table %v.\n", tableName)
		}
	} else {
		log.Printf("Table %v already exists.\n", tableName)
	}
	log.Println(strings.Repeat("-", 88))

	currentYear, _, _ := time.Now().Date()
	customMovie := actions.Movie{
		Title: "24 Hour PartiQL People",
		Year:  currentYear,
		Info: map[string]interface{}{
			"plot":   "A group of data developers discover a new query language they can't stop using.",
			"rating": 9.9,
		},
	}

	log.Printf("Inserting movie '%v' released in %v.", customMovie.Title, customMovie.Year)
	err = runner.AddMovie(ctx, customMovie)
	if err == nil {
		log.Printf("Added %v to the movie table.\n", customMovie.Title)
	}
	log.Println(strings.Repeat("-", 88))

	log.Printf("Getting data for movie '%v' released in %v.", customMovie.Title, customMovie.Year)
	movie, err := runner.GetMovie(ctx, customMovie.Title, customMovie.Year)
	if err == nil {
		log.Println(movie)
	}
	log.Println(strings.Repeat("-", 88))

	newRating := 6.6
	log.Printf("Updating movie '%v' with a rating of %v.", customMovie.Title, newRating)
	err = runner.UpdateMovie(ctx, customMovie, newRating)
	if err == nil {
		log.Printf("Updated %v with a new rating.\n", customMovie.Title)
	}
	log.Println(strings.Repeat("-", 88))

	log.Printf("Getting data again to verify the update.")
	movie, err = runner.GetMovie(ctx, customMovie.Title, customMovie.Year)
	if err == nil {
		log.Println(movie)
	}
	log.Println(strings.Repeat("-", 88))

	log.Printf("Deleting movie '%v'.\n", customMovie.Title)
	err = runner.DeleteMovie(ctx, customMovie)
	if err == nil {
		log.Printf("Deleted %v.\n", customMovie.Title)
	}

	err = tableBasics.DeleteTable(ctx)
	if err == nil {
		log.Printf("Deleted table %v.\n", tableBasics.TableName)
	}

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tentukan struct Movie yang digunakan dalam contoh ini.  

```
import (
	"archive/zip"
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"log"
	"net/http"

	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// Movie encapsulates data about a movie. Title and Year are the composite primary key
// of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key,
// and Info is additional data.
type Movie struct {
	Title string                 `dynamodbav:"title"`
	Year  int                    `dynamodbav:"year"`
	Info  map[string]interface{} `dynamodbav:"info"`
}

// GetKey returns the composite primary key of the movie in a format that can be
// sent to DynamoDB.
func (movie Movie) GetKey() map[string]types.AttributeValue {
	title, err := attributevalue.Marshal(movie.Title)
	if err != nil {
		panic(err)
	}
	year, err := attributevalue.Marshal(movie.Year)
	if err != nil {
		panic(err)
	}
	return map[string]types.AttributeValue{"title": title, "year": year}
}

// String returns the title, year, rating, and plot of a movie, formatted for the example.
func (movie Movie) String() string {
	return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n",
		movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"])
}
```
Buat struct dan metode yang menjalankan pernyataan PartiQL.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// PartiQLRunner encapsulates the Amazon DynamoDB service actions used in the
// PartiQL examples. It contains a DynamoDB service client that is used to act on the
// specified table.
type PartiQLRunner struct {
	DynamoDbClient *dynamodb.Client
	TableName      string
}



// AddMovie runs a PartiQL INSERT statement to add a movie to the DynamoDB table.
func (runner PartiQLRunner) AddMovie(ctx context.Context, movie Movie) error {
	params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year, movie.Info})
	if err != nil {
		panic(err)
	}
	_, err = runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
		Statement: aws.String(
			fmt.Sprintf("INSERT INTO \"%v\" VALUE {'title': ?, 'year': ?, 'info': ?}",
				runner.TableName)),
		Parameters: params,
	})
	if err != nil {
		log.Printf("Couldn't insert an item with PartiQL. Here's why: %v\n", err)
	}
	return err
}



// GetMovie runs a PartiQL SELECT statement to get a movie from the DynamoDB table by
// title and year.
func (runner PartiQLRunner) GetMovie(ctx context.Context, title string, year int) (Movie, error) {
	var movie Movie
	params, err := attributevalue.MarshalList([]interface{}{title, year})
	if err != nil {
		panic(err)
	}
	response, err := runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
		Statement: aws.String(
			fmt.Sprintf("SELECT * FROM \"%v\" WHERE title=? AND year=?",
				runner.TableName)),
		Parameters: params,
	})
	if err != nil {
		log.Printf("Couldn't get info about %v. Here's why: %v\n", title, err)
	} else {
		err = attributevalue.UnmarshalMap(response.Items[0], &movie)
		if err != nil {
			log.Printf("Couldn't unmarshal response. Here's why: %v\n", err)
		}
	}
	return movie, err
}



// UpdateMovie runs a PartiQL UPDATE statement to update the rating of a movie that
// already exists in the DynamoDB table.
func (runner PartiQLRunner) UpdateMovie(ctx context.Context, movie Movie, rating float64) error {
	params, err := attributevalue.MarshalList([]interface{}{rating, movie.Title, movie.Year})
	if err != nil {
		panic(err)
	}
	_, err = runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
		Statement: aws.String(
			fmt.Sprintf("UPDATE \"%v\" SET info.rating=? WHERE title=? AND year=?",
				runner.TableName)),
		Parameters: params,
	})
	if err != nil {
		log.Printf("Couldn't update movie %v. Here's why: %v\n", movie.Title, err)
	}
	return err
}



// DeleteMovie runs a PartiQL DELETE statement to remove a movie from the DynamoDB table.
func (runner PartiQLRunner) DeleteMovie(ctx context.Context, movie Movie) error {
	params, err := attributevalue.MarshalList([]interface{}{movie.Title, movie.Year})
	if err != nil {
		panic(err)
	}
	_, err = runner.DynamoDbClient.ExecuteStatement(ctx, &dynamodb.ExecuteStatementInput{
		Statement: aws.String(
			fmt.Sprintf("DELETE FROM \"%v\" WHERE title=? AND year=?",
				runner.TableName)),
		Parameters: params,
	})
	if err != nil {
		log.Printf("Couldn't delete %v from the table. Here's why: %v\n", movie.Title, err)
	}
	return err
}
```
+  Untuk detail API, lihat [ExecuteStatement](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/dynamodb#Client.ExecuteStatement)di *Referensi AWS SDK untuk Go API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil muatan DynamoDB dan mencatat isi catatan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-lambda-go/events"
	"fmt"
)

func HandleRequest(ctx context.Context, event events.DynamoDBEvent) (*string, error) {
	if len(event.Records) == 0 {
		return nil, fmt.Errorf("received empty event")
	}

	for _, record := range event.Records {
	 	LogDynamoDBRecord(record)
	}

	message := fmt.Sprintf("Records processed: %d", len(event.Records))
	return &message, nil
}

func main() {
	lambda.Start(HandleRequest)
}

func LogDynamoDBRecord(record events.DynamoDBEventRecord){
	fmt.Println(record.EventID)
	fmt.Println(record.EventName)
	fmt.Printf("%+v\n", record.Change)
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

type BatchItemFailure struct {
	ItemIdentifier string `json:"ItemIdentifier"`
}

type BatchResult struct {
	BatchItemFailures []BatchItemFailure `json:"BatchItemFailures"`
}

func HandleRequest(ctx context.Context, event events.DynamoDBEvent) (*BatchResult, error) {
	var batchItemFailures []BatchItemFailure
	curRecordSequenceNumber := ""

	for _, record := range event.Records {
		// Process your record
		curRecordSequenceNumber = record.Change.SequenceNumber
	}

	if curRecordSequenceNumber != "" {
		batchItemFailures = append(batchItemFailures, BatchItemFailure{ItemIdentifier: curRecordSequenceNumber})
	}
	
	batchResult := BatchResult{
		BatchItemFailures: batchItemFailures,
	}

	return &batchResult, nil
}

func main() {
	lambda.Start(HandleRequest)
}
```

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_go_2_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk Go V2**  
 Menunjukkan cara membuat dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Go SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-go-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh IAM menggunakan SDK for Go V2
<a name="go_2_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo IAM
<a name="iam_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan IAM.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
package main

import (
	"context"
	"fmt"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/iam"
)

// main uses the AWS SDK for Go (v2) to create an AWS Identity and Access Management (IAM)
// client and list up to 10 policies in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	iamClient := iam.NewFromConfig(sdkConfig)
	const maxPols = 10
	fmt.Printf("Let's list up to %v policies for your account.\n", maxPols)
	result, err := iamClient.ListPolicies(ctx, &iam.ListPoliciesInput{
		MaxItems: aws.Int32(maxPols),
	})
	if err != nil {
		fmt.Printf("Couldn't list policies for your account. Here's why: %v\n", err)
		return
	}
	if len(result.Policies) == 0 {
		fmt.Println("You don't have any policies!")
	} else {
		for _, policy := range result.Policies {
			fmt.Printf("\t%v\n", *policy.PolicyName)
		}
	}
}
```
+  Untuk detail API, lihat [ListPolicies](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListPolicies)di *Referensi AWS SDK untuk Go API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_go_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"errors"
	"fmt"
	"log"
	"math/rand"
	"strings"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/credentials"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/sts"
	"github.com/aws/smithy-go"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/iam/actions"
)

// AssumeRoleScenario shows you how to use the AWS Identity and Access Management (IAM)
// service to perform the following actions:
//
//  1. Create a user who has no permissions.
//  2. Create a role that grants permission to list Amazon Simple Storage Service
//     (Amazon S3) buckets for the account.
//  3. Add a policy to let the user assume the role.
//  4. Try and fail to list buckets without permissions.
//  5. Assume the role and list S3 buckets using temporary credentials.
//  6. Delete the policy, role, and user.
type AssumeRoleScenario struct {
	sdkConfig      aws.Config
	accountWrapper actions.AccountWrapper
	policyWrapper  actions.PolicyWrapper
	roleWrapper    actions.RoleWrapper
	userWrapper    actions.UserWrapper
	questioner     demotools.IQuestioner
	helper         IScenarioHelper
	isTestRun      bool
}

// NewAssumeRoleScenario constructs an AssumeRoleScenario instance from a configuration.
// It uses the specified config to get an IAM client and create wrappers for the actions
// used in the scenario.
func NewAssumeRoleScenario(sdkConfig aws.Config, questioner demotools.IQuestioner,
	helper IScenarioHelper) AssumeRoleScenario {
	iamClient := iam.NewFromConfig(sdkConfig)
	return AssumeRoleScenario{
		sdkConfig:      sdkConfig,
		accountWrapper: actions.AccountWrapper{IamClient: iamClient},
		policyWrapper:  actions.PolicyWrapper{IamClient: iamClient},
		roleWrapper:    actions.RoleWrapper{IamClient: iamClient},
		userWrapper:    actions.UserWrapper{IamClient: iamClient},
		questioner:     questioner,
		helper:         helper,
	}
}

// addTestOptions appends the API options specified in the original configuration to
// another configuration. This is used to attach the middleware stubber to clients
// that are constructed during the scenario, which is needed for unit testing.
func (scenario AssumeRoleScenario) addTestOptions(scenarioConfig *aws.Config) {
	if scenario.isTestRun {
		scenarioConfig.APIOptions = append(scenarioConfig.APIOptions, scenario.sdkConfig.APIOptions...)
	}
}

// Run runs the interactive scenario.
func (scenario AssumeRoleScenario) Run(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong with the demo.\n")
			log.Println(r)
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the AWS Identity and Access Management (IAM) assume role demo.")
	log.Println(strings.Repeat("-", 88))

	user := scenario.CreateUser(ctx)
	accessKey := scenario.CreateAccessKey(ctx, user)
	role := scenario.CreateRoleAndPolicies(ctx, user)
	noPermsConfig := scenario.ListBucketsWithoutPermissions(ctx, accessKey)
	scenario.ListBucketsWithAssumedRole(ctx, noPermsConfig, role)
	scenario.Cleanup(ctx, user, role)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}

// CreateUser creates a new IAM user. This user has no permissions.
func (scenario AssumeRoleScenario) CreateUser(ctx context.Context) *types.User {
	log.Println("Let's create an example user with no permissions.")
	userName := scenario.questioner.Ask("Enter a name for the example user:", demotools.NotEmpty{})
	user, err := scenario.userWrapper.GetUser(ctx, userName)
	if err != nil {
		panic(err)
	}
	if user == nil {
		user, err = scenario.userWrapper.CreateUser(ctx, userName)
		if err != nil {
			panic(err)
		}
		log.Printf("Created user %v.\n", *user.UserName)
	} else {
		log.Printf("User %v already exists.\n", *user.UserName)
	}
	log.Println(strings.Repeat("-", 88))
	return user
}

// CreateAccessKey creates an access key for the user.
func (scenario AssumeRoleScenario) CreateAccessKey(ctx context.Context, user *types.User) *types.AccessKey {
	accessKey, err := scenario.userWrapper.CreateAccessKeyPair(ctx, *user.UserName)
	if err != nil {
		panic(err)
	}
	log.Printf("Created access key %v for your user.", *accessKey.AccessKeyId)
	log.Println("Waiting a few seconds for your user to be ready...")
	scenario.helper.Pause(10)
	log.Println(strings.Repeat("-", 88))
	return accessKey
}

// CreateRoleAndPolicies creates a policy that grants permission to list S3 buckets for
// the current account and attaches the policy to a newly created role. It also adds an
// inline policy to the specified user that grants the user permission to assume the role.
func (scenario AssumeRoleScenario) CreateRoleAndPolicies(ctx context.Context, user *types.User) *types.Role {
	log.Println("Let's create a role and policy that grant permission to list S3 buckets.")
	scenario.questioner.Ask("Press Enter when you're ready.")
	listBucketsRole, err := scenario.roleWrapper.CreateRole(ctx, scenario.helper.GetName(), *user.Arn)
	if err != nil {
		panic(err)
	}
	log.Printf("Created role %v.\n", *listBucketsRole.RoleName)
	listBucketsPolicy, err := scenario.policyWrapper.CreatePolicy(
		ctx, scenario.helper.GetName(), []string{"s3:ListAllMyBuckets"}, "arn:aws:s3:::*")
	if err != nil {
		panic(err)
	}
	log.Printf("Created policy %v.\n", *listBucketsPolicy.PolicyName)
	err = scenario.roleWrapper.AttachRolePolicy(ctx, *listBucketsPolicy.Arn, *listBucketsRole.RoleName)
	if err != nil {
		panic(err)
	}
	log.Printf("Attached policy %v to role %v.\n", *listBucketsPolicy.PolicyName,
		*listBucketsRole.RoleName)
	err = scenario.userWrapper.CreateUserPolicy(ctx, *user.UserName, scenario.helper.GetName(),
		[]string{"sts:AssumeRole"}, *listBucketsRole.Arn)
	if err != nil {
		panic(err)
	}
	log.Printf("Created an inline policy for user %v that lets the user assume the role.\n",
		*user.UserName)
	log.Println("Let's give AWS a few seconds to propagate these new resources and connections...")
	scenario.helper.Pause(10)
	log.Println(strings.Repeat("-", 88))
	return listBucketsRole
}

// ListBucketsWithoutPermissions creates an Amazon S3 client from the user's access key
// credentials and tries to list buckets for the account. Because the user does not have
// permission to perform this action, the action fails.
func (scenario AssumeRoleScenario) ListBucketsWithoutPermissions(ctx context.Context, accessKey *types.AccessKey) *aws.Config {
	log.Println("Let's try to list buckets without permissions. This should return an AccessDenied error.")
	scenario.questioner.Ask("Press Enter when you're ready.")
	noPermsConfig, err := config.LoadDefaultConfig(ctx,
		config.WithCredentialsProvider(credentials.NewStaticCredentialsProvider(
			*accessKey.AccessKeyId, *accessKey.SecretAccessKey, ""),
		))
	if err != nil {
		panic(err)
	}

	// Add test options if this is a test run. This is needed only for testing purposes.
	scenario.addTestOptions(&noPermsConfig)

	s3Client := s3.NewFromConfig(noPermsConfig)
	_, err = s3Client.ListBuckets(ctx, &s3.ListBucketsInput{})
	if err != nil {
		// The SDK for Go does not model the AccessDenied error, so check ErrorCode directly.
		var ae smithy.APIError
		if errors.As(err, &ae) {
			switch ae.ErrorCode() {
			case "AccessDenied":
				log.Println("Got AccessDenied error, which is the expected result because\n" +
					"the ListBuckets call was made without permissions.")
			default:
				log.Println("Expected AccessDenied, got something else.")
				panic(err)
			}
		}
	} else {
		log.Println("Expected AccessDenied error when calling ListBuckets without permissions,\n" +
			"but the call succeeded. Continuing the example anyway...")
	}
	log.Println(strings.Repeat("-", 88))
	return &noPermsConfig
}

// ListBucketsWithAssumedRole performs the following actions:
//
//  1. Creates an AWS Security Token Service (AWS STS) client from the config created from
//     the user's access key credentials.
//  2. Gets temporary credentials by assuming the role that grants permission to list the
//     buckets.
//  3. Creates an Amazon S3 client from the temporary credentials.
//  4. Lists buckets for the account. Because the temporary credentials are generated by
//     assuming the role that grants permission, the action succeeds.
func (scenario AssumeRoleScenario) ListBucketsWithAssumedRole(ctx context.Context, noPermsConfig *aws.Config, role *types.Role) {
	log.Println("Let's assume the role that grants permission to list buckets and try again.")
	scenario.questioner.Ask("Press Enter when you're ready.")
	stsClient := sts.NewFromConfig(*noPermsConfig)
	tempCredentials, err := stsClient.AssumeRole(ctx, &sts.AssumeRoleInput{
		RoleArn:         role.Arn,
		RoleSessionName: aws.String("AssumeRoleExampleSession"),
		DurationSeconds: aws.Int32(900),
	})
	if err != nil {
		log.Printf("Couldn't assume role %v.\n", *role.RoleName)
		panic(err)
	}
	log.Printf("Assumed role %v, got temporary credentials.\n", *role.RoleName)
	assumeRoleConfig, err := config.LoadDefaultConfig(ctx,
		config.WithCredentialsProvider(credentials.NewStaticCredentialsProvider(
			*tempCredentials.Credentials.AccessKeyId,
			*tempCredentials.Credentials.SecretAccessKey,
			*tempCredentials.Credentials.SessionToken),
		),
	)
	if err != nil {
		panic(err)
	}

	// Add test options if this is a test run. This is needed only for testing purposes.
	scenario.addTestOptions(&assumeRoleConfig)

	s3Client := s3.NewFromConfig(assumeRoleConfig)
	result, err := s3Client.ListBuckets(ctx, &s3.ListBucketsInput{})
	if err != nil {
		log.Println("Couldn't list buckets with assumed role credentials.")
		panic(err)
	}
	log.Println("Successfully called ListBuckets with assumed role credentials, \n" +
		"here are some of them:")
	for i := 0; i < len(result.Buckets) && i < 5; i++ {
		log.Printf("\t%v\n", *result.Buckets[i].Name)
	}
	log.Println(strings.Repeat("-", 88))
}

// Cleanup deletes all resources created for the scenario.
func (scenario AssumeRoleScenario) Cleanup(ctx context.Context, user *types.User, role *types.Role) {
	if scenario.questioner.AskBool(
		"Do you want to delete the resources created for this example? (y/n)", "y",
	) {
		policies, err := scenario.roleWrapper.ListAttachedRolePolicies(ctx, *role.RoleName)
		if err != nil {
			panic(err)
		}
		for _, policy := range policies {
			err = scenario.roleWrapper.DetachRolePolicy(ctx, *role.RoleName, *policy.PolicyArn)
			if err != nil {
				panic(err)
			}
			err = scenario.policyWrapper.DeletePolicy(ctx, *policy.PolicyArn)
			if err != nil {
				panic(err)
			}
			log.Printf("Detached policy %v from role %v and deleted the policy.\n",
				*policy.PolicyName, *role.RoleName)
		}
		err = scenario.roleWrapper.DeleteRole(ctx, *role.RoleName)
		if err != nil {
			panic(err)
		}
		log.Printf("Deleted role %v.\n", *role.RoleName)

		userPols, err := scenario.userWrapper.ListUserPolicies(ctx, *user.UserName)
		if err != nil {
			panic(err)
		}
		for _, userPol := range userPols {
			err = scenario.userWrapper.DeleteUserPolicy(ctx, *user.UserName, userPol)
			if err != nil {
				panic(err)
			}
			log.Printf("Deleted policy %v from user %v.\n", userPol, *user.UserName)
		}
		keys, err := scenario.userWrapper.ListAccessKeys(ctx, *user.UserName)
		if err != nil {
			panic(err)
		}
		for _, key := range keys {
			err = scenario.userWrapper.DeleteAccessKey(ctx, *user.UserName, *key.AccessKeyId)
			if err != nil {
				panic(err)
			}
			log.Printf("Deleted access key %v from user %v.\n", *key.AccessKeyId, *user.UserName)
		}
		err = scenario.userWrapper.DeleteUser(ctx, *user.UserName)
		if err != nil {
			panic(err)
		}
		log.Printf("Deleted user %v.\n", *user.UserName)
		log.Println(strings.Repeat("-", 88))
	}

}

// IScenarioHelper abstracts input and wait functions from a scenario so that they
// can be mocked for unit testing.
type IScenarioHelper interface {
	GetName() string
	Pause(secs int)
}

const rMax = 100000

type ScenarioHelper struct {
	Prefix string
	Random *rand.Rand
}

// GetName returns a unique name formed of a prefix and a random number.
func (helper *ScenarioHelper) GetName() string {
	return fmt.Sprintf("%v%v", helper.Prefix, helper.Random.Intn(rMax))
}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	time.Sleep(time.Duration(secs) * time.Second)
}
```
Tentukan struct yang membungkus tindakan akun.  

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// AccountWrapper encapsulates AWS Identity and Access Management (IAM) account actions
// used in the examples.
// It contains an IAM service client that is used to perform account actions.
type AccountWrapper struct {
	IamClient *iam.Client
}



// GetAccountPasswordPolicy gets the account password policy for the current account.
// If no policy has been set, a NoSuchEntityException is error is returned.
func (wrapper AccountWrapper) GetAccountPasswordPolicy(ctx context.Context) (*types.PasswordPolicy, error) {
	var pwPolicy *types.PasswordPolicy
	result, err := wrapper.IamClient.GetAccountPasswordPolicy(ctx,
		&iam.GetAccountPasswordPolicyInput{})
	if err != nil {
		log.Printf("Couldn't get account password policy. Here's why: %v\n", err)
	} else {
		pwPolicy = result.PasswordPolicy
	}
	return pwPolicy, err
}



// ListSAMLProviders gets the SAML providers for the account.
func (wrapper AccountWrapper) ListSAMLProviders(ctx context.Context) ([]types.SAMLProviderListEntry, error) {
	var providers []types.SAMLProviderListEntry
	result, err := wrapper.IamClient.ListSAMLProviders(ctx, &iam.ListSAMLProvidersInput{})
	if err != nil {
		log.Printf("Couldn't list SAML providers. Here's why: %v\n", err)
	} else {
		providers = result.SAMLProviderList
	}
	return providers, err
}
```
Tentukan struct yang membungkus tindakan kebijakan.  

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// PolicyWrapper encapsulates AWS Identity and Access Management (IAM) policy actions
// used in the examples.
// It contains an IAM service client that is used to perform policy actions.
type PolicyWrapper struct {
	IamClient *iam.Client
}



// ListPolicies gets up to maxPolicies policies.
func (wrapper PolicyWrapper) ListPolicies(ctx context.Context, maxPolicies int32) ([]types.Policy, error) {
	var policies []types.Policy
	result, err := wrapper.IamClient.ListPolicies(ctx, &iam.ListPoliciesInput{
		MaxItems: aws.Int32(maxPolicies),
	})
	if err != nil {
		log.Printf("Couldn't list policies. Here's why: %v\n", err)
	} else {
		policies = result.Policies
	}
	return policies, err
}



// PolicyDocument defines a policy document as a Go struct that can be serialized
// to JSON.
type PolicyDocument struct {
	Version   string
	Statement []PolicyStatement
}

// PolicyStatement defines a statement in a policy document.
type PolicyStatement struct {
	Effect    string
	Action    []string
	Principal map[string]string `json:",omitempty"`
	Resource  *string           `json:",omitempty"`
}

// CreatePolicy creates a policy that grants a list of actions to the specified resource.
// PolicyDocument shows how to work with a policy document as a data structure and
// serialize it to JSON by using Go's JSON marshaler.
func (wrapper PolicyWrapper) CreatePolicy(ctx context.Context, policyName string, actions []string,
	resourceArn string) (*types.Policy, error) {
	var policy *types.Policy
	policyDoc := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:   "Allow",
			Action:   actions,
			Resource: aws.String(resourceArn),
		}},
	}
	policyBytes, err := json.Marshal(policyDoc)
	if err != nil {
		log.Printf("Couldn't create policy document for %v. Here's why: %v\n", resourceArn, err)
		return nil, err
	}
	result, err := wrapper.IamClient.CreatePolicy(ctx, &iam.CreatePolicyInput{
		PolicyDocument: aws.String(string(policyBytes)),
		PolicyName:     aws.String(policyName),
	})
	if err != nil {
		log.Printf("Couldn't create policy %v. Here's why: %v\n", policyName, err)
	} else {
		policy = result.Policy
	}
	return policy, err
}



// GetPolicy gets data about a policy.
func (wrapper PolicyWrapper) GetPolicy(ctx context.Context, policyArn string) (*types.Policy, error) {
	var policy *types.Policy
	result, err := wrapper.IamClient.GetPolicy(ctx, &iam.GetPolicyInput{
		PolicyArn: aws.String(policyArn),
	})
	if err != nil {
		log.Printf("Couldn't get policy %v. Here's why: %v\n", policyArn, err)
	} else {
		policy = result.Policy
	}
	return policy, err
}



// DeletePolicy deletes a policy.
func (wrapper PolicyWrapper) DeletePolicy(ctx context.Context, policyArn string) error {
	_, err := wrapper.IamClient.DeletePolicy(ctx, &iam.DeletePolicyInput{
		PolicyArn: aws.String(policyArn),
	})
	if err != nil {
		log.Printf("Couldn't delete policy %v. Here's why: %v\n", policyArn, err)
	}
	return err
}
```
Tentukan struct yang membungkus tindakan peran.  

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// ListRoles gets up to maxRoles roles.
func (wrapper RoleWrapper) ListRoles(ctx context.Context, maxRoles int32) ([]types.Role, error) {
	var roles []types.Role
	result, err := wrapper.IamClient.ListRoles(ctx,
		&iam.ListRolesInput{MaxItems: aws.Int32(maxRoles)},
	)
	if err != nil {
		log.Printf("Couldn't list roles. Here's why: %v\n", err)
	} else {
		roles = result.Roles
	}
	return roles, err
}



// CreateRole creates a role that trusts a specified user. The trusted user can assume
// the role to acquire its permissions.
// PolicyDocument shows how to work with a policy document as a data structure and
// serialize it to JSON by using Go's JSON marshaler.
func (wrapper RoleWrapper) CreateRole(ctx context.Context, roleName string, trustedUserArn string) (*types.Role, error) {
	var role *types.Role
	trustPolicy := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:    "Allow",
			Principal: map[string]string{"AWS": trustedUserArn},
			Action:    []string{"sts:AssumeRole"},
		}},
	}
	policyBytes, err := json.Marshal(trustPolicy)
	if err != nil {
		log.Printf("Couldn't create trust policy for %v. Here's why: %v\n", trustedUserArn, err)
		return nil, err
	}
	result, err := wrapper.IamClient.CreateRole(ctx, &iam.CreateRoleInput{
		AssumeRolePolicyDocument: aws.String(string(policyBytes)),
		RoleName:                 aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't create role %v. Here's why: %v\n", roleName, err)
	} else {
		role = result.Role
	}
	return role, err
}



// GetRole gets data about a role.
func (wrapper RoleWrapper) GetRole(ctx context.Context, roleName string) (*types.Role, error) {
	var role *types.Role
	result, err := wrapper.IamClient.GetRole(ctx,
		&iam.GetRoleInput{RoleName: aws.String(roleName)})
	if err != nil {
		log.Printf("Couldn't get role %v. Here's why: %v\n", roleName, err)
	} else {
		role = result.Role
	}
	return role, err
}



// CreateServiceLinkedRole creates a service-linked role that is owned by the specified service.
func (wrapper RoleWrapper) CreateServiceLinkedRole(ctx context.Context, serviceName string, description string) (
	*types.Role, error) {
	var role *types.Role
	result, err := wrapper.IamClient.CreateServiceLinkedRole(ctx, &iam.CreateServiceLinkedRoleInput{
		AWSServiceName: aws.String(serviceName),
		Description:    aws.String(description),
	})
	if err != nil {
		log.Printf("Couldn't create service-linked role %v. Here's why: %v\n", serviceName, err)
	} else {
		role = result.Role
	}
	return role, err
}



// DeleteServiceLinkedRole deletes a service-linked role.
func (wrapper RoleWrapper) DeleteServiceLinkedRole(ctx context.Context, roleName string) error {
	_, err := wrapper.IamClient.DeleteServiceLinkedRole(ctx, &iam.DeleteServiceLinkedRoleInput{
		RoleName: aws.String(roleName)},
	)
	if err != nil {
		log.Printf("Couldn't delete service-linked role %v. Here's why: %v\n", roleName, err)
	}
	return err
}



// AttachRolePolicy attaches a policy to a role.
func (wrapper RoleWrapper) AttachRolePolicy(ctx context.Context, policyArn string, roleName string) error {
	_, err := wrapper.IamClient.AttachRolePolicy(ctx, &iam.AttachRolePolicyInput{
		PolicyArn: aws.String(policyArn),
		RoleName:  aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't attach policy %v to role %v. Here's why: %v\n", policyArn, roleName, err)
	}
	return err
}



// ListAttachedRolePolicies lists the policies that are attached to the specified role.
func (wrapper RoleWrapper) ListAttachedRolePolicies(ctx context.Context, roleName string) ([]types.AttachedPolicy, error) {
	var policies []types.AttachedPolicy
	result, err := wrapper.IamClient.ListAttachedRolePolicies(ctx, &iam.ListAttachedRolePoliciesInput{
		RoleName: aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't list attached policies for role %v. Here's why: %v\n", roleName, err)
	} else {
		policies = result.AttachedPolicies
	}
	return policies, err
}



// DetachRolePolicy detaches a policy from a role.
func (wrapper RoleWrapper) DetachRolePolicy(ctx context.Context, roleName string, policyArn string) error {
	_, err := wrapper.IamClient.DetachRolePolicy(ctx, &iam.DetachRolePolicyInput{
		PolicyArn: aws.String(policyArn),
		RoleName:  aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't detach policy from role %v. Here's why: %v\n", roleName, err)
	}
	return err
}



// ListRolePolicies lists the inline policies for a role.
func (wrapper RoleWrapper) ListRolePolicies(ctx context.Context, roleName string) ([]string, error) {
	var policies []string
	result, err := wrapper.IamClient.ListRolePolicies(ctx, &iam.ListRolePoliciesInput{
		RoleName: aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't list policies for role %v. Here's why: %v\n", roleName, err)
	} else {
		policies = result.PolicyNames
	}
	return policies, err
}



// DeleteRole deletes a role. All attached policies must be detached before a
// role can be deleted.
func (wrapper RoleWrapper) DeleteRole(ctx context.Context, roleName string) error {
	_, err := wrapper.IamClient.DeleteRole(ctx, &iam.DeleteRoleInput{
		RoleName: aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't delete role %v. Here's why: %v\n", roleName, err)
	}
	return err
}
```
Tentukan struct yang membungkus tindakan pengguna.  

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// ListUsers gets up to maxUsers number of users.
func (wrapper UserWrapper) ListUsers(ctx context.Context, maxUsers int32) ([]types.User, error) {
	var users []types.User
	result, err := wrapper.IamClient.ListUsers(ctx, &iam.ListUsersInput{
		MaxItems: aws.Int32(maxUsers),
	})
	if err != nil {
		log.Printf("Couldn't list users. Here's why: %v\n", err)
	} else {
		users = result.Users
	}
	return users, err
}



// GetUser gets data about a user.
func (wrapper UserWrapper) GetUser(ctx context.Context, userName string) (*types.User, error) {
	var user *types.User
	result, err := wrapper.IamClient.GetUser(ctx, &iam.GetUserInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		var apiError smithy.APIError
		if errors.As(err, &apiError) {
			switch apiError.(type) {
			case *types.NoSuchEntityException:
				log.Printf("User %v does not exist.\n", userName)
				err = nil
			default:
				log.Printf("Couldn't get user %v. Here's why: %v\n", userName, err)
			}
		}
	} else {
		user = result.User
	}
	return user, err
}



// CreateUser creates a new user with the specified name.
func (wrapper UserWrapper) CreateUser(ctx context.Context, userName string) (*types.User, error) {
	var user *types.User
	result, err := wrapper.IamClient.CreateUser(ctx, &iam.CreateUserInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
	} else {
		user = result.User
	}
	return user, err
}



// CreateUserPolicy adds an inline policy to a user. This example creates a policy that
// grants a list of actions on a specified role.
// PolicyDocument shows how to work with a policy document as a data structure and
// serialize it to JSON by using Go's JSON marshaler.
func (wrapper UserWrapper) CreateUserPolicy(ctx context.Context, userName string, policyName string, actions []string,
	roleArn string) error {
	policyDoc := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:   "Allow",
			Action:   actions,
			Resource: aws.String(roleArn),
		}},
	}
	policyBytes, err := json.Marshal(policyDoc)
	if err != nil {
		log.Printf("Couldn't create policy document for %v. Here's why: %v\n", roleArn, err)
		return err
	}
	_, err = wrapper.IamClient.PutUserPolicy(ctx, &iam.PutUserPolicyInput{
		PolicyDocument: aws.String(string(policyBytes)),
		PolicyName:     aws.String(policyName),
		UserName:       aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't create policy for user %v. Here's why: %v\n", userName, err)
	}
	return err
}



// ListUserPolicies lists the inline policies for the specified user.
func (wrapper UserWrapper) ListUserPolicies(ctx context.Context, userName string) ([]string, error) {
	var policies []string
	result, err := wrapper.IamClient.ListUserPolicies(ctx, &iam.ListUserPoliciesInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't list policies for user %v. Here's why: %v\n", userName, err)
	} else {
		policies = result.PolicyNames
	}
	return policies, err
}



// DeleteUserPolicy deletes an inline policy from a user.
func (wrapper UserWrapper) DeleteUserPolicy(ctx context.Context, userName string, policyName string) error {
	_, err := wrapper.IamClient.DeleteUserPolicy(ctx, &iam.DeleteUserPolicyInput{
		PolicyName: aws.String(policyName),
		UserName:   aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't delete policy from user %v. Here's why: %v\n", userName, err)
	}
	return err
}



// DeleteUser deletes a user.
func (wrapper UserWrapper) DeleteUser(ctx context.Context, userName string) error {
	_, err := wrapper.IamClient.DeleteUser(ctx, &iam.DeleteUserInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't delete user %v. Here's why: %v\n", userName, err)
	}
	return err
}



// CreateAccessKeyPair creates an access key for a user. The returned access key contains
// the ID and secret credentials needed to use the key.
func (wrapper UserWrapper) CreateAccessKeyPair(ctx context.Context, userName string) (*types.AccessKey, error) {
	var key *types.AccessKey
	result, err := wrapper.IamClient.CreateAccessKey(ctx, &iam.CreateAccessKeyInput{
		UserName: aws.String(userName)})
	if err != nil {
		log.Printf("Couldn't create access key pair for user %v. Here's why: %v\n", userName, err)
	} else {
		key = result.AccessKey
	}
	return key, err
}



// DeleteAccessKey deletes an access key from a user.
func (wrapper UserWrapper) DeleteAccessKey(ctx context.Context, userName string, keyId string) error {
	_, err := wrapper.IamClient.DeleteAccessKey(ctx, &iam.DeleteAccessKeyInput{
		AccessKeyId: aws.String(keyId),
		UserName:    aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't delete access key %v. Here's why: %v\n", keyId, err)
	}
	return err
}



// ListAccessKeys lists the access keys for the specified user.
func (wrapper UserWrapper) ListAccessKeys(ctx context.Context, userName string) ([]types.AccessKeyMetadata, error) {
	var keys []types.AccessKeyMetadata
	result, err := wrapper.IamClient.ListAccessKeys(ctx, &iam.ListAccessKeysInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't list access keys for user %v. Here's why: %v\n", userName, err)
	} else {
		keys = result.AccessKeyMetadata
	}
	return keys, err
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [AttachRolePolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.AttachRolePolicy)
  + [CreateAccessKey](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreateAccessKey)
  + [CreatePolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreatePolicy)
  + [CreateRole](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreateRole)
  + [CreateUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreateUser)
  + [DeleteAccessKey](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteAccessKey)
  + [DeletePolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeletePolicy)
  + [DeleteRole](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteRole)
  + [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteUser)
  + [DeleteUserPolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteUserPolicy)
  + [DetachRolePolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DetachRolePolicy)
  + [PutUserPolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.PutUserPolicy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// AttachRolePolicy attaches a policy to a role.
func (wrapper RoleWrapper) AttachRolePolicy(ctx context.Context, policyArn string, roleName string) error {
	_, err := wrapper.IamClient.AttachRolePolicy(ctx, &iam.AttachRolePolicyInput{
		PolicyArn: aws.String(policyArn),
		RoleName:  aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't attach policy %v to role %v. Here's why: %v\n", policyArn, roleName, err)
	}
	return err
}
```
+  Untuk detail API, lihat [AttachRolePolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.AttachRolePolicy)di *Referensi AWS SDK untuk Go API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// CreateAccessKeyPair creates an access key for a user. The returned access key contains
// the ID and secret credentials needed to use the key.
func (wrapper UserWrapper) CreateAccessKeyPair(ctx context.Context, userName string) (*types.AccessKey, error) {
	var key *types.AccessKey
	result, err := wrapper.IamClient.CreateAccessKey(ctx, &iam.CreateAccessKeyInput{
		UserName: aws.String(userName)})
	if err != nil {
		log.Printf("Couldn't create access key pair for user %v. Here's why: %v\n", userName, err)
	} else {
		key = result.AccessKey
	}
	return key, err
}
```
+  Untuk detail API, lihat [CreateAccessKey](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreateAccessKey)di *Referensi AWS SDK untuk Go API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// PolicyWrapper encapsulates AWS Identity and Access Management (IAM) policy actions
// used in the examples.
// It contains an IAM service client that is used to perform policy actions.
type PolicyWrapper struct {
	IamClient *iam.Client
}



// PolicyDocument defines a policy document as a Go struct that can be serialized
// to JSON.
type PolicyDocument struct {
	Version   string
	Statement []PolicyStatement
}

// PolicyStatement defines a statement in a policy document.
type PolicyStatement struct {
	Effect    string
	Action    []string
	Principal map[string]string `json:",omitempty"`
	Resource  *string           `json:",omitempty"`
}

// CreatePolicy creates a policy that grants a list of actions to the specified resource.
// PolicyDocument shows how to work with a policy document as a data structure and
// serialize it to JSON by using Go's JSON marshaler.
func (wrapper PolicyWrapper) CreatePolicy(ctx context.Context, policyName string, actions []string,
	resourceArn string) (*types.Policy, error) {
	var policy *types.Policy
	policyDoc := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:   "Allow",
			Action:   actions,
			Resource: aws.String(resourceArn),
		}},
	}
	policyBytes, err := json.Marshal(policyDoc)
	if err != nil {
		log.Printf("Couldn't create policy document for %v. Here's why: %v\n", resourceArn, err)
		return nil, err
	}
	result, err := wrapper.IamClient.CreatePolicy(ctx, &iam.CreatePolicyInput{
		PolicyDocument: aws.String(string(policyBytes)),
		PolicyName:     aws.String(policyName),
	})
	if err != nil {
		log.Printf("Couldn't create policy %v. Here's why: %v\n", policyName, err)
	} else {
		policy = result.Policy
	}
	return policy, err
}
```
+  Untuk detail API, lihat [CreatePolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreatePolicy)di *Referensi AWS SDK untuk Go API*. 

### `CreateRole`
<a name="iam_CreateRole_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// CreateRole creates a role that trusts a specified user. The trusted user can assume
// the role to acquire its permissions.
// PolicyDocument shows how to work with a policy document as a data structure and
// serialize it to JSON by using Go's JSON marshaler.
func (wrapper RoleWrapper) CreateRole(ctx context.Context, roleName string, trustedUserArn string) (*types.Role, error) {
	var role *types.Role
	trustPolicy := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:    "Allow",
			Principal: map[string]string{"AWS": trustedUserArn},
			Action:    []string{"sts:AssumeRole"},
		}},
	}
	policyBytes, err := json.Marshal(trustPolicy)
	if err != nil {
		log.Printf("Couldn't create trust policy for %v. Here's why: %v\n", trustedUserArn, err)
		return nil, err
	}
	result, err := wrapper.IamClient.CreateRole(ctx, &iam.CreateRoleInput{
		AssumeRolePolicyDocument: aws.String(string(policyBytes)),
		RoleName:                 aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't create role %v. Here's why: %v\n", roleName, err)
	} else {
		role = result.Role
	}
	return role, err
}
```
+  Untuk detail API, lihat [CreateRole](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreateRole)di *Referensi AWS SDK untuk Go API*. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// CreateServiceLinkedRole creates a service-linked role that is owned by the specified service.
func (wrapper RoleWrapper) CreateServiceLinkedRole(ctx context.Context, serviceName string, description string) (
	*types.Role, error) {
	var role *types.Role
	result, err := wrapper.IamClient.CreateServiceLinkedRole(ctx, &iam.CreateServiceLinkedRoleInput{
		AWSServiceName: aws.String(serviceName),
		Description:    aws.String(description),
	})
	if err != nil {
		log.Printf("Couldn't create service-linked role %v. Here's why: %v\n", serviceName, err)
	} else {
		role = result.Role
	}
	return role, err
}
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreateServiceLinkedRole)di *Referensi AWS SDK untuk Go API*. 

### `CreateUser`
<a name="iam_CreateUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// CreateUser creates a new user with the specified name.
func (wrapper UserWrapper) CreateUser(ctx context.Context, userName string) (*types.User, error) {
	var user *types.User
	result, err := wrapper.IamClient.CreateUser(ctx, &iam.CreateUserInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
	} else {
		user = result.User
	}
	return user, err
}
```
+  Untuk detail API, lihat [CreateUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.CreateUser)di *Referensi AWS SDK untuk Go API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// DeleteAccessKey deletes an access key from a user.
func (wrapper UserWrapper) DeleteAccessKey(ctx context.Context, userName string, keyId string) error {
	_, err := wrapper.IamClient.DeleteAccessKey(ctx, &iam.DeleteAccessKeyInput{
		AccessKeyId: aws.String(keyId),
		UserName:    aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't delete access key %v. Here's why: %v\n", keyId, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteAccessKey](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteAccessKey)di *Referensi AWS SDK untuk Go API*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// PolicyWrapper encapsulates AWS Identity and Access Management (IAM) policy actions
// used in the examples.
// It contains an IAM service client that is used to perform policy actions.
type PolicyWrapper struct {
	IamClient *iam.Client
}



// DeletePolicy deletes a policy.
func (wrapper PolicyWrapper) DeletePolicy(ctx context.Context, policyArn string) error {
	_, err := wrapper.IamClient.DeletePolicy(ctx, &iam.DeletePolicyInput{
		PolicyArn: aws.String(policyArn),
	})
	if err != nil {
		log.Printf("Couldn't delete policy %v. Here's why: %v\n", policyArn, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeletePolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeletePolicy)di *Referensi AWS SDK untuk Go API*. 

### `DeleteRole`
<a name="iam_DeleteRole_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// DeleteRole deletes a role. All attached policies must be detached before a
// role can be deleted.
func (wrapper RoleWrapper) DeleteRole(ctx context.Context, roleName string) error {
	_, err := wrapper.IamClient.DeleteRole(ctx, &iam.DeleteRoleInput{
		RoleName: aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't delete role %v. Here's why: %v\n", roleName, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteRole](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteRole)di *Referensi AWS SDK untuk Go API*. 

### `DeleteServiceLinkedRole`
<a name="iam_DeleteServiceLinkedRole_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteServiceLinkedRole`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// DeleteServiceLinkedRole deletes a service-linked role.
func (wrapper RoleWrapper) DeleteServiceLinkedRole(ctx context.Context, roleName string) error {
	_, err := wrapper.IamClient.DeleteServiceLinkedRole(ctx, &iam.DeleteServiceLinkedRoleInput{
		RoleName: aws.String(roleName)},
	)
	if err != nil {
		log.Printf("Couldn't delete service-linked role %v. Here's why: %v\n", roleName, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteServiceLinkedRole](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteServiceLinkedRole)di *Referensi AWS SDK untuk Go API*. 

### `DeleteUser`
<a name="iam_DeleteUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// DeleteUser deletes a user.
func (wrapper UserWrapper) DeleteUser(ctx context.Context, userName string) error {
	_, err := wrapper.IamClient.DeleteUser(ctx, &iam.DeleteUserInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't delete user %v. Here's why: %v\n", userName, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteUser)di *Referensi AWS SDK untuk Go API*. 

### `DeleteUserPolicy`
<a name="iam_DeleteUserPolicy_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUserPolicy`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// DeleteUserPolicy deletes an inline policy from a user.
func (wrapper UserWrapper) DeleteUserPolicy(ctx context.Context, userName string, policyName string) error {
	_, err := wrapper.IamClient.DeleteUserPolicy(ctx, &iam.DeleteUserPolicyInput{
		PolicyName: aws.String(policyName),
		UserName:   aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't delete policy from user %v. Here's why: %v\n", userName, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteUserPolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DeleteUserPolicy)di *Referensi AWS SDK untuk Go API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// DetachRolePolicy detaches a policy from a role.
func (wrapper RoleWrapper) DetachRolePolicy(ctx context.Context, roleName string, policyArn string) error {
	_, err := wrapper.IamClient.DetachRolePolicy(ctx, &iam.DetachRolePolicyInput{
		PolicyArn: aws.String(policyArn),
		RoleName:  aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't detach policy from role %v. Here's why: %v\n", roleName, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DetachRolePolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.DetachRolePolicy)di *Referensi AWS SDK untuk Go API*. 

### `GetAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountPasswordPolicy`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// AccountWrapper encapsulates AWS Identity and Access Management (IAM) account actions
// used in the examples.
// It contains an IAM service client that is used to perform account actions.
type AccountWrapper struct {
	IamClient *iam.Client
}



// GetAccountPasswordPolicy gets the account password policy for the current account.
// If no policy has been set, a NoSuchEntityException is error is returned.
func (wrapper AccountWrapper) GetAccountPasswordPolicy(ctx context.Context) (*types.PasswordPolicy, error) {
	var pwPolicy *types.PasswordPolicy
	result, err := wrapper.IamClient.GetAccountPasswordPolicy(ctx,
		&iam.GetAccountPasswordPolicyInput{})
	if err != nil {
		log.Printf("Couldn't get account password policy. Here's why: %v\n", err)
	} else {
		pwPolicy = result.PasswordPolicy
	}
	return pwPolicy, err
}
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.GetAccountPasswordPolicy)di *Referensi AWS SDK untuk Go API*. 

### `GetPolicy`
<a name="iam_GetPolicy_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// PolicyWrapper encapsulates AWS Identity and Access Management (IAM) policy actions
// used in the examples.
// It contains an IAM service client that is used to perform policy actions.
type PolicyWrapper struct {
	IamClient *iam.Client
}



// GetPolicy gets data about a policy.
func (wrapper PolicyWrapper) GetPolicy(ctx context.Context, policyArn string) (*types.Policy, error) {
	var policy *types.Policy
	result, err := wrapper.IamClient.GetPolicy(ctx, &iam.GetPolicyInput{
		PolicyArn: aws.String(policyArn),
	})
	if err != nil {
		log.Printf("Couldn't get policy %v. Here's why: %v\n", policyArn, err)
	} else {
		policy = result.Policy
	}
	return policy, err
}
```
+  Untuk detail API, lihat [GetPolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.GetPolicy)di *Referensi AWS SDK untuk Go API*. 

### `GetRole`
<a name="iam_GetRole_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// GetRole gets data about a role.
func (wrapper RoleWrapper) GetRole(ctx context.Context, roleName string) (*types.Role, error) {
	var role *types.Role
	result, err := wrapper.IamClient.GetRole(ctx,
		&iam.GetRoleInput{RoleName: aws.String(roleName)})
	if err != nil {
		log.Printf("Couldn't get role %v. Here's why: %v\n", roleName, err)
	} else {
		role = result.Role
	}
	return role, err
}
```
+  Untuk detail API, lihat [GetRole](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.GetRole)di *Referensi AWS SDK untuk Go API*. 

### `GetUser`
<a name="iam_GetUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetUser`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// GetUser gets data about a user.
func (wrapper UserWrapper) GetUser(ctx context.Context, userName string) (*types.User, error) {
	var user *types.User
	result, err := wrapper.IamClient.GetUser(ctx, &iam.GetUserInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		var apiError smithy.APIError
		if errors.As(err, &apiError) {
			switch apiError.(type) {
			case *types.NoSuchEntityException:
				log.Printf("User %v does not exist.\n", userName)
				err = nil
			default:
				log.Printf("Couldn't get user %v. Here's why: %v\n", userName, err)
			}
		}
	} else {
		user = result.User
	}
	return user, err
}
```
+  Untuk detail API, lihat [GetUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.GetUser)di *Referensi AWS SDK untuk Go API*. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// ListAccessKeys lists the access keys for the specified user.
func (wrapper UserWrapper) ListAccessKeys(ctx context.Context, userName string) ([]types.AccessKeyMetadata, error) {
	var keys []types.AccessKeyMetadata
	result, err := wrapper.IamClient.ListAccessKeys(ctx, &iam.ListAccessKeysInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't list access keys for user %v. Here's why: %v\n", userName, err)
	} else {
		keys = result.AccessKeyMetadata
	}
	return keys, err
}
```
+  Untuk detail API, lihat [ListAccessKeys](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListAccessKeys)di *Referensi AWS SDK untuk Go API*. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// ListAttachedRolePolicies lists the policies that are attached to the specified role.
func (wrapper RoleWrapper) ListAttachedRolePolicies(ctx context.Context, roleName string) ([]types.AttachedPolicy, error) {
	var policies []types.AttachedPolicy
	result, err := wrapper.IamClient.ListAttachedRolePolicies(ctx, &iam.ListAttachedRolePoliciesInput{
		RoleName: aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't list attached policies for role %v. Here's why: %v\n", roleName, err)
	} else {
		policies = result.AttachedPolicies
	}
	return policies, err
}
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListAttachedRolePolicies)di *Referensi AWS SDK untuk Go API*. 

### `ListGroups`
<a name="iam_ListGroups_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// GroupWrapper encapsulates AWS Identity and Access Management (IAM) group actions
// used in the examples.
// It contains an IAM service client that is used to perform group actions.
type GroupWrapper struct {
	IamClient *iam.Client
}



// ListGroups lists up to maxGroups number of groups.
func (wrapper GroupWrapper) ListGroups(ctx context.Context, maxGroups int32) ([]types.Group, error) {
	var groups []types.Group
	result, err := wrapper.IamClient.ListGroups(ctx, &iam.ListGroupsInput{
		MaxItems: aws.Int32(maxGroups),
	})
	if err != nil {
		log.Printf("Couldn't list groups. Here's why: %v\n", err)
	} else {
		groups = result.Groups
	}
	return groups, err
}
```
+  Untuk detail API, lihat [ListGroups](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListGroups)di *Referensi AWS SDK untuk Go API*. 

### `ListPolicies`
<a name="iam_ListPolicies_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// PolicyWrapper encapsulates AWS Identity and Access Management (IAM) policy actions
// used in the examples.
// It contains an IAM service client that is used to perform policy actions.
type PolicyWrapper struct {
	IamClient *iam.Client
}



// ListPolicies gets up to maxPolicies policies.
func (wrapper PolicyWrapper) ListPolicies(ctx context.Context, maxPolicies int32) ([]types.Policy, error) {
	var policies []types.Policy
	result, err := wrapper.IamClient.ListPolicies(ctx, &iam.ListPoliciesInput{
		MaxItems: aws.Int32(maxPolicies),
	})
	if err != nil {
		log.Printf("Couldn't list policies. Here's why: %v\n", err)
	} else {
		policies = result.Policies
	}
	return policies, err
}
```
+  Untuk detail API, lihat [ListPolicies](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListPolicies)di *Referensi AWS SDK untuk Go API*. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// ListRolePolicies lists the inline policies for a role.
func (wrapper RoleWrapper) ListRolePolicies(ctx context.Context, roleName string) ([]string, error) {
	var policies []string
	result, err := wrapper.IamClient.ListRolePolicies(ctx, &iam.ListRolePoliciesInput{
		RoleName: aws.String(roleName),
	})
	if err != nil {
		log.Printf("Couldn't list policies for role %v. Here's why: %v\n", roleName, err)
	} else {
		policies = result.PolicyNames
	}
	return policies, err
}
```
+  Untuk detail API, lihat [ListRolePolicies](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListRolePolicies)di *Referensi AWS SDK untuk Go API*. 

### `ListRoles`
<a name="iam_ListRoles_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// RoleWrapper encapsulates AWS Identity and Access Management (IAM) role actions
// used in the examples.
// It contains an IAM service client that is used to perform role actions.
type RoleWrapper struct {
	IamClient *iam.Client
}



// ListRoles gets up to maxRoles roles.
func (wrapper RoleWrapper) ListRoles(ctx context.Context, maxRoles int32) ([]types.Role, error) {
	var roles []types.Role
	result, err := wrapper.IamClient.ListRoles(ctx,
		&iam.ListRolesInput{MaxItems: aws.Int32(maxRoles)},
	)
	if err != nil {
		log.Printf("Couldn't list roles. Here's why: %v\n", err)
	} else {
		roles = result.Roles
	}
	return roles, err
}
```
+  Untuk detail API, lihat [ListRoles](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListRoles)di *Referensi AWS SDK untuk Go API*. 

### `ListSAMLProviders`
<a name="iam_ListSAMLProviders_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSAMLProviders`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
)

// AccountWrapper encapsulates AWS Identity and Access Management (IAM) account actions
// used in the examples.
// It contains an IAM service client that is used to perform account actions.
type AccountWrapper struct {
	IamClient *iam.Client
}



// ListSAMLProviders gets the SAML providers for the account.
func (wrapper AccountWrapper) ListSAMLProviders(ctx context.Context) ([]types.SAMLProviderListEntry, error) {
	var providers []types.SAMLProviderListEntry
	result, err := wrapper.IamClient.ListSAMLProviders(ctx, &iam.ListSAMLProvidersInput{})
	if err != nil {
		log.Printf("Couldn't list SAML providers. Here's why: %v\n", err)
	} else {
		providers = result.SAMLProviderList
	}
	return providers, err
}
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListSAMLProviders) di *Referensi AWS SDK untuk Go API*. 

### `ListUserPolicies`
<a name="iam_ListUserPolicies_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUserPolicies`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// ListUserPolicies lists the inline policies for the specified user.
func (wrapper UserWrapper) ListUserPolicies(ctx context.Context, userName string) ([]string, error) {
	var policies []string
	result, err := wrapper.IamClient.ListUserPolicies(ctx, &iam.ListUserPoliciesInput{
		UserName: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't list policies for user %v. Here's why: %v\n", userName, err)
	} else {
		policies = result.PolicyNames
	}
	return policies, err
}
```
+  Untuk detail API, lihat [ListUserPolicies](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListUserPolicies)di *Referensi AWS SDK untuk Go API*. 

### `ListUsers`
<a name="iam_ListUsers_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// ListUsers gets up to maxUsers number of users.
func (wrapper UserWrapper) ListUsers(ctx context.Context, maxUsers int32) ([]types.User, error) {
	var users []types.User
	result, err := wrapper.IamClient.ListUsers(ctx, &iam.ListUsersInput{
		MaxItems: aws.Int32(maxUsers),
	})
	if err != nil {
		log.Printf("Couldn't list users. Here's why: %v\n", err)
	} else {
		users = result.Users
	}
	return users, err
}
```
+  Untuk detail API, lihat [ListUsers](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.ListUsers)di *Referensi AWS SDK untuk Go API*. 

### `PutUserPolicy`
<a name="iam_PutUserPolicy_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutUserPolicy`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/iam#code-examples). 

```
import (
	"context"
	"encoding/json"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	"github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/smithy-go"
)

// UserWrapper encapsulates user actions used in the examples.
// It contains an IAM service client that is used to perform user actions.
type UserWrapper struct {
	IamClient *iam.Client
}



// CreateUserPolicy adds an inline policy to a user. This example creates a policy that
// grants a list of actions on a specified role.
// PolicyDocument shows how to work with a policy document as a data structure and
// serialize it to JSON by using Go's JSON marshaler.
func (wrapper UserWrapper) CreateUserPolicy(ctx context.Context, userName string, policyName string, actions []string,
	roleArn string) error {
	policyDoc := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:   "Allow",
			Action:   actions,
			Resource: aws.String(roleArn),
		}},
	}
	policyBytes, err := json.Marshal(policyDoc)
	if err != nil {
		log.Printf("Couldn't create policy document for %v. Here's why: %v\n", roleArn, err)
		return err
	}
	_, err = wrapper.IamClient.PutUserPolicy(ctx, &iam.PutUserPolicyInput{
		PolicyDocument: aws.String(string(policyBytes)),
		PolicyName:     aws.String(policyName),
		UserName:       aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't create policy for user %v. Here's why: %v\n", userName, err)
	}
	return err
}
```
+  Untuk detail API, lihat [PutUserPolicy](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/iam#Client.PutUserPolicy)di *Referensi AWS SDK untuk Go API*. 

# Contoh Kinesis menggunakan SDK for Go V2
<a name="go_2_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Kinesis.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"log"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(ctx context.Context, kinesisEvent events.KinesisEvent) error {
	if len(kinesisEvent.Records) == 0 {
		log.Printf("empty Kinesis event received")
		return nil
	}

	for _, record := range kinesisEvent.Records {
		log.Printf("processed Kinesis event with EventId: %v", record.EventID)
		recordDataBytes := record.Kinesis.Data
		recordDataText := string(recordDataBytes)
		log.Printf("record data: %v", recordDataText)
		// TODO: Do interesting work based on the new data
	}
	log.Printf("successfully processed %v records", len(kinesisEvent.Records))
	return nil
}

func main() {
	lambda.Start(handler)
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"fmt"
	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(ctx context.Context, kinesisEvent events.KinesisEvent) (map[string]interface{}, error) {
	batchItemFailures := []map[string]interface{}{}

	for _, record := range kinesisEvent.Records {
		curRecordSequenceNumber := ""

		// Process your record
		if /* Your record processing condition here */ {
			curRecordSequenceNumber = record.Kinesis.SequenceNumber
		}

		// Add a condition to check if the record processing failed
		if curRecordSequenceNumber != "" {
			batchItemFailures = append(batchItemFailures, map[string]interface{}{"itemIdentifier": curRecordSequenceNumber})
		}
	}

	kinesisBatchResponse := map[string]interface{}{
		"batchItemFailures": batchItemFailures,
	}
	return kinesisBatchResponse, nil
}

func main() {
	lambda.Start(handler)
}
```

# Contoh Lambda menggunakan SDK for Go V2
<a name="go_2_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Lambda.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Memulai
<a name="get_started"></a>

### Halo Lambda
<a name="lambda_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Lambda.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 

```
package main

import (
	"context"
	"fmt"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
)

// main uses the AWS SDK for Go (v2) to create an AWS Lambda client and list up to 10
// functions in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	lambdaClient := lambda.NewFromConfig(sdkConfig)

	maxItems := 10
	fmt.Printf("Let's list up to %v functions for your account.\n", maxItems)
	result, err := lambdaClient.ListFunctions(ctx, &lambda.ListFunctionsInput{
		MaxItems: aws.Int32(int32(maxItems)),
	})
	if err != nil {
		fmt.Printf("Couldn't list functions for your account. Here's why: %v\n", err)
		return
	}
	if len(result.Functions) == 0 {
		fmt.Println("You don't have any functions!")
	} else {
		for _, function := range result.Functions {
			fmt.Printf("\t%v\n", *function.FunctionName)
		}
	}
}
```
+  Untuk detail API, lihat [ListFunctions](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.ListFunctions)di *Referensi AWS SDK untuk Go API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 
Buat skenario interaktif yang menunjukkan cara memulai fungsi Lambda.  

```
import (
	"archive/zip"
	"bytes"
	"context"
	"encoding/base64"
	"encoding/json"
	"errors"
	"fmt"
	"log"
	"os"
	"strings"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/iam"
	iamtypes "github.com/aws/aws-sdk-go-v2/service/iam/types"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/lambda/actions"
)

// GetStartedFunctionsScenario shows you how to use AWS Lambda to perform the following
// actions:
//
//  1. Create an AWS Identity and Access Management (IAM) role and Lambda function, then upload handler code.
//  2. Invoke the function with a single parameter and get results.
//  3. Update the function code and configure with an environment variable.
//  4. Invoke the function with new parameters and get results. Display the returned execution log.
//  5. List the functions for your account, then clean up resources.
type GetStartedFunctionsScenario struct {
	sdkConfig       aws.Config
	functionWrapper actions.FunctionWrapper
	questioner      demotools.IQuestioner
	helper          IScenarioHelper
	isTestRun       bool
}

// NewGetStartedFunctionsScenario constructs a GetStartedFunctionsScenario instance from a configuration.
// It uses the specified config to get a Lambda client and create wrappers for the actions
// used in the scenario.
func NewGetStartedFunctionsScenario(sdkConfig aws.Config, questioner demotools.IQuestioner,
	helper IScenarioHelper) GetStartedFunctionsScenario {
	lambdaClient := lambda.NewFromConfig(sdkConfig)
	return GetStartedFunctionsScenario{
		sdkConfig:       sdkConfig,
		functionWrapper: actions.FunctionWrapper{LambdaClient: lambdaClient},
		questioner:      questioner,
		helper:          helper,
	}
}

// Run runs the interactive scenario.
func (scenario GetStartedFunctionsScenario) Run(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong with the demo.\n")
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the AWS Lambda get started with functions demo.")
	log.Println(strings.Repeat("-", 88))

	role := scenario.GetOrCreateRole(ctx)
	funcName := scenario.CreateFunction(ctx, role)
	scenario.InvokeIncrement(ctx, funcName)
	scenario.UpdateFunction(ctx, funcName)
	scenario.InvokeCalculator(ctx, funcName)
	scenario.ListFunctions(ctx)
	scenario.Cleanup(ctx, role, funcName)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}

// GetOrCreateRole checks whether the specified role exists and returns it if it does.
// Otherwise, a role is created that specifies Lambda as a trusted principal.
// The AWSLambdaBasicExecutionRole managed policy is attached to the role and the role
// is returned.
func (scenario GetStartedFunctionsScenario) GetOrCreateRole(ctx context.Context) *iamtypes.Role {
	var role *iamtypes.Role
	iamClient := iam.NewFromConfig(scenario.sdkConfig)
	log.Println("First, we need an IAM role that Lambda can assume.")
	roleName := scenario.questioner.Ask("Enter a name for the role:", demotools.NotEmpty{})
	getOutput, err := iamClient.GetRole(ctx, &iam.GetRoleInput{
		RoleName: aws.String(roleName)})
	if err != nil {
		var noSuch *iamtypes.NoSuchEntityException
		if errors.As(err, &noSuch) {
			log.Printf("Role %v doesn't exist. Creating it....\n", roleName)
		} else {
			log.Panicf("Couldn't check whether role %v exists. Here's why: %v\n",
				roleName, err)
		}
	} else {
		role = getOutput.Role
		log.Printf("Found role %v.\n", *role.RoleName)
	}
	if role == nil {
		trustPolicy := PolicyDocument{
			Version: "2012-10-17",
			Statement: []PolicyStatement{{
				Effect:    "Allow",
				Principal: map[string]string{"Service": "lambda.amazonaws.com"},
				Action:    []string{"sts:AssumeRole"},
			}},
		}
		policyArn := "arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole"
		createOutput, err := iamClient.CreateRole(ctx, &iam.CreateRoleInput{
			AssumeRolePolicyDocument: aws.String(trustPolicy.String()),
			RoleName:                 aws.String(roleName),
		})
		if err != nil {
			log.Panicf("Couldn't create role %v. Here's why: %v\n", roleName, err)
		}
		role = createOutput.Role
		_, err = iamClient.AttachRolePolicy(ctx, &iam.AttachRolePolicyInput{
			PolicyArn: aws.String(policyArn),
			RoleName:  aws.String(roleName),
		})
		if err != nil {
			log.Panicf("Couldn't attach a policy to role %v. Here's why: %v\n", roleName, err)
		}
		log.Printf("Created role %v.\n", *role.RoleName)
		log.Println("Let's give AWS a few seconds to propagate resources...")
		scenario.helper.Pause(10)
	}
	log.Println(strings.Repeat("-", 88))
	return role
}

// CreateFunction creates a Lambda function and uploads a handler written in Python.
// The code for the Python handler is packaged as a []byte in .zip format.
func (scenario GetStartedFunctionsScenario) CreateFunction(ctx context.Context, role *iamtypes.Role) string {
	log.Println("Let's create a function that increments a number.\n" +
		"The function uses the 'lambda_handler_basic.py' script found in the \n" +
		"'handlers' directory of this project.")
	funcName := scenario.questioner.Ask("Enter a name for the Lambda function:", demotools.NotEmpty{})
	zipPackage := scenario.helper.CreateDeploymentPackage("lambda_handler_basic.py", fmt.Sprintf("%v.py", funcName))
	log.Printf("Creating function %v and waiting for it to be ready.", funcName)
	funcState := scenario.functionWrapper.CreateFunction(ctx, funcName, fmt.Sprintf("%v.lambda_handler", funcName),
		role.Arn, zipPackage)
	log.Printf("Your function is %v.", funcState)
	log.Println(strings.Repeat("-", 88))
	return funcName
}

// InvokeIncrement invokes a Lambda function that increments a number. The function
// parameters are contained in a Go struct that is used to serialize the parameters to
// a JSON payload that is passed to the function.
// The result payload is deserialized into a Go struct that contains an int value.
func (scenario GetStartedFunctionsScenario) InvokeIncrement(ctx context.Context, funcName string) {
	parameters := actions.IncrementParameters{Action: "increment"}
	log.Println("Let's invoke our function. This function increments a number.")
	parameters.Number = scenario.questioner.AskInt("Enter a number to increment:", demotools.NotEmpty{})
	log.Printf("Invoking %v with %v...\n", funcName, parameters.Number)
	invokeOutput := scenario.functionWrapper.Invoke(ctx, funcName, parameters, false)
	var payload actions.LambdaResultInt
	err := json.Unmarshal(invokeOutput.Payload, &payload)
	if err != nil {
		log.Panicf("Couldn't unmarshal payload from invoking %v. Here's why: %v\n",
			funcName, err)
	}
	log.Printf("Invoking %v with %v returned %v.\n", funcName, parameters.Number, payload)
	log.Println(strings.Repeat("-", 88))
}

// UpdateFunction updates the code for a Lambda function by uploading a simple arithmetic
// calculator written in Python. The code for the Python handler is packaged as a
// []byte in .zip format.
// After the code is updated, the configuration is also updated with a new log
// level that instructs the handler to log additional information.
func (scenario GetStartedFunctionsScenario) UpdateFunction(ctx context.Context, funcName string) {
	log.Println("Let's update the function to an arithmetic calculator.\n" +
		"The function uses the 'lambda_handler_calculator.py' script found in the \n" +
		"'handlers' directory of this project.")
	scenario.questioner.Ask("Press Enter when you're ready.")
	log.Println("Creating deployment package...")
	zipPackage := scenario.helper.CreateDeploymentPackage("lambda_handler_calculator.py",
		fmt.Sprintf("%v.py", funcName))
	log.Println("...and updating the Lambda function and waiting for it to be ready.")
	funcState := scenario.functionWrapper.UpdateFunctionCode(ctx, funcName, zipPackage)
	log.Printf("Updated function %v. Its current state is %v.", funcName, funcState)
	log.Println("This function uses an environment variable to control logging level.")
	log.Println("Let's set it to DEBUG to get the most logging.")
	scenario.functionWrapper.UpdateFunctionConfiguration(ctx, funcName,
		map[string]string{"LOG_LEVEL": "DEBUG"})
	log.Println(strings.Repeat("-", 88))
}

// InvokeCalculator invokes the Lambda calculator function. The parameters are stored in a
// Go struct that is used to serialize the parameters to a JSON payload. That payload is then passed
// to the function.
// The result payload is deserialized to a Go struct that stores the result as either an
// int or float32, depending on the kind of operation that was specified.
func (scenario GetStartedFunctionsScenario) InvokeCalculator(ctx context.Context, funcName string) {
	wantInvoke := true
	choices := []string{"plus", "minus", "times", "divided-by"}
	for wantInvoke {
		choice := scenario.questioner.AskChoice("Select an arithmetic operation:\n", choices)
		x := scenario.questioner.AskInt("Enter a value for x:", demotools.NotEmpty{})
		y := scenario.questioner.AskInt("Enter a value for y:", demotools.NotEmpty{})
		log.Printf("Invoking %v %v %v...", x, choices[choice], y)
		calcParameters := actions.CalculatorParameters{
			Action: choices[choice],
			X:      x,
			Y:      y,
		}
		invokeOutput := scenario.functionWrapper.Invoke(ctx, funcName, calcParameters, true)
		var payload any
		if choice == 3 { // divide-by results in a float.
			payload = actions.LambdaResultFloat{}
		} else {
			payload = actions.LambdaResultInt{}
		}
		err := json.Unmarshal(invokeOutput.Payload, &payload)
		if err != nil {
			log.Panicf("Couldn't unmarshal payload from invoking %v. Here's why: %v\n",
				funcName, err)
		}
		log.Printf("Invoking %v with %v %v %v returned %v.\n", funcName,
			calcParameters.X, calcParameters.Action, calcParameters.Y, payload)
		scenario.questioner.Ask("Press Enter to see the logs from the call.")
		logRes, err := base64.StdEncoding.DecodeString(*invokeOutput.LogResult)
		if err != nil {
			log.Panicf("Couldn't decode log result. Here's why: %v\n", err)
		}
		log.Println(string(logRes))
		wantInvoke = scenario.questioner.AskBool("Do you want to calculate again? (y/n)", "y")
	}
	log.Println(strings.Repeat("-", 88))
}

// ListFunctions lists up to the specified number of functions for your account.
func (scenario GetStartedFunctionsScenario) ListFunctions(ctx context.Context) {
	count := scenario.questioner.AskInt(
		"Let's list functions for your account. How many do you want to see?", demotools.NotEmpty{})
	functions := scenario.functionWrapper.ListFunctions(ctx, count)
	log.Printf("Found %v functions:", len(functions))
	for _, function := range functions {
		log.Printf("\t%v", *function.FunctionName)
	}
	log.Println(strings.Repeat("-", 88))
}

// Cleanup removes the IAM and Lambda resources created by the example.
func (scenario GetStartedFunctionsScenario) Cleanup(ctx context.Context, role *iamtypes.Role, funcName string) {
	if scenario.questioner.AskBool("Do you want to clean up resources created for this example? (y/n)",
		"y") {
		iamClient := iam.NewFromConfig(scenario.sdkConfig)
		policiesOutput, err := iamClient.ListAttachedRolePolicies(ctx,
			&iam.ListAttachedRolePoliciesInput{RoleName: role.RoleName})
		if err != nil {
			log.Panicf("Couldn't get policies attached to role %v. Here's why: %v\n",
				*role.RoleName, err)
		}
		for _, policy := range policiesOutput.AttachedPolicies {
			_, err = iamClient.DetachRolePolicy(ctx, &iam.DetachRolePolicyInput{
				PolicyArn: policy.PolicyArn, RoleName: role.RoleName,
			})
			if err != nil {
				log.Panicf("Couldn't detach policy %v from role %v. Here's why: %v\n",
					*policy.PolicyArn, *role.RoleName, err)
			}
		}
		_, err = iamClient.DeleteRole(ctx, &iam.DeleteRoleInput{RoleName: role.RoleName})
		if err != nil {
			log.Panicf("Couldn't delete role %v. Here's why: %v\n", *role.RoleName, err)
		}
		log.Printf("Deleted role %v.\n", *role.RoleName)

		scenario.functionWrapper.DeleteFunction(ctx, funcName)
		log.Printf("Deleted function %v.\n", funcName)
	} else {
		log.Println("Okay. Don't forget to delete the resources when you're done with them.")
	}
}

// IScenarioHelper abstracts I/O and wait functions from a scenario so that they
// can be mocked for unit testing.
type IScenarioHelper interface {
	Pause(secs int)
	CreateDeploymentPackage(sourceFile string, destinationFile string) *bytes.Buffer
}

// ScenarioHelper lets the caller specify the path to Lambda handler functions.
type ScenarioHelper struct {
	HandlerPath string
}

// Pause waits for the specified number of seconds.
func (helper *ScenarioHelper) Pause(secs int) {
	time.Sleep(time.Duration(secs) * time.Second)
}

// CreateDeploymentPackage creates an AWS Lambda deployment package from a source file. The
// deployment package is stored in .zip format in a bytes.Buffer. The buffer can be
// used to pass a []byte to Lambda when creating the function.
// The specified destinationFile is the name to give the file when it's deployed to Lambda.
func (helper *ScenarioHelper) CreateDeploymentPackage(sourceFile string, destinationFile string) *bytes.Buffer {
	var err error
	buffer := &bytes.Buffer{}
	writer := zip.NewWriter(buffer)
	zFile, err := writer.Create(destinationFile)
	if err != nil {
		log.Panicf("Couldn't create destination archive %v. Here's why: %v\n", destinationFile, err)
	}
	sourceBody, err := os.ReadFile(fmt.Sprintf("%v/%v", helper.HandlerPath, sourceFile))
	if err != nil {
		log.Panicf("Couldn't read handler source file %v. Here's why: %v\n",
			sourceFile, err)
	} else {
		_, err = zFile.Write(sourceBody)
		if err != nil {
			log.Panicf("Couldn't write handler %v to zip archive. Here's why: %v\n",
				sourceFile, err)
		}
	}
	err = writer.Close()
	if err != nil {
		log.Panicf("Couldn't close zip writer. Here's why: %v\n", err)
	}
	return buffer
}
```
Buat struct yang membungkus tindakan Lambda individual.  

```
import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/aws/aws-sdk-go-v2/service/lambda/types"
)

// FunctionWrapper encapsulates function actions used in the examples.
// It contains an AWS Lambda service client that is used to perform user actions.
type FunctionWrapper struct {
	LambdaClient *lambda.Client
}


// GetFunction gets data about the Lambda function specified by functionName.
func (wrapper FunctionWrapper) GetFunction(ctx context.Context, functionName string) types.State {
	var state types.State
	funcOutput, err := wrapper.LambdaClient.GetFunction(ctx, &lambda.GetFunctionInput{
		FunctionName: aws.String(functionName),
	})
	if err != nil {
		log.Panicf("Couldn't get function %v. Here's why: %v\n", functionName, err)
	} else {
		state = funcOutput.Configuration.State
	}
	return state
}



// CreateFunction creates a new Lambda function from code contained in the zipPackage
// buffer. The specified handlerName must match the name of the file and function
// contained in the uploaded code. The role specified by iamRoleArn is assumed by
// Lambda and grants specific permissions.
// When the function already exists, types.StateActive is returned.
// When the function is created, a lambda.FunctionActiveV2Waiter is used to wait until the
// function is active.
func (wrapper FunctionWrapper) CreateFunction(ctx context.Context, functionName string, handlerName string,
	iamRoleArn *string, zipPackage *bytes.Buffer) types.State {
	var state types.State
	_, err := wrapper.LambdaClient.CreateFunction(ctx, &lambda.CreateFunctionInput{
		Code:         &types.FunctionCode{ZipFile: zipPackage.Bytes()},
		FunctionName: aws.String(functionName),
		Role:         iamRoleArn,
		Handler:      aws.String(handlerName),
		Publish:      true,
		Runtime:      types.RuntimePython39,
	})
	if err != nil {
		var resConflict *types.ResourceConflictException
		if errors.As(err, &resConflict) {
			log.Printf("Function %v already exists.\n", functionName)
			state = types.StateActive
		} else {
			log.Panicf("Couldn't create function %v. Here's why: %v\n", functionName, err)
		}
	} else {
		waiter := lambda.NewFunctionActiveV2Waiter(wrapper.LambdaClient)
		funcOutput, err := waiter.WaitForOutput(ctx, &lambda.GetFunctionInput{
			FunctionName: aws.String(functionName)}, 1*time.Minute)
		if err != nil {
			log.Panicf("Couldn't wait for function %v to be active. Here's why: %v\n", functionName, err)
		} else {
			state = funcOutput.Configuration.State
		}
	}
	return state
}



// UpdateFunctionCode updates the code for the Lambda function specified by functionName.
// The existing code for the Lambda function is entirely replaced by the code in the
// zipPackage buffer. After the update action is called, a lambda.FunctionUpdatedV2Waiter
// is used to wait until the update is successful.
func (wrapper FunctionWrapper) UpdateFunctionCode(ctx context.Context, functionName string, zipPackage *bytes.Buffer) types.State {
	var state types.State
	_, err := wrapper.LambdaClient.UpdateFunctionCode(ctx, &lambda.UpdateFunctionCodeInput{
		FunctionName: aws.String(functionName), ZipFile: zipPackage.Bytes(),
	})
	if err != nil {
		log.Panicf("Couldn't update code for function %v. Here's why: %v\n", functionName, err)
	} else {
		waiter := lambda.NewFunctionUpdatedV2Waiter(wrapper.LambdaClient)
		funcOutput, err := waiter.WaitForOutput(ctx, &lambda.GetFunctionInput{
			FunctionName: aws.String(functionName)}, 1*time.Minute)
		if err != nil {
			log.Panicf("Couldn't wait for function %v to be active. Here's why: %v\n", functionName, err)
		} else {
			state = funcOutput.Configuration.State
		}
	}
	return state
}



// UpdateFunctionConfiguration updates a map of environment variables configured for
// the Lambda function specified by functionName.
func (wrapper FunctionWrapper) UpdateFunctionConfiguration(ctx context.Context, functionName string, envVars map[string]string) {
	_, err := wrapper.LambdaClient.UpdateFunctionConfiguration(ctx, &lambda.UpdateFunctionConfigurationInput{
		FunctionName: aws.String(functionName),
		Environment:  &types.Environment{Variables: envVars},
	})
	if err != nil {
		log.Panicf("Couldn't update configuration for %v. Here's why: %v", functionName, err)
	}
}



// ListFunctions lists up to maxItems functions for the account. This function uses a
// lambda.ListFunctionsPaginator to paginate the results.
func (wrapper FunctionWrapper) ListFunctions(ctx context.Context, maxItems int) []types.FunctionConfiguration {
	var functions []types.FunctionConfiguration
	paginator := lambda.NewListFunctionsPaginator(wrapper.LambdaClient, &lambda.ListFunctionsInput{
		MaxItems: aws.Int32(int32(maxItems)),
	})
	for paginator.HasMorePages() && len(functions) < maxItems {
		pageOutput, err := paginator.NextPage(ctx)
		if err != nil {
			log.Panicf("Couldn't list functions for your account. Here's why: %v\n", err)
		}
		functions = append(functions, pageOutput.Functions...)
	}
	return functions
}



// DeleteFunction deletes the Lambda function specified by functionName.
func (wrapper FunctionWrapper) DeleteFunction(ctx context.Context, functionName string) {
	_, err := wrapper.LambdaClient.DeleteFunction(ctx, &lambda.DeleteFunctionInput{
		FunctionName: aws.String(functionName),
	})
	if err != nil {
		log.Panicf("Couldn't delete function %v. Here's why: %v\n", functionName, err)
	}
}



// Invoke invokes the Lambda function specified by functionName, passing the parameters
// as a JSON payload. When getLog is true, types.LogTypeTail is specified, which tells
// Lambda to include the last few log lines in the returned result.
func (wrapper FunctionWrapper) Invoke(ctx context.Context, functionName string, parameters any, getLog bool) *lambda.InvokeOutput {
	logType := types.LogTypeNone
	if getLog {
		logType = types.LogTypeTail
	}
	payload, err := json.Marshal(parameters)
	if err != nil {
		log.Panicf("Couldn't marshal parameters to JSON. Here's why %v\n", err)
	}
	invokeOutput, err := wrapper.LambdaClient.Invoke(ctx, &lambda.InvokeInput{
		FunctionName: aws.String(functionName),
		LogType:      logType,
		Payload:      payload,
	})
	if err != nil {
		log.Panicf("Couldn't invoke function %v. Here's why: %v\n", functionName, err)
	}
	return invokeOutput
}



// IncrementParameters is used to serialize parameters to the increment Lambda handler.
type IncrementParameters struct {
	Action string `json:"action"`
	Number int    `json:"number"`
}

// CalculatorParameters is used to serialize parameters to the calculator Lambda handler.
type CalculatorParameters struct {
	Action string `json:"action"`
	X      int    `json:"x"`
	Y      int    `json:"y"`
}

// LambdaResultInt is used to deserialize an int result from a Lambda handler.
type LambdaResultInt struct {
	Result int `json:"result"`
}

// LambdaResultFloat is used to deserialize a float32 result from a Lambda handler.
type LambdaResultFloat struct {
	Result float32 `json:"result"`
}
```
Tentukan handler Lambda yang menambah angka.  

```
import logging

logger = logging.getLogger()
logger.setLevel(logging.INFO)


def lambda_handler(event, context):
    """
    Accepts an action and a single number, performs the specified action on the number,
    and returns the result. The only allowable action is 'increment'.

    :param event: The event dict that contains the parameters sent when the function
                  is invoked.
    :param context: The context in which the function is called.
    :return: The result of the action.
    """
    result = None
    action = event.get("action")
    if action == "increment":
        result = event.get("number", 0) + 1
        logger.info("Calculated result of %s", result)
    else:
        logger.error("%s is not a valid action.", action)

    response = {"result": result}
    return response
```
Tentukan handler Lambda kedua yang melakukan operasi aritmatika.  

```
import logging
import os


logger = logging.getLogger()

# Define a list of Python lambda functions that are called by this AWS Lambda function.
ACTIONS = {
    "plus": lambda x, y: x + y,
    "minus": lambda x, y: x - y,
    "times": lambda x, y: x * y,
    "divided-by": lambda x, y: x / y,
}


def lambda_handler(event, context):
    """
    Accepts an action and two numbers, performs the specified action on the numbers,
    and returns the result.

    :param event: The event dict that contains the parameters sent when the function
                  is invoked.
    :param context: The context in which the function is called.
    :return: The result of the specified action.
    """
    # Set the log level based on a variable configured in the Lambda environment.
    logger.setLevel(os.environ.get("LOG_LEVEL", logging.INFO))
    logger.debug("Event: %s", event)

    action = event.get("action")
    func = ACTIONS.get(action)
    x = event.get("x")
    y = event.get("y")
    result = None
    try:
        if func is not None and x is not None and y is not None:
            result = func(x, y)
            logger.info("%s %s %s is %s", x, action, y, result)
        else:
            logger.error("I can't calculate %s %s %s.", x, action, y)
    except ZeroDivisionError:
        logger.warning("I can't divide %s by 0!", x)

    response = {"result": result}
    return response
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [CreateFunction](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.CreateFunction)
  + [DeleteFunction](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.DeleteFunction)
  + [GetFunction](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.GetFunction)
  + [Memohon](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.Invoke)
  + [ListFunctions](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.ListFunctions)
  + [UpdateFunctionCode](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.UpdateFunctionCode)
  + [UpdateFunctionConfiguration](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.UpdateFunctionConfiguration)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 

```
import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/aws/aws-sdk-go-v2/service/lambda/types"
)

// FunctionWrapper encapsulates function actions used in the examples.
// It contains an AWS Lambda service client that is used to perform user actions.
type FunctionWrapper struct {
	LambdaClient *lambda.Client
}



// CreateFunction creates a new Lambda function from code contained in the zipPackage
// buffer. The specified handlerName must match the name of the file and function
// contained in the uploaded code. The role specified by iamRoleArn is assumed by
// Lambda and grants specific permissions.
// When the function already exists, types.StateActive is returned.
// When the function is created, a lambda.FunctionActiveV2Waiter is used to wait until the
// function is active.
func (wrapper FunctionWrapper) CreateFunction(ctx context.Context, functionName string, handlerName string,
	iamRoleArn *string, zipPackage *bytes.Buffer) types.State {
	var state types.State
	_, err := wrapper.LambdaClient.CreateFunction(ctx, &lambda.CreateFunctionInput{
		Code:         &types.FunctionCode{ZipFile: zipPackage.Bytes()},
		FunctionName: aws.String(functionName),
		Role:         iamRoleArn,
		Handler:      aws.String(handlerName),
		Publish:      true,
		Runtime:      types.RuntimePython39,
	})
	if err != nil {
		var resConflict *types.ResourceConflictException
		if errors.As(err, &resConflict) {
			log.Printf("Function %v already exists.\n", functionName)
			state = types.StateActive
		} else {
			log.Panicf("Couldn't create function %v. Here's why: %v\n", functionName, err)
		}
	} else {
		waiter := lambda.NewFunctionActiveV2Waiter(wrapper.LambdaClient)
		funcOutput, err := waiter.WaitForOutput(ctx, &lambda.GetFunctionInput{
			FunctionName: aws.String(functionName)}, 1*time.Minute)
		if err != nil {
			log.Panicf("Couldn't wait for function %v to be active. Here's why: %v\n", functionName, err)
		} else {
			state = funcOutput.Configuration.State
		}
	}
	return state
}
```
+  Untuk detail API, lihat [CreateFunction](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.CreateFunction)di *Referensi AWS SDK untuk Go API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 

```
import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/aws/aws-sdk-go-v2/service/lambda/types"
)

// FunctionWrapper encapsulates function actions used in the examples.
// It contains an AWS Lambda service client that is used to perform user actions.
type FunctionWrapper struct {
	LambdaClient *lambda.Client
}



// DeleteFunction deletes the Lambda function specified by functionName.
func (wrapper FunctionWrapper) DeleteFunction(ctx context.Context, functionName string) {
	_, err := wrapper.LambdaClient.DeleteFunction(ctx, &lambda.DeleteFunctionInput{
		FunctionName: aws.String(functionName),
	})
	if err != nil {
		log.Panicf("Couldn't delete function %v. Here's why: %v\n", functionName, err)
	}
}
```
+  Untuk detail API, lihat [DeleteFunction](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.DeleteFunction)di *Referensi AWS SDK untuk Go API*. 

### `GetFunction`
<a name="lambda_GetFunction_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 

```
import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/aws/aws-sdk-go-v2/service/lambda/types"
)

// FunctionWrapper encapsulates function actions used in the examples.
// It contains an AWS Lambda service client that is used to perform user actions.
type FunctionWrapper struct {
	LambdaClient *lambda.Client
}



// GetFunction gets data about the Lambda function specified by functionName.
func (wrapper FunctionWrapper) GetFunction(ctx context.Context, functionName string) types.State {
	var state types.State
	funcOutput, err := wrapper.LambdaClient.GetFunction(ctx, &lambda.GetFunctionInput{
		FunctionName: aws.String(functionName),
	})
	if err != nil {
		log.Panicf("Couldn't get function %v. Here's why: %v\n", functionName, err)
	} else {
		state = funcOutput.Configuration.State
	}
	return state
}
```
+  Untuk detail API, lihat [GetFunction](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.GetFunction)di *Referensi AWS SDK untuk Go API*. 

### `Invoke`
<a name="lambda_Invoke_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 

```
import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/aws/aws-sdk-go-v2/service/lambda/types"
)

// FunctionWrapper encapsulates function actions used in the examples.
// It contains an AWS Lambda service client that is used to perform user actions.
type FunctionWrapper struct {
	LambdaClient *lambda.Client
}



// Invoke invokes the Lambda function specified by functionName, passing the parameters
// as a JSON payload. When getLog is true, types.LogTypeTail is specified, which tells
// Lambda to include the last few log lines in the returned result.
func (wrapper FunctionWrapper) Invoke(ctx context.Context, functionName string, parameters any, getLog bool) *lambda.InvokeOutput {
	logType := types.LogTypeNone
	if getLog {
		logType = types.LogTypeTail
	}
	payload, err := json.Marshal(parameters)
	if err != nil {
		log.Panicf("Couldn't marshal parameters to JSON. Here's why %v\n", err)
	}
	invokeOutput, err := wrapper.LambdaClient.Invoke(ctx, &lambda.InvokeInput{
		FunctionName: aws.String(functionName),
		LogType:      logType,
		Payload:      payload,
	})
	if err != nil {
		log.Panicf("Couldn't invoke function %v. Here's why: %v\n", functionName, err)
	}
	return invokeOutput
}
```
+  Untuk detail API, lihat [Memanggil di Referensi AWS SDK untuk Go](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.Invoke) *API*. 

### `ListFunctions`
<a name="lambda_ListFunctions_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 

```
import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/aws/aws-sdk-go-v2/service/lambda/types"
)

// FunctionWrapper encapsulates function actions used in the examples.
// It contains an AWS Lambda service client that is used to perform user actions.
type FunctionWrapper struct {
	LambdaClient *lambda.Client
}



// ListFunctions lists up to maxItems functions for the account. This function uses a
// lambda.ListFunctionsPaginator to paginate the results.
func (wrapper FunctionWrapper) ListFunctions(ctx context.Context, maxItems int) []types.FunctionConfiguration {
	var functions []types.FunctionConfiguration
	paginator := lambda.NewListFunctionsPaginator(wrapper.LambdaClient, &lambda.ListFunctionsInput{
		MaxItems: aws.Int32(int32(maxItems)),
	})
	for paginator.HasMorePages() && len(functions) < maxItems {
		pageOutput, err := paginator.NextPage(ctx)
		if err != nil {
			log.Panicf("Couldn't list functions for your account. Here's why: %v\n", err)
		}
		functions = append(functions, pageOutput.Functions...)
	}
	return functions
}
```
+  Untuk detail API, lihat [ListFunctions](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.ListFunctions)di *Referensi AWS SDK untuk Go API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 

```
import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/aws/aws-sdk-go-v2/service/lambda/types"
)

// FunctionWrapper encapsulates function actions used in the examples.
// It contains an AWS Lambda service client that is used to perform user actions.
type FunctionWrapper struct {
	LambdaClient *lambda.Client
}



// UpdateFunctionCode updates the code for the Lambda function specified by functionName.
// The existing code for the Lambda function is entirely replaced by the code in the
// zipPackage buffer. After the update action is called, a lambda.FunctionUpdatedV2Waiter
// is used to wait until the update is successful.
func (wrapper FunctionWrapper) UpdateFunctionCode(ctx context.Context, functionName string, zipPackage *bytes.Buffer) types.State {
	var state types.State
	_, err := wrapper.LambdaClient.UpdateFunctionCode(ctx, &lambda.UpdateFunctionCodeInput{
		FunctionName: aws.String(functionName), ZipFile: zipPackage.Bytes(),
	})
	if err != nil {
		log.Panicf("Couldn't update code for function %v. Here's why: %v\n", functionName, err)
	} else {
		waiter := lambda.NewFunctionUpdatedV2Waiter(wrapper.LambdaClient)
		funcOutput, err := waiter.WaitForOutput(ctx, &lambda.GetFunctionInput{
			FunctionName: aws.String(functionName)}, 1*time.Minute)
		if err != nil {
			log.Panicf("Couldn't wait for function %v to be active. Here's why: %v\n", functionName, err)
		} else {
			state = funcOutput.Configuration.State
		}
	}
	return state
}
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.UpdateFunctionCode)di *Referensi AWS SDK untuk Go API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/lambda#code-examples). 

```
import (
	"bytes"
	"context"
	"encoding/json"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/lambda"
	"github.com/aws/aws-sdk-go-v2/service/lambda/types"
)

// FunctionWrapper encapsulates function actions used in the examples.
// It contains an AWS Lambda service client that is used to perform user actions.
type FunctionWrapper struct {
	LambdaClient *lambda.Client
}



// UpdateFunctionConfiguration updates a map of environment variables configured for
// the Lambda function specified by functionName.
func (wrapper FunctionWrapper) UpdateFunctionConfiguration(ctx context.Context, functionName string, envVars map[string]string) {
	_, err := wrapper.LambdaClient.UpdateFunctionConfiguration(ctx, &lambda.UpdateFunctionConfigurationInput{
		FunctionName: aws.String(functionName),
		Environment:  &types.Environment{Variables: envVars},
	})
	if err != nil {
		log.Panicf("Couldn't update configuration for %v. Here's why: %v", functionName, err)
	}
}
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/lambda#Client.UpdateFunctionConfiguration)di *Referensi AWS SDK untuk Go API*. 

## Skenario
<a name="scenarios"></a>

### Secara otomatis mengonfirmasi pengguna yang dikenal dengan fungsi Lambda
<a name="cross_CognitoAutoConfirmUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengonfirmasi pengguna Amazon Cognito yang diketahui secara otomatis dengan fungsi Lambda.
+ Konfigurasikan kumpulan pengguna untuk memanggil fungsi Lambda untuk `PreSignUp` pemicunya.
+ Daftarkan pengguna dengan Amazon Cognito.
+ Fungsi Lambda memindai tabel DynamoDB dan secara otomatis mengonfirmasi pengguna yang dikenal.
+ Masuk sebagai pengguna baru, lalu bersihkan sumber daya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/user_pools_and_lambda_triggers#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"errors"
	"log"
	"strings"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// AutoConfirm separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type AutoConfirm struct {
	helper       IScenarioHelper
	questioner   demotools.IQuestioner
	resources    Resources
	cognitoActor *actions.CognitoActions
}

// NewAutoConfirm constructs a new auto confirm runner.
func NewAutoConfirm(sdkConfig aws.Config, questioner demotools.IQuestioner, helper IScenarioHelper) AutoConfirm {
	scenario := AutoConfirm{
		helper:       helper,
		questioner:   questioner,
		resources:    Resources{},
		cognitoActor: &actions.CognitoActions{CognitoClient: cognitoidentityprovider.NewFromConfig(sdkConfig)},
	}
	scenario.resources.init(scenario.cognitoActor, questioner)
	return scenario
}

// AddPreSignUpTrigger adds a Lambda handler as an invocation target for the PreSignUp trigger.
func (runner *AutoConfirm) AddPreSignUpTrigger(ctx context.Context, userPoolId string, functionArn string) {
	log.Printf("Let's add a Lambda function to handle the PreSignUp trigger from Cognito.\n" +
		"This trigger happens when a user signs up, and lets your function take action before the main Cognito\n" +
		"sign up processing occurs.\n")
	err := runner.cognitoActor.UpdateTriggers(
		ctx, userPoolId,
		actions.TriggerInfo{Trigger: actions.PreSignUp, HandlerArn: aws.String(functionArn)})
	if err != nil {
		panic(err)
	}
	log.Printf("Lambda function %v added to user pool %v to handle the PreSignUp trigger.\n",
		functionArn, userPoolId)
}

// SignUpUser signs up a user from the known user table with a password you specify.
func (runner *AutoConfirm) SignUpUser(ctx context.Context, clientId string, usersTable string) (string, string) {
	log.Println("Let's sign up a user to your Cognito user pool. When the user's email matches an email in the\n" +
		"DynamoDB known users table, it is automatically verified and the user is confirmed.")

	knownUsers, err := runner.helper.GetKnownUsers(ctx, usersTable)
	if err != nil {
		panic(err)
	}
	userChoice := runner.questioner.AskChoice("Which user do you want to use?\n", knownUsers.UserNameList())
	user := knownUsers.Users[userChoice]

	var signedUp bool
	var userConfirmed bool
	password := runner.questioner.AskPassword("Enter a password that has at least eight characters, uppercase, lowercase, numbers and symbols.\n"+
		"(the password will not display as you type):", 8)
	for !signedUp {
		log.Printf("Signing up user '%v' with email '%v' to Cognito.\n", user.UserName, user.UserEmail)
		userConfirmed, err = runner.cognitoActor.SignUp(ctx, clientId, user.UserName, password, user.UserEmail)
		if err != nil {
			var invalidPassword *types.InvalidPasswordException
			if errors.As(err, &invalidPassword) {
				password = runner.questioner.AskPassword("Enter another password:", 8)
			} else {
				panic(err)
			}
		} else {
			signedUp = true
		}
	}
	log.Printf("User %v signed up, confirmed = %v.\n", user.UserName, userConfirmed)

	log.Println(strings.Repeat("-", 88))

	return user.UserName, password
}

// SignInUser signs in a user.
func (runner *AutoConfirm) SignInUser(ctx context.Context, clientId string, userName string, password string) string {
	runner.questioner.Ask("Press Enter when you're ready to continue.")
	log.Printf("Let's sign in as %v...\n", userName)
	authResult, err := runner.cognitoActor.SignIn(ctx, clientId, userName, password)
	if err != nil {
		panic(err)
	}
	log.Printf("Successfully signed in. Your access token starts with: %v...\n", (*authResult.AccessToken)[:10])
	log.Println(strings.Repeat("-", 88))
	return *authResult.AccessToken
}

// Run runs the scenario.
func (runner *AutoConfirm) Run(ctx context.Context, stackName string) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			runner.resources.Cleanup(ctx)
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Printf("Welcome\n")

	log.Println(strings.Repeat("-", 88))

	stackOutputs, err := runner.helper.GetStackOutputs(ctx, stackName)
	if err != nil {
		panic(err)
	}
	runner.resources.userPoolId = stackOutputs["UserPoolId"]
	runner.helper.PopulateUserTable(ctx, stackOutputs["TableName"])

	runner.AddPreSignUpTrigger(ctx, stackOutputs["UserPoolId"], stackOutputs["AutoConfirmFunctionArn"])
	runner.resources.triggers = append(runner.resources.triggers, actions.PreSignUp)
	userName, password := runner.SignUpUser(ctx, stackOutputs["UserPoolClientId"], stackOutputs["TableName"])
	runner.helper.ListRecentLogEvents(ctx, stackOutputs["AutoConfirmFunction"])
	runner.resources.userAccessTokens = append(runner.resources.userAccessTokens,
		runner.SignInUser(ctx, stackOutputs["UserPoolClientId"], userName, password))

	runner.resources.Cleanup(ctx)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tangani `PreSignUp` pelatuk dengan fungsi Lambda.  

```
import (
	"context"
	"log"
	"os"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	dynamodbtypes "github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

const TABLE_NAME = "TABLE_NAME"

// UserInfo defines structured user data that can be marshalled to a DynamoDB format.
type UserInfo struct {
	UserName  string `dynamodbav:"UserName"`
	UserEmail string `dynamodbav:"UserEmail"`
}

// GetKey marshals the user email value to a DynamoDB key format.
func (user UserInfo) GetKey() map[string]dynamodbtypes.AttributeValue {
	userEmail, err := attributevalue.Marshal(user.UserEmail)
	if err != nil {
		panic(err)
	}
	return map[string]dynamodbtypes.AttributeValue{"UserEmail": userEmail}
}

type handler struct {
	dynamoClient *dynamodb.Client
}

// HandleRequest handles the PreSignUp event by looking up a user in an Amazon DynamoDB table and
// specifying whether they should be confirmed and verified.
func (h *handler) HandleRequest(ctx context.Context, event events.CognitoEventUserPoolsPreSignup) (events.CognitoEventUserPoolsPreSignup, error) {
	log.Printf("Received presignup from %v for user '%v'", event.TriggerSource, event.UserName)
	if event.TriggerSource != "PreSignUp_SignUp" {
		// Other trigger sources, such as PreSignUp_AdminInitiateAuth, ignore the response from this handler.
		return event, nil
	}
	tableName := os.Getenv(TABLE_NAME)
	user := UserInfo{
		UserEmail: event.Request.UserAttributes["email"],
	}
	log.Printf("Looking up email %v in table %v.\n", user.UserEmail, tableName)
	output, err := h.dynamoClient.GetItem(ctx, &dynamodb.GetItemInput{
		Key:       user.GetKey(),
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Error looking up email %v.\n", user.UserEmail)
		return event, err
	}
	if output.Item == nil {
		log.Printf("Email %v not found. Email verification is required.\n", user.UserEmail)
		return event, err
	}

	err = attributevalue.UnmarshalMap(output.Item, &user)
	if err != nil {
		log.Printf("Couldn't unmarshal DynamoDB item. Here's why: %v\n", err)
		return event, err
	}

	if user.UserName != event.UserName {
		log.Printf("UserEmail %v found, but stored UserName '%v' does not match supplied UserName '%v'. Verification is required.\n",
			user.UserEmail, user.UserName, event.UserName)
	} else {
		log.Printf("UserEmail %v found with matching UserName %v. User is confirmed.\n", user.UserEmail, user.UserName)
		event.Response.AutoConfirmUser = true
		event.Response.AutoVerifyEmail = true
	}

	return event, err
}

func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		log.Panicln(err)
	}
	h := handler{
		dynamoClient: dynamodb.NewFromConfig(sdkConfig),
	}
	lambda.Start(h.HandleRequest)
}
```
Buat struct yang melakukan tugas-tugas umum.  

```
import (
	"context"
	"log"
	"strings"
	"time"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// IScenarioHelper defines common functions used by the workflows in this example.
type IScenarioHelper interface {
	Pause(secs int)
	GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error)
	PopulateUserTable(ctx context.Context, tableName string)
	GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error)
	AddKnownUser(ctx context.Context, tableName string, user actions.User)
	ListRecentLogEvents(ctx context.Context, functionName string)
}

// ScenarioHelper contains AWS wrapper structs used by the workflows in this example.
type ScenarioHelper struct {
	questioner  demotools.IQuestioner
	dynamoActor *actions.DynamoActions
	cfnActor    *actions.CloudFormationActions
	cwlActor    *actions.CloudWatchLogsActions
	isTestRun   bool
}

// NewScenarioHelper constructs a new scenario helper.
func NewScenarioHelper(sdkConfig aws.Config, questioner demotools.IQuestioner) ScenarioHelper {
	scenario := ScenarioHelper{
		questioner:  questioner,
		dynamoActor: &actions.DynamoActions{DynamoClient: dynamodb.NewFromConfig(sdkConfig)},
		cfnActor:    &actions.CloudFormationActions{CfnClient: cloudformation.NewFromConfig(sdkConfig)},
		cwlActor:    &actions.CloudWatchLogsActions{CwlClient: cloudwatchlogs.NewFromConfig(sdkConfig)},
	}
	return scenario
}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	if !helper.isTestRun {
		time.Sleep(time.Duration(secs) * time.Second)
	}
}

// GetStackOutputs gets the outputs from the specified CloudFormation stack in a structured format.
func (helper ScenarioHelper) GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error) {
	return helper.cfnActor.GetOutputs(ctx, stackName), nil
}

// PopulateUserTable fills the known user table with example data.
func (helper ScenarioHelper) PopulateUserTable(ctx context.Context, tableName string) {
	log.Printf("First, let's add some users to the DynamoDB %v table we'll use for this example.\n", tableName)
	err := helper.dynamoActor.PopulateTable(ctx, tableName)
	if err != nil {
		panic(err)
	}
}

// GetKnownUsers gets the users from the known users table in a structured format.
func (helper ScenarioHelper) GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error) {
	knownUsers, err := helper.dynamoActor.Scan(ctx, tableName)
	if err != nil {
		log.Printf("Couldn't get known users from table %v. Here's why: %v\n", tableName, err)
	}
	return knownUsers, err
}

// AddKnownUser adds a user to the known users table.
func (helper ScenarioHelper) AddKnownUser(ctx context.Context, tableName string, user actions.User) {
	log.Printf("Adding user '%v' with email '%v' to the DynamoDB known users table...\n",
		user.UserName, user.UserEmail)
	err := helper.dynamoActor.AddUser(ctx, tableName, user)
	if err != nil {
		panic(err)
	}
}

// ListRecentLogEvents gets the most recent log stream and events for the specified Lambda function and displays them.
func (helper ScenarioHelper) ListRecentLogEvents(ctx context.Context, functionName string) {
	log.Println("Waiting a few seconds to let Lambda write to CloudWatch Logs...")
	helper.Pause(10)
	log.Println("Okay, let's check the logs to find what's happened recently with your Lambda function.")
	logStream, err := helper.cwlActor.GetLatestLogStream(ctx, functionName)
	if err != nil {
		panic(err)
	}
	log.Printf("Getting some recent events from log stream %v\n", *logStream.LogStreamName)
	events, err := helper.cwlActor.GetLogEvents(ctx, functionName, *logStream.LogStreamName, 10)
	if err != nil {
		panic(err)
	}
	for _, event := range events {
		log.Printf("\t%v", *event.Message)
	}
	log.Println(strings.Repeat("-", 88))
}
```
Buat struct yang membungkus tindakan Amazon Cognito.  

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// Trigger and TriggerInfo define typed data for updating an Amazon Cognito trigger.
type Trigger int

const (
	PreSignUp Trigger = iota
	UserMigration
	PostAuthentication
)

type TriggerInfo struct {
	Trigger    Trigger
	HandlerArn *string
}

// UpdateTriggers adds or removes Lambda triggers for a user pool. When a trigger is specified with a `nil` value,
// it is removed from the user pool.
func (actor CognitoActions) UpdateTriggers(ctx context.Context, userPoolId string, triggers ...TriggerInfo) error {
	output, err := actor.CognitoClient.DescribeUserPool(ctx, &cognitoidentityprovider.DescribeUserPoolInput{
		UserPoolId: aws.String(userPoolId),
	})
	if err != nil {
		log.Printf("Couldn't get info about user pool %v. Here's why: %v\n", userPoolId, err)
		return err
	}
	lambdaConfig := output.UserPool.LambdaConfig
	for _, trigger := range triggers {
		switch trigger.Trigger {
		case PreSignUp:
			lambdaConfig.PreSignUp = trigger.HandlerArn
		case UserMigration:
			lambdaConfig.UserMigration = trigger.HandlerArn
		case PostAuthentication:
			lambdaConfig.PostAuthentication = trigger.HandlerArn
		}
	}
	_, err = actor.CognitoClient.UpdateUserPool(ctx, &cognitoidentityprovider.UpdateUserPoolInput{
		UserPoolId:   aws.String(userPoolId),
		LambdaConfig: lambdaConfig,
	})
	if err != nil {
		log.Printf("Couldn't update user pool %v. Here's why: %v\n", userPoolId, err)
	}
	return err
}



// SignUp signs up a user with Amazon Cognito.
func (actor CognitoActions) SignUp(ctx context.Context, clientId string, userName string, password string, userEmail string) (bool, error) {
	confirmed := false
	output, err := actor.CognitoClient.SignUp(ctx, &cognitoidentityprovider.SignUpInput{
		ClientId: aws.String(clientId),
		Password: aws.String(password),
		Username: aws.String(userName),
		UserAttributes: []types.AttributeType{
			{Name: aws.String("email"), Value: aws.String(userEmail)},
		},
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't sign up user %v. Here's why: %v\n", userName, err)
		}
	} else {
		confirmed = output.UserConfirmed
	}
	return confirmed, err
}



// SignIn signs in a user to Amazon Cognito using a username and password authentication flow.
func (actor CognitoActions) SignIn(ctx context.Context, clientId string, userName string, password string) (*types.AuthenticationResultType, error) {
	var authResult *types.AuthenticationResultType
	output, err := actor.CognitoClient.InitiateAuth(ctx, &cognitoidentityprovider.InitiateAuthInput{
		AuthFlow:       "USER_PASSWORD_AUTH",
		ClientId:       aws.String(clientId),
		AuthParameters: map[string]string{"USERNAME": userName, "PASSWORD": password},
	})
	if err != nil {
		var resetRequired *types.PasswordResetRequiredException
		if errors.As(err, &resetRequired) {
			log.Println(*resetRequired.Message)
		} else {
			log.Printf("Couldn't sign in user %v. Here's why: %v\n", userName, err)
		}
	} else {
		authResult = output.AuthenticationResult
	}
	return authResult, err
}



// ForgotPassword starts a password recovery flow for a user. This flow typically sends a confirmation code
// to the user's configured notification destination, such as email.
func (actor CognitoActions) ForgotPassword(ctx context.Context, clientId string, userName string) (*types.CodeDeliveryDetailsType, error) {
	output, err := actor.CognitoClient.ForgotPassword(ctx, &cognitoidentityprovider.ForgotPasswordInput{
		ClientId: aws.String(clientId),
		Username: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't start password reset for user '%v'. Here;s why: %v\n", userName, err)
	}
	return output.CodeDeliveryDetails, err
}



// ConfirmForgotPassword confirms a user with a confirmation code and a new password.
func (actor CognitoActions) ConfirmForgotPassword(ctx context.Context, clientId string, code string, userName string, password string) error {
	_, err := actor.CognitoClient.ConfirmForgotPassword(ctx, &cognitoidentityprovider.ConfirmForgotPasswordInput{
		ClientId:         aws.String(clientId),
		ConfirmationCode: aws.String(code),
		Password:         aws.String(password),
		Username:         aws.String(userName),
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't confirm user %v. Here's why: %v", userName, err)
		}
	}
	return err
}



// DeleteUser removes a user from the user pool.
func (actor CognitoActions) DeleteUser(ctx context.Context, userAccessToken string) error {
	_, err := actor.CognitoClient.DeleteUser(ctx, &cognitoidentityprovider.DeleteUserInput{
		AccessToken: aws.String(userAccessToken),
	})
	if err != nil {
		log.Printf("Couldn't delete user. Here's why: %v\n", err)
	}
	return err
}



// AdminCreateUser uses administrator credentials to add a user to a user pool. This method leaves the user
// in a state that requires they enter a new password next time they sign in.
func (actor CognitoActions) AdminCreateUser(ctx context.Context, userPoolId string, userName string, userEmail string) error {
	_, err := actor.CognitoClient.AdminCreateUser(ctx, &cognitoidentityprovider.AdminCreateUserInput{
		UserPoolId:     aws.String(userPoolId),
		Username:       aws.String(userName),
		MessageAction:  types.MessageActionTypeSuppress,
		UserAttributes: []types.AttributeType{{Name: aws.String("email"), Value: aws.String(userEmail)}},
	})
	if err != nil {
		var userExists *types.UsernameExistsException
		if errors.As(err, &userExists) {
			log.Printf("User %v already exists in the user pool.", userName)
			err = nil
		} else {
			log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}



// AdminSetUserPassword uses administrator credentials to set a password for a user without requiring a
// temporary password.
func (actor CognitoActions) AdminSetUserPassword(ctx context.Context, userPoolId string, userName string, password string) error {
	_, err := actor.CognitoClient.AdminSetUserPassword(ctx, &cognitoidentityprovider.AdminSetUserPasswordInput{
		Password:   aws.String(password),
		UserPoolId: aws.String(userPoolId),
		Username:   aws.String(userName),
		Permanent:  true,
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't set password for user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}
```
Buat struct yang membungkus tindakan DynamoDB.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// DynamoActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type DynamoActions struct {
	DynamoClient *dynamodb.Client
}

// User defines structured user data.
type User struct {
	UserName  string
	UserEmail string
	LastLogin *LoginInfo `dynamodbav:",omitempty"`
}

// LoginInfo defines structured custom login data.
type LoginInfo struct {
	UserPoolId string
	ClientId   string
	Time       string
}

// UserList defines a list of users.
type UserList struct {
	Users []User
}

// UserNameList returns the usernames contained in a UserList as a list of strings.
func (users *UserList) UserNameList() []string {
	names := make([]string, len(users.Users))
	for i := 0; i < len(users.Users); i++ {
		names[i] = users.Users[i].UserName
	}
	return names
}

// PopulateTable adds a set of test users to the table.
func (actor DynamoActions) PopulateTable(ctx context.Context, tableName string) error {
	var err error
	var item map[string]types.AttributeValue
	var writeReqs []types.WriteRequest
	for i := 1; i < 4; i++ {
		item, err = attributevalue.MarshalMap(User{UserName: fmt.Sprintf("test_user_%v", i), UserEmail: fmt.Sprintf("test_email_%v@example.com", i)})
		if err != nil {
			log.Printf("Couldn't marshall user into DynamoDB format. Here's why: %v\n", err)
			return err
		}
		writeReqs = append(writeReqs, types.WriteRequest{PutRequest: &types.PutRequest{Item: item}})
	}
	_, err = actor.DynamoClient.BatchWriteItem(ctx, &dynamodb.BatchWriteItemInput{
		RequestItems: map[string][]types.WriteRequest{tableName: writeReqs},
	})
	if err != nil {
		log.Printf("Couldn't populate table %v with users. Here's why: %v\n", tableName, err)
	}
	return err
}

// Scan scans the table for all items.
func (actor DynamoActions) Scan(ctx context.Context, tableName string) (UserList, error) {
	var userList UserList
	output, err := actor.DynamoClient.Scan(ctx, &dynamodb.ScanInput{
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't scan table %v for items. Here's why: %v\n", tableName, err)
	} else {
		err = attributevalue.UnmarshalListOfMaps(output.Items, &userList.Users)
		if err != nil {
			log.Printf("Couldn't unmarshal items into users. Here's why: %v\n", err)
		}
	}
	return userList, err
}

// AddUser adds a user item to a table.
func (actor DynamoActions) AddUser(ctx context.Context, tableName string, user User) error {
	userItem, err := attributevalue.MarshalMap(user)
	if err != nil {
		log.Printf("Couldn't marshall user to item. Here's why: %v\n", err)
	}
	_, err = actor.DynamoClient.PutItem(ctx, &dynamodb.PutItemInput{
		Item:      userItem,
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't put item in table %v. Here's why: %v", tableName, err)
	}
	return err
}
```
Buat struct yang membungkus tindakan CloudWatch Log.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs/types"
)

type CloudWatchLogsActions struct {
	CwlClient *cloudwatchlogs.Client
}

// GetLatestLogStream gets the most recent log stream for a Lambda function.
func (actor CloudWatchLogsActions) GetLatestLogStream(ctx context.Context, functionName string) (types.LogStream, error) {
	var logStream types.LogStream
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.DescribeLogStreams(ctx, &cloudwatchlogs.DescribeLogStreamsInput{
		Descending:   aws.Bool(true),
		Limit:        aws.Int32(1),
		LogGroupName: aws.String(logGroupName),
		OrderBy:      types.OrderByLastEventTime,
	})
	if err != nil {
		log.Printf("Couldn't get log streams for log group %v. Here's why: %v\n", logGroupName, err)
	} else {
		logStream = output.LogStreams[0]
	}
	return logStream, err
}

// GetLogEvents gets the most recent eventCount events from the specified log stream.
func (actor CloudWatchLogsActions) GetLogEvents(ctx context.Context, functionName string, logStreamName string, eventCount int32) (
	[]types.OutputLogEvent, error) {
	var events []types.OutputLogEvent
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.GetLogEvents(ctx, &cloudwatchlogs.GetLogEventsInput{
		LogStreamName: aws.String(logStreamName),
		Limit:         aws.Int32(eventCount),
		LogGroupName:  aws.String(logGroupName),
	})
	if err != nil {
		log.Printf("Couldn't get log event for log stream %v. Here's why: %v\n", logStreamName, err)
	} else {
		events = output.Events
	}
	return events, err
}
```
Buat struct yang membungkus tindakan CloudFormation .  

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
)

// StackOutputs defines a map of outputs from a specific stack.
type StackOutputs map[string]string

type CloudFormationActions struct {
	CfnClient *cloudformation.Client
}

// GetOutputs gets the outputs from a CloudFormation stack and puts them into a structured format.
func (actor CloudFormationActions) GetOutputs(ctx context.Context, stackName string) StackOutputs {
	output, err := actor.CfnClient.DescribeStacks(ctx, &cloudformation.DescribeStacksInput{
		StackName: aws.String(stackName),
	})
	if err != nil || len(output.Stacks) == 0 {
		log.Panicf("Couldn't find a CloudFormation stack named %v. Here's why: %v\n", stackName, err)
	}
	stackOutputs := StackOutputs{}
	for _, out := range output.Stacks[0].Outputs {
		stackOutputs[*out.OutputKey] = *out.OutputValue
	}
	return stackOutputs
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"log"
	"user_pools_and_lambda_triggers/actions"

	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// Resources keeps track of AWS resources created during an example and handles
// cleanup when the example finishes.
type Resources struct {
	userPoolId       string
	userAccessTokens []string
	triggers         []actions.Trigger

	cognitoActor *actions.CognitoActions
	questioner   demotools.IQuestioner
}

func (resources *Resources) init(cognitoActor *actions.CognitoActions, questioner demotools.IQuestioner) {
	resources.userAccessTokens = []string{}
	resources.triggers = []actions.Trigger{}
	resources.cognitoActor = cognitoActor
	resources.questioner = questioner
}

// Cleanup deletes all AWS resources created during an example.
func (resources *Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong during cleanup.\n%v\n", r)
			log.Println("Use the AWS Management Console to remove any remaining resources \n" +
				"that were created for this scenario.")
		}
	}()

	wantDelete := resources.questioner.AskBool("Do you want to remove all of the AWS resources that were created "+
		"during this demo (y/n)?", "y")
	if wantDelete {
		for _, accessToken := range resources.userAccessTokens {
			err := resources.cognitoActor.DeleteUser(ctx, accessToken)
			if err != nil {
				log.Println("Couldn't delete user during cleanup.")
				panic(err)
			}
			log.Println("Deleted user.")
		}
		triggerList := make([]actions.TriggerInfo, len(resources.triggers))
		for i := 0; i < len(resources.triggers); i++ {
			triggerList[i] = actions.TriggerInfo{Trigger: resources.triggers[i], HandlerArn: nil}
		}
		err := resources.cognitoActor.UpdateTriggers(ctx, resources.userPoolId, triggerList...)
		if err != nil {
			log.Println("Couldn't update Cognito triggers during cleanup.")
			panic(err)
		}
		log.Println("Removed Cognito triggers from user pool.")
	} else {
		log.Println("Be sure to remove resources when you're done with them to avoid unexpected charges!")
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.DeleteUser)
  + [InitiateAuth](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.InitiateAuth)
  + [SignUp](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.SignUp)
  + [UpdateUserPool](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.UpdateUserPool)

### Secara otomatis memigrasikan pengguna yang dikenal dengan fungsi Lambda
<a name="cross_CognitoAutoMigrateUser_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memigrasi pengguna Amazon Cognito yang dikenal secara otomatis dengan fungsi Lambda.
+ Konfigurasikan kumpulan pengguna untuk memanggil fungsi Lambda untuk `MigrateUser` pemicunya.
+ Masuk ke Amazon Cognito dengan nama pengguna dan email yang tidak ada di kumpulan pengguna.
+ Fungsi Lambda memindai tabel DynamoDB dan secara otomatis memigrasikan pengguna yang dikenal ke kumpulan pengguna.
+ Lakukan alur lupa kata sandi untuk mengatur ulang kata sandi untuk pengguna yang dimigrasi.
+ Masuk sebagai pengguna baru, lalu bersihkan sumber daya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/user_pools_and_lambda_triggers#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"errors"
	"fmt"
	"log"
	"strings"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// MigrateUser separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type MigrateUser struct {
	helper       IScenarioHelper
	questioner   demotools.IQuestioner
	resources    Resources
	cognitoActor *actions.CognitoActions
}

// NewMigrateUser constructs a new migrate user runner.
func NewMigrateUser(sdkConfig aws.Config, questioner demotools.IQuestioner, helper IScenarioHelper) MigrateUser {
	scenario := MigrateUser{
		helper:       helper,
		questioner:   questioner,
		resources:    Resources{},
		cognitoActor: &actions.CognitoActions{CognitoClient: cognitoidentityprovider.NewFromConfig(sdkConfig)},
	}
	scenario.resources.init(scenario.cognitoActor, questioner)
	return scenario
}

// AddMigrateUserTrigger adds a Lambda handler as an invocation target for the MigrateUser trigger.
func (runner *MigrateUser) AddMigrateUserTrigger(ctx context.Context, userPoolId string, functionArn string) {
	log.Printf("Let's add a Lambda function to handle the MigrateUser trigger from Cognito.\n" +
		"This trigger happens when an unknown user signs in, and lets your function take action before Cognito\n" +
		"rejects the user.\n\n")
	err := runner.cognitoActor.UpdateTriggers(
		ctx, userPoolId,
		actions.TriggerInfo{Trigger: actions.UserMigration, HandlerArn: aws.String(functionArn)})
	if err != nil {
		panic(err)
	}
	log.Printf("Lambda function %v added to user pool %v to handle the MigrateUser trigger.\n",
		functionArn, userPoolId)

	log.Println(strings.Repeat("-", 88))
}

// SignInUser adds a new user to the known users table and signs that user in to Amazon Cognito.
func (runner *MigrateUser) SignInUser(ctx context.Context, usersTable string, clientId string) (bool, actions.User) {
	log.Println("Let's sign in a user to your Cognito user pool. When the username and email matches an entry in the\n" +
		"DynamoDB known users table, the email is automatically verified and the user is migrated to the Cognito user pool.")

	user := actions.User{}
	user.UserName = runner.questioner.Ask("\nEnter a username:")
	user.UserEmail = runner.questioner.Ask("\nEnter an email that you own. This email will be used to confirm user migration\n" +
		"during this example:")

	runner.helper.AddKnownUser(ctx, usersTable, user)

	var err error
	var resetRequired *types.PasswordResetRequiredException
	var authResult *types.AuthenticationResultType
	signedIn := false
	for !signedIn && resetRequired == nil {
		log.Printf("Signing in to Cognito as user '%v'. The expected result is a PasswordResetRequiredException.\n\n", user.UserName)
		authResult, err = runner.cognitoActor.SignIn(ctx, clientId, user.UserName, "_")
		if err != nil {
			if errors.As(err, &resetRequired) {
				log.Printf("\nUser '%v' is not in the Cognito user pool but was found in the DynamoDB known users table.\n"+
					"User migration is started and a password reset is required.", user.UserName)
			} else {
				panic(err)
			}
		} else {
			log.Printf("User '%v' successfully signed in. This is unexpected and probably means you have not\n"+
				"cleaned up a previous run of this scenario, so the user exist in the Cognito user pool.\n"+
				"You can continue this example and select to clean up resources, or manually remove\n"+
				"the user from your user pool and try again.", user.UserName)
			runner.resources.userAccessTokens = append(runner.resources.userAccessTokens, *authResult.AccessToken)
			signedIn = true
		}
	}

	log.Println(strings.Repeat("-", 88))
	return resetRequired != nil, user
}

// ResetPassword starts a password recovery flow.
func (runner *MigrateUser) ResetPassword(ctx context.Context, clientId string, user actions.User) {
	wantCode := runner.questioner.AskBool(fmt.Sprintf("In order to migrate the user to Cognito, you must be able to receive a confirmation\n"+
		"code by email at %v. Do you want to send a code (y/n)?", user.UserEmail), "y")
	if !wantCode {
		log.Println("To complete this example and successfully migrate a user to Cognito, you must enter an email\n" +
			"you own that can receive a confirmation code.")
		return
	}
	codeDelivery, err := runner.cognitoActor.ForgotPassword(ctx, clientId, user.UserName)
	if err != nil {
		panic(err)
	}
	log.Printf("\nA confirmation code has been sent to %v.", *codeDelivery.Destination)
	code := runner.questioner.Ask("Check your email and enter it here:")

	confirmed := false
	password := runner.questioner.AskPassword("\nEnter a password that has at least eight characters, uppercase, lowercase, numbers and symbols.\n"+
		"(the password will not display as you type):", 8)
	for !confirmed {
		log.Printf("\nConfirming password reset for user '%v'.\n", user.UserName)
		err = runner.cognitoActor.ConfirmForgotPassword(ctx, clientId, code, user.UserName, password)
		if err != nil {
			var invalidPassword *types.InvalidPasswordException
			if errors.As(err, &invalidPassword) {
				password = runner.questioner.AskPassword("\nEnter another password:", 8)
			} else {
				panic(err)
			}
		} else {
			confirmed = true
		}
	}
	log.Printf("User '%v' successfully confirmed and migrated.\n", user.UserName)
	log.Println("Signing in with your username and password...")
	authResult, err := runner.cognitoActor.SignIn(ctx, clientId, user.UserName, password)
	if err != nil {
		panic(err)
	}
	log.Printf("Successfully signed in. Your access token starts with: %v...\n", (*authResult.AccessToken)[:10])
	runner.resources.userAccessTokens = append(runner.resources.userAccessTokens, *authResult.AccessToken)

	log.Println(strings.Repeat("-", 88))
}

// Run runs the scenario.
func (runner *MigrateUser) Run(ctx context.Context, stackName string) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			runner.resources.Cleanup(ctx)
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Printf("Welcome\n")

	log.Println(strings.Repeat("-", 88))

	stackOutputs, err := runner.helper.GetStackOutputs(ctx, stackName)
	if err != nil {
		panic(err)
	}
	runner.resources.userPoolId = stackOutputs["UserPoolId"]

	runner.AddMigrateUserTrigger(ctx, stackOutputs["UserPoolId"], stackOutputs["MigrateUserFunctionArn"])
	runner.resources.triggers = append(runner.resources.triggers, actions.UserMigration)
	resetNeeded, user := runner.SignInUser(ctx, stackOutputs["TableName"], stackOutputs["UserPoolClientId"])
	if resetNeeded {
		runner.helper.ListRecentLogEvents(ctx, stackOutputs["MigrateUserFunction"])
		runner.ResetPassword(ctx, stackOutputs["UserPoolClientId"], user)
	}

	runner.resources.Cleanup(ctx)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tangani `MigrateUser` pelatuk dengan fungsi Lambda.  

```
import (
	"context"
	"log"
	"os"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/expression"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
)

const TABLE_NAME = "TABLE_NAME"

// UserInfo defines structured user data that can be marshalled to a DynamoDB format.
type UserInfo struct {
	UserName  string `dynamodbav:"UserName"`
	UserEmail string `dynamodbav:"UserEmail"`
}

type handler struct {
	dynamoClient *dynamodb.Client
}

// HandleRequest handles the MigrateUser event by looking up a user in an Amazon DynamoDB table and
// specifying whether they should be migrated to the user pool.
func (h *handler) HandleRequest(ctx context.Context, event events.CognitoEventUserPoolsMigrateUser) (events.CognitoEventUserPoolsMigrateUser, error) {
	log.Printf("Received migrate trigger from %v for user '%v'", event.TriggerSource, event.UserName)
	if event.TriggerSource != "UserMigration_Authentication" {
		return event, nil
	}
	tableName := os.Getenv(TABLE_NAME)
	user := UserInfo{
		UserName: event.UserName,
	}
	log.Printf("Looking up user '%v' in table %v.\n", user.UserName, tableName)
	filterEx := expression.Name("UserName").Equal(expression.Value(user.UserName))
	expr, err := expression.NewBuilder().WithFilter(filterEx).Build()
	if err != nil {
		log.Printf("Error building expression to query for user '%v'.\n", user.UserName)
		return event, err
	}
	output, err := h.dynamoClient.Scan(ctx, &dynamodb.ScanInput{
		TableName:                 aws.String(tableName),
		FilterExpression:          expr.Filter(),
		ExpressionAttributeNames:  expr.Names(),
		ExpressionAttributeValues: expr.Values(),
	})
	if err != nil {
		log.Printf("Error looking up user '%v'.\n", user.UserName)
		return event, err
	}
	if len(output.Items) == 0 {
		log.Printf("User '%v' not found, not migrating user.\n", user.UserName)
		return event, err
	}

	var users []UserInfo
	err = attributevalue.UnmarshalListOfMaps(output.Items, &users)
	if err != nil {
		log.Printf("Couldn't unmarshal DynamoDB items. Here's why: %v\n", err)
		return event, err
	}

	user = users[0]
	log.Printf("UserName '%v' found with email %v. User is migrated and must reset password.\n", user.UserName, user.UserEmail)
	event.CognitoEventUserPoolsMigrateUserResponse.UserAttributes = map[string]string{
		"email":          user.UserEmail,
		"email_verified": "true", // email_verified is required for the forgot password flow.
	}
	event.CognitoEventUserPoolsMigrateUserResponse.FinalUserStatus = "RESET_REQUIRED"
	event.CognitoEventUserPoolsMigrateUserResponse.MessageAction = "SUPPRESS"

	return event, err
}

func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		log.Panicln(err)
	}
	h := handler{
		dynamoClient: dynamodb.NewFromConfig(sdkConfig),
	}
	lambda.Start(h.HandleRequest)
}
```
Buat struct yang melakukan tugas-tugas umum.  

```
import (
	"context"
	"log"
	"strings"
	"time"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// IScenarioHelper defines common functions used by the workflows in this example.
type IScenarioHelper interface {
	Pause(secs int)
	GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error)
	PopulateUserTable(ctx context.Context, tableName string)
	GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error)
	AddKnownUser(ctx context.Context, tableName string, user actions.User)
	ListRecentLogEvents(ctx context.Context, functionName string)
}

// ScenarioHelper contains AWS wrapper structs used by the workflows in this example.
type ScenarioHelper struct {
	questioner  demotools.IQuestioner
	dynamoActor *actions.DynamoActions
	cfnActor    *actions.CloudFormationActions
	cwlActor    *actions.CloudWatchLogsActions
	isTestRun   bool
}

// NewScenarioHelper constructs a new scenario helper.
func NewScenarioHelper(sdkConfig aws.Config, questioner demotools.IQuestioner) ScenarioHelper {
	scenario := ScenarioHelper{
		questioner:  questioner,
		dynamoActor: &actions.DynamoActions{DynamoClient: dynamodb.NewFromConfig(sdkConfig)},
		cfnActor:    &actions.CloudFormationActions{CfnClient: cloudformation.NewFromConfig(sdkConfig)},
		cwlActor:    &actions.CloudWatchLogsActions{CwlClient: cloudwatchlogs.NewFromConfig(sdkConfig)},
	}
	return scenario
}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	if !helper.isTestRun {
		time.Sleep(time.Duration(secs) * time.Second)
	}
}

// GetStackOutputs gets the outputs from the specified CloudFormation stack in a structured format.
func (helper ScenarioHelper) GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error) {
	return helper.cfnActor.GetOutputs(ctx, stackName), nil
}

// PopulateUserTable fills the known user table with example data.
func (helper ScenarioHelper) PopulateUserTable(ctx context.Context, tableName string) {
	log.Printf("First, let's add some users to the DynamoDB %v table we'll use for this example.\n", tableName)
	err := helper.dynamoActor.PopulateTable(ctx, tableName)
	if err != nil {
		panic(err)
	}
}

// GetKnownUsers gets the users from the known users table in a structured format.
func (helper ScenarioHelper) GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error) {
	knownUsers, err := helper.dynamoActor.Scan(ctx, tableName)
	if err != nil {
		log.Printf("Couldn't get known users from table %v. Here's why: %v\n", tableName, err)
	}
	return knownUsers, err
}

// AddKnownUser adds a user to the known users table.
func (helper ScenarioHelper) AddKnownUser(ctx context.Context, tableName string, user actions.User) {
	log.Printf("Adding user '%v' with email '%v' to the DynamoDB known users table...\n",
		user.UserName, user.UserEmail)
	err := helper.dynamoActor.AddUser(ctx, tableName, user)
	if err != nil {
		panic(err)
	}
}

// ListRecentLogEvents gets the most recent log stream and events for the specified Lambda function and displays them.
func (helper ScenarioHelper) ListRecentLogEvents(ctx context.Context, functionName string) {
	log.Println("Waiting a few seconds to let Lambda write to CloudWatch Logs...")
	helper.Pause(10)
	log.Println("Okay, let's check the logs to find what's happened recently with your Lambda function.")
	logStream, err := helper.cwlActor.GetLatestLogStream(ctx, functionName)
	if err != nil {
		panic(err)
	}
	log.Printf("Getting some recent events from log stream %v\n", *logStream.LogStreamName)
	events, err := helper.cwlActor.GetLogEvents(ctx, functionName, *logStream.LogStreamName, 10)
	if err != nil {
		panic(err)
	}
	for _, event := range events {
		log.Printf("\t%v", *event.Message)
	}
	log.Println(strings.Repeat("-", 88))
}
```
Buat struct yang membungkus tindakan Amazon Cognito.  

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// Trigger and TriggerInfo define typed data for updating an Amazon Cognito trigger.
type Trigger int

const (
	PreSignUp Trigger = iota
	UserMigration
	PostAuthentication
)

type TriggerInfo struct {
	Trigger    Trigger
	HandlerArn *string
}

// UpdateTriggers adds or removes Lambda triggers for a user pool. When a trigger is specified with a `nil` value,
// it is removed from the user pool.
func (actor CognitoActions) UpdateTriggers(ctx context.Context, userPoolId string, triggers ...TriggerInfo) error {
	output, err := actor.CognitoClient.DescribeUserPool(ctx, &cognitoidentityprovider.DescribeUserPoolInput{
		UserPoolId: aws.String(userPoolId),
	})
	if err != nil {
		log.Printf("Couldn't get info about user pool %v. Here's why: %v\n", userPoolId, err)
		return err
	}
	lambdaConfig := output.UserPool.LambdaConfig
	for _, trigger := range triggers {
		switch trigger.Trigger {
		case PreSignUp:
			lambdaConfig.PreSignUp = trigger.HandlerArn
		case UserMigration:
			lambdaConfig.UserMigration = trigger.HandlerArn
		case PostAuthentication:
			lambdaConfig.PostAuthentication = trigger.HandlerArn
		}
	}
	_, err = actor.CognitoClient.UpdateUserPool(ctx, &cognitoidentityprovider.UpdateUserPoolInput{
		UserPoolId:   aws.String(userPoolId),
		LambdaConfig: lambdaConfig,
	})
	if err != nil {
		log.Printf("Couldn't update user pool %v. Here's why: %v\n", userPoolId, err)
	}
	return err
}



// SignUp signs up a user with Amazon Cognito.
func (actor CognitoActions) SignUp(ctx context.Context, clientId string, userName string, password string, userEmail string) (bool, error) {
	confirmed := false
	output, err := actor.CognitoClient.SignUp(ctx, &cognitoidentityprovider.SignUpInput{
		ClientId: aws.String(clientId),
		Password: aws.String(password),
		Username: aws.String(userName),
		UserAttributes: []types.AttributeType{
			{Name: aws.String("email"), Value: aws.String(userEmail)},
		},
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't sign up user %v. Here's why: %v\n", userName, err)
		}
	} else {
		confirmed = output.UserConfirmed
	}
	return confirmed, err
}



// SignIn signs in a user to Amazon Cognito using a username and password authentication flow.
func (actor CognitoActions) SignIn(ctx context.Context, clientId string, userName string, password string) (*types.AuthenticationResultType, error) {
	var authResult *types.AuthenticationResultType
	output, err := actor.CognitoClient.InitiateAuth(ctx, &cognitoidentityprovider.InitiateAuthInput{
		AuthFlow:       "USER_PASSWORD_AUTH",
		ClientId:       aws.String(clientId),
		AuthParameters: map[string]string{"USERNAME": userName, "PASSWORD": password},
	})
	if err != nil {
		var resetRequired *types.PasswordResetRequiredException
		if errors.As(err, &resetRequired) {
			log.Println(*resetRequired.Message)
		} else {
			log.Printf("Couldn't sign in user %v. Here's why: %v\n", userName, err)
		}
	} else {
		authResult = output.AuthenticationResult
	}
	return authResult, err
}



// ForgotPassword starts a password recovery flow for a user. This flow typically sends a confirmation code
// to the user's configured notification destination, such as email.
func (actor CognitoActions) ForgotPassword(ctx context.Context, clientId string, userName string) (*types.CodeDeliveryDetailsType, error) {
	output, err := actor.CognitoClient.ForgotPassword(ctx, &cognitoidentityprovider.ForgotPasswordInput{
		ClientId: aws.String(clientId),
		Username: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't start password reset for user '%v'. Here;s why: %v\n", userName, err)
	}
	return output.CodeDeliveryDetails, err
}



// ConfirmForgotPassword confirms a user with a confirmation code and a new password.
func (actor CognitoActions) ConfirmForgotPassword(ctx context.Context, clientId string, code string, userName string, password string) error {
	_, err := actor.CognitoClient.ConfirmForgotPassword(ctx, &cognitoidentityprovider.ConfirmForgotPasswordInput{
		ClientId:         aws.String(clientId),
		ConfirmationCode: aws.String(code),
		Password:         aws.String(password),
		Username:         aws.String(userName),
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't confirm user %v. Here's why: %v", userName, err)
		}
	}
	return err
}



// DeleteUser removes a user from the user pool.
func (actor CognitoActions) DeleteUser(ctx context.Context, userAccessToken string) error {
	_, err := actor.CognitoClient.DeleteUser(ctx, &cognitoidentityprovider.DeleteUserInput{
		AccessToken: aws.String(userAccessToken),
	})
	if err != nil {
		log.Printf("Couldn't delete user. Here's why: %v\n", err)
	}
	return err
}



// AdminCreateUser uses administrator credentials to add a user to a user pool. This method leaves the user
// in a state that requires they enter a new password next time they sign in.
func (actor CognitoActions) AdminCreateUser(ctx context.Context, userPoolId string, userName string, userEmail string) error {
	_, err := actor.CognitoClient.AdminCreateUser(ctx, &cognitoidentityprovider.AdminCreateUserInput{
		UserPoolId:     aws.String(userPoolId),
		Username:       aws.String(userName),
		MessageAction:  types.MessageActionTypeSuppress,
		UserAttributes: []types.AttributeType{{Name: aws.String("email"), Value: aws.String(userEmail)}},
	})
	if err != nil {
		var userExists *types.UsernameExistsException
		if errors.As(err, &userExists) {
			log.Printf("User %v already exists in the user pool.", userName)
			err = nil
		} else {
			log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}



// AdminSetUserPassword uses administrator credentials to set a password for a user without requiring a
// temporary password.
func (actor CognitoActions) AdminSetUserPassword(ctx context.Context, userPoolId string, userName string, password string) error {
	_, err := actor.CognitoClient.AdminSetUserPassword(ctx, &cognitoidentityprovider.AdminSetUserPasswordInput{
		Password:   aws.String(password),
		UserPoolId: aws.String(userPoolId),
		Username:   aws.String(userName),
		Permanent:  true,
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't set password for user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}
```
Buat struct yang membungkus tindakan DynamoDB.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// DynamoActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type DynamoActions struct {
	DynamoClient *dynamodb.Client
}

// User defines structured user data.
type User struct {
	UserName  string
	UserEmail string
	LastLogin *LoginInfo `dynamodbav:",omitempty"`
}

// LoginInfo defines structured custom login data.
type LoginInfo struct {
	UserPoolId string
	ClientId   string
	Time       string
}

// UserList defines a list of users.
type UserList struct {
	Users []User
}

// UserNameList returns the usernames contained in a UserList as a list of strings.
func (users *UserList) UserNameList() []string {
	names := make([]string, len(users.Users))
	for i := 0; i < len(users.Users); i++ {
		names[i] = users.Users[i].UserName
	}
	return names
}

// PopulateTable adds a set of test users to the table.
func (actor DynamoActions) PopulateTable(ctx context.Context, tableName string) error {
	var err error
	var item map[string]types.AttributeValue
	var writeReqs []types.WriteRequest
	for i := 1; i < 4; i++ {
		item, err = attributevalue.MarshalMap(User{UserName: fmt.Sprintf("test_user_%v", i), UserEmail: fmt.Sprintf("test_email_%v@example.com", i)})
		if err != nil {
			log.Printf("Couldn't marshall user into DynamoDB format. Here's why: %v\n", err)
			return err
		}
		writeReqs = append(writeReqs, types.WriteRequest{PutRequest: &types.PutRequest{Item: item}})
	}
	_, err = actor.DynamoClient.BatchWriteItem(ctx, &dynamodb.BatchWriteItemInput{
		RequestItems: map[string][]types.WriteRequest{tableName: writeReqs},
	})
	if err != nil {
		log.Printf("Couldn't populate table %v with users. Here's why: %v\n", tableName, err)
	}
	return err
}

// Scan scans the table for all items.
func (actor DynamoActions) Scan(ctx context.Context, tableName string) (UserList, error) {
	var userList UserList
	output, err := actor.DynamoClient.Scan(ctx, &dynamodb.ScanInput{
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't scan table %v for items. Here's why: %v\n", tableName, err)
	} else {
		err = attributevalue.UnmarshalListOfMaps(output.Items, &userList.Users)
		if err != nil {
			log.Printf("Couldn't unmarshal items into users. Here's why: %v\n", err)
		}
	}
	return userList, err
}

// AddUser adds a user item to a table.
func (actor DynamoActions) AddUser(ctx context.Context, tableName string, user User) error {
	userItem, err := attributevalue.MarshalMap(user)
	if err != nil {
		log.Printf("Couldn't marshall user to item. Here's why: %v\n", err)
	}
	_, err = actor.DynamoClient.PutItem(ctx, &dynamodb.PutItemInput{
		Item:      userItem,
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't put item in table %v. Here's why: %v", tableName, err)
	}
	return err
}
```
Buat struct yang membungkus tindakan CloudWatch Log.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs/types"
)

type CloudWatchLogsActions struct {
	CwlClient *cloudwatchlogs.Client
}

// GetLatestLogStream gets the most recent log stream for a Lambda function.
func (actor CloudWatchLogsActions) GetLatestLogStream(ctx context.Context, functionName string) (types.LogStream, error) {
	var logStream types.LogStream
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.DescribeLogStreams(ctx, &cloudwatchlogs.DescribeLogStreamsInput{
		Descending:   aws.Bool(true),
		Limit:        aws.Int32(1),
		LogGroupName: aws.String(logGroupName),
		OrderBy:      types.OrderByLastEventTime,
	})
	if err != nil {
		log.Printf("Couldn't get log streams for log group %v. Here's why: %v\n", logGroupName, err)
	} else {
		logStream = output.LogStreams[0]
	}
	return logStream, err
}

// GetLogEvents gets the most recent eventCount events from the specified log stream.
func (actor CloudWatchLogsActions) GetLogEvents(ctx context.Context, functionName string, logStreamName string, eventCount int32) (
	[]types.OutputLogEvent, error) {
	var events []types.OutputLogEvent
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.GetLogEvents(ctx, &cloudwatchlogs.GetLogEventsInput{
		LogStreamName: aws.String(logStreamName),
		Limit:         aws.Int32(eventCount),
		LogGroupName:  aws.String(logGroupName),
	})
	if err != nil {
		log.Printf("Couldn't get log event for log stream %v. Here's why: %v\n", logStreamName, err)
	} else {
		events = output.Events
	}
	return events, err
}
```
Buat struct yang membungkus tindakan CloudFormation .  

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
)

// StackOutputs defines a map of outputs from a specific stack.
type StackOutputs map[string]string

type CloudFormationActions struct {
	CfnClient *cloudformation.Client
}

// GetOutputs gets the outputs from a CloudFormation stack and puts them into a structured format.
func (actor CloudFormationActions) GetOutputs(ctx context.Context, stackName string) StackOutputs {
	output, err := actor.CfnClient.DescribeStacks(ctx, &cloudformation.DescribeStacksInput{
		StackName: aws.String(stackName),
	})
	if err != nil || len(output.Stacks) == 0 {
		log.Panicf("Couldn't find a CloudFormation stack named %v. Here's why: %v\n", stackName, err)
	}
	stackOutputs := StackOutputs{}
	for _, out := range output.Stacks[0].Outputs {
		stackOutputs[*out.OutputKey] = *out.OutputValue
	}
	return stackOutputs
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"log"
	"user_pools_and_lambda_triggers/actions"

	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// Resources keeps track of AWS resources created during an example and handles
// cleanup when the example finishes.
type Resources struct {
	userPoolId       string
	userAccessTokens []string
	triggers         []actions.Trigger

	cognitoActor *actions.CognitoActions
	questioner   demotools.IQuestioner
}

func (resources *Resources) init(cognitoActor *actions.CognitoActions, questioner demotools.IQuestioner) {
	resources.userAccessTokens = []string{}
	resources.triggers = []actions.Trigger{}
	resources.cognitoActor = cognitoActor
	resources.questioner = questioner
}

// Cleanup deletes all AWS resources created during an example.
func (resources *Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong during cleanup.\n%v\n", r)
			log.Println("Use the AWS Management Console to remove any remaining resources \n" +
				"that were created for this scenario.")
		}
	}()

	wantDelete := resources.questioner.AskBool("Do you want to remove all of the AWS resources that were created "+
		"during this demo (y/n)?", "y")
	if wantDelete {
		for _, accessToken := range resources.userAccessTokens {
			err := resources.cognitoActor.DeleteUser(ctx, accessToken)
			if err != nil {
				log.Println("Couldn't delete user during cleanup.")
				panic(err)
			}
			log.Println("Deleted user.")
		}
		triggerList := make([]actions.TriggerInfo, len(resources.triggers))
		for i := 0; i < len(resources.triggers); i++ {
			triggerList[i] = actions.TriggerInfo{Trigger: resources.triggers[i], HandlerArn: nil}
		}
		err := resources.cognitoActor.UpdateTriggers(ctx, resources.userPoolId, triggerList...)
		if err != nil {
			log.Println("Couldn't update Cognito triggers during cleanup.")
			panic(err)
		}
		log.Println("Removed Cognito triggers from user pool.")
	} else {
		log.Println("Be sure to remove resources when you're done with them to avoid unexpected charges!")
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [ConfirmForgotPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.ConfirmForgotPassword)
  + [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.DeleteUser)
  + [ForgotPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.ForgotPassword)
  + [InitiateAuth](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.InitiateAuth)
  + [SignUp](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.SignUp)
  + [UpdateUserPool](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.UpdateUserPool)

### Menulis data aktivitas khusus dengan fungsi Lambda setelah otentikasi pengguna Amazon Cognito
<a name="cross_CognitoCustomActivityLog_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menulis data aktivitas kustom dengan fungsi Lambda setelah autentikasi pengguna Amazon Cognito.
+ Gunakan fungsi administrator untuk menambahkan pengguna ke kumpulan pengguna.
+ Konfigurasikan kumpulan pengguna untuk memanggil fungsi Lambda untuk `PostAuthentication` pemicunya.
+ Masuk pengguna baru ke Amazon Cognito.
+ Fungsi Lambda menulis informasi kustom ke CloudWatch Log dan ke tabel DynamoDB.
+ Dapatkan dan tampilkan data kustom dari tabel DynamoDB, lalu bersihkan sumber daya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/user_pools_and_lambda_triggers#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"errors"
	"log"
	"strings"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// ActivityLog separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type ActivityLog struct {
	helper       IScenarioHelper
	questioner   demotools.IQuestioner
	resources    Resources
	cognitoActor *actions.CognitoActions
}

// NewActivityLog constructs a new activity log runner.
func NewActivityLog(sdkConfig aws.Config, questioner demotools.IQuestioner, helper IScenarioHelper) ActivityLog {
	scenario := ActivityLog{
		helper:       helper,
		questioner:   questioner,
		resources:    Resources{},
		cognitoActor: &actions.CognitoActions{CognitoClient: cognitoidentityprovider.NewFromConfig(sdkConfig)},
	}
	scenario.resources.init(scenario.cognitoActor, questioner)
	return scenario
}

// AddUserToPool selects a user from the known users table and uses administrator credentials to add the user to the user pool.
func (runner *ActivityLog) AddUserToPool(ctx context.Context, userPoolId string, tableName string) (string, string) {
	log.Println("To facilitate this example, let's add a user to the user pool using administrator privileges.")
	users, err := runner.helper.GetKnownUsers(ctx, tableName)
	if err != nil {
		panic(err)
	}
	user := users.Users[0]
	log.Printf("Adding known user %v to the user pool.\n", user.UserName)
	err = runner.cognitoActor.AdminCreateUser(ctx, userPoolId, user.UserName, user.UserEmail)
	if err != nil {
		panic(err)
	}
	pwSet := false
	password := runner.questioner.AskPassword("\nEnter a password that has at least eight characters, uppercase, lowercase, numbers and symbols.\n"+
		"(the password will not display as you type):", 8)
	for !pwSet {
		log.Printf("\nSetting password for user '%v'.\n", user.UserName)
		err = runner.cognitoActor.AdminSetUserPassword(ctx, userPoolId, user.UserName, password)
		if err != nil {
			var invalidPassword *types.InvalidPasswordException
			if errors.As(err, &invalidPassword) {
				password = runner.questioner.AskPassword("\nEnter another password:", 8)
			} else {
				panic(err)
			}
		} else {
			pwSet = true
		}
	}

	log.Println(strings.Repeat("-", 88))

	return user.UserName, password
}

// AddActivityLogTrigger adds a Lambda handler as an invocation target for the PostAuthentication trigger.
func (runner *ActivityLog) AddActivityLogTrigger(ctx context.Context, userPoolId string, activityLogArn string) {
	log.Println("Let's add a Lambda function to handle the PostAuthentication trigger from Cognito.\n" +
		"This trigger happens after a user is authenticated, and lets your function take action, such as logging\n" +
		"the outcome.")
	err := runner.cognitoActor.UpdateTriggers(
		ctx, userPoolId,
		actions.TriggerInfo{Trigger: actions.PostAuthentication, HandlerArn: aws.String(activityLogArn)})
	if err != nil {
		panic(err)
	}
	runner.resources.triggers = append(runner.resources.triggers, actions.PostAuthentication)
	log.Printf("Lambda function %v added to user pool %v to handle PostAuthentication Cognito trigger.\n",
		activityLogArn, userPoolId)

	log.Println(strings.Repeat("-", 88))
}

// SignInUser signs in as the specified user.
func (runner *ActivityLog) SignInUser(ctx context.Context, clientId string, userName string, password string) {
	log.Printf("Now we'll sign in user %v and check the results in the logs and the DynamoDB table.", userName)
	runner.questioner.Ask("Press Enter when you're ready.")
	authResult, err := runner.cognitoActor.SignIn(ctx, clientId, userName, password)
	if err != nil {
		panic(err)
	}
	log.Println("Sign in successful.",
		"The PostAuthentication Lambda handler writes custom information to CloudWatch Logs.")

	runner.resources.userAccessTokens = append(runner.resources.userAccessTokens, *authResult.AccessToken)
}

// GetKnownUserLastLogin gets the login info for a user from the Amazon DynamoDB table and displays it.
func (runner *ActivityLog) GetKnownUserLastLogin(ctx context.Context, tableName string, userName string) {
	log.Println("The PostAuthentication handler also writes login data to the DynamoDB table.")
	runner.questioner.Ask("Press Enter when you're ready to continue.")
	users, err := runner.helper.GetKnownUsers(ctx, tableName)
	if err != nil {
		panic(err)
	}
	for _, user := range users.Users {
		if user.UserName == userName {
			log.Println("The last login info for the user in the known users table is:")
			log.Printf("\t%+v", *user.LastLogin)
		}
	}
	log.Println(strings.Repeat("-", 88))
}

// Run runs the scenario.
func (runner *ActivityLog) Run(ctx context.Context, stackName string) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			runner.resources.Cleanup(ctx)
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Printf("Welcome\n")

	log.Println(strings.Repeat("-", 88))

	stackOutputs, err := runner.helper.GetStackOutputs(ctx, stackName)
	if err != nil {
		panic(err)
	}
	runner.resources.userPoolId = stackOutputs["UserPoolId"]
	runner.helper.PopulateUserTable(ctx, stackOutputs["TableName"])
	userName, password := runner.AddUserToPool(ctx, stackOutputs["UserPoolId"], stackOutputs["TableName"])

	runner.AddActivityLogTrigger(ctx, stackOutputs["UserPoolId"], stackOutputs["ActivityLogFunctionArn"])
	runner.SignInUser(ctx, stackOutputs["UserPoolClientId"], userName, password)
	runner.helper.ListRecentLogEvents(ctx, stackOutputs["ActivityLogFunction"])
	runner.GetKnownUserLastLogin(ctx, stackOutputs["TableName"], userName)

	runner.resources.Cleanup(ctx)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tangani `PostAuthentication` pelatuk dengan fungsi Lambda.  

```
import (
	"context"
	"fmt"
	"log"
	"os"
	"time"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	dynamodbtypes "github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

const TABLE_NAME = "TABLE_NAME"

// LoginInfo defines structured login data that can be marshalled to a DynamoDB format.
type LoginInfo struct {
	UserPoolId string `dynamodbav:"UserPoolId"`
	ClientId   string `dynamodbav:"ClientId"`
	Time       string `dynamodbav:"Time"`
}

// UserInfo defines structured user data that can be marshalled to a DynamoDB format.
type UserInfo struct {
	UserName  string    `dynamodbav:"UserName"`
	UserEmail string    `dynamodbav:"UserEmail"`
	LastLogin LoginInfo `dynamodbav:"LastLogin"`
}

// GetKey marshals the user email value to a DynamoDB key format.
func (user UserInfo) GetKey() map[string]dynamodbtypes.AttributeValue {
	userEmail, err := attributevalue.Marshal(user.UserEmail)
	if err != nil {
		panic(err)
	}
	return map[string]dynamodbtypes.AttributeValue{"UserEmail": userEmail}
}

type handler struct {
	dynamoClient *dynamodb.Client
}

// HandleRequest handles the PostAuthentication event by writing custom data to the logs and
// to an Amazon DynamoDB table.
func (h *handler) HandleRequest(ctx context.Context, event events.CognitoEventUserPoolsPostAuthentication) (events.CognitoEventUserPoolsPostAuthentication, error) {
	log.Printf("Received post authentication trigger from %v for user '%v'", event.TriggerSource, event.UserName)
	tableName := os.Getenv(TABLE_NAME)
	user := UserInfo{
		UserName:  event.UserName,
		UserEmail: event.Request.UserAttributes["email"],
		LastLogin: LoginInfo{
			UserPoolId: event.UserPoolID,
			ClientId:   event.CallerContext.ClientID,
			Time:       time.Now().Format(time.UnixDate),
		},
	}
	// Write to CloudWatch Logs.
	fmt.Printf("%#v", user)

	// Also write to an external system. This examples uses DynamoDB to demonstrate.
	userMap, err := attributevalue.MarshalMap(user)
	if err != nil {
		log.Printf("Couldn't marshal to DynamoDB map. Here's why: %v\n", err)
	} else if len(userMap) == 0 {
		log.Printf("User info marshaled to an empty map.")
	} else {
		_, err := h.dynamoClient.PutItem(ctx, &dynamodb.PutItemInput{
			Item:      userMap,
			TableName: aws.String(tableName),
		})
		if err != nil {
			log.Printf("Couldn't write to DynamoDB. Here's why: %v\n", err)
		} else {
			log.Printf("Wrote user info to DynamoDB table %v.\n", tableName)
		}
	}

	return event, nil
}

func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		log.Panicln(err)
	}
	h := handler{
		dynamoClient: dynamodb.NewFromConfig(sdkConfig),
	}
	lambda.Start(h.HandleRequest)
}
```
Buat struct yang melakukan tugas-tugas umum.  

```
import (
	"context"
	"log"
	"strings"
	"time"
	"user_pools_and_lambda_triggers/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// IScenarioHelper defines common functions used by the workflows in this example.
type IScenarioHelper interface {
	Pause(secs int)
	GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error)
	PopulateUserTable(ctx context.Context, tableName string)
	GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error)
	AddKnownUser(ctx context.Context, tableName string, user actions.User)
	ListRecentLogEvents(ctx context.Context, functionName string)
}

// ScenarioHelper contains AWS wrapper structs used by the workflows in this example.
type ScenarioHelper struct {
	questioner  demotools.IQuestioner
	dynamoActor *actions.DynamoActions
	cfnActor    *actions.CloudFormationActions
	cwlActor    *actions.CloudWatchLogsActions
	isTestRun   bool
}

// NewScenarioHelper constructs a new scenario helper.
func NewScenarioHelper(sdkConfig aws.Config, questioner demotools.IQuestioner) ScenarioHelper {
	scenario := ScenarioHelper{
		questioner:  questioner,
		dynamoActor: &actions.DynamoActions{DynamoClient: dynamodb.NewFromConfig(sdkConfig)},
		cfnActor:    &actions.CloudFormationActions{CfnClient: cloudformation.NewFromConfig(sdkConfig)},
		cwlActor:    &actions.CloudWatchLogsActions{CwlClient: cloudwatchlogs.NewFromConfig(sdkConfig)},
	}
	return scenario
}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	if !helper.isTestRun {
		time.Sleep(time.Duration(secs) * time.Second)
	}
}

// GetStackOutputs gets the outputs from the specified CloudFormation stack in a structured format.
func (helper ScenarioHelper) GetStackOutputs(ctx context.Context, stackName string) (actions.StackOutputs, error) {
	return helper.cfnActor.GetOutputs(ctx, stackName), nil
}

// PopulateUserTable fills the known user table with example data.
func (helper ScenarioHelper) PopulateUserTable(ctx context.Context, tableName string) {
	log.Printf("First, let's add some users to the DynamoDB %v table we'll use for this example.\n", tableName)
	err := helper.dynamoActor.PopulateTable(ctx, tableName)
	if err != nil {
		panic(err)
	}
}

// GetKnownUsers gets the users from the known users table in a structured format.
func (helper ScenarioHelper) GetKnownUsers(ctx context.Context, tableName string) (actions.UserList, error) {
	knownUsers, err := helper.dynamoActor.Scan(ctx, tableName)
	if err != nil {
		log.Printf("Couldn't get known users from table %v. Here's why: %v\n", tableName, err)
	}
	return knownUsers, err
}

// AddKnownUser adds a user to the known users table.
func (helper ScenarioHelper) AddKnownUser(ctx context.Context, tableName string, user actions.User) {
	log.Printf("Adding user '%v' with email '%v' to the DynamoDB known users table...\n",
		user.UserName, user.UserEmail)
	err := helper.dynamoActor.AddUser(ctx, tableName, user)
	if err != nil {
		panic(err)
	}
}

// ListRecentLogEvents gets the most recent log stream and events for the specified Lambda function and displays them.
func (helper ScenarioHelper) ListRecentLogEvents(ctx context.Context, functionName string) {
	log.Println("Waiting a few seconds to let Lambda write to CloudWatch Logs...")
	helper.Pause(10)
	log.Println("Okay, let's check the logs to find what's happened recently with your Lambda function.")
	logStream, err := helper.cwlActor.GetLatestLogStream(ctx, functionName)
	if err != nil {
		panic(err)
	}
	log.Printf("Getting some recent events from log stream %v\n", *logStream.LogStreamName)
	events, err := helper.cwlActor.GetLogEvents(ctx, functionName, *logStream.LogStreamName, 10)
	if err != nil {
		panic(err)
	}
	for _, event := range events {
		log.Printf("\t%v", *event.Message)
	}
	log.Println(strings.Repeat("-", 88))
}
```
Buat struct yang membungkus tindakan Amazon Cognito.  

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider"
	"github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider/types"
)

type CognitoActions struct {
	CognitoClient *cognitoidentityprovider.Client
}



// Trigger and TriggerInfo define typed data for updating an Amazon Cognito trigger.
type Trigger int

const (
	PreSignUp Trigger = iota
	UserMigration
	PostAuthentication
)

type TriggerInfo struct {
	Trigger    Trigger
	HandlerArn *string
}

// UpdateTriggers adds or removes Lambda triggers for a user pool. When a trigger is specified with a `nil` value,
// it is removed from the user pool.
func (actor CognitoActions) UpdateTriggers(ctx context.Context, userPoolId string, triggers ...TriggerInfo) error {
	output, err := actor.CognitoClient.DescribeUserPool(ctx, &cognitoidentityprovider.DescribeUserPoolInput{
		UserPoolId: aws.String(userPoolId),
	})
	if err != nil {
		log.Printf("Couldn't get info about user pool %v. Here's why: %v\n", userPoolId, err)
		return err
	}
	lambdaConfig := output.UserPool.LambdaConfig
	for _, trigger := range triggers {
		switch trigger.Trigger {
		case PreSignUp:
			lambdaConfig.PreSignUp = trigger.HandlerArn
		case UserMigration:
			lambdaConfig.UserMigration = trigger.HandlerArn
		case PostAuthentication:
			lambdaConfig.PostAuthentication = trigger.HandlerArn
		}
	}
	_, err = actor.CognitoClient.UpdateUserPool(ctx, &cognitoidentityprovider.UpdateUserPoolInput{
		UserPoolId:   aws.String(userPoolId),
		LambdaConfig: lambdaConfig,
	})
	if err != nil {
		log.Printf("Couldn't update user pool %v. Here's why: %v\n", userPoolId, err)
	}
	return err
}



// SignUp signs up a user with Amazon Cognito.
func (actor CognitoActions) SignUp(ctx context.Context, clientId string, userName string, password string, userEmail string) (bool, error) {
	confirmed := false
	output, err := actor.CognitoClient.SignUp(ctx, &cognitoidentityprovider.SignUpInput{
		ClientId: aws.String(clientId),
		Password: aws.String(password),
		Username: aws.String(userName),
		UserAttributes: []types.AttributeType{
			{Name: aws.String("email"), Value: aws.String(userEmail)},
		},
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't sign up user %v. Here's why: %v\n", userName, err)
		}
	} else {
		confirmed = output.UserConfirmed
	}
	return confirmed, err
}



// SignIn signs in a user to Amazon Cognito using a username and password authentication flow.
func (actor CognitoActions) SignIn(ctx context.Context, clientId string, userName string, password string) (*types.AuthenticationResultType, error) {
	var authResult *types.AuthenticationResultType
	output, err := actor.CognitoClient.InitiateAuth(ctx, &cognitoidentityprovider.InitiateAuthInput{
		AuthFlow:       "USER_PASSWORD_AUTH",
		ClientId:       aws.String(clientId),
		AuthParameters: map[string]string{"USERNAME": userName, "PASSWORD": password},
	})
	if err != nil {
		var resetRequired *types.PasswordResetRequiredException
		if errors.As(err, &resetRequired) {
			log.Println(*resetRequired.Message)
		} else {
			log.Printf("Couldn't sign in user %v. Here's why: %v\n", userName, err)
		}
	} else {
		authResult = output.AuthenticationResult
	}
	return authResult, err
}



// ForgotPassword starts a password recovery flow for a user. This flow typically sends a confirmation code
// to the user's configured notification destination, such as email.
func (actor CognitoActions) ForgotPassword(ctx context.Context, clientId string, userName string) (*types.CodeDeliveryDetailsType, error) {
	output, err := actor.CognitoClient.ForgotPassword(ctx, &cognitoidentityprovider.ForgotPasswordInput{
		ClientId: aws.String(clientId),
		Username: aws.String(userName),
	})
	if err != nil {
		log.Printf("Couldn't start password reset for user '%v'. Here;s why: %v\n", userName, err)
	}
	return output.CodeDeliveryDetails, err
}



// ConfirmForgotPassword confirms a user with a confirmation code and a new password.
func (actor CognitoActions) ConfirmForgotPassword(ctx context.Context, clientId string, code string, userName string, password string) error {
	_, err := actor.CognitoClient.ConfirmForgotPassword(ctx, &cognitoidentityprovider.ConfirmForgotPasswordInput{
		ClientId:         aws.String(clientId),
		ConfirmationCode: aws.String(code),
		Password:         aws.String(password),
		Username:         aws.String(userName),
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't confirm user %v. Here's why: %v", userName, err)
		}
	}
	return err
}



// DeleteUser removes a user from the user pool.
func (actor CognitoActions) DeleteUser(ctx context.Context, userAccessToken string) error {
	_, err := actor.CognitoClient.DeleteUser(ctx, &cognitoidentityprovider.DeleteUserInput{
		AccessToken: aws.String(userAccessToken),
	})
	if err != nil {
		log.Printf("Couldn't delete user. Here's why: %v\n", err)
	}
	return err
}



// AdminCreateUser uses administrator credentials to add a user to a user pool. This method leaves the user
// in a state that requires they enter a new password next time they sign in.
func (actor CognitoActions) AdminCreateUser(ctx context.Context, userPoolId string, userName string, userEmail string) error {
	_, err := actor.CognitoClient.AdminCreateUser(ctx, &cognitoidentityprovider.AdminCreateUserInput{
		UserPoolId:     aws.String(userPoolId),
		Username:       aws.String(userName),
		MessageAction:  types.MessageActionTypeSuppress,
		UserAttributes: []types.AttributeType{{Name: aws.String("email"), Value: aws.String(userEmail)}},
	})
	if err != nil {
		var userExists *types.UsernameExistsException
		if errors.As(err, &userExists) {
			log.Printf("User %v already exists in the user pool.", userName)
			err = nil
		} else {
			log.Printf("Couldn't create user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}



// AdminSetUserPassword uses administrator credentials to set a password for a user without requiring a
// temporary password.
func (actor CognitoActions) AdminSetUserPassword(ctx context.Context, userPoolId string, userName string, password string) error {
	_, err := actor.CognitoClient.AdminSetUserPassword(ctx, &cognitoidentityprovider.AdminSetUserPasswordInput{
		Password:   aws.String(password),
		UserPoolId: aws.String(userPoolId),
		Username:   aws.String(userName),
		Permanent:  true,
	})
	if err != nil {
		var invalidPassword *types.InvalidPasswordException
		if errors.As(err, &invalidPassword) {
			log.Println(*invalidPassword.Message)
		} else {
			log.Printf("Couldn't set password for user %v. Here's why: %v\n", userName, err)
		}
	}
	return err
}
```
Buat struct yang membungkus tindakan DynamoDB.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/dynamodb/attributevalue"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb"
	"github.com/aws/aws-sdk-go-v2/service/dynamodb/types"
)

// DynamoActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type DynamoActions struct {
	DynamoClient *dynamodb.Client
}

// User defines structured user data.
type User struct {
	UserName  string
	UserEmail string
	LastLogin *LoginInfo `dynamodbav:",omitempty"`
}

// LoginInfo defines structured custom login data.
type LoginInfo struct {
	UserPoolId string
	ClientId   string
	Time       string
}

// UserList defines a list of users.
type UserList struct {
	Users []User
}

// UserNameList returns the usernames contained in a UserList as a list of strings.
func (users *UserList) UserNameList() []string {
	names := make([]string, len(users.Users))
	for i := 0; i < len(users.Users); i++ {
		names[i] = users.Users[i].UserName
	}
	return names
}

// PopulateTable adds a set of test users to the table.
func (actor DynamoActions) PopulateTable(ctx context.Context, tableName string) error {
	var err error
	var item map[string]types.AttributeValue
	var writeReqs []types.WriteRequest
	for i := 1; i < 4; i++ {
		item, err = attributevalue.MarshalMap(User{UserName: fmt.Sprintf("test_user_%v", i), UserEmail: fmt.Sprintf("test_email_%v@example.com", i)})
		if err != nil {
			log.Printf("Couldn't marshall user into DynamoDB format. Here's why: %v\n", err)
			return err
		}
		writeReqs = append(writeReqs, types.WriteRequest{PutRequest: &types.PutRequest{Item: item}})
	}
	_, err = actor.DynamoClient.BatchWriteItem(ctx, &dynamodb.BatchWriteItemInput{
		RequestItems: map[string][]types.WriteRequest{tableName: writeReqs},
	})
	if err != nil {
		log.Printf("Couldn't populate table %v with users. Here's why: %v\n", tableName, err)
	}
	return err
}

// Scan scans the table for all items.
func (actor DynamoActions) Scan(ctx context.Context, tableName string) (UserList, error) {
	var userList UserList
	output, err := actor.DynamoClient.Scan(ctx, &dynamodb.ScanInput{
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't scan table %v for items. Here's why: %v\n", tableName, err)
	} else {
		err = attributevalue.UnmarshalListOfMaps(output.Items, &userList.Users)
		if err != nil {
			log.Printf("Couldn't unmarshal items into users. Here's why: %v\n", err)
		}
	}
	return userList, err
}

// AddUser adds a user item to a table.
func (actor DynamoActions) AddUser(ctx context.Context, tableName string, user User) error {
	userItem, err := attributevalue.MarshalMap(user)
	if err != nil {
		log.Printf("Couldn't marshall user to item. Here's why: %v\n", err)
	}
	_, err = actor.DynamoClient.PutItem(ctx, &dynamodb.PutItemInput{
		Item:      userItem,
		TableName: aws.String(tableName),
	})
	if err != nil {
		log.Printf("Couldn't put item in table %v. Here's why: %v", tableName, err)
	}
	return err
}
```
Buat struct yang membungkus tindakan CloudWatch Log.  

```
import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs"
	"github.com/aws/aws-sdk-go-v2/service/cloudwatchlogs/types"
)

type CloudWatchLogsActions struct {
	CwlClient *cloudwatchlogs.Client
}

// GetLatestLogStream gets the most recent log stream for a Lambda function.
func (actor CloudWatchLogsActions) GetLatestLogStream(ctx context.Context, functionName string) (types.LogStream, error) {
	var logStream types.LogStream
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.DescribeLogStreams(ctx, &cloudwatchlogs.DescribeLogStreamsInput{
		Descending:   aws.Bool(true),
		Limit:        aws.Int32(1),
		LogGroupName: aws.String(logGroupName),
		OrderBy:      types.OrderByLastEventTime,
	})
	if err != nil {
		log.Printf("Couldn't get log streams for log group %v. Here's why: %v\n", logGroupName, err)
	} else {
		logStream = output.LogStreams[0]
	}
	return logStream, err
}

// GetLogEvents gets the most recent eventCount events from the specified log stream.
func (actor CloudWatchLogsActions) GetLogEvents(ctx context.Context, functionName string, logStreamName string, eventCount int32) (
	[]types.OutputLogEvent, error) {
	var events []types.OutputLogEvent
	logGroupName := fmt.Sprintf("/aws/lambda/%s", functionName)
	output, err := actor.CwlClient.GetLogEvents(ctx, &cloudwatchlogs.GetLogEventsInput{
		LogStreamName: aws.String(logStreamName),
		Limit:         aws.Int32(eventCount),
		LogGroupName:  aws.String(logGroupName),
	})
	if err != nil {
		log.Printf("Couldn't get log event for log stream %v. Here's why: %v\n", logStreamName, err)
	} else {
		events = output.Events
	}
	return events, err
}
```
Buat struct yang membungkus tindakan CloudFormation .  

```
import (
	"context"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/cloudformation"
)

// StackOutputs defines a map of outputs from a specific stack.
type StackOutputs map[string]string

type CloudFormationActions struct {
	CfnClient *cloudformation.Client
}

// GetOutputs gets the outputs from a CloudFormation stack and puts them into a structured format.
func (actor CloudFormationActions) GetOutputs(ctx context.Context, stackName string) StackOutputs {
	output, err := actor.CfnClient.DescribeStacks(ctx, &cloudformation.DescribeStacksInput{
		StackName: aws.String(stackName),
	})
	if err != nil || len(output.Stacks) == 0 {
		log.Panicf("Couldn't find a CloudFormation stack named %v. Here's why: %v\n", stackName, err)
	}
	stackOutputs := StackOutputs{}
	for _, out := range output.Stacks[0].Outputs {
		stackOutputs[*out.OutputKey] = *out.OutputValue
	}
	return stackOutputs
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"log"
	"user_pools_and_lambda_triggers/actions"

	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// Resources keeps track of AWS resources created during an example and handles
// cleanup when the example finishes.
type Resources struct {
	userPoolId       string
	userAccessTokens []string
	triggers         []actions.Trigger

	cognitoActor *actions.CognitoActions
	questioner   demotools.IQuestioner
}

func (resources *Resources) init(cognitoActor *actions.CognitoActions, questioner demotools.IQuestioner) {
	resources.userAccessTokens = []string{}
	resources.triggers = []actions.Trigger{}
	resources.cognitoActor = cognitoActor
	resources.questioner = questioner
}

// Cleanup deletes all AWS resources created during an example.
func (resources *Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong during cleanup.\n%v\n", r)
			log.Println("Use the AWS Management Console to remove any remaining resources \n" +
				"that were created for this scenario.")
		}
	}()

	wantDelete := resources.questioner.AskBool("Do you want to remove all of the AWS resources that were created "+
		"during this demo (y/n)?", "y")
	if wantDelete {
		for _, accessToken := range resources.userAccessTokens {
			err := resources.cognitoActor.DeleteUser(ctx, accessToken)
			if err != nil {
				log.Println("Couldn't delete user during cleanup.")
				panic(err)
			}
			log.Println("Deleted user.")
		}
		triggerList := make([]actions.TriggerInfo, len(resources.triggers))
		for i := 0; i < len(resources.triggers); i++ {
			triggerList[i] = actions.TriggerInfo{Trigger: resources.triggers[i], HandlerArn: nil}
		}
		err := resources.cognitoActor.UpdateTriggers(ctx, resources.userPoolId, triggerList...)
		if err != nil {
			log.Println("Couldn't update Cognito triggers during cleanup.")
			panic(err)
		}
		log.Println("Removed Cognito triggers from user pool.")
	} else {
		log.Println("Be sure to remove resources when you're done with them to avoid unexpected charges!")
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [AdminCreateUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.AdminCreateUser)
  + [AdminSetUserPassword](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.AdminSetUserPassword)
  + [DeleteUser](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.DeleteUser)
  + [InitiateAuth](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.InitiateAuth)
  + [UpdateUserPool](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/cognitoidentityprovider#Client.UpdateUserPool)

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Go.  

```
/*
Golang v2 code here.
*/

package main

import (
	"context"
	"database/sql"
	"encoding/json"
	"fmt"
	"os"

	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/feature/rds/auth"
	_ "github.com/go-sql-driver/mysql"
)

type MyEvent struct {
	Name string `json:"name"`
}

func HandleRequest(event *MyEvent) (map[string]interface{}, error) {

	var dbName string = os.Getenv("DatabaseName")
	var dbUser string = os.Getenv("DatabaseUser")
	var dbHost string = os.Getenv("DBHost") // Add hostname without https
	var dbPort int = os.Getenv("Port")      // Add port number
	var dbEndpoint string = fmt.Sprintf("%s:%d", dbHost, dbPort)
	var region string = os.Getenv("AWS_REGION")

	cfg, err := config.LoadDefaultConfig(context.TODO())
	if err != nil {
		panic("configuration error: " + err.Error())
	}

	authenticationToken, err := auth.BuildAuthToken(
		context.TODO(), dbEndpoint, region, dbUser, cfg.Credentials)
	if err != nil {
		panic("failed to create authentication token: " + err.Error())
	}

	dsn := fmt.Sprintf("%s:%s@tcp(%s)/%s?tls=true&allowCleartextPasswords=true",
		dbUser, authenticationToken, dbEndpoint, dbName,
	)

	db, err := sql.Open("mysql", dsn)
	if err != nil {
		panic(err)
	}

	defer db.Close()

	var sum int
	err = db.QueryRow("SELECT ?+? AS sum", 3, 2).Scan(&sum)
	if err != nil {
		panic(err)
	}
	s := fmt.Sprint(sum)
	message := fmt.Sprintf("The selected sum is: %s", s)

	messageBytes, err := json.Marshal(message)
	if err != nil {
		return nil, err
	}

	messageString := string(messageBytes)
	return map[string]interface{}{
		"statusCode": 200,
		"headers":    map[string]string{"Content-Type": "application/json"},
		"body":       messageString,
	}, nil
}

func main() {
	lambda.Start(HandleRequest)
}
```

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"log"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(ctx context.Context, kinesisEvent events.KinesisEvent) error {
	if len(kinesisEvent.Records) == 0 {
		log.Printf("empty Kinesis event received")
		return nil
	}

	for _, record := range kinesisEvent.Records {
		log.Printf("processed Kinesis event with EventId: %v", record.EventID)
		recordDataBytes := record.Kinesis.Data
		recordDataText := string(recordDataBytes)
		log.Printf("record data: %v", recordDataText)
		// TODO: Do interesting work based on the new data
	}
	log.Printf("successfully processed %v records", len(kinesisEvent.Records))
	return nil
}

func main() {
	lambda.Start(handler)
}
```

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil muatan DynamoDB dan mencatat isi catatan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-lambda-go/events"
	"fmt"
)

func HandleRequest(ctx context.Context, event events.DynamoDBEvent) (*string, error) {
	if len(event.Records) == 0 {
		return nil, fmt.Errorf("received empty event")
	}

	for _, record := range event.Records {
	 	LogDynamoDBRecord(record)
	}

	message := fmt.Sprintf("Records processed: %d", len(event.Records))
	return &message, nil
}

func main() {
	lambda.Start(HandleRequest)
}

func LogDynamoDBRecord(record events.DynamoDBEventRecord){
	fmt.Println(record.EventID)
	fmt.Println(record.EventName)
	fmt.Printf("%+v\n", record.Change)
}
```

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Go.  

```
package main

import (
	"context"
	"encoding/json"
	"fmt"

	"github.com/aws/aws-lambda-go/lambda"
)

type Event struct {
	Events []Record `json:"events"`
}

type Record struct {
	Event struct {
		OperationType string `json:"operationType"`
		NS            struct {
			DB   string `json:"db"`
			Coll string `json:"coll"`
		} `json:"ns"`
		FullDocument interface{} `json:"fullDocument"`
	} `json:"event"`
}

func main() {
	lambda.Start(handler)
}

func handler(ctx context.Context, event Event) (string, error) {
	fmt.Println("Loading function")
	for _, record := range event.Events {
		logDocumentDBEvent(record)
	}

	return "OK", nil
}

func logDocumentDBEvent(record Record) {
	fmt.Printf("Operation type: %s\n", record.Event.OperationType)
	fmt.Printf("db: %s\n", record.Event.NS.DB)
	fmt.Printf("collection: %s\n", record.Event.NS.Coll)
	docBytes, _ := json.MarshalIndent(record.Event.FullDocument, "", "  ")
	fmt.Printf("Full document: %s\n", string(docBytes))
}
```

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Go.  

```
package main

import (
	"encoding/base64"
	"fmt"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(event events.KafkaEvent) {
	for key, records := range event.Records {
		fmt.Println("Key:", key)

		for _, record := range records {
			fmt.Println("Record:", record)

			decodedValue, _ := base64.StdEncoding.DecodeString(record.Value)
			message := string(decodedValue)
			fmt.Println("Message:", message)
		}
	}
}

func main() {
	lambda.Start(handler)
}
```

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"log"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/s3"
)

func handler(ctx context.Context, s3Event events.S3Event) error {
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		log.Printf("failed to load default config: %s", err)
		return err
	}
	s3Client := s3.NewFromConfig(sdkConfig)

	for _, record := range s3Event.Records {
		bucket := record.S3.Bucket.Name
		key := record.S3.Object.URLDecodedKey
		headOutput, err := s3Client.HeadObject(ctx, &s3.HeadObjectInput{
			Bucket: &bucket,
			Key:    &key,
		})
		if err != nil {
			log.Printf("error getting head of object %s/%s: %s", bucket, key, err)
			return err
		}
		log.Printf("successfully retrieved %s/%s of type %s", bucket, key, *headOutput.ContentType)
	}

	return nil
}

func main() {
	lambda.Start(handler)
}
```

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"fmt"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(ctx context.Context, snsEvent events.SNSEvent) {
	for _, record := range snsEvent.Records {
		processMessage(record)
	}
	fmt.Println("done")
}

func processMessage(record events.SNSEventRecord) {
	message := record.SNS.Message
	fmt.Printf("Processed message: %s\n", message)
	// TODO: Process your record here
}

func main() {
	lambda.Start(handler)
}
```

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package integration_sqs_to_lambda

import (
	"fmt"
	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(event events.SQSEvent) error {
	for _, record := range event.Records {
		err := processMessage(record)
		if err != nil {
			return err
		}
	}
	fmt.Println("done")
	return nil
}

func processMessage(record events.SQSMessage) error {
	fmt.Printf("Processed message %s\n", record.Body)
	// TODO: Do interesting work based on the new message
	return nil
}

func main() {
	lambda.Start(handler)
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"fmt"
	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(ctx context.Context, kinesisEvent events.KinesisEvent) (map[string]interface{}, error) {
	batchItemFailures := []map[string]interface{}{}

	for _, record := range kinesisEvent.Records {
		curRecordSequenceNumber := ""

		// Process your record
		if /* Your record processing condition here */ {
			curRecordSequenceNumber = record.Kinesis.SequenceNumber
		}

		// Add a condition to check if the record processing failed
		if curRecordSequenceNumber != "" {
			batchItemFailures = append(batchItemFailures, map[string]interface{}{"itemIdentifier": curRecordSequenceNumber})
		}
	}

	kinesisBatchResponse := map[string]interface{}{
		"batchItemFailures": batchItemFailures,
	}
	return kinesisBatchResponse, nil
}

func main() {
	lambda.Start(handler)
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

type BatchItemFailure struct {
	ItemIdentifier string `json:"ItemIdentifier"`
}

type BatchResult struct {
	BatchItemFailures []BatchItemFailure `json:"BatchItemFailures"`
}

func HandleRequest(ctx context.Context, event events.DynamoDBEvent) (*BatchResult, error) {
	var batchItemFailures []BatchItemFailure
	curRecordSequenceNumber := ""

	for _, record := range event.Records {
		// Process your record
		curRecordSequenceNumber = record.Change.SequenceNumber
	}

	if curRecordSequenceNumber != "" {
		batchItemFailures = append(batchItemFailures, BatchItemFailure{ItemIdentifier: curRecordSequenceNumber})
	}
	
	batchResult := BatchResult{
		BatchItemFailures: batchItemFailures,
	}

	return &batchResult, nil
}

func main() {
	lambda.Start(HandleRequest)
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"fmt"
	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(ctx context.Context, sqsEvent events.SQSEvent) (map[string]interface{}, error) {
	batchItemFailures := []map[string]interface{}{}

	for _, message := range sqsEvent.Records {
		if len(message.Body) > 0 {
			// Your message processing condition here
			fmt.Printf("Successfully processed message: %s\n", message.Body)
		} else {
			// Message processing failed
			fmt.Printf("Failed to process message %s\n", message.MessageId)
			batchItemFailures = append(batchItemFailures, map[string]interface{}{"itemIdentifier": message.MessageId})
		}
	}

	sqsBatchResponse := map[string]interface{}{
		"batchItemFailures": batchItemFailures,
	}
	return sqsBatchResponse, nil
}

func main() {
	lambda.Start(handler)
}
```

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_go_2_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk Go V2**  
 Menunjukkan cara membuat dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Go SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-go-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh MSK Amazon menggunakan SDK for Go V2
<a name="go_2_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon MSK.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Go.  

```
package main

import (
	"encoding/base64"
	"fmt"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(event events.KafkaEvent) {
	for key, records := range event.Records {
		fmt.Println("Key:", key)

		for _, record := range records {
			fmt.Println("Record:", record)

			decodedValue, _ := base64.StdEncoding.DecodeString(record.Value)
			message := string(decodedValue)
			fmt.Println("Message:", message)
		}
	}
}

func main() {
	lambda.Start(handler)
}
```

# Contoh Partner Central menggunakan SDK for Go V2
<a name="go_2_partnercentral-selling_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Partner Central.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetOpportunity`
<a name="partnercentral-selling_GetOpportunity_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetOpportunity`.

**SDK untuk Go V2**  
Dapatkan kesempatan.  

```
package main

import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/partnercentralselling"
)

func main() {
	config, err := config.LoadDefaultConfig(context.TODO())

	if err != nil {
		log.Fatal(err)
	}

	config.Region = "us-east-1"

	client := partnercentralselling.NewFromConfig(config)

	output, err := client.GetOpportunity(context.TODO(), &partnercentralselling.GetOpportunityInput{
		Identifier: aws.String("O1111111"),
		Catalog:    aws.String("AWS"),
	})

	if err != nil {
		log.Fatal(err)
	}
	log.Println("printing opportuniy...\n")

	jsonOutput, err := json.MarshalIndent(output, "", "    ")

	fmt.Println(string(jsonOutput))
}
```
+  Untuk detail API, lihat [GetOpportunity](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/partnercentralselling#Client.GetOpportunity)di *Referensi AWS SDK untuk Go API*. 

### `ListOpportunities`
<a name="partnercentral-selling_ListOpportunities_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOpportunities`.

**SDK untuk Go V2**  
Daftar peluang.  

```
package main

import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/partnercentralselling"
)

func main() {
	config, err := config.LoadDefaultConfig(context.TODO())

	if err != nil {
		log.Fatal(err)
	}

	config.Region = "us-east-1"

	client := partnercentralselling.NewFromConfig(config)

	output, err := client.ListOpportunities(context.TODO(), &partnercentralselling.ListOpportunitiesInput{
		MaxResults: aws.Int32(2),
		Catalog:    aws.String("AWS"),
	})

	if err != nil {
		log.Fatal(err)
	}

	jsonOutput, err := json.MarshalIndent(output, "", "    ")
	fmt.Println(string(jsonOutput))
}
```
+  Untuk detail API, lihat [ListOpportunities](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/partnercentralselling#Client.ListOpportunities)di *Referensi AWS SDK untuk Go API*. 

# Contoh Amazon RDS menggunakan SDK for Go V2
<a name="go_2_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon RDS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon RDS
<a name="rds_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon RDS.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
package main

import (
	"context"
	"fmt"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/rds"
)

// main uses the AWS SDK for Go V2 to create an Amazon Relational Database Service (Amazon RDS)
// client and list up to 20 DB instances in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	rdsClient := rds.NewFromConfig(sdkConfig)
	const maxInstances = 20
	fmt.Printf("Let's list up to %v DB instances.\n", maxInstances)
	output, err := rdsClient.DescribeDBInstances(ctx,
		&rds.DescribeDBInstancesInput{MaxRecords: aws.Int32(maxInstances)})
	if err != nil {
		fmt.Printf("Couldn't list DB instances: %v\n", err)
		return
	}
	if len(output.DBInstances) == 0 {
		fmt.Println("No DB instances found.")
	} else {
		for _, instance := range output.DBInstances {
			fmt.Printf("DB instance %v has database %v.\n", *instance.DBInstanceIdentifier,
				*instance.DBName)
		}
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBInstances) di *Referensi AWS SDK untuk Go API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="rds_Scenario_GetStartedInstances_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter basis data kustom dan mengatur nilai parameter.
+ Membuat instans basis data yang dikonfigurasikan untuk menggunakan grup parameter. Instans basis data juga berisi basis data.
+ Mengambil cuplikan instans.
+ Menghapus instans dan grup parameter.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"fmt"
	"log"
	"sort"
	"strconv"
	"strings"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/rds/actions"
	"github.com/google/uuid"
)

// GetStartedInstances is an interactive example that shows you how to use the AWS SDK for Go
// with Amazon Relation Database Service (Amazon RDS) to do the following:
//
//  1. Create a custom DB parameter group and set parameter values.
//  2. Create a DB instance that is configured to use the parameter group. The DB instance
//     also contains a database.
//  3. Take a snapshot of the DB instance.
//  4. Delete the DB instance and parameter group.
type GetStartedInstances struct {
	sdkConfig  aws.Config
	instances  actions.DbInstances
	questioner demotools.IQuestioner
	helper     IScenarioHelper
	isTestRun  bool
}

// NewGetStartedInstances constructs a GetStartedInstances instance from a configuration.
// It uses the specified config to get an Amazon RDS
// client and create wrappers for the actions used in the scenario.
func NewGetStartedInstances(sdkConfig aws.Config, questioner demotools.IQuestioner,
	helper IScenarioHelper) GetStartedInstances {
	rdsClient := rds.NewFromConfig(sdkConfig)
	return GetStartedInstances{
		sdkConfig:  sdkConfig,
		instances:  actions.DbInstances{RdsClient: rdsClient},
		questioner: questioner,
		helper:     helper,
	}
}

// Run runs the interactive scenario.
func (scenario GetStartedInstances) Run(ctx context.Context, dbEngine string, parameterGroupName string,
	instanceName string, dbName string) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon Relational Database Service (Amazon RDS) DB Instance demo.")
	log.Println(strings.Repeat("-", 88))

	parameterGroup := scenario.CreateParameterGroup(ctx, dbEngine, parameterGroupName)
	scenario.SetUserParameters(ctx, parameterGroupName)
	instance := scenario.CreateInstance(ctx, instanceName, dbEngine, dbName, parameterGroup)
	scenario.DisplayConnection(instance)
	scenario.CreateSnapshot(ctx, instance)
	scenario.Cleanup(ctx, instance, parameterGroup)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}

// CreateParameterGroup shows how to get available engine versions for a specified
// database engine and create a DB parameter group that is compatible with a
// selected engine family.
func (scenario GetStartedInstances) CreateParameterGroup(ctx context.Context, dbEngine string,
	parameterGroupName string) *types.DBParameterGroup {

	log.Printf("Checking for an existing DB parameter group named %v.\n",
		parameterGroupName)
	parameterGroup, err := scenario.instances.GetParameterGroup(ctx, parameterGroupName)
	if err != nil {
		panic(err)
	}
	if parameterGroup == nil {
		log.Printf("Getting available database engine versions for %v.\n", dbEngine)
		engineVersions, err := scenario.instances.GetEngineVersions(ctx, dbEngine, "")
		if err != nil {
			panic(err)
		}

		familySet := map[string]struct{}{}
		for _, family := range engineVersions {
			familySet[*family.DBParameterGroupFamily] = struct{}{}
		}
		var families []string
		for family := range familySet {
			families = append(families, family)
		}
		sort.Strings(families)
		familyIndex := scenario.questioner.AskChoice("Which family do you want to use?\n", families)
		log.Println("Creating a DB parameter group.")
		_, err = scenario.instances.CreateParameterGroup(
			ctx, parameterGroupName, families[familyIndex], "Example parameter group.")
		if err != nil {
			panic(err)
		}
		parameterGroup, err = scenario.instances.GetParameterGroup(ctx, parameterGroupName)
		if err != nil {
			panic(err)
		}
	}
	log.Printf("Parameter group %v:\n", *parameterGroup.DBParameterGroupFamily)
	log.Printf("\tName: %v\n", *parameterGroup.DBParameterGroupName)
	log.Printf("\tARN: %v\n", *parameterGroup.DBParameterGroupArn)
	log.Printf("\tFamily: %v\n", *parameterGroup.DBParameterGroupFamily)
	log.Printf("\tDescription: %v\n", *parameterGroup.Description)
	log.Println(strings.Repeat("-", 88))
	return parameterGroup
}

// SetUserParameters shows how to get the parameters contained in a custom parameter
// group and update some of the parameter values in the group.
func (scenario GetStartedInstances) SetUserParameters(ctx context.Context, parameterGroupName string) {
	log.Println("Let's set some parameter values in your parameter group.")
	dbParameters, err := scenario.instances.GetParameters(ctx, parameterGroupName, "")
	if err != nil {
		panic(err)
	}
	var updateParams []types.Parameter
	for _, dbParam := range dbParameters {
		if strings.HasPrefix(*dbParam.ParameterName, "auto_increment") &&
			*dbParam.IsModifiable && *dbParam.DataType == "integer" {
			log.Printf("The %v parameter is described as:\n\t%v",
				*dbParam.ParameterName, *dbParam.Description)
			rangeSplit := strings.Split(*dbParam.AllowedValues, "-")
			lower, _ := strconv.Atoi(rangeSplit[0])
			upper, _ := strconv.Atoi(rangeSplit[1])
			newValue := scenario.questioner.AskInt(
				fmt.Sprintf("Enter a value between %v and %v:", lower, upper),
				demotools.InIntRange{Lower: lower, Upper: upper})
			dbParam.ParameterValue = aws.String(strconv.Itoa(newValue))
			updateParams = append(updateParams, dbParam)
		}
	}
	err = scenario.instances.UpdateParameters(ctx, parameterGroupName, updateParams)
	if err != nil {
		panic(err)
	}
	log.Println("To get a list of parameters that you set previously, specify a source of 'user'.")
	userParameters, err := scenario.instances.GetParameters(ctx, parameterGroupName, "user")
	if err != nil {
		panic(err)
	}
	log.Println("Here are the parameters you set:")
	for _, param := range userParameters {
		log.Printf("\t%v: %v\n", *param.ParameterName, *param.ParameterValue)
	}
	log.Println(strings.Repeat("-", 88))
}

// CreateInstance shows how to create a DB instance that contains a database of a
// specified type. The database is also configured to use a custom DB parameter group.
func (scenario GetStartedInstances) CreateInstance(ctx context.Context, instanceName string, dbEngine string,
	dbName string, parameterGroup *types.DBParameterGroup) *types.DBInstance {

	log.Println("Checking for an existing DB instance.")
	instance, err := scenario.instances.GetInstance(ctx, instanceName)
	if err != nil {
		panic(err)
	}
	if instance == nil {
		adminUsername := scenario.questioner.Ask(
			"Enter an administrator username for the database: ", demotools.NotEmpty{})
		adminPassword := scenario.questioner.AskPassword(
			"Enter a password for the administrator (at least 8 characters): ", 7)
		engineVersions, err := scenario.instances.GetEngineVersions(ctx, dbEngine,
			*parameterGroup.DBParameterGroupFamily)
		if err != nil {
			panic(err)
		}
		var engineChoices []string
		for _, engine := range engineVersions {
			engineChoices = append(engineChoices, *engine.EngineVersion)
		}
		engineIndex := scenario.questioner.AskChoice(
			"The available engines for your parameter group are:\n", engineChoices)
		engineSelection := engineVersions[engineIndex]
		instOpts, err := scenario.instances.GetOrderableInstances(ctx, *engineSelection.Engine,
			*engineSelection.EngineVersion)
		if err != nil {
			panic(err)
		}
		optSet := map[string]struct{}{}
		for _, opt := range instOpts {
			if strings.Contains(*opt.DBInstanceClass, "micro") {
				optSet[*opt.DBInstanceClass] = struct{}{}
			}
		}
		var optChoices []string
		for opt := range optSet {
			optChoices = append(optChoices, opt)
		}
		sort.Strings(optChoices)
		optIndex := scenario.questioner.AskChoice(
			"The available micro DB instance classes for your database engine are:\n", optChoices)
		storageType := "standard"
		allocatedStorage := int32(5)
		log.Printf("Creating a DB instance named %v and database %v.\n"+
			"The DB instance is configured to use your custom parameter group %v,\n"+
			"selected engine %v,\n"+
			"selected DB instance class %v,"+
			"and %v GiB of %v storage.\n"+
			"This typically takes several minutes.",
			instanceName, dbName, *parameterGroup.DBParameterGroupName, *engineSelection.EngineVersion,
			optChoices[optIndex], allocatedStorage, storageType)
		instance, err = scenario.instances.CreateInstance(
			ctx, instanceName, dbName, *engineSelection.Engine, *engineSelection.EngineVersion,
			*parameterGroup.DBParameterGroupName, optChoices[optIndex], storageType,
			allocatedStorage, adminUsername, adminPassword)
		if err != nil {
			panic(err)
		}
		for *instance.DBInstanceStatus != "available" {
			scenario.helper.Pause(30)
			instance, err = scenario.instances.GetInstance(ctx, instanceName)
			if err != nil {
				panic(err)
			}
		}
		log.Println("Instance created and available.")
	}
	log.Println("Instance data:")
	log.Printf("\tDBInstanceIdentifier: %v\n", *instance.DBInstanceIdentifier)
	log.Printf("\tARN: %v\n", *instance.DBInstanceArn)
	log.Printf("\tStatus: %v\n", *instance.DBInstanceStatus)
	log.Printf("\tEngine: %v\n", *instance.Engine)
	log.Printf("\tEngine version: %v\n", *instance.EngineVersion)
	log.Println(strings.Repeat("-", 88))
	return instance
}

// DisplayConnection displays connection information about a DB instance and tips
// on how to connect to it.
func (scenario GetStartedInstances) DisplayConnection(instance *types.DBInstance) {
	log.Println(
		"You can now connect to your database by using your favorite MySQL client.\n" +
			"One way to connect is by using the 'mysql' shell on an Amazon EC2 instance\n" +
			"that is running in the same VPC as your DB instance. Pass the endpoint,\n" +
			"port, and administrator username to 'mysql'. Then, enter your password\n" +
			"when prompted:")
	log.Printf("\n\tmysql -h %v -P %v -u %v -p\n",
		*instance.Endpoint.Address, instance.Endpoint.Port, *instance.MasterUsername)
	log.Println("For more information, see the User Guide for RDS:\n" +
		"\thttps://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/CHAP_GettingStarted.CreatingConnecting.MySQL.html#CHAP_GettingStarted.Connecting.MySQL")
	log.Println(strings.Repeat("-", 88))
}

// CreateSnapshot shows how to create a DB instance snapshot and wait until it's available.
func (scenario GetStartedInstances) CreateSnapshot(ctx context.Context, instance *types.DBInstance) {
	if scenario.questioner.AskBool(
		"Do you want to create a snapshot of your DB instance (y/n)? ", "y") {
		snapshotId := fmt.Sprintf("%v-%v", *instance.DBInstanceIdentifier, scenario.helper.UniqueId())
		log.Printf("Creating a snapshot named %v. This typically takes a few minutes.\n", snapshotId)
		snapshot, err := scenario.instances.CreateSnapshot(ctx, *instance.DBInstanceIdentifier, snapshotId)
		if err != nil {
			panic(err)
		}
		for *snapshot.Status != "available" {
			scenario.helper.Pause(30)
			snapshot, err = scenario.instances.GetSnapshot(ctx, snapshotId)
			if err != nil {
				panic(err)
			}
		}
		log.Println("Snapshot data:")
		log.Printf("\tDBSnapshotIdentifier: %v\n", *snapshot.DBSnapshotIdentifier)
		log.Printf("\tARN: %v\n", *snapshot.DBSnapshotArn)
		log.Printf("\tStatus: %v\n", *snapshot.Status)
		log.Printf("\tEngine: %v\n", *snapshot.Engine)
		log.Printf("\tEngine version: %v\n", *snapshot.EngineVersion)
		log.Printf("\tDBInstanceIdentifier: %v\n", *snapshot.DBInstanceIdentifier)
		log.Printf("\tSnapshotCreateTime: %v\n", *snapshot.SnapshotCreateTime)
		log.Println(strings.Repeat("-", 88))
	}
}

// Cleanup shows how to clean up a DB instance and DB parameter group.
// Before the DB parameter group can be deleted, all associated DB instances must first be deleted.
func (scenario GetStartedInstances) Cleanup(
	ctx context.Context, instance *types.DBInstance, parameterGroup *types.DBParameterGroup) {

	if scenario.questioner.AskBool(
		"\nDo you want to delete the database instance and parameter group (y/n)? ", "y") {
		log.Printf("Deleting database instance %v.\n", *instance.DBInstanceIdentifier)
		err := scenario.instances.DeleteInstance(ctx, *instance.DBInstanceIdentifier)
		if err != nil {
			panic(err)
		}
		log.Println(
			"Waiting for the DB instance to delete. This typically takes several minutes.")
		for instance != nil {
			scenario.helper.Pause(30)
			instance, err = scenario.instances.GetInstance(ctx, *instance.DBInstanceIdentifier)
			if err != nil {
				panic(err)
			}
		}
		log.Printf("Deleting parameter group %v.", *parameterGroup.DBParameterGroupName)
		err = scenario.instances.DeleteParameterGroup(ctx, *parameterGroup.DBParameterGroupName)
		if err != nil {
			panic(err)
		}
	}
}

// IScenarioHelper abstracts the function from a scenario so that it
// can be mocked for unit testing.
type IScenarioHelper interface {
	Pause(secs int)
	UniqueId() string
}
type ScenarioHelper struct{}

// Pause waits for the specified number of seconds.
func (helper ScenarioHelper) Pause(secs int) {
	time.Sleep(time.Duration(secs) * time.Second)
}

// UniqueId returns a new UUID.
func (helper ScenarioHelper) UniqueId() string {
	return uuid.New().String()
}
```
Tentukan fungsi-fungsi yang dipanggil oleh skenario untuk mengelola tindakan Amazon RDS.  

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}


// GetParameterGroup gets a DB parameter group by name.
func (instances *DbInstances) GetParameterGroup(ctx context.Context, parameterGroupName string) (
	*types.DBParameterGroup, error) {
	output, err := instances.RdsClient.DescribeDBParameterGroups(
		ctx, &rds.DescribeDBParameterGroupsInput{
			DBParameterGroupName: aws.String(parameterGroupName),
		})
	if err != nil {
		var notFoundError *types.DBParameterGroupNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("Parameter group %v does not exist.\n", parameterGroupName)
			err = nil
		} else {
			log.Printf("Error getting parameter group %v: %v\n", parameterGroupName, err)
		}
		return nil, err
	} else {
		return &output.DBParameterGroups[0], err
	}
}



// CreateParameterGroup creates a DB parameter group that is based on the specified
// parameter group family.
func (instances *DbInstances) CreateParameterGroup(
	ctx context.Context, parameterGroupName string, parameterGroupFamily string, description string) (
	*types.DBParameterGroup, error) {

	output, err := instances.RdsClient.CreateDBParameterGroup(ctx,
		&rds.CreateDBParameterGroupInput{
			DBParameterGroupName:   aws.String(parameterGroupName),
			DBParameterGroupFamily: aws.String(parameterGroupFamily),
			Description:            aws.String(description),
		})
	if err != nil {
		log.Printf("Couldn't create parameter group %v: %v\n", parameterGroupName, err)
		return nil, err
	} else {
		return output.DBParameterGroup, err
	}
}



// DeleteParameterGroup deletes the named DB parameter group.
func (instances *DbInstances) DeleteParameterGroup(ctx context.Context, parameterGroupName string) error {
	_, err := instances.RdsClient.DeleteDBParameterGroup(ctx,
		&rds.DeleteDBParameterGroupInput{
			DBParameterGroupName: aws.String(parameterGroupName),
		})
	if err != nil {
		log.Printf("Couldn't delete parameter group %v: %v\n", parameterGroupName, err)
		return err
	} else {
		return nil
	}
}



// GetParameters gets the parameters that are contained in a DB parameter group.
func (instances *DbInstances) GetParameters(ctx context.Context, parameterGroupName string, source string) (
	[]types.Parameter, error) {

	var output *rds.DescribeDBParametersOutput
	var params []types.Parameter
	var err error
	parameterPaginator := rds.NewDescribeDBParametersPaginator(instances.RdsClient,
		&rds.DescribeDBParametersInput{
			DBParameterGroupName: aws.String(parameterGroupName),
			Source:               aws.String(source),
		})
	for parameterPaginator.HasMorePages() {
		output, err = parameterPaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get parameters for %v: %v\n", parameterGroupName, err)
			break
		} else {
			params = append(params, output.Parameters...)
		}
	}
	return params, err
}



// UpdateParameters updates parameters in a named DB parameter group.
func (instances *DbInstances) UpdateParameters(ctx context.Context, parameterGroupName string, params []types.Parameter) error {
	_, err := instances.RdsClient.ModifyDBParameterGroup(ctx,
		&rds.ModifyDBParameterGroupInput{
			DBParameterGroupName: aws.String(parameterGroupName),
			Parameters:           params,
		})
	if err != nil {
		log.Printf("Couldn't update parameters in %v: %v\n", parameterGroupName, err)
		return err
	} else {
		return nil
	}
}



// CreateSnapshot creates a snapshot of a DB instance.
func (instances *DbInstances) CreateSnapshot(ctx context.Context, instanceName string, snapshotName string) (
	*types.DBSnapshot, error) {
	output, err := instances.RdsClient.CreateDBSnapshot(ctx, &rds.CreateDBSnapshotInput{
		DBInstanceIdentifier: aws.String(instanceName),
		DBSnapshotIdentifier: aws.String(snapshotName),
	})
	if err != nil {
		log.Printf("Couldn't create snapshot %v: %v\n", snapshotName, err)
		return nil, err
	} else {
		return output.DBSnapshot, nil
	}
}



// GetSnapshot gets a DB instance snapshot.
func (instances *DbInstances) GetSnapshot(ctx context.Context, snapshotName string) (*types.DBSnapshot, error) {
	output, err := instances.RdsClient.DescribeDBSnapshots(ctx,
		&rds.DescribeDBSnapshotsInput{
			DBSnapshotIdentifier: aws.String(snapshotName),
		})
	if err != nil {
		log.Printf("Couldn't get snapshot %v: %v\n", snapshotName, err)
		return nil, err
	} else {
		return &output.DBSnapshots[0], nil
	}
}



// CreateInstance creates a DB instance.
func (instances *DbInstances) CreateInstance(ctx context.Context, instanceName string, dbName string,
	dbEngine string, dbEngineVersion string, parameterGroupName string, dbInstanceClass string,
	storageType string, allocatedStorage int32, adminName string, adminPassword string) (
	*types.DBInstance, error) {
	output, err := instances.RdsClient.CreateDBInstance(ctx, &rds.CreateDBInstanceInput{
		DBInstanceIdentifier: aws.String(instanceName),
		DBName:               aws.String(dbName),
		DBParameterGroupName: aws.String(parameterGroupName),
		Engine:               aws.String(dbEngine),
		EngineVersion:        aws.String(dbEngineVersion),
		DBInstanceClass:      aws.String(dbInstanceClass),
		StorageType:          aws.String(storageType),
		AllocatedStorage:     aws.Int32(allocatedStorage),
		MasterUsername:       aws.String(adminName),
		MasterUserPassword:   aws.String(adminPassword),
	})
	if err != nil {
		log.Printf("Couldn't create instance %v: %v\n", instanceName, err)
		return nil, err
	} else {
		return output.DBInstance, nil
	}
}



// GetInstance gets data about a DB instance.
func (instances *DbInstances) GetInstance(ctx context.Context, instanceName string) (
	*types.DBInstance, error) {
	output, err := instances.RdsClient.DescribeDBInstances(ctx,
		&rds.DescribeDBInstancesInput{
			DBInstanceIdentifier: aws.String(instanceName),
		})
	if err != nil {
		var notFoundError *types.DBInstanceNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("DB instance %v does not exist.\n", instanceName)
			err = nil
		} else {
			log.Printf("Couldn't get instance %v: %v\n", instanceName, err)
		}
		return nil, err
	} else {
		return &output.DBInstances[0], nil
	}
}



// DeleteInstance deletes a DB instance.
func (instances *DbInstances) DeleteInstance(ctx context.Context, instanceName string) error {
	_, err := instances.RdsClient.DeleteDBInstance(ctx, &rds.DeleteDBInstanceInput{
		DBInstanceIdentifier:   aws.String(instanceName),
		SkipFinalSnapshot:      aws.Bool(true),
		DeleteAutomatedBackups: aws.Bool(true),
	})
	if err != nil {
		log.Printf("Couldn't delete instance %v: %v\n", instanceName, err)
		return err
	} else {
		return nil
	}
}



// GetEngineVersions gets database engine versions that are available for the specified engine
// and parameter group family.
func (instances *DbInstances) GetEngineVersions(ctx context.Context, engine string, parameterGroupFamily string) (
	[]types.DBEngineVersion, error) {
	output, err := instances.RdsClient.DescribeDBEngineVersions(ctx,
		&rds.DescribeDBEngineVersionsInput{
			Engine:                 aws.String(engine),
			DBParameterGroupFamily: aws.String(parameterGroupFamily),
		})
	if err != nil {
		log.Printf("Couldn't get engine versions for %v: %v\n", engine, err)
		return nil, err
	} else {
		return output.DBEngineVersions, nil
	}
}



// GetOrderableInstances uses a paginator to get DB instance options that can be used to create DB instances that are
// compatible with a set of specifications.
func (instances *DbInstances) GetOrderableInstances(ctx context.Context, engine string, engineVersion string) (
	[]types.OrderableDBInstanceOption, error) {

	var output *rds.DescribeOrderableDBInstanceOptionsOutput
	var instanceOptions []types.OrderableDBInstanceOption
	var err error
	orderablePaginator := rds.NewDescribeOrderableDBInstanceOptionsPaginator(instances.RdsClient,
		&rds.DescribeOrderableDBInstanceOptionsInput{
			Engine:        aws.String(engine),
			EngineVersion: aws.String(engineVersion),
		})
	for orderablePaginator.HasMorePages() {
		output, err = orderablePaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get orderable DB instance options: %v\n", err)
			break
		} else {
			instanceOptions = append(instanceOptions, output.OrderableDBInstanceOptions...)
		}
	}
	return instanceOptions, err
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK untuk Go *.
  + [Buat DBInstance](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBInstance)
  + [Buat DBParameter Grup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBParameterGroup)
  + [Buat DBSnapshot](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBSnapshot)
  + [Hapus DBInstance](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBInstance)
  + [Hapus DBParameter Grup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBParameterGroup)
  + [Jelaskan DBEngine Versi](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBInstances)
  + [Jelaskan DBParameter Grup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBParameterGroups)
  + [Jelaskan DBParameters](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBParameters)
  + [Jelaskan DBSnapshots](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBSnapshots)
  + [DescribeOrderableDBInstancePilihan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeOrderableDBInstanceOptions)
  + [Ubah DBParameter Grup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.ModifyDBParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBInstance`
<a name="rds_CreateDBInstance_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// CreateInstance creates a DB instance.
func (instances *DbInstances) CreateInstance(ctx context.Context, instanceName string, dbName string,
	dbEngine string, dbEngineVersion string, parameterGroupName string, dbInstanceClass string,
	storageType string, allocatedStorage int32, adminName string, adminPassword string) (
	*types.DBInstance, error) {
	output, err := instances.RdsClient.CreateDBInstance(ctx, &rds.CreateDBInstanceInput{
		DBInstanceIdentifier: aws.String(instanceName),
		DBName:               aws.String(dbName),
		DBParameterGroupName: aws.String(parameterGroupName),
		Engine:               aws.String(dbEngine),
		EngineVersion:        aws.String(dbEngineVersion),
		DBInstanceClass:      aws.String(dbInstanceClass),
		StorageType:          aws.String(storageType),
		AllocatedStorage:     aws.Int32(allocatedStorage),
		MasterUsername:       aws.String(adminName),
		MasterUserPassword:   aws.String(adminPassword),
	})
	if err != nil {
		log.Printf("Couldn't create instance %v: %v\n", instanceName, err)
		return nil, err
	} else {
		return output.DBInstance, nil
	}
}
```
+  Untuk detail API, lihat [Membuat DBInstance](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBInstance) di *Referensi AWS SDK untuk Go API*. 

### `CreateDBParameterGroup`
<a name="rds_CreateDBParameterGroup_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBParameterGroup`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// CreateParameterGroup creates a DB parameter group that is based on the specified
// parameter group family.
func (instances *DbInstances) CreateParameterGroup(
	ctx context.Context, parameterGroupName string, parameterGroupFamily string, description string) (
	*types.DBParameterGroup, error) {

	output, err := instances.RdsClient.CreateDBParameterGroup(ctx,
		&rds.CreateDBParameterGroupInput{
			DBParameterGroupName:   aws.String(parameterGroupName),
			DBParameterGroupFamily: aws.String(parameterGroupFamily),
			Description:            aws.String(description),
		})
	if err != nil {
		log.Printf("Couldn't create parameter group %v: %v\n", parameterGroupName, err)
		return nil, err
	} else {
		return output.DBParameterGroup, err
	}
}
```
+  Untuk detail API, lihat [Membuat DBParameter Grup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBParameterGroup) di *Referensi AWS SDK untuk Go API*. 

### `CreateDBSnapshot`
<a name="rds_CreateDBSnapshot_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSnapshot`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// CreateSnapshot creates a snapshot of a DB instance.
func (instances *DbInstances) CreateSnapshot(ctx context.Context, instanceName string, snapshotName string) (
	*types.DBSnapshot, error) {
	output, err := instances.RdsClient.CreateDBSnapshot(ctx, &rds.CreateDBSnapshotInput{
		DBInstanceIdentifier: aws.String(instanceName),
		DBSnapshotIdentifier: aws.String(snapshotName),
	})
	if err != nil {
		log.Printf("Couldn't create snapshot %v: %v\n", snapshotName, err)
		return nil, err
	} else {
		return output.DBSnapshot, nil
	}
}
```
+  Untuk detail API, lihat [Membuat DBSnapshot](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.CreateDBSnapshot) di *Referensi AWS SDK untuk Go API*. 

### `DeleteDBInstance`
<a name="rds_DeleteDBInstance_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// DeleteInstance deletes a DB instance.
func (instances *DbInstances) DeleteInstance(ctx context.Context, instanceName string) error {
	_, err := instances.RdsClient.DeleteDBInstance(ctx, &rds.DeleteDBInstanceInput{
		DBInstanceIdentifier:   aws.String(instanceName),
		SkipFinalSnapshot:      aws.Bool(true),
		DeleteAutomatedBackups: aws.Bool(true),
	})
	if err != nil {
		log.Printf("Couldn't delete instance %v: %v\n", instanceName, err)
		return err
	} else {
		return nil
	}
}
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBInstance) di *Referensi AWS SDK untuk Go API*. 

### `DeleteDBParameterGroup`
<a name="rds_DeleteDBParameterGroup_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBParameterGroup`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// DeleteParameterGroup deletes the named DB parameter group.
func (instances *DbInstances) DeleteParameterGroup(ctx context.Context, parameterGroupName string) error {
	_, err := instances.RdsClient.DeleteDBParameterGroup(ctx,
		&rds.DeleteDBParameterGroupInput{
			DBParameterGroupName: aws.String(parameterGroupName),
		})
	if err != nil {
		log.Printf("Couldn't delete parameter group %v: %v\n", parameterGroupName, err)
		return err
	} else {
		return nil
	}
}
```
+  Untuk detail API, lihat [Menghapus DBParameter Grup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DeleteDBParameterGroup) di *Referensi AWS SDK untuk Go API*. 

### `DescribeDBEngineVersions`
<a name="rds_DescribeDBEngineVersions_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// GetEngineVersions gets database engine versions that are available for the specified engine
// and parameter group family.
func (instances *DbInstances) GetEngineVersions(ctx context.Context, engine string, parameterGroupFamily string) (
	[]types.DBEngineVersion, error) {
	output, err := instances.RdsClient.DescribeDBEngineVersions(ctx,
		&rds.DescribeDBEngineVersionsInput{
			Engine:                 aws.String(engine),
			DBParameterGroupFamily: aws.String(parameterGroupFamily),
		})
	if err != nil {
		log.Printf("Couldn't get engine versions for %v: %v\n", engine, err)
		return nil, err
	} else {
		return output.DBEngineVersions, nil
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBEngineVersions) dalam *Referensi AWS SDK untuk Go API*. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// GetInstance gets data about a DB instance.
func (instances *DbInstances) GetInstance(ctx context.Context, instanceName string) (
	*types.DBInstance, error) {
	output, err := instances.RdsClient.DescribeDBInstances(ctx,
		&rds.DescribeDBInstancesInput{
			DBInstanceIdentifier: aws.String(instanceName),
		})
	if err != nil {
		var notFoundError *types.DBInstanceNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("DB instance %v does not exist.\n", instanceName)
			err = nil
		} else {
			log.Printf("Couldn't get instance %v: %v\n", instanceName, err)
		}
		return nil, err
	} else {
		return &output.DBInstances[0], nil
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBInstances) di *Referensi AWS SDK untuk Go API*. 

### `DescribeDBParameterGroups`
<a name="rds_DescribeDBParameterGroups_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameterGroups`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// GetParameterGroup gets a DB parameter group by name.
func (instances *DbInstances) GetParameterGroup(ctx context.Context, parameterGroupName string) (
	*types.DBParameterGroup, error) {
	output, err := instances.RdsClient.DescribeDBParameterGroups(
		ctx, &rds.DescribeDBParameterGroupsInput{
			DBParameterGroupName: aws.String(parameterGroupName),
		})
	if err != nil {
		var notFoundError *types.DBParameterGroupNotFoundFault
		if errors.As(err, &notFoundError) {
			log.Printf("Parameter group %v does not exist.\n", parameterGroupName)
			err = nil
		} else {
			log.Printf("Error getting parameter group %v: %v\n", parameterGroupName, err)
		}
		return nil, err
	} else {
		return &output.DBParameterGroups[0], err
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBParameterGroups) dalam *Referensi AWS SDK untuk Go API*. 

### `DescribeDBParameters`
<a name="rds_DescribeDBParameters_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameters`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// GetParameters gets the parameters that are contained in a DB parameter group.
func (instances *DbInstances) GetParameters(ctx context.Context, parameterGroupName string, source string) (
	[]types.Parameter, error) {

	var output *rds.DescribeDBParametersOutput
	var params []types.Parameter
	var err error
	parameterPaginator := rds.NewDescribeDBParametersPaginator(instances.RdsClient,
		&rds.DescribeDBParametersInput{
			DBParameterGroupName: aws.String(parameterGroupName),
			Source:               aws.String(source),
		})
	for parameterPaginator.HasMorePages() {
		output, err = parameterPaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get parameters for %v: %v\n", parameterGroupName, err)
			break
		} else {
			params = append(params, output.Parameters...)
		}
	}
	return params, err
}
```
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBParameters) di *Referensi AWS SDK untuk Go API*. 

### `DescribeDBSnapshots`
<a name="rds_DescribeDBSnapshots_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBSnapshots`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// GetSnapshot gets a DB instance snapshot.
func (instances *DbInstances) GetSnapshot(ctx context.Context, snapshotName string) (*types.DBSnapshot, error) {
	output, err := instances.RdsClient.DescribeDBSnapshots(ctx,
		&rds.DescribeDBSnapshotsInput{
			DBSnapshotIdentifier: aws.String(snapshotName),
		})
	if err != nil {
		log.Printf("Couldn't get snapshot %v: %v\n", snapshotName, err)
		return nil, err
	} else {
		return &output.DBSnapshots[0], nil
	}
}
```
+  Untuk detail API, lihat [Menjelaskan DBSnapshots](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeDBSnapshots) di *Referensi AWS SDK untuk Go API*. 

### `DescribeOrderableDBInstanceOptions`
<a name="rds_DescribeOrderableDBInstanceOptions_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// GetOrderableInstances uses a paginator to get DB instance options that can be used to create DB instances that are
// compatible with a set of specifications.
func (instances *DbInstances) GetOrderableInstances(ctx context.Context, engine string, engineVersion string) (
	[]types.OrderableDBInstanceOption, error) {

	var output *rds.DescribeOrderableDBInstanceOptionsOutput
	var instanceOptions []types.OrderableDBInstanceOption
	var err error
	orderablePaginator := rds.NewDescribeOrderableDBInstanceOptionsPaginator(instances.RdsClient,
		&rds.DescribeOrderableDBInstanceOptionsInput{
			Engine:        aws.String(engine),
			EngineVersion: aws.String(engineVersion),
		})
	for orderablePaginator.HasMorePages() {
		output, err = orderablePaginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get orderable DB instance options: %v\n", err)
			break
		} else {
			instanceOptions = append(instanceOptions, output.OrderableDBInstanceOptions...)
		}
	}
	return instanceOptions, err
}
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.DescribeOrderableDBInstanceOptions) di *Referensi AWS SDK untuk Go API*. 

### `ModifyDBParameterGroup`
<a name="rds_ModifyDBParameterGroup_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBParameterGroup`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/rds#code-examples). 

```
import (
	"context"
	"errors"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/rds"
	"github.com/aws/aws-sdk-go-v2/service/rds/types"
)

type DbInstances struct {
	RdsClient *rds.Client
}



// UpdateParameters updates parameters in a named DB parameter group.
func (instances *DbInstances) UpdateParameters(ctx context.Context, parameterGroupName string, params []types.Parameter) error {
	_, err := instances.RdsClient.ModifyDBParameterGroup(ctx,
		&rds.ModifyDBParameterGroupInput{
			DBParameterGroupName: aws.String(parameterGroupName),
			Parameters:           params,
		})
	if err != nil {
		log.Printf("Couldn't update parameters in %v: %v\n", parameterGroupName, err)
		return err
	} else {
		return nil
	}
}
```
+  Untuk detail API, lihat [Memodifikasi DBParameter Grup](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/rds#Client.ModifyDBParameterGroup) di *Referensi AWS SDK untuk Go API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Go.  

```
/*
Golang v2 code here.
*/

package main

import (
	"context"
	"database/sql"
	"encoding/json"
	"fmt"
	"os"

	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/feature/rds/auth"
	_ "github.com/go-sql-driver/mysql"
)

type MyEvent struct {
	Name string `json:"name"`
}

func HandleRequest(event *MyEvent) (map[string]interface{}, error) {

	var dbName string = os.Getenv("DatabaseName")
	var dbUser string = os.Getenv("DatabaseUser")
	var dbHost string = os.Getenv("DBHost") // Add hostname without https
	var dbPort int = os.Getenv("Port")      // Add port number
	var dbEndpoint string = fmt.Sprintf("%s:%d", dbHost, dbPort)
	var region string = os.Getenv("AWS_REGION")

	cfg, err := config.LoadDefaultConfig(context.TODO())
	if err != nil {
		panic("configuration error: " + err.Error())
	}

	authenticationToken, err := auth.BuildAuthToken(
		context.TODO(), dbEndpoint, region, dbUser, cfg.Credentials)
	if err != nil {
		panic("failed to create authentication token: " + err.Error())
	}

	dsn := fmt.Sprintf("%s:%s@tcp(%s)/%s?tls=true&allowCleartextPasswords=true",
		dbUser, authenticationToken, dbEndpoint, dbName,
	)

	db, err := sql.Open("mysql", dsn)
	if err != nil {
		panic(err)
	}

	defer db.Close()

	var sum int
	err = db.QueryRow("SELECT ?+? AS sum", 3, 2).Scan(&sum)
	if err != nil {
		panic(err)
	}
	s := fmt.Sprint(sum)
	message := fmt.Sprintf("The selected sum is: %s", s)

	messageBytes, err := json.Marshal(message)
	if err != nil {
		return nil, err
	}

	messageString := string(messageBytes)
	return map[string]interface{}{
		"statusCode": 200,
		"headers":    map[string]string{"Content-Type": "application/json"},
		"body":       messageString,
	}, nil
}

func main() {
	lambda.Start(HandleRequest)
}
```

# Contoh Amazon Redshift menggunakan SDK for Go V2
<a name="go_2_redshift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon Redshift.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Redshift
<a name="redshift_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Redshift.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/redshift#code-examples). 

```
package main

import (
	"context"
	"fmt"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/redshift"
)

// main uses the AWS SDK for Go V2 to create a Redshift client
// and list up to 10 clusters in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	redshiftClient := redshift.NewFromConfig(sdkConfig)
	count := 20
	fmt.Printf("Let's list up to %v clusters for your account.\n", count)
	result, err := redshiftClient.DescribeClusters(ctx, &redshift.DescribeClustersInput{
		MaxRecords: aws.Int32(int32(count)),
	})
	if err != nil {
		fmt.Printf("Couldn't list clusters for your account. Here's why: %v\n", err)
		return
	}
	if len(result.Clusters) == 0 {
		fmt.Println("You don't have any clusters!")
		return
	}
	for _, cluster := range result.Clusters {
		fmt.Printf("\t%v : %v\n", *cluster.ClusterIdentifier, *cluster.ClusterStatus)
	}
}
```
+  Untuk detail API, lihat [DescribeClusters](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.DescribeClusters)di *Referensi AWS SDK untuk Go API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="redshift_Scenario_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat cluster Redshift.
+ Daftar database di cluster.
+ Buat tabel bernama Movies.
+ Isi tabel Film.
+ Kueri tabel Film berdasarkan tahun.
+ Ubah cluster Redshift.
+ Hapus cluster Amazon Redshift.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/redshift#code-examples). 

```
package scenarios

import (
	"context"
	"encoding/json"
	"errors"
	"fmt"
	"log"
	"math/rand"
	"strings"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	redshift_types "github.com/aws/aws-sdk-go-v2/service/redshift/types"
	redshiftdata_types "github.com/aws/aws-sdk-go-v2/service/redshiftdata/types"
	"github.com/aws/aws-sdk-go-v2/service/secretsmanager"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/redshift/actions"

	"github.com/aws/aws-sdk-go-v2/service/redshift"
	"github.com/aws/aws-sdk-go-v2/service/redshiftdata"
)

// IScenarioHelper abstracts input and wait functions from a scenario so that they
// can be mocked for unit testing.
type IScenarioHelper interface {
	GetName() string
}

const rMax = 100000

type ScenarioHelper struct {
	Prefix string
	Random *rand.Rand
}

// GetName returns a unique name formed of a prefix and a random number.
func (helper ScenarioHelper) GetName() string {
	return fmt.Sprintf("%v%v", helper.Prefix, helper.Random.Intn(rMax))
}

// RedshiftBasicsScenario separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type RedshiftBasicsScenario struct {
	sdkConfig         aws.Config
	helper            IScenarioHelper
	questioner        demotools.IQuestioner
	pauser            demotools.IPausable
	filesystem        demotools.IFileSystem
	redshiftActor     *actions.RedshiftActions
	redshiftDataActor *actions.RedshiftDataActions
	secretsmanager    *SecretsManager
}

// SecretsManager is used to retrieve username and password information from a secure service.
type SecretsManager struct {
	SecretsManagerClient *secretsmanager.Client
}

// RedshiftBasics constructs a new Redshift Basics runner.
func RedshiftBasics(sdkConfig aws.Config, questioner demotools.IQuestioner, pauser demotools.IPausable, filesystem demotools.IFileSystem, helper IScenarioHelper) RedshiftBasicsScenario {
	scenario := RedshiftBasicsScenario{
		sdkConfig:         sdkConfig,
		helper:            helper,
		questioner:        questioner,
		pauser:            pauser,
		filesystem:        filesystem,
		secretsmanager:    &SecretsManager{SecretsManagerClient: secretsmanager.NewFromConfig(sdkConfig)},
		redshiftActor:     &actions.RedshiftActions{RedshiftClient: redshift.NewFromConfig(sdkConfig)},
		redshiftDataActor: &actions.RedshiftDataActions{RedshiftDataClient: redshiftdata.NewFromConfig(sdkConfig)},
	}
	return scenario
}


// Movie makes it easier to use Movie objects given in json format.
type Movie struct {
	ID    int    `json:"id"`
	Title string `json:"title"`
	Year  int    `json:"year"`
}


// User makes it easier to get the User data back from SecretsManager and use it later.
type User struct {
	Username string `json:"userName"`
	Password string `json:"userPassword"`
}

// Run runs the RedshiftBasics interactive example that shows you how to use Amazon
// Redshift and how to interact with its common endpoints.
//
// 0. Retrieve username and password information to access Redshift.
// 1. Create a cluster.
// 2. Wait for the cluster to become available.
// 3. List the available databases in the region.
// 4. Create a table named "Movies" in the "dev" database.
// 5. Populate the movies table from the "movies.json" file.
// 6. Query the movies table by year.
// 7. Modify the cluster's maintenance window.
// 8. Optionally clean up all resources created during this demo.
//
// This example creates an Amazon Redshift service client from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// It uses a questioner from the `demotools` package to get input during the example.
// This package can be found in the ..\..\demotools folder of this repo.
func (runner *RedshiftBasicsScenario) Run(ctx context.Context) {

	user := User{}
	secretId := "s3express/basics/secrets"
	clusterId := "demo-cluster-1"
	maintenanceWindow := "wed:07:30-wed:08:00"
	databaseName := "dev"
	tableName := "Movies"
	fileName := "Movies.json"
	nodeType := "ra3.xlplus"
	clusterType := "single-node"

	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			_, isMock := runner.questioner.(*demotools.MockQuestioner)
			if isMock || runner.questioner.AskBool("Do you want to see the full error message (y/n)?", "y") {
				log.Println(r)
			}
			runner.cleanUpResources(ctx, clusterId, databaseName, tableName, user.Username, runner.questioner)
		}
	}()

	// Retrieve the userName and userPassword from SecretsManager
	output, err := runner.secretsmanager.SecretsManagerClient.GetSecretValue(ctx, &secretsmanager.GetSecretValueInput{
		SecretId: aws.String(secretId),
	})
	if err != nil {
		log.Printf("There was a problem getting the secret value: %s", err)
		log.Printf("Please make sure to create a secret named 's3express/basics/secrets' with keys of 'userName' and 'userPassword'.")
		panic(err)
	}

	err = json.Unmarshal([]byte(*output.SecretString), &user)
	if err != nil {
		log.Printf("There was a problem parsing the secret value from JSON: %s", err)
		panic(err)
	}

	// Create the Redshift cluster
	_, err = runner.redshiftActor.CreateCluster(ctx, clusterId, user.Username, user.Password, nodeType, clusterType, true)
	if err != nil {
		var clusterAlreadyExistsFault *redshift_types.ClusterAlreadyExistsFault
		if errors.As(err, &clusterAlreadyExistsFault) {
			log.Println("Cluster already exists. Continuing.")
		} else {
			log.Println("Error creating cluster.")
			panic(err)
		}
	}

	// Wait for the cluster to become available
	waiter := redshift.NewClusterAvailableWaiter(runner.redshiftActor.RedshiftClient)
	err = waiter.Wait(ctx, &redshift.DescribeClustersInput{
		ClusterIdentifier: aws.String(clusterId),
	}, 5*time.Minute)
	if err != nil {
		log.Println("An error occurred waiting for the cluster.")
		panic(err)
	}

	// Get some info about the cluster
	describeOutput, err := runner.redshiftActor.DescribeClusters(ctx, clusterId)
	if err != nil {
		log.Println("Something went wrong trying to get information about the cluster.")
		panic(err)
	}
	log.Println("Here's some information about the cluster.")
	log.Printf("The cluster's status is %s", *describeOutput.Clusters[0].ClusterStatus)
	log.Printf("The cluster was created at %s", *describeOutput.Clusters[0].ClusterCreateTime)

	// List databases
	log.Println("List databases in", clusterId)
	runner.questioner.Ask("Press Enter to continue...")
	err = runner.redshiftDataActor.ListDatabases(ctx, clusterId, databaseName, user.Username)
	if err != nil {
		log.Printf("Failed to list databases: %v\n", err)
		panic(err)
	}

	// Create the "Movies" table
	log.Println("Now you will create a table named " + tableName + ".")
	runner.questioner.Ask("Press Enter to continue...")
	err = nil
	result, err := runner.redshiftDataActor.CreateTable(ctx, clusterId, databaseName, tableName, user.Username, runner.pauser, []string{"title VARCHAR(256)", "year INT"})
	if err != nil {
		log.Printf("Failed to create table: %v\n", err)
		panic(err)
	}

	describeInput := redshiftdata.DescribeStatementInput{
		Id: result.Id,
	}
	query := actions.RedshiftQuery{
		Context: ctx,
		Input:   describeInput,
		Result:  result,
	}
	err = runner.redshiftDataActor.WaitForQueryStatus(query, runner.pauser, true)
	if err != nil {
		log.Printf("Failed to execute query: %v\n", err)
		panic(err)
	}
	log.Printf("Successfully executed query\n")

	// Populate the "Movies" table
	runner.PopulateMoviesTable(ctx, clusterId, databaseName, tableName, user.Username, fileName)

	// Query the "Movies" table by year
	log.Println("Query the Movies table by year.")
	year := runner.questioner.AskInt(
		fmt.Sprintf("Enter a value between %v and %v:", 2012, 2014),
		demotools.InIntRange{Lower: 2012, Upper: 2014})
	runner.QueryMoviesByYear(ctx, clusterId, databaseName, tableName, user.Username, year)

	// Modify the cluster's maintenance window
	runner.redshiftActor.ModifyCluster(ctx, clusterId, maintenanceWindow)

	// Delete the Redshift cluster if confirmed
	runner.cleanUpResources(ctx, clusterId, databaseName, tableName, user.Username, runner.questioner)

	log.Println("Thanks for watching!")
}

// cleanUpResources asks the user if they would like to delete each resource created during the scenario, from most
// impactful to least impactful. If any choice to delete is made, further deletion attempts are skipped.
func (runner *RedshiftBasicsScenario) cleanUpResources(ctx context.Context, clusterId string, databaseName string, tableName string, userName string, questioner demotools.IQuestioner) {
	deleted := false
	var err error = nil
	if questioner.AskBool("Do you want to delete the entire cluster? This will clean up all resources. (y/n)", "y") {
		deleted, err = runner.redshiftActor.DeleteCluster(ctx, clusterId)
		if err != nil {
			log.Printf("Error deleting cluster: %v", err)
		}
	}
	if !deleted && questioner.AskBool("Do you want to delete the dev table? This will clean up all inserted records but keep your cluster intact. (y/n)", "y") {
		deleted, err = runner.redshiftDataActor.DeleteTable(ctx, clusterId, databaseName, tableName, userName)
		if err != nil {
			log.Printf("Error deleting movies table: %v", err)
		}
	}
	if !deleted && questioner.AskBool("Do you want to delete all rows in the Movies table? This will clean up all inserted records but keep your cluster and table intact. (y/n)", "y") {
		deleted, err = runner.redshiftDataActor.DeleteDataRows(ctx, clusterId, databaseName, tableName, userName, runner.pauser)
		if err != nil {
			log.Printf("Error deleting data rows: %v", err)
		}
	}
	if !deleted {
		log.Print("Please manually delete any unwanted resources.")
	}
}


// loadMoviesFromJSON takes the <fileName> file and populates a slice of Movie objects.
func (runner *RedshiftBasicsScenario) loadMoviesFromJSON(fileName string, filesystem demotools.IFileSystem) ([]Movie, error) {
	file, err := filesystem.OpenFile("../../resources/sample_files/" + fileName)
	if err != nil {
		return nil, err
	}
	defer filesystem.CloseFile(file)

	var movies []Movie
	err = json.NewDecoder(file).Decode(&movies)
	if err != nil {
		return nil, err
	}

	return movies, nil
}



// PopulateMoviesTable reads data from the <fileName> file and inserts records into the "Movies" table.
func (runner *RedshiftBasicsScenario) PopulateMoviesTable(ctx context.Context, clusterId string, databaseName string, tableName string, userName string, fileName string) {
	log.Println("Populate the " + tableName + " table using the " + fileName + " file.")
	numRecords := runner.questioner.AskInt(
		fmt.Sprintf("Enter a value between %v and %v:", 10, 100),
		demotools.InIntRange{Lower: 10, Upper: 100})

	movies, err := runner.loadMoviesFromJSON(fileName, runner.filesystem)
	if err != nil {
		log.Printf("Failed to load movies from JSON: %v\n", err)
		panic(err)
	}

	var sqlStatements []string

	for i, movie := range movies {
		if i >= numRecords {
			break
		}

		sqlStatement := fmt.Sprintf(`INSERT INTO %s (title, year) VALUES ('%s', %d);`,
			tableName,
			strings.Replace(movie.Title, "'", "''", -1), // Double any single quotes to escape them
			movie.Year)

		sqlStatements = append(sqlStatements, sqlStatement)
	}

	input := &redshiftdata.BatchExecuteStatementInput{
		ClusterIdentifier: aws.String(clusterId),
		Database:          aws.String(databaseName),
		DbUser:            aws.String(userName),
		Sqls:              sqlStatements,
	}

	result, err := runner.redshiftDataActor.ExecuteBatchStatement(ctx, *input)
	if err != nil {
		log.Printf("Failed to execute batch statement: %v\n", err)
		panic(err)
	}

	describeInput := redshiftdata.DescribeStatementInput{
		Id: result.Id,
	}

	query := actions.RedshiftQuery{
		Context: ctx,
		Result:  result,
		Input:   describeInput,
	}
	err = runner.redshiftDataActor.WaitForQueryStatus(query, runner.pauser, true)
	if err != nil {
		log.Printf("Failed to execute batch insert query: %v\n", err)
		return
	}
	log.Printf("Successfully executed batch statement\n")

	log.Printf("%d records were added to the Movies table.\n", numRecords)
}



// QueryMoviesByYear retrieves only movies from the "Movies" table which match the given year.
func (runner *RedshiftBasicsScenario) QueryMoviesByYear(ctx context.Context, clusterId string, databaseName string, tableName string, userName string, year int) {

	sqlStatement := fmt.Sprintf(`SELECT title FROM %s WHERE year = %d;`, tableName, year)

	input := &redshiftdata.ExecuteStatementInput{
		ClusterIdentifier: aws.String(clusterId),
		Database:          aws.String(databaseName),
		DbUser:            aws.String(userName),
		Sql:               aws.String(sqlStatement),
	}

	result, err := runner.redshiftDataActor.ExecuteStatement(ctx, *input)
	if err != nil {
		log.Printf("Failed to query movies: %v\n", err)
		panic(err)
	}

	log.Println("The identifier of the statement is ", *result.Id)

	describeInput := redshiftdata.DescribeStatementInput{
		Id: result.Id,
	}

	query := actions.RedshiftQuery{
		Context: ctx,
		Input:   describeInput,
		Result:  result,
	}
	err = runner.redshiftDataActor.WaitForQueryStatus(query, runner.pauser, true)
	if err != nil {
		log.Printf("Failed to execute query: %v\n", err)
		panic(err)
	}
	log.Printf("Successfully executed query\n")

	getResultOutput, err := runner.redshiftDataActor.GetStatementResult(ctx, *result.Id)
	if err != nil {
		log.Printf("Failed to query movies: %v\n", err)
		panic(err)
	}
	for _, row := range getResultOutput.Records {
		for _, col := range row {
			title, ok := col.(*redshiftdata_types.FieldMemberStringValue)
			if !ok {
				log.Println("Failed to parse the field")
			} else {
				log.Printf("The Movie title field is %s\n", title.Value)
			}
		}
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [CreateCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.CreateCluster)
  + [DescribeClusters](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.DescribeClusters)
  + [DescribeStatement](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.DescribeStatement)
  + [ExecuteStatement](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.ExecuteStatement)
  + [GetStatementResult](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.GetStatementResult)
  + [ListDatabasesPaginator](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.ListDatabasesPaginator)
  + [ModifyCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.ModifyCluster)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="redshift_CreateCluster_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/redshift#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/redshift"
	"github.com/aws/aws-sdk-go-v2/service/redshift/types"
)



// RedshiftActions wraps Redshift service actions.
type RedshiftActions struct {
	RedshiftClient *redshift.Client
}



// CreateCluster sends a request to create a cluster with the given clusterId using the provided credentials.
func (actor RedshiftActions) CreateCluster(ctx context.Context, clusterId string, userName string, userPassword string, nodeType string, clusterType string, publiclyAccessible bool) (*redshift.CreateClusterOutput, error) {
	// Create a new Redshift cluster
	input := &redshift.CreateClusterInput{
		ClusterIdentifier:  aws.String(clusterId),
		MasterUserPassword: aws.String(userPassword),
		MasterUsername:     aws.String(userName),
		NodeType:           aws.String(nodeType),
		ClusterType:        aws.String(clusterType),
		PubliclyAccessible: aws.Bool(publiclyAccessible),
	}
	var opErr *types.ClusterAlreadyExistsFault
	output, err := actor.RedshiftClient.CreateCluster(ctx, input)
	if err != nil && errors.As(err, &opErr) {
		log.Println("Cluster already exists")
		return nil, nil
	} else if err != nil {
		log.Printf("Failed to create Redshift cluster: %v\n", err)
		return nil, err
	}

	log.Printf("Created cluster %s\n", *output.Cluster.ClusterIdentifier)
	return output, nil
}
```
+  Untuk detail API, lihat [CreateCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.CreateCluster)di *Referensi AWS SDK untuk Go API*. 

### `DeleteCluster`
<a name="redshift_DeleteCluster_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/redshift#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/redshift"
	"github.com/aws/aws-sdk-go-v2/service/redshift/types"
)



// RedshiftActions wraps Redshift service actions.
type RedshiftActions struct {
	RedshiftClient *redshift.Client
}



// DeleteCluster deletes the given cluster.
func (actor RedshiftActions) DeleteCluster(ctx context.Context, clusterId string) (bool, error) {
	input := redshift.DeleteClusterInput{
		ClusterIdentifier:        aws.String(clusterId),
		SkipFinalClusterSnapshot: aws.Bool(true),
	}
	_, err := actor.RedshiftClient.DeleteCluster(ctx, &input)
	var opErr *types.ClusterNotFoundFault
	if err != nil && errors.As(err, &opErr) {
		log.Println("Cluster was not found. Where could it be?")
		return false, err
	} else if err != nil {
		log.Printf("Failed to delete Redshift cluster: %v\n", err)
		return false, err
	}
	waiter := redshift.NewClusterDeletedWaiter(actor.RedshiftClient)
	err = waiter.Wait(ctx, &redshift.DescribeClustersInput{
		ClusterIdentifier: aws.String(clusterId),
	}, 5*time.Minute)
	if err != nil {
		log.Printf("Wait time exceeded for deleting cluster, continuing: %v\n", err)
	}
	log.Printf("The cluster %s was deleted\n", clusterId)
	return true, nil
}
```
+  Untuk detail API, lihat [DeleteCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.DeleteCluster)di *Referensi AWS SDK untuk Go API*. 

### `DescribeClusters`
<a name="redshift_DescribeClusters_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/redshift#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/redshift"
	"github.com/aws/aws-sdk-go-v2/service/redshift/types"
)



// RedshiftActions wraps Redshift service actions.
type RedshiftActions struct {
	RedshiftClient *redshift.Client
}



// DescribeClusters returns information about the given cluster.
func (actor RedshiftActions) DescribeClusters(ctx context.Context, clusterId string) (*redshift.DescribeClustersOutput, error) {
	input, err := actor.RedshiftClient.DescribeClusters(ctx, &redshift.DescribeClustersInput{
		ClusterIdentifier: aws.String(clusterId),
	})
	var opErr *types.AccessToClusterDeniedFault
	if errors.As(err, &opErr) {
		println("Access to cluster denied.")
		panic(err)
	} else if err != nil {
		println("Failed to describe Redshift clusters.")
		return nil, err
	}
	return input, nil
}
```
+  Untuk detail API, lihat [DescribeClusters](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.DescribeClusters)di *Referensi AWS SDK untuk Go API*. 

### `ModifyCluster`
<a name="redshift_ModifyCluster_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyCluster`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/redshift#code-examples). 

```
import (
	"context"
	"errors"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/redshift"
	"github.com/aws/aws-sdk-go-v2/service/redshift/types"
)



// RedshiftActions wraps Redshift service actions.
type RedshiftActions struct {
	RedshiftClient *redshift.Client
}



// ModifyCluster sets the preferred maintenance window for the given cluster.
func (actor RedshiftActions) ModifyCluster(ctx context.Context, clusterId string, maintenanceWindow string) *redshift.ModifyClusterOutput {
	// Modify the cluster's maintenance window
	input := &redshift.ModifyClusterInput{
		ClusterIdentifier:          aws.String(clusterId),
		PreferredMaintenanceWindow: aws.String(maintenanceWindow),
	}

	var opErr *types.InvalidClusterStateFault
	output, err := actor.RedshiftClient.ModifyCluster(ctx, input)
	if err != nil && errors.As(err, &opErr) {
		log.Println("Cluster is in an invalid state.")
		panic(err)
	} else if err != nil {
		log.Printf("Failed to modify Redshift cluster: %v\n", err)
		panic(err)
	}

	log.Printf("The cluster was successfully modified and now has %s as the maintenance window\n", *output.Cluster.PreferredMaintenanceWindow)
	return output
}
```
+  Untuk detail API, lihat [ModifyCluster](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/redshift#Client.ModifyCluster)di *Referensi AWS SDK untuk Go API*. 

# Contoh Amazon S3 menggunakan SDK for Go V2
<a name="go_2_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 

```
package main

import (
	"context"
	"errors"
	"fmt"

	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/smithy-go"
)

// main uses the AWS SDK for Go V2 to create an Amazon Simple Storage Service
// (Amazon S3) client and list up to 10 buckets in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	s3Client := s3.NewFromConfig(sdkConfig)
	count := 10
	fmt.Printf("Let's list up to %v buckets for your account.\n", count)
	result, err := s3Client.ListBuckets(ctx, &s3.ListBucketsInput{})
	if err != nil {
		var ae smithy.APIError
		if errors.As(err, &ae) && ae.ErrorCode() == "AccessDenied" {
			fmt.Println("You don't have permission to list buckets for this account.")
		} else {
			fmt.Printf("Couldn't list buckets for your account. Here's why: %v\n", err)
		}
		return
	}
	if len(result.Buckets) == 0 {
		fmt.Println("You don't have any buckets!")
	} else {
		if count > len(result.Buckets) {
			count = len(result.Buckets)
		}
		for _, bucket := range result.Buckets[:count] {
			fmt.Printf("\t%v\n", *bucket.Name)
		}
	}
}
```
+  Untuk detail API, lihat [ListBuckets](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.ListBuckets)di *Referensi AWS SDK untuk Go API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 
Tentukan struktur yang membungkus tindakan bucket dan objek yang digunakan oleh skenario.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// ListBuckets lists the buckets in the current account.
func (basics BucketBasics) ListBuckets(ctx context.Context) ([]types.Bucket, error) {
	var err error
	var output *s3.ListBucketsOutput
	var buckets []types.Bucket
	bucketPaginator := s3.NewListBucketsPaginator(basics.S3Client, &s3.ListBucketsInput{})
	for bucketPaginator.HasMorePages() {
		output, err = bucketPaginator.NextPage(ctx)
		if err != nil {
			var apiErr smithy.APIError
			if errors.As(err, &apiErr) && apiErr.ErrorCode() == "AccessDenied" {
				fmt.Println("You don't have permission to list buckets for this account.")
				err = apiErr
			} else {
				log.Printf("Couldn't list buckets for your account. Here's why: %v\n", err)
			}
			break
		} else {
			buckets = append(buckets, output.Buckets...)
		}
	}
	return buckets, err
}



// BucketExists checks whether a bucket exists in the current account.
func (basics BucketBasics) BucketExists(ctx context.Context, bucketName string) (bool, error) {
	_, err := basics.S3Client.HeadBucket(ctx, &s3.HeadBucketInput{
		Bucket: aws.String(bucketName),
	})
	exists := true
	if err != nil {
		var apiError smithy.APIError
		if errors.As(err, &apiError) {
			switch apiError.(type) {
			case *types.NotFound:
				log.Printf("Bucket %v is available.\n", bucketName)
				exists = false
				err = nil
			default:
				log.Printf("Either you don't have access to bucket %v or another error occurred. "+
					"Here's what happened: %v\n", bucketName, err)
			}
		}
	} else {
		log.Printf("Bucket %v exists and you already own it.", bucketName)
	}

	return exists, err
}



// CreateBucket creates a bucket with the specified name in the specified Region.
func (basics BucketBasics) CreateBucket(ctx context.Context, name string, region string) error {
	_, err := basics.S3Client.CreateBucket(ctx, &s3.CreateBucketInput{
		Bucket: aws.String(name),
		CreateBucketConfiguration: &types.CreateBucketConfiguration{
			LocationConstraint: types.BucketLocationConstraint(region),
		},
	})
	if err != nil {
		var owned *types.BucketAlreadyOwnedByYou
		var exists *types.BucketAlreadyExists
		if errors.As(err, &owned) {
			log.Printf("You already own bucket %s.\n", name)
			err = owned
		} else if errors.As(err, &exists) {
			log.Printf("Bucket %s already exists.\n", name)
			err = exists
		}
	} else {
		err = s3.NewBucketExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadBucketInput{Bucket: aws.String(name)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for bucket %s to exist.\n", name)
		}
	}
	return err
}



// UploadFile reads from a file and puts the data into an object in a bucket.
func (basics BucketBasics) UploadFile(ctx context.Context, bucketName string, objectKey string, fileName string) error {
	file, err := os.Open(fileName)
	if err != nil {
		log.Printf("Couldn't open file %v to upload. Here's why: %v\n", fileName, err)
	} else {
		defer file.Close()
		_, err = basics.S3Client.PutObject(ctx, &s3.PutObjectInput{
			Bucket: aws.String(bucketName),
			Key:    aws.String(objectKey),
			Body:   file,
		})
		if err != nil {
			var apiErr smithy.APIError
			if errors.As(err, &apiErr) && apiErr.ErrorCode() == "EntityTooLarge" {
				log.Printf("Error while uploading object to %s. The object is too large.\n"+
					"To upload objects larger than 5GB, use the S3 console (160GB max)\n"+
					"or the multipart upload API (5TB max).", bucketName)
			} else {
				log.Printf("Couldn't upload file %v to %v:%v. Here's why: %v\n",
					fileName, bucketName, objectKey, err)
			}
		} else {
			err = s3.NewObjectExistsWaiter(basics.S3Client).Wait(
				ctx, &s3.HeadObjectInput{Bucket: aws.String(bucketName), Key: aws.String(objectKey)}, time.Minute)
			if err != nil {
				log.Printf("Failed attempt to wait for object %s to exist.\n", objectKey)
			}
		}
	}
	return err
}



// UploadLargeObject uses an upload manager to upload data to an object in a bucket.
// The upload manager breaks large data into parts and uploads the parts concurrently.
func (basics BucketBasics) UploadLargeObject(ctx context.Context, bucketName string, objectKey string, largeObject []byte) error {
	largeBuffer := bytes.NewReader(largeObject)
	var partMiBs int64 = 10
	uploader := manager.NewUploader(basics.S3Client, func(u *manager.Uploader) {
		u.PartSize = partMiBs * 1024 * 1024
	})
	_, err := uploader.Upload(ctx, &s3.PutObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
		Body:   largeBuffer,
	})
	if err != nil {
		var apiErr smithy.APIError
		if errors.As(err, &apiErr) && apiErr.ErrorCode() == "EntityTooLarge" {
			log.Printf("Error while uploading object to %s. The object is too large.\n"+
				"The maximum size for a multipart upload is 5TB.", bucketName)
		} else {
			log.Printf("Couldn't upload large object to %v:%v. Here's why: %v\n",
				bucketName, objectKey, err)
		}
	} else {
		err = s3.NewObjectExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadObjectInput{Bucket: aws.String(bucketName), Key: aws.String(objectKey)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s to exist.\n", objectKey)
		}
	}

	return err
}



// DownloadFile gets an object from a bucket and stores it in a local file.
func (basics BucketBasics) DownloadFile(ctx context.Context, bucketName string, objectKey string, fileName string) error {
	result, err := basics.S3Client.GetObject(ctx, &s3.GetObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
	})
	if err != nil {
		var noKey *types.NoSuchKey
		if errors.As(err, &noKey) {
			log.Printf("Can't get object %s from bucket %s. No such key exists.\n", objectKey, bucketName)
			err = noKey
		} else {
			log.Printf("Couldn't get object %v:%v. Here's why: %v\n", bucketName, objectKey, err)
		}
		return err
	}
	defer result.Body.Close()
	file, err := os.Create(fileName)
	if err != nil {
		log.Printf("Couldn't create file %v. Here's why: %v\n", fileName, err)
		return err
	}
	defer file.Close()
	body, err := io.ReadAll(result.Body)
	if err != nil {
		log.Printf("Couldn't read object body from %v. Here's why: %v\n", objectKey, err)
	}
	_, err = file.Write(body)
	return err
}



// DownloadLargeObject uses a download manager to download an object from a bucket.
// The download manager gets the data in parts and writes them to a buffer until all of
// the data has been downloaded.
func (basics BucketBasics) DownloadLargeObject(ctx context.Context, bucketName string, objectKey string) ([]byte, error) {
	var partMiBs int64 = 10
	downloader := manager.NewDownloader(basics.S3Client, func(d *manager.Downloader) {
		d.PartSize = partMiBs * 1024 * 1024
	})
	buffer := manager.NewWriteAtBuffer([]byte{})
	_, err := downloader.Download(ctx, buffer, &s3.GetObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
	})
	if err != nil {
		log.Printf("Couldn't download large object from %v:%v. Here's why: %v\n",
			bucketName, objectKey, err)
	}
	return buffer.Bytes(), err
}



// CopyToFolder copies an object in a bucket to a subfolder in the same bucket.
func (basics BucketBasics) CopyToFolder(ctx context.Context, bucketName string, objectKey string, folderName string) error {
	objectDest := fmt.Sprintf("%v/%v", folderName, objectKey)
	_, err := basics.S3Client.CopyObject(ctx, &s3.CopyObjectInput{
		Bucket:     aws.String(bucketName),
		CopySource: aws.String(fmt.Sprintf("%v/%v", bucketName, objectKey)),
		Key:        aws.String(objectDest),
	})
	if err != nil {
		var notActive *types.ObjectNotInActiveTierError
		if errors.As(err, &notActive) {
			log.Printf("Couldn't copy object %s from %s because the object isn't in the active tier.\n",
				objectKey, bucketName)
			err = notActive
		}
	} else {
		err = s3.NewObjectExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadObjectInput{Bucket: aws.String(bucketName), Key: aws.String(objectDest)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s to exist.\n", objectDest)
		}
	}
	return err
}



// CopyToBucket copies an object in a bucket to another bucket.
func (basics BucketBasics) CopyToBucket(ctx context.Context, sourceBucket string, destinationBucket string, objectKey string) error {
	_, err := basics.S3Client.CopyObject(ctx, &s3.CopyObjectInput{
		Bucket:     aws.String(destinationBucket),
		CopySource: aws.String(fmt.Sprintf("%v/%v", sourceBucket, objectKey)),
		Key:        aws.String(objectKey),
	})
	if err != nil {
		var notActive *types.ObjectNotInActiveTierError
		if errors.As(err, &notActive) {
			log.Printf("Couldn't copy object %s from %s because the object isn't in the active tier.\n",
				objectKey, sourceBucket)
			err = notActive
		}
	} else {
		err = s3.NewObjectExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadObjectInput{Bucket: aws.String(destinationBucket), Key: aws.String(objectKey)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s to exist.\n", objectKey)
		}
	}
	return err
}



// ListObjects lists the objects in a bucket.
func (basics BucketBasics) ListObjects(ctx context.Context, bucketName string) ([]types.Object, error) {
	var err error
	var output *s3.ListObjectsV2Output
	input := &s3.ListObjectsV2Input{
		Bucket: aws.String(bucketName),
	}
	var objects []types.Object
	objectPaginator := s3.NewListObjectsV2Paginator(basics.S3Client, input)
	for objectPaginator.HasMorePages() {
		output, err = objectPaginator.NextPage(ctx)
		if err != nil {
			var noBucket *types.NoSuchBucket
			if errors.As(err, &noBucket) {
				log.Printf("Bucket %s does not exist.\n", bucketName)
				err = noBucket
			}
			break
		} else {
			objects = append(objects, output.Contents...)
		}
	}
	return objects, err
}



// DeleteObjects deletes a list of objects from a bucket.
func (basics BucketBasics) DeleteObjects(ctx context.Context, bucketName string, objectKeys []string) error {
	var objectIds []types.ObjectIdentifier
	for _, key := range objectKeys {
		objectIds = append(objectIds, types.ObjectIdentifier{Key: aws.String(key)})
	}
	output, err := basics.S3Client.DeleteObjects(ctx, &s3.DeleteObjectsInput{
		Bucket: aws.String(bucketName),
		Delete: &types.Delete{Objects: objectIds, Quiet: aws.Bool(true)},
	})
	if err != nil || len(output.Errors) > 0 {
		log.Printf("Error deleting objects from bucket %s.\n", bucketName)
		if err != nil {
			var noBucket *types.NoSuchBucket
			if errors.As(err, &noBucket) {
				log.Printf("Bucket %s does not exist.\n", bucketName)
				err = noBucket
			}
		} else if len(output.Errors) > 0 {
			for _, outErr := range output.Errors {
				log.Printf("%s: %s\n", *outErr.Key, *outErr.Message)
			}
			err = fmt.Errorf("%s", *output.Errors[0].Message)
		}
	} else {
		for _, delObjs := range output.Deleted {
			err = s3.NewObjectNotExistsWaiter(basics.S3Client).Wait(
				ctx, &s3.HeadObjectInput{Bucket: aws.String(bucketName), Key: delObjs.Key}, time.Minute)
			if err != nil {
				log.Printf("Failed attempt to wait for object %s to be deleted.\n", *delObjs.Key)
			} else {
				log.Printf("Deleted %s.\n", *delObjs.Key)
			}
		}
	}
	return err
}



// DeleteBucket deletes a bucket. The bucket must be empty or an error is returned.
func (basics BucketBasics) DeleteBucket(ctx context.Context, bucketName string) error {
	_, err := basics.S3Client.DeleteBucket(ctx, &s3.DeleteBucketInput{
		Bucket: aws.String(bucketName)})
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucketName)
			err = noBucket
		} else {
			log.Printf("Couldn't delete bucket %v. Here's why: %v\n", bucketName, err)
		}
	} else {
		err = s3.NewBucketNotExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadBucketInput{Bucket: aws.String(bucketName)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for bucket %s to be deleted.\n", bucketName)
		} else {
			log.Printf("Deleted %s.\n", bucketName)
		}
	}
	return err
}
```
Jalankan skenario interaktif yang menunjukkan cara bekerja dengan bucket dan objek S3.  

```
import (
	"context"
	"fmt"
	"log"
	"os"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/s3/actions"
)

// RunGetStartedScenario is an interactive example that shows you how to use Amazon
// Simple Storage Service (Amazon S3) to create an S3 bucket and use it to store objects.
//
// 1. Create a bucket.
// 2. Upload a local file to the bucket.
// 3. Download an object to a local file.
// 4. Copy an object to a different folder in the bucket.
// 5. List objects in the bucket.
// 6. Delete all objects in the bucket.
// 7. Delete the bucket.
//
// This example creates an Amazon S3 service client from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// It uses a questioner from the `demotools` package to get input during the example.
// This package can be found in the ..\..\demotools folder of this repo.
func RunGetStartedScenario(ctx context.Context, sdkConfig aws.Config, questioner demotools.IQuestioner) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			_, isMock := questioner.(*demotools.MockQuestioner)
			if isMock || questioner.AskBool("Do you want to see the full error message (y/n)?", "y") {
				log.Println(r)
			}
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon S3 getting started demo.")
	log.Println(strings.Repeat("-", 88))

	s3Client := s3.NewFromConfig(sdkConfig)
	bucketBasics := actions.BucketBasics{S3Client: s3Client}

	count := 10
	log.Printf("Let's list up to %v buckets for your account:", count)
	buckets, err := bucketBasics.ListBuckets(ctx)
	if err != nil {
		panic(err)
	}
	if len(buckets) == 0 {
		log.Println("You don't have any buckets!")
	} else {
		if count > len(buckets) {
			count = len(buckets)
		}
		for _, bucket := range buckets[:count] {
			log.Printf("\t%v\n", *bucket.Name)
		}
	}

	bucketName := questioner.Ask("Let's create a bucket. Enter a name for your bucket:",
		demotools.NotEmpty{})
	bucketExists, err := bucketBasics.BucketExists(ctx, bucketName)
	if err != nil {
		panic(err)
	}
	if !bucketExists {
		err = bucketBasics.CreateBucket(ctx, bucketName, sdkConfig.Region)
		if err != nil {
			panic(err)
		} else {
			log.Println("Bucket created.")
		}
	}
	log.Println(strings.Repeat("-", 88))

	fmt.Println("Let's upload a file to your bucket.")
	smallFile := questioner.Ask("Enter the path to a file you want to upload:",
		demotools.NotEmpty{})
	const smallKey = "doc-example-key"
	err = bucketBasics.UploadFile(ctx, bucketName, smallKey, smallFile)
	if err != nil {
		panic(err)
	}
	log.Printf("Uploaded %v as %v.\n", smallFile, smallKey)
	log.Println(strings.Repeat("-", 88))

	log.Printf("Let's download %v to a file.", smallKey)
	downloadFileName := questioner.Ask("Enter a name for the downloaded file:", demotools.NotEmpty{})
	err = bucketBasics.DownloadFile(ctx, bucketName, smallKey, downloadFileName)
	if err != nil {
		panic(err)
	}
	log.Printf("File %v downloaded.", downloadFileName)
	log.Println(strings.Repeat("-", 88))

	log.Printf("Let's copy %v to a folder in the same bucket.", smallKey)
	folderName := questioner.Ask("Enter a folder name: ", demotools.NotEmpty{})
	err = bucketBasics.CopyToFolder(ctx, bucketName, smallKey, folderName)
	if err != nil {
		panic(err)
	}
	log.Printf("Copied %v to %v/%v.\n", smallKey, folderName, smallKey)
	log.Println(strings.Repeat("-", 88))

	log.Println("Let's list the objects in your bucket.")
	questioner.Ask("Press Enter when you're ready.")
	objects, err := bucketBasics.ListObjects(ctx, bucketName)
	if err != nil {
		panic(err)
	}
	log.Printf("Found %v objects.\n", len(objects))
	var objKeys []string
	for _, object := range objects {
		objKeys = append(objKeys, *object.Key)
		log.Printf("\t%v\n", *object.Key)
	}
	log.Println(strings.Repeat("-", 88))

	if questioner.AskBool("Do you want to delete your bucket and all of its "+
		"contents? (y/n)", "y") {
		log.Println("Deleting objects.")
		err = bucketBasics.DeleteObjects(ctx, bucketName, objKeys)
		if err != nil {
			panic(err)
		}
		log.Println("Deleting bucket.")
		err = bucketBasics.DeleteBucket(ctx, bucketName)
		if err != nil {
			panic(err)
		}
		log.Printf("Deleting downloaded file %v.\n", downloadFileName)
		err = os.Remove(downloadFileName)
		if err != nil {
			panic(err)
		}
	} else {
		log.Println("Okay. Don't forget to delete objects from your bucket to avoid charges.")
	}
	log.Println(strings.Repeat("-", 88))

	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [CopyObject](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.CopyObject)
  + [CreateBucket](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.CreateBucket)
  + [DeleteBucket](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.DeleteBucket)
  + [DeleteObjects](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.DeleteObjects)
  + [GetObject](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.GetObject)
  + [ListObjectsV2](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.ListObjectsV2)
  + [PutObject](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.PutObject)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// CopyToBucket copies an object in a bucket to another bucket.
func (basics BucketBasics) CopyToBucket(ctx context.Context, sourceBucket string, destinationBucket string, objectKey string) error {
	_, err := basics.S3Client.CopyObject(ctx, &s3.CopyObjectInput{
		Bucket:     aws.String(destinationBucket),
		CopySource: aws.String(fmt.Sprintf("%v/%v", sourceBucket, objectKey)),
		Key:        aws.String(objectKey),
	})
	if err != nil {
		var notActive *types.ObjectNotInActiveTierError
		if errors.As(err, &notActive) {
			log.Printf("Couldn't copy object %s from %s because the object isn't in the active tier.\n",
				objectKey, sourceBucket)
			err = notActive
		}
	} else {
		err = s3.NewObjectExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadObjectInput{Bucket: aws.String(destinationBucket), Key: aws.String(objectKey)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s to exist.\n", objectKey)
		}
	}
	return err
}
```
+  Untuk detail API, lihat [CopyObject](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.CopyObject)di *Referensi AWS SDK untuk Go API*. 

### `CreateBucket`
<a name="s3_CreateBucket_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 
Buat bucket dengan konfigurasi default.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// CreateBucket creates a bucket with the specified name in the specified Region.
func (basics BucketBasics) CreateBucket(ctx context.Context, name string, region string) error {
	_, err := basics.S3Client.CreateBucket(ctx, &s3.CreateBucketInput{
		Bucket: aws.String(name),
		CreateBucketConfiguration: &types.CreateBucketConfiguration{
			LocationConstraint: types.BucketLocationConstraint(region),
		},
	})
	if err != nil {
		var owned *types.BucketAlreadyOwnedByYou
		var exists *types.BucketAlreadyExists
		if errors.As(err, &owned) {
			log.Printf("You already own bucket %s.\n", name)
			err = owned
		} else if errors.As(err, &exists) {
			log.Printf("Bucket %s already exists.\n", name)
			err = exists
		}
	} else {
		err = s3.NewBucketExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadBucketInput{Bucket: aws.String(name)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for bucket %s to exist.\n", name)
		}
	}
	return err
}
```
Buat ember dengan penguncian objek dan tunggu sampai ada.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// CreateBucketWithLock creates a new S3 bucket with optional object locking enabled
// and waits for the bucket to exist before returning.
func (actor S3Actions) CreateBucketWithLock(ctx context.Context, bucket string, region string, enableObjectLock bool) (string, error) {
	input := &s3.CreateBucketInput{
		Bucket: aws.String(bucket),
		CreateBucketConfiguration: &types.CreateBucketConfiguration{
			LocationConstraint: types.BucketLocationConstraint(region),
		},
	}

	if enableObjectLock {
		input.ObjectLockEnabledForBucket = aws.Bool(true)
	}

	_, err := actor.S3Client.CreateBucket(ctx, input)
	if err != nil {
		var owned *types.BucketAlreadyOwnedByYou
		var exists *types.BucketAlreadyExists
		if errors.As(err, &owned) {
			log.Printf("You already own bucket %s.\n", bucket)
			err = owned
		} else if errors.As(err, &exists) {
			log.Printf("Bucket %s already exists.\n", bucket)
			err = exists
		}
	} else {
		err = s3.NewBucketExistsWaiter(actor.S3Client).Wait(
			ctx, &s3.HeadBucketInput{Bucket: aws.String(bucket)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for bucket %s to exist.\n", bucket)
		}
	}

	return bucket, err
}
```
+  Untuk detail API, lihat [CreateBucket](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.CreateBucket)di *Referensi AWS SDK untuk Go API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// DeleteBucket deletes a bucket. The bucket must be empty or an error is returned.
func (basics BucketBasics) DeleteBucket(ctx context.Context, bucketName string) error {
	_, err := basics.S3Client.DeleteBucket(ctx, &s3.DeleteBucketInput{
		Bucket: aws.String(bucketName)})
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucketName)
			err = noBucket
		} else {
			log.Printf("Couldn't delete bucket %v. Here's why: %v\n", bucketName, err)
		}
	} else {
		err = s3.NewBucketNotExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadBucketInput{Bucket: aws.String(bucketName)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for bucket %s to be deleted.\n", bucketName)
		} else {
			log.Printf("Deleted %s.\n", bucketName)
		}
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteBucket](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.DeleteBucket)di *Referensi AWS SDK untuk Go API*. 

### `DeleteObject`
<a name="s3_DeleteObject_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// DeleteObject deletes an object from a bucket.
func (actor S3Actions) DeleteObject(ctx context.Context, bucket string, key string, versionId string, bypassGovernance bool) (bool, error) {
	deleted := false
	input := &s3.DeleteObjectInput{
		Bucket: aws.String(bucket),
		Key:    aws.String(key),
	}
	if versionId != "" {
		input.VersionId = aws.String(versionId)
	}
	if bypassGovernance {
		input.BypassGovernanceRetention = aws.Bool(true)
	}
	_, err := actor.S3Client.DeleteObject(ctx, input)
	if err != nil {
		var noKey *types.NoSuchKey
		var apiErr *smithy.GenericAPIError
		if errors.As(err, &noKey) {
			log.Printf("Object %s does not exist in %s.\n", key, bucket)
			err = noKey
		} else if errors.As(err, &apiErr) {
			switch apiErr.ErrorCode() {
			case "AccessDenied":
				log.Printf("Access denied: cannot delete object %s from %s.\n", key, bucket)
				err = nil
			case "InvalidArgument":
				if bypassGovernance {
					log.Printf("You cannot specify bypass governance on a bucket without lock enabled.")
					err = nil
				}
			}
		}
	} else {
		err = s3.NewObjectNotExistsWaiter(actor.S3Client).Wait(
			ctx, &s3.HeadObjectInput{Bucket: aws.String(bucket), Key: aws.String(key)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s in bucket %s to be deleted.\n", key, bucket)
		} else {
			deleted = true
		}
	}
	return deleted, err
}
```
+  Untuk detail API, lihat [DeleteObject](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.DeleteObject)di *Referensi AWS SDK untuk Go API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// DeleteObjects deletes a list of objects from a bucket.
func (actor S3Actions) DeleteObjects(ctx context.Context, bucket string, objects []types.ObjectIdentifier, bypassGovernance bool) error {
	if len(objects) == 0 {
		return nil
	}

	input := s3.DeleteObjectsInput{
		Bucket: aws.String(bucket),
		Delete: &types.Delete{
			Objects: objects,
			Quiet:   aws.Bool(true),
		},
	}
	if bypassGovernance {
		input.BypassGovernanceRetention = aws.Bool(true)
	}
	delOut, err := actor.S3Client.DeleteObjects(ctx, &input)
	if err != nil || len(delOut.Errors) > 0 {
		log.Printf("Error deleting objects from bucket %s.\n", bucket)
		if err != nil {
			var noBucket *types.NoSuchBucket
			if errors.As(err, &noBucket) {
				log.Printf("Bucket %s does not exist.\n", bucket)
				err = noBucket
			}
		} else if len(delOut.Errors) > 0 {
			for _, outErr := range delOut.Errors {
				log.Printf("%s: %s\n", *outErr.Key, *outErr.Message)
			}
			err = fmt.Errorf("%s", *delOut.Errors[0].Message)
		}
	} else {
		for _, delObjs := range delOut.Deleted {
			err = s3.NewObjectNotExistsWaiter(actor.S3Client).Wait(
				ctx, &s3.HeadObjectInput{Bucket: aws.String(bucket), Key: delObjs.Key}, time.Minute)
			if err != nil {
				log.Printf("Failed attempt to wait for object %s to be deleted.\n", *delObjs.Key)
			} else {
				log.Printf("Deleted %s.\n", *delObjs.Key)
			}
		}
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteObjects](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.DeleteObjects)di *Referensi AWS SDK untuk Go API*. 

### `GetObject`
<a name="s3_GetObject_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// DownloadFile gets an object from a bucket and stores it in a local file.
func (basics BucketBasics) DownloadFile(ctx context.Context, bucketName string, objectKey string, fileName string) error {
	result, err := basics.S3Client.GetObject(ctx, &s3.GetObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
	})
	if err != nil {
		var noKey *types.NoSuchKey
		if errors.As(err, &noKey) {
			log.Printf("Can't get object %s from bucket %s. No such key exists.\n", objectKey, bucketName)
			err = noKey
		} else {
			log.Printf("Couldn't get object %v:%v. Here's why: %v\n", bucketName, objectKey, err)
		}
		return err
	}
	defer result.Body.Close()
	file, err := os.Create(fileName)
	if err != nil {
		log.Printf("Couldn't create file %v. Here's why: %v\n", fileName, err)
		return err
	}
	defer file.Close()
	body, err := io.ReadAll(result.Body)
	if err != nil {
		log.Printf("Couldn't read object body from %v. Here's why: %v\n", objectKey, err)
	}
	_, err = file.Write(body)
	return err
}
```
+  Untuk detail API, lihat [GetObject](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.GetObject)di *Referensi AWS SDK untuk Go API*. 

### `GetObjectLegalHold`
<a name="s3_GetObjectLegalHold_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLegalHold`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// GetObjectLegalHold retrieves the legal hold status for an S3 object.
func (actor S3Actions) GetObjectLegalHold(ctx context.Context, bucket string, key string, versionId string) (*types.ObjectLockLegalHoldStatus, error) {
	var status *types.ObjectLockLegalHoldStatus
	input := &s3.GetObjectLegalHoldInput{
		Bucket:    aws.String(bucket),
		Key:       aws.String(key),
		VersionId: aws.String(versionId),
	}

	output, err := actor.S3Client.GetObjectLegalHold(ctx, input)
	if err != nil {
		var noSuchKeyErr *types.NoSuchKey
		var apiErr *smithy.GenericAPIError
		if errors.As(err, &noSuchKeyErr) {
			log.Printf("Object %s does not exist in bucket %s.\n", key, bucket)
			err = noSuchKeyErr
		} else if errors.As(err, &apiErr) {
			switch apiErr.ErrorCode() {
			case "NoSuchObjectLockConfiguration":
				log.Printf("Object %s does not have an object lock configuration.\n", key)
				err = nil
			case "InvalidRequest":
				log.Printf("Bucket %s does not have an object lock configuration.\n", bucket)
				err = nil
			}
		}
	} else {
		status = &output.LegalHold.Status
	}

	return status, err
}
```
+  Untuk detail API, lihat [GetObjectLegalHold](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.GetObjectLegalHold)di *Referensi AWS SDK untuk Go API*. 

### `GetObjectLockConfiguration`
<a name="s3_GetObjectLockConfiguration_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLockConfiguration`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// GetObjectLockConfiguration retrieves the object lock configuration for an S3 bucket.
func (actor S3Actions) GetObjectLockConfiguration(ctx context.Context, bucket string) (*types.ObjectLockConfiguration, error) {
	var lockConfig *types.ObjectLockConfiguration
	input := &s3.GetObjectLockConfigurationInput{
		Bucket: aws.String(bucket),
	}

	output, err := actor.S3Client.GetObjectLockConfiguration(ctx, input)
	if err != nil {
		var noBucket *types.NoSuchBucket
		var apiErr *smithy.GenericAPIError
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		} else if errors.As(err, &apiErr) && apiErr.ErrorCode() == "ObjectLockConfigurationNotFoundError" {
			log.Printf("Bucket %s does not have an object lock configuration.\n", bucket)
			err = nil
		}
	} else {
		lockConfig = output.ObjectLockConfiguration
	}

	return lockConfig, err
}
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.GetObjectLockConfiguration)di *Referensi AWS SDK untuk Go API*. 

### `GetObjectRetention`
<a name="s3_GetObjectRetention_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectRetention`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// GetObjectRetention retrieves the object retention configuration for an S3 object.
func (actor S3Actions) GetObjectRetention(ctx context.Context, bucket string, key string) (*types.ObjectLockRetention, error) {
	var retention *types.ObjectLockRetention
	input := &s3.GetObjectRetentionInput{
		Bucket: aws.String(bucket),
		Key:    aws.String(key),
	}

	output, err := actor.S3Client.GetObjectRetention(ctx, input)
	if err != nil {
		var noKey *types.NoSuchKey
		var apiErr *smithy.GenericAPIError
		if errors.As(err, &noKey) {
			log.Printf("Object %s does not exist in bucket %s.\n", key, bucket)
			err = noKey
		} else if errors.As(err, &apiErr) {
			switch apiErr.ErrorCode() {
			case "NoSuchObjectLockConfiguration":
				err = nil
			case "InvalidRequest":
				log.Printf("Bucket %s does not have locking enabled.", bucket)
				err = nil
			}
		}
	} else {
		retention = output.Retention
	}

	return retention, err
}
```
+  Untuk detail API, lihat [GetObjectRetention](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.GetObjectRetention)di *Referensi AWS SDK untuk Go API*. 

### `HeadBucket`
<a name="s3_HeadBucket_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`HeadBucket`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// BucketExists checks whether a bucket exists in the current account.
func (basics BucketBasics) BucketExists(ctx context.Context, bucketName string) (bool, error) {
	_, err := basics.S3Client.HeadBucket(ctx, &s3.HeadBucketInput{
		Bucket: aws.String(bucketName),
	})
	exists := true
	if err != nil {
		var apiError smithy.APIError
		if errors.As(err, &apiError) {
			switch apiError.(type) {
			case *types.NotFound:
				log.Printf("Bucket %v is available.\n", bucketName)
				exists = false
				err = nil
			default:
				log.Printf("Either you don't have access to bucket %v or another error occurred. "+
					"Here's what happened: %v\n", bucketName, err)
			}
		}
	} else {
		log.Printf("Bucket %v exists and you already own it.", bucketName)
	}

	return exists, err
}
```
+  Untuk detail API, lihat [HeadBucket](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.HeadBucket)di *Referensi AWS SDK untuk Go API*. 

### `ListBuckets`
<a name="s3_ListBuckets_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// ListBuckets lists the buckets in the current account.
func (basics BucketBasics) ListBuckets(ctx context.Context) ([]types.Bucket, error) {
	var err error
	var output *s3.ListBucketsOutput
	var buckets []types.Bucket
	bucketPaginator := s3.NewListBucketsPaginator(basics.S3Client, &s3.ListBucketsInput{})
	for bucketPaginator.HasMorePages() {
		output, err = bucketPaginator.NextPage(ctx)
		if err != nil {
			var apiErr smithy.APIError
			if errors.As(err, &apiErr) && apiErr.ErrorCode() == "AccessDenied" {
				fmt.Println("You don't have permission to list buckets for this account.")
				err = apiErr
			} else {
				log.Printf("Couldn't list buckets for your account. Here's why: %v\n", err)
			}
			break
		} else {
			buckets = append(buckets, output.Buckets...)
		}
	}
	return buckets, err
}
```
+  Untuk detail API, lihat [ListBuckets](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.ListBuckets)di *Referensi AWS SDK untuk Go API*. 

### `ListObjectVersions`
<a name="s3_ListObjectVersions_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectVersions`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// ListObjectVersions lists all versions of all objects in a bucket.
func (actor S3Actions) ListObjectVersions(ctx context.Context, bucket string) ([]types.ObjectVersion, error) {
	var err error
	var output *s3.ListObjectVersionsOutput
	var versions []types.ObjectVersion
	input := &s3.ListObjectVersionsInput{Bucket: aws.String(bucket)}
	versionPaginator := s3.NewListObjectVersionsPaginator(actor.S3Client, input)
	for versionPaginator.HasMorePages() {
		output, err = versionPaginator.NextPage(ctx)
		if err != nil {
			var noBucket *types.NoSuchBucket
			if errors.As(err, &noBucket) {
				log.Printf("Bucket %s does not exist.\n", bucket)
				err = noBucket
			}
			break
		} else {
			versions = append(versions, output.Versions...)
		}
	}
	return versions, err
}
```
+  Untuk detail API, lihat [ListObjectVersions](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.ListObjectVersions)di *Referensi AWS SDK untuk Go API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// ListObjects lists the objects in a bucket.
func (basics BucketBasics) ListObjects(ctx context.Context, bucketName string) ([]types.Object, error) {
	var err error
	var output *s3.ListObjectsV2Output
	input := &s3.ListObjectsV2Input{
		Bucket: aws.String(bucketName),
	}
	var objects []types.Object
	objectPaginator := s3.NewListObjectsV2Paginator(basics.S3Client, input)
	for objectPaginator.HasMorePages() {
		output, err = objectPaginator.NextPage(ctx)
		if err != nil {
			var noBucket *types.NoSuchBucket
			if errors.As(err, &noBucket) {
				log.Printf("Bucket %s does not exist.\n", bucketName)
				err = noBucket
			}
			break
		} else {
			objects = append(objects, output.Contents...)
		}
	}
	return objects, err
}
```
+  Untuk detail API, lihat [ListObjectsV2](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.ListObjectsV2) di *Referensi AWS SDK untuk Go API*. 

### `PutObject`
<a name="s3_PutObject_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 
Masukkan objek ke dalam ember dengan menggunakan API tingkat rendah.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// UploadFile reads from a file and puts the data into an object in a bucket.
func (basics BucketBasics) UploadFile(ctx context.Context, bucketName string, objectKey string, fileName string) error {
	file, err := os.Open(fileName)
	if err != nil {
		log.Printf("Couldn't open file %v to upload. Here's why: %v\n", fileName, err)
	} else {
		defer file.Close()
		_, err = basics.S3Client.PutObject(ctx, &s3.PutObjectInput{
			Bucket: aws.String(bucketName),
			Key:    aws.String(objectKey),
			Body:   file,
		})
		if err != nil {
			var apiErr smithy.APIError
			if errors.As(err, &apiErr) && apiErr.ErrorCode() == "EntityTooLarge" {
				log.Printf("Error while uploading object to %s. The object is too large.\n"+
					"To upload objects larger than 5GB, use the S3 console (160GB max)\n"+
					"or the multipart upload API (5TB max).", bucketName)
			} else {
				log.Printf("Couldn't upload file %v to %v:%v. Here's why: %v\n",
					fileName, bucketName, objectKey, err)
			}
		} else {
			err = s3.NewObjectExistsWaiter(basics.S3Client).Wait(
				ctx, &s3.HeadObjectInput{Bucket: aws.String(bucketName), Key: aws.String(objectKey)}, time.Minute)
			if err != nil {
				log.Printf("Failed attempt to wait for object %s to exist.\n", objectKey)
			}
		}
	}
	return err
}
```
Unggah objek ke bucket dengan menggunakan manajer transfer.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// UploadObject uses the S3 upload manager to upload an object to a bucket.
func (actor S3Actions) UploadObject(ctx context.Context, bucket string, key string, contents string) (string, error) {
	var outKey string
	input := &s3.PutObjectInput{
		Bucket:            aws.String(bucket),
		Key:               aws.String(key),
		Body:              bytes.NewReader([]byte(contents)),
		ChecksumAlgorithm: types.ChecksumAlgorithmSha256,
	}
	output, err := actor.S3Manager.Upload(ctx, input)
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		}
	} else {
		err := s3.NewObjectExistsWaiter(actor.S3Client).Wait(ctx, &s3.HeadObjectInput{
			Bucket: aws.String(bucket),
			Key:    aws.String(key),
		}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s to exist in %s.\n", key, bucket)
		} else {
			outKey = *output.Key
		}
	}
	return outKey, err
}
```
+  Untuk detail API, lihat [PutObject](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.PutObject)di *Referensi AWS SDK untuk Go API*. 

### `PutObjectLegalHold`
<a name="s3_PutObjectLegalHold_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLegalHold`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// PutObjectLegalHold sets the legal hold configuration for an S3 object.
func (actor S3Actions) PutObjectLegalHold(ctx context.Context, bucket string, key string, versionId string, legalHoldStatus types.ObjectLockLegalHoldStatus) error {
	input := &s3.PutObjectLegalHoldInput{
		Bucket: aws.String(bucket),
		Key:    aws.String(key),
		LegalHold: &types.ObjectLockLegalHold{
			Status: legalHoldStatus,
		},
	}
	if versionId != "" {
		input.VersionId = aws.String(versionId)
	}

	_, err := actor.S3Client.PutObjectLegalHold(ctx, input)
	if err != nil {
		var noKey *types.NoSuchKey
		if errors.As(err, &noKey) {
			log.Printf("Object %s does not exist in bucket %s.\n", key, bucket)
			err = noKey
		}
	}

	return err
}
```
+  Untuk detail API, lihat [PutObjectLegalHold](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.PutObjectLegalHold)di *Referensi AWS SDK untuk Go API*. 

### `PutObjectLockConfiguration`
<a name="s3_PutObjectLockConfiguration_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLockConfiguration`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 
Atur konfigurasi kunci objek dari ember.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// EnableObjectLockOnBucket enables object locking on an existing bucket.
func (actor S3Actions) EnableObjectLockOnBucket(ctx context.Context, bucket string) error {
	// Versioning must be enabled on the bucket before object locking is enabled.
	verInput := &s3.PutBucketVersioningInput{
		Bucket: aws.String(bucket),
		VersioningConfiguration: &types.VersioningConfiguration{
			MFADelete: types.MFADeleteDisabled,
			Status:    types.BucketVersioningStatusEnabled,
		},
	}
	_, err := actor.S3Client.PutBucketVersioning(ctx, verInput)
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		}
		return err
	}

	input := &s3.PutObjectLockConfigurationInput{
		Bucket: aws.String(bucket),
		ObjectLockConfiguration: &types.ObjectLockConfiguration{
			ObjectLockEnabled: types.ObjectLockEnabledEnabled,
		},
	}
	_, err = actor.S3Client.PutObjectLockConfiguration(ctx, input)
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		}
	}

	return err
}
```
Setel periode retensi default bucket.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// ModifyDefaultBucketRetention modifies the default retention period of an existing bucket.
func (actor S3Actions) ModifyDefaultBucketRetention(
	ctx context.Context, bucket string, lockMode types.ObjectLockEnabled, retentionPeriod int32, retentionMode types.ObjectLockRetentionMode) error {

	input := &s3.PutObjectLockConfigurationInput{
		Bucket: aws.String(bucket),
		ObjectLockConfiguration: &types.ObjectLockConfiguration{
			ObjectLockEnabled: lockMode,
			Rule: &types.ObjectLockRule{
				DefaultRetention: &types.DefaultRetention{
					Days: aws.Int32(retentionPeriod),
					Mode: retentionMode,
				},
			},
		},
	}
	_, err := actor.S3Client.PutObjectLockConfiguration(ctx, input)
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		}
	}

	return err
}
```
+  Untuk detail API, lihat [PutObjectLockConfiguration](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.PutObjectLockConfiguration)di *Referensi AWS SDK untuk Go API*. 

### `PutObjectRetention`
<a name="s3_PutObjectRetention_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectRetention`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// PutObjectRetention sets the object retention configuration for an S3 object.
func (actor S3Actions) PutObjectRetention(ctx context.Context, bucket string, key string, retentionMode types.ObjectLockRetentionMode, retentionPeriodDays int32) error {
	input := &s3.PutObjectRetentionInput{
		Bucket: aws.String(bucket),
		Key:    aws.String(key),
		Retention: &types.ObjectLockRetention{
			Mode:            retentionMode,
			RetainUntilDate: aws.Time(time.Now().AddDate(0, 0, int(retentionPeriodDays))),
		},
		BypassGovernanceRetention: aws.Bool(true),
	}

	_, err := actor.S3Client.PutObjectRetention(ctx, input)
	if err != nil {
		var noKey *types.NoSuchKey
		if errors.As(err, &noKey) {
			log.Printf("Object %s does not exist in bucket %s.\n", key, bucket)
			err = noKey
		}
	}

	return err
}
```
+  Untuk detail API, lihat [PutObjectRetention](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.PutObjectRetention)di *Referensi AWS SDK untuk Go API*. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_go_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 
Buat fungsi yang membungkus tindakan S3 yang telah ditetapkan sebelumnya.  

```
import (
	"context"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	v4 "github.com/aws/aws-sdk-go-v2/aws/signer/v4"
	"github.com/aws/aws-sdk-go-v2/service/s3"
)

// Presigner encapsulates the Amazon Simple Storage Service (Amazon S3) presign actions
// used in the examples.
// It contains PresignClient, a client that is used to presign requests to Amazon S3.
// Presigned requests contain temporary credentials and can be made from any HTTP client.
type Presigner struct {
	PresignClient *s3.PresignClient
}



// GetObject makes a presigned request that can be used to get an object from a bucket.
// The presigned request is valid for the specified number of seconds.
func (presigner Presigner) GetObject(
	ctx context.Context, bucketName string, objectKey string, lifetimeSecs int64) (*v4.PresignedHTTPRequest, error) {
	request, err := presigner.PresignClient.PresignGetObject(ctx, &s3.GetObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
	}, func(opts *s3.PresignOptions) {
		opts.Expires = time.Duration(lifetimeSecs * int64(time.Second))
	})
	if err != nil {
		log.Printf("Couldn't get a presigned request to get %v:%v. Here's why: %v\n",
			bucketName, objectKey, err)
	}
	return request, err
}



// PutObject makes a presigned request that can be used to put an object in a bucket.
// The presigned request is valid for the specified number of seconds.
func (presigner Presigner) PutObject(
	ctx context.Context, bucketName string, objectKey string, lifetimeSecs int64) (*v4.PresignedHTTPRequest, error) {
	request, err := presigner.PresignClient.PresignPutObject(ctx, &s3.PutObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
	}, func(opts *s3.PresignOptions) {
		opts.Expires = time.Duration(lifetimeSecs * int64(time.Second))
	})
	if err != nil {
		log.Printf("Couldn't get a presigned request to put %v:%v. Here's why: %v\n",
			bucketName, objectKey, err)
	}
	return request, err
}



// DeleteObject makes a presigned request that can be used to delete an object from a bucket.
func (presigner Presigner) DeleteObject(ctx context.Context, bucketName string, objectKey string) (*v4.PresignedHTTPRequest, error) {
	request, err := presigner.PresignClient.PresignDeleteObject(ctx, &s3.DeleteObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
	})
	if err != nil {
		log.Printf("Couldn't get a presigned request to delete object %v. Here's why: %v\n", objectKey, err)
	}
	return request, err
}



func (presigner Presigner) PresignPostObject(ctx context.Context, bucketName string, objectKey string, lifetimeSecs int64) (*s3.PresignedPostRequest, error) {
	request, err := presigner.PresignClient.PresignPostObject(ctx, &s3.PutObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
	}, func(options *s3.PresignPostOptions) {
		options.Expires = time.Duration(lifetimeSecs) * time.Second
	})
	if err != nil {
		log.Printf("Couldn't get a presigned post request to put %v:%v. Here's why: %v\n", bucketName, objectKey, err)
	}
	return request, nil
}
```
Jalankan contoh interaktif yang menghasilkan dan menggunakan presigned URLs untuk mengunggah, mengunduh, dan menghapus objek S3.  

```
import (
	"bytes"
	"context"
	"io"
	"log"
	"mime/multipart"
	"net/http"
	"os"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/s3/actions"
)



// RunPresigningScenario is an interactive example that shows you how to get presigned
// HTTP requests that you can use to move data into and out of Amazon Simple Storage
// Service (Amazon S3). The presigned requests contain temporary credentials and can
// be used by an HTTP client.
//
// 1. Get a presigned request to put an object in a bucket.
// 2. Use the net/http package to use the presigned request to upload a local file to the bucket.
// 3. Get a presigned request to get an object from a bucket.
// 4. Use the net/http package to use the presigned request to download the object to a local file.
// 5. Get a presigned request to delete an object from a bucket.
// 6. Use the net/http package to use the presigned request to delete the object.
//
// This example creates an Amazon S3 presign client from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// It uses a questioner from the `demotools` package to get input during the example.
// This package can be found in the ..\..\demotools folder of this repo.
//
// It uses an IHttpRequester interface to abstract HTTP requests so they can be mocked
// during testing.
func RunPresigningScenario(ctx context.Context, sdkConfig aws.Config, questioner demotools.IQuestioner, httpRequester IHttpRequester) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			_, isMock := questioner.(*demotools.MockQuestioner)
			if isMock || questioner.AskBool("Do you want to see the full error message (y/n)?", "y") {
				log.Println(r)
			}
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon S3 presigning demo.")
	log.Println(strings.Repeat("-", 88))

	s3Client := s3.NewFromConfig(sdkConfig)
	bucketBasics := actions.BucketBasics{S3Client: s3Client}
	presignClient := s3.NewPresignClient(s3Client)
	presigner := actions.Presigner{PresignClient: presignClient}

	bucketName := questioner.Ask("We'll need a bucket. Enter a name for a bucket "+
		"you own or one you want to create:", demotools.NotEmpty{})
	bucketExists, err := bucketBasics.BucketExists(ctx, bucketName)
	if err != nil {
		panic(err)
	}
	if !bucketExists {
		err = bucketBasics.CreateBucket(ctx, bucketName, sdkConfig.Region)
		if err != nil {
			panic(err)
		} else {
			log.Println("Bucket created.")
		}
	}
	log.Println(strings.Repeat("-", 88))

	log.Printf("Let's presign a request to upload a file to your bucket.")
	uploadFilename := questioner.Ask("Enter the path to a file you want to upload:",
		demotools.NotEmpty{})
	uploadKey := questioner.Ask("What would you like to name the uploaded object?",
		demotools.NotEmpty{})
	uploadFile, err := os.Open(uploadFilename)
	if err != nil {
		panic(err)
	}
	defer uploadFile.Close()
	presignedPutRequest, err := presigner.PutObject(ctx, bucketName, uploadKey, 60)
	if err != nil {
		panic(err)
	}
	log.Printf("Got a presigned %v request to URL:\n\t%v\n", presignedPutRequest.Method,
		presignedPutRequest.URL)
	log.Println("Using net/http to send the request...")
	info, err := uploadFile.Stat()
	if err != nil {
		panic(err)
	}
	putResponse, err := httpRequester.Put(presignedPutRequest.URL, info.Size(), uploadFile)
	if err != nil {
		panic(err)
	}
	log.Printf("%v object %v with presigned URL returned %v.", presignedPutRequest.Method,
		uploadKey, putResponse.StatusCode)
	log.Println(strings.Repeat("-", 88))

	log.Printf("Let's presign a request to download the object.")
	questioner.Ask("Press Enter when you're ready.")
	presignedGetRequest, err := presigner.GetObject(ctx, bucketName, uploadKey, 60)
	if err != nil {
		panic(err)
	}
	log.Printf("Got a presigned %v request to URL:\n\t%v\n", presignedGetRequest.Method,
		presignedGetRequest.URL)
	log.Println("Using net/http to send the request...")
	getResponse, err := httpRequester.Get(presignedGetRequest.URL)
	if err != nil {
		panic(err)
	}
	log.Printf("%v object %v with presigned URL returned %v.", presignedGetRequest.Method,
		uploadKey, getResponse.StatusCode)
	defer getResponse.Body.Close()
	downloadBody, err := io.ReadAll(getResponse.Body)
	if err != nil {
		panic(err)
	}
	log.Printf("Downloaded %v bytes. Here are the first 100 of them:\n", len(downloadBody))
	log.Println(strings.Repeat("-", 88))
	log.Println(string(downloadBody[:100]))
	log.Println(strings.Repeat("-", 88))

	log.Println("Now we'll create a new request to put the same object using a presigned post request")
	questioner.Ask("Press Enter when you're ready.")
	presignPostRequest, err := presigner.PresignPostObject(ctx, bucketName, uploadKey, 60)
	if err != nil {
		panic(err)
	}
	log.Printf("Got a presigned post request to url %v with values %v\n", presignPostRequest.URL, presignPostRequest.Values)
	log.Println("Using net/http multipart to send the request...")
	uploadFile, err = os.Open(uploadFilename)
	if err != nil {
		panic(err)
	}
	defer uploadFile.Close()
	multiPartResponse, err := sendMultipartRequest(presignPostRequest.URL, presignPostRequest.Values, uploadFile, uploadKey, httpRequester)
	if err != nil {
		panic(err)
	}
	log.Printf("Presign post object %v with presigned URL returned %v.", uploadKey, multiPartResponse.StatusCode)

	log.Println("Let's presign a request to delete the object.")
	questioner.Ask("Press Enter when you're ready.")
	presignedDelRequest, err := presigner.DeleteObject(ctx, bucketName, uploadKey)
	if err != nil {
		panic(err)
	}
	log.Printf("Got a presigned %v request to URL:\n\t%v\n", presignedDelRequest.Method,
		presignedDelRequest.URL)
	log.Println("Using net/http to send the request...")
	delResponse, err := httpRequester.Delete(presignedDelRequest.URL)
	if err != nil {
		panic(err)
	}
	log.Printf("%v object %v with presigned URL returned %v.\n", presignedDelRequest.Method,
		uploadKey, delResponse.StatusCode)
	log.Println(strings.Repeat("-", 88))

	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tentukan pembungkus permintaan HTTP yang digunakan oleh contoh untuk membuat permintaan HTTP.  

```
// IHttpRequester abstracts HTTP requests into an interface so it can be mocked during
// unit testing.
type IHttpRequester interface {
	Get(url string) (resp *http.Response, err error)
	Post(url, contentType string, body io.Reader) (resp *http.Response, err error)
	Put(url string, contentLength int64, body io.Reader) (resp *http.Response, err error)
	Delete(url string) (resp *http.Response, err error)
}

// HttpRequester uses the net/http package to make HTTP requests during the scenario.
type HttpRequester struct{}

func (httpReq HttpRequester) Get(url string) (resp *http.Response, err error) {
	return http.Get(url)
}
func (httpReq HttpRequester) Post(url, contentType string, body io.Reader) (resp *http.Response, err error) {
	postRequest, err := http.NewRequest("POST", url, body)
	if err != nil {
		return nil, err
	}
	postRequest.Header.Set("Content-Type", contentType)
	return http.DefaultClient.Do(postRequest)
}

func (httpReq HttpRequester) Put(url string, contentLength int64, body io.Reader) (resp *http.Response, err error) {
	putRequest, err := http.NewRequest("PUT", url, body)
	if err != nil {
		return nil, err
	}
	putRequest.ContentLength = contentLength
	return http.DefaultClient.Do(putRequest)
}
func (httpReq HttpRequester) Delete(url string) (resp *http.Response, err error) {
	delRequest, err := http.NewRequest("DELETE", url, nil)
	if err != nil {
		return nil, err
	}
	return http.DefaultClient.Do(delRequest)
}
```

### Kunci objek Amazon S3
<a name="s3_Scenario_ObjectLock_go_2_topic"></a>

Contoh kode berikut menunjukkan cara bekerja dengan fitur kunci objek S3.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/s3_object_lock#code-examples). 
Jalankan skenario interaktif yang mendemonstrasikan fitur kunci objek Amazon S3.  

```
import (
	"context"
	"fmt"
	"log"
	"strings"

	"s3_object_lock/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// ObjectLockScenario contains the steps to run the S3 Object Lock workflow.
type ObjectLockScenario struct {
	questioner demotools.IQuestioner
	resources  Resources
	s3Actions  *actions.S3Actions
	sdkConfig  aws.Config
}

// NewObjectLockScenario constructs a new ObjectLockScenario instance.
func NewObjectLockScenario(sdkConfig aws.Config, questioner demotools.IQuestioner) ObjectLockScenario {
	scenario := ObjectLockScenario{
		questioner: questioner,
		resources:  Resources{},
		s3Actions:  &actions.S3Actions{S3Client: s3.NewFromConfig(sdkConfig)},
		sdkConfig:  sdkConfig,
	}
	scenario.s3Actions.S3Manager = manager.NewUploader(scenario.s3Actions.S3Client)
	scenario.resources.init(scenario.s3Actions, questioner)
	return scenario
}

type nameLocked struct {
	name   string
	locked bool
}

var createInfo = []nameLocked{
	{"standard-bucket", false},
	{"lock-bucket", true},
	{"retention-bucket", false},
}

// CreateBuckets creates the S3 buckets required for the workflow.
func (scenario *ObjectLockScenario) CreateBuckets(ctx context.Context) {
	log.Println("Let's create some S3 buckets to use for this workflow.")
	success := false
	for !success {
		prefix := scenario.questioner.Ask(
			"This example creates three buckets. Enter a prefix to name your buckets (remember bucket names must be globally unique):")

		for _, info := range createInfo {
			log.Println(fmt.Sprintf("%s.%s", prefix, info.name))
			bucketName, err := scenario.s3Actions.CreateBucketWithLock(ctx, fmt.Sprintf("%s.%s", prefix, info.name), scenario.sdkConfig.Region, info.locked)
			if err != nil {
				switch err.(type) {
				case *types.BucketAlreadyExists, *types.BucketAlreadyOwnedByYou:
					log.Printf("Couldn't create bucket %s.\n", bucketName)
				default:
					panic(err)
				}
				break
			}
			scenario.resources.demoBuckets[info.name] = &DemoBucket{
				name:       bucketName,
				objectKeys: []string{},
			}
			log.Printf("Created bucket %s.\n", bucketName)
		}

		if len(scenario.resources.demoBuckets) < len(createInfo) {
			scenario.resources.deleteBuckets(ctx)
		} else {
			success = true
		}
	}

	log.Println("S3 buckets created.")
	log.Println(strings.Repeat("-", 88))
}

// EnableLockOnBucket enables object locking on an existing bucket.
func (scenario *ObjectLockScenario) EnableLockOnBucket(ctx context.Context) {
	log.Println("\nA bucket can be configured to use object locking.")
	scenario.questioner.Ask("Press Enter to continue.")

	var err error
	bucket := scenario.resources.demoBuckets["retention-bucket"]
	err = scenario.s3Actions.EnableObjectLockOnBucket(ctx, bucket.name)
	if err != nil {
		switch err.(type) {
		case *types.NoSuchBucket:
			log.Printf("Couldn't enable object locking on bucket %s.\n", bucket.name)
		default:
			panic(err)
		}
	} else {
		log.Printf("Object locking enabled on bucket %s.", bucket.name)
	}

	log.Println(strings.Repeat("-", 88))
}

// SetDefaultRetentionPolicy sets a default retention governance policy on a bucket.
func (scenario *ObjectLockScenario) SetDefaultRetentionPolicy(ctx context.Context) {
	log.Println("\nA bucket can be configured to use object locking with a default retention period.")

	bucket := scenario.resources.demoBuckets["retention-bucket"]
	retentionPeriod := scenario.questioner.AskInt("Enter the default retention period in days: ")
	err := scenario.s3Actions.ModifyDefaultBucketRetention(ctx, bucket.name, types.ObjectLockEnabledEnabled, int32(retentionPeriod), types.ObjectLockRetentionModeGovernance)
	if err != nil {
		switch err.(type) {
		case *types.NoSuchBucket:
			log.Printf("Couldn't configure a default retention period on bucket %s.\n", bucket.name)
		default:
			panic(err)
		}
	} else {
		log.Printf("Default retention policy set on bucket %s with %d day retention period.", bucket.name, retentionPeriod)
		bucket.retentionEnabled = true
	}

	log.Println(strings.Repeat("-", 88))
}

// UploadTestObjects uploads test objects to the S3 buckets.
func (scenario *ObjectLockScenario) UploadTestObjects(ctx context.Context) {
	log.Println("Uploading test objects to S3 buckets.")

	for _, info := range createInfo {
		bucket := scenario.resources.demoBuckets[info.name]
		for i := 0; i < 2; i++ {
			key, err := scenario.s3Actions.UploadObject(ctx, bucket.name, fmt.Sprintf("example-%d", i),
				fmt.Sprintf("Example object content #%d in bucket %s.", i, bucket.name))
			if err != nil {
				switch err.(type) {
				case *types.NoSuchBucket:
					log.Printf("Couldn't upload %s to bucket %s.\n", key, bucket.name)
				default:
					panic(err)
				}
			} else {
				log.Printf("Uploaded %s to bucket %s.\n", key, bucket.name)
				bucket.objectKeys = append(bucket.objectKeys, key)
			}
		}
	}

	scenario.questioner.Ask("Test objects uploaded. Press Enter to continue.")
	log.Println(strings.Repeat("-", 88))
}

// SetObjectLockConfigurations sets object lock configurations on the test objects.
func (scenario *ObjectLockScenario) SetObjectLockConfigurations(ctx context.Context) {
	log.Println("Now let's set object lock configurations on individual objects.")

	buckets := []*DemoBucket{scenario.resources.demoBuckets["lock-bucket"], scenario.resources.demoBuckets["retention-bucket"]}
	for _, bucket := range buckets {
		for index, objKey := range bucket.objectKeys {
			switch index {
			case 0:
				if scenario.questioner.AskBool(fmt.Sprintf("\nDo you want to add a legal hold to %s in %s (y/n)? ", objKey, bucket.name), "y") {
					err := scenario.s3Actions.PutObjectLegalHold(ctx, bucket.name, objKey, "", types.ObjectLockLegalHoldStatusOn)
					if err != nil {
						switch err.(type) {
						case *types.NoSuchKey:
							log.Printf("Couldn't set legal hold on %s.\n", objKey)
						default:
							panic(err)
						}
					} else {
						log.Printf("Legal hold set on %s.\n", objKey)
					}
				}
			case 1:
				q := fmt.Sprintf("\nDo you want to add a 1 day Governance retention period to %s in %s?\n"+
					"Reminder: Only a user with the s3:BypassGovernanceRetention permission is able to delete this object\n"+
					"or its bucket until the retention period has expired. (y/n) ", objKey, bucket.name)
				if scenario.questioner.AskBool(q, "y") {
					err := scenario.s3Actions.PutObjectRetention(ctx, bucket.name, objKey, types.ObjectLockRetentionModeGovernance, 1)
					if err != nil {
						switch err.(type) {
						case *types.NoSuchKey:
							log.Printf("Couldn't set retention period on %s in %s.\n", objKey, bucket.name)
						default:
							panic(err)
						}
					} else {
						log.Printf("Retention period set to 1 for %s.", objKey)
						bucket.retentionEnabled = true
					}
				}
			}
		}
	}
	log.Println(strings.Repeat("-", 88))
}

const (
	ListAll = iota
	DeleteObject
	DeleteRetentionObject
	OverwriteObject
	ViewRetention
	ViewLegalHold
	Finish
)

// InteractWithObjects allows the user to interact with the objects and test the object lock configurations.
func (scenario *ObjectLockScenario) InteractWithObjects(ctx context.Context) {
	log.Println("Now you can interact with the objects to explore the object lock configurations.")
	interactiveChoices := []string{
		"List all objects and buckets.",
		"Attempt to delete an object.",
		"Attempt to delete an object with retention period bypass.",
		"Attempt to overwrite a file.",
		"View the retention settings for an object.",
		"View the legal hold settings for an object.",
		"Finish the workflow."}

	choice := ListAll
	for choice != Finish {
		objList := scenario.GetAllObjects(ctx)
		objChoices := scenario.makeObjectChoiceList(objList)
		choice = scenario.questioner.AskChoice("Choose an action from the menu:\n", interactiveChoices)
		switch choice {
		case ListAll:
			log.Println("The current objects in the example buckets are:")
			for _, objChoice := range objChoices {
				log.Println("\t", objChoice)
			}
		case DeleteObject, DeleteRetentionObject:
			objChoice := scenario.questioner.AskChoice("Enter the number of the object to delete:\n", objChoices)
			obj := objList[objChoice]
			deleted, err := scenario.s3Actions.DeleteObject(ctx, obj.bucket, obj.key, obj.versionId, choice == DeleteRetentionObject)
			if err != nil {
				switch err.(type) {
				case *types.NoSuchKey:
					log.Println("Nothing to delete.")
				default:
					panic(err)
				}
			} else if deleted {
				log.Printf("Object %s deleted.\n", obj.key)
			}
		case OverwriteObject:
			objChoice := scenario.questioner.AskChoice("Enter the number of the object to overwrite:\n", objChoices)
			obj := objList[objChoice]
			_, err := scenario.s3Actions.UploadObject(ctx, obj.bucket, obj.key, fmt.Sprintf("New content in object %s.", obj.key))
			if err != nil {
				switch err.(type) {
				case *types.NoSuchBucket:
					log.Println("Couldn't upload to nonexistent bucket.")
				default:
					panic(err)
				}
			} else {
				log.Printf("Uploaded new content to object %s.\n", obj.key)
			}
		case ViewRetention:
			objChoice := scenario.questioner.AskChoice("Enter the number of the object to view:\n", objChoices)
			obj := objList[objChoice]
			retention, err := scenario.s3Actions.GetObjectRetention(ctx, obj.bucket, obj.key)
			if err != nil {
				switch err.(type) {
				case *types.NoSuchKey:
					log.Printf("Can't get retention configuration for %s.\n", obj.key)
				default:
					panic(err)
				}
			} else if retention != nil {
				log.Printf("Object %s has retention mode %s until %v.\n", obj.key, retention.Mode, retention.RetainUntilDate)
			} else {
				log.Printf("Object %s does not have object retention configured.\n", obj.key)
			}
		case ViewLegalHold:
			objChoice := scenario.questioner.AskChoice("Enter the number of the object to view:\n", objChoices)
			obj := objList[objChoice]
			legalHold, err := scenario.s3Actions.GetObjectLegalHold(ctx, obj.bucket, obj.key, obj.versionId)
			if err != nil {
				switch err.(type) {
				case *types.NoSuchKey:
					log.Printf("Can't get legal hold configuration for %s.\n", obj.key)
				default:
					panic(err)
				}
			} else if legalHold != nil {
				log.Printf("Object %s has legal hold %v.", obj.key, *legalHold)
			} else {
				log.Printf("Object %s does not have legal hold configured.", obj.key)
			}
		case Finish:
			log.Println("Let's clean up.")
		}
		log.Println(strings.Repeat("-", 88))
	}
}

type BucketKeyVersionId struct {
	bucket    string
	key       string
	versionId string
}

// GetAllObjects gets the object versions in the example S3 buckets and returns them in a flattened list.
func (scenario *ObjectLockScenario) GetAllObjects(ctx context.Context) []BucketKeyVersionId {
	var objectList []BucketKeyVersionId
	for _, info := range createInfo {
		bucket := scenario.resources.demoBuckets[info.name]
		versions, err := scenario.s3Actions.ListObjectVersions(ctx, bucket.name)
		if err != nil {
			switch err.(type) {
			case *types.NoSuchBucket:
				log.Printf("Couldn't get object versions for %s.\n", bucket.name)
			default:
				panic(err)
			}
		} else {
			for _, version := range versions {
				objectList = append(objectList,
					BucketKeyVersionId{bucket: bucket.name, key: *version.Key, versionId: *version.VersionId})
			}
		}
	}
	return objectList
}

// makeObjectChoiceList makes the object version list into a list of strings that are displayed
// as choices.
func (scenario *ObjectLockScenario) makeObjectChoiceList(bucketObjects []BucketKeyVersionId) []string {
	choices := make([]string, len(bucketObjects))
	for i := 0; i < len(bucketObjects); i++ {
		choices[i] = fmt.Sprintf("%s in %s with VersionId %s.",
			bucketObjects[i].key, bucketObjects[i].bucket, bucketObjects[i].versionId)
	}
	return choices
}

// Run runs the S3 Object Lock scenario.
func (scenario *ObjectLockScenario) Run(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			_, isMock := scenario.questioner.(*demotools.MockQuestioner)
			if isMock || scenario.questioner.AskBool("Do you want to see the full error message (y/n)?", "y") {
				log.Println(r)
			}
			scenario.resources.Cleanup(ctx)
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon S3 Object Lock Feature Scenario.")
	log.Println(strings.Repeat("-", 88))

	scenario.CreateBuckets(ctx)
	scenario.EnableLockOnBucket(ctx)
	scenario.SetDefaultRetentionPolicy(ctx)
	scenario.UploadTestObjects(ctx)
	scenario.SetObjectLockConfigurations(ctx)
	scenario.InteractWithObjects(ctx)

	scenario.resources.Cleanup(ctx)

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tentukan struct yang membungkus tindakan S3 yang digunakan dalam contoh ini.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"log"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// S3Actions wraps S3 service actions.
type S3Actions struct {
	S3Client  *s3.Client
	S3Manager *manager.Uploader
}



// CreateBucketWithLock creates a new S3 bucket with optional object locking enabled
// and waits for the bucket to exist before returning.
func (actor S3Actions) CreateBucketWithLock(ctx context.Context, bucket string, region string, enableObjectLock bool) (string, error) {
	input := &s3.CreateBucketInput{
		Bucket: aws.String(bucket),
		CreateBucketConfiguration: &types.CreateBucketConfiguration{
			LocationConstraint: types.BucketLocationConstraint(region),
		},
	}

	if enableObjectLock {
		input.ObjectLockEnabledForBucket = aws.Bool(true)
	}

	_, err := actor.S3Client.CreateBucket(ctx, input)
	if err != nil {
		var owned *types.BucketAlreadyOwnedByYou
		var exists *types.BucketAlreadyExists
		if errors.As(err, &owned) {
			log.Printf("You already own bucket %s.\n", bucket)
			err = owned
		} else if errors.As(err, &exists) {
			log.Printf("Bucket %s already exists.\n", bucket)
			err = exists
		}
	} else {
		err = s3.NewBucketExistsWaiter(actor.S3Client).Wait(
			ctx, &s3.HeadBucketInput{Bucket: aws.String(bucket)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for bucket %s to exist.\n", bucket)
		}
	}

	return bucket, err
}



// GetObjectLegalHold retrieves the legal hold status for an S3 object.
func (actor S3Actions) GetObjectLegalHold(ctx context.Context, bucket string, key string, versionId string) (*types.ObjectLockLegalHoldStatus, error) {
	var status *types.ObjectLockLegalHoldStatus
	input := &s3.GetObjectLegalHoldInput{
		Bucket:    aws.String(bucket),
		Key:       aws.String(key),
		VersionId: aws.String(versionId),
	}

	output, err := actor.S3Client.GetObjectLegalHold(ctx, input)
	if err != nil {
		var noSuchKeyErr *types.NoSuchKey
		var apiErr *smithy.GenericAPIError
		if errors.As(err, &noSuchKeyErr) {
			log.Printf("Object %s does not exist in bucket %s.\n", key, bucket)
			err = noSuchKeyErr
		} else if errors.As(err, &apiErr) {
			switch apiErr.ErrorCode() {
			case "NoSuchObjectLockConfiguration":
				log.Printf("Object %s does not have an object lock configuration.\n", key)
				err = nil
			case "InvalidRequest":
				log.Printf("Bucket %s does not have an object lock configuration.\n", bucket)
				err = nil
			}
		}
	} else {
		status = &output.LegalHold.Status
	}

	return status, err
}



// GetObjectLockConfiguration retrieves the object lock configuration for an S3 bucket.
func (actor S3Actions) GetObjectLockConfiguration(ctx context.Context, bucket string) (*types.ObjectLockConfiguration, error) {
	var lockConfig *types.ObjectLockConfiguration
	input := &s3.GetObjectLockConfigurationInput{
		Bucket: aws.String(bucket),
	}

	output, err := actor.S3Client.GetObjectLockConfiguration(ctx, input)
	if err != nil {
		var noBucket *types.NoSuchBucket
		var apiErr *smithy.GenericAPIError
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		} else if errors.As(err, &apiErr) && apiErr.ErrorCode() == "ObjectLockConfigurationNotFoundError" {
			log.Printf("Bucket %s does not have an object lock configuration.\n", bucket)
			err = nil
		}
	} else {
		lockConfig = output.ObjectLockConfiguration
	}

	return lockConfig, err
}



// GetObjectRetention retrieves the object retention configuration for an S3 object.
func (actor S3Actions) GetObjectRetention(ctx context.Context, bucket string, key string) (*types.ObjectLockRetention, error) {
	var retention *types.ObjectLockRetention
	input := &s3.GetObjectRetentionInput{
		Bucket: aws.String(bucket),
		Key:    aws.String(key),
	}

	output, err := actor.S3Client.GetObjectRetention(ctx, input)
	if err != nil {
		var noKey *types.NoSuchKey
		var apiErr *smithy.GenericAPIError
		if errors.As(err, &noKey) {
			log.Printf("Object %s does not exist in bucket %s.\n", key, bucket)
			err = noKey
		} else if errors.As(err, &apiErr) {
			switch apiErr.ErrorCode() {
			case "NoSuchObjectLockConfiguration":
				err = nil
			case "InvalidRequest":
				log.Printf("Bucket %s does not have locking enabled.", bucket)
				err = nil
			}
		}
	} else {
		retention = output.Retention
	}

	return retention, err
}



// PutObjectLegalHold sets the legal hold configuration for an S3 object.
func (actor S3Actions) PutObjectLegalHold(ctx context.Context, bucket string, key string, versionId string, legalHoldStatus types.ObjectLockLegalHoldStatus) error {
	input := &s3.PutObjectLegalHoldInput{
		Bucket: aws.String(bucket),
		Key:    aws.String(key),
		LegalHold: &types.ObjectLockLegalHold{
			Status: legalHoldStatus,
		},
	}
	if versionId != "" {
		input.VersionId = aws.String(versionId)
	}

	_, err := actor.S3Client.PutObjectLegalHold(ctx, input)
	if err != nil {
		var noKey *types.NoSuchKey
		if errors.As(err, &noKey) {
			log.Printf("Object %s does not exist in bucket %s.\n", key, bucket)
			err = noKey
		}
	}

	return err
}



// ModifyDefaultBucketRetention modifies the default retention period of an existing bucket.
func (actor S3Actions) ModifyDefaultBucketRetention(
	ctx context.Context, bucket string, lockMode types.ObjectLockEnabled, retentionPeriod int32, retentionMode types.ObjectLockRetentionMode) error {

	input := &s3.PutObjectLockConfigurationInput{
		Bucket: aws.String(bucket),
		ObjectLockConfiguration: &types.ObjectLockConfiguration{
			ObjectLockEnabled: lockMode,
			Rule: &types.ObjectLockRule{
				DefaultRetention: &types.DefaultRetention{
					Days: aws.Int32(retentionPeriod),
					Mode: retentionMode,
				},
			},
		},
	}
	_, err := actor.S3Client.PutObjectLockConfiguration(ctx, input)
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		}
	}

	return err
}



// EnableObjectLockOnBucket enables object locking on an existing bucket.
func (actor S3Actions) EnableObjectLockOnBucket(ctx context.Context, bucket string) error {
	// Versioning must be enabled on the bucket before object locking is enabled.
	verInput := &s3.PutBucketVersioningInput{
		Bucket: aws.String(bucket),
		VersioningConfiguration: &types.VersioningConfiguration{
			MFADelete: types.MFADeleteDisabled,
			Status:    types.BucketVersioningStatusEnabled,
		},
	}
	_, err := actor.S3Client.PutBucketVersioning(ctx, verInput)
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		}
		return err
	}

	input := &s3.PutObjectLockConfigurationInput{
		Bucket: aws.String(bucket),
		ObjectLockConfiguration: &types.ObjectLockConfiguration{
			ObjectLockEnabled: types.ObjectLockEnabledEnabled,
		},
	}
	_, err = actor.S3Client.PutObjectLockConfiguration(ctx, input)
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		}
	}

	return err
}



// PutObjectRetention sets the object retention configuration for an S3 object.
func (actor S3Actions) PutObjectRetention(ctx context.Context, bucket string, key string, retentionMode types.ObjectLockRetentionMode, retentionPeriodDays int32) error {
	input := &s3.PutObjectRetentionInput{
		Bucket: aws.String(bucket),
		Key:    aws.String(key),
		Retention: &types.ObjectLockRetention{
			Mode:            retentionMode,
			RetainUntilDate: aws.Time(time.Now().AddDate(0, 0, int(retentionPeriodDays))),
		},
		BypassGovernanceRetention: aws.Bool(true),
	}

	_, err := actor.S3Client.PutObjectRetention(ctx, input)
	if err != nil {
		var noKey *types.NoSuchKey
		if errors.As(err, &noKey) {
			log.Printf("Object %s does not exist in bucket %s.\n", key, bucket)
			err = noKey
		}
	}

	return err
}



// UploadObject uses the S3 upload manager to upload an object to a bucket.
func (actor S3Actions) UploadObject(ctx context.Context, bucket string, key string, contents string) (string, error) {
	var outKey string
	input := &s3.PutObjectInput{
		Bucket:            aws.String(bucket),
		Key:               aws.String(key),
		Body:              bytes.NewReader([]byte(contents)),
		ChecksumAlgorithm: types.ChecksumAlgorithmSha256,
	}
	output, err := actor.S3Manager.Upload(ctx, input)
	if err != nil {
		var noBucket *types.NoSuchBucket
		if errors.As(err, &noBucket) {
			log.Printf("Bucket %s does not exist.\n", bucket)
			err = noBucket
		}
	} else {
		err := s3.NewObjectExistsWaiter(actor.S3Client).Wait(ctx, &s3.HeadObjectInput{
			Bucket: aws.String(bucket),
			Key:    aws.String(key),
		}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s to exist in %s.\n", key, bucket)
		} else {
			outKey = *output.Key
		}
	}
	return outKey, err
}



// ListObjectVersions lists all versions of all objects in a bucket.
func (actor S3Actions) ListObjectVersions(ctx context.Context, bucket string) ([]types.ObjectVersion, error) {
	var err error
	var output *s3.ListObjectVersionsOutput
	var versions []types.ObjectVersion
	input := &s3.ListObjectVersionsInput{Bucket: aws.String(bucket)}
	versionPaginator := s3.NewListObjectVersionsPaginator(actor.S3Client, input)
	for versionPaginator.HasMorePages() {
		output, err = versionPaginator.NextPage(ctx)
		if err != nil {
			var noBucket *types.NoSuchBucket
			if errors.As(err, &noBucket) {
				log.Printf("Bucket %s does not exist.\n", bucket)
				err = noBucket
			}
			break
		} else {
			versions = append(versions, output.Versions...)
		}
	}
	return versions, err
}



// DeleteObject deletes an object from a bucket.
func (actor S3Actions) DeleteObject(ctx context.Context, bucket string, key string, versionId string, bypassGovernance bool) (bool, error) {
	deleted := false
	input := &s3.DeleteObjectInput{
		Bucket: aws.String(bucket),
		Key:    aws.String(key),
	}
	if versionId != "" {
		input.VersionId = aws.String(versionId)
	}
	if bypassGovernance {
		input.BypassGovernanceRetention = aws.Bool(true)
	}
	_, err := actor.S3Client.DeleteObject(ctx, input)
	if err != nil {
		var noKey *types.NoSuchKey
		var apiErr *smithy.GenericAPIError
		if errors.As(err, &noKey) {
			log.Printf("Object %s does not exist in %s.\n", key, bucket)
			err = noKey
		} else if errors.As(err, &apiErr) {
			switch apiErr.ErrorCode() {
			case "AccessDenied":
				log.Printf("Access denied: cannot delete object %s from %s.\n", key, bucket)
				err = nil
			case "InvalidArgument":
				if bypassGovernance {
					log.Printf("You cannot specify bypass governance on a bucket without lock enabled.")
					err = nil
				}
			}
		}
	} else {
		err = s3.NewObjectNotExistsWaiter(actor.S3Client).Wait(
			ctx, &s3.HeadObjectInput{Bucket: aws.String(bucket), Key: aws.String(key)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s in bucket %s to be deleted.\n", key, bucket)
		} else {
			deleted = true
		}
	}
	return deleted, err
}



// DeleteObjects deletes a list of objects from a bucket.
func (actor S3Actions) DeleteObjects(ctx context.Context, bucket string, objects []types.ObjectIdentifier, bypassGovernance bool) error {
	if len(objects) == 0 {
		return nil
	}

	input := s3.DeleteObjectsInput{
		Bucket: aws.String(bucket),
		Delete: &types.Delete{
			Objects: objects,
			Quiet:   aws.Bool(true),
		},
	}
	if bypassGovernance {
		input.BypassGovernanceRetention = aws.Bool(true)
	}
	delOut, err := actor.S3Client.DeleteObjects(ctx, &input)
	if err != nil || len(delOut.Errors) > 0 {
		log.Printf("Error deleting objects from bucket %s.\n", bucket)
		if err != nil {
			var noBucket *types.NoSuchBucket
			if errors.As(err, &noBucket) {
				log.Printf("Bucket %s does not exist.\n", bucket)
				err = noBucket
			}
		} else if len(delOut.Errors) > 0 {
			for _, outErr := range delOut.Errors {
				log.Printf("%s: %s\n", *outErr.Key, *outErr.Message)
			}
			err = fmt.Errorf("%s", *delOut.Errors[0].Message)
		}
	} else {
		for _, delObjs := range delOut.Deleted {
			err = s3.NewObjectNotExistsWaiter(actor.S3Client).Wait(
				ctx, &s3.HeadObjectInput{Bucket: aws.String(bucket), Key: delObjs.Key}, time.Minute)
			if err != nil {
				log.Printf("Failed attempt to wait for object %s to be deleted.\n", *delObjs.Key)
			} else {
				log.Printf("Deleted %s.\n", *delObjs.Key)
			}
		}
	}
	return err
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"log"
	"s3_object_lock/actions"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

// DemoBucket contains metadata for buckets used in this example.
type DemoBucket struct {
	name             string
	retentionEnabled bool
	objectKeys       []string
}

// Resources keeps track of AWS resources created during the ObjectLockScenario and handles
// cleanup when the scenario finishes.
type Resources struct {
	demoBuckets map[string]*DemoBucket

	s3Actions  *actions.S3Actions
	questioner demotools.IQuestioner
}

// init initializes objects in the Resources struct.
func (resources *Resources) init(s3Actions *actions.S3Actions, questioner demotools.IQuestioner) {
	resources.s3Actions = s3Actions
	resources.questioner = questioner
	resources.demoBuckets = map[string]*DemoBucket{}
}

// Cleanup deletes all AWS resources created during the ObjectLockScenario.
func (resources *Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			log.Printf("Something went wrong during cleanup.\n%v\n", r)
			log.Println("Use the AWS Management Console to remove any remaining resources " +
				"that were created for this scenario.")
		}
	}()

	wantDelete := resources.questioner.AskBool("Do you want to remove all of the AWS resources that were created "+
		"during this demo (y/n)?", "y")
	if !wantDelete {
		log.Println("Be sure to remove resources when you're done with them to avoid unexpected charges!")
		return
	}

	log.Println("Removing objects from S3 buckets and deleting buckets...")
	resources.deleteBuckets(ctx)
	//resources.deleteRetentionObjects(resources.retentionBucket, resources.retentionObjects)

	log.Println("Cleanup complete.")
}

// deleteBuckets empties and then deletes all buckets created during the ObjectLockScenario.
func (resources *Resources) deleteBuckets(ctx context.Context) {
	for _, info := range createInfo {
		bucket := resources.demoBuckets[info.name]
		resources.deleteObjects(ctx, bucket)
		_, err := resources.s3Actions.S3Client.DeleteBucket(ctx, &s3.DeleteBucketInput{
			Bucket: aws.String(bucket.name),
		})
		if err != nil {
			panic(err)
		}
	}
	for _, info := range createInfo {
		bucket := resources.demoBuckets[info.name]
		err := s3.NewBucketNotExistsWaiter(resources.s3Actions.S3Client).Wait(
			ctx, &s3.HeadBucketInput{Bucket: aws.String(bucket.name)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for bucket %s to be deleted.\n", bucket.name)
		} else {
			log.Printf("Deleted %s.\n", bucket.name)
		}
	}
	resources.demoBuckets = map[string]*DemoBucket{}
}

// deleteObjects deletes all objects in the specified bucket.
func (resources *Resources) deleteObjects(ctx context.Context, bucket *DemoBucket) {
	lockConfig, err := resources.s3Actions.GetObjectLockConfiguration(ctx, bucket.name)
	if err != nil {
		panic(err)
	}
	versions, err := resources.s3Actions.ListObjectVersions(ctx, bucket.name)
	if err != nil {
		switch err.(type) {
		case *types.NoSuchBucket:
			log.Printf("No objects to get from %s.\n", bucket.name)
		default:
			panic(err)
		}
	}
	delObjects := make([]types.ObjectIdentifier, len(versions))
	for i, version := range versions {
		if lockConfig != nil && lockConfig.ObjectLockEnabled == types.ObjectLockEnabledEnabled {
			status, err := resources.s3Actions.GetObjectLegalHold(ctx, bucket.name, *version.Key, *version.VersionId)
			if err != nil {
				switch err.(type) {
				case *types.NoSuchKey:
					log.Printf("Couldn't determine legal hold status for %s in %s.\n", *version.Key, bucket.name)
				default:
					panic(err)
				}
			} else if status != nil && *status == types.ObjectLockLegalHoldStatusOn {
				err = resources.s3Actions.PutObjectLegalHold(ctx, bucket.name, *version.Key, *version.VersionId, types.ObjectLockLegalHoldStatusOff)
				if err != nil {
					switch err.(type) {
					case *types.NoSuchKey:
						log.Printf("Couldn't turn off legal hold for %s in %s.\n", *version.Key, bucket.name)
					default:
						panic(err)
					}
				}
			}
		}
		delObjects[i] = types.ObjectIdentifier{Key: version.Key, VersionId: version.VersionId}
	}
	err = resources.s3Actions.DeleteObjects(ctx, bucket.name, delObjects, bucket.retentionEnabled)
	if err != nil {
		switch err.(type) {
		case *types.NoSuchBucket:
			log.Println("Nothing to delete.")
		default:
			panic(err)
		}
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [GetObjectLegalHold](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.GetObjectLegalHold)
  + [GetObjectLockConfiguration](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.GetObjectLockConfiguration)
  + [GetObjectRetention](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.GetObjectRetention)
  + [PutObjectLegalHold](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.PutObjectLegalHold)
  + [PutObjectLockConfiguration](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.PutObjectLockConfiguration)
  + [PutObjectRetention](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/s3#Client.PutObjectRetention)

### Mengunggah atau mengunduh file besar
<a name="s3_Scenario_UsingLargeFiles_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah atau mengunduh file besar ke dan dari Amazon S3.

Untuk informasi selengkapnya, lihat [Pengunggahan objek menggunakan unggahan multibagian](https://docs.aws.amazon.com/AmazonS3/latest/userguide/mpu-upload-object.html).

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/s3#code-examples). 
Buat fungsi yang menggunakan pengelola unggah dan unduhan untuk memecah data menjadi beberapa bagian dan mentransfernya secara bersamaan.  

```
import (
	"bytes"
	"context"
	"errors"
	"fmt"
	"io"
	"log"
	"os"
	"time"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/feature/s3/manager"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/aws/aws-sdk-go-v2/service/s3/types"
	"github.com/aws/smithy-go"
)

// BucketBasics encapsulates the Amazon Simple Storage Service (Amazon S3) actions
// used in the examples.
// It contains S3Client, an Amazon S3 service client that is used to perform bucket
// and object actions.
type BucketBasics struct {
	S3Client *s3.Client
}



// UploadLargeObject uses an upload manager to upload data to an object in a bucket.
// The upload manager breaks large data into parts and uploads the parts concurrently.
func (basics BucketBasics) UploadLargeObject(ctx context.Context, bucketName string, objectKey string, largeObject []byte) error {
	largeBuffer := bytes.NewReader(largeObject)
	var partMiBs int64 = 10
	uploader := manager.NewUploader(basics.S3Client, func(u *manager.Uploader) {
		u.PartSize = partMiBs * 1024 * 1024
	})
	_, err := uploader.Upload(ctx, &s3.PutObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
		Body:   largeBuffer,
	})
	if err != nil {
		var apiErr smithy.APIError
		if errors.As(err, &apiErr) && apiErr.ErrorCode() == "EntityTooLarge" {
			log.Printf("Error while uploading object to %s. The object is too large.\n"+
				"The maximum size for a multipart upload is 5TB.", bucketName)
		} else {
			log.Printf("Couldn't upload large object to %v:%v. Here's why: %v\n",
				bucketName, objectKey, err)
		}
	} else {
		err = s3.NewObjectExistsWaiter(basics.S3Client).Wait(
			ctx, &s3.HeadObjectInput{Bucket: aws.String(bucketName), Key: aws.String(objectKey)}, time.Minute)
		if err != nil {
			log.Printf("Failed attempt to wait for object %s to exist.\n", objectKey)
		}
	}

	return err
}



// DownloadLargeObject uses a download manager to download an object from a bucket.
// The download manager gets the data in parts and writes them to a buffer until all of
// the data has been downloaded.
func (basics BucketBasics) DownloadLargeObject(ctx context.Context, bucketName string, objectKey string) ([]byte, error) {
	var partMiBs int64 = 10
	downloader := manager.NewDownloader(basics.S3Client, func(d *manager.Downloader) {
		d.PartSize = partMiBs * 1024 * 1024
	})
	buffer := manager.NewWriteAtBuffer([]byte{})
	_, err := downloader.Download(ctx, buffer, &s3.GetObjectInput{
		Bucket: aws.String(bucketName),
		Key:    aws.String(objectKey),
	})
	if err != nil {
		log.Printf("Couldn't download large object from %v:%v. Here's why: %v\n",
			bucketName, objectKey, err)
	}
	return buffer.Bytes(), err
}
```
Jalankan skenario interaktif yang menunjukkan cara menggunakan pengelola unggahan dan unduhan dalam konteks.  

```
import (
	"context"
	"crypto/rand"
	"log"
	"strings"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/s3"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/s3/actions"
)

// RunLargeObjectScenario is an interactive example that shows you how to use Amazon
// Simple Storage Service (Amazon S3) to upload and download large objects.
//
// 1. Create a bucket.
// 3. Upload a large object to the bucket by using an upload manager.
// 5. Download a large object by using a download manager.
// 8. Delete all objects in the bucket.
// 9. Delete the bucket.
//
// This example creates an Amazon S3 service client from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// It uses a questioner from the `demotools` package to get input during the example.
// This package can be found in the ..\..\demotools folder of this repo.
func RunLargeObjectScenario(ctx context.Context, sdkConfig aws.Config, questioner demotools.IQuestioner) {
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.")
			_, isMock := questioner.(*demotools.MockQuestioner)
			if isMock || questioner.AskBool("Do you want to see the full error message (y/n)?", "y") {
				log.Println(r)
			}
		}
	}()

	log.Println(strings.Repeat("-", 88))
	log.Println("Welcome to the Amazon S3 large object demo.")
	log.Println(strings.Repeat("-", 88))

	s3Client := s3.NewFromConfig(sdkConfig)
	bucketBasics := actions.BucketBasics{S3Client: s3Client}

	bucketName := questioner.Ask("Let's create a bucket. Enter a name for your bucket:",
		demotools.NotEmpty{})
	bucketExists, err := bucketBasics.BucketExists(ctx, bucketName)
	if err != nil {
		panic(err)
	}
	if !bucketExists {
		err = bucketBasics.CreateBucket(ctx, bucketName, sdkConfig.Region)
		if err != nil {
			panic(err)
		} else {
			log.Println("Bucket created.")
		}
	}
	log.Println(strings.Repeat("-", 88))

	mibs := 30
	log.Printf("Let's create a slice of %v MiB of random bytes and upload it to your bucket. ", mibs)
	questioner.Ask("Press Enter when you're ready.")
	largeBytes := make([]byte, 1024*1024*mibs)
	_, _ = rand.Read(largeBytes)
	largeKey := "doc-example-large"
	log.Println("Uploading...")
	err = bucketBasics.UploadLargeObject(ctx, bucketName, largeKey, largeBytes)
	if err != nil {
		panic(err)
	}
	log.Printf("Uploaded %v MiB object as %v", mibs, largeKey)
	log.Println(strings.Repeat("-", 88))

	log.Printf("Let's download the %v MiB object.", mibs)
	questioner.Ask("Press Enter when you're ready.")
	log.Println("Downloading...")
	largeDownload, err := bucketBasics.DownloadLargeObject(ctx, bucketName, largeKey)
	if err != nil {
		panic(err)
	}
	log.Printf("Downloaded %v bytes.", len(largeDownload))
	log.Println(strings.Repeat("-", 88))

	if questioner.AskBool("Do you want to delete your bucket and all of its "+
		"contents? (y/n)", "y") {
		log.Println("Deleting object.")
		err = bucketBasics.DeleteObjects(ctx, bucketName, []string{largeKey})
		if err != nil {
			panic(err)
		}
		log.Println("Deleting bucket.")
		err = bucketBasics.DeleteBucket(ctx, bucketName)
		if err != nil {
			panic(err)
		}
	} else {
		log.Println("Okay. Don't forget to delete objects from your bucket to avoid charges.")
	}
	log.Println(strings.Repeat("-", 88))

	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```

## Contoh nirserver
<a name="serverless_examples"></a>

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"log"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/s3"
)

func handler(ctx context.Context, s3Event events.S3Event) error {
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		log.Printf("failed to load default config: %s", err)
		return err
	}
	s3Client := s3.NewFromConfig(sdkConfig)

	for _, record := range s3Event.Records {
		bucket := record.S3.Bucket.Name
		key := record.S3.Object.URLDecodedKey
		headOutput, err := s3Client.HeadObject(ctx, &s3.HeadObjectInput{
			Bucket: &bucket,
			Key:    &key,
		})
		if err != nil {
			log.Printf("error getting head of object %s/%s: %s", bucket, key, err)
			return err
		}
		log.Printf("successfully retrieved %s/%s of type %s", bucket, key, *headOutput.ContentType)
	}

	return nil
}

func main() {
	lambda.Start(handler)
}
```

# Contoh Amazon SNS menggunakan SDK for Go V2
<a name="go_2_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon SNS
<a name="sns_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SNS.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/sns#code-examples). 

```
package main

import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sns/types"
)

// main uses the AWS SDK for Go V2 to create an Amazon Simple Notification Service
// (Amazon SNS) client and list the topics in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	snsClient := sns.NewFromConfig(sdkConfig)
	fmt.Println("Let's list the topics for your account.")
	var topics []types.Topic
	paginator := sns.NewListTopicsPaginator(snsClient, &sns.ListTopicsInput{})
	for paginator.HasMorePages() {
		output, err := paginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get topics. Here's why: %v\n", err)
			break
		} else {
			topics = append(topics, output.Topics...)
		}
	}
	if len(topics) == 0 {
		fmt.Println("You don't have any topics!")
	} else {
		for _, topic := range topics {
			fmt.Printf("\t%v\n", *topic.TopicArn)
		}
	}
}
```
+  Untuk detail API, lihat [ListTopics](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.ListTopics)di *Referensi AWS SDK untuk Go API*. 

## Tindakan
<a name="actions"></a>

### `CreateTopic`
<a name="sns_CreateTopic_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sns/types"
)

// SnsActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type SnsActions struct {
	SnsClient *sns.Client
}



// CreateTopic creates an Amazon SNS topic with the specified name. You can optionally
// specify that the topic is created as a FIFO topic and whether it uses content-based
// deduplication instead of ID-based deduplication.
func (actor SnsActions) CreateTopic(ctx context.Context, topicName string, isFifoTopic bool, contentBasedDeduplication bool) (string, error) {
	var topicArn string
	topicAttributes := map[string]string{}
	if isFifoTopic {
		topicAttributes["FifoTopic"] = "true"
	}
	if contentBasedDeduplication {
		topicAttributes["ContentBasedDeduplication"] = "true"
	}
	topic, err := actor.SnsClient.CreateTopic(ctx, &sns.CreateTopicInput{
		Name:       aws.String(topicName),
		Attributes: topicAttributes,
	})
	if err != nil {
		log.Printf("Couldn't create topic %v. Here's why: %v\n", topicName, err)
	} else {
		topicArn = *topic.TopicArn
	}

	return topicArn, err
}
```
+  Untuk detail API, lihat [CreateTopic](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.CreateTopic)di *Referensi AWS SDK untuk Go API*. 

### `DeleteTopic`
<a name="sns_DeleteTopic_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sns/types"
)

// SnsActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type SnsActions struct {
	SnsClient *sns.Client
}



// DeleteTopic delete an Amazon SNS topic.
func (actor SnsActions) DeleteTopic(ctx context.Context, topicArn string) error {
	_, err := actor.SnsClient.DeleteTopic(ctx, &sns.DeleteTopicInput{
		TopicArn: aws.String(topicArn)})
	if err != nil {
		log.Printf("Couldn't delete topic %v. Here's why: %v\n", topicArn, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteTopic](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.DeleteTopic)di *Referensi AWS SDK untuk Go API*. 

### `ListTopics`
<a name="sns_ListTopics_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/sns#code-examples). 

```
package main

import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sns/types"
)

// main uses the AWS SDK for Go V2 to create an Amazon Simple Notification Service
// (Amazon SNS) client and list the topics in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	snsClient := sns.NewFromConfig(sdkConfig)
	fmt.Println("Let's list the topics for your account.")
	var topics []types.Topic
	paginator := sns.NewListTopicsPaginator(snsClient, &sns.ListTopicsInput{})
	for paginator.HasMorePages() {
		output, err := paginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get topics. Here's why: %v\n", err)
			break
		} else {
			topics = append(topics, output.Topics...)
		}
	}
	if len(topics) == 0 {
		fmt.Println("You don't have any topics!")
	} else {
		for _, topic := range topics {
			fmt.Printf("\t%v\n", *topic.TopicArn)
		}
	}
}
```
+  Untuk detail API, lihat [ListTopics](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.ListTopics)di *Referensi AWS SDK untuk Go API*. 

### `Publish`
<a name="sns_Publish_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sns/types"
)

// SnsActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type SnsActions struct {
	SnsClient *sns.Client
}



// Publish publishes a message to an Amazon SNS topic. The message is then sent to all
// subscribers. When the topic is a FIFO topic, the message must also contain a group ID
// and, when ID-based deduplication is used, a deduplication ID. An optional key-value
// filter attribute can be specified so that the message can be filtered according to
// a filter policy.
func (actor SnsActions) Publish(ctx context.Context, topicArn string, message string, groupId string, dedupId string, filterKey string, filterValue string) error {
	publishInput := sns.PublishInput{TopicArn: aws.String(topicArn), Message: aws.String(message)}
	if groupId != "" {
		publishInput.MessageGroupId = aws.String(groupId)
	}
	if dedupId != "" {
		publishInput.MessageDeduplicationId = aws.String(dedupId)
	}
	if filterKey != "" && filterValue != "" {
		publishInput.MessageAttributes = map[string]types.MessageAttributeValue{
			filterKey: {DataType: aws.String("String"), StringValue: aws.String(filterValue)},
		}
	}
	_, err := actor.SnsClient.Publish(ctx, &publishInput)
	if err != nil {
		log.Printf("Couldn't publish message to topic %v. Here's why: %v", topicArn, err)
	}
	return err
}
```
+  Untuk detail API, lihat [Publikasikan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.Publish) di *Referensi AWS SDK untuk Go API*. 

### `Subscribe`
<a name="sns_Subscribe_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 
Berlangganan antrian ke topik dengan filter opsional.  

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sns/types"
)

// SnsActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type SnsActions struct {
	SnsClient *sns.Client
}



// SubscribeQueue subscribes an Amazon Simple Queue Service (Amazon SQS) queue to an
// Amazon SNS topic. When filterMap is not nil, it is used to specify a filter policy
// so that messages are only sent to the queue when the message has the specified attributes.
func (actor SnsActions) SubscribeQueue(ctx context.Context, topicArn string, queueArn string, filterMap map[string][]string) (string, error) {
	var subscriptionArn string
	var attributes map[string]string
	if filterMap != nil {
		filterBytes, err := json.Marshal(filterMap)
		if err != nil {
			log.Printf("Couldn't create filter policy, here's why: %v\n", err)
			return "", err
		}
		attributes = map[string]string{"FilterPolicy": string(filterBytes)}
	}
	output, err := actor.SnsClient.Subscribe(ctx, &sns.SubscribeInput{
		Protocol:              aws.String("sqs"),
		TopicArn:              aws.String(topicArn),
		Attributes:            attributes,
		Endpoint:              aws.String(queueArn),
		ReturnSubscriptionArn: true,
	})
	if err != nil {
		log.Printf("Couldn't susbscribe queue %v to topic %v. Here's why: %v\n",
			queueArn, topicArn, err)
	} else {
		subscriptionArn = *output.SubscriptionArn
	}

	return subscriptionArn, err
}
```
+  Untuk detail API, lihat [Berlangganan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.Subscribe) di *Referensi AWS SDK untuk Go API*. 

## Skenario
<a name="scenarios"></a>

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"
	"strings"
	"topics_and_queues/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

const FIFO_SUFFIX = ".fifo"
const TONE_KEY = "tone"

var ToneChoices = []string{"cheerful", "funny", "serious", "sincere"}

// MessageBody is used to deserialize the body of a message from a JSON string.
type MessageBody struct {
	Message string
}

// ScenarioRunner separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type ScenarioRunner struct {
	questioner demotools.IQuestioner
	snsActor   *actions.SnsActions
	sqsActor   *actions.SqsActions
}

func (runner ScenarioRunner) CreateTopic(ctx context.Context) (string, string, bool, bool) {
	log.Println("SNS topics can be configured as FIFO (First-In-First-Out) or standard.\n" +
		"FIFO topics deliver messages in order and support deduplication and message filtering.")
	isFifoTopic := runner.questioner.AskBool("\nWould you like to work with FIFO topics? (y/n) ", "y")

	contentBasedDeduplication := false
	if isFifoTopic {
		log.Println(strings.Repeat("-", 88))
		log.Println("Because you have chosen a FIFO topic, deduplication is supported.\n" +
			"Deduplication IDs are either set in the message or are automatically generated\n" +
			"from content using a hash function. If a message is successfully published to\n" +
			"an SNS FIFO topic, any message published and determined to have the same\n" +
			"deduplication ID, within the five-minute deduplication interval, is accepted\n" +
			"but not delivered. For more information about deduplication, see:\n" +
			"\thttps://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.")
		contentBasedDeduplication = runner.questioner.AskBool(
			"\nDo you want to use content-based deduplication instead of entering a deduplication ID? (y/n) ", "y")
	}
	log.Println(strings.Repeat("-", 88))

	topicName := runner.questioner.Ask("Enter a name for your SNS topic. ")
	if isFifoTopic {
		topicName = fmt.Sprintf("%v%v", topicName, FIFO_SUFFIX)
		log.Printf("Because you have selected a FIFO topic, '%v' must be appended to\n"+
			"the topic name.", FIFO_SUFFIX)
	}

	topicArn, err := runner.snsActor.CreateTopic(ctx, topicName, isFifoTopic, contentBasedDeduplication)
	if err != nil {
		panic(err)
	}
	log.Printf("Your new topic with the name '%v' and Amazon Resource Name (ARN) \n"+
		"'%v' has been created.", topicName, topicArn)

	return topicName, topicArn, isFifoTopic, contentBasedDeduplication
}

func (runner ScenarioRunner) CreateQueue(ctx context.Context, ordinal string, isFifoTopic bool) (string, string) {
	queueName := runner.questioner.Ask(fmt.Sprintf("Enter a name for the %v SQS queue. ", ordinal))
	if isFifoTopic {
		queueName = fmt.Sprintf("%v%v", queueName, FIFO_SUFFIX)
		if ordinal == "first" {
			log.Printf("Because you are creating a FIFO SQS queue, '%v' must "+
				"be appended to the queue name.\n", FIFO_SUFFIX)
		}
	}
	queueUrl, err := runner.sqsActor.CreateQueue(ctx, queueName, isFifoTopic)
	if err != nil {
		panic(err)
	}
	log.Printf("Your new SQS queue with the name '%v' and the queue URL "+
		"'%v' has been created.", queueName, queueUrl)

	return queueName, queueUrl
}

func (runner ScenarioRunner) SubscribeQueueToTopic(
	ctx context.Context, queueName string, queueUrl string, topicName string, topicArn string, ordinal string,
	isFifoTopic bool) (string, bool) {

	queueArn, err := runner.sqsActor.GetQueueArn(ctx, queueUrl)
	if err != nil {
		panic(err)
	}
	log.Printf("The ARN of your queue is: %v.\n", queueArn)

	err = runner.sqsActor.AttachSendMessagePolicy(ctx, queueUrl, queueArn, topicArn)
	if err != nil {
		panic(err)
	}
	log.Println("Attached an IAM policy to the queue so the SNS topic can send " +
		"messages to it.")
	log.Println(strings.Repeat("-", 88))

	var filterPolicy map[string][]string
	if isFifoTopic {
		if ordinal == "first" {
			log.Println("Subscriptions to a FIFO topic can have filters.\n" +
				"If you add a filter to this subscription, then only the filtered messages\n" +
				"will be received in the queue.\n" +
				"For information about message filtering, see\n" +
				"\thttps://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html\n" +
				"For this example, you can filter messages by a \"tone\" attribute.")
		}

		wantFiltering := runner.questioner.AskBool(
			fmt.Sprintf("Do you want to filter messages that are sent to \"%v\"\n"+
				"from the %v topic? (y/n) ", queueName, topicName), "y")
		if wantFiltering {
			log.Println("You can filter messages by one or more of the following \"tone\" attributes.")

			var toneSelections []string
			askAboutTones := true
			for askAboutTones {
				toneIndex := runner.questioner.AskChoice(
					"Enter the number of the tone you want to filter by:\n", ToneChoices)
				toneSelections = append(toneSelections, ToneChoices[toneIndex])
				askAboutTones = runner.questioner.AskBool("Do you want to add another tone to the filter? (y/n) ", "y")
			}
			log.Printf("Your subscription will be filtered to only pass the following tones: %v\n", toneSelections)
			filterPolicy = map[string][]string{TONE_KEY: toneSelections}
		}
	}

	subscriptionArn, err := runner.snsActor.SubscribeQueue(ctx, topicArn, queueArn, filterPolicy)
	if err != nil {
		panic(err)
	}
	log.Printf("The queue %v is now subscribed to the topic %v with the subscription ARN %v.\n",
		queueName, topicName, subscriptionArn)

	return subscriptionArn, filterPolicy != nil
}

func (runner ScenarioRunner) PublishMessages(ctx context.Context, topicArn string, isFifoTopic bool, contentBasedDeduplication bool, usingFilters bool) {
	var message string
	var groupId string
	var dedupId string
	var toneSelection string
	publishMore := true
	for publishMore {
		groupId = ""
		dedupId = ""
		toneSelection = ""
		message = runner.questioner.Ask("Enter a message to publish: ")
		if isFifoTopic {
			log.Println("Because you are using a FIFO topic, you must set a message group ID.\n" +
				"All messages within the same group will be received in the order they were published.")
			groupId = runner.questioner.Ask("Enter a message group ID: ")
			if !contentBasedDeduplication {
				log.Println("Because you are not using content-based deduplication,\n" +
					"you must enter a deduplication ID.")
				dedupId = runner.questioner.Ask("Enter a deduplication ID: ")
			}
		}
		if usingFilters {
			if runner.questioner.AskBool("Add a tone attribute so this message can be filtered? (y/n) ", "y") {
				toneIndex := runner.questioner.AskChoice(
					"Enter the number of the tone you want to filter by:\n", ToneChoices)
				toneSelection = ToneChoices[toneIndex]
			}
		}

		err := runner.snsActor.Publish(ctx, topicArn, message, groupId, dedupId, TONE_KEY, toneSelection)
		if err != nil {
			panic(err)
		}
		log.Println(("Your message was published."))

		publishMore = runner.questioner.AskBool("Do you want to publish another messsage? (y/n) ", "y")
	}
}

func (runner ScenarioRunner) PollForMessages(ctx context.Context, queueUrls []string) {
	log.Println("Polling queues for messages...")
	for _, queueUrl := range queueUrls {
		var messages []types.Message
		for {
			currentMsgs, err := runner.sqsActor.GetMessages(ctx, queueUrl, 10, 1)
			if err != nil {
				panic(err)
			}
			if len(currentMsgs) == 0 {
				break
			}
			messages = append(messages, currentMsgs...)
		}
		if len(messages) == 0 {
			log.Printf("No messages were received by queue %v.\n", queueUrl)
		} else if len(messages) == 1 {
			log.Printf("One message was received by queue %v:\n", queueUrl)

		} else {
			log.Printf("%v messages were received by queue %v:\n", len(messages), queueUrl)
		}
		for msgIndex, message := range messages {
			messageBody := MessageBody{}
			err := json.Unmarshal([]byte(*message.Body), &messageBody)
			if err != nil {
				panic(err)
			}
			log.Printf("Message %v: %v\n", msgIndex+1, messageBody.Message)
		}

		if len(messages) > 0 {
			log.Printf("Deleting %v messages from queue %v.\n", len(messages), queueUrl)
			err := runner.sqsActor.DeleteMessages(ctx, queueUrl, messages)
			if err != nil {
				panic(err)
			}
		}
	}
}

// RunTopicsAndQueuesScenario is an interactive example that shows you how to use the
// AWS SDK for Go to create and use Amazon SNS topics and Amazon SQS queues.
//
// 1. Create a topic (FIFO or non-FIFO).
// 2. Subscribe several queues to the topic with an option to apply a filter.
// 3. Publish messages to the topic.
// 4. Poll the queues for messages received.
// 5. Delete the topic and the queues.
//
// This example creates service clients from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// It uses a questioner from the `demotools` package to get input during the example.
// This package can be found in the ..\..\demotools folder of this repo.
func RunTopicsAndQueuesScenario(
	ctx context.Context, sdkConfig aws.Config, questioner demotools.IQuestioner) {
	resources := Resources{}
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.\n" +
				"Cleaning up any resources that were created...")
			resources.Cleanup(ctx)
		}
	}()
	queueCount := 2

	log.Println(strings.Repeat("-", 88))
	log.Printf("Welcome to messaging with topics and queues.\n\n"+
		"In this scenario, you will create an SNS topic and subscribe %v SQS queues to the\n"+
		"topic. You can select from several options for configuring the topic and the\n"+
		"subscriptions for the queues. You can then post to the topic and see the results\n"+
		"in the queues.\n", queueCount)

	log.Println(strings.Repeat("-", 88))

	runner := ScenarioRunner{
		questioner: questioner,
		snsActor:   &actions.SnsActions{SnsClient: sns.NewFromConfig(sdkConfig)},
		sqsActor:   &actions.SqsActions{SqsClient: sqs.NewFromConfig(sdkConfig)},
	}
	resources.snsActor = runner.snsActor
	resources.sqsActor = runner.sqsActor

	topicName, topicArn, isFifoTopic, contentBasedDeduplication := runner.CreateTopic(ctx)
	resources.topicArn = topicArn
	log.Println(strings.Repeat("-", 88))

	log.Printf("Now you will create %v SQS queues and subscribe them to the topic.\n", queueCount)
	ordinals := []string{"first", "next"}
	usingFilters := false
	for _, ordinal := range ordinals {
		queueName, queueUrl := runner.CreateQueue(ctx, ordinal, isFifoTopic)
		resources.queueUrls = append(resources.queueUrls, queueUrl)

		_, filtering := runner.SubscribeQueueToTopic(ctx, queueName, queueUrl, topicName, topicArn, ordinal, isFifoTopic)
		usingFilters = usingFilters || filtering
	}

	log.Println(strings.Repeat("-", 88))
	runner.PublishMessages(ctx, topicArn, isFifoTopic, contentBasedDeduplication, usingFilters)
	log.Println(strings.Repeat("-", 88))
	runner.PollForMessages(ctx, resources.queueUrls)

	log.Println(strings.Repeat("-", 88))

	wantCleanup := questioner.AskBool("Do you want to remove all AWS resources created for this scenario? (y/n) ", "y")
	if wantCleanup {
		log.Println("Cleaning up resources...")
		resources.Cleanup(ctx)
	}

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tentukan struct yang membungkus tindakan Amazon SNS yang digunakan dalam contoh ini.  

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sns/types"
)

// SnsActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type SnsActions struct {
	SnsClient *sns.Client
}



// CreateTopic creates an Amazon SNS topic with the specified name. You can optionally
// specify that the topic is created as a FIFO topic and whether it uses content-based
// deduplication instead of ID-based deduplication.
func (actor SnsActions) CreateTopic(ctx context.Context, topicName string, isFifoTopic bool, contentBasedDeduplication bool) (string, error) {
	var topicArn string
	topicAttributes := map[string]string{}
	if isFifoTopic {
		topicAttributes["FifoTopic"] = "true"
	}
	if contentBasedDeduplication {
		topicAttributes["ContentBasedDeduplication"] = "true"
	}
	topic, err := actor.SnsClient.CreateTopic(ctx, &sns.CreateTopicInput{
		Name:       aws.String(topicName),
		Attributes: topicAttributes,
	})
	if err != nil {
		log.Printf("Couldn't create topic %v. Here's why: %v\n", topicName, err)
	} else {
		topicArn = *topic.TopicArn
	}

	return topicArn, err
}



// DeleteTopic delete an Amazon SNS topic.
func (actor SnsActions) DeleteTopic(ctx context.Context, topicArn string) error {
	_, err := actor.SnsClient.DeleteTopic(ctx, &sns.DeleteTopicInput{
		TopicArn: aws.String(topicArn)})
	if err != nil {
		log.Printf("Couldn't delete topic %v. Here's why: %v\n", topicArn, err)
	}
	return err
}



// SubscribeQueue subscribes an Amazon Simple Queue Service (Amazon SQS) queue to an
// Amazon SNS topic. When filterMap is not nil, it is used to specify a filter policy
// so that messages are only sent to the queue when the message has the specified attributes.
func (actor SnsActions) SubscribeQueue(ctx context.Context, topicArn string, queueArn string, filterMap map[string][]string) (string, error) {
	var subscriptionArn string
	var attributes map[string]string
	if filterMap != nil {
		filterBytes, err := json.Marshal(filterMap)
		if err != nil {
			log.Printf("Couldn't create filter policy, here's why: %v\n", err)
			return "", err
		}
		attributes = map[string]string{"FilterPolicy": string(filterBytes)}
	}
	output, err := actor.SnsClient.Subscribe(ctx, &sns.SubscribeInput{
		Protocol:              aws.String("sqs"),
		TopicArn:              aws.String(topicArn),
		Attributes:            attributes,
		Endpoint:              aws.String(queueArn),
		ReturnSubscriptionArn: true,
	})
	if err != nil {
		log.Printf("Couldn't susbscribe queue %v to topic %v. Here's why: %v\n",
			queueArn, topicArn, err)
	} else {
		subscriptionArn = *output.SubscriptionArn
	}

	return subscriptionArn, err
}



// Publish publishes a message to an Amazon SNS topic. The message is then sent to all
// subscribers. When the topic is a FIFO topic, the message must also contain a group ID
// and, when ID-based deduplication is used, a deduplication ID. An optional key-value
// filter attribute can be specified so that the message can be filtered according to
// a filter policy.
func (actor SnsActions) Publish(ctx context.Context, topicArn string, message string, groupId string, dedupId string, filterKey string, filterValue string) error {
	publishInput := sns.PublishInput{TopicArn: aws.String(topicArn), Message: aws.String(message)}
	if groupId != "" {
		publishInput.MessageGroupId = aws.String(groupId)
	}
	if dedupId != "" {
		publishInput.MessageDeduplicationId = aws.String(dedupId)
	}
	if filterKey != "" && filterValue != "" {
		publishInput.MessageAttributes = map[string]types.MessageAttributeValue{
			filterKey: {DataType: aws.String("String"), StringValue: aws.String(filterValue)},
		}
	}
	_, err := actor.SnsClient.Publish(ctx, &publishInput)
	if err != nil {
		log.Printf("Couldn't publish message to topic %v. Here's why: %v", topicArn, err)
	}
	return err
}
```
Tentukan struct yang membungkus tindakan Amazon SQS yang digunakan dalam contoh ini.  

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
)

// SqsActions encapsulates the Amazon Simple Queue Service (Amazon SQS) actions
// used in the examples.
type SqsActions struct {
	SqsClient *sqs.Client
}



// CreateQueue creates an Amazon SQS queue with the specified name. You can specify
// whether the queue is created as a FIFO queue.
func (actor SqsActions) CreateQueue(ctx context.Context, queueName string, isFifoQueue bool) (string, error) {
	var queueUrl string
	queueAttributes := map[string]string{}
	if isFifoQueue {
		queueAttributes["FifoQueue"] = "true"
	}
	queue, err := actor.SqsClient.CreateQueue(ctx, &sqs.CreateQueueInput{
		QueueName:  aws.String(queueName),
		Attributes: queueAttributes,
	})
	if err != nil {
		log.Printf("Couldn't create queue %v. Here's why: %v\n", queueName, err)
	} else {
		queueUrl = *queue.QueueUrl
	}

	return queueUrl, err
}



// GetQueueArn uses the GetQueueAttributes action to get the Amazon Resource Name (ARN)
// of an Amazon SQS queue.
func (actor SqsActions) GetQueueArn(ctx context.Context, queueUrl string) (string, error) {
	var queueArn string
	arnAttributeName := types.QueueAttributeNameQueueArn
	attribute, err := actor.SqsClient.GetQueueAttributes(ctx, &sqs.GetQueueAttributesInput{
		QueueUrl:       aws.String(queueUrl),
		AttributeNames: []types.QueueAttributeName{arnAttributeName},
	})
	if err != nil {
		log.Printf("Couldn't get ARN for queue %v. Here's why: %v\n", queueUrl, err)
	} else {
		queueArn = attribute.Attributes[string(arnAttributeName)]
	}
	return queueArn, err
}



// AttachSendMessagePolicy uses the SetQueueAttributes action to attach a policy to an
// Amazon SQS queue that allows the specified Amazon SNS topic to send messages to the
// queue.
func (actor SqsActions) AttachSendMessagePolicy(ctx context.Context, queueUrl string, queueArn string, topicArn string) error {
	policyDoc := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:    "Allow",
			Action:    "sqs:SendMessage",
			Principal: map[string]string{"Service": "sns.amazonaws.com"},
			Resource:  aws.String(queueArn),
			Condition: PolicyCondition{"ArnEquals": map[string]string{"aws:SourceArn": topicArn}},
		}},
	}
	policyBytes, err := json.Marshal(policyDoc)
	if err != nil {
		log.Printf("Couldn't create policy document. Here's why: %v\n", err)
		return err
	}
	_, err = actor.SqsClient.SetQueueAttributes(ctx, &sqs.SetQueueAttributesInput{
		Attributes: map[string]string{
			string(types.QueueAttributeNamePolicy): string(policyBytes),
		},
		QueueUrl: aws.String(queueUrl),
	})
	if err != nil {
		log.Printf("Couldn't set send message policy on queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}

// PolicyDocument defines a policy document as a Go struct that can be serialized
// to JSON.
type PolicyDocument struct {
	Version   string
	Statement []PolicyStatement
}

// PolicyStatement defines a statement in a policy document.
type PolicyStatement struct {
	Effect    string
	Action    string
	Principal map[string]string `json:",omitempty"`
	Resource  *string           `json:",omitempty"`
	Condition PolicyCondition   `json:",omitempty"`
}

// PolicyCondition defines a condition in a policy.
type PolicyCondition map[string]map[string]string



// GetMessages uses the ReceiveMessage action to get messages from an Amazon SQS queue.
func (actor SqsActions) GetMessages(ctx context.Context, queueUrl string, maxMessages int32, waitTime int32) ([]types.Message, error) {
	var messages []types.Message
	result, err := actor.SqsClient.ReceiveMessage(ctx, &sqs.ReceiveMessageInput{
		QueueUrl:            aws.String(queueUrl),
		MaxNumberOfMessages: maxMessages,
		WaitTimeSeconds:     waitTime,
	})
	if err != nil {
		log.Printf("Couldn't get messages from queue %v. Here's why: %v\n", queueUrl, err)
	} else {
		messages = result.Messages
	}
	return messages, err
}



// DeleteMessages uses the DeleteMessageBatch action to delete a batch of messages from
// an Amazon SQS queue.
func (actor SqsActions) DeleteMessages(ctx context.Context, queueUrl string, messages []types.Message) error {
	entries := make([]types.DeleteMessageBatchRequestEntry, len(messages))
	for msgIndex := range messages {
		entries[msgIndex].Id = aws.String(fmt.Sprintf("%v", msgIndex))
		entries[msgIndex].ReceiptHandle = messages[msgIndex].ReceiptHandle
	}
	_, err := actor.SqsClient.DeleteMessageBatch(ctx, &sqs.DeleteMessageBatchInput{
		Entries:  entries,
		QueueUrl: aws.String(queueUrl),
	})
	if err != nil {
		log.Printf("Couldn't delete messages from queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}



// DeleteQueue deletes an Amazon SQS queue.
func (actor SqsActions) DeleteQueue(ctx context.Context, queueUrl string) error {
	_, err := actor.SqsClient.DeleteQueue(ctx, &sqs.DeleteQueueInput{
		QueueUrl: aws.String(queueUrl)})
	if err != nil {
		log.Printf("Couldn't delete queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"fmt"
	"log"
	"topics_and_queues/actions"
)

// Resources keeps track of AWS resources created during an example and handles
// cleanup when the example finishes.
type Resources struct {
	topicArn  string
	queueUrls []string
	snsActor  *actions.SnsActions
	sqsActor  *actions.SqsActions
}

// Cleanup deletes all AWS resources created during an example.
func (resources Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			fmt.Println("Something went wrong during cleanup. Use the AWS Management Console\n" +
				"to remove any remaining resources that were created for this scenario.")
		}
	}()

	var err error
	if resources.topicArn != "" {
		log.Printf("Deleting topic %v.\n", resources.topicArn)
		err = resources.snsActor.DeleteTopic(ctx, resources.topicArn)
		if err != nil {
			panic(err)
		}
	}

	for _, queueUrl := range resources.queueUrls {
		log.Printf("Deleting queue %v.\n", queueUrl)
		err = resources.sqsActor.DeleteQueue(ctx, queueUrl)
		if err != nil {
			panic(err)
		}
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [CreateQueue](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.CreateQueue)
  + [CreateTopic](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.CreateTopic)
  + [DeleteMessageBatch](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.DeleteMessageBatch)
  + [DeleteQueue](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.DeleteQueue)
  + [DeleteTopic](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.DeleteTopic)
  + [GetQueueAttributes](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.GetQueueAttributes)
  + [Publikasikan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.Publish)
  + [ReceiveMessage](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.ReceiveMessage)
  + [SetQueueAttributes](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.SetQueueAttributes)
  + [Berlangganan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.Subscribe)
  + [Berhenti berlangganan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.Unsubscribe)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"fmt"

	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(ctx context.Context, snsEvent events.SNSEvent) {
	for _, record := range snsEvent.Records {
		processMessage(record)
	}
	fmt.Println("done")
}

func processMessage(record events.SNSEventRecord) {
	message := record.SNS.Message
	fmt.Printf("Processed message: %s\n", message)
	// TODO: Process your record here
}

func main() {
	lambda.Start(handler)
}
```

# Contoh Amazon SQS menggunakan SDK for Go V2
<a name="go_2_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Go V2 dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon SQS
<a name="sqs_Hello_go_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SQS.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/sqs#code-examples). 

```
package main

import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
)

// main uses the AWS SDK for Go V2 to create an Amazon Simple Queue Service
// (Amazon SQS) client and list the queues in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	sqsClient := sqs.NewFromConfig(sdkConfig)
	fmt.Println("Let's list the queues for your account.")
	var queueUrls []string
	paginator := sqs.NewListQueuesPaginator(sqsClient, &sqs.ListQueuesInput{})
	for paginator.HasMorePages() {
		output, err := paginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get queues. Here's why: %v\n", err)
			break
		} else {
			queueUrls = append(queueUrls, output.QueueUrls...)
		}
	}
	if len(queueUrls) == 0 {
		fmt.Println("You don't have any queues!")
	} else {
		for _, queueUrl := range queueUrls {
			fmt.Printf("\t%v\n", queueUrl)
		}
	}
}
```
+  Untuk detail API, lihat [ListQueues](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.ListQueues)di *Referensi AWS SDK untuk Go API*. 

## Tindakan
<a name="actions"></a>

### `CreateQueue`
<a name="sqs_CreateQueue_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
)

// SqsActions encapsulates the Amazon Simple Queue Service (Amazon SQS) actions
// used in the examples.
type SqsActions struct {
	SqsClient *sqs.Client
}



// CreateQueue creates an Amazon SQS queue with the specified name. You can specify
// whether the queue is created as a FIFO queue.
func (actor SqsActions) CreateQueue(ctx context.Context, queueName string, isFifoQueue bool) (string, error) {
	var queueUrl string
	queueAttributes := map[string]string{}
	if isFifoQueue {
		queueAttributes["FifoQueue"] = "true"
	}
	queue, err := actor.SqsClient.CreateQueue(ctx, &sqs.CreateQueueInput{
		QueueName:  aws.String(queueName),
		Attributes: queueAttributes,
	})
	if err != nil {
		log.Printf("Couldn't create queue %v. Here's why: %v\n", queueName, err)
	} else {
		queueUrl = *queue.QueueUrl
	}

	return queueUrl, err
}
```
+  Untuk detail API, lihat [CreateQueue](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.CreateQueue)di *Referensi AWS SDK untuk Go API*. 

### `DeleteMessageBatch`
<a name="sqs_DeleteMessageBatch_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessageBatch`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
)

// SqsActions encapsulates the Amazon Simple Queue Service (Amazon SQS) actions
// used in the examples.
type SqsActions struct {
	SqsClient *sqs.Client
}



// DeleteMessages uses the DeleteMessageBatch action to delete a batch of messages from
// an Amazon SQS queue.
func (actor SqsActions) DeleteMessages(ctx context.Context, queueUrl string, messages []types.Message) error {
	entries := make([]types.DeleteMessageBatchRequestEntry, len(messages))
	for msgIndex := range messages {
		entries[msgIndex].Id = aws.String(fmt.Sprintf("%v", msgIndex))
		entries[msgIndex].ReceiptHandle = messages[msgIndex].ReceiptHandle
	}
	_, err := actor.SqsClient.DeleteMessageBatch(ctx, &sqs.DeleteMessageBatchInput{
		Entries:  entries,
		QueueUrl: aws.String(queueUrl),
	})
	if err != nil {
		log.Printf("Couldn't delete messages from queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.DeleteMessageBatch)di *Referensi AWS SDK untuk Go API*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
)

// SqsActions encapsulates the Amazon Simple Queue Service (Amazon SQS) actions
// used in the examples.
type SqsActions struct {
	SqsClient *sqs.Client
}



// DeleteQueue deletes an Amazon SQS queue.
func (actor SqsActions) DeleteQueue(ctx context.Context, queueUrl string) error {
	_, err := actor.SqsClient.DeleteQueue(ctx, &sqs.DeleteQueueInput{
		QueueUrl: aws.String(queueUrl)})
	if err != nil {
		log.Printf("Couldn't delete queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}
```
+  Untuk detail API, lihat [DeleteQueue](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.DeleteQueue)di *Referensi AWS SDK untuk Go API*. 

### `GetQueueAttributes`
<a name="sqs_GetQueueAttributes_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueAttributes`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
)

// SqsActions encapsulates the Amazon Simple Queue Service (Amazon SQS) actions
// used in the examples.
type SqsActions struct {
	SqsClient *sqs.Client
}



// GetQueueArn uses the GetQueueAttributes action to get the Amazon Resource Name (ARN)
// of an Amazon SQS queue.
func (actor SqsActions) GetQueueArn(ctx context.Context, queueUrl string) (string, error) {
	var queueArn string
	arnAttributeName := types.QueueAttributeNameQueueArn
	attribute, err := actor.SqsClient.GetQueueAttributes(ctx, &sqs.GetQueueAttributesInput{
		QueueUrl:       aws.String(queueUrl),
		AttributeNames: []types.QueueAttributeName{arnAttributeName},
	})
	if err != nil {
		log.Printf("Couldn't get ARN for queue %v. Here's why: %v\n", queueUrl, err)
	} else {
		queueArn = attribute.Attributes[string(arnAttributeName)]
	}
	return queueArn, err
}
```
+  Untuk detail API, lihat [GetQueueAttributes](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.GetQueueAttributes)di *Referensi AWS SDK untuk Go API*. 

### `ListQueues`
<a name="sqs_ListQueues_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/sqs#code-examples). 

```
package main

import (
	"context"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/config"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
)

// main uses the AWS SDK for Go V2 to create an Amazon Simple Queue Service
// (Amazon SQS) client and list the queues in your account.
// This example uses the default settings specified in your shared credentials
// and config files.
func main() {
	ctx := context.Background()
	sdkConfig, err := config.LoadDefaultConfig(ctx)
	if err != nil {
		fmt.Println("Couldn't load default configuration. Have you set up your AWS account?")
		fmt.Println(err)
		return
	}
	sqsClient := sqs.NewFromConfig(sdkConfig)
	fmt.Println("Let's list the queues for your account.")
	var queueUrls []string
	paginator := sqs.NewListQueuesPaginator(sqsClient, &sqs.ListQueuesInput{})
	for paginator.HasMorePages() {
		output, err := paginator.NextPage(ctx)
		if err != nil {
			log.Printf("Couldn't get queues. Here's why: %v\n", err)
			break
		} else {
			queueUrls = append(queueUrls, output.QueueUrls...)
		}
	}
	if len(queueUrls) == 0 {
		fmt.Println("You don't have any queues!")
	} else {
		for _, queueUrl := range queueUrls {
			fmt.Printf("\t%v\n", queueUrl)
		}
	}
}
```
+  Untuk detail API, lihat [ListQueues](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.ListQueues)di *Referensi AWS SDK untuk Go API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
)

// SqsActions encapsulates the Amazon Simple Queue Service (Amazon SQS) actions
// used in the examples.
type SqsActions struct {
	SqsClient *sqs.Client
}



// GetMessages uses the ReceiveMessage action to get messages from an Amazon SQS queue.
func (actor SqsActions) GetMessages(ctx context.Context, queueUrl string, maxMessages int32, waitTime int32) ([]types.Message, error) {
	var messages []types.Message
	result, err := actor.SqsClient.ReceiveMessage(ctx, &sqs.ReceiveMessageInput{
		QueueUrl:            aws.String(queueUrl),
		MaxNumberOfMessages: maxMessages,
		WaitTimeSeconds:     waitTime,
	})
	if err != nil {
		log.Printf("Couldn't get messages from queue %v. Here's why: %v\n", queueUrl, err)
	} else {
		messages = result.Messages
	}
	return messages, err
}
```
+  Untuk detail API, lihat [ReceiveMessage](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.ReceiveMessage)di *Referensi AWS SDK untuk Go API*. 

### `SetQueueAttributes`
<a name="sqs_SetQueueAttributes_go_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetQueueAttributes`.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
)

// SqsActions encapsulates the Amazon Simple Queue Service (Amazon SQS) actions
// used in the examples.
type SqsActions struct {
	SqsClient *sqs.Client
}



// AttachSendMessagePolicy uses the SetQueueAttributes action to attach a policy to an
// Amazon SQS queue that allows the specified Amazon SNS topic to send messages to the
// queue.
func (actor SqsActions) AttachSendMessagePolicy(ctx context.Context, queueUrl string, queueArn string, topicArn string) error {
	policyDoc := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:    "Allow",
			Action:    "sqs:SendMessage",
			Principal: map[string]string{"Service": "sns.amazonaws.com"},
			Resource:  aws.String(queueArn),
			Condition: PolicyCondition{"ArnEquals": map[string]string{"aws:SourceArn": topicArn}},
		}},
	}
	policyBytes, err := json.Marshal(policyDoc)
	if err != nil {
		log.Printf("Couldn't create policy document. Here's why: %v\n", err)
		return err
	}
	_, err = actor.SqsClient.SetQueueAttributes(ctx, &sqs.SetQueueAttributesInput{
		Attributes: map[string]string{
			string(types.QueueAttributeNamePolicy): string(policyBytes),
		},
		QueueUrl: aws.String(queueUrl),
	})
	if err != nil {
		log.Printf("Couldn't set send message policy on queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}

// PolicyDocument defines a policy document as a Go struct that can be serialized
// to JSON.
type PolicyDocument struct {
	Version   string
	Statement []PolicyStatement
}

// PolicyStatement defines a statement in a policy document.
type PolicyStatement struct {
	Effect    string
	Action    string
	Principal map[string]string `json:",omitempty"`
	Resource  *string           `json:",omitempty"`
	Condition PolicyCondition   `json:",omitempty"`
}

// PolicyCondition defines a condition in a policy.
type PolicyCondition map[string]map[string]string
```
+  Untuk detail API, lihat [SetQueueAttributes](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.SetQueueAttributes)di *Referensi AWS SDK untuk Go API*. 

## Skenario
<a name="scenarios"></a>

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_go_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/workflows/topics_and_queues#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"
	"strings"
	"topics_and_queues/actions"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
	"github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools"
)

const FIFO_SUFFIX = ".fifo"
const TONE_KEY = "tone"

var ToneChoices = []string{"cheerful", "funny", "serious", "sincere"}

// MessageBody is used to deserialize the body of a message from a JSON string.
type MessageBody struct {
	Message string
}

// ScenarioRunner separates the steps of this scenario into individual functions so that
// they are simpler to read and understand.
type ScenarioRunner struct {
	questioner demotools.IQuestioner
	snsActor   *actions.SnsActions
	sqsActor   *actions.SqsActions
}

func (runner ScenarioRunner) CreateTopic(ctx context.Context) (string, string, bool, bool) {
	log.Println("SNS topics can be configured as FIFO (First-In-First-Out) or standard.\n" +
		"FIFO topics deliver messages in order and support deduplication and message filtering.")
	isFifoTopic := runner.questioner.AskBool("\nWould you like to work with FIFO topics? (y/n) ", "y")

	contentBasedDeduplication := false
	if isFifoTopic {
		log.Println(strings.Repeat("-", 88))
		log.Println("Because you have chosen a FIFO topic, deduplication is supported.\n" +
			"Deduplication IDs are either set in the message or are automatically generated\n" +
			"from content using a hash function. If a message is successfully published to\n" +
			"an SNS FIFO topic, any message published and determined to have the same\n" +
			"deduplication ID, within the five-minute deduplication interval, is accepted\n" +
			"but not delivered. For more information about deduplication, see:\n" +
			"\thttps://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.")
		contentBasedDeduplication = runner.questioner.AskBool(
			"\nDo you want to use content-based deduplication instead of entering a deduplication ID? (y/n) ", "y")
	}
	log.Println(strings.Repeat("-", 88))

	topicName := runner.questioner.Ask("Enter a name for your SNS topic. ")
	if isFifoTopic {
		topicName = fmt.Sprintf("%v%v", topicName, FIFO_SUFFIX)
		log.Printf("Because you have selected a FIFO topic, '%v' must be appended to\n"+
			"the topic name.", FIFO_SUFFIX)
	}

	topicArn, err := runner.snsActor.CreateTopic(ctx, topicName, isFifoTopic, contentBasedDeduplication)
	if err != nil {
		panic(err)
	}
	log.Printf("Your new topic with the name '%v' and Amazon Resource Name (ARN) \n"+
		"'%v' has been created.", topicName, topicArn)

	return topicName, topicArn, isFifoTopic, contentBasedDeduplication
}

func (runner ScenarioRunner) CreateQueue(ctx context.Context, ordinal string, isFifoTopic bool) (string, string) {
	queueName := runner.questioner.Ask(fmt.Sprintf("Enter a name for the %v SQS queue. ", ordinal))
	if isFifoTopic {
		queueName = fmt.Sprintf("%v%v", queueName, FIFO_SUFFIX)
		if ordinal == "first" {
			log.Printf("Because you are creating a FIFO SQS queue, '%v' must "+
				"be appended to the queue name.\n", FIFO_SUFFIX)
		}
	}
	queueUrl, err := runner.sqsActor.CreateQueue(ctx, queueName, isFifoTopic)
	if err != nil {
		panic(err)
	}
	log.Printf("Your new SQS queue with the name '%v' and the queue URL "+
		"'%v' has been created.", queueName, queueUrl)

	return queueName, queueUrl
}

func (runner ScenarioRunner) SubscribeQueueToTopic(
	ctx context.Context, queueName string, queueUrl string, topicName string, topicArn string, ordinal string,
	isFifoTopic bool) (string, bool) {

	queueArn, err := runner.sqsActor.GetQueueArn(ctx, queueUrl)
	if err != nil {
		panic(err)
	}
	log.Printf("The ARN of your queue is: %v.\n", queueArn)

	err = runner.sqsActor.AttachSendMessagePolicy(ctx, queueUrl, queueArn, topicArn)
	if err != nil {
		panic(err)
	}
	log.Println("Attached an IAM policy to the queue so the SNS topic can send " +
		"messages to it.")
	log.Println(strings.Repeat("-", 88))

	var filterPolicy map[string][]string
	if isFifoTopic {
		if ordinal == "first" {
			log.Println("Subscriptions to a FIFO topic can have filters.\n" +
				"If you add a filter to this subscription, then only the filtered messages\n" +
				"will be received in the queue.\n" +
				"For information about message filtering, see\n" +
				"\thttps://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html\n" +
				"For this example, you can filter messages by a \"tone\" attribute.")
		}

		wantFiltering := runner.questioner.AskBool(
			fmt.Sprintf("Do you want to filter messages that are sent to \"%v\"\n"+
				"from the %v topic? (y/n) ", queueName, topicName), "y")
		if wantFiltering {
			log.Println("You can filter messages by one or more of the following \"tone\" attributes.")

			var toneSelections []string
			askAboutTones := true
			for askAboutTones {
				toneIndex := runner.questioner.AskChoice(
					"Enter the number of the tone you want to filter by:\n", ToneChoices)
				toneSelections = append(toneSelections, ToneChoices[toneIndex])
				askAboutTones = runner.questioner.AskBool("Do you want to add another tone to the filter? (y/n) ", "y")
			}
			log.Printf("Your subscription will be filtered to only pass the following tones: %v\n", toneSelections)
			filterPolicy = map[string][]string{TONE_KEY: toneSelections}
		}
	}

	subscriptionArn, err := runner.snsActor.SubscribeQueue(ctx, topicArn, queueArn, filterPolicy)
	if err != nil {
		panic(err)
	}
	log.Printf("The queue %v is now subscribed to the topic %v with the subscription ARN %v.\n",
		queueName, topicName, subscriptionArn)

	return subscriptionArn, filterPolicy != nil
}

func (runner ScenarioRunner) PublishMessages(ctx context.Context, topicArn string, isFifoTopic bool, contentBasedDeduplication bool, usingFilters bool) {
	var message string
	var groupId string
	var dedupId string
	var toneSelection string
	publishMore := true
	for publishMore {
		groupId = ""
		dedupId = ""
		toneSelection = ""
		message = runner.questioner.Ask("Enter a message to publish: ")
		if isFifoTopic {
			log.Println("Because you are using a FIFO topic, you must set a message group ID.\n" +
				"All messages within the same group will be received in the order they were published.")
			groupId = runner.questioner.Ask("Enter a message group ID: ")
			if !contentBasedDeduplication {
				log.Println("Because you are not using content-based deduplication,\n" +
					"you must enter a deduplication ID.")
				dedupId = runner.questioner.Ask("Enter a deduplication ID: ")
			}
		}
		if usingFilters {
			if runner.questioner.AskBool("Add a tone attribute so this message can be filtered? (y/n) ", "y") {
				toneIndex := runner.questioner.AskChoice(
					"Enter the number of the tone you want to filter by:\n", ToneChoices)
				toneSelection = ToneChoices[toneIndex]
			}
		}

		err := runner.snsActor.Publish(ctx, topicArn, message, groupId, dedupId, TONE_KEY, toneSelection)
		if err != nil {
			panic(err)
		}
		log.Println(("Your message was published."))

		publishMore = runner.questioner.AskBool("Do you want to publish another messsage? (y/n) ", "y")
	}
}

func (runner ScenarioRunner) PollForMessages(ctx context.Context, queueUrls []string) {
	log.Println("Polling queues for messages...")
	for _, queueUrl := range queueUrls {
		var messages []types.Message
		for {
			currentMsgs, err := runner.sqsActor.GetMessages(ctx, queueUrl, 10, 1)
			if err != nil {
				panic(err)
			}
			if len(currentMsgs) == 0 {
				break
			}
			messages = append(messages, currentMsgs...)
		}
		if len(messages) == 0 {
			log.Printf("No messages were received by queue %v.\n", queueUrl)
		} else if len(messages) == 1 {
			log.Printf("One message was received by queue %v:\n", queueUrl)

		} else {
			log.Printf("%v messages were received by queue %v:\n", len(messages), queueUrl)
		}
		for msgIndex, message := range messages {
			messageBody := MessageBody{}
			err := json.Unmarshal([]byte(*message.Body), &messageBody)
			if err != nil {
				panic(err)
			}
			log.Printf("Message %v: %v\n", msgIndex+1, messageBody.Message)
		}

		if len(messages) > 0 {
			log.Printf("Deleting %v messages from queue %v.\n", len(messages), queueUrl)
			err := runner.sqsActor.DeleteMessages(ctx, queueUrl, messages)
			if err != nil {
				panic(err)
			}
		}
	}
}

// RunTopicsAndQueuesScenario is an interactive example that shows you how to use the
// AWS SDK for Go to create and use Amazon SNS topics and Amazon SQS queues.
//
// 1. Create a topic (FIFO or non-FIFO).
// 2. Subscribe several queues to the topic with an option to apply a filter.
// 3. Publish messages to the topic.
// 4. Poll the queues for messages received.
// 5. Delete the topic and the queues.
//
// This example creates service clients from the specified sdkConfig so that
// you can replace it with a mocked or stubbed config for unit testing.
//
// It uses a questioner from the `demotools` package to get input during the example.
// This package can be found in the ..\..\demotools folder of this repo.
func RunTopicsAndQueuesScenario(
	ctx context.Context, sdkConfig aws.Config, questioner demotools.IQuestioner) {
	resources := Resources{}
	defer func() {
		if r := recover(); r != nil {
			log.Println("Something went wrong with the demo.\n" +
				"Cleaning up any resources that were created...")
			resources.Cleanup(ctx)
		}
	}()
	queueCount := 2

	log.Println(strings.Repeat("-", 88))
	log.Printf("Welcome to messaging with topics and queues.\n\n"+
		"In this scenario, you will create an SNS topic and subscribe %v SQS queues to the\n"+
		"topic. You can select from several options for configuring the topic and the\n"+
		"subscriptions for the queues. You can then post to the topic and see the results\n"+
		"in the queues.\n", queueCount)

	log.Println(strings.Repeat("-", 88))

	runner := ScenarioRunner{
		questioner: questioner,
		snsActor:   &actions.SnsActions{SnsClient: sns.NewFromConfig(sdkConfig)},
		sqsActor:   &actions.SqsActions{SqsClient: sqs.NewFromConfig(sdkConfig)},
	}
	resources.snsActor = runner.snsActor
	resources.sqsActor = runner.sqsActor

	topicName, topicArn, isFifoTopic, contentBasedDeduplication := runner.CreateTopic(ctx)
	resources.topicArn = topicArn
	log.Println(strings.Repeat("-", 88))

	log.Printf("Now you will create %v SQS queues and subscribe them to the topic.\n", queueCount)
	ordinals := []string{"first", "next"}
	usingFilters := false
	for _, ordinal := range ordinals {
		queueName, queueUrl := runner.CreateQueue(ctx, ordinal, isFifoTopic)
		resources.queueUrls = append(resources.queueUrls, queueUrl)

		_, filtering := runner.SubscribeQueueToTopic(ctx, queueName, queueUrl, topicName, topicArn, ordinal, isFifoTopic)
		usingFilters = usingFilters || filtering
	}

	log.Println(strings.Repeat("-", 88))
	runner.PublishMessages(ctx, topicArn, isFifoTopic, contentBasedDeduplication, usingFilters)
	log.Println(strings.Repeat("-", 88))
	runner.PollForMessages(ctx, resources.queueUrls)

	log.Println(strings.Repeat("-", 88))

	wantCleanup := questioner.AskBool("Do you want to remove all AWS resources created for this scenario? (y/n) ", "y")
	if wantCleanup {
		log.Println("Cleaning up resources...")
		resources.Cleanup(ctx)
	}

	log.Println(strings.Repeat("-", 88))
	log.Println("Thanks for watching!")
	log.Println(strings.Repeat("-", 88))
}
```
Tentukan struct yang membungkus tindakan Amazon SNS yang digunakan dalam contoh ini.  

```
import (
	"context"
	"encoding/json"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sns"
	"github.com/aws/aws-sdk-go-v2/service/sns/types"
)

// SnsActions encapsulates the Amazon Simple Notification Service (Amazon SNS) actions
// used in the examples.
type SnsActions struct {
	SnsClient *sns.Client
}



// CreateTopic creates an Amazon SNS topic with the specified name. You can optionally
// specify that the topic is created as a FIFO topic and whether it uses content-based
// deduplication instead of ID-based deduplication.
func (actor SnsActions) CreateTopic(ctx context.Context, topicName string, isFifoTopic bool, contentBasedDeduplication bool) (string, error) {
	var topicArn string
	topicAttributes := map[string]string{}
	if isFifoTopic {
		topicAttributes["FifoTopic"] = "true"
	}
	if contentBasedDeduplication {
		topicAttributes["ContentBasedDeduplication"] = "true"
	}
	topic, err := actor.SnsClient.CreateTopic(ctx, &sns.CreateTopicInput{
		Name:       aws.String(topicName),
		Attributes: topicAttributes,
	})
	if err != nil {
		log.Printf("Couldn't create topic %v. Here's why: %v\n", topicName, err)
	} else {
		topicArn = *topic.TopicArn
	}

	return topicArn, err
}



// DeleteTopic delete an Amazon SNS topic.
func (actor SnsActions) DeleteTopic(ctx context.Context, topicArn string) error {
	_, err := actor.SnsClient.DeleteTopic(ctx, &sns.DeleteTopicInput{
		TopicArn: aws.String(topicArn)})
	if err != nil {
		log.Printf("Couldn't delete topic %v. Here's why: %v\n", topicArn, err)
	}
	return err
}



// SubscribeQueue subscribes an Amazon Simple Queue Service (Amazon SQS) queue to an
// Amazon SNS topic. When filterMap is not nil, it is used to specify a filter policy
// so that messages are only sent to the queue when the message has the specified attributes.
func (actor SnsActions) SubscribeQueue(ctx context.Context, topicArn string, queueArn string, filterMap map[string][]string) (string, error) {
	var subscriptionArn string
	var attributes map[string]string
	if filterMap != nil {
		filterBytes, err := json.Marshal(filterMap)
		if err != nil {
			log.Printf("Couldn't create filter policy, here's why: %v\n", err)
			return "", err
		}
		attributes = map[string]string{"FilterPolicy": string(filterBytes)}
	}
	output, err := actor.SnsClient.Subscribe(ctx, &sns.SubscribeInput{
		Protocol:              aws.String("sqs"),
		TopicArn:              aws.String(topicArn),
		Attributes:            attributes,
		Endpoint:              aws.String(queueArn),
		ReturnSubscriptionArn: true,
	})
	if err != nil {
		log.Printf("Couldn't susbscribe queue %v to topic %v. Here's why: %v\n",
			queueArn, topicArn, err)
	} else {
		subscriptionArn = *output.SubscriptionArn
	}

	return subscriptionArn, err
}



// Publish publishes a message to an Amazon SNS topic. The message is then sent to all
// subscribers. When the topic is a FIFO topic, the message must also contain a group ID
// and, when ID-based deduplication is used, a deduplication ID. An optional key-value
// filter attribute can be specified so that the message can be filtered according to
// a filter policy.
func (actor SnsActions) Publish(ctx context.Context, topicArn string, message string, groupId string, dedupId string, filterKey string, filterValue string) error {
	publishInput := sns.PublishInput{TopicArn: aws.String(topicArn), Message: aws.String(message)}
	if groupId != "" {
		publishInput.MessageGroupId = aws.String(groupId)
	}
	if dedupId != "" {
		publishInput.MessageDeduplicationId = aws.String(dedupId)
	}
	if filterKey != "" && filterValue != "" {
		publishInput.MessageAttributes = map[string]types.MessageAttributeValue{
			filterKey: {DataType: aws.String("String"), StringValue: aws.String(filterValue)},
		}
	}
	_, err := actor.SnsClient.Publish(ctx, &publishInput)
	if err != nil {
		log.Printf("Couldn't publish message to topic %v. Here's why: %v", topicArn, err)
	}
	return err
}
```
Tentukan struct yang membungkus tindakan Amazon SQS yang digunakan dalam contoh ini.  

```
import (
	"context"
	"encoding/json"
	"fmt"
	"log"

	"github.com/aws/aws-sdk-go-v2/aws"
	"github.com/aws/aws-sdk-go-v2/service/sqs"
	"github.com/aws/aws-sdk-go-v2/service/sqs/types"
)

// SqsActions encapsulates the Amazon Simple Queue Service (Amazon SQS) actions
// used in the examples.
type SqsActions struct {
	SqsClient *sqs.Client
}



// CreateQueue creates an Amazon SQS queue with the specified name. You can specify
// whether the queue is created as a FIFO queue.
func (actor SqsActions) CreateQueue(ctx context.Context, queueName string, isFifoQueue bool) (string, error) {
	var queueUrl string
	queueAttributes := map[string]string{}
	if isFifoQueue {
		queueAttributes["FifoQueue"] = "true"
	}
	queue, err := actor.SqsClient.CreateQueue(ctx, &sqs.CreateQueueInput{
		QueueName:  aws.String(queueName),
		Attributes: queueAttributes,
	})
	if err != nil {
		log.Printf("Couldn't create queue %v. Here's why: %v\n", queueName, err)
	} else {
		queueUrl = *queue.QueueUrl
	}

	return queueUrl, err
}



// GetQueueArn uses the GetQueueAttributes action to get the Amazon Resource Name (ARN)
// of an Amazon SQS queue.
func (actor SqsActions) GetQueueArn(ctx context.Context, queueUrl string) (string, error) {
	var queueArn string
	arnAttributeName := types.QueueAttributeNameQueueArn
	attribute, err := actor.SqsClient.GetQueueAttributes(ctx, &sqs.GetQueueAttributesInput{
		QueueUrl:       aws.String(queueUrl),
		AttributeNames: []types.QueueAttributeName{arnAttributeName},
	})
	if err != nil {
		log.Printf("Couldn't get ARN for queue %v. Here's why: %v\n", queueUrl, err)
	} else {
		queueArn = attribute.Attributes[string(arnAttributeName)]
	}
	return queueArn, err
}



// AttachSendMessagePolicy uses the SetQueueAttributes action to attach a policy to an
// Amazon SQS queue that allows the specified Amazon SNS topic to send messages to the
// queue.
func (actor SqsActions) AttachSendMessagePolicy(ctx context.Context, queueUrl string, queueArn string, topicArn string) error {
	policyDoc := PolicyDocument{
		Version: "2012-10-17",
		Statement: []PolicyStatement{{
			Effect:    "Allow",
			Action:    "sqs:SendMessage",
			Principal: map[string]string{"Service": "sns.amazonaws.com"},
			Resource:  aws.String(queueArn),
			Condition: PolicyCondition{"ArnEquals": map[string]string{"aws:SourceArn": topicArn}},
		}},
	}
	policyBytes, err := json.Marshal(policyDoc)
	if err != nil {
		log.Printf("Couldn't create policy document. Here's why: %v\n", err)
		return err
	}
	_, err = actor.SqsClient.SetQueueAttributes(ctx, &sqs.SetQueueAttributesInput{
		Attributes: map[string]string{
			string(types.QueueAttributeNamePolicy): string(policyBytes),
		},
		QueueUrl: aws.String(queueUrl),
	})
	if err != nil {
		log.Printf("Couldn't set send message policy on queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}

// PolicyDocument defines a policy document as a Go struct that can be serialized
// to JSON.
type PolicyDocument struct {
	Version   string
	Statement []PolicyStatement
}

// PolicyStatement defines a statement in a policy document.
type PolicyStatement struct {
	Effect    string
	Action    string
	Principal map[string]string `json:",omitempty"`
	Resource  *string           `json:",omitempty"`
	Condition PolicyCondition   `json:",omitempty"`
}

// PolicyCondition defines a condition in a policy.
type PolicyCondition map[string]map[string]string



// GetMessages uses the ReceiveMessage action to get messages from an Amazon SQS queue.
func (actor SqsActions) GetMessages(ctx context.Context, queueUrl string, maxMessages int32, waitTime int32) ([]types.Message, error) {
	var messages []types.Message
	result, err := actor.SqsClient.ReceiveMessage(ctx, &sqs.ReceiveMessageInput{
		QueueUrl:            aws.String(queueUrl),
		MaxNumberOfMessages: maxMessages,
		WaitTimeSeconds:     waitTime,
	})
	if err != nil {
		log.Printf("Couldn't get messages from queue %v. Here's why: %v\n", queueUrl, err)
	} else {
		messages = result.Messages
	}
	return messages, err
}



// DeleteMessages uses the DeleteMessageBatch action to delete a batch of messages from
// an Amazon SQS queue.
func (actor SqsActions) DeleteMessages(ctx context.Context, queueUrl string, messages []types.Message) error {
	entries := make([]types.DeleteMessageBatchRequestEntry, len(messages))
	for msgIndex := range messages {
		entries[msgIndex].Id = aws.String(fmt.Sprintf("%v", msgIndex))
		entries[msgIndex].ReceiptHandle = messages[msgIndex].ReceiptHandle
	}
	_, err := actor.SqsClient.DeleteMessageBatch(ctx, &sqs.DeleteMessageBatchInput{
		Entries:  entries,
		QueueUrl: aws.String(queueUrl),
	})
	if err != nil {
		log.Printf("Couldn't delete messages from queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}



// DeleteQueue deletes an Amazon SQS queue.
func (actor SqsActions) DeleteQueue(ctx context.Context, queueUrl string) error {
	_, err := actor.SqsClient.DeleteQueue(ctx, &sqs.DeleteQueueInput{
		QueueUrl: aws.String(queueUrl)})
	if err != nil {
		log.Printf("Couldn't delete queue %v. Here's why: %v\n", queueUrl, err)
	}
	return err
}
```
Pembersihan sumber daya   

```
import (
	"context"
	"fmt"
	"log"
	"topics_and_queues/actions"
)

// Resources keeps track of AWS resources created during an example and handles
// cleanup when the example finishes.
type Resources struct {
	topicArn  string
	queueUrls []string
	snsActor  *actions.SnsActions
	sqsActor  *actions.SqsActions
}

// Cleanup deletes all AWS resources created during an example.
func (resources Resources) Cleanup(ctx context.Context) {
	defer func() {
		if r := recover(); r != nil {
			fmt.Println("Something went wrong during cleanup. Use the AWS Management Console\n" +
				"to remove any remaining resources that were created for this scenario.")
		}
	}()

	var err error
	if resources.topicArn != "" {
		log.Printf("Deleting topic %v.\n", resources.topicArn)
		err = resources.snsActor.DeleteTopic(ctx, resources.topicArn)
		if err != nil {
			panic(err)
		}
	}

	for _, queueUrl := range resources.queueUrls {
		log.Printf("Deleting queue %v.\n", queueUrl)
		err = resources.sqsActor.DeleteQueue(ctx, queueUrl)
		if err != nil {
			panic(err)
		}
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Go *.
  + [CreateQueue](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.CreateQueue)
  + [CreateTopic](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.CreateTopic)
  + [DeleteMessageBatch](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.DeleteMessageBatch)
  + [DeleteQueue](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.DeleteQueue)
  + [DeleteTopic](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.DeleteTopic)
  + [GetQueueAttributes](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.GetQueueAttributes)
  + [Publikasikan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.Publish)
  + [ReceiveMessage](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.ReceiveMessage)
  + [SetQueueAttributes](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sqs#Client.SetQueueAttributes)
  + [Berlangganan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.Subscribe)
  + [Berhenti berlangganan](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/sns#Client.Unsubscribe)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_go_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package integration_sqs_to_lambda

import (
	"fmt"
	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(event events.SQSEvent) error {
	for _, record := range event.Records {
		err := processMessage(record)
		if err != nil {
			return err
		}
	}
	fmt.Println("done")
	return nil
}

func processMessage(record events.SQSMessage) error {
	fmt.Printf("Processed message %s\n", record.Body)
	// TODO: Do interesting work based on the new message
	return nil
}

func main() {
	lambda.Start(handler)
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_go_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Go V2**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Go.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package main

import (
	"context"
	"fmt"
	"github.com/aws/aws-lambda-go/events"
	"github.com/aws/aws-lambda-go/lambda"
)

func handler(ctx context.Context, sqsEvent events.SQSEvent) (map[string]interface{}, error) {
	batchItemFailures := []map[string]interface{}{}

	for _, message := range sqsEvent.Records {
		if len(message.Body) > 0 {
			// Your message processing condition here
			fmt.Printf("Successfully processed message: %s\n", message.Body)
		} else {
			// Message processing failed
			fmt.Printf("Failed to process message %s\n", message.MessageId)
			batchItemFailures = append(batchItemFailures, map[string]interface{}{"itemIdentifier": message.MessageId})
		}
	}

	sqsBatchResponse := map[string]interface{}{
		"batchItemFailures": batchItemFailures,
	}
	return sqsBatchResponse, nil
}

func main() {
	lambda.Start(handler)
}
```

# Contoh kode untuk SDK untuk JavaScript (v2)
<a name="javascript_2_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk JavaScript (v2) dengan AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK for JavaScript (v2) Panduan Pengembang](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/welcome.html)** - Lebih lanjut tentang menggunakan JavaScript dengan AWS. 
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23javascript)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [CloudWatch](javascript_2_cloudwatch_code_examples.md)
+ [CloudWatch Acara](javascript_2_cloudwatch-events_code_examples.md)
+ [CloudWatch Log](javascript_2_cloudwatch-logs_code_examples.md)
+ [DynamoDB](javascript_2_dynamodb_code_examples.md)
+ [Resolusi Entitas AWS](javascript_2_entityresolution_code_examples.md)
+ [EventBridge](javascript_2_eventbridge_code_examples.md)
+ [Amazon Glacier](javascript_2_glacier_code_examples.md)
+ [IAM](javascript_2_iam_code_examples.md)
+ [Lambda](javascript_2_lambda_code_examples.md)
+ [Amazon Pinpoint](javascript_2_pinpoint_code_examples.md)
+ [API SMS dan Suara Amazon Pinpoint](javascript_2_pinpoint-sms-voice_code_examples.md)
+ [Amazon SNS](javascript_2_sns_code_examples.md)
+ [Amazon SQS](javascript_2_sqs_code_examples.md)
+ [AWS STS](javascript_2_sts_code_examples.md)

# CloudWatch contoh menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan CloudWatch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteAlarms`
<a name="cloudwatch_DeleteAlarms_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlarms`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatch service object
var cw = new AWS.CloudWatch({ apiVersion: "2010-08-01" });

var params = {
  AlarmNames: ["Web_Server_CPU_Utilization"],
};

cw.deleteAlarms(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-creating-alarms.html#cloudwatch-examples-creating-alarms-deleting). 
+  Untuk detail API, lihat [DeleteAlarms](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/DeleteAlarms)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatch service object
var cw = new AWS.CloudWatch({ apiVersion: "2010-08-01" });

cw.describeAlarms({ StateValue: "INSUFFICIENT_DATA" }, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    // List the names of all current alarms in the console
    data.MetricAlarms.forEach(function (item, index, array) {
      console.log(item.AlarmName);
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-creating-alarms.html#cloudwatch-examples-creating-alarms-describing). 
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/DescribeAlarmsForMetric)di *Referensi AWS SDK untuk JavaScript API*. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatch service object
var cw = new AWS.CloudWatch({ apiVersion: "2010-08-01" });

cw.disableAlarmActions(
  { AlarmNames: ["Web_Server_CPU_Utilization"] },
  function (err, data) {
    if (err) {
      console.log("Error", err);
    } else {
      console.log("Success", data);
    }
  }
);
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-using-alarm-actions.html#cloudwatch-examples-using-alarm-actions-disabling). 
+  Untuk detail API, lihat [DisableAlarmActions](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/DisableAlarmActions)di *Referensi AWS SDK untuk JavaScript API*. 

### `EnableAlarmActions`
<a name="cloudwatch_EnableAlarmActions_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableAlarmActions`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatch service object
var cw = new AWS.CloudWatch({ apiVersion: "2010-08-01" });

var params = {
  AlarmName: "Web_Server_CPU_Utilization",
  ComparisonOperator: "GreaterThanThreshold",
  EvaluationPeriods: 1,
  MetricName: "CPUUtilization",
  Namespace: "AWS/EC2",
  Period: 60,
  Statistic: "Average",
  Threshold: 70.0,
  ActionsEnabled: true,
  AlarmActions: ["ACTION_ARN"],
  AlarmDescription: "Alarm when server CPU exceeds 70%",
  Dimensions: [
    {
      Name: "InstanceId",
      Value: "INSTANCE_ID",
    },
  ],
  Unit: "Percent",
};

cw.putMetricAlarm(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Alarm action added", data);
    var paramsEnableAlarmAction = {
      AlarmNames: [params.AlarmName],
    };
    cw.enableAlarmActions(paramsEnableAlarmAction, function (err, data) {
      if (err) {
        console.log("Error", err);
      } else {
        console.log("Alarm action enabled", data);
      }
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-using-alarm-actions.html#cloudwatch-examples-using-alarm-actions-enabling). 
+  Untuk detail API, lihat [EnableAlarmActions](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/EnableAlarmActions)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatch service object
var cw = new AWS.CloudWatch({ apiVersion: "2010-08-01" });

var params = {
  Dimensions: [
    {
      Name: "LogGroupName" /* required */,
    },
  ],
  MetricName: "IncomingLogEvents",
  Namespace: "AWS/Logs",
};

cw.listMetrics(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Metrics", JSON.stringify(data.Metrics));
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-getting-metrics.html#cloudwatch-examples-getting-metrics-listing). 
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/ListMetrics)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatch service object
var cw = new AWS.CloudWatch({ apiVersion: "2010-08-01" });

var params = {
  AlarmName: "Web_Server_CPU_Utilization",
  ComparisonOperator: "GreaterThanThreshold",
  EvaluationPeriods: 1,
  MetricName: "CPUUtilization",
  Namespace: "AWS/EC2",
  Period: 60,
  Statistic: "Average",
  Threshold: 70.0,
  ActionsEnabled: false,
  AlarmDescription: "Alarm when server CPU exceeds 70%",
  Dimensions: [
    {
      Name: "InstanceId",
      Value: "INSTANCE_ID",
    },
  ],
  Unit: "Percent",
};

cw.putMetricAlarm(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-creating-alarms.html#cloudwatch-examples-creating-alarms-putmetricalarm). 
+  Untuk detail API, lihat [PutMetricAlarm](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/PutMetricAlarm)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatch service object
var cw = new AWS.CloudWatch({ apiVersion: "2010-08-01" });

// Create parameters JSON for putMetricData
var params = {
  MetricData: [
    {
      MetricName: "PAGES_VISITED",
      Dimensions: [
        {
          Name: "UNIQUE_PAGES",
          Value: "URLS",
        },
      ],
      Unit: "None",
      Value: 1.0,
    },
  ],
  Namespace: "SITE/TRAFFIC",
};

cw.putMetricData(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", JSON.stringify(data));
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-getting-metrics.html#cloudwatch-examples-getting-metrics-publishing-custom). 
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/PutMetricData)di *Referensi AWS SDK untuk JavaScript API*. 

# CloudWatch Contoh acara menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_cloudwatch-events_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan CloudWatch Events.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutEvents`
<a name="cloudwatch-events_PutEvents_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch-events#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatchEvents service object
var cwevents = new AWS.CloudWatchEvents({ apiVersion: "2015-10-07" });

var params = {
  Entries: [
    {
      Detail: '{ "key1": "value1", "key2": "value2" }',
      DetailType: "appRequestSubmitted",
      Resources: ["RESOURCE_ARN"],
      Source: "com.company.app",
    },
  ],
};

cwevents.putEvents(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.Entries);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-sending-events.html#cloudwatch-examples-sending-events-putevents). 
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/PutEvents)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutRule`
<a name="cloudwatch-events_PutRule_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch-events#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatchEvents service object
var cwevents = new AWS.CloudWatchEvents({ apiVersion: "2015-10-07" });

var params = {
  Name: "DEMO_EVENT",
  RoleArn: "IAM_ROLE_ARN",
  ScheduleExpression: "rate(5 minutes)",
  State: "ENABLED",
};

cwevents.putRule(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.RuleArn);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-sending-events.html#cloudwatch-examples-sending-events-rules). 
+  Untuk detail API, lihat [PutRule](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/PutRule)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutTargets`
<a name="cloudwatch-events_PutTargets_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch-events#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatchEvents service object
var cwevents = new AWS.CloudWatchEvents({ apiVersion: "2015-10-07" });

var params = {
  Rule: "DEMO_EVENT",
  Targets: [
    {
      Arn: "LAMBDA_FUNCTION_ARN",
      Id: "myCloudWatchEventsTarget",
    },
  ],
};

cwevents.putTargets(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-sending-events.html#cloudwatch-examples-sending-events-targets). 
+  Untuk detail API, lihat [PutTargets](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/monitoring-2010-08-01/PutTargets)di *Referensi AWS SDK untuk JavaScript API*. 

# CloudWatch Contoh log menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan CloudWatch Log.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteSubscriptionFilter`
<a name="cloudwatch-logs_DeleteSubscriptionFilter_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSubscriptionFilter`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch-logs#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the CloudWatchLogs service object
var cwl = new AWS.CloudWatchLogs({ apiVersion: "2014-03-28" });

var params = {
  filterName: "FILTER",
  logGroupName: "LOG_GROUP",
};

cwl.deleteSubscriptionFilter(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-subscriptions.html#cloudwatch-examples-subscriptions-deleting). 
+  Untuk detail API, lihat [DeleteSubscriptionFilter](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/logs-2014-03-28/DeleteSubscriptionFilter)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeSubscriptionFilters`
<a name="cloudwatch-logs_DescribeSubscriptionFilters_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSubscriptionFilters`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch-logs#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the CloudWatchLogs service object
var cwl = new AWS.CloudWatchLogs({ apiVersion: "2014-03-28" });

var params = {
  logGroupName: "GROUP_NAME",
  limit: 5,
};

cwl.describeSubscriptionFilters(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.subscriptionFilters);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-subscriptions.html#cloudwatch-examples-subscriptions-describing). 
+  Untuk detail API, lihat [DescribeSubscriptionFilters](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/logs-2014-03-28/DescribeSubscriptionFilters)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutSubscriptionFilter`
<a name="cloudwatch-logs_PutSubscriptionFilter_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutSubscriptionFilter`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/cloudwatch-logs#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the CloudWatchLogs service object
var cwl = new AWS.CloudWatchLogs({ apiVersion: "2014-03-28" });

var params = {
  destinationArn: "LAMBDA_FUNCTION_ARN",
  filterName: "FILTER_NAME",
  filterPattern: "ERROR",
  logGroupName: "LOG_GROUP",
};

cwl.putSubscriptionFilter(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-subscriptions.html#cloudwatch-examples-subscriptions-creating). 
+  Untuk detail API, lihat [PutSubscriptionFilter](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/logs-2014-03-28/PutSubscriptionFilter)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh DynamoDB menggunakan SDK JavaScript untuk (v2)
<a name="javascript_2_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan DynamoDB.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `BatchGetItem`
<a name="dynamodb_BatchGetItem_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetItem`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

var params = {
  RequestItems: {
    TABLE_NAME: {
      Keys: [
        { KEY_NAME: { N: "KEY_VALUE_1" } },
        { KEY_NAME: { N: "KEY_VALUE_2" } },
        { KEY_NAME: { N: "KEY_VALUE_3" } },
      ],
      ProjectionExpression: "KEY_NAME, ATTRIBUTE",
    },
  },
};

ddb.batchGetItem(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    data.Responses.TABLE_NAME.forEach(function (element, index, array) {
      console.log(element);
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-example-table-read-write-batch.html#dynamodb-example-table-read-write-batch-reading). 
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/BatchGetItem)di *Referensi AWS SDK untuk JavaScript API*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

var params = {
  RequestItems: {
    TABLE_NAME: [
      {
        PutRequest: {
          Item: {
            KEY: { N: "KEY_VALUE" },
            ATTRIBUTE_1: { S: "ATTRIBUTE_1_VALUE" },
            ATTRIBUTE_2: { N: "ATTRIBUTE_2_VALUE" },
          },
        },
      },
      {
        PutRequest: {
          Item: {
            KEY: { N: "KEY_VALUE" },
            ATTRIBUTE_1: { S: "ATTRIBUTE_1_VALUE" },
            ATTRIBUTE_2: { N: "ATTRIBUTE_2_VALUE" },
          },
        },
      },
    ],
  },
};

ddb.batchWriteItem(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-example-table-read-write-batch.html#dynamodb-example-table-read-write-batch-writing). 
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/BatchWriteItem)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

var params = {
  AttributeDefinitions: [
    {
      AttributeName: "CUSTOMER_ID",
      AttributeType: "N",
    },
    {
      AttributeName: "CUSTOMER_NAME",
      AttributeType: "S",
    },
  ],
  KeySchema: [
    {
      AttributeName: "CUSTOMER_ID",
      KeyType: "HASH",
    },
    {
      AttributeName: "CUSTOMER_NAME",
      KeyType: "RANGE",
    },
  ],
  ProvisionedThroughput: {
    ReadCapacityUnits: 1,
    WriteCapacityUnits: 1,
  },
  TableName: "CUSTOMER_LIST",
  StreamSpecification: {
    StreamEnabled: false,
  },
};

// Call DynamoDB to create the table
ddb.createTable(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Table Created", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-examples-using-tables.html#dynamodb-examples-using-tables-creating-a-table). 
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/CreateTable)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 
Hapus item dari tabel.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

var params = {
  TableName: "TABLE",
  Key: {
    KEY_NAME: { N: "VALUE" },
  },
};

// Call DynamoDB to delete the item from the table
ddb.deleteItem(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
Hapus item dari tabel menggunakan klien dokumen DynamoDB.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create DynamoDB document client
var docClient = new AWS.DynamoDB.DocumentClient({ apiVersion: "2012-08-10" });

var params = {
  Key: {
    HASH_KEY: VALUE,
  },
  TableName: "TABLE",
};

docClient.delete(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-example-table-read-write.html#dynamodb-example-table-read-write-deleting-an-item). 
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/DeleteItem)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

var params = {
  TableName: process.argv[2],
};

// Call DynamoDB to delete the specified table
ddb.deleteTable(params, function (err, data) {
  if (err && err.code === "ResourceNotFoundException") {
    console.log("Error: Table not found");
  } else if (err && err.code === "ResourceInUseException") {
    console.log("Error: Table in use");
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-examples-using-tables.html#dynamodb-examples-using-tables-deleting-a-table). 
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/DeleteTable)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

var params = {
  TableName: process.argv[2],
};

// Call DynamoDB to retrieve the selected table descriptions
ddb.describeTable(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.Table.KeySchema);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-examples-using-tables.html#dynamodb-examples-using-tables-describing-a-table). 
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/DescribeTable)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetItem`
<a name="dynamodb_GetItem_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 
Dapatkan item dari tabel.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

var params = {
  TableName: "TABLE",
  Key: {
    KEY_NAME: { N: "001" },
  },
  ProjectionExpression: "ATTRIBUTE_NAME",
};

// Call DynamoDB to read the item from the table
ddb.getItem(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.Item);
  }
});
```
Dapatkan item dari tabel menggunakan klien dokumen DynamoDB.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create DynamoDB document client
var docClient = new AWS.DynamoDB.DocumentClient({ apiVersion: "2012-08-10" });

var params = {
  TableName: "EPISODES_TABLE",
  Key: { KEY_NAME: VALUE },
};

docClient.get(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.Item);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-example-dynamodb-utilities.html#dynamodb-example-document-client-get). 
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/GetItem)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListTables`
<a name="dynamodb_ListTables_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

// Call DynamoDB to retrieve the list of tables
ddb.listTables({ Limit: 10 }, function (err, data) {
  if (err) {
    console.log("Error", err.code);
  } else {
    console.log("Table names are ", data.TableNames);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-examples-using-tables.html#dynamodb-examples-using-tables-listing-tables). 
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutItem`
<a name="dynamodb_PutItem_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 
Menempatkan item dalam tabel.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the DynamoDB service object
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

var params = {
  TableName: "CUSTOMER_LIST",
  Item: {
    CUSTOMER_ID: { N: "001" },
    CUSTOMER_NAME: { S: "Richard Roe" },
  },
};

// Call DynamoDB to add the item to the table
ddb.putItem(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
Tempatkan item dalam tabel menggunakan klien dokumen DynamoDB.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create DynamoDB document client
var docClient = new AWS.DynamoDB.DocumentClient({ apiVersion: "2012-08-10" });

var params = {
  TableName: "TABLE",
  Item: {
    HASHKEY: VALUE,
    ATTRIBUTE_1: "STRING_VALUE",
    ATTRIBUTE_2: VALUE_2,
  },
};

docClient.put(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-example-table-read-write.html#dynamodb-example-table-read-write-writing-an-item). 
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/PutItem)di *Referensi AWS SDK untuk JavaScript API*. 

### `Query`
<a name="dynamodb_Query_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create DynamoDB document client
var docClient = new AWS.DynamoDB.DocumentClient({ apiVersion: "2012-08-10" });

var params = {
  ExpressionAttributeValues: {
    ":s": 2,
    ":e": 9,
    ":topic": "PHRASE",
  },
  KeyConditionExpression: "Season = :s and Episode > :e",
  FilterExpression: "contains (Subtitle, :topic)",
  TableName: "EPISODES_TABLE",
};

docClient.query(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.Items);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-example-query-scan.html#dynamodb-example-table-query-scan-querying). 
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk JavaScript *. 

### `Scan`
<a name="dynamodb_Scan_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/dynamodb#code-examples). 

```
// Load the AWS SDK for Node.js.
var AWS = require("aws-sdk");
// Set the AWS Region.
AWS.config.update({ region: "REGION" });

// Create DynamoDB service object.
var ddb = new AWS.DynamoDB({ apiVersion: "2012-08-10" });

const params = {
  // Specify which items in the results are returned.
  FilterExpression: "Subtitle = :topic AND Season = :s AND Episode = :e",
  // Define the expression attribute value, which are substitutes for the values you want to compare.
  ExpressionAttributeValues: {
    ":topic": { S: "SubTitle2" },
    ":s": { N: 1 },
    ":e": { N: 2 },
  },
  // Set the projection expression, which are the attributes that you want.
  ProjectionExpression: "Season, Episode, Title, Subtitle",
  TableName: "EPISODES_TABLE",
};

ddb.scan(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
    data.Items.forEach(function (element, index, array) {
      console.log(
        "printing",
        element.Title.S + " (" + element.Subtitle.S + ")"
      );
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/dynamodb-example-query-scan.html#dynamodb-example-table-query-scan-scanning). 
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/dynamodb-2012-08-10/Scan) di *Referensi API AWS SDK untuk JavaScript *. 

## Skenario
<a name="scenarios"></a>

### Menginvokasi fungsi Lambda dari browser
<a name="cross_LambdaForBrowser_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara memanggil AWS Lambda fungsi dari browser.

**SDK untuk JavaScript (v2)**  
 Anda dapat membuat aplikasi berbasis browser yang menggunakan AWS Lambda fungsi untuk memperbarui tabel Amazon DynamoDB dengan pilihan pengguna.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/lambda/lambda-for-browser).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda

# Resolusi Entitas AWS contoh menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_entityresolution_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan Resolusi Entitas AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="entityresolution_Scenario_javascript_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat Pemetaan Skema.
+ Buat Resolusi Entitas AWS alur kerja.
+ Mulai pekerjaan yang cocok untuk alur kerja.
+ Dapatkan detail untuk pekerjaan yang cocok.
+ Dapatkan Pemetaan Skema.
+ Daftar semua Pemetaan Skema.
+ Tandai sumber daya Pemetaan Skema.
+ Hapus Resolusi Entitas AWS Aset.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 
Jalankan skenario interaktif yang menunjukkan Resolusi Entitas AWS fitur.  

```
import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import {
  CloudFormationClient,
  CreateStackCommand,
  DeleteStackCommand,
  DescribeStacksCommand,
  waitUntilStackExists,
  waitUntilStackCreateComplete,
} from "@aws-sdk/client-cloudformation";
import {
  EntityResolutionClient,
  CreateSchemaMappingCommand,
  CreateMatchingWorkflowCommand,
  GetMatchingJobCommand,
  StartMatchingJobCommand,
  GetSchemaMappingCommand,
  ListSchemaMappingsCommand,
  TagResourceCommand,
  DeleteMatchingWorkflowCommand,
  DeleteSchemaMappingCommand,
  ConflictException,
  ValidationException,
} from "@aws-sdk/client-entityresolution";
import {
  DeleteObjectsCommand,
  DeleteBucketCommand,
  PutObjectCommand,
  S3Client,
  ListObjectsCommand,
} from "@aws-sdk/client-s3";
import { wait } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { readFile } from "node:fs/promises";
import { parseArgs } from "node:util";
import { readFileSync } from "node:fs";
import { fileURLToPath } from "node:url";
import { dirname } from "node:path";

const __filename = fileURLToPath(import.meta.url);
const __dirname = dirname(__filename);
const stackName = `${data.inputs.entityResolutionStack}`;

/*The inputs for this example can be edited in the ../input.json.*/
import data from "../inputs.json" with { type: "json" };
const skipWhenErrors = (state) => state.errors.length > 0;
/**
 * Used repeatedly to have the user press enter.
 * @type {ScenarioInput}
 */
/* v8 ignore next 3 */
const pressEnter = new ScenarioInput("continue", "Press Enter to continue", {
  type: "input",
  verbose: "false",
  skipWhen: skipWhenErrors,
});

const region = "eu-west-1";

const entityResolutionClient = new EntityResolutionClient({ region: region });
const cloudFormationClient = new CloudFormationClient({ region: region });
const s3Client = new S3Client({ region: region });

const greet = new ScenarioOutput(
  "greet",
  "AWS Entity Resolution is a fully-managed machine learning service provided by " +
    "Amazon Web Services (AWS) that helps organizations extract, link, and " +
    "organize information from multiple data sources. It leverages natural " +
    "language processing and deep learning models to identify and resolve " +
    "entities, such as people, places, organizations, and products, " +
    "across structured and unstructured data.\n" +
    "\n" +
    "With Entity Resolution, customers can build robust data integration " +
    "pipelines to combine and reconcile data from multiple systems, databases, " +
    "and documents. The service can handle ambiguous, incomplete, or conflicting " +
    "information, and provide a unified view of entities and their relationships. " +
    "This can be particularly valuable in applications such as customer 360, " +
    "fraud detection, supply chain management, and knowledge management, where " +
    "accurate entity identification is crucial.\n" +
    "\n" +
    "The `EntityResolutionAsyncClient` interface in the AWS SDK for Java 2.x " +
    "provides a set of methods to programmatically interact with the AWS Entity " +
    "Resolution service. This allows developers to automate the entity extraction, " +
    "linking, and deduplication process as part of their data processing workflows. " +
    "With Entity Resolution, organizations can unlock the value of their data, " +
    "improve decision-making, and enhance customer experiences by having a reliable, " +
    "comprehensive view of their key entities.",

  { header: true },
);
const displayBuildCloudFormationStack = new ScenarioOutput(
  "displayBuildCloudFormationStack",
  "To prepare the AWS resources needed for this scenario application, the next step uploads " +
    "a CloudFormation template whose resulting stack creates the following resources:\n" +
    "- An AWS Glue Data Catalog table \n" +
    "- An AWS IAM role \n" +
    "- An AWS S3 bucket \n" +
    "- An AWS Entity Resolution Schema \n" +
    "It can take a couple minutes for the Stack to finish creating the resources.",
);

const sdkBuildCloudFormationStack = new ScenarioAction(
  "sdkBuildCloudFormationStack",
  async (/** @type {State} */ state) => {
    try {
      const data = readFileSync(
        `${__dirname}/../../../../resources/cfn/entity-resolution-basics/entity-resolution-basics-template.yml`,
        "utf8",
      );
      await cloudFormationClient.send(
        new CreateStackCommand({
          StackName: stackName,
          TemplateBody: data,
          Capabilities: ["CAPABILITY_IAM"],
        }),
      );
      await waitUntilStackExists(
        { client: cloudFormationClient },
        { StackName: stackName },
      );
      await waitUntilStackCreateComplete(
        { client: cloudFormationClient },
        { StackName: stackName },
      );
      const stack = await cloudFormationClient.send(
        new DescribeStacksCommand({
          StackName: stackName,
        }),
      );

      state.entityResolutionRole = stack.Stacks[0].Outputs[1];
      state.jsonGlueTable = stack.Stacks[0].Outputs[2];
      state.CSVGlueTable = stack.Stacks[0].Outputs[3];
      state.glueDataBucket = stack.Stacks[0].Outputs[0];
      state.stackName = stack.StackName;
      console.log(state.glueDataBucket);
      console.log(
        `The  ARN of the EntityResolution Role is ${state.entityResolutionRole.OutputValue}`,
      );
      console.log(
        `The ARN of the Json Glue Table is ${state.jsonGlueTable.OutputValue}`,
      );
      console.log(
        `The ARN of the CSV Glue Table is ${state.CSVGlueTable.OutputValue}`,
      );
      console.log(
        `The name of the Glue Data Bucket is ${state.glueDataBucket.OutputValue}\n`,
      );
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
    try {
      console.log(
        `Uploading the following JSON in ../data.json to the ${state.glueDataBucket.OutputValue} S3 bucket...`,
      );
      const bucketName = state.glueDataBucket.OutputValue;

      const putObjectParams = {
        Bucket: bucketName,
        Key: "jsonData/data.json",
        Body: await readFileSync(
          `${__dirname}/../../../../javascriptv3/example_code/entityresolution/data.json`,
        ),
      };
      const command = new PutObjectCommand(putObjectParams);
      const response = await s3Client.send(command);
      console.log(
        `../data.json file data uploaded to the ${state.glueDataBucket.OutputValue} S3 bucket.\n`,
      );
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
    try {
      console.log(
        `Uploading the CSV data in ../data.csv to the ${state.glueDataBucket.OutputValue} S3 bucket...`,
      );

      const bucketName = state.glueDataBucket.OutputValue;
      const putObjectParams = {
        Bucket: bucketName,
        Key: "csvData/data.csv",
        Body: await readFileSync(
          `${__dirname}/../../../../javascriptv3/example_code/entityresolution/data.csv`,
        ),
      };
      const command = new PutObjectCommand(putObjectParams);
      const response = await s3Client.send(command);
      console.log(
        `../data.csv file data uploaded to the ${state.glueDataBucket.OutputValue} S3 bucket.`,
      );
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
  },
);

const displayCreateSchemaMapping = new ScenarioOutput(
  "displayCreateSchemaMapping",
  "1. Create Schema Mapping" +
    "Entity Resolution schema mapping aligns and integrates data from " +
    "multiple sources by identifying and matching corresponding entities " +
    "like customers or products. It unifies schemas, resolves conflicts, " +
    "and uses machine learning to link related entities, enabling a " +
    "consolidated, accurate view for improved data quality and decision-making." +
    "\n" +
    "In this example, the schema mapping lines up with the fields in the JSON and CSV objects. That is, " +
    " it contains these fields: id, name, and email. ",
);

const sdkCreateSchemaMapping = new ScenarioAction(
  "sdkCreateSchemaMapping",
  async (/** @type {State} */ state) => {
    const createSchemaMappingParamsJson = {
      schemaName: `${data.inputs.schemaNameJson}`,
      mappedInputFields: [
        {
          fieldName: "id",
          type: "UNIQUE_ID",
        },
        {
          fieldName: "name",
          type: "NAME",
        },
        {
          fieldName: "email",
          type: "EMAIL_ADDRESS",
        },
      ],
    };
    const createSchemaMappingParamsCSV = {
      schemaName: `${data.inputs.schemaNameCSV}`,
      mappedInputFields: [
        {
          fieldName: "id",
          type: "UNIQUE_ID",
        },
        {
          fieldName: "name",
          type: "NAME",
        },
        {
          fieldName: "email",
          type: "EMAIL_ADDRESS",
        },
        {
          fieldName: "phone",
          type: "PROVIDER_ID",
          subType: "STRING",
        },
      ],
    };
    try {
      const command = new CreateSchemaMappingCommand(
        createSchemaMappingParamsJson,
      );
      const response = await entityResolutionClient.send(command);
      state.schemaNameJson = response.schemaName;
      state.schemaArn = response.schemaArn;
      state.idOutputAttribute = response.mappedInputFields[0].fieldName;
      state.nameOutputAttribute = response.mappedInputFields[1].fieldName;
      state.emailOutputAttribute = response.mappedInputFields[2].fieldName;

      console.log("The JSON schema mapping name is ", state.schemaNameJson);
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `The schema mapping already exists: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
    try {
      const command = new CreateSchemaMappingCommand(
        createSchemaMappingParamsCSV,
      );
      const response = await entityResolutionClient.send(command);
      state.schemaNameCSV = response.schemaName;
      state.phoneOutputAttribute = response.mappedInputFields[3].fieldName;
      console.log("The CSV schema mapping name is ", state.schemaNameCSV);
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `An unexpected error occurred while creating the geofence collection: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
  },
);
const displayCreateMatchingWorkflow = new ScenarioOutput(
  "displayCreateMatchingWorkflow",
  "2. Create an AWS Entity Resolution Workflow. " +
    "An Entity Resolution matching workflow identifies and links records " +
    "across datasets that represent the same real-world entity, such as " +
    "customers or products. Using techniques like schema mapping, " +
    "data profiling, and machine learning algorithms, " +
    "it evaluates attributes like names or emails to detect duplicates " +
    "or relationships, even with variations or inconsistencies. " +
    "The workflow outputs consolidated, de-duplicated data." +
    "\n" +
    "We will use the machine learning-based matching technique.",
);

const sdkCreateMatchingWorkflow = new ScenarioAction(
  "sdkCreateMatchingWorkflow",
  async (/** @type {State} */ state) => {
    const createMatchingWorkflowParams = {
      roleArn: `${state.entityResolutionRole.OutputValue}`,
      workflowName: `${data.inputs.workflowName}`,
      description: "Created by using the AWS SDK for JavaScript (v3).",
      inputSourceConfig: [
        {
          inputSourceARN: `${state.jsonGlueTable.OutputValue}`,
          schemaName: `${data.inputs.schemaNameJson}`,
          applyNormalization: false,
        },
        {
          inputSourceARN: `${state.CSVGlueTable.OutputValue}`,
          schemaName: `${data.inputs.schemaNameCSV}`,
          applyNormalization: false,
        },
      ],
      outputSourceConfig: [
        {
          outputS3Path: `s3://${state.glueDataBucket.OutputValue}/eroutput`,
          output: [
            {
              name: state.idOutputAttribute,
            },
            {
              name: state.nameOutputAttribute,
            },
            {
              name: state.emailOutputAttribute,
            },
            {
              name: state.phoneOutputAttribute,
            },
          ],
          applyNormalization: false,
        },
      ],
      resolutionTechniques: { resolutionType: "ML_MATCHING" },
    };
    try {
      const command = new CreateMatchingWorkflowCommand(
        createMatchingWorkflowParams,
      );
      const response = await entityResolutionClient.send(command);
      state.workflowArn = response.workflowArn;
      console.log(
        `Workflow created successfully.\n The workflow ARN is: ${response.workflowArn}`,
      );
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `The matching workflow already exists: ${caught.message} \n Exiting program.`,
        );
        return;
      }
      if (caught instanceof ValidationException) {
        console.error(
          `There was a validation exception: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
  },
);
const displayMatchingJobOfWorkflow = new ScenarioOutput(
  "displayMatchingJobOfWorkflow",
  "3. Start the matching job of the workflow",
);

const sdkMatchingJobOfWorkflow = new ScenarioAction(
  "sdk",
  async (/** @type {State} */ state) => {
    const matchingJobOfWorkflowParams = {
      workflowName: `${data.inputs.workflowName}`,
    };
    try {
      const command = new StartMatchingJobCommand(matchingJobOfWorkflowParams);
      const response = await entityResolutionClient.send(command);
      state.jobID = response.jobId;
      console.log(`Job ID: ${state.jobID} \n
The matching job was successfully started.`);
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `The matching workflow already exists: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
  },
);

const displayGetDetailsforJob = new ScenarioOutput(
  "displayGetDetailsforJob",
  `4. While the matching job is running, let's look at other API methods. First, let's get details for the job `,
);

const sdkGetDetailsforJob = new ScenarioAction(
  "sdkGetDetailsforJob",
  async (/** @type {State} */ state) => {
    const getDetailsforJobParams = {
      workflowName: `${data.inputs.workflowName}`,
      jobId: `${state.jobID}`,
    };
    try {
      const command = new GetMatchingJobCommand(getDetailsforJobParams);
      const response = await entityResolutionClient.send(command);
      state.Status = response.status;
      state.response = response;
      console.log(`Job status: ${state.Status} `);
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
  },
);

const displayGetSchemaMappingJson = new ScenarioOutput(
  "displayGetSchemaMappingJson",
  "5. Get the schema mapping for the JSON data.",
);

const sdkGetSchemaMappingJson = new ScenarioAction(
  "sdkGetSchemaMappingJson",
  async (/** @type {State} */ state) => {
    const getSchemaMappingJsonParams = {
      schemaName: `${data.inputs.schemaNameJson}`,
    };
    try {
      const command = new GetSchemaMappingCommand(getSchemaMappingJsonParams);
      const response = await entityResolutionClient.send(command);
      console.log("Schema·mapping·ARN·is:·", response.schemaArn);
      const resultMappings = response.mappedInputFields;
      const noOfResultMappings = resultMappings.length;
      for (let i = 0; i < noOfResultMappings; i++) {
        console.log(
          `Attribute name: ${resultMappings[i].fieldName} `,
          `Attribute type: ${resultMappings[i].type}`,
        );
      }
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
  },
);

const displayListSchemaMappings = new ScenarioOutput(
  "displayListSchemaMappings",
  "6. List Schema Mappings.",
);

const sdkListSchemaMappings = new ScenarioAction(
  "sdkListSchemaMappings",
  async (/** @type {State} */ state) => {
    try {
      const command = new ListSchemaMappingsCommand({});
      const response = await entityResolutionClient.send(command);
      const noOfSchemas = response.schemaList.length;
      for (let i = 0; i < noOfSchemas; i++) {
        console.log(
          `Schema Mapping Name: ${response.schemaList[i].schemaName} `,
        );
      }
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
  },
);

const displayTagTheJsonSchema = new ScenarioOutput(
  "display",
  "7. Tag the resource. \n" +
    "Tags can help you organize and categorize your Entity Resolution resources. " +
    "You can also use them to scope user permissions by granting a user permission " +
    "to access or change only resources with certain tag values. " +
    "In Entity Resolution, SchemaMapping and MatchingWorkflow can be tagged. For this example, " +
    "the SchemaMapping is tagged.",
);

const sdkTagTheJsonSchema = new ScenarioAction(
  "sdkGetSchemaMappingJson",
  async (/** @type {State} */ state) => {
    const tagResourceCommandParams = {
      resourceArn: state.schemaArn,
      tags: {
        tag1: "tag1Value",
        tag2: "tag2Value",
      },
    };
    try {
      const command = new TagResourceCommand(tagResourceCommandParams);
      const response = await entityResolutionClient.send(command);
      console.log("Successfully tagged the resource.");
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
  },
);

const displayGetJobInfo = new ScenarioOutput(
  "displayGetJobInfo",
  "8. View the results of the AWS Entity Resolution Workflow.\n " +
    "Please perform this task manually in the AWS Management Console. ",
);

const displayDeleteResources = new ScenarioOutput(
  "displayDeleteResources",
  "9. Delete the resources \n" +
    "You cannot delete a workflow that is in a running state. So this will take ~30 minutes.\n" +
    "If you don't want to delete the resources, simply exit this application.",
);

const sdkDeleteResources = new ScenarioAction(
  "sdkDeleteResources",
  async (/** @type {State} */ state) => {
    console.log(
      "You selected to delete the resources. This will take about 30 minutes.",
    );
    await wait(1800);
    const bucketName = state.glueDataBucket.OutputValue;
    try {
      const emptyBucket = async ({ bucketName }) => {
        const listObjectsCommand = new ListObjectsCommand({
          Bucket: bucketName,
        });
        const { Contents } = await s3Client.send(listObjectsCommand);
        const keys = Contents.map((c) => c.Key);

        const deleteObjectsCommand = new DeleteObjectsCommand({
          Bucket: bucketName,
          Delete: { Objects: keys.map((key) => ({ Key: key })) },
        });
        await s3Client.send(deleteObjectsCommand);
        console.log(`Bucket ${bucketName} emptied successfully.\n`);
      };
      await emptyBucket({ bucketName });
    } catch (error) {
      console.log("error ", error);
    }
    try {
      const deleteBucket = async ({ bucketName }) => {
        const command = new DeleteBucketCommand({ Bucket: bucketName });
        await s3Client.send(command);
        console.log(`Bucket ${bucketName} deleted successfully.\n`);
      };
      await deleteBucket({ bucketName });
    } catch (error) {
      console.log("error ", error);
    }
    try {
      console.log(
        "Now we will delete the CloudFormation stack, which deletes the resources that were created at the beginning of the scenario.",
      );
      const deleteStackParams = { StackName: `${state.stackName}` };
      const command = new DeleteStackCommand(deleteStackParams);
      const response = await cloudFormationClient.send(command);
      console.log("CloudFormation stack deleted successfully.");
    } catch (error) {
      console.log("error ", error);
    }
    try {
      const deleteWorkflowParams = {
        workflowName: `${data.inputs.workflowName}`,
      };
      const command = new DeleteMatchingWorkflowCommand(deleteWorkflowParams);
      const response = await entityResolutionClient.send(command);
      console.log("Workflow deleted successfully!");
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `Job associated with workflow ${data.inputs.workflowName} is still running, so can't be deleted. 
          Neither can schemas ${data.inputs.schemaNameJson} and ${data.inputs.schemaNameCSV} associated with it. Please confirm this workflow is finished in the AWS Management Console, then delete it manually.`,
        );
        throw caught;
      }
    }
    try {
      const deleteJSONschemaMapping = {
        schemaName: `${data.inputs.schemaNameJson}`,
      };
      const command = new DeleteSchemaMappingCommand(deleteJSONschemaMapping);
      const response = await entityResolutionClient.send(command);
      console.log("Schema mapping deleted successfully. ");
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `The schema ${data.inputs.schemaNameJson} can't be deleted because it is associated with workflow
           ${data.inputs.workflowName}, which is still running. Please confirm this workflow is finished in the AWS Management Console, then delete it manually.`,
        );
        throw caught;
      }
    }
    try {
      const deleteCSVschemaMapping = {
        schemaName: `${data.inputs.schemaNameCSV}`,
      };
      const command = new DeleteSchemaMappingCommand(deleteCSVschemaMapping);
      const response = await entityResolutionClient.send(command);
      console.log("Schema mapping deleted successfully.");
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `The schema ${data.inputs.schemaNameCSV} can't be deleted because it is associated with workflow ${data.inputs.workflowName}, which is still running. Please confirm this workflow is finished in the AWS Management Console, then delete it manually.`,
        );
        throw caught;
      }
    }
  },
  {
    skipWhen: (/** @type {State} */ state) =>
      state.confirmDeleteResources === "",
  },
);

const goodbye = new ScenarioOutput(
  "goodbye",
  "Thank you for checking out the Amazon Location Service Use demo. We hope you " +
    "learned something new, or got some inspiration for your own apps today!" +
    " For more Amazon Location Services examples in different programming languages, have a look at: " +
    "https://docs.aws.amazon.com/code-library/latest/ug/location_code_examples.html",
);

const myScenario = new Scenario("Entity Resolution Basics Scenario", [
  greet,
  pressEnter,
  displayBuildCloudFormationStack,
  sdkBuildCloudFormationStack,
  pressEnter,
  displayCreateSchemaMapping,
  sdkCreateSchemaMapping,
  pressEnter,
  displayCreateMatchingWorkflow,
  sdkCreateMatchingWorkflow,
  pressEnter,
  displayMatchingJobOfWorkflow,
  sdkMatchingJobOfWorkflow,
  pressEnter,
  displayGetDetailsforJob,
  sdkGetDetailsforJob,
  pressEnter,
  displayGetSchemaMappingJson,
  sdkGetSchemaMappingJson,
  pressEnter,
  displayListSchemaMappings,
  sdkListSchemaMappings,
  pressEnter,
  displayTagTheJsonSchema,
  sdkTagTheJsonSchema,
  pressEnter,
  displayGetJobInfo,
  pressEnter,
  displayDeleteResources,
  pressEnter,
  sdkDeleteResources,
  pressEnter,
  goodbye,
]);

/** @type {{ stepHandlerOptions: StepHandlerOptions }} */
export const main = async (stepHandlerOptions) => {
  await myScenario.run(stepHandlerOptions);
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const { values } = parseArgs({
    options: {
      yes: {
        type: "boolean",
        short: "y",
      },
    },
  });
  main({ confirmAll: values.yes });
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CreateMatchingWorkflow](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/CreateMatchingWorkflow)
  + [CreateSchemaMapping](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/CreateSchemaMapping)
  + [DeleteMatchingWorkflow](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/DeleteMatchingWorkflow)
  + [DeleteSchemaMapping](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/DeleteSchemaMapping)
  + [GetMatchingJob](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/GetMatchingJob)
  + [GetSchemaMapping](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/GetSchemaMapping)
  + [ListMatchingWorkflows](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/ListMatchingWorkflows)
  + [ListSchemaMappings](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/ListSchemaMappings)
  + [StartMatchingJob](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/StartMatchingJob)
  + [TagResource](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/entityresolution-2018-05-10/TagResource)

# EventBridge contoh menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan EventBridge.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutEvents`
<a name="eventbridge_PutEvents_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/eventbridge#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatchEvents service object
var ebevents = new AWS.EventBridge({ apiVersion: "2015-10-07" });

var params = {
  Entries: [
    {
      Detail: '{ "key1": "value1", "key2": "value2" }',
      DetailType: "appRequestSubmitted",
      Resources: ["RESOURCE_ARN"],
      Source: "com.company.app",
    },
  ],
};

ebevents.putEvents(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.Entries);
  }
});
```
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/eventbridge-2015-10-07/PutEvents)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutRule`
<a name="eventbridge_PutRule_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/eventbridge#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatchEvents service object
var ebevents = new AWS.EventBridge({ apiVersion: "2015-10-07" });

var params = {
  Name: "DEMO_EVENT",
  RoleArn: "IAM_ROLE_ARN",
  ScheduleExpression: "rate(5 minutes)",
  State: "ENABLED",
};

ebevents.putRule(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.RuleArn);
  }
});
```
+  Untuk detail API, lihat [PutRule](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/eventbridge-2015-10-07/PutRule)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutTargets`
<a name="eventbridge_PutTargets_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/eventbridge#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create CloudWatchEvents service object
var ebevents = new AWS.EventBridge({ apiVersion: "2015-10-07" });

var params = {
  Rule: "DEMO_EVENT",
  Targets: [
    {
      Arn: "LAMBDA_FUNCTION_ARN",
      Id: "myEventBridgeTarget",
    },
  ],
};

ebevents.putTargets(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk detail API, lihat [PutTargets](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/eventbridge-2015-10-07/PutTargets)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Amazon Glacier menggunakan SDK JavaScript untuk (v2)
<a name="javascript_2_glacier_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan Amazon Glacier.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateVault`
<a name="glacier_CreateVault_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVault`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/glacier#code-examples). 

```
// Load the SDK for JavaScript
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create a new service object
var glacier = new AWS.Glacier({ apiVersion: "2012-06-01" });
// Call Glacier to create the vault
glacier.createVault({ vaultName: "YOUR_VAULT_NAME" }, function (err) {
  if (!err) {
    console.log("Created vault!");
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/glacier-example-creating-a-vault.html). 
+  Untuk detail API, lihat [CreateVault](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/glacier-2012-06-01/CreateVault)di *Referensi AWS SDK untuk JavaScript API*. 

### `UploadArchive`
<a name="glacier_UploadArchive_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadArchive`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/glacier#code-examples). 

```
// Load the SDK for JavaScript
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create a new service object and buffer
var glacier = new AWS.Glacier({ apiVersion: "2012-06-01" });
buffer = Buffer.alloc(2.5 * 1024 * 1024); // 2.5MB buffer

var params = { vaultName: "YOUR_VAULT_NAME", body: buffer };
// Call Glacier to upload the archive.
glacier.uploadArchive(params, function (err, data) {
  if (err) {
    console.log("Error uploading archive!", err);
  } else {
    console.log("Archive ID", data.archiveId);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/glacier-example-uploadrchive.html). 
+  Untuk detail API, lihat [UploadArchive](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/glacier-2012-06-01/UploadArchive)di *Referensi AWS SDK untuk JavaScript API*. 

### `UploadMultipartPart`
<a name="glacier_UploadMultipartPart_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadMultipartPart`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/glacier#code-examples). 
Buat unggahan multipart dari potongan 1 megabyte dari objek Buffer.  

```
// Create a new service object and some supporting variables
var glacier = new AWS.Glacier({ apiVersion: "2012-06-01" }),
  vaultName = "YOUR_VAULT_NAME",
  buffer = new Buffer(2.5 * 1024 * 1024), // 2.5MB buffer
  partSize = 1024 * 1024, // 1MB chunks,
  numPartsLeft = Math.ceil(buffer.length / partSize),
  startTime = new Date(),
  params = { vaultName: vaultName, partSize: partSize.toString() };

// Compute the complete SHA-256 tree hash so we can pass it
// to completeMultipartUpload request at the end
var treeHash = glacier.computeChecksums(buffer).treeHash;

// Initiate the multipart upload
console.log("Initiating upload to", vaultName);
// Call Glacier to initiate the upload.
glacier.initiateMultipartUpload(params, function (mpErr, multipart) {
  if (mpErr) {
    console.log("Error!", mpErr.stack);
    return;
  }
  console.log("Got upload ID", multipart.uploadId);

  // Grab each partSize chunk and upload it as a part
  for (var i = 0; i < buffer.length; i += partSize) {
    var end = Math.min(i + partSize, buffer.length),
      partParams = {
        vaultName: vaultName,
        uploadId: multipart.uploadId,
        range: "bytes " + i + "-" + (end - 1) + "/*",
        body: buffer.slice(i, end),
      };

    // Send a single part
    console.log("Uploading part", i, "=", partParams.range);
    glacier.uploadMultipartPart(partParams, function (multiErr, mData) {
      if (multiErr) return;
      console.log("Completed part", this.request.params.range);
      if (--numPartsLeft > 0) return; // complete only when all parts uploaded

      var doneParams = {
        vaultName: vaultName,
        uploadId: multipart.uploadId,
        archiveSize: buffer.length.toString(),
        checksum: treeHash, // the computed tree hash
      };

      console.log("Completing upload...");
      glacier.completeMultipartUpload(doneParams, function (err, data) {
        if (err) {
          console.log("An error occurred while uploading the archive");
          console.log(err);
        } else {
          var delta = (new Date() - startTime) / 1000;
          console.log("Completed upload in", delta, "seconds");
          console.log("Archive ID:", data.archiveId);
          console.log("Checksum:  ", data.checksum);
        }
      });
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/glacier-example-multipart-upload.html). 
+  Untuk detail API, lihat [UploadMultipartPart](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/glacier-2012-06-01/UploadMultipartPart)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh IAM menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan IAM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var paramsRoleList = {
  RoleName: process.argv[2],
};

iam.listAttachedRolePolicies(paramsRoleList, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    var myRolePolicies = data.AttachedPolicies;
    myRolePolicies.forEach(function (val, index, array) {
      if (myRolePolicies[index].PolicyName === "AmazonDynamoDBFullAccess") {
        console.log(
          "AmazonDynamoDBFullAccess is already attached to this role."
        );
        process.exit();
      }
    });
    var params = {
      PolicyArn: "arn:aws:iam::aws:policy/AmazonDynamoDBFullAccess",
      RoleName: process.argv[2],
    };
    iam.attachRolePolicy(params, function (err, data) {
      if (err) {
        console.log("Unable to attach policy to role", err);
      } else {
        console.log("Role attached successfully");
      }
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-policies.html#iam-examples-policies-attaching-role-policy). 
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/AttachRolePolicy)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

iam.createAccessKey({ UserName: "IAM_USER_NAME" }, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.AccessKey);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-creating). 
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/CreateAccessKey)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateAccountAlias`
<a name="iam_CreateAccountAlias_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccountAlias`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

iam.createAccountAlias({ AccountAlias: process.argv[2] }, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-account-aliases.html#iam-examples-account-aliases-creating). 
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/CreateAccountAlias)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var myManagedPolicy = {
  Version: "2012-10-17",
  Statement: [
    {
      Effect: "Allow",
      Action: "logs:CreateLogGroup",
      Resource: "RESOURCE_ARN",
    },
    {
      Effect: "Allow",
      Action: [
        "dynamodb:DeleteItem",
        "dynamodb:GetItem",
        "dynamodb:PutItem",
        "dynamodb:Scan",
        "dynamodb:UpdateItem",
      ],
      Resource: "RESOURCE_ARN",
    },
  ],
};

var params = {
  PolicyDocument: JSON.stringify(myManagedPolicy),
  PolicyName: "myDynamoDBPolicy",
};

iam.createPolicy(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-policies.html#iam-examples-policies-creating). 
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/CreatePolicy)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateUser`
<a name="iam_CreateUser_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  UserName: process.argv[2],
};

iam.getUser(params, function (err, data) {
  if (err && err.code === "NoSuchEntity") {
    iam.createUser(params, function (err, data) {
      if (err) {
        console.log("Error", err);
      } else {
        console.log("Success", data);
      }
    });
  } else {
    console.log(
      "User " + process.argv[2] + " already exists",
      data.User.UserId
    );
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-users.html#iam-examples-managing-users-creating-users). 
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/CreateUser)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  AccessKeyId: "ACCESS_KEY_ID",
  UserName: "USER_NAME",
};

iam.deleteAccessKey(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-deleting). 
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/DeleteAccessKey)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteAccountAlias`
<a name="iam_DeleteAccountAlias_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccountAlias`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

iam.deleteAccountAlias({ AccountAlias: process.argv[2] }, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-account-aliases.html#iam-examples-account-aliases-deleting). 
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/DeleteAccountAlias)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteServerCertificate`
<a name="iam_DeleteServerCertificate_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteServerCertificate`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

iam.deleteServerCertificate(
  { ServerCertificateName: "CERTIFICATE_NAME" },
  function (err, data) {
    if (err) {
      console.log("Error", err);
    } else {
      console.log("Success", data);
    }
  }
);
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-server-certificates.html#iam-examples-server-certificates-deleting). 
+  Untuk detail API, lihat [DeleteServerCertificate](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/DeleteServerCertificate)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteUser`
<a name="iam_DeleteUser_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  UserName: process.argv[2],
};

iam.getUser(params, function (err, data) {
  if (err && err.code === "NoSuchEntity") {
    console.log("User " + process.argv[2] + " does not exist.");
  } else {
    iam.deleteUser(params, function (err, data) {
      if (err) {
        console.log("Error", err);
      } else {
        console.log("Success", data);
      }
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-users.html#iam-examples-managing-users-deleting-users). 
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/DeleteUser)di *Referensi AWS SDK untuk JavaScript API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var paramsRoleList = {
  RoleName: process.argv[2],
};

iam.listAttachedRolePolicies(paramsRoleList, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    var myRolePolicies = data.AttachedPolicies;
    myRolePolicies.forEach(function (val, index, array) {
      if (myRolePolicies[index].PolicyName === "AmazonDynamoDBFullAccess") {
        var params = {
          PolicyArn: "arn:aws:iam::aws:policy/AmazonDynamoDBFullAccess",
          RoleName: process.argv[2],
        };
        iam.detachRolePolicy(params, function (err, data) {
          if (err) {
            console.log("Unable to detach policy from role", err);
          } else {
            console.log("Policy detached from role successfully");
            process.exit();
          }
        });
      }
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-policies.html#iam-examples-policies-detaching-role-policy). 
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/DetachRolePolicy)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetAccessKeyLastUsed`
<a name="iam_GetAccessKeyLastUsed_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccessKeyLastUsed`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

iam.getAccessKeyLastUsed(
  { AccessKeyId: "ACCESS_KEY_ID" },
  function (err, data) {
    if (err) {
      console.log("Error", err);
    } else {
      console.log("Success", data.AccessKeyLastUsed);
    }
  }
);
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-last-used). 
+  Untuk detail API, lihat [GetAccessKeyLastUsed](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/GetAccessKeyLastUsed)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetPolicy`
<a name="iam_GetPolicy_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  PolicyArn: "arn:aws:iam::aws:policy/AWSLambdaExecute",
};

iam.getPolicy(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.Policy.Description);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-policies.html#iam-examples-policies-getting). 
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/GetPolicy)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetServerCertificate`
<a name="iam_GetServerCertificate_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetServerCertificate`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

iam.getServerCertificate(
  { ServerCertificateName: "CERTIFICATE_NAME" },
  function (err, data) {
    if (err) {
      console.log("Error", err);
    } else {
      console.log("Success", data);
    }
  }
);
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-server-certificates.html#iam-examples-server-certificates-getting). 
+  Untuk detail API, lihat [GetServerCertificate](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/GetServerCertificate)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  MaxItems: 5,
  UserName: "IAM_USER_NAME",
};

iam.listAccessKeys(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-access-keys.html#iiam-examples-managing-access-keys-listing). 
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/ListAccessKeys)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListAccountAliases`
<a name="iam_ListAccountAliases_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccountAliases`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

iam.listAccountAliases({ MaxItems: 10 }, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-account-aliases.html#iam-examples-account-aliases-listing). 
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/ListAccountAliases)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListServerCertificates`
<a name="iam_ListServerCertificates_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListServerCertificates`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

iam.listServerCertificates({}, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-server-certificates.html#iam-examples-server-certificates-listing). 
+  Untuk detail API, lihat [ListServerCertificates](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/ListServerCertificates)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListUsers`
<a name="iam_ListUsers_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  MaxItems: 10,
};

iam.listUsers(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    var users = data.Users || [];
    users.forEach(function (user) {
      console.log("User " + user.UserName + " created", user.CreateDate);
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-users.html#iam-examples-managing-users-listing-users). 
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/ListUsers)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateAccessKey`
<a name="iam_UpdateAccessKey_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAccessKey`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  AccessKeyId: "ACCESS_KEY_ID",
  Status: "Active",
  UserName: "USER_NAME",
};

iam.updateAccessKey(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-updating). 
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/UpdateAccessKey)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateServerCertificate`
<a name="iam_UpdateServerCertificate_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateServerCertificate`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  ServerCertificateName: "CERTIFICATE_NAME",
  NewServerCertificateName: "NEW_CERTIFICATE_NAME",
};

iam.updateServerCertificate(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-server-certificates.html#iam-examples-server-certificates-updating). 
+  Untuk detail API, lihat [UpdateServerCertificate](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/UpdateServerCertificate)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateUser`
<a name="iam_UpdateUser_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUser`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/iam#code-examples). 

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the IAM service object
var iam = new AWS.IAM({ apiVersion: "2010-05-08" });

var params = {
  UserName: process.argv[2],
  NewUserName: process.argv[3],
};

iam.updateUser(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/iam-examples-managing-users.html#iam-examples-managing-users-updating-users). 
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/iam-2010-05-08/UpdateUser)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Lambda menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan Lambda.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Menginvokasi fungsi Lambda dari browser
<a name="cross_LambdaForBrowser_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara memanggil AWS Lambda fungsi dari browser.

**SDK untuk JavaScript (v2)**  
 Anda dapat membuat aplikasi berbasis browser yang menggunakan AWS Lambda fungsi untuk memperbarui tabel Amazon DynamoDB dengan pilihan pengguna.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/lambda/lambda-for-browser).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda

# Amazon Pinpoint contoh menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_pinpoint_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan Amazon Pinpoint.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendMessages`
<a name="pinpoint_SendMessages_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessages`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/pinpoint#code-examples). 
Kirim pesan email.  

```
"use strict";

const AWS = require("aws-sdk");

// The AWS Region that you want to use to send the email. For a list of
// AWS Regions where the Amazon Pinpoint API is available, see
// https://docs.aws.amazon.com/pinpoint/latest/apireference/
const aws_region = "us-west-2";

// The "From" address. This address has to be verified in Amazon Pinpoint
// in the region that you use to send email.
const senderAddress = "sender@example.com";

// The address on the "To" line. If your Amazon Pinpoint account is in
// the sandbox, this address also has to be verified.
var toAddress = "recipient@example.com";

// The Amazon Pinpoint project/application ID to use when you send this message.
// Make sure that the SMS channel is enabled for the project or application
// that you choose.
const appId = "ce796be37f32f178af652b26eexample";

// The subject line of the email.
var subject = "Amazon Pinpoint (AWS SDK for JavaScript in Node.js)";

// The email body for recipients with non-HTML email clients.
var body_text = `Amazon Pinpoint Test (SDK for JavaScript in Node.js)
----------------------------------------------------
This email was sent with Amazon Pinpoint using the AWS SDK for JavaScript in Node.js.
For more information, see https:\/\/aws.amazon.com/sdk-for-node-js/`;

// The body of the email for recipients whose email clients support HTML content.
var body_html = `<html>
<head></head>
<body>
  <h1>Amazon Pinpoint Test (SDK for JavaScript in Node.js)</h1>
  <p>This email was sent with
    <a href='https://aws.amazon.com/pinpoint/'>the Amazon Pinpoint API</a> using the
    <a href='https://aws.amazon.com/sdk-for-node-js/'>
      AWS SDK for JavaScript in Node.js</a>.</p>
</body>
</html>`;

// The character encoding the you want to use for the subject line and
// message body of the email.
var charset = "UTF-8";

// Specify that you're using a shared credentials file.
var credentials = new AWS.SharedIniFileCredentials({ profile: "default" });
AWS.config.credentials = credentials;

// Specify the region.
AWS.config.update({ region: aws_region });

//Create a new Pinpoint object.
var pinpoint = new AWS.Pinpoint();

// Specify the parameters to pass to the API.
var params = {
  ApplicationId: appId,
  MessageRequest: {
    Addresses: {
      [toAddress]: {
        ChannelType: "EMAIL",
      },
    },
    MessageConfiguration: {
      EmailMessage: {
        FromAddress: senderAddress,
        SimpleEmail: {
          Subject: {
            Charset: charset,
            Data: subject,
          },
          HtmlPart: {
            Charset: charset,
            Data: body_html,
          },
          TextPart: {
            Charset: charset,
            Data: body_text,
          },
        },
      },
    },
  },
};

//Try to send the email.
pinpoint.sendMessages(params, function (err, data) {
  // If something goes wrong, print an error message.
  if (err) {
    console.log(err.message);
  } else {
    console.log(
      "Email sent! Message ID: ",
      data["MessageResponse"]["Result"][toAddress]["MessageId"]
    );
  }
});
```
Kirim pesan SMS.  

```
"use strict";

var AWS = require("aws-sdk");

// The AWS Region that you want to use to send the message. For a list of
// AWS Regions where the Amazon Pinpoint API is available, see
// https://docs.aws.amazon.com/pinpoint/latest/apireference/.
var aws_region = "us-east-1";

// The phone number or short code to send the message from. The phone number
// or short code that you specify has to be associated with your Amazon Pinpoint
// account. For best results, specify long codes in E.164 format.
var originationNumber = "+12065550199";

// The recipient's phone number.  For best results, you should specify the
// phone number in E.164 format.
var destinationNumber = "+14255550142";

// The content of the SMS message.
var message =
  "This message was sent through Amazon Pinpoint " +
  "using the AWS SDK for JavaScript in Node.js. Reply STOP to " +
  "opt out.";

// The Amazon Pinpoint project/application ID to use when you send this message.
// Make sure that the SMS channel is enabled for the project or application
// that you choose.
var applicationId = "ce796be37f32f178af652b26eexample";

// The type of SMS message that you want to send. If you plan to send
// time-sensitive content, specify TRANSACTIONAL. If you plan to send
// marketing-related content, specify PROMOTIONAL.
var messageType = "TRANSACTIONAL";

// The registered keyword associated with the originating short code.
var registeredKeyword = "myKeyword";

// The sender ID to use when sending the message. Support for sender ID
// varies by country or region. For more information, see
// https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms-countries.html
var senderId = "MySenderID";

// Specify that you're using a shared credentials file, and optionally specify
// the profile that you want to use.
var credentials = new AWS.SharedIniFileCredentials({ profile: "default" });
AWS.config.credentials = credentials;

// Specify the region.
AWS.config.update({ region: aws_region });

//Create a new Pinpoint object.
var pinpoint = new AWS.Pinpoint();

// Specify the parameters to pass to the API.
var params = {
  ApplicationId: applicationId,
  MessageRequest: {
    Addresses: {
      [destinationNumber]: {
        ChannelType: "SMS",
      },
    },
    MessageConfiguration: {
      SMSMessage: {
        Body: message,
        Keyword: registeredKeyword,
        MessageType: messageType,
        OriginationNumber: originationNumber,
        SenderId: senderId,
      },
    },
  },
};

//Try to send the message.
pinpoint.sendMessages(params, function (err, data) {
  // If something goes wrong, print an error message.
  if (err) {
    console.log(err.message);
    // Otherwise, show the unique ID for the message.
  } else {
    console.log(
      "Message sent! " +
        data["MessageResponse"]["Result"][destinationNumber]["StatusMessage"]
    );
  }
});
```
+  Untuk detail API, lihat [SendMessages](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/pinpoint-2016-12-01/SendMessages)di *Referensi AWS SDK untuk JavaScript API*. 

# Amazon Pinpoint SMS dan Voice API contoh menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_pinpoint-sms-voice_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan Amazon Pinpoint SMS dan Voice API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendVoiceMessage`
<a name="pinpoint-sms-voice_SendVoiceMessage_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendVoiceMessage`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/pinpoint-sms-voice#code-examples). 

```
"use strict";

var AWS = require("aws-sdk");

// The AWS Region that you want to use to send the voice message. For a list of
// AWS Regions where the Amazon Pinpoint SMS and Voice API is available, see
// https://docs.aws.amazon.com/pinpoint-sms-voice/latest/APIReference/
var aws_region = "us-east-1";

// The phone number that the message is sent from. The phone number that you
// specify has to be associated with your Amazon Pinpoint account. For best results, you
// should specify the phone number in E.164 format.
var originationNumber = "+12065550110";

// The recipient's phone number. For best results, you should specify the phone
// number in E.164 format.
var destinationNumber = "+12065550142";

// The language to use when sending the message. For a list of supported
// languages, see https://docs.aws.amazon.com/polly/latest/dg/SupportedLanguage.html
var languageCode = "en-US";

// The Amazon Polly voice that you want to use to send the message. For a list
// of voices, see https://docs.aws.amazon.com/polly/latest/dg/voicelist.html
var voiceId = "Matthew";

// The content of the message. This example uses SSML to customize and control
// certain aspects of the message, such as the volume or the speech rate.
// The message can't contain any line breaks.
var ssmlMessage =
  "<speak>" +
  "This is a test message sent from <emphasis>Amazon Pinpoint</emphasis> " +
  "using the <break strength='weak'/>AWS SDK for JavaScript in Node.js. " +
  "<amazon:effect phonation='soft'>Thank you for listening." +
  "</amazon:effect>" +
  "</speak>";

// The phone number that you want to appear on the recipient's device. The phone
// number that you specify has to be associated with your Amazon Pinpoint account.
var callerId = "+12065550199";

// The configuration set that you want to use to send the message.
var configurationSet = "ConfigSet";

// Specify that you're using a shared credentials file, and optionally specify
// the profile that you want to use.
var credentials = new AWS.SharedIniFileCredentials({ profile: "default" });
AWS.config.credentials = credentials;

// Specify the region.
AWS.config.update({ region: aws_region });

//Create a new Pinpoint object.
var pinpointsmsvoice = new AWS.PinpointSMSVoice();

var params = {
  CallerId: callerId,
  ConfigurationSetName: configurationSet,
  Content: {
    SSMLMessage: {
      LanguageCode: languageCode,
      Text: ssmlMessage,
      VoiceId: voiceId,
    },
  },
  DestinationPhoneNumber: destinationNumber,
  OriginationPhoneNumber: originationNumber,
};

//Try to send the message.
pinpointsmsvoice.sendVoiceMessage(params, function (err, data) {
  // If something goes wrong, print an error message.
  if (err) {
    console.log(err.message);
    // Otherwise, show the unique ID for the message.
  } else {
    console.log("Message sent! Message ID: " + data["MessageId"]);
  }
});
```
+  Untuk detail API, lihat [SendVoiceMessage](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/pinpoint-sms-voice-2018-09-05/SendVoiceMessage)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Amazon SNS menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetTopicAttributes`
<a name="sns_GetTopicAttributes_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTopicAttributes`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sns#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set region
AWS.config.update({ region: "REGION" });

// Create promise and SNS service object
var getTopicAttribsPromise = new AWS.SNS({ apiVersion: "2010-03-31" })
  .getTopicAttributes({ TopicArn: "TOPIC_ARN" })
  .promise();

// Handle promise's fulfilled/rejected states
getTopicAttribsPromise
  .then(function (data) {
    console.log(data);
  })
  .catch(function (err) {
    console.error(err, err.stack);
  });
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sns-examples-managing-topics.html#sns-examples-managing-topicsgetttopicattributes). 
+  Untuk detail API, lihat [GetTopicAttributes](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sns-2010-03-31/GetTopicAttributes)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Amazon SQS menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ChangeMessageVisibility`
<a name="sqs_ChangeMessageVisibility_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ChangeMessageVisibility`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sqs#code-examples). 
Terima pesan Amazon SQS dan ubah visibilitas batas waktunya.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region to us-west-2
AWS.config.update({ region: "us-west-2" });

// Create the SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var queueURL = "https://sqs.REGION.amazonaws.com/ACCOUNT-ID/QUEUE-NAME";

var params = {
  AttributeNames: ["SentTimestamp"],
  MaxNumberOfMessages: 1,
  MessageAttributeNames: ["All"],
  QueueUrl: queueURL,
};

sqs.receiveMessage(params, function (err, data) {
  if (err) {
    console.log("Receive Error", err);
  } else {
    // Make sure we have a message
    if (data.Messages != null) {
      var visibilityParams = {
        QueueUrl: queueURL,
        ReceiptHandle: data.Messages[0].ReceiptHandle,
        VisibilityTimeout: 20, // 20 second timeout
      };
      sqs.changeMessageVisibility(visibilityParams, function (err, data) {
        if (err) {
          console.log("Delete Error", err);
        } else {
          console.log("Timeout Changed", data);
        }
      });
    } else {
      console.log("No messages to change");
    }
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sqs-examples-managing-visibility-timeout.html#sqs-examples-managing-visibility-timeout-setting). 
+  Untuk detail API, lihat [ChangeMessageVisibility](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sqs-2012-11-05/ChangeMessageVisibility)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateQueue`
<a name="sqs_CreateQueue_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sqs#code-examples). 
Buat antrian standar Amazon SQS.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create an SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var params = {
  QueueName: "SQS_QUEUE_NAME",
  Attributes: {
    DelaySeconds: "60",
    MessageRetentionPeriod: "86400",
  },
};

sqs.createQueue(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.QueueUrl);
  }
});
```
Buat antrean Amazon SQS yang menunggu pesan tiba.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var params = {
  QueueName: "SQS_QUEUE_NAME",
  Attributes: {
    ReceiveMessageWaitTimeSeconds: "20",
  },
};

sqs.createQueue(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.QueueUrl);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sqs-examples-using-queues.html#sqs-examples-using-queues-create-queue). 
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sqs-2012-11-05/CreateQueue)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteMessage`
<a name="sqs_DeleteMessage_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessage`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sqs#code-examples). 
Menerima dan menghapus pesan Amazon SQS.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create an SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var queueURL = "SQS_QUEUE_URL";

var params = {
  AttributeNames: ["SentTimestamp"],
  MaxNumberOfMessages: 10,
  MessageAttributeNames: ["All"],
  QueueUrl: queueURL,
  VisibilityTimeout: 20,
  WaitTimeSeconds: 0,
};

sqs.receiveMessage(params, function (err, data) {
  if (err) {
    console.log("Receive Error", err);
  } else if (data.Messages) {
    var deleteParams = {
      QueueUrl: queueURL,
      ReceiptHandle: data.Messages[0].ReceiptHandle,
    };
    sqs.deleteMessage(deleteParams, function (err, data) {
      if (err) {
        console.log("Delete Error", err);
      } else {
        console.log("Message Deleted", data);
      }
    });
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sqs-examples-send-receive-messages.html#sqs-examples-send-receive-messages-receiving). 
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sqs-2012-11-05/DeleteMessage)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sqs#code-examples). 
Hapus antrian Amazon SQS.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create an SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var params = {
  QueueUrl: "SQS_QUEUE_URL",
};

sqs.deleteQueue(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sqs-examples-using-queues.html#sqs-examples-using-queues-delete-queue). 
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sqs-2012-11-05/DeleteQueue)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetQueueUrl`
<a name="sqs_GetQueueUrl_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueUrl`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sqs#code-examples). 
Dapatkan URL untuk antrean Amazon SQS.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create an SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var params = {
  QueueName: "SQS_QUEUE_NAME",
};

sqs.getQueueUrl(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.QueueUrl);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sqs-examples-using-queues.html#sqs-examples-using-queues-get-queue-url). 
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sqs-2012-11-05/GetQueueUrl)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListQueues`
<a name="sqs_ListQueues_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sqs#code-examples). 
Buat daftar antrian Amazon SQS Anda.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create an SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var params = {};

sqs.listQueues(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.QueueUrls);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sqs-examples-using-queues.html#sqs-examples-using-queues-listing-queues). 
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sqs-2012-11-05/ListQueues)di *Referensi AWS SDK untuk JavaScript API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sqs#code-examples). 
Menerima pesan dari antrian Amazon SQS menggunakan dukungan polling panjang.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create the SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var queueURL = "SQS_QUEUE_URL";

var params = {
  AttributeNames: ["SentTimestamp"],
  MaxNumberOfMessages: 1,
  MessageAttributeNames: ["All"],
  QueueUrl: queueURL,
  WaitTimeSeconds: 20,
};

sqs.receiveMessage(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sqs-examples-enable-long-polling.html#sqs-examples-enable-long-polling-on-receive-message). 
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sqs-2012-11-05/ReceiveMessage)di *Referensi AWS SDK untuk JavaScript API*. 

### `SendMessage`
<a name="sqs_SendMessage_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sqs#code-examples). 
Kirim pesan ke antrian Amazon SQS.  

```
// Load the AWS SDK for Node.js
var AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

// Create an SQS service object
var sqs = new AWS.SQS({ apiVersion: "2012-11-05" });

var params = {
  // Remove DelaySeconds parameter and value for FIFO queues
  DelaySeconds: 10,
  MessageAttributes: {
    Title: {
      DataType: "String",
      StringValue: "The Whistler",
    },
    Author: {
      DataType: "String",
      StringValue: "John Grisham",
    },
    WeeksOn: {
      DataType: "Number",
      StringValue: "6",
    },
  },
  MessageBody:
    "Information about current NY Times fiction bestseller for week of 12/11/2016.",
  // MessageDeduplicationId: "TheWhistler",  // Required for FIFO queues
  // MessageGroupId: "Group1",  // Required for FIFO queues
  QueueUrl: "SQS_QUEUE_URL",
};

sqs.sendMessage(params, function (err, data) {
  if (err) {
    console.log("Error", err);
  } else {
    console.log("Success", data.MessageId);
  }
});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/sqs-examples-send-receive-messages.html#sqs-examples-send-receive-messages-sending). 
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sqs-2012-11-05/SendMessage)di *Referensi AWS SDK untuk JavaScript API*. 

# AWS STS contoh menggunakan SDK untuk JavaScript (v2)
<a name="javascript_2_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v2) dengan AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_javascript_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK untuk JavaScript (v2)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascript/example_code/sts#code-examples). 

```
// Load the AWS SDK for Node.js
const AWS = require("aws-sdk");
// Set the region
AWS.config.update({ region: "REGION" });

var roleToAssume = {
  RoleArn: "arn:aws:iam::123456789012:role/RoleName",
  RoleSessionName: "session1",
  DurationSeconds: 900,
};
var roleCreds;

// Create the STS service object
var sts = new AWS.STS({ apiVersion: "2011-06-15" });

//Assume Role
sts.assumeRole(roleToAssume, function (err, data) {
  if (err) console.log(err, err.stack);
  else {
    roleCreds = {
      accessKeyId: data.Credentials.AccessKeyId,
      secretAccessKey: data.Credentials.SecretAccessKey,
      sessionToken: data.Credentials.SessionToken,
    };
    stsGetCallerIdentity(roleCreds);
  }
});

//Get Arn of current identity
function stsGetCallerIdentity(creds) {
  var stsParams = { credentials: creds };
  // Create STS service object
  var sts = new AWS.STS(stsParams);

  sts.getCallerIdentity({}, function (err, data) {
    if (err) {
      console.log(err, err.stack);
    } else {
      console.log(data.Arn);
    }
  });
}
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/AWSJavaScriptSDK/sts-2011-06-15/AssumeRole)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh kode untuk SDK untuk JavaScript (v3)
<a name="javascript_3_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk JavaScript (v3) dengan AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK for JavaScript (v3) Panduan Pengembang](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/welcome.html)** - Lebih lanjut tentang menggunakan dengan JavaScript . AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23javascript)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [API Gateway](javascript_3_api-gateway_code_examples.md)
+ [Aurora](javascript_3_aurora_code_examples.md)
+ [Auto Scaling](javascript_3_auto-scaling_code_examples.md)
+ [Amazon Bedrock](javascript_3_bedrock_code_examples.md)
+ [Runtime Amazon Bedrock](javascript_3_bedrock-runtime_code_examples.md)
+ [Agen Batuan Dasar Amazon](javascript_3_bedrock-agent_code_examples.md)
+ [Runtime Agen Batuan Dasar Amazon](javascript_3_bedrock-agent-runtime_code_examples.md)
+ [CloudWatch](javascript_3_cloudwatch_code_examples.md)
+ [CloudWatch Acara](javascript_3_cloudwatch-events_code_examples.md)
+ [CloudWatch Log](javascript_3_cloudwatch-logs_code_examples.md)
+ [CodeBuild](javascript_3_codebuild_code_examples.md)
+ [Identitas Amazon Cognito](javascript_3_cognito-identity_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](javascript_3_cognito-identity-provider_code_examples.md)
+ [Amazon Comprehend](javascript_3_comprehend_code_examples.md)
+ [Amazon DocumentDB](javascript_3_docdb_code_examples.md)
+ [DynamoDB](javascript_3_dynamodb_code_examples.md)
+ [Amazon EC2](javascript_3_ec2_code_examples.md)
+ [Elastic Load Balancing - Versi 2](javascript_3_elastic-load-balancing-v2_code_examples.md)
+ [Resolusi Entitas AWS](javascript_3_entityresolution_code_examples.md)
+ [EventBridge](javascript_3_eventbridge_code_examples.md)
+ [Amazon Glacier](javascript_3_glacier_code_examples.md)
+ [AWS Glue](javascript_3_glue_code_examples.md)
+ [HealthImaging](javascript_3_medical-imaging_code_examples.md)
+ [IAM](javascript_3_iam_code_examples.md)
+ [AWS IoT SiteWise](javascript_3_iotsitewise_code_examples.md)
+ [Kinesis](javascript_3_kinesis_code_examples.md)
+ [Lambda](javascript_3_lambda_code_examples.md)
+ [Amazon Lex](javascript_3_lex_code_examples.md)
+ [Amazon Location Service](javascript_3_location_code_examples.md)
+ [Amazon MSK](javascript_3_kafka_code_examples.md)
+ [Amazon Personalize](javascript_3_personalize_code_examples.md)
+ [Kejadian Amazon Personalize](javascript_3_personalize-events_code_examples.md)
+ [Waktu Aktif Amazon Personalize](javascript_3_personalize-runtime_code_examples.md)
+ [Amazon Pinpoint](javascript_3_pinpoint_code_examples.md)
+ [Amazon Polly](javascript_3_polly_code_examples.md)
+ [Amazon RDS](javascript_3_rds_code_examples.md)
+ [Layanan Data Amazon RDS](javascript_3_rds-data_code_examples.md)
+ [Amazon Redshift](javascript_3_redshift_code_examples.md)
+ [Amazon Rekognition](javascript_3_rekognition_code_examples.md)
+ [Amazon S3](javascript_3_s3_code_examples.md)
+ [SageMaker AI](javascript_3_sagemaker_code_examples.md)
+ [Secrets Manager](javascript_3_secrets-manager_code_examples.md)
+ [Amazon SES](javascript_3_ses_code_examples.md)
+ [Amazon SNS](javascript_3_sns_code_examples.md)
+ [Amazon SQS](javascript_3_sqs_code_examples.md)
+ [Step Functions](javascript_3_sfn_code_examples.md)
+ [AWS STS](javascript_3_sts_code_examples.md)
+ [Dukungan](javascript_3_support_code_examples.md)
+ [Systems Manager](javascript_3_ssm_code_examples.md)
+ [Amazon Textract](javascript_3_textract_code_examples.md)
+ [Amazon Transcribe](javascript_3_transcribe_code_examples.md)
+ [Amazon Translate](javascript_3_translate_code_examples.md)

# Contoh API Gateway menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan API Gateway.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo-asset-manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat AWS Lambda fungsi dengan menggunakan API JavaScript runtime Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat fungsi Lambda yang diinvokasi oleh Amazon API Gateway yang memindai peringatan hari jadi kerja di tabel Amazon DynamoDB dan menggunakan Amazon Simple Notification Service (Amazon SNS) untuk mengirim pesan teks berisi ucapan selamat kepada karyawan Anda pada tanggal hari jadi kerja satu tahun mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-api-gateway).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/api-gateway-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

# Contoh Aurora menggunakan SDK for JavaScript (v3)
<a name="javascript_3_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Aurora.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan AWS SDK untuk JavaScript (v3) untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan sisi depan yang dibangun dengan React.js untuk berinteraksi dengan backend Express Node.js.   
+ Integrasikan aplikasi web React.js dengan Layanan AWS.
+ Cantumkan, tambahkan, dan perbarui butir di tabel Aurora.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/aurora-serverless-app).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Auto Scaling menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Auto Scaling.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AttachLoadBalancerTargetGroups`
<a name="auto-scaling_AttachLoadBalancerTargetGroups_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachLoadBalancerTargetGroups`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
    const client = new AutoScalingClient({});
    await client.send(
      new AttachLoadBalancerTargetGroupsCommand({
        AutoScalingGroupName: NAMES.autoScalingGroupName,
        TargetGroupARNs: [state.targetGroupArn],
      }),
    );
```
+  Untuk detail API, lihat [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/AttachLoadBalancerTargetGroupsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
#!/usr/bin/env node
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0

import {
  Scenario,
  parseScenarioArgs,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

/**
 * The workflow steps are split into three stages:
 *   - deploy
 *   - demo
 *   - destroy
 *
 * Each of these stages has a corresponding file prefixed with steps-*.
 */
import { deploySteps } from "./steps-deploy.js";
import { demoSteps } from "./steps-demo.js";
import { destroySteps } from "./steps-destroy.js";

/**
 * The context is passed to every scenario. Scenario steps
 * will modify the context.
 */
const context = {};

/**
 * Three Scenarios are created for the workflow. A Scenario is an orchestration class
 * that simplifies running a series of steps.
 */
export const scenarios = {
  // Deploys all resources necessary for the workflow.
  deploy: new Scenario("Resilient Workflow - Deploy", deploySteps, context),
  // Demonstrates how a fragile web service can be made more resilient.
  demo: new Scenario("Resilient Workflow - Demo", demoSteps, context),
  // Destroys the resources created for the workflow.
  destroy: new Scenario("Resilient Workflow - Destroy", destroySteps, context),
};

// Call function if run directly
import { fileURLToPath } from "node:url";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  parseScenarioArgs(scenarios, {
    name: "Resilient Workflow",
    synopsis:
      "node index.js --scenario <deploy | demo | destroy> [-h|--help] [-y|--yes] [-v|--verbose]",
    description: "Deploy and interact with scalable EC2 instances.",
  });
}
```
Menyusun langkah-langkah untuk men-deploy semua sumber daya.  

```
import { join } from "node:path";
import { readFileSync, writeFileSync } from "node:fs";
import axios from "axios";

import {
  BatchWriteItemCommand,
  CreateTableCommand,
  DynamoDBClient,
  waitUntilTableExists,
} from "@aws-sdk/client-dynamodb";
import {
  EC2Client,
  CreateKeyPairCommand,
  CreateLaunchTemplateCommand,
  DescribeAvailabilityZonesCommand,
  DescribeVpcsCommand,
  DescribeSubnetsCommand,
  DescribeSecurityGroupsCommand,
  AuthorizeSecurityGroupIngressCommand,
} from "@aws-sdk/client-ec2";
import {
  IAMClient,
  CreatePolicyCommand,
  CreateRoleCommand,
  CreateInstanceProfileCommand,
  AddRoleToInstanceProfileCommand,
  AttachRolePolicyCommand,
  waitUntilInstanceProfileExists,
} from "@aws-sdk/client-iam";
import { SSMClient, GetParameterCommand } from "@aws-sdk/client-ssm";
import {
  CreateAutoScalingGroupCommand,
  AutoScalingClient,
  AttachLoadBalancerTargetGroupsCommand,
} from "@aws-sdk/client-auto-scaling";
import {
  CreateListenerCommand,
  CreateLoadBalancerCommand,
  CreateTargetGroupCommand,
  ElasticLoadBalancingV2Client,
  waitUntilLoadBalancerAvailable,
} from "@aws-sdk/client-elastic-load-balancing-v2";

import {
  ScenarioOutput,
  ScenarioInput,
  ScenarioAction,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { saveState } from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES, RESOURCES_PATH, ROOT } from "./constants.js";
import { initParamsSteps } from "./steps-reset-params.js";

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const deploySteps = [
  new ScenarioOutput("introduction", MESSAGES.introduction, { header: true }),
  new ScenarioInput("confirmDeployment", MESSAGES.confirmDeployment, {
    type: "confirm",
  }),
  new ScenarioAction(
    "handleConfirmDeployment",
    (c) => c.confirmDeployment === false && process.exit(),
  ),
  new ScenarioOutput(
    "creatingTable",
    MESSAGES.creatingTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioAction("createTable", async () => {
    const client = new DynamoDBClient({});
    await client.send(
      new CreateTableCommand({
        TableName: NAMES.tableName,
        ProvisionedThroughput: {
          ReadCapacityUnits: 5,
          WriteCapacityUnits: 5,
        },
        AttributeDefinitions: [
          {
            AttributeName: "MediaType",
            AttributeType: "S",
          },
          {
            AttributeName: "ItemId",
            AttributeType: "N",
          },
        ],
        KeySchema: [
          {
            AttributeName: "MediaType",
            KeyType: "HASH",
          },
          {
            AttributeName: "ItemId",
            KeyType: "RANGE",
          },
        ],
      }),
    );
    await waitUntilTableExists({ client }, { TableName: NAMES.tableName });
  }),
  new ScenarioOutput(
    "createdTable",
    MESSAGES.createdTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioOutput(
    "populatingTable",
    MESSAGES.populatingTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioAction("populateTable", () => {
    const client = new DynamoDBClient({});
    /**
     * @type {{ default: import("@aws-sdk/client-dynamodb").PutRequest['Item'][] }}
     */
    const recommendations = JSON.parse(
      readFileSync(join(RESOURCES_PATH, "recommendations.json")),
    );

    return client.send(
      new BatchWriteItemCommand({
        RequestItems: {
          [NAMES.tableName]: recommendations.map((item) => ({
            PutRequest: { Item: item },
          })),
        },
      }),
    );
  }),
  new ScenarioOutput(
    "populatedTable",
    MESSAGES.populatedTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioOutput(
    "creatingKeyPair",
    MESSAGES.creatingKeyPair.replace("${KEY_PAIR_NAME}", NAMES.keyPairName),
  ),
  new ScenarioAction("createKeyPair", async () => {
    const client = new EC2Client({});
    const { KeyMaterial } = await client.send(
      new CreateKeyPairCommand({
        KeyName: NAMES.keyPairName,
      }),
    );

    writeFileSync(`${NAMES.keyPairName}.pem`, KeyMaterial, { mode: 0o600 });
  }),
  new ScenarioOutput(
    "createdKeyPair",
    MESSAGES.createdKeyPair.replace("${KEY_PAIR_NAME}", NAMES.keyPairName),
  ),
  new ScenarioOutput(
    "creatingInstancePolicy",
    MESSAGES.creatingInstancePolicy.replace(
      "${INSTANCE_POLICY_NAME}",
      NAMES.instancePolicyName,
    ),
  ),
  new ScenarioAction("createInstancePolicy", async (state) => {
    const client = new IAMClient({});
    const {
      Policy: { Arn },
    } = await client.send(
      new CreatePolicyCommand({
        PolicyName: NAMES.instancePolicyName,
        PolicyDocument: readFileSync(
          join(RESOURCES_PATH, "instance_policy.json"),
        ),
      }),
    );
    state.instancePolicyArn = Arn;
  }),
  new ScenarioOutput("createdInstancePolicy", (state) =>
    MESSAGES.createdInstancePolicy
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_POLICY_ARN}", state.instancePolicyArn),
  ),
  new ScenarioOutput(
    "creatingInstanceRole",
    MESSAGES.creatingInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    ),
  ),
  new ScenarioAction("createInstanceRole", () => {
    const client = new IAMClient({});
    return client.send(
      new CreateRoleCommand({
        RoleName: NAMES.instanceRoleName,
        AssumeRolePolicyDocument: readFileSync(
          join(ROOT, "assume-role-policy.json"),
        ),
      }),
    );
  }),
  new ScenarioOutput(
    "createdInstanceRole",
    MESSAGES.createdInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    ),
  ),
  new ScenarioOutput(
    "attachingPolicyToRole",
    MESSAGES.attachingPolicyToRole
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName)
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName),
  ),
  new ScenarioAction("attachPolicyToRole", async (state) => {
    const client = new IAMClient({});
    await client.send(
      new AttachRolePolicyCommand({
        RoleName: NAMES.instanceRoleName,
        PolicyArn: state.instancePolicyArn,
      }),
    );
  }),
  new ScenarioOutput(
    "attachedPolicyToRole",
    MESSAGES.attachedPolicyToRole
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  new ScenarioOutput(
    "creatingInstanceProfile",
    MESSAGES.creatingInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.instanceProfileName,
    ),
  ),
  new ScenarioAction("createInstanceProfile", async (state) => {
    const client = new IAMClient({});
    const {
      InstanceProfile: { Arn },
    } = await client.send(
      new CreateInstanceProfileCommand({
        InstanceProfileName: NAMES.instanceProfileName,
      }),
    );
    state.instanceProfileArn = Arn;

    await waitUntilInstanceProfileExists(
      { client },
      { InstanceProfileName: NAMES.instanceProfileName },
    );
  }),
  new ScenarioOutput("createdInstanceProfile", (state) =>
    MESSAGES.createdInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_PROFILE_ARN}", state.instanceProfileArn),
  ),
  new ScenarioOutput(
    "addingRoleToInstanceProfile",
    MESSAGES.addingRoleToInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  new ScenarioAction("addRoleToInstanceProfile", () => {
    const client = new IAMClient({});
    return client.send(
      new AddRoleToInstanceProfileCommand({
        RoleName: NAMES.instanceRoleName,
        InstanceProfileName: NAMES.instanceProfileName,
      }),
    );
  }),
  new ScenarioOutput(
    "addedRoleToInstanceProfile",
    MESSAGES.addedRoleToInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  ...initParamsSteps,
  new ScenarioOutput("creatingLaunchTemplate", MESSAGES.creatingLaunchTemplate),
  new ScenarioAction("createLaunchTemplate", async () => {
    const ssmClient = new SSMClient({});
    const { Parameter } = await ssmClient.send(
      new GetParameterCommand({
        Name: "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
      }),
    );
    const ec2Client = new EC2Client({});
    await ec2Client.send(
      new CreateLaunchTemplateCommand({
        LaunchTemplateName: NAMES.launchTemplateName,
        LaunchTemplateData: {
          InstanceType: "t3.micro",
          ImageId: Parameter.Value,
          IamInstanceProfile: { Name: NAMES.instanceProfileName },
          UserData: readFileSync(
            join(RESOURCES_PATH, "server_startup_script.sh"),
          ).toString("base64"),
          KeyName: NAMES.keyPairName,
        },
      }),
    );
  }),
  new ScenarioOutput(
    "createdLaunchTemplate",
    MESSAGES.createdLaunchTemplate.replace(
      "${LAUNCH_TEMPLATE_NAME}",
      NAMES.launchTemplateName,
    ),
  ),
  new ScenarioOutput(
    "creatingAutoScalingGroup",
    MESSAGES.creatingAutoScalingGroup.replace(
      "${AUTO_SCALING_GROUP_NAME}",
      NAMES.autoScalingGroupName,
    ),
  ),
  new ScenarioAction("createAutoScalingGroup", async (state) => {
    const ec2Client = new EC2Client({});
    const { AvailabilityZones } = await ec2Client.send(
      new DescribeAvailabilityZonesCommand({}),
    );
    state.availabilityZoneNames = AvailabilityZones.map((az) => az.ZoneName);
    const autoScalingClient = new AutoScalingClient({});
    await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
      autoScalingClient.send(
        new CreateAutoScalingGroupCommand({
          AvailabilityZones: state.availabilityZoneNames,
          AutoScalingGroupName: NAMES.autoScalingGroupName,
          LaunchTemplate: {
            LaunchTemplateName: NAMES.launchTemplateName,
            Version: "$Default",
          },
          MinSize: 3,
          MaxSize: 3,
        }),
      ),
    );
  }),
  new ScenarioOutput(
    "createdAutoScalingGroup",
    /**
     * @param {{ availabilityZoneNames: string[] }} state
     */
    (state) =>
      MESSAGES.createdAutoScalingGroup
        .replace("${AUTO_SCALING_GROUP_NAME}", NAMES.autoScalingGroupName)
        .replace(
          "${AVAILABILITY_ZONE_NAMES}",
          state.availabilityZoneNames.join(", "),
        ),
  ),
  new ScenarioInput("confirmContinue", MESSAGES.confirmContinue, {
    type: "confirm",
  }),
  new ScenarioOutput("loadBalancer", MESSAGES.loadBalancer),
  new ScenarioOutput("gettingVpc", MESSAGES.gettingVpc),
  new ScenarioAction("getVpc", async (state) => {
    const client = new EC2Client({});
    const { Vpcs } = await client.send(
      new DescribeVpcsCommand({
        Filters: [{ Name: "is-default", Values: ["true"] }],
      }),
    );
    state.defaultVpc = Vpcs[0].VpcId;
  }),
  new ScenarioOutput("gotVpc", (state) =>
    MESSAGES.gotVpc.replace("${VPC_ID}", state.defaultVpc),
  ),
  new ScenarioOutput("gettingSubnets", MESSAGES.gettingSubnets),
  new ScenarioAction("getSubnets", async (state) => {
    const client = new EC2Client({});
    const { Subnets } = await client.send(
      new DescribeSubnetsCommand({
        Filters: [
          { Name: "vpc-id", Values: [state.defaultVpc] },
          { Name: "availability-zone", Values: state.availabilityZoneNames },
          { Name: "default-for-az", Values: ["true"] },
        ],
      }),
    );
    state.subnets = Subnets.map((subnet) => subnet.SubnetId);
  }),
  new ScenarioOutput(
    "gotSubnets",
    /**
     * @param {{ subnets: string[] }} state
     */
    (state) =>
      MESSAGES.gotSubnets.replace("${SUBNETS}", state.subnets.join(", ")),
  ),
  new ScenarioOutput(
    "creatingLoadBalancerTargetGroup",
    MESSAGES.creatingLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    ),
  ),
  new ScenarioAction("createLoadBalancerTargetGroup", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { TargetGroups } = await client.send(
      new CreateTargetGroupCommand({
        Name: NAMES.loadBalancerTargetGroupName,
        Protocol: "HTTP",
        Port: 80,
        HealthCheckPath: "/healthcheck",
        HealthCheckIntervalSeconds: 10,
        HealthCheckTimeoutSeconds: 5,
        HealthyThresholdCount: 2,
        UnhealthyThresholdCount: 2,
        VpcId: state.defaultVpc,
      }),
    );
    const targetGroup = TargetGroups[0];
    state.targetGroupArn = targetGroup.TargetGroupArn;
    state.targetGroupProtocol = targetGroup.Protocol;
    state.targetGroupPort = targetGroup.Port;
  }),
  new ScenarioOutput(
    "createdLoadBalancerTargetGroup",
    MESSAGES.createdLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    ),
  ),
  new ScenarioOutput(
    "creatingLoadBalancer",
    MESSAGES.creatingLoadBalancer.replace("${LB_NAME}", NAMES.loadBalancerName),
  ),
  new ScenarioAction("createLoadBalancer", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { LoadBalancers } = await client.send(
      new CreateLoadBalancerCommand({
        Name: NAMES.loadBalancerName,
        Subnets: state.subnets,
      }),
    );
    state.loadBalancerDns = LoadBalancers[0].DNSName;
    state.loadBalancerArn = LoadBalancers[0].LoadBalancerArn;
    await waitUntilLoadBalancerAvailable(
      { client },
      { Names: [NAMES.loadBalancerName] },
    );
  }),
  new ScenarioOutput("createdLoadBalancer", (state) =>
    MESSAGES.createdLoadBalancer
      .replace("${LB_NAME}", NAMES.loadBalancerName)
      .replace("${DNS_NAME}", state.loadBalancerDns),
  ),
  new ScenarioOutput(
    "creatingListener",
    MESSAGES.creatingLoadBalancerListener
      .replace("${LB_NAME}", NAMES.loadBalancerName)
      .replace("${TARGET_GROUP_NAME}", NAMES.loadBalancerTargetGroupName),
  ),
  new ScenarioAction("createListener", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { Listeners } = await client.send(
      new CreateListenerCommand({
        LoadBalancerArn: state.loadBalancerArn,
        Protocol: state.targetGroupProtocol,
        Port: state.targetGroupPort,
        DefaultActions: [
          { Type: "forward", TargetGroupArn: state.targetGroupArn },
        ],
      }),
    );
    const listener = Listeners[0];
    state.loadBalancerListenerArn = listener.ListenerArn;
  }),
  new ScenarioOutput("createdListener", (state) =>
    MESSAGES.createdLoadBalancerListener.replace(
      "${LB_LISTENER_ARN}",
      state.loadBalancerListenerArn,
    ),
  ),
  new ScenarioOutput(
    "attachingLoadBalancerTargetGroup",
    MESSAGES.attachingLoadBalancerTargetGroup
      .replace("${TARGET_GROUP_NAME}", NAMES.loadBalancerTargetGroupName)
      .replace("${AUTO_SCALING_GROUP_NAME}", NAMES.autoScalingGroupName),
  ),
  new ScenarioAction("attachLoadBalancerTargetGroup", async (state) => {
    const client = new AutoScalingClient({});
    await client.send(
      new AttachLoadBalancerTargetGroupsCommand({
        AutoScalingGroupName: NAMES.autoScalingGroupName,
        TargetGroupARNs: [state.targetGroupArn],
      }),
    );
  }),
  new ScenarioOutput(
    "attachedLoadBalancerTargetGroup",
    MESSAGES.attachedLoadBalancerTargetGroup,
  ),
  new ScenarioOutput("verifyingInboundPort", MESSAGES.verifyingInboundPort),
  new ScenarioAction(
    "verifyInboundPort",
    /**
     *
     * @param {{ defaultSecurityGroup: import('@aws-sdk/client-ec2').SecurityGroup}} state
     */
    async (state) => {
      const client = new EC2Client({});
      const { SecurityGroups } = await client.send(
        new DescribeSecurityGroupsCommand({
          Filters: [{ Name: "group-name", Values: ["default"] }],
        }),
      );
      if (!SecurityGroups) {
        state.verifyInboundPortError = new Error(MESSAGES.noSecurityGroups);
      }
      state.defaultSecurityGroup = SecurityGroups[0];

      /**
       * @type {string}
       */
      const ipResponse = (await axios.get("http://checkip.amazonaws.com")).data;
      state.myIp = ipResponse.trim();
      const myIpRules = state.defaultSecurityGroup.IpPermissions.filter(
        ({ IpRanges }) =>
          IpRanges.some(
            ({ CidrIp }) =>
              CidrIp.startsWith(state.myIp) || CidrIp === "0.0.0.0/0",
          ),
      )
        .filter(({ IpProtocol }) => IpProtocol === "tcp")
        .filter(({ FromPort }) => FromPort === 80);

      state.myIpRules = myIpRules;
    },
  ),
  new ScenarioOutput(
    "verifiedInboundPort",
    /**
     * @param {{ myIpRules: any[] }} state
     */
    (state) => {
      if (state.myIpRules.length > 0) {
        return MESSAGES.foundIpRules.replace(
          "${IP_RULES}",
          JSON.stringify(state.myIpRules, null, 2),
        );
      }
      return MESSAGES.noIpRules;
    },
  ),
  new ScenarioInput(
    "shouldAddInboundRule",
    /**
     * @param {{ myIpRules: any[] }} state
     */
    (state) => {
      if (state.myIpRules.length > 0) {
        return false;
      }
      return MESSAGES.noIpRules;
    },
    { type: "confirm" },
  ),
  new ScenarioAction(
    "addInboundRule",
    /**
     * @param {{ defaultSecurityGroup: import('@aws-sdk/client-ec2').SecurityGroup }} state
     */
    async (state) => {
      if (!state.shouldAddInboundRule) {
        return;
      }

      const client = new EC2Client({});
      await client.send(
        new AuthorizeSecurityGroupIngressCommand({
          GroupId: state.defaultSecurityGroup.GroupId,
          CidrIp: `${state.myIp}/32`,
          FromPort: 80,
          ToPort: 80,
          IpProtocol: "tcp",
        }),
      );
    },
  ),
  new ScenarioOutput("addedInboundRule", (state) => {
    if (state.shouldAddInboundRule) {
      return MESSAGES.addedInboundRule.replace("${IP_ADDRESS}", state.myIp);
    }
    return false;
  }),
  new ScenarioOutput("verifyingEndpoint", (state) =>
    MESSAGES.verifyingEndpoint.replace("${DNS_NAME}", state.loadBalancerDns),
  ),
  new ScenarioAction("verifyEndpoint", async (state) => {
    try {
      const response = await retry({ intervalInMs: 2000, maxRetries: 30 }, () =>
        axios.get(`http://${state.loadBalancerDns}`),
      );
      state.endpointResponse = JSON.stringify(response.data, null, 2);
    } catch (e) {
      state.verifyEndpointError = e;
    }
  }),
  new ScenarioOutput("verifiedEndpoint", (state) => {
    if (state.verifyEndpointError) {
      console.error(state.verifyEndpointError);
    } else {
      return MESSAGES.verifiedEndpoint.replace(
        "${ENDPOINT_RESPONSE}",
        state.endpointResponse,
      );
    }
  }),
  saveState,
];
```
Menyusun langkah-langkah untuk menjalankan demo.  

```
import { readFileSync } from "node:fs";
import { join } from "node:path";

import axios from "axios";

import {
  DescribeTargetGroupsCommand,
  DescribeTargetHealthCommand,
  ElasticLoadBalancingV2Client,
} from "@aws-sdk/client-elastic-load-balancing-v2";
import {
  DescribeInstanceInformationCommand,
  PutParameterCommand,
  SSMClient,
  SendCommandCommand,
} from "@aws-sdk/client-ssm";
import {
  IAMClient,
  CreatePolicyCommand,
  CreateRoleCommand,
  AttachRolePolicyCommand,
  CreateInstanceProfileCommand,
  AddRoleToInstanceProfileCommand,
  waitUntilInstanceProfileExists,
} from "@aws-sdk/client-iam";
import {
  AutoScalingClient,
  DescribeAutoScalingGroupsCommand,
  TerminateInstanceInAutoScalingGroupCommand,
} from "@aws-sdk/client-auto-scaling";
import {
  DescribeIamInstanceProfileAssociationsCommand,
  EC2Client,
  RebootInstancesCommand,
  ReplaceIamInstanceProfileAssociationCommand,
} from "@aws-sdk/client-ec2";

import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/scenario.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES, RESOURCES_PATH } from "./constants.js";
import { findLoadBalancer } from "./shared.js";

const getRecommendation = new ScenarioAction(
  "getRecommendation",
  async (state) => {
    const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
    if (loadBalancer) {
      state.loadBalancerDnsName = loadBalancer.DNSName;
      try {
        state.recommendation = (
          await axios.get(`http://${state.loadBalancerDnsName}`)
        ).data;
      } catch (e) {
        state.recommendation = e instanceof Error ? e.message : e;
      }
    } else {
      throw new Error(MESSAGES.demoFindLoadBalancerError);
    }
  },
);

const getRecommendationResult = new ScenarioOutput(
  "getRecommendationResult",
  (state) =>
    `Recommendation:\n${JSON.stringify(state.recommendation, null, 2)}`,
  { preformatted: true },
);

const getHealthCheck = new ScenarioAction("getHealthCheck", async (state) => {
  const client = new ElasticLoadBalancingV2Client({});
  const { TargetGroups } = await client.send(
    new DescribeTargetGroupsCommand({
      Names: [NAMES.loadBalancerTargetGroupName],
    }),
  );

  const { TargetHealthDescriptions } = await client.send(
    new DescribeTargetHealthCommand({
      TargetGroupArn: TargetGroups[0].TargetGroupArn,
    }),
  );
  state.targetHealthDescriptions = TargetHealthDescriptions;
});

const getHealthCheckResult = new ScenarioOutput(
  "getHealthCheckResult",
  /**
   * @param {{ targetHealthDescriptions: import('@aws-sdk/client-elastic-load-balancing-v2').TargetHealthDescription[]}} state
   */
  (state) => {
    const status = state.targetHealthDescriptions
      .map((th) => `${th.Target.Id}: ${th.TargetHealth.State}`)
      .join("\n");
    return `Health check:\n${status}`;
  },
  { preformatted: true },
);

const loadBalancerLoop = new ScenarioAction(
  "loadBalancerLoop",
  getRecommendation.action,
  {
    whileConfig: {
      whileFn: ({ loadBalancerCheck }) => loadBalancerCheck,
      input: new ScenarioInput(
        "loadBalancerCheck",
        MESSAGES.demoLoadBalancerCheck,
        {
          type: "confirm",
        },
      ),
      output: getRecommendationResult,
    },
  },
);

const healthCheckLoop = new ScenarioAction(
  "healthCheckLoop",
  getHealthCheck.action,
  {
    whileConfig: {
      whileFn: ({ healthCheck }) => healthCheck,
      input: new ScenarioInput("healthCheck", MESSAGES.demoHealthCheck, {
        type: "confirm",
      }),
      output: getHealthCheckResult,
    },
  },
);

const statusSteps = [
  getRecommendation,
  getRecommendationResult,
  getHealthCheck,
  getHealthCheckResult,
];

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const demoSteps = [
  new ScenarioOutput("header", MESSAGES.demoHeader, { header: true }),
  new ScenarioOutput("sanityCheck", MESSAGES.demoSanityCheck),
  ...statusSteps,
  new ScenarioInput(
    "brokenDependencyConfirmation",
    MESSAGES.demoBrokenDependencyConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("brokenDependency", async (state) => {
    if (!state.brokenDependencyConfirmation) {
      process.exit();
    } else {
      const client = new SSMClient({});
      state.badTableName = `fake-table-${Date.now()}`;
      await client.send(
        new PutParameterCommand({
          Name: NAMES.ssmTableNameKey,
          Value: state.badTableName,
          Overwrite: true,
          Type: "String",
        }),
      );
    }
  }),
  new ScenarioOutput("testBrokenDependency", (state) =>
    MESSAGES.demoTestBrokenDependency.replace(
      "${TABLE_NAME}",
      state.badTableName,
    ),
  ),
  ...statusSteps,
  new ScenarioInput(
    "staticResponseConfirmation",
    MESSAGES.demoStaticResponseConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("staticResponse", async (state) => {
    if (!state.staticResponseConfirmation) {
      process.exit();
    } else {
      const client = new SSMClient({});
      await client.send(
        new PutParameterCommand({
          Name: NAMES.ssmFailureResponseKey,
          Value: "static",
          Overwrite: true,
          Type: "String",
        }),
      );
    }
  }),
  new ScenarioOutput("testStaticResponse", MESSAGES.demoTestStaticResponse),
  ...statusSteps,
  new ScenarioInput(
    "badCredentialsConfirmation",
    MESSAGES.demoBadCredentialsConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("badCredentialsExit", (state) => {
    if (!state.badCredentialsConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("fixDynamoDBName", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: NAMES.tableName,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioAction(
    "badCredentials",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-auto-scaling').Instance }} state
     */
    async (state) => {
      await createSsmOnlyInstanceProfile();
      const autoScalingClient = new AutoScalingClient({});
      const { AutoScalingGroups } = await autoScalingClient.send(
        new DescribeAutoScalingGroupsCommand({
          AutoScalingGroupNames: [NAMES.autoScalingGroupName],
        }),
      );
      state.targetInstance = AutoScalingGroups[0].Instances[0];
      const ec2Client = new EC2Client({});
      const { IamInstanceProfileAssociations } = await ec2Client.send(
        new DescribeIamInstanceProfileAssociationsCommand({
          Filters: [
            { Name: "instance-id", Values: [state.targetInstance.InstanceId] },
          ],
        }),
      );
      state.instanceProfileAssociationId =
        IamInstanceProfileAssociations[0].AssociationId;
      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        ec2Client.send(
          new ReplaceIamInstanceProfileAssociationCommand({
            AssociationId: state.instanceProfileAssociationId,
            IamInstanceProfile: { Name: NAMES.ssmOnlyInstanceProfileName },
          }),
        ),
      );

      await ec2Client.send(
        new RebootInstancesCommand({
          InstanceIds: [state.targetInstance.InstanceId],
        }),
      );

      const ssmClient = new SSMClient({});
      await retry({ intervalInMs: 20000, maxRetries: 15 }, async () => {
        const { InstanceInformationList } = await ssmClient.send(
          new DescribeInstanceInformationCommand({}),
        );

        const instance = InstanceInformationList.find(
          (info) => info.InstanceId === state.targetInstance.InstanceId,
        );

        if (!instance) {
          throw new Error("Instance not found.");
        }
      });

      await ssmClient.send(
        new SendCommandCommand({
          InstanceIds: [state.targetInstance.InstanceId],
          DocumentName: "AWS-RunShellScript",
          Parameters: { commands: ["cd / && sudo python3 server.py 80"] },
        }),
      );
    },
  ),
  new ScenarioOutput(
    "testBadCredentials",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation}} state
     */
    (state) =>
      MESSAGES.demoTestBadCredentials.replace(
        "${INSTANCE_ID}",
        state.targetInstance.InstanceId,
      ),
  ),
  loadBalancerLoop,
  new ScenarioInput(
    "deepHealthCheckConfirmation",
    MESSAGES.demoDeepHealthCheckConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("deepHealthCheckExit", (state) => {
    if (!state.deepHealthCheckConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("deepHealthCheck", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmHealthCheckKey,
        Value: "deep",
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testDeepHealthCheck", MESSAGES.demoTestDeepHealthCheck),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput(
    "killInstanceConfirmation",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation }} state
     */
    (state) =>
      MESSAGES.demoKillInstanceConfirmation.replace(
        "${INSTANCE_ID}",
        state.targetInstance.InstanceId,
      ),
    { type: "confirm" },
  ),
  new ScenarioAction("killInstanceExit", (state) => {
    if (!state.killInstanceConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction(
    "killInstance",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation }} state
     */
    async (state) => {
      const client = new AutoScalingClient({});
      await client.send(
        new TerminateInstanceInAutoScalingGroupCommand({
          InstanceId: state.targetInstance.InstanceId,
          ShouldDecrementDesiredCapacity: false,
        }),
      );
    },
  ),
  new ScenarioOutput("testKillInstance", MESSAGES.demoTestKillInstance),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput("failOpenConfirmation", MESSAGES.demoFailOpenConfirmation, {
    type: "confirm",
  }),
  new ScenarioAction("failOpenExit", (state) => {
    if (!state.failOpenConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("failOpen", () => {
    const client = new SSMClient({});
    return client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: `fake-table-${Date.now()}`,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testFailOpen", MESSAGES.demoFailOpenTest),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput(
    "resetTableConfirmation",
    MESSAGES.demoResetTableConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("resetTableExit", (state) => {
    if (!state.resetTableConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("resetTable", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: NAMES.tableName,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testResetTable", MESSAGES.demoTestResetTable),
  healthCheckLoop,
  loadBalancerLoop,
];

async function createSsmOnlyInstanceProfile() {
  const iamClient = new IAMClient({});
  const { Policy } = await iamClient.send(
    new CreatePolicyCommand({
      PolicyName: NAMES.ssmOnlyPolicyName,
      PolicyDocument: readFileSync(
        join(RESOURCES_PATH, "ssm_only_policy.json"),
      ),
    }),
  );
  await iamClient.send(
    new CreateRoleCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      AssumeRolePolicyDocument: JSON.stringify({
        Version: "2012-10-17",
        Statement: [
          {
            Effect: "Allow",
            Principal: { Service: "ec2.amazonaws.com" },
            Action: "sts:AssumeRole",
          },
        ],
      }),
    }),
  );
  await iamClient.send(
    new AttachRolePolicyCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      PolicyArn: Policy.Arn,
    }),
  );
  await iamClient.send(
    new AttachRolePolicyCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      PolicyArn: "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore",
    }),
  );
  const { InstanceProfile } = await iamClient.send(
    new CreateInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
    }),
  );
  await waitUntilInstanceProfileExists(
    { client: iamClient },
    { InstanceProfileName: NAMES.ssmOnlyInstanceProfileName },
  );
  await iamClient.send(
    new AddRoleToInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
      RoleName: NAMES.ssmOnlyRoleName,
    }),
  );

  return InstanceProfile;
}
```
Menyusun langkah-langkah untuk menghancurkan semua sumber daya.  

```
import { unlinkSync } from "node:fs";

import { DynamoDBClient, DeleteTableCommand } from "@aws-sdk/client-dynamodb";
import {
  EC2Client,
  DeleteKeyPairCommand,
  DeleteLaunchTemplateCommand,
  RevokeSecurityGroupIngressCommand,
} from "@aws-sdk/client-ec2";
import {
  IAMClient,
  DeleteInstanceProfileCommand,
  RemoveRoleFromInstanceProfileCommand,
  DeletePolicyCommand,
  DeleteRoleCommand,
  DetachRolePolicyCommand,
  paginateListPolicies,
} from "@aws-sdk/client-iam";
import {
  AutoScalingClient,
  DeleteAutoScalingGroupCommand,
  TerminateInstanceInAutoScalingGroupCommand,
  UpdateAutoScalingGroupCommand,
  paginateDescribeAutoScalingGroups,
} from "@aws-sdk/client-auto-scaling";
import {
  DeleteLoadBalancerCommand,
  DeleteTargetGroupCommand,
  DescribeTargetGroupsCommand,
  ElasticLoadBalancingV2Client,
} from "@aws-sdk/client-elastic-load-balancing-v2";

import {
  ScenarioOutput,
  ScenarioInput,
  ScenarioAction,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { loadState } from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES } from "./constants.js";
import { findLoadBalancer } from "./shared.js";

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const destroySteps = [
  loadState,
  new ScenarioInput("destroy", MESSAGES.destroy, { type: "confirm" }),
  new ScenarioAction(
    "abort",
    (state) => state.destroy === false && process.exit(),
  ),
  new ScenarioAction("deleteTable", async (c) => {
    try {
      const client = new DynamoDBClient({});
      await client.send(new DeleteTableCommand({ TableName: NAMES.tableName }));
    } catch (e) {
      c.deleteTableError = e;
    }
  }),
  new ScenarioOutput("deleteTableResult", (state) => {
    if (state.deleteTableError) {
      console.error(state.deleteTableError);
      return MESSAGES.deleteTableError.replace(
        "${TABLE_NAME}",
        NAMES.tableName,
      );
    }
    return MESSAGES.deletedTable.replace("${TABLE_NAME}", NAMES.tableName);
  }),
  new ScenarioAction("deleteKeyPair", async (state) => {
    try {
      const client = new EC2Client({});
      await client.send(
        new DeleteKeyPairCommand({ KeyName: NAMES.keyPairName }),
      );
      unlinkSync(`${NAMES.keyPairName}.pem`);
    } catch (e) {
      state.deleteKeyPairError = e;
    }
  }),
  new ScenarioOutput("deleteKeyPairResult", (state) => {
    if (state.deleteKeyPairError) {
      console.error(state.deleteKeyPairError);
      return MESSAGES.deleteKeyPairError.replace(
        "${KEY_PAIR_NAME}",
        NAMES.keyPairName,
      );
    }
    return MESSAGES.deletedKeyPair.replace(
      "${KEY_PAIR_NAME}",
      NAMES.keyPairName,
    );
  }),
  new ScenarioAction("detachPolicyFromRole", async (state) => {
    try {
      const client = new IAMClient({});
      const policy = await findPolicy(NAMES.instancePolicyName);

      if (!policy) {
        state.detachPolicyFromRoleError = new Error(
          `Policy ${NAMES.instancePolicyName} not found.`,
        );
      } else {
        await client.send(
          new DetachRolePolicyCommand({
            RoleName: NAMES.instanceRoleName,
            PolicyArn: policy.Arn,
          }),
        );
      }
    } catch (e) {
      state.detachPolicyFromRoleError = e;
    }
  }),
  new ScenarioOutput("detachedPolicyFromRole", (state) => {
    if (state.detachPolicyFromRoleError) {
      console.error(state.detachPolicyFromRoleError);
      return MESSAGES.detachPolicyFromRoleError
        .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
        .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
    }
    return MESSAGES.detachedPolicyFromRole
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
  }),
  new ScenarioAction("deleteInstancePolicy", async (state) => {
    const client = new IAMClient({});
    const policy = await findPolicy(NAMES.instancePolicyName);

    if (!policy) {
      state.deletePolicyError = new Error(
        `Policy ${NAMES.instancePolicyName} not found.`,
      );
    } else {
      return client.send(
        new DeletePolicyCommand({
          PolicyArn: policy.Arn,
        }),
      );
    }
  }),
  new ScenarioOutput("deletePolicyResult", (state) => {
    if (state.deletePolicyError) {
      console.error(state.deletePolicyError);
      return MESSAGES.deletePolicyError.replace(
        "${INSTANCE_POLICY_NAME}",
        NAMES.instancePolicyName,
      );
    }
    return MESSAGES.deletedPolicy.replace(
      "${INSTANCE_POLICY_NAME}",
      NAMES.instancePolicyName,
    );
  }),
  new ScenarioAction("removeRoleFromInstanceProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new RemoveRoleFromInstanceProfileCommand({
          RoleName: NAMES.instanceRoleName,
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
    } catch (e) {
      state.removeRoleFromInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("removeRoleFromInstanceProfileResult", (state) => {
    if (state.removeRoleFromInstanceProfile) {
      console.error(state.removeRoleFromInstanceProfileError);
      return MESSAGES.removeRoleFromInstanceProfileError
        .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
        .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
    }
    return MESSAGES.removedRoleFromInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
  }),
  new ScenarioAction("deleteInstanceRole", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new DeleteRoleCommand({
          RoleName: NAMES.instanceRoleName,
        }),
      );
    } catch (e) {
      state.deleteInstanceRoleError = e;
    }
  }),
  new ScenarioOutput("deleteInstanceRoleResult", (state) => {
    if (state.deleteInstanceRoleError) {
      console.error(state.deleteInstanceRoleError);
      return MESSAGES.deleteInstanceRoleError.replace(
        "${INSTANCE_ROLE_NAME}",
        NAMES.instanceRoleName,
      );
    }
    return MESSAGES.deletedInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    );
  }),
  new ScenarioAction("deleteInstanceProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
    } catch (e) {
      state.deleteInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("deleteInstanceProfileResult", (state) => {
    if (state.deleteInstanceProfileError) {
      console.error(state.deleteInstanceProfileError);
      return MESSAGES.deleteInstanceProfileError.replace(
        "${INSTANCE_PROFILE_NAME}",
        NAMES.instanceProfileName,
      );
    }
    return MESSAGES.deletedInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.instanceProfileName,
    );
  }),
  new ScenarioAction("deleteAutoScalingGroup", async (state) => {
    try {
      await terminateGroupInstances(NAMES.autoScalingGroupName);
      await retry({ intervalInMs: 60000, maxRetries: 60 }, async () => {
        await deleteAutoScalingGroup(NAMES.autoScalingGroupName);
      });
    } catch (e) {
      state.deleteAutoScalingGroupError = e;
    }
  }),
  new ScenarioOutput("deleteAutoScalingGroupResult", (state) => {
    if (state.deleteAutoScalingGroupError) {
      console.error(state.deleteAutoScalingGroupError);
      return MESSAGES.deleteAutoScalingGroupError.replace(
        "${AUTO_SCALING_GROUP_NAME}",
        NAMES.autoScalingGroupName,
      );
    }
    return MESSAGES.deletedAutoScalingGroup.replace(
      "${AUTO_SCALING_GROUP_NAME}",
      NAMES.autoScalingGroupName,
    );
  }),
  new ScenarioAction("deleteLaunchTemplate", async (state) => {
    const client = new EC2Client({});
    try {
      await client.send(
        new DeleteLaunchTemplateCommand({
          LaunchTemplateName: NAMES.launchTemplateName,
        }),
      );
    } catch (e) {
      state.deleteLaunchTemplateError = e;
    }
  }),
  new ScenarioOutput("deleteLaunchTemplateResult", (state) => {
    if (state.deleteLaunchTemplateError) {
      console.error(state.deleteLaunchTemplateError);
      return MESSAGES.deleteLaunchTemplateError.replace(
        "${LAUNCH_TEMPLATE_NAME}",
        NAMES.launchTemplateName,
      );
    }
    return MESSAGES.deletedLaunchTemplate.replace(
      "${LAUNCH_TEMPLATE_NAME}",
      NAMES.launchTemplateName,
    );
  }),
  new ScenarioAction("deleteLoadBalancer", async (state) => {
    try {
      const client = new ElasticLoadBalancingV2Client({});
      const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
      await client.send(
        new DeleteLoadBalancerCommand({
          LoadBalancerArn: loadBalancer.LoadBalancerArn,
        }),
      );
      await retry({ intervalInMs: 1000, maxRetries: 60 }, async () => {
        const lb = await findLoadBalancer(NAMES.loadBalancerName);
        if (lb) {
          throw new Error("Load balancer still exists.");
        }
      });
    } catch (e) {
      state.deleteLoadBalancerError = e;
    }
  }),
  new ScenarioOutput("deleteLoadBalancerResult", (state) => {
    if (state.deleteLoadBalancerError) {
      console.error(state.deleteLoadBalancerError);
      return MESSAGES.deleteLoadBalancerError.replace(
        "${LB_NAME}",
        NAMES.loadBalancerName,
      );
    }
    return MESSAGES.deletedLoadBalancer.replace(
      "${LB_NAME}",
      NAMES.loadBalancerName,
    );
  }),
  new ScenarioAction("deleteLoadBalancerTargetGroup", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    try {
      const { TargetGroups } = await client.send(
        new DescribeTargetGroupsCommand({
          Names: [NAMES.loadBalancerTargetGroupName],
        }),
      );

      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        client.send(
          new DeleteTargetGroupCommand({
            TargetGroupArn: TargetGroups[0].TargetGroupArn,
          }),
        ),
      );
    } catch (e) {
      state.deleteLoadBalancerTargetGroupError = e;
    }
  }),
  new ScenarioOutput("deleteLoadBalancerTargetGroupResult", (state) => {
    if (state.deleteLoadBalancerTargetGroupError) {
      console.error(state.deleteLoadBalancerTargetGroupError);
      return MESSAGES.deleteLoadBalancerTargetGroupError.replace(
        "${TARGET_GROUP_NAME}",
        NAMES.loadBalancerTargetGroupName,
      );
    }
    return MESSAGES.deletedLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    );
  }),
  new ScenarioAction("detachSsmOnlyRoleFromProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new RemoveRoleFromInstanceProfileCommand({
          InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
          RoleName: NAMES.ssmOnlyRoleName,
        }),
      );
    } catch (e) {
      state.detachSsmOnlyRoleFromProfileError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyRoleFromProfileResult", (state) => {
    if (state.detachSsmOnlyRoleFromProfileError) {
      console.error(state.detachSsmOnlyRoleFromProfileError);
      return MESSAGES.detachSsmOnlyRoleFromProfileError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${PROFILE_NAME}", NAMES.ssmOnlyInstanceProfileName);
    }
    return MESSAGES.detachedSsmOnlyRoleFromProfile
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${PROFILE_NAME}", NAMES.ssmOnlyInstanceProfileName);
  }),
  new ScenarioAction("detachSsmOnlyCustomRolePolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      const ssmOnlyPolicy = await findPolicy(NAMES.ssmOnlyPolicyName);
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: NAMES.ssmOnlyRoleName,
          PolicyArn: ssmOnlyPolicy.Arn,
        }),
      );
    } catch (e) {
      state.detachSsmOnlyCustomRolePolicyError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyCustomRolePolicyResult", (state) => {
    if (state.detachSsmOnlyCustomRolePolicyError) {
      console.error(state.detachSsmOnlyCustomRolePolicyError);
      return MESSAGES.detachSsmOnlyCustomRolePolicyError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${POLICY_NAME}", NAMES.ssmOnlyPolicyName);
    }
    return MESSAGES.detachedSsmOnlyCustomRolePolicy
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${POLICY_NAME}", NAMES.ssmOnlyPolicyName);
  }),
  new ScenarioAction("detachSsmOnlyAWSRolePolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: NAMES.ssmOnlyRoleName,
          PolicyArn: "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore",
        }),
      );
    } catch (e) {
      state.detachSsmOnlyAWSRolePolicyError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyAWSRolePolicyResult", (state) => {
    if (state.detachSsmOnlyAWSRolePolicyError) {
      console.error(state.detachSsmOnlyAWSRolePolicyError);
      return MESSAGES.detachSsmOnlyAWSRolePolicyError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${POLICY_NAME}", "AmazonSSMManagedInstanceCore");
    }
    return MESSAGES.detachedSsmOnlyAWSRolePolicy
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${POLICY_NAME}", "AmazonSSMManagedInstanceCore");
  }),
  new ScenarioAction("deleteSsmOnlyInstanceProfile", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyInstanceProfileResult", (state) => {
    if (state.deleteSsmOnlyInstanceProfileError) {
      console.error(state.deleteSsmOnlyInstanceProfileError);
      return MESSAGES.deleteSsmOnlyInstanceProfileError.replace(
        "${INSTANCE_PROFILE_NAME}",
        NAMES.ssmOnlyInstanceProfileName,
      );
    }
    return MESSAGES.deletedSsmOnlyInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.ssmOnlyInstanceProfileName,
    );
  }),
  new ScenarioAction("deleteSsmOnlyPolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      const ssmOnlyPolicy = await findPolicy(NAMES.ssmOnlyPolicyName);
      await iamClient.send(
        new DeletePolicyCommand({
          PolicyArn: ssmOnlyPolicy.Arn,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyPolicyError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyPolicyResult", (state) => {
    if (state.deleteSsmOnlyPolicyError) {
      console.error(state.deleteSsmOnlyPolicyError);
      return MESSAGES.deleteSsmOnlyPolicyError.replace(
        "${POLICY_NAME}",
        NAMES.ssmOnlyPolicyName,
      );
    }
    return MESSAGES.deletedSsmOnlyPolicy.replace(
      "${POLICY_NAME}",
      NAMES.ssmOnlyPolicyName,
    );
  }),
  new ScenarioAction("deleteSsmOnlyRole", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DeleteRoleCommand({
          RoleName: NAMES.ssmOnlyRoleName,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyRoleError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyRoleResult", (state) => {
    if (state.deleteSsmOnlyRoleError) {
      console.error(state.deleteSsmOnlyRoleError);
      return MESSAGES.deleteSsmOnlyRoleError.replace(
        "${ROLE_NAME}",
        NAMES.ssmOnlyRoleName,
      );
    }
    return MESSAGES.deletedSsmOnlyRole.replace(
      "${ROLE_NAME}",
      NAMES.ssmOnlyRoleName,
    );
  }),
  new ScenarioAction(
    "revokeSecurityGroupIngress",
    async (
      /** @type {{ myIp: string, defaultSecurityGroup: { GroupId: string } }} */ state,
    ) => {
      const ec2Client = new EC2Client({});

      try {
        await ec2Client.send(
          new RevokeSecurityGroupIngressCommand({
            GroupId: state.defaultSecurityGroup.GroupId,
            CidrIp: `${state.myIp}/32`,
            FromPort: 80,
            ToPort: 80,
            IpProtocol: "tcp",
          }),
        );
      } catch (e) {
        state.revokeSecurityGroupIngressError = e;
      }
    },
  ),
  new ScenarioOutput("revokeSecurityGroupIngressResult", (state) => {
    if (state.revokeSecurityGroupIngressError) {
      console.error(state.revokeSecurityGroupIngressError);
      return MESSAGES.revokeSecurityGroupIngressError.replace(
        "${IP}",
        state.myIp,
      );
    }
    return MESSAGES.revokedSecurityGroupIngress.replace("${IP}", state.myIp);
  }),
];

/**
 * @param {string} policyName
 */
async function findPolicy(policyName) {
  const client = new IAMClient({});
  const paginatedPolicies = paginateListPolicies({ client }, {});
  for await (const page of paginatedPolicies) {
    const policy = page.Policies.find((p) => p.PolicyName === policyName);
    if (policy) {
      return policy;
    }
  }
}

/**
 * @param {string} groupName
 */
async function deleteAutoScalingGroup(groupName) {
  const client = new AutoScalingClient({});
  try {
    await client.send(
      new DeleteAutoScalingGroupCommand({
        AutoScalingGroupName: groupName,
      }),
    );
  } catch (err) {
    if (!(err instanceof Error)) {
      throw err;
    }
    console.log(err.name);
    throw err;
  }
}

/**
 * @param {string} groupName
 */
async function terminateGroupInstances(groupName) {
  const autoScalingClient = new AutoScalingClient({});
  const group = await findAutoScalingGroup(groupName);
  await autoScalingClient.send(
    new UpdateAutoScalingGroupCommand({
      AutoScalingGroupName: group.AutoScalingGroupName,
      MinSize: 0,
    }),
  );
  for (const i of group.Instances) {
    await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
      autoScalingClient.send(
        new TerminateInstanceInAutoScalingGroupCommand({
          InstanceId: i.InstanceId,
          ShouldDecrementDesiredCapacity: true,
        }),
      ),
    );
  }
}

async function findAutoScalingGroup(groupName) {
  const client = new AutoScalingClient({});
  const paginatedGroups = paginateDescribeAutoScalingGroups({ client }, {});
  for await (const page of paginatedGroups) {
    const group = page.AutoScalingGroups.find(
      (g) => g.AutoScalingGroupName === groupName,
    );
    if (group) {
      return group;
    }
  }
  throw new Error(`Auto scaling group ${groupName} not found.`);
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/AttachLoadBalancerTargetGroupsCommand)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/CreateAutoScalingGroupCommand)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateInstanceProfileCommand)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateLaunchTemplateCommand)
  + [CreateListener](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateListenerCommand)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateLoadBalancerCommand)
  + [CreateTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateTargetGroupCommand)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/DeleteAutoScalingGroupCommand)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteInstanceProfileCommand)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteLaunchTemplateCommand)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteLoadBalancerCommand)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteTargetGroupCommand)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/DescribeAutoScalingGroupsCommand)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeAvailabilityZonesCommand)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeIamInstanceProfileAssociationsCommand)
  + [DescribeInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstancesCommand)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeLoadBalancersCommand)
  + [DescribeSubnets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSubnetsCommand)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetGroupsCommand)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetHealthCommand)
  + [DescribeVpcs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeVpcsCommand)
  + [RebootInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RebootInstancesCommand)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReplaceIamInstanceProfileAssociationCommand)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/TerminateInstanceInAutoScalingGroupCommand)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/UpdateAutoScalingGroupCommand)

# Contoh Amazon Bedrock menggunakan SDK for JavaScript (v3)
<a name="javascript_3_bedrock_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Bedrock.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Bedrock
<a name="bedrock_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Bedrock.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock#code-examples). 

```
import { fileURLToPath } from "node:url";

import {
  BedrockClient,
  ListFoundationModelsCommand,
} from "@aws-sdk/client-bedrock";

const REGION = "us-east-1";
const client = new BedrockClient({ region: REGION });

export const main = async () => {
  const command = new ListFoundationModelsCommand({});

  const response = await client.send(command);
  const models = response.modelSummaries;

  console.log("Listing the available Bedrock foundation models:");

  for (const model of models) {
    console.log("=".repeat(42));
    console.log(` Model: ${model.modelId}`);
    console.log("-".repeat(42));
    console.log(` Name: ${model.modelName}`);
    console.log(` Provider: ${model.providerName}`);
    console.log(` Model ARN: ${model.modelArn}`);
    console.log(` Input modalities: ${model.inputModalities}`);
    console.log(` Output modalities: ${model.outputModalities}`);
    console.log(` Supported customizations: ${model.customizationsSupported}`);
    console.log(` Supported inference types: ${model.inferenceTypesSupported}`);
    console.log(` Lifecycle status: ${model.modelLifecycle.status}`);
    console.log(`${"=".repeat(42)}\n`);
  }

  const active = models.filter(
    (m) => m.modelLifecycle.status === "ACTIVE",
  ).length;
  const legacy = models.filter(
    (m) => m.modelLifecycle.status === "LEGACY",
  ).length;

  console.log(
    `There are ${active} active and ${legacy} legacy foundation models in ${REGION}.`,
  );

  return response;
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  await main();
}
```
+  Untuk detail API, lihat [ListFoundationModels](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock/command/ListFoundationModelsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Tindakan
<a name="actions"></a>

### `GetFoundationModel`
<a name="bedrock_GetFoundationModel_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFoundationModel`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock#code-examples). 
Dapatkan detail tentang model pondasi.  

```
import { fileURLToPath } from "node:url";

import {
  BedrockClient,
  GetFoundationModelCommand,
} from "@aws-sdk/client-bedrock";

/**
 * Get details about an Amazon Bedrock foundation model.
 *
 * @return {FoundationModelDetails} - The list of available bedrock foundation models.
 */
export const getFoundationModel = async () => {
  const client = new BedrockClient();

  const command = new GetFoundationModelCommand({
    modelIdentifier: "amazon.titan-embed-text-v1",
  });

  const response = await client.send(command);

  return response.modelDetails;
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const model = await getFoundationModel();
  console.log(model);
}
```
+  Untuk detail API, lihat [GetFoundationModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock/command/GetFoundationModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListFoundationModels`
<a name="bedrock_ListFoundationModels_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFoundationModels`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock#code-examples). 
Buat daftar model pondasi yang tersedia.  

```
import { fileURLToPath } from "node:url";

import {
  BedrockClient,
  ListFoundationModelsCommand,
} from "@aws-sdk/client-bedrock";

/**
 * List the available Amazon Bedrock foundation models.
 *
 * @return {FoundationModelSummary[]} - The list of available bedrock foundation models.
 */
export const listFoundationModels = async () => {
  const client = new BedrockClient();

  const input = {
    // byProvider: 'STRING_VALUE',
    // byCustomizationType: 'FINE_TUNING' || 'CONTINUED_PRE_TRAINING',
    // byOutputModality: 'TEXT' || 'IMAGE' || 'EMBEDDING',
    // byInferenceType: 'ON_DEMAND' || 'PROVISIONED',
  };

  const command = new ListFoundationModelsCommand(input);

  const response = await client.send(command);

  return response.modelSummaries;
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const models = await listFoundationModels();
  console.log(models);
}
```
+  Untuk detail API, lihat [ListFoundationModels](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock/command/ListFoundationModelsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Amazon Bedrock Runtime menggunakan SDK for JavaScript (v3)
<a name="javascript_3_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Bedrock Runtime.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Skenario](#scenarios)
+ [Amazon Nova](#amazon_nova)
+ [Kanvas Amazon Nova](#amazon_nova_canvas)
+ [Antropik Claude](#anthropic_claude)
+ [Perintah Cohere](#cohere_command)
+ [Meta Llama](#meta_llama)
+ [Mistral AI](#mistral_ai)

## Memulai
<a name="get_started"></a>

### Halo Amazon Bedrock
<a name="bedrock-runtime_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Bedrock.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 

```
/**
 * @typedef {Object} Content
 * @property {string} text
 *
 * @typedef {Object} Usage
 * @property {number} input_tokens
 * @property {number} output_tokens
 *
 * @typedef {Object} ResponseBody
 * @property {Content[]} content
 * @property {Usage} usage
 */

import { fileURLToPath } from "node:url";
import {
  BedrockRuntimeClient,
  InvokeModelCommand,
} from "@aws-sdk/client-bedrock-runtime";

const AWS_REGION = "us-east-1";

const MODEL_ID = "anthropic.claude-3-haiku-20240307-v1:0";
const PROMPT = "Hi. In a short paragraph, explain what you can do.";

const hello = async () => {
  console.log("=".repeat(35));
  console.log("Welcome to the Amazon Bedrock demo!");
  console.log("=".repeat(35));

  console.log("Model: Anthropic Claude 3 Haiku");
  console.log(`Prompt: ${PROMPT}\n`);
  console.log("Invoking model...\n");

  // Create a new Bedrock Runtime client instance.
  const client = new BedrockRuntimeClient({ region: AWS_REGION });

  // Prepare the payload for the model.
  const payload = {
    anthropic_version: "bedrock-2023-05-31",
    max_tokens: 1000,
    messages: [{ role: "user", content: [{ type: "text", text: PROMPT }] }],
  };

  // Invoke Claude with the payload and wait for the response.
  const apiResponse = await client.send(
    new InvokeModelCommand({
      contentType: "application/json",
      body: JSON.stringify(payload),
      modelId: MODEL_ID,
    }),
  );

  // Decode and return the response(s)
  const decodedResponseBody = new TextDecoder().decode(apiResponse.body);
  /** @type {ResponseBody} */
  const responseBody = JSON.parse(decodedResponseBody);
  const responses = responseBody.content;

  if (responses.length === 1) {
    console.log(`Response: ${responses[0].text}`);
  } else {
    console.log("Haiku returned multiple responses:");
    console.log(responses);
  }

  console.log(`\nNumber of input tokens:   ${responseBody.usage.input_tokens}`);
  console.log(`Number of output tokens: ${responseBody.usage.output_tokens}`);
};

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  await hello();
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Gunakan beberapa model fondasi di Amazon Bedrock
<a name="bedrock-runtime_Scenario_InvokeModels_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menyiapkan dan mengirim prompt ke berbagai model berbahasa besar (LLMs) di Amazon Bedrock

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { FoundationModels } from "../config/foundation_models.js";

/**
 * @typedef {Object} ModelConfig
 * @property {Function} module
 * @property {Function} invoker
 * @property {string} modelId
 * @property {string} modelName
 */

const greeting = new ScenarioOutput(
  "greeting",
  "Welcome to the Amazon Bedrock Runtime client demo!",
  { header: true },
);

const selectModel = new ScenarioInput("model", "First, select a model:", {
  type: "select",
  choices: Object.values(FoundationModels).map((model) => ({
    name: model.modelName,
    value: model,
  })),
});

const enterPrompt = new ScenarioInput("prompt", "Now, enter your prompt:", {
  type: "input",
});

const printDetails = new ScenarioOutput(
  "print details",
  /**
   * @param {{ model: ModelConfig, prompt: string }} c
   */
  (c) => console.log(`Invoking ${c.model.modelName} with '${c.prompt}'...`),
);

const invokeModel = new ScenarioAction(
  "invoke model",
  /**
   * @param {{ model: ModelConfig, prompt: string, response: string }} c
   */
  async (c) => {
    const modelModule = await c.model.module();
    const invoker = c.model.invoker(modelModule);
    c.response = await invoker(c.prompt, c.model.modelId);
  },
);

const printResponse = new ScenarioOutput(
  "print response",
  /**
   * @param {{ response: string }} c
   */
  (c) => c.response,
);

const scenario = new Scenario("Amazon Bedrock Runtime Demo", [
  greeting,
  selectModel,
  enterPrompt,
  printDetails,
  invokeModel,
  printResponse,
]);

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  scenario.run();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [InvokeModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelCommand)
  + [InvokeModelWithResponseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelWithResponseStreamCommand)

### Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUse_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime/scenarios/converse_tool_scenario#code-examples). 
Eksekusi utama dari alur skenario. Skenario ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
/* Before running this JavaScript code example, set up your development environment, including your credentials.
This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
The script interacts with a foundation model on Amazon Bedrock to provide weather information based on user
input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.*/

import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import {
  BedrockRuntimeClient,
  ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";

import { parseArgs } from "node:util";
import { fileURLToPath } from "node:url";
import data from "./questions.json" with { type: "json" };
import toolConfig from "./tool_config.json" with { type: "json" };

const __filename = fileURLToPath(import.meta.url);

const systemPrompt = [
  {
    text:
      "You are a weather assistant that provides current weather data for user-specified locations using only\n" +
      "the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.\n" +
      "If the user provides coordinates, infer the approximate location and refer to it in your response.\n" +
      "To use the tool, you strictly apply the provided tool specification.\n" +
      "If the user specifies a state, country, or region, infer the locations of cities within that state.\n" +
      "\n" +
      "- Explain your step-by-step process, and give brief updates before each step.\n" +
      "- Only use the Weather_Tool for data. Never guess or make up information. \n" +
      "- Repeat the tool use for subsequent requests if necessary.\n" +
      "- If the tool errors, apologize, explain weather is unavailable, and suggest other options.\n" +
      "- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use\n" +
      "  emojis where appropriate.\n" +
      "- Only respond to weather queries. Remind off-topic users of your purpose. \n" +
      "- Never claim to search online, access external data, or use tools besides Weather_Tool.\n" +
      "- Complete the entire process until you have all required data before sending the complete response.",
  },
];
const tools_config = toolConfig;

/// Starts the conversation with the user and handles the interaction with Bedrock.
async function askQuestion(userMessage) {
  // The maximum number of recursive calls allowed in the tool use function.
  // This helps prevent infinite loops and potential performance issues.
  const max_recursions = 5;
  const messages = [
    {
      role: "user",
      content: [{ text: userMessage }],
    },
  ];
  try {
    const response = await SendConversationtoBedrock(messages);
    await ProcessModelResponseAsync(response, messages, max_recursions);
  } catch (error) {
    console.log("error ", error);
  }
}

// Sends the conversation, the system prompt, and the tool spec to Amazon Bedrock, and returns the response.
// param "messages" - The conversation history including the next message to send.
// return - The response from Amazon Bedrock.
async function SendConversationtoBedrock(messages) {
  const bedRockRuntimeClient = new BedrockRuntimeClient({
    region: "us-east-1",
  });
  try {
    const modelId = "amazon.nova-lite-v1:0";
    const response = await bedRockRuntimeClient.send(
      new ConverseCommand({
        modelId: modelId,
        messages: messages,
        system: systemPrompt,
        toolConfig: tools_config,
      }),
    );
    return response;
  } catch (caught) {
    if (caught.name === "ModelNotReady") {
      console.log(
        "`${caught.name}` - Model not ready, please wait and try again.",
      );
      throw caught;
    }
    if (caught.name === "BedrockRuntimeException") {
      console.log(
        '`${caught.name}` - "Error occurred while sending Converse request.',
      );
      throw caught;
    }
  }
}

// Processes the response received via Amazon Bedrock and performs the necessary actions based on the stop reason.
// param "response" - The model's response returned via Amazon Bedrock.
// param "messages" - The conversation history.
// param "max_recursions" - The maximum number of recursive calls allowed.
async function ProcessModelResponseAsync(response, messages, max_recursions) {
  if (max_recursions <= 0) {
    await HandleToolUseAsync(response, messages);
  }
  if (response.stopReason === "tool_use") {
    await HandleToolUseAsync(response, messages, max_recursions - 1);
  }
  if (response.stopReason === "end_turn") {
    const messageToPrint = response.output.message.content[0].text;
    console.log(messageToPrint.replace(/<[^>]+>/g, ""));
  }
}
// Handles the tool use case by invoking the specified tool and sending the tool's response back to Bedrock.
// The tool response is appended to the conversation, and the conversation is sent back to Amazon Bedrock for further processing.
// param "response" - the model's response containing the tool use request.
// param "messages" - the conversation history.
// param "max_recursions" - The maximum number of recursive calls allowed.
async function HandleToolUseAsync(response, messages, max_recursions) {
  const toolResultFinal = [];
  try {
    const output_message = response.output.message;
    messages.push(output_message);
    const toolRequests = output_message.content;
    const toolMessage = toolRequests[0].text;
    console.log(toolMessage.replace(/<[^>]+>/g, ""));
    for (const toolRequest of toolRequests) {
      if (Object.hasOwn(toolRequest, "toolUse")) {
        const toolUse = toolRequest.toolUse;
        const latitude = toolUse.input.latitude;
        const longitude = toolUse.input.longitude;
        const toolUseID = toolUse.toolUseId;
        console.log(
          `Requesting tool ${toolUse.name}, Tool use id ${toolUseID}`,
        );
        if (toolUse.name === "Weather_Tool") {
          try {
            const current_weather = await callWeatherTool(
              longitude,
              latitude,
            ).then((current_weather) => current_weather);
            const currentWeather = current_weather;
            const toolResult = {
              toolResult: {
                toolUseId: toolUseID,
                content: [{ json: currentWeather }],
              },
            };
            toolResultFinal.push(toolResult);
          } catch (err) {
            console.log("An error occurred. ", err);
          }
        }
      }
    }

    const toolResultMessage = {
      role: "user",
      content: toolResultFinal,
    };
    messages.push(toolResultMessage);
    // Send the conversation to Amazon Bedrock
    await ProcessModelResponseAsync(
      await SendConversationtoBedrock(messages),
      messages,
    );
  } catch (error) {
    console.log("An error occurred. ", error);
  }
}
// Call the Weathertool.
// param = longitude of location
// param = latitude of location
async function callWeatherTool(longitude, latitude) {
  // Open-Meteo API endpoint
  const apiUrl = `https://api.open-meteo.com/v1/forecast?latitude=${latitude}&longitude=${longitude}&current_weather=true`;

  // Fetch the weather data.
  return fetch(apiUrl)
    .then((response) => {
      return response.json().then((current_weather) => {
        return current_weather;
      });
    })
    .catch((error) => {
      console.error("Error fetching weather data:", error);
    });
}
/**
 * Used repeatedly to have the user press enter.
 * @type {ScenarioInput}
 */
const pressEnter = new ScenarioInput("continue", "Press Enter to continue", {
  type: "input",
  default: "",
});

const greet = new ScenarioOutput(
  "greet",
  "Welcome to the Amazon Bedrock Tool Use demo! \n" +
    "This assistant provides current weather information for user-specified locations. " +
    "You can ask for weather details by providing the location name or coordinates." +
    "Weather information will be provided using a custom Tool and open-meteo API." +
    "For the purposes of this example, we'll use in order the questions in ./questions.json :\n" +
    "What's the weather like in Seattle? " +
    "What's the best kind of cat? " +
    "Where is the warmest city in Washington State right now? " +
    "What's the warmest city in California right now?\n" +
    "To exit the program, simply type 'x' and press Enter.\n" +
    "Have fun and experiment with the app by editing the questions in ./questions.json! " +
    "P.S.: You're not limited to single locations, or even to using English! ",

  { header: true },
);
const displayAskQuestion1 = new ScenarioOutput(
  "displayAskQuestion1",
  "Press enter to ask question number 1 (default is 'What's the weather like in Seattle?')",
);

const askQuestion1 = new ScenarioAction(
  "askQuestion1",
  async (/** @type {State} */ state) => {
    const userMessage1 = data.questions["question-1"];
    await askQuestion(userMessage1);
  },
);

const displayAskQuestion2 = new ScenarioOutput(
  "displayAskQuestion2",
  "Press enter to ask question number 2 (default is 'What's the best kind of cat?')",
);

const askQuestion2 = new ScenarioAction(
  "askQuestion2",
  async (/** @type {State} */ state) => {
    const userMessage2 = data.questions["question-2"];
    await askQuestion(userMessage2);
  },
);
const displayAskQuestion3 = new ScenarioOutput(
  "displayAskQuestion3",
  "Press enter to ask question number 3 (default is 'Where is the warmest city in Washington State right now?')",
);

const askQuestion3 = new ScenarioAction(
  "askQuestion3",
  async (/** @type {State} */ state) => {
    const userMessage3 = data.questions["question-3"];
    await askQuestion(userMessage3);
  },
);

const displayAskQuestion4 = new ScenarioOutput(
  "displayAskQuestion4",
  "Press enter to ask question number 4 (default is 'What's the warmest city in California right now?')",
);

const askQuestion4 = new ScenarioAction(
  "askQuestion4",
  async (/** @type {State} */ state) => {
    const userMessage4 = data.questions["question-4"];
    await askQuestion(userMessage4);
  },
);

const goodbye = new ScenarioOutput(
  "goodbye",
  "Thank you for checking out the Amazon Bedrock Tool Use demo. We hope you\n" +
    "learned something new, or got some inspiration for your own apps today!\n" +
    "For more Bedrock examples in different programming languages, have a look at:\n" +
    "https://docs.aws.amazon.com/bedrock/latest/userguide/service_code_examples.html",
);

const myScenario = new Scenario("Converse Tool Scenario", [
  greet,
  pressEnter,
  displayAskQuestion1,
  askQuestion1,
  pressEnter,
  displayAskQuestion2,
  askQuestion2,
  pressEnter,
  displayAskQuestion3,
  askQuestion3,
  pressEnter,
  displayAskQuestion4,
  askQuestion4,
  pressEnter,
  goodbye,
]);

/** @type {{ stepHandlerOptions: StepHandlerOptions }} */
export const main = async (stepHandlerOptions) => {
  await myScenario.run(stepHandlerOptions);
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const { values } = parseArgs({
    options: {
      yes: {
        type: "boolean",
        short: "y",
      },
    },
  });
  main({ confirmAll: values.yes });
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseCommand) di *Referensi AWS SDK untuk JavaScript API*. 

## Amazon Nova
<a name="amazon_nova"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AmazonNovaText_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.  

```
// This example demonstrates how to use the Amazon Nova foundation models to generate text.
// It shows how to:
// - Set up the Amazon Bedrock runtime client
// - Create a message
// - Configure and send a request
// - Process the response

import {
  BedrockRuntimeClient,
  ConversationRole,
  ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Step 1: Create the Amazon Bedrock runtime client
// Credentials will be automatically loaded from the environment.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Step 2: Specify which model to use:
// Available Amazon Nova models and their characteristics:
// - Amazon Nova Micro: Text-only model optimized for lowest latency and cost
// - Amazon Nova Lite:  Fast, low-cost multimodal model for image, video, and text
// - Amazon Nova Pro:   Advanced multimodal model balancing accuracy, speed, and cost
//
// For the most current model IDs, see:
// https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
const modelId = "amazon.nova-lite-v1:0";

// Step 3: Create the message
// The message includes the text prompt and specifies that it comes from the user
const inputText =
  "Describe the purpose of a 'hello world' program in one line.";
const message = {
  content: [{ text: inputText }],
  role: ConversationRole.USER,
};

// Step 4: Configure the request
// Optional parameters to control the model's response:
// - maxTokens: maximum number of tokens to generate
// - temperature: randomness (max: 1.0, default: 0.7)
//   OR
// - topP: diversity of word choice (max: 1.0, default: 0.9)
// Note: Use either temperature OR topP, but not both
const request = {
  modelId,
  messages: [message],
  inferenceConfig: {
    maxTokens: 500, // The maximum response length
    temperature: 0.5, // Using temperature for randomness control
    //topP: 0.9,        // Alternative: use topP instead of temperature
  },
};

// Step 5: Send and process the request
// - Send the request to the model
// - Extract and return the generated text from the response
try {
  const response = await client.send(new ConverseCommand(request));
  console.log(response.output.message.content[0].text);
} catch (error) {
  console.error(`ERROR: Can't invoke '${modelId}'. Reason: ${error.message}`);
  throw error;
}
```
Kirim percakapan pesan ke Amazon Nova menggunakan API Converse Bedrock dengan konfigurasi alat.  

```
// This example demonstrates how to send a conversation of messages to Amazon Nova using Bedrock's Converse API with a tool configuration.
// It shows how to:
// - 1. Set up the Amazon Bedrock runtime client
// - 2. Define the parameters required enable Amazon Bedrock to use a tool when formulating its response (model ID, user input, system prompt, and the tool spec)
// - 3. Send the request to Amazon Bedrock, and returns the response.
// - 4. Add the tool response to the conversation, and send it back to Amazon Bedrock.
// - 5. Publish the response.

import {
  BedrockRuntimeClient,
  ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Step 1: Create the Amazon Bedrock runtime client

// Credentials will be automatically loaded from the environment
const bedRockRuntimeClient = new BedrockRuntimeClient({
  region: "us-east-1",
});

// Step 2. Define the parameters required enable Amazon Bedrock to use a tool when formulating its response.

// The Bedrock Model ID.
const modelId = "amazon.nova-lite-v1:0";

// The system prompt to help Amazon Bedrock craft it's response.
const system_prompt = [
  {
    text:
      "You are a music expert that provides the most popular song played on a radio station, using only the\n" +
      "the top_song tool, which he call sign for the radio station for which you want the most popular song. " +
      "Example calls signs are WZPZ and WKRP. \n" +
      "- Only use the top_song tool. Never guess or make up information. \n" +
      "- If the tool errors, apologize, explain weather is unavailable, and suggest other options.\n" +
      "- Only respond to queries about the most popular song played on a radio station\n" +
      "Remind off-topic users of your purpose. \n" +
      "- Never claim to search online, access external data, or use tools besides the top_song tool.\n",
  },
];
//  The user's question.
const message = [
  {
    role: "user",
    content: [{ text: "What is the most popular song on WZPZ?" }],
  },
];
// The tool specification. In this case, it uses an example schema for
// a tool that gets the most popular song played on a radio station.
const tool_config = {
  tools: [
    {
      toolSpec: {
        name: "top_song",
        description: "Get the most popular song played on a radio station.",
        inputSchema: {
          json: {
            type: "object",
            properties: {
              sign: {
                type: "string",
                description:
                  "The call sign for the radio station for which you want the most popular song. Example calls signs are WZPZ and WKRP.",
              },
            },
            required: ["sign"],
          },
        },
      },
    },
  ],
};

// Helper function to return the song and artist from top_song tool.
async function get_top_song(call_sign) {
  try {
    if (call_sign === "WZPZ") {
      const song = "Elemental Hotel";
      const artist = "8 Storey Hike";
      return { song, artist };
    }
  } catch (error) {
    console.log(`${error.message}`);
  }
}

// 3. Send the request to Amazon Bedrock, and returns the response.
export async function SendConversationtoBedrock(
  modelId,
  message,
  system_prompt,
  tool_config,
) {
  try {
    const response = await bedRockRuntimeClient.send(
      new ConverseCommand({
        modelId: modelId,
        messages: message,
        system: system_prompt,
        toolConfig: tool_config,
      }),
    );
    if (response.stopReason === "tool_use") {
      const toolResultFinal = [];
      try {
        const output_message = response.output.message;
        message.push(output_message);
        const toolRequests = output_message.content;
        const toolMessage = toolRequests[0].text;
        console.log(toolMessage.replace(/<[^>]+>/g, ""));
        for (const toolRequest of toolRequests) {
          if (Object.hasOwn(toolRequest, "toolUse")) {
            const toolUse = toolRequest.toolUse;
            const sign = toolUse.input.sign;
            const toolUseID = toolUse.toolUseId;
            console.log(
              `Requesting tool ${toolUse.name}, Tool use id ${toolUseID}`,
            );
            if (toolUse.name === "top_song") {
              const toolResult = [];
              try {
                const top_song = await get_top_song(toolUse.input.sign).then(
                  (top_song) => top_song,
                );
                const toolResult = {
                  toolResult: {
                    toolUseId: toolUseID,
                    content: [
                      {
                        json: { song: top_song.song, artist: top_song.artist },
                      },
                    ],
                  },
                };
                toolResultFinal.push(toolResult);
              } catch (err) {
                const toolResult = {
                  toolUseId: toolUseID,
                  content: [{ json: { text: err.message } }],
                  status: "error",
                };
              }
            }
          }
        }
        const toolResultMessage = {
          role: "user",
          content: toolResultFinal,
        };
        // Step 4. Add the tool response to the conversation, and send it back to Amazon Bedrock.

        message.push(toolResultMessage);
        await SendConversationtoBedrock(
          modelId,
          message,
          system_prompt,
          tool_config,
        );
      } catch (caught) {
        console.error(`${caught.message}`);
        throw caught;
      }
    }

    // 4. Publish the response.
    if (response.stopReason === "end_turn") {
      const finalMessage = response.output.message.content[0].text;
      const messageToPrint = finalMessage.replace(/<[^>]+>/g);
      console.log(messageToPrint.replace(/<[^>]+>/g));
      return messageToPrint;
    }
  } catch (caught) {
    if (caught.name === "ModelNotReady") {
      console.log(
        `${caught.name} - Model not ready, please wait and try again.`,
      );
      throw caught;
    }
    if (caught.name === "BedrockRuntimeException") {
      console.log(
        `${caught.name} - Error occurred while sending Converse request`,
      );
      throw caught;
    }
  }
}
await SendConversationtoBedrock(modelId, message, system_prompt, tool_config);
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AmazonNovaText_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// This example demonstrates how to use the Amazon Nova foundation models
// to generate streaming text responses.
// It shows how to:
// - Set up the Amazon Bedrock runtime client
// - Create a message
// - Configure a streaming request
// - Process the streaming response

import {
  BedrockRuntimeClient,
  ConversationRole,
  ConverseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Step 1: Create the Amazon Bedrock runtime client
// Credentials will be automatically loaded from the environment
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Step 2: Specify which model to use
// Available Amazon Nova models and their characteristics:
// - Amazon Nova Micro: Text-only model optimized for lowest latency and cost
// - Amazon Nova Lite:  Fast, low-cost multimodal model for image, video, and text
// - Amazon Nova Pro:   Advanced multimodal model balancing accuracy, speed, and cost
//
// For the most current model IDs, see:
// https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
const modelId = "amazon.nova-lite-v1:0";

// Step 3: Create the message
// The message includes the text prompt and specifies that it comes from the user
const inputText =
  "Describe the purpose of a 'hello world' program in one paragraph";
const message = {
  content: [{ text: inputText }],
  role: ConversationRole.USER,
};

// Step 4: Configure the streaming request
// Optional parameters to control the model's response:
// - maxTokens: maximum number of tokens to generate
// - temperature: randomness (max: 1.0, default: 0.7)
//   OR
// - topP: diversity of word choice (max: 1.0, default: 0.9)
// Note: Use either temperature OR topP, but not both
const request = {
  modelId,
  messages: [message],
  inferenceConfig: {
    maxTokens: 500, // The maximum response length
    temperature: 0.5, // Using temperature for randomness control
    //topP: 0.9,        // Alternative: use topP instead of temperature
  },
};

// Step 5: Send and process the streaming request
// - Send the request to the model
// - Process each chunk of the streaming response
try {
  const response = await client.send(new ConverseStreamCommand(request));

  for await (const chunk of response.stream) {
    if (chunk.contentBlockDelta) {
      // Print each text chunk as it arrives
      process.stdout.write(chunk.contentBlockDelta.delta?.text || "");
    }
  }
} catch (error) {
  console.error(`ERROR: Can't invoke '${modelId}'. Reason: ${error.message}`);
  process.exitCode = 1;
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseStreamCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Skenario: Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUseDemo_AmazonNova_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime/scenarios/converse_tool_scenario#code-examples). 
Eksekusi utama dari alur skenario. Skenario ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
/* Before running this JavaScript code example, set up your development environment, including your credentials.
This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
The script interacts with a foundation model on Amazon Bedrock to provide weather information based on user
input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.*/

import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import {
  BedrockRuntimeClient,
  ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";

import { parseArgs } from "node:util";
import { fileURLToPath } from "node:url";
import data from "./questions.json" with { type: "json" };
import toolConfig from "./tool_config.json" with { type: "json" };

const __filename = fileURLToPath(import.meta.url);

const systemPrompt = [
  {
    text:
      "You are a weather assistant that provides current weather data for user-specified locations using only\n" +
      "the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.\n" +
      "If the user provides coordinates, infer the approximate location and refer to it in your response.\n" +
      "To use the tool, you strictly apply the provided tool specification.\n" +
      "If the user specifies a state, country, or region, infer the locations of cities within that state.\n" +
      "\n" +
      "- Explain your step-by-step process, and give brief updates before each step.\n" +
      "- Only use the Weather_Tool for data. Never guess or make up information. \n" +
      "- Repeat the tool use for subsequent requests if necessary.\n" +
      "- If the tool errors, apologize, explain weather is unavailable, and suggest other options.\n" +
      "- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use\n" +
      "  emojis where appropriate.\n" +
      "- Only respond to weather queries. Remind off-topic users of your purpose. \n" +
      "- Never claim to search online, access external data, or use tools besides Weather_Tool.\n" +
      "- Complete the entire process until you have all required data before sending the complete response.",
  },
];
const tools_config = toolConfig;

/// Starts the conversation with the user and handles the interaction with Bedrock.
async function askQuestion(userMessage) {
  // The maximum number of recursive calls allowed in the tool use function.
  // This helps prevent infinite loops and potential performance issues.
  const max_recursions = 5;
  const messages = [
    {
      role: "user",
      content: [{ text: userMessage }],
    },
  ];
  try {
    const response = await SendConversationtoBedrock(messages);
    await ProcessModelResponseAsync(response, messages, max_recursions);
  } catch (error) {
    console.log("error ", error);
  }
}

// Sends the conversation, the system prompt, and the tool spec to Amazon Bedrock, and returns the response.
// param "messages" - The conversation history including the next message to send.
// return - The response from Amazon Bedrock.
async function SendConversationtoBedrock(messages) {
  const bedRockRuntimeClient = new BedrockRuntimeClient({
    region: "us-east-1",
  });
  try {
    const modelId = "amazon.nova-lite-v1:0";
    const response = await bedRockRuntimeClient.send(
      new ConverseCommand({
        modelId: modelId,
        messages: messages,
        system: systemPrompt,
        toolConfig: tools_config,
      }),
    );
    return response;
  } catch (caught) {
    if (caught.name === "ModelNotReady") {
      console.log(
        "`${caught.name}` - Model not ready, please wait and try again.",
      );
      throw caught;
    }
    if (caught.name === "BedrockRuntimeException") {
      console.log(
        '`${caught.name}` - "Error occurred while sending Converse request.',
      );
      throw caught;
    }
  }
}

// Processes the response received via Amazon Bedrock and performs the necessary actions based on the stop reason.
// param "response" - The model's response returned via Amazon Bedrock.
// param "messages" - The conversation history.
// param "max_recursions" - The maximum number of recursive calls allowed.
async function ProcessModelResponseAsync(response, messages, max_recursions) {
  if (max_recursions <= 0) {
    await HandleToolUseAsync(response, messages);
  }
  if (response.stopReason === "tool_use") {
    await HandleToolUseAsync(response, messages, max_recursions - 1);
  }
  if (response.stopReason === "end_turn") {
    const messageToPrint = response.output.message.content[0].text;
    console.log(messageToPrint.replace(/<[^>]+>/g, ""));
  }
}
// Handles the tool use case by invoking the specified tool and sending the tool's response back to Bedrock.
// The tool response is appended to the conversation, and the conversation is sent back to Amazon Bedrock for further processing.
// param "response" - the model's response containing the tool use request.
// param "messages" - the conversation history.
// param "max_recursions" - The maximum number of recursive calls allowed.
async function HandleToolUseAsync(response, messages, max_recursions) {
  const toolResultFinal = [];
  try {
    const output_message = response.output.message;
    messages.push(output_message);
    const toolRequests = output_message.content;
    const toolMessage = toolRequests[0].text;
    console.log(toolMessage.replace(/<[^>]+>/g, ""));
    for (const toolRequest of toolRequests) {
      if (Object.hasOwn(toolRequest, "toolUse")) {
        const toolUse = toolRequest.toolUse;
        const latitude = toolUse.input.latitude;
        const longitude = toolUse.input.longitude;
        const toolUseID = toolUse.toolUseId;
        console.log(
          `Requesting tool ${toolUse.name}, Tool use id ${toolUseID}`,
        );
        if (toolUse.name === "Weather_Tool") {
          try {
            const current_weather = await callWeatherTool(
              longitude,
              latitude,
            ).then((current_weather) => current_weather);
            const currentWeather = current_weather;
            const toolResult = {
              toolResult: {
                toolUseId: toolUseID,
                content: [{ json: currentWeather }],
              },
            };
            toolResultFinal.push(toolResult);
          } catch (err) {
            console.log("An error occurred. ", err);
          }
        }
      }
    }

    const toolResultMessage = {
      role: "user",
      content: toolResultFinal,
    };
    messages.push(toolResultMessage);
    // Send the conversation to Amazon Bedrock
    await ProcessModelResponseAsync(
      await SendConversationtoBedrock(messages),
      messages,
    );
  } catch (error) {
    console.log("An error occurred. ", error);
  }
}
// Call the Weathertool.
// param = longitude of location
// param = latitude of location
async function callWeatherTool(longitude, latitude) {
  // Open-Meteo API endpoint
  const apiUrl = `https://api.open-meteo.com/v1/forecast?latitude=${latitude}&longitude=${longitude}&current_weather=true`;

  // Fetch the weather data.
  return fetch(apiUrl)
    .then((response) => {
      return response.json().then((current_weather) => {
        return current_weather;
      });
    })
    .catch((error) => {
      console.error("Error fetching weather data:", error);
    });
}
/**
 * Used repeatedly to have the user press enter.
 * @type {ScenarioInput}
 */
const pressEnter = new ScenarioInput("continue", "Press Enter to continue", {
  type: "input",
  default: "",
});

const greet = new ScenarioOutput(
  "greet",
  "Welcome to the Amazon Bedrock Tool Use demo! \n" +
    "This assistant provides current weather information for user-specified locations. " +
    "You can ask for weather details by providing the location name or coordinates." +
    "Weather information will be provided using a custom Tool and open-meteo API." +
    "For the purposes of this example, we'll use in order the questions in ./questions.json :\n" +
    "What's the weather like in Seattle? " +
    "What's the best kind of cat? " +
    "Where is the warmest city in Washington State right now? " +
    "What's the warmest city in California right now?\n" +
    "To exit the program, simply type 'x' and press Enter.\n" +
    "Have fun and experiment with the app by editing the questions in ./questions.json! " +
    "P.S.: You're not limited to single locations, or even to using English! ",

  { header: true },
);
const displayAskQuestion1 = new ScenarioOutput(
  "displayAskQuestion1",
  "Press enter to ask question number 1 (default is 'What's the weather like in Seattle?')",
);

const askQuestion1 = new ScenarioAction(
  "askQuestion1",
  async (/** @type {State} */ state) => {
    const userMessage1 = data.questions["question-1"];
    await askQuestion(userMessage1);
  },
);

const displayAskQuestion2 = new ScenarioOutput(
  "displayAskQuestion2",
  "Press enter to ask question number 2 (default is 'What's the best kind of cat?')",
);

const askQuestion2 = new ScenarioAction(
  "askQuestion2",
  async (/** @type {State} */ state) => {
    const userMessage2 = data.questions["question-2"];
    await askQuestion(userMessage2);
  },
);
const displayAskQuestion3 = new ScenarioOutput(
  "displayAskQuestion3",
  "Press enter to ask question number 3 (default is 'Where is the warmest city in Washington State right now?')",
);

const askQuestion3 = new ScenarioAction(
  "askQuestion3",
  async (/** @type {State} */ state) => {
    const userMessage3 = data.questions["question-3"];
    await askQuestion(userMessage3);
  },
);

const displayAskQuestion4 = new ScenarioOutput(
  "displayAskQuestion4",
  "Press enter to ask question number 4 (default is 'What's the warmest city in California right now?')",
);

const askQuestion4 = new ScenarioAction(
  "askQuestion4",
  async (/** @type {State} */ state) => {
    const userMessage4 = data.questions["question-4"];
    await askQuestion(userMessage4);
  },
);

const goodbye = new ScenarioOutput(
  "goodbye",
  "Thank you for checking out the Amazon Bedrock Tool Use demo. We hope you\n" +
    "learned something new, or got some inspiration for your own apps today!\n" +
    "For more Bedrock examples in different programming languages, have a look at:\n" +
    "https://docs.aws.amazon.com/bedrock/latest/userguide/service_code_examples.html",
);

const myScenario = new Scenario("Converse Tool Scenario", [
  greet,
  pressEnter,
  displayAskQuestion1,
  askQuestion1,
  pressEnter,
  displayAskQuestion2,
  askQuestion2,
  pressEnter,
  displayAskQuestion3,
  askQuestion3,
  pressEnter,
  displayAskQuestion4,
  askQuestion4,
  pressEnter,
  goodbye,
]);

/** @type {{ stepHandlerOptions: StepHandlerOptions }} */
export const main = async (stepHandlerOptions) => {
  await myScenario.run(stepHandlerOptions);
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const { values } = parseArgs({
    options: {
      yes: {
        type: "boolean",
        short: "y",
      },
    },
  });
  main({ confirmAll: values.yes });
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseCommand) di *Referensi AWS SDK untuk JavaScript API*. 

## Kanvas Amazon Nova
<a name="amazon_nova_canvas"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AmazonNovaImageGeneration_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Nova Canvas di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Nova Canvas.  

```
import {
  BedrockRuntimeClient,
  InvokeModelCommand,
} from "@aws-sdk/client-bedrock-runtime";
import { saveImage } from "../../utils/image-creation.js";
import { fileURLToPath } from "node:url";

/**
 * This example demonstrates how to use Amazon Nova Canvas to generate images.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Configure the image generation parameters
 * - Send a request to generate an image
 * - Process the response and handle the generated image
 *
 * @returns {Promise<string>} Base64-encoded image data
 */
export const invokeModel = async () => {
  // Step 1: Create the Amazon Bedrock runtime client
  // Credentials will be automatically loaded from the environment
  const client = new BedrockRuntimeClient({ region: "us-east-1" });

  // Step 2: Specify which model to use
  // For the latest available models, see:
  // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
  const modelId = "amazon.nova-canvas-v1:0";

  // Step 3: Configure the request payload
  // First, set the main parameters:
  // - prompt: Text description of the image to generate
  // - seed: Random number for reproducible generation (0 to 858,993,459)
  const prompt = "A stylized picture of a cute old steampunk robot";
  const seed = Math.floor(Math.random() * 858993460);

  // Then, create the payload using the following structure:
  // - taskType: TEXT_IMAGE (specifies text-to-image generation)
  // - textToImageParams: Contains the text prompt
  // - imageGenerationConfig: Contains optional generation settings (seed, quality, etc.)
  // For a list of available request parameters, see:
  // https://docs.aws.amazon.com/nova/latest/userguide/image-gen-req-resp-structure.html
  const payload = {
    taskType: "TEXT_IMAGE",
    textToImageParams: {
      text: prompt,
    },
    imageGenerationConfig: {
      seed,
      quality: "standard",
    },
  };

  // Step 4: Send and process the request
  // - Embed the payload in a request object
  // - Send the request to the model
  // - Extract and return the generated image data from the response
  try {
    const request = {
      modelId,
      body: JSON.stringify(payload),
    };
    const response = await client.send(new InvokeModelCommand(request));

    const decodedResponseBody = new TextDecoder().decode(response.body);
    // The response includes an array of base64-encoded PNG images
    /** @type {{images: string[]}} */
    const responseBody = JSON.parse(decodedResponseBody);
    return responseBody.images[0]; // Base64-encoded image data
  } catch (error) {
    console.error(`ERROR: Can't invoke '${modelId}'. Reason: ${error.message}`);
    throw error;
  }
};

// If run directly, execute the example and save the generated image
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  console.log("Generating image. This may take a few seconds...");
  invokeModel()
    .then(async (imageData) => {
      const imagePath = await saveImage(imageData, "nova-canvas");
      // Example path: javascriptv3/example_code/bedrock-runtime/output/nova-canvas/image-01.png
      console.log(`Image saved to: ${imagePath}`);
    })
    .catch((error) => {
      console.error("Execution failed:", error);
      process.exitCode = 1;
    });
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Antropik Claude
<a name="anthropic_claude"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AnthropicClaude_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.  

```
// Use the Conversation API to send a text message to Anthropic Claude.

import {
  BedrockRuntimeClient,
  ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Set the model ID, e.g., Claude 3 Haiku.
const modelId = "anthropic.claude-3-haiku-20240307-v1:0";

// Start a conversation with the user message.
const userMessage =
  "Describe the purpose of a 'hello world' program in one line.";
const conversation = [
  {
    role: "user",
    content: [{ text: userMessage }],
  },
];

// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseCommand({
  modelId,
  messages: conversation,
  inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});

try {
  // Send the command to the model and wait for the response
  const response = await client.send(command);

  // Extract and print the response text.
  const responseText = response.output.message.content[0].text;
  console.log(responseText);
} catch (err) {
  console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
  process.exit(1);
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AnthropicClaude_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Conversation API to send a text message to Anthropic Claude.

import {
  BedrockRuntimeClient,
  ConverseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Set the model ID, e.g., Claude 3 Haiku.
const modelId = "anthropic.claude-3-haiku-20240307-v1:0";

// Start a conversation with the user message.
const userMessage =
  "Describe the purpose of a 'hello world' program in one line.";
const conversation = [
  {
    role: "user",
    content: [{ text: userMessage }],
  },
];

// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseStreamCommand({
  modelId,
  messages: conversation,
  inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});

try {
  // Send the command to the model and wait for the response
  const response = await client.send(command);

  // Extract and print the streamed response text in real-time.
  for await (const item of response.stream) {
    if (item.contentBlockDelta) {
      process.stdout.write(item.contentBlockDelta.delta?.text);
    }
  }
} catch (err) {
  console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
  process.exit(1);
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseStreamCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AnthropicClaude_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan Invoke Model API.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
import { fileURLToPath } from "node:url";

import { FoundationModels } from "../../config/foundation_models.js";
import {
  BedrockRuntimeClient,
  InvokeModelCommand,
  InvokeModelWithResponseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";

/**
 * @typedef {Object} ResponseContent
 * @property {string} text
 *
 * @typedef {Object} MessagesResponseBody
 * @property {ResponseContent[]} content
 *
 * @typedef {Object} Delta
 * @property {string} text
 *
 * @typedef {Object} Message
 * @property {string} role
 *
 * @typedef {Object} Chunk
 * @property {string} type
 * @property {Delta} delta
 * @property {Message} message
 */

/**
 * Invokes Anthropic Claude 3 using the Messages API.
 *
 * To learn more about the Anthropic Messages API, go to:
 * https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
 *
 * @param {string} prompt - The input text prompt for the model to complete.
 * @param {string} [modelId] - The ID of the model to use. Defaults to "anthropic.claude-3-haiku-20240307-v1:0".
 */
export const invokeModel = async (
  prompt,
  modelId = "anthropic.claude-3-haiku-20240307-v1:0",
) => {
  // Create a new Bedrock Runtime client instance.
  const client = new BedrockRuntimeClient({ region: "us-east-1" });

  // Prepare the payload for the model.
  const payload = {
    anthropic_version: "bedrock-2023-05-31",
    max_tokens: 1000,
    messages: [
      {
        role: "user",
        content: [{ type: "text", text: prompt }],
      },
    ],
  };

  // Invoke Claude with the payload and wait for the response.
  const command = new InvokeModelCommand({
    contentType: "application/json",
    body: JSON.stringify(payload),
    modelId,
  });
  const apiResponse = await client.send(command);

  // Decode and return the response(s)
  const decodedResponseBody = new TextDecoder().decode(apiResponse.body);
  /** @type {MessagesResponseBody} */
  const responseBody = JSON.parse(decodedResponseBody);
  return responseBody.content[0].text;
};

/**
 * Invokes Anthropic Claude 3 and processes the response stream.
 *
 * To learn more about the Anthropic Messages API, go to:
 * https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
 *
 * @param {string} prompt - The input text prompt for the model to complete.
 * @param {string} [modelId] - The ID of the model to use. Defaults to "anthropic.claude-3-haiku-20240307-v1:0".
 */
export const invokeModelWithResponseStream = async (
  prompt,
  modelId = "anthropic.claude-3-haiku-20240307-v1:0",
) => {
  // Create a new Bedrock Runtime client instance.
  const client = new BedrockRuntimeClient({ region: "us-east-1" });

  // Prepare the payload for the model.
  const payload = {
    anthropic_version: "bedrock-2023-05-31",
    max_tokens: 1000,
    messages: [
      {
        role: "user",
        content: [{ type: "text", text: prompt }],
      },
    ],
  };

  // Invoke Claude with the payload and wait for the API to respond.
  const command = new InvokeModelWithResponseStreamCommand({
    contentType: "application/json",
    body: JSON.stringify(payload),
    modelId,
  });
  const apiResponse = await client.send(command);

  let completeMessage = "";

  // Decode and process the response stream
  for await (const item of apiResponse.body) {
    /** @type Chunk */
    const chunk = JSON.parse(new TextDecoder().decode(item.chunk.bytes));
    const chunk_type = chunk.type;

    if (chunk_type === "content_block_delta") {
      const text = chunk.delta.text;
      completeMessage = completeMessage + text;
      process.stdout.write(text);
    }
  }

  // Return the final response
  return completeMessage;
};

// Invoke the function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const prompt = 'Write a paragraph starting with: "Once upon a time..."';
  const modelId = FoundationModels.CLAUDE_3_HAIKU.modelId;
  console.log(`Prompt: ${prompt}`);
  console.log(`Model ID: ${modelId}`);

  try {
    console.log("-".repeat(53));
    const response = await invokeModel(prompt, modelId);
    console.log(`\n${"-".repeat(53)}`);
    console.log("Final structured response:");
    console.log(response);
  } catch (err) {
    console.log(`\n${err}`);
  }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_AnthropicClaude_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Anthropic Claude, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
import { fileURLToPath } from "node:url";

import { FoundationModels } from "../../config/foundation_models.js";
import {
  BedrockRuntimeClient,
  InvokeModelCommand,
  InvokeModelWithResponseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";

/**
 * @typedef {Object} ResponseContent
 * @property {string} text
 *
 * @typedef {Object} MessagesResponseBody
 * @property {ResponseContent[]} content
 *
 * @typedef {Object} Delta
 * @property {string} text
 *
 * @typedef {Object} Message
 * @property {string} role
 *
 * @typedef {Object} Chunk
 * @property {string} type
 * @property {Delta} delta
 * @property {Message} message
 */

/**
 * Invokes Anthropic Claude 3 using the Messages API.
 *
 * To learn more about the Anthropic Messages API, go to:
 * https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
 *
 * @param {string} prompt - The input text prompt for the model to complete.
 * @param {string} [modelId] - The ID of the model to use. Defaults to "anthropic.claude-3-haiku-20240307-v1:0".
 */
export const invokeModel = async (
  prompt,
  modelId = "anthropic.claude-3-haiku-20240307-v1:0",
) => {
  // Create a new Bedrock Runtime client instance.
  const client = new BedrockRuntimeClient({ region: "us-east-1" });

  // Prepare the payload for the model.
  const payload = {
    anthropic_version: "bedrock-2023-05-31",
    max_tokens: 1000,
    messages: [
      {
        role: "user",
        content: [{ type: "text", text: prompt }],
      },
    ],
  };

  // Invoke Claude with the payload and wait for the response.
  const command = new InvokeModelCommand({
    contentType: "application/json",
    body: JSON.stringify(payload),
    modelId,
  });
  const apiResponse = await client.send(command);

  // Decode and return the response(s)
  const decodedResponseBody = new TextDecoder().decode(apiResponse.body);
  /** @type {MessagesResponseBody} */
  const responseBody = JSON.parse(decodedResponseBody);
  return responseBody.content[0].text;
};

/**
 * Invokes Anthropic Claude 3 and processes the response stream.
 *
 * To learn more about the Anthropic Messages API, go to:
 * https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
 *
 * @param {string} prompt - The input text prompt for the model to complete.
 * @param {string} [modelId] - The ID of the model to use. Defaults to "anthropic.claude-3-haiku-20240307-v1:0".
 */
export const invokeModelWithResponseStream = async (
  prompt,
  modelId = "anthropic.claude-3-haiku-20240307-v1:0",
) => {
  // Create a new Bedrock Runtime client instance.
  const client = new BedrockRuntimeClient({ region: "us-east-1" });

  // Prepare the payload for the model.
  const payload = {
    anthropic_version: "bedrock-2023-05-31",
    max_tokens: 1000,
    messages: [
      {
        role: "user",
        content: [{ type: "text", text: prompt }],
      },
    ],
  };

  // Invoke Claude with the payload and wait for the API to respond.
  const command = new InvokeModelWithResponseStreamCommand({
    contentType: "application/json",
    body: JSON.stringify(payload),
    modelId,
  });
  const apiResponse = await client.send(command);

  let completeMessage = "";

  // Decode and process the response stream
  for await (const item of apiResponse.body) {
    /** @type Chunk */
    const chunk = JSON.parse(new TextDecoder().decode(item.chunk.bytes));
    const chunk_type = chunk.type;

    if (chunk_type === "content_block_delta") {
      const text = chunk.delta.text;
      completeMessage = completeMessage + text;
      process.stdout.write(text);
    }
  }

  // Return the final response
  return completeMessage;
};

// Invoke the function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const prompt = 'Write a paragraph starting with: "Once upon a time..."';
  const modelId = FoundationModels.CLAUDE_3_HAIKU.modelId;
  console.log(`Prompt: ${prompt}`);
  console.log(`Model ID: ${modelId}`);

  try {
    console.log("-".repeat(53));
    const response = await invokeModel(prompt, modelId);
    console.log(`\n${"-".repeat(53)}`);
    console.log("Final structured response:");
    console.log(response);
  } catch (err) {
    console.log(`\n${err}`);
  }
}
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelWithResponseStreamCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Perintah Cohere
<a name="cohere_command"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_CohereCommand_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock.  

```
// Use the Conversation API to send a text message to Cohere Command.

import {
  BedrockRuntimeClient,
  ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Set the model ID, e.g., Command R.
const modelId = "cohere.command-r-v1:0";

// Start a conversation with the user message.
const userMessage =
  "Describe the purpose of a 'hello world' program in one line.";
const conversation = [
  {
    role: "user",
    content: [{ text: userMessage }],
  },
];

// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseCommand({
  modelId,
  messages: conversation,
  inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});

try {
  // Send the command to the model and wait for the response
  const response = await client.send(command);

  // Extract and print the response text.
  const responseText = response.output.message.content[0].text;
  console.log(responseText);
} catch (err) {
  console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
  process.exit(1);
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_CohereCommand_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Conversation API to send a text message to Cohere Command.

import {
  BedrockRuntimeClient,
  ConverseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Set the model ID, e.g., Command R.
const modelId = "cohere.command-r-v1:0";

// Start a conversation with the user message.
const userMessage =
  "Describe the purpose of a 'hello world' program in one line.";
const conversation = [
  {
    role: "user",
    content: [{ text: userMessage }],
  },
];

// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseStreamCommand({
  modelId,
  messages: conversation,
  inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});

try {
  // Send the command to the model and wait for the response
  const response = await client.send(command);

  // Extract and print the streamed response text in real-time.
  for await (const item of response.stream) {
    if (item.contentBlockDelta) {
      process.stdout.write(item.contentBlockDelta.delta?.text);
    }
  }
} catch (err) {
  console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
  process.exit(1);
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseStreamCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Meta Llama
<a name="meta_llama"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_MetaLlama_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.  

```
// Use the Conversation API to send a text message to Meta Llama.

import {
  BedrockRuntimeClient,
  ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Set the model ID, e.g., Llama 3 8b Instruct.
const modelId = "meta.llama3-8b-instruct-v1:0";

// Start a conversation with the user message.
const userMessage =
  "Describe the purpose of a 'hello world' program in one line.";
const conversation = [
  {
    role: "user",
    content: [{ text: userMessage }],
  },
];

// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseCommand({
  modelId,
  messages: conversation,
  inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});

try {
  // Send the command to the model and wait for the response
  const response = await client.send(command);

  // Extract and print the response text.
  const responseText = response.output.message.content[0].text;
  console.log(responseText);
} catch (err) {
  console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
  process.exit(1);
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_MetaLlama_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Conversation API to send a text message to Meta Llama.

import {
  BedrockRuntimeClient,
  ConverseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Set the model ID, e.g., Llama 3 8b Instruct.
const modelId = "meta.llama3-8b-instruct-v1:0";

// Start a conversation with the user message.
const userMessage =
  "Describe the purpose of a 'hello world' program in one line.";
const conversation = [
  {
    role: "user",
    content: [{ text: userMessage }],
  },
];

// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseStreamCommand({
  modelId,
  messages: conversation,
  inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});

try {
  // Send the command to the model and wait for the response
  const response = await client.send(command);

  // Extract and print the streamed response text in real-time.
  for await (const item of response.stream) {
    if (item.contentBlockDelta) {
      process.stdout.write(item.contentBlockDelta.delta?.text);
    }
  }
} catch (err) {
  console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
  process.exit(1);
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseStreamCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_MetaLlama3_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan Invoke Model API.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Send a prompt to Meta Llama 3 and print the response.

import {
  BedrockRuntimeClient,
  InvokeModelCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region of your choice.
const client = new BedrockRuntimeClient({ region: "us-west-2" });

// Set the model ID, e.g., Llama 3 70B Instruct.
const modelId = "meta.llama3-70b-instruct-v1:0";

// Define the user message to send.
const userMessage =
  "Describe the purpose of a 'hello world' program in one sentence.";

// Embed the message in Llama 3's prompt format.
const prompt = `
<|begin_of_text|><|start_header_id|>user<|end_header_id|>
${userMessage}
<|eot_id|>
<|start_header_id|>assistant<|end_header_id|>
`;

// Format the request payload using the model's native structure.
const request = {
  prompt,
  // Optional inference parameters:
  max_gen_len: 512,
  temperature: 0.5,
  top_p: 0.9,
};

// Encode and send the request.
const response = await client.send(
  new InvokeModelCommand({
    contentType: "application/json",
    body: JSON.stringify(request),
    modelId,
  }),
);

// Decode the native response body.
/** @type {{ generation: string }} */
const nativeResponse = JSON.parse(new TextDecoder().decode(response.body));

// Extract and print the generated text.
const responseText = nativeResponse.generation;
console.log(responseText);

// Learn more about the Llama 3 prompt format at:
// https://llama.meta.com/docs/model-cards-and-prompt-formats/meta-llama-3/#special-tokens-used-with-meta-llama-3
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_MetaLlama3_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Send a prompt to Meta Llama 3 and print the response stream in real-time.

import {
  BedrockRuntimeClient,
  InvokeModelWithResponseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region of your choice.
const client = new BedrockRuntimeClient({ region: "us-west-2" });

// Set the model ID, e.g., Llama 3 70B Instruct.
const modelId = "meta.llama3-70b-instruct-v1:0";

// Define the user message to send.
const userMessage =
  "Describe the purpose of a 'hello world' program in one sentence.";

// Embed the message in Llama 3's prompt format.
const prompt = `
<|begin_of_text|><|start_header_id|>user<|end_header_id|>
${userMessage}
<|eot_id|>
<|start_header_id|>assistant<|end_header_id|>
`;

// Format the request payload using the model's native structure.
const request = {
  prompt,
  // Optional inference parameters:
  max_gen_len: 512,
  temperature: 0.5,
  top_p: 0.9,
};

// Encode and send the request.
const responseStream = await client.send(
  new InvokeModelWithResponseStreamCommand({
    contentType: "application/json",
    body: JSON.stringify(request),
    modelId,
  }),
);

// Extract and print the response stream in real-time.
for await (const event of responseStream.body) {
  /** @type {{ generation: string }} */
  const chunk = JSON.parse(new TextDecoder().decode(event.chunk.bytes));
  if (chunk.generation) {
    process.stdout.write(chunk.generation);
  }
}

// Learn more about the Llama 3 prompt format at:
// https://llama.meta.com/docs/model-cards-and-prompt-formats/meta-llama-3/#special-tokens-used-with-meta-llama-3
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelWithResponseStreamCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Mistral AI
<a name="mistral_ai"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_Mistral_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Mistral, menggunakan API Converse Bedrock.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock.  

```
// Use the Conversation API to send a text message to Mistral.

import {
  BedrockRuntimeClient,
  ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Set the model ID, e.g., Mistral Large.
const modelId = "mistral.mistral-large-2402-v1:0";

// Start a conversation with the user message.
const userMessage =
  "Describe the purpose of a 'hello world' program in one line.";
const conversation = [
  {
    role: "user",
    content: [{ text: userMessage }],
  },
];

// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseCommand({
  modelId,
  messages: conversation,
  inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});

try {
  // Send the command to the model and wait for the response
  const response = await client.send(command);

  // Extract and print the response text.
  const responseText = response.output.message.content[0].text;
  console.log(responseText);
} catch (err) {
  console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
  process.exit(1);
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_Mistral_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Mistral, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Conversation API to send a text message to Mistral.

import {
  BedrockRuntimeClient,
  ConverseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";

// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });

// Set the model ID, e.g., Mistral Large.
const modelId = "mistral.mistral-large-2402-v1:0";

// Start a conversation with the user message.
const userMessage =
  "Describe the purpose of a 'hello world' program in one line.";
const conversation = [
  {
    role: "user",
    content: [{ text: userMessage }],
  },
];

// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseStreamCommand({
  modelId,
  messages: conversation,
  inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});

try {
  // Send the command to the model and wait for the response
  const response = await client.send(command);

  // Extract and print the streamed response text in real-time.
  for await (const item of response.stream) {
    if (item.contentBlockDelta) {
      process.stdout.write(item.contentBlockDelta.delta?.text);
    }
  }
} catch (err) {
  console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
  process.exit(1);
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseStreamCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_MistralAi_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Mistral, menggunakan Invoke Model API.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
import { fileURLToPath } from "node:url";

import { FoundationModels } from "../../config/foundation_models.js";
import {
  BedrockRuntimeClient,
  InvokeModelCommand,
} from "@aws-sdk/client-bedrock-runtime";

/**
 * @typedef {Object} Output
 * @property {string} text
 *
 * @typedef {Object} ResponseBody
 * @property {Output[]} outputs
 */

/**
 * Invokes a Mistral 7B Instruct model.
 *
 * @param {string} prompt - The input text prompt for the model to complete.
 * @param {string} [modelId] - The ID of the model to use. Defaults to "mistral.mistral-7b-instruct-v0:2".
 */
export const invokeModel = async (
  prompt,
  modelId = "mistral.mistral-7b-instruct-v0:2",
) => {
  // Create a new Bedrock Runtime client instance.
  const client = new BedrockRuntimeClient({ region: "us-east-1" });

  // Mistral instruct models provide optimal results when embedding
  // the prompt into the following template:
  const instruction = `<s>[INST] ${prompt} [/INST]`;

  // Prepare the payload.
  const payload = {
    prompt: instruction,
    max_tokens: 500,
    temperature: 0.5,
  };

  // Invoke the model with the payload and wait for the response.
  const command = new InvokeModelCommand({
    contentType: "application/json",
    body: JSON.stringify(payload),
    modelId,
  });
  const apiResponse = await client.send(command);

  // Decode and return the response.
  const decodedResponseBody = new TextDecoder().decode(apiResponse.body);
  /** @type {ResponseBody} */
  const responseBody = JSON.parse(decodedResponseBody);
  return responseBody.outputs[0].text;
};

// Invoke the function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const prompt =
    'Complete the following in one sentence: "Once upon a time..."';
  const modelId = FoundationModels.MISTRAL_7B.modelId;
  console.log(`Prompt: ${prompt}`);
  console.log(`Model ID: ${modelId}`);

  try {
    console.log("-".repeat(53));
    const response = await invokeModel(prompt, modelId);
    console.log(response);
  } catch (err) {
    console.log(err);
  }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Amazon Bedrock Agents menggunakan SDK for JavaScript (v3)
<a name="javascript_3_bedrock-agent_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Bedrock Agents.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Agen Bedrock Amazon
<a name="bedrock-agent_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Bedrock Agents.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-agent#code-examples). 

```
import { fileURLToPath } from "node:url";

import {
  BedrockAgentClient,
  GetAgentCommand,
  paginateListAgents,
} from "@aws-sdk/client-bedrock-agent";

/**
 * @typedef {Object} AgentSummary
 */

/**
 * A simple scenario to demonstrate basic setup and interaction with the Bedrock Agents Client.
 *
 * This function first initializes the Amazon Bedrock Agents client for a specific region.
 * It then retrieves a list of existing agents using the streamlined paginator approach.
 * For each agent found, it retrieves detailed information using a command object.
 *
 * Demonstrates:
 * - Use of the Bedrock Agents client to initialize and communicate with the AWS service.
 * - Listing resources in a paginated response pattern.
 * - Accessing an individual resource using a command object.
 *
 * @returns {Promise<void>} A promise that resolves when the function has completed execution.
 */
export const main = async () => {
  const region = "us-east-1";

  console.log("=".repeat(68));

  console.log(`Initializing Amazon Bedrock Agents client for ${region}...`);
  const client = new BedrockAgentClient({ region });

  console.log("Retrieving the list of existing agents...");
  const paginatorConfig = { client };
  const pages = paginateListAgents(paginatorConfig, {});

  /** @type {AgentSummary[]} */
  const agentSummaries = [];
  for await (const page of pages) {
    agentSummaries.push(...page.agentSummaries);
  }

  console.log(`Found ${agentSummaries.length} agents in ${region}.`);

  if (agentSummaries.length > 0) {
    for (const agentSummary of agentSummaries) {
      const agentId = agentSummary.agentId;
      console.log("=".repeat(68));
      console.log(`Retrieving agent with ID: ${agentId}:`);
      console.log("-".repeat(68));

      const command = new GetAgentCommand({ agentId });
      const response = await client.send(command);
      const agent = response.agent;

      console.log(` Name: ${agent.agentName}`);
      console.log(` Status: ${agent.agentStatus}`);
      console.log(` ARN: ${agent.agentArn}`);
      console.log(` Foundation model: ${agent.foundationModel}`);
    }
  }
  console.log("=".repeat(68));
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  await main();
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [GetAgent](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent/command/GetAgentCommand)
  + [ListAgents](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent/command/ListAgentsCommand)

## Tindakan
<a name="actions"></a>

### `CreateAgent`
<a name="bedrock-agent_CreateAgent_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAgent`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-agent#code-examples). 
Buat agen.  

```
import { fileURLToPath } from "node:url";
import { checkForPlaceholders } from "../lib/utils.js";

import {
  BedrockAgentClient,
  CreateAgentCommand,
} from "@aws-sdk/client-bedrock-agent";

/**
 * Creates an Amazon Bedrock Agent.
 *
 * @param {string} agentName - A name for the agent that you create.
 * @param {string} foundationModel - The foundation model to be used by the agent you create.
 * @param {string} agentResourceRoleArn - The ARN of the IAM role with permissions required by the agent.
 * @param {string} [region='us-east-1'] - The AWS region in use.
 * @returns {Promise<import("@aws-sdk/client-bedrock-agent").Agent>} An object containing details of the created agent.
 */
export const createAgent = async (
  agentName,
  foundationModel,
  agentResourceRoleArn,
  region = "us-east-1",
) => {
  const client = new BedrockAgentClient({ region });

  const command = new CreateAgentCommand({
    agentName,
    foundationModel,
    agentResourceRoleArn,
  });
  const response = await client.send(command);

  return response.agent;
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  // Replace the placeholders for agentName and accountId, and roleName with a unique name for the new agent,
  // the id of your AWS account, and the name of an existing execution role that the agent can use inside your account.
  // For foundationModel, specify the desired model. Ensure to remove the brackets '[]' before adding your data.

  // A string (max 100 chars) that can include letters, numbers, dashes '-', and underscores '_'.
  const agentName = "[your-bedrock-agent-name]";

  // Your AWS account id.
  const accountId = "[123456789012]";

  // The name of the agent's execution role. It must be prefixed by `AmazonBedrockExecutionRoleForAgents_`.
  const roleName = "[AmazonBedrockExecutionRoleForAgents_your-role-name]";

  // The ARN for the agent's execution role.
  // Follow the ARN format: 'arn:aws:iam::account-id:role/role-name'
  const roleArn = `arn:aws:iam::${accountId}:role/${roleName}`;

  // Specify the model for the agent. Change if a different model is preferred.
  const foundationModel = "anthropic.claude-v2";

  // Check for unresolved placeholders in agentName and roleArn.
  checkForPlaceholders([agentName, roleArn]);

  console.log("Creating a new agent...");

  const agent = await createAgent(agentName, foundationModel, roleArn);
  console.log(agent);
}
```
+  Untuk detail API, lihat [CreateAgent](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent/command/CreateAgentCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteAgent`
<a name="bedrock-agent_DeleteAgent_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAgent`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-agent#code-examples). 
Hapus agen.  

```
import { fileURLToPath } from "node:url";
import { checkForPlaceholders } from "../lib/utils.js";

import {
  BedrockAgentClient,
  DeleteAgentCommand,
} from "@aws-sdk/client-bedrock-agent";

/**
 * Deletes an Amazon Bedrock Agent.
 *
 * @param {string} agentId - The unique identifier of the agent to delete.
 * @param {string} [region='us-east-1'] - The AWS region in use.
 * @returns {Promise<import("@aws-sdk/client-bedrock-agent").DeleteAgentCommandOutput>} An object containing the agent id, the status, and some additional metadata.
 */
export const deleteAgent = (agentId, region = "us-east-1") => {
  const client = new BedrockAgentClient({ region });
  const command = new DeleteAgentCommand({ agentId });
  return client.send(command);
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  // Replace the placeholders for agentId with an existing agent's id.
  // Ensure to remove the brackets (`[]`) before adding your data.

  // The agentId must be an alphanumeric string with exactly 10 characters.
  const agentId = "[ABC123DE45]";

  // Check for unresolved placeholders in agentId.
  checkForPlaceholders([agentId]);

  console.log(`Deleting agent with ID ${agentId}...`);

  const response = await deleteAgent(agentId);
  console.log(response);
}
```
+  Untuk detail API, lihat [DeleteAgent](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent/command/DeleteAgentCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetAgent`
<a name="bedrock-agent_GetAgent_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAgent`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-agent#code-examples). 
Dapatkan agen.  

```
import { fileURLToPath } from "node:url";
import { checkForPlaceholders } from "../lib/utils.js";

import {
  BedrockAgentClient,
  GetAgentCommand,
} from "@aws-sdk/client-bedrock-agent";

/**
 * Retrieves the details of an Amazon Bedrock Agent.
 *
 * @param {string} agentId - The unique identifier of the agent.
 * @param {string} [region='us-east-1'] - The AWS region in use.
 * @returns {Promise<import("@aws-sdk/client-bedrock-agent").Agent>} An object containing the agent details.
 */
export const getAgent = async (agentId, region = "us-east-1") => {
  const client = new BedrockAgentClient({ region });

  const command = new GetAgentCommand({ agentId });
  const response = await client.send(command);
  return response.agent;
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  // Replace the placeholders for agentId with an existing agent's id.
  // Ensure to remove the brackets '[]' before adding your data.

  // The agentId must be an alphanumeric string with exactly 10 characters.
  const agentId = "[ABC123DE45]";

  // Check for unresolved placeholders in agentId.
  checkForPlaceholders([agentId]);

  console.log(`Retrieving agent with ID ${agentId}...`);

  const agent = await getAgent(agentId);
  console.log(agent);
}
```
+  Untuk detail API, lihat [GetAgent](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent/command/GetAgentCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListAgentActionGroups`
<a name="bedrock-agent_ListAgentActionGroups_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAgentActionGroups`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-agent#code-examples). 
Buat daftar grup aksi untuk agen.  

```
import { fileURLToPath } from "node:url";
import { checkForPlaceholders } from "../lib/utils.js";

import {
  BedrockAgentClient,
  ListAgentActionGroupsCommand,
  paginateListAgentActionGroups,
} from "@aws-sdk/client-bedrock-agent";

/**
 * Retrieves a list of Action Groups of an agent utilizing the paginator function.
 *
 * This function leverages a paginator, which abstracts the complexity of pagination, providing
 * a straightforward way to handle paginated results inside a `for await...of` loop.
 *
 * @param {string} agentId - The unique identifier of the agent.
 * @param {string} agentVersion - The version of the agent.
 * @param {string} [region='us-east-1'] - The AWS region in use.
 * @returns {Promise<ActionGroupSummary[]>} An array of action group summaries.
 */
export const listAgentActionGroupsWithPaginator = async (
  agentId,
  agentVersion,
  region = "us-east-1",
) => {
  const client = new BedrockAgentClient({ region });

  // Create a paginator configuration
  const paginatorConfig = {
    client,
    pageSize: 10, // optional, added for demonstration purposes
  };

  const params = { agentId, agentVersion };

  const pages = paginateListAgentActionGroups(paginatorConfig, params);

  // Paginate until there are no more results
  const actionGroupSummaries = [];
  for await (const page of pages) {
    actionGroupSummaries.push(...page.actionGroupSummaries);
  }

  return actionGroupSummaries;
};

/**
 * Retrieves a list of Action Groups of an agent utilizing the ListAgentActionGroupsCommand.
 *
 * This function demonstrates the manual approach, sending a command to the client and processing the response.
 * Pagination must manually be managed. For a simplified approach that abstracts away pagination logic, see
 * the `listAgentActionGroupsWithPaginator()` example below.
 *
 * @param {string} agentId - The unique identifier of the agent.
 * @param {string} agentVersion - The version of the agent.
 * @param {string} [region='us-east-1'] - The AWS region in use.
 * @returns {Promise<ActionGroupSummary[]>} An array of action group summaries.
 */
export const listAgentActionGroupsWithCommandObject = async (
  agentId,
  agentVersion,
  region = "us-east-1",
) => {
  const client = new BedrockAgentClient({ region });

  let nextToken;
  const actionGroupSummaries = [];
  do {
    const command = new ListAgentActionGroupsCommand({
      agentId,
      agentVersion,
      nextToken,
      maxResults: 10, // optional, added for demonstration purposes
    });

    /** @type {{actionGroupSummaries: ActionGroupSummary[], nextToken?: string}} */
    const response = await client.send(command);

    for (const actionGroup of response.actionGroupSummaries || []) {
      actionGroupSummaries.push(actionGroup);
    }

    nextToken = response.nextToken;
  } while (nextToken);

  return actionGroupSummaries;
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  // Replace the placeholders for agentId and agentVersion with an existing agent's id and version.
  // Ensure to remove the brackets '[]' before adding your data.

  // The agentId must be an alphanumeric string with exactly 10 characters.
  const agentId = "[ABC123DE45]";

  // A string either containing `DRAFT` or a number with 1-5 digits (e.g., '123' or 'DRAFT').
  const agentVersion = "[DRAFT]";

  // Check for unresolved placeholders in agentId and agentVersion.
  checkForPlaceholders([agentId, agentVersion]);

  console.log("=".repeat(68));
  console.log(
    "Listing agent action groups using ListAgentActionGroupsCommand:",
  );

  for (const actionGroup of await listAgentActionGroupsWithCommandObject(
    agentId,
    agentVersion,
  )) {
    console.log(actionGroup);
  }

  console.log("=".repeat(68));
  console.log(
    "Listing agent action groups using the paginateListAgents function:",
  );
  for (const actionGroup of await listAgentActionGroupsWithPaginator(
    agentId,
    agentVersion,
  )) {
    console.log(actionGroup);
  }
}
```
+  Untuk detail API, lihat [ListAgentActionGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent/command/ListAgentActionGroupsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListAgents`
<a name="bedrock-agent_ListAgents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAgents`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-agent#code-examples). 
Buat daftar agen milik akun.  

```
import { fileURLToPath } from "node:url";

import {
  BedrockAgentClient,
  ListAgentsCommand,
  paginateListAgents,
} from "@aws-sdk/client-bedrock-agent";

/**
 * Retrieves a list of available Amazon Bedrock agents utilizing the paginator function.
 *
 * This function leverages a paginator, which abstracts the complexity of pagination, providing
 * a straightforward way to handle paginated results inside a `for await...of` loop.
 *
 * @param {string} [region='us-east-1'] - The AWS region in use.
 * @returns {Promise<AgentSummary[]>} An array of agent summaries.
 */
export const listAgentsWithPaginator = async (region = "us-east-1") => {
  const client = new BedrockAgentClient({ region });

  const paginatorConfig = {
    client,
    pageSize: 10, // optional, added for demonstration purposes
  };

  const pages = paginateListAgents(paginatorConfig, {});

  // Paginate until there are no more results
  const agentSummaries = [];
  for await (const page of pages) {
    agentSummaries.push(...page.agentSummaries);
  }

  return agentSummaries;
};

/**
 * Retrieves a list of available Amazon Bedrock agents utilizing the ListAgentsCommand.
 *
 * This function demonstrates the manual approach, sending a command to the client and processing the response.
 * Pagination must manually be managed. For a simplified approach that abstracts away pagination logic, see
 * the `listAgentsWithPaginator()` example below.
 *
 * @param {string} [region='us-east-1'] - The AWS region in use.
 * @returns {Promise<AgentSummary[]>} An array of agent summaries.
 */
export const listAgentsWithCommandObject = async (region = "us-east-1") => {
  const client = new BedrockAgentClient({ region });

  let nextToken;
  const agentSummaries = [];
  do {
    const command = new ListAgentsCommand({
      nextToken,
      maxResults: 10, // optional, added for demonstration purposes
    });

    /** @type {{agentSummaries: AgentSummary[], nextToken?: string}} */
    const paginatedResponse = await client.send(command);

    agentSummaries.push(...(paginatedResponse.agentSummaries || []));

    nextToken = paginatedResponse.nextToken;
  } while (nextToken);

  return agentSummaries;
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  console.log("=".repeat(68));
  console.log("Listing agents using ListAgentsCommand:");
  for (const agent of await listAgentsWithCommandObject()) {
    console.log(agent);
  }

  console.log("=".repeat(68));
  console.log("Listing agents using the paginateListAgents function:");
  for (const agent of await listAgentsWithPaginator()) {
    console.log(agent);
  }
}
```
+  Untuk detail API, lihat [ListAgents](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent/command/ListAgentsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Runtime Agen Batuan Dasar Amazon menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_bedrock-agent-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Bedrock Agents Runtime.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `InvokeAgent`
<a name="bedrock-agent-runtime_InvokeAgent_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InvokeAgent`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-agent-runtime#code-examples). 

```
import {
  BedrockAgentRuntimeClient,
  InvokeAgentCommand,
} from "@aws-sdk/client-bedrock-agent-runtime";

/**
 * @typedef {Object} ResponseBody
 * @property {string} completion
 */

/**
 * Invokes a Bedrock agent to run an inference using the input
 * provided in the request body.
 *
 * @param {string} prompt - The prompt that you want the Agent to complete.
 * @param {string} sessionId - An arbitrary identifier for the session.
 */
export const invokeBedrockAgent = async (prompt, sessionId) => {
  const client = new BedrockAgentRuntimeClient({ region: "us-east-1" });
  // const client = new BedrockAgentRuntimeClient({
  //   region: "us-east-1",
  //   credentials: {
  //     accessKeyId: "accessKeyId", // permission to invoke agent
  //     secretAccessKey: "accessKeySecret",
  //   },
  // });

  const agentId = "AJBHXXILZN";
  const agentAliasId = "AVKP1ITZAA";

  const command = new InvokeAgentCommand({
    agentId,
    agentAliasId,
    sessionId,
    inputText: prompt,
  });

  try {
    let completion = "";
    const response = await client.send(command);

    if (response.completion === undefined) {
      throw new Error("Completion is undefined");
    }

    for await (const chunkEvent of response.completion) {
      const chunk = chunkEvent.chunk;
      console.log(chunk);
      const decodedResponse = new TextDecoder("utf-8").decode(chunk.bytes);
      completion += decodedResponse;
    }

    return { sessionId: sessionId, completion };
  } catch (err) {
    console.error(err);
  }
};

// Call function if run directly
import { fileURLToPath } from "node:url";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const result = await invokeBedrockAgent("I need help.", "123");
  console.log(result);
}
```
+  Untuk detail API, lihat [InvokeAgent](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent-runtime/command/InvokeAgentCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `InvokeFlow`
<a name="bedrock-agent-runtime_InvokeFlow_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InvokeFlow`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-agent-runtime#code-examples). 

```
import { fileURLToPath } from "node:url";

import {
  BedrockAgentRuntimeClient,
  InvokeFlowCommand,
} from "@aws-sdk/client-bedrock-agent-runtime";

/**
 * Invokes an alias of a flow to run the inputs that you specify and return
 * the output of each node as a stream.
 *
 * @param {{
 *  flowIdentifier: string,
 *  flowAliasIdentifier: string,
 *  prompt?: string,
 *  region?: string
 * }} options
 * @returns {Promise<import("@aws-sdk/client-bedrock-agent").FlowNodeOutput>} An object containing information about the output from flow invocation.
 */
export const invokeBedrockFlow = async ({
  flowIdentifier,
  flowAliasIdentifier,
  prompt = "Hi, how are you?",
  region = "us-east-1",
}) => {
  const client = new BedrockAgentRuntimeClient({ region });

  const command = new InvokeFlowCommand({
    flowIdentifier,
    flowAliasIdentifier,
    inputs: [
      {
        content: {
          document: prompt,
        },
        nodeName: "FlowInputNode",
        nodeOutputName: "document",
      },
    ],
  });

  let flowResponse = {};
  const response = await client.send(command);

  for await (const chunkEvent of response.responseStream) {
    const { flowOutputEvent, flowCompletionEvent } = chunkEvent;

    if (flowOutputEvent) {
      flowResponse = { ...flowResponse, ...flowOutputEvent };
      console.log("Flow output event:", flowOutputEvent);
    } else if (flowCompletionEvent) {
      flowResponse = { ...flowResponse, ...flowCompletionEvent };
      console.log("Flow completion event:", flowCompletionEvent);
    }
  }

  return flowResponse;
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    flowIdentifier: {
      type: "string",
      required: true,
    },
    flowAliasIdentifier: {
      type: "string",
      required: true,
    },
    prompt: {
      type: "string",
    },
    region: {
      type: "string",
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    invokeBedrockFlow(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk detail API, lihat [InvokeFlow](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-agent-runtime/command/InvokeFlowCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# CloudWatch contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with CloudWatch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteAlarms`
<a name="cloudwatch_DeleteAlarms_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlarms`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { DeleteAlarmsCommand } from "@aws-sdk/client-cloudwatch";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new DeleteAlarmsCommand({
    AlarmNames: [process.env.CLOUDWATCH_ALARM_NAME], // Set the value of CLOUDWATCH_ALARM_NAME to the name of an existing alarm.
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchClient } from "@aws-sdk/client-cloudwatch";

export const client = new CloudWatchClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cloudwatch-examples-creating-alarms.html#cloudwatch-examples-creating-alarms-deleting). 
+  Untuk detail API, lihat [DeleteAlarms](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch/command/DeleteAlarmsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { DescribeAlarmsCommand } from "@aws-sdk/client-cloudwatch";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new DescribeAlarmsCommand({
    AlarmNames: [process.env.CLOUDWATCH_ALARM_NAME], // Set the value of CLOUDWATCH_ALARM_NAME to the name of an existing alarm.
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchClient } from "@aws-sdk/client-cloudwatch";

export const client = new CloudWatchClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-creating-alarms.html#cloudwatch-examples-creating-alarms-describing). 
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch/command/DescribeAlarmsForMetricCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { DisableAlarmActionsCommand } from "@aws-sdk/client-cloudwatch";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new DisableAlarmActionsCommand({
    AlarmNames: process.env.CLOUDWATCH_ALARM_NAME, // Set the value of CLOUDWATCH_ALARM_NAME to the name of an existing alarm.
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchClient } from "@aws-sdk/client-cloudwatch";

export const client = new CloudWatchClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cloudwatch-examples-using-alarm-actions.html#cloudwatch-examples-using-alarm-actions-disabling). 
+  Untuk detail API, lihat [DisableAlarmActions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch/command/DisableAlarmActionsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `EnableAlarmActions`
<a name="cloudwatch_EnableAlarmActions_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableAlarmActions`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { EnableAlarmActionsCommand } from "@aws-sdk/client-cloudwatch";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new EnableAlarmActionsCommand({
    AlarmNames: [process.env.CLOUDWATCH_ALARM_NAME], // Set the value of CLOUDWATCH_ALARM_NAME to the name of an existing alarm.
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchClient } from "@aws-sdk/client-cloudwatch";

export const client = new CloudWatchClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cloudwatch-examples-using-alarm-actions.html#cloudwatch-examples-using-alarm-actions-enabling). 
+  Untuk detail API, lihat [EnableAlarmActions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch/command/EnableAlarmActionsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import {
  CloudWatchServiceException,
  ListMetricsCommand,
} from "@aws-sdk/client-cloudwatch";
import { client } from "../libs/client.js";

export const main = async () => {
  // Use the AWS console to see available namespaces and metric names. Custom metrics can also be created.
  // https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/viewing_metrics_with_cloudwatch.html
  const command = new ListMetricsCommand({
    Dimensions: [
      {
        Name: "LogGroupName",
      },
    ],
    MetricName: "IncomingLogEvents",
    Namespace: "AWS/Logs",
  });

  try {
    const response = await client.send(command);
    console.log(`Metrics count: ${response.Metrics?.length}`);
    return response;
  } catch (caught) {
    if (caught instanceof CloudWatchServiceException) {
      console.error(`Error from CloudWatch. ${caught.name}: ${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchClient } from "@aws-sdk/client-cloudwatch";

export const client = new CloudWatchClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cloudwatch-examples-getting-metrics.html#cloudwatch-examples-getting-metrics-listing). 
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch/command/ListMetricsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { PutMetricAlarmCommand } from "@aws-sdk/client-cloudwatch";
import { client } from "../libs/client.js";

const run = async () => {
  // This alarm triggers when CPUUtilization exceeds 70% for one minute.
  const command = new PutMetricAlarmCommand({
    AlarmName: process.env.CLOUDWATCH_ALARM_NAME, // Set the value of CLOUDWATCH_ALARM_NAME to the name of an existing alarm.
    ComparisonOperator: "GreaterThanThreshold",
    EvaluationPeriods: 1,
    MetricName: "CPUUtilization",
    Namespace: "AWS/EC2",
    Period: 60,
    Statistic: "Average",
    Threshold: 70.0,
    ActionsEnabled: false,
    AlarmDescription: "Alarm when server CPU exceeds 70%",
    Dimensions: [
      {
        Name: "InstanceId",
        Value: process.env.EC2_INSTANCE_ID, // Set the value of EC_INSTANCE_ID to the Id of an existing Amazon EC2 instance.
      },
    ],
    Unit: "Percent",
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchClient } from "@aws-sdk/client-cloudwatch";

export const client = new CloudWatchClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v2/developer-guide/cloudwatch-examples-creating-alarms.html#cloudwatch-examples-creating-alarms-putmetricalarm). 
+  Untuk detail API, lihat [PutMetricAlarm](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch/command/PutMetricAlarmCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { PutMetricDataCommand } from "@aws-sdk/client-cloudwatch";
import { client } from "../libs/client.js";

const run = async () => {
  // See https://docs.aws.amazon.com/AmazonCloudWatch/latest/APIReference/API_PutMetricData.html#API_PutMetricData_RequestParameters
  // and https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/publishingMetrics.html
  // for more information about the parameters in this command.
  const command = new PutMetricDataCommand({
    MetricData: [
      {
        MetricName: "PAGES_VISITED",
        Dimensions: [
          {
            Name: "UNIQUE_PAGES",
            Value: "URLS",
          },
        ],
        Unit: "None",
        Value: 1.0,
      },
    ],
    Namespace: "SITE/TRAFFIC",
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchClient } from "@aws-sdk/client-cloudwatch";

export const client = new CloudWatchClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cloudwatch-examples-getting-metrics.html#cloudwatch-examples-getting-metrics-publishing-custom). 
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch/command/PutMetricDataCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# CloudWatch Contoh acara menggunakan SDK for JavaScript (v3)
<a name="javascript_3_cloudwatch-events_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan CloudWatch Events.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutEvents`
<a name="cloudwatch-events_PutEvents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-events#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { PutEventsCommand } from "@aws-sdk/client-cloudwatch-events";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new PutEventsCommand({
    // The list of events to send to Amazon CloudWatch Events.
    Entries: [
      {
        // The name of the application or service that is sending the event.
        Source: "my.app",

        // The name of the event that is being sent.
        DetailType: "My Custom Event",

        // The data that is sent with the event.
        Detail: JSON.stringify({ timeOfEvent: new Date().toISOString() }),
      },
    ],
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchEventsClient } from "@aws-sdk/client-cloudwatch-events";

export const client = new CloudWatchEventsClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cloudwatch-examples-sending-events.html#cloudwatch-examples-sending-events-putevents). 
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-events/command/PutEventsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutRule`
<a name="cloudwatch-events_PutRule_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-events#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { PutRuleCommand } from "@aws-sdk/client-cloudwatch-events";
import { client } from "../libs/client.js";

const run = async () => {
  // Request parameters for PutRule.
  // https://docs.aws.amazon.com/eventbridge/latest/APIReference/API_PutRule.html#API_PutRule_RequestParameters
  const command = new PutRuleCommand({
    Name: process.env.CLOUDWATCH_EVENTS_RULE,

    // The event pattern for the rule.
    //  Example: {"source": ["my.app"]}
    EventPattern: process.env.CLOUDWATCH_EVENTS_RULE_PATTERN,

    // The state of the rule. Valid values: ENABLED, DISABLED
    State: "ENABLED",
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchEventsClient } from "@aws-sdk/client-cloudwatch-events";

export const client = new CloudWatchEventsClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cloudwatch-examples-sending-events.html#cloudwatch-examples-sending-events-rules). 
+  Untuk detail API, lihat [PutRule](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-events/command/PutRuleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutTargets`
<a name="cloudwatch-events_PutTargets_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-events#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { PutTargetsCommand } from "@aws-sdk/client-cloudwatch-events";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new PutTargetsCommand({
    // The name of the Amazon CloudWatch Events rule.
    Rule: process.env.CLOUDWATCH_EVENTS_RULE,

    // The targets to add to the rule.
    Targets: [
      {
        Arn: process.env.CLOUDWATCH_EVENTS_TARGET_ARN,
        // The ID of the target. Choose a unique ID for each target.
        Id: process.env.CLOUDWATCH_EVENTS_TARGET_ID,
      },
    ],
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { CloudWatchEventsClient } from "@aws-sdk/client-cloudwatch-events";

export const client = new CloudWatchEventsClient({});
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cloudwatch-examples-sending-events.html#cloudwatch-examples-sending-events-targets). 
+  Untuk detail API, lihat [PutTargets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-events/command/PutTargetsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# CloudWatch Contoh log menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan CloudWatch Log.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateLogGroup`
<a name="cloudwatch-logs_CreateLogGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLogGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs#code-examples). 

```
import { CreateLogGroupCommand } from "@aws-sdk/client-cloudwatch-logs";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new CreateLogGroupCommand({
    // The name of the log group.
    logGroupName: process.env.CLOUDWATCH_LOGS_LOG_GROUP,
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
+  Untuk detail API, lihat [CreateLogGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/CreateLogGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteLogGroup`
<a name="cloudwatch-logs_DeleteLogGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLogGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs#code-examples). 

```
import { DeleteLogGroupCommand } from "@aws-sdk/client-cloudwatch-logs";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new DeleteLogGroupCommand({
    // The name of the log group.
    logGroupName: process.env.CLOUDWATCH_LOGS_LOG_GROUP,
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
+  Untuk detail API, lihat [DeleteLogGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/DeleteLogGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteSubscriptionFilter`
<a name="cloudwatch-logs_DeleteSubscriptionFilter_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSubscriptionFilter`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs#code-examples). 

```
import { DeleteSubscriptionFilterCommand } from "@aws-sdk/client-cloudwatch-logs";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new DeleteSubscriptionFilterCommand({
    // The name of the filter.
    filterName: process.env.CLOUDWATCH_LOGS_FILTER_NAME,
    // The name of the log group.
    logGroupName: process.env.CLOUDWATCH_LOGS_LOG_GROUP,
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
+  Untuk detail API, lihat [DeleteSubscriptionFilter](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/DeleteSubscriptionFilterCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeLogGroups`
<a name="cloudwatch-logs_DescribeLogGroups_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeLogGroups`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs#code-examples). 

```
import {
  paginateDescribeLogGroups,
  CloudWatchLogsClient,
} from "@aws-sdk/client-cloudwatch-logs";

const client = new CloudWatchLogsClient({});

export const main = async () => {
  const paginatedLogGroups = paginateDescribeLogGroups({ client }, {});
  const logGroups = [];

  for await (const page of paginatedLogGroups) {
    if (page.logGroups?.every((lg) => !!lg)) {
      logGroups.push(...page.logGroups);
    }
  }

  console.log(logGroups);
  return logGroups;
};
```
+  Untuk detail API, lihat [DescribeLogGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/DescribeLogGroupsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeSubscriptionFilters`
<a name="cloudwatch-logs_DescribeSubscriptionFilters_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSubscriptionFilters`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs#code-examples). 

```
import { DescribeSubscriptionFiltersCommand } from "@aws-sdk/client-cloudwatch-logs";
import { client } from "../libs/client.js";

const run = async () => {
  // This will return a list of all subscription filters in your account
  // matching the log group name.
  const command = new DescribeSubscriptionFiltersCommand({
    logGroupName: process.env.CLOUDWATCH_LOGS_LOG_GROUP,
    limit: 1,
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
+  Untuk detail API, lihat [DescribeSubscriptionFilters](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/DescribeSubscriptionFiltersCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetQueryResults`
<a name="cloudwatch-logs_GetQueryResults_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueryResults`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs#code-examples). 

```
  /**
   * Simple wrapper for the GetQueryResultsCommand.
   * @param {string} queryId
   */
  _getQueryResults(queryId) {
    return this.client.send(new GetQueryResultsCommand({ queryId }));
  }
```
+  Untuk detail API, lihat [GetQueryResults](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/GetQueryResultsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutSubscriptionFilter`
<a name="cloudwatch-logs_PutSubscriptionFilter_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutSubscriptionFilter`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs#code-examples). 

```
import { PutSubscriptionFilterCommand } from "@aws-sdk/client-cloudwatch-logs";
import { client } from "../libs/client.js";

const run = async () => {
  const command = new PutSubscriptionFilterCommand({
    // An ARN of a same-account Kinesis stream, Kinesis Firehose
    // delivery stream, or Lambda function.
    // https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/SubscriptionFilters.html
    destinationArn: process.env.CLOUDWATCH_LOGS_DESTINATION_ARN,

    // A name for the filter.
    filterName: process.env.CLOUDWATCH_LOGS_FILTER_NAME,

    // A filter pattern for subscribing to a filtered stream of log events.
    // https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/FilterAndPatternSyntax.html
    filterPattern: process.env.CLOUDWATCH_LOGS_FILTER_PATTERN,

    // The name of the log group. Messages in this group matching the filter pattern
    // will be sent to the destination ARN.
    logGroupName: process.env.CLOUDWATCH_LOGS_LOG_GROUP,
  });

  try {
    return await client.send(command);
  } catch (err) {
    console.error(err);
  }
};

export default run();
```
+  Untuk detail API, lihat [PutSubscriptionFilter](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/PutSubscriptionFilterCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartLiveTail`
<a name="cloudwatch-logs_StartLiveTail_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartLiveTail`.

**SDK untuk JavaScript (v3)**  
Sertakan file-file yang diperlukan.  

```
import { CloudWatchLogsClient, StartLiveTailCommand } from "@aws-sdk/client-cloudwatch-logs";
```
Tangani acara dari sesi Live Tail.  

```
async function handleResponseAsync(response) {
    try {
      for await (const event of response.responseStream) {
        if (event.sessionStart !== undefined) {
          console.log(event.sessionStart);
        } else if (event.sessionUpdate !== undefined) {
          for (const logEvent of event.sessionUpdate.sessionResults) {
            const timestamp = logEvent.timestamp;
            const date = new Date(timestamp);
            console.log("[" + date + "] " + logEvent.message);
          } 
        } else {
            console.error("Unknown event type");
        }
      }
    } catch (err) {  
        // On-stream exceptions are captured here
        console.error(err)
    }
}
```
Mulai sesi Live Tail.  

```
    const client = new CloudWatchLogsClient();

    const command = new StartLiveTailCommand({
        logGroupIdentifiers: logGroupIdentifiers,
        logStreamNames: logStreamNames,
        logEventFilterPattern: filterPattern
    });
    try{
        const response = await client.send(command);
        handleResponseAsync(response);
    } catch (err){
        // Pre-stream exceptions are captured here
        console.log(err);
    }
```
Hentikan sesi Live Tail setelah periode waktu berlalu.  

```
    /* Set a timeout to close the client. This will stop the Live Tail session. */
    setTimeout(function() {
        console.log("Client timeout");
        client.destroy();
      }, 10000);
```
+  Untuk detail API, lihat [StartLiveTail](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/StartLiveTailCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartQuery`
<a name="cloudwatch-logs_StartQuery_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartQuery`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs#code-examples). 

```
  /**
   * Wrapper for the StartQueryCommand. Uses a static query string
   * for consistency.
   * @param {[Date, Date]} dateRange
   * @param {number} maxLogs
   * @returns {Promise<{ queryId: string }>}
   */
  async _startQuery([startDate, endDate], maxLogs = 10000) {
    try {
      return await this.client.send(
        new StartQueryCommand({
          logGroupNames: this.logGroupNames,
          queryString: "fields @timestamp, @message | sort @timestamp asc",
          startTime: startDate.valueOf(),
          endTime: endDate.valueOf(),
          limit: maxLogs,
        }),
      );
    } catch (err) {
      /** @type {string} */
      const message = err.message;
      if (message.startsWith("Query's end date and time")) {
        // This error indicates that the query's start or end date occur
        // before the log group was created.
        throw new DateOutOfBoundsError(message);
      }

      throw err;
    }
  }
```
+  Untuk detail API, lihat [StartQuery](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/StartQueryCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Jalankan kueri besar
<a name="cloudwatch-logs_Scenario_BigQuery_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan CloudWatch Log untuk kueri lebih dari 10.000 catatan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cloudwatch-logs/scenarios/large-query#code-examples). 
Ini adalah titik masuknya.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { CloudWatchLogsClient } from "@aws-sdk/client-cloudwatch-logs";
import { CloudWatchQuery } from "./cloud-watch-query.js";

console.log("Starting a recursive query...");

if (!process.env.QUERY_START_DATE || !process.env.QUERY_END_DATE) {
  throw new Error(
    "QUERY_START_DATE and QUERY_END_DATE environment variables are required.",
  );
}

const cloudWatchQuery = new CloudWatchQuery(new CloudWatchLogsClient({}), {
  logGroupNames: ["/workflows/cloudwatch-logs/large-query"],
  dateRange: [
    new Date(Number.parseInt(process.env.QUERY_START_DATE)),
    new Date(Number.parseInt(process.env.QUERY_END_DATE)),
  ],
});

await cloudWatchQuery.run();

console.log(
  `Queries finished in ${cloudWatchQuery.secondsElapsed} seconds.\nTotal logs found: ${cloudWatchQuery.results.length}`,
);
```
Ini adalah kelas yang membagi kueri menjadi beberapa langkah jika perlu.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import {
  StartQueryCommand,
  GetQueryResultsCommand,
} from "@aws-sdk/client-cloudwatch-logs";
import { splitDateRange } from "@aws-doc-sdk-examples/lib/utils/util-date.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

class DateOutOfBoundsError extends Error {}

export class CloudWatchQuery {
  /**
   * Run a query for all CloudWatch Logs within a certain date range.
   * CloudWatch logs return a max of 10,000 results. This class
   * performs a binary search across all of the logs in the provided
   * date range if a query returns the maximum number of results.
   *
   * @param {import('@aws-sdk/client-cloudwatch-logs').CloudWatchLogsClient} client
   * @param {{ logGroupNames: string[], dateRange: [Date, Date], queryConfig: { limit: number } }} config
   */
  constructor(client, { logGroupNames, dateRange, queryConfig }) {
    this.client = client;
    /**
     * All log groups are queried.
     */
    this.logGroupNames = logGroupNames;

    /**
     * The inclusive date range that is queried.
     */
    this.dateRange = dateRange;

    /**
     * CloudWatch Logs never returns more than 10,000 logs.
     */
    this.limit = queryConfig?.limit ?? 10000;

    /**
     * @type {import("@aws-sdk/client-cloudwatch-logs").ResultField[][]}
     */
    this.results = [];
  }

  /**
   * Run the query.
   */
  async run() {
    this.secondsElapsed = 0;
    const start = new Date();
    this.results = await this._largeQuery(this.dateRange);
    const end = new Date();
    this.secondsElapsed = (end - start) / 1000;
    return this.results;
  }

  /**
   * Recursively query for logs.
   * @param {[Date, Date]} dateRange
   * @returns {Promise<import("@aws-sdk/client-cloudwatch-logs").ResultField[][]>}
   */
  async _largeQuery(dateRange) {
    const logs = await this._query(dateRange, this.limit);

    console.log(
      `Query date range: ${dateRange
        .map((d) => d.toISOString())
        .join(" to ")}. Found ${logs.length} logs.`,
    );

    if (logs.length < this.limit) {
      return logs;
    }

    const lastLogDate = this._getLastLogDate(logs);
    const offsetLastLogDate = new Date(lastLogDate);
    offsetLastLogDate.setMilliseconds(lastLogDate.getMilliseconds() + 1);
    const subDateRange = [offsetLastLogDate, dateRange[1]];
    const [r1, r2] = splitDateRange(subDateRange);
    const results = await Promise.all([
      this._largeQuery(r1),
      this._largeQuery(r2),
    ]);
    return [logs, ...results].flat();
  }

  /**
   * Find the most recent log in a list of logs.
   * @param {import("@aws-sdk/client-cloudwatch-logs").ResultField[][]} logs
   */
  _getLastLogDate(logs) {
    const timestamps = logs
      .map(
        (log) =>
          log.find((fieldMeta) => fieldMeta.field === "@timestamp")?.value,
      )
      .filter((t) => !!t)
      .map((t) => `${t}Z`)
      .sort();

    if (!timestamps.length) {
      throw new Error("No timestamp found in logs.");
    }

    return new Date(timestamps[timestamps.length - 1]);
  }

  /**
   * Simple wrapper for the GetQueryResultsCommand.
   * @param {string} queryId
   */
  _getQueryResults(queryId) {
    return this.client.send(new GetQueryResultsCommand({ queryId }));
  }

  /**
   * Starts a query and waits for it to complete.
   * @param {[Date, Date]} dateRange
   * @param {number} maxLogs
   */
  async _query(dateRange, maxLogs) {
    try {
      const { queryId } = await this._startQuery(dateRange, maxLogs);
      const { results } = await this._waitUntilQueryDone(queryId);
      return results ?? [];
    } catch (err) {
      /**
       * This error is thrown when StartQuery returns an error indicating
       * that the query's start or end date occur before the log group was
       * created.
       */
      if (err instanceof DateOutOfBoundsError) {
        return [];
      }
      throw err;
    }
  }

  /**
   * Wrapper for the StartQueryCommand. Uses a static query string
   * for consistency.
   * @param {[Date, Date]} dateRange
   * @param {number} maxLogs
   * @returns {Promise<{ queryId: string }>}
   */
  async _startQuery([startDate, endDate], maxLogs = 10000) {
    try {
      return await this.client.send(
        new StartQueryCommand({
          logGroupNames: this.logGroupNames,
          queryString: "fields @timestamp, @message | sort @timestamp asc",
          startTime: startDate.valueOf(),
          endTime: endDate.valueOf(),
          limit: maxLogs,
        }),
      );
    } catch (err) {
      /** @type {string} */
      const message = err.message;
      if (message.startsWith("Query's end date and time")) {
        // This error indicates that the query's start or end date occur
        // before the log group was created.
        throw new DateOutOfBoundsError(message);
      }

      throw err;
    }
  }

  /**
   * Call GetQueryResultsCommand until the query is done.
   * @param {string} queryId
   */
  _waitUntilQueryDone(queryId) {
    const getResults = async () => {
      const results = await this._getQueryResults(queryId);
      const queryDone = [
        "Complete",
        "Failed",
        "Cancelled",
        "Timeout",
        "Unknown",
      ].includes(results.status);

      return { queryDone, results };
    };

    return retry(
      { intervalInMs: 1000, maxRetries: 60, quiet: true },
      async () => {
        const { queryDone, results } = await getResults();
        if (!queryDone) {
          throw new Error("Query not done.");
        }

        return results;
      },
    );
  }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [GetQueryResults](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/GetQueryResultsCommand)
  + [StartQuery](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cloudwatch-logs/command/StartQueryCommand)

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda dengan menggunakan API runtime JavaScript Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-scheduled-events).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/scheduled-events-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

# CodeBuild contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_codebuild_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with CodeBuild.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateProject`
<a name="codebuild_CreateProject_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateProject`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/codebuild#code-examples). 
Buat proyek.  

```
import {
  ArtifactsType,
  CodeBuildClient,
  ComputeType,
  CreateProjectCommand,
  EnvironmentType,
  SourceType,
} from "@aws-sdk/client-codebuild";

// Create the AWS CodeBuild project.
export const createProject = async (
  projectName = "MyCodeBuilder",
  roleArn = "arn:aws:iam::xxxxxxxxxxxx:role/CodeBuildAdmin",
  buildOutputBucket = "xxxx",
  githubUrl = "https://...",
) => {
  const codeBuildClient = new CodeBuildClient({});

  const response = await codeBuildClient.send(
    new CreateProjectCommand({
      artifacts: {
        // The destination of the build artifacts.
        type: ArtifactsType.S3,
        location: buildOutputBucket,
      },
      // Information about the build environment. The combination of "computeType" and "type" determines the
      // requirements for the environment such as CPU, memory, and disk space.
      environment: {
        // Build environment compute types.
        // https://docs.aws.amazon.com/codebuild/latest/userguide/build-env-ref-compute-types.html
        computeType: ComputeType.BUILD_GENERAL1_SMALL,
        // Docker image identifier.
        // See https://docs.aws.amazon.com/codebuild/latest/userguide/build-env-ref-available.html
        image: "aws/codebuild/standard:7.0",
        // Build environment type.
        type: EnvironmentType.LINUX_CONTAINER,
      },
      name: projectName,
      // A role ARN with permission to create a CodeBuild project, write to the artifact location, and write CloudWatch logs.
      serviceRole: roleArn,
      source: {
        // The type of repository that contains the source code to be built.
        type: SourceType.GITHUB,
        // The location of the repository that contains the source code to be built.
        location: githubUrl,
      },
    }),
  );
  console.log(response);
  //   {
  //     '$metadata': {
  //       httpStatusCode: 200,
  //       requestId: 'b428b244-777b-49a6-a48d-5dffedced8e7',
  //       extendedRequestId: undefined,
  //       cfId: undefined,
  //       attempts: 1,
  //       totalRetryDelay: 0
  //     },
  //     project: {
  //       arn: 'arn:aws:codebuild:us-east-1:xxxxxxxxxxxx:project/MyCodeBuilder',
  //       artifacts: {
  //         encryptionDisabled: false,
  //         location: 'xxxxxx-xxxxxxx-xxxxxx',
  //         name: 'MyCodeBuilder',
  //         namespaceType: 'NONE',
  //         packaging: 'NONE',
  //         type: 'S3'
  //       },
  //       badge: { badgeEnabled: false },
  //       cache: { type: 'NO_CACHE' },
  //       created: 2023-08-18T14:46:48.979Z,
  //       encryptionKey: 'arn:aws:kms:us-east-1:xxxxxxxxxxxx:alias/aws/s3',
  //       environment: {
  //         computeType: 'BUILD_GENERAL1_SMALL',
  //         environmentVariables: [],
  //         image: 'aws/codebuild/standard:7.0',
  //         imagePullCredentialsType: 'CODEBUILD',
  //         privilegedMode: false,
  //         type: 'LINUX_CONTAINER'
  //       },
  //       lastModified: 2023-08-18T14:46:48.979Z,
  //       name: 'MyCodeBuilder',
  //       projectVisibility: 'PRIVATE',
  //       queuedTimeoutInMinutes: 480,
  //       serviceRole: 'arn:aws:iam::xxxxxxxxxxxx:role/CodeBuildAdmin',
  //       source: {
  //         insecureSsl: false,
  //         location: 'https://...',
  //         reportBuildStatus: false,
  //         type: 'GITHUB'
  //       },
  //       timeoutInMinutes: 60
  //     }
  //   }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/codebuild/). 
+  Untuk detail API, lihat [CreateProject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/codebuild/command/CreateProjectCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Identitas Amazon Cognito menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_cognito-identity_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Cognito Identity.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan aplikasi AWS SDK untuk JavaScript untuk membangun aplikasi React yang menggunakan Amazon Textract untuk mengekstrak data dari gambar dokumen dan menampilkannya di halaman web interaktif. Contoh ini berjalan di peramban web dan memerlukan identitas Amazon Cognito yang diautentikasi sebagai kredensialnya. Contoh ini menggunakan Amazon Simple Storage Service (Amazon S3) untuk penyimpanan, dan untuk notifikasi, contoh ini mengambil polling antrean Amazon Simple Queue Service (Amazon SQS) yang berlangganan topik Amazon Simple Notification Service (Amazon SNS).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/textract-react).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Penyedia Identitas Amazon Cognito.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon Cognito
<a name="cognito-identity-provider_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Cognito.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
import {
  paginateListUserPools,
  CognitoIdentityProviderClient,
} from "@aws-sdk/client-cognito-identity-provider";

const client = new CognitoIdentityProviderClient({});

export const helloCognito = async () => {
  const paginator = paginateListUserPools({ client }, {});

  const userPoolNames = [];

  for await (const page of paginator) {
    const names = page.UserPools.map((pool) => pool.Name);
    userPoolNames.push(...names);
  }

  console.log("User pool names: ");
  console.log(userPoolNames.join("\n"));
  return userPoolNames;
};
```
+  Untuk detail API, lihat [ListUserPools](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ListUserPoolsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Tindakan
<a name="actions"></a>

### `AdminGetUser`
<a name="cognito-identity-provider_AdminGetUser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminGetUser`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider/#code-examples). 

```
const adminGetUser = ({ userPoolId, username }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new AdminGetUserCommand({
    UserPoolId: userPoolId,
    Username: username,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [AdminGetUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/AdminGetUserCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `AdminInitiateAuth`
<a name="cognito-identity-provider_AdminInitiateAuth_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminInitiateAuth`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider/#code-examples). 

```
const adminInitiateAuth = ({ clientId, userPoolId, username, password }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new AdminInitiateAuthCommand({
    ClientId: clientId,
    UserPoolId: userPoolId,
    AuthFlow: AuthFlowType.ADMIN_USER_PASSWORD_AUTH,
    AuthParameters: { USERNAME: username, PASSWORD: password },
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [AdminInitiateAuth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/AdminInitiateAuthCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `AdminRespondToAuthChallenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminRespondToAuthChallenge`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const adminRespondToAuthChallenge = ({
  userPoolId,
  clientId,
  username,
  totp,
  session,
}) => {
  const client = new CognitoIdentityProviderClient({});
  const command = new AdminRespondToAuthChallengeCommand({
    ChallengeName: ChallengeNameType.SOFTWARE_TOKEN_MFA,
    ChallengeResponses: {
      SOFTWARE_TOKEN_MFA_CODE: totp,
      USERNAME: username,
    },
    ClientId: clientId,
    UserPoolId: userPoolId,
    Session: session,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/AdminRespondToAuthChallengeCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `AssociateSoftwareToken`
<a name="cognito-identity-provider_AssociateSoftwareToken_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateSoftwareToken`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const associateSoftwareToken = (session) => {
  const client = new CognitoIdentityProviderClient({});
  const command = new AssociateSoftwareTokenCommand({
    Session: session,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [AssociateSoftwareToken](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/AssociateSoftwareTokenCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ConfirmDevice`
<a name="cognito-identity-provider_ConfirmDevice_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmDevice`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const confirmDevice = ({ deviceKey, accessToken, passwordVerifier, salt }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new ConfirmDeviceCommand({
    DeviceKey: deviceKey,
    AccessToken: accessToken,
    DeviceSecretVerifierConfig: {
      PasswordVerifier: passwordVerifier,
      Salt: salt,
    },
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [ConfirmDevice](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ConfirmDeviceCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ConfirmSignUp`
<a name="cognito-identity-provider_ConfirmSignUp_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSignUp`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const confirmSignUp = ({ clientId, username, code }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new ConfirmSignUpCommand({
    ClientId: clientId,
    Username: username,
    ConfirmationCode: code,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [ConfirmSignUp](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ConfirmSignUpCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteUser`
<a name="cognito-identity-provider_DeleteUser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-pools-triggers#code-examples). 

```
/**
 * Delete the signed-in user. Useful for allowing a user to delete their
 * own profile.
 * @param {{ region: string, accessToken: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").DeleteUserCommandOutput | null, unknown]>}
 */
export const deleteUser = async ({ region, accessToken }) => {
  try {
    const client = new CognitoIdentityProviderClient({ region });
    const response = await client.send(
      new DeleteUserCommand({ AccessToken: accessToken }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/DeleteUserCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `InitiateAuth`
<a name="cognito-identity-provider_InitiateAuth_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InitiateAuth`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const initiateAuth = ({ username, password, clientId }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new InitiateAuthCommand({
    AuthFlow: AuthFlowType.USER_PASSWORD_AUTH,
    AuthParameters: {
      USERNAME: username,
      PASSWORD: password,
    },
    ClientId: clientId,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [InitiateAuth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/InitiateAuthCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListUsers`
<a name="cognito-identity-provider_ListUsers_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const listUsers = ({ userPoolId }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new ListUsersCommand({
    UserPoolId: userPoolId,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ListUsersCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ResendConfirmationCode`
<a name="cognito-identity-provider_ResendConfirmationCode_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendConfirmationCode`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const resendConfirmationCode = ({ clientId, username }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new ResendConfirmationCodeCommand({
    ClientId: clientId,
    Username: username,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [ResendConfirmationCode](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ResendConfirmationCodeCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `RespondToAuthChallenge`
<a name="cognito-identity-provider_RespondToAuthChallenge_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RespondToAuthChallenge`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const respondToAuthChallenge = ({
  clientId,
  username,
  session,
  userPoolId,
  code,
}) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new RespondToAuthChallengeCommand({
    ChallengeName: ChallengeNameType.SOFTWARE_TOKEN_MFA,
    ChallengeResponses: {
      SOFTWARE_TOKEN_MFA_CODE: code,
      USERNAME: username,
    },
    ClientId: clientId,
    UserPoolId: userPoolId,
    Session: session,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [RespondToAuthChallenge](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/RespondToAuthChallengeCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `SignUp`
<a name="cognito-identity-provider_SignUp_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SignUp`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const signUp = ({ clientId, username, password, email }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new SignUpCommand({
    ClientId: clientId,
    Username: username,
    Password: password,
    UserAttributes: [{ Name: "email", Value: email }],
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [SignUp](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/SignUpCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateUserPool`
<a name="cognito-identity-provider_UpdateUserPool_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUserPool`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-pools-triggers#code-examples). 

```
/**
 * Connect a Lambda function to the PreSignUp trigger for a Cognito user pool
 * @param {{ region: string, userPoolId: string, handlerArn: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").UpdateUserPoolCommandOutput | null, unknown]>}
 */
export const addPreSignUpHandler = async ({
  region,
  userPoolId,
  handlerArn,
}) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({
      region,
    });

    const command = new UpdateUserPoolCommand({
      UserPoolId: userPoolId,
      LambdaConfig: {
        PreSignUp: handlerArn,
      },
    });

    const response = await cognitoClient.send(command);
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};
```
+  Untuk detail API, lihat [UpdateUserPool](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/UpdateUserPoolCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `VerifySoftwareToken`
<a name="cognito-identity-provider_VerifySoftwareToken_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifySoftwareToken`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider#code-examples). 

```
const verifySoftwareToken = (totp) => {
  const client = new CognitoIdentityProviderClient({});

  // The 'Session' is provided in the response to 'AssociateSoftwareToken'.
  const session = process.env.SESSION;

  if (!session) {
    throw new Error(
      "Missing a valid Session. Did you run 'admin-initiate-auth'?",
    );
  }

  const command = new VerifySoftwareTokenCommand({
    Session: session,
    UserCode: totp,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [VerifySoftwareToken](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/VerifySoftwareTokenCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Secara otomatis mengonfirmasi pengguna yang dikenal dengan fungsi Lambda
<a name="cross_CognitoAutoConfirmUser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengonfirmasi pengguna Amazon Cognito yang diketahui secara otomatis dengan fungsi Lambda.
+ Konfigurasikan kumpulan pengguna untuk memanggil fungsi Lambda untuk `PreSignUp` pemicunya.
+ Daftarkan pengguna dengan Amazon Cognito.
+ Fungsi Lambda memindai tabel DynamoDB dan secara otomatis mengonfirmasi pengguna yang dikenal.
+ Masuk sebagai pengguna baru, lalu bersihkan sumber daya.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-pools-triggers#code-examples). 
Konfigurasikan proses “Skenario” interaktif. Contoh JavaScript (v3) berbagi pelari Skenario untuk merampingkan contoh kompleks. Kode sumber lengkap aktif GitHub.   

```
import { AutoConfirm } from "./scenario-auto-confirm.js";

/**
 * The context is passed to every scenario. Scenario steps
 * will modify the context.
 */
const context = {
  errors: [],
  users: [
    {
      UserName: "test_user_1",
      UserEmail: "test_email_1@example.com",
    },
    {
      UserName: "test_user_2",
      UserEmail: "test_email_2@example.com",
    },
    {
      UserName: "test_user_3",
      UserEmail: "test_email_3@example.com",
    },
  ],
};

/**
 * Three Scenarios are created for the workflow. A Scenario is an orchestration class
 * that simplifies running a series of steps.
 */
export const scenarios = {
  // Demonstrate automatically confirming known users in a database.
  "auto-confirm": AutoConfirm(context),
};

// Call function if run directly
import { fileURLToPath } from "node:url";
import { parseScenarioArgs } from "@aws-doc-sdk-examples/lib/scenario/index.js";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  parseScenarioArgs(scenarios, {
    name: "Cognito user pools and triggers",
    description:
      "Demonstrate how to use the AWS SDKs to customize Amazon Cognito authentication behavior.",
  });
}
```
Skenario ini menunjukkan konfirmasi otomatis pengguna yang dikenal. Ini mengatur langkah-langkah contoh.   

```
import { wait } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";
import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/scenario.js";

import {
  getStackOutputs,
  logCleanUpReminder,
  promptForStackName,
  promptForStackRegion,
  skipWhenErrors,
} from "./steps-common.js";
import { populateTable } from "./actions/dynamodb-actions.js";
import {
  addPreSignUpHandler,
  deleteUser,
  getUser,
  signIn,
  signUpUser,
} from "./actions/cognito-actions.js";
import {
  getLatestLogStreamForLambda,
  getLogEvents,
} from "./actions/cloudwatch-logs-actions.js";

/**
 * @typedef {{
 *   errors: Error[],
 *   password: string,
 *   users: { UserName: string, UserEmail: string }[],
 *   selectedUser?: string,
 *   stackName?: string,
 *   stackRegion?: string,
 *   token?: string,
 *   confirmDeleteSignedInUser?: boolean,
 *   TableName?: string,
 *   UserPoolClientId?: string,
 *   UserPoolId?: string,
 *   UserPoolArn?: string,
 *   AutoConfirmHandlerArn?: string,
 *   AutoConfirmHandlerName?: string
 * }} State
 */

const greeting = new ScenarioOutput(
  "greeting",
  (/** @type {State} */ state) => `This demo will populate some users into the \
database created as part of the "${state.stackName}" stack. \
Then the AutoConfirmHandler will be linked to the PreSignUp \
trigger from Cognito. Finally, you will choose a user to sign up.`,
  { skipWhen: skipWhenErrors },
);

const logPopulatingUsers = new ScenarioOutput(
  "logPopulatingUsers",
  "Populating the DynamoDB table with some users.",
  { skipWhenErrors: skipWhenErrors },
);

const logPopulatingUsersComplete = new ScenarioOutput(
  "logPopulatingUsersComplete",
  "Done populating users.",
  { skipWhen: skipWhenErrors },
);

const populateUsers = new ScenarioAction(
  "populateUsers",
  async (/** @type {State} */ state) => {
    const [_, err] = await populateTable({
      region: state.stackRegion,
      tableName: state.TableName,
      items: state.users,
    });
    if (err) {
      state.errors.push(err);
    }
  },
  {
    skipWhen: skipWhenErrors,
  },
);

const logSetupSignUpTrigger = new ScenarioOutput(
  "logSetupSignUpTrigger",
  "Setting up the PreSignUp trigger for the Cognito User Pool.",
  { skipWhen: skipWhenErrors },
);

const setupSignUpTrigger = new ScenarioAction(
  "setupSignUpTrigger",
  async (/** @type {State} */ state) => {
    const [_, err] = await addPreSignUpHandler({
      region: state.stackRegion,
      userPoolId: state.UserPoolId,
      handlerArn: state.AutoConfirmHandlerArn,
    });
    if (err) {
      state.errors.push(err);
    }
  },
  {
    skipWhen: skipWhenErrors,
  },
);

const logSetupSignUpTriggerComplete = new ScenarioOutput(
  "logSetupSignUpTriggerComplete",
  (
    /** @type {State} */ state,
  ) => `The lambda function "${state.AutoConfirmHandlerName}" \
has been configured as the PreSignUp trigger handler for the user pool "${state.UserPoolId}".`,
  { skipWhen: skipWhenErrors },
);

const selectUser = new ScenarioInput(
  "selectedUser",
  "Select a user to sign up.",
  {
    type: "select",
    choices: (/** @type {State} */ state) => state.users.map((u) => u.UserName),
    skipWhen: skipWhenErrors,
    default: (/** @type {State} */ state) => state.users[0].UserName,
  },
);

const checkIfUserAlreadyExists = new ScenarioAction(
  "checkIfUserAlreadyExists",
  async (/** @type {State} */ state) => {
    const [user, err] = await getUser({
      region: state.stackRegion,
      userPoolId: state.UserPoolId,
      username: state.selectedUser,
    });

    if (err?.name === "UserNotFoundException") {
      // Do nothing. We're not expecting the user to exist before
      // sign up is complete.
      return;
    }

    if (err) {
      state.errors.push(err);
      return;
    }

    if (user) {
      state.errors.push(
        new Error(
          `The user "${state.selectedUser}" already exists in the user pool "${state.UserPoolId}".`,
        ),
      );
    }
  },
  {
    skipWhen: skipWhenErrors,
  },
);

const createPassword = new ScenarioInput(
  "password",
  "Enter a password that has at least eight characters, uppercase, lowercase, numbers and symbols.",
  { type: "password", skipWhen: skipWhenErrors, default: "Abcd1234!" },
);

const logSignUpExistingUser = new ScenarioOutput(
  "logSignUpExistingUser",
  (/** @type {State} */ state) => `Signing up user "${state.selectedUser}".`,
  { skipWhen: skipWhenErrors },
);

const signUpExistingUser = new ScenarioAction(
  "signUpExistingUser",
  async (/** @type {State} */ state) => {
    const signUp = (password) =>
      signUpUser({
        region: state.stackRegion,
        userPoolClientId: state.UserPoolClientId,
        username: state.selectedUser,
        email: state.users.find((u) => u.UserName === state.selectedUser)
          .UserEmail,
        password,
      });

    let [_, err] = await signUp(state.password);

    while (err?.name === "InvalidPasswordException") {
      console.warn("The password you entered was invalid.");
      await createPassword.handle(state);
      [_, err] = await signUp(state.password);
    }

    if (err) {
      state.errors.push(err);
    }
  },
  { skipWhen: skipWhenErrors },
);

const logSignUpExistingUserComplete = new ScenarioOutput(
  "logSignUpExistingUserComplete",
  (/** @type {State} */ state) =>
    `"${state.selectedUser} was signed up successfully.`,
  { skipWhen: skipWhenErrors },
);

const logLambdaLogs = new ScenarioAction(
  "logLambdaLogs",
  async (/** @type {State} */ state) => {
    console.log(
      "Waiting a few seconds to let Lambda write to CloudWatch Logs...\n",
    );
    await wait(10);

    const [logStream, logStreamErr] = await getLatestLogStreamForLambda({
      functionName: state.AutoConfirmHandlerName,
      region: state.stackRegion,
    });
    if (logStreamErr) {
      state.errors.push(logStreamErr);
      return;
    }

    console.log(
      `Getting some recent events from log stream "${logStream.logStreamName}"`,
    );
    const [logEvents, logEventsErr] = await getLogEvents({
      functionName: state.AutoConfirmHandlerName,
      region: state.stackRegion,
      eventCount: 10,
      logStreamName: logStream.logStreamName,
    });
    if (logEventsErr) {
      state.errors.push(logEventsErr);
      return;
    }

    console.log(logEvents.map((ev) => `\t${ev.message}`).join(""));
  },
  { skipWhen: skipWhenErrors },
);

const logSignInUser = new ScenarioOutput(
  "logSignInUser",
  (/** @type {State} */ state) => `Let's sign in as ${state.selectedUser}`,
  { skipWhen: skipWhenErrors },
);

const signInUser = new ScenarioAction(
  "signInUser",
  async (/** @type {State} */ state) => {
    const [response, err] = await signIn({
      region: state.stackRegion,
      clientId: state.UserPoolClientId,
      username: state.selectedUser,
      password: state.password,
    });

    if (err?.name === "PasswordResetRequiredException") {
      state.errors.push(new Error("Please reset your password."));
      return;
    }

    if (err) {
      state.errors.push(err);
      return;
    }

    state.token = response?.AuthenticationResult?.AccessToken;
  },
  { skipWhen: skipWhenErrors },
);

const logSignInUserComplete = new ScenarioOutput(
  "logSignInUserComplete",
  (/** @type {State} */ state) =>
    `Successfully signed in. Your access token starts with: ${state.token.slice(0, 11)}`,
  { skipWhen: skipWhenErrors },
);

const confirmDeleteSignedInUser = new ScenarioInput(
  "confirmDeleteSignedInUser",
  "Do you want to delete the currently signed in user?",
  { type: "confirm", skipWhen: skipWhenErrors },
);

const deleteSignedInUser = new ScenarioAction(
  "deleteSignedInUser",
  async (/** @type {State} */ state) => {
    const [_, err] = await deleteUser({
      region: state.stackRegion,
      accessToken: state.token,
    });

    if (err) {
      state.errors.push(err);
    }
  },
  {
    skipWhen: (/** @type {State} */ state) =>
      skipWhenErrors(state) || !state.confirmDeleteSignedInUser,
  },
);

const logErrors = new ScenarioOutput(
  "logErrors",
  (/** @type {State}*/ state) => {
    const errorList = state.errors
      .map((err) => ` - ${err.name}: ${err.message}`)
      .join("\n");
    return `Scenario errors found:\n${errorList}`;
  },
  {
    // Don't log errors when there aren't any!
    skipWhen: (/** @type {State} */ state) => state.errors.length === 0,
  },
);

export const AutoConfirm = (context) =>
  new Scenario(
    "AutoConfirm",
    [
      promptForStackName,
      promptForStackRegion,
      getStackOutputs,
      greeting,
      logPopulatingUsers,
      populateUsers,
      logPopulatingUsersComplete,
      logSetupSignUpTrigger,
      setupSignUpTrigger,
      logSetupSignUpTriggerComplete,
      selectUser,
      checkIfUserAlreadyExists,
      createPassword,
      logSignUpExistingUser,
      signUpExistingUser,
      logSignUpExistingUserComplete,
      logLambdaLogs,
      logSignInUser,
      signInUser,
      logSignInUserComplete,
      confirmDeleteSignedInUser,
      deleteSignedInUser,
      logCleanUpReminder,
      logErrors,
    ],
    context,
  );
```
Ini adalah langkah-langkah yang dibagikan dengan Skenario lain.  

```
import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/scenario.js";
import { getCfnOutputs } from "@aws-doc-sdk-examples/lib/sdk/cfn-outputs.js";

export const skipWhenErrors = (state) => state.errors.length > 0;

export const getStackOutputs = new ScenarioAction(
  "getStackOutputs",
  async (state) => {
    if (!state.stackName || !state.stackRegion) {
      state.errors.push(
        new Error(
          "No stack name or region provided. The stack name and \
region are required to fetch CFN outputs relevant to this example.",
        ),
      );
      return;
    }

    const outputs = await getCfnOutputs(state.stackName, state.stackRegion);
    Object.assign(state, outputs);
  },
);

export const promptForStackName = new ScenarioInput(
  "stackName",
  "Enter the name of the stack you deployed earlier.",
  { type: "input", default: "PoolsAndTriggersStack" },
);

export const promptForStackRegion = new ScenarioInput(
  "stackRegion",
  "Enter the region of the stack you deployed earlier.",
  { type: "input", default: "us-east-1" },
);

export const logCleanUpReminder = new ScenarioOutput(
  "logCleanUpReminder",
  "All done. Remember to run 'cdk destroy' to teardown the stack.",
  { skipWhen: skipWhenErrors },
);
```
Handler untuk `PreSignUp` pemicu dengan fungsi Lambda.  

```
import type { PreSignUpTriggerEvent, Handler } from "aws-lambda";
import type { UserRepository } from "./user-repository";
import { DynamoDBUserRepository } from "./user-repository";

export class PreSignUpHandler {
  private userRepository: UserRepository;

  constructor(userRepository: UserRepository) {
    this.userRepository = userRepository;
  }

  private isPreSignUpTriggerSource(event: PreSignUpTriggerEvent): boolean {
    return event.triggerSource === "PreSignUp_SignUp";
  }

  private getEventUserEmail(event: PreSignUpTriggerEvent): string {
    return event.request.userAttributes.email;
  }

  async handlePreSignUpTriggerEvent(
    event: PreSignUpTriggerEvent,
  ): Promise<PreSignUpTriggerEvent> {
    console.log(
      `Received presignup from ${event.triggerSource} for user '${event.userName}'`,
    );

    if (!this.isPreSignUpTriggerSource(event)) {
      return event;
    }

    const eventEmail = this.getEventUserEmail(event);
    console.log(`Looking up email ${eventEmail}.`);
    const storedUserInfo =
      await this.userRepository.getUserInfoByEmail(eventEmail);

    if (!storedUserInfo) {
      console.log(
        `Email ${eventEmail} not found. Email verification is required.`,
      );
      return event;
    }

    if (storedUserInfo.UserName !== event.userName) {
      console.log(
        `UserEmail ${eventEmail} found, but stored UserName '${storedUserInfo.UserName}' does not match supplied UserName '${event.userName}'. Verification is required.`,
      );
    } else {
      console.log(
        `UserEmail ${eventEmail} found with matching UserName ${storedUserInfo.UserName}. User is confirmed.`,
      );
      event.response.autoConfirmUser = true;
      event.response.autoVerifyEmail = true;
    }
    return event;
  }
}

const createPreSignUpHandler = (): PreSignUpHandler => {
  const tableName = process.env.TABLE_NAME;
  if (!tableName) {
    throw new Error("TABLE_NAME environment variable is not set");
  }

  const userRepository = new DynamoDBUserRepository(tableName);
  return new PreSignUpHandler(userRepository);
};

export const handler: Handler = async (event: PreSignUpTriggerEvent) => {
  const preSignUpHandler = createPreSignUpHandler();
  return preSignUpHandler.handlePreSignUpTriggerEvent(event);
};
```
Modul tindakan CloudWatch Log.  

```
import {
  CloudWatchLogsClient,
  GetLogEventsCommand,
  OrderBy,
  paginateDescribeLogStreams,
} from "@aws-sdk/client-cloudwatch-logs";

/**
 * Get the latest log stream for a Lambda function.
 * @param {{ functionName: string, region: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cloudwatch-logs").LogStream | null, unknown]>}
 */
export const getLatestLogStreamForLambda = async ({ functionName, region }) => {
  try {
    const logGroupName = `/aws/lambda/${functionName}`;
    const cwlClient = new CloudWatchLogsClient({ region });
    const paginator = paginateDescribeLogStreams(
      { client: cwlClient },
      {
        descending: true,
        limit: 1,
        orderBy: OrderBy.LastEventTime,
        logGroupName,
      },
    );

    for await (const page of paginator) {
      return [page.logStreams[0], null];
    }
  } catch (err) {
    return [null, err];
  }
};

/**
 * Get the log events for a Lambda function's log stream.
 * @param {{
 *   functionName: string,
 *   logStreamName: string,
 *   eventCount: number,
 *   region: string
 * }} config
 * @returns {Promise<[import("@aws-sdk/client-cloudwatch-logs").OutputLogEvent[] | null, unknown]>}
 */
export const getLogEvents = async ({
  functionName,
  logStreamName,
  eventCount,
  region,
}) => {
  try {
    const cwlClient = new CloudWatchLogsClient({ region });
    const logGroupName = `/aws/lambda/${functionName}`;
    const response = await cwlClient.send(
      new GetLogEventsCommand({
        logStreamName: logStreamName,
        limit: eventCount,
        logGroupName: logGroupName,
      }),
    );

    return [response.events, null];
  } catch (err) {
    return [null, err];
  }
};
```
Modul tindakan Amazon Cognito.  

```
import {
  AdminGetUserCommand,
  CognitoIdentityProviderClient,
  DeleteUserCommand,
  InitiateAuthCommand,
  SignUpCommand,
  UpdateUserPoolCommand,
} from "@aws-sdk/client-cognito-identity-provider";

/**
 * Connect a Lambda function to the PreSignUp trigger for a Cognito user pool
 * @param {{ region: string, userPoolId: string, handlerArn: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").UpdateUserPoolCommandOutput | null, unknown]>}
 */
export const addPreSignUpHandler = async ({
  region,
  userPoolId,
  handlerArn,
}) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({
      region,
    });

    const command = new UpdateUserPoolCommand({
      UserPoolId: userPoolId,
      LambdaConfig: {
        PreSignUp: handlerArn,
      },
    });

    const response = await cognitoClient.send(command);
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};

/**
 * Attempt to register a user to a user pool with a given username and password.
 * @param {{
 *   region: string,
 *   userPoolClientId: string,
 *   username: string,
 *   email: string,
 *   password: string
 * }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").SignUpCommandOutput | null, unknown]>}
 */
export const signUpUser = async ({
  region,
  userPoolClientId,
  username,
  email,
  password,
}) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({
      region,
    });

    const response = await cognitoClient.send(
      new SignUpCommand({
        ClientId: userPoolClientId,
        Username: username,
        Password: password,
        UserAttributes: [{ Name: "email", Value: email }],
      }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};

/**
 * Sign in a user to Amazon Cognito using a username and password authentication flow.
 * @param {{ region: string, clientId: string, username: string, password: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").InitiateAuthCommandOutput | null, unknown]>}
 */
export const signIn = async ({ region, clientId, username, password }) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({ region });
    const response = await cognitoClient.send(
      new InitiateAuthCommand({
        AuthFlow: "USER_PASSWORD_AUTH",
        ClientId: clientId,
        AuthParameters: { USERNAME: username, PASSWORD: password },
      }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};

/**
 * Retrieve an existing user from a user pool.
 * @param {{ region: string, userPoolId: string, username: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").AdminGetUserCommandOutput | null, unknown]>}
 */
export const getUser = async ({ region, userPoolId, username }) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({ region });
    const response = await cognitoClient.send(
      new AdminGetUserCommand({
        UserPoolId: userPoolId,
        Username: username,
      }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};

/**
 * Delete the signed-in user. Useful for allowing a user to delete their
 * own profile.
 * @param {{ region: string, accessToken: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").DeleteUserCommandOutput | null, unknown]>}
 */
export const deleteUser = async ({ region, accessToken }) => {
  try {
    const client = new CognitoIdentityProviderClient({ region });
    const response = await client.send(
      new DeleteUserCommand({ AccessToken: accessToken }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};
```
Modul tindakan DynamoDB.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import {
  BatchWriteCommand,
  DynamoDBDocumentClient,
} from "@aws-sdk/lib-dynamodb";

/**
 * Populate a DynamoDB table with provide items.
 * @param {{ region: string, tableName: string, items: Record<string, unknown>[] }} config
 * @returns {Promise<[import("@aws-sdk/lib-dynamodb").BatchWriteCommandOutput | null, unknown]>}
 */
export const populateTable = async ({ region, tableName, items }) => {
  try {
    const ddbClient = new DynamoDBClient({ region });
    const docClient = DynamoDBDocumentClient.from(ddbClient);
    const response = await docClient.send(
      new BatchWriteCommand({
        RequestItems: {
          [tableName]: items.map((item) => ({
            PutRequest: {
              Item: item,
            },
          })),
        },
      }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [DeleteUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/DeleteUserCommand)
  + [InitiateAuth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/InitiateAuthCommand)
  + [SignUp](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/SignUpCommand)
  + [UpdateUserPool](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/UpdateUserPoolCommand)

### Mendaftar pengguna dengan kumpulan pengguna yang membutuhkan MFA
<a name="cognito-identity-provider_Scenario_SignUpUserWithMfa_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar dan konfirmasikan pengguna dengan nama pengguna, kata sandi, dan alamat email.
+ Siapkan otentikasi multi-faktor dengan mengaitkan aplikasi MFA dengan pengguna.
+ Masuk dengan menggunakan kata sandi dan kode MFA.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cognito-identity-provider/scenarios/basic#code-examples). 
Untuk pengalaman terbaik, kloning GitHub repositori dan jalankan contoh ini. Kode berikut merupakan contoh aplikasi contoh lengkap.  

```
import { logger } from "@aws-doc-sdk-examples/lib/utils/util-log.js";
import { signUp } from "../../../actions/sign-up.js";
import { FILE_USER_POOLS } from "./constants.js";
import { getSecondValuesFromEntries } from "@aws-doc-sdk-examples/lib/utils/util-csv.js";

const validateClient = (clientId) => {
  if (!clientId) {
    throw new Error(
      `App client id is missing. Did you run 'create-user-pool'?`,
    );
  }
};

const validateUser = (username, password, email) => {
  if (!(username && password && email)) {
    throw new Error(
      `Username, password, and email must be provided as arguments to the 'sign-up' command.`,
    );
  }
};

const signUpHandler = async (commands) => {
  const [_, username, password, email] = commands;

  try {
    validateUser(username, password, email);
    /**
     * @type {string[]}
     */
    const values = getSecondValuesFromEntries(FILE_USER_POOLS);
    const clientId = values[0];
    validateClient(clientId);
    logger.log("Signing up.");
    await signUp({ clientId, username, password, email });
    logger.log(`Signed up. A confirmation email has been sent to: ${email}.`);
    logger.log(
      `Run 'confirm-sign-up ${username} <code>' to confirm your account.`,
    );
  } catch (err) {
    logger.error(err);
  }
};

export { signUpHandler };

const signUp = ({ clientId, username, password, email }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new SignUpCommand({
    ClientId: clientId,
    Username: username,
    Password: password,
    UserAttributes: [{ Name: "email", Value: email }],
  });

  return client.send(command);
};

import { logger } from "@aws-doc-sdk-examples/lib/utils/util-log.js";
import { confirmSignUp } from "../../../actions/confirm-sign-up.js";
import { FILE_USER_POOLS } from "./constants.js";
import { getSecondValuesFromEntries } from "@aws-doc-sdk-examples/lib/utils/util-csv.js";

const validateClient = (clientId) => {
  if (!clientId) {
    throw new Error(
      `App client id is missing. Did you run 'create-user-pool'?`,
    );
  }
};

const validateUser = (username) => {
  if (!username) {
    throw new Error(
      `Username name is missing. It must be provided as an argument to the 'confirm-sign-up' command.`,
    );
  }
};

const validateCode = (code) => {
  if (!code) {
    throw new Error(
      `Verification code is missing. It must be provided as an argument to the 'confirm-sign-up' command.`,
    );
  }
};

const confirmSignUpHandler = async (commands) => {
  const [_, username, code] = commands;

  try {
    validateUser(username);
    validateCode(code);
    /**
     * @type {string[]}
     */
    const values = getSecondValuesFromEntries(FILE_USER_POOLS);
    const clientId = values[0];
    validateClient(clientId);
    logger.log("Confirming user.");
    await confirmSignUp({ clientId, username, code });
    logger.log(
      `User confirmed. Run 'admin-initiate-auth ${username} <password>' to sign in.`,
    );
  } catch (err) {
    logger.error(err);
  }
};

export { confirmSignUpHandler };

const confirmSignUp = ({ clientId, username, code }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new ConfirmSignUpCommand({
    ClientId: clientId,
    Username: username,
    ConfirmationCode: code,
  });

  return client.send(command);
};

import qrcode from "qrcode-terminal";
import { logger } from "@aws-doc-sdk-examples/lib/utils/util-log.js";
import { adminInitiateAuth } from "../../../actions/admin-initiate-auth.js";
import { associateSoftwareToken } from "../../../actions/associate-software-token.js";
import { FILE_USER_POOLS } from "./constants.js";
import { getFirstEntry } from "@aws-doc-sdk-examples/lib/utils/util-csv.js";

const handleMfaSetup = async (session, username) => {
  const { SecretCode, Session } = await associateSoftwareToken(session);

  // Store the Session for use with 'VerifySoftwareToken'.
  process.env.SESSION = Session;

  console.log(
    "Scan this code in your preferred authenticator app, then run 'verify-software-token' to finish the setup.",
  );
  qrcode.generate(
    `otpauth://totp/${username}?secret=${SecretCode}`,
    { small: true },
    console.log,
  );
};

const handleSoftwareTokenMfa = (session) => {
  // Store the Session for use with 'AdminRespondToAuthChallenge'.
  process.env.SESSION = session;
};

const validateClient = (id) => {
  if (!id) {
    throw new Error(
      `User pool client id is missing. Did you run 'create-user-pool'?`,
    );
  }
};

const validateId = (id) => {
  if (!id) {
    throw new Error(`User pool id is missing. Did you run 'create-user-pool'?`);
  }
};

const validateUser = (username, password) => {
  if (!(username && password)) {
    throw new Error(
      `Username and password must be provided as arguments to the 'admin-initiate-auth' command.`,
    );
  }
};

const adminInitiateAuthHandler = async (commands) => {
  const [_, username, password] = commands;

  try {
    validateUser(username, password);

    const [userPoolId, clientId] = getFirstEntry(FILE_USER_POOLS);
    validateId(userPoolId);
    validateClient(clientId);

    logger.log("Signing in.");
    const { ChallengeName, Session } = await adminInitiateAuth({
      clientId,
      userPoolId,
      username,
      password,
    });

    if (ChallengeName === "MFA_SETUP") {
      logger.log("MFA setup is required.");
      return handleMfaSetup(Session, username);
    }

    if (ChallengeName === "SOFTWARE_TOKEN_MFA") {
      handleSoftwareTokenMfa(Session);
      logger.log(`Run 'admin-respond-to-auth-challenge ${username} <totp>'`);
    }
  } catch (err) {
    logger.error(err);
  }
};

export { adminInitiateAuthHandler };

const adminInitiateAuth = ({ clientId, userPoolId, username, password }) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new AdminInitiateAuthCommand({
    ClientId: clientId,
    UserPoolId: userPoolId,
    AuthFlow: AuthFlowType.ADMIN_USER_PASSWORD_AUTH,
    AuthParameters: { USERNAME: username, PASSWORD: password },
  });

  return client.send(command);
};

import { logger } from "@aws-doc-sdk-examples/lib/utils/util-log.js";
import { adminRespondToAuthChallenge } from "../../../actions/admin-respond-to-auth-challenge.js";
import { getFirstEntry } from "@aws-doc-sdk-examples/lib/utils/util-csv.js";
import { FILE_USER_POOLS } from "./constants.js";

const verifyUsername = (username) => {
  if (!username) {
    throw new Error(
      `Username is missing. It must be provided as an argument to the 'admin-respond-to-auth-challenge' command.`,
    );
  }
};

const verifyTotp = (totp) => {
  if (!totp) {
    throw new Error(
      `Time-based one-time password (TOTP) is missing. It must be provided as an argument to the 'admin-respond-to-auth-challenge' command.`,
    );
  }
};

const storeAccessToken = (token) => {
  process.env.AccessToken = token;
};

const adminRespondToAuthChallengeHandler = async (commands) => {
  const [_, username, totp] = commands;

  try {
    verifyUsername(username);
    verifyTotp(totp);

    const [userPoolId, clientId] = getFirstEntry(FILE_USER_POOLS);
    const session = process.env.SESSION;

    const { AuthenticationResult } = await adminRespondToAuthChallenge({
      clientId,
      userPoolId,
      username,
      totp,
      session,
    });

    storeAccessToken(AuthenticationResult.AccessToken);

    logger.log("Successfully authenticated.");
  } catch (err) {
    logger.error(err);
  }
};

export { adminRespondToAuthChallengeHandler };

const respondToAuthChallenge = ({
  clientId,
  username,
  session,
  userPoolId,
  code,
}) => {
  const client = new CognitoIdentityProviderClient({});

  const command = new RespondToAuthChallengeCommand({
    ChallengeName: ChallengeNameType.SOFTWARE_TOKEN_MFA,
    ChallengeResponses: {
      SOFTWARE_TOKEN_MFA_CODE: code,
      USERNAME: username,
    },
    ClientId: clientId,
    UserPoolId: userPoolId,
    Session: session,
  });

  return client.send(command);
};

import { logger } from "@aws-doc-sdk-examples/lib/utils/util-log.js";
import { verifySoftwareToken } from "../../../actions/verify-software-token.js";

const validateTotp = (totp) => {
  if (!totp) {
    throw new Error(
      `Time-based one-time password (TOTP) must be provided to the 'validate-software-token' command.`,
    );
  }
};
const verifySoftwareTokenHandler = async (commands) => {
  const [_, totp] = commands;

  try {
    validateTotp(totp);

    logger.log("Verifying TOTP.");
    await verifySoftwareToken(totp);
    logger.log("TOTP Verified. Run 'admin-initiate-auth' again to sign-in.");
  } catch (err) {
    logger.error(err);
  }
};

export { verifySoftwareTokenHandler };

const verifySoftwareToken = (totp) => {
  const client = new CognitoIdentityProviderClient({});

  // The 'Session' is provided in the response to 'AssociateSoftwareToken'.
  const session = process.env.SESSION;

  if (!session) {
    throw new Error(
      "Missing a valid Session. Did you run 'admin-initiate-auth'?",
    );
  }

  const command = new VerifySoftwareTokenCommand({
    Session: session,
    UserCode: totp,
  });

  return client.send(command);
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [AdminGetUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/AdminGetUserCommand)
  + [AdminInitiateAuth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/AdminInitiateAuthCommand)
  + [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/AdminRespondToAuthChallengeCommand)
  + [AssociateSoftwareToken](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/AssociateSoftwareTokenCommand)
  + [ConfirmDevice](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ConfirmDeviceCommand)
  + [ConfirmSignUp](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ConfirmSignUpCommand)
  + [InitiateAuth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/InitiateAuthCommand)
  + [ListUsers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ListUsersCommand)
  + [ResendConfirmationCode](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/ResendConfirmationCodeCommand)
  + [RespondToAuthChallenge](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/RespondToAuthChallengeCommand)
  + [SignUp](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/SignUpCommand)
  + [VerifySoftwareToken](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/VerifySoftwareTokenCommand)

# Amazon Comprehend contoh menggunakan SDK for (v3) JavaScript
<a name="javascript_3_comprehend_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Comprehend.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi streaming Amazon Transcribe
<a name="cross_TranscriptionStreamingApp_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang merekam, mentranskripsikan, dan menerjemahkan audio langsung secara real-time, dan mengirim email hasilnya.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Transcribe untuk membuat aplikasi yang merekam, menyalin, dan menerjemahkan audio langsung secara real-time, dan mengirim email hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/transcribe-streaming-app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon SES
+ Amazon Transcribe
+ Amazon Translate

### Membangun chatbot Amazon Lex
<a name="cross_LexChatbotLanguages_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat chatbot untuk melibatkan pengunjung situs web Anda.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Lex API untuk membuat Chatbot dalam aplikasi web untuk melibatkan pengunjung situs web Anda.   
 Untuk kode sumber lengkap dan petunjuk tentang cara mengatur dan menjalankan, lihat contoh lengkap [Membangun chatbot Amazon Lex](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/lex-bot-example.html) di panduan AWS SDK untuk JavaScript pengembang.   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon Lex
+ Amazon Translate

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk JavaScript (v3)**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/feedback-sentiment-analyzer). Kutipan berikut menunjukkan bagaimana yang AWS SDK untuk JavaScript digunakan di dalam fungsi Lambda.   

```
import {
  ComprehendClient,
  DetectDominantLanguageCommand,
  DetectSentimentCommand,
} from "@aws-sdk/client-comprehend";

/**
 * Determine the language and sentiment of the extracted text.
 *
 * @param {{ source_text: string}} extractTextOutput
 */
export const handler = async (extractTextOutput) => {
  const comprehendClient = new ComprehendClient({});

  const detectDominantLanguageCommand = new DetectDominantLanguageCommand({
    Text: extractTextOutput.source_text,
  });

  // The source language is required for sentiment analysis and
  // translation in the next step.
  const { Languages } = await comprehendClient.send(
    detectDominantLanguageCommand,
  );

  const languageCode = Languages[0].LanguageCode;

  const detectSentimentCommand = new DetectSentimentCommand({
    Text: extractTextOutput.source_text,
    LanguageCode: languageCode,
  });

  const { Sentiment } = await comprehendClient.send(detectSentimentCommand);

  return {
    sentiment: Sentiment,
    language_code: languageCode,
  };
};
```

```
import {
  DetectDocumentTextCommand,
  TextractClient,
} from "@aws-sdk/client-textract";

/**
 * Fetch the S3 object from the event and analyze it using Amazon Textract.
 *
 * @param {import("@types/aws-lambda").EventBridgeEvent<"Object Created">} eventBridgeS3Event
 */
export const handler = async (eventBridgeS3Event) => {
  const textractClient = new TextractClient();

  const detectDocumentTextCommand = new DetectDocumentTextCommand({
    Document: {
      S3Object: {
        Bucket: eventBridgeS3Event.bucket,
        Name: eventBridgeS3Event.object,
      },
    },
  });

  // Textract returns a list of blocks. A block can be a line, a page, word, etc.
  // Each block also contains geometry of the detected text.
  // For more information on the Block type, see https://docs.aws.amazon.com/textract/latest/dg/API_Block.html.
  const { Blocks } = await textractClient.send(detectDocumentTextCommand);

  // For the purpose of this example, we are only interested in words.
  const extractedWords = Blocks.filter((b) => b.BlockType === "WORD").map(
    (b) => b.Text,
  );

  return extractedWords.join(" ");
};
```

```
import { PollyClient, SynthesizeSpeechCommand } from "@aws-sdk/client-polly";
import { S3Client } from "@aws-sdk/client-s3";
import { Upload } from "@aws-sdk/lib-storage";

/**
 * Synthesize an audio file from text.
 *
 * @param {{ bucket: string, translated_text: string, object: string}} sourceDestinationConfig
 */
export const handler = async (sourceDestinationConfig) => {
  const pollyClient = new PollyClient({});

  const synthesizeSpeechCommand = new SynthesizeSpeechCommand({
    Engine: "neural",
    Text: sourceDestinationConfig.translated_text,
    VoiceId: "Ruth",
    OutputFormat: "mp3",
  });

  const { AudioStream } = await pollyClient.send(synthesizeSpeechCommand);

  const audioKey = `${sourceDestinationConfig.object}.mp3`;

  // Store the audio file in S3.
  const s3Client = new S3Client();
  const upload = new Upload({
    client: s3Client,
    params: {
      Bucket: sourceDestinationConfig.bucket,
      Key: audioKey,
      Body: AudioStream,
      ContentType: "audio/mp3",
    },
  });

  await upload.done();
  return audioKey;
};
```

```
import {
  TranslateClient,
  TranslateTextCommand,
} from "@aws-sdk/client-translate";

/**
 * Translate the extracted text to English.
 *
 * @param {{ extracted_text: string, source_language_code: string}} textAndSourceLanguage
 */
export const handler = async (textAndSourceLanguage) => {
  const translateClient = new TranslateClient({});

  const translateCommand = new TranslateTextCommand({
    SourceLanguageCode: textAndSourceLanguage.source_language_code,
    TargetLanguageCode: "en",
    Text: textAndSourceLanguage.extracted_text,
  });

  const { TranslatedText } = await translateClient.send(translateCommand);

  return { translated_text: TranslatedText };
};
```

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon DocumentDB menggunakan SDK JavaScript untuk (v3)
<a name="javascript_3_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon DocumentDB.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan menggunakan Lambda. JavaScript  

```
console.log('Loading function');
exports.handler = async (event, context) => {
    event.events.forEach(record => {
        logDocumentDBEvent(record);
    });
    return 'OK';
};

const logDocumentDBEvent = (record) => {
    console.log('Operation type: ' + record.event.operationType);
    console.log('db: ' + record.event.ns.db);
    console.log('collection: ' + record.event.ns.coll);
    console.log('Full document:', JSON.stringify(record.event.fullDocument, null, 2));
};
```
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan TypeScript  

```
import { DocumentDBEventRecord, DocumentDBEventSubscriptionContext } from 'aws-lambda';

console.log('Loading function');

export const handler = async (
  event: DocumentDBEventSubscriptionContext,
  context: any
): Promise<string> => {
  event.events.forEach((record: DocumentDBEventRecord) => {
    logDocumentDBEvent(record);
  });
  return 'OK';
};

const logDocumentDBEvent = (record: DocumentDBEventRecord): void => {
  console.log('Operation type: ' + record.event.operationType);
  console.log('db: ' + record.event.ns.db);
  console.log('collection: ' + record.event.ns.coll);
  console.log('Full document:', JSON.stringify(record.event.fullDocument, null, 2));
};
```

# Contoh DynamoDB menggunakan SDK JavaScript for (v3)
<a name="javascript_3_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo DynamoDB
<a name="dynamodb_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan DynamoDB.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Untuk detail lebih lanjut tentang bekerja dengan DynamoDB di, lihat [Pemrograman](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/programming-with-javascript.html) DynamoDB AWS SDK untuk JavaScript dengan. JavaScript  

```
import { ListTablesCommand, DynamoDBClient } from "@aws-sdk/client-dynamodb";

const client = new DynamoDBClient({});

export const main = async () => {
  const command = new ListTablesCommand({});

  const response = await client.send(command);
  console.log(response.TableNames.join("\n"));
  return response;
};
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ListTablesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 

```
import { readFileSync } from "node:fs";
import {
  BillingMode,
  CreateTableCommand,
  DeleteTableCommand,
  DynamoDBClient,
  waitUntilTableExists,
} from "@aws-sdk/client-dynamodb";

/**
 * This module is a convenience library. It abstracts Amazon DynamoDB's data type
 * descriptors (such as S, N, B, and BOOL) by marshalling JavaScript objects into
 * AttributeValue shapes.
 */
import {
  BatchWriteCommand,
  DeleteCommand,
  DynamoDBDocumentClient,
  GetCommand,
  PutCommand,
  UpdateCommand,
  paginateQuery,
  paginateScan,
} from "@aws-sdk/lib-dynamodb";

// These modules are local to our GitHub repository. We recommend cloning
// the project from GitHub if you want to run this example.
// For more information, see https://github.com/awsdocs/aws-doc-sdk-examples.
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { dirnameFromMetaUrl } from "@aws-doc-sdk-examples/lib/utils/util-fs.js";
import { chunkArray } from "@aws-doc-sdk-examples/lib/utils/util-array.js";

const dirname = dirnameFromMetaUrl(import.meta.url);
const tableName = getUniqueName("Movies");
const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

const log = (msg) => console.log(`[SCENARIO] ${msg}`);

export const main = async () => {
  /**
   * Create a table.
   */

  const createTableCommand = new CreateTableCommand({
    TableName: tableName,
    // This example performs a large write to the database.
    // Set the billing mode to PAY_PER_REQUEST to
    // avoid throttling the large write.
    BillingMode: BillingMode.PAY_PER_REQUEST,
    // Define the attributes that are necessary for the key schema.
    AttributeDefinitions: [
      {
        AttributeName: "year",
        // 'N' is a data type descriptor that represents a number type.
        // For a list of all data type descriptors, see the following link.
        // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Programming.LowLevelAPI.html#Programming.LowLevelAPI.DataTypeDescriptors
        AttributeType: "N",
      },
      { AttributeName: "title", AttributeType: "S" },
    ],
    // The KeySchema defines the primary key. The primary key can be
    // a partition key, or a combination of a partition key and a sort key.
    // Key schema design is important. For more info, see
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/best-practices.html
    KeySchema: [
      // The way your data is accessed determines how you structure your keys.
      // The movies table will be queried for movies by year. It makes sense
      // to make year our partition (HASH) key.
      { AttributeName: "year", KeyType: "HASH" },
      { AttributeName: "title", KeyType: "RANGE" },
    ],
  });

  log("Creating a table.");
  const createTableResponse = await client.send(createTableCommand);
  log(`Table created: ${JSON.stringify(createTableResponse.TableDescription)}`);

  // This polls with DescribeTableCommand until the requested table is 'ACTIVE'.
  // You can't write to a table before it's active.
  log("Waiting for the table to be active.");
  await waitUntilTableExists({ client }, { TableName: tableName });
  log("Table active.");

  /**
   * Add a movie to the table.
   */

  log("Adding a single movie to the table.");
  // PutCommand is the first example usage of 'lib-dynamodb'.
  const putCommand = new PutCommand({
    TableName: tableName,
    Item: {
      // In 'client-dynamodb', the AttributeValue would be required (`year: { N: 1981 }`)
      // 'lib-dynamodb' simplifies the usage ( `year: 1981` )
      year: 1981,
      // The preceding KeySchema defines 'title' as our sort (RANGE) key, so 'title'
      // is required.
      title: "The Evil Dead",
      // Every other attribute is optional.
      info: {
        genres: ["Horror"],
      },
    },
  });
  await docClient.send(putCommand);
  log("The movie was added.");

  /**
   * Get a movie from the table.
   */

  log("Getting a single movie from the table.");
  const getCommand = new GetCommand({
    TableName: tableName,
    // Requires the complete primary key. For the movies table, the primary key
    // is only the id (partition key).
    Key: {
      year: 1981,
      title: "The Evil Dead",
    },
    // Set this to make sure that recent writes are reflected.
    // For more information, see https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/HowItWorks.ReadConsistency.html.
    ConsistentRead: true,
  });
  const getResponse = await docClient.send(getCommand);
  log(`Got the movie: ${JSON.stringify(getResponse.Item)}`);

  /**
   * Update a movie in the table.
   */

  log("Updating a single movie in the table.");
  const updateCommand = new UpdateCommand({
    TableName: tableName,
    Key: { year: 1981, title: "The Evil Dead" },
    // This update expression appends "Comedy" to the list of genres.
    // For more information on update expressions, see
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Expressions.UpdateExpressions.html
    UpdateExpression: "set #i.#g = list_append(#i.#g, :vals)",
    ExpressionAttributeNames: { "#i": "info", "#g": "genres" },
    ExpressionAttributeValues: {
      ":vals": ["Comedy"],
    },
    ReturnValues: "ALL_NEW",
  });
  const updateResponse = await docClient.send(updateCommand);
  log(`Movie updated: ${JSON.stringify(updateResponse.Attributes)}`);

  /**
   * Delete a movie from the table.
   */

  log("Deleting a single movie from the table.");
  const deleteCommand = new DeleteCommand({
    TableName: tableName,
    Key: { year: 1981, title: "The Evil Dead" },
  });
  await docClient.send(deleteCommand);
  log("Movie deleted.");

  /**
   * Upload a batch of movies.
   */

  log("Adding movies from local JSON file.");
  const file = readFileSync(
    `${dirname}../../../../resources/sample_files/movies.json`,
  );
  const movies = JSON.parse(file.toString());
  // chunkArray is a local convenience function. It takes an array and returns
  // a generator function. The generator function yields every N items.
  const movieChunks = chunkArray(movies, 25);
  // For every chunk of 25 movies, make one BatchWrite request.
  for (const chunk of movieChunks) {
    const putRequests = chunk.map((movie) => ({
      PutRequest: {
        Item: movie,
      },
    }));

    const command = new BatchWriteCommand({
      RequestItems: {
        [tableName]: putRequests,
      },
    });

    await docClient.send(command);
  }
  log("Movies added.");

  /**
   * Query for movies by year.
   */

  log("Querying for all movies from 1981.");
  const paginatedQuery = paginateQuery(
    { client: docClient },
    {
      TableName: tableName,
      //For more information about query expressions, see
      // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Query.html#Query.KeyConditionExpressions
      KeyConditionExpression: "#y = :y",
      // 'year' is a reserved word in DynamoDB. Indicate that it's an attribute
      // name by using an expression attribute name.
      ExpressionAttributeNames: { "#y": "year" },
      ExpressionAttributeValues: { ":y": 1981 },
      ConsistentRead: true,
    },
  );
  /**
   * @type { Record<string, any>[] };
   */
  const movies1981 = [];
  for await (const page of paginatedQuery) {
    movies1981.push(...page.Items);
  }
  log(`Movies: ${movies1981.map((m) => m.title).join(", ")}`);

  /**
   * Scan the table for movies between 1980 and 1990.
   */

  log("Scan for movies released between 1980 and 1990");
  // A 'Scan' operation always reads every item in the table. If your design requires
  // the use of 'Scan', consider indexing your table or changing your design.
  // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/bp-query-scan.html
  const paginatedScan = paginateScan(
    { client: docClient },
    {
      TableName: tableName,
      // Scan uses a filter expression instead of a key condition expression. Scan will
      // read the entire table and then apply the filter.
      FilterExpression: "#y between :y1 and :y2",
      ExpressionAttributeNames: { "#y": "year" },
      ExpressionAttributeValues: { ":y1": 1980, ":y2": 1990 },
      ConsistentRead: true,
    },
  );
  /**
   * @type { Record<string, any>[] };
   */
  const movies1980to1990 = [];
  for await (const page of paginatedScan) {
    movies1980to1990.push(...page.Items);
  }
  log(
    `Movies: ${movies1980to1990
      .map((m) => `${m.title} (${m.year})`)
      .join(", ")}`,
  );

  /**
   * Delete the table.
   */

  const deleteTableCommand = new DeleteTableCommand({ TableName: tableName });
  log(`Deleting table ${tableName}.`);
  await client.send(deleteTableCommand);
  log("Table deleted.");
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [BatchWriteItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchWriteItemCommand)
  + [CreateTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/CreateTableCommand)
  + [DeleteItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/DeleteItemCommand)
  + [DeleteTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/DeleteTableCommand)
  + [DescribeTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/DescribeTableCommand)
  + [GetItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/GetItemCommand)
  + [PutItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/PutItemCommand)
  + [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand)
  + [Scan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ScanCommand)
  + [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)

## Tindakan
<a name="actions"></a>

### `BatchExecuteStatement`
<a name="dynamodb_BatchExecuteStatement_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchExecuteStatement`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Buat batch item menggunakan PartiQL.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";

import {
  DynamoDBDocumentClient,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const breakfastFoods = ["Eggs", "Bacon", "Sausage"];
  const command = new BatchExecuteStatementCommand({
    Statements: breakfastFoods.map((food) => ({
      Statement: `INSERT INTO BreakfastFoods value {'Name':?}`,
      Parameters: [food],
    })),
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
Dapatkan batch item menggunakan PartiQL.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";

import {
  DynamoDBDocumentClient,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new BatchExecuteStatementCommand({
    Statements: [
      {
        Statement: "SELECT * FROM PepperMeasurements WHERE Unit=?",
        Parameters: ["Teaspoons"],
        ConsistentRead: true,
      },
      {
        Statement: "SELECT * FROM PepperMeasurements WHERE Unit=?",
        Parameters: ["Grams"],
        ConsistentRead: true,
      },
    ],
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
Perbarui batch item menggunakan PartiQL.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";

import {
  DynamoDBDocumentClient,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const eggUpdates = [
    ["duck", "fried"],
    ["chicken", "omelette"],
  ];
  const command = new BatchExecuteStatementCommand({
    Statements: eggUpdates.map((change) => ({
      Statement: "UPDATE Eggs SET Style=? where Variety=?",
      Parameters: [change[1], change[0]],
    })),
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
Hapus batch item menggunakan PartiQL.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";

import {
  DynamoDBDocumentClient,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new BatchExecuteStatementCommand({
    Statements: [
      {
        Statement: "DELETE FROM Flavors where Name=?",
        Parameters: ["Grape"],
      },
      {
        Statement: "DELETE FROM Flavors where Name=?",
        Parameters: ["Strawberry"],
      },
    ],
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchExecuteStatementCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `BatchGetItem`
<a name="dynamodb_BatchGetItem_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetItem`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Contoh ini menggunakan klien dokumen untuk menyederhanakan penggunaan item di DynamoDB. Untuk detail API, lihat [BatchGet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/Package/-aws-sdk-lib-dynamodb/Class/BatchGetCommand/).  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import { BatchGetCommand, DynamoDBDocumentClient } from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new BatchGetCommand({
    // Each key in this object is the name of a table. This example refers
    // to a Books table.
    RequestItems: {
      Books: {
        // Each entry in Keys is an object that specifies a primary key.
        Keys: [
          {
            Title: "How to AWS",
          },
          {
            Title: "DynamoDB for DBAs",
          },
        ],
        // Only return the "Title" and "PageCount" attributes.
        ProjectionExpression: "Title, PageCount",
      },
    },
  });

  const response = await docClient.send(command);
  console.log(response.Responses.Books);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/dynamodb-example-table-read-write-batch.html#dynamodb-example-table-read-write-batch-reading). 
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchGetItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Contoh ini menggunakan klien dokumen untuk menyederhanakan penggunaan item di DynamoDB. Untuk detail API, lihat [BatchWrite](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/Package/-aws-sdk-lib-dynamodb/Class/BatchWriteCommand/).  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import {
  BatchWriteCommand,
  DynamoDBDocumentClient,
} from "@aws-sdk/lib-dynamodb";
import { readFileSync } from "node:fs";

// These modules are local to our GitHub repository. We recommend cloning
// the project from GitHub if you want to run this example.
// For more information, see https://github.com/awsdocs/aws-doc-sdk-examples.
import { dirnameFromMetaUrl } from "@aws-doc-sdk-examples/lib/utils/util-fs.js";
import { chunkArray } from "@aws-doc-sdk-examples/lib/utils/util-array.js";

const dirname = dirnameFromMetaUrl(import.meta.url);

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const file = readFileSync(
    `${dirname}../../../../../resources/sample_files/movies.json`,
  );

  const movies = JSON.parse(file.toString());

  // chunkArray is a local convenience function. It takes an array and returns
  // a generator function. The generator function yields every N items.
  const movieChunks = chunkArray(movies, 25);

  // For every chunk of 25 movies, make one BatchWrite request.
  for (const chunk of movieChunks) {
    const putRequests = chunk.map((movie) => ({
      PutRequest: {
        Item: movie,
      },
    }));

    const command = new BatchWriteCommand({
      RequestItems: {
        // An existing table is required. A composite key of 'title' and 'year' is recommended
        // to account for duplicate titles.
        BatchWriteMoviesTable: putRequests,
      },
    });

    await docClient.send(command);
  }
};
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchWriteItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 

```
import { CreateTableCommand, DynamoDBClient } from "@aws-sdk/client-dynamodb";

const client = new DynamoDBClient({});

export const main = async () => {
  const command = new CreateTableCommand({
    TableName: "EspressoDrinks",
    // For more information about data types,
    // see https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/HowItWorks.NamingRulesDataTypes.html#HowItWorks.DataTypes and
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Programming.LowLevelAPI.html#Programming.LowLevelAPI.DataTypeDescriptors
    AttributeDefinitions: [
      {
        AttributeName: "DrinkName",
        AttributeType: "S",
      },
    ],
    KeySchema: [
      {
        AttributeName: "DrinkName",
        KeyType: "HASH",
      },
    ],
    BillingMode: "PAY_PER_REQUEST",
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/dynamodb-examples-using-tables.html#dynamodb-examples-using-tables-creating-a-table). 
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/CreateTableCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Contoh ini menggunakan klien dokumen untuk menyederhanakan penggunaan item di DynamoDB. Untuk detail API, lihat [DeleteCommand](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/Package/-aws-sdk-lib-dynamodb/Class/DeleteCommand/).  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import { DynamoDBDocumentClient, DeleteCommand } from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new DeleteCommand({
    TableName: "Sodas",
    Key: {
      Flavor: "Cola",
    },
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/dynamodb-example-table-read-write.html#dynamodb-example-table-read-write-deleting-an-item). 
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/DeleteItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 

```
import { DeleteTableCommand, DynamoDBClient } from "@aws-sdk/client-dynamodb";

const client = new DynamoDBClient({});

export const main = async () => {
  const command = new DeleteTableCommand({
    TableName: "DecafCoffees",
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/DeleteTableCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 

```
import { DescribeTableCommand, DynamoDBClient } from "@aws-sdk/client-dynamodb";

const client = new DynamoDBClient({});

export const main = async () => {
  const command = new DescribeTableCommand({
    TableName: "Pastries",
  });

  const response = await client.send(command);
  console.log(`TABLE NAME: ${response.Table.TableName}`);
  console.log(`TABLE ITEM COUNT: ${response.Table.ItemCount}`);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/dynamodb-examples-using-tables.html#dynamodb-examples-using-tables-describing-a-table). 
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/DescribeTableCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeTimeToLive`
<a name="dynamodb_DescribeTimeToLive_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTimeToLive`.

**SDK untuk JavaScript (v3)**  
Jelaskan konfigurasi TTL pada tabel DynamoDB yang ada menggunakan. AWS SDK untuk JavaScript  

```
import { DynamoDBClient, DescribeTimeToLiveCommand } from "@aws-sdk/client-dynamodb";

export const describeTTL = async (tableName, region) => {
    const client = new DynamoDBClient({
        region: region,
        endpoint: `https://dynamodb.${region}.amazonaws.com`
    });

    try {
        const ttlDescription = await client.send(new DescribeTimeToLiveCommand({ TableName: tableName }));

        if (ttlDescription.TimeToLiveDescription.TimeToLiveStatus === 'ENABLED') {
            console.log("TTL is enabled for table %s.", tableName);
        } else {
            console.log("TTL is not enabled for table %s.", tableName);
        }

        return ttlDescription;
    } catch (e) {
        console.error(`Error describing table: ${e}`);
        throw e;
    }
}

// Example usage (commented out for testing)
// describeTTL('your-table-name', 'us-east-1');
```
+  Untuk detail API, lihat [DescribeTimeToLive](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/DescribeTimeToLiveCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ExecuteStatement`
<a name="dynamodb_ExecuteStatement_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Buat item menggunakan PartiQL.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";

import {
  ExecuteStatementCommand,
  DynamoDBDocumentClient,
} from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new ExecuteStatementCommand({
    Statement: `INSERT INTO Flowers value {'Name':?}`,
    Parameters: ["Rose"],
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
Dapatkan item menggunakan PartiQL.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";

import {
  ExecuteStatementCommand,
  DynamoDBDocumentClient,
} from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new ExecuteStatementCommand({
    Statement: "SELECT * FROM CloudTypes WHERE IsStorm=?",
    Parameters: [false],
    ConsistentRead: true,
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
Perbarui item menggunakan PartiQL.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";

import {
  ExecuteStatementCommand,
  DynamoDBDocumentClient,
} from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new ExecuteStatementCommand({
    Statement: "UPDATE EyeColors SET IsRecessive=? where Color=?",
    Parameters: [true, "blue"],
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
Hapus item menggunakan PartiQL.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";

import {
  ExecuteStatementCommand,
  DynamoDBDocumentClient,
} from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new ExecuteStatementCommand({
    Statement: "DELETE FROM PaintColors where Name=?",
    Parameters: ["Purple"],
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ExecuteStatementCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetItem`
<a name="dynamodb_GetItem_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Contoh ini menggunakan klien dokumen untuk menyederhanakan penggunaan item di DynamoDB. Untuk detail API, lihat [GetCommand](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/Package/-aws-sdk-lib-dynamodb/Class/GetCommand/).  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import { DynamoDBDocumentClient, GetCommand } from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new GetCommand({
    TableName: "AngryAnimals",
    Key: {
      CommonName: "Shoebill",
    },
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/GetItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListTables`
<a name="dynamodb_ListTables_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 

```
import { ListTablesCommand, DynamoDBClient } from "@aws-sdk/client-dynamodb";

const client = new DynamoDBClient({});

export const main = async () => {
  const command = new ListTablesCommand({});

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/dynamodb-examples-using-tables.html#dynamodb-examples-using-tables-listing-tables). 
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ListTablesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutItem`
<a name="dynamodb_PutItem_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Contoh ini menggunakan klien dokumen untuk menyederhanakan penggunaan item di DynamoDB. Untuk detail API, lihat [PutCommand](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/Package/-aws-sdk-lib-dynamodb/Class/PutCommand/).  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import { PutCommand, DynamoDBDocumentClient } from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new PutCommand({
    TableName: "HappyAnimals",
    Item: {
      CommonName: "Shiba Inu",
    },
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/PutItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `Query`
<a name="dynamodb_Query_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Contoh ini menggunakan klien dokumen untuk menyederhanakan penggunaan item di DynamoDB. Untuk detail API, lihat [QueryCommand](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/Package/-aws-sdk-lib-dynamodb/Class/QueryCommand/).  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import { QueryCommand, DynamoDBDocumentClient } from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new QueryCommand({
    TableName: "CoffeeCrop",
    KeyConditionExpression:
      "OriginCountry = :originCountry AND RoastDate > :roastDate",
    ExpressionAttributeValues: {
      ":originCountry": "Ethiopia",
      ":roastDate": "2023-05-01",
    },
    ConsistentRead: true,
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/dynamodb-example-query-scan.html#dynamodb-example-table-query-scan-querying). 
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### `Scan`
<a name="dynamodb_Scan_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Contoh ini menggunakan klien dokumen untuk menyederhanakan penggunaan item di DynamoDB. Untuk detail API, lihat [ScanCommand](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/Package/-aws-sdk-lib-dynamodb/Class/ScanCommand/).  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import { DynamoDBDocumentClient, ScanCommand } from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new ScanCommand({
    ProjectionExpression: "#Name, Color, AvgLifeSpan",
    ExpressionAttributeNames: { "#Name": "Name" },
    TableName: "Birds",
  });

  const response = await docClient.send(command);
  for (const bird of response.Items) {
    console.log(`${bird.Name} - (${bird.Color}, ${bird.AvgLifeSpan})`);
  }
  return response;
};
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ScanCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Contoh ini menggunakan klien dokumen untuk menyederhanakan penggunaan item di DynamoDB. Untuk detail API, lihat [UpdateCommand](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/Package/-aws-sdk-lib-dynamodb/Class/UpdateCommand/).  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import { DynamoDBDocumentClient, UpdateCommand } from "@aws-sdk/lib-dynamodb";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

export const main = async () => {
  const command = new UpdateCommand({
    TableName: "Dogs",
    Key: {
      Breed: "Labrador",
    },
    UpdateExpression: "set Color = :color",
    ExpressionAttributeValues: {
      ":color": "black",
    },
    ReturnValues: "ALL_NEW",
  });

  const response = await docClient.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateTimeToLive`
<a name="dynamodb_UpdateTimeToLive_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTimeToLive`.

**SDK untuk JavaScript (v3)**  
Aktifkan TTL pada tabel DynamoDB yang ada.  

```
import { DynamoDBClient, UpdateTimeToLiveCommand } from "@aws-sdk/client-dynamodb";

export const enableTTL = async (tableName, ttlAttribute, region = 'us-east-1') => {

    const client = new DynamoDBClient({
        region: region,
        endpoint: `https://dynamodb.${region}.amazonaws.com`
    });

    const params = {
        TableName: tableName,
        TimeToLiveSpecification: {
            Enabled: true,
            AttributeName: ttlAttribute
        }
    };

    try {
        const response = await client.send(new UpdateTimeToLiveCommand(params));
        if (response.$metadata.httpStatusCode === 200) {
            console.log(`TTL enabled successfully for table ${tableName}, using attribute name ${ttlAttribute}.`);
        } else {
            console.log(`Failed to enable TTL for table ${tableName}, response object: ${response}`);
        }
        return response;
    } catch (e) {
        console.error(`Error enabling TTL: ${e}`);
        throw e;
    }
};

// Example usage (commented out for testing)
// enableTTL('ExampleTable', 'exampleTtlAttribute');
```
Nonaktifkan TTL pada tabel DynamoDB yang ada.  

```
import { DynamoDBClient, UpdateTimeToLiveCommand } from "@aws-sdk/client-dynamodb";

export const disableTTL = async (tableName, ttlAttribute, region = 'us-east-1') => {

    const client = new DynamoDBClient({
        region: region,
        endpoint: `https://dynamodb.${region}.amazonaws.com`
    });

    const params = {
        TableName: tableName,
        TimeToLiveSpecification: {
            Enabled: false,
            AttributeName: ttlAttribute
        }
    };

    try {
        const response = await client.send(new UpdateTimeToLiveCommand(params));
        if (response.$metadata.httpStatusCode === 200) {
            console.log(`TTL disabled successfully for table ${tableName}, using attribute name ${ttlAttribute}.`);
        } else {
            console.log(`Failed to disable TTL for table ${tableName}, response object: ${response}`);
        }
        return response;
    } catch (e) {
        console.error(`Error disabling TTL: ${e}`);
        throw e;
    }
};

// Example usage (commented out for testing)
// disableTTL('ExampleTable', 'exampleTtlAttribute');
```
+  Untuk detail API, lihat [UpdateTimeToLive](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateTimeToLiveCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi untuk mengirimkan data ke tabel DynamoDB
<a name="cross_SubmitDataApp_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang mengirimkan data ke tabel Amazon DynamoDB dan memberi tahu Anda saat pengguna memperbarui tabel.

**SDK untuk JavaScript (v3)**  
 Contoh ini menunjukkan cara membangun aplikasi yang memungkinkan pengguna mengirimkan data ke tabel Amazon DynamoDB, dan mengirim pesan teks ke administrator menggunakan Amazon Simple Notification Service (Amazon SNS).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/submit-data-app).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cross-service-example-submitting-data.html).  

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SNS

### Bandingkan beberapa nilai dengan satu atribut
<a name="dynamodb_Scenario_CompareMultipleValues_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membandingkan beberapa nilai dengan atribut tunggal di DynamoDB.
+ Gunakan operator IN untuk membandingkan beberapa nilai dengan satu atribut.
+ Bandingkan operator IN dengan beberapa kondisi OR.
+ Memahami manfaat kompleksitas kinerja dan ekspresi menggunakan IN.

**SDK untuk JavaScript (v3)**  
Bandingkan beberapa nilai dengan satu atribut menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  ScanCommand, 
  QueryCommand 
} = require("@aws-sdk/lib-dynamodb");

/**
 * Query or scan a DynamoDB table to find items where an attribute matches any value from a list.
 * 
 * This function demonstrates the use of the IN operator to compare a single attribute
 * against multiple possible values, which is more efficient than using multiple OR conditions.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} attributeName - The name of the attribute to compare against the values list
 * @param {Array} valuesList - List of values to compare the attribute against
 * @param {string} [partitionKeyName] - Optional name of the partition key attribute for query operations
 * @param {string} [partitionKeyValue] - Optional value of the partition key to query
 * @returns {Promise<Object>} - The response from DynamoDB containing the matching items
 */
async function compareMultipleValues(
  config,
  tableName,
  attributeName,
  valuesList,
  partitionKeyName,
  partitionKeyValue
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Create the filter expression using the IN operator
  const filterExpression = `${attributeName} IN (${valuesList.map((_, index) => `:val${index}`).join(', ')})`;
  
  // Create expression attribute values for the values list
  const expressionAttributeValues = valuesList.reduce((acc, val, index) => {
    acc[`:val${index}`] = val;
    return acc;
  }, {});
  
  // If partition key is provided, perform a query operation
  if (partitionKeyName && partitionKeyValue) {
    const keyCondition = `${partitionKeyName} = :partitionKey`;
    expressionAttributeValues[':partitionKey'] = partitionKeyValue;
    
    // Initialize array to collect all items
    let allItems = [];
    let lastEvaluatedKey;
    
    // Use pagination to get all results
    do {
      const params = {
        TableName: tableName,
        KeyConditionExpression: keyCondition,
        FilterExpression: filterExpression,
        ExpressionAttributeValues: expressionAttributeValues
      };
      
      // Add ExclusiveStartKey if we have a lastEvaluatedKey from a previous query
      if (lastEvaluatedKey) {
        params.ExclusiveStartKey = lastEvaluatedKey;
      }
      
      const response = await docClient.send(new QueryCommand(params));
      
      // Add the items from this page to our collection
      if (response.Items && response.Items.length > 0) {
        allItems = [...allItems, ...response.Items];
      }
      
      // Get the key for the next page of results
      lastEvaluatedKey = response.LastEvaluatedKey;
    } while (lastEvaluatedKey);
    
    // Return the complete result
    return {
      Items: allItems,
      Count: allItems.length
    };
  } else {
    // Otherwise, perform a scan operation
    // Initialize array to collect all items
    let allItems = [];
    let lastEvaluatedKey;
    
    // Use pagination to get all results
    do {
      const params = {
        TableName: tableName,
        FilterExpression: filterExpression,
        ExpressionAttributeValues: expressionAttributeValues
      };
      
      // Add ExclusiveStartKey if we have a lastEvaluatedKey from a previous scan
      if (lastEvaluatedKey) {
        params.ExclusiveStartKey = lastEvaluatedKey;
      }
      
      const response = await docClient.send(new ScanCommand(params));
      
      // Add the items from this page to our collection
      if (response.Items && response.Items.length > 0) {
        allItems = [...allItems, ...response.Items];
      }
      
      // Get the key for the next page of results
      lastEvaluatedKey = response.LastEvaluatedKey;
    } while (lastEvaluatedKey);
    
    // Return the complete result
    return {
      Items: allItems,
      Count: allItems.length
    };
  }
}

/**
 * Alternative implementation using multiple OR conditions instead of the IN operator.
 * 
 * This function is provided for comparison to show why using the IN operator is preferable.
 * With many values, this approach becomes verbose and less efficient.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} attributeName - The name of the attribute to compare against the values list
 * @param {Array} valuesList - List of values to compare the attribute against
 * @param {string} [partitionKeyName] - Optional name of the partition key attribute for query operations
 * @param {string} [partitionKeyValue] - Optional value of the partition key to query
 * @returns {Promise<Object>} - The response from DynamoDB containing the matching items
 */
async function compareWithOrConditions(
  config,
  tableName,
  attributeName,
  valuesList,
  partitionKeyName,
  partitionKeyValue
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // If no values provided, return empty result
  if (!valuesList || valuesList.length === 0) {
    return {
      Items: [],
      Count: 0
    };
  }
  
  // Create the filter expression using multiple OR conditions
  const filterConditions = valuesList.map((_, index) => `${attributeName} = :val${index}`);
  const filterExpression = filterConditions.join(' OR ');
  
  // Create expression attribute values for the values list
  const expressionAttributeValues = valuesList.reduce((acc, val, index) => {
    acc[`:val${index}`] = val;
    return acc;
  }, {});
  
  // If partition key is provided, perform a query operation
  if (partitionKeyName && partitionKeyValue) {
    const keyCondition = `${partitionKeyName} = :partitionKey`;
    expressionAttributeValues[':partitionKey'] = partitionKeyValue;
    
    // Initialize array to collect all items
    let allItems = [];
    let lastEvaluatedKey;
    
    // Use pagination to get all results
    do {
      const params = {
        TableName: tableName,
        KeyConditionExpression: keyCondition,
        FilterExpression: filterExpression,
        ExpressionAttributeValues: expressionAttributeValues
      };
      
      // Add ExclusiveStartKey if we have a lastEvaluatedKey from a previous query
      if (lastEvaluatedKey) {
        params.ExclusiveStartKey = lastEvaluatedKey;
      }
      
      const response = await docClient.send(new QueryCommand(params));
      
      // Add the items from this page to our collection
      if (response.Items && response.Items.length > 0) {
        allItems = [...allItems, ...response.Items];
      }
      
      // Get the key for the next page of results
      lastEvaluatedKey = response.LastEvaluatedKey;
    } while (lastEvaluatedKey);
    
    // Return the complete result
    return {
      Items: allItems,
      Count: allItems.length
    };
  } else {
    // Otherwise, perform a scan operation
    // Initialize array to collect all items
    let allItems = [];
    let lastEvaluatedKey;
    
    // Use pagination to get all results
    do {
      const params = {
        TableName: tableName,
        FilterExpression: filterExpression,
        ExpressionAttributeValues: expressionAttributeValues
      };
      
      // Add ExclusiveStartKey if we have a lastEvaluatedKey from a previous scan
      if (lastEvaluatedKey) {
        params.ExclusiveStartKey = lastEvaluatedKey;
      }
      
      const response = await docClient.send(new ScanCommand(params));
      
      // Add the items from this page to our collection
      if (response.Items && response.Items.length > 0) {
        allItems = [...allItems, ...response.Items];
      }
      
      // Get the key for the next page of results
      lastEvaluatedKey = response.LastEvaluatedKey;
    } while (lastEvaluatedKey);
    
    // Return the complete result
    return {
      Items: allItems,
      Count: allItems.length
    };
  }
}
```
Contoh penggunaan membandingkan beberapa nilai dengan AWS SDK untuk JavaScript.  

```
/**
 * Example of how to use the compareMultipleValues function.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "Products";
  const attributeName = "Category";
  const valuesList = ["Electronics", "Computers", "Accessories"];
  
  console.log(`Searching for products in any of these categories: ${valuesList.join(', ')}`);
  
  try {
    // Using the IN operator (recommended approach)
    console.log("\nApproach 1: Using the IN operator");
    const response = await compareMultipleValues(
      config,
      tableName,
      attributeName,
      valuesList
    );
    
    console.log(`Found ${response.Count} products in the specified categories`);
    
    // Using multiple OR conditions (alternative approach)
    console.log("\nApproach 2: Using multiple OR conditions");
    const response2 = await compareWithOrConditions(
      config,
      tableName,
      attributeName,
      valuesList
    );
    
    console.log(`Found ${response2.Count} products in the specified categories`);
    
    // Example with a query operation
    console.log("\nQuerying a specific manufacturer's products in multiple categories");
    const partitionKeyName = "Manufacturer";
    const partitionKeyValue = "Acme";
    
    const response3 = await compareMultipleValues(
      config,
      tableName,
      attributeName,
      valuesList,
      partitionKeyName,
      partitionKeyValue
    );
    
    console.log(`Found ${response3.Count} Acme products in the specified categories`);
    
    // Explain the benefits of using the IN operator
    console.log("\nBenefits of using the IN operator:");
    console.log("1. More concise expression compared to multiple OR conditions");
    console.log("2. Better readability and maintainability");
    console.log("3. Potentially better performance with large value lists");
    console.log("4. Simpler code that's less prone to errors");
    console.log("5. Easier to modify when adding or removing values");
    
  } catch (error) {
    console.error("Error:", error);
  }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand)
  + [Scan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ScanCommand)

### Perbarui TTL item secara kondisional
<a name="dynamodb_UpdateItemConditionalTTL_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui TTL item secara kondisional.

**SDK untuk JavaScript (v3)**  
Perbarui TTL pada Item DynamoDB yang ada dalam tabel, dengan kondisi.  

```
import { DynamoDBClient, UpdateItemCommand } from "@aws-sdk/client-dynamodb";
import { marshall, unmarshall } from "@aws-sdk/util-dynamodb";

export const updateItemConditional = async (tableName, partitionKey, sortKey, region = 'us-east-1', newAttribute = 'default-value') => {
    const client = new DynamoDBClient({
        region: region,
        endpoint: `https://dynamodb.${region}.amazonaws.com`
    });

    const currentTime = Math.floor(Date.now() / 1000);

    const params = {
        TableName: tableName,
        Key: marshall({
            artist: partitionKey,
            album: sortKey
        }),
        UpdateExpression: "SET newAttribute = :newAttribute",
        ConditionExpression: "expireAt > :expiration",
        ExpressionAttributeValues: marshall({
            ':newAttribute': newAttribute,
            ':expiration': currentTime
        }),
        ReturnValues: "ALL_NEW"
    };

    try {
        const response = await client.send(new UpdateItemCommand(params));
        const responseData = unmarshall(response.Attributes);
        console.log("Item updated successfully: ", responseData);
        return responseData;
    } catch (error) {
        if (error.name === "ConditionalCheckFailedException") {
            console.log("Condition check failed: Item's 'expireAt' is expired.");
        } else {
            console.error("Error updating item: ", error);
        }
        throw error;
    }
};

// Example usage (commented out for testing)
// updateItemConditional('your-table-name', 'your-partition-key-value', 'your-sort-key-value');
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Hitung operator ekspresi
<a name="dynamodb_Scenario_ExpressionOperatorCounting_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menghitung operator ekspresi di DynamoDB.
+ Memahami batas 300 operator DynamoDB.
+ Hitung operator dalam ekspresi kompleks.
+ Optimalkan ekspresi agar tetap dalam batas.

**SDK untuk JavaScript (v3)**  
Menunjukkan penghitungan operator ekspresi menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  UpdateCommand,
  QueryCommand
} = require("@aws-sdk/lib-dynamodb");

/**
 * Create a complex filter expression with a specified number of conditions.
 * 
 * This function demonstrates how to generate a complex expression with
 * a specific number of operators to test the 300 operator limit.
 * 
 * @param {number} conditionsCount - Number of conditions to include
 * @param {boolean} useAnd - Whether to use AND (true) or OR (false) between conditions
 * @returns {Object} - Object containing the filter expression and attribute values
 */
function createComplexFilterExpression(conditionsCount, useAnd = true) {
  // Initialize the expression parts and attribute values
  const conditions = [];
  const expressionAttributeValues = {};
  
  // Generate the specified number of conditions
  for (let i = 0; i < conditionsCount; i++) {
    // Alternate between different comparison operators for variety
    let condition;
    const valueKey = `:val${i}`;
    
    switch (i % 5) {
      case 0:
        condition = `attribute${i} = ${valueKey}`;
        expressionAttributeValues[valueKey] = `value${i}`;
        break;
      case 1:
        condition = `attribute${i} > ${valueKey}`;
        expressionAttributeValues[valueKey] = i;
        break;
      case 2:
        condition = `attribute${i} < ${valueKey}`;
        expressionAttributeValues[valueKey] = i * 10;
        break;
      case 3:
        condition = `contains(attribute${i}, ${valueKey})`;
        expressionAttributeValues[valueKey] = `substring${i}`;
        break;
      case 4:
        condition = `attribute_exists(attribute${i})`;
        break;
    }
    
    conditions.push(condition);
  }
  
  // Join the conditions with AND or OR
  const operator = useAnd ? " AND " : " OR ";
  const filterExpression = conditions.join(operator);
  
  // Calculate the operator count
  // Each condition has 1 operator (=, >, <, contains, attribute_exists)
  // Each AND or OR between conditions is 1 operator
  const operatorCount = conditionsCount + (conditionsCount > 0 ? conditionsCount - 1 : 0);
  
  return {
    filterExpression,
    expressionAttributeValues,
    operatorCount
  };
}

/**
 * Create a complex update expression with a specified number of operations.
 * 
 * This function demonstrates how to generate a complex update expression with
 * a specific number of operators to test the 300 operator limit.
 * 
 * @param {number} operationsCount - Number of operations to include
 * @returns {Object} - Object containing the update expression and attribute values
 */
function createComplexUpdateExpression(operationsCount) {
  // Initialize the expression parts and attribute values
  const setOperations = [];
  const expressionAttributeValues = {};
  
  // Generate the specified number of SET operations
  for (let i = 0; i < operationsCount; i++) {
    // Alternate between different types of SET operations
    let operation;
    const valueKey = `:val${i}`;
    
    switch (i % 3) {
      case 0:
        // Simple assignment (1 operator: =)
        operation = `attribute${i} = ${valueKey}`;
        expressionAttributeValues[valueKey] = `value${i}`;
        break;
      case 1:
        // Addition (2 operators: = and +)
        operation = `attribute${i} = attribute${i} + ${valueKey}`;
        expressionAttributeValues[valueKey] = i;
        break;
      case 2:
        // Conditional assignment with if_not_exists (2 operators: = and if_not_exists)
        operation = `attribute${i} = if_not_exists(attribute${i}, ${valueKey})`;
        expressionAttributeValues[valueKey] = i * 10;
        break;
    }
    
    setOperations.push(operation);
  }
  
  // Create the update expression
  const updateExpression = `SET ${setOperations.join(", ")}`;
  
  // Calculate the operator count
  // Each operation has 1-2 operators as noted above
  let operatorCount = 0;
  for (let i = 0; i < operationsCount; i++) {
    operatorCount += (i % 3 === 0) ? 1 : 2;
  }
  
  return {
    updateExpression,
    expressionAttributeValues,
    operatorCount
  };
}

/**
 * Test the operator limit by attempting an operation with a complex expression.
 * 
 * This function demonstrates what happens when an expression approaches or
 * exceeds the 300 operator limit.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {number} operatorCount - Target number of operators to include
 * @returns {Promise<Object>} - Result of the operation attempt
 */
async function testOperatorLimit(
  config,
  tableName,
  key,
  operatorCount
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Create a complex update expression with the specified operator count
  const { updateExpression, expressionAttributeValues, operatorCount: actualCount } = 
    createComplexUpdateExpression(Math.ceil(operatorCount / 1.5)); // Adjust to get close to target count
  
  console.log(`Generated update expression with approximately ${actualCount} operators`);
  
  // Define the update parameters
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: updateExpression,
    ExpressionAttributeValues: expressionAttributeValues,
    ReturnValues: "UPDATED_NEW"
  };
  
  try {
    // Attempt the update operation
    const response = await docClient.send(new UpdateCommand(params));
    return {
      success: true,
      message: `Operation succeeded with ${actualCount} operators`,
      data: response
    };
  } catch (error) {
    // Check if the error is due to exceeding the operator limit
    if (error.name === "ValidationException" && 
        error.message.includes("too many operators")) {
      return {
        success: false,
        message: `Operation failed: ${error.message}`,
        operatorCount: actualCount
      };
    }
    
    // Return other errors
    return {
      success: false,
      message: `Operation failed: ${error.message}`,
      error
    };
  }
}

/**
 * Break down a complex expression into multiple simpler operations.
 * 
 * This function demonstrates how to handle expressions that would exceed
 * the 300 operator limit by breaking them into multiple operations.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {number} totalOperations - Total number of operations to perform
 * @returns {Promise<Object>} - Result of the operations
 */
async function breakDownComplexExpression(
  config,
  tableName,
  key,
  totalOperations
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Calculate how many operations we can safely include in each batch
  // Using 150 as a conservative limit (well below 300)
  const operationsPerBatch = 100;
  const batchCount = Math.ceil(totalOperations / operationsPerBatch);
  
  console.log(`Breaking down ${totalOperations} operations into ${batchCount} batches`);
  
  const results = [];
  
  // Process each batch
  for (let batch = 0; batch < batchCount; batch++) {
    // Calculate the operations for this batch
    const batchStart = batch * operationsPerBatch;
    const batchEnd = Math.min(batchStart + operationsPerBatch, totalOperations);
    const batchSize = batchEnd - batchStart;
    
    console.log(`Processing batch ${batch + 1}/${batchCount} with ${batchSize} operations`);
    
    // Create an update expression for this batch
    const { updateExpression, expressionAttributeValues, operatorCount } = 
      createComplexUpdateExpression(batchSize);
    
    // Define the update parameters
    const params = {
      TableName: tableName,
      Key: key,
      UpdateExpression: updateExpression,
      ExpressionAttributeValues: expressionAttributeValues,
      ReturnValues: "UPDATED_NEW"
    };
    
    try {
      // Perform the update operation for this batch
      const response = await docClient.send(new UpdateCommand(params));
      
      results.push({
        batch: batch + 1,
        success: true,
        operatorCount,
        attributes: response.Attributes
      });
    } catch (error) {
      results.push({
        batch: batch + 1,
        success: false,
        operatorCount,
        error: error.message
      });
      
      // Stop processing if an error occurs
      break;
    }
  }
  
  return {
    totalBatches: batchCount,
    results
  };
}

/**
 * Count operators in a DynamoDB expression based on the rules in the documentation.
 * 
 * This function demonstrates how operators are counted according to the
 * DynamoDB documentation.
 * 
 * @param {string} expression - The DynamoDB expression to analyze
 * @returns {Object} - Breakdown of operator counts
 */
function countOperatorsInExpression(expression) {
  // Initialize counters for different operator types
  const counts = {
    comparisonOperators: 0,
    logicalOperators: 0,
    functions: 0,
    arithmeticOperators: 0,
    specialOperators: 0,
    total: 0
  };
  
  // Count comparison operators (=, <>, <, <=, >, >=)
  const comparisonRegex = /[^<>]=[^=]|<>|<=|>=|[^<]>[^=]|[^>]<[^=]/g;
  const comparisonMatches = expression.match(comparisonRegex) || [];
  counts.comparisonOperators = comparisonMatches.length;
  
  // Count logical operators (AND, OR, NOT)
  const andMatches = expression.match(/\bAND\b/g) || [];
  const orMatches = expression.match(/\bOR\b/g) || [];
  const notMatches = expression.match(/\bNOT\b/g) || [];
  counts.logicalOperators = andMatches.length + orMatches.length + notMatches.length;
  
  // Count functions (attribute_exists, attribute_not_exists, attribute_type, begins_with, contains, size)
  const functionRegex = /\b(attribute_exists|attribute_not_exists|attribute_type|begins_with|contains|size|if_not_exists)\(/g;
  const functionMatches = expression.match(functionRegex) || [];
  counts.functions = functionMatches.length;
  
  // Count arithmetic operators (+ and -)
  const arithmeticMatches = expression.match(/[a-zA-Z0-9_)\]]\s*[\+\-]\s*[a-zA-Z0-9_(:]/g) || [];
  counts.arithmeticOperators = arithmeticMatches.length;
  
  // Count special operators (BETWEEN, IN)
  const betweenMatches = expression.match(/\bBETWEEN\b/g) || [];
  const inMatches = expression.match(/\bIN\b/g) || [];
  counts.specialOperators = betweenMatches.length + inMatches.length;
  
  // Add extra operators for BETWEEN (each BETWEEN includes an AND)
  counts.logicalOperators += betweenMatches.length;
  
  // Calculate total
  counts.total = counts.comparisonOperators + 
                 counts.logicalOperators + 
                 counts.functions + 
                 counts.arithmeticOperators + 
                 counts.specialOperators;
  
  return counts;
}
```
Contoh penggunaan operator ekspresi menghitung dengan AWS SDK untuk JavaScript.  

```
/**
 * Example of how to work with expression operator counting.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "Products";
  const key = { ProductId: "P12345" };
  
  console.log("Demonstrating DynamoDB expression operator counting and the 300 operator limit");
  
  try {
    // Example 1: Analyze a simple expression
    console.log("\nExample 1: Analyzing a simple expression");
    const simpleExpression = "Price = :price AND Rating > :rating AND Category IN (:cat1, :cat2, :cat3)";
    const simpleCount = countOperatorsInExpression(simpleExpression);
    
    console.log(`Expression: ${simpleExpression}`);
    console.log("Operator count breakdown:");
    console.log(`- Comparison operators: ${simpleCount.comparisonOperators}`);
    console.log(`- Logical operators: ${simpleCount.logicalOperators}`);
    console.log(`- Functions: ${simpleCount.functions}`);
    console.log(`- Arithmetic operators: ${simpleCount.arithmeticOperators}`);
    console.log(`- Special operators: ${simpleCount.specialOperators}`);
    console.log(`- Total operators: ${simpleCount.total}`);
    
    // Example 2: Analyze a complex expression
    console.log("\nExample 2: Analyzing a complex expression");
    const complexExpression = 
      "(attribute_exists(Category) AND Size BETWEEN :min AND :max) OR " +
      "(Price > :price AND contains(Description, :keyword) AND " +
      "(Rating >= :minRating OR Reviews > :minReviews))";
    const complexCount = countOperatorsInExpression(complexExpression);
    
    console.log(`Expression: ${complexExpression}`);
    console.log("Operator count breakdown:");
    console.log(`- Comparison operators: ${complexCount.comparisonOperators}`);
    console.log(`- Logical operators: ${complexCount.logicalOperators}`);
    console.log(`- Functions: ${complexCount.functions}`);
    console.log(`- Arithmetic operators: ${complexCount.arithmeticOperators}`);
    console.log(`- Special operators: ${complexCount.specialOperators}`);
    console.log(`- Total operators: ${complexCount.total}`);
    
    // Example 3: Test approaching the operator limit
    console.log("\nExample 3: Testing an expression approaching the operator limit");
    const approachingLimit = await testOperatorLimit(config, tableName, key, 290);
    console.log(approachingLimit.message);
    
    // Example 4: Test exceeding the operator limit
    console.log("\nExample 4: Testing an expression exceeding the operator limit");
    const exceedingLimit = await testOperatorLimit(config, tableName, key, 310);
    console.log(exceedingLimit.message);
    
    // Example 5: Breaking down a complex expression
    console.log("\nExample 5: Breaking down a complex expression into multiple operations");
    const breakdownResult = await breakDownComplexExpression(config, tableName, key, 500);
    console.log(`Processed ${breakdownResult.results.length} of ${breakdownResult.totalBatches} batches`);
    
    // Explain the operator counting rules
    console.log("\nKey points about DynamoDB expression operator counting:");
    console.log("1. The maximum number of operators in any expression is 300");
    console.log("2. Each comparison operator (=, <>, <, <=, >, >=) counts as 1 operator");
    console.log("3. Each logical operator (AND, OR, NOT) counts as 1 operator");
    console.log("4. Each function call (attribute_exists, contains, etc.) counts as 1 operator");
    console.log("5. Each arithmetic operator (+ or -) counts as 1 operator");
    console.log("6. BETWEEN counts as 2 operators (BETWEEN itself and the AND within it)");
    console.log("7. IN counts as 1 operator regardless of the number of values");
    console.log("8. Parentheses for grouping and attribute paths don't count as operators");
    console.log("9. When you exceed the limit, the error always reports '301 operators'");
    console.log("10. For complex operations, break them into multiple smaller operations");
    
  } catch (error) {
    console.error("Error:", error);
  }
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo-asset-manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Buat tabel dengan throughput hangat diaktifkan
<a name="dynamodb_CreateTableWarmThroughput_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat tabel dengan throughput hangat diaktifkan.

**SDK untuk JavaScript (v3)**  
Buat tabel DynamoDB dengan pengaturan throughput hangat menggunakan. AWS SDK untuk JavaScript  

```
import { DynamoDBClient, CreateTableCommand } from "@aws-sdk/client-dynamodb";

export async function createDynamoDBTableWithWarmThroughput(
  tableName,
  partitionKey,
  sortKey,
  miscKeyAttr,
  nonKeyAttr,
  tableProvisionedReadUnits,
  tableProvisionedWriteUnits,
  tableWarmReads,
  tableWarmWrites,
  indexName,
  indexProvisionedReadUnits,
  indexProvisionedWriteUnits,
  indexWarmReads,
  indexWarmWrites,
  region = "us-east-1"
) {
  try {
    const ddbClient = new DynamoDBClient({ region: region });
    const command = new CreateTableCommand({
      TableName: tableName,
      AttributeDefinitions: [
          { AttributeName: partitionKey, AttributeType: "S" },
          { AttributeName: sortKey, AttributeType: "S" },
          { AttributeName: miscKeyAttr, AttributeType: "N" },
      ],
      KeySchema: [
          { AttributeName: partitionKey, KeyType: "HASH" },
          { AttributeName: sortKey, KeyType: "RANGE" },
      ],
      ProvisionedThroughput: {
          ReadCapacityUnits: tableProvisionedReadUnits,
          WriteCapacityUnits: tableProvisionedWriteUnits,
      },
      WarmThroughput: {
          ReadUnitsPerSecond: tableWarmReads,
          WriteUnitsPerSecond: tableWarmWrites,
      },
      GlobalSecondaryIndexes: [
          {
            IndexName: indexName,
            KeySchema: [
                { AttributeName: sortKey, KeyType: "HASH" },
                { AttributeName: miscKeyAttr, KeyType: "RANGE" },
            ],
            Projection: {
                ProjectionType: "INCLUDE",
                NonKeyAttributes: [nonKeyAttr],
            },
            ProvisionedThroughput: {
                ReadCapacityUnits: indexProvisionedReadUnits,
                WriteCapacityUnits: indexProvisionedWriteUnits,
            },
            WarmThroughput: {
                ReadUnitsPerSecond: indexWarmReads,
                WriteUnitsPerSecond: indexWarmWrites,
            },
          },
      ],
    });
    const response = await ddbClient.send(command);
    console.log(response);
    return response;
  } catch (error) {
    console.error(`Error creating table: ${error}`);
    throw error;
  }
}

// Example usage (commented out for testing)
/*
createDynamoDBTableWithWarmThroughput(
  'example-table',
  'pk',
  'sk',
  'gsiKey',
  'data',
  10, 10, 5, 5,
  'example-index',
  5, 5, 2, 2
);
*/
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/CreateTableCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Buat item dengan TTL
<a name="dynamodb_PutItemTTL_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat item dengan TTL.

**SDK untuk JavaScript (v3)**  

```
import { DynamoDBClient, PutItemCommand } from "@aws-sdk/client-dynamodb";

export function createDynamoDBItem(table_name, region, partition_key, sort_key) {
    const client = new DynamoDBClient({
        region: region,
        endpoint: `https://dynamodb.${region}.amazonaws.com`
    });

    // Get the current time in epoch second format
    const current_time = Math.floor(new Date().getTime() / 1000);

    // Calculate the expireAt time (90 days from now) in epoch second format
    const expire_at = Math.floor((new Date().getTime() + 90 * 24 * 60 * 60 * 1000) / 1000);

    // Create DynamoDB item
    const item = {
        'partitionKey': {'S': partition_key},
        'sortKey': {'S': sort_key},
        'createdAt': {'N': current_time.toString()},
        'expireAt': {'N': expire_at.toString()}
    };

    const putItemCommand = new PutItemCommand({
        TableName: table_name,
        Item: item,
        ProvisionedThroughput: {
            ReadCapacityUnits: 1,
            WriteCapacityUnits: 1,
        },
    });

    client.send(putItemCommand, function(err, data) {
        if (err) {
            console.log("Exception encountered when creating item %s, here's what happened: ", data, err);
            throw err;
        } else {
            console.log("Item created successfully: %s.", data);
            return data;
        }
    });
}

// Example usage (commented out for testing)
// createDynamoDBItem('your-table-name', 'us-east-1', 'your-partition-key-value', 'your-sort-key-value');
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/PutItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Hapus data menggunakan PartiQL DELETE
<a name="dynamodb_PartiQLDelete_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menghapus data menggunakan pernyataan PartiQL DELETE.

**SDK untuk JavaScript (v3)**  
Hapus item dari tabel DynamoDB menggunakan pernyataan PartiQL DELETE dengan. AWS SDK untuk JavaScript  

```
/**
 * This example demonstrates how to delete items from a DynamoDB table using PartiQL.
 * It shows different ways to delete documents with various index types.
 */
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import {
  DynamoDBDocumentClient,
  ExecuteStatementCommand,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";

/**
 * Delete a single item by its partition key using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @returns The response from the ExecuteStatementCommand
 */
export const deleteItemByPartitionKey = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `DELETE FROM "${tableName}" WHERE ${partitionKeyName} = ?`,
    Parameters: [partitionKeyValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item deleted successfully");
    return data;
  } catch (err) {
    console.error("Error deleting item:", err);
    throw err;
  }
};

/**
 * Delete an item by its composite key (partition key + sort key) using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @param sortKeyName - The name of the sort key attribute
 * @param sortKeyValue - The value of the sort key
 * @returns The response from the ExecuteStatementCommand
 */
export const deleteItemByCompositeKey = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number,
  sortKeyName: string,
  sortKeyValue: string | number
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `DELETE FROM "${tableName}" WHERE ${partitionKeyName} = ? AND ${sortKeyName} = ?`,
    Parameters: [partitionKeyValue, sortKeyValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item deleted successfully");
    return data;
  } catch (err) {
    console.error("Error deleting item:", err);
    throw err;
  }
};

/**
 * Delete an item with a condition to ensure the delete only happens if a condition is met.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @param conditionAttribute - The attribute to check in the condition
 * @param conditionValue - The value to compare against in the condition
 * @returns The response from the ExecuteStatementCommand
 */
export const deleteItemWithCondition = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number,
  conditionAttribute: string,
  conditionValue: any
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `DELETE FROM "${tableName}" WHERE ${partitionKeyName} = ? AND ${conditionAttribute} = ?`,
    Parameters: [partitionKeyValue, conditionValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item deleted with condition successfully");
    return data;
  } catch (err) {
    console.error("Error deleting item with condition:", err);
    throw err;
  }
};

/**
 * Batch delete multiple items using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param keys - Array of objects containing key information
 * @returns The response from the BatchExecuteStatementCommand
 */
export const batchDeleteItems = async (
  tableName: string,
  keys: Array<{
    partitionKeyName: string;
    partitionKeyValue: string | number;
    sortKeyName?: string;
    sortKeyValue?: string | number;
  }>
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  // Create statements for each delete
  const statements = keys.map((key) => {
    if (key.sortKeyName && key.sortKeyValue !== undefined) {
      return {
        Statement: `DELETE FROM "${tableName}" WHERE ${key.partitionKeyName} = ? AND ${key.sortKeyName} = ?`,
        Parameters: [key.partitionKeyValue, key.sortKeyValue],
      };
    } else {
      return {
        Statement: `DELETE FROM "${tableName}" WHERE ${key.partitionKeyName} = ?`,
        Parameters: [key.partitionKeyValue],
      };
    }
  });

  const params = {
    Statements: statements,
  };

  try {
    const data = await docClient.send(new BatchExecuteStatementCommand(params));
    console.log("Items batch deleted successfully");
    return data;
  } catch (err) {
    console.error("Error batch deleting items:", err);
    throw err;
  }
};

/**
 * Delete multiple items that match a filter condition.
 * Note: This performs a scan operation which can be expensive on large tables.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param filterAttribute - The attribute to filter on
 * @param filterValue - The value to filter by
 * @returns The response from the ExecuteStatementCommand
 */
export const deleteItemsByFilter = async (
  tableName: string,
  filterAttribute: string,
  filterValue: any
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `DELETE FROM "${tableName}" WHERE ${filterAttribute} = ?`,
    Parameters: [filterValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Items deleted by filter successfully");
    return data;
  } catch (err) {
    console.error("Error deleting items by filter:", err);
    throw err;
  }
};

/**
 * Example usage showing how to delete items with different index types
 */
export const deleteExamples = async () => {
  // Delete an item by partition key (simple primary key)
  await deleteItemByPartitionKey("UsersTable", "userId", "user123");

  // Delete an item by composite key (partition key + sort key)
  await deleteItemByCompositeKey(
    "OrdersTable",
    "orderId",
    "order456",
    "productId",
    "prod789"
  );

  // Delete with a condition
  await deleteItemWithCondition(
    "UsersTable",
    "userId",
    "user789",
    "userStatus",
    "inactive"
  );

  // Batch delete multiple items
  await batchDeleteItems("UsersTable", [
    { partitionKeyName: "userId", partitionKeyValue: "user234" },
    { partitionKeyName: "userId", partitionKeyValue: "user345" },
  ]);

  // Batch delete items with composite keys
  await batchDeleteItems("OrdersTable", [
    {
      partitionKeyName: "orderId",
      partitionKeyValue: "order567",
      sortKeyName: "productId",
      sortKeyValue: "prod123",
    },
    {
      partitionKeyName: "orderId",
      partitionKeyValue: "order678",
      sortKeyName: "productId",
      sortKeyValue: "prod456",
    },
  ]);

  // Delete items by filter (use with caution)
  await deleteItemsByFilter("UsersTable", "userStatus", "deleted");
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [BatchExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchExecuteStatementCommand)
  + [ExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ExecuteStatementCommand)

### Masukkan data menggunakan PartiQL INSERT
<a name="dynamodb_PartiQLInsert_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menyisipkan data menggunakan pernyataan PartiQL INSERT.

**SDK untuk JavaScript (v3)**  
Masukkan item ke dalam tabel DynamoDB menggunakan pernyataan PartiQL INSERT dengan. AWS SDK untuk JavaScript  

```
/**
 * This example demonstrates how to insert items into a DynamoDB table using PartiQL.
 * It shows different ways to insert documents with various index types.
 */
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import {
  DynamoDBDocumentClient,
  ExecuteStatementCommand,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";

/**
 * Insert a single item into a DynamoDB table using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param item - The item to insert
 * @returns The response from the ExecuteStatementCommand
 */
export const insertItem = async (tableName: string, item: Record<string, any>) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  // Convert the item to a string representation for PartiQL
  const itemString = JSON.stringify(item).replace(/"([^"]+)":/g, '$1:');

  const params = {
    Statement: `INSERT INTO "${tableName}" VALUE ${itemString}`,
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item inserted successfully");
    return data;
  } catch (err) {
    console.error("Error inserting item:", err);
    throw err;
  }
};

/**
 * Insert multiple items into a DynamoDB table using PartiQL batch operation.
 * This is more efficient than inserting items one by one.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param items - Array of items to insert
 * @returns The response from the BatchExecuteStatementCommand
 */
export const batchInsertItems = async (tableName: string, items: Record<string, any>[]) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  // Create statements for each item
  const statements = items.map((item) => {
    const itemString = JSON.stringify(item).replace(/"([^"]+)":/g, '$1:');
    return {
      Statement: `INSERT INTO "${tableName}" VALUE ${itemString}`,
    };
  });

  const params = {
    Statements: statements,
  };

  try {
    const data = await docClient.send(new BatchExecuteStatementCommand(params));
    console.log("Items inserted successfully");
    return data;
  } catch (err) {
    console.error("Error batch inserting items:", err);
    throw err;
  }
};

/**
 * Insert an item with a condition to prevent overwriting existing items.
 * This is useful for ensuring you don't accidentally overwrite data.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param item - The item to insert
 * @param partitionKeyName - The name of the partition key attribute
 * @returns The response from the ExecuteStatementCommand
 */
export const insertItemWithCondition = async (
  tableName: string,
  item: Record<string, any>,
  partitionKeyName: string
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const itemString = JSON.stringify(item).replace(/"([^"]+)":/g, '$1:');
  const partitionKeyValue = JSON.stringify(item[partitionKeyName]);

  const params = {
    Statement: `INSERT INTO "${tableName}" VALUE ${itemString} WHERE attribute_not_exists(${partitionKeyName})`,
    Parameters: [{ S: partitionKeyValue }],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item inserted with condition successfully");
    return data;
  } catch (err) {
    console.error("Error inserting item with condition:", err);
    throw err;
  }
};

/**
 * Example usage showing how to insert items with different index types
 */
export const insertExamples = async () => {
  // Example table with a simple primary key (just partition key)
  const simpleKeyItem = {
    userId: "user123",
    name: "John Doe",
    email: "john@example.com",
  };
  await insertItem("UsersTable", simpleKeyItem);

  // Example table with composite key (partition key + sort key)
  const compositeKeyItem = {
    orderId: "order456",
    productId: "prod789",
    quantity: 2,
    price: 29.99,
  };
  await insertItem("OrdersTable", compositeKeyItem);

  // Example with Global Secondary Index (GSI)
  // The GSI might be on the email attribute
  const gsiItem = {
    userId: "user789",
    email: "jane@example.com",
    name: "Jane Smith",
    userType: "premium",  // This could be part of a GSI
  };
  await insertItem("UsersTable", gsiItem);

  // Example with Local Secondary Index (LSI)
  // LSI uses the same partition key but different sort key
  const lsiItem = {
    orderId: "order567",  // Partition key
    productId: "prod123", // Sort key for the table
    orderDate: "2023-11-15", // Potential sort key for an LSI
    quantity: 1,
    price: 19.99,
  };
  await insertItem("OrdersTable", lsiItem);

  // Batch insert example with multiple items
  const batchItems = [
    {
      userId: "user234",
      name: "Alice Johnson",
      email: "alice@example.com",
    },
    {
      userId: "user345",
      name: "Bob Williams",
      email: "bob@example.com",
    },
  ];
  await batchInsertItems("UsersTable", batchItems);
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [BatchExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchExecuteStatementCommand)
  + [ExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ExecuteStatementCommand)

### Menginvokasi fungsi Lambda dari browser
<a name="cross_LambdaForBrowser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil AWS Lambda fungsi dari browser.

**SDK untuk JavaScript (v3)**  
 Anda dapat membuat aplikasi berbasis browser yang menggunakan AWS Lambda fungsi untuk memperbarui tabel Amazon DynamoDB dengan pilihan pengguna. Aplikasi ini menggunakan AWS SDK untuk JavaScript v3.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-for-browser).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda

### Lakukan operasi kueri tingkat lanjut
<a name="dynamodb_Scenario_AdvancedQueryTechniques_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi query lanjutan di DynamoDB.
+ Tabel kueri menggunakan berbagai teknik penyaringan dan kondisi.
+ Menerapkan pagination untuk set hasil besar.
+ Gunakan Global Secondary Indexes untuk pola akses alternatif.
+ Menerapkan kontrol konsistensi berdasarkan persyaratan aplikasi.

**SDK untuk JavaScript (v3)**  
Kueri dengan pembacaan yang sangat konsisten menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table with configurable read consistency
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {boolean} useConsistentRead - Whether to use strongly consistent reads
 * @returns {Promise<Object>} - The query response
 */
async function queryWithConsistentRead(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  useConsistentRead = false
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: "#pk = :pkValue",
      ExpressionAttributeNames: {
        "#pk": partitionKeyName
      },
      ExpressionAttributeValues: {
        ":pkValue": { S: partitionKeyValue }
      },
      ConsistentRead: useConsistentRead
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying with consistent read: ${error}`);
    throw error;
  }
}
```
Kueri menggunakan Indeks Sekunder Global dengan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table using the primary key
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} userId - The user ID to query by (partition key)
 * @returns {Promise<Object>} - The query response
 */
async function queryTable(
  config,
  tableName,
  userId
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input for the base table
    const input = {
      TableName: tableName,
      KeyConditionExpression: "user_id = :userId",
      ExpressionAttributeValues: {
        ":userId": { S: userId }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying table: ${error}`);
    throw error;
  }
}

/**
 * Queries a DynamoDB Global Secondary Index (GSI)
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} indexName - The name of the GSI to query
 * @param {string} gameId - The game ID to query by (GSI partition key)
 * @returns {Promise<Object>} - The query response
 */
async function queryGSI(
  config,
  tableName,
  indexName,
  gameId
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input for the GSI
    const input = {
      TableName: tableName,
      IndexName: indexName,
      KeyConditionExpression: "game_id = :gameId",
      ExpressionAttributeValues: {
        ":gameId": { S: gameId }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying GSI: ${error}`);
    throw error;
  }
}
```
Kueri dengan pagination menggunakan AWS SDK untuk JavaScript.  

```
/**
 * Example demonstrating how to handle large query result sets in DynamoDB using pagination
 * 
 * This example shows:
 * - How to use pagination to handle large result sets
 * - How to use LastEvaluatedKey to retrieve the next page of results
 * - How to construct subsequent query requests using ExclusiveStartKey
 */
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table with pagination to handle large result sets
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {number} pageSize - Number of items per page
 * @returns {Promise<Array>} - All items from the query
 */
async function queryWithPagination(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  pageSize = 25
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);
    
    // Initialize variables for pagination
    let lastEvaluatedKey = undefined;
    const allItems = [];
    let pageCount = 0;
    
    // Loop until all pages are retrieved
    do {
      // Construct the query input
      const input = {
        TableName: tableName,
        KeyConditionExpression: "#pk = :pkValue",
        Limit: pageSize,
        ExpressionAttributeNames: {
          "#pk": partitionKeyName
        },
        ExpressionAttributeValues: {
          ":pkValue": { S: partitionKeyValue }
        }
      };
      
      // Add ExclusiveStartKey if we have a LastEvaluatedKey from a previous query
      if (lastEvaluatedKey) {
        input.ExclusiveStartKey = lastEvaluatedKey;
      }
      
      // Execute the query
      const command = new QueryCommand(input);
      const response = await client.send(command);
      
      // Process the current page of results
      pageCount++;
      console.log(`Processing page ${pageCount} with ${response.Items.length} items`);
      
      // Add the items from this page to our collection
      if (response.Items && response.Items.length > 0) {
        allItems.push(...response.Items);
      }
      
      // Get the LastEvaluatedKey for the next page
      lastEvaluatedKey = response.LastEvaluatedKey;
      
    } while (lastEvaluatedKey); // Continue until there are no more pages
    
    console.log(`Query complete. Retrieved ${allItems.length} items in ${pageCount} pages.`);
    return allItems;
  } catch (error) {
    console.error(`Error querying with pagination: ${error}`);
    throw error;
  }
}

/**
 * Example usage:
 * 
 * // Query all items in the "AWS DynamoDB" forum with pagination
 * const allItems = await queryWithPagination(
 *   { region: "us-west-2" },
 *   "ForumThreads",
 *   "ForumName",
 *   "AWS DynamoDB",
 *   25 // 25 items per page
 * );
 * 
 * console.log(`Total items retrieved: ${allItems.length}`);
 * 
 * // Notes on pagination:
 * // - LastEvaluatedKey contains the primary key of the last evaluated item
 * // - When LastEvaluatedKey is undefined/null, there are no more items to retrieve
 * // - ExclusiveStartKey tells DynamoDB where to start the next page
 * // - Pagination helps manage memory usage for large result sets
 * // - Each page requires a separate network request to DynamoDB
 */

module.exports = { queryWithPagination };
```
Kueri dengan filter kompleks menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table with a complex filter expression
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {number|string} minViews - Minimum number of views for filtering
 * @param {number|string} minReplies - Minimum number of replies for filtering
 * @param {string} requiredTag - Tag that must be present in the item's tags set
 * @returns {Promise<Object>} - The query response
 */
async function queryWithComplexFilter(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  minViews,
  minReplies,
  requiredTag
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: "#pk = :pkValue",
      FilterExpression: "views >= :minViews AND replies >= :minReplies AND contains(tags, :tag)",
      ExpressionAttributeNames: {
        "#pk": partitionKeyName
      },
      ExpressionAttributeValues: {
        ":pkValue": { S: partitionKeyValue },
        ":minViews": { N: minViews.toString() },
        ":minReplies": { N: minReplies.toString() },
        ":tag": { S: requiredTag }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying with complex filter: ${error}`);
    throw error;
  }
}
```
Kueri dengan ekspresi filter yang dibangun secara dinamis menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

async function queryWithDynamicFilter(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  sortKeyName,
  sortKeyValue,
  filterParams = {}
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Initialize filter expression components
    let filterExpressions = [];
    const expressionAttributeValues = {
      ":pkValue": { S: partitionKeyValue },
      ":skValue": { S: sortKeyValue }
    };
    const expressionAttributeNames = {
      "#pk": partitionKeyName,
      "#sk": sortKeyName
    };

    // Add status filter if provided
    if (filterParams.status) {
      filterExpressions.push("status = :status");
      expressionAttributeValues[":status"] = { S: filterParams.status };
    }

    // Add minimum views filter if provided
    if (filterParams.minViews !== undefined) {
      filterExpressions.push("views >= :minViews");
      expressionAttributeValues[":minViews"] = { N: filterParams.minViews.toString() };
    }

    // Add author filter if provided
    if (filterParams.author) {
      filterExpressions.push("author = :author");
      expressionAttributeValues[":author"] = { S: filterParams.author };
    }

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: "#pk = :pkValue AND #sk = :skValue"
    };

    // Add filter expression if any filters were provided
    if (filterExpressions.length > 0) {
      input.FilterExpression = filterExpressions.join(" AND ");
    }

    // Add expression attribute names and values
    input.ExpressionAttributeNames = expressionAttributeNames;
    input.ExpressionAttributeValues = expressionAttributeValues;

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying with dynamic filter: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Lakukan operasi daftar
<a name="dynamodb_Scenario_ListOperations_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi daftar di DynamoDB.
+ Tambahkan elemen ke atribut daftar.
+ Hapus elemen dari atribut daftar.
+ Perbarui elemen tertentu dalam daftar berdasarkan indeks.
+ Gunakan fungsi daftar append dan daftar indeks.

**SDK untuk JavaScript (v3)**  
Menunjukkan operasi daftar menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  UpdateCommand,
  GetCommand,
  PutCommand
} = require("@aws-sdk/lib-dynamodb");

/**
 * Append elements to a list attribute.
 * 
 * This function demonstrates how to use the list_append function to add elements
 * to the end of a list.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} listName - The name of the list attribute
 * @param {Array} values - The values to append to the list
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function appendToList(
  config,
  tableName,
  key,
  listName,
  values
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using list_append
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${listName} = list_append(if_not_exists(${listName}, :empty_list), :values)`,
    ExpressionAttributeValues: {
      ":empty_list": [],
      ":values": values
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Prepend elements to a list attribute.
 * 
 * This function demonstrates how to use the list_append function to add elements
 * to the beginning of a list.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} listName - The name of the list attribute
 * @param {Array} values - The values to prepend to the list
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function prependToList(
  config,
  tableName,
  key,
  listName,
  values
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using list_append
  // Note: To prepend, we put the new values first in the list_append function
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${listName} = list_append(:values, if_not_exists(${listName}, :empty_list))`,
    ExpressionAttributeValues: {
      ":empty_list": [],
      ":values": values
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Update a specific element in a list by index.
 * 
 * This function demonstrates how to update a specific element in a list
 * using the index notation.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} listName - The name of the list attribute
 * @param {number} index - The index of the element to update
 * @param {any} value - The new value for the element
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateListElement(
  config,
  tableName,
  key,
  listName,
  index,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using index notation
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${listName}[${index}] = :value`,
    ExpressionAttributeValues: {
      ":value": value
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Remove an element from a list by index.
 * 
 * This function demonstrates how to remove a specific element from a list
 * using the REMOVE action with index notation.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} listName - The name of the list attribute
 * @param {number} index - The index of the element to remove
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function removeListElement(
  config,
  tableName,
  key,
  listName,
  index
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using REMOVE with index notation
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `REMOVE ${listName}[${index}]`,
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Concatenate two lists.
 * 
 * This function demonstrates how to concatenate two lists using the list_append function.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} listName1 - The name of the first list attribute
 * @param {string} listName2 - The name of the second list attribute
 * @param {string} resultListName - The name of the attribute to store the concatenated list
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function concatenateLists(
  config,
  tableName,
  key,
  listName1,
  listName2,
  resultListName
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using list_append
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${resultListName} = list_append(if_not_exists(${listName1}, :empty_list), if_not_exists(${listName2}, :empty_list))`,
    ExpressionAttributeValues: {
      ":empty_list": []
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Create a nested list structure.
 * 
 * This function demonstrates how to create and work with nested lists.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} listName - The name of the list attribute
 * @param {Array} nestedLists - An array of arrays to create a nested list structure
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function createNestedList(
  config,
  tableName,
  key,
  listName,
  nestedLists
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters to create a nested list
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${listName} = :nested_lists`,
    ExpressionAttributeValues: {
      ":nested_lists": nestedLists
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Update an element in a nested list.
 * 
 * This function demonstrates how to update an element in a nested list
 * using multiple index notations.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} listName - The name of the list attribute
 * @param {number} outerIndex - The index in the outer list
 * @param {number} innerIndex - The index in the inner list
 * @param {any} value - The new value for the element
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateNestedListElement(
  config,
  tableName,
  key,
  listName,
  outerIndex,
  innerIndex,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using multiple index notations
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${listName}[${outerIndex}][${innerIndex}] = :value`,
    ExpressionAttributeValues: {
      ":value": value
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Get the current value of an item.
 * 
 * Helper function to retrieve the current value of an item.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to get
 * @returns {Promise<Object|null>} - The item or null if not found
 */
async function getItem(
  config,
  tableName,
  key
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the get parameters
  const params = {
    TableName: tableName,
    Key: key
  };
  
  // Perform the get operation
  const response = await docClient.send(new GetCommand(params));
  
  // Return the item if it exists, otherwise null
  return response.Item || null;
}
```
Contoh penggunaan operasi daftar dengan AWS SDK untuk JavaScript.  

```
/**
 * Example of how to work with lists in DynamoDB.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "UserProfiles";
  const key = { UserId: "U12345" };
  
  console.log("Demonstrating list operations in DynamoDB");
  
  try {
    // Example 1: Append elements to a list
    console.log("\nExample 1: Appending elements to a list");
    const response1 = await appendToList(
      config,
      tableName,
      key,
      "RecentSearches",
      ["laptop", "headphones", "monitor"]
    );
    
    console.log("Appended to list:", response1.Attributes);
    
    // Example 2: Prepend elements to a list
    console.log("\nExample 2: Prepending elements to a list");
    const response2 = await prependToList(
      config,
      tableName,
      key,
      "RecentSearches",
      ["keyboard", "mouse"]
    );
    
    console.log("Prepended to list:", response2.Attributes);
    
    // Get the current state of the item
    let currentItem = await getItem(config, tableName, key);
    console.log("\nCurrent state of RecentSearches:", currentItem?.RecentSearches);
    
    // Example 3: Update a specific element in a list
    console.log("\nExample 3: Updating a specific element in a list");
    const response3 = await updateListElement(
      config,
      tableName,
      key,
      "RecentSearches",
      0, // Update the first element
      "mechanical keyboard" // New value
    );
    
    console.log("Updated list element:", response3.Attributes);
    
    // Example 4: Remove an element from a list
    console.log("\nExample 4: Removing an element from a list");
    const response4 = await removeListElement(
      config,
      tableName,
      key,
      "RecentSearches",
      2 // Remove the third element
    );
    
    console.log("List after removing element:", response4.Attributes);
    
    // Example 5: Create and concatenate lists
    console.log("\nExample 5: Creating and concatenating lists");
    
    // First, create two separate lists
    await updateWithMultipleActions(
      config,
      tableName,
      key,
      "SET WishList = :wishlist, SavedItems = :saveditems",
      null,
      {
        ":wishlist": ["gaming laptop", "wireless earbuds"],
        ":saveditems": ["smartphone", "tablet"]
      }
    );
    
    // Then, concatenate them
    const response5 = await concatenateLists(
      config,
      tableName,
      key,
      "WishList",
      "SavedItems",
      "AllItems"
    );
    
    console.log("Concatenated lists:", response5.Attributes);
    
    // Example 6: Create a nested list structure
    console.log("\nExample 6: Creating a nested list structure");
    const response6 = await createNestedList(
      config,
      tableName,
      key,
      "Categories",
      [
        ["Electronics", "Computers", "Accessories"],
        ["Books", "Magazines", "E-books"],
        ["Clothing", "Shoes", "Watches"]
      ]
    );
    
    console.log("Created nested list:", response6.Attributes);
    
    // Example 7: Update an element in a nested list
    console.log("\nExample 7: Updating an element in a nested list");
    const response7 = await updateNestedListElement(
      config,
      tableName,
      key,
      "Categories",
      0, // First inner list
      1, // Second element in that list
      "Laptops" // New value
    );
    
    console.log("Updated nested list element:", response7.Attributes);
    
    // Get the final state of the item
    currentItem = await getItem(config, tableName, key);
    console.log("\nFinal state of the item:", JSON.stringify(currentItem, null, 2));
    
    // Explain list operations
    console.log("\nKey points about list operations in DynamoDB:");
    console.log("1. Use list_append to add elements to a list");
    console.log("2. To append elements, use list_append(existingList, newElements)");
    console.log("3. To prepend elements, use list_append(newElements, existingList)");
    console.log("4. Use if_not_exists to handle cases where the list might not exist yet");
    console.log("5. Use index notation (list[0]) to access or update specific elements");
    console.log("6. Use REMOVE with index notation to remove elements from a list");
    console.log("7. Lists can contain elements of different types");
    console.log("8. Lists can be nested (lists of lists)");
    console.log("9. Use multiple index notations (list[0][1]) to access nested list elements");
    
  } catch (error) {
    console.error("Error:", error);
  }
}

/**
 * Helper function for the examples.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} updateExpression - The update expression
 * @param {Object} expressionAttributeNames - Expression attribute name placeholders
 * @param {Object} expressionAttributeValues - Expression attribute value placeholders
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateWithMultipleActions(
  config,
  tableName,
  key,
  updateExpression,
  expressionAttributeNames,
  expressionAttributeValues
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Prepare the update parameters
  const updateParams = {
    TableName: tableName,
    Key: key,
    UpdateExpression: updateExpression,
    ReturnValues: "UPDATED_NEW"
  };
  
  // Add expression attribute names if provided
  if (expressionAttributeNames) {
    updateParams.ExpressionAttributeNames = expressionAttributeNames;
  }
  
  // Add expression attribute values if provided
  if (expressionAttributeValues) {
    updateParams.ExpressionAttributeValues = expressionAttributeValues;
  }
  
  // Execute the update
  const response = await docClient.send(new UpdateCommand(updateParams));
  
  return response;
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Lakukan operasi peta
<a name="dynamodb_Scenario_MapOperations_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi peta di DynamoDB.
+ Tambahkan dan perbarui atribut bersarang dalam struktur peta.
+ Hapus bidang tertentu dari peta.
+ Bekerja dengan atribut peta yang sangat bersarang.

**SDK untuk JavaScript (v3)**  
Menunjukkan operasi peta menggunakan AWS SDK untuk JavaScript.  

```
/**
 * Example of updating map attributes in DynamoDB.
 * 
 * This module demonstrates how to update map attributes that may not exist,
 * how to update nested attributes, and how to handle various map update scenarios.
 */

const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  UpdateCommand,
  GetCommand
} = require("@aws-sdk/lib-dynamodb");

/**
 * Update a map attribute safely, handling the case where the map might not exist.
 * 
 * This function demonstrates using the if_not_exists function to safely update
 * a map attribute that might not exist yet.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} mapName - The name of the map attribute
 * @param {string} mapKey - The key within the map to update
 * @param {any} value - The value to set
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateMapAttributeSafe(
  config,
  tableName,
  key,
  mapName,
  mapKey,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using SET with if_not_exists
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${mapName}.${mapKey} = :value`,
    ExpressionAttributeValues: {
      ":value": value
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  try {
    // Perform the update operation
    const response = await docClient.send(new UpdateCommand(params));
    return response;
  } catch (error) {
    // If the error is because the map doesn't exist, create it
    if (error.name === "ValidationException" && 
        error.message.includes("The document path provided in the update expression is invalid")) {
      
      // Create the map with the specified key-value pair
      const createParams = {
        TableName: tableName,
        Key: key,
        UpdateExpression: `SET ${mapName} = :map`,
        ExpressionAttributeValues: {
          ":map": { [mapKey]: value }
        },
        ReturnValues: "UPDATED_NEW"
      };
      
      return await docClient.send(new UpdateCommand(createParams));
    }
    
    // Re-throw other errors
    throw error;
  }
}

/**
 * Update a map attribute using the if_not_exists function.
 * 
 * This function demonstrates a more elegant approach using if_not_exists
 * to handle the case where the map doesn't exist yet.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} mapName - The name of the map attribute
 * @param {string} mapKey - The key within the map to update
 * @param {any} value - The value to set
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateMapAttributeWithIfNotExists(
  config,
  tableName,
  key,
  mapName,
  mapKey,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using SET with if_not_exists
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${mapName} = if_not_exists(${mapName}, :emptyMap), ${mapName}.${mapKey} = :value`,
    ExpressionAttributeValues: {
      ":emptyMap": {},
      ":value": value
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Add a value to a deeply nested map, creating parent maps if they don't exist.
 * 
 * This function demonstrates how to update a deeply nested attribute,
 * creating any parent maps that don't exist along the way.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string[]} path - The path to the nested attribute as an array of keys
 * @param {any} value - The value to set
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function addToNestedMap(
  config,
  tableName,
  key,
  path,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Build the update expression and expression attribute values
  let updateExpression = "SET";
  const expressionAttributeValues = {};
  
  // For each level in the path, create a map if it doesn't exist
  for (let i = 0; i < path.length; i++) {
    const currentPath = path.slice(0, i + 1).join(".");
    const parentPath = i > 0 ? path.slice(0, i).join(".") : null;
    
    if (parentPath) {
      updateExpression += ` ${parentPath} = if_not_exists(${parentPath}, :emptyMap${i}),`;
      expressionAttributeValues[`:emptyMap${i}`] = {};
    }
  }
  
  // Set the final value
  const fullPath = path.join(".");
  updateExpression += ` ${fullPath} = :value`;
  expressionAttributeValues[":value"] = value;
  
  // Define the update parameters
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: updateExpression,
    ExpressionAttributeValues: expressionAttributeValues,
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Update multiple fields in a map attribute in a single operation.
 * 
 * This function demonstrates how to update multiple fields in a map
 * in a single DynamoDB operation.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} mapName - The name of the map attribute
 * @param {Object} updates - Object containing key-value pairs to update
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateMultipleMapFields(
  config,
  tableName,
  key,
  mapName,
  updates
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Build the update expression and expression attribute values
  let updateExpression = `SET ${mapName} = if_not_exists(${mapName}, :emptyMap)`;
  const expressionAttributeValues = {
    ":emptyMap": {}
  };
  
  // Add each update to the expression
  Object.entries(updates).forEach(([field, value], index) => {
    updateExpression += `, ${mapName}.${field} = :val${index}`;
    expressionAttributeValues[`:val${index}`] = value;
  });
  
  // Define the update parameters
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: updateExpression,
    ExpressionAttributeValues: expressionAttributeValues,
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Get the current value of an item.
 * 
 * Helper function to retrieve the current value of an item.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to get
 * @returns {Promise<Object|null>} - The item or null if not found
 */
async function getItem(
  config,
  tableName,
  key
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the get parameters
  const params = {
    TableName: tableName,
    Key: key
  };
  
  // Perform the get operation
  const response = await docClient.send(new GetCommand(params));
  
  // Return the item if it exists, otherwise null
  return response.Item || null;
}

/**
 * Example of how to use the map attribute update functions.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "Users";
  const key = { UserId: "U12345" };
  
  console.log("Demonstrating different approaches to update map attributes in DynamoDB");
  
  try {
    // Example 1: Update a map attribute that might not exist (two-step approach)
    console.log("\nExample 1: Updating a map attribute that might not exist (two-step approach)");
    const response1 = await updateMapAttributeSafe(
      config,
      tableName,
      key,
      "Preferences",
      "Theme",
      "Dark"
    );
    
    console.log("Updated preferences:", response1.Attributes);
    
    // Example 2: Update a map attribute using if_not_exists (elegant approach)
    console.log("\nExample 2: Updating a map attribute using if_not_exists (elegant approach)");
    const response2 = await updateMapAttributeWithIfNotExists(
      config,
      tableName,
      key,
      "Settings",
      "NotificationsEnabled",
      true
    );
    
    console.log("Updated settings:", response2.Attributes);
    
    // Example 3: Update a deeply nested attribute
    console.log("\nExample 3: Updating a deeply nested attribute");
    const response3 = await addToNestedMap(
      config,
      tableName,
      key,
      ["Profile", "Address", "City"],
      "Seattle"
    );
    
    console.log("Updated nested attribute:", response3.Attributes);
    
    // Example 4: Update multiple fields in a map
    console.log("\nExample 4: Updating multiple fields in a map");
    const response4 = await updateMultipleMapFields(
      config,
      tableName,
      key,
      "ContactInfo",
      {
        Email: "user@example.com",
        Phone: "555-123-4567",
        PreferredContact: "Email"
      }
    );
    
    console.log("Updated multiple fields:", response4.Attributes);
    
    // Get the final state of the item
    console.log("\nFinal state of the item:");
    const item = await getItem(config, tableName, key);
    console.log(JSON.stringify(item, null, 2));
    
    // Explain the benefits of different approaches
    console.log("\nKey points about updating map attributes:");
    console.log("1. Use if_not_exists to handle maps that might not exist");
    console.log("2. Multiple updates can be combined in a single operation");
    console.log("3. Deeply nested attributes require creating parent maps");
    console.log("4. DynamoDB expressions are atomic - the entire update succeeds or fails");
    console.log("5. Using a single operation is more efficient than multiple separate updates");
    
  } catch (error) {
    console.error("Error:", error);
  }
}

// Export the functions
module.exports = {
  updateMapAttributeSafe,
  updateMapAttributeWithIfNotExists,
  addToNestedMap,
  updateMultipleMapFields,
  getItem,
  exampleUsage
};

// Run the example if this file is executed directly
if (require.main === module) {
  exampleUsage();
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Lakukan operasi set
<a name="dynamodb_Scenario_SetOperations_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi set di DynamoDB.
+ Tambahkan elemen ke atribut set.
+ Hapus elemen dari atribut set.
+ Gunakan operasi ADD dan DELETE dengan set.

**SDK untuk JavaScript (v3)**  
Menunjukkan operasi set menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  UpdateCommand,
  GetCommand
} = require("@aws-sdk/lib-dynamodb");

/**
 * Add elements to a set attribute.
 * 
 * This function demonstrates using the ADD operation to add elements to a set.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} setName - The name of the set attribute
 * @param {Array} values - The values to add to the set
 * @param {string} setType - The type of set ('string', 'number', or 'binary')
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function addToSet(
  config,
  tableName,
  key,
  setName,
  values,
  setType = 'string'
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Create the appropriate set type
  let setValues;
  if (setType === 'string') {
    setValues = new Set(values.map(String));
  } else if (setType === 'number') {
    setValues = new Set(values.map(Number));
  } else if (setType === 'binary') {
    setValues = new Set(values);
  } else {
    throw new Error(`Unsupported set type: ${setType}`);
  }
  
  // Define the update parameters using ADD
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `ADD ${setName} :values`,
    ExpressionAttributeValues: {
      ":values": setValues
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Remove elements from a set attribute.
 * 
 * This function demonstrates using the DELETE operation to remove elements from a set.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} setName - The name of the set attribute
 * @param {Array} values - The values to remove from the set
 * @param {string} setType - The type of set ('string', 'number', or 'binary')
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function removeFromSet(
  config,
  tableName,
  key,
  setName,
  values,
  setType = 'string'
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Create the appropriate set type
  let setValues;
  if (setType === 'string') {
    setValues = new Set(values.map(String));
  } else if (setType === 'number') {
    setValues = new Set(values.map(Number));
  } else if (setType === 'binary') {
    setValues = new Set(values);
  } else {
    throw new Error(`Unsupported set type: ${setType}`);
  }
  
  // Define the update parameters using DELETE
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `DELETE ${setName} :values`,
    ExpressionAttributeValues: {
      ":values": setValues
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Create a new set attribute with initial values.
 * 
 * This function demonstrates using the SET operation to create a new set attribute.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} setName - The name of the set attribute
 * @param {Array} values - The initial values for the set
 * @param {string} setType - The type of set ('string', 'number', or 'binary')
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function createSet(
  config,
  tableName,
  key,
  setName,
  values,
  setType = 'string'
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Create the appropriate set type
  let setValues;
  if (setType === 'string') {
    setValues = new Set(values.map(String));
  } else if (setType === 'number') {
    setValues = new Set(values.map(Number));
  } else if (setType === 'binary') {
    setValues = new Set(values);
  } else {
    throw new Error(`Unsupported set type: ${setType}`);
  }
  
  // Define the update parameters using SET
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${setName} = :values`,
    ExpressionAttributeValues: {
      ":values": setValues
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Replace an entire set attribute with a new set of values.
 * 
 * This function demonstrates using the SET operation to replace an entire set.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} setName - The name of the set attribute
 * @param {Array} values - The new values for the set
 * @param {string} setType - The type of set ('string', 'number', or 'binary')
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function replaceSet(
  config,
  tableName,
  key,
  setName,
  values,
  setType = 'string'
) {
  // This is the same as createSet, but included for clarity of intent
  return await createSet(config, tableName, key, setName, values, setType);
}

/**
 * Remove the last element from a set and handle the empty set case.
 * 
 * This function demonstrates what happens when you delete the last element of a set.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} setName - The name of the set attribute
 * @returns {Promise<Object>} - The result of the operation
 */
async function removeLastElementFromSet(
  config,
  tableName,
  key,
  setName
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // First, get the current item to check the set
  const currentItem = await getItem(config, tableName, key);
  
  // Check if the set exists and has elements
  if (!currentItem || !currentItem[setName] || currentItem[setName].size === 0) {
    return {
      success: false,
      message: "Set doesn't exist or is already empty",
      item: currentItem
    };
  }
  
  // Get the set values
  const setValues = Array.from(currentItem[setName]);
  
  // If there's only one element left, remove the attribute entirely
  if (setValues.length === 1) {
    // Define the update parameters to remove the attribute
    const params = {
      TableName: tableName,
      Key: key,
      UpdateExpression: `REMOVE ${setName}`,
      ReturnValues: "UPDATED_NEW"
    };
    
    // Perform the update operation
    await docClient.send(new UpdateCommand(params));
    
    return {
      success: true,
      message: "Last element removed, attribute has been deleted",
      removedValue: setValues[0]
    };
  } else {
    // Otherwise, remove just the last element
    // Create a set with just the last element
    const lastElement = setValues[setValues.length - 1];
    const setType = typeof lastElement === 'number' ? 'number' : 'string';
    
    // Remove the last element
    const response = await removeFromSet(
      config,
      tableName,
      key,
      setName,
      [lastElement],
      setType
    );
    
    return {
      success: true,
      message: "Last element removed, set still contains elements",
      removedValue: lastElement,
      remainingSet: response.Attributes[setName]
    };
  }
}

/**
 * Get the current value of an item.
 * 
 * Helper function to retrieve the current value of an item.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to get
 * @returns {Promise<Object|null>} - The item or null if not found
 */
async function getItem(
  config,
  tableName,
  key
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the get parameters
  const params = {
    TableName: tableName,
    Key: key
  };
  
  // Perform the get operation
  const response = await docClient.send(new GetCommand(params));
  
  // Return the item if it exists, otherwise null
  return response.Item || null;
}
```
Contoh penggunaan operasi set dengan AWS SDK untuk JavaScript.  

```
/**
 * Example of how to work with sets in DynamoDB.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "Users";
  const key = { UserId: "U12345" };
  
  console.log("Demonstrating set operations in DynamoDB");
  
  try {
    // Example 1: Create a string set
    console.log("\nExample 1: Creating a string set");
    const response1 = await createSet(
      config,
      tableName,
      key,
      "Interests",
      ["Reading", "Hiking", "Cooking"],
      "string"
    );
    
    console.log("Created set:", response1.Attributes);
    
    // Example 2: Add elements to a set
    console.log("\nExample 2: Adding elements to a set");
    const response2 = await addToSet(
      config,
      tableName,
      key,
      "Interests",
      ["Photography", "Travel"],
      "string"
    );
    
    console.log("Updated set after adding elements:", response2.Attributes);
    
    // Example 3: Remove elements from a set
    console.log("\nExample 3: Removing elements from a set");
    const response3 = await removeFromSet(
      config,
      tableName,
      key,
      "Interests",
      ["Cooking"],
      "string"
    );
    
    console.log("Updated set after removing elements:", response3.Attributes);
    
    // Example 4: Create a number set
    console.log("\nExample 4: Creating a number set");
    const response4 = await createSet(
      config,
      tableName,
      key,
      "FavoriteNumbers",
      [7, 42, 99],
      "number"
    );
    
    console.log("Created number set:", response4.Attributes);
    
    // Example 5: Replace an entire set
    console.log("\nExample 5: Replacing an entire set");
    const response5 = await replaceSet(
      config,
      tableName,
      key,
      "Interests",
      ["Gaming", "Movies", "Music"],
      "string"
    );
    
    console.log("Replaced set:", response5.Attributes);
    
    // Example 6: Remove the last element from a set
    console.log("\nExample 6: Removing the last element from a set");
    
    // First, create a set with just one element
    await createSet(
      config,
      tableName,
      { UserId: "U67890" },
      "Tags",
      ["LastTag"],
      "string"
    );
    
    // Then, remove the last element
    const response6 = await removeLastElementFromSet(
      config,
      tableName,
      { UserId: "U67890" },
      "Tags"
    );
    
    console.log(response6.message);
    console.log("Removed value:", response6.removedValue);
    
    // Get the final state of the items
    console.log("\nFinal state of the items:");
    const item1 = await getItem(config, tableName, key);
    console.log("User U12345:", JSON.stringify(item1, null, 2));
    
    const item2 = await getItem(config, tableName, { UserId: "U67890" });
    console.log("User U67890:", JSON.stringify(item2, null, 2));
    
    // Explain set operations
    console.log("\nKey points about set operations in DynamoDB:");
    console.log("1. Use ADD to add elements to a set (duplicates are automatically removed)");
    console.log("2. Use DELETE to remove elements from a set");
    console.log("3. Use SET to create a new set or replace an existing one");
    console.log("4. DynamoDB supports three types of sets: string sets, number sets, and binary sets");
    console.log("5. When you delete the last element from a set, the attribute remains as an empty set");
    console.log("6. To remove an empty set, use the REMOVE operation");
    console.log("7. Sets automatically maintain unique values (no duplicates)");
    console.log("8. You cannot mix data types within a set");
    
  } catch (error) {
    console.error("Error:", error);
  }
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Jalankan pernyataan PartiQL batch.  

```
import {
  BillingMode,
  CreateTableCommand,
  DeleteTableCommand,
  DescribeTableCommand,
  DynamoDBClient,
  waitUntilTableExists,
} from "@aws-sdk/client-dynamodb";
import {
  DynamoDBDocumentClient,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";
import { ScenarioInput } from "@aws-doc-sdk-examples/lib/scenario";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

const log = (msg) => console.log(`[SCENARIO] ${msg}`);
const tableName = "Cities";

export const main = async (confirmAll = false) => {
  /**
   * Delete table if it exists.
   */
  try {
    await client.send(new DescribeTableCommand({ TableName: tableName }));
    // If no error was thrown, the table exists.
    const input = new ScenarioInput(
      "deleteTable",
      `A table named ${tableName} already exists. If you choose not to delete
this table, the scenario cannot continue. Delete it?`,
      { type: "confirm", confirmAll },
    );
    const deleteTable = await input.handle({}, { confirmAll });
    if (deleteTable) {
      await client.send(new DeleteTableCommand({ tableName }));
    } else {
      console.warn(
        "Scenario could not run. Either delete ${tableName} or provide a unique table name.",
      );
      return;
    }
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "ResourceNotFoundException"
    ) {
      // Do nothing. This means the table is not there.
    } else {
      throw caught;
    }
  }

  /**
   * Create a table.
   */

  log("Creating a table.");
  const createTableCommand = new CreateTableCommand({
    TableName: tableName,
    // This example performs a large write to the database.
    // Set the billing mode to PAY_PER_REQUEST to
    // avoid throttling the large write.
    BillingMode: BillingMode.PAY_PER_REQUEST,
    // Define the attributes that are necessary for the key schema.
    AttributeDefinitions: [
      {
        AttributeName: "name",
        // 'S' is a data type descriptor that represents a number type.
        // For a list of all data type descriptors, see the following link.
        // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Programming.LowLevelAPI.html#Programming.LowLevelAPI.DataTypeDescriptors
        AttributeType: "S",
      },
    ],
    // The KeySchema defines the primary key. The primary key can be
    // a partition key, or a combination of a partition key and a sort key.
    // Key schema design is important. For more info, see
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/best-practices.html
    KeySchema: [{ AttributeName: "name", KeyType: "HASH" }],
  });
  await client.send(createTableCommand);
  log(`Table created: ${tableName}.`);

  /**
   * Wait until the table is active.
   */

  // This polls with DescribeTableCommand until the requested table is 'ACTIVE'.
  // You can't write to a table before it's active.
  log("Waiting for the table to be active.");
  await waitUntilTableExists({ client }, { TableName: tableName });
  log("Table active.");

  /**
   * Insert items.
   */

  log("Inserting cities into the table.");
  const addItemsStatementCommand = new BatchExecuteStatementCommand({
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/ql-reference.insert.html
    Statements: [
      {
        Statement: `INSERT INTO ${tableName} value {'name':?, 'population':?}`,
        Parameters: ["Alachua", 10712],
      },
      {
        Statement: `INSERT INTO ${tableName} value {'name':?, 'population':?}`,
        Parameters: ["High Springs", 6415],
      },
    ],
  });
  await docClient.send(addItemsStatementCommand);
  log("Cities inserted.");

  /**
   * Select items.
   */

  log("Selecting cities from the table.");
  const selectItemsStatementCommand = new BatchExecuteStatementCommand({
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/ql-reference.select.html
    Statements: [
      {
        Statement: `SELECT * FROM ${tableName} WHERE name=?`,
        Parameters: ["Alachua"],
      },
      {
        Statement: `SELECT * FROM ${tableName} WHERE name=?`,
        Parameters: ["High Springs"],
      },
    ],
  });
  const selectItemResponse = await docClient.send(selectItemsStatementCommand);
  log(
    `Got cities: ${selectItemResponse.Responses.map(
      (r) => `${r.Item.name} (${r.Item.population})`,
    ).join(", ")}`,
  );

  /**
   * Update items.
   */

  log("Modifying the populations.");
  const updateItemStatementCommand = new BatchExecuteStatementCommand({
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/ql-reference.update.html
    Statements: [
      {
        Statement: `UPDATE ${tableName} SET population=? WHERE name=?`,
        Parameters: [10, "Alachua"],
      },
      {
        Statement: `UPDATE ${tableName} SET population=? WHERE name=?`,
        Parameters: [5, "High Springs"],
      },
    ],
  });
  await docClient.send(updateItemStatementCommand);
  log("Updated cities.");

  /**
   * Delete the items.
   */

  log("Deleting the cities.");
  const deleteItemStatementCommand = new BatchExecuteStatementCommand({
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/ql-reference.delete.html
    Statements: [
      {
        Statement: `DELETE FROM ${tableName} WHERE name=?`,
        Parameters: ["Alachua"],
      },
      {
        Statement: `DELETE FROM ${tableName} WHERE name=?`,
        Parameters: ["High Springs"],
      },
    ],
  });
  await docClient.send(deleteItemStatementCommand);
  log("Cities deleted.");

  /**
   * Delete the table.
   */

  log("Deleting the table.");
  const deleteTableCommand = new DeleteTableCommand({ TableName: tableName });
  await client.send(deleteTableCommand);
  log("Table deleted.");
};
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchExecuteStatementCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/dynamodb#code-examples). 
Jalankan pernyataan PartiQL tunggal.  

```
import {
  BillingMode,
  CreateTableCommand,
  DeleteTableCommand,
  DescribeTableCommand,
  DynamoDBClient,
  waitUntilTableExists,
} from "@aws-sdk/client-dynamodb";
import {
  DynamoDBDocumentClient,
  ExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";
import { ScenarioInput } from "@aws-doc-sdk-examples/lib/scenario";

const client = new DynamoDBClient({});
const docClient = DynamoDBDocumentClient.from(client);

const log = (msg) => console.log(`[SCENARIO] ${msg}`);
const tableName = "SingleOriginCoffees";

export const main = async (confirmAll = false) => {
  /**
   * Delete table if it exists.
   */
  try {
    await client.send(new DescribeTableCommand({ TableName: tableName }));
    // If no error was thrown, the table exists.
    const input = new ScenarioInput(
      "deleteTable",
      `A table named ${tableName} already exists. If you choose not to delete
this table, the scenario cannot continue. Delete it?`,
      { type: "confirm", confirmAll },
    );
    const deleteTable = await input.handle({});
    if (deleteTable) {
      await client.send(new DeleteTableCommand({ tableName }));
    } else {
      console.warn(
        "Scenario could not run. Either delete ${tableName} or provide a unique table name.",
      );
      return;
    }
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "ResourceNotFoundException"
    ) {
      // Do nothing. This means the table is not there.
    } else {
      throw caught;
    }
  }

  /**
   * Create a table.
   */

  log("Creating a table.");
  const createTableCommand = new CreateTableCommand({
    TableName: tableName,
    // This example performs a large write to the database.
    // Set the billing mode to PAY_PER_REQUEST to
    // avoid throttling the large write.
    BillingMode: BillingMode.PAY_PER_REQUEST,
    // Define the attributes that are necessary for the key schema.
    AttributeDefinitions: [
      {
        AttributeName: "varietal",
        // 'S' is a data type descriptor that represents a number type.
        // For a list of all data type descriptors, see the following link.
        // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Programming.LowLevelAPI.html#Programming.LowLevelAPI.DataTypeDescriptors
        AttributeType: "S",
      },
    ],
    // The KeySchema defines the primary key. The primary key can be
    // a partition key, or a combination of a partition key and a sort key.
    // Key schema design is important. For more info, see
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/best-practices.html
    KeySchema: [{ AttributeName: "varietal", KeyType: "HASH" }],
  });
  await client.send(createTableCommand);
  log(`Table created: ${tableName}.`);

  /**
   * Wait until the table is active.
   */

  // This polls with DescribeTableCommand until the requested table is 'ACTIVE'.
  // You can't write to a table before it's active.
  log("Waiting for the table to be active.");
  await waitUntilTableExists({ client }, { TableName: tableName });
  log("Table active.");

  /**
   * Insert an item.
   */

  log("Inserting a coffee into the table.");
  const addItemStatementCommand = new ExecuteStatementCommand({
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/ql-reference.insert.html
    Statement: `INSERT INTO ${tableName} value {'varietal':?, 'profile':?}`,
    Parameters: ["arabica", ["chocolate", "floral"]],
  });
  await client.send(addItemStatementCommand);
  log("Coffee inserted.");

  /**
   * Select an item.
   */

  log("Selecting the coffee from the table.");
  const selectItemStatementCommand = new ExecuteStatementCommand({
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/ql-reference.select.html
    Statement: `SELECT * FROM ${tableName} WHERE varietal=?`,
    Parameters: ["arabica"],
  });
  const selectItemResponse = await docClient.send(selectItemStatementCommand);
  log(`Got coffee: ${JSON.stringify(selectItemResponse.Items[0])}`);

  /**
   * Update the item.
   */

  log("Add a flavor profile to the coffee.");
  const updateItemStatementCommand = new ExecuteStatementCommand({
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/ql-reference.update.html
    Statement: `UPDATE ${tableName} SET profile=list_append(profile, ?) WHERE varietal=?`,
    Parameters: [["fruity"], "arabica"],
  });
  await client.send(updateItemStatementCommand);
  log("Updated coffee");

  /**
   * Delete the item.
   */

  log("Deleting the coffee.");
  const deleteItemStatementCommand = new ExecuteStatementCommand({
    // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/ql-reference.delete.html
    Statement: `DELETE FROM ${tableName} WHERE varietal=?`,
    Parameters: ["arabica"],
  });
  await docClient.send(deleteItemStatementCommand);
  log("Coffee deleted.");

  /**
   * Delete the table.
   */

  log("Deleting the table.");
  const deleteTableCommand = new DeleteTableCommand({ TableName: tableName });
  await client.send(deleteTableCommand);
  log("Table deleted.");
};
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ExecuteStatementCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Kueri tabel menggunakan Global Secondary Index
<a name="dynamodb_Scenarios_QueryWithGlobalSecondaryIndex_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan Global Secondary Index.
+ Kueri tabel DynamoDB menggunakan kunci utamanya.
+ Kueri Indeks Sekunder Global (GSI) untuk pola akses alternatif.
+ Bandingkan kueri tabel dan kueri GSI.

**SDK untuk JavaScript (v3)**  
Kueri tabel DynamoDB menggunakan kunci utama dengan. AWS SDK untuk JavaScript  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table using the primary key
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} userId - The user ID to query by (partition key)
 * @returns {Promise<Object>} - The query response
 */
async function queryTable(
  config,
  tableName,
  userId
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input for the base table
    const input = {
      TableName: tableName,
      KeyConditionExpression: "user_id = :userId",
      ExpressionAttributeValues: {
        ":userId": { S: userId }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying table: ${error}`);
    throw error;
  }
}
```
Kueri Indeks Sekunder Global DynamoDB (GSI) dengan. AWS SDK untuk JavaScript  

```
/**
 * Queries a DynamoDB Global Secondary Index (GSI)
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} indexName - The name of the GSI to query
 * @param {string} gameId - The game ID to query by (GSI partition key)
 * @returns {Promise<Object>} - The query response
 */
async function queryGSI(
  config,
  tableName,
  indexName,
  gameId
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input for the GSI
    const input = {
      TableName: tableName,
      IndexName: indexName,
      KeyConditionExpression: "game_id = :gameId",
      ExpressionAttributeValues: {
        ":gameId": { S: gameId }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying GSI: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Kueri tabel menggunakan kondisi begins\$1with
<a name="dynamodb_Scenarios_QueryWithBeginsWithCondition_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan kondisi begins\$1with.
+ Gunakan fungsi begins\$1with dalam ekspresi kondisi kunci.
+ Filter item berdasarkan pola awalan di tombol sortir.

**SDK untuk JavaScript (v3)**  
Kueri tabel DynamoDB menggunakan kondisi begins\$1with pada kunci pengurutan dengan. AWS SDK untuk JavaScript  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table for items where the sort key begins with a specific prefix
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {string} sortKeyName - The name of the sort key
 * @param {string} prefix - The prefix to match at the beginning of the sort key
 * @returns {Promise<Object>} - The query response
 */
async function queryWithBeginsWith(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  sortKeyName,
  prefix
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: "#pk = :pkValue AND begins_with(#sk, :prefix)",
      ExpressionAttributeNames: {
        "#pk": partitionKeyName,
        "#sk": sortKeyName
      },
      ExpressionAttributeValues: {
        ":pkValue": { S: partitionKeyValue },
        ":prefix": { S: prefix }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying with begins_with: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Kueri tabel menggunakan rentang tanggal
<a name="dynamodb_Scenarios_QueryWithDateRange_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan rentang tanggal dalam kunci sort.
+ Item kueri dalam rentang tanggal tertentu.
+ Gunakan operator perbandingan pada kunci pengurutan berformat tanggal.

**SDK untuk JavaScript (v3)**  
Kueri tabel DynamoDB untuk item dalam rentang tanggal dengan. AWS SDK untuk JavaScript  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table for items within a specific date range on the sort key
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {string} sortKeyName - The name of the sort key (must be a date/time attribute)
 * @param {Date} startDate - The start date for the range query
 * @param {Date} endDate - The end date for the range query
 * @returns {Promise<Object>} - The query response
 */
async function queryByDateRangeOnSortKey(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  sortKeyName,
  startDate,
  endDate
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Format dates as ISO strings for DynamoDB
    const formattedStartDate = startDate.toISOString();
    const formattedEndDate = endDate.toISOString();

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: '#pk = :pkValue AND #sk BETWEEN :startDate AND :endDate',
      ExpressionAttributeNames: {
        "#pk": partitionKeyName,
        "#sk": sortKeyName
      },
      ExpressionAttributeValues: {
        ":pkValue": { S: partitionKeyValue },
        ":startDate": { S: formattedStartDate },
        ":endDate": { S: formattedEndDate }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying by date range on sort key: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Kueri tabel dengan ekspresi filter yang kompleks
<a name="dynamodb_Scenarios_QueryWithComplexFilter_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan ekspresi filter kompleks.
+ Terapkan ekspresi filter kompleks ke hasil kueri.
+ Gabungkan beberapa kondisi menggunakan operator logis.
+ Filter item berdasarkan atribut non-kunci.

**SDK untuk JavaScript (v3)**  
Kueri tabel DynamoDB dengan ekspresi filter kompleks menggunakan. AWS SDK untuk JavaScript  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table with a complex filter expression
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {number|string} minViews - Minimum number of views for filtering
 * @param {number|string} minReplies - Minimum number of replies for filtering
 * @param {string} requiredTag - Tag that must be present in the item's tags set
 * @returns {Promise<Object>} - The query response
 */
async function queryWithComplexFilter(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  minViews,
  minReplies,
  requiredTag
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: "#pk = :pkValue",
      FilterExpression: "views >= :minViews AND replies >= :minReplies AND contains(tags, :tag)",
      ExpressionAttributeNames: {
        "#pk": partitionKeyName
      },
      ExpressionAttributeValues: {
        ":pkValue": { S: partitionKeyValue },
        ":minViews": { N: minViews.toString() },
        ":minReplies": { N: minReplies.toString() },
        ":tag": { S: requiredTag }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying with complex filter: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Kueri tabel dengan ekspresi filter dinamis
<a name="dynamodb_Scenarios_QueryWithDynamicFilter_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan ekspresi filter dinamis.
+ Buat ekspresi filter secara dinamis saat runtime.
+ Membangun kondisi filter berdasarkan input pengguna atau status aplikasi.
+ Tambahkan atau hapus kriteria filter secara kondisional.

**SDK untuk JavaScript (v3)**  
Kueri tabel DynamoDB dengan ekspresi filter yang dibangun secara dinamis menggunakan. AWS SDK untuk JavaScript  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

async function queryWithDynamicFilter(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  sortKeyName,
  sortKeyValue,
  filterParams = {}
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Initialize filter expression components
    let filterExpressions = [];
    const expressionAttributeValues = {
      ":pkValue": { S: partitionKeyValue },
      ":skValue": { S: sortKeyValue }
    };
    const expressionAttributeNames = {
      "#pk": partitionKeyName,
      "#sk": sortKeyName
    };

    // Add status filter if provided
    if (filterParams.status) {
      filterExpressions.push("status = :status");
      expressionAttributeValues[":status"] = { S: filterParams.status };
    }

    // Add minimum views filter if provided
    if (filterParams.minViews !== undefined) {
      filterExpressions.push("views >= :minViews");
      expressionAttributeValues[":minViews"] = { N: filterParams.minViews.toString() };
    }

    // Add author filter if provided
    if (filterParams.author) {
      filterExpressions.push("author = :author");
      expressionAttributeValues[":author"] = { S: filterParams.author };
    }

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: "#pk = :pkValue AND #sk = :skValue"
    };

    // Add filter expression if any filters were provided
    if (filterExpressions.length > 0) {
      input.FilterExpression = filterExpressions.join(" AND ");
    }

    // Add expression attribute names and values
    input.ExpressionAttributeNames = expressionAttributeNames;
    input.ExpressionAttributeValues = expressionAttributeValues;

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying with dynamic filter: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Kueri tabel dengan atribut bersarang
<a name="dynamodb_Scenarios_QueryWithNestedAttributes_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan atribut bersarang.
+ Akses dan filter berdasarkan atribut bersarang di item DynamoDB.
+ Gunakan ekspresi jalur dokumen untuk mereferensikan elemen bersarang.

**SDK untuk JavaScript (v3)**  
Kueri tabel DynamoDB dengan atribut bersarang menggunakan. AWS SDK untuk JavaScript  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table filtering on a nested attribute
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} productId - The product ID to query by (partition key)
 * @param {string} category - The category to filter by (nested attribute)
 * @returns {Promise<Object>} - The query response
 */
async function queryWithNestedAttribute(
  config,
  tableName,
  productId,
  category
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: "product_id = :productId",
      FilterExpression: "details.category = :category",
      ExpressionAttributeValues: {
        ":productId": { S: productId },
        ":category": { S: category }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying with nested attribute: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Kueri tabel dengan pagination
<a name="dynamodb_Scenarios_QueryWithPagination_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan pagination.
+ Menerapkan pagination untuk hasil query DynamoDB.
+ Gunakan LastEvaluatedKey untuk mengambil halaman berikutnya.
+ Kontrol jumlah item per halaman dengan parameter Limit.

**SDK untuk JavaScript (v3)**  
Kueri tabel DynamoDB dengan pagination menggunakan. AWS SDK untuk JavaScript  

```
/**
 * Example demonstrating how to handle large query result sets in DynamoDB using pagination
 * 
 * This example shows:
 * - How to use pagination to handle large result sets
 * - How to use LastEvaluatedKey to retrieve the next page of results
 * - How to construct subsequent query requests using ExclusiveStartKey
 */
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table with pagination to handle large result sets
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {number} pageSize - Number of items per page
 * @returns {Promise<Array>} - All items from the query
 */
async function queryWithPagination(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  pageSize = 25
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);
    
    // Initialize variables for pagination
    let lastEvaluatedKey = undefined;
    const allItems = [];
    let pageCount = 0;
    
    // Loop until all pages are retrieved
    do {
      // Construct the query input
      const input = {
        TableName: tableName,
        KeyConditionExpression: "#pk = :pkValue",
        Limit: pageSize,
        ExpressionAttributeNames: {
          "#pk": partitionKeyName
        },
        ExpressionAttributeValues: {
          ":pkValue": { S: partitionKeyValue }
        }
      };
      
      // Add ExclusiveStartKey if we have a LastEvaluatedKey from a previous query
      if (lastEvaluatedKey) {
        input.ExclusiveStartKey = lastEvaluatedKey;
      }
      
      // Execute the query
      const command = new QueryCommand(input);
      const response = await client.send(command);
      
      // Process the current page of results
      pageCount++;
      console.log(`Processing page ${pageCount} with ${response.Items.length} items`);
      
      // Add the items from this page to our collection
      if (response.Items && response.Items.length > 0) {
        allItems.push(...response.Items);
      }
      
      // Get the LastEvaluatedKey for the next page
      lastEvaluatedKey = response.LastEvaluatedKey;
      
    } while (lastEvaluatedKey); // Continue until there are no more pages
    
    console.log(`Query complete. Retrieved ${allItems.length} items in ${pageCount} pages.`);
    return allItems;
  } catch (error) {
    console.error(`Error querying with pagination: ${error}`);
    throw error;
  }
}

/**
 * Example usage:
 * 
 * // Query all items in the "AWS DynamoDB" forum with pagination
 * const allItems = await queryWithPagination(
 *   { region: "us-west-2" },
 *   "ForumThreads",
 *   "ForumName",
 *   "AWS DynamoDB",
 *   25 // 25 items per page
 * );
 * 
 * console.log(`Total items retrieved: ${allItems.length}`);
 * 
 * // Notes on pagination:
 * // - LastEvaluatedKey contains the primary key of the last evaluated item
 * // - When LastEvaluatedKey is undefined/null, there are no more items to retrieve
 * // - ExclusiveStartKey tells DynamoDB where to start the next page
 * // - Pagination helps manage memory usage for large result sets
 * // - Each page requires a separate network request to DynamoDB
 */

module.exports = { queryWithPagination };
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Kueri tabel dengan pembacaan yang sangat konsisten
<a name="dynamodb_Scenarios_QueryWithStronglyConsistentReads_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan pembacaan yang sangat konsisten.
+ Konfigurasikan tingkat konsistensi untuk query DynamoDB.
+ Gunakan pembacaan yang sangat konsisten untuk mendapatkan up-to-date data terbanyak.
+ Memahami pengorbanan antara konsistensi akhirnya dan konsistensi yang kuat.

**SDK untuk JavaScript (v3)**  
Kueri tabel DynamoDB dengan konsistensi baca yang dapat dikonfigurasi menggunakan. AWS SDK untuk JavaScript  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table with configurable read consistency
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {boolean} useConsistentRead - Whether to use strongly consistent reads
 * @returns {Promise<Object>} - The query response
 */
async function queryWithConsistentRead(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  useConsistentRead = false
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: "#pk = :pkValue",
      ExpressionAttributeNames: {
        "#pk": partitionKeyName
      },
      ExpressionAttributeValues: {
        ":pkValue": { S: partitionKeyValue }
      },
      ConsistentRead: useConsistentRead
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying with consistent read: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Kueri data menggunakan PartiQL SELECT
<a name="dynamodb_PartiQLSelect_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query data menggunakan pernyataan PartiQL SELECT.

**SDK untuk JavaScript (v3)**  
Item kueri dari tabel DynamoDB menggunakan pernyataan Partiql SELECT dengan. AWS SDK untuk JavaScript  

```
/**
 * This example demonstrates how to query items from a DynamoDB table using PartiQL.
 * It shows different ways to select data with various index types.
 */
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import {
  DynamoDBDocumentClient,
  ExecuteStatementCommand,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";

/**
 * Select all items from a DynamoDB table using PartiQL.
 * Note: This should be used with caution on large tables.
 * 
 * @param tableName - The name of the DynamoDB table
 * @returns The response from the ExecuteStatementCommand
 */
export const selectAllItems = async (tableName: string) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `SELECT * FROM "${tableName}"`,
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Items retrieved successfully");
    return data;
  } catch (err) {
    console.error("Error retrieving items:", err);
    throw err;
  }
};

/**
 * Select an item by its primary key using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @returns The response from the ExecuteStatementCommand
 */
export const selectItemByPartitionKey = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `SELECT * FROM "${tableName}" WHERE ${partitionKeyName} = ?`,
    Parameters: [partitionKeyValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item retrieved successfully");
    return data;
  } catch (err) {
    console.error("Error retrieving item:", err);
    throw err;
  }
};

/**
 * Select an item by its composite key (partition key + sort key) using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @param sortKeyName - The name of the sort key attribute
 * @param sortKeyValue - The value of the sort key
 * @returns The response from the ExecuteStatementCommand
 */
export const selectItemByCompositeKey = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number,
  sortKeyName: string,
  sortKeyValue: string | number
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `SELECT * FROM "${tableName}" WHERE ${partitionKeyName} = ? AND ${sortKeyName} = ?`,
    Parameters: [partitionKeyValue, sortKeyValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item retrieved successfully");
    return data;
  } catch (err) {
    console.error("Error retrieving item:", err);
    throw err;
  }
};

/**
 * Select items using a filter condition with PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param filterAttribute - The attribute to filter on
 * @param filterValue - The value to filter by
 * @returns The response from the ExecuteStatementCommand
 */
export const selectItemsWithFilter = async (
  tableName: string,
  filterAttribute: string,
  filterValue: string | number
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `SELECT * FROM "${tableName}" WHERE ${filterAttribute} = ?`,
    Parameters: [filterValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Items retrieved successfully");
    return data;
  } catch (err) {
    console.error("Error retrieving items:", err);
    throw err;
  }
};

/**
 * Select items using a begins_with function for prefix matching.
 * This is useful for querying hierarchical data.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param attributeName - The attribute to check for prefix
 * @param prefix - The prefix to match
 * @returns The response from the ExecuteStatementCommand
 */
export const selectItemsByPrefix = async (
  tableName: string,
  attributeName: string,
  prefix: string
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `SELECT * FROM "${tableName}" WHERE begins_with(${attributeName}, ?)`,
    Parameters: [prefix],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Items retrieved successfully");
    return data;
  } catch (err) {
    console.error("Error retrieving items:", err);
    throw err;
  }
};

/**
 * Select items using a between condition for range queries.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param attributeName - The attribute to check for range
 * @param startValue - The start value of the range
 * @param endValue - The end value of the range
 * @returns The response from the ExecuteStatementCommand
 */
export const selectItemsByRange = async (
  tableName: string,
  attributeName: string,
  startValue: number | string,
  endValue: number | string
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `SELECT * FROM "${tableName}" WHERE ${attributeName} BETWEEN ? AND ?`,
    Parameters: [startValue, endValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Items retrieved successfully");
    return data;
  } catch (err) {
    console.error("Error retrieving items:", err);
    throw err;
  }
};

/**
 * Example usage showing how to select items with different index types
 */
export const selectExamples = async () => {
  // Select all items from a table (use with caution on large tables)
  await selectAllItems("UsersTable");

  // Select by partition key (simple primary key)
  await selectItemByPartitionKey("UsersTable", "userId", "user123");

  // Select by composite key (partition key + sort key)
  await selectItemByCompositeKey("OrdersTable", "orderId", "order456", "productId", "prod789");

  // Select with a filter condition (can use any attribute)
  await selectItemsWithFilter("UsersTable", "userType", "premium");

  // Select items with a prefix (useful for hierarchical data)
  await selectItemsByPrefix("ProductsTable", "category", "electronics");

  // Select items within a range (useful for numeric or date ranges)
  await selectItemsByRange("OrdersTable", "orderDate", "2023-01-01", "2023-12-31");
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [BatchExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchExecuteStatementCommand)
  + [ExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ExecuteStatementCommand)

### Kueri untuk item TTL
<a name="dynamodb_QueryFilteredTTL_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query untuk item TTL.

**SDK untuk JavaScript (v3)**  
Query Filtered Expression untuk mengumpulkan item TTL dalam tabel DynamoDB menggunakan. AWS SDK untuk JavaScript  

```
import { DynamoDBClient, QueryCommand } from "@aws-sdk/client-dynamodb";
import { marshall, unmarshall } from "@aws-sdk/util-dynamodb";

export const queryFiltered = async (tableName, primaryKey, region = 'us-east-1') => {
    const client = new DynamoDBClient({
        region: region,
        endpoint: `https://dynamodb.${region}.amazonaws.com`
    });

    const currentTime = Math.floor(Date.now() / 1000);

    const params = {
        TableName: tableName,
        KeyConditionExpression: "#pk = :pk",
        FilterExpression: "#ea > :ea",
        ExpressionAttributeNames: {
            "#pk": "primaryKey",
            "#ea": "expireAt"
        },
        ExpressionAttributeValues: marshall({
            ":pk": primaryKey,
            ":ea": currentTime
        })
    };

    try {
        const { Items } = await client.send(new QueryCommand(params));
        Items.forEach(item => {
            console.log(unmarshall(item))
        });
        return Items;
    } catch (err) {
        console.error(`Error querying items: ${err}`);
        throw err;
    }
}

// Example usage (commented out for testing)
// queryFiltered('your-table-name', 'your-partition-key-value');
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Tabel kueri menggunakan pola tanggal dan waktu
<a name="dynamodb_Scenario_DateTimeQueries_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan tanggal dan waktu pola.
+ Simpan dan kueri date/time nilai di DynamoDB.
+ Menerapkan kueri rentang tanggal menggunakan kunci pengurutan.
+ Format string tanggal untuk kueri yang efektif.

**SDK untuk JavaScript (v3)**  
Kueri menggunakan rentang tanggal dalam kunci pengurutan dengan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table for items within a specific date range on the sort key
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {string} sortKeyName - The name of the sort key (must be a date/time attribute)
 * @param {Date} startDate - The start date for the range query
 * @param {Date} endDate - The end date for the range query
 * @returns {Promise<Object>} - The query response
 */
async function queryByDateRangeOnSortKey(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  sortKeyName,
  startDate,
  endDate
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Format dates as ISO strings for DynamoDB
    const formattedStartDate = startDate.toISOString();
    const formattedEndDate = endDate.toISOString();

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: '#pk = :pkValue AND #sk BETWEEN :startDate AND :endDate',
      ExpressionAttributeNames: {
        "#pk": partitionKeyName,
        "#sk": sortKeyName
      },
      ExpressionAttributeValues: {
        ":pkValue": { S: partitionKeyValue },
        ":startDate": { S: formattedStartDate },
        ":endDate": { S: formattedEndDate }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying by date range on sort key: ${error}`);
    throw error;
  }
}
```
Kueri menggunakan variabel tanggal-waktu dengan. AWS SDK untuk JavaScript  

```
const { DynamoDBClient, QueryCommand } = require("@aws-sdk/client-dynamodb");

/**
 * Queries a DynamoDB table for items within a specific date range
 * 
 * @param {Object} config - AWS SDK configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key
 * @param {string} partitionKeyValue - The value of the partition key
 * @param {string} dateKeyName - The name of the date attribute to filter on
 * @param {Date} startDate - The start date for the range query
 * @param {Date} endDate - The end date for the range query
 * @returns {Promise<Object>} - The query response
 */
async function queryByDateRange(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  dateKeyName,
  startDate,
  endDate
) {
  try {
    // Create DynamoDB client
    const client = new DynamoDBClient(config);

    // Format dates as ISO strings for DynamoDB
    const formattedStartDate = startDate.toISOString();
    const formattedEndDate = endDate.toISOString();

    // Construct the query input
    const input = {
      TableName: tableName,
      KeyConditionExpression: `#pk = :pkValue AND #dateAttr BETWEEN :startDate AND :endDate`,
      ExpressionAttributeNames: {
        "#pk": partitionKeyName,
        "#dateAttr": dateKeyName
      },
      ExpressionAttributeValues: {
        ":pkValue": { S: partitionKeyValue },
        ":startDate": { S: formattedStartDate },
        ":endDate": { S: formattedEndDate }
      }
    };

    // Execute the query
    const command = new QueryCommand(input);
    return await client.send(command);
  } catch (error) {
    console.error(`Error querying by date range: ${error}`);
    throw error;
  }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand) di *Referensi API AWS SDK untuk JavaScript *. 

### Memahami urutan ekspresi pembaruan
<a name="dynamodb_Scenario_UpdateExpressionOrder_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memahami urutan ekspresi pembaruan.
+ Pelajari cara DynamoDB memproses ekspresi pembaruan.
+ Memahami urutan operasi dalam ekspresi pembaruan.
+ Hindari hasil yang tidak terduga dengan memahami evaluasi ekspresi.

**SDK untuk JavaScript (v3)**  
Menunjukkan urutan ekspresi pembaruan menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  UpdateCommand,
  GetCommand,
  PutCommand
} = require("@aws-sdk/lib-dynamodb");

/**
 * Update an item with multiple actions in a single update expression.
 * 
 * This function demonstrates how to use multiple actions in a single update expression
 * and how DynamoDB processes these actions.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The primary key of the item to update
 * @param {string} updateExpression - The update expression with multiple actions
 * @param {Object} [expressionAttributeNames] - Expression attribute name placeholders
 * @param {Object} [expressionAttributeValues] - Expression attribute value placeholders
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateWithMultipleActions(
  config,
  tableName,
  key,
  updateExpression,
  expressionAttributeNames,
  expressionAttributeValues
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Prepare the update parameters
  const updateParams = {
    TableName: tableName,
    Key: key,
    UpdateExpression: updateExpression,
    ReturnValues: "UPDATED_NEW"
  };
  
  // Add expression attribute names if provided
  if (expressionAttributeNames) {
    updateParams.ExpressionAttributeNames = expressionAttributeNames;
  }
  
  // Add expression attribute values if provided
  if (expressionAttributeValues) {
    updateParams.ExpressionAttributeValues = expressionAttributeValues;
  }
  
  // Execute the update
  const response = await docClient.send(new UpdateCommand(updateParams));
  
  return response;
}

/**
 * Demonstrate that variables hold copies of existing values before modifications.
 * 
 * This function creates an item with initial values, then updates it with an expression
 * that uses the values of attributes before they are modified in the same expression.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The primary key of the item to create and update
 * @returns {Promise<Object>} - A dictionary containing the results of the demonstration
 */
async function demonstrateValueCopying(
  config,
  tableName,
  key
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Step 1: Create an item with initial values
  const initialItem = { ...key, a: 1, b: 2, c: 3 };
  
  await docClient.send(new PutCommand({
    TableName: tableName,
    Item: initialItem
  }));
  
  // Step 2: Get the item to verify initial state
  const responseBefore = await docClient.send(new GetCommand({
    TableName: tableName,
    Key: key
  }));
  
  const itemBefore = responseBefore.Item || {};
  
  // Step 3: Update the item with an expression that uses values before they are modified
  // This expression removes 'a', then sets 'b' to the value of 'a', and 'c' to the value of 'b'
  const updateResponse = await docClient.send(new UpdateCommand({
    TableName: tableName,
    Key: key,
    UpdateExpression: "REMOVE a SET b = a, c = b",
    ReturnValues: "UPDATED_NEW"
  }));
  
  // Step 4: Get the item to verify final state
  const responseAfter = await docClient.send(new GetCommand({
    TableName: tableName,
    Key: key
  }));
  
  const itemAfter = responseAfter.Item || {};
  
  // Return the results
  return {
    initialState: itemBefore,
    updateResponse: updateResponse,
    finalState: itemAfter
  };
}

/**
 * Demonstrate the order in which different action types are processed.
 * 
 * This function creates an item with initial values, then updates it with an expression
 * that includes multiple action types (SET, REMOVE, ADD, DELETE) to show the order
 * in which they are processed.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The primary key of the item to create and update
 * @returns {Promise<Object>} - A dictionary containing the results of the demonstration
 */
async function demonstrateActionOrder(
  config,
  tableName,
  key
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Step 1: Create an item with initial values
  const initialItem = {
    ...key,
    counter: 10,
    set_attr: new Set(["A", "B", "C"]),
    to_remove: "This will be removed",
    to_modify: "Original value"
  };
  
  await docClient.send(new PutCommand({
    TableName: tableName,
    Item: initialItem
  }));
  
  // Step 2: Get the item to verify initial state
  const responseBefore = await docClient.send(new GetCommand({
    TableName: tableName,
    Key: key
  }));
  
  const itemBefore = responseBefore.Item || {};
  
  // Step 3: Update the item with multiple action types
  // The actions will be processed in this order: REMOVE, SET, ADD, DELETE
  const updateResponse = await docClient.send(new UpdateCommand({
    TableName: tableName,
    Key: key,
    UpdateExpression: "REMOVE to_remove SET to_modify = :new_value ADD counter :increment DELETE set_attr :elements",
    ExpressionAttributeValues: {
      ":new_value": "Updated value",
      ":increment": 5,
      ":elements": new Set(["B"])
    },
    ReturnValues: "UPDATED_NEW"
  }));
  
  // Step 4: Get the item to verify final state
  const responseAfter = await docClient.send(new GetCommand({
    TableName: tableName,
    Key: key
  }));
  
  const itemAfter = responseAfter.Item || {};
  
  // Return the results
  return {
    initialState: itemBefore,
    updateResponse: updateResponse,
    finalState: itemAfter
  };
}

/**
 * Update multiple attributes with a single SET action.
 * 
 * This function demonstrates how to update multiple attributes in a single SET action,
 * which is more efficient than using multiple separate update operations.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The primary key of the item to update
 * @param {Object} attributes - The attributes to update and their new values
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateWithMultipleSetActions(
  config,
  tableName,
  key,
  attributes
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Build the update expression and expression attribute values
  let updateExpression = "SET ";
  const expressionAttributeValues = {};
  
  // Add each attribute to the update expression
  Object.entries(attributes).forEach(([attrName, attrValue], index) => {
    const valuePlaceholder = `:val${index}`;
    
    if (index > 0) {
      updateExpression += ", ";
    }
    updateExpression += `${attrName} = ${valuePlaceholder}`;
    
    expressionAttributeValues[valuePlaceholder] = attrValue;
  });
  
  // Execute the update
  const response = await docClient.send(new UpdateCommand({
    TableName: tableName,
    Key: key,
    UpdateExpression: updateExpression,
    ExpressionAttributeValues: expressionAttributeValues,
    ReturnValues: "UPDATED_NEW"
  }));
  
  return response;
}

/**
 * Update an attribute with a value from another attribute or a default value.
 * 
 * This function demonstrates how to use if_not_exists to conditionally copy a value
 * from one attribute to another, or use a default value if the source doesn't exist.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The primary key of the item to update
 * @param {string} sourceAttribute - The attribute to copy the value from
 * @param {string} targetAttribute - The attribute to update
 * @param {any} defaultValue - The default value to use if the source attribute doesn't exist
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateWithConditionalValueCopying(
  config,
  tableName,
  key,
  sourceAttribute,
  targetAttribute,
  defaultValue
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Use if_not_exists to conditionally copy the value
  const response = await docClient.send(new UpdateCommand({
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${targetAttribute} = if_not_exists(${sourceAttribute}, :default)`,
    ExpressionAttributeValues: {
      ":default": defaultValue
    },
    ReturnValues: "UPDATED_NEW"
  }));
  
  return response;
}

/**
 * Demonstrate complex update expressions with multiple operations on the same attribute.
 * 
 * This function shows how DynamoDB processes multiple operations on the same attribute
 * in a single update expression.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The primary key of the item to create and update
 * @returns {Promise<Object>} - A dictionary containing the results of the demonstration
 */
async function demonstrateMultipleOperationsOnSameAttribute(
  config,
  tableName,
  key
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Step 1: Create an item with initial values
  const initialItem = {
    ...key,
    counter: 10,
    list_attr: [1, 2, 3],
    map_attr: {
      nested1: "value1",
      nested2: "value2"
    }
  };
  
  await docClient.send(new PutCommand({
    TableName: tableName,
    Item: initialItem
  }));
  
  // Step 2: Get the item to verify initial state
  const responseBefore = await docClient.send(new GetCommand({
    TableName: tableName,
    Key: key
  }));
  
  const itemBefore = responseBefore.Item || {};
  
  // Step 3: Update the item with multiple operations on the same attributes
  const updateResponse = await docClient.send(new UpdateCommand({
    TableName: tableName,
    Key: key,
    UpdateExpression: `
      SET counter = counter + :inc1,
          counter = counter + :inc2,
          map_attr.nested1 = :new_val1,
          map_attr.nested3 = :new_val3,
          list_attr[0] = list_attr[1],
          list_attr[1] = list_attr[2]
    `,
    ExpressionAttributeValues: {
      ":inc1": 5,
      ":inc2": 3,
      ":new_val1": "updated_value1",
      ":new_val3": "new_value3"
    },
    ReturnValues: "UPDATED_NEW"
  }));
  
  // Step 4: Get the item to verify final state
  const responseAfter = await docClient.send(new GetCommand({
    TableName: tableName,
    Key: key
  }));
  
  const itemAfter = responseAfter.Item || {};
  
  // Return the results
  return {
    initialState: itemBefore,
    updateResponse: updateResponse,
    finalState: itemAfter
  };
}
```
Contoh penggunaan urutan ekspresi pembaruan dengan AWS SDK untuk JavaScript.  

```
/**
 * Example of how to use update expression order of operations in DynamoDB.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "OrderProcessing";
  
  console.log("Demonstrating update expression order of operations in DynamoDB");
  
  try {
    // Example 1: Demonstrating value copying in update expressions
    console.log("\nExample 1: Demonstrating value copying in update expressions");
    const results1 = await demonstrateValueCopying(
      config,
      tableName,
      { OrderId: "order123" }
    );
    
    console.log("Initial state:", JSON.stringify(results1.initialState, null, 2));
    console.log("Update response:", JSON.stringify(results1.updateResponse, null, 2));
    console.log("Final state:", JSON.stringify(results1.finalState, null, 2));
    
    console.log("\nExplanation:");
    console.log("1. The initial state had a=1, b=2, c=3");
    console.log("2. The update expression 'REMOVE a SET b = a, c = b' did the following:");
    console.log("   - Copied the value of 'a' (which was 1) to be used for 'b'");
    console.log("   - Copied the value of 'b' (which was 2) to be used for 'c'");
    console.log("   - Removed the attribute 'a'");
    console.log("3. The final state has b=1, c=2, and 'a' is removed");
    console.log("4. This demonstrates that DynamoDB uses the values of attributes as they were BEFORE any modifications");
    
    // Example 2: Demonstrating the order of different action types
    console.log("\nExample 2: Demonstrating the order of different action types");
    const results2 = await demonstrateActionOrder(
      config,
      tableName,
      { OrderId: "order456" }
    );
    
    console.log("Initial state:", JSON.stringify(results2.initialState, null, 2));
    console.log("Update response:", JSON.stringify(results2.updateResponse, null, 2));
    console.log("Final state:", JSON.stringify(results2.finalState, null, 2));
    
    console.log("\nExplanation:");
    console.log("1. The update expression contained multiple action types: REMOVE, SET, ADD, DELETE");
    console.log("2. DynamoDB processes these actions in this order: REMOVE, SET, ADD, DELETE");
    console.log("3. First, 'to_remove' was removed");
    console.log("4. Then, 'to_modify' was set to a new value");
    console.log("5. Next, 'counter' was incremented by 5");
    console.log("6. Finally, 'B' was removed from the set attribute");
    
    // Example 3: Updating multiple attributes in a single SET action
    console.log("\nExample 3: Updating multiple attributes in a single SET action");
    const response3 = await updateWithMultipleSetActions(
      config,
      tableName,
      { OrderId: "order789" },
      {
        Status: "Shipped",
        ShippingDate: "2025-05-28",
        TrackingNumber: "1Z999AA10123456784"
      }
    );
    
    console.log("Multiple attributes updated successfully:", JSON.stringify(response3.Attributes, null, 2));
    
    // Example 4: Conditional value copying with if_not_exists
    console.log("\nExample 4: Conditional value copying with if_not_exists");
    const response4 = await updateWithConditionalValueCopying(
      config,
      tableName,
      { OrderId: "order101" },
      "PreferredShippingMethod",
      "ShippingMethod",
      "Standard"
    );
    
    console.log("Conditional value copying result:", JSON.stringify(response4.Attributes, null, 2));
    
    // Example 5: Multiple operations on the same attribute
    console.log("\nExample 5: Multiple operations on the same attribute");
    const results5 = await demonstrateMultipleOperationsOnSameAttribute(
      config,
      tableName,
      { OrderId: "order202" }
    );
    
    console.log("Initial state:", JSON.stringify(results5.initialState, null, 2));
    console.log("Update response:", JSON.stringify(results5.updateResponse, null, 2));
    console.log("Final state:", JSON.stringify(results5.finalState, null, 2));
    
    console.log("\nExplanation:");
    console.log("1. The counter was incremented twice (first by 5, then by 3) for a total of +8");
    console.log("2. The map attribute had one value updated and a new nested attribute added");
    console.log("3. The list attribute had values shifted (value at index 1 moved to index 0, value at index 2 moved to index 1)");
    console.log("4. All operations within the SET action are processed from left to right");
    
    // Key points about update expression order of operations
    console.log("\nKey Points About Update Expression Order of Operations:");
    console.log("1. Variables in expressions hold copies of attribute values as they existed BEFORE any modifications");
    console.log("2. Multiple actions in an update expression are processed in this order: REMOVE, SET, ADD, DELETE");
    console.log("3. Within each action type, operations are processed from left to right");
    console.log("4. You can reference the same attribute multiple times in an expression");
    console.log("5. You can use if_not_exists() to conditionally set values based on attribute existence");
    console.log("6. Using a single update expression with multiple actions is more efficient than multiple separate updates");
    console.log("7. The update expression is atomic - either all actions succeed or none do");
    
  } catch (error) {
    console.error("Error:", error);
  }
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Perbarui pengaturan throughput hangat tabel
<a name="dynamodb_UpdateTableWarmThroughput_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui pengaturan throughput hangat tabel.

**SDK untuk JavaScript (v3)**  
Perbarui pengaturan throughput hangat pada tabel DynamoDB yang ada menggunakan. AWS SDK untuk JavaScript  

```
import { DynamoDBClient, UpdateTableCommand } from "@aws-sdk/client-dynamodb";

export async function updateDynamoDBTableWarmThroughput(
  tableName,
  tableReadUnits,
  tableWriteUnits,
  gsiName,
  gsiReadUnits,
  gsiWriteUnits,
  region = "us-east-1"
) {
  try {
    const ddbClient = new DynamoDBClient({ region: region });

    // Construct the update table request
    const updateTableRequest = {
      TableName: tableName,
      GlobalSecondaryIndexUpdates: [
        {
            Update: {
                IndexName: gsiName,
                WarmThroughput: {
                    ReadUnitsPerSecond: gsiReadUnits,
                    WriteUnitsPerSecond: gsiWriteUnits,
                },
            },
        },
      ],
      WarmThroughput: {
          ReadUnitsPerSecond: tableReadUnits,
          WriteUnitsPerSecond: tableWriteUnits,
      },
    };

    const command = new UpdateTableCommand(updateTableRequest);
    const response = await ddbClient.send(command);
    console.log(`Table updated successfully! Response: ${JSON.stringify(response)}`);
    return response;
  } catch (error) {
    console.error(`Error updating table: ${error}`);
    throw error;
  }
}

// Example usage (commented out for testing)
/*
updateDynamoDBTableWarmThroughput(
  'example-table',
  5, 5,
  'example-index',
  2, 2
);
*/
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateTableCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Perbarui TTL item
<a name="dynamodb_UpdateItemTTL_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui TTL item.

**SDK untuk JavaScript (v3)**  

```
import { DynamoDBClient, UpdateItemCommand } from "@aws-sdk/client-dynamodb";
import { marshall, unmarshall } from "@aws-sdk/util-dynamodb";

export const updateItem = async (tableName, partitionKey, sortKey, region = 'us-east-1') => {
    const client = new DynamoDBClient({
        region: region,
        endpoint: `https://dynamodb.${region}.amazonaws.com`
    });

    const currentTime = Math.floor(Date.now() / 1000);
    const expireAt = Math.floor((Date.now() + 90 * 24 * 60 * 60 * 1000) / 1000);

    const params = {
        TableName: tableName,
        Key: marshall({
            partitionKey: partitionKey,
            sortKey: sortKey
        }),
        UpdateExpression: "SET updatedAt = :c, expireAt = :e",
        ExpressionAttributeValues: marshall({
            ":c": currentTime,
            ":e": expireAt
        }),
    };

    try {
        const data = await client.send(new UpdateItemCommand(params));
        const responseData = unmarshall(data.Attributes);
        console.log("Item updated successfully: %s", responseData);
        return responseData;
    } catch (err) {
        console.error("Error updating item:", err);
        throw err;
    }
}

// Example usage (commented out for testing)
// updateItem('your-table-name', 'your-partition-key-value', 'your-sort-key-value');
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Perbarui data menggunakan PartiQL UPDATE
<a name="dynamodb_PartiQLUpdate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui data menggunakan pernyataan PartiQL UPDATE.

**SDK untuk JavaScript (v3)**  
Perbarui item dalam tabel DynamoDB menggunakan pernyataan PartiQL UPDATE dengan. AWS SDK untuk JavaScript  

```
/**
 * This example demonstrates how to update items in a DynamoDB table using PartiQL.
 * It shows different ways to update documents with various index types.
 */
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import {
  DynamoDBDocumentClient,
  ExecuteStatementCommand,
  BatchExecuteStatementCommand,
} from "@aws-sdk/lib-dynamodb";

/**
 * Update a single attribute of an item using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @param attributeName - The name of the attribute to update
 * @param attributeValue - The new value for the attribute
 * @returns The response from the ExecuteStatementCommand
 */
export const updateSingleAttribute = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number,
  attributeName: string,
  attributeValue: any
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `UPDATE "${tableName}" SET ${attributeName} = ? WHERE ${partitionKeyName} = ?`,
    Parameters: [attributeValue, partitionKeyValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item updated successfully");
    return data;
  } catch (err) {
    console.error("Error updating item:", err);
    throw err;
  }
};

/**
 * Update multiple attributes of an item using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @param attributeUpdates - Object containing attribute names and their new values
 * @returns The response from the ExecuteStatementCommand
 */
export const updateMultipleAttributes = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number,
  attributeUpdates: Record<string, any>
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  // Create SET clause for each attribute
  const setClause = Object.keys(attributeUpdates)
    .map((attr, index) => `${attr} = ?`)
    .join(", ");

  // Create parameters array with attribute values followed by the partition key value
  const parameters = [...Object.values(attributeUpdates), partitionKeyValue];

  const params = {
    Statement: `UPDATE "${tableName}" SET ${setClause} WHERE ${partitionKeyName} = ?`,
    Parameters: parameters,
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item updated successfully");
    return data;
  } catch (err) {
    console.error("Error updating item:", err);
    throw err;
  }
};

/**
 * Update an item identified by a composite key (partition key + sort key) using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @param sortKeyName - The name of the sort key attribute
 * @param sortKeyValue - The value of the sort key
 * @param attributeName - The name of the attribute to update
 * @param attributeValue - The new value for the attribute
 * @returns The response from the ExecuteStatementCommand
 */
export const updateItemWithCompositeKey = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number,
  sortKeyName: string,
  sortKeyValue: string | number,
  attributeName: string,
  attributeValue: any
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `UPDATE "${tableName}" SET ${attributeName} = ? WHERE ${partitionKeyName} = ? AND ${sortKeyName} = ?`,
    Parameters: [attributeValue, partitionKeyValue, sortKeyValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item updated successfully");
    return data;
  } catch (err) {
    console.error("Error updating item:", err);
    throw err;
  }
};

/**
 * Update an item with a condition to ensure the update only happens if a condition is met.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param partitionKeyName - The name of the partition key attribute
 * @param partitionKeyValue - The value of the partition key
 * @param attributeName - The name of the attribute to update
 * @param attributeValue - The new value for the attribute
 * @param conditionAttribute - The attribute to check in the condition
 * @param conditionValue - The value to compare against in the condition
 * @returns The response from the ExecuteStatementCommand
 */
export const updateItemWithCondition = async (
  tableName: string,
  partitionKeyName: string,
  partitionKeyValue: string | number,
  attributeName: string,
  attributeValue: any,
  conditionAttribute: string,
  conditionValue: any
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  const params = {
    Statement: `UPDATE "${tableName}" SET ${attributeName} = ? WHERE ${partitionKeyName} = ? AND ${conditionAttribute} = ?`,
    Parameters: [attributeValue, partitionKeyValue, conditionValue],
  };

  try {
    const data = await docClient.send(new ExecuteStatementCommand(params));
    console.log("Item updated with condition successfully");
    return data;
  } catch (err) {
    console.error("Error updating item with condition:", err);
    throw err;
  }
};

/**
 * Batch update multiple items using PartiQL.
 * 
 * @param tableName - The name of the DynamoDB table
 * @param updates - Array of objects containing key and update information
 * @returns The response from the BatchExecuteStatementCommand
 */
export const batchUpdateItems = async (
  tableName: string,
  updates: Array<{
    partitionKeyName: string;
    partitionKeyValue: string | number;
    attributeName: string;
    attributeValue: any;
  }>
) => {
  const client = new DynamoDBClient({});
  const docClient = DynamoDBDocumentClient.from(client);

  // Create statements for each update
  const statements = updates.map((update) => {
    return {
      Statement: `UPDATE "${tableName}" SET ${update.attributeName} = ? WHERE ${update.partitionKeyName} = ?`,
      Parameters: [update.attributeValue, update.partitionKeyValue],
    };
  });

  const params = {
    Statements: statements,
  };

  try {
    const data = await docClient.send(new BatchExecuteStatementCommand(params));
    console.log("Items batch updated successfully");
    return data;
  } catch (err) {
    console.error("Error batch updating items:", err);
    throw err;
  }
};

/**
 * Example usage showing how to update items with different index types
 */
export const updateExamples = async () => {
  // Update a single attribute using a simple primary key
  await updateSingleAttribute("UsersTable", "userId", "user123", "email", "newemail@example.com");

  // Update multiple attributes at once
  await updateMultipleAttributes("UsersTable", "userId", "user123", {
    email: "newemail@example.com",
    name: "John Smith",
    lastLogin: new Date().toISOString(),
  });

  // Update an item with a composite key (partition key + sort key)
  await updateItemWithCompositeKey(
    "OrdersTable",
    "orderId",
    "order456",
    "productId",
    "prod789",
    "quantity",
    5
  );

  // Update with a condition
  await updateItemWithCondition(
    "UsersTable",
    "userId",
    "user123",
    "userStatus",
    "active",
    "userType",
    "premium"
  );

  // Batch update multiple items
  await batchUpdateItems("UsersTable", [
    {
      partitionKeyName: "userId",
      partitionKeyValue: "user123",
      attributeName: "lastLogin",
      attributeValue: new Date().toISOString(),
    },
    {
      partitionKeyName: "userId",
      partitionKeyValue: "user456",
      attributeName: "lastLogin",
      attributeValue: new Date().toISOString(),
    },
  ]);
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [BatchExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/BatchExecuteStatementCommand)
  + [ExecuteStatement](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/ExecuteStatementCommand)

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat AWS Lambda fungsi dengan menggunakan API JavaScript runtime Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat fungsi Lambda yang diinvokasi oleh Amazon API Gateway yang memindai peringatan hari jadi kerja di tabel Amazon DynamoDB dan menggunakan Amazon Simple Notification Service (Amazon SNS) untuk mengirim pesan teks berisi ucapan selamat kepada karyawan Anda pada tanggal hari jadi kerja satu tahun mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-api-gateway).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/api-gateway-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Gunakan operasi penghitung atom
<a name="dynamodb_Scenario_AtomicCounterOperations_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan operasi penghitung atom di DynamoDB.
+ Penghitung kenaikan secara atom menggunakan operasi ADD dan SET.
+ Penghitung kenaikan aman yang mungkin tidak ada.
+ Menerapkan penguncian optimis untuk operasi counter.

**SDK untuk JavaScript (v3)**  
Menunjukkan operasi penghitung atom menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  UpdateCommand,
  GetCommand
} = require("@aws-sdk/lib-dynamodb");

/**
 * Increment a counter using the ADD operation.
 * 
 * This function demonstrates using the ADD operation for atomic increments.
 * The ADD operation is atomic and is the recommended way to increment counters.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} counterName - The name of the counter attribute
 * @param {number} incrementValue - The value to increment by
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function incrementCounterWithAdd(
  config,
  tableName,
  key,
  counterName,
  incrementValue
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using ADD
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `ADD ${counterName} :increment`,
    ExpressionAttributeValues: {
      ":increment": incrementValue
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Increment a counter using the SET operation with an expression.
 * 
 * This function demonstrates using the SET operation with an expression for increments.
 * While this approach works, it's less idiomatic for simple increments than using ADD.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} counterName - The name of the counter attribute
 * @param {number} incrementValue - The value to increment by
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function incrementCounterWithSet(
  config,
  tableName,
  key,
  counterName,
  incrementValue
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using SET with an expression
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${counterName} = ${counterName} + :increment`,
    ExpressionAttributeValues: {
      ":increment": incrementValue
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Increment a counter safely, handling the case where the counter might not exist.
 * 
 * This function demonstrates using the if_not_exists function with SET to safely
 * increment a counter that might not exist yet.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} counterName - The name of the counter attribute
 * @param {number} incrementValue - The value to increment by
 * @param {number} defaultValue - The default value if the counter doesn't exist
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function incrementCounterSafely(
  config,
  tableName,
  key,
  counterName,
  incrementValue,
  defaultValue = 0
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using SET with if_not_exists
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${counterName} = if_not_exists(${counterName}, :default) + :increment`,
    ExpressionAttributeValues: {
      ":increment": incrementValue,
      ":default": defaultValue
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Increment a counter with optimistic locking to prevent race conditions.
 * 
 * This function demonstrates using a condition expression to implement optimistic
 * locking, which prevents race conditions when multiple processes try to update
 * the same counter.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} counterName - The name of the counter attribute
 * @param {number} incrementValue - The value to increment by
 * @param {number} expectedValue - The expected current value of the counter
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function incrementCounterWithLocking(
  config,
  tableName,
  key,
  counterName,
  incrementValue,
  expectedValue
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters with a condition expression
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${counterName} = ${counterName} + :increment`,
    ConditionExpression: `${counterName} = :expected`,
    ExpressionAttributeValues: {
      ":increment": incrementValue,
      ":expected": expectedValue
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  try {
    // Perform the update operation
    const response = await docClient.send(new UpdateCommand(params));
    return {
      success: true,
      data: response
    };
  } catch (error) {
    // Check if the error is due to the condition check failing
    if (error.name === "ConditionalCheckFailedException") {
      return {
        success: false,
        error: "Optimistic locking failed: the counter value has changed"
      };
    }
    // Re-throw other errors
    throw error;
  }
}

/**
 * Get the current value of a counter.
 * 
 * Helper function to retrieve the current value of a counter attribute.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to get
 * @param {string} counterName - The name of the counter attribute
 * @returns {Promise<number|null>} - The current counter value or null if not found
 */
async function getCounterValue(
  config,
  tableName,
  key,
  counterName
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the get parameters
  const params = {
    TableName: tableName,
    Key: key
  };
  
  // Perform the get operation
  const response = await docClient.send(new GetCommand(params));
  
  // Return the counter value if it exists, otherwise null
  return response.Item && counterName in response.Item
    ? response.Item[counterName]
    : null;
}
```
Contoh penggunaan operasi penghitung atom dengan AWS SDK untuk JavaScript.  

```
/**
 * Example of how to use the atomic counter operations.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "Products";
  const key = { ProductId: "P12345" };
  const counterName = "ViewCount";
  const incrementValue = 1;
  
  console.log("Demonstrating different approaches to increment counters in DynamoDB");
  
  try {
    // Example 1: Using ADD operation (recommended for simple increments)
    console.log("\nExample 1: Incrementing counter with ADD operation");
    const response1 = await incrementCounterWithAdd(
      config,
      tableName,
      key,
      counterName,
      incrementValue
    );
    
    console.log(`Counter incremented to: ${response1.Attributes[counterName]}`);
    
    // Example 2: Using SET operation with an expression
    console.log("\nExample 2: Incrementing counter with SET operation");
    const response2 = await incrementCounterWithSet(
      config,
      tableName,
      key,
      counterName,
      incrementValue
    );
    
    console.log(`Counter incremented to: ${response2.Attributes[counterName]}`);
    
    // Example 3: Safely incrementing a counter that might not exist
    console.log("\nExample 3: Safely incrementing counter that might not exist");
    const newKey = { ProductId: "P67890" };
    const response3 = await incrementCounterSafely(
      config,
      tableName,
      newKey,
      counterName,
      incrementValue,
      0
    );
    
    console.log(`Counter initialized and incremented to: ${response3.Attributes[counterName]}`);
    
    // Example 4: Incrementing with optimistic locking
    console.log("\nExample 4: Incrementing with optimistic locking");
    
    // First, get the current counter value
    const currentValue = await getCounterValue(config, tableName, key, counterName);
    console.log(`Current counter value: ${currentValue}`);
    
    // Then, try to increment with optimistic locking
    const response4 = await incrementCounterWithLocking(
      config,
      tableName,
      key,
      counterName,
      incrementValue,
      currentValue
    );
    
    if (response4.success) {
      console.log(`Counter successfully incremented to: ${response4.data.Attributes[counterName]}`);
    } else {
      console.log(response4.error);
    }
    
    // Explain the differences between ADD and SET
    console.log("\nKey differences between ADD and SET for counter operations:");
    console.log("1. ADD is more concise and idiomatic for simple increments");
    console.log("2. SET with expressions is more flexible for complex operations");
    console.log("3. Both operations are atomic and safe for concurrent updates");
    console.log("4. SET with if_not_exists is required when the attribute might not exist");
    console.log("5. Optimistic locking can be added to either approach for additional safety");
    
  } catch (error) {
    console.error("Error:", error);
  }
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Gunakan operasi bersyarat
<a name="dynamodb_Scenario_ConditionalOperations_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan operasi bersyarat di DynamoDB.
+ Menerapkan penulisan bersyarat untuk mencegah penimpaan data.
+ Gunakan ekspresi kondisi untuk menegakkan aturan bisnis.
+ Tangani kegagalan pemeriksaan bersyarat dengan anggun.

**SDK untuk JavaScript (v3)**  
Menunjukkan operasi bersyarat menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  UpdateCommand,
  DeleteCommand,
  GetCommand,
  PutCommand
} = require("@aws-sdk/lib-dynamodb");

/**
 * Perform a conditional update operation.
 * 
 * This function demonstrates how to update an item only if a condition is met.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} conditionAttribute - The attribute to check in the condition
 * @param {any} conditionValue - The value to compare against
 * @param {string} updateAttribute - The attribute to update
 * @param {any} updateValue - The new value to set
 * @returns {Promise<Object>} - Result of the operation
 */
async function conditionalUpdate(
  config,
  tableName,
  key,
  conditionAttribute,
  conditionValue,
  updateAttribute,
  updateValue
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters with a condition expression
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${updateAttribute} = :value`,
    ConditionExpression: `${conditionAttribute} = :condition`,
    ExpressionAttributeValues: {
      ":value": updateValue,
      ":condition": conditionValue
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  try {
    // Perform the update operation
    const response = await docClient.send(new UpdateCommand(params));
    
    return {
      success: true,
      message: "Condition was met and update was performed",
      updatedAttributes: response.Attributes
    };
  } catch (error) {
    // Check if the error is due to the condition check failing
    if (error.name === "ConditionalCheckFailedException") {
      return {
        success: false,
        message: "Condition was not met, update was not performed",
        error: "ConditionalCheckFailedException"
      };
    }
    
    // Re-throw other errors
    throw error;
  }
}

/**
 * Perform a conditional delete operation.
 * 
 * This function demonstrates how to delete an item only if a condition is met.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to delete
 * @param {string} conditionAttribute - The attribute to check in the condition
 * @param {any} conditionValue - The value to compare against
 * @returns {Promise<Object>} - Result of the operation
 */
async function conditionalDelete(
  config,
  tableName,
  key,
  conditionAttribute,
  conditionValue
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the delete parameters with a condition expression
  const params = {
    TableName: tableName,
    Key: key,
    ConditionExpression: `${conditionAttribute} = :condition`,
    ExpressionAttributeValues: {
      ":condition": conditionValue
    },
    ReturnValues: "ALL_OLD"
  };
  
  try {
    // Perform the delete operation
    const response = await docClient.send(new DeleteCommand(params));
    
    return {
      success: true,
      message: "Condition was met and item was deleted",
      deletedItem: response.Attributes
    };
  } catch (error) {
    // Check if the error is due to the condition check failing
    if (error.name === "ConditionalCheckFailedException") {
      return {
        success: false,
        message: "Condition was not met, item was not deleted",
        error: "ConditionalCheckFailedException"
      };
    }
    
    // Re-throw other errors
    throw error;
  }
}

/**
 * Implement optimistic locking with a version number.
 * 
 * This function demonstrates how to use a version number for optimistic locking
 * to prevent race conditions when multiple processes update the same item.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {Object} updates - The attributes to update
 * @param {number} expectedVersion - The expected current version number
 * @returns {Promise<Object>} - Result of the operation
 */
async function updateWithOptimisticLocking(
  config,
  tableName,
  key,
  updates,
  expectedVersion
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Build the update expression
  const updateExpressions = [];
  const expressionAttributeValues = {
    ":expectedVersion": expectedVersion,
    ":newVersion": expectedVersion + 1
  };
  
  // Add each update to the expression
  Object.entries(updates).forEach(([attribute, value], index) => {
    updateExpressions.push(`${attribute} = :val${index}`);
    expressionAttributeValues[`:val${index}`] = value;
  });
  
  // Add the version update
  updateExpressions.push("version = :newVersion");
  
  // Define the update parameters with a condition expression
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${updateExpressions.join(", ")}`,
    ConditionExpression: "version = :expectedVersion",
    ExpressionAttributeValues: expressionAttributeValues,
    ReturnValues: "UPDATED_NEW"
  };
  
  try {
    // Perform the update operation
    const response = await docClient.send(new UpdateCommand(params));
    
    return {
      success: true,
      message: "Update succeeded with optimistic locking",
      newVersion: expectedVersion + 1,
      updatedAttributes: response.Attributes
    };
  } catch (error) {
    // Check if the error is due to the condition check failing
    if (error.name === "ConditionalCheckFailedException") {
      return {
        success: false,
        message: "Optimistic locking failed: the item was modified by another process",
        error: "ConditionalCheckFailedException"
      };
    }
    
    // Re-throw other errors
    throw error;
  }
}

/**
 * Implement a conditional write that creates an item only if it doesn't exist.
 * 
 * This function demonstrates how to use attribute_not_exists to create an item
 * only if it doesn't already exist (similar to an "INSERT IF NOT EXISTS" operation).
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} item - The item to create
 * @returns {Promise<Object>} - Result of the operation
 */
async function createIfNotExists(
  config,
  tableName,
  item
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Extract the primary key attributes
  const keyAttributes = Object.keys(item).filter(attr => 
    attr === "id" || attr === "ID" || attr === "Id" || 
    attr.endsWith("Id") || attr.endsWith("ID") || 
    attr.endsWith("Key")
  );
  
  if (keyAttributes.length === 0) {
    throw new Error("Could not determine primary key attributes");
  }
  
  // Create a condition expression that checks if the item doesn't exist
  const conditionExpression = `attribute_not_exists(${keyAttributes[0]})`;
  
  // Define the put parameters with a condition expression
  const params = {
    TableName: tableName,
    Item: item,
    ConditionExpression: conditionExpression
  };
  
  try {
    // Perform the put operation
    await docClient.send(new PutCommand(params));
    
    return {
      success: true,
      message: "Item was created because it didn't exist",
      item
    };
  } catch (error) {
    // Check if the error is due to the condition check failing
    if (error.name === "ConditionalCheckFailedException") {
      return {
        success: false,
        message: "Item already exists, creation was skipped",
        error: "ConditionalCheckFailedException"
      };
    }
    
    // Re-throw other errors
    throw error;
  }
}

/**
 * Get the current value of an item.
 * 
 * Helper function to retrieve the current value of an item.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to get
 * @returns {Promise<Object|null>} - The item or null if not found
 */
async function getItem(
  config,
  tableName,
  key
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the get parameters
  const params = {
    TableName: tableName,
    Key: key
  };
  
  // Perform the get operation
  const response = await docClient.send(new GetCommand(params));
  
  // Return the item if it exists, otherwise null
  return response.Item || null;
}
```
Contoh penggunaan operasi bersyarat dengan AWS SDK untuk JavaScript.  

```
/**
 * Example of how to use conditional operations.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "Products";
  const key = { ProductId: "P12345" };
  
  console.log("Demonstrating conditional operations in DynamoDB");
  
  try {
    // Example 1: Conditional update based on attribute value
    console.log("\nExample 1: Conditional update based on attribute value");
    const updateResult = await conditionalUpdate(
      config,
      tableName,
      key,
      "Category",
      "Electronics",
      "Price",
      299.99
    );
    
    console.log(`Result: ${updateResult.message}`);
    if (updateResult.success) {
      console.log("Updated attributes:", updateResult.updatedAttributes);
    }
    
    // Example 2: Conditional delete based on attribute value
    console.log("\nExample 2: Conditional delete based on attribute value");
    const deleteResult = await conditionalDelete(
      config,
      tableName,
      key,
      "InStock",
      false
    );
    
    console.log(`Result: ${deleteResult.message}`);
    if (deleteResult.success) {
      console.log("Deleted item:", deleteResult.deletedItem);
    }
    
    // Example 3: Optimistic locking with version number
    console.log("\nExample 3: Optimistic locking with version number");
    
    // First, get the current item to check its version
    const currentItem = await getItem(config, tableName, { ProductId: "P67890" });
    const currentVersion = currentItem ? (currentItem.version || 0) : 0;
    
    console.log(`Current version: ${currentVersion}`);
    
    // Then, update with optimistic locking
    const lockingResult = await updateWithOptimisticLocking(
      config,
      tableName,
      { ProductId: "P67890" },
      {
        Name: "Updated Product Name",
        Description: "This is an updated description"
      },
      currentVersion
    );
    
    console.log(`Result: ${lockingResult.message}`);
    if (lockingResult.success) {
      console.log(`New version: ${lockingResult.newVersion}`);
      console.log("Updated attributes:", lockingResult.updatedAttributes);
    }
    
    // Example 4: Create item only if it doesn't exist
    console.log("\nExample 4: Create item only if it doesn't exist");
    const createResult = await createIfNotExists(
      config,
      tableName,
      {
        ProductId: "P99999",
        Name: "New Product",
        Category: "Accessories",
        Price: 19.99,
        InStock: true
      }
    );
    
    console.log(`Result: ${createResult.message}`);
    if (createResult.success) {
      console.log("Created item:", createResult.item);
    }
    
    // Explain conditional operations
    console.log("\nKey points about conditional operations:");
    console.log("1. Conditional operations only succeed if the condition is met");
    console.log("2. ConditionalCheckFailedException indicates the condition wasn't met");
    console.log("3. Optimistic locking prevents race conditions in concurrent updates");
    console.log("4. attribute_exists and attribute_not_exists are useful for checking if attributes are present");
    console.log("5. Conditional operations are atomic - they either succeed completely or fail completely");
    console.log("6. You can use any valid comparison operators and functions in condition expressions");
    console.log("7. Conditional operations don't consume write capacity if the condition fails");
    
  } catch (error) {
    console.error("Error:", error);
  }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [DeleteItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/DeleteItemCommand)
  + [PutItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/PutItemCommand)
  + [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)

### Gunakan nama atribut ekspresi
<a name="dynamodb_Scenario_ExpressionAttributeNames_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan nama atribut ekspresi di DynamoDB.
+ Bekerja dengan kata-kata yang dicadangkan dalam ekspresi DynamoDB.
+ Gunakan placeholder nama atribut ekspresi.
+ Menangani karakter khusus dalam nama atribut.

**SDK untuk JavaScript (v3)**  
Menunjukkan nama atribut ekspresi menggunakan AWS SDK untuk JavaScript.  

```
const { DynamoDBClient } = require("@aws-sdk/client-dynamodb");
const { 
  DynamoDBDocumentClient, 
  UpdateCommand,
  GetCommand,
  QueryCommand,
  ScanCommand
} = require("@aws-sdk/lib-dynamodb");

/**
 * Update an attribute that is a reserved word in DynamoDB.
 * 
 * This function demonstrates how to use expression attribute names to update
 * attributes that are reserved words in DynamoDB.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} reservedWordAttribute - The reserved word attribute to update
 * @param {any} value - The value to set
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateReservedWordAttribute(
  config,
  tableName,
  key,
  reservedWordAttribute,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using expression attribute names
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: "SET #attr = :value",
    ExpressionAttributeNames: {
      "#attr": reservedWordAttribute
    },
    ExpressionAttributeValues: {
      ":value": value
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Update an attribute that contains special characters.
 * 
 * This function demonstrates how to use expression attribute names to update
 * attributes that contain special characters.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string} specialCharAttribute - The attribute with special characters to update
 * @param {any} value - The value to set
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateSpecialCharacterAttribute(
  config,
  tableName,
  key,
  specialCharAttribute,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the update parameters using expression attribute names
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: "SET #attr = :value",
    ExpressionAttributeNames: {
      "#attr": specialCharAttribute
    },
    ExpressionAttributeValues: {
      ":value": value
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Query items using an attribute that is a reserved word.
 * 
 * This function demonstrates how to use expression attribute names in a query
 * when the attribute is a reserved word.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {string} partitionKeyName - The name of the partition key attribute
 * @param {any} partitionKeyValue - The value of the partition key
 * @param {string} reservedWordAttribute - The reserved word attribute to filter on
 * @param {any} value - The value to compare against
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function queryWithReservedWordAttribute(
  config,
  tableName,
  partitionKeyName,
  partitionKeyValue,
  reservedWordAttribute,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the query parameters using expression attribute names
  const params = {
    TableName: tableName,
    KeyConditionExpression: "#pkName = :pkValue",
    FilterExpression: "#attr = :value",
    ExpressionAttributeNames: {
      "#pkName": partitionKeyName,
      "#attr": reservedWordAttribute
    },
    ExpressionAttributeValues: {
      ":pkValue": partitionKeyValue,
      ":value": value
    }
  };
  
  // Perform the query operation
  const response = await docClient.send(new QueryCommand(params));
  
  return response;
}

/**
 * Update a nested attribute with a path that contains reserved words.
 * 
 * This function demonstrates how to use expression attribute names to update
 * nested attributes where the path contains reserved words.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to update
 * @param {string[]} attributePath - The path to the nested attribute as an array
 * @param {any} value - The value to set
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function updateNestedReservedWordAttribute(
  config,
  tableName,
  key,
  attributePath,
  value
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Create expression attribute names for each part of the path
  const expressionAttributeNames = {};
  for (let i = 0; i < attributePath.length; i++) {
    expressionAttributeNames[`#attr${i}`] = attributePath[i];
  }
  
  // Build the attribute path using the expression attribute names
  const attributePathExpression = attributePath
    .map((_, i) => `#attr${i}`)
    .join(".");
  
  // Define the update parameters
  const params = {
    TableName: tableName,
    Key: key,
    UpdateExpression: `SET ${attributePathExpression} = :value`,
    ExpressionAttributeNames: expressionAttributeNames,
    ExpressionAttributeValues: {
      ":value": value
    },
    ReturnValues: "UPDATED_NEW"
  };
  
  // Perform the update operation
  const response = await docClient.send(new UpdateCommand(params));
  
  return response;
}

/**
 * Scan a table with multiple attribute name placeholders.
 * 
 * This function demonstrates how to use multiple expression attribute names
 * in a complex filter expression.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} filters - Object mapping attribute names to filter values
 * @returns {Promise<Object>} - The response from DynamoDB
 */
async function scanWithMultipleAttributeNames(
  config,
  tableName,
  filters
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Create expression attribute names and values
  const expressionAttributeNames = {};
  const expressionAttributeValues = {};
  const filterConditions = [];
  
  // Build the filter expression
  Object.entries(filters).forEach(([attrName, value], index) => {
    const nameKey = `#attr${index}`;
    const valueKey = `:val${index}`;
    
    expressionAttributeNames[nameKey] = attrName;
    expressionAttributeValues[valueKey] = value;
    filterConditions.push(`${nameKey} = ${valueKey}`);
  });
  
  // Join the filter conditions with AND
  const filterExpression = filterConditions.join(" AND ");
  
  // Define the scan parameters
  const params = {
    TableName: tableName,
    FilterExpression: filterExpression,
    ExpressionAttributeNames: expressionAttributeNames,
    ExpressionAttributeValues: expressionAttributeValues
  };
  
  // Perform the scan operation
  const response = await docClient.send(new ScanCommand(params));
  
  return response;
}

/**
 * Get the current value of an item.
 * 
 * Helper function to retrieve the current value of an item.
 * 
 * @param {Object} config - AWS configuration object
 * @param {string} tableName - The name of the DynamoDB table
 * @param {Object} key - The key of the item to get
 * @returns {Promise<Object|null>} - The item or null if not found
 */
async function getItem(
  config,
  tableName,
  key
) {
  // Initialize the DynamoDB client
  const client = new DynamoDBClient(config);
  const docClient = DynamoDBDocumentClient.from(client);
  
  // Define the get parameters
  const params = {
    TableName: tableName,
    Key: key
  };
  
  // Perform the get operation
  const response = await docClient.send(new GetCommand(params));
  
  // Return the item if it exists, otherwise null
  return response.Item || null;
}
```
Contoh penggunaan nama atribut ekspresi dengan AWS SDK untuk JavaScript.  

```
/**
 * Example of how to use expression attribute names.
 */
async function exampleUsage() {
  // Example parameters
  const config = { region: "us-west-2" };
  const tableName = "Products";
  const key = { ProductId: "P12345" };
  
  console.log("Demonstrating expression attribute names in DynamoDB");
  
  try {
    // Example 1: Update an attribute that is a reserved word
    console.log("\nExample 1: Updating an attribute that is a reserved word");
    const response1 = await updateReservedWordAttribute(
      config,
      tableName,
      key,
      "Size", // "SIZE" is a reserved word in DynamoDB
      "Large"
    );
    
    console.log("Updated attribute:", response1.Attributes);
    
    // Example 2: Update an attribute with special characters
    console.log("\nExample 2: Updating an attribute with special characters");
    const response2 = await updateSpecialCharacterAttribute(
      config,
      tableName,
      key,
      "Product-Type", // Contains a hyphen, which is a special character
      "Electronics"
    );
    
    console.log("Updated attribute:", response2.Attributes);
    
    // Example 3: Query with a reserved word attribute
    console.log("\nExample 3: Querying with a reserved word attribute");
    const response3 = await queryWithReservedWordAttribute(
      config,
      tableName,
      "Category",
      "Electronics",
      "Count", // "COUNT" is a reserved word in DynamoDB
      10
    );
    
    console.log(`Found ${response3.Items.length} items`);
    
    // Example 4: Update a nested attribute with reserved words in the path
    console.log("\nExample 4: Updating a nested attribute with reserved words in the path");
    const response4 = await updateNestedReservedWordAttribute(
      config,
      tableName,
      key,
      ["Dimensions", "Size", "Height"], // "SIZE" is a reserved word
      30
    );
    
    console.log("Updated nested attribute:", response4.Attributes);
    
    // Example 5: Scan with multiple attribute name placeholders
    console.log("\nExample 5: Scanning with multiple attribute name placeholders");
    const response5 = await scanWithMultipleAttributeNames(
      config,
      tableName,
      {
        "Size": "Large",
        "Count": 10,
        "Product-Type": "Electronics"
      }
    );
    
    console.log(`Found ${response5.Items.length} items`);
    
    // Get the final state of the item
    console.log("\nFinal state of the item:");
    const item = await getItem(config, tableName, key);
    console.log(JSON.stringify(item, null, 2));
    
    // Show some common reserved words
    console.log("\nSome common DynamoDB reserved words:");
    const commonReservedWords = [
      "ABORT", "ABSOLUTE", "ACTION", "ADD", "ALL", "ALTER", "AND", "ANY", "AS",
      "ASC", "BETWEEN", "BY", "CASE", "CAST", "COLUMN", "CONNECT", "COUNT",
      "CREATE", "CURRENT", "DATE", "DELETE", "DESC", "DROP", "ELSE", "EXISTS",
      "FOR", "FROM", "GRANT", "GROUP", "HAVING", "IN", "INDEX", "INSERT", "INTO",
      "IS", "JOIN", "KEY", "LEVEL", "LIKE", "LIMIT", "LOCAL", "MAX", "MIN", "NAME",
      "NOT", "NULL", "OF", "ON", "OR", "ORDER", "OUTER", "REPLACE", "RETURN",
      "SELECT", "SET", "SIZE", "TABLE", "THEN", "TO", "UPDATE", "USER", "VALUES",
      "VIEW", "WHERE"
    ];
    console.log(commonReservedWords.join(", "));
    
    // Explain expression attribute names
    console.log("\nKey points about expression attribute names:");
    console.log("1. Use expression attribute names (#name) for reserved words");
    console.log("2. Use expression attribute names for attributes with special characters");
    console.log("3. Special characters include: spaces, hyphens, dots, and other non-alphanumeric characters");
    console.log("4. Expression attribute names are required for nested attributes with reserved words");
    console.log("5. You can use multiple expression attribute names in a single expression");
    console.log("6. Expression attribute names are case-sensitive");
    console.log("7. Expression attribute names are only used in expressions, not in the actual data");
    
  } catch (error) {
    console.error("Error:", error);
  }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [Kueri](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/QueryCommand)
  + [UpdateItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/dynamodb/command/UpdateItemCommand)

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda dengan menggunakan API runtime JavaScript Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-scheduled-events).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/scheduled-events-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil muatan DynamoDB dan mencatat isi catatan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan. JavaScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
    console.log(JSON.stringify(event, null, 2));
    event.Records.forEach(record => {
        logDynamoDBRecord(record);
    });
};

const logDynamoDBRecord = (record) => {
    console.log(record.eventID);
    console.log(record.eventName);
    console.log(`DynamoDB Record: ${JSON.stringify(record.dynamodb)}`);
};
```
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan. TypeScript  

```
export const handler = async (event, context) => {
    console.log(JSON.stringify(event, null, 2));
    event.Records.forEach(record => {
        logDynamoDBRecord(record);
    });
}
const logDynamoDBRecord = (record) => {
    console.log(record.eventID);
    console.log(record.eventName);
    console.log(`DynamoDB Record: ${JSON.stringify(record.dynamodb)}`);
};
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan penggunaan Lambda. JavaScript  

```
export const handler = async (event) => {
  const records = event.Records;
  let curRecordSequenceNumber = "";

  for (const record of records) {
    try {
      // Process your record
      curRecordSequenceNumber = record.dynamodb.SequenceNumber;
    } catch (e) {
      // Return failed record's sequence number
      return { batchItemFailures: [{ itemIdentifier: curRecordSequenceNumber }] };
    }
  }

  return { batchItemFailures: [] };
};
```
Melaporkan kegagalan item batch DynamoDB dengan penggunaan Lambda. TypeScript  

```
import {
  DynamoDBBatchResponse,
  DynamoDBBatchItemFailure,
  DynamoDBStreamEvent,
} from "aws-lambda";

export const handler = async (
  event: DynamoDBStreamEvent
): Promise<DynamoDBBatchResponse> => {
  const batchItemFailures: DynamoDBBatchItemFailure[] = [];
  let curRecordSequenceNumber;

  for (const record of event.Records) {
    curRecordSequenceNumber = record.dynamodb?.SequenceNumber;

    if (curRecordSequenceNumber) {
      batchItemFailures.push({
        itemIdentifier: curRecordSequenceNumber,
      });
    }
  }

  return { batchItemFailures: batchItemFailures };
};
```

# Contoh Amazon EC2 menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon EC2.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { DescribeSecurityGroupsCommand, EC2Client } from "@aws-sdk/client-ec2";

// Call DescribeSecurityGroups and display the result.
export const main = async () => {
  const client = new EC2Client();
  try {
    const { SecurityGroups } = await client.send(
      new DescribeSecurityGroupsCommand({}),
    );

    const securityGroupList = SecurityGroups.slice(0, 9)
      .map((sg) => ` • ${sg.GroupId}: ${sg.GroupName}`)
      .join("\n");

    console.log(
      "Hello, Amazon EC2! Let's list up to 10 of your security groups:",
    );
    console.log(securityGroupList);
  } catch (err) {
    console.error(err);
  }
};

// Call function if run directly.
import { fileURLToPath } from "node:url";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  main();
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSecurityGroupsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ec2_Scenario_GetStartedInstances_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat pasangan kunci dan grup keamanan.
+ Memilih Amazon Machine Image (AMI) dan tipe instans yang kompatibel, lalu membuat instans.
+ Menghentikan dan memulai ulang instans.
+ Kaitkan alamat IP Elastis dengan instans Anda.
+ Menghubungkan instans Anda dengan SSH, lalu membersihkan sumber daya.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 
File ini berisi daftar tindakan umum yang digunakan dengan EC2. Langkah-langkah dibangun dengan kerangka Skenario yang menyederhanakan menjalankan contoh interaktif. Untuk konteks lengkap, kunjungi GitHub repositori.   

```
import { tmpdir } from "node:os";
import { writeFile, mkdtemp, rm } from "node:fs/promises";
import { join } from "node:path";
import { get } from "node:http";

import {
  AllocateAddressCommand,
  AssociateAddressCommand,
  AuthorizeSecurityGroupIngressCommand,
  CreateKeyPairCommand,
  CreateSecurityGroupCommand,
  DeleteKeyPairCommand,
  DeleteSecurityGroupCommand,
  DisassociateAddressCommand,
  paginateDescribeImages,
  paginateDescribeInstances,
  paginateDescribeInstanceTypes,
  ReleaseAddressCommand,
  RunInstancesCommand,
  StartInstancesCommand,
  StopInstancesCommand,
  TerminateInstancesCommand,
  waitUntilInstanceStatusOk,
  waitUntilInstanceStopped,
  waitUntilInstanceTerminated,
} from "@aws-sdk/client-ec2";

import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

import { paginateGetParametersByPath, SSMClient } from "@aws-sdk/client-ssm";

/**
 * @typedef {{
 *   ec2Client: import('@aws-sdk/client-ec2').EC2Client,
 *   errors: Error[],
 *   keyPairId?: string,
 *   tmpDirectory?: string,
 *   securityGroupId?: string,
 *   ipAddress?: string,
 *   images?: import('@aws-sdk/client-ec2').Image[],
 *   image?: import('@aws-sdk/client-ec2').Image,
 *   instanceTypes?: import('@aws-sdk/client-ec2').InstanceTypeInfo[],
 *   instanceId?: string,
 *   instanceIpAddress?: string,
 *   allocationId?: string,
 *   allocatedIpAddress?: string,
 *   associationId?: string,
 * }} State
 */

/**
 * A skip function provided to the `skipWhen` of a Step when you want
 * to ignore that step if any errors have occurred.
 * @param {State} state
 */
const skipWhenErrors = (state) => state.errors.length > 0;

const MAX_WAITER_TIME_IN_SECONDS = 60 * 8;

export const confirm = new ScenarioInput("confirmContinue", "Continue?", {
  type: "confirm",
  skipWhen: skipWhenErrors,
});

export const exitOnNoConfirm = new ScenarioAction(
  "exitOnConfirmContinueFalse",
  (/** @type { { earlyExit: boolean } & Record<string, any>} */ state) => {
    if (!state[confirm.name]) {
      state.earlyExit = true;
    }
  },
  {
    skipWhen: skipWhenErrors,
  },
);

export const greeting = new ScenarioOutput(
  "greeting",
  `

Welcome to the Amazon EC2 basic usage scenario.

Before you launch an instances, you'll need to provide a few things:
 - A key pair - This is for SSH access to your EC2 instance. You only need to provide the name.
 - A security group - This is used for configuring access to your instance. Again, only the name is needed.
 - An IP address - Your public IP address will be fetched.
 - An Amazon Machine Image (AMI)
 - A compatible instance type`,
  { header: true, preformatted: true, skipWhen: skipWhenErrors },
);

export const provideKeyPairName = new ScenarioInput(
  "keyPairName",
  "Provide a name for a new key pair.",
  { type: "input", default: "ec2-example-key-pair", skipWhen: skipWhenErrors },
);

export const createKeyPair = new ScenarioAction(
  "createKeyPair",
  async (/** @type {State} */ state) => {
    try {
      // Create a key pair in Amazon EC2.
      const { KeyMaterial, KeyPairId } = await state.ec2Client.send(
        // A unique name for the key pair. Up to 255 ASCII characters.
        new CreateKeyPairCommand({ KeyName: state[provideKeyPairName.name] }),
      );

      state.keyPairId = KeyPairId;

      // Save the private key in a temporary location.
      state.tmpDirectory = await mkdtemp(join(tmpdir(), "ec2-scenario-tmp"));
      await writeFile(
        `${state.tmpDirectory}/${state[provideKeyPairName.name]}.pem`,
        KeyMaterial,
        {
          mode: 0o400,
        },
      );
    } catch (caught) {
      if (
        caught instanceof Error &&
        caught.name === "InvalidKeyPair.Duplicate"
      ) {
        caught.message = `${caught.message}. Try another key name.`;
      }

      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const logKeyPair = new ScenarioOutput(
  "logKeyPair",
  (/** @type {State} */ state) =>
    `Created the key pair ${state[provideKeyPairName.name]}.`,
  { skipWhen: skipWhenErrors },
);

export const confirmDeleteKeyPair = new ScenarioInput(
  "confirmDeleteKeyPair",
  "Do you want to delete the key pair?",
  {
    type: "confirm",
    // Don't do anything when a key pair was never created.
    skipWhen: (/** @type {State} */ state) => !state.keyPairId,
  },
);

export const maybeDeleteKeyPair = new ScenarioAction(
  "deleteKeyPair",
  async (/** @type {State} */ state) => {
    try {
      // Delete a key pair by name from EC2
      await state.ec2Client.send(
        new DeleteKeyPairCommand({ KeyName: state[provideKeyPairName.name] }),
      );
    } catch (caught) {
      if (
        caught instanceof Error &&
        // Occurs when a required parameter (e.g. KeyName) is undefined.
        caught.name === "MissingParameter"
      ) {
        caught.message = `${caught.message}. Did you provide the required value?`;
      }
      state.errors.push(caught);
    }
  },
  {
    // Don't do anything when there's no key pair to delete or the user chooses
    // to keep it.
    skipWhen: (/** @type {State} */ state) =>
      !state.keyPairId || !state[confirmDeleteKeyPair.name],
  },
);

export const provideSecurityGroupName = new ScenarioInput(
  "securityGroupName",
  "Provide a name for a new security group.",
  { type: "input", default: "ec2-scenario-sg", skipWhen: skipWhenErrors },
);

export const createSecurityGroup = new ScenarioAction(
  "createSecurityGroup",
  async (/** @type {State} */ state) => {
    try {
      // Create a new security group that will be used to configure ingress/egress for
      // an EC2 instance.
      const { GroupId } = await state.ec2Client.send(
        new CreateSecurityGroupCommand({
          GroupName: state[provideSecurityGroupName.name],
          Description: "A security group for the Amazon EC2 example.",
        }),
      );
      state.securityGroupId = GroupId;
    } catch (caught) {
      if (caught instanceof Error && caught.name === "InvalidGroup.Duplicate") {
        caught.message = `${caught.message}. Please provide a different name for your security group.`;
      }

      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const logSecurityGroup = new ScenarioOutput(
  "logSecurityGroup",
  (/** @type {State} */ state) =>
    `Created the security group ${state.securityGroupId}.`,
  { skipWhen: skipWhenErrors },
);

export const confirmDeleteSecurityGroup = new ScenarioInput(
  "confirmDeleteSecurityGroup",
  "Do you want to delete the security group?",
  {
    type: "confirm",
    // Don't do anything when a security group was never created.
    skipWhen: (/** @type {State} */ state) => !state.securityGroupId,
  },
);

export const maybeDeleteSecurityGroup = new ScenarioAction(
  "deleteSecurityGroup",
  async (/** @type {State} */ state) => {
    try {
      // Delete the security group if the 'skipWhen' condition below is not met.
      await state.ec2Client.send(
        new DeleteSecurityGroupCommand({
          GroupId: state.securityGroupId,
        }),
      );
    } catch (caught) {
      if (
        caught instanceof Error &&
        caught.name === "InvalidGroupId.Malformed"
      ) {
        caught.message = `${caught.message}. Please provide a valid GroupId.`;
      }
      state.errors.push(caught);
    }
  },
  {
    // Don't do anything when there's no security group to delete
    // or the user chooses to keep it.
    skipWhen: (/** @type {State} */ state) =>
      !state.securityGroupId || !state[confirmDeleteSecurityGroup.name],
  },
);

export const authorizeSecurityGroupIngress = new ScenarioAction(
  "authorizeSecurity",
  async (/** @type {State} */ state) => {
    try {
      // Get the public IP address of the machine running this example.
      const ipAddress = await new Promise((res, rej) => {
        get("http://checkip.amazonaws.com", (response) => {
          let data = "";
          response.on("data", (chunk) => {
            data += chunk;
          });
          response.on("end", () => res(data.trim()));
        }).on("error", (err) => {
          rej(err);
        });
      });
      state.ipAddress = ipAddress;
      // Allow ingress from the IP address above to the security group.
      // This will allow you to SSH into the EC2 instance.
      const command = new AuthorizeSecurityGroupIngressCommand({
        GroupId: state.securityGroupId,
        IpPermissions: [
          {
            IpProtocol: "tcp",
            FromPort: 22,
            ToPort: 22,
            IpRanges: [{ CidrIp: `${ipAddress}/32` }],
          },
        ],
      });

      await state.ec2Client.send(command);
    } catch (caught) {
      if (
        caught instanceof Error &&
        caught.name === "InvalidGroupId.Malformed"
      ) {
        caught.message = `${caught.message}. Please provide a valid GroupId.`;
      }

      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const logSecurityGroupIngress = new ScenarioOutput(
  "logSecurityGroupIngress",
  (/** @type {State} */ state) =>
    `Allowed SSH access from your public IP: ${state.ipAddress}.`,
  { skipWhen: skipWhenErrors },
);

export const getImages = new ScenarioAction(
  "images",
  async (/** @type {State} */ state) => {
    const AMIs = [];
    // Some AWS services publish information about common artifacts as AWS Systems Manager (SSM)
    // public parameters. For example, the Amazon Elastic Compute Cloud (Amazon EC2)
    // service publishes information about Amazon Machine Images (AMIs) as public parameters.

    // Create the paginator for getting images. Actions that return multiple pages of
    // results have paginators to simplify those calls.
    const getParametersByPathPaginator = paginateGetParametersByPath(
      {
        // Not storing this client in state since it's only used once.
        client: new SSMClient({}),
      },
      {
        // The path to the public list of the latest amazon-linux instances.
        Path: "/aws/service/ami-amazon-linux-latest",
      },
    );

    try {
      for await (const page of getParametersByPathPaginator) {
        for (const param of page.Parameters) {
          // Filter by Amazon Linux 2
          if (param.Name.includes("amzn2")) {
            AMIs.push(param.Value);
          }
        }
      }
    } catch (caught) {
      if (caught instanceof Error && caught.name === "InvalidFilterValue") {
        caught.message = `${caught.message} Please provide a valid filter value for paginateGetParametersByPath.`;
      }
      state.errors.push(caught);
      return;
    }

    const imageDetails = [];
    const describeImagesPaginator = paginateDescribeImages(
      { client: state.ec2Client },
      // The images found from the call to SSM.
      { ImageIds: AMIs },
    );

    try {
      // Get more details for the images found above.
      for await (const page of describeImagesPaginator) {
        imageDetails.push(...(page.Images || []));
      }

      // Store the image details for later use.
      state.images = imageDetails;
    } catch (caught) {
      if (caught instanceof Error && caught.name === "InvalidAMIID.NotFound") {
        caught.message = `${caught.message}. Please provide a valid image id.`;
      }

      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const provideImage = new ScenarioInput(
  "image",
  "Select one of the following images.",
  {
    type: "select",
    choices: (/** @type { State } */ state) =>
      state.images.map((image) => ({
        name: `${image.Description}`,
        value: image,
      })),
    default: (/** @type { State } */ state) => state.images[0],
    skipWhen: skipWhenErrors,
  },
);

export const getCompatibleInstanceTypes = new ScenarioAction(
  "getCompatibleInstanceTypes",
  async (/** @type {State} */ state) => {
    // Get more details about instance types that match the architecture of
    // the provided image.
    const paginator = paginateDescribeInstanceTypes(
      { client: state.ec2Client, pageSize: 25 },
      {
        Filters: [
          {
            Name: "processor-info.supported-architecture",
            // The value selected from provideImage()
            Values: [state.image.Architecture],
          },
          // Filter for smaller, less expensive, types.
          { Name: "instance-type", Values: ["*.micro", "*.small"] },
        ],
      },
    );

    const instanceTypes = [];

    try {
      for await (const page of paginator) {
        if (page.InstanceTypes.length) {
          instanceTypes.push(...(page.InstanceTypes || []));
        }
      }

      if (!instanceTypes.length) {
        state.errors.push(
          "No instance types matched the instance type filters.",
        );
      }
    } catch (caught) {
      if (caught instanceof Error && caught.name === "InvalidParameterValue") {
        caught.message = `${caught.message}. Please check the provided values and try again.`;
      }

      state.errors.push(caught);
    }

    state.instanceTypes = instanceTypes;
  },
  { skipWhen: skipWhenErrors },
);

export const provideInstanceType = new ScenarioInput(
  "instanceType",
  "Select an instance type.",
  {
    choices: (/** @type {State} */ state) =>
      state.instanceTypes.map((instanceType) => ({
        name: `${instanceType.InstanceType} - Memory:${instanceType.MemoryInfo.SizeInMiB}`,
        value: instanceType.InstanceType,
      })),
    type: "select",
    default: (/** @type {State} */ state) =>
      state.instanceTypes[0].InstanceType,
    skipWhen: skipWhenErrors,
  },
);

export const runInstance = new ScenarioAction(
  "runInstance",
  async (/** @type { State } */ state) => {
    const { Instances } = await state.ec2Client.send(
      new RunInstancesCommand({
        KeyName: state[provideKeyPairName.name],
        SecurityGroupIds: [state.securityGroupId],
        ImageId: state.image.ImageId,
        InstanceType: state[provideInstanceType.name],
        // Availability Zones have capacity limitations that may impact your ability to launch instances.
        // The `RunInstances` operation will only succeed if it can allocate at least the `MinCount` of instances.
        // However, EC2 will attempt to launch up to the `MaxCount` of instances, even if the full request cannot be satisfied.
        // If you need a specific number of instances, use `MinCount` and `MaxCount` set to the same value.
        // If you want to launch up to a certain number of instances, use `MaxCount` and let EC2 provision as many as possible.
        // If you require a minimum number of instances, but do not want to exceed a maximum, use both `MinCount` and `MaxCount`.
        MinCount: 1,
        MaxCount: 1,
      }),
    );

    state.instanceId = Instances[0].InstanceId;

    try {
      // Poll `DescribeInstanceStatus` until status is "ok".
      await waitUntilInstanceStatusOk(
        {
          client: state.ec2Client,
          maxWaitTime: MAX_WAITER_TIME_IN_SECONDS,
        },
        { InstanceIds: [Instances[0].InstanceId] },
      );
    } catch (caught) {
      if (caught instanceof Error && caught.name === "TimeoutError") {
        caught.message = `${caught.message}. Try increasing the maxWaitTime in the waiter.`;
      }

      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const logRunInstance = new ScenarioOutput(
  "logRunInstance",
  "The next step is to run your EC2 instance for the first time. This can take a few minutes.",
  { header: true, skipWhen: skipWhenErrors },
);

export const describeInstance = new ScenarioAction(
  "describeInstance",
  async (/** @type { State } */ state) => {
    /** @type { import("@aws-sdk/client-ec2").Instance[] } */
    const instances = [];

    try {
      const paginator = paginateDescribeInstances(
        {
          client: state.ec2Client,
        },
        {
          // Only get our created instance.
          InstanceIds: [state.instanceId],
        },
      );

      for await (const page of paginator) {
        for (const reservation of page.Reservations) {
          instances.push(...reservation.Instances);
        }
      }
      if (instances.length !== 1) {
        throw new Error(`Instance ${state.instanceId} not found.`);
      }

      // The only info we need is the IP address for SSH purposes.
      state.instanceIpAddress = instances[0].PublicIpAddress;
    } catch (caught) {
      if (caught instanceof Error && caught.name === "InvalidParameterValue") {
        caught.message = `${caught.message}. Please check provided values and try again.`;
      }

      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const logSSHConnectionInfo = new ScenarioOutput(
  "logSSHConnectionInfo",
  (/** @type { State } */ state) =>
    `You can now SSH into your instance using the following command:
ssh -i ${state.tmpDirectory}/${state[provideKeyPairName.name]}.pem ec2-user@${state.instanceIpAddress}`,
  { preformatted: true, skipWhen: skipWhenErrors },
);

export const logStopInstance = new ScenarioOutput(
  "logStopInstance",
  "Stopping your EC2 instance.",
  { skipWhen: skipWhenErrors },
);

export const stopInstance = new ScenarioAction(
  "stopInstance",
  async (/** @type { State } */ state) => {
    try {
      await state.ec2Client.send(
        new StopInstancesCommand({
          InstanceIds: [state.instanceId],
        }),
      );

      await waitUntilInstanceStopped(
        {
          client: state.ec2Client,
          maxWaitTime: MAX_WAITER_TIME_IN_SECONDS,
        },
        { InstanceIds: [state.instanceId] },
      );
    } catch (caught) {
      if (caught instanceof Error && caught.name === "TimeoutError") {
        caught.message = `${caught.message}. Try increasing the maxWaitTime in the waiter.`;
      }

      state.errors.push(caught);
    }
  },
  // Don't try to stop an instance that doesn't exist.
  { skipWhen: (/** @type { State } */ state) => !state.instanceId },
);

export const logIpAddressBehavior = new ScenarioOutput(
  "logIpAddressBehavior",
  [
    "When you run an instance, by default it's assigned an IP address.",
    "That IP address is not static. It will change every time the instance is restarted.",
    "The next step is to stop and restart your instance to demonstrate this behavior.",
  ].join(" "),
  { header: true, skipWhen: skipWhenErrors },
);

export const logStartInstance = new ScenarioOutput(
  "logStartInstance",
  (/** @type { State } */ state) => `Starting instance ${state.instanceId}`,
  { skipWhen: skipWhenErrors },
);

export const startInstance = new ScenarioAction(
  "startInstance",
  async (/** @type { State } */ state) => {
    try {
      await state.ec2Client.send(
        new StartInstancesCommand({
          InstanceIds: [state.instanceId],
        }),
      );

      await waitUntilInstanceStatusOk(
        {
          client: state.ec2Client,
          maxWaitTime: MAX_WAITER_TIME_IN_SECONDS,
        },
        { InstanceIds: [state.instanceId] },
      );
    } catch (caught) {
      if (caught instanceof Error && caught.name === "TimeoutError") {
        caught.message = `${caught.message}. Try increasing the maxWaitTime in the waiter.`;
      }

      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const logIpAllocation = new ScenarioOutput(
  "logIpAllocation",
  [
    "It is possible to have a static IP address.",
    "To demonstrate this, an IP will be allocated and associated to your EC2 instance.",
  ].join(" "),
  { header: true, skipWhen: skipWhenErrors },
);

export const allocateIp = new ScenarioAction(
  "allocateIp",
  async (/** @type { State } */ state) => {
    try {
      // An Elastic IP address is allocated to your AWS account, and is yours until you release it.
      const { AllocationId, PublicIp } = await state.ec2Client.send(
        new AllocateAddressCommand({}),
      );
      state.allocationId = AllocationId;
      state.allocatedIpAddress = PublicIp;
    } catch (caught) {
      if (caught instanceof Error && caught.name === "MissingParameter") {
        caught.message = `${caught.message}. Did you provide these values?`;
      }
      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const associateIp = new ScenarioAction(
  "associateIp",
  async (/** @type { State } */ state) => {
    try {
      // Associate an allocated IP address to an EC2 instance. An IP address can be allocated
      // with the AllocateAddress action.
      const { AssociationId } = await state.ec2Client.send(
        new AssociateAddressCommand({
          AllocationId: state.allocationId,
          InstanceId: state.instanceId,
        }),
      );
      state.associationId = AssociationId;
      // Update the IP address that is being tracked to match
      // the one just associated.
      state.instanceIpAddress = state.allocatedIpAddress;
    } catch (caught) {
      if (
        caught instanceof Error &&
        caught.name === "InvalidAllocationID.NotFound"
      ) {
        caught.message = `${caught.message}. Did you provide the ID of a valid Elastic IP address AllocationId?`;
      }
      state.errors.push(caught);
    }
  },
  { skipWhen: skipWhenErrors },
);

export const logStaticIpProof = new ScenarioOutput(
  "logStaticIpProof",
  "The IP address should remain the same even after stopping and starting the instance.",
  { header: true, skipWhen: skipWhenErrors },
);

export const logCleanUp = new ScenarioOutput(
  "logCleanUp",
  "That's it! You can choose to clean up the resources now, or clean them up on your own later.",
  { header: true, skipWhen: skipWhenErrors },
);

export const confirmDisassociateAddress = new ScenarioInput(
  "confirmDisassociateAddress",
  "Do you want to disassociate and release the static IP address created earlier?",
  {
    type: "confirm",
    skipWhen: (/** @type { State } */ state) => !state.associationId,
  },
);

export const maybeDisassociateAddress = new ScenarioAction(
  "maybeDisassociateAddress",
  async (/** @type { State } */ state) => {
    try {
      await state.ec2Client.send(
        new DisassociateAddressCommand({
          AssociationId: state.associationId,
        }),
      );
    } catch (caught) {
      if (
        caught instanceof Error &&
        caught.name === "InvalidAssociationID.NotFound"
      ) {
        caught.message = `${caught.message}. Please provide a valid association ID.`;
      }
      state.errors.push(caught);
    }
  },
  {
    skipWhen: (/** @type { State } */ state) =>
      !state[confirmDisassociateAddress.name] || !state.associationId,
  },
);

export const maybeReleaseAddress = new ScenarioAction(
  "maybeReleaseAddress",
  async (/** @type { State } */ state) => {
    try {
      await state.ec2Client.send(
        new ReleaseAddressCommand({
          AllocationId: state.allocationId,
        }),
      );
    } catch (caught) {
      if (
        caught instanceof Error &&
        caught.name === "InvalidAllocationID.NotFound"
      ) {
        caught.message = `${caught.message}. Please provide a valid AllocationID.`;
      }
      state.errors.push(caught);
    }
  },
  {
    skipWhen: (/** @type { State } */ state) =>
      !state[confirmDisassociateAddress.name] || !state.allocationId,
  },
);

export const confirmTerminateInstance = new ScenarioInput(
  "confirmTerminateInstance",
  "Do you want to terminate the instance?",
  // Don't do anything when an instance was never run.
  {
    skipWhen: (/** @type { State } */ state) => !state.instanceId,
    type: "confirm",
  },
);

export const maybeTerminateInstance = new ScenarioAction(
  "terminateInstance",
  async (/** @type { State } */ state) => {
    try {
      await state.ec2Client.send(
        new TerminateInstancesCommand({
          InstanceIds: [state.instanceId],
        }),
      );
      await waitUntilInstanceTerminated(
        { client: state.ec2Client },
        { InstanceIds: [state.instanceId] },
      );
    } catch (caught) {
      if (caught instanceof Error && caught.name === "TimeoutError") {
        caught.message = `${caught.message}. Try increasing the maxWaitTime in the waiter.`;
      }

      state.errors.push(caught);
    }
  },
  {
    // Don't do anything when there's no instance to terminate or the
    // use chooses not to terminate.
    skipWhen: (/** @type { State } */ state) =>
      !state.instanceId || !state[confirmTerminateInstance.name],
  },
);

export const deleteTemporaryDirectory = new ScenarioAction(
  "deleteTemporaryDirectory",
  async (/** @type { State } */ state) => {
    try {
      await rm(state.tmpDirectory, { recursive: true });
    } catch (caught) {
      state.errors.push(caught);
    }
  },
);

export const logErrors = new ScenarioOutput(
  "logErrors",
  (/** @type {State}*/ state) => {
    const errorList = state.errors
      .map((err) => ` - ${err.name}: ${err.message}`)
      .join("\n");
    return `Scenario errors found:\n${errorList}`;
  },
  {
    preformatted: true,
    header: true,
    // Don't log errors when there aren't any!
    skipWhen: (/** @type {State} */ state) => state.errors.length === 0,
  },
);
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [AllocateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AllocateAddressCommand)
  + [AssociateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AssociateAddressCommand)
  + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AuthorizeSecurityGroupIngressCommand)
  + [CreateKeyPair](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateKeyPairCommand)
  + [CreateSecurityGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateSecurityGroupCommand)
  + [DeleteKeyPair](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteKeyPairCommand)
  + [DeleteSecurityGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteSecurityGroupCommand)
  + [DescribeImages](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeImagesCommand)
  + [DescribeInstanceTypes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstanceTypesCommand)
  + [DescribeInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstancesCommand)
  + [DescribeKeyPairs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeKeyPairsCommand)
  + [DescribeSecurityGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSecurityGroupsCommand)
  + [DisassociateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DisassociateAddressCommand)
  + [ReleaseAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReleaseAddressCommand)
  + [RunInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RunInstancesCommand)
  + [StartInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/StartInstancesCommand)
  + [StopInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/StopInstancesCommand)
  + [TerminateInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/TerminateInstancesCommand)
  + [UnmonitorInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/UnmonitorInstancesCommand)

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { AllocateAddressCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Allocates an Elastic IP address to your AWS account.
 */
export const main = async () => {
  const client = new EC2Client({});
  const command = new AllocateAddressCommand({});

  try {
    const { AllocationId, PublicIp } = await client.send(command);
    console.log("A new IP address has been allocated to your account:");
    console.log(`ID: ${AllocationId} Public IP: ${PublicIp}`);
    console.log(
      "You can view your IP addresses in the AWS Management Console for Amazon EC2. Look under Network & Security > Elastic IPs",
    );
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MissingParameter") {
      console.warn(`${caught.message}. Did you provide these values?`);
    } else {
      throw caught;
    }
  }
};
import { fileURLToPath } from "node:url";
// Call function if run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  main();
}
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AllocateAddressCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { AssociateAddressCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Associates an Elastic IP address, or carrier IP address (for instances that are in subnets in Wavelength Zones)
 * with an instance or a network interface.
 * @param {{ instanceId: string, allocationId: string }} options
 */
export const main = async ({ instanceId, allocationId }) => {
  const client = new EC2Client({});
  const command = new AssociateAddressCommand({
    // You need to allocate an Elastic IP address before associating it with an instance.
    // You can do that with the AllocateAddressCommand.
    AllocationId: allocationId,
    // You need to create an EC2 instance before an IP address can be associated with it.
    // You can do that with the RunInstancesCommand.
    InstanceId: instanceId,
  });

  try {
    const { AssociationId } = await client.send(command);
    console.log(
      `Address with allocation ID ${allocationId} is now associated with instance ${instanceId}.`,
      `The association ID is ${AssociationId}.`,
    );
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidAllocationID.NotFound"
    ) {
      console.warn(
        `${caught.message}. Did you provide the ID of a valid Elastic IP address AllocationId?`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AssociateAddressCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import {
  AuthorizeSecurityGroupIngressCommand,
  EC2Client,
} from "@aws-sdk/client-ec2";

/**
 * Adds the specified inbound (ingress) rules to a security group.
 * @param {{ groupId: string, ipAddress: string }} options
 */
export const main = async ({ groupId, ipAddress }) => {
  const client = new EC2Client({});
  const command = new AuthorizeSecurityGroupIngressCommand({
    // Use a group ID from the AWS console or
    // the DescribeSecurityGroupsCommand.
    GroupId: groupId,
    IpPermissions: [
      {
        IpProtocol: "tcp",
        FromPort: 22,
        ToPort: 22,
        // The IP address to authorize.
        // For more information on this notation, see
        // https://en.wikipedia.org/wiki/Classless_Inter-Domain_Routing#CIDR_notation
        IpRanges: [{ CidrIp: `${ipAddress}/32` }],
      },
    ],
  });

  try {
    const { SecurityGroupRules } = await client.send(command);
    console.log(JSON.stringify(SecurityGroupRules, null, 2));
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidGroupId.Malformed") {
      console.warn(`${caught.message}. Please provide a valid GroupId.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AuthorizeSecurityGroupIngressCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { CreateKeyPairCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Creates an ED25519 or 2048-bit RSA key pair with the specified name and in the specified PEM or PPK format.
 * Amazon EC2 stores the public key and displays the private key for you to save to a file.
 * @param {{ keyName: string }} options
 */
export const main = async ({ keyName }) => {
  const client = new EC2Client({});
  const command = new CreateKeyPairCommand({
    KeyName: keyName,
  });

  try {
    const { KeyMaterial, KeyName } = await client.send(command);
    console.log(KeyName);
    console.log(KeyMaterial);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidKeyPair.Duplicate") {
      console.warn(`${caught.message}. Try another key name.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateKeyPairCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateLaunchTemplate`
<a name="ec2_CreateLaunchTemplate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLaunchTemplate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
    const ssmClient = new SSMClient({});
    const { Parameter } = await ssmClient.send(
      new GetParameterCommand({
        Name: "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
      }),
    );
    const ec2Client = new EC2Client({});
    await ec2Client.send(
      new CreateLaunchTemplateCommand({
        LaunchTemplateName: NAMES.launchTemplateName,
        LaunchTemplateData: {
          InstanceType: "t3.micro",
          ImageId: Parameter.Value,
          IamInstanceProfile: { Name: NAMES.instanceProfileName },
          UserData: readFileSync(
            join(RESOURCES_PATH, "server_startup_script.sh"),
          ).toString("base64"),
          KeyName: NAMES.keyPairName,
        },
      }),
```
+  Untuk detail API, lihat [CreateLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateLaunchTemplateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { CreateSecurityGroupCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Creates a security group.
 * @param {{ groupName: string, description: string }} options
 */
export const main = async ({ groupName, description }) => {
  const client = new EC2Client({});
  const command = new CreateSecurityGroupCommand({
    // Up to 255 characters in length. Cannot start with sg-.
    GroupName: groupName,
    // Up to 255 characters in length.
    Description: description,
  });

  try {
    const { GroupId } = await client.send(command);
    console.log(GroupId);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidParameterValue") {
      console.warn(`${caught.message}.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateSecurityGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { DeleteKeyPairCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Deletes the specified key pair, by removing the public key from Amazon EC2.
 * @param {{ keyName: string }} options
 */
export const main = async ({ keyName }) => {
  const client = new EC2Client({});
  const command = new DeleteKeyPairCommand({
    KeyName: keyName,
  });

  try {
    await client.send(command);
    console.log("Successfully deleted key pair.");
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MissingParameter") {
      console.warn(`${caught.message}. Did you provide the required value?`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteKeyPairCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteLaunchTemplate`
<a name="ec2_DeleteLaunchTemplate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLaunchTemplate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
      await client.send(
        new DeleteLaunchTemplateCommand({
          LaunchTemplateName: NAMES.launchTemplateName,
        }),
      );
```
+  Untuk detail API, lihat [DeleteLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteLaunchTemplateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { DeleteSecurityGroupCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Deletes a security group.
 * @param {{ groupId: string }} options
 */
export const main = async ({ groupId }) => {
  const client = new EC2Client({});
  const command = new DeleteSecurityGroupCommand({
    GroupId: groupId,
  });

  try {
    await client.send(command);
    console.log("Security group deleted successfully.");
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidGroupId.Malformed") {
      console.warn(`${caught.message}. Please provide a valid GroupId.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteSecurityGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeAddresses`
<a name="ec2_DescribeAddresses_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAddresses`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { DescribeAddressesCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Describes the specified Elastic IP addresses or all of your Elastic IP addresses.
 * @param {{ allocationId: string }} options
 */
export const main = async ({ allocationId }) => {
  const client = new EC2Client({});
  const command = new DescribeAddressesCommand({
    // You can omit this property to show all addresses.
    AllocationIds: [allocationId],
  });

  try {
    const { Addresses } = await client.send(command);
    const addressList = Addresses.map((address) => ` • ${address.PublicIp}`);
    console.log("Elastic IP addresses:");
    console.log(addressList.join("\n"));
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidAllocationID.NotFound"
    ) {
      console.warn(`${caught.message}. Please provide a valid AllocationId.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DescribeAddresses](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeAddressesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeIamInstanceProfileAssociations`
<a name="ec2_DescribeIamInstanceProfileAssociations_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeIamInstanceProfileAssociations`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
      const ec2Client = new EC2Client({});
      const { IamInstanceProfileAssociations } = await ec2Client.send(
        new DescribeIamInstanceProfileAssociationsCommand({
          Filters: [
            { Name: "instance-id", Values: [state.targetInstance.InstanceId] },
          ],
        }),
      );
```
+  Untuk detail API, lihat [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeIamInstanceProfileAssociationsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeImages`
<a name="ec2_DescribeImages_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, paginateDescribeImages } from "@aws-sdk/client-ec2";

/**
 * Describes the specified images (AMIs, AKIs, and ARIs) available to you or all of the images available to you.
 * @param {{ architecture: string, pageSize: number }} options
 */
export const main = async ({ architecture, pageSize }) => {
  pageSize = Number.parseInt(pageSize);
  const client = new EC2Client({});

  // The paginate function is a wrapper around the base command.
  const paginator = paginateDescribeImages(
    // Without limiting the page size, this call can take a long time. pageSize is just sugar for
    // the MaxResults property in the base command.
    { client, pageSize },
    {
      // There are almost 70,000 images available. Be specific with your filtering
      // to increase efficiency.
      // See https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/clients/client-ec2/interfaces/describeimagescommandinput.html#filters
      Filters: [{ Name: "architecture", Values: [architecture] }],
    },
  );

  /**
   * @type {import('@aws-sdk/client-ec2').Image[]}
   */
  const images = [];
  let recordsScanned = 0;

  try {
    for await (const page of paginator) {
      recordsScanned += pageSize;
      if (page.Images.length) {
        images.push(...page.Images);
        break;
      }
      console.log(
        `No matching image found yet. Searched ${recordsScanned} records.`,
      );
    }

    if (images.length) {
      console.log(
        `Found ${images.length} images:\n\n${images.map((image) => image.Name).join("\n")}\n`,
      );
    } else {
      console.log(
        `No matching images found. Searched ${recordsScanned} records.\n`,
      );
    }

    return images;
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidParameterValue") {
      console.warn(`${caught.message}`);
      return [];
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeImagesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, paginateDescribeInstanceTypes } from "@aws-sdk/client-ec2";

/**
 * Describes the specified instance types. By default, all instance types for the
 * current Region are described. Alternatively, you can filter the results.
 * @param {{ pageSize: string, supportedArch: string[], freeTier: boolean }} options
 */
export const main = async ({ pageSize, supportedArch, freeTier }) => {
  pageSize = Number.parseInt(pageSize);
  const client = new EC2Client({});

  // The paginate function is a wrapper around the underlying command.
  const paginator = paginateDescribeInstanceTypes(
    // Without limiting the page size, this call can take a long time. pageSize is just sugar for
    // the MaxResults property in the underlying command.
    { client, pageSize },
    {
      Filters: [
        {
          Name: "processor-info.supported-architecture",
          Values: supportedArch,
        },
        { Name: "free-tier-eligible", Values: [freeTier ? "true" : "false"] },
      ],
    },
  );

  try {
    /**
     * @type {import('@aws-sdk/client-ec2').InstanceTypeInfo[]}
     */
    const instanceTypes = [];

    for await (const page of paginator) {
      if (page.InstanceTypes.length) {
        instanceTypes.push(...page.InstanceTypes);

        // When we have at least 1 result, we can stop.
        if (instanceTypes.length >= 1) {
          break;
        }
      }
    }
    console.log(
      `Memory size in MiB for matching instance types:\n\n${instanceTypes.map((it) => `${it.InstanceType}: ${it.MemoryInfo.SizeInMiB} MiB`).join("\n")}`,
    );
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidParameterValue") {
      console.warn(`${caught.message}`);
      return [];
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [DescribeInstanceTypes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstanceTypesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, paginateDescribeInstances } from "@aws-sdk/client-ec2";

/**
 * List all of your EC2 instances running with the provided architecture that
 * were launched in the past month.
 * @param {{ pageSize: string, architectures: string[] }} options
 */
export const main = async ({ pageSize, architectures }) => {
  pageSize = Number.parseInt(pageSize);
  const client = new EC2Client({});
  const d = new Date();
  const year = d.getFullYear();
  const month = `0${d.getMonth() + 1}`.slice(-2);
  const launchTimePattern = `${year}-${month}-*`;

  const paginator = paginateDescribeInstances(
    {
      client,
      pageSize,
    },
    {
      Filters: [
        { Name: "architecture", Values: architectures },
        { Name: "instance-state-name", Values: ["running"] },
        {
          Name: "launch-time",
          Values: [launchTimePattern],
        },
      ],
    },
  );

  try {
    /**
     * @type {import('@aws-sdk/client-ec2').Instance[]}
     */
    const instanceList = [];
    for await (const page of paginator) {
      const { Reservations } = page;
      for (const reservation of Reservations) {
        instanceList.push(...reservation.Instances);
      }
    }
    console.log(
      `Running instances launched this month:\n\n${instanceList.map((instance) => instance.InstanceId).join("\n")}`,
    );
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidParameterValue") {
      console.warn(`${caught.message}.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { DescribeKeyPairsCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * List all key pairs in the current AWS account.
 * @param {{ dryRun: boolean }}
 */
export const main = async ({ dryRun }) => {
  const client = new EC2Client({});
  const command = new DescribeKeyPairsCommand({ DryRun: dryRun });

  try {
    const { KeyPairs } = await client.send(command);
    const keyPairList = KeyPairs.map(
      (kp) => ` • ${kp.KeyPairId}: ${kp.KeyName}`,
    ).join("\n");
    console.log("The following key pairs were found in your account:");
    console.log(keyPairList);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "DryRunOperation") {
      console.log(`${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeKeyPairsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeRegions`
<a name="ec2_DescribeRegions_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRegions`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { DescribeRegionsCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * List all available AWS regions.
 * @param {{ regionNames: string[], includeOptInRegions: boolean }} options
 */
export const main = async ({ regionNames, includeOptInRegions }) => {
  const client = new EC2Client({});
  const command = new DescribeRegionsCommand({
    // By default this command will not show regions that require you to opt-in.
    // When AllRegions is true, even the regions that require opt-in will be returned.
    AllRegions: includeOptInRegions,
    // You can omit the Filters property if you want to get all regions.
    Filters: regionNames?.length
      ? [
          {
            Name: "region-name",
            // You can specify multiple values for a filter.
            // You can also use '*' as a wildcard. This will return all
            // of the regions that start with `us-east-`.
            Values: regionNames,
          },
        ]
      : undefined,
  });

  try {
    const { Regions } = await client.send(command);
    const regionsList = Regions.map((reg) => ` • ${reg.RegionName}`);
    console.log("Found regions:");
    console.log(regionsList.join("\n"));
  } catch (caught) {
    if (caught instanceof Error && caught.name === "DryRunOperation") {
      console.log(`${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DescribeRegions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeRegionsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { DescribeSecurityGroupsCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Describes the specified security groups or all of your security groups.
 * @param {{ groupIds: string[] }} options
 */
export const main = async ({ groupIds = [] }) => {
  const client = new EC2Client({});
  const command = new DescribeSecurityGroupsCommand({
    GroupIds: groupIds,
  });

  try {
    const { SecurityGroups } = await client.send(command);
    const sgList = SecurityGroups.map(
      (sg) => `• ${sg.GroupName} (${sg.GroupId}): ${sg.Description}`,
    ).join("\n");
    if (sgList.length) {
      console.log(`Security groups:\n${sgList}`);
    } else {
      console.log("No security groups found.");
    }
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidGroupId.Malformed") {
      console.warn(`${caught.message}. Please provide a valid GroupId.`);
    } else if (
      caught instanceof Error &&
      caught.name === "InvalidGroup.NotFound"
    ) {
      console.warn(caught.message);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSecurityGroupsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeSubnets`
<a name="ec2_DescribeSubnets_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSubnets`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
    const client = new EC2Client({});
    const { Subnets } = await client.send(
      new DescribeSubnetsCommand({
        Filters: [
          { Name: "vpc-id", Values: [state.defaultVpc] },
          { Name: "availability-zone", Values: state.availabilityZoneNames },
          { Name: "default-for-az", Values: ["true"] },
        ],
      }),
    );
```
+  Untuk detail API, lihat [DescribeSubnets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSubnetsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeVpcs`
<a name="ec2_DescribeVpcs_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVpcs`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
    const client = new EC2Client({});
    const { Vpcs } = await client.send(
      new DescribeVpcsCommand({
        Filters: [{ Name: "is-default", Values: ["true"] }],
      }),
    );
```
+  Untuk detail API, lihat [DescribeVpcs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeVpcsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DisassociateAddress`
<a name="ec2_DisassociateAddress_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateAddress`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { DisassociateAddressCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Disassociate an Elastic IP address from an instance.
 * @param {{ associationId: string }} options
 */
export const main = async ({ associationId }) => {
  const client = new EC2Client({});
  const command = new DisassociateAddressCommand({
    // You can also use PublicIp, but that is for EC2 classic which is being retired.
    AssociationId: associationId,
  });

  try {
    await client.send(command);
    console.log("Successfully disassociated address");
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidAssociationID.NotFound"
    ) {
      console.warn(`${caught.message}.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DisassociateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DisassociateAddressCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `MonitorInstances`
<a name="ec2_MonitorInstances_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`MonitorInstances`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, MonitorInstancesCommand } from "@aws-sdk/client-ec2";

/**
 * Turn on detailed monitoring for the selected instance.
 * By default, metrics are sent to Amazon CloudWatch every 5 minutes.
 * For a cost you can enable detailed monitoring which sends metrics every minute.
 * @param {{ instanceIds: string[] }} options
 */
export const main = async ({ instanceIds }) => {
  const client = new EC2Client({});
  const command = new MonitorInstancesCommand({
    InstanceIds: instanceIds,
  });

  try {
    const { InstanceMonitorings } = await client.send(command);
    const instancesBeingMonitored = InstanceMonitorings.map(
      (im) =>
        ` • Detailed monitoring state for ${im.InstanceId} is ${im.Monitoring.State}.`,
    );
    console.log("Monitoring status:");
    console.log(instancesBeingMonitored.join("\n"));
  } catch (caught) {
    if (caught instanceof Error && caught.name === "InvalidParameterValue") {
      console.warn(`${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [MonitorInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/MonitorInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `RebootInstances`
<a name="ec2_RebootInstances_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RebootInstances`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, RebootInstancesCommand } from "@aws-sdk/client-ec2";

/**
 * Requests a reboot of the specified instances. This operation is asynchronous;
 * it only queues a request to reboot the specified instances.
 * @param {{ instanceIds: string[] }} options
 */
export const main = async ({ instanceIds }) => {
  const client = new EC2Client({});
  const command = new RebootInstancesCommand({
    InstanceIds: instanceIds,
  });

  try {
    await client.send(command);
    console.log("Instance rebooted successfully.");
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidInstanceID.NotFound"
    ) {
      console.warn(
        `${caught.message}. Please provide the InstanceId of a valid instance to reboot.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [RebootInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RebootInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { ReleaseAddressCommand, EC2Client } from "@aws-sdk/client-ec2";

/**
 * Release an Elastic IP address.
 * @param {{ allocationId: string }} options
 */
export const main = async ({ allocationId }) => {
  const client = new EC2Client({});
  const command = new ReleaseAddressCommand({
    // You can also use PublicIp, but that is for EC2 classic which is being retired.
    AllocationId: allocationId,
  });

  try {
    await client.send(command);
    console.log("Successfully released address.");
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidAllocationID.NotFound"
    ) {
      console.warn(`${caught.message}. Please provide a valid AllocationID.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReleaseAddressCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ReplaceIamInstanceProfileAssociation`
<a name="ec2_ReplaceIamInstanceProfileAssociation_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReplaceIamInstanceProfileAssociation`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        ec2Client.send(
          new ReplaceIamInstanceProfileAssociationCommand({
            AssociationId: state.instanceProfileAssociationId,
            IamInstanceProfile: { Name: NAMES.ssmOnlyInstanceProfileName },
          }),
        ),
      );
```
+  Untuk detail API, lihat [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReplaceIamInstanceProfileAssociationCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `RunInstances`
<a name="ec2_RunInstances_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, RunInstancesCommand } from "@aws-sdk/client-ec2";

/**
 * Create new EC2 instances.
 * @param {{
 *  keyName: string,
 *  securityGroupIds: string[],
 *  imageId: string,
 *  instanceType: import('@aws-sdk/client-ec2')._InstanceType,
 *  minCount?: number,
 *  maxCount?: number }} options
 */
export const main = async ({
  keyName,
  securityGroupIds,
  imageId,
  instanceType,
  minCount = "1",
  maxCount = "1",
}) => {
  const client = new EC2Client({});
  minCount = Number.parseInt(minCount);
  maxCount = Number.parseInt(maxCount);
  const command = new RunInstancesCommand({
    // Your key pair name.
    KeyName: keyName,
    // Your security group.
    SecurityGroupIds: securityGroupIds,
    // An Amazon Machine Image (AMI). There are multiple ways to search for AMIs. For more information, see:
    // https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/finding-an-ami.html
    ImageId: imageId,
    // An instance type describing the resources provided to your instance. There are multiple
    // ways to search for instance types. For more information see:
    // https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-discovery.html
    InstanceType: instanceType,
    // Availability Zones have capacity limitations that may impact your ability to launch instances.
    // The `RunInstances` operation will only succeed if it can allocate at least the `MinCount` of instances.
    // However, EC2 will attempt to launch up to the `MaxCount` of instances, even if the full request cannot be satisfied.
    // If you need a specific number of instances, use `MinCount` and `MaxCount` set to the same value.
    // If you want to launch up to a certain number of instances, use `MaxCount` and let EC2 provision as many as possible.
    // If you require a minimum number of instances, but do not want to exceed a maximum, use both `MinCount` and `MaxCount`.
    MinCount: minCount,
    MaxCount: maxCount,
  });

  try {
    const { Instances } = await client.send(command);
    const instanceList = Instances.map(
      (instance) => `• ${instance.InstanceId}`,
    ).join("\n");
    console.log(`Launched instances:\n${instanceList}`);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceCountExceeded") {
      console.warn(`${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RunInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartInstances`
<a name="ec2_StartInstances_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, StartInstancesCommand } from "@aws-sdk/client-ec2";
import { fileURLToPath } from "node:url";
import { parseArgs } from "node:util";

/**
 * Starts an Amazon EBS-backed instance that you've previously stopped.
 * @param {{ instanceIds }} options
 */
export const main = async ({ instanceIds }) => {
  const client = new EC2Client({});
  const command = new StartInstancesCommand({
    InstanceIds: instanceIds,
  });

  try {
    const { StartingInstances } = await client.send(command);
    const instanceIdList = StartingInstances.map(
      (instance) => ` • ${instance.InstanceId}`,
    );
    console.log("Starting instances:");
    console.log(instanceIdList.join("\n"));
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidInstanceID.NotFound"
    ) {
      console.warn(`${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/StartInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StopInstances`
<a name="ec2_StopInstances_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, StopInstancesCommand } from "@aws-sdk/client-ec2";
import { fileURLToPath } from "node:url";
import { parseArgs } from "node:util";

/**
 * Stop one or more EC2 instances.
 * @param {{ instanceIds: string[] }} options
 */
export const main = async ({ instanceIds }) => {
  const client = new EC2Client({});
  const command = new StopInstancesCommand({
    InstanceIds: instanceIds,
  });

  try {
    const { StoppingInstances } = await client.send(command);
    const instanceIdList = StoppingInstances.map(
      (instance) => ` • ${instance.InstanceId}`,
    );
    console.log("Stopping instances:");
    console.log(instanceIdList.join("\n"));
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidInstanceID.NotFound"
    ) {
      console.warn(`${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/StopInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, TerminateInstancesCommand } from "@aws-sdk/client-ec2";
import { fileURLToPath } from "node:url";
import { parseArgs } from "node:util";

/**
 * Terminate one or more EC2 instances.
 * @param {{ instanceIds: string[] }} options
 */
export const main = async ({ instanceIds }) => {
  const client = new EC2Client({});
  const command = new TerminateInstancesCommand({
    InstanceIds: instanceIds,
  });

  try {
    const { TerminatingInstances } = await client.send(command);
    const instanceList = TerminatingInstances.map(
      (instance) => ` • ${instance.InstanceId}`,
    );
    console.log("Terminating instances:");
    console.log(instanceList.join("\n"));
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidInstanceID.NotFound"
    ) {
      console.warn(`${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/TerminateInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UnmonitorInstances`
<a name="ec2_UnmonitorInstances_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UnmonitorInstances`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). 

```
import { EC2Client, UnmonitorInstancesCommand } from "@aws-sdk/client-ec2";
import { fileURLToPath } from "node:url";
import { parseArgs } from "node:util";

/**
 * Turn off detailed monitoring for the selected instance.
 * @param {{ instanceIds: string[] }} options
 */
export const main = async ({ instanceIds }) => {
  const client = new EC2Client({});
  const command = new UnmonitorInstancesCommand({
    InstanceIds: instanceIds,
  });

  try {
    const { InstanceMonitorings } = await client.send(command);
    const instanceMonitoringsList = InstanceMonitorings.map(
      (im) =>
        ` • Detailed monitoring state for ${im.InstanceId} is ${im.Monitoring.State}.`,
    );
    console.log("Monitoring status:");
    console.log(instanceMonitoringsList.join("\n"));
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidInstanceID.NotFound"
    ) {
      console.warn(`${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [UnmonitorInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/UnmonitorInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
#!/usr/bin/env node
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0

import {
  Scenario,
  parseScenarioArgs,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

/**
 * The workflow steps are split into three stages:
 *   - deploy
 *   - demo
 *   - destroy
 *
 * Each of these stages has a corresponding file prefixed with steps-*.
 */
import { deploySteps } from "./steps-deploy.js";
import { demoSteps } from "./steps-demo.js";
import { destroySteps } from "./steps-destroy.js";

/**
 * The context is passed to every scenario. Scenario steps
 * will modify the context.
 */
const context = {};

/**
 * Three Scenarios are created for the workflow. A Scenario is an orchestration class
 * that simplifies running a series of steps.
 */
export const scenarios = {
  // Deploys all resources necessary for the workflow.
  deploy: new Scenario("Resilient Workflow - Deploy", deploySteps, context),
  // Demonstrates how a fragile web service can be made more resilient.
  demo: new Scenario("Resilient Workflow - Demo", demoSteps, context),
  // Destroys the resources created for the workflow.
  destroy: new Scenario("Resilient Workflow - Destroy", destroySteps, context),
};

// Call function if run directly
import { fileURLToPath } from "node:url";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  parseScenarioArgs(scenarios, {
    name: "Resilient Workflow",
    synopsis:
      "node index.js --scenario <deploy | demo | destroy> [-h|--help] [-y|--yes] [-v|--verbose]",
    description: "Deploy and interact with scalable EC2 instances.",
  });
}
```
Menyusun langkah-langkah untuk men-deploy semua sumber daya.  

```
import { join } from "node:path";
import { readFileSync, writeFileSync } from "node:fs";
import axios from "axios";

import {
  BatchWriteItemCommand,
  CreateTableCommand,
  DynamoDBClient,
  waitUntilTableExists,
} from "@aws-sdk/client-dynamodb";
import {
  EC2Client,
  CreateKeyPairCommand,
  CreateLaunchTemplateCommand,
  DescribeAvailabilityZonesCommand,
  DescribeVpcsCommand,
  DescribeSubnetsCommand,
  DescribeSecurityGroupsCommand,
  AuthorizeSecurityGroupIngressCommand,
} from "@aws-sdk/client-ec2";
import {
  IAMClient,
  CreatePolicyCommand,
  CreateRoleCommand,
  CreateInstanceProfileCommand,
  AddRoleToInstanceProfileCommand,
  AttachRolePolicyCommand,
  waitUntilInstanceProfileExists,
} from "@aws-sdk/client-iam";
import { SSMClient, GetParameterCommand } from "@aws-sdk/client-ssm";
import {
  CreateAutoScalingGroupCommand,
  AutoScalingClient,
  AttachLoadBalancerTargetGroupsCommand,
} from "@aws-sdk/client-auto-scaling";
import {
  CreateListenerCommand,
  CreateLoadBalancerCommand,
  CreateTargetGroupCommand,
  ElasticLoadBalancingV2Client,
  waitUntilLoadBalancerAvailable,
} from "@aws-sdk/client-elastic-load-balancing-v2";

import {
  ScenarioOutput,
  ScenarioInput,
  ScenarioAction,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { saveState } from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES, RESOURCES_PATH, ROOT } from "./constants.js";
import { initParamsSteps } from "./steps-reset-params.js";

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const deploySteps = [
  new ScenarioOutput("introduction", MESSAGES.introduction, { header: true }),
  new ScenarioInput("confirmDeployment", MESSAGES.confirmDeployment, {
    type: "confirm",
  }),
  new ScenarioAction(
    "handleConfirmDeployment",
    (c) => c.confirmDeployment === false && process.exit(),
  ),
  new ScenarioOutput(
    "creatingTable",
    MESSAGES.creatingTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioAction("createTable", async () => {
    const client = new DynamoDBClient({});
    await client.send(
      new CreateTableCommand({
        TableName: NAMES.tableName,
        ProvisionedThroughput: {
          ReadCapacityUnits: 5,
          WriteCapacityUnits: 5,
        },
        AttributeDefinitions: [
          {
            AttributeName: "MediaType",
            AttributeType: "S",
          },
          {
            AttributeName: "ItemId",
            AttributeType: "N",
          },
        ],
        KeySchema: [
          {
            AttributeName: "MediaType",
            KeyType: "HASH",
          },
          {
            AttributeName: "ItemId",
            KeyType: "RANGE",
          },
        ],
      }),
    );
    await waitUntilTableExists({ client }, { TableName: NAMES.tableName });
  }),
  new ScenarioOutput(
    "createdTable",
    MESSAGES.createdTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioOutput(
    "populatingTable",
    MESSAGES.populatingTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioAction("populateTable", () => {
    const client = new DynamoDBClient({});
    /**
     * @type {{ default: import("@aws-sdk/client-dynamodb").PutRequest['Item'][] }}
     */
    const recommendations = JSON.parse(
      readFileSync(join(RESOURCES_PATH, "recommendations.json")),
    );

    return client.send(
      new BatchWriteItemCommand({
        RequestItems: {
          [NAMES.tableName]: recommendations.map((item) => ({
            PutRequest: { Item: item },
          })),
        },
      }),
    );
  }),
  new ScenarioOutput(
    "populatedTable",
    MESSAGES.populatedTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioOutput(
    "creatingKeyPair",
    MESSAGES.creatingKeyPair.replace("${KEY_PAIR_NAME}", NAMES.keyPairName),
  ),
  new ScenarioAction("createKeyPair", async () => {
    const client = new EC2Client({});
    const { KeyMaterial } = await client.send(
      new CreateKeyPairCommand({
        KeyName: NAMES.keyPairName,
      }),
    );

    writeFileSync(`${NAMES.keyPairName}.pem`, KeyMaterial, { mode: 0o600 });
  }),
  new ScenarioOutput(
    "createdKeyPair",
    MESSAGES.createdKeyPair.replace("${KEY_PAIR_NAME}", NAMES.keyPairName),
  ),
  new ScenarioOutput(
    "creatingInstancePolicy",
    MESSAGES.creatingInstancePolicy.replace(
      "${INSTANCE_POLICY_NAME}",
      NAMES.instancePolicyName,
    ),
  ),
  new ScenarioAction("createInstancePolicy", async (state) => {
    const client = new IAMClient({});
    const {
      Policy: { Arn },
    } = await client.send(
      new CreatePolicyCommand({
        PolicyName: NAMES.instancePolicyName,
        PolicyDocument: readFileSync(
          join(RESOURCES_PATH, "instance_policy.json"),
        ),
      }),
    );
    state.instancePolicyArn = Arn;
  }),
  new ScenarioOutput("createdInstancePolicy", (state) =>
    MESSAGES.createdInstancePolicy
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_POLICY_ARN}", state.instancePolicyArn),
  ),
  new ScenarioOutput(
    "creatingInstanceRole",
    MESSAGES.creatingInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    ),
  ),
  new ScenarioAction("createInstanceRole", () => {
    const client = new IAMClient({});
    return client.send(
      new CreateRoleCommand({
        RoleName: NAMES.instanceRoleName,
        AssumeRolePolicyDocument: readFileSync(
          join(ROOT, "assume-role-policy.json"),
        ),
      }),
    );
  }),
  new ScenarioOutput(
    "createdInstanceRole",
    MESSAGES.createdInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    ),
  ),
  new ScenarioOutput(
    "attachingPolicyToRole",
    MESSAGES.attachingPolicyToRole
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName)
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName),
  ),
  new ScenarioAction("attachPolicyToRole", async (state) => {
    const client = new IAMClient({});
    await client.send(
      new AttachRolePolicyCommand({
        RoleName: NAMES.instanceRoleName,
        PolicyArn: state.instancePolicyArn,
      }),
    );
  }),
  new ScenarioOutput(
    "attachedPolicyToRole",
    MESSAGES.attachedPolicyToRole
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  new ScenarioOutput(
    "creatingInstanceProfile",
    MESSAGES.creatingInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.instanceProfileName,
    ),
  ),
  new ScenarioAction("createInstanceProfile", async (state) => {
    const client = new IAMClient({});
    const {
      InstanceProfile: { Arn },
    } = await client.send(
      new CreateInstanceProfileCommand({
        InstanceProfileName: NAMES.instanceProfileName,
      }),
    );
    state.instanceProfileArn = Arn;

    await waitUntilInstanceProfileExists(
      { client },
      { InstanceProfileName: NAMES.instanceProfileName },
    );
  }),
  new ScenarioOutput("createdInstanceProfile", (state) =>
    MESSAGES.createdInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_PROFILE_ARN}", state.instanceProfileArn),
  ),
  new ScenarioOutput(
    "addingRoleToInstanceProfile",
    MESSAGES.addingRoleToInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  new ScenarioAction("addRoleToInstanceProfile", () => {
    const client = new IAMClient({});
    return client.send(
      new AddRoleToInstanceProfileCommand({
        RoleName: NAMES.instanceRoleName,
        InstanceProfileName: NAMES.instanceProfileName,
      }),
    );
  }),
  new ScenarioOutput(
    "addedRoleToInstanceProfile",
    MESSAGES.addedRoleToInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  ...initParamsSteps,
  new ScenarioOutput("creatingLaunchTemplate", MESSAGES.creatingLaunchTemplate),
  new ScenarioAction("createLaunchTemplate", async () => {
    const ssmClient = new SSMClient({});
    const { Parameter } = await ssmClient.send(
      new GetParameterCommand({
        Name: "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
      }),
    );
    const ec2Client = new EC2Client({});
    await ec2Client.send(
      new CreateLaunchTemplateCommand({
        LaunchTemplateName: NAMES.launchTemplateName,
        LaunchTemplateData: {
          InstanceType: "t3.micro",
          ImageId: Parameter.Value,
          IamInstanceProfile: { Name: NAMES.instanceProfileName },
          UserData: readFileSync(
            join(RESOURCES_PATH, "server_startup_script.sh"),
          ).toString("base64"),
          KeyName: NAMES.keyPairName,
        },
      }),
    );
  }),
  new ScenarioOutput(
    "createdLaunchTemplate",
    MESSAGES.createdLaunchTemplate.replace(
      "${LAUNCH_TEMPLATE_NAME}",
      NAMES.launchTemplateName,
    ),
  ),
  new ScenarioOutput(
    "creatingAutoScalingGroup",
    MESSAGES.creatingAutoScalingGroup.replace(
      "${AUTO_SCALING_GROUP_NAME}",
      NAMES.autoScalingGroupName,
    ),
  ),
  new ScenarioAction("createAutoScalingGroup", async (state) => {
    const ec2Client = new EC2Client({});
    const { AvailabilityZones } = await ec2Client.send(
      new DescribeAvailabilityZonesCommand({}),
    );
    state.availabilityZoneNames = AvailabilityZones.map((az) => az.ZoneName);
    const autoScalingClient = new AutoScalingClient({});
    await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
      autoScalingClient.send(
        new CreateAutoScalingGroupCommand({
          AvailabilityZones: state.availabilityZoneNames,
          AutoScalingGroupName: NAMES.autoScalingGroupName,
          LaunchTemplate: {
            LaunchTemplateName: NAMES.launchTemplateName,
            Version: "$Default",
          },
          MinSize: 3,
          MaxSize: 3,
        }),
      ),
    );
  }),
  new ScenarioOutput(
    "createdAutoScalingGroup",
    /**
     * @param {{ availabilityZoneNames: string[] }} state
     */
    (state) =>
      MESSAGES.createdAutoScalingGroup
        .replace("${AUTO_SCALING_GROUP_NAME}", NAMES.autoScalingGroupName)
        .replace(
          "${AVAILABILITY_ZONE_NAMES}",
          state.availabilityZoneNames.join(", "),
        ),
  ),
  new ScenarioInput("confirmContinue", MESSAGES.confirmContinue, {
    type: "confirm",
  }),
  new ScenarioOutput("loadBalancer", MESSAGES.loadBalancer),
  new ScenarioOutput("gettingVpc", MESSAGES.gettingVpc),
  new ScenarioAction("getVpc", async (state) => {
    const client = new EC2Client({});
    const { Vpcs } = await client.send(
      new DescribeVpcsCommand({
        Filters: [{ Name: "is-default", Values: ["true"] }],
      }),
    );
    state.defaultVpc = Vpcs[0].VpcId;
  }),
  new ScenarioOutput("gotVpc", (state) =>
    MESSAGES.gotVpc.replace("${VPC_ID}", state.defaultVpc),
  ),
  new ScenarioOutput("gettingSubnets", MESSAGES.gettingSubnets),
  new ScenarioAction("getSubnets", async (state) => {
    const client = new EC2Client({});
    const { Subnets } = await client.send(
      new DescribeSubnetsCommand({
        Filters: [
          { Name: "vpc-id", Values: [state.defaultVpc] },
          { Name: "availability-zone", Values: state.availabilityZoneNames },
          { Name: "default-for-az", Values: ["true"] },
        ],
      }),
    );
    state.subnets = Subnets.map((subnet) => subnet.SubnetId);
  }),
  new ScenarioOutput(
    "gotSubnets",
    /**
     * @param {{ subnets: string[] }} state
     */
    (state) =>
      MESSAGES.gotSubnets.replace("${SUBNETS}", state.subnets.join(", ")),
  ),
  new ScenarioOutput(
    "creatingLoadBalancerTargetGroup",
    MESSAGES.creatingLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    ),
  ),
  new ScenarioAction("createLoadBalancerTargetGroup", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { TargetGroups } = await client.send(
      new CreateTargetGroupCommand({
        Name: NAMES.loadBalancerTargetGroupName,
        Protocol: "HTTP",
        Port: 80,
        HealthCheckPath: "/healthcheck",
        HealthCheckIntervalSeconds: 10,
        HealthCheckTimeoutSeconds: 5,
        HealthyThresholdCount: 2,
        UnhealthyThresholdCount: 2,
        VpcId: state.defaultVpc,
      }),
    );
    const targetGroup = TargetGroups[0];
    state.targetGroupArn = targetGroup.TargetGroupArn;
    state.targetGroupProtocol = targetGroup.Protocol;
    state.targetGroupPort = targetGroup.Port;
  }),
  new ScenarioOutput(
    "createdLoadBalancerTargetGroup",
    MESSAGES.createdLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    ),
  ),
  new ScenarioOutput(
    "creatingLoadBalancer",
    MESSAGES.creatingLoadBalancer.replace("${LB_NAME}", NAMES.loadBalancerName),
  ),
  new ScenarioAction("createLoadBalancer", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { LoadBalancers } = await client.send(
      new CreateLoadBalancerCommand({
        Name: NAMES.loadBalancerName,
        Subnets: state.subnets,
      }),
    );
    state.loadBalancerDns = LoadBalancers[0].DNSName;
    state.loadBalancerArn = LoadBalancers[0].LoadBalancerArn;
    await waitUntilLoadBalancerAvailable(
      { client },
      { Names: [NAMES.loadBalancerName] },
    );
  }),
  new ScenarioOutput("createdLoadBalancer", (state) =>
    MESSAGES.createdLoadBalancer
      .replace("${LB_NAME}", NAMES.loadBalancerName)
      .replace("${DNS_NAME}", state.loadBalancerDns),
  ),
  new ScenarioOutput(
    "creatingListener",
    MESSAGES.creatingLoadBalancerListener
      .replace("${LB_NAME}", NAMES.loadBalancerName)
      .replace("${TARGET_GROUP_NAME}", NAMES.loadBalancerTargetGroupName),
  ),
  new ScenarioAction("createListener", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { Listeners } = await client.send(
      new CreateListenerCommand({
        LoadBalancerArn: state.loadBalancerArn,
        Protocol: state.targetGroupProtocol,
        Port: state.targetGroupPort,
        DefaultActions: [
          { Type: "forward", TargetGroupArn: state.targetGroupArn },
        ],
      }),
    );
    const listener = Listeners[0];
    state.loadBalancerListenerArn = listener.ListenerArn;
  }),
  new ScenarioOutput("createdListener", (state) =>
    MESSAGES.createdLoadBalancerListener.replace(
      "${LB_LISTENER_ARN}",
      state.loadBalancerListenerArn,
    ),
  ),
  new ScenarioOutput(
    "attachingLoadBalancerTargetGroup",
    MESSAGES.attachingLoadBalancerTargetGroup
      .replace("${TARGET_GROUP_NAME}", NAMES.loadBalancerTargetGroupName)
      .replace("${AUTO_SCALING_GROUP_NAME}", NAMES.autoScalingGroupName),
  ),
  new ScenarioAction("attachLoadBalancerTargetGroup", async (state) => {
    const client = new AutoScalingClient({});
    await client.send(
      new AttachLoadBalancerTargetGroupsCommand({
        AutoScalingGroupName: NAMES.autoScalingGroupName,
        TargetGroupARNs: [state.targetGroupArn],
      }),
    );
  }),
  new ScenarioOutput(
    "attachedLoadBalancerTargetGroup",
    MESSAGES.attachedLoadBalancerTargetGroup,
  ),
  new ScenarioOutput("verifyingInboundPort", MESSAGES.verifyingInboundPort),
  new ScenarioAction(
    "verifyInboundPort",
    /**
     *
     * @param {{ defaultSecurityGroup: import('@aws-sdk/client-ec2').SecurityGroup}} state
     */
    async (state) => {
      const client = new EC2Client({});
      const { SecurityGroups } = await client.send(
        new DescribeSecurityGroupsCommand({
          Filters: [{ Name: "group-name", Values: ["default"] }],
        }),
      );
      if (!SecurityGroups) {
        state.verifyInboundPortError = new Error(MESSAGES.noSecurityGroups);
      }
      state.defaultSecurityGroup = SecurityGroups[0];

      /**
       * @type {string}
       */
      const ipResponse = (await axios.get("http://checkip.amazonaws.com")).data;
      state.myIp = ipResponse.trim();
      const myIpRules = state.defaultSecurityGroup.IpPermissions.filter(
        ({ IpRanges }) =>
          IpRanges.some(
            ({ CidrIp }) =>
              CidrIp.startsWith(state.myIp) || CidrIp === "0.0.0.0/0",
          ),
      )
        .filter(({ IpProtocol }) => IpProtocol === "tcp")
        .filter(({ FromPort }) => FromPort === 80);

      state.myIpRules = myIpRules;
    },
  ),
  new ScenarioOutput(
    "verifiedInboundPort",
    /**
     * @param {{ myIpRules: any[] }} state
     */
    (state) => {
      if (state.myIpRules.length > 0) {
        return MESSAGES.foundIpRules.replace(
          "${IP_RULES}",
          JSON.stringify(state.myIpRules, null, 2),
        );
      }
      return MESSAGES.noIpRules;
    },
  ),
  new ScenarioInput(
    "shouldAddInboundRule",
    /**
     * @param {{ myIpRules: any[] }} state
     */
    (state) => {
      if (state.myIpRules.length > 0) {
        return false;
      }
      return MESSAGES.noIpRules;
    },
    { type: "confirm" },
  ),
  new ScenarioAction(
    "addInboundRule",
    /**
     * @param {{ defaultSecurityGroup: import('@aws-sdk/client-ec2').SecurityGroup }} state
     */
    async (state) => {
      if (!state.shouldAddInboundRule) {
        return;
      }

      const client = new EC2Client({});
      await client.send(
        new AuthorizeSecurityGroupIngressCommand({
          GroupId: state.defaultSecurityGroup.GroupId,
          CidrIp: `${state.myIp}/32`,
          FromPort: 80,
          ToPort: 80,
          IpProtocol: "tcp",
        }),
      );
    },
  ),
  new ScenarioOutput("addedInboundRule", (state) => {
    if (state.shouldAddInboundRule) {
      return MESSAGES.addedInboundRule.replace("${IP_ADDRESS}", state.myIp);
    }
    return false;
  }),
  new ScenarioOutput("verifyingEndpoint", (state) =>
    MESSAGES.verifyingEndpoint.replace("${DNS_NAME}", state.loadBalancerDns),
  ),
  new ScenarioAction("verifyEndpoint", async (state) => {
    try {
      const response = await retry({ intervalInMs: 2000, maxRetries: 30 }, () =>
        axios.get(`http://${state.loadBalancerDns}`),
      );
      state.endpointResponse = JSON.stringify(response.data, null, 2);
    } catch (e) {
      state.verifyEndpointError = e;
    }
  }),
  new ScenarioOutput("verifiedEndpoint", (state) => {
    if (state.verifyEndpointError) {
      console.error(state.verifyEndpointError);
    } else {
      return MESSAGES.verifiedEndpoint.replace(
        "${ENDPOINT_RESPONSE}",
        state.endpointResponse,
      );
    }
  }),
  saveState,
];
```
Menyusun langkah-langkah untuk menjalankan demo.  

```
import { readFileSync } from "node:fs";
import { join } from "node:path";

import axios from "axios";

import {
  DescribeTargetGroupsCommand,
  DescribeTargetHealthCommand,
  ElasticLoadBalancingV2Client,
} from "@aws-sdk/client-elastic-load-balancing-v2";
import {
  DescribeInstanceInformationCommand,
  PutParameterCommand,
  SSMClient,
  SendCommandCommand,
} from "@aws-sdk/client-ssm";
import {
  IAMClient,
  CreatePolicyCommand,
  CreateRoleCommand,
  AttachRolePolicyCommand,
  CreateInstanceProfileCommand,
  AddRoleToInstanceProfileCommand,
  waitUntilInstanceProfileExists,
} from "@aws-sdk/client-iam";
import {
  AutoScalingClient,
  DescribeAutoScalingGroupsCommand,
  TerminateInstanceInAutoScalingGroupCommand,
} from "@aws-sdk/client-auto-scaling";
import {
  DescribeIamInstanceProfileAssociationsCommand,
  EC2Client,
  RebootInstancesCommand,
  ReplaceIamInstanceProfileAssociationCommand,
} from "@aws-sdk/client-ec2";

import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/scenario.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES, RESOURCES_PATH } from "./constants.js";
import { findLoadBalancer } from "./shared.js";

const getRecommendation = new ScenarioAction(
  "getRecommendation",
  async (state) => {
    const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
    if (loadBalancer) {
      state.loadBalancerDnsName = loadBalancer.DNSName;
      try {
        state.recommendation = (
          await axios.get(`http://${state.loadBalancerDnsName}`)
        ).data;
      } catch (e) {
        state.recommendation = e instanceof Error ? e.message : e;
      }
    } else {
      throw new Error(MESSAGES.demoFindLoadBalancerError);
    }
  },
);

const getRecommendationResult = new ScenarioOutput(
  "getRecommendationResult",
  (state) =>
    `Recommendation:\n${JSON.stringify(state.recommendation, null, 2)}`,
  { preformatted: true },
);

const getHealthCheck = new ScenarioAction("getHealthCheck", async (state) => {
  const client = new ElasticLoadBalancingV2Client({});
  const { TargetGroups } = await client.send(
    new DescribeTargetGroupsCommand({
      Names: [NAMES.loadBalancerTargetGroupName],
    }),
  );

  const { TargetHealthDescriptions } = await client.send(
    new DescribeTargetHealthCommand({
      TargetGroupArn: TargetGroups[0].TargetGroupArn,
    }),
  );
  state.targetHealthDescriptions = TargetHealthDescriptions;
});

const getHealthCheckResult = new ScenarioOutput(
  "getHealthCheckResult",
  /**
   * @param {{ targetHealthDescriptions: import('@aws-sdk/client-elastic-load-balancing-v2').TargetHealthDescription[]}} state
   */
  (state) => {
    const status = state.targetHealthDescriptions
      .map((th) => `${th.Target.Id}: ${th.TargetHealth.State}`)
      .join("\n");
    return `Health check:\n${status}`;
  },
  { preformatted: true },
);

const loadBalancerLoop = new ScenarioAction(
  "loadBalancerLoop",
  getRecommendation.action,
  {
    whileConfig: {
      whileFn: ({ loadBalancerCheck }) => loadBalancerCheck,
      input: new ScenarioInput(
        "loadBalancerCheck",
        MESSAGES.demoLoadBalancerCheck,
        {
          type: "confirm",
        },
      ),
      output: getRecommendationResult,
    },
  },
);

const healthCheckLoop = new ScenarioAction(
  "healthCheckLoop",
  getHealthCheck.action,
  {
    whileConfig: {
      whileFn: ({ healthCheck }) => healthCheck,
      input: new ScenarioInput("healthCheck", MESSAGES.demoHealthCheck, {
        type: "confirm",
      }),
      output: getHealthCheckResult,
    },
  },
);

const statusSteps = [
  getRecommendation,
  getRecommendationResult,
  getHealthCheck,
  getHealthCheckResult,
];

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const demoSteps = [
  new ScenarioOutput("header", MESSAGES.demoHeader, { header: true }),
  new ScenarioOutput("sanityCheck", MESSAGES.demoSanityCheck),
  ...statusSteps,
  new ScenarioInput(
    "brokenDependencyConfirmation",
    MESSAGES.demoBrokenDependencyConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("brokenDependency", async (state) => {
    if (!state.brokenDependencyConfirmation) {
      process.exit();
    } else {
      const client = new SSMClient({});
      state.badTableName = `fake-table-${Date.now()}`;
      await client.send(
        new PutParameterCommand({
          Name: NAMES.ssmTableNameKey,
          Value: state.badTableName,
          Overwrite: true,
          Type: "String",
        }),
      );
    }
  }),
  new ScenarioOutput("testBrokenDependency", (state) =>
    MESSAGES.demoTestBrokenDependency.replace(
      "${TABLE_NAME}",
      state.badTableName,
    ),
  ),
  ...statusSteps,
  new ScenarioInput(
    "staticResponseConfirmation",
    MESSAGES.demoStaticResponseConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("staticResponse", async (state) => {
    if (!state.staticResponseConfirmation) {
      process.exit();
    } else {
      const client = new SSMClient({});
      await client.send(
        new PutParameterCommand({
          Name: NAMES.ssmFailureResponseKey,
          Value: "static",
          Overwrite: true,
          Type: "String",
        }),
      );
    }
  }),
  new ScenarioOutput("testStaticResponse", MESSAGES.demoTestStaticResponse),
  ...statusSteps,
  new ScenarioInput(
    "badCredentialsConfirmation",
    MESSAGES.demoBadCredentialsConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("badCredentialsExit", (state) => {
    if (!state.badCredentialsConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("fixDynamoDBName", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: NAMES.tableName,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioAction(
    "badCredentials",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-auto-scaling').Instance }} state
     */
    async (state) => {
      await createSsmOnlyInstanceProfile();
      const autoScalingClient = new AutoScalingClient({});
      const { AutoScalingGroups } = await autoScalingClient.send(
        new DescribeAutoScalingGroupsCommand({
          AutoScalingGroupNames: [NAMES.autoScalingGroupName],
        }),
      );
      state.targetInstance = AutoScalingGroups[0].Instances[0];
      const ec2Client = new EC2Client({});
      const { IamInstanceProfileAssociations } = await ec2Client.send(
        new DescribeIamInstanceProfileAssociationsCommand({
          Filters: [
            { Name: "instance-id", Values: [state.targetInstance.InstanceId] },
          ],
        }),
      );
      state.instanceProfileAssociationId =
        IamInstanceProfileAssociations[0].AssociationId;
      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        ec2Client.send(
          new ReplaceIamInstanceProfileAssociationCommand({
            AssociationId: state.instanceProfileAssociationId,
            IamInstanceProfile: { Name: NAMES.ssmOnlyInstanceProfileName },
          }),
        ),
      );

      await ec2Client.send(
        new RebootInstancesCommand({
          InstanceIds: [state.targetInstance.InstanceId],
        }),
      );

      const ssmClient = new SSMClient({});
      await retry({ intervalInMs: 20000, maxRetries: 15 }, async () => {
        const { InstanceInformationList } = await ssmClient.send(
          new DescribeInstanceInformationCommand({}),
        );

        const instance = InstanceInformationList.find(
          (info) => info.InstanceId === state.targetInstance.InstanceId,
        );

        if (!instance) {
          throw new Error("Instance not found.");
        }
      });

      await ssmClient.send(
        new SendCommandCommand({
          InstanceIds: [state.targetInstance.InstanceId],
          DocumentName: "AWS-RunShellScript",
          Parameters: { commands: ["cd / && sudo python3 server.py 80"] },
        }),
      );
    },
  ),
  new ScenarioOutput(
    "testBadCredentials",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation}} state
     */
    (state) =>
      MESSAGES.demoTestBadCredentials.replace(
        "${INSTANCE_ID}",
        state.targetInstance.InstanceId,
      ),
  ),
  loadBalancerLoop,
  new ScenarioInput(
    "deepHealthCheckConfirmation",
    MESSAGES.demoDeepHealthCheckConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("deepHealthCheckExit", (state) => {
    if (!state.deepHealthCheckConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("deepHealthCheck", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmHealthCheckKey,
        Value: "deep",
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testDeepHealthCheck", MESSAGES.demoTestDeepHealthCheck),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput(
    "killInstanceConfirmation",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation }} state
     */
    (state) =>
      MESSAGES.demoKillInstanceConfirmation.replace(
        "${INSTANCE_ID}",
        state.targetInstance.InstanceId,
      ),
    { type: "confirm" },
  ),
  new ScenarioAction("killInstanceExit", (state) => {
    if (!state.killInstanceConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction(
    "killInstance",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation }} state
     */
    async (state) => {
      const client = new AutoScalingClient({});
      await client.send(
        new TerminateInstanceInAutoScalingGroupCommand({
          InstanceId: state.targetInstance.InstanceId,
          ShouldDecrementDesiredCapacity: false,
        }),
      );
    },
  ),
  new ScenarioOutput("testKillInstance", MESSAGES.demoTestKillInstance),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput("failOpenConfirmation", MESSAGES.demoFailOpenConfirmation, {
    type: "confirm",
  }),
  new ScenarioAction("failOpenExit", (state) => {
    if (!state.failOpenConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("failOpen", () => {
    const client = new SSMClient({});
    return client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: `fake-table-${Date.now()}`,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testFailOpen", MESSAGES.demoFailOpenTest),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput(
    "resetTableConfirmation",
    MESSAGES.demoResetTableConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("resetTableExit", (state) => {
    if (!state.resetTableConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("resetTable", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: NAMES.tableName,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testResetTable", MESSAGES.demoTestResetTable),
  healthCheckLoop,
  loadBalancerLoop,
];

async function createSsmOnlyInstanceProfile() {
  const iamClient = new IAMClient({});
  const { Policy } = await iamClient.send(
    new CreatePolicyCommand({
      PolicyName: NAMES.ssmOnlyPolicyName,
      PolicyDocument: readFileSync(
        join(RESOURCES_PATH, "ssm_only_policy.json"),
      ),
    }),
  );
  await iamClient.send(
    new CreateRoleCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      AssumeRolePolicyDocument: JSON.stringify({
        Version: "2012-10-17",
        Statement: [
          {
            Effect: "Allow",
            Principal: { Service: "ec2.amazonaws.com" },
            Action: "sts:AssumeRole",
          },
        ],
      }),
    }),
  );
  await iamClient.send(
    new AttachRolePolicyCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      PolicyArn: Policy.Arn,
    }),
  );
  await iamClient.send(
    new AttachRolePolicyCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      PolicyArn: "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore",
    }),
  );
  const { InstanceProfile } = await iamClient.send(
    new CreateInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
    }),
  );
  await waitUntilInstanceProfileExists(
    { client: iamClient },
    { InstanceProfileName: NAMES.ssmOnlyInstanceProfileName },
  );
  await iamClient.send(
    new AddRoleToInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
      RoleName: NAMES.ssmOnlyRoleName,
    }),
  );

  return InstanceProfile;
}
```
Menyusun langkah-langkah untuk menghancurkan semua sumber daya.  

```
import { unlinkSync } from "node:fs";

import { DynamoDBClient, DeleteTableCommand } from "@aws-sdk/client-dynamodb";
import {
  EC2Client,
  DeleteKeyPairCommand,
  DeleteLaunchTemplateCommand,
  RevokeSecurityGroupIngressCommand,
} from "@aws-sdk/client-ec2";
import {
  IAMClient,
  DeleteInstanceProfileCommand,
  RemoveRoleFromInstanceProfileCommand,
  DeletePolicyCommand,
  DeleteRoleCommand,
  DetachRolePolicyCommand,
  paginateListPolicies,
} from "@aws-sdk/client-iam";
import {
  AutoScalingClient,
  DeleteAutoScalingGroupCommand,
  TerminateInstanceInAutoScalingGroupCommand,
  UpdateAutoScalingGroupCommand,
  paginateDescribeAutoScalingGroups,
} from "@aws-sdk/client-auto-scaling";
import {
  DeleteLoadBalancerCommand,
  DeleteTargetGroupCommand,
  DescribeTargetGroupsCommand,
  ElasticLoadBalancingV2Client,
} from "@aws-sdk/client-elastic-load-balancing-v2";

import {
  ScenarioOutput,
  ScenarioInput,
  ScenarioAction,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { loadState } from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES } from "./constants.js";
import { findLoadBalancer } from "./shared.js";

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const destroySteps = [
  loadState,
  new ScenarioInput("destroy", MESSAGES.destroy, { type: "confirm" }),
  new ScenarioAction(
    "abort",
    (state) => state.destroy === false && process.exit(),
  ),
  new ScenarioAction("deleteTable", async (c) => {
    try {
      const client = new DynamoDBClient({});
      await client.send(new DeleteTableCommand({ TableName: NAMES.tableName }));
    } catch (e) {
      c.deleteTableError = e;
    }
  }),
  new ScenarioOutput("deleteTableResult", (state) => {
    if (state.deleteTableError) {
      console.error(state.deleteTableError);
      return MESSAGES.deleteTableError.replace(
        "${TABLE_NAME}",
        NAMES.tableName,
      );
    }
    return MESSAGES.deletedTable.replace("${TABLE_NAME}", NAMES.tableName);
  }),
  new ScenarioAction("deleteKeyPair", async (state) => {
    try {
      const client = new EC2Client({});
      await client.send(
        new DeleteKeyPairCommand({ KeyName: NAMES.keyPairName }),
      );
      unlinkSync(`${NAMES.keyPairName}.pem`);
    } catch (e) {
      state.deleteKeyPairError = e;
    }
  }),
  new ScenarioOutput("deleteKeyPairResult", (state) => {
    if (state.deleteKeyPairError) {
      console.error(state.deleteKeyPairError);
      return MESSAGES.deleteKeyPairError.replace(
        "${KEY_PAIR_NAME}",
        NAMES.keyPairName,
      );
    }
    return MESSAGES.deletedKeyPair.replace(
      "${KEY_PAIR_NAME}",
      NAMES.keyPairName,
    );
  }),
  new ScenarioAction("detachPolicyFromRole", async (state) => {
    try {
      const client = new IAMClient({});
      const policy = await findPolicy(NAMES.instancePolicyName);

      if (!policy) {
        state.detachPolicyFromRoleError = new Error(
          `Policy ${NAMES.instancePolicyName} not found.`,
        );
      } else {
        await client.send(
          new DetachRolePolicyCommand({
            RoleName: NAMES.instanceRoleName,
            PolicyArn: policy.Arn,
          }),
        );
      }
    } catch (e) {
      state.detachPolicyFromRoleError = e;
    }
  }),
  new ScenarioOutput("detachedPolicyFromRole", (state) => {
    if (state.detachPolicyFromRoleError) {
      console.error(state.detachPolicyFromRoleError);
      return MESSAGES.detachPolicyFromRoleError
        .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
        .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
    }
    return MESSAGES.detachedPolicyFromRole
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
  }),
  new ScenarioAction("deleteInstancePolicy", async (state) => {
    const client = new IAMClient({});
    const policy = await findPolicy(NAMES.instancePolicyName);

    if (!policy) {
      state.deletePolicyError = new Error(
        `Policy ${NAMES.instancePolicyName} not found.`,
      );
    } else {
      return client.send(
        new DeletePolicyCommand({
          PolicyArn: policy.Arn,
        }),
      );
    }
  }),
  new ScenarioOutput("deletePolicyResult", (state) => {
    if (state.deletePolicyError) {
      console.error(state.deletePolicyError);
      return MESSAGES.deletePolicyError.replace(
        "${INSTANCE_POLICY_NAME}",
        NAMES.instancePolicyName,
      );
    }
    return MESSAGES.deletedPolicy.replace(
      "${INSTANCE_POLICY_NAME}",
      NAMES.instancePolicyName,
    );
  }),
  new ScenarioAction("removeRoleFromInstanceProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new RemoveRoleFromInstanceProfileCommand({
          RoleName: NAMES.instanceRoleName,
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
    } catch (e) {
      state.removeRoleFromInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("removeRoleFromInstanceProfileResult", (state) => {
    if (state.removeRoleFromInstanceProfile) {
      console.error(state.removeRoleFromInstanceProfileError);
      return MESSAGES.removeRoleFromInstanceProfileError
        .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
        .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
    }
    return MESSAGES.removedRoleFromInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
  }),
  new ScenarioAction("deleteInstanceRole", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new DeleteRoleCommand({
          RoleName: NAMES.instanceRoleName,
        }),
      );
    } catch (e) {
      state.deleteInstanceRoleError = e;
    }
  }),
  new ScenarioOutput("deleteInstanceRoleResult", (state) => {
    if (state.deleteInstanceRoleError) {
      console.error(state.deleteInstanceRoleError);
      return MESSAGES.deleteInstanceRoleError.replace(
        "${INSTANCE_ROLE_NAME}",
        NAMES.instanceRoleName,
      );
    }
    return MESSAGES.deletedInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    );
  }),
  new ScenarioAction("deleteInstanceProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
    } catch (e) {
      state.deleteInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("deleteInstanceProfileResult", (state) => {
    if (state.deleteInstanceProfileError) {
      console.error(state.deleteInstanceProfileError);
      return MESSAGES.deleteInstanceProfileError.replace(
        "${INSTANCE_PROFILE_NAME}",
        NAMES.instanceProfileName,
      );
    }
    return MESSAGES.deletedInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.instanceProfileName,
    );
  }),
  new ScenarioAction("deleteAutoScalingGroup", async (state) => {
    try {
      await terminateGroupInstances(NAMES.autoScalingGroupName);
      await retry({ intervalInMs: 60000, maxRetries: 60 }, async () => {
        await deleteAutoScalingGroup(NAMES.autoScalingGroupName);
      });
    } catch (e) {
      state.deleteAutoScalingGroupError = e;
    }
  }),
  new ScenarioOutput("deleteAutoScalingGroupResult", (state) => {
    if (state.deleteAutoScalingGroupError) {
      console.error(state.deleteAutoScalingGroupError);
      return MESSAGES.deleteAutoScalingGroupError.replace(
        "${AUTO_SCALING_GROUP_NAME}",
        NAMES.autoScalingGroupName,
      );
    }
    return MESSAGES.deletedAutoScalingGroup.replace(
      "${AUTO_SCALING_GROUP_NAME}",
      NAMES.autoScalingGroupName,
    );
  }),
  new ScenarioAction("deleteLaunchTemplate", async (state) => {
    const client = new EC2Client({});
    try {
      await client.send(
        new DeleteLaunchTemplateCommand({
          LaunchTemplateName: NAMES.launchTemplateName,
        }),
      );
    } catch (e) {
      state.deleteLaunchTemplateError = e;
    }
  }),
  new ScenarioOutput("deleteLaunchTemplateResult", (state) => {
    if (state.deleteLaunchTemplateError) {
      console.error(state.deleteLaunchTemplateError);
      return MESSAGES.deleteLaunchTemplateError.replace(
        "${LAUNCH_TEMPLATE_NAME}",
        NAMES.launchTemplateName,
      );
    }
    return MESSAGES.deletedLaunchTemplate.replace(
      "${LAUNCH_TEMPLATE_NAME}",
      NAMES.launchTemplateName,
    );
  }),
  new ScenarioAction("deleteLoadBalancer", async (state) => {
    try {
      const client = new ElasticLoadBalancingV2Client({});
      const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
      await client.send(
        new DeleteLoadBalancerCommand({
          LoadBalancerArn: loadBalancer.LoadBalancerArn,
        }),
      );
      await retry({ intervalInMs: 1000, maxRetries: 60 }, async () => {
        const lb = await findLoadBalancer(NAMES.loadBalancerName);
        if (lb) {
          throw new Error("Load balancer still exists.");
        }
      });
    } catch (e) {
      state.deleteLoadBalancerError = e;
    }
  }),
  new ScenarioOutput("deleteLoadBalancerResult", (state) => {
    if (state.deleteLoadBalancerError) {
      console.error(state.deleteLoadBalancerError);
      return MESSAGES.deleteLoadBalancerError.replace(
        "${LB_NAME}",
        NAMES.loadBalancerName,
      );
    }
    return MESSAGES.deletedLoadBalancer.replace(
      "${LB_NAME}",
      NAMES.loadBalancerName,
    );
  }),
  new ScenarioAction("deleteLoadBalancerTargetGroup", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    try {
      const { TargetGroups } = await client.send(
        new DescribeTargetGroupsCommand({
          Names: [NAMES.loadBalancerTargetGroupName],
        }),
      );

      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        client.send(
          new DeleteTargetGroupCommand({
            TargetGroupArn: TargetGroups[0].TargetGroupArn,
          }),
        ),
      );
    } catch (e) {
      state.deleteLoadBalancerTargetGroupError = e;
    }
  }),
  new ScenarioOutput("deleteLoadBalancerTargetGroupResult", (state) => {
    if (state.deleteLoadBalancerTargetGroupError) {
      console.error(state.deleteLoadBalancerTargetGroupError);
      return MESSAGES.deleteLoadBalancerTargetGroupError.replace(
        "${TARGET_GROUP_NAME}",
        NAMES.loadBalancerTargetGroupName,
      );
    }
    return MESSAGES.deletedLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    );
  }),
  new ScenarioAction("detachSsmOnlyRoleFromProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new RemoveRoleFromInstanceProfileCommand({
          InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
          RoleName: NAMES.ssmOnlyRoleName,
        }),
      );
    } catch (e) {
      state.detachSsmOnlyRoleFromProfileError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyRoleFromProfileResult", (state) => {
    if (state.detachSsmOnlyRoleFromProfileError) {
      console.error(state.detachSsmOnlyRoleFromProfileError);
      return MESSAGES.detachSsmOnlyRoleFromProfileError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${PROFILE_NAME}", NAMES.ssmOnlyInstanceProfileName);
    }
    return MESSAGES.detachedSsmOnlyRoleFromProfile
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${PROFILE_NAME}", NAMES.ssmOnlyInstanceProfileName);
  }),
  new ScenarioAction("detachSsmOnlyCustomRolePolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      const ssmOnlyPolicy = await findPolicy(NAMES.ssmOnlyPolicyName);
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: NAMES.ssmOnlyRoleName,
          PolicyArn: ssmOnlyPolicy.Arn,
        }),
      );
    } catch (e) {
      state.detachSsmOnlyCustomRolePolicyError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyCustomRolePolicyResult", (state) => {
    if (state.detachSsmOnlyCustomRolePolicyError) {
      console.error(state.detachSsmOnlyCustomRolePolicyError);
      return MESSAGES.detachSsmOnlyCustomRolePolicyError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${POLICY_NAME}", NAMES.ssmOnlyPolicyName);
    }
    return MESSAGES.detachedSsmOnlyCustomRolePolicy
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${POLICY_NAME}", NAMES.ssmOnlyPolicyName);
  }),
  new ScenarioAction("detachSsmOnlyAWSRolePolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: NAMES.ssmOnlyRoleName,
          PolicyArn: "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore",
        }),
      );
    } catch (e) {
      state.detachSsmOnlyAWSRolePolicyError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyAWSRolePolicyResult", (state) => {
    if (state.detachSsmOnlyAWSRolePolicyError) {
      console.error(state.detachSsmOnlyAWSRolePolicyError);
      return MESSAGES.detachSsmOnlyAWSRolePolicyError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${POLICY_NAME}", "AmazonSSMManagedInstanceCore");
    }
    return MESSAGES.detachedSsmOnlyAWSRolePolicy
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${POLICY_NAME}", "AmazonSSMManagedInstanceCore");
  }),
  new ScenarioAction("deleteSsmOnlyInstanceProfile", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyInstanceProfileResult", (state) => {
    if (state.deleteSsmOnlyInstanceProfileError) {
      console.error(state.deleteSsmOnlyInstanceProfileError);
      return MESSAGES.deleteSsmOnlyInstanceProfileError.replace(
        "${INSTANCE_PROFILE_NAME}",
        NAMES.ssmOnlyInstanceProfileName,
      );
    }
    return MESSAGES.deletedSsmOnlyInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.ssmOnlyInstanceProfileName,
    );
  }),
  new ScenarioAction("deleteSsmOnlyPolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      const ssmOnlyPolicy = await findPolicy(NAMES.ssmOnlyPolicyName);
      await iamClient.send(
        new DeletePolicyCommand({
          PolicyArn: ssmOnlyPolicy.Arn,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyPolicyError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyPolicyResult", (state) => {
    if (state.deleteSsmOnlyPolicyError) {
      console.error(state.deleteSsmOnlyPolicyError);
      return MESSAGES.deleteSsmOnlyPolicyError.replace(
        "${POLICY_NAME}",
        NAMES.ssmOnlyPolicyName,
      );
    }
    return MESSAGES.deletedSsmOnlyPolicy.replace(
      "${POLICY_NAME}",
      NAMES.ssmOnlyPolicyName,
    );
  }),
  new ScenarioAction("deleteSsmOnlyRole", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DeleteRoleCommand({
          RoleName: NAMES.ssmOnlyRoleName,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyRoleError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyRoleResult", (state) => {
    if (state.deleteSsmOnlyRoleError) {
      console.error(state.deleteSsmOnlyRoleError);
      return MESSAGES.deleteSsmOnlyRoleError.replace(
        "${ROLE_NAME}",
        NAMES.ssmOnlyRoleName,
      );
    }
    return MESSAGES.deletedSsmOnlyRole.replace(
      "${ROLE_NAME}",
      NAMES.ssmOnlyRoleName,
    );
  }),
  new ScenarioAction(
    "revokeSecurityGroupIngress",
    async (
      /** @type {{ myIp: string, defaultSecurityGroup: { GroupId: string } }} */ state,
    ) => {
      const ec2Client = new EC2Client({});

      try {
        await ec2Client.send(
          new RevokeSecurityGroupIngressCommand({
            GroupId: state.defaultSecurityGroup.GroupId,
            CidrIp: `${state.myIp}/32`,
            FromPort: 80,
            ToPort: 80,
            IpProtocol: "tcp",
          }),
        );
      } catch (e) {
        state.revokeSecurityGroupIngressError = e;
      }
    },
  ),
  new ScenarioOutput("revokeSecurityGroupIngressResult", (state) => {
    if (state.revokeSecurityGroupIngressError) {
      console.error(state.revokeSecurityGroupIngressError);
      return MESSAGES.revokeSecurityGroupIngressError.replace(
        "${IP}",
        state.myIp,
      );
    }
    return MESSAGES.revokedSecurityGroupIngress.replace("${IP}", state.myIp);
  }),
];

/**
 * @param {string} policyName
 */
async function findPolicy(policyName) {
  const client = new IAMClient({});
  const paginatedPolicies = paginateListPolicies({ client }, {});
  for await (const page of paginatedPolicies) {
    const policy = page.Policies.find((p) => p.PolicyName === policyName);
    if (policy) {
      return policy;
    }
  }
}

/**
 * @param {string} groupName
 */
async function deleteAutoScalingGroup(groupName) {
  const client = new AutoScalingClient({});
  try {
    await client.send(
      new DeleteAutoScalingGroupCommand({
        AutoScalingGroupName: groupName,
      }),
    );
  } catch (err) {
    if (!(err instanceof Error)) {
      throw err;
    }
    console.log(err.name);
    throw err;
  }
}

/**
 * @param {string} groupName
 */
async function terminateGroupInstances(groupName) {
  const autoScalingClient = new AutoScalingClient({});
  const group = await findAutoScalingGroup(groupName);
  await autoScalingClient.send(
    new UpdateAutoScalingGroupCommand({
      AutoScalingGroupName: group.AutoScalingGroupName,
      MinSize: 0,
    }),
  );
  for (const i of group.Instances) {
    await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
      autoScalingClient.send(
        new TerminateInstanceInAutoScalingGroupCommand({
          InstanceId: i.InstanceId,
          ShouldDecrementDesiredCapacity: true,
        }),
      ),
    );
  }
}

async function findAutoScalingGroup(groupName) {
  const client = new AutoScalingClient({});
  const paginatedGroups = paginateDescribeAutoScalingGroups({ client }, {});
  for await (const page of paginatedGroups) {
    const group = page.AutoScalingGroups.find(
      (g) => g.AutoScalingGroupName === groupName,
    );
    if (group) {
      return group;
    }
  }
  throw new Error(`Auto scaling group ${groupName} not found.`);
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/AttachLoadBalancerTargetGroupsCommand)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/CreateAutoScalingGroupCommand)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateInstanceProfileCommand)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateLaunchTemplateCommand)
  + [CreateListener](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateListenerCommand)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateLoadBalancerCommand)
  + [CreateTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateTargetGroupCommand)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/DeleteAutoScalingGroupCommand)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteInstanceProfileCommand)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteLaunchTemplateCommand)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteLoadBalancerCommand)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteTargetGroupCommand)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/DescribeAutoScalingGroupsCommand)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeAvailabilityZonesCommand)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeIamInstanceProfileAssociationsCommand)
  + [DescribeInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstancesCommand)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeLoadBalancersCommand)
  + [DescribeSubnets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSubnetsCommand)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetGroupsCommand)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetHealthCommand)
  + [DescribeVpcs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeVpcsCommand)
  + [RebootInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RebootInstancesCommand)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReplaceIamInstanceProfileAssociationCommand)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/TerminateInstanceInAutoScalingGroupCommand)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/UpdateAutoScalingGroupCommand)

# Elastic Load Balancing - Contoh versi 2 menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_elastic-load-balancing-v2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Elastic Load Balancing - Versi 2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Elastic Load Balancing
<a name="elastic-load-balancing-v2_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Elastic Load Balancing.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/elastic-load-balancing-v2#code-examples). 

```
import {
  ElasticLoadBalancingV2Client,
  DescribeLoadBalancersCommand,
} from "@aws-sdk/client-elastic-load-balancing-v2";

export async function main() {
  const client = new ElasticLoadBalancingV2Client({});
  const { LoadBalancers } = await client.send(
    new DescribeLoadBalancersCommand({}),
  );
  const loadBalancersList = LoadBalancers.map(
    (lb) => `• ${lb.LoadBalancerName}: ${lb.DNSName}`,
  ).join("\n");
  console.log(
    "Hello, Elastic Load Balancing! Let's list some of your load balancers:\n",
    loadBalancersList,
  );
}

// Call function if run directly
import { fileURLToPath } from "node:url";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  main();
}
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeLoadBalancersCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Tindakan
<a name="actions"></a>

### `CreateListener`
<a name="elastic-load-balancing-v2_CreateListener_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateListener`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
    const client = new ElasticLoadBalancingV2Client({});
    const { Listeners } = await client.send(
      new CreateListenerCommand({
        LoadBalancerArn: state.loadBalancerArn,
        Protocol: state.targetGroupProtocol,
        Port: state.targetGroupPort,
        DefaultActions: [
          { Type: "forward", TargetGroupArn: state.targetGroupArn },
        ],
      }),
    );
```
+  Untuk detail API, lihat [CreateListener](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateListenerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateLoadBalancer`
<a name="elastic-load-balancing-v2_CreateLoadBalancer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLoadBalancer`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
    const client = new ElasticLoadBalancingV2Client({});
    const { LoadBalancers } = await client.send(
      new CreateLoadBalancerCommand({
        Name: NAMES.loadBalancerName,
        Subnets: state.subnets,
      }),
    );
    state.loadBalancerDns = LoadBalancers[0].DNSName;
    state.loadBalancerArn = LoadBalancers[0].LoadBalancerArn;
    await waitUntilLoadBalancerAvailable(
      { client },
      { Names: [NAMES.loadBalancerName] },
    );
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateLoadBalancerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateTargetGroup`
<a name="elastic-load-balancing-v2_CreateTargetGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTargetGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
    const client = new ElasticLoadBalancingV2Client({});
    const { TargetGroups } = await client.send(
      new CreateTargetGroupCommand({
        Name: NAMES.loadBalancerTargetGroupName,
        Protocol: "HTTP",
        Port: 80,
        HealthCheckPath: "/healthcheck",
        HealthCheckIntervalSeconds: 10,
        HealthCheckTimeoutSeconds: 5,
        HealthyThresholdCount: 2,
        UnhealthyThresholdCount: 2,
        VpcId: state.defaultVpc,
      }),
    );
```
+  Untuk detail API, lihat [CreateTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateTargetGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteLoadBalancer`
<a name="elastic-load-balancing-v2_DeleteLoadBalancer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLoadBalancer`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
      const client = new ElasticLoadBalancingV2Client({});
      const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
      await client.send(
        new DeleteLoadBalancerCommand({
          LoadBalancerArn: loadBalancer.LoadBalancerArn,
        }),
      );
      await retry({ intervalInMs: 1000, maxRetries: 60 }, async () => {
        const lb = await findLoadBalancer(NAMES.loadBalancerName);
        if (lb) {
          throw new Error("Load balancer still exists.");
        }
      });
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteLoadBalancerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteTargetGroup`
<a name="elastic-load-balancing-v2_DeleteTargetGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTargetGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
    const client = new ElasticLoadBalancingV2Client({});
    try {
      const { TargetGroups } = await client.send(
        new DescribeTargetGroupsCommand({
          Names: [NAMES.loadBalancerTargetGroupName],
        }),
      );

      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        client.send(
          new DeleteTargetGroupCommand({
            TargetGroupArn: TargetGroups[0].TargetGroupArn,
          }),
        ),
      );
    } catch (e) {
      state.deleteLoadBalancerTargetGroupError = e;
    }
```
+  Untuk detail API, lihat [DeleteTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteTargetGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeLoadBalancers`
<a name="elastic-load-balancing-v2_DescribeLoadBalancers_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeLoadBalancers`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/elastic-load-balancing-v2#code-examples). 

```
import {
  ElasticLoadBalancingV2Client,
  DescribeLoadBalancersCommand,
} from "@aws-sdk/client-elastic-load-balancing-v2";

export async function main() {
  const client = new ElasticLoadBalancingV2Client({});
  const { LoadBalancers } = await client.send(
    new DescribeLoadBalancersCommand({}),
  );
  const loadBalancersList = LoadBalancers.map(
    (lb) => `• ${lb.LoadBalancerName}: ${lb.DNSName}`,
  ).join("\n");
  console.log(
    "Hello, Elastic Load Balancing! Let's list some of your load balancers:\n",
    loadBalancersList,
  );
}

// Call function if run directly
import { fileURLToPath } from "node:url";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  main();
}
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeLoadBalancersCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeTargetGroups`
<a name="elastic-load-balancing-v2_DescribeTargetGroups_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTargetGroups`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/elastic-load-balancing-v2#code-examples). 

```
  const client = new ElasticLoadBalancingV2Client({});
  const { TargetGroups } = await client.send(
    new DescribeTargetGroupsCommand({
      Names: [NAMES.loadBalancerTargetGroupName],
    }),
  );
```
+  Untuk detail API, lihat [DescribeTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetGroupsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeTargetHealth`
<a name="elastic-load-balancing-v2_DescribeTargetHealth_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTargetHealth`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
  const { TargetHealthDescriptions } = await client.send(
    new DescribeTargetHealthCommand({
      TargetGroupArn: TargetGroups[0].TargetGroupArn,
    }),
  );
```
+  Untuk detail API, lihat [DescribeTargetHealth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetHealthCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
#!/usr/bin/env node
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0

import {
  Scenario,
  parseScenarioArgs,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

/**
 * The workflow steps are split into three stages:
 *   - deploy
 *   - demo
 *   - destroy
 *
 * Each of these stages has a corresponding file prefixed with steps-*.
 */
import { deploySteps } from "./steps-deploy.js";
import { demoSteps } from "./steps-demo.js";
import { destroySteps } from "./steps-destroy.js";

/**
 * The context is passed to every scenario. Scenario steps
 * will modify the context.
 */
const context = {};

/**
 * Three Scenarios are created for the workflow. A Scenario is an orchestration class
 * that simplifies running a series of steps.
 */
export const scenarios = {
  // Deploys all resources necessary for the workflow.
  deploy: new Scenario("Resilient Workflow - Deploy", deploySteps, context),
  // Demonstrates how a fragile web service can be made more resilient.
  demo: new Scenario("Resilient Workflow - Demo", demoSteps, context),
  // Destroys the resources created for the workflow.
  destroy: new Scenario("Resilient Workflow - Destroy", destroySteps, context),
};

// Call function if run directly
import { fileURLToPath } from "node:url";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  parseScenarioArgs(scenarios, {
    name: "Resilient Workflow",
    synopsis:
      "node index.js --scenario <deploy | demo | destroy> [-h|--help] [-y|--yes] [-v|--verbose]",
    description: "Deploy and interact with scalable EC2 instances.",
  });
}
```
Menyusun langkah-langkah untuk men-deploy semua sumber daya.  

```
import { join } from "node:path";
import { readFileSync, writeFileSync } from "node:fs";
import axios from "axios";

import {
  BatchWriteItemCommand,
  CreateTableCommand,
  DynamoDBClient,
  waitUntilTableExists,
} from "@aws-sdk/client-dynamodb";
import {
  EC2Client,
  CreateKeyPairCommand,
  CreateLaunchTemplateCommand,
  DescribeAvailabilityZonesCommand,
  DescribeVpcsCommand,
  DescribeSubnetsCommand,
  DescribeSecurityGroupsCommand,
  AuthorizeSecurityGroupIngressCommand,
} from "@aws-sdk/client-ec2";
import {
  IAMClient,
  CreatePolicyCommand,
  CreateRoleCommand,
  CreateInstanceProfileCommand,
  AddRoleToInstanceProfileCommand,
  AttachRolePolicyCommand,
  waitUntilInstanceProfileExists,
} from "@aws-sdk/client-iam";
import { SSMClient, GetParameterCommand } from "@aws-sdk/client-ssm";
import {
  CreateAutoScalingGroupCommand,
  AutoScalingClient,
  AttachLoadBalancerTargetGroupsCommand,
} from "@aws-sdk/client-auto-scaling";
import {
  CreateListenerCommand,
  CreateLoadBalancerCommand,
  CreateTargetGroupCommand,
  ElasticLoadBalancingV2Client,
  waitUntilLoadBalancerAvailable,
} from "@aws-sdk/client-elastic-load-balancing-v2";

import {
  ScenarioOutput,
  ScenarioInput,
  ScenarioAction,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { saveState } from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES, RESOURCES_PATH, ROOT } from "./constants.js";
import { initParamsSteps } from "./steps-reset-params.js";

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const deploySteps = [
  new ScenarioOutput("introduction", MESSAGES.introduction, { header: true }),
  new ScenarioInput("confirmDeployment", MESSAGES.confirmDeployment, {
    type: "confirm",
  }),
  new ScenarioAction(
    "handleConfirmDeployment",
    (c) => c.confirmDeployment === false && process.exit(),
  ),
  new ScenarioOutput(
    "creatingTable",
    MESSAGES.creatingTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioAction("createTable", async () => {
    const client = new DynamoDBClient({});
    await client.send(
      new CreateTableCommand({
        TableName: NAMES.tableName,
        ProvisionedThroughput: {
          ReadCapacityUnits: 5,
          WriteCapacityUnits: 5,
        },
        AttributeDefinitions: [
          {
            AttributeName: "MediaType",
            AttributeType: "S",
          },
          {
            AttributeName: "ItemId",
            AttributeType: "N",
          },
        ],
        KeySchema: [
          {
            AttributeName: "MediaType",
            KeyType: "HASH",
          },
          {
            AttributeName: "ItemId",
            KeyType: "RANGE",
          },
        ],
      }),
    );
    await waitUntilTableExists({ client }, { TableName: NAMES.tableName });
  }),
  new ScenarioOutput(
    "createdTable",
    MESSAGES.createdTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioOutput(
    "populatingTable",
    MESSAGES.populatingTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioAction("populateTable", () => {
    const client = new DynamoDBClient({});
    /**
     * @type {{ default: import("@aws-sdk/client-dynamodb").PutRequest['Item'][] }}
     */
    const recommendations = JSON.parse(
      readFileSync(join(RESOURCES_PATH, "recommendations.json")),
    );

    return client.send(
      new BatchWriteItemCommand({
        RequestItems: {
          [NAMES.tableName]: recommendations.map((item) => ({
            PutRequest: { Item: item },
          })),
        },
      }),
    );
  }),
  new ScenarioOutput(
    "populatedTable",
    MESSAGES.populatedTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioOutput(
    "creatingKeyPair",
    MESSAGES.creatingKeyPair.replace("${KEY_PAIR_NAME}", NAMES.keyPairName),
  ),
  new ScenarioAction("createKeyPair", async () => {
    const client = new EC2Client({});
    const { KeyMaterial } = await client.send(
      new CreateKeyPairCommand({
        KeyName: NAMES.keyPairName,
      }),
    );

    writeFileSync(`${NAMES.keyPairName}.pem`, KeyMaterial, { mode: 0o600 });
  }),
  new ScenarioOutput(
    "createdKeyPair",
    MESSAGES.createdKeyPair.replace("${KEY_PAIR_NAME}", NAMES.keyPairName),
  ),
  new ScenarioOutput(
    "creatingInstancePolicy",
    MESSAGES.creatingInstancePolicy.replace(
      "${INSTANCE_POLICY_NAME}",
      NAMES.instancePolicyName,
    ),
  ),
  new ScenarioAction("createInstancePolicy", async (state) => {
    const client = new IAMClient({});
    const {
      Policy: { Arn },
    } = await client.send(
      new CreatePolicyCommand({
        PolicyName: NAMES.instancePolicyName,
        PolicyDocument: readFileSync(
          join(RESOURCES_PATH, "instance_policy.json"),
        ),
      }),
    );
    state.instancePolicyArn = Arn;
  }),
  new ScenarioOutput("createdInstancePolicy", (state) =>
    MESSAGES.createdInstancePolicy
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_POLICY_ARN}", state.instancePolicyArn),
  ),
  new ScenarioOutput(
    "creatingInstanceRole",
    MESSAGES.creatingInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    ),
  ),
  new ScenarioAction("createInstanceRole", () => {
    const client = new IAMClient({});
    return client.send(
      new CreateRoleCommand({
        RoleName: NAMES.instanceRoleName,
        AssumeRolePolicyDocument: readFileSync(
          join(ROOT, "assume-role-policy.json"),
        ),
      }),
    );
  }),
  new ScenarioOutput(
    "createdInstanceRole",
    MESSAGES.createdInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    ),
  ),
  new ScenarioOutput(
    "attachingPolicyToRole",
    MESSAGES.attachingPolicyToRole
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName)
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName),
  ),
  new ScenarioAction("attachPolicyToRole", async (state) => {
    const client = new IAMClient({});
    await client.send(
      new AttachRolePolicyCommand({
        RoleName: NAMES.instanceRoleName,
        PolicyArn: state.instancePolicyArn,
      }),
    );
  }),
  new ScenarioOutput(
    "attachedPolicyToRole",
    MESSAGES.attachedPolicyToRole
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  new ScenarioOutput(
    "creatingInstanceProfile",
    MESSAGES.creatingInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.instanceProfileName,
    ),
  ),
  new ScenarioAction("createInstanceProfile", async (state) => {
    const client = new IAMClient({});
    const {
      InstanceProfile: { Arn },
    } = await client.send(
      new CreateInstanceProfileCommand({
        InstanceProfileName: NAMES.instanceProfileName,
      }),
    );
    state.instanceProfileArn = Arn;

    await waitUntilInstanceProfileExists(
      { client },
      { InstanceProfileName: NAMES.instanceProfileName },
    );
  }),
  new ScenarioOutput("createdInstanceProfile", (state) =>
    MESSAGES.createdInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_PROFILE_ARN}", state.instanceProfileArn),
  ),
  new ScenarioOutput(
    "addingRoleToInstanceProfile",
    MESSAGES.addingRoleToInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  new ScenarioAction("addRoleToInstanceProfile", () => {
    const client = new IAMClient({});
    return client.send(
      new AddRoleToInstanceProfileCommand({
        RoleName: NAMES.instanceRoleName,
        InstanceProfileName: NAMES.instanceProfileName,
      }),
    );
  }),
  new ScenarioOutput(
    "addedRoleToInstanceProfile",
    MESSAGES.addedRoleToInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  ...initParamsSteps,
  new ScenarioOutput("creatingLaunchTemplate", MESSAGES.creatingLaunchTemplate),
  new ScenarioAction("createLaunchTemplate", async () => {
    const ssmClient = new SSMClient({});
    const { Parameter } = await ssmClient.send(
      new GetParameterCommand({
        Name: "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
      }),
    );
    const ec2Client = new EC2Client({});
    await ec2Client.send(
      new CreateLaunchTemplateCommand({
        LaunchTemplateName: NAMES.launchTemplateName,
        LaunchTemplateData: {
          InstanceType: "t3.micro",
          ImageId: Parameter.Value,
          IamInstanceProfile: { Name: NAMES.instanceProfileName },
          UserData: readFileSync(
            join(RESOURCES_PATH, "server_startup_script.sh"),
          ).toString("base64"),
          KeyName: NAMES.keyPairName,
        },
      }),
    );
  }),
  new ScenarioOutput(
    "createdLaunchTemplate",
    MESSAGES.createdLaunchTemplate.replace(
      "${LAUNCH_TEMPLATE_NAME}",
      NAMES.launchTemplateName,
    ),
  ),
  new ScenarioOutput(
    "creatingAutoScalingGroup",
    MESSAGES.creatingAutoScalingGroup.replace(
      "${AUTO_SCALING_GROUP_NAME}",
      NAMES.autoScalingGroupName,
    ),
  ),
  new ScenarioAction("createAutoScalingGroup", async (state) => {
    const ec2Client = new EC2Client({});
    const { AvailabilityZones } = await ec2Client.send(
      new DescribeAvailabilityZonesCommand({}),
    );
    state.availabilityZoneNames = AvailabilityZones.map((az) => az.ZoneName);
    const autoScalingClient = new AutoScalingClient({});
    await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
      autoScalingClient.send(
        new CreateAutoScalingGroupCommand({
          AvailabilityZones: state.availabilityZoneNames,
          AutoScalingGroupName: NAMES.autoScalingGroupName,
          LaunchTemplate: {
            LaunchTemplateName: NAMES.launchTemplateName,
            Version: "$Default",
          },
          MinSize: 3,
          MaxSize: 3,
        }),
      ),
    );
  }),
  new ScenarioOutput(
    "createdAutoScalingGroup",
    /**
     * @param {{ availabilityZoneNames: string[] }} state
     */
    (state) =>
      MESSAGES.createdAutoScalingGroup
        .replace("${AUTO_SCALING_GROUP_NAME}", NAMES.autoScalingGroupName)
        .replace(
          "${AVAILABILITY_ZONE_NAMES}",
          state.availabilityZoneNames.join(", "),
        ),
  ),
  new ScenarioInput("confirmContinue", MESSAGES.confirmContinue, {
    type: "confirm",
  }),
  new ScenarioOutput("loadBalancer", MESSAGES.loadBalancer),
  new ScenarioOutput("gettingVpc", MESSAGES.gettingVpc),
  new ScenarioAction("getVpc", async (state) => {
    const client = new EC2Client({});
    const { Vpcs } = await client.send(
      new DescribeVpcsCommand({
        Filters: [{ Name: "is-default", Values: ["true"] }],
      }),
    );
    state.defaultVpc = Vpcs[0].VpcId;
  }),
  new ScenarioOutput("gotVpc", (state) =>
    MESSAGES.gotVpc.replace("${VPC_ID}", state.defaultVpc),
  ),
  new ScenarioOutput("gettingSubnets", MESSAGES.gettingSubnets),
  new ScenarioAction("getSubnets", async (state) => {
    const client = new EC2Client({});
    const { Subnets } = await client.send(
      new DescribeSubnetsCommand({
        Filters: [
          { Name: "vpc-id", Values: [state.defaultVpc] },
          { Name: "availability-zone", Values: state.availabilityZoneNames },
          { Name: "default-for-az", Values: ["true"] },
        ],
      }),
    );
    state.subnets = Subnets.map((subnet) => subnet.SubnetId);
  }),
  new ScenarioOutput(
    "gotSubnets",
    /**
     * @param {{ subnets: string[] }} state
     */
    (state) =>
      MESSAGES.gotSubnets.replace("${SUBNETS}", state.subnets.join(", ")),
  ),
  new ScenarioOutput(
    "creatingLoadBalancerTargetGroup",
    MESSAGES.creatingLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    ),
  ),
  new ScenarioAction("createLoadBalancerTargetGroup", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { TargetGroups } = await client.send(
      new CreateTargetGroupCommand({
        Name: NAMES.loadBalancerTargetGroupName,
        Protocol: "HTTP",
        Port: 80,
        HealthCheckPath: "/healthcheck",
        HealthCheckIntervalSeconds: 10,
        HealthCheckTimeoutSeconds: 5,
        HealthyThresholdCount: 2,
        UnhealthyThresholdCount: 2,
        VpcId: state.defaultVpc,
      }),
    );
    const targetGroup = TargetGroups[0];
    state.targetGroupArn = targetGroup.TargetGroupArn;
    state.targetGroupProtocol = targetGroup.Protocol;
    state.targetGroupPort = targetGroup.Port;
  }),
  new ScenarioOutput(
    "createdLoadBalancerTargetGroup",
    MESSAGES.createdLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    ),
  ),
  new ScenarioOutput(
    "creatingLoadBalancer",
    MESSAGES.creatingLoadBalancer.replace("${LB_NAME}", NAMES.loadBalancerName),
  ),
  new ScenarioAction("createLoadBalancer", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { LoadBalancers } = await client.send(
      new CreateLoadBalancerCommand({
        Name: NAMES.loadBalancerName,
        Subnets: state.subnets,
      }),
    );
    state.loadBalancerDns = LoadBalancers[0].DNSName;
    state.loadBalancerArn = LoadBalancers[0].LoadBalancerArn;
    await waitUntilLoadBalancerAvailable(
      { client },
      { Names: [NAMES.loadBalancerName] },
    );
  }),
  new ScenarioOutput("createdLoadBalancer", (state) =>
    MESSAGES.createdLoadBalancer
      .replace("${LB_NAME}", NAMES.loadBalancerName)
      .replace("${DNS_NAME}", state.loadBalancerDns),
  ),
  new ScenarioOutput(
    "creatingListener",
    MESSAGES.creatingLoadBalancerListener
      .replace("${LB_NAME}", NAMES.loadBalancerName)
      .replace("${TARGET_GROUP_NAME}", NAMES.loadBalancerTargetGroupName),
  ),
  new ScenarioAction("createListener", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { Listeners } = await client.send(
      new CreateListenerCommand({
        LoadBalancerArn: state.loadBalancerArn,
        Protocol: state.targetGroupProtocol,
        Port: state.targetGroupPort,
        DefaultActions: [
          { Type: "forward", TargetGroupArn: state.targetGroupArn },
        ],
      }),
    );
    const listener = Listeners[0];
    state.loadBalancerListenerArn = listener.ListenerArn;
  }),
  new ScenarioOutput("createdListener", (state) =>
    MESSAGES.createdLoadBalancerListener.replace(
      "${LB_LISTENER_ARN}",
      state.loadBalancerListenerArn,
    ),
  ),
  new ScenarioOutput(
    "attachingLoadBalancerTargetGroup",
    MESSAGES.attachingLoadBalancerTargetGroup
      .replace("${TARGET_GROUP_NAME}", NAMES.loadBalancerTargetGroupName)
      .replace("${AUTO_SCALING_GROUP_NAME}", NAMES.autoScalingGroupName),
  ),
  new ScenarioAction("attachLoadBalancerTargetGroup", async (state) => {
    const client = new AutoScalingClient({});
    await client.send(
      new AttachLoadBalancerTargetGroupsCommand({
        AutoScalingGroupName: NAMES.autoScalingGroupName,
        TargetGroupARNs: [state.targetGroupArn],
      }),
    );
  }),
  new ScenarioOutput(
    "attachedLoadBalancerTargetGroup",
    MESSAGES.attachedLoadBalancerTargetGroup,
  ),
  new ScenarioOutput("verifyingInboundPort", MESSAGES.verifyingInboundPort),
  new ScenarioAction(
    "verifyInboundPort",
    /**
     *
     * @param {{ defaultSecurityGroup: import('@aws-sdk/client-ec2').SecurityGroup}} state
     */
    async (state) => {
      const client = new EC2Client({});
      const { SecurityGroups } = await client.send(
        new DescribeSecurityGroupsCommand({
          Filters: [{ Name: "group-name", Values: ["default"] }],
        }),
      );
      if (!SecurityGroups) {
        state.verifyInboundPortError = new Error(MESSAGES.noSecurityGroups);
      }
      state.defaultSecurityGroup = SecurityGroups[0];

      /**
       * @type {string}
       */
      const ipResponse = (await axios.get("http://checkip.amazonaws.com")).data;
      state.myIp = ipResponse.trim();
      const myIpRules = state.defaultSecurityGroup.IpPermissions.filter(
        ({ IpRanges }) =>
          IpRanges.some(
            ({ CidrIp }) =>
              CidrIp.startsWith(state.myIp) || CidrIp === "0.0.0.0/0",
          ),
      )
        .filter(({ IpProtocol }) => IpProtocol === "tcp")
        .filter(({ FromPort }) => FromPort === 80);

      state.myIpRules = myIpRules;
    },
  ),
  new ScenarioOutput(
    "verifiedInboundPort",
    /**
     * @param {{ myIpRules: any[] }} state
     */
    (state) => {
      if (state.myIpRules.length > 0) {
        return MESSAGES.foundIpRules.replace(
          "${IP_RULES}",
          JSON.stringify(state.myIpRules, null, 2),
        );
      }
      return MESSAGES.noIpRules;
    },
  ),
  new ScenarioInput(
    "shouldAddInboundRule",
    /**
     * @param {{ myIpRules: any[] }} state
     */
    (state) => {
      if (state.myIpRules.length > 0) {
        return false;
      }
      return MESSAGES.noIpRules;
    },
    { type: "confirm" },
  ),
  new ScenarioAction(
    "addInboundRule",
    /**
     * @param {{ defaultSecurityGroup: import('@aws-sdk/client-ec2').SecurityGroup }} state
     */
    async (state) => {
      if (!state.shouldAddInboundRule) {
        return;
      }

      const client = new EC2Client({});
      await client.send(
        new AuthorizeSecurityGroupIngressCommand({
          GroupId: state.defaultSecurityGroup.GroupId,
          CidrIp: `${state.myIp}/32`,
          FromPort: 80,
          ToPort: 80,
          IpProtocol: "tcp",
        }),
      );
    },
  ),
  new ScenarioOutput("addedInboundRule", (state) => {
    if (state.shouldAddInboundRule) {
      return MESSAGES.addedInboundRule.replace("${IP_ADDRESS}", state.myIp);
    }
    return false;
  }),
  new ScenarioOutput("verifyingEndpoint", (state) =>
    MESSAGES.verifyingEndpoint.replace("${DNS_NAME}", state.loadBalancerDns),
  ),
  new ScenarioAction("verifyEndpoint", async (state) => {
    try {
      const response = await retry({ intervalInMs: 2000, maxRetries: 30 }, () =>
        axios.get(`http://${state.loadBalancerDns}`),
      );
      state.endpointResponse = JSON.stringify(response.data, null, 2);
    } catch (e) {
      state.verifyEndpointError = e;
    }
  }),
  new ScenarioOutput("verifiedEndpoint", (state) => {
    if (state.verifyEndpointError) {
      console.error(state.verifyEndpointError);
    } else {
      return MESSAGES.verifiedEndpoint.replace(
        "${ENDPOINT_RESPONSE}",
        state.endpointResponse,
      );
    }
  }),
  saveState,
];
```
Menyusun langkah-langkah untuk menjalankan demo.  

```
import { readFileSync } from "node:fs";
import { join } from "node:path";

import axios from "axios";

import {
  DescribeTargetGroupsCommand,
  DescribeTargetHealthCommand,
  ElasticLoadBalancingV2Client,
} from "@aws-sdk/client-elastic-load-balancing-v2";
import {
  DescribeInstanceInformationCommand,
  PutParameterCommand,
  SSMClient,
  SendCommandCommand,
} from "@aws-sdk/client-ssm";
import {
  IAMClient,
  CreatePolicyCommand,
  CreateRoleCommand,
  AttachRolePolicyCommand,
  CreateInstanceProfileCommand,
  AddRoleToInstanceProfileCommand,
  waitUntilInstanceProfileExists,
} from "@aws-sdk/client-iam";
import {
  AutoScalingClient,
  DescribeAutoScalingGroupsCommand,
  TerminateInstanceInAutoScalingGroupCommand,
} from "@aws-sdk/client-auto-scaling";
import {
  DescribeIamInstanceProfileAssociationsCommand,
  EC2Client,
  RebootInstancesCommand,
  ReplaceIamInstanceProfileAssociationCommand,
} from "@aws-sdk/client-ec2";

import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/scenario.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES, RESOURCES_PATH } from "./constants.js";
import { findLoadBalancer } from "./shared.js";

const getRecommendation = new ScenarioAction(
  "getRecommendation",
  async (state) => {
    const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
    if (loadBalancer) {
      state.loadBalancerDnsName = loadBalancer.DNSName;
      try {
        state.recommendation = (
          await axios.get(`http://${state.loadBalancerDnsName}`)
        ).data;
      } catch (e) {
        state.recommendation = e instanceof Error ? e.message : e;
      }
    } else {
      throw new Error(MESSAGES.demoFindLoadBalancerError);
    }
  },
);

const getRecommendationResult = new ScenarioOutput(
  "getRecommendationResult",
  (state) =>
    `Recommendation:\n${JSON.stringify(state.recommendation, null, 2)}`,
  { preformatted: true },
);

const getHealthCheck = new ScenarioAction("getHealthCheck", async (state) => {
  const client = new ElasticLoadBalancingV2Client({});
  const { TargetGroups } = await client.send(
    new DescribeTargetGroupsCommand({
      Names: [NAMES.loadBalancerTargetGroupName],
    }),
  );

  const { TargetHealthDescriptions } = await client.send(
    new DescribeTargetHealthCommand({
      TargetGroupArn: TargetGroups[0].TargetGroupArn,
    }),
  );
  state.targetHealthDescriptions = TargetHealthDescriptions;
});

const getHealthCheckResult = new ScenarioOutput(
  "getHealthCheckResult",
  /**
   * @param {{ targetHealthDescriptions: import('@aws-sdk/client-elastic-load-balancing-v2').TargetHealthDescription[]}} state
   */
  (state) => {
    const status = state.targetHealthDescriptions
      .map((th) => `${th.Target.Id}: ${th.TargetHealth.State}`)
      .join("\n");
    return `Health check:\n${status}`;
  },
  { preformatted: true },
);

const loadBalancerLoop = new ScenarioAction(
  "loadBalancerLoop",
  getRecommendation.action,
  {
    whileConfig: {
      whileFn: ({ loadBalancerCheck }) => loadBalancerCheck,
      input: new ScenarioInput(
        "loadBalancerCheck",
        MESSAGES.demoLoadBalancerCheck,
        {
          type: "confirm",
        },
      ),
      output: getRecommendationResult,
    },
  },
);

const healthCheckLoop = new ScenarioAction(
  "healthCheckLoop",
  getHealthCheck.action,
  {
    whileConfig: {
      whileFn: ({ healthCheck }) => healthCheck,
      input: new ScenarioInput("healthCheck", MESSAGES.demoHealthCheck, {
        type: "confirm",
      }),
      output: getHealthCheckResult,
    },
  },
);

const statusSteps = [
  getRecommendation,
  getRecommendationResult,
  getHealthCheck,
  getHealthCheckResult,
];

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const demoSteps = [
  new ScenarioOutput("header", MESSAGES.demoHeader, { header: true }),
  new ScenarioOutput("sanityCheck", MESSAGES.demoSanityCheck),
  ...statusSteps,
  new ScenarioInput(
    "brokenDependencyConfirmation",
    MESSAGES.demoBrokenDependencyConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("brokenDependency", async (state) => {
    if (!state.brokenDependencyConfirmation) {
      process.exit();
    } else {
      const client = new SSMClient({});
      state.badTableName = `fake-table-${Date.now()}`;
      await client.send(
        new PutParameterCommand({
          Name: NAMES.ssmTableNameKey,
          Value: state.badTableName,
          Overwrite: true,
          Type: "String",
        }),
      );
    }
  }),
  new ScenarioOutput("testBrokenDependency", (state) =>
    MESSAGES.demoTestBrokenDependency.replace(
      "${TABLE_NAME}",
      state.badTableName,
    ),
  ),
  ...statusSteps,
  new ScenarioInput(
    "staticResponseConfirmation",
    MESSAGES.demoStaticResponseConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("staticResponse", async (state) => {
    if (!state.staticResponseConfirmation) {
      process.exit();
    } else {
      const client = new SSMClient({});
      await client.send(
        new PutParameterCommand({
          Name: NAMES.ssmFailureResponseKey,
          Value: "static",
          Overwrite: true,
          Type: "String",
        }),
      );
    }
  }),
  new ScenarioOutput("testStaticResponse", MESSAGES.demoTestStaticResponse),
  ...statusSteps,
  new ScenarioInput(
    "badCredentialsConfirmation",
    MESSAGES.demoBadCredentialsConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("badCredentialsExit", (state) => {
    if (!state.badCredentialsConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("fixDynamoDBName", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: NAMES.tableName,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioAction(
    "badCredentials",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-auto-scaling').Instance }} state
     */
    async (state) => {
      await createSsmOnlyInstanceProfile();
      const autoScalingClient = new AutoScalingClient({});
      const { AutoScalingGroups } = await autoScalingClient.send(
        new DescribeAutoScalingGroupsCommand({
          AutoScalingGroupNames: [NAMES.autoScalingGroupName],
        }),
      );
      state.targetInstance = AutoScalingGroups[0].Instances[0];
      const ec2Client = new EC2Client({});
      const { IamInstanceProfileAssociations } = await ec2Client.send(
        new DescribeIamInstanceProfileAssociationsCommand({
          Filters: [
            { Name: "instance-id", Values: [state.targetInstance.InstanceId] },
          ],
        }),
      );
      state.instanceProfileAssociationId =
        IamInstanceProfileAssociations[0].AssociationId;
      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        ec2Client.send(
          new ReplaceIamInstanceProfileAssociationCommand({
            AssociationId: state.instanceProfileAssociationId,
            IamInstanceProfile: { Name: NAMES.ssmOnlyInstanceProfileName },
          }),
        ),
      );

      await ec2Client.send(
        new RebootInstancesCommand({
          InstanceIds: [state.targetInstance.InstanceId],
        }),
      );

      const ssmClient = new SSMClient({});
      await retry({ intervalInMs: 20000, maxRetries: 15 }, async () => {
        const { InstanceInformationList } = await ssmClient.send(
          new DescribeInstanceInformationCommand({}),
        );

        const instance = InstanceInformationList.find(
          (info) => info.InstanceId === state.targetInstance.InstanceId,
        );

        if (!instance) {
          throw new Error("Instance not found.");
        }
      });

      await ssmClient.send(
        new SendCommandCommand({
          InstanceIds: [state.targetInstance.InstanceId],
          DocumentName: "AWS-RunShellScript",
          Parameters: { commands: ["cd / && sudo python3 server.py 80"] },
        }),
      );
    },
  ),
  new ScenarioOutput(
    "testBadCredentials",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation}} state
     */
    (state) =>
      MESSAGES.demoTestBadCredentials.replace(
        "${INSTANCE_ID}",
        state.targetInstance.InstanceId,
      ),
  ),
  loadBalancerLoop,
  new ScenarioInput(
    "deepHealthCheckConfirmation",
    MESSAGES.demoDeepHealthCheckConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("deepHealthCheckExit", (state) => {
    if (!state.deepHealthCheckConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("deepHealthCheck", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmHealthCheckKey,
        Value: "deep",
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testDeepHealthCheck", MESSAGES.demoTestDeepHealthCheck),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput(
    "killInstanceConfirmation",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation }} state
     */
    (state) =>
      MESSAGES.demoKillInstanceConfirmation.replace(
        "${INSTANCE_ID}",
        state.targetInstance.InstanceId,
      ),
    { type: "confirm" },
  ),
  new ScenarioAction("killInstanceExit", (state) => {
    if (!state.killInstanceConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction(
    "killInstance",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation }} state
     */
    async (state) => {
      const client = new AutoScalingClient({});
      await client.send(
        new TerminateInstanceInAutoScalingGroupCommand({
          InstanceId: state.targetInstance.InstanceId,
          ShouldDecrementDesiredCapacity: false,
        }),
      );
    },
  ),
  new ScenarioOutput("testKillInstance", MESSAGES.demoTestKillInstance),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput("failOpenConfirmation", MESSAGES.demoFailOpenConfirmation, {
    type: "confirm",
  }),
  new ScenarioAction("failOpenExit", (state) => {
    if (!state.failOpenConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("failOpen", () => {
    const client = new SSMClient({});
    return client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: `fake-table-${Date.now()}`,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testFailOpen", MESSAGES.demoFailOpenTest),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput(
    "resetTableConfirmation",
    MESSAGES.demoResetTableConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("resetTableExit", (state) => {
    if (!state.resetTableConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("resetTable", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: NAMES.tableName,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testResetTable", MESSAGES.demoTestResetTable),
  healthCheckLoop,
  loadBalancerLoop,
];

async function createSsmOnlyInstanceProfile() {
  const iamClient = new IAMClient({});
  const { Policy } = await iamClient.send(
    new CreatePolicyCommand({
      PolicyName: NAMES.ssmOnlyPolicyName,
      PolicyDocument: readFileSync(
        join(RESOURCES_PATH, "ssm_only_policy.json"),
      ),
    }),
  );
  await iamClient.send(
    new CreateRoleCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      AssumeRolePolicyDocument: JSON.stringify({
        Version: "2012-10-17",
        Statement: [
          {
            Effect: "Allow",
            Principal: { Service: "ec2.amazonaws.com" },
            Action: "sts:AssumeRole",
          },
        ],
      }),
    }),
  );
  await iamClient.send(
    new AttachRolePolicyCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      PolicyArn: Policy.Arn,
    }),
  );
  await iamClient.send(
    new AttachRolePolicyCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      PolicyArn: "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore",
    }),
  );
  const { InstanceProfile } = await iamClient.send(
    new CreateInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
    }),
  );
  await waitUntilInstanceProfileExists(
    { client: iamClient },
    { InstanceProfileName: NAMES.ssmOnlyInstanceProfileName },
  );
  await iamClient.send(
    new AddRoleToInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
      RoleName: NAMES.ssmOnlyRoleName,
    }),
  );

  return InstanceProfile;
}
```
Menyusun langkah-langkah untuk menghancurkan semua sumber daya.  

```
import { unlinkSync } from "node:fs";

import { DynamoDBClient, DeleteTableCommand } from "@aws-sdk/client-dynamodb";
import {
  EC2Client,
  DeleteKeyPairCommand,
  DeleteLaunchTemplateCommand,
  RevokeSecurityGroupIngressCommand,
} from "@aws-sdk/client-ec2";
import {
  IAMClient,
  DeleteInstanceProfileCommand,
  RemoveRoleFromInstanceProfileCommand,
  DeletePolicyCommand,
  DeleteRoleCommand,
  DetachRolePolicyCommand,
  paginateListPolicies,
} from "@aws-sdk/client-iam";
import {
  AutoScalingClient,
  DeleteAutoScalingGroupCommand,
  TerminateInstanceInAutoScalingGroupCommand,
  UpdateAutoScalingGroupCommand,
  paginateDescribeAutoScalingGroups,
} from "@aws-sdk/client-auto-scaling";
import {
  DeleteLoadBalancerCommand,
  DeleteTargetGroupCommand,
  DescribeTargetGroupsCommand,
  ElasticLoadBalancingV2Client,
} from "@aws-sdk/client-elastic-load-balancing-v2";

import {
  ScenarioOutput,
  ScenarioInput,
  ScenarioAction,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { loadState } from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES } from "./constants.js";
import { findLoadBalancer } from "./shared.js";

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const destroySteps = [
  loadState,
  new ScenarioInput("destroy", MESSAGES.destroy, { type: "confirm" }),
  new ScenarioAction(
    "abort",
    (state) => state.destroy === false && process.exit(),
  ),
  new ScenarioAction("deleteTable", async (c) => {
    try {
      const client = new DynamoDBClient({});
      await client.send(new DeleteTableCommand({ TableName: NAMES.tableName }));
    } catch (e) {
      c.deleteTableError = e;
    }
  }),
  new ScenarioOutput("deleteTableResult", (state) => {
    if (state.deleteTableError) {
      console.error(state.deleteTableError);
      return MESSAGES.deleteTableError.replace(
        "${TABLE_NAME}",
        NAMES.tableName,
      );
    }
    return MESSAGES.deletedTable.replace("${TABLE_NAME}", NAMES.tableName);
  }),
  new ScenarioAction("deleteKeyPair", async (state) => {
    try {
      const client = new EC2Client({});
      await client.send(
        new DeleteKeyPairCommand({ KeyName: NAMES.keyPairName }),
      );
      unlinkSync(`${NAMES.keyPairName}.pem`);
    } catch (e) {
      state.deleteKeyPairError = e;
    }
  }),
  new ScenarioOutput("deleteKeyPairResult", (state) => {
    if (state.deleteKeyPairError) {
      console.error(state.deleteKeyPairError);
      return MESSAGES.deleteKeyPairError.replace(
        "${KEY_PAIR_NAME}",
        NAMES.keyPairName,
      );
    }
    return MESSAGES.deletedKeyPair.replace(
      "${KEY_PAIR_NAME}",
      NAMES.keyPairName,
    );
  }),
  new ScenarioAction("detachPolicyFromRole", async (state) => {
    try {
      const client = new IAMClient({});
      const policy = await findPolicy(NAMES.instancePolicyName);

      if (!policy) {
        state.detachPolicyFromRoleError = new Error(
          `Policy ${NAMES.instancePolicyName} not found.`,
        );
      } else {
        await client.send(
          new DetachRolePolicyCommand({
            RoleName: NAMES.instanceRoleName,
            PolicyArn: policy.Arn,
          }),
        );
      }
    } catch (e) {
      state.detachPolicyFromRoleError = e;
    }
  }),
  new ScenarioOutput("detachedPolicyFromRole", (state) => {
    if (state.detachPolicyFromRoleError) {
      console.error(state.detachPolicyFromRoleError);
      return MESSAGES.detachPolicyFromRoleError
        .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
        .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
    }
    return MESSAGES.detachedPolicyFromRole
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
  }),
  new ScenarioAction("deleteInstancePolicy", async (state) => {
    const client = new IAMClient({});
    const policy = await findPolicy(NAMES.instancePolicyName);

    if (!policy) {
      state.deletePolicyError = new Error(
        `Policy ${NAMES.instancePolicyName} not found.`,
      );
    } else {
      return client.send(
        new DeletePolicyCommand({
          PolicyArn: policy.Arn,
        }),
      );
    }
  }),
  new ScenarioOutput("deletePolicyResult", (state) => {
    if (state.deletePolicyError) {
      console.error(state.deletePolicyError);
      return MESSAGES.deletePolicyError.replace(
        "${INSTANCE_POLICY_NAME}",
        NAMES.instancePolicyName,
      );
    }
    return MESSAGES.deletedPolicy.replace(
      "${INSTANCE_POLICY_NAME}",
      NAMES.instancePolicyName,
    );
  }),
  new ScenarioAction("removeRoleFromInstanceProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new RemoveRoleFromInstanceProfileCommand({
          RoleName: NAMES.instanceRoleName,
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
    } catch (e) {
      state.removeRoleFromInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("removeRoleFromInstanceProfileResult", (state) => {
    if (state.removeRoleFromInstanceProfile) {
      console.error(state.removeRoleFromInstanceProfileError);
      return MESSAGES.removeRoleFromInstanceProfileError
        .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
        .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
    }
    return MESSAGES.removedRoleFromInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
  }),
  new ScenarioAction("deleteInstanceRole", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new DeleteRoleCommand({
          RoleName: NAMES.instanceRoleName,
        }),
      );
    } catch (e) {
      state.deleteInstanceRoleError = e;
    }
  }),
  new ScenarioOutput("deleteInstanceRoleResult", (state) => {
    if (state.deleteInstanceRoleError) {
      console.error(state.deleteInstanceRoleError);
      return MESSAGES.deleteInstanceRoleError.replace(
        "${INSTANCE_ROLE_NAME}",
        NAMES.instanceRoleName,
      );
    }
    return MESSAGES.deletedInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    );
  }),
  new ScenarioAction("deleteInstanceProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
    } catch (e) {
      state.deleteInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("deleteInstanceProfileResult", (state) => {
    if (state.deleteInstanceProfileError) {
      console.error(state.deleteInstanceProfileError);
      return MESSAGES.deleteInstanceProfileError.replace(
        "${INSTANCE_PROFILE_NAME}",
        NAMES.instanceProfileName,
      );
    }
    return MESSAGES.deletedInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.instanceProfileName,
    );
  }),
  new ScenarioAction("deleteAutoScalingGroup", async (state) => {
    try {
      await terminateGroupInstances(NAMES.autoScalingGroupName);
      await retry({ intervalInMs: 60000, maxRetries: 60 }, async () => {
        await deleteAutoScalingGroup(NAMES.autoScalingGroupName);
      });
    } catch (e) {
      state.deleteAutoScalingGroupError = e;
    }
  }),
  new ScenarioOutput("deleteAutoScalingGroupResult", (state) => {
    if (state.deleteAutoScalingGroupError) {
      console.error(state.deleteAutoScalingGroupError);
      return MESSAGES.deleteAutoScalingGroupError.replace(
        "${AUTO_SCALING_GROUP_NAME}",
        NAMES.autoScalingGroupName,
      );
    }
    return MESSAGES.deletedAutoScalingGroup.replace(
      "${AUTO_SCALING_GROUP_NAME}",
      NAMES.autoScalingGroupName,
    );
  }),
  new ScenarioAction("deleteLaunchTemplate", async (state) => {
    const client = new EC2Client({});
    try {
      await client.send(
        new DeleteLaunchTemplateCommand({
          LaunchTemplateName: NAMES.launchTemplateName,
        }),
      );
    } catch (e) {
      state.deleteLaunchTemplateError = e;
    }
  }),
  new ScenarioOutput("deleteLaunchTemplateResult", (state) => {
    if (state.deleteLaunchTemplateError) {
      console.error(state.deleteLaunchTemplateError);
      return MESSAGES.deleteLaunchTemplateError.replace(
        "${LAUNCH_TEMPLATE_NAME}",
        NAMES.launchTemplateName,
      );
    }
    return MESSAGES.deletedLaunchTemplate.replace(
      "${LAUNCH_TEMPLATE_NAME}",
      NAMES.launchTemplateName,
    );
  }),
  new ScenarioAction("deleteLoadBalancer", async (state) => {
    try {
      const client = new ElasticLoadBalancingV2Client({});
      const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
      await client.send(
        new DeleteLoadBalancerCommand({
          LoadBalancerArn: loadBalancer.LoadBalancerArn,
        }),
      );
      await retry({ intervalInMs: 1000, maxRetries: 60 }, async () => {
        const lb = await findLoadBalancer(NAMES.loadBalancerName);
        if (lb) {
          throw new Error("Load balancer still exists.");
        }
      });
    } catch (e) {
      state.deleteLoadBalancerError = e;
    }
  }),
  new ScenarioOutput("deleteLoadBalancerResult", (state) => {
    if (state.deleteLoadBalancerError) {
      console.error(state.deleteLoadBalancerError);
      return MESSAGES.deleteLoadBalancerError.replace(
        "${LB_NAME}",
        NAMES.loadBalancerName,
      );
    }
    return MESSAGES.deletedLoadBalancer.replace(
      "${LB_NAME}",
      NAMES.loadBalancerName,
    );
  }),
  new ScenarioAction("deleteLoadBalancerTargetGroup", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    try {
      const { TargetGroups } = await client.send(
        new DescribeTargetGroupsCommand({
          Names: [NAMES.loadBalancerTargetGroupName],
        }),
      );

      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        client.send(
          new DeleteTargetGroupCommand({
            TargetGroupArn: TargetGroups[0].TargetGroupArn,
          }),
        ),
      );
    } catch (e) {
      state.deleteLoadBalancerTargetGroupError = e;
    }
  }),
  new ScenarioOutput("deleteLoadBalancerTargetGroupResult", (state) => {
    if (state.deleteLoadBalancerTargetGroupError) {
      console.error(state.deleteLoadBalancerTargetGroupError);
      return MESSAGES.deleteLoadBalancerTargetGroupError.replace(
        "${TARGET_GROUP_NAME}",
        NAMES.loadBalancerTargetGroupName,
      );
    }
    return MESSAGES.deletedLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    );
  }),
  new ScenarioAction("detachSsmOnlyRoleFromProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new RemoveRoleFromInstanceProfileCommand({
          InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
          RoleName: NAMES.ssmOnlyRoleName,
        }),
      );
    } catch (e) {
      state.detachSsmOnlyRoleFromProfileError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyRoleFromProfileResult", (state) => {
    if (state.detachSsmOnlyRoleFromProfileError) {
      console.error(state.detachSsmOnlyRoleFromProfileError);
      return MESSAGES.detachSsmOnlyRoleFromProfileError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${PROFILE_NAME}", NAMES.ssmOnlyInstanceProfileName);
    }
    return MESSAGES.detachedSsmOnlyRoleFromProfile
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${PROFILE_NAME}", NAMES.ssmOnlyInstanceProfileName);
  }),
  new ScenarioAction("detachSsmOnlyCustomRolePolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      const ssmOnlyPolicy = await findPolicy(NAMES.ssmOnlyPolicyName);
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: NAMES.ssmOnlyRoleName,
          PolicyArn: ssmOnlyPolicy.Arn,
        }),
      );
    } catch (e) {
      state.detachSsmOnlyCustomRolePolicyError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyCustomRolePolicyResult", (state) => {
    if (state.detachSsmOnlyCustomRolePolicyError) {
      console.error(state.detachSsmOnlyCustomRolePolicyError);
      return MESSAGES.detachSsmOnlyCustomRolePolicyError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${POLICY_NAME}", NAMES.ssmOnlyPolicyName);
    }
    return MESSAGES.detachedSsmOnlyCustomRolePolicy
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${POLICY_NAME}", NAMES.ssmOnlyPolicyName);
  }),
  new ScenarioAction("detachSsmOnlyAWSRolePolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: NAMES.ssmOnlyRoleName,
          PolicyArn: "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore",
        }),
      );
    } catch (e) {
      state.detachSsmOnlyAWSRolePolicyError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyAWSRolePolicyResult", (state) => {
    if (state.detachSsmOnlyAWSRolePolicyError) {
      console.error(state.detachSsmOnlyAWSRolePolicyError);
      return MESSAGES.detachSsmOnlyAWSRolePolicyError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${POLICY_NAME}", "AmazonSSMManagedInstanceCore");
    }
    return MESSAGES.detachedSsmOnlyAWSRolePolicy
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${POLICY_NAME}", "AmazonSSMManagedInstanceCore");
  }),
  new ScenarioAction("deleteSsmOnlyInstanceProfile", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyInstanceProfileResult", (state) => {
    if (state.deleteSsmOnlyInstanceProfileError) {
      console.error(state.deleteSsmOnlyInstanceProfileError);
      return MESSAGES.deleteSsmOnlyInstanceProfileError.replace(
        "${INSTANCE_PROFILE_NAME}",
        NAMES.ssmOnlyInstanceProfileName,
      );
    }
    return MESSAGES.deletedSsmOnlyInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.ssmOnlyInstanceProfileName,
    );
  }),
  new ScenarioAction("deleteSsmOnlyPolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      const ssmOnlyPolicy = await findPolicy(NAMES.ssmOnlyPolicyName);
      await iamClient.send(
        new DeletePolicyCommand({
          PolicyArn: ssmOnlyPolicy.Arn,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyPolicyError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyPolicyResult", (state) => {
    if (state.deleteSsmOnlyPolicyError) {
      console.error(state.deleteSsmOnlyPolicyError);
      return MESSAGES.deleteSsmOnlyPolicyError.replace(
        "${POLICY_NAME}",
        NAMES.ssmOnlyPolicyName,
      );
    }
    return MESSAGES.deletedSsmOnlyPolicy.replace(
      "${POLICY_NAME}",
      NAMES.ssmOnlyPolicyName,
    );
  }),
  new ScenarioAction("deleteSsmOnlyRole", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DeleteRoleCommand({
          RoleName: NAMES.ssmOnlyRoleName,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyRoleError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyRoleResult", (state) => {
    if (state.deleteSsmOnlyRoleError) {
      console.error(state.deleteSsmOnlyRoleError);
      return MESSAGES.deleteSsmOnlyRoleError.replace(
        "${ROLE_NAME}",
        NAMES.ssmOnlyRoleName,
      );
    }
    return MESSAGES.deletedSsmOnlyRole.replace(
      "${ROLE_NAME}",
      NAMES.ssmOnlyRoleName,
    );
  }),
  new ScenarioAction(
    "revokeSecurityGroupIngress",
    async (
      /** @type {{ myIp: string, defaultSecurityGroup: { GroupId: string } }} */ state,
    ) => {
      const ec2Client = new EC2Client({});

      try {
        await ec2Client.send(
          new RevokeSecurityGroupIngressCommand({
            GroupId: state.defaultSecurityGroup.GroupId,
            CidrIp: `${state.myIp}/32`,
            FromPort: 80,
            ToPort: 80,
            IpProtocol: "tcp",
          }),
        );
      } catch (e) {
        state.revokeSecurityGroupIngressError = e;
      }
    },
  ),
  new ScenarioOutput("revokeSecurityGroupIngressResult", (state) => {
    if (state.revokeSecurityGroupIngressError) {
      console.error(state.revokeSecurityGroupIngressError);
      return MESSAGES.revokeSecurityGroupIngressError.replace(
        "${IP}",
        state.myIp,
      );
    }
    return MESSAGES.revokedSecurityGroupIngress.replace("${IP}", state.myIp);
  }),
];

/**
 * @param {string} policyName
 */
async function findPolicy(policyName) {
  const client = new IAMClient({});
  const paginatedPolicies = paginateListPolicies({ client }, {});
  for await (const page of paginatedPolicies) {
    const policy = page.Policies.find((p) => p.PolicyName === policyName);
    if (policy) {
      return policy;
    }
  }
}

/**
 * @param {string} groupName
 */
async function deleteAutoScalingGroup(groupName) {
  const client = new AutoScalingClient({});
  try {
    await client.send(
      new DeleteAutoScalingGroupCommand({
        AutoScalingGroupName: groupName,
      }),
    );
  } catch (err) {
    if (!(err instanceof Error)) {
      throw err;
    }
    console.log(err.name);
    throw err;
  }
}

/**
 * @param {string} groupName
 */
async function terminateGroupInstances(groupName) {
  const autoScalingClient = new AutoScalingClient({});
  const group = await findAutoScalingGroup(groupName);
  await autoScalingClient.send(
    new UpdateAutoScalingGroupCommand({
      AutoScalingGroupName: group.AutoScalingGroupName,
      MinSize: 0,
    }),
  );
  for (const i of group.Instances) {
    await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
      autoScalingClient.send(
        new TerminateInstanceInAutoScalingGroupCommand({
          InstanceId: i.InstanceId,
          ShouldDecrementDesiredCapacity: true,
        }),
      ),
    );
  }
}

async function findAutoScalingGroup(groupName) {
  const client = new AutoScalingClient({});
  const paginatedGroups = paginateDescribeAutoScalingGroups({ client }, {});
  for await (const page of paginatedGroups) {
    const group = page.AutoScalingGroups.find(
      (g) => g.AutoScalingGroupName === groupName,
    );
    if (group) {
      return group;
    }
  }
  throw new Error(`Auto scaling group ${groupName} not found.`);
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/AttachLoadBalancerTargetGroupsCommand)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/CreateAutoScalingGroupCommand)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateInstanceProfileCommand)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateLaunchTemplateCommand)
  + [CreateListener](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateListenerCommand)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateLoadBalancerCommand)
  + [CreateTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateTargetGroupCommand)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/DeleteAutoScalingGroupCommand)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteInstanceProfileCommand)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteLaunchTemplateCommand)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteLoadBalancerCommand)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteTargetGroupCommand)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/DescribeAutoScalingGroupsCommand)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeAvailabilityZonesCommand)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeIamInstanceProfileAssociationsCommand)
  + [DescribeInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstancesCommand)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeLoadBalancersCommand)
  + [DescribeSubnets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSubnetsCommand)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetGroupsCommand)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetHealthCommand)
  + [DescribeVpcs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeVpcsCommand)
  + [RebootInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RebootInstancesCommand)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReplaceIamInstanceProfileAssociationCommand)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/TerminateInstanceInAutoScalingGroupCommand)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/UpdateAutoScalingGroupCommand)

# Resolusi Entitas AWS contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_entityresolution_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with Resolusi Entitas AWS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Resolusi Entitas AWS
<a name="entityresolution_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan Resolusi Entitas AWS.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  EntityResolutionClient,
  ListMatchingWorkflowsCommand,
} from "@aws-sdk/client-entityresolution";

export const main = async () => {
  const region = "eu-west-1";
  const erClient = new EntityResolutionClient({ region: region });
  try {
    const command = new ListMatchingWorkflowsCommand({});
    const response = await erClient.send(command);
    const workflowSummaries = response.workflowSummaries;
    for (const workflowSummary of workflowSummaries) {
      console.log(`Attribute name: ${workflowSummaries[0].workflowName} `);
    }
    if (workflowSummaries.length === 0) {
      console.log("No matching workflows found.");
    }
  } catch (error) {
    console.error(
      `An error occurred in listing the workflow summaries: ${error.message} \n Exiting program.`,
    );
    return;
  }
};
```
+  Untuk detail API, lihat [ListMatchingWorkflows](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/ListMatchingWorkflowsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Tindakan
<a name="actions"></a>

### `CreateMatchingWorkflow`
<a name="entityresolution_CreateMatchingWorkflow_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMatchingWorkflow`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";

import {
  CreateMatchingWorkflowCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  const createMatchingWorkflowParams = {
    roleArn: `${data.inputs.roleArn}`,
    workflowName: `${data.inputs.workflowName}`,
    description: "Created by using the AWS SDK for JavaScript (v3).",
    inputSourceConfig: [
      {
        inputSourceARN: `${data.inputs.JSONinputSourceARN}`,
        schemaName: `${data.inputs.schemaNameJson}`,
        applyNormalization: false,
      },
      {
        inputSourceARN: `${data.inputs.CSVinputSourceARN}`,
        schemaName: `${data.inputs.schemaNameCSV}`,
        applyNormalization: false,
      },
    ],
    outputSourceConfig: [
      {
        outputS3Path: `s3://${data.inputs.myBucketName}/eroutput`,
        output: [
          {
            name: "id",
          },
          {
            name: "name",
          },
          {
            name: "email",
          },
          {
            name: "phone",
          },
        ],
        applyNormalization: false,
      },
    ],
    resolutionTechniques: { resolutionType: "ML_MATCHING" },
  };
  try {
    const command = new CreateMatchingWorkflowCommand(
      createMatchingWorkflowParams,
    );
    const response = await erClient.send(command);

    console.log(
      `Workflow created successfully.\n The workflow ARN is: ${response.workflowArn}`,
    );
  } catch (caught) {
    console.error(caught.message);
    throw caught;
  }
};
```
+  Untuk detail API, lihat [CreateMatchingWorkflow](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/CreateMatchingWorkflowCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateSchemaMapping`
<a name="entityresolution_CreateSchemaMapping_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSchemaMapping`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";

import {
  CreateSchemaMappingCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  const createSchemaMappingParamsJson = {
    schemaName: `${data.inputs.schemaNameJson}`,
    mappedInputFields: [
      {
        fieldName: "id",
        type: "UNIQUE_ID",
      },
      {
        fieldName: "name",
        type: "NAME",
      },
      {
        fieldName: "email",
        type: "EMAIL_ADDRESS",
      },
    ],
  };
  const createSchemaMappingParamsCSV = {
    schemaName: `${data.inputs.schemaNameCSV}`,
    mappedInputFields: [
      {
        fieldName: "id",
        type: "UNIQUE_ID",
      },
      {
        fieldName: "name",
        type: "NAME",
      },
      {
        fieldName: "email",
        type: "EMAIL_ADDRESS",
      },
      {
        fieldName: "phone",
        type: "PROVIDER_ID",
        subType: "STRING",
      },
    ],
  };
  try {
    const command = new CreateSchemaMappingCommand(
      createSchemaMappingParamsJson,
    );
    const response = await erClient.send(command);
    console.log("The JSON schema mapping name is ", response.schemaName);
  } catch (error) {
    console.log("error ", error.message);
  }
};
```
+  Untuk detail API, lihat [CreateSchemaMapping](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/CreateSchemaMappingCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteMatchingWorkflow`
<a name="entityresolution_DeleteMatchingWorkflow_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMatchingWorkflow`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";

import {
  DeleteMatchingWorkflowCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  try {
    const deleteWorkflowParams = {
      workflowName: `${data.inputs.workflowName}`,
    };
    const command = new DeleteMatchingWorkflowCommand(deleteWorkflowParams);
    const response = await erClient.send(command);
    console.log("Workflow deleted successfully!", response);
  } catch (error) {
    console.log("error ", error);
  }
};
```
+  Untuk detail API, lihat [DeleteMatchingWorkflow](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/DeleteMatchingWorkflowCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteSchemaMapping`
<a name="entityresolution_DeleteSchemaMapping_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSchemaMapping`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";

import {
  DeleteSchemaMappingCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  const deleteSchemaMapping = {
    schemaName: `${data.inputs.schemaNameJson}`,
  };
  try {
    const command = new DeleteSchemaMappingCommand(deleteSchemaMapping);
    const response = await erClient.send(command);
    console.log("Schema mapping deleted successfully. ", response);
  } catch (error) {
    console.log("error ", error);
  }
};
```
+  Untuk detail API, lihat [DeleteSchemaMapping](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/DeleteSchemaMappingCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetMatchingJob`
<a name="entityresolution_GetMatchingJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMatchingJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";

import {
  GetMatchingJobCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  async function getInfo() {
    const getJobInfoParams = {
      workflowName: `${data.inputs.workflowName}`,
      jobId: `${data.inputs.jobId}`,
    };
    try {
      const command = new GetMatchingJobCommand(getJobInfoParams);
      const response = await erClient.send(command);
      console.log(`Job status: ${response.status}`);
    } catch (error) {
      console.log("error ", error.message);
    }
  }
};
```
+  Untuk detail API, lihat [GetMatchingJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/GetMatchingJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetSchemaMapping`
<a name="entityresolution_GetSchemaMapping_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSchemaMapping`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";

import {
  GetSchemaMappingCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  const getSchemaMappingJsonParams = {
    schemaName: `${data.inputs.schemaNameJson}`,
  };
  try {
    const command = new GetSchemaMappingCommand(getSchemaMappingJsonParams);
    const response = await erClient.send(command);
    console.log(response);
    console.log(
      `Schema mapping for the JSON data:\n ${response.mappedInputFields[0]}`,
    );
    console.log("Schema mapping ARN is: ", response.schemaArn);
  } catch (caught) {
    console.error(caught.message);
    throw caught;
  }
};
```
+  Untuk detail API, lihat [GetSchemaMapping](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/GetSchemaMappingCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListSchemaMappings`
<a name="entityresolution_ListSchemaMappings_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSchemaMappings`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";

import {
  ListSchemaMappingsCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  async function getInfo() {
    const listSchemaMappingsParams = {
      workflowName: `${data.inputs.workflowName}`,
      jobId: `${data.inputs.jobId}`,
    };
    try {
      const command = new ListSchemaMappingsCommand(listSchemaMappingsParams);
      const response = await erClient.send(command);
      const noOfSchemas = response.schemaList.length;
      for (let i = 0; i < noOfSchemas; i++) {
        console.log(
          `Schema Mapping Name: ${response.schemaList[i].schemaName} `,
        );
      }
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
  }
```
+  Untuk detail API, lihat [ListSchemaMappings](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/ListSchemaMappingsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartMatchingJob`
<a name="entityresolution_StartMatchingJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartMatchingJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";
import {
  StartMatchingJobCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  const matchingJobOfWorkflowParams = {
    workflowName: `${data.inputs.workflowName}`,
  };
  try {
    const command = new StartMatchingJobCommand(matchingJobOfWorkflowParams);
    const response = await erClient.send(command);
    console.log(`Job ID: ${response.jobID} \n
The matching job was successfully started.`);
  } catch (caught) {
    console.error(caught.message);
    throw caught;
  }
};
```
+  Untuk detail API, lihat [StartMatchingJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/StartMatchingJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `TagResource`
<a name="entityresolution_TagResource_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/entityresolution#code-examples). 

```
//The default inputs for this demo are read from the ../inputs.json.

import { fileURLToPath } from "node:url";

import {
  TagResourceCommand,
  EntityResolutionClient,
} from "@aws-sdk/client-entityresolution";
import data from "../inputs.json" with { type: "json" };

const region = "eu-west-1";
const erClient = new EntityResolutionClient({ region: region });

export const main = async () => {
  const tagResourceCommandParams = {
    resourceArn: `${data.inputs.schemaArn}`,
    tags: {
      tag1: "tag1Value",
      tag2: "tag2Value",
    },
  };
  try {
    const command = new TagResourceCommand(tagResourceCommandParams);
    const response = await erClient.send(command);
    console.log("Successfully tagged the resource.");
  } catch (caught) {
    console.error(caught.message);
    throw caught;
  }
};
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/entityresolution/command/TagResourceCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# EventBridge contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with EventBridge.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `PutEvents`
<a name="eventbridge_PutEvents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/eventbridge#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import {
  EventBridgeClient,
  PutEventsCommand,
} from "@aws-sdk/client-eventbridge";

export const putEvents = async (
  source = "eventbridge.integration.test",
  detailType = "greeting",
  resources = [],
) => {
  const client = new EventBridgeClient({});

  const response = await client.send(
    new PutEventsCommand({
      Entries: [
        {
          Detail: JSON.stringify({ greeting: "Hello there." }),
          DetailType: detailType,
          Resources: resources,
          Source: source,
        },
      ],
    }),
  );

  console.log("PutEvents response:");
  console.log(response);
  // PutEvents response:
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '3d0df73d-dcea-4a23-ae0d-f5556a3ac109',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   Entries: [ { EventId: '51620841-5af4-6402-d9bc-b77734991eb5' } ],
  //   FailedEntryCount: 0
  // }

  return response;
};
```
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/eventbridge/command/PutEventsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutRule`
<a name="eventbridge_PutRule_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/eventbridge#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { EventBridgeClient, PutRuleCommand } from "@aws-sdk/client-eventbridge";

export const putRule = async (
  ruleName = "some-rule",
  source = "some-source",
) => {
  const client = new EventBridgeClient({});

  const response = await client.send(
    new PutRuleCommand({
      Name: ruleName,
      EventPattern: JSON.stringify({ source: [source] }),
      State: "ENABLED",
      EventBusName: "default",
    }),
  );

  console.log("PutRule response:");
  console.log(response);
  // PutRule response:
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: 'd7292ced-1544-421b-842f-596326bc7072',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   RuleArn: 'arn:aws:events:us-east-1:xxxxxxxxxxxx:rule/EventBridgeTestRule-1696280037720'
  // }
  return response;
};
```
+  Untuk detail API, lihat [PutRule](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/eventbridge/command/PutRuleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutTargets`
<a name="eventbridge_PutTargets_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/eventbridge#code-examples). 
Mengimpor modul SDK dan klien dan memanggil API.  

```
import {
  EventBridgeClient,
  PutTargetsCommand,
} from "@aws-sdk/client-eventbridge";

export const putTarget = async (
  existingRuleName = "some-rule",
  targetArn = "arn:aws:lambda:us-east-1:000000000000:function:test-func",
  uniqueId = Date.now().toString(),
) => {
  const client = new EventBridgeClient({});
  const response = await client.send(
    new PutTargetsCommand({
      Rule: existingRuleName,
      Targets: [
        {
          Arn: targetArn,
          Id: uniqueId,
        },
      ],
    }),
  );

  console.log("PutTargets response:");
  console.log(response);
  // PutTargets response:
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: 'f5b23b9a-2c17-45c1-ad5c-f926c3692e3d',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   FailedEntries: [],
  //   FailedEntryCount: 0
  // }

  return response;
};
```
+  Untuk detail API, lihat [PutTargets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/eventbridge/command/PutTargetsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda dengan menggunakan API runtime JavaScript Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-scheduled-events).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/scheduled-events-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

# Contoh Amazon Glacier menggunakan SDK JavaScript untuk (v3)
<a name="javascript_3_glacier_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Glacier.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateVault`
<a name="glacier_CreateVault_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVault`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glacier#code-examples). 
Buat klien.  

```
const { GlacierClient } = require("@aws-sdk/client-glacier");
// Set the AWS Region.
const REGION = "REGION";
//Set the Redshift Service Object
const glacierClient = new GlacierClient({ region: REGION });
export { glacierClient };
```
Buat lemari besi.  

```
// Load the SDK for JavaScript
import { CreateVaultCommand } from "@aws-sdk/client-glacier";
import { glacierClient } from "./libs/glacierClient.js";

// Set the parameters
const vaultname = "VAULT_NAME"; // VAULT_NAME
const params = { vaultName: vaultname };

const run = async () => {
  try {
    const data = await glacierClient.send(new CreateVaultCommand(params));
    console.log("Success, vault created!");
    return data; // For unit tests.
  } catch (err) {
    console.log("Error");
  }
};
run();
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/glacier-example-creating-a-vault.html). 
+  Untuk detail API, lihat [CreateVault](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glacier/command/CreateVaultCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UploadArchive`
<a name="glacier_UploadArchive_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadArchive`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glacier#code-examples). 
Buat klien.  

```
const { GlacierClient } = require("@aws-sdk/client-glacier");
// Set the AWS Region.
const REGION = "REGION";
//Set the Redshift Service Object
const glacierClient = new GlacierClient({ region: REGION });
export { glacierClient };
```
Unggah arsip.  

```
// Load the SDK for JavaScript
import { UploadArchiveCommand } from "@aws-sdk/client-glacier";
import { glacierClient } from "./libs/glacierClient.js";

// Set the parameters
const vaultname = "VAULT_NAME"; // VAULT_NAME

// Create a new service object and buffer
const buffer = new Buffer.alloc(2.5 * 1024 * 1024); // 2.5MB buffer
const params = { vaultName: vaultname, body: buffer };

const run = async () => {
  try {
    const data = await glacierClient.send(new UploadArchiveCommand(params));
    console.log("Archive ID", data.archiveId);
    return data; // For unit tests.
  } catch (err) {
    console.log("Error uploading archive!", err);
  }
};
run();
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/glacier-example-uploadarchive.html). 
+  Untuk detail API, lihat [UploadArchive](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glacier/command/UploadArchiveCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# AWS Glue contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with AWS Glue.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Glue
<a name="glue_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Glue.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
import { ListJobsCommand, GlueClient } from "@aws-sdk/client-glue";

const client = new GlueClient({});

export const main = async () => {
  const command = new ListJobsCommand({});

  const { JobNames } = await client.send(command);
  const formattedJobNames = JobNames.join("\n");
  console.log("Job names: ");
  console.log(formattedJobNames);
  return JobNames;
};
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/ListJobsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Daftar informasi tentang database dan tabel di Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 
Membuat dan menjalankan crawler yang merayapi bucket Amazon Simple Storage Service (Amazon S3) publik dan menghasilkan database metadata yang menjelaskan data berformat CSV yang ditemukannya.  

```
const createCrawler = (name, role, dbName, tablePrefix, s3TargetPath) => {
  const client = new GlueClient({});

  const command = new CreateCrawlerCommand({
    Name: name,
    Role: role,
    DatabaseName: dbName,
    TablePrefix: tablePrefix,
    Targets: {
      S3Targets: [{ Path: s3TargetPath }],
    },
  });

  return client.send(command);
};

const getCrawler = (name) => {
  const client = new GlueClient({});

  const command = new GetCrawlerCommand({
    Name: name,
  });

  return client.send(command);
};

const startCrawler = (name) => {
  const client = new GlueClient({});

  const command = new StartCrawlerCommand({
    Name: name,
  });

  return client.send(command);
};

const crawlerExists = async ({ getCrawler }, crawlerName) => {
  try {
    await getCrawler(crawlerName);
    return true;
  } catch {
    return false;
  }
};

/**
 * @param {{ createCrawler: import('../../../actions/create-crawler.js').createCrawler}} actions
 */
const makeCreateCrawlerStep = (actions) => async (context) => {
  if (await crawlerExists(actions, process.env.CRAWLER_NAME)) {
    log("Crawler already exists. Skipping creation.");
  } else {
    await actions.createCrawler(
      process.env.CRAWLER_NAME,
      process.env.ROLE_NAME,
      process.env.DATABASE_NAME,
      process.env.TABLE_PREFIX,
      process.env.S3_TARGET_PATH,
    );

    log("Crawler created successfully.", { type: "success" });
  }

  return { ...context };
};

/**
 * @param {(name: string) => Promise<import('@aws-sdk/client-glue').GetCrawlerCommandOutput>} getCrawler
 * @param {string} crawlerName
 */
const waitForCrawler = async (getCrawler, crawlerName) => {
  const waitTimeInSeconds = 30;
  const { Crawler } = await getCrawler(crawlerName);

  if (!Crawler) {
    throw new Error(`Crawler with name ${crawlerName} not found.`);
  }

  if (Crawler.State === "READY") {
    return;
  }

  log(`Crawler is ${Crawler.State}. Waiting ${waitTimeInSeconds} seconds...`);
  await wait(waitTimeInSeconds);
  return waitForCrawler(getCrawler, crawlerName);
};

const makeStartCrawlerStep =
  ({ startCrawler, getCrawler }) =>
  async (context) => {
    log("Starting crawler.");
    await startCrawler(process.env.CRAWLER_NAME);
    log("Crawler started.", { type: "success" });

    log("Waiting for crawler to finish running. This can take a while.");
    await waitForCrawler(getCrawler, process.env.CRAWLER_NAME);
    log("Crawler ready.", { type: "success" });

    return { ...context };
  };
```
Daftar informasi tentang database dan tabel di Anda AWS Glue Data Catalog.  

```
const getDatabase = (name) => {
  const client = new GlueClient({});

  const command = new GetDatabaseCommand({
    Name: name,
  });

  return client.send(command);
};

const getTables = (databaseName) => {
  const client = new GlueClient({});

  const command = new GetTablesCommand({
    DatabaseName: databaseName,
  });

  return client.send(command);
};

const makeGetDatabaseStep =
  ({ getDatabase }) =>
  async (context) => {
    const {
      Database: { Name },
    } = await getDatabase(process.env.DATABASE_NAME);
    log(`Database: ${Name}`);
    return { ...context };
  };

/**
 * @param {{ getTables: () => Promise<import('@aws-sdk/client-glue').GetTablesCommandOutput}} config
 */
const makeGetTablesStep =
  ({ getTables }) =>
  async (context) => {
    const { TableList } = await getTables(process.env.DATABASE_NAME);
    log("Tables:");
    log(TableList.map((table) => `  • ${table.Name}\n`));
    return { ...context };
  };
```
Buat dan jalankan job yang mengekstrak data CSV dari bucket Amazon S3 sumber, mengubahnya dengan menghapus dan mengganti nama bidang, dan memuat output berformat JSON ke bucket Amazon S3 lainnya.  

```
const createJob = (name, role, scriptBucketName, scriptKey) => {
  const client = new GlueClient({});

  const command = new CreateJobCommand({
    Name: name,
    Role: role,
    Command: {
      Name: "glueetl",
      PythonVersion: "3",
      ScriptLocation: `s3://${scriptBucketName}/${scriptKey}`,
    },
    GlueVersion: "3.0",
  });

  return client.send(command);
};

const startJobRun = (jobName, dbName, tableName, bucketName) => {
  const client = new GlueClient({});

  const command = new StartJobRunCommand({
    JobName: jobName,
    Arguments: {
      "--input_database": dbName,
      "--input_table": tableName,
      "--output_bucket_url": `s3://${bucketName}/`,
    },
  });

  return client.send(command);
};

const makeCreateJobStep =
  ({ createJob }) =>
  async (context) => {
    log("Creating Job.");
    await createJob(
      process.env.JOB_NAME,
      process.env.ROLE_NAME,
      process.env.BUCKET_NAME,
      process.env.PYTHON_SCRIPT_KEY,
    );
    log("Job created.", { type: "success" });

    return { ...context };
  };

/**
 * @param {(name: string, runId: string) => Promise<import('@aws-sdk/client-glue').GetJobRunCommandOutput> }  getJobRun
 * @param {string} jobName
 * @param {string} jobRunId
 */
const waitForJobRun = async (getJobRun, jobName, jobRunId) => {
  const waitTimeInSeconds = 30;
  const { JobRun } = await getJobRun(jobName, jobRunId);

  if (!JobRun) {
    throw new Error(`Job run with id ${jobRunId} not found.`);
  }

  switch (JobRun.JobRunState) {
    case "FAILED":
    case "TIMEOUT":
    case "STOPPED":
    case "ERROR":
      throw new Error(
        `Job ${JobRun.JobRunState}. Error: ${JobRun.ErrorMessage}`,
      );
    case "SUCCEEDED":
      return;
    default:
      break;
  }

  log(
    `Job ${JobRun.JobRunState}. Waiting ${waitTimeInSeconds} more seconds...`,
  );
  await wait(waitTimeInSeconds);
  return waitForJobRun(getJobRun, jobName, jobRunId);
};

/**
 * @param {{ prompter: { prompt: () => Promise<{ shouldOpen: boolean }>} }} context
 */
const promptToOpen = async (context) => {
  const { shouldOpen } = await context.prompter.prompt({
    name: "shouldOpen",
    type: "confirm",
    message: "Open the output bucket in your browser?",
  });

  if (shouldOpen) {
    return open(
      `https://s3.console.aws.amazon.com/s3/buckets/${process.env.BUCKET_NAME} to view the output.`,
    );
  }
};

const makeStartJobRunStep =
  ({ startJobRun, getJobRun }) =>
  async (context) => {
    log("Starting job.");
    const { JobRunId } = await startJobRun(
      process.env.JOB_NAME,
      process.env.DATABASE_NAME,
      process.env.TABLE_NAME,
      process.env.BUCKET_NAME,
    );
    log("Job started.", { type: "success" });

    log("Waiting for job to finish running. This can take a while.");
    await waitForJobRun(getJobRun, process.env.JOB_NAME, JobRunId);
    log("Job run succeeded.", { type: "success" });

    await promptToOpen(context);

    return { ...context };
  };
```
Buat daftar informasi tentang pekerjaan berjalan dan lihat beberapa data yang diubah.  

```
const getJobRuns = (jobName) => {
  const client = new GlueClient({});
  const command = new GetJobRunsCommand({
    JobName: jobName,
  });

  return client.send(command);
};

const getJobRun = (jobName, jobRunId) => {
  const client = new GlueClient({});
  const command = new GetJobRunCommand({
    JobName: jobName,
    RunId: jobRunId,
  });

  return client.send(command);
};

/**
 * @typedef {{ prompter: { prompt: () => Promise<{jobName: string}> } }} Context
 */

/**
 * @typedef {() => Promise<import('@aws-sdk/client-glue').GetJobRunCommandOutput>} getJobRun
 */

/**
 * @typedef {() => Promise<import('@aws-sdk/client-glue').GetJobRunsCommandOutput} getJobRuns
 */

/**
 *
 * @param {getJobRun} getJobRun
 * @param {string} jobName
 * @param {string} jobRunId
 */
const logJobRunDetails = async (getJobRun, jobName, jobRunId) => {
  const { JobRun } = await getJobRun(jobName, jobRunId);
  log(JobRun, { type: "object" });
};

/**
 *
 * @param {{getJobRuns: getJobRuns, getJobRun: getJobRun }} funcs
 */
const makePickJobRunStep =
  ({ getJobRuns, getJobRun }) =>
  async (/** @type { Context } */ context) => {
    if (context.selectedJobName) {
      const { JobRuns } = await getJobRuns(context.selectedJobName);

      const { jobRunId } = await context.prompter.prompt({
        name: "jobRunId",
        type: "list",
        message: "Select a job run to see details.",
        choices: JobRuns.map((run) => run.Id),
      });

      logJobRunDetails(getJobRun, context.selectedJobName, jobRunId);
    }

    return { ...context };
  };
```
Hapus semua sumber daya yang dibuat oleh demo.  

```
const deleteJob = (jobName) => {
  const client = new GlueClient({});

  const command = new DeleteJobCommand({
    JobName: jobName,
  });

  return client.send(command);
};

const deleteTable = (databaseName, tableName) => {
  const client = new GlueClient({});

  const command = new DeleteTableCommand({
    DatabaseName: databaseName,
    Name: tableName,
  });

  return client.send(command);
};

const deleteDatabase = (databaseName) => {
  const client = new GlueClient({});

  const command = new DeleteDatabaseCommand({
    Name: databaseName,
  });

  return client.send(command);
};

const deleteCrawler = (crawlerName) => {
  const client = new GlueClient({});

  const command = new DeleteCrawlerCommand({
    Name: crawlerName,
  });

  return client.send(command);
};

/**
 *
 * @param {import('../../../actions/delete-job.js').deleteJob} deleteJobFn
 * @param {string[]} jobNames
 * @param {{ prompter: { prompt: () => Promise<any> }}} context
 */
const handleDeleteJobs = async (deleteJobFn, jobNames, context) => {
  /**
   * @type {{ selectedJobNames: string[] }}
   */
  const { selectedJobNames } = await context.prompter.prompt({
    name: "selectedJobNames",
    type: "checkbox",
    message: "Let's clean up jobs. Select jobs to delete.",
    choices: jobNames,
  });

  if (selectedJobNames.length === 0) {
    log("No jobs selected.");
  } else {
    log("Deleting jobs.");
    await Promise.all(
      selectedJobNames.map((n) => deleteJobFn(n).catch(console.error)),
    );
    log("Jobs deleted.", { type: "success" });
  }
};

/**
 * @param {{
 *   listJobs: import('../../../actions/list-jobs.js').listJobs,
 *   deleteJob: import('../../../actions/delete-job.js').deleteJob
 * }} config
 */
const makeCleanUpJobsStep =
  ({ listJobs, deleteJob }) =>
  async (context) => {
    const { JobNames } = await listJobs();
    if (JobNames.length > 0) {
      await handleDeleteJobs(deleteJob, JobNames, context);
    }

    return { ...context };
  };

/**
 * @param {import('../../../actions/delete-table.js').deleteTable} deleteTable
 * @param {string} databaseName
 * @param {string[]} tableNames
 */
const deleteTables = (deleteTable, databaseName, tableNames) =>
  Promise.all(
    tableNames.map((tableName) =>
      deleteTable(databaseName, tableName).catch(console.error),
    ),
  );

/**
 * @param {{
 *  getTables: import('../../../actions/get-tables.js').getTables,
 *  deleteTable: import('../../../actions/delete-table.js').deleteTable
 * }} config
 */
const makeCleanUpTablesStep =
  ({ getTables, deleteTable }) =>
  /**
   * @param {{ prompter: { prompt: () => Promise<any>}}} context
   */
  async (context) => {
    const { TableList } = await getTables(process.env.DATABASE_NAME).catch(
      () => ({ TableList: null }),
    );

    if (TableList && TableList.length > 0) {
      /**
       * @type {{ tableNames: string[] }}
       */
      const { tableNames } = await context.prompter.prompt({
        name: "tableNames",
        type: "checkbox",
        message: "Let's clean up tables. Select tables to delete.",
        choices: TableList.map((t) => t.Name),
      });

      if (tableNames.length === 0) {
        log("No tables selected.");
      } else {
        log("Deleting tables.");
        await deleteTables(deleteTable, process.env.DATABASE_NAME, tableNames);
        log("Tables deleted.", { type: "success" });
      }
    }

    return { ...context };
  };

/**
 * @param {import('../../../actions/delete-database.js').deleteDatabase} deleteDatabase
 * @param {string[]} databaseNames
 */
const deleteDatabases = (deleteDatabase, databaseNames) =>
  Promise.all(
    databaseNames.map((dbName) => deleteDatabase(dbName).catch(console.error)),
  );

/**
 * @param {{
 *   getDatabases: import('../../../actions/get-databases.js').getDatabases
 *   deleteDatabase: import('../../../actions/delete-database.js').deleteDatabase
 * }} config
 */
const makeCleanUpDatabasesStep =
  ({ getDatabases, deleteDatabase }) =>
  /**
   * @param {{ prompter: { prompt: () => Promise<any>}} context
   */
  async (context) => {
    const { DatabaseList } = await getDatabases();

    if (DatabaseList.length > 0) {
      /** @type {{ dbNames: string[] }} */
      const { dbNames } = await context.prompter.prompt({
        name: "dbNames",
        type: "checkbox",
        message: "Let's clean up databases. Select databases to delete.",
        choices: DatabaseList.map((db) => db.Name),
      });

      if (dbNames.length === 0) {
        log("No databases selected.");
      } else {
        log("Deleting databases.");
        await deleteDatabases(deleteDatabase, dbNames);
        log("Databases deleted.", { type: "success" });
      }
    }

    return { ...context };
  };

const cleanUpCrawlerStep = async (context) => {
  log("Deleting crawler.");

  try {
    await deleteCrawler(process.env.CRAWLER_NAME);
    log("Crawler deleted.", { type: "success" });
  } catch (err) {
    if (err.name === "EntityNotFoundException") {
      log("Crawler is already deleted.");
    } else {
      throw err;
    }
  }

  return { ...context };
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CreateCrawler](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/CreateCrawlerCommand)
  + [CreateJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/CreateJobCommand)
  + [DeleteCrawler](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/DeleteCrawlerCommand)
  + [DeleteDatabase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/DeleteDatabaseCommand)
  + [DeleteJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/DeleteJobCommand)
  + [DeleteTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/DeleteTableCommand)
  + [GetCrawler](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetCrawlerCommand)
  + [GetDatabase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetDatabaseCommand)
  + [GetDatabases](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetDatabasesCommand)
  + [GetJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetJobCommand)
  + [GetJobRun](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetJobRunCommand)
  + [GetJobRuns](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetJobRunsCommand)
  + [GetTables](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetTablesCommand)
  + [ListJobs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/ListJobsCommand)
  + [StartCrawler](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/StartCrawlerCommand)
  + [StartJobRun](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/StartJobRunCommand)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const createCrawler = (name, role, dbName, tablePrefix, s3TargetPath) => {
  const client = new GlueClient({});

  const command = new CreateCrawlerCommand({
    Name: name,
    Role: role,
    DatabaseName: dbName,
    TablePrefix: tablePrefix,
    Targets: {
      S3Targets: [{ Path: s3TargetPath }],
    },
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/CreateCrawlerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateJob`
<a name="glue_CreateJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const createJob = (name, role, scriptBucketName, scriptKey) => {
  const client = new GlueClient({});

  const command = new CreateJobCommand({
    Name: name,
    Role: role,
    Command: {
      Name: "glueetl",
      PythonVersion: "3",
      ScriptLocation: `s3://${scriptBucketName}/${scriptKey}`,
    },
    GlueVersion: "3.0",
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/CreateJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const deleteCrawler = (crawlerName) => {
  const client = new GlueClient({});

  const command = new DeleteCrawlerCommand({
    Name: crawlerName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/DeleteCrawlerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const deleteDatabase = (databaseName) => {
  const client = new GlueClient({});

  const command = new DeleteDatabaseCommand({
    Name: databaseName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/DeleteDatabaseCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteJob`
<a name="glue_DeleteJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const deleteJob = (jobName) => {
  const client = new GlueClient({});

  const command = new DeleteJobCommand({
    JobName: jobName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [DeleteJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/DeleteJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteTable`
<a name="glue_DeleteTable_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const deleteTable = (databaseName, tableName) => {
  const client = new GlueClient({});

  const command = new DeleteTableCommand({
    DatabaseName: databaseName,
    Name: tableName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/DeleteTableCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetCrawler`
<a name="glue_GetCrawler_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const getCrawler = (name) => {
  const client = new GlueClient({});

  const command = new GetCrawlerCommand({
    Name: name,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetCrawler](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetCrawlerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetDatabase`
<a name="glue_GetDatabase_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const getDatabase = (name) => {
  const client = new GlueClient({});

  const command = new GetDatabaseCommand({
    Name: name,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetDatabase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetDatabaseCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetDatabases`
<a name="glue_GetDatabases_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabases`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const getDatabases = () => {
  const client = new GlueClient({});

  const command = new GetDatabasesCommand({});

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetDatabases](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetDatabasesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetJob`
<a name="glue_GetJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const getJob = (jobName) => {
  const client = new GlueClient({});

  const command = new GetJobCommand({
    JobName: jobName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetJobRun`
<a name="glue_GetJobRun_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const getJobRun = (jobName, jobRunId) => {
  const client = new GlueClient({});
  const command = new GetJobRunCommand({
    JobName: jobName,
    RunId: jobRunId,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetJobRun](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetJobRunCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetJobRuns`
<a name="glue_GetJobRuns_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const getJobRuns = (jobName) => {
  const client = new GlueClient({});
  const command = new GetJobRunsCommand({
    JobName: jobName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetJobRuns](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetJobRunsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetTables`
<a name="glue_GetTables_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const getTables = (databaseName) => {
  const client = new GlueClient({});

  const command = new GetTablesCommand({
    DatabaseName: databaseName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetTables](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/GetTablesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListJobs`
<a name="glue_ListJobs_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const listJobs = () => {
  const client = new GlueClient({});

  const command = new ListJobsCommand({});

  return client.send(command);
};
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/ListJobsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartCrawler`
<a name="glue_StartCrawler_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const startCrawler = (name) => {
  const client = new GlueClient({});

  const command = new StartCrawlerCommand({
    Name: name,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [StartCrawler](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/StartCrawlerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartJobRun`
<a name="glue_StartJobRun_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/glue#code-examples). 

```
const startJobRun = (jobName, dbName, tableName, bucketName) => {
  const client = new GlueClient({});

  const command = new StartJobRunCommand({
    JobName: jobName,
    Arguments: {
      "--input_database": dbName,
      "--input_table": tableName,
      "--output_bucket_url": `s3://${bucketName}/`,
    },
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [StartJobRun](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/glue/command/StartJobRunCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# HealthImaging contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_medical-imaging_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with HealthImaging.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo HealthImaging
<a name="medical-imaging_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan HealthImaging.

**SDK untuk JavaScript (v3)**  

```
import {
  ListDatastoresCommand,
  MedicalImagingClient,
} from "@aws-sdk/client-medical-imaging";

// When no region or credentials are provided, the SDK will use the
// region and credentials from the local AWS config.
const client = new MedicalImagingClient({});

export const helloMedicalImaging = async () => {
  const command = new ListDatastoresCommand({});

  const { datastoreSummaries } = await client.send(command);
  console.log("Datastores: ");
  console.log(datastoreSummaries.map((item) => item.datastoreName).join("\n"));
  return datastoreSummaries;
};
```
+  Untuk detail API, lihat [ListDatastores](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/ListDatastoresCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

## Tindakan
<a name="actions"></a>

### `CopyImageSet`
<a name="medical-imaging_CopyImageSet_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyImageSet`.

**SDK untuk JavaScript (v3)**  
Fungsi utilitas untuk menyalin set gambar.  

```
import { CopyImageSetCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The ID of the data store.
 * @param {string} imageSetId - The source image set ID.
 * @param {string} sourceVersionId - The source version ID.
 * @param {string} destinationImageSetId - The optional ID of the destination image set.
 * @param {string} destinationVersionId - The optional version ID of the destination image set.
 * @param {boolean} force - Force the copy action.
 * @param {[string]} copySubsets - A subset of instance IDs to copy.
 */
export const copyImageSet = async (
  datastoreId = "xxxxxxxxxxx",
  imageSetId = "xxxxxxxxxxxx",
  sourceVersionId = "1",
  destinationImageSetId = "",
  destinationVersionId = "",
  force = false,
  copySubsets = [],
) => {
  try {
    const params = {
      datastoreId: datastoreId,
      sourceImageSetId: imageSetId,
      copyImageSetInformation: {
        sourceImageSet: { latestVersionId: sourceVersionId },
      },
      force: force,
    };
    if (destinationImageSetId !== "" && destinationVersionId !== "") {
      params.copyImageSetInformation.destinationImageSet = {
        imageSetId: destinationImageSetId,
        latestVersionId: destinationVersionId,
      };
    }

    if (copySubsets.length > 0) {
      let copySubsetsJson;
      copySubsetsJson = {
        SchemaVersion: 1.1,
        Study: {
          Series: {
            imageSetId: {
              Instances: {},
            },
          },
        },
      };

      for (let i = 0; i < copySubsets.length; i++) {
        copySubsetsJson.Study.Series.imageSetId.Instances[copySubsets[i]] = {};
      }

      params.copyImageSetInformation.dicomCopies = copySubsetsJson;
    }

    const response = await medicalImagingClient.send(
      new CopyImageSetCommand(params),
    );
    console.log(response);
    // {
    //     '$metadata': {
    //         httpStatusCode: 200,
    //         requestId: 'd9b219ce-cc48-4a44-a5b2-c5c3068f1ee8',
    //         extendedRequestId: undefined,
    //         cfId: undefined,
    //         attempts: 1,
    //         totalRetryDelay: 0
    //      },
    //       datastoreId: 'xxxxxxxxxxxxxx',
    //       destinationImageSetProperties: {
    //             createdAt: 2023-09-27T19:46:21.824Z,
    //             imageSetArn: 'arn:aws:medical-imaging:us-east-1:xxxxxxxxxxx:datastore/xxxxxxxxxxxxx/imageset/xxxxxxxxxxxxxxxxxxx',
    //             imageSetId: 'xxxxxxxxxxxxxxx',
    //             imageSetState: 'LOCKED',
    //             imageSetWorkflowStatus: 'COPYING',
    //             latestVersionId: '1',
    //             updatedAt: 2023-09-27T19:46:21.824Z
    //       },
    //       sourceImageSetProperties: {
    //             createdAt: 2023-09-22T14:49:26.427Z,
    //             imageSetArn: 'arn:aws:medical-imaging:us-east-1:xxxxxxxxxxx:datastore/xxxxxxxxxxxxx/imageset/xxxxxxxxxxxxxxxx',
    //             imageSetId: 'xxxxxxxxxxxxxxxx',
    //             imageSetState: 'LOCKED',
    //             imageSetWorkflowStatus: 'COPYING_WITH_READ_ONLY_ACCESS',
    //             latestVersionId: '4',
    //             updatedAt: 2023-09-27T19:46:21.824Z
    //      }
    // }
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
Salin set gambar tanpa tujuan.  

```
  await copyImageSet(
    "12345678901234567890123456789012",
    "12345678901234567890123456789012",
    "1",
  );
```
Salin set gambar dengan tujuan.  

```
  await copyImageSet(
    "12345678901234567890123456789012",
    "12345678901234567890123456789012",
    "1",
    "12345678901234567890123456789012",
    "1",
    false,
  );
```
Salin subset dari kumpulan gambar dengan tujuan dan paksa salinannya.  

```
  await copyImageSet(
    "12345678901234567890123456789012",
    "12345678901234567890123456789012",
    "1",
    "12345678901234567890123456789012",
    "1",
    true,
    ["12345678901234567890123456789012", "11223344556677889900112233445566"],
  );
```
+  Untuk detail API, lihat [CopyImageSet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/CopyImageSetCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `CreateDatastore`
<a name="medical-imaging_CreateDatastore_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatastore`.

**SDK untuk JavaScript (v3)**  

```
import { CreateDatastoreCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreName - The name of the data store to create.
 */
export const createDatastore = async (datastoreName = "DATASTORE_NAME") => {
  const response = await medicalImagingClient.send(
    new CreateDatastoreCommand({ datastoreName: datastoreName }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //       httpStatusCode: 200,
  //       requestId: 'a71cd65f-2382-49bf-b682-f9209d8d399b',
  //       extendedRequestId: undefined,
  //       cfId: undefined,
  //       attempts: 1,
  //       totalRetryDelay: 0
  //    },
  //    datastoreId: 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
  //    datastoreStatus: 'CREATING'
  // }
  return response;
};
```
+  Untuk detail API, lihat [CreateDatastore](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/CreateDatastoreCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `DeleteDatastore`
<a name="medical-imaging_DeleteDatastore_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatastore`.

**SDK untuk JavaScript (v3)**  

```
import { DeleteDatastoreCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The ID of the data store to delete.
 */
export const deleteDatastore = async (datastoreId = "DATASTORE_ID") => {
  const response = await medicalImagingClient.send(
    new DeleteDatastoreCommand({ datastoreId }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //           httpStatusCode: 200,
  //           requestId: 'f5beb409-678d-48c9-9173-9a001ee1ebb1',
  //           extendedRequestId: undefined,
  //           cfId: undefined,
  //           attempts: 1,
  //           totalRetryDelay: 0
  //        },
  //     datastoreId: 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
  //     datastoreStatus: 'DELETING'
  // }

  return response;
};
```
+  Untuk detail API, lihat [DeleteDatastore](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/DeleteDatastoreCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `DeleteImageSet`
<a name="medical-imaging_DeleteImageSet_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteImageSet`.

**SDK untuk JavaScript (v3)**  

```
import { DeleteImageSetCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The data store ID.
 * @param {string} imageSetId - The image set ID.
 */
export const deleteImageSet = async (
  datastoreId = "xxxxxxxxxxxxxxxx",
  imageSetId = "xxxxxxxxxxxxxxxx",
) => {
  const response = await medicalImagingClient.send(
    new DeleteImageSetCommand({
      datastoreId: datastoreId,
      imageSetId: imageSetId,
    }),
  );
  console.log(response);
  // {
  //    '$metadata': {
  //         httpStatusCode: 200,
  //         requestId: '6267bbd2-eaa5-4a50-8ee8-8fddf535cf73',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //     },
  //     datastoreId: 'xxxxxxxxxxxxxxxx',
  //     imageSetId: 'xxxxxxxxxxxxxxx',
  //     imageSetState: 'LOCKED',
  //     imageSetWorkflowStatus: 'DELETING'
  // }
  return response;
};
```
+  Untuk detail API, lihat [DeleteImageSet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/DeleteImageSetCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `GetDICOMImportJob`
<a name="medical-imaging_GetDICOMImportJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDICOMImportJob`.

**SDK untuk JavaScript (v3)**  

```
import { GetDICOMImportJobCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The ID of the data store.
 * @param {string} jobId - The ID of the import job.
 */
export const getDICOMImportJob = async (
  datastoreId = "xxxxxxxxxxxxxxxxxxxx",
  jobId = "xxxxxxxxxxxxxxxxxxxx",
) => {
  const response = await medicalImagingClient.send(
    new GetDICOMImportJobCommand({ datastoreId: datastoreId, jobId: jobId }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //     httpStatusCode: 200,
  //         requestId: 'a2637936-78ea-44e7-98b8-7a87d95dfaee',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  // },
  //     jobProperties: {
  //         dataAccessRoleArn: 'arn:aws:iam::xxxxxxxxxxxx:role/dicom_import',
  //             datastoreId: 'xxxxxxxxxxxxxxxxxxxxxxxxx',
  //             endedAt: 2023-09-19T17:29:21.753Z,
  //             inputS3Uri: 's3://healthimaging-source/CTStudy/',
  //             jobId: ''xxxxxxxxxxxxxxxxxxxxxxxxx'',
  //             jobName: 'job_1',
  //             jobStatus: 'COMPLETED',
  //             outputS3Uri: 's3://health-imaging-dest/ouput_ct/'xxxxxxxxxxxxxxxxxxxxxxxxx'-DicomImport-'xxxxxxxxxxxxxxxxxxxxxxxxx'/',
  //             submittedAt: 2023-09-19T17:27:25.143Z
  //     }
  // }

  return response;
};
```
+  Untuk detail API, lihat [Mendapatkan DICOMImport Job](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/GetDICOMImportJobCommand) di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `GetDatastore`
<a name="medical-imaging_GetDatastore_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatastore`.

**SDK untuk JavaScript (v3)**  

```
import { GetDatastoreCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreID - The ID of the data store.
 */
export const getDatastore = async (datastoreID = "DATASTORE_ID") => {
  const response = await medicalImagingClient.send(
    new GetDatastoreCommand({ datastoreId: datastoreID }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //       httpStatusCode: 200,
  //       requestId: '55ea7d2e-222c-4a6a-871e-4f591f40cadb',
  //       extendedRequestId: undefined,
  //       cfId: undefined,
  //       attempts: 1,
  //       totalRetryDelay: 0
  //    },
  //   datastoreProperties: {
  //        createdAt: 2023-08-04T18:50:36.239Z,
  //         datastoreArn: 'arn:aws:medical-imaging:us-east-1:xxxxxxxxx:datastore/xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
  //         datastoreId: 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
  //         datastoreName: 'my_datastore',
  //         datastoreStatus: 'ACTIVE',
  //         updatedAt: 2023-08-04T18:50:36.239Z
  //   }
  // }
  return response.datastoreProperties;
};
```
+  Untuk detail API, lihat [GetDatastore](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/GetDatastoreCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `GetImageFrame`
<a name="medical-imaging_GetImageFrame_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageFrame`.

**SDK untuk JavaScript (v3)**  

```
import { GetImageFrameCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} imageFrameFileName - The name of the file for the HTJ2K-encoded image frame.
 * @param {string} datastoreID - The data store's ID.
 * @param {string} imageSetID - The image set's ID.
 * @param {string} imageFrameID - The image frame's ID.
 */
export const getImageFrame = async (
  imageFrameFileName = "image.jph",
  datastoreID = "DATASTORE_ID",
  imageSetID = "IMAGE_SET_ID",
  imageFrameID = "IMAGE_FRAME_ID",
) => {
  const response = await medicalImagingClient.send(
    new GetImageFrameCommand({
      datastoreId: datastoreID,
      imageSetId: imageSetID,
      imageFrameInformation: { imageFrameId: imageFrameID },
    }),
  );
  const buffer = await response.imageFrameBlob.transformToByteArray();
  writeFileSync(imageFrameFileName, buffer);

  console.log(response);
  // {
  //     '$metadata': {
  //         httpStatusCode: 200,
  //         requestId: 'e4ab42a5-25a3-4377-873f-374ecf4380e1',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //     },
  //     contentType: 'application/octet-stream',
  //     imageFrameBlob: <ref *1> IncomingMessage {}
  // }
  return response;
};
```
+  Untuk detail API, lihat [GetImageFrame](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/GetImageFrameCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `GetImageSet`
<a name="medical-imaging_GetImageSet_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSet`.

**SDK untuk JavaScript (v3)**  

```
import { GetImageSetCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The ID of the data store.
 * @param {string} imageSetId - The ID of the image set.
 * @param {string} imageSetVersion - The optional version of the image set.
 *
 */
export const getImageSet = async (
  datastoreId = "xxxxxxxxxxxxxxx",
  imageSetId = "xxxxxxxxxxxxxxx",
  imageSetVersion = "",
) => {
  const params = { datastoreId: datastoreId, imageSetId: imageSetId };
  if (imageSetVersion !== "") {
    params.imageSetVersion = imageSetVersion;
  }
  const response = await medicalImagingClient.send(
    new GetImageSetCommand(params),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //     httpStatusCode: 200,
  //         requestId: '0615c161-410d-4d06-9d8c-6e1241bb0a5a',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  // },
  //     createdAt: 2023-09-22T14:49:26.427Z,
  //     datastoreId: 'xxxxxxxxxxxxxxx',
  //     imageSetArn: 'arn:aws:medical-imaging:us-east-1:xxxxxxxxxx:datastore/xxxxxxxxxxxxxxxxxxxx/imageset/xxxxxxxxxxxxxxxxxxxx',
  //     imageSetId: 'xxxxxxxxxxxxxxx',
  //     imageSetState: 'ACTIVE',
  //     imageSetWorkflowStatus: 'CREATED',
  //     updatedAt: 2023-09-22T14:49:26.427Z,
  //     versionId: '1'
  // }

  return response;
};
```
+  Untuk detail API, lihat [GetImageSet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/GetImageSetCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `GetImageSetMetadata`
<a name="medical-imaging_GetImageSetMetadata_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSetMetadata`.

**SDK untuk JavaScript (v3)**  
Fungsi utilitas untuk mendapatkan metadata set gambar.  

```
import { GetImageSetMetadataCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";
import { writeFileSync } from "node:fs";

/**
 * @param {string} metadataFileName - The name of the file for the gzipped metadata.
 * @param {string} datastoreId - The ID of the data store.
 * @param {string} imagesetId - The ID of the image set.
 * @param {string} versionID - The optional version ID of the image set.
 */
export const getImageSetMetadata = async (
  metadataFileName = "metadata.json.gzip",
  datastoreId = "xxxxxxxxxxxxxx",
  imagesetId = "xxxxxxxxxxxxxx",
  versionID = "",
) => {
  const params = { datastoreId: datastoreId, imageSetId: imagesetId };

  if (versionID) {
    params.versionID = versionID;
  }

  const response = await medicalImagingClient.send(
    new GetImageSetMetadataCommand(params),
  );
  const buffer = await response.imageSetMetadataBlob.transformToByteArray();
  writeFileSync(metadataFileName, buffer);

  console.log(response);
  // {
  //     '$metadata': {
  //     httpStatusCode: 200,
  //         requestId: '5219b274-30ff-4986-8cab-48753de3a599',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  // },
  //     contentType: 'application/json',
  //     contentEncoding: 'gzip',
  //     imageSetMetadataBlob: <ref *1> IncomingMessage {}
  // }

  return response;
};
```
Dapatkan metadata set gambar tanpa versi.  

```
  try {
    await getImageSetMetadata(
      "metadata.json.gzip",
      "12345678901234567890123456789012",
      "12345678901234567890123456789012",
    );
  } catch (err) {
    console.log("Error", err);
  }
```
Dapatkan metadata set gambar dengan versi.  

```
  try {
    await getImageSetMetadata(
      "metadata2.json.gzip",
      "12345678901234567890123456789012",
      "12345678901234567890123456789012",
      "1",
    );
  } catch (err) {
    console.log("Error", err);
  }
```
+  Untuk detail API, lihat [GetImageSetMetadata](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/GetImageSetMetadataCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `ListDICOMImportJobs`
<a name="medical-imaging_ListDICOMImportJobs_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDICOMImportJobs`.

**SDK untuk JavaScript (v3)**  

```
import { paginateListDICOMImportJobs } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The ID of the data store.
 */
export const listDICOMImportJobs = async (
  datastoreId = "xxxxxxxxxxxxxxxxxx",
) => {
  const paginatorConfig = {
    client: medicalImagingClient,
    pageSize: 50,
  };

  const commandParams = { datastoreId: datastoreId };
  const paginator = paginateListDICOMImportJobs(paginatorConfig, commandParams);

  const jobSummaries = [];
  for await (const page of paginator) {
    // Each page contains a list of `jobSummaries`. The list is truncated if is larger than `pageSize`.
    jobSummaries.push(...page.jobSummaries);
    console.log(page);
  }
  // {
  //     '$metadata': {
  //     httpStatusCode: 200,
  //         requestId: '3c20c66e-0797-446a-a1d8-91b742fd15a0',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  // },
  //     jobSummaries: [
  //         {
  //             dataAccessRoleArn: 'arn:aws:iam::xxxxxxxxxxxx:role/dicom_import',
  //             datastoreId: 'xxxxxxxxxxxxxxxxxxxxxxxxx',
  //             endedAt: 2023-09-22T14:49:51.351Z,
  //             jobId: 'xxxxxxxxxxxxxxxxxxxxxxxxx',
  //             jobName: 'test-1',
  //             jobStatus: 'COMPLETED',
  //             submittedAt: 2023-09-22T14:48:45.767Z
  // }
  // ]}

  return jobSummaries;
};
```
+  Untuk detail API, lihat [Daftar DICOMImport Pekerjaan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/ListDICOMImportJobsCommand) di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `ListDatastores`
<a name="medical-imaging_ListDatastores_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatastores`.

**SDK untuk JavaScript (v3)**  

```
import { paginateListDatastores } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

export const listDatastores = async () => {
  const paginatorConfig = {
    client: medicalImagingClient,
    pageSize: 50,
  };

  const commandParams = {};
  const paginator = paginateListDatastores(paginatorConfig, commandParams);

  /**
   * @type {import("@aws-sdk/client-medical-imaging").DatastoreSummary[]}
   */
  const datastoreSummaries = [];
  for await (const page of paginator) {
    // Each page contains a list of `jobSummaries`. The list is truncated if is larger than `pageSize`.
    datastoreSummaries.push(...page.datastoreSummaries);
    console.log(page);
  }
  // {
  //   '$metadata': {
  //       httpStatusCode: 200,
  //       requestId: '6aa99231-d9c2-4716-a46e-edb830116fa3',
  //       extendedRequestId: undefined,
  //       cfId: undefined,
  //       attempts: 1,
  //       totalRetryDelay: 0
  //   },
  //   datastoreSummaries: [
  //     {
  //       createdAt: 2023-08-04T18:49:54.429Z,
  //       datastoreArn: 'arn:aws:medical-imaging:us-east-1:xxxxxxxxx:datastore/xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
  //       datastoreId: 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
  //       datastoreName: 'my_datastore',
  //       datastoreStatus: 'ACTIVE',
  //       updatedAt: 2023-08-04T18:49:54.429Z
  //     }
  //     ...
  //   ]
  // }

  return datastoreSummaries;
};
```
+  Untuk detail API, lihat [ListDatastores](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/ListDatastoresCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `ListImageSetVersions`
<a name="medical-imaging_ListImageSetVersions_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListImageSetVersions`.

**SDK untuk JavaScript (v3)**  

```
import { paginateListImageSetVersions } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The ID of the data store.
 * @param {string} imageSetId - The ID of the image set.
 */
export const listImageSetVersions = async (
  datastoreId = "xxxxxxxxxxxx",
  imageSetId = "xxxxxxxxxxxx",
) => {
  const paginatorConfig = {
    client: medicalImagingClient,
    pageSize: 50,
  };

  const commandParams = { datastoreId, imageSetId };
  const paginator = paginateListImageSetVersions(
    paginatorConfig,
    commandParams,
  );

  const imageSetPropertiesList = [];
  for await (const page of paginator) {
    // Each page contains a list of `jobSummaries`. The list is truncated if is larger than `pageSize`.
    imageSetPropertiesList.push(...page.imageSetPropertiesList);
    console.log(page);
  }
  // {
  //     '$metadata': {
  //         httpStatusCode: 200,
  //         requestId: '74590b37-a002-4827-83f2-3c590279c742',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //     },
  //     imageSetPropertiesList: [
  //         {
  //             ImageSetWorkflowStatus: 'CREATED',
  //             createdAt: 2023-09-22T14:49:26.427Z,
  //             imageSetId: 'xxxxxxxxxxxxxxxxxxxxxxx',
  //             imageSetState: 'ACTIVE',
  //             versionId: '1'
  //         }]
  // }
  return imageSetPropertiesList;
};
```
+  Untuk detail API, lihat [ListImageSetVersions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/ListImageSetVersionsCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `ListTagsForResource`
<a name="medical-imaging_ListTagsForResource_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForResource`.

**SDK untuk JavaScript (v3)**  

```
import { ListTagsForResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 */
export const listTagsForResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:abc:datastore/def/imageset/ghi",
) => {
  const response = await medicalImagingClient.send(
    new ListTagsForResourceCommand({ resourceArn: resourceArn }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //         httpStatusCode: 200,
  //         requestId: '008fc6d3-abec-4870-a155-20fa3631e645',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //     },
  //     tags: { Deployment: 'Development' }
  // }

  return response;
};
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/ListTagsForResourceCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `SearchImageSets`
<a name="medical-imaging_SearchImageSets_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchImageSets`.

**SDK untuk JavaScript (v3)**  
Fungsi utilitas untuk mencari set gambar.  

```
import { paginateSearchImageSets } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The data store's ID.
 * @param { import('@aws-sdk/client-medical-imaging').SearchFilter[] } filters - The search criteria filters.
 * @param { import('@aws-sdk/client-medical-imaging').Sort } sort - The search criteria sort.
 */
export const searchImageSets = async (
  datastoreId = "xxxxxxxx",
  searchCriteria = {},
) => {
  const paginatorConfig = {
    client: medicalImagingClient,
    pageSize: 50,
  };

  const commandParams = {
    datastoreId: datastoreId,
    searchCriteria: searchCriteria,
  };

  const paginator = paginateSearchImageSets(paginatorConfig, commandParams);

  const imageSetsMetadataSummaries = [];
  for await (const page of paginator) {
    // Each page contains a list of `jobSummaries`. The list is truncated if is larger than `pageSize`.
    imageSetsMetadataSummaries.push(...page.imageSetsMetadataSummaries);
    console.log(page);
  }
  // {
  //     '$metadata': {
  //         httpStatusCode: 200,
  //         requestId: 'f009ea9c-84ca-4749-b5b6-7164f00a5ada',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //     },
  //     imageSetsMetadataSummaries: [
  //         {
  //             DICOMTags: [Object],
  //             createdAt: "2023-09-19T16:59:40.551Z",
  //             imageSetId: '7f75e1b5c0f40eac2b24cf712f485f50',
  //             updatedAt: "2023-09-19T16:59:40.551Z",
  //             version: 1
  //         }]
  // }

  return imageSetsMetadataSummaries;
};
```
Kasus penggunaan \$11: operator EQUAL.  

```
  const datastoreId = "12345678901234567890123456789012";

  try {
    const searchCriteria = {
      filters: [
        {
          values: [{ DICOMPatientId: "1234567" }],
          operator: "EQUAL",
        },
      ],
    };

    await searchImageSets(datastoreId, searchCriteria);
  } catch (err) {
    console.error(err);
  }
```
Kasus penggunaan \$12: ANTARA operator menggunakan DICOMStudy Tanggal dan DICOMStudy Waktu.   

```
  const datastoreId = "12345678901234567890123456789012";

  try {
    const searchCriteria = {
      filters: [
        {
          values: [
            {
              DICOMStudyDateAndTime: {
                DICOMStudyDate: "19900101",
                DICOMStudyTime: "000000",
              },
            },
            {
              DICOMStudyDateAndTime: {
                DICOMStudyDate: "20230901",
                DICOMStudyTime: "000000",
              },
            },
          ],
          operator: "BETWEEN",
        },
      ],
    };

    await searchImageSets(datastoreId, searchCriteria);
  } catch (err) {
    console.error(err);
  }
```
Kasus penggunaan \$13: ANTARA operator menggunakan createDat. Studi waktu sebelumnya bertahan.   

```
  const datastoreId = "12345678901234567890123456789012";

  try {
    const searchCriteria = {
      filters: [
        {
          values: [
            { createdAt: new Date("1985-04-12T23:20:50.52Z") },
            { createdAt: new Date() },
          ],
          operator: "BETWEEN",
        },
      ],
    };

    await searchImageSets(datastoreId, searchCriteria);
  } catch (err) {
    console.error(err);
  }
```
Kasus penggunaan \$14: Operator EQUAL di DICOMSeries InstanceUID dan BETWEEN di UpdateDAT dan mengurutkan respons dalam urutan ASC di bidang UpdateDAT.   

```
  const datastoreId = "12345678901234567890123456789012";

  try {
    const searchCriteria = {
      filters: [
        {
          values: [
            { updatedAt: new Date("1985-04-12T23:20:50.52Z") },
            { updatedAt: new Date() },
          ],
          operator: "BETWEEN",
        },
        {
          values: [
            {
              DICOMSeriesInstanceUID:
                "1.1.123.123456.1.12.1.1234567890.1234.12345678.123",
            },
          ],
          operator: "EQUAL",
        },
      ],
      sort: {
        sortOrder: "ASC",
        sortField: "updatedAt",
      },
    };

    await searchImageSets(datastoreId, searchCriteria);
  } catch (err) {
    console.error(err);
  }
```
+  Untuk detail API, lihat [SearchImageSets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/SearchImageSetsCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `StartDICOMImportJob`
<a name="medical-imaging_StartDICOMImportJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDICOMImportJob`.

**SDK untuk JavaScript (v3)**  

```
import { StartDICOMImportJobCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} jobName - The name of the import job.
 * @param {string} datastoreId - The ID of the data store.
 * @param {string} dataAccessRoleArn - The Amazon Resource Name (ARN) of the role that grants permission.
 * @param {string} inputS3Uri - The URI of the S3 bucket containing the input files.
 * @param {string} outputS3Uri - The URI of the S3 bucket where the output files are stored.
 */
export const startDicomImportJob = async (
  jobName = "test-1",
  datastoreId = "12345678901234567890123456789012",
  dataAccessRoleArn = "arn:aws:iam::xxxxxxxxxxxx:role/ImportJobDataAccessRole",
  inputS3Uri = "s3://medical-imaging-dicom-input/dicom_input/",
  outputS3Uri = "s3://medical-imaging-output/job_output/",
) => {
  const response = await medicalImagingClient.send(
    new StartDICOMImportJobCommand({
      jobName: jobName,
      datastoreId: datastoreId,
      dataAccessRoleArn: dataAccessRoleArn,
      inputS3Uri: inputS3Uri,
      outputS3Uri: outputS3Uri,
    }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //     httpStatusCode: 200,
  //         requestId: '6e81d191-d46b-4e48-a08a-cdcc7e11eb79',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  // },
  //     datastoreId: 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
  //     jobId: 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
  //     jobStatus: 'SUBMITTED',
  //     submittedAt: 2023-09-22T14:48:45.767Z
  // }
  return response;
};
```
+  Untuk detail API, lihat [Memulai DICOMImport Job](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/StartDICOMImportJobCommand) di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `TagResource`
<a name="medical-imaging_TagResource_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk JavaScript (v3)**  

```
import { TagResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 * @param {Record<string,string>} tags - The tags to add to the resource as JSON.
 *                     - For example: {"Deployment" : "Development"}
 */
export const tagResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:xxxxxx:datastore/xxxxx/imageset/xxx",
  tags = {},
) => {
  const response = await medicalImagingClient.send(
    new TagResourceCommand({ resourceArn: resourceArn, tags: tags }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //        httpStatusCode: 204,
  //         requestId: '8a6de9a3-ec8e-47ef-8643-473518b19d45',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //    }
  // }

  return response;
};
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/TagResourceCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `UntagResource`
<a name="medical-imaging_UntagResource_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UntagResource`.

**SDK untuk JavaScript (v3)**  

```
import { UntagResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 * @param {string[]} tagKeys - The keys of the tags to remove.
 */
export const untagResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:xxxxxx:datastore/xxxxx/imageset/xxx",
  tagKeys = [],
) => {
  const response = await medicalImagingClient.send(
    new UntagResourceCommand({ resourceArn: resourceArn, tagKeys: tagKeys }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //        httpStatusCode: 204,
  //         requestId: '8a6de9a3-ec8e-47ef-8643-473518b19d45',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //    }
  // }

  return response;
};
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/UntagResourceCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### `UpdateImageSetMetadata`
<a name="medical-imaging_UpdateImageSetMetadata_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateImageSetMetadata`.

**SDK untuk JavaScript (v3)**  

```
import { UpdateImageSetMetadataCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} datastoreId - The ID of the HealthImaging data store.
 * @param {string} imageSetId - The ID of the HealthImaging image set.
 * @param {string} latestVersionId - The ID of the HealthImaging image set version.
 * @param {{}} updateMetadata - The metadata to update.
 * @param {boolean} force - Force the update.
 */
export const updateImageSetMetadata = async (
  datastoreId = "xxxxxxxxxx",
  imageSetId = "xxxxxxxxxx",
  latestVersionId = "1",
  updateMetadata = "{}",
  force = false,
) => {
  try {
    const response = await medicalImagingClient.send(
      new UpdateImageSetMetadataCommand({
        datastoreId: datastoreId,
        imageSetId: imageSetId,
        latestVersionId: latestVersionId,
        updateImageSetMetadataUpdates: updateMetadata,
        force: force,
      }),
    );
    console.log(response);
    // {
    //     '$metadata': {
    //     httpStatusCode: 200,
    //         requestId: '7966e869-e311-4bff-92ec-56a61d3003ea',
    //         extendedRequestId: undefined,
    //         cfId: undefined,
    //         attempts: 1,
    //         totalRetryDelay: 0
    // },
    //     createdAt: 2023-09-22T14:49:26.427Z,
    //     datastoreId: 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
    //     imageSetId: 'xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx',
    //     imageSetState: 'LOCKED',
    //     imageSetWorkflowStatus: 'UPDATING',
    //     latestVersionId: '4',
    //     updatedAt: 2023-09-27T19:41:43.494Z
    // }
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
Kasus penggunaan \$11: Menyisipkan atau memperbarui atribut dan memaksa pembaruan.  

```
    const insertAttributes = JSON.stringify({
      SchemaVersion: 1.1,
      Study: {
        DICOM: {
          StudyDescription: "CT CHEST",
        },
      },
    });

    const updateMetadata = {
      DICOMUpdates: {
        updatableAttributes: new TextEncoder().encode(insertAttributes),
      },
    };

    await updateImageSetMetadata(
      datastoreID,
      imageSetID,
      versionID,
      updateMetadata,
      true,
    );
```
Kasus penggunaan \$12: Hapus atribut.  

```
    // Attribute key and value must match the existing attribute.
    const remove_attribute = JSON.stringify({
      SchemaVersion: 1.1,
      Study: {
        DICOM: {
          StudyDescription: "CT CHEST",
        },
      },
    });

    const updateMetadata = {
      DICOMUpdates: {
        removableAttributes: new TextEncoder().encode(remove_attribute),
      },
    };

    await updateImageSetMetadata(
      datastoreID,
      imageSetID,
      versionID,
      updateMetadata,
    );
```
Use case \$13: Hapus sebuah instance.  

```
    const remove_instance = JSON.stringify({
      SchemaVersion: 1.1,
      Study: {
        Series: {
          "1.1.1.1.1.1.12345.123456789012.123.12345678901234.1": {
            Instances: {
              "1.1.1.1.1.1.12345.123456789012.123.12345678901234.1": {},
            },
          },
        },
      },
    });

    const updateMetadata = {
      DICOMUpdates: {
        removableAttributes: new TextEncoder().encode(remove_instance),
      },
    };

    await updateImageSetMetadata(
      datastoreID,
      imageSetID,
      versionID,
      updateMetadata,
    );
```
Kasus penggunaan \$14: Kembalikan ke versi sebelumnya.  

```
    const updateMetadata = {
      revertToVersionId: "1",
    };

    await updateImageSetMetadata(
      datastoreID,
      imageSetID,
      versionID,
      updateMetadata,
    );
```
+  Untuk detail API, lihat [UpdateImageSetMetadata](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/UpdateImageSetMetadataCommand)di *Referensi AWS SDK untuk JavaScript API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

## Skenario
<a name="scenarios"></a>

### Memulai dengan set gambar dan bingkai gambar
<a name="medical-imaging_Scenario_ImageSetsAndFrames_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimpor file DICOM dan mengunduh bingkai gambar di HealthImaging.

Implementasinya disusun sebagai aplikasi baris perintah. 
+ Siapkan sumber daya untuk impor DICOM.
+ Impor file DICOM ke penyimpanan data.
+ Ambil gambar yang ditetapkan IDs untuk pekerjaan impor.
+ Ambil bingkai gambar IDs untuk set gambar.
+ Unduh, dekode, dan verifikasi bingkai gambar.
+ Pembersihan sumber daya 

**SDK untuk JavaScript (v3)**  
Mengatur langkah (). index.js  

```
import {
  parseScenarioArgs,
  Scenario,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import {
  saveState,
  loadState,
} from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";

import {
  createStack,
  deployStack,
  getAccountId,
  getDatastoreName,
  getStackName,
  outputState,
  waitForStackCreation,
} from "./deploy-steps.js";
import {
  doCopy,
  selectDataset,
  copyDataset,
  outputCopiedObjects,
} from "./dataset-steps.js";
import {
  doImport,
  outputImportJobStatus,
  startDICOMImport,
  waitForImportJobCompletion,
} from "./import-steps.js";
import {
  getManifestFile,
  outputImageSetIds,
  parseManifestFile,
} from "./image-set-steps.js";
import {
  getImageSetMetadata,
  outputImageFrameIds,
} from "./image-frame-steps.js";
import { decodeAndVerifyImages, doVerify } from "./verify-steps.js";
import {
  confirmCleanup,
  deleteImageSets,
  deleteStack,
} from "./clean-up-steps.js";

const context = {};

const scenarios = {
  deploy: new Scenario(
    "Deploy Resources",
    [
      deployStack,
      getStackName,
      getDatastoreName,
      getAccountId,
      createStack,
      waitForStackCreation,
      outputState,
      saveState,
    ],
    context,
  ),
  demo: new Scenario(
    "Run Demo",
    [
      loadState,
      doCopy,
      selectDataset,
      copyDataset,
      outputCopiedObjects,
      doImport,
      startDICOMImport,
      waitForImportJobCompletion,
      outputImportJobStatus,
      getManifestFile,
      parseManifestFile,
      outputImageSetIds,
      getImageSetMetadata,
      outputImageFrameIds,
      doVerify,
      decodeAndVerifyImages,
      saveState,
    ],
    context,
  ),
  destroy: new Scenario(
    "Clean Up Resources",
    [loadState, confirmCleanup, deleteImageSets, deleteStack],
    context,
  ),
};

// Call function if run directly
import { fileURLToPath } from "node:url";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  parseScenarioArgs(scenarios, {
    name: "Health Imaging Workflow",
    description:
      "Work with DICOM images using an AWS Health Imaging data store.",
    synopsis:
      "node index.js --scenario <deploy | demo | destroy> [-h|--help] [-y|--yes] [-v|--verbose]",
  });
}
```
Menyebarkan sumber daya (deploy-steps.js).  

```
import fs from "node:fs/promises";
import path from "node:path";

import {
  CloudFormationClient,
  CreateStackCommand,
  DescribeStacksCommand,
} from "@aws-sdk/client-cloudformation";
import { STSClient, GetCallerIdentityCommand } from "@aws-sdk/client-sts";

import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

const cfnClient = new CloudFormationClient({});
const stsClient = new STSClient({});

const __dirname = path.dirname(new URL(import.meta.url).pathname);
const cfnTemplatePath = path.join(
  __dirname,
  "../../../../../scenarios/features/healthimaging_image_sets/resources/cfn_template.yaml",
);

export const deployStack = new ScenarioInput(
  "deployStack",
  "Do you want to deploy the CloudFormation stack?",
  { type: "confirm" },
);

export const getStackName = new ScenarioInput(
  "getStackName",
  "Enter a name for the CloudFormation stack:",
  { type: "input", skipWhen: (/** @type {{}} */ state) => !state.deployStack },
);

export const getDatastoreName = new ScenarioInput(
  "getDatastoreName",
  "Enter a name for the HealthImaging datastore:",
  { type: "input", skipWhen: (/** @type {{}} */ state) => !state.deployStack },
);

export const getAccountId = new ScenarioAction(
  "getAccountId",
  async (/** @type {{}} */ state) => {
    const command = new GetCallerIdentityCommand({});
    const response = await stsClient.send(command);
    state.accountId = response.Account;
  },
  {
    skipWhen: (/** @type {{}} */ state) => !state.deployStack,
  },
);

export const createStack = new ScenarioAction(
  "createStack",
  async (/** @type {{}} */ state) => {
    const stackName = state.getStackName;
    const datastoreName = state.getDatastoreName;
    const accountId = state.accountId;

    const command = new CreateStackCommand({
      StackName: stackName,
      TemplateBody: await fs.readFile(cfnTemplatePath, "utf8"),
      Capabilities: ["CAPABILITY_IAM"],
      Parameters: [
        {
          ParameterKey: "datastoreName",
          ParameterValue: datastoreName,
        },
        {
          ParameterKey: "userAccountID",
          ParameterValue: accountId,
        },
      ],
    });

    const response = await cfnClient.send(command);
    state.stackId = response.StackId;
  },
  { skipWhen: (/** @type {{}} */ state) => !state.deployStack },
);

export const waitForStackCreation = new ScenarioAction(
  "waitForStackCreation",
  async (/** @type {{}} */ state) => {
    const command = new DescribeStacksCommand({
      StackName: state.stackId,
    });

    await retry({ intervalInMs: 10000, maxRetries: 60 }, async () => {
      const response = await cfnClient.send(command);
      const stack = response.Stacks?.find(
        (s) => s.StackName === state.getStackName,
      );
      if (!stack || stack.StackStatus === "CREATE_IN_PROGRESS") {
        throw new Error("Stack creation is still in progress");
      }
      if (stack.StackStatus === "CREATE_COMPLETE") {
        state.stackOutputs = stack.Outputs?.reduce((acc, output) => {
          acc[output.OutputKey] = output.OutputValue;
          return acc;
        }, {});
      } else {
        throw new Error(
          `Stack creation failed with status: ${stack.StackStatus}`,
        );
      }
    });
  },
  {
    skipWhen: (/** @type {{}} */ state) => !state.deployStack,
  },
);

export const outputState = new ScenarioOutput(
  "outputState",
  (/** @type {{}} */ state) => {
    /**
     * @type {{ stackOutputs: { DatastoreID: string, BucketName: string, RoleArn: string }}}
     */
    const { stackOutputs } = state;
    return `Stack creation completed. Output values:
Datastore ID: ${stackOutputs?.DatastoreID}
Bucket Name: ${stackOutputs?.BucketName}
Role ARN: ${stackOutputs?.RoleArn}
    `;
  },
  { skipWhen: (/** @type {{}} */ state) => !state.deployStack },
);
```
Salin file DICOM (dataset-steps.js).  

```
import {
  S3Client,
  CopyObjectCommand,
  ListObjectsV2Command,
} from "@aws-sdk/client-s3";

import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

const s3Client = new S3Client({});

const datasetOptions = [
  {
    name: "CT of chest (2 images)",
    value: "00029d25-fb18-4d42-aaa5-a0897d1ac8f7",
  },
  {
    name: "CT of pelvis (57 images)",
    value: "00025d30-ef8f-4135-a35a-d83eff264fc1",
  },
  {
    name: "MRI of head (192 images)",
    value: "0002d261-8a5d-4e63-8e2e-0cbfac87b904",
  },
  {
    name: "MRI of breast (92 images)",
    value: "0002dd07-0b7f-4a68-a655-44461ca34096",
  },
];

/**
 * @typedef {{ stackOutputs: {
 *   BucketName: string,
 *   DatastoreID: string,
 *   doCopy: boolean
 * }}} State
 */

export const selectDataset = new ScenarioInput(
  "selectDataset",
  (state) => {
    if (!state.doCopy) {
      process.exit(0);
    }
    return "Select a DICOM dataset to import:";
  },
  {
    type: "select",
    choices: datasetOptions,
  },
);

export const doCopy = new ScenarioInput(
  "doCopy",
  "Do you want to copy images from the public dataset into your bucket?",
  {
    type: "confirm",
  },
);

export const copyDataset = new ScenarioAction(
  "copyDataset",
  async (/** @type { State } */ state) => {
    const inputBucket = state.stackOutputs.BucketName;
    const inputPrefix = "input/";
    const selectedDatasetId = state.selectDataset;

    const sourceBucket = "idc-open-data";
    const sourcePrefix = `${selectedDatasetId}`;

    const listObjectsCommand = new ListObjectsV2Command({
      Bucket: sourceBucket,
      Prefix: sourcePrefix,
    });

    const objects = await s3Client.send(listObjectsCommand);

    const copyPromises = objects.Contents.map((object) => {
      const sourceKey = object.Key;
      const destinationKey = `${inputPrefix}${sourceKey
        .split("/")
        .slice(1)
        .join("/")}`;

      const copyCommand = new CopyObjectCommand({
        Bucket: inputBucket,
        CopySource: `/${sourceBucket}/${sourceKey}`,
        Key: destinationKey,
      });

      return s3Client.send(copyCommand);
    });

    const results = await Promise.all(copyPromises);
    state.copiedObjects = results.length;
  },
);

export const outputCopiedObjects = new ScenarioOutput(
  "outputCopiedObjects",
  (state) => `${state.copiedObjects} DICOM files were copied.`,
);
```
Mulai impor ke datastore ()import-steps.js.  

```
import {
  MedicalImagingClient,
  StartDICOMImportJobCommand,
  GetDICOMImportJobCommand,
} from "@aws-sdk/client-medical-imaging";

import {
  ScenarioAction,
  ScenarioOutput,
  ScenarioInput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

/**
 * @typedef {{ stackOutputs: {
 *   BucketName: string,
 *   DatastoreID: string,
 *   RoleArn: string
 * }}} State
 */

export const doImport = new ScenarioInput(
  "doImport",
  "Do you want to import DICOM images into your datastore?",
  {
    type: "confirm",
    default: true,
  },
);

export const startDICOMImport = new ScenarioAction(
  "startDICOMImport",
  async (/** @type {State} */ state) => {
    if (!state.doImport) {
      process.exit(0);
    }
    const medicalImagingClient = new MedicalImagingClient({});
    const inputS3Uri = `s3://${state.stackOutputs.BucketName}/input/`;
    const outputS3Uri = `s3://${state.stackOutputs.BucketName}/output/`;

    const command = new StartDICOMImportJobCommand({
      dataAccessRoleArn: state.stackOutputs.RoleArn,
      datastoreId: state.stackOutputs.DatastoreID,
      inputS3Uri,
      outputS3Uri,
    });

    const response = await medicalImagingClient.send(command);
    state.importJobId = response.jobId;
  },
);

export const waitForImportJobCompletion = new ScenarioAction(
  "waitForImportJobCompletion",
  async (/** @type {State} */ state) => {
    const medicalImagingClient = new MedicalImagingClient({});
    const command = new GetDICOMImportJobCommand({
      datastoreId: state.stackOutputs.DatastoreID,
      jobId: state.importJobId,
    });

    await retry({ intervalInMs: 10000, maxRetries: 60 }, async () => {
      const response = await medicalImagingClient.send(command);
      const jobStatus = response.jobProperties?.jobStatus;
      if (!jobStatus || jobStatus === "IN_PROGRESS") {
        throw new Error("Import job is still in progress");
      }
      if (jobStatus === "COMPLETED") {
        state.importJobOutputS3Uri = response.jobProperties.outputS3Uri;
      } else {
        throw new Error(`Import job failed with status: ${jobStatus}`);
      }
    });
  },
);

export const outputImportJobStatus = new ScenarioOutput(
  "outputImportJobStatus",
  (state) =>
    `DICOM import job completed. Output location: ${state.importJobOutputS3Uri}`,
);
```
Dapatkan set gambar IDs (image-set-steps.js-).  

```
import { S3Client, GetObjectCommand } from "@aws-sdk/client-s3";

import {
  ScenarioAction,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

/**
 * @typedef {{ stackOutputs: {
 *   BucketName: string,
 *   DatastoreID: string,
 *   RoleArn: string
 * }, importJobId: string,
 * importJobOutputS3Uri: string,
 * imageSetIds: string[],
 * manifestContent: { jobSummary: { imageSetsSummary: { imageSetId: string }[] } }
 * }} State
 */

const s3Client = new S3Client({});

export const getManifestFile = new ScenarioAction(
  "getManifestFile",
  async (/** @type {State} */ state) => {
    const bucket = state.stackOutputs.BucketName;
    const prefix = `output/${state.stackOutputs.DatastoreID}-DicomImport-${state.importJobId}/`;
    const key = `${prefix}job-output-manifest.json`;

    const command = new GetObjectCommand({
      Bucket: bucket,
      Key: key,
    });

    const response = await s3Client.send(command);
    const manifestContent = await response.Body.transformToString();
    state.manifestContent = JSON.parse(manifestContent);
  },
);

export const parseManifestFile = new ScenarioAction(
  "parseManifestFile",
  (/** @type {State} */ state) => {
    const imageSetIds =
      state.manifestContent.jobSummary.imageSetsSummary.reduce((ids, next) => {
        return Object.assign({}, ids, {
          [next.imageSetId]: next.imageSetId,
        });
      }, {});
    state.imageSetIds = Object.keys(imageSetIds);
  },
);

export const outputImageSetIds = new ScenarioOutput(
  "outputImageSetIds",
  (/** @type {State} */ state) =>
    `The image sets created by this import job are: \n${state.imageSetIds
      .map((id) => `Image set: ${id}`)
      .join("\n")}`,
);
```
Dapatkan bingkai gambar IDs (image-frame-steps.js).  

```
import {
  MedicalImagingClient,
  GetImageSetMetadataCommand,
} from "@aws-sdk/client-medical-imaging";
import { gunzip } from "node:zlib";
import { promisify } from "node:util";

import {
  ScenarioAction,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

const gunzipAsync = promisify(gunzip);

/**
 * @typedef {Object} DICOMValueRepresentation
 * @property {string} name
 * @property {string} type
 * @property {string} value
 */

/**
 * @typedef {Object} ImageFrameInformation
 * @property {string} ID
 * @property {Array<{ Checksum: number, Height: number, Width: number }>} PixelDataChecksumFromBaseToFullResolution
 * @property {number} MinPixelValue
 * @property {number} MaxPixelValue
 * @property {number} FrameSizeInBytes
 */

/**
 * @typedef {Object} DICOMMetadata
 * @property {Object} DICOM
 * @property {DICOMValueRepresentation[]} DICOMVRs
 * @property {ImageFrameInformation[]} ImageFrames
 */

/**
 * @typedef {Object} Series
 * @property {{ [key: string]: DICOMMetadata }} Instances
 */

/**
 * @typedef {Object} Study
 * @property {Object} DICOM
 * @property {Series[]} Series
 */

/**
 * @typedef {Object} Patient
 * @property {Object} DICOM
 */

/**
 * @typedef {{
 *  SchemaVersion: string,
 *  DatastoreID: string,
 *  ImageSetID: string,
 *  Patient: Patient,
 *  Study: Study
 * }} ImageSetMetadata
 */

/**
 * @typedef {{ stackOutputs: {
 *   BucketName: string,
 *   DatastoreID: string,
 *   RoleArn: string
 * }, imageSetIds: string[] }} State
 */

const medicalImagingClient = new MedicalImagingClient({});

export const getImageSetMetadata = new ScenarioAction(
  "getImageSetMetadata",
  async (/** @type {State} */ state) => {
    const outputMetadata = [];

    for (const imageSetId of state.imageSetIds) {
      const command = new GetImageSetMetadataCommand({
        datastoreId: state.stackOutputs.DatastoreID,
        imageSetId,
      });

      const response = await medicalImagingClient.send(command);
      const compressedMetadataBlob =
        await response.imageSetMetadataBlob.transformToByteArray();
      const decompressedMetadata = await gunzipAsync(compressedMetadataBlob);
      const imageSetMetadata = JSON.parse(decompressedMetadata.toString());

      outputMetadata.push(imageSetMetadata);
    }

    state.imageSetMetadata = outputMetadata;
  },
);

export const outputImageFrameIds = new ScenarioOutput(
  "outputImageFrameIds",
  (/** @type {State & { imageSetMetadata: ImageSetMetadata[] }} */ state) => {
    let output = "";

    for (const metadata of state.imageSetMetadata) {
      const imageSetId = metadata.ImageSetID;
      /** @type {DICOMMetadata[]} */
      const instances = Object.values(metadata.Study.Series).flatMap(
        (series) => {
          return Object.values(series.Instances);
        },
      );
      const imageFrameIds = instances.flatMap((instance) =>
        instance.ImageFrames.map((frame) => frame.ID),
      );

      output += `Image set ID: ${imageSetId}\nImage frame IDs:\n${imageFrameIds.join(
        "\n",
      )}\n\n`;
    }

    return output;
  },
);
```
Verifikasi bingkai gambar (verify-steps.js). Pustaka [Verifikasi Data AWS HealthImaging Pixel](https://github.com/aws-samples/aws-healthimaging-samples/tree/main/pixel-data-verification) digunakan untuk verifikasi.  

```
import { spawn } from "node:child_process";

import {
  ScenarioAction,
  ScenarioInput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

/**
 * @typedef {Object} DICOMValueRepresentation
 * @property {string} name
 * @property {string} type
 * @property {string} value
 */

/**
 * @typedef {Object} ImageFrameInformation
 * @property {string} ID
 * @property {Array<{ Checksum: number, Height: number, Width: number }>} PixelDataChecksumFromBaseToFullResolution
 * @property {number} MinPixelValue
 * @property {number} MaxPixelValue
 * @property {number} FrameSizeInBytes
 */

/**
 * @typedef {Object} DICOMMetadata
 * @property {Object} DICOM
 * @property {DICOMValueRepresentation[]} DICOMVRs
 * @property {ImageFrameInformation[]} ImageFrames
 */

/**
 * @typedef {Object} Series
 * @property {{ [key: string]: DICOMMetadata }} Instances
 */

/**
 * @typedef {Object} Study
 * @property {Object} DICOM
 * @property {Series[]} Series
 */

/**
 * @typedef {Object} Patient
 * @property {Object} DICOM
 */

/**
 * @typedef {{
 *  SchemaVersion: string,
 *  DatastoreID: string,
 *  ImageSetID: string,
 *  Patient: Patient,
 *  Study: Study
 * }} ImageSetMetadata
 */

/**
 * @typedef {{ stackOutputs: {
 *   BucketName: string,
 *   DatastoreID: string,
 *   RoleArn: string
 * }, imageSetMetadata: ImageSetMetadata[] }} State
 */

export const doVerify = new ScenarioInput(
  "doVerify",
  "Do you want to verify the imported images?",
  {
    type: "confirm",
    default: true,
  },
);

export const decodeAndVerifyImages = new ScenarioAction(
  "decodeAndVerifyImages",
  async (/** @type {State} */ state) => {
    if (!state.doVerify) {
      process.exit(0);
    }
    const verificationTool = "./pixel-data-verification/index.js";

    for (const metadata of state.imageSetMetadata) {
      const datastoreId = state.stackOutputs.DatastoreID;
      const imageSetId = metadata.ImageSetID;

      for (const [seriesInstanceUid, series] of Object.entries(
        metadata.Study.Series,
      )) {
        for (const [sopInstanceUid, _] of Object.entries(series.Instances)) {
          console.log(
            `Verifying image set ${imageSetId} with series ${seriesInstanceUid} and sop ${sopInstanceUid}`,
          );
          const child = spawn(
            "node",
            [
              verificationTool,
              datastoreId,
              imageSetId,
              seriesInstanceUid,
              sopInstanceUid,
            ],
            { stdio: "inherit" },
          );

          await new Promise((resolve, reject) => {
            child.on("exit", (code) => {
              if (code === 0) {
                resolve();
              } else {
                reject(
                  new Error(
                    `Verification tool exited with code ${code} for image set ${imageSetId}`,
                  ),
                );
              }
            });
          });
        }
      }
    }
  },
);
```
Hancurkan sumber daya (clean-up-steps.js).  

```
import {
  CloudFormationClient,
  DeleteStackCommand,
} from "@aws-sdk/client-cloudformation";
import {
  MedicalImagingClient,
  DeleteImageSetCommand,
} from "@aws-sdk/client-medical-imaging";

import {
  ScenarioAction,
  ScenarioInput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

/**
 * @typedef {Object} DICOMValueRepresentation
 * @property {string} name
 * @property {string} type
 * @property {string} value
 */

/**
 * @typedef {Object} ImageFrameInformation
 * @property {string} ID
 * @property {Array<{ Checksum: number, Height: number, Width: number }>} PixelDataChecksumFromBaseToFullResolution
 * @property {number} MinPixelValue
 * @property {number} MaxPixelValue
 * @property {number} FrameSizeInBytes
 */

/**
 * @typedef {Object} DICOMMetadata
 * @property {Object} DICOM
 * @property {DICOMValueRepresentation[]} DICOMVRs
 * @property {ImageFrameInformation[]} ImageFrames
 */

/**
 * @typedef {Object} Series
 * @property {{ [key: string]: DICOMMetadata }} Instances
 */

/**
 * @typedef {Object} Study
 * @property {Object} DICOM
 * @property {Series[]} Series
 */

/**
 * @typedef {Object} Patient
 * @property {Object} DICOM
 */

/**
 * @typedef {{
 *  SchemaVersion: string,
 *  DatastoreID: string,
 *  ImageSetID: string,
 *  Patient: Patient,
 *  Study: Study
 * }} ImageSetMetadata
 */

/**
 * @typedef {{ stackOutputs: {
 *   BucketName: string,
 *   DatastoreID: string,
 *   RoleArn: string
 * }, imageSetMetadata: ImageSetMetadata[] }} State
 */

const cfnClient = new CloudFormationClient({});
const medicalImagingClient = new MedicalImagingClient({});

export const confirmCleanup = new ScenarioInput(
  "confirmCleanup",
  "Do you want to delete the created resources?",
  { type: "confirm" },
);

export const deleteImageSets = new ScenarioAction(
  "deleteImageSets",
  async (/** @type {State} */ state) => {
    const datastoreId = state.stackOutputs.DatastoreID;

    for (const metadata of state.imageSetMetadata) {
      const command = new DeleteImageSetCommand({
        datastoreId,
        imageSetId: metadata.ImageSetID,
      });

      try {
        await medicalImagingClient.send(command);
        console.log(`Successfully deleted image set ${metadata.ImageSetID}`);
      } catch (e) {
        if (e instanceof Error) {
          if (e.name === "ConflictException") {
            console.log(`Image set ${metadata.ImageSetID} already deleted`);
          }
        }
      }
    }
  },
  {
    skipWhen: (/** @type {{}} */ state) => !state.confirmCleanup,
  },
);

export const deleteStack = new ScenarioAction(
  "deleteStack",
  async (/** @type {State} */ state) => {
    const stackName = state.getStackName;

    const command = new DeleteStackCommand({
      StackName: stackName,
    });

    await cfnClient.send(command);
    console.log(`Stack ${stackName} deletion initiated`);
  },
  {
    skipWhen: (/** @type {{}} */ state) => !state.confirmCleanup,
  },
);
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [DeleteImageSet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/DeleteImageSetCommand)
  + [Dapatkan DICOMImport Job](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/GetDICOMImportJobCommand)
  + [GetImageFrame](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/GetImageFrameCommand)
  + [GetImageSetMetadata](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/GetImageSetMetadataCommand)
  + [SearchImageSets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/SearchImageSetsCommand)
  + [Mulai DICOMImport Job](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/StartDICOMImportJobCommand)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### Menandai penyimpanan data
<a name="medical-imaging_Scenario_TaggingDataStores_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menandai penyimpanan HealthImaging data.

**SDK untuk JavaScript (v3)**  
Untuk menandai penyimpanan data.  

```
  try {
    const datastoreArn =
      "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012";
    const tags = {
      Deployment: "Development",
    };
    await tagResource(datastoreArn, tags);
  } catch (e) {
    console.log(e);
  }
```
Fungsi utilitas untuk menandai sumber daya.  

```
import { TagResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 * @param {Record<string,string>} tags - The tags to add to the resource as JSON.
 *                     - For example: {"Deployment" : "Development"}
 */
export const tagResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:xxxxxx:datastore/xxxxx/imageset/xxx",
  tags = {},
) => {
  const response = await medicalImagingClient.send(
    new TagResourceCommand({ resourceArn: resourceArn, tags: tags }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //        httpStatusCode: 204,
  //         requestId: '8a6de9a3-ec8e-47ef-8643-473518b19d45',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //    }
  // }

  return response;
};
```
Untuk daftar tag untuk penyimpanan data.  

```
  try {
    const datastoreArn =
      "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012";
    const { tags } = await listTagsForResource(datastoreArn);
    console.log(tags);
  } catch (e) {
    console.log(e);
  }
```
Fungsi utilitas untuk daftar tag sumber daya.  

```
import { ListTagsForResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 */
export const listTagsForResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:abc:datastore/def/imageset/ghi",
) => {
  const response = await medicalImagingClient.send(
    new ListTagsForResourceCommand({ resourceArn: resourceArn }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //         httpStatusCode: 200,
  //         requestId: '008fc6d3-abec-4870-a155-20fa3631e645',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //     },
  //     tags: { Deployment: 'Development' }
  // }

  return response;
};
```
Untuk menghapus tag penyimpanan data.  

```
  try {
    const datastoreArn =
      "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012";
    const keys = ["Deployment"];
    await untagResource(datastoreArn, keys);
  } catch (e) {
    console.log(e);
  }
```
Fungsi utilitas untuk membuka tag sumber daya.  

```
import { UntagResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 * @param {string[]} tagKeys - The keys of the tags to remove.
 */
export const untagResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:xxxxxx:datastore/xxxxx/imageset/xxx",
  tagKeys = [],
) => {
  const response = await medicalImagingClient.send(
    new UntagResourceCommand({ resourceArn: resourceArn, tagKeys: tagKeys }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //        httpStatusCode: 204,
  //         requestId: '8a6de9a3-ec8e-47ef-8643-473518b19d45',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //    }
  // }

  return response;
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [ListTagsForResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/ListTagsForResourceCommand)
  + [TagResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/TagResourceCommand)
  + [UntagResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/UntagResourceCommand)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### Menandai set gambar
<a name="medical-imaging_Scenario_TaggingImageSets_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menandai set HealthImaging gambar.

**SDK untuk JavaScript (v3)**  
Untuk menandai set gambar.  

```
  try {
    const imagesetArn =
      "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/12345678901234567890123456789012";
    const tags = {
      Deployment: "Development",
    };
    await tagResource(imagesetArn, tags);
  } catch (e) {
    console.log(e);
  }
```
Fungsi utilitas untuk menandai sumber daya.  

```
import { TagResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 * @param {Record<string,string>} tags - The tags to add to the resource as JSON.
 *                     - For example: {"Deployment" : "Development"}
 */
export const tagResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:xxxxxx:datastore/xxxxx/imageset/xxx",
  tags = {},
) => {
  const response = await medicalImagingClient.send(
    new TagResourceCommand({ resourceArn: resourceArn, tags: tags }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //        httpStatusCode: 204,
  //         requestId: '8a6de9a3-ec8e-47ef-8643-473518b19d45',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //    }
  // }

  return response;
};
```
Untuk mencantumkan tag untuk kumpulan gambar.  

```
  try {
    const imagesetArn =
      "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/12345678901234567890123456789012";
    const { tags } = await listTagsForResource(imagesetArn);
    console.log(tags);
  } catch (e) {
    console.log(e);
  }
```
Fungsi utilitas untuk daftar tag sumber daya.  

```
import { ListTagsForResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 */
export const listTagsForResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:abc:datastore/def/imageset/ghi",
) => {
  const response = await medicalImagingClient.send(
    new ListTagsForResourceCommand({ resourceArn: resourceArn }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //         httpStatusCode: 200,
  //         requestId: '008fc6d3-abec-4870-a155-20fa3631e645',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //     },
  //     tags: { Deployment: 'Development' }
  // }

  return response;
};
```
Untuk menghapus tag set gambar.  

```
  try {
    const imagesetArn =
      "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/12345678901234567890123456789012";
    const keys = ["Deployment"];
    await untagResource(imagesetArn, keys);
  } catch (e) {
    console.log(e);
  }
```
Fungsi utilitas untuk membuka tag sumber daya.  

```
import { UntagResourceCommand } from "@aws-sdk/client-medical-imaging";
import { medicalImagingClient } from "../libs/medicalImagingClient.js";

/**
 * @param {string} resourceArn - The Amazon Resource Name (ARN) for the data store or image set.
 * @param {string[]} tagKeys - The keys of the tags to remove.
 */
export const untagResource = async (
  resourceArn = "arn:aws:medical-imaging:us-east-1:xxxxxx:datastore/xxxxx/imageset/xxx",
  tagKeys = [],
) => {
  const response = await medicalImagingClient.send(
    new UntagResourceCommand({ resourceArn: resourceArn, tagKeys: tagKeys }),
  );
  console.log(response);
  // {
  //     '$metadata': {
  //        httpStatusCode: 204,
  //         requestId: '8a6de9a3-ec8e-47ef-8643-473518b19d45',
  //         extendedRequestId: undefined,
  //         cfId: undefined,
  //         attempts: 1,
  //         totalRetryDelay: 0
  //    }
  // }

  return response;
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [ListTagsForResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/ListTagsForResourceCommand)
  + [TagResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/TagResourceCommand)
  + [UntagResource](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/medical-imaging/command/UntagResourceCommand)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

# Contoh IAM menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo IAM
<a name="iam_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan IAM.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { IAMClient, paginateListPolicies } from "@aws-sdk/client-iam";

const client = new IAMClient({});

export const listLocalPolicies = async () => {
  /**
   * In v3, the clients expose paginateOperationName APIs that are written using async generators so that you can use async iterators in a for await..of loop.
   * https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators
   */
  const paginator = paginateListPolicies(
    { client, pageSize: 10 },
    // List only customer managed policies.
    { Scope: "Local" },
  );

  console.log("IAM policies defined in your account:");
  let policyCount = 0;
  for await (const page of paginator) {
    if (page.Policies) {
      for (const policy of page.Policies) {
        console.log(`${policy.PolicyName}`);
        policyCount++;
      }
    }
  }
  console.log(`Found ${policyCount} policies.`);
};
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListPoliciesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat pengguna IAM dan peran yang memberikan izin untuk mencantumkan bucket Amazon S3. Pengguna hanya memiliki hak untuk mengambil peran. Setelah mengambil peran, gunakan kredensyal sementara untuk membuat daftar bucket untuk akun.  

```
import {
  CreateUserCommand,
  GetUserCommand,
  CreateAccessKeyCommand,
  CreatePolicyCommand,
  CreateRoleCommand,
  AttachRolePolicyCommand,
  DeleteAccessKeyCommand,
  DeleteUserCommand,
  DeleteRoleCommand,
  DeletePolicyCommand,
  DetachRolePolicyCommand,
  IAMClient,
} from "@aws-sdk/client-iam";
import { ListBucketsCommand, S3Client } from "@aws-sdk/client-s3";
import { AssumeRoleCommand, STSClient } from "@aws-sdk/client-sts";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";
import { ScenarioInput } from "@aws-doc-sdk-examples/lib/scenario/index.js";

// Set the parameters.
const iamClient = new IAMClient({});
const userName = "iam_basic_test_username";
const policyName = "iam_basic_test_policy";
const roleName = "iam_basic_test_role";

/**
 * Create a new IAM user. If the user already exists, give
 * the option to delete and re-create it.
 * @param {string} name
 */
export const createUser = async (name, confirmAll = false) => {
  try {
    const { User } = await iamClient.send(
      new GetUserCommand({ UserName: name }),
    );
    const input = new ScenarioInput(
      "deleteUser",
      "Do you want to delete and remake this user?",
      { type: "confirm" },
    );
    const deleteUser = await input.handle({}, { confirmAll });
    // If the user exists, and you want to delete it, delete the user
    // and then create it again.
    if (deleteUser) {
      await iamClient.send(new DeleteUserCommand({ UserName: User.UserName }));
      await iamClient.send(new CreateUserCommand({ UserName: name }));
    } else {
      console.warn(
        `${name} already exists. The scenario may not work as expected.`,
      );
      return User;
    }
  } catch (caught) {
    // If there is no user by that name, create one.
    if (caught instanceof Error && caught.name === "NoSuchEntityException") {
      const { User } = await iamClient.send(
        new CreateUserCommand({ UserName: name }),
      );
      return User;
    }
    throw caught;
  }
};

export const main = async (confirmAll = false) => {
  // Create a user. The user has no permissions by default.
  const User = await createUser(userName, confirmAll);

  if (!User) {
    throw new Error("User not created");
  }

  // Create an access key. This key is used to authenticate the new user to
  // Amazon Simple Storage Service (Amazon S3) and AWS Security Token Service (AWS STS).
  // It's not best practice to use access keys. For more information, see https://aws.amazon.com/iam/resources/best-practices/.
  const createAccessKeyResponse = await iamClient.send(
    new CreateAccessKeyCommand({ UserName: userName }),
  );

  if (
    !createAccessKeyResponse.AccessKey?.AccessKeyId ||
    !createAccessKeyResponse.AccessKey?.SecretAccessKey
  ) {
    throw new Error("Access key not created");
  }

  const {
    AccessKey: { AccessKeyId, SecretAccessKey },
  } = createAccessKeyResponse;

  let s3Client = new S3Client({
    credentials: {
      accessKeyId: AccessKeyId,
      secretAccessKey: SecretAccessKey,
    },
  });

  // Retry the list buckets operation until it succeeds. InvalidAccessKeyId is
  // thrown while the user and access keys are still stabilizing.
  await retry({ intervalInMs: 1000, maxRetries: 300 }, async () => {
    try {
      return await listBuckets(s3Client);
    } catch (err) {
      if (err instanceof Error && err.name === "InvalidAccessKeyId") {
        throw err;
      }
    }
  });

  // Retry the create role operation until it succeeds. A MalformedPolicyDocument error
  // is thrown while the user and access keys are still stabilizing.
  const { Role } = await retry(
    {
      intervalInMs: 2000,
      maxRetries: 60,
    },
    () =>
      iamClient.send(
        new CreateRoleCommand({
          AssumeRolePolicyDocument: JSON.stringify({
            Version: "2012-10-17",
            Statement: [
              {
                Effect: "Allow",
                Principal: {
                  // Allow the previously created user to assume this role.
                  AWS: User.Arn,
                },
                Action: "sts:AssumeRole",
              },
            ],
          }),
          RoleName: roleName,
        }),
      ),
  );

  if (!Role) {
    throw new Error("Role not created");
  }

  // Create a policy that allows the user to list S3 buckets.
  const { Policy: listBucketPolicy } = await iamClient.send(
    new CreatePolicyCommand({
      PolicyDocument: JSON.stringify({
        Version: "2012-10-17",
        Statement: [
          {
            Effect: "Allow",
            Action: ["s3:ListAllMyBuckets"],
            Resource: "*",
          },
        ],
      }),
      PolicyName: policyName,
    }),
  );

  if (!listBucketPolicy) {
    throw new Error("Policy not created");
  }

  // Attach the policy granting the 's3:ListAllMyBuckets' action to the role.
  await iamClient.send(
    new AttachRolePolicyCommand({
      PolicyArn: listBucketPolicy.Arn,
      RoleName: Role.RoleName,
    }),
  );

  // Assume the role.
  const stsClient = new STSClient({
    credentials: {
      accessKeyId: AccessKeyId,
      secretAccessKey: SecretAccessKey,
    },
  });

  // Retry the assume role operation until it succeeds.
  const { Credentials } = await retry(
    { intervalInMs: 2000, maxRetries: 60 },
    () =>
      stsClient.send(
        new AssumeRoleCommand({
          RoleArn: Role.Arn,
          RoleSessionName: `iamBasicScenarioSession-${Math.floor(
            Math.random() * 1000000,
          )}`,
          DurationSeconds: 900,
        }),
      ),
  );

  if (!Credentials?.AccessKeyId || !Credentials?.SecretAccessKey) {
    throw new Error("Credentials not created");
  }

  s3Client = new S3Client({
    credentials: {
      accessKeyId: Credentials.AccessKeyId,
      secretAccessKey: Credentials.SecretAccessKey,
      sessionToken: Credentials.SessionToken,
    },
  });

  // List the S3 buckets again.
  // Retry the list buckets operation until it succeeds. AccessDenied might
  // be thrown while the role policy is still stabilizing.
  await retry({ intervalInMs: 2000, maxRetries: 120 }, () =>
    listBuckets(s3Client),
  );

  // Clean up.
  await iamClient.send(
    new DetachRolePolicyCommand({
      PolicyArn: listBucketPolicy.Arn,
      RoleName: Role.RoleName,
    }),
  );

  await iamClient.send(
    new DeletePolicyCommand({
      PolicyArn: listBucketPolicy.Arn,
    }),
  );

  await iamClient.send(
    new DeleteRoleCommand({
      RoleName: Role.RoleName,
    }),
  );

  await iamClient.send(
    new DeleteAccessKeyCommand({
      UserName: userName,
      AccessKeyId,
    }),
  );

  await iamClient.send(
    new DeleteUserCommand({
      UserName: userName,
    }),
  );
};

/**
 *
 * @param {S3Client} s3Client
 */
const listBuckets = async (s3Client) => {
  const { Buckets } = await s3Client.send(new ListBucketsCommand({}));

  if (!Buckets) {
    throw new Error("Buckets not listed");
  }

  console.log(Buckets.map((bucket) => bucket.Name).join("\n"));
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/AttachRolePolicyCommand)
  + [CreateAccessKey](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateAccessKeyCommand)
  + [CreatePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreatePolicyCommand)
  + [CreateRole](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateRoleCommand)
  + [CreateUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateUserCommand)
  + [DeleteAccessKey](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteAccessKeyCommand)
  + [DeletePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeletePolicyCommand)
  + [DeleteRole](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteRoleCommand)
  + [DeleteUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteUserCommand)
  + [DeleteUserPolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteUserPolicyCommand)
  + [DetachRolePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DetachRolePolicyCommand)
  + [PutUserPolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/PutUserPolicyCommand)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Lampirkan kebijakan.  

```
import { AttachRolePolicyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} policyArn
 * @param {string} roleName
 */
export const attachRolePolicy = (policyArn, roleName) => {
  const command = new AttachRolePolicyCommand({
    PolicyArn: policyArn,
    RoleName: roleName,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-policies.html#iam-examples-policies-attaching-role-policy). 
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/AttachRolePolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat kunci akses.  

```
import { CreateAccessKeyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} userName
 */
export const createAccessKey = (userName) => {
  const command = new CreateAccessKeyCommand({ UserName: userName });
  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-creating). 
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateAccessKeyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateAccountAlias`
<a name="iam_CreateAccountAlias_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccountAlias`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat alias akun.  

```
import { CreateAccountAliasCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} alias - A unique name for the account alias.
 * @returns
 */
export const createAccountAlias = (alias) => {
  const command = new CreateAccountAliasCommand({
    AccountAlias: alias,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-account-aliases.html#iam-examples-account-aliases-creating). 
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateAccountAliasCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateGroup`
<a name="iam_CreateGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { CreateGroupCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} groupName
 */
export const createGroup = async (groupName) => {
  const command = new CreateGroupCommand({ GroupName: groupName });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [CreateGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateInstanceProfile`
<a name="iam_CreateInstanceProfile_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateInstanceProfile`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
  const { InstanceProfile } = await iamClient.send(
    new CreateInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
    }),
  );
  await waitUntilInstanceProfileExists(
    { client: iamClient },
    { InstanceProfileName: NAMES.ssmOnlyInstanceProfileName },
  );
```
+  Untuk detail API, lihat [CreateInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateInstanceProfileCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat kebijakan.  

```
import { CreatePolicyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} policyName
 */
export const createPolicy = (policyName) => {
  const command = new CreatePolicyCommand({
    PolicyDocument: JSON.stringify({
      Version: "2012-10-17",
      Statement: [
        {
          Effect: "Allow",
          Action: "*",
          Resource: "*",
        },
      ],
    }),
    PolicyName: policyName,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-policies.html#iam-examples-policies-creating). 
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreatePolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateRole`
<a name="iam_CreateRole_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat peran.  

```
import { CreateRoleCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} roleName
 */
export const createRole = (roleName) => {
  const command = new CreateRoleCommand({
    AssumeRolePolicyDocument: JSON.stringify({
      Version: "2012-10-17",
      Statement: [
        {
          Effect: "Allow",
          Principal: {
            Service: "lambda.amazonaws.com",
          },
          Action: "sts:AssumeRole",
        },
      ],
    }),
    RoleName: roleName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateRoleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateSAMLProvider`
<a name="iam_CreateSAMLProvider_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSAMLProvider`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { CreateSAMLProviderCommand, IAMClient } from "@aws-sdk/client-iam";
import { readFileSync } from "node:fs";
import * as path from "node:path";
import { dirnameFromMetaUrl } from "@aws-doc-sdk-examples/lib/utils/util-fs.js";

const client = new IAMClient({});

/**
 * This sample document was generated using Auth0.
 * For more information on generating this document, see https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_providers_create_saml.html#samlstep1.
 */
const sampleMetadataDocument = readFileSync(
  path.join(
    dirnameFromMetaUrl(import.meta.url),
    "../../../../resources/sample_files/sample_saml_metadata.xml",
  ),
);

/**
 *
 * @param {*} providerName
 * @returns
 */
export const createSAMLProvider = async (providerName) => {
  const command = new CreateSAMLProviderCommand({
    Name: providerName,
    SAMLMetadataDocument: sampleMetadataDocument.toString(),
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [Membuat SAMLProvider](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateSAMLProviderCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat peran terkait layanan.  

```
import {
  CreateServiceLinkedRoleCommand,
  GetRoleCommand,
  IAMClient,
} from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} serviceName
 */
export const createServiceLinkedRole = async (serviceName) => {
  const command = new CreateServiceLinkedRoleCommand({
    // For a list of AWS services that support service-linked roles,
    // see https://docs.aws.amazon.com/IAM/latest/UserGuide/reference_aws-services-that-work-with-iam.html.
    //
    // For a list of AWS service endpoints, see https://docs.aws.amazon.com/general/latest/gr/aws-service-information.html.
    AWSServiceName: serviceName,
  });
  try {
    const response = await client.send(command);
    console.log(response);
    return response;
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "InvalidInputException" &&
      caught.message.includes(
        "Service role name AWSServiceRoleForElasticBeanstalk has been taken in this account",
      )
    ) {
      console.warn(caught.message);
      return client.send(
        new GetRoleCommand({ RoleName: "AWSServiceRoleForElasticBeanstalk" }),
      );
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateServiceLinkedRoleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateUser`
<a name="iam_CreateUser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat pengguna.  

```
import { CreateUserCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} name
 */
export const createUser = (name) => {
  const command = new CreateUserCommand({ UserName: name });
  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-users.html#iam-examples-managing-users-creating-users). 
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateUserCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Hapus tombol akses.  

```
import { DeleteAccessKeyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} userName
 * @param {string} accessKeyId
 */
export const deleteAccessKey = (userName, accessKeyId) => {
  const command = new DeleteAccessKeyCommand({
    AccessKeyId: accessKeyId,
    UserName: userName,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-deleting). 
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteAccessKeyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteAccountAlias`
<a name="iam_DeleteAccountAlias_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccountAlias`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Hapus alias akun.  

```
import { DeleteAccountAliasCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} alias
 */
export const deleteAccountAlias = (alias) => {
  const command = new DeleteAccountAliasCommand({ AccountAlias: alias });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-account-aliases.html#iam-examples-account-aliases-deleting). 
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteAccountAliasCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteGroup`
<a name="iam_DeleteGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { DeleteGroupCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} groupName
 */
export const deleteGroup = async (groupName) => {
  const command = new DeleteGroupCommand({
    GroupName: groupName,
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [DeleteGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteInstanceProfile`
<a name="iam_DeleteInstanceProfile_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteInstanceProfile`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 

```
      const client = new IAMClient({});
      await client.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
```
+  Untuk detail API, lihat [DeleteInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteInstanceProfileCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam/#code-examples). 
.  

```
import { DeletePolicyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} policyArn
 */
export const deletePolicy = (policyArn) => {
  const command = new DeletePolicyCommand({ PolicyArn: policyArn });
  return client.send(command);
};
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeletePolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteRole`
<a name="iam_DeleteRole_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Hapus peran.  

```
import { DeleteRoleCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} roleName
 */
export const deleteRole = (roleName) => {
  const command = new DeleteRoleCommand({ RoleName: roleName });
  return client.send(command);
};
```
+  Untuk detail API, lihat [DeleteRole](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteRoleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteRolePolicy`
<a name="iam_DeleteRolePolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRolePolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { DeleteRolePolicyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} roleName
 * @param {string} policyName
 */
export const deleteRolePolicy = (roleName, policyName) => {
  const command = new DeleteRolePolicyCommand({
    RoleName: roleName,
    PolicyName: policyName,
  });
  return client.send(command);
};
```
+  Untuk detail API, lihat [DeleteRolePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteRolePolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteSAMLProvider`
<a name="iam_DeleteSAMLProvider_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSAMLProvider`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { DeleteSAMLProviderCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} providerArn
 * @returns
 */
export const deleteSAMLProvider = async (providerArn) => {
  const command = new DeleteSAMLProviderCommand({
    SAMLProviderArn: providerArn,
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [Menghapus SAMLProvider](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteSAMLProviderCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteServerCertificate`
<a name="iam_DeleteServerCertificate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteServerCertificate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Hapus sertifikat server.  

```
import { DeleteServerCertificateCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} certName
 */
export const deleteServerCertificate = (certName) => {
  const command = new DeleteServerCertificateCommand({
    ServerCertificateName: certName,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-server-certificates.html#iam-examples-server-certificates-deleting). 
+  Untuk detail API, lihat [DeleteServerCertificate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteServerCertificateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteServiceLinkedRole`
<a name="iam_DeleteServiceLinkedRole_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteServiceLinkedRole`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { DeleteServiceLinkedRoleCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} roleName
 */
export const deleteServiceLinkedRole = (roleName) => {
  const command = new DeleteServiceLinkedRoleCommand({ RoleName: roleName });
  return client.send(command);
};
```
+  Untuk detail API, lihat [DeleteServiceLinkedRole](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteServiceLinkedRoleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteUser`
<a name="iam_DeleteUser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Hapus pengguna.  

```
import { DeleteUserCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} name
 */
export const deleteUser = (name) => {
  const command = new DeleteUserCommand({ UserName: name });
  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-users.html#iam-examples-managing-users-deleting-users). 
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteUserCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Lepaskan kebijakan.  

```
import { DetachRolePolicyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} policyArn
 * @param {string} roleName
 */
export const detachRolePolicy = (policyArn, roleName) => {
  const command = new DetachRolePolicyCommand({
    PolicyArn: policyArn,
    RoleName: roleName,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-policies.html#iam-examples-policies-detaching-role-policy). 
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DetachRolePolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetAccessKeyLastUsed`
<a name="iam_GetAccessKeyLastUsed_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccessKeyLastUsed`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Dapatkan kunci akses.  

```
import { GetAccessKeyLastUsedCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} accessKeyId
 */
export const getAccessKeyLastUsed = async (accessKeyId) => {
  const command = new GetAccessKeyLastUsedCommand({
    AccessKeyId: accessKeyId,
  });

  const response = await client.send(command);

  if (response.AccessKeyLastUsed?.LastUsedDate) {
    console.log(`
    ${accessKeyId} was last used by ${response.UserName} via 
    the ${response.AccessKeyLastUsed.ServiceName} service on
    ${response.AccessKeyLastUsed.LastUsedDate.toISOString()}
    `);
  }

  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-last-used). 
+  Untuk detail API, lihat [GetAccessKeyLastUsed](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/GetAccessKeyLastUsedCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountPasswordPolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Dapatkan kebijakan kata sandi akun.  

```
import {
  GetAccountPasswordPolicyCommand,
  IAMClient,
} from "@aws-sdk/client-iam";

const client = new IAMClient({});

export const getAccountPasswordPolicy = async () => {
  const command = new GetAccountPasswordPolicyCommand({});

  const response = await client.send(command);
  console.log(response.PasswordPolicy);
  return response;
};
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/GetAccountPasswordPolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetPolicy`
<a name="iam_GetPolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Dapatkan kebijakan.  

```
import { GetPolicyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} policyArn
 */
export const getPolicy = (policyArn) => {
  const command = new GetPolicyCommand({
    PolicyArn: policyArn,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-policies.html#iam-examples-policies-getting). 
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/GetPolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetRole`
<a name="iam_GetRole_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Dapatkan perannya.  

```
import { GetRoleCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} roleName
 */
export const getRole = (roleName) => {
  const command = new GetRoleCommand({
    RoleName: roleName,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetRole](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/GetRoleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetServerCertificate`
<a name="iam_GetServerCertificate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetServerCertificate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Dapatkan sertifikat server.  

```
import { GetServerCertificateCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} certName
 * @returns
 */
export const getServerCertificate = async (certName) => {
  const command = new GetServerCertificateCommand({
    ServerCertificateName: certName,
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-server-certificates.html#iam-examples-server-certificates-getting). 
+  Untuk detail API, lihat [GetServerCertificate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/GetServerCertificateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetServiceLinkedRoleDeletionStatus`
<a name="iam_GetServiceLinkedRoleDeletionStatus_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetServiceLinkedRoleDeletionStatus`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import {
  GetServiceLinkedRoleDeletionStatusCommand,
  IAMClient,
} from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} deletionTaskId
 */
export const getServiceLinkedRoleDeletionStatus = (deletionTaskId) => {
  const command = new GetServiceLinkedRoleDeletionStatusCommand({
    DeletionTaskId: deletionTaskId,
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [GetServiceLinkedRoleDeletionStatus](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/GetServiceLinkedRoleDeletionStatusCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat daftar kunci akses.  

```
import { ListAccessKeysCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 * A generator function that handles paginated results.
 * The AWS SDK for JavaScript (v3) provides {@link https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators | paginator} functions to simplify this.
 *
 * @param {string} userName
 */
export async function* listAccessKeys(userName) {
  const command = new ListAccessKeysCommand({
    MaxItems: 5,
    UserName: userName,
  });

  /**
   * @type {import("@aws-sdk/client-iam").ListAccessKeysCommandOutput | undefined}
   */
  let response = await client.send(command);

  while (response?.AccessKeyMetadata?.length) {
    for (const key of response.AccessKeyMetadata) {
      yield key;
    }

    if (response.IsTruncated) {
      response = await client.send(
        new ListAccessKeysCommand({
          Marker: response.Marker,
        }),
      );
    } else {
      break;
    }
  }
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-listing). 
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListAccessKeysCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListAccountAliases`
<a name="iam_ListAccountAliases_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccountAliases`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat daftar alias akun.  

```
import { ListAccountAliasesCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 * A generator function that handles paginated results.
 * The AWS SDK for JavaScript (v3) provides {@link https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators | paginator} functions to simplify this.
 */
export async function* listAccountAliases() {
  const command = new ListAccountAliasesCommand({ MaxItems: 5 });

  let response = await client.send(command);

  while (response.AccountAliases?.length) {
    for (const alias of response.AccountAliases) {
      yield alias;
    }

    if (response.IsTruncated) {
      response = await client.send(
        new ListAccountAliasesCommand({
          Marker: response.Marker,
          MaxItems: 5,
        }),
      );
    } else {
      break;
    }
  }
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-account-aliases.html#iam-examples-account-aliases-listing). 
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListAccountAliasesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat daftar kebijakan yang dilampirkan pada peran.  

```
import {
  ListAttachedRolePoliciesCommand,
  IAMClient,
} from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 * A generator function that handles paginated results.
 * The AWS SDK for JavaScript (v3) provides {@link https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators | paginator} functions to simplify this.
 * @param {string} roleName
 */
export async function* listAttachedRolePolicies(roleName) {
  const command = new ListAttachedRolePoliciesCommand({
    RoleName: roleName,
  });

  let response = await client.send(command);

  while (response.AttachedPolicies?.length) {
    for (const policy of response.AttachedPolicies) {
      yield policy;
    }

    if (response.IsTruncated) {
      response = await client.send(
        new ListAttachedRolePoliciesCommand({
          RoleName: roleName,
          Marker: response.Marker,
        }),
      );
    } else {
      break;
    }
  }
}
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListAttachedRolePoliciesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListGroups`
<a name="iam_ListGroups_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat daftar grup.  

```
import { ListGroupsCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 * A generator function that handles paginated results.
 * The AWS SDK for JavaScript (v3) provides {@link https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators | paginator} functions to simplify this.
 */
export async function* listGroups() {
  const command = new ListGroupsCommand({
    MaxItems: 10,
  });

  let response = await client.send(command);

  while (response.Groups?.length) {
    for (const group of response.Groups) {
      yield group;
    }

    if (response.IsTruncated) {
      response = await client.send(
        new ListGroupsCommand({
          Marker: response.Marker,
          MaxItems: 10,
        }),
      );
    } else {
      break;
    }
  }
}
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListGroupsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListPolicies`
<a name="iam_ListPolicies_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat daftar kebijakan.  

```
import { ListPoliciesCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 * A generator function that handles paginated results.
 * The AWS SDK for JavaScript (v3) provides {@link https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators | paginator} functions to simplify this.
 *
 */
export async function* listPolicies() {
  const command = new ListPoliciesCommand({
    MaxItems: 10,
    OnlyAttached: false,
    // List only the customer managed policies in your Amazon Web Services account.
    Scope: "Local",
  });

  let response = await client.send(command);

  while (response.Policies?.length) {
    for (const policy of response.Policies) {
      yield policy;
    }

    if (response.IsTruncated) {
      response = await client.send(
        new ListPoliciesCommand({
          Marker: response.Marker,
          MaxItems: 10,
          OnlyAttached: false,
          Scope: "Local",
        }),
      );
    } else {
      break;
    }
  }
}
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListPoliciesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat daftar kebijakan.  

```
import { ListRolePoliciesCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 * A generator function that handles paginated results.
 * The AWS SDK for JavaScript (v3) provides {@link https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators | paginator} functions to simplify this.
 *
 * @param {string} roleName
 */
export async function* listRolePolicies(roleName) {
  const command = new ListRolePoliciesCommand({
    RoleName: roleName,
    MaxItems: 10,
  });

  let response = await client.send(command);

  while (response.PolicyNames?.length) {
    for (const policyName of response.PolicyNames) {
      yield policyName;
    }

    if (response.IsTruncated) {
      response = await client.send(
        new ListRolePoliciesCommand({
          RoleName: roleName,
          MaxItems: 10,
          Marker: response.Marker,
        }),
      );
    } else {
      break;
    }
  }
}
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListRolePoliciesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListRoles`
<a name="iam_ListRoles_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat daftar peran.  

```
import { ListRolesCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 * A generator function that handles paginated results.
 * The AWS SDK for JavaScript (v3) provides {@link https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators | paginator} functions to simplify this.
 *
 */
export async function* listRoles() {
  const command = new ListRolesCommand({
    MaxItems: 10,
  });

  /**
   * @type {import("@aws-sdk/client-iam").ListRolesCommandOutput | undefined}
   */
  let response = await client.send(command);

  while (response?.Roles?.length) {
    for (const role of response.Roles) {
      yield role;
    }

    if (response.IsTruncated) {
      response = await client.send(
        new ListRolesCommand({
          Marker: response.Marker,
        }),
      );
    } else {
      break;
    }
  }
}
```
+  Untuk detail API, lihat [ListRoles](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListRolesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListSAMLProviders`
<a name="iam_ListSAMLProviders_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSAMLProviders`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Daftar penyedia SAFL.  

```
import { ListSAMLProvidersCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

export const listSamlProviders = async () => {
  const command = new ListSAMLProvidersCommand({});

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListSAMLProvidersCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### `ListServerCertificates`
<a name="iam_ListServerCertificates_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListServerCertificates`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Buat daftar sertifikat.  

```
import { ListServerCertificatesCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 * A generator function that handles paginated results.
 * The AWS SDK for JavaScript (v3) provides {@link https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/index.html#paginators | paginator} functions to simplify this.
 *
 */
export async function* listServerCertificates() {
  const command = new ListServerCertificatesCommand({});
  let response = await client.send(command);

  while (response.ServerCertificateMetadataList?.length) {
    for await (const cert of response.ServerCertificateMetadataList) {
      yield cert;
    }

    if (response.IsTruncated) {
      response = await client.send(new ListServerCertificatesCommand({}));
    } else {
      break;
    }
  }
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-server-certificates.html#iam-examples-server-certificates-listing). 
+  Untuk detail API, lihat [ListServerCertificates](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListServerCertificatesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListUsers`
<a name="iam_ListUsers_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Daftar pengguna.  

```
import { ListUsersCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

export const listUsers = async () => {
  const command = new ListUsersCommand({ MaxItems: 10 });

  const response = await client.send(command);

  for (const { UserName, CreateDate } of response.Users) {
    console.log(`${UserName} created on: ${CreateDate}`);
  }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-users.html#iam-examples-managing-users-listing-users). 
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/ListUsersCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutRolePolicy`
<a name="iam_PutRolePolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRolePolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { PutRolePolicyCommand, IAMClient } from "@aws-sdk/client-iam";

const examplePolicyDocument = JSON.stringify({
  Version: "2012-10-17",
  Statement: [
    {
      Sid: "VisualEditor0",
      Effect: "Allow",
      Action: [
        "s3:ListBucketMultipartUploads",
        "s3:ListBucketVersions",
        "s3:ListBucket",
        "s3:ListMultipartUploadParts",
      ],
      Resource: "arn:aws:s3:::amzn-s3-demo-bucket",
    },
    {
      Sid: "VisualEditor1",
      Effect: "Allow",
      Action: [
        "s3:ListStorageLensConfigurations",
        "s3:ListAccessPointsForObjectLambda",
        "s3:ListAllMyBuckets",
        "s3:ListAccessPoints",
        "s3:ListJobs",
        "s3:ListMultiRegionAccessPoints",
      ],
      Resource: "*",
    },
  ],
});

const client = new IAMClient({});

/**
 *
 * @param {string} roleName
 * @param {string} policyName
 * @param {string} policyDocument
 */
export const putRolePolicy = async (roleName, policyName, policyDocument) => {
  const command = new PutRolePolicyCommand({
    RoleName: roleName,
    PolicyName: policyName,
    PolicyDocument: policyDocument,
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [PutRolePolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/PutRolePolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateAccessKey`
<a name="iam_UpdateAccessKey_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAccessKey`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Perbarui kunci akses.  

```
import {
  UpdateAccessKeyCommand,
  IAMClient,
  StatusType,
} from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} userName
 * @param {string} accessKeyId
 */
export const updateAccessKey = (userName, accessKeyId) => {
  const command = new UpdateAccessKeyCommand({
    AccessKeyId: accessKeyId,
    Status: StatusType.Inactive,
    UserName: userName,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-access-keys.html#iam-examples-managing-access-keys-updating). 
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/UpdateAccessKeyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateServerCertificate`
<a name="iam_UpdateServerCertificate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateServerCertificate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Perbarui sertifikat server.  

```
import { UpdateServerCertificateCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} currentName
 * @param {string} newName
 */
export const updateServerCertificate = (currentName, newName) => {
  const command = new UpdateServerCertificateCommand({
    ServerCertificateName: currentName,
    NewServerCertificateName: newName,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-server-certificates.html#iam-examples-server-certificates-updating). 
+  Untuk detail API, lihat [UpdateServerCertificate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/UpdateServerCertificateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateUser`
<a name="iam_UpdateUser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUser`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 
Perbarui pengguna.  

```
import { UpdateUserCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} currentUserName
 * @param {string} newUserName
 */
export const updateUser = (currentUserName, newUserName) => {
  const command = new UpdateUserCommand({
    UserName: currentUserName,
    NewUserName: newUserName,
  });

  return client.send(command);
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/iam-examples-managing-users.html#iam-examples-managing-users-updating-users). 
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/UpdateUserCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UploadServerCertificate`
<a name="iam_UploadServerCertificate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadServerCertificate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iam#code-examples). 

```
import { UploadServerCertificateCommand, IAMClient } from "@aws-sdk/client-iam";
import { readFileSync } from "node:fs";
import { dirnameFromMetaUrl } from "@aws-doc-sdk-examples/lib/utils/util-fs.js";
import * as path from "node:path";

const client = new IAMClient({});

const certMessage = `Generate a certificate and key with the following command, or the equivalent for your system.

openssl req -x509 -newkey rsa:4096 -sha256 -days 3650 -nodes \
-keyout example.key -out example.crt -subj "/CN=example.com" \
-addext "subjectAltName=DNS:example.com,DNS:www.example.net,IP:10.0.0.1"
`;

const getCertAndKey = () => {
  try {
    const cert = readFileSync(
      path.join(dirnameFromMetaUrl(import.meta.url), "./example.crt"),
    );
    const key = readFileSync(
      path.join(dirnameFromMetaUrl(import.meta.url), "./example.key"),
    );
    return { cert, key };
  } catch (err) {
    if (err.code === "ENOENT") {
      throw new Error(
        `Certificate and/or private key not found. ${certMessage}`,
      );
    }

    throw err;
  }
};

/**
 *
 * @param {string} certificateName
 */
export const uploadServerCertificate = (certificateName) => {
  const { cert, key } = getCertAndKey();
  const command = new UploadServerCertificateCommand({
    ServerCertificateName: certificateName,
    CertificateBody: cert.toString(),
    PrivateKey: key.toString(),
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [UploadServerCertificate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/UploadServerCertificateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
#!/usr/bin/env node
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0

import {
  Scenario,
  parseScenarioArgs,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

/**
 * The workflow steps are split into three stages:
 *   - deploy
 *   - demo
 *   - destroy
 *
 * Each of these stages has a corresponding file prefixed with steps-*.
 */
import { deploySteps } from "./steps-deploy.js";
import { demoSteps } from "./steps-demo.js";
import { destroySteps } from "./steps-destroy.js";

/**
 * The context is passed to every scenario. Scenario steps
 * will modify the context.
 */
const context = {};

/**
 * Three Scenarios are created for the workflow. A Scenario is an orchestration class
 * that simplifies running a series of steps.
 */
export const scenarios = {
  // Deploys all resources necessary for the workflow.
  deploy: new Scenario("Resilient Workflow - Deploy", deploySteps, context),
  // Demonstrates how a fragile web service can be made more resilient.
  demo: new Scenario("Resilient Workflow - Demo", demoSteps, context),
  // Destroys the resources created for the workflow.
  destroy: new Scenario("Resilient Workflow - Destroy", destroySteps, context),
};

// Call function if run directly
import { fileURLToPath } from "node:url";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  parseScenarioArgs(scenarios, {
    name: "Resilient Workflow",
    synopsis:
      "node index.js --scenario <deploy | demo | destroy> [-h|--help] [-y|--yes] [-v|--verbose]",
    description: "Deploy and interact with scalable EC2 instances.",
  });
}
```
Menyusun langkah-langkah untuk men-deploy semua sumber daya.  

```
import { join } from "node:path";
import { readFileSync, writeFileSync } from "node:fs";
import axios from "axios";

import {
  BatchWriteItemCommand,
  CreateTableCommand,
  DynamoDBClient,
  waitUntilTableExists,
} from "@aws-sdk/client-dynamodb";
import {
  EC2Client,
  CreateKeyPairCommand,
  CreateLaunchTemplateCommand,
  DescribeAvailabilityZonesCommand,
  DescribeVpcsCommand,
  DescribeSubnetsCommand,
  DescribeSecurityGroupsCommand,
  AuthorizeSecurityGroupIngressCommand,
} from "@aws-sdk/client-ec2";
import {
  IAMClient,
  CreatePolicyCommand,
  CreateRoleCommand,
  CreateInstanceProfileCommand,
  AddRoleToInstanceProfileCommand,
  AttachRolePolicyCommand,
  waitUntilInstanceProfileExists,
} from "@aws-sdk/client-iam";
import { SSMClient, GetParameterCommand } from "@aws-sdk/client-ssm";
import {
  CreateAutoScalingGroupCommand,
  AutoScalingClient,
  AttachLoadBalancerTargetGroupsCommand,
} from "@aws-sdk/client-auto-scaling";
import {
  CreateListenerCommand,
  CreateLoadBalancerCommand,
  CreateTargetGroupCommand,
  ElasticLoadBalancingV2Client,
  waitUntilLoadBalancerAvailable,
} from "@aws-sdk/client-elastic-load-balancing-v2";

import {
  ScenarioOutput,
  ScenarioInput,
  ScenarioAction,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { saveState } from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES, RESOURCES_PATH, ROOT } from "./constants.js";
import { initParamsSteps } from "./steps-reset-params.js";

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const deploySteps = [
  new ScenarioOutput("introduction", MESSAGES.introduction, { header: true }),
  new ScenarioInput("confirmDeployment", MESSAGES.confirmDeployment, {
    type: "confirm",
  }),
  new ScenarioAction(
    "handleConfirmDeployment",
    (c) => c.confirmDeployment === false && process.exit(),
  ),
  new ScenarioOutput(
    "creatingTable",
    MESSAGES.creatingTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioAction("createTable", async () => {
    const client = new DynamoDBClient({});
    await client.send(
      new CreateTableCommand({
        TableName: NAMES.tableName,
        ProvisionedThroughput: {
          ReadCapacityUnits: 5,
          WriteCapacityUnits: 5,
        },
        AttributeDefinitions: [
          {
            AttributeName: "MediaType",
            AttributeType: "S",
          },
          {
            AttributeName: "ItemId",
            AttributeType: "N",
          },
        ],
        KeySchema: [
          {
            AttributeName: "MediaType",
            KeyType: "HASH",
          },
          {
            AttributeName: "ItemId",
            KeyType: "RANGE",
          },
        ],
      }),
    );
    await waitUntilTableExists({ client }, { TableName: NAMES.tableName });
  }),
  new ScenarioOutput(
    "createdTable",
    MESSAGES.createdTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioOutput(
    "populatingTable",
    MESSAGES.populatingTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioAction("populateTable", () => {
    const client = new DynamoDBClient({});
    /**
     * @type {{ default: import("@aws-sdk/client-dynamodb").PutRequest['Item'][] }}
     */
    const recommendations = JSON.parse(
      readFileSync(join(RESOURCES_PATH, "recommendations.json")),
    );

    return client.send(
      new BatchWriteItemCommand({
        RequestItems: {
          [NAMES.tableName]: recommendations.map((item) => ({
            PutRequest: { Item: item },
          })),
        },
      }),
    );
  }),
  new ScenarioOutput(
    "populatedTable",
    MESSAGES.populatedTable.replace("${TABLE_NAME}", NAMES.tableName),
  ),
  new ScenarioOutput(
    "creatingKeyPair",
    MESSAGES.creatingKeyPair.replace("${KEY_PAIR_NAME}", NAMES.keyPairName),
  ),
  new ScenarioAction("createKeyPair", async () => {
    const client = new EC2Client({});
    const { KeyMaterial } = await client.send(
      new CreateKeyPairCommand({
        KeyName: NAMES.keyPairName,
      }),
    );

    writeFileSync(`${NAMES.keyPairName}.pem`, KeyMaterial, { mode: 0o600 });
  }),
  new ScenarioOutput(
    "createdKeyPair",
    MESSAGES.createdKeyPair.replace("${KEY_PAIR_NAME}", NAMES.keyPairName),
  ),
  new ScenarioOutput(
    "creatingInstancePolicy",
    MESSAGES.creatingInstancePolicy.replace(
      "${INSTANCE_POLICY_NAME}",
      NAMES.instancePolicyName,
    ),
  ),
  new ScenarioAction("createInstancePolicy", async (state) => {
    const client = new IAMClient({});
    const {
      Policy: { Arn },
    } = await client.send(
      new CreatePolicyCommand({
        PolicyName: NAMES.instancePolicyName,
        PolicyDocument: readFileSync(
          join(RESOURCES_PATH, "instance_policy.json"),
        ),
      }),
    );
    state.instancePolicyArn = Arn;
  }),
  new ScenarioOutput("createdInstancePolicy", (state) =>
    MESSAGES.createdInstancePolicy
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_POLICY_ARN}", state.instancePolicyArn),
  ),
  new ScenarioOutput(
    "creatingInstanceRole",
    MESSAGES.creatingInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    ),
  ),
  new ScenarioAction("createInstanceRole", () => {
    const client = new IAMClient({});
    return client.send(
      new CreateRoleCommand({
        RoleName: NAMES.instanceRoleName,
        AssumeRolePolicyDocument: readFileSync(
          join(ROOT, "assume-role-policy.json"),
        ),
      }),
    );
  }),
  new ScenarioOutput(
    "createdInstanceRole",
    MESSAGES.createdInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    ),
  ),
  new ScenarioOutput(
    "attachingPolicyToRole",
    MESSAGES.attachingPolicyToRole
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName)
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName),
  ),
  new ScenarioAction("attachPolicyToRole", async (state) => {
    const client = new IAMClient({});
    await client.send(
      new AttachRolePolicyCommand({
        RoleName: NAMES.instanceRoleName,
        PolicyArn: state.instancePolicyArn,
      }),
    );
  }),
  new ScenarioOutput(
    "attachedPolicyToRole",
    MESSAGES.attachedPolicyToRole
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  new ScenarioOutput(
    "creatingInstanceProfile",
    MESSAGES.creatingInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.instanceProfileName,
    ),
  ),
  new ScenarioAction("createInstanceProfile", async (state) => {
    const client = new IAMClient({});
    const {
      InstanceProfile: { Arn },
    } = await client.send(
      new CreateInstanceProfileCommand({
        InstanceProfileName: NAMES.instanceProfileName,
      }),
    );
    state.instanceProfileArn = Arn;

    await waitUntilInstanceProfileExists(
      { client },
      { InstanceProfileName: NAMES.instanceProfileName },
    );
  }),
  new ScenarioOutput("createdInstanceProfile", (state) =>
    MESSAGES.createdInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_PROFILE_ARN}", state.instanceProfileArn),
  ),
  new ScenarioOutput(
    "addingRoleToInstanceProfile",
    MESSAGES.addingRoleToInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  new ScenarioAction("addRoleToInstanceProfile", () => {
    const client = new IAMClient({});
    return client.send(
      new AddRoleToInstanceProfileCommand({
        RoleName: NAMES.instanceRoleName,
        InstanceProfileName: NAMES.instanceProfileName,
      }),
    );
  }),
  new ScenarioOutput(
    "addedRoleToInstanceProfile",
    MESSAGES.addedRoleToInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName),
  ),
  ...initParamsSteps,
  new ScenarioOutput("creatingLaunchTemplate", MESSAGES.creatingLaunchTemplate),
  new ScenarioAction("createLaunchTemplate", async () => {
    const ssmClient = new SSMClient({});
    const { Parameter } = await ssmClient.send(
      new GetParameterCommand({
        Name: "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
      }),
    );
    const ec2Client = new EC2Client({});
    await ec2Client.send(
      new CreateLaunchTemplateCommand({
        LaunchTemplateName: NAMES.launchTemplateName,
        LaunchTemplateData: {
          InstanceType: "t3.micro",
          ImageId: Parameter.Value,
          IamInstanceProfile: { Name: NAMES.instanceProfileName },
          UserData: readFileSync(
            join(RESOURCES_PATH, "server_startup_script.sh"),
          ).toString("base64"),
          KeyName: NAMES.keyPairName,
        },
      }),
    );
  }),
  new ScenarioOutput(
    "createdLaunchTemplate",
    MESSAGES.createdLaunchTemplate.replace(
      "${LAUNCH_TEMPLATE_NAME}",
      NAMES.launchTemplateName,
    ),
  ),
  new ScenarioOutput(
    "creatingAutoScalingGroup",
    MESSAGES.creatingAutoScalingGroup.replace(
      "${AUTO_SCALING_GROUP_NAME}",
      NAMES.autoScalingGroupName,
    ),
  ),
  new ScenarioAction("createAutoScalingGroup", async (state) => {
    const ec2Client = new EC2Client({});
    const { AvailabilityZones } = await ec2Client.send(
      new DescribeAvailabilityZonesCommand({}),
    );
    state.availabilityZoneNames = AvailabilityZones.map((az) => az.ZoneName);
    const autoScalingClient = new AutoScalingClient({});
    await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
      autoScalingClient.send(
        new CreateAutoScalingGroupCommand({
          AvailabilityZones: state.availabilityZoneNames,
          AutoScalingGroupName: NAMES.autoScalingGroupName,
          LaunchTemplate: {
            LaunchTemplateName: NAMES.launchTemplateName,
            Version: "$Default",
          },
          MinSize: 3,
          MaxSize: 3,
        }),
      ),
    );
  }),
  new ScenarioOutput(
    "createdAutoScalingGroup",
    /**
     * @param {{ availabilityZoneNames: string[] }} state
     */
    (state) =>
      MESSAGES.createdAutoScalingGroup
        .replace("${AUTO_SCALING_GROUP_NAME}", NAMES.autoScalingGroupName)
        .replace(
          "${AVAILABILITY_ZONE_NAMES}",
          state.availabilityZoneNames.join(", "),
        ),
  ),
  new ScenarioInput("confirmContinue", MESSAGES.confirmContinue, {
    type: "confirm",
  }),
  new ScenarioOutput("loadBalancer", MESSAGES.loadBalancer),
  new ScenarioOutput("gettingVpc", MESSAGES.gettingVpc),
  new ScenarioAction("getVpc", async (state) => {
    const client = new EC2Client({});
    const { Vpcs } = await client.send(
      new DescribeVpcsCommand({
        Filters: [{ Name: "is-default", Values: ["true"] }],
      }),
    );
    state.defaultVpc = Vpcs[0].VpcId;
  }),
  new ScenarioOutput("gotVpc", (state) =>
    MESSAGES.gotVpc.replace("${VPC_ID}", state.defaultVpc),
  ),
  new ScenarioOutput("gettingSubnets", MESSAGES.gettingSubnets),
  new ScenarioAction("getSubnets", async (state) => {
    const client = new EC2Client({});
    const { Subnets } = await client.send(
      new DescribeSubnetsCommand({
        Filters: [
          { Name: "vpc-id", Values: [state.defaultVpc] },
          { Name: "availability-zone", Values: state.availabilityZoneNames },
          { Name: "default-for-az", Values: ["true"] },
        ],
      }),
    );
    state.subnets = Subnets.map((subnet) => subnet.SubnetId);
  }),
  new ScenarioOutput(
    "gotSubnets",
    /**
     * @param {{ subnets: string[] }} state
     */
    (state) =>
      MESSAGES.gotSubnets.replace("${SUBNETS}", state.subnets.join(", ")),
  ),
  new ScenarioOutput(
    "creatingLoadBalancerTargetGroup",
    MESSAGES.creatingLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    ),
  ),
  new ScenarioAction("createLoadBalancerTargetGroup", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { TargetGroups } = await client.send(
      new CreateTargetGroupCommand({
        Name: NAMES.loadBalancerTargetGroupName,
        Protocol: "HTTP",
        Port: 80,
        HealthCheckPath: "/healthcheck",
        HealthCheckIntervalSeconds: 10,
        HealthCheckTimeoutSeconds: 5,
        HealthyThresholdCount: 2,
        UnhealthyThresholdCount: 2,
        VpcId: state.defaultVpc,
      }),
    );
    const targetGroup = TargetGroups[0];
    state.targetGroupArn = targetGroup.TargetGroupArn;
    state.targetGroupProtocol = targetGroup.Protocol;
    state.targetGroupPort = targetGroup.Port;
  }),
  new ScenarioOutput(
    "createdLoadBalancerTargetGroup",
    MESSAGES.createdLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    ),
  ),
  new ScenarioOutput(
    "creatingLoadBalancer",
    MESSAGES.creatingLoadBalancer.replace("${LB_NAME}", NAMES.loadBalancerName),
  ),
  new ScenarioAction("createLoadBalancer", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { LoadBalancers } = await client.send(
      new CreateLoadBalancerCommand({
        Name: NAMES.loadBalancerName,
        Subnets: state.subnets,
      }),
    );
    state.loadBalancerDns = LoadBalancers[0].DNSName;
    state.loadBalancerArn = LoadBalancers[0].LoadBalancerArn;
    await waitUntilLoadBalancerAvailable(
      { client },
      { Names: [NAMES.loadBalancerName] },
    );
  }),
  new ScenarioOutput("createdLoadBalancer", (state) =>
    MESSAGES.createdLoadBalancer
      .replace("${LB_NAME}", NAMES.loadBalancerName)
      .replace("${DNS_NAME}", state.loadBalancerDns),
  ),
  new ScenarioOutput(
    "creatingListener",
    MESSAGES.creatingLoadBalancerListener
      .replace("${LB_NAME}", NAMES.loadBalancerName)
      .replace("${TARGET_GROUP_NAME}", NAMES.loadBalancerTargetGroupName),
  ),
  new ScenarioAction("createListener", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    const { Listeners } = await client.send(
      new CreateListenerCommand({
        LoadBalancerArn: state.loadBalancerArn,
        Protocol: state.targetGroupProtocol,
        Port: state.targetGroupPort,
        DefaultActions: [
          { Type: "forward", TargetGroupArn: state.targetGroupArn },
        ],
      }),
    );
    const listener = Listeners[0];
    state.loadBalancerListenerArn = listener.ListenerArn;
  }),
  new ScenarioOutput("createdListener", (state) =>
    MESSAGES.createdLoadBalancerListener.replace(
      "${LB_LISTENER_ARN}",
      state.loadBalancerListenerArn,
    ),
  ),
  new ScenarioOutput(
    "attachingLoadBalancerTargetGroup",
    MESSAGES.attachingLoadBalancerTargetGroup
      .replace("${TARGET_GROUP_NAME}", NAMES.loadBalancerTargetGroupName)
      .replace("${AUTO_SCALING_GROUP_NAME}", NAMES.autoScalingGroupName),
  ),
  new ScenarioAction("attachLoadBalancerTargetGroup", async (state) => {
    const client = new AutoScalingClient({});
    await client.send(
      new AttachLoadBalancerTargetGroupsCommand({
        AutoScalingGroupName: NAMES.autoScalingGroupName,
        TargetGroupARNs: [state.targetGroupArn],
      }),
    );
  }),
  new ScenarioOutput(
    "attachedLoadBalancerTargetGroup",
    MESSAGES.attachedLoadBalancerTargetGroup,
  ),
  new ScenarioOutput("verifyingInboundPort", MESSAGES.verifyingInboundPort),
  new ScenarioAction(
    "verifyInboundPort",
    /**
     *
     * @param {{ defaultSecurityGroup: import('@aws-sdk/client-ec2').SecurityGroup}} state
     */
    async (state) => {
      const client = new EC2Client({});
      const { SecurityGroups } = await client.send(
        new DescribeSecurityGroupsCommand({
          Filters: [{ Name: "group-name", Values: ["default"] }],
        }),
      );
      if (!SecurityGroups) {
        state.verifyInboundPortError = new Error(MESSAGES.noSecurityGroups);
      }
      state.defaultSecurityGroup = SecurityGroups[0];

      /**
       * @type {string}
       */
      const ipResponse = (await axios.get("http://checkip.amazonaws.com")).data;
      state.myIp = ipResponse.trim();
      const myIpRules = state.defaultSecurityGroup.IpPermissions.filter(
        ({ IpRanges }) =>
          IpRanges.some(
            ({ CidrIp }) =>
              CidrIp.startsWith(state.myIp) || CidrIp === "0.0.0.0/0",
          ),
      )
        .filter(({ IpProtocol }) => IpProtocol === "tcp")
        .filter(({ FromPort }) => FromPort === 80);

      state.myIpRules = myIpRules;
    },
  ),
  new ScenarioOutput(
    "verifiedInboundPort",
    /**
     * @param {{ myIpRules: any[] }} state
     */
    (state) => {
      if (state.myIpRules.length > 0) {
        return MESSAGES.foundIpRules.replace(
          "${IP_RULES}",
          JSON.stringify(state.myIpRules, null, 2),
        );
      }
      return MESSAGES.noIpRules;
    },
  ),
  new ScenarioInput(
    "shouldAddInboundRule",
    /**
     * @param {{ myIpRules: any[] }} state
     */
    (state) => {
      if (state.myIpRules.length > 0) {
        return false;
      }
      return MESSAGES.noIpRules;
    },
    { type: "confirm" },
  ),
  new ScenarioAction(
    "addInboundRule",
    /**
     * @param {{ defaultSecurityGroup: import('@aws-sdk/client-ec2').SecurityGroup }} state
     */
    async (state) => {
      if (!state.shouldAddInboundRule) {
        return;
      }

      const client = new EC2Client({});
      await client.send(
        new AuthorizeSecurityGroupIngressCommand({
          GroupId: state.defaultSecurityGroup.GroupId,
          CidrIp: `${state.myIp}/32`,
          FromPort: 80,
          ToPort: 80,
          IpProtocol: "tcp",
        }),
      );
    },
  ),
  new ScenarioOutput("addedInboundRule", (state) => {
    if (state.shouldAddInboundRule) {
      return MESSAGES.addedInboundRule.replace("${IP_ADDRESS}", state.myIp);
    }
    return false;
  }),
  new ScenarioOutput("verifyingEndpoint", (state) =>
    MESSAGES.verifyingEndpoint.replace("${DNS_NAME}", state.loadBalancerDns),
  ),
  new ScenarioAction("verifyEndpoint", async (state) => {
    try {
      const response = await retry({ intervalInMs: 2000, maxRetries: 30 }, () =>
        axios.get(`http://${state.loadBalancerDns}`),
      );
      state.endpointResponse = JSON.stringify(response.data, null, 2);
    } catch (e) {
      state.verifyEndpointError = e;
    }
  }),
  new ScenarioOutput("verifiedEndpoint", (state) => {
    if (state.verifyEndpointError) {
      console.error(state.verifyEndpointError);
    } else {
      return MESSAGES.verifiedEndpoint.replace(
        "${ENDPOINT_RESPONSE}",
        state.endpointResponse,
      );
    }
  }),
  saveState,
];
```
Menyusun langkah-langkah untuk menjalankan demo.  

```
import { readFileSync } from "node:fs";
import { join } from "node:path";

import axios from "axios";

import {
  DescribeTargetGroupsCommand,
  DescribeTargetHealthCommand,
  ElasticLoadBalancingV2Client,
} from "@aws-sdk/client-elastic-load-balancing-v2";
import {
  DescribeInstanceInformationCommand,
  PutParameterCommand,
  SSMClient,
  SendCommandCommand,
} from "@aws-sdk/client-ssm";
import {
  IAMClient,
  CreatePolicyCommand,
  CreateRoleCommand,
  AttachRolePolicyCommand,
  CreateInstanceProfileCommand,
  AddRoleToInstanceProfileCommand,
  waitUntilInstanceProfileExists,
} from "@aws-sdk/client-iam";
import {
  AutoScalingClient,
  DescribeAutoScalingGroupsCommand,
  TerminateInstanceInAutoScalingGroupCommand,
} from "@aws-sdk/client-auto-scaling";
import {
  DescribeIamInstanceProfileAssociationsCommand,
  EC2Client,
  RebootInstancesCommand,
  ReplaceIamInstanceProfileAssociationCommand,
} from "@aws-sdk/client-ec2";

import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/scenario.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES, RESOURCES_PATH } from "./constants.js";
import { findLoadBalancer } from "./shared.js";

const getRecommendation = new ScenarioAction(
  "getRecommendation",
  async (state) => {
    const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
    if (loadBalancer) {
      state.loadBalancerDnsName = loadBalancer.DNSName;
      try {
        state.recommendation = (
          await axios.get(`http://${state.loadBalancerDnsName}`)
        ).data;
      } catch (e) {
        state.recommendation = e instanceof Error ? e.message : e;
      }
    } else {
      throw new Error(MESSAGES.demoFindLoadBalancerError);
    }
  },
);

const getRecommendationResult = new ScenarioOutput(
  "getRecommendationResult",
  (state) =>
    `Recommendation:\n${JSON.stringify(state.recommendation, null, 2)}`,
  { preformatted: true },
);

const getHealthCheck = new ScenarioAction("getHealthCheck", async (state) => {
  const client = new ElasticLoadBalancingV2Client({});
  const { TargetGroups } = await client.send(
    new DescribeTargetGroupsCommand({
      Names: [NAMES.loadBalancerTargetGroupName],
    }),
  );

  const { TargetHealthDescriptions } = await client.send(
    new DescribeTargetHealthCommand({
      TargetGroupArn: TargetGroups[0].TargetGroupArn,
    }),
  );
  state.targetHealthDescriptions = TargetHealthDescriptions;
});

const getHealthCheckResult = new ScenarioOutput(
  "getHealthCheckResult",
  /**
   * @param {{ targetHealthDescriptions: import('@aws-sdk/client-elastic-load-balancing-v2').TargetHealthDescription[]}} state
   */
  (state) => {
    const status = state.targetHealthDescriptions
      .map((th) => `${th.Target.Id}: ${th.TargetHealth.State}`)
      .join("\n");
    return `Health check:\n${status}`;
  },
  { preformatted: true },
);

const loadBalancerLoop = new ScenarioAction(
  "loadBalancerLoop",
  getRecommendation.action,
  {
    whileConfig: {
      whileFn: ({ loadBalancerCheck }) => loadBalancerCheck,
      input: new ScenarioInput(
        "loadBalancerCheck",
        MESSAGES.demoLoadBalancerCheck,
        {
          type: "confirm",
        },
      ),
      output: getRecommendationResult,
    },
  },
);

const healthCheckLoop = new ScenarioAction(
  "healthCheckLoop",
  getHealthCheck.action,
  {
    whileConfig: {
      whileFn: ({ healthCheck }) => healthCheck,
      input: new ScenarioInput("healthCheck", MESSAGES.demoHealthCheck, {
        type: "confirm",
      }),
      output: getHealthCheckResult,
    },
  },
);

const statusSteps = [
  getRecommendation,
  getRecommendationResult,
  getHealthCheck,
  getHealthCheckResult,
];

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const demoSteps = [
  new ScenarioOutput("header", MESSAGES.demoHeader, { header: true }),
  new ScenarioOutput("sanityCheck", MESSAGES.demoSanityCheck),
  ...statusSteps,
  new ScenarioInput(
    "brokenDependencyConfirmation",
    MESSAGES.demoBrokenDependencyConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("brokenDependency", async (state) => {
    if (!state.brokenDependencyConfirmation) {
      process.exit();
    } else {
      const client = new SSMClient({});
      state.badTableName = `fake-table-${Date.now()}`;
      await client.send(
        new PutParameterCommand({
          Name: NAMES.ssmTableNameKey,
          Value: state.badTableName,
          Overwrite: true,
          Type: "String",
        }),
      );
    }
  }),
  new ScenarioOutput("testBrokenDependency", (state) =>
    MESSAGES.demoTestBrokenDependency.replace(
      "${TABLE_NAME}",
      state.badTableName,
    ),
  ),
  ...statusSteps,
  new ScenarioInput(
    "staticResponseConfirmation",
    MESSAGES.demoStaticResponseConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("staticResponse", async (state) => {
    if (!state.staticResponseConfirmation) {
      process.exit();
    } else {
      const client = new SSMClient({});
      await client.send(
        new PutParameterCommand({
          Name: NAMES.ssmFailureResponseKey,
          Value: "static",
          Overwrite: true,
          Type: "String",
        }),
      );
    }
  }),
  new ScenarioOutput("testStaticResponse", MESSAGES.demoTestStaticResponse),
  ...statusSteps,
  new ScenarioInput(
    "badCredentialsConfirmation",
    MESSAGES.demoBadCredentialsConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("badCredentialsExit", (state) => {
    if (!state.badCredentialsConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("fixDynamoDBName", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: NAMES.tableName,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioAction(
    "badCredentials",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-auto-scaling').Instance }} state
     */
    async (state) => {
      await createSsmOnlyInstanceProfile();
      const autoScalingClient = new AutoScalingClient({});
      const { AutoScalingGroups } = await autoScalingClient.send(
        new DescribeAutoScalingGroupsCommand({
          AutoScalingGroupNames: [NAMES.autoScalingGroupName],
        }),
      );
      state.targetInstance = AutoScalingGroups[0].Instances[0];
      const ec2Client = new EC2Client({});
      const { IamInstanceProfileAssociations } = await ec2Client.send(
        new DescribeIamInstanceProfileAssociationsCommand({
          Filters: [
            { Name: "instance-id", Values: [state.targetInstance.InstanceId] },
          ],
        }),
      );
      state.instanceProfileAssociationId =
        IamInstanceProfileAssociations[0].AssociationId;
      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        ec2Client.send(
          new ReplaceIamInstanceProfileAssociationCommand({
            AssociationId: state.instanceProfileAssociationId,
            IamInstanceProfile: { Name: NAMES.ssmOnlyInstanceProfileName },
          }),
        ),
      );

      await ec2Client.send(
        new RebootInstancesCommand({
          InstanceIds: [state.targetInstance.InstanceId],
        }),
      );

      const ssmClient = new SSMClient({});
      await retry({ intervalInMs: 20000, maxRetries: 15 }, async () => {
        const { InstanceInformationList } = await ssmClient.send(
          new DescribeInstanceInformationCommand({}),
        );

        const instance = InstanceInformationList.find(
          (info) => info.InstanceId === state.targetInstance.InstanceId,
        );

        if (!instance) {
          throw new Error("Instance not found.");
        }
      });

      await ssmClient.send(
        new SendCommandCommand({
          InstanceIds: [state.targetInstance.InstanceId],
          DocumentName: "AWS-RunShellScript",
          Parameters: { commands: ["cd / && sudo python3 server.py 80"] },
        }),
      );
    },
  ),
  new ScenarioOutput(
    "testBadCredentials",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation}} state
     */
    (state) =>
      MESSAGES.demoTestBadCredentials.replace(
        "${INSTANCE_ID}",
        state.targetInstance.InstanceId,
      ),
  ),
  loadBalancerLoop,
  new ScenarioInput(
    "deepHealthCheckConfirmation",
    MESSAGES.demoDeepHealthCheckConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("deepHealthCheckExit", (state) => {
    if (!state.deepHealthCheckConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("deepHealthCheck", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmHealthCheckKey,
        Value: "deep",
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testDeepHealthCheck", MESSAGES.demoTestDeepHealthCheck),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput(
    "killInstanceConfirmation",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation }} state
     */
    (state) =>
      MESSAGES.demoKillInstanceConfirmation.replace(
        "${INSTANCE_ID}",
        state.targetInstance.InstanceId,
      ),
    { type: "confirm" },
  ),
  new ScenarioAction("killInstanceExit", (state) => {
    if (!state.killInstanceConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction(
    "killInstance",
    /**
     * @param {{ targetInstance: import('@aws-sdk/client-ssm').InstanceInformation }} state
     */
    async (state) => {
      const client = new AutoScalingClient({});
      await client.send(
        new TerminateInstanceInAutoScalingGroupCommand({
          InstanceId: state.targetInstance.InstanceId,
          ShouldDecrementDesiredCapacity: false,
        }),
      );
    },
  ),
  new ScenarioOutput("testKillInstance", MESSAGES.demoTestKillInstance),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput("failOpenConfirmation", MESSAGES.demoFailOpenConfirmation, {
    type: "confirm",
  }),
  new ScenarioAction("failOpenExit", (state) => {
    if (!state.failOpenConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("failOpen", () => {
    const client = new SSMClient({});
    return client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: `fake-table-${Date.now()}`,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testFailOpen", MESSAGES.demoFailOpenTest),
  healthCheckLoop,
  loadBalancerLoop,
  new ScenarioInput(
    "resetTableConfirmation",
    MESSAGES.demoResetTableConfirmation,
    { type: "confirm" },
  ),
  new ScenarioAction("resetTableExit", (state) => {
    if (!state.resetTableConfirmation) {
      process.exit();
    }
  }),
  new ScenarioAction("resetTable", async () => {
    const client = new SSMClient({});
    await client.send(
      new PutParameterCommand({
        Name: NAMES.ssmTableNameKey,
        Value: NAMES.tableName,
        Overwrite: true,
        Type: "String",
      }),
    );
  }),
  new ScenarioOutput("testResetTable", MESSAGES.demoTestResetTable),
  healthCheckLoop,
  loadBalancerLoop,
];

async function createSsmOnlyInstanceProfile() {
  const iamClient = new IAMClient({});
  const { Policy } = await iamClient.send(
    new CreatePolicyCommand({
      PolicyName: NAMES.ssmOnlyPolicyName,
      PolicyDocument: readFileSync(
        join(RESOURCES_PATH, "ssm_only_policy.json"),
      ),
    }),
  );
  await iamClient.send(
    new CreateRoleCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      AssumeRolePolicyDocument: JSON.stringify({
        Version: "2012-10-17",
        Statement: [
          {
            Effect: "Allow",
            Principal: { Service: "ec2.amazonaws.com" },
            Action: "sts:AssumeRole",
          },
        ],
      }),
    }),
  );
  await iamClient.send(
    new AttachRolePolicyCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      PolicyArn: Policy.Arn,
    }),
  );
  await iamClient.send(
    new AttachRolePolicyCommand({
      RoleName: NAMES.ssmOnlyRoleName,
      PolicyArn: "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore",
    }),
  );
  const { InstanceProfile } = await iamClient.send(
    new CreateInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
    }),
  );
  await waitUntilInstanceProfileExists(
    { client: iamClient },
    { InstanceProfileName: NAMES.ssmOnlyInstanceProfileName },
  );
  await iamClient.send(
    new AddRoleToInstanceProfileCommand({
      InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
      RoleName: NAMES.ssmOnlyRoleName,
    }),
  );

  return InstanceProfile;
}
```
Menyusun langkah-langkah untuk menghancurkan semua sumber daya.  

```
import { unlinkSync } from "node:fs";

import { DynamoDBClient, DeleteTableCommand } from "@aws-sdk/client-dynamodb";
import {
  EC2Client,
  DeleteKeyPairCommand,
  DeleteLaunchTemplateCommand,
  RevokeSecurityGroupIngressCommand,
} from "@aws-sdk/client-ec2";
import {
  IAMClient,
  DeleteInstanceProfileCommand,
  RemoveRoleFromInstanceProfileCommand,
  DeletePolicyCommand,
  DeleteRoleCommand,
  DetachRolePolicyCommand,
  paginateListPolicies,
} from "@aws-sdk/client-iam";
import {
  AutoScalingClient,
  DeleteAutoScalingGroupCommand,
  TerminateInstanceInAutoScalingGroupCommand,
  UpdateAutoScalingGroupCommand,
  paginateDescribeAutoScalingGroups,
} from "@aws-sdk/client-auto-scaling";
import {
  DeleteLoadBalancerCommand,
  DeleteTargetGroupCommand,
  DescribeTargetGroupsCommand,
  ElasticLoadBalancingV2Client,
} from "@aws-sdk/client-elastic-load-balancing-v2";

import {
  ScenarioOutput,
  ScenarioInput,
  ScenarioAction,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { loadState } from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

import { MESSAGES, NAMES } from "./constants.js";
import { findLoadBalancer } from "./shared.js";

/**
 * @type {import('@aws-doc-sdk-examples/lib/scenario.js').Step[]}
 */
export const destroySteps = [
  loadState,
  new ScenarioInput("destroy", MESSAGES.destroy, { type: "confirm" }),
  new ScenarioAction(
    "abort",
    (state) => state.destroy === false && process.exit(),
  ),
  new ScenarioAction("deleteTable", async (c) => {
    try {
      const client = new DynamoDBClient({});
      await client.send(new DeleteTableCommand({ TableName: NAMES.tableName }));
    } catch (e) {
      c.deleteTableError = e;
    }
  }),
  new ScenarioOutput("deleteTableResult", (state) => {
    if (state.deleteTableError) {
      console.error(state.deleteTableError);
      return MESSAGES.deleteTableError.replace(
        "${TABLE_NAME}",
        NAMES.tableName,
      );
    }
    return MESSAGES.deletedTable.replace("${TABLE_NAME}", NAMES.tableName);
  }),
  new ScenarioAction("deleteKeyPair", async (state) => {
    try {
      const client = new EC2Client({});
      await client.send(
        new DeleteKeyPairCommand({ KeyName: NAMES.keyPairName }),
      );
      unlinkSync(`${NAMES.keyPairName}.pem`);
    } catch (e) {
      state.deleteKeyPairError = e;
    }
  }),
  new ScenarioOutput("deleteKeyPairResult", (state) => {
    if (state.deleteKeyPairError) {
      console.error(state.deleteKeyPairError);
      return MESSAGES.deleteKeyPairError.replace(
        "${KEY_PAIR_NAME}",
        NAMES.keyPairName,
      );
    }
    return MESSAGES.deletedKeyPair.replace(
      "${KEY_PAIR_NAME}",
      NAMES.keyPairName,
    );
  }),
  new ScenarioAction("detachPolicyFromRole", async (state) => {
    try {
      const client = new IAMClient({});
      const policy = await findPolicy(NAMES.instancePolicyName);

      if (!policy) {
        state.detachPolicyFromRoleError = new Error(
          `Policy ${NAMES.instancePolicyName} not found.`,
        );
      } else {
        await client.send(
          new DetachRolePolicyCommand({
            RoleName: NAMES.instanceRoleName,
            PolicyArn: policy.Arn,
          }),
        );
      }
    } catch (e) {
      state.detachPolicyFromRoleError = e;
    }
  }),
  new ScenarioOutput("detachedPolicyFromRole", (state) => {
    if (state.detachPolicyFromRoleError) {
      console.error(state.detachPolicyFromRoleError);
      return MESSAGES.detachPolicyFromRoleError
        .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
        .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
    }
    return MESSAGES.detachedPolicyFromRole
      .replace("${INSTANCE_POLICY_NAME}", NAMES.instancePolicyName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
  }),
  new ScenarioAction("deleteInstancePolicy", async (state) => {
    const client = new IAMClient({});
    const policy = await findPolicy(NAMES.instancePolicyName);

    if (!policy) {
      state.deletePolicyError = new Error(
        `Policy ${NAMES.instancePolicyName} not found.`,
      );
    } else {
      return client.send(
        new DeletePolicyCommand({
          PolicyArn: policy.Arn,
        }),
      );
    }
  }),
  new ScenarioOutput("deletePolicyResult", (state) => {
    if (state.deletePolicyError) {
      console.error(state.deletePolicyError);
      return MESSAGES.deletePolicyError.replace(
        "${INSTANCE_POLICY_NAME}",
        NAMES.instancePolicyName,
      );
    }
    return MESSAGES.deletedPolicy.replace(
      "${INSTANCE_POLICY_NAME}",
      NAMES.instancePolicyName,
    );
  }),
  new ScenarioAction("removeRoleFromInstanceProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new RemoveRoleFromInstanceProfileCommand({
          RoleName: NAMES.instanceRoleName,
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
    } catch (e) {
      state.removeRoleFromInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("removeRoleFromInstanceProfileResult", (state) => {
    if (state.removeRoleFromInstanceProfile) {
      console.error(state.removeRoleFromInstanceProfileError);
      return MESSAGES.removeRoleFromInstanceProfileError
        .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
        .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
    }
    return MESSAGES.removedRoleFromInstanceProfile
      .replace("${INSTANCE_PROFILE_NAME}", NAMES.instanceProfileName)
      .replace("${INSTANCE_ROLE_NAME}", NAMES.instanceRoleName);
  }),
  new ScenarioAction("deleteInstanceRole", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new DeleteRoleCommand({
          RoleName: NAMES.instanceRoleName,
        }),
      );
    } catch (e) {
      state.deleteInstanceRoleError = e;
    }
  }),
  new ScenarioOutput("deleteInstanceRoleResult", (state) => {
    if (state.deleteInstanceRoleError) {
      console.error(state.deleteInstanceRoleError);
      return MESSAGES.deleteInstanceRoleError.replace(
        "${INSTANCE_ROLE_NAME}",
        NAMES.instanceRoleName,
      );
    }
    return MESSAGES.deletedInstanceRole.replace(
      "${INSTANCE_ROLE_NAME}",
      NAMES.instanceRoleName,
    );
  }),
  new ScenarioAction("deleteInstanceProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.instanceProfileName,
        }),
      );
    } catch (e) {
      state.deleteInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("deleteInstanceProfileResult", (state) => {
    if (state.deleteInstanceProfileError) {
      console.error(state.deleteInstanceProfileError);
      return MESSAGES.deleteInstanceProfileError.replace(
        "${INSTANCE_PROFILE_NAME}",
        NAMES.instanceProfileName,
      );
    }
    return MESSAGES.deletedInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.instanceProfileName,
    );
  }),
  new ScenarioAction("deleteAutoScalingGroup", async (state) => {
    try {
      await terminateGroupInstances(NAMES.autoScalingGroupName);
      await retry({ intervalInMs: 60000, maxRetries: 60 }, async () => {
        await deleteAutoScalingGroup(NAMES.autoScalingGroupName);
      });
    } catch (e) {
      state.deleteAutoScalingGroupError = e;
    }
  }),
  new ScenarioOutput("deleteAutoScalingGroupResult", (state) => {
    if (state.deleteAutoScalingGroupError) {
      console.error(state.deleteAutoScalingGroupError);
      return MESSAGES.deleteAutoScalingGroupError.replace(
        "${AUTO_SCALING_GROUP_NAME}",
        NAMES.autoScalingGroupName,
      );
    }
    return MESSAGES.deletedAutoScalingGroup.replace(
      "${AUTO_SCALING_GROUP_NAME}",
      NAMES.autoScalingGroupName,
    );
  }),
  new ScenarioAction("deleteLaunchTemplate", async (state) => {
    const client = new EC2Client({});
    try {
      await client.send(
        new DeleteLaunchTemplateCommand({
          LaunchTemplateName: NAMES.launchTemplateName,
        }),
      );
    } catch (e) {
      state.deleteLaunchTemplateError = e;
    }
  }),
  new ScenarioOutput("deleteLaunchTemplateResult", (state) => {
    if (state.deleteLaunchTemplateError) {
      console.error(state.deleteLaunchTemplateError);
      return MESSAGES.deleteLaunchTemplateError.replace(
        "${LAUNCH_TEMPLATE_NAME}",
        NAMES.launchTemplateName,
      );
    }
    return MESSAGES.deletedLaunchTemplate.replace(
      "${LAUNCH_TEMPLATE_NAME}",
      NAMES.launchTemplateName,
    );
  }),
  new ScenarioAction("deleteLoadBalancer", async (state) => {
    try {
      const client = new ElasticLoadBalancingV2Client({});
      const loadBalancer = await findLoadBalancer(NAMES.loadBalancerName);
      await client.send(
        new DeleteLoadBalancerCommand({
          LoadBalancerArn: loadBalancer.LoadBalancerArn,
        }),
      );
      await retry({ intervalInMs: 1000, maxRetries: 60 }, async () => {
        const lb = await findLoadBalancer(NAMES.loadBalancerName);
        if (lb) {
          throw new Error("Load balancer still exists.");
        }
      });
    } catch (e) {
      state.deleteLoadBalancerError = e;
    }
  }),
  new ScenarioOutput("deleteLoadBalancerResult", (state) => {
    if (state.deleteLoadBalancerError) {
      console.error(state.deleteLoadBalancerError);
      return MESSAGES.deleteLoadBalancerError.replace(
        "${LB_NAME}",
        NAMES.loadBalancerName,
      );
    }
    return MESSAGES.deletedLoadBalancer.replace(
      "${LB_NAME}",
      NAMES.loadBalancerName,
    );
  }),
  new ScenarioAction("deleteLoadBalancerTargetGroup", async (state) => {
    const client = new ElasticLoadBalancingV2Client({});
    try {
      const { TargetGroups } = await client.send(
        new DescribeTargetGroupsCommand({
          Names: [NAMES.loadBalancerTargetGroupName],
        }),
      );

      await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
        client.send(
          new DeleteTargetGroupCommand({
            TargetGroupArn: TargetGroups[0].TargetGroupArn,
          }),
        ),
      );
    } catch (e) {
      state.deleteLoadBalancerTargetGroupError = e;
    }
  }),
  new ScenarioOutput("deleteLoadBalancerTargetGroupResult", (state) => {
    if (state.deleteLoadBalancerTargetGroupError) {
      console.error(state.deleteLoadBalancerTargetGroupError);
      return MESSAGES.deleteLoadBalancerTargetGroupError.replace(
        "${TARGET_GROUP_NAME}",
        NAMES.loadBalancerTargetGroupName,
      );
    }
    return MESSAGES.deletedLoadBalancerTargetGroup.replace(
      "${TARGET_GROUP_NAME}",
      NAMES.loadBalancerTargetGroupName,
    );
  }),
  new ScenarioAction("detachSsmOnlyRoleFromProfile", async (state) => {
    try {
      const client = new IAMClient({});
      await client.send(
        new RemoveRoleFromInstanceProfileCommand({
          InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
          RoleName: NAMES.ssmOnlyRoleName,
        }),
      );
    } catch (e) {
      state.detachSsmOnlyRoleFromProfileError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyRoleFromProfileResult", (state) => {
    if (state.detachSsmOnlyRoleFromProfileError) {
      console.error(state.detachSsmOnlyRoleFromProfileError);
      return MESSAGES.detachSsmOnlyRoleFromProfileError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${PROFILE_NAME}", NAMES.ssmOnlyInstanceProfileName);
    }
    return MESSAGES.detachedSsmOnlyRoleFromProfile
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${PROFILE_NAME}", NAMES.ssmOnlyInstanceProfileName);
  }),
  new ScenarioAction("detachSsmOnlyCustomRolePolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      const ssmOnlyPolicy = await findPolicy(NAMES.ssmOnlyPolicyName);
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: NAMES.ssmOnlyRoleName,
          PolicyArn: ssmOnlyPolicy.Arn,
        }),
      );
    } catch (e) {
      state.detachSsmOnlyCustomRolePolicyError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyCustomRolePolicyResult", (state) => {
    if (state.detachSsmOnlyCustomRolePolicyError) {
      console.error(state.detachSsmOnlyCustomRolePolicyError);
      return MESSAGES.detachSsmOnlyCustomRolePolicyError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${POLICY_NAME}", NAMES.ssmOnlyPolicyName);
    }
    return MESSAGES.detachedSsmOnlyCustomRolePolicy
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${POLICY_NAME}", NAMES.ssmOnlyPolicyName);
  }),
  new ScenarioAction("detachSsmOnlyAWSRolePolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: NAMES.ssmOnlyRoleName,
          PolicyArn: "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore",
        }),
      );
    } catch (e) {
      state.detachSsmOnlyAWSRolePolicyError = e;
    }
  }),
  new ScenarioOutput("detachSsmOnlyAWSRolePolicyResult", (state) => {
    if (state.detachSsmOnlyAWSRolePolicyError) {
      console.error(state.detachSsmOnlyAWSRolePolicyError);
      return MESSAGES.detachSsmOnlyAWSRolePolicyError
        .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
        .replace("${POLICY_NAME}", "AmazonSSMManagedInstanceCore");
    }
    return MESSAGES.detachedSsmOnlyAWSRolePolicy
      .replace("${ROLE_NAME}", NAMES.ssmOnlyRoleName)
      .replace("${POLICY_NAME}", "AmazonSSMManagedInstanceCore");
  }),
  new ScenarioAction("deleteSsmOnlyInstanceProfile", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DeleteInstanceProfileCommand({
          InstanceProfileName: NAMES.ssmOnlyInstanceProfileName,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyInstanceProfileError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyInstanceProfileResult", (state) => {
    if (state.deleteSsmOnlyInstanceProfileError) {
      console.error(state.deleteSsmOnlyInstanceProfileError);
      return MESSAGES.deleteSsmOnlyInstanceProfileError.replace(
        "${INSTANCE_PROFILE_NAME}",
        NAMES.ssmOnlyInstanceProfileName,
      );
    }
    return MESSAGES.deletedSsmOnlyInstanceProfile.replace(
      "${INSTANCE_PROFILE_NAME}",
      NAMES.ssmOnlyInstanceProfileName,
    );
  }),
  new ScenarioAction("deleteSsmOnlyPolicy", async (state) => {
    try {
      const iamClient = new IAMClient({});
      const ssmOnlyPolicy = await findPolicy(NAMES.ssmOnlyPolicyName);
      await iamClient.send(
        new DeletePolicyCommand({
          PolicyArn: ssmOnlyPolicy.Arn,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyPolicyError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyPolicyResult", (state) => {
    if (state.deleteSsmOnlyPolicyError) {
      console.error(state.deleteSsmOnlyPolicyError);
      return MESSAGES.deleteSsmOnlyPolicyError.replace(
        "${POLICY_NAME}",
        NAMES.ssmOnlyPolicyName,
      );
    }
    return MESSAGES.deletedSsmOnlyPolicy.replace(
      "${POLICY_NAME}",
      NAMES.ssmOnlyPolicyName,
    );
  }),
  new ScenarioAction("deleteSsmOnlyRole", async (state) => {
    try {
      const iamClient = new IAMClient({});
      await iamClient.send(
        new DeleteRoleCommand({
          RoleName: NAMES.ssmOnlyRoleName,
        }),
      );
    } catch (e) {
      state.deleteSsmOnlyRoleError = e;
    }
  }),
  new ScenarioOutput("deleteSsmOnlyRoleResult", (state) => {
    if (state.deleteSsmOnlyRoleError) {
      console.error(state.deleteSsmOnlyRoleError);
      return MESSAGES.deleteSsmOnlyRoleError.replace(
        "${ROLE_NAME}",
        NAMES.ssmOnlyRoleName,
      );
    }
    return MESSAGES.deletedSsmOnlyRole.replace(
      "${ROLE_NAME}",
      NAMES.ssmOnlyRoleName,
    );
  }),
  new ScenarioAction(
    "revokeSecurityGroupIngress",
    async (
      /** @type {{ myIp: string, defaultSecurityGroup: { GroupId: string } }} */ state,
    ) => {
      const ec2Client = new EC2Client({});

      try {
        await ec2Client.send(
          new RevokeSecurityGroupIngressCommand({
            GroupId: state.defaultSecurityGroup.GroupId,
            CidrIp: `${state.myIp}/32`,
            FromPort: 80,
            ToPort: 80,
            IpProtocol: "tcp",
          }),
        );
      } catch (e) {
        state.revokeSecurityGroupIngressError = e;
      }
    },
  ),
  new ScenarioOutput("revokeSecurityGroupIngressResult", (state) => {
    if (state.revokeSecurityGroupIngressError) {
      console.error(state.revokeSecurityGroupIngressError);
      return MESSAGES.revokeSecurityGroupIngressError.replace(
        "${IP}",
        state.myIp,
      );
    }
    return MESSAGES.revokedSecurityGroupIngress.replace("${IP}", state.myIp);
  }),
];

/**
 * @param {string} policyName
 */
async function findPolicy(policyName) {
  const client = new IAMClient({});
  const paginatedPolicies = paginateListPolicies({ client }, {});
  for await (const page of paginatedPolicies) {
    const policy = page.Policies.find((p) => p.PolicyName === policyName);
    if (policy) {
      return policy;
    }
  }
}

/**
 * @param {string} groupName
 */
async function deleteAutoScalingGroup(groupName) {
  const client = new AutoScalingClient({});
  try {
    await client.send(
      new DeleteAutoScalingGroupCommand({
        AutoScalingGroupName: groupName,
      }),
    );
  } catch (err) {
    if (!(err instanceof Error)) {
      throw err;
    }
    console.log(err.name);
    throw err;
  }
}

/**
 * @param {string} groupName
 */
async function terminateGroupInstances(groupName) {
  const autoScalingClient = new AutoScalingClient({});
  const group = await findAutoScalingGroup(groupName);
  await autoScalingClient.send(
    new UpdateAutoScalingGroupCommand({
      AutoScalingGroupName: group.AutoScalingGroupName,
      MinSize: 0,
    }),
  );
  for (const i of group.Instances) {
    await retry({ intervalInMs: 1000, maxRetries: 30 }, () =>
      autoScalingClient.send(
        new TerminateInstanceInAutoScalingGroupCommand({
          InstanceId: i.InstanceId,
          ShouldDecrementDesiredCapacity: true,
        }),
      ),
    );
  }
}

async function findAutoScalingGroup(groupName) {
  const client = new AutoScalingClient({});
  const paginatedGroups = paginateDescribeAutoScalingGroups({ client }, {});
  for await (const page of paginatedGroups) {
    const group = page.AutoScalingGroups.find(
      (g) => g.AutoScalingGroupName === groupName,
    );
    if (group) {
      return group;
    }
  }
  throw new Error(`Auto scaling group ${groupName} not found.`);
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/AttachLoadBalancerTargetGroupsCommand)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/CreateAutoScalingGroupCommand)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/CreateInstanceProfileCommand)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateLaunchTemplateCommand)
  + [CreateListener](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateListenerCommand)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateLoadBalancerCommand)
  + [CreateTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/CreateTargetGroupCommand)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/DeleteAutoScalingGroupCommand)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iam/command/DeleteInstanceProfileCommand)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteLaunchTemplateCommand)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteLoadBalancerCommand)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DeleteTargetGroupCommand)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/DescribeAutoScalingGroupsCommand)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeAvailabilityZonesCommand)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeIamInstanceProfileAssociationsCommand)
  + [DescribeInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstancesCommand)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeLoadBalancersCommand)
  + [DescribeSubnets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSubnetsCommand)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetGroupsCommand)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/elastic-load-balancing-v2/command/DescribeTargetHealthCommand)
  + [DescribeVpcs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeVpcsCommand)
  + [RebootInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RebootInstancesCommand)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReplaceIamInstanceProfileAssociationCommand)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/TerminateInstanceInAutoScalingGroupCommand)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/auto-scaling/command/UpdateAutoScalingGroupCommand)

# AWS IoT SiteWise contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_iotsitewise_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with AWS IoT SiteWise.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT SiteWise
<a name="iotsitewise_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT SiteWise.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  paginateListAssetModels,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";

// Call ListDocuments and display the result.
export const main = async () => {
  const client = new IoTSiteWiseClient();
  const listAssetModelsPaginated = [];
  console.log(
    "Hello, AWS Systems Manager! Let's list some of your documents:\n",
  );
  try {
    // The paginate function is a wrapper around the base command.
    const paginator = paginateListAssetModels({ client }, { maxResults: 5 });
    for await (const page of paginator) {
      listAssetModelsPaginated.push(...page.assetModelSummaries);
    }
  } catch (caught) {
    console.error(`There was a problem saying hello: ${caught.message}`);
    throw caught;
  }
  for (const { name, creationDate } of listAssetModelsPaginated) {
    console.log(`${name} - ${creationDate}`);
  }
};

// Call function if run directly.
import { fileURLToPath } from "node:url";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  main();
}
```
+  Untuk detail API, lihat [ListAssetModels](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/ListAssetModelsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iotsitewise_Scenario_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat Model AWS IoT SiteWise Aset.
+ Buat AWS IoT SiteWise Aset.
+ Mengambil nilai ID properti.
+ Kirim data ke AWS IoT SiteWise Aset.
+ Ambil nilai properti AWS IoT SiteWise Aset.
+ Buat AWS IoT SiteWise Portal.
+ Buat AWS IoT SiteWise Gateway.
+ Jelaskan AWS IoT SiteWise Gateway.
+ Hapus AWS IoT SiteWise Aset.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
  //} from "@aws-doc-sdk-examples/lib/scenario/index.js";
} from "../../libs/scenario/index.js";
import {
  IoTSiteWiseClient,
  CreateAssetModelCommand,
  CreateAssetCommand,
  ListAssetModelPropertiesCommand,
  BatchPutAssetPropertyValueCommand,
  GetAssetPropertyValueCommand,
  CreatePortalCommand,
  DescribePortalCommand,
  CreateGatewayCommand,
  DescribeGatewayCommand,
  DeletePortalCommand,
  DeleteGatewayCommand,
  DeleteAssetCommand,
  DeleteAssetModelCommand,
  DescribeAssetModelCommand,
} from "@aws-sdk/client-iotsitewise";
import {
  CloudFormationClient,
  CreateStackCommand,
  DeleteStackCommand,
  DescribeStacksCommand,
  waitUntilStackExists,
  waitUntilStackCreateComplete,
  waitUntilStackDeleteComplete,
} from "@aws-sdk/client-cloudformation";
import { wait } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";
import { parseArgs } from "node:util";
import { readFileSync } from "node:fs";
import { fileURLToPath } from "node:url";
import { dirname } from "node:path";

const __filename = fileURLToPath(import.meta.url);
const __dirname = dirname(__filename);
const stackName = "SiteWiseBasicsStack";

/**
 * @typedef {{
 *   iotSiteWiseClient: import('@aws-sdk/client-iotsitewise').IotSiteWiseClient,
 *   cloudFormationClient: import('@aws-sdk/client-cloudformation').CloudFormationClient,
 *   stackName,
 *   stack,
 *   askToDeleteResources: true,
 *   asset: {assetName: "MyAsset1"},
 *   assetModel: {assetModelName: "MyAssetModel1"},
 *   portal: {portalName: "MyPortal1"},
 *   gateway: {gatewayName: "MyGateway1"},
 *   propertyIds: [],
 *   contactEmail: "user@mydomain.com",
 *   thing: "MyThing1",
 *   sampleData: { temperature: 23.5, humidity: 65.0}
 * }} State
 */

/**
 * Used repeatedly to have the user press enter.
 * @type {ScenarioInput}
 */
const pressEnter = new ScenarioInput("continue", "Press Enter to continue", {
  type: "confirm",
});

const greet = new ScenarioOutput(
  "greet",
  `AWS IoT SiteWise is a fully managed industrial software-as-a-service (SaaS) that makes it easy to collect, store, organize, and monitor data from industrial equipment and processes. It is designed to help industrial and manufacturing organizations collect data from their equipment and processes, and use that data to make informed decisions about their operations.
One of the key features of AWS IoT SiteWise is its ability to connect to a wide range of industrial equipment and systems, including programmable logic controllers (PLCs), sensors, and other industrial devices. It can collect data from these devices and organize it into a unified data model, making it easier to analyze and gain insights from the data. AWS IoT SiteWise also provides tools for visualizing the data, setting up alarms and alerts, and generating reports.
Another key feature of AWS IoT SiteWise is its ability to scale to handle large volumes of data. It can collect and store data from thousands of devices and process millions of data points per second, making it suitable for large-scale industrial operations. Additionally, AWS IoT SiteWise is designed to be secure and compliant, with features like role-based access controls, data encryption, and integration with other AWS services for additional security and compliance features.

Let's get started...`,
  { header: true },
);

const displayBuildCloudFormationStack = new ScenarioOutput(
  "displayBuildCloudFormationStack",
  "This scenario uses AWS CloudFormation to create an IAM role that is required for this scenario. The stack will now be deployed.",
);

const sdkBuildCloudFormationStack = new ScenarioAction(
  "sdkBuildCloudFormationStack",
  async (/** @type {State} */ state) => {
    try {
      const data = readFileSync(
        `${__dirname}/../../../../resources/cfn/iotsitewise_basics/SitewiseRoles-template.yml`,
        "utf8",
      );
      await state.cloudFormationClient.send(
        new CreateStackCommand({
          StackName: stackName,
          TemplateBody: data,
          Capabilities: ["CAPABILITY_IAM"],
        }),
      );
      await waitUntilStackExists(
        { client: state.cloudFormationClient },
        { StackName: stackName },
      );
      await waitUntilStackCreateComplete(
        { client: state.cloudFormationClient },
        { StackName: stackName },
      );
      const stack = await state.cloudFormationClient.send(
        new DescribeStacksCommand({
          StackName: stackName,
        }),
      );
      state.stack = stack.Stacks[0].Outputs[0];
      console.log(`The ARN of the IAM role is ${state.stack.OutputValue}`);
    } catch (caught) {
      console.error(caught.message);
      throw caught;
    }
  },
);

const displayCreateAWSSiteWiseAssetModel = new ScenarioOutput(
  "displayCreateAWSSiteWiseAssetModel",
  `1. Create an AWS SiteWise Asset Model
An AWS IoT SiteWise Asset Model is a way to represent the physical assets, such as equipment, processes, and systems, that exist in an industrial environment. This model provides a structured and hierarchical representation of these assets, allowing users to define the relationships and properties of each asset.
         
This scenario creates two asset model properties: temperature and humidity.`,
);

const sdkCreateAWSSiteWiseAssetModel = new ScenarioAction(
  "sdkCreateAWSSiteWiseAssetModel",
  async (/** @type {State} */ state) => {
    let assetModelResponse;
    try {
      assetModelResponse = await state.iotSiteWiseClient.send(
        new CreateAssetModelCommand({
          assetModelName: state.assetModel.assetModelName,
          assetModelProperties: [
            {
              name: "Temperature",
              dataType: "DOUBLE",
              type: {
                measurement: {},
              },
            },
            {
              name: "Humidity",
              dataType: "DOUBLE",
              type: {
                measurement: {},
              },
            },
          ],
        }),
      );
      state.assetModel.assetModelId = assetModelResponse.assetModelId;
      console.log(
        `Asset Model successfully created. Asset Model ID: ${state.assetModel.assetModelId}`,
      );
    } catch (caught) {
      if (caught.name === "ResourceAlreadyExistsException") {
        console.log(
          `The Asset Model ${state.assetModel.assetModelName} already exists.`,
        );
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const displayCreateAWSIoTSiteWiseAssetModel = new ScenarioOutput(
  "displayCreateAWSIoTSiteWiseAssetModel",
  `2. Create an AWS IoT SiteWise Asset
The IoT SiteWise model that we just created defines the structure and metadata for your physical assets. Now we create an asset from the asset model.

Let's wait 30 seconds for the asset to be ready.`,
);

const waitThirtySeconds = new ScenarioAction("waitThirtySeconds", async () => {
  await wait(30); // wait 30 seconds
  console.log("Time's up! Let's check the asset's status.");
});

const sdkCreateAWSIoTSiteWiseAssetModel = new ScenarioAction(
  "sdkCreateAWSIoTSiteWiseAssetModel",
  async (/** @type {State} */ state) => {
    try {
      const assetResponse = await state.iotSiteWiseClient.send(
        new CreateAssetCommand({
          assetModelId: state.assetModel.assetModelId,
          assetName: state.asset.assetName,
        }),
      );
      state.asset.assetId = assetResponse.assetId;
      console.log(`Asset created with ID: ${state.asset.assetId}`);
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(
          `The Asset ${state.assetModel.assetModelName} was not found.`,
        );
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const displayRetrievePropertyId = new ScenarioOutput(
  "displayRetrievePropertyId",
  `3. Retrieve the property ID values

To send data to an asset, we need to get the property ID values. In this scenario, we access the temperature and humidity property ID values.`,
);

const sdkRetrievePropertyId = new ScenarioAction(
  "sdkRetrievePropertyId",
  async (state) => {
    try {
      const retrieveResponse = await state.iotSiteWiseClient.send(
        new ListAssetModelPropertiesCommand({
          assetModelId: state.assetModel.assetModelId,
        }),
      );
      for (const retrieveResponseKey in retrieveResponse.assetModelPropertySummaries) {
        if (
          retrieveResponse.assetModelPropertySummaries[retrieveResponseKey]
            .name === "Humidity"
        ) {
          state.propertyIds.Humidity =
            retrieveResponse.assetModelPropertySummaries[
              retrieveResponseKey
            ].id;
        }
        if (
          retrieveResponse.assetModelPropertySummaries[retrieveResponseKey]
            .name === "Temperature"
        ) {
          state.propertyIds.Temperature =
            retrieveResponse.assetModelPropertySummaries[
              retrieveResponseKey
            ].id;
        }
      }
      console.log(`The Humidity propertyId is ${state.propertyIds.Humidity}`);
      console.log(
        `The Temperature propertyId is ${state.propertyIds.Temperature}`,
      );
    } catch (caught) {
      if (caught.name === "IoTSiteWiseException") {
        console.log(
          `There was a problem retrieving the properties: ${caught.message}`,
        );
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const displaySendDataToIoTSiteWiseAsset = new ScenarioOutput(
  "displaySendDataToIoTSiteWiseAsset",
  `4. Send data to an AWS IoT SiteWise Asset

By sending data to an IoT SiteWise Asset, you can aggregate data from multiple sources, normalize the data into a standard format, and store it in a centralized location. This makes it easier to analyze and gain insights from the data.

In this example, we generate sample temperature and humidity data and send it to the AWS IoT SiteWise asset.`,
);

const sdkSendDataToIoTSiteWiseAsset = new ScenarioAction(
  "sdkSendDataToIoTSiteWiseAsset",
  async (state) => {
    try {
      const sendResponse = await state.iotSiteWiseClient.send(
        new BatchPutAssetPropertyValueCommand({
          entries: [
            {
              entryId: "entry-3",
              assetId: state.asset.assetId,
              propertyId: state.propertyIds.Humidity,
              propertyValues: [
                {
                  value: {
                    doubleValue: state.sampleData.humidity,
                  },
                  timestamp: {
                    timeInSeconds: Math.floor(Date.now() / 1000),
                  },
                },
              ],
            },
            {
              entryId: "entry-4",
              assetId: state.asset.assetId,
              propertyId: state.propertyIds.Temperature,
              propertyValues: [
                {
                  value: {
                    doubleValue: state.sampleData.temperature,
                  },
                  timestamp: {
                    timeInSeconds: Math.floor(Date.now() / 1000),
                  },
                },
              ],
            },
          ],
        }),
      );
      console.log("The data was sent successfully.");
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(`The Asset ${state.asset.assetName} was not found.`);
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const displayRetrieveValueOfIoTSiteWiseAsset = new ScenarioOutput(
  "displayRetrieveValueOfIoTSiteWiseAsset",
  `5. Retrieve the value of the IoT SiteWise Asset property

IoT SiteWise is an AWS service that allows you to collect, process, and analyze industrial data from connected equipment and sensors. One of the key benefits of reading an IoT SiteWise property is the ability to gain valuable insights from your industrial data.`,
);

const sdkRetrieveValueOfIoTSiteWiseAsset = new ScenarioAction(
  "sdkRetrieveValueOfIoTSiteWiseAsset",
  async (/** @type {State} */ state) => {
    try {
      const temperatureResponse = await state.iotSiteWiseClient.send(
        new GetAssetPropertyValueCommand({
          assetId: state.asset.assetId,
          propertyId: state.propertyIds.Temperature,
        }),
      );
      const humidityResponse = await state.iotSiteWiseClient.send(
        new GetAssetPropertyValueCommand({
          assetId: state.asset.assetId,
          propertyId: state.propertyIds.Humidity,
        }),
      );
      console.log(
        `The property value for Temperature is ${temperatureResponse.propertyValue.value.doubleValue}`,
      );
      console.log(
        `The property value for Humidity is ${humidityResponse.propertyValue.value.doubleValue}`,
      );
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(`The Asset ${state.asset.assetName} was not found.`);
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const displayCreateIoTSiteWisePortal = new ScenarioOutput(
  "displayCreateIoTSiteWisePortal",
  `6. Create an IoT SiteWise Portal

An IoT SiteWise Portal allows you to aggregate data from multiple industrial sources, such as sensors, equipment, and control systems, into a centralized platform.`,
);

const sdkCreateIoTSiteWisePortal = new ScenarioAction(
  "sdkCreateIoTSiteWisePortal",
  async (/** @type {State} */ state) => {
    try {
      const createPortalResponse = await state.iotSiteWiseClient.send(
        new CreatePortalCommand({
          portalName: state.portal.portalName,
          portalContactEmail: state.contactEmail,
          roleArn: state.stack.OutputValue,
        }),
      );
      state.portal = { ...state.portal, ...createPortalResponse };
      await wait(5); // Allow the portal to properly propagate.
      console.log(
        `Portal created successfully. Portal ID ${createPortalResponse.portalId}`,
      );
    } catch (caught) {
      if (caught.name === "IoTSiteWiseException") {
        console.log(
          `There was a problem creating the Portal: ${caught.message}.`,
        );
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const displayDescribePortal = new ScenarioOutput(
  "displayDescribePortal",
  `7. Describe the Portal

In this step, we get a description of the portal and display the portal URL.`,
);

const sdkDescribePortal = new ScenarioAction(
  "sdkDescribePortal",
  async (/** @type {State} */ state) => {
    try {
      const describePortalResponse = await state.iotSiteWiseClient.send(
        new DescribePortalCommand({
          portalId: state.portal.portalId,
        }),
      );
      console.log(`Portal URL: ${describePortalResponse.portalStartUrl}`);
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(`The Portal ${state.portal.portalName} was not found.`);
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const displayCreateIoTSiteWiseGateway = new ScenarioOutput(
  "displayCreateIoTSiteWiseGateway",
  `8. Create an IoT SiteWise Gateway

IoT SiteWise Gateway serves as the bridge between industrial equipment, sensors, and the cloud-based IoT SiteWise service. It is responsible for securely collecting, processing, and transmitting data from various industrial assets to the IoT SiteWise platform, enabling real-time monitoring, analysis, and optimization of industrial operations.`,
);

const sdkCreateIoTSiteWiseGateway = new ScenarioAction(
  "sdkCreateIoTSiteWiseGateway",
  async (/** @type {State} */ state) => {
    try {
      const createGatewayResponse = await state.iotSiteWiseClient.send(
        new CreateGatewayCommand({
          gatewayName: state.gateway.gatewayName,
          gatewayPlatform: {
            greengrassV2: {
              coreDeviceThingName: state.thing,
            },
          },
        }),
      );
      console.log(
        `Gateway creation completed successfully. ID is ${createGatewayResponse.gatewayId}`,
      );
      state.gateway.gatewayId = createGatewayResponse.gatewayId;
    } catch (caught) {
      if (caught.name === "IoTSiteWiseException") {
        console.log(
          `There was a problem creating the gateway: ${caught.message}.`,
        );
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const displayDescribeIoTSiteWiseGateway = new ScenarioOutput(
  "displayDescribeIoTSiteWiseGateway",
  "9. Describe the IoT SiteWise Gateway",
);

const sdkDescribeIoTSiteWiseGateway = new ScenarioAction(
  "sdkDescribeIoTSiteWiseGateway",
  async (/** @type {State} */ state) => {
    try {
      const describeGatewayResponse = await state.iotSiteWiseClient.send(
        new DescribeGatewayCommand({
          gatewayId: state.gateway.gatewayId,
        }),
      );
      console.log("Gateway creation completed successfully.");
      console.log(`Gateway Name: ${describeGatewayResponse.gatewayName}`);
      console.log(`Gateway ARN: ${describeGatewayResponse.gatewayArn}`);
      console.log(
        `Gateway Platform: ${Object.keys(describeGatewayResponse.gatewayPlatform)}`,
      );
      console.log(
        `Gateway Creation Date: ${describeGatewayResponse.creationDate}`,
      );
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(`The Gateway ${state.gateway.gatewayId} was not found.`);
        throw caught;
      }
      console.error(`${caught.message}`);
      throw caught;
    }
  },
);

const askToDeleteResources = new ScenarioInput(
  "askToDeleteResources",
  `10. Delete the AWS IoT SiteWise Assets
  
Before you can delete the Asset Model, you must delete the assets.`,
  { type: "confirm" },
);

const displayConfirmDeleteResources = new ScenarioAction(
  "displayConfirmDeleteResources",
  async (/** @type {State} */ state) => {
    if (state.askToDeleteResources) {
      return "You selected to delete the SiteWise assets.";
    }
    return "The resources will not be deleted. Please delete them manually to avoid charges.";
  },
);

const sdkDeleteResources = new ScenarioAction(
  "sdkDeleteResources",
  async (/** @type {State} */ state) => {
    await wait(10); // Give the portal status time to catch up.
    try {
      await state.iotSiteWiseClient.send(
        new DeletePortalCommand({
          portalId: state.portal.portalId,
        }),
      );
      console.log(
        `Portal ${state.portal.portalName} was deleted successfully.`,
      );
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(`The Portal ${state.portal.portalName} was not found.`);
      } else {
        console.log(`When trying to delete the portal: ${caught.message}`);
      }
    }

    try {
      await state.iotSiteWiseClient.send(
        new DeleteGatewayCommand({
          gatewayId: state.gateway.gatewayId,
        }),
      );
      console.log(
        `Gateway ${state.gateway.gatewayName} was deleted successfully.`,
      );
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(`The Gateway ${state.gateway.gatewayId} was not found.`);
      } else {
        console.log(`When trying to delete the gateway: ${caught.message}`);
      }
    }

    try {
      await state.iotSiteWiseClient.send(
        new DeleteAssetCommand({
          assetId: state.asset.assetId,
        }),
      );
      await wait(5); // Allow the delete to finish.
      console.log(`Asset ${state.asset.assetName} was deleted successfully.`);
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(`The Asset ${state.asset.assetName} was not found.`);
      } else {
        console.log(`When deleting the asset: ${caught.message}`);
      }
    }

    await wait(30); // Allow asset deletion to finish.
    try {
      await state.iotSiteWiseClient.send(
        new DeleteAssetModelCommand({
          assetModelId: state.assetModel.assetModelId,
        }),
      );
      console.log(
        `Asset Model ${state.assetModel.assetModelName} was deleted successfully.`,
      );
    } catch (caught) {
      if (caught.name === "ResourceNotFoundException") {
        console.log(
          `The Asset Model ${state.assetModel.assetModelName} was not found.`,
        );
      } else {
        console.log(`When deleting the asset model: ${caught.message}`);
      }
    }

    try {
      await state.cloudFormationClient.send(
        new DeleteStackCommand({
          StackName: stackName,
        }),
      );
      await waitUntilStackDeleteComplete(
        { client: state.cloudFormationClient },
        { StackName: stackName },
      );
      console.log("The stack was deleted successfully.");
    } catch (caught) {
      console.log(
        `${caught.message}. The stack was NOT deleted. Please clean up the resources manually.`,
      );
    }
  },
  { skipWhen: (/** @type {{}} */ state) => !state.askToDeleteResources },
);

const goodbye = new ScenarioOutput(
  "goodbye",
  "This concludes the IoT Sitewise Basics scenario for the AWS Javascript SDK v3. Thank you!",
);

const myScenario = new Scenario(
  "IoTSiteWise Basics",
  [
    greet,
    pressEnter,
    displayBuildCloudFormationStack,
    sdkBuildCloudFormationStack,
    pressEnter,
    displayCreateAWSSiteWiseAssetModel,
    sdkCreateAWSSiteWiseAssetModel,
    displayCreateAWSIoTSiteWiseAssetModel,
    pressEnter,
    waitThirtySeconds,
    sdkCreateAWSIoTSiteWiseAssetModel,
    pressEnter,
    displayRetrievePropertyId,
    sdkRetrievePropertyId,
    pressEnter,
    displaySendDataToIoTSiteWiseAsset,
    sdkSendDataToIoTSiteWiseAsset,
    pressEnter,
    displayRetrieveValueOfIoTSiteWiseAsset,
    sdkRetrieveValueOfIoTSiteWiseAsset,
    pressEnter,
    displayCreateIoTSiteWisePortal,
    sdkCreateIoTSiteWisePortal,
    pressEnter,
    displayDescribePortal,
    sdkDescribePortal,
    pressEnter,
    displayCreateIoTSiteWiseGateway,
    sdkCreateIoTSiteWiseGateway,
    pressEnter,
    displayDescribeIoTSiteWiseGateway,
    sdkDescribeIoTSiteWiseGateway,
    pressEnter,
    askToDeleteResources,
    displayConfirmDeleteResources,
    sdkDeleteResources,
    goodbye,
  ],
  {
    iotSiteWiseClient: new IoTSiteWiseClient({}),
    cloudFormationClient: new CloudFormationClient({}),
    asset: { assetName: "MyAsset1" },
    assetModel: { assetModelName: "MyAssetModel1" },
    portal: { portalName: "MyPortal1" },
    gateway: { gatewayName: "MyGateway1" },
    propertyIds: [],
    contactEmail: "user@mydomain.com",
    thing: "MyThing1",
    sampleData: { temperature: 23.5, humidity: 65.0 },
  },
);

/** @type {{ stepHandlerOptions: StepHandlerOptions }} */
export const main = async (stepHandlerOptions) => {
  await myScenario.run(stepHandlerOptions);
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const { values } = parseArgs({
    options: {
      yes: {
        type: "boolean",
        short: "y",
      },
    },
  });
  main({ confirmAll: values.yes });
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [BatchPutAssetPropertyValue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/BatchPutAssetPropertyValueCommand)
  + [CreateAsset](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/CreateAssetCommand)
  + [CreateAssetModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/CreateAssetModelCommand)
  + [CreateGateway](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/CreateGatewayCommand)
  + [DeleteAsset](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DeleteAssetCommand)
  + [DeleteAssetModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DeleteAssetModelCommand)
  + [DeleteGateway](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DeleteGatewayCommand)
  + [DescribeAssetModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DescribeAssetModelCommand)
  + [DescribeGateway](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DescribeGatewayCommand)
  + [GetAssetPropertyValue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/GetAssetPropertyValueCommand)
  + [ListAssetModelProperties](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/ListAssetModelPropertiesCommand)
  + [ListAssetModels](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/ListAssetModelsCommand)

## Tindakan
<a name="actions"></a>

### `BatchPutAssetPropertyValue`
<a name="iotsitewise_BatchPutAssetPropertyValue_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchPutAssetPropertyValue`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  BatchPutAssetPropertyValueCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Batch put asset property values.
 * @param {{ entries : array }}
 */
export const main = async ({ entries }) => {
  const client = new IoTSiteWiseClient({});
  try {
    const result = await client.send(
      new BatchPutAssetPropertyValueCommand({
        entries: entries,
      }),
    );
    console.log("Asset properties batch put successfully.");
    return result;
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceNotFound") {
      console.warn(`${caught.message}. A resource could not be found.`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [BatchPutAssetPropertyValue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/BatchPutAssetPropertyValueCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateAsset`
<a name="iotsitewise_CreateAsset_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAsset`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  CreateAssetCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Create an Asset.
 * @param {{ assetName : string, assetModelId: string }}
 */
export const main = async ({ assetName, assetModelId }) => {
  const client = new IoTSiteWiseClient({});
  try {
    const result = await client.send(
      new CreateAssetCommand({
        assetName: assetName, // The name to give the Asset.
        assetModelId: assetModelId, // The ID of the asset model from which to create the asset.
      }),
    );
    console.log("Asset created successfully.");
    return result;
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceNotFound") {
      console.warn(
        `${caught.message}. The asset model could not be found. Please check the asset model id.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [CreateAsset](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/CreateAssetCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateAssetModel`
<a name="iotsitewise_CreateAssetModel_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAssetModel`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  CreateAssetModelCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Create an Asset Model.
 * @param {{ assetName : string, assetModelId: string }}
 */
export const main = async ({ assetModelName, assetModelId }) => {
  const client = new IoTSiteWiseClient({});
  try {
    const result = await client.send(
      new CreateAssetModelCommand({
        assetModelName: assetModelName, // The name to give the Asset Model.
      }),
    );
    console.log("Asset model created successfully.");
    return result;
  } catch (caught) {
    if (caught instanceof Error && caught.name === "IoTSiteWiseError") {
      console.warn(
        `${caught.message}. There was a problem creating the asset model.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [CreateAssetModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/CreateAssetModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateGateway`
<a name="iotsitewise_CreateGateway_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGateway`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  CreateGatewayCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Create a Gateway.
 * @param {{  }}
 */
export const main = async ({ gatewayName }) => {
  const client = new IoTSiteWiseClient({});
  try {
    const result = await client.send(
      new CreateGatewayCommand({
        gatewayName: gatewayName, // The name to give the created Gateway.
      }),
    );
    console.log("Gateway created successfully.");
    return result;
  } catch (caught) {
    if (caught instanceof Error && caught.name === "IoTSiteWiseError") {
      console.warn(
        `${caught.message}. There was a problem creating the Gateway.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [CreateGateway](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/CreateGatewayCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteAsset`
<a name="iotsitewise_DeleteAsset_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAsset`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  DeleteAssetCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Delete an asset.
 * @param {{ assetId : string }}
 */
export const main = async ({ assetId }) => {
  const client = new IoTSiteWiseClient({});
  try {
    await client.send(
      new DeleteAssetCommand({
        assetId: assetId, // The model id to delete.
      }),
    );
    console.log("Asset deleted successfully.");
    return { assetDeleted: true };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceNotFound") {
      console.warn(
        `${caught.message}. There was a problem deleting the asset.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteAsset](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DeleteAssetCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteAssetModel`
<a name="iotsitewise_DeleteAssetModel_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAssetModel`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  DeleteAssetModelCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Delete an asset model.
 * @param {{ assetModelId : string }}
 */
export const main = async ({ assetModelId }) => {
  const client = new IoTSiteWiseClient({});
  try {
    await client.send(
      new DeleteAssetModelCommand({
        assetModelId: assetModelId, // The model id to delete.
      }),
    );
    console.log("Asset model deleted successfully.");
    return { assetModelDeleted: true };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceNotFound") {
      console.warn(
        `${caught.message}. There was a problem deleting the asset model.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteAssetModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DeleteAssetModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteGateway`
<a name="iotsitewise_DeleteGateway_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteGateway`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  DeleteGatewayCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Create an SSM document.
 * @param {{ content: string, name: string, documentType?: DocumentType }}
 */
export const main = async ({ gatewayId }) => {
  const client = new IoTSiteWiseClient({});
  try {
    await client.send(
      new DeleteGatewayCommand({
        gatewayId: gatewayId, // The ID of the Gateway to describe.
      }),
    );
    console.log("Gateway deleted successfully.");
    return { gatewayDeleted: true };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceNotFound") {
      console.warn(
        `${caught.message}. The Gateway could not be found. Please check the Gateway Id.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteGateway](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DeleteGatewayCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeAssetModel`
<a name="iotsitewise_DescribeAssetModel_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAssetModel`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  DescribeAssetModelCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Describe an asset model.
 * @param {{ assetModelId : string }}
 */
export const main = async ({ assetModelId }) => {
  const client = new IoTSiteWiseClient({});
  try {
    const { assetModelDescription } = await client.send(
      new DescribeAssetModelCommand({
        assetModelId: assetModelId, // The ID of the Gateway to describe.
      }),
    );
    console.log("Asset model information retrieved successfully.");
    return { assetModelDescription: assetModelDescription };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceNotFound") {
      console.warn(
        `${caught.message}. The asset model could not be found. Please check the asset model id.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DescribeAssetModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DescribeAssetModelCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeGateway`
<a name="iotsitewise_DescribeGateway_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeGateway`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  DescribeGatewayCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Create an SSM document.
 * @param {{ content: string, name: string, documentType?: DocumentType }}
 */
export const main = async ({ gatewayId }) => {
  const client = new IoTSiteWiseClient({});
  try {
    const { gatewayDescription } = await client.send(
      new DescribeGatewayCommand({
        gatewayId: gatewayId, // The ID of the Gateway to describe.
      }),
    );
    console.log("Gateway information retrieved successfully.");
    return { gatewayDescription: gatewayDescription };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceNotFound") {
      console.warn(
        `${caught.message}. The Gateway could not be found. Please check the Gateway Id.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DescribeGateway](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/DescribeGatewayCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetAssetPropertyValue`
<a name="iotsitewise_GetAssetPropertyValue_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAssetPropertyValue`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  GetAssetPropertyValueCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * Describe an asset property value.
 * @param {{ entryId : string }}
 */
export const main = async ({ entryId }) => {
  const client = new IoTSiteWiseClient({});
  try {
    const result = await client.send(
      new GetAssetPropertyValueCommand({
        entryId: entryId, // The ID of the Gateway to describe.
      }),
    );
    console.log("Asset property information retrieved successfully.");
    return result;
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ResourceNotFound") {
      console.warn(
        `${caught.message}. The asset property entry could not be found. Please check the entry id.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [GetAssetPropertyValue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/GetAssetPropertyValueCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListAssetModels`
<a name="iotsitewise_ListAssetModels_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAssetModels`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/iotsitewise#code-examples). 

```
import {
  ListAssetModelsCommand,
  IoTSiteWiseClient,
} from "@aws-sdk/client-iotsitewise";
import { parseArgs } from "node:util";

/**
 * List asset models.
 * @param {{ assetModelTypes : array }}
 */
export const main = async ({ assetModelTypes = [] }) => {
  const client = new IoTSiteWiseClient({});
  try {
    const result = await client.send(
      new ListAssetModelsCommand({
        assetModelTypes: assetModelTypes, // The model types to list
      }),
    );
    console.log("Asset model types retrieved successfully.");
    return result;
  } catch (caught) {
    if (caught instanceof Error && caught.name === "IoTSiteWiseError") {
      console.warn(
        `${caught.message}. There was a problem listing the asset model types.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [ListAssetModels](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/iotsitewise/command/ListAssetModelsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Kinesis menggunakan SDK for JavaScript (v3)
<a name="javascript_3_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Kinesis.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `PutRecords`
<a name="kinesis_PutRecords_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecords`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/kinesis#code-examples). 

```
import { PutRecordsCommand, KinesisClient } from "@aws-sdk/client-kinesis";

/**
 * Put multiple records into a Kinesis stream.
 * @param {{ streamArn: string }} config
 */
export const main = async ({ streamArn }) => {
  const client = new KinesisClient({});
  try {
    await client.send(
      new PutRecordsCommand({
        StreamARN: streamArn,
        Records: [
          {
            Data: new Uint8Array(),
            /**
             * Determines which shard in the stream the data record is assigned to.
             * Partition keys are Unicode strings with a maximum length limit of 256
             * characters for each key. Amazon Kinesis Data Streams uses the partition
             * key as input to a hash function that maps the partition key and
             * associated data to a specific shard.
             */
            PartitionKey: "TEST_KEY",
          },
          {
            Data: new Uint8Array(),
            PartitionKey: "TEST_KEY",
          },
        ],
      }),
    );
  } catch (caught) {
    if (caught instanceof Error) {
      //
    } else {
      throw caught;
    }
  }
};

// Call function if run directly.
import { fileURLToPath } from "node:url";
import { parseArgs } from "node:util";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const options = {
    streamArn: {
      type: "string",
      description: "The ARN of the stream.",
    },
  };

  const { values } = parseArgs({ options });
  main(values);
}
```
+  Untuk detail API, lihat [PutRecords](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/kinesis/command/PutRecordsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/blob/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan menggunakan Lambda. JavaScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
  for (const record of event.Records) {
    try {
      console.log(`Processed Kinesis Event - EventID: ${record.eventID}`);
      const recordData = await getRecordDataAsync(record.kinesis);
      console.log(`Record Data: ${recordData}`);
      // TODO: Do interesting work based on the new data
    } catch (err) {
      console.error(`An error occurred ${err}`);
      throw err;
    }
  }
  console.log(`Successfully processed ${event.Records.length} records.`);
};

async function getRecordDataAsync(payload) {
  var data = Buffer.from(payload.data, "base64").toString("utf-8");
  await Promise.resolve(1); //Placeholder for actual async work
  return data;
}
```
Mengkonsumsi acara Kinesis dengan menggunakan Lambda. TypeScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import {
  KinesisStreamEvent,
  Context,
  KinesisStreamHandler,
  KinesisStreamRecordPayload,
} from "aws-lambda";
import { Buffer } from "buffer";
import { Logger } from "@aws-lambda-powertools/logger";

const logger = new Logger({
  logLevel: "INFO",
  serviceName: "kinesis-stream-handler-sample",
});

export const functionHandler: KinesisStreamHandler = async (
  event: KinesisStreamEvent,
  context: Context
): Promise<void> => {
  for (const record of event.Records) {
    try {
      logger.info(`Processed Kinesis Event - EventID: ${record.eventID}`);
      const recordData = await getRecordDataAsync(record.kinesis);
      logger.info(`Record Data: ${recordData}`);
      // TODO: Do interesting work based on the new data
    } catch (err) {
      logger.error(`An error occurred ${err}`);
      throw err;
    }
    logger.info(`Successfully processed ${event.Records.length} records.`);
  }
};

async function getRecordDataAsync(
  payload: KinesisStreamRecordPayload
): Promise<string> {
  var data = Buffer.from(payload.data, "base64").toString("utf-8");
  await Promise.resolve(1); //Placeholder for actual async work
  return data;
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/blob/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Javascript.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
  for (const record of event.Records) {
    try {
      console.log(`Processed Kinesis Event - EventID: ${record.eventID}`);
      const recordData = await getRecordDataAsync(record.kinesis);
      console.log(`Record Data: ${recordData}`);
      // TODO: Do interesting work based on the new data
    } catch (err) {
      console.error(`An error occurred ${err}`);
      /* Since we are working with streams, we can return the failed item immediately.
            Lambda will immediately begin to retry processing from this failed item onwards. */
      return {
        batchItemFailures: [{ itemIdentifier: record.kinesis.sequenceNumber }],
      };
    }
  }
  console.log(`Successfully processed ${event.Records.length} records.`);
  return { batchItemFailures: [] };
};

async function getRecordDataAsync(payload) {
  var data = Buffer.from(payload.data, "base64").toString("utf-8");
  await Promise.resolve(1); //Placeholder for actual async work
  return data;
}
```
Melaporkan kegagalan item batch Kinesis dengan penggunaan Lambda. TypeScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import {
  KinesisStreamEvent,
  Context,
  KinesisStreamHandler,
  KinesisStreamRecordPayload,
  KinesisStreamBatchResponse,
} from "aws-lambda";
import { Buffer } from "buffer";
import { Logger } from "@aws-lambda-powertools/logger";

const logger = new Logger({
  logLevel: "INFO",
  serviceName: "kinesis-stream-handler-sample",
});

export const functionHandler: KinesisStreamHandler = async (
  event: KinesisStreamEvent,
  context: Context
): Promise<KinesisStreamBatchResponse> => {
  for (const record of event.Records) {
    try {
      logger.info(`Processed Kinesis Event - EventID: ${record.eventID}`);
      const recordData = await getRecordDataAsync(record.kinesis);
      logger.info(`Record Data: ${recordData}`);
      // TODO: Do interesting work based on the new data
    } catch (err) {
      logger.error(`An error occurred ${err}`);
      /* Since we are working with streams, we can return the failed item immediately.
            Lambda will immediately begin to retry processing from this failed item onwards. */
      return {
        batchItemFailures: [{ itemIdentifier: record.kinesis.sequenceNumber }],
      };
    }
  }
  logger.info(`Successfully processed ${event.Records.length} records.`);
  return { batchItemFailures: [] };
};

async function getRecordDataAsync(
  payload: KinesisStreamRecordPayload
): Promise<string> {
  var data = Buffer.from(payload.data, "base64").toString("utf-8");
  await Promise.resolve(1); //Placeholder for actual async work
  return data;
}
```

# Contoh Lambda menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Lambda.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Lambda
<a name="lambda_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Lambda.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda#code-examples). 

```
import { LambdaClient, paginateListFunctions } from "@aws-sdk/client-lambda";

const client = new LambdaClient({});

export const helloLambda = async () => {
  const paginator = paginateListFunctions({ client }, {});
  const functions = [];

  for await (const page of paginator) {
    const funcNames = page.Functions.map((f) => f.FunctionName);
    functions.push(...funcNames);
  }

  console.log("Functions:");
  console.log(functions.join("\n"));
  return functions;
};
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/ListFunctionsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda/scenarios/basic#code-examples). 
Buat peran AWS Identity and Access Management (IAM) yang memberikan izin Lambda untuk menulis ke log.  

```
    logger.log(`Creating role (${NAME_ROLE_LAMBDA})...`);
    const response = await createRole(NAME_ROLE_LAMBDA);

import { AttachRolePolicyCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} policyArn
 * @param {string} roleName
 */
export const attachRolePolicy = (policyArn, roleName) => {
  const command = new AttachRolePolicyCommand({
    PolicyArn: policyArn,
    RoleName: roleName,
  });

  return client.send(command);
};
```
Buat fungsi Lambda dan unggah kode handler.  

```
const createFunction = async (funcName, roleArn) => {
  const client = new LambdaClient({});
  const code = await readFile(`${dirname}../functions/${funcName}.zip`);

  const command = new CreateFunctionCommand({
    Code: { ZipFile: code },
    FunctionName: funcName,
    Role: roleArn,
    Architectures: [Architecture.arm64],
    Handler: "index.handler", // Required when sending a .zip file
    PackageType: PackageType.Zip, // Required when sending a .zip file
    Runtime: Runtime.nodejs16x, // Required when sending a .zip file
  });

  return client.send(command);
};
```
Panggil fungsi dengan satu parameter dan dapatkan hasil.  

```
const invoke = async (funcName, payload) => {
  const client = new LambdaClient({});
  const command = new InvokeCommand({
    FunctionName: funcName,
    Payload: JSON.stringify(payload),
    LogType: LogType.Tail,
  });

  const { Payload, LogResult } = await client.send(command);
  const result = Buffer.from(Payload).toString();
  const logs = Buffer.from(LogResult, "base64").toString();
  return { logs, result };
};
```
Perbarui kode fungsi dan konfigurasikan lingkungan Lambda dengan variabel lingkungan.  

```
const updateFunctionCode = async (funcName, newFunc) => {
  const client = new LambdaClient({});
  const code = await readFile(`${dirname}../functions/${newFunc}.zip`);
  const command = new UpdateFunctionCodeCommand({
    ZipFile: code,
    FunctionName: funcName,
    Architectures: [Architecture.arm64],
    Handler: "index.handler", // Required when sending a .zip file
    PackageType: PackageType.Zip, // Required when sending a .zip file
    Runtime: Runtime.nodejs16x, // Required when sending a .zip file
  });

  return client.send(command);
};

const updateFunctionConfiguration = (funcName) => {
  const client = new LambdaClient({});
  const config = readFileSync(`${dirname}../functions/config.json`).toString();
  const command = new UpdateFunctionConfigurationCommand({
    ...JSON.parse(config),
    FunctionName: funcName,
  });
  const result = client.send(command);
  waitForFunctionUpdated({ FunctionName: funcName });
  return result;
};
```
Buat daftar fungsi untuk akun Anda.  

```
const listFunctions = () => {
  const client = new LambdaClient({});
  const command = new ListFunctionsCommand({});

  return client.send(command);
};
```
Hapus peran IAM dan fungsi Lambda.  

```
import { DeleteRoleCommand, IAMClient } from "@aws-sdk/client-iam";

const client = new IAMClient({});

/**
 *
 * @param {string} roleName
 */
export const deleteRole = (roleName) => {
  const command = new DeleteRoleCommand({ RoleName: roleName });
  return client.send(command);
};

/**
 * @param {string} funcName
 */
const deleteFunction = (funcName) => {
  const client = new LambdaClient({});
  const command = new DeleteFunctionCommand({ FunctionName: funcName });
  return client.send(command);
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CreateFunction](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/CreateFunctionCommand)
  + [DeleteFunction](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/DeleteFunctionCommand)
  + [GetFunction](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/GetFunctionCommand)
  + [Memohon](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/InvokeCommand)
  + [ListFunctions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/ListFunctionsCommand)
  + [UpdateFunctionCode](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/UpdateFunctionCodeCommand)
  + [UpdateFunctionConfiguration](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/UpdateFunctionConfigurationCommand)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda#code-examples). 

```
const createFunction = async (funcName, roleArn) => {
  const client = new LambdaClient({});
  const code = await readFile(`${dirname}../functions/${funcName}.zip`);

  const command = new CreateFunctionCommand({
    Code: { ZipFile: code },
    FunctionName: funcName,
    Role: roleArn,
    Architectures: [Architecture.arm64],
    Handler: "index.handler", // Required when sending a .zip file
    PackageType: PackageType.Zip, // Required when sending a .zip file
    Runtime: Runtime.nodejs16x, // Required when sending a .zip file
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/CreateFunctionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda#code-examples). 

```
/**
 * @param {string} funcName
 */
const deleteFunction = (funcName) => {
  const client = new LambdaClient({});
  const command = new DeleteFunctionCommand({ FunctionName: funcName });
  return client.send(command);
};
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/DeleteFunctionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetFunction`
<a name="lambda_GetFunction_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda#code-examples). 

```
const getFunction = (funcName) => {
  const client = new LambdaClient({});
  const command = new GetFunctionCommand({ FunctionName: funcName });
  return client.send(command);
};
```
+  Untuk detail API, lihat [GetFunction](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/GetFunctionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `Invoke`
<a name="lambda_Invoke_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda#code-examples). 

```
const invoke = async (funcName, payload) => {
  const client = new LambdaClient({});
  const command = new InvokeCommand({
    FunctionName: funcName,
    Payload: JSON.stringify(payload),
    LogType: LogType.Tail,
  });

  const { Payload, LogResult } = await client.send(command);
  const result = Buffer.from(Payload).toString();
  const logs = Buffer.from(LogResult, "base64").toString();
  return { logs, result };
};
```
+  Untuk detail API, lihat [Memanggil di Referensi AWS SDK untuk JavaScript](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/InvokeCommand) *API*. 

### `ListFunctions`
<a name="lambda_ListFunctions_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda#code-examples). 

```
const listFunctions = () => {
  const client = new LambdaClient({});
  const command = new ListFunctionsCommand({});

  return client.send(command);
};
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/ListFunctionsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda#code-examples). 

```
const updateFunctionCode = async (funcName, newFunc) => {
  const client = new LambdaClient({});
  const code = await readFile(`${dirname}../functions/${newFunc}.zip`);
  const command = new UpdateFunctionCodeCommand({
    ZipFile: code,
    FunctionName: funcName,
    Architectures: [Architecture.arm64],
    Handler: "index.handler", // Required when sending a .zip file
    PackageType: PackageType.Zip, // Required when sending a .zip file
    Runtime: Runtime.nodejs16x, // Required when sending a .zip file
  });

  return client.send(command);
};
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/UpdateFunctionCodeCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/lambda#code-examples). 

```
const updateFunctionConfiguration = (funcName) => {
  const client = new LambdaClient({});
  const config = readFileSync(`${dirname}../functions/config.json`).toString();
  const command = new UpdateFunctionConfigurationCommand({
    ...JSON.parse(config),
    FunctionName: funcName,
  });
  const result = client.send(command);
  waitForFunctionUpdated({ FunctionName: funcName });
  return result;
};
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/lambda/command/UpdateFunctionConfigurationCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Secara otomatis mengonfirmasi pengguna yang dikenal dengan fungsi Lambda
<a name="cross_CognitoAutoConfirmUser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengonfirmasi pengguna Amazon Cognito yang diketahui secara otomatis dengan fungsi Lambda.
+ Konfigurasikan kumpulan pengguna untuk memanggil fungsi Lambda untuk `PreSignUp` pemicunya.
+ Daftarkan pengguna dengan Amazon Cognito.
+ Fungsi Lambda memindai tabel DynamoDB dan secara otomatis mengonfirmasi pengguna yang dikenal.
+ Masuk sebagai pengguna baru, lalu bersihkan sumber daya.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-pools-triggers#code-examples). 
Konfigurasikan proses “Skenario” interaktif. Contoh JavaScript (v3) berbagi pelari Skenario untuk merampingkan contoh kompleks. Kode sumber lengkap aktif GitHub.   

```
import { AutoConfirm } from "./scenario-auto-confirm.js";

/**
 * The context is passed to every scenario. Scenario steps
 * will modify the context.
 */
const context = {
  errors: [],
  users: [
    {
      UserName: "test_user_1",
      UserEmail: "test_email_1@example.com",
    },
    {
      UserName: "test_user_2",
      UserEmail: "test_email_2@example.com",
    },
    {
      UserName: "test_user_3",
      UserEmail: "test_email_3@example.com",
    },
  ],
};

/**
 * Three Scenarios are created for the workflow. A Scenario is an orchestration class
 * that simplifies running a series of steps.
 */
export const scenarios = {
  // Demonstrate automatically confirming known users in a database.
  "auto-confirm": AutoConfirm(context),
};

// Call function if run directly
import { fileURLToPath } from "node:url";
import { parseScenarioArgs } from "@aws-doc-sdk-examples/lib/scenario/index.js";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  parseScenarioArgs(scenarios, {
    name: "Cognito user pools and triggers",
    description:
      "Demonstrate how to use the AWS SDKs to customize Amazon Cognito authentication behavior.",
  });
}
```
Skenario ini menunjukkan konfirmasi otomatis pengguna yang dikenal. Ini mengatur langkah-langkah contoh.   

```
import { wait } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";
import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/scenario.js";

import {
  getStackOutputs,
  logCleanUpReminder,
  promptForStackName,
  promptForStackRegion,
  skipWhenErrors,
} from "./steps-common.js";
import { populateTable } from "./actions/dynamodb-actions.js";
import {
  addPreSignUpHandler,
  deleteUser,
  getUser,
  signIn,
  signUpUser,
} from "./actions/cognito-actions.js";
import {
  getLatestLogStreamForLambda,
  getLogEvents,
} from "./actions/cloudwatch-logs-actions.js";

/**
 * @typedef {{
 *   errors: Error[],
 *   password: string,
 *   users: { UserName: string, UserEmail: string }[],
 *   selectedUser?: string,
 *   stackName?: string,
 *   stackRegion?: string,
 *   token?: string,
 *   confirmDeleteSignedInUser?: boolean,
 *   TableName?: string,
 *   UserPoolClientId?: string,
 *   UserPoolId?: string,
 *   UserPoolArn?: string,
 *   AutoConfirmHandlerArn?: string,
 *   AutoConfirmHandlerName?: string
 * }} State
 */

const greeting = new ScenarioOutput(
  "greeting",
  (/** @type {State} */ state) => `This demo will populate some users into the \
database created as part of the "${state.stackName}" stack. \
Then the AutoConfirmHandler will be linked to the PreSignUp \
trigger from Cognito. Finally, you will choose a user to sign up.`,
  { skipWhen: skipWhenErrors },
);

const logPopulatingUsers = new ScenarioOutput(
  "logPopulatingUsers",
  "Populating the DynamoDB table with some users.",
  { skipWhenErrors: skipWhenErrors },
);

const logPopulatingUsersComplete = new ScenarioOutput(
  "logPopulatingUsersComplete",
  "Done populating users.",
  { skipWhen: skipWhenErrors },
);

const populateUsers = new ScenarioAction(
  "populateUsers",
  async (/** @type {State} */ state) => {
    const [_, err] = await populateTable({
      region: state.stackRegion,
      tableName: state.TableName,
      items: state.users,
    });
    if (err) {
      state.errors.push(err);
    }
  },
  {
    skipWhen: skipWhenErrors,
  },
);

const logSetupSignUpTrigger = new ScenarioOutput(
  "logSetupSignUpTrigger",
  "Setting up the PreSignUp trigger for the Cognito User Pool.",
  { skipWhen: skipWhenErrors },
);

const setupSignUpTrigger = new ScenarioAction(
  "setupSignUpTrigger",
  async (/** @type {State} */ state) => {
    const [_, err] = await addPreSignUpHandler({
      region: state.stackRegion,
      userPoolId: state.UserPoolId,
      handlerArn: state.AutoConfirmHandlerArn,
    });
    if (err) {
      state.errors.push(err);
    }
  },
  {
    skipWhen: skipWhenErrors,
  },
);

const logSetupSignUpTriggerComplete = new ScenarioOutput(
  "logSetupSignUpTriggerComplete",
  (
    /** @type {State} */ state,
  ) => `The lambda function "${state.AutoConfirmHandlerName}" \
has been configured as the PreSignUp trigger handler for the user pool "${state.UserPoolId}".`,
  { skipWhen: skipWhenErrors },
);

const selectUser = new ScenarioInput(
  "selectedUser",
  "Select a user to sign up.",
  {
    type: "select",
    choices: (/** @type {State} */ state) => state.users.map((u) => u.UserName),
    skipWhen: skipWhenErrors,
    default: (/** @type {State} */ state) => state.users[0].UserName,
  },
);

const checkIfUserAlreadyExists = new ScenarioAction(
  "checkIfUserAlreadyExists",
  async (/** @type {State} */ state) => {
    const [user, err] = await getUser({
      region: state.stackRegion,
      userPoolId: state.UserPoolId,
      username: state.selectedUser,
    });

    if (err?.name === "UserNotFoundException") {
      // Do nothing. We're not expecting the user to exist before
      // sign up is complete.
      return;
    }

    if (err) {
      state.errors.push(err);
      return;
    }

    if (user) {
      state.errors.push(
        new Error(
          `The user "${state.selectedUser}" already exists in the user pool "${state.UserPoolId}".`,
        ),
      );
    }
  },
  {
    skipWhen: skipWhenErrors,
  },
);

const createPassword = new ScenarioInput(
  "password",
  "Enter a password that has at least eight characters, uppercase, lowercase, numbers and symbols.",
  { type: "password", skipWhen: skipWhenErrors, default: "Abcd1234!" },
);

const logSignUpExistingUser = new ScenarioOutput(
  "logSignUpExistingUser",
  (/** @type {State} */ state) => `Signing up user "${state.selectedUser}".`,
  { skipWhen: skipWhenErrors },
);

const signUpExistingUser = new ScenarioAction(
  "signUpExistingUser",
  async (/** @type {State} */ state) => {
    const signUp = (password) =>
      signUpUser({
        region: state.stackRegion,
        userPoolClientId: state.UserPoolClientId,
        username: state.selectedUser,
        email: state.users.find((u) => u.UserName === state.selectedUser)
          .UserEmail,
        password,
      });

    let [_, err] = await signUp(state.password);

    while (err?.name === "InvalidPasswordException") {
      console.warn("The password you entered was invalid.");
      await createPassword.handle(state);
      [_, err] = await signUp(state.password);
    }

    if (err) {
      state.errors.push(err);
    }
  },
  { skipWhen: skipWhenErrors },
);

const logSignUpExistingUserComplete = new ScenarioOutput(
  "logSignUpExistingUserComplete",
  (/** @type {State} */ state) =>
    `"${state.selectedUser} was signed up successfully.`,
  { skipWhen: skipWhenErrors },
);

const logLambdaLogs = new ScenarioAction(
  "logLambdaLogs",
  async (/** @type {State} */ state) => {
    console.log(
      "Waiting a few seconds to let Lambda write to CloudWatch Logs...\n",
    );
    await wait(10);

    const [logStream, logStreamErr] = await getLatestLogStreamForLambda({
      functionName: state.AutoConfirmHandlerName,
      region: state.stackRegion,
    });
    if (logStreamErr) {
      state.errors.push(logStreamErr);
      return;
    }

    console.log(
      `Getting some recent events from log stream "${logStream.logStreamName}"`,
    );
    const [logEvents, logEventsErr] = await getLogEvents({
      functionName: state.AutoConfirmHandlerName,
      region: state.stackRegion,
      eventCount: 10,
      logStreamName: logStream.logStreamName,
    });
    if (logEventsErr) {
      state.errors.push(logEventsErr);
      return;
    }

    console.log(logEvents.map((ev) => `\t${ev.message}`).join(""));
  },
  { skipWhen: skipWhenErrors },
);

const logSignInUser = new ScenarioOutput(
  "logSignInUser",
  (/** @type {State} */ state) => `Let's sign in as ${state.selectedUser}`,
  { skipWhen: skipWhenErrors },
);

const signInUser = new ScenarioAction(
  "signInUser",
  async (/** @type {State} */ state) => {
    const [response, err] = await signIn({
      region: state.stackRegion,
      clientId: state.UserPoolClientId,
      username: state.selectedUser,
      password: state.password,
    });

    if (err?.name === "PasswordResetRequiredException") {
      state.errors.push(new Error("Please reset your password."));
      return;
    }

    if (err) {
      state.errors.push(err);
      return;
    }

    state.token = response?.AuthenticationResult?.AccessToken;
  },
  { skipWhen: skipWhenErrors },
);

const logSignInUserComplete = new ScenarioOutput(
  "logSignInUserComplete",
  (/** @type {State} */ state) =>
    `Successfully signed in. Your access token starts with: ${state.token.slice(0, 11)}`,
  { skipWhen: skipWhenErrors },
);

const confirmDeleteSignedInUser = new ScenarioInput(
  "confirmDeleteSignedInUser",
  "Do you want to delete the currently signed in user?",
  { type: "confirm", skipWhen: skipWhenErrors },
);

const deleteSignedInUser = new ScenarioAction(
  "deleteSignedInUser",
  async (/** @type {State} */ state) => {
    const [_, err] = await deleteUser({
      region: state.stackRegion,
      accessToken: state.token,
    });

    if (err) {
      state.errors.push(err);
    }
  },
  {
    skipWhen: (/** @type {State} */ state) =>
      skipWhenErrors(state) || !state.confirmDeleteSignedInUser,
  },
);

const logErrors = new ScenarioOutput(
  "logErrors",
  (/** @type {State}*/ state) => {
    const errorList = state.errors
      .map((err) => ` - ${err.name}: ${err.message}`)
      .join("\n");
    return `Scenario errors found:\n${errorList}`;
  },
  {
    // Don't log errors when there aren't any!
    skipWhen: (/** @type {State} */ state) => state.errors.length === 0,
  },
);

export const AutoConfirm = (context) =>
  new Scenario(
    "AutoConfirm",
    [
      promptForStackName,
      promptForStackRegion,
      getStackOutputs,
      greeting,
      logPopulatingUsers,
      populateUsers,
      logPopulatingUsersComplete,
      logSetupSignUpTrigger,
      setupSignUpTrigger,
      logSetupSignUpTriggerComplete,
      selectUser,
      checkIfUserAlreadyExists,
      createPassword,
      logSignUpExistingUser,
      signUpExistingUser,
      logSignUpExistingUserComplete,
      logLambdaLogs,
      logSignInUser,
      signInUser,
      logSignInUserComplete,
      confirmDeleteSignedInUser,
      deleteSignedInUser,
      logCleanUpReminder,
      logErrors,
    ],
    context,
  );
```
Ini adalah langkah-langkah yang dibagikan dengan Skenario lain.  

```
import {
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/scenario.js";
import { getCfnOutputs } from "@aws-doc-sdk-examples/lib/sdk/cfn-outputs.js";

export const skipWhenErrors = (state) => state.errors.length > 0;

export const getStackOutputs = new ScenarioAction(
  "getStackOutputs",
  async (state) => {
    if (!state.stackName || !state.stackRegion) {
      state.errors.push(
        new Error(
          "No stack name or region provided. The stack name and \
region are required to fetch CFN outputs relevant to this example.",
        ),
      );
      return;
    }

    const outputs = await getCfnOutputs(state.stackName, state.stackRegion);
    Object.assign(state, outputs);
  },
);

export const promptForStackName = new ScenarioInput(
  "stackName",
  "Enter the name of the stack you deployed earlier.",
  { type: "input", default: "PoolsAndTriggersStack" },
);

export const promptForStackRegion = new ScenarioInput(
  "stackRegion",
  "Enter the region of the stack you deployed earlier.",
  { type: "input", default: "us-east-1" },
);

export const logCleanUpReminder = new ScenarioOutput(
  "logCleanUpReminder",
  "All done. Remember to run 'cdk destroy' to teardown the stack.",
  { skipWhen: skipWhenErrors },
);
```
Handler untuk `PreSignUp` pemicu dengan fungsi Lambda.  

```
import type { PreSignUpTriggerEvent, Handler } from "aws-lambda";
import type { UserRepository } from "./user-repository";
import { DynamoDBUserRepository } from "./user-repository";

export class PreSignUpHandler {
  private userRepository: UserRepository;

  constructor(userRepository: UserRepository) {
    this.userRepository = userRepository;
  }

  private isPreSignUpTriggerSource(event: PreSignUpTriggerEvent): boolean {
    return event.triggerSource === "PreSignUp_SignUp";
  }

  private getEventUserEmail(event: PreSignUpTriggerEvent): string {
    return event.request.userAttributes.email;
  }

  async handlePreSignUpTriggerEvent(
    event: PreSignUpTriggerEvent,
  ): Promise<PreSignUpTriggerEvent> {
    console.log(
      `Received presignup from ${event.triggerSource} for user '${event.userName}'`,
    );

    if (!this.isPreSignUpTriggerSource(event)) {
      return event;
    }

    const eventEmail = this.getEventUserEmail(event);
    console.log(`Looking up email ${eventEmail}.`);
    const storedUserInfo =
      await this.userRepository.getUserInfoByEmail(eventEmail);

    if (!storedUserInfo) {
      console.log(
        `Email ${eventEmail} not found. Email verification is required.`,
      );
      return event;
    }

    if (storedUserInfo.UserName !== event.userName) {
      console.log(
        `UserEmail ${eventEmail} found, but stored UserName '${storedUserInfo.UserName}' does not match supplied UserName '${event.userName}'. Verification is required.`,
      );
    } else {
      console.log(
        `UserEmail ${eventEmail} found with matching UserName ${storedUserInfo.UserName}. User is confirmed.`,
      );
      event.response.autoConfirmUser = true;
      event.response.autoVerifyEmail = true;
    }
    return event;
  }
}

const createPreSignUpHandler = (): PreSignUpHandler => {
  const tableName = process.env.TABLE_NAME;
  if (!tableName) {
    throw new Error("TABLE_NAME environment variable is not set");
  }

  const userRepository = new DynamoDBUserRepository(tableName);
  return new PreSignUpHandler(userRepository);
};

export const handler: Handler = async (event: PreSignUpTriggerEvent) => {
  const preSignUpHandler = createPreSignUpHandler();
  return preSignUpHandler.handlePreSignUpTriggerEvent(event);
};
```
Modul tindakan CloudWatch Log.  

```
import {
  CloudWatchLogsClient,
  GetLogEventsCommand,
  OrderBy,
  paginateDescribeLogStreams,
} from "@aws-sdk/client-cloudwatch-logs";

/**
 * Get the latest log stream for a Lambda function.
 * @param {{ functionName: string, region: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cloudwatch-logs").LogStream | null, unknown]>}
 */
export const getLatestLogStreamForLambda = async ({ functionName, region }) => {
  try {
    const logGroupName = `/aws/lambda/${functionName}`;
    const cwlClient = new CloudWatchLogsClient({ region });
    const paginator = paginateDescribeLogStreams(
      { client: cwlClient },
      {
        descending: true,
        limit: 1,
        orderBy: OrderBy.LastEventTime,
        logGroupName,
      },
    );

    for await (const page of paginator) {
      return [page.logStreams[0], null];
    }
  } catch (err) {
    return [null, err];
  }
};

/**
 * Get the log events for a Lambda function's log stream.
 * @param {{
 *   functionName: string,
 *   logStreamName: string,
 *   eventCount: number,
 *   region: string
 * }} config
 * @returns {Promise<[import("@aws-sdk/client-cloudwatch-logs").OutputLogEvent[] | null, unknown]>}
 */
export const getLogEvents = async ({
  functionName,
  logStreamName,
  eventCount,
  region,
}) => {
  try {
    const cwlClient = new CloudWatchLogsClient({ region });
    const logGroupName = `/aws/lambda/${functionName}`;
    const response = await cwlClient.send(
      new GetLogEventsCommand({
        logStreamName: logStreamName,
        limit: eventCount,
        logGroupName: logGroupName,
      }),
    );

    return [response.events, null];
  } catch (err) {
    return [null, err];
  }
};
```
Modul tindakan Amazon Cognito.  

```
import {
  AdminGetUserCommand,
  CognitoIdentityProviderClient,
  DeleteUserCommand,
  InitiateAuthCommand,
  SignUpCommand,
  UpdateUserPoolCommand,
} from "@aws-sdk/client-cognito-identity-provider";

/**
 * Connect a Lambda function to the PreSignUp trigger for a Cognito user pool
 * @param {{ region: string, userPoolId: string, handlerArn: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").UpdateUserPoolCommandOutput | null, unknown]>}
 */
export const addPreSignUpHandler = async ({
  region,
  userPoolId,
  handlerArn,
}) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({
      region,
    });

    const command = new UpdateUserPoolCommand({
      UserPoolId: userPoolId,
      LambdaConfig: {
        PreSignUp: handlerArn,
      },
    });

    const response = await cognitoClient.send(command);
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};

/**
 * Attempt to register a user to a user pool with a given username and password.
 * @param {{
 *   region: string,
 *   userPoolClientId: string,
 *   username: string,
 *   email: string,
 *   password: string
 * }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").SignUpCommandOutput | null, unknown]>}
 */
export const signUpUser = async ({
  region,
  userPoolClientId,
  username,
  email,
  password,
}) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({
      region,
    });

    const response = await cognitoClient.send(
      new SignUpCommand({
        ClientId: userPoolClientId,
        Username: username,
        Password: password,
        UserAttributes: [{ Name: "email", Value: email }],
      }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};

/**
 * Sign in a user to Amazon Cognito using a username and password authentication flow.
 * @param {{ region: string, clientId: string, username: string, password: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").InitiateAuthCommandOutput | null, unknown]>}
 */
export const signIn = async ({ region, clientId, username, password }) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({ region });
    const response = await cognitoClient.send(
      new InitiateAuthCommand({
        AuthFlow: "USER_PASSWORD_AUTH",
        ClientId: clientId,
        AuthParameters: { USERNAME: username, PASSWORD: password },
      }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};

/**
 * Retrieve an existing user from a user pool.
 * @param {{ region: string, userPoolId: string, username: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").AdminGetUserCommandOutput | null, unknown]>}
 */
export const getUser = async ({ region, userPoolId, username }) => {
  try {
    const cognitoClient = new CognitoIdentityProviderClient({ region });
    const response = await cognitoClient.send(
      new AdminGetUserCommand({
        UserPoolId: userPoolId,
        Username: username,
      }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};

/**
 * Delete the signed-in user. Useful for allowing a user to delete their
 * own profile.
 * @param {{ region: string, accessToken: string }} config
 * @returns {Promise<[import("@aws-sdk/client-cognito-identity-provider").DeleteUserCommandOutput | null, unknown]>}
 */
export const deleteUser = async ({ region, accessToken }) => {
  try {
    const client = new CognitoIdentityProviderClient({ region });
    const response = await client.send(
      new DeleteUserCommand({ AccessToken: accessToken }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};
```
Modul tindakan DynamoDB.  

```
import { DynamoDBClient } from "@aws-sdk/client-dynamodb";
import {
  BatchWriteCommand,
  DynamoDBDocumentClient,
} from "@aws-sdk/lib-dynamodb";

/**
 * Populate a DynamoDB table with provide items.
 * @param {{ region: string, tableName: string, items: Record<string, unknown>[] }} config
 * @returns {Promise<[import("@aws-sdk/lib-dynamodb").BatchWriteCommandOutput | null, unknown]>}
 */
export const populateTable = async ({ region, tableName, items }) => {
  try {
    const ddbClient = new DynamoDBClient({ region });
    const docClient = DynamoDBDocumentClient.from(ddbClient);
    const response = await docClient.send(
      new BatchWriteCommand({
        RequestItems: {
          [tableName]: items.map((item) => ({
            PutRequest: {
              Item: item,
            },
          })),
        },
      }),
    );
    return [response, null];
  } catch (err) {
    return [null, err];
  }
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [DeleteUser](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/DeleteUserCommand)
  + [InitiateAuth](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/InitiateAuthCommand)
  + [SignUp](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/SignUpCommand)
  + [UpdateUserPool](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/cognito-identity-provider/command/UpdateUserPoolCommand)

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo-asset-manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk JavaScript (v3)**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/feedback-sentiment-analyzer). Kutipan berikut menunjukkan bagaimana yang AWS SDK untuk JavaScript digunakan di dalam fungsi Lambda.   

```
import {
  ComprehendClient,
  DetectDominantLanguageCommand,
  DetectSentimentCommand,
} from "@aws-sdk/client-comprehend";

/**
 * Determine the language and sentiment of the extracted text.
 *
 * @param {{ source_text: string}} extractTextOutput
 */
export const handler = async (extractTextOutput) => {
  const comprehendClient = new ComprehendClient({});

  const detectDominantLanguageCommand = new DetectDominantLanguageCommand({
    Text: extractTextOutput.source_text,
  });

  // The source language is required for sentiment analysis and
  // translation in the next step.
  const { Languages } = await comprehendClient.send(
    detectDominantLanguageCommand,
  );

  const languageCode = Languages[0].LanguageCode;

  const detectSentimentCommand = new DetectSentimentCommand({
    Text: extractTextOutput.source_text,
    LanguageCode: languageCode,
  });

  const { Sentiment } = await comprehendClient.send(detectSentimentCommand);

  return {
    sentiment: Sentiment,
    language_code: languageCode,
  };
};
```

```
import {
  DetectDocumentTextCommand,
  TextractClient,
} from "@aws-sdk/client-textract";

/**
 * Fetch the S3 object from the event and analyze it using Amazon Textract.
 *
 * @param {import("@types/aws-lambda").EventBridgeEvent<"Object Created">} eventBridgeS3Event
 */
export const handler = async (eventBridgeS3Event) => {
  const textractClient = new TextractClient();

  const detectDocumentTextCommand = new DetectDocumentTextCommand({
    Document: {
      S3Object: {
        Bucket: eventBridgeS3Event.bucket,
        Name: eventBridgeS3Event.object,
      },
    },
  });

  // Textract returns a list of blocks. A block can be a line, a page, word, etc.
  // Each block also contains geometry of the detected text.
  // For more information on the Block type, see https://docs.aws.amazon.com/textract/latest/dg/API_Block.html.
  const { Blocks } = await textractClient.send(detectDocumentTextCommand);

  // For the purpose of this example, we are only interested in words.
  const extractedWords = Blocks.filter((b) => b.BlockType === "WORD").map(
    (b) => b.Text,
  );

  return extractedWords.join(" ");
};
```

```
import { PollyClient, SynthesizeSpeechCommand } from "@aws-sdk/client-polly";
import { S3Client } from "@aws-sdk/client-s3";
import { Upload } from "@aws-sdk/lib-storage";

/**
 * Synthesize an audio file from text.
 *
 * @param {{ bucket: string, translated_text: string, object: string}} sourceDestinationConfig
 */
export const handler = async (sourceDestinationConfig) => {
  const pollyClient = new PollyClient({});

  const synthesizeSpeechCommand = new SynthesizeSpeechCommand({
    Engine: "neural",
    Text: sourceDestinationConfig.translated_text,
    VoiceId: "Ruth",
    OutputFormat: "mp3",
  });

  const { AudioStream } = await pollyClient.send(synthesizeSpeechCommand);

  const audioKey = `${sourceDestinationConfig.object}.mp3`;

  // Store the audio file in S3.
  const s3Client = new S3Client();
  const upload = new Upload({
    client: s3Client,
    params: {
      Bucket: sourceDestinationConfig.bucket,
      Key: audioKey,
      Body: AudioStream,
      ContentType: "audio/mp3",
    },
  });

  await upload.done();
  return audioKey;
};
```

```
import {
  TranslateClient,
  TranslateTextCommand,
} from "@aws-sdk/client-translate";

/**
 * Translate the extracted text to English.
 *
 * @param {{ extracted_text: string, source_language_code: string}} textAndSourceLanguage
 */
export const handler = async (textAndSourceLanguage) => {
  const translateClient = new TranslateClient({});

  const translateCommand = new TranslateTextCommand({
    SourceLanguageCode: textAndSourceLanguage.source_language_code,
    TargetLanguageCode: "en",
    Text: textAndSourceLanguage.extracted_text,
  });

  const { TranslatedText } = await translateClient.send(translateCommand);

  return { translated_text: TranslatedText };
};
```

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

### Menginvokasi fungsi Lambda dari browser
<a name="cross_LambdaForBrowser_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil AWS Lambda fungsi dari browser.

**SDK untuk JavaScript (v3)**  
 Anda dapat membuat aplikasi berbasis browser yang menggunakan AWS Lambda fungsi untuk memperbarui tabel Amazon DynamoDB dengan pilihan pengguna. Aplikasi ini menggunakan AWS SDK untuk JavaScript v3.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-for-browser).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat AWS Lambda fungsi dengan menggunakan API JavaScript runtime Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat fungsi Lambda yang diinvokasi oleh Amazon API Gateway yang memindai peringatan hari jadi kerja di tabel Amazon DynamoDB dan menggunakan Amazon Simple Notification Service (Amazon SNS) untuk mengirim pesan teks berisi ucapan selamat kepada karyawan Anda pada tanggal hari jadi kerja satu tahun mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-api-gateway).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/api-gateway-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda dengan menggunakan API runtime JavaScript Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-scheduled-events).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/scheduled-events-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan. JavaScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
/* 
Node.js code here.
*/
// ES6+ example
import { Signer } from "@aws-sdk/rds-signer";
import mysql from 'mysql2/promise';

async function createAuthToken() {
  // Define connection authentication parameters
  const dbinfo = {

    hostname: process.env.ProxyHostName,
    port: process.env.Port,
    username: process.env.DBUserName,
    region: process.env.AWS_REGION,

  }

  // Create RDS Signer object
  const signer = new Signer(dbinfo);

  // Request authorization token from RDS, specifying the username
  const token = await signer.getAuthToken();
  return token;
}

async function dbOps() {

  // Obtain auth token
  const token = await createAuthToken();
  // Define connection configuration
  let connectionConfig = {
    host: process.env.ProxyHostName,
    user: process.env.DBUserName,
    password: token,
    database: process.env.DBName,
    ssl: 'Amazon RDS'
  }
  // Create the connection to the DB
  const conn = await mysql.createConnection(connectionConfig);
  // Obtain the result of the query
  const [res,] = await conn.execute('select ?+? as sum', [3, 2]);
  return res;

}

export const handler = async (event) => {
  // Execute database flow
  const result = await dbOps();
  // Return result
  return {
    statusCode: 200,
    body: JSON.stringify("The selected sum is: " + result[0].sum)
  }
};
```
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan. TypeScript  

```
import { Signer } from "@aws-sdk/rds-signer";
import mysql from 'mysql2/promise';

// RDS settings
// Using '!' (non-null assertion operator) to tell the TypeScript compiler that the DB settings are not null or undefined,
const proxy_host_name = process.env.PROXY_HOST_NAME!
const port = parseInt(process.env.PORT!)
const db_name = process.env.DB_NAME!
const db_user_name = process.env.DB_USER_NAME!
const aws_region = process.env.AWS_REGION!


async function createAuthToken(): Promise<string> {

    // Create RDS Signer object
    const signer = new Signer({
        hostname: proxy_host_name,
        port: port,
        region: aws_region,
        username: db_user_name
    });

    // Request authorization token from RDS, specifying the username
    const token = await signer.getAuthToken();
    return token;
}

async function dbOps(): Promise<mysql.QueryResult | undefined> {
    try {
        // Obtain auth token
        const token = await createAuthToken();
        const conn = await mysql.createConnection({
            host: proxy_host_name,
            user: db_user_name,
            password: token,
            database: db_name,
            ssl: 'Amazon RDS' // Ensure you have the CA bundle for SSL connection
        });
        const [rows, fields] = await conn.execute('SELECT ? + ? AS sum', [3, 2]);
        console.log('result:', rows);
        return rows;
    }
    catch (err) {
        console.log(err);
    }
}

export const lambdaHandler = async (event: any): Promise<{ statusCode: number; body: string }> => {
    // Execute database flow
    const result = await dbOps();

    // Return error is result is undefined
    if (result == undefined)
        return {
            statusCode: 500,
            body: JSON.stringify(`Error with connection to DB host`)
        }

    // Return result
    return {
        statusCode: 200,
        body: JSON.stringify(`The selected sum is: ${result[0].sum}`)
    };
};
```

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/blob/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan menggunakan Lambda. JavaScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
  for (const record of event.Records) {
    try {
      console.log(`Processed Kinesis Event - EventID: ${record.eventID}`);
      const recordData = await getRecordDataAsync(record.kinesis);
      console.log(`Record Data: ${recordData}`);
      // TODO: Do interesting work based on the new data
    } catch (err) {
      console.error(`An error occurred ${err}`);
      throw err;
    }
  }
  console.log(`Successfully processed ${event.Records.length} records.`);
};

async function getRecordDataAsync(payload) {
  var data = Buffer.from(payload.data, "base64").toString("utf-8");
  await Promise.resolve(1); //Placeholder for actual async work
  return data;
}
```
Mengkonsumsi acara Kinesis dengan menggunakan Lambda. TypeScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import {
  KinesisStreamEvent,
  Context,
  KinesisStreamHandler,
  KinesisStreamRecordPayload,
} from "aws-lambda";
import { Buffer } from "buffer";
import { Logger } from "@aws-lambda-powertools/logger";

const logger = new Logger({
  logLevel: "INFO",
  serviceName: "kinesis-stream-handler-sample",
});

export const functionHandler: KinesisStreamHandler = async (
  event: KinesisStreamEvent,
  context: Context
): Promise<void> => {
  for (const record of event.Records) {
    try {
      logger.info(`Processed Kinesis Event - EventID: ${record.eventID}`);
      const recordData = await getRecordDataAsync(record.kinesis);
      logger.info(`Record Data: ${recordData}`);
      // TODO: Do interesting work based on the new data
    } catch (err) {
      logger.error(`An error occurred ${err}`);
      throw err;
    }
    logger.info(`Successfully processed ${event.Records.length} records.`);
  }
};

async function getRecordDataAsync(
  payload: KinesisStreamRecordPayload
): Promise<string> {
  var data = Buffer.from(payload.data, "base64").toString("utf-8");
  await Promise.resolve(1); //Placeholder for actual async work
  return data;
}
```

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil muatan DynamoDB dan mencatat isi catatan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan. JavaScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
    console.log(JSON.stringify(event, null, 2));
    event.Records.forEach(record => {
        logDynamoDBRecord(record);
    });
};

const logDynamoDBRecord = (record) => {
    console.log(record.eventID);
    console.log(record.eventName);
    console.log(`DynamoDB Record: ${JSON.stringify(record.dynamodb)}`);
};
```
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan. TypeScript  

```
export const handler = async (event, context) => {
    console.log(JSON.stringify(event, null, 2));
    event.Records.forEach(record => {
        logDynamoDBRecord(record);
    });
}
const logDynamoDBRecord = (record) => {
    console.log(record.eventID);
    console.log(record.eventName);
    console.log(`DynamoDB Record: ${JSON.stringify(record.dynamodb)}`);
};
```

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan menggunakan Lambda. JavaScript  

```
console.log('Loading function');
exports.handler = async (event, context) => {
    event.events.forEach(record => {
        logDocumentDBEvent(record);
    });
    return 'OK';
};

const logDocumentDBEvent = (record) => {
    console.log('Operation type: ' + record.event.operationType);
    console.log('db: ' + record.event.ns.db);
    console.log('collection: ' + record.event.ns.coll);
    console.log('Full document:', JSON.stringify(record.event.fullDocument, null, 2));
};
```
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan TypeScript  

```
import { DocumentDBEventRecord, DocumentDBEventSubscriptionContext } from 'aws-lambda';

console.log('Loading function');

export const handler = async (
  event: DocumentDBEventSubscriptionContext,
  context: any
): Promise<string> => {
  event.events.forEach((record: DocumentDBEventRecord) => {
    logDocumentDBEvent(record);
  });
  return 'OK';
};

const logDocumentDBEvent = (record: DocumentDBEventRecord): void => {
  console.log('Operation type: ' + record.event.operationType);
  console.log('db: ' + record.event.ns.db);
  console.log('collection: ' + record.event.ns.coll);
  console.log('Full document:', JSON.stringify(record.event.fullDocument, null, 2));
};
```

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan menggunakan JavaScript Lambda.  

```
exports.handler = async (event) => {
    // Iterate through keys
    for (let key in event.records) {
      console.log('Key: ', key)
      // Iterate through records
      event.records[key].map((record) => {
        console.log('Record: ', record)
        // Decode base64
        const msg = Buffer.from(record.value, 'base64').toString()
        console.log('Message:', msg)
      }) 
    }
}
```
Mengkonsumsi acara MSK Amazon dengan menggunakan TypeScript Lambda.  

```
import { MSKEvent, Context } from "aws-lambda";
import { Buffer } from "buffer";
import { Logger } from "@aws-lambda-powertools/logger";

const logger = new Logger({
  logLevel: "INFO",
  serviceName: "msk-handler-sample",
});

export const handler = async (
  event: MSKEvent,
  context: Context
): Promise<void> => {
  for (const [topic, topicRecords] of Object.entries(event.records)) {
    logger.info(`Processing key: ${topic}`);

    // Process each record in the partition
    for (const record of topicRecords) {
      try {
        // Decode the message value from base64
        const decodedMessage = Buffer.from(record.value, 'base64').toString();

        logger.info({
          message: decodedMessage
        });
      }
      catch (error) {
        logger.error('Error processing event', { error });
        throw error;
      }
    };
  }
}
```

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Mengkonsumsi acara S3 dengan menggunakan JavaScript Lambda.  

```
import { S3Client, HeadObjectCommand } from "@aws-sdk/client-s3";

const client = new S3Client();

export const handler = async (event, context) => {

    // Get the object from the event and show its content type
    const bucket = event.Records[0].s3.bucket.name;
    const key = decodeURIComponent(event.Records[0].s3.object.key.replace(/\+/g, ' '));

    try {
        const { ContentType } = await client.send(new HeadObjectCommand({
            Bucket: bucket,
            Key: key,
        }));

        console.log('CONTENT TYPE:', ContentType);
        return ContentType;

    } catch (err) {
        console.log(err);
        const message = `Error getting object ${key} from bucket ${bucket}. Make sure they exist and your bucket is in the same region as this function.`;
        console.log(message);
        throw new Error(message);
    }
};
```
Mengkonsumsi acara S3 dengan menggunakan TypeScript Lambda.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { S3Event } from 'aws-lambda';
import { S3Client, HeadObjectCommand } from '@aws-sdk/client-s3';

const s3 = new S3Client({ region: process.env.AWS_REGION });

export const handler = async (event: S3Event): Promise<string | undefined> => {
  // Get the object from the event and show its content type
  const bucket = event.Records[0].s3.bucket.name;
  const key = decodeURIComponent(event.Records[0].s3.object.key.replace(/\+/g, ' '));
  const params = {
    Bucket: bucket,
    Key: key,
  };
  try {
    const { ContentType } = await s3.send(new HeadObjectCommand(params));
    console.log('CONTENT TYPE:', ContentType);
    return ContentType;
  } catch (err) {
    console.log(err);
    const message = `Error getting object ${key} from bucket ${bucket}. Make sure they exist and your bucket is in the same region as this function.`;
    console.log(message);
    throw new Error(message);
  }
};
```

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/blob/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan JavaScript Lambda menggunakan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
  for (const record of event.Records) {
    await processMessageAsync(record);
  }
  console.info("done");
};

async function processMessageAsync(record) {
  try {
    const message = JSON.stringify(record.Sns.Message);
    console.log(`Processed message ${message}`);
    await Promise.resolve(1); //Placeholder for actual async work
  } catch (err) {
    console.error("An error occurred");
    throw err;
  }
}
```
Mengkonsumsi acara SNS dengan TypeScript Lambda menggunakan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { SNSEvent, Context, SNSHandler, SNSEventRecord } from "aws-lambda";

export const functionHandler: SNSHandler = async (
  event: SNSEvent,
  context: Context
): Promise<void> => {
  for (const record of event.Records) {
    await processMessageAsync(record);
  }
  console.info("done");
};

async function processMessageAsync(record: SNSEventRecord): Promise<any> {
  try {
    const message: string = JSON.stringify(record.Sns.Message);
    console.log(`Processed message ${message}`);
    await Promise.resolve(1); //Placeholder for actual async work
  } catch (err) {
    console.error("An error occurred");
    throw err;
  }
}
```

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/blob/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan JavaScript Lambda menggunakan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
  for (const message of event.Records) {
    await processMessageAsync(message);
  }
  console.info("done");
};

async function processMessageAsync(message) {
  try {
    console.log(`Processed message ${message.body}`);
    // TODO: Do interesting work based on the new message
    await Promise.resolve(1); //Placeholder for actual async work
  } catch (err) {
    console.error("An error occurred");
    throw err;
  }
}
```
Mengkonsumsi acara SQS dengan TypeScript Lambda menggunakan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { SQSEvent, Context, SQSHandler, SQSRecord } from "aws-lambda";

export const functionHandler: SQSHandler = async (
  event: SQSEvent,
  context: Context
): Promise<void> => {
  for (const message of event.Records) {
    await processMessageAsync(message);
  }
  console.info("done");
};

async function processMessageAsync(message: SQSRecord): Promise<any> {
  try {
    console.log(`Processed message ${message.body}`);
    // TODO: Do interesting work based on the new message
    await Promise.resolve(1); //Placeholder for actual async work
  } catch (err) {
    console.error("An error occurred");
    throw err;
  }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/blob/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Javascript.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
  for (const record of event.Records) {
    try {
      console.log(`Processed Kinesis Event - EventID: ${record.eventID}`);
      const recordData = await getRecordDataAsync(record.kinesis);
      console.log(`Record Data: ${recordData}`);
      // TODO: Do interesting work based on the new data
    } catch (err) {
      console.error(`An error occurred ${err}`);
      /* Since we are working with streams, we can return the failed item immediately.
            Lambda will immediately begin to retry processing from this failed item onwards. */
      return {
        batchItemFailures: [{ itemIdentifier: record.kinesis.sequenceNumber }],
      };
    }
  }
  console.log(`Successfully processed ${event.Records.length} records.`);
  return { batchItemFailures: [] };
};

async function getRecordDataAsync(payload) {
  var data = Buffer.from(payload.data, "base64").toString("utf-8");
  await Promise.resolve(1); //Placeholder for actual async work
  return data;
}
```
Melaporkan kegagalan item batch Kinesis dengan penggunaan Lambda. TypeScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import {
  KinesisStreamEvent,
  Context,
  KinesisStreamHandler,
  KinesisStreamRecordPayload,
  KinesisStreamBatchResponse,
} from "aws-lambda";
import { Buffer } from "buffer";
import { Logger } from "@aws-lambda-powertools/logger";

const logger = new Logger({
  logLevel: "INFO",
  serviceName: "kinesis-stream-handler-sample",
});

export const functionHandler: KinesisStreamHandler = async (
  event: KinesisStreamEvent,
  context: Context
): Promise<KinesisStreamBatchResponse> => {
  for (const record of event.Records) {
    try {
      logger.info(`Processed Kinesis Event - EventID: ${record.eventID}`);
      const recordData = await getRecordDataAsync(record.kinesis);
      logger.info(`Record Data: ${recordData}`);
      // TODO: Do interesting work based on the new data
    } catch (err) {
      logger.error(`An error occurred ${err}`);
      /* Since we are working with streams, we can return the failed item immediately.
            Lambda will immediately begin to retry processing from this failed item onwards. */
      return {
        batchItemFailures: [{ itemIdentifier: record.kinesis.sequenceNumber }],
      };
    }
  }
  logger.info(`Successfully processed ${event.Records.length} records.`);
  return { batchItemFailures: [] };
};

async function getRecordDataAsync(
  payload: KinesisStreamRecordPayload
): Promise<string> {
  var data = Buffer.from(payload.data, "base64").toString("utf-8");
  await Promise.resolve(1); //Placeholder for actual async work
  return data;
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan penggunaan Lambda. JavaScript  

```
export const handler = async (event) => {
  const records = event.Records;
  let curRecordSequenceNumber = "";

  for (const record of records) {
    try {
      // Process your record
      curRecordSequenceNumber = record.dynamodb.SequenceNumber;
    } catch (e) {
      // Return failed record's sequence number
      return { batchItemFailures: [{ itemIdentifier: curRecordSequenceNumber }] };
    }
  }

  return { batchItemFailures: [] };
};
```
Melaporkan kegagalan item batch DynamoDB dengan penggunaan Lambda. TypeScript  

```
import {
  DynamoDBBatchResponse,
  DynamoDBBatchItemFailure,
  DynamoDBStreamEvent,
} from "aws-lambda";

export const handler = async (
  event: DynamoDBStreamEvent
): Promise<DynamoDBBatchResponse> => {
  const batchItemFailures: DynamoDBBatchItemFailure[] = [];
  let curRecordSequenceNumber;

  for (const record of event.Records) {
    curRecordSequenceNumber = record.dynamodb?.SequenceNumber;

    if (curRecordSequenceNumber) {
      batchItemFailures.push({
        itemIdentifier: curRecordSequenceNumber,
      });
    }
  }

  return { batchItemFailures: batchItemFailures };
};
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan penggunaan JavaScript Lambda.  

```
// Node.js 20.x Lambda runtime, AWS SDK for Javascript V3
export const handler = async (event, context) => {
    const batchItemFailures = [];
    for (const record of event.Records) {
        try {
            await processMessageAsync(record, context);
        } catch (error) {
            batchItemFailures.push({ itemIdentifier: record.messageId });
        }
    }
    return { batchItemFailures };
};

async function processMessageAsync(record, context) {
    if (record.body && record.body.includes("error")) {
        throw new Error("There is an error in the SQS Message.");
    }
    console.log(`Processed message: ${record.body}`);
}
```
Melaporkan kegagalan item batch SQS dengan penggunaan TypeScript Lambda.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { SQSEvent, SQSBatchResponse, Context, SQSBatchItemFailure, SQSRecord } from 'aws-lambda';

export const handler = async (event: SQSEvent, context: Context): Promise<SQSBatchResponse> => {
    const batchItemFailures: SQSBatchItemFailure[] = [];

    for (const record of event.Records) {
        try {
            await processMessageAsync(record);
        } catch (error) {
            batchItemFailures.push({ itemIdentifier: record.messageId });
        }
    }

    return {batchItemFailures: batchItemFailures};
};

async function processMessageAsync(record: SQSRecord): Promise<void> {
    if (record.body && record.body.includes("error")) {
        throw new Error('There is an error in the SQS Message.');
    }
    console.log(`Processed message ${record.body}`);
}
```

# Contoh Amazon Lex menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_lex_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Lex.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membangun chatbot Amazon Lex
<a name="cross_LexChatbotLanguages_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat chatbot untuk melibatkan pengunjung situs web Anda.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Lex API untuk membuat Chatbot dalam aplikasi web untuk melibatkan pengunjung situs web Anda.   
 Untuk kode sumber lengkap dan petunjuk tentang cara mengatur dan menjalankan, lihat contoh lengkap [Membangun chatbot Amazon Lex](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/lex-bot-example.html) di panduan AWS SDK untuk JavaScript pengembang.   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon Lex
+ Amazon Translate

# Contoh Lokasi Amazon menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_location_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Lokasi Amazon.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Lokasi Amazon
<a name="location_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Location Service.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  LocationClient,
  ListGeofenceCollectionsCommand,
} from "@aws-sdk/client-location";

/**
 * Lists geofences from a specified geofence collection asynchronously.
 */
export const main = async () => {
  const region = "eu-west-1";
  const locationClient = new LocationClient({ region: region });
  const listGeofenceCollParams = {
    MaxResults: 100,
  };
  try {
    const command = new ListGeofenceCollectionsCommand(listGeofenceCollParams);
    const response = await locationClient.send(command);
    const geofenceEntries = response.Entries;
    if (geofenceEntries.length === 0) {
      console.log("No Geofences were found in the collection.");
    } else {
      for (const geofenceEntry of geofenceEntries) {
        console.log(`Geofence ID: ${geofenceEntry.CollectionName}`);
      }
    }
  } catch (error) {
    console.error(
      `A validation error occurred while creating geofence: ${error} \n Exiting program.`,
    );
    return;
  }
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [ListGeofenceCollections](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/ListGeofenceCollectionsCommand)
  + [ListGeofences](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/ListGeofencesCommand)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="location_Scenario_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peta Lokasi Amazon.
+ Buat kunci API Lokasi Amazon.
+ Tampilkan URL Peta.
+ Buat koleksi geofence.
+ Simpan geometri geofence.
+ Buat sumber daya pelacak.
+ Perbarui posisi perangkat.
+ Ambil pembaruan posisi terbaru untuk perangkat tertentu.
+ Buat kalkulator rute.
+ Tentukan jarak antara Seattle dan Vancouver.
+ Gunakan Lokasi Amazon tingkat yang lebih tinggi APIs.
+ Hapus Aset Lokasi Amazon.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/scenarios#code-examples). 

```
/*
Before running this JavaScript code example, set up your development environment, including your credentials.
This demo illustrates how to use the AWS SDK for JavaScript (v3) to work with Amazon Location Service.

For more information, see the following documentation topic:

https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/getting-started.html
*/

import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";

import {
  CreateMapCommand,
  CreateGeofenceCollectionCommand,
  PutGeofenceCommand,
  CreateTrackerCommand,
  BatchUpdateDevicePositionCommand,
  GetDevicePositionCommand,
  CreateRouteCalculatorCommand,
  CalculateRouteCommand,
  LocationClient,
  ConflictException,
  ResourceNotFoundException,
  DeleteGeofenceCollectionCommand,
  DeleteRouteCalculatorCommand,
  DeleteTrackerCommand,
  DeleteMapCommand,
} from "@aws-sdk/client-location";

import {
  GeoPlacesClient,
  ReverseGeocodeCommand,
  SearchNearbyCommand,
  SearchTextCommand,
  GetPlaceCommand,
  ValidationException,
} from "@aws-sdk/client-geo-places";

import { parseArgs } from "node:util";
import { fileURLToPath } from "node:url";

/*The inputs for this example can be edited in the ./input.json.*/
import data from "./inputs.json" with { type: "json" };

/**
 * Used repeatedly to have the user press enter.
 * @type {ScenarioInput}
 */
/* v8 ignore next 3 */
const pressEnter = new ScenarioInput("continue", "Press Enter to continue", {
  type: "confirm",
  verbose: "false",
});

const pressEnterConfirm = new ScenarioInput(
  "confirm",
  "Press Enter to continue",
  {
    type: "confirm",
    verbose: "false",
  },
);

const region = "eu-west-1";

const locationClient = new LocationClient({ region: region });

const greet = new ScenarioOutput(
  "greet",
  "Welcome to the Amazon Location Use demo! \n" +
    "AWS Location Service is a fully managed service offered by Amazon Web Services (AWS) that " +
    "provides location-based services for developers. This service simplifies " +
    "the integration of location-based features into applications, making it " +
    "Maps: The service provides access to high-quality maps, satellite imagery, " +
    "and geospatial data from various providers, allowing developers to " +
    "easily embed maps into their applications:\n" +
    "Tracking: The Location Service enables real-time tracking of mobile devices, " +
    "assets, or other entities, allowing developers to build applications " +
    "that can monitor the location of people, vehicles, or other objects.\n" +
    "Geocoding: The service provides the ability to convert addresses or " +
    "location names into geographic coordinates (latitude and longitude), " +
    "and vice versa, enabling developers to integrate location-based search " +
    "and routing functionality into their applications. " +
    "Please define values ./inputs.json for each user-defined variable used in this app. Otherwise the default is used:\n" +
    "- mapName: The name of the map to be create (default is 'AWSMap').\n" +
    "- keyName: The name of the API key to create (default is ' AWSApiKey')\n" +
    "- collectionName: The name of the geofence collection (default is 'AWSLocationCollection')\n" +
    "- geoId: The geographic identifier used for the geofence or map (default is 'geoId')\n" +
    "- trackerName: The name of the tracker (default is 'geoTracker')\n" +
    "- calculatorName: The name of the route calculator (default is 'AWSRouteCalc')\n" +
    "- deviceId: The ID of the device (default is 'iPhone-112356')",

  { header: true },
);
const displayCreateAMap = new ScenarioOutput(
  "displayCreateAMap",
  "1. Create a map\n" +
    "An AWS Location map can enhance the user experience of your " +
    " application by providing accurate and personalized location-based " +
    " features. For example, you could use the geocoding capabilities to " +
    " allow users to search for and locate businesses, landmarks, or " +
    " other points of interest within a specific region.",
);

const sdkCreateAMap = new ScenarioAction(
  "sdkCreateAMap",
  async (/** @type {State} */ state) => {
    const createMapParams = {
      MapName: `${data.inputs.mapName}`,
      Configuration: { style: "VectorEsriNavigation" },
    };
    try {
      const command = new CreateMapCommand(createMapParams);
      const response = await locationClient.send(command);
      state.MapName = response.MapName;
      console.log("Map created. Map ARN is: ", state.MapName);
    } catch (error) {
      console.error("Error creating map: ", error);
      throw error;
    }
  },
);

const displayMapUrl = new ScenarioOutput(
  "displayMapUrl",
  "2. Display Map URL\n" +
    "When you embed a map in a web app or website, the API key is " +
    "included in the map tile URL to authenticate requests. You can " +
    "restrict API keys to specific AWS Location operations (e.g., only " +
    "maps, not geocoding). API keys can expire, ensuring temporary " +
    "access control.\n" +
    "In order to get the MAP URL you need to create and get the API Key value. " +
    "You can create and get the key value using the AWS Management Console under " +
    "Location Services. These operations cannot be completed using the " +
    "AWS SDK. For more information about getting the key value, see " +
    "the AWS Location Documentation.",
);

const sdkDisplayMapUrl = new ScenarioAction(
  "sdkDisplayMapUrl",
  async (/** @type {State} */ state) => {
    const mapURL = `https://maps.geo.aws.amazon.com/maps/v0/maps/${state.MapName}/tiles/{z}/{x}/{y}?key=API_KEY_VALUE`;
    state.mapURL = mapURL;
    console.log(
      `Replace \'API_KEY_VALUE\' in the following URL with the value for the API key you create and get from the AWS Management Console under Location Services. This is then the Map URL you can embed this URL in your Web app:\n 
${state.mapURL}`,
    );
  },
);
const displayCreateGeoFenceColl = new ScenarioOutput(
  "displayCreateGeoFenceColl",
  "3. Create a geofence collection, which manages and stores geofences.",
);

const sdkCreateGeoFenceColl = new ScenarioAction(
  "sdkCreateGeoFenceColl",
  async (/** @type {State} */ state) => {
    // Creates a new geofence collection.
    const geoFenceCollParams = {
      CollectionName: `${data.inputs.collectionName}`,
    };
    try {
      const command = new CreateGeofenceCollectionCommand(geoFenceCollParams);
      const response = await locationClient.send(command);
      state.CollectionName = response.CollectionName;
      console.log(
        `The geofence collection was successfully created: ${state.CollectionName}`,
      );
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `An unexpected error occurred while creating the geofence collection: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
  },
);
const displayStoreGeometry = new ScenarioOutput(
  "displayStoreGeometry",
  "4. Store a geofence geometry in a given geofence collection. " +
    "An AWS Location geofence is a virtual boundary that defines a geographic area " +
    "on a map. It is a useful feature for tracking the location of " +
    "assets or monitoring the movement of objects within a specific region. " +
    "To define a geofence, you need to specify the coordinates of a " +
    "polygon that represents the area of interest. The polygon must be " +
    "defined in a counter-clockwise direction, meaning that the points of " +
    "the polygon must be listed in a counter-clockwise order. " +
    "This is a requirement for the AWS Location service to correctly " +
    "interpret the geofence and ensure that the location data is " +
    "accurately processed within the defined area.",
);

const sdkStoreGeometry = new ScenarioAction(
  "sdkStoreGeometry",
  async (/** @type {State} */ state) => {
    const geoFenceGeoParams = {
      CollectionName: `${data.inputs.collectionName}`,
      GeofenceId: `${data.inputs.geoId}`,
      Geometry: {
        Polygon: [
          [
            [-122.3381, 47.6101],
            [-122.3281, 47.6101],
            [-122.3281, 47.6201],
            [-122.3381, 47.6201],
            [-122.3381, 47.6101],
          ],
        ],
      },
    };
    try {
      const command = new PutGeofenceCommand(geoFenceGeoParams);
      const response = await locationClient.send(command);
      state.GeoFencId = response.GeofenceId;
      console.log("GeoFence created. GeoFence ID is: ", state.GeoFencId);
    } catch (caught) {
      if (caught instanceof ValidationException) {
        console.error(
          `A validation error occurred while creating geofence: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
  },
);
const displayCreateTracker = new ScenarioOutput(
  "displayCreateTracker",
  "5. Create a tracker resource which lets you retrieve current and historical location of devices.",
);

const sdkCreateTracker = new ScenarioAction(
  "sdkCreateTracker",
  async (/** @type {State} */ state) => {
    //Creates a new tracker resource in your AWS account, which you can use to track the location of devices.
    const createTrackerParams = {
      TrackerName: `${data.inputs.trackerName}`,
      Description: "Created using the JavaScript V3 SDK",
      PositionFiltering: "TimeBased",
    };
    try {
      const command = new CreateTrackerCommand(createTrackerParams);
      const response = await locationClient.send(command);
      state.trackerName = response.TrackerName;
      console.log("Tracker created. Tracker name is : ", state.trackerName);
    } catch (caught) {
      if (caught instanceof ResourceNotFoundException) {
        console.error(
          `A validation error occurred while creating geofence: ${caught.message} \n Exiting program.`,
        );
      } else {
        `An unexpected error error occurred: ${caught.message} \n Exiting program.`;
      }
      return;
    }
  },
);
const displayUpdatePosition = new ScenarioOutput(
  "displayUpdatePosition",
  "6. Update the position of a device in the location tracking system." +
    "The AWS Location Service does not enforce a strict format for deviceId, but it must:\n " +
    "- Be a string (case-sensitive).\n" +
    "- Be 1–100 characters long.\n" +
    "- Contain only: Alphanumeric characters (A-Z, a-z, 0-9); Underscores (_); Hyphens (-); and be the same ID used when sending and retrieving positions.",
);

const sdkUpdatePosition = new ScenarioAction(
  "sdkUpdatePosition",
  async (/** @type {State} */ state) => {
    // Updates the position of a device in the location tracking system.

    const updateDevicePosParams = {
      TrackerName: `${data.inputs.trackerName}`,
      Updates: [
        {
          DeviceId: `${data.inputs.deviceId}`,
          SampleTime: new Date(),
          Position: [-122.4194, 37.7749],
        },
      ],
    };
    try {
      const command = new BatchUpdateDevicePositionCommand(
        updateDevicePosParams,
      );
      const response = await locationClient.send(command);
      console.log(
        `Device with id ${data.inputs.deviceId} was successfully updated in the location tracking system. `,
      );
    } catch (caught) {
      if (caught instanceof ResourceNotFoundException) {
        console.error(
          `A validation error occurred while updating the device: ${caught.message} \n Exiting program.`,
        );
      }
    }
  },
);
const displayRetrievePosition = new ScenarioOutput(
  "displayRetrievePosition",
  "7. Retrieve the most recent position update for a specified device.",
);

const sdkRetrievePosition = new ScenarioAction(
  "sdkRetrievePosition",
  async (/** @type {State} */ state) => {
    const devicePositionParams = {
      TrackerName: `${data.inputs.trackerName}`,
      DeviceId: `${data.inputs.deviceId}`,
    };
    try {
      const command = new GetDevicePositionCommand(devicePositionParams);
      const response = await locationClient.send(command);
      state.position = response.Position;
      console.log("Successfully fetched device position: : ", state.position);
    } catch (caught) {
      if (caught instanceof ResourceNotFoundException) {
        console.error(
          `"The resource was not found: ${caught.message} \n Exiting program.`,
        );
      } else {
        `An unexpected error error occurred: ${caught.message} \n Exiting program.`;
      }
      return;
    }
  },
);
const displayCreateRouteCalc = new ScenarioOutput(
  "displayCreateRouteCalc",
  "8. Create a route calculator.",
);

const sdkCreateRouteCalc = new ScenarioAction(
  "sdkCreateRouteCalc",
  async (/** @type {State} */ state) => {
    const routeCalcParams = {
      CalculatorName: `${data.inputs.calculatorName}`,
      DataSource: "Esri",
    };
    try {
      // Creates a new route calculator with the specified name and data source.
      const command = new CreateRouteCalculatorCommand(routeCalcParams);
      const response = await locationClient.send(command);
      state.CalculatorName = response.CalculatorName;
      console.log(
        "Route calculator created successfully. Calculator name is: ",
        state.CalculatorName,
      );
    } catch (caught) {
      if (caught instanceof ConflictException) {
        console.error(
          `An conflict occurred: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
  },
);
const displayDetermineDist = new ScenarioOutput(
  "displayDetermineDist",
  "9. Determine the distance between Seattle and Vancouver using the route calculator.",
);

const sdkDetermineDist = new ScenarioAction(
  "sdkDetermineDist",
  async (/** @type {State} */ state) => {
    // Calculates the distance between two locations asynchronously.
    const determineDist = {
      CalculatorName: `${data.inputs.calculatorName}`,
      DeparturePosition: [-122.3321, 47.6062],
      DestinationPosition: [-123.1216, 49.2827],
      TravelMode: "Car",
      DistanceUnit: "Kilometers",
    };
    try {
      const command = new CalculateRouteCommand(determineDist);
      const response = await locationClient.send(command);

      console.log(
        "Successfully calculated route. The distance in kilometers is : ",
        response.Summary.Distance,
      );
    } catch (caught) {
      if (caught instanceof ResourceNotFoundException) {
        console.error(
          `Failed to calculate route: ${caught.message} \n Exiting program.`,
        );
      }
      return;
    }
  },
);
const displayUseGeoPlacesClient = new ScenarioOutput(
  "displayUseGeoPlacesClient",
  "10. Use the GeoPlacesAsyncClient to perform additional operations. " +
    "This scenario will show use of the GeoPlacesClient that enables" +
    "location search and geocoding capabilities for your applications. " +
    "We are going to use this client to perform these AWS Location tasks: \n" +
    " - Reverse Geocoding (reverseGeocode): Converts geographic coordinates into addresses.\n " +
    " - Place Search (searchText): Finds places based on search queries.\n " +
    " - Nearby Search (searchNearby): Finds places near a specific location.\n " +
    "First we will perform a Reverse Geocoding operation",
);

const sdkUseGeoPlacesClient = new ScenarioAction(
  "sdkUseGeoPlacesClient",
  async (/** @type {State} */ state) => {
    const geoPlacesClient = new GeoPlacesClient({ region: region });

    const reverseGeoCodeParams = {
      QueryPosition: [-122.4194, 37.7749],
    };
    const searchTextParams = {
      QueryText: "coffee shop",
      BiasPosition: [-122.4194, 37.7749], //San Fransisco
    };
    const searchNearbyParams = {
      QueryPosition: [-122.4194, 37.7749],
      QueryRadius: Number("1000"),
    };
    try {
      /*   Performs reverse geocoding using the AWS Geo Places API.
     Reverse geocoding is the process of converting geographic coordinates (latitude and longitude) to a human-readable address.
     This method uses the latitude and longitude of San Francisco as the input, and prints the resulting address.*/

      console.log("Use latitude 37.7749 and longitude -122.4194.");
      const command = new ReverseGeocodeCommand(reverseGeoCodeParams);
      const response = await geoPlacesClient.send(command);
      console.log(
        "Successfully calculated route. The distance in kilometers is : ",
        response.ResultItems[0].Distance,
      );
    } catch (caught) {
      if (caught instanceof ValidationException) {
        console.error(
          `An conflict occurred: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
    try {
      console.log(
        "Now we are going to perform a text search using coffee shop",
      );

      /*Searches for a place using the provided search query and prints the detailed information of the first result.
  @param searchTextParams the search query to be used for the place search (ex, coffee shop)*/

      const command = new SearchTextCommand(searchTextParams);
      const response = await geoPlacesClient.send(command);
      const placeId = response.ResultItems[0].PlaceId.toString();
      const getPlaceCommand = new GetPlaceCommand({
        PlaceId: placeId,
      });
      const getPlaceResponse = await geoPlacesClient.send(getPlaceCommand);
      console.log(
        `Detailed Place Information: \n Name and address: ${getPlaceResponse.Address.Label}`,
      );

      const foodTypes = getPlaceResponse.FoodTypes;
      if (foodTypes.length) {
        console.log("Food Types: ");
        for (const foodType of foodTypes) {
          console.log("- ", foodType.LocalizedName);
        }
      } else {
        console.log("No food types available.");
      }
    } catch (caught) {
      if (caught instanceof ValidationException) {
        console.error(
          `An conflict occurred: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
    try {
      console.log("\nNow we are going to perform a nearby search.");
      const command = new SearchNearbyCommand(searchNearbyParams);
      const response = await geoPlacesClient.send(command);
      const resultItems = response.ResultItems;
      console.log("\nSuccessfully performed nearby search.");
      for (const resultItem of resultItems) {
        console.log("Name and address: ", resultItem.Address.Label);
        console.log("Distance: ", resultItem.Distance);
      }
    } catch (caught) {
      if (caught instanceof ValidationException) {
        console.error(
          `An conflict occurred: ${caught.message} \n Exiting program.`,
        );
        return;
      }
    }
  },
);

const displayDeleteResources = new ScenarioOutput(
  "displayDeleteResources",
  "11. Delete the AWS Location Services resources. " +
    "Would you like to delete the AWS Location Services resources? (y/n)",
);

const sdkDeleteResources = new ScenarioAction(
  "sdkDeleteResources",
  async (/** @type {State} */ state) => {
    const deleteGeofenceCollParams = {
      CollectionName: `${state.CollectionName}`,
    };
    const deleteRouteCalculatorParams = {
      CalculatorName: `${state.CalculatorName}`,
    };
    const deleteTrackerParams = { TrackerName: `${state.trackerName}` };
    const deleteMapParams = { MapName: `${state.MapName}` };
    try {
      const command = new DeleteMapCommand(deleteMapParams);
      const response = await locationClient.send(command);
      console.log("Map deleted.");
    } catch (error) {
      console.log("Error deleting map: ", error);
    }
    try {
      const command = new DeleteGeofenceCollectionCommand(
        deleteGeofenceCollParams,
      );
      const response = await locationClient.send(command);
      console.log("Geofence collection deleted.");
    } catch (error) {
      console.log("Error deleting geofence collection: ", error);
    }
    try {
      const command = new DeleteRouteCalculatorCommand(
        deleteRouteCalculatorParams,
      );
      const response = await locationClient.send(command);
      console.log("Route calculator deleted.");
    } catch (error) {
      console.log("Error deleting route calculator: ", error);
    }
    try {
      const command = new DeleteTrackerCommand(deleteTrackerParams);
      const response = await locationClient.send(command);
      console.log("Tracker deleted.");
    } catch (error) {
      console.log("Error deleting tracker: ", error);
    }
  },
);

const goodbye = new ScenarioOutput(
  "goodbye",
  "Thank you for checking out the Amazon Location Service Use demo. We hope you " +
    "learned something new, or got some inspiration for your own apps today!" +
    " For more Amazon Location Services examples in different programming languages, have a look at: " +
    "https://docs.aws.amazon.com/code-library/latest/ug/location_code_examples.html",
);

const myScenario = new Scenario("Location Services Scenario", [
  greet,
  pressEnter,
  displayCreateAMap,
  sdkCreateAMap,
  pressEnter,
  displayMapUrl,
  sdkDisplayMapUrl,
  pressEnter,
  displayCreateGeoFenceColl,
  sdkCreateGeoFenceColl,
  pressEnter,
  displayStoreGeometry,
  sdkStoreGeometry,
  pressEnter,
  displayCreateTracker,
  sdkCreateTracker,
  pressEnter,
  displayUpdatePosition,
  sdkUpdatePosition,
  pressEnter,
  displayRetrievePosition,
  sdkRetrievePosition,
  pressEnter,
  displayCreateRouteCalc,
  sdkCreateRouteCalc,
  pressEnter,
  displayDetermineDist,
  sdkDetermineDist,
  pressEnter,
  displayUseGeoPlacesClient,
  sdkUseGeoPlacesClient,
  pressEnter,
  displayDeleteResources,
  pressEnterConfirm,
  sdkDeleteResources,
  goodbye,
]);

/** @type {{ stepHandlerOptions: StepHandlerOptions }} */
export const main = async (stepHandlerOptions) => {
  await myScenario.run(stepHandlerOptions);
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const { values } = parseArgs({
    options: {
      yes: {
        type: "boolean",
        short: "y",
      },
    },
  });
  main({ confirmAll: values.yes });
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [BatchUpdateDevicePosition](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/BatchUpdateDevicePositionCommand)
  + [CalculateRoute](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CalculateRouteCommand)
  + [CreateGeofenceCollection](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateGeofenceCollectionCommand)
  + [CreateKey](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateKeyCommand)
  + [CreateMap](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateMapCommand)
  + [CreateRouteCalculator](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateRouteCalculatorCommand)
  + [CreateTracker](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateTrackerCommand)
  + [DeleteGeofenceCollection](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteGeofenceCollectionCommand)
  + [DeleteKey](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteKeyCommand)
  + [DeleteMap](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteMapCommand)
  + [DeleteRouteCalculator](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteRouteCalculatorCommand)
  + [DeleteTracker](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteTrackerCommand)
  + [GetDevicePosition](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/GetDevicePositionCommand)
  + [PutGeofence](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/PutGeofenceCommand)

## Tindakan
<a name="actions"></a>

### `BatchUpdateDevicePosition`
<a name="location_BatchUpdateDevicePosition_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchUpdateDevicePosition`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  BatchUpdateDevicePositionCommand,
  LocationClient,
  ResourceNotFoundException,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };
const region = "eu-west-1";
const locationClient = new LocationClient({ region: region });
const updateDevicePosParams = {
  TrackerName: `${data.inputs.trackerName}`,
  Updates: [
    {
      DeviceId: `${data.inputs.deviceId}`,
      SampleTime: new Date(),
      Position: [-122.4194, 37.7749],
    },
  ],
};
export const main = async () => {
  try {
    const command = new BatchUpdateDevicePositionCommand(updateDevicePosParams);
    const response = await locationClient.send(command);
    //console.log("response ", response.Errors[0].Error);

    console.log(
      `Device with id ${data.inputs.deviceId} was successfully updated in the location tracking system. `,
      response,
    );
  } catch (error) {
    console.log("error ", error);
  }
};
```
+  Untuk detail API, lihat [BatchUpdateDevicePosition](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/BatchUpdateDevicePositionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CalculateRoute`
<a name="location_CalculateRoute_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CalculateRoute`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  CalculateRouteCommand,
  ResourceNotFoundException,
  LocationClient,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";
const locationClient = new LocationClient({ region: region });

export const main = async () => {
  const routeCalcParams = {
    CalculatorName: `${data.inputs.calculatorName}`,
    DeparturePosition: [-122.3321, 47.6062],
    DestinationPosition: [-123.1216, 49.2827],
    TravelMode: "Car",
    DistanceUnit: "Kilometers",
  };
  try {
    const command = new CalculateRouteCommand(routeCalcParams);
    const response = await locationClient.send(command);

    console.log(
      "Successfully calculated route. The distance in kilometers is : ",
      response.Summary.Distance,
    );
  } catch (caught) {
    if (caught instanceof ResourceNotFoundException) {
      console.error(
        `An conflict occurred: ${caught.message} \n Exiting program.`,
      );
      return;
    }
  }
};
```
+  Untuk detail API, lihat [CalculateRoute](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CalculateRouteCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateGeofenceCollection`
<a name="location_CreateGeofenceCollection_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGeofenceCollection`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  ConflictException,
  CreateGeofenceCollectionCommand,
  LocationClient,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";

export const main = async () => {
  const geoFenceCollParams = {
    CollectionName: `${data.inputs.collectionName}`,
  };
  const locationClient = new LocationClient({ region: region });
  try {
    const command = new CreateGeofenceCollectionCommand(geoFenceCollParams);
    const response = await locationClient.send(command);
    console.log(
      "Collection created. Collection name is: ",
      response.CollectionName,
    );
  } catch (caught) {
    if (caught instanceof ConflictException) {
      console.error("A conflict occurred. Exiting program.");
      return;
    }
  }
};
```
+  Untuk detail API, lihat [CreateGeofenceCollection](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateGeofenceCollectionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateMap`
<a name="location_CreateMap_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMap`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import { CreateMapCommand, LocationClient } from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";

export const main = async () => {
  const CreateMapCommandInput = {
    MapName: `${data.inputs.mapName}`,
    Configuration: { style: "VectorEsriNavigation" },
  };
  const locationClient = new LocationClient({ region: region });
  try {
    const command = new CreateMapCommand(CreateMapCommandInput);
    const response = await locationClient.send(command);
    console.log("Map created. Map ARN is : ", response.MapArn);
  } catch (error) {
    console.error("Error creating map: ", error);
    throw error;
  }
};
```
+  Untuk detail API, lihat [CreateMap](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateMapCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateRouteCalculator`
<a name="location_CreateRouteCalculator_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRouteCalculator`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  ConflictException,
  CreateRouteCalculatorCommand,
  LocationClient,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";
const locationClient = new LocationClient({ region: region });

export const main = async () => {
  const routeCalcParams = {
    CalculatorName: `${data.inputs.calculatorName}`,
    DataSource: "Esri",
  };
  try {
    const command = new CreateRouteCalculatorCommand(routeCalcParams);
    const response = await locationClient.send(command);

    console.log(
      "Route calculator created successfully. Calculator name is ",
      response.CalculatorName,
    );
  } catch (caught) {
    if (caught instanceof ConflictException) {
      console.error(
        `An conflict occurred: ${caught.message} \n Exiting program.`,
      );
      return;
    }
  }
};
```
+  Untuk detail API, lihat [CreateRouteCalculator](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateRouteCalculatorCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateTracker`
<a name="location_CreateTracker_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTracker`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import { CreateTrackerCommand, LocationClient } from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";

export const main = async () => {
  const createTrackerParams = {
    TrackerName: `${data.inputs.trackerName}`,
  };
  const locationClient = new LocationClient({ region: region });
  try {
    const command = new CreateTrackerCommand(createTrackerParams);
    const response = await locationClient.send(command);
    //state.trackerName - response.TrackerName;
    console.log("Tracker created. Tracker name is : ", response.TrackerName);
  } catch (error) {
    console.error("Error creating map: ", error);
    throw error;
  }
};
```
+  Untuk detail API, lihat [CreateTracker](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/CreateTrackerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteGeofenceCollection`
<a name="location_DeleteGeofenceCollection_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteGeofenceCollection`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  DeleteGeofenceCollectionCommand,
  LocationClient,
  ResourceNotFoundException,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";

export const main = async () => {
  const deleteGeofenceCollParams = {
    CollectionName: `${data.inputs.collectionName}`,
  };
  const locationClient = new LocationClient({ region: region });
  try {
    const command = new DeleteGeofenceCollectionCommand(
      deleteGeofenceCollParams,
    );
    const response = await locationClient.send(command);
    console.log("Collection deleted.");
  } catch (caught) {
    if (caught instanceof ResourceNotFoundException) {
      console.error(
        `${data.inputs.collectionName} Geofence collection not found.`,
      );
      return;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteGeofenceCollection](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteGeofenceCollectionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteMap`
<a name="location_DeleteMap_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMap`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  DeleteMapCommand,
  LocationClient,
  ResourceNotFoundException,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";

export const main = async () => {
  const deleteMapParams = {
    MapName: `${data.inputs.mapName}`,
  };
  try {
    const locationClient = new LocationClient({ region: region });
    const command = new DeleteMapCommand(deleteMapParams);
    const response = await locationClient.send(command);
    console.log("Map deleted.");
  } catch (caught) {
    if (caught instanceof ResourceNotFoundException) {
      console.error(`${data.inputs.mapName} map not found.`);
      return;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteMap](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteMapCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteRouteCalculator`
<a name="location_DeleteRouteCalculator_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRouteCalculator`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  DeleteRouteCalculatorCommand,
  LocationClient,
  ResourceNotFoundException,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";

export const main = async () => {
  const deleteRouteCalculatorParams = {
    CalculatorName: `${data.inputs.calculatorName}`,
  };
  try {
    const locationClient = new LocationClient({ region: region });
    const command = new DeleteRouteCalculatorCommand(
      deleteRouteCalculatorParams,
    );
    const response = await locationClient.send(command);
    console.log("Route calculator deleted.");
  } catch (caught) {
    if (caught instanceof ResourceNotFoundException) {
      console.error(
        `${data.inputs.calculatorName} route calculator not found.`,
      );
      return;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteRouteCalculator](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteRouteCalculatorCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteTracker`
<a name="location_DeleteTracker_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTracker`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  DeleteTrackerCommand,
  LocationClient,
  ResourceNotFoundException,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";

export const main = async () => {
  const deleteTrackerParams = {
    TrackerName: `${data.inputs.trackerName}`,
  };
  try {
    const locationClient = new LocationClient({ region: region });
    const command = new DeleteTrackerCommand(deleteTrackerParams);
    const response = await locationClient.send(command);
    console.log("Tracker deleted.");
  } catch (caught) {
    if (caught instanceof ResourceNotFoundException) {
      console.error(`${data.inputs.trackerName} tracker not found.`);
      return;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteTracker](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/DeleteTrackerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetDevicePosition`
<a name="location_GetDevicePosition_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDevicePosition`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  GetDevicePositionCommand,
  LocationClient,
  ResourceNotFoundException,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";

export const main = async () => {
  const locationClient = new LocationClient({ region: region });
  const deviceId = `${data.inputs.deviceId}`;
  const trackerName = `${data.inputs.trackerName}`;

  const devicePositionParams = {
    DeviceId: deviceId,
    TrackerName: trackerName,
  };
  try {
    const command = new GetDevicePositionCommand(devicePositionParams);
    const response = await locationClient.send(command);
    //state.position = response.position;
    console.log("Successfully fetched device position: ", response);
  } catch (error) {
    console.log("Error ", error);
    /*  if (caught instanceof ResourceNotFoundException) {
      console.error(
        `"The resource was not found: ${caught.message} \n Exiting program.`,
      );
    } else {
      `An unexpected error error occurred: ${caught.message} \n Exiting program.`;
    }
    return;*/
  }
};
```
+  Untuk detail API, lihat [GetDevicePosition](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/GetDevicePositionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutGeofence`
<a name="location_PutGeofence_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutGeofence`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/location/actions#code-examples). 

```
import { fileURLToPath } from "node:url";
import {
  PutGeofenceCommand,
  LocationClient,
  ValidationException,
} from "@aws-sdk/client-location";
import data from "./inputs.json" with { type: "json" };

const region = "eu-west-1";
const locationClient = new LocationClient({ region: region });
export const main = async () => {
  const geoFenceGeoParams = {
    CollectionName: `${data.inputs.collectionName}`,
    GeofenceId: `${data.inputs.geoId}`,
    Geometry: {
      Polygon: [
        [
          [-122.3381, 47.6101],
          [-122.3281, 47.6101],
          [-122.3281, 47.6201],
          [-122.3381, 47.6201],
          [-122.3381, 47.6101],
        ],
      ],
    },
  };
  try {
    const command = new PutGeofenceCommand(geoFenceGeoParams);
    const response = await locationClient.send(command);
    console.log("GeoFence created. GeoFence ID is: ", response.GeofenceId);
  } catch (error) {
    console.error(
      `A validation error occurred while creating geofence: ${error} \n Exiting program.`,
    );
    return;
  }
};
```
+  Untuk detail API, lihat [PutGeofence](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/location/command/PutGeofenceCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh MSK Amazon menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon MSK.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan menggunakan JavaScript Lambda.  

```
exports.handler = async (event) => {
    // Iterate through keys
    for (let key in event.records) {
      console.log('Key: ', key)
      // Iterate through records
      event.records[key].map((record) => {
        console.log('Record: ', record)
        // Decode base64
        const msg = Buffer.from(record.value, 'base64').toString()
        console.log('Message:', msg)
      }) 
    }
}
```
Mengkonsumsi acara MSK Amazon dengan menggunakan TypeScript Lambda.  

```
import { MSKEvent, Context } from "aws-lambda";
import { Buffer } from "buffer";
import { Logger } from "@aws-lambda-powertools/logger";

const logger = new Logger({
  logLevel: "INFO",
  serviceName: "msk-handler-sample",
});

export const handler = async (
  event: MSKEvent,
  context: Context
): Promise<void> => {
  for (const [topic, topicRecords] of Object.entries(event.records)) {
    logger.info(`Processing key: ${topic}`);

    // Process each record in the partition
    for (const record of topicRecords) {
      try {
        // Decode the message value from base64
        const decodedMessage = Buffer.from(record.value, 'base64').toString();

        logger.info({
          message: decodedMessage
        });
      }
      catch (error) {
        logger.error('Error processing event', { error });
        throw error;
      }
    };
  }
}
```

# Amazon Personalisasi contoh menggunakan SDK for JavaScript (v3)
<a name="javascript_3_personalize_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Personalize.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateBatchInferenceJob`
<a name="personalize_CreateBatchInferenceJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBatchInferenceJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateBatchInferenceJobCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the batch inference job's parameters.

export const createBatchInferenceJobParam = {
  jobName: "JOB_NAME",
  jobInput: {
    s3DataSource: {
      path: "INPUT_PATH",
    },
  },
  jobOutput: {
    s3DataDestination: {
      path: "OUTPUT_PATH",
    },
  },
  roleArn: "ROLE_ARN",
  solutionVersionArn: "SOLUTION_VERSION_ARN",
  numResults: 20,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateBatchInferenceJobCommand(createBatchInferenceJobParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateBatchInferenceJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateBatchInferenceJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateBatchSegmentJob`
<a name="personalize_CreateBatchSegmentJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBatchSegmentJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateBatchSegmentJobCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the batch segment job's parameters.

export const createBatchSegmentJobParam = {
  jobName: "NAME",
  jobInput: {
    s3DataSource: {
      path: "INPUT_PATH",
    },
  },
  jobOutput: {
    s3DataDestination: {
      path: "OUTPUT_PATH",
    },
  },
  roleArn: "ROLE_ARN",
  solutionVersionArn: "SOLUTION_VERSION_ARN",
  numResults: 20,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateBatchSegmentJobCommand(createBatchSegmentJobParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateBatchSegmentJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateBatchSegmentJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateCampaign`
<a name="personalize_CreateCampaign_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCampaign`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.

import { CreateCampaignCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the campaign's parameters.
export const createCampaignParam = {
  solutionVersionArn: "SOLUTION_VERSION_ARN" /* required */,
  name: "NAME" /* required */,
  minProvisionedTPS: 1 /* optional integer */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateCampaignCommand(createCampaignParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateCampaign](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateCampaignCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateDataset`
<a name="personalize_CreateDataset_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDataset`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateDatasetCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the dataset's parameters.
export const createDatasetParam = {
  datasetGroupArn: "DATASET_GROUP_ARN" /* required */,
  datasetType: "DATASET_TYPE" /* required */,
  name: "NAME" /* required */,
  schemaArn: "SCHEMA_ARN" /* required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateDatasetCommand(createDatasetParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateDataset](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateDatasetCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateDatasetExportJob`
<a name="personalize_CreateDatasetExportJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatasetExportJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateDatasetExportJobCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the export job parameters.
export const datasetExportJobParam = {
  datasetArn: "DATASET_ARN" /* required */,
  jobOutput: {
    s3DataDestination: {
      path: "S3_DESTINATION_PATH" /* required */,
      //kmsKeyArn: 'ARN'  /* include if your bucket uses AWS KMS for encryption
    },
  },
  jobName: "NAME" /* required */,
  roleArn: "ROLE_ARN" /* required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateDatasetExportJobCommand(datasetExportJobParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateDatasetExportJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateDatasetExportJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateDatasetGroup`
<a name="personalize_CreateDatasetGroup_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatasetGroup`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.

import { CreateDatasetGroupCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the dataset group parameters.
export const createDatasetGroupParam = {
  name: "NAME" /* required */,
};

export const run = async (createDatasetGroupParam) => {
  try {
    const response = await personalizeClient.send(
      new CreateDatasetGroupCommand(createDatasetGroupParam),
    );
    console.log("Success", response);
    return "Run successfully"; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run(createDatasetGroupParam);
```
Buat grup dataset domain.  

```
// Get service clients module and commands using ES6 syntax.
import { CreateDatasetGroupCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the domain dataset group parameters.
export const domainDatasetGroupParams = {
  name: "NAME" /* required */,
  domain:
    "DOMAIN" /* required for a domain dsg, specify ECOMMERCE or VIDEO_ON_DEMAND */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateDatasetGroupCommand(domainDatasetGroupParams),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateDatasetGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateDatasetGroupCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateDatasetImportJob`
<a name="personalize_CreateDatasetImportJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatasetImportJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateDatasetImportJobCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the dataset import job parameters.
export const datasetImportJobParam = {
  datasetArn: "DATASET_ARN" /* required */,
  dataSource: {
    /* required */
    dataLocation: "S3_PATH",
  },
  jobName: "NAME" /* required */,
  roleArn: "ROLE_ARN" /* required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateDatasetImportJobCommand(datasetImportJobParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateDatasetImportJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateDatasetImportJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateEventTracker`
<a name="personalize_CreateEventTracker_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEventTracker`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateEventTrackerCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the event tracker's parameters.
export const createEventTrackerParam = {
  datasetGroupArn: "DATASET_GROUP_ARN" /* required */,
  name: "NAME" /* required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateEventTrackerCommand(createEventTrackerParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateEventTracker](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateEventTrackerCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateFilter`
<a name="personalize_CreateFilter_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFilter`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateFilterCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the filter's parameters.
export const createFilterParam = {
  datasetGroupArn: "DATASET_GROUP_ARN" /* required */,
  name: "NAME" /* required */,
  filterExpression: "FILTER_EXPRESSION" /*required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateFilterCommand(createFilterParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateFilter](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateFilterCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateRecommender`
<a name="personalize_CreateRecommender_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRecommender`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateRecommenderCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the recommender's parameters.
export const createRecommenderParam = {
  name: "NAME" /* required */,
  recipeArn: "RECIPE_ARN" /* required */,
  datasetGroupArn: "DATASET_GROUP_ARN" /* required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateRecommenderCommand(createRecommenderParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateRecommender](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateRecommenderCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateSchema`
<a name="personalize_CreateSchema_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSchema`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateSchemaCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

import fs from "node:fs";

const schemaFilePath = "SCHEMA_PATH";
let mySchema = "";

try {
  mySchema = fs.readFileSync(schemaFilePath).toString();
} catch (err) {
  mySchema = "TEST"; // For unit tests.
}
// Set the schema parameters.
export const createSchemaParam = {
  name: "NAME" /* required */,
  schema: mySchema /* required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateSchemaCommand(createSchemaParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
Buat skema dengan domain.  

```
// Get service clients module and commands using ES6 syntax.
import { CreateSchemaCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";

// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

import fs from "node:fs";

const schemaFilePath = "SCHEMA_PATH";
let mySchema = "";

try {
  mySchema = fs.readFileSync(schemaFilePath).toString();
} catch (err) {
  mySchema = "TEST"; // for unit tests.
}

// Set the domain schema parameters.
export const createDomainSchemaParam = {
  name: "NAME" /* required */,
  schema: mySchema /* required */,
  domain:
    "DOMAIN" /* required for a domain dataset group, specify ECOMMERCE or VIDEO_ON_DEMAND */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateSchemaCommand(createDomainSchemaParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateSchema](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateSchemaCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateSolution`
<a name="personalize_CreateSolution_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSolution`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateSolutionCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the solution parameters.
export const createSolutionParam = {
  datasetGroupArn: "DATASET_GROUP_ARN" /* required */,
  recipeArn: "RECIPE_ARN" /* required */,
  name: "NAME" /* required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateSolutionCommand(createSolutionParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateSolution](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateSolutionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateSolutionVersion`
<a name="personalize_CreateSolutionVersion_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSolutionVersion`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { CreateSolutionVersionCommand } from "@aws-sdk/client-personalize";
import { personalizeClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeClient = new PersonalizeClient({ region: "REGION"});

// Set the solution version parameters.
export const solutionVersionParam = {
  solutionArn: "SOLUTION_ARN" /* required */,
};

export const run = async () => {
  try {
    const response = await personalizeClient.send(
      new CreateSolutionVersionCommand(solutionVersionParam),
    );
    console.log("Success", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateSolutionVersion](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize/command/CreateSolutionVersionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Personalisasi Acara Amazon menggunakan SDK for JavaScript (v3)
<a name="javascript_3_personalize-events_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Personalize Events.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutEvents`
<a name="personalize-events_PutEvents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { PutEventsCommand } from "@aws-sdk/client-personalize-events";
import { personalizeEventsClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeEventsClient = new PersonalizeEventsClient({ region: "REGION"});

// Convert your UNIX timestamp to a Date.
const sentAtDate = new Date(1613443801 * 1000); // 1613443801 is a testing value. Replace it with your sentAt timestamp in UNIX format.

// Set put events parameters.
const putEventsParam = {
  eventList: [
    /* required */
    {
      eventType: "EVENT_TYPE" /* required */,
      sentAt: sentAtDate /* required, must be a Date with js */,
      eventId: "EVENT_ID" /* optional */,
      itemId: "ITEM_ID" /* optional */,
    },
  ],
  sessionId: "SESSION_ID" /* required */,
  trackingId: "TRACKING_ID" /* required */,
  userId: "USER_ID" /* required */,
};
export const run = async () => {
  try {
    const response = await personalizeEventsClient.send(
      new PutEventsCommand(putEventsParam),
    );
    console.log("Success!", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize-events/command/PutEventsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutItems`
<a name="personalize-events_PutItems_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItems`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { PutItemsCommand } from "@aws-sdk/client-personalize-events";
import { personalizeEventsClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeEventsClient = new PersonalizeEventsClient({ region: "REGION"});

// Set the put items parameters. For string properties and values, use the \ character to escape quotes.
const putItemsParam = {
  datasetArn: "DATASET_ARN" /* required */,
  items: [
    /* required */
    {
      itemId: "ITEM_ID" /*  required */,
      properties:
        '{"PROPERTY1_NAME": "PROPERTY1_VALUE", "PROPERTY2_NAME": "PROPERTY2_VALUE", "PROPERTY3_NAME": "PROPERTY3_VALUE"}' /* optional */,
    },
  ],
};
export const run = async () => {
  try {
    const response = await personalizeEventsClient.send(
      new PutItemsCommand(putItemsParam),
    );
    console.log("Success!", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [PutItems](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize-events/command/PutItemsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutUsers`
<a name="personalize-events_PutUsers_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutUsers`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { PutUsersCommand } from "@aws-sdk/client-personalize-events";
import { personalizeEventsClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeEventsClient = new PersonalizeEventsClient({ region: "REGION"});

// Set the put users parameters. For string properties and values, use the \ character to escape quotes.
const putUsersParam = {
  datasetArn: "DATASET_ARN",
  users: [
    {
      userId: "USER_ID",
      properties: '{"PROPERTY1_NAME": "PROPERTY1_VALUE"}',
    },
  ],
};
export const run = async () => {
  try {
    const response = await personalizeEventsClient.send(
      new PutUsersCommand(putUsersParam),
    );
    console.log("Success!", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [PutUsers](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize-events/command/PutUsersCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Amazon Personalisasi contoh Runtime menggunakan SDK for (v3) JavaScript
<a name="javascript_3_personalize-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Personalize Runtime.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetPersonalizedRanking`
<a name="personalize-runtime_GetPersonalizedRanking_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPersonalizedRanking`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { GetPersonalizedRankingCommand } from "@aws-sdk/client-personalize-runtime";
import { personalizeRuntimeClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeRuntimeClient = new PersonalizeRuntimeClient({ region: "REGION"});

// Set the ranking request parameters.
export const getPersonalizedRankingParam = {
  campaignArn: "CAMPAIGN_ARN" /* required */,
  userId: "USER_ID" /* required */,
  inputList: ["ITEM_ID_1", "ITEM_ID_2", "ITEM_ID_3", "ITEM_ID_4"],
};

export const run = async () => {
  try {
    const response = await personalizeRuntimeClient.send(
      new GetPersonalizedRankingCommand(getPersonalizedRankingParam),
    );
    console.log("Success!", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [GetPersonalizedRanking](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize-runtime/command/GetPersonalizedRankingCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetRecommendations`
<a name="personalize-runtime_GetRecommendations_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRecommendations`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
// Get service clients module and commands using ES6 syntax.
import { GetRecommendationsCommand } from "@aws-sdk/client-personalize-runtime";

import { personalizeRuntimeClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeRuntimeClient = new PersonalizeRuntimeClient({ region: "REGION"});

// Set the recommendation request parameters.
export const getRecommendationsParam = {
  campaignArn: "CAMPAIGN_ARN" /* required */,
  userId: "USER_ID" /* required */,
  numResults: 15 /* optional */,
};

export const run = async () => {
  try {
    const response = await personalizeRuntimeClient.send(
      new GetRecommendationsCommand(getRecommendationsParam),
    );
    console.log("Success!", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
Dapatkan rekomendasi dengan filter (grup kumpulan data khusus).  

```
// Get service clients module and commands using ES6 syntax.
import { GetRecommendationsCommand } from "@aws-sdk/client-personalize-runtime";
import { personalizeRuntimeClient } from "./libs/personalizeClients.js";
// Or, create the client here.
// const personalizeRuntimeClient = new PersonalizeRuntimeClient({ region: "REGION"});

// Set the recommendation request parameters.
export const getRecommendationsParam = {
  recommenderArn: "RECOMMENDER_ARN" /* required */,
  userId: "USER_ID" /* required */,
  numResults: 15 /* optional */,
};

export const run = async () => {
  try {
    const response = await personalizeRuntimeClient.send(
      new GetRecommendationsCommand(getRecommendationsParam),
    );
    console.log("Success!", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
Dapatkan rekomendasi yang difilter dari pemberi rekomendasi yang dibuat dalam grup kumpulan data domain.  

```
// Get service clients module and commands using ES6 syntax.
import { GetRecommendationsCommand } from "@aws-sdk/client-personalize-runtime";
import { personalizeRuntimeClient } from "./libs/personalizeClients.js";
// Or, create the client here:
// const personalizeRuntimeClient = new PersonalizeRuntimeClient({ region: "REGION"});

// Set recommendation request parameters.
export const getRecommendationsParam = {
  campaignArn: "CAMPAIGN_ARN" /* required */,
  userId: "USER_ID" /* required */,
  numResults: 15 /* optional */,
  filterArn: "FILTER_ARN" /* required to filter recommendations */,
  filterValues: {
    PROPERTY:
      '"VALUE"' /* Only required if your filter has a placeholder parameter */,
  },
};

export const run = async () => {
  try {
    const response = await personalizeRuntimeClient.send(
      new GetRecommendationsCommand(getRecommendationsParam),
    );
    console.log("Success!", response);
    return response; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [GetRecommendations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/personalize-runtime/command/GetRecommendationsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Amazon Pinpoint contoh menggunakan SDK for JavaScript (v3)
<a name="javascript_3_pinpoint_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Pinpoint.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendMessages`
<a name="pinpoint_SendMessages_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessages`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/pinpoint#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { PinpointClient } from "@aws-sdk/client-pinpoint";
// Set the AWS Region.
const REGION = "us-east-1";
export const pinClient = new PinpointClient({ region: REGION });
```
Kirim pesan email.  

```
// Import required AWS SDK clients and commands for Node.js
import { SendMessagesCommand } from "@aws-sdk/client-pinpoint";
import { pinClient } from "./libs/pinClient.js";

// The FromAddress must be verified in SES.
const fromAddress = "FROM_ADDRESS";
const toAddress = "TO_ADDRESS";
const projectId = "PINPOINT_PROJECT_ID";

// The subject line of the email.
const subject = "Amazon Pinpoint Test (AWS SDK for JavaScript in Node.js)";

// The email body for recipients with non-HTML email clients.
const body_text = `Amazon Pinpoint Test (SDK for JavaScript in Node.js)
----------------------------------------------------
This email was sent with Amazon Pinpoint using the AWS SDK for JavaScript in Node.js.
For more information, see https://aws.amazon.com/sdk-for-node-js/`;

// The body of the email for recipients whose email clients support HTML content.
const body_html = `<html>
<head></head>
<body>
  <h1>Amazon Pinpoint Test (SDK for JavaScript in Node.js)</h1>
  <p>This email was sent with
    <a href='https://aws.amazon.com/pinpoint/'>the Amazon Pinpoint Email API</a> using the
    <a href='https://aws.amazon.com/sdk-for-node-js/'>
      AWS SDK for JavaScript in Node.js</a>.</p>
</body>
</html>`;

// The character encoding for the subject line and message body of the email.
const charset = "UTF-8";

const params = {
  ApplicationId: projectId,
  MessageRequest: {
    Addresses: {
      [toAddress]: {
        ChannelType: "EMAIL",
      },
    },
    MessageConfiguration: {
      EmailMessage: {
        FromAddress: fromAddress,
        SimpleEmail: {
          Subject: {
            Charset: charset,
            Data: subject,
          },
          HtmlPart: {
            Charset: charset,
            Data: body_html,
          },
          TextPart: {
            Charset: charset,
            Data: body_text,
          },
        },
      },
    },
  },
};

const run = async () => {
  try {
    const { MessageResponse } = await pinClient.send(
      new SendMessagesCommand(params),
    );

    if (!MessageResponse) {
      throw new Error("No message response.");
    }

    if (!MessageResponse.Result) {
      throw new Error("No message result.");
    }

    const recipientResult = MessageResponse.Result[toAddress];

    if (recipientResult.StatusCode !== 200) {
      throw new Error(recipientResult.StatusMessage);
    }
    console.log(recipientResult.MessageId);
  } catch (err) {
    console.log(err.message);
  }
};

run();
```
Kirim pesan SMS.  

```
// Import required AWS SDK clients and commands for Node.js
import { SendMessagesCommand } from "@aws-sdk/client-pinpoint";
import { pinClient } from "./libs/pinClient.js";

/* The phone number or short code to send the message from. The phone number
 or short code that you specify has to be associated with your Amazon Pinpoint
account. For best results, specify long codes in E.164 format. */
const originationNumber = "SENDER_NUMBER"; //e.g., +1XXXXXXXXXX

// The recipient's phone number.  For best results, you should specify the phone number in E.164 format.
const destinationNumber = "RECEIVER_NUMBER"; //e.g., +1XXXXXXXXXX

// The content of the SMS message.
const message =
  "This message was sent through Amazon Pinpoint " +
  "using the AWS SDK for JavaScript in Node.js. Reply STOP to " +
  "opt out.";

/*The Amazon Pinpoint project/application ID to use when you send this message.
Make sure that the SMS channel is enabled for the project or application
that you choose.*/
const projectId = "PINPOINT_PROJECT_ID"; //e.g., XXXXXXXX66e4e9986478cXXXXXXXXX

/* The type of SMS message that you want to send. If you plan to send
time-sensitive content, specify TRANSACTIONAL. If you plan to send
marketing-related content, specify PROMOTIONAL.*/
const messageType = "TRANSACTIONAL";

// The registered keyword associated with the originating short code.
const registeredKeyword = "myKeyword";

/* The sender ID to use when sending the message. Support for sender ID
// varies by country or region. For more information, see
https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms-countries.html.*/

const senderId = "MySenderID";

// Specify the parameters to pass to the API.
const params = {
  ApplicationId: projectId,
  MessageRequest: {
    Addresses: {
      [destinationNumber]: {
        ChannelType: "SMS",
      },
    },
    MessageConfiguration: {
      SMSMessage: {
        Body: message,
        Keyword: registeredKeyword,
        MessageType: messageType,
        OriginationNumber: originationNumber,
        SenderId: senderId,
      },
    },
  },
};

const run = async () => {
  try {
    const data = await pinClient.send(new SendMessagesCommand(params));
    console.log(
      `Message sent! ${data.MessageResponse.Result[destinationNumber].StatusMessage}`,
    );
  } catch (err) {
    console.log(err);
  }
};
run();
```
+  Untuk detail API, lihat [SendMessages](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/pinpoint/command/SendMessagesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Amazon Polly menggunakan SDK for JavaScript (v3)
<a name="javascript_3_polly_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Polly.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk JavaScript (v3)**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/feedback-sentiment-analyzer). Kutipan berikut menunjukkan bagaimana yang AWS SDK untuk JavaScript digunakan di dalam fungsi Lambda.   

```
import {
  ComprehendClient,
  DetectDominantLanguageCommand,
  DetectSentimentCommand,
} from "@aws-sdk/client-comprehend";

/**
 * Determine the language and sentiment of the extracted text.
 *
 * @param {{ source_text: string}} extractTextOutput
 */
export const handler = async (extractTextOutput) => {
  const comprehendClient = new ComprehendClient({});

  const detectDominantLanguageCommand = new DetectDominantLanguageCommand({
    Text: extractTextOutput.source_text,
  });

  // The source language is required for sentiment analysis and
  // translation in the next step.
  const { Languages } = await comprehendClient.send(
    detectDominantLanguageCommand,
  );

  const languageCode = Languages[0].LanguageCode;

  const detectSentimentCommand = new DetectSentimentCommand({
    Text: extractTextOutput.source_text,
    LanguageCode: languageCode,
  });

  const { Sentiment } = await comprehendClient.send(detectSentimentCommand);

  return {
    sentiment: Sentiment,
    language_code: languageCode,
  };
};
```

```
import {
  DetectDocumentTextCommand,
  TextractClient,
} from "@aws-sdk/client-textract";

/**
 * Fetch the S3 object from the event and analyze it using Amazon Textract.
 *
 * @param {import("@types/aws-lambda").EventBridgeEvent<"Object Created">} eventBridgeS3Event
 */
export const handler = async (eventBridgeS3Event) => {
  const textractClient = new TextractClient();

  const detectDocumentTextCommand = new DetectDocumentTextCommand({
    Document: {
      S3Object: {
        Bucket: eventBridgeS3Event.bucket,
        Name: eventBridgeS3Event.object,
      },
    },
  });

  // Textract returns a list of blocks. A block can be a line, a page, word, etc.
  // Each block also contains geometry of the detected text.
  // For more information on the Block type, see https://docs.aws.amazon.com/textract/latest/dg/API_Block.html.
  const { Blocks } = await textractClient.send(detectDocumentTextCommand);

  // For the purpose of this example, we are only interested in words.
  const extractedWords = Blocks.filter((b) => b.BlockType === "WORD").map(
    (b) => b.Text,
  );

  return extractedWords.join(" ");
};
```

```
import { PollyClient, SynthesizeSpeechCommand } from "@aws-sdk/client-polly";
import { S3Client } from "@aws-sdk/client-s3";
import { Upload } from "@aws-sdk/lib-storage";

/**
 * Synthesize an audio file from text.
 *
 * @param {{ bucket: string, translated_text: string, object: string}} sourceDestinationConfig
 */
export const handler = async (sourceDestinationConfig) => {
  const pollyClient = new PollyClient({});

  const synthesizeSpeechCommand = new SynthesizeSpeechCommand({
    Engine: "neural",
    Text: sourceDestinationConfig.translated_text,
    VoiceId: "Ruth",
    OutputFormat: "mp3",
  });

  const { AudioStream } = await pollyClient.send(synthesizeSpeechCommand);

  const audioKey = `${sourceDestinationConfig.object}.mp3`;

  // Store the audio file in S3.
  const s3Client = new S3Client();
  const upload = new Upload({
    client: s3Client,
    params: {
      Bucket: sourceDestinationConfig.bucket,
      Key: audioKey,
      Body: AudioStream,
      ContentType: "audio/mp3",
    },
  });

  await upload.done();
  return audioKey;
};
```

```
import {
  TranslateClient,
  TranslateTextCommand,
} from "@aws-sdk/client-translate";

/**
 * Translate the extracted text to English.
 *
 * @param {{ extracted_text: string, source_language_code: string}} textAndSourceLanguage
 */
export const handler = async (textAndSourceLanguage) => {
  const translateClient = new TranslateClient({});

  const translateCommand = new TranslateTextCommand({
    SourceLanguageCode: textAndSourceLanguage.source_language_code,
    TargetLanguageCode: "en",
    Text: textAndSourceLanguage.extracted_text,
  });

  const { TranslatedText } = await translateClient.send(translateCommand);

  return { translated_text: TranslatedText };
};
```

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon RDS menggunakan SDK for JavaScript (v3)
<a name="javascript_3_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon RDS.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan AWS SDK untuk JavaScript (v3) untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan sisi depan yang dibangun dengan React.js untuk berinteraksi dengan backend Express Node.js.   
+ Integrasikan aplikasi web React.js dengan Layanan AWS.
+ Cantumkan, tambahkan, dan perbarui butir di tabel Aurora.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/aurora-serverless-app).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan. JavaScript  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
/* 
Node.js code here.
*/
// ES6+ example
import { Signer } from "@aws-sdk/rds-signer";
import mysql from 'mysql2/promise';

async function createAuthToken() {
  // Define connection authentication parameters
  const dbinfo = {

    hostname: process.env.ProxyHostName,
    port: process.env.Port,
    username: process.env.DBUserName,
    region: process.env.AWS_REGION,

  }

  // Create RDS Signer object
  const signer = new Signer(dbinfo);

  // Request authorization token from RDS, specifying the username
  const token = await signer.getAuthToken();
  return token;
}

async function dbOps() {

  // Obtain auth token
  const token = await createAuthToken();
  // Define connection configuration
  let connectionConfig = {
    host: process.env.ProxyHostName,
    user: process.env.DBUserName,
    password: token,
    database: process.env.DBName,
    ssl: 'Amazon RDS'
  }
  // Create the connection to the DB
  const conn = await mysql.createConnection(connectionConfig);
  // Obtain the result of the query
  const [res,] = await conn.execute('select ?+? as sum', [3, 2]);
  return res;

}

export const handler = async (event) => {
  // Execute database flow
  const result = await dbOps();
  // Return result
  return {
    statusCode: 200,
    body: JSON.stringify("The selected sum is: " + result[0].sum)
  }
};
```
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan. TypeScript  

```
import { Signer } from "@aws-sdk/rds-signer";
import mysql from 'mysql2/promise';

// RDS settings
// Using '!' (non-null assertion operator) to tell the TypeScript compiler that the DB settings are not null or undefined,
const proxy_host_name = process.env.PROXY_HOST_NAME!
const port = parseInt(process.env.PORT!)
const db_name = process.env.DB_NAME!
const db_user_name = process.env.DB_USER_NAME!
const aws_region = process.env.AWS_REGION!


async function createAuthToken(): Promise<string> {

    // Create RDS Signer object
    const signer = new Signer({
        hostname: proxy_host_name,
        port: port,
        region: aws_region,
        username: db_user_name
    });

    // Request authorization token from RDS, specifying the username
    const token = await signer.getAuthToken();
    return token;
}

async function dbOps(): Promise<mysql.QueryResult | undefined> {
    try {
        // Obtain auth token
        const token = await createAuthToken();
        const conn = await mysql.createConnection({
            host: proxy_host_name,
            user: db_user_name,
            password: token,
            database: db_name,
            ssl: 'Amazon RDS' // Ensure you have the CA bundle for SSL connection
        });
        const [rows, fields] = await conn.execute('SELECT ? + ? AS sum', [3, 2]);
        console.log('result:', rows);
        return rows;
    }
    catch (err) {
        console.log(err);
    }
}

export const lambdaHandler = async (event: any): Promise<{ statusCode: number; body: string }> => {
    // Execute database flow
    const result = await dbOps();

    // Return error is result is undefined
    if (result == undefined)
        return {
            statusCode: 500,
            body: JSON.stringify(`Error with connection to DB host`)
        }

    // Return result
    return {
        statusCode: 200,
        body: JSON.stringify(`The selected sum is: ${result[0].sum}`)
    };
};
```

# Contoh Layanan Data Amazon RDS menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon RDS Data Service.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan AWS SDK untuk JavaScript (v3) untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan sisi depan yang dibangun dengan React.js untuk berinteraksi dengan backend Express Node.js.   
+ Integrasikan aplikasi web React.js dengan Layanan AWS.
+ Cantumkan, tambahkan, dan perbarui butir di tabel Aurora.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/aurora-serverless-app).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon Redshift menggunakan SDK for JavaScript (v3)
<a name="javascript_3_redshift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Redshift.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="redshift_CreateCluster_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/redshift#code-examples). 
Buat klien.  

```
import { RedshiftClient } from "@aws-sdk/client-redshift";
// Set the AWS Region.
const REGION = "REGION";
//Set the Redshift Service Object
const redshiftClient = new RedshiftClient({ region: REGION });
export { redshiftClient };
```
Buat cluster.  

```
// Import required AWS SDK clients and commands for Node.js
import { CreateClusterCommand } from "@aws-sdk/client-redshift";
import { redshiftClient } from "./libs/redshiftClient.js";

const params = {
  ClusterIdentifier: "CLUSTER_NAME", // Required
  NodeType: "NODE_TYPE", //Required
  MasterUsername: "MASTER_USER_NAME", // Required - must be lowercase
  MasterUserPassword: "MASTER_USER_PASSWORD", // Required - must contain at least one uppercase letter, and one number
  ClusterType: "CLUSTER_TYPE", // Required
  IAMRoleARN: "IAM_ROLE_ARN", // Optional - the ARN of an IAM role with permissions your cluster needs to access other AWS services on your behalf, such as Amazon S3.
  ClusterSubnetGroupName: "CLUSTER_SUBNET_GROUPNAME", //Optional - the name of a cluster subnet group to be associated with this cluster. Defaults to 'default' if not specified.
  DBName: "DATABASE_NAME", // Optional - defaults to 'dev' if not specified
  Port: "PORT_NUMBER", // Optional - defaults to '5439' if not specified
};

const run = async () => {
  try {
    const data = await redshiftClient.send(new CreateClusterCommand(params));
    console.log(
      `Cluster ${data.Cluster.ClusterIdentifier} successfully created`,
    );
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/redshift/command/CreateClusterCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteCluster`
<a name="redshift_DeleteCluster_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/redshift#code-examples). 
Buat klien.  

```
import { RedshiftClient } from "@aws-sdk/client-redshift";
// Set the AWS Region.
const REGION = "REGION";
//Set the Redshift Service Object
const redshiftClient = new RedshiftClient({ region: REGION });
export { redshiftClient };
```
Buat cluster.  

```
// Import required AWS SDK clients and commands for Node.js
import { DeleteClusterCommand } from "@aws-sdk/client-redshift";
import { redshiftClient } from "./libs/redshiftClient.js";

const params = {
  ClusterIdentifier: "CLUSTER_NAME",
  SkipFinalClusterSnapshot: false,
  FinalClusterSnapshotIdentifier: "CLUSTER_SNAPSHOT_ID",
};

const run = async () => {
  try {
    const data = await redshiftClient.send(new DeleteClusterCommand(params));
    console.log("Success, cluster deleted. ", data);
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/redshift/command/DeleteClusterCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeClusters`
<a name="redshift_DescribeClusters_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/redshift#code-examples). 
Buat klien.  

```
import { RedshiftClient } from "@aws-sdk/client-redshift";
// Set the AWS Region.
const REGION = "REGION";
//Set the Redshift Service Object
const redshiftClient = new RedshiftClient({ region: REGION });
export { redshiftClient };
```
Jelaskan cluster Anda.  

```
// Import required AWS SDK clients and commands for Node.js
import { DescribeClustersCommand } from "@aws-sdk/client-redshift";
import { redshiftClient } from "./libs/redshiftClient.js";

const params = {
  ClusterIdentifier: "CLUSTER_NAME",
};

const run = async () => {
  try {
    const data = await redshiftClient.send(new DescribeClustersCommand(params));
    console.log("Success", data);
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/redshift/command/DescribeClustersCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ModifyCluster`
<a name="redshift_ModifyCluster_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyCluster`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/redshift#code-examples). 
Buat klien.  

```
import { RedshiftClient } from "@aws-sdk/client-redshift";
// Set the AWS Region.
const REGION = "REGION";
//Set the Redshift Service Object
const redshiftClient = new RedshiftClient({ region: REGION });
export { redshiftClient };
```
Memodifikasi cluster.  

```
// Import required AWS SDK clients and commands for Node.js
import { ModifyClusterCommand } from "@aws-sdk/client-redshift";
import { redshiftClient } from "./libs/redshiftClient.js";

// Set the parameters
const params = {
  ClusterIdentifier: "CLUSTER_NAME",
  MasterUserPassword: "NEW_MASTER_USER_PASSWORD",
};

const run = async () => {
  try {
    const data = await redshiftClient.send(new ModifyClusterCommand(params));
    console.log("Success was modified.", data);
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk detail API, lihat [ModifyCluster](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/redshift/command/ModifyClusterCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Rekognition Amazon menggunakan SDK JavaScript for (v3)
<a name="javascript_3_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Rekognition.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo-asset-manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Rekognition dengan membuat aplikasi AWS SDK untuk JavaScript yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang terletak di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
Pelajari cara:  
+ Membuat pengguna yang tidak diautentikasi menggunakan Amazon Cognito.
+ Menganalisi gambar untuk objek menggunakan Amazon Rekognition.
+ Memverifikasi alamat email untuk Amazon SES.
+ Mengirim notifikasi email menggunakan Amazon SES.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

# Contoh Amazon S3 menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 

```
import {
  paginateListBuckets,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * List the S3 buckets in your configured AWS account.
 */
export const helloS3 = async () => {
  // When no region or credentials are provided, the SDK will use the
  // region and credentials from the local AWS config.
  const client = new S3Client({});

  try {
    /**
     * @type { import("@aws-sdk/client-s3").Bucket[] }
     */
    const buckets = [];

    for await (const page of paginateListBuckets({ client }, {})) {
      buckets.push(...page.Buckets);
    }
    console.log("Buckets: ");
    console.log(buckets.map((bucket) => bucket.Name).join("\n"));
    return buckets;
  } catch (caught) {
    // ListBuckets does not throw any modeled errors. Any error caught
    // here will be something generic like `AccessDenied`.
    if (caught instanceof S3ServiceException) {
      console.error(`${caught.name}: ${caught.message}`);
    } else {
      // Something besides S3 failed.
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/ListBucketsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Pertama, impor semua modul yang diperlukan.  

```
// Used to check if currently running file is this file.
import { fileURLToPath } from "node:url";
import { readdirSync, readFileSync, writeFileSync } from "node:fs";

// Local helper utils.
import { dirnameFromMetaUrl } from "@aws-doc-sdk-examples/lib/utils/util-fs.js";
import { Prompter } from "@aws-doc-sdk-examples/lib/prompter.js";
import { wrapText } from "@aws-doc-sdk-examples/lib/utils/util-string.js";

import {
  S3Client,
  CreateBucketCommand,
  PutObjectCommand,
  ListObjectsCommand,
  CopyObjectCommand,
  GetObjectCommand,
  DeleteObjectsCommand,
  DeleteBucketCommand,
} from "@aws-sdk/client-s3";
```
Impor sebelumnya merujuk beberapa utilitas pembantu. Utilitas ini bersifat lokal ke GitHub repositori yang ditautkan di awal bagian ini. Untuk referensi, lihat implementasi utilitas tersebut berikut ini.  

```
export const dirnameFromMetaUrl = (metaUrl) =>
  fileURLToPath(new URL(".", metaUrl));

import { select, input, confirm, checkbox, password } from "@inquirer/prompts";

export class Prompter {
  /**
   * @param {{ message: string, choices: { name: string, value: string }[]}} options
   */
  select(options) {
    return select(options);
  }

  /**
   * @param {{ message: string }} options
   */
  input(options) {
    return input(options);
  }

  /**
   * @param {{ message: string }} options
   */
  password(options) {
    return password({ ...options, mask: true });
  }

  /**
   * @param {string} prompt
   */
  checkContinue = async (prompt = "") => {
    const prefix = prompt && `${prompt} `;
    const ok = await this.confirm({
      message: `${prefix}Continue?`,
    });
    if (!ok) throw new Error("Exiting...");
  };

  /**
   * @param {{ message: string }} options
   */
  confirm(options) {
    return confirm(options);
  }

  /**
   * @param {{ message: string, choices: { name: string, value: string }[]}} options
   */
  checkbox(options) {
    return checkbox(options);
  }
}

export const wrapText = (text, char = "=") => {
  const rule = char.repeat(80);
  return `${rule}\n    ${text}\n${rule}\n`;
};
```
Objek disimpan dalam 'ember'. Mari kita tentukan fungsi untuk membuat bucket baru.  

```
export const createBucket = async () => {
  const bucketName = await prompter.input({
    message: "Enter a bucket name. Bucket names must be globally unique:",
  });
  const command = new CreateBucketCommand({ Bucket: bucketName });
  await s3Client.send(command);
  console.log("Bucket created successfully.\n");
  return bucketName;
};
```
Bucket berisi 'objek'. Fungsi ini mengunggah isi direktori ke bucket Anda sebagai objek.  

```
export const uploadFilesToBucket = async ({ bucketName, folderPath }) => {
  console.log(`Uploading files from ${folderPath}\n`);
  const keys = readdirSync(folderPath);
  const files = keys.map((key) => {
    const filePath = `${folderPath}/${key}`;
    const fileContent = readFileSync(filePath);
    return {
      Key: key,
      Body: fileContent,
    };
  });

  for (const file of files) {
    await s3Client.send(
      new PutObjectCommand({
        Bucket: bucketName,
        Body: file.Body,
        Key: file.Key,
      }),
    );
    console.log(`${file.Key} uploaded successfully.`);
  }
};
```
Setelah mengunggah objek, pastikan bahwa objek tersebut diunggah dengan benar. Anda dapat menggunakannya ListObjects untuk itu. Anda akan menggunakan properti 'Kunci', tetapi ada juga properti lain yang berguna dalam respons.  

```
export const listFilesInBucket = async ({ bucketName }) => {
  const command = new ListObjectsCommand({ Bucket: bucketName });
  const { Contents } = await s3Client.send(command);
  const contentsList = Contents.map((c) => ` • ${c.Key}`).join("\n");
  console.log("\nHere's a list of files in the bucket:");
  console.log(`${contentsList}\n`);
};
```
Terkadang Anda perlu menyalin objek dari satu bucket ke bucket lainnya. Gunakan CopyObject perintah untuk itu.  

```
export const copyFileFromBucket = async ({ destinationBucket }) => {
  const proceed = await prompter.confirm({
    message: "Would you like to copy an object from another bucket?",
  });

  if (!proceed) {
    return;
  }
  const copy = async () => {
    try {
      const sourceBucket = await prompter.input({
        message: "Enter source bucket name:",
      });
      const sourceKey = await prompter.input({
        message: "Enter source key:",
      });
      const destinationKey = await prompter.input({
        message: "Enter destination key:",
      });

      const command = new CopyObjectCommand({
        Bucket: destinationBucket,
        CopySource: `${sourceBucket}/${sourceKey}`,
        Key: destinationKey,
      });
      await s3Client.send(command);
      await copyFileFromBucket({ destinationBucket });
    } catch (err) {
      console.error("Copy error.");
      console.error(err);
      const retryAnswer = await prompter.confirm({ message: "Try again?" });
      if (retryAnswer) {
        await copy();
      }
    }
  };
  await copy();
};
```
Tidak ada metode SDK yang bisa digunakan untuk mendapatkan beberapa objek dari sebuah bucket. Tetapi, Anda akan membuat daftar objek yang akan diunduh dan mengulanginya.  

```
export const downloadFilesFromBucket = async ({ bucketName }) => {
  const { Contents } = await s3Client.send(
    new ListObjectsCommand({ Bucket: bucketName }),
  );
  const path = await prompter.input({
    message: "Enter destination path for files:",
  });

  for (const content of Contents) {
    const obj = await s3Client.send(
      new GetObjectCommand({ Bucket: bucketName, Key: content.Key }),
    );
    writeFileSync(
      `${path}/${content.Key}`,
      await obj.Body.transformToByteArray(),
    );
  }
  console.log("Files downloaded successfully.\n");
};
```
Saatnya membersihkan sumber daya Anda. Bucket harus kosong sebelum dapat dihapus. Kedua fungsi ini mengosongkan dan menghapus bucket.  

```
export const emptyBucket = async ({ bucketName }) => {
  const listObjectsCommand = new ListObjectsCommand({ Bucket: bucketName });
  const { Contents } = await s3Client.send(listObjectsCommand);
  const keys = Contents.map((c) => c.Key);

  const deleteObjectsCommand = new DeleteObjectsCommand({
    Bucket: bucketName,
    Delete: { Objects: keys.map((key) => ({ Key: key })) },
  });
  await s3Client.send(deleteObjectsCommand);
  console.log(`${bucketName} emptied successfully.\n`);
};

export const deleteBucket = async ({ bucketName }) => {
  const command = new DeleteBucketCommand({ Bucket: bucketName });
  await s3Client.send(command);
  console.log(`${bucketName} deleted successfully.\n`);
};
```
Fungsi 'utama' menyatukan semuanya. Jika Anda menjalankan file ini secara langsung, fungsi utama akan dipanggil.  

```
const main = async () => {
  const OBJECT_DIRECTORY = `${dirnameFromMetaUrl(
    import.meta.url,
  )}../../../../resources/sample_files/.sample_media`;

  try {
    console.log(wrapText("Welcome to the Amazon S3 getting started example."));
    console.log("Let's create a bucket.");
    const bucketName = await createBucket();
    await prompter.confirm({ message: continueMessage });

    console.log(wrapText("File upload."));
    console.log(
      "I have some default files ready to go. You can edit the source code to provide your own.",
    );
    await uploadFilesToBucket({
      bucketName,
      folderPath: OBJECT_DIRECTORY,
    });

    await listFilesInBucket({ bucketName });
    await prompter.confirm({ message: continueMessage });

    console.log(wrapText("Copy files."));
    await copyFileFromBucket({ destinationBucket: bucketName });
    await listFilesInBucket({ bucketName });
    await prompter.confirm({ message: continueMessage });

    console.log(wrapText("Download files."));
    await downloadFilesFromBucket({ bucketName });

    console.log(wrapText("Clean up."));
    await emptyBucket({ bucketName });
    await deleteBucket({ bucketName });
  } catch (err) {
    console.error(err);
  }
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CopyObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/CopyObjectCommand)
  + [CreateBucket](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/CreateBucketCommand)
  + [DeleteBucket](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/DeleteBucketCommand)
  + [DeleteObjects](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/DeleteObjectsCommand)
  + [GetObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectCommand)
  + [ListObjectsV2](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/ListObjectsV2Command)
  + [PutObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectCommand)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Salin objek.  

```
import {
  S3Client,
  CopyObjectCommand,
  ObjectNotInActiveTierError,
  waitUntilObjectExists,
} from "@aws-sdk/client-s3";

/**
 * Copy an S3 object from one bucket to another.
 *
 * @param {{
 *   sourceBucket: string,
 *   sourceKey: string,
 *   destinationBucket: string,
 *   destinationKey: string }} config
 */
export const main = async ({
  sourceBucket,
  sourceKey,
  destinationBucket,
  destinationKey,
}) => {
  const client = new S3Client({});

  try {
    await client.send(
      new CopyObjectCommand({
        CopySource: `${sourceBucket}/${sourceKey}`,
        Bucket: destinationBucket,
        Key: destinationKey,
      }),
    );
    await waitUntilObjectExists(
      { client },
      { Bucket: destinationBucket, Key: destinationKey },
    );
    console.log(
      `Successfully copied ${sourceBucket}/${sourceKey} to ${destinationBucket}/${destinationKey}`,
    );
  } catch (caught) {
    if (caught instanceof ObjectNotInActiveTierError) {
      console.error(
        `Could not copy ${sourceKey} from ${sourceBucket}. Object is not in the active tier.`,
      );
    } else {
      throw caught;
    }
  }
};
```
Salin objek dengan syarat ETag tidak cocok dengan yang disediakan.  

```
import {
  CopyObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

// Optionally edit the default key name of the copied object in 'object_name.json'
import data from "../scenarios/conditional-requests/object_name.json" assert {
  type: "json",
};

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ sourceBucketName: string, sourceKeyName: string, destinationBucketName: string, eTag: string }}
 */
export const main = async ({
  sourceBucketName,
  sourceKeyName,
  destinationBucketName,
  eTag,
}) => {
  const client = new S3Client({});
  const name = data.name;
  try {
    const response = await client.send(
      new CopyObjectCommand({
        CopySource: `${sourceBucketName}/${sourceKeyName}`,
        Bucket: destinationBucketName,
        Key: `${name}${sourceKeyName}`,
        CopySourceIfMatch: eTag,
      }),
    );
    console.log("Successfully copied object to bucket.");
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while copying object "${sourceKeyName}" from "${sourceBucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Unable to copy object "${sourceKeyName}" to bucket "${sourceBucketName}":  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    sourceBucketName: {
      type: "string",
      required: true,
    },
    sourceKeyName: {
      type: "string",
      required: true,
    },
    destinationBucketName: {
      type: "string",
      required: true,
    },
    eTag: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
Salin objek dengan syarat ETag tidak cocok dengan yang disediakan.  

```
import {
  CopyObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

// Optionally edit the default key name of the copied object in 'object_name.json'
import data from "../scenarios/conditional-requests/object_name.json" assert {
  type: "json",
};

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ sourceBucketName: string, sourceKeyName: string, destinationBucketName: string, eTag: string }}
 */
export const main = async ({
  sourceBucketName,
  sourceKeyName,
  destinationBucketName,
  eTag,
}) => {
  const client = new S3Client({});
  const name = data.name;

  try {
    const response = await client.send(
      new CopyObjectCommand({
        CopySource: `${sourceBucketName}/${sourceKeyName}`,
        Bucket: destinationBucketName,
        Key: `${name}${sourceKeyName}`,
        CopySourceIfNoneMatch: eTag,
      }),
    );
    console.log("Successfully copied object to bucket.");
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while copying object "${sourceKeyName}" from "${sourceBucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Unable to copy object "${sourceKeyName}" to bucket "${sourceBucketName}":  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    sourceBucketName: {
      type: "string",
      required: true,
    },
    sourceKeyName: {
      type: "string",
      required: true,
    },
    destinationBucketName: {
      type: "string",
      required: true,
    },
    eTag: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
Salin objek menggunakan dengan syarat telah dibuat atau dimodifikasi dalam jangka waktu tertentu.  

```
import {
  CopyObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

// Optionally edit the default key name of the copied object in 'object_name.json'
import data from "../scenarios/conditional-requests/object_name.json" assert {
  type: "json",
};

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ sourceBucketName: string, sourceKeyName: string, destinationBucketName: string }}
 */
export const main = async ({
  sourceBucketName,
  sourceKeyName,
  destinationBucketName,
}) => {
  const date = new Date();
  date.setDate(date.getDate() - 1);

  const name = data.name;
  const client = new S3Client({});
  const copySource = `${sourceBucketName}/${sourceKeyName}`;
  const copiedKey = name + sourceKeyName;

  try {
    const response = await client.send(
      new CopyObjectCommand({
        CopySource: copySource,
        Bucket: destinationBucketName,
        Key: copiedKey,
        CopySourceIfModifiedSince: date,
      }),
    );
    console.log("Successfully copied object to bucket.");
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while copying object "${sourceKeyName}" from "${sourceBucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while copying object from ${sourceBucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    sourceBucketName: {
      type: "string",
      required: true,
    },
    sourceKeyName: {
      type: "string",
      required: true,
    },
    destinationBucketName: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
Salin objek menggunakan kondisi belum dibuat atau dimodifikasi dalam jangka waktu tertentu.  

```
import {
  CopyObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

// Optionally edit the default key name of the copied object in 'object_name.json'
import data from "../scenarios/conditional-requests/object_name.json" assert {
  type: "json",
};

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ sourceBucketName: string, sourceKeyName: string, destinationBucketName: string }}
 */
export const main = async ({
  sourceBucketName,
  sourceKeyName,
  destinationBucketName,
}) => {
  const date = new Date();
  date.setDate(date.getDate() - 1);
  const client = new S3Client({});
  const name = data.name;
  const copiedKey = name + sourceKeyName;
  const copySource = `${sourceBucketName}/${sourceKeyName}`;

  try {
    const response = await client.send(
      new CopyObjectCommand({
        CopySource: copySource,
        Bucket: destinationBucketName,
        Key: copiedKey,
        CopySourceIfUnmodifiedSince: date,
      }),
    );
    console.log("Successfully copied object to bucket.");
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while copying object "${sourceKeyName}" from "${sourceBucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while copying object from ${sourceBucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    sourceBucketName: {
      type: "string",
      required: true,
    },
    sourceKeyName: {
      type: "string",
      required: true,
    },
    destinationBucketName: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/CopyObjectCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateBucket`
<a name="s3_CreateBucket_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Buat bucket.  

```
import {
  BucketAlreadyExists,
  BucketAlreadyOwnedByYou,
  CreateBucketCommand,
  S3Client,
  waitUntilBucketExists,
} from "@aws-sdk/client-s3";

/**
 * Create an Amazon S3 bucket.
 * @param {{ bucketName: string }} config
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});

  try {
    const { Location } = await client.send(
      new CreateBucketCommand({
        // The name of the bucket. Bucket names are unique and have several other constraints.
        // See https://docs.aws.amazon.com/AmazonS3/latest/userguide/bucketnamingrules.html
        Bucket: bucketName,
      }),
    );
    await waitUntilBucketExists({ client }, { Bucket: bucketName });
    console.log(`Bucket created with location ${Location}`);
  } catch (caught) {
    if (caught instanceof BucketAlreadyExists) {
      console.error(
        `The bucket "${bucketName}" already exists in another AWS account. Bucket names must be globally unique.`,
      );
    }
    // WARNING: If you try to create a bucket in the North Virginia region,
    // and you already own a bucket in that region with the same name, this
    // error will not be thrown. Instead, the call will return successfully
    // and the ACL on that bucket will be reset.
    else if (caught instanceof BucketAlreadyOwnedByYou) {
      console.error(
        `The bucket "${bucketName}" already exists in this AWS account.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-creating-buckets.html#s3-example-creating-buckets-new-bucket-2). 
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/CreateBucketCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Hapus bucket.  

```
import {
  DeleteBucketCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Delete an Amazon S3 bucket.
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});
  const command = new DeleteBucketCommand({
    Bucket: bucketName,
  });

  try {
    await client.send(command);
    console.log("Bucket was deleted.");
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while deleting bucket. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while deleting the bucket. ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-creating-buckets.html#s3-example-deleting-buckets). 
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/DeleteBucketCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteBucketPolicy`
<a name="s3_DeleteBucketPolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketPolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Hapus kebijakan bucket.  

```
import {
  DeleteBucketPolicyCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Remove the policy from an Amazon S3 bucket.
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});

  try {
    await client.send(
      new DeleteBucketPolicyCommand({
        Bucket: bucketName,
      }),
    );
    console.log(`Bucket policy deleted from "${bucketName}".`);
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while deleting policy from ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while deleting policy from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-bucket-policies.html#s3-example-bucket-policies-delete-policy). 
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/DeleteBucketPolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteBucketWebsite`
<a name="s3_DeleteBucketWebsite_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketWebsite`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Hapus konfigurasi situs web dari bucket.  

```
import {
  DeleteBucketWebsiteCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Remove the website configuration for a bucket.
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});

  try {
    await client.send(
      new DeleteBucketWebsiteCommand({
        Bucket: bucketName,
      }),
    );
    // The response code will be successful for both removed configurations and
    // configurations that did not exist in the first place.
    console.log(
      `The bucket "${bucketName}" is not longer configured as a website, or it never was.`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while removing website configuration from ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while removing website configuration from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-static-web-host.html#s3-example-static-web-host-delete-website). 
+  Untuk detail API, lihat [DeleteBucketWebsite](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/DeleteBucketWebsiteCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteObject`
<a name="s3_DeleteObject_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Hapus objek.  

```
import {
  DeleteObjectCommand,
  S3Client,
  S3ServiceException,
  waitUntilObjectNotExists,
} from "@aws-sdk/client-s3";

/**
 * Delete one object from an Amazon S3 bucket.
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  const client = new S3Client({});

  try {
    await client.send(
      new DeleteObjectCommand({
        Bucket: bucketName,
        Key: key,
      }),
    );
    await waitUntilObjectNotExists(
      { client },
      { Bucket: bucketName, Key: key },
    );
    // A successful delete, or a delete for a non-existent object, both return
    // a 204 response code.
    console.log(
      `The object "${key}" from bucket "${bucketName}" was deleted, or it didn't exist.`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while deleting object from ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while deleting object from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/DeleteObjectCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Hapus beberapa objek.  

```
import {
  DeleteObjectsCommand,
  S3Client,
  S3ServiceException,
  waitUntilObjectNotExists,
} from "@aws-sdk/client-s3";

/**
 * Delete multiple objects from an S3 bucket.
 * @param {{ bucketName: string, keys: string[] }}
 */
export const main = async ({ bucketName, keys }) => {
  const client = new S3Client({});

  try {
    const { Deleted } = await client.send(
      new DeleteObjectsCommand({
        Bucket: bucketName,
        Delete: {
          Objects: keys.map((k) => ({ Key: k })),
        },
      }),
    );
    for (const key in keys) {
      await waitUntilObjectNotExists(
        { client },
        { Bucket: bucketName, Key: key },
      );
    }
    console.log(
      `Successfully deleted ${Deleted.length} objects from S3 bucket. Deleted objects:`,
    );
    console.log(Deleted.map((d) => ` • ${d.Key}`).join("\n"));
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while deleting objects from ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while deleting objects from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/DeleteObjectsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetBucketAcl`
<a name="s3_GetBucketAcl_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketAcl`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Dapatkan izin ACL.  

```
import {
  GetBucketAclCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Retrieves the Access Control List (ACL) for an S3 bucket.
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});

  try {
    const response = await client.send(
      new GetBucketAclCommand({
        Bucket: bucketName,
      }),
    );
    console.log(`ACL for bucket "${bucketName}":`);
    console.log(JSON.stringify(response, null, 2));
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while getting ACL for ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting ACL for ${bucketName}. ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-access-permissions.html#s3-example-access-permissions-get-acl). 
+  Untuk detail API, lihat [GetBucketAcl](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetBucketAclCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetBucketCors`
<a name="s3_GetBucketCors_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketCors`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Dapatkan kebijakan CORS untuk bucket.  

```
import {
  GetBucketCorsCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Log the Cross-Origin Resource Sharing (CORS) configuration information
 * set for the bucket.
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});
  const command = new GetBucketCorsCommand({
    Bucket: bucketName,
  });

  try {
    const { CORSRules } = await client.send(command);
    console.log(JSON.stringify(CORSRules));
    CORSRules.forEach((cr, i) => {
      console.log(
        `\nCORSRule ${i + 1}`,
        `\n${"-".repeat(10)}`,
        `\nAllowedHeaders: ${cr.AllowedHeaders}`,
        `\nAllowedMethods: ${cr.AllowedMethods}`,
        `\nAllowedOrigins: ${cr.AllowedOrigins}`,
        `\nExposeHeaders: ${cr.ExposeHeaders}`,
        `\nMaxAgeSeconds: ${cr.MaxAgeSeconds}`,
      );
    });
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while getting bucket CORS rules for ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting bucket CORS rules for ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-configuring-buckets.html#s3-example-configuring-buckets-get-cors). 
+  Untuk detail API, lihat [GetBucketCors](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetBucketCorsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetBucketPolicy`
<a name="s3_GetBucketPolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketPolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Dapatkan kebijakan bucket.  

```
import {
  GetBucketPolicyCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Logs the policy for a specified bucket.
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});

  try {
    const { Policy } = await client.send(
      new GetBucketPolicyCommand({
        Bucket: bucketName,
      }),
    );
    console.log(`Policy for "${bucketName}":\n${Policy}`);
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while getting policy from ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting policy from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-bucket-policies.html#s3-example-bucket-policies-get-policy). 
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetBucketPolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetBucketWebsite`
<a name="s3_GetBucketWebsite_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketWebsite`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Dapatkan konfigurasi situs web.  

```
import {
  GetBucketWebsiteCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Log the website configuration for a bucket.
 * @param {{ bucketName }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});

  try {
    const response = await client.send(
      new GetBucketWebsiteCommand({
        Bucket: bucketName,
      }),
    );
    console.log(
      `Your bucket is set up to host a website with the following configuration:\n${JSON.stringify(response, null, 2)}`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchWebsiteConfiguration"
    ) {
      console.error(
        `Error from S3 while getting website configuration for ${bucketName}. The bucket isn't configured as a website.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting website configuration for ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [GetBucketWebsite](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetBucketWebsiteCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetObject`
<a name="s3_GetObject_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Unduh objek tersebut.  

```
import {
  GetObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  const client = new S3Client({});

  try {
    const response = await client.send(
      new GetObjectCommand({
        Bucket: bucketName,
        Key: key,
      }),
    );
    // The Body object also has 'transformToByteArray' and 'transformToWebStream' methods.
    const str = await response.Body.transformToString();
    console.log(str);
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while getting object "${key}" from "${bucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting object from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
Unduh objek dengan syarat ETag cocok dengan yang disediakan.  

```
import {
  GetObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ bucketName: string, key: string, eTag: string }}
 */
export const main = async ({ bucketName, key, eTag }) => {
  const client = new S3Client({});

  try {
    const response = await client.send(
      new GetObjectCommand({
        Bucket: bucketName,
        Key: key,
        IfMatch: eTag,
      }),
    );
    // The Body object also has 'transformToByteArray' and 'transformToWebStream' methods.
    const str = await response.Body.transformToString();
    console.log("Success. Here is text of the file:", str);
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while getting object "${key}" from "${bucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting object from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    key: {
      type: "string",
      required: true,
    },
    eTag: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
Unduh objek dengan syarat ETag tidak cocok dengan yang disediakan.  

```
import {
  GetObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ bucketName: string, key: string, eTag: string }}
 */
export const main = async ({ bucketName, key, eTag }) => {
  const client = new S3Client({});

  try {
    const response = await client.send(
      new GetObjectCommand({
        Bucket: bucketName,
        Key: key,
        IfNoneMatch: eTag,
      }),
    );
    // The Body object also has 'transformToByteArray' and 'transformToWebStream' methods.
    const str = await response.Body.transformToString();
    console.log("Success. Here is text of the file:", str);
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while getting object "${key}" from "${bucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting object from ${bucketName}. ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    key: {
      type: "string",
      required: true,
    },
    eTag: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
Unduh objek menggunakan dengan syarat telah dibuat atau dimodifikasi dalam jangka waktu tertentu.  

```
import {
  GetObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  const client = new S3Client({});
  const date = new Date();
  date.setDate(date.getDate() - 1);
  try {
    const response = await client.send(
      new GetObjectCommand({
        Bucket: bucketName,
        Key: key,
        IfModifiedSince: date,
      }),
    );
    // The Body object also has 'transformToByteArray' and 'transformToWebStream' methods.
    const str = await response.Body.transformToString();
    console.log("Success. Here is text of the file:", str);
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while getting object "${key}" from "${bucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting object from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    key: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
Unduh objek menggunakan dengan syarat belum dibuat atau dimodifikasi dalam jangka waktu tertentu.  

```
import {
  GetObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  const client = new S3Client({});
  const date = new Date();
  date.setDate(date.getDate() - 1);
  try {
    const response = await client.send(
      new GetObjectCommand({
        Bucket: bucketName,
        Key: key,
        IfUnmodifiedSince: date,
      }),
    );
    // The Body object also has 'transformToByteArray' and 'transformToWebStream' methods.
    const str = await response.Body.transformToString();
    console.log("Success. Here is text of the file:", str);
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while getting object "${key}" from "${bucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting object from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    key: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-creating-buckets.html#s3-example-creating-buckets-get-object). 
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetObjectLegalHold`
<a name="s3_GetObjectLegalHold_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLegalHold`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 

```
import {
  GetObjectLegalHoldCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Get an object's current legal hold status.
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  const client = new S3Client({});

  try {
    const response = await client.send(
      new GetObjectLegalHoldCommand({
        Bucket: bucketName,
        Key: key,
        // Optionally, you can provide additional parameters
        // ExpectedBucketOwner: "<account ID that is expected to own the bucket>",
        // VersionId: "<the specific version id of the object to check>",
      }),
    );
    console.log(`Legal Hold Status: ${response.LegalHold.Status}`);
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while getting legal hold status for ${key} in ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting legal hold status for ${key} in ${bucketName} from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    key: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk detail API, lihat [GetObjectLegalHold](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectLegalHoldCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetObjectLockConfiguration`
<a name="s3_GetObjectLockConfiguration_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLockConfiguration`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 

```
import {
  GetObjectLockConfigurationCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Gets the Object Lock configuration for a bucket.
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});

  try {
    const { ObjectLockConfiguration } = await client.send(
      new GetObjectLockConfigurationCommand({
        Bucket: bucketName,
        // Optionally, you can provide additional parameters
        // ExpectedBucketOwner: "<account ID that is expected to own the bucket>",
      }),
    );
    console.log(
      `Object Lock Configuration:\n${JSON.stringify(ObjectLockConfiguration)}`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while getting object lock configuration for ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting object lock configuration for ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectLockConfigurationCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetObjectRetention`
<a name="s3_GetObjectRetention_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectRetention`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 

```
import {
  GetObjectRetentionCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Log the "RetainUntilDate" for an object in an S3 bucket.
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  const client = new S3Client({});

  try {
    const { Retention } = await client.send(
      new GetObjectRetentionCommand({
        Bucket: bucketName,
        Key: key,
      }),
    );
    console.log(
      `${key} in ${bucketName} will be retained until ${Retention.RetainUntilDate}`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchObjectLockConfiguration"
    ) {
      console.warn(
        `The object "${key}" in the bucket "${bucketName}" does not have an ObjectLock configuration.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting object retention settings for "${bucketName}".  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    key: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk detail API, lihat [GetObjectRetention](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectRetentionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListBuckets`
<a name="s3_ListBuckets_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Buat daftar bucket.  

```
import {
  paginateListBuckets,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * List the Amazon S3 buckets in your account.
 */
export const main = async () => {
  const client = new S3Client({});
  /** @type {?import('@aws-sdk/client-s3').Owner} */
  let Owner = null;

  /** @type {import('@aws-sdk/client-s3').Bucket[]} */
  const Buckets = [];

  try {
    const paginator = paginateListBuckets({ client }, {});

    for await (const page of paginator) {
      if (!Owner) {
        Owner = page.Owner;
      }

      Buckets.push(...page.Buckets);
    }

    console.log(
      `${Owner.DisplayName} owns ${Buckets.length} bucket${
        Buckets.length === 1 ? "" : "s"
      }:`,
    );
    console.log(`${Buckets.map((b) => ` • ${b.Name}`).join("\n")}`);
  } catch (caught) {
    if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while listing buckets.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-creating-buckets.html#s3-example-creating-buckets-list-buckets). 
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/ListBucketsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Buat daftar semua objek di bucket Anda. Jika ada lebih dari satu objek, IsTruncated dan NextContinuationToken akan digunakan untuk iterasi atas daftar lengkap.  

```
import {
  S3Client,
  S3ServiceException,
  // This command supersedes the ListObjectsCommand and is the recommended way to list objects.
  paginateListObjectsV2,
} from "@aws-sdk/client-s3";

/**
 * Log all of the object keys in a bucket.
 * @param {{ bucketName: string, pageSize: string }}
 */
export const main = async ({ bucketName, pageSize }) => {
  const client = new S3Client({});
  /** @type {string[][]} */
  const objects = [];
  try {
    const paginator = paginateListObjectsV2(
      { client, /* Max items per page */ pageSize: Number.parseInt(pageSize) },
      { Bucket: bucketName },
    );

    for await (const page of paginator) {
      objects.push(page.Contents.map((o) => o.Key));
    }
    objects.forEach((objectList, pageNum) => {
      console.log(
        `Page ${pageNum + 1}\n------\n${objectList.map((o) => `• ${o}`).join("\n")}\n`,
      );
    });
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while listing objects for "${bucketName}". The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while listing objects for "${bucketName}".  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/ListObjectsV2Command) di *Referensi AWS SDK untuk JavaScript API*. 

### `PutBucketAcl`
<a name="s3_PutBucketAcl_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketAcl`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Tempatkan bucket ACL.  

```
import {
  PutBucketAclCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Grant read access to a user using their canonical AWS account ID.
 *
 * Most Amazon S3 use cases don't require the use of access control lists (ACLs).
 * We recommend that you disable ACLs, except in unusual circumstances where
 * you need to control access for each object individually. Consider a policy instead.
 * For more information see https://docs.aws.amazon.com/AmazonS3/latest/userguide/bucket-policies.html.
 * @param {{ bucketName: string, granteeCanonicalUserId: string, ownerCanonicalUserId }}
 */
export const main = async ({
  bucketName,
  granteeCanonicalUserId,
  ownerCanonicalUserId,
}) => {
  const client = new S3Client({});
  const command = new PutBucketAclCommand({
    Bucket: bucketName,
    AccessControlPolicy: {
      Grants: [
        {
          Grantee: {
            // The canonical ID of the user. This ID is an obfuscated form of your AWS account number.
            // It's unique to Amazon S3 and can't be found elsewhere.
            // For more information, see https://docs.aws.amazon.com/AmazonS3/latest/userguide/finding-canonical-user-id.html.
            ID: granteeCanonicalUserId,
            Type: "CanonicalUser",
          },
          // One of FULL_CONTROL | READ | WRITE | READ_ACP | WRITE_ACP
          // https://docs.aws.amazon.com/AmazonS3/latest/API/API_Grant.html#AmazonS3-Type-Grant-Permission
          Permission: "READ",
        },
      ],
      Owner: {
        ID: ownerCanonicalUserId,
      },
    },
  });

  try {
    await client.send(command);
    console.log(`Granted READ access to ${bucketName}`);
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while setting ACL for bucket ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while setting ACL for bucket ${bucketName}. ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-access-permissions.html#s3-example-access-permissions-put-acl). 
+  Untuk detail API, lihat [PutBucketAcl](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutBucketAclCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutBucketCors`
<a name="s3_PutBucketCors_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketCors`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Tambahkan aturan CORS.  

```
import {
  PutBucketCorsCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Allows cross-origin requests to an S3 bucket by setting the CORS configuration.
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});

  try {
    await client.send(
      new PutBucketCorsCommand({
        Bucket: bucketName,
        CORSConfiguration: {
          CORSRules: [
            {
              // Allow all headers to be sent to this bucket.
              AllowedHeaders: ["*"],
              // Allow only GET and PUT methods to be sent to this bucket.
              AllowedMethods: ["GET", "PUT"],
              // Allow only requests from the specified origin.
              AllowedOrigins: ["https://www.example.com"],
              // Allow the entity tag (ETag) header to be returned in the response. The ETag header
              // The entity tag represents a specific version of the object. The ETag reflects
              // changes only to the contents of an object, not its metadata.
              ExposeHeaders: ["ETag"],
              // How long the requesting browser should cache the preflight response. After
              // this time, the preflight request will have to be made again.
              MaxAgeSeconds: 3600,
            },
          ],
        },
      }),
    );
    console.log(`Successfully set CORS rules for bucket: ${bucketName}`);
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while setting CORS rules for ${bucketName}. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while setting CORS rules for ${bucketName}. ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-configuring-buckets.html#s3-example-configuring-buckets-put-cors). 
+  Untuk detail API, lihat [PutBucketCors](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutBucketCorsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutBucketPolicy`
<a name="s3_PutBucketPolicy_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketPolicy`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Tambahkan kebijakan.  

```
import {
  PutBucketPolicyCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Grant an IAM role GetObject access to all of the objects
 * in the provided bucket.
 * @param {{ bucketName: string, iamRoleArn: string }}
 */
export const main = async ({ bucketName, iamRoleArn }) => {
  const client = new S3Client({});
  const command = new PutBucketPolicyCommand({
    // This is a resource-based policy. For more information on resource-based policies,
    // see https://docs.aws.amazon.com/IAM/latest/UserGuide/access_policies.html#policies_resource-based.
    Policy: JSON.stringify({
      Version: "2012-10-17",
      Statement: [
        {
          Effect: "Allow",
          Principal: {
            AWS: iamRoleArn,
          },
          Action: "s3:GetObject",
          Resource: `arn:aws:s3:::${bucketName}/*`,
        },
      ],
    }),
    // Apply the preceding policy to this bucket.
    Bucket: bucketName,
  });

  try {
    await client.send(command);
    console.log(
      `GetObject access to the bucket "${bucketName}" was granted to the provided IAM role.`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "MalformedPolicy"
    ) {
      console.error(
        `Error from S3 while setting the bucket policy for the bucket "${bucketName}". The policy was malformed.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while setting the bucket policy for the bucket "${bucketName}". ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-bucket-policies.html#s3-example-bucket-policies-set-policy). 
+  Untuk detail API, lihat [PutBucketPolicy](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutBucketPolicyCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutBucketWebsite`
<a name="s3_PutBucketWebsite_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketWebsite`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Atur konfigurasi situs web.  

```
import {
  PutBucketWebsiteCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Configure an Amazon S3 bucket to serve a static website.
 * Website access must also be granted separately. For more information
 * on setting the permissions for website access, see
 * https://docs.aws.amazon.com/AmazonS3/latest/userguide/WebsiteAccessPermissionsReqd.html.
 *
 * @param {{ bucketName: string }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});
  const command = new PutBucketWebsiteCommand({
    Bucket: bucketName,
    WebsiteConfiguration: {
      ErrorDocument: {
        // The object key name to use when a 4XX class error occurs.
        Key: "error.html",
      },
      IndexDocument: {
        // A suffix that is appended to a request when the request is
        // for a directory.
        Suffix: "index.html",
      },
    },
  });

  try {
    await client.send(command);
    console.log(
      `The bucket "${bucketName}" has been configured as a static website.`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while configuring the bucket "${bucketName}" as a static website. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while configuring the bucket "${bucketName}" as a static website. ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-static-web-host.html#s3-example-static-web-host-set-website). 
+  Untuk detail API, lihat [PutBucketWebsite](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutBucketWebsiteCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutObject`
<a name="s3_PutObject_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Unggah objek tersebut.  

```
import { readFile } from "node:fs/promises";

import {
  PutObjectCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Upload a file to an S3 bucket.
 * @param {{ bucketName: string, key: string, filePath: string }}
 */
export const main = async ({ bucketName, key, filePath }) => {
  const client = new S3Client({});
  const command = new PutObjectCommand({
    Bucket: bucketName,
    Key: key,
    Body: await readFile(filePath),
  });

  try {
    const response = await client.send(command);
    console.log(response);
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "EntityTooLarge"
    ) {
      console.error(
        `Error from S3 while uploading object to ${bucketName}. \
The object was too large. To upload objects larger than 5GB, use the S3 console (160GB max) \
or the multipart upload API (5TB max).`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while uploading object to ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
Unggah objek dengan syarat ETag cocok dengan yang disediakan.  

```
import {
  GetObjectCommand,
  NoSuchKey,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Get a single object from a specified S3 bucket.
 * @param {{ bucketName: string, key: string, eTag: string }}
 */
export const main = async ({ bucketName, key, eTag }) => {
  const client = new S3Client({});

  try {
    const response = await client.send(
      new GetObjectCommand({
        Bucket: bucketName,
        Key: key,
        IfMatch: eTag,
      }),
    );
    // The Body object also has 'transformToByteArray' and 'transformToWebStream' methods.
    const str = await response.Body.transformToString();
    console.log("Success. Here is text of the file:", str);
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(
        `Error from S3 while getting object "${key}" from "${bucketName}". No such key exists.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while getting object from ${bucketName}.  ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    key: {
      type: "string",
      required: true,
    },
    eTag: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-creating-buckets.html#s3-example-creating-buckets-new-bucket-2). 
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutObjectLegalHold`
<a name="s3_PutObjectLegalHold_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLegalHold`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 

```
import {
  PutObjectLegalHoldCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Apply a legal hold configuration to the specified object.
 * @param {{ bucketName: string, objectKey: string, legalHoldStatus: "ON" | "OFF" }}
 */
export const main = async ({ bucketName, objectKey, legalHoldStatus }) => {
  if (!["OFF", "ON"].includes(legalHoldStatus.toUpperCase())) {
    throw new Error(
      "Invalid parameter. legalHoldStatus must be 'ON' or 'OFF'.",
    );
  }

  const client = new S3Client({});
  const command = new PutObjectLegalHoldCommand({
    Bucket: bucketName,
    Key: objectKey,
    LegalHold: {
      // Set the status to 'ON' to place a legal hold on the object.
      // Set the status to 'OFF' to remove the legal hold.
      Status: legalHoldStatus,
    },
  });

  try {
    await client.send(command);
    console.log(
      `Legal hold status set to "${legalHoldStatus}" for "${objectKey}" in "${bucketName}"`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while modifying legal hold status for "${objectKey}" in "${bucketName}". The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while modifying legal hold status for "${objectKey}" in "${bucketName}". ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    objectKey: {
      type: "string",
      required: true,
    },
    legalHoldStatus: {
      type: "string",
      default: "ON",
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk detail API, lihat [PutObjectLegalHold](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectLegalHoldCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutObjectLockConfiguration`
<a name="s3_PutObjectLockConfiguration_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLockConfiguration`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Atur konfigurasi kunci objek dari ember.  

```
import {
  PutObjectLockConfigurationCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Enable S3 Object Lock for an Amazon S3 bucket.
 * After you enable Object Lock on a bucket, you can't
 * disable Object Lock or suspend versioning for that bucket.
 * @param {{ bucketName: string, enabled: boolean }}
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});
  const command = new PutObjectLockConfigurationCommand({
    Bucket: bucketName,
    // The Object Lock configuration that you want to apply to the specified bucket.
    ObjectLockConfiguration: {
      ObjectLockEnabled: "Enabled",
    },
  });

  try {
    await client.send(command);
    console.log(`Object Lock for "${bucketName}" enabled.`);
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while modifying the object lock configuration for the bucket "${bucketName}". The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while modifying the object lock configuration for the bucket "${bucketName}". ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
Setel periode retensi default bucket.  

```
import {
  PutObjectLockConfigurationCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Change the default retention settings for an object in an Amazon S3 bucket.
 * @param {{ bucketName: string, retentionDays: string }}
 */
export const main = async ({ bucketName, retentionDays }) => {
  const client = new S3Client({});

  try {
    await client.send(
      new PutObjectLockConfigurationCommand({
        Bucket: bucketName,
        // The Object Lock configuration that you want to apply to the specified bucket.
        ObjectLockConfiguration: {
          ObjectLockEnabled: "Enabled",
          Rule: {
            // The default Object Lock retention mode and period that you want to apply
            // to new objects placed in the specified bucket. Bucket settings require
            // both a mode and a period. The period can be either Days or Years but
            // you must select one.
            DefaultRetention: {
              // In governance mode, users can't overwrite or delete an object version
              // or alter its lock settings unless they have special permissions. With
              // governance mode, you protect objects against being deleted by most users,
              // but you can still grant some users permission to alter the retention settings
              // or delete the objects if necessary.
              Mode: "GOVERNANCE",
              Days: Number.parseInt(retentionDays),
            },
          },
        },
      }),
    );
    console.log(
      `Set default retention mode to "GOVERNANCE" with a retention period of ${retentionDays} day(s).`,
    );
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while setting the default object retention for a bucket. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while setting the default object retention for a bucket. ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    retentionDays: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk detail API, lihat [PutObjectLockConfiguration](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectLockConfigurationCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `PutObjectRetention`
<a name="s3_PutObjectRetention_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectRetention`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 

```
import {
  PutObjectRetentionCommand,
  S3Client,
  S3ServiceException,
} from "@aws-sdk/client-s3";

/**
 * Place a 24-hour retention period on an object in an Amazon S3 bucket.
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  const client = new S3Client({});
  const command = new PutObjectRetentionCommand({
    Bucket: bucketName,
    Key: key,
    BypassGovernanceRetention: false,
    Retention: {
      // In governance mode, users can't overwrite or delete an object version
      // or alter its lock settings unless they have special permissions. With
      // governance mode, you protect objects against being deleted by most users,
      // but you can still grant some users permission to alter the retention settings
      // or delete the objects if necessary.
      Mode: "GOVERNANCE",
      RetainUntilDate: new Date(new Date().getTime() + 24 * 60 * 60 * 1000),
    },
  });

  try {
    await client.send(command);
    console.log("Object Retention settings updated.");
  } catch (caught) {
    if (
      caught instanceof S3ServiceException &&
      caught.name === "NoSuchBucket"
    ) {
      console.error(
        `Error from S3 while modifying the governance mode and retention period on an object. The bucket doesn't exist.`,
      );
    } else if (caught instanceof S3ServiceException) {
      console.error(
        `Error from S3 while modifying the governance mode and retention period on an object. ${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};

// Call function if run directly
import { parseArgs } from "node:util";
import {
  isMain,
  validateArgs,
} from "@aws-doc-sdk-examples/lib/utils/util-node.js";

const loadArgs = () => {
  const options = {
    bucketName: {
      type: "string",
      required: true,
    },
    key: {
      type: "string",
      required: true,
    },
  };
  const results = parseArgs({ options });
  const { errors } = validateArgs({ options }, results);
  return { errors, results };
};

if (isMain(import.meta.url)) {
  const { errors, results } = loadArgs();
  if (!errors) {
    main(results.values);
  } else {
    console.error(errors.join("\n"));
  }
}
```
+  Untuk detail API, lihat [PutObjectRetention](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectRetentionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Buat URL yang telah ditetapkan sebelumnya untuk unggah objek ke bucket.  

```
import https from "node:https";

import { XMLParser } from "fast-xml-parser";
import { PutObjectCommand, S3Client } from "@aws-sdk/client-s3";
import { fromIni } from "@aws-sdk/credential-providers";
import { HttpRequest } from "@smithy/protocol-http";
import {
  getSignedUrl,
  S3RequestPresigner,
} from "@aws-sdk/s3-request-presigner";
import { parseUrl } from "@smithy/url-parser";
import { formatUrl } from "@aws-sdk/util-format-url";
import { Hash } from "@smithy/hash-node";

const createPresignedUrlWithoutClient = async ({ region, bucket, key }) => {
  const url = parseUrl(`https://${bucket}.s3.${region}.amazonaws.com/${key}`);
  const presigner = new S3RequestPresigner({
    credentials: fromIni(),
    region,
    sha256: Hash.bind(null, "sha256"),
  });

  const signedUrlObject = await presigner.presign(
    new HttpRequest({ ...url, method: "PUT" }),
  );
  return formatUrl(signedUrlObject);
};

const createPresignedUrlWithClient = ({ region, bucket, key }) => {
  const client = new S3Client({ region });
  const command = new PutObjectCommand({ Bucket: bucket, Key: key });
  return getSignedUrl(client, command, { expiresIn: 3600 });
};

/**
 * Make a PUT request to the provided URL.
 *
 * @param {string} url
 * @param {string} data
 */
const put = (url, data) => {
  return new Promise((resolve, reject) => {
    const req = https.request(
      url,
      { method: "PUT", headers: { "Content-Length": new Blob([data]).size } },
      (res) => {
        let responseBody = "";
        res.on("data", (chunk) => {
          responseBody += chunk;
        });
        res.on("end", () => {
          const parser = new XMLParser();
          if (res.statusCode >= 200 && res.statusCode <= 299) {
            resolve(parser.parse(responseBody, true));
          } else {
            reject(parser.parse(responseBody, true));
          }
        });
      },
    );
    req.on("error", (err) => {
      reject(err);
    });
    req.write(data);
    req.end();
  });
};

/**
 * Create two presigned urls for uploading an object to an S3 bucket.
 * The first presigned URL is created with credentials from the shared INI file
 * in the current environment. The second presigned URL is created using an
 * existing S3Client instance that has already been provided with credentials.
 * @param {{ bucketName: string, key: string, region: string }}
 */
export const main = async ({ bucketName, key, region }) => {
  try {
    const noClientUrl = await createPresignedUrlWithoutClient({
      bucket: bucketName,
      key,
      region,
    });

    const clientUrl = await createPresignedUrlWithClient({
      bucket: bucketName,
      region,
      key,
    });

    // After you get the presigned URL, you can provide your own file
    // data. Refer to put() above.
    console.log("Calling PUT using presigned URL without client");
    await put(noClientUrl, "Hello World");

    console.log("Calling PUT using presigned URL with client");
    await put(clientUrl, "Hello World");

    console.log("\nDone. Check your S3 console.");
  } catch (caught) {
    if (caught instanceof Error && caught.name === "CredentialsProviderError") {
      console.error(
        `There was an error getting your credentials. Are your local credentials configured?\n${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
Buat URL yang telah ditetapkan sebelumnya untuk mengunduh objek dari bucket.  

```
import { GetObjectCommand, S3Client } from "@aws-sdk/client-s3";
import { fromIni } from "@aws-sdk/credential-providers";
import { HttpRequest } from "@smithy/protocol-http";
import {
  getSignedUrl,
  S3RequestPresigner,
} from "@aws-sdk/s3-request-presigner";
import { parseUrl } from "@smithy/url-parser";
import { formatUrl } from "@aws-sdk/util-format-url";
import { Hash } from "@smithy/hash-node";

const createPresignedUrlWithoutClient = async ({ region, bucket, key }) => {
  const url = parseUrl(`https://${bucket}.s3.${region}.amazonaws.com/${key}`);
  const presigner = new S3RequestPresigner({
    credentials: fromIni(),
    region,
    sha256: Hash.bind(null, "sha256"),
  });

  const signedUrlObject = await presigner.presign(new HttpRequest(url));
  return formatUrl(signedUrlObject);
};

const createPresignedUrlWithClient = ({ region, bucket, key }) => {
  const client = new S3Client({ region });
  const command = new GetObjectCommand({ Bucket: bucket, Key: key });
  return getSignedUrl(client, command, { expiresIn: 3600 });
};

/**
 * Create two presigned urls for downloading an object from an S3 bucket.
 * The first presigned URL is created with credentials from the shared INI file
 * in the current environment. The second presigned URL is created using an
 * existing S3Client instance that has already been provided with credentials.
 * @param {{ bucketName: string, key: string, region: string }}
 */
export const main = async ({ bucketName, key, region }) => {
  try {
    const noClientUrl = await createPresignedUrlWithoutClient({
      bucket: bucketName,
      region,
      key,
    });

    const clientUrl = await createPresignedUrlWithClient({
      bucket: bucketName,
      region,
      key,
    });

    console.log("Presigned URL without client");
    console.log(noClientUrl);
    console.log("\n");

    console.log("Presigned URL with client");
    console.log(clientUrl);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "CredentialsProviderError") {
      console.error(
        `There was an error getting your credentials. Are your local credentials configured?\n${caught.name}: ${caught.message}`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk informasi selengkapnya, lihat [AWS SDK untuk JavaScript Panduan Developer](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/s3-example-creating-buckets.html#s3-create-presigendurl). 

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo-asset-manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Membuat halaman web yang mencantumkan objek Amazon S3
<a name="s3_Scenario_ListObjectsWeb_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mendaftar objek Amazon S3 di halaman web.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/web/s3/list-objects#code-examples). 
Kode berikut adalah komponen React yang relevan yang membuat panggilan ke AWS SDK. Versi runnable dari aplikasi yang berisi komponen ini dapat ditemukan di link sebelumnya GitHub .  

```
import { useEffect, useState } from "react";
import {
  ListObjectsCommand,
  type ListObjectsCommandOutput,
  S3Client,
} from "@aws-sdk/client-s3";
import { fromCognitoIdentityPool } from "@aws-sdk/credential-providers";
import "./App.css";

function App() {
  const [objects, setObjects] = useState<
    Required<ListObjectsCommandOutput>["Contents"]
  >([]);

  useEffect(() => {
    const client = new S3Client({
      region: "us-east-1",
      // Unless you have a public bucket, you'll need access to a private bucket.
      // One way to do this is to create an Amazon Cognito identity pool, attach a role to the pool,
      // and grant the role access to the 's3:GetObject' action.
      //
      // You'll also need to configure the CORS settings on the bucket to allow traffic from
      // this example site. Here's an example configuration that allows all origins. Don't
      // do this in production.
      //[
      //  {
      //    "AllowedHeaders": ["*"],
      //    "AllowedMethods": ["GET"],
      //    "AllowedOrigins": ["*"],
      //    "ExposeHeaders": [],
      //  },
      //]
      //
      credentials: fromCognitoIdentityPool({
        clientConfig: { region: "us-east-1" },
        identityPoolId: "<YOUR_IDENTITY_POOL_ID>",
      }),
    });
    const command = new ListObjectsCommand({ Bucket: "bucket-name" });
    client.send(command).then(({ Contents }) => setObjects(Contents || []));
  }, []);

  return (
    <div className="App">
      {objects.map((o) => (
        <div key={o.ETag}>{o.Key}</div>
      ))}
    </div>
  );
}

export default App;
```
+  Untuk detail API, lihat [ListObjects](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/ListObjectsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan aplikasi AWS SDK untuk JavaScript untuk membangun aplikasi React yang menggunakan Amazon Textract untuk mengekstrak data dari gambar dokumen dan menampilkannya di halaman web interaktif. Contoh ini berjalan di peramban web dan memerlukan identitas Amazon Cognito yang diautentikasi sebagai kredensialnya. Contoh ini menggunakan Amazon Simple Storage Service (Amazon S3) untuk penyimpanan, dan untuk notifikasi, contoh ini mengambil polling antrean Amazon Simple Queue Service (Amazon SQS) yang berlangganan topik Amazon Simple Notification Service (Amazon SNS).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/textract-react).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

### Hapus semua objek dalam ember
<a name="s3_Scenario_DeleteAllObjects_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menghapus semua objek di bucket Amazon S3.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Hapus semua objek untuk bucket Amazon S3 tertentu.  

```
import {
  DeleteObjectsCommand,
  paginateListObjectsV2,
  S3Client,
} from "@aws-sdk/client-s3";

/**
 *
 * @param {{ bucketName: string }} config
 */
export const main = async ({ bucketName }) => {
  const client = new S3Client({});
  try {
    console.log(`Deleting all objects in bucket: ${bucketName}`);

    const paginator = paginateListObjectsV2(
      { client },
      {
        Bucket: bucketName,
      },
    );

    const objectKeys = [];
    for await (const { Contents } of paginator) {
      objectKeys.push(...Contents.map((obj) => ({ Key: obj.Key })));
    }

    const deleteCommand = new DeleteObjectsCommand({
      Bucket: bucketName,
      Delete: { Objects: objectKeys },
    });

    await client.send(deleteCommand);

    console.log(`All objects deleted from bucket: ${bucketName}`);
  } catch (caught) {
    if (caught instanceof Error) {
      console.error(
        `Failed to empty ${bucketName}. ${caught.name}: ${caught.message}`,
      );
    }
  }
};

// Call function if run directly.
import { fileURLToPath } from "node:url";
import { parseArgs } from "node:util";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const options = {
    bucketName: {
      type: "string",
    },
  };

  const { values } = parseArgs({ options });
  main(values);
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [DeleteObjects](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/DeleteObjectsCommand)
  + [ListObjectsV2](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/ListObjectsV2Command)

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Rekognition dengan membuat aplikasi AWS SDK untuk JavaScript yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang terletak di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
Pelajari cara:  
+ Membuat pengguna yang tidak diautentikasi menggunakan Amazon Cognito.
+ Menganalisi gambar untuk objek menggunakan Amazon Rekognition.
+ Memverifikasi alamat email untuk Amazon SES.
+ Mengirim notifikasi email menggunakan Amazon SES.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Kunci objek Amazon S3
<a name="s3_Scenario_ObjectLock_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara bekerja dengan fitur kunci objek S3.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3/scenarios/object-locking#code-examples). 
Entrypoint untuk skenario ()index.js. Ini mengatur semua langkah. Kunjungi GitHub untuk melihat detail implementasi untuk Skenario ScenarioInput, ScenarioOutput,, dan ScenarioAction.   

```
import * as Scenarios from "@aws-doc-sdk-examples/lib/scenario/index.js";
import {
  exitOnFalse,
  loadState,
  saveState,
} from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";

import { welcome, welcomeContinue } from "./welcome.steps.js";
import {
  confirmCreateBuckets,
  confirmPopulateBuckets,
  confirmSetLegalHoldFileEnabled,
  confirmSetLegalHoldFileRetention,
  confirmSetRetentionPeriodFileEnabled,
  confirmSetRetentionPeriodFileRetention,
  confirmUpdateLockPolicy,
  confirmUpdateRetention,
  createBuckets,
  createBucketsAction,
  getBucketPrefix,
  populateBuckets,
  populateBucketsAction,
  setLegalHoldFileEnabledAction,
  setLegalHoldFileRetentionAction,
  setRetentionPeriodFileEnabledAction,
  setRetentionPeriodFileRetentionAction,
  updateLockPolicy,
  updateLockPolicyAction,
  updateRetention,
  updateRetentionAction,
} from "./setup.steps.js";

/**
 * @param {Scenarios} scenarios
 * @param {Record<string, any>} initialState
 */
export const getWorkflowStages = (scenarios, initialState = {}) => {
  const client = new S3Client({});

  return {
    deploy: new scenarios.Scenario(
      "S3 Object Locking - Deploy",
      [
        welcome(scenarios),
        welcomeContinue(scenarios),
        exitOnFalse(scenarios, "welcomeContinue"),
        getBucketPrefix(scenarios),
        createBuckets(scenarios),
        confirmCreateBuckets(scenarios),
        exitOnFalse(scenarios, "confirmCreateBuckets"),
        createBucketsAction(scenarios, client),
        updateRetention(scenarios),
        confirmUpdateRetention(scenarios),
        exitOnFalse(scenarios, "confirmUpdateRetention"),
        updateRetentionAction(scenarios, client),
        populateBuckets(scenarios),
        confirmPopulateBuckets(scenarios),
        exitOnFalse(scenarios, "confirmPopulateBuckets"),
        populateBucketsAction(scenarios, client),
        updateLockPolicy(scenarios),
        confirmUpdateLockPolicy(scenarios),
        exitOnFalse(scenarios, "confirmUpdateLockPolicy"),
        updateLockPolicyAction(scenarios, client),
        confirmSetLegalHoldFileEnabled(scenarios),
        setLegalHoldFileEnabledAction(scenarios, client),
        confirmSetRetentionPeriodFileEnabled(scenarios),
        setRetentionPeriodFileEnabledAction(scenarios, client),
        confirmSetLegalHoldFileRetention(scenarios),
        setLegalHoldFileRetentionAction(scenarios, client),
        confirmSetRetentionPeriodFileRetention(scenarios),
        setRetentionPeriodFileRetentionAction(scenarios, client),
        saveState,
      ],
      initialState,
    ),
    demo: new scenarios.Scenario(
      "S3 Object Locking - Demo",
      [loadState, replAction(scenarios, client)],
      initialState,
    ),
    clean: new scenarios.Scenario(
      "S3 Object Locking - Destroy",
      [
        loadState,
        confirmCleanup(scenarios),
        exitOnFalse(scenarios, "confirmCleanup"),
        cleanupAction(scenarios, client),
      ],
      initialState,
    ),
  };
};

// Call function if run directly
import { fileURLToPath } from "node:url";
import { S3Client } from "@aws-sdk/client-s3";
import { cleanupAction, confirmCleanup } from "./clean.steps.js";
import { replAction } from "./repl.steps.js";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const objectLockingScenarios = getWorkflowStages(Scenarios);
  Scenarios.parseScenarioArgs(objectLockingScenarios, {
    name: "Amazon S3 object locking workflow",
    description:
      "Work with Amazon Simple Storage Service (Amazon S3) object locking features.",
    synopsis:
      "node index.js --scenario <deploy | demo | clean> [-h|--help] [-y|--yes] [-v|--verbose]",
  });
}
```
Keluarkan pesan selamat datang ke konsol (welcome.steps.js).  

```
/**
 * @typedef {import("@aws-doc-sdk-examples/lib/scenario/index.js")} Scenarios
 */

/**
 * @param {Scenarios} scenarios
 */
const welcome = (scenarios) =>
  new scenarios.ScenarioOutput(
    "welcome",
    "Welcome to the Amazon Simple Storage Service (S3) Object Locking Feature Scenario. For this workflow, we will use the AWS SDK for JavaScript to create several S3 buckets and files to demonstrate working with S3 locking features.",
    { header: true },
  );

/**
 * @param {Scenarios} scenarios
 */
const welcomeContinue = (scenarios) =>
  new scenarios.ScenarioInput(
    "welcomeContinue",
    "Press Enter when you are ready to start.",
    { type: "confirm" },
  );

export { welcome, welcomeContinue };
```
Menyebarkan bucket, objek, dan pengaturan file ()setup.steps.js.  

```
import {
  BucketVersioningStatus,
  ChecksumAlgorithm,
  CreateBucketCommand,
  MFADeleteStatus,
  PutBucketVersioningCommand,
  PutObjectCommand,
  PutObjectLockConfigurationCommand,
  PutObjectLegalHoldCommand,
  PutObjectRetentionCommand,
  ObjectLockLegalHoldStatus,
  ObjectLockRetentionMode,
  GetBucketVersioningCommand,
  BucketAlreadyExists,
  BucketAlreadyOwnedByYou,
  S3ServiceException,
  waitUntilBucketExists,
} from "@aws-sdk/client-s3";

import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

/**
 * @typedef {import("@aws-doc-sdk-examples/lib/scenario/index.js")} Scenarios
 */

/**
 * @typedef {import("@aws-sdk/client-s3").S3Client} S3Client
 */

/**
 * @param {Scenarios} scenarios
 */
const getBucketPrefix = (scenarios) =>
  new scenarios.ScenarioInput(
    "bucketPrefix",
    "Provide a prefix that will be used for bucket creation.",
    { type: "input", default: "amzn-s3-demo-bucket" },
  );

/**
 * @param {Scenarios} scenarios
 */
const createBuckets = (scenarios) =>
  new scenarios.ScenarioOutput(
    "createBuckets",
    (state) => `The following buckets will be created:
         ${state.bucketPrefix}-no-lock with object lock False.
         ${state.bucketPrefix}-lock-enabled with object lock True.
         ${state.bucketPrefix}-retention-after-creation with object lock False.`,
    { preformatted: true },
  );

/**
 * @param {Scenarios} scenarios
 */
const confirmCreateBuckets = (scenarios) =>
  new scenarios.ScenarioInput("confirmCreateBuckets", "Create the buckets?", {
    type: "confirm",
  });

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const createBucketsAction = (scenarios, client) =>
  new scenarios.ScenarioAction("createBucketsAction", async (state) => {
    const noLockBucketName = `${state.bucketPrefix}-no-lock`;
    const lockEnabledBucketName = `${state.bucketPrefix}-lock-enabled`;
    const retentionBucketName = `${state.bucketPrefix}-retention-after-creation`;

    try {
      await client.send(new CreateBucketCommand({ Bucket: noLockBucketName }));
      await waitUntilBucketExists({ client }, { Bucket: noLockBucketName });
      await client.send(
        new CreateBucketCommand({
          Bucket: lockEnabledBucketName,
          ObjectLockEnabledForBucket: true,
        }),
      );
      await waitUntilBucketExists(
        { client },
        { Bucket: lockEnabledBucketName },
      );
      await client.send(
        new CreateBucketCommand({ Bucket: retentionBucketName }),
      );
      await waitUntilBucketExists({ client }, { Bucket: retentionBucketName });

      state.noLockBucketName = noLockBucketName;
      state.lockEnabledBucketName = lockEnabledBucketName;
      state.retentionBucketName = retentionBucketName;
    } catch (caught) {
      if (
        caught instanceof BucketAlreadyExists ||
        caught instanceof BucketAlreadyOwnedByYou
      ) {
        console.error(`${caught.name}: ${caught.message}`);
        state.earlyExit = true;
      } else {
        throw caught;
      }
    }
  });

/**
 * @param {Scenarios} scenarios
 */
const populateBuckets = (scenarios) =>
  new scenarios.ScenarioOutput(
    "populateBuckets",
    (state) => `The following test files will be created:
         file0.txt in ${state.bucketPrefix}-no-lock.
         file1.txt in ${state.bucketPrefix}-no-lock.
         file0.txt in ${state.bucketPrefix}-lock-enabled.
         file1.txt in ${state.bucketPrefix}-lock-enabled.
         file0.txt in ${state.bucketPrefix}-retention-after-creation.
         file1.txt in ${state.bucketPrefix}-retention-after-creation.`,
    { preformatted: true },
  );

/**
 * @param {Scenarios} scenarios
 */
const confirmPopulateBuckets = (scenarios) =>
  new scenarios.ScenarioInput(
    "confirmPopulateBuckets",
    "Populate the buckets?",
    { type: "confirm" },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const populateBucketsAction = (scenarios, client) =>
  new scenarios.ScenarioAction("populateBucketsAction", async (state) => {
    try {
      await client.send(
        new PutObjectCommand({
          Bucket: state.noLockBucketName,
          Key: "file0.txt",
          Body: "Content",
          ChecksumAlgorithm: ChecksumAlgorithm.SHA256,
        }),
      );
      await client.send(
        new PutObjectCommand({
          Bucket: state.noLockBucketName,
          Key: "file1.txt",
          Body: "Content",
          ChecksumAlgorithm: ChecksumAlgorithm.SHA256,
        }),
      );
      await client.send(
        new PutObjectCommand({
          Bucket: state.lockEnabledBucketName,
          Key: "file0.txt",
          Body: "Content",
          ChecksumAlgorithm: ChecksumAlgorithm.SHA256,
        }),
      );
      await client.send(
        new PutObjectCommand({
          Bucket: state.lockEnabledBucketName,
          Key: "file1.txt",
          Body: "Content",
          ChecksumAlgorithm: ChecksumAlgorithm.SHA256,
        }),
      );
      await client.send(
        new PutObjectCommand({
          Bucket: state.retentionBucketName,
          Key: "file0.txt",
          Body: "Content",
          ChecksumAlgorithm: ChecksumAlgorithm.SHA256,
        }),
      );
      await client.send(
        new PutObjectCommand({
          Bucket: state.retentionBucketName,
          Key: "file1.txt",
          Body: "Content",
          ChecksumAlgorithm: ChecksumAlgorithm.SHA256,
        }),
      );
    } catch (caught) {
      if (caught instanceof S3ServiceException) {
        console.error(
          `Error from S3 while uploading object.  ${caught.name}: ${caught.message}`,
        );
      } else {
        throw caught;
      }
    }
  });

/**
 * @param {Scenarios} scenarios
 */
const updateRetention = (scenarios) =>
  new scenarios.ScenarioOutput(
    "updateRetention",
    (state) => `A bucket can be configured to use object locking with a default retention period.
A default retention period will be configured for ${state.bucketPrefix}-retention-after-creation.`,
    { preformatted: true },
  );

/**
 * @param {Scenarios} scenarios
 */
const confirmUpdateRetention = (scenarios) =>
  new scenarios.ScenarioInput(
    "confirmUpdateRetention",
    "Configure default retention period?",
    { type: "confirm" },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const updateRetentionAction = (scenarios, client) =>
  new scenarios.ScenarioAction("updateRetentionAction", async (state) => {
    await client.send(
      new PutBucketVersioningCommand({
        Bucket: state.retentionBucketName,
        VersioningConfiguration: {
          MFADelete: MFADeleteStatus.Disabled,
          Status: BucketVersioningStatus.Enabled,
        },
      }),
    );

    const getBucketVersioning = new GetBucketVersioningCommand({
      Bucket: state.retentionBucketName,
    });

    await retry({ intervalInMs: 500, maxRetries: 10 }, async () => {
      const { Status } = await client.send(getBucketVersioning);
      if (Status !== "Enabled") {
        throw new Error("Bucket versioning is not enabled.");
      }
    });

    await client.send(
      new PutObjectLockConfigurationCommand({
        Bucket: state.retentionBucketName,
        ObjectLockConfiguration: {
          ObjectLockEnabled: "Enabled",
          Rule: {
            DefaultRetention: {
              Mode: "GOVERNANCE",
              Years: 1,
            },
          },
        },
      }),
    );
  });

/**
 * @param {Scenarios} scenarios
 */
const updateLockPolicy = (scenarios) =>
  new scenarios.ScenarioOutput(
    "updateLockPolicy",
    (state) => `Object lock policies can also be added to existing buckets.
An object lock policy will be added to ${state.bucketPrefix}-lock-enabled.`,
    { preformatted: true },
  );

/**
 * @param {Scenarios} scenarios
 */
const confirmUpdateLockPolicy = (scenarios) =>
  new scenarios.ScenarioInput(
    "confirmUpdateLockPolicy",
    "Add object lock policy?",
    { type: "confirm" },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const updateLockPolicyAction = (scenarios, client) =>
  new scenarios.ScenarioAction("updateLockPolicyAction", async (state) => {
    await client.send(
      new PutObjectLockConfigurationCommand({
        Bucket: state.lockEnabledBucketName,
        ObjectLockConfiguration: {
          ObjectLockEnabled: "Enabled",
        },
      }),
    );
  });

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const confirmSetLegalHoldFileEnabled = (scenarios) =>
  new scenarios.ScenarioInput(
    "confirmSetLegalHoldFileEnabled",
    (state) =>
      `Would you like to add a legal hold to file0.txt in ${state.lockEnabledBucketName}?`,
    {
      type: "confirm",
    },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const setLegalHoldFileEnabledAction = (scenarios, client) =>
  new scenarios.ScenarioAction(
    "setLegalHoldFileEnabledAction",
    async (state) => {
      await client.send(
        new PutObjectLegalHoldCommand({
          Bucket: state.lockEnabledBucketName,
          Key: "file0.txt",
          LegalHold: {
            Status: ObjectLockLegalHoldStatus.ON,
          },
        }),
      );
      console.log(
        `Modified legal hold for file0.txt in ${state.lockEnabledBucketName}.`,
      );
    },
    { skipWhen: (state) => !state.confirmSetLegalHoldFileEnabled },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const confirmSetRetentionPeriodFileEnabled = (scenarios) =>
  new scenarios.ScenarioInput(
    "confirmSetRetentionPeriodFileEnabled",
    (state) =>
      `Would you like to add a 1 day Governance retention period to file1.txt in ${state.lockEnabledBucketName}? 
Reminder: Only a user with the s3:BypassGovernanceRetention permission will be able to delete this file or its bucket until the retention period has expired.`,
    {
      type: "confirm",
    },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const setRetentionPeriodFileEnabledAction = (scenarios, client) =>
  new scenarios.ScenarioAction(
    "setRetentionPeriodFileEnabledAction",
    async (state) => {
      const retentionDate = new Date();
      retentionDate.setDate(retentionDate.getDate() + 1);
      await client.send(
        new PutObjectRetentionCommand({
          Bucket: state.lockEnabledBucketName,
          Key: "file1.txt",
          Retention: {
            Mode: ObjectLockRetentionMode.GOVERNANCE,
            RetainUntilDate: retentionDate,
          },
        }),
      );
      console.log(
        `Set retention for file1.txt in ${state.lockEnabledBucketName} until ${retentionDate.toISOString().split("T")[0]}.`,
      );
    },
    { skipWhen: (state) => !state.confirmSetRetentionPeriodFileEnabled },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const confirmSetLegalHoldFileRetention = (scenarios) =>
  new scenarios.ScenarioInput(
    "confirmSetLegalHoldFileRetention",
    (state) =>
      `Would you like to add a legal hold to file0.txt in ${state.retentionBucketName}?`,
    {
      type: "confirm",
    },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const setLegalHoldFileRetentionAction = (scenarios, client) =>
  new scenarios.ScenarioAction(
    "setLegalHoldFileRetentionAction",
    async (state) => {
      await client.send(
        new PutObjectLegalHoldCommand({
          Bucket: state.retentionBucketName,
          Key: "file0.txt",
          LegalHold: {
            Status: ObjectLockLegalHoldStatus.ON,
          },
        }),
      );
      console.log(
        `Modified legal hold for file0.txt in ${state.retentionBucketName}.`,
      );
    },
    { skipWhen: (state) => !state.confirmSetLegalHoldFileRetention },
  );

/**
 * @param {Scenarios} scenarios
 */
const confirmSetRetentionPeriodFileRetention = (scenarios) =>
  new scenarios.ScenarioInput(
    "confirmSetRetentionPeriodFileRetention",
    (state) =>
      `Would you like to add a 1 day Governance retention period to file1.txt in ${state.retentionBucketName}?
Reminder: Only a user with the s3:BypassGovernanceRetention permission will be able to delete this file or its bucket until the retention period has expired.`,
    {
      type: "confirm",
    },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const setRetentionPeriodFileRetentionAction = (scenarios, client) =>
  new scenarios.ScenarioAction(
    "setRetentionPeriodFileRetentionAction",
    async (state) => {
      const retentionDate = new Date();
      retentionDate.setDate(retentionDate.getDate() + 1);
      await client.send(
        new PutObjectRetentionCommand({
          Bucket: state.retentionBucketName,
          Key: "file1.txt",
          Retention: {
            Mode: ObjectLockRetentionMode.GOVERNANCE,
            RetainUntilDate: retentionDate,
          },
          BypassGovernanceRetention: true,
        }),
      );
      console.log(
        `Set retention for file1.txt in ${state.retentionBucketName} until ${retentionDate.toISOString().split("T")[0]}.`,
      );
    },
    { skipWhen: (state) => !state.confirmSetRetentionPeriodFileRetention },
  );

export {
  getBucketPrefix,
  createBuckets,
  confirmCreateBuckets,
  createBucketsAction,
  populateBuckets,
  confirmPopulateBuckets,
  populateBucketsAction,
  updateRetention,
  confirmUpdateRetention,
  updateRetentionAction,
  updateLockPolicy,
  confirmUpdateLockPolicy,
  updateLockPolicyAction,
  confirmSetLegalHoldFileEnabled,
  setLegalHoldFileEnabledAction,
  confirmSetRetentionPeriodFileEnabled,
  setRetentionPeriodFileEnabledAction,
  confirmSetLegalHoldFileRetention,
  setLegalHoldFileRetentionAction,
  confirmSetRetentionPeriodFileRetention,
  setRetentionPeriodFileRetentionAction,
};
```
Melihat dan menghapus file di bucket (repl.steps.js).  

```
import {
  ChecksumAlgorithm,
  DeleteObjectCommand,
  GetObjectLegalHoldCommand,
  GetObjectLockConfigurationCommand,
  GetObjectRetentionCommand,
  ListObjectVersionsCommand,
  PutObjectCommand,
} from "@aws-sdk/client-s3";

/**
 * @typedef {import("@aws-doc-sdk-examples/lib/scenario/index.js")} Scenarios
 */

/**
 * @typedef {import("@aws-sdk/client-s3").S3Client} S3Client
 */

const choices = {
  EXIT: 0,
  LIST_ALL_FILES: 1,
  DELETE_FILE: 2,
  DELETE_FILE_WITH_RETENTION: 3,
  OVERWRITE_FILE: 4,
  VIEW_RETENTION_SETTINGS: 5,
  VIEW_LEGAL_HOLD_SETTINGS: 6,
};

/**
 * @param {Scenarios} scenarios
 */
const replInput = (scenarios) =>
  new scenarios.ScenarioInput(
    "replChoice",
    "Explore the S3 locking features by selecting one of the following choices",
    {
      type: "select",
      choices: [
        { name: "List all files in buckets", value: choices.LIST_ALL_FILES },
        { name: "Attempt to delete a file.", value: choices.DELETE_FILE },
        {
          name: "Attempt to delete a file with retention period bypass.",
          value: choices.DELETE_FILE_WITH_RETENTION,
        },
        { name: "Attempt to overwrite a file.", value: choices.OVERWRITE_FILE },
        {
          name: "View the object and bucket retention settings for a file.",
          value: choices.VIEW_RETENTION_SETTINGS,
        },
        {
          name: "View the legal hold settings for a file.",
          value: choices.VIEW_LEGAL_HOLD_SETTINGS,
        },
        { name: "Finish the workflow.", value: choices.EXIT },
      ],
    },
  );

/**
 * @param {S3Client} client
 * @param {string[]} buckets
 */
const getAllFiles = async (client, buckets) => {
  /** @type {{bucket: string, key: string, version: string}[]} */
  const files = [];
  for (const bucket of buckets) {
    const objectsResponse = await client.send(
      new ListObjectVersionsCommand({ Bucket: bucket }),
    );
    for (const version of objectsResponse.Versions || []) {
      const { Key, VersionId } = version;
      files.push({ bucket, key: Key, version: VersionId });
    }
  }

  return files;
};

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const replAction = (scenarios, client) =>
  new scenarios.ScenarioAction(
    "replAction",
    async (state) => {
      const files = await getAllFiles(client, [
        state.noLockBucketName,
        state.lockEnabledBucketName,
        state.retentionBucketName,
      ]);

      const fileInput = new scenarios.ScenarioInput(
        "selectedFile",
        "Select a file:",
        {
          type: "select",
          choices: files.map((file, index) => ({
            name: `${index + 1}: ${file.bucket}: ${file.key} (version: ${
              file.version
            })`,
            value: index,
          })),
        },
      );

      const { replChoice } = state;

      switch (replChoice) {
        case choices.LIST_ALL_FILES: {
          const files = await getAllFiles(client, [
            state.noLockBucketName,
            state.lockEnabledBucketName,
            state.retentionBucketName,
          ]);
          state.replOutput = files
            .map(
              (file) =>
                `${file.bucket}: ${file.key} (version: ${file.version})`,
            )
            .join("\n");
          break;
        }
        case choices.DELETE_FILE: {
          /** @type {number} */
          const fileToDelete = await fileInput.handle(state);
          const selectedFile = files[fileToDelete];
          try {
            await client.send(
              new DeleteObjectCommand({
                Bucket: selectedFile.bucket,
                Key: selectedFile.key,
                VersionId: selectedFile.version,
              }),
            );
            state.replOutput = `Deleted ${selectedFile.key} in ${selectedFile.bucket}.`;
          } catch (err) {
            state.replOutput = `Unable to delete object ${selectedFile.key} in bucket ${selectedFile.bucket}: ${err.message}`;
          }
          break;
        }
        case choices.DELETE_FILE_WITH_RETENTION: {
          /** @type {number} */
          const fileToDelete = await fileInput.handle(state);
          const selectedFile = files[fileToDelete];
          try {
            await client.send(
              new DeleteObjectCommand({
                Bucket: selectedFile.bucket,
                Key: selectedFile.key,
                VersionId: selectedFile.version,
                BypassGovernanceRetention: true,
              }),
            );
            state.replOutput = `Deleted ${selectedFile.key} in ${selectedFile.bucket}.`;
          } catch (err) {
            state.replOutput = `Unable to delete object ${selectedFile.key} in bucket ${selectedFile.bucket}: ${err.message}`;
          }
          break;
        }
        case choices.OVERWRITE_FILE: {
          /** @type {number} */
          const fileToOverwrite = await fileInput.handle(state);
          const selectedFile = files[fileToOverwrite];
          try {
            await client.send(
              new PutObjectCommand({
                Bucket: selectedFile.bucket,
                Key: selectedFile.key,
                Body: "New content",
                ChecksumAlgorithm: ChecksumAlgorithm.SHA256,
              }),
            );
            state.replOutput = `Overwrote ${selectedFile.key} in ${selectedFile.bucket}.`;
          } catch (err) {
            state.replOutput = `Unable to overwrite object ${selectedFile.key} in bucket ${selectedFile.bucket}: ${err.message}`;
          }
          break;
        }
        case choices.VIEW_RETENTION_SETTINGS: {
          /** @type {number} */
          const fileToView = await fileInput.handle(state);
          const selectedFile = files[fileToView];
          try {
            const retention = await client.send(
              new GetObjectRetentionCommand({
                Bucket: selectedFile.bucket,
                Key: selectedFile.key,
                VersionId: selectedFile.version,
              }),
            );
            const bucketConfig = await client.send(
              new GetObjectLockConfigurationCommand({
                Bucket: selectedFile.bucket,
              }),
            );
            state.replOutput = `Object retention for ${selectedFile.key} in ${selectedFile.bucket}: ${retention.Retention?.Mode} until ${retention.Retention?.RetainUntilDate?.toISOString()}.
Bucket object lock config for ${selectedFile.bucket} in ${selectedFile.bucket}:
Enabled: ${bucketConfig.ObjectLockConfiguration?.ObjectLockEnabled}
Rule: ${JSON.stringify(bucketConfig.ObjectLockConfiguration?.Rule?.DefaultRetention)}`;
          } catch (err) {
            state.replOutput = `Unable to fetch object lock retention: '${err.message}'`;
          }
          break;
        }
        case choices.VIEW_LEGAL_HOLD_SETTINGS: {
          /** @type {number} */
          const fileToView = await fileInput.handle(state);
          const selectedFile = files[fileToView];
          try {
            const legalHold = await client.send(
              new GetObjectLegalHoldCommand({
                Bucket: selectedFile.bucket,
                Key: selectedFile.key,
                VersionId: selectedFile.version,
              }),
            );
            state.replOutput = `Object legal hold for ${selectedFile.key} in ${selectedFile.bucket}: Status: ${legalHold.LegalHold?.Status}`;
          } catch (err) {
            state.replOutput = `Unable to fetch legal hold: '${err.message}'`;
          }
          break;
        }
        default:
          throw new Error(`Invalid replChoice: ${replChoice}`);
      }
    },
    {
      whileConfig: {
        whileFn: ({ replChoice }) => replChoice !== choices.EXIT,
        input: replInput(scenarios),
        output: new scenarios.ScenarioOutput(
          "REPL output",
          (state) => state.replOutput,
          { preformatted: true },
        ),
      },
    },
  );

export { replInput, replAction, choices };
```
Hancurkan semua sumber daya yang dibuat (clean.steps.js).  

```
import {
  DeleteObjectCommand,
  DeleteBucketCommand,
  ListObjectVersionsCommand,
  GetObjectLegalHoldCommand,
  GetObjectRetentionCommand,
  PutObjectLegalHoldCommand,
} from "@aws-sdk/client-s3";

/**
 * @typedef {import("@aws-doc-sdk-examples/lib/scenario/index.js")} Scenarios
 */

/**
 * @typedef {import("@aws-sdk/client-s3").S3Client} S3Client
 */

/**
 * @param {Scenarios} scenarios
 */
const confirmCleanup = (scenarios) =>
  new scenarios.ScenarioInput("confirmCleanup", "Clean up resources?", {
    type: "confirm",
  });

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const cleanupAction = (scenarios, client) =>
  new scenarios.ScenarioAction("cleanupAction", async (state) => {
    const { noLockBucketName, lockEnabledBucketName, retentionBucketName } =
      state;

    const buckets = [
      noLockBucketName,
      lockEnabledBucketName,
      retentionBucketName,
    ];

    for (const bucket of buckets) {
      /** @type {import("@aws-sdk/client-s3").ListObjectVersionsCommandOutput} */
      let objectsResponse;

      try {
        objectsResponse = await client.send(
          new ListObjectVersionsCommand({
            Bucket: bucket,
          }),
        );
      } catch (e) {
        if (e instanceof Error && e.name === "NoSuchBucket") {
          console.log("Object's bucket has already been deleted.");
          continue;
        }
        throw e;
      }

      for (const version of objectsResponse.Versions || []) {
        const { Key, VersionId } = version;

        try {
          const legalHold = await client.send(
            new GetObjectLegalHoldCommand({
              Bucket: bucket,
              Key,
              VersionId,
            }),
          );

          if (legalHold.LegalHold?.Status === "ON") {
            await client.send(
              new PutObjectLegalHoldCommand({
                Bucket: bucket,
                Key,
                VersionId,
                LegalHold: {
                  Status: "OFF",
                },
              }),
            );
          }
        } catch (err) {
          console.log(
            `Unable to fetch legal hold for ${Key} in ${bucket}: '${err.message}'`,
          );
        }

        try {
          const retention = await client.send(
            new GetObjectRetentionCommand({
              Bucket: bucket,
              Key,
              VersionId,
            }),
          );

          if (retention.Retention?.Mode === "GOVERNANCE") {
            await client.send(
              new DeleteObjectCommand({
                Bucket: bucket,
                Key,
                VersionId,
                BypassGovernanceRetention: true,
              }),
            );
          }
        } catch (err) {
          console.log(
            `Unable to fetch object lock retention for ${Key} in ${bucket}: '${err.message}'`,
          );
        }

        await client.send(
          new DeleteObjectCommand({
            Bucket: bucket,
            Key,
            VersionId,
          }),
        );
      }

      await client.send(new DeleteBucketCommand({ Bucket: bucket }));
      console.log(`Delete for ${bucket} complete.`);
    }
  });

export { confirmCleanup, cleanupAction };
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [GetObjectLegalHold](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectLegalHoldCommand)
  + [GetObjectLockConfiguration](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectLockConfigurationCommand)
  + [GetObjectRetention](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectRetentionCommand)
  + [PutObjectLegalHold](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectLegalHoldCommand)
  + [PutObjectLockConfiguration](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectLockConfigurationCommand)
  + [PutObjectRetention](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectRetentionCommand)

### Buat permintaan bersyarat
<a name="s3_Scenario_ConditionalRequests_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menambahkan prasyarat ke permintaan Amazon S3.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3/scenarios/conditional-requests#code-examples). 
Entrypoint untuk alur kerja (). index.js Ini mengatur semua langkah. Kunjungi GitHub untuk melihat detail implementasi untuk Skenario ScenarioInput, ScenarioOutput,, dan ScenarioAction.   

```
import * as Scenarios from "@aws-doc-sdk-examples/lib/scenario/index.js";
import {
  exitOnFalse,
  loadState,
  saveState,
} from "@aws-doc-sdk-examples/lib/scenario/steps-common.js";

import { welcome, welcomeContinue } from "./welcome.steps.js";
import {
  confirmCreateBuckets,
  confirmPopulateBuckets,
  createBuckets,
  createBucketsAction,
  getBucketPrefix,
  populateBuckets,
  populateBucketsAction,
} from "./setup.steps.js";

/**
 * @param {Scenarios} scenarios
 * @param {Record<string, any>} initialState
 */
export const getWorkflowStages = (scenarios, initialState = {}) => {
  const client = new S3Client({});

  return {
    deploy: new scenarios.Scenario(
      "S3 Conditional Requests - Deploy",
      [
        welcome(scenarios),
        welcomeContinue(scenarios),
        exitOnFalse(scenarios, "welcomeContinue"),
        getBucketPrefix(scenarios),
        createBuckets(scenarios),
        confirmCreateBuckets(scenarios),
        exitOnFalse(scenarios, "confirmCreateBuckets"),
        createBucketsAction(scenarios, client),
        populateBuckets(scenarios),
        confirmPopulateBuckets(scenarios),
        exitOnFalse(scenarios, "confirmPopulateBuckets"),
        populateBucketsAction(scenarios, client),
        saveState,
      ],
      initialState,
    ),
    demo: new scenarios.Scenario(
      "S3 Conditional Requests - Demo",
      [loadState, welcome(scenarios), replAction(scenarios, client)],
      initialState,
    ),
    clean: new scenarios.Scenario(
      "S3 Conditional Requests - Destroy",
      [
        loadState,
        confirmCleanup(scenarios),
        exitOnFalse(scenarios, "confirmCleanup"),
        cleanupAction(scenarios, client),
      ],
      initialState,
    ),
  };
};

// Call function if run directly
import { fileURLToPath } from "node:url";
import { S3Client } from "@aws-sdk/client-s3";
import { cleanupAction, confirmCleanup } from "./clean.steps.js";
import { replAction } from "./repl.steps.js";

if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const objectLockingScenarios = getWorkflowStages(Scenarios);
  Scenarios.parseScenarioArgs(objectLockingScenarios, {
    name: "Amazon S3 object locking workflow",
    description:
      "Work with Amazon Simple Storage Service (Amazon S3) object locking features.",
    synopsis:
      "node index.js --scenario <deploy | demo | clean> [-h|--help] [-y|--yes] [-v|--verbose]",
  });
}
```
Keluarkan pesan selamat datang ke konsol (welcome.steps.js).  

```
/**
 * @typedef {import("@aws-doc-sdk-examples/lib/scenario/index.js")} Scenarios
 */

/**
 * @param {Scenarios} scenarios
 */
const welcome = (scenarios) =>
  new scenarios.ScenarioOutput(
    "welcome",
    "This example demonstrates the use of conditional requests for S3 operations." +
      " You can use conditional requests to add preconditions to S3 read requests to return " +
      "or copy an object based on its Entity tag (ETag), or last modified date.You can use " +
      "a conditional write requests to prevent overwrites by ensuring there is no existing " +
      "object with the same key.\n" +
      "This example will enable you to perform conditional reads and writes that will succeed " +
      "or fail based on your selected options.\n" +
      "Sample buckets and a sample object will be created as part of the example.\n" +
      "Some steps require a key name prefix to be defined by the user. Before you begin, you can " +
      "optionally edit this prefix in ./object_name.json. If you do so, please reload the scenario before you begin.",
    { header: true },
  );

/**
 * @param {Scenarios} scenarios
 */
const welcomeContinue = (scenarios) =>
  new scenarios.ScenarioInput(
    "welcomeContinue",
    "Press Enter when you are ready to start.",
    { type: "confirm" },
  );

export { welcome, welcomeContinue };
```
Menyebarkan ember dan objek ()setup.steps.js.  

```
import {
  ChecksumAlgorithm,
  CreateBucketCommand,
  PutObjectCommand,
  BucketAlreadyExists,
  BucketAlreadyOwnedByYou,
  S3ServiceException,
  waitUntilBucketExists,
} from "@aws-sdk/client-s3";

/**
 * @typedef {import("@aws-doc-sdk-examples/lib/scenario/index.js")} Scenarios
 */

/**
 * @typedef {import("@aws-sdk/client-s3").S3Client} S3Client
 */

/**
 * @param {Scenarios} scenarios
 */
const getBucketPrefix = (scenarios) =>
  new scenarios.ScenarioInput(
    "bucketPrefix",
    "Provide a prefix that will be used for bucket creation.",
    { type: "input", default: "amzn-s3-demo-bucket" },
  );
/**
 * @param {Scenarios} scenarios
 */
const createBuckets = (scenarios) =>
  new scenarios.ScenarioOutput(
    "createBuckets",
    (state) => `The following buckets will be created:
         ${state.bucketPrefix}-source-bucket.
         ${state.bucketPrefix}-destination-bucket.`,
    { preformatted: true },
  );

/**
 * @param {Scenarios} scenarios
 */
const confirmCreateBuckets = (scenarios) =>
  new scenarios.ScenarioInput("confirmCreateBuckets", "Create the buckets?", {
    type: "confirm",
  });

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const createBucketsAction = (scenarios, client) =>
  new scenarios.ScenarioAction("createBucketsAction", async (state) => {
    const sourceBucketName = `${state.bucketPrefix}-source-bucket`;
    const destinationBucketName = `${state.bucketPrefix}-destination-bucket`;

    try {
      await client.send(
        new CreateBucketCommand({
          Bucket: sourceBucketName,
        }),
      );
      await waitUntilBucketExists({ client }, { Bucket: sourceBucketName });
      await client.send(
        new CreateBucketCommand({
          Bucket: destinationBucketName,
        }),
      );
      await waitUntilBucketExists(
        { client },
        { Bucket: destinationBucketName },
      );

      state.sourceBucketName = sourceBucketName;
      state.destinationBucketName = destinationBucketName;
    } catch (caught) {
      if (
        caught instanceof BucketAlreadyExists ||
        caught instanceof BucketAlreadyOwnedByYou
      ) {
        console.error(`${caught.name}: ${caught.message}`);
        state.earlyExit = true;
      } else {
        throw caught;
      }
    }
  });

/**
 * @param {Scenarios} scenarios
 */
const populateBuckets = (scenarios) =>
  new scenarios.ScenarioOutput(
    "populateBuckets",
    (state) => `The following test files will be created:
         file01.txt in ${state.bucketPrefix}-source-bucket.`,
    { preformatted: true },
  );

/**
 * @param {Scenarios} scenarios
 */
const confirmPopulateBuckets = (scenarios) =>
  new scenarios.ScenarioInput(
    "confirmPopulateBuckets",
    "Populate the buckets?",
    { type: "confirm" },
  );

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const populateBucketsAction = (scenarios, client) =>
  new scenarios.ScenarioAction("populateBucketsAction", async (state) => {
    try {
      await client.send(
        new PutObjectCommand({
          Bucket: state.sourceBucketName,
          Key: "file01.txt",
          Body: "Content",
          ChecksumAlgorithm: ChecksumAlgorithm.SHA256,
        }),
      );
    } catch (caught) {
      if (caught instanceof S3ServiceException) {
        console.error(
          `Error from S3 while uploading object.  ${caught.name}: ${caught.message}`,
        );
      } else {
        throw caught;
      }
    }
  });

export {
  confirmCreateBuckets,
  confirmPopulateBuckets,
  createBuckets,
  createBucketsAction,
  getBucketPrefix,
  populateBuckets,
  populateBucketsAction,
};
```
Dapatkan, salin, dan letakkan objek menggunakan permintaan bersyarat S3 ()repl.steps.js.  

```
import path from "node:path";
import { fileURLToPath } from "node:url";
import { dirname } from "node:path";

import {
  ListObjectVersionsCommand,
  GetObjectCommand,
  CopyObjectCommand,
  PutObjectCommand,
} from "@aws-sdk/client-s3";
import data from "./object_name.json" assert { type: "json" };
import { readFile } from "node:fs/promises";
import {
  ScenarioInput,
  Scenario,
  ScenarioAction,
  ScenarioOutput,
} from "../../../libs/scenario/index.js";

/**
 * @typedef {import("@aws-doc-sdk-examples/lib/scenario/index.js")} Scenarios
 */

/**
 * @typedef {import("@aws-sdk/client-s3").S3Client} S3Client
 */

const choices = {
  EXIT: 0,
  LIST_ALL_FILES: 1,
  CONDITIONAL_READ: 2,
  CONDITIONAL_COPY: 3,
  CONDITIONAL_WRITE: 4,
};

/**
 * @param {Scenarios} scenarios
 */
const replInput = (scenarios) =>
  new ScenarioInput(
    "replChoice",
    "Explore the S3 conditional request features by selecting one of the following choices",
    {
      type: "select",
      choices: [
        { name: "Print list of bucket items.", value: choices.LIST_ALL_FILES },
        {
          name: "Perform a conditional read.",
          value: choices.CONDITIONAL_READ,
        },
        {
          name: "Perform a conditional copy. These examples use the key name prefix defined in ./object_name.json.",
          value: choices.CONDITIONAL_COPY,
        },
        {
          name: "Perform a conditional write. This example use the sample file ./text02.txt.",
          value: choices.CONDITIONAL_WRITE,
        },
        { name: "Finish the workflow.", value: choices.EXIT },
      ],
    },
  );

/**
 * @param {S3Client} client
 * @param {string[]} buckets
 */
const getAllFiles = async (client, buckets) => {
  /** @type {{bucket: string, key: string, version: string}[]} */
  const files = [];
  for (const bucket of buckets) {
    const objectsResponse = await client.send(
      new ListObjectVersionsCommand({ Bucket: bucket }),
    );
    for (const version of objectsResponse.Versions || []) {
      const { Key } = version;
      files.push({ bucket, key: Key });
    }
  }
  return files;
};

/**
 * @param {S3Client} client
 * @param {string[]} buckets
 * @param {string} key
 */
const getEtag = async (client, bucket, key) => {
  const objectsResponse = await client.send(
    new GetObjectCommand({
      Bucket: bucket,
      Key: key,
    }),
  );
  return objectsResponse.ETag;
};

/**
 * @param {S3Client} client
 * @param {string[]} buckets
 */

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
export const replAction = (scenarios, client) =>
  new ScenarioAction(
    "replAction",
    async (state) => {
      const files = await getAllFiles(client, [
        state.sourceBucketName,
        state.destinationBucketName,
      ]);

      const fileInput = new scenarios.ScenarioInput(
        "selectedFile",
        "Select a file to use:",
        {
          type: "select",
          choices: files.map((file, index) => ({
            name: `${index + 1}: ${file.bucket}: ${file.key} (Etag: ${
              file.version
            })`,
            value: index,
          })),
        },
      );
      const condReadOptions = new scenarios.ScenarioInput(
        "selectOption",
        "Which conditional read action would you like to take?",
        {
          type: "select",
          choices: [
            "If-Match: using the object's ETag. This condition should succeed.",
            "If-None-Match: using the object's ETag. This condition should fail.",
            "If-Modified-Since: using yesterday's date. This condition should succeed.",
            "If-Unmodified-Since: using yesterday's date. This condition should fail.",
          ],
        },
      );
      const condCopyOptions = new scenarios.ScenarioInput(
        "selectOption",
        "Which conditional copy action would you like to take?",
        {
          type: "select",
          choices: [
            "If-Match: using the object's ETag. This condition should succeed.",
            "If-None-Match: using the object's ETag. This condition should fail.",
            "If-Modified-Since: using yesterday's date. This condition should succeed.",
            "If-Unmodified-Since: using yesterday's date. This condition should fail.",
          ],
        },
      );
      const condWriteOptions = new scenarios.ScenarioInput(
        "selectOption",
        "Which conditional write action would you like to take?",
        {
          type: "select",
          choices: [
            "IfNoneMatch condition on the object key: If the key is a duplicate, the write will fail.",
          ],
        },
      );

      const { replChoice } = state;

      switch (replChoice) {
        case choices.LIST_ALL_FILES: {
          const files = await getAllFiles(client, [
            state.sourceBucketName,
            state.destinationBucketName,
          ]);
          state.replOutput = files
            .map(
              (file) => `Items in bucket ${file.bucket}: object: ${file.key} `,
            )
            .join("\n");
          break;
        }
        case choices.CONDITIONAL_READ:
          {
            const selectedCondRead = await condReadOptions.handle(state);
            if (
              selectedCondRead ===
              "If-Match: using the object's ETag. This condition should succeed."
            ) {
              const bucket = state.sourceBucketName;
              const key = "file01.txt";
              const ETag = await getEtag(client, bucket, key);

              try {
                await client.send(
                  new GetObjectCommand({
                    Bucket: bucket,
                    Key: key,
                    IfMatch: ETag,
                  }),
                );
                state.replOutput = `${key} in bucket ${state.sourceBucketName} read because ETag provided matches the object's ETag.`;
              } catch (err) {
                state.replOutput = `Unable to read object ${key} in bucket ${state.sourceBucketName}: ${err.message}`;
              }
              break;
            }
            if (
              selectedCondRead ===
              "If-None-Match: using the object's ETag. This condition should fail."
            ) {
              const bucket = state.sourceBucketName;
              const key = "file01.txt";
              const ETag = await getEtag(client, bucket, key);

              try {
                await client.send(
                  new GetObjectCommand({
                    Bucket: bucket,
                    Key: key,
                    IfNoneMatch: ETag,
                  }),
                );
                state.replOutput = `${key} in ${state.sourceBucketName} was returned.`;
              } catch (err) {
                state.replOutput = `${key} in ${state.sourceBucketName} was not read: ${err.message}`;
              }
              break;
            }
            if (
              selectedCondRead ===
              "If-Modified-Since: using yesterday's date. This condition should succeed."
            ) {
              const date = new Date();
              date.setDate(date.getDate() - 1);

              const bucket = state.sourceBucketName;
              const key = "file01.txt";
              try {
                await client.send(
                  new GetObjectCommand({
                    Bucket: bucket,
                    Key: key,
                    IfModifiedSince: date,
                  }),
                );
                state.replOutput = `${key} in bucket ${state.sourceBucketName} read because it has been created or modified in the last 24 hours.`;
              } catch (err) {
                state.replOutput = `Unable to read object ${key} in bucket ${state.sourceBucketName}: ${err.message}`;
              }
              break;
            }
            if (
              selectedCondRead ===
              "If-Unmodified-Since: using yesterday's date. This condition should fail."
            ) {
              const bucket = state.sourceBucketName;
              const key = "file01.txt";

              const date = new Date();
              date.setDate(date.getDate() - 1);
              try {
                await client.send(
                  new GetObjectCommand({
                    Bucket: bucket,
                    Key: key,
                    IfUnmodifiedSince: date,
                  }),
                );
                state.replOutput = `${key} in ${state.sourceBucketName} was read.`;
              } catch (err) {
                state.replOutput = `${key} in ${state.sourceBucketName} was not read: ${err.message}`;
              }
              break;
            }
          }
          break;
        case choices.CONDITIONAL_COPY: {
          const selectedCondCopy = await condCopyOptions.handle(state);
          if (
            selectedCondCopy ===
            "If-Match: using the object's ETag. This condition should succeed."
          ) {
            const bucket = state.sourceBucketName;
            const key = "file01.txt";
            const ETag = await getEtag(client, bucket, key);

            const copySource = `${bucket}/${key}`;
            // Optionally edit the default key name prefix of the copied object in ./object_name.json.
            const name = data.name;
            const copiedKey = `${name}${key}`;
            try {
              await client.send(
                new CopyObjectCommand({
                  CopySource: copySource,
                  Bucket: state.destinationBucketName,
                  Key: copiedKey,
                  CopySourceIfMatch: ETag,
                }),
              );
              state.replOutput = `${key} copied as ${copiedKey} to bucket ${state.destinationBucketName} because ETag provided matches the object's ETag.`;
            } catch (err) {
              state.replOutput = `Unable to copy object ${key} as ${copiedKey} to bucket ${state.destinationBucketName}: ${err.message}`;
            }
            break;
          }
          if (
            selectedCondCopy ===
            "If-None-Match: using the object's ETag. This condition should fail."
          ) {
            const bucket = state.sourceBucketName;
            const key = "file01.txt";
            const ETag = await getEtag(client, bucket, key);
            const copySource = `${bucket}/${key}`;
            // Optionally edit the default key name prefix of the copied object in ./object_name.json.
            const name = data.name;
            const copiedKey = `${name}${key}`;

            try {
              await client.send(
                new CopyObjectCommand({
                  CopySource: copySource,
                  Bucket: state.destinationBucketName,
                  Key: copiedKey,
                  CopySourceIfNoneMatch: ETag,
                }),
              );
              state.replOutput = `${copiedKey} copied to bucket ${state.destinationBucketName}`;
            } catch (err) {
              state.replOutput = `Unable to copy object as ${key} as as ${copiedKey} to bucket ${state.destinationBucketName}: ${err.message}`;
            }
            break;
          }
          if (
            selectedCondCopy ===
            "If-Modified-Since: using yesterday's date. This condition should succeed."
          ) {
            const bucket = state.sourceBucketName;
            const key = "file01.txt";
            const copySource = `${bucket}/${key}`;
            // Optionally edit the default key name prefix of the copied object in ./object_name.json.
            const name = data.name;
            const copiedKey = `${name}${key}`;

            const date = new Date();
            date.setDate(date.getDate() - 1);

            try {
              await client.send(
                new CopyObjectCommand({
                  CopySource: copySource,
                  Bucket: state.destinationBucketName,
                  Key: copiedKey,
                  CopySourceIfModifiedSince: date,
                }),
              );
              state.replOutput = `${key} copied as ${copiedKey} to bucket ${state.destinationBucketName} because it has been created or modified in the last 24 hours.`;
            } catch (err) {
              state.replOutput = `Unable to copy object ${key} as ${copiedKey} to bucket ${state.destinationBucketName} : ${err.message}`;
            }
            break;
          }
          if (
            selectedCondCopy ===
            "If-Unmodified-Since: using yesterday's date. This condition should fail."
          ) {
            const bucket = state.sourceBucketName;
            const key = "file01.txt";
            const copySource = `${bucket}/${key}`;
            // Optionally edit the default key name prefix of the copied object in ./object_name.json.
            const name = data.name;
            const copiedKey = `${name}${key}`;

            const date = new Date();
            date.setDate(date.getDate() - 1);

            try {
              await client.send(
                new CopyObjectCommand({
                  CopySource: copySource,
                  Bucket: state.destinationBucketName,
                  Key: copiedKey,
                  CopySourceIfUnmodifiedSince: date,
                }),
              );
              state.replOutput = `${copiedKey} copied to bucket ${state.destinationBucketName} because it has not been created or modified in the last 24 hours.`;
            } catch (err) {
              state.replOutput = `Unable to copy object ${key} to bucket ${state.destinationBucketName}: ${err.message}`;
            }
          }
          break;
        }
        case choices.CONDITIONAL_WRITE:
          {
            const selectedCondWrite = await condWriteOptions.handle(state);
            if (
              selectedCondWrite ===
              "IfNoneMatch condition on the object key: If the key is a duplicate, the write will fail."
            ) {
              // Optionally edit the default key name prefix of the copied object in ./object_name.json.
              const key = "text02.txt";
              const __filename = fileURLToPath(import.meta.url);
              const __dirname = dirname(__filename);
              const filePath = path.join(__dirname, "text02.txt");
              try {
                await client.send(
                  new PutObjectCommand({
                    Bucket: `${state.destinationBucketName}`,
                    Key: `${key}`,
                    Body: await readFile(filePath),
                    IfNoneMatch: "*",
                  }),
                );
                state.replOutput = `${key} uploaded to bucket ${state.destinationBucketName} because the key is not a duplicate.`;
              } catch (err) {
                state.replOutput = `Unable to upload object to bucket ${state.destinationBucketName}:${err.message}`;
              }
              break;
            }
          }
          break;

        default:
          throw new Error(`Invalid replChoice: ${replChoice}`);
      }
    },
    {
      whileConfig: {
        whileFn: ({ replChoice }) => replChoice !== choices.EXIT,
        input: replInput(scenarios),
        output: new ScenarioOutput("REPL output", (state) => state.replOutput, {
          preformatted: true,
        }),
      },
    },
  );

export { replInput, choices };
```
Hancurkan semua sumber daya yang dibuat (clean.steps.js).  

```
import {
  DeleteObjectCommand,
  DeleteBucketCommand,
  ListObjectVersionsCommand,
} from "@aws-sdk/client-s3";

/**
 * @typedef {import("@aws-doc-sdk-examples/lib/scenario/index.js")} Scenarios
 */

/**
 * @typedef {import("@aws-sdk/client-s3").S3Client} S3Client
 */

/**
 * @param {Scenarios} scenarios
 */
const confirmCleanup = (scenarios) =>
  new scenarios.ScenarioInput("confirmCleanup", "Clean up resources?", {
    type: "confirm",
  });

/**
 * @param {Scenarios} scenarios
 * @param {S3Client} client
 */
const cleanupAction = (scenarios, client) =>
  new scenarios.ScenarioAction("cleanupAction", async (state) => {
    const { sourceBucketName, destinationBucketName } = state;
    const buckets = [sourceBucketName, destinationBucketName].filter((b) => b);

    for (const bucket of buckets) {
      try {
        let objectsResponse;
        objectsResponse = await client.send(
          new ListObjectVersionsCommand({
            Bucket: bucket,
          }),
        );
        for (const version of objectsResponse.Versions || []) {
          const { Key, VersionId } = version;
          try {
            await client.send(
              new DeleteObjectCommand({
                Bucket: bucket,
                Key,
                VersionId,
              }),
            );
          } catch (err) {
            console.log(`An error occurred: ${err.message} `);
          }
        }
      } catch (e) {
        if (e instanceof Error && e.name === "NoSuchBucket") {
          console.log("Objects and buckets have already been deleted.");
          continue;
        }
        throw e;
      }

      await client.send(new DeleteBucketCommand({ Bucket: bucket }));
      console.log(`Delete for ${bucket} complete.`);
    }
  });

export { confirmCleanup, cleanupAction };
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CopyObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/CopyObjectCommand)
  + [GetObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/GetObjectCommand)
  + [PutObject](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/s3/command/PutObjectCommand)

### Mengunggah atau mengunduh file besar
<a name="s3_Scenario_UsingLargeFiles_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah atau mengunduh file besar ke dan dari Amazon S3.

Untuk informasi selengkapnya, lihat [Pengunggahan objek menggunakan unggahan multibagian](https://docs.aws.amazon.com/AmazonS3/latest/userguide/mpu-upload-object.html).

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/s3#code-examples). 
Unggah file besar.  

```
import { S3Client } from "@aws-sdk/client-s3";
import { Upload } from "@aws-sdk/lib-storage";

import {
  ProgressBar,
  logger,
} from "@aws-doc-sdk-examples/lib/utils/util-log.js";

const twentyFiveMB = 25 * 1024 * 1024;

export const createString = (size = twentyFiveMB) => {
  return "x".repeat(size);
};

/**
 * Create a 25MB file and upload it in parts to the specified
 * Amazon S3 bucket.
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  const str = createString();
  const buffer = Buffer.from(str, "utf8");
  const progressBar = new ProgressBar({
    description: `Uploading "${key}" to "${bucketName}"`,
    barLength: 30,
  });

  try {
    const upload = new Upload({
      client: new S3Client({}),
      params: {
        Bucket: bucketName,
        Key: key,
        Body: buffer,
      },
    });

    upload.on("httpUploadProgress", ({ loaded, total }) => {
      progressBar.update({ current: loaded, total });
    });

    await upload.done();
  } catch (caught) {
    if (caught instanceof Error && caught.name === "AbortError") {
      logger.error(`Multipart upload was aborted. ${caught.message}`);
    } else {
      throw caught;
    }
  }
};
```
Unduh file besar.  

```
import { fileURLToPath } from "node:url";
import { GetObjectCommand, NoSuchKey, S3Client } from "@aws-sdk/client-s3";
import { createWriteStream, rmSync } from "node:fs";

const s3Client = new S3Client({});
const oneMB = 1024 * 1024;

export const getObjectRange = ({ bucket, key, start, end }) => {
  const command = new GetObjectCommand({
    Bucket: bucket,
    Key: key,
    Range: `bytes=${start}-${end}`,
  });

  return s3Client.send(command);
};

/**
 * @param {string | undefined} contentRange
 */
export const getRangeAndLength = (contentRange) => {
  const [range, length] = contentRange.split("/");
  const [start, end] = range.split("-");
  return {
    start: Number.parseInt(start),
    end: Number.parseInt(end),
    length: Number.parseInt(length),
  };
};

export const isComplete = ({ end, length }) => end === length - 1;

const downloadInChunks = async ({ bucket, key }) => {
  const writeStream = createWriteStream(
    fileURLToPath(new URL(`./${key}`, import.meta.url)),
  ).on("error", (err) => console.error(err));

  let rangeAndLength = { start: -1, end: -1, length: -1 };

  while (!isComplete(rangeAndLength)) {
    const { end } = rangeAndLength;
    const nextRange = { start: end + 1, end: end + oneMB };

    const { ContentRange, Body } = await getObjectRange({
      bucket,
      key,
      ...nextRange,
    });
    console.log(`Downloaded bytes ${nextRange.start} to ${nextRange.end}`);

    writeStream.write(await Body.transformToByteArray());
    rangeAndLength = getRangeAndLength(ContentRange);
  }
};

/**
 * Download a large object from and Amazon S3 bucket.
 *
 * When downloading a large file, you might want to break it down into
 * smaller pieces. Amazon S3 accepts a Range header to specify the start
 * and end of the byte range to be downloaded.
 *
 * @param {{ bucketName: string, key: string }}
 */
export const main = async ({ bucketName, key }) => {
  try {
    await downloadInChunks({
      bucket: bucketName,
      key: key,
    });
  } catch (caught) {
    if (caught instanceof NoSuchKey) {
      console.error(`Failed to download object. No such key "${key}".`);
      rmSync(key);
    }
  }
};
```

## Contoh nirserver
<a name="serverless_examples"></a>

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Mengkonsumsi acara S3 dengan menggunakan JavaScript Lambda.  

```
import { S3Client, HeadObjectCommand } from "@aws-sdk/client-s3";

const client = new S3Client();

export const handler = async (event, context) => {

    // Get the object from the event and show its content type
    const bucket = event.Records[0].s3.bucket.name;
    const key = decodeURIComponent(event.Records[0].s3.object.key.replace(/\+/g, ' '));

    try {
        const { ContentType } = await client.send(new HeadObjectCommand({
            Bucket: bucket,
            Key: key,
        }));

        console.log('CONTENT TYPE:', ContentType);
        return ContentType;

    } catch (err) {
        console.log(err);
        const message = `Error getting object ${key} from bucket ${bucket}. Make sure they exist and your bucket is in the same region as this function.`;
        console.log(message);
        throw new Error(message);
    }
};
```
Mengkonsumsi acara S3 dengan menggunakan TypeScript Lambda.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { S3Event } from 'aws-lambda';
import { S3Client, HeadObjectCommand } from '@aws-sdk/client-s3';

const s3 = new S3Client({ region: process.env.AWS_REGION });

export const handler = async (event: S3Event): Promise<string | undefined> => {
  // Get the object from the event and show its content type
  const bucket = event.Records[0].s3.bucket.name;
  const key = decodeURIComponent(event.Records[0].s3.object.key.replace(/\+/g, ' '));
  const params = {
    Bucket: bucket,
    Key: key,
  };
  try {
    const { ContentType } = await s3.send(new HeadObjectCommand(params));
    console.log('CONTENT TYPE:', ContentType);
    return ContentType;
  } catch (err) {
    console.log(err);
    const message = `Error getting object ${key} from bucket ${bucket}. Make sure they exist and your bucket is in the same region as this function.`;
    console.log(message);
    throw new Error(message);
  }
};
```

# SageMaker Contoh AI menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_sagemaker_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan SageMaker AI.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo SageMaker AI
<a name="sagemaker_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan SageMaker AI.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sagemaker#code-examples). 

```
import {
  SageMakerClient,
  ListNotebookInstancesCommand,
} from "@aws-sdk/client-sagemaker";

const client = new SageMakerClient({
  region: "us-west-2",
});

export const helloSagemaker = async () => {
  const command = new ListNotebookInstancesCommand({ MaxResults: 5 });

  const response = await client.send(command);
  console.log(
    "Hello Amazon SageMaker! Let's list some of your notebook instances:",
  );

  const instances = response.NotebookInstances || [];

  if (instances.length === 0) {
    console.log(
      "• No notebook instances found. Try creating one in the AWS Management Console or with the CreateNotebookInstanceCommand.",
    );
  } else {
    console.log(
      instances
        .map(
          (i) =>
            `• Instance: ${i.NotebookInstanceName}\n  Arn:${
              i.NotebookInstanceArn
            } \n  Creation Date: ${i.CreationTime.toISOString()}`,
        )
        .join("\n"),
    );
  }

  return response;
};
```
+  Untuk detail API, lihat [ListNotebookInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/ListNotebookInstancesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Tindakan
<a name="actions"></a>

### `CreatePipeline`
<a name="sagemaker_CreatePipeline_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePipeline`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sagemaker#code-examples). 
Fungsi yang membuat pipeline SageMaker AI menggunakan definisi JSON yang disediakan secara lokal.  

```
/**
 * Create the Amazon SageMaker pipeline using a JSON pipeline definition. The definition
 * can also be provided as an Amazon S3 object using PipelineDefinitionS3Location.
 * @param {{roleArn: string, name: string, sagemakerClient: import('@aws-sdk/client-sagemaker').SageMakerClient}} props
 */
export async function createSagemakerPipeline({
  // Assumes an AWS IAM role has been created for this pipeline.
  roleArn,
  name,
  // Assumes an AWS Lambda function has been created for this pipeline.
  functionArn,
  sagemakerClient,
}) {
  const pipelineDefinition = readFileSync(
    // dirnameFromMetaUrl is a local utility function. You can find its implementation
    // on GitHub.
    `${dirnameFromMetaUrl(
      import.meta.url,
    )}../../../../../scenarios/features/sagemaker_pipelines/resources/GeoSpatialPipeline.json`,
  )
    .toString()
    .replace(/\*FUNCTION_ARN\*/g, functionArn);

  let arn = null;

  const createPipeline = () =>
    sagemakerClient.send(
      new CreatePipelineCommand({
        PipelineName: name,
        PipelineDefinition: pipelineDefinition,
        RoleArn: roleArn,
      }),
    );

  try {
    const { PipelineArn } = await createPipeline();
    arn = PipelineArn;
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "ValidationException" &&
      caught.message.includes(
        "Pipeline names must be unique within an AWS account and region",
      )
    ) {
      const { PipelineArn } = await sagemakerClient.send(
        new DescribePipelineCommand({ PipelineName: name }),
      );
      arn = PipelineArn;
    } else {
      throw caught;
    }
  }

  return {
    arn,
    cleanUp: async () => {
      await sagemakerClient.send(
        new DeletePipelineCommand({ PipelineName: name }),
      );
    },
  };
}
```
+  Untuk detail API, lihat [CreatePipeline](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/CreatePipelineCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeletePipeline`
<a name="sagemaker_DeletePipeline_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePipeline`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sagemaker#code-examples). 
Sintaks untuk menghapus pipeline SageMaker AI. Kode ini adalah bagian dari fungsi yang lebih besar. Lihat 'Buat saluran pipa' atau GitHub repositori untuk konteks lebih lanjut.  

```
      await sagemakerClient.send(
        new DeletePipelineCommand({ PipelineName: name }),
      );
```
+  Untuk detail API, lihat [DeletePipeline](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/DeletePipelineCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribePipelineExecution`
<a name="sagemaker_DescribePipelineExecution_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribePipelineExecution`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sagemaker#code-examples). 
Tunggu eksekusi pipeline SageMaker AI berhasil, gagal, atau berhenti.  

```
/**
 * Poll the executing pipeline until the status is 'SUCCEEDED', 'STOPPED', or 'FAILED'.
 * @param {{ arn: string, sagemakerClient: import('@aws-sdk/client-sagemaker').SageMakerClient, wait: (ms: number) => Promise<void>}} props
 */
export async function waitForPipelineComplete({ arn, sagemakerClient, wait }) {
  const command = new DescribePipelineExecutionCommand({
    PipelineExecutionArn: arn,
  });

  let complete = false;
  const intervalInSeconds = 15;
  const COMPLETION_STATUSES = [
    PipelineExecutionStatus.FAILED,
    PipelineExecutionStatus.STOPPED,
    PipelineExecutionStatus.SUCCEEDED,
  ];

  do {
    const { PipelineExecutionStatus: status, FailureReason } =
      await sagemakerClient.send(command);

    complete = COMPLETION_STATUSES.includes(status);

    if (!complete) {
      console.log(
        `Pipeline is ${status}. Waiting ${intervalInSeconds} seconds before checking again.`,
      );
      await wait(intervalInSeconds);
    } else if (status === PipelineExecutionStatus.FAILED) {
      throw new Error(`Pipeline failed because: ${FailureReason}`);
    } else if (status === PipelineExecutionStatus.STOPPED) {
      throw new Error("Pipeline was forcefully stopped.");
    } else {
      console.log(`Pipeline execution ${status}.`);
    }
  } while (!complete);
}
```
+  Untuk detail API, lihat [DescribePipelineExecution](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/DescribePipelineExecutionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartPipelineExecution`
<a name="sagemaker_StartPipelineExecution_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartPipelineExecution`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sagemaker#code-examples). 
Mulai eksekusi pipeline SageMaker AI.  

```
/**
 * Start the execution of the Amazon SageMaker pipeline. Parameters that are
 * passed in are used in the AWS Lambda function.
 * @param {{
 *   name: string,
 *   sagemakerClient: import('@aws-sdk/client-sagemaker').SageMakerClient,
 *   roleArn: string,
 *   queueUrl: string,
 *   s3InputBucketName: string,
 * }} props
 */
export async function startPipelineExecution({
  sagemakerClient,
  name,
  bucketName,
  roleArn,
  queueUrl,
}) {
  /**
   * The Vector Enrichment Job requests CSV data. This configuration points to a CSV
   * file in an Amazon S3 bucket.
   * @type {import("@aws-sdk/client-sagemaker-geospatial").VectorEnrichmentJobInputConfig}
   */
  const inputConfig = {
    DataSourceConfig: {
      S3Data: {
        S3Uri: `s3://${bucketName}/input/sample_data.csv`,
      },
    },
    DocumentType: VectorEnrichmentJobDocumentType.CSV,
  };

  /**
   * The Vector Enrichment Job adds additional data to the source CSV. This configuration points
   * to an Amazon S3 prefix where the output will be stored.
   * @type {import("@aws-sdk/client-sagemaker-geospatial").ExportVectorEnrichmentJobOutputConfig}
   */
  const outputConfig = {
    S3Data: {
      S3Uri: `s3://${bucketName}/output/`,
    },
  };

  /**
   * This job will be a Reverse Geocoding Vector Enrichment Job. Reverse Geocoding requires
   * latitude and longitude values.
   * @type {import("@aws-sdk/client-sagemaker-geospatial").VectorEnrichmentJobConfig}
   */
  const jobConfig = {
    ReverseGeocodingConfig: {
      XAttributeName: "Longitude",
      YAttributeName: "Latitude",
    },
  };

  const { PipelineExecutionArn } = await sagemakerClient.send(
    new StartPipelineExecutionCommand({
      PipelineName: name,
      PipelineExecutionDisplayName: `${name}-example-execution`,
      PipelineParameters: [
        { Name: "parameter_execution_role", Value: roleArn },
        { Name: "parameter_queue_url", Value: queueUrl },
        {
          Name: "parameter_vej_input_config",
          Value: JSON.stringify(inputConfig),
        },
        {
          Name: "parameter_vej_export_config",
          Value: JSON.stringify(outputConfig),
        },
        {
          Name: "parameter_step_1_vej_config",
          Value: JSON.stringify(jobConfig),
        },
      ],
    }),
  );

  return {
    arn: PipelineExecutionArn,
  };
}
```
+  Untuk detail API, lihat [StartPipelineExecution](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/StartPipelineExecutionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Memulai pekerjaan geospasial dan jaringan pipa
<a name="sagemaker_Scenario_Pipelines_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan sumber daya untuk pipa.
+ Siapkan pipa yang menjalankan pekerjaan geospasial.
+ Mulai eksekusi pipeline.
+ Pantau status eksekusi.
+ Lihat output dari pipa.
+ Pembersihan sumber daya 

Untuk informasi selengkapnya, lihat [Membuat dan menjalankan SageMaker pipeline menggunakan AWS SDKs Community.aws](https://community.aws/posts/create-and-run-sagemaker-pipelines-using-aws-sdks).

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sagemaker#code-examples). 
Kutipan file berikut berisi fungsi yang menggunakan klien SageMaker AI untuk mengelola pipeline.  

```
import { readFileSync } from "node:fs";

import {
  CreateRoleCommand,
  DeleteRoleCommand,
  CreatePolicyCommand,
  DeletePolicyCommand,
  AttachRolePolicyCommand,
  DetachRolePolicyCommand,
  GetRoleCommand,
  ListPoliciesCommand,
} from "@aws-sdk/client-iam";

import {
  PublishLayerVersionCommand,
  DeleteLayerVersionCommand,
  CreateFunctionCommand,
  Runtime,
  DeleteFunctionCommand,
  CreateEventSourceMappingCommand,
  DeleteEventSourceMappingCommand,
  GetFunctionCommand,
} from "@aws-sdk/client-lambda";

import {
  PutObjectCommand,
  CreateBucketCommand,
  DeleteBucketCommand,
  DeleteObjectCommand,
  GetObjectCommand,
  ListObjectsV2Command,
} from "@aws-sdk/client-s3";

import {
  CreatePipelineCommand,
  DeletePipelineCommand,
  DescribePipelineCommand,
  DescribePipelineExecutionCommand,
  PipelineExecutionStatus,
  StartPipelineExecutionCommand,
} from "@aws-sdk/client-sagemaker";

import { VectorEnrichmentJobDocumentType } from "@aws-sdk/client-sagemaker-geospatial";

import {
  CreateQueueCommand,
  DeleteQueueCommand,
  GetQueueAttributesCommand,
  GetQueueUrlCommand,
} from "@aws-sdk/client-sqs";

import { dirnameFromMetaUrl } from "@aws-doc-sdk-examples/lib/utils/util-fs.js";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

/**
 * Create the AWS IAM role that will be assumed by AWS Lambda.
 * @param {{ name: string, iamClient: import('@aws-sdk/client-iam').IAMClient }} props
 */
export async function createLambdaExecutionRole({ name, iamClient }) {
  const createRole = () =>
    iamClient.send(
      new CreateRoleCommand({
        RoleName: name,
        AssumeRolePolicyDocument: JSON.stringify({
          Version: "2012-10-17",
          Statement: [
            {
              Effect: "Allow",
              Action: ["sts:AssumeRole"],
              Principal: { Service: ["lambda.amazonaws.com"] },
            },
          ],
        }),
      }),
    );

  let role = null;

  try {
    const { Role } = await createRole();
    role = Role;
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "EntityAlreadyExistsException"
    ) {
      const { Role } = await iamClient.send(
        new GetRoleCommand({ RoleName: name }),
      );
      role = Role;
    } else {
      throw caught;
    }
  }

  return {
    arn: role.Arn,
    cleanUp: async () => {
      await iamClient.send(new DeleteRoleCommand({ RoleName: name }));
    },
  };
}

/**
 * Create an AWS IAM policy that will be attached to the AWS IAM role assumed by the AWS Lambda function.
 * The policy grants permission to work with Amazon SQS, Amazon CloudWatch, and Amazon SageMaker.
 * @param {{name: string, iamClient: import('@aws-sdk/client-iam').IAMClient, pipelineExecutionRoleArn: string}} props
 */
export async function createLambdaExecutionPolicy({
  name,
  iamClient,
  pipelineExecutionRoleArn,
}) {
  const policyConfig = {
    Version: "2012-10-17",
    Statement: [
      {
        Effect: "Allow",
        Action: [
          "sqs:ReceiveMessage",
          "sqs:DeleteMessage",
          "sqs:GetQueueAttributes",
          "logs:CreateLogGroup",
          "logs:CreateLogStream",
          "logs:PutLogEvents",
          "sagemaker-geospatial:StartVectorEnrichmentJob",
          "sagemaker-geospatial:GetVectorEnrichmentJob",
          "sagemaker:SendPipelineExecutionStepFailure",
          "sagemaker:SendPipelineExecutionStepSuccess",
          "sagemaker-geospatial:ExportVectorEnrichmentJob",
        ],
        Resource: "*",
      },
      {
        Effect: "Allow",
        // The AWS Lambda function needs permission to pass the pipeline execution role to
        // the StartVectorEnrichmentCommand. This restriction prevents an AWS Lambda function
        // from elevating privileges. For more information, see:
        // https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_use_passrole.html
        Action: ["iam:PassRole"],
        Resource: `${pipelineExecutionRoleArn}`,
        Condition: {
          StringEquals: {
            "iam:PassedToService": [
              "sagemaker.amazonaws.com",
              "sagemaker-geospatial.amazonaws.com",
            ],
          },
        },
      },
    ],
  };

  const createPolicy = () =>
    iamClient.send(
      new CreatePolicyCommand({
        PolicyDocument: JSON.stringify(policyConfig),
        PolicyName: name,
      }),
    );

  let policy = null;

  try {
    const { Policy } = await createPolicy();
    policy = Policy;
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "EntityAlreadyExistsException"
    ) {
      const { Policies } = await iamClient.send(new ListPoliciesCommand({}));
      if (Policies) {
        policy = Policies.find((p) => p.PolicyName === name);
      } else {
        throw new Error("No policies found.");
      }
    } else {
      throw caught;
    }
  }

  return {
    arn: policy?.Arn,
    policyConfig,
    cleanUp: async () => {
      await iamClient.send(new DeletePolicyCommand({ PolicyArn: policy?.Arn }));
    },
  };
}

/**
 * Attach an AWS IAM policy to an AWS IAM role.
 * @param {{roleName: string, policyArn: string, iamClient: import('@aws-sdk/client-iam').IAMClient}} props
 */
export async function attachPolicy({ roleName, policyArn, iamClient }) {
  const attachPolicyCommand = new AttachRolePolicyCommand({
    RoleName: roleName,
    PolicyArn: policyArn,
  });

  await iamClient.send(attachPolicyCommand);
  return {
    cleanUp: async () => {
      await iamClient.send(
        new DetachRolePolicyCommand({
          RoleName: roleName,
          PolicyArn: policyArn,
        }),
      );
    },
  };
}

/**
 * Create an AWS Lambda layer that contains the Amazon SageMaker and Amazon SageMaker Geospatial clients
 * in the runtime. The default runtime supports v3.188.0 of the JavaScript SDK. The Amazon SageMaker
 * Geospatial client wasn't introduced until v3.221.0.
 * @param {{ name: string, lambdaClient: import('@aws-sdk/client-lambda').LambdaClient }} props
 */
export async function createLambdaLayer({ name, lambdaClient }) {
  const layerPath = `${dirnameFromMetaUrl(import.meta.url)}lambda/nodejs.zip`;
  const { LayerVersionArn, Version } = await lambdaClient.send(
    new PublishLayerVersionCommand({
      LayerName: name,
      Content: {
        ZipFile: Uint8Array.from(readFileSync(layerPath)),
      },
    }),
  );

  return {
    versionArn: LayerVersionArn,
    version: Version,
    cleanUp: async () => {
      await lambdaClient.send(
        new DeleteLayerVersionCommand({
          LayerName: name,
          VersionNumber: Version,
        }),
      );
    },
  };
}

/**
 * Deploy the AWS Lambda function that will be used to respond to Amazon SageMaker pipeline
 * execution steps.
 * @param {{roleArn: string, name: string, lambdaClient: import('@aws-sdk/client-lambda').LambdaClient, layerVersionArn: string}} props
 */
export async function createLambdaFunction({
  name,
  roleArn,
  lambdaClient,
  layerVersionArn,
}) {
  const lambdaPath = `${dirnameFromMetaUrl(
    import.meta.url,
  )}lambda/dist/index.mjs.zip`;

  // If a function of the same name already exists, return that
  // function's ARN instead. By default this is
  // "sagemaker-wkflw-lambda-function", so collisions are
  // unlikely.
  const createFunction = async () => {
    try {
      return await lambdaClient.send(
        new CreateFunctionCommand({
          Code: {
            ZipFile: Uint8Array.from(readFileSync(lambdaPath)),
          },
          Runtime: Runtime.nodejs18x,
          Handler: "index.handler",
          Layers: [layerVersionArn],
          FunctionName: name,
          Role: roleArn,
        }),
      );
    } catch (caught) {
      if (
        caught instanceof Error &&
        caught.name === "ResourceConflictException"
      ) {
        const { Configuration } = await lambdaClient.send(
          new GetFunctionCommand({ FunctionName: name }),
        );
        return Configuration;
      }
      throw caught;
    }
  };

  // Function creation fails if the Role is not ready. This retries
  // function creation until it succeeds or it times out.
  const { FunctionArn } = await retry(
    { intervalInMs: 1000, maxRetries: 60 },
    createFunction,
  );

  return {
    arn: FunctionArn,
    cleanUp: async () => {
      await lambdaClient.send(
        new DeleteFunctionCommand({ FunctionName: name }),
      );
    },
  };
}

/**
 * This uploads some sample coordinate data to an Amazon S3 bucket.
 * The Amazon SageMaker Geospatial vector enrichment job will take the simple Lat/Long
 * coordinates in this file and augment them with more detailed location data.
 * @param {{bucketName: string, s3Client: import('@aws-sdk/client-s3').S3Client}} props
 */
export async function uploadCSVDataToS3({ bucketName, s3Client }) {
  const s3Path = `${dirnameFromMetaUrl(
    import.meta.url,
  )}../../../../../scenarios/features/sagemaker_pipelines/resources/latlongtest.csv`;

  await s3Client.send(
    new PutObjectCommand({
      Bucket: bucketName,
      Key: "input/sample_data.csv",
      Body: readFileSync(s3Path),
    }),
  );
}

/**
 * Create the AWS IAM role that will be assumed by the Amazon SageMaker pipeline.
 * @param {{name: string, iamClient: import('@aws-sdk/client-iam').IAMClient, wait: (ms: number) => Promise<void>}} props
 */
export async function createSagemakerRole({ name, iamClient, wait }) {
  let role = null;

  const createRole = () =>
    iamClient.send(
      new CreateRoleCommand({
        RoleName: name,
        AssumeRolePolicyDocument: JSON.stringify({
          Version: "2012-10-17",
          Statement: [
            {
              Effect: "Allow",
              Action: ["sts:AssumeRole"],
              Principal: {
                Service: [
                  "sagemaker.amazonaws.com",
                  "sagemaker-geospatial.amazonaws.com",
                ],
              },
            },
          ],
        }),
      }),
    );

  try {
    const { Role } = await createRole();
    role = Role;
    // Wait for the role to be ready.
    await wait(10);
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "EntityAlreadyExistsException"
    ) {
      const { Role } = await iamClient.send(
        new GetRoleCommand({ RoleName: name }),
      );
      role = Role;
    } else {
      throw caught;
    }
  }

  return {
    arn: role.Arn,
    cleanUp: async () => {
      await iamClient.send(new DeleteRoleCommand({ RoleName: name }));
    },
  };
}

/**
 * Create the Amazon SageMaker execution policy. This policy grants permission to
 * invoke the AWS Lambda function, read/write to the Amazon S3 bucket, and send messages to
 * the Amazon SQS queue.
 * @param {{ name: string, sqsQueueArn: string, lambdaArn: string, iamClient: import('@aws-sdk/client-iam').IAMClient, s3BucketName: string}} props
 */
export async function createSagemakerExecutionPolicy({
  sqsQueueArn,
  lambdaArn,
  iamClient,
  name,
  s3BucketName,
}) {
  const policyConfig = {
    Version: "2012-10-17",
    Statement: [
      {
        Effect: "Allow",
        Action: ["lambda:InvokeFunction"],
        Resource: lambdaArn,
      },
      {
        Effect: "Allow",
        Action: ["s3:*"],
        Resource: [
          `arn:aws:s3:::${s3BucketName}`,
          `arn:aws:s3:::${s3BucketName}/*`,
        ],
      },
      {
        Effect: "Allow",
        Action: ["sqs:SendMessage"],
        Resource: sqsQueueArn,
      },
    ],
  };

  const createPolicy = () =>
    iamClient.send(
      new CreatePolicyCommand({
        PolicyDocument: JSON.stringify(policyConfig),
        PolicyName: name,
      }),
    );

  let policy = null;

  try {
    const { Policy } = await createPolicy();
    policy = Policy;
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "EntityAlreadyExistsException"
    ) {
      const { Policies } = await iamClient.send(new ListPoliciesCommand({}));
      if (Policies) {
        policy = Policies.find((p) => p.PolicyName === name);
      } else {
        throw new Error("No policies found.");
      }
    } else {
      throw caught;
    }
  }

  return {
    arn: policy?.Arn,
    policyConfig,
    cleanUp: async () => {
      await iamClient.send(new DeletePolicyCommand({ PolicyArn: policy?.Arn }));
    },
  };
}

/**
 * Create the Amazon SageMaker pipeline using a JSON pipeline definition. The definition
 * can also be provided as an Amazon S3 object using PipelineDefinitionS3Location.
 * @param {{roleArn: string, name: string, sagemakerClient: import('@aws-sdk/client-sagemaker').SageMakerClient}} props
 */
export async function createSagemakerPipeline({
  // Assumes an AWS IAM role has been created for this pipeline.
  roleArn,
  name,
  // Assumes an AWS Lambda function has been created for this pipeline.
  functionArn,
  sagemakerClient,
}) {
  const pipelineDefinition = readFileSync(
    // dirnameFromMetaUrl is a local utility function. You can find its implementation
    // on GitHub.
    `${dirnameFromMetaUrl(
      import.meta.url,
    )}../../../../../scenarios/features/sagemaker_pipelines/resources/GeoSpatialPipeline.json`,
  )
    .toString()
    .replace(/\*FUNCTION_ARN\*/g, functionArn);

  let arn = null;

  const createPipeline = () =>
    sagemakerClient.send(
      new CreatePipelineCommand({
        PipelineName: name,
        PipelineDefinition: pipelineDefinition,
        RoleArn: roleArn,
      }),
    );

  try {
    const { PipelineArn } = await createPipeline();
    arn = PipelineArn;
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "ValidationException" &&
      caught.message.includes(
        "Pipeline names must be unique within an AWS account and region",
      )
    ) {
      const { PipelineArn } = await sagemakerClient.send(
        new DescribePipelineCommand({ PipelineName: name }),
      );
      arn = PipelineArn;
    } else {
      throw caught;
    }
  }

  return {
    arn,
    cleanUp: async () => {
      await sagemakerClient.send(
        new DeletePipelineCommand({ PipelineName: name }),
      );
    },
  };
}

/**
 * Create an Amazon SQS queue. The Amazon SageMaker pipeline will send messages
 * to this queue that are then processed by the AWS Lambda function.
 * @param {{name: string, sqsClient: import('@aws-sdk/client-sqs').SQSClient}} props
 */
export async function createSQSQueue({ name, sqsClient }) {
  const createSqsQueue = () =>
    sqsClient.send(
      new CreateQueueCommand({
        QueueName: name,
        Attributes: {
          DelaySeconds: "5",
          ReceiveMessageWaitTimeSeconds: "5",
          VisibilityTimeout: "300",
        },
      }),
    );

  let queueUrl = null;
  try {
    const { QueueUrl } = await createSqsQueue();
    queueUrl = QueueUrl;
  } catch (caught) {
    if (caught instanceof Error && caught.name === "QueueNameExists") {
      const { QueueUrl } = await sqsClient.send(
        new GetQueueUrlCommand({ QueueName: name }),
      );
      queueUrl = QueueUrl;
    } else {
      throw caught;
    }
  }

  const { Attributes } = await retry(
    { intervalInMs: 1000, maxRetries: 60 },
    () =>
      sqsClient.send(
        new GetQueueAttributesCommand({
          QueueUrl: queueUrl,
          AttributeNames: ["QueueArn"],
        }),
      ),
  );

  return {
    queueUrl,
    queueArn: Attributes.QueueArn,
    cleanUp: async () => {
      await sqsClient.send(new DeleteQueueCommand({ QueueUrl: queueUrl }));
    },
  };
}

/**
 * Configure the AWS Lambda function to long poll for messages from the Amazon SQS
 * queue.
 * @param {{
 *   paginateListEventSourceMappings: () => Generator<import('@aws-sdk/client-lambda').ListEventSourceMappingsCommandOutput>,
 *   lambdaName: string,
 *   queueArn: string,
 *   lambdaClient: import('@aws-sdk/client-lambda').LambdaClient}} props
 */
export async function configureLambdaSQSEventSource({
  lambdaName,
  queueArn,
  lambdaClient,
  paginateListEventSourceMappings,
}) {
  let uuid = null;
  const createEvenSourceMapping = () =>
    lambdaClient.send(
      new CreateEventSourceMappingCommand({
        EventSourceArn: queueArn,
        FunctionName: lambdaName,
      }),
    );

  try {
    const { UUID } = await createEvenSourceMapping();
    uuid = UUID;
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "ResourceConflictException"
    ) {
      const paginator = paginateListEventSourceMappings(
        { client: lambdaClient },
        {},
      );
      /**
       * @type {import('@aws-sdk/client-lambda').EventSourceMappingConfiguration[]}
       */
      const eventSourceMappings = [];
      for await (const page of paginator) {
        eventSourceMappings.concat(page.EventSourceMappings || []);
      }

      const { Configuration } = await lambdaClient.send(
        new GetFunctionCommand({ FunctionName: lambdaName }),
      );

      uuid = eventSourceMappings.find(
        (mapping) =>
          mapping.EventSourceArn === queueArn &&
          mapping.FunctionArn === Configuration.FunctionArn,
      ).UUID;
    } else {
      throw caught;
    }
  }

  return {
    cleanUp: async () => {
      await lambdaClient.send(
        new DeleteEventSourceMappingCommand({
          UUID: uuid,
        }),
      );
    },
  };
}

/**
 * Create an Amazon S3 bucket that will store the simple coordinate file as input
 * and the output of the Amazon SageMaker Geospatial vector enrichment job.
 * @param {{
 *   s3Client: import('@aws-sdk/client-s3').S3Client,
 *   name: string,
 *   paginateListObjectsV2: () => Generator<import('@aws-sdk/client-s3').ListObjectsCommandOutput>
 * }} props
 */
export async function createS3Bucket({
  name,
  s3Client,
  paginateListObjectsV2,
}) {
  await s3Client.send(new CreateBucketCommand({ Bucket: name }));

  return {
    cleanUp: async () => {
      const paginator = paginateListObjectsV2(
        { client: s3Client },
        { Bucket: name },
      );
      for await (const page of paginator) {
        const objects = page.Contents;
        if (objects) {
          for (const object of objects) {
            await s3Client.send(
              new DeleteObjectCommand({ Bucket: name, Key: object.Key }),
            );
          }
        }
      }
      await s3Client.send(new DeleteBucketCommand({ Bucket: name }));
    },
  };
}

/**
 * Start the execution of the Amazon SageMaker pipeline. Parameters that are
 * passed in are used in the AWS Lambda function.
 * @param {{
 *   name: string,
 *   sagemakerClient: import('@aws-sdk/client-sagemaker').SageMakerClient,
 *   roleArn: string,
 *   queueUrl: string,
 *   s3InputBucketName: string,
 * }} props
 */
export async function startPipelineExecution({
  sagemakerClient,
  name,
  bucketName,
  roleArn,
  queueUrl,
}) {
  /**
   * The Vector Enrichment Job requests CSV data. This configuration points to a CSV
   * file in an Amazon S3 bucket.
   * @type {import("@aws-sdk/client-sagemaker-geospatial").VectorEnrichmentJobInputConfig}
   */
  const inputConfig = {
    DataSourceConfig: {
      S3Data: {
        S3Uri: `s3://${bucketName}/input/sample_data.csv`,
      },
    },
    DocumentType: VectorEnrichmentJobDocumentType.CSV,
  };

  /**
   * The Vector Enrichment Job adds additional data to the source CSV. This configuration points
   * to an Amazon S3 prefix where the output will be stored.
   * @type {import("@aws-sdk/client-sagemaker-geospatial").ExportVectorEnrichmentJobOutputConfig}
   */
  const outputConfig = {
    S3Data: {
      S3Uri: `s3://${bucketName}/output/`,
    },
  };

  /**
   * This job will be a Reverse Geocoding Vector Enrichment Job. Reverse Geocoding requires
   * latitude and longitude values.
   * @type {import("@aws-sdk/client-sagemaker-geospatial").VectorEnrichmentJobConfig}
   */
  const jobConfig = {
    ReverseGeocodingConfig: {
      XAttributeName: "Longitude",
      YAttributeName: "Latitude",
    },
  };

  const { PipelineExecutionArn } = await sagemakerClient.send(
    new StartPipelineExecutionCommand({
      PipelineName: name,
      PipelineExecutionDisplayName: `${name}-example-execution`,
      PipelineParameters: [
        { Name: "parameter_execution_role", Value: roleArn },
        { Name: "parameter_queue_url", Value: queueUrl },
        {
          Name: "parameter_vej_input_config",
          Value: JSON.stringify(inputConfig),
        },
        {
          Name: "parameter_vej_export_config",
          Value: JSON.stringify(outputConfig),
        },
        {
          Name: "parameter_step_1_vej_config",
          Value: JSON.stringify(jobConfig),
        },
      ],
    }),
  );

  return {
    arn: PipelineExecutionArn,
  };
}

/**
 * Poll the executing pipeline until the status is 'SUCCEEDED', 'STOPPED', or 'FAILED'.
 * @param {{ arn: string, sagemakerClient: import('@aws-sdk/client-sagemaker').SageMakerClient, wait: (ms: number) => Promise<void>}} props
 */
export async function waitForPipelineComplete({ arn, sagemakerClient, wait }) {
  const command = new DescribePipelineExecutionCommand({
    PipelineExecutionArn: arn,
  });

  let complete = false;
  const intervalInSeconds = 15;
  const COMPLETION_STATUSES = [
    PipelineExecutionStatus.FAILED,
    PipelineExecutionStatus.STOPPED,
    PipelineExecutionStatus.SUCCEEDED,
  ];

  do {
    const { PipelineExecutionStatus: status, FailureReason } =
      await sagemakerClient.send(command);

    complete = COMPLETION_STATUSES.includes(status);

    if (!complete) {
      console.log(
        `Pipeline is ${status}. Waiting ${intervalInSeconds} seconds before checking again.`,
      );
      await wait(intervalInSeconds);
    } else if (status === PipelineExecutionStatus.FAILED) {
      throw new Error(`Pipeline failed because: ${FailureReason}`);
    } else if (status === PipelineExecutionStatus.STOPPED) {
      throw new Error("Pipeline was forcefully stopped.");
    } else {
      console.log(`Pipeline execution ${status}.`);
    }
  } while (!complete);
}

/**
 * Return the string value of an Amazon S3 object.
 * @param {{ bucket: string, key: string, s3Client: import('@aws-sdk/client-s3').S3Client}} param0
 */
export async function getObject({ bucket, s3Client }) {
  const prefix = "output/";
  const { Contents } = await s3Client.send(
    new ListObjectsV2Command({ MaxKeys: 1, Bucket: bucket, Prefix: prefix }),
  );

  if (!Contents.length) {
    throw new Error("No objects found in bucket.");
  }

  // Find the CSV file.
  const outputObject = Contents.find((obj) => obj.Key.endsWith(".csv"));

  if (!outputObject) {
    throw new Error(`No CSV file found in bucket with the prefix "${prefix}".`);
  }

  const { Body } = await s3Client.send(
    new GetObjectCommand({
      Bucket: bucket,
      Key: outputObject.Key,
    }),
  );

  return Body.transformToString();
}
```
Fungsi ini adalah kutipan dari file yang menggunakan fungsi perpustakaan sebelumnya untuk mengatur pipeline SageMaker AI, menjalankannya, dan menghapus semua sumber daya yang dibuat.  

```
import { retry, wait } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";
import {
  attachPolicy,
  configureLambdaSQSEventSource,
  createLambdaExecutionPolicy,
  createLambdaExecutionRole,
  createLambdaFunction,
  createLambdaLayer,
  createS3Bucket,
  createSQSQueue,
  createSagemakerExecutionPolicy,
  createSagemakerPipeline,
  createSagemakerRole,
  getObject,
  startPipelineExecution,
  uploadCSVDataToS3,
  waitForPipelineComplete,
} from "./lib.js";
import { MESSAGES } from "./messages.js";

export class SageMakerPipelinesWkflw {
  names = {
    LAMBDA_EXECUTION_ROLE: "sagemaker-wkflw-lambda-execution-role",
    LAMBDA_EXECUTION_ROLE_POLICY:
      "sagemaker-wkflw-lambda-execution-role-policy",
    LAMBDA_FUNCTION: "sagemaker-wkflw-lambda-function",
    LAMBDA_LAYER: "sagemaker-wkflw-lambda-layer",
    SAGE_MAKER_EXECUTION_ROLE: "sagemaker-wkflw-pipeline-execution-role",
    SAGE_MAKER_EXECUTION_ROLE_POLICY:
      "sagemaker-wkflw-pipeline-execution-role-policy",
    SAGE_MAKER_PIPELINE: "sagemaker-wkflw-pipeline",
    SQS_QUEUE: "sagemaker-wkflw-sqs-queue",
    S3_BUCKET: `sagemaker-wkflw-s3-bucket-${Date.now()}`,
  };

  cleanUpFunctions = [];

  /**
   * @param {import("@aws-doc-sdk-examples/lib/prompter.js").Prompter} prompter
   * @param {import("@aws-doc-sdk-examples/lib/logger.js").Logger} logger
   * @param {{ IAM: import("@aws-sdk/client-iam").IAMClient, Lambda: import("@aws-sdk/client-lambda").LambdaClient, SageMaker: import("@aws-sdk/client-sagemaker").SageMakerClient, S3: import("@aws-sdk/client-s3").S3Client, SQS: import("@aws-sdk/client-sqs").SQSClient }} clients
   */
  constructor(prompter, logger, clients) {
    this.prompter = prompter;
    this.logger = logger;
    this.clients = clients;
  }

  async run() {
    try {
      await this.startWorkflow();
    } catch (err) {
      console.error(err);
      throw err;
    } finally {
      this.logger.logSeparator();
      const doCleanUp = await this.prompter.confirm({
        message: "Clean up resources?",
      });
      if (doCleanUp) {
        await this.cleanUp();
      }
    }
  }

  async cleanUp() {
    // Run all of the clean up functions. If any fail, we log the error and continue.
    // This ensures all clean up functions are run.
    for (let i = this.cleanUpFunctions.length - 1; i >= 0; i--) {
      await retry(
        { intervalInMs: 1000, maxRetries: 60, swallowError: true },
        this.cleanUpFunctions[i],
      );
    }
  }

  async startWorkflow() {
    this.logger.logSeparator(MESSAGES.greetingHeader);
    await this.logger.log(MESSAGES.greeting);

    this.logger.logSeparator();
    await this.logger.log(
      MESSAGES.creatingRole.replace(
        "${ROLE_NAME}",
        this.names.LAMBDA_EXECUTION_ROLE,
      ),
    );

    // Create an IAM role that will be assumed by the AWS Lambda function. This function
    // is triggered by Amazon SQS messages and calls SageMaker and SageMaker GeoSpatial actions.
    const { arn: lambdaExecutionRoleArn, cleanUp: lambdaExecutionRoleCleanUp } =
      await createLambdaExecutionRole({
        name: this.names.LAMBDA_EXECUTION_ROLE,
        iamClient: this.clients.IAM,
      });
    // Add a clean up step to a stack for every resource created.
    this.cleanUpFunctions.push(lambdaExecutionRoleCleanUp);

    await this.logger.log(
      MESSAGES.roleCreated.replace(
        "${ROLE_NAME}",
        this.names.LAMBDA_EXECUTION_ROLE,
      ),
    );

    this.logger.logSeparator();

    await this.logger.log(
      MESSAGES.creatingRole.replace(
        "${ROLE_NAME}",
        this.names.SAGE_MAKER_EXECUTION_ROLE,
      ),
    );

    // Create an IAM role that will be assumed by the SageMaker pipeline. The pipeline
    // sends messages to an Amazon SQS queue and puts/retrieves Amazon S3 objects.
    const {
      arn: pipelineExecutionRoleArn,
      cleanUp: pipelineExecutionRoleCleanUp,
    } = await createSagemakerRole({
      iamClient: this.clients.IAM,
      name: this.names.SAGE_MAKER_EXECUTION_ROLE,
      wait,
    });
    this.cleanUpFunctions.push(pipelineExecutionRoleCleanUp);

    await this.logger.log(
      MESSAGES.roleCreated.replace(
        "${ROLE_NAME}",
        this.names.SAGE_MAKER_EXECUTION_ROLE,
      ),
    );

    this.logger.logSeparator();

    // Create an IAM policy that allows the AWS Lambda function to invoke SageMaker APIs.
    const {
      arn: lambdaExecutionPolicyArn,
      policy: lambdaPolicy,
      cleanUp: lambdaExecutionPolicyCleanUp,
    } = await createLambdaExecutionPolicy({
      name: this.names.LAMBDA_EXECUTION_ROLE_POLICY,
      s3BucketName: this.names.S3_BUCKET,
      iamClient: this.clients.IAM,
      pipelineExecutionRoleArn,
    });
    this.cleanUpFunctions.push(lambdaExecutionPolicyCleanUp);

    console.log(JSON.stringify(lambdaPolicy, null, 2), "\n");

    await this.logger.log(
      MESSAGES.attachPolicy
        .replace("${POLICY_NAME}", this.names.LAMBDA_EXECUTION_ROLE_POLICY)
        .replace("${ROLE_NAME}", this.names.LAMBDA_EXECUTION_ROLE),
    );

    await this.prompter.checkContinue();

    // Attach the Lambda execution policy to the execution role.
    const { cleanUp: lambdaExecutionRolePolicyCleanUp } = await attachPolicy({
      roleName: this.names.LAMBDA_EXECUTION_ROLE,
      policyArn: lambdaExecutionPolicyArn,
      iamClient: this.clients.IAM,
    });
    this.cleanUpFunctions.push(lambdaExecutionRolePolicyCleanUp);

    await this.logger.log(MESSAGES.policyAttached);

    this.logger.logSeparator();

    // Create Lambda layer for SageMaker packages.
    const { versionArn: layerVersionArn, cleanUp: lambdaLayerCleanUp } =
      await createLambdaLayer({
        name: this.names.LAMBDA_LAYER,
        lambdaClient: this.clients.Lambda,
      });
    this.cleanUpFunctions.push(lambdaLayerCleanUp);

    await this.logger.log(
      MESSAGES.creatingFunction.replace(
        "${FUNCTION_NAME}",
        this.names.LAMBDA_FUNCTION,
      ),
    );

    // Create the Lambda function with the execution role.
    const { arn: lambdaArn, cleanUp: lambdaCleanUp } =
      await createLambdaFunction({
        roleArn: lambdaExecutionRoleArn,
        lambdaClient: this.clients.Lambda,
        name: this.names.LAMBDA_FUNCTION,
        layerVersionArn,
      });
    this.cleanUpFunctions.push(lambdaCleanUp);

    await this.logger.log(
      MESSAGES.functionCreated.replace(
        "${FUNCTION_NAME}",
        this.names.LAMBDA_FUNCTION,
      ),
    );

    this.logger.logSeparator();

    await this.logger.log(
      MESSAGES.creatingSQSQueue.replace("${QUEUE_NAME}", this.names.SQS_QUEUE),
    );

    // Create an SQS queue for the SageMaker pipeline.
    const {
      queueUrl,
      queueArn,
      cleanUp: queueCleanUp,
    } = await createSQSQueue({
      name: this.names.SQS_QUEUE,
      sqsClient: this.clients.SQS,
    });
    this.cleanUpFunctions.push(queueCleanUp);

    await this.logger.log(
      MESSAGES.sqsQueueCreated.replace("${QUEUE_NAME}", this.names.SQS_QUEUE),
    );

    this.logger.logSeparator();

    await this.logger.log(
      MESSAGES.configuringLambdaSQSEventSource
        .replace("${LAMBDA_NAME}", this.names.LAMBDA_FUNCTION)
        .replace("${QUEUE_NAME}", this.names.SQS_QUEUE),
    );

    // Configure the SQS queue as an event source for the Lambda.
    const { cleanUp: lambdaSQSEventSourceCleanUp } =
      await configureLambdaSQSEventSource({
        lambdaArn,
        lambdaName: this.names.LAMBDA_FUNCTION,
        queueArn,
        sqsClient: this.clients.SQS,
        lambdaClient: this.clients.Lambda,
      });
    this.cleanUpFunctions.push(lambdaSQSEventSourceCleanUp);

    await this.logger.log(
      MESSAGES.lambdaSQSEventSourceConfigured
        .replace("${LAMBDA_NAME}", this.names.LAMBDA_FUNCTION)
        .replace("${QUEUE_NAME}", this.names.SQS_QUEUE),
    );

    this.logger.logSeparator();

    // Create an IAM policy that allows the SageMaker pipeline to invoke AWS Lambda
    // and send messages to the Amazon SQS queue.
    const {
      arn: pipelineExecutionPolicyArn,
      policy: sagemakerPolicy,
      cleanUp: pipelineExecutionPolicyCleanUp,
    } = await createSagemakerExecutionPolicy({
      sqsQueueArn: queueArn,
      lambdaArn,
      iamClient: this.clients.IAM,
      name: this.names.SAGE_MAKER_EXECUTION_ROLE_POLICY,
      s3BucketName: this.names.S3_BUCKET,
    });
    this.cleanUpFunctions.push(pipelineExecutionPolicyCleanUp);

    console.log(JSON.stringify(sagemakerPolicy, null, 2));

    await this.logger.log(
      MESSAGES.attachPolicy
        .replace("${POLICY_NAME}", this.names.SAGE_MAKER_EXECUTION_ROLE_POLICY)
        .replace("${ROLE_NAME}", this.names.SAGE_MAKER_EXECUTION_ROLE),
    );

    await this.prompter.checkContinue();

    // Attach the SageMaker execution policy to the execution role.
    const { cleanUp: pipelineExecutionRolePolicyCleanUp } = await attachPolicy({
      roleName: this.names.SAGE_MAKER_EXECUTION_ROLE,
      policyArn: pipelineExecutionPolicyArn,
      iamClient: this.clients.IAM,
    });
    this.cleanUpFunctions.push(pipelineExecutionRolePolicyCleanUp);
    // Wait for the role to be ready. If the role is used immediately,
    // the pipeline will fail.
    await wait(5);

    await this.logger.log(MESSAGES.policyAttached);

    this.logger.logSeparator();

    await this.logger.log(
      MESSAGES.creatingPipeline.replace(
        "${PIPELINE_NAME}",
        this.names.SAGE_MAKER_PIPELINE,
      ),
    );

    // Create the SageMaker pipeline.
    const { cleanUp: pipelineCleanUp } = await createSagemakerPipeline({
      roleArn: pipelineExecutionRoleArn,
      functionArn: lambdaArn,
      sagemakerClient: this.clients.SageMaker,
      name: this.names.SAGE_MAKER_PIPELINE,
    });
    this.cleanUpFunctions.push(pipelineCleanUp);

    await this.logger.log(
      MESSAGES.pipelineCreated.replace(
        "${PIPELINE_NAME}",
        this.names.SAGE_MAKER_PIPELINE,
      ),
    );

    this.logger.logSeparator();

    await this.logger.log(
      MESSAGES.creatingS3Bucket.replace("${BUCKET_NAME}", this.names.S3_BUCKET),
    );

    // Create an S3 bucket for storing inputs and outputs.
    const { cleanUp: s3BucketCleanUp } = await createS3Bucket({
      name: this.names.S3_BUCKET,
      s3Client: this.clients.S3,
    });
    this.cleanUpFunctions.push(s3BucketCleanUp);

    await this.logger.log(
      MESSAGES.s3BucketCreated.replace("${BUCKET_NAME}", this.names.S3_BUCKET),
    );

    this.logger.logSeparator();

    await this.logger.log(
      MESSAGES.uploadingInputData.replace(
        "${BUCKET_NAME}",
        this.names.S3_BUCKET,
      ),
    );

    // Upload CSV Lat/Long data to S3.
    await uploadCSVDataToS3({
      bucketName: this.names.S3_BUCKET,
      s3Client: this.clients.S3,
    });

    await this.logger.log(MESSAGES.inputDataUploaded);

    this.logger.logSeparator();

    await this.prompter.checkContinue(MESSAGES.executePipeline);

    // Execute the SageMaker pipeline.
    const { arn: pipelineExecutionArn } = await startPipelineExecution({
      name: this.names.SAGE_MAKER_PIPELINE,
      sagemakerClient: this.clients.SageMaker,
      roleArn: pipelineExecutionRoleArn,
      bucketName: this.names.S3_BUCKET,
      queueUrl,
    });

    // Wait for the pipeline execution to finish.
    await waitForPipelineComplete({
      arn: pipelineExecutionArn,
      sagemakerClient: this.clients.SageMaker,
      wait,
    });

    this.logger.logSeparator();

    await this.logger.log(MESSAGES.outputDelay);

    // The getOutput function will throw an error if the output is not
    // found. The retry function will retry a failed function call once
    // ever 10 seconds for 2 minutes.
    const output = await retry({ intervalInMs: 10000, maxRetries: 12 }, () =>
      getObject({
        bucket: this.names.S3_BUCKET,
        s3Client: this.clients.S3,
      }),
    );

    this.logger.logSeparator();
    await this.logger.log(MESSAGES.outputDataRetrieved);
    console.log(output.split("\n").slice(0, 6).join("\n"));
  }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CreatePipeline](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/CreatePipelineCommand)
  + [DeletePipeline](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/DeletePipelineCommand)
  + [DescribePipelineExecution](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/DescribePipelineExecutionCommand)
  + [StartPipelineExecution](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/StartPipelineExecutionCommand)
  + [UpdatePipeline](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sagemaker/command/UpdatePipelineCommand)

# Contoh Secrets Manager menggunakan SDK for JavaScript (v3)
<a name="javascript_3_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Secrets Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetSecretValue`
<a name="secrets-manager_GetSecretValue_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSecretValue`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/secrets-manager#code-examples). 

```
import {
  GetSecretValueCommand,
  SecretsManagerClient,
} from "@aws-sdk/client-secrets-manager";

export const getSecretValue = async (secretName = "SECRET_NAME") => {
  const client = new SecretsManagerClient();
  const response = await client.send(
    new GetSecretValueCommand({
      SecretId: secretName,
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '584eb612-f8b0-48c9-855e-6d246461b604',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   ARN: 'arn:aws:secretsmanager:us-east-1:xxxxxxxxxxxx:secret:binary-secret-3873048-xxxxxx',
  //   CreatedDate: 2023-08-08T19:29:51.294Z,
  //   Name: 'binary-secret-3873048',
  //   SecretBinary: Uint8Array(11) [
  //      98, 105, 110, 97, 114,
  //     121,  32, 100, 97, 116,
  //      97
  //   ],
  //   VersionId: '712083f4-0d26-415e-8044-16735142cd6a',
  //   VersionStages: [ 'AWSCURRENT' ]
  // }

  if (response.SecretString) {
    return response.SecretString;
  }

  if (response.SecretBinary) {
    return response.SecretBinary;
  }
};
```
+  Untuk detail API, lihat [GetSecretValue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/secrets-manager/command/GetSecretValueCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Amazon SES contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateReceiptFilter`
<a name="ses_CreateReceiptFilter_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptFilter`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import {
  CreateReceiptFilterCommand,
  ReceiptFilterPolicy,
} from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";

const createCreateReceiptFilterCommand = ({ policy, ipOrRange, name }) => {
  return new CreateReceiptFilterCommand({
    Filter: {
      IpFilter: {
        Cidr: ipOrRange, // string, either a single IP address (10.0.0.1) or an IP address range in CIDR notation (10.0.0.1/24)).
        Policy: policy, // enum ReceiptFilterPolicy, email traffic from the filtered addressesOptions.
      },
      /*
        The name of the IP address filter. Only ASCII letters, numbers, underscores, or dashes.
        Must be less than 64 characters and start and end with a letter or number.
       */
      Name: name,
    },
  });
};

const FILTER_NAME = getUniqueName("ReceiptFilter");

const run = async () => {
  const createReceiptFilterCommand = createCreateReceiptFilterCommand({
    policy: ReceiptFilterPolicy.Allow,
    ipOrRange: "10.0.0.1",
    name: FILTER_NAME,
  });

  try {
    return await sesClient.send(createReceiptFilterCommand);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MessageRejected") {
      /** @type { import('@aws-sdk/client-ses').MessageRejected} */
      const messageRejectedError = caught;
      return messageRejectedError;
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [CreateReceiptFilter](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/CreateReceiptFilterCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateReceiptRule`
<a name="ses_CreateReceiptRule_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptRule`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { CreateReceiptRuleCommand, TlsPolicy } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";

const RULE_SET_NAME = getUniqueName("RuleSetName");
const RULE_NAME = getUniqueName("RuleName");
const S3_BUCKET_NAME = getUniqueName("S3BucketName");

const createS3ReceiptRuleCommand = ({
  bucketName,
  emailAddresses,
  name,
  ruleSet,
}) => {
  return new CreateReceiptRuleCommand({
    Rule: {
      Actions: [
        {
          S3Action: {
            BucketName: bucketName,
            ObjectKeyPrefix: "email",
          },
        },
      ],
      Recipients: emailAddresses,
      Enabled: true,
      Name: name,
      ScanEnabled: false,
      TlsPolicy: TlsPolicy.Optional,
    },
    RuleSetName: ruleSet, // Required
  });
};

const run = async () => {
  const s3ReceiptRuleCommand = createS3ReceiptRuleCommand({
    bucketName: S3_BUCKET_NAME,
    emailAddresses: ["email@example.com"],
    name: RULE_NAME,
    ruleSet: RULE_SET_NAME,
  });

  try {
    return await sesClient.send(s3ReceiptRuleCommand);
  } catch (err) {
    console.log("Failed to create S3 receipt rule.", err);
    throw err;
  }
};
```
+  Untuk detail API, lihat [CreateReceiptRule](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/CreateReceiptRuleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateReceiptRuleSet`
<a name="ses_CreateReceiptRuleSet_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptRuleSet`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { CreateReceiptRuleSetCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";

const RULE_SET_NAME = getUniqueName("RuleSetName");

const createCreateReceiptRuleSetCommand = (ruleSetName) => {
  return new CreateReceiptRuleSetCommand({ RuleSetName: ruleSetName });
};

const run = async () => {
  const createReceiptRuleSetCommand =
    createCreateReceiptRuleSetCommand(RULE_SET_NAME);

  try {
    return await sesClient.send(createReceiptRuleSetCommand);
  } catch (err) {
    console.log("Failed to create receipt rule set", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [CreateReceiptRuleSet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/CreateReceiptRuleSetCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateTemplate`
<a name="ses_CreateTemplate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTemplate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { CreateTemplateCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";

const TEMPLATE_NAME = getUniqueName("TestTemplateName");

const createCreateTemplateCommand = () => {
  return new CreateTemplateCommand({
    /**
     * The template feature in Amazon SES is based on the Handlebars template system.
     */
    Template: {
      /**
       * The name of an existing template in Amazon SES.
       */
      TemplateName: TEMPLATE_NAME,
      HtmlPart: `
        <h1>Hello, {{contact.firstName}}!</h1>
        <p>
        Did you know Amazon has a mascot named Peccy?
        </p>
      `,
      SubjectPart: "Amazon Tip",
    },
  });
};

const run = async () => {
  const createTemplateCommand = createCreateTemplateCommand();

  try {
    return await sesClient.send(createTemplateCommand);
  } catch (err) {
    console.log("Failed to create template.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [CreateTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/CreateTemplateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteIdentity`
<a name="ses_DeleteIdentity_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteIdentity`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { DeleteIdentityCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";

const IDENTITY_EMAIL = "fake@example.com";

const createDeleteIdentityCommand = (identityName) => {
  return new DeleteIdentityCommand({
    Identity: identityName,
  });
};

const run = async () => {
  const deleteIdentityCommand = createDeleteIdentityCommand(IDENTITY_EMAIL);

  try {
    return await sesClient.send(deleteIdentityCommand);
  } catch (err) {
    console.log("Failed to delete identity.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [DeleteIdentity](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/DeleteIdentityCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteReceiptFilter`
<a name="ses_DeleteReceiptFilter_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptFilter`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { DeleteReceiptFilterCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";

const RECEIPT_FILTER_NAME = getUniqueName("ReceiptFilterName");

const createDeleteReceiptFilterCommand = (filterName) => {
  return new DeleteReceiptFilterCommand({ FilterName: filterName });
};

const run = async () => {
  const deleteReceiptFilterCommand =
    createDeleteReceiptFilterCommand(RECEIPT_FILTER_NAME);

  try {
    return await sesClient.send(deleteReceiptFilterCommand);
  } catch (err) {
    console.log("Error deleting receipt filter.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [DeleteReceiptFilter](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/DeleteReceiptFilterCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteReceiptRule`
<a name="ses_DeleteReceiptRule_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptRule`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { DeleteReceiptRuleCommand } from "@aws-sdk/client-ses";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { sesClient } from "./libs/sesClient.js";

const RULE_NAME = getUniqueName("RuleName");
const RULE_SET_NAME = getUniqueName("RuleSetName");

const createDeleteReceiptRuleCommand = () => {
  return new DeleteReceiptRuleCommand({
    RuleName: RULE_NAME,
    RuleSetName: RULE_SET_NAME,
  });
};

const run = async () => {
  const deleteReceiptRuleCommand = createDeleteReceiptRuleCommand();
  try {
    return await sesClient.send(deleteReceiptRuleCommand);
  } catch (err) {
    console.log("Failed to delete receipt rule.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [DeleteReceiptRule](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/DeleteReceiptRuleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteReceiptRuleSet`
<a name="ses_DeleteReceiptRuleSet_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptRuleSet`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { DeleteReceiptRuleSetCommand } from "@aws-sdk/client-ses";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { sesClient } from "./libs/sesClient.js";

const RULE_SET_NAME = getUniqueName("RuleSetName");

const createDeleteReceiptRuleSetCommand = () => {
  return new DeleteReceiptRuleSetCommand({ RuleSetName: RULE_SET_NAME });
};

const run = async () => {
  const deleteReceiptRuleSetCommand = createDeleteReceiptRuleSetCommand();

  try {
    return await sesClient.send(deleteReceiptRuleSetCommand);
  } catch (err) {
    console.log("Failed to delete receipt rule set.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [DeleteReceiptRuleSet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/DeleteReceiptRuleSetCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteTemplate`
<a name="ses_DeleteTemplate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTemplate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { DeleteTemplateCommand } from "@aws-sdk/client-ses";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { sesClient } from "./libs/sesClient.js";

const TEMPLATE_NAME = getUniqueName("TemplateName");

const createDeleteTemplateCommand = (templateName) =>
  new DeleteTemplateCommand({ TemplateName: templateName });

const run = async () => {
  const deleteTemplateCommand = createDeleteTemplateCommand(TEMPLATE_NAME);

  try {
    return await sesClient.send(deleteTemplateCommand);
  } catch (err) {
    console.log("Failed to delete template.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [DeleteTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/DeleteTemplateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetTemplate`
<a name="ses_GetTemplate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTemplate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { GetTemplateCommand } from "@aws-sdk/client-ses";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { sesClient } from "./libs/sesClient.js";

const TEMPLATE_NAME = getUniqueName("TemplateName");

const createGetTemplateCommand = (templateName) =>
  new GetTemplateCommand({ TemplateName: templateName });

const run = async () => {
  const getTemplateCommand = createGetTemplateCommand(TEMPLATE_NAME);

  try {
    return await sesClient.send(getTemplateCommand);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MessageRejected") {
      /** @type { import('@aws-sdk/client-ses').MessageRejected} */
      const messageRejectedError = caught;
      return messageRejectedError;
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [GetTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/GetTemplateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListIdentities`
<a name="ses_ListIdentities_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentities`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { ListIdentitiesCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";

const createListIdentitiesCommand = () =>
  new ListIdentitiesCommand({ IdentityType: "EmailAddress", MaxItems: 10 });

const run = async () => {
  const listIdentitiesCommand = createListIdentitiesCommand();

  try {
    return await sesClient.send(listIdentitiesCommand);
  } catch (err) {
    console.log("Failed to list identities.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/ListIdentitiesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListReceiptFilters`
<a name="ses_ListReceiptFilters_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListReceiptFilters`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { ListReceiptFiltersCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";

const createListReceiptFiltersCommand = () => new ListReceiptFiltersCommand({});

const run = async () => {
  const listReceiptFiltersCommand = createListReceiptFiltersCommand();

  return await sesClient.send(listReceiptFiltersCommand);
};
```
+  Untuk detail API, lihat [ListReceiptFilters](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/ListReceiptFiltersCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListTemplates`
<a name="ses_ListTemplates_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTemplates`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { ListTemplatesCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";

const createListTemplatesCommand = (maxItems) =>
  new ListTemplatesCommand({ MaxItems: maxItems });

const run = async () => {
  const listTemplatesCommand = createListTemplatesCommand(10);

  try {
    return await sesClient.send(listTemplatesCommand);
  } catch (err) {
    console.log("Failed to list templates.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [ListTemplates](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/ListTemplatesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `SendBulkTemplatedEmail`
<a name="ses_SendBulkTemplatedEmail_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendBulkTemplatedEmail`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { SendBulkTemplatedEmailCommand } from "@aws-sdk/client-ses";
import {
  getUniqueName,
  postfix,
} from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { sesClient } from "./libs/sesClient.js";

/**
 * Replace this with the name of an existing template.
 */
const TEMPLATE_NAME = getUniqueName("ReminderTemplate");

/**
 * Replace these with existing verified emails.
 */
const VERIFIED_EMAIL_1 = postfix(getUniqueName("Bilbo"), "@example.com");
const VERIFIED_EMAIL_2 = postfix(getUniqueName("Frodo"), "@example.com");

const USERS = [
  { firstName: "Bilbo", emailAddress: VERIFIED_EMAIL_1 },
  { firstName: "Frodo", emailAddress: VERIFIED_EMAIL_2 },
];

/**
 *
 * @param { { emailAddress: string, firstName: string }[] } users
 * @param { string } templateName the name of an existing template in SES
 * @returns { SendBulkTemplatedEmailCommand }
 */
const createBulkReminderEmailCommand = (users, templateName) => {
  return new SendBulkTemplatedEmailCommand({
    /**
     * Each 'Destination' uses a corresponding set of replacement data. We can map each user
     * to a 'Destination' and provide user specific replacement data to create personalized emails.
     *
     * Here's an example of how a template would be replaced with user data:
     * Template: <h1>Hello {{name}},</h1><p>Don't forget about the party gifts!</p>
     * Destination 1: <h1>Hello Bilbo,</h1><p>Don't forget about the party gifts!</p>
     * Destination 2: <h1>Hello Frodo,</h1><p>Don't forget about the party gifts!</p>
     */
    Destinations: users.map((user) => ({
      Destination: { ToAddresses: [user.emailAddress] },
      ReplacementTemplateData: JSON.stringify({ name: user.firstName }),
    })),
    DefaultTemplateData: JSON.stringify({ name: "Shireling" }),
    Source: VERIFIED_EMAIL_1,
    Template: templateName,
  });
};

const run = async () => {
  const sendBulkTemplateEmailCommand = createBulkReminderEmailCommand(
    USERS,
    TEMPLATE_NAME,
  );
  try {
    return await sesClient.send(sendBulkTemplateEmailCommand);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MessageRejected") {
      /** @type { import('@aws-sdk/client-ses').MessageRejected} */
      const messageRejectedError = caught;
      return messageRejectedError;
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [SendBulkTemplatedEmail](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/SendBulkTemplatedEmailCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `SendEmail`
<a name="ses_SendEmail_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { SendEmailCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";

const createSendEmailCommand = (toAddress, fromAddress) => {
  return new SendEmailCommand({
    Destination: {
      /* required */
      CcAddresses: [
        /* more items */
      ],
      ToAddresses: [
        toAddress,
        /* more To-email addresses */
      ],
    },
    Message: {
      /* required */
      Body: {
        /* required */
        Html: {
          Charset: "UTF-8",
          Data: "HTML_FORMAT_BODY",
        },
        Text: {
          Charset: "UTF-8",
          Data: "TEXT_FORMAT_BODY",
        },
      },
      Subject: {
        Charset: "UTF-8",
        Data: "EMAIL_SUBJECT",
      },
    },
    Source: fromAddress,
    ReplyToAddresses: [
      /* more items */
    ],
  });
};

const run = async () => {
  const sendEmailCommand = createSendEmailCommand(
    "recipient@example.com",
    "sender@example.com",
  );

  try {
    return await sesClient.send(sendEmailCommand);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MessageRejected") {
      /** @type { import('@aws-sdk/client-ses').MessageRejected} */
      const messageRejectedError = caught;
      return messageRejectedError;
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/SendEmailCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `SendRawEmail`
<a name="ses_SendRawEmail_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendRawEmail`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 
Gunakan [nodemailer](https://nodemailer.com/transports/ses) untuk mengirim email dengan lampiran.  

```
import sesClientModule from "@aws-sdk/client-ses";
/**
 * nodemailer wraps the SES SDK and calls SendRawEmail. Use this for more advanced
 * functionality like adding attachments to your email.
 *
 * https://nodemailer.com/transports/ses
 */
import nodemailer from "nodemailer";

/**
 * @param {string} from An Amazon SES verified email address.
 * @param {*} to An Amazon SES verified email address.
 */
export const sendEmailWithAttachments = (
  from = "from@example.com",
  to = "to@example.com",
) => {
  const ses = new sesClientModule.SESClient({});
  const transporter = nodemailer.createTransport({
    SES: { ses, aws: sesClientModule },
  });

  return new Promise((resolve, reject) => {
    transporter.sendMail(
      {
        from,
        to,
        subject: "Hello World",
        text: "Greetings from Amazon SES!",
        attachments: [{ content: "Hello World!", filename: "hello.txt" }],
      },
      (err, info) => {
        if (err) {
          reject(err);
        } else {
          resolve(info);
        }
      },
    );
  });
};
```
+  Untuk detail API, lihat [SendRawEmail](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/SendRawEmailCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `SendTemplatedEmail`
<a name="ses_SendTemplatedEmail_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTemplatedEmail`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { SendTemplatedEmailCommand } from "@aws-sdk/client-ses";
import {
  getUniqueName,
  postfix,
} from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { sesClient } from "./libs/sesClient.js";

/**
 * Replace this with the name of an existing template.
 */
const TEMPLATE_NAME = getUniqueName("ReminderTemplate");

/**
 * Replace these with existing verified emails.
 */
const VERIFIED_EMAIL = postfix(getUniqueName("Bilbo"), "@example.com");

const USER = { firstName: "Bilbo", emailAddress: VERIFIED_EMAIL };

/**
 *
 * @param { { emailAddress: string, firstName: string } } user
 * @param { string } templateName - The name of an existing template in Amazon SES.
 * @returns { SendTemplatedEmailCommand }
 */
const createReminderEmailCommand = (user, templateName) => {
  return new SendTemplatedEmailCommand({
    /**
     * Here's an example of how a template would be replaced with user data:
     * Template: <h1>Hello {{contact.firstName}},</h1><p>Don't forget about the party gifts!</p>
     * Destination: <h1>Hello Bilbo,</h1><p>Don't forget about the party gifts!</p>
     */
    Destination: { ToAddresses: [user.emailAddress] },
    TemplateData: JSON.stringify({ contact: { firstName: user.firstName } }),
    Source: VERIFIED_EMAIL,
    Template: templateName,
  });
};

const run = async () => {
  const sendReminderEmailCommand = createReminderEmailCommand(
    USER,
    TEMPLATE_NAME,
  );
  try {
    return await sesClient.send(sendReminderEmailCommand);
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MessageRejected") {
      /** @type { import('@aws-sdk/client-ses').MessageRejected} */
      const messageRejectedError = caught;
      return messageRejectedError;
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [SendTemplatedEmail](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/SendTemplatedEmailCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateTemplate`
<a name="ses_UpdateTemplate_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTemplate`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { UpdateTemplateCommand } from "@aws-sdk/client-ses";
import { getUniqueName } from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { sesClient } from "./libs/sesClient.js";

const TEMPLATE_NAME = getUniqueName("TemplateName");
const HTML_PART = "<h1>Hello, World!</h1>";

const createUpdateTemplateCommand = () => {
  return new UpdateTemplateCommand({
    Template: {
      TemplateName: TEMPLATE_NAME,
      HtmlPart: HTML_PART,
      SubjectPart: "Example",
      TextPart: "Updated template text.",
    },
  });
};

const run = async () => {
  const updateTemplateCommand = createUpdateTemplateCommand();

  try {
    return await sesClient.send(updateTemplateCommand);
  } catch (err) {
    console.log("Failed to update template.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [UpdateTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/UpdateTemplateCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `VerifyDomainIdentity`
<a name="ses_VerifyDomainIdentity_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyDomainIdentity`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
import { VerifyDomainIdentityCommand } from "@aws-sdk/client-ses";
import {
  getUniqueName,
  postfix,
} from "@aws-doc-sdk-examples/lib/utils/util-string.js";
import { sesClient } from "./libs/sesClient.js";

/**
 * You must have access to the domain's DNS settings to complete the
 * domain verification process.
 */
const DOMAIN_NAME = postfix(getUniqueName("Domain"), ".example.com");

const createVerifyDomainIdentityCommand = () => {
  return new VerifyDomainIdentityCommand({ Domain: DOMAIN_NAME });
};

const run = async () => {
  const VerifyDomainIdentityCommand = createVerifyDomainIdentityCommand();

  try {
    return await sesClient.send(VerifyDomainIdentityCommand);
  } catch (err) {
    console.log("Failed to verify domain.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [VerifyDomainIdentity](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/VerifyDomainIdentityCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `VerifyEmailIdentity`
<a name="ses_VerifyEmailIdentity_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyEmailIdentity`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ses#code-examples). 

```
// Import required AWS SDK clients and commands for Node.js
import { VerifyEmailIdentityCommand } from "@aws-sdk/client-ses";
import { sesClient } from "./libs/sesClient.js";

const EMAIL_ADDRESS = "name@example.com";

const createVerifyEmailIdentityCommand = (emailAddress) => {
  return new VerifyEmailIdentityCommand({ EmailAddress: emailAddress });
};

const run = async () => {
  const verifyEmailIdentityCommand =
    createVerifyEmailIdentityCommand(EMAIL_ADDRESS);
  try {
    return await sesClient.send(verifyEmailIdentityCommand);
  } catch (err) {
    console.log("Failed to verify email identity.", err);
    return err;
  }
};
```
+  Untuk detail API, lihat [VerifyEmailIdentity](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ses/command/VerifyEmailIdentityCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi streaming Amazon Transcribe
<a name="cross_TranscriptionStreamingApp_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang merekam, mentranskripsikan, dan menerjemahkan audio langsung secara real-time, dan mengirim email hasilnya.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Transcribe untuk membuat aplikasi yang merekam, menyalin, dan menerjemahkan audio langsung secara real-time, dan mengirim email hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/transcribe-streaming-app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon SES
+ Amazon Transcribe
+ Amazon Translate

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan AWS SDK untuk JavaScript (v3) untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan sisi depan yang dibangun dengan React.js untuk berinteraksi dengan backend Express Node.js.   
+ Integrasikan aplikasi web React.js dengan Layanan AWS.
+ Cantumkan, tambahkan, dan perbarui butir di tabel Aurora.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/aurora-serverless-app).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Rekognition dengan membuat aplikasi AWS SDK untuk JavaScript yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang terletak di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
Pelajari cara:  
+ Membuat pengguna yang tidak diautentikasi menggunakan Amazon Cognito.
+ Menganalisi gambar untuk objek menggunakan Amazon Rekognition.
+ Memverifikasi alamat email untuk Amazon SES.
+ Mengirim notifikasi email menggunakan Amazon SES.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

# Contoh Amazon SNS menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon SNS
<a name="sns_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SNS.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Inisialisasi klien SNS dan dan daftar topik di akun Anda.  

```
import { SNSClient, paginateListTopics } from "@aws-sdk/client-sns";

export const helloSns = async () => {
  // The configuration object (`{}`) is required. If the region and credentials
  // are omitted, the SDK uses your local configuration if it exists.
  const client = new SNSClient({});

  // You can also use `ListTopicsCommand`, but to use that command you must
  // handle the pagination yourself. You can do that by sending the `ListTopicsCommand`
  // with the `NextToken` parameter from the previous request.
  const paginatedTopics = paginateListTopics({ client }, {});
  const topics = [];

  for await (const page of paginatedTopics) {
    if (page.Topics?.length) {
      topics.push(...page.Topics);
    }
  }

  const suffix = topics.length === 1 ? "" : "s";

  console.log(
    `Hello, Amazon SNS! You have ${topics.length} topic${suffix} in your account.`,
  );
  console.log(topics.map((t) => `  * ${t.TopicArn}`).join("\n"));
};
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/ListTopicsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Tindakan
<a name="actions"></a>

### `CheckIfPhoneNumberIsOptedOut`
<a name="sns_CheckIfPhoneNumberIsOptedOut_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckIfPhoneNumberIsOptedOut`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { CheckIfPhoneNumberIsOptedOutCommand } from "@aws-sdk/client-sns";

import { snsClient } from "../libs/snsClient.js";

export const checkIfPhoneNumberIsOptedOut = async (
  phoneNumber = "5555555555",
) => {
  const command = new CheckIfPhoneNumberIsOptedOutCommand({
    phoneNumber,
  });

  const response = await snsClient.send(command);
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '3341c28a-cdc8-5b39-a3ee-9fb0ee125732',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   isOptedOut: false
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-sending-sms.html#sending-sms-checkifphonenumberisoptedout). 
+  Untuk detail API, lihat [CheckIfPhoneNumberIsOptedOut](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/CheckIfPhoneNumberIsOptedOutCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ConfirmSubscription`
<a name="sns_ConfirmSubscription_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSubscription`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { ConfirmSubscriptionCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} token - This token is sent the subscriber. Only subscribers
 *                         that are not AWS services (HTTP/S, email) need to be confirmed.
 * @param {string} topicArn - The ARN of the topic for which you wish to confirm a subscription.
 */
export const confirmSubscription = async (
  token = "TOKEN",
  topicArn = "TOPIC_ARN",
) => {
  const response = await snsClient.send(
    // A subscription only needs to be confirmed if the endpoint type is
    // HTTP/S, email, or in another AWS account.
    new ConfirmSubscriptionCommand({
      Token: token,
      TopicArn: topicArn,
      // If this is true, the subscriber cannot unsubscribe while unauthenticated.
      AuthenticateOnUnsubscribe: "false",
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '4bb5bce9-805a-5517-8333-e1d2cface90b',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   SubscriptionArn: 'arn:aws:sns:us-east-1:xxxxxxxxxxxx:TOPIC_NAME:xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx'
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-sending-sms.html#sending-sms-getattributes). 
+  Untuk detail API, lihat [ConfirmSubscription](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/ConfirmSubscriptionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateTopic`
<a name="sns_CreateTopic_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { CreateTopicCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} topicName - The name of the topic to create.
 */
export const createTopic = async (topicName = "TOPIC_NAME") => {
  const response = await snsClient.send(
    new CreateTopicCommand({ Name: topicName }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '087b8ad2-4593-50c4-a496-d7e90b82cf3e',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   TopicArn: 'arn:aws:sns:us-east-1:xxxxxxxxxxxx:TOPIC_NAME'
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-managing-topics.html#sns-examples-managing-topics-createtopic). 
+  Untuk detail API, lihat [CreateTopic](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/CreateTopicCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteTopic`
<a name="sns_DeleteTopic_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { DeleteTopicCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} topicArn - The ARN of the topic to delete.
 */
export const deleteTopic = async (topicArn = "TOPIC_ARN") => {
  const response = await snsClient.send(
    new DeleteTopicCommand({ TopicArn: topicArn }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: 'a10e2886-5a8f-5114-af36-75bd39498332',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   }
  // }
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-managing-topics.html#sns-examples-managing-topics-deletetopic). 
+  Untuk detail API, lihat [DeleteTopic](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/DeleteTopicCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetSMSAttributes`
<a name="sns_GetSMSAttributes_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSMSAttributes`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { GetSMSAttributesCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

export const getSmsAttributes = async () => {
  const response = await snsClient.send(
    // If you have not modified the account-level mobile settings of SNS,
    // the DefaultSMSType is undefined. For this example, it was set to
    // Transactional.
    new GetSMSAttributesCommand({ attributes: ["DefaultSMSType"] }),
  );

  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '67ad8386-4169-58f1-bdb9-debd281d48d5',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   attributes: { DefaultSMSType: 'Transactional' }
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-subscribing-unubscribing-topics.html#sns-confirm-subscription-email). 
+  Untuk detail API, lihat [Dapatkan SMSAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/GetSMSAttributesCommand) *Referensi AWS SDK untuk JavaScript API*. 

### `GetTopicAttributes`
<a name="sns_GetTopicAttributes_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTopicAttributes`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { GetTopicAttributesCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} topicArn - The ARN of the topic to retrieve attributes for.
 */
export const getTopicAttributes = async (topicArn = "TOPIC_ARN") => {
  const response = await snsClient.send(
    new GetTopicAttributesCommand({
      TopicArn: topicArn,
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '36b6a24e-5473-5d4e-ac32-ff72d9a73d94',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   Attributes: {
  //     Policy: '{...}',
  //     Owner: 'xxxxxxxxxxxx',
  //     SubscriptionsPending: '1',
  //     TopicArn: 'arn:aws:sns:us-east-1:xxxxxxxxxxxx:mytopic',
  //     TracingConfig: 'PassThrough',
  //     EffectiveDeliveryPolicy: '{"http":{"defaultHealthyRetryPolicy":{"minDelayTarget":20,"maxDelayTarget":20,"numRetries":3,"numMaxDelayRetries":0,"numNoDelayRetries":0,"numMinDelayRetries":0,"backoffFunction":"linear"},"disableSubscriptionOverrides":false,"defaultRequestPolicy":{"headerContentType":"text/plain; charset=UTF-8"}}}',
  //     SubscriptionsConfirmed: '0',
  //     DisplayName: '',
  //     SubscriptionsDeleted: '1'
  //   }
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-managing-topics.html#sns-examples-managing-topicsgetttopicattributes). 
+  Untuk detail API, lihat [GetTopicAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/GetTopicAttributesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { ListSubscriptionsByTopicCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} topicArn - The ARN of the topic for which you wish to list subscriptions.
 */
export const listSubscriptionsByTopic = async (topicArn = "TOPIC_ARN") => {
  const response = await snsClient.send(
    new ListSubscriptionsByTopicCommand({ TopicArn: topicArn }),
  );

  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '0934fedf-0c4b-572e-9ed2-a3e38fadb0c8',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   Subscriptions: [
  //     {
  //       SubscriptionArn: 'PendingConfirmation',
  //       Owner: '901487484989',
  //       Protocol: 'email',
  //       Endpoint: 'corepyle@amazon.com',
  //       TopicArn: 'arn:aws:sns:us-east-1:901487484989:mytopic'
  //     }
  //   ]
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-managing-topics.html#sns-examples-managing-topicsgetttopicattributes). 
+  Untuk detail API, lihat [ListSubscriptions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/ListSubscriptionsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListTopics`
<a name="sns_ListTopics_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { ListTopicsCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

export const listTopics = async () => {
  const response = await snsClient.send(new ListTopicsCommand({}));
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '936bc5ad-83ca-53c2-b0b7-9891167b909e',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   Topics: [ { TopicArn: 'arn:aws:sns:us-east-1:xxxxxxxxxxxx:mytopic' } ]
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-managing-topics.html#sns-examples-managing-topics-listtopics). 
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/ListTopicsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `Publish`
<a name="sns_Publish_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { PublishCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string | Record<string, any>} message - The message to send. Can be a plain string or an object
 *                                                 if you are using the `json` `MessageStructure`.
 * @param {string} topicArn - The ARN of the topic to which you would like to publish.
 */
export const publish = async (
  message = "Hello from SNS!",
  topicArn = "TOPIC_ARN",
) => {
  const response = await snsClient.send(
    new PublishCommand({
      Message: message,
      TopicArn: topicArn,
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: 'e7f77526-e295-5325-9ee4-281a43ad1f05',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   MessageId: 'xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx'
  // }
  return response;
};
```
Publikasikan pesan ke topik dengan opsi grup, duplikasi, dan atribut.  

```
  async publishMessages() {
    const message = await this.prompter.input({
      message: MESSAGES.publishMessagePrompt,
    });

    let groupId;
    let deduplicationId;
    let choices;

    if (this.isFifo) {
      await this.logger.log(MESSAGES.groupIdNotice);
      groupId = await this.prompter.input({
        message: MESSAGES.groupIdPrompt,
      });

      if (this.autoDedup === false) {
        await this.logger.log(MESSAGES.deduplicationIdNotice);
        deduplicationId = await this.prompter.input({
          message: MESSAGES.deduplicationIdPrompt,
        });
      }

      choices = await this.prompter.checkbox({
        message: MESSAGES.messageAttributesPrompt,
        choices: toneChoices,
      });
    }

    await this.snsClient.send(
      new PublishCommand({
        TopicArn: this.topicArn,
        Message: message,
        ...(groupId
          ? {
              MessageGroupId: groupId,
            }
          : {}),
        ...(deduplicationId
          ? {
              MessageDeduplicationId: deduplicationId,
            }
          : {}),
        ...(choices
          ? {
              MessageAttributes: {
                tone: {
                  DataType: "String.Array",
                  StringValue: JSON.stringify(choices),
                },
              },
            }
          : {}),
      }),
    );

    const publishAnother = await this.prompter.confirm({
      message: MESSAGES.publishAnother,
    });

    if (publishAnother) {
      await this.publishMessages();
    }
  }
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-publishing-messages.html). 
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/PublishCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### `SetSMSAttributes`
<a name="sns_SetSMSAttributes_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetSMSAttributes`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { SetSMSAttributesCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {"Transactional" | "Promotional"} defaultSmsType
 */
export const setSmsType = async (defaultSmsType = "Transactional") => {
  const response = await snsClient.send(
    new SetSMSAttributesCommand({
      attributes: {
        // Promotional – (Default) Noncritical messages, such as marketing messages.
        // Transactional – Critical messages that support customer transactions,
        // such as one-time passcodes for multi-factor authentication.
        DefaultSMSType: defaultSmsType,
      },
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '1885b977-2d7e-535e-8214-e44be727e265',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   }
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-sending-sms.html#sending-sms-setattributes). 
+  Untuk detail API, lihat [Menyetel SMSAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/SetSMSAttributesCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### `SetTopicAttributes`
<a name="sns_SetTopicAttributes_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetTopicAttributes`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { SetTopicAttributesCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

export const setTopicAttributes = async (
  topicArn = "TOPIC_ARN",
  attributeName = "DisplayName",
  attributeValue = "Test Topic",
) => {
  const response = await snsClient.send(
    new SetTopicAttributesCommand({
      AttributeName: attributeName,
      AttributeValue: attributeValue,
      TopicArn: topicArn,
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: 'd1b08d0e-e9a4-54c3-b8b1-d03238d2b935',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   }
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-managing-topics.html#sns-examples-managing-topicsstttopicattributes). 
+  Untuk detail API, lihat [SetTopicAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/SetTopicAttributesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `Subscribe`
<a name="sns_Subscribe_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { SubscribeCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} topicArn - The ARN of the topic for which you wish to confirm a subscription.
 * @param {string} emailAddress - The email address that is subscribed to the topic.
 */
export const subscribeEmail = async (
  topicArn = "TOPIC_ARN",
  emailAddress = "usern@me.com",
) => {
  const response = await snsClient.send(
    new SubscribeCommand({
      Protocol: "email",
      TopicArn: topicArn,
      Endpoint: emailAddress,
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: 'c8e35bcd-b3c0-5940-9f66-06f6fcc108f0',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   SubscriptionArn: 'pending confirmation'
  // }
};
```
Berlangganan aplikasi seluler ke suatu topik.  

```
import { SubscribeCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} topicArn - The ARN of the topic the subscriber is subscribing to.
 * @param {string} endpoint - The Endpoint ARN of an application. This endpoint is created
 *                            when an application registers for notifications.
 */
export const subscribeApp = async (
  topicArn = "TOPIC_ARN",
  endpoint = "ENDPOINT",
) => {
  const response = await snsClient.send(
    new SubscribeCommand({
      Protocol: "application",
      TopicArn: topicArn,
      Endpoint: endpoint,
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: 'c8e35bcd-b3c0-5940-9f66-06f6fcc108f0',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   SubscriptionArn: 'pending confirmation'
  // }
  return response;
};
```
Berlangganan fungsi Lambda ke suatu topik.  

```
import { SubscribeCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} topicArn - The ARN of the topic the subscriber is subscribing to.
 * @param {string} endpoint - The Endpoint ARN of and AWS Lambda function.
 */
export const subscribeLambda = async (
  topicArn = "TOPIC_ARN",
  endpoint = "ENDPOINT",
) => {
  const response = await snsClient.send(
    new SubscribeCommand({
      Protocol: "lambda",
      TopicArn: topicArn,
      Endpoint: endpoint,
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: 'c8e35bcd-b3c0-5940-9f66-06f6fcc108f0',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   SubscriptionArn: 'pending confirmation'
  // }
  return response;
};
```
Berlangganan antrian SQS ke suatu topik.  

```
import { SubscribeCommand, SNSClient } from "@aws-sdk/client-sns";

const client = new SNSClient({});

export const subscribeQueue = async (
  topicArn = "TOPIC_ARN",
  queueArn = "QUEUE_ARN",
) => {
  const command = new SubscribeCommand({
    TopicArn: topicArn,
    Protocol: "sqs",
    Endpoint: queueArn,
  });

  const response = await client.send(command);
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '931e13d9-5e2b-543f-8781-4e9e494c5ff2',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   SubscriptionArn: 'arn:aws:sns:us-east-1:xxxxxxxxxxxx:subscribe-queue-test-430895:xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx'
  // }
  return response;
};
```
Berlangganan dengan filter ke topik.  

```
import { SubscribeCommand, SNSClient } from "@aws-sdk/client-sns";

const client = new SNSClient({});

export const subscribeQueueFiltered = async (
  topicArn = "TOPIC_ARN",
  queueArn = "QUEUE_ARN",
) => {
  const command = new SubscribeCommand({
    TopicArn: topicArn,
    Protocol: "sqs",
    Endpoint: queueArn,
    Attributes: {
      // This subscription will only receive messages with the 'event' attribute set to 'order_placed'.
      FilterPolicyScope: "MessageAttributes",
      FilterPolicy: JSON.stringify({
        event: ["order_placed"],
      }),
    },
  });

  const response = await client.send(command);
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '931e13d9-5e2b-543f-8781-4e9e494c5ff2',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   SubscriptionArn: 'arn:aws:sns:us-east-1:xxxxxxxxxxxx:subscribe-queue-test-430895:xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx'
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-managing-topics.html#sns-examples-subscribing-email). 
+  Untuk detail API, lihat [Berlangganan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/SubscribeCommand) di *Referensi AWS SDK untuk JavaScript API*. 

### `Unsubscribe`
<a name="sns_Unsubscribe_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sns#code-examples). 
Buat klien dalam modul terpisah dan ekspor klien tersebut.  

```
import { SNSClient } from "@aws-sdk/client-sns";

// The AWS Region can be provided here using the `region` property. If you leave it blank
// the SDK will default to the region set in your AWS config.
export const snsClient = new SNSClient({});
```
Mengimpor modul SDK dan klien dan memanggil API.  

```
import { UnsubscribeCommand } from "@aws-sdk/client-sns";
import { snsClient } from "../libs/snsClient.js";

/**
 * @param {string} subscriptionArn - The ARN of the subscription to cancel.
 */
const unsubscribe = async (
  subscriptionArn = "arn:aws:sns:us-east-1:xxxxxxxxxxxx:mytopic:xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx",
) => {
  const response = await snsClient.send(
    new UnsubscribeCommand({
      SubscriptionArn: subscriptionArn,
    }),
  );
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '0178259a-9204-507c-b620-78a7570a44c6',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   }
  // }
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sns-examples-managing-topics.html#sns-examples-unsubscribing). 
+  Untuk detail API, lihat [Berhenti berlangganan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/UnsubscribeCommand) di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi untuk mengirimkan data ke tabel DynamoDB
<a name="cross_SubmitDataApp_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang mengirimkan data ke tabel Amazon DynamoDB dan memberi tahu Anda saat pengguna memperbarui tabel.

**SDK untuk JavaScript (v3)**  
 Contoh ini menunjukkan cara membangun aplikasi yang memungkinkan pengguna mengirimkan data ke tabel Amazon DynamoDB, dan mengirim pesan teks ke administrator menggunakan Amazon Simple Notification Service (Amazon SNS).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/submit-data-app).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/cross-service-example-submitting-data.html).  

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SNS

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/photo-asset-manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan aplikasi AWS SDK untuk JavaScript untuk membangun aplikasi React yang menggunakan Amazon Textract untuk mengekstrak data dari gambar dokumen dan menampilkannya di halaman web interaktif. Contoh ini berjalan di peramban web dan memerlukan identitas Amazon Cognito yang diautentikasi sebagai kredensialnya. Contoh ini menggunakan Amazon Simple Storage Service (Amazon S3) untuk penyimpanan, dan untuk notifikasi, contoh ini mengambil polling antrean Amazon Simple Queue Service (Amazon SQS) yang berlangganan topik Amazon Simple Notification Service (Amazon SNS).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/textract-react).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-topics-queues#code-examples). 
Ini adalah titik masuk untuk skenario ini.  

```
import { SNSClient } from "@aws-sdk/client-sns";
import { SQSClient } from "@aws-sdk/client-sqs";

import { TopicsQueuesWkflw } from "./TopicsQueuesWkflw.js";
import { Prompter } from "@aws-doc-sdk-examples/lib/prompter.js";

export const startSnsWorkflow = () => {
  const snsClient = new SNSClient({});
  const sqsClient = new SQSClient({});
  const prompter = new Prompter();
  const logger = console;

  const wkflw = new TopicsQueuesWkflw(snsClient, sqsClient, prompter, logger);

  wkflw.start();
};
```
Kode sebelumnya menyediakan dependensi yang diperlukan dan memulai skenario. Bagian selanjutnya berisi sebagian besar contoh.  

```
const toneChoices = [
  { name: "cheerful", value: "cheerful" },
  { name: "funny", value: "funny" },
  { name: "serious", value: "serious" },
  { name: "sincere", value: "sincere" },
];

export class TopicsQueuesWkflw {
  // SNS topic is configured as First-In-First-Out
  isFifo = true;

  // Automatic content-based deduplication is enabled.
  autoDedup = false;

  snsClient;
  sqsClient;
  topicName;
  topicArn;
  subscriptionArns = [];
  /**
   * @type {{ queueName: string, queueArn: string, queueUrl: string, policy?: string }[]}
   */
  queues = [];
  prompter;

  /**
   * @param {import('@aws-sdk/client-sns').SNSClient} snsClient
   * @param {import('@aws-sdk/client-sqs').SQSClient} sqsClient
   * @param {import('../../libs/prompter.js').Prompter} prompter
   * @param {import('../../libs/logger.js').Logger} logger
   */
  constructor(snsClient, sqsClient, prompter, logger) {
    this.snsClient = snsClient;
    this.sqsClient = sqsClient;
    this.prompter = prompter;
    this.logger = logger;
  }

  async welcome() {
    await this.logger.log(MESSAGES.description);
  }

  async confirmFifo() {
    await this.logger.log(MESSAGES.snsFifoDescription);
    this.isFifo = await this.prompter.confirm({
      message: MESSAGES.snsFifoPrompt,
    });

    if (this.isFifo) {
      this.logger.logSeparator(MESSAGES.headerDedup);
      await this.logger.log(MESSAGES.deduplicationNotice);
      await this.logger.log(MESSAGES.deduplicationDescription);
      this.autoDedup = await this.prompter.confirm({
        message: MESSAGES.deduplicationPrompt,
      });
    }
  }

  async createTopic() {
    await this.logger.log(MESSAGES.creatingTopics);
    this.topicName = await this.prompter.input({
      message: MESSAGES.topicNamePrompt,
    });
    if (this.isFifo) {
      this.topicName += ".fifo";
      this.logger.logSeparator(MESSAGES.headerFifoNaming);
      await this.logger.log(MESSAGES.appendFifoNotice);
    }

    const response = await this.snsClient.send(
      new CreateTopicCommand({
        Name: this.topicName,
        Attributes: {
          FifoTopic: this.isFifo ? "true" : "false",
          ...(this.autoDedup ? { ContentBasedDeduplication: "true" } : {}),
        },
      }),
    );

    this.topicArn = response.TopicArn;

    await this.logger.log(
      MESSAGES.topicCreatedNotice
        .replace("${TOPIC_NAME}", this.topicName)
        .replace("${TOPIC_ARN}", this.topicArn),
    );
  }

  async createQueues() {
    await this.logger.log(MESSAGES.createQueuesNotice);
    // Increase this number to add more queues.
    const maxQueues = 2;

    for (let i = 0; i < maxQueues; i++) {
      await this.logger.log(MESSAGES.queueCount.replace("${COUNT}", i + 1));
      let queueName = await this.prompter.input({
        message: MESSAGES.queueNamePrompt.replace(
          "${EXAMPLE_NAME}",
          i === 0 ? "good-news" : "bad-news",
        ),
      });

      if (this.isFifo) {
        queueName += ".fifo";
        await this.logger.log(MESSAGES.appendFifoNotice);
      }

      const response = await this.sqsClient.send(
        new CreateQueueCommand({
          QueueName: queueName,
          Attributes: { ...(this.isFifo ? { FifoQueue: "true" } : {}) },
        }),
      );

      const { Attributes } = await this.sqsClient.send(
        new GetQueueAttributesCommand({
          QueueUrl: response.QueueUrl,
          AttributeNames: ["QueueArn"],
        }),
      );

      this.queues.push({
        queueName,
        queueArn: Attributes.QueueArn,
        queueUrl: response.QueueUrl,
      });

      await this.logger.log(
        MESSAGES.queueCreatedNotice
          .replace("${QUEUE_NAME}", queueName)
          .replace("${QUEUE_URL}", response.QueueUrl)
          .replace("${QUEUE_ARN}", Attributes.QueueArn),
      );
    }
  }

  async attachQueueIamPolicies() {
    for (const [index, queue] of this.queues.entries()) {
      const policy = JSON.stringify(
        {
          Statement: [
            {
              Effect: "Allow",
              Principal: {
                Service: "sns.amazonaws.com",
              },
              Action: "sqs:SendMessage",
              Resource: queue.queueArn,
              Condition: {
                ArnEquals: {
                  "aws:SourceArn": this.topicArn,
                },
              },
            },
          ],
        },
        null,
        2,
      );

      if (index !== 0) {
        this.logger.logSeparator();
      }

      await this.logger.log(MESSAGES.attachPolicyNotice);
      console.log(policy);
      const addPolicy = await this.prompter.confirm({
        message: MESSAGES.addPolicyConfirmation.replace(
          "${QUEUE_NAME}",
          queue.queueName,
        ),
      });

      if (addPolicy) {
        await this.sqsClient.send(
          new SetQueueAttributesCommand({
            QueueUrl: queue.queueUrl,
            Attributes: {
              Policy: policy,
            },
          }),
        );
        queue.policy = policy;
      } else {
        await this.logger.log(
          MESSAGES.policyNotAttachedNotice.replace(
            "${QUEUE_NAME}",
            queue.queueName,
          ),
        );
      }
    }
  }

  async subscribeQueuesToTopic() {
    for (const [index, queue] of this.queues.entries()) {
      /**
       * @type {import('@aws-sdk/client-sns').SubscribeCommandInput}
       */
      const subscribeParams = {
        TopicArn: this.topicArn,
        Protocol: "sqs",
        Endpoint: queue.queueArn,
      };
      let tones = [];

      if (this.isFifo) {
        if (index === 0) {
          await this.logger.log(MESSAGES.fifoFilterNotice);
        }
        tones = await this.prompter.checkbox({
          message: MESSAGES.fifoFilterSelect.replace(
            "${QUEUE_NAME}",
            queue.queueName,
          ),
          choices: toneChoices,
        });

        if (tones.length) {
          subscribeParams.Attributes = {
            FilterPolicyScope: "MessageAttributes",
            FilterPolicy: JSON.stringify({
              tone: tones,
            }),
          };
        }
      }

      const { SubscriptionArn } = await this.snsClient.send(
        new SubscribeCommand(subscribeParams),
      );

      this.subscriptionArns.push(SubscriptionArn);

      await this.logger.log(
        MESSAGES.queueSubscribedNotice
          .replace("${QUEUE_NAME}", queue.queueName)
          .replace("${TOPIC_NAME}", this.topicName)
          .replace("${TONES}", tones.length ? tones.join(", ") : "none"),
      );
    }
  }

  async publishMessages() {
    const message = await this.prompter.input({
      message: MESSAGES.publishMessagePrompt,
    });

    let groupId;
    let deduplicationId;
    let choices;

    if (this.isFifo) {
      await this.logger.log(MESSAGES.groupIdNotice);
      groupId = await this.prompter.input({
        message: MESSAGES.groupIdPrompt,
      });

      if (this.autoDedup === false) {
        await this.logger.log(MESSAGES.deduplicationIdNotice);
        deduplicationId = await this.prompter.input({
          message: MESSAGES.deduplicationIdPrompt,
        });
      }

      choices = await this.prompter.checkbox({
        message: MESSAGES.messageAttributesPrompt,
        choices: toneChoices,
      });
    }

    await this.snsClient.send(
      new PublishCommand({
        TopicArn: this.topicArn,
        Message: message,
        ...(groupId
          ? {
              MessageGroupId: groupId,
            }
          : {}),
        ...(deduplicationId
          ? {
              MessageDeduplicationId: deduplicationId,
            }
          : {}),
        ...(choices
          ? {
              MessageAttributes: {
                tone: {
                  DataType: "String.Array",
                  StringValue: JSON.stringify(choices),
                },
              },
            }
          : {}),
      }),
    );

    const publishAnother = await this.prompter.confirm({
      message: MESSAGES.publishAnother,
    });

    if (publishAnother) {
      await this.publishMessages();
    }
  }

  async receiveAndDeleteMessages() {
    for (const queue of this.queues) {
      const { Messages } = await this.sqsClient.send(
        new ReceiveMessageCommand({
          QueueUrl: queue.queueUrl,
        }),
      );

      if (Messages) {
        await this.logger.log(
          MESSAGES.messagesReceivedNotice.replace(
            "${QUEUE_NAME}",
            queue.queueName,
          ),
        );
        console.log(Messages);

        await this.sqsClient.send(
          new DeleteMessageBatchCommand({
            QueueUrl: queue.queueUrl,
            Entries: Messages.map((message) => ({
              Id: message.MessageId,
              ReceiptHandle: message.ReceiptHandle,
            })),
          }),
        );
      } else {
        await this.logger.log(
          MESSAGES.noMessagesReceivedNotice.replace(
            "${QUEUE_NAME}",
            queue.queueName,
          ),
        );
      }
    }

    const deleteAndPoll = await this.prompter.confirm({
      message: MESSAGES.deleteAndPollConfirmation,
    });

    if (deleteAndPoll) {
      await this.receiveAndDeleteMessages();
    }
  }

  async destroyResources() {
    for (const subscriptionArn of this.subscriptionArns) {
      await this.snsClient.send(
        new UnsubscribeCommand({ SubscriptionArn: subscriptionArn }),
      );
    }

    for (const queue of this.queues) {
      await this.sqsClient.send(
        new DeleteQueueCommand({ QueueUrl: queue.queueUrl }),
      );
    }

    if (this.topicArn) {
      await this.snsClient.send(
        new DeleteTopicCommand({ TopicArn: this.topicArn }),
      );
    }
  }

  async start() {
    console.clear();

    try {
      this.logger.logSeparator(MESSAGES.headerWelcome);
      await this.welcome();
      this.logger.logSeparator(MESSAGES.headerFifo);
      await this.confirmFifo();
      this.logger.logSeparator(MESSAGES.headerCreateTopic);
      await this.createTopic();
      this.logger.logSeparator(MESSAGES.headerCreateQueues);
      await this.createQueues();
      this.logger.logSeparator(MESSAGES.headerAttachPolicy);
      await this.attachQueueIamPolicies();
      this.logger.logSeparator(MESSAGES.headerSubscribeQueues);
      await this.subscribeQueuesToTopic();
      this.logger.logSeparator(MESSAGES.headerPublishMessage);
      await this.publishMessages();
      this.logger.logSeparator(MESSAGES.headerReceiveMessages);
      await this.receiveAndDeleteMessages();
    } catch (err) {
      console.error(err);
    } finally {
      await this.destroyResources();
    }
  }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CreateQueue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/CreateQueueCommand)
  + [CreateTopic](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/CreateTopicCommand)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/DeleteMessageBatchCommand)
  + [DeleteQueue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/DeleteQueueCommand)
  + [DeleteTopic](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/DeleteTopicCommand)
  + [GetQueueAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/GetQueueAttributesCommand)
  + [Publikasikan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/PublishCommand)
  + [ReceiveMessage](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/ReceiveMessageCommand)
  + [SetQueueAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/SetQueueAttributesCommand)
  + [Berlangganan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/SubscribeCommand)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/UnsubscribeCommand)

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat AWS Lambda fungsi dengan menggunakan API JavaScript runtime Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat fungsi Lambda yang diinvokasi oleh Amazon API Gateway yang memindai peringatan hari jadi kerja di tabel Amazon DynamoDB dan menggunakan Amazon Simple Notification Service (Amazon SNS) untuk mengirim pesan teks berisi ucapan selamat kepada karyawan Anda pada tanggal hari jadi kerja satu tahun mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-api-gateway).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/api-gateway-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda menggunakan API runtime JavaScript Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/lambda-scheduled-events).   
Contoh ini juga tersedia di [panduan developer AWS SDK untuk JavaScript v3](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/scheduled-events-invoking-lambda-example.html).  

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/blob/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan JavaScript Lambda menggunakan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
  for (const record of event.Records) {
    await processMessageAsync(record);
  }
  console.info("done");
};

async function processMessageAsync(record) {
  try {
    const message = JSON.stringify(record.Sns.Message);
    console.log(`Processed message ${message}`);
    await Promise.resolve(1); //Placeholder for actual async work
  } catch (err) {
    console.error("An error occurred");
    throw err;
  }
}
```
Mengkonsumsi acara SNS dengan TypeScript Lambda menggunakan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { SNSEvent, Context, SNSHandler, SNSEventRecord } from "aws-lambda";

export const functionHandler: SNSHandler = async (
  event: SNSEvent,
  context: Context
): Promise<void> => {
  for (const record of event.Records) {
    await processMessageAsync(record);
  }
  console.info("done");
};

async function processMessageAsync(record: SNSEventRecord): Promise<any> {
  try {
    const message: string = JSON.stringify(record.Sns.Message);
    console.log(`Processed message ${message}`);
    await Promise.resolve(1); //Placeholder for actual async work
  } catch (err) {
    console.error("An error occurred");
    throw err;
  }
}
```

# Contoh Amazon SQS menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon SQS
<a name="sqs_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SQS.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Inisialisasi klien Amazon SQS dan daftar antrian.  

```
import { SQSClient, paginateListQueues } from "@aws-sdk/client-sqs";

export const helloSqs = async () => {
  // The configuration object (`{}`) is required. If the region and credentials
  // are omitted, the SDK uses your local configuration if it exists.
  const client = new SQSClient({});

  // You can also use `ListQueuesCommand`, but to use that command you must
  // handle the pagination yourself. You can do that by sending the `ListQueuesCommand`
  // with the `NextToken` parameter from the previous request.
  const paginatedQueues = paginateListQueues({ client }, {});
  const queues = [];

  for await (const page of paginatedQueues) {
    if (page.QueueUrls?.length) {
      queues.push(...page.QueueUrls);
    }
  }

  const suffix = queues.length === 1 ? "" : "s";

  console.log(
    `Hello, Amazon SQS! You have ${queues.length} queue${suffix} in your account.`,
  );
  console.log(queues.map((t) => `  * ${t}`).join("\n"));
};
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/ListQueuesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Tindakan
<a name="actions"></a>

### `ChangeMessageVisibility`
<a name="sqs_ChangeMessageVisibility_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ChangeMessageVisibility`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Terima pesan Amazon SQS dan ubah visibilitas batas waktunya.  

```
import {
  ReceiveMessageCommand,
  ChangeMessageVisibilityCommand,
  SQSClient,
} from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue_url";

const receiveMessage = (queueUrl) =>
  client.send(
    new ReceiveMessageCommand({
      AttributeNames: ["SentTimestamp"],
      MaxNumberOfMessages: 1,
      MessageAttributeNames: ["All"],
      QueueUrl: queueUrl,
      WaitTimeSeconds: 1,
    }),
  );

export const main = async (queueUrl = SQS_QUEUE_URL) => {
  const { Messages } = await receiveMessage(queueUrl);

  const response = await client.send(
    new ChangeMessageVisibilityCommand({
      QueueUrl: queueUrl,
      ReceiptHandle: Messages[0].ReceiptHandle,
      VisibilityTimeout: 20,
    }),
  );
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [ChangeMessageVisibility](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/ChangeMessageVisibilityCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateQueue`
<a name="sqs_CreateQueue_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Buat antrean standar Amazon SQS.  

```
import { CreateQueueCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_NAME = "test-queue";

export const main = async (sqsQueueName = SQS_QUEUE_NAME) => {
  const command = new CreateQueueCommand({
    QueueName: sqsQueueName,
    Attributes: {
      DelaySeconds: "60",
      MessageRetentionPeriod: "86400",
    },
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
Buat antrian Amazon SQS dengan polling panjang.  

```
import { CreateQueueCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_NAME = "queue_name";

export const main = async (queueName = SQS_QUEUE_NAME) => {
  const response = await client.send(
    new CreateQueueCommand({
      QueueName: queueName,
      Attributes: {
        // When the wait time for the ReceiveMessage API action is greater than 0,
        // long polling is in effect. The maximum long polling wait time is 20
        // seconds. Long polling helps reduce the cost of using Amazon SQS by,
        // eliminating the number of empty responses and false empty responses.
        // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-short-and-long-polling.html
        ReceiveMessageWaitTimeSeconds: "20",
      },
    }),
  );
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sqs-examples-using-queues.html#sqs-examples-using-queues-create-queue). 
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/CreateQueueCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteMessage`
<a name="sqs_DeleteMessage_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessage`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Menerima dan menghapus pesan Amazon SQS.  

```
import {
  ReceiveMessageCommand,
  DeleteMessageCommand,
  SQSClient,
  DeleteMessageBatchCommand,
} from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue_url";

const receiveMessage = (queueUrl) =>
  client.send(
    new ReceiveMessageCommand({
      AttributeNames: ["SentTimestamp"],
      MaxNumberOfMessages: 10,
      MessageAttributeNames: ["All"],
      QueueUrl: queueUrl,
      WaitTimeSeconds: 20,
      VisibilityTimeout: 20,
    }),
  );

export const main = async (queueUrl = SQS_QUEUE_URL) => {
  const { Messages } = await receiveMessage(queueUrl);

  if (!Messages) {
    return;
  }

  if (Messages.length === 1) {
    console.log(Messages[0].Body);
    await client.send(
      new DeleteMessageCommand({
        QueueUrl: queueUrl,
        ReceiptHandle: Messages[0].ReceiptHandle,
      }),
    );
  } else {
    await client.send(
      new DeleteMessageBatchCommand({
        QueueUrl: queueUrl,
        Entries: Messages.map((message) => ({
          Id: message.MessageId,
          ReceiptHandle: message.ReceiptHandle,
        })),
      }),
    );
  }
};
```
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/DeleteMessageCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteMessageBatch`
<a name="sqs_DeleteMessageBatch_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessageBatch`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 

```
import {
  ReceiveMessageCommand,
  DeleteMessageCommand,
  SQSClient,
  DeleteMessageBatchCommand,
} from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue_url";

const receiveMessage = (queueUrl) =>
  client.send(
    new ReceiveMessageCommand({
      AttributeNames: ["SentTimestamp"],
      MaxNumberOfMessages: 10,
      MessageAttributeNames: ["All"],
      QueueUrl: queueUrl,
      WaitTimeSeconds: 20,
      VisibilityTimeout: 20,
    }),
  );

export const main = async (queueUrl = SQS_QUEUE_URL) => {
  const { Messages } = await receiveMessage(queueUrl);

  if (!Messages) {
    return;
  }

  if (Messages.length === 1) {
    console.log(Messages[0].Body);
    await client.send(
      new DeleteMessageCommand({
        QueueUrl: queueUrl,
        ReceiptHandle: Messages[0].ReceiptHandle,
      }),
    );
  } else {
    await client.send(
      new DeleteMessageBatchCommand({
        QueueUrl: queueUrl,
        Entries: Messages.map((message) => ({
          Id: message.MessageId,
          ReceiptHandle: message.ReceiptHandle,
        })),
      }),
    );
  }
};
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/DeleteMessageBatchCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Hapus antrian Amazon SQS.  

```
import { DeleteQueueCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "test-queue-url";

export const main = async (queueUrl = SQS_QUEUE_URL) => {
  const command = new DeleteQueueCommand({ QueueUrl: queueUrl });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sqs-examples-using-queues.html#sqs-examples-using-queues-delete-queue). 
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/DeleteQueueCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetQueueAttributes`
<a name="sqs_GetQueueAttributes_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueAttributes`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 

```
import { GetQueueAttributesCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue-url";

export const getQueueAttributes = async (queueUrl = SQS_QUEUE_URL) => {
  const command = new GetQueueAttributesCommand({
    QueueUrl: queueUrl,
    AttributeNames: ["DelaySeconds"],
  });

  const response = await client.send(command);
  console.log(response);
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '747a1192-c334-5682-a508-4cd5e8dc4e79',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   Attributes: { DelaySeconds: '1' }
  // }
  return response;
};
```
+  Untuk detail API, lihat [GetQueueAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/GetQueueAttributesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `GetQueueUrl`
<a name="sqs_GetQueueUrl_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueUrl`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Dapatkan URL untuk antrean Amazon SQS.  

```
import { GetQueueUrlCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_NAME = "test-queue";

export const main = async (queueName = SQS_QUEUE_NAME) => {
  const command = new GetQueueUrlCommand({ QueueName: queueName });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sqs-examples-using-queues.html#sqs-examples-using-queues-get-queue-url). 
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/GetQueueUrlCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListQueues`
<a name="sqs_ListQueues_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Buat daftar antrian Amazon SQS Anda.  

```
import { paginateListQueues, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});

export const main = async () => {
  const paginatedListQueues = paginateListQueues({ client }, {});

  /** @type {string[]} */
  const urls = [];
  for await (const page of paginatedListQueues) {
    const nextUrls = page.QueueUrls?.filter((qurl) => !!qurl) || [];
    urls.push(...nextUrls);
    for (const url of urls) {
      console.log(url);
    }
  }

  return urls;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sqs-examples-using-queues.html#sqs-examples-using-queues-listing-queues). 
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/ListQueuesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Menerima pesan dari antrian Amazon SQS.  

```
import {
  ReceiveMessageCommand,
  DeleteMessageCommand,
  SQSClient,
  DeleteMessageBatchCommand,
} from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue_url";

const receiveMessage = (queueUrl) =>
  client.send(
    new ReceiveMessageCommand({
      AttributeNames: ["SentTimestamp"],
      MaxNumberOfMessages: 10,
      MessageAttributeNames: ["All"],
      QueueUrl: queueUrl,
      WaitTimeSeconds: 20,
      VisibilityTimeout: 20,
    }),
  );

export const main = async (queueUrl = SQS_QUEUE_URL) => {
  const { Messages } = await receiveMessage(queueUrl);

  if (!Messages) {
    return;
  }

  if (Messages.length === 1) {
    console.log(Messages[0].Body);
    await client.send(
      new DeleteMessageCommand({
        QueueUrl: queueUrl,
        ReceiptHandle: Messages[0].ReceiptHandle,
      }),
    );
  } else {
    await client.send(
      new DeleteMessageBatchCommand({
        QueueUrl: queueUrl,
        Entries: Messages.map((message) => ({
          Id: message.MessageId,
          ReceiptHandle: message.ReceiptHandle,
        })),
      }),
    );
  }
};
```
Menerima pesan dari antrian Amazon SQS menggunakan dukungan polling panjang.  

```
import { ReceiveMessageCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue-url";

export const main = async (queueUrl = SQS_QUEUE_URL) => {
  const command = new ReceiveMessageCommand({
    AttributeNames: ["SentTimestamp"],
    MaxNumberOfMessages: 1,
    MessageAttributeNames: ["All"],
    QueueUrl: queueUrl,
    // The duration (in seconds) for which the call waits for a message
    // to arrive in the queue before returning. If a message is available,
    // the call returns sooner than WaitTimeSeconds. If no messages are
    // available and the wait time expires, the call returns successfully
    // with an empty list of messages.
    // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/APIReference/API_ReceiveMessage.html#API_ReceiveMessage_RequestSyntax
    WaitTimeSeconds: 20,
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/ReceiveMessageCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `SendMessage`
<a name="sqs_SendMessage_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 
Kirim pesan ke antrian Amazon SQS.  

```
import { SendMessageCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue_url";

export const main = async (sqsQueueUrl = SQS_QUEUE_URL) => {
  const command = new SendMessageCommand({
    QueueUrl: sqsQueueUrl,
    DelaySeconds: 10,
    MessageAttributes: {
      Title: {
        DataType: "String",
        StringValue: "The Whistler",
      },
      Author: {
        DataType: "String",
        StringValue: "John Grisham",
      },
      WeeksOn: {
        DataType: "Number",
        StringValue: "6",
      },
    },
    MessageBody:
      "Information about current NY Times fiction bestseller for week of 12/11/2016.",
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/sqs-examples-send-receive-messages.html#sqs-examples-send-receive-messages-sending). 
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/SendMessageCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `SetQueueAttributes`
<a name="sqs_SetQueueAttributes_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetQueueAttributes`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sqs#code-examples). 

```
import { SetQueueAttributesCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue-url";

export const main = async (queueUrl = SQS_QUEUE_URL) => {
  const command = new SetQueueAttributesCommand({
    QueueUrl: queueUrl,
    Attributes: {
      DelaySeconds: "1",
    },
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
Konfigurasikan antrian Amazon SQS untuk menggunakan polling panjang.  

```
import { SetQueueAttributesCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue_url";

export const main = async (queueUrl = SQS_QUEUE_URL) => {
  const command = new SetQueueAttributesCommand({
    Attributes: {
      ReceiveMessageWaitTimeSeconds: "20",
    },
    QueueUrl: queueUrl,
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
Konfigurasikan antrian huruf mati.  

```
import { SetQueueAttributesCommand, SQSClient } from "@aws-sdk/client-sqs";

const client = new SQSClient({});
const SQS_QUEUE_URL = "queue_url";
const DEAD_LETTER_QUEUE_ARN = "dead_letter_queue_arn";

export const main = async (
  queueUrl = SQS_QUEUE_URL,
  deadLetterQueueArn = DEAD_LETTER_QUEUE_ARN,
) => {
  const command = new SetQueueAttributesCommand({
    Attributes: {
      RedrivePolicy: JSON.stringify({
        // Amazon SQS supports dead-letter queues (DLQ), which other
        // queues (source queues) can target for messages that can't
        // be processed (consumed) successfully.
        // https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-dead-letter-queues.html
        deadLetterTargetArn: deadLetterQueueArn,
        maxReceiveCount: "10",
      }),
    },
    QueueUrl: queueUrl,
  });

  const response = await client.send(command);
  console.log(response);
  return response;
};
```
+  Untuk detail API, lihat [SetQueueAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/SetQueueAttributesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan aplikasi AWS SDK untuk JavaScript untuk membangun aplikasi React yang menggunakan Amazon Textract untuk mengekstrak data dari gambar dokumen dan menampilkannya di halaman web interaktif. Contoh ini berjalan di peramban web dan memerlukan identitas Amazon Cognito yang diautentikasi sebagai kredensialnya. Contoh ini menggunakan Amazon Simple Storage Service (Amazon S3) untuk penyimpanan, dan untuk notifikasi, contoh ini mengambil polling antrean Amazon Simple Queue Service (Amazon SQS) yang berlangganan topik Amazon Simple Notification Service (Amazon SNS).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/textract-react).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-topics-queues#code-examples). 
Ini adalah titik masuk untuk skenario ini.  

```
import { SNSClient } from "@aws-sdk/client-sns";
import { SQSClient } from "@aws-sdk/client-sqs";

import { TopicsQueuesWkflw } from "./TopicsQueuesWkflw.js";
import { Prompter } from "@aws-doc-sdk-examples/lib/prompter.js";

export const startSnsWorkflow = () => {
  const snsClient = new SNSClient({});
  const sqsClient = new SQSClient({});
  const prompter = new Prompter();
  const logger = console;

  const wkflw = new TopicsQueuesWkflw(snsClient, sqsClient, prompter, logger);

  wkflw.start();
};
```
Kode sebelumnya menyediakan dependensi yang diperlukan dan memulai skenario. Bagian selanjutnya berisi sebagian besar contoh.  

```
const toneChoices = [
  { name: "cheerful", value: "cheerful" },
  { name: "funny", value: "funny" },
  { name: "serious", value: "serious" },
  { name: "sincere", value: "sincere" },
];

export class TopicsQueuesWkflw {
  // SNS topic is configured as First-In-First-Out
  isFifo = true;

  // Automatic content-based deduplication is enabled.
  autoDedup = false;

  snsClient;
  sqsClient;
  topicName;
  topicArn;
  subscriptionArns = [];
  /**
   * @type {{ queueName: string, queueArn: string, queueUrl: string, policy?: string }[]}
   */
  queues = [];
  prompter;

  /**
   * @param {import('@aws-sdk/client-sns').SNSClient} snsClient
   * @param {import('@aws-sdk/client-sqs').SQSClient} sqsClient
   * @param {import('../../libs/prompter.js').Prompter} prompter
   * @param {import('../../libs/logger.js').Logger} logger
   */
  constructor(snsClient, sqsClient, prompter, logger) {
    this.snsClient = snsClient;
    this.sqsClient = sqsClient;
    this.prompter = prompter;
    this.logger = logger;
  }

  async welcome() {
    await this.logger.log(MESSAGES.description);
  }

  async confirmFifo() {
    await this.logger.log(MESSAGES.snsFifoDescription);
    this.isFifo = await this.prompter.confirm({
      message: MESSAGES.snsFifoPrompt,
    });

    if (this.isFifo) {
      this.logger.logSeparator(MESSAGES.headerDedup);
      await this.logger.log(MESSAGES.deduplicationNotice);
      await this.logger.log(MESSAGES.deduplicationDescription);
      this.autoDedup = await this.prompter.confirm({
        message: MESSAGES.deduplicationPrompt,
      });
    }
  }

  async createTopic() {
    await this.logger.log(MESSAGES.creatingTopics);
    this.topicName = await this.prompter.input({
      message: MESSAGES.topicNamePrompt,
    });
    if (this.isFifo) {
      this.topicName += ".fifo";
      this.logger.logSeparator(MESSAGES.headerFifoNaming);
      await this.logger.log(MESSAGES.appendFifoNotice);
    }

    const response = await this.snsClient.send(
      new CreateTopicCommand({
        Name: this.topicName,
        Attributes: {
          FifoTopic: this.isFifo ? "true" : "false",
          ...(this.autoDedup ? { ContentBasedDeduplication: "true" } : {}),
        },
      }),
    );

    this.topicArn = response.TopicArn;

    await this.logger.log(
      MESSAGES.topicCreatedNotice
        .replace("${TOPIC_NAME}", this.topicName)
        .replace("${TOPIC_ARN}", this.topicArn),
    );
  }

  async createQueues() {
    await this.logger.log(MESSAGES.createQueuesNotice);
    // Increase this number to add more queues.
    const maxQueues = 2;

    for (let i = 0; i < maxQueues; i++) {
      await this.logger.log(MESSAGES.queueCount.replace("${COUNT}", i + 1));
      let queueName = await this.prompter.input({
        message: MESSAGES.queueNamePrompt.replace(
          "${EXAMPLE_NAME}",
          i === 0 ? "good-news" : "bad-news",
        ),
      });

      if (this.isFifo) {
        queueName += ".fifo";
        await this.logger.log(MESSAGES.appendFifoNotice);
      }

      const response = await this.sqsClient.send(
        new CreateQueueCommand({
          QueueName: queueName,
          Attributes: { ...(this.isFifo ? { FifoQueue: "true" } : {}) },
        }),
      );

      const { Attributes } = await this.sqsClient.send(
        new GetQueueAttributesCommand({
          QueueUrl: response.QueueUrl,
          AttributeNames: ["QueueArn"],
        }),
      );

      this.queues.push({
        queueName,
        queueArn: Attributes.QueueArn,
        queueUrl: response.QueueUrl,
      });

      await this.logger.log(
        MESSAGES.queueCreatedNotice
          .replace("${QUEUE_NAME}", queueName)
          .replace("${QUEUE_URL}", response.QueueUrl)
          .replace("${QUEUE_ARN}", Attributes.QueueArn),
      );
    }
  }

  async attachQueueIamPolicies() {
    for (const [index, queue] of this.queues.entries()) {
      const policy = JSON.stringify(
        {
          Statement: [
            {
              Effect: "Allow",
              Principal: {
                Service: "sns.amazonaws.com",
              },
              Action: "sqs:SendMessage",
              Resource: queue.queueArn,
              Condition: {
                ArnEquals: {
                  "aws:SourceArn": this.topicArn,
                },
              },
            },
          ],
        },
        null,
        2,
      );

      if (index !== 0) {
        this.logger.logSeparator();
      }

      await this.logger.log(MESSAGES.attachPolicyNotice);
      console.log(policy);
      const addPolicy = await this.prompter.confirm({
        message: MESSAGES.addPolicyConfirmation.replace(
          "${QUEUE_NAME}",
          queue.queueName,
        ),
      });

      if (addPolicy) {
        await this.sqsClient.send(
          new SetQueueAttributesCommand({
            QueueUrl: queue.queueUrl,
            Attributes: {
              Policy: policy,
            },
          }),
        );
        queue.policy = policy;
      } else {
        await this.logger.log(
          MESSAGES.policyNotAttachedNotice.replace(
            "${QUEUE_NAME}",
            queue.queueName,
          ),
        );
      }
    }
  }

  async subscribeQueuesToTopic() {
    for (const [index, queue] of this.queues.entries()) {
      /**
       * @type {import('@aws-sdk/client-sns').SubscribeCommandInput}
       */
      const subscribeParams = {
        TopicArn: this.topicArn,
        Protocol: "sqs",
        Endpoint: queue.queueArn,
      };
      let tones = [];

      if (this.isFifo) {
        if (index === 0) {
          await this.logger.log(MESSAGES.fifoFilterNotice);
        }
        tones = await this.prompter.checkbox({
          message: MESSAGES.fifoFilterSelect.replace(
            "${QUEUE_NAME}",
            queue.queueName,
          ),
          choices: toneChoices,
        });

        if (tones.length) {
          subscribeParams.Attributes = {
            FilterPolicyScope: "MessageAttributes",
            FilterPolicy: JSON.stringify({
              tone: tones,
            }),
          };
        }
      }

      const { SubscriptionArn } = await this.snsClient.send(
        new SubscribeCommand(subscribeParams),
      );

      this.subscriptionArns.push(SubscriptionArn);

      await this.logger.log(
        MESSAGES.queueSubscribedNotice
          .replace("${QUEUE_NAME}", queue.queueName)
          .replace("${TOPIC_NAME}", this.topicName)
          .replace("${TONES}", tones.length ? tones.join(", ") : "none"),
      );
    }
  }

  async publishMessages() {
    const message = await this.prompter.input({
      message: MESSAGES.publishMessagePrompt,
    });

    let groupId;
    let deduplicationId;
    let choices;

    if (this.isFifo) {
      await this.logger.log(MESSAGES.groupIdNotice);
      groupId = await this.prompter.input({
        message: MESSAGES.groupIdPrompt,
      });

      if (this.autoDedup === false) {
        await this.logger.log(MESSAGES.deduplicationIdNotice);
        deduplicationId = await this.prompter.input({
          message: MESSAGES.deduplicationIdPrompt,
        });
      }

      choices = await this.prompter.checkbox({
        message: MESSAGES.messageAttributesPrompt,
        choices: toneChoices,
      });
    }

    await this.snsClient.send(
      new PublishCommand({
        TopicArn: this.topicArn,
        Message: message,
        ...(groupId
          ? {
              MessageGroupId: groupId,
            }
          : {}),
        ...(deduplicationId
          ? {
              MessageDeduplicationId: deduplicationId,
            }
          : {}),
        ...(choices
          ? {
              MessageAttributes: {
                tone: {
                  DataType: "String.Array",
                  StringValue: JSON.stringify(choices),
                },
              },
            }
          : {}),
      }),
    );

    const publishAnother = await this.prompter.confirm({
      message: MESSAGES.publishAnother,
    });

    if (publishAnother) {
      await this.publishMessages();
    }
  }

  async receiveAndDeleteMessages() {
    for (const queue of this.queues) {
      const { Messages } = await this.sqsClient.send(
        new ReceiveMessageCommand({
          QueueUrl: queue.queueUrl,
        }),
      );

      if (Messages) {
        await this.logger.log(
          MESSAGES.messagesReceivedNotice.replace(
            "${QUEUE_NAME}",
            queue.queueName,
          ),
        );
        console.log(Messages);

        await this.sqsClient.send(
          new DeleteMessageBatchCommand({
            QueueUrl: queue.queueUrl,
            Entries: Messages.map((message) => ({
              Id: message.MessageId,
              ReceiptHandle: message.ReceiptHandle,
            })),
          }),
        );
      } else {
        await this.logger.log(
          MESSAGES.noMessagesReceivedNotice.replace(
            "${QUEUE_NAME}",
            queue.queueName,
          ),
        );
      }
    }

    const deleteAndPoll = await this.prompter.confirm({
      message: MESSAGES.deleteAndPollConfirmation,
    });

    if (deleteAndPoll) {
      await this.receiveAndDeleteMessages();
    }
  }

  async destroyResources() {
    for (const subscriptionArn of this.subscriptionArns) {
      await this.snsClient.send(
        new UnsubscribeCommand({ SubscriptionArn: subscriptionArn }),
      );
    }

    for (const queue of this.queues) {
      await this.sqsClient.send(
        new DeleteQueueCommand({ QueueUrl: queue.queueUrl }),
      );
    }

    if (this.topicArn) {
      await this.snsClient.send(
        new DeleteTopicCommand({ TopicArn: this.topicArn }),
      );
    }
  }

  async start() {
    console.clear();

    try {
      this.logger.logSeparator(MESSAGES.headerWelcome);
      await this.welcome();
      this.logger.logSeparator(MESSAGES.headerFifo);
      await this.confirmFifo();
      this.logger.logSeparator(MESSAGES.headerCreateTopic);
      await this.createTopic();
      this.logger.logSeparator(MESSAGES.headerCreateQueues);
      await this.createQueues();
      this.logger.logSeparator(MESSAGES.headerAttachPolicy);
      await this.attachQueueIamPolicies();
      this.logger.logSeparator(MESSAGES.headerSubscribeQueues);
      await this.subscribeQueuesToTopic();
      this.logger.logSeparator(MESSAGES.headerPublishMessage);
      await this.publishMessages();
      this.logger.logSeparator(MESSAGES.headerReceiveMessages);
      await this.receiveAndDeleteMessages();
    } catch (err) {
      console.error(err);
    } finally {
      await this.destroyResources();
    }
  }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CreateQueue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/CreateQueueCommand)
  + [CreateTopic](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/CreateTopicCommand)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/DeleteMessageBatchCommand)
  + [DeleteQueue](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/DeleteQueueCommand)
  + [DeleteTopic](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/DeleteTopicCommand)
  + [GetQueueAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/GetQueueAttributesCommand)
  + [Publikasikan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/PublishCommand)
  + [ReceiveMessage](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/ReceiveMessageCommand)
  + [SetQueueAttributes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sqs/command/SetQueueAttributesCommand)
  + [Berlangganan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/SubscribeCommand)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sns/command/UnsubscribeCommand)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/blob/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan JavaScript Lambda menggunakan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
exports.handler = async (event, context) => {
  for (const message of event.Records) {
    await processMessageAsync(message);
  }
  console.info("done");
};

async function processMessageAsync(message) {
  try {
    console.log(`Processed message ${message.body}`);
    // TODO: Do interesting work based on the new message
    await Promise.resolve(1); //Placeholder for actual async work
  } catch (err) {
    console.error("An error occurred");
    throw err;
  }
}
```
Mengkonsumsi acara SQS dengan TypeScript Lambda menggunakan.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { SQSEvent, Context, SQSHandler, SQSRecord } from "aws-lambda";

export const functionHandler: SQSHandler = async (
  event: SQSEvent,
  context: Context
): Promise<void> => {
  for (const message of event.Records) {
    await processMessageAsync(message);
  }
  console.info("done");
};

async function processMessageAsync(message: SQSRecord): Promise<any> {
  try {
    console.log(`Processed message ${message.body}`);
    // TODO: Do interesting work based on the new message
    await Promise.resolve(1); //Placeholder for actual async work
  } catch (err) {
    console.error("An error occurred");
    throw err;
  }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan penggunaan JavaScript Lambda.  

```
// Node.js 20.x Lambda runtime, AWS SDK for Javascript V3
export const handler = async (event, context) => {
    const batchItemFailures = [];
    for (const record of event.Records) {
        try {
            await processMessageAsync(record, context);
        } catch (error) {
            batchItemFailures.push({ itemIdentifier: record.messageId });
        }
    }
    return { batchItemFailures };
};

async function processMessageAsync(record, context) {
    if (record.body && record.body.includes("error")) {
        throw new Error("There is an error in the SQS Message.");
    }
    console.log(`Processed message: ${record.body}`);
}
```
Melaporkan kegagalan item batch SQS dengan penggunaan TypeScript Lambda.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import { SQSEvent, SQSBatchResponse, Context, SQSBatchItemFailure, SQSRecord } from 'aws-lambda';

export const handler = async (event: SQSEvent, context: Context): Promise<SQSBatchResponse> => {
    const batchItemFailures: SQSBatchItemFailure[] = [];

    for (const record of event.Records) {
        try {
            await processMessageAsync(record);
        } catch (error) {
            batchItemFailures.push({ itemIdentifier: record.messageId });
        }
    }

    return {batchItemFailures: batchItemFailures};
};

async function processMessageAsync(record: SQSRecord): Promise<void> {
    if (record.body && record.body.includes("error")) {
        throw new Error('There is an error in the SQS Message.');
    }
    console.log(`Processed message ${record.body}`);
}
```

# Contoh Step Functions menggunakan SDK for JavaScript (v3)
<a name="javascript_3_sfn_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Step Functions.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `StartExecution`
<a name="sfn_StartExecution_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartExecution`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sfn#code-examples). 

```
import { SFNClient, StartExecutionCommand } from "@aws-sdk/client-sfn";

/**
 * @param {{ sfnClient: SFNClient, stateMachineArn: string }} config
 */
export async function startExecution({ sfnClient, stateMachineArn }) {
  const response = await sfnClient.send(
    new StartExecutionCommand({
      stateMachineArn,
    }),
  );
  console.log(response);
  // Example response:
  // {
  //   '$metadata': {
  //     httpStatusCode: 200,
  //     requestId: '202a9309-c16a-454b-adeb-c4d19afe3bf2',
  //     extendedRequestId: undefined,
  //     cfId: undefined,
  //     attempts: 1,
  //     totalRetryDelay: 0
  //   },
  //   executionArn: 'arn:aws:states:us-east-1:000000000000:execution:MyStateMachine:aaaaaaaa-f787-49fb-a20c-1b61c64eafe6',
  //   startDate: 2024-01-04T15:54:08.362Z
  // }
  return response;
}

// Call function if run directly
import { fileURLToPath } from "node:url";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  startExecution({ sfnClient: new SFNClient({}), stateMachineArn: "ARN" });
}
```
+  Untuk detail API, lihat [StartExecution](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sfn/command/StartExecutionCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# AWS STS contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/sts#code-examples). 
Buat klien.  

```
import { STSClient } from "@aws-sdk/client-sts";
// Set the AWS Region.
const REGION = "us-east-1";
// Create an AWS STS service client object.
export const client = new STSClient({ region: REGION });
```
Asumsikan peran IAM.  

```
import { AssumeRoleCommand } from "@aws-sdk/client-sts";

import { client } from "../libs/client.js";

export const main = async () => {
  try {
    // Returns a set of temporary security credentials that you can use to
    // access Amazon Web Services resources that you might not normally
    // have access to.
    const command = new AssumeRoleCommand({
      // The Amazon Resource Name (ARN) of the role to assume.
      RoleArn: "ROLE_ARN",
      // An identifier for the assumed role session.
      RoleSessionName: "session1",
      // The duration, in seconds, of the role session. The value specified
      // can range from 900 seconds (15 minutes) up to the maximum session
      // duration set for the role.
      DurationSeconds: 900,
    });
    const response = await client.send(command);
    console.log(response);
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/sts/command/AssumeRoleCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Dukungan contoh menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_support_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) with Dukungan.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Dukungan
<a name="support_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan Dukungan.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 
Panggil `main () `untuk menjalankan contoh.  

```
import {
  DescribeServicesCommand,
  SupportClient,
} from "@aws-sdk/client-support";

// Change the value of 'region' to your preferred AWS Region.
const client = new SupportClient({ region: "us-east-1" });

const getServiceCount = async () => {
  try {
    const { services } = await client.send(new DescribeServicesCommand({}));
    return services.length;
  } catch (err) {
    if (err.name === "SubscriptionRequiredException") {
      throw new Error(
        "You must be subscribed to the AWS Support plan to use this feature.",
      );
    }
    throw err;
  }
};

export const main = async () => {
  try {
    const count = await getServiceCount();
    console.log(`Hello, AWS Support! There are ${count} services available.`);
  } catch (err) {
    console.error("Failed to get service count: ", err.message);
  }
};
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeServicesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="support_Scenario_GetStartedSupportCases_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan dan tampilkan layanan yang tersedia dan tingkat keparahan untuk kasus.
+ Buat kasus dukungan menggunakan layanan, kategori, dan tingkat keparahan yang dipilih.
+ Dapatkan dan tampilkan daftar kasus terbuka untuk hari ini.
+ Tambahkan set lampiran dan komunikasi ke kasus baru.
+ Jelaskan keterikatan dan komunikasi baru untuk kasus ini.
+ Selesaikan kasusnya.
+ Dapatkan dan tampilkan daftar kasus yang diselesaikan untuk hari ini.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 
Jalankan skenario interaktif di terminal.  

```
import {
  AddAttachmentsToSetCommand,
  AddCommunicationToCaseCommand,
  CreateCaseCommand,
  DescribeAttachmentCommand,
  DescribeCasesCommand,
  DescribeCommunicationsCommand,
  DescribeServicesCommand,
  DescribeSeverityLevelsCommand,
  ResolveCaseCommand,
  SupportClient,
} from "@aws-sdk/client-support";
import * as inquirer from "@inquirer/prompts";
import { retry } from "@aws-doc-sdk-examples/lib/utils/util-timers.js";

const wrapText = (text, char = "=") => {
  const rule = char.repeat(80);
  return `${rule}\n    ${text}\n${rule}\n`;
};

const client = new SupportClient({ region: "us-east-1" });

// Verify that the account has a Support plan.
export const verifyAccount = async () => {
  const command = new DescribeServicesCommand({});

  try {
    await client.send(command);
  } catch (err) {
    if (err.name === "SubscriptionRequiredException") {
      throw new Error(
        "You must be subscribed to the AWS Support plan to use this feature.",
      );
    }
    throw err;
  }
};

/**
 * Select a service from the list returned from DescribeServices.
 */
export const getService = async () => {
  const { services } = await client.send(new DescribeServicesCommand({}));
  const selectedService = await inquirer.select({
    message:
      "Select a service. Your support case will be created for this service. The list of services is truncated for readability.",
    choices: services.slice(0, 10).map((s) => ({ name: s.name, value: s })),
  });
  return selectedService;
};

/**
 * @param {{ categories: import('@aws-sdk/client-support').Category[]}} service
 */
export const getCategory = async (service) => {
  const selectedCategory = await inquirer.select({
    message: "Select a category.",
    choices: service.categories.map((c) => ({ name: c.name, value: c })),
  });
  return selectedCategory;
};

// Get the available severity levels for the account.
export const getSeverityLevel = async () => {
  const command = new DescribeSeverityLevelsCommand({});
  const { severityLevels } = await client.send(command);
  const selectedSeverityLevel = await inquirer.select({
    message: "Select a severity level.",
    choices: severityLevels.map((s) => ({ name: s.name, value: s })),
  });
  return selectedSeverityLevel;
};

/**
 * Create a new support case
 * @param {{
 *  selectedService: import('@aws-sdk/client-support').Service
 *  selectedCategory: import('@aws-sdk/client-support').Category
 *  selectedSeverityLevel: import('@aws-sdk/client-support').SeverityLevel
 * }} selections
 * @returns
 */
export const createCase = async ({
  selectedService,
  selectedCategory,
  selectedSeverityLevel,
}) => {
  const command = new CreateCaseCommand({
    subject: "IGNORE: Test case",
    communicationBody: "This is a test. Please ignore.",
    serviceCode: selectedService.code,
    categoryCode: selectedCategory.code,
    severityCode: selectedSeverityLevel.code,
  });
  const { caseId } = await client.send(command);
  return caseId;
};

// Get a list of open support cases created today.
export const getTodaysOpenCases = async () => {
  const d = new Date();
  const startOfToday = new Date(d.getFullYear(), d.getMonth(), d.getDate());
  const command = new DescribeCasesCommand({
    includeCommunications: false,
    afterTime: startOfToday.toISOString(),
  });

  const { cases } = await client.send(command);

  if (cases.length === 0) {
    throw new Error(
      "Unexpected number of cases. Expected more than 0 open cases.",
    );
  }
  return cases;
};

// Create an attachment set.
export const createAttachmentSet = async () => {
  const command = new AddAttachmentsToSetCommand({
    attachments: [
      {
        fileName: "example.txt",
        data: new TextEncoder().encode("some example text"),
      },
    ],
  });
  const { attachmentSetId } = await client.send(command);
  return attachmentSetId;
};

export const linkAttachmentSetToCase = async (attachmentSetId, caseId) => {
  const command = new AddCommunicationToCaseCommand({
    attachmentSetId,
    caseId,
    communicationBody: "Adding attachment set to case.",
  });
  await client.send(command);
};

// Get all communications for a support case.
export const getCommunications = async (caseId) => {
  const command = new DescribeCommunicationsCommand({
    caseId,
  });
  const { communications } = await client.send(command);
  return communications;
};

/**
 * @param {import('@aws-sdk/client-support').Communication[]} communications
 */
export const getFirstAttachment = (communications) => {
  const firstCommWithAttachment = communications.find(
    (c) => c.attachmentSet.length > 0,
  );
  return firstCommWithAttachment?.attachmentSet[0].attachmentId;
};

// Get an attachment.
export const getAttachment = async (attachmentId) => {
  const command = new DescribeAttachmentCommand({
    attachmentId,
  });
  const { attachment } = await client.send(command);
  return attachment;
};

// Resolve the case matching the given case ID.
export const resolveCase = async (caseId) => {
  const shouldResolve = await inquirer.confirm({
    message: `Do you want to resolve ${caseId}?`,
  });

  if (shouldResolve) {
    const command = new ResolveCaseCommand({
      caseId: caseId,
    });

    await client.send(command);
    return true;
  }
  return false;
};

/**
 * Find a specific case in the list of provided cases by case ID.
 * If the case is not found, and the results are paginated, continue
 * paging through the results.
 * @param {{
 *   caseId: string,
 *   cases: import('@aws-sdk/client-support').CaseDetails[]
 *   nextToken: string
 * }} options
 * @returns
 */
export const findCase = async ({ caseId, cases, nextToken }) => {
  const foundCase = cases.find((c) => c.caseId === caseId);

  if (foundCase) {
    return foundCase;
  }

  if (nextToken) {
    const response = await client.send(
      new DescribeCasesCommand({
        nextToken,
        includeResolvedCases: true,
      }),
    );
    return findCase({
      caseId,
      cases: response.cases,
      nextToken: response.nextToken,
    });
  }

  throw new Error(`${caseId} not found.`);
};

// Get all cases created today.
export const getTodaysResolvedCases = async (caseIdToWaitFor) => {
  const d = new Date("2023-01-18");
  const startOfToday = new Date(d.getFullYear(), d.getMonth(), d.getDate());
  const command = new DescribeCasesCommand({
    includeCommunications: false,
    afterTime: startOfToday.toISOString(),
    includeResolvedCases: true,
  });
  const { cases, nextToken } = await client.send(command);
  await findCase({ cases, caseId: caseIdToWaitFor, nextToken });
  return cases.filter((c) => c.status === "resolved");
};

const main = async () => {
  let caseId;
  try {
    console.log(wrapText("Welcome to the AWS Support basic usage scenario."));

    // Verify that the account is subscribed to support.
    await verifyAccount();

    // Provided a truncated list of services and prompt the user to select one.
    const selectedService = await getService();

    // Provided the categories for the selected service and prompt the user to select one.
    const selectedCategory = await getCategory(selectedService);

    // Provide the severity available severity levels for the account and prompt the user to select one.
    const selectedSeverityLevel = await getSeverityLevel();

    // Create a support case.
    console.log("\nCreating a support case.");
    caseId = await createCase({
      selectedService,
      selectedCategory,
      selectedSeverityLevel,
    });
    console.log(`Support case created: ${caseId}`);

    // Display a list of open support cases created today.
    const todaysOpenCases = await retry(
      { intervalInMs: 1000, maxRetries: 15 },
      getTodaysOpenCases,
    );
    console.log(
      `\nOpen support cases created today: ${todaysOpenCases.length}`,
    );
    console.log(todaysOpenCases.map((c) => `${c.caseId}`).join("\n"));

    // Create an attachment set.
    console.log("\nCreating an attachment set.");
    const attachmentSetId = await createAttachmentSet();
    console.log(`Attachment set created: ${attachmentSetId}`);

    // Add the attachment set to the support case.
    console.log(`\nAdding attachment set to ${caseId}`);
    await linkAttachmentSetToCase(attachmentSetId, caseId);
    console.log(`Attachment set added to ${caseId}`);

    // List the communications for a support case.
    console.log(`\nListing communications for ${caseId}`);
    const communications = await getCommunications(caseId);
    console.log(
      communications
        .map(
          (c) =>
            `Communication created on ${c.timeCreated}. Has ${c.attachmentSet.length} attachments.`,
        )
        .join("\n"),
    );

    // Describe the first attachment.
    console.log(`\nDescribing attachment ${attachmentSetId}`);
    const attachmentId = getFirstAttachment(communications);
    const attachment = await getAttachment(attachmentId);
    console.log(
      `Attachment is the file '${
        attachment.fileName
      }' with data: \n${new TextDecoder().decode(attachment.data)}`,
    );

    // Confirm that the support case should be resolved.
    const isResolved = await resolveCase(caseId);
    if (isResolved) {
      // List the resolved cases and include the one previously created.
      // Resolved cases can take a while to appear.
      console.log(
        "\nWaiting for case status to be marked as resolved. This can take some time.",
      );
      const resolvedCases = await retry(
        { intervalInMs: 20000, maxRetries: 15 },
        () => getTodaysResolvedCases(caseId),
      );
      console.log("Resolved cases:");
      console.log(resolvedCases.map((c) => c.caseId).join("\n"));
    }
  } catch (err) {
    console.error(err);
  }
};
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [AddAttachmentsToSet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/AddAttachmentsToSetCommand)
  + [AddCommunicationToCase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/AddCommunicationToCaseCommand)
  + [CreateCase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/CreateCaseCommand)
  + [DescribeAttachment](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeAttachmentCommand)
  + [DescribeCases](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeCasesCommand)
  + [DescribeCommunications](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeCommunicationsCommand)
  + [DescribeServices](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeServicesCommand)
  + [DescribeSeverityLevels](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeSeverityLevelsCommand)
  + [ResolveCase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/ResolveCaseCommand)

## Tindakan
<a name="actions"></a>

### `AddAttachmentsToSet`
<a name="support_AddAttachmentsToSet_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddAttachmentsToSet`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 

```
import { AddAttachmentsToSetCommand } from "@aws-sdk/client-support";

import { client } from "../libs/client.js";

export const main = async () => {
  try {
    // Create a new attachment set or add attachments to an existing set.
    // Provide an 'attachmentSetId' value to add attachments to an existing set.
    // Use AddCommunicationToCase or CreateCase to associate an attachment set with a support case.
    const response = await client.send(
      new AddAttachmentsToSetCommand({
        // You can add up to three attachments per set. The size limit is 5 MB per attachment.
        attachments: [
          {
            fileName: "example.txt",
            data: new TextEncoder().encode("some example text"),
          },
        ],
      }),
    );
    // Use this ID in AddCommunicationToCase or CreateCase.
    console.log(response.attachmentSetId);
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [AddAttachmentsToSet](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/AddAttachmentsToSetCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `AddCommunicationToCase`
<a name="support_AddCommunicationToCase_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddCommunicationToCase`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 

```
import { AddCommunicationToCaseCommand } from "@aws-sdk/client-support";

import { client } from "../libs/client.js";

export const main = async () => {
  let attachmentSetId;

  try {
    // Add a communication to a case.
    const response = await client.send(
      new AddCommunicationToCaseCommand({
        communicationBody: "Adding an attachment.",
        // Set value to an existing support case id.
        caseId: "CASE_ID",
        // Optional. Set value to an existing attachment set id to add attachments to the case.
        attachmentSetId,
      }),
    );
    console.log(response);
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [AddCommunicationToCase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/AddCommunicationToCaseCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateCase`
<a name="support_CreateCase_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCase`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 

```
import { CreateCaseCommand } from "@aws-sdk/client-support";

import { client } from "../libs/client.js";

export const main = async () => {
  try {
    // Create a new case and log the case id.
    // Important: This creates a real support case in your account.
    const response = await client.send(
      new CreateCaseCommand({
        // The subject line of the case.
        subject: "IGNORE: Test case",
        // Use DescribeServices to find available service codes for each service.
        serviceCode: "service-quicksight-end-user",
        // Use DescribeSecurityLevels to find available severity codes for your support plan.
        severityCode: "low",
        // Use DescribeServices to find available category codes for each service.
        categoryCode: "end-user-support",
        // The main description of the support case.
        communicationBody: "This is a test. Please ignore.",
      }),
    );
    console.log(response.caseId);
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [CreateCase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/CreateCaseCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeAttachment`
<a name="support_DescribeAttachment_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAttachment`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 

```
import { DescribeAttachmentCommand } from "@aws-sdk/client-support";

import { client } from "../libs/client.js";

export const main = async () => {
  try {
    // Get the metadata and content of an attachment.
    const response = await client.send(
      new DescribeAttachmentCommand({
        // Set value to an existing attachment id.
        // Use DescribeCommunications or DescribeCases to find an attachment id.
        attachmentId: "ATTACHMENT_ID",
      }),
    );
    console.log(response.attachment?.fileName);
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [DescribeAttachment](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeAttachmentCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeCases`
<a name="support_DescribeCases_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCases`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 

```
import { DescribeCasesCommand } from "@aws-sdk/client-support";

import { client } from "../libs/client.js";

export const main = async () => {
  try {
    // Get all of the unresolved cases in your account.
    // Filter or expand results by providing parameters to the DescribeCasesCommand. Refer
    // to the TypeScript definition and the API doc for more information on possible parameters.
    // https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/clients/client-support/interfaces/describecasescommandinput.html
    const response = await client.send(new DescribeCasesCommand({}));
    const caseIds = response.cases.map((supportCase) => supportCase.caseId);
    console.log(caseIds);
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [DescribeCases](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeCasesCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeCommunications`
<a name="support_DescribeCommunications_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCommunications`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 

```
import { DescribeCommunicationsCommand } from "@aws-sdk/client-support";

import { client } from "../libs/client.js";

export const main = async () => {
  try {
    // Get all communications for the support case.
    // Filter results by providing parameters to the DescribeCommunicationsCommand. Refer
    // to the TypeScript definition and the API doc for more information on possible parameters.
    // https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/clients/client-support/interfaces/describecommunicationscommandinput.html
    const response = await client.send(
      new DescribeCommunicationsCommand({
        // Set value to an existing case id.
        caseId: "CASE_ID",
      }),
    );
    const text = response.communications.map((item) => item.body).join("\n");
    console.log(text);
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [DescribeCommunications](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeCommunicationsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeSeverityLevels`
<a name="support_DescribeSeverityLevels_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSeverityLevels`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 

```
import { DescribeSeverityLevelsCommand } from "@aws-sdk/client-support";

import { client } from "../libs/client.js";

export const main = async () => {
  try {
    // Get the list of severity levels.
    // The available values depend on the support plan for the account.
    const response = await client.send(new DescribeSeverityLevelsCommand({}));
    console.log(response.severityLevels);
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [DescribeSeverityLevels](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/DescribeSeverityLevelsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ResolveCase`
<a name="support_ResolveCase_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResolveCase`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/support#code-examples). 

```
import { ResolveCaseCommand } from "@aws-sdk/client-support";

import { client } from "../libs/client.js";

const main = async () => {
  try {
    const response = await client.send(
      new ResolveCaseCommand({
        caseId: "CASE_ID",
      }),
    );

    console.log(response.finalCaseStatus);
    return response;
  } catch (err) {
    console.error(err);
  }
};
```
+  Untuk detail API, lihat [ResolveCase](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/support/command/ResolveCaseCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Systems Manager menggunakan SDK untuk JavaScript (v3)
<a name="javascript_3_ssm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Systems Manager.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Hello Systems Manager
<a name="ssm_Hello_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Systems Manager.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { paginateListDocuments, SSMClient } from "@aws-sdk/client-ssm";

// Call ListDocuments and display the result.
export const main = async () => {
  const client = new SSMClient();
  const listDocumentsPaginated = [];
  console.log(
    "Hello, AWS Systems Manager! Let's list some of your documents:\n",
  );
  try {
    // The paginate function is a wrapper around the base command.
    const paginator = paginateListDocuments({ client }, { MaxResults: 5 });
    for await (const page of paginator) {
      listDocumentsPaginated.push(...page.DocumentIdentifiers);
    }
  } catch (caught) {
    console.error(`There was a problem saying hello: ${caught.message}`);
    throw caught;
  }

  for (const { Name, DocumentFormat, CreatedDate } of listDocumentsPaginated) {
    console.log(`${Name} - ${DocumentFormat} - ${CreatedDate}`);
  }
};

// Call function if run directly.
import { fileURLToPath } from "node:url";
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  main();
}
```
+  Untuk detail API, lihat [ListDocuments](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/ListDocumentsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ssm_Scenario_javascript_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat jendela pemeliharaan.
+ Ubah jadwal jendela pemeliharaan.
+ Buat dokumen.
+ Kirim perintah ke instance EC2 tertentu.
+ Buat sebuah OpsItem.
+ Perbarui dan selesaikan OpsItem.
+ Hapus jendela pemeliharaan, OpsItem, dan dokumen.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import {
  Scenario,
  ScenarioAction,
  ScenarioInput,
  ScenarioOutput,
} from "@aws-doc-sdk-examples/lib/scenario/index.js";
import { fileURLToPath } from "node:url";
import {
  CreateDocumentCommand,
  CreateMaintenanceWindowCommand,
  CreateOpsItemCommand,
  DeleteDocumentCommand,
  DeleteMaintenanceWindowCommand,
  DeleteOpsItemCommand,
  DescribeOpsItemsCommand,
  DocumentAlreadyExists,
  OpsItemStatus,
  waitUntilCommandExecuted,
  CancelCommandCommand,
  paginateListCommandInvocations,
  SendCommandCommand,
  UpdateMaintenanceWindowCommand,
  UpdateOpsItemCommand,
  SSMClient,
} from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * @typedef {{
 *   ssmClient: import('@aws-sdk/client-ssm').SSMClient,
 *   documentName?: string
 *   maintenanceWindow?: string
 *   winId?: int
 *   ec2InstanceId?: string
 *   requestedDateTime?: Date
 *   opsItemId?: string
 *   askToDeleteResources?: boolean
 * }} State
 */

const defaultMaintenanceWindow = "ssm-maintenance-window";
const defaultDocumentName = "ssmdocument";
// The timeout duration is highly dependent on the specific setup and environment necessary. This example handles only the most common error cases, and uses a much shorter duration than most productions systems would use.
const COMMAND_TIMEOUT_DURATION_SECONDS = 30; // 30 seconds

const pressEnter = new ScenarioInput("continue", "Press Enter to continue", {
  type: "confirm",
});

const greet = new ScenarioOutput(
  "greet",
  `Welcome to the AWS Systems Manager SDK Getting Started scenario.
    This program demonstrates how to interact with Systems Manager using the AWS SDK for JavaScript V3.
    Systems Manager is the operations hub for your AWS applications and resources and a secure end-to-end management solution.
    The program's primary functions include creating a maintenance window, creating a document, sending a command to a document,
    listing documents, listing commands, creating an OpsItem, modifying an OpsItem, and deleting Systems Manager resources.
    Upon completion of the program, all AWS resources are cleaned up.
    Let's get started...`,
  { header: true },
);

const createMaintenanceWindow = new ScenarioOutput(
  "createMaintenanceWindow",
  "Step 1: Create a Systems Manager maintenance window.",
);

const getMaintenanceWindow = new ScenarioInput(
  "maintenanceWindow",
  "Please enter the maintenance window name:",
  { type: "input", default: defaultMaintenanceWindow },
);

export const sdkCreateMaintenanceWindow = new ScenarioAction(
  "sdkCreateMaintenanceWindow",
  async (/** @type {State} */ state) => {
    try {
      const response = await state.ssmClient.send(
        new CreateMaintenanceWindowCommand({
          Name: state.maintenanceWindow,
          Schedule: "cron(0 10 ? * MON-FRI *)", //The schedule of the maintenance window in the form of a cron or rate expression.
          Duration: 2, //The duration of the maintenance window in hours.
          Cutoff: 1, //The number of hours before the end of the maintenance window that Amazon Web Services Systems Manager stops scheduling new tasks for execution.
          AllowUnassociatedTargets: true, //Allow the maintenance window to run on managed nodes, even if you haven't registered those nodes as targets.
        }),
      );
      state.winId = response.WindowId;
    } catch (caught) {
      console.error(caught.message);
      console.log(
        `An error occurred while creating the maintenance window. Please fix the error and try again. Error message: ${caught.message}`,
      );
      throw caught;
    }
  },
);

const modifyMaintenanceWindow = new ScenarioOutput(
  "modifyMaintenanceWindow",
  "Modify the maintenance window by changing the schedule.",
);

const sdkModifyMaintenanceWindow = new ScenarioAction(
  "sdkModifyMaintenanceWindow",
  async (/** @type {State} */ state) => {
    try {
      await state.ssmClient.send(
        new UpdateMaintenanceWindowCommand({
          WindowId: state.winId,
          Schedule: "cron(0 0 ? * MON *)",
        }),
      );
    } catch (caught) {
      console.error(caught.message);
      console.log(
        `An error occurred while modifying the maintenance window. Please fix the error and try again. Error message: ${caught.message}`,
      );
      throw caught;
    }
  },
);

const createSystemsManagerActions = new ScenarioOutput(
  "createSystemsManagerActions",
  "Create a document that defines the actions that Systems Manager performs on your EC2 instance.",
);

const getDocumentName = new ScenarioInput(
  "documentName",
  "Please enter the document: ",
  { type: "input", default: defaultDocumentName },
);

const sdkCreateSSMDoc = new ScenarioAction(
  "sdkCreateSSMDoc",
  async (/** @type {State} */ state) => {
    const contentData = `{
                "schemaVersion": "2.2",
                "description": "Run a simple shell command",
                "mainSteps": [
                    {
                        "action": "aws:runShellScript",
                        "name": "runEchoCommand",
                        "inputs": {
                          "runCommand": [
                            "echo 'Hello, world!'"
                          ]
                        }
                    }
                ]
            }`;
    try {
      await state.ssmClient.send(
        new CreateDocumentCommand({
          Content: contentData,
          Name: state.documentName,
          DocumentType: "Command",
        }),
      );
    } catch (caught) {
      console.log(`Exception type: (${typeof caught})`);
      if (caught instanceof DocumentAlreadyExists) {
        console.log("Document already exists. Continuing...\n");
      } else {
        console.error(caught.message);
        console.log(
          `An error occurred while creating the document. Please fix the error and try again. Error message: ${caught.message}`,
        );
        throw caught;
      }
    }
  },
);

const ec2HelloWorld = new ScenarioOutput(
  "ec2HelloWorld",
  `Now you have the option of running a command on an EC2 instance that echoes 'Hello, world!'. In order to run this command, you must provide the instance ID of a Linux EC2 instance. If you do not already have a running Linux EC2 instance in your account, you can create one using the AWS console. For information about creating an EC2 instance, see https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-launch-instance-wizard.html.`,
);

const enterIdOrSkipEC2HelloWorld = new ScenarioInput(
  "enterIdOrSkipEC2HelloWorld",
  "Enter your EC2 InstanceId or press enter to skip this step: ",
  { type: "input", default: "" },
);

const sdkEC2HelloWorld = new ScenarioAction(
  "sdkEC2HelloWorld",
  async (/** @type {State} */ state) => {
    try {
      const response = await state.ssmClient.send(
        new SendCommandCommand({
          DocumentName: state.documentName,
          InstanceIds: [state.ec2InstanceId],
          TimeoutSeconds: COMMAND_TIMEOUT_DURATION_SECONDS,
        }),
      );
      state.CommandId = response.Command.CommandId;
    } catch (caught) {
      console.error(caught.message);
      console.log(
        `An error occurred while sending the command. Please fix the error and try again. Error message: ${caught.message}`,
      );
      throw caught;
    }
  },
  {
    skipWhen: (/** @type {State} */ state) =>
      state.enterIdOrSkipEC2HelloWorld === "",
  },
);

const sdkGetCommandTime = new ScenarioAction(
  "sdkGetCommandTime",
  async (/** @type {State} */ state) => {
    const listInvocationsPaginated = [];
    console.log(
      "Let's get the time when the specific command was sent to the specific managed node.",
    );

    console.log(
      `First, we'll wait for the command to finish executing. This may take up to ${COMMAND_TIMEOUT_DURATION_SECONDS} seconds.`,
    );
    const commandExecutedResult = waitUntilCommandExecuted(
      { client: state.ssmClient },
      {
        CommandId: state.CommandId,
        InstanceId: state.ec2InstanceId,
      },
    );
    // This is necessary because the TimeoutSeconds of SendCommandCommand is only for the delivery, not execution.
    try {
      await new Promise((_, reject) =>
        setTimeout(
          reject,
          COMMAND_TIMEOUT_DURATION_SECONDS * 1000,
          new Error("Command Timed Out"),
        ),
      );
    } catch (caught) {
      if (caught.message === "Command Timed Out") {
        commandExecutedResult.state = "TIMED_OUT";
      } else {
        throw caught;
      }
    }

    if (commandExecutedResult.state !== "SUCCESS") {
      console.log(
        `The command with id: ${state.CommandId} did not execute in the allotted time. Canceling command.`,
      );
      state.ssmClient.send(
        new CancelCommandCommand({
          CommandId: state.CommandId,
        }),
      );
      state.enterIdOrSkipEC2HelloWorld === "";
      return;
    }

    for await (const page of paginateListCommandInvocations(
      { client: state.ssmClient },
      { CommandId: state.CommandId },
    )) {
      listInvocationsPaginated.push(...page.CommandInvocations);
    }
    /**
     * @type {import('@aws-sdk/client-ssm').CommandInvocation}
     */
    const commandInvocation = listInvocationsPaginated.shift(); // Because the call was made with CommandId, there's only one result, so shift it off.
    state.requestedDateTime = commandInvocation.RequestedDateTime;

    console.log(
      `The command invocation happened at: ${state.requestedDateTime}.`,
    );
  },
  {
    skipWhen: (/** @type {State} */ state) =>
      state.enterIdOrSkipEC2HelloWorld === "",
  },
);

const createSSMOpsItem = new ScenarioOutput(
  "createSSMOpsItem",
  `Now we will create a Systems Manager OpsItem. An OpsItem is a feature provided by the Systems Manager service. It is a type of operational data item that allows you to manage and track various operational issues, events, or tasks within your AWS environment.
You can create OpsItems to track and manage operational issues as they arise. For example, you could create an OpsItem whenever your application detects a critical error or an anomaly in your infrastructure.`,
);

const sdkCreateSSMOpsItem = new ScenarioAction(
  "sdkCreateSSMOpsItem",
  async (/** @type {State} */ state) => {
    try {
      const response = await state.ssmClient.send(
        new CreateOpsItemCommand({
          Description: "Created by the System Manager Javascript API",
          Title: "Disk Space Alert",
          Source: "EC2",
          Category: "Performance",
          Severity: "2",
        }),
      );
      state.opsItemId = response.OpsItemId;
    } catch (caught) {
      console.error(caught.message);
      console.log(
        `An error occurred while creating the ops item. Please fix the error and try again. Error message: ${caught.message}`,
      );
      throw caught;
    }
  },
);

const updateOpsItem = new ScenarioOutput(
  "updateOpsItem",
  (/** @type {State} */ state) =>
    `Now we will update the OpsItem: ${state.opsItemId}`,
);

const sdkUpdateOpsItem = new ScenarioAction(
  "sdkUpdateOpsItem",
  async (/** @type {State} */ state) => {
    try {
      const _response = await state.ssmClient.send(
        new UpdateOpsItemCommand({
          OpsItemId: state.opsItemId,
          Description: `An update to ${state.opsItemId}`,
        }),
      );
    } catch (caught) {
      console.error(caught.message);
      console.log(
        `An error occurred while updating the ops item. Please fix the error and try again. Error message: ${caught.message}`,
      );
      throw caught;
    }
  },
);

const getOpsItemStatus = new ScenarioOutput(
  "getOpsItemStatus",
  (/** @type {State} */ state) =>
    `Now we will get the status of the OpsItem: ${state.opsItemId}`,
);

const sdkOpsItemStatus = new ScenarioAction(
  "sdkGetOpsItemStatus",
  async (/** @type {State} */ state) => {
    try {
      const response = await state.ssmClient.send(
        new DescribeOpsItemsCommand({
          OpsItemId: state.opsItemId,
        }),
      );
      state.opsItemStatus = response.OpsItemStatus;
    } catch (caught) {
      console.error(caught.message);
      console.log(
        `An error occurred while describing the ops item. Please fix the error and try again. Error message: ${caught.message}`,
      );
      throw caught;
    }
  },
);

const resolveOpsItem = new ScenarioOutput(
  "resolveOpsItem",
  (/** @type {State} */ state) =>
    `Now we will resolve the OpsItem: ${state.opsItemId}`,
);

const sdkResolveOpsItem = new ScenarioAction(
  "sdkResolveOpsItem",
  async (/** @type {State} */ state) => {
    try {
      const _response = await state.ssmClient.send(
        new UpdateOpsItemCommand({
          OpsItemId: state.opsItemId,
          Status: OpsItemStatus.RESOLVED,
        }),
      );
    } catch (caught) {
      console.error(caught.message);
      console.log(
        `An error occurred while updating the ops item. Please fix the error and try again. Error message: ${caught.message}`,
      );
      throw caught;
    }
  },
);

const askToDeleteResources = new ScenarioInput(
  "askToDeleteResources",
  "Would you like to delete the Systems Manager resources created during this example run?",
  { type: "confirm" },
);

const confirmDeleteChoice = new ScenarioOutput(
  "confirmDeleteChoice",
  (/** @type {State} */ state) => {
    if (state.askToDeleteResources) {
      return "You chose to delete the resources.";
    }
    return "The Systems Manager resources will not be deleted. Please delete them manually to avoid charges.";
  },
);

export const sdkDeleteResources = new ScenarioAction(
  "sdkDeleteResources",
  async (/** @type {State} */ state) => {
    try {
      await state.ssmClient.send(
        new DeleteOpsItemCommand({
          OpsItemId: state.opsItemId,
        }),
      );
      console.log(`The ops item: ${state.opsItemId} was successfully deleted.`);
    } catch (caught) {
      console.log(
        `There was a problem deleting the ops item: ${state.opsItemId}. Please delete it manually. Error: ${caught.message}`,
      );
    }

    try {
      await state.ssmClient.send(
        new DeleteMaintenanceWindowCommand({
          Name: state.maintenanceWindow,
          WindowId: state.winId,
        }),
      );
      console.log(
        `The maintenance window: ${state.maintenanceWindow} was successfully deleted.`,
      );
    } catch (caught) {
      console.log(
        `There was a problem deleting the maintenance window: ${state.opsItemId}. Please delete it manually. Error: ${caught.message}`,
      );
    }

    try {
      await state.ssmClient.send(
        new DeleteDocumentCommand({
          Name: state.documentName,
        }),
      );
      console.log(
        `The document: ${state.documentName} was successfully deleted.`,
      );
    } catch (caught) {
      console.log(
        `There was a problem deleting the document: ${state.documentName}. Please delete it manually. Error: ${caught.message}`,
      );
    }
  },
  { skipWhen: (/** @type {{}} */ state) => !state.askToDeleteResources },
);

const goodbye = new ScenarioOutput(
  "goodbye",
  "This concludes the Systems Manager Basics scenario for the AWS Javascript SDK v3. Thank you!",
);

const myScenario = new Scenario(
  "SSM Basics",
  [
    greet,
    pressEnter,
    createMaintenanceWindow,
    getMaintenanceWindow,
    sdkCreateMaintenanceWindow,
    modifyMaintenanceWindow,
    pressEnter,
    sdkModifyMaintenanceWindow,
    createSystemsManagerActions,
    getDocumentName,
    sdkCreateSSMDoc,
    ec2HelloWorld,
    enterIdOrSkipEC2HelloWorld,
    sdkEC2HelloWorld,
    sdkGetCommandTime,
    pressEnter,
    createSSMOpsItem,
    pressEnter,
    sdkCreateSSMOpsItem,
    updateOpsItem,
    pressEnter,
    sdkUpdateOpsItem,
    getOpsItemStatus,
    pressEnter,
    sdkOpsItemStatus,
    resolveOpsItem,
    pressEnter,
    sdkResolveOpsItem,
    askToDeleteResources,
    confirmDeleteChoice,
    sdkDeleteResources,
    goodbye,
  ],
  { ssmClient: new SSMClient({}) },
);

/** @type {{ stepHandlerOptions: StepHandlerOptions }} */
export const main = async (stepHandlerOptions) => {
  await myScenario.run(stepHandlerOptions);
};

// Invoke main function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
  const { values } = parseArgs({
    options: {
      yes: {
        type: "boolean",
        short: "y",
      },
    },
  });
  main({ confirmAll: values.yes });
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk JavaScript *.
  + [CreateDocument](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/CreateDocumentCommand)
  + [CreateMaintenanceWindow](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/CreateMaintenanceWindowCommand)
  + [CreateOpsItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/CreateOpsItemCommand)
  + [DeleteMaintenanceWindow](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/DeleteMaintenanceWindowCommand)
  + [ListCommandInvocations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/ListCommandInvocationsCommand)
  + [SendCommand](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/SendCommandCommand)
  + [UpdateOpsItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/UpdateOpsItemCommand)

## Tindakan
<a name="actions"></a>

### `CreateDocument`
<a name="ssm_CreateDocument_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDocument`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { CreateDocumentCommand, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Create an SSM document.
 * @param {{ content: string, name: string, documentType?: DocumentType }}
 */
export const main = async ({ content, name, documentType }) => {
  const client = new SSMClient({});
  try {
    const { documentDescription } = await client.send(
      new CreateDocumentCommand({
        Content: content, // The content for the new SSM document. The content must not exceed 64KB.
        Name: name,
        DocumentType: documentType, // Document format type can be JSON, YAML, or TEXT. The default format is JSON.
      }),
    );
    console.log("Document created successfully.");
    return { DocumentDescription: documentDescription };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "DocumentAlreadyExists") {
      console.warn(`${caught.message}. Did you provide a new document name?`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [CreateDocument](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/CreateDocumentCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateMaintenanceWindow`
<a name="ssm_CreateMaintenanceWindow_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMaintenanceWindow`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { CreateMaintenanceWindowCommand, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Create an SSM maintenance window.
 * @param {{ name: string, allowUnassociatedTargets: boolean, duration: number, cutoff: number, schedule: string, description?: string }}
 */
export const main = async ({
  name,
  allowUnassociatedTargets, // Allow the maintenance window to run on managed nodes, even if you haven't registered those nodes as targets.
  duration, // The duration of the maintenance window in hours.
  cutoff, // The number of hours before the end of the maintenance window that Amazon Web Services Systems Manager stops scheduling new tasks for execution.
  schedule, // The schedule of the maintenance window in the form of a cron or rate expression.
  description = undefined,
}) => {
  const client = new SSMClient({});

  try {
    const { windowId } = await client.send(
      new CreateMaintenanceWindowCommand({
        Name: name,
        Description: description,
        AllowUnassociatedTargets: allowUnassociatedTargets, // Allow the maintenance window to run on managed nodes, even if you haven't registered those nodes as targets.
        Duration: duration, // The duration of the maintenance window in hours.
        Cutoff: cutoff, // The number of hours before the end of the maintenance window that Amazon Web Services Systems Manager stops scheduling new tasks for execution.
        Schedule: schedule, // The schedule of the maintenance window in the form of a cron or rate expression.
      }),
    );
    console.log(`Maintenance window created with Id: ${windowId}`);
    return { WindowId: windowId };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MissingParameter") {
      console.warn(`${caught.message}. Did you provide these values?`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [CreateMaintenanceWindow](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/CreateMaintenanceWindowCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `CreateOpsItem`
<a name="ssm_CreateOpsItem_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOpsItem`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { CreateOpsItemCommand, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Create an SSM OpsItem.
 * @param {{ title: string, source: string, category?: string, severity?: string }}
 */
export const main = async ({
  title,
  source,
  category = undefined,
  severity = undefined,
}) => {
  const client = new SSMClient({});
  try {
    const { opsItemArn, opsItemId } = await client.send(
      new CreateOpsItemCommand({
        Title: title,
        Source: source, // The origin of the OpsItem, such as Amazon EC2 or Systems Manager.
        Category: category,
        Severity: severity,
      }),
    );
    console.log(`Ops item created with id: ${opsItemId}`);
    return { OpsItemArn: opsItemArn, OpsItemId: opsItemId };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MissingParameter") {
      console.warn(`${caught.message}. Did you provide these values?`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [CreateOpsItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/CreateOpsItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteDocument`
<a name="ssm_DeleteDocument_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDocument`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { DeleteDocumentCommand, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Delete an SSM document.
 * @param {{ documentName: string }}
 */
export const main = async ({ documentName }) => {
  const client = new SSMClient({});
  try {
    await client.send(new DeleteDocumentCommand({ Name: documentName }));
    console.log(`Document '${documentName}' deleted.`);
    return { Deleted: true };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MissingParameter") {
      console.warn(`${caught.message}. Did you provide this value?`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteDocument](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/DeleteDocumentCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteMaintenanceWindow`
<a name="ssm_DeleteMaintenanceWindow_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMaintenanceWindow`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { DeleteMaintenanceWindowCommand, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Delete an SSM maintenance window.
 * @param {{ windowId: string }}
 */
export const main = async ({ windowId }) => {
  const client = new SSMClient({});
  try {
    await client.send(
      new DeleteMaintenanceWindowCommand({ WindowId: windowId }),
    );
    console.log(`Maintenance window '${windowId}' deleted.`);
    return { Deleted: true };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MissingParameter") {
      console.warn(`${caught.message}. Did you provide this value?`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [DeleteMaintenanceWindow](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/DeleteMaintenanceWindowCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DescribeOpsItems`
<a name="ssm_DescribeOpsItems_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOpsItems`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import {
  OpsItemFilterOperator,
  OpsItemFilterKey,
  paginateDescribeOpsItems,
  SSMClient,
} from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Describe SSM OpsItems.
 * @param {{ opsItemId: string }}
 */
export const main = async ({ opsItemId }) => {
  const client = new SSMClient({});
  try {
    const describeOpsItemsPaginated = [];
    for await (const page of paginateDescribeOpsItems(
      { client },
      {
        OpsItemFilters: {
          Key: OpsItemFilterKey.OPSITEM_ID,
          Operator: OpsItemFilterOperator.EQUAL,
          Values: opsItemId,
        },
      },
    )) {
      describeOpsItemsPaginated.push(...page.OpsItemSummaries);
    }
    console.log("Here are the ops items:");
    console.log(describeOpsItemsPaginated);
    return { OpsItemSummaries: describeOpsItemsPaginated };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "MissingParameter") {
      console.warn(`${caught.message}. Did you provide this value?`);
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [DescribeOpsItems](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/DescribeOpsItemsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListCommandInvocations`
<a name="ssm_ListCommandInvocations_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCommandInvocations`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { paginateListCommandInvocations, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * List SSM command invocations on an instance.
 * @param {{ instanceId: string }}
 */
export const main = async ({ instanceId }) => {
  const client = new SSMClient({});
  try {
    const listCommandInvocationsPaginated = [];
    // The paginate function is a wrapper around the base command.
    const paginator = paginateListCommandInvocations(
      { client },
      {
        InstanceId: instanceId,
      },
    );
    for await (const page of paginator) {
      listCommandInvocationsPaginated.push(...page.CommandInvocations);
    }
    console.log("Here is the list of command invocations:");
    console.log(listCommandInvocationsPaginated);
    return { CommandInvocations: listCommandInvocationsPaginated };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ValidationError") {
      console.warn(`${caught.message}. Did you provide a valid instance ID?`);
    }
    throw caught;
  }
};
```
+  Untuk detail API, lihat [ListCommandInvocations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/ListCommandInvocationsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `SendCommand`
<a name="ssm_SendCommand_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendCommand`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { SendCommandCommand, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Send an SSM command to a managed node.
 * @param {{ documentName: string }}
 */
export const main = async ({ documentName }) => {
  const client = new SSMClient({});
  try {
    await client.send(
      new SendCommandCommand({
        DocumentName: documentName,
      }),
    );
    console.log("Command sent successfully.");
    return { Success: true };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ValidationError") {
      console.warn(`${caught.message}. Did you provide a valid document name?`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [SendCommand](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/SendCommandCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateMaintenanceWindow`
<a name="ssm_UpdateMaintenanceWindow_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateMaintenanceWindow`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { UpdateMaintenanceWindowCommand, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Update an SSM maintenance window.
 * @param {{ windowId: string, allowUnassociatedTargets?: boolean, duration?: number, enabled?: boolean, name?: string, schedule?: string }}
 */
export const main = async ({
  windowId,
  allowUnassociatedTargets = undefined, //Allow the maintenance window to run on managed nodes, even if you haven't registered those nodes as targets.
  duration = undefined, //The duration of the maintenance window in hours.
  enabled = undefined,
  name = undefined,
  schedule = undefined, //The schedule of the maintenance window in the form of a cron or rate expression.
}) => {
  const client = new SSMClient({});
  try {
    const { opsItemArn, opsItemId } = await client.send(
      new UpdateMaintenanceWindowCommand({
        WindowId: windowId,
        AllowUnassociatedTargets: allowUnassociatedTargets,
        Duration: duration,
        Enabled: enabled,
        Name: name,
        Schedule: schedule,
      }),
    );
    console.log("Maintenance window updated.");
    return { OpsItemArn: opsItemArn, OpsItemId: opsItemId };
  } catch (caught) {
    if (caught instanceof Error && caught.name === "ValidationError") {
      console.warn(`${caught.message}. Are these values correct?`);
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [UpdateMaintenanceWindow](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/UpdateMaintenanceWindowCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `UpdateOpsItem`
<a name="ssm_UpdateOpsItem_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateOpsItem`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ssm#code-examples). 

```
import { UpdateOpsItemCommand, SSMClient } from "@aws-sdk/client-ssm";
import { parseArgs } from "node:util";

/**
 * Update an SSM OpsItem.
 * @param {{ opsItemId: string, status?: OpsItemStatus }}
 */
export const main = async ({
  opsItemId,
  status = undefined, // The OpsItem status. Status can be Open, In Progress, or Resolved
}) => {
  const client = new SSMClient({});
  try {
    await client.send(
      new UpdateOpsItemCommand({
        OpsItemId: opsItemId,
        Status: status,
      }),
    );
    console.log("Ops item updated.");
    return { Success: true };
  } catch (caught) {
    if (
      caught instanceof Error &&
      caught.name === "OpsItemLimitExceededException"
    ) {
      console.warn(
        `Couldn't create ops item because you have exceeded your open OpsItem limit. ${caught.message}.`,
      );
    } else {
      throw caught;
    }
  }
};
```
+  Untuk detail API, lihat [UpdateOpsItem](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ssm/command/UpdateOpsItemCommand)di *Referensi AWS SDK untuk JavaScript API*. 

# Contoh Amazon Texttract menggunakan SDK for JavaScript (v3)
<a name="javascript_3_textract_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Textract.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan aplikasi AWS SDK untuk JavaScript untuk membangun aplikasi React yang menggunakan Amazon Textract untuk mengekstrak data dari gambar dokumen dan menampilkannya di halaman web interaktif. Contoh ini berjalan di peramban web dan memerlukan identitas Amazon Cognito yang diautentikasi sebagai kredensialnya. Contoh ini menggunakan Amazon Simple Storage Service (Amazon S3) untuk penyimpanan, dan untuk notifikasi, contoh ini mengambil polling antrean Amazon Simple Queue Service (Amazon SQS) yang berlangganan topik Amazon Simple Notification Service (Amazon SNS).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/textract-react).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk JavaScript (v3)**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/feedback-sentiment-analyzer). Kutipan berikut menunjukkan bagaimana yang AWS SDK untuk JavaScript digunakan di dalam fungsi Lambda.   

```
import {
  ComprehendClient,
  DetectDominantLanguageCommand,
  DetectSentimentCommand,
} from "@aws-sdk/client-comprehend";

/**
 * Determine the language and sentiment of the extracted text.
 *
 * @param {{ source_text: string}} extractTextOutput
 */
export const handler = async (extractTextOutput) => {
  const comprehendClient = new ComprehendClient({});

  const detectDominantLanguageCommand = new DetectDominantLanguageCommand({
    Text: extractTextOutput.source_text,
  });

  // The source language is required for sentiment analysis and
  // translation in the next step.
  const { Languages } = await comprehendClient.send(
    detectDominantLanguageCommand,
  );

  const languageCode = Languages[0].LanguageCode;

  const detectSentimentCommand = new DetectSentimentCommand({
    Text: extractTextOutput.source_text,
    LanguageCode: languageCode,
  });

  const { Sentiment } = await comprehendClient.send(detectSentimentCommand);

  return {
    sentiment: Sentiment,
    language_code: languageCode,
  };
};
```

```
import {
  DetectDocumentTextCommand,
  TextractClient,
} from "@aws-sdk/client-textract";

/**
 * Fetch the S3 object from the event and analyze it using Amazon Textract.
 *
 * @param {import("@types/aws-lambda").EventBridgeEvent<"Object Created">} eventBridgeS3Event
 */
export const handler = async (eventBridgeS3Event) => {
  const textractClient = new TextractClient();

  const detectDocumentTextCommand = new DetectDocumentTextCommand({
    Document: {
      S3Object: {
        Bucket: eventBridgeS3Event.bucket,
        Name: eventBridgeS3Event.object,
      },
    },
  });

  // Textract returns a list of blocks. A block can be a line, a page, word, etc.
  // Each block also contains geometry of the detected text.
  // For more information on the Block type, see https://docs.aws.amazon.com/textract/latest/dg/API_Block.html.
  const { Blocks } = await textractClient.send(detectDocumentTextCommand);

  // For the purpose of this example, we are only interested in words.
  const extractedWords = Blocks.filter((b) => b.BlockType === "WORD").map(
    (b) => b.Text,
  );

  return extractedWords.join(" ");
};
```

```
import { PollyClient, SynthesizeSpeechCommand } from "@aws-sdk/client-polly";
import { S3Client } from "@aws-sdk/client-s3";
import { Upload } from "@aws-sdk/lib-storage";

/**
 * Synthesize an audio file from text.
 *
 * @param {{ bucket: string, translated_text: string, object: string}} sourceDestinationConfig
 */
export const handler = async (sourceDestinationConfig) => {
  const pollyClient = new PollyClient({});

  const synthesizeSpeechCommand = new SynthesizeSpeechCommand({
    Engine: "neural",
    Text: sourceDestinationConfig.translated_text,
    VoiceId: "Ruth",
    OutputFormat: "mp3",
  });

  const { AudioStream } = await pollyClient.send(synthesizeSpeechCommand);

  const audioKey = `${sourceDestinationConfig.object}.mp3`;

  // Store the audio file in S3.
  const s3Client = new S3Client();
  const upload = new Upload({
    client: s3Client,
    params: {
      Bucket: sourceDestinationConfig.bucket,
      Key: audioKey,
      Body: AudioStream,
      ContentType: "audio/mp3",
    },
  });

  await upload.done();
  return audioKey;
};
```

```
import {
  TranslateClient,
  TranslateTextCommand,
} from "@aws-sdk/client-translate";

/**
 * Translate the extracted text to English.
 *
 * @param {{ extracted_text: string, source_language_code: string}} textAndSourceLanguage
 */
export const handler = async (textAndSourceLanguage) => {
  const translateClient = new TranslateClient({});

  const translateCommand = new TranslateTextCommand({
    SourceLanguageCode: textAndSourceLanguage.source_language_code,
    TargetLanguageCode: "en",
    Text: textAndSourceLanguage.extracted_text,
  });

  const { TranslatedText } = await translateClient.send(translateCommand);

  return { translated_text: TranslatedText };
};
```

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon Transcribe menggunakan SDK for JavaScript (v3)
<a name="javascript_3_transcribe_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Transcribe.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DeleteMedicalTranscriptionJob`
<a name="transcribe_DeleteMedicalTranscriptionJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMedicalTranscriptionJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/transcribe#code-examples). 
Buat klien.  

```
import { TranscribeClient } from "@aws-sdk/client-transcribe";
// Set the AWS Region.
const REGION = "REGION"; //e.g. "us-east-1"
// Create an Amazon Transcribe service client object.
const transcribeClient = new TranscribeClient({ region: REGION });
export { transcribeClient };
```
Hapus pekerjaan transkripsi medis.  

```
// Import the required AWS SDK clients and commands for Node.js
import { DeleteMedicalTranscriptionJobCommand } from "@aws-sdk/client-transcribe";
import { transcribeClient } from "./libs/transcribeClient.js";

// Set the parameters
export const params = {
  MedicalTranscriptionJobName: "MEDICAL_JOB_NAME", // For example, 'medical_transciption_demo'
};

export const run = async () => {
  try {
    const data = await transcribeClient.send(
      new DeleteMedicalTranscriptionJobCommand(params),
    );
    console.log("Success - deleted");
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/transcribe-medical-examples-section.html#transcribe-delete-medical-job). 
+  Untuk detail API, lihat [DeleteMedicalTranscriptionJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/transcribe/command/DeleteMedicalTranscriptionJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `DeleteTranscriptionJob`
<a name="transcribe_DeleteTranscriptionJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTranscriptionJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/transcribe#code-examples). 
Hapus pekerjaan transkripsi.  

```
// Import the required AWS SDK clients and commands for Node.js
import { DeleteTranscriptionJobCommand } from "@aws-sdk/client-transcribe";
import { transcribeClient } from "./libs/transcribeClient.js";

// Set the parameters
export const params = {
  TranscriptionJobName: "JOB_NAME", // Required. For example, 'transciption_demo'
};

export const run = async () => {
  try {
    const data = await transcribeClient.send(
      new DeleteTranscriptionJobCommand(params),
    );
    console.log("Success - deleted");
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
Buat klien.  

```
import { TranscribeClient } from "@aws-sdk/client-transcribe";
// Set the AWS Region.
const REGION = "REGION"; //e.g. "us-east-1"
// Create an Amazon Transcribe service client object.
const transcribeClient = new TranscribeClient({ region: REGION });
export { transcribeClient };
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/transcribe-examples-section.html#transcribe-delete-job). 
+  Untuk detail API, lihat [DeleteTranscriptionJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/transcribe/command/DeleteTranscriptionJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListMedicalTranscriptionJobs`
<a name="transcribe_ListMedicalTranscriptionJobs_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMedicalTranscriptionJobs`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/transcribe#code-examples). 
Buat klien.  

```
import { TranscribeClient } from "@aws-sdk/client-transcribe";
// Set the AWS Region.
const REGION = "REGION"; //e.g. "us-east-1"
// Create an Amazon Transcribe service client object.
const transcribeClient = new TranscribeClient({ region: REGION });
export { transcribeClient };
```
Daftar pekerjaan transkripsi medis.  

```
// Import the required AWS SDK clients and commands for Node.js
import { StartMedicalTranscriptionJobCommand } from "@aws-sdk/client-transcribe";
import { transcribeClient } from "./libs/transcribeClient.js";

// Set the parameters
export const params = {
  MedicalTranscriptionJobName: "MEDICAL_JOB_NAME", // Required
  OutputBucketName: "OUTPUT_BUCKET_NAME", // Required
  Specialty: "PRIMARYCARE", // Required. Possible values are 'PRIMARYCARE'
  Type: "JOB_TYPE", // Required. Possible values are 'CONVERSATION' and 'DICTATION'
  LanguageCode: "LANGUAGE_CODE", // For example, 'en-US'
  MediaFormat: "SOURCE_FILE_FORMAT", // For example, 'wav'
  Media: {
    MediaFileUri: "SOURCE_FILE_LOCATION",
    // The S3 object location of the input media file. The URI must be in the same region
    // as the API endpoint that you are calling.For example,
    // "https://transcribe-demo.s3-REGION.amazonaws.com/hello_world.wav"
  },
};

export const run = async () => {
  try {
    const data = await transcribeClient.send(
      new StartMedicalTranscriptionJobCommand(params),
    );
    console.log("Success - put", data);
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/transcribe-medical-examples-section.html#transcribe-list-medical-jobs). 
+  Untuk detail API, lihat [ListMedicalTranscriptionJobs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/transcribe/command/ListMedicalTranscriptionJobsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `ListTranscriptionJobs`
<a name="transcribe_ListTranscriptionJobs_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTranscriptionJobs`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/transcribe#code-examples). 
Daftar pekerjaan transkripsi.  

```
// Import the required AWS SDK clients and commands for Node.js

import { ListTranscriptionJobsCommand } from "@aws-sdk/client-transcribe";
import { transcribeClient } from "./libs/transcribeClient.js";

// Set the parameters
export const params = {
  JobNameContains: "KEYWORD", // Not required. Returns only transcription
  // job names containing this string
};

export const run = async () => {
  try {
    const data = await transcribeClient.send(
      new ListTranscriptionJobsCommand(params),
    );
    console.log("Success", data.TranscriptionJobSummaries);
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
Buat klien.  

```
import { TranscribeClient } from "@aws-sdk/client-transcribe";
// Set the AWS Region.
const REGION = "REGION"; //e.g. "us-east-1"
// Create an Amazon Transcribe service client object.
const transcribeClient = new TranscribeClient({ region: REGION });
export { transcribeClient };
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/transcribe-examples-section.html#transcribe-list-jobs). 
+  Untuk detail API, lihat [ListTranscriptionJobs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/transcribe/command/ListTranscriptionJobsCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartMedicalTranscriptionJob`
<a name="transcribe_StartMedicalTranscriptionJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartMedicalTranscriptionJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/transcribe#code-examples). 
Buat klien.  

```
import { TranscribeClient } from "@aws-sdk/client-transcribe";
// Set the AWS Region.
const REGION = "REGION"; //e.g. "us-east-1"
// Create an Amazon Transcribe service client object.
const transcribeClient = new TranscribeClient({ region: REGION });
export { transcribeClient };
```
Mulai pekerjaan transkripsi medis.  

```
// Import the required AWS SDK clients and commands for Node.js
import { StartMedicalTranscriptionJobCommand } from "@aws-sdk/client-transcribe";
import { transcribeClient } from "./libs/transcribeClient.js";

// Set the parameters
export const params = {
  MedicalTranscriptionJobName: "MEDICAL_JOB_NAME", // Required
  OutputBucketName: "OUTPUT_BUCKET_NAME", // Required
  Specialty: "PRIMARYCARE", // Required. Possible values are 'PRIMARYCARE'
  Type: "JOB_TYPE", // Required. Possible values are 'CONVERSATION' and 'DICTATION'
  LanguageCode: "LANGUAGE_CODE", // For example, 'en-US'
  MediaFormat: "SOURCE_FILE_FORMAT", // For example, 'wav'
  Media: {
    MediaFileUri: "SOURCE_FILE_LOCATION",
    // The S3 object location of the input media file. The URI must be in the same region
    // as the API endpoint that you are calling.For example,
    // "https://transcribe-demo.s3-REGION.amazonaws.com/hello_world.wav"
  },
};

export const run = async () => {
  try {
    const data = await transcribeClient.send(
      new StartMedicalTranscriptionJobCommand(params),
    );
    console.log("Success - put", data);
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/transcribe-medical-examples-section.html#transcribe-start-medical-transcription). 
+  Untuk detail API, lihat [StartMedicalTranscriptionJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/transcribe/command/StartMedicalTranscriptionJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

### `StartTranscriptionJob`
<a name="transcribe_StartTranscriptionJob_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTranscriptionJob`.

**SDK untuk JavaScript (v3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/transcribe#code-examples). 
Mulai pekerjaan transkripsi.  

```
// Import the required AWS SDK clients and commands for Node.js
import { StartTranscriptionJobCommand } from "@aws-sdk/client-transcribe";
import { transcribeClient } from "./libs/transcribeClient.js";

// Set the parameters
export const params = {
  TranscriptionJobName: "JOB_NAME",
  LanguageCode: "LANGUAGE_CODE", // For example, 'en-US'
  MediaFormat: "SOURCE_FILE_FORMAT", // For example, 'wav'
  Media: {
    MediaFileUri: "SOURCE_LOCATION",
    // For example, "https://transcribe-demo.s3-REGION.amazonaws.com/hello_world.wav"
  },
  OutputBucketName: "OUTPUT_BUCKET_NAME",
};

export const run = async () => {
  try {
    const data = await transcribeClient.send(
      new StartTranscriptionJobCommand(params),
    );
    console.log("Success - put", data);
    return data; // For unit tests.
  } catch (err) {
    console.log("Error", err);
  }
};
run();
```
Buat klien.  

```
import { TranscribeClient } from "@aws-sdk/client-transcribe";
// Set the AWS Region.
const REGION = "REGION"; //e.g. "us-east-1"
// Create an Amazon Transcribe service client object.
const transcribeClient = new TranscribeClient({ region: REGION });
export { transcribeClient };
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk JavaScript](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/transcribe-examples-section.html#transcribe-start-transcription). 
+  Untuk detail API, lihat [StartTranscriptionJob](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/transcribe/command/StartTranscriptionJobCommand)di *Referensi AWS SDK untuk JavaScript API*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi streaming Amazon Transcribe
<a name="cross_TranscriptionStreamingApp_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang merekam, mentranskripsikan, dan menerjemahkan audio langsung secara real-time, dan mengirim email hasilnya.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Transcribe untuk membuat aplikasi yang merekam, menyalin, dan menerjemahkan audio langsung secara real-time, dan mengirim email hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/transcribe-streaming-app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon SES
+ Amazon Transcribe
+ Amazon Translate

# Contoh Amazon Translate menggunakan SDK for JavaScript (v3)
<a name="javascript_3_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk JavaScript (v3) dengan Amazon Translate.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi streaming Amazon Transcribe
<a name="cross_TranscriptionStreamingApp_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang merekam, mentranskripsikan, dan menerjemahkan audio langsung secara real-time, dan mengirim email hasilnya.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Transcribe untuk membuat aplikasi yang merekam, menyalin, dan menerjemahkan audio langsung secara real-time, dan mengirim email hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/transcribe-streaming-app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon SES
+ Amazon Transcribe
+ Amazon Translate

### Membangun chatbot Amazon Lex
<a name="cross_LexChatbotLanguages_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat chatbot untuk melibatkan pengunjung situs web Anda.

**SDK untuk JavaScript (v3)**  
 Menunjukkan cara menggunakan Amazon Lex API untuk membuat Chatbot dalam aplikasi web untuk melibatkan pengunjung situs web Anda.   
 Untuk kode sumber lengkap dan petunjuk tentang cara mengatur dan menjalankan, lihat contoh lengkap [Membangun chatbot Amazon Lex](https://docs.aws.amazon.com/sdk-for-javascript/v3/developer-guide/lex-bot-example.html) di panduan AWS SDK untuk JavaScript pengembang.   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon Lex
+ Amazon Translate

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_javascript_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk JavaScript (v3)**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/feedback-sentiment-analyzer). Kutipan berikut menunjukkan bagaimana yang AWS SDK untuk JavaScript digunakan di dalam fungsi Lambda.   

```
import {
  ComprehendClient,
  DetectDominantLanguageCommand,
  DetectSentimentCommand,
} from "@aws-sdk/client-comprehend";

/**
 * Determine the language and sentiment of the extracted text.
 *
 * @param {{ source_text: string}} extractTextOutput
 */
export const handler = async (extractTextOutput) => {
  const comprehendClient = new ComprehendClient({});

  const detectDominantLanguageCommand = new DetectDominantLanguageCommand({
    Text: extractTextOutput.source_text,
  });

  // The source language is required for sentiment analysis and
  // translation in the next step.
  const { Languages } = await comprehendClient.send(
    detectDominantLanguageCommand,
  );

  const languageCode = Languages[0].LanguageCode;

  const detectSentimentCommand = new DetectSentimentCommand({
    Text: extractTextOutput.source_text,
    LanguageCode: languageCode,
  });

  const { Sentiment } = await comprehendClient.send(detectSentimentCommand);

  return {
    sentiment: Sentiment,
    language_code: languageCode,
  };
};
```

```
import {
  DetectDocumentTextCommand,
  TextractClient,
} from "@aws-sdk/client-textract";

/**
 * Fetch the S3 object from the event and analyze it using Amazon Textract.
 *
 * @param {import("@types/aws-lambda").EventBridgeEvent<"Object Created">} eventBridgeS3Event
 */
export const handler = async (eventBridgeS3Event) => {
  const textractClient = new TextractClient();

  const detectDocumentTextCommand = new DetectDocumentTextCommand({
    Document: {
      S3Object: {
        Bucket: eventBridgeS3Event.bucket,
        Name: eventBridgeS3Event.object,
      },
    },
  });

  // Textract returns a list of blocks. A block can be a line, a page, word, etc.
  // Each block also contains geometry of the detected text.
  // For more information on the Block type, see https://docs.aws.amazon.com/textract/latest/dg/API_Block.html.
  const { Blocks } = await textractClient.send(detectDocumentTextCommand);

  // For the purpose of this example, we are only interested in words.
  const extractedWords = Blocks.filter((b) => b.BlockType === "WORD").map(
    (b) => b.Text,
  );

  return extractedWords.join(" ");
};
```

```
import { PollyClient, SynthesizeSpeechCommand } from "@aws-sdk/client-polly";
import { S3Client } from "@aws-sdk/client-s3";
import { Upload } from "@aws-sdk/lib-storage";

/**
 * Synthesize an audio file from text.
 *
 * @param {{ bucket: string, translated_text: string, object: string}} sourceDestinationConfig
 */
export const handler = async (sourceDestinationConfig) => {
  const pollyClient = new PollyClient({});

  const synthesizeSpeechCommand = new SynthesizeSpeechCommand({
    Engine: "neural",
    Text: sourceDestinationConfig.translated_text,
    VoiceId: "Ruth",
    OutputFormat: "mp3",
  });

  const { AudioStream } = await pollyClient.send(synthesizeSpeechCommand);

  const audioKey = `${sourceDestinationConfig.object}.mp3`;

  // Store the audio file in S3.
  const s3Client = new S3Client();
  const upload = new Upload({
    client: s3Client,
    params: {
      Bucket: sourceDestinationConfig.bucket,
      Key: audioKey,
      Body: AudioStream,
      ContentType: "audio/mp3",
    },
  });

  await upload.done();
  return audioKey;
};
```

```
import {
  TranslateClient,
  TranslateTextCommand,
} from "@aws-sdk/client-translate";

/**
 * Translate the extracted text to English.
 *
 * @param {{ extracted_text: string, source_language_code: string}} textAndSourceLanguage
 */
export const handler = async (textAndSourceLanguage) => {
  const translateClient = new TranslateClient({});

  const translateCommand = new TranslateTextCommand({
    SourceLanguageCode: textAndSourceLanguage.source_language_code,
    TargetLanguageCode: "en",
    Text: textAndSourceLanguage.extracted_text,
  });

  const { TranslatedText } = await translateClient.send(translateCommand);

  return { translated_text: TranslatedText };
};
```

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh kode untuk SDK for Java 2.x
<a name="java_2_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK for Java 2.x with AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK for Java 2.x Panduan Pengembang](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/home.html)** - Lebih lanjut tentang menggunakan Java dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23java)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [ACM](java_2_acm_code_examples.md)
+ [API Gateway](java_2_api-gateway_code_examples.md)
+ [Penskalaan Otomatis Aplikasi](java_2_application-auto-scaling_code_examples.md)
+ [Pengontrol Pemulihan Aplikasi](java_2_route53-recovery-cluster_code_examples.md)
+ [Aurora](java_2_aurora_code_examples.md)
+ [Auto Scaling](java_2_auto-scaling_code_examples.md)
+ [AWS Batch](java_2_batch_code_examples.md)
+ [Amazon Bedrock](java_2_bedrock_code_examples.md)
+ [Runtime Amazon Bedrock](java_2_bedrock-runtime_code_examples.md)
+ [CloudFront](java_2_cloudfront_code_examples.md)
+ [CloudWatch](java_2_cloudwatch_code_examples.md)
+ [CloudWatch Acara](java_2_cloudwatch-events_code_examples.md)
+ [CloudWatch Log](java_2_cloudwatch-logs_code_examples.md)
+ [Identitas Amazon Cognito](java_2_cognito-identity_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](java_2_cognito-identity-provider_code_examples.md)
+ [Amazon Comprehend](java_2_comprehend_code_examples.md)
+ [AWS Control Tower](java_2_controltower_code_examples.md)
+ [Firehose](java_2_firehose_code_examples.md)
+ [Amazon DocumentDB](java_2_docdb_code_examples.md)
+ [DynamoDB](java_2_dynamodb_code_examples.md)
+ [Amazon EC2](java_2_ec2_code_examples.md)
+ [Amazon ECR](java_2_ecr_code_examples.md)
+ [Amazon ECS](java_2_ecs_code_examples.md)
+ [Elastic Load Balancing - Versi 2](java_2_elastic-load-balancing-v2_code_examples.md)
+ [MediaStore](java_2_mediastore_code_examples.md)
+ [Resolusi Entitas AWS](java_2_entityresolution_code_examples.md)
+ [OpenSearch Layanan](java_2_opensearch_code_examples.md)
+ [EventBridge](java_2_eventbridge_code_examples.md)
+ [EventBridge Penjadwal](java_2_scheduler_code_examples.md)
+ [Forecast](java_2_forecast_code_examples.md)
+ [Amazon Glacier](java_2_glacier_code_examples.md)
+ [AWS Glue](java_2_glue_code_examples.md)
+ [HealthImaging](java_2_medical-imaging_code_examples.md)
+ [IAM](java_2_iam_code_examples.md)
+ [Amazon Inspector](java_2_inspector_code_examples.md)
+ [AWS IoT](java_2_iot_code_examples.md)
+ [AWS IoT data](java_2_iot-data-plane_code_examples.md)
+ [AWS IoT FleetWise](java_2_iotfleetwise_code_examples.md)
+ [AWS IoT SiteWise](java_2_iotsitewise_code_examples.md)
+ [Amazon Keyspaces](java_2_keyspaces_code_examples.md)
+ [Kinesis](java_2_kinesis_code_examples.md)
+ [AWS KMS](java_2_kms_code_examples.md)
+ [Lambda](java_2_lambda_code_examples.md)
+ [Amazon Lex](java_2_lex_code_examples.md)
+ [Amazon Location Service](java_2_location_code_examples.md)
+ [Lokasi Service Places](java_2_geo-places_code_examples.md)
+ [AWS Marketplace API Katalog](java_2_marketplace-catalog_code_examples.md)
+ [AWS Marketplace API Perjanjian](java_2_marketplace-agreement_code_examples.md)
+ [MediaConvert](java_2_mediaconvert_code_examples.md)
+ [Migration Hub](java_2_migration-hub_code_examples.md)
+ [Amazon MSK](java_2_kafka_code_examples.md)
+ [Neptune](java_2_neptune_code_examples.md)
+ [Pusat Partner](java_2_partnercentral-selling_code_examples.md)
+ [Amazon Personalize](java_2_personalize_code_examples.md)
+ [Kejadian Amazon Personalize](java_2_personalize-events_code_examples.md)
+ [Waktu Aktif Amazon Personalize](java_2_personalize-runtime_code_examples.md)
+ [Amazon Pinpoint](java_2_pinpoint_code_examples.md)
+ [API SMS dan Suara Amazon Pinpoint](java_2_pinpoint-sms-voice_code_examples.md)
+ [Amazon Polly](java_2_polly_code_examples.md)
+ [Amazon RDS](java_2_rds_code_examples.md)
+ [Layanan Data Amazon RDS](java_2_rds-data_code_examples.md)
+ [Amazon Redshift](java_2_redshift_code_examples.md)
+ [Amazon Rekognition](java_2_rekognition_code_examples.md)
+ [Registrasi domain Route 53](java_2_route-53-domains_code_examples.md)
+ [Amazon S3](java_2_s3_code_examples.md)
+ [Kontrol Amazon S3](java_2_s3-control_code_examples.md)
+ [Ember Direktori S3](java_2_s3-directory-buckets_code_examples.md)
+ [SageMaker AI](java_2_sagemaker_code_examples.md)
+ [Secrets Manager](java_2_secrets-manager_code_examples.md)
+ [Amazon SES](java_2_ses_code_examples.md)
+ [Amazon SES API v2](java_2_sesv2_code_examples.md)
+ [Amazon SNS](java_2_sns_code_examples.md)
+ [Amazon SQS](java_2_sqs_code_examples.md)
+ [Step Functions](java_2_sfn_code_examples.md)
+ [AWS STS](java_2_sts_code_examples.md)
+ [Dukungan](java_2_support_code_examples.md)
+ [Systems Manager](java_2_ssm_code_examples.md)
+ [Amazon Textract](java_2_textract_code_examples.md)
+ [Amazon Transcribe](java_2_transcribe_code_examples.md)
+ [Streaming Amazon Transcribe](java_2_transcribe-streaming_code_examples.md)
+ [Amazon Translate](java_2_translate_code_examples.md)

# Contoh ACM menggunakan SDK for Java 2.x
<a name="java_2_acm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan ACM AWS SDK for Java 2.x with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AddTagsToCertificate`
<a name="acm_AddTagsToCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddTagsToCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class AddTagsToCertificate {

    public static void main(String[] args) {
        final String usage = """

            Usage:    <certArn>

            Where:
                certArn - the ARN of the certificate.
            """;
        if (args.length != 1) {
            System.out.println(usage);
            return;
        }

        String certArn = args[0];
        addTags(certArn);
    }

    /**
     * Adds tags to a certificate in AWS Certificate Manager (ACM).
     *
     * @param certArn the Amazon Resource Name (ARN) of the certificate to add tags to
     */
    public static void addTags(String certArn) {
        AcmClient acmClient = AcmClient.create();
        List<Tag> expectedTags = List.of(Tag.builder().key("key").value("value").build());
        AddTagsToCertificateRequest addTagsToCertificateRequest = AddTagsToCertificateRequest.builder()
            .certificateArn(certArn)
            .tags(expectedTags)
            .build();

        try {
            acmClient.addTagsToCertificate(addTagsToCertificateRequest);
            System.out.println("Successfully added tags to a certificate");
        } catch (AcmException e) {
            System.out.println(e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [AddTagsToCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/AddTagsToCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteCertificate`
<a name="acm_DeleteCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteCert {

    public static void main(String[] args) {
        final String usage = """

            Usage:    <certArn>

            Where:
                certArn - the ARN of the certificate.
            """;
        if (args.length != 1) {
            System.out.println(usage);
            return;
        }

        String certArn = args[0];
        deleteCertificate(certArn);
    }

    /**
     * Deletes an SSL/TLS certificate from the AWS Certificate Manager (ACM).
     *
     * @param certArn the Amazon Resource Name (ARN) of the certificate to be deleted
     */
    public static void deleteCertificate( String certArn) {
        AcmClient acmClient = AcmClient.create();
        DeleteCertificateRequest request = DeleteCertificateRequest.builder()
            .certificateArn(certArn)
            .build();

        try {
            acmClient.deleteCertificate(request);
            System.out.println("The certificate was deleted");

        } catch (AcmException e) {
            System.out.println(e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/DeleteCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeCertificate`
<a name="acm_DescribeCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class DescribeCert {

    public static void main(String[] args) {
        final String usage = """

            Usage:    <certArn>

            Where:
                certArn - the ARN of the certificate.
            """;
        if (args.length != 1) {
            System.out.println(usage);
            return;
        }

        String certArn = args[0];
        describeCertificate(certArn);
    }

    /**
     * Describes the details of an SSL/TLS certificate.
     *
     * @param certArn the Amazon Resource Name (ARN) of the certificate to describe
     * @throws AcmException if an error occurs while describing the certificate
     */
    public static void describeCertificate(String certArn) {
        AcmClient acmClient = AcmClient.create();
        DescribeCertificateRequest req = DescribeCertificateRequest.builder()
            .certificateArn(certArn)
            .build();

        try {
            DescribeCertificateResponse response = acmClient.describeCertificate(req);

            // Print the certificate details.
            System.out.println("Certificate ARN: " + response.certificate().certificateArn());
            System.out.println("Domain Name: " + response.certificate().domainName());
            System.out.println("Issued By: " + response.certificate().issuer());
            System.out.println("Issued On: " + response.certificate().issuedAt());
            System.out.println("Status: " + response.certificate().status());
        } catch (AcmException e) {
            System.out.println(e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/DescribeCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `ExportCertificate`
<a name="acm_ExportCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExportCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ExportCertificate {

    public static void main(String[] args) throws Exception {
        final String usage = """

            Usage:    <certArn>

            Where:
                certArn - the ARN of the certificate.
            """;
        if (args.length != 1) {
            System.out.println(usage);
            return;
        }

        String certArn = args[0];
        exportCert(certArn);
    }

    /**
     * Exports an SSL/TLS certificate and its associated private key and certificate chain from AWS Certificate Manager (ACM).
     *
     * @param certArn The Amazon Resource Name (ARN) of the certificate that you want to export.
     * @throws IOException If an I/O error occurs while reading the private key passphrase file or exporting the certificate.
     */
    public static void exportCert(String certArn) throws IOException {
        AcmClient acmClient = AcmClient.create();

        // Initialize a file descriptor for the passphrase file.
        RandomAccessFile filePassphrase = null;
        ByteBuffer bufPassphrase = null;

        // Create a file stream for reading the private key passphrase.
        try {
            filePassphrase = new RandomAccessFile("C:\\AWS\\password.txt", "r");
        } catch (IllegalArgumentException | SecurityException | FileNotFoundException ex) {
            throw ex;
        }

        // Create a channel to map the file.
        FileChannel channelPassphrase = filePassphrase.getChannel();

        // Map the file to the buffer.
        try {
            bufPassphrase = channelPassphrase.map(FileChannel.MapMode.READ_ONLY, 0, channelPassphrase.size());
            channelPassphrase.close();
            filePassphrase.close();
        } catch (IOException ex) {
            throw ex;
        }

        // Create a request object.
        ExportCertificateRequest req = ExportCertificateRequest.builder()
            .certificateArn(certArn)
            .passphrase(SdkBytes.fromByteBuffer(bufPassphrase))
            .build();

        // Export the certificate.
        ExportCertificateResponse result = null;
        try {
            result = acmClient.exportCertificate(req);
        } catch (InvalidArnException | InvalidTagException | ResourceNotFoundException ex) {
            throw ex;
        }

        // Clear the buffer.
        bufPassphrase.clear();

        // Display the certificate and certificate chain.
        String certificate = result.certificate();
        System.out.println(certificate);

        String certificateChain = result.certificateChain();
        System.out.println(certificateChain);

        // This example retrieves but does not display the private key.
        String privateKey = result.privateKey();
        System.out.println("The example is complete");
    }
}
```
+  Untuk detail API, lihat [ExportCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/ExportCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `ImportCertificate`
<a name="acm_ImportCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ImportCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ImportCert {

    public static void main(String[] args) {
        final String usage = """
            Usage: <bucketName> <certificateKey> <privateKeyKey>
            
            Where:
                bucketName - The name of the S3 bucket containing the certificate and private key.
                certificateKey - The object key for the SSL/TLS certificate file in S3.
                privateKeyKey - The object key for the private key file in S3.
            """;

        if (args.length != 3) {
            System.out.println(usage);
            return;
        }

        String bucketName = args[0];
        String certificateKey = args[1];
        String privateKeyKey = args[2];

        String certificateArn = importCertificate(bucketName, certificateKey, privateKeyKey);
        System.out.println("Certificate imported with ARN: " + certificateArn);
    }

    /**
     * Imports an SSL/TLS certificate and private key from S3 into AWS Certificate Manager (ACM).
     *
     * @param bucketName     The name of the S3 bucket.
     * @param certificateKey The key for the SSL/TLS certificate file in S3.
     * @param privateKeyKey  The key for the private key file in S3.
     * @return The ARN of the imported certificate.
     */
    public static String importCertificate(String bucketName, String certificateKey, String privateKeyKey) {
        AcmClient acmClient = AcmClient.create();
        S3Client s3Client = S3Client.create();

        try {
            byte[] certificateBytes = downloadFileFromS3(s3Client, bucketName, certificateKey);
            byte[] privateKeyBytes = downloadFileFromS3(s3Client, bucketName, privateKeyKey);

            ImportCertificateRequest request = ImportCertificateRequest.builder()
                    .certificate(SdkBytes.fromByteBuffer(ByteBuffer.wrap(certificateBytes)))
                    .privateKey(SdkBytes.fromByteBuffer(ByteBuffer.wrap(privateKeyBytes)))
                    .build();

            ImportCertificateResponse response = acmClient.importCertificate(request);
            return response.certificateArn();

        } catch (IOException e) {
            System.err.println("Error downloading certificate or private key from S3: " + e.getMessage());
        } catch (S3Exception e) {
            System.err.println("S3 error: " + e.awsErrorDetails().errorMessage());
        }
        return "";
    }

    /**
     * Downloads a file from Amazon S3 and returns its contents as a byte array.
     *
     * @param s3Client   The S3 client.
     * @param bucketName The name of the S3 bucket.
     * @param objectKey  The key of the object in S3.
     * @return The file contents as a byte array.
     * @throws IOException If an I/O error occurs.
     */
    private static byte[] downloadFileFromS3(S3Client s3Client, String bucketName, String objectKey) throws IOException {
        GetObjectRequest getObjectRequest = GetObjectRequest.builder()
                .bucket(bucketName)
                .key(objectKey)
                .build();

        try (ResponseInputStream<GetObjectResponse> s3Object = s3Client.getObject(getObjectRequest);
             ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream()) {
            IoUtils.copy(s3Object, byteArrayOutputStream);
            return byteArrayOutputStream.toByteArray();
        }
    }
}
```
+  Untuk detail API, lihat [ImportCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/ImportCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `ListCertificates`
<a name="acm_ListCertificates_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListCerts {
    public static void main(String[] args) {
        listCertificates();
    }

    /**
     * Lists all the certificates managed by AWS Certificate Manager (ACM) that have a status of "ISSUED".
     */
    public static void listCertificates() {
        AcmClient acmClient = AcmClient.create();
        try {
            ListCertificatesRequest listRequest = ListCertificatesRequest.builder()
                .certificateStatuses(CertificateStatus.ISSUED)
                .maxItems(100)
                .build();
            ListCertificatesIterable listResponse = acmClient.listCertificatesPaginator(listRequest);

            // Print the certificate details using streams
            listResponse.certificateSummaryList().stream()
                .forEach(certificate -> {
                    System.out.println("Certificate ARN: " + certificate.certificateArn());
                    System.out.println("Certificate Domain Name: " + certificate.domainName());
                    System.out.println("Certificate Status: " + certificate.statusAsString());
                    System.out.println("---");
                });

        } catch (AcmException e) {
            System.err.println(e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/ListCertificates)di *Referensi AWS SDK for Java 2.x API*. 

### `ListTagsForCertificate`
<a name="acm_ListTagsForCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListCertTags {

    public static void main(String[] args) {

        final String usage = """

            Usage:    <certArn>

            Where:
                certArn - the ARN of the certificate.
            """;
        if (args.length != 1) {
            System.out.println(usage);
            return;
        }

        String certArn = args[0];
        listCertTags(certArn);
    }

    /**
     * Lists the tags associated with an AWS Certificate Manager (ACM) certificate.
     *
     * @param certArn the Amazon Resource Name (ARN) of the ACM certificate
     */
    public static void listCertTags(String certArn) {
        AcmClient acmClient = AcmClient.create();

        ListTagsForCertificateRequest request = ListTagsForCertificateRequest.builder()
            .certificateArn(certArn)
            .build();

        ListTagsForCertificateResponse response = acmClient.listTagsForCertificate(request);
        List<Tag> tagList = response.tags();
        tagList.forEach(tag -> {
            System.out.println("Key: " + tag.key());
            System.out.println("Value: " + tag.value());
        });
    }
}
```
+  Untuk detail API, lihat [ListTagsForCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/ListTagsForCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `RemoveTagsFromCertificate`
<a name="acm_RemoveTagsFromCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RemoveTagsFromCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class RemoveTagsFromCert {

    public static void main(String[] args) {
        final String usage = """

            Usage:    <certArn>

            Where:
                certArn - the ARN of the certificate.
            """;
        if (args.length != 1) {
            System.out.println(usage);
            return;
        }

        String certArn = args[0];
        removeTags(certArn);
    }

    /**
     * Removes tags from an AWS Certificate Manager (ACM) certificate.
     *
     * @param certArn the Amazon Resource Name (ARN) of the certificate from which to remove tags
     */
    public static void removeTags(String certArn) {
        AcmClient acmClient = AcmClient.create();
        List<Tag> expectedTags = List.of(Tag.builder().key("key").value("value").build());
        RemoveTagsFromCertificateRequest req = RemoveTagsFromCertificateRequest.builder()
            .certificateArn(certArn)
            .tags(expectedTags)
            .build();

        try {
            acmClient.removeTagsFromCertificate(req);
            System.out.println("Successfully removed tags from the certificate");
        } catch (AcmException e) {
            System.err.println(e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [RemoveTagsFromCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/RemoveTagsFromCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `RenewCertificate`
<a name="acm_RenewCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RenewCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class RenewCert {
    public static void main(String[] args) {
        final String usage = """

            Usage:    <certArn>

            Where:
                certArn - the ARN of the certificate.
            """;
        if (args.length != 1) {
            System.out.println(usage);
            return;
        }

        String certArn = args[0];
        renewCertificate(certArn);
    }

    /**
     * Renews an existing SSL/TLS certificate in AWS Certificate Manager (ACM).
     *
     * @param certArn The Amazon Resource Name (ARN) of the certificate to be renewed.
     * @throws AcmException If there is an error renewing the certificate.
     */
    public static void renewCertificate(String certArn) {
        AcmClient acmClient = AcmClient.create();

        RenewCertificateRequest certificateRequest = RenewCertificateRequest.builder()
            .certificateArn(certArn)
            .build();

        try {
            acmClient.renewCertificate(certificateRequest);
            System.out.println("The certificate was renewed");
        } catch(AcmException e){
            System.out.println(e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [RenewCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/RenewCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `RequestCertificate`
<a name="acm_RequestCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RequestCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/acm#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class RequestCert {

    public static void main(String[] args) {
        requestCertificate();
    }

    /**
     * Requests a certificate from the AWS Certificate Manager (ACM) service.
     */
    public static void requestCertificate() {
        AcmClient acmClient = AcmClient.create();
        ArrayList<String> san = new ArrayList<>();
        san.add("www.example.com");

        RequestCertificateRequest req = RequestCertificateRequest.builder()
            .domainName("example.com")
            .idempotencyToken("1Aq25pTy")
            .subjectAlternativeNames(san)
            .build();

        try {
            RequestCertificateResponse response = acmClient.requestCertificate(req);
            System.out.println("Cert ARN IS " + response.certificateArn());
        } catch (AcmException e) {
            System.err.println(e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [RequestCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/acm-2015-12-08/RequestCertificate)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh API Gateway menggunakan SDK for Java 2.x
<a name="java_2_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan API Gateway AWS SDK for Java 2.x with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Tindakan
<a name="actions"></a>

### `CreateDeployment`
<a name="api-gateway_CreateDeployment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDeployment`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/apigateway#code-examples). 

```
    public static String createNewDeployment(ApiGatewayClient apiGateway, String restApiId, String stageName) {

        try {
            CreateDeploymentRequest request = CreateDeploymentRequest.builder()
                    .restApiId(restApiId)
                    .description("Created using the AWS API Gateway Java API")
                    .stageName(stageName)
                    .build();

            CreateDeploymentResponse response = apiGateway.createDeployment(request);
            System.out.println("The id of the deployment is " + response.id());
            return response.id();

        } catch (ApiGatewayException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateDeployment](https://docs.aws.amazon.com/goto/SdkForJavaV2/apigateway-2015-07-09/CreateDeployment)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateRestApi`
<a name="api-gateway_CreateRestApi_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRestApi`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/apigateway#code-examples). 

```
    public static String createAPI(ApiGatewayClient apiGateway, String restApiId, String restApiName) {

        try {
            CreateRestApiRequest request = CreateRestApiRequest.builder()
                    .cloneFrom(restApiId)
                    .description("Created using the Gateway Java API")
                    .name(restApiName)
                    .build();

            CreateRestApiResponse response = apiGateway.createRestApi(request);
            System.out.println("The id of the new api is " + response.id());
            return response.id();

        } catch (ApiGatewayException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateRestApi](https://docs.aws.amazon.com/goto/SdkForJavaV2/apigateway-2015-07-09/CreateRestApi)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDeployment`
<a name="api-gateway_DeleteDeployment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDeployment`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/apigateway#code-examples). 

```
    public static void deleteSpecificDeployment(ApiGatewayClient apiGateway, String restApiId, String deploymentId) {

        try {
            DeleteDeploymentRequest request = DeleteDeploymentRequest.builder()
                    .restApiId(restApiId)
                    .deploymentId(deploymentId)
                    .build();

            apiGateway.deleteDeployment(request);
            System.out.println("Deployment was deleted");

        } catch (ApiGatewayException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteDeployment](https://docs.aws.amazon.com/goto/SdkForJavaV2/apigateway-2015-07-09/DeleteDeployment)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteRestApi`
<a name="api-gateway_DeleteRestApi_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRestApi`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/apigateway#code-examples). 

```
    public static void deleteAPI(ApiGatewayClient apiGateway, String restApiId) {

        try {
            DeleteRestApiRequest request = DeleteRestApiRequest.builder()
                    .restApiId(restApiId)
                    .build();

            apiGateway.deleteRestApi(request);
            System.out.println("The API was successfully deleted");

        } catch (ApiGatewayException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteRestApi](https://docs.aws.amazon.com/goto/SdkForJavaV2/apigateway-2015-07-09/DeleteRestApi)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Java 2.x**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/pam_source_files).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat AWS Lambda fungsi dengan menggunakan Lambda Java runtime API. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat fungsi Lambda yang diinvokasi oleh Amazon API Gateway yang memindai peringatan hari jadi kerja di tabel Amazon DynamoDB dan menggunakan Amazon Simple Notification Service (Amazon SNS) untuk mengirim pesan teks berisi ucapan selamat kepada karyawan Anda pada tanggal hari jadi kerja satu tahun mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lambda_apigateway).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk Java 2.x**  
 Menunjukkan cara membangun dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Java SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-java-frameworks-samples).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh Application Auto Scaling menggunakan SDK for Java 2.x
<a name="java_2_application-auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Application Auto Scaling AWS SDK for Java 2.x with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteScalingPolicy`
<a name="application-auto-scaling_DeleteScalingPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteScalingPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/appautoscale#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.applicationautoscaling.ApplicationAutoScalingClient;
import software.amazon.awssdk.services.applicationautoscaling.model.ApplicationAutoScalingException;
import software.amazon.awssdk.services.applicationautoscaling.model.DeleteScalingPolicyRequest;
import software.amazon.awssdk.services.applicationautoscaling.model.DeregisterScalableTargetRequest;
import software.amazon.awssdk.services.applicationautoscaling.model.DescribeScalableTargetsRequest;
import software.amazon.awssdk.services.applicationautoscaling.model.DescribeScalableTargetsResponse;
import software.amazon.awssdk.services.applicationautoscaling.model.DescribeScalingPoliciesRequest;
import software.amazon.awssdk.services.applicationautoscaling.model.DescribeScalingPoliciesResponse;
import software.amazon.awssdk.services.applicationautoscaling.model.ScalableDimension;
import software.amazon.awssdk.services.applicationautoscaling.model.ServiceNamespace;

/**
 * Before running this Java V2 code example, set up your development environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class DisableDynamoDBAutoscaling {
    public static void main(String[] args) {
        final String usage = """

            Usage:
               <tableId> <policyName>\s

            Where:
               tableId - The table Id value (for example, table/Music).\s
               policyName - The name of the policy (for example, $Music5-scaling-policy). 
        
            """;
        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        ApplicationAutoScalingClient appAutoScalingClient = ApplicationAutoScalingClient.builder()
            .region(Region.US_EAST_1)
            .build();

        ServiceNamespace ns = ServiceNamespace.DYNAMODB;
        ScalableDimension tableWCUs = ScalableDimension.DYNAMODB_TABLE_WRITE_CAPACITY_UNITS;
        String tableId = args[0];
        String policyName = args[1];

        deletePolicy(appAutoScalingClient, policyName, tableWCUs, ns, tableId);
        verifyScalingPolicies(appAutoScalingClient, tableId, ns, tableWCUs);
        deregisterScalableTarget(appAutoScalingClient, tableId, ns, tableWCUs);
        verifyTarget(appAutoScalingClient, tableId, ns, tableWCUs);
    }

    public static void deletePolicy(ApplicationAutoScalingClient appAutoScalingClient, String policyName, ScalableDimension tableWCUs, ServiceNamespace ns, String tableId) {
        try {
            DeleteScalingPolicyRequest delSPRequest = DeleteScalingPolicyRequest.builder()
                .policyName(policyName)
                .scalableDimension(tableWCUs)
                .serviceNamespace(ns)
                .resourceId(tableId)
                .build();

            appAutoScalingClient.deleteScalingPolicy(delSPRequest);
            System.out.println(policyName +" was deleted successfully.");

        } catch (ApplicationAutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
    }

    // Verify that the scaling policy was deleted
    public static void verifyScalingPolicies(ApplicationAutoScalingClient appAutoScalingClient, String tableId, ServiceNamespace ns, ScalableDimension tableWCUs) {
        DescribeScalingPoliciesRequest dscRequest = DescribeScalingPoliciesRequest.builder()
            .scalableDimension(tableWCUs)
            .serviceNamespace(ns)
            .resourceId(tableId)
            .build();

        DescribeScalingPoliciesResponse response = appAutoScalingClient.describeScalingPolicies(dscRequest);
        System.out.println("DescribeScalableTargets result: ");
        System.out.println(response);
    }

    public static void deregisterScalableTarget(ApplicationAutoScalingClient appAutoScalingClient, String tableId, ServiceNamespace ns, ScalableDimension tableWCUs) {
        try {
            DeregisterScalableTargetRequest targetRequest = DeregisterScalableTargetRequest.builder()
                .scalableDimension(tableWCUs)
                .serviceNamespace(ns)
                .resourceId(tableId)
                .build();

            appAutoScalingClient.deregisterScalableTarget(targetRequest);
            System.out.println("The scalable target was deregistered.");

        } catch (ApplicationAutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
    }

    public static void verifyTarget(ApplicationAutoScalingClient appAutoScalingClient, String tableId, ServiceNamespace ns, ScalableDimension tableWCUs) {
        DescribeScalableTargetsRequest dscRequest = DescribeScalableTargetsRequest.builder()
            .scalableDimension(tableWCUs)
            .serviceNamespace(ns)
            .resourceIds(tableId)
            .build();

        DescribeScalableTargetsResponse response = appAutoScalingClient.describeScalableTargets(dscRequest);
        System.out.println("DescribeScalableTargets result: ");
        System.out.println(response);
    }
}
```
+  Untuk detail API, lihat [DeleteScalingPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/application-autoscaling-2016-02-06/DeleteScalingPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `RegisterScalableTarget`
<a name="application-auto-scaling_RegisterScalableTarget_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RegisterScalableTarget`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/appautoscale#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.applicationautoscaling.ApplicationAutoScalingClient;
import software.amazon.awssdk.services.applicationautoscaling.model.ApplicationAutoScalingException;
import software.amazon.awssdk.services.applicationautoscaling.model.DescribeScalableTargetsRequest;
import software.amazon.awssdk.services.applicationautoscaling.model.DescribeScalableTargetsResponse;
import software.amazon.awssdk.services.applicationautoscaling.model.DescribeScalingPoliciesRequest;
import software.amazon.awssdk.services.applicationautoscaling.model.DescribeScalingPoliciesResponse;
import software.amazon.awssdk.services.applicationautoscaling.model.PolicyType;
import software.amazon.awssdk.services.applicationautoscaling.model.PredefinedMetricSpecification;
import software.amazon.awssdk.services.applicationautoscaling.model.PutScalingPolicyRequest;
import software.amazon.awssdk.services.applicationautoscaling.model.RegisterScalableTargetRequest;
import software.amazon.awssdk.services.applicationautoscaling.model.ScalingPolicy;
import software.amazon.awssdk.services.applicationautoscaling.model.ServiceNamespace;
import software.amazon.awssdk.services.applicationautoscaling.model.ScalableDimension;
import software.amazon.awssdk.services.applicationautoscaling.model.MetricType;
import software.amazon.awssdk.services.applicationautoscaling.model.TargetTrackingScalingPolicyConfiguration;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class EnableDynamoDBAutoscaling {
    public static void main(String[] args) {
        final String usage = """

            Usage:
               <tableId> <roleARN> <policyName>\s

            Where:
               tableId - The table Id value (for example, table/Music).
               roleARN - The ARN of the role that has ApplicationAutoScaling permissions.
               policyName - The name of the policy to create.
               
            """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        System.out.println("This example registers an Amazon DynamoDB table, which is the resource to scale.");
        String tableId = args[0];
        String roleARN = args[1];
        String policyName = args[2];
        ServiceNamespace ns = ServiceNamespace.DYNAMODB;
        ScalableDimension tableWCUs = ScalableDimension.DYNAMODB_TABLE_WRITE_CAPACITY_UNITS;
        ApplicationAutoScalingClient appAutoScalingClient = ApplicationAutoScalingClient.builder()
            .region(Region.US_EAST_1)
            .build();

        registerScalableTarget(appAutoScalingClient, tableId, roleARN, ns, tableWCUs);
        verifyTarget(appAutoScalingClient, tableId, ns, tableWCUs);
        configureScalingPolicy(appAutoScalingClient, tableId, ns, tableWCUs, policyName);
    }

    public static void registerScalableTarget(ApplicationAutoScalingClient appAutoScalingClient, String tableId, String roleARN, ServiceNamespace ns, ScalableDimension tableWCUs) {
        try {
            RegisterScalableTargetRequest targetRequest = RegisterScalableTargetRequest.builder()
                .serviceNamespace(ns)
                .scalableDimension(tableWCUs)
                .resourceId(tableId)
                .roleARN(roleARN)
                .minCapacity(5)
                .maxCapacity(10)
                .build();

            appAutoScalingClient.registerScalableTarget(targetRequest);
            System.out.println("You have registered " + tableId);

        } catch (ApplicationAutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
    }

    // Verify that the target was created.
    public static void verifyTarget(ApplicationAutoScalingClient appAutoScalingClient, String tableId, ServiceNamespace ns, ScalableDimension tableWCUs) {
        DescribeScalableTargetsRequest dscRequest = DescribeScalableTargetsRequest.builder()
            .scalableDimension(tableWCUs)
            .serviceNamespace(ns)
            .resourceIds(tableId)
            .build();

        DescribeScalableTargetsResponse response = appAutoScalingClient.describeScalableTargets(dscRequest);
        System.out.println("DescribeScalableTargets result: ");
        System.out.println(response);
    }

    // Configure a scaling policy.
    public static void configureScalingPolicy(ApplicationAutoScalingClient appAutoScalingClient, String tableId, ServiceNamespace ns, ScalableDimension tableWCUs, String policyName) {
        // Check if the policy exists before creating a new one.
        DescribeScalingPoliciesResponse describeScalingPoliciesResponse = appAutoScalingClient.describeScalingPolicies(DescribeScalingPoliciesRequest.builder()
            .serviceNamespace(ns)
            .resourceId(tableId)
            .scalableDimension(tableWCUs)
            .build());

        if (!describeScalingPoliciesResponse.scalingPolicies().isEmpty()) {
            // If policies exist, consider updating an existing policy instead of creating a new one.
            System.out.println("Policy already exists. Consider updating it instead.");
            List<ScalingPolicy> polList = describeScalingPoliciesResponse.scalingPolicies();
            for (ScalingPolicy pol : polList) {
                System.out.println("Policy name:" +pol.policyName());
            }
        } else {
            // If no policies exist, proceed with creating a new policy.
            PredefinedMetricSpecification specification = PredefinedMetricSpecification.builder()
                .predefinedMetricType(MetricType.DYNAMO_DB_WRITE_CAPACITY_UTILIZATION)
                .build();

            TargetTrackingScalingPolicyConfiguration policyConfiguration = TargetTrackingScalingPolicyConfiguration.builder()
                .predefinedMetricSpecification(specification)
                .targetValue(50.0)
                .scaleInCooldown(60)
                .scaleOutCooldown(60)
                .build();

            PutScalingPolicyRequest putScalingPolicyRequest = PutScalingPolicyRequest.builder()
                .targetTrackingScalingPolicyConfiguration(policyConfiguration)
                .serviceNamespace(ns)
                .scalableDimension(tableWCUs)
                .resourceId(tableId)
                .policyName(policyName)
                .policyType(PolicyType.TARGET_TRACKING_SCALING)
                .build();

            try {
                appAutoScalingClient.putScalingPolicy(putScalingPolicyRequest);
                System.out.println("You have successfully created a scaling policy for an Application Auto Scaling scalable target");
            } catch (ApplicationAutoScalingException e) {
                System.err.println("Error: " + e.awsErrorDetails().errorMessage());
            }
        }
    }
}
```
+  Untuk detail API, lihat [RegisterScalableTarget](https://docs.aws.amazon.com/goto/SdkForJavaV2/application-autoscaling-2016-02-06/RegisterScalableTarget)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Application Recovery Controller menggunakan SDK for Java 2.x
<a name="java_2_route53-recovery-cluster_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda bagaimana melakukan tindakan dan mengimplementasikan skenario umum AWS SDK for Java 2.x dengan menggunakan Application Recovery Controller.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetRoutingControlState`
<a name="route53-recovery-cluster_GetRoutingControlState_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRoutingControlState`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53recoverycluster#code-examples). 

```
    public static GetRoutingControlStateResponse getRoutingControlState(List<ClusterEndpoint> clusterEndpoints,
            String routingControlArn) {
        // As a best practice, we recommend choosing a random cluster endpoint to get or
        // set routing control states.
        // For more information, see
        // https://docs.aws.amazon.com/r53recovery/latest/dg/route53-arc-best-practices.html#route53-arc-best-practices.regional
        Collections.shuffle(clusterEndpoints);
        for (ClusterEndpoint clusterEndpoint : clusterEndpoints) {
            try {
                System.out.println(clusterEndpoint);
                Route53RecoveryClusterClient client = Route53RecoveryClusterClient.builder()
                        .endpointOverride(URI.create(clusterEndpoint.endpoint()))
                        .region(Region.of(clusterEndpoint.region())).build();
                return client.getRoutingControlState(
                        GetRoutingControlStateRequest.builder()
                                .routingControlArn(routingControlArn).build());
            } catch (Exception exception) {
                System.out.println(exception);
            }
        }
        return null;
    }
```
+  Untuk detail API, lihat [GetRoutingControlState](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53-recovery-cluster-2019-12-02/GetRoutingControlState)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateRoutingControlState`
<a name="route53-recovery-cluster_UpdateRoutingControlState_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateRoutingControlState`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53recoverycluster#code-examples). 

```
    public static UpdateRoutingControlStateResponse updateRoutingControlState(List<ClusterEndpoint> clusterEndpoints,
            String routingControlArn,
            String routingControlState) {
        // As a best practice, we recommend choosing a random cluster endpoint to get or
        // set routing control states.
        // For more information, see
        // https://docs.aws.amazon.com/r53recovery/latest/dg/route53-arc-best-practices.html#route53-arc-best-practices.regional
        Collections.shuffle(clusterEndpoints);
        for (ClusterEndpoint clusterEndpoint : clusterEndpoints) {
            try {
                System.out.println(clusterEndpoint);
                Route53RecoveryClusterClient client = Route53RecoveryClusterClient.builder()
                        .endpointOverride(URI.create(clusterEndpoint.endpoint()))
                        .region(Region.of(clusterEndpoint.region()))
                        .build();
                return client.updateRoutingControlState(
                        UpdateRoutingControlStateRequest.builder()
                                .routingControlArn(routingControlArn).routingControlState(routingControlState).build());
            } catch (Exception exception) {
                System.out.println(exception);
            }
        }
        return null;
    }
```
+  Untuk detail API, lihat [UpdateRoutingControlState](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53-recovery-cluster-2019-12-02/UpdateRoutingControlState)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Aurora menggunakan SDK for Java 2.x
<a name="java_2_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK for Java 2.x with Aurora.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Aurora
<a name="aurora_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Aurora.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.paginators.DescribeDBClustersIterable;

public class DescribeDbClusters {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        describeClusters(rdsClient);
        rdsClient.close();
    }

    public static void describeClusters(RdsClient rdsClient) {
        DescribeDBClustersIterable clustersIterable = rdsClient.describeDBClustersPaginator();
        clustersIterable.stream()
                .flatMap(r -> r.dbClusters().stream())
                .forEach(cluster -> System.out
                        .println("Database name: " + cluster.databaseName() + " Arn = " + cluster.dbClusterArn()));
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusters) di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="aurora_Scenario_GetStartedClusters_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter klaster DB Aurora dan mengatur nilai parameter.
+ Membuat klaster DB yang menggunakan grup parameter.
+ Membuat instans DB yang berisi basis data.
+ Mengambil snapshot klaster DB, lalu membersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
/**
 * Before running this Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This example requires an AWS Secrets Manager secret that contains the
 * database credentials. If you do not create a
 * secret, this example will not work. For details, see:
 *
 * https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html
 *
 * This Java example performs the following tasks:
 *
 * 1. Gets available engine families for Amazon Aurora MySQL-Compatible Edition
 * by calling the DescribeDbEngineVersions(Engine='aurora-mysql') method.
 * 2. Selects an engine family and creates a custom DB cluster parameter group
 * by invoking the describeDBClusterParameters method.
 * 3. Gets the parameter groups by invoking the describeDBClusterParameterGroups
 * method.
 * 4. Gets parameters in the group by invoking the describeDBClusterParameters
 * method.
 * 5. Modifies the auto_increment_offset parameter by invoking the
 * modifyDbClusterParameterGroupRequest method.
 * 6. Gets and displays the updated parameters.
 * 7. Gets a list of allowed engine versions by invoking the
 * describeDbEngineVersions method.
 * 8. Creates an Aurora DB cluster database cluster that contains a MySQL
 * database.
 * 9. Waits for DB instance to be ready.
 * 10. Gets a list of instance classes available for the selected engine.
 * 11. Creates a database instance in the cluster.
 * 12. Waits for DB instance to be ready.
 * 13. Creates a snapshot.
 * 14. Waits for DB snapshot to be ready.
 * 15. Deletes the DB cluster.
 * 16. Deletes the DB cluster group.
 */
public class AuroraScenario {
    public static long sleepTime = 20;
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws InterruptedException {
        final String usage = "\n" +
                "Usage:\n" +
                "    <dbClusterGroupName> <dbParameterGroupFamily> <dbInstanceClusterIdentifier> <dbInstanceIdentifier> <dbName> <dbSnapshotIdentifier><secretName>"
                +
                "Where:\n" +
                "    dbClusterGroupName - The name of the DB cluster parameter group. \n" +
                "    dbParameterGroupFamily - The DB cluster parameter group family name (for example, aurora-mysql5.7). \n"
                +
                "    dbInstanceClusterIdentifier - The instance cluster identifier value.\n" +
                "    dbInstanceIdentifier - The database instance identifier.\n" +
                "    dbName - The database name.\n" +
                "    dbSnapshotIdentifier - The snapshot identifier.\n" +
                "    secretName - The name of the AWS Secrets Manager secret that contains the database credentials\"\n";
        ;

        if (args.length != 7) {
            System.out.println(usage);
            System.exit(1);
        }

        String dbClusterGroupName = args[0];
        String dbParameterGroupFamily = args[1];
        String dbInstanceClusterIdentifier = args[2];
        String dbInstanceIdentifier = args[3];
        String dbName = args[4];
        String dbSnapshotIdentifier = args[5];
        String secretName = args[6];

        // Retrieve the database credentials using AWS Secrets Manager.
        Gson gson = new Gson();
        User user = gson.fromJson(String.valueOf(getSecretValues(secretName)), User.class);
        String username = user.getUsername();
        String userPassword = user.getPassword();

        Region region = Region.US_WEST_2;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon Aurora example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. Return a list of the available DB engines");
        describeDBEngines(rdsClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Create a custom parameter group");
        createDBClusterParameterGroup(rdsClient, dbClusterGroupName, dbParameterGroupFamily);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Get the parameter group");
        describeDbClusterParameterGroups(rdsClient, dbClusterGroupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Get the parameters in the group");
        describeDbClusterParameters(rdsClient, dbClusterGroupName, 0);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Modify the auto_increment_offset parameter");
        modifyDBClusterParas(rdsClient, dbClusterGroupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Display the updated parameter value");
        describeDbClusterParameters(rdsClient, dbClusterGroupName, -1);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Get a list of allowed engine versions");
        getAllowedEngines(rdsClient, dbParameterGroupFamily);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Create an Aurora DB cluster database");
        String arnClusterVal = createDBCluster(rdsClient, dbClusterGroupName, dbName, dbInstanceClusterIdentifier,
                username, userPassword);
        System.out.println("The ARN of the cluster is " + arnClusterVal);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. Wait for DB instance to be ready");
        waitForInstanceReady(rdsClient, dbInstanceClusterIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Get a list of instance classes available for the selected engine");
        String instanceClass = getListInstanceClasses(rdsClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("11. Create a database instance in the cluster.");
        String clusterDBARN = createDBInstanceCluster(rdsClient, dbInstanceIdentifier, dbInstanceClusterIdentifier,
                instanceClass);
        System.out.println("The ARN of the database is " + clusterDBARN);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("12. Wait for DB instance to be ready");
        waitDBInstanceReady(rdsClient, dbInstanceIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("13. Create a snapshot");
        createDBClusterSnapshot(rdsClient, dbInstanceClusterIdentifier, dbSnapshotIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("14. Wait for DB snapshot to be ready");
        waitForSnapshotReady(rdsClient, dbSnapshotIdentifier, dbInstanceClusterIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("14. Delete the DB instance");
        deleteDatabaseInstance(rdsClient, dbInstanceIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("15. Delete the DB cluster");
        deleteCluster(rdsClient, dbInstanceClusterIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("16. Delete the DB cluster group");
        deleteDBClusterGroup(rdsClient, dbClusterGroupName, clusterDBARN);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The Scenario has successfully completed.");
        System.out.println(DASHES);
        rdsClient.close();
    }

    private static SecretsManagerClient getSecretClient() {
        Region region = Region.US_WEST_2;
        return SecretsManagerClient.builder()
                .region(region)
                .credentialsProvider(EnvironmentVariableCredentialsProvider.create())
                .build();
    }

    private static String getSecretValues(String secretName) {
        SecretsManagerClient secretClient = getSecretClient();
        GetSecretValueRequest valueRequest = GetSecretValueRequest.builder()
                .secretId(secretName)
                .build();

        GetSecretValueResponse valueResponse = secretClient.getSecretValue(valueRequest);
        return valueResponse.secretString();
    }

    public static void deleteDBClusterGroup(RdsClient rdsClient, String dbClusterGroupName, String clusterDBARN)
            throws InterruptedException {
        try {
            boolean isDataDel = false;
            boolean didFind;
            String instanceARN;

            // Make sure that the database has been deleted.
            while (!isDataDel) {
                DescribeDbInstancesResponse response = rdsClient.describeDBInstances();
                List<DBInstance> instanceList = response.dbInstances();
                int listSize = instanceList.size();
                didFind = false;
                int index = 1;
                for (DBInstance instance : instanceList) {
                    instanceARN = instance.dbInstanceArn();
                    if (instanceARN.compareTo(clusterDBARN) == 0) {
                        System.out.println(clusterDBARN + " still exists");
                        didFind = true;
                    }
                    if ((index == listSize) && (!didFind)) {
                        // Went through the entire list and did not find the database ARN.
                        isDataDel = true;
                    }
                    Thread.sleep(sleepTime * 1000);
                    index++;
                }
            }

            DeleteDbClusterParameterGroupRequest clusterParameterGroupRequest = DeleteDbClusterParameterGroupRequest
                    .builder()
                    .dbClusterParameterGroupName(dbClusterGroupName)
                    .build();

            rdsClient.deleteDBClusterParameterGroup(clusterParameterGroupRequest);
            System.out.println(dbClusterGroupName + " was deleted.");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void deleteCluster(RdsClient rdsClient, String dbInstanceClusterIdentifier) {
        try {
            DeleteDbClusterRequest deleteDbClusterRequest = DeleteDbClusterRequest.builder()
                    .dbClusterIdentifier(dbInstanceClusterIdentifier)
                    .skipFinalSnapshot(true)
                    .build();

            rdsClient.deleteDBCluster(deleteDbClusterRequest);
            System.out.println(dbInstanceClusterIdentifier + " was deleted!");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void deleteDatabaseInstance(RdsClient rdsClient, String dbInstanceIdentifier) {
        try {
            DeleteDbInstanceRequest deleteDbInstanceRequest = DeleteDbInstanceRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .deleteAutomatedBackups(true)
                    .skipFinalSnapshot(true)
                    .build();

            DeleteDbInstanceResponse response = rdsClient.deleteDBInstance(deleteDbInstanceRequest);
            System.out.println("The status of the database is " + response.dbInstance().dbInstanceStatus());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void waitForSnapshotReady(RdsClient rdsClient, String dbSnapshotIdentifier,
            String dbInstanceClusterIdentifier) {
        try {
            boolean snapshotReady = false;
            String snapshotReadyStr;
            System.out.println("Waiting for the snapshot to become available.");

            DescribeDbClusterSnapshotsRequest snapshotsRequest = DescribeDbClusterSnapshotsRequest.builder()
                    .dbClusterSnapshotIdentifier(dbSnapshotIdentifier)
                    .dbClusterIdentifier(dbInstanceClusterIdentifier)
                    .build();

            while (!snapshotReady) {
                DescribeDbClusterSnapshotsResponse response = rdsClient.describeDBClusterSnapshots(snapshotsRequest);
                List<DBClusterSnapshot> snapshotList = response.dbClusterSnapshots();
                for (DBClusterSnapshot snapshot : snapshotList) {
                    snapshotReadyStr = snapshot.status();
                    if (snapshotReadyStr.contains("available")) {
                        snapshotReady = true;
                    } else {
                        System.out.println(".");
                        Thread.sleep(sleepTime * 5000);
                    }
                }
            }

            System.out.println("The Snapshot is available!");

        } catch (RdsException | InterruptedException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void createDBClusterSnapshot(RdsClient rdsClient, String dbInstanceClusterIdentifier,
            String dbSnapshotIdentifier) {
        try {
            CreateDbClusterSnapshotRequest snapshotRequest = CreateDbClusterSnapshotRequest.builder()
                    .dbClusterIdentifier(dbInstanceClusterIdentifier)
                    .dbClusterSnapshotIdentifier(dbSnapshotIdentifier)
                    .build();

            CreateDbClusterSnapshotResponse response = rdsClient.createDBClusterSnapshot(snapshotRequest);
            System.out.println("The Snapshot ARN is " + response.dbClusterSnapshot().dbClusterSnapshotArn());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void waitDBInstanceReady(RdsClient rdsClient, String dbInstanceIdentifier) {
        boolean instanceReady = false;
        String instanceReadyStr;
        System.out.println("Waiting for instance to become available.");
        try {
            DescribeDbInstancesRequest instanceRequest = DescribeDbInstancesRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .build();

            String endpoint = "";
            while (!instanceReady) {
                DescribeDbInstancesResponse response = rdsClient.describeDBInstances(instanceRequest);
                List<DBInstance> instanceList = response.dbInstances();
                for (DBInstance instance : instanceList) {
                    instanceReadyStr = instance.dbInstanceStatus();
                    if (instanceReadyStr.contains("available")) {
                        endpoint = instance.endpoint().address();
                        instanceReady = true;
                    } else {
                        System.out.print(".");
                        Thread.sleep(sleepTime * 1000);
                    }
                }
            }
            System.out.println("Database instance is available! The connection endpoint is " + endpoint);

        } catch (RdsException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static String createDBInstanceCluster(RdsClient rdsClient,
            String dbInstanceIdentifier,
            String dbInstanceClusterIdentifier,
            String instanceClass) {
        try {
            CreateDbInstanceRequest instanceRequest = CreateDbInstanceRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .dbClusterIdentifier(dbInstanceClusterIdentifier)
                    .engine("aurora-mysql")
                    .dbInstanceClass(instanceClass)
                    .build();

            CreateDbInstanceResponse response = rdsClient.createDBInstance(instanceRequest);
            System.out.print("The status is " + response.dbInstance().dbInstanceStatus());
            return response.dbInstance().dbInstanceArn();

        } catch (RdsException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }

    public static String getListInstanceClasses(RdsClient rdsClient) {
        try {
            DescribeOrderableDbInstanceOptionsRequest optionsRequest = DescribeOrderableDbInstanceOptionsRequest
                    .builder()
                    .engine("aurora-mysql")
                    .maxRecords(20)
                    .build();

            DescribeOrderableDbInstanceOptionsResponse response = rdsClient
                    .describeOrderableDBInstanceOptions(optionsRequest);
            List<OrderableDBInstanceOption> instanceOptions = response.orderableDBInstanceOptions();
            String instanceClass = "";
            for (OrderableDBInstanceOption instanceOption : instanceOptions) {
                instanceClass = instanceOption.dbInstanceClass();
                System.out.println("The instance class is " + instanceOption.dbInstanceClass());
                System.out.println("The engine version is " + instanceOption.engineVersion());
            }
            return instanceClass;

        } catch (RdsException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }

    // Waits until the database instance is available.
    public static void waitForInstanceReady(RdsClient rdsClient, String dbClusterIdentifier) {
        boolean instanceReady = false;
        String instanceReadyStr;
        System.out.println("Waiting for instance to become available.");
        try {
            DescribeDbClustersRequest instanceRequest = DescribeDbClustersRequest.builder()
                    .dbClusterIdentifier(dbClusterIdentifier)
                    .build();

            while (!instanceReady) {
                DescribeDbClustersResponse response = rdsClient.describeDBClusters(instanceRequest);
                List<DBCluster> clusterList = response.dbClusters();
                for (DBCluster cluster : clusterList) {
                    instanceReadyStr = cluster.status();
                    if (instanceReadyStr.contains("available")) {
                        instanceReady = true;
                    } else {
                        System.out.print(".");
                        Thread.sleep(sleepTime * 1000);
                    }
                }
            }
            System.out.println("Database cluster is available!");

        } catch (RdsException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static String createDBCluster(RdsClient rdsClient, String dbParameterGroupFamily, String dbName,
            String dbClusterIdentifier, String userName, String password) {
        try {
            CreateDbClusterRequest clusterRequest = CreateDbClusterRequest.builder()
                    .databaseName(dbName)
                    .dbClusterIdentifier(dbClusterIdentifier)
                    .dbClusterParameterGroupName(dbParameterGroupFamily)
                    .engine("aurora-mysql")
                    .masterUsername(userName)
                    .masterUserPassword(password)
                    .build();

            CreateDbClusterResponse response = rdsClient.createDBCluster(clusterRequest);
            return response.dbCluster().dbClusterArn();

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }

    // Get a list of allowed engine versions.
    public static void getAllowedEngines(RdsClient rdsClient, String dbParameterGroupFamily) {
        try {
            DescribeDbEngineVersionsRequest versionsRequest = DescribeDbEngineVersionsRequest.builder()
                    .dbParameterGroupFamily(dbParameterGroupFamily)
                    .engine("aurora-mysql")
                    .build();

            DescribeDbEngineVersionsResponse response = rdsClient.describeDBEngineVersions(versionsRequest);
            List<DBEngineVersion> dbEngines = response.dbEngineVersions();
            for (DBEngineVersion dbEngine : dbEngines) {
                System.out.println("The engine version is " + dbEngine.engineVersion());
                System.out.println("The engine description is " + dbEngine.dbEngineDescription());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Modify the auto_increment_offset parameter.
    public static void modifyDBClusterParas(RdsClient rdsClient, String dClusterGroupName) {
        try {
            Parameter parameter1 = Parameter.builder()
                    .parameterName("auto_increment_offset")
                    .applyMethod("immediate")
                    .parameterValue("5")
                    .build();

            List<Parameter> paraList = new ArrayList<>();
            paraList.add(parameter1);
            ModifyDbClusterParameterGroupRequest groupRequest = ModifyDbClusterParameterGroupRequest.builder()
                    .dbClusterParameterGroupName(dClusterGroupName)
                    .parameters(paraList)
                    .build();

            ModifyDbClusterParameterGroupResponse response = rdsClient.modifyDBClusterParameterGroup(groupRequest);
            System.out.println(
                    "The parameter group " + response.dbClusterParameterGroupName() + " was successfully modified");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void describeDbClusterParameters(RdsClient rdsClient, String dbCLusterGroupName, int flag) {
        try {
            DescribeDbClusterParametersRequest dbParameterGroupsRequest;
            if (flag == 0) {
                dbParameterGroupsRequest = DescribeDbClusterParametersRequest.builder()
                        .dbClusterParameterGroupName(dbCLusterGroupName)
                        .build();
            } else {
                dbParameterGroupsRequest = DescribeDbClusterParametersRequest.builder()
                        .dbClusterParameterGroupName(dbCLusterGroupName)
                        .source("user")
                        .build();
            }

            DescribeDbClusterParametersResponse response = rdsClient
                    .describeDBClusterParameters(dbParameterGroupsRequest);
            List<Parameter> dbParameters = response.parameters();
            String paraName;
            for (Parameter para : dbParameters) {
                // Only print out information about either auto_increment_offset or
                // auto_increment_increment.
                paraName = para.parameterName();
                if ((paraName.compareTo("auto_increment_offset") == 0)
                        || (paraName.compareTo("auto_increment_increment ") == 0)) {
                    System.out.println("*** The parameter name is  " + paraName);
                    System.out.println("*** The parameter value is  " + para.parameterValue());
                    System.out.println("*** The parameter data type is " + para.dataType());
                    System.out.println("*** The parameter description is " + para.description());
                    System.out.println("*** The parameter allowed values  is " + para.allowedValues());
                }
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void describeDbClusterParameterGroups(RdsClient rdsClient, String dbClusterGroupName) {
        try {
            DescribeDbClusterParameterGroupsRequest groupsRequest = DescribeDbClusterParameterGroupsRequest.builder()
                    .dbClusterParameterGroupName(dbClusterGroupName)
                    .maxRecords(20)
                    .build();

            List<DBClusterParameterGroup> groups = rdsClient.describeDBClusterParameterGroups(groupsRequest)
                    .dbClusterParameterGroups();
            for (DBClusterParameterGroup group : groups) {
                System.out.println("The group name is " + group.dbClusterParameterGroupName());
                System.out.println("The group ARN is " + group.dbClusterParameterGroupArn());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void createDBClusterParameterGroup(RdsClient rdsClient, String dbClusterGroupName,
            String dbParameterGroupFamily) {
        try {
            CreateDbClusterParameterGroupRequest groupRequest = CreateDbClusterParameterGroupRequest.builder()
                    .dbClusterParameterGroupName(dbClusterGroupName)
                    .dbParameterGroupFamily(dbParameterGroupFamily)
                    .description("Created by using the AWS SDK for Java")
                    .build();

            CreateDbClusterParameterGroupResponse response = rdsClient.createDBClusterParameterGroup(groupRequest);
            System.out.println("The group name is " + response.dbClusterParameterGroup().dbClusterParameterGroupName());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void describeDBEngines(RdsClient rdsClient) {
        try {
            DescribeDbEngineVersionsRequest engineVersionsRequest = DescribeDbEngineVersionsRequest.builder()
                    .engine("aurora-mysql")
                    .defaultOnly(true)
                    .maxRecords(20)
                    .build();

            DescribeDbEngineVersionsResponse response = rdsClient.describeDBEngineVersions(engineVersionsRequest);
            List<DBEngineVersion> engines = response.dbEngineVersions();

            // Get all DBEngineVersion objects.
            for (DBEngineVersion engineOb : engines) {
                System.out.println("The name of the DB parameter group family for the database engine is "
                        + engineOb.dbParameterGroupFamily());
                System.out.println("The name of the database engine " + engineOb.engine());
                System.out.println("The version number of the database engine " + engineOb.engineVersion());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [Buat DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBCluster)
  + [Buat DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBClusterParameterGroup)
  + [Buat DBCluster Snapshot](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBClusterSnapshot)
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBInstance)
  + [Hapus DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBCluster)
  + [Hapus DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBClusterParameterGroup)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBInstance)
  + [Jelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusterParameterGroups)
  + [Jelaskan DBCluster Parameter](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusterParameters)
  + [Jelaskan DBCluster Snapshots](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusterSnapshots)
  + [Jelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusters)
  + [Jelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBInstances)
  + [DescribeOrderableDBInstancePilihan](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeOrderableDBInstanceOptions)
  + [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/ModifyDBClusterParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="aurora_CreateDBCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static String createDBCluster(RdsClient rdsClient, String dbParameterGroupFamily, String dbName,
            String dbClusterIdentifier, String userName, String password) {
        try {
            CreateDbClusterRequest clusterRequest = CreateDbClusterRequest.builder()
                    .databaseName(dbName)
                    .dbClusterIdentifier(dbClusterIdentifier)
                    .dbClusterParameterGroupName(dbParameterGroupFamily)
                    .engine("aurora-mysql")
                    .masterUsername(userName)
                    .masterUserPassword(password)
                    .build();

            CreateDbClusterResponse response = rdsClient.createDBCluster(clusterRequest);
            return response.dbCluster().dbClusterArn();

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [Membuat DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBCluster) di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDBClusterParameterGroup`
<a name="aurora_CreateDBClusterParameterGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterParameterGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void createDBClusterParameterGroup(RdsClient rdsClient, String dbClusterGroupName,
            String dbParameterGroupFamily) {
        try {
            CreateDbClusterParameterGroupRequest groupRequest = CreateDbClusterParameterGroupRequest.builder()
                    .dbClusterParameterGroupName(dbClusterGroupName)
                    .dbParameterGroupFamily(dbParameterGroupFamily)
                    .description("Created by using the AWS SDK for Java")
                    .build();

            CreateDbClusterParameterGroupResponse response = rdsClient.createDBClusterParameterGroup(groupRequest);
            System.out.println("The group name is " + response.dbClusterParameterGroup().dbClusterParameterGroupName());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Membuat DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBClusterParameterGroup) di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDBClusterSnapshot`
<a name="aurora_CreateDBClusterSnapshot_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterSnapshot`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void createDBClusterSnapshot(RdsClient rdsClient, String dbInstanceClusterIdentifier,
            String dbSnapshotIdentifier) {
        try {
            CreateDbClusterSnapshotRequest snapshotRequest = CreateDbClusterSnapshotRequest.builder()
                    .dbClusterIdentifier(dbInstanceClusterIdentifier)
                    .dbClusterSnapshotIdentifier(dbSnapshotIdentifier)
                    .build();

            CreateDbClusterSnapshotResponse response = rdsClient.createDBClusterSnapshot(snapshotRequest);
            System.out.println("The Snapshot ARN is " + response.dbClusterSnapshot().dbClusterSnapshotArn());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Membuat DBCluster Snapshot](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBClusterSnapshot) di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDBInstance`
<a name="aurora_CreateDBInstance_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static String createDBInstanceCluster(RdsClient rdsClient,
            String dbInstanceIdentifier,
            String dbInstanceClusterIdentifier,
            String instanceClass) {
        try {
            CreateDbInstanceRequest instanceRequest = CreateDbInstanceRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .dbClusterIdentifier(dbInstanceClusterIdentifier)
                    .engine("aurora-mysql")
                    .dbInstanceClass(instanceClass)
                    .build();

            CreateDbInstanceResponse response = rdsClient.createDBInstance(instanceRequest);
            System.out.print("The status is " + response.dbInstance().dbInstanceStatus());
            return response.dbInstance().dbInstanceArn();

        } catch (RdsException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBInstance) di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDBCluster`
<a name="aurora_DeleteDBCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void deleteCluster(RdsClient rdsClient, String dbInstanceClusterIdentifier) {
        try {
            DeleteDbClusterRequest deleteDbClusterRequest = DeleteDbClusterRequest.builder()
                    .dbClusterIdentifier(dbInstanceClusterIdentifier)
                    .skipFinalSnapshot(true)
                    .build();

            rdsClient.deleteDBCluster(deleteDbClusterRequest);
            System.out.println(dbInstanceClusterIdentifier + " was deleted!");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBCluster) di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDBClusterParameterGroup`
<a name="aurora_DeleteDBClusterParameterGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBClusterParameterGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void deleteDBClusterGroup(RdsClient rdsClient, String dbClusterGroupName, String clusterDBARN)
            throws InterruptedException {
        try {
            boolean isDataDel = false;
            boolean didFind;
            String instanceARN;

            // Make sure that the database has been deleted.
            while (!isDataDel) {
                DescribeDbInstancesResponse response = rdsClient.describeDBInstances();
                List<DBInstance> instanceList = response.dbInstances();
                int listSize = instanceList.size();
                didFind = false;
                int index = 1;
                for (DBInstance instance : instanceList) {
                    instanceARN = instance.dbInstanceArn();
                    if (instanceARN.compareTo(clusterDBARN) == 0) {
                        System.out.println(clusterDBARN + " still exists");
                        didFind = true;
                    }
                    if ((index == listSize) && (!didFind)) {
                        // Went through the entire list and did not find the database ARN.
                        isDataDel = true;
                    }
                    Thread.sleep(sleepTime * 1000);
                    index++;
                }
            }

            DeleteDbClusterParameterGroupRequest clusterParameterGroupRequest = DeleteDbClusterParameterGroupRequest
                    .builder()
                    .dbClusterParameterGroupName(dbClusterGroupName)
                    .build();

            rdsClient.deleteDBClusterParameterGroup(clusterParameterGroupRequest);
            System.out.println(dbClusterGroupName + " was deleted.");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menghapus DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBClusterParameterGroup) di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDBInstance`
<a name="aurora_DeleteDBInstance_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void deleteDatabaseInstance(RdsClient rdsClient, String dbInstanceIdentifier) {
        try {
            DeleteDbInstanceRequest deleteDbInstanceRequest = DeleteDbInstanceRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .deleteAutomatedBackups(true)
                    .skipFinalSnapshot(true)
                    .build();

            DeleteDbInstanceResponse response = rdsClient.deleteDBInstance(deleteDbInstanceRequest);
            System.out.println("The status of the database is " + response.dbInstance().dbInstanceStatus());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBInstance) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBClusterParameterGroups`
<a name="aurora_DescribeDBClusterParameterGroups_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameterGroups`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void describeDbClusterParameterGroups(RdsClient rdsClient, String dbClusterGroupName) {
        try {
            DescribeDbClusterParameterGroupsRequest groupsRequest = DescribeDbClusterParameterGroupsRequest.builder()
                    .dbClusterParameterGroupName(dbClusterGroupName)
                    .maxRecords(20)
                    .build();

            List<DBClusterParameterGroup> groups = rdsClient.describeDBClusterParameterGroups(groupsRequest)
                    .dbClusterParameterGroups();
            for (DBClusterParameterGroup group : groups) {
                System.out.println("The group name is " + group.dbClusterParameterGroupName());
                System.out.println("The group ARN is " + group.dbClusterParameterGroupArn());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusterParameterGroups) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBClusterParameters`
<a name="aurora_DescribeDBClusterParameters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void describeDbClusterParameters(RdsClient rdsClient, String dbCLusterGroupName, int flag) {
        try {
            DescribeDbClusterParametersRequest dbParameterGroupsRequest;
            if (flag == 0) {
                dbParameterGroupsRequest = DescribeDbClusterParametersRequest.builder()
                        .dbClusterParameterGroupName(dbCLusterGroupName)
                        .build();
            } else {
                dbParameterGroupsRequest = DescribeDbClusterParametersRequest.builder()
                        .dbClusterParameterGroupName(dbCLusterGroupName)
                        .source("user")
                        .build();
            }

            DescribeDbClusterParametersResponse response = rdsClient
                    .describeDBClusterParameters(dbParameterGroupsRequest);
            List<Parameter> dbParameters = response.parameters();
            String paraName;
            for (Parameter para : dbParameters) {
                // Only print out information about either auto_increment_offset or
                // auto_increment_increment.
                paraName = para.parameterName();
                if ((paraName.compareTo("auto_increment_offset") == 0)
                        || (paraName.compareTo("auto_increment_increment ") == 0)) {
                    System.out.println("*** The parameter name is  " + paraName);
                    System.out.println("*** The parameter value is  " + para.parameterValue());
                    System.out.println("*** The parameter data type is " + para.dataType());
                    System.out.println("*** The parameter description is " + para.description());
                    System.out.println("*** The parameter allowed values  is " + para.allowedValues());
                }
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Parameter](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusterParameters) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBClusterSnapshots`
<a name="aurora_DescribeDBClusterSnapshots_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterSnapshots`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void waitForSnapshotReady(RdsClient rdsClient, String dbSnapshotIdentifier,
            String dbInstanceClusterIdentifier) {
        try {
            boolean snapshotReady = false;
            String snapshotReadyStr;
            System.out.println("Waiting for the snapshot to become available.");

            DescribeDbClusterSnapshotsRequest snapshotsRequest = DescribeDbClusterSnapshotsRequest.builder()
                    .dbClusterSnapshotIdentifier(dbSnapshotIdentifier)
                    .dbClusterIdentifier(dbInstanceClusterIdentifier)
                    .build();

            while (!snapshotReady) {
                DescribeDbClusterSnapshotsResponse response = rdsClient.describeDBClusterSnapshots(snapshotsRequest);
                List<DBClusterSnapshot> snapshotList = response.dbClusterSnapshots();
                for (DBClusterSnapshot snapshot : snapshotList) {
                    snapshotReadyStr = snapshot.status();
                    if (snapshotReadyStr.contains("available")) {
                        snapshotReady = true;
                    } else {
                        System.out.println(".");
                        Thread.sleep(sleepTime * 5000);
                    }
                }
            }

            System.out.println("The Snapshot is available!");

        } catch (RdsException | InterruptedException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Snapshot](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusterSnapshots) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBClusters`
<a name="aurora_DescribeDBClusters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void describeDbClusterParameters(RdsClient rdsClient, String dbCLusterGroupName, int flag) {
        try {
            DescribeDbClusterParametersRequest dbParameterGroupsRequest;
            if (flag == 0) {
                dbParameterGroupsRequest = DescribeDbClusterParametersRequest.builder()
                        .dbClusterParameterGroupName(dbCLusterGroupName)
                        .build();
            } else {
                dbParameterGroupsRequest = DescribeDbClusterParametersRequest.builder()
                        .dbClusterParameterGroupName(dbCLusterGroupName)
                        .source("user")
                        .build();
            }

            DescribeDbClusterParametersResponse response = rdsClient
                    .describeDBClusterParameters(dbParameterGroupsRequest);
            List<Parameter> dbParameters = response.parameters();
            String paraName;
            for (Parameter para : dbParameters) {
                // Only print out information about either auto_increment_offset or
                // auto_increment_increment.
                paraName = para.parameterName();
                if ((paraName.compareTo("auto_increment_offset") == 0)
                        || (paraName.compareTo("auto_increment_increment ") == 0)) {
                    System.out.println("*** The parameter name is  " + paraName);
                    System.out.println("*** The parameter value is  " + para.parameterValue());
                    System.out.println("*** The parameter data type is " + para.dataType());
                    System.out.println("*** The parameter description is " + para.description());
                    System.out.println("*** The parameter allowed values  is " + para.allowedValues());
                }
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBClusters) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBEngineVersions`
<a name="aurora_DescribeDBEngineVersions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void describeDBEngines(RdsClient rdsClient) {
        try {
            DescribeDbEngineVersionsRequest engineVersionsRequest = DescribeDbEngineVersionsRequest.builder()
                    .engine("aurora-mysql")
                    .defaultOnly(true)
                    .maxRecords(20)
                    .build();

            DescribeDbEngineVersionsResponse response = rdsClient.describeDBEngineVersions(engineVersionsRequest);
            List<DBEngineVersion> engines = response.dbEngineVersions();

            // Get all DBEngineVersion objects.
            for (DBEngineVersion engineOb : engines) {
                System.out.println("The name of the DB parameter group family for the database engine is "
                        + engineOb.dbParameterGroupFamily());
                System.out.println("The name of the database engine " + engineOb.engine());
                System.out.println("The version number of the database engine " + engineOb.engineVersion());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBEngineVersions) dalam *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBInstances`
<a name="aurora_DescribeDBInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    // Waits until the database instance is available.
    public static void waitForInstanceReady(RdsClient rdsClient, String dbClusterIdentifier) {
        boolean instanceReady = false;
        String instanceReadyStr;
        System.out.println("Waiting for instance to become available.");
        try {
            DescribeDbClustersRequest instanceRequest = DescribeDbClustersRequest.builder()
                    .dbClusterIdentifier(dbClusterIdentifier)
                    .build();

            while (!instanceReady) {
                DescribeDbClustersResponse response = rdsClient.describeDBClusters(instanceRequest);
                List<DBCluster> clusterList = response.dbClusters();
                for (DBCluster cluster : clusterList) {
                    instanceReadyStr = cluster.status();
                    if (instanceReadyStr.contains("available")) {
                        instanceReady = true;
                    } else {
                        System.out.print(".");
                        Thread.sleep(sleepTime * 1000);
                    }
                }
            }
            System.out.println("Database cluster is available!");

        } catch (RdsException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeOrderableDBInstanceOptions`
<a name="aurora_DescribeOrderableDBInstanceOptions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void describeDBEngines(RdsClient rdsClient) {
        try {
            DescribeDbEngineVersionsRequest engineVersionsRequest = DescribeDbEngineVersionsRequest.builder()
                    .engine("aurora-mysql")
                    .defaultOnly(true)
                    .maxRecords(20)
                    .build();

            DescribeDbEngineVersionsResponse response = rdsClient.describeDBEngineVersions(engineVersionsRequest);
            List<DBEngineVersion> engines = response.dbEngineVersions();

            // Get all DBEngineVersion objects.
            for (DBEngineVersion engineOb : engines) {
                System.out.println("The name of the DB parameter group family for the database engine is "
                        + engineOb.dbParameterGroupFamily());
                System.out.println("The name of the database engine " + engineOb.engine());
                System.out.println("The version number of the database engine " + engineOb.engineVersion());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeOrderableDBInstanceOptions) di *Referensi AWS SDK for Java 2.x API*. 

### `ModifyDBClusterParameterGroup`
<a name="aurora_ModifyDBClusterParameterGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBClusterParameterGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void describeDbClusterParameterGroups(RdsClient rdsClient, String dbClusterGroupName) {
        try {
            DescribeDbClusterParameterGroupsRequest groupsRequest = DescribeDbClusterParameterGroupsRequest.builder()
                    .dbClusterParameterGroupName(dbClusterGroupName)
                    .maxRecords(20)
                    .build();

            List<DBClusterParameterGroup> groups = rdsClient.describeDBClusterParameterGroups(groupsRequest)
                    .dbClusterParameterGroups();
            for (DBClusterParameterGroup group : groups) {
                System.out.println("The group name is " + group.dbClusterParameterGroupName());
                System.out.println("The group ARN is " + group.dbClusterParameterGroupArn());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/ModifyDBClusterParameterGroup) dalam *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon RDS.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/Creating_Spring_RDS_Rest)   
 Untuk kode sumber lengkap dan instruksi tentang cara menyiapkan dan menjalankan contoh yang menggunakan JDBC API, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/Creating_rds_item_tracker)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Auto Scaling menggunakan SDK for Java 2.x
<a name="java_2_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Auto Scaling AWS SDK for Java 2.x with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Auto Scaling
<a name="auto-scaling_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Auto Scaling.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.autoscaling.AutoScalingClient;
import software.amazon.awssdk.services.autoscaling.model.AutoScalingGroup;
import software.amazon.awssdk.services.autoscaling.model.DescribeAutoScalingGroupsResponse;
import java.util.List;

/**
 * Before running this SDK for Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeAutoScalingGroups {
    public static void main(String[] args) throws InterruptedException {
        AutoScalingClient autoScalingClient = AutoScalingClient.builder()
                .region(Region.US_EAST_1)
                .build();

        describeGroups(autoScalingClient);
    }

    public static void describeGroups(AutoScalingClient autoScalingClient) {
        DescribeAutoScalingGroupsResponse response = autoScalingClient.describeAutoScalingGroups();
        List<AutoScalingGroup> groups = response.autoScalingGroups();
        groups.forEach(group -> {
            System.out.println("Group Name: " + group.autoScalingGroupName());
            System.out.println("Group ARN: " + group.autoScalingGroupARN());
        });
    }
}
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="auto-scaling_Scenario_GroupsAndInstances_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat grup Amazon EC2 Auto Scaling dengan template peluncuran dan Availability Zone, dan dapatkan informasi tentang menjalankan instans.
+ Aktifkan pengumpulan CloudWatch metrik Amazon.
+ Perbarui kapasitas yang diinginkan grup dan tunggu instance dimulai.
+ Mengakhiri sebuah instance dalam grup.
+ Buat daftar aktivitas penskalaan yang terjadi sebagai respons terhadap permintaan pengguna dan perubahan kapasitas.
+ Dapatkan statistik untuk CloudWatch metrik, lalu bersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
/**
 * Before running this SDK for Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * In addition, create a launch template. For more information, see the
 * following topic:
 *
 * https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-launch-templates.html#create-launch-template
 *
 * This code example performs the following operations:
 * 1. Creates an Auto Scaling group using an AutoScalingWaiter.
 * 2. Gets a specific Auto Scaling group and returns an instance Id value.
 * 3. Describes Auto Scaling with the Id value.
 * 4. Enables metrics collection.
 * 5. Update an Auto Scaling group.
 * 6. Describes Account details.
 * 7. Describe account details"
 * 8. Updates an Auto Scaling group to use an additional instance.
 * 9. Gets the specific Auto Scaling group and gets the number of instances.
 * 10. List the scaling activities that have occurred for the group.
 * 11. Terminates an instance in the Auto Scaling group.
 * 12. Stops the metrics collection.
 * 13. Deletes the Auto Scaling group.
 */

public class AutoScalingScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final String ROLES_STACK = "MyCdkAutoScaleStack";
    public static void main(String[] args) throws InterruptedException {
        final String usage = """

                Usage:
                    <groupName>

                Where:
                    groupName - The name of the Auto Scaling group.
                """;

        String groupName = "MyAutoScalingGroup2";
        AutoScalingClient autoScalingClient = AutoScalingClient.builder()
                .region(Region.US_WEST_2)
                .build();

        Ec2Client ec2 = Ec2Client.builder()
                .region(Region.US_WEST_2)
                .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon EC2 Auto Scaling example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("First, we will create a launch template using a CloudFormation script");
        CloudFormationHelper.deployCloudFormationStack(ROLES_STACK);
        Map<String, String> stackOutputs = CloudFormationHelper.getStackOutputsAsync(ROLES_STACK).join();
        String launchTemplateName = stackOutputs.get("LaunchTemplateNameOutput");
        String vpcZoneId = getVPC(ec2);
        updateTemlate(ec2, launchTemplateName );
        System.out.println("The VPC zone id created by the CloudFormation stack is"+vpcZoneId);

        System.out.println("1. Create an Auto Scaling group named " + groupName);
        createAutoScalingGroup(autoScalingClient, ec2, groupName, launchTemplateName, vpcZoneId);

        System.out.println(
                "Wait 1 min for the resources, including the instance. Otherwise, an empty instance Id is returned");
        Thread.sleep(60000);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Get Auto Scale group Id value");
        String instanceId = getSpecificAutoScalingGroups(autoScalingClient, groupName);
        if (instanceId.compareTo("") == 0) {
            System.out.println("Error - no instance Id value");
            System.exit(1);
        } else {
            System.out.println("The instance Id value is " + instanceId);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Describe Auto Scaling with the Id value " + instanceId);
        describeAutoScalingInstance(autoScalingClient, instanceId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Enable metrics collection " + instanceId);
        enableMetricsCollection(autoScalingClient, groupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Update an Auto Scaling group to update max size to 3");
        updateAutoScalingGroup(autoScalingClient, groupName, launchTemplateName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Describe Auto Scaling groups");
        describeAutoScalingGroups(autoScalingClient, groupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Describe account details");
        describeAccountLimits(autoScalingClient);
        System.out.println(
                "Wait 1 min for the resources, including the instance. Otherwise, an empty instance Id is returned");
        Thread.sleep(60000);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Set desired capacity to 2");
        setDesiredCapacity(autoScalingClient, groupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. Get the two instance Id values and state");
        getSpecificAutoScalingGroups(autoScalingClient, groupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. List the scaling activities that have occurred for the group");
        describeScalingActivities(autoScalingClient, groupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("11. Terminate an instance in the Auto Scaling group");
        terminateInstanceInAutoScalingGroup(autoScalingClient, instanceId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("12. Stop the metrics collection");
        disableMetricsCollection(autoScalingClient, groupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("13. Delete the Auto Scaling group and cloud formation resources");
        CloudFormationHelper.destroyCloudFormationStack(ROLES_STACK);
        deleteAutoScalingGroup(autoScalingClient, groupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The Scenario has successfully completed.");
        System.out.println(DASHES);

        autoScalingClient.close();
    }

    public static String getVPC(Ec2Client ec2) {
        try {
            DescribeVpcsRequest request = DescribeVpcsRequest.builder()
                    .filters(f -> f.name("isDefault").values("true"))
                    .build();

            DescribeVpcsResponse response = ec2.describeVpcs(request);

            if (!response.vpcs().isEmpty()) {
                Vpc defaultVpc = response.vpcs().get(0);
                System.out.println("Default VPC ID: " + defaultVpc.vpcId());
                return defaultVpc.vpcId();
            } else {
                System.out.println("No default VPC found.");
                return null; // Return null if no default VPC is found
            }

        } catch (Ec2Exception e) {
            System.err.println("EC2 error: " + e.awsErrorDetails().errorMessage());
            return null; // Return null in case of an error
        }
    }


    public static void updateTemlate(Ec2Client ec2, String launchTemplateName ) {
        // Step 1: Create new launch template version
        String newAmiId = "ami-0025f0db847eb6254";
        RequestLaunchTemplateData launchTemplateData = RequestLaunchTemplateData.builder()
                .imageId(newAmiId)
                .build();

        CreateLaunchTemplateVersionRequest createVersionRequest = CreateLaunchTemplateVersionRequest.builder()
                .launchTemplateName(launchTemplateName)
                .versionDescription("Updated with valid AMI")
                .sourceVersion("1")
                .launchTemplateData(launchTemplateData)
                .build();

        CreateLaunchTemplateVersionResponse createResponse = ec2.createLaunchTemplateVersion(createVersionRequest);
        int newVersionNumber = createResponse.launchTemplateVersion().versionNumber().intValue();

        // Step 2: Modify default version
        ModifyLaunchTemplateRequest modifyRequest = ModifyLaunchTemplateRequest.builder()
                .launchTemplateName(launchTemplateName)
                .defaultVersion(String.valueOf(newVersionNumber))
                .build();

        ec2.modifyLaunchTemplate(modifyRequest);
        System.out.println("Updated launch template to version " + newVersionNumber + " with AMI " + newAmiId);
    }


    public static void describeScalingActivities(AutoScalingClient autoScalingClient, String groupName) {
        try {
            DescribeScalingActivitiesRequest scalingActivitiesRequest = DescribeScalingActivitiesRequest.builder()
                    .autoScalingGroupName(groupName)
                    .maxRecords(10)
                    .build();

            DescribeScalingActivitiesResponse response = autoScalingClient
                    .describeScalingActivities(scalingActivitiesRequest);
            List<Activity> activities = response.activities();
            for (Activity activity : activities) {
                System.out.println("The activity Id is " + activity.activityId());
                System.out.println("The activity details are " + activity.details());
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void setDesiredCapacity(AutoScalingClient autoScalingClient, String groupName) {
        try {
            SetDesiredCapacityRequest capacityRequest = SetDesiredCapacityRequest.builder()
                    .autoScalingGroupName(groupName)
                    .desiredCapacity(2)
                    .build();

            autoScalingClient.setDesiredCapacity(capacityRequest);
            System.out.println("You have set the DesiredCapacity to 2");

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void createAutoScalingGroup(AutoScalingClient autoScalingClient,
                                              Ec2Client ec2Client,
                                              String groupName,
                                              String launchTemplateName,
                                              String vpcId) {
        try {
            // Step 1: Get one subnet ID in the given VPC
            DescribeSubnetsRequest subnetRequest = DescribeSubnetsRequest.builder()
                    .filters(Filter.builder().name("vpc-id").values(vpcId).build())
                    .build();

            DescribeSubnetsResponse subnetResponse = ec2Client.describeSubnets(subnetRequest);

            if (subnetResponse.subnets().isEmpty()) {
                throw new RuntimeException("No subnets found in VPC: " + vpcId);
            }

            String subnetId = subnetResponse.subnets().get(0).subnetId(); // Use first subnet
            System.out.println("Using subnet: " + subnetId);

            // Step 2: Create launch template reference
            LaunchTemplateSpecification templateSpecification = LaunchTemplateSpecification.builder()
                    .launchTemplateName(launchTemplateName)
                    .build();

            // Step 3: Create Auto Scaling group
            CreateAutoScalingGroupRequest request = CreateAutoScalingGroupRequest.builder()
                    .autoScalingGroupName(groupName)
                    .launchTemplate(templateSpecification)
                    .minSize(1)
                    .maxSize(1)
                    .vpcZoneIdentifier(subnetId)  // Correct: subnet ID, not VPC ID
                    .build();

            autoScalingClient.createAutoScalingGroup(request);

            // Step 4: Wait until group is created
            AutoScalingWaiter waiter = autoScalingClient.waiter();
            DescribeAutoScalingGroupsRequest groupsRequest = DescribeAutoScalingGroupsRequest.builder()
                    .autoScalingGroupNames(groupName)
                    .build();

            WaiterResponse<DescribeAutoScalingGroupsResponse> waiterResponse =
                    waiter.waitUntilGroupExists(groupsRequest);

            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Auto Scaling Group created");

        } catch (Ec2Exception | AutoScalingException e) {
            System.err.println("Error: " + e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void describeAutoScalingInstance(AutoScalingClient autoScalingClient, String id) {
        try {
            DescribeAutoScalingInstancesRequest describeAutoScalingInstancesRequest = DescribeAutoScalingInstancesRequest
                    .builder()
                    .instanceIds(id)
                    .build();

            DescribeAutoScalingInstancesResponse response = autoScalingClient
                    .describeAutoScalingInstances(describeAutoScalingInstancesRequest);
            List<AutoScalingInstanceDetails> instances = response.autoScalingInstances();
            for (AutoScalingInstanceDetails instance : instances) {
                System.out.println("The instance lifecycle state is: " + instance.lifecycleState());
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void describeAutoScalingGroups(AutoScalingClient autoScalingClient, String groupName) {
        try {
            DescribeAutoScalingGroupsRequest groupsRequest = DescribeAutoScalingGroupsRequest.builder()
                    .autoScalingGroupNames(groupName)
                    .maxRecords(10)
                    .build();

            DescribeAutoScalingGroupsResponse response = autoScalingClient.describeAutoScalingGroups(groupsRequest);
            List<AutoScalingGroup> groups = response.autoScalingGroups();
            for (AutoScalingGroup group : groups) {
                System.out.println("*** The service to use for the health checks: " + group.healthCheckType());
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static String getSpecificAutoScalingGroups(AutoScalingClient autoScalingClient, String groupName) {
        try {
            String instanceId = "";
            DescribeAutoScalingGroupsRequest scalingGroupsRequest = DescribeAutoScalingGroupsRequest.builder()
                    .autoScalingGroupNames(groupName)
                    .build();

            DescribeAutoScalingGroupsResponse response = autoScalingClient
                    .describeAutoScalingGroups(scalingGroupsRequest);
            List<AutoScalingGroup> groups = response.autoScalingGroups();
            for (AutoScalingGroup group : groups) {
                System.out.println("The group name is " + group.autoScalingGroupName());
                System.out.println("The group ARN is " + group.autoScalingGroupARN());
                List<Instance> instances = group.instances();

                for (Instance instance : instances) {
                    instanceId = instance.instanceId();
                    System.out.println("The instance id is " + instanceId);
                    System.out.println("The lifecycle state is " + instance.lifecycleState());
                }
            }

            return instanceId;
        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static void enableMetricsCollection(AutoScalingClient autoScalingClient, String groupName) {
        try {
            EnableMetricsCollectionRequest collectionRequest = EnableMetricsCollectionRequest.builder()
                    .autoScalingGroupName(groupName)
                    .metrics("GroupMaxSize")
                    .granularity("1Minute")
                    .build();

            autoScalingClient.enableMetricsCollection(collectionRequest);
            System.out.println("The enable metrics collection operation was successful");

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void disableMetricsCollection(AutoScalingClient autoScalingClient, String groupName) {
        try {
            DisableMetricsCollectionRequest disableMetricsCollectionRequest = DisableMetricsCollectionRequest.builder()
                    .autoScalingGroupName(groupName)
                    .metrics("GroupMaxSize")
                    .build();

            autoScalingClient.disableMetricsCollection(disableMetricsCollectionRequest);
            System.out.println("The disable metrics collection operation was successful");

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void describeAccountLimits(AutoScalingClient autoScalingClient) {
        try {
            DescribeAccountLimitsResponse response = autoScalingClient.describeAccountLimits();
            System.out.println("The max number of auto scaling groups is " + response.maxNumberOfAutoScalingGroups());
            System.out.println("The current number of auto scaling groups is " + response.numberOfAutoScalingGroups());

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void updateAutoScalingGroup(AutoScalingClient autoScalingClient, String groupName,
            String launchTemplateName) {
        try {
            AutoScalingWaiter waiter = autoScalingClient.waiter();
            LaunchTemplateSpecification templateSpecification = LaunchTemplateSpecification.builder()
                    .launchTemplateName(launchTemplateName)
                    .build();

            UpdateAutoScalingGroupRequest groupRequest = UpdateAutoScalingGroupRequest.builder()
                    .maxSize(3)
                    .autoScalingGroupName(groupName)
                    .launchTemplate(templateSpecification)
                    .build();

            autoScalingClient.updateAutoScalingGroup(groupRequest);
            DescribeAutoScalingGroupsRequest groupsRequest = DescribeAutoScalingGroupsRequest.builder()
                    .autoScalingGroupNames(groupName)
                    .build();

            WaiterResponse<DescribeAutoScalingGroupsResponse> waiterResponse = waiter
                    .waitUntilGroupInService(groupsRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("You successfully updated the auto scaling group  " + groupName);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void terminateInstanceInAutoScalingGroup(AutoScalingClient autoScalingClient, String instanceId) {
        try {
            TerminateInstanceInAutoScalingGroupRequest request = TerminateInstanceInAutoScalingGroupRequest.builder()
                    .instanceId(instanceId)
                    .shouldDecrementDesiredCapacity(false)
                    .build();

            autoScalingClient.terminateInstanceInAutoScalingGroup(request);
            System.out.println("You have terminated instance " + instanceId);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteAutoScalingGroup(AutoScalingClient autoScalingClient, String groupName) {
        try {
            DeleteAutoScalingGroupRequest deleteAutoScalingGroupRequest = DeleteAutoScalingGroupRequest.builder()
                    .autoScalingGroupName(groupName)
                    .forceDelete(true)
                    .build();

            autoScalingClient.deleteAutoScalingGroup(deleteAutoScalingGroupRequest);
            System.out.println("You successfully deleted " + groupName);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingInstances)
  + [DescribeScalingActivities](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeScalingActivities)
  + [DisableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DisableMetricsCollection)
  + [EnableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/EnableMetricsCollection)
  + [SetDesiredCapacity](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/SetDesiredCapacity)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/UpdateAutoScalingGroup)

## Tindakan
<a name="actions"></a>

### `CreateAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAutoScalingGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
import software.amazon.awssdk.core.waiters.WaiterResponse;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.autoscaling.AutoScalingClient;
import software.amazon.awssdk.services.autoscaling.model.AutoScalingException;
import software.amazon.awssdk.services.autoscaling.model.CreateAutoScalingGroupRequest;
import software.amazon.awssdk.services.autoscaling.model.DescribeAutoScalingGroupsRequest;
import software.amazon.awssdk.services.autoscaling.model.DescribeAutoScalingGroupsResponse;
import software.amazon.awssdk.services.autoscaling.model.LaunchTemplateSpecification;
import software.amazon.awssdk.services.autoscaling.waiters.AutoScalingWaiter;

/**
 * Before running this SDK for Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateAutoScalingGroup {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <groupName> <launchTemplateName> <serviceLinkedRoleARN> <vpcZoneId>

                Where:
                    groupName - The name of the Auto Scaling group.
                    launchTemplateName - The name of the launch template.\s
                    vpcZoneId - A subnet Id for a virtual private cloud (VPC) where instances in the Auto Scaling group can be created.
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String groupName = args[0];
        String launchTemplateName = args[1];
        String vpcZoneId = args[2];
        AutoScalingClient autoScalingClient = AutoScalingClient.builder()
                .region(Region.US_EAST_1)
                .build();

        createAutoScalingGroup(autoScalingClient, groupName, launchTemplateName, vpcZoneId);
        autoScalingClient.close();
    }

    public static void createAutoScalingGroup(AutoScalingClient autoScalingClient,
            String groupName,
            String launchTemplateName,
            String vpcZoneId) {

        try {
            AutoScalingWaiter waiter = autoScalingClient.waiter();
            LaunchTemplateSpecification templateSpecification = LaunchTemplateSpecification.builder()
                    .launchTemplateName(launchTemplateName)
                    .build();

            CreateAutoScalingGroupRequest request = CreateAutoScalingGroupRequest.builder()
                    .autoScalingGroupName(groupName)
                    .availabilityZones("us-east-1a")
                    .launchTemplate(templateSpecification)
                    .maxSize(1)
                    .minSize(1)
                    .vpcZoneIdentifier(vpcZoneId)
                    .build();

            autoScalingClient.createAutoScalingGroup(request);
            DescribeAutoScalingGroupsRequest groupsRequest = DescribeAutoScalingGroupsRequest.builder()
                    .autoScalingGroupNames(groupName)
                    .build();

            WaiterResponse<DescribeAutoScalingGroupsResponse> waiterResponse = waiter
                    .waitUntilGroupExists(groupsRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Auto Scaling Group created");

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/CreateAutoScalingGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAutoScalingGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.autoscaling.AutoScalingClient;
import software.amazon.awssdk.services.autoscaling.model.AutoScalingException;
import software.amazon.awssdk.services.autoscaling.model.DeleteAutoScalingGroupRequest;

/**
 * Before running this SDK for Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteAutoScalingGroup {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <groupName>

                Where:
                    groupName - The name of the Auto Scaling group.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String groupName = args[0];
        AutoScalingClient autoScalingClient = AutoScalingClient.builder()
                .region(Region.US_EAST_1)
                .build();

        deleteAutoScalingGroup(autoScalingClient, groupName);
        autoScalingClient.close();
    }

    public static void deleteAutoScalingGroup(AutoScalingClient autoScalingClient, String groupName) {
        try {
            DeleteAutoScalingGroupRequest deleteAutoScalingGroupRequest = DeleteAutoScalingGroupRequest.builder()
                    .autoScalingGroupName(groupName)
                    .forceDelete(true)
                    .build();

            autoScalingClient.deleteAutoScalingGroup(deleteAutoScalingGroupRequest);
            System.out.println("You successfully deleted " + groupName);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DeleteAutoScalingGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAutoScalingGroups`
<a name="auto-scaling_DescribeAutoScalingGroups_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingGroups`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.autoscaling.AutoScalingClient;
import software.amazon.awssdk.services.autoscaling.model.AutoScalingException;
import software.amazon.awssdk.services.autoscaling.model.AutoScalingGroup;
import software.amazon.awssdk.services.autoscaling.model.DescribeAutoScalingGroupsResponse;
import software.amazon.awssdk.services.autoscaling.model.DescribeAutoScalingGroupsRequest;
import software.amazon.awssdk.services.autoscaling.model.Instance;
import java.util.List;

/**
 * Before running this SDK for Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeAutoScalingInstances {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <groupName>

                Where:
                    groupName - The name of the Auto Scaling group.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String groupName = args[0];
        AutoScalingClient autoScalingClient = AutoScalingClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String instanceId = getAutoScaling(autoScalingClient, groupName);
        System.out.println(instanceId);
        autoScalingClient.close();
    }

    public static String getAutoScaling(AutoScalingClient autoScalingClient, String groupName) {
        try {
            String instanceId = "";
            DescribeAutoScalingGroupsRequest scalingGroupsRequest = DescribeAutoScalingGroupsRequest.builder()
                    .autoScalingGroupNames(groupName)
                    .build();

            DescribeAutoScalingGroupsResponse response = autoScalingClient
                    .describeAutoScalingGroups(scalingGroupsRequest);
            List<AutoScalingGroup> groups = response.autoScalingGroups();
            for (AutoScalingGroup group : groups) {
                System.out.println("The group name is " + group.autoScalingGroupName());
                System.out.println("The group ARN is " + group.autoScalingGroupARN());

                List<Instance> instances = group.instances();
                for (Instance instance : instances) {
                    instanceId = instance.instanceId();
                }
            }
            return instanceId;
        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAutoScalingInstances`
<a name="auto-scaling_DescribeAutoScalingInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
    public static void describeAutoScalingInstance(AutoScalingClient autoScalingClient, String id) {
        try {
            DescribeAutoScalingInstancesRequest describeAutoScalingInstancesRequest = DescribeAutoScalingInstancesRequest
                    .builder()
                    .instanceIds(id)
                    .build();

            DescribeAutoScalingInstancesResponse response = autoScalingClient
                    .describeAutoScalingInstances(describeAutoScalingInstancesRequest);
            List<AutoScalingInstanceDetails> instances = response.autoScalingInstances();
            for (AutoScalingInstanceDetails instance : instances) {
                System.out.println("The instance lifecycle state is: " + instance.lifecycleState());
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingInstances)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeScalingActivities`
<a name="auto-scaling_DescribeScalingActivities_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingActivities`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
    public static void describeScalingActivities(AutoScalingClient autoScalingClient, String groupName) {
        try {
            DescribeScalingActivitiesRequest scalingActivitiesRequest = DescribeScalingActivitiesRequest.builder()
                    .autoScalingGroupName(groupName)
                    .maxRecords(10)
                    .build();

            DescribeScalingActivitiesResponse response = autoScalingClient
                    .describeScalingActivities(scalingActivitiesRequest);
            List<Activity> activities = response.activities();
            for (Activity activity : activities) {
                System.out.println("The activity Id is " + activity.activityId());
                System.out.println("The activity details are " + activity.details());
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeScalingActivities)di *Referensi AWS SDK for Java 2.x API*. 

### `DisableMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableMetricsCollection`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
    public static void disableMetricsCollection(AutoScalingClient autoScalingClient, String groupName) {
        try {
            DisableMetricsCollectionRequest disableMetricsCollectionRequest = DisableMetricsCollectionRequest.builder()
                    .autoScalingGroupName(groupName)
                    .metrics("GroupMaxSize")
                    .build();

            autoScalingClient.disableMetricsCollection(disableMetricsCollectionRequest);
            System.out.println("The disable metrics collection operation was successful");

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DisableMetricsCollection)di *Referensi AWS SDK for Java 2.x API*. 

### `EnableMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableMetricsCollection`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
    public static void enableMetricsCollection(AutoScalingClient autoScalingClient, String groupName) {
        try {
            EnableMetricsCollectionRequest collectionRequest = EnableMetricsCollectionRequest.builder()
                    .autoScalingGroupName(groupName)
                    .metrics("GroupMaxSize")
                    .granularity("1Minute")
                    .build();

            autoScalingClient.enableMetricsCollection(collectionRequest);
            System.out.println("The enable metrics collection operation was successful");

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/EnableMetricsCollection)di *Referensi AWS SDK for Java 2.x API*. 

### `SetDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDesiredCapacity`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
    public static void setDesiredCapacity(AutoScalingClient autoScalingClient, String groupName) {
        try {
            SetDesiredCapacityRequest capacityRequest = SetDesiredCapacityRequest.builder()
                    .autoScalingGroupName(groupName)
                    .desiredCapacity(2)
                    .build();

            autoScalingClient.setDesiredCapacity(capacityRequest);
            System.out.println("You have set the DesiredCapacity to 2");

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/SetDesiredCapacity)di *Referensi AWS SDK for Java 2.x API*. 

### `TerminateInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstanceInAutoScalingGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
    public static void terminateInstanceInAutoScalingGroup(AutoScalingClient autoScalingClient, String instanceId) {
        try {
            TerminateInstanceInAutoScalingGroupRequest request = TerminateInstanceInAutoScalingGroupRequest.builder()
                    .instanceId(instanceId)
                    .shouldDecrementDesiredCapacity(false)
                    .build();

            autoScalingClient.terminateInstanceInAutoScalingGroup(request);
            System.out.println("You have terminated instance " + instanceId);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAutoScalingGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/autoscale#code-examples). 

```
    public static void updateAutoScalingGroup(AutoScalingClient autoScalingClient, String groupName,
            String launchTemplateName) {
        try {
            AutoScalingWaiter waiter = autoScalingClient.waiter();
            LaunchTemplateSpecification templateSpecification = LaunchTemplateSpecification.builder()
                    .launchTemplateName(launchTemplateName)
                    .build();

            UpdateAutoScalingGroupRequest groupRequest = UpdateAutoScalingGroupRequest.builder()
                    .maxSize(3)
                    .autoScalingGroupName(groupName)
                    .launchTemplate(templateSpecification)
                    .build();

            autoScalingClient.updateAutoScalingGroup(groupRequest);
            DescribeAutoScalingGroupsRequest groupsRequest = DescribeAutoScalingGroupsRequest.builder()
                    .autoScalingGroupNames(groupName)
                    .build();

            WaiterResponse<DescribeAutoScalingGroupsResponse> waiterResponse = waiter
                    .waitUntilGroupInService(groupsRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("You successfully updated the auto scaling group  " + groupName);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/UpdateAutoScalingGroup)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
public class Main {

    public static final String fileName = "C:\\AWS\\resworkflow\\recommendations.json"; // Modify file location.
    public static final String tableName = "doc-example-recommendation-service";
    public static final String startScript = "C:\\AWS\\resworkflow\\server_startup_script.sh"; // Modify file location.
    public static final String policyFile = "C:\\AWS\\resworkflow\\instance_policy.json"; // Modify file location.
    public static final String ssmJSON = "C:\\AWS\\resworkflow\\ssm_only_policy.json"; // Modify file location.
    public static final String failureResponse = "doc-example-resilient-architecture-failure-response";
    public static final String healthCheck = "doc-example-resilient-architecture-health-check";
    public static final String templateName = "doc-example-resilience-template";
    public static final String roleName = "doc-example-resilience-role";
    public static final String policyName = "doc-example-resilience-pol";
    public static final String profileName = "doc-example-resilience-prof";

    public static final String badCredsProfileName = "doc-example-resilience-prof-bc";

    public static final String targetGroupName = "doc-example-resilience-tg";
    public static final String autoScalingGroupName = "doc-example-resilience-group";
    public static final String lbName = "doc-example-resilience-lb";
    public static final String protocol = "HTTP";
    public static final int port = 80;

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws IOException, InterruptedException {
        Scanner in = new Scanner(System.in);
        Database database = new Database();
        AutoScaler autoScaler = new AutoScaler();
        LoadBalancer loadBalancer = new LoadBalancer();

        System.out.println(DASHES);
        System.out.println("Welcome to the demonstration of How to Build and Manage a Resilient Service!");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("A - SETUP THE RESOURCES");
        System.out.println("Press Enter when you're ready to start deploying resources.");
        in.nextLine();
        deploy(loadBalancer);
        System.out.println(DASHES);
        System.out.println(DASHES);
        System.out.println("B - DEMO THE RESILIENCE FUNCTIONALITY");
        System.out.println("Press Enter when you're ready.");
        in.nextLine();
        demo(loadBalancer);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("C - DELETE THE RESOURCES");
        System.out.println("""
                This concludes the demo of how to build and manage a resilient service.
                To keep things tidy and to avoid unwanted charges on your account, we can clean up all AWS resources
                that were created for this demo.
                """);

        System.out.println("\n Do you want to delete the resources (y/n)? ");
        String userInput = in.nextLine().trim().toLowerCase(); // Capture user input

        if (userInput.equals("y")) {
            // Delete resources here
            deleteResources(loadBalancer, autoScaler, database);
            System.out.println("Resources deleted.");
        } else {
            System.out.println("""
                    Okay, we'll leave the resources intact.
                    Don't forget to delete them when you're done with them or you might incur unexpected charges.
                    """);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The example has completed. ");
        System.out.println("\n Thanks for watching!");
        System.out.println(DASHES);
    }

    // Deletes the AWS resources used in this example.
    private static void deleteResources(LoadBalancer loadBalancer, AutoScaler autoScaler, Database database)
            throws IOException, InterruptedException {
        loadBalancer.deleteLoadBalancer(lbName);
        System.out.println("*** Wait 30 secs for resource to be deleted");
        TimeUnit.SECONDS.sleep(30);
        loadBalancer.deleteTargetGroup(targetGroupName);
        autoScaler.deleteAutoScaleGroup(autoScalingGroupName);
        autoScaler.deleteRolesPolicies(policyName, roleName, profileName);
        autoScaler.deleteTemplate(templateName);
        database.deleteTable(tableName);
    }

    private static void deploy(LoadBalancer loadBalancer) throws InterruptedException, IOException {
        Scanner in = new Scanner(System.in);
        System.out.println(
                """
                        For this demo, we'll use the AWS SDK for Java (v2) to create several AWS resources
                        to set up a load-balanced web service endpoint and explore some ways to make it resilient
                        against various kinds of failures.

                        Some of the resources create by this demo are:
                        \t* A DynamoDB table that the web service depends on to provide book, movie, and song recommendations.
                        \t* An EC2 launch template that defines EC2 instances that each contain a Python web server.
                        \t* An EC2 Auto Scaling group that manages EC2 instances across several Availability Zones.
                        \t* An Elastic Load Balancing (ELB) load balancer that targets the Auto Scaling group to distribute requests.
                        """);

        System.out.println("Press Enter when you're ready.");
        in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Creating and populating a DynamoDB table named " + tableName);
        Database database = new Database();
        database.createTable(tableName, fileName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
                Creating an EC2 launch template that runs '{startup_script}' when an instance starts.
                This script starts a Python web server defined in the `server.py` script. The web server
                listens to HTTP requests on port 80 and responds to requests to '/' and to '/healthcheck'.
                For demo purposes, this server is run as the root user. In production, the best practice is to
                run a web server, such as Apache, with least-privileged credentials.

                The template also defines an IAM policy that each instance uses to assume a role that grants
                permissions to access the DynamoDB recommendation table and Systems Manager parameters
                that control the flow of the demo.
                """);

        LaunchTemplateCreator templateCreator = new LaunchTemplateCreator();
        templateCreator.createTemplate(policyFile, policyName, profileName, startScript, templateName, roleName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(
                "Creating an EC2 Auto Scaling group that maintains three EC2 instances, each in a different Availability Zone.");
        System.out.println("*** Wait 30 secs for the VPC to be created");
        TimeUnit.SECONDS.sleep(30);
        AutoScaler autoScaler = new AutoScaler();
        String[] zones = autoScaler.createGroup(3, templateName, autoScalingGroupName);

        System.out.println("""
                At this point, you have EC2 instances created. Once each instance starts, it listens for
                HTTP requests. You can see these instances in the console or continue with the demo.
                Press Enter when you're ready to continue.
                """);

        in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Creating variables that control the flow of the demo.");
        ParameterHelper paramHelper = new ParameterHelper();
        paramHelper.reset();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
                Creating an Elastic Load Balancing target group and load balancer. The target group
                defines how the load balancer connects to instances. The load balancer provides a
                single endpoint where clients connect and dispatches requests to instances in the group.
                """);

        String vpcId = autoScaler.getDefaultVPC();
        List<Subnet> subnets = autoScaler.getSubnets(vpcId, zones);
        System.out.println("You have retrieved a list with " + subnets.size() + " subnets");
        String targetGroupArn = loadBalancer.createTargetGroup(protocol, port, vpcId, targetGroupName);
        String elbDnsName = loadBalancer.createLoadBalancer(subnets, targetGroupArn, lbName, port, protocol);
        autoScaler.attachLoadBalancerTargetGroup(autoScalingGroupName, targetGroupArn);
        System.out.println("Verifying access to the load balancer endpoint...");
        boolean wasSuccessul = loadBalancer.verifyLoadBalancerEndpoint(elbDnsName);
        if (!wasSuccessul) {
            System.out.println("Couldn't connect to the load balancer, verifying that the port is open...");
            CloseableHttpClient httpClient = HttpClients.createDefault();

            // Create an HTTP GET request to "http://checkip.amazonaws.com"
            HttpGet httpGet = new HttpGet("http://checkip.amazonaws.com");
            try {
                // Execute the request and get the response
                HttpResponse response = httpClient.execute(httpGet);

                // Read the response content.
                String ipAddress = IOUtils.toString(response.getEntity().getContent(), StandardCharsets.UTF_8).trim();

                // Print the public IP address.
                System.out.println("Public IP Address: " + ipAddress);
                GroupInfo groupInfo = autoScaler.verifyInboundPort(vpcId, port, ipAddress);
                if (!groupInfo.isPortOpen()) {
                    System.out.println("""
                            For this example to work, the default security group for your default VPC must
                            allow access from this computer. You can either add it automatically from this
                            example or add it yourself using the AWS Management Console.
                            """);

                    System.out.println(
                            "Do you want to add a rule to security group " + groupInfo.getGroupName() + " to allow");
                    System.out.println("inbound traffic on port " + port + " from your computer's IP address (y/n) ");
                    String ans = in.nextLine();
                    if ("y".equalsIgnoreCase(ans)) {
                        autoScaler.openInboundPort(groupInfo.getGroupName(), String.valueOf(port), ipAddress);
                        System.out.println("Security group rule added.");
                    } else {
                        System.out.println("No security group rule added.");
                    }
                }

            } catch (AutoScalingException e) {
                e.printStackTrace();
            }
        } else if (wasSuccessul) {
            System.out.println("Your load balancer is ready. You can access it by browsing to:");
            System.out.println("\t http://" + elbDnsName);
        } else {
            System.out.println("Couldn't get a successful response from the load balancer endpoint. Troubleshoot by");
            System.out.println("manually verifying that your VPC and security group are configured correctly and that");
            System.out.println("you can successfully make a GET request to the load balancer.");
        }

        System.out.println("Press Enter when you're ready to continue with the demo.");
        in.nextLine();
    }

    // A method that controls the demo part of the Java program.
    public static void demo(LoadBalancer loadBalancer) throws IOException, InterruptedException {
        ParameterHelper paramHelper = new ParameterHelper();
        System.out.println("Read the ssm_only_policy.json file");
        String ssmOnlyPolicy = readFileAsString(ssmJSON);

        System.out.println("Resetting parameters to starting values for demo.");
        paramHelper.reset();

        System.out.println(
                """
                         This part of the demonstration shows how to toggle different parts of the system
                         to create situations where the web service fails, and shows how using a resilient
                         architecture can keep the web service running in spite of these failures.

                         At the start, the load balancer endpoint returns recommendations and reports that all targets are healthy.
                        """);
        demoChoices(loadBalancer);

        System.out.println(
                """
                         The web service running on the EC2 instances gets recommendations by querying a DynamoDB table.
                         The table name is contained in a Systems Manager parameter named self.param_helper.table.
                         To simulate a failure of the recommendation service, let's set this parameter to name a non-existent table.
                        """);
        paramHelper.put(paramHelper.tableName, "this-is-not-a-table");

        System.out.println(
                """
                         \nNow, sending a GET request to the load balancer endpoint returns a failure code. But, the service reports as
                         healthy to the load balancer because shallow health checks don't check for failure of the recommendation service.
                        """);
        demoChoices(loadBalancer);

        System.out.println(
                """
                        Instead of failing when the recommendation service fails, the web service can return a static response.
                        While this is not a perfect solution, it presents the customer with a somewhat better experience than failure.
                        """);
        paramHelper.put(paramHelper.failureResponse, "static");

        System.out.println("""
                Now, sending a GET request to the load balancer endpoint returns a static response.
                The service still reports as healthy because health checks are still shallow.
                """);
        demoChoices(loadBalancer);

        System.out.println("Let's reinstate the recommendation service.");
        paramHelper.put(paramHelper.tableName, paramHelper.dyntable);

        System.out.println("""
                Let's also substitute bad credentials for one of the instances in the target group so that it can't
                access the DynamoDB recommendation table. We will get an instance id value.
                """);

        LaunchTemplateCreator templateCreator = new LaunchTemplateCreator();
        AutoScaler autoScaler = new AutoScaler();

        // Create a new instance profile based on badCredsProfileName.
        templateCreator.createInstanceProfile(policyFile, policyName, badCredsProfileName, roleName);
        String badInstanceId = autoScaler.getBadInstance(autoScalingGroupName);
        System.out.println("The bad instance id values used for this demo is " + badInstanceId);

        String profileAssociationId = autoScaler.getInstanceProfile(badInstanceId);
        System.out.println("The association Id value is " + profileAssociationId);
        System.out.println("Replacing the profile for instance " + badInstanceId
                + " with a profile that contains bad credentials");
        autoScaler.replaceInstanceProfile(badInstanceId, badCredsProfileName, profileAssociationId);

        System.out.println(
                """
                        Now, sending a GET request to the load balancer endpoint returns either a recommendation or a static response,
                        depending on which instance is selected by the load balancer.
                        """);

        demoChoices(loadBalancer);

        System.out.println("""
                Let's implement a deep health check. For this demo, a deep health check tests whether
                the web service can access the DynamoDB table that it depends on for recommendations. Note that
                the deep health check is only for ELB routing and not for Auto Scaling instance health.
                This kind of deep health check is not recommended for Auto Scaling instance health, because it
                risks accidental termination of all instances in the Auto Scaling group when a dependent service fails.
                """);

        System.out.println("""
                By implementing deep health checks, the load balancer can detect when one of the instances is failing
                and take that instance out of rotation.
                """);

        paramHelper.put(paramHelper.healthCheck, "deep");

        System.out.println("""
                Now, checking target health indicates that the instance with bad credentials
                is unhealthy. Note that it might take a minute or two for the load balancer to detect the unhealthy
                instance. Sending a GET request to the load balancer endpoint always returns a recommendation, because
                the load balancer takes unhealthy instances out of its rotation.
                """);

        demoChoices(loadBalancer);

        System.out.println(
                """
                        Because the instances in this demo are controlled by an auto scaler, the simplest way to fix an unhealthy
                        instance is to terminate it and let the auto scaler start a new instance to replace it.
                        """);
        autoScaler.terminateInstance(badInstanceId);

        System.out.println("""
                Even while the instance is terminating and the new instance is starting, sending a GET
                request to the web service continues to get a successful recommendation response because
                the load balancer routes requests to the healthy instances. After the replacement instance
                starts and reports as healthy, it is included in the load balancing rotation.
                Note that terminating and replacing an instance typically takes several minutes, during which time you
                can see the changing health check status until the new instance is running and healthy.
                """);

        demoChoices(loadBalancer);
        System.out.println(
                "If the recommendation service fails now, deep health checks mean all instances report as unhealthy.");
        paramHelper.put(paramHelper.tableName, "this-is-not-a-table");

        demoChoices(loadBalancer);
        paramHelper.reset();
    }

    public static void demoChoices(LoadBalancer loadBalancer) throws IOException, InterruptedException {
        String[] actions = {
                "Send a GET request to the load balancer endpoint.",
                "Check the health of load balancer targets.",
                "Go to the next part of the demo."
        };
        Scanner scanner = new Scanner(System.in);

        while (true) {
            System.out.println("-".repeat(88));
            System.out.println("See the current state of the service by selecting one of the following choices:");
            for (int i = 0; i < actions.length; i++) {
                System.out.println(i + ": " + actions[i]);
            }

            try {
                System.out.print("\nWhich action would you like to take? ");
                int choice = scanner.nextInt();
                System.out.println("-".repeat(88));

                switch (choice) {
                    case 0 -> {
                        System.out.println("Request:\n");
                        System.out.println("GET http://" + loadBalancer.getEndpoint(lbName));
                        CloseableHttpClient httpClient = HttpClients.createDefault();

                        // Create an HTTP GET request to the ELB.
                        HttpGet httpGet = new HttpGet("http://" + loadBalancer.getEndpoint(lbName));

                        // Execute the request and get the response.
                        HttpResponse response = httpClient.execute(httpGet);
                        int statusCode = response.getStatusLine().getStatusCode();
                        System.out.println("HTTP Status Code: " + statusCode);

                        // Display the JSON response
                        BufferedReader reader = new BufferedReader(
                                new InputStreamReader(response.getEntity().getContent()));
                        StringBuilder jsonResponse = new StringBuilder();
                        String line;
                        while ((line = reader.readLine()) != null) {
                            jsonResponse.append(line);
                        }
                        reader.close();

                        // Print the formatted JSON response.
                        System.out.println("Full Response:\n");
                        System.out.println(jsonResponse.toString());

                        // Close the HTTP client.
                        httpClient.close();

                    }
                    case 1 -> {
                        System.out.println("\nChecking the health of load balancer targets:\n");
                        List<TargetHealthDescription> health = loadBalancer.checkTargetHealth(targetGroupName);
                        for (TargetHealthDescription target : health) {
                            System.out.printf("\tTarget %s on port %d is %s%n", target.target().id(),
                                    target.target().port(), target.targetHealth().stateAsString());
                        }
                        System.out.println("""
                                Note that it can take a minute or two for the health check to update
                                after changes are made.
                                """);
                    }
                    case 2 -> {
                        System.out.println("\nOkay, let's move on.");
                        System.out.println("-".repeat(88));
                        return; // Exit the method when choice is 2
                    }
                    default -> System.out.println("You must choose a value between 0-2. Please select again.");
                }

            } catch (java.util.InputMismatchException e) {
                System.out.println("Invalid input. Please select again.");
                scanner.nextLine(); // Clear the input buffer.
            }
        }
    }

    public static String readFileAsString(String filePath) throws IOException {
        byte[] bytes = Files.readAllBytes(Paths.get(filePath));
        return new String(bytes);
    }
}
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
public class AutoScaler {

    private static Ec2Client ec2Client;
    private static AutoScalingClient autoScalingClient;
    private static IamClient iamClient;

    private static SsmClient ssmClient;

    private IamClient getIAMClient() {
        if (iamClient == null) {
            iamClient = IamClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return iamClient;
    }

    private SsmClient getSSMClient() {
        if (ssmClient == null) {
            ssmClient = SsmClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return ssmClient;
    }

    private Ec2Client getEc2Client() {
        if (ec2Client == null) {
            ec2Client = Ec2Client.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return ec2Client;
    }

    private AutoScalingClient getAutoScalingClient() {
        if (autoScalingClient == null) {
            autoScalingClient = AutoScalingClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return autoScalingClient;
    }

    /**
     * Terminates and instances in an EC2 Auto Scaling group. After an instance is
     * terminated, it can no longer be accessed.
     */
    public void terminateInstance(String instanceId) {
        TerminateInstanceInAutoScalingGroupRequest terminateInstanceIRequest = TerminateInstanceInAutoScalingGroupRequest
                .builder()
                .instanceId(instanceId)
                .shouldDecrementDesiredCapacity(false)
                .build();

        getAutoScalingClient().terminateInstanceInAutoScalingGroup(terminateInstanceIRequest);
        System.out.format("Terminated instance %s.", instanceId);
    }

    /**
     * Replaces the profile associated with a running instance. After the profile is
     * replaced, the instance is rebooted to ensure that it uses the new profile.
     * When
     * the instance is ready, Systems Manager is used to restart the Python web
     * server.
     */
    public void replaceInstanceProfile(String instanceId, String newInstanceProfileName, String profileAssociationId)
            throws InterruptedException {
        // Create an IAM instance profile specification.
        software.amazon.awssdk.services.ec2.model.IamInstanceProfileSpecification iamInstanceProfile = software.amazon.awssdk.services.ec2.model.IamInstanceProfileSpecification
                .builder()
                .name(newInstanceProfileName) // Make sure 'newInstanceProfileName' is a valid IAM Instance Profile
                                              // name.
                .build();

        // Replace the IAM instance profile association for the EC2 instance.
        ReplaceIamInstanceProfileAssociationRequest replaceRequest = ReplaceIamInstanceProfileAssociationRequest
                .builder()
                .iamInstanceProfile(iamInstanceProfile)
                .associationId(profileAssociationId) // Make sure 'profileAssociationId' is a valid association ID.
                .build();

        try {
            getEc2Client().replaceIamInstanceProfileAssociation(replaceRequest);
            // Handle the response as needed.
        } catch (Ec2Exception e) {
            // Handle exceptions, log, or report the error.
            System.err.println("Error: " + e.getMessage());
        }
        System.out.format("Replaced instance profile for association %s with profile %s.", profileAssociationId,
                newInstanceProfileName);
        TimeUnit.SECONDS.sleep(15);
        boolean instReady = false;
        int tries = 0;

        // Reboot after 60 seconds
        while (!instReady) {
            if (tries % 6 == 0) {
                getEc2Client().rebootInstances(RebootInstancesRequest.builder()
                        .instanceIds(instanceId)
                        .build());
                System.out.println("Rebooting instance " + instanceId + " and waiting for it to be ready.");
            }
            tries++;
            try {
                TimeUnit.SECONDS.sleep(10);
            } catch (InterruptedException e) {
                e.printStackTrace();
            }

            DescribeInstanceInformationResponse informationResponse = getSSMClient().describeInstanceInformation();
            List<InstanceInformation> instanceInformationList = informationResponse.instanceInformationList();
            for (InstanceInformation info : instanceInformationList) {
                if (info.instanceId().equals(instanceId)) {
                    instReady = true;
                    break;
                }
            }
        }

        SendCommandRequest sendCommandRequest = SendCommandRequest.builder()
                .instanceIds(instanceId)
                .documentName("AWS-RunShellScript")
                .parameters(Collections.singletonMap("commands",
                        Collections.singletonList("cd / && sudo python3 server.py 80")))
                .build();

        getSSMClient().sendCommand(sendCommandRequest);
        System.out.println("Restarted the Python web server on instance " + instanceId + ".");
    }

    public void openInboundPort(String secGroupId, String port, String ipAddress) {
        AuthorizeSecurityGroupIngressRequest ingressRequest = AuthorizeSecurityGroupIngressRequest.builder()
                .groupName(secGroupId)
                .cidrIp(ipAddress)
                .fromPort(Integer.parseInt(port))
                .build();

        getEc2Client().authorizeSecurityGroupIngress(ingressRequest);
        System.out.format("Authorized ingress to %s on port %s from %s.", secGroupId, port, ipAddress);
    }

    /**
     * Detaches a role from an instance profile, detaches policies from the role,
     * and deletes all the resources.
     */
    public void deleteInstanceProfile(String roleName, String profileName) {
        try {
            software.amazon.awssdk.services.iam.model.GetInstanceProfileRequest getInstanceProfileRequest = software.amazon.awssdk.services.iam.model.GetInstanceProfileRequest
                    .builder()
                    .instanceProfileName(profileName)
                    .build();

            GetInstanceProfileResponse response = getIAMClient().getInstanceProfile(getInstanceProfileRequest);
            String name = response.instanceProfile().instanceProfileName();
            System.out.println(name);

            RemoveRoleFromInstanceProfileRequest profileRequest = RemoveRoleFromInstanceProfileRequest.builder()
                    .instanceProfileName(profileName)
                    .roleName(roleName)
                    .build();

            getIAMClient().removeRoleFromInstanceProfile(profileRequest);
            DeleteInstanceProfileRequest deleteInstanceProfileRequest = DeleteInstanceProfileRequest.builder()
                    .instanceProfileName(profileName)
                    .build();

            getIAMClient().deleteInstanceProfile(deleteInstanceProfileRequest);
            System.out.println("Deleted instance profile " + profileName);

            DeleteRoleRequest deleteRoleRequest = DeleteRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            // List attached role policies.
            ListAttachedRolePoliciesResponse rolesResponse = getIAMClient()
                    .listAttachedRolePolicies(role -> role.roleName(roleName));
            List<AttachedPolicy> attachedPolicies = rolesResponse.attachedPolicies();
            for (AttachedPolicy attachedPolicy : attachedPolicies) {
                DetachRolePolicyRequest request = DetachRolePolicyRequest.builder()
                        .roleName(roleName)
                        .policyArn(attachedPolicy.policyArn())
                        .build();

                getIAMClient().detachRolePolicy(request);
                System.out.println("Detached and deleted policy " + attachedPolicy.policyName());
            }

            getIAMClient().deleteRole(deleteRoleRequest);
            System.out.println("Instance profile and role deleted.");

        } catch (IamException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public void deleteTemplate(String templateName) {
        getEc2Client().deleteLaunchTemplate(name -> name.launchTemplateName(templateName));
        System.out.format(templateName + " was deleted.");
    }

    public void deleteAutoScaleGroup(String groupName) {
        DeleteAutoScalingGroupRequest deleteAutoScalingGroupRequest = DeleteAutoScalingGroupRequest.builder()
                .autoScalingGroupName(groupName)
                .forceDelete(true)
                .build();

        getAutoScalingClient().deleteAutoScalingGroup(deleteAutoScalingGroupRequest);
        System.out.println(groupName + " was deleted.");
    }

    /*
     * Verify the default security group of the specified VPC allows ingress from
     * this
     * computer. This can be done by allowing ingress from this computer's IP
     * address. In some situations, such as connecting from a corporate network, you
     * must instead specify a prefix list ID. You can also temporarily open the port
     * to
     * any IP address while running this example. If you do, be sure to remove
     * public
     * access when you're done.
     * 
     */
    public GroupInfo verifyInboundPort(String VPC, int port, String ipAddress) {
        boolean portIsOpen = false;
        GroupInfo groupInfo = new GroupInfo();
        try {
            Filter filter = Filter.builder()
                    .name("group-name")
                    .values("default")
                    .build();

            Filter filter1 = Filter.builder()
                    .name("vpc-id")
                    .values(VPC)
                    .build();

            DescribeSecurityGroupsRequest securityGroupsRequest = DescribeSecurityGroupsRequest.builder()
                    .filters(filter, filter1)
                    .build();

            DescribeSecurityGroupsResponse securityGroupsResponse = getEc2Client()
                    .describeSecurityGroups(securityGroupsRequest);
            String securityGroup = securityGroupsResponse.securityGroups().get(0).groupName();
            groupInfo.setGroupName(securityGroup);

            for (SecurityGroup secGroup : securityGroupsResponse.securityGroups()) {
                System.out.println("Found security group: " + secGroup.groupId());

                for (IpPermission ipPermission : secGroup.ipPermissions()) {
                    if (ipPermission.fromPort() == port) {
                        System.out.println("Found inbound rule: " + ipPermission);
                        for (IpRange ipRange : ipPermission.ipRanges()) {
                            String cidrIp = ipRange.cidrIp();
                            if (cidrIp.startsWith(ipAddress) || cidrIp.equals("0.0.0.0/0")) {
                                System.out.println(cidrIp + " is applicable");
                                portIsOpen = true;
                            }
                        }

                        if (!ipPermission.prefixListIds().isEmpty()) {
                            System.out.println("Prefix lList is applicable");
                            portIsOpen = true;
                        }

                        if (!portIsOpen) {
                            System.out
                                    .println("The inbound rule does not appear to be open to either this computer's IP,"
                                            + " all IP addresses (0.0.0.0/0), or to a prefix list ID.");
                        } else {
                            break;
                        }
                    }
                }
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }

        groupInfo.setPortOpen(portIsOpen);
        return groupInfo;
    }

    /*
     * Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto
     * Scaling group.
     * The target group specifies how the load balancer forward requests to the
     * instances
     * in the group.
     */
    public void attachLoadBalancerTargetGroup(String asGroupName, String targetGroupARN) {
        try {
            AttachLoadBalancerTargetGroupsRequest targetGroupsRequest = AttachLoadBalancerTargetGroupsRequest.builder()
                    .autoScalingGroupName(asGroupName)
                    .targetGroupARNs(targetGroupARN)
                    .build();

            getAutoScalingClient().attachLoadBalancerTargetGroups(targetGroupsRequest);
            System.out.println("Attached load balancer to " + asGroupName);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Creates an EC2 Auto Scaling group with the specified size.
    public String[] createGroup(int groupSize, String templateName, String autoScalingGroupName) {

        // Get availability zones.
        software.amazon.awssdk.services.ec2.model.DescribeAvailabilityZonesRequest zonesRequest = software.amazon.awssdk.services.ec2.model.DescribeAvailabilityZonesRequest
                .builder()
                .build();

        DescribeAvailabilityZonesResponse zonesResponse = getEc2Client().describeAvailabilityZones(zonesRequest);
        List<String> availabilityZoneNames = zonesResponse.availabilityZones().stream()
                .map(software.amazon.awssdk.services.ec2.model.AvailabilityZone::zoneName)
                .collect(Collectors.toList());

        String availabilityZones = String.join(",", availabilityZoneNames);
        LaunchTemplateSpecification specification = LaunchTemplateSpecification.builder()
                .launchTemplateName(templateName)
                .version("$Default")
                .build();

        String[] zones = availabilityZones.split(",");
        CreateAutoScalingGroupRequest groupRequest = CreateAutoScalingGroupRequest.builder()
                .launchTemplate(specification)
                .availabilityZones(zones)
                .maxSize(groupSize)
                .minSize(groupSize)
                .autoScalingGroupName(autoScalingGroupName)
                .build();

        try {
            getAutoScalingClient().createAutoScalingGroup(groupRequest);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Created an EC2 Auto Scaling group named " + autoScalingGroupName);
        return zones;
    }

    public String getDefaultVPC() {
        // Define the filter.
        Filter defaultFilter = Filter.builder()
                .name("is-default")
                .values("true")
                .build();

        software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest request = software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest
                .builder()
                .filters(defaultFilter)
                .build();

        DescribeVpcsResponse response = getEc2Client().describeVpcs(request);
        return response.vpcs().get(0).vpcId();
    }

    // Gets the default subnets in a VPC for a specified list of Availability Zones.
    public List<Subnet> getSubnets(String vpcId, String[] availabilityZones) {
        List<Subnet> subnets = null;
        Filter vpcFilter = Filter.builder()
                .name("vpc-id")
                .values(vpcId)
                .build();

        Filter azFilter = Filter.builder()
                .name("availability-zone")
                .values(availabilityZones)
                .build();

        Filter defaultForAZ = Filter.builder()
                .name("default-for-az")
                .values("true")
                .build();

        DescribeSubnetsRequest request = DescribeSubnetsRequest.builder()
                .filters(vpcFilter, azFilter, defaultForAZ)
                .build();

        DescribeSubnetsResponse response = getEc2Client().describeSubnets(request);
        subnets = response.subnets();
        return subnets;
    }

    // Gets data about the instances in the EC2 Auto Scaling group.
    public String getBadInstance(String groupName) {
        DescribeAutoScalingGroupsRequest request = DescribeAutoScalingGroupsRequest.builder()
                .autoScalingGroupNames(groupName)
                .build();

        DescribeAutoScalingGroupsResponse response = getAutoScalingClient().describeAutoScalingGroups(request);
        AutoScalingGroup autoScalingGroup = response.autoScalingGroups().get(0);
        List<String> instanceIds = autoScalingGroup.instances().stream()
                .map(instance -> instance.instanceId())
                .collect(Collectors.toList());

        String[] instanceIdArray = instanceIds.toArray(new String[0]);
        for (String instanceId : instanceIdArray) {
            System.out.println("Instance ID: " + instanceId);
            return instanceId;
        }
        return "";
    }

    // Gets data about the profile associated with an instance.
    public String getInstanceProfile(String instanceId) {
        Filter filter = Filter.builder()
                .name("instance-id")
                .values(instanceId)
                .build();

        DescribeIamInstanceProfileAssociationsRequest associationsRequest = DescribeIamInstanceProfileAssociationsRequest
                .builder()
                .filters(filter)
                .build();

        DescribeIamInstanceProfileAssociationsResponse response = getEc2Client()
                .describeIamInstanceProfileAssociations(associationsRequest);
        return response.iamInstanceProfileAssociations().get(0).associationId();
    }

    public void deleteRolesPolicies(String policyName, String roleName, String InstanceProfile) {
        ListPoliciesRequest listPoliciesRequest = ListPoliciesRequest.builder().build();
        ListPoliciesResponse listPoliciesResponse = getIAMClient().listPolicies(listPoliciesRequest);
        for (Policy policy : listPoliciesResponse.policies()) {
            if (policy.policyName().equals(policyName)) {
                // List the entities (users, groups, roles) that are attached to the policy.
                software.amazon.awssdk.services.iam.model.ListEntitiesForPolicyRequest listEntitiesRequest = software.amazon.awssdk.services.iam.model.ListEntitiesForPolicyRequest
                        .builder()
                        .policyArn(policy.arn())
                        .build();
                ListEntitiesForPolicyResponse listEntitiesResponse = iamClient
                        .listEntitiesForPolicy(listEntitiesRequest);
                if (!listEntitiesResponse.policyGroups().isEmpty() || !listEntitiesResponse.policyUsers().isEmpty()
                        || !listEntitiesResponse.policyRoles().isEmpty()) {
                    // Detach the policy from any entities it is attached to.
                    DetachRolePolicyRequest detachPolicyRequest = DetachRolePolicyRequest.builder()
                            .policyArn(policy.arn())
                            .roleName(roleName) // Specify the name of the IAM role
                            .build();

                    getIAMClient().detachRolePolicy(detachPolicyRequest);
                    System.out.println("Policy detached from entities.");
                }

                // Now, you can delete the policy.
                DeletePolicyRequest deletePolicyRequest = DeletePolicyRequest.builder()
                        .policyArn(policy.arn())
                        .build();

                getIAMClient().deletePolicy(deletePolicyRequest);
                System.out.println("Policy deleted successfully.");
                break;
            }
        }

        // List the roles associated with the instance profile
        ListInstanceProfilesForRoleRequest listRolesRequest = ListInstanceProfilesForRoleRequest.builder()
                .roleName(roleName)
                .build();

        // Detach the roles from the instance profile
        ListInstanceProfilesForRoleResponse listRolesResponse = iamClient.listInstanceProfilesForRole(listRolesRequest);
        for (software.amazon.awssdk.services.iam.model.InstanceProfile profile : listRolesResponse.instanceProfiles()) {
            RemoveRoleFromInstanceProfileRequest removeRoleRequest = RemoveRoleFromInstanceProfileRequest.builder()
                    .instanceProfileName(InstanceProfile)
                    .roleName(roleName) // Remove the extra dot here
                    .build();

            getIAMClient().removeRoleFromInstanceProfile(removeRoleRequest);
            System.out.println("Role " + roleName + " removed from instance profile " + InstanceProfile);
        }

        // Delete the instance profile after removing all roles
        DeleteInstanceProfileRequest deleteInstanceProfileRequest = DeleteInstanceProfileRequest.builder()
                .instanceProfileName(InstanceProfile)
                .build();

        getIAMClient().deleteInstanceProfile(r -> r.instanceProfileName(InstanceProfile));
        System.out.println(InstanceProfile + " Deleted");
        System.out.println("All roles and policies are deleted.");
    }
}
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
public class LoadBalancer {
    public ElasticLoadBalancingV2Client elasticLoadBalancingV2Client;

    public ElasticLoadBalancingV2Client getLoadBalancerClient() {
        if (elasticLoadBalancingV2Client == null) {
            elasticLoadBalancingV2Client = ElasticLoadBalancingV2Client.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }

        return elasticLoadBalancingV2Client;
    }

    // Checks the health of the instances in the target group.
    public List<TargetHealthDescription> checkTargetHealth(String targetGroupName) {
        DescribeTargetGroupsRequest targetGroupsRequest = DescribeTargetGroupsRequest.builder()
                .names(targetGroupName)
                .build();

        DescribeTargetGroupsResponse tgResponse = getLoadBalancerClient().describeTargetGroups(targetGroupsRequest);

        DescribeTargetHealthRequest healthRequest = DescribeTargetHealthRequest.builder()
                .targetGroupArn(tgResponse.targetGroups().get(0).targetGroupArn())
                .build();

        DescribeTargetHealthResponse healthResponse = getLoadBalancerClient().describeTargetHealth(healthRequest);
        return healthResponse.targetHealthDescriptions();
    }

    // Gets the HTTP endpoint of the load balancer.
    public String getEndpoint(String lbName) {
        DescribeLoadBalancersResponse res = getLoadBalancerClient()
                .describeLoadBalancers(describe -> describe.names(lbName));
        return res.loadBalancers().get(0).dnsName();
    }

    // Deletes a load balancer.
    public void deleteLoadBalancer(String lbName) {
        try {
            // Use a waiter to delete the Load Balancer.
            DescribeLoadBalancersResponse res = getLoadBalancerClient()
                    .describeLoadBalancers(describe -> describe.names(lbName));
            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(res.loadBalancers().get(0).loadBalancerArn())
                    .build();

            getLoadBalancerClient().deleteLoadBalancer(
                    builder -> builder.loadBalancerArn(res.loadBalancers().get(0).loadBalancerArn()));
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancersDeleted(request);
            waiterResponse.matched().response().ifPresent(System.out::println);

        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(lbName + " was deleted.");
    }

    // Deletes the target group.
    public void deleteTargetGroup(String targetGroupName) {
        try {
            DescribeTargetGroupsResponse res = getLoadBalancerClient()
                    .describeTargetGroups(describe -> describe.names(targetGroupName));
            getLoadBalancerClient()
                    .deleteTargetGroup(builder -> builder.targetGroupArn(res.targetGroups().get(0).targetGroupArn()));
        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(targetGroupName + " was deleted.");
    }

    // Verify this computer can successfully send a GET request to the load balancer
    // endpoint.
    public boolean verifyLoadBalancerEndpoint(String elbDnsName) throws IOException, InterruptedException {
        boolean success = false;
        int retries = 3;
        CloseableHttpClient httpClient = HttpClients.createDefault();

        // Create an HTTP GET request to the ELB.
        HttpGet httpGet = new HttpGet("http://" + elbDnsName);
        try {
            while ((!success) && (retries > 0)) {
                // Execute the request and get the response.
                HttpResponse response = httpClient.execute(httpGet);
                int statusCode = response.getStatusLine().getStatusCode();
                System.out.println("HTTP Status Code: " + statusCode);
                if (statusCode == 200) {
                    success = true;
                } else {
                    retries--;
                    System.out.println("Got connection error from load balancer endpoint, retrying...");
                    TimeUnit.SECONDS.sleep(15);
                }
            }

        } catch (org.apache.http.conn.HttpHostConnectException e) {
            System.out.println(e.getMessage());
        }

        System.out.println("Status.." + success);
        return success;
    }

    /*
     * Creates an Elastic Load Balancing target group. The target group specifies
     * how
     * the load balancer forward requests to instances in the group and how instance
     * health is checked.
     */
    public String createTargetGroup(String protocol, int port, String vpcId, String targetGroupName) {
        CreateTargetGroupRequest targetGroupRequest = CreateTargetGroupRequest.builder()
                .healthCheckPath("/healthcheck")
                .healthCheckTimeoutSeconds(5)
                .port(port)
                .vpcId(vpcId)
                .name(targetGroupName)
                .protocol(protocol)
                .build();

        CreateTargetGroupResponse targetGroupResponse = getLoadBalancerClient().createTargetGroup(targetGroupRequest);
        String targetGroupArn = targetGroupResponse.targetGroups().get(0).targetGroupArn();
        String targetGroup = targetGroupResponse.targetGroups().get(0).targetGroupName();
        System.out.println("The " + targetGroup + " was created with ARN" + targetGroupArn);
        return targetGroupArn;
    }

    /*
     * Creates an Elastic Load Balancing load balancer that uses the specified
     * subnets
     * and forwards requests to the specified target group.
     */
    public String createLoadBalancer(List<Subnet> subnetIds, String targetGroupARN, String lbName, int port,
            String protocol) {
        try {
            List<String> subnetIdStrings = subnetIds.stream()
                    .map(Subnet::subnetId)
                    .collect(Collectors.toList());

            CreateLoadBalancerRequest balancerRequest = CreateLoadBalancerRequest.builder()
                    .subnets(subnetIdStrings)
                    .name(lbName)
                    .scheme("internet-facing")
                    .build();

            // Create and wait for the load balancer to become available.
            CreateLoadBalancerResponse lsResponse = getLoadBalancerClient().createLoadBalancer(balancerRequest);
            String lbARN = lsResponse.loadBalancers().get(0).loadBalancerArn();

            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(lbARN)
                    .build();

            System.out.println("Waiting for Load Balancer " + lbName + " to become available.");
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancerAvailable(request);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Load Balancer " + lbName + " is available.");

            // Get the DNS name (endpoint) of the load balancer.
            String lbDNSName = lsResponse.loadBalancers().get(0).dnsName();
            System.out.println("*** Load Balancer DNS Name: " + lbDNSName);

            // Create a listener for the load balance.
            Action action = Action.builder()
                    .targetGroupArn(targetGroupARN)
                    .type("forward")
                    .build();

            CreateListenerRequest listenerRequest = CreateListenerRequest.builder()
                    .loadBalancerArn(lsResponse.loadBalancers().get(0).loadBalancerArn())
                    .defaultActions(action)
                    .port(port)
                    .protocol(protocol)
                    .build();

            getLoadBalancerClient().createListener(listenerRequest);
            System.out.println("Created listener to forward traffic from load balancer " + lbName + " to target group "
                    + targetGroupARN);

            // Return the load balancer DNS name.
            return lbDNSName;

        } catch (ElasticLoadBalancingV2Exception e) {
            e.printStackTrace();
        }
        return "";
    }
}
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
public class Database {

    private static DynamoDbClient dynamoDbClient;

    public static DynamoDbClient getDynamoDbClient() {
        if (dynamoDbClient == null) {
            dynamoDbClient = DynamoDbClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return dynamoDbClient;
    }

    // Checks to see if the Amazon DynamoDB table exists.
    private boolean doesTableExist(String tableName) {
        try {
            // Describe the table and catch any exceptions.
            DescribeTableRequest describeTableRequest = DescribeTableRequest.builder()
                    .tableName(tableName)
                    .build();

            getDynamoDbClient().describeTable(describeTableRequest);
            System.out.println("Table '" + tableName + "' exists.");
            return true;

        } catch (ResourceNotFoundException e) {
            System.out.println("Table '" + tableName + "' does not exist.");
        } catch (DynamoDbException e) {
            System.err.println("Error checking table existence: " + e.getMessage());
        }
        return false;
    }

    /*
     * Creates a DynamoDB table to use a recommendation service. The table has a
     * hash key named 'MediaType' that defines the type of media recommended, such
     * as
     * Book or Movie, and a range key named 'ItemId' that, combined with the
     * MediaType,
     * forms a unique identifier for the recommended item.
     */
    public void createTable(String tableName, String fileName) throws IOException {
        // First check to see if the table exists.
        boolean doesExist = doesTableExist(tableName);
        if (!doesExist) {
            DynamoDbWaiter dbWaiter = getDynamoDbClient().waiter();
            CreateTableRequest createTableRequest = CreateTableRequest.builder()
                    .tableName(tableName)
                    .attributeDefinitions(
                            AttributeDefinition.builder()
                                    .attributeName("MediaType")
                                    .attributeType(ScalarAttributeType.S)
                                    .build(),
                            AttributeDefinition.builder()
                                    .attributeName("ItemId")
                                    .attributeType(ScalarAttributeType.N)
                                    .build())
                    .keySchema(
                            KeySchemaElement.builder()
                                    .attributeName("MediaType")
                                    .keyType(KeyType.HASH)
                                    .build(),
                            KeySchemaElement.builder()
                                    .attributeName("ItemId")
                                    .keyType(KeyType.RANGE)
                                    .build())
                    .provisionedThroughput(
                            ProvisionedThroughput.builder()
                                    .readCapacityUnits(5L)
                                    .writeCapacityUnits(5L)
                                    .build())
                    .build();

            getDynamoDbClient().createTable(createTableRequest);
            System.out.println("Creating table " + tableName + "...");

            // Wait until the Amazon DynamoDB table is created.
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                    .tableName(tableName)
                    .build();

            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter.waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Table " + tableName + " created.");

            // Add records to the table.
            populateTable(fileName, tableName);
        }
    }

    public void deleteTable(String tableName) {
        getDynamoDbClient().deleteTable(table -> table.tableName(tableName));
        System.out.println("Table " + tableName + " deleted.");
    }

    // Populates the table with data located in a JSON file using the DynamoDB
    // enhanced client.
    public void populateTable(String fileName, String tableName) throws IOException {
        DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
                .dynamoDbClient(getDynamoDbClient())
                .build();
        ObjectMapper objectMapper = new ObjectMapper();
        File jsonFile = new File(fileName);
        JsonNode rootNode = objectMapper.readTree(jsonFile);

        DynamoDbTable<Recommendation> mappedTable = enhancedClient.table(tableName,
                TableSchema.fromBean(Recommendation.class));
        for (JsonNode currentNode : rootNode) {
            String mediaType = currentNode.path("MediaType").path("S").asText();
            int itemId = currentNode.path("ItemId").path("N").asInt();
            String title = currentNode.path("Title").path("S").asText();
            String creator = currentNode.path("Creator").path("S").asText();

            // Create a Recommendation object and set its properties.
            Recommendation rec = new Recommendation();
            rec.setMediaType(mediaType);
            rec.setItemId(itemId);
            rec.setTitle(title);
            rec.setCreator(creator);

            // Put the item into the DynamoDB table.
            mappedTable.putItem(rec); // Add the Recommendation to the list.
        }
        System.out.println("Added all records to the " + tableName);
    }
}
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
public class ParameterHelper {

    String tableName = "doc-example-resilient-architecture-table";
    String dyntable = "doc-example-recommendation-service";
    String failureResponse = "doc-example-resilient-architecture-failure-response";
    String healthCheck = "doc-example-resilient-architecture-health-check";

    public void reset() {
        put(dyntable, tableName);
        put(failureResponse, "none");
        put(healthCheck, "shallow");
    }

    public void put(String name, String value) {
        SsmClient ssmClient = SsmClient.builder()
                .region(Region.US_EAST_1)
                .build();

        PutParameterRequest parameterRequest = PutParameterRequest.builder()
                .name(name)
                .value(value)
                .overwrite(true)
                .type("String")
                .build();

        ssmClient.putParameter(parameterRequest);
        System.out.printf("Setting demo parameter %s to '%s'.", name, value);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# AWS Batch contoh menggunakan SDK for Java 2.x
<a name="java_2_batch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS Batch.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Batch
<a name="batch_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Batch.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.core.retry.RetryPolicy;
import software.amazon.awssdk.http.async.SdkAsyncHttpClient;
import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.batch.BatchAsyncClient;
import software.amazon.awssdk.services.batch.model.JobStatus;
import software.amazon.awssdk.services.batch.model.JobSummary;
import software.amazon.awssdk.services.batch.model.ListJobsRequest;
import software.amazon.awssdk.services.batch.paginators.ListJobsPublisher;
import java.time.Duration;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.CompletableFuture;

public class HelloBatch {
    private static BatchAsyncClient batchClient;

    public static void main(String[] args) {
        List<JobSummary> jobs = listJobs("my-job-queue");
        jobs.forEach(job ->
            System.out.printf("Job ID: %s, Job Name: %s, Job Status: %s%n",
                job.jobId(), job.jobName(), job.status())
        );
    }

    public static List<JobSummary> listJobs(String jobQueue) {
        if (jobQueue == null || jobQueue.isEmpty()) {
            throw new IllegalArgumentException("Job queue cannot be null or empty");
        }

        ListJobsRequest listJobsRequest = ListJobsRequest.builder()
            .jobQueue(jobQueue)
            .jobStatus(JobStatus.SUCCEEDED)
            .build();

        List<JobSummary> jobSummaries = new ArrayList<>();
        ListJobsPublisher listJobsPaginator = getAsyncClient().listJobsPaginator(listJobsRequest);
        CompletableFuture<Void> future = listJobsPaginator.subscribe(response -> {
            jobSummaries.addAll(response.jobSummaryList());
        });

        future.join();
        return jobSummaries;
    }

    private static BatchAsyncClient getAsyncClient() {
        SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
            .maxConcurrency(100)  // Increase max concurrency to handle more simultaneous connections.
            .connectionTimeout(Duration.ofSeconds(60))  // Set the connection timeout.
            .readTimeout(Duration.ofSeconds(60))  // Set the read timeout.
            .writeTimeout(Duration.ofSeconds(60))  // Set the write timeout.
            .build();

        ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
            .apiCallTimeout(Duration.ofMinutes(2))  // Set the overall API call timeout.
            .apiCallAttemptTimeout(Duration.ofSeconds(90))  // Set the individual call attempt timeout.
            .retryPolicy(RetryPolicy.builder()  // Add a retry policy to handle transient errors.
                .numRetries(3)  // Number of retry attempts.
                .build())
            .build();

        if (batchClient == null) {
            batchClient = BatchAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return batchClient;
    }
}
```
+  Untuk detail API, lihat [listJobsPaginator](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/listJobsPaginator)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="batch_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat lingkungan AWS Batch komputasi.
+ Periksa status lingkungan komputasi.
+ Siapkan antrian AWS Batch pekerjaan dan definisi pekerjaan.
+ Daftarkan definisi pekerjaan.
+ Kirim AWS Batch Job.
+ Dapatkan daftar pekerjaan yang berlaku untuk antrian pekerjaan.
+ Periksa status pekerjaan.
+ Hapus AWS Batch sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS Batch fitur.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.batch.model.BatchException;
import software.amazon.awssdk.services.batch.model.ClientException;
import software.amazon.awssdk.services.batch.model.CreateComputeEnvironmentResponse;
import software.amazon.awssdk.services.batch.model.JobSummary;
import software.amazon.awssdk.services.ec2.Ec2AsyncClient;
import software.amazon.awssdk.services.ec2.model.DescribeSecurityGroupsRequest;
import software.amazon.awssdk.services.ec2.model.DescribeSecurityGroupsResponse;
import software.amazon.awssdk.services.ec2.model.DescribeSubnetsRequest;
import software.amazon.awssdk.services.ec2.model.DescribeSubnetsResponse;
import software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest;
import software.amazon.awssdk.services.ec2.model.Filter;
import software.amazon.awssdk.services.ec2.model.SecurityGroup;
import software.amazon.awssdk.services.ec2.model.Subnet;
import software.amazon.awssdk.services.ec2.model.Vpc;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.util.List;
import java.util.Map;
import java.util.Scanner;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * NOTE
 * This scenario submits a job that pulls a Docker image named echo-text from Amazon ECR to Amazon Fargate.
 *
 * To place this Docker image on Amazon ECR, run the following Basics scenario.
 *
 * https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr
 *
 */
public class BatchScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    // Define two stacks used in this Basics Scenario.
    private static final String ROLES_STACK = "RolesStack";
    private static String defaultSubnet;
    private static String defaultSecurityGroup;

    private static final Logger logger = LoggerFactory.getLogger(BatchScenario.class);

    public static void main(String[] args) throws InterruptedException {

        BatchActions batchActions = new BatchActions();
        Scanner scanner = new Scanner(System.in);
        String computeEnvironmentName = "my-compute-environment";
        String jobQueueName = "my-job-queue";
        String jobDefinitionName = "my-job-definition";


        // See the NOTE in this Java code example (at start).
        String dockerImage = "dkr.ecr.us-east-1.amazonaws.com/echo-text:echo-text";

        logger.info("""
            AWS Batch is a fully managed batch processing service that dynamically provisions the required compute 
            resources for batch computing workloads. The Java V2 `BatchAsyncClient` allows 
            developers to automate the submission, monitoring, and management of batch jobs.
                        
            This scenario provides an example of setting up a compute environment, job queue and job definition, 
            and then submitting a job.
            
            This scenario submits a job that pulls a Docker image named echo-text from Amazon ECR to Amazon Fargate.
            
            To place this Docker image on Amazon ECR, run the following Basics scenario.
            
            https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr
            
            Let's get started...
                        
            You have two choices:
            
            1 - Run the entire program.
            2 - Delete an existing Compute Environment (created from a previous execution of 
            this program that did not complete).
            """);

        while (true) {
            String input = scanner.nextLine();
            if (input.trim().equalsIgnoreCase("1")) {
                logger.info("Continuing with the program...");
               // logger.info("");
                break;
            } else if (input.trim().equalsIgnoreCase("2")) {
                String jobQueueARN = String.valueOf(batchActions. describeJobQueueAsync(computeEnvironmentName));
                if (!jobQueueARN.isEmpty()) {
                    batchActions.disableJobQueueAsync(jobQueueARN);
                    countdown(1);
                    batchActions.deleteJobQueueAsync(jobQueueARN);
                }

                try {
                    batchActions.disableComputeEnvironmentAsync(computeEnvironmentName)
                        .exceptionally(ex -> {
                            logger.info("Disable compute environment failed: " + ex.getMessage());
                            return null;
                        })
                        .join();
                } catch (CompletionException ex) {
                    logger.info("Failed to disable compute environment: " + ex.getMessage());
                }
                countdown(2);
                batchActions.deleteComputeEnvironmentAsync(computeEnvironmentName).join();
                return;
            } else {
                // Handle invalid input.
                logger.info("Invalid input. Please try again.");
            }
        }
        System.out.println(DASHES);

        waitForInputToContinue(scanner);
        // Get an AWS Account id used to retrieve the docker image from Amazon ECR.
        // Create a single-element array to store the `accountId` value.
        String[] accId = new String[1];
        CompletableFuture<String> accountIdFuture = batchActions.getAccountId();
        accountIdFuture.thenAccept(accountId -> {
            logger.info("Account ID: " + accountId);
            accId[0] = accountId;
        }).join();

        dockerImage = accId[0]+"."+dockerImage;

        // Get a default subnet and default security associated with the default VPC.
        getSubnetSecurityGroup();

        logger.info("Use AWS CloudFormation to create two IAM roles that are required for this scenario.");
        CloudFormationHelper.deployCloudFormationStack(ROLES_STACK);

        Map<String, String> stackOutputs = CloudFormationHelper.getStackOutputs(ROLES_STACK);
        String batchIAMRole = stackOutputs.get("BatchRoleArn");
        String executionRoleARN = stackOutputs.get("EcsRoleArn");

        logger.info("The IAM role needed to interact with AWS Batch is "+batchIAMRole);
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("1. Create a Batch compute environment");
        logger.info("""
            A compute environment is a resource where you can run your batch jobs. 
            After creating a compute environment, you can define job queues and job definitions to submit jobs for 
            execution. 
            
            The benefit of creating a compute environment is it allows you to easily configure and manage the compute 
            resources that will be used to run your Batch jobs. By separating the compute environment from the job definitions,
            you can easily scale your compute resources up or down as needed, without having to modify your job definitions. 
            This makes it easier to manage your Batch workloads and ensures that your jobs have the necessary 
            compute resources to run efficiently.
            """);

        waitForInputToContinue(scanner);
        try {
            CompletableFuture<CreateComputeEnvironmentResponse> future = batchActions.createComputeEnvironmentAsync(computeEnvironmentName, batchIAMRole, defaultSubnet, defaultSecurityGroup);
            CreateComputeEnvironmentResponse response = future.join();
            logger.info("Compute Environment ARN: " + response.computeEnvironmentArn());
        } catch (RuntimeException rte) {
            Throwable cause = rte.getCause();
            if (cause instanceof ClientException batchExceptionEx) {
                String myErrorCode = batchExceptionEx.awsErrorDetails().errorMessage();
                if ("Object already exists".contains(myErrorCode)) {
                    logger.info("The compute environment '" + computeEnvironmentName + "' already exists. Moving on...");
                } else {
                    logger.info("Batch error occurred: {} (Code: {})", batchExceptionEx.getMessage(), batchExceptionEx.awsErrorDetails().errorCode());
                    return;
                }
            } else {
                    logger.info("An unexpected error occurred: {}", (cause != null ? cause.getMessage() : rte.getMessage()));
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("2. Check the status of the "+computeEnvironmentName +" Compute Environment.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<String> future = batchActions.checkComputeEnvironmentsStatus(computeEnvironmentName);
            String status = future.join();
            logger.info("Compute Environment Status: " + status);

        } catch (RuntimeException rte) {
            Throwable cause = rte.getCause();
            if (cause instanceof ClientException batchExceptionEx) {
                logger.info("Batch error occurred: {} (Code: {})", batchExceptionEx.getMessage(), batchExceptionEx.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: " + (cause != null ? cause.getMessage() : rte.getMessage()));
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("3. Create a job queue");
        logger.info("""
             A job queue is an essential component that helps manage the execution of your batch jobs. 
             It acts as a buffer, where jobs are placed and then scheduled for execution based on their 
             priority and the available resources in the compute environment. 
             """);
        waitForInputToContinue(scanner);

        String jobQueueArn = null;
        try {
            CompletableFuture<String> jobQueueFuture = batchActions.createJobQueueAsync(jobQueueName, computeEnvironmentName);
            jobQueueArn = jobQueueFuture.join();
            logger.info("Job Queue ARN: " + jobQueueArn);

        } catch (RuntimeException rte) {
            Throwable cause = rte.getCause();
            if (cause instanceof BatchException batchExceptionEx) {
                String myErrorCode = batchExceptionEx.awsErrorDetails().errorMessage();
                if ("Object already exists".contains(myErrorCode)) {
                    logger.info("The job queue '" + jobQueueName + "' already exists. Moving on...");
                    // Retrieve the ARN of the job queue.
                    CompletableFuture<String> jobQueueArnFuture = batchActions.getJobQueueARN(jobQueueName);
                    jobQueueArn = jobQueueArnFuture.join();
                    logger.info("Job Queue ARN: " + jobQueueArn);
                } else {
                    logger.info("Batch error occurred: {} (Code: {})", batchExceptionEx.getMessage(), batchExceptionEx.awsErrorDetails().errorCode());
                    return;
                }
            } else {
                logger.info("An unexpected error occurred: " + (cause != null ? cause.getMessage() : rte.getMessage()));
                return; // End the execution
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("4. Register a Job Definition.");
        logger.info("""
            Registering a job in AWS Batch using the Fargate launch type ensures that all
            necessary parameters, such as the execution role, command to run, and so on
            are specified and reused across multiple job submissions.
            
             The job definition pulls a Docker image from Amazon ECR and executes the Docker image.
            """);

        waitForInputToContinue(scanner);
        String jobARN;
        try {
            String platform = "";
            while (true) {
                logger.info("""
                    On which platform/CPU architecture combination did you build the Docker image?:
                    1. Windows       X86_64
                    2. Mac or Linux  ARM64
                    3. Mac or Linux  X86_64
                                
                    Please select 1, 2, or 3.
                    """);
                String platAns = scanner.nextLine().trim();
                if (platAns.equals("1")) {
                    platform = "X86_64";
                    break; // Exit loop since a valid option is selected
                } else if (platAns.equals("2")) {
                    platform = "ARM64";
                    break; // Exit loop since a valid option is selected
                } else if (platAns.equals("3")) {
                    platform = "X86_64";
                    break; // Exit loop since a valid option is selected
                } else {
                    System.out.println("Invalid input. Please select either 1 or 2.");
                }
            }

            jobARN = batchActions.registerJobDefinitionAsync(jobDefinitionName, executionRoleARN, dockerImage, platform)
                .exceptionally(ex -> {
                    System.err.println("Register job definition failed: " + ex.getMessage());
                    return null;
                })
                .join();
            if (jobARN != null) {
                logger.info("Job ARN: " + jobARN);
            }
        } catch (RuntimeException rte) {
            logger.error("A Batch exception occurred while registering the job: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
            return;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("5. Submit an AWS Batch job from a job definition.");
        waitForInputToContinue(scanner);
        String jobId;
        try {
            jobId = batchActions.submitJobAsync(jobDefinitionName, jobQueueName, jobARN)
                .exceptionally(ex -> {
                    System.err.println("Submit job failed: " + ex.getMessage());
                    return null;
                })
                .join();

            logger.info("The job id is "+jobId);
            logger.info("Let's wait 2 minutes for the job to complete");
            countdown(2);

        } catch (RuntimeException rte) {
            logger.error("A Batch exception occurred while submitting the job: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        logger.info(DASHES);
        logger.info("6. Get a list of jobs applicable to the job queue.");

        waitForInputToContinue(scanner);
        try {
            List<JobSummary> jobs = batchActions.listJobsAsync(jobQueueName);
            jobs.forEach(job ->
                logger.info("Job ID: {}, Job Name: {}, Job Status: {}", job.jobId(), job.jobName(), job.status()));

        } catch (RuntimeException rte) {
            logger.info("A Batch exception occurred while submitting the job: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
            return;
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("7. Check the status of job "+jobId);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<String> future = batchActions.describeJobAsync(jobId);
            String jobStatus = future.join();
            logger.info("Job Status: " + jobStatus);

        } catch (RuntimeException rte) {
            logger.info("A Batch exception occurred while submitting the job: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
            return;
        }

        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        logger.info("8. Delete Batch resources");
        logger.info(
            """
            When deleting an AWS Batch compute environment, it does not happen instantaneously. 
            There is typically a delay, similar to some other AWS resources. 
            AWS Batch starts the deletion process.
            """);
        logger.info("Would you like to delete the AWS Batch resources such as the compute environment? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            logger.info("You selected to delete the AWS ECR resources.");
            logger.info("First, we will deregister the Job Definition.");
            waitForInputToContinue(scanner);
            try {
                batchActions.deregisterJobDefinitionAsync(jobARN)
                    .exceptionally(ex -> {
                        logger.info("Deregister job definition failed: " + ex.getMessage());
                        return null;
                    })
                    .join();
                logger.info(jobARN + " was deregistered");
            } catch (RuntimeException rte) {
                logger.error("A Batch exception occurred: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
                return;
            }

            logger.info("Second, we will disable and then delete the Job Queue.");
            waitForInputToContinue(scanner);
            try {
                batchActions.disableJobQueueAsync(jobQueueArn)
                    .exceptionally(ex -> {
                        logger.info("Disable job queue failed: " + ex.getMessage());
                        return null;
                    })
                    .join();
                logger.info(jobQueueArn + " was disabled");
            } catch (RuntimeException rte) {
                logger.info("A Batch exception occurred: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
                return;
            }

            batchActions.waitForJobQueueToBeDisabledAsync(jobQueueArn);
            try {
                CompletableFuture<Void> future = batchActions.waitForJobQueueToBeDisabledAsync(jobQueueArn);
                future.join();
                logger.info("Job queue is now disabled.");
            } catch (RuntimeException rte) {
                logger.info("A Batch exception occurred: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
                return;
            }

            waitForInputToContinue(scanner);
            try {
                batchActions.deleteJobQueueAsync(jobQueueArn);
                logger.info(jobQueueArn +" was deleted");
            } catch (RuntimeException rte) {
                logger.info("A Batch exception occurred: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
                return;
            }
            logger.info("Let's wait 2 minutes for the job queue to be deleted");
            countdown(2);
            waitForInputToContinue(scanner);

            logger.info("Third, we will delete the Compute Environment.");
            waitForInputToContinue(scanner);
            try {
                batchActions.disableComputeEnvironmentAsync(computeEnvironmentName)
                    .exceptionally(ex -> {
                        System.err.println("Disable compute environment failed: " + ex.getMessage());
                        return null;
                    })
                    .join();
                logger.info("Compute environment disabled") ;
            } catch (RuntimeException rte) {
                logger.info("A Batch exception occurred: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
                return;
            }

            batchActions.checkComputeEnvironmentsStatus(computeEnvironmentName).thenAccept(state -> {
                logger.info("Current State: " + state);
            }).join();

            logger.info("Lets wait 1 min for the compute environment to be deleted");
            countdown(1);

            try {
                batchActions.deleteComputeEnvironmentAsync(computeEnvironmentName).join();
                logger.info(computeEnvironmentName +" was deleted.");

            } catch (RuntimeException rte) {
                logger.info("A Batch exception occurred: {}", rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage());
                return;
            }
            waitForInputToContinue(scanner);
            CloudFormationHelper.destroyCloudFormationStack(ROLES_STACK);
        }

        logger.info(DASHES);
        logger.info("This concludes the AWS Batch SDK scenario");
        logger.info(DASHES);
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                // Handle invalid input.
                logger.info("Invalid input. Please try again.");
            }
        }
    }

    public static void countdown(int minutes) throws InterruptedException {
        int seconds = 0;
        for (int i = minutes * 60 + seconds; i >= 0; i--) {
            int displayMinutes = i / 60;
            int displaySeconds = i % 60;
            System.out.print(String.format("\r%02d:%02d", displayMinutes, displaySeconds));
            Thread.sleep(1000); // Wait for 1 second
        }
        logger.info("Countdown complete!");
    }

    private static void getSubnetSecurityGroup() {
        try (Ec2AsyncClient ec2Client = Ec2AsyncClient.create()) {
            CompletableFuture<Vpc> defaultVpcFuture = ec2Client.describeVpcs(DescribeVpcsRequest.builder()
                            .filters(Filter.builder()
                                    .name("is-default")
                                    .values("true")
                                    .build())
                            .build())
                    .thenApply(response -> response.vpcs().stream()
                            .findFirst()
                            .orElseThrow(() -> new RuntimeException("Default VPC not found")));

            CompletableFuture<String> defaultSubnetFuture = defaultVpcFuture
                    .thenCompose(vpc -> ec2Client.describeSubnets(DescribeSubnetsRequest.builder()
                                    .filters(Filter.builder()
                                                    .name("vpc-id")
                                                    .values(vpc.vpcId())
                                                    .build(),
                                            Filter.builder()
                                                    .name("default-for-az")
                                                    .values("true")
                                                    .build())
                                    .build())
                            .thenApply(DescribeSubnetsResponse::subnets)
                            .thenApply(subnets -> subnets.stream()
                                    .findFirst()
                                    .map(Subnet::subnetId)
                                    .orElseThrow(() -> new RuntimeException("No default subnet found"))));

            CompletableFuture<String> defaultSecurityGroupFuture = defaultVpcFuture
                    .thenCompose(vpc -> ec2Client.describeSecurityGroups(DescribeSecurityGroupsRequest.builder()
                                    .filters(Filter.builder()
                                                    .name("group-name")
                                                    .values("default")
                                                    .build(),
                                            Filter.builder()
                                                    .name("vpc-id")
                                                    .values(vpc.vpcId())
                                                    .build())
                                    .build())
                            .thenApply(DescribeSecurityGroupsResponse::securityGroups)
                            .thenApply(securityGroups -> securityGroups.stream()
                                    .findFirst()
                                    .map(SecurityGroup::groupId)
                                    .orElseThrow(() -> new RuntimeException("No default security group found"))));

            defaultSubnet = defaultSubnetFuture.join();
            defaultSecurityGroup = defaultSecurityGroupFuture.join();
        }
    }
}
```
Kelas pembungkus untuk metode AWS Batch SDK.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.core.retry.RetryPolicy;
import software.amazon.awssdk.http.async.SdkAsyncHttpClient;
import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.batch.BatchAsyncClient;
import software.amazon.awssdk.services.batch.BatchClient;
import software.amazon.awssdk.services.batch.model.AssignPublicIp;
import software.amazon.awssdk.services.batch.model.BatchException;
import software.amazon.awssdk.services.batch.model.CEState;
import software.amazon.awssdk.services.batch.model.CEType;
import software.amazon.awssdk.services.batch.model.CRType;
import software.amazon.awssdk.services.batch.model.ComputeEnvironmentOrder;
import software.amazon.awssdk.services.batch.model.ComputeResource;
import software.amazon.awssdk.services.batch.model.ContainerProperties;
import software.amazon.awssdk.services.batch.model.CreateComputeEnvironmentRequest;
import software.amazon.awssdk.services.batch.model.CreateComputeEnvironmentResponse;
import software.amazon.awssdk.services.batch.model.CreateJobQueueRequest;
import software.amazon.awssdk.services.batch.model.DeleteComputeEnvironmentRequest;
import software.amazon.awssdk.services.batch.model.DeleteComputeEnvironmentResponse;
import software.amazon.awssdk.services.batch.model.DeleteJobQueueRequest;
import software.amazon.awssdk.services.batch.model.DeleteJobQueueResponse;
import software.amazon.awssdk.services.batch.model.DeregisterJobDefinitionRequest;
import software.amazon.awssdk.services.batch.model.DeregisterJobDefinitionResponse;
import software.amazon.awssdk.services.batch.model.DescribeComputeEnvironmentsRequest;
import software.amazon.awssdk.services.batch.model.DescribeComputeEnvironmentsResponse;
import software.amazon.awssdk.services.batch.model.DescribeJobQueuesRequest;
import software.amazon.awssdk.services.batch.model.DescribeJobQueuesResponse;
import software.amazon.awssdk.services.batch.model.DescribeJobsRequest;
import software.amazon.awssdk.services.batch.model.DescribeJobsResponse;
import software.amazon.awssdk.services.batch.model.JQState;
import software.amazon.awssdk.services.batch.model.JobDefinitionType;
import software.amazon.awssdk.services.batch.model.JobDetail;
import software.amazon.awssdk.services.batch.model.JobQueueDetail;
import software.amazon.awssdk.services.batch.model.JobStatus;
import software.amazon.awssdk.services.batch.model.JobSummary;
import software.amazon.awssdk.services.batch.model.ListJobsRequest;
import software.amazon.awssdk.services.batch.model.RegisterJobDefinitionResponse;
import software.amazon.awssdk.services.batch.model.NetworkConfiguration;
import software.amazon.awssdk.services.batch.model.PlatformCapability;
import software.amazon.awssdk.services.batch.model.RegisterJobDefinitionRequest;
import software.amazon.awssdk.services.batch.model.ResourceRequirement;
import software.amazon.awssdk.services.batch.model.ResourceType;
import software.amazon.awssdk.services.batch.model.RuntimePlatform;
import software.amazon.awssdk.services.batch.model.SubmitJobRequest;
import software.amazon.awssdk.services.batch.model.CreateJobQueueResponse;
import java.time.Duration;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.atomic.AtomicBoolean;
import software.amazon.awssdk.auth.credentials.EnvironmentVariableCredentialsProvider;
import software.amazon.awssdk.services.batch.model.SubmitJobResponse;
import software.amazon.awssdk.services.batch.model.UpdateComputeEnvironmentRequest;
import software.amazon.awssdk.services.batch.model.UpdateComputeEnvironmentResponse;
import software.amazon.awssdk.services.batch.model.UpdateJobQueueRequest;
import software.amazon.awssdk.services.batch.model.UpdateJobQueueResponse;
import software.amazon.awssdk.services.batch.paginators.ListJobsPublisher;
import software.amazon.awssdk.services.sts.StsAsyncClient;
import software.amazon.awssdk.services.sts.model.GetCallerIdentityResponse;

public class BatchActions {
    private static BatchAsyncClient batchClient;

    private static final Logger logger = LoggerFactory.getLogger(BatchActions.class);

    private static BatchAsyncClient getAsyncClient() {
        if (batchClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryPolicy(RetryPolicy.builder()
                    .numRetries(3)
                    .build())
                .build();

            batchClient = BatchAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return batchClient;
    }

    /**
     * Asynchronously creates a new compute environment in AWS Batch.
     *
     * @param computeEnvironmentName the name of the compute environment to create
     * @param batchIAMRole the IAM role to be used by the compute environment
     * @param subnet the subnet ID to be used for the compute environment
     * @param secGroup the security group ID to be used for the compute environment
     * @return a {@link CompletableFuture} representing the asynchronous operation, which will complete with the
     *         {@link CreateComputeEnvironmentResponse} when the compute environment has been created
     * @throws BatchException if there is an error creating the compute environment
     * @throws RuntimeException if there is an unexpected error during the operation
     */
    public CompletableFuture<CreateComputeEnvironmentResponse> createComputeEnvironmentAsync(
        String computeEnvironmentName, String batchIAMRole, String subnet, String secGroup) {
        CreateComputeEnvironmentRequest environmentRequest = CreateComputeEnvironmentRequest.builder()
            .computeEnvironmentName(computeEnvironmentName)
            .type(CEType.MANAGED)
            .state(CEState.ENABLED)
            .computeResources(ComputeResource.builder()
                .type(CRType.FARGATE)
                .maxvCpus(256)
                .subnets(Collections.singletonList(subnet))
                .securityGroupIds(Collections.singletonList(secGroup))
                .build())
            .serviceRole(batchIAMRole)
            .build();

        CompletableFuture<CreateComputeEnvironmentResponse> response = getAsyncClient().createComputeEnvironment(environmentRequest);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
               String errorMessage = "Unexpected error occurred: " + ex.getMessage();
               throw new RuntimeException(errorMessage, ex);
            }
        });

        return response;
    }

    public CompletableFuture<DeleteComputeEnvironmentResponse> deleteComputeEnvironmentAsync(String computeEnvironmentName) {
        DeleteComputeEnvironmentRequest deleteComputeEnvironment = DeleteComputeEnvironmentRequest.builder()
            .computeEnvironment(computeEnvironmentName)
            .build();

        return getAsyncClient().deleteComputeEnvironment(deleteComputeEnvironment)
            .whenComplete((response, ex) -> {
                if (ex != null) {
                    Throwable cause = ex.getCause();
                    if (cause instanceof BatchException) {
                        throw new RuntimeException(cause);
                    } else {
                        throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
                    }
                }
            });
    }

    /**
     * Checks the status of the specified compute environment.
     *
     * @param computeEnvironmentName the name of the compute environment to check
     * @return a CompletableFuture containing the status of the compute environment, or "ERROR" if an exception occurs
     */
    public CompletableFuture<String> checkComputeEnvironmentsStatus(String computeEnvironmentName) {
        if (computeEnvironmentName == null || computeEnvironmentName.isEmpty()) {
            throw new IllegalArgumentException("Compute environment name cannot be null or empty");
        }

        DescribeComputeEnvironmentsRequest environmentsRequest = DescribeComputeEnvironmentsRequest.builder()
            .computeEnvironments(computeEnvironmentName)
            .build();

        CompletableFuture<DescribeComputeEnvironmentsResponse> response = getAsyncClient().describeComputeEnvironments(environmentsRequest);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
                String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                throw new RuntimeException(errorMessage, ex);
            }
        });

        return response.thenApply(resp -> resp.computeEnvironments().stream()
            .map(env -> env.statusAsString())
            .findFirst()
            .orElse("UNKNOWN"));
    }

    /**
     * Creates a job queue asynchronously.
     *
     * @param jobQueueName the name of the job queue to create
     * @param computeEnvironmentName the name of the compute environment to associate with the job queue
     * @return a CompletableFuture that completes with the Amazon Resource Name (ARN) of the job queue
     */
    public CompletableFuture<String> createJobQueueAsync(String jobQueueName, String computeEnvironmentName) {
        if (jobQueueName == null || jobQueueName.isEmpty()) {
            throw new IllegalArgumentException("Job queue name cannot be null or empty");
        }
        if (computeEnvironmentName == null || computeEnvironmentName.isEmpty()) {
            throw new IllegalArgumentException("Compute environment name cannot be null or empty");
        }

        CreateJobQueueRequest request = CreateJobQueueRequest.builder()
            .jobQueueName(jobQueueName)
            .priority(1)
            .computeEnvironmentOrder(ComputeEnvironmentOrder.builder()
                .computeEnvironment(computeEnvironmentName)
                .order(1)
                .build())
            .build();

        CompletableFuture<CreateJobQueueResponse> response = getAsyncClient().createJobQueue(request);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
                String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                throw new RuntimeException(errorMessage, ex);
            }
        });

        return response.thenApply(CreateJobQueueResponse::jobQueueArn);
    }

    /**
     * Asynchronously lists the jobs in the specified job queue with the given job status.
     *
     * @param jobQueue the name of the job queue to list jobs from
     * @return a List<JobSummary> that contains the jobs that succeeded
     */
    public List<JobSummary> listJobsAsync(String jobQueue) {
        if (jobQueue == null || jobQueue.isEmpty()) {
            throw new IllegalArgumentException("Job queue cannot be null or empty");
        }

        ListJobsRequest listJobsRequest = ListJobsRequest.builder()
            .jobQueue(jobQueue)
            .jobStatus(JobStatus.SUCCEEDED)  // Filter jobs by status.
            .build();

        List<JobSummary> jobSummaries = new ArrayList<>();
        ListJobsPublisher listJobsPaginator = getAsyncClient().listJobsPaginator(listJobsRequest);
        CompletableFuture<Void> future = listJobsPaginator.subscribe(response -> {
            jobSummaries.addAll(response.jobSummaryList());
        });
        future.join();
        return jobSummaries;
    }

    /**
     * Registers a new job definition asynchronously in AWS Batch.
     * <p>
     * When using Fargate as the compute environment, it is crucial to set the
     * {@link NetworkConfiguration} with {@link AssignPublicIp#ENABLED} to
     * ensure proper networking configuration for the Fargate tasks. This
     * allows the tasks to communicate with external services, access the
     * internet, or communicate within a VPC.
     *
     * @param jobDefinitionName the name of the job definition to be registered
     * @param executionRoleARN the ARN (Amazon Resource Name) of the execution role
     *                         that provides permissions for the containers in the job
     * @param cpuArch a value of either X86_64 or ARM64 required for the service call
     * @return a CompletableFuture that completes with the ARN of the registered
     *         job definition upon successful execution, or completes exceptionally with
     *         an error if the registration fails
     */
    public CompletableFuture<String> registerJobDefinitionAsync(String jobDefinitionName, String executionRoleARN, String image, String cpuArch) {
        NetworkConfiguration networkConfiguration = NetworkConfiguration.builder()
                .assignPublicIp(AssignPublicIp.ENABLED)
                .build();

        ContainerProperties containerProperties = ContainerProperties.builder()
                .image(image)
                .executionRoleArn(executionRoleARN)
                .resourceRequirements(
                        Arrays.asList(
                                ResourceRequirement.builder()
                                        .type(ResourceType.VCPU)
                                        .value("1")
                                        .build(),
                                ResourceRequirement.builder()
                                        .type(ResourceType.MEMORY)
                                        .value("2048")
                                        .build()
                        )
                )
                .networkConfiguration(networkConfiguration)
               .runtimePlatform(b -> b
                        .cpuArchitecture(cpuArch)
                        .operatingSystemFamily("LINUX"))
                .build();

        RegisterJobDefinitionRequest request = RegisterJobDefinitionRequest.builder()
                .jobDefinitionName(jobDefinitionName)
                .type(JobDefinitionType.CONTAINER)
                .containerProperties(containerProperties)
                .platformCapabilities(PlatformCapability.FARGATE)
                .build();

        CompletableFuture<String> future = new CompletableFuture<>();
        getAsyncClient().registerJobDefinition(request)
                .thenApply(RegisterJobDefinitionResponse::jobDefinitionArn)
                .whenComplete((result, ex) -> {
                    if (ex != null) {
                        future.completeExceptionally(ex);
                    } else {
                        future.complete(result);
                    }
                });

        return future;
    }

    /**
     * Deregisters a job definition asynchronously.
     *
     * @param jobDefinition the name of the job definition to be deregistered
     * @return a CompletableFuture that completes when the job definition has been deregistered
     * or an exception has occurred
     */
    public CompletableFuture<DeregisterJobDefinitionResponse> deregisterJobDefinitionAsync(String jobDefinition) {
        DeregisterJobDefinitionRequest jobDefinitionRequest = DeregisterJobDefinitionRequest.builder()
            .jobDefinition(jobDefinition)
            .build();

        CompletableFuture<DeregisterJobDefinitionResponse> responseFuture = getAsyncClient().deregisterJobDefinition(jobDefinitionRequest);
        responseFuture.whenComplete((response, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Unexpected error occurred: " + ex.getMessage(), ex);
            }
        });

        return responseFuture;
    }

    /**
     * Disables the specified job queue asynchronously.
     *
     * @param jobQueueArn the Amazon Resource Name (ARN) of the job queue to be disabled
     * @return a {@link CompletableFuture} that completes when the job queue update operation is complete,
     *         or completes exceptionally if an error occurs during the operation
     */
    public CompletableFuture<Void> disableJobQueueAsync(String jobQueueArn) {
        UpdateJobQueueRequest updateRequest = UpdateJobQueueRequest.builder()
            .jobQueue(jobQueueArn)
            .state(JQState.DISABLED)
            .build();

        CompletableFuture<UpdateJobQueueResponse> responseFuture = getAsyncClient().updateJobQueue(updateRequest);
        return responseFuture.whenComplete((updateResponse, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to update job queue: " + ex.getMessage(), ex);
            }
        }).thenApply(updateResponse -> null);
    }

    /**
     * Deletes a Batch job queue asynchronously.
     *
     * @param jobQueueArn The Amazon Resource Name (ARN) of the job queue to delete.
     * @return A CompletableFuture that represents the asynchronous deletion of the job queue.
     *         The future completes when the job queue has been successfully deleted or if an error occurs.
     *         If successful, the future will be completed with a {@code Void} value.
     *         If an error occurs, the future will be completed exceptionally with the thrown exception.
     */
    public CompletableFuture<Void> deleteJobQueueAsync(String jobQueueArn) {
        DeleteJobQueueRequest deleteRequest = DeleteJobQueueRequest.builder()
            .jobQueue(jobQueueArn)
            .build();

        CompletableFuture<DeleteJobQueueResponse> responseFuture = getAsyncClient().deleteJobQueue(deleteRequest);
        return responseFuture.whenComplete((deleteResponse, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to delete job queue: " + ex.getMessage(), ex);
            }
        }).thenApply(deleteResponse -> null);
    }

    /**
     * Asynchronously describes the job queue associated with the specified compute environment.
     *
     * @param computeEnvironmentName the name of the compute environment to find the associated job queue for
     * @return a {@link CompletableFuture} that, when completed, contains the job queue ARN associated with the specified compute environment
     * @throws RuntimeException if the job queue description fails
     */
    public CompletableFuture<String> describeJobQueueAsync(String computeEnvironmentName) {
        DescribeJobQueuesRequest describeJobQueuesRequest = DescribeJobQueuesRequest.builder()
            .build();

        CompletableFuture<DescribeJobQueuesResponse> responseFuture = getAsyncClient().describeJobQueues(describeJobQueuesRequest);
        return responseFuture.whenComplete((describeJobQueuesResponse, ex) -> {
            if (describeJobQueuesResponse != null) {
                String jobQueueARN;
                for (JobQueueDetail jobQueueDetail : describeJobQueuesResponse.jobQueues()) {
                    for (ComputeEnvironmentOrder computeEnvironmentOrder : jobQueueDetail.computeEnvironmentOrder()) {
                        String computeEnvironment = computeEnvironmentOrder.computeEnvironment();
                        String name = getComputeEnvironmentName(computeEnvironment);
                        if (name.equals(computeEnvironmentName)) {
                            jobQueueARN = jobQueueDetail.jobQueueArn();
                            logger.info("Job queue ARN associated with the compute environment: " + jobQueueARN);
                        }
                    }
                }
            } else {
                throw new RuntimeException("Failed to describe job queue: " + ex.getMessage(), ex);
            }
        }).thenApply(describeJobQueuesResponse -> {
            String jobQueueARN = "";
            for (JobQueueDetail jobQueueDetail : describeJobQueuesResponse.jobQueues()) {
                for (ComputeEnvironmentOrder computeEnvironmentOrder : jobQueueDetail.computeEnvironmentOrder()) {
                    String computeEnvironment = computeEnvironmentOrder.computeEnvironment();
                    String name = getComputeEnvironmentName(computeEnvironment);
                    if (name.equals(computeEnvironmentName)) {
                        jobQueueARN = jobQueueDetail.jobQueueArn();
                    }
                }
            }
            return jobQueueARN;
        });
    }

    /**
     * Disables the specified compute environment asynchronously.
     *
     * @param computeEnvironmentName the name of the compute environment to disable
     * @return a CompletableFuture that completes when the compute environment is disabled
     */
    public CompletableFuture<UpdateComputeEnvironmentResponse> disableComputeEnvironmentAsync(String computeEnvironmentName) {
        UpdateComputeEnvironmentRequest updateRequest = UpdateComputeEnvironmentRequest.builder()
            .computeEnvironment(computeEnvironmentName)
            .state(CEState.DISABLED)
            .build();

        CompletableFuture<UpdateComputeEnvironmentResponse> responseFuture = getAsyncClient().updateComputeEnvironment(updateRequest);
        responseFuture.whenComplete((response, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to disable compute environment: " + ex.getMessage(), ex);
            }
        });

        return responseFuture;
    }

    /**
     * Submits a job asynchronously to the AWS Batch service.
     *
     * @param jobDefinitionName the name of the job definition to use
     * @param jobQueueName the name of the job queue to submit the job to
     * @param jobARN the Amazon Resource Name (ARN) of the job definition
     * @return a CompletableFuture that, when completed, contains the job ID of the submitted job
     */
    public CompletableFuture<String> submitJobAsync(String jobDefinitionName, String jobQueueName, String jobARN) {
        SubmitJobRequest jobRequest = SubmitJobRequest.builder()
            .jobDefinition(jobARN)
            .jobName(jobDefinitionName)
            .jobQueue(jobQueueName)
            .build();

        CompletableFuture<SubmitJobResponse> responseFuture = getAsyncClient().submitJob(jobRequest);
        responseFuture.whenComplete((response, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Unexpected error occurred: " + ex.getMessage(), ex);
            }
        });

        return responseFuture.thenApply(SubmitJobResponse::jobId);
    }

    /**
     * Asynchronously retrieves the status of a specific job.
     *
     * @param jobId the ID of the job to retrieve the status for
     * @return a CompletableFuture that completes with the job status
     */
    public CompletableFuture<String> describeJobAsync(String jobId) {
        DescribeJobsRequest describeJobsRequest = DescribeJobsRequest.builder()
            .jobs(jobId)
            .build();

        CompletableFuture<DescribeJobsResponse> responseFuture = getAsyncClient().describeJobs(describeJobsRequest);
        return responseFuture.whenComplete((response, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Unexpected error occurred: " + ex.getMessage(), ex);
            }
        }).thenApply(response -> response.jobs().get(0).status().toString());
    }

    /**
     * Disables the specific job queue using the asynchronous Java client.
     *
     * @param jobQueueArn the Amazon Resource Name (ARN) of the job queue to wait for
     * @return a {@link CompletableFuture} that completes when the job queue is disabled
     */
    public CompletableFuture<Void> waitForJobQueueToBeDisabledAsync(String jobQueueArn) {
        AtomicBoolean isDisabled = new AtomicBoolean(false);
        return CompletableFuture.runAsync(() -> {
            while (!isDisabled.get()) {
                DescribeJobQueuesRequest describeRequest = DescribeJobQueuesRequest.builder()
                    .jobQueues(jobQueueArn)
                    .build();

                CompletableFuture<DescribeJobQueuesResponse> responseFuture = getAsyncClient().describeJobQueues(describeRequest);
                responseFuture.whenComplete((describeResponse, ex) -> {
                    if (describeResponse != null) {
                        for (JobQueueDetail jobQueue : describeResponse.jobQueues()) {
                            if (jobQueue.jobQueueArn().equals(jobQueueArn) && jobQueue.state() == JQState.DISABLED) {
                                isDisabled.set(true);
                                break;
                            }
                        }
                    } else {
                        throw new RuntimeException("Error describing job queues", ex);
                    }
                }).join();

                if (!isDisabled.get()) {
                    try {
                        logger.info("Waiting for job queue to be disabled...");
                        Thread.sleep(5000);
                    } catch (InterruptedException e) {
                        Thread.currentThread().interrupt();
                        throw new RuntimeException("Thread interrupted while waiting for job queue to be disabled", e);
                    }
                }
            }
        }).whenComplete((result, throwable) -> {
            if (throwable != null) {
                throw new RuntimeException("Error while waiting for job queue to be disabled", throwable);
            }
        });
    }

    public CompletableFuture<String> getJobQueueARN(String jobQueueName) {
        // Describe the job queue asynchronously
        CompletableFuture<DescribeJobQueuesResponse> describeJobQueuesFuture = batchClient.describeJobQueues(
            DescribeJobQueuesRequest.builder()
                .jobQueues(jobQueueName)
                .build()
        );

        // Handle the asynchronous response and return the Job Queue ARN in the CompletableFuture<String>
        CompletableFuture<String> jobQueueArnFuture = new CompletableFuture<>();
        describeJobQueuesFuture.whenComplete((response, error) -> {
            if (error != null) {
                if (error instanceof BatchException) {
                    logger.info("Batch error: " + ((BatchException) error).awsErrorDetails().errorMessage());
                } else {
                    logger.info("Error describing job queue: " + error.getMessage());
                }
                jobQueueArnFuture.completeExceptionally(new RuntimeException("Failed to retrieve Job Queue ARN", error));
            } else {
                if (response.jobQueues().isEmpty()) {
                    jobQueueArnFuture.completeExceptionally(new RuntimeException("Job queue not found: " + jobQueueName));
                } else {
                    // Assuming only one job queue is returned for the given name
                    String jobQueueArn = response.jobQueues().get(0).jobQueueArn();
                    jobQueueArnFuture.complete(jobQueueArn);
                }
            }
        });

        return jobQueueArnFuture;
    }

    private static String getComputeEnvironmentName(String computeEnvironment) {
        String[] parts = computeEnvironment.split("/");
        if (parts.length == 2) {
            return parts[1];
        }
        return null;
    }

    public CompletableFuture<String> getAccountId() {
        StsAsyncClient stsAsyncClient = StsAsyncClient.builder()
            .region(Region.US_EAST_1)
            .build();

        return stsAsyncClient.getCallerIdentity()
            .thenApply(GetCallerIdentityResponse::account);
    }


}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateComputeEnvironment](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/CreateComputeEnvironment)
  + [CreateJobQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/CreateJobQueue)
  + [DeleteComputeEnvironment](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DeleteComputeEnvironment)
  + [DeleteJobQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DeleteJobQueue)
  + [DeregisterJobDefinition](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DeregisterJobDefinition)
  + [DescribeComputeEnvironments](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DescribeComputeEnvironments)
  + [DescribeJobQueues](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DescribeJobQueues)
  + [DescribeJobs](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DescribeJobs)
  + [ListJobsPaginator](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/ListJobsPaginator)
  + [RegisterJobDefinition](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/RegisterJobDefinition)
  + [SubmitJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/SubmitJob)
  + [UpdateComputeEnvironment](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/UpdateComputeEnvironment)
  + [UpdateJobQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/UpdateJobQueue)

## Tindakan
<a name="actions"></a>

### `CreateComputeEnvironment`
<a name="batch_CreateComputeEnvironment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateComputeEnvironment`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Asynchronously creates a new compute environment in AWS Batch.
     *
     * @param computeEnvironmentName the name of the compute environment to create
     * @param batchIAMRole the IAM role to be used by the compute environment
     * @param subnet the subnet ID to be used for the compute environment
     * @param secGroup the security group ID to be used for the compute environment
     * @return a {@link CompletableFuture} representing the asynchronous operation, which will complete with the
     *         {@link CreateComputeEnvironmentResponse} when the compute environment has been created
     * @throws BatchException if there is an error creating the compute environment
     * @throws RuntimeException if there is an unexpected error during the operation
     */
    public CompletableFuture<CreateComputeEnvironmentResponse> createComputeEnvironmentAsync(
        String computeEnvironmentName, String batchIAMRole, String subnet, String secGroup) {
        CreateComputeEnvironmentRequest environmentRequest = CreateComputeEnvironmentRequest.builder()
            .computeEnvironmentName(computeEnvironmentName)
            .type(CEType.MANAGED)
            .state(CEState.ENABLED)
            .computeResources(ComputeResource.builder()
                .type(CRType.FARGATE)
                .maxvCpus(256)
                .subnets(Collections.singletonList(subnet))
                .securityGroupIds(Collections.singletonList(secGroup))
                .build())
            .serviceRole(batchIAMRole)
            .build();

        CompletableFuture<CreateComputeEnvironmentResponse> response = getAsyncClient().createComputeEnvironment(environmentRequest);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
               String errorMessage = "Unexpected error occurred: " + ex.getMessage();
               throw new RuntimeException(errorMessage, ex);
            }
        });

        return response;
    }
```
+  Untuk detail API, lihat [CreateComputeEnvironment](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/CreateComputeEnvironment)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateJobQueue`
<a name="batch_CreateJobQueue_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJobQueue`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Creates a job queue asynchronously.
     *
     * @param jobQueueName the name of the job queue to create
     * @param computeEnvironmentName the name of the compute environment to associate with the job queue
     * @return a CompletableFuture that completes with the Amazon Resource Name (ARN) of the job queue
     */
    public CompletableFuture<String> createJobQueueAsync(String jobQueueName, String computeEnvironmentName) {
        if (jobQueueName == null || jobQueueName.isEmpty()) {
            throw new IllegalArgumentException("Job queue name cannot be null or empty");
        }
        if (computeEnvironmentName == null || computeEnvironmentName.isEmpty()) {
            throw new IllegalArgumentException("Compute environment name cannot be null or empty");
        }

        CreateJobQueueRequest request = CreateJobQueueRequest.builder()
            .jobQueueName(jobQueueName)
            .priority(1)
            .computeEnvironmentOrder(ComputeEnvironmentOrder.builder()
                .computeEnvironment(computeEnvironmentName)
                .order(1)
                .build())
            .build();

        CompletableFuture<CreateJobQueueResponse> response = getAsyncClient().createJobQueue(request);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
                String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                throw new RuntimeException(errorMessage, ex);
            }
        });

        return response.thenApply(CreateJobQueueResponse::jobQueueArn);
    }
```
+  Untuk detail API, lihat [CreateJobQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/CreateJobQueue)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteComputeEnvironment`
<a name="batch_DeleteComputeEnvironment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteComputeEnvironment`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    public CompletableFuture<DeleteComputeEnvironmentResponse> deleteComputeEnvironmentAsync(String computeEnvironmentName) {
        DeleteComputeEnvironmentRequest deleteComputeEnvironment = DeleteComputeEnvironmentRequest.builder()
            .computeEnvironment(computeEnvironmentName)
            .build();

        return getAsyncClient().deleteComputeEnvironment(deleteComputeEnvironment)
            .whenComplete((response, ex) -> {
                if (ex != null) {
                    Throwable cause = ex.getCause();
                    if (cause instanceof BatchException) {
                        throw new RuntimeException(cause);
                    } else {
                        throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
                    }
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteComputeEnvironment](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DeleteComputeEnvironment)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteJobQueue`
<a name="batch_DeleteJobQueue_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJobQueue`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Deletes a Batch job queue asynchronously.
     *
     * @param jobQueueArn The Amazon Resource Name (ARN) of the job queue to delete.
     * @return A CompletableFuture that represents the asynchronous deletion of the job queue.
     *         The future completes when the job queue has been successfully deleted or if an error occurs.
     *         If successful, the future will be completed with a {@code Void} value.
     *         If an error occurs, the future will be completed exceptionally with the thrown exception.
     */
    public CompletableFuture<Void> deleteJobQueueAsync(String jobQueueArn) {
        DeleteJobQueueRequest deleteRequest = DeleteJobQueueRequest.builder()
            .jobQueue(jobQueueArn)
            .build();

        CompletableFuture<DeleteJobQueueResponse> responseFuture = getAsyncClient().deleteJobQueue(deleteRequest);
        return responseFuture.whenComplete((deleteResponse, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to delete job queue: " + ex.getMessage(), ex);
            }
        }).thenApply(deleteResponse -> null);
    }
```
+  Untuk detail API, lihat [DeleteJobQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DeleteJobQueue)di *Referensi AWS SDK for Java 2.x API*. 

### `DeregisterJobDefinition`
<a name="batch_DeregisterJobDefinition_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeregisterJobDefinition`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Deregisters a job definition asynchronously.
     *
     * @param jobDefinition the name of the job definition to be deregistered
     * @return a CompletableFuture that completes when the job definition has been deregistered
     * or an exception has occurred
     */
    public CompletableFuture<DeregisterJobDefinitionResponse> deregisterJobDefinitionAsync(String jobDefinition) {
        DeregisterJobDefinitionRequest jobDefinitionRequest = DeregisterJobDefinitionRequest.builder()
            .jobDefinition(jobDefinition)
            .build();

        CompletableFuture<DeregisterJobDefinitionResponse> responseFuture = getAsyncClient().deregisterJobDefinition(jobDefinitionRequest);
        responseFuture.whenComplete((response, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Unexpected error occurred: " + ex.getMessage(), ex);
            }
        });

        return responseFuture;
    }
```
+  Untuk detail API, lihat [DeregisterJobDefinition](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DeregisterJobDefinition)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeComputeEnvironments`
<a name="batch_DescribeComputeEnvironments_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeComputeEnvironments`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Checks the status of the specified compute environment.
     *
     * @param computeEnvironmentName the name of the compute environment to check
     * @return a CompletableFuture containing the status of the compute environment, or "ERROR" if an exception occurs
     */
    public CompletableFuture<String> checkComputeEnvironmentsStatus(String computeEnvironmentName) {
        if (computeEnvironmentName == null || computeEnvironmentName.isEmpty()) {
            throw new IllegalArgumentException("Compute environment name cannot be null or empty");
        }

        DescribeComputeEnvironmentsRequest environmentsRequest = DescribeComputeEnvironmentsRequest.builder()
            .computeEnvironments(computeEnvironmentName)
            .build();

        CompletableFuture<DescribeComputeEnvironmentsResponse> response = getAsyncClient().describeComputeEnvironments(environmentsRequest);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
                String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                throw new RuntimeException(errorMessage, ex);
            }
        });

        return response.thenApply(resp -> resp.computeEnvironments().stream()
            .map(env -> env.statusAsString())
            .findFirst()
            .orElse("UNKNOWN"));
    }
```
+  Untuk detail API, lihat [DescribeComputeEnvironments](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DescribeComputeEnvironments)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeJobQueues`
<a name="batch_DescribeJobQueues_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeJobQueues`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Asynchronously describes the job queue associated with the specified compute environment.
     *
     * @param computeEnvironmentName the name of the compute environment to find the associated job queue for
     * @return a {@link CompletableFuture} that, when completed, contains the job queue ARN associated with the specified compute environment
     * @throws RuntimeException if the job queue description fails
     */
    public CompletableFuture<String> describeJobQueueAsync(String computeEnvironmentName) {
        DescribeJobQueuesRequest describeJobQueuesRequest = DescribeJobQueuesRequest.builder()
            .build();

        CompletableFuture<DescribeJobQueuesResponse> responseFuture = getAsyncClient().describeJobQueues(describeJobQueuesRequest);
        return responseFuture.whenComplete((describeJobQueuesResponse, ex) -> {
            if (describeJobQueuesResponse != null) {
                String jobQueueARN;
                for (JobQueueDetail jobQueueDetail : describeJobQueuesResponse.jobQueues()) {
                    for (ComputeEnvironmentOrder computeEnvironmentOrder : jobQueueDetail.computeEnvironmentOrder()) {
                        String computeEnvironment = computeEnvironmentOrder.computeEnvironment();
                        String name = getComputeEnvironmentName(computeEnvironment);
                        if (name.equals(computeEnvironmentName)) {
                            jobQueueARN = jobQueueDetail.jobQueueArn();
                            logger.info("Job queue ARN associated with the compute environment: " + jobQueueARN);
                        }
                    }
                }
            } else {
                throw new RuntimeException("Failed to describe job queue: " + ex.getMessage(), ex);
            }
        }).thenApply(describeJobQueuesResponse -> {
            String jobQueueARN = "";
            for (JobQueueDetail jobQueueDetail : describeJobQueuesResponse.jobQueues()) {
                for (ComputeEnvironmentOrder computeEnvironmentOrder : jobQueueDetail.computeEnvironmentOrder()) {
                    String computeEnvironment = computeEnvironmentOrder.computeEnvironment();
                    String name = getComputeEnvironmentName(computeEnvironment);
                    if (name.equals(computeEnvironmentName)) {
                        jobQueueARN = jobQueueDetail.jobQueueArn();
                    }
                }
            }
            return jobQueueARN;
        });
    }
```
+  Untuk detail API, lihat [DescribeJobQueues](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DescribeJobQueues)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeJobs`
<a name="batch_DescribeJobs_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeJobs`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Asynchronously retrieves the status of a specific job.
     *
     * @param jobId the ID of the job to retrieve the status for
     * @return a CompletableFuture that completes with the job status
     */
    public CompletableFuture<String> describeJobAsync(String jobId) {
        DescribeJobsRequest describeJobsRequest = DescribeJobsRequest.builder()
            .jobs(jobId)
            .build();

        CompletableFuture<DescribeJobsResponse> responseFuture = getAsyncClient().describeJobs(describeJobsRequest);
        return responseFuture.whenComplete((response, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Unexpected error occurred: " + ex.getMessage(), ex);
            }
        }).thenApply(response -> response.jobs().get(0).status().toString());
    }
```
+  Untuk detail API, lihat [DescribeJobs](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/DescribeJobs)di *Referensi AWS SDK for Java 2.x API*. 

### `ListJobsPaginator`
<a name="batch_ListJobsPaginator_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobsPaginator`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Asynchronously lists the jobs in the specified job queue with the given job status.
     *
     * @param jobQueue the name of the job queue to list jobs from
     * @return a List<JobSummary> that contains the jobs that succeeded
     */
    public List<JobSummary> listJobsAsync(String jobQueue) {
        if (jobQueue == null || jobQueue.isEmpty()) {
            throw new IllegalArgumentException("Job queue cannot be null or empty");
        }

        ListJobsRequest listJobsRequest = ListJobsRequest.builder()
            .jobQueue(jobQueue)
            .jobStatus(JobStatus.SUCCEEDED)  // Filter jobs by status.
            .build();

        List<JobSummary> jobSummaries = new ArrayList<>();
        ListJobsPublisher listJobsPaginator = getAsyncClient().listJobsPaginator(listJobsRequest);
        CompletableFuture<Void> future = listJobsPaginator.subscribe(response -> {
            jobSummaries.addAll(response.jobSummaryList());
        });
        future.join();
        return jobSummaries;
    }
```
+  Untuk detail API, lihat [ListJobsPaginator](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/ListJobsPaginator)di *Referensi AWS SDK for Java 2.x API*. 

### `RegisterJobDefinition`
<a name="batch_RegisterJobDefinition_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RegisterJobDefinition`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Registers a new job definition asynchronously in AWS Batch.
     * <p>
     * When using Fargate as the compute environment, it is crucial to set the
     * {@link NetworkConfiguration} with {@link AssignPublicIp#ENABLED} to
     * ensure proper networking configuration for the Fargate tasks. This
     * allows the tasks to communicate with external services, access the
     * internet, or communicate within a VPC.
     *
     * @param jobDefinitionName the name of the job definition to be registered
     * @param executionRoleARN the ARN (Amazon Resource Name) of the execution role
     *                         that provides permissions for the containers in the job
     * @param cpuArch a value of either X86_64 or ARM64 required for the service call
     * @return a CompletableFuture that completes with the ARN of the registered
     *         job definition upon successful execution, or completes exceptionally with
     *         an error if the registration fails
     */
    public CompletableFuture<String> registerJobDefinitionAsync(String jobDefinitionName, String executionRoleARN, String image, String cpuArch) {
        NetworkConfiguration networkConfiguration = NetworkConfiguration.builder()
                .assignPublicIp(AssignPublicIp.ENABLED)
                .build();

        ContainerProperties containerProperties = ContainerProperties.builder()
                .image(image)
                .executionRoleArn(executionRoleARN)
                .resourceRequirements(
                        Arrays.asList(
                                ResourceRequirement.builder()
                                        .type(ResourceType.VCPU)
                                        .value("1")
                                        .build(),
                                ResourceRequirement.builder()
                                        .type(ResourceType.MEMORY)
                                        .value("2048")
                                        .build()
                        )
                )
                .networkConfiguration(networkConfiguration)
               .runtimePlatform(b -> b
                        .cpuArchitecture(cpuArch)
                        .operatingSystemFamily("LINUX"))
                .build();

        RegisterJobDefinitionRequest request = RegisterJobDefinitionRequest.builder()
                .jobDefinitionName(jobDefinitionName)
                .type(JobDefinitionType.CONTAINER)
                .containerProperties(containerProperties)
                .platformCapabilities(PlatformCapability.FARGATE)
                .build();

        CompletableFuture<String> future = new CompletableFuture<>();
        getAsyncClient().registerJobDefinition(request)
                .thenApply(RegisterJobDefinitionResponse::jobDefinitionArn)
                .whenComplete((result, ex) -> {
                    if (ex != null) {
                        future.completeExceptionally(ex);
                    } else {
                        future.complete(result);
                    }
                });

        return future;
    }
```
+  Untuk detail API, lihat [RegisterJobDefinition](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/RegisterJobDefinition)di *Referensi AWS SDK for Java 2.x API*. 

### `SubmitJob`
<a name="batch_SubmitJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SubmitJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Submits a job asynchronously to the AWS Batch service.
     *
     * @param jobDefinitionName the name of the job definition to use
     * @param jobQueueName the name of the job queue to submit the job to
     * @param jobARN the Amazon Resource Name (ARN) of the job definition
     * @return a CompletableFuture that, when completed, contains the job ID of the submitted job
     */
    public CompletableFuture<String> submitJobAsync(String jobDefinitionName, String jobQueueName, String jobARN) {
        SubmitJobRequest jobRequest = SubmitJobRequest.builder()
            .jobDefinition(jobARN)
            .jobName(jobDefinitionName)
            .jobQueue(jobQueueName)
            .build();

        CompletableFuture<SubmitJobResponse> responseFuture = getAsyncClient().submitJob(jobRequest);
        responseFuture.whenComplete((response, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Unexpected error occurred: " + ex.getMessage(), ex);
            }
        });

        return responseFuture.thenApply(SubmitJobResponse::jobId);
    }
```
+  Untuk detail API, lihat [SubmitJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/SubmitJob)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateComputeEnvironment`
<a name="batch_UpdateComputeEnvironment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateComputeEnvironment`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Disables the specified compute environment asynchronously.
     *
     * @param computeEnvironmentName the name of the compute environment to disable
     * @return a CompletableFuture that completes when the compute environment is disabled
     */
    public CompletableFuture<UpdateComputeEnvironmentResponse> disableComputeEnvironmentAsync(String computeEnvironmentName) {
        UpdateComputeEnvironmentRequest updateRequest = UpdateComputeEnvironmentRequest.builder()
            .computeEnvironment(computeEnvironmentName)
            .state(CEState.DISABLED)
            .build();

        CompletableFuture<UpdateComputeEnvironmentResponse> responseFuture = getAsyncClient().updateComputeEnvironment(updateRequest);
        responseFuture.whenComplete((response, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to disable compute environment: " + ex.getMessage(), ex);
            }
        });

        return responseFuture;
    }
```
+  Untuk detail API, lihat [UpdateComputeEnvironment](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/UpdateComputeEnvironment)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateJobQueue`
<a name="batch_UpdateJobQueue_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateJobQueue`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 

```
    /**
     * Disables the specified job queue asynchronously.
     *
     * @param jobQueueArn the Amazon Resource Name (ARN) of the job queue to be disabled
     * @return a {@link CompletableFuture} that completes when the job queue update operation is complete,
     *         or completes exceptionally if an error occurs during the operation
     */
    public CompletableFuture<Void> disableJobQueueAsync(String jobQueueArn) {
        UpdateJobQueueRequest updateRequest = UpdateJobQueueRequest.builder()
            .jobQueue(jobQueueArn)
            .state(JQState.DISABLED)
            .build();

        CompletableFuture<UpdateJobQueueResponse> responseFuture = getAsyncClient().updateJobQueue(updateRequest);
        return responseFuture.whenComplete((updateResponse, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to update job queue: " + ex.getMessage(), ex);
            }
        }).thenApply(updateResponse -> null);
    }
```
+  Untuk detail API, lihat [UpdateJobQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/batch-2016-08-10/UpdateJobQueue)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon Bedrock menggunakan SDK for Java 2.x
<a name="java_2_bedrock_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x With Amazon Bedrock.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetFoundationModel`
<a name="bedrock_GetFoundationModel_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFoundationModel`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock#code-examples). 
Dapatkan detail tentang model foundation menggunakan klien Amazon Bedrock sinkron.  

```
    /**
     * Get details about an Amazon Bedrock foundation model.
     *
     * @param bedrockClient   The service client for accessing Amazon Bedrock.
     * @param modelIdentifier The model identifier.
     * @return An object containing the foundation model's details.
     */
    public static FoundationModelDetails getFoundationModel(BedrockClient bedrockClient, String modelIdentifier) {
        try {
            GetFoundationModelResponse response = bedrockClient.getFoundationModel(
                    r -> r.modelIdentifier(modelIdentifier)
            );

            FoundationModelDetails model = response.modelDetails();

            System.out.println(" Model ID:                     " + model.modelId());
            System.out.println(" Model ARN:                    " + model.modelArn());
            System.out.println(" Model Name:                   " + model.modelName());
            System.out.println(" Provider Name:                " + model.providerName());
            System.out.println(" Lifecycle status:             " + model.modelLifecycle().statusAsString());
            System.out.println(" Input modalities:             " + model.inputModalities());
            System.out.println(" Output modalities:            " + model.outputModalities());
            System.out.println(" Supported customizations:     " + model.customizationsSupported());
            System.out.println(" Supported inference types:    " + model.inferenceTypesSupported());
            System.out.println(" Response streaming supported: " + model.responseStreamingSupported());

            return model;

        } catch (ValidationException e) {
            throw new IllegalArgumentException(e.getMessage());
        } catch (SdkException e) {
            System.err.println(e.getMessage());
            throw new RuntimeException(e);
        }
    }
```
Dapatkan detail tentang model foundation menggunakan klien Amazon Bedrock asinkron.  

```
    /**
     * Get details about an Amazon Bedrock foundation model.
     *
     * @param bedrockClient   The async service client for accessing Amazon Bedrock.
     * @param modelIdentifier The model identifier.
     * @return An object containing the foundation model's details.
     */
    public static FoundationModelDetails getFoundationModel(BedrockAsyncClient bedrockClient, String modelIdentifier) {
        try {
            CompletableFuture<GetFoundationModelResponse> future = bedrockClient.getFoundationModel(
                    r -> r.modelIdentifier(modelIdentifier)
            );

            FoundationModelDetails model = future.get().modelDetails();

            System.out.println(" Model ID:                     " + model.modelId());
            System.out.println(" Model ARN:                    " + model.modelArn());
            System.out.println(" Model Name:                   " + model.modelName());
            System.out.println(" Provider Name:                " + model.providerName());
            System.out.println(" Lifecycle status:             " + model.modelLifecycle().statusAsString());
            System.out.println(" Input modalities:             " + model.inputModalities());
            System.out.println(" Output modalities:            " + model.outputModalities());
            System.out.println(" Supported customizations:     " + model.customizationsSupported());
            System.out.println(" Supported inference types:    " + model.inferenceTypesSupported());
            System.out.println(" Response streaming supported: " + model.responseStreamingSupported());

            return model;

        } catch (ExecutionException e) {
            if (e.getMessage().contains("ValidationException")) {
                throw new IllegalArgumentException(e.getMessage());
            } else {
                System.err.println(e.getMessage());
                throw new RuntimeException(e);
            }
        } catch (InterruptedException e) {
            Thread.currentThread().interrupt();
            System.err.println(e.getMessage());
            throw new RuntimeException(e);
        }
    }
```
+  Untuk detail API, lihat [GetFoundationModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-2023-04-20/GetFoundationModel)di *Referensi AWS SDK for Java 2.x API*. 

### `ListFoundationModels`
<a name="bedrock_ListFoundationModels_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFoundationModels`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock#code-examples). 
Buat daftar model foundation Amazon Bedrock yang tersedia menggunakan klien Amazon Bedrock sinkron.  

```
    /**
     * Lists Amazon Bedrock foundation models that you can use.
     * You can filter the results with the request parameters.
     *
     * @param bedrockClient The service client for accessing Amazon Bedrock.
     * @return A list of objects containing the foundation models' details
     */
    public static List<FoundationModelSummary> listFoundationModels(BedrockClient bedrockClient) {

        try {
            ListFoundationModelsResponse response = bedrockClient.listFoundationModels(r -> {});

            List<FoundationModelSummary> models = response.modelSummaries();

            if (models.isEmpty()) {
                System.out.println("No available foundation models in " + region.toString());
            } else {
                for (FoundationModelSummary model : models) {
                    System.out.println("Model ID: " + model.modelId());
                    System.out.println("Provider: " + model.providerName());
                    System.out.println("Name:     " + model.modelName());
                    System.out.println();
                }
            }

            return models;

        } catch (SdkClientException e) {
            System.err.println(e.getMessage());
            throw new RuntimeException(e);
        }
    }
```
Buat daftar model foundation Amazon Bedrock yang tersedia menggunakan klien Amazon Bedrock asinkron.  

```
    /**
     * Lists Amazon Bedrock foundation models that you can use.
     * You can filter the results with the request parameters.
     *
     * @param bedrockClient The async service client for accessing Amazon Bedrock.
     * @return A list of objects containing the foundation models' details
     */
    public static List<FoundationModelSummary> listFoundationModels(BedrockAsyncClient bedrockClient) {
        try {
            CompletableFuture<ListFoundationModelsResponse> future = bedrockClient.listFoundationModels(r -> {});

            List<FoundationModelSummary> models = future.get().modelSummaries();

            if (models.isEmpty()) {
                System.out.println("No available foundation models in " + region.toString());
            } else {
                for (FoundationModelSummary model : models) {
                    System.out.println("Model ID: " + model.modelId());
                    System.out.println("Provider: " + model.providerName());
                    System.out.println("Name:     " + model.modelName());
                    System.out.println();
                }
            }

            return models;

        } catch (InterruptedException e) {
            Thread.currentThread().interrupt();
            System.err.println(e.getMessage());
            throw new RuntimeException(e);
        } catch (ExecutionException e) {
            System.err.println(e.getMessage());
            throw new RuntimeException(e);
        }
    }
```
+  Untuk detail API, lihat [ListFoundationModels](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-2023-04-20/ListFoundationModels)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon Bedrock Runtime menggunakan SDK for Java 2.x
<a name="java_2_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Runtime AWS SDK for Java 2.x with Amazon Bedrock.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)
+ [Amazon Nova](#amazon_nova)
+ [Kanvas Amazon Nova](#amazon_nova_canvas)
+ [Generator Gambar Amazon Titan](#amazon_titan_image_generator)
+ [Embeddings Teks Amazon Titan](#amazon_titan_text_embeddings)
+ [Antropik Claude](#anthropic_claude)
+ [Perintah Cohere](#cohere_command)
+ [Meta Llama](#meta_llama)
+ [Mistral AI](#mistral_ai)
+ [Difusi Stabil](#stable_diffusion)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi taman bermain untuk berinteraksi dengan model yayasan Amazon Bedrock
<a name="cross_FMPlayground_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat taman bermain untuk berinteraksi dengan model dasar Amazon Bedrock melalui modalitas yang berbeda.

**SDK untuk Java 2.x**  
 Java Foundation Model (FM) Playground adalah contoh aplikasi Spring Boot yang menampilkan cara menggunakan Amazon Bedrock dengan Java. Contoh ini menunjukkan bagaimana pengembang Java dapat menggunakan Amazon Bedrock untuk membangun aplikasi berkemampuan AI generatif. Anda dapat menguji dan berinteraksi dengan model yayasan Amazon Bedrock dengan menggunakan tiga taman bermain berikut:   
+ Taman bermain teks.
+ Taman bermain obrolan.
+ Taman bermain gambar.
Contoh ini juga mencantumkan dan menampilkan model pondasi yang dapat Anda akses, bersama dengan karakteristiknya. Untuk kode sumber dan petunjuk penerapan, lihat proyek di [GitHub](https://github.com/build-on-aws/java-fm-playground).   

**Layanan yang digunakan dalam contoh ini**
+ Runtime Amazon Bedrock

### Hasilkan video dari petunjuk teks menggunakan Amazon Bedrock
<a name="bedrock-runtime_Scenario_GenerateVideos_NovaReel_java_2_topic"></a>

Contoh kode berikut menunjukkan cara aplikasi Spring Boot yang menghasilkan video dari prompt teks menggunakan Amazon Bedrock dan model Nova-Reel.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Hasilkan video dari petunjuk teks menggunakan Amazon Bedrock dan Nova-Reel.  

```
import org.springframework.stereotype.Service;
import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;

import java.util.concurrent.CompletableFuture;

@Service
public class VideoGenerationService {

    public GenerateVideoResponse generateVideo(String prompt) {

        // add S3 bucket you want to store your generated videos
        String s3Bucket = "s3://mygeneratedvidoenovatest";


        //Create json request as an instance of Document class
        Document novaRequest = prepareDocument(prompt);

        // Create request
        StartAsyncInvokeRequest request = StartAsyncInvokeRequest.builder()
                .modelId("amazon.nova-reel-v1:0")
                .modelInput(novaRequest)
                .outputDataConfig(AsyncInvokeOutputDataConfig.builder()
                        .s3OutputDataConfig(AsyncInvokeS3OutputDataConfig.builder().s3Uri(s3Bucket).build())
                        .build())
                .build();

        try (BedrockRuntimeAsyncClient bedrockClient = getBedrockRuntimeAsyncClient()) {
            CompletableFuture<StartAsyncInvokeResponse> startAsyncInvokeResponseCompletableFuture = bedrockClient.startAsyncInvoke(request);

            //blocking operation to wait for the AWS API response
            StartAsyncInvokeResponse startAsyncInvokeResponse = startAsyncInvokeResponseCompletableFuture.get();
            System.out.println("invocation ARN: " + startAsyncInvokeResponse.invocationArn());

            GenerateVideoResponse response = new GenerateVideoResponse();
            response.setStatus("inProgress");
            response.setExecutionArn(startAsyncInvokeResponse.invocationArn());

            return response;
        } catch (Exception e) {
            System.out.println(e);
            throw new RuntimeException(e);
        }

    }

    public GenerateVideoResponse checkGenerationStatus(String invocationArn) {
        GenerateVideoResponse response = new GenerateVideoResponse();

        try (BedrockRuntimeAsyncClient bedrockClient = getBedrockRuntimeAsyncClient()) {
            //creating async request to fetch status by invocation Arn
            GetAsyncInvokeRequest asyncRequest = GetAsyncInvokeRequest.builder().invocationArn(invocationArn).build();

            CompletableFuture<GetAsyncInvokeResponse> asyncInvoke = bedrockClient.getAsyncInvoke(asyncRequest);

            //blocking operation to wait for the AWS API response
            GetAsyncInvokeResponse asyncInvokeResponse = asyncInvoke.get();
            System.out.println("Invocation status =" + asyncInvokeResponse.statusAsString());

            response.setExecutionArn(invocationArn);
            response.setStatus(asyncInvokeResponse.statusAsString());
            return response;
        } catch (Exception e) {
            e.printStackTrace();
            throw new RuntimeException(e);
        }

    }

    private static BedrockRuntimeAsyncClient getBedrockRuntimeAsyncClient() {
        BedrockRuntimeAsyncClient bedrockClient = BedrockRuntimeAsyncClient.builder()
                .region(Region.US_EAST_1)
                .credentialsProvider(ProfileCredentialsProvider.create())
                .build();
        return bedrockClient;
    }

    private static Document prepareDocument(String prompt) {
        Document textToVideoParams = Document.mapBuilder()
                .putString("text", prompt)
                .build();

        Document videoGenerationConfig = Document.mapBuilder()
                .putNumber("durationSeconds", 6)
                .putNumber("fps", 24)
                .putString("dimension", "1280x720")
                .build();

        Document novaRequest = Document.mapBuilder()
                .putString("taskType", "TEXT_VIDEO")
                .putDocument("textToVideoParams", textToVideoParams)
                .putDocument("videoGenerationConfig", videoGenerationConfig)
                .build();
        return novaRequest;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [GetAsyncInvoke](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/GetAsyncInvoke)
  + [StartAsyncInvoke](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/StartAsyncInvoke)

### Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUse_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Eksekusi utama dari alur skenario. Skenario ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
/*
 This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
 The program interacts with a foundation model on Amazon Bedrock to provide weather information based on user
 input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.
 */
public class BedrockScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static String modelId = "amazon.nova-lite-v1:0";
    private static String defaultPrompt = "What is the weather like in Seattle?";
    private static WeatherTool weatherTool = new WeatherTool();

    // The maximum number of recursive calls allowed in the tool use function.
    // This helps prevent infinite loops and potential performance issues.
    private static int maxRecursions = 5;
    static BedrockActions bedrockActions = new BedrockActions();
    public static boolean interactive = true;

    private static final String systemPrompt = """
            You are a weather assistant that provides current weather data for user-specified locations using only
            the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
            If the user provides coordinates, infer the approximate location and refer to it in your response.
            To use the tool, you strictly apply the provided tool specification.
            
            - Explain your step-by-step process, and give brief updates before each step.
            - Only use the Weather_Tool for data. Never guess or make up information. 
            - Repeat the tool use for subsequent requests if necessary.
            - If the tool errors, apologize, explain weather is unavailable, and suggest other options.
            - Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
              emojis where appropriate.
            - Only respond to weather queries. Remind off-topic users of your purpose. 
            - Never claim to search online, access external data, or use tools besides Weather_Tool.
            - Complete the entire process until you have all required data before sending the complete response.
            """;

    public static void main(String[] args) {
        Scanner scanner = new Scanner(System.in);
        System.out.println("""
                =================================================
                Welcome to the Amazon Bedrock Tool Use demo!
                =================================================
                
                This assistant provides current weather information for user-specified locations.
                You can ask for weather details by providing the location name or coordinates.
                
                Example queries:
                - What's the weather like in New York?
                - Current weather for latitude 40.70, longitude -74.01
                - Is it warmer in Rome or Barcelona today?
                
                To exit the program, simply type 'x' and press Enter.
                
                P.S.: You're not limited to single locations, or even to using English!
                Have fun and experiment with the app!
                """);
        System.out.println(DASHES);

        try {
            runConversation(scanner);

        } catch (Exception ex) {
            System.out.println("There was a problem running the scenario: " + ex.getMessage());
        }

        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("Amazon Bedrock Converse API with Tool Use Feature Scenario is complete.");
        System.out.println(DASHES);
    }

    /**
     * Starts the conversation with the user and handles the interaction with Bedrock.
     */
    private static List<Message> runConversation(Scanner scanner) {
        List<Message> conversation = new ArrayList<>();

        // Get the first user input
        String userInput = getUserInput("Your weather info request:", scanner);
        System.out.println(userInput);

        while (userInput != null) {
            ContentBlock block = ContentBlock.builder()
                    .text(userInput)
                    .build();

            List<ContentBlock> blockList = new ArrayList<>();
            blockList.add(block);

            Message message = Message.builder()
                    .role(ConversationRole.USER)
                    .content(blockList)
                    .build();

            conversation.add(message);

            // Send the conversation to Amazon Bedrock.
            ConverseResponse bedrockResponse = sendConversationToBedrock(conversation);

            // Recursively handle the model's response until the model has returned its final response or the recursion counter has reached 0.
            processModelResponse(bedrockResponse, conversation, maxRecursions);

            // Repeat the loop until the user decides to exit the application.
            userInput = getUserInput("Your weather info request:", scanner);
        }
        printFooter();
        return conversation;
    }

    /**
     * Processes the response from the model and updates the conversation accordingly.
     *
     * @param modelResponse the response from the model
     * @param conversation  the ongoing conversation
     * @param maxRecursion  the maximum number of recursions allowed
     */
    private static void processModelResponse(ConverseResponse modelResponse, List<Message> conversation, int maxRecursion) {
        if (maxRecursion <= 0) {
            // Stop the process, the number of recursive calls could indicate an infinite loop
            System.out.println("\tWarning: Maximum number of recursions reached. Please try again.");
        }

        // Append the model's response to the ongoing conversation
        conversation.add(modelResponse.output().message());

        String modelResponseVal = modelResponse.stopReasonAsString();
        if (modelResponseVal.compareTo("tool_use") == 0) {
            // If the stop reason is "tool_use", forward everything to the tool use handler
            handleToolUse(modelResponse.output(), conversation, maxRecursion - 1);
        }

        if (modelResponseVal.compareTo("end_turn") == 0) {
            // If the stop reason is "end_turn", print the model's response text, and finish the process
            PrintModelResponse(modelResponse.output().message().content().get(0).text());
            if (!interactive) {
                defaultPrompt = "x";
            }
        }
    }

    /**
     * Handles the use of a tool by the model in a conversation.
     *
     * @param modelResponse the response from the model, which may include a tool use request
     * @param conversation  the current conversation, which will be updated with the tool use results
     * @param maxRecursion  the maximum number of recursive calls allowed to handle the model's response
     */
    private static void handleToolUse(ConverseOutput modelResponse, List<Message> conversation, int maxRecursion) {
        List<ContentBlock> toolResults = new ArrayList<>();

        // The model's response can consist of multiple content blocks
        for (ContentBlock contentBlock : modelResponse.message().content()) {
            if (contentBlock.text() != null && !contentBlock.text().isEmpty()) {
                // If the content block contains text, print it to the console
                PrintModelResponse(contentBlock.text());
            }

            if (contentBlock.toolUse() != null) {
                ToolResponse toolResponse = invokeTool(contentBlock.toolUse());

                // Add the tool use ID and the tool's response to the list of results
                List<ToolResultContentBlock> contentBlockList = new ArrayList<>();
                ToolResultContentBlock block = ToolResultContentBlock.builder()
                        .json(toolResponse.getContent())
                        .build();
                contentBlockList.add(block);

                ToolResultBlock toolResultBlock = ToolResultBlock.builder()
                        .toolUseId(toolResponse.getToolUseId())
                        .content(contentBlockList)
                        .build();

                ContentBlock contentBlock1 = ContentBlock.builder()
                        .toolResult(toolResultBlock)
                        .build();

                toolResults.add(contentBlock1);
            }
        }

        // Embed the tool results in a new user message
        Message message = Message.builder()
                .role(ConversationRole.USER)
                .content(toolResults)
                .build();

        // Append the new message to the ongoing conversation
        //conversation.add(message);
        conversation.add(message);

        // Send the conversation to Amazon Bedrock
        var response = sendConversationToBedrock(conversation);

        // Recursively handle the model's response until the model has returned its final response or the recursion counter has reached 0
        processModelResponse(response, conversation, maxRecursion);
    }

    // Invokes the specified tool with the given payload and returns the tool's response.
    // If the requested tool does not exist, an error message is returned.
    private static ToolResponse invokeTool(ToolUseBlock payload) {
        String toolName = payload.name();

        if (Objects.equals(toolName, "Weather_Tool")) {
            Map<String, Document> inputData = payload.input().asMap();
            printToolUse(toolName, inputData);

            // Invoke the weather tool with the input data provided
            Document weatherResponse = weatherTool.fetchWeatherData(inputData.get("latitude").toString(), inputData.get("longitude").toString());

            ToolResponse toolResponse = new ToolResponse();
            toolResponse.setContent(weatherResponse);
            toolResponse.setToolUseId(payload.toolUseId());
            return toolResponse;
        } else {
            String errorMessage = "The requested tool with name " + toolName + " does not exist.";
            System.out.println(errorMessage);
            return null;
        }
    }

    public static void printToolUse(String toolName, Map<String, Document> inputData) {
        System.out.println("Invoking tool: " + toolName + " with input: " + inputData.get("latitude").toString() + ", " + inputData.get("longitude").toString() + "...");
    }

    private static void PrintModelResponse(String message) {
        System.out.println("\tThe model's response:\n");
        System.out.println(message);
        System.out.println("");
    }

    private static ConverseResponse sendConversationToBedrock(List<Message> conversation) {
        System.out.println("Calling Bedrock...");

        try {
            return bedrockActions.sendConverseRequestAsync(modelId, systemPrompt, conversation, weatherTool.getToolSpec());
        } catch (ModelNotReadyException ex) {
             System.err.println("Model is not ready. Please try again later: " + ex.getMessage());
            throw ex;
        } catch (BedrockRuntimeException ex) {
            System.err.println("Bedrock service error: " + ex.getMessage());
            throw ex;
        } catch (RuntimeException ex) {
            System.err.println("Unexpected error occurred: " + ex.getMessage());
            throw ex;
        }
    }

    private static ConverseResponse sendConversationToBedrockwithSpec(List<Message> conversation, ToolSpecification toolSpec) {
        System.out.println("Calling Bedrock...");

        // Send the conversation, system prompt, and tool configuration, and return the response
        return bedrockActions.sendConverseRequestAsync(modelId, systemPrompt, conversation, toolSpec);
    }

    public static String getUserInput(String prompt, Scanner scanner) {
        String userInput = defaultPrompt;
        if (interactive) {
            System.out.println("*".repeat(80));
            System.out.println(prompt + " (x to exit): \n\t");
            userInput = scanner.nextLine();
        }

        if (userInput == null || userInput.trim().isEmpty()) {
            return getUserInput("\tPlease enter your weather info request, e.g., the name of a city", scanner);
        }

        if (userInput.equalsIgnoreCase("x")) {
            return null;
        }

        return userInput;
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            System.out.println("");
            System.out.println("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                System.out.println("Continuing with the program...");
                System.out.println("");
                break;
            } else {
                // Handle invalid input.
                System.out.println("Invalid input. Please try again.");
            }
        }
    }

    public static void printFooter() {
        System.out.println("""
                =================================================
                Thank you for checking out the Amazon Bedrock Tool Use demo. We hope you
                learned something new, or got some inspiration for your own apps today!
                
                For more Bedrock examples in different programming languages, have a look at:
                https://docs.aws.amazon.com/bedrock/latest/userguide/service_code_examples.html
                =================================================
                """);
    }
}
```
Alat cuaca yang digunakan oleh demo. File ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
public class WeatherTool {

    private static final Logger logger = LoggerFactory.getLogger(WeatherTool.class);
    private static java.net.http.HttpClient httpClient = null;

    /**
     * Returns the JSON Schema specification for the Weather tool. The tool specification
     * defines the input schema and describes the tool's functionality.
     * For more information, see https://json-schema.org/understanding-json-schema/reference.
     *
     * @return The tool specification for the Weather tool.
     */
    public ToolSpecification getToolSpec() {
        Map<String, Document> latitudeMap = new HashMap<>();
        latitudeMap.put("type", Document.fromString("string"));
        latitudeMap.put("description", Document.fromString("Geographical WGS84 latitude of the location."));

        // Create the nested "longitude" object
        Map<String, Document> longitudeMap = new HashMap<>();
        longitudeMap.put("type", Document.fromString("string"));
        longitudeMap.put("description", Document.fromString("Geographical WGS84 longitude of the location."));

        // Create the "properties" object
        Map<String, Document> propertiesMap = new HashMap<>();
        propertiesMap.put("latitude", Document.fromMap(latitudeMap));
        propertiesMap.put("longitude", Document.fromMap(longitudeMap));

        // Create the "required" array
        List<Document> requiredList = new ArrayList<>();
        requiredList.add(Document.fromString("latitude"));
        requiredList.add(Document.fromString("longitude"));

        // Create the root object
        Map<String, Document> rootMap = new HashMap<>();
        rootMap.put("type", Document.fromString("object"));
        rootMap.put("properties", Document.fromMap(propertiesMap));
        rootMap.put("required", Document.fromList(requiredList));

        // Now create the Document representing the JSON schema
        Document document = Document.fromMap(rootMap);

        ToolSpecification specification = ToolSpecification.builder()
            .name("Weather_Tool")
            .description("Get the current weather for a given location, based on its WGS84 coordinates.")
            .inputSchema(ToolInputSchema.builder()
                .json(document)
                .build())
            .build();

        return specification;
    }

    /**
     * Fetches weather data for the given latitude and longitude.
     *
     * @param latitude  the latitude coordinate
     * @param longitude the longitude coordinate
     * @return a {@link CompletableFuture} containing the weather data as a JSON string
     */
    public Document fetchWeatherData(String latitude, String longitude) {
        HttpClient httpClient = HttpClient.newHttpClient();

        // Ensure no extra double quotes
        latitude = latitude.replace("\"", "");
        longitude = longitude.replace("\"", "");

        String endpoint = "https://api.open-meteo.com/v1/forecast";
        String url = String.format("%s?latitude=%s&longitude=%s&current_weather=True", endpoint, latitude, longitude);

        HttpRequest request = HttpRequest.newBuilder()
            .uri(URI.create(url))
            .build();

        try {
            HttpResponse<String> response = httpClient.send(request, HttpResponse.BodyHandlers.ofString());
            if (response.statusCode() == 200) {
                String weatherJson = response.body();
                System.out.println(weatherJson);
                ObjectMapper objectMapper = new ObjectMapper();
                Map<String, Object> rawMap = objectMapper.readValue(weatherJson, new TypeReference<Map<String, Object>>() {});
                Map<String, Document> documentMap = convertToDocumentMap(rawMap);


                Document weatherDocument = Document.fromMap(documentMap);
                System.out.println(weatherDocument);
                return weatherDocument;
            } else {
                throw new RuntimeException("Error fetching weather data: " + response.statusCode());
            }
        } catch (Exception e) {
            System.out.println("Error fetching weather data: " + e.getMessage());
            throw new RuntimeException("Error fetching weather data", e);
        }

    }

    private static Map<String, Document> convertToDocumentMap(Map<String, Object> inputMap) {
        Map<String, Document> result = new HashMap<>();
        for (Map.Entry<String, Object> entry : inputMap.entrySet()) {
            result.put(entry.getKey(), convertToDocument(entry.getValue()));
        }
        return result;
    }

    // Convert different types of Objects to Document
    private static Document convertToDocument(Object value) {
        if (value instanceof Map) {
            return Document.fromMap(convertToDocumentMap((Map<String, Object>) value));
        } else if (value instanceof Integer) {
            return Document.fromNumber(SdkNumber.fromInteger((Integer) value));
        } else if (value instanceof Double) {  //
            return Document.fromNumber(SdkNumber.fromDouble((Double) value));
        } else if (value instanceof Boolean) {
            return Document.fromBoolean((Boolean) value);
        } else if (value instanceof String) {
            return Document.fromString((String) value);
        }
        return Document.fromNull(); // Handle null values safely
    }
}
```
Tindakan Converse API dengan konfigurasi alat.  

```
    /**
     * Sends an asynchronous converse request to the AI model.
     *
     * @param modelId      the unique identifier of the AI model to be used for the converse request
     * @param systemPrompt the system prompt to be included in the converse request
     * @param conversation a list of messages representing the conversation history
     * @param toolSpec     the specification of the tool to be used in the converse request
     * @return the converse response received from the AI model
     */
    public ConverseResponse sendConverseRequestAsync(String modelId, String systemPrompt, List<Message> conversation, ToolSpecification toolSpec) {
        List<Tool> toolList = new ArrayList<>();
        Tool tool = Tool.builder()
            .toolSpec(toolSpec)
            .build();

        toolList.add(tool);

        ToolConfiguration configuration = ToolConfiguration.builder()
            .tools(toolList)
            .build();

        SystemContentBlock block = SystemContentBlock.builder()
            .text(systemPrompt)
            .build();

        ConverseRequest request = ConverseRequest.builder()
            .modelId(modelId)
            .system(block)
            .messages(conversation)
            .toolConfig(configuration)
            .build();

        try {
            ConverseResponse response = getClient().converse(request).join();
            return response;

        } catch (ModelNotReadyException ex) {
            throw new RuntimeException("Model is not ready: " + ex.getMessage(), ex);
        } catch (BedrockRuntimeException ex) {
            throw new RuntimeException("Failed to converse with Bedrock model: " + ex.getMessage(), ex);
        }
    }
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

## Amazon Nova
<a name="amazon_nova"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AmazonNovaText_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova menggunakan API Converse Bedrock dengan klien Java async.  

```
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;

import java.util.concurrent.CompletableFuture;

/**
 * This example demonstrates how to use the Amazon Nova foundation models
 * with an asynchronous Amazon Bedrock runtime client to generate text.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Create a message
 * - Configure and send a request
 * - Process the response
 */
public class ConverseAsync {

    public static String converseAsync() {

        // Step 1: Create the Amazon Bedrock runtime client
        // The runtime client handles the communication with AI models on Amazon Bedrock
        BedrockRuntimeAsyncClient client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Step 2: Specify which model to use
        // Available Amazon Nova models and their characteristics:
        // - Amazon Nova Micro: Text-only model optimized for lowest latency and cost
        // - Amazon Nova Lite:  Fast, low-cost multimodal model for image, video, and text
        // - Amazon Nova Pro:   Advanced multimodal model balancing accuracy, speed, and cost
        //
        // For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        String modelId = "amazon.nova-lite-v1:0";

        // Step 3: Create the message
        // The message includes the text prompt and specifies that it comes from the user
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Step 4: Configure the request
        // Optional parameters to control the model's response:
        // - maxTokens: maximum number of tokens to generate
        // - temperature: randomness (max: 1.0, default: 0.7)
        //   OR
        // - topP: diversity of word choice (max: 1.0, default: 0.9)
        // Note: Use either temperature OR topP, but not both
        ConverseRequest request = ConverseRequest.builder()
                .modelId(modelId)
                .messages(message)
                .inferenceConfig(config -> config
                                .maxTokens(500)     // The maximum response length
                                .temperature(0.5F)  // Using temperature for randomness control
                        //.topP(0.9F)       // Alternative: use topP instead of temperature
                ).build();

        // Step 5: Send and process the request asynchronously
        // - Send the request to the model
        // - Extract and return the generated text from the response
        try {
            CompletableFuture<ConverseResponse> asyncResponse = client.converse(request);
            return asyncResponse.thenApply(
                    response -> response.output().message().content().get(0).text()
            ).get();

        } catch (Exception e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        String response = converseAsync();
        System.out.println(response);
    }
}
```
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.  

```
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;

/**
 * This example demonstrates how to use the Amazon Nova foundation models
 * with a synchronous Amazon Bedrock runtime client to generate text.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Create a message
 * - Configure and send a request
 * - Process the response
 */
public class Converse {

    public static String converse() {

        // Step 1: Create the Amazon Bedrock runtime client
        // The runtime client handles the communication with AI models on Amazon Bedrock
        BedrockRuntimeClient client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Step 2: Specify which model to use
        // Available Amazon Nova models and their characteristics:
        // - Amazon Nova Micro: Text-only model optimized for lowest latency and cost
        // - Amazon Nova Lite:  Fast, low-cost multimodal model for image, video, and text
        // - Amazon Nova Pro:   Advanced multimodal model balancing accuracy, speed, and cost
        //
        // For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        String modelId = "amazon.nova-lite-v1:0";

        // Step 3: Create the message
        // The message includes the text prompt and specifies that it comes from the user
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Step 4: Configure the request
        // Optional parameters to control the model's response:
        // - maxTokens: maximum number of tokens to generate
        // - temperature: randomness (max: 1.0, default: 0.7)
        //   OR
        // - topP: diversity of word choice (max: 1.0, default: 0.9)
        // Note: Use either temperature OR topP, but not both
        ConverseRequest request = ConverseRequest.builder()
                .modelId(modelId)
                .messages(message)
                .inferenceConfig(config -> config
                                .maxTokens(500)     // The maximum response length
                                .temperature(0.5F)  // Using temperature for randomness control
                        //.topP(0.9F)       // Alternative: use topP instead of temperature
                ).build();

        // Step 5: Send and process the request
        // - Send the request to the model
        // - Extract and return the generated text from the response
        try {
            ConverseResponse response = client.converse(request);
            return response.output().message().content().get(0).text();

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        String response = converse();
        System.out.println(response);
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AmazonNovaText_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;

import java.util.concurrent.ExecutionException;

/**
 * This example demonstrates how to use the Amazon Nova foundation models with an
 * asynchronous Amazon Bedrock runtime client to generate streaming text responses.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Create a message
 * - Configure a streaming request
 * - Set up a stream handler to process the response chunks
 * - Process the streaming response
 */
public class ConverseStream {

    public static void converseStream() {

        // Step 1: Create the Amazon Bedrock runtime client
        // The runtime client handles the communication with AI models on Amazon Bedrock
        BedrockRuntimeAsyncClient client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Step 2: Specify which model to use
        // Available Amazon Nova models and their characteristics:
        // - Amazon Nova Micro: Text-only model optimized for lowest latency and cost
        // - Amazon Nova Lite:  Fast, low-cost multimodal model for image, video, and text
        // - Amazon Nova Pro:   Advanced multimodal model balancing accuracy, speed, and cost
        //
        // For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        String modelId = "amazon.nova-lite-v1:0";

        // Step 3: Create the message
        // The message includes the text prompt and specifies that it comes from the user
        var inputText = "Describe the purpose of a 'hello world' program in one paragraph";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Step 4: Configure the request
        // Optional parameters to control the model's response:
        // - maxTokens: maximum number of tokens to generate
        // - temperature: randomness (max: 1.0, default: 0.7)
        //   OR
        // - topP: diversity of word choice (max: 1.0, default: 0.9)
        // Note: Use either temperature OR topP, but not both
        ConverseStreamRequest request = ConverseStreamRequest.builder()
                .modelId(modelId)
                .messages(message)
                .inferenceConfig(config -> config
                                .maxTokens(500)     // The maximum response length
                                .temperature(0.5F)  // Using temperature for randomness control
                        //.topP(0.9F)       // Alternative: use topP instead of temperature
                ).build();

        // Step 5: Set up the stream handler
        // The stream handler processes chunks of the response as they arrive
        // - onContentBlockDelta: Processes each text chunk
        // - onError: Handles any errors during streaming
        var streamHandler = ConverseStreamResponseHandler.builder()
                .subscriber(ConverseStreamResponseHandler.Visitor.builder()
                        .onContentBlockDelta(chunk -> {
                            System.out.print(chunk.delta().text());
                            System.out.flush();  // Ensure immediate output of each chunk
                        }).build())
                .onError(err -> System.err.printf("Can't invoke '%s': %s", modelId, err.getMessage()))
                .build();

        // Step 6: Send the streaming request and process the response
        // - Send the request to the model
        // - Attach the handler to process response chunks as they arrive
        // - Handle any errors during streaming
        try {
            client.converseStream(request, streamHandler).get();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
        }
    }

    public static void main(String[] args) {
        converseStream();
    }
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK for Java 2.x API*. 

### Skenario: Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUseDemo_AmazonNova_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Eksekusi utama dari alur skenario. Skenario ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
/*
 This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
 The program interacts with a foundation model on Amazon Bedrock to provide weather information based on user
 input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.
 */
public class BedrockScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static String modelId = "amazon.nova-lite-v1:0";
    private static String defaultPrompt = "What is the weather like in Seattle?";
    private static WeatherTool weatherTool = new WeatherTool();

    // The maximum number of recursive calls allowed in the tool use function.
    // This helps prevent infinite loops and potential performance issues.
    private static int maxRecursions = 5;
    static BedrockActions bedrockActions = new BedrockActions();
    public static boolean interactive = true;

    private static final String systemPrompt = """
            You are a weather assistant that provides current weather data for user-specified locations using only
            the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
            If the user provides coordinates, infer the approximate location and refer to it in your response.
            To use the tool, you strictly apply the provided tool specification.
            
            - Explain your step-by-step process, and give brief updates before each step.
            - Only use the Weather_Tool for data. Never guess or make up information. 
            - Repeat the tool use for subsequent requests if necessary.
            - If the tool errors, apologize, explain weather is unavailable, and suggest other options.
            - Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
              emojis where appropriate.
            - Only respond to weather queries. Remind off-topic users of your purpose. 
            - Never claim to search online, access external data, or use tools besides Weather_Tool.
            - Complete the entire process until you have all required data before sending the complete response.
            """;

    public static void main(String[] args) {
        Scanner scanner = new Scanner(System.in);
        System.out.println("""
                =================================================
                Welcome to the Amazon Bedrock Tool Use demo!
                =================================================
                
                This assistant provides current weather information for user-specified locations.
                You can ask for weather details by providing the location name or coordinates.
                
                Example queries:
                - What's the weather like in New York?
                - Current weather for latitude 40.70, longitude -74.01
                - Is it warmer in Rome or Barcelona today?
                
                To exit the program, simply type 'x' and press Enter.
                
                P.S.: You're not limited to single locations, or even to using English!
                Have fun and experiment with the app!
                """);
        System.out.println(DASHES);

        try {
            runConversation(scanner);

        } catch (Exception ex) {
            System.out.println("There was a problem running the scenario: " + ex.getMessage());
        }

        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("Amazon Bedrock Converse API with Tool Use Feature Scenario is complete.");
        System.out.println(DASHES);
    }

    /**
     * Starts the conversation with the user and handles the interaction with Bedrock.
     */
    private static List<Message> runConversation(Scanner scanner) {
        List<Message> conversation = new ArrayList<>();

        // Get the first user input
        String userInput = getUserInput("Your weather info request:", scanner);
        System.out.println(userInput);

        while (userInput != null) {
            ContentBlock block = ContentBlock.builder()
                    .text(userInput)
                    .build();

            List<ContentBlock> blockList = new ArrayList<>();
            blockList.add(block);

            Message message = Message.builder()
                    .role(ConversationRole.USER)
                    .content(blockList)
                    .build();

            conversation.add(message);

            // Send the conversation to Amazon Bedrock.
            ConverseResponse bedrockResponse = sendConversationToBedrock(conversation);

            // Recursively handle the model's response until the model has returned its final response or the recursion counter has reached 0.
            processModelResponse(bedrockResponse, conversation, maxRecursions);

            // Repeat the loop until the user decides to exit the application.
            userInput = getUserInput("Your weather info request:", scanner);
        }
        printFooter();
        return conversation;
    }

    /**
     * Processes the response from the model and updates the conversation accordingly.
     *
     * @param modelResponse the response from the model
     * @param conversation  the ongoing conversation
     * @param maxRecursion  the maximum number of recursions allowed
     */
    private static void processModelResponse(ConverseResponse modelResponse, List<Message> conversation, int maxRecursion) {
        if (maxRecursion <= 0) {
            // Stop the process, the number of recursive calls could indicate an infinite loop
            System.out.println("\tWarning: Maximum number of recursions reached. Please try again.");
        }

        // Append the model's response to the ongoing conversation
        conversation.add(modelResponse.output().message());

        String modelResponseVal = modelResponse.stopReasonAsString();
        if (modelResponseVal.compareTo("tool_use") == 0) {
            // If the stop reason is "tool_use", forward everything to the tool use handler
            handleToolUse(modelResponse.output(), conversation, maxRecursion - 1);
        }

        if (modelResponseVal.compareTo("end_turn") == 0) {
            // If the stop reason is "end_turn", print the model's response text, and finish the process
            PrintModelResponse(modelResponse.output().message().content().get(0).text());
            if (!interactive) {
                defaultPrompt = "x";
            }
        }
    }

    /**
     * Handles the use of a tool by the model in a conversation.
     *
     * @param modelResponse the response from the model, which may include a tool use request
     * @param conversation  the current conversation, which will be updated with the tool use results
     * @param maxRecursion  the maximum number of recursive calls allowed to handle the model's response
     */
    private static void handleToolUse(ConverseOutput modelResponse, List<Message> conversation, int maxRecursion) {
        List<ContentBlock> toolResults = new ArrayList<>();

        // The model's response can consist of multiple content blocks
        for (ContentBlock contentBlock : modelResponse.message().content()) {
            if (contentBlock.text() != null && !contentBlock.text().isEmpty()) {
                // If the content block contains text, print it to the console
                PrintModelResponse(contentBlock.text());
            }

            if (contentBlock.toolUse() != null) {
                ToolResponse toolResponse = invokeTool(contentBlock.toolUse());

                // Add the tool use ID and the tool's response to the list of results
                List<ToolResultContentBlock> contentBlockList = new ArrayList<>();
                ToolResultContentBlock block = ToolResultContentBlock.builder()
                        .json(toolResponse.getContent())
                        .build();
                contentBlockList.add(block);

                ToolResultBlock toolResultBlock = ToolResultBlock.builder()
                        .toolUseId(toolResponse.getToolUseId())
                        .content(contentBlockList)
                        .build();

                ContentBlock contentBlock1 = ContentBlock.builder()
                        .toolResult(toolResultBlock)
                        .build();

                toolResults.add(contentBlock1);
            }
        }

        // Embed the tool results in a new user message
        Message message = Message.builder()
                .role(ConversationRole.USER)
                .content(toolResults)
                .build();

        // Append the new message to the ongoing conversation
        //conversation.add(message);
        conversation.add(message);

        // Send the conversation to Amazon Bedrock
        var response = sendConversationToBedrock(conversation);

        // Recursively handle the model's response until the model has returned its final response or the recursion counter has reached 0
        processModelResponse(response, conversation, maxRecursion);
    }

    // Invokes the specified tool with the given payload and returns the tool's response.
    // If the requested tool does not exist, an error message is returned.
    private static ToolResponse invokeTool(ToolUseBlock payload) {
        String toolName = payload.name();

        if (Objects.equals(toolName, "Weather_Tool")) {
            Map<String, Document> inputData = payload.input().asMap();
            printToolUse(toolName, inputData);

            // Invoke the weather tool with the input data provided
            Document weatherResponse = weatherTool.fetchWeatherData(inputData.get("latitude").toString(), inputData.get("longitude").toString());

            ToolResponse toolResponse = new ToolResponse();
            toolResponse.setContent(weatherResponse);
            toolResponse.setToolUseId(payload.toolUseId());
            return toolResponse;
        } else {
            String errorMessage = "The requested tool with name " + toolName + " does not exist.";
            System.out.println(errorMessage);
            return null;
        }
    }

    public static void printToolUse(String toolName, Map<String, Document> inputData) {
        System.out.println("Invoking tool: " + toolName + " with input: " + inputData.get("latitude").toString() + ", " + inputData.get("longitude").toString() + "...");
    }

    private static void PrintModelResponse(String message) {
        System.out.println("\tThe model's response:\n");
        System.out.println(message);
        System.out.println("");
    }

    private static ConverseResponse sendConversationToBedrock(List<Message> conversation) {
        System.out.println("Calling Bedrock...");

        try {
            return bedrockActions.sendConverseRequestAsync(modelId, systemPrompt, conversation, weatherTool.getToolSpec());
        } catch (ModelNotReadyException ex) {
             System.err.println("Model is not ready. Please try again later: " + ex.getMessage());
            throw ex;
        } catch (BedrockRuntimeException ex) {
            System.err.println("Bedrock service error: " + ex.getMessage());
            throw ex;
        } catch (RuntimeException ex) {
            System.err.println("Unexpected error occurred: " + ex.getMessage());
            throw ex;
        }
    }

    private static ConverseResponse sendConversationToBedrockwithSpec(List<Message> conversation, ToolSpecification toolSpec) {
        System.out.println("Calling Bedrock...");

        // Send the conversation, system prompt, and tool configuration, and return the response
        return bedrockActions.sendConverseRequestAsync(modelId, systemPrompt, conversation, toolSpec);
    }

    public static String getUserInput(String prompt, Scanner scanner) {
        String userInput = defaultPrompt;
        if (interactive) {
            System.out.println("*".repeat(80));
            System.out.println(prompt + " (x to exit): \n\t");
            userInput = scanner.nextLine();
        }

        if (userInput == null || userInput.trim().isEmpty()) {
            return getUserInput("\tPlease enter your weather info request, e.g., the name of a city", scanner);
        }

        if (userInput.equalsIgnoreCase("x")) {
            return null;
        }

        return userInput;
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            System.out.println("");
            System.out.println("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                System.out.println("Continuing with the program...");
                System.out.println("");
                break;
            } else {
                // Handle invalid input.
                System.out.println("Invalid input. Please try again.");
            }
        }
    }

    public static void printFooter() {
        System.out.println("""
                =================================================
                Thank you for checking out the Amazon Bedrock Tool Use demo. We hope you
                learned something new, or got some inspiration for your own apps today!
                
                For more Bedrock examples in different programming languages, have a look at:
                https://docs.aws.amazon.com/bedrock/latest/userguide/service_code_examples.html
                =================================================
                """);
    }
}
```
Alat cuaca yang digunakan oleh demo. File ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
public class WeatherTool {

    private static final Logger logger = LoggerFactory.getLogger(WeatherTool.class);
    private static java.net.http.HttpClient httpClient = null;

    /**
     * Returns the JSON Schema specification for the Weather tool. The tool specification
     * defines the input schema and describes the tool's functionality.
     * For more information, see https://json-schema.org/understanding-json-schema/reference.
     *
     * @return The tool specification for the Weather tool.
     */
    public ToolSpecification getToolSpec() {
        Map<String, Document> latitudeMap = new HashMap<>();
        latitudeMap.put("type", Document.fromString("string"));
        latitudeMap.put("description", Document.fromString("Geographical WGS84 latitude of the location."));

        // Create the nested "longitude" object
        Map<String, Document> longitudeMap = new HashMap<>();
        longitudeMap.put("type", Document.fromString("string"));
        longitudeMap.put("description", Document.fromString("Geographical WGS84 longitude of the location."));

        // Create the "properties" object
        Map<String, Document> propertiesMap = new HashMap<>();
        propertiesMap.put("latitude", Document.fromMap(latitudeMap));
        propertiesMap.put("longitude", Document.fromMap(longitudeMap));

        // Create the "required" array
        List<Document> requiredList = new ArrayList<>();
        requiredList.add(Document.fromString("latitude"));
        requiredList.add(Document.fromString("longitude"));

        // Create the root object
        Map<String, Document> rootMap = new HashMap<>();
        rootMap.put("type", Document.fromString("object"));
        rootMap.put("properties", Document.fromMap(propertiesMap));
        rootMap.put("required", Document.fromList(requiredList));

        // Now create the Document representing the JSON schema
        Document document = Document.fromMap(rootMap);

        ToolSpecification specification = ToolSpecification.builder()
            .name("Weather_Tool")
            .description("Get the current weather for a given location, based on its WGS84 coordinates.")
            .inputSchema(ToolInputSchema.builder()
                .json(document)
                .build())
            .build();

        return specification;
    }

    /**
     * Fetches weather data for the given latitude and longitude.
     *
     * @param latitude  the latitude coordinate
     * @param longitude the longitude coordinate
     * @return a {@link CompletableFuture} containing the weather data as a JSON string
     */
    public Document fetchWeatherData(String latitude, String longitude) {
        HttpClient httpClient = HttpClient.newHttpClient();

        // Ensure no extra double quotes
        latitude = latitude.replace("\"", "");
        longitude = longitude.replace("\"", "");

        String endpoint = "https://api.open-meteo.com/v1/forecast";
        String url = String.format("%s?latitude=%s&longitude=%s&current_weather=True", endpoint, latitude, longitude);

        HttpRequest request = HttpRequest.newBuilder()
            .uri(URI.create(url))
            .build();

        try {
            HttpResponse<String> response = httpClient.send(request, HttpResponse.BodyHandlers.ofString());
            if (response.statusCode() == 200) {
                String weatherJson = response.body();
                System.out.println(weatherJson);
                ObjectMapper objectMapper = new ObjectMapper();
                Map<String, Object> rawMap = objectMapper.readValue(weatherJson, new TypeReference<Map<String, Object>>() {});
                Map<String, Document> documentMap = convertToDocumentMap(rawMap);


                Document weatherDocument = Document.fromMap(documentMap);
                System.out.println(weatherDocument);
                return weatherDocument;
            } else {
                throw new RuntimeException("Error fetching weather data: " + response.statusCode());
            }
        } catch (Exception e) {
            System.out.println("Error fetching weather data: " + e.getMessage());
            throw new RuntimeException("Error fetching weather data", e);
        }

    }

    private static Map<String, Document> convertToDocumentMap(Map<String, Object> inputMap) {
        Map<String, Document> result = new HashMap<>();
        for (Map.Entry<String, Object> entry : inputMap.entrySet()) {
            result.put(entry.getKey(), convertToDocument(entry.getValue()));
        }
        return result;
    }

    // Convert different types of Objects to Document
    private static Document convertToDocument(Object value) {
        if (value instanceof Map) {
            return Document.fromMap(convertToDocumentMap((Map<String, Object>) value));
        } else if (value instanceof Integer) {
            return Document.fromNumber(SdkNumber.fromInteger((Integer) value));
        } else if (value instanceof Double) {  //
            return Document.fromNumber(SdkNumber.fromDouble((Double) value));
        } else if (value instanceof Boolean) {
            return Document.fromBoolean((Boolean) value);
        } else if (value instanceof String) {
            return Document.fromString((String) value);
        }
        return Document.fromNull(); // Handle null values safely
    }
}
```
Tindakan Converse API dengan konfigurasi alat.  

```
    /**
     * Sends an asynchronous converse request to the AI model.
     *
     * @param modelId      the unique identifier of the AI model to be used for the converse request
     * @param systemPrompt the system prompt to be included in the converse request
     * @param conversation a list of messages representing the conversation history
     * @param toolSpec     the specification of the tool to be used in the converse request
     * @return the converse response received from the AI model
     */
    public ConverseResponse sendConverseRequestAsync(String modelId, String systemPrompt, List<Message> conversation, ToolSpecification toolSpec) {
        List<Tool> toolList = new ArrayList<>();
        Tool tool = Tool.builder()
            .toolSpec(toolSpec)
            .build();

        toolList.add(tool);

        ToolConfiguration configuration = ToolConfiguration.builder()
            .tools(toolList)
            .build();

        SystemContentBlock block = SystemContentBlock.builder()
            .text(systemPrompt)
            .build();

        ConverseRequest request = ConverseRequest.builder()
            .modelId(modelId)
            .system(block)
            .messages(conversation)
            .toolConfig(configuration)
            .build();

        try {
            ConverseResponse response = getClient().converse(request).join();
            return response;

        } catch (ModelNotReadyException ex) {
            throw new RuntimeException("Model is not ready: " + ex.getMessage(), ex);
        } catch (BedrockRuntimeException ex) {
            throw new RuntimeException("Failed to converse with Bedrock model: " + ex.getMessage(), ex);
        }
    }
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

## Kanvas Amazon Nova
<a name="amazon_nova_canvas"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AmazonNovaImageGeneration_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Nova Canvas di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Nova Canvas.  

```
import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelResponse;

import java.security.SecureRandom;
import java.util.Base64;

import static com.example.bedrockruntime.libs.ImageTools.displayImage;

/**
 * This example demonstrates how to use Amazon Nova Canvas to generate images.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Configure the image generation parameters
 * - Send a request to generate an image
 * - Process the response and handle the generated image
 */
public class InvokeModel {

    public static byte[] invokeModel() {

        // Step 1: Create the Amazon Bedrock runtime client
        // The runtime client handles the communication with AI models on Amazon Bedrock
        BedrockRuntimeClient client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Step 2: Specify which model to use
        // For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        String modelId = "amazon.nova-canvas-v1:0";

        // Step 3: Configure the generation parameters and create the request
        // First, set the main parameters:
        // - prompt: Text description of the image to generate
        // - seed: Random number for reproducible generation (0 to 858,993,459)
        String prompt = "A stylized picture of a cute old steampunk robot";
        int seed = new SecureRandom().nextInt(858_993_460);

        // Then, create the request using a template with the following structure:
        // - taskType: TEXT_IMAGE (specifies text-to-image generation)
        // - textToImageParams: Contains the text prompt
        // - imageGenerationConfig: Contains optional generation settings (seed, quality, etc.)
        // For a list of available request parameters, see:
        // https://docs.aws.amazon.com/nova/latest/userguide/image-gen-req-resp-structure.html
        String request = """
                {
                    "taskType": "TEXT_IMAGE",
                    "textToImageParams": {
                        "text": "{{prompt}}"
                    },
                    "imageGenerationConfig": {
                        "seed": {{seed}},
                        "quality": "standard"
                    }
                }"""
                .replace("{{prompt}}", prompt)
                .replace("{{seed}}", String.valueOf(seed));

        // Step 4: Send and process the request
        // - Send the request to the model using InvokeModelResponse
        // - Extract the Base64-encoded image from the JSON response
        // - Convert the encoded image to a byte array and return it
        try {
            InvokeModelResponse response = client.invokeModel(builder -> builder
                    .modelId(modelId)
                    .body(SdkBytes.fromUtf8String(request))
            );

            JSONObject responseBody = new JSONObject(response.body().asUtf8String());
            // Convert the Base64 string to byte array for better handling
            return Base64.getDecoder().decode(
                    new JSONPointer("/images/0").queryFrom(responseBody).toString()
            );

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s%n", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        System.out.println("Generating image. This may take a few seconds...");
        byte[] imageData = invokeModel();
        displayImage(imageData);
    }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

## Generator Gambar Amazon Titan
<a name="amazon_titan_image_generator"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_TitanImageGenerator_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Titan Image di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Titan Image Generator.  

```
// Create an image with the Amazon Titan Image Generator.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;

import java.math.BigInteger;
import java.security.SecureRandom;

import static com.example.bedrockruntime.libs.ImageTools.displayImage;

public class InvokeModel {

    public static String invokeModel() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Titan Image G2.
        var modelId = "amazon.titan-image-generator-v2:0";

        // The InvokeModel API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-titan-image.html
        var nativeRequestTemplate = """
                {
                    "taskType": "TEXT_IMAGE",
                    "textToImageParams": { "text": "{{prompt}}" },
                    "imageGenerationConfig": { "seed": {{seed}} }
                }""";

        // Define the prompt for the image generation.
        var prompt = "A stylized picture of a cute old steampunk robot";

        // Get a random 31-bit seed for the image generation (max. 2,147,483,647).
        var seed = new BigInteger(31, new SecureRandom());

        // Embed the prompt and seed in the model's native request payload.
        var nativeRequest = nativeRequestTemplate
                .replace("{{prompt}}", prompt)
                .replace("{{seed}}", seed.toString());

        try {
            // Encode and send the request to the Bedrock Runtime.
            var response = client.invokeModel(request -> request
                    .body(SdkBytes.fromUtf8String(nativeRequest))
                    .modelId(modelId)
            );

            // Decode the response body.
            var responseBody = new JSONObject(response.body().asUtf8String());

            // Retrieve the generated image data from the model's response.
            var base64ImageData = new JSONPointer("/images/0").queryFrom(responseBody).toString();

            return base64ImageData;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        System.out.println("Generating image. This may take a few seconds...");

        String base64ImageData = invokeModel();

        displayImage(base64ImageData);
    }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

## Embeddings Teks Amazon Titan
<a name="amazon_titan_text_embeddings"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModelWithResponseStream_TitanTextEmbeddings_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulailah membuat penyematan pertama Anda.
+ Buat embeddings yang mengonfigurasi jumlah dimensi dan normalisasi (hanya V2).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Buat penyematan pertama Anda dengan Titan Text Embeddings V2.  

```
// Generate and print an embedding with Amazon Titan Text Embeddings.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;

public class InvokeModel {

    public static String invokeModel() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Titan Text Embeddings V2.
        var modelId = "amazon.titan-embed-text-v2:0";

        // The InvokeModel API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-titan-embed-text.html
        var nativeRequestTemplate = "{ \"inputText\": \"{{inputText}}\" }";

        // The text to convert into an embedding.
        var inputText = "Please recommend books with a theme similar to the movie 'Inception'.";

        // Embed the prompt in the model's native request payload.
        String nativeRequest = nativeRequestTemplate.replace("{{inputText}}", inputText);

        try {
            // Encode and send the request to the Bedrock Runtime.
            var response = client.invokeModel(request -> request
                    .body(SdkBytes.fromUtf8String(nativeRequest))
                    .modelId(modelId)
            );

            // Decode the response body.
            var responseBody = new JSONObject(response.body().asUtf8String());

            // Retrieve the generated text from the model's response.
            var text = new JSONPointer("/embedding").queryFrom(responseBody).toString();
            System.out.println(text);

            return text;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        invokeModel();
    }
}
```
Panggil Titan Text Embeddings V2 yang mengonfigurasi jumlah dimensi dan normalisasi.  

```
    /**
     * Invoke Amazon Titan Text Embeddings V2 with additional inference parameters.
     *
     * @param inputText  - The text to convert to an embedding.
     * @param dimensions - The number of dimensions the output embeddings should have.
     *                   Values accepted by the model: 256, 512, 1024.
     * @param normalize  - A flag indicating whether or not to normalize the output embeddings.
     * @return The {@link JSONObject} representing the model's response.
     */
    public static JSONObject invokeModel(String inputText, int dimensions, boolean normalize) {

        // Create a Bedrock Runtime client in the AWS Region of your choice.
        var client = BedrockRuntimeClient.builder()
                .region(Region.US_WEST_2)
                .build();

        // Set the model ID, e.g., Titan Embed Text v2.0.
        var modelId = "amazon.titan-embed-text-v2:0";

        // Create the request for the model.
        var nativeRequest = """
                {
                    "inputText": "%s",
                    "dimensions": %d,
                    "normalize": %b
                }
                """.formatted(inputText, dimensions, normalize);

        // Encode and send the request.
        var response = client.invokeModel(request -> {
            request.body(SdkBytes.fromUtf8String(nativeRequest));
            request.modelId(modelId);
        });

        // Decode the model's response.
        var modelResponse = new JSONObject(response.body().asUtf8String());

        // Extract and print the generated embedding and the input text token count.
        var embedding = modelResponse.getJSONArray("embedding");
        var inputTokenCount = modelResponse.getBigInteger("inputTextTokenCount");
        System.out.println("Embedding: " + embedding);
        System.out.println("\nInput token count: " + inputTokenCount);

        // Return the model's native response.
        return modelResponse;
    }
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

## Antropik Claude
<a name="anthropic_claude"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AnthropicClaude_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Anthropic Claude.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseResponse;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

public class Converse {

    public static String converse() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Claude 3 Haiku.
        var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();


        try {
            // Send the message with a basic inference configuration.
            ConverseResponse response = client.converse(request -> request
                    .modelId(modelId)
                    .messages(message)
                    .inferenceConfig(config -> config
                            .maxTokens(512)
                            .temperature(0.5F)
                            .topP(0.9F)));

            // Retrieve the generated text from Bedrock's response object.
            var responseText = response.output().message().content().getFirst().text();
            System.out.println(responseText);

            return responseText;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        converse();
    }
}
```
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dengan klien Java async.  

```
// Use the Converse API to send a text message to Anthropic Claude
// with the async Java client.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutionException;

public class ConverseAsync {

    public static String converseAsync() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Claude 3 Haiku.
        var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Send the message with a basic inference configuration.
        var request = client.converse(params -> params
                .modelId(modelId)
                .messages(message)
                .inferenceConfig(config -> config
                        .maxTokens(512)
                        .temperature(0.5F)
                        .topP(0.9F))
        );

        // Prepare a future object to handle the asynchronous response.
        CompletableFuture<String> future = new CompletableFuture<>();

        // Handle the response or error using the future object.
        request.whenComplete((response, error) -> {
            if (error == null) {
                // Extract the generated text from Bedrock's response object.
                String responseText = response.output().message().content().getFirst().text();
                future.complete(responseText);
            } else {
                future.completeExceptionally(error);
            }
        });

        try {
            // Wait for the future object to complete and retrieve the generated text.
            String responseText = future.get();
            System.out.println(responseText);

            return responseText;

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        converseAsync();
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AnthropicClaude_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Anthropic Claude
// and print the response stream.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseStreamResponseHandler;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

import java.util.concurrent.ExecutionException;

public class ConverseStream {

    public static void main(String[] args) {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Claude 3 Haiku.
        var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Create a handler to extract and print the response text in real-time.
        var responseStreamHandler = ConverseStreamResponseHandler.builder()
                .subscriber(ConverseStreamResponseHandler.Visitor.builder()
                        .onContentBlockDelta(chunk -> {
                            String responseText = chunk.delta().text();
                            System.out.print(responseText);
                        }).build()
                ).onError(err ->
                        System.err.printf("Can't invoke '%s': %s", modelId, err.getMessage())
                ).build();

        try {
            // Send the message with a basic inference configuration and attach the handler.
            client.converseStream(request -> request.modelId(modelId)
                    .messages(message)
                    .inferenceConfig(config -> config
                            .maxTokens(512)
                            .temperature(0.5F)
                            .topP(0.9F)
                    ), responseStreamHandler).get();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK for Java 2.x API*. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AnthropicClaude_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan Invoke Model API.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Use the native inference API to send a text message to Anthropic Claude.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;

public class InvokeModel {

    public static String invokeModel() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Claude 3 Haiku.
        var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

        // The InvokeModel API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
        var nativeRequestTemplate = """
                {
                    "anthropic_version": "bedrock-2023-05-31",
                    "max_tokens": 512,
                    "temperature": 0.5,
                    "messages": [{
                        "role": "user",
                        "content": "{{prompt}}"
                    }]
                }""";

        // Define the prompt for the model.
        var prompt = "Describe the purpose of a 'hello world' program in one line.";

        // Embed the prompt in the model's native request payload.
        String nativeRequest = nativeRequestTemplate.replace("{{prompt}}", prompt);

        try {
            // Encode and send the request to the Bedrock Runtime.
            var response = client.invokeModel(request -> request
                    .body(SdkBytes.fromUtf8String(nativeRequest))
                    .modelId(modelId)
            );

            // Decode the response body.
            var responseBody = new JSONObject(response.body().asUtf8String());

            // Retrieve the generated text from the model's response.
            var text = new JSONPointer("/content/0/text").queryFrom(responseBody).toString();
            System.out.println(text);

            return text;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        invokeModel();
    }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_AnthropicClaude_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Anthropic Claude, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Use the native inference API to send a text message to Anthropic Claude
// and print the response stream.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamRequest;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler;

import java.util.Objects;
import java.util.concurrent.ExecutionException;

import static software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler.Visitor;

public class InvokeModelWithResponseStream {

    public static String invokeModelWithResponseStream() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Claude 3 Haiku.
        var modelId = "anthropic.claude-3-haiku-20240307-v1:0";

        // The InvokeModelWithResponseStream API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
        var nativeRequestTemplate = """
                {
                    "anthropic_version": "bedrock-2023-05-31",
                    "max_tokens": 512,
                    "temperature": 0.5,
                    "messages": [{
                        "role": "user",
                        "content": "{{prompt}}"
                    }]
                }""";

        // Define the prompt for the model.
        var prompt = "Describe the purpose of a 'hello world' program in one line.";

        // Embed the prompt in the model's native request payload.
        String nativeRequest = nativeRequestTemplate.replace("{{prompt}}", prompt);

        // Create a request with the model ID and the model's native request payload.
        var request = InvokeModelWithResponseStreamRequest.builder()
                .body(SdkBytes.fromUtf8String(nativeRequest))
                .modelId(modelId)
                .build();

        // Prepare a buffer to accumulate the generated response text.
        var completeResponseTextBuffer = new StringBuilder();

        // Prepare a handler to extract, accumulate, and print the response text in real-time.
        var responseStreamHandler = InvokeModelWithResponseStreamResponseHandler.builder()
                .subscriber(Visitor.builder().onChunk(chunk -> {
                    var response = new JSONObject(chunk.bytes().asUtf8String());

                    // Extract and print the text from the content blocks.
                    if (Objects.equals(response.getString("type"), "content_block_delta")) {
                        var text = new JSONPointer("/delta/text").queryFrom(response);
                        System.out.print(text);

                        // Append the text to the response text buffer.
                        completeResponseTextBuffer.append(text);
                    }
                }).build()).build();

        try {
            // Send the request and wait for the handler to process the response.
            client.invokeModelWithResponseStream(request, responseStreamHandler).get();

            // Return the complete response text.
            return completeResponseTextBuffer.toString();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) throws ExecutionException, InterruptedException {
        invokeModelWithResponseStream();
    }
}
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *Referensi AWS SDK for Java 2.x API*. 

### Penalaran
<a name="bedrock-runtime_Converse_AnthropicClaudeReasoning_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan kemampuan penalaran Anthropic Claude 3.7 Sonnet di Amazon Bedrock

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan kemampuan penalaran Anthropic Claude 3.7 Sonnet dengan klien runtime Bedrock asinkron.  

```
import com.example.bedrockruntime.models.anthropicClaude.lib.ReasoningResponse;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;

import java.util.concurrent.CompletableFuture;

/**
 * This example demonstrates how to use Anthropic Claude 3.7 Sonnet's reasoning capability
 * with an asynchronous Amazon Bedrock runtime client.
 * It shows how to:
 * - Set up the Amazon Bedrock async runtime client
 * - Create a message
 * - Configure reasoning parameters
 * - Send an asynchronous request with reasoning enabled
 * - Process both the reasoning output and final response
 */
public class ReasoningAsync {

    public static ReasoningResponse reasoningAsync() {

        // Create the Amazon Bedrock runtime client
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Specify the model ID. For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        var modelId = "us.anthropic.claude-3-7-sonnet-20250219-v1:0";

        // Create the message with the user's prompt
        var prompt = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(prompt))
                .role(ConversationRole.USER)
                .build();

        // Configure reasoning parameters with a 2000 token budget
        Document reasoningConfig = Document.mapBuilder()
                .putDocument("thinking", Document.mapBuilder()
                        .putString("type", "enabled")
                        .putNumber("budget_tokens", 2000)
                        .build())
                .build();

        try {
            // Send message and reasoning configuration to the model
            CompletableFuture<ConverseResponse> asyncResponse = client.converse(request -> request
                    .additionalModelRequestFields(reasoningConfig)
                    .messages(message)
                    .modelId(modelId)
            );

            // Process the response asynchronously
            return asyncResponse.thenApply(response -> {

                        var content = response.output().message().content();
                        ReasoningContentBlock reasoning = null;
                        String text = null;

                        // Process each content block to find reasoning and response text
                        for (ContentBlock block : content) {
                            if (block.reasoningContent() != null) {
                                reasoning = block.reasoningContent();
                            } else if (block.text() != null) {
                                text = block.text();
                            }
                        }

                        return new ReasoningResponse(reasoning, text);
                    }
            ).get();

        } catch (Exception e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        // Execute the example and display reasoning and final response
        ReasoningResponse response = reasoningAsync();
        System.out.println("\n<thinking>");
        System.out.println(response.reasoning().reasoningText());
        System.out.println("</thinking>\n");
        System.out.println(response.text());
    }
}
```
Gunakan kemampuan penalaran Anthropic Claude 3.7 Sonnet dengan klien runtime Bedrock sinkron.  

```
import com.example.bedrockruntime.models.anthropicClaude.lib.ReasoningResponse;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;

/**
 * This example demonstrates how to use Anthropic Claude 3.7 Sonnet's reasoning capability
 * with the synchronous Amazon Bedrock runtime client.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Create a message
 * - Configure reasoning parameters
 * - Send a request with reasoning enabled
 * - Process both the reasoning output and final response
 */
public class Reasoning {

    public static ReasoningResponse reasoning() {

        // Create the Amazon Bedrock runtime client
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Specify the model ID. For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        var modelId = "us.anthropic.claude-3-7-sonnet-20250219-v1:0";

        // Create the message with the user's prompt
        var prompt = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(prompt))
                .role(ConversationRole.USER)
                .build();

        // Configure reasoning parameters with a 2000 token budget
        Document reasoningConfig = Document.mapBuilder()
                .putDocument("thinking", Document.mapBuilder()
                        .putString("type", "enabled")
                        .putNumber("budget_tokens", 2000)
                        .build())
                .build();

        try {
            // Send message and reasoning configuration to the model
            ConverseResponse bedrockResponse = client.converse(request -> request
                    .additionalModelRequestFields(reasoningConfig)
                    .messages(message)
                    .modelId(modelId)
            );


            // Extract both reasoning and final response
            var content = bedrockResponse.output().message().content();
            ReasoningContentBlock reasoning = null;
            String text = null;

            // Process each content block to find reasoning and response text
            for (ContentBlock block : content) {
                if (block.reasoningContent() != null) {
                    reasoning = block.reasoningContent();
                } else if (block.text() != null) {
                    text = block.text();
                }
            }

            return new ReasoningResponse(reasoning, text);

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        // Execute the example and display reasoning and final response
        ReasoningResponse response = reasoning();
        System.out.println("\n<thinking>");
        System.out.println(response.reasoning().reasoningText());
        System.out.println("</thinking>\n");
        System.out.println(response.text());
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

### Penalaran dengan respons streaming
<a name="bedrock-runtime_ConverseStream_AnthropicClaudeReasoning_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan kemampuan penalaran Anthropic Claude 3.7 Sonnet di Amazon Bedrock

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan kemampuan penalaran Anthropic Claude 3.7 Sonnet untuk menghasilkan respons teks streaming.  

```
import com.example.bedrockruntime.models.anthropicClaude.lib.ReasoningResponse;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;

import java.util.concurrent.ExecutionException;
import java.util.concurrent.atomic.AtomicReference;

/**
 * This example demonstrates how to use Anthropic Claude 3.7 Sonnet's reasoning
 * capability to generate streaming text responses.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Create a message
 * - Configure a streaming request
 * - Set up a stream handler to process the response chunks
 * - Process the streaming response
 */
public class ReasoningStream {

    public static ReasoningResponse reasoningStream() {

        // Create the Amazon Bedrock runtime client
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Specify the model ID. For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        var modelId = "us.anthropic.claude-3-7-sonnet-20250219-v1:0";

        // Create the message with the user's prompt
        var prompt = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(prompt))
                .role(ConversationRole.USER)
                .build();

        // Configure reasoning parameters with a 2000 token budget
        Document reasoningConfig = Document.mapBuilder()
                .putDocument("thinking", Document.mapBuilder()
                        .putString("type", "enabled")
                        .putNumber("budget_tokens", 2000)
                        .build())
                .build();

        // Configure the request with the message, model ID, and reasoning config
        ConverseStreamRequest request = ConverseStreamRequest.builder()
                .additionalModelRequestFields(reasoningConfig)
                .messages(message)
                .modelId(modelId)
                .build();

        StringBuilder reasoning = new StringBuilder();
        StringBuilder text = new StringBuilder();
        AtomicReference<ReasoningResponse> finalresponse = new AtomicReference<>();

        // Set up the stream handler to processes chunks of the response as they arrive
        var streamHandler = ConverseStreamResponseHandler.builder()
                .subscriber(ConverseStreamResponseHandler.Visitor.builder()
                        .onContentBlockDelta(chunk -> {
                            ContentBlockDelta delta = chunk.delta();
                            if (delta.reasoningContent() != null) {
                                if (reasoning.isEmpty()) {
                                    System.out.println("\n<thinking>");
                                }
                                if (delta.reasoningContent().text() != null) {
                                    System.out.print(delta.reasoningContent().text());
                                    reasoning.append(delta.reasoningContent().text());
                                }
                            } else if (delta.text() != null) {
                                if (text.isEmpty()) {
                                    System.out.println("\n</thinking>\n");
                                }
                                System.out.print(delta.text());
                                text.append(delta.text());
                            }
                            System.out.flush();  // Ensure immediate output of each chunk
                        }).build())
                .onComplete(() -> finalresponse.set(new ReasoningResponse(
                        ReasoningContentBlock.fromReasoningText(t -> t.text(reasoning.toString())),
                        text.toString()
                )))
                .onError(err -> System.err.printf("Can't invoke '%s': %s", modelId, err.getMessage()))
                .build();

        // Step 6: Send the streaming request and process the response
        // - Send the request to the model
        // - Attach the handler to process response chunks as they arrive
        // - Handle any errors during streaming
        try {
            client.converseStream(request, streamHandler).get();
            return finalresponse.get();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
            throw new RuntimeException(e);
        } catch (Exception e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        reasoningStream();
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

## Perintah Cohere
<a name="cohere_command"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_CohereCommand_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Cohere Command.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseResponse;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

public class Converse {

    public static String converse() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Command R.
        var modelId = "cohere.command-r-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();


        try {
            // Send the message with a basic inference configuration.
            ConverseResponse response = client.converse(request -> request
                    .modelId(modelId)
                    .messages(message)
                    .inferenceConfig(config -> config
                            .maxTokens(512)
                            .temperature(0.5F)
                            .topP(0.9F)));

            // Retrieve the generated text from Bedrock's response object.
            var responseText = response.output().message().content().get(0).text();
            System.out.println(responseText);

            return responseText;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        converse();
    }
}
```
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dengan klien Java async.  

```
// Use the Converse API to send a text message to Cohere Command
// with the async Java client.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutionException;

public class ConverseAsync {

    public static String converseAsync() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Command R.
        var modelId = "cohere.command-r-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Send the message with a basic inference configuration.
        var request = client.converse(params -> params
                .modelId(modelId)
                .messages(message)
                .inferenceConfig(config -> config
                        .maxTokens(512)
                        .temperature(0.5F)
                        .topP(0.9F))
        );

        // Prepare a future object to handle the asynchronous response.
        CompletableFuture<String> future = new CompletableFuture<>();

        // Handle the response or error using the future object.
        request.whenComplete((response, error) -> {
            if (error == null) {
                // Extract the generated text from Bedrock's response object.
                String responseText = response.output().message().content().get(0).text();
                future.complete(responseText);
            } else {
                future.completeExceptionally(error);
            }
        });

        try {
            // Wait for the future object to complete and retrieve the generated text.
            String responseText = future.get();
            System.out.println(responseText);

            return responseText;

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        converseAsync();
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_CohereCommand_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Cohere Command
// and print the response stream.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseStreamResponseHandler;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

import java.util.concurrent.ExecutionException;

public class ConverseStream {

    public static void main(String[] args) {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Command R.
        var modelId = "cohere.command-r-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Create a handler to extract and print the response text in real-time.
        var responseStreamHandler = ConverseStreamResponseHandler.builder()
                .subscriber(ConverseStreamResponseHandler.Visitor.builder()
                        .onContentBlockDelta(chunk -> {
                            String responseText = chunk.delta().text();
                            System.out.print(responseText);
                        }).build()
                ).onError(err ->
                        System.err.printf("Can't invoke '%s': %s", modelId, err.getMessage())
                ).build();

        try {
            // Send the message with a basic inference configuration and attach the handler.
            client.converseStream(request -> request.modelId(modelId)
                    .messages(message)
                    .inferenceConfig(config -> config
                            .maxTokens(512)
                            .temperature(0.5F)
                            .topP(0.9F)
                    ), responseStreamHandler).get();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK for Java 2.x API*. 

### InvokeModel: Perintah R dan R \$1
<a name="bedrock-runtime_InvokeModel_CohereCommandR_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command R dan R \$1, menggunakan Invoke Model API.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Use the native inference API to send a text message to Cohere Command R.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;

public class Command_R_InvokeModel {

    public static String invokeModel() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Command R.
        var modelId = "cohere.command-r-v1:0";

        // The InvokeModel API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-cohere-command-r-plus.html
        var nativeRequestTemplate = "{ \"message\": \"{{prompt}}\" }";

        // Define the prompt for the model.
        var prompt = "Describe the purpose of a 'hello world' program in one line.";

        // Embed the prompt in the model's native request payload.
        String nativeRequest = nativeRequestTemplate.replace("{{prompt}}", prompt);

        try {
            // Encode and send the request to the Bedrock Runtime.
            var response = client.invokeModel(request -> request
                    .body(SdkBytes.fromUtf8String(nativeRequest))
                    .modelId(modelId)
            );

            // Decode the response body.
            var responseBody = new JSONObject(response.body().asUtf8String());

            // Retrieve the generated text from the model's response.
            var text = new JSONPointer("/text").queryFrom(responseBody).toString();
            System.out.println(text);

            return text;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        invokeModel();
    }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

### InvokeModelWithResponseStream: Perintah R dan R \$1
<a name="bedrock-runtime_InvokeModelWithResponseStream_CohereCommandR_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan Invoke Model API dengan aliran respons.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Use the native inference API to send a text message to Cohere Command R
// and print the response stream.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamRequest;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler;

import java.util.concurrent.ExecutionException;

import static software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler.Visitor;

public class Command_R_InvokeModelWithResponseStream {

    public static String invokeModelWithResponseStream() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Command R.
        var modelId = "cohere.command-r-v1:0";

        // The InvokeModelWithResponseStream API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-cohere-command-r-plus.html
        var nativeRequestTemplate = "{ \"message\": \"{{prompt}}\" }";

        // Define the prompt for the model.
        var prompt = "Describe the purpose of a 'hello world' program in one line.";

        // Embed the prompt in the model's native request payload.
        String nativeRequest = nativeRequestTemplate.replace("{{prompt}}", prompt);

        // Create a request with the model ID and the model's native request payload.
        var request = InvokeModelWithResponseStreamRequest.builder()
                .body(SdkBytes.fromUtf8String(nativeRequest))
                .modelId(modelId)
                .build();

        // Prepare a buffer to accumulate the generated response text.
        var completeResponseTextBuffer = new StringBuilder();

        // Prepare a handler to extract, accumulate, and print the response text in real-time.
        var responseStreamHandler = InvokeModelWithResponseStreamResponseHandler.builder()
                .subscriber(Visitor.builder().onChunk(chunk -> {
                    // Extract and print the text from the model's native response.
                    var response = new JSONObject(chunk.bytes().asUtf8String());
                    var text = new JSONPointer("/text").queryFrom(response);
                    System.out.print(text);

                    // Append the text to the response text buffer.
                    completeResponseTextBuffer.append(text);
                }).build()).build();

        try {
            // Send the request and wait for the handler to process the response.
            client.invokeModelWithResponseStream(request, responseStreamHandler).get();

            // Return the complete response text.
            return completeResponseTextBuffer.toString();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) throws ExecutionException, InterruptedException {
        invokeModelWithResponseStream();
    }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

## Meta Llama
<a name="meta_llama"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_MetaLlama_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Meta Llama.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseResponse;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

public class Converse {

    public static String converse() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Llama 3 8b Instruct.
        var modelId = "meta.llama3-8b-instruct-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();


        try {
            // Send the message with a basic inference configuration.
            ConverseResponse response = client.converse(request -> request
                    .modelId(modelId)
                    .messages(message)
                    .inferenceConfig(config -> config
                            .maxTokens(512)
                            .temperature(0.5F)
                            .topP(0.9F)));

            // Retrieve the generated text from Bedrock's response object.
            var responseText = response.output().message().content().get(0).text();
            System.out.println(responseText);

            return responseText;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        converse();
    }
}
```
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dengan klien Java async.  

```
// Use the Converse API to send a text message to Meta Llama
// with the async Java client.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutionException;

public class ConverseAsync {

    public static String converseAsync() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Llama 3 8b Instruct.
        var modelId = "meta.llama3-8b-instruct-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Send the message with a basic inference configuration.
        var request = client.converse(params -> params
                .modelId(modelId)
                .messages(message)
                .inferenceConfig(config -> config
                        .maxTokens(512)
                        .temperature(0.5F)
                        .topP(0.9F))
        );

        // Prepare a future object to handle the asynchronous response.
        CompletableFuture<String> future = new CompletableFuture<>();

        // Handle the response or error using the future object.
        request.whenComplete((response, error) -> {
            if (error == null) {
                // Extract the generated text from Bedrock's response object.
                String responseText = response.output().message().content().get(0).text();
                future.complete(responseText);
            } else {
                future.completeExceptionally(error);
            }
        });

        try {
            // Wait for the future object to complete and retrieve the generated text.
            String responseText = future.get();
            System.out.println(responseText);

            return responseText;

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        converseAsync();
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_MetaLlama_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Meta Llama
// and print the response stream.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseStreamResponseHandler;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

import java.util.concurrent.ExecutionException;

public class ConverseStream {

    public static void main(String[] args) {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Llama 3 8b Instruct.
        var modelId = "meta.llama3-8b-instruct-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Create a handler to extract and print the response text in real-time.
        var responseStreamHandler = ConverseStreamResponseHandler.builder()
                .subscriber(ConverseStreamResponseHandler.Visitor.builder()
                        .onContentBlockDelta(chunk -> {
                            String responseText = chunk.delta().text();
                            System.out.print(responseText);
                        }).build()
                ).onError(err ->
                        System.err.printf("Can't invoke '%s': %s", modelId, err.getMessage())
                ).build();

        try {
            // Send the message with a basic inference configuration and attach the handler.
            client.converseStream(request -> request
                    .modelId(modelId)
                    .messages(message)
                    .inferenceConfig(config -> config
                            .maxTokens(512)
                            .temperature(0.5F)
                            .topP(0.9F)
                    ), responseStreamHandler).get();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK for Java 2.x API*. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_MetaLlama3_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan Invoke Model API.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Use the native inference API to send a text message to Meta Llama 3.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;

public class Llama3_InvokeModel {

    public static String invokeModel() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_WEST_2)
                .build();

        // Set the model ID, e.g., Llama 3 70b Instruct.
        var modelId = "meta.llama3-70b-instruct-v1:0";

        // The InvokeModel API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-meta.html
        var nativeRequestTemplate = "{ \"prompt\": \"{{instruction}}\" }";

        // Define the prompt for the model.
        var prompt = "Describe the purpose of a 'hello world' program in one line.";

        // Embed the prompt in Llama 3's instruction format.
        var instruction = (
                "<|begin_of_text|><|start_header_id|>user<|end_header_id|>\\n" +
                "{{prompt}} <|eot_id|>\\n" +
                "<|start_header_id|>assistant<|end_header_id|>\\n"
        ).replace("{{prompt}}", prompt);

        // Embed the instruction in the the native request payload.
        var nativeRequest = nativeRequestTemplate.replace("{{instruction}}", instruction);

        try {
            // Encode and send the request to the Bedrock Runtime.
            var response = client.invokeModel(request -> request
                    .body(SdkBytes.fromUtf8String(nativeRequest))
                    .modelId(modelId)
            );

            // Decode the response body.
            var responseBody = new JSONObject(response.body().asUtf8String());

            // Retrieve the generated text from the model's response.
            var text = new JSONPointer("/generation").queryFrom(responseBody).toString();
            System.out.println(text);

            return text;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        invokeModel();
    }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_MetaLlama3_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Use the native inference API to send a text message to Meta Llama 3
// and print the response stream.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamRequest;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler;

import java.util.concurrent.ExecutionException;

import static software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler.Visitor;

public class Llama3_InvokeModelWithResponseStream {

    public static String invokeModelWithResponseStream() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_WEST_2)
                .build();

        // Set the model ID, e.g., Llama 3 70b Instruct.
        var modelId = "meta.llama3-70b-instruct-v1:0";

        // The InvokeModelWithResponseStream API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-meta.html
        var nativeRequestTemplate = "{ \"prompt\": \"{{instruction}}\" }";

        // Define the prompt for the model.
        var prompt = "Describe the purpose of a 'hello world' program in one line.";

        // Embed the prompt in Llama 3's instruction format.
        var instruction = (
                "<|begin_of_text|><|start_header_id|>user<|end_header_id|>\\n" +
                "{{prompt}} <|eot_id|>\\n" +
                "<|start_header_id|>assistant<|end_header_id|>\\n"
        ).replace("{{prompt}}", prompt);

        // Embed the instruction in the the native request payload.
        var nativeRequest = nativeRequestTemplate.replace("{{instruction}}", instruction);

        // Create a request with the model ID and the model's native request payload.
        var request = InvokeModelWithResponseStreamRequest.builder()
                .body(SdkBytes.fromUtf8String(nativeRequest))
                .modelId(modelId)
                .build();

        // Prepare a buffer to accumulate the generated response text.
        var completeResponseTextBuffer = new StringBuilder();

        // Prepare a handler to extract, accumulate, and print the response text in real-time.
        var responseStreamHandler = InvokeModelWithResponseStreamResponseHandler.builder()
                .subscriber(Visitor.builder().onChunk(chunk -> {
                    // Extract and print the text from the model's native response.
                    var response = new JSONObject(chunk.bytes().asUtf8String());
                    var text = new JSONPointer("/generation").queryFrom(response);
                    System.out.print(text);

                    // Append the text to the response text buffer.
                    completeResponseTextBuffer.append(text);
                }).build()).build();

        try {
            // Send the request and wait for the handler to process the response.
            client.invokeModelWithResponseStream(request, responseStreamHandler).get();

            // Return the complete response text.
            return completeResponseTextBuffer.toString();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) throws ExecutionException, InterruptedException {
        invokeModelWithResponseStream();
    }
}
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *Referensi AWS SDK for Java 2.x API*. 

## Mistral AI
<a name="mistral_ai"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_Mistral_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Mistral, menggunakan API Converse Bedrock.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock.  

```
// Use the Converse API to send a text message to Mistral.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseResponse;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

public class Converse {

    public static String converse() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Mistral Large.
        var modelId = "mistral.mistral-large-2402-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();


        try {
            // Send the message with a basic inference configuration.
            ConverseResponse response = client.converse(request -> request
                    .modelId(modelId)
                    .messages(message)
                    .inferenceConfig(config -> config
                            .maxTokens(512)
                            .temperature(0.5F)
                            .topP(0.9F)));

            // Retrieve the generated text from Bedrock's response object.
            var responseText = response.output().message().content().get(0).text();
            System.out.println(responseText);

            return responseText;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }

    }

    public static void main(String[] args) {
        converse();
    }
}
```
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock dengan klien Java async.  

```
// Use the Converse API to send a text message to Mistral
// with the async Java client.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutionException;

public class ConverseAsync {

    public static String converseAsync() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Mistral Large.
        var modelId = "mistral.mistral-large-2402-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Send the message with a basic inference configuration.
        var request = client.converse(params -> params
                .modelId(modelId)
                .messages(message)
                .inferenceConfig(config -> config
                        .maxTokens(512)
                        .temperature(0.5F)
                        .topP(0.9F))
        );

        // Prepare a future object to handle the asynchronous response.
        CompletableFuture<String> future = new CompletableFuture<>();

        // Handle the response or error using the future object.
        request.whenComplete((response, error) -> {
            if (error == null) {
                // Extract the generated text from Bedrock's response object.
                String responseText = response.output().message().content().get(0).text();
                future.complete(responseText);
            } else {
                future.completeExceptionally(error);
            }
        });

        try {
            // Wait for the future object to complete and retrieve the generated text.
            String responseText = future.get();
            System.out.println(responseText);

            return responseText;

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        converseAsync();
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK for Java 2.x API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_Mistral_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Mistral, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// Use the Converse API to send a text message to Mistral
// and print the response stream.

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseStreamResponseHandler;
import software.amazon.awssdk.services.bedrockruntime.model.Message;

import java.util.concurrent.ExecutionException;

public class ConverseStream {

    public static void main(String[] args) {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Mistral Large.
        var modelId = "mistral.mistral-large-2402-v1:0";

        // Create the input text and embed it in a message object with the user role.
        var inputText = "Describe the purpose of a 'hello world' program in one line.";
        var message = Message.builder()
                .content(ContentBlock.fromText(inputText))
                .role(ConversationRole.USER)
                .build();

        // Create a handler to extract and print the response text in real-time.
        var responseStreamHandler = ConverseStreamResponseHandler.builder()
                .subscriber(ConverseStreamResponseHandler.Visitor.builder()
                        .onContentBlockDelta(chunk -> {
                            String responseText = chunk.delta().text();
                            System.out.print(responseText);
                        }).build()
                ).onError(err ->
                        System.err.printf("Can't invoke '%s': %s", modelId, err.getMessage())
                ).build();

        try {
            // Send the message with a basic inference configuration and attach the handler.
            client.converseStream(request -> request.modelId(modelId)
                    .messages(message)
                    .inferenceConfig(config -> config
                            .maxTokens(512)
                            .temperature(0.5F)
                            .topP(0.9F)
                    ), responseStreamHandler).get();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/ConverseStream)di *Referensi AWS SDK for Java 2.x API*. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_MistralAi_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Mistral, menggunakan Invoke Model API.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
// Use the native inference API to send a text message to Mistral.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;

public class InvokeModel {

    public static String invokeModel() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Mistral Large.
        var modelId = "mistral.mistral-large-2402-v1:0";

        // The InvokeModel API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-mistral-text-completion.html
        var nativeRequestTemplate = "{ \"prompt\": \"{{instruction}}\" }";

        // Define the prompt for the model.
        var prompt = "Describe the purpose of a 'hello world' program in one line.";

        // Embed the prompt in Mistral's instruction format.
        var instruction = "<s>[INST] {{prompt}} [/INST]\\n".replace("{{prompt}}", prompt);

        // Embed the instruction in the the native request payload.
        var nativeRequest = nativeRequestTemplate.replace("{{instruction}}", instruction);

        try {
            // Encode and send the request to the Bedrock Runtime.
            var response = client.invokeModel(request -> request
                    .body(SdkBytes.fromUtf8String(nativeRequest))
                    .modelId(modelId)
            );

            // Decode the response body.
            var responseBody = new JSONObject(response.body().asUtf8String());

            // Retrieve the generated text from the model's response.
            var text = new JSONPointer("/outputs/0/text").queryFrom(responseBody).toString();
            System.out.println(text);

            return text;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        invokeModel();
    }
}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_MistralAi_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model AI Mistral, menggunakan API Model Invoke, dan mencetak aliran respons.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
// Use the native inference API to send a text message to Mistral
// and print the response stream.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamRequest;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler;

import java.util.concurrent.ExecutionException;

import static software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler.Visitor;

public class InvokeModelWithResponseStream {

    public static String invokeModelWithResponseStream() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeAsyncClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Mistral Large.
        var modelId = "mistral.mistral-large-2402-v1:0";

        // The InvokeModelWithResponseStream API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-mistral-text-completion.html
        var nativeRequestTemplate = "{ \"prompt\": \"{{instruction}}\" }";

        // Define the prompt for the model.
        var prompt = "Describe the purpose of a 'hello world' program in one line.";

        // Embed the prompt in Mistral's instruction format.
        var instruction = "<s>[INST] {{prompt}} [/INST]\\n".replace("{{prompt}}", prompt);

        // Embed the instruction in the the native request payload.
        var nativeRequest = nativeRequestTemplate.replace("{{instruction}}", instruction);

        // Create a request with the model ID and the model's native request payload.
        var request = InvokeModelWithResponseStreamRequest.builder()
                .body(SdkBytes.fromUtf8String(nativeRequest))
                .modelId(modelId)
                .build();

        // Prepare a buffer to accumulate the generated response text.
        var completeResponseTextBuffer = new StringBuilder();

        // Prepare a handler to extract, accumulate, and print the response text in real-time.
        var responseStreamHandler = InvokeModelWithResponseStreamResponseHandler.builder()
                .subscriber(Visitor.builder().onChunk(chunk -> {
                    // Extract and print the text from the model's native response.
                    var response = new JSONObject(chunk.bytes().asUtf8String());
                    var text = new JSONPointer("/outputs/0/text").queryFrom(response);
                    System.out.print(text);

                    // Append the text to the response text buffer.
                    completeResponseTextBuffer.append(text);
                }).build()).build();

        try {
            // Send the request and wait for the handler to process the response.
            client.invokeModelWithResponseStream(request, responseStreamHandler).get();

            // Return the complete response text.
            return completeResponseTextBuffer.toString();

        } catch (ExecutionException | InterruptedException e) {
            System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) throws ExecutionException, InterruptedException {
        invokeModelWithResponseStream();
    }
}
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *Referensi AWS SDK for Java 2.x API*. 

## Difusi Stabil
<a name="stable_diffusion"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_StableDiffusion_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Stability.ai Stable Diffusion XL di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Difusi Stabil.  

```
// Create an image with Stable Diffusion.

import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;

import java.math.BigInteger;
import java.security.SecureRandom;

import static com.example.bedrockruntime.libs.ImageTools.displayImage;

public class InvokeModel {

    public static String invokeModel() {

        // Create a Bedrock Runtime client in the AWS Region you want to use.
        // Replace the DefaultCredentialsProvider with your preferred credentials provider.
        var client = BedrockRuntimeClient.builder()
                .credentialsProvider(DefaultCredentialsProvider.create())
                .region(Region.US_EAST_1)
                .build();

        // Set the model ID, e.g., Stable Diffusion XL v1.
        var modelId = "stability.stable-diffusion-xl-v1";

        // The InvokeModel API uses the model's native payload.
        // Learn more about the available inference parameters and response fields at:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-diffusion-1-0-text-image.html
        var nativeRequestTemplate = """
                {
                    "text_prompts": [{ "text": "{{prompt}}" }],
                    "style_preset": "{{style}}",
                    "seed": {{seed}}
                }""";

        // Define the prompt for the image generation.
        var prompt = "A stylized picture of a cute old steampunk robot";

        // Get a random 32-bit seed for the image generation (max. 4,294,967,295).
        var seed = new BigInteger(31, new SecureRandom());

        // Choose a style preset.
        var style = "cinematic";

        // Embed the prompt, seed, and style in the model's native request payload.
        String nativeRequest = nativeRequestTemplate
                .replace("{{prompt}}", prompt)
                .replace("{{seed}}", seed.toString())
                .replace("{{style}}", style);

        try {
            // Encode and send the request to the Bedrock Runtime.
            var response = client.invokeModel(request -> request
                    .body(SdkBytes.fromUtf8String(nativeRequest))
                    .modelId(modelId)
            );

            // Decode the response body.
            var responseBody = new JSONObject(response.body().asUtf8String());

            // Retrieve the generated image data from the model's response.
            var base64ImageData = new JSONPointer("/artifacts/0/base64")
                    .queryFrom(responseBody)
                    .toString();

            return base64ImageData;

        } catch (SdkClientException e) {
            System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
            throw new RuntimeException(e);
        }
    }

    public static void main(String[] args) {
        System.out.println("Generating image. This may take a few seconds...");

        String base64ImageData = invokeModel();

        displayImage(base64ImageData);
    }


}
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK for Java 2.x API*. 

# CloudFront contoh menggunakan SDK for Java 2.x
<a name="java_2_cloudfront_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with CloudFront.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateDistribution`
<a name="cloudfront_CreateDistribution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDistribution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 
Contoh berikut menggunakan bucket Amazon Simple Storage Service (Amazon S3) sebagai sumber konten.  
Setelah membuat distribusi, kode membuat [CloudFrontWaiter](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/cloudfront/waiters/CloudFrontWaiter.html)untuk menunggu sampai distribusi diterapkan sebelum mengembalikan distribusi.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.internal.waiters.ResponseOrException;
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.CreateDistributionResponse;
import software.amazon.awssdk.services.cloudfront.model.Distribution;
import software.amazon.awssdk.services.cloudfront.model.GetDistributionResponse;
import software.amazon.awssdk.services.cloudfront.model.ItemSelection;
import software.amazon.awssdk.services.cloudfront.model.Method;
import software.amazon.awssdk.services.cloudfront.model.ViewerProtocolPolicy;
import software.amazon.awssdk.services.cloudfront.waiters.CloudFrontWaiter;
import software.amazon.awssdk.services.s3.S3Client;

import java.time.Instant;

public class CreateDistribution {

        private static final Logger logger = LoggerFactory.getLogger(CreateDistribution.class);

        public static Distribution createDistribution(CloudFrontClient cloudFrontClient, S3Client s3Client,
                        final String bucketName, final String keyGroupId, final String originAccessControlId) {

                final String region = s3Client.headBucket(b -> b.bucket(bucketName)).sdkHttpResponse().headers()
                                .get("x-amz-bucket-region").get(0);
                final String originDomain = bucketName + ".s3." + region + ".amazonaws.com";
                String originId = originDomain; // Use the originDomain value for the originId.

                // The service API requires some deprecated methods, such as
                // DefaultCacheBehavior.Builder#minTTL and #forwardedValue.
                CreateDistributionResponse createDistResponse = cloudFrontClient.createDistribution(builder -> builder
                                .distributionConfig(b1 -> b1
                                                .origins(b2 -> b2
                                                                .quantity(1)
                                                                .items(b3 -> b3
                                                                                .domainName(originDomain)
                                                                                .id(originId)
                                                                                .s3OriginConfig(builder4 -> builder4
                                                                                                .originAccessIdentity(
                                                                                                                ""))
                                                                                .originAccessControlId(
                                                                                                originAccessControlId)))
                                                .defaultCacheBehavior(b2 -> b2
                                                                .viewerProtocolPolicy(ViewerProtocolPolicy.ALLOW_ALL)
                                                                .targetOriginId(originId)
                                                                .minTTL(200L)
                                                                .forwardedValues(b5 -> b5
                                                                                .cookies(cp -> cp
                                                                                                .forward(ItemSelection.NONE))
                                                                                .queryString(true))
                                                                .trustedKeyGroups(b3 -> b3
                                                                                .quantity(1)
                                                                                .items(keyGroupId)
                                                                                .enabled(true))
                                                                .allowedMethods(b4 -> b4
                                                                                .quantity(2)
                                                                                .items(Method.HEAD, Method.GET)
                                                                                .cachedMethods(b5 -> b5
                                                                                                .quantity(2)
                                                                                                .items(Method.HEAD,
                                                                                                                Method.GET))))
                                                .cacheBehaviors(b -> b
                                                                .quantity(1)
                                                                .items(b2 -> b2
                                                                                .pathPattern("/index.html")
                                                                                .viewerProtocolPolicy(
                                                                                                ViewerProtocolPolicy.ALLOW_ALL)
                                                                                .targetOriginId(originId)
                                                                                .trustedKeyGroups(b3 -> b3
                                                                                                .quantity(1)
                                                                                                .items(keyGroupId)
                                                                                                .enabled(true))
                                                                                .minTTL(200L)
                                                                                .forwardedValues(b4 -> b4
                                                                                                .cookies(cp -> cp
                                                                                                                .forward(ItemSelection.NONE))
                                                                                                .queryString(true))
                                                                                .allowedMethods(b5 -> b5.quantity(2)
                                                                                                .items(Method.HEAD,
                                                                                                                Method.GET)
                                                                                                .cachedMethods(b6 -> b6
                                                                                                                .quantity(2)
                                                                                                                .items(Method.HEAD,
                                                                                                                                Method.GET)))))
                                                .enabled(true)
                                                .comment("Distribution built with java")
                                                .callerReference(Instant.now().toString())));

                final Distribution distribution = createDistResponse.distribution();
                logger.info("Distribution created. DomainName: [{}]  Id: [{}]", distribution.domainName(),
                                distribution.id());
                logger.info("Waiting for distribution to be deployed ...");
                try (CloudFrontWaiter cfWaiter = CloudFrontWaiter.builder().client(cloudFrontClient).build()) {
                        ResponseOrException<GetDistributionResponse> responseOrException = cfWaiter
                                        .waitUntilDistributionDeployed(builder -> builder.id(distribution.id()))
                                        .matched();
                        responseOrException.response()
                                        .orElseThrow(() -> new RuntimeException("Distribution not created"));
                        logger.info("Distribution deployed. DomainName: [{}]  Id: [{}]", distribution.domainName(),
                                        distribution.id());
                }
                return distribution;
        }
}
```
+  Untuk detail API, lihat [CreateDistribution](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/CreateDistribution)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateFunction`
<a name="cloudfront_CreateFunction_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.CloudFrontException;
import software.amazon.awssdk.services.cloudfront.model.CreateFunctionRequest;
import software.amazon.awssdk.services.cloudfront.model.CreateFunctionResponse;
import software.amazon.awssdk.services.cloudfront.model.FunctionConfig;
import software.amazon.awssdk.services.cloudfront.model.FunctionRuntime;
import java.io.InputStream;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateFunction {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <functionName> <filePath>

                Where:
                    functionName - The name of the function to create.\s
                    filePath - The path to a file that contains the application logic for the function.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String functionName = args[0];
        String filePath = args[1];
        CloudFrontClient cloudFrontClient = CloudFrontClient.builder()
                .region(Region.AWS_GLOBAL)
                .build();

        String funArn = createNewFunction(cloudFrontClient, functionName, filePath);
        System.out.println("The function ARN is " + funArn);
        cloudFrontClient.close();
    }

    public static String createNewFunction(CloudFrontClient cloudFrontClient, String functionName, String filePath) {
        try {
            InputStream fileIs = CreateFunction.class.getClassLoader().getResourceAsStream(filePath);
            SdkBytes functionCode = SdkBytes.fromInputStream(fileIs);

            FunctionConfig config = FunctionConfig.builder()
                    .comment("Created by using the CloudFront Java API")
                    .runtime(FunctionRuntime.CLOUDFRONT_JS_1_0)
                    .build();

            CreateFunctionRequest functionRequest = CreateFunctionRequest.builder()
                    .name(functionName)
                    .functionCode(functionCode)
                    .functionConfig(config)
                    .build();

            CreateFunctionResponse response = cloudFrontClient.createFunction(functionRequest);
            return response.functionSummary().functionMetadata().functionARN();

        } catch (CloudFrontException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/CreateFunction)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateKeyGroup`
<a name="cloudfront_CreateKeyGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 
Grup kunci memerlukan setidaknya satu kunci publik yang digunakan untuk memverifikasi tanda tangan URLs atau cookie.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;

import java.util.UUID;

public class CreateKeyGroup {
    private static final Logger logger = LoggerFactory.getLogger(CreateKeyGroup.class);

    public static String createKeyGroup(CloudFrontClient cloudFrontClient, String publicKeyId) {
        String keyGroupId = cloudFrontClient.createKeyGroup(b -> b.keyGroupConfig(c -> c
                .items(publicKeyId)
                .name("JavaKeyGroup" + UUID.randomUUID())))
                .keyGroup().id();
        logger.info("KeyGroup created with ID: [{}]", keyGroupId);
        return keyGroupId;
    }
}
```
+  Untuk detail API, lihat [CreateKeyGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/CreateKeyGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `CreatePublicKey`
<a name="cloudfront_CreatePublicKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePublicKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 
Contoh kode berikut dibaca dalam kunci publik dan mengunggahnya ke Amazon CloudFront.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.CreatePublicKeyResponse;
import software.amazon.awssdk.utils.IoUtils;

import java.io.IOException;
import java.io.InputStream;
import java.util.UUID;

public class CreatePublicKey {
    private static final Logger logger = LoggerFactory.getLogger(CreatePublicKey.class);

    public static String createPublicKey(CloudFrontClient cloudFrontClient, String publicKeyFileName) {
        try (InputStream is = CreatePublicKey.class.getClassLoader().getResourceAsStream(publicKeyFileName)) {
            String publicKeyString = IoUtils.toUtf8String(is);
            CreatePublicKeyResponse createPublicKeyResponse = cloudFrontClient
                    .createPublicKey(b -> b.publicKeyConfig(c -> c
                            .name("JavaCreatedPublicKey" + UUID.randomUUID())
                            .encodedKey(publicKeyString)
                            .callerReference(UUID.randomUUID().toString())));
            String createdPublicKeyId = createPublicKeyResponse.publicKey().id();
            logger.info("Public key created with id: [{}]", createdPublicKeyId);
            return createdPublicKeyId;

        } catch (IOException e) {
            throw new RuntimeException(e);
        }
    }
}
```
+  Untuk detail API, lihat [CreatePublicKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/CreatePublicKey)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDistribution`
<a name="cloudfront_DeleteDistribution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDistribution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 
Contoh kode berikut memperbarui distribusi ke *dinonaktifkan*, menggunakan pelayan yang menunggu perubahan diterapkan, lalu menghapus distribusi.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.internal.waiters.ResponseOrException;
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.DeleteDistributionResponse;
import software.amazon.awssdk.services.cloudfront.model.DistributionConfig;
import software.amazon.awssdk.services.cloudfront.model.GetDistributionResponse;
import software.amazon.awssdk.services.cloudfront.waiters.CloudFrontWaiter;

public class DeleteDistribution {
        private static final Logger logger = LoggerFactory.getLogger(DeleteDistribution.class);

        public static void deleteDistribution(final CloudFrontClient cloudFrontClient, final String distributionId) {
                // First, disable the distribution by updating it.
                GetDistributionResponse response = cloudFrontClient.getDistribution(b -> b
                                .id(distributionId));
                String etag = response.eTag();
                DistributionConfig distConfig = response.distribution().distributionConfig();

                cloudFrontClient.updateDistribution(builder -> builder
                                .id(distributionId)
                                .distributionConfig(builder1 -> builder1
                                                .cacheBehaviors(distConfig.cacheBehaviors())
                                                .defaultCacheBehavior(distConfig.defaultCacheBehavior())
                                                .enabled(false)
                                                .origins(distConfig.origins())
                                                .comment(distConfig.comment())
                                                .callerReference(distConfig.callerReference())
                                                .defaultCacheBehavior(distConfig.defaultCacheBehavior())
                                                .priceClass(distConfig.priceClass())
                                                .aliases(distConfig.aliases())
                                                .logging(distConfig.logging())
                                                .defaultRootObject(distConfig.defaultRootObject())
                                                .customErrorResponses(distConfig.customErrorResponses())
                                                .httpVersion(distConfig.httpVersion())
                                                .isIPV6Enabled(distConfig.isIPV6Enabled())
                                                .restrictions(distConfig.restrictions())
                                                .viewerCertificate(distConfig.viewerCertificate())
                                                .webACLId(distConfig.webACLId())
                                                .originGroups(distConfig.originGroups()))
                                .ifMatch(etag));

                logger.info("Distribution [{}] is DISABLED, waiting for deployment before deleting ...",
                                distributionId);
                GetDistributionResponse distributionResponse;
                try (CloudFrontWaiter cfWaiter = CloudFrontWaiter.builder().client(cloudFrontClient).build()) {
                        ResponseOrException<GetDistributionResponse> responseOrException = cfWaiter
                                        .waitUntilDistributionDeployed(builder -> builder.id(distributionId)).matched();
                        distributionResponse = responseOrException.response()
                                        .orElseThrow(() -> new RuntimeException("Could not disable distribution"));
                }

                DeleteDistributionResponse deleteDistributionResponse = cloudFrontClient
                                .deleteDistribution(builder -> builder
                                                .id(distributionId)
                                                .ifMatch(distributionResponse.eTag()));
                if (deleteDistributionResponse.sdkHttpResponse().isSuccessful()) {
                        logger.info("Distribution [{}] DELETED", distributionId);
                }
        }
}
```
+  Untuk detail API, lihat [DeleteDistribution](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/DeleteDistribution)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateDistribution`
<a name="cloudfront_UpdateDistribution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateDistribution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.GetDistributionRequest;
import software.amazon.awssdk.services.cloudfront.model.GetDistributionResponse;
import software.amazon.awssdk.services.cloudfront.model.Distribution;
import software.amazon.awssdk.services.cloudfront.model.DistributionConfig;
import software.amazon.awssdk.services.cloudfront.model.UpdateDistributionRequest;
import software.amazon.awssdk.services.cloudfront.model.CloudFrontException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ModifyDistribution {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <id>\s

                Where:
                    id - the id value of the distribution.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String id = args[0];
        CloudFrontClient cloudFrontClient = CloudFrontClient.builder()
                .region(Region.AWS_GLOBAL)
                .build();

        modDistribution(cloudFrontClient, id);
        cloudFrontClient.close();
    }

    public static void modDistribution(CloudFrontClient cloudFrontClient, String idVal) {
        try {
            // Get the Distribution to modify.
            GetDistributionRequest disRequest = GetDistributionRequest.builder()
                    .id(idVal)
                    .build();

            GetDistributionResponse response = cloudFrontClient.getDistribution(disRequest);
            Distribution disObject = response.distribution();
            DistributionConfig config = disObject.distributionConfig();

            // Create a new DistributionConfig object and add new values to comment and
            // aliases
            DistributionConfig config1 = DistributionConfig.builder()
                    .aliases(config.aliases()) // You can pass in new values here
                    .comment("New Comment")
                    .cacheBehaviors(config.cacheBehaviors())
                    .priceClass(config.priceClass())
                    .defaultCacheBehavior(config.defaultCacheBehavior())
                    .enabled(config.enabled())
                    .callerReference(config.callerReference())
                    .logging(config.logging())
                    .originGroups(config.originGroups())
                    .origins(config.origins())
                    .restrictions(config.restrictions())
                    .defaultRootObject(config.defaultRootObject())
                    .webACLId(config.webACLId())
                    .httpVersion(config.httpVersion())
                    .viewerCertificate(config.viewerCertificate())
                    .customErrorResponses(config.customErrorResponses())
                    .build();

            UpdateDistributionRequest updateDistributionRequest = UpdateDistributionRequest.builder()
                    .distributionConfig(config1)
                    .id(disObject.id())
                    .ifMatch(response.eTag())
                    .build();

            cloudFrontClient.updateDistribution(updateDistributionRequest);

        } catch (CloudFrontException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [UpdateDistribution](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/UpdateDistribution)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Buat penyewa distribusi dan distribusi multi-tenant
<a name="cloudfront_CreateSaasResources_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat distribusi multi-tenant dan penyewa distribusi dengan berbagai konfigurasi.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 
Contoh berikut menunjukkan cara membuat distribusi multi-tenant dengan parameter dan sertifikat wildcard.  

```
import software.amazon.awssdk.core.internal.waiters.ResponseOrException;
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.ConnectionMode;
import software.amazon.awssdk.services.cloudfront.model.CreateDistributionResponse;
import software.amazon.awssdk.services.cloudfront.model.Distribution;
import software.amazon.awssdk.services.cloudfront.model.GetDistributionResponse;
import software.amazon.awssdk.services.cloudfront.model.HttpVersion;
import software.amazon.awssdk.services.cloudfront.model.Method;
import software.amazon.awssdk.services.cloudfront.model.SSLSupportMethod;
import software.amazon.awssdk.services.cloudfront.model.ViewerProtocolPolicy;
import software.amazon.awssdk.services.cloudfront.waiters.CloudFrontWaiter;
import software.amazon.awssdk.services.s3.S3Client;

import java.time.Instant;

public class CreateMultiTenantDistribution {
    public static Distribution CreateMultiTenantDistributionWithCert(CloudFrontClient cloudFrontClient,
                                                                     S3Client s3Client,
                                                                     final String bucketName,
                                                                     final String certificateArn) {
        // fetch the origin info if necessary
        final String region = s3Client.headBucket(b -> b.bucket(bucketName)).sdkHttpResponse().headers()
                .get("x-amz-bucket-region").get(0);
        final String originDomain = bucketName + ".s3." + region + ".amazonaws.com";
        String originId = originDomain; // Use the originDomain value for the originId.

        CreateDistributionResponse createDistResponse = cloudFrontClient.createDistribution(builder -> builder
                .distributionConfig(b1 -> b1
                        .httpVersion(HttpVersion.HTTP2)
                        .enabled(true)
                        .comment("Template Distribution with cert built with java")
                        .connectionMode(ConnectionMode.TENANT_ONLY)
                        .callerReference(Instant.now().toString())
                        .viewerCertificate(certBuilder -> certBuilder
                                .acmCertificateArn(certificateArn)
                                .sslSupportMethod(SSLSupportMethod.SNI_ONLY))
                        .origins(b2 -> b2
                                .quantity(1)
                                .items(b3 -> b3
                                        .domainName(originDomain)
                                        .id(originId)
                                        .originPath("/{{tenantName}}")
                                        .s3OriginConfig(builder4 -> builder4
                                                .originAccessIdentity(
                                                        ""))))
                        .tenantConfig(b5 -> b5
                                .parameterDefinitions(b6 -> b6
                                        .name("tenantName")
                                        .definition(b7 -> b7
                                                .stringSchema(b8 -> b8
                                                        .comment("tenantName value")
                                                        .defaultValue("root")
                                                        .required(false)))))
                        .defaultCacheBehavior(b2 -> b2
                                .viewerProtocolPolicy(ViewerProtocolPolicy.ALLOW_ALL)
                                .targetOriginId(originId)
                                .cachePolicyId("658327ea-f89d-4fab-a63d-7e88639e58f6") // CachingOptimized Policy
                                .allowedMethods(b4 -> b4
                                        .quantity(2)
                                        .items(Method.HEAD, Method.GET)))
                ));

        final Distribution distribution = createDistResponse.distribution();
        try (CloudFrontWaiter cfWaiter = CloudFrontWaiter.builder().client(cloudFrontClient).build()) {
            ResponseOrException<GetDistributionResponse> responseOrException = cfWaiter
                    .waitUntilDistributionDeployed(builder -> builder.id(distribution.id()))
                    .matched();
            responseOrException.response()
                    .orElseThrow(() -> new RuntimeException("Distribution not created"));
        }
        return distribution;
    }

    public static Distribution CreateMultiTenantDistributionNoCert(CloudFrontClient cloudFrontClient,
                                                             S3Client s3Client,
                                                             final String bucketName) {
        // fetch the origin info if necessary
        final String region = s3Client.headBucket(b -> b.bucket(bucketName)).sdkHttpResponse().headers()
                .get("x-amz-bucket-region").get(0);
        final String originDomain = bucketName + ".s3." + region + ".amazonaws.com";
        String originId = originDomain; // Use the originDomain value for the originId.

        CreateDistributionResponse createDistResponse = cloudFrontClient.createDistribution(builder -> builder
                .distributionConfig(b1 -> b1
                        .httpVersion(HttpVersion.HTTP2)
                        .enabled(true)
                        .comment("Template Distribution with cert built with java")
                        .connectionMode(ConnectionMode.TENANT_ONLY)
                        .callerReference(Instant.now().toString())
                        .origins(b2 -> b2
                                .quantity(1)
                                .items(b3 -> b3
                                        .domainName(originDomain)
                                        .id(originId)
                                        .originPath("/{{tenantName}}")
                                        .s3OriginConfig(builder4 -> builder4
                                                .originAccessIdentity(
                                                        ""))))
                        .tenantConfig(b5 -> b5
                                .parameterDefinitions(b6 -> b6
                                        .name("tenantName")
                                        .definition(b7 -> b7
                                                .stringSchema(b8 -> b8
                                                        .comment("tenantName value")
                                                        .defaultValue("root")
                                                        .required(false)))))
                        .defaultCacheBehavior(b2 -> b2
                                .viewerProtocolPolicy(ViewerProtocolPolicy.ALLOW_ALL)
                                .targetOriginId(originId)
                                .cachePolicyId("658327ea-f89d-4fab-a63d-7e88639e58f6") // CachingOptimized Policy
                                .allowedMethods(b4 -> b4
                                        .quantity(2)
                                        .items(Method.HEAD, Method.GET)))
                ));

        final Distribution distribution = createDistResponse.distribution();
        try (CloudFrontWaiter cfWaiter = CloudFrontWaiter.builder().client(cloudFrontClient).build()) {
            ResponseOrException<GetDistributionResponse> responseOrException = cfWaiter
                    .waitUntilDistributionDeployed(builder -> builder.id(distribution.id()))
                    .matched();
            responseOrException.response()
                    .orElseThrow(() -> new RuntimeException("Distribution not created"));
        }
        return distribution;
    }
}
```
Contoh berikut menunjukkan cara membuat penyewa distribusi yang terkait dengan template itu, termasuk memanfaatkan parameter yang kami nyatakan di atas. Perhatikan bahwa kita tidak perlu menambahkan info sertifikat di sini karena domain kita sudah dicakup oleh template induk.  

```
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.CreateConnectionGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.CreateDistributionTenantResponse;
import software.amazon.awssdk.services.cloudfront.model.DistributionTenant;
import software.amazon.awssdk.services.cloudfront.model.GetConnectionGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.ValidationTokenHost;
import software.amazon.awssdk.services.route53.Route53Client;
import software.amazon.awssdk.services.route53.model.RRType;

import java.time.Instant;

public class CreateDistributionTenant {

    public static DistributionTenant createDistributionTenantNoCert(CloudFrontClient cloudFrontClient,
                                                                    Route53Client route53Client,
                                                                    String distributionId,
                                                                    String domain,
                                                                    String hostedZoneId) {
        CreateDistributionTenantResponse createResponse = cloudFrontClient.createDistributionTenant(builder -> builder
                .distributionId(distributionId)
                .domains(b1 -> b1
                        .domain(domain))
                .parameters(b2 -> b2
                        .name("tenantName")
                        .value("myTenant"))
                .enabled(false)
                .name("no-cert-tenant")
        );

        final DistributionTenant distributionTenant = createResponse.distributionTenant();

        // Then update the Route53 hosted zone to point your domain at the distribution tenant
        // We fetch the RoutingEndpoint to point to via the default connection group that was created for your tenant
        final GetConnectionGroupResponse fetchedConnectionGroup = cloudFrontClient.getConnectionGroup(builder -> builder
                .identifier(distributionTenant.connectionGroupId()));

        route53Client.changeResourceRecordSets(builder -> builder
                .hostedZoneId(hostedZoneId)
                .changeBatch(b1 -> b1
                        .comment("ChangeBatch comment")
                        .changes(b2 -> b2
                                .resourceRecordSet(b3 -> b3
                                        .name(domain)
                                        .type("CNAME")
                                        .ttl(300L)
                                        .resourceRecords(b4 -> b4
                                                .value(fetchedConnectionGroup.connectionGroup().routingEndpoint())))
                                .action("CREATE"))
                ));
        return distributionTenant;
    }

}
```
Jika sertifikat penampil dihilangkan dari templat induk, Anda perlu menambahkan info sertifikat pada penyewa yang terkait dengannya. Contoh berikut menunjukkan bagaimana melakukannya melalui sertifikat ACM arn yang mencakup domain yang diperlukan untuk penyewa.  

```
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.CreateConnectionGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.CreateDistributionTenantResponse;
import software.amazon.awssdk.services.cloudfront.model.DistributionTenant;
import software.amazon.awssdk.services.cloudfront.model.GetConnectionGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.ValidationTokenHost;
import software.amazon.awssdk.services.route53.Route53Client;
import software.amazon.awssdk.services.route53.model.RRType;

import java.time.Instant;

public class CreateDistributionTenant {

    public static DistributionTenant createDistributionTenantWithCert(CloudFrontClient cloudFrontClient,
                                                                      Route53Client route53Client,
                                                                      String distributionId,
                                                                      String domain,
                                                                      String hostedZoneId,
                                                                      String certificateArn) {
        CreateDistributionTenantResponse createResponse = cloudFrontClient.createDistributionTenant(builder -> builder
                .distributionId(distributionId)
                .domains(b1 -> b1
                        .domain(domain))
                .enabled(false)
                .name("tenant-with-cert")
                .parameters(b2 -> b2
                        .name("tenantName")
                        .value("myTenant"))
                .customizations(b3 -> b3
                        .certificate(b4 -> b4
                                .arn(certificateArn))) // NOTE: Cert must be in Us-East-1 and cover the domain provided in this request

        );

        final DistributionTenant distributionTenant = createResponse.distributionTenant();

        // Then update the Route53 hosted zone to point your domain at the distribution tenant
        // We fetch the RoutingEndpoint to point to via the default connection group that was created for your tenant
        final GetConnectionGroupResponse fetchedConnectionGroup = cloudFrontClient.getConnectionGroup(builder -> builder
                .identifier(distributionTenant.connectionGroupId()));

        route53Client.changeResourceRecordSets(builder -> builder
                .hostedZoneId(hostedZoneId)
                .changeBatch(b1 -> b1
                        .comment("ChangeBatch comment")
                        .changes(b2 -> b2
                                .resourceRecordSet(b3 -> b3
                                        .name(domain)
                                        .type("CNAME")
                                        .ttl(300L)
                                        .resourceRecords(b4 -> b4
                                                .value(fetchedConnectionGroup.connectionGroup().routingEndpoint())))
                                .action("CREATE"))
                ));
        return distributionTenant;
    }

}
```
Contoh berikut menunjukkan cara melakukannya dengan permintaan sertifikat terkelola CloudFront -host. Ini sangat ideal jika Anda belum memiliki lalu lintas ke domain Anda. Dalam hal ini, kami membuat ConnectionGroup untuk menghasilkan a RoutingEndpoint. Kemudian kami menggunakannya RoutingEndpoint untuk membuat catatan DNS yang memverifikasi kepemilikan domain dan menunjuk ke CloudFront. CloudFront kemudian akan secara otomatis menyajikan token untuk memvalidasi kepemilikan domain dan membuat sertifikat terkelola.  

```
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.CreateConnectionGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.CreateDistributionTenantResponse;
import software.amazon.awssdk.services.cloudfront.model.DistributionTenant;
import software.amazon.awssdk.services.cloudfront.model.GetConnectionGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.ValidationTokenHost;
import software.amazon.awssdk.services.route53.Route53Client;
import software.amazon.awssdk.services.route53.model.RRType;

import java.time.Instant;

public class CreateDistributionTenant {

    public static DistributionTenant createDistributionTenantCfHosted(CloudFrontClient cloudFrontClient,
                                                                      Route53Client route53Client,
                                                                      String distributionId,
                                                                      String domain,
                                                                      String hostedZoneId) throws InterruptedException {
        CreateConnectionGroupResponse createConnectionGroupResponse = cloudFrontClient.createConnectionGroup(builder -> builder
                .ipv6Enabled(true)
                .name("cf-hosted-connection-group")
                .enabled(true));

        route53Client.changeResourceRecordSets(builder -> builder
                .hostedZoneId(hostedZoneId)
                .changeBatch(b1 -> b1
                        .comment("cf-hosted domain validation record")
                        .changes(b2 -> b2
                                .resourceRecordSet(b3 -> b3
                                        .name(domain)
                                        .type(RRType.CNAME)
                                        .ttl(300L)
                                        .resourceRecords(b4 -> b4
                                                .value(createConnectionGroupResponse.connectionGroup().routingEndpoint())))
                                .action("CREATE"))
                ));

        // Give the R53 record time to propagate, if it isn't being returned by servers yet, the following call will fail
        Thread.sleep(60000);

        CreateDistributionTenantResponse createResponse = cloudFrontClient.createDistributionTenant(builder -> builder
                .distributionId(distributionId)
                .domains(b1 -> b1
                        .domain(domain))
                .connectionGroupId(createConnectionGroupResponse.connectionGroup().id())
                .enabled(false)
                .name("cf-hosted-tenant")
                .parameters(b2 -> b2
                        .name("tenantName")
                        .value("myTenant"))
                .managedCertificateRequest(b3 -> b3
                        .validationTokenHost(ValidationTokenHost.CLOUDFRONT)
                )
        );

        return createResponse.distributionTenant();
    }

}
```
Contoh berikut menunjukkan cara melakukannya dengan permintaan sertifikat terkelola yang dihosting sendiri. Ini sangat ideal jika Anda memiliki lalu lintas ke domain Anda dan tidak dapat mentolerir downtime selama migrasi. Pada akhir contoh ini, Penyewa akan dibuat dalam keadaan menunggu validasi domain dan penyiapan DNS. Ikuti langkah-langkah [di sini] (https://docs.aws.amazon.com/AmazonCloudFront/latest/DeveloperGuide/managed-cloudfront-certificates.html\$1complete-domain-ownership) untuk menyelesaikan penyiapan saat Anda siap untuk memigrasikan lalu lintas.  

```
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.CreateConnectionGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.CreateDistributionTenantResponse;
import software.amazon.awssdk.services.cloudfront.model.DistributionTenant;
import software.amazon.awssdk.services.cloudfront.model.GetConnectionGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.ValidationTokenHost;
import software.amazon.awssdk.services.route53.Route53Client;
import software.amazon.awssdk.services.route53.model.RRType;

import java.time.Instant;

public class CreateDistributionTenant {

    public static DistributionTenant createDistributionTenantSelfHosted(CloudFrontClient cloudFrontClient,
                                                                        String distributionId,
                                                                        String domain) {
        CreateDistributionTenantResponse createResponse = cloudFrontClient.createDistributionTenant(builder -> builder
                .distributionId(distributionId)
                .domains(b1 -> b1
                        .domain(domain))
                .parameters(b2 -> b2
                        .name("tenantName")
                        .value("myTenant"))
                .enabled(false)
                .name("self-hosted-tenant")
                .managedCertificateRequest(b3 -> b3
                        .validationTokenHost(ValidationTokenHost.SELF_HOSTED)
                        .primaryDomainName(domain)
                )
        );

        return createResponse.distributionTenant();
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateDistribution](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/CreateDistribution)
  + [CreateDistributionTenant](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/CreateDistributionTenant)

### Hapus sumber penandatanganan
<a name="cloudfront_DeleteSigningResources_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menghapus sumber daya yang digunakan untuk mendapatkan akses ke konten terbatas di bucket Amazon Simple Storage Service (Amazon S3).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.cloudfront.CloudFrontClient;
import software.amazon.awssdk.services.cloudfront.model.DeleteKeyGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.DeleteOriginAccessControlResponse;
import software.amazon.awssdk.services.cloudfront.model.DeletePublicKeyResponse;
import software.amazon.awssdk.services.cloudfront.model.GetKeyGroupResponse;
import software.amazon.awssdk.services.cloudfront.model.GetOriginAccessControlResponse;
import software.amazon.awssdk.services.cloudfront.model.GetPublicKeyResponse;

public class DeleteSigningResources {
    private static final Logger logger = LoggerFactory.getLogger(DeleteSigningResources.class);

    public static void deleteOriginAccessControl(final CloudFrontClient cloudFrontClient,
            final String originAccessControlId) {
        GetOriginAccessControlResponse getResponse = cloudFrontClient
                .getOriginAccessControl(b -> b.id(originAccessControlId));
        DeleteOriginAccessControlResponse deleteResponse = cloudFrontClient.deleteOriginAccessControl(builder -> builder
                .id(originAccessControlId)
                .ifMatch(getResponse.eTag()));
        if (deleteResponse.sdkHttpResponse().isSuccessful()) {
            logger.info("Successfully deleted Origin Access Control [{}]", originAccessControlId);
        }
    }

    public static void deleteKeyGroup(final CloudFrontClient cloudFrontClient, final String keyGroupId) {

        GetKeyGroupResponse getResponse = cloudFrontClient.getKeyGroup(b -> b.id(keyGroupId));
        DeleteKeyGroupResponse deleteResponse = cloudFrontClient.deleteKeyGroup(builder -> builder
                .id(keyGroupId)
                .ifMatch(getResponse.eTag()));
        if (deleteResponse.sdkHttpResponse().isSuccessful()) {
            logger.info("Successfully deleted Key Group [{}]", keyGroupId);
        }
    }

    public static void deletePublicKey(final CloudFrontClient cloudFrontClient, final String publicKeyId) {
        GetPublicKeyResponse getResponse = cloudFrontClient.getPublicKey(b -> b.id(publicKeyId));

        DeletePublicKeyResponse deleteResponse = cloudFrontClient.deletePublicKey(builder -> builder
                .id(publicKeyId)
                .ifMatch(getResponse.eTag()));

        if (deleteResponse.sdkHttpResponse().isSuccessful()) {
            logger.info("Successfully deleted Public Key [{}]", publicKeyId);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [DeleteKeyGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/DeleteKeyGroup)
  + [DeleteOriginAccessControl](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/DeleteOriginAccessControl)
  + [DeletePublicKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/DeletePublicKey)

### Tanda tangan URLs dan cookie
<a name="cloudfront_CloudFrontUtilities_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat ditandatangani URLs dan cookie yang memungkinkan akses ke sumber daya terbatas.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudfront#code-examples). 
Gunakan [CannedSignerRequest](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/cloudfront/model/CannedSignerRequest.html)kelas untuk menandatangani URLs atau cookie dengan kebijakan *kalengan*.  

```
import software.amazon.awssdk.services.cloudfront.model.CannedSignerRequest;

import java.net.URL;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.time.Instant;
import java.time.temporal.ChronoUnit;

public class CreateCannedPolicyRequest {

    public static CannedSignerRequest createRequestForCannedPolicy(String distributionDomainName,
            String fileNameToUpload,
            String privateKeyFullPath, String publicKeyId) throws Exception {
        String protocol = "https";
        String resourcePath = "/" + fileNameToUpload;

        String cloudFrontUrl = new URL(protocol, distributionDomainName, resourcePath).toString();
        Instant expirationDate = Instant.now().plus(7, ChronoUnit.DAYS);
        Path path = Paths.get(privateKeyFullPath);

        return CannedSignerRequest.builder()
                .resourceUrl(cloudFrontUrl)
                .privateKey(path)
                .keyPairId(publicKeyId)
                .expirationDate(expirationDate)
                .build();
    }
}
```
Gunakan [CustomSignerRequest](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/cloudfront/model/CustomSignerRequest.html)kelas untuk menandatangani URLs atau cookie dengan kebijakan *khusus*. Metode `activeDate` dan `ipRange` merupakan metode opsional.  

```
import software.amazon.awssdk.services.cloudfront.model.CustomSignerRequest;

import java.net.URL;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.time.Instant;
import java.time.temporal.ChronoUnit;

public class CreateCustomPolicyRequest {

    public static CustomSignerRequest createRequestForCustomPolicy(String distributionDomainName,
            String fileNameToUpload,
            String privateKeyFullPath, String publicKeyId) throws Exception {
        String protocol = "https";
        String resourcePath = "/" + fileNameToUpload;

        String cloudFrontUrl = new URL(protocol, distributionDomainName, resourcePath).toString();
        Instant expireDate = Instant.now().plus(7, ChronoUnit.DAYS);
        // URL will be accessible tomorrow using the signed URL.
        Instant activeDate = Instant.now().plus(1, ChronoUnit.DAYS);
        Path path = Paths.get(privateKeyFullPath);

        return CustomSignerRequest.builder()
                .resourceUrl(cloudFrontUrl)
                // .resourceUrlPattern("https://*.example.com/*")  // Optional.
                .privateKey(path)
                .keyPairId(publicKeyId)
                .expirationDate(expireDate)
                .activeDate(activeDate) // Optional.
                // .ipRange("192.168.0.1/24") // Optional.
                .build();
    }
}
```
Contoh berikut menunjukkan penggunaan [CloudFrontUtilities](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/cloudfront/CloudFrontUtilities.html)kelas untuk menghasilkan cookie yang ditandatangani dan URLs. [Lihat](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/cloudfront/src/main/java/com/example/cloudfront/SigningUtilities.java) contoh kode ini di GitHub.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.cloudfront.CloudFrontUtilities;
import software.amazon.awssdk.services.cloudfront.cookie.CookiesForCannedPolicy;
import software.amazon.awssdk.services.cloudfront.cookie.CookiesForCustomPolicy;
import software.amazon.awssdk.services.cloudfront.model.CannedSignerRequest;
import software.amazon.awssdk.services.cloudfront.model.CustomSignerRequest;
import software.amazon.awssdk.services.cloudfront.url.SignedUrl;

public class SigningUtilities {
    private static final Logger logger = LoggerFactory.getLogger(SigningUtilities.class);
    private static final CloudFrontUtilities cloudFrontUtilities = CloudFrontUtilities.create();

    public static SignedUrl signUrlForCannedPolicy(CannedSignerRequest cannedSignerRequest) {
        SignedUrl signedUrl = cloudFrontUtilities.getSignedUrlWithCannedPolicy(cannedSignerRequest);
        logger.info("Signed URL: [{}]", signedUrl.url());
        return signedUrl;
    }

    public static SignedUrl signUrlForCustomPolicy(CustomSignerRequest customSignerRequest) {
        SignedUrl signedUrl = cloudFrontUtilities.getSignedUrlWithCustomPolicy(customSignerRequest);
        logger.info("Signed URL: [{}]", signedUrl.url());
        return signedUrl;
    }

    public static CookiesForCannedPolicy getCookiesForCannedPolicy(CannedSignerRequest cannedSignerRequest) {
        CookiesForCannedPolicy cookiesForCannedPolicy = cloudFrontUtilities
                .getCookiesForCannedPolicy(cannedSignerRequest);
        logger.info("Cookie EXPIRES header [{}]", cookiesForCannedPolicy.expiresHeaderValue());
        logger.info("Cookie KEYPAIR header [{}]", cookiesForCannedPolicy.keyPairIdHeaderValue());
        logger.info("Cookie SIGNATURE header [{}]", cookiesForCannedPolicy.signatureHeaderValue());
        return cookiesForCannedPolicy;
    }

    public static CookiesForCustomPolicy getCookiesForCustomPolicy(CustomSignerRequest customSignerRequest) {
        CookiesForCustomPolicy cookiesForCustomPolicy = cloudFrontUtilities
                .getCookiesForCustomPolicy(customSignerRequest);
        logger.info("Cookie POLICY header [{}]", cookiesForCustomPolicy.policyHeaderValue());
        logger.info("Cookie KEYPAIR header [{}]", cookiesForCustomPolicy.keyPairIdHeaderValue());
        logger.info("Cookie SIGNATURE header [{}]", cookiesForCustomPolicy.signatureHeaderValue());
        return cookiesForCustomPolicy;
    }
}
```
+  Untuk detail API, lihat [CloudFrontUtilities](https://docs.aws.amazon.com/goto/SdkForJavaV2/cloudfront-2020-05-31/CloudFrontUtilities)di *Referensi AWS SDK for Java 2.x API*. 

# CloudWatch contoh menggunakan SDK for Java 2.x
<a name="java_2_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with CloudWatch.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo CloudWatch
<a name="cloudwatch_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan CloudWatch.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cloudwatch.CloudWatchClient;
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatch.model.ListMetricsRequest;
import software.amazon.awssdk.services.cloudwatch.paginators.ListMetricsIterable;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloService {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <namespace>\s

                Where:
                  namespace - The namespace to filter against (for example, AWS/EC2).\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String namespace = args[0];
        Region region = Region.US_EAST_1;
        CloudWatchClient cw = CloudWatchClient.builder()
                .region(region)
                .build();

        listMets(cw, namespace);
        cw.close();
    }

    public static void listMets(CloudWatchClient cw, String namespace) {
        try {
            ListMetricsRequest request = ListMetricsRequest.builder()
                    .namespace(namespace)
                    .build();

            ListMetricsIterable listRes = cw.listMetricsPaginator(request);
            listRes.stream()
                    .flatMap(r -> r.metrics().stream())
                    .forEach(metrics -> System.out.println(" Retrieved metric is: " + metrics.metricName()));

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/ListMetrics)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="cloudwatch_GetStartedMetricsDashboardsAlarms_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat daftar CloudWatch ruang nama dan metrik.
+ Ambil statistik untuk metrik dan estimasi penagihan.
+ Membuat dan memperbarui sebuah dasbor.
+ Membuat dan menambahkan data ke metrik.
+ Membuat dan memicu alarm, lalu lihat riwayat alarm.
+ Menambahkan detektor anomali.
+ Ambil gambar metrik, lalu bersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 
Jalankan skenario interaktif yang menunjukkan CloudWatch fitur.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatch.model.DashboardInvalidInputErrorException;
import software.amazon.awssdk.services.cloudwatch.model.DeleteAlarmsResponse;
import software.amazon.awssdk.services.cloudwatch.model.DeleteAnomalyDetectorResponse;
import software.amazon.awssdk.services.cloudwatch.model.DeleteDashboardsResponse;
import software.amazon.awssdk.services.cloudwatch.model.Dimension;
import software.amazon.awssdk.services.cloudwatch.model.GetMetricStatisticsResponse;
import software.amazon.awssdk.services.cloudwatch.model.LimitExceededException;
import software.amazon.awssdk.services.cloudwatch.model.PutDashboardResponse;
import software.amazon.awssdk.services.cloudwatch.model.PutMetricDataResponse;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Scanner;
import java.util.concurrent.CompletableFuture;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * To enable billing metrics and statistics for this example, make sure billing
 * alerts are enabled for your account:
 * https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/monitor_estimated_charges_with_cloudwatch.html#turning_on_billing_metrics
 *
 * This Java code example performs the following tasks:
 *
 * 1. List available namespaces from Amazon CloudWatch.
 * 2. List available metrics within the selected Namespace.
 * 3. Get statistics for the selected metric over the last day.
 * 4. Get CloudWatch estimated billing for the last week.
 * 5. Create a new CloudWatch dashboard with metrics.
 * 6. List dashboards using a paginator.
 * 7. Create a new custom metric by adding data for it.
 * 8. Add the custom metric to the dashboard.
 * 9. Create an alarm for the custom metric.
 * 10. Describe current alarms.
 * 11. Get current data for the new custom metric.
 * 12. Push data into the custom metric to trigger the alarm.
 * 13. Check the alarm state using the action DescribeAlarmsForMetric.
 * 14. Get alarm history for the new alarm.
 * 15. Add an anomaly detector for the custom metric.
 * 16. Describe current anomaly detectors.
 * 17. Get a metric image for the custom metric.
 * 18. Clean up the Amazon CloudWatch resources.
 */
public class CloudWatchScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    static CloudWatchActions cwActions = new CloudWatchActions();

    private static final Logger logger = LoggerFactory.getLogger(CloudWatchScenario.class);
    static Scanner scanner = new Scanner(System.in);
    public static void main(String[] args) throws Throwable {

        final String usage = """

            Usage:
              <myDate> <costDateWeek> <dashboardName> <dashboardJson> <dashboardAdd> <settings> <metricImage> \s

            Where:
              myDate - The start date to use to get metric statistics. (For example, 2023-01-11T18:35:24.00Z.)\s
              costDateWeek - The start date to use to get AWS/Billing statistics. (For example, 2023-01-11T18:35:24.00Z.)\s
              dashboardName - The name of the dashboard to create.\s
              dashboardJson - The location of a JSON file to use to create a dashboard. (See jsonWidgets.json in javav2/example_code/cloudwatch.)\s
              dashboardAdd - The location of a JSON file to use to update a dashboard. (See CloudDashboard.json in javav2/example_code/cloudwatch.)\s
              settings - The location of a JSON file from which various values are read. (See settings.json in javav2/example_code/cloudwatch.)\s
              metricImage - The location of a BMP file that is used to create a graph.\s
            """;

        if (args.length != 7) {
            logger.info(usage);
            return;
        }
        String myDate = args[0];
        String costDateWeek = args[1];
        String dashboardName = args[2];
        String dashboardJson = args[3];
        String dashboardAdd = args[4];
        String settings = args[5];
        String metricImage = args[6];

        logger.info(DASHES);
        logger.info("Welcome to the Amazon CloudWatch Basics scenario.");
        logger.info("""
            Amazon CloudWatch is a comprehensive monitoring and observability service 
            provided by Amazon Web Services (AWS). It is designed to help you monitor your 
            AWS resources, applications, and services, as well as on-premises resources, 
            in real-time.
                        
            CloudWatch collects and tracks various types of data, including metrics, 
            logs, and events, from your AWS and on-premises resources. It allows you to set 
            alarms and automatically respond to changes in your environment, 
            enabling you to quickly identify and address issues before they impact your 
            applications or services. 
                        
            With CloudWatch, you can gain visibility into your entire infrastructure, from the cloud 
            to the edge, and use this information to make informed decisions and optimize your 
            resource utilization.
                        
            This scenario guides you through how to perform Amazon CloudWatch tasks by using the 
            AWS SDK for Java v2. Let's get started...
            """);
        waitForInputToContinue(scanner);

        try {
            runScenario(myDate, costDateWeek, dashboardName, dashboardJson, dashboardAdd, settings, metricImage);
        } catch (RuntimeException e) {
            e.printStackTrace();
        }
        logger.info(DASHES);
    }

    private static void runScenario(String myDate, String costDateWeek, String dashboardName, String dashboardJson, String dashboardAdd, String settings, String metricImage ) throws Throwable {
        Double dataPoint = Double.parseDouble("10.0");
        logger.info(DASHES);
        logger.info("""
        1. List at least five available unique namespaces from Amazon CloudWatch. 
        Select one from the list.
        """);
        String selectedNamespace;
        String selectedMetrics;
        int num;
        try {
            CompletableFuture<ArrayList<String>> future = cwActions.listNameSpacesAsync();
            ArrayList<String> list = future.join();
            for (int z = 0; z < 5; z++) {
                int index = z + 1;
                logger.info("    " + index + ". {}", list.get(z));
            }

            num = Integer.parseInt(scanner.nextLine());
            if (1 <= num && num <= 5) {
                selectedNamespace = list.get(num - 1);
            } else {
                logger.info("You did not select a valid option.");
                return;
            }
            logger.info("You selected {}", selectedNamespace);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("2. List available metrics within the selected namespace.");
        logger.info("""
            A metric is a measure of the performance or health of your AWS resources, 
            applications, or custom resources. Metrics are the basic building blocks of CloudWatch 
            and provide data points that represent a specific aspect of your system or application over time.
            
            Select a metric from the list.
            """);

        Dimension myDimension = null;
        try {
            CompletableFuture<ArrayList<String>> future = cwActions.listMetsAsync(selectedNamespace);
            ArrayList<String> metList = future.join();
            logger.info("Metrics successfully retrieved. Total metrics: {}", metList.size());
            for (int z = 0; z < 5; z++) {
                int index = z + 1;
                logger.info("    " + index + ". " + metList.get(z));
            }
            num = Integer.parseInt(scanner.nextLine());
            if (1 <= num && num <= 5) {
                selectedMetrics = metList.get(num - 1);
            } else {
                logger.info("You did not select a valid option.");
                return;
            }
            logger.info("You selected {}", selectedMetrics);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }

        try {
            myDimension = cwActions.getSpecificMetAsync(selectedNamespace).join();
            logger.info("Metric statistics successfully retrieved and displayed.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("3. Get statistics for the selected metric over the last day.");
        logger.info("""
            Statistics refer to the various mathematical calculations that can be performed on the 
            collected metrics to derive meaningful insights. Statistics provide a way to summarize and 
            analyze the data collected for a specific metric over a specified time period.
            """);
        waitForInputToContinue(scanner);
        String metricOption = "";
        ArrayList<String> statTypes = new ArrayList<>();
        statTypes.add("SampleCount");
        statTypes.add("Average");
        statTypes.add("Sum");
        statTypes.add("Minimum");
        statTypes.add("Maximum");

        for (int t = 0; t < 5; t++) {
            logger.info("    " + (t + 1) + ". {}", statTypes.get(t));
        }
        logger.info("Select a metric statistic by entering a number from the preceding list:");
        num = Integer.parseInt(scanner.nextLine());
        if (1 <= num && num <= 5) {
            metricOption = statTypes.get(num - 1);
        } else {
            logger.info("You did not select a valid option.");
            return;
        }
        logger.info("You selected " + metricOption);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<GetMetricStatisticsResponse> future = cwActions.getAndDisplayMetricStatisticsAsync(selectedNamespace, selectedMetrics, metricOption, myDate, myDimension);
            future.join();
            logger.info("Metric statistics retrieved successfully.");

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("4. Get CloudWatch estimated billing for the last week.");
        waitForInputToContinue(scanner);
         try {
            CompletableFuture<GetMetricStatisticsResponse> future = cwActions.getMetricStatisticsAsync(costDateWeek);
            future.join();

            logger.info("Metric statistics successfully retrieved and displayed.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
             throw cause;
         }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("5. Create a new CloudWatch dashboard with metrics.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<PutDashboardResponse> future = cwActions.createDashboardWithMetricsAsync(dashboardName, dashboardJson);
            future.join();

        } catch (RuntimeException | IOException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof DashboardInvalidInputErrorException cwEx) {
                logger.info("Invalid CloudWatch data. Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("6. List dashboards using a paginator.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = cwActions.listDashboardsAsync();
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("7. Create a new custom metric by adding data to it.");
        logger.info("""
            The primary benefit of using a custom metric in Amazon CloudWatch is the ability to 
            monitor and collect data that is specific to your application or infrastructure.
            """);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<PutMetricDataResponse> future = cwActions.createNewCustomMetricAsync(dataPoint);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("8. Add an additional metric to the dashboard.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<PutDashboardResponse> future = cwActions.addMetricToDashboardAsync(dashboardAdd, dashboardName);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof DashboardInvalidInputErrorException cwEx) {
                logger.info("Invalid CloudWatch data. Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("9. Create an alarm for the custom metric.");
        waitForInputToContinue(scanner);
        String alarmName = "" ;
        try {
            CompletableFuture<String> future = cwActions.createAlarmAsync(settings);
            alarmName = future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof LimitExceededException cwEx) {
                logger.info("The quota for alarms has been reached: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("10. Describe ten current alarms.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = cwActions.describeAlarmsAsync();
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("11. Get current data for new custom metric.");
        try {
            CompletableFuture<Void> future = cwActions.getCustomMetricDataAsync(settings);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("12. Push data into the custom metric to trigger the alarm.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<PutMetricDataResponse> future = cwActions.addMetricDataForAlarmAsync(settings);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("13. Check the alarm state using the action DescribeAlarmsForMetric.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = cwActions.checkForMetricAlarmAsync(settings);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("14. Get alarm history for the new alarm.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = cwActions.getAlarmHistoryAsync(settings, myDate);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("15. Add an anomaly detector for the custom metric.");
        logger.info("""
            An anomaly detector is a feature that automatically detects unusual patterns or deviations in your 
            monitored metrics. It uses machine learning algorithms to analyze the historical behavior 
            of your metrics and establish a baseline. 
            
            The anomaly detector then compares the current metric values against this baseline and 
            identifies any anomalies or outliers that may indicate potential issues or unexpected changes 
            in your system's performance or behavior. 
            
            """);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = cwActions.addAnomalyDetectorAsync(settings);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("16. Describe current anomaly detectors.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = cwActions.describeAnomalyDetectorsAsync(settings);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("17. Get a metric image for the custom metric.");
        try {
            CompletableFuture<Void> future = cwActions.downloadAndSaveMetricImageAsync(metricImage);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("18. Clean up the Amazon CloudWatch resources.");

        try {
            logger.info(". Delete the Dashboard.");
            waitForInputToContinue(scanner);
            CompletableFuture<DeleteDashboardsResponse> future = cwActions.deleteDashboardAsync(dashboardName);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }

        try {
            logger.info("Delete the alarm.");
            waitForInputToContinue(scanner);
            CompletableFuture<DeleteAlarmsResponse> future = cwActions.deleteCWAlarmAsync(alarmName);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }

        try {
            logger.info("Delete the anomaly detector.");
            waitForInputToContinue(scanner);
            CompletableFuture<DeleteAnomalyDetectorResponse> future = cwActions.deleteAnomalyDetectorAsync(settings);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof CloudWatchException cwEx) {
                logger.info("CloudWatch error occurred: Error message: {}, Error code {}", cwEx.getMessage(), cwEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("The Amazon CloudWatch example scenario is complete.");
        logger.info(DASHES);
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();
            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                // Handle invalid input.
                logger.info("Invalid input. Please try again.");
            }
        }
    }
}
```
Kelas pembungkus untuk metode CloudWatch SDK.  

```
public class CloudWatchActions {

    private static CloudWatchAsyncClient cloudWatchAsyncClient;

    private static final Logger logger = LoggerFactory.getLogger(CloudWatchActions.class);

    /**
     * Retrieves an asynchronous CloudWatch client instance.
     *
     * <p>
     * This method ensures that the CloudWatch client is initialized with the following configurations:
     * <ul>
     *     <li>Maximum concurrency: 100</li>
     *     <li>Connection timeout: 60 seconds</li>
     *     <li>Read timeout: 60 seconds</li>
     *     <li>Write timeout: 60 seconds</li>
     *     <li>API call timeout: 2 minutes</li>
     *     <li>API call attempt timeout: 90 seconds</li>
     *     <li>Retry strategy: STANDARD</li>
     * </ul>
     * </p>
     *
     * @return the asynchronous CloudWatch client instance
     */
    private static CloudWatchAsyncClient getAsyncClient() {
        if (cloudWatchAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            cloudWatchAsyncClient = CloudWatchAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return cloudWatchAsyncClient;
    }

    /**
     * Deletes an Anomaly Detector.
     *
     * @param fileName the name of the file containing the Anomaly Detector configuration
     * @return a CompletableFuture that represents the asynchronous deletion of the Anomaly Detector
     */
    public CompletableFuture<DeleteAnomalyDetectorResponse> deleteAnomalyDetectorAsync(String fileName) {
        CompletableFuture<JsonNode> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                return new ObjectMapper().readTree(parser); // Return the root node
            } catch (IOException e) {
                throw new RuntimeException("Failed to read or parse the file", e);
            }
        });

        return readFileFuture.thenCompose(rootNode -> {
            String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
            String customMetricName = rootNode.findValue("customMetricName").asText();

            SingleMetricAnomalyDetector singleMetricAnomalyDetector = SingleMetricAnomalyDetector.builder()
                .metricName(customMetricName)
                .namespace(customMetricNamespace)
                .stat("Maximum")
                .build();

            DeleteAnomalyDetectorRequest request = DeleteAnomalyDetectorRequest.builder()
                .singleMetricAnomalyDetector(singleMetricAnomalyDetector)
                .build();

            return getAsyncClient().deleteAnomalyDetector(request);
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Failed to delete the Anomaly Detector", exception);
            } else {
                logger.info("Successfully deleted the Anomaly Detector.");
            }
        });
    }

    /**
     * Deletes a CloudWatch alarm.
     *
     * @param alarmName the name of the alarm to be deleted
     * @return a {@link CompletableFuture} representing the asynchronous operation to delete the alarm
     * the {@link DeleteAlarmsResponse} is returned when the operation completes successfully,
     * or a {@link RuntimeException} is thrown if the operation fails
     */
    public CompletableFuture<DeleteAlarmsResponse> deleteCWAlarmAsync(String alarmName) {
        DeleteAlarmsRequest request = DeleteAlarmsRequest.builder()
            .alarmNames(alarmName)
            .build();

        return getAsyncClient().deleteAlarms(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to delete the alarm:{} " + alarmName, exception);
                } else {
                    logger.info("Successfully deleted alarm {} ", alarmName);
                }
            });
    }

    /**
     * Deletes the specified dashboard.
     *
     * @param dashboardName the name of the dashboard to be deleted
     * @return a {@link CompletableFuture} representing the asynchronous operation of deleting the dashboard
     * @throws RuntimeException if the dashboard deletion fails
     */
    public CompletableFuture<DeleteDashboardsResponse> deleteDashboardAsync(String dashboardName) {
        DeleteDashboardsRequest dashboardsRequest = DeleteDashboardsRequest.builder()
            .dashboardNames(dashboardName)
            .build();

        return getAsyncClient().deleteDashboards(dashboardsRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to delete the dashboard: " + dashboardName, exception);
                } else {
                    logger.info("{} was successfully deleted.", dashboardName);
                }
            });
    }


    /**
     * Retrieves and saves a custom metric image to a file.
     *
     * @param fileName the name of the file to save the metric image to
     * @return a {@link CompletableFuture} that completes when the image has been saved to the file
     */
    public CompletableFuture<Void> downloadAndSaveMetricImageAsync(String fileName) {
        logger.info("Getting Image data for custom metric.");
        String myJSON = """
              {
                  "title": "Example Metric Graph",
                  "view": "timeSeries",
                  "stacked ": false,
                  "period": 10,
                  "width": 1400,
                  "height": 600,
                  "metrics": [
                      [
                      "AWS/Billing",
                      "EstimatedCharges",
                      "Currency",
                      "USD"
                     ]
                  ]
              }
            """;

        GetMetricWidgetImageRequest imageRequest = GetMetricWidgetImageRequest.builder()
            .metricWidget(myJSON)
            .build();

        return getAsyncClient().getMetricWidgetImage(imageRequest)
            .thenCompose(response -> {
                SdkBytes sdkBytes = response.metricWidgetImage();
                byte[] bytes = sdkBytes.asByteArray();
                return CompletableFuture.runAsync(() -> {
                    try {
                        File outputFile = new File(fileName);
                        try (FileOutputStream outputStream = new FileOutputStream(outputFile)) {
                            outputStream.write(bytes);
                        }
                    } catch (IOException e) {
                        throw new RuntimeException("Failed to write image to file", e);
                    }
                });
            })
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Error getting and saving metric image", exception);
                } else {
                    logger.info("Image data saved successfully to {}", fileName);
                }
            });
    }


    /**
     * Describes the anomaly detectors based on the specified JSON file.
     *
     * @param fileName the name of the JSON file containing the custom metric namespace and name
     * @return a {@link CompletableFuture} that completes when the anomaly detectors have been described
     * @throws RuntimeException if there is a failure during the operation, such as when reading or parsing the JSON file,
     *                          or when describing the anomaly detectors
     */
    public CompletableFuture<Void> describeAnomalyDetectorsAsync(String fileName) {
        CompletableFuture<JsonNode> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                return new ObjectMapper().readTree(parser);
            } catch (IOException e) {
                throw new RuntimeException("Failed to read or parse the file", e);
            }
        });

        return readFileFuture.thenCompose(rootNode -> {
            try {
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();

                DescribeAnomalyDetectorsRequest detectorsRequest = DescribeAnomalyDetectorsRequest.builder()
                    .maxResults(10)
                    .metricName(customMetricName)
                    .namespace(customMetricNamespace)
                    .build();

                return getAsyncClient().describeAnomalyDetectors(detectorsRequest).thenAccept(response -> {
                    List<AnomalyDetector> anomalyDetectorList = response.anomalyDetectors();
                    for (AnomalyDetector detector : anomalyDetectorList) {
                        logger.info("Metric name: {} ", detector.singleMetricAnomalyDetector().metricName());
                        logger.info("State: {} ", detector.stateValue());
                    }
                });
            } catch (RuntimeException e) {
                throw new RuntimeException("Failed to describe anomaly detectors", e);
            }
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Error describing anomaly detectors", exception);
            }
        });
    }


    /**
     * Adds an anomaly detector for the given file.
     *
     * @param fileName the name of the file containing the anomaly detector configuration
     * @return a {@link CompletableFuture} that completes when the anomaly detector has been added
     */
    public CompletableFuture<Void> addAnomalyDetectorAsync(String fileName) {
        CompletableFuture<JsonNode> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                return new ObjectMapper().readTree(parser); // Return the root node
            } catch (IOException e) {
                throw new RuntimeException("Failed to read or parse the file", e);
            }
        });

        return readFileFuture.thenCompose(rootNode -> {
            try {
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();

                SingleMetricAnomalyDetector singleMetricAnomalyDetector = SingleMetricAnomalyDetector.builder()
                    .metricName(customMetricName)
                    .namespace(customMetricNamespace)
                    .stat("Maximum")
                    .build();

                PutAnomalyDetectorRequest anomalyDetectorRequest = PutAnomalyDetectorRequest.builder()
                    .singleMetricAnomalyDetector(singleMetricAnomalyDetector)
                    .build();

                return getAsyncClient().putAnomalyDetector(anomalyDetectorRequest).thenAccept(response -> {
                    logger.info("Added anomaly detector for metric {}", customMetricName);
                });
            } catch (Exception e) {
                throw new RuntimeException("Failed to create anomaly detector", e);
            }
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Error adding anomaly detector", exception);
            }
        });
    }


    /**
     * Retrieves the alarm history for a given alarm name and date range.
     *
     * @param fileName the path to the JSON file containing the alarm name
     * @param date     the date to start the alarm history search (in the format "yyyy-MM-dd'T'HH:mm:ss'Z'")
     * @return a {@code CompletableFuture<Void>} that completes when the alarm history has been retrieved and processed
     */
    public CompletableFuture<Void> getAlarmHistoryAsync(String fileName, String date) {
        CompletableFuture<String> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
                return rootNode.findValue("exampleAlarmName").asText(); // Return alarmName from the JSON file
            } catch (IOException e) {
                throw new RuntimeException("Failed to read or parse the file", e);
            }
        });

        // Use the alarm name to describe alarm history with a paginator.
        return readFileFuture.thenCompose(alarmName -> {
            try {
                Instant start = Instant.parse(date);
                Instant endDate = Instant.now();
                DescribeAlarmHistoryRequest historyRequest = DescribeAlarmHistoryRequest.builder()
                    .startDate(start)
                    .endDate(endDate)
                    .alarmName(alarmName)
                    .historyItemType(HistoryItemType.ACTION)
                    .build();

                // Use the paginator to paginate through alarm history pages.
                DescribeAlarmHistoryPublisher historyPublisher = getAsyncClient().describeAlarmHistoryPaginator(historyRequest);
                CompletableFuture<Void> future = historyPublisher
                    .subscribe(response -> response.alarmHistoryItems().forEach(item -> {
                        logger.info("History summary: {}", item.historySummary());
                        logger.info("Timestamp: {}", item.timestamp());
                    }))
                    .whenComplete((result, exception) -> {
                        if (exception != null) {
                            logger.error("Error occurred while getting alarm history: " + exception.getMessage(), exception);
                        } else {
                            logger.info("Successfully retrieved all alarm history.");
                        }
                    });

                // Return the future to the calling code for further handling
                return future;
            } catch (Exception e) {
                throw new RuntimeException("Failed to process alarm history", e);
            }
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Error completing alarm history processing", exception);
            }
        });
    }



    /**
     * Checks for a metric alarm in AWS CloudWatch.
     *
     * @param fileName the name of the file containing the JSON configuration for the custom metric
     * @return a {@link CompletableFuture} that completes when the check for the metric alarm is complete
     */
    public CompletableFuture<Void> checkForMetricAlarmAsync(String fileName) {
        CompletableFuture<String> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
                return rootNode.toString(); // Return JSON as a string for further processing
            } catch (IOException e) {
                throw new RuntimeException("Failed to read file", e);
            }
        });

        return readFileFuture.thenCompose(jsonContent -> {
            try {
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(jsonContent);
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();

                DescribeAlarmsForMetricRequest metricRequest = DescribeAlarmsForMetricRequest.builder()
                    .metricName(customMetricName)
                    .namespace(customMetricNamespace)
                    .build();

                return checkForAlarmAsync(metricRequest, customMetricName, 10);

            } catch (IOException e) {
                throw new RuntimeException("Failed to parse JSON content", e);
            }
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Error checking metric alarm", exception);
            }
        });
    }

    // Recursive method to check for the alarm.

    /**
     * Checks for the existence of an alarm asynchronously for the specified metric.
     *
     * @param metricRequest    the request to describe the alarms for the specified metric
     * @param customMetricName the name of the custom metric to check for an alarm
     * @param retries          the number of retries to perform if no alarm is found
     * @return a {@link CompletableFuture} that completes when an alarm is found or the maximum number of retries has been reached
     */
    private static CompletableFuture<Void> checkForAlarmAsync(DescribeAlarmsForMetricRequest metricRequest, String customMetricName, int retries) {
        if (retries == 0) {
            return CompletableFuture.completedFuture(null).thenRun(() ->
                logger.info("No Alarm state found for {} after 10 retries.", customMetricName)
            );
        }

        return (getAsyncClient().describeAlarmsForMetric(metricRequest).thenCompose(response -> {
            if (response.hasMetricAlarms()) {
                logger.info("Alarm state found for {}", customMetricName);
                return CompletableFuture.completedFuture(null); // Alarm found, complete the future
            } else {
                return CompletableFuture.runAsync(() -> {
                    try {
                        Thread.sleep(20000);
                        logger.info(".");
                    } catch (InterruptedException e) {
                        throw new RuntimeException("Interrupted while waiting to retry", e);
                    }
                }).thenCompose(v -> checkForAlarmAsync(metricRequest, customMetricName, retries - 1)); // Recursive call
            }
        }));
    }


    /**
     * Adds metric data for an alarm asynchronously.
     *
     * @param fileName the name of the JSON file containing the metric data
     * @return a CompletableFuture that asynchronously returns the PutMetricDataResponse
     */
    public CompletableFuture<PutMetricDataResponse> addMetricDataForAlarmAsync(String fileName) {
        CompletableFuture<String> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
                return rootNode.toString(); // Return JSON as a string for further processing
            } catch (IOException e) {
                throw new RuntimeException("Failed to read file", e);
            }
        });

        return readFileFuture.thenCompose(jsonContent -> {
            try {
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(jsonContent);
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();
                Instant instant = Instant.now();

                // Create MetricDatum objects.
                MetricDatum datum1 = MetricDatum.builder()
                    .metricName(customMetricName)
                    .unit(StandardUnit.NONE)
                    .value(1001.00)
                    .timestamp(instant)
                    .build();

                MetricDatum datum2 = MetricDatum.builder()
                    .metricName(customMetricName)
                    .unit(StandardUnit.NONE)
                    .value(1002.00)
                    .timestamp(instant)
                    .build();

                List<MetricDatum> metricDataList = new ArrayList<>();
                metricDataList.add(datum1);
                metricDataList.add(datum2);

                // Build the PutMetricData request.
                PutMetricDataRequest request = PutMetricDataRequest.builder()
                    .namespace(customMetricNamespace)
                    .metricData(metricDataList)
                    .build();

                // Send the request asynchronously.
                return getAsyncClient().putMetricData(request);

            } catch (IOException e) {
                CompletableFuture<PutMetricDataResponse> failedFuture = new CompletableFuture<>();
                failedFuture.completeExceptionally(new RuntimeException("Failed to parse JSON content", e));
                return failedFuture;
            }
        }).whenComplete((response, exception) -> {
            if (exception != null) {
                logger.error("Failed to put metric data: " + exception.getMessage(), exception);
            } else {
                logger.info("Added metric values for metric.");
            }
        });
    }


    /**
     * Retrieves custom metric data from the AWS CloudWatch service.
     *
     * @param fileName the name of the file containing the custom metric information
     * @return a {@link CompletableFuture} that completes when the metric data has been retrieved
     */
    public CompletableFuture<Void> getCustomMetricDataAsync(String fileName) {
        CompletableFuture<String> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                // Read values from the JSON file.
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
                return rootNode.toString(); // Return JSON as a string for further processing
            } catch (IOException e) {
                throw new RuntimeException("Failed to read file", e);
            }
        });

        return readFileFuture.thenCompose(jsonContent -> {
            try {
                // Parse the JSON string to extract relevant values.
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(jsonContent);
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();

                // Set the current time and date range for metric query.
                Instant nowDate = Instant.now();
                long hours = 1;
                long minutes = 30;
                Instant endTime = nowDate.plus(hours, ChronoUnit.HOURS).plus(minutes, ChronoUnit.MINUTES);

                Metric met = Metric.builder()
                    .metricName(customMetricName)
                    .namespace(customMetricNamespace)
                    .build();

                MetricStat metStat = MetricStat.builder()
                    .stat("Maximum")
                    .period(60)  // Assuming period in seconds
                    .metric(met)
                    .build();

                MetricDataQuery dataQuery = MetricDataQuery.builder()
                    .metricStat(metStat)
                    .id("foo2")
                    .returnData(true)
                    .build();

                List<MetricDataQuery> dq = new ArrayList<>();
                dq.add(dataQuery);

                GetMetricDataRequest getMetricDataRequest = GetMetricDataRequest.builder()
                    .maxDatapoints(10)
                    .scanBy(ScanBy.TIMESTAMP_DESCENDING)
                    .startTime(nowDate)
                    .endTime(endTime)
                    .metricDataQueries(dq)
                    .build();

                // Call the async method for CloudWatch data retrieval.
                return getAsyncClient().getMetricData(getMetricDataRequest);

            } catch (IOException e) {
                throw new RuntimeException("Failed to parse JSON content", e);
            }
        }).thenAccept(response -> {
            List<MetricDataResult> data = response.metricDataResults();
            for (MetricDataResult item : data) {
                logger.info("The label is: {}", item.label());
                logger.info("The status code is: {}", item.statusCode().toString());
            }
        }).exceptionally(exception -> {
            throw new RuntimeException("Failed to get metric data", exception);
        });
    }


    /**
     * Describes the CloudWatch alarms of the 'METRIC_ALARM' type.
     *
     * @return a {@link CompletableFuture} that represents the asynchronous operation
     * of describing the CloudWatch alarms. The future completes when the
     * operation is finished, either successfully or with an error.
     */
    public CompletableFuture<Void> describeAlarmsAsync() {
        List<AlarmType> typeList = new ArrayList<>();
        typeList.add(AlarmType.METRIC_ALARM);
        DescribeAlarmsRequest alarmsRequest = DescribeAlarmsRequest.builder()
            .alarmTypes(typeList)
            .maxRecords(10)
            .build();

        return getAsyncClient().describeAlarms(alarmsRequest)
            .thenAccept(response -> {
                List<MetricAlarm> alarmList = response.metricAlarms();
                for (MetricAlarm alarm : alarmList) {
                    logger.info("Alarm name: {}", alarm.alarmName());
                    logger.info("Alarm description: {} ", alarm.alarmDescription());
                }
            })
            .whenComplete((response, ex) -> {
                if (ex != null) {
                    logger.info("Failed to describe alarms: {}", ex.getMessage());
                } else {
                    logger.info("Successfully described alarms.");
                }
            });
    }

    /**
     * Creates an alarm based on the configuration provided in a JSON file.
     *
     * @param fileName the name of the JSON file containing the alarm configuration
     * @return a CompletableFuture that represents the asynchronous operation of creating the alarm
     * @throws RuntimeException if an exception occurs while reading the JSON file or creating the alarm
     */
    public CompletableFuture<String> createAlarmAsync(String fileName) {
        com.fasterxml.jackson.databind.JsonNode rootNode;
        try {
            JsonParser parser = new JsonFactory().createParser(new File(fileName));
            rootNode = new ObjectMapper().readTree(parser);
        } catch (IOException e) {
            throw new RuntimeException("Failed to read the alarm configuration file", e);
        }

        // Extract values from the JSON node.
        String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
        String customMetricName = rootNode.findValue("customMetricName").asText();
        String alarmName = rootNode.findValue("exampleAlarmName").asText();
        String emailTopic = rootNode.findValue("emailTopic").asText();
        String accountId = rootNode.findValue("accountId").asText();
        String region = rootNode.findValue("region").asText();

        // Create a List for alarm actions.
        List<String> alarmActions = new ArrayList<>();
        alarmActions.add("arn:aws:sns:" + region + ":" + accountId + ":" + emailTopic);

        PutMetricAlarmRequest alarmRequest = PutMetricAlarmRequest.builder()
            .alarmActions(alarmActions)
            .alarmDescription("Example metric alarm")
            .alarmName(alarmName)
            .comparisonOperator(ComparisonOperator.GREATER_THAN_OR_EQUAL_TO_THRESHOLD)
            .threshold(100.00)
            .metricName(customMetricName)
            .namespace(customMetricNamespace)
            .evaluationPeriods(1)
            .period(10)
            .statistic("Maximum")
            .datapointsToAlarm(1)
            .treatMissingData("ignore")
            .build();

        // Call the putMetricAlarm asynchronously and handle the result.
        return getAsyncClient().putMetricAlarm(alarmRequest)
            .handle((response, ex) -> {
                if (ex != null) {
                    logger.info("Failed to create alarm: {}", ex.getMessage());
                    throw new RuntimeException("Failed to create alarm", ex);
                } else {
                    logger.info("{} was successfully created!", alarmName);
                    return alarmName;
                }
            });
    }

    /**
     * Adds a metric to a dashboard asynchronously.
     *
     * @param fileName      the name of the file containing the dashboard content
     * @param dashboardName the name of the dashboard to be updated
     * @return a {@link CompletableFuture} representing the asynchronous operation, which will complete with a
     * {@link PutDashboardResponse} when the dashboard is successfully updated
     */
    public CompletableFuture<PutDashboardResponse> addMetricToDashboardAsync(String fileName, String dashboardName) {
        String dashboardBody;
        try {
            dashboardBody = readFileAsString(fileName);
        } catch (IOException e) {
            throw new RuntimeException("Failed to read the dashboard file", e);
        }

        PutDashboardRequest dashboardRequest = PutDashboardRequest.builder()
            .dashboardName(dashboardName)
            .dashboardBody(dashboardBody)
            .build();

        return getAsyncClient().putDashboard(dashboardRequest)
            .handle((response, ex) -> {
                if (ex != null) {
                    logger.info("Failed to update dashboard: {}", ex.getMessage());
                    throw new RuntimeException("Error updating dashboard", ex);
                } else {
                    logger.info("{} was successfully updated.", dashboardName);
                    return response;
                }
            });
    }

    /**
     * Creates a new custom metric.
     *
     * @param dataPoint the data point to be added to the custom metric
     * @return a {@link CompletableFuture} representing the asynchronous operation of adding the custom metric
     */
    public CompletableFuture<PutMetricDataResponse> createNewCustomMetricAsync(Double dataPoint) {
        Dimension dimension = Dimension.builder()
            .name("UNIQUE_PAGES")
            .value("URLS")
            .build();

        // Set an Instant object for the current time in UTC.
        String time = ZonedDateTime.now(ZoneOffset.UTC).format(DateTimeFormatter.ISO_INSTANT);
        Instant instant = Instant.parse(time);

        // Create the MetricDatum.
        MetricDatum datum = MetricDatum.builder()
            .metricName("PAGES_VISITED")
            .unit(StandardUnit.NONE)
            .value(dataPoint)
            .timestamp(instant)
            .dimensions(dimension)
            .build();

        PutMetricDataRequest request = PutMetricDataRequest.builder()
            .namespace("SITE/TRAFFIC")
            .metricData(datum)
            .build();

        return getAsyncClient().putMetricData(request)
            .whenComplete((response, ex) -> {
                if (ex != null) {
                    throw new RuntimeException("Error adding custom metric", ex);
                } else {
                    logger.info("Successfully added metric values for PAGES_VISITED.");
                }
            });
    }

    /**
     * Lists the available dashboards.
     *
     * @return a {@link CompletableFuture} that completes when the operation is finished.
     * The future will complete exceptionally if an error occurs while listing the dashboards.
     */
    public CompletableFuture<Void> listDashboardsAsync() {
        ListDashboardsRequest listDashboardsRequest = ListDashboardsRequest.builder().build();
        ListDashboardsPublisher paginator = getAsyncClient().listDashboardsPaginator(listDashboardsRequest);
        return paginator.subscribe(response -> {
            response.dashboardEntries().forEach(entry -> {
                logger.info("Dashboard name is: {} ", entry.dashboardName());
                logger.info("Dashboard ARN is: {} ", entry.dashboardArn());
            });
        }).exceptionally(ex -> {
            logger.info("Failed to list dashboards: {} ", ex.getMessage());
            throw new RuntimeException("Error occurred while listing dashboards", ex);
        });
    }


    /**
     * Creates a new dashboard with the specified name and metrics from the given file.
     *
     * @param dashboardName the name of the dashboard to be created
     * @param fileName      the name of the file containing the dashboard body
     * @return a {@link CompletableFuture} representing the asynchronous operation of creating the dashboard
     * @throws IOException if there is an error reading the dashboard body from the file
     */
    public CompletableFuture<PutDashboardResponse> createDashboardWithMetricsAsync(String dashboardName, String fileName) throws IOException {
        String dashboardBody = readFileAsString(fileName);
        PutDashboardRequest dashboardRequest = PutDashboardRequest.builder()
            .dashboardName(dashboardName)
            .dashboardBody(dashboardBody)
            .build();

        return getAsyncClient().putDashboard(dashboardRequest)
            .handle((response, ex) -> {
                if (ex != null) {
                    logger.info("Failed to create dashboard: {}", ex.getMessage());
                    throw new RuntimeException("Dashboard creation failed", ex);
                } else {
                    // Handle the normal response case
                    logger.info("{} was successfully created.", dashboardName);
                    List<DashboardValidationMessage> messages = response.dashboardValidationMessages();
                    if (messages.isEmpty()) {
                        logger.info("There are no messages in the new Dashboard.");
                    } else {
                        for (DashboardValidationMessage message : messages) {
                            logger.info("Message: {}", message.message());
                        }
                    }
                    return response; // Return the response for further use
                }
            });
    }


    /**
     * Retrieves the metric statistics for the "EstimatedCharges" metric in the "AWS/Billing" namespace.
     *
     * @param costDateWeek the start date for the metric statistics, in the format of an ISO-8601 date string (e.g., "2023-04-05")
     * @return a {@link CompletableFuture} that, when completed, contains the {@link GetMetricStatisticsResponse} with the retrieved metric statistics
     * @throws RuntimeException if the metric statistics cannot be retrieved successfully
     */
    public CompletableFuture<GetMetricStatisticsResponse> getMetricStatisticsAsync(String costDateWeek) {
        Instant start = Instant.parse(costDateWeek);
        Instant endDate = Instant.now();

        // Define dimension
        Dimension dimension = Dimension.builder()
            .name("Currency")
            .value("USD")
            .build();

        List<Dimension> dimensionList = new ArrayList<>();
        dimensionList.add(dimension);

        GetMetricStatisticsRequest statisticsRequest = GetMetricStatisticsRequest.builder()
            .metricName("EstimatedCharges")
            .namespace("AWS/Billing")
            .dimensions(dimensionList)
            .statistics(Statistic.MAXIMUM)
            .startTime(start)
            .endTime(endDate)
            .period(86400) // One day period
            .build();

        return getAsyncClient().getMetricStatistics(statisticsRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    List<Datapoint> data = response.datapoints();
                    if (!data.isEmpty()) {
                        for (Datapoint datapoint : data) {
                            logger.info("Timestamp: {} Maximum value: {})", datapoint.timestamp(), datapoint.maximum());
                        }
                    } else {
                        logger.info("The returned data list is empty");
                    }
                } else {
                    throw new RuntimeException("Failed to get metric statistics: " + exception.getMessage(), exception);
                }
            });
    }


    /**
     * Retrieves and displays metric statistics for the specified parameters.
     *
     * @param nameSpace    the namespace for the metric
     * @param metVal       the name of the metric
     * @param metricOption the statistic to retrieve for the metric (e.g., "Maximum", "Average")
     * @param date         the date for which to retrieve the metric statistics, in the format "yyyy-MM-dd'T'HH:mm:ss'Z'"
     * @param myDimension  the dimension(s) to filter the metric statistics by
     * @return a {@link CompletableFuture} that completes when the metric statistics have been retrieved and displayed
     */
    public CompletableFuture<GetMetricStatisticsResponse> getAndDisplayMetricStatisticsAsync(String nameSpace, String metVal,
                                                                                             String metricOption, String date, Dimension myDimension) {

        Instant start = Instant.parse(date);
        Instant endDate = Instant.now();

        // Building the request for metric statistics.
        GetMetricStatisticsRequest statisticsRequest = GetMetricStatisticsRequest.builder()
            .endTime(endDate)
            .startTime(start)
            .dimensions(myDimension)
            .metricName(metVal)
            .namespace(nameSpace)
            .period(86400) // 1 day period
            .statistics(Statistic.fromValue(metricOption))
            .build();

        return getAsyncClient().getMetricStatistics(statisticsRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    List<Datapoint> data = response.datapoints();
                    if (!data.isEmpty()) {
                        for (Datapoint datapoint : data) {
                            logger.info("Timestamp: {} Maximum value: {}", datapoint.timestamp(), datapoint.maximum());
                        }
                    } else {
                        logger.info("The returned data list is empty");
                    }
                } else {
                    logger.info("Failed to get metric statistics: {} ", exception.getMessage());
                }
            })
            .exceptionally(exception -> {
                throw new RuntimeException("Error while getting metric statistics: " + exception.getMessage(), exception);
            });
    }


    /**
     * Retrieves a list of metric names for the specified namespace.
     *
     * @param namespace the namespace for which to retrieve the metric names
     * @return a {@link CompletableFuture} that, when completed, contains an {@link ArrayList} of
     * the metric names in the specified namespace
     * @throws RuntimeException if an error occurs while listing the metrics
     */
    public CompletableFuture<ArrayList<String>> listMetsAsync(String namespace) {
        ListMetricsRequest request = ListMetricsRequest.builder()
            .namespace(namespace)
            .build();

        ListMetricsPublisher metricsPaginator = getAsyncClient().listMetricsPaginator(request);
        Set<String> metSet = new HashSet<>();
        CompletableFuture<Void> future = metricsPaginator.subscribe(response -> {
            response.metrics().forEach(metric -> {
                String metricName = metric.metricName();
                metSet.add(metricName);
            });
        });

        return future
            .thenApply(ignored -> new ArrayList<>(metSet))
            .exceptionally(exception -> {
                throw new RuntimeException("Failed to list metrics: " + exception.getMessage(), exception);
            });
    }

    /**
     * Lists the available namespaces for the current AWS account.
     *
     * @return a {@link CompletableFuture} that, when completed, contains an {@link ArrayList} of the available namespace names.
     * @throws RuntimeException if an error occurs while listing the namespaces.
     */
    public CompletableFuture<ArrayList<String>> listNameSpacesAsync() {
        ArrayList<String> nameSpaceList = new ArrayList<>();
        ListMetricsRequest request = ListMetricsRequest.builder().build();

        ListMetricsPublisher metricsPaginator = getAsyncClient().listMetricsPaginator(request);
        CompletableFuture<Void> future = metricsPaginator.subscribe(response -> {
            response.metrics().forEach(metric -> {
                String namespace = metric.namespace();
                if (!nameSpaceList.contains(namespace)) {
                    nameSpaceList.add(namespace);
                }
            });
        });

        return future
            .thenApply(ignored -> nameSpaceList)
            .exceptionally(exception -> {
                throw new RuntimeException("Failed to list namespaces: " + exception.getMessage(), exception);
            });
    }
    /**
     * Retrieves the specific metric asynchronously.
     *
     * @param namespace the namespace of the metric to retrieve
     * @return a CompletableFuture that completes with the first dimension of the first metric found in the specified namespace,
     * or throws a RuntimeException if an error occurs or no metrics or dimensions are found
     */
    public CompletableFuture<Dimension> getSpecificMetAsync(String namespace) {
        ListMetricsRequest request = ListMetricsRequest.builder()
            .namespace(namespace)
            .build();

        return getAsyncClient().listMetrics(request).handle((response, exception) -> {
            if (exception != null) {
                logger.info("Error occurred while listing metrics: {} ", exception.getMessage());
                throw new RuntimeException("Failed to retrieve specific metric dimension", exception);
            } else {
                List<Metric> myList = response.metrics();
                if (!myList.isEmpty()) {
                    Metric metric = myList.get(0);
                    if (!metric.dimensions().isEmpty()) {
                        return metric.dimensions().get(0); // Return the first dimension
                    }
                }
                throw new RuntimeException("No metrics or dimensions found");
            }
        });
    }

    public static String readFileAsString(String file) throws IOException {
        return new String(Files.readAllBytes(Paths.get(file)));
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [DeleteAlarms](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DeleteAlarms)
  + [DeleteAnomalyDetector](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DeleteAnomalyDetector)
  + [DeleteDashboards](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DeleteDashboards)
  + [DescribeAlarmHistory](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DescribeAlarmHistory)
  + [DescribeAlarms](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DescribeAlarms)
  + [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DescribeAlarmsForMetric)
  + [DescribeAnomalyDetectors](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DescribeAnomalyDetectors)
  + [GetMetricData](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/GetMetricData)
  + [GetMetricStatistics](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/GetMetricStatistics)
  + [GetMetricWidgetImage](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/GetMetricWidgetImage)
  + [ListMetrics](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/ListMetrics)
  + [PutAnomalyDetector](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutAnomalyDetector)
  + [PutDashboard](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutDashboard)
  + [PutMetricAlarm](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutMetricAlarm)
  + [PutMetricData](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutMetricData)

## Tindakan
<a name="actions"></a>

### `DeleteAlarms`
<a name="cloudwatch_DeleteAlarms_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlarms`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Deletes a CloudWatch alarm.
     *
     * @param alarmName the name of the alarm to be deleted
     * @return a {@link CompletableFuture} representing the asynchronous operation to delete the alarm
     * the {@link DeleteAlarmsResponse} is returned when the operation completes successfully,
     * or a {@link RuntimeException} is thrown if the operation fails
     */
    public CompletableFuture<DeleteAlarmsResponse> deleteCWAlarmAsync(String alarmName) {
        DeleteAlarmsRequest request = DeleteAlarmsRequest.builder()
            .alarmNames(alarmName)
            .build();

        return getAsyncClient().deleteAlarms(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to delete the alarm:{} " + alarmName, exception);
                } else {
                    logger.info("Successfully deleted alarm {} ", alarmName);
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteAlarms](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DeleteAlarms)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteAnomalyDetector`
<a name="cloudwatch_DeleteAnomalyDetector_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAnomalyDetector`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Deletes an Anomaly Detector.
     *
     * @param fileName the name of the file containing the Anomaly Detector configuration
     * @return a CompletableFuture that represents the asynchronous deletion of the Anomaly Detector
     */
    public CompletableFuture<DeleteAnomalyDetectorResponse> deleteAnomalyDetectorAsync(String fileName) {
        CompletableFuture<JsonNode> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                return new ObjectMapper().readTree(parser); // Return the root node
            } catch (IOException e) {
                throw new RuntimeException("Failed to read or parse the file", e);
            }
        });

        return readFileFuture.thenCompose(rootNode -> {
            String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
            String customMetricName = rootNode.findValue("customMetricName").asText();

            SingleMetricAnomalyDetector singleMetricAnomalyDetector = SingleMetricAnomalyDetector.builder()
                .metricName(customMetricName)
                .namespace(customMetricNamespace)
                .stat("Maximum")
                .build();

            DeleteAnomalyDetectorRequest request = DeleteAnomalyDetectorRequest.builder()
                .singleMetricAnomalyDetector(singleMetricAnomalyDetector)
                .build();

            return getAsyncClient().deleteAnomalyDetector(request);
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Failed to delete the Anomaly Detector", exception);
            } else {
                logger.info("Successfully deleted the Anomaly Detector.");
            }
        });
    }
```
+  Untuk detail API, lihat [DeleteAnomalyDetector](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DeleteAnomalyDetector)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDashboards`
<a name="cloudwatch_DeleteDashboards_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDashboards`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Deletes the specified dashboard.
     *
     * @param dashboardName the name of the dashboard to be deleted
     * @return a {@link CompletableFuture} representing the asynchronous operation of deleting the dashboard
     * @throws RuntimeException if the dashboard deletion fails
     */
    public CompletableFuture<DeleteDashboardsResponse> deleteDashboardAsync(String dashboardName) {
        DeleteDashboardsRequest dashboardsRequest = DeleteDashboardsRequest.builder()
            .dashboardNames(dashboardName)
            .build();

        return getAsyncClient().deleteDashboards(dashboardsRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to delete the dashboard: " + dashboardName, exception);
                } else {
                    logger.info("{} was successfully deleted.", dashboardName);
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteDashboards](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DeleteDashboards)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAlarmHistory`
<a name="cloudwatch_DescribeAlarmHistory_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmHistory`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Retrieves the alarm history for a given alarm name and date range.
     *
     * @param fileName the path to the JSON file containing the alarm name
     * @param date     the date to start the alarm history search (in the format "yyyy-MM-dd'T'HH:mm:ss'Z'")
     * @return a {@code CompletableFuture<Void>} that completes when the alarm history has been retrieved and processed
     */
    public CompletableFuture<Void> getAlarmHistoryAsync(String fileName, String date) {
        CompletableFuture<String> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
                return rootNode.findValue("exampleAlarmName").asText(); // Return alarmName from the JSON file
            } catch (IOException e) {
                throw new RuntimeException("Failed to read or parse the file", e);
            }
        });

        // Use the alarm name to describe alarm history with a paginator.
        return readFileFuture.thenCompose(alarmName -> {
            try {
                Instant start = Instant.parse(date);
                Instant endDate = Instant.now();
                DescribeAlarmHistoryRequest historyRequest = DescribeAlarmHistoryRequest.builder()
                    .startDate(start)
                    .endDate(endDate)
                    .alarmName(alarmName)
                    .historyItemType(HistoryItemType.ACTION)
                    .build();

                // Use the paginator to paginate through alarm history pages.
                DescribeAlarmHistoryPublisher historyPublisher = getAsyncClient().describeAlarmHistoryPaginator(historyRequest);
                CompletableFuture<Void> future = historyPublisher
                    .subscribe(response -> response.alarmHistoryItems().forEach(item -> {
                        logger.info("History summary: {}", item.historySummary());
                        logger.info("Timestamp: {}", item.timestamp());
                    }))
                    .whenComplete((result, exception) -> {
                        if (exception != null) {
                            logger.error("Error occurred while getting alarm history: " + exception.getMessage(), exception);
                        } else {
                            logger.info("Successfully retrieved all alarm history.");
                        }
                    });

                // Return the future to the calling code for further handling
                return future;
            } catch (Exception e) {
                throw new RuntimeException("Failed to process alarm history", e);
            }
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Error completing alarm history processing", exception);
            }
        });
    }
```
+  Untuk detail API, lihat [DescribeAlarmHistory](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DescribeAlarmHistory)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAlarms`
<a name="cloudwatch_DescribeAlarms_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarms`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Describes the CloudWatch alarms of the 'METRIC_ALARM' type.
     *
     * @return a {@link CompletableFuture} that represents the asynchronous operation
     * of describing the CloudWatch alarms. The future completes when the
     * operation is finished, either successfully or with an error.
     */
    public CompletableFuture<Void> describeAlarmsAsync() {
        List<AlarmType> typeList = new ArrayList<>();
        typeList.add(AlarmType.METRIC_ALARM);
        DescribeAlarmsRequest alarmsRequest = DescribeAlarmsRequest.builder()
            .alarmTypes(typeList)
            .maxRecords(10)
            .build();

        return getAsyncClient().describeAlarms(alarmsRequest)
            .thenAccept(response -> {
                List<MetricAlarm> alarmList = response.metricAlarms();
                for (MetricAlarm alarm : alarmList) {
                    logger.info("Alarm name: {}", alarm.alarmName());
                    logger.info("Alarm description: {} ", alarm.alarmDescription());
                }
            })
            .whenComplete((response, ex) -> {
                if (ex != null) {
                    logger.info("Failed to describe alarms: {}", ex.getMessage());
                } else {
                    logger.info("Successfully described alarms.");
                }
            });
    }
```
+  Untuk detail API, lihat [DescribeAlarms](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DescribeAlarms)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Checks for a metric alarm in AWS CloudWatch.
     *
     * @param fileName the name of the file containing the JSON configuration for the custom metric
     * @return a {@link CompletableFuture} that completes when the check for the metric alarm is complete
     */
    public CompletableFuture<Void> checkForMetricAlarmAsync(String fileName) {
        CompletableFuture<String> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
                return rootNode.toString(); // Return JSON as a string for further processing
            } catch (IOException e) {
                throw new RuntimeException("Failed to read file", e);
            }
        });

        return readFileFuture.thenCompose(jsonContent -> {
            try {
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(jsonContent);
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();

                DescribeAlarmsForMetricRequest metricRequest = DescribeAlarmsForMetricRequest.builder()
                    .metricName(customMetricName)
                    .namespace(customMetricNamespace)
                    .build();

                return checkForAlarmAsync(metricRequest, customMetricName, 10);

            } catch (IOException e) {
                throw new RuntimeException("Failed to parse JSON content", e);
            }
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Error checking metric alarm", exception);
            }
        });
    }

    // Recursive method to check for the alarm.

    /**
     * Checks for the existence of an alarm asynchronously for the specified metric.
     *
     * @param metricRequest    the request to describe the alarms for the specified metric
     * @param customMetricName the name of the custom metric to check for an alarm
     * @param retries          the number of retries to perform if no alarm is found
     * @return a {@link CompletableFuture} that completes when an alarm is found or the maximum number of retries has been reached
     */
    private static CompletableFuture<Void> checkForAlarmAsync(DescribeAlarmsForMetricRequest metricRequest, String customMetricName, int retries) {
        if (retries == 0) {
            return CompletableFuture.completedFuture(null).thenRun(() ->
                logger.info("No Alarm state found for {} after 10 retries.", customMetricName)
            );
        }

        return (getAsyncClient().describeAlarmsForMetric(metricRequest).thenCompose(response -> {
            if (response.hasMetricAlarms()) {
                logger.info("Alarm state found for {}", customMetricName);
                return CompletableFuture.completedFuture(null); // Alarm found, complete the future
            } else {
                return CompletableFuture.runAsync(() -> {
                    try {
                        Thread.sleep(20000);
                        logger.info(".");
                    } catch (InterruptedException e) {
                        throw new RuntimeException("Interrupted while waiting to retry", e);
                    }
                }).thenCompose(v -> checkForAlarmAsync(metricRequest, customMetricName, retries - 1)); // Recursive call
            }
        }));
    }
```
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DescribeAlarmsForMetric)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAnomalyDetectors`
<a name="cloudwatch_DescribeAnomalyDetectors_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAnomalyDetectors`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Describes the anomaly detectors based on the specified JSON file.
     *
     * @param fileName the name of the JSON file containing the custom metric namespace and name
     * @return a {@link CompletableFuture} that completes when the anomaly detectors have been described
     * @throws RuntimeException if there is a failure during the operation, such as when reading or parsing the JSON file,
     *                          or when describing the anomaly detectors
     */
    public CompletableFuture<Void> describeAnomalyDetectorsAsync(String fileName) {
        CompletableFuture<JsonNode> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                return new ObjectMapper().readTree(parser);
            } catch (IOException e) {
                throw new RuntimeException("Failed to read or parse the file", e);
            }
        });

        return readFileFuture.thenCompose(rootNode -> {
            try {
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();

                DescribeAnomalyDetectorsRequest detectorsRequest = DescribeAnomalyDetectorsRequest.builder()
                    .maxResults(10)
                    .metricName(customMetricName)
                    .namespace(customMetricNamespace)
                    .build();

                return getAsyncClient().describeAnomalyDetectors(detectorsRequest).thenAccept(response -> {
                    List<AnomalyDetector> anomalyDetectorList = response.anomalyDetectors();
                    for (AnomalyDetector detector : anomalyDetectorList) {
                        logger.info("Metric name: {} ", detector.singleMetricAnomalyDetector().metricName());
                        logger.info("State: {} ", detector.stateValue());
                    }
                });
            } catch (RuntimeException e) {
                throw new RuntimeException("Failed to describe anomaly detectors", e);
            }
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Error describing anomaly detectors", exception);
            }
        });
    }
```
+  Untuk detail API, lihat [DescribeAnomalyDetectors](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DescribeAnomalyDetectors)di *Referensi AWS SDK for Java 2.x API*. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cloudwatch.CloudWatchClient;
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatch.model.DisableAlarmActionsRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DisableAlarmActions {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <alarmName>

                Where:
                  alarmName - An alarm name to disable (for example, MyAlarm).
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String alarmName = args[0];
        Region region = Region.US_EAST_1;
        CloudWatchClient cw = CloudWatchClient.builder()
                .region(region)
                .build();

        disableActions(cw, alarmName);
        cw.close();
    }

    public static void disableActions(CloudWatchClient cw, String alarmName) {
        try {
            DisableAlarmActionsRequest request = DisableAlarmActionsRequest.builder()
                    .alarmNames(alarmName)
                    .build();

            cw.disableAlarmActions(request);
            System.out.printf("Successfully disabled actions on alarm %s", alarmName);

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DisableAlarmActions](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/DisableAlarmActions)di *Referensi AWS SDK for Java 2.x API*. 

### `EnableAlarmActions`
<a name="cloudwatch_EnableAlarmActions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableAlarmActions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cloudwatch.CloudWatchClient;
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatch.model.EnableAlarmActionsRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class EnableAlarmActions {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <alarmName>

                Where:
                  alarmName - An alarm name to enable (for example, MyAlarm).
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String alarm = args[0];
        Region region = Region.US_EAST_1;
        CloudWatchClient cw = CloudWatchClient.builder()
                .region(region)
                .build();

        enableActions(cw, alarm);
        cw.close();
    }

    public static void enableActions(CloudWatchClient cw, String alarm) {
        try {
            EnableAlarmActionsRequest request = EnableAlarmActionsRequest.builder()
                    .alarmNames(alarm)
                    .build();

            cw.enableAlarmActions(request);
            System.out.printf("Successfully enabled actions on alarm %s", alarm);

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [EnableAlarmActions](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/EnableAlarmActions)di *Referensi AWS SDK for Java 2.x API*. 

### `GetMetricData`
<a name="cloudwatch_GetMetricData_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricData`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Retrieves custom metric data from the AWS CloudWatch service.
     *
     * @param fileName the name of the file containing the custom metric information
     * @return a {@link CompletableFuture} that completes when the metric data has been retrieved
     */
    public CompletableFuture<Void> getCustomMetricDataAsync(String fileName) {
        CompletableFuture<String> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                // Read values from the JSON file.
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
                return rootNode.toString(); // Return JSON as a string for further processing
            } catch (IOException e) {
                throw new RuntimeException("Failed to read file", e);
            }
        });

        return readFileFuture.thenCompose(jsonContent -> {
            try {
                // Parse the JSON string to extract relevant values.
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(jsonContent);
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();

                // Set the current time and date range for metric query.
                Instant nowDate = Instant.now();
                long hours = 1;
                long minutes = 30;
                Instant endTime = nowDate.plus(hours, ChronoUnit.HOURS).plus(minutes, ChronoUnit.MINUTES);

                Metric met = Metric.builder()
                    .metricName(customMetricName)
                    .namespace(customMetricNamespace)
                    .build();

                MetricStat metStat = MetricStat.builder()
                    .stat("Maximum")
                    .period(60)  // Assuming period in seconds
                    .metric(met)
                    .build();

                MetricDataQuery dataQuery = MetricDataQuery.builder()
                    .metricStat(metStat)
                    .id("foo2")
                    .returnData(true)
                    .build();

                List<MetricDataQuery> dq = new ArrayList<>();
                dq.add(dataQuery);

                GetMetricDataRequest getMetricDataRequest = GetMetricDataRequest.builder()
                    .maxDatapoints(10)
                    .scanBy(ScanBy.TIMESTAMP_DESCENDING)
                    .startTime(nowDate)
                    .endTime(endTime)
                    .metricDataQueries(dq)
                    .build();

                // Call the async method for CloudWatch data retrieval.
                return getAsyncClient().getMetricData(getMetricDataRequest);

            } catch (IOException e) {
                throw new RuntimeException("Failed to parse JSON content", e);
            }
        }).thenAccept(response -> {
            List<MetricDataResult> data = response.metricDataResults();
            for (MetricDataResult item : data) {
                logger.info("The label is: {}", item.label());
                logger.info("The status code is: {}", item.statusCode().toString());
            }
        }).exceptionally(exception -> {
            throw new RuntimeException("Failed to get metric data", exception);
        });
    }
```
+  Untuk detail API, lihat [GetMetricData](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/GetMetricData)di *Referensi AWS SDK for Java 2.x API*. 

### `GetMetricStatistics`
<a name="cloudwatch_GetMetricStatistics_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricStatistics`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Retrieves and displays metric statistics for the specified parameters.
     *
     * @param nameSpace    the namespace for the metric
     * @param metVal       the name of the metric
     * @param metricOption the statistic to retrieve for the metric (e.g., "Maximum", "Average")
     * @param date         the date for which to retrieve the metric statistics, in the format "yyyy-MM-dd'T'HH:mm:ss'Z'"
     * @param myDimension  the dimension(s) to filter the metric statistics by
     * @return a {@link CompletableFuture} that completes when the metric statistics have been retrieved and displayed
     */
    public CompletableFuture<GetMetricStatisticsResponse> getAndDisplayMetricStatisticsAsync(String nameSpace, String metVal,
                                                                                             String metricOption, String date, Dimension myDimension) {

        Instant start = Instant.parse(date);
        Instant endDate = Instant.now();

        // Building the request for metric statistics.
        GetMetricStatisticsRequest statisticsRequest = GetMetricStatisticsRequest.builder()
            .endTime(endDate)
            .startTime(start)
            .dimensions(myDimension)
            .metricName(metVal)
            .namespace(nameSpace)
            .period(86400) // 1 day period
            .statistics(Statistic.fromValue(metricOption))
            .build();

        return getAsyncClient().getMetricStatistics(statisticsRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    List<Datapoint> data = response.datapoints();
                    if (!data.isEmpty()) {
                        for (Datapoint datapoint : data) {
                            logger.info("Timestamp: {} Maximum value: {}", datapoint.timestamp(), datapoint.maximum());
                        }
                    } else {
                        logger.info("The returned data list is empty");
                    }
                } else {
                    logger.info("Failed to get metric statistics: {} ", exception.getMessage());
                }
            })
            .exceptionally(exception -> {
                throw new RuntimeException("Error while getting metric statistics: " + exception.getMessage(), exception);
            });
    }
```
+  Untuk detail API, lihat [GetMetricStatistics](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/GetMetricStatistics)di *Referensi AWS SDK for Java 2.x API*. 

### `GetMetricWidgetImage`
<a name="cloudwatch_GetMetricWidgetImage_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricWidgetImage`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Retrieves and saves a custom metric image to a file.
     *
     * @param fileName the name of the file to save the metric image to
     * @return a {@link CompletableFuture} that completes when the image has been saved to the file
     */
    public CompletableFuture<Void> downloadAndSaveMetricImageAsync(String fileName) {
        logger.info("Getting Image data for custom metric.");
        String myJSON = """
              {
                  "title": "Example Metric Graph",
                  "view": "timeSeries",
                  "stacked ": false,
                  "period": 10,
                  "width": 1400,
                  "height": 600,
                  "metrics": [
                      [
                      "AWS/Billing",
                      "EstimatedCharges",
                      "Currency",
                      "USD"
                     ]
                  ]
              }
            """;

        GetMetricWidgetImageRequest imageRequest = GetMetricWidgetImageRequest.builder()
            .metricWidget(myJSON)
            .build();

        return getAsyncClient().getMetricWidgetImage(imageRequest)
            .thenCompose(response -> {
                SdkBytes sdkBytes = response.metricWidgetImage();
                byte[] bytes = sdkBytes.asByteArray();
                return CompletableFuture.runAsync(() -> {
                    try {
                        File outputFile = new File(fileName);
                        try (FileOutputStream outputStream = new FileOutputStream(outputFile)) {
                            outputStream.write(bytes);
                        }
                    } catch (IOException e) {
                        throw new RuntimeException("Failed to write image to file", e);
                    }
                });
            })
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Error getting and saving metric image", exception);
                } else {
                    logger.info("Image data saved successfully to {}", fileName);
                }
            });
    }
```
+  Untuk detail API, lihat [GetMetricWidgetImage](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/GetMetricWidgetImage)di *Referensi AWS SDK for Java 2.x API*. 

### `ListDashboards`
<a name="cloudwatch_ListDashboards_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDashboards`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Lists the available dashboards.
     *
     * @return a {@link CompletableFuture} that completes when the operation is finished.
     * The future will complete exceptionally if an error occurs while listing the dashboards.
     */
    public CompletableFuture<Void> listDashboardsAsync() {
        ListDashboardsRequest listDashboardsRequest = ListDashboardsRequest.builder().build();
        ListDashboardsPublisher paginator = getAsyncClient().listDashboardsPaginator(listDashboardsRequest);
        return paginator.subscribe(response -> {
            response.dashboardEntries().forEach(entry -> {
                logger.info("Dashboard name is: {} ", entry.dashboardName());
                logger.info("Dashboard ARN is: {} ", entry.dashboardArn());
            });
        }).exceptionally(ex -> {
            logger.info("Failed to list dashboards: {} ", ex.getMessage());
            throw new RuntimeException("Error occurred while listing dashboards", ex);
        });
    }
```
+  Untuk detail API, lihat [ListDashboards](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/ListDashboards)di *Referensi AWS SDK for Java 2.x API*. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Retrieves a list of metric names for the specified namespace.
     *
     * @param namespace the namespace for which to retrieve the metric names
     * @return a {@link CompletableFuture} that, when completed, contains an {@link ArrayList} of
     * the metric names in the specified namespace
     * @throws RuntimeException if an error occurs while listing the metrics
     */
    public CompletableFuture<ArrayList<String>> listMetsAsync(String namespace) {
        ListMetricsRequest request = ListMetricsRequest.builder()
            .namespace(namespace)
            .build();

        ListMetricsPublisher metricsPaginator = getAsyncClient().listMetricsPaginator(request);
        Set<String> metSet = new HashSet<>();
        CompletableFuture<Void> future = metricsPaginator.subscribe(response -> {
            response.metrics().forEach(metric -> {
                String metricName = metric.metricName();
                metSet.add(metricName);
            });
        });

        return future
            .thenApply(ignored -> new ArrayList<>(metSet))
            .exceptionally(exception -> {
                throw new RuntimeException("Failed to list metrics: " + exception.getMessage(), exception);
            });
    }
```
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/ListMetrics)di *Referensi AWS SDK for Java 2.x API*. 

### `PutAnomalyDetector`
<a name="cloudwatch_PutAnomalyDetector_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutAnomalyDetector`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Adds an anomaly detector for the given file.
     *
     * @param fileName the name of the file containing the anomaly detector configuration
     * @return a {@link CompletableFuture} that completes when the anomaly detector has been added
     */
    public CompletableFuture<Void> addAnomalyDetectorAsync(String fileName) {
        CompletableFuture<JsonNode> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                return new ObjectMapper().readTree(parser); // Return the root node
            } catch (IOException e) {
                throw new RuntimeException("Failed to read or parse the file", e);
            }
        });

        return readFileFuture.thenCompose(rootNode -> {
            try {
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();

                SingleMetricAnomalyDetector singleMetricAnomalyDetector = SingleMetricAnomalyDetector.builder()
                    .metricName(customMetricName)
                    .namespace(customMetricNamespace)
                    .stat("Maximum")
                    .build();

                PutAnomalyDetectorRequest anomalyDetectorRequest = PutAnomalyDetectorRequest.builder()
                    .singleMetricAnomalyDetector(singleMetricAnomalyDetector)
                    .build();

                return getAsyncClient().putAnomalyDetector(anomalyDetectorRequest).thenAccept(response -> {
                    logger.info("Added anomaly detector for metric {}", customMetricName);
                });
            } catch (Exception e) {
                throw new RuntimeException("Failed to create anomaly detector", e);
            }
        }).whenComplete((result, exception) -> {
            if (exception != null) {
                throw new RuntimeException("Error adding anomaly detector", exception);
            }
        });
    }
```
+  Untuk detail API, lihat [PutAnomalyDetector](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutAnomalyDetector)di *Referensi AWS SDK for Java 2.x API*. 

### `PutDashboard`
<a name="cloudwatch_PutDashboard_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutDashboard`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Creates a new dashboard with the specified name and metrics from the given file.
     *
     * @param dashboardName the name of the dashboard to be created
     * @param fileName      the name of the file containing the dashboard body
     * @return a {@link CompletableFuture} representing the asynchronous operation of creating the dashboard
     * @throws IOException if there is an error reading the dashboard body from the file
     */
    public CompletableFuture<PutDashboardResponse> createDashboardWithMetricsAsync(String dashboardName, String fileName) throws IOException {
        String dashboardBody = readFileAsString(fileName);
        PutDashboardRequest dashboardRequest = PutDashboardRequest.builder()
            .dashboardName(dashboardName)
            .dashboardBody(dashboardBody)
            .build();

        return getAsyncClient().putDashboard(dashboardRequest)
            .handle((response, ex) -> {
                if (ex != null) {
                    logger.info("Failed to create dashboard: {}", ex.getMessage());
                    throw new RuntimeException("Dashboard creation failed", ex);
                } else {
                    // Handle the normal response case
                    logger.info("{} was successfully created.", dashboardName);
                    List<DashboardValidationMessage> messages = response.dashboardValidationMessages();
                    if (messages.isEmpty()) {
                        logger.info("There are no messages in the new Dashboard.");
                    } else {
                        for (DashboardValidationMessage message : messages) {
                            logger.info("Message: {}", message.message());
                        }
                    }
                    return response; // Return the response for further use
                }
            });
    }
```
+  Untuk detail API, lihat [PutDashboard](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutDashboard)di *Referensi AWS SDK for Java 2.x API*. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Creates an alarm based on the configuration provided in a JSON file.
     *
     * @param fileName the name of the JSON file containing the alarm configuration
     * @return a CompletableFuture that represents the asynchronous operation of creating the alarm
     * @throws RuntimeException if an exception occurs while reading the JSON file or creating the alarm
     */
    public CompletableFuture<String> createAlarmAsync(String fileName) {
        com.fasterxml.jackson.databind.JsonNode rootNode;
        try {
            JsonParser parser = new JsonFactory().createParser(new File(fileName));
            rootNode = new ObjectMapper().readTree(parser);
        } catch (IOException e) {
            throw new RuntimeException("Failed to read the alarm configuration file", e);
        }

        // Extract values from the JSON node.
        String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
        String customMetricName = rootNode.findValue("customMetricName").asText();
        String alarmName = rootNode.findValue("exampleAlarmName").asText();
        String emailTopic = rootNode.findValue("emailTopic").asText();
        String accountId = rootNode.findValue("accountId").asText();
        String region = rootNode.findValue("region").asText();

        // Create a List for alarm actions.
        List<String> alarmActions = new ArrayList<>();
        alarmActions.add("arn:aws:sns:" + region + ":" + accountId + ":" + emailTopic);

        PutMetricAlarmRequest alarmRequest = PutMetricAlarmRequest.builder()
            .alarmActions(alarmActions)
            .alarmDescription("Example metric alarm")
            .alarmName(alarmName)
            .comparisonOperator(ComparisonOperator.GREATER_THAN_OR_EQUAL_TO_THRESHOLD)
            .threshold(100.00)
            .metricName(customMetricName)
            .namespace(customMetricNamespace)
            .evaluationPeriods(1)
            .period(10)
            .statistic("Maximum")
            .datapointsToAlarm(1)
            .treatMissingData("ignore")
            .build();

        // Call the putMetricAlarm asynchronously and handle the result.
        return getAsyncClient().putMetricAlarm(alarmRequest)
            .handle((response, ex) -> {
                if (ex != null) {
                    logger.info("Failed to create alarm: {}", ex.getMessage());
                    throw new RuntimeException("Failed to create alarm", ex);
                } else {
                    logger.info("{} was successfully created!", alarmName);
                    return alarmName;
                }
            });
    }
```
+  Untuk detail API, lihat [PutMetricAlarm](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutMetricAlarm)di *Referensi AWS SDK for Java 2.x API*. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
    /**
     * Adds metric data for an alarm asynchronously.
     *
     * @param fileName the name of the JSON file containing the metric data
     * @return a CompletableFuture that asynchronously returns the PutMetricDataResponse
     */
    public CompletableFuture<PutMetricDataResponse> addMetricDataForAlarmAsync(String fileName) {
        CompletableFuture<String> readFileFuture = CompletableFuture.supplyAsync(() -> {
            try {
                JsonParser parser = new JsonFactory().createParser(new File(fileName));
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
                return rootNode.toString(); // Return JSON as a string for further processing
            } catch (IOException e) {
                throw new RuntimeException("Failed to read file", e);
            }
        });

        return readFileFuture.thenCompose(jsonContent -> {
            try {
                com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(jsonContent);
                String customMetricNamespace = rootNode.findValue("customMetricNamespace").asText();
                String customMetricName = rootNode.findValue("customMetricName").asText();
                Instant instant = Instant.now();

                // Create MetricDatum objects.
                MetricDatum datum1 = MetricDatum.builder()
                    .metricName(customMetricName)
                    .unit(StandardUnit.NONE)
                    .value(1001.00)
                    .timestamp(instant)
                    .build();

                MetricDatum datum2 = MetricDatum.builder()
                    .metricName(customMetricName)
                    .unit(StandardUnit.NONE)
                    .value(1002.00)
                    .timestamp(instant)
                    .build();

                List<MetricDatum> metricDataList = new ArrayList<>();
                metricDataList.add(datum1);
                metricDataList.add(datum2);

                // Build the PutMetricData request.
                PutMetricDataRequest request = PutMetricDataRequest.builder()
                    .namespace(customMetricNamespace)
                    .metricData(metricDataList)
                    .build();

                // Send the request asynchronously.
                return getAsyncClient().putMetricData(request);

            } catch (IOException e) {
                CompletableFuture<PutMetricDataResponse> failedFuture = new CompletableFuture<>();
                failedFuture.completeExceptionally(new RuntimeException("Failed to parse JSON content", e));
                return failedFuture;
            }
        }).whenComplete((response, exception) -> {
            if (exception != null) {
                logger.error("Failed to put metric data: " + exception.getMessage(), exception);
            } else {
                logger.info("Added metric values for metric.");
            }
        });
    }
```
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutMetricData)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Pantau kinerja DynamoDB
<a name="cross_MonitorDynamoDB_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengkonfigurasi penggunaan aplikasi DynamoDB untuk memantau kinerja.

**SDK untuk Java 2.x**  
 Contoh ini menunjukkan cara mengkonfigurasi aplikasi Java untuk memantau kinerja DynamoDB. Aplikasi mengirimkan data metrik ke CloudWatch tempat Anda dapat memantau kinerja.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/monitor_dynamodb).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch
+ DynamoDB

# CloudWatch Contoh acara menggunakan SDK for Java 2.x
<a name="java_2_cloudwatch-events_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x With CloudWatch Events.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutEvents`
<a name="cloudwatch-events_PutEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatchevents.CloudWatchEventsClient;
import software.amazon.awssdk.services.cloudwatchevents.model.PutEventsRequest;
import software.amazon.awssdk.services.cloudwatchevents.model.PutEventsRequestEntry;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PutEvents {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                   <resourceArn>

                Where:
                   resourceArn - An Amazon Resource Name (ARN) related to the events.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String resourceArn = args[0];
        CloudWatchEventsClient cwe = CloudWatchEventsClient.builder()
                .build();

        putCWEvents(cwe, resourceArn);
        cwe.close();
    }

    public static void putCWEvents(CloudWatchEventsClient cwe, String resourceArn) {
        try {
            final String EVENT_DETAILS = "{ \"key1\": \"value1\", \"key2\": \"value2\" }";

            PutEventsRequestEntry requestEntry = PutEventsRequestEntry.builder()
                    .detail(EVENT_DETAILS)
                    .detailType("sampleSubmitted")
                    .resources(resourceArn)
                    .source("aws-sdk-java-cloudwatch-example")
                    .build();

            PutEventsRequest request = PutEventsRequest.builder()
                    .entries(requestEntry)
                    .build();

            cwe.putEvents(request);
            System.out.println("Successfully put CloudWatch event");

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutEvents)di *Referensi AWS SDK for Java 2.x API*. 

### `PutRule`
<a name="cloudwatch-events_PutRule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatchevents.CloudWatchEventsClient;
import software.amazon.awssdk.services.cloudwatchevents.model.PutRuleRequest;
import software.amazon.awssdk.services.cloudwatchevents.model.PutRuleResponse;
import software.amazon.awssdk.services.cloudwatchevents.model.RuleState;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PutRule {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <ruleName> roleArn>\s

                Where:
                  ruleName - A rule name (for example, myrule).
                  roleArn - A role ARN value (for example, arn:aws:iam::xxxxxx047983:user/MyUser).
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String ruleName = args[0];
        String roleArn = args[1];
        CloudWatchEventsClient cwe = CloudWatchEventsClient.builder()
                .build();

        putCWRule(cwe, ruleName, roleArn);
        cwe.close();
    }

    public static void putCWRule(CloudWatchEventsClient cwe, String ruleName, String roleArn) {
        try {
            PutRuleRequest request = PutRuleRequest.builder()
                    .name(ruleName)
                    .roleArn(roleArn)
                    .scheduleExpression("rate(5 minutes)")
                    .state(RuleState.ENABLED)
                    .build();

            PutRuleResponse response = cwe.putRule(request);
            System.out.printf(
                    "Successfully created CloudWatch events rule %s with arn %s",
                    roleArn, response.ruleArn());

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutRule)di *Referensi AWS SDK for Java 2.x API*. 

### `PutTargets`
<a name="cloudwatch-events_PutTargets_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatchevents.CloudWatchEventsClient;
import software.amazon.awssdk.services.cloudwatchevents.model.PutTargetsRequest;
import software.amazon.awssdk.services.cloudwatchevents.model.Target;

/**
 * To run this Java V2 code example, ensure that you have setup your development
 * environment, including your credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PutTargets {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <ruleName> <functionArn> <targetId>\s

                Where:
                  ruleName - A rule name (for example, myrule).
                  functionArn - An AWS Lambda function ARN (for example, arn:aws:lambda:us-west-2:xxxxxx047983:function:lamda1).
                  targetId - A target id value.
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String ruleName = args[0];
        String functionArn = args[1];
        String targetId = args[2];
        CloudWatchEventsClient cwe = CloudWatchEventsClient.builder()
                .build();

        putCWTargets(cwe, ruleName, functionArn, targetId);
        cwe.close();
    }

    public static void putCWTargets(CloudWatchEventsClient cwe, String ruleName, String functionArn, String targetId) {
        try {
            Target target = Target.builder()
                    .arn(functionArn)
                    .id(targetId)
                    .build();

            PutTargetsRequest request = PutTargetsRequest.builder()
                    .targets(target)
                    .rule(ruleName)
                    .build();

            cwe.putTargets(request);
            System.out.printf(
                    "Successfully created CloudWatch events target for rule %s",
                    ruleName);

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutTargets](https://docs.aws.amazon.com/goto/SdkForJavaV2/monitoring-2010-08-01/PutTargets)di *Referensi AWS SDK for Java 2.x API*. 

# CloudWatch Contoh log menggunakan SDK for Java 2.x
<a name="java_2_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x With CloudWatch Logs.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DeleteSubscriptionFilter`
<a name="cloudwatch-logs_DeleteSubscriptionFilter_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSubscriptionFilter`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch-logs#code-examples). 

```
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatchlogs.CloudWatchLogsClient;
import software.amazon.awssdk.services.cloudwatchlogs.model.DeleteSubscriptionFilterRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteSubscriptionFilter {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <filter> <logGroup>

                Where:
                  filter - The name of the subscription filter (for example, MyFilter).
                  logGroup - The name of the log group. (for example, testgroup).
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String filter = args[0];
        String logGroup = args[1];
        CloudWatchLogsClient logs = CloudWatchLogsClient.builder()
                .build();

        deleteSubFilter(logs, filter, logGroup);
        logs.close();
    }

    public static void deleteSubFilter(CloudWatchLogsClient logs, String filter, String logGroup) {
        try {
            DeleteSubscriptionFilterRequest request = DeleteSubscriptionFilterRequest.builder()
                    .filterName(filter)
                    .logGroupName(logGroup)
                    .build();

            logs.deleteSubscriptionFilter(request);
            System.out.printf("Successfully deleted CloudWatch logs subscription filter %s", filter);

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteSubscriptionFilter](https://docs.aws.amazon.com/goto/SdkForJavaV2/logs-2014-03-28/DeleteSubscriptionFilter)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeLogStreams`
<a name="cloudwatch-logs_DescribeLogStreams_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeLogStreams`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch-logs#code-examples). 
Mencari aliran log dalam grup log tertentu yang cocok dengan awalan yang diberikan.  

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CloudWatchLogsSearch {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <logGroupName> <logStreamName> 

                Where:
                  logGroupName - The name of the log group (for example, WeathertopJavaContainerLogs).
                  logStreamName - The name of the log stream (for example, weathertop-java-stream).
                  pattern - the pattern to use (for example, INFO) 
                  
                """;

        if (args.length != 3) {
            System.out.print(usage);
            System.exit(1);
        }

        String logGroupName = args[0] ;
        String logStreamName = args[1] ;
        String pattern = args[2] ;

        CloudWatchLogsClient cwlClient = CloudWatchLogsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        searchLogStreamsAndFilterEvents(cwlClient, logGroupName, logStreamName, pattern);
    }

    /**
     * Searches for log streams with a specific prefix within a log group and filters log events based on a specified pattern.
     *
     * @param cwlClient       the CloudWatchLogsClient used to interact with AWS CloudWatch Logs
     * @param logGroupName    the name of the log group to search within
     * @param logStreamPrefix the prefix of the log streams to search for
     * @param pattern         the pattern to filter log events by
     */
    public static void searchLogStreamsAndFilterEvents(CloudWatchLogsClient cwlClient, String logGroupName, String logStreamPrefix, String pattern) {
        DescribeLogStreamsRequest describeLogStreamsRequest = DescribeLogStreamsRequest.builder()
                .logGroupName(logGroupName)
                .logStreamNamePrefix(logStreamPrefix)
                .build();

        DescribeLogStreamsResponse describeLogStreamsResponse = cwlClient.describeLogStreams(describeLogStreamsRequest);
        List<LogStream> logStreams = describeLogStreamsResponse.logStreams();

        for (LogStream logStream : logStreams) {
            String logStreamName = logStream.logStreamName();
            System.out.println("Searching in log stream: " + logStreamName);

            FilterLogEventsRequest filterLogEventsRequest = FilterLogEventsRequest.builder()
                    .logGroupName(logGroupName)
                    .logStreamNames(logStreamName)
                    .filterPattern(pattern)
                    .build();

            FilterLogEventsResponse filterLogEventsResponse = cwlClient.filterLogEvents(filterLogEventsRequest);

            for (FilteredLogEvent event : filterLogEventsResponse.events()) {
                System.out.println(event.message());
            }

            System.out.println("--------------------------------------------------"); // Separator for better readability
        }
    }
}
```
Mencetak metadata tentang aliran log terbaru dalam grup log tertentu.  

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CloudWatchLogQuery {
    public static void main(final String[] args) {
        final String usage = """
                Usage:
                  <logGroupName>

                Where:
                  logGroupName - The name of the log group (for example, /aws/lambda/ChatAIHandler).
                """;

        if (args.length != 1) {
            System.out.print(usage);
            System.exit(1);
        }

        String logGroupName = "/aws/lambda/ChatAIHandler" ; //args[0];
        CloudWatchLogsClient logsClient = CloudWatchLogsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        describeMostRecentLogStream(logsClient, logGroupName);
    }

    /**
     * Describes and prints metadata about the most recent log stream in the specified log group.
     *
     * @param logsClient   the CloudWatchLogsClient used to interact with AWS CloudWatch Logs
     * @param logGroupName the name of the log group
     */
    public static void describeMostRecentLogStream(CloudWatchLogsClient logsClient, String logGroupName) {
        DescribeLogStreamsRequest streamsRequest = DescribeLogStreamsRequest.builder()
                .logGroupName(logGroupName)
                .orderBy(OrderBy.LAST_EVENT_TIME)
                .descending(true)
                .limit(1)
                .build();

        try {
            DescribeLogStreamsResponse streamsResponse = logsClient.describeLogStreams(streamsRequest);
            List<LogStream> logStreams = streamsResponse.logStreams();

            if (logStreams.isEmpty()) {
                System.out.println("No log streams found for log group: " + logGroupName);
                return;
            }

            LogStream stream = logStreams.get(0);
            System.out.println("Most Recent Log Stream:");
            System.out.println("  Name: " + stream.logStreamName());
            System.out.println("  ARN: " + stream.arn());
            System.out.println("  Creation Time: " + stream.creationTime());
            System.out.println("  First Event Time: " + stream.firstEventTimestamp());
            System.out.println("  Last Event Time: " + stream.lastEventTimestamp());
            System.out.println("  Stored Bytes: " + stream.storedBytes());
            System.out.println("  Upload Sequence Token: " + stream.uploadSequenceToken());

        } catch (CloudWatchLogsException e) {
            System.err.println("Failed to describe log stream: " + e.awsErrorDetails().errorMessage());
        }
    }
}
```
+  Untuk detail API, lihat [DescribeLogStreams](https://docs.aws.amazon.com/goto/SdkForJavaV2/logs-2014-03-28/DescribeLogStreams)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeSubscriptionFilters`
<a name="cloudwatch-logs_DescribeSubscriptionFilters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSubscriptionFilters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch-logs#code-examples). 

```
import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatchlogs.CloudWatchLogsClient;
import software.amazon.awssdk.services.cloudwatchlogs.model.DescribeSubscriptionFiltersRequest;
import software.amazon.awssdk.services.cloudwatchlogs.model.DescribeSubscriptionFiltersResponse;
import software.amazon.awssdk.services.cloudwatchlogs.model.SubscriptionFilter;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeSubscriptionFilters {
    public static void main(String[] args) {

        final String usage = """

                Usage:
                  <logGroup>

                Where:
                  logGroup - A log group name (for example, myloggroup).
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String logGroup = args[0];
        CloudWatchLogsClient logs = CloudWatchLogsClient.builder()
                .credentialsProvider(ProfileCredentialsProvider.create())
                .build();

        describeFilters(logs, logGroup);
        logs.close();
    }

    public static void describeFilters(CloudWatchLogsClient logs, String logGroup) {
        try {
            boolean done = false;
            String newToken = null;

            while (!done) {
                DescribeSubscriptionFiltersResponse response;
                if (newToken == null) {
                    DescribeSubscriptionFiltersRequest request = DescribeSubscriptionFiltersRequest.builder()
                            .logGroupName(logGroup)
                            .limit(1).build();

                    response = logs.describeSubscriptionFilters(request);
                } else {
                    DescribeSubscriptionFiltersRequest request = DescribeSubscriptionFiltersRequest.builder()
                            .nextToken(newToken)
                            .logGroupName(logGroup)
                            .limit(1).build();
                    response = logs.describeSubscriptionFilters(request);
                }

                for (SubscriptionFilter filter : response.subscriptionFilters()) {
                    System.out.printf("Retrieved filter with name %s, " + "pattern %s " + "and destination arn %s",
                            filter.filterName(),
                            filter.filterPattern(),
                            filter.destinationArn());
                }

                if (response.nextToken() == null) {
                    done = true;
                } else {
                    newToken = response.nextToken();
                }
            }

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.printf("Done");
    }
}
```
+  Untuk detail API, lihat [DescribeSubscriptionFilters](https://docs.aws.amazon.com/goto/SdkForJavaV2/logs-2014-03-28/DescribeSubscriptionFilters)di *Referensi AWS SDK for Java 2.x API*. 

### `GetLogEvents`
<a name="cloudwatch-logs_GetLogEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetLogEvents`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cloudwatch.model.CloudWatchException;
import software.amazon.awssdk.services.cloudwatchlogs.CloudWatchLogsClient;
import software.amazon.awssdk.services.cloudwatchlogs.model.DescribeLogStreamsRequest;
import software.amazon.awssdk.services.cloudwatchlogs.model.DescribeLogStreamsResponse;
import software.amazon.awssdk.services.cloudwatchlogs.model.GetLogEventsRequest;
import software.amazon.awssdk.services.cloudwatchlogs.model.GetLogEventsResponse;

import java.time.Instant;
import java.time.temporal.ChronoUnit;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetLogEvents {

    public static void main(String[] args) {

        final String usage = """

                Usage:
                  <logGroupName> <logStreamName> 

                Where:
                  logGroupName - The name of the log group (for example, myloggroup).
                  logStreamName - The name of the log stream (for example, mystream).
                  
                """;

       // if (args.length != 2) {
       //     System.out.print(usage);
       //     System.exit(1);
//        }

        String logGroupName = "WeathertopJavaContainerLogs" ; //args[0];
        String logStreamName = "weathertop-java-stream" ; //args[1];

        Region region = Region.US_EAST_1 ;
        CloudWatchLogsClient cloudWatchLogsClient = CloudWatchLogsClient.builder()
                .region(region)
                .build();

        getCWLogEvents(cloudWatchLogsClient, logGroupName, logStreamName);
        cloudWatchLogsClient.close();
    }

    public static void getCWLogEvents(CloudWatchLogsClient cloudWatchLogsClient,
                                      String logGroupName,
                                      String logStreamPrefix) {
        try {
            // First, find the exact log stream name
            DescribeLogStreamsRequest describeRequest = DescribeLogStreamsRequest.builder()
                    .logGroupName(logGroupName)
                    .logStreamNamePrefix(logStreamPrefix)
                    .limit(1) // get the first matching stream
                    .build();

            DescribeLogStreamsResponse describeResponse = cloudWatchLogsClient.describeLogStreams(describeRequest);

            if (describeResponse.logStreams().isEmpty()) {
                System.out.println("No matching log streams found for prefix: " + logStreamPrefix);
                return;
            }

            String exactLogStreamName = describeResponse.logStreams().get(0).logStreamName();
            System.out.println("Using exact log stream: " + exactLogStreamName);

            long startTime = Instant.now().minus(7, ChronoUnit.DAYS).toEpochMilli();
            long endTime = Instant.now().toEpochMilli();

            GetLogEventsRequest getLogEventsRequest = GetLogEventsRequest.builder()
                    .logGroupName(logGroupName)
                    .logStreamName(exactLogStreamName) // <-- exact name, not prefix
                    .startTime(startTime)
                    .endTime(endTime)
                    .startFromHead(true)
                    .build();

            GetLogEventsResponse response = cloudWatchLogsClient.getLogEvents(getLogEventsRequest);

            if (response.events().isEmpty()) {
                System.out.println("No log events found in the past 7 days.");
            } else {
                response.events().forEach(e -> System.out.println(e.message()));
            }

        } catch (CloudWatchException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetLogEvents](https://docs.aws.amazon.com/goto/SdkForJavaV2/logs-2014-03-28/GetLogEvents)di *Referensi AWS SDK for Java 2.x API*. 

### `PutSubscriptionFilter`
<a name="cloudwatch-logs_PutSubscriptionFilter_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutSubscriptionFilter`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cloudwatch-logs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cloudwatchlogs.CloudWatchLogsClient;
import software.amazon.awssdk.services.cloudwatchlogs.model.CloudWatchLogsException;
import software.amazon.awssdk.services.cloudwatchlogs.model.PutSubscriptionFilterRequest;

/**
 * Before running this code example, you need to grant permission to CloudWatch
 * Logs the right to execute your Lambda function.
 * To perform this task, you can use this CLI command:
 *
 * aws lambda add-permission --function-name "lamda1" --statement-id "lamda1"
 * --principal "logs.us-west-2.amazonaws.com" --action "lambda:InvokeFunction"
 * --source-arn "arn:aws:logs:us-west-2:111111111111:log-group:testgroup:*"
 * --source-account "111111111111"
 *
 * Make sure you replace the function name with your function name and replace
 * '111111111111' with your account details.
 * For more information, see "Subscription Filters with AWS Lambda" in the
 * Amazon CloudWatch Logs Guide.
 *
 *
 * Also, before running this Java V2 code example,set up your development
 * environment,including your credentials.
 *
 * For more information,see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 */

public class PutSubscriptionFilter {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <filter> <pattern> <logGroup> <functionArn>\s

                Where:
                  filter - A filter name (for example, myfilter).
                  pattern - A filter pattern (for example, ERROR).
                  logGroup - A log group name (testgroup).
                  functionArn - An AWS Lambda function ARN (for example, arn:aws:lambda:us-west-2:111111111111:function:lambda1) .
                """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String filter = args[0];
        String pattern = args[1];
        String logGroup = args[2];
        String functionArn = args[3];
        Region region = Region.US_WEST_2;
        CloudWatchLogsClient cwl = CloudWatchLogsClient.builder()
                .region(region)
                .build();

        putSubFilters(cwl, filter, pattern, logGroup, functionArn);
        cwl.close();
    }

    public static void putSubFilters(CloudWatchLogsClient cwl,
            String filter,
            String pattern,
            String logGroup,
            String functionArn) {

        try {
            PutSubscriptionFilterRequest request = PutSubscriptionFilterRequest.builder()
                    .filterName(filter)
                    .filterPattern(pattern)
                    .logGroupName(logGroup)
                    .destinationArn(functionArn)
                    .build();

            cwl.putSubscriptionFilter(request);
            System.out.printf(
                    "Successfully created CloudWatch logs subscription filter %s",
                    filter);

        } catch (CloudWatchLogsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutSubscriptionFilter](https://docs.aws.amazon.com/goto/SdkForJavaV2/logs-2014-03-28/PutSubscriptionFilter)di *Referensi AWS SDK for Java 2.x API*. 

### `StartLiveTail`
<a name="cloudwatch-logs_StartLiveTail_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartLiveTail`.

**SDK untuk Java 2.x**  
Sertakan file-file yang diperlukan.  

```
import io.reactivex.FlowableSubscriber;
import io.reactivex.annotations.NonNull;
import org.reactivestreams.Subscription;
import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.services.cloudwatchlogs.CloudWatchLogsAsyncClient;
import software.amazon.awssdk.services.cloudwatchlogs.model.LiveTailSessionLogEvent;
import software.amazon.awssdk.services.cloudwatchlogs.model.LiveTailSessionStart;
import software.amazon.awssdk.services.cloudwatchlogs.model.LiveTailSessionUpdate;
import software.amazon.awssdk.services.cloudwatchlogs.model.StartLiveTailRequest;
import software.amazon.awssdk.services.cloudwatchlogs.model.StartLiveTailResponseHandler;
import software.amazon.awssdk.services.cloudwatchlogs.model.CloudWatchLogsException;
import software.amazon.awssdk.services.cloudwatchlogs.model.StartLiveTailResponseStream;

import java.util.Date;
import java.util.List;
import java.util.concurrent.atomic.AtomicReference;
```
Tangani acara dari sesi Live Tail.  

```
    private static StartLiveTailResponseHandler getStartLiveTailResponseStreamHandler(
            AtomicReference<Subscription> subscriptionAtomicReference) {
        return StartLiveTailResponseHandler.builder()
            .onResponse(r -> System.out.println("Received initial response"))
            .onError(throwable -> {
                CloudWatchLogsException e = (CloudWatchLogsException) throwable.getCause();
                System.err.println(e.awsErrorDetails().errorMessage());
                System.exit(1);
            })
            .subscriber(() -> new FlowableSubscriber<>() {
                @Override
                public void onSubscribe(@NonNull Subscription s) {
                    subscriptionAtomicReference.set(s);
                    s.request(Long.MAX_VALUE);
                }

                @Override
                public void onNext(StartLiveTailResponseStream event) {
                    if (event instanceof LiveTailSessionStart) {
                        LiveTailSessionStart sessionStart = (LiveTailSessionStart) event;
                        System.out.println(sessionStart);
                    } else if (event instanceof LiveTailSessionUpdate) {
                        LiveTailSessionUpdate sessionUpdate = (LiveTailSessionUpdate) event;
                        List<LiveTailSessionLogEvent> logEvents = sessionUpdate.sessionResults();
                        logEvents.forEach(e -> {
                            long timestamp = e.timestamp();
                            Date date = new Date(timestamp);
                            System.out.println("[" + date + "] " + e.message());
                        });
                    } else {
                        throw CloudWatchLogsException.builder().message("Unknown event type").build();
                    }
                }

                @Override
                public void onError(Throwable throwable) {
                    System.out.println(throwable.getMessage());
                    System.exit(1);
                }

                @Override
                public void onComplete() {
                    System.out.println("Completed Streaming Session");
                }
            })
            .build();
    }
```
Mulai sesi Live Tail.  

```
        CloudWatchLogsAsyncClient cloudWatchLogsAsyncClient =
                CloudWatchLogsAsyncClient.builder()
                    .credentialsProvider(ProfileCredentialsProvider.create())
                    .build();

        StartLiveTailRequest request =
                StartLiveTailRequest.builder()
                    .logGroupIdentifiers(logGroupIdentifiers)
                    .logStreamNames(logStreamNames)
                    .logEventFilterPattern(logEventFilterPattern)
                    .build();

        /* Create a reference to store the subscription */ 
        final AtomicReference<Subscription> subscriptionAtomicReference = new AtomicReference<>(null);

        cloudWatchLogsAsyncClient.startLiveTail(request, getStartLiveTailResponseStreamHandler(subscriptionAtomicReference));
```
Hentikan sesi Live Tail setelah periode waktu berlalu.  

```
        /* Set a timeout for the session and cancel the subscription. This will:
         * 1). Close the stream
         * 2). Stop the Live Tail session
         */
        try {
            Thread.sleep(10000);
        } catch (InterruptedException e) {
            throw new RuntimeException(e);
        }
        if (subscriptionAtomicReference.get() != null) {
            subscriptionAtomicReference.get().cancel();
            System.out.println("Subscription to stream closed");
        }
```
+  Untuk detail API, lihat [StartLiveTail](https://docs.aws.amazon.com/goto/SdkForJavaV2/logs-2014-03-28/StartLiveTail)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda menggunakan API runtime Java Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_scheduled_events).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

# Contoh Identitas Amazon Cognito menggunakan SDK for Java 2.x
<a name="java_2_cognito-identity_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Identitas Cognito AWS SDK for Java 2.x With Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateIdentityPool`
<a name="cognito-identity_CreateIdentityPool_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateIdentityPool`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentity.CognitoIdentityClient;
import software.amazon.awssdk.services.cognitoidentity.model.CreateIdentityPoolRequest;
import software.amazon.awssdk.services.cognitoidentity.model.CreateIdentityPoolResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateIdentityPool {
    public static void main(String[] args) {
        final String usage = """
                Usage:
                    <identityPoolName>\s

                Where:
                    identityPoolName - The name to give your identity pool.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String identityPoolName = args[0];
        CognitoIdentityClient cognitoClient = CognitoIdentityClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String identityPoolId = createIdPool(cognitoClient, identityPoolName);
        System.out.println("Unity pool ID " + identityPoolId);
        cognitoClient.close();
    }

    public static String createIdPool(CognitoIdentityClient cognitoClient, String identityPoolName) {
        try {
            CreateIdentityPoolRequest poolRequest = CreateIdentityPoolRequest.builder()
                    .allowUnauthenticatedIdentities(false)
                    .identityPoolName(identityPoolName)
                    .build();

            CreateIdentityPoolResponse response = cognitoClient.createIdentityPool(poolRequest);
            return response.identityPoolId();

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateIdentityPool](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-identity-2014-06-30/CreateIdentityPool)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteIdentityPool`
<a name="cognito-identity_DeleteIdentityPool_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteIdentityPool`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.awscore.exception.AwsServiceException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentity.CognitoIdentityClient;
import software.amazon.awssdk.services.cognitoidentity.model.DeleteIdentityPoolRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteIdentityPool {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <identityPoolId>\s

                Where:
                    identityPoolId - The Id value of your identity pool.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String identityPoold = args[0];
        CognitoIdentityClient cognitoIdClient = CognitoIdentityClient.builder()
                .region(Region.US_EAST_1)
                .credentialsProvider(ProfileCredentialsProvider.create())
                .build();

        deleteIdPool(cognitoIdClient, identityPoold);
        cognitoIdClient.close();
    }

    public static void deleteIdPool(CognitoIdentityClient cognitoIdClient, String identityPoold) {
        try {

            DeleteIdentityPoolRequest identityPoolRequest = DeleteIdentityPoolRequest.builder()
                    .identityPoolId(identityPoold)
                    .build();

            cognitoIdClient.deleteIdentityPool(identityPoolRequest);
            System.out.println("Done");

        } catch (AwsServiceException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteIdentityPool](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-identity-2014-06-30/DeleteIdentityPool)di *Referensi AWS SDK for Java 2.x API*. 

### `GetCredentialsForIdentity`
<a name="cognito-identity_GetCredentialsForIdentity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCredentialsForIdentity`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentity.CognitoIdentityClient;
import software.amazon.awssdk.services.cognitoidentity.model.GetCredentialsForIdentityRequest;
import software.amazon.awssdk.services.cognitoidentity.model.GetCredentialsForIdentityResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetIdentityCredentials {
    public static void main(String[] args) {

        final String usage = """

                Usage:
                    <identityId>\s

            Where:
                identityId - The Id of an existing identity in the format REGION:GUID.
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String identityId = args[0];
        CognitoIdentityClient cognitoClient = CognitoIdentityClient.builder()
                .region(Region.US_EAST_1)
                .build();

        getCredsForIdentity(cognitoClient, identityId);
        cognitoClient.close();
    }

    public static void getCredsForIdentity(CognitoIdentityClient cognitoClient, String identityId) {
        try {
            GetCredentialsForIdentityRequest getCredentialsForIdentityRequest = GetCredentialsForIdentityRequest
                    .builder()
                    .identityId(identityId)
                    .build();

            GetCredentialsForIdentityResponse response = cognitoClient
                    .getCredentialsForIdentity(getCredentialsForIdentityRequest);
            System.out.println(
                    "Identity ID " + response.identityId() + ", Access key ID " + response.credentials().accessKeyId());

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetCredentialsForIdentity](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-identity-2014-06-30/GetCredentialsForIdentity)di *Referensi AWS SDK for Java 2.x API*. 

### `ListIdentityPools`
<a name="cognito-identity_ListIdentityPools_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentityPools`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentity.CognitoIdentityClient;
import software.amazon.awssdk.services.cognitoidentity.model.ListIdentityPoolsRequest;
import software.amazon.awssdk.services.cognitoidentity.model.ListIdentityPoolsResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListIdentityPools {
    public static void main(String[] args) {
        CognitoIdentityClient cognitoClient = CognitoIdentityClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listIdPools(cognitoClient);
        cognitoClient.close();
    }

    public static void listIdPools(CognitoIdentityClient cognitoClient) {
        try {
            ListIdentityPoolsRequest poolsRequest = ListIdentityPoolsRequest.builder()
                    .maxResults(15)
                    .build();

            ListIdentityPoolsResponse response = cognitoClient.listIdentityPools(poolsRequest);
            response.identityPools().forEach(pool -> {
                System.out.println("Pool ID: " + pool.identityPoolId());
                System.out.println("Pool name: " + pool.identityPoolName());
            });

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListIdentityPools](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-identity-2014-06-30/ListIdentityPools)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK for Java 2.x
<a name="java_2_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Penyedia Identitas Amazon Cognito AWS SDK for Java 2.x dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon Cognito
<a name="cognito-identity-provider_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Cognito.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentityprovider.CognitoIdentityProviderClient;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ListUserPoolsResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ListUserPoolsRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListUserPools {
    public static void main(String[] args) {
        CognitoIdentityProviderClient cognitoClient = CognitoIdentityProviderClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listAllUserPools(cognitoClient);
        cognitoClient.close();
    }

    public static void listAllUserPools(CognitoIdentityProviderClient cognitoClient) {
        try {
            ListUserPoolsRequest request = ListUserPoolsRequest.builder()
                    .maxResults(10)
                    .build();

            ListUserPoolsResponse response = cognitoClient.listUserPools(request);
            response.userPools().forEach(userpool -> {
                System.out.println("User pool " + userpool.name() + ", User ID " + userpool.id());
            });

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListUserPools](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ListUserPools)di *Referensi AWS SDK for Java 2.x API*. 

## Tindakan
<a name="actions"></a>

### `AdminGetUser`
<a name="cognito-identity-provider_AdminGetUser_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminGetUser`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
    public static void getAdminUser(CognitoIdentityProviderClient identityProviderClient, String userName,
            String poolId) {
        try {
            AdminGetUserRequest userRequest = AdminGetUserRequest.builder()
                    .username(userName)
                    .userPoolId(poolId)
                    .build();

            AdminGetUserResponse response = identityProviderClient.adminGetUser(userRequest);
            System.out.println("User status " + response.userStatusAsString());

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [AdminGetUser](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/AdminGetUser)di *Referensi AWS SDK for Java 2.x API*. 

### `AdminInitiateAuth`
<a name="cognito-identity-provider_AdminInitiateAuth_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminInitiateAuth`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
    public static AdminInitiateAuthResponse initiateAuth(CognitoIdentityProviderClient identityProviderClient,
            String clientId, String userName, String password, String userPoolId) {
        try {
            Map<String, String> authParameters = new HashMap<>();
            authParameters.put("USERNAME", userName);
            authParameters.put("PASSWORD", password);

            AdminInitiateAuthRequest authRequest = AdminInitiateAuthRequest.builder()
                    .clientId(clientId)
                    .userPoolId(userPoolId)
                    .authParameters(authParameters)
                    .authFlow(AuthFlowType.ADMIN_USER_PASSWORD_AUTH)
                    .build();

            AdminInitiateAuthResponse response = identityProviderClient.adminInitiateAuth(authRequest);
            System.out.println("Result Challenge is : " + response.challengeName());
            return response;

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
+  Untuk detail API, lihat [AdminInitiateAuth](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/AdminInitiateAuth)di *Referensi AWS SDK for Java 2.x API*. 

### `AdminRespondToAuthChallenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminRespondToAuthChallenge`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
    // Respond to an authentication challenge.
    public static void adminRespondToAuthChallenge(CognitoIdentityProviderClient identityProviderClient,
            String userName, String clientId, String mfaCode, String session) {
        System.out.println("SOFTWARE_TOKEN_MFA challenge is generated");
        Map<String, String> challengeResponses = new HashMap<>();

        challengeResponses.put("USERNAME", userName);
        challengeResponses.put("SOFTWARE_TOKEN_MFA_CODE", mfaCode);

        AdminRespondToAuthChallengeRequest respondToAuthChallengeRequest = AdminRespondToAuthChallengeRequest.builder()
                .challengeName(ChallengeNameType.SOFTWARE_TOKEN_MFA)
                .clientId(clientId)
                .challengeResponses(challengeResponses)
                .session(session)
                .build();

        AdminRespondToAuthChallengeResponse respondToAuthChallengeResult = identityProviderClient
                .adminRespondToAuthChallenge(respondToAuthChallengeRequest);
        System.out.println("respondToAuthChallengeResult.getAuthenticationResult()"
                + respondToAuthChallengeResult.authenticationResult());
    }
```
+  Untuk detail API, lihat [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/AdminRespondToAuthChallenge)di *Referensi AWS SDK for Java 2.x API*. 

### `AssociateSoftwareToken`
<a name="cognito-identity-provider_AssociateSoftwareToken_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateSoftwareToken`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
    public static String getSecretForAppMFA(CognitoIdentityProviderClient identityProviderClient, String session) {
        AssociateSoftwareTokenRequest softwareTokenRequest = AssociateSoftwareTokenRequest.builder()
                .session(session)
                .build();

        AssociateSoftwareTokenResponse tokenResponse = identityProviderClient
                .associateSoftwareToken(softwareTokenRequest);
        String secretCode = tokenResponse.secretCode();
        System.out.println("Enter this token into Google Authenticator");
        System.out.println(secretCode);
        return tokenResponse.session();
    }
```
+  Untuk detail API, lihat [AssociateSoftwareToken](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/AssociateSoftwareToken)di *Referensi AWS SDK for Java 2.x API*. 

### `ConfirmSignUp`
<a name="cognito-identity-provider_ConfirmSignUp_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSignUp`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
    public static void confirmSignUp(CognitoIdentityProviderClient identityProviderClient, String clientId, String code,
            String userName) {
        try {
            ConfirmSignUpRequest signUpRequest = ConfirmSignUpRequest.builder()
                    .clientId(clientId)
                    .confirmationCode(code)
                    .username(userName)
                    .build();

            identityProviderClient.confirmSignUp(signUpRequest);
            System.out.println(userName + " was confirmed");

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ConfirmSignUp](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ConfirmSignUp)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateUserPool`
<a name="cognito-identity-provider_CreateUserPool_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUserPool`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentityprovider.CognitoIdentityProviderClient;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CreateUserPoolRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CreateUserPoolResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateUserPool {
    public static void main(String[] args) {

        final String usage = """

                Usage:
                    <userPoolName>\s

                Where:
                    userPoolName - The name to give your user pool when it's created.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String userPoolName = args[0];
        CognitoIdentityProviderClient cognitoClient = CognitoIdentityProviderClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String id = createPool(cognitoClient, userPoolName);
        System.out.println("User pool ID: " + id);
        cognitoClient.close();
    }

    public static String createPool(CognitoIdentityProviderClient cognitoClient, String userPoolName) {
        try {
            CreateUserPoolRequest request = CreateUserPoolRequest.builder()
                    .poolName(userPoolName)
                    .build();

            CreateUserPoolResponse response = cognitoClient.createUserPool(request);
            return response.userPool().id();

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateUserPool](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/CreateUserPool)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateUserPoolClient`
<a name="cognito-identity-provider_CreateUserPoolClient_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUserPoolClient`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentityprovider.CognitoIdentityProviderClient;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CreateUserPoolClientRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CreateUserPoolClientResponse;

/**
 * A user pool client app is an application that authenticates with Amazon
 * Cognito user pools.
 * When you create a user pool, you can configure app clients that allow mobile
 * or web applications
 * to call API operations to authenticate users, manage user attributes and
 * profiles,
 * and implement sign-up and sign-in flows.
 *
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateUserPoolClient {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <clientName> <userPoolId>\s

                Where:
                    clientName - The name for the user pool client to create.
                    userPoolId - The ID for the user pool.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String clientName = args[0];
        String userPoolId = args[1];
        CognitoIdentityProviderClient cognitoClient = CognitoIdentityProviderClient.builder()
                .region(Region.US_EAST_1)
                .build();

        createPoolClient(cognitoClient, clientName, userPoolId);
        cognitoClient.close();
    }

    public static void createPoolClient(CognitoIdentityProviderClient cognitoClient, String clientName,
            String userPoolId) {
        try {
            CreateUserPoolClientRequest request = CreateUserPoolClientRequest.builder()
                    .clientName(clientName)
                    .userPoolId(userPoolId)
                    .build();

            CreateUserPoolClientResponse response = cognitoClient.createUserPoolClient(request);
            System.out.println("User pool " + response.userPoolClient().clientName() + " created. ID: "
                    + response.userPoolClient().clientId());

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateUserPoolClient](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/CreateUserPoolClient)di *Referensi AWS SDK for Java 2.x API*. 

### `ListUserPools`
<a name="cognito-identity-provider_ListUserPools_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUserPools`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentityprovider.CognitoIdentityProviderClient;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ListUserPoolsResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ListUserPoolsRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListUserPools {
    public static void main(String[] args) {
        CognitoIdentityProviderClient cognitoClient = CognitoIdentityProviderClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listAllUserPools(cognitoClient);
        cognitoClient.close();
    }

    public static void listAllUserPools(CognitoIdentityProviderClient cognitoClient) {
        try {
            ListUserPoolsRequest request = ListUserPoolsRequest.builder()
                    .maxResults(10)
                    .build();

            ListUserPoolsResponse response = cognitoClient.listUserPools(request);
            response.userPools().forEach(userpool -> {
                System.out.println("User pool " + userpool.name() + ", User ID " + userpool.id());
            });

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListUserPools](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ListUserPools)di *Referensi AWS SDK for Java 2.x API*. 

### `ListUsers`
<a name="cognito-identity-provider_ListUsers_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentityprovider.CognitoIdentityProviderClient;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ListUsersRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ListUsersResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListUsers {
    public static void main(String[] args) {

        final String usage = """

                Usage:
                    <userPoolId>\s

                Where:
                    userPoolId - The ID given to your user pool when it's created.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String userPoolId = args[0];
        CognitoIdentityProviderClient cognitoClient = CognitoIdentityProviderClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listAllUsers(cognitoClient, userPoolId);
        listUsersFilter(cognitoClient, userPoolId);
        cognitoClient.close();
    }

    public static void listAllUsers(CognitoIdentityProviderClient cognitoClient, String userPoolId) {
        try {
            ListUsersRequest usersRequest = ListUsersRequest.builder()
                    .userPoolId(userPoolId)
                    .build();

            ListUsersResponse response = cognitoClient.listUsers(usersRequest);
            response.users().forEach(user -> {
                System.out.println("User " + user.username() + " Status " + user.userStatus() + " Created "
                        + user.userCreateDate());
            });

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Shows how to list users by using a filter.
    public static void listUsersFilter(CognitoIdentityProviderClient cognitoClient, String userPoolId) {

        try {
            String filter = "email = \"tblue@noserver.com\"";
            ListUsersRequest usersRequest = ListUsersRequest.builder()
                    .userPoolId(userPoolId)
                    .filter(filter)
                    .build();

            ListUsersResponse response = cognitoClient.listUsers(usersRequest);
            response.users().forEach(user -> {
                System.out.println("User with filter applied " + user.username() + " Status " + user.userStatus()
                        + " Created " + user.userCreateDate());
            });

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ListUsers)di *Referensi AWS SDK for Java 2.x API*. 

### `ResendConfirmationCode`
<a name="cognito-identity-provider_ResendConfirmationCode_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendConfirmationCode`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
    public static void resendConfirmationCode(CognitoIdentityProviderClient identityProviderClient, String clientId,
            String userName) {
        try {
            ResendConfirmationCodeRequest codeRequest = ResendConfirmationCodeRequest.builder()
                    .clientId(clientId)
                    .username(userName)
                    .build();

            ResendConfirmationCodeResponse response = identityProviderClient.resendConfirmationCode(codeRequest);
            System.out.println("Method of delivery is " + response.codeDeliveryDetails().deliveryMediumAsString());

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ResendConfirmationCode](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ResendConfirmationCode)di *Referensi AWS SDK for Java 2.x API*. 

### `SignUp`
<a name="cognito-identity-provider_SignUp_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SignUp`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
    public static void signUp(CognitoIdentityProviderClient identityProviderClient, String clientId, String userName,
            String password, String email) {
        AttributeType userAttrs = AttributeType.builder()
                .name("email")
                .value(email)
                .build();

        List<AttributeType> userAttrsList = new ArrayList<>();
        userAttrsList.add(userAttrs);
        try {
            SignUpRequest signUpRequest = SignUpRequest.builder()
                    .userAttributes(userAttrsList)
                    .username(userName)
                    .clientId(clientId)
                    .password(password)
                    .build();

            identityProviderClient.signUp(signUpRequest);
            System.out.println("User has been signed up ");

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [SignUp](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/SignUp)di *Referensi AWS SDK for Java 2.x API*. 

### `VerifySoftwareToken`
<a name="cognito-identity-provider_VerifySoftwareToken_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifySoftwareToken`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
    // Verify the TOTP and register for MFA.
    public static void verifyTOTP(CognitoIdentityProviderClient identityProviderClient, String session, String code) {
        try {
            VerifySoftwareTokenRequest tokenRequest = VerifySoftwareTokenRequest.builder()
                    .userCode(code)
                    .session(session)
                    .build();

            VerifySoftwareTokenResponse verifyResponse = identityProviderClient.verifySoftwareToken(tokenRequest);
            System.out.println("The status of the token is " + verifyResponse.statusAsString());

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [VerifySoftwareToken](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/VerifySoftwareToken)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Mendaftar pengguna dengan kumpulan pengguna yang membutuhkan MFA
<a name="cognito-identity-provider_Scenario_SignUpUserWithMfa_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar dan konfirmasi pengguna dengan nama pengguna, kata sandi, dan alamat email.
+ Siapkan otentikasi multi-faktor dengan mengaitkan aplikasi MFA dengan pengguna.
+ Masuk dengan menggunakan kata sandi dan kode MFA.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/cognito#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.cognitoidentityprovider.CognitoIdentityProviderClient;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AdminGetUserRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AdminGetUserResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AdminInitiateAuthRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AdminInitiateAuthResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AdminRespondToAuthChallengeRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AdminRespondToAuthChallengeResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AssociateSoftwareTokenRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AssociateSoftwareTokenResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AttributeType;
import software.amazon.awssdk.services.cognitoidentityprovider.model.AuthFlowType;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ChallengeNameType;
import software.amazon.awssdk.services.cognitoidentityprovider.model.CognitoIdentityProviderException;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ConfirmSignUpRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ResendConfirmationCodeRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.ResendConfirmationCodeResponse;
import software.amazon.awssdk.services.cognitoidentityprovider.model.SignUpRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.VerifySoftwareTokenRequest;
import software.amazon.awssdk.services.cognitoidentityprovider.model.VerifySoftwareTokenResponse;
import java.security.InvalidKeyException;
import java.security.NoSuchAlgorithmException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Scanner;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * TIP: To set up the required user pool, run the AWS Cloud Development Kit (AWS
 * CDK) script provided in this GitHub repo at
 * resources/cdk/cognito_scenario_user_pool_with_mfa.
 *
 * This code example performs the following operations:
 *
 * 1. Invokes the signUp method to sign up a user.
 * 2. Invokes the adminGetUser method to get the user's confirmation status.
 * 3. Invokes the ResendConfirmationCode method if the user requested another
 * code.
 * 4. Invokes the confirmSignUp method.
 * 5. Invokes the AdminInitiateAuth to sign in. This results in being prompted
 * to set up TOTP (time-based one-time password). (The response is
 * “ChallengeName”: “MFA_SETUP”).
 * 6. Invokes the AssociateSoftwareToken method to generate a TOTP MFA private
 * key. This can be used with Google Authenticator.
 * 7. Invokes the VerifySoftwareToken method to verify the TOTP and register for
 * MFA.
 * 8. Invokes the AdminInitiateAuth to sign in again. This results in being
 * prompted to submit a TOTP (Response: “ChallengeName”: “SOFTWARE_TOKEN_MFA”).
 * 9. Invokes the AdminRespondToAuthChallenge to get back a token.
 */

public class CognitoMVP {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws NoSuchAlgorithmException, InvalidKeyException {
        final String usage = """

                Usage:
                    <clientId> <poolId>

                Where:
                    clientId - The app client Id value that you can get from the AWS CDK script.
                    poolId - The pool Id that you can get from the AWS CDK script.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String clientId = args[0];
        String poolId = args[1];
        CognitoIdentityProviderClient identityProviderClient = CognitoIdentityProviderClient.builder()
                .region(Region.US_EAST_1)
                .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon Cognito example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("*** Enter your user name");
        Scanner in = new Scanner(System.in);
        String userName = in.nextLine();

        System.out.println("*** Enter your password");
        String password = in.nextLine();

        System.out.println("*** Enter your email");
        String email = in.nextLine();

        System.out.println("1. Signing up " + userName);
        signUp(identityProviderClient, clientId, userName, password, email);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Getting " + userName + " in the user pool");
        getAdminUser(identityProviderClient, userName, poolId);

        System.out
                .println("*** Conformation code sent to " + userName + ". Would you like to send a new code? (Yes/No)");
        System.out.println(DASHES);

        System.out.println(DASHES);
        String ans = in.nextLine();

        if (ans.compareTo("Yes") == 0) {
            resendConfirmationCode(identityProviderClient, clientId, userName);
            System.out.println("3. Sending a new confirmation code");
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Enter confirmation code that was emailed");
        String code = in.nextLine();
        confirmSignUp(identityProviderClient, clientId, code, userName);
        System.out.println("Rechecking the status of " + userName + " in the user pool");
        getAdminUser(identityProviderClient, userName, poolId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Invokes the initiateAuth to sign in");
        AdminInitiateAuthResponse authResponse = initiateAuth(identityProviderClient, clientId, userName, password,
                poolId);
        String mySession = authResponse.session();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Invokes the AssociateSoftwareToken method to generate a TOTP key");
        String newSession = getSecretForAppMFA(identityProviderClient, mySession);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("*** Enter the 6-digit code displayed in Google Authenticator");
        String myCode = in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Verify the TOTP and register for MFA");
        verifyTOTP(identityProviderClient, newSession, myCode);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Re-enter a 6-digit code displayed in Google Authenticator");
        String mfaCode = in.nextLine();
        AdminInitiateAuthResponse authResponse1 = initiateAuth(identityProviderClient, clientId, userName, password,
                poolId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9.  Invokes the AdminRespondToAuthChallenge");
        String session2 = authResponse1.session();
        adminRespondToAuthChallenge(identityProviderClient, userName, clientId, mfaCode, session2);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("All Amazon Cognito operations were successfully performed");
        System.out.println(DASHES);
    }

    // Respond to an authentication challenge.
    public static void adminRespondToAuthChallenge(CognitoIdentityProviderClient identityProviderClient,
            String userName, String clientId, String mfaCode, String session) {
        System.out.println("SOFTWARE_TOKEN_MFA challenge is generated");
        Map<String, String> challengeResponses = new HashMap<>();

        challengeResponses.put("USERNAME", userName);
        challengeResponses.put("SOFTWARE_TOKEN_MFA_CODE", mfaCode);

        AdminRespondToAuthChallengeRequest respondToAuthChallengeRequest = AdminRespondToAuthChallengeRequest.builder()
                .challengeName(ChallengeNameType.SOFTWARE_TOKEN_MFA)
                .clientId(clientId)
                .challengeResponses(challengeResponses)
                .session(session)
                .build();

        AdminRespondToAuthChallengeResponse respondToAuthChallengeResult = identityProviderClient
                .adminRespondToAuthChallenge(respondToAuthChallengeRequest);
        System.out.println("respondToAuthChallengeResult.getAuthenticationResult()"
                + respondToAuthChallengeResult.authenticationResult());
    }

    // Verify the TOTP and register for MFA.
    public static void verifyTOTP(CognitoIdentityProviderClient identityProviderClient, String session, String code) {
        try {
            VerifySoftwareTokenRequest tokenRequest = VerifySoftwareTokenRequest.builder()
                    .userCode(code)
                    .session(session)
                    .build();

            VerifySoftwareTokenResponse verifyResponse = identityProviderClient.verifySoftwareToken(tokenRequest);
            System.out.println("The status of the token is " + verifyResponse.statusAsString());

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static AdminInitiateAuthResponse initiateAuth(CognitoIdentityProviderClient identityProviderClient,
            String clientId, String userName, String password, String userPoolId) {
        try {
            Map<String, String> authParameters = new HashMap<>();
            authParameters.put("USERNAME", userName);
            authParameters.put("PASSWORD", password);

            AdminInitiateAuthRequest authRequest = AdminInitiateAuthRequest.builder()
                    .clientId(clientId)
                    .userPoolId(userPoolId)
                    .authParameters(authParameters)
                    .authFlow(AuthFlowType.ADMIN_USER_PASSWORD_AUTH)
                    .build();

            AdminInitiateAuthResponse response = identityProviderClient.adminInitiateAuth(authRequest);
            System.out.println("Result Challenge is : " + response.challengeName());
            return response;

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }

    public static String getSecretForAppMFA(CognitoIdentityProviderClient identityProviderClient, String session) {
        AssociateSoftwareTokenRequest softwareTokenRequest = AssociateSoftwareTokenRequest.builder()
                .session(session)
                .build();

        AssociateSoftwareTokenResponse tokenResponse = identityProviderClient
                .associateSoftwareToken(softwareTokenRequest);
        String secretCode = tokenResponse.secretCode();
        System.out.println("Enter this token into Google Authenticator");
        System.out.println(secretCode);
        return tokenResponse.session();
    }

    public static void confirmSignUp(CognitoIdentityProviderClient identityProviderClient, String clientId, String code,
            String userName) {
        try {
            ConfirmSignUpRequest signUpRequest = ConfirmSignUpRequest.builder()
                    .clientId(clientId)
                    .confirmationCode(code)
                    .username(userName)
                    .build();

            identityProviderClient.confirmSignUp(signUpRequest);
            System.out.println(userName + " was confirmed");

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void resendConfirmationCode(CognitoIdentityProviderClient identityProviderClient, String clientId,
            String userName) {
        try {
            ResendConfirmationCodeRequest codeRequest = ResendConfirmationCodeRequest.builder()
                    .clientId(clientId)
                    .username(userName)
                    .build();

            ResendConfirmationCodeResponse response = identityProviderClient.resendConfirmationCode(codeRequest);
            System.out.println("Method of delivery is " + response.codeDeliveryDetails().deliveryMediumAsString());

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void signUp(CognitoIdentityProviderClient identityProviderClient, String clientId, String userName,
            String password, String email) {
        AttributeType userAttrs = AttributeType.builder()
                .name("email")
                .value(email)
                .build();

        List<AttributeType> userAttrsList = new ArrayList<>();
        userAttrsList.add(userAttrs);
        try {
            SignUpRequest signUpRequest = SignUpRequest.builder()
                    .userAttributes(userAttrsList)
                    .username(userName)
                    .clientId(clientId)
                    .password(password)
                    .build();

            identityProviderClient.signUp(signUpRequest);
            System.out.println("User has been signed up ");

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void getAdminUser(CognitoIdentityProviderClient identityProviderClient, String userName,
            String poolId) {
        try {
            AdminGetUserRequest userRequest = AdminGetUserRequest.builder()
                    .username(userName)
                    .userPoolId(poolId)
                    .build();

            AdminGetUserResponse response = identityProviderClient.adminGetUser(userRequest);
            System.out.println("User status " + response.userStatusAsString());

        } catch (CognitoIdentityProviderException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AdminGetUser](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/AdminGetUser)
  + [AdminInitiateAuth](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/AdminInitiateAuth)
  + [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/AdminRespondToAuthChallenge)
  + [AssociateSoftwareToken](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/AssociateSoftwareToken)
  + [ConfirmDevice](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ConfirmDevice)
  + [ConfirmSignUp](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ConfirmSignUp)
  + [InitiateAuth](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/InitiateAuth)
  + [ListUsers](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ListUsers)
  + [ResendConfirmationCode](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/ResendConfirmationCode)
  + [RespondToAuthChallenge](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/RespondToAuthChallenge)
  + [SignUp](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/SignUp)
  + [VerifySoftwareToken](https://docs.aws.amazon.com/goto/SdkForJavaV2/cognito-idp-2016-04-18/VerifySoftwareToken)

# Amazon Comprehend contoh menggunakan SDK for Java 2.x
<a name="java_2_comprehend_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon AWS SDK for Java 2.x Comprehend.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateDocumentClassifier`
<a name="comprehend_CreateDocumentClassifier_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDocumentClassifier`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/comprehend#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.comprehend.ComprehendClient;
import software.amazon.awssdk.services.comprehend.model.ComprehendException;
import software.amazon.awssdk.services.comprehend.model.CreateDocumentClassifierRequest;
import software.amazon.awssdk.services.comprehend.model.CreateDocumentClassifierResponse;
import software.amazon.awssdk.services.comprehend.model.DocumentClassifierInputDataConfig;

/**
 * Before running this code example, you can setup the necessary resources, such
 * as the CSV file and IAM Roles, by following this document:
 * https://aws.amazon.com/blogs/machine-learning/building-a-custom-classifier-using-amazon-comprehend/
 *
 * Also, set up your development environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DocumentClassifierDemo {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <dataAccessRoleArn> <s3Uri> <documentClassifierName>

                Where:
                  dataAccessRoleArn - The ARN value of the role used for this operation.
                  s3Uri - The Amazon S3 bucket that contains the CSV file.
                  documentClassifierName - The name of the document classifier.
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String dataAccessRoleArn = args[0];
        String s3Uri = args[1];
        String documentClassifierName = args[2];

        Region region = Region.US_EAST_1;
        ComprehendClient comClient = ComprehendClient.builder()
                .region(region)
                .build();

        createDocumentClassifier(comClient, dataAccessRoleArn, s3Uri, documentClassifierName);
        comClient.close();
    }

    public static void createDocumentClassifier(ComprehendClient comClient, String dataAccessRoleArn, String s3Uri,
            String documentClassifierName) {
        try {
            DocumentClassifierInputDataConfig config = DocumentClassifierInputDataConfig.builder()
                    .s3Uri(s3Uri)
                    .build();

            CreateDocumentClassifierRequest createDocumentClassifierRequest = CreateDocumentClassifierRequest.builder()
                    .documentClassifierName(documentClassifierName)
                    .dataAccessRoleArn(dataAccessRoleArn)
                    .languageCode("en")
                    .inputDataConfig(config)
                    .build();

            CreateDocumentClassifierResponse createDocumentClassifierResult = comClient
                    .createDocumentClassifier(createDocumentClassifierRequest);
            String documentClassifierArn = createDocumentClassifierResult.documentClassifierArn();
            System.out.println("Document Classifier ARN: " + documentClassifierArn);

        } catch (ComprehendException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateDocumentClassifier](https://docs.aws.amazon.com/goto/SdkForJavaV2/comprehend-2017-11-27/CreateDocumentClassifier)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectDominantLanguage`
<a name="comprehend_DetectDominantLanguage_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectDominantLanguage`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/comprehend#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.comprehend.ComprehendClient;
import software.amazon.awssdk.services.comprehend.model.ComprehendException;
import software.amazon.awssdk.services.comprehend.model.DetectDominantLanguageRequest;
import software.amazon.awssdk.services.comprehend.model.DetectDominantLanguageResponse;
import software.amazon.awssdk.services.comprehend.model.DominantLanguage;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectLanguage {
    public static void main(String[] args) {
        // Specify French text - "It is raining today in Seattle".
        String text = "Il pleut aujourd'hui à Seattle";
        Region region = Region.US_EAST_1;

        ComprehendClient comClient = ComprehendClient.builder()
                .region(region)
                .build();

        System.out.println("Calling DetectDominantLanguage");
        detectTheDominantLanguage(comClient, text);
        comClient.close();
    }

    public static void detectTheDominantLanguage(ComprehendClient comClient, String text) {
        try {
            DetectDominantLanguageRequest request = DetectDominantLanguageRequest.builder()
                    .text(text)
                    .build();

            DetectDominantLanguageResponse resp = comClient.detectDominantLanguage(request);
            List<DominantLanguage> allLanList = resp.languages();
            for (DominantLanguage lang : allLanList) {
                System.out.println("Language is " + lang.languageCode());
            }

        } catch (ComprehendException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectDominantLanguage](https://docs.aws.amazon.com/goto/SdkForJavaV2/comprehend-2017-11-27/DetectDominantLanguage)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectEntities`
<a name="comprehend_DetectEntities_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectEntities`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/comprehend#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.comprehend.ComprehendClient;
import software.amazon.awssdk.services.comprehend.model.DetectEntitiesRequest;
import software.amazon.awssdk.services.comprehend.model.DetectEntitiesResponse;
import software.amazon.awssdk.services.comprehend.model.Entity;
import software.amazon.awssdk.services.comprehend.model.ComprehendException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectEntities {
    public static void main(String[] args) {
        String text = "Amazon.com, Inc. is located in Seattle, WA and was founded July 5th, 1994 by Jeff Bezos, allowing customers to buy everything from books to blenders. Seattle is north of Portland and south of Vancouver, BC. Other notable Seattle - based companies are Starbucks and Boeing.";
        Region region = Region.US_EAST_1;
        ComprehendClient comClient = ComprehendClient.builder()
                .region(region)
                .build();

        System.out.println("Calling DetectEntities");
        detectAllEntities(comClient, text);
        comClient.close();
    }

    public static void detectAllEntities(ComprehendClient comClient, String text) {
        try {
            DetectEntitiesRequest detectEntitiesRequest = DetectEntitiesRequest.builder()
                    .text(text)
                    .languageCode("en")
                    .build();

            DetectEntitiesResponse detectEntitiesResult = comClient.detectEntities(detectEntitiesRequest);
            List<Entity> entList = detectEntitiesResult.entities();
            for (Entity entity : entList) {
                System.out.println("Entity text is " + entity.text());
            }

        } catch (ComprehendException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectEntities](https://docs.aws.amazon.com/goto/SdkForJavaV2/comprehend-2017-11-27/DetectEntities)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectKeyPhrases`
<a name="comprehend_DetectKeyPhrases_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectKeyPhrases`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/comprehend#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.comprehend.ComprehendClient;
import software.amazon.awssdk.services.comprehend.model.DetectKeyPhrasesRequest;
import software.amazon.awssdk.services.comprehend.model.DetectKeyPhrasesResponse;
import software.amazon.awssdk.services.comprehend.model.KeyPhrase;
import software.amazon.awssdk.services.comprehend.model.ComprehendException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectKeyPhrases {
    public static void main(String[] args) {
        String text = "Amazon.com, Inc. is located in Seattle, WA and was founded July 5th, 1994 by Jeff Bezos, allowing customers to buy everything from books to blenders. Seattle is north of Portland and south of Vancouver, BC. Other notable Seattle - based companies are Starbucks and Boeing.";
        Region region = Region.US_EAST_1;
        ComprehendClient comClient = ComprehendClient.builder()
                .region(region)
                .build();

        System.out.println("Calling DetectKeyPhrases");
        detectAllKeyPhrases(comClient, text);
        comClient.close();
    }

    public static void detectAllKeyPhrases(ComprehendClient comClient, String text) {
        try {
            DetectKeyPhrasesRequest detectKeyPhrasesRequest = DetectKeyPhrasesRequest.builder()
                    .text(text)
                    .languageCode("en")
                    .build();

            DetectKeyPhrasesResponse detectKeyPhrasesResult = comClient.detectKeyPhrases(detectKeyPhrasesRequest);
            List<KeyPhrase> phraseList = detectKeyPhrasesResult.keyPhrases();
            for (KeyPhrase keyPhrase : phraseList) {
                System.out.println("Key phrase text is " + keyPhrase.text());
            }

        } catch (ComprehendException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectKeyPhrases](https://docs.aws.amazon.com/goto/SdkForJavaV2/comprehend-2017-11-27/DetectKeyPhrases)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectSentiment`
<a name="comprehend_DetectSentiment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectSentiment`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/comprehend#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.comprehend.ComprehendClient;
import software.amazon.awssdk.services.comprehend.model.ComprehendException;
import software.amazon.awssdk.services.comprehend.model.DetectSentimentRequest;
import software.amazon.awssdk.services.comprehend.model.DetectSentimentResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectSentiment {
    public static void main(String[] args) {
        String text = "Amazon.com, Inc. is located in Seattle, WA and was founded July 5th, 1994 by Jeff Bezos, allowing customers to buy everything from books to blenders. Seattle is north of Portland and south of Vancouver, BC. Other notable Seattle - based companies are Starbucks and Boeing.";
        Region region = Region.US_EAST_1;
        ComprehendClient comClient = ComprehendClient.builder()
                .region(region)
                .build();

        System.out.println("Calling DetectSentiment");
        detectSentiments(comClient, text);
        comClient.close();
    }

    public static void detectSentiments(ComprehendClient comClient, String text) {
        try {
            DetectSentimentRequest detectSentimentRequest = DetectSentimentRequest.builder()
                    .text(text)
                    .languageCode("en")
                    .build();

            DetectSentimentResponse detectSentimentResult = comClient.detectSentiment(detectSentimentRequest);
            System.out.println("The Neutral value is " + detectSentimentResult.sentimentScore().neutral());

        } catch (ComprehendException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectSentiment](https://docs.aws.amazon.com/goto/SdkForJavaV2/comprehend-2017-11-27/DetectSentiment)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectSyntax`
<a name="comprehend_DetectSyntax_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectSyntax`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/comprehend#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.comprehend.ComprehendClient;
import software.amazon.awssdk.services.comprehend.model.ComprehendException;
import software.amazon.awssdk.services.comprehend.model.DetectSyntaxRequest;
import software.amazon.awssdk.services.comprehend.model.DetectSyntaxResponse;
import software.amazon.awssdk.services.comprehend.model.SyntaxToken;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectSyntax {
    public static void main(String[] args) {
        String text = "Amazon.com, Inc. is located in Seattle, WA and was founded July 5th, 1994 by Jeff Bezos, allowing customers to buy everything from books to blenders. Seattle is north of Portland and south of Vancouver, BC. Other notable Seattle - based companies are Starbucks and Boeing.";
        Region region = Region.US_EAST_1;
        ComprehendClient comClient = ComprehendClient.builder()
                .region(region)
                .build();

        System.out.println("Calling DetectSyntax");
        detectAllSyntax(comClient, text);
        comClient.close();
    }

    public static void detectAllSyntax(ComprehendClient comClient, String text) {
        try {
            DetectSyntaxRequest detectSyntaxRequest = DetectSyntaxRequest.builder()
                    .text(text)
                    .languageCode("en")
                    .build();

            DetectSyntaxResponse detectSyntaxResult = comClient.detectSyntax(detectSyntaxRequest);
            List<SyntaxToken> syntaxTokens = detectSyntaxResult.syntaxTokens();
            for (SyntaxToken token : syntaxTokens) {
                System.out.println("Language is " + token.text());
                System.out.println("Part of speech is " + token.partOfSpeech().tagAsString());
            }

        } catch (ComprehendException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectSyntax](https://docs.aws.amazon.com/goto/SdkForJavaV2/comprehend-2017-11-27/DetectSyntax)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membangun chatbot Amazon Lex
<a name="cross_LexChatbotLanguages_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat chatbot untuk melibatkan pengunjung situs web Anda.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Lex API untuk membuat Chatbot dalam aplikasi web untuk melibatkan pengunjung situs web Anda.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lex_chatbot).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon Lex
+ Amazon Translate

### Buat aplikasi perpesanan
<a name="cross_SQSMessageApp_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi pesan dengan menggunakan Amazon SQS.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon SQS API untuk mengembangkan Spring REST API yang mengirim dan mengambil pesan.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_message_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon SQS

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Java 2.x**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_fsa_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# AWS Control Tower contoh menggunakan SDK for Java 2.x
<a name="java_2_controltower_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS Control Tower.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Control Tower
<a name="controltower_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Control Tower.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
public class HelloControlTower {

    public static void main(String[] args) {
        try {
            ControlTowerClient controlTowerClient = ControlTowerClient.builder()
                .build() ;
            helloControlTower(controlTowerClient);
        } catch (ControlTowerException e) {
            System.out.println("Control Tower error occurred: " + e.awsErrorDetails().errorMessage());
        }
    }

    /**
     * Use the AWS SDK for Java (v2) to create an AWS Control Tower client
     * and list all available baselines.
     * This example uses the default settings specified in your shared credentials
     * and config files.
     *
     * @param controlTowerClient A ControlTowerClient object. This object wraps
     *                          the low-level AWS Control Tower service API.
     */
    public static void helloControlTower(ControlTowerClient controlTowerClient) {
        System.out.println("Hello, AWS Control Tower! Let's list available baselines:\n");
        
        ListBaselinesIterable paginator = controlTowerClient.listBaselinesPaginator(
                ListBaselinesRequest.builder().build());
        List<String> baselineNames = new ArrayList<>();
        
        try {
            paginator.stream()
                .flatMap(response -> response.baselines().stream())
                    .forEach(baseline -> baselineNames.add(baseline.name()));

            System.out.println(baselineNames.size() + " baseline(s) retrieved.");
            for (String baselineName : baselineNames) {
                System.out.println("\t" + baselineName);
            }

        } catch (ControlTowerException e) {
            if ("AccessDeniedException".equals(e.awsErrorDetails().errorCode())) {
                System.out.println("Access denied. Please ensure you have the necessary permissions.");
            } else {
                System.out.println("An error occurred: " + e.getMessage());
            }
        }
    }
}
```
+  Untuk detail API, lihat [ListBaselines](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListBaselines)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="controltower_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar zona pendaratan.
+ Buat daftar, aktifkan, dapatkan, atur ulang, dan nonaktifkan garis dasar.
+ Daftar, aktifkan, dapatkan, dan nonaktifkan kontrol.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS Control Tower fitur.  

```
public class ControlTowerScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final Scanner scanner = new Scanner(in);

    private static OrganizationsClient orgClient;
    private static ControlCatalogClient catClient;

    private static String ouId = null;
    private static String ouArn = null;
    private static String landingZoneArn = null;
    private static boolean useLandingZone = false;

    private String stack = null;
    private String accountId = null;

    public static void main(String[] args) {

        System.out.println(DASHES);
        System.out.println("Welcome to the AWS Control Tower basics scenario!");
        System.out.println(DASHES);

        try {
            runScenarioAsync();
        } catch (Exception e) {
            e.printStackTrace();
        }
    }

    // -----------------------------
    // Utilities
    // -----------------------------
    private static boolean askYesNo(String msg) {
        System.out.println(msg);
        return scanner.nextLine().trim().toLowerCase().startsWith("y");
    }

    private static void runScenarioAsync() {
        try {
            ControlTowerActions actions = new ControlTowerActions();

            // -----------------------------
            // Step 1: Landing Zones
            // -----------------------------
            System.out.println(DASHES);
            System.out.println("""
        Some demo operations require the use of a landing zone.
        You can use an existing landing zone or opt out of these operations in the demo.
        For instructions on how to set up a landing zone,
        see https://docs.aws.amazon.com/controltower/latest/userguide/getting-started-from-console.html
        """);

            System.out.println("Step 1: Listing landing zones...");
            waitForInputToContinue(scanner);

            List<LandingZoneSummary> landingZones =
                    actions.listLandingZonesAsync().join();

            if (landingZones.isEmpty()) {
                System.out.println("No landing zones found. Landing-zone-dependent steps will be skipped.");
                useLandingZone = false;
                waitForInputToContinue(scanner);
            } else {
                System.out.println("\nAvailable Landing Zones:");
                for (int i = 0; i < landingZones.size(); i++) {
                    System.out.printf("%d) %s%n", i + 1, landingZones.get(i).arn());
                }

                if (askYesNo("Do you want to use the first landing zone in the list (" +
                        landingZones.get(0).arn() + ")? (y/n): ")) {
                    useLandingZone = true;
                    landingZoneArn = landingZones.get(0).arn();
                } else if (askYesNo("Do you want to use a different existing Landing Zone for this demo? (y/n): ")) {
                    useLandingZone = true;
                    System.out.println("Enter landing zone ARN: ");
                    landingZoneArn = scanner.nextLine().trim();
                } else {
                    System.out.println("Proceeding without a landing zone.");
                    useLandingZone = false;
                    waitForInputToContinue(scanner);
                }
            }

            // -----------------------------
            // Setup Organization + Sandbox OU
            // -----------------------------
            if (useLandingZone) {
                System.out.println("Using landing zone ARN: " + landingZoneArn);

                ControlTowerActions.OrgSetupResult result =
                        actions.setupOrganizationAsync().join();

                ouArn = result.sandboxOuArn();
                ouId  = result.sandboxOuArn();

                System.out.println("Organization ID: " + result.orgId());
                System.out.println("Using Sandbox OU ARN: " + ouArn);
            }

            // -----------------------------
            // Step 2: Baselines
            // -----------------------------
            System.out.println(DASHES);
            System.out.println("Step 2: Listing available baselines...");
            System.out.println("""
In this step, the program lists available AWS Control Tower baselines and may perform
baseline-related operations (enable, disable, reset) if requested.

NOTE:
AWS Control Tower enforces governance through baselines and mandatory controls
(guardrails). Mandatory controls are required for landing zone governance and may
restrict certain operations depending on the account, region, or organizational policy.

For more information, see:
- Types of baselines in AWS Control Tower:
  https://docs.aws.amazon.com/controltower/latest/userguide/types-of-baselines.html
- Mandatory controls (guardrails) in AWS Control Tower:
  https://docs.aws.amazon.com/controltower/latest/controlreference/mandatory-controls.html
- Baseline API examples:
  https://docs.aws.amazon.com/controltower/latest/userguide/baseline-api-examples.html
""");



            waitForInputToContinue(scanner);
            List<BaselineSummary> baselines =
                    actions.listBaselinesAsync().join();

            BaselineSummary controlTowerBaseline = null;
            for (BaselineSummary b : baselines) {
                System.out.println("Baseline: " + b.name());
                System.out.println("  ARN: " + b.arn());
                if ("AWSControlTowerBaseline".equals(b.name())) {
                    controlTowerBaseline = b;
                }
            }

            waitForInputToContinue(scanner);

            if (useLandingZone && controlTowerBaseline != null) {

                System.out.println("\nListing enabled baselines:");
                List<EnabledBaselineSummary> enabledBaselines =
                        actions.listEnabledBaselinesAsync().join();

                String enabledBaselineArn = null;
                for (EnabledBaselineSummary eb : enabledBaselines) {
                    System.out.println("Checking enabled baseline ARN: " + eb.arn());
                    if (eb.baselineIdentifier().equals(controlTowerBaseline.arn())) {
                        enabledBaselineArn = eb.arn(); // correct enabled ARN for this baseline
                        break; // stop after finding the matching one
                    }
                }

                if (enabledBaselineArn == null) {
                    System.out.println("No enabled baseline found for " + controlTowerBaseline.arn());
                } else {
                    System.out.println("Selected enabled baseline ARN for reset/disable: " + enabledBaselineArn);
                }


                // Enable the Baseline
                if (askYesNo("Do you want to enable the Control Tower Baseline? (y/n): ")) {
                    System.out.println("\nEnabling Control Tower Baseline...");

                    String baselineId = controlTowerBaseline.arn();
                    String enabledBaselineId =
                            actions.enableBaselineAsync(
                                    ouArn,                  // targetIdentifier → the OU or account ARN
                                    baselineId,             // baselineIdentifier → the Control Tower baseline ARN
                                    "5.0"                   // baselineVersion → version string
                            ).join();


                    System.out.println("Enabled baseline operation ID: " + enabledBaselineId);
                    if (enabledBaselineId == null) {
                       enabledBaselineId = enabledBaselineArn;
                    }

                    // Reset the Baseline
                    if (askYesNo("Do you want to reset the Control Tower Baseline? (y/n): ")) {
                        String operationId =
                                actions.resetEnabledBaselineAsync(enabledBaselineId).join();
                        System.out.println("Reset baseline operation ID: " + operationId);
                    }

                    if (askYesNo("Do you want to disable the Control Tower Baseline? (y/n): ")) {
                        String operationId =
                                actions.disableBaselineAsync(enabledBaselineId).join();
                        System.out.println("Disabled baseline operation ID: " + operationId);

                        System.out.println("Now we will re‑enable the baseline and wait 1 minute before making the call...");
                        try {
                            Thread.sleep(Duration.ofMinutes(1).toMillis());
                        } catch (InterruptedException e) {
                            Thread.currentThread().interrupt();
                            System.out.println("Wait interrupted");
                        }
                        String reEnabledBaselineId = actions.enableBaselineAsync(
                                ouArn,
                                baselineId,  // reuse baseline definition ARN
                                "5.0"
                        ).join();

                        System.out.println("Re-enabled baseline operation ID: " + reEnabledBaselineId);
                    }
                }
            }

            // -----------------------------
            // Step 3: Controls
            // -----------------------------
            System.out.println(DASHES);
            System.out.println("Step 3: Managing Controls:");
            waitForInputToContinue(scanner);

            List<ControlSummary> controls =
                    actions.listControlsAsync().join();

            System.out.println("\nListing first 5 available Controls:");
            for (int i = 0; i < Math.min(5, controls.size()); i++) {
                ControlSummary c = controls.get(i);
                System.out.println("%d. %s - %s".formatted(i + 1, c.name(), c.arn()));
            }

            if (useLandingZone) {
                waitForInputToContinue(scanner);

                List<EnabledControlSummary> enabledControls =
                        actions.listEnabledControlsAsync(ouArn).join();

                System.out.println("\nListing enabled controls:");
                for (int i = 0; i < enabledControls.size(); i++) {
                    System.out.println("%d. %s".formatted(i + 1, enabledControls.get(i).controlIdentifier()));
                }

                String controlArnToEnable = null;
                for (ControlSummary control : controls) {
                    boolean enabled = enabledControls.stream()
                            .anyMatch(ec -> ec.controlIdentifier().equals(control.arn()));
                    if (!enabled) {
                        controlArnToEnable = control.arn();
                        break;
                    }
                }

                waitForInputToContinue(scanner);
                if (controlArnToEnable != null &&
                        askYesNo("Do you want to enable the control " + controlArnToEnable + "? (y/n): ")) {

                    String operationId =
                            actions.enableControlAsync(controlArnToEnable, ouArn).join();

                    System.out.println("Enabled control with operation ID: " + operationId);
                }

                waitForInputToContinue(scanner);

                if (controlArnToEnable != null &&
                        askYesNo("Do you want to disable the control? (y/n): ")) {

                    String operationId =
                            actions.disableControlAsync(controlArnToEnable, ouArn).join();

                    System.out.println("Disable operation ID: " + operationId);
                }
            }
            System.out.println("\nThis concludes the example scenario.");
            System.out.println("Thanks for watching!");
            System.out.println(DASHES);

        } catch (CompletionException e) {
            Throwable cause = e.getCause() != null ? e.getCause() : e;
            System.out.println("Scenario failed: " + cause.getMessage());
            throw e; // bubble up for tests / callers
        } catch (Exception e) {
            System.out.println("Unexpected error running scenario: " + e.getMessage());
            throw new RuntimeException(e);
        }
    }

    private static void waitForInputToContinue(Scanner sc) {
        System.out.println("\nEnter 'c' then <ENTER> to continue:");
        while (true) {
            String input = sc.nextLine();
            if ("c".equalsIgnoreCase(input.trim())) {
                System.out.println("Continuing...");
                break;
            }
        }
    }
}

public class ControlTowerActions {
    private static ControlCatalogAsyncClient controlCatalogAsyncClient;
    private static ControlTowerAsyncClient controlTowerAsyncClient;
    private static OrganizationsAsyncClient orgAsyncClient;

    private static OrganizationsAsyncClient getAsyncOrgClient() {
        if (orgAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                    .maxConcurrency(50)
                    .connectionTimeout(Duration.ofSeconds(60))
                    .readTimeout(Duration.ofSeconds(60))
                    .writeTimeout(Duration.ofSeconds(60))
                    .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                    .apiCallTimeout(Duration.ofMinutes(2))
                    .apiCallAttemptTimeout(Duration.ofSeconds(90))
                    .build();

            orgAsyncClient = OrganizationsAsyncClient.builder()
                    .httpClient(httpClient)
                    .overrideConfiguration(overrideConfig)
                    .build();
        }
        return orgAsyncClient;
    }

    private static ControlCatalogAsyncClient getAsyncCatClient() {
        if (controlCatalogAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                    .maxConcurrency(100)
                    .connectionTimeout(Duration.ofSeconds(60))
                    .readTimeout(Duration.ofSeconds(60))
                    .writeTimeout(Duration.ofSeconds(60))
                    .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                    .apiCallTimeout(Duration.ofMinutes(2))
                    .apiCallAttemptTimeout(Duration.ofSeconds(90))
                    .retryStrategy(RetryMode.STANDARD)
                    .build();

            controlCatalogAsyncClient = ControlCatalogAsyncClient.builder()
                    .httpClient(httpClient)
                    .overrideConfiguration(overrideConfig)
                    .build();
        }
        return controlCatalogAsyncClient;
    }

    private static ControlTowerAsyncClient getAsyncClient() {
        if (controlTowerAsyncClient == null) {

            SdkAsyncHttpClient httpClient =
                    AwsCrtAsyncHttpClient.builder()
                            .maxConcurrency(100)
                            .connectionTimeout(Duration.ofSeconds(60))
                            .build();

            ClientOverrideConfiguration overrideConfig =
                    ClientOverrideConfiguration.builder()
                            .apiCallTimeout(Duration.ofMinutes(2))
                            .apiCallAttemptTimeout(Duration.ofSeconds(90))
                            .retryStrategy(RetryMode.STANDARD)
                            .build();

            controlTowerAsyncClient =
                    ControlTowerAsyncClient.builder()
                            .httpClient(httpClient)
                            .overrideConfiguration(overrideConfig)
                            .build();
        }

        return controlTowerAsyncClient;
    }

    public record OrgSetupResult(String orgId, String sandboxOuArn) {
    }

    public CompletableFuture<OrgSetupResult> setupOrganizationAsync() {
        System.out.println("Starting organization setup…");

        OrganizationsAsyncClient client = getAsyncOrgClient();

        // Step 1: Describe or create organization
        CompletableFuture<Organization> orgFuture = client.describeOrganization()
                .thenApply(desc -> {
                    System.out.println("Organization exists: " + desc.organization().id());
                    return desc.organization();
                })
                .exceptionallyCompose(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;
                    if (cause instanceof AwsServiceException awsEx &&
                            "AWSOrganizationsNotInUseException".equals(awsEx.awsErrorDetails().errorCode())) {
                        System.out.println("No organization found. Creating one…");
                        return client.createOrganization(CreateOrganizationRequest.builder()
                                        .featureSet(OrganizationFeatureSet.ALL)
                                        .build())
                                .thenApply(createResp -> {
                                    System.out.println("Created organization: {}" + createResp.organization().id());
                                    return createResp.organization();
                                });
                    }
                    return CompletableFuture.failedFuture(
                            new CompletionException("Failed to describe or create organization", cause)
                    );
                });

        // Step 2: Locate Sandbox OU
        return orgFuture.thenCompose(org -> {
            String orgId = org.id();
            System.out.println("Organization ID: {}" + orgId);

            return client.listRoots()
                    .thenCompose(rootsResp -> {
                        if (rootsResp.roots().isEmpty()) {
                            return CompletableFuture.failedFuture(
                                    new RuntimeException("No root found in organization")
                            );
                        }
                        String rootId = rootsResp.roots().get(0).id();

                        ListOrganizationalUnitsForParentRequest ouRequest =
                                ListOrganizationalUnitsForParentRequest.builder()
                                        .parentId(rootId)
                                        .build();

                        ListOrganizationalUnitsForParentPublisher paginator =
                                client.listOrganizationalUnitsForParentPaginator(ouRequest);

                        AtomicReference<String> sandboxOuArnRef = new AtomicReference<>();
                        return paginator.subscribe(page -> {
                                    for (OrganizationalUnit ou : page.organizationalUnits()) {
                                        if ("Sandbox".equals(ou.name())) {
                                            sandboxOuArnRef.set(ou.arn());
                                            System.out.println("Found Sandbox OU: " + ou.id());
                                            break;
                                        }
                                    }
                                })
                                .thenApply(v -> {
                                    String sandboxArn = sandboxOuArnRef.get();
                                    if (sandboxArn == null) {
                                        System.out.println("Sandbox OU not found.");
                                    }
                                    return new OrgSetupResult(orgId, sandboxArn);
                                });
                    });
        }).exceptionally(ex -> {
            Throwable cause = ex.getCause() != null ? ex.getCause() : ex;
            System.out.println("Failed to setup organization: {}" + cause.getMessage());
            throw new CompletionException(cause);
        });
    }

    /**
     * Lists all landing zones using pagination to retrieve complete results.
     *
     * @return a list of all landing zones
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<List<LandingZoneSummary>> listLandingZonesAsync() {
        System.out.println("Starting list landing zones paginator…");

        ListLandingZonesRequest request = ListLandingZonesRequest.builder().build();
        ListLandingZonesPublisher paginator = getAsyncClient().listLandingZonesPaginator(request);
        List<LandingZoneSummary> landingZones = new ArrayList<>();

        return paginator.subscribe(response -> {
                    if (response.landingZones() != null && !response.landingZones().isEmpty()) {
                        response.landingZones().forEach(lz -> {
                            System.out.println("Landing zone ARN: " + lz.arn());
                            landingZones.add(lz);
                        });
                    } else {
                        System.out.println("Page contained no landing zones.");
                    }
                })
                .thenRun(() -> System.out.println("Successfully retrieved "+ landingZones.size() + " landing zones." ))
                .thenApply(v -> landingZones)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();
                        switch (errorCode) {
                            case "AccessDeniedException":
                                throw new CompletionException(
                                        "Access denied when listing landing zones: " + e.getMessage(), e);
                            default:
                                throw new CompletionException(
                                        "Error listing landing zones: " + e.getMessage(), e);
                        }
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error listing landing zones: " + cause.getMessage(), cause);
                    }

                    throw new CompletionException("Failed to list landing zones", cause);
                });
    }


    /**
     * Lists all available baselines using pagination to retrieve complete results.
     *
     * @return a list of all baselines
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<List<BaselineSummary>> listBaselinesAsync() {
        System.out.println("Starting list baselines paginator…");
        ListBaselinesRequest request = ListBaselinesRequest.builder().build();
        ListBaselinesPublisher paginator =
                getAsyncClient().listBaselinesPaginator(request);

        List<BaselineSummary> baselines = new ArrayList<>();
        return paginator.subscribe(response -> {
                    if (response.baselines() != null && !response.baselines().isEmpty()) {
                        response.baselines().forEach(baseline -> {
                            baselines.add(baseline);
                        });
                    } else {
                        System.out.println("Page contained no baselines.");
                    }
                })
                .thenRun(() ->
                        System.out.println("Successfully listed baselines. Total: " + baselines.size())
                )
                .thenApply(v -> baselines)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();

                        if ("AccessDeniedException".equals(errorCode)) {
                            throw new CompletionException(
                                    "Access denied when listing baselines: %s".formatted(e.getMessage()),
                                    e
                            );
                        }

                        throw new CompletionException(
                                "Error listing baselines: %s".formatted(e.getMessage()),
                                e
                        );
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error listing baselines: %s".formatted(cause.getMessage()),
                                cause
                        );
                    }

                    throw new CompletionException("Failed to list baselines", cause);
                });
    }

    /**
     * Lists all enabled baselines using pagination to retrieve complete results.
     *
     * @return a list of all enabled baselines
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<List<EnabledBaselineSummary>> listEnabledBaselinesAsync() {
        System.out.println("Starting list enabled baselines paginator…");

        ListEnabledBaselinesRequest request =
                ListEnabledBaselinesRequest.builder().build();

        ListEnabledBaselinesPublisher paginator =
                getAsyncClient().listEnabledBaselinesPaginator(request);

        List<EnabledBaselineSummary> enabledBaselines = new ArrayList<>();
        return paginator.subscribe(response -> {
                    if (response.enabledBaselines() != null
                            && !response.enabledBaselines().isEmpty()) {

                        response.enabledBaselines().forEach(baseline -> {
                            enabledBaselines.add(baseline);
                        });
                    } else {
                        System.out.println("Page contained no enabled baselines.");
                    }
                })
                .thenRun(() ->
                        System.out.println(
                                "Successfully listed enabled baselines. Total: " +
                                        enabledBaselines.size()
                        )
                )
                .thenApply(v -> enabledBaselines)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();

                        if ("AccessDeniedException".equals(errorCode)) {
                            throw new CompletionException(
                                    "Access denied when listing enabled baselines: %s".formatted(e.getMessage()), e);
                        }

                        throw new CompletionException(
                                "Error listing enabled baselines: %s"
                                        .formatted(e.getMessage()),
                                e
                        );
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error listing enabled baselines: %s"
                                        .formatted(cause.getMessage()),
                                cause
                        );
                    }

                    throw new CompletionException(
                            "Failed to list enabled baselines",
                            cause
                    );
                });
    }


    /**
     * Asynchronously enables a baseline for the specified target if not already enabled.
     *
     * @param targetIdentifier       The ARN of the target (OU or account).
     * @param baselineIdentifier     The baseline definition ARN to enable.
     * @param baselineVersion        The baseline version to enable.
     * @return A CompletableFuture containing the enabled baseline ARN, or null if already enabled.
     */
    public CompletableFuture<String> enableBaselineAsync(
            String targetIdentifier,
            String baselineIdentifier,
            String baselineVersion
    ) {
        EnableBaselineRequest request = EnableBaselineRequest.builder()
                .baselineIdentifier(baselineIdentifier)
                .baselineVersion(baselineVersion)
                .targetIdentifier(targetIdentifier)
                .build();

        return getAsyncClient().enableBaseline(request)
                .handle((resp, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ControlTowerException e) {
                            String code = e.awsErrorDetails() != null ? e.awsErrorDetails().errorCode() : "UNKNOWN";
                            String msg = e.awsErrorDetails() != null ? e.awsErrorDetails().errorMessage() : e.getMessage();

                            if ("ValidationException".equals(code) && msg.contains("already enabled")) {
                                System.out.println("Baseline is already enabled for this target → fetching ARN...");
                                return fetchEnabledBaselineArn(targetIdentifier, baselineIdentifier)
                                        .join(); // fetch existing ARN synchronously
                            }

                            throw new RuntimeException("Error enabling baseline: " + code + " - " + msg, e);
                        }

                        throw new RuntimeException("Unexpected error enabling baseline: " + cause.getMessage(), cause);
                    }

                    return resp;
                })
                .thenCompose(result -> {
                    if (result instanceof EnableBaselineResponse resp) {
                        String operationId = resp.operationIdentifier();
                        String enabledBaselineArn = resp.arn();
                        System.out.println("Baseline enable started. ARN: " + enabledBaselineArn
                                + ", operation ID: " + operationId);

                        // Inline polling
                        return CompletableFuture.supplyAsync(() -> {
                            while (true) {
                                GetBaselineOperationRequest opReq = GetBaselineOperationRequest.builder()
                                        .operationIdentifier(operationId)
                                        .build();

                                GetBaselineOperationResponse opResp = getAsyncClient().getBaselineOperation(opReq).join();
                                BaselineOperation op = opResp.baselineOperation();
                                BaselineOperationStatus status = op.status();
                                System.out.println("Operation " + operationId + " status: " + status);

                                if (status == BaselineOperationStatus.SUCCEEDED) {
                                    return enabledBaselineArn;
                                } else if (status == BaselineOperationStatus.FAILED) {
                                    String opId = op.operationIdentifier();
                                    String reason = op.statusMessage() != null ? op.statusMessage() : "No failure reason provided";
                                    throw new RuntimeException("Baseline operation failed (ID: " + opId + "), status: "
                                            + status + ", reason: " + reason);
                                }

                                try {
                                    Thread.sleep(Duration.ofSeconds(15).toMillis());
                                } catch (InterruptedException e) {
                                    Thread.currentThread().interrupt();
                                    throw new RuntimeException(e);
                                }
                            }
                        });
                    } else if (result instanceof String existingArn) {
                        // Already enabled branch
                        return CompletableFuture.completedFuture(existingArn);
                    }

                    return CompletableFuture.completedFuture(null);
                });
    }


    /**
     * Fetches the ARN of an already-enabled baseline for the target asynchronously.
     */
    private CompletableFuture<String> fetchEnabledBaselineArn(String targetIdentifier, String baselineIdentifier) {
        return getAsyncClient().listEnabledBaselines(ListEnabledBaselinesRequest.builder().build())
                .thenApply(listResp -> {
                    for (EnabledBaselineSummary eb : listResp.enabledBaselines()) {
                        if (baselineIdentifier.equals(eb.baselineIdentifier())
                                && targetIdentifier.equals(eb.targetIdentifier())) {
                            return eb.arn();
                        }
                    }
                    return null; // not yet available
                });
    }


    /**
     * Disables a baseline for a specified target.
     *
     * @param enabledBaselineIdentifier the identifier of the enabled baseline to disable
     * @return the operation identifier
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<String> disableBaselineAsync(String enabledBaselineIdentifier) {

        System.out.println("Starting disable of enabled baseline…");
        System.out.println("This operation will check the status every 15 seconds until it completes (SUCCEEDED or FAILED).");

        DisableBaselineRequest request = DisableBaselineRequest.builder()
                .enabledBaselineIdentifier(enabledBaselineIdentifier)
                .build();

        return getAsyncClient().disableBaseline(request)
                .thenCompose(response -> {
                    String operationId = response.operationIdentifier();
                    System.out.println("Disable baseline operation ID: " + operationId);

                    // CompletableFuture that will be completed when operation finishes
                    CompletableFuture<String> resultFuture = new CompletableFuture<>();

                    // Polling loop
                    Runnable poller = new Runnable() {
                        @Override
                        public void run() {
                            getBaselineOperationAsync(operationId)
                                    .thenAccept(statusObj -> {
                                        String status = statusObj.toString(); // Convert enum/status to string for printing
                                        System.out.println("Current disable operation status: " + status + " → waiting for SUCCEEDED or FAILED...");

                                        if ("SUCCEEDED".equalsIgnoreCase(status) || "FAILED".equalsIgnoreCase(status)) {
                                            System.out.println("Disable operation finished with status: " + status);
                                            resultFuture.complete(operationId);
                                        } else {
                                            // Schedule next poll in 15 seconds
                                            CompletableFuture.delayedExecutor(15, TimeUnit.SECONDS)
                                                    .execute(this);
                                        }
                                    })
                                    .exceptionally(ex -> {
                                        System.out.println("Error checking baseline operation status: " + ex.getMessage());
                                        resultFuture.completeExceptionally(ex);
                                        return null;
                                    });
                        }
                    };

                    // Start first poll immediately
                    poller.run();

                    return resultFuture;
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails() != null ? e.awsErrorDetails().errorCode() : "UNKNOWN";
                        String errorMessage = e.awsErrorDetails() != null ? e.awsErrorDetails().errorMessage() : e.getMessage();

                        System.out.println("ControlTowerException caught while disabling baseline: Code=" + errorCode + ", Message=" + errorMessage);
                        return null;
                    }

                    if (cause instanceof SdkException sdkEx) {
                        System.out.println("SDK exception caught while disabling baseline: " + sdkEx.getMessage());
                        return null;
                    }

                    System.out.println("Unexpected exception while disabling baseline: " + cause.getMessage());
                    return null;
                });
    }



    /**
     * Gets the status of a baseline operation.
     *
     * @param operationIdentifier the identifier of the operation
     * @return the operation status
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<BaselineOperationStatus> getBaselineOperationAsync(
            String operationIdentifier) {

        GetBaselineOperationRequest request = GetBaselineOperationRequest.builder()
                .operationIdentifier(operationIdentifier)
                .build();

        return getAsyncClient().getBaselineOperation(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null
                                ? exception.getCause()
                                : exception;

                        if (cause instanceof ControlTowerException e) {
                            String errorCode = e.awsErrorDetails().errorCode();

                            if ("ResourceNotFoundException".equals(errorCode)) {
                                throw new CompletionException(
                                        "Baseline operation not found: %s"
                                                .formatted(e.getMessage()),
                                        e
                                );
                            }

                            throw new CompletionException(
                                    "Error getting baseline operation status: %s"
                                            .formatted(e.getMessage()),
                                    e
                            );
                        }

                        if (cause instanceof SdkException) {
                            throw new CompletionException(
                                    "SDK error getting baseline operation status: %s"
                                            .formatted(cause.getMessage()),
                                    cause
                            );
                        }

                        throw new CompletionException(
                                "Failed to get baseline operation status",
                                cause
                        );
                    }
                })
                .thenApply(response -> {
                    BaselineOperationStatus status =
                            response.baselineOperation().status();
                    return status;
                });
    }


    /**
     * Lists all enabled controls for a specific target using pagination.
     *
     * @param targetIdentifier the identifier of the target (e.g., OU ARN)
     * @return a list of enabled controls
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<List<EnabledControlSummary>> listEnabledControlsAsync(String targetIdentifier) {
        System.out.println("Starting list enabled controls paginator for target " + targetIdentifier);
        ListEnabledControlsRequest request = ListEnabledControlsRequest.builder()
                .targetIdentifier(targetIdentifier)
                .build();

        ListEnabledControlsPublisher paginator = getAsyncClient().listEnabledControlsPaginator(request);
        List<EnabledControlSummary> enabledControls = new ArrayList<>();

        // Subscribe to the paginator asynchronously
        return paginator.subscribe(response -> {
                    if (response.enabledControls() != null && !response.enabledControls().isEmpty()) {
                        response.enabledControls().forEach(control -> {
                            enabledControls.add(control);
                        });
                    } else {
                        System.out.println("Page contained no enabled controls.");
                    }
                })
                .thenRun(() -> System.out.println(
                        "Successfully retrieved "+enabledControls.size() +" enabled controls for target "+targetIdentifier
                ))
                .thenApply(v -> enabledControls)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();

                        switch (errorCode) {
                            case "AccessDeniedException":
                                throw new CompletionException(
                                        "Access denied when listing enabled controls: %s".formatted(e.getMessage()), e);

                            case "ResourceNotFoundException":
                                if (e.getMessage() != null && e.getMessage().contains("not registered with AWS Control Tower")) {
                                    throw new CompletionException(
                                            "Control Tower must be enabled to work with controls", e);
                                }
                                throw new CompletionException(
                                        "Target not found when listing enabled controls: %s".formatted(e.getMessage()), e);

                            default:
                                throw new CompletionException(
                                        "Error listing enabled controls: %s".formatted(e.getMessage()), e);
                        }
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error listing enabled controls: %s".formatted(cause.getMessage()), cause);
                    }

                    throw new CompletionException("Failed to list enabled controls", cause);
                });
    }


    /**
     * Enables a control for a specified target.
     *
     * @param controlIdentifier the identifier of the control to enable
     * @param targetIdentifier  the identifier of the target (e.g., OU ARN)
     * @return the operation identifier
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<String> enableControlAsync(
            String controlIdentifier,
            String targetIdentifier) {

        EnableControlRequest request = EnableControlRequest.builder()
                .controlIdentifier(controlIdentifier)
                .targetIdentifier(targetIdentifier)
                .build();

        return getAsyncClient().enableControl(request)
                .thenCompose(response -> {
                    String operationId = response.operationIdentifier();
                    System.out.println("Enable control operation started. Operation ID: " + operationId);

                    CompletableFuture<String> resultFuture = new CompletableFuture<>();

                    Runnable poller = new Runnable() {
                        @Override
                        public void run() {
                            getControlOperationAsync(operationId)
                                    .thenAccept(status -> {
                                        System.out.println("Control operation status: " + status);

                                        if (status == ControlOperationStatus.SUCCEEDED
                                                || status == ControlOperationStatus.FAILED) {
                                            resultFuture.complete(operationId);
                                        } else {
                                            // Poll again after 30 seconds
                                            CompletableFuture.delayedExecutor(30, TimeUnit.SECONDS)
                                                    .execute(this);
                                        }
                                    })
                                    .exceptionally(ex -> {
                                        resultFuture.completeExceptionally(ex);
                                        return null;
                                    });
                        }
                    };

                    // Start polling immediately
                    poller.run();

                    return resultFuture;
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();
                        String message = e.getMessage() != null ? e.getMessage() : "";

                        if ("ValidationException".equals(errorCode)
                                && message.contains("already enabled")) {
                            System.out.println("Control is already enabled for this target");
                            return null;
                        }

                        if ("ResourceNotFoundException".equals(errorCode)
                                && message.contains("not registered with AWS Control Tower")) {
                            System.out.println(
                                    "Control Tower must be enabled to work with controls.");
                            return null;
                        }

                        throw new CompletionException(
                                "Couldn't enable control: %s".formatted(message),
                                e
                        );
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error enabling control: %s"
                                        .formatted(cause.getMessage()),
                                cause
                        );
                    }

                    throw new CompletionException(
                            "Failed to enable control",
                            cause
                    );
                });
    }


    /**
     * Disables a control for a specified target.
     *
     * @param controlIdentifier the identifier of the control to disable
     * @param targetIdentifier  the identifier of the target (e.g., OU ARN)
     * @return the operation identifier
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<String> disableControlAsync(
            String controlIdentifier,
            String targetIdentifier) {

        DisableControlRequest request = DisableControlRequest.builder()
                .controlIdentifier(controlIdentifier)
                .targetIdentifier(targetIdentifier)
                .build();

        return getAsyncClient().disableControl(request)
                .thenCompose(response -> {
                    String operationId = response.operationIdentifier();
                    System.out.println("Disable control operation started. Operation ID: " + operationId);

                    CompletableFuture<String> resultFuture = new CompletableFuture<>();

                    Runnable poller = new Runnable() {
                        @Override
                        public void run() {
                            getControlOperationAsync(operationId)
                                    .thenAccept(status -> {
                                        System.out.println("Control operation status: " + status);

                                        if (status == ControlOperationStatus.SUCCEEDED
                                                || status == ControlOperationStatus.FAILED) {
                                            resultFuture.complete(operationId);
                                        } else {
                                            // poll again after 30 seconds
                                            CompletableFuture.delayedExecutor(30, TimeUnit.SECONDS)
                                                    .execute(this);
                                        }
                                    })
                                    .exceptionally(ex -> {
                                        resultFuture.completeExceptionally(ex);
                                        return null;
                                    });
                        }
                    };

                    // start polling immediately
                    poller.run();

                    return resultFuture;
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();

                        if ("ResourceNotFoundException".equals(errorCode)) {
                            // SPEC: notify user and continue
                            System.out.println("Control not found for disabling: " + e.getMessage());
                            return null;
                        }

                        throw new CompletionException(
                                "Error disabling control: " + e.getMessage(), e);
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error disabling control: " + cause.getMessage(), cause);
                    }

                    throw new CompletionException(
                            "Failed to disable control", cause);
                });
    }



    /**
     * Gets the status of a control operation.
     *
     * @param operationIdentifier the identifier of the operation
     * @return the operation status
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<ControlOperationStatus> getControlOperationAsync(
            String operationIdentifier) {

        GetControlOperationRequest request = GetControlOperationRequest.builder()
                .operationIdentifier(operationIdentifier)
                .build();

        return getAsyncClient().getControlOperation(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof ControlTowerException e) {
                            String errorCode = e.awsErrorDetails().errorCode();

                            if ("ResourceNotFoundException".equals(errorCode)) {
                                throw new CompletionException(
                                        "Control operation not found: %s".formatted(e.getMessage()),
                                        e
                                );
                            }

                            throw new CompletionException(
                                    "Error getting control operation status: %s".formatted(e.getMessage()),
                                    e
                            );
                        }

                        if (cause instanceof SdkException) {
                            throw new CompletionException(
                                    "SDK error getting control operation status: %s".formatted(cause.getMessage()),
                                    cause
                            );
                        }

                        throw new CompletionException("Failed to get control operation status", cause);
                    }
                })
                .thenApply(response -> response.controlOperation().status());
    }


    /**
     * Lists all controls in the Control Tower control catalog.
     *
     * @return a list of controls
     * @throws SdkException if a service-specific error occurs
     */
    public CompletableFuture<List<ControlSummary>> listControlsAsync() {
        System.out.println("Starting list controls paginator…");

        ListControlsRequest request = ListControlsRequest.builder().build();
        ListControlsPublisher paginator = getAsyncCatClient().listControlsPaginator(request);
        List<ControlSummary> controls = new ArrayList<>();

        return paginator.subscribe(response -> {
                    if (response.controls() != null && !response.controls().isEmpty()) {
                        response.controls().forEach(control -> {
                            controls.add(control);
                        });
                    } else {
                        System.out.println("Page contained no controls.");
                    }
                })
                .thenRun(() -> System.out.println("Successfully retrieved " + controls.size() +" controls."))
                .thenApply(v -> controls)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof SdkException sdkEx) {
                        if (sdkEx.getMessage() != null && sdkEx.getMessage().contains("AccessDeniedException")) {
                            throw new CompletionException(
                                    "Access denied when listing controls. Please ensure you have the necessary permissions.",
                                    sdkEx
                            );
                        } else {
                            throw new CompletionException(
                                    "SDK error listing controls: %s".formatted(sdkEx.getMessage()),
                                    sdkEx
                            );
                        }
                    }

                    throw new CompletionException("Failed to list controls", cause);
                });
    }

    /**
     * Resets an enabled baseline for a specific target.
     *
     * @param enabledBaselineIdentifier the identifier of the enabled baseline to reset
     * @return the operation identifier
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<String> resetEnabledBaselineAsync(String enabledBaselineIdentifier) {

        System.out.println("Starting reset of enabled baseline…");
        System.out.println("This operation will check the status every 15 seconds until it completes (SUCCEEDED or FAILED).");

        ResetEnabledBaselineRequest request = ResetEnabledBaselineRequest.builder()
                .enabledBaselineIdentifier(enabledBaselineIdentifier)
                .build();

        return getAsyncClient().resetEnabledBaseline(request)
                .thenCompose(response -> {
                    String operationId = response.operationIdentifier();
                    System.out.println("Reset enabled baseline operation ID: " + operationId);

                    // Polling loop
                    CompletableFuture<String> resultFuture = new CompletableFuture<>();

                    Runnable poller = new Runnable() {
                        @Override
                        public void run() {
                            getBaselineOperationAsync(operationId)
                                    .thenAccept(statusObj -> {
                                        String status = statusObj.toString(); // Convert enum/status to string for printing
                                        System.out.println("Current baseline operation status: " + status + " → waiting for SUCCEEDED or FAILED...");

                                        if ("SUCCEEDED".equalsIgnoreCase(status) || "FAILED".equalsIgnoreCase(status)) {
                                            System.out.println("Baseline operation finished with status: " + status);
                                            resultFuture.complete(operationId);
                                        } else {
                                            // Schedule next poll in 15 seconds
                                            CompletableFuture.delayedExecutor(15, TimeUnit.SECONDS)
                                                    .execute(this);
                                        }
                                    })
                                    .exceptionally(ex -> {
                                        System.out.println("Error checking baseline operation status: " + ex.getMessage());
                                        resultFuture.completeExceptionally(ex);
                                        return null;
                                    });
                        }
                    };

                    // Start first poll immediately
                    poller.run();

                    return resultFuture;
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails() != null ? e.awsErrorDetails().errorCode() : "UNKNOWN";
                        String errorMessage = e.awsErrorDetails() != null ? e.awsErrorDetails().errorMessage() : e.getMessage();

                        System.out.println("ControlTowerException caught: Code=" + errorCode + ", Message=" + errorMessage);
                        return null;
                    }

                    if (cause instanceof SdkException sdkEx) {
                        System.out.println("SDK exception caught: " + sdkEx.getMessage());
                        return null;
                    }

                    System.out.println("Unexpected exception resetting baseline: " + cause.getMessage());
                    return null;
                });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateLandingZone](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/CreateLandingZone)
  + [DeleteLandingZone](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/DeleteLandingZone)
  + [DisableBaseline](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/DisableBaseline)
  + [DisableControl](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/DisableControl)
  + [EnableBaseline](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/EnableBaseline)
  + [EnableControl](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/EnableControl)
  + [GetControlOperation](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/GetControlOperation)
  + [GetLandingZoneOperation](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/GetLandingZoneOperation)
  + [ListBaselines](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListBaselines)
  + [ListEnabledBaselines](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListEnabledBaselines)
  + [ListEnabledControls](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListEnabledControls)
  + [ListLandingZones](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListLandingZones)
  + [ResetEnabledBaseline](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ResetEnabledBaseline)

## Tindakan
<a name="actions"></a>

### `DisableBaseline`
<a name="controltower_DisableBaseline_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableBaseline`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Disables a baseline for a specified target.
     *
     * @param enabledBaselineIdentifier the identifier of the enabled baseline to disable
     * @return the operation identifier
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<String> disableBaselineAsync(String enabledBaselineIdentifier) {

        System.out.println("Starting disable of enabled baseline…");
        System.out.println("This operation will check the status every 15 seconds until it completes (SUCCEEDED or FAILED).");

        DisableBaselineRequest request = DisableBaselineRequest.builder()
                .enabledBaselineIdentifier(enabledBaselineIdentifier)
                .build();

        return getAsyncClient().disableBaseline(request)
                .thenCompose(response -> {
                    String operationId = response.operationIdentifier();
                    System.out.println("Disable baseline operation ID: " + operationId);

                    // CompletableFuture that will be completed when operation finishes
                    CompletableFuture<String> resultFuture = new CompletableFuture<>();

                    // Polling loop
                    Runnable poller = new Runnable() {
                        @Override
                        public void run() {
                            getBaselineOperationAsync(operationId)
                                    .thenAccept(statusObj -> {
                                        String status = statusObj.toString(); // Convert enum/status to string for printing
                                        System.out.println("Current disable operation status: " + status + " → waiting for SUCCEEDED or FAILED...");

                                        if ("SUCCEEDED".equalsIgnoreCase(status) || "FAILED".equalsIgnoreCase(status)) {
                                            System.out.println("Disable operation finished with status: " + status);
                                            resultFuture.complete(operationId);
                                        } else {
                                            // Schedule next poll in 15 seconds
                                            CompletableFuture.delayedExecutor(15, TimeUnit.SECONDS)
                                                    .execute(this);
                                        }
                                    })
                                    .exceptionally(ex -> {
                                        System.out.println("Error checking baseline operation status: " + ex.getMessage());
                                        resultFuture.completeExceptionally(ex);
                                        return null;
                                    });
                        }
                    };

                    // Start first poll immediately
                    poller.run();

                    return resultFuture;
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails() != null ? e.awsErrorDetails().errorCode() : "UNKNOWN";
                        String errorMessage = e.awsErrorDetails() != null ? e.awsErrorDetails().errorMessage() : e.getMessage();

                        System.out.println("ControlTowerException caught while disabling baseline: Code=" + errorCode + ", Message=" + errorMessage);
                        return null;
                    }

                    if (cause instanceof SdkException sdkEx) {
                        System.out.println("SDK exception caught while disabling baseline: " + sdkEx.getMessage());
                        return null;
                    }

                    System.out.println("Unexpected exception while disabling baseline: " + cause.getMessage());
                    return null;
                });
    }
```
+  Untuk detail API, lihat [DisableBaseline](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/DisableBaseline)di *Referensi AWS SDK for Java 2.x API*. 

### `DisableControl`
<a name="controltower_DisableControl_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableControl`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Disables a control for a specified target.
     *
     * @param controlIdentifier the identifier of the control to disable
     * @param targetIdentifier  the identifier of the target (e.g., OU ARN)
     * @return the operation identifier
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<String> disableControlAsync(
            String controlIdentifier,
            String targetIdentifier) {

        DisableControlRequest request = DisableControlRequest.builder()
                .controlIdentifier(controlIdentifier)
                .targetIdentifier(targetIdentifier)
                .build();

        return getAsyncClient().disableControl(request)
                .thenCompose(response -> {
                    String operationId = response.operationIdentifier();
                    System.out.println("Disable control operation started. Operation ID: " + operationId);

                    CompletableFuture<String> resultFuture = new CompletableFuture<>();

                    Runnable poller = new Runnable() {
                        @Override
                        public void run() {
                            getControlOperationAsync(operationId)
                                    .thenAccept(status -> {
                                        System.out.println("Control operation status: " + status);

                                        if (status == ControlOperationStatus.SUCCEEDED
                                                || status == ControlOperationStatus.FAILED) {
                                            resultFuture.complete(operationId);
                                        } else {
                                            // poll again after 30 seconds
                                            CompletableFuture.delayedExecutor(30, TimeUnit.SECONDS)
                                                    .execute(this);
                                        }
                                    })
                                    .exceptionally(ex -> {
                                        resultFuture.completeExceptionally(ex);
                                        return null;
                                    });
                        }
                    };

                    // start polling immediately
                    poller.run();

                    return resultFuture;
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();

                        if ("ResourceNotFoundException".equals(errorCode)) {
                            // SPEC: notify user and continue
                            System.out.println("Control not found for disabling: " + e.getMessage());
                            return null;
                        }

                        throw new CompletionException(
                                "Error disabling control: " + e.getMessage(), e);
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error disabling control: " + cause.getMessage(), cause);
                    }

                    throw new CompletionException(
                            "Failed to disable control", cause);
                });
    }
```
+  Untuk detail API, lihat [DisableControl](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/DisableControl)di *Referensi AWS SDK for Java 2.x API*. 

### `EnableBaseline`
<a name="controltower_EnableBaseline_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableBaseline`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Asynchronously enables a baseline for the specified target if not already enabled.
     *
     * @param targetIdentifier       The ARN of the target (OU or account).
     * @param baselineIdentifier     The baseline definition ARN to enable.
     * @param baselineVersion        The baseline version to enable.
     * @return A CompletableFuture containing the enabled baseline ARN, or null if already enabled.
     */
    public CompletableFuture<String> enableBaselineAsync(
            String targetIdentifier,
            String baselineIdentifier,
            String baselineVersion
    ) {
        EnableBaselineRequest request = EnableBaselineRequest.builder()
                .baselineIdentifier(baselineIdentifier)
                .baselineVersion(baselineVersion)
                .targetIdentifier(targetIdentifier)
                .build();

        return getAsyncClient().enableBaseline(request)
                .handle((resp, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ControlTowerException e) {
                            String code = e.awsErrorDetails() != null ? e.awsErrorDetails().errorCode() : "UNKNOWN";
                            String msg = e.awsErrorDetails() != null ? e.awsErrorDetails().errorMessage() : e.getMessage();

                            if ("ValidationException".equals(code) && msg.contains("already enabled")) {
                                System.out.println("Baseline is already enabled for this target → fetching ARN...");
                                return fetchEnabledBaselineArn(targetIdentifier, baselineIdentifier)
                                        .join(); // fetch existing ARN synchronously
                            }

                            throw new RuntimeException("Error enabling baseline: " + code + " - " + msg, e);
                        }

                        throw new RuntimeException("Unexpected error enabling baseline: " + cause.getMessage(), cause);
                    }

                    return resp;
                })
                .thenCompose(result -> {
                    if (result instanceof EnableBaselineResponse resp) {
                        String operationId = resp.operationIdentifier();
                        String enabledBaselineArn = resp.arn();
                        System.out.println("Baseline enable started. ARN: " + enabledBaselineArn
                                + ", operation ID: " + operationId);

                        // Inline polling
                        return CompletableFuture.supplyAsync(() -> {
                            while (true) {
                                GetBaselineOperationRequest opReq = GetBaselineOperationRequest.builder()
                                        .operationIdentifier(operationId)
                                        .build();

                                GetBaselineOperationResponse opResp = getAsyncClient().getBaselineOperation(opReq).join();
                                BaselineOperation op = opResp.baselineOperation();
                                BaselineOperationStatus status = op.status();
                                System.out.println("Operation " + operationId + " status: " + status);

                                if (status == BaselineOperationStatus.SUCCEEDED) {
                                    return enabledBaselineArn;
                                } else if (status == BaselineOperationStatus.FAILED) {
                                    String opId = op.operationIdentifier();
                                    String reason = op.statusMessage() != null ? op.statusMessage() : "No failure reason provided";
                                    throw new RuntimeException("Baseline operation failed (ID: " + opId + "), status: "
                                            + status + ", reason: " + reason);
                                }

                                try {
                                    Thread.sleep(Duration.ofSeconds(15).toMillis());
                                } catch (InterruptedException e) {
                                    Thread.currentThread().interrupt();
                                    throw new RuntimeException(e);
                                }
                            }
                        });
                    } else if (result instanceof String existingArn) {
                        // Already enabled branch
                        return CompletableFuture.completedFuture(existingArn);
                    }

                    return CompletableFuture.completedFuture(null);
                });
    }


    /**
     * Fetches the ARN of an already-enabled baseline for the target asynchronously.
     */
    private CompletableFuture<String> fetchEnabledBaselineArn(String targetIdentifier, String baselineIdentifier) {
        return getAsyncClient().listEnabledBaselines(ListEnabledBaselinesRequest.builder().build())
                .thenApply(listResp -> {
                    for (EnabledBaselineSummary eb : listResp.enabledBaselines()) {
                        if (baselineIdentifier.equals(eb.baselineIdentifier())
                                && targetIdentifier.equals(eb.targetIdentifier())) {
                            return eb.arn();
                        }
                    }
                    return null; // not yet available
                });
    }
```
+  Untuk detail API, lihat [EnableBaseline](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/EnableBaseline)di *Referensi AWS SDK for Java 2.x API*. 

### `EnableControl`
<a name="controltower_EnableControl_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableControl`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Enables a control for a specified target.
     *
     * @param controlIdentifier the identifier of the control to enable
     * @param targetIdentifier  the identifier of the target (e.g., OU ARN)
     * @return the operation identifier
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<String> enableControlAsync(
            String controlIdentifier,
            String targetIdentifier) {

        EnableControlRequest request = EnableControlRequest.builder()
                .controlIdentifier(controlIdentifier)
                .targetIdentifier(targetIdentifier)
                .build();

        return getAsyncClient().enableControl(request)
                .thenCompose(response -> {
                    String operationId = response.operationIdentifier();
                    System.out.println("Enable control operation started. Operation ID: " + operationId);

                    CompletableFuture<String> resultFuture = new CompletableFuture<>();

                    Runnable poller = new Runnable() {
                        @Override
                        public void run() {
                            getControlOperationAsync(operationId)
                                    .thenAccept(status -> {
                                        System.out.println("Control operation status: " + status);

                                        if (status == ControlOperationStatus.SUCCEEDED
                                                || status == ControlOperationStatus.FAILED) {
                                            resultFuture.complete(operationId);
                                        } else {
                                            // Poll again after 30 seconds
                                            CompletableFuture.delayedExecutor(30, TimeUnit.SECONDS)
                                                    .execute(this);
                                        }
                                    })
                                    .exceptionally(ex -> {
                                        resultFuture.completeExceptionally(ex);
                                        return null;
                                    });
                        }
                    };

                    // Start polling immediately
                    poller.run();

                    return resultFuture;
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();
                        String message = e.getMessage() != null ? e.getMessage() : "";

                        if ("ValidationException".equals(errorCode)
                                && message.contains("already enabled")) {
                            System.out.println("Control is already enabled for this target");
                            return null;
                        }

                        if ("ResourceNotFoundException".equals(errorCode)
                                && message.contains("not registered with AWS Control Tower")) {
                            System.out.println(
                                    "Control Tower must be enabled to work with controls.");
                            return null;
                        }

                        throw new CompletionException(
                                "Couldn't enable control: %s".formatted(message),
                                e
                        );
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error enabling control: %s"
                                        .formatted(cause.getMessage()),
                                cause
                        );
                    }

                    throw new CompletionException(
                            "Failed to enable control",
                            cause
                    );
                });
    }
```
+  Untuk detail API, lihat [EnableControl](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/EnableControl)di *Referensi AWS SDK for Java 2.x API*. 

### `GetBaselineOperation`
<a name="controltower_GetBaselineOperation_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBaselineOperation`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Gets the status of a baseline operation.
     *
     * @param operationIdentifier the identifier of the operation
     * @return the operation status
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<BaselineOperationStatus> getBaselineOperationAsync(
            String operationIdentifier) {

        GetBaselineOperationRequest request = GetBaselineOperationRequest.builder()
                .operationIdentifier(operationIdentifier)
                .build();

        return getAsyncClient().getBaselineOperation(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null
                                ? exception.getCause()
                                : exception;

                        if (cause instanceof ControlTowerException e) {
                            String errorCode = e.awsErrorDetails().errorCode();

                            if ("ResourceNotFoundException".equals(errorCode)) {
                                throw new CompletionException(
                                        "Baseline operation not found: %s"
                                                .formatted(e.getMessage()),
                                        e
                                );
                            }

                            throw new CompletionException(
                                    "Error getting baseline operation status: %s"
                                            .formatted(e.getMessage()),
                                    e
                            );
                        }

                        if (cause instanceof SdkException) {
                            throw new CompletionException(
                                    "SDK error getting baseline operation status: %s"
                                            .formatted(cause.getMessage()),
                                    cause
                            );
                        }

                        throw new CompletionException(
                                "Failed to get baseline operation status",
                                cause
                        );
                    }
                })
                .thenApply(response -> {
                    BaselineOperationStatus status =
                            response.baselineOperation().status();
                    return status;
                });
    }
```
+  Untuk detail API, lihat [GetBaselineOperation](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/GetBaselineOperation)di *Referensi AWS SDK for Java 2.x API*. 

### `GetControlOperation`
<a name="controltower_GetControlOperation_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetControlOperation`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Gets the status of a control operation.
     *
     * @param operationIdentifier the identifier of the operation
     * @return the operation status
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<ControlOperationStatus> getControlOperationAsync(
            String operationIdentifier) {

        GetControlOperationRequest request = GetControlOperationRequest.builder()
                .operationIdentifier(operationIdentifier)
                .build();

        return getAsyncClient().getControlOperation(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof ControlTowerException e) {
                            String errorCode = e.awsErrorDetails().errorCode();

                            if ("ResourceNotFoundException".equals(errorCode)) {
                                throw new CompletionException(
                                        "Control operation not found: %s".formatted(e.getMessage()),
                                        e
                                );
                            }

                            throw new CompletionException(
                                    "Error getting control operation status: %s".formatted(e.getMessage()),
                                    e
                            );
                        }

                        if (cause instanceof SdkException) {
                            throw new CompletionException(
                                    "SDK error getting control operation status: %s".formatted(cause.getMessage()),
                                    cause
                            );
                        }

                        throw new CompletionException("Failed to get control operation status", cause);
                    }
                })
                .thenApply(response -> response.controlOperation().status());
    }
```
+  Untuk detail API, lihat [GetControlOperation](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/GetControlOperation)di *Referensi AWS SDK for Java 2.x API*. 

### `ListBaselines`
<a name="controltower_ListBaselines_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBaselines`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Lists all available baselines using pagination to retrieve complete results.
     *
     * @return a list of all baselines
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<List<BaselineSummary>> listBaselinesAsync() {
        System.out.println("Starting list baselines paginator…");
        ListBaselinesRequest request = ListBaselinesRequest.builder().build();
        ListBaselinesPublisher paginator =
                getAsyncClient().listBaselinesPaginator(request);

        List<BaselineSummary> baselines = new ArrayList<>();
        return paginator.subscribe(response -> {
                    if (response.baselines() != null && !response.baselines().isEmpty()) {
                        response.baselines().forEach(baseline -> {
                            baselines.add(baseline);
                        });
                    } else {
                        System.out.println("Page contained no baselines.");
                    }
                })
                .thenRun(() ->
                        System.out.println("Successfully listed baselines. Total: " + baselines.size())
                )
                .thenApply(v -> baselines)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();

                        if ("AccessDeniedException".equals(errorCode)) {
                            throw new CompletionException(
                                    "Access denied when listing baselines: %s".formatted(e.getMessage()),
                                    e
                            );
                        }

                        throw new CompletionException(
                                "Error listing baselines: %s".formatted(e.getMessage()),
                                e
                        );
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error listing baselines: %s".formatted(cause.getMessage()),
                                cause
                        );
                    }

                    throw new CompletionException("Failed to list baselines", cause);
                });
    }
```
+  Untuk detail API, lihat [ListBaselines](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListBaselines)di *Referensi AWS SDK for Java 2.x API*. 

### `ListEnabledBaselines`
<a name="controltower_ListEnabledBaselines_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEnabledBaselines`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Lists all enabled baselines using pagination to retrieve complete results.
     *
     * @return a list of all enabled baselines
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<List<EnabledBaselineSummary>> listEnabledBaselinesAsync() {
        System.out.println("Starting list enabled baselines paginator…");

        ListEnabledBaselinesRequest request =
                ListEnabledBaselinesRequest.builder().build();

        ListEnabledBaselinesPublisher paginator =
                getAsyncClient().listEnabledBaselinesPaginator(request);

        List<EnabledBaselineSummary> enabledBaselines = new ArrayList<>();
        return paginator.subscribe(response -> {
                    if (response.enabledBaselines() != null
                            && !response.enabledBaselines().isEmpty()) {

                        response.enabledBaselines().forEach(baseline -> {
                            enabledBaselines.add(baseline);
                        });
                    } else {
                        System.out.println("Page contained no enabled baselines.");
                    }
                })
                .thenRun(() ->
                        System.out.println(
                                "Successfully listed enabled baselines. Total: " +
                                        enabledBaselines.size()
                        )
                )
                .thenApply(v -> enabledBaselines)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();

                        if ("AccessDeniedException".equals(errorCode)) {
                            throw new CompletionException(
                                    "Access denied when listing enabled baselines: %s".formatted(e.getMessage()), e);
                        }

                        throw new CompletionException(
                                "Error listing enabled baselines: %s"
                                        .formatted(e.getMessage()),
                                e
                        );
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error listing enabled baselines: %s"
                                        .formatted(cause.getMessage()),
                                cause
                        );
                    }

                    throw new CompletionException(
                            "Failed to list enabled baselines",
                            cause
                    );
                });
    }
```
+  Untuk detail API, lihat [ListEnabledBaselines](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListEnabledBaselines)di *Referensi AWS SDK for Java 2.x API*. 

### `ListEnabledControls`
<a name="controltower_ListEnabledControls_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEnabledControls`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Lists all enabled controls for a specific target using pagination.
     *
     * @param targetIdentifier the identifier of the target (e.g., OU ARN)
     * @return a list of enabled controls
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<List<EnabledControlSummary>> listEnabledControlsAsync(String targetIdentifier) {
        System.out.println("Starting list enabled controls paginator for target " + targetIdentifier);
        ListEnabledControlsRequest request = ListEnabledControlsRequest.builder()
                .targetIdentifier(targetIdentifier)
                .build();

        ListEnabledControlsPublisher paginator = getAsyncClient().listEnabledControlsPaginator(request);
        List<EnabledControlSummary> enabledControls = new ArrayList<>();

        // Subscribe to the paginator asynchronously
        return paginator.subscribe(response -> {
                    if (response.enabledControls() != null && !response.enabledControls().isEmpty()) {
                        response.enabledControls().forEach(control -> {
                            enabledControls.add(control);
                        });
                    } else {
                        System.out.println("Page contained no enabled controls.");
                    }
                })
                .thenRun(() -> System.out.println(
                        "Successfully retrieved "+enabledControls.size() +" enabled controls for target "+targetIdentifier
                ))
                .thenApply(v -> enabledControls)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();

                        switch (errorCode) {
                            case "AccessDeniedException":
                                throw new CompletionException(
                                        "Access denied when listing enabled controls: %s".formatted(e.getMessage()), e);

                            case "ResourceNotFoundException":
                                if (e.getMessage() != null && e.getMessage().contains("not registered with AWS Control Tower")) {
                                    throw new CompletionException(
                                            "Control Tower must be enabled to work with controls", e);
                                }
                                throw new CompletionException(
                                        "Target not found when listing enabled controls: %s".formatted(e.getMessage()), e);

                            default:
                                throw new CompletionException(
                                        "Error listing enabled controls: %s".formatted(e.getMessage()), e);
                        }
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error listing enabled controls: %s".formatted(cause.getMessage()), cause);
                    }

                    throw new CompletionException("Failed to list enabled controls", cause);
                });
    }
```
+  Untuk detail API, lihat [ListEnabledControls](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListEnabledControls)di *Referensi AWS SDK for Java 2.x API*. 

### `ListLandingZones`
<a name="controltower_ListLandingZones_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLandingZones`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Lists all landing zones using pagination to retrieve complete results.
     *
     * @return a list of all landing zones
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<List<LandingZoneSummary>> listLandingZonesAsync() {
        System.out.println("Starting list landing zones paginator…");

        ListLandingZonesRequest request = ListLandingZonesRequest.builder().build();
        ListLandingZonesPublisher paginator = getAsyncClient().listLandingZonesPaginator(request);
        List<LandingZoneSummary> landingZones = new ArrayList<>();

        return paginator.subscribe(response -> {
                    if (response.landingZones() != null && !response.landingZones().isEmpty()) {
                        response.landingZones().forEach(lz -> {
                            System.out.println("Landing zone ARN: " + lz.arn());
                            landingZones.add(lz);
                        });
                    } else {
                        System.out.println("Page contained no landing zones.");
                    }
                })
                .thenRun(() -> System.out.println("Successfully retrieved "+ landingZones.size() + " landing zones." ))
                .thenApply(v -> landingZones)
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails().errorCode();
                        switch (errorCode) {
                            case "AccessDeniedException":
                                throw new CompletionException(
                                        "Access denied when listing landing zones: " + e.getMessage(), e);
                            default:
                                throw new CompletionException(
                                        "Error listing landing zones: " + e.getMessage(), e);
                        }
                    }

                    if (cause instanceof SdkException) {
                        throw new CompletionException(
                                "SDK error listing landing zones: " + cause.getMessage(), cause);
                    }

                    throw new CompletionException("Failed to list landing zones", cause);
                });
    }
```
+  Untuk detail API, lihat [ListLandingZones](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ListLandingZones)di *Referensi AWS SDK for Java 2.x API*. 

### `ResetEnabledBaseline`
<a name="controltower_ResetEnabledBaseline_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResetEnabledBaseline`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/controltower#code-examples). 

```
    /**
     * Resets an enabled baseline for a specific target.
     *
     * @param enabledBaselineIdentifier the identifier of the enabled baseline to reset
     * @return the operation identifier
     * @throws ControlTowerException if a service-specific error occurs
     * @throws SdkException          if an SDK error occurs
     */
    public CompletableFuture<String> resetEnabledBaselineAsync(String enabledBaselineIdentifier) {

        System.out.println("Starting reset of enabled baseline…");
        System.out.println("This operation will check the status every 15 seconds until it completes (SUCCEEDED or FAILED).");

        ResetEnabledBaselineRequest request = ResetEnabledBaselineRequest.builder()
                .enabledBaselineIdentifier(enabledBaselineIdentifier)
                .build();

        return getAsyncClient().resetEnabledBaseline(request)
                .thenCompose(response -> {
                    String operationId = response.operationIdentifier();
                    System.out.println("Reset enabled baseline operation ID: " + operationId);

                    // Polling loop
                    CompletableFuture<String> resultFuture = new CompletableFuture<>();

                    Runnable poller = new Runnable() {
                        @Override
                        public void run() {
                            getBaselineOperationAsync(operationId)
                                    .thenAccept(statusObj -> {
                                        String status = statusObj.toString(); // Convert enum/status to string for printing
                                        System.out.println("Current baseline operation status: " + status + " → waiting for SUCCEEDED or FAILED...");

                                        if ("SUCCEEDED".equalsIgnoreCase(status) || "FAILED".equalsIgnoreCase(status)) {
                                            System.out.println("Baseline operation finished with status: " + status);
                                            resultFuture.complete(operationId);
                                        } else {
                                            // Schedule next poll in 15 seconds
                                            CompletableFuture.delayedExecutor(15, TimeUnit.SECONDS)
                                                    .execute(this);
                                        }
                                    })
                                    .exceptionally(ex -> {
                                        System.out.println("Error checking baseline operation status: " + ex.getMessage());
                                        resultFuture.completeExceptionally(ex);
                                        return null;
                                    });
                        }
                    };

                    // Start first poll immediately
                    poller.run();

                    return resultFuture;
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ControlTowerException e) {
                        String errorCode = e.awsErrorDetails() != null ? e.awsErrorDetails().errorCode() : "UNKNOWN";
                        String errorMessage = e.awsErrorDetails() != null ? e.awsErrorDetails().errorMessage() : e.getMessage();

                        System.out.println("ControlTowerException caught: Code=" + errorCode + ", Message=" + errorMessage);
                        return null;
                    }

                    if (cause instanceof SdkException sdkEx) {
                        System.out.println("SDK exception caught: " + sdkEx.getMessage());
                        return null;
                    }

                    System.out.println("Unexpected exception resetting baseline: " + cause.getMessage());
                    return null;
                });
    }
```
+  Untuk detail API, lihat [ResetEnabledBaseline](https://docs.aws.amazon.com/goto/SdkForJavaV2/controltower-2018-05-10/ResetEnabledBaseline)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Firehose menggunakan SDK for Java 2.x
<a name="java_2_firehose_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK for Java 2.x Firehose with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `PutRecord`
<a name="firehose_PutRecord_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecord`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/firehose#code-examples). 

```
    /**
     * Puts a record to the specified Amazon Kinesis Data Firehose delivery stream.
     *
     * @param record The record to be put to the delivery stream. The record must be a {@link Map} of String keys and Object values.
     * @param deliveryStreamName The name of the Amazon Kinesis Data Firehose delivery stream to which the record should be put.
     * @throws IllegalArgumentException if the input record or delivery stream name is null or empty.
     * @throws RuntimeException if there is an error putting the record to the delivery stream.
     */
    public static void putRecord(Map<String, Object> record, String deliveryStreamName) {
        if (record == null || deliveryStreamName == null || deliveryStreamName.isEmpty()) {
            throw new IllegalArgumentException("Invalid input: record or delivery stream name cannot be null/empty");
        }
        try {
            String jsonRecord = new ObjectMapper().writeValueAsString(record);
            Record firehoseRecord = Record.builder()
                .data(SdkBytes.fromByteArray(jsonRecord.getBytes(StandardCharsets.UTF_8)))
                .build();

            PutRecordRequest putRecordRequest = PutRecordRequest.builder()
                .deliveryStreamName(deliveryStreamName)
                .record(firehoseRecord)
                .build();

            getFirehoseClient().putRecord(putRecordRequest);
            System.out.println("Record sent: " + jsonRecord);
        } catch (Exception e) {
            throw new RuntimeException("Failed to put record: " + e.getMessage(), e);
        }
    }
```
+  Untuk detail API, lihat [PutRecord](https://docs.aws.amazon.com/goto/SdkForJavaV2/firehose-2015-08-04/PutRecord)di *Referensi AWS SDK for Java 2.x API*. 

### `PutRecordBatch`
<a name="firehose_PutRecordBatch_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecordBatch`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/firehose#code-examples). 

```
    /**
     * Puts a batch of records to an Amazon Kinesis Data Firehose delivery stream.
     *
     * @param records           a list of maps representing the records to be sent
     * @param batchSize         the maximum number of records to include in each batch
     * @param deliveryStreamName the name of the Kinesis Data Firehose delivery stream
     * @throws IllegalArgumentException if the input parameters are invalid (null or empty)
     * @throws RuntimeException         if there is an error putting the record batch
     */
    public static void putRecordBatch(List<Map<String, Object>> records, int batchSize, String deliveryStreamName) {
        if (records == null || records.isEmpty() || deliveryStreamName == null || deliveryStreamName.isEmpty()) {
            throw new IllegalArgumentException("Invalid input: records or delivery stream name cannot be null/empty");
        }
        ObjectMapper objectMapper = new ObjectMapper();

        try {
            for (int i = 0; i < records.size(); i += batchSize) {
                List<Map<String, Object>> batch = records.subList(i, Math.min(i + batchSize, records.size()));

                List<Record> batchRecords = batch.stream().map(record -> {
                    try {
                        String jsonRecord = objectMapper.writeValueAsString(record);
                        return Record.builder()
                            .data(SdkBytes.fromByteArray(jsonRecord.getBytes(StandardCharsets.UTF_8)))
                            .build();
                    } catch (Exception e) {
                        throw new RuntimeException("Error creating Firehose record", e);
                    }
                }).collect(Collectors.toList());

                PutRecordBatchRequest request = PutRecordBatchRequest.builder()
                    .deliveryStreamName(deliveryStreamName)
                    .records(batchRecords)
                    .build();

                PutRecordBatchResponse response = getFirehoseClient().putRecordBatch(request);

                if (response.failedPutCount() > 0) {
                    response.requestResponses().stream()
                        .filter(r -> r.errorCode() != null)
                        .forEach(r -> System.err.println("Failed record: " + r.errorMessage()));
                }
                System.out.println("Batch sent with size: " + batchRecords.size());
            }
        } catch (Exception e) {
            throw new RuntimeException("Failed to put record batch: " + e.getMessage(), e);
        }
    }
```
+  Untuk detail API, lihat [PutRecordBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/firehose-2015-08-04/PutRecordBatch)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Masukkan catatan ke Firehose
<a name="firehose_Scenario_PutRecords_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Firehose untuk memproses catatan individu dan batch.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/firehose#code-examples). 
Contoh ini menempatkan catatan individu dan batch ke Firehose.  

```
/**
 * Amazon Firehose Scenario example using Java V2 SDK.
 *
 * Demonstrates individual and batch record processing,
 * and monitoring Firehose delivery stream metrics.
 */
public class FirehoseScenario {

    private static FirehoseClient firehoseClient;
    private static CloudWatchClient cloudWatchClient;

    public static void main(String[] args) {
        final String usage = """
                Usage:
                    <deliveryStreamName>
                Where:
                    deliveryStreamName - The Firehose delivery stream name.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            return;
        }

        String deliveryStreamName = args[0];

        try {
            // Read and parse sample data.
            String jsonContent = readJsonFile("sample_records.json");
            ObjectMapper objectMapper = new ObjectMapper();
            List<Map<String, Object>> sampleData = objectMapper.readValue(jsonContent, new TypeReference<>() {});

            // Process individual records.
            System.out.println("Processing individual records...");
            sampleData.subList(0, 100).forEach(record -> {
                try {
                    putRecord(record, deliveryStreamName);
                } catch (Exception e) {
                    System.err.println("Error processing record: " + e.getMessage());
                }
            });

            // Monitor metrics.
            monitorMetrics(deliveryStreamName);

            // Process batch records.
            System.out.println("Processing batch records...");
            putRecordBatch(sampleData.subList(100, sampleData.size()), 500, deliveryStreamName);
            monitorMetrics(deliveryStreamName);

        } catch (Exception e) {
            System.err.println("Scenario failed: " + e.getMessage());
        } finally {
            closeClients();
        }
    }

    private static FirehoseClient getFirehoseClient() {
        if (firehoseClient == null) {
            firehoseClient = FirehoseClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return firehoseClient;
    }

    private static CloudWatchClient getCloudWatchClient() {
        if (cloudWatchClient == null) {
            cloudWatchClient = CloudWatchClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return cloudWatchClient;
    }

    /**
     * Puts a record to the specified Amazon Kinesis Data Firehose delivery stream.
     *
     * @param record The record to be put to the delivery stream. The record must be a {@link Map} of String keys and Object values.
     * @param deliveryStreamName The name of the Amazon Kinesis Data Firehose delivery stream to which the record should be put.
     * @throws IllegalArgumentException if the input record or delivery stream name is null or empty.
     * @throws RuntimeException if there is an error putting the record to the delivery stream.
     */
    public static void putRecord(Map<String, Object> record, String deliveryStreamName) {
        if (record == null || deliveryStreamName == null || deliveryStreamName.isEmpty()) {
            throw new IllegalArgumentException("Invalid input: record or delivery stream name cannot be null/empty");
        }
        try {
            String jsonRecord = new ObjectMapper().writeValueAsString(record);
            Record firehoseRecord = Record.builder()
                .data(SdkBytes.fromByteArray(jsonRecord.getBytes(StandardCharsets.UTF_8)))
                .build();

            PutRecordRequest putRecordRequest = PutRecordRequest.builder()
                .deliveryStreamName(deliveryStreamName)
                .record(firehoseRecord)
                .build();

            getFirehoseClient().putRecord(putRecordRequest);
            System.out.println("Record sent: " + jsonRecord);
        } catch (Exception e) {
            throw new RuntimeException("Failed to put record: " + e.getMessage(), e);
        }
    }


    /**
     * Puts a batch of records to an Amazon Kinesis Data Firehose delivery stream.
     *
     * @param records           a list of maps representing the records to be sent
     * @param batchSize         the maximum number of records to include in each batch
     * @param deliveryStreamName the name of the Kinesis Data Firehose delivery stream
     * @throws IllegalArgumentException if the input parameters are invalid (null or empty)
     * @throws RuntimeException         if there is an error putting the record batch
     */
    public static void putRecordBatch(List<Map<String, Object>> records, int batchSize, String deliveryStreamName) {
        if (records == null || records.isEmpty() || deliveryStreamName == null || deliveryStreamName.isEmpty()) {
            throw new IllegalArgumentException("Invalid input: records or delivery stream name cannot be null/empty");
        }
        ObjectMapper objectMapper = new ObjectMapper();

        try {
            for (int i = 0; i < records.size(); i += batchSize) {
                List<Map<String, Object>> batch = records.subList(i, Math.min(i + batchSize, records.size()));

                List<Record> batchRecords = batch.stream().map(record -> {
                    try {
                        String jsonRecord = objectMapper.writeValueAsString(record);
                        return Record.builder()
                            .data(SdkBytes.fromByteArray(jsonRecord.getBytes(StandardCharsets.UTF_8)))
                            .build();
                    } catch (Exception e) {
                        throw new RuntimeException("Error creating Firehose record", e);
                    }
                }).collect(Collectors.toList());

                PutRecordBatchRequest request = PutRecordBatchRequest.builder()
                    .deliveryStreamName(deliveryStreamName)
                    .records(batchRecords)
                    .build();

                PutRecordBatchResponse response = getFirehoseClient().putRecordBatch(request);

                if (response.failedPutCount() > 0) {
                    response.requestResponses().stream()
                        .filter(r -> r.errorCode() != null)
                        .forEach(r -> System.err.println("Failed record: " + r.errorMessage()));
                }
                System.out.println("Batch sent with size: " + batchRecords.size());
            }
        } catch (Exception e) {
            throw new RuntimeException("Failed to put record batch: " + e.getMessage(), e);
        }
    }

    public static void monitorMetrics(String deliveryStreamName) {
        Instant endTime = Instant.now();
        Instant startTime = endTime.minusSeconds(600);

        List<String> metrics = List.of("IncomingBytes", "IncomingRecords", "FailedPutCount");
        metrics.forEach(metric -> monitorMetric(metric, startTime, endTime, deliveryStreamName));
    }

    private static void monitorMetric(String metricName, Instant startTime, Instant endTime, String deliveryStreamName) {
        try {
            GetMetricStatisticsRequest request = GetMetricStatisticsRequest.builder()
                .namespace("AWS/Firehose")
                .metricName(metricName)
                .dimensions(Dimension.builder().name("DeliveryStreamName").value(deliveryStreamName).build())
                .startTime(startTime)
                .endTime(endTime)
                .period(60)
                .statistics(Statistic.SUM)
                .build();

            GetMetricStatisticsResponse response = getCloudWatchClient().getMetricStatistics(request);
            double totalSum = response.datapoints().stream().mapToDouble(Datapoint::sum).sum();
            System.out.println(metricName + ": " + totalSum);
        } catch (Exception e) {
            System.err.println("Failed to monitor metric " + metricName + ": " + e.getMessage());
        }
    }

    public static String readJsonFile(String fileName) throws IOException {
        try (InputStream inputStream = FirehoseScenario.class.getResourceAsStream("/" + fileName);
             Scanner scanner = new Scanner(inputStream, StandardCharsets.UTF_8)) {
            return scanner.useDelimiter("\\\\A").next();
        } catch (Exception e) {
            throw new RuntimeException("Error reading file: " + fileName, e);
        }
    }

    private static void closeClients() {
        try {
            if (firehoseClient != null) firehoseClient.close();
            if (cloudWatchClient != null) cloudWatchClient.close();
        } catch (Exception e) {
            System.err.println("Error closing clients: " + e.getMessage());
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [PutRecord](https://docs.aws.amazon.com/goto/SdkForJavaV2/firehose-2015-08-04/PutRecord)
  + [PutRecordBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/firehose-2015-08-04/PutRecordBatch)

# Contoh Amazon DocumentDB menggunakan SDK for Java 2.x
<a name="java_2_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon DocumentDB. AWS SDK for Java 2.x 

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Java.  

```
import java.util.List;
import java.util.Map;

import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;

public class Example implements RequestHandler<Map<String, Object>, String> {

    @SuppressWarnings("unchecked")
    @Override
    public String handleRequest(Map<String, Object> event, Context context) {
        List<Map<String, Object>> events = (List<Map<String, Object>>) event.get("events");
        for (Map<String, Object> record : events) {
            Map<String, Object> eventData = (Map<String, Object>) record.get("event");
            processEventData(eventData);
        }

        return "OK";
    }

    @SuppressWarnings("unchecked")
    private void processEventData(Map<String, Object> eventData) {
        String operationType = (String) eventData.get("operationType");
        System.out.println("operationType: %s".formatted(operationType));

        Map<String, Object> ns = (Map<String, Object>) eventData.get("ns");

        String db = (String) ns.get("db");
        System.out.println("db: %s".formatted(db));
        String coll = (String) ns.get("coll");
        System.out.println("coll: %s".formatted(coll));

        Map<String, Object> fullDocument = (Map<String, Object>) eventData.get("fullDocument");
        System.out.println("fullDocument: %s".formatted(fullDocument));
    }

}
```

# Contoh DynamoDB menggunakan SDK for Java 2.x
<a name="java_2_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Memulai
<a name="get_started"></a>

### Halo DynamoDB
<a name="dynamodb_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan DynamoDB.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.ListTablesRequest;
import software.amazon.awssdk.services.dynamodb.model.ListTablesResponse;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListTables {
    public static void main(String[] args) {
        System.out.println("Listing your Amazon DynamoDB tables:\n");
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();
        listAllTables(ddb);
        ddb.close();
    }

    public static void listAllTables(DynamoDbClient ddb) {
        boolean moreTables = true;
        String lastName = null;

        while (moreTables) {
            try {
                ListTablesResponse response = null;
                if (lastName == null) {
                    ListTablesRequest request = ListTablesRequest.builder().build();
                    response = ddb.listTables(request);
                } else {
                    ListTablesRequest request = ListTablesRequest.builder()
                            .exclusiveStartTableName(lastName).build();
                    response = ddb.listTables(request);
                }

                List<String> tableNames = response.tableNames();
                if (tableNames.size() > 0) {
                    for (String curName : tableNames) {
                        System.out.format("* %s\n", curName);
                    }
                } else {
                    System.out.println("No tables found!");
                    System.exit(0);
                }

                lastName = response.lastEvaluatedTableName();
                if (lastName == null) {
                    moreTables = false;
                }

            } catch (DynamoDbException e) {
                System.err.println(e.getMessage());
                System.exit(1);
            }
        }
        System.out.println("\nDone!");
    }
}
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 
Buat tabel DynamoDB.  

```
    // Create a table with a Sort key.
    public static void createTable(DynamoDbClient ddb, String tableName) {
        DynamoDbWaiter dbWaiter = ddb.waiter();
        ArrayList<AttributeDefinition> attributeDefinitions = new ArrayList<>();

        // Define attributes.
        attributeDefinitions.add(AttributeDefinition.builder()
            .attributeName("year")
            .attributeType("N")
            .build());

        attributeDefinitions.add(AttributeDefinition.builder()
            .attributeName("title")
            .attributeType("S")
            .build());

        ArrayList<KeySchemaElement> tableKey = new ArrayList<>();
        KeySchemaElement key = KeySchemaElement.builder()
            .attributeName("year")
            .keyType(KeyType.HASH)
            .build();

        KeySchemaElement key2 = KeySchemaElement.builder()
            .attributeName("title")
            .keyType(KeyType.RANGE)
            .build();

        // Add KeySchemaElement objects to the list.
        tableKey.add(key);
        tableKey.add(key2);

        CreateTableRequest request = CreateTableRequest.builder()
            .keySchema(tableKey)
            .billingMode(BillingMode.PAY_PER_REQUEST) //  DynamoDB automatically scales based on traffic.
            .attributeDefinitions(attributeDefinitions)
            .tableName(tableName)
            .build();

        try {
            CreateTableResponse response = ddb.createTable(request);
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                .tableName(tableName)
                .build();

            // Wait until the Amazon DynamoDB table is created.
            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter.waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            String newTable = response.tableDescription().tableName();
            System.out.println("The " + newTable + " was successfully created.");

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
Buat fungsi pembantu untuk mengunduh dan mengekstrak file JSON sampel.  

```
    // Load data into the table.
    public static void loadData(DynamoDbClient ddb, String tableName, String fileName) throws IOException {
        DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
            .dynamoDbClient(ddb)
            .build();

        DynamoDbTable<Movies> mappedTable = enhancedClient.table("Movies", TableSchema.fromBean(Movies.class));
        JsonParser parser = new JsonFactory().createParser(new File(fileName));
        com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
        Iterator<JsonNode> iter = rootNode.iterator();
        ObjectNode currentNode;
        int t = 0;
        while (iter.hasNext()) {
            // Only add 200 Movies to the table.
            if (t == 200)
                break;
            currentNode = (ObjectNode) iter.next();

            int year = currentNode.path("year").asInt();
            String title = currentNode.path("title").asText();
            String info = currentNode.path("info").toString();

            Movies movies = new Movies();
            movies.setYear(year);
            movies.setTitle(title);
            movies.setInfo(info);

            // Put the data into the Amazon DynamoDB Movie table.
            mappedTable.putItem(movies);
            t++;
        }
    }
```
Dapatkan item dari tabel.  

```
    public static void getItem(DynamoDbClient ddb) {

        HashMap<String, AttributeValue> keyToGet = new HashMap<>();
        keyToGet.put("year", AttributeValue.builder()
            .n("1933")
            .build());

        keyToGet.put("title", AttributeValue.builder()
            .s("King Kong")
            .build());

        GetItemRequest request = GetItemRequest.builder()
            .key(keyToGet)
            .tableName("Movies")
            .build();

        try {
            Map<String, AttributeValue> returnedItem = ddb.getItem(request).item();

            if (returnedItem != null) {
                Set<String> keys = returnedItem.keySet();
                System.out.println("Amazon DynamoDB table attributes: \n");

                for (String key1 : keys) {
                    System.out.format("%s: %s\n", key1, returnedItem.get(key1).toString());
                }
            } else {
                System.out.format("No item found with the key %s!\n", "year");
            }

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
Contoh lengkap.  

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 * <p>
 * This Java example performs these tasks:
 * <p>
 * 1. Creates the Amazon DynamoDB Movie table with partition and sort key.
 * 2. Puts data into the Amazon DynamoDB table from a JSON document using the
 * Enhanced client.
 * 3. Gets data from the Movie table.
 * 4. Adds a new item.
 * 5. Updates an item.
 * 6. Uses a Scan to query items using the Enhanced client.
 * 7. Queries all items where the year is 2013 using the Enhanced Client.
 * 8. Deletes the table.
 */

public class Scenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws IOException {
        String tableName = "Movies";
        String fileName = "../../../resources/sample_files/movies.json";
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
            .region(region)
            .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon DynamoDB example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(
            "1. Creating an Amazon DynamoDB table named Movies with a key named year and a sort key named title.");
        createTable(ddb, tableName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Loading data into the Amazon DynamoDB table.");
        loadData(ddb, tableName, fileName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Getting data from the Movie table.");
        getItem(ddb);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Putting a record into the Amazon DynamoDB table.");
        putRecord(ddb);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Updating a record.");
        updateTableItem(ddb, tableName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Scanning the Amazon DynamoDB table.");
        scanMovies(ddb, tableName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Querying the Movies released in 2013.");
        queryTable(ddb);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Deleting the Amazon DynamoDB table.");
        deleteDynamoDBTable(ddb, tableName);
        System.out.println(DASHES);

        ddb.close();
    }

    // Create a table with a Sort key.
    public static void createTable(DynamoDbClient ddb, String tableName) {
        DynamoDbWaiter dbWaiter = ddb.waiter();
        ArrayList<AttributeDefinition> attributeDefinitions = new ArrayList<>();

        // Define attributes.
        attributeDefinitions.add(AttributeDefinition.builder()
            .attributeName("year")
            .attributeType("N")
            .build());

        attributeDefinitions.add(AttributeDefinition.builder()
            .attributeName("title")
            .attributeType("S")
            .build());

        ArrayList<KeySchemaElement> tableKey = new ArrayList<>();
        KeySchemaElement key = KeySchemaElement.builder()
            .attributeName("year")
            .keyType(KeyType.HASH)
            .build();

        KeySchemaElement key2 = KeySchemaElement.builder()
            .attributeName("title")
            .keyType(KeyType.RANGE)
            .build();

        // Add KeySchemaElement objects to the list.
        tableKey.add(key);
        tableKey.add(key2);

        CreateTableRequest request = CreateTableRequest.builder()
            .keySchema(tableKey)
            .billingMode(BillingMode.PAY_PER_REQUEST) //  DynamoDB automatically scales based on traffic.
            .attributeDefinitions(attributeDefinitions)
            .tableName(tableName)
            .build();

        try {
            CreateTableResponse response = ddb.createTable(request);
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                .tableName(tableName)
                .build();

            // Wait until the Amazon DynamoDB table is created.
            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter.waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            String newTable = response.tableDescription().tableName();
            System.out.println("The " + newTable + " was successfully created.");

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    // Query the table.
    public static void queryTable(DynamoDbClient ddb) {
        try {
            DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
                .dynamoDbClient(ddb)
                .build();

            DynamoDbTable<Movies> custTable = enhancedClient.table("Movies", TableSchema.fromBean(Movies.class));
            QueryConditional queryConditional = QueryConditional
                .keyEqualTo(Key.builder()
                    .partitionValue(2013)
                    .build());

            // Get items in the table and write out the ID value.
            Iterator<Movies> results = custTable.query(queryConditional).items().iterator();
            String result = "";

            while (results.hasNext()) {
                Movies rec = results.next();
                System.out.println("The title of the movie is " + rec.getTitle());
                System.out.println("The movie information  is " + rec.getInfo());
            }

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    // Scan the table.
    public static void scanMovies(DynamoDbClient ddb, String tableName) {
        System.out.println("******* Scanning all movies.\n");
        try {
            DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
                .dynamoDbClient(ddb)
                .build();

            DynamoDbTable<Movies> custTable = enhancedClient.table("Movies", TableSchema.fromBean(Movies.class));
            Iterator<Movies> results = custTable.scan().items().iterator();
            while (results.hasNext()) {
                Movies rec = results.next();
                System.out.println("The movie title is " + rec.getTitle());
                System.out.println("The movie year is " + rec.getYear());
            }

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    // Load data into the table.
    public static void loadData(DynamoDbClient ddb, String tableName, String fileName) throws IOException {
        DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
            .dynamoDbClient(ddb)
            .build();

        DynamoDbTable<Movies> mappedTable = enhancedClient.table("Movies", TableSchema.fromBean(Movies.class));
        JsonParser parser = new JsonFactory().createParser(new File(fileName));
        com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
        Iterator<JsonNode> iter = rootNode.iterator();
        ObjectNode currentNode;
        int t = 0;
        while (iter.hasNext()) {
            // Only add 200 Movies to the table.
            if (t == 200)
                break;
            currentNode = (ObjectNode) iter.next();

            int year = currentNode.path("year").asInt();
            String title = currentNode.path("title").asText();
            String info = currentNode.path("info").toString();

            Movies movies = new Movies();
            movies.setYear(year);
            movies.setTitle(title);
            movies.setInfo(info);

            // Put the data into the Amazon DynamoDB Movie table.
            mappedTable.putItem(movies);
            t++;
        }
    }

    // Update the record to include show only directors.
    public static void updateTableItem(DynamoDbClient ddb, String tableName) {
        HashMap<String, AttributeValue> itemKey = new HashMap<>();
        itemKey.put("year", AttributeValue.builder().n("1933").build());
        itemKey.put("title", AttributeValue.builder().s("King Kong").build());

        HashMap<String, AttributeValueUpdate> updatedValues = new HashMap<>();
        updatedValues.put("info", AttributeValueUpdate.builder()
            .value(AttributeValue.builder().s("{\"directors\":[\"Merian C. Cooper\",\"Ernest B. Schoedsack\"]")
                .build())
            .action(AttributeAction.PUT)
            .build());

        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(itemKey)
            .attributeUpdates(updatedValues)
            .build();

        try {
            ddb.updateItem(request);
        } catch (ResourceNotFoundException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }

        System.out.println("Item was updated!");
    }

    public static void deleteDynamoDBTable(DynamoDbClient ddb, String tableName) {
        DeleteTableRequest request = DeleteTableRequest.builder()
            .tableName(tableName)
            .build();

        try {
            ddb.deleteTable(request);

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println(tableName + " was successfully deleted!");
    }

    public static void putRecord(DynamoDbClient ddb) {
        try {
            DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
                .dynamoDbClient(ddb)
                .build();

            DynamoDbTable<Movies> table = enhancedClient.table("Movies", TableSchema.fromBean(Movies.class));

            // Populate the Table.
            Movies record = new Movies();
            record.setYear(2020);
            record.setTitle("My Movie2");
            record.setInfo("no info");
            table.putItem(record);

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println("Added a new movie to the table.");
    }

    public static void getItem(DynamoDbClient ddb) {

        HashMap<String, AttributeValue> keyToGet = new HashMap<>();
        keyToGet.put("year", AttributeValue.builder()
            .n("1933")
            .build());

        keyToGet.put("title", AttributeValue.builder()
            .s("King Kong")
            .build());

        GetItemRequest request = GetItemRequest.builder()
            .key(keyToGet)
            .tableName("Movies")
            .build();

        try {
            Map<String, AttributeValue> returnedItem = ddb.getItem(request).item();

            if (returnedItem != null) {
                Set<String> keys = returnedItem.keySet();
                System.out.println("Amazon DynamoDB table attributes: \n");

                for (String key1 : keys) {
                    System.out.format("%s: %s\n", key1, returnedItem.get(key1).toString());
                }
            } else {
                System.out.format("No item found with the key %s!\n", "year");
            }

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [BatchWriteItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/BatchWriteItem)
  + [CreateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/CreateTable)
  + [DeleteItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DeleteItem)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Scan)
  + [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)

## Tindakan
<a name="actions"></a>

### `BatchGetItem`
<a name="dynamodb_BatchGetItem_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetItem`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 
Menunjukkan cara mendapatkan item batch menggunakan klien layanan.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.BatchGetItemRequest;
import software.amazon.awssdk.services.dynamodb.model.BatchGetItemResponse;
import software.amazon.awssdk.services.dynamodb.model.KeysAndAttributes;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class BatchReadItems {
    public static void main(String[] args){
        final String usage = """

                Usage:
                    <tableName> 

                Where:
                    tableName - The Amazon DynamoDB table (for example, Music).\s
                """;

        String tableName = "Music";
        Region region = Region.US_EAST_1;
        DynamoDbClient dynamoDbClient = DynamoDbClient.builder()
            .region(region)
            .build();

        getBatchItems(dynamoDbClient, tableName);
    }

    public static void getBatchItems(DynamoDbClient dynamoDbClient, String tableName) {
        // Define the primary key values for the items you want to retrieve.
        Map<String, AttributeValue> key1 = new HashMap<>();
        key1.put("Artist", AttributeValue.builder().s("Artist1").build());

        Map<String, AttributeValue> key2 = new HashMap<>();
        key2.put("Artist", AttributeValue.builder().s("Artist2").build());

        // Construct the batchGetItem request.
        Map<String, KeysAndAttributes> requestItems = new HashMap<>();
        requestItems.put(tableName, KeysAndAttributes.builder()
            .keys(List.of(key1, key2))
            .projectionExpression("Artist, SongTitle")
            .build());

        BatchGetItemRequest batchGetItemRequest = BatchGetItemRequest.builder()
            .requestItems(requestItems)
            .build();

        // Make the batchGetItem request.
        BatchGetItemResponse batchGetItemResponse = dynamoDbClient.batchGetItem(batchGetItemRequest);

        // Extract and print the retrieved items.
        Map<String, List<Map<String, AttributeValue>>> responses = batchGetItemResponse.responses();
        if (responses.containsKey(tableName)) {
            List<Map<String, AttributeValue>> musicItems = responses.get(tableName);
            for (Map<String, AttributeValue> item : musicItems) {
                System.out.println("Artist: " + item.get("Artist").s() +
                    ", SongTitle: " + item.get("SongTitle").s());
            }
        } else {
            System.out.println("No items retrieved.");
        }
    }
}
```
Menunjukkan cara mendapatkan item batch menggunakan klien layanan dan paginator.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.BatchGetItemRequest;
import software.amazon.awssdk.services.dynamodb.model.KeysAndAttributes;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

public class BatchGetItemsPaginator {

    public static void main(String[] args){
        final String usage = """

                Usage:
                    <tableName> 

                Where:
                    tableName - The Amazon DynamoDB table (for example, Music).\s
                """;

        String tableName = "Music";
        Region region = Region.US_EAST_1;
        DynamoDbClient dynamoDbClient = DynamoDbClient.builder()
            .region(region)
            .build();

        getBatchItemsPaginator(dynamoDbClient, tableName) ;
    }

    public static void getBatchItemsPaginator(DynamoDbClient dynamoDbClient, String tableName) {
        // Define the primary key values for the items you want to retrieve.
        Map<String, AttributeValue> key1 = new HashMap<>();
        key1.put("Artist", AttributeValue.builder().s("Artist1").build());

        Map<String, AttributeValue> key2 = new HashMap<>();
        key2.put("Artist", AttributeValue.builder().s("Artist2").build());

        // Construct the batchGetItem request.
        Map<String, KeysAndAttributes> requestItems = new HashMap<>();
        requestItems.put(tableName, KeysAndAttributes.builder()
            .keys(List.of(key1, key2))
            .projectionExpression("Artist, SongTitle")
            .build());

        BatchGetItemRequest batchGetItemRequest = BatchGetItemRequest.builder()
            .requestItems(requestItems)
            .build();

        // Use batchGetItemPaginator for paginated requests.
        dynamoDbClient.batchGetItemPaginator(batchGetItemRequest).stream()
            .flatMap(response -> response.responses().getOrDefault(tableName, Collections.emptyList()).stream())
            .forEach(item -> {
                System.out.println("Artist: " + item.get("Artist").s() +
                    ", SongTitle: " + item.get("SongTitle").s());
            });
    }
}
```
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/BatchGetItem)di *Referensi AWS SDK for Java 2.x API*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb/#code-examples). 
Menyisipkan banyak item ke dalam tabel dengan menggunakan klien layanan.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.BatchWriteItemRequest;
import software.amazon.awssdk.services.dynamodb.model.BatchWriteItemResponse;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.PutRequest;
import software.amazon.awssdk.services.dynamodb.model.WriteRequest;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class BatchWriteItems {
    public static void main(String[] args){
        final String usage = """

                Usage:
                    <tableName> 

                Where:
                    tableName - The Amazon DynamoDB table (for example, Music).\s
                """;

        String tableName = "Music";
        Region region = Region.US_EAST_1;
        DynamoDbClient dynamoDbClient = DynamoDbClient.builder()
            .region(region)
            .build();

        addBatchItems(dynamoDbClient, tableName);
    }

    public static void addBatchItems(DynamoDbClient dynamoDbClient, String tableName) {
        // Specify the updates you want to perform.
        List<WriteRequest> writeRequests = new ArrayList<>();

        // Set item 1.
        Map<String, AttributeValue> item1Attributes = new HashMap<>();
        item1Attributes.put("Artist", AttributeValue.builder().s("Artist1").build());
        item1Attributes.put("Rating", AttributeValue.builder().s("5").build());
        item1Attributes.put("Comments", AttributeValue.builder().s("Great song!").build());
        item1Attributes.put("SongTitle", AttributeValue.builder().s("SongTitle1").build());
        writeRequests.add(WriteRequest.builder().putRequest(PutRequest.builder().item(item1Attributes).build()).build());

        // Set item 2.
        Map<String, AttributeValue> item2Attributes = new HashMap<>();
        item2Attributes.put("Artist", AttributeValue.builder().s("Artist2").build());
        item2Attributes.put("Rating", AttributeValue.builder().s("4").build());
        item2Attributes.put("Comments", AttributeValue.builder().s("Nice melody.").build());
        item2Attributes.put("SongTitle", AttributeValue.builder().s("SongTitle2").build());
        writeRequests.add(WriteRequest.builder().putRequest(PutRequest.builder().item(item2Attributes).build()).build());

        try {
            // Create the BatchWriteItemRequest.
            BatchWriteItemRequest batchWriteItemRequest = BatchWriteItemRequest.builder()
                .requestItems(Map.of(tableName, writeRequests))
                .build();

            // Execute the BatchWriteItem operation.
            BatchWriteItemResponse batchWriteItemResponse = dynamoDbClient.batchWriteItem(batchWriteItemRequest);

            // Process the response.
            System.out.println("Batch write successful: " + batchWriteItemResponse);

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
Menyisipkan banyak item ke dalam tabel menggunakan klien yang disempurnakan.  

```
import com.example.dynamodb.Customer;
import com.example.dynamodb.Music;
import software.amazon.awssdk.enhanced.dynamodb.DynamoDbEnhancedClient;
import software.amazon.awssdk.enhanced.dynamodb.DynamoDbTable;
import software.amazon.awssdk.enhanced.dynamodb.Key;
import software.amazon.awssdk.enhanced.dynamodb.TableSchema;
import software.amazon.awssdk.enhanced.dynamodb.model.BatchWriteItemEnhancedRequest;
import software.amazon.awssdk.enhanced.dynamodb.model.WriteBatch;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import java.time.Instant;
import java.time.LocalDate;
import java.time.LocalDateTime;
import java.time.ZoneOffset;

/*
 * Before running this code example, create an Amazon DynamoDB table named Customer with these columns:
 *   - id - the id of the record that is the key
 *   - custName - the customer name
 *   - email - the email value
 *   - registrationDate - an instant value when the item was added to the table
 *
 * Also, ensure that you have set up your development environment, including your credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class EnhancedBatchWriteItems {
        public static void main(String[] args) {
                Region region = Region.US_EAST_1;
                DynamoDbClient ddb = DynamoDbClient.builder()
                                .region(region)
                                .build();
                DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
                                .dynamoDbClient(ddb)
                                .build();
                putBatchRecords(enhancedClient);
                ddb.close();
        }

        public static void putBatchRecords(DynamoDbEnhancedClient enhancedClient) {
                try {
                        DynamoDbTable<Customer> customerMappedTable = enhancedClient.table("Customer",
                                        TableSchema.fromBean(Customer.class));
                        DynamoDbTable<Music> musicMappedTable = enhancedClient.table("Music",
                                        TableSchema.fromBean(Music.class));
                        LocalDate localDate = LocalDate.parse("2020-04-07");
                        LocalDateTime localDateTime = localDate.atStartOfDay();
                        Instant instant = localDateTime.toInstant(ZoneOffset.UTC);

                        Customer record2 = new Customer();
                        record2.setCustName("Fred Pink");
                        record2.setId("id110");
                        record2.setEmail("fredp@noserver.com");
                        record2.setRegistrationDate(instant);

                        Customer record3 = new Customer();
                        record3.setCustName("Susan Pink");
                        record3.setId("id120");
                        record3.setEmail("spink@noserver.com");
                        record3.setRegistrationDate(instant);

                        Customer record4 = new Customer();
                        record4.setCustName("Jerry orange");
                        record4.setId("id101");
                        record4.setEmail("jorange@noserver.com");
                        record4.setRegistrationDate(instant);

                        BatchWriteItemEnhancedRequest batchWriteItemEnhancedRequest = BatchWriteItemEnhancedRequest
                                        .builder()
                                        .writeBatches(
                                                        WriteBatch.builder(Customer.class) // add items to the Customer
                                                                                           // table
                                                                        .mappedTableResource(customerMappedTable)
                                                                        .addPutItem(builder -> builder.item(record2))
                                                                        .addPutItem(builder -> builder.item(record3))
                                                                        .addPutItem(builder -> builder.item(record4))
                                                                        .build(),
                                                        WriteBatch.builder(Music.class) // delete an item from the Music
                                                                                        // table
                                                                        .mappedTableResource(musicMappedTable)
                                                                        .addDeleteItem(builder -> builder.key(
                                                                                        Key.builder().partitionValue(
                                                                                                        "Famous Band")
                                                                                                        .build()))
                                                                        .build())
                                        .build();

                        // Add three items to the Customer table and delete one item from the Music
                        // table.
                        enhancedClient.batchWriteItem(batchWriteItemEnhancedRequest);
                        System.out.println("done");

                } catch (DynamoDbException e) {
                        System.err.println(e.getMessage());
                        System.exit(1);
                }
        }
}
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/BatchWriteItem)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 

```
import software.amazon.awssdk.core.waiters.WaiterResponse;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeDefinition;
import software.amazon.awssdk.services.dynamodb.model.BillingMode;
import software.amazon.awssdk.services.dynamodb.model.CreateTableRequest;
import software.amazon.awssdk.services.dynamodb.model.CreateTableResponse;
import software.amazon.awssdk.services.dynamodb.model.DescribeTableRequest;
import software.amazon.awssdk.services.dynamodb.model.DescribeTableResponse;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.KeySchemaElement;
import software.amazon.awssdk.services.dynamodb.model.KeyType;
import software.amazon.awssdk.services.dynamodb.model.OnDemandThroughput;
import software.amazon.awssdk.services.dynamodb.model.ProvisionedThroughput;
import software.amazon.awssdk.services.dynamodb.model.ScalarAttributeType;
import software.amazon.awssdk.services.dynamodb.waiters.DynamoDbWaiter;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateTable {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <tableName> <key>

            Where:
                tableName - The Amazon DynamoDB table to create (for example, Music3).
                key - The key for the Amazon DynamoDB table (for example, Artist).
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        String key = args[1];
        System.out.println("Creating an Amazon DynamoDB table " + tableName + " with a simple primary key: " + key);
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
            .region(region)
            .build();

        String result = createTable(ddb, tableName, key);
        System.out.println("New table is " + result);
        ddb.close();
    }

    public static String createTable(DynamoDbClient ddb, String tableName, String key) {
        DynamoDbWaiter dbWaiter = ddb.waiter();
        CreateTableRequest request = CreateTableRequest.builder()
            .attributeDefinitions(AttributeDefinition.builder()
                .attributeName(key)
                .attributeType(ScalarAttributeType.S)
                .build())
            .keySchema(KeySchemaElement.builder()
                .attributeName(key)
                .keyType(KeyType.HASH)
                .build())
            .billingMode(BillingMode.PAY_PER_REQUEST) //  DynamoDB automatically scales based on traffic.
            .tableName(tableName)
            .build();

        String newTable;
        try {
            CreateTableResponse response = ddb.createTable(request);
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                .tableName(tableName)
                .build();

            // Wait until the Amazon DynamoDB table is created.
            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter.waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            newTable = response.tableDescription().tableName();
            return newTable;

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/CreateTable)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DeleteItemRequest;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import java.util.HashMap;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteItem {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <tableName> <key> <keyval>

                Where:
                    tableName - The Amazon DynamoDB table to delete the item from (for example, Music3).
                    key - The key used in the Amazon DynamoDB table (for example, Artist).\s
                    keyval - The key value that represents the item to delete (for example, Famous Band).
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        String key = args[1];
        String keyVal = args[2];
        System.out.format("Deleting item \"%s\" from %s\n", keyVal, tableName);
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();

        deleteDynamoDBItem(ddb, tableName, key, keyVal);
        ddb.close();
    }

    public static void deleteDynamoDBItem(DynamoDbClient ddb, String tableName, String key, String keyVal) {
        HashMap<String, AttributeValue> keyToGet = new HashMap<>();
        keyToGet.put(key, AttributeValue.builder()
                .s(keyVal)
                .build());

        DeleteItemRequest deleteReq = DeleteItemRequest.builder()
                .tableName(tableName)
                .key(keyToGet)
                .build();

        try {
            ddb.deleteItem(deleteReq);
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DeleteItem)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.DeleteTableRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class DeleteTable {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <tableName>

                Where:
                    tableName - The Amazon DynamoDB table to delete (for example, Music3).

                **Warning** This program will delete the table that you specify!
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        System.out.format("Deleting the Amazon DynamoDB table %s...\n", tableName);
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();

        deleteDynamoDBTable(ddb, tableName);
        ddb.close();
    }

    public static void deleteDynamoDBTable(DynamoDbClient ddb, String tableName) {
        DeleteTableRequest request = DeleteTableRequest.builder()
                .tableName(tableName)
                .build();

        try {
            ddb.deleteTable(request);

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println(tableName + " was successfully deleted!");
    }
}
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DeleteTable)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeDefinition;
import software.amazon.awssdk.services.dynamodb.model.DescribeTableRequest;
import software.amazon.awssdk.services.dynamodb.model.ProvisionedThroughputDescription;
import software.amazon.awssdk.services.dynamodb.model.TableDescription;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeTable {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <tableName>

                Where:
                    tableName - The Amazon DynamoDB table to get information about (for example, Music3).
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        System.out.format("Getting description for %s\n\n", tableName);
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();

        describeDymamoDBTable(ddb, tableName);
        ddb.close();
    }

    public static void describeDymamoDBTable(DynamoDbClient ddb, String tableName) {
        DescribeTableRequest request = DescribeTableRequest.builder()
                .tableName(tableName)
                .build();

        try {
            TableDescription tableInfo = ddb.describeTable(request).table();
            if (tableInfo != null) {
                System.out.format("Table name  : %s\n", tableInfo.tableName());
                System.out.format("Table ARN   : %s\n", tableInfo.tableArn());
                System.out.format("Status      : %s\n", tableInfo.tableStatus());
                System.out.format("Item count  : %d\n", tableInfo.itemCount());
                System.out.format("Size (bytes): %d\n", tableInfo.tableSizeBytes());

                ProvisionedThroughputDescription throughputInfo = tableInfo.provisionedThroughput();
                System.out.println("Throughput");
                System.out.format("  Read Capacity : %d\n", throughputInfo.readCapacityUnits());
                System.out.format("  Write Capacity: %d\n", throughputInfo.writeCapacityUnits());

                List<AttributeDefinition> attributes = tableInfo.attributeDefinitions();
                System.out.println("Attributes");
                for (AttributeDefinition a : attributes) {
                    System.out.format("  %s (%s)\n", a.attributeName(), a.attributeType());
                }
            }

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println("\nDone!");
    }
}
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DescribeTable)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeTimeToLive`
<a name="dynamodb_DescribeTimeToLive_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTimeToLive`.

**SDK untuk Java 2.x**  
Jelaskan konfigurasi TTL pada tabel DynamoDB yang ada menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.DescribeTimeToLiveRequest;
import software.amazon.awssdk.services.dynamodb.model.DescribeTimeToLiveResponse;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.logging.Level;
import java.util.logging.Logger;

    public DescribeTimeToLiveResponse describeTTL(final String tableName, final Region region) {
        final DescribeTimeToLiveRequest request =
            DescribeTimeToLiveRequest.builder().tableName(tableName).build();

        try (DynamoDbClient ddb = dynamoDbClient != null
            ? dynamoDbClient
            : DynamoDbClient.builder().region(region).build()) {
            return ddb.describeTimeToLive(request);
        } catch (ResourceNotFoundException e) {
            System.err.format(TABLE_NOT_FOUND_ERROR, tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DescribeTimeToLive](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DescribeTimeToLive)di *Referensi AWS SDK for Java 2.x API*. 

### `GetItem`
<a name="dynamodb_GetItem_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 
Mendapat item dari tabel dengan menggunakan DynamoDbClient.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.GetItemRequest;
import java.util.HashMap;
import java.util.Map;
import java.util.Set;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * To get an item from an Amazon DynamoDB table using the AWS SDK for Java V2,
 * its better practice to use the
 * Enhanced Client, see the EnhancedGetItem example.
 */
public class GetItem {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <tableName> <key> <keyVal>

                Where:
                    tableName - The Amazon DynamoDB table from which an item is retrieved (for example, Music3).\s
                    key - The key used in the Amazon DynamoDB table (for example, Artist).\s
                    keyval - The key value that represents the item to get (for example, Famous Band).
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        String key = args[1];
        String keyVal = args[2];
        System.out.format("Retrieving item \"%s\" from \"%s\"\n", keyVal, tableName);
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();

        getDynamoDBItem(ddb, tableName, key, keyVal);
        ddb.close();
    }

    public static void getDynamoDBItem(DynamoDbClient ddb, String tableName, String key, String keyVal) {
        HashMap<String, AttributeValue> keyToGet = new HashMap<>();
        keyToGet.put(key, AttributeValue.builder()
                .s(keyVal)
                .build());

        GetItemRequest request = GetItemRequest.builder()
                .key(keyToGet)
                .tableName(tableName)
                .build();

        try {
            // If there is no matching item, GetItem does not return any data.
            Map<String, AttributeValue> returnedItem = ddb.getItem(request).item();
            if (returnedItem.isEmpty())
                System.out.format("No item found with the key %s!\n", key);
            else {
                Set<String> keys = returnedItem.keySet();
                System.out.println("Amazon DynamoDB table attributes: \n");
                for (String key1 : keys) {
                    System.out.format("%s: %s\n", key1, returnedItem.get(key1).toString());
                }
            }

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/GetItem)di *Referensi AWS SDK for Java 2.x API*. 

### `ListTables`
<a name="dynamodb_ListTables_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.ListTablesRequest;
import software.amazon.awssdk.services.dynamodb.model.ListTablesResponse;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListTables {
    public static void main(String[] args) {
        System.out.println("Listing your Amazon DynamoDB tables:\n");
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();
        listAllTables(ddb);
        ddb.close();
    }

    public static void listAllTables(DynamoDbClient ddb) {
        boolean moreTables = true;
        String lastName = null;

        while (moreTables) {
            try {
                ListTablesResponse response = null;
                if (lastName == null) {
                    ListTablesRequest request = ListTablesRequest.builder().build();
                    response = ddb.listTables(request);
                } else {
                    ListTablesRequest request = ListTablesRequest.builder()
                            .exclusiveStartTableName(lastName).build();
                    response = ddb.listTables(request);
                }

                List<String> tableNames = response.tableNames();
                if (tableNames.size() > 0) {
                    for (String curName : tableNames) {
                        System.out.format("* %s\n", curName);
                    }
                } else {
                    System.out.println("No tables found!");
                    System.exit(0);
                }

                lastName = response.lastEvaluatedTableName();
                if (lastName == null) {
                    moreTables = false;
                }

            } catch (DynamoDbException e) {
                System.err.println(e.getMessage());
                System.exit(1);
            }
        }
        System.out.println("\nDone!");
    }
}
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK for Java 2.x API*. 

### `PutItem`
<a name="dynamodb_PutItem_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 
Menempatkan item ke dalam tabel menggunakan [DynamoDbClient](https://docs.aws.amazon.com/sdk-for-java/latest/reference/software/amazon/awssdk/services/dynamodb/DynamoDbClient.html).  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.PutItemRequest;
import software.amazon.awssdk.services.dynamodb.model.PutItemResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;
import java.util.HashMap;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * To place items into an Amazon DynamoDB table using the AWS SDK for Java V2,
 * its better practice to use the
 * Enhanced Client. See the EnhancedPutItem example.
 */
public class PutItem {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <tableName> <key> <keyVal> <albumtitle> <albumtitleval> <awards> <awardsval> <Songtitle> <songtitleval>

                Where:
                    tableName - The Amazon DynamoDB table in which an item is placed (for example, Music3).
                    key - The key used in the Amazon DynamoDB table (for example, Artist).
                    keyval - The key value that represents the item to get (for example, Famous Band).
                    albumTitle - The Album title (for example, AlbumTitle).
                    AlbumTitleValue - The name of the album (for example, Songs About Life ).
                    Awards - The awards column (for example, Awards).
                    AwardVal - The value of the awards (for example, 10).
                    SongTitle - The song title (for example, SongTitle).
                    SongTitleVal - The value of the song title (for example, Happy Day).
                **Warning** This program will  place an item that you specify into a table!
                """;

        if (args.length != 9) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        String key = args[1];
        String keyVal = args[2];
        String albumTitle = args[3];
        String albumTitleValue = args[4];
        String awards = args[5];
        String awardVal = args[6];
        String songTitle = args[7];
        String songTitleVal = args[8];

        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();

        putItemInTable(ddb, tableName, key, keyVal, albumTitle, albumTitleValue, awards, awardVal, songTitle,
                songTitleVal);
        System.out.println("Done!");
        ddb.close();
    }

    public static void putItemInTable(DynamoDbClient ddb,
            String tableName,
            String key,
            String keyVal,
            String albumTitle,
            String albumTitleValue,
            String awards,
            String awardVal,
            String songTitle,
            String songTitleVal) {

        HashMap<String, AttributeValue> itemValues = new HashMap<>();
        itemValues.put(key, AttributeValue.builder().s(keyVal).build());
        itemValues.put(songTitle, AttributeValue.builder().s(songTitleVal).build());
        itemValues.put(albumTitle, AttributeValue.builder().s(albumTitleValue).build());
        itemValues.put(awards, AttributeValue.builder().s(awardVal).build());

        PutItemRequest request = PutItemRequest.builder()
                .tableName(tableName)
                .item(itemValues)
                .build();

        try {
            PutItemResponse response = ddb.putItem(request);
            System.out.println(tableName + " was successfully updated. The request id is "
                    + response.responseMetadata().requestId());

        } catch (ResourceNotFoundException e) {
            System.err.format("Error: The Amazon DynamoDB table \"%s\" can't be found.\n", tableName);
            System.err.println("Be sure that it exists and that you've typed its name correctly!");
            System.exit(1);
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/PutItem)di *Referensi AWS SDK for Java 2.x API*. 

### `Query`
<a name="dynamodb_Query_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 
Kueri tabel dengan menggunakan [DynamoDbClient](https://docs.aws.amazon.com/sdk-for-java/latest/reference/software/amazon/awssdk/services/dynamodb/DynamoDbClient.html).  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import java.util.HashMap;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * To query items from an Amazon DynamoDB table using the AWS SDK for Java V2,
 * its better practice to use the
 * Enhanced Client. See the EnhancedQueryRecords example.
 */
public class Query {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <tableName> <partitionKeyName> <partitionKeyVal>

                Where:
                    tableName - The Amazon DynamoDB table to put the item in (for example, Music3).
                    partitionKeyName - The partition key name of the Amazon DynamoDB table (for example, Artist).
                    partitionKeyVal - The value of the partition key that should match (for example, Famous Band).
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        String partitionKeyName = args[1];
        String partitionKeyVal = args[2];

        // For more information about an alias, see:
        // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Expressions.ExpressionAttributeNames.html
        String partitionAlias = "#a";

        System.out.format("Querying %s", tableName);
        System.out.println("");
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();

        int count = queryTable(ddb, tableName, partitionKeyName, partitionKeyVal, partitionAlias);
        System.out.println("There were " + count + "  record(s) returned");
        ddb.close();
    }

    public static int queryTable(DynamoDbClient ddb, String tableName, String partitionKeyName, String partitionKeyVal,
            String partitionAlias) {
        // Set up an alias for the partition key name in case it's a reserved word.
        HashMap<String, String> attrNameAlias = new HashMap<String, String>();
        attrNameAlias.put(partitionAlias, partitionKeyName);

        // Set up mapping of the partition name with the value.
        HashMap<String, AttributeValue> attrValues = new HashMap<>();
        attrValues.put(":" + partitionKeyName, AttributeValue.builder()
                .s(partitionKeyVal)
                .build());

        QueryRequest queryReq = QueryRequest.builder()
                .tableName(tableName)
                .keyConditionExpression(partitionAlias + " = :" + partitionKeyName)
                .expressionAttributeNames(attrNameAlias)
                .expressionAttributeValues(attrValues)
                .build();

        try {
            QueryResponse response = ddb.query(queryReq);
            return response.count();

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return -1;
    }
}
```
Melakukan tabel menggunakan `DynamoDbClient` dan indeks sekunder.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import java.util.HashMap;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * Create the Movies table by running the Scenario example and loading the Movie
 * data from the JSON file. Next create a secondary
 * index for the Movies table that uses only the year column. Name the index
 * **year-index**. For more information, see:
 *
 * https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GSI.html
 */
public class QueryItemsUsingIndex {
    public static void main(String[] args) {
        String tableName = "Movies";
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();

        queryIndex(ddb, tableName);
        ddb.close();
    }

    public static void queryIndex(DynamoDbClient ddb, String tableName) {
        try {
            Map<String, String> expressionAttributesNames = new HashMap<>();
            expressionAttributesNames.put("#year", "year");
            Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
            expressionAttributeValues.put(":yearValue", AttributeValue.builder().n("2013").build());

            QueryRequest request = QueryRequest.builder()
                    .tableName(tableName)
                    .indexName("year-index")
                    .keyConditionExpression("#year = :yearValue")
                    .expressionAttributeNames(expressionAttributesNames)
                    .expressionAttributeValues(expressionAttributeValues)
                    .build();

            System.out.println("=== Movie Titles ===");
            QueryResponse response = ddb.query(request);
            response.items()
                    .forEach(movie -> System.out.println(movie.get("title").s()));

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### `Scan`
<a name="dynamodb_Scan_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 
Memindai tabel Amazon [DynamoDbClient](https://docs.aws.amazon.com/sdk-for-java/latest/reference/software/amazon/awssdk/services/dynamodb/DynamoDbClient.html)DynamoDB menggunakan.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.ScanRequest;
import software.amazon.awssdk.services.dynamodb.model.ScanResponse;
import java.util.Map;
import java.util.Set;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * To scan items from an Amazon DynamoDB table using the AWS SDK for Java V2,
 * its better practice to use the
 * Enhanced Client, See the EnhancedScanRecords example.
 */

public class DynamoDBScanItems {
    public static void main(String[] args) {

        final String usage = """

                Usage:
                    <tableName>

                Where:
                    tableName - The Amazon DynamoDB table to get information from (for example, Music3).
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();

        scanItems(ddb, tableName);
        ddb.close();
    }

    public static void scanItems(DynamoDbClient ddb, String tableName) {
        try {
            ScanRequest scanRequest = ScanRequest.builder()
                    .tableName(tableName)
                    .build();

            ScanResponse response = ddb.scan(scanRequest);
            for (Map<String, AttributeValue> item : response.items()) {
                Set<String> keys = item.keySet();
                for (String key : keys) {
                    System.out.println("The key name is " + key + "\n");
                    System.out.println("The value is " + item.get(key).s());
                }
            }

        } catch (DynamoDbException e) {
            e.printStackTrace();
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Scan) di *Referensi API AWS SDK for Java 2.x *. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 
Memperbarui item dalam tabel menggunakan [DynamoDbClient](https://docs.aws.amazon.com/sdk-for-java/latest/reference/software/amazon/awssdk/services/dynamodb/DynamoDbClient.html).  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.AttributeAction;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.AttributeValueUpdate;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import java.util.HashMap;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * To update an Amazon DynamoDB table using the AWS SDK for Java V2, its better
 * practice to use the
 * Enhanced Client, See the EnhancedModifyItem example.
 */
public class UpdateItem {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <tableName> <key> <keyVal> <name> <updateVal>

                Where:
                    tableName - The Amazon DynamoDB table (for example, Music3).
                    key - The name of the key in the table (for example, Artist).
                    keyVal - The value of the key (for example, Famous Band).
                    name - The name of the column where the value is updated (for example, Awards).
                    updateVal - The value used to update an item (for example, 14).
                 Example:
                    UpdateItem Music3 Artist Famous Band Awards 14
                """;

        if (args.length != 5) {
            System.out.println(usage);
            System.exit(1);
        }

        String tableName = args[0];
        String key = args[1];
        String keyVal = args[2];
        String name = args[3];
        String updateVal = args[4];

        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
                .region(region)
                .build();
        updateTableItem(ddb, tableName, key, keyVal, name, updateVal);
        ddb.close();
    }

    public static void updateTableItem(DynamoDbClient ddb,
            String tableName,
            String key,
            String keyVal,
            String name,
            String updateVal) {

        HashMap<String, AttributeValue> itemKey = new HashMap<>();
        itemKey.put(key, AttributeValue.builder()
                .s(keyVal)
                .build());

        HashMap<String, AttributeValueUpdate> updatedValues = new HashMap<>();
        updatedValues.put(name, AttributeValueUpdate.builder()
                .value(AttributeValue.builder().s(updateVal).build())
                .action(AttributeAction.PUT)
                .build());

        UpdateItemRequest request = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(itemKey)
                .attributeUpdates(updatedValues)
                .build();

        try {
            ddb.updateItem(request);
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println("The Amazon DynamoDB table was updated!");
    }
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateTimeToLive`
<a name="dynamodb_UpdateTimeToLive_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTimeToLive`.

**SDK untuk Java 2.x**  
Aktifkan TTL pada tabel DynamoDB yang ada menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;
import software.amazon.awssdk.services.dynamodb.model.TimeToLiveSpecification;
import software.amazon.awssdk.services.dynamodb.model.UpdateTimeToLiveRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateTimeToLiveResponse;

import java.util.logging.Level;
import java.util.logging.Logger;

    public UpdateTimeToLiveResponse enableTTL(final String tableName, final String attributeName, final Region region) {
        final TimeToLiveSpecification ttlSpec = TimeToLiveSpecification.builder()
            .attributeName(attributeName)
            .enabled(true)
            .build();

        final UpdateTimeToLiveRequest request = UpdateTimeToLiveRequest.builder()
            .tableName(tableName)
            .timeToLiveSpecification(ttlSpec)
            .build();

        try (DynamoDbClient ddb = dynamoDbClient != null
            ? dynamoDbClient
            : DynamoDbClient.builder().region(region).build()) {
            return ddb.updateTimeToLive(request);
        } catch (ResourceNotFoundException e) {
            System.err.format(TABLE_NOT_FOUND_ERROR, tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            throw e;
        }
    }
```
Nonaktifkan TTL pada tabel DynamoDB yang ada menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;
import software.amazon.awssdk.services.dynamodb.model.TimeToLiveSpecification;
import software.amazon.awssdk.services.dynamodb.model.UpdateTimeToLiveRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateTimeToLiveResponse;

import java.util.logging.Level;
import java.util.logging.Logger;

    public UpdateTimeToLiveResponse disableTTL(
        final String tableName, final String attributeName, final Region region) {
        final TimeToLiveSpecification ttlSpec = TimeToLiveSpecification.builder()
            .attributeName(attributeName)
            .enabled(false)
            .build();

        final UpdateTimeToLiveRequest request = UpdateTimeToLiveRequest.builder()
            .tableName(tableName)
            .timeToLiveSpecification(ttlSpec)
            .build();

        try (DynamoDbClient ddb = dynamoDbClient != null
            ? dynamoDbClient
            : DynamoDbClient.builder().region(region).build()) {
            return ddb.updateTimeToLive(request);
        } catch (ResourceNotFoundException e) {
            System.err.format(TABLE_NOT_FOUND_ERROR, tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            throw e;
        }
    }
```
+  Untuk detail API, lihat [UpdateTimeToLive](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateTimeToLive)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi untuk mengirimkan data ke tabel DynamoDB
<a name="cross_SubmitDataApp_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang mengirimkan data ke tabel Amazon DynamoDB dan memberi tahu Anda saat pengguna memperbarui tabel.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat aplikasi web dinamis yang mengirimkan data menggunakan API Java Amazon DynamoDB dan mengirim pesan teks menggunakan API Java Amazon Simple Notification Service.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_first_project).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SNS

### Bandingkan beberapa nilai dengan satu atribut
<a name="dynamodb_Scenario_CompareMultipleValues_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana membandingkan beberapa nilai dengan atribut tunggal di DynamoDB.
+ Gunakan operator IN untuk membandingkan beberapa nilai dengan satu atribut.
+ Bandingkan operator IN dengan beberapa kondisi OR.
+ Memahami manfaat kompleksitas kinerja dan ekspresi menggunakan IN.

**SDK untuk Java 2.x**  
Bandingkan beberapa nilai dengan atribut tunggal di DynamoDB menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ScanRequest;
import software.amazon.awssdk.services.dynamodb.model.ScanResponse;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;

    /**
     * Queries a table using the IN operator to compare multiple values with a single attribute.
     *
     * <p>This method demonstrates how to use the IN operator in a filter expression
     * to match an attribute against multiple values.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param partitionKeyName The name of the partition key attribute
     * @param partitionKeyValue The value of the partition key to query
     * @param attributeName The name of the attribute to compare
     * @param valuesList List of values to compare against
     * @return The query response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static QueryResponse compareMultipleValues(
        DynamoDbClient dynamoDbClient,
        String tableName,
        String partitionKeyName,
        AttributeValue partitionKeyValue,
        String attributeName,
        List<AttributeValue> valuesList) {

        // Create expression attribute names
        Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put("#pkName", partitionKeyName);
        expressionAttributeNames.put("#attrName", attributeName);

        // Create expression attribute values
        Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(":pkValue", partitionKeyValue);

        // Add values for IN operator
        for (int i = 0; i < valuesList.size(); i++) {
            expressionAttributeValues.put(":val" + i, valuesList.get(i));
        }

        // Build the IN clause
        StringBuilder inClause = new StringBuilder();
        for (int i = 0; i < valuesList.size(); i++) {
            if (i > 0) {
                inClause.append(", ");
            }
            inClause.append(":val").append(i);
        }

        // Define the query parameters
        QueryRequest request = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression("#pkName = :pkValue")
            .filterExpression("#attrName IN (" + inClause.toString() + ")")
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        // Perform the query operation
        return dynamoDbClient.query(request);
    }

    /**
     * Queries a table using multiple OR conditions to compare multiple values with a single attribute.
     *
     * <p>This method demonstrates the alternative approach to using the IN operator,
     * by using multiple OR conditions.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param partitionKeyName The name of the partition key attribute
     * @param partitionKeyValue The value of the partition key to query
     * @param attributeName The name of the attribute to compare
     * @param valuesList List of values to compare against
     * @return The query response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static QueryResponse compareWithOrConditions(
        DynamoDbClient dynamoDbClient,
        String tableName,
        String partitionKeyName,
        AttributeValue partitionKeyValue,
        String attributeName,
        List<AttributeValue> valuesList) {

        // Create expression attribute names
        Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put("#pkName", partitionKeyName);
        expressionAttributeNames.put("#attrName", attributeName);

        // Create expression attribute values
        Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(":pkValue", partitionKeyValue);

        // Add values for OR conditions
        for (int i = 0; i < valuesList.size(); i++) {
            expressionAttributeValues.put(":val" + i, valuesList.get(i));
        }

        // Build the OR conditions
        StringBuilder orConditions = new StringBuilder();
        for (int i = 0; i < valuesList.size(); i++) {
            if (i > 0) {
                orConditions.append(" OR ");
            }
            orConditions.append("#attrName = :val").append(i);
        }

        // Define the query parameters
        QueryRequest request = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression("#pkName = :pkValue")
            .filterExpression(orConditions.toString())
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        // Perform the query operation
        return dynamoDbClient.query(request);
    }

    /**
     * Compares the performance of using the IN operator versus multiple OR conditions.
     *
     * <p>This method demonstrates the performance difference between using the IN operator
     * and using multiple OR conditions.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param partitionKeyName The name of the partition key attribute
     * @param partitionKeyValue The value of the partition key to query
     * @param attributeName The name of the attribute to compare
     * @param valuesList List of values to compare against
     * @return Map containing the performance comparison results
     */
    public static Map<String, Object> comparePerformance(
        DynamoDbClient dynamoDbClient,
        String tableName,
        String partitionKeyName,
        AttributeValue partitionKeyValue,
        String attributeName,
        List<AttributeValue> valuesList) {

        Map<String, Object> results = new HashMap<>();

        try {
            // Measure performance of IN operator
            long inStartTime = System.nanoTime();
            QueryResponse inResponse = compareMultipleValues(
                dynamoDbClient, tableName, partitionKeyName, partitionKeyValue, attributeName, valuesList);
            long inEndTime = System.nanoTime();
            long inDuration = inEndTime - inStartTime;

            // Measure performance of OR conditions
            long orStartTime = System.nanoTime();
            QueryResponse orResponse = compareWithOrConditions(
                dynamoDbClient, tableName, partitionKeyName, partitionKeyValue, attributeName, valuesList);
            long orEndTime = System.nanoTime();
            long orDuration = orEndTime - orStartTime;

            // Record results
            results.put("inOperatorDuration", inDuration);
            results.put("orConditionsDuration", orDuration);
            results.put("inOperatorItems", inResponse.count());
            results.put("orConditionsItems", orResponse.count());
            results.put("inOperatorExpression", "IN operator with " + valuesList.size() + " values");
            results.put("orConditionsExpression", valuesList.size() + " OR conditions");
            results.put("success", true);

        } catch (DynamoDbException e) {
            results.put("success", false);
            results.put("error", e.getMessage());
        }

        return results;
    }

    /**
     * Scans a table using the IN operator with a large number of values.
     *
     * <p>This method demonstrates how to use the IN operator with a large number of values,
     * which can help stay within the 300 operator limit.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param attributeName The name of the attribute to compare
     * @param valuesList List of values to compare against
     * @return The scan response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static ScanResponse scanWithLargeInClause(
        DynamoDbClient dynamoDbClient, String tableName, String attributeName, List<AttributeValue> valuesList) {

        // Create expression attribute names
        Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put("#attrName", attributeName);

        // Create expression attribute values
        Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();

        // Add values for IN operator
        for (int i = 0; i < valuesList.size(); i++) {
            expressionAttributeValues.put(":val" + i, valuesList.get(i));
        }

        // Build the IN clause
        StringBuilder inClause = new StringBuilder();
        for (int i = 0; i < valuesList.size(); i++) {
            if (i > 0) {
                inClause.append(", ");
            }
            inClause.append(":val").append(i);
        }

        // Define the scan parameters
        ScanRequest request = ScanRequest.builder()
            .tableName(tableName)
            .filterExpression("#attrName IN (" + inClause.toString() + ")")
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        // Perform the scan operation
        return dynamoDbClient.scan(request);
    }

    /**
     * Generates a list of sample values for testing.
     *
     * <p>Helper method to generate a list of sample values for testing.
     *
     * @param valueType The type of values to generate (string, number, or boolean)
     * @param count The number of values to generate
     * @return List of generated attribute values
     */
    public static List<AttributeValue> generateSampleValues(String valueType, int count) {
        List<AttributeValue> values = new ArrayList<>();

        for (int i = 0; i < count; i++) {
            AttributeValue value;

            switch (valueType.toLowerCase(Locale.ROOT)) {
                case "string":
                    value = AttributeValue.builder().s("Value" + i).build();
                    break;
                case "number":
                    value = AttributeValue.builder().n(String.valueOf(i)).build();
                    break;
                case "boolean":
                    value = AttributeValue.builder().bool(i % 2 == 0).build();
                    break;
                default:
                    throw new IllegalArgumentException("Unsupported value type: " + valueType);
            }

            values.add(value);
        }

        return values;
    }
```
Contoh penggunaan membandingkan beberapa nilai dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        System.out.println("Demonstrating how to compare multiple values with a single attribute in DynamoDB");

        try {
            // Example 1: Using the IN operator
            System.out.println("\nExample 1: Using the IN operator");
            List<AttributeValue> categories = List.of(
                AttributeValue.builder().s("Electronics").build(),
                AttributeValue.builder().s("Computers").build(),
                AttributeValue.builder().s("Accessories").build());

            QueryResponse inResponse = compareMultipleValues(
                dynamoDbClient,
                tableName,
                "Department",
                AttributeValue.builder().s("Retail").build(),
                "Category",
                categories);

            System.out.println("Found " + inResponse.count() + " items using IN operator");
            System.out.println("Items: " + inResponse.items());

            // Example 2: Using multiple OR conditions
            System.out.println("\nExample 2: Using multiple OR conditions");
            QueryResponse orResponse = compareWithOrConditions(
                dynamoDbClient,
                tableName,
                "Department",
                AttributeValue.builder().s("Retail").build(),
                "Category",
                categories);

            System.out.println("Found " + orResponse.count() + " items using OR conditions");
            System.out.println("Items: " + orResponse.items());

            // Example 3: Performance comparison
            System.out.println("\nExample 3: Performance comparison");
            Map<String, Object> perfComparison = comparePerformance(
                dynamoDbClient,
                tableName,
                "Department",
                AttributeValue.builder().s("Retail").build(),
                "Category",
                categories);

            if ((boolean) perfComparison.get("success")) {
                System.out.println("IN operator duration: " + perfComparison.get("inOperatorDuration") + " ns");
                System.out.println("OR conditions duration: " + perfComparison.get("orConditionsDuration") + " ns");
                System.out.println("IN operator found " + perfComparison.get("inOperatorItems") + " items");
                System.out.println("OR conditions found " + perfComparison.get("orConditionsItems") + " items");
                System.out.println("Expression complexity comparison:");
                System.out.println("  IN operator: " + perfComparison.get("inOperatorExpression"));
                System.out.println("  OR conditions: " + perfComparison.get("orConditionsExpression"));
            } else {
                System.out.println("Performance comparison failed: " + perfComparison.get("error"));
            }

            // Example 4: Using IN with a large number of values
            System.out.println("\nExample 4: Using IN with a large number of values");
            List<AttributeValue> productIds = generateSampleValues("string", 20);

            ScanResponse largeInResponse = scanWithLargeInClause(dynamoDbClient, tableName, "ProductId", productIds);

            System.out.println(
                "Found " + largeInResponse.count() + " items using IN with " + productIds.size() + " values");

            // Explain the benefits of using IN
            System.out.println("\nKey points about using the IN operator in DynamoDB:");
            System.out.println("1. The IN operator allows comparing a single attribute against multiple values");
            System.out.println("2. IN is more concise than using multiple OR conditions");
            System.out.println("3. IN counts as only 1 operator regardless of the number of values");
            System.out.println("4. Multiple OR conditions count as 1 operator per condition plus 1 per OR");
            System.out.println("5. Using IN helps stay within the 300 operator limit for complex expressions");
            System.out.println("6. IN can be used in filter expressions and condition expressions");
            System.out.println("7. The IN operator supports up to 100 comparison values");

        } catch (DynamoDbException e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Scan)

### Perbarui TTL item secara kondisional
<a name="dynamodb_UpdateItemConditionalTTL_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui TTL item secara kondisional.

**SDK untuk Java 2.x**  
Perbarui TTL pada Item DynamoDB yang ada dalam tabel, dengan kondisi.  

```
package com.amazon.samplelib.ttl;

import com.amazon.samplelib.CodeSampleUtils;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.ConditionalCheckFailedException;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.Map;
import java.util.Optional;

/**
 * Updates an item in a DynamoDB table with TTL attributes using a conditional expression.
 * This class demonstrates how to conditionally update TTL expiration timestamps.
 */
public class UpdateTTLConditional {

    private static final String USAGE =
        """
            Usage:
                <tableName> <primaryKey> <sortKey> <region>
            Where:
                tableName - The Amazon DynamoDB table being queried.
                primaryKey - The name of the primary key. Also known as the hash or partition key.
                sortKey - The name of the sort key. Also known as the range attribute.
                region (optional) - The AWS region that the Amazon DynamoDB table is located in. (Default: us-east-1)
            """;
    private static final int DAYS_TO_EXPIRE = 90;
    private static final int SECONDS_PER_DAY = 24 * 60 * 60;
    private static final String PRIMARY_KEY_ATTR = "primaryKey";
    private static final String SORT_KEY_ATTR = "sortKey";
    private static final String UPDATED_AT_ATTR = "updatedAt";
    private static final String EXPIRE_AT_ATTR = "expireAt";
    private static final String UPDATE_EXPRESSION = "SET " + UPDATED_AT_ATTR + "=:c, " + EXPIRE_AT_ATTR + "=:e";
    private static final String CONDITION_EXPRESSION = "attribute_exists(" + PRIMARY_KEY_ATTR + ")";
    private static final String SUCCESS_MESSAGE = "%s UpdateItem operation with TTL successful.";
    private static final String CONDITION_FAILED_MESSAGE = "Condition check failed. Item does not exist.";
    private static final String TABLE_NOT_FOUND_ERROR = "Error: The Amazon DynamoDB table \"%s\" can't be found.";

    private final DynamoDbClient dynamoDbClient;

    /**
     * Constructs an UpdateTTLConditional with a default DynamoDB client.
     */
    public UpdateTTLConditional() {
        this.dynamoDbClient = null;
    }

    /**
     * Constructs an UpdateTTLConditional with the specified DynamoDB client.
     *
     * @param dynamoDbClient The DynamoDB client to use
     */
    public UpdateTTLConditional(final DynamoDbClient dynamoDbClient) {
        this.dynamoDbClient = dynamoDbClient;
    }

    /**
     * Main method to demonstrate conditionally updating an item with TTL.
     *
     * @param args Command line arguments
     */
    public static void main(final String[] args) {
        try {
            int result = new UpdateTTLConditional().processArgs(args);
            System.exit(result);
        } catch (Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Process command line arguments and conditionally update an item with TTL.
     *
     * @param args Command line arguments
     * @return 0 if successful, non-zero otherwise
     * @throws ResourceNotFoundException If the table doesn't exist
     * @throws DynamoDbException If an error occurs during the operation
     * @throws IllegalArgumentException If arguments are invalid
     */
    public int processArgs(final String[] args) {
        // Argument validation (remove or replace this line when reusing this code)
        CodeSampleUtils.validateArgs(args, new int[] {3, 4}, USAGE);

        final String tableName = args[0];
        final String primaryKey = args[1];
        final String sortKey = args[2];
        final Region region = Optional.ofNullable(args.length > 3 ? args[3] : null)
            .map(Region::of)
            .orElse(Region.US_EAST_1);

        // Get current time in epoch second format
        final long currentTime = System.currentTimeMillis() / 1000;

        // Calculate expiration time 90 days from now in epoch second format
        final long expireDate = currentTime + (DAYS_TO_EXPIRE * SECONDS_PER_DAY);

        // Create the key map for the item to update
        final Map<String, AttributeValue> keyMap = Map.of(
            PRIMARY_KEY_ATTR, AttributeValue.builder().s(primaryKey).build(),
            SORT_KEY_ATTR, AttributeValue.builder().s(sortKey).build());

        // Create the expression attribute values
        final Map<String, AttributeValue> expressionAttributeValues = Map.of(
            ":c", AttributeValue.builder().n(String.valueOf(currentTime)).build(),
            ":e", AttributeValue.builder().n(String.valueOf(expireDate)).build());

        final UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(keyMap)
            .updateExpression(UPDATE_EXPRESSION)
            .conditionExpression(CONDITION_EXPRESSION)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try (DynamoDbClient ddb = dynamoDbClient != null
            ? dynamoDbClient
            : DynamoDbClient.builder().region(region).build()) {
            final UpdateItemResponse response = ddb.updateItem(request);
            System.out.println(String.format(SUCCESS_MESSAGE, tableName));
            return 0;
        } catch (ConditionalCheckFailedException e) {
            System.err.println(CONDITION_FAILED_MESSAGE);
            throw e;
        } catch (ResourceNotFoundException e) {
            System.err.format(TABLE_NOT_FOUND_ERROR, tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            throw e;
        }
    }
}
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### Hitung operator ekspresi
<a name="dynamodb_Scenario_ExpressionOperatorCounting_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menghitung operator ekspresi di DynamoDB.
+ Memahami batas 300 operator DynamoDB.
+ Hitung operator dalam ekspresi kompleks.
+ Optimalkan ekspresi agar tetap dalam batas.

**SDK untuk Java 2.x**  
Menunjukkan penghitungan operator ekspresi menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.HashMap;
import java.util.Map;
import java.util.regex.Matcher;
import java.util.regex.Pattern;

    /**
     * Creates a complex filter expression with a specified number of conditions.
     *
     * <p>This method demonstrates how to generate a complex expression with
     * a specific number of operators to test the 300 operator limit.
     *
     * @param conditionsCount Number of conditions to include
     * @param useAnd Whether to use AND (true) or OR (false) between conditions
     * @return Map containing the filter expression, attribute values, and operator count
     */
    public static Map<String, Object> createComplexFilterExpression(int conditionsCount, boolean useAnd) {
        // Initialize the expression parts and attribute values
        StringBuilder filterExpression = new StringBuilder();
        Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();

        // Generate the specified number of conditions
        for (int i = 0; i < conditionsCount; i++) {
            // Add the operator between conditions (except for the first one)
            if (i > 0) {
                filterExpression.append(useAnd ? " AND " : " OR ");
            }

            // Alternate between different comparison operators for variety
            String valueKey = ":val" + i;

            switch (i % 5) {
                case 0:
                    filterExpression.append("attribute").append(i).append(" = ").append(valueKey);
                    expressionAttributeValues.put(
                        valueKey, AttributeValue.builder().s("value" + i).build());
                    break;
                case 1:
                    filterExpression.append("attribute").append(i).append(" > ").append(valueKey);
                    expressionAttributeValues.put(
                        valueKey, AttributeValue.builder().n(String.valueOf(i)).build());
                    break;
                case 2:
                    filterExpression.append("attribute").append(i).append(" < ").append(valueKey);
                    expressionAttributeValues.put(
                        valueKey,
                        AttributeValue.builder().n(String.valueOf(i * 10)).build());
                    break;
                case 3:
                    filterExpression
                        .append("contains(attribute")
                        .append(i)
                        .append(", ")
                        .append(valueKey)
                        .append(")");
                    expressionAttributeValues.put(
                        valueKey, AttributeValue.builder().s("substring" + i).build());
                    break;
                case 4:
                    filterExpression
                        .append("attribute_exists(attribute")
                        .append(i)
                        .append(")");
                    break;
                default:
                    // This case will never be reached, but added to satisfy checkstyle
                    break;
            }
        }

        // Calculate the operator count
        // Each condition has 1 operator (=, >, <, contains, attribute_exists)
        // Each AND or OR between conditions is 1 operator
        int operatorCount = conditionsCount + (conditionsCount > 0 ? conditionsCount - 1 : 0);

        // Create the result map
        Map<String, Object> result = new HashMap<>();
        result.put("filterExpression", filterExpression.toString());
        result.put("expressionAttributeValues", expressionAttributeValues);
        result.put("operatorCount", operatorCount);

        return result;
    }

    /**
     * Creates a complex update expression with a specified number of operations.
     *
     * <p>This method demonstrates how to generate a complex update expression with
     * a specific number of operators to test the 300 operator limit.
     *
     * @param operationsCount Number of operations to include
     * @return Map containing the update expression, attribute values, and operator count
     */
    public static Map<String, Object> createComplexUpdateExpression(int operationsCount) {
        // Initialize the expression parts and attribute values
        StringBuilder updateExpression = new StringBuilder("SET ");
        Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();

        // Generate the specified number of SET operations
        for (int i = 0; i < operationsCount; i++) {
            // Add comma between operations (except for the first one)
            if (i > 0) {
                updateExpression.append(", ");
            }

            // Alternate between different types of SET operations
            String valueKey = ":val" + i;

            switch (i % 3) {
                case 0:
                    // Simple assignment (1 operator: =)
                    updateExpression.append("attribute").append(i).append(" = ").append(valueKey);
                    expressionAttributeValues.put(
                        valueKey, AttributeValue.builder().s("value" + i).build());
                    break;
                case 1:
                    // Addition (2 operators: = and +)
                    updateExpression
                        .append("attribute")
                        .append(i)
                        .append(" = attribute")
                        .append(i)
                        .append(" + ")
                        .append(valueKey);
                    expressionAttributeValues.put(
                        valueKey, AttributeValue.builder().n(String.valueOf(i)).build());
                    break;
                case 2:
                    // Conditional assignment with if_not_exists (2 operators: = and if_not_exists)
                    updateExpression
                        .append("attribute")
                        .append(i)
                        .append(" = if_not_exists(attribute")
                        .append(i)
                        .append(", ")
                        .append(valueKey)
                        .append(")");
                    expressionAttributeValues.put(
                        valueKey,
                        AttributeValue.builder().n(String.valueOf(i * 10)).build());
                    break;
                default:
                    // This case will never be reached, but added to satisfy checkstyle
                    break;
            }
        }

        // Calculate the operator count
        // Each operation has 1-2 operators as noted above
        int operatorCount = 0;
        for (int i = 0; i < operationsCount; i++) {
            operatorCount += (i % 3 == 0) ? 1 : 2;
        }

        // Create the result map
        Map<String, Object> result = new HashMap<>();
        result.put("updateExpression", updateExpression.toString());
        result.put("expressionAttributeValues", expressionAttributeValues);
        result.put("operatorCount", operatorCount);

        return result;
    }

    /**
     * Test the operator limit by attempting an operation with a complex expression.
     *
     * <p>This method demonstrates what happens when an expression approaches or
     * exceeds the 300 operator limit.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param operatorCount Target number of operators to include
     * @return Map containing the result of the operation attempt
     */
    public static Map<String, Object> testOperatorLimit(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key, int operatorCount) {

        // Create a complex update expression with the specified operator count
        Map<String, Object> expressionData =
            createComplexUpdateExpression((int) Math.ceil(operatorCount / 1.5)); // Adjust to get close to target count

        String updateExpression = (String) expressionData.get("updateExpression");
        @SuppressWarnings("unchecked")
        Map<String, AttributeValue> expressionAttributeValues =
            (Map<String, AttributeValue>) expressionData.get("expressionAttributeValues");
        int actualCount = (int) expressionData.get("operatorCount");

        System.out.println("Generated update expression with approximately " + actualCount + " operators");

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression(updateExpression)
            .expressionAttributeValues(expressionAttributeValues)
            .returnValues("UPDATED_NEW")
            .build();

        try {
            // Attempt the update operation
            UpdateItemResponse response = dynamoDbClient.updateItem(request);

            Map<String, Object> result = new HashMap<>();
            result.put("success", true);
            result.put("message", "Operation succeeded with " + actualCount + " operators");
            result.put("data", response);
            return result;

        } catch (DynamoDbException e) {
            // Check if the error is due to exceeding the operator limit
            if (e.getMessage().contains("too many operators")) {
                Map<String, Object> result = new HashMap<>();
                result.put("success", false);
                result.put("message", "Operation failed: " + e.getMessage());
                result.put("operatorCount", actualCount);
                return result;
            }

            // Return other errors
            Map<String, Object> result = new HashMap<>();
            result.put("success", false);
            result.put("message", "Operation failed: " + e.getMessage());
            result.put("error", e);
            return result;
        }
    }

    /**
     * Break down a complex expression into multiple simpler operations.
     *
     * <p>This method demonstrates how to handle expressions that would exceed
     * the 300 operator limit by breaking them into multiple operations.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param totalOperations Total number of operations to perform
     * @return Map containing the results of the operations
     */
    public static Map<String, Object> breakDownComplexExpression(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key, int totalOperations) {

        // Calculate how many operations we can safely include in each batch
        // Using 150 as a conservative limit (well below 300)
        final int operationsPerBatch = 100;
        final int batchCount = (int) Math.ceil((double) totalOperations / operationsPerBatch);

        System.out.println("Breaking down " + totalOperations + " operations into " + batchCount + " batches");

        Map<String, Object> results = new HashMap<>();
        results.put("totalBatches", batchCount);

        Map<Integer, Map<String, Object>> batchResults = new HashMap<>();

        // Process each batch
        for (int batch = 0; batch < batchCount; batch++) {
            // Calculate the operations for this batch
            int batchStart = batch * operationsPerBatch;
            int batchEnd = Math.min(batchStart + operationsPerBatch, totalOperations);
            int batchSize = batchEnd - batchStart;

            System.out.println(
                "Processing batch " + (batch + 1) + "/" + batchCount + " with " + batchSize + " operations");

            // Create an update expression for this batch
            Map<String, Object> expressionData = createComplexUpdateExpression(batchSize);

            String updateExpression = (String) expressionData.get("updateExpression");
            @SuppressWarnings("unchecked")
            Map<String, AttributeValue> expressionAttributeValues =
                (Map<String, AttributeValue>) expressionData.get("expressionAttributeValues");
            int operatorCount = (int) expressionData.get("operatorCount");

            // Define the update parameters
            UpdateItemRequest request = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression(updateExpression)
                .expressionAttributeValues(expressionAttributeValues)
                .returnValues("UPDATED_NEW")
                .build();

            try {
                // Perform the update operation for this batch
                UpdateItemResponse response = dynamoDbClient.updateItem(request);

                Map<String, Object> batchResult = new HashMap<>();
                batchResult.put("batch", batch + 1);
                batchResult.put("success", true);
                batchResult.put("operatorCount", operatorCount);
                batchResult.put("attributes", response.attributes());

                batchResults.put(batch, batchResult);

            } catch (DynamoDbException e) {
                Map<String, Object> batchResult = new HashMap<>();
                batchResult.put("batch", batch + 1);
                batchResult.put("success", false);
                batchResult.put("operatorCount", operatorCount);
                batchResult.put("error", e.getMessage());

                batchResults.put(batch, batchResult);

                // Continue with next batch instead of breaking
                continue;
            }
        }

        results.put("results", batchResults);
        return results;
    }

    /**
     * Count operators in a DynamoDB expression based on the rules in the documentation.
     *
     * <p>This method demonstrates how operators are counted according to the
     * DynamoDB documentation.
     *
     * @param expression The DynamoDB expression to analyze
     * @return Map containing the breakdown of operator counts
     */
    public static Map<String, Integer> countOperatorsInExpression(String expression) {
        // Initialize counters for different operator types
        Map<String, Integer> counts = new HashMap<>();
        counts.put("comparisonOperators", 0);
        counts.put("logicalOperators", 0);
        counts.put("functions", 0);
        counts.put("arithmeticOperators", 0);
        counts.put("specialOperators", 0);
        counts.put("total", 0);

        // Count comparison operators (=, <>, <, <=, >, >=)
        // This is a simplified approach and may not catch all cases
        int comparisonCount = 0;
        Pattern comparisonPattern = Pattern.compile("(=|<>|<=|>=|<|>)");
        Matcher comparisonMatcher = comparisonPattern.matcher(expression);
        while (comparisonMatcher.find()) {
            comparisonCount++;
        }
        counts.put("comparisonOperators", comparisonCount);

        // Count logical operators (AND, OR, NOT)
        int andCount = countOccurrences(expression, "\\bAND\\b");
        int orCount = countOccurrences(expression, "\\bOR\\b");
        int notCount = countOccurrences(expression, "\\bNOT\\b");
        counts.put("logicalOperators", andCount + orCount + notCount);

        // Count functions (attribute_exists, attribute_not_exists, attribute_type, begins_with, contains, size)
        int functionCount = countOccurrences(
            expression,
            "\\b(attribute_exists|attribute_not_exists|attribute_type|begins_with|contains|size|if_not_exists)\\(");
        counts.put("functions", functionCount);

        // Count arithmetic operators (+ and -)
        // This is a simplified approach and may not catch all cases
        int arithmeticCount = 0;
        Pattern arithmeticPattern = Pattern.compile("[a-zA-Z0-9_)\\]]\\s*[\\+\\-]\\s*[a-zA-Z0-9_:(]");
        Matcher arithmeticMatcher = arithmeticPattern.matcher(expression);
        while (arithmeticMatcher.find()) {
            arithmeticCount++;
        }
        counts.put("arithmeticOperators", arithmeticCount);

        // Count special operators (BETWEEN, IN)
        int betweenCount = countOccurrences(expression, "\\bBETWEEN\\b");
        int inCount = countOccurrences(expression, "\\bIN\\b");
        counts.put("specialOperators", betweenCount + inCount);

        // Add extra operators for BETWEEN (each BETWEEN includes an AND)
        int currentLogicalOps = counts.getOrDefault("logicalOperators", 0);
        counts.put("logicalOperators", currentLogicalOps + betweenCount);

        // Calculate total
        int total = counts.getOrDefault("comparisonOperators", 0)
            + counts.getOrDefault("logicalOperators", 0)
            + counts.getOrDefault("functions", 0)
            + counts.getOrDefault("arithmeticOperators", 0)
            + counts.getOrDefault("specialOperators", 0);
        counts.put("total", total);

        return counts;
    }

    /**
     * Helper method to count occurrences of a pattern in a string.
     *
     * @param text The text to search in
     * @param regex The regular expression pattern to search for
     * @return The number of occurrences
     */
    private static int countOccurrences(String text, String regex) {
        final Pattern pattern = Pattern.compile(regex);
        final Matcher matcher = pattern.matcher(text);
        int count = 0;
        while (matcher.find()) {
            count++;
        }
        return count;
    }
```
Contoh penggunaan operator ekspresi menghitung dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        // Example key
        Map<String, AttributeValue> key = new HashMap<>();
        key.put("ProductId", AttributeValue.builder().s("P12345").build());

        System.out.println("Demonstrating DynamoDB expression operator counting and the 300 operator limit");

        try {
            // Example 1: Analyze a simple expression
            System.out.println("\nExample 1: Analyzing a simple expression");
            String simpleExpression = "Price = :price AND Rating > :rating AND Category IN (:cat1, :cat2, :cat3)";
            Map<String, Integer> simpleCount = countOperatorsInExpression(simpleExpression);

            System.out.println("Expression: " + simpleExpression);
            System.out.println("Operator count breakdown:");
            System.out.println("- Comparison operators: " + simpleCount.get("comparisonOperators"));
            System.out.println("- Logical operators: " + simpleCount.get("logicalOperators"));
            System.out.println("- Functions: " + simpleCount.get("functions"));
            System.out.println("- Arithmetic operators: " + simpleCount.get("arithmeticOperators"));
            System.out.println("- Special operators: " + simpleCount.get("specialOperators"));
            System.out.println("- Total operators: " + simpleCount.get("total"));

            // Example 2: Analyze a complex expression
            System.out.println("\nExample 2: Analyzing a complex expression");
            String complexExpression = "(attribute_exists(Category) AND Size BETWEEN :min AND :max) OR "
                + "(Price > :price AND contains(Description, :keyword) AND "
                + "(Rating >= :minRating OR Reviews > :minReviews))";
            Map<String, Integer> complexCount = countOperatorsInExpression(complexExpression);

            System.out.println("Expression: " + complexExpression);
            System.out.println("Operator count breakdown:");
            System.out.println("- Comparison operators: " + complexCount.get("comparisonOperators"));
            System.out.println("- Logical operators: " + complexCount.get("logicalOperators"));
            System.out.println("- Functions: " + complexCount.get("functions"));
            System.out.println("- Arithmetic operators: " + complexCount.get("arithmeticOperators"));
            System.out.println("- Special operators: " + complexCount.get("specialOperators"));
            System.out.println("- Total operators: " + complexCount.get("total"));

            // Example 3: Test approaching the operator limit
            System.out.println("\nExample 3: Testing an expression approaching the operator limit");
            Map<String, Object> approachingLimit = testOperatorLimit(dynamoDbClient, tableName, key, 290);
            System.out.println(approachingLimit.get("message"));

            // Example 4: Test exceeding the operator limit
            System.out.println("\nExample 4: Testing an expression exceeding the operator limit");
            Map<String, Object> exceedingLimit = testOperatorLimit(dynamoDbClient, tableName, key, 310);
            System.out.println(exceedingLimit.get("message"));

            // Example 5: Breaking down a complex expression
            System.out.println("\nExample 5: Breaking down a complex expression into multiple operations");
            Map<String, Object> breakdownResult = breakDownComplexExpression(dynamoDbClient, tableName, key, 500);
            @SuppressWarnings("unchecked")
            Map<Integer, Map<String, Object>> results =
                (Map<Integer, Map<String, Object>>) breakdownResult.get("results");
            System.out.println(
                "Processed " + results.size() + " of " + breakdownResult.get("totalBatches") + " batches");

            // Explain the operator counting rules
            System.out.println("\nKey points about DynamoDB expression operator counting:");
            System.out.println("1. The maximum number of operators in any expression is 300");
            System.out.println("2. Each comparison operator (=, <>, <, <=, >, >=) counts as 1 operator");
            System.out.println("3. Each logical operator (AND, OR, NOT) counts as 1 operator");
            System.out.println("4. Each function call (attribute_exists, contains, etc.) counts as 1 operator");
            System.out.println("5. Each arithmetic operator (+ or -) counts as 1 operator");
            System.out.println("6. BETWEEN counts as 2 operators (BETWEEN itself and the AND within it)");
            System.out.println("7. IN counts as 1 operator regardless of the number of values");
            System.out.println("8. Parentheses for grouping and attribute paths don't count as operators");
            System.out.println("9. When you exceed the limit, the error always reports '301 operators'");
            System.out.println("10. For complex operations, break them into multiple smaller operations");

        } catch (Exception e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Java 2.x**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/pam_source_files).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Buat tabel dengan indeks sekunder global
<a name="dynamodb_CreateTableWithGlobalSecondaryIndex_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat tabel dengan indeks sekunder global.

**SDK untuk Java 2.x**  
Buat tabel DynamoDB dengan Global Secondary Index menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.waiters.WaiterResponse;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeDefinition;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.CreateTableRequest;
import software.amazon.awssdk.services.dynamodb.model.DeleteTableRequest;
import software.amazon.awssdk.services.dynamodb.model.DescribeTableRequest;
import software.amazon.awssdk.services.dynamodb.model.DescribeTableResponse;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.GlobalSecondaryIndex;
import software.amazon.awssdk.services.dynamodb.model.KeySchemaElement;
import software.amazon.awssdk.services.dynamodb.model.KeyType;
import software.amazon.awssdk.services.dynamodb.model.Projection;
import software.amazon.awssdk.services.dynamodb.model.ProjectionType;
import software.amazon.awssdk.services.dynamodb.model.ProvisionedThroughput;
import software.amazon.awssdk.services.dynamodb.model.PutItemRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ScalarAttributeType;
import software.amazon.awssdk.services.dynamodb.waiters.DynamoDbWaiter;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

    public void createTable() {
        try {
            // Attribute definitions
            final List<AttributeDefinition> attributeDefinitions = new ArrayList<>();
            attributeDefinitions.add(AttributeDefinition.builder()
                .attributeName(ISSUE_ID_ATTR)
                .attributeType(ScalarAttributeType.S)
                .build());
            attributeDefinitions.add(AttributeDefinition.builder()
                .attributeName(TITLE_ATTR)
                .attributeType(ScalarAttributeType.S)
                .build());
            attributeDefinitions.add(AttributeDefinition.builder()
                .attributeName(CREATE_DATE_ATTR)
                .attributeType(ScalarAttributeType.S)
                .build());
            attributeDefinitions.add(AttributeDefinition.builder()
                .attributeName(DUE_DATE_ATTR)
                .attributeType(ScalarAttributeType.S)
                .build());

            // Key schema for table
            final List<KeySchemaElement> tableKeySchema = new ArrayList<>();
            tableKeySchema.add(KeySchemaElement.builder()
                .attributeName(ISSUE_ID_ATTR)
                .keyType(KeyType.HASH)
                .build()); // Partition key
            tableKeySchema.add(KeySchemaElement.builder()
                .attributeName(TITLE_ATTR)
                .keyType(KeyType.RANGE)
                .build()); // Sort key

            // Initial provisioned throughput settings for the indexes
            final ProvisionedThroughput ptIndex = ProvisionedThroughput.builder()
                .readCapacityUnits(1L)
                .writeCapacityUnits(1L)
                .build();

            // CreateDateIndex
            final List<KeySchemaElement> createDateKeySchema = new ArrayList<>();
            createDateKeySchema.add(KeySchemaElement.builder()
                .attributeName(CREATE_DATE_ATTR)
                .keyType(KeyType.HASH)
                .build());
            createDateKeySchema.add(KeySchemaElement.builder()
                .attributeName(ISSUE_ID_ATTR)
                .keyType(KeyType.RANGE)
                .build());

            final Projection createDateProjection = Projection.builder()
                .projectionType(ProjectionType.INCLUDE)
                .nonKeyAttributes(DESCRIPTION_ATTR, STATUS_ATTR)
                .build();

            final GlobalSecondaryIndex createDateIndex = GlobalSecondaryIndex.builder()
                .indexName(CREATE_DATE_INDEX)
                .keySchema(createDateKeySchema)
                .projection(createDateProjection)
                .provisionedThroughput(ptIndex)
                .build();

            // TitleIndex
            final List<KeySchemaElement> titleKeySchema = new ArrayList<>();
            titleKeySchema.add(KeySchemaElement.builder()
                .attributeName(TITLE_ATTR)
                .keyType(KeyType.HASH)
                .build());
            titleKeySchema.add(KeySchemaElement.builder()
                .attributeName(ISSUE_ID_ATTR)
                .keyType(KeyType.RANGE)
                .build());

            final Projection titleProjection =
                Projection.builder().projectionType(ProjectionType.KEYS_ONLY).build();

            final GlobalSecondaryIndex titleIndex = GlobalSecondaryIndex.builder()
                .indexName(TITLE_INDEX)
                .keySchema(titleKeySchema)
                .projection(titleProjection)
                .provisionedThroughput(ptIndex)
                .build();

            // DueDateIndex
            final List<KeySchemaElement> dueDateKeySchema = new ArrayList<>();
            dueDateKeySchema.add(KeySchemaElement.builder()
                .attributeName(DUE_DATE_ATTR)
                .keyType(KeyType.HASH)
                .build());

            final Projection dueDateProjection =
                Projection.builder().projectionType(ProjectionType.ALL).build();

            final GlobalSecondaryIndex dueDateIndex = GlobalSecondaryIndex.builder()
                .indexName(DUE_DATE_INDEX)
                .keySchema(dueDateKeySchema)
                .projection(dueDateProjection)
                .provisionedThroughput(ptIndex)
                .build();

            final CreateTableRequest createTableRequest = CreateTableRequest.builder()
                .tableName(TABLE_NAME)
                .keySchema(tableKeySchema)
                .attributeDefinitions(attributeDefinitions)
                .globalSecondaryIndexes(createDateIndex, titleIndex, dueDateIndex)
                .provisionedThroughput(ProvisionedThroughput.builder()
                    .readCapacityUnits(1L)
                    .writeCapacityUnits(1L)
                    .build())
                .build();

            System.out.println("Creating table " + TABLE_NAME + "...");
            dynamoDbClient.createTable(createTableRequest);

            // Wait for table to become active
            System.out.println("Waiting for " + TABLE_NAME + " to become ACTIVE...");
            final DynamoDbWaiter waiter = dynamoDbClient.waiter();
            final DescribeTableRequest describeTableRequest =
                DescribeTableRequest.builder().tableName(TABLE_NAME).build();

            final WaiterResponse<DescribeTableResponse> waiterResponse =
                waiter.waitUntilTableExists(describeTableRequest);
            waiterResponse.matched().response().ifPresent(response -> System.out.println("Table is now ready for use"));

        } catch (DynamoDbException e) {
            System.err.println("Error creating table: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/CreateTable)di *Referensi AWS SDK for Java 2.x API*. 

### Buat tabel dengan throughput hangat diaktifkan
<a name="dynamodb_CreateTableWarmThroughput_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat tabel dengan throughput hangat diaktifkan.

**SDK untuk Java 2.x**  
Buat tabel DynamoDB dengan pengaturan throughput hangat menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeDefinition;
import software.amazon.awssdk.services.dynamodb.model.CreateTableRequest;
import software.amazon.awssdk.services.dynamodb.model.CreateTableResponse;
import software.amazon.awssdk.services.dynamodb.model.GlobalSecondaryIndex;
import software.amazon.awssdk.services.dynamodb.model.KeySchemaElement;
import software.amazon.awssdk.services.dynamodb.model.KeyType;
import software.amazon.awssdk.services.dynamodb.model.Projection;
import software.amazon.awssdk.services.dynamodb.model.ProvisionedThroughput;
import software.amazon.awssdk.services.dynamodb.model.ScalarAttributeType;
import software.amazon.awssdk.services.dynamodb.model.WarmThroughput;

    public static WarmThroughput buildWarmThroughput(final Long readUnitsPerSecond, final Long writeUnitsPerSecond) {
        return WarmThroughput.builder()
            .readUnitsPerSecond(readUnitsPerSecond)
            .writeUnitsPerSecond(writeUnitsPerSecond)
            .build();
    }

    /**
     * Builds a ProvisionedThroughput object with the specified read and write capacity units.
     *
     * @param readCapacityUnits The read capacity units
     * @param writeCapacityUnits The write capacity units
     * @return A configured ProvisionedThroughput object
     */
    public static ProvisionedThroughput buildProvisionedThroughput(
        final Long readCapacityUnits, final Long writeCapacityUnits) {
        return ProvisionedThroughput.builder()
            .readCapacityUnits(readCapacityUnits)
            .writeCapacityUnits(writeCapacityUnits)
            .build();
    }

    /**
     * Builds an AttributeDefinition with the specified name and type.
     *
     * @param attributeName The attribute name
     * @param scalarAttributeType The attribute type
     * @return A configured AttributeDefinition
     */
    private static AttributeDefinition buildAttributeDefinition(
        final String attributeName, final ScalarAttributeType scalarAttributeType) {
        return AttributeDefinition.builder()
            .attributeName(attributeName)
            .attributeType(scalarAttributeType)
            .build();
    }

    /**
     * Builds a KeySchemaElement with the specified name and key type.
     *
     * @param attributeName The attribute name
     * @param keyType The key type (HASH or RANGE)
     * @return A configured KeySchemaElement
     */
    private static KeySchemaElement buildKeySchemaElement(final String attributeName, final KeyType keyType) {
        return KeySchemaElement.builder()
            .attributeName(attributeName)
            .keyType(keyType)
            .build();
    }

    /**
     * Creates a DynamoDB table with the specified configuration including warm throughput settings.
     *
     * @param ddb The DynamoDB client
     * @param tableName The name of the table to create
     * @param partitionKey The partition key attribute name
     * @param sortKey The sort key attribute name
     * @param miscellaneousKeyAttribute Additional key attribute name for GSI
     * @param nonKeyAttribute Non-key attribute to include in GSI projection
     * @param tableReadCapacityUnits Read capacity units for the table
     * @param tableWriteCapacityUnits Write capacity units for the table
     * @param tableWarmReadUnitsPerSecond Warm read units per second for the table
     * @param tableWarmWriteUnitsPerSecond Warm write units per second for the table
     * @param globalSecondaryIndexName The name of the GSI to create
     * @param globalSecondaryIndexReadCapacityUnits Read capacity units for the GSI
     * @param globalSecondaryIndexWriteCapacityUnits Write capacity units for the GSI
     * @param globalSecondaryIndexWarmReadUnitsPerSecond Warm read units per second for the GSI
     * @param globalSecondaryIndexWarmWriteUnitsPerSecond Warm write units per second for the GSI
     */
    public static void createDynamoDBTable(
        final DynamoDbClient ddb,
        final String tableName,
        final String partitionKey,
        final String sortKey,
        final String miscellaneousKeyAttribute,
        final String nonKeyAttribute,
        final Long tableReadCapacityUnits,
        final Long tableWriteCapacityUnits,
        final Long tableWarmReadUnitsPerSecond,
        final Long tableWarmWriteUnitsPerSecond,
        final String globalSecondaryIndexName,
        final Long globalSecondaryIndexReadCapacityUnits,
        final Long globalSecondaryIndexWriteCapacityUnits,
        final Long globalSecondaryIndexWarmReadUnitsPerSecond,
        final Long globalSecondaryIndexWarmWriteUnitsPerSecond) {

        // Define the table attributes
        final AttributeDefinition partitionKeyAttribute = buildAttributeDefinition(partitionKey, ScalarAttributeType.S);
        final AttributeDefinition sortKeyAttribute = buildAttributeDefinition(sortKey, ScalarAttributeType.S);
        final AttributeDefinition miscellaneousKeyAttributeDefinition =
            buildAttributeDefinition(miscellaneousKeyAttribute, ScalarAttributeType.N);
        final AttributeDefinition[] attributeDefinitions = {
            partitionKeyAttribute, sortKeyAttribute, miscellaneousKeyAttributeDefinition
        };

        // Define the table key schema
        final KeySchemaElement partitionKeyElement = buildKeySchemaElement(partitionKey, KeyType.HASH);
        final KeySchemaElement sortKeyElement = buildKeySchemaElement(sortKey, KeyType.RANGE);
        final KeySchemaElement[] keySchema = {partitionKeyElement, sortKeyElement};

        // Define the provisioned throughput for the table
        final ProvisionedThroughput provisionedThroughput =
            buildProvisionedThroughput(tableReadCapacityUnits, tableWriteCapacityUnits);

        // Define the Global Secondary Index (GSI)
        final KeySchemaElement globalSecondaryIndexPartitionKeyElement = buildKeySchemaElement(sortKey, KeyType.HASH);
        final KeySchemaElement globalSecondaryIndexSortKeyElement =
            buildKeySchemaElement(miscellaneousKeyAttribute, KeyType.RANGE);
        final KeySchemaElement[] gsiKeySchema = {
            globalSecondaryIndexPartitionKeyElement, globalSecondaryIndexSortKeyElement
        };

        final Projection gsiProjection = Projection.builder()
            .projectionType(PROJECTION_TYPE_INCLUDE)
            .nonKeyAttributes(nonKeyAttribute)
            .build();

        final ProvisionedThroughput gsiProvisionedThroughput =
            buildProvisionedThroughput(globalSecondaryIndexReadCapacityUnits, globalSecondaryIndexWriteCapacityUnits);

        // Define the warm throughput for the Global Secondary Index (GSI)
        final WarmThroughput gsiWarmThroughput = buildWarmThroughput(
            globalSecondaryIndexWarmReadUnitsPerSecond, globalSecondaryIndexWarmWriteUnitsPerSecond);

        final GlobalSecondaryIndex globalSecondaryIndex = GlobalSecondaryIndex.builder()
            .indexName(globalSecondaryIndexName)
            .keySchema(gsiKeySchema)
            .projection(gsiProjection)
            .provisionedThroughput(gsiProvisionedThroughput)
            .warmThroughput(gsiWarmThroughput)
            .build();

        // Define the warm throughput for the table
        final WarmThroughput tableWarmThroughput =
            buildWarmThroughput(tableWarmReadUnitsPerSecond, tableWarmWriteUnitsPerSecond);

        final CreateTableRequest request = CreateTableRequest.builder()
            .tableName(tableName)
            .attributeDefinitions(attributeDefinitions)
            .keySchema(keySchema)
            .provisionedThroughput(provisionedThroughput)
            .globalSecondaryIndexes(globalSecondaryIndex)
            .warmThroughput(tableWarmThroughput)
            .build();

        final CreateTableResponse response = ddb.createTable(request);
        System.out.println(response);
    }
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/CreateTable)di *Referensi AWS SDK for Java 2.x API*. 

### Membuat aplikasi web untuk melacak data DynamoDB
<a name="cross_DynamoDBDataTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item kerja dalam tabel Amazon DynamoDB dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon DynamoDB API untuk membuat aplikasi web dinamis yang melacak data kerja DynamoDB.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_dynamodb_web_app).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SES

### Buat item dengan TTL
<a name="dynamodb_PutItemTTL_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat item dengan TTL.

**SDK untuk Java 2.x**  

```
package com.amazon.samplelib.ttl;

import com.amazon.samplelib.CodeSampleUtils;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.PutItemRequest;
import software.amazon.awssdk.services.dynamodb.model.PutItemResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;
import java.util.Optional;

/**
 * Creates an item in a DynamoDB table with TTL attributes.
 * This class demonstrates how to add TTL expiration timestamps to DynamoDB items.
 */
public class CreateTTL {

    private static final String USAGE =
        """
            Usage:
                <tableName> <primaryKey> <sortKey> <region>
            Where:
                tableName - The Amazon DynamoDB table being queried.
                primaryKey - The name of the primary key. Also known as the hash or partition key.
                sortKey - The name of the sort key. Also known as the range attribute.
                region (optional) - The AWS region that the Amazon DynamoDB table is located in. (Default: us-east-1)
            """;
    private static final int DAYS_TO_EXPIRE = 90;
    private static final int SECONDS_PER_DAY = 24 * 60 * 60;
    private static final String PRIMARY_KEY_ATTR = "primaryKey";
    private static final String SORT_KEY_ATTR = "sortKey";
    private static final String CREATION_DATE_ATTR = "creationDate";
    private static final String EXPIRE_AT_ATTR = "expireAt";
    private static final String SUCCESS_MESSAGE = "%s PutItem operation with TTL successful.";
    private static final String TABLE_NOT_FOUND_ERROR = "Error: The Amazon DynamoDB table \"%s\" can't be found.";

    private final DynamoDbClient dynamoDbClient;

    /**
     * Constructs a CreateTTL instance with the specified DynamoDB client.
     *
     * @param dynamoDbClient The DynamoDB client to use
     */
    public CreateTTL(final DynamoDbClient dynamoDbClient) {
        this.dynamoDbClient = dynamoDbClient;
    }

    /**
     * Constructs a CreateTTL with a default DynamoDB client.
     */
    public CreateTTL() {
        this.dynamoDbClient = null;
    }

    /**
     * Main method to demonstrate creating an item with TTL.
     *
     * @param args Command line arguments
     */
    public static void main(final String[] args) {
        try {
            int result = new CreateTTL().processArgs(args);
            System.exit(result);
        } catch (Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Process command line arguments and create an item with TTL.
     *
     * @param args Command line arguments
     * @return 0 if successful, non-zero otherwise
     * @throws ResourceNotFoundException If the table doesn't exist
     * @throws DynamoDbException If an error occurs during the operation
     * @throws IllegalArgumentException If arguments are invalid
     */
    public int processArgs(final String[] args) {
        // Argument validation (remove or replace this line when reusing this code)
        CodeSampleUtils.validateArgs(args, new int[] {3, 4}, USAGE);

        final String tableName = args[0];
        final String primaryKey = args[1];
        final String sortKey = args[2];
        final Region region = Optional.ofNullable(args.length > 3 ? args[3] : null)
            .map(Region::of)
            .orElse(Region.US_EAST_1);

        try (DynamoDbClient ddb = dynamoDbClient != null
            ? dynamoDbClient
            : DynamoDbClient.builder().region(region).build()) {
            final CreateTTL createTTL = new CreateTTL(ddb);
            createTTL.createItemWithTTL(tableName, primaryKey, sortKey);
            return 0;
        } catch (Exception e) {
            throw e;
        }
    }

    /**
     * Creates an item in the specified table with TTL attributes.
     *
     * @param tableName The name of the table
     * @param primaryKeyValue The value for the primary key
     * @param sortKeyValue The value for the sort key
     * @return The response from the PutItem operation
     * @throws ResourceNotFoundException If the table doesn't exist
     * @throws DynamoDbException If an error occurs during the operation
     */
    public PutItemResponse createItemWithTTL(
        final String tableName, final String primaryKeyValue, final String sortKeyValue) {
        // Get current time in epoch second format
        final long createDate = System.currentTimeMillis() / 1000;

        // Calculate expiration time 90 days from now in epoch second format
        final long expireDate = createDate + (DAYS_TO_EXPIRE * SECONDS_PER_DAY);

        final Map<String, AttributeValue> itemMap = new HashMap<>();
        itemMap.put(
            PRIMARY_KEY_ATTR, AttributeValue.builder().s(primaryKeyValue).build());
        itemMap.put(SORT_KEY_ATTR, AttributeValue.builder().s(sortKeyValue).build());
        itemMap.put(
            CREATION_DATE_ATTR,
            AttributeValue.builder().n(String.valueOf(createDate)).build());
        itemMap.put(
            EXPIRE_AT_ATTR,
            AttributeValue.builder().n(String.valueOf(expireDate)).build());

        final PutItemRequest request =
            PutItemRequest.builder().tableName(tableName).item(itemMap).build();

        try {
            final PutItemResponse response = dynamoDbClient.putItem(request);
            System.out.println(String.format(SUCCESS_MESSAGE, tableName));
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format(TABLE_NOT_FOUND_ERROR, tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            throw e;
        }
    }
}
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/PutItem)di *Referensi AWS SDK for Java 2.x API*. 

### Membuat dan mengelola tabel global MRSC
<a name="dynamodb_Scenario_MRSCGlobalTables_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mengelola tabel global DynamoDB dengan Multi-Region Strong Consistency (MRSC).
+ Buat tabel dengan Konsistensi Kuat Multi-Region.
+ Verifikasi konfigurasi MRSC dan status replika.
+ Uji konsistensi yang kuat di seluruh Wilayah dengan pembacaan langsung.
+ Lakukan penulisan bersyarat dengan jaminan MRSC.
+ Bersihkan sumber daya tabel global MRSC.

**SDK untuk Java 2.x**  
Buat tabel regional yang siap untuk konversi MRSC menggunakan AWS SDK for Java 2.x.  

```
    public static CreateTableResponse createRegionalTable(final DynamoDbClient dynamoDbClient, final String tableName) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }

        try {
            LOGGER.info("Creating regional table: " + tableName + " (must be empty for MRSC)");

            CreateTableRequest createTableRequest = CreateTableRequest.builder()
                .tableName(tableName)
                .attributeDefinitions(
                    AttributeDefinition.builder()
                        .attributeName("Artist")
                        .attributeType(ScalarAttributeType.S)
                        .build(),
                    AttributeDefinition.builder()
                        .attributeName("SongTitle")
                        .attributeType(ScalarAttributeType.S)
                        .build())
                .keySchema(
                    KeySchemaElement.builder()
                        .attributeName("Artist")
                        .keyType(KeyType.HASH)
                        .build(),
                    KeySchemaElement.builder()
                        .attributeName("SongTitle")
                        .keyType(KeyType.RANGE)
                        .build())
                .billingMode(BillingMode.PAY_PER_REQUEST)
                .build();

            CreateTableResponse response = dynamoDbClient.createTable(createTableRequest);
            LOGGER.info("Regional table creation initiated. Status: "
                + response.tableDescription().tableStatus());

            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to create regional table: " + tableName + " - " + e.getMessage());
            throw DynamoDbException.builder()
                .message("Failed to create regional table: " + tableName)
                .cause(e)
                .build();
        }
    }
```
Konversikan tabel regional ke MRSC dengan replika dan saksi menggunakan. AWS SDK for Java 2.x  

```
    public static UpdateTableResponse convertToMRSCWithWitness(
        final DynamoDbClient dynamoDbClient,
        final String tableName,
        final Region replicaRegion,
        final Region witnessRegion) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (replicaRegion == null) {
            throw new IllegalArgumentException("Replica region cannot be null");
        }
        if (witnessRegion == null) {
            throw new IllegalArgumentException("Witness region cannot be null");
        }

        try {
            LOGGER.info("Converting table to MRSC with replica in " + replicaRegion.id() + " and witness in "
                + witnessRegion.id());

            // Create replica update using ReplicationGroupUpdate
            ReplicationGroupUpdate replicaUpdate = ReplicationGroupUpdate.builder()
                .create(CreateReplicationGroupMemberAction.builder()
                    .regionName(replicaRegion.id())
                    .build())
                .build();

            // Create witness update
            GlobalTableWitnessGroupUpdate witnessUpdate = GlobalTableWitnessGroupUpdate.builder()
                .create(CreateGlobalTableWitnessGroupMemberAction.builder()
                    .regionName(witnessRegion.id())
                    .build())
                .build();

            UpdateTableRequest updateTableRequest = UpdateTableRequest.builder()
                .tableName(tableName)
                .replicaUpdates(List.of(replicaUpdate))
                .globalTableWitnessUpdates(List.of(witnessUpdate))
                .multiRegionConsistency(MultiRegionConsistency.STRONG)
                .build();

            UpdateTableResponse response = dynamoDbClient.updateTable(updateTableRequest);
            LOGGER.info("MRSC conversion initiated. Status: "
                + response.tableDescription().tableStatus());
            LOGGER.info("UpdateTableResponse full object: " + response);
            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to convert table to MRSC: " + tableName + " - " + e.getMessage());
            throw DynamoDbException.builder()
                .message("Failed to convert table to MRSC: " + tableName)
                .cause(e)
                .build();
        }
    }
```
Jelaskan konfigurasi tabel global MRSC menggunakan AWS SDK for Java 2.x.  

```
    public static DescribeTableResponse describeMRSCTable(final DynamoDbClient dynamoDbClient, final String tableName) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }

        try {
            LOGGER.info("Describing MRSC global table: " + tableName);

            DescribeTableRequest request =
                DescribeTableRequest.builder().tableName(tableName).build();

            DescribeTableResponse response = dynamoDbClient.describeTable(request);

            LOGGER.info("Table status: " + response.table().tableStatus());
            LOGGER.info("Multi-region consistency: " + response.table().multiRegionConsistency());

            if (response.table().replicas() != null
                && !response.table().replicas().isEmpty()) {
                LOGGER.info("Number of replicas: " + response.table().replicas().size());
                response.table()
                    .replicas()
                    .forEach(replica -> LOGGER.info(
                        "Replica region: " + replica.regionName() + ", Status: " + replica.replicaStatus()));
            }

            if (response.table().globalTableWitnesses() != null
                && !response.table().globalTableWitnesses().isEmpty()) {
                LOGGER.info("Number of witnesses: "
                    + response.table().globalTableWitnesses().size());
                response.table()
                    .globalTableWitnesses()
                    .forEach(witness -> LOGGER.info(
                        "Witness region: " + witness.regionName() + ", Status: " + witness.witnessStatus()));
            }

            return response;

        } catch (ResourceNotFoundException e) {
            LOGGER.severe("Table not found: " + tableName + " - " + e.getMessage());
            throw DynamoDbException.builder()
                .message("Table not found: " + tableName)
                .cause(e)
                .build();
        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to describe table: " + tableName + " - " + e.getMessage());
            throw DynamoDbException.builder()
                .message("Failed to describe table: " + tableName)
                .cause(e)
                .build();
        }
    }
```
Tambahkan item pengujian untuk memverifikasi konsistensi kuat MRSC menggunakan AWS SDK for Java 2.x.  

```
    public static PutItemResponse putTestItem(
        final DynamoDbClient dynamoDbClient,
        final String tableName,
        final String artist,
        final String songTitle,
        final String album,
        final String year) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (artist == null || artist.trim().isEmpty()) {
            throw new IllegalArgumentException("Artist cannot be null or empty");
        }
        if (songTitle == null || songTitle.trim().isEmpty()) {
            throw new IllegalArgumentException("Song title cannot be null or empty");
        }

        try {
            LOGGER.info("Adding test item to MRSC global table: " + tableName);

            Map<String, AttributeValue> item = new HashMap<>();
            item.put("Artist", AttributeValue.builder().s(artist).build());
            item.put("SongTitle", AttributeValue.builder().s(songTitle).build());

            if (album != null && !album.trim().isEmpty()) {
                item.put("Album", AttributeValue.builder().s(album).build());
            }
            if (year != null && !year.trim().isEmpty()) {
                item.put("Year", AttributeValue.builder().n(year).build());
            }

            PutItemRequest putItemRequest =
                PutItemRequest.builder().tableName(tableName).item(item).build();

            PutItemResponse response = dynamoDbClient.putItem(putItemRequest);
            LOGGER.info("Test item added successfully with strong consistency");

            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to add test item to table: " + tableName + " - " + e.getMessage());
            throw DynamoDbException.builder()
                .message("Failed to add test item to table: " + tableName)
                .cause(e)
                .build();
        }
    }
```
Baca item dengan pembacaan konsisten dari replika MRSC menggunakan. AWS SDK for Java 2.x  

```
    public static GetItemResponse getItemWithConsistentRead(
        final DynamoDbClient dynamoDbClient, final String tableName, final String artist, final String songTitle) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (artist == null || artist.trim().isEmpty()) {
            throw new IllegalArgumentException("Artist cannot be null or empty");
        }
        if (songTitle == null || songTitle.trim().isEmpty()) {
            throw new IllegalArgumentException("Song title cannot be null or empty");
        }

        try {
            LOGGER.info("Reading item from MRSC global table with consistent read: " + tableName);

            Map<String, AttributeValue> key = new HashMap<>();
            key.put("Artist", AttributeValue.builder().s(artist).build());
            key.put("SongTitle", AttributeValue.builder().s(songTitle).build());

            GetItemRequest getItemRequest = GetItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .consistentRead(true)
                .build();

            GetItemResponse response = dynamoDbClient.getItem(getItemRequest);

            if (response.hasItem()) {
                LOGGER.info("Item found with strong consistency - no wait time needed");
            } else {
                LOGGER.info("Item not found");
            }

            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to read item from table: " + tableName + " - " + e.getMessage());
            throw DynamoDbException.builder()
                .message("Failed to read item from table: " + tableName)
                .cause(e)
                .build();
        }
    }
```
Lakukan pembaruan bersyarat dengan jaminan MRSC menggunakan. AWS SDK for Java 2.x  

```
    public static UpdateItemResponse performConditionalUpdate(
        final DynamoDbClient dynamoDbClient,
        final String tableName,
        final String artist,
        final String songTitle,
        final String rating) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (artist == null || artist.trim().isEmpty()) {
            throw new IllegalArgumentException("Artist cannot be null or empty");
        }
        if (songTitle == null || songTitle.trim().isEmpty()) {
            throw new IllegalArgumentException("Song title cannot be null or empty");
        }
        if (rating == null || rating.trim().isEmpty()) {
            throw new IllegalArgumentException("Rating cannot be null or empty");
        }

        try {
            LOGGER.info("Performing conditional update on MRSC global table: " + tableName);

            Map<String, AttributeValue> key = new HashMap<>();
            key.put("Artist", AttributeValue.builder().s(artist).build());
            key.put("SongTitle", AttributeValue.builder().s(songTitle).build());

            Map<String, String> expressionAttributeNames = new HashMap<>();
            expressionAttributeNames.put("#rating", "Rating");

            Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
            expressionAttributeValues.put(
                ":rating", AttributeValue.builder().n(rating).build());

            UpdateItemRequest updateItemRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET #rating = :rating")
                .conditionExpression("attribute_exists(Artist)")
                .expressionAttributeNames(expressionAttributeNames)
                .expressionAttributeValues(expressionAttributeValues)
                .build();

            UpdateItemResponse response = dynamoDbClient.updateItem(updateItemRequest);
            LOGGER.info("Conditional update successful - demonstrates strong consistency");

            return response;

        } catch (ConditionalCheckFailedException e) {
            LOGGER.warning("Conditional check failed: " + e.getMessage());
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to perform conditional update: " + tableName + " - " + e.getMessage());
            throw DynamoDbException.builder()
                .message("Failed to perform conditional update: " + tableName)
                .cause(e)
                .build();
        }
    }
```
Tunggu replika dan saksi MRSC menjadi aktif menggunakan. AWS SDK for Java 2.x  

```
    public static void waitForMRSCReplicasActive(
        final DynamoDbClient dynamoDbClient, final String tableName, final int maxWaitTimeSeconds)
        throws InterruptedException {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (maxWaitTimeSeconds <= 0) {
            throw new IllegalArgumentException("Max wait time must be positive");
        }

        try {
            LOGGER.info("Waiting for MRSC replicas and witnesses to become active: " + tableName);

            final long startTime = System.currentTimeMillis();
            final long maxWaitTimeMillis = maxWaitTimeSeconds * 1000L;
            int backoffSeconds = 5; // Start with 5 second intervals
            final int maxBackoffSeconds = 30; // Cap at 30 seconds

            while (System.currentTimeMillis() - startTime < maxWaitTimeMillis) {
                DescribeTableResponse response = describeMRSCTable(dynamoDbClient, tableName);

                boolean allActive = true;
                StringBuilder statusReport = new StringBuilder();

                if (response.table().multiRegionConsistency() == null
                    || !MultiRegionConsistency.STRONG
                        .toString()
                        .equals(response.table().multiRegionConsistency().toString())) {
                    allActive = false;
                    statusReport
                        .append("MultiRegionConsistency: ")
                        .append(response.table().multiRegionConsistency())
                        .append(" ");
                }
                if (response.table().replicas() == null
                    || response.table().replicas().isEmpty()) {
                    allActive = false;
                    statusReport.append("No replicas found. ");
                }
                if (response.table().globalTableWitnesses() == null
                    || response.table().globalTableWitnesses().isEmpty()) {
                    allActive = false;
                    statusReport.append("No witnesses found. ");
                }

                // Check table status
                if (!"ACTIVE".equals(response.table().tableStatus().toString())) {
                    allActive = false;
                    statusReport
                        .append("Table: ")
                        .append(response.table().tableStatus())
                        .append(" ");
                }

                // Check replica status
                if (response.table().replicas() != null) {
                    for (var replica : response.table().replicas()) {
                        if (!"ACTIVE".equals(replica.replicaStatus().toString())) {
                            allActive = false;
                            statusReport
                                .append("Replica(")
                                .append(replica.regionName())
                                .append("): ")
                                .append(replica.replicaStatus())
                                .append(" ");
                        }
                    }
                }

                // Check witness status
                if (response.table().globalTableWitnesses() != null) {
                    for (var witness : response.table().globalTableWitnesses()) {
                        if (!"ACTIVE".equals(witness.witnessStatus().toString())) {
                            allActive = false;
                            statusReport
                                .append("Witness(")
                                .append(witness.regionName())
                                .append("): ")
                                .append(witness.witnessStatus())
                                .append(" ");
                        }
                    }
                }

                if (allActive) {
                    LOGGER.info("All MRSC replicas and witnesses are now active: " + tableName);
                    return;
                }

                LOGGER.info("Waiting for MRSC components to become active. Status: " + statusReport.toString());
                LOGGER.info("Next check in " + backoffSeconds + " seconds...");

                tempWait(backoffSeconds);

                // Exponential backoff with cap
                backoffSeconds = Math.min(backoffSeconds * 2, maxBackoffSeconds);
            }

            throw DynamoDbException.builder()
                .message("Timeout waiting for MRSC replicas to become active after " + maxWaitTimeSeconds + " seconds")
                .build();

        } catch (DynamoDbException | InterruptedException e) {
            LOGGER.severe("Failed to wait for MRSC replicas to become active: " + tableName + " - " + e.getMessage());
            throw e;
        }
    }
```
Bersihkan replika dan saksi MRSC menggunakan. AWS SDK for Java 2.x  

```
    public static UpdateTableResponse cleanupMRSCReplicas(
        final DynamoDbClient dynamoDbClient,
        final String tableName,
        final Region replicaRegion,
        final Region witnessRegion) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (replicaRegion == null) {
            throw new IllegalArgumentException("Replica region cannot be null");
        }
        if (witnessRegion == null) {
            throw new IllegalArgumentException("Witness region cannot be null");
        }

        try {
            LOGGER.info("Cleaning up MRSC replicas and witnesses for table: " + tableName);

            // Remove replica using ReplicationGroupUpdate
            ReplicationGroupUpdate replicaUpdate = ReplicationGroupUpdate.builder()
                .delete(DeleteReplicationGroupMemberAction.builder()
                    .regionName(replicaRegion.id())
                    .build())
                .build();

            // Remove witness
            GlobalTableWitnessGroupUpdate witnessUpdate = GlobalTableWitnessGroupUpdate.builder()
                .delete(DeleteGlobalTableWitnessGroupMemberAction.builder()
                    .regionName(witnessRegion.id())
                    .build())
                .build();

            UpdateTableRequest updateTableRequest = UpdateTableRequest.builder()
                .tableName(tableName)
                .replicaUpdates(List.of(replicaUpdate))
                .globalTableWitnessUpdates(List.of(witnessUpdate))
                .build();

            UpdateTableResponse response = dynamoDbClient.updateTable(updateTableRequest);
            LOGGER.info("MRSC cleanup initiated - removing replica and witness. Response: " + response);

            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to cleanup MRSC replicas: " + tableName + " - " + e.getMessage());
            throw DynamoDbException.builder()
                .message("Failed to cleanup MRSC replicas: " + tableName)
                .cause(e)
                .build();
        }
    }
```
Demonstrasi alur kerja MRSC lengkap menggunakan. AWS SDK for Java 2.x  

```
    public static void demonstrateCompleteMRSCWorkflow(
        final DynamoDbClient primaryClient,
        final DynamoDbClient replicaClient,
        final String tableName,
        final Region replicaRegion,
        final Region witnessRegion)
        throws InterruptedException {

        if (primaryClient == null) {
            throw new IllegalArgumentException("Primary DynamoDB client cannot be null");
        }
        if (replicaClient == null) {
            throw new IllegalArgumentException("Replica DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (replicaRegion == null) {
            throw new IllegalArgumentException("Replica region cannot be null");
        }
        if (witnessRegion == null) {
            throw new IllegalArgumentException("Witness region cannot be null");
        }

        try {
            LOGGER.info("=== Starting Complete MRSC Workflow Demonstration ===");

            // Step 1: Create an empty single-Region table
            LOGGER.info("Step 1: Creating empty single-Region table");
            createRegionalTable(primaryClient, tableName);

            // Use the existing GlobalTableOperations method for basic table waiting
            LOGGER.info("Intermediate step: Waiting for table [" + tableName + "] to become active before continuing");
            GlobalTableOperations.waitForTableActive(primaryClient, tableName);

            // Step 2: Convert to MRSC with replica and witness
            LOGGER.info("Step 2: Converting to MRSC with replica and witness");
            convertToMRSCWithWitness(primaryClient, tableName, replicaRegion, witnessRegion);

            // Wait for MRSC conversion to complete using MRSC-specific waiter
            LOGGER.info("Waiting for MRSC conversion to complete...");
            waitForMRSCReplicasActive(primaryClient, tableName);

            LOGGER.info("Intermediate step: Waiting for table [" + tableName + "] to become active before continuing");
            GlobalTableOperations.waitForTableActive(primaryClient, tableName);

            // Step 3: Verify MRSC configuration
            LOGGER.info("Step 3: Verifying MRSC configuration");
            describeMRSCTable(primaryClient, tableName);

            // Step 4: Test strong consistency with data operations
            LOGGER.info("Step 4: Testing strong consistency with data operations");

            // Add test item to primary region
            putTestItem(primaryClient, tableName, "The Beatles", "Hey Jude", "The Beatles 1967-1970", "1968");

            // Immediately read from replica region (no wait needed with MRSC)
            LOGGER.info("Reading from replica region immediately (strong consistency):");
            GetItemResponse getResponse =
                getItemWithConsistentRead(replicaClient, tableName, "The Beatles", "Hey Jude");

            if (getResponse.hasItem()) {
                LOGGER.info("✓ Strong consistency verified - item immediately available in replica region");
            } else {
                LOGGER.warning("✗ Item not found in replica region");
            }

            // Test conditional update from replica region
            LOGGER.info("Testing conditional update from replica region:");
            performConditionalUpdate(replicaClient, tableName, "The Beatles", "Hey Jude", "5");
            LOGGER.info("✓ Conditional update successful - demonstrates strong consistency");

            // Step 5: Cleanup
            LOGGER.info("Step 5: Cleaning up resources");
            cleanupMRSCReplicas(primaryClient, tableName, replicaRegion, witnessRegion);

            // Wait for cleanup to complete using basic table waiter
            LOGGER.info("Waiting for replica cleanup to complete...");
            GlobalTableOperations.waitForTableActive(primaryClient, tableName);

            // "Halt" until replica/witness cleanup is complete
            DescribeTableResponse cleanupVerification = describeMRSCTable(primaryClient, tableName);
            int backoffSeconds = 5; // Start with 5 second intervals
            while (cleanupVerification.table().multiRegionConsistency() != null) {
                LOGGER.info("Waiting additional time (" + backoffSeconds + " seconds) for MRSC cleanup to complete...");
                tempWait(backoffSeconds);

                // Exponential backoff with cap
                backoffSeconds = Math.min(backoffSeconds * 2, 30);
                cleanupVerification = describeMRSCTable(primaryClient, tableName);
            }

            // Delete the primary table
            deleteTable(primaryClient, tableName);

            LOGGER.info("=== MRSC Workflow Demonstration Complete ===");
            LOGGER.info("");
            LOGGER.info("Key benefits of Multi-Region Strong Consistency (MRSC):");
            LOGGER.info("- Immediate consistency across all regions (no eventual consistency delays)");
            LOGGER.info("- Simplified application logic (no need to handle eventual consistency)");
            LOGGER.info("- Support for conditional writes and transactions across regions");
            LOGGER.info("- Consistent read operations from any region without waiting");

        } catch (DynamoDbException | InterruptedException e) {
            LOGGER.severe("MRSC workflow failed: " + e.getMessage());
            throw e;
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/CreateTable)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/PutItem)
  + [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)
  + [UpdateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateTable)

### Membuat dan mengelola tabel global yang menunjukkan MREC
<a name="dynamodb_Scenario_GlobalTableOperations_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mengelola tabel global DynamoDB dengan replika di beberapa Wilayah.
+ Buat tabel dengan Global Secondary Index dan DynamoDB Streams.
+ Tambahkan replika di Wilayah yang berbeda untuk membuat tabel global.
+ Hapus replika dari tabel global.
+ Tambahkan item pengujian untuk memverifikasi replikasi di seluruh Wilayah.
+ Jelaskan konfigurasi tabel global dan status replika.

**SDK untuk Java 2.x**  
Buat tabel dengan Global Secondary Index dan DynamoDB Streams menggunakan. AWS SDK for Java 2.x  

```
    public static CreateTableResponse createTableWithGSI(
        final DynamoDbClient dynamoDbClient, final String tableName, final String indexName) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (indexName == null || indexName.trim().isEmpty()) {
            throw new IllegalArgumentException("Index name cannot be null or empty");
        }

        try {
            LOGGER.info("Creating table: " + tableName + " with GSI: " + indexName);

            CreateTableRequest createTableRequest = CreateTableRequest.builder()
                .tableName(tableName)
                .attributeDefinitions(
                    AttributeDefinition.builder()
                        .attributeName("Artist")
                        .attributeType(ScalarAttributeType.S)
                        .build(),
                    AttributeDefinition.builder()
                        .attributeName("SongTitle")
                        .attributeType(ScalarAttributeType.S)
                        .build())
                .keySchema(
                    KeySchemaElement.builder()
                        .attributeName("Artist")
                        .keyType(KeyType.HASH)
                        .build(),
                    KeySchemaElement.builder()
                        .attributeName("SongTitle")
                        .keyType(KeyType.RANGE)
                        .build())
                .billingMode(BillingMode.PAY_PER_REQUEST)
                .globalSecondaryIndexes(GlobalSecondaryIndex.builder()
                    .indexName(indexName)
                    .keySchema(KeySchemaElement.builder()
                        .attributeName("SongTitle")
                        .keyType(KeyType.HASH)
                        .build())
                    .projection(
                        Projection.builder().projectionType(ProjectionType.ALL).build())
                    .build())
                .streamSpecification(StreamSpecification.builder()
                    .streamEnabled(true)
                    .streamViewType(StreamViewType.NEW_AND_OLD_IMAGES)
                    .build())
                .build();

            CreateTableResponse response = dynamoDbClient.createTable(createTableRequest);
            LOGGER.info("Table creation initiated. Status: "
                + response.tableDescription().tableStatus());

            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to create table: " + tableName + " - " + e.getMessage());
            throw e;
        }
    }
```
Tunggu tabel menjadi aktif menggunakan AWS SDK for Java 2.x.  

```
    public static void waitForTableActive(final DynamoDbClient dynamoDbClient, final String tableName) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }

        try {
            LOGGER.info("Waiting for table to become active: " + tableName);

            try (DynamoDbWaiter waiter =
                DynamoDbWaiter.builder().client(dynamoDbClient).build()) {
                DescribeTableRequest request =
                    DescribeTableRequest.builder().tableName(tableName).build();

                waiter.waitUntilTableExists(request);
                LOGGER.info("Table is now active: " + tableName);
            }

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to wait for table to become active: " + tableName + " - " + e.getMessage());
            throw e;
        }
    }
```
Tambahkan replika untuk membuat atau memperluas tabel global menggunakan AWS SDK for Java 2.x.  

```
    public static UpdateTableResponse addReplica(
        final DynamoDbClient dynamoDbClient,
        final String tableName,
        final Region replicaRegion,
        final String indexName,
        final Long readCapacity) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (replicaRegion == null) {
            throw new IllegalArgumentException("Replica region cannot be null");
        }
        if (indexName == null || indexName.trim().isEmpty()) {
            throw new IllegalArgumentException("Index name cannot be null or empty");
        }
        if (readCapacity == null || readCapacity <= 0) {
            throw new IllegalArgumentException("Read capacity must be a positive number");
        }

        try {
            LOGGER.info("Adding replica in region: " + replicaRegion.id() + " for table: " + tableName);

            // Create a ReplicationGroupUpdate for adding a replica
            ReplicationGroupUpdate replicationGroupUpdate = ReplicationGroupUpdate.builder()
                .create(builder -> builder.regionName(replicaRegion.id())
                    .globalSecondaryIndexes(ReplicaGlobalSecondaryIndex.builder()
                        .indexName(indexName)
                        .provisionedThroughputOverride(ProvisionedThroughputOverride.builder()
                            .readCapacityUnits(readCapacity)
                            .build())
                        .build())
                    .build())
                .build();

            UpdateTableRequest updateTableRequest = UpdateTableRequest.builder()
                .tableName(tableName)
                .replicaUpdates(replicationGroupUpdate)
                .build();

            UpdateTableResponse response = dynamoDbClient.updateTable(updateTableRequest);
            LOGGER.info("Replica addition initiated in region: " + replicaRegion.id());

            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to add replica in region: " + replicaRegion.id() + " - " + e.getMessage());
            throw e;
        }
    }
```
Hapus replika dari tabel global menggunakan AWS SDK for Java 2.x.  

```
    public static UpdateTableResponse removeReplica(
        final DynamoDbClient dynamoDbClient, final String tableName, final Region replicaRegion) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (replicaRegion == null) {
            throw new IllegalArgumentException("Replica region cannot be null");
        }

        try {
            LOGGER.info("Removing replica in region: " + replicaRegion.id() + " for table: " + tableName);

            // Create a ReplicationGroupUpdate for removing a replica
            ReplicationGroupUpdate replicationGroupUpdate = ReplicationGroupUpdate.builder()
                .delete(builder -> builder.regionName(replicaRegion.id()).build())
                .build();

            UpdateTableRequest updateTableRequest = UpdateTableRequest.builder()
                .tableName(tableName)
                .replicaUpdates(replicationGroupUpdate)
                .build();

            UpdateTableResponse response = dynamoDbClient.updateTable(updateTableRequest);
            LOGGER.info("Replica removal initiated in region: " + replicaRegion.id());

            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to remove replica in region: " + replicaRegion.id() + " - " + e.getMessage());
            throw e;
        }
    }
```
Tambahkan item pengujian untuk memverifikasi replikasi menggunakan AWS SDK for Java 2.x.  

```
    public static PutItemResponse putTestItem(
        final DynamoDbClient dynamoDbClient, final String tableName, final String artist, final String songTitle) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }
        if (artist == null || artist.trim().isEmpty()) {
            throw new IllegalArgumentException("Artist cannot be null or empty");
        }
        if (songTitle == null || songTitle.trim().isEmpty()) {
            throw new IllegalArgumentException("Song title cannot be null or empty");
        }

        try {
            LOGGER.info("Adding test item to table: " + tableName);

            Map<String, software.amazon.awssdk.services.dynamodb.model.AttributeValue> item = new HashMap<>();
            item.put(
                "Artist",
                software.amazon.awssdk.services.dynamodb.model.AttributeValue.builder()
                    .s(artist)
                    .build());
            item.put(
                "SongTitle",
                software.amazon.awssdk.services.dynamodb.model.AttributeValue.builder()
                    .s(songTitle)
                    .build());

            PutItemRequest putItemRequest =
                PutItemRequest.builder().tableName(tableName).item(item).build();

            PutItemResponse response = dynamoDbClient.putItem(putItemRequest);
            LOGGER.info("Test item added successfully");

            return response;

        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to add test item to table: " + tableName + " - " + e.getMessage());
            throw e;
        }
    }
```
Jelaskan konfigurasi tabel global dan replika menggunakan AWS SDK for Java 2.x.  

```
    public static DescribeTableResponse describeTable(final DynamoDbClient dynamoDbClient, final String tableName) {

        if (dynamoDbClient == null) {
            throw new IllegalArgumentException("DynamoDB client cannot be null");
        }
        if (tableName == null || tableName.trim().isEmpty()) {
            throw new IllegalArgumentException("Table name cannot be null or empty");
        }

        try {
            LOGGER.info("Describing table: " + tableName);

            DescribeTableRequest request =
                DescribeTableRequest.builder().tableName(tableName).build();

            DescribeTableResponse response = dynamoDbClient.describeTable(request);

            LOGGER.info("Table status: " + response.table().tableStatus());
            if (response.table().replicas() != null
                && !response.table().replicas().isEmpty()) {
                LOGGER.info("Number of replicas: " + response.table().replicas().size());
                response.table()
                    .replicas()
                    .forEach(replica -> LOGGER.info(
                        "Replica region: " + replica.regionName() + ", Status: " + replica.replicaStatus()));
            }

            return response;

        } catch (ResourceNotFoundException e) {
            LOGGER.severe("Table not found: " + tableName + " - " + e.getMessage());
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.severe("Failed to describe table: " + tableName + " - " + e.getMessage());
            throw e;
        }
    }
```
Contoh lengkap operasi tabel global menggunakan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(final Region sourceRegion, final Region replicaRegion) {

        String tableName = "Music";
        String indexName = "SongTitleIndex";
        Long readCapacity = 15L;

        // Create DynamoDB client for the source region
        try (DynamoDbClient dynamoDbClient =
            DynamoDbClient.builder().region(sourceRegion).build()) {

            try {
                // Step 1: Create the initial table with GSI and streams
                LOGGER.info("Step 1: Creating table in source region: " + sourceRegion.id());
                createTableWithGSI(dynamoDbClient, tableName, indexName);

                // Step 2: Wait for table to become active
                LOGGER.info("Step 2: Waiting for table to become active");
                waitForTableActive(dynamoDbClient, tableName);

                // Step 3: Add replica in destination region
                LOGGER.info("Step 3: Adding replica in region: " + replicaRegion.id());
                addReplica(dynamoDbClient, tableName, replicaRegion, indexName, readCapacity);

                // Step 4: Wait a moment for replica creation to start
                Thread.sleep(5000);

                // Step 5: Describe table to view replica information
                LOGGER.info("Step 5: Describing table to view replicas");
                describeTable(dynamoDbClient, tableName);

                // Step 6: Add a test item to verify replication
                LOGGER.info("Step 6: Adding test item to verify replication");
                putTestItem(dynamoDbClient, tableName, "TestArtist", "TestSong");

                LOGGER.info("Global table setup completed successfully!");
                LOGGER.info("You can verify replication by checking the item in region: " + replicaRegion.id());

                // Step 7: Remove replica and clean up table
                LOGGER.info("Step 7: Removing replica from region: " + replicaRegion.id());
                removeReplica(dynamoDbClient, tableName, replicaRegion);
                DeleteTableResponse deleteTableResponse = dynamoDbClient.deleteTable(
                    DeleteTableRequest.builder().tableName(tableName).build());
                LOGGER.info("MREC global table demonstration completed successfully!");

            } catch (InterruptedException e) {
                Thread.currentThread().interrupt();
                throw new RuntimeException("Thread was interrupted", e);
            } catch (DynamoDbException e) {
                LOGGER.severe("DynamoDB operation failed: " + e.getMessage());
                throw e;
            }
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/CreateTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DescribeTable)
  + [PutItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/PutItem)
  + [UpdateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateTable)

### Mendeteksi APD dalam gambar
<a name="cross_RekognitionPhotoAnalyzerPPE_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi Alat Pelindung Diri (APD) dalam gambar.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat AWS Lambda fungsi yang mendeteksi gambar dengan Alat Pelindung Diri.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lambda_ppe).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Pantau kinerja DynamoDB
<a name="cross_MonitorDynamoDB_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengkonfigurasi penggunaan aplikasi DynamoDB untuk memantau kinerja.

**SDK untuk Java 2.x**  
 Contoh ini menunjukkan cara mengkonfigurasi aplikasi Java untuk memantau kinerja DynamoDB. Aplikasi mengirimkan data metrik ke CloudWatch tempat Anda dapat memantau kinerja.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/monitor_dynamodb).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch
+ DynamoDB

### Lakukan operasi kueri lanjutan
<a name="dynamodb_Scenario_AdvancedQueryTechniques_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi query lanjutan di DynamoDB.
+ Tabel kueri menggunakan berbagai teknik penyaringan dan kondisi.
+ Menerapkan pagination untuk set hasil besar.
+ Gunakan Global Secondary Indexes untuk pola akses alternatif.
+ Menerapkan kontrol konsistensi berdasarkan persyaratan aplikasi.

**SDK untuk Java 2.x**  
Kueri dengan pembacaan yang sangat konsisten menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithConsistentReads(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final boolean useConsistentRead) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .consistentRead(useConsistentRead)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            LOGGER.log(Level.INFO, "Query successful. Found {0} items", response.count());
            return response;
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found: {0}", tableName);
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "Error querying with consistent reads", e);
            throw e;
        }
    }
```
Kueri menggunakan Indeks Sekunder Global dengan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;

    public QueryResponse queryTable(
        final String tableName, final String partitionKeyName, final String partitionKeyValue) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            System.out.println("Query on base table successful. Found " + response.count() + " items");
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format("Error: The Amazon DynamoDB table \"%s\" can't be found.\n", tableName);
            throw new DynamoDbQueryException("Table not found: " + tableName, e);
        } catch (DynamoDbException e) {
            System.err.println("Error querying base table: " + e.getMessage());
            throw new DynamoDbQueryException("Failed to execute query on base table", e);
        }
    }

    /**
     * Queries a DynamoDB Global Secondary Index (GSI) by partition key.
     *
     * @param tableName         The name of the DynamoDB table
     * @param indexName         The name of the GSI
     * @param partitionKeyName  The name of the GSI partition key attribute
     * @param partitionKeyValue The value of the GSI partition key to query
     * @return The query response from DynamoDB
     * @throws ResourceNotFoundException if the table or index doesn't exist
     * @throws DynamoDbException if the query fails
     */
    public QueryResponse queryGlobalSecondaryIndex(
        final String tableName, final String indexName, final String partitionKeyName, final String partitionKeyValue) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Index name", indexName);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_IK, partitionKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_IK,
            AttributeValue.builder().s(partitionKeyValue).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .indexName(indexName)
            .keyConditionExpression(GSI_KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            System.out.println("Query on GSI successful. Found " + response.count() + " items");
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format(
                "Error: The Amazon DynamoDB table \"%s\" or index \"%s\" can't be found.\n", tableName, indexName);
            throw new DynamoDbQueryException("Table or index not found: " + tableName + "/" + indexName, e);
        } catch (DynamoDbException e) {
            System.err.println("Error querying GSI: " + e.getMessage());
            throw new DynamoDbQueryException("Failed to execute query on GSI", e);
        }
    }
```
Kueri dengan pagination menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

    public List<Map<String, AttributeValue>> queryWithPagination(
        final String tableName, final String partitionKeyName, final String partitionKeyValue, final int pageSize) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validatePositiveInteger("Page size", pageSize);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());

        // Create the query request
        QueryRequest.Builder queryRequestBuilder = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .limit(pageSize);

        // List to store all items from all pages
        final List<Map<String, AttributeValue>> allItems = new ArrayList<>();

        // Map to store the last evaluated key for pagination
        Map<String, AttributeValue> lastEvaluatedKey = null;
        int pageNumber = 1;

        try {
            do {
                // If we have a last evaluated key, use it for the next page
                if (lastEvaluatedKey != null) {
                    queryRequestBuilder.exclusiveStartKey(lastEvaluatedKey);
                }

                // Execute the query
                final QueryResponse response = dynamoDbClient.query(queryRequestBuilder.build());

                // Process the current page of results
                final List<Map<String, AttributeValue>> pageItems = response.items();
                allItems.addAll(pageItems);

                // Get the last evaluated key for the next page
                lastEvaluatedKey = response.lastEvaluatedKey();
                if (lastEvaluatedKey != null && lastEvaluatedKey.isEmpty()) {
                    lastEvaluatedKey = null;
                }

                System.out.println("Page " + pageNumber + ": Retrieved " + pageItems.size() + " items (Running total: "
                    + allItems.size() + ")");

                pageNumber++;

            } while (lastEvaluatedKey != null);

            System.out.println("Query with pagination complete. Retrieved a total of " + allItems.size()
                + " items across " + (pageNumber - 1) + " pages");

            return allItems;
        } catch (ResourceNotFoundException e) {
            System.err.format("Error: The Amazon DynamoDB table \"%s\" can't be found.\n", tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println("Error querying with pagination: " + e.getMessage());
            throw e;
        }
    }
```
Kueri dengan filter kompleks menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithComplexFilter(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String statusAttrName,
        final String activeStatus,
        final String pendingStatus,
        final String priceAttrName,
        final double minPrice,
        final double maxPrice,
        final String categoryAttrName) {

        // Validate parameters
        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Status attribute name", statusAttrName);
        CodeSampleUtils.validateStringParameter("Active status", activeStatus);
        CodeSampleUtils.validateStringParameter("Pending status", pendingStatus);
        CodeSampleUtils.validateStringParameter("Price attribute name", priceAttrName);
        CodeSampleUtils.validateStringParameter("Category attribute name", categoryAttrName);
        CodeSampleUtils.validateNumericRange("Minimum price", minPrice, 0.0, Double.MAX_VALUE);
        CodeSampleUtils.validateNumericRange("Maximum price", maxPrice, minPrice, Double.MAX_VALUE);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put("#pk", partitionKeyName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_STATUS, statusAttrName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PRICE, priceAttrName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_CATEGORY, categoryAttrName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            ":pkValue", AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_ACTIVE,
            AttributeValue.builder().s(activeStatus).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PENDING,
            AttributeValue.builder().s(pendingStatus).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_MIN_PRICE,
            AttributeValue.builder().n(String.valueOf(minPrice)).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_MAX_PRICE,
            AttributeValue.builder().n(String.valueOf(maxPrice)).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .filterExpression(FILTER_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        return dynamoDbClient.query(queryRequest);
    }
```
Kueri dengan ekspresi filter yang dibangun secara dinamis menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;

    public static QueryResponse queryWithDynamicFilter(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final Map<String, Object> filterCriteria,
        final Region region,
        final DynamoDbClient dynamoDbClient) {

        validateParameters(tableName, partitionKeyName, partitionKeyValue, filterCriteria);

        DynamoDbClient ddbClient = dynamoDbClient;
        boolean shouldClose = false;

        try {
            if (ddbClient == null) {
                ddbClient = createClient(region);
                shouldClose = true;
            }

            final QueryWithDynamicFilter queryHelper = new QueryWithDynamicFilter(ddbClient);
            return queryHelper.queryWithDynamicFilter(tableName, partitionKeyName, partitionKeyValue, filterCriteria);
        } catch (ResourceNotFoundException e) {
            System.err.println("Table not found: " + tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println("Failed to execute dynamic filter query: " + e.getMessage());
            throw e;
        } catch (Exception e) {
            System.err.println("Unexpected error during query: " + e.getMessage());
            throw e;
        } finally {
            if (shouldClose && ddbClient != null) {
                ddbClient.close();
            }
        }
    }

    public static void main(String[] args) {
        final String usage =
            """
                Usage:
                    <tableName> <partitionKeyName> <partitionKeyValue> <filterAttrName> <filterAttrValue> [region]
                Where:
                    tableName - The Amazon DynamoDB table to query.
                    partitionKeyName - The name of the partition key attribute.
                    partitionKeyValue - The value of the partition key to query.
                    filterAttrName - The name of the attribute to filter on.
                    filterAttrValue - The value to filter by.
                    region (optional) - The AWS region where the table exists. (Default: us-east-1)
                """;

        if (args.length < 5) {
            System.out.println(usage);
            System.exit(1);
        }

        final String tableName = args[0];
        final String partitionKeyName = args[1];
        final String partitionKeyValue = args[2];
        final String filterAttrName = args[3];
        final String filterAttrValue = args[4];
        final Region region = args.length > 5 ? Region.of(args[5]) : Region.US_EAST_1;

        System.out.println("Querying items with dynamic filter: " + filterAttrName + " = " + filterAttrValue);

        try {
            // Using the builder pattern to create and execute the query
            final QueryResponse response = new DynamicFilterQueryBuilder()
                .withTableName(tableName)
                .withPartitionKeyName(partitionKeyName)
                .withPartitionKeyValue(partitionKeyValue)
                .withFilterCriterion(filterAttrName, filterAttrValue)
                .withRegion(region)
                .execute();

            // Process the results
            System.out.println("Found " + response.count() + " items:");
            response.items().forEach(item -> System.out.println(item));

            // Demonstrate multiple filter criteria
            System.out.println("\nNow querying with multiple filter criteria:");

            Map<String, Object> multipleFilters = new HashMap<>();
            multipleFilters.put(filterAttrName, filterAttrValue);
            multipleFilters.put("status", "active");

            final QueryResponse multiFilterResponse = new DynamicFilterQueryBuilder()
                .withTableName(tableName)
                .withPartitionKeyName(partitionKeyName)
                .withPartitionKeyValue(partitionKeyValue)
                .withFilterCriteria(multipleFilters)
                .withRegion(region)
                .execute();

            System.out.println("Found " + multiFilterResponse.count() + " items with multiple filters:");
            multiFilterResponse.items().forEach(item -> System.out.println(item));

        } catch (IllegalArgumentException e) {
            System.err.println("Invalid input: " + e.getMessage());
            System.exit(1);
        } catch (ResourceNotFoundException e) {
            System.err.println("Table not found: " + tableName);
            System.exit(1);
        } catch (DynamoDbException e) {
            System.err.println("DynamoDB error: " + e.getMessage());
            System.exit(1);
        } catch (Exception e) {
            System.err.println("Unexpected error: " + e.getMessage());
            System.exit(1);
        }
    }
```
Kueri dengan ekspresi filter dan batas penggunaan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithFilterAndLimit(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String filterAttrName,
        final String filterAttrValue,
        final int limit) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Filter attribute name", filterAttrName);
        CodeSampleUtils.validateStringParameter("Filter attribute value", filterAttrValue);
        CodeSampleUtils.validatePositiveInteger("Limit", limit);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_FILTER, filterAttrName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_FILTER,
            AttributeValue.builder().s(filterAttrValue).build());

        // Create the filter expression
        final String filterExpression = "#filterAttr = :filterValue";

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .filterExpression(filterExpression)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .limit(limit)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            LOGGER.log(Level.INFO, "Query with filter and limit successful. Found {0} items", response.count());
            LOGGER.log(
                Level.INFO, "ScannedCount: {0} (total items evaluated before filtering)", response.scannedCount());
            return response;
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found: {0}", tableName);
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "Error querying with filter and limit: {0}", e.getMessage());
            throw e;
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Lakukan operasi daftar
<a name="dynamodb_Scenario_ListOperations_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi daftar di DynamoDB.
+ Tambahkan elemen ke atribut daftar.
+ Hapus elemen dari atribut daftar.
+ Perbarui elemen tertentu dalam daftar berdasarkan indeks.
+ Gunakan fungsi daftar append dan daftar indeks.

**SDK untuk Java 2.x**  
Menunjukkan operasi daftar menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.GetItemRequest;
import software.amazon.awssdk.services.dynamodb.model.GetItemResponse;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

    /**
     * Appends items to a list attribute.
     *
     * <p>This method demonstrates how to use the list_append function to add
     * items to the end of a list attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param listAttributeName The name of the list attribute
     * @param itemsToAppend The items to append to the list
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse appendToList(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String listAttributeName,
        List<AttributeValue> itemsToAppend) {

        // Create a list value from the items to append
        AttributeValue listValue = AttributeValue.builder().l(itemsToAppend).build();

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #attrName = list_append(if_not_exists(#attrName, :emptyList), :newItems)")
            .expressionAttributeNames(Map.of("#attrName", listAttributeName))
            .expressionAttributeValues(Map.of(
                ":newItems",
                listValue,
                ":emptyList",
                AttributeValue.builder().l(new ArrayList<AttributeValue>()).build()))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Prepends items to a list attribute.
     *
     * <p>This method demonstrates how to use the list_append function to add
     * items to the beginning of a list attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param listAttributeName The name of the list attribute
     * @param itemsToPrepend The items to prepend to the list
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse prependToList(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String listAttributeName,
        List<AttributeValue> itemsToPrepend) {

        // Create a list value from the items to prepend
        AttributeValue listValue = AttributeValue.builder().l(itemsToPrepend).build();

        // Define the update parameters
        // Note: To prepend, we put the new items first in the list_append function
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #attrName = list_append(:newItems, if_not_exists(#attrName, :emptyList))")
            .expressionAttributeNames(Map.of("#attrName", listAttributeName))
            .expressionAttributeValues(Map.of(
                ":newItems",
                listValue,
                ":emptyList",
                AttributeValue.builder().l(new ArrayList<AttributeValue>()).build()))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Updates a specific element in a list attribute.
     *
     * <p>This method demonstrates how to update a specific element in a list
     * by its index.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param listAttributeName The name of the list attribute
     * @param index The index of the element to update
     * @param newValue The new value for the element
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse updateListElement(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String listAttributeName,
        int index,
        AttributeValue newValue) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #attrName[" + index + "] = :newValue")
            .expressionAttributeNames(Map.of("#attrName", listAttributeName))
            .expressionAttributeValues(Map.of(":newValue", newValue))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Removes a specific element from a list attribute.
     *
     * <p>This method demonstrates how to remove a specific element from a list
     * by its index.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param listAttributeName The name of the list attribute
     * @param index The index of the element to remove
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse removeListElement(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String listAttributeName,
        int index) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("REMOVE #attrName[" + index + "]")
            .expressionAttributeNames(Map.of("#attrName", listAttributeName))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Gets the current value of a list attribute.
     *
     * <p>Helper method to retrieve the current value of a list attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to get
     * @param listAttributeName The name of the list attribute
     * @return The list attribute value or null if not found
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static List<AttributeValue> getListAttribute(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key, String listAttributeName) {

        // Define the get parameters
        GetItemRequest request = GetItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .projectionExpression(listAttributeName)
            .build();

        try {
            // Perform the get operation
            GetItemResponse response = dynamoDbClient.getItem(request);

            // Return the list attribute if it exists, otherwise null
            if (response.item() != null && response.item().containsKey(listAttributeName)) {
                return response.item().get(listAttributeName).l();
            }

            return null;
        } catch (DynamoDbException e) {
            throw DynamoDbException.builder()
                .message("Failed to get list attribute: " + e.getMessage())
                .cause(e)
                .build();
        }
    }
```
Contoh penggunaan operasi daftar dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        // Example key
        Map<String, AttributeValue> key = new HashMap<>();
        key.put("ProductId", AttributeValue.builder().s("P12345").build());

        System.out.println("Demonstrating list operations in DynamoDB");

        try {
            // Example 1: Append items to a list
            System.out.println("\nExample 1: Appending items to a list");
            List<AttributeValue> tagsToAppend = List.of(
                AttributeValue.builder().s("Electronics").build(),
                AttributeValue.builder().s("Gadget").build());

            UpdateItemResponse appendResponse = appendToList(dynamoDbClient, tableName, key, "Tags", tagsToAppend);

            System.out.println("Updated list attribute: " + appendResponse.attributes());

            // Example 2: Prepend items to a list
            System.out.println("\nExample 2: Prepending items to a list");
            List<AttributeValue> tagsToPrepend = List.of(
                AttributeValue.builder().s("Featured").build(),
                AttributeValue.builder().s("New").build());

            UpdateItemResponse prependResponse = prependToList(dynamoDbClient, tableName, key, "Tags", tagsToPrepend);

            System.out.println("Updated list attribute: " + prependResponse.attributes());

            // Example 3: Update a specific element in a list
            System.out.println("\nExample 3: Updating a specific element in a list");
            UpdateItemResponse updateResponse = updateListElement(
                dynamoDbClient,
                tableName,
                key,
                "Tags",
                0,
                AttributeValue.builder().s("BestSeller").build());

            System.out.println("Updated list attribute: " + updateResponse.attributes());

            // Example 4: Remove a specific element from a list
            System.out.println("\nExample 4: Removing a specific element from a list");
            UpdateItemResponse removeResponse = removeListElement(dynamoDbClient, tableName, key, "Tags", 1);

            System.out.println("Updated list attribute: " + removeResponse.attributes());

            // Example 5: Get the current value of a list attribute
            System.out.println("\nExample 5: Getting the current value of a list attribute");
            List<AttributeValue> currentList = getListAttribute(dynamoDbClient, tableName, key, "Tags");

            if (currentList != null) {
                System.out.println("Current list attribute:");
                for (int i = 0; i < currentList.size(); i++) {
                    System.out.println("  [" + i + "]: " + currentList.get(i).s());
                }
            } else {
                System.out.println("List attribute not found");
            }

            // Explain list operations
            System.out.println("\nKey points about DynamoDB list operations:");
            System.out.println("1. Lists are ordered collections of attributes");
            System.out.println("2. Use list_append to add items to a list");
            System.out.println("3. To append items, use list_append(existingList, newItems)");
            System.out.println("4. To prepend items, use list_append(newItems, existingList)");
            System.out.println("5. Use index notation (list[0]) to access or update specific elements");
            System.out.println("6. Use REMOVE to delete elements from a list");
            System.out.println("7. List indices are zero-based");
            System.out.println("8. Use if_not_exists to handle the case where the list doesn't exist yet");

        } catch (DynamoDbException e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### Lakukan operasi peta
<a name="dynamodb_Scenario_MapOperations_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi peta di DynamoDB.
+ Tambahkan dan perbarui atribut bersarang dalam struktur peta.
+ Hapus bidang tertentu dari peta.
+ Bekerja dengan atribut peta yang sangat bersarang.

**SDK untuk Java 2.x**  
Menunjukkan operasi peta menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.GetItemRequest;
import software.amazon.awssdk.services.dynamodb.model.GetItemResponse;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.HashMap;
import java.util.List;
import java.util.Map;

    /**
     * Updates a map attribute that may not exist.
     *
     * <p>This method demonstrates how to safely update a map attribute
     * by using if_not_exists to handle the case where the map doesn't exist yet.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param mapName The name of the map attribute
     * @param mapKey The key within the map to update
     * @param value The value to set
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse updateMapAttributeSafe(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String mapName,
        String mapKey,
        AttributeValue value) {

        // Create an empty map to use if the map doesn't exist
        Map<String, AttributeValue> emptyMap = new HashMap<>();
        AttributeValue emptyMapValue = AttributeValue.builder().m(emptyMap).build();

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #mapName = if_not_exists(#mapName, :emptyMap), #mapName.#mapKey = :value")
            .expressionAttributeNames(Map.of(
                "#mapName", mapName,
                "#mapKey", mapKey))
            .expressionAttributeValues(Map.of(
                ":value",
                value,
                ":emptyMap",
                AttributeValue.builder().m(new HashMap<>()).build()))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Adds an attribute to a nested map.
     *
     * <p>This method demonstrates how to update a nested attribute without
     * overwriting the entire map.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param path The path to the nested attribute as a list
     * @param value The value to set
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse addToNestedMap(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        List<String> path,
        AttributeValue value) {

        // Create expression attribute names for each part of the path
        Map<String, String> expressionAttributeNames = new HashMap<>();
        for (int i = 0; i < path.size(); i++) {
            expressionAttributeNames.put("#attr" + i, path.get(i));
        }

        // Build the attribute path using the expression attribute names
        StringBuilder attributePathExpression = new StringBuilder();
        for (int i = 0; i < path.size(); i++) {
            if (i > 0) {
                attributePathExpression.append(".");
            }
            attributePathExpression.append("#attr").append(i);
        }

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET " + attributePathExpression.toString() + " = :value")
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(Map.of(":value", value))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Removes an attribute from a map.
     *
     * <p>This method demonstrates how to remove a specific attribute from a map.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param mapName The name of the map attribute
     * @param mapKey The key within the map to remove
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse removeMapAttribute(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String mapName,
        String mapKey) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("REMOVE #mapName.#mapKey")
            .expressionAttributeNames(Map.of(
                "#mapName", mapName,
                "#mapKey", mapKey))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Creates a map with multiple attributes in a single operation.
     *
     * <p>This method demonstrates how to create a map with multiple attributes
     * in a single update operation.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param mapName The name of the map attribute
     * @param attributes The attributes to set in the map
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse createMapWithAttributes(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String mapName,
        Map<String, AttributeValue> attributes) {

        // Create a map value from the attributes
        AttributeValue mapValue = AttributeValue.builder().m(attributes).build();

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #mapName = :mapValue")
            .expressionAttributeNames(Map.of("#mapName", mapName))
            .expressionAttributeValues(Map.of(":mapValue", mapValue))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Gets the current value of a map attribute.
     *
     * <p>Helper method to retrieve the current value of a map attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to get
     * @param mapName The name of the map attribute
     * @return The map attribute value or null if not found
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static Map<String, AttributeValue> getMapAttribute(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key, String mapName) {

        // Define the get parameters
        GetItemRequest request = GetItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .projectionExpression(mapName)
            .build();

        try {
            // Perform the get operation
            GetItemResponse response = dynamoDbClient.getItem(request);

            // Return the map attribute if it exists, otherwise null
            if (response.item() != null && response.item().containsKey(mapName)) {
                return response.item().get(mapName).m();
            }

            return null;
        } catch (DynamoDbException e) {
            throw DynamoDbException.builder()
                .message("Failed to get map attribute: " + e.getMessage())
                .cause(e)
                .build();
        }
    }
```
Contoh penggunaan operasi peta dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        // Example key
        Map<String, AttributeValue> key = new HashMap<>();
        key.put("ProductId", AttributeValue.builder().s("P12345").build());

        System.out.println("Demonstrating map operations in DynamoDB");

        try {
            // Example 1: Create a map with multiple attributes
            System.out.println("\nExample 1: Creating a map with multiple attributes");
            Map<String, AttributeValue> productDetails = new HashMap<>();
            productDetails.put("Color", AttributeValue.builder().s("Red").build());
            productDetails.put("Weight", AttributeValue.builder().n("2.5").build());
            productDetails.put(
                "Dimensions", AttributeValue.builder().s("10x20x5").build());

            UpdateItemResponse createResponse =
                createMapWithAttributes(dynamoDbClient, tableName, key, "Details", productDetails);

            System.out.println("Created map attribute: " + createResponse.attributes());

            // Example 2: Update a specific attribute in a map
            System.out.println("\nExample 2: Updating a specific attribute in a map");
            UpdateItemResponse updateResponse = updateMapAttributeSafe(
                dynamoDbClient,
                tableName,
                key,
                "Details",
                "Color",
                AttributeValue.builder().s("Blue").build());

            System.out.println("Updated map attribute: " + updateResponse.attributes());

            // Example 3: Add an attribute to a nested map
            System.out.println("\nExample 3: Adding an attribute to a nested map");
            UpdateItemResponse nestedResponse = addToNestedMap(
                dynamoDbClient,
                tableName,
                key,
                List.of("Specifications", "Technical", "Resolution"),
                AttributeValue.builder().s("1920x1080").build());

            System.out.println("Added to nested map: " + nestedResponse.attributes());

            // Example 4: Remove an attribute from a map
            System.out.println("\nExample 4: Removing an attribute from a map");
            UpdateItemResponse removeResponse =
                removeMapAttribute(dynamoDbClient, tableName, key, "Details", "Dimensions");

            System.out.println("Updated map after removal: " + removeResponse.attributes());

            // Example 5: Get the current value of a map attribute
            System.out.println("\nExample 5: Getting the current value of a map attribute");
            Map<String, AttributeValue> currentMap = getMapAttribute(dynamoDbClient, tableName, key, "Details");

            if (currentMap != null) {
                System.out.println("Current map attribute:");
                for (Map.Entry<String, AttributeValue> entry : currentMap.entrySet()) {
                    System.out.println("  " + entry.getKey() + ": " + entry.getValue());
                }
            } else {
                System.out.println("Map attribute not found");
            }

            // Explain map operations
            System.out.println("\nKey points about DynamoDB map operations:");
            System.out.println("1. Maps are unordered collections of name-value pairs");
            System.out.println("2. Use dot notation (map.key) to access or update specific attributes");
            System.out.println("3. You can update individual attributes without overwriting the entire map");
            System.out.println("4. Maps can be nested to create complex data structures");
            System.out.println("5. Use REMOVE to delete attributes from a map");
            System.out.println("6. You can create a map with multiple attributes in a single operation");
            System.out.println("7. Map keys are case-sensitive");

        } catch (DynamoDbException e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### Lakukan operasi set
<a name="dynamodb_Scenario_SetOperations_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi set di DynamoDB.
+ Tambahkan elemen ke atribut set.
+ Hapus elemen dari atribut set.
+ Gunakan operasi ADD dan DELETE dengan set.

**SDK untuk Java 2.x**  
Menunjukkan operasi set menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.GetItemRequest;
import software.amazon.awssdk.services.dynamodb.model.GetItemResponse;
import software.amazon.awssdk.services.dynamodb.model.ReturnValue;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;

    /**
     * Adds values to a string set attribute.
     *
     * <p>This method demonstrates how to use the ADD operation to add values
     * to a string set attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param setAttributeName The name of the set attribute
     * @param valuesToAdd The values to add to the set
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse addToStringSet(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String setAttributeName,
        Set<String> valuesToAdd) {

        // Create a string set value from the values to add
        AttributeValue setValue = AttributeValue.builder().ss(valuesToAdd).build();

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("ADD #setAttr :valuesToAdd")
            .expressionAttributeNames(Map.of("#setAttr", setAttributeName))
            .expressionAttributeValues(Map.of(":valuesToAdd", setValue))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Adds values to a number set attribute.
     *
     * <p>This method demonstrates how to use the ADD operation to add values
     * to a number set attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param setAttributeName The name of the set attribute
     * @param valuesToAdd The values to add to the set
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse addToNumberSet(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String setAttributeName,
        Set<Number> valuesToAdd) {

        // Convert numbers to strings for DynamoDB
        Set<String> stringValues = new HashSet<>();
        for (Number value : valuesToAdd) {
            stringValues.add(value.toString());
        }

        // Create a number set value from the values to add
        AttributeValue setValue = AttributeValue.builder().ns(stringValues).build();

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("ADD #setAttr :valuesToAdd")
            .expressionAttributeNames(Map.of("#setAttr", setAttributeName))
            .expressionAttributeValues(Map.of(":valuesToAdd", setValue))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Removes values from a set attribute.
     *
     * <p>This method demonstrates how to use the DELETE operation to remove values
     * from a set attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param setAttributeName The name of the set attribute
     * @param valuesToRemove The values to remove from the set
     * @param isNumberSet Whether the set is a number set (true) or string set (false)
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse removeFromSet(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String setAttributeName,
        Set<?> valuesToRemove,
        boolean isNumberSet) {

        AttributeValue setValue;

        if (isNumberSet) {
            // Convert numbers to strings for DynamoDB
            Set<String> stringValues = new HashSet<>();
            for (Object value : valuesToRemove) {
                if (value instanceof Number) {
                    stringValues.add(value.toString());
                } else {
                    throw new IllegalArgumentException("Values must be numbers for a number set");
                }
            }

            setValue = AttributeValue.builder().ns(stringValues).build();
        } else {
            // Convert objects to strings for DynamoDB
            Set<String> stringValues = new HashSet<>();
            for (Object value : valuesToRemove) {
                stringValues.add(value.toString());
            }

            setValue = AttributeValue.builder().ss(stringValues).build();
        }

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("DELETE #setAttr :valuesToRemove")
            .expressionAttributeNames(Map.of("#setAttr", setAttributeName))
            .expressionAttributeValues(Map.of(":valuesToRemove", setValue))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Checks if a value exists in a set attribute.
     *
     * <p>This method demonstrates how to use the contains function to check
     * if a value exists in a set attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to check
     * @param setAttributeName The name of the set attribute
     * @param valueToCheck The value to check for
     * @return Map containing the result of the check
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static Map<String, Object> checkIfValueInSet(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String setAttributeName,
        String valueToCheck) {

        Map<String, Object> result = new HashMap<>();

        try {
            // Define the update parameters with a condition expression
            UpdateItemRequest request = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET #tempAttr = :tempVal")
                .conditionExpression("contains(#setAttr, :valueToCheck)")
                .expressionAttributeNames(Map.of("#setAttr", setAttributeName, "#tempAttr", "TempAttribute"))
                .expressionAttributeValues(Map.of(
                    ":valueToCheck", AttributeValue.builder().s(valueToCheck).build(),
                    ":tempVal", AttributeValue.builder().s("TempValue").build()))
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            // Attempt the update operation
            dynamoDbClient.updateItem(request);

            // If we get here, the condition was met
            result.put("exists", true);
            result.put("message", "Value '" + valueToCheck + "' exists in the set");

            // Clean up the temporary attribute
            UpdateItemRequest cleanupRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("REMOVE #tempAttr")
                .expressionAttributeNames(Map.of("#tempAttr", "TempAttribute"))
                .build();

            dynamoDbClient.updateItem(cleanupRequest);

        } catch (DynamoDbException e) {
            if (e.getMessage().contains("ConditionalCheckFailed")) {
                // The condition was not met
                result.put("exists", false);
                result.put("message", "Value '" + valueToCheck + "' does not exist in the set");
            } else {
                // Some other error occurred
                result.put("exists", false);
                result.put("message", "Error checking set: " + e.getMessage());
                result.put("error", e.getClass().getSimpleName());
            }
        }

        return result;
    }

    /**
     * Creates a set with multiple values in a single operation.
     *
     * <p>This method demonstrates how to create a set with multiple values
     * in a single update operation.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param setAttributeName The name of the set attribute
     * @param setValues The values to include in the set
     * @param isNumberSet Whether to create a number set (true) or string set (false)
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse createSetWithValues(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String setAttributeName,
        Set<?> setValues,
        boolean isNumberSet) {

        AttributeValue setValue;

        if (isNumberSet) {
            // Convert numbers to strings for DynamoDB
            Set<String> stringValues = new HashSet<>();
            for (Object value : setValues) {
                if (value instanceof Number) {
                    stringValues.add(value.toString());
                } else {
                    throw new IllegalArgumentException("Values must be numbers for a number set");
                }
            }

            setValue = AttributeValue.builder().ns(stringValues).build();
        } else {
            // Convert objects to strings for DynamoDB
            Set<String> stringValues = new HashSet<>();
            for (Object value : setValues) {
                stringValues.add(value.toString());
            }

            setValue = AttributeValue.builder().ss(stringValues).build();
        }

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #setAttr = :setValue")
            .expressionAttributeNames(Map.of("#setAttr", setAttributeName))
            .expressionAttributeValues(Map.of(":setValue", setValue))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Gets the current value of a set attribute.
     *
     * <p>Helper method to retrieve the current value of a set attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to get
     * @param setAttributeName The name of the set attribute
     * @return The set attribute value or null if not found
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static AttributeValue getSetAttribute(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key, String setAttributeName) {

        // Define the get parameters
        GetItemRequest request = GetItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .projectionExpression(setAttributeName)
            .build();

        try {
            // Perform the get operation
            GetItemResponse response = dynamoDbClient.getItem(request);

            // Return the set attribute if it exists, otherwise null
            if (response.item() != null && response.item().containsKey(setAttributeName)) {
                return response.item().get(setAttributeName);
            }

            return null;
        } catch (DynamoDbException e) {
            throw DynamoDbException.builder()
                .message("Failed to get set attribute: " + e.getMessage())
                .cause(e)
                .build();
        }
    }
```
Contoh penggunaan operasi set dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        // Example key
        Map<String, AttributeValue> key = new HashMap<>();
        key.put("ProductId", AttributeValue.builder().s("P12345").build());

        System.out.println("Demonstrating set operations in DynamoDB");

        try {
            // Example 1: Create a string set with multiple values
            System.out.println("\nExample 1: Creating a string set with multiple values");
            Set<String> tags = new HashSet<>();
            tags.add("Electronics");
            tags.add("Gadget");
            tags.add("Smartphone");

            UpdateItemResponse createResponse = createSetWithValues(
                dynamoDbClient, tableName, key, "Tags", tags, false // Not a number set
                );

            System.out.println("Created set attribute: " + createResponse.attributes());

            // Example 2: Add values to a string set
            System.out.println("\nExample 2: Adding values to a string set");
            Set<String> additionalTags = new HashSet<>();
            additionalTags.add("Mobile");
            additionalTags.add("Wireless");

            UpdateItemResponse addResponse = addToStringSet(dynamoDbClient, tableName, key, "Tags", additionalTags);

            System.out.println("Updated set attribute: " + addResponse.attributes());

            // Example 3: Create a number set with multiple values
            System.out.println("\nExample 3: Creating a number set with multiple values");
            Set<Number> ratings = new HashSet<>();
            ratings.add(4);
            ratings.add(5);
            ratings.add(4.5);

            UpdateItemResponse createNumberSetResponse = createSetWithValues(
                dynamoDbClient, tableName, key, "Ratings", ratings, true // Is a number set
                );

            System.out.println("Created number set attribute: " + createNumberSetResponse.attributes());

            // Example 4: Add values to a number set
            System.out.println("\nExample 4: Adding values to a number set");
            Set<Number> additionalRatings = new HashSet<>();
            additionalRatings.add(3.5);
            additionalRatings.add(4.2);

            UpdateItemResponse addNumberResponse =
                addToNumberSet(dynamoDbClient, tableName, key, "Ratings", additionalRatings);

            System.out.println("Updated number set attribute: " + addNumberResponse.attributes());

            // Example 5: Remove values from a set
            System.out.println("\nExample 5: Removing values from a set");
            Set<String> tagsToRemove = new HashSet<>();
            tagsToRemove.add("Gadget");

            UpdateItemResponse removeResponse = removeFromSet(
                dynamoDbClient, tableName, key, "Tags", tagsToRemove, false // Not a number set
                );

            System.out.println("Updated set after removal: " + removeResponse.attributes());

            // Example 6: Check if a value exists in a set
            System.out.println("\nExample 6: Checking if a value exists in a set");
            Map<String, Object> checkResult = checkIfValueInSet(dynamoDbClient, tableName, key, "Tags", "Electronics");

            System.out.println("Check result: " + checkResult.get("message"));

            // Example 7: Get the current value of a set attribute
            System.out.println("\nExample 7: Getting the current value of a set attribute");
            AttributeValue currentStringSet = getSetAttribute(dynamoDbClient, tableName, key, "Tags");

            if (currentStringSet != null && currentStringSet.ss() != null) {
                System.out.println("Current string set values: " + currentStringSet.ss());
            } else {
                System.out.println("String set attribute not found");
            }

            AttributeValue currentNumberSet = getSetAttribute(dynamoDbClient, tableName, key, "Ratings");

            if (currentNumberSet != null && currentNumberSet.ns() != null) {
                System.out.println("Current number set values: " + currentNumberSet.ns());
            } else {
                System.out.println("Number set attribute not found");
            }

            // Explain set operations
            System.out.println("\nKey points about DynamoDB set operations:");
            System.out.println(
                "1. DynamoDB supports three set types: string sets (SS), number sets (NS), and binary sets (BS)");
            System.out.println("2. Sets can only contain elements of the same type");
            System.out.println("3. Use ADD to add elements to a set");
            System.out.println("4. Use DELETE to remove elements from a set");
            System.out.println("5. Sets automatically remove duplicate values");
            System.out.println("6. Sets are unordered collections");
            System.out.println("7. Use the contains function to check if a value exists in a set");
            System.out.println("8. You can create a set with multiple values in a single operation");

        } catch (DynamoDbException e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 

```
public class ScenarioPartiQLBatch {
    public static void main(String[] args) throws IOException {
        String tableName = "MoviesPartiQBatch";
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
            .region(region)
            .build();

        System.out.println("Creating an Amazon DynamoDB table named " + tableName
            + " with a key named year and a sort key named title.");
        createTable(ddb, tableName);

        System.out.println("Adding multiple records into the " + tableName
            + " table using a batch command.");
        putRecordBatch(ddb);

        // Update multiple movies by using the BatchExecute statement.
        String title1 = "Star Wars";
        int year1 = 1977;
        String title2 = "Wizard of Oz";
        int year2 = 1939;

        System.out.println("Query two movies.");
        getBatch(ddb, tableName, title1, title2, year1, year2);

        System.out.println("Updating multiple records using a batch command.");
        updateTableItemBatch(ddb);

        System.out.println("Deleting multiple records using a batch command.");
        deleteItemBatch(ddb);

        System.out.println("Deleting the Amazon DynamoDB table.");
        deleteDynamoDBTable(ddb, tableName);
        ddb.close();
    }

    public static boolean getBatch(DynamoDbClient ddb, String tableName, String title1, String title2, int year1, int year2) {
        String getBatch = "SELECT * FROM " + tableName + " WHERE title = ? AND year = ?";

        List<BatchStatementRequest> statements = new ArrayList<>();
        statements.add(BatchStatementRequest.builder()
            .statement(getBatch)
            .parameters(AttributeValue.builder().s(title1).build(),
                AttributeValue.builder().n(String.valueOf(year1)).build())
            .build());
        statements.add(BatchStatementRequest.builder()
            .statement(getBatch)
            .parameters(AttributeValue.builder().s(title2).build(),
                AttributeValue.builder().n(String.valueOf(year2)).build())
            .build());

        BatchExecuteStatementRequest batchExecuteStatementRequest = BatchExecuteStatementRequest.builder()
            .statements(statements)
            .build();

        try {
            BatchExecuteStatementResponse response = ddb.batchExecuteStatement(batchExecuteStatementRequest);
            if (!response.responses().isEmpty()) {
                response.responses().forEach(r -> {
                    System.out.println(r.item().get("title") + "\\t" + r.item().get("year"));
                });
                return true;
            } else {
                System.out.println("Couldn't find either " + title1 + " or " + title2 + ".");
                return false;
            }
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            return false;
        }
    }

    public static void createTable(DynamoDbClient ddb, String tableName) {
        DynamoDbWaiter dbWaiter = ddb.waiter();
        ArrayList<AttributeDefinition> attributeDefinitions = new ArrayList<>();

        // Define attributes.
        attributeDefinitions.add(AttributeDefinition.builder()
            .attributeName("year")
            .attributeType("N")
            .build());

        attributeDefinitions.add(AttributeDefinition.builder()
            .attributeName("title")
            .attributeType("S")
            .build());

        ArrayList<KeySchemaElement> tableKey = new ArrayList<>();
        KeySchemaElement key = KeySchemaElement.builder()
            .attributeName("year")
            .keyType(KeyType.HASH)
            .build();

        KeySchemaElement key2 = KeySchemaElement.builder()
            .attributeName("title")
            .keyType(KeyType.RANGE) // Sort
            .build();

        // Add KeySchemaElement objects to the list.
        tableKey.add(key);
        tableKey.add(key2);

        CreateTableRequest request = CreateTableRequest.builder()
            .keySchema(tableKey)
            .billingMode(BillingMode.PAY_PER_REQUEST) //  DynamoDB automatically scales based on traffic.
            .attributeDefinitions(attributeDefinitions)
            .tableName(tableName)
            .build();

        try {
            CreateTableResponse response = ddb.createTable(request);
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                .tableName(tableName)
                .build();

            // Wait until the Amazon DynamoDB table is created.
            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter
                .waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            String newTable = response.tableDescription().tableName();
            System.out.println("The " + newTable + " was successfully created.");

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void putRecordBatch(DynamoDbClient ddb) {
        String sqlStatement = "INSERT INTO MoviesPartiQBatch VALUE {'year':?, 'title' : ?, 'info' : ?}";
        try {
            // Create three movies to add to the Amazon DynamoDB table.
            // Set data for Movie 1.
            List<AttributeValue> parameters = new ArrayList<>();

            AttributeValue att1 = AttributeValue.builder()
                .n("1977")
                .build();

            AttributeValue att2 = AttributeValue.builder()
                .s("Star Wars")
                .build();

            AttributeValue att3 = AttributeValue.builder()
                .s("No Information")
                .build();

            parameters.add(att1);
            parameters.add(att2);
            parameters.add(att3);

            BatchStatementRequest statementRequestMovie1 = BatchStatementRequest.builder()
                .statement(sqlStatement)
                .parameters(parameters)
                .build();

            // Set data for Movie 2.
            List<AttributeValue> parametersMovie2 = new ArrayList<>();
            AttributeValue attMovie2 = AttributeValue.builder()
                .n("1939")
                .build();

            AttributeValue attMovie2A = AttributeValue.builder()
                .s("Wizard of Oz")
                .build();

            AttributeValue attMovie2B = AttributeValue.builder()
                .s("No Information")
                .build();

            parametersMovie2.add(attMovie2);
            parametersMovie2.add(attMovie2A);
            parametersMovie2.add(attMovie2B);

            BatchStatementRequest statementRequestMovie2 = BatchStatementRequest.builder()
                .statement(sqlStatement)
                .parameters(parametersMovie2)
                .build();

            // Set data for Movie 3.
            List<AttributeValue> parametersMovie3 = new ArrayList<>();
            AttributeValue attMovie3 = AttributeValue.builder()
                .n(String.valueOf("2022"))
                .build();

            AttributeValue attMovie3A = AttributeValue.builder()
                .s("My Movie 3")
                .build();

            AttributeValue attMovie3B = AttributeValue.builder()
                .s("No Information")
                .build();

            parametersMovie3.add(attMovie3);
            parametersMovie3.add(attMovie3A);
            parametersMovie3.add(attMovie3B);

            BatchStatementRequest statementRequestMovie3 = BatchStatementRequest.builder()
                .statement(sqlStatement)
                .parameters(parametersMovie3)
                .build();

            // Add all three movies to the list.
            List<BatchStatementRequest> myBatchStatementList = new ArrayList<>();
            myBatchStatementList.add(statementRequestMovie1);
            myBatchStatementList.add(statementRequestMovie2);
            myBatchStatementList.add(statementRequestMovie3);

            BatchExecuteStatementRequest batchRequest = BatchExecuteStatementRequest.builder()
                .statements(myBatchStatementList)
                .build();

            BatchExecuteStatementResponse response = ddb.batchExecuteStatement(batchRequest);
            System.out.println("ExecuteStatement successful: " + response.toString());
            System.out.println("Added new movies using a batch command.");

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void updateTableItemBatch(DynamoDbClient ddb) {
        String sqlStatement = "UPDATE MoviesPartiQBatch SET info = 'directors\":[\"Merian C. Cooper\",\"Ernest B. Schoedsack' where year=? and title=?";
        List<AttributeValue> parametersRec1 = new ArrayList<>();

        // Update three records.
        AttributeValue att1 = AttributeValue.builder()
            .n(String.valueOf("2022"))
            .build();

        AttributeValue att2 = AttributeValue.builder()
            .s("My Movie 1")
            .build();

        parametersRec1.add(att1);
        parametersRec1.add(att2);

        BatchStatementRequest statementRequestRec1 = BatchStatementRequest.builder()
            .statement(sqlStatement)
            .parameters(parametersRec1)
            .build();

        // Update record 2.
        List<AttributeValue> parametersRec2 = new ArrayList<>();
        AttributeValue attRec2 = AttributeValue.builder()
            .n(String.valueOf("2022"))
            .build();

        AttributeValue attRec2a = AttributeValue.builder()
            .s("My Movie 2")
            .build();

        parametersRec2.add(attRec2);
        parametersRec2.add(attRec2a);
        BatchStatementRequest statementRequestRec2 = BatchStatementRequest.builder()
            .statement(sqlStatement)
            .parameters(parametersRec2)
            .build();

        // Update record 3.
        List<AttributeValue> parametersRec3 = new ArrayList<>();
        AttributeValue attRec3 = AttributeValue.builder()
            .n(String.valueOf("2022"))
            .build();

        AttributeValue attRec3a = AttributeValue.builder()
            .s("My Movie 3")
            .build();

        parametersRec3.add(attRec3);
        parametersRec3.add(attRec3a);
        BatchStatementRequest statementRequestRec3 = BatchStatementRequest.builder()
            .statement(sqlStatement)
            .parameters(parametersRec3)
            .build();

        // Add all three movies to the list.
        List<BatchStatementRequest> myBatchStatementList = new ArrayList<>();
        myBatchStatementList.add(statementRequestRec1);
        myBatchStatementList.add(statementRequestRec2);
        myBatchStatementList.add(statementRequestRec3);

        BatchExecuteStatementRequest batchRequest = BatchExecuteStatementRequest.builder()
            .statements(myBatchStatementList)
            .build();

        try {
            BatchExecuteStatementResponse response = ddb.batchExecuteStatement(batchRequest);
            System.out.println("ExecuteStatement successful: " + response.toString());
            System.out.println("Updated three movies using a batch command.");

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println("Item was updated!");
    }

    public static void deleteItemBatch(DynamoDbClient ddb) {
        String sqlStatement = "DELETE FROM MoviesPartiQBatch WHERE year = ? and title=?";
        List<AttributeValue> parametersRec1 = new ArrayList<>();

        // Specify three records to delete.
        AttributeValue att1 = AttributeValue.builder()
            .n(String.valueOf("2022"))
            .build();

        AttributeValue att2 = AttributeValue.builder()
            .s("My Movie 1")
            .build();

        parametersRec1.add(att1);
        parametersRec1.add(att2);

        BatchStatementRequest statementRequestRec1 = BatchStatementRequest.builder()
            .statement(sqlStatement)
            .parameters(parametersRec1)
            .build();

        // Specify record 2.
        List<AttributeValue> parametersRec2 = new ArrayList<>();
        AttributeValue attRec2 = AttributeValue.builder()
            .n(String.valueOf("2022"))
            .build();

        AttributeValue attRec2a = AttributeValue.builder()
            .s("My Movie 2")
            .build();

        parametersRec2.add(attRec2);
        parametersRec2.add(attRec2a);
        BatchStatementRequest statementRequestRec2 = BatchStatementRequest.builder()
            .statement(sqlStatement)
            .parameters(parametersRec2)
            .build();

        // Specify record 3.
        List<AttributeValue> parametersRec3 = new ArrayList<>();
        AttributeValue attRec3 = AttributeValue.builder()
            .n(String.valueOf("2022"))
            .build();

        AttributeValue attRec3a = AttributeValue.builder()
            .s("My Movie 3")
            .build();

        parametersRec3.add(attRec3);
        parametersRec3.add(attRec3a);

        BatchStatementRequest statementRequestRec3 = BatchStatementRequest.builder()
            .statement(sqlStatement)
            .parameters(parametersRec3)
            .build();

        // Add all three movies to the list.
        List<BatchStatementRequest> myBatchStatementList = new ArrayList<>();
        myBatchStatementList.add(statementRequestRec1);
        myBatchStatementList.add(statementRequestRec2);
        myBatchStatementList.add(statementRequestRec3);

        BatchExecuteStatementRequest batchRequest = BatchExecuteStatementRequest.builder()
            .statements(myBatchStatementList)
            .build();

        try {
            ddb.batchExecuteStatement(batchRequest);
            System.out.println("Deleted three movies using a batch command.");

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void deleteDynamoDBTable(DynamoDbClient ddb, String tableName) {
        DeleteTableRequest request = DeleteTableRequest.builder()
            .tableName(tableName)
            .build();

        try {
            ddb.deleteTable(request);

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println(tableName + " was successfully deleted!");
    }

    private static ExecuteStatementResponse executeStatementRequest(DynamoDbClient ddb, String statement,
                                                                    List<AttributeValue> parameters) {
        ExecuteStatementRequest request = ExecuteStatementRequest.builder()
            .statement(statement)
            .parameters(parameters)
            .build();

        return ddb.executeStatement(request);
    }
}
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK for Java 2.x API*. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/dynamodb#code-examples). 

```
public class ScenarioPartiQ {
    public static void main(String[] args) throws IOException {
        String fileName = "../../../resources/sample_files/movies.json";
        String tableName = "MoviesPartiQ";
        Region region = Region.US_EAST_1;
        DynamoDbClient ddb = DynamoDbClient.builder()
            .region(region)
            .build();

        System.out.println(
            "******* Creating an Amazon DynamoDB table named MoviesPartiQ with a key named year and a sort key named title.");
        createTable(ddb, tableName);

        System.out.println("Loading data into the MoviesPartiQ table.");
        loadData(ddb, fileName);

        System.out.println("Getting data from the MoviesPartiQ table.");
        getItem(ddb);

        System.out.println("Putting a record into the MoviesPartiQ table.");
        putRecord(ddb);

        System.out.println("Updating a record.");
        updateTableItem(ddb);

        System.out.println("Querying the movies released in 2013.");
        queryTable(ddb);

        System.out.println("Deleting the Amazon DynamoDB table.");
        deleteDynamoDBTable(ddb, tableName);
        ddb.close();
    }

    public static void createTable(DynamoDbClient ddb, String tableName) {
        DynamoDbWaiter dbWaiter = ddb.waiter();
        ArrayList<AttributeDefinition> attributeDefinitions = new ArrayList<>();

        // Define attributes.
        attributeDefinitions.add(AttributeDefinition.builder()
            .attributeName("year")
            .attributeType("N")
            .build());

        attributeDefinitions.add(AttributeDefinition.builder()
            .attributeName("title")
            .attributeType("S")
            .build());

        ArrayList<KeySchemaElement> tableKey = new ArrayList<>();
        KeySchemaElement key = KeySchemaElement.builder()
            .attributeName("year")
            .keyType(KeyType.HASH)
            .build();

        KeySchemaElement key2 = KeySchemaElement.builder()
            .attributeName("title")
            .keyType(KeyType.RANGE) // Sort
            .build();

        // Add KeySchemaElement objects to the list.
        tableKey.add(key);
        tableKey.add(key2);

        CreateTableRequest request = CreateTableRequest.builder()
            .keySchema(tableKey)
            .billingMode(BillingMode.PAY_PER_REQUEST) //Scales based on traffic.
            .attributeDefinitions(attributeDefinitions)
            .tableName(tableName)
            .build();

        try {
            CreateTableResponse response = ddb.createTable(request);
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                .tableName(tableName)
                .build();

            // Wait until the Amazon DynamoDB table is created.
            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter.waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            String newTable = response.tableDescription().tableName();
            System.out.println("The " + newTable + " was successfully created.");

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    // Load data into the table.
    public static void loadData(DynamoDbClient ddb, String fileName) throws IOException {

        String sqlStatement = "INSERT INTO MoviesPartiQ VALUE {'year':?, 'title' : ?, 'info' : ?}";
        JsonParser parser = new JsonFactory().createParser(new File(fileName));
        com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
        Iterator<JsonNode> iter = rootNode.iterator();
        ObjectNode currentNode;
        int t = 0;
        List<AttributeValue> parameters = new ArrayList<>();
        while (iter.hasNext()) {

            // Add 200 movies to the table.
            if (t == 200)
                break;
            currentNode = (ObjectNode) iter.next();

            int year = currentNode.path("year").asInt();
            String title = currentNode.path("title").asText();
            String info = currentNode.path("info").toString();

            AttributeValue att1 = AttributeValue.builder()
                .n(String.valueOf(year))
                .build();

            AttributeValue att2 = AttributeValue.builder()
                .s(title)
                .build();

            AttributeValue att3 = AttributeValue.builder()
                .s(info)
                .build();

            parameters.add(att1);
            parameters.add(att2);
            parameters.add(att3);

            // Insert the movie into the Amazon DynamoDB table.
            executeStatementRequest(ddb, sqlStatement, parameters);
            System.out.println("Added Movie " + title);

            parameters.remove(att1);
            parameters.remove(att2);
            parameters.remove(att3);
            t++;
        }
    }

    public static void getItem(DynamoDbClient ddb) {

        String sqlStatement = "SELECT * FROM MoviesPartiQ where year=? and title=?";
        List<AttributeValue> parameters = new ArrayList<>();
        AttributeValue att1 = AttributeValue.builder()
            .n("2012")
            .build();

        AttributeValue att2 = AttributeValue.builder()
            .s("The Perks of Being a Wallflower")
            .build();

        parameters.add(att1);
        parameters.add(att2);

        try {
            ExecuteStatementResponse response = executeStatementRequest(ddb, sqlStatement, parameters);
            System.out.println("ExecuteStatement successful: " + response.toString());

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void putRecord(DynamoDbClient ddb) {

        String sqlStatement = "INSERT INTO MoviesPartiQ VALUE {'year':?, 'title' : ?, 'info' : ?}";
        try {
            List<AttributeValue> parameters = new ArrayList<>();

            AttributeValue att1 = AttributeValue.builder()
                .n(String.valueOf("2020"))
                .build();

            AttributeValue att2 = AttributeValue.builder()
                .s("My Movie")
                .build();

            AttributeValue att3 = AttributeValue.builder()
                .s("No Information")
                .build();

            parameters.add(att1);
            parameters.add(att2);
            parameters.add(att3);

            executeStatementRequest(ddb, sqlStatement, parameters);
            System.out.println("Added new movie.");

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void updateTableItem(DynamoDbClient ddb) {

        String sqlStatement = "UPDATE MoviesPartiQ SET info = 'directors\":[\"Merian C. Cooper\",\"Ernest B. Schoedsack' where year=? and title=?";
        List<AttributeValue> parameters = new ArrayList<>();
        AttributeValue att1 = AttributeValue.builder()
            .n(String.valueOf("2013"))
            .build();

        AttributeValue att2 = AttributeValue.builder()
            .s("The East")
            .build();

        parameters.add(att1);
        parameters.add(att2);

        try {
            executeStatementRequest(ddb, sqlStatement, parameters);

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println("Item was updated!");
    }

    // Query the table where the year is 2013.
    public static void queryTable(DynamoDbClient ddb) {
        String sqlStatement = "SELECT * FROM MoviesPartiQ where year = ? ORDER BY year";
        try {

            List<AttributeValue> parameters = new ArrayList<>();
            AttributeValue att1 = AttributeValue.builder()
                .n(String.valueOf("2013"))
                .build();
            parameters.add(att1);

            // Get items in the table and write out the ID value.
            ExecuteStatementResponse response = executeStatementRequest(ddb, sqlStatement, parameters);
            System.out.println("ExecuteStatement successful: " + response.toString());

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void deleteDynamoDBTable(DynamoDbClient ddb, String tableName) {

        DeleteTableRequest request = DeleteTableRequest.builder()
            .tableName(tableName)
            .build();

        try {
            ddb.deleteTable(request);

        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println(tableName + " was successfully deleted!");
    }

    private static ExecuteStatementResponse executeStatementRequest(DynamoDbClient ddb, String statement,
                                                                    List<AttributeValue> parameters) {
        ExecuteStatementRequest request = ExecuteStatementRequest.builder()
            .statement(statement)
            .parameters(parameters)
            .build();

        return ddb.executeStatement(request);
    }

    private static void processResults(ExecuteStatementResponse executeStatementResult) {
        System.out.println("ExecuteStatement successful: " + executeStatementResult.toString());
    }
}
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK for Java 2.x API*. 

### Kueri tabel menggunakan Global Secondary Index
<a name="dynamodb_Scenarios_QueryWithGlobalSecondaryIndex_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan Global Secondary Index.
+ Kueri tabel DynamoDB menggunakan kunci utamanya.
+ Kueri Indeks Sekunder Global (GSI) untuk pola akses alternatif.
+ Bandingkan kueri tabel dan kueri GSI.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB menggunakan kunci utama dan Indeks Sekunder Global (GSI) dengan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;

    public QueryResponse queryTable(
        final String tableName, final String partitionKeyName, final String partitionKeyValue) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            System.out.println("Query on base table successful. Found " + response.count() + " items");
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format("Error: The Amazon DynamoDB table \"%s\" can't be found.\n", tableName);
            throw new DynamoDbQueryException("Table not found: " + tableName, e);
        } catch (DynamoDbException e) {
            System.err.println("Error querying base table: " + e.getMessage());
            throw new DynamoDbQueryException("Failed to execute query on base table", e);
        }
    }

    /**
     * Queries a DynamoDB Global Secondary Index (GSI) by partition key.
     *
     * @param tableName         The name of the DynamoDB table
     * @param indexName         The name of the GSI
     * @param partitionKeyName  The name of the GSI partition key attribute
     * @param partitionKeyValue The value of the GSI partition key to query
     * @return The query response from DynamoDB
     * @throws ResourceNotFoundException if the table or index doesn't exist
     * @throws DynamoDbException if the query fails
     */
    public QueryResponse queryGlobalSecondaryIndex(
        final String tableName, final String indexName, final String partitionKeyName, final String partitionKeyValue) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Index name", indexName);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_IK, partitionKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_IK,
            AttributeValue.builder().s(partitionKeyValue).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .indexName(indexName)
            .keyConditionExpression(GSI_KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            System.out.println("Query on GSI successful. Found " + response.count() + " items");
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format(
                "Error: The Amazon DynamoDB table \"%s\" or index \"%s\" can't be found.\n", tableName, indexName);
            throw new DynamoDbQueryException("Table or index not found: " + tableName + "/" + indexName, e);
        } catch (DynamoDbException e) {
            System.err.println("Error querying GSI: " + e.getMessage());
            throw new DynamoDbQueryException("Failed to execute query on GSI", e);
        }
    }
```
Bandingkan kueri tabel secara langsung versus menanyakan GSI dengan. AWS SDK for Java 2.x  

```
    public static void main(String[] args) {
        final String usage =
            """
                Usage:
                    <tableName> <basePartitionKeyName> <basePartitionKeyValue> <gsiName> <gsiPartitionKeyName> <gsiPartitionKeyValue> [region]
                Where:
                    tableName - The Amazon DynamoDB table to query.
                    basePartitionKeyName - The name of the base table partition key attribute.
                    basePartitionKeyValue - The value of the base table partition key to query.
                    gsiName - The name of the Global Secondary Index.
                    gsiPartitionKeyName - The name of the GSI partition key attribute.
                    gsiPartitionKeyValue - The value of the GSI partition key to query.
                    region (optional) - The AWS region where the table exists. (Default: us-east-1)
                """;

        if (args.length < 6) {
            System.out.println(usage);
            System.exit(1);
        }

        final String tableName = args[0];
        final String basePartitionKeyName = args[1];
        final String basePartitionKeyValue = args[2];
        final String gsiName = args[3];
        final String gsiPartitionKeyName = args[4];
        final String gsiPartitionKeyValue = args[5];
        final Region region = args.length > 6 ? Region.of(args[6]) : Region.US_EAST_1;

        try (DynamoDbClient ddb = DynamoDbClient.builder().region(region).build()) {
            final QueryTableAndGSI queryHelper = new QueryTableAndGSI(ddb);

            // Query the base table
            System.out.println("Querying base table where " + basePartitionKeyName + " = " + basePartitionKeyValue);
            final QueryResponse tableResponse =
                queryHelper.queryTable(tableName, basePartitionKeyName, basePartitionKeyValue);

            System.out.println("Found " + tableResponse.count() + " items in base table:");
            tableResponse.items().forEach(item -> System.out.println(item));

            // Query the GSI
            System.out.println(
                "\nQuerying GSI '" + gsiName + "' where " + gsiPartitionKeyName + " = " + gsiPartitionKeyValue);
            final QueryResponse gsiResponse =
                queryHelper.queryGlobalSecondaryIndex(tableName, gsiName, gsiPartitionKeyName, gsiPartitionKeyValue);

            System.out.println("Found " + gsiResponse.count() + " items in GSI:");
            gsiResponse.items().forEach(item -> System.out.println(item));

            // Explain the differences between querying a table and a GSI
            System.out.println("\nKey differences between querying a table and a GSI:");
            System.out.println("1. When querying a GSI, you must specify the indexName parameter");
            System.out.println("2. GSIs may not contain all attributes from the base table (projection)");
            System.out.println("3. GSIs consume read capacity units from the GSI's capacity, not the base table's");
            System.out.println("4. GSIs may have eventually consistent data (cannot use ConsistentRead=true)");

        } catch (IllegalArgumentException e) {
            System.err.println("Invalid input: " + e.getMessage());
            System.exit(1);
        } catch (ResourceNotFoundException e) {
            System.err.println("Table or index not found: " + e.getMessage());
            System.exit(1);
        } catch (DynamoDbException e) {
            System.err.println("DynamoDB error: " + e.getMessage());
            System.exit(1);
        } catch (Exception e) {
            System.err.println("Unexpected error: " + e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri tabel menggunakan kondisi begins\$1with
<a name="dynamodb_Scenarios_QueryWithBeginsWithCondition_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan kondisi begins\$1with.
+ Gunakan fungsi begins\$1with dalam ekspresi kondisi kunci.
+ Filter item berdasarkan pola awalan di tombol sortir.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB menggunakan kondisi begins\$1with pada kunci pengurutan dengan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithBeginsWithCondition(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String sortKeyName,
        final String sortKeyPrefix) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Sort key name", sortKeyName);
        CodeSampleUtils.validateStringParameter("Sort key prefix", sortKeyPrefix);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_SK, sortKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_SK_PREFIX,
            AttributeValue.builder().s(sortKeyPrefix).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            LOGGER.log(Level.INFO, "Query with begins_with condition successful. Found {0} items", response.count());
            return response;
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found: {0}", tableName);
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "Error querying with begins_with condition", e);
            throw e;
        }
    }
```
Peragakan menggunakan begins\$1with dengan panjang awalan yang berbeda dengan. AWS SDK for Java 2.x  

```
    public static void main(String[] args) {
        try {
            CodeSampleUtils.BeginsWithQueryConfig config = CodeSampleUtils.BeginsWithQueryConfig.fromArgs(args);
            LOGGER.log(Level.INFO, "Querying items where {0} = {1} and {2} begins with ''{3}''", new Object[] {
                config.getPartitionKeyName(),
                config.getPartitionKeyValue(),
                config.getSortKeyName(),
                config.getSortKeyPrefix()
            });

            // Using the builder pattern to create and execute the query
            final QueryResponse response = new BeginsWithQueryBuilder()
                .withTableName(config.getTableName())
                .withPartitionKeyName(config.getPartitionKeyName())
                .withPartitionKeyValue(config.getPartitionKeyValue())
                .withSortKeyName(config.getSortKeyName())
                .withSortKeyPrefix(config.getSortKeyPrefix())
                .withRegion(config.getRegion())
                .execute();

            // Process the results
            LOGGER.log(Level.INFO, "Found {0} items:", response.count());
            response.items().forEach(item -> LOGGER.info(item.toString()));

            // Demonstrate with a different prefix
            if (!config.getSortKeyPrefix().isEmpty()) {
                String shorterPrefix = config.getSortKeyPrefix()
                    .substring(0, Math.max(1, config.getSortKeyPrefix().length() / 2));
                LOGGER.log(Level.INFO, "\nNow querying with a shorter prefix: ''{0}''", shorterPrefix);

                final QueryResponse response2 = new BeginsWithQueryBuilder()
                    .withTableName(config.getTableName())
                    .withPartitionKeyName(config.getPartitionKeyName())
                    .withPartitionKeyValue(config.getPartitionKeyValue())
                    .withSortKeyName(config.getSortKeyName())
                    .withSortKeyPrefix(shorterPrefix)
                    .withRegion(config.getRegion())
                    .execute();

                LOGGER.log(Level.INFO, "Found {0} items with shorter prefix:", response2.count());
                response2.items().forEach(item -> LOGGER.info(item.toString()));
            }
        } catch (IllegalArgumentException e) {
            LOGGER.log(Level.SEVERE, "Invalid input: {0}", e.getMessage());
            printUsage();
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found", e);
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "DynamoDB error", e);
        } catch (Exception e) {
            LOGGER.log(Level.SEVERE, "Unexpected error", e);
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri tabel menggunakan rentang tanggal
<a name="dynamodb_Scenarios_QueryWithDateRange_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan rentang tanggal dalam kunci sort.
+ Item kueri dalam rentang tanggal tertentu.
+ Gunakan operator perbandingan pada kunci pengurutan berformat tanggal.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB untuk item dalam rentang tanggal dengan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.time.LocalDate;
import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithDateRange(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String dateKeyName,
        final LocalDate startDate,
        final LocalDate endDate) {

        // Focus on query logic, assuming parameters are valid
        if (startDate == null || endDate == null) {
            throw new IllegalArgumentException("Start date and end date cannot be null");
        }

        if (endDate.isBefore(startDate)) {
            throw new IllegalArgumentException("End date must be after start date");
        }

        // Format dates as ISO strings for DynamoDB (using just the date part)
        final String formattedStartDate = startDate.toString();
        final String formattedEndDate = endDate.toString();

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_SK, dateKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_START_DATE,
            AttributeValue.builder().s(formattedStartDate).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_END_DATE,
            AttributeValue.builder().s(formattedEndDate).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            LOGGER.log(Level.INFO, "Query by date range successful. Found {0} items", response.count());
            return response;
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found: {0}", tableName);
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "Error querying by date range: {0}", e.getMessage());
            throw e;
        }
    }
```
Menunjukkan bagaimana untuk query tabel DynamoDB dengan rentang tanggal penyaringan.  

```
    public static void main(String[] args) {
        final String usage =
            """
                Usage:
                    <tableName> <partitionKeyName> <partitionKeyValue> <dateKeyName> <startDate> <endDate> [region]
                Where:
                    tableName - The Amazon DynamoDB table to query.
                    partitionKeyName - The name of the partition key attribute.
                    partitionKeyValue - The value of the partition key to query.
                    dateKeyName - The name of the date attribute to filter on.
                    startDate - The start date for the range query (YYYY-MM-DD).
                    endDate - The end date for the range query (YYYY-MM-DD).
                    region (optional) - The AWS region where the table exists. (Default: us-east-1)
                """;

        if (args.length < 6) {
            System.out.println(usage);
            System.exit(1);
        }

        try {
            // Parse command line arguments into a config object
            CodeSampleUtils.DateRangeQueryConfig config = CodeSampleUtils.DateRangeQueryConfig.fromArgs(args);

            LOGGER.log(
                Level.INFO, "Querying items from {0} to {1}", new Object[] {config.getStartDate(), config.getEndDate()
                });

            // Using the builder pattern to create and execute the query
            final QueryResponse response = new DateRangeQueryBuilder()
                .withTableName(config.getTableName())
                .withPartitionKeyName(config.getPartitionKeyName())
                .withPartitionKeyValue(config.getPartitionKeyValue())
                .withDateKeyName(config.getDateKeyName())
                .withStartDate(config.getStartDate())
                .withEndDate(config.getEndDate())
                .withRegion(config.getRegion())
                .execute();

            // Process the results
            LOGGER.log(Level.INFO, "Found {0} items:", response.count());
            response.items().forEach(item -> {
                LOGGER.info(item.toString());

                // Extract and display the date attribute for clarity
                if (item.containsKey(config.getDateKeyName())) {
                    LOGGER.log(
                        Level.INFO,
                        "  Date attribute: {0}",
                        item.get(config.getDateKeyName()).s());
                }
            });

            // Demonstrate with a different date range
            LocalDate narrowerStartDate = config.getStartDate().plusDays(1);
            LocalDate narrowerEndDate = config.getEndDate().minusDays(1);

            if (!narrowerStartDate.isAfter(narrowerEndDate)) {
                LOGGER.log(Level.INFO, "\nNow querying with a narrower date range: {0} to {1}", new Object[] {
                    narrowerStartDate, narrowerEndDate
                });

                final QueryResponse response2 = new DateRangeQueryBuilder()
                    .withTableName(config.getTableName())
                    .withPartitionKeyName(config.getPartitionKeyName())
                    .withPartitionKeyValue(config.getPartitionKeyValue())
                    .withDateKeyName(config.getDateKeyName())
                    .withStartDate(narrowerStartDate)
                    .withEndDate(narrowerEndDate)
                    .withRegion(config.getRegion())
                    .execute();

                LOGGER.log(Level.INFO, "Found {0} items with narrower date range:", response2.count());
                response2.items().forEach(item -> LOGGER.info(item.toString()));
            }

            LOGGER.info("\nNote: When storing dates in DynamoDB:");
            LOGGER.info("1. Use ISO format (YYYY-MM-DD) for lexicographical ordering");
            LOGGER.info("2. Use the BETWEEN operator for inclusive date range queries");
            LOGGER.info("3. Consider using ISO-8601 format for timestamps with time components");

        } catch (IllegalArgumentException e) {
            LOGGER.log(Level.SEVERE, "Invalid input: {0}", e.getMessage());
            System.exit(1);
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found: {0}", e.getMessage());
            System.exit(1);
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "DynamoDB error: {0}", e.getMessage());
            System.exit(1);
        } catch (Exception e) {
            LOGGER.log(Level.SEVERE, "Unexpected error: {0}", e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri tabel dengan ekspresi filter yang kompleks
<a name="dynamodb_Scenarios_QueryWithComplexFilter_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan ekspresi filter kompleks.
+ Terapkan ekspresi filter yang kompleks ke hasil kueri.
+ Gabungkan beberapa kondisi menggunakan operator logis.
+ Filter item berdasarkan atribut non-kunci.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB dengan ekspresi filter kompleks menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithComplexFilter(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String statusAttrName,
        final String activeStatus,
        final String pendingStatus,
        final String priceAttrName,
        final double minPrice,
        final double maxPrice,
        final String categoryAttrName) {

        // Validate parameters
        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Status attribute name", statusAttrName);
        CodeSampleUtils.validateStringParameter("Active status", activeStatus);
        CodeSampleUtils.validateStringParameter("Pending status", pendingStatus);
        CodeSampleUtils.validateStringParameter("Price attribute name", priceAttrName);
        CodeSampleUtils.validateStringParameter("Category attribute name", categoryAttrName);
        CodeSampleUtils.validateNumericRange("Minimum price", minPrice, 0.0, Double.MAX_VALUE);
        CodeSampleUtils.validateNumericRange("Maximum price", maxPrice, minPrice, Double.MAX_VALUE);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put("#pk", partitionKeyName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_STATUS, statusAttrName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PRICE, priceAttrName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_CATEGORY, categoryAttrName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            ":pkValue", AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_ACTIVE,
            AttributeValue.builder().s(activeStatus).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PENDING,
            AttributeValue.builder().s(pendingStatus).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_MIN_PRICE,
            AttributeValue.builder().n(String.valueOf(minPrice)).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_MAX_PRICE,
            AttributeValue.builder().n(String.valueOf(maxPrice)).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .filterExpression(FILTER_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        return dynamoDbClient.query(queryRequest);
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri tabel dengan ekspresi filter dinamis
<a name="dynamodb_Scenarios_QueryWithDynamicFilter_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan ekspresi filter dinamis.
+ Buat ekspresi filter secara dinamis saat runtime.
+ Membangun kondisi filter berdasarkan input pengguna atau status aplikasi.
+ Tambahkan atau hapus kriteria filter secara kondisional.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB dengan ekspresi filter yang dibangun secara dinamis menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;

    public static QueryResponse queryWithDynamicFilter(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final Map<String, Object> filterCriteria,
        final Region region,
        final DynamoDbClient dynamoDbClient) {

        validateParameters(tableName, partitionKeyName, partitionKeyValue, filterCriteria);

        DynamoDbClient ddbClient = dynamoDbClient;
        boolean shouldClose = false;

        try {
            if (ddbClient == null) {
                ddbClient = createClient(region);
                shouldClose = true;
            }

            final QueryWithDynamicFilter queryHelper = new QueryWithDynamicFilter(ddbClient);
            return queryHelper.queryWithDynamicFilter(tableName, partitionKeyName, partitionKeyValue, filterCriteria);
        } catch (ResourceNotFoundException e) {
            System.err.println("Table not found: " + tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println("Failed to execute dynamic filter query: " + e.getMessage());
            throw e;
        } catch (Exception e) {
            System.err.println("Unexpected error during query: " + e.getMessage());
            throw e;
        } finally {
            if (shouldClose && ddbClient != null) {
                ddbClient.close();
            }
        }
    }
```
Menunjukkan cara menggunakan ekspresi filter dinamis dengan AWS SDK for Java 2.x.  

```
    public static void main(String[] args) {
        final String usage =
            """
                Usage:
                    <tableName> <partitionKeyName> <partitionKeyValue> <filterAttrName> <filterAttrValue> [region]
                Where:
                    tableName - The Amazon DynamoDB table to query.
                    partitionKeyName - The name of the partition key attribute.
                    partitionKeyValue - The value of the partition key to query.
                    filterAttrName - The name of the attribute to filter on.
                    filterAttrValue - The value to filter by.
                    region (optional) - The AWS region where the table exists. (Default: us-east-1)
                """;

        if (args.length < 5) {
            System.out.println(usage);
            System.exit(1);
        }

        final String tableName = args[0];
        final String partitionKeyName = args[1];
        final String partitionKeyValue = args[2];
        final String filterAttrName = args[3];
        final String filterAttrValue = args[4];
        final Region region = args.length > 5 ? Region.of(args[5]) : Region.US_EAST_1;

        System.out.println("Querying items with dynamic filter: " + filterAttrName + " = " + filterAttrValue);

        try {
            // Using the builder pattern to create and execute the query
            final QueryResponse response = new DynamicFilterQueryBuilder()
                .withTableName(tableName)
                .withPartitionKeyName(partitionKeyName)
                .withPartitionKeyValue(partitionKeyValue)
                .withFilterCriterion(filterAttrName, filterAttrValue)
                .withRegion(region)
                .execute();

            // Process the results
            System.out.println("Found " + response.count() + " items:");
            response.items().forEach(item -> System.out.println(item));

            // Demonstrate multiple filter criteria
            System.out.println("\nNow querying with multiple filter criteria:");

            Map<String, Object> multipleFilters = new HashMap<>();
            multipleFilters.put(filterAttrName, filterAttrValue);
            multipleFilters.put("status", "active");

            final QueryResponse multiFilterResponse = new DynamicFilterQueryBuilder()
                .withTableName(tableName)
                .withPartitionKeyName(partitionKeyName)
                .withPartitionKeyValue(partitionKeyValue)
                .withFilterCriteria(multipleFilters)
                .withRegion(region)
                .execute();

            System.out.println("Found " + multiFilterResponse.count() + " items with multiple filters:");
            multiFilterResponse.items().forEach(item -> System.out.println(item));

        } catch (IllegalArgumentException e) {
            System.err.println("Invalid input: " + e.getMessage());
            System.exit(1);
        } catch (ResourceNotFoundException e) {
            System.err.println("Table not found: " + tableName);
            System.exit(1);
        } catch (DynamoDbException e) {
            System.err.println("DynamoDB error: " + e.getMessage());
            System.exit(1);
        } catch (Exception e) {
            System.err.println("Unexpected error: " + e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri tabel dengan ekspresi filter dan batas
<a name="dynamodb_Scenarios_QueryWithFilterAndLimit_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan ekspresi filter dan batas.
+ Terapkan ekspresi filter ke hasil kueri dengan batas item yang dievaluasi.
+ Pahami bagaimana batas memengaruhi hasil kueri yang difilter.
+ Kontrol jumlah maksimum item yang diproses dalam kueri.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB dengan ekspresi filter dan batas penggunaan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithFilterAndLimit(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String filterAttrName,
        final String filterAttrValue,
        final int limit) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Filter attribute name", filterAttrName);
        CodeSampleUtils.validateStringParameter("Filter attribute value", filterAttrValue);
        CodeSampleUtils.validatePositiveInteger("Limit", limit);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_FILTER, filterAttrName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_FILTER,
            AttributeValue.builder().s(filterAttrValue).build());

        // Create the filter expression
        final String filterExpression = "#filterAttr = :filterValue";

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .filterExpression(filterExpression)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .limit(limit)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            LOGGER.log(Level.INFO, "Query with filter and limit successful. Found {0} items", response.count());
            LOGGER.log(
                Level.INFO, "ScannedCount: {0} (total items evaluated before filtering)", response.scannedCount());
            return response;
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found: {0}", tableName);
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "Error querying with filter and limit: {0}", e.getMessage());
            throw e;
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri tabel dengan atribut bersarang
<a name="dynamodb_Scenarios_QueryWithNestedAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan atribut bersarang.
+ Akses dan filter berdasarkan atribut bersarang di item DynamoDB.
+ Gunakan ekspresi jalur dokumen untuk mereferensikan elemen bersarang.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB dengan atribut bersarang menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;

    public QueryResponse queryWithNestedAttributes(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String nestedPath,
        final String nestedAttr,
        final String nestedValue) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Nested path", nestedPath);
        CodeSampleUtils.validateStringParameter("Nested attribute", nestedAttr);
        CodeSampleUtils.validateStringParameter("Nested value", nestedValue);

        // Split the nested path into components
        final String[] pathComponents = nestedPath.split("\\.");

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);

        // Build the nested attribute reference using document path notation
        final StringBuilder nestedAttributeRef = new StringBuilder();
        for (int i = 0; i < pathComponents.length; i++) {
            final String aliasName = "#n" + i;
            expressionAttributeNames.put(aliasName, pathComponents[i]);

            if (i > 0) {
                nestedAttributeRef.append(".");
            }
            nestedAttributeRef.append(aliasName);
        }

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_NESTED,
            AttributeValue.builder().s(nestedValue).build());

        // Create the filter expression using the nested attribute reference
        final String filterExpression = nestedAttributeRef + " = :nestedValue";

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .filterExpression(filterExpression)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            System.out.println("Query with nested attribute filter successful. Found " + response.count() + " items");
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format("Error: The Amazon DynamoDB table \"%s\" can't be found.\n", tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println("Error querying with nested attribute filter: " + e.getMessage());
            throw e;
        }
    }
```
Menunjukkan bagaimana untuk query tabel DynamoDB dengan atribut bersarang.  

```
    public static void main(String[] args) {
        final String usage =
            """
                Usage:
                    <tableName> <partitionKeyName> <partitionKeyValue> <nestedPath> <nestedAttr> <nestedValue> [region]
                Where:
                    tableName - The Amazon DynamoDB table to query.
                    partitionKeyName - The name of the partition key attribute.
                    partitionKeyValue - The value of the partition key to query.
                    nestedPath - The path to the nested map attribute (e.g., "address").
                    nestedAttr - The name of the nested attribute (e.g., "city").
                    nestedValue - The value to filter by (e.g., "Seattle").
                    region (optional) - The AWS region where the table exists. (Default: us-east-1)
                """;

        if (args.length < 6) {
            System.out.println(usage);
            System.exit(1);
        }

        final String tableName = args[0];
        final String partitionKeyName = args[1];
        final String partitionKeyValue = args[2];
        final String nestedPath = args[3];
        final String nestedAttr = args[4];
        final String nestedValue = args[5];
        final Region region = args.length > 6 ? Region.of(args[6]) : Region.US_EAST_1;

        System.out.println("Querying items where " + partitionKeyName + " = " + partitionKeyValue + " and " + nestedPath
            + "." + nestedAttr + " = " + nestedValue);

        try {
            // Using the builder pattern to create and execute the query
            final QueryResponse response = new NestedAttributeQueryBuilder()
                .withTableName(tableName)
                .withPartitionKeyName(partitionKeyName)
                .withPartitionKeyValue(partitionKeyValue)
                .withNestedPath(nestedPath)
                .withNestedAttribute(nestedAttr)
                .withNestedValue(nestedValue)
                .withRegion(region)
                .execute();

            // Process the results
            System.out.println("Found " + response.count() + " items:");
            response.items().forEach(item -> {
                System.out.println(item);

                // Extract and display the nested attribute for clarity
                if (item.containsKey(nestedPath) && item.get(nestedPath).hasM()) {
                    Map<String, AttributeValue> nestedMap = item.get(nestedPath).m();
                    if (nestedMap.containsKey(nestedAttr)) {
                        System.out.println("  Nested attribute " + nestedPath + "." + nestedAttr + ": "
                            + formatAttributeValue(nestedMap.get(nestedAttr)));
                    }
                }
            });

            System.out.println("\nNote: When working with nested attributes in DynamoDB:");
            System.out.println("1. Use dot notation in filter expressions to access nested attributes");
            System.out.println("2. Use expression attribute names for each component of the path");
            System.out.println("3. Check if the nested attribute exists before accessing it");

        } catch (IllegalArgumentException e) {
            System.err.println("Invalid input: " + e.getMessage());
            System.exit(1);
        } catch (ResourceNotFoundException e) {
            System.err.println("Table not found: " + tableName);
            System.exit(1);
        } catch (DynamoDbException e) {
            System.err.println("DynamoDB error: " + e.getMessage());
            System.exit(1);
        } catch (Exception e) {
            System.err.println("Unexpected error: " + e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri tabel dengan pagination
<a name="dynamodb_Scenarios_QueryWithPagination_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan pagination.
+ Menerapkan pagination untuk hasil query DynamoDB.
+ Gunakan LastEvaluatedKey untuk mengambil halaman berikutnya.
+ Kontrol jumlah item per halaman dengan parameter Limit.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB dengan pagination menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

    public List<Map<String, AttributeValue>> queryWithPagination(
        final String tableName, final String partitionKeyName, final String partitionKeyValue, final int pageSize) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validatePositiveInteger("Page size", pageSize);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());

        // Create the query request
        QueryRequest.Builder queryRequestBuilder = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .limit(pageSize);

        // List to store all items from all pages
        final List<Map<String, AttributeValue>> allItems = new ArrayList<>();

        // Map to store the last evaluated key for pagination
        Map<String, AttributeValue> lastEvaluatedKey = null;
        int pageNumber = 1;

        try {
            do {
                // If we have a last evaluated key, use it for the next page
                if (lastEvaluatedKey != null) {
                    queryRequestBuilder.exclusiveStartKey(lastEvaluatedKey);
                }

                // Execute the query
                final QueryResponse response = dynamoDbClient.query(queryRequestBuilder.build());

                // Process the current page of results
                final List<Map<String, AttributeValue>> pageItems = response.items();
                allItems.addAll(pageItems);

                // Get the last evaluated key for the next page
                lastEvaluatedKey = response.lastEvaluatedKey();
                if (lastEvaluatedKey != null && lastEvaluatedKey.isEmpty()) {
                    lastEvaluatedKey = null;
                }

                System.out.println("Page " + pageNumber + ": Retrieved " + pageItems.size() + " items (Running total: "
                    + allItems.size() + ")");

                pageNumber++;

            } while (lastEvaluatedKey != null);

            System.out.println("Query with pagination complete. Retrieved a total of " + allItems.size()
                + " items across " + (pageNumber - 1) + " pages");

            return allItems;
        } catch (ResourceNotFoundException e) {
            System.err.format("Error: The Amazon DynamoDB table \"%s\" can't be found.\n", tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println("Error querying with pagination: " + e.getMessage());
            throw e;
        }
    }
```
Menunjukkan bagaimana untuk query tabel DynamoDB dengan pagination.  

```
    public static void main(String[] args) {
        final String usage =
            """
                Usage:
                    <tableName> <partitionKeyName> <partitionKeyValue> [pageSize] [region]
                Where:
                    tableName - The Amazon DynamoDB table to query.
                    partitionKeyName - The name of the partition key attribute.
                    partitionKeyValue - The value of the partition key to query.
                    pageSize (optional) - The maximum number of items to return per page. (Default: 10)
                    region (optional) - The AWS region where the table exists. (Default: us-east-1)
                """;

        if (args.length < 3) {
            System.out.println(usage);
            System.exit(1);
        }

        final String tableName = args[0];
        final String partitionKeyName = args[1];
        final String partitionKeyValue = args[2];
        final int pageSize = args.length > 3 ? Integer.parseInt(args[3]) : 10;
        final Region region = args.length > 4 ? Region.of(args[4]) : Region.US_EAST_1;

        System.out.println("Querying items with pagination (page size: " + pageSize + ")");

        try {
            // Using the builder pattern to create and execute the query
            final List<Map<String, AttributeValue>> allItems = new PaginationQueryBuilder()
                .withTableName(tableName)
                .withPartitionKeyName(partitionKeyName)
                .withPartitionKeyValue(partitionKeyValue)
                .withPageSize(pageSize)
                .withRegion(region)
                .executeWithPagination();

            // Process the results
            System.out.println("\nSummary: Retrieved a total of " + allItems.size() + " items");

            // Display the first few items as a sample
            final int sampleSize = Math.min(5, allItems.size());
            if (sampleSize > 0) {
                System.out.println("\nSample of retrieved items (first " + sampleSize + "):");
                for (int i = 0; i < sampleSize; i++) {
                    System.out.println(allItems.get(i));
                }

                if (allItems.size() > sampleSize) {
                    System.out.println("... and " + (allItems.size() - sampleSize) + " more items");
                }
            }
        } catch (IllegalArgumentException e) {
            System.err.println("Invalid input: " + e.getMessage());
            System.exit(1);
        } catch (ResourceNotFoundException e) {
            System.err.println("Table not found: " + tableName);
            System.exit(1);
        } catch (DynamoDbException e) {
            System.err.println("DynamoDB error: " + e.getMessage());
            System.exit(1);
        } catch (Exception e) {
            System.err.println("Unexpected error: " + e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri tabel dengan pembacaan yang sangat konsisten
<a name="dynamodb_Scenarios_QueryWithStronglyConsistentReads_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan pembacaan yang sangat konsisten.
+ Konfigurasikan tingkat konsistensi untuk query DynamoDB.
+ Gunakan pembacaan yang sangat konsisten untuk mendapatkan up-to-date data terbanyak.
+ Memahami pengorbanan antara konsistensi akhirnya dan konsistensi yang kuat.

**SDK untuk Java 2.x**  
Kueri tabel DynamoDB dengan konsistensi baca yang dapat dikonfigurasi menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithConsistentReads(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final boolean useConsistentRead) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .consistentRead(useConsistentRead)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            LOGGER.log(Level.INFO, "Query successful. Found {0} items", response.count());
            return response;
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found: {0}", tableName);
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "Error querying with consistent reads", e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Kueri untuk item TTL
<a name="dynamodb_QueryFilteredTTL_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query untuk item TTL.

**SDK untuk Java 2.x**  
Query Filtered Expression untuk mengumpulkan item TTL dalam tabel DynamoDB menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.util.Map;
import java.util.Optional;

        final QueryRequest request = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .filterExpression(FILTER_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try (DynamoDbClient ddb = dynamoDbClient != null
            ? dynamoDbClient
            : DynamoDbClient.builder().region(region).build()) {
            final QueryResponse response = ddb.query(request);
            System.out.println("Query successful. Found " + response.count() + " items that have not expired yet.");

            // Print each item
            response.items().forEach(item -> {
                System.out.println("Item: " + item);
            });

            return 0;
        } catch (ResourceNotFoundException e) {
            System.err.format(TABLE_NOT_FOUND_ERROR, tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            throw e;
        }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Tabel kueri menggunakan pola tanggal dan waktu
<a name="dynamodb_Scenario_DateTimeQueries_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan tanggal dan waktu pola.
+ Simpan dan kueri date/time nilai di DynamoDB.
+ Menerapkan kueri rentang tanggal menggunakan kunci pengurutan.
+ Format string tanggal untuk kueri yang efektif.

**SDK untuk Java 2.x**  
Kueri menggunakan rentang tanggal dalam kunci pengurutan dengan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.time.LocalDate;
import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;

    public QueryResponse queryWithDateRange(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String dateKeyName,
        final LocalDate startDate,
        final LocalDate endDate) {

        // Focus on query logic, assuming parameters are valid
        if (startDate == null || endDate == null) {
            throw new IllegalArgumentException("Start date and end date cannot be null");
        }

        if (endDate.isBefore(startDate)) {
            throw new IllegalArgumentException("End date must be after start date");
        }

        // Format dates as ISO strings for DynamoDB (using just the date part)
        final String formattedStartDate = startDate.toString();
        final String formattedEndDate = endDate.toString();

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_SK, dateKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_START_DATE,
            AttributeValue.builder().s(formattedStartDate).build());
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_END_DATE,
            AttributeValue.builder().s(formattedEndDate).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            LOGGER.log(Level.INFO, "Query by date range successful. Found {0} items", response.count());
            return response;
        } catch (ResourceNotFoundException e) {
            LOGGER.log(Level.SEVERE, "Table not found: {0}", tableName);
            throw e;
        } catch (DynamoDbException e) {
            LOGGER.log(Level.SEVERE, "Error querying by date range: {0}", e.getMessage());
            throw e;
        }
    }
```
Kueri menggunakan variabel tanggal-waktu dengan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.time.Instant;
import java.time.LocalDateTime;
import java.time.ZoneOffset;
import java.util.HashMap;
import java.util.Map;

    public QueryResponse queryWithDateTime(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String dateKeyName,
        final String startDate,
        final String endDate) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateDateRangeParameters(dateKeyName, startDate, endDate);
        CodeSampleUtils.validateDateFormat("Start date", startDate);
        CodeSampleUtils.validateDateFormat("End date", endDate);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);
        expressionAttributeNames.put("#dateKey", dateKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            ":startDate", AttributeValue.builder().s(startDate).build());
        expressionAttributeValues.put(
            ":endDate", AttributeValue.builder().s(endDate).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            System.out.println("Query successful. Found " + response.count() + " items");
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format("Error: The Amazon DynamoDB table \"%s\" can't be found.\n", tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println("Error querying with date range: " + e.getMessage());
            throw e;
        }
    }
```
Kueri dalam rentang tanggal dalam stempel waktu zaman Unix dengan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.time.Instant;
import java.time.LocalDateTime;
import java.time.ZoneOffset;
import java.util.HashMap;
import java.util.Map;

    public QueryResponse queryWithDateTimeEpoch(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String dateKeyName,
        final long startEpoch,
        final long endEpoch) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Date key name", dateKeyName);
        CodeSampleUtils.validateEpochTimestamp("Start epoch", startEpoch);
        CodeSampleUtils.validateEpochTimestamp("End epoch", endEpoch);

        // Create expression attribute names for the column names
        final Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put(EXPRESSION_ATTRIBUTE_NAME_PK, partitionKeyName);
        expressionAttributeNames.put("#dateKey", dateKeyName);

        // Create expression attribute values for the column values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            EXPRESSION_ATTRIBUTE_VALUE_PK,
            AttributeValue.builder().s(partitionKeyValue).build());
        expressionAttributeValues.put(
            ":startDate", AttributeValue.builder().n(String.valueOf(startEpoch)).build());
        expressionAttributeValues.put(
            ":endDate", AttributeValue.builder().n(String.valueOf(endEpoch)).build());

        // Create the query request
        final QueryRequest queryRequest = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression(KEY_CONDITION_EXPRESSION)
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final QueryResponse response = dynamoDbClient.query(queryRequest);
            System.out.println("Query successful. Found " + response.count() + " items");
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format("Error: The Amazon DynamoDB table \"%s\" can't be found.\n", tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println("Error querying with epoch timestamps: " + e.getMessage());
            throw e;
        }
    }
```
Kueri dalam rentang tanggal menggunakan LocalDateTime objek dengan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;

import java.time.Instant;
import java.time.LocalDateTime;
import java.time.ZoneOffset;
import java.util.HashMap;
import java.util.Map;

    public QueryResponse queryWithDateTimeLocalDateTime(
        final String tableName,
        final String partitionKeyName,
        final String partitionKeyValue,
        final String dateKeyName,
        final LocalDateTime startDateTime,
        final LocalDateTime endDateTime) {

        CodeSampleUtils.validateTableParameters(tableName, partitionKeyName, partitionKeyValue);
        CodeSampleUtils.validateStringParameter("Date key name", dateKeyName);
        if (startDateTime == null || endDateTime == null) {
            throw new IllegalArgumentException("Start and end LocalDateTime must not be null");
        }

        // Convert LocalDateTime to ISO-8601 strings in UTC with the correct format
        final String startDate = startDateTime.atZone(ZoneOffset.UTC).format(DATE_TIME_FORMATTER);
        final String endDate = endDateTime.atZone(ZoneOffset.UTC).format(DATE_TIME_FORMATTER);

        return queryWithDateTime(tableName, partitionKeyName, partitionKeyValue, dateKeyName, startDate, endDate);
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK for Java 2.x *. 

### Memahami urutan ekspresi pembaruan
<a name="dynamodb_Scenario_UpdateExpressionOrder_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana memahami urutan ekspresi pembaruan.
+ Pelajari cara DynamoDB memproses ekspresi pembaruan.
+ Memahami urutan operasi dalam ekspresi pembaruan.
+ Hindari hasil yang tidak terduga dengan memahami evaluasi ekspresi.

**SDK untuk Java 2.x**  
Menunjukkan urutan ekspresi pembaruan menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.GetItemRequest;
import software.amazon.awssdk.services.dynamodb.model.GetItemResponse;
import software.amazon.awssdk.services.dynamodb.model.ReturnValue;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.HashMap;
import java.util.Map;

    /**
     * Demonstrates the effect of update expression order.
     *
     * <p>This method shows how the order of operations in an update expression
     * affects the result of the update.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @return Map containing the results of different update orders
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static Map<String, Object> demonstrateUpdateOrder(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key) {

        Map<String, Object> results = new HashMap<>();

        try {
            // Initialize the item with a counter
            UpdateItemRequest initRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET Counter = :zero, OldCounter = :zero")
                .expressionAttributeValues(
                    Map.of(":zero", AttributeValue.builder().n("0").build()))
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            dynamoDbClient.updateItem(initRequest);

            // Example 1: SET first, then ADD
            UpdateItemRequest setFirstRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET Counter = :value ADD OldCounter :increment")
                .expressionAttributeValues(Map.of(
                    ":value", AttributeValue.builder().n("10").build(),
                    ":increment", AttributeValue.builder().n("5").build()))
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            UpdateItemResponse setFirstResponse = dynamoDbClient.updateItem(setFirstRequest);
            results.put("setFirstResponse", setFirstResponse);

            // Reset the item
            dynamoDbClient.updateItem(initRequest);

            // Example 2: ADD first, then SET
            UpdateItemRequest addFirstRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("ADD Counter :increment SET OldCounter = :value")
                .expressionAttributeValues(Map.of(
                    ":value", AttributeValue.builder().n("10").build(),
                    ":increment", AttributeValue.builder().n("5").build()))
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            UpdateItemResponse addFirstResponse = dynamoDbClient.updateItem(addFirstRequest);
            results.put("addFirstResponse", addFirstResponse);

            // Reset the item
            dynamoDbClient.updateItem(initRequest);

            // Example 3: SET with multiple attributes
            UpdateItemRequest multiSetRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET Counter = :value, OldCounter = Counter")
                .expressionAttributeValues(
                    Map.of(":value", AttributeValue.builder().n("10").build()))
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            UpdateItemResponse multiSetResponse = dynamoDbClient.updateItem(multiSetRequest);
            results.put("multiSetResponse", multiSetResponse);

            // Reset the item
            dynamoDbClient.updateItem(initRequest);

            // Example 4: SET with expression using the same attribute
            UpdateItemRequest selfReferenceRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET Counter = Counter + :increment, OldCounter = Counter")
                .expressionAttributeValues(
                    Map.of(":increment", AttributeValue.builder().n("5").build()))
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            UpdateItemResponse selfReferenceResponse = dynamoDbClient.updateItem(selfReferenceRequest);
            results.put("selfReferenceResponse", selfReferenceResponse);

            results.put("success", true);

        } catch (DynamoDbException e) {
            results.put("success", false);
            results.put("error", e.getMessage());
        }

        return results;
    }

    /**
     * Updates an item with SET first, then REMOVE.
     *
     * <p>This method demonstrates updating an item with SET operation first,
     * followed by a REMOVE operation.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param attributeToSet The attribute to set
     * @param setValue The value to set
     * @param attributeToRemove The attribute to remove
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse updateWithSetFirst(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String attributeToSet,
        AttributeValue setValue,
        String attributeToRemove) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #setAttr = :setValue REMOVE #removeAttr")
            .expressionAttributeNames(Map.of(
                "#setAttr", attributeToSet,
                "#removeAttr", attributeToRemove))
            .expressionAttributeValues(Map.of(":setValue", setValue))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        try {
            return dynamoDbClient.updateItem(request);
        } catch (DynamoDbException e) {
            throw DynamoDbException.builder()
                .message("Failed to update item with SET first: " + e.getMessage())
                .cause(e)
                .build();
        }
    }

    /**
     * Updates an item with REMOVE first, then SET.
     *
     * <p>This method demonstrates updating an item with REMOVE operation first,
     * followed by a SET operation.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param attributeToSet The attribute to set
     * @param setValue The value to set
     * @param attributeToRemove The attribute to remove
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse updateWithRemoveFirst(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String attributeToSet,
        AttributeValue setValue,
        String attributeToRemove) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("REMOVE #removeAttr SET #setAttr = :setValue")
            .expressionAttributeNames(Map.of(
                "#setAttr", attributeToSet,
                "#removeAttr", attributeToRemove))
            .expressionAttributeValues(Map.of(":setValue", setValue))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        try {
            return dynamoDbClient.updateItem(request);
        } catch (DynamoDbException e) {
            throw DynamoDbException.builder()
                .message("Failed to update item with REMOVE first: " + e.getMessage())
                .cause(e)
                .build();
        }
    }

    /**
     * Updates an item with all operation types in a specific order.
     *
     * <p>This method demonstrates using all operation types (SET, REMOVE, ADD, DELETE)
     * in a specific order in a single update expression.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse updateWithAllOperationTypes(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #stringAttr = :stringVal, #mapAttr.#nestedAttr = :nestedVal " + "REMOVE #oldAttr "
                + "ADD #counterAttr :increment "
                + "DELETE #stringSetAttr :stringSetVal")
            .expressionAttributeNames(Map.of(
                "#stringAttr", "StringAttribute",
                "#mapAttr", "MapAttribute",
                "#nestedAttr", "NestedAttribute",
                "#oldAttr", "OldAttribute",
                "#counterAttr", "CounterAttribute",
                "#stringSetAttr", "StringSetAttribute"))
            .expressionAttributeValues(Map.of(
                ":stringVal", AttributeValue.builder().s("New Value").build(),
                ":nestedVal", AttributeValue.builder().s("Nested Value").build(),
                ":increment", AttributeValue.builder().n("1").build(),
                ":stringSetVal", AttributeValue.builder().ss("Value1").build()))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        try {
            return dynamoDbClient.updateItem(request);
        } catch (DynamoDbException e) {
            throw DynamoDbException.builder()
                .message("Failed to update item with all operation types: " + e.getMessage())
                .cause(e)
                .build();
        }
    }

    /**
     * Gets the current state of an item.
     *
     * <p>Helper method to retrieve the current state of an item.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to get
     * @return The item or null if not found
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static Map<String, AttributeValue> getItem(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key) {

        // Define the get parameters
        GetItemRequest request =
            GetItemRequest.builder().tableName(tableName).key(key).build();

        // Perform the get operation
        try {
            GetItemResponse response = dynamoDbClient.getItem(request);

            // Return the item if it exists, otherwise null
            return response.item();
        } catch (DynamoDbException e) {
            throw DynamoDbException.builder()
                .message("Failed to get item: " + e.getMessage())
                .cause(e)
                .build();
        }
    }
```
Contoh penggunaan urutan ekspresi pembaruan dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        // Example key
        Map<String, AttributeValue> key = new HashMap<>();
        key.put("ProductId", AttributeValue.builder().s("P12345").build());

        System.out.println("Demonstrating update expression order in DynamoDB");

        try {
            // Example 1: Demonstrate update order effects
            System.out.println("\nExample 1: Demonstrating update order effects");
            Map<String, Object> orderResults = demonstrateUpdateOrder(dynamoDbClient, tableName, key);

            if ((boolean) orderResults.get("success")) {
                System.out.println("SET first, then ADD:");
                System.out.println("  " + orderResults.get("setFirstResponse"));

                System.out.println("ADD first, then SET:");
                System.out.println("  " + orderResults.get("addFirstResponse"));

                System.out.println("SET with multiple attributes:");
                System.out.println("  " + orderResults.get("multiSetResponse"));

                System.out.println("SET with self-reference:");
                System.out.println("  " + orderResults.get("selfReferenceResponse"));
            } else {
                System.out.println("Error: " + orderResults.get("error"));
            }

            // Example 2: Update with SET first, then REMOVE
            System.out.println("\nExample 2: Update with SET first, then REMOVE");
            UpdateItemResponse setFirstResponse = updateWithSetFirst(
                dynamoDbClient,
                tableName,
                key,
                "Status",
                AttributeValue.builder().s("Active").build(),
                "OldStatus");

            System.out.println("Updated attributes: " + setFirstResponse.attributes());

            // Example 3: Update with REMOVE first, then SET
            System.out.println("\nExample 3: Update with REMOVE first, then SET");
            UpdateItemResponse removeFirstResponse = updateWithRemoveFirst(
                dynamoDbClient,
                tableName,
                key,
                "Status",
                AttributeValue.builder().s("Inactive").build(),
                "OldStatus");

            System.out.println("Updated attributes: " + removeFirstResponse.attributes());

            // Example 4: Update with all operation types
            System.out.println("\nExample 4: Update with all operation types");
            UpdateItemResponse allOpsResponse = updateWithAllOperationTypes(dynamoDbClient, tableName, key);

            System.out.println("Updated attributes: " + allOpsResponse.attributes());

            // Example 5: Get the current state of the item
            System.out.println("\nExample 5: Current state of the item");
            Map<String, AttributeValue> item = getItem(dynamoDbClient, tableName, key);

            if (item != null) {
                System.out.println("Item: " + item);
            } else {
                System.out.println("Item not found");
            }

            // Explain update expression order
            System.out.println("\nKey points about update expression order in DynamoDB:");
            System.out.println("1. Update expressions are processed in this order: SET, REMOVE, ADD, DELETE");
            System.out.println("2. Within each clause, operations are processed from left to right");
            System.out.println("3. SET operations use the item state before any updates in the expression");
            System.out.println("4. When an attribute is referenced multiple times, the first operation wins");
            System.out.println("5. To reference a new value, split the update into multiple operations");
            System.out.println("6. The order of clauses in the expression doesn't change the evaluation order");
            System.out.println("7. For complex updates, consider using multiple separate update operations");

        } catch (DynamoDbException e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui pengaturan throughput hangat tabel
<a name="dynamodb_UpdateTableWarmThroughput_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui pengaturan throughput hangat tabel.

**SDK untuk Java 2.x**  
Perbarui pengaturan throughput hangat pada tabel DynamoDB yang ada menggunakan. AWS SDK for Java 2.x  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.GlobalSecondaryIndexUpdate;
import software.amazon.awssdk.services.dynamodb.model.UpdateGlobalSecondaryIndexAction;
import software.amazon.awssdk.services.dynamodb.model.UpdateTableRequest;
import software.amazon.awssdk.services.dynamodb.model.WarmThroughput;

    public static WarmThroughput buildWarmThroughput(final Long readUnitsPerSecond, final Long writeUnitsPerSecond) {
        return WarmThroughput.builder()
            .readUnitsPerSecond(readUnitsPerSecond)
            .writeUnitsPerSecond(writeUnitsPerSecond)
            .build();
    }

    /**
     * Updates a DynamoDB table with warm throughput settings for both the table and a global secondary index.
     *
     * @param ddb The DynamoDB client
     * @param tableName The name of the table to update
     * @param tableReadUnitsPerSecond Read units per second for the table
     * @param tableWriteUnitsPerSecond Write units per second for the table
     * @param globalSecondaryIndexName The name of the global secondary index to update
     * @param globalSecondaryIndexReadUnitsPerSecond Read units per second for the GSI
     * @param globalSecondaryIndexWriteUnitsPerSecond Write units per second for the GSI
     */
    public static void updateDynamoDBTable(
        final DynamoDbClient ddb,
        final String tableName,
        final Long tableReadUnitsPerSecond,
        final Long tableWriteUnitsPerSecond,
        final String globalSecondaryIndexName,
        final Long globalSecondaryIndexReadUnitsPerSecond,
        final Long globalSecondaryIndexWriteUnitsPerSecond) {

        final WarmThroughput tableWarmThroughput =
            buildWarmThroughput(tableReadUnitsPerSecond, tableWriteUnitsPerSecond);
        final WarmThroughput gsiWarmThroughput =
            buildWarmThroughput(globalSecondaryIndexReadUnitsPerSecond, globalSecondaryIndexWriteUnitsPerSecond);

        final GlobalSecondaryIndexUpdate globalSecondaryIndexUpdate = GlobalSecondaryIndexUpdate.builder()
            .update(UpdateGlobalSecondaryIndexAction.builder()
                .indexName(globalSecondaryIndexName)
                .warmThroughput(gsiWarmThroughput)
                .build())
            .build();

        final UpdateTableRequest request = UpdateTableRequest.builder()
            .tableName(tableName)
            .globalSecondaryIndexUpdates(globalSecondaryIndexUpdate)
            .warmThroughput(tableWarmThroughput)
            .build();

        try {
            ddb.updateTable(request);
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            throw e;
        }

        System.out.println(SUCCESS_MESSAGE);
    }
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateTable)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui TTL item
<a name="dynamodb_UpdateItemTTL_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui TTL item.

**SDK untuk Java 2.x**  
Perbarui TTL pada item DynamoDB yang ada dalam tabel.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.ResourceNotFoundException;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.HashMap;
import java.util.Map;
import java.util.Optional;

    public UpdateItemResponse updateItemWithTTL(
        final String tableName, final String primaryKeyValue, final String sortKeyValue) {
        // Get current time in epoch second format
        final long currentTime = System.currentTimeMillis() / 1000;

        // Calculate expiration time 90 days from now in epoch second format
        final long expireDate = currentTime + (DAYS_TO_EXPIRE * SECONDS_PER_DAY);

        // Create the key map for the item to update
        final Map<String, AttributeValue> keyMap = new HashMap<>();
        keyMap.put(PRIMARY_KEY_ATTR, AttributeValue.builder().s(primaryKeyValue).build());
        keyMap.put(SORT_KEY_ATTR, AttributeValue.builder().s(sortKeyValue).build());

        // Create the expression attribute values
        final Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(
            ":c", AttributeValue.builder().n(String.valueOf(currentTime)).build());
        expressionAttributeValues.put(
            ":e", AttributeValue.builder().n(String.valueOf(expireDate)).build());

        final UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(keyMap)
            .updateExpression(UPDATE_EXPRESSION)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        try {
            final UpdateItemResponse response = dynamoDbClient.updateItem(request);
            System.out.println(String.format(SUCCESS_MESSAGE, tableName));
            return response;
        } catch (ResourceNotFoundException e) {
            System.err.format(TABLE_NOT_FOUND_ERROR, tableName);
            throw e;
        } catch (DynamoDbException e) {
            System.err.println(e.getMessage());
            throw e;
        }
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat AWS Lambda fungsi dengan menggunakan Lambda Java runtime API. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat fungsi Lambda yang diinvokasi oleh Amazon API Gateway yang memindai peringatan hari jadi kerja di tabel Amazon DynamoDB dan menggunakan Amazon Simple Notification Service (Amazon SNS) untuk mengirim pesan teks berisi ucapan selamat kepada karyawan Anda pada tanggal hari jadi kerja satu tahun mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lambda_apigateway).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Menggunakan Step Functions untuk menginvokasi fungsi Lambda
<a name="cross_ServerlessWorkflows_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat mesin AWS Step Functions status yang memanggil AWS Lambda fungsi secara berurutan.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat alur kerja AWS tanpa server dengan menggunakan AWS Step Functions dan. AWS SDK for Java 2.x Setiap langkah alur kerja diimplementasikan menggunakan AWS Lambda fungsi.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_workflows_stepfunctions).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda
+ Amazon SES
+ Step Functions

### Gunakan operasi penghitung atom
<a name="dynamodb_Scenario_AtomicCounterOperations_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan operasi penghitung atom di DynamoDB.
+ Penghitung kenaikan secara atom menggunakan operasi ADD dan SET.
+ Penghitung kenaikan aman yang mungkin tidak ada.
+ Menerapkan penguncian optimis untuk operasi counter.

**SDK untuk Java 2.x**  
Menunjukkan operasi penghitung atom menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.GetItemRequest;
import software.amazon.awssdk.services.dynamodb.model.GetItemResponse;
import software.amazon.awssdk.services.dynamodb.model.ReturnValue;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.HashMap;
import java.util.Map;

    /**
     * Increments a counter using the ADD operation.
     *
     * <p>This method demonstrates how to use the ADD operation to atomically
     * increment a counter attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param counterName The name of the counter attribute
     * @param incrementValue The value to increment by
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse incrementCounterWithAdd(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String counterName,
        int incrementValue) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("ADD #counterName :increment")
            .expressionAttributeNames(Map.of("#counterName", counterName))
            .expressionAttributeValues(Map.of(
                ":increment",
                AttributeValue.builder().n(String.valueOf(incrementValue)).build()))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Increments a counter using the SET operation.
     *
     * <p>This method demonstrates how to use the SET operation with an expression
     * to increment a counter attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param counterName The name of the counter attribute
     * @param incrementValue The value to increment by
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse incrementCounterWithSet(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String counterName,
        int incrementValue) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #counterName = #counterName + :increment")
            .expressionAttributeNames(Map.of("#counterName", counterName))
            .expressionAttributeValues(Map.of(
                ":increment",
                AttributeValue.builder().n(String.valueOf(incrementValue)).build()))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Increments a counter safely, handling the case where the counter doesn't exist yet.
     *
     * <p>This method demonstrates how to use if_not_exists to safely increment a counter
     * that may not exist yet.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param counterName The name of the counter attribute
     * @param incrementValue The value to increment by
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse incrementCounterSafely(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String counterName,
        int incrementValue) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #counterName = if_not_exists(#counterName, :zero) + :increment")
            .expressionAttributeNames(Map.of("#counterName", counterName))
            .expressionAttributeValues(Map.of(
                ":increment",
                    AttributeValue.builder().n(String.valueOf(incrementValue)).build(),
                ":zero", AttributeValue.builder().n("0").build()))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Decrements a counter safely, ensuring it doesn't go below zero.
     *
     * <p>This method demonstrates how to use a condition expression to safely
     * decrement a counter without going below zero.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param counterName The name of the counter attribute
     * @param decrementValue The value to decrement by
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation or if the counter would go below zero
     */
    public static UpdateItemResponse decrementCounterSafely(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String counterName,
        int decrementValue) {

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #counterName = #counterName - :decrement")
            .conditionExpression("#counterName >= :decrement")
            .expressionAttributeNames(Map.of("#counterName", counterName))
            .expressionAttributeValues(Map.of(
                ":decrement",
                AttributeValue.builder().n(String.valueOf(decrementValue)).build()))
            .returnValues(ReturnValue.UPDATED_NEW)
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Compares the ADD and SET approaches for incrementing counters.
     *
     * <p>This method demonstrates the differences between using ADD and SET
     * for incrementing counters in DynamoDB.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @return Map containing the comparison results
     */
    public static Map<String, Object> compareAddVsSet(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key) {

        Map<String, Object> results = new HashMap<>();

        try {
            // Reset counters to ensure a fair comparison
            UpdateItemRequest resetRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET AddCounter = :zero, SetCounter = :zero")
                .expressionAttributeValues(
                    Map.of(":zero", AttributeValue.builder().n("0").build()))
                .build();

            dynamoDbClient.updateItem(resetRequest);

            // Increment with ADD
            long addStartTime = System.nanoTime();
            UpdateItemResponse addResponse = incrementCounterWithAdd(dynamoDbClient, tableName, key, "AddCounter", 1);
            long addEndTime = System.nanoTime();
            long addDuration = addEndTime - addStartTime;

            // Increment with SET
            long setStartTime = System.nanoTime();
            UpdateItemResponse setResponse = incrementCounterWithSet(dynamoDbClient, tableName, key, "SetCounter", 1);
            long setEndTime = System.nanoTime();
            long setDuration = setEndTime - setStartTime;

            // Record results
            results.put("addResponse", addResponse);
            results.put("setResponse", setResponse);
            results.put("addDuration", addDuration);
            results.put("setDuration", setDuration);
            results.put("success", true);

        } catch (DynamoDbException e) {
            results.put("success", false);
            results.put("error", e.getMessage());
        }

        return results;
    }

    /**
     * Gets the current value of a counter attribute.
     *
     * <p>Helper method to retrieve the current value of a counter attribute.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to get
     * @param counterName The name of the counter attribute
     * @return The counter value or null if not found
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static Integer getCounterValue(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key, String counterName) {

        // Define the get parameters
        GetItemRequest request = GetItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .projectionExpression(counterName)
            .build();

        // Perform the get operation
        GetItemResponse response = dynamoDbClient.getItem(request);

        // Return the counter value if it exists, otherwise null
        if (response.item() != null && response.item().containsKey(counterName)) {
            return Integer.parseInt(response.item().get(counterName).n());
        }

        return null;
    }
```
Contoh penggunaan operasi penghitung atom dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        // Example key
        Map<String, AttributeValue> key = new HashMap<>();
        key.put("ProductId", AttributeValue.builder().s("P12345").build());

        System.out.println("Demonstrating atomic counter operations in DynamoDB");

        try {
            // Example 1: Increment a counter using ADD
            System.out.println("\nExample 1: Incrementing a counter using ADD");
            UpdateItemResponse addResponse = incrementCounterWithAdd(dynamoDbClient, tableName, key, "ViewCount", 1);

            System.out.println("Updated counter: " + addResponse.attributes());

            // Example 2: Increment a counter using SET
            System.out.println("\nExample 2: Incrementing a counter using SET");
            UpdateItemResponse setResponse = incrementCounterWithSet(dynamoDbClient, tableName, key, "LikeCount", 1);

            System.out.println("Updated counter: " + setResponse.attributes());

            // Example 3: Increment a counter safely
            System.out.println("\nExample 3: Incrementing a counter safely");
            UpdateItemResponse safeResponse = incrementCounterSafely(dynamoDbClient, tableName, key, "ShareCount", 1);

            System.out.println("Updated counter: " + safeResponse.attributes());

            // Example 4: Decrement a counter safely
            System.out.println("\nExample 4: Decrementing a counter safely");
            try {
                UpdateItemResponse decrementResponse =
                    decrementCounterSafely(dynamoDbClient, tableName, key, "InventoryCount", 1);

                System.out.println("Updated counter: " + decrementResponse.attributes());
            } catch (DynamoDbException e) {
                if (e.getMessage().contains("ConditionalCheckFailed")) {
                    System.out.println("Cannot decrement counter below zero");
                } else {
                    throw e;
                }
            }

            // Example 5: Compare ADD vs SET
            System.out.println("\nExample 5: Comparing ADD vs SET");
            Map<String, Object> comparison = compareAddVsSet(dynamoDbClient, tableName, key);

            if ((boolean) comparison.get("success")) {
                System.out.println("ADD duration: " + comparison.get("addDuration") + " ns");
                System.out.println("SET duration: " + comparison.get("setDuration") + " ns");
                System.out.println("ADD response: " + comparison.get("addResponse"));
                System.out.println("SET response: " + comparison.get("setResponse"));
            } else {
                System.out.println("Comparison failed: " + comparison.get("error"));
            }

            // Explain atomic counter operations
            System.out.println("\nKey points about DynamoDB atomic counter operations:");
            System.out.println("1. Both ADD and SET can be used for atomic counters");
            System.out.println("2. ADD is more concise for simple increments");
            System.out.println("3. SET with an expression is more flexible for complex operations");
            System.out.println("4. Use if_not_exists to handle the case where the counter doesn't exist yet");
            System.out.println("5. Use condition expressions to prevent counters from going below zero");
            System.out.println("6. Atomic operations are guaranteed to be isolated from other writes");
            System.out.println("7. ADD can only be used with number and set data types");

        } catch (DynamoDbException e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK for Java 2.x API*. 

### Gunakan operasi bersyarat
<a name="dynamodb_Scenario_ConditionalOperations_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan operasi bersyarat di DynamoDB.
+ Menerapkan penulisan bersyarat untuk mencegah penimpaan data.
+ Gunakan ekspresi kondisi untuk menegakkan aturan bisnis.
+ Tangani kegagalan pemeriksaan bersyarat dengan anggun.

**SDK untuk Java 2.x**  
Menunjukkan operasi bersyarat menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.ConditionalCheckFailedException;
import software.amazon.awssdk.services.dynamodb.model.DeleteItemRequest;
import software.amazon.awssdk.services.dynamodb.model.DeleteItemResponse;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.GetItemRequest;
import software.amazon.awssdk.services.dynamodb.model.GetItemResponse;
import software.amazon.awssdk.services.dynamodb.model.ReturnValue;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.HashMap;
import java.util.Map;

    /**
     * Performs a conditional update on an item.
     *
     * <p>This method demonstrates how to use a condition expression to update an item
     * only if a specific condition is met.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param conditionAttribute The attribute to check in the condition
     * @param conditionValue The value to compare against
     * @param updateAttribute The attribute to update
     * @param updateValue The new value to set
     * @return Map containing the operation result and status
     */
    public static Map<String, Object> conditionalUpdate(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String conditionAttribute,
        AttributeValue conditionValue,
        String updateAttribute,
        AttributeValue updateValue) {

        Map<String, Object> result = new HashMap<>();

        try {
            // Define the update parameters
            UpdateItemRequest request = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET #updateAttr = :updateVal")
                .conditionExpression("#condAttr = :condVal")
                .expressionAttributeNames(Map.of(
                    "#condAttr", conditionAttribute,
                    "#updateAttr", updateAttribute))
                .expressionAttributeValues(Map.of(
                    ":condVal", conditionValue,
                    ":updateVal", updateValue))
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            // Perform the update operation
            UpdateItemResponse response = dynamoDbClient.updateItem(request);

            // Record success result
            result.put("success", true);
            result.put("message", "Condition was met and update was performed");
            result.put("attributes", response.attributes());

        } catch (ConditionalCheckFailedException e) {
            // Record failure due to condition not being met
            result.put("success", false);
            result.put("message", "Condition was not met, update was not performed");
            result.put("error", "ConditionalCheckFailedException");

        } catch (DynamoDbException e) {
            // Record failure due to other errors
            result.put("success", false);
            result.put("message", "Error occurred: " + e.getMessage());
            result.put("error", e.getClass().getSimpleName());
        }

        return result;
    }

    /**
     * Performs a conditional delete on an item.
     *
     * <p>This method demonstrates how to use a condition expression to delete an item
     * only if a specific condition is met.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to delete
     * @param conditionAttribute The attribute to check in the condition
     * @param conditionValue The value to compare against
     * @return Map containing the operation result and status
     */
    public static Map<String, Object> conditionalDelete(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String conditionAttribute,
        AttributeValue conditionValue) {

        Map<String, Object> result = new HashMap<>();

        try {
            // Define the delete parameters
            DeleteItemRequest request = DeleteItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .conditionExpression("#condAttr = :condVal")
                .expressionAttributeNames(Map.of("#condAttr", conditionAttribute))
                .expressionAttributeValues(Map.of(":condVal", conditionValue))
                .returnValues(ReturnValue.ALL_OLD)
                .build();

            // Perform the delete operation
            DeleteItemResponse response = dynamoDbClient.deleteItem(request);

            // Record success result
            result.put("success", true);
            result.put("message", "Condition was met and delete was performed");
            result.put("attributes", response.attributes());

        } catch (ConditionalCheckFailedException e) {
            // Record failure due to condition not being met
            result.put("success", false);
            result.put("message", "Condition was not met, delete was not performed");
            result.put("error", "ConditionalCheckFailedException");

        } catch (DynamoDbException e) {
            // Record failure due to other errors
            result.put("success", false);
            result.put("message", "Error occurred: " + e.getMessage());
            result.put("error", e.getClass().getSimpleName());
        }

        return result;
    }

    /**
     * Demonstrates optimistic locking using a version attribute.
     *
     * <p>This method shows how to implement optimistic locking by using a version
     * attribute that is incremented with each update.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param versionAttribute The name of the version attribute
     * @return Map containing the operation result
     */
    public static Map<String, Object> optimisticLockingExample(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> key, String versionAttribute) {

        Map<String, Object> result = new HashMap<>();

        try {
            // Get the current version of the item
            GetItemRequest getRequest = GetItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .projectionExpression(versionAttribute)
                .build();

            GetItemResponse getResponse = dynamoDbClient.getItem(getRequest);

            // Check if the item exists
            if (getResponse.item() == null || !getResponse.item().containsKey(versionAttribute)) {
                // Item doesn't exist or doesn't have a version attribute
                // Initialize with version 1
                UpdateItemRequest initRequest = UpdateItemRequest.builder()
                    .tableName(tableName)
                    .key(key)
                    .updateExpression("SET #verAttr = :newVer, #dataAttr = :data")
                    .expressionAttributeNames(Map.of("#verAttr", versionAttribute, "#dataAttr", "Data"))
                    .expressionAttributeValues(Map.of(
                        ":newVer", AttributeValue.builder().n("1").build(),
                        ":data", AttributeValue.builder().s("Initial data").build()))
                    .returnValues(ReturnValue.UPDATED_NEW)
                    .build();

                UpdateItemResponse initResponse = dynamoDbClient.updateItem(initRequest);

                result.put("operation", "initialize");
                result.put("success", true);
                result.put("attributes", initResponse.attributes());

                return result;
            }

            // Get the current version number
            int currentVersion =
                Integer.parseInt(getResponse.item().get(versionAttribute).n());
            int newVersion = currentVersion + 1;

            // Update the item with a condition on the version
            UpdateItemRequest updateRequest = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET #verAttr = :newVer, #dataAttr = :newData")
                .conditionExpression("#verAttr = :curVer")
                .expressionAttributeNames(Map.of("#verAttr", versionAttribute, "#dataAttr", "Data"))
                .expressionAttributeValues(Map.of(
                    ":curVer",
                        AttributeValue.builder()
                            .n(String.valueOf(currentVersion))
                            .build(),
                    ":newVer",
                        AttributeValue.builder().n(String.valueOf(newVersion)).build(),
                    ":newData",
                        AttributeValue.builder()
                            .s("Updated data at version " + newVersion)
                            .build()))
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            UpdateItemResponse updateResponse = dynamoDbClient.updateItem(updateRequest);

            // Record success result
            result.put("operation", "update");
            result.put("success", true);
            result.put("oldVersion", currentVersion);
            result.put("newVersion", newVersion);
            result.put("attributes", updateResponse.attributes());

        } catch (ConditionalCheckFailedException e) {
            // Record failure due to version mismatch
            result.put("operation", "update");
            result.put("success", false);
            result.put("message", "Version mismatch, another process may have updated the item");
            result.put("error", "ConditionalCheckFailedException");

        } catch (DynamoDbException e) {
            // Record failure due to other errors
            result.put("operation", "update");
            result.put("success", false);
            result.put("message", "Error occurred: " + e.getMessage());
            result.put("error", e.getClass().getSimpleName());
        }

        return result;
    }

    /**
     * Performs a conditional update with multiple conditions.
     *
     * <p>This method demonstrates how to use multiple conditions in a condition expression.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param conditions Map of attribute names to values for conditions
     * @param updateAttribute The attribute to update
     * @param updateValue The new value to set
     * @return Map containing the operation result and status
     */
    public static Map<String, Object> conditionalUpdateWithMultipleConditions(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        Map<String, AttributeValue> conditions,
        String updateAttribute,
        AttributeValue updateValue) {

        Map<String, Object> result = new HashMap<>();

        try {
            // Build the condition expression and attribute names/values
            StringBuilder conditionExpression = new StringBuilder();
            Map<String, String> expressionAttributeNames = new HashMap<>();
            Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();

            // Add update attribute
            expressionAttributeNames.put("#updateAttr", updateAttribute);
            expressionAttributeValues.put(":updateVal", updateValue);

            // Add conditions
            int i = 0;
            for (Map.Entry<String, AttributeValue> condition : conditions.entrySet()) {
                String attrName = condition.getKey();
                AttributeValue attrValue = condition.getValue();

                String nameKey = "#cond" + i;
                String valueKey = ":val" + i;

                expressionAttributeNames.put(nameKey, attrName);
                expressionAttributeValues.put(valueKey, attrValue);

                // Add AND between conditions (except for the first one)
                if (i > 0) {
                    conditionExpression.append(" AND ");
                }

                conditionExpression.append(nameKey).append(" = ").append(valueKey);
                i++;
            }

            // Define the update parameters
            UpdateItemRequest request = UpdateItemRequest.builder()
                .tableName(tableName)
                .key(key)
                .updateExpression("SET #updateAttr = :updateVal")
                .conditionExpression(conditionExpression.toString())
                .expressionAttributeNames(expressionAttributeNames)
                .expressionAttributeValues(expressionAttributeValues)
                .returnValues(ReturnValue.UPDATED_NEW)
                .build();

            // Perform the update operation
            UpdateItemResponse response = dynamoDbClient.updateItem(request);

            // Record success result
            result.put("success", true);
            result.put("message", "All conditions were met and update was performed");
            result.put("attributes", response.attributes());

        } catch (ConditionalCheckFailedException e) {
            // Record failure due to condition not being met
            result.put("success", false);
            result.put("message", "One or more conditions were not met, update was not performed");
            result.put("error", "ConditionalCheckFailedException");

        } catch (DynamoDbException e) {
            // Record failure due to other errors
            result.put("success", false);
            result.put("message", "Error occurred: " + e.getMessage());
            result.put("error", e.getClass().getSimpleName());
        }

        return result;
    }
```
Contoh penggunaan operasi bersyarat dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        // Example key
        Map<String, AttributeValue> key = new HashMap<>();
        key.put("ProductId", AttributeValue.builder().s("P12345").build());

        System.out.println("Demonstrating conditional operations in DynamoDB");

        try {
            // Example 1: Conditional update
            System.out.println("\nExample 1: Conditional update");
            Map<String, Object> updateResult = conditionalUpdate(
                dynamoDbClient,
                tableName,
                key,
                "InStock",
                AttributeValue.builder().bool(true).build(),
                "Status",
                AttributeValue.builder().s("Available").build());

            System.out.println("Update result: " + updateResult.get("message"));
            if ((boolean) updateResult.get("success")) {
                System.out.println("Updated attributes: " + updateResult.get("attributes"));
            }

            // Example 2: Conditional delete
            System.out.println("\nExample 2: Conditional delete");
            Map<String, Object> deleteResult = conditionalDelete(
                dynamoDbClient,
                tableName,
                key,
                "Status",
                AttributeValue.builder().s("Discontinued").build());

            System.out.println("Delete result: " + deleteResult.get("message"));
            if ((boolean) deleteResult.get("success")) {
                System.out.println("Deleted item: " + deleteResult.get("attributes"));
            }

            // Example 3: Optimistic locking
            System.out.println("\nExample 3: Optimistic locking");
            Map<String, Object> lockingResult = optimisticLockingExample(dynamoDbClient, tableName, key, "Version");

            System.out.println("Optimistic locking result:");
            System.out.println("  Operation: " + lockingResult.get("operation"));
            System.out.println("  Success: " + lockingResult.get("success"));
            if (lockingResult.get("operation").equals("update") && (boolean) lockingResult.get("success")) {
                System.out.println("  Old version: " + lockingResult.get("oldVersion"));
                System.out.println("  New version: " + lockingResult.get("newVersion"));
            }
            System.out.println("  Attributes: " + lockingResult.get("attributes"));

            // Example 4: Multiple conditions
            System.out.println("\nExample 4: Multiple conditions");
            Map<String, AttributeValue> conditions = new HashMap<>();
            conditions.put("Price", AttributeValue.builder().n("199.99").build());
            conditions.put("Category", AttributeValue.builder().s("Electronics").build());

            Map<String, Object> multiConditionResult = conditionalUpdateWithMultipleConditions(
                dynamoDbClient,
                tableName,
                key,
                conditions,
                "OnSale",
                AttributeValue.builder().bool(true).build());

            System.out.println("Multiple conditions result: " + multiConditionResult.get("message"));
            if ((boolean) multiConditionResult.get("success")) {
                System.out.println("Updated attributes: " + multiConditionResult.get("attributes"));
            }

            // Explain conditional operations
            System.out.println("\nKey points about DynamoDB conditional operations:");
            System.out.println("1. Conditional operations only succeed if the condition is met");
            System.out.println("2. ConditionalCheckFailedException is thrown when the condition fails");
            System.out.println("3. No changes are made to the item if the condition fails");
            System.out.println("4. Conditions can be used with update, delete, and put operations");
            System.out.println("5. Multiple conditions can be combined with AND and OR");
            System.out.println("6. Optimistic locking can be implemented using a version attribute");
            System.out.println(
                "7. Conditional operations consume the same amount of write capacity whether they succeed or fail");

        } catch (DynamoDbException e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [DeleteItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/DeleteItem)
  + [PutItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/PutItem)
  + [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)

### Gunakan nama atribut ekspresi
<a name="dynamodb_Scenario_ExpressionAttributeNames_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan nama atribut ekspresi di DynamoDB.
+ Bekerja dengan kata-kata yang dicadangkan dalam ekspresi DynamoDB.
+ Gunakan placeholder nama atribut ekspresi.
+ Menangani karakter khusus dalam nama atribut.

**SDK untuk Java 2.x**  
Menunjukkan nama atribut ekspresi menggunakan AWS SDK for Java 2.x.  

```
import software.amazon.awssdk.services.dynamodb.DynamoDbClient;
import software.amazon.awssdk.services.dynamodb.model.AttributeValue;
import software.amazon.awssdk.services.dynamodb.model.DynamoDbException;
import software.amazon.awssdk.services.dynamodb.model.QueryRequest;
import software.amazon.awssdk.services.dynamodb.model.QueryResponse;
import software.amazon.awssdk.services.dynamodb.model.ScanRequest;
import software.amazon.awssdk.services.dynamodb.model.ScanResponse;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemRequest;
import software.amazon.awssdk.services.dynamodb.model.UpdateItemResponse;

import java.util.Arrays;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

    /**
     * Updates an attribute that is a reserved word in DynamoDB.
     *
     * <p>This method demonstrates how to use expression attribute names to update
     * attributes that are reserved words in DynamoDB.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param reservedWordAttribute The reserved word attribute to update
     * @param value The value to set
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse updateReservedWordAttribute(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String reservedWordAttribute,
        AttributeValue value) {

        // Define the update parameters using expression attribute names
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #attr = :value")
            .expressionAttributeNames(Map.of("#attr", reservedWordAttribute))
            .expressionAttributeValues(Map.of(":value", value))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Updates an attribute that contains special characters.
     *
     * <p>This method demonstrates how to use expression attribute names to update
     * attributes that contain special characters.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param specialCharAttribute The attribute with special characters to update
     * @param value The value to set
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse updateSpecialCharacterAttribute(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        String specialCharAttribute,
        AttributeValue value) {

        // Define the update parameters using expression attribute names
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET #attr = :value")
            .expressionAttributeNames(Map.of("#attr", specialCharAttribute))
            .expressionAttributeValues(Map.of(":value", value))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Queries items using an attribute that is a reserved word.
     *
     * <p>This method demonstrates how to use expression attribute names in a query
     * when the attribute is a reserved word.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param partitionKeyName The name of the partition key attribute
     * @param partitionKeyValue The value of the partition key
     * @param reservedWordAttribute The reserved word attribute to filter on
     * @param value The value to compare against
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static QueryResponse queryWithReservedWordAttribute(
        DynamoDbClient dynamoDbClient,
        String tableName,
        String partitionKeyName,
        AttributeValue partitionKeyValue,
        String reservedWordAttribute,
        AttributeValue value) {

        // Define the query parameters using expression attribute names
        Map<String, String> expressionAttributeNames = new HashMap<>();
        expressionAttributeNames.put("#pkName", partitionKeyName);
        expressionAttributeNames.put("#attr", reservedWordAttribute);

        Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        expressionAttributeValues.put(":pkValue", partitionKeyValue);
        expressionAttributeValues.put(":value", value);

        QueryRequest request = QueryRequest.builder()
            .tableName(tableName)
            .keyConditionExpression("#pkName = :pkValue")
            .filterExpression("#attr = :value")
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        // Perform the query operation
        return dynamoDbClient.query(request);
    }

    /**
     * Updates a nested attribute with a path that contains reserved words.
     *
     * <p>This method demonstrates how to use expression attribute names to update
     * nested attributes where the path contains reserved words.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param key The key of the item to update
     * @param attributePath The path to the nested attribute as an array
     * @param value The value to set
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static UpdateItemResponse updateNestedReservedWordAttribute(
        DynamoDbClient dynamoDbClient,
        String tableName,
        Map<String, AttributeValue> key,
        List<String> attributePath,
        AttributeValue value) {

        // Create expression attribute names for each part of the path
        Map<String, String> expressionAttributeNames = new HashMap<>();
        for (int i = 0; i < attributePath.size(); i++) {
            expressionAttributeNames.put("#attr" + i, attributePath.get(i));
        }

        // Build the attribute path using the expression attribute names
        StringBuilder attributePathExpression = new StringBuilder();
        for (int i = 0; i < attributePath.size(); i++) {
            if (i > 0) {
                attributePathExpression.append(".");
            }
            attributePathExpression.append("#attr").append(i);
        }

        // Define the update parameters
        UpdateItemRequest request = UpdateItemRequest.builder()
            .tableName(tableName)
            .key(key)
            .updateExpression("SET " + attributePathExpression.toString() + " = :value")
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(Map.of(":value", value))
            .returnValues("UPDATED_NEW")
            .build();

        // Perform the update operation
        return dynamoDbClient.updateItem(request);
    }

    /**
     * Scans a table with multiple attribute name placeholders.
     *
     * <p>This method demonstrates how to use multiple expression attribute names
     * in a complex filter expression.
     *
     * @param dynamoDbClient The DynamoDB client
     * @param tableName The name of the DynamoDB table
     * @param filters Object mapping attribute names to filter values
     * @return The response from DynamoDB
     * @throws DynamoDbException if an error occurs during the operation
     */
    public static ScanResponse scanWithMultipleAttributeNames(
        DynamoDbClient dynamoDbClient, String tableName, Map<String, AttributeValue> filters) {

        // Create expression attribute names and values
        Map<String, String> expressionAttributeNames = new HashMap<>();
        Map<String, AttributeValue> expressionAttributeValues = new HashMap<>();
        StringBuilder filterExpression = new StringBuilder();

        // Build the filter expression
        int index = 0;
        for (Map.Entry<String, AttributeValue> entry : filters.entrySet()) {
            String attrName = entry.getKey();
            AttributeValue attrValue = entry.getValue();

            String nameKey = "#attr" + index;
            String valueKey = ":val" + index;

            expressionAttributeNames.put(nameKey, attrName);
            expressionAttributeValues.put(valueKey, attrValue);

            // Add AND between conditions (except for the first one)
            if (index > 0) {
                filterExpression.append(" AND ");
            }

            filterExpression.append(nameKey).append(" = ").append(valueKey);
            index++;
        }

        // Define the scan parameters
        ScanRequest request = ScanRequest.builder()
            .tableName(tableName)
            .filterExpression(filterExpression.toString())
            .expressionAttributeNames(expressionAttributeNames)
            .expressionAttributeValues(expressionAttributeValues)
            .build();

        // Perform the scan operation
        return dynamoDbClient.scan(request);
    }
```
Contoh penggunaan nama atribut ekspresi dengan AWS SDK for Java 2.x.  

```
    public static void exampleUsage(DynamoDbClient dynamoDbClient, String tableName) {
        // Example key
        Map<String, AttributeValue> key = new HashMap<>();
        key.put("ProductId", AttributeValue.builder().s("P12345").build());

        System.out.println("Demonstrating expression attribute names in DynamoDB");

        try {
            // Example 1: Update an attribute that is a reserved word
            System.out.println("\nExample 1: Updating an attribute that is a reserved word");
            UpdateItemResponse response1 = updateReservedWordAttribute(
                dynamoDbClient,
                tableName,
                key,
                "Size", // "SIZE" is a reserved word in DynamoDB
                AttributeValue.builder().s("Large").build());

            System.out.println("Updated attribute: " + response1.attributes());

            // Example 2: Update an attribute with special characters
            System.out.println("\nExample 2: Updating an attribute with special characters");
            UpdateItemResponse response2 = updateSpecialCharacterAttribute(
                dynamoDbClient,
                tableName,
                key,
                "Product-Type", // Contains a hyphen, which is a special character
                AttributeValue.builder().s("Electronics").build());

            System.out.println("Updated attribute: " + response2.attributes());

            // Example 3: Query with a reserved word attribute
            System.out.println("\nExample 3: Querying with a reserved word attribute");
            QueryResponse response3 = queryWithReservedWordAttribute(
                dynamoDbClient,
                tableName,
                "Category",
                AttributeValue.builder().s("Electronics").build(),
                "Count", // "COUNT" is a reserved word in DynamoDB
                AttributeValue.builder().n("10").build());

            System.out.println("Found " + response3.count() + " items");

            // Example 4: Update a nested attribute with reserved words in the path
            System.out.println("\nExample 4: Updating a nested attribute with reserved words in the path");
            UpdateItemResponse response4 = updateNestedReservedWordAttribute(
                dynamoDbClient,
                tableName,
                key,
                Arrays.asList("Dimensions", "Size", "Height"), // "SIZE" is a reserved word
                AttributeValue.builder().n("30").build());

            System.out.println("Updated nested attribute: " + response4.attributes());

            // Example 5: Scan with multiple attribute name placeholders
            System.out.println("\nExample 5: Scanning with multiple attribute name placeholders");
            Map<String, AttributeValue> filters = new HashMap<>();
            filters.put("Size", AttributeValue.builder().s("Large").build());
            filters.put("Count", AttributeValue.builder().n("10").build());
            filters.put(
                "Product-Type", AttributeValue.builder().s("Electronics").build());

            ScanResponse response5 = scanWithMultipleAttributeNames(dynamoDbClient, tableName, filters);

            System.out.println("Found " + response5.count() + " items");

            // Show some common reserved words
            System.out.println("\nSome common DynamoDB reserved words:");
            List<String> commonReservedWords = getDynamoDBReservedWords();
            System.out.println(String.join(", ", commonReservedWords));

            // Explain expression attribute names
            System.out.println("\nKey points about expression attribute names:");
            System.out.println("1. Use expression attribute names (#name) for reserved words");
            System.out.println("2. Use expression attribute names for attributes with special characters");
            System.out.println(
                "3. Special characters include: spaces, hyphens, dots, and other non-alphanumeric characters");
            System.out.println("4. Expression attribute names are required for nested attributes with reserved words");
            System.out.println("5. You can use multiple expression attribute names in a single expression");
            System.out.println("6. Expression attribute names are case-sensitive");
            System.out.println("7. Expression attribute names are only used in expressions, not in the actual data");

        } catch (DynamoDbException e) {
            System.err.println("Error: " + e.getMessage());
            e.printStackTrace();
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [Kueri](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/Query)
  + [UpdateItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/dynamodb-2012-08-10/UpdateItem)

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda menggunakan API runtime Java Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_scheduled_events).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil muatan DynamoDB dan mencatat isi catatan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Java.  

```
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.DynamodbEvent;
import com.amazonaws.services.lambda.runtime.events.DynamodbEvent.DynamodbStreamRecord;
import com.google.gson.Gson;
import com.google.gson.GsonBuilder;

public class example implements RequestHandler<DynamodbEvent, Void> {

    private static final Gson GSON = new GsonBuilder().setPrettyPrinting().create();

    @Override
    public Void handleRequest(DynamodbEvent event, Context context) {
        System.out.println(GSON.toJson(event));
        event.getRecords().forEach(this::logDynamoDBRecord);
        return null;
    }

    private void logDynamoDBRecord(DynamodbStreamRecord record) {
        System.out.println(record.getEventID());
        System.out.println(record.getEventName());
        System.out.println("DynamoDB Record: " + GSON.toJson(record.getDynamodb()));
    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.DynamodbEvent;
import com.amazonaws.services.lambda.runtime.events.StreamsEventResponse;
import com.amazonaws.services.lambda.runtime.events.models.dynamodb.StreamRecord;

import java.util.ArrayList;
import java.util.List;

public class ProcessDynamodbRecords implements RequestHandler<DynamodbEvent, StreamsEventResponse> {

    @Override
    public StreamsEventResponse handleRequest(DynamodbEvent input, Context context) {

        List<StreamsEventResponse.BatchItemFailure> batchItemFailures = new ArrayList<>();
        String curRecordSequenceNumber = "";

        for (DynamodbEvent.DynamodbStreamRecord dynamodbStreamRecord : input.getRecords()) {
          try {
                //Process your record
                StreamRecord dynamodbRecord = dynamodbStreamRecord.getDynamodb();
                curRecordSequenceNumber = dynamodbRecord.getSequenceNumber();
                
            } catch (Exception e) {
                /* Since we are working with streams, we can return the failed item immediately.
                   Lambda will immediately begin to retry processing from this failed item onwards. */
                batchItemFailures.add(new StreamsEventResponse.BatchItemFailure(curRecordSequenceNumber));
                return new StreamsEventResponse(batchItemFailures);
            }
        }
       
       return new StreamsEventResponse();   
    }
}
```

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk Java 2.x**  
 Menunjukkan cara membangun dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Java SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-java-frameworks-samples).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh Amazon EC2 menggunakan SDK for Java 2.x
<a name="java_2_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon EC2. AWS SDK for Java 2.x 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Asynchronously describes the security groups for the specified group ID.
     *
     * @param groupName the name of the security group to describe
     * @return a {@link CompletableFuture} that represents the asynchronous operation
     *         of describing the security groups. The future will complete with a
     *         {@link DescribeSecurityGroupsResponse} object that contains the
     *         security group information.
     */
    public CompletableFuture<String> describeSecurityGroupArnByNameAsync(String groupName) {
        DescribeSecurityGroupsRequest request = DescribeSecurityGroupsRequest.builder()
            .groupNames(groupName)
            .build();

        DescribeSecurityGroupsPublisher paginator = getAsyncClient().describeSecurityGroupsPaginator(request);
        AtomicReference<String> groupIdRef = new AtomicReference<>();
        return paginator.subscribe(response -> {
            response.securityGroups().stream()
                .filter(securityGroup -> securityGroup.groupName().equals(groupName))
                .findFirst()
                .ifPresent(securityGroup -> groupIdRef.set(securityGroup.groupId()));
        }).thenApply(v -> {
            String groupId = groupIdRef.get();
            if (groupId == null) {
                throw new RuntimeException("No security group found with the name: " + groupName);
            }
            return groupId;
        }).exceptionally(ex -> {
            logger.info("Failed to describe security group: " + ex.getMessage());
            throw new RuntimeException("Failed to describe security group", ex);
        });
    }
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSecurityGroups)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ec2_Scenario_GetStartedInstances_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat pasangan kunci dan grup keamanan.
+ Memilih Amazon Machine Image (AMI) dan tipe instans yang kompatibel, lalu membuat instans.
+ Menghentikan dan memulai ulang instans.
+ Kaitkan alamat IP Elastis dengan instans Anda.
+ Menghubungkan instans Anda dengan SSH, lalu membersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 
Menjalankan skenario di prompt perintah.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.ec2.model.CreateKeyPairResponse;
import software.amazon.awssdk.services.ec2.model.DeleteKeyPairResponse;
import software.amazon.awssdk.services.ec2.model.DescribeKeyPairsResponse;
import software.amazon.awssdk.services.ec2.model.DisassociateAddressResponse;
import software.amazon.awssdk.services.ec2.model.Ec2Exception;
import software.amazon.awssdk.services.ec2.model.ReleaseAddressResponse;
import software.amazon.awssdk.services.ssm.model.GetParametersByPathResponse;
import software.amazon.awssdk.services.ssm.model.Parameter;

import java.net.InetAddress;
import java.net.UnknownHostException;
import java.util.List;
import java.util.Scanner;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;

/**
 * Before running this Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This Java example performs the following tasks:
 *
 * 1. Creates an RSA key pair and saves the private key data as a .pem file.
 * 2. Lists key pairs.
 * 3. Creates a security group for the default VPC.
 * 4. Displays security group information.
 * 5. Gets a list of Amazon Linux 2 AMIs and selects one.
 * 6. Gets additional information about the image.
 * 7. Gets a list of instance types that are compatible with the selected AMI’s
 * architecture.
 * 8. Creates an instance with the key pair, security group, AMI, and an
 * instance type.
 * 9. Displays information about the instance.
 * 10. Stops the instance and waits for it to stop.
 * 11. Starts the instance and waits for it to start.
 * 12. Allocates an Elastic IP address and associates it with the instance.
 * 13. Displays SSH connection info for the instance.
 * 14. Disassociates and deletes the Elastic IP address.
 * 15. Terminates the instance and waits for it to terminate.
 * 16. Deletes the security group.
 * 17. Deletes the key pair.
 */
public class EC2Scenario {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final Logger logger = LoggerFactory.getLogger(EC2Scenario.class);
    public static void main(String[] args) throws InterruptedException, UnknownHostException {

        logger.info("""
            Usage:
               <keyName> <fileName> <groupName> <groupDesc> 

            Where:
               keyName -  A key pair name (for example, TestKeyPair).\s
               fileName -  A file name where the key information is written to.\s
               groupName - The name of the security group.\s
               groupDesc - The description of the security group.\s
            """);

        Scanner scanner = new Scanner(System.in);
        EC2Actions ec2Actions = new EC2Actions();

        String keyName = "TestKeyPair7" ;
        String fileName = "ec2Key.pem";
        String groupName = "TestSecGroup7" ;
        String groupDesc = "Test Group" ;
        String vpcId = ec2Actions.describeFirstEC2VpcAsync().join().vpcId();
        InetAddress localAddress = InetAddress.getLocalHost();
        String myIpAddress = localAddress.getHostAddress();

        logger.info("""
            Amazon Elastic Compute Cloud (EC2) is a web service that provides secure, resizable compute 
            capacity in the cloud. It allows developers and organizations to easily launch and manage 
            virtual server instances, known as EC2 instances, to run their applications.
                        
            EC2 provides a wide range of instance types, each with different compute, memory, 
            and storage capabilities, to meet the diverse needs of various workloads. Developers 
            can choose the appropriate instance type based on their application's requirements, 
            such as high-performance computing, memory-intensive tasks, or GPU-accelerated workloads.
                        
            The `Ec2AsyncClient` interface in the AWS SDK for Java 2.x provides a set of methods to 
            programmatically interact with the Amazon EC2 service. This allows developers to 
            automate the provisioning, management, and monitoring of EC2 instances as part of their 
            application deployment pipelines. With EC2, teams can focus on building and deploying 
            their applications without having to worry about the underlying infrastructure 
            required to host and manage physical servers.
            
            This scenario walks you through how to perform key operations for this service.  
            Let's get started...
            """);

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("1. Create an RSA key pair and save the private key material as a .pem file.");
        logger.info("""
            An RSA key pair for Amazon EC2 is a security mechanism used to authenticate and secure 
            access to your EC2 instances. It consists of a public key and a private key, 
            which are generated as a pair.
            """);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<CreateKeyPairResponse> future = ec2Actions.createKeyPairAsync(keyName, fileName);
            CreateKeyPairResponse response = future.join();
            logger.info("Key Pair successfully created. Key Fingerprint: " + response.keyFingerprint());

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                if (ec2Ex.getMessage().contains("already exists")) {
                    // Key pair already exists.
                    logger.info("The key pair '" + keyName + "' already exists. Moving on...");
                } else {
                    logger.info("EC2 error occurred: Error message: {}, Error code {}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                    return;
                }
            } else {
                logger.info("An unexpected error occurred: " + (rt.getMessage()));
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("2. List key pairs.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<DescribeKeyPairsResponse> future = ec2Actions.describeKeysAsync();
            DescribeKeyPairsResponse keyPairsResponse = future.join();
            keyPairsResponse.keyPairs().forEach(keyPair -> logger.info(
                "Found key pair with name {} and fingerprint {}",
                keyPair.keyName(),
                keyPair.keyFingerprint()));

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Error message: {}, Error code {}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", (cause != null ? cause.getMessage() : rt.getMessage()));
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("3. Create a security group.");
        logger.info("""
            An AWS EC2 Security Group is a virtual firewall that controls the 
            inbound and outbound traffic to an EC2 instance. It acts as a first line 
            of defense for your EC2 instances, allowing you to specify the rules that 
            govern the network traffic entering and leaving your instances.
           """);
        waitForInputToContinue(scanner);
        String groupId = "";
        try {
            CompletableFuture<String> future = ec2Actions.createSecurityGroupAsync(groupName, groupDesc, vpcId, myIpAddress);
            future.join();
            logger.info("Created security group") ;

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                if (ec2Ex.awsErrorDetails().errorMessage().contains("already exists")) {
                    logger.info("The Security Group already exists. Moving on...");
                } else {
                    logger.error("An unexpected error occurred: {}", ec2Ex.awsErrorDetails().errorMessage());
                    return;
                }
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("4. Display security group information for the new security group.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<String> future = ec2Actions.describeSecurityGroupArnByNameAsync(groupName);
            groupId = future.join();
            logger.info("The security group Id is "+groupId);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                String errorCode = ec2Ex.awsErrorDetails().errorCode();
                if ("InvalidGroup.NotFound".equals(errorCode)) {
                    logger.info("Security group '{}' does not exist. Error Code: {}", groupName, errorCode);
                } else {
                    logger.info("EC2 error occurred: Message {}, Error Code: {}", ec2Ex.getMessage(), errorCode);
                }
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("5. Get a list of Amazon Linux 2 AMIs and select one with amzn2 in the name.");
        logger.info("""
            An Amazon EC2 AMI (Amazon Machine Image) is a pre-configured virtual machine image that 
            serves as a template for launching EC2 instances. It contains all the necessary software and 
            configurations required to run an application or operating system on an EC2 instance.
            """);
        waitForInputToContinue(scanner);
        String instanceAMI="";
        try {
            CompletableFuture<GetParametersByPathResponse> future = ec2Actions.getParaValuesAsync();
            GetParametersByPathResponse pathResponse = future.join();
            List<Parameter> parameterList = pathResponse.parameters();
            for (Parameter para : parameterList) {
                if (filterName(para.name())) {
                    instanceAMI = para.value();
                    break;
                }
            }
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        logger.info("The AMI value with amzn2 is: {}", instanceAMI);
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("6. Get the (Amazon Machine Image) AMI value from the amzn2 image.");
        logger.info("""
           An AMI value represents a specific version of a virtual machine (VM) or server image.   
           It uniquely identifies a particular version of an EC2 instance, including its operating system, 
           pre-installed software, and any custom configurations. This allows you to consistently deploy the same 
           VM image across your infrastructure.
                        
            """);
        waitForInputToContinue(scanner);
        String amiValue;
        try {
            CompletableFuture<String> future = ec2Actions.describeImageAsync(instanceAMI);
            amiValue = future.join();

        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof Ec2Exception) {
                Ec2Exception ec2Ex = (Ec2Exception) cause;
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("7. Retrieves an instance type available in the current AWS region.");
        waitForInputToContinue(scanner);
        String instanceType;
        try {
            CompletableFuture<String> future = ec2Actions.getInstanceTypesAsync();
            instanceType = future.join();
            if (!instanceType.isEmpty()) {
                logger.info("Found instance type: " + instanceType);
            } else {
                logger.info("Desired instance type not found.");
            }
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("8. Create an Amazon EC2 instance using the key pair, the instance type, the security group, and the EC2 AMI value.");
        logger.info("Once the EC2 instance is created, it is placed into a running state.");
        waitForInputToContinue(scanner);
        String newInstanceId;
        try {
            CompletableFuture<String> future = ec2Actions.runInstanceAsync(instanceType, keyName, groupName, amiValue);
            newInstanceId = future.join();
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception) {
                Ec2Exception ec2Ex = (Ec2Exception) cause;
                switch (ec2Ex.awsErrorDetails().errorCode()) {
                    case "InvalidParameterValue":
                        logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                        break;
                    case "InsufficientInstanceCapacity":
                        // Handle insufficient instance capacity.
                        logger.info("Insufficient instance capacity: {}, {}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                        break;
                    case "InvalidGroup.NotFound":
                        // Handle security group not found.
                        logger.info("Security group not found: {},{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                        break;
                    default:
                        logger.info("EC2 error occurred: {} (Code: {}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                        break;
                }
                return;
            } else {
                logger.info("An unexpected error occurred: {}", (cause != null ? cause.getMessage() : rt.getMessage()));
                return;
            }
        }
        logger.info("The instance Id is " + newInstanceId);
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("9. Display information about the running instance. ");

        waitForInputToContinue(scanner);
        String publicIp;
        try {
            CompletableFuture<String> future = ec2Actions.describeEC2InstancesAsync(newInstanceId);
            publicIp = future.join();
            logger.info("EC2 instance public IP {}", publicIp);
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }

        }
        logger.info("You can SSH to the instance using this command:");
        logger.info("ssh -i " + fileName + " ec2-user@" + publicIp);
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("10. Stop the instance using a waiter (this may take a few mins).");
        // Remove the 2nd one
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = ec2Actions.stopInstanceAsync(newInstanceId);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("11. Start the instance using a waiter (this may take a few mins).");
        try {
            CompletableFuture<Void> future = ec2Actions.startInstanceAsync(newInstanceId);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                // Handle EC2 exceptions.
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("12. Allocate an Elastic IP address and associate it with the instance.");
        logger.info("""
            An Elastic IP address is a static public IP address that you can associate with your EC2 instance.
            This allows you to have a fixed, predictable IP address that remains the same even if your instance 
            is stopped, terminated, or replaced. 
            This is particularly useful for applications or services that need to be accessed consistently from a 
            known IP address.
                        
            An EC2 Allocation ID (also known as a Reserved Instance Allocation ID) is a unique identifier associated with a Reserved Instance (RI) that you have purchased in AWS.
                       
            When you purchase a Reserved Instance, AWS assigns a unique Allocation ID to it. 
            This Allocation ID is used to track and identify the specific RI you have purchased, 
            and it is important for managing and monitoring your Reserved Instances.
                        
            """);

        waitForInputToContinue(scanner);
        String allocationId;
        try {
            CompletableFuture<String> future = ec2Actions.allocateAddressAsync();
            allocationId = future.join();
            logger.info("Successfully allocated address with ID: " +allocationId);
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        logger.info("The allocation Id value is " + allocationId);
        waitForInputToContinue(scanner);
        String associationId;
        try {
            CompletableFuture<String> future = ec2Actions.associateAddressAsync(newInstanceId, allocationId);
            associationId = future.join();
            logger.info("Successfully associated address with ID: " +associationId);
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("13. Describe the instance again. Note that the public IP address has changed");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<String> future = ec2Actions.describeEC2InstancesAsync(newInstanceId);
            publicIp = future.join();
            logger.info("EC2 instance public IP: " + publicIp);
            logger.info("You can SSH to the instance using this command:");
            logger.info("ssh -i " + fileName + " ec2-user@" + publicIp);
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("14. Disassociate and release the Elastic IP address.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<DisassociateAddressResponse> future = ec2Actions.disassociateAddressAsync(associationId);
            future.join();
            logger.info("Address successfully disassociated.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                // Handle EC2 exceptions.
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<ReleaseAddressResponse> future = ec2Actions.releaseEC2AddressAsync(allocationId);
            future.join(); // Wait for the operation to complete
            logger.info("Elastic IP address successfully released.");
        } catch (RuntimeException rte) {
            logger.info("An unexpected error occurred: {}", rte.getMessage());
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("15. Terminate the instance and use a waiter (this may take a few mins).");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Object> future = ec2Actions.terminateEC2Async(newInstanceId);
            future.join();
            logger.info("EC2 instance successfully terminated.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                // Handle EC2 exceptions.
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("16. Delete the security group.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = ec2Actions.deleteEC2SecGroupAsync(groupId);
            future.join();
            logger.info("Security group successfully deleted.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("17. Delete the key.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<DeleteKeyPairResponse> future = ec2Actions.deleteKeysAsync(keyName);
            future.join();
            logger.info("Successfully deleted key pair named " + keyName);
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof Ec2Exception ec2Ex) {
                logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode());
                return;
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage());
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("You successfully completed the Amazon EC2 scenario.");
        logger.info(DASHES);
    }
    public static boolean filterName(String name) {
        String[] parts = name.split("/");
        String myValue = parts[4];
        return myValue.contains("amzn2");
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                // Handle invalid input.
                logger.info("Invalid input. Please try again.");
            }
        }
    }
}
```
Menentukan kelas yang menggabungkan tindakan EC2.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.http.async.SdkAsyncHttpClient;
import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ec2.Ec2AsyncClient;
import software.amazon.awssdk.services.ec2.model.AllocateAddressRequest;
import software.amazon.awssdk.services.ec2.model.AllocateAddressResponse;
import software.amazon.awssdk.services.ec2.model.AssociateAddressRequest;
import software.amazon.awssdk.services.ec2.model.AssociateAddressResponse;
import software.amazon.awssdk.services.ec2.model.AuthorizeSecurityGroupIngressRequest;
import software.amazon.awssdk.services.ec2.model.CreateKeyPairRequest;
import software.amazon.awssdk.services.ec2.model.CreateKeyPairResponse;
import software.amazon.awssdk.services.ec2.model.CreateSecurityGroupRequest;
import software.amazon.awssdk.services.ec2.model.DeleteKeyPairRequest;
import software.amazon.awssdk.services.ec2.model.DeleteKeyPairResponse;
import software.amazon.awssdk.services.ec2.model.DeleteSecurityGroupRequest;
import software.amazon.awssdk.services.ec2.model.DeleteSecurityGroupResponse;
import software.amazon.awssdk.services.ec2.model.DescribeImagesRequest;
import software.amazon.awssdk.services.ec2.model.DescribeInstanceTypesRequest;
import software.amazon.awssdk.services.ec2.model.DescribeInstanceTypesResponse;
import software.amazon.awssdk.services.ec2.model.DescribeInstancesRequest;
import software.amazon.awssdk.services.ec2.model.DescribeKeyPairsResponse;
import software.amazon.awssdk.services.ec2.model.DescribeSecurityGroupsRequest;
import software.amazon.awssdk.services.ec2.model.DescribeSecurityGroupsResponse;
import software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest;
import software.amazon.awssdk.services.ec2.model.DisassociateAddressRequest;
import software.amazon.awssdk.services.ec2.model.DisassociateAddressResponse;
import software.amazon.awssdk.services.ec2.model.DomainType;
import software.amazon.awssdk.services.ec2.model.Ec2Exception;
import software.amazon.awssdk.services.ec2.model.Filter;
import software.amazon.awssdk.services.ec2.model.InstanceTypeInfo;
import software.amazon.awssdk.services.ec2.model.IpPermission;
import software.amazon.awssdk.services.ec2.model.IpRange;
import software.amazon.awssdk.services.ec2.model.ReleaseAddressRequest;
import software.amazon.awssdk.services.ec2.model.ReleaseAddressResponse;
import software.amazon.awssdk.services.ec2.model.RunInstancesRequest;
import software.amazon.awssdk.services.ec2.model.RunInstancesResponse;
import software.amazon.awssdk.services.ec2.model.StopInstancesRequest;
import software.amazon.awssdk.services.ec2.model.StartInstancesRequest;
import software.amazon.awssdk.services.ec2.model.TerminateInstancesRequest;
import software.amazon.awssdk.services.ec2.model.Vpc;
import software.amazon.awssdk.services.ec2.paginators.DescribeImagesPublisher;
import software.amazon.awssdk.services.ec2.paginators.DescribeInstancesPublisher;
import software.amazon.awssdk.services.ec2.paginators.DescribeSecurityGroupsPublisher;
import software.amazon.awssdk.services.ec2.paginators.DescribeVpcsPublisher;
import software.amazon.awssdk.services.ec2.waiters.Ec2AsyncWaiter;
import software.amazon.awssdk.services.ssm.SsmAsyncClient;
import software.amazon.awssdk.services.ssm.model.GetParametersByPathRequest;
import software.amazon.awssdk.services.ssm.model.GetParametersByPathResponse;
import software.amazon.awssdk.services.ec2.model.TerminateInstancesResponse;
import java.io.BufferedWriter;
import java.io.FileWriter;
import java.io.IOException;
import java.time.Duration;
import java.util.List;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.atomic.AtomicReference;

public class EC2Actions {
    private static final Logger logger = LoggerFactory.getLogger(EC2Actions.class);
    private static Ec2AsyncClient ec2AsyncClient;

    /**
     * Retrieves an asynchronous Amazon Elastic Container Registry (ECR) client.
     *
     * @return the configured ECR asynchronous client.
     */
    private static Ec2AsyncClient getAsyncClient() {
        if (ec2AsyncClient == null) {
            /*
            The `NettyNioAsyncHttpClient` class is part of the AWS SDK for Java, version 2,
            and it is designed to provide a high-performance, asynchronous HTTP client for interacting with AWS services.
             It uses the Netty framework to handle the underlying network communication and the Java NIO API to
             provide a non-blocking, event-driven approach to HTTP requests and responses.
             */
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(50)  // Adjust as needed.
                .connectionTimeout(Duration.ofSeconds(60))  // Set the connection timeout.
                .readTimeout(Duration.ofSeconds(60))  // Set the read timeout.
                .writeTimeout(Duration.ofSeconds(60))  // Set the write timeout.
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
               .apiCallTimeout(Duration.ofMinutes(2))  // Set the overall API call timeout.
                .apiCallAttemptTimeout(Duration.ofSeconds(90))  // Set the individual call attempt timeout.
                .build();

            ec2AsyncClient = Ec2AsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return ec2AsyncClient;
    }

    /**
     * Deletes a key pair asynchronously.
     *
     * @param keyPair the name of the key pair to delete
     * @return a {@link CompletableFuture} that represents the result of the asynchronous operation.
     *         The {@link CompletableFuture} will complete with a {@link DeleteKeyPairResponse} object
     *         that provides the result of the key pair deletion operation.
     */
    public CompletableFuture<DeleteKeyPairResponse> deleteKeysAsync(String keyPair) {
        DeleteKeyPairRequest request = DeleteKeyPairRequest.builder()
            .keyName(keyPair)
            .build();

        // Initiate the asynchronous request to delete the key pair.
        CompletableFuture<DeleteKeyPairResponse> response = getAsyncClient().deleteKeyPair(request);
        return response.whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to delete key pair: " + keyPair, ex);
            } else if (resp == null) {
                throw new RuntimeException("No response received for deleting key pair: " + keyPair);
            }
        });
    }

    /**
     * Deletes an EC2 security group asynchronously.
     *
     * @param groupId the ID of the security group to delete
     * @return a CompletableFuture that completes when the security group is deleted
     */
    public CompletableFuture<Void> deleteEC2SecGroupAsync(String groupId) {
        DeleteSecurityGroupRequest request = DeleteSecurityGroupRequest.builder()
            .groupId(groupId)
            .build();

        CompletableFuture<DeleteSecurityGroupResponse> response = getAsyncClient().deleteSecurityGroup(request);
        return response.whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to delete security group with Id " + groupId, ex);
            } else if (resp == null) {
                throw new RuntimeException("No response received for deleting security group with Id " + groupId);
            }
        }).thenApply(resp -> null);
    }

    /**
     * Terminates an EC2 instance asynchronously and waits for it to reach the terminated state.
     *
     * @param instanceId the ID of the EC2 instance to terminate
     * @return a {@link CompletableFuture} that completes when the instance has been terminated
     * @throws RuntimeException if there is no response from the AWS SDK or if there is a failure during the termination process
     */
    public CompletableFuture<Object> terminateEC2Async(String instanceId) {
        TerminateInstancesRequest terminateRequest = TerminateInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        CompletableFuture<TerminateInstancesResponse> responseFuture = getAsyncClient().terminateInstances(terminateRequest);
        return responseFuture.thenCompose(terminateResponse -> {
            if (terminateResponse == null) {
                throw new RuntimeException("No response received for terminating instance " + instanceId);
            }
            System.out.println("Going to terminate an EC2 instance and use a waiter to wait for it to be in terminated state");
            return getAsyncClient().waiter()
                .waitUntilInstanceTerminated(r -> r.instanceIds(instanceId))
                .thenApply(waiterResponse -> null);
        }).exceptionally(throwable -> {
            // Handle any exceptions that occurred during the async call
            throw new RuntimeException("Failed to terminate EC2 instance: " + throwable.getMessage(), throwable);
        });
    }

    /**
     * Releases an Elastic IP address asynchronously.
     *
     * @param allocId the allocation ID of the Elastic IP address to be released
     * @return a {@link CompletableFuture} representing the asynchronous operation of releasing the Elastic IP address
     */
    public CompletableFuture<ReleaseAddressResponse> releaseEC2AddressAsync(String allocId) {
        ReleaseAddressRequest request = ReleaseAddressRequest.builder()
            .allocationId(allocId)
            .build();

        CompletableFuture<ReleaseAddressResponse> response = getAsyncClient().releaseAddress(request);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to release Elastic IP address", ex);
            }
        });

        return response;
    }

    /**
     * Disassociates an Elastic IP address from an instance asynchronously.
     *
     * @param associationId The ID of the association you want to disassociate.
     * @return a {@link CompletableFuture} representing the asynchronous operation of disassociating the address. The
     *         {@link CompletableFuture} will complete with a {@link DisassociateAddressResponse} when the operation is
     *         finished.
     * @throws RuntimeException if the disassociation of the address fails.
     */
    public CompletableFuture<DisassociateAddressResponse> disassociateAddressAsync(String associationId) {
        Ec2AsyncClient ec2 = getAsyncClient();
        DisassociateAddressRequest addressRequest = DisassociateAddressRequest.builder()
            .associationId(associationId)
            .build();

        // Disassociate the address asynchronously.
        CompletableFuture<DisassociateAddressResponse> response = ec2.disassociateAddress(addressRequest);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
               throw new RuntimeException("Failed to disassociate address", ex);
            }
        });

        return response;
    }

    /**
     * Associates an Elastic IP address with an EC2 instance asynchronously.
     *
     * @param instanceId    the ID of the EC2 instance to associate the Elastic IP address with
     * @param allocationId  the allocation ID of the Elastic IP address to associate
     * @return a {@link CompletableFuture} that completes with the association ID when the operation is successful,
     *         or throws a {@link RuntimeException} if the operation fails
     */
    public CompletableFuture<String> associateAddressAsync(String instanceId, String allocationId) {
        AssociateAddressRequest associateRequest = AssociateAddressRequest.builder()
            .instanceId(instanceId)
            .allocationId(allocationId)
            .build();

        CompletableFuture<AssociateAddressResponse> responseFuture = getAsyncClient().associateAddress(associateRequest);
        return responseFuture.thenApply(response -> {
            if (response.associationId() != null) {
                return response.associationId();
            } else {
                throw new RuntimeException("Association ID is null after associating address.");
            }
        }).whenComplete((result, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to associate address", ex);
            }
        });
    }

    /**
     * Allocates an Elastic IP address asynchronously in the VPC domain.
     *
     * @return a {@link CompletableFuture} containing the allocation ID of the allocated Elastic IP address
     */
    public CompletableFuture<String> allocateAddressAsync() {
        AllocateAddressRequest allocateRequest = AllocateAddressRequest.builder()
            .domain(DomainType.VPC)
            .build();

        CompletableFuture<AllocateAddressResponse> responseFuture = getAsyncClient().allocateAddress(allocateRequest);
        return responseFuture.thenApply(AllocateAddressResponse::allocationId).whenComplete((result, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to allocate address", ex);
            }
        });
    }

    /**
     * Asynchronously describes the state of an EC2 instance.
     * The paginator helps you iterate over multiple pages of results.
     *
     * @param newInstanceId the ID of the EC2 instance to describe
     * @return a {@link CompletableFuture} that, when completed, contains a string describing the state of the EC2 instance
     */
    public CompletableFuture<String> describeEC2InstancesAsync(String newInstanceId) {
        DescribeInstancesRequest request = DescribeInstancesRequest.builder()
            .instanceIds(newInstanceId)
            .build();

        DescribeInstancesPublisher paginator = getAsyncClient().describeInstancesPaginator(request);
        AtomicReference<String> publicIpAddressRef = new AtomicReference<>();
        return paginator.subscribe(response -> {
            response.reservations().stream()
                .flatMap(reservation -> reservation.instances().stream())
                .filter(instance -> instance.instanceId().equals(newInstanceId))
                .findFirst()
                .ifPresent(instance -> publicIpAddressRef.set(instance.publicIpAddress()));
        }).thenApply(v -> {
            String publicIpAddress = publicIpAddressRef.get();
            if (publicIpAddress == null) {
                throw new RuntimeException("Instance with ID " + newInstanceId + " not found.");
            }
            return publicIpAddress;
        }).exceptionally(ex -> {
            logger.info("Failed to describe instances: " + ex.getMessage());
            throw new RuntimeException("Failed to describe instances", ex);
        });
    }

    /**
     * Runs an EC2 instance asynchronously.
     *
     * @param instanceType The instance type to use for the EC2 instance.
     * @param keyName The name of the key pair to associate with the EC2 instance.
     * @param groupName The name of the security group to associate with the EC2 instance.
     * @param amiId The ID of the Amazon Machine Image (AMI) to use for the EC2 instance.
     * @return A {@link CompletableFuture} that completes with the ID of the started EC2 instance.
     * @throws RuntimeException If there is an error running the EC2 instance.
     */
    public CompletableFuture<String> runInstanceAsync(String instanceType, String keyName, String groupName, String amiId) {
        RunInstancesRequest runRequest = RunInstancesRequest.builder()
            .instanceType(instanceType)
            .keyName(keyName)
            .securityGroups(groupName)
            .maxCount(1)
            .minCount(1)
            .imageId(amiId)
            .build();

        CompletableFuture<RunInstancesResponse> responseFuture = getAsyncClient().runInstances(runRequest);
        return responseFuture.thenCompose(response -> {
            String instanceIdVal = response.instances().get(0).instanceId();
            System.out.println("Going to start an EC2 instance and use a waiter to wait for it to be in running state");
            return getAsyncClient().waiter()
                .waitUntilInstanceExists(r -> r.instanceIds(instanceIdVal))
                .thenCompose(waitResponse -> getAsyncClient().waiter()
                    .waitUntilInstanceRunning(r -> r.instanceIds(instanceIdVal))
                    .thenApply(runningResponse -> instanceIdVal));
        }).exceptionally(throwable -> {
            // Handle any exceptions that occurred during the async call
            throw new RuntimeException("Failed to run EC2 instance: " + throwable.getMessage(), throwable);
        });
    }

    /**
     * Asynchronously retrieves the instance types available in the current AWS region.
     * <p>
     * This method uses the AWS SDK's asynchronous API to fetch the available instance types
     * and then processes the response. It logs the memory information, network information,
     * and instance type for each instance type returned. Additionally, it returns a
     * {@link CompletableFuture} that resolves to the instance type string for the "t2.2xlarge"
     * instance type, if it is found in the response. If the "t2.2xlarge" instance type is not
     * found, an empty string is returned.
     * </p>
     *
     * @return a {@link CompletableFuture} that resolves to the instance type string for the
     * "t2.2xlarge" instance type, or an empty string if the instance type is not found
     */
    public CompletableFuture<String> getInstanceTypesAsync() {
        DescribeInstanceTypesRequest typesRequest = DescribeInstanceTypesRequest.builder()
            .maxResults(10)
            .build();

        CompletableFuture<DescribeInstanceTypesResponse> response = getAsyncClient().describeInstanceTypes(typesRequest);
        response.whenComplete((resp, ex) -> {
            if (resp != null) {
                List<InstanceTypeInfo> instanceTypes = resp.instanceTypes();
                for (InstanceTypeInfo type : instanceTypes) {
                    logger.info("The memory information of this type is " + type.memoryInfo().sizeInMiB());
                    logger.info("Network information is " + type.networkInfo().toString());
                    logger.info("Instance type is " + type.instanceType().toString());
                }
            } else {
                throw (RuntimeException) ex;
            }
        });

        return response.thenApply(resp -> {
            for (InstanceTypeInfo type : resp.instanceTypes()) {
                String instanceType = type.instanceType().toString();
                if (instanceType.equals("t2.2xlarge")) {
                    return instanceType;
                }
            }
            return "";
        });
    }

    /**
     * Asynchronously describes an AWS EC2 image with the specified image ID.
     *
     * @param imageId the ID of the image to be described
     * @return a {@link CompletableFuture} that, when completed, contains the ID of the described image
     * @throws RuntimeException if no images are found with the provided image ID, or if an error occurs during the AWS API call
     */
    public CompletableFuture<String> describeImageAsync(String imageId) {
        DescribeImagesRequest imagesRequest = DescribeImagesRequest.builder()
            .imageIds(imageId)
            .build();

        AtomicReference<String> imageIdRef = new AtomicReference<>();
        DescribeImagesPublisher paginator = getAsyncClient().describeImagesPaginator(imagesRequest);
        return paginator.subscribe(response -> {
            response.images().stream()
                .filter(image -> image.imageId().equals(imageId))
                .findFirst()
                .ifPresent(image -> {
                    logger.info("The description of the image is " + image.description());
                    logger.info("The name of the image is " + image.name());
                    imageIdRef.set(image.imageId());
                });
        }).thenApply(v -> {
            String id = imageIdRef.get();
            if (id == null) {
                throw new RuntimeException("No images found with the provided image ID.");
            }
            return id;
        }).exceptionally(ex -> {
            logger.info("Failed to describe image: " + ex.getMessage());
            throw new RuntimeException("Failed to describe image", ex);
        });
    }

    /**
     * Retrieves the parameter values asynchronously using the AWS Systems Manager (SSM) API.
     *
     * @return a {@link CompletableFuture} that holds the response from the SSM API call to get parameters by path
     */
    public CompletableFuture<GetParametersByPathResponse> getParaValuesAsync() {
        SsmAsyncClient ssmClient = SsmAsyncClient.builder()
            .region(Region.US_EAST_1)
            .build();

        GetParametersByPathRequest parameterRequest = GetParametersByPathRequest.builder()
            .path("/aws/service/ami-amazon-linux-latest")
            .build();

        // Create a CompletableFuture to hold the final result.
        CompletableFuture<GetParametersByPathResponse> responseFuture = new CompletableFuture<>();
        ssmClient.getParametersByPath(parameterRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    responseFuture.completeExceptionally(new RuntimeException("Failed to get parameters by path", exception));
                } else {
                    responseFuture.complete(response);
                }
            });

        return responseFuture;
    }


    /**
     * Asynchronously describes the security groups for the specified group ID.
     *
     * @param groupName the name of the security group to describe
     * @return a {@link CompletableFuture} that represents the asynchronous operation
     *         of describing the security groups. The future will complete with a
     *         {@link DescribeSecurityGroupsResponse} object that contains the
     *         security group information.
     */
    public CompletableFuture<String> describeSecurityGroupArnByNameAsync(String groupName) {
        DescribeSecurityGroupsRequest request = DescribeSecurityGroupsRequest.builder()
            .groupNames(groupName)
            .build();

        DescribeSecurityGroupsPublisher paginator = getAsyncClient().describeSecurityGroupsPaginator(request);
        AtomicReference<String> groupIdRef = new AtomicReference<>();
        return paginator.subscribe(response -> {
            response.securityGroups().stream()
                .filter(securityGroup -> securityGroup.groupName().equals(groupName))
                .findFirst()
                .ifPresent(securityGroup -> groupIdRef.set(securityGroup.groupId()));
        }).thenApply(v -> {
            String groupId = groupIdRef.get();
            if (groupId == null) {
                throw new RuntimeException("No security group found with the name: " + groupName);
            }
            return groupId;
        }).exceptionally(ex -> {
            logger.info("Failed to describe security group: " + ex.getMessage());
            throw new RuntimeException("Failed to describe security group", ex);
        });
    }

    /**
     * Creates a new security group asynchronously with the specified group name, description, and VPC ID. It also
     * authorizes inbound traffic on ports 80 and 22 from the specified IP address.
     *
     * @param groupName    the name of the security group to create
     * @param groupDesc    the description of the security group
     * @param vpcId        the ID of the VPC in which to create the security group
     * @param myIpAddress  the IP address from which to allow inbound traffic (e.g., "192.168.1.1/0" to allow traffic from
     *                     any IP address in the 192.168.1.0/24 subnet)
     * @return a CompletableFuture that, when completed, returns the ID of the created security group
     * @throws RuntimeException if there was a failure creating the security group or authorizing the inbound traffic
     */
    public CompletableFuture<String> createSecurityGroupAsync(String groupName, String groupDesc, String vpcId, String myIpAddress) {
        CreateSecurityGroupRequest createRequest = CreateSecurityGroupRequest.builder()
            .groupName(groupName)
            .description(groupDesc)
            .vpcId(vpcId)
            .build();

        return getAsyncClient().createSecurityGroup(createRequest)
            .thenCompose(createResponse -> {
                String groupId = createResponse.groupId();
                IpRange ipRange = IpRange.builder()
                    .cidrIp(myIpAddress + "/32")
                    .build();

                IpPermission ipPerm = IpPermission.builder()
                    .ipProtocol("tcp")
                    .toPort(80)
                    .fromPort(80)
                    .ipRanges(ipRange)
                    .build();

                IpPermission ipPerm2 = IpPermission.builder()
                    .ipProtocol("tcp")
                    .toPort(22)
                    .fromPort(22)
                    .ipRanges(ipRange)
                    .build();

                AuthorizeSecurityGroupIngressRequest authRequest = AuthorizeSecurityGroupIngressRequest.builder()
                    .groupName(groupName)
                    .ipPermissions(ipPerm, ipPerm2)
                    .build();

                return getAsyncClient().authorizeSecurityGroupIngress(authRequest)
                    .thenApply(authResponse -> groupId);
            })
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    if (exception instanceof CompletionException && exception.getCause() instanceof Ec2Exception) {
                        throw (Ec2Exception) exception.getCause();
                    } else {
                        throw new RuntimeException("Failed to create security group: " + exception.getMessage(), exception);
                    }
                }
            });
    }

    /**
     * Asynchronously describes the key pairs associated with the current AWS account.
     *
     * @return a {@link CompletableFuture} containing the {@link DescribeKeyPairsResponse} object, which provides
     * information about the key pairs.
     */
    public CompletableFuture<DescribeKeyPairsResponse> describeKeysAsync() {
        CompletableFuture<DescribeKeyPairsResponse> responseFuture = getAsyncClient().describeKeyPairs();
        responseFuture.whenComplete((response, exception) -> {
            if (exception != null) {
              throw new RuntimeException("Failed to describe key pairs: " + exception.getMessage(), exception);
            }
        });

        return responseFuture;
    }

    /**
     * Creates a new key pair asynchronously.
     *
     * @param keyName the name of the key pair to create
     * @param fileName the name of the file to write the key material to
     * @return a {@link CompletableFuture} that represents the asynchronous operation
     *         of creating the key pair and writing the key material to a file
     */
    public CompletableFuture<CreateKeyPairResponse> createKeyPairAsync(String keyName, String fileName) {
        CreateKeyPairRequest request = CreateKeyPairRequest.builder()
            .keyName(keyName)
            .build();

        CompletableFuture<CreateKeyPairResponse> responseFuture = getAsyncClient().createKeyPair(request);
        responseFuture.whenComplete((response, exception) -> {
            if (response != null) {
                try {
                    BufferedWriter writer = new BufferedWriter(new FileWriter(fileName));
                    writer.write(response.keyMaterial());
                    writer.close();
                } catch (IOException e) {
                    throw new RuntimeException("Failed to write key material to file: " + e.getMessage(), e);
                }
            } else {
                throw new RuntimeException("Failed to create key pair: " + exception.getMessage(), exception);
            }
        });

        return responseFuture;
    }

    /**
     * Describes the first default VPC asynchronously and using a paginator.
     *
     * @return a {@link CompletableFuture} that, when completed, contains the first default VPC found.\
     */
    public CompletableFuture<Vpc> describeFirstEC2VpcAsync() {
        Filter myFilter = Filter.builder()
            .name("is-default")
            .values("true")
            .build();

        DescribeVpcsRequest request = DescribeVpcsRequest.builder()
            .filters(myFilter)
            .build();

        DescribeVpcsPublisher paginator = getAsyncClient().describeVpcsPaginator(request);
        AtomicReference<Vpc> vpcRef = new AtomicReference<>();
        return paginator.subscribe(response -> {
            response.vpcs().stream()
                .findFirst()
                .ifPresent(vpcRef::set);
        }).thenApply(v -> {
            Vpc vpc = vpcRef.get();
            if (vpc == null) {
                throw new RuntimeException("Default VPC not found");
            }
            return vpc;
        }).exceptionally(ex -> {
            logger.info("Failed to describe VPCs: " + ex.getMessage());
            throw new RuntimeException("Failed to describe VPCs", ex);
        });
    }

    /**
     * Stops the EC2 instance with the specified ID asynchronously and waits for the instance to stop.
     *
     * @param instanceId the ID of the EC2 instance to stop
     * @return a {@link CompletableFuture} that completes when the instance has been stopped, or exceptionally if an error occurs
     */
    public CompletableFuture<Void> stopInstanceAsync(String instanceId) {
        StopInstancesRequest stopRequest = StopInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        DescribeInstancesRequest describeRequest = DescribeInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        Ec2AsyncWaiter ec2Waiter = Ec2AsyncWaiter.builder()
            .client(getAsyncClient())
            .build();

        CompletableFuture<Void> resultFuture = new CompletableFuture<>();
        logger.info("Stopping instance " + instanceId + " and waiting for it to stop.");
        getAsyncClient().stopInstances(stopRequest)
            .thenCompose(response -> {
                if (response.stoppingInstances().isEmpty()) {
                    return CompletableFuture.failedFuture(new RuntimeException("No instances were stopped. Please check the instance ID: " + instanceId));
                }
                return ec2Waiter.waitUntilInstanceStopped(describeRequest);
            })
            .thenAccept(waiterResponse -> {
                logger.info("Successfully stopped instance " + instanceId);
                resultFuture.complete(null);
            })
            .exceptionally(throwable -> {
                logger.error("Failed to stop instance " + instanceId + ": " + throwable.getMessage(), throwable);
                resultFuture.completeExceptionally(new RuntimeException("Failed to stop instance: " + throwable.getMessage(), throwable));
                return null;
            });

        return resultFuture;
    }

    /**
     * Starts an Amazon EC2 instance asynchronously and waits until it is in the "running" state.
     *
     * @param instanceId the ID of the instance to start
     * @return a {@link CompletableFuture} that completes when the instance has been started and is in the "running" state, or exceptionally if an error occurs
     */
    public CompletableFuture<Void> startInstanceAsync(String instanceId) {
        StartInstancesRequest startRequest = StartInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        Ec2AsyncWaiter ec2Waiter = Ec2AsyncWaiter.builder()
            .client(getAsyncClient())
            .build();

        DescribeInstancesRequest describeRequest = DescribeInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        logger.info("Starting instance " + instanceId + " and waiting for it to run.");
        CompletableFuture<Void> resultFuture = new CompletableFuture<>();
        return getAsyncClient().startInstances(startRequest)
            .thenCompose(response ->
                ec2Waiter.waitUntilInstanceRunning(describeRequest)
            )
            .thenAccept(waiterResponse -> {
                logger.info("Successfully started instance " + instanceId);
                resultFuture.complete(null);
            })
            .exceptionally(throwable -> {
                resultFuture.completeExceptionally(new RuntimeException("Failed to start instance: " + throwable.getMessage(), throwable));
                return null;
            });
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AllocateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AllocateAddress)
  + [AssociateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AssociateAddress)
  + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AuthorizeSecurityGroupIngress)
  + [CreateKeyPair](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateKeyPair)
  + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateSecurityGroup)
  + [DeleteKeyPair](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteKeyPair)
  + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteSecurityGroup)
  + [DescribeImages](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeImages)
  + [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstanceTypes)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstances)
  + [DescribeKeyPairs](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeKeyPairs)
  + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSecurityGroups)
  + [DisassociateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DisassociateAddress)
  + [ReleaseAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/ReleaseAddress)
  + [RunInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/RunInstances)
  + [StartInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/StartInstances)
  + [StopInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/StopInstances)
  + [TerminateInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/TerminateInstances)
  + [UnmonitorInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/UnmonitorInstances)

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Allocates an Elastic IP address asynchronously in the VPC domain.
     *
     * @return a {@link CompletableFuture} containing the allocation ID of the allocated Elastic IP address
     */
    public CompletableFuture<String> allocateAddressAsync() {
        AllocateAddressRequest allocateRequest = AllocateAddressRequest.builder()
            .domain(DomainType.VPC)
            .build();

        CompletableFuture<AllocateAddressResponse> responseFuture = getAsyncClient().allocateAddress(allocateRequest);
        return responseFuture.thenApply(AllocateAddressResponse::allocationId).whenComplete((result, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to allocate address", ex);
            }
        });
    }
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AllocateAddress)di *Referensi AWS SDK for Java 2.x API*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Associates an Elastic IP address with an EC2 instance asynchronously.
     *
     * @param instanceId    the ID of the EC2 instance to associate the Elastic IP address with
     * @param allocationId  the allocation ID of the Elastic IP address to associate
     * @return a {@link CompletableFuture} that completes with the association ID when the operation is successful,
     *         or throws a {@link RuntimeException} if the operation fails
     */
    public CompletableFuture<String> associateAddressAsync(String instanceId, String allocationId) {
        AssociateAddressRequest associateRequest = AssociateAddressRequest.builder()
            .instanceId(instanceId)
            .allocationId(allocationId)
            .build();

        CompletableFuture<AssociateAddressResponse> responseFuture = getAsyncClient().associateAddress(associateRequest);
        return responseFuture.thenApply(response -> {
            if (response.associationId() != null) {
                return response.associationId();
            } else {
                throw new RuntimeException("Association ID is null after associating address.");
            }
        }).whenComplete((result, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to associate address", ex);
            }
        });
    }
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AssociateAddress)di *Referensi AWS SDK for Java 2.x API*. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Creates a new security group asynchronously with the specified group name, description, and VPC ID. It also
     * authorizes inbound traffic on ports 80 and 22 from the specified IP address.
     *
     * @param groupName    the name of the security group to create
     * @param groupDesc    the description of the security group
     * @param vpcId        the ID of the VPC in which to create the security group
     * @param myIpAddress  the IP address from which to allow inbound traffic (e.g., "192.168.1.1/0" to allow traffic from
     *                     any IP address in the 192.168.1.0/24 subnet)
     * @return a CompletableFuture that, when completed, returns the ID of the created security group
     * @throws RuntimeException if there was a failure creating the security group or authorizing the inbound traffic
     */
    public CompletableFuture<String> createSecurityGroupAsync(String groupName, String groupDesc, String vpcId, String myIpAddress) {
        CreateSecurityGroupRequest createRequest = CreateSecurityGroupRequest.builder()
            .groupName(groupName)
            .description(groupDesc)
            .vpcId(vpcId)
            .build();

        return getAsyncClient().createSecurityGroup(createRequest)
            .thenCompose(createResponse -> {
                String groupId = createResponse.groupId();
                IpRange ipRange = IpRange.builder()
                    .cidrIp(myIpAddress + "/32")
                    .build();

                IpPermission ipPerm = IpPermission.builder()
                    .ipProtocol("tcp")
                    .toPort(80)
                    .fromPort(80)
                    .ipRanges(ipRange)
                    .build();

                IpPermission ipPerm2 = IpPermission.builder()
                    .ipProtocol("tcp")
                    .toPort(22)
                    .fromPort(22)
                    .ipRanges(ipRange)
                    .build();

                AuthorizeSecurityGroupIngressRequest authRequest = AuthorizeSecurityGroupIngressRequest.builder()
                    .groupName(groupName)
                    .ipPermissions(ipPerm, ipPerm2)
                    .build();

                return getAsyncClient().authorizeSecurityGroupIngress(authRequest)
                    .thenApply(authResponse -> groupId);
            })
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    if (exception instanceof CompletionException && exception.getCause() instanceof Ec2Exception) {
                        throw (Ec2Exception) exception.getCause();
                    } else {
                        throw new RuntimeException("Failed to create security group: " + exception.getMessage(), exception);
                    }
                }
            });
    }
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AuthorizeSecurityGroupIngress)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Creates a new key pair asynchronously.
     *
     * @param keyName the name of the key pair to create
     * @param fileName the name of the file to write the key material to
     * @return a {@link CompletableFuture} that represents the asynchronous operation
     *         of creating the key pair and writing the key material to a file
     */
    public CompletableFuture<CreateKeyPairResponse> createKeyPairAsync(String keyName, String fileName) {
        CreateKeyPairRequest request = CreateKeyPairRequest.builder()
            .keyName(keyName)
            .build();

        CompletableFuture<CreateKeyPairResponse> responseFuture = getAsyncClient().createKeyPair(request);
        responseFuture.whenComplete((response, exception) -> {
            if (response != null) {
                try {
                    BufferedWriter writer = new BufferedWriter(new FileWriter(fileName));
                    writer.write(response.keyMaterial());
                    writer.close();
                } catch (IOException e) {
                    throw new RuntimeException("Failed to write key material to file: " + e.getMessage(), e);
                }
            } else {
                throw new RuntimeException("Failed to create key pair: " + exception.getMessage(), exception);
            }
        });

        return responseFuture;
    }
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateKeyPair)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Creates a new security group asynchronously with the specified group name, description, and VPC ID. It also
     * authorizes inbound traffic on ports 80 and 22 from the specified IP address.
     *
     * @param groupName    the name of the security group to create
     * @param groupDesc    the description of the security group
     * @param vpcId        the ID of the VPC in which to create the security group
     * @param myIpAddress  the IP address from which to allow inbound traffic (e.g., "192.168.1.1/0" to allow traffic from
     *                     any IP address in the 192.168.1.0/24 subnet)
     * @return a CompletableFuture that, when completed, returns the ID of the created security group
     * @throws RuntimeException if there was a failure creating the security group or authorizing the inbound traffic
     */
    public CompletableFuture<String> createSecurityGroupAsync(String groupName, String groupDesc, String vpcId, String myIpAddress) {
        CreateSecurityGroupRequest createRequest = CreateSecurityGroupRequest.builder()
            .groupName(groupName)
            .description(groupDesc)
            .vpcId(vpcId)
            .build();

        return getAsyncClient().createSecurityGroup(createRequest)
            .thenCompose(createResponse -> {
                String groupId = createResponse.groupId();
                IpRange ipRange = IpRange.builder()
                    .cidrIp(myIpAddress + "/32")
                    .build();

                IpPermission ipPerm = IpPermission.builder()
                    .ipProtocol("tcp")
                    .toPort(80)
                    .fromPort(80)
                    .ipRanges(ipRange)
                    .build();

                IpPermission ipPerm2 = IpPermission.builder()
                    .ipProtocol("tcp")
                    .toPort(22)
                    .fromPort(22)
                    .ipRanges(ipRange)
                    .build();

                AuthorizeSecurityGroupIngressRequest authRequest = AuthorizeSecurityGroupIngressRequest.builder()
                    .groupName(groupName)
                    .ipPermissions(ipPerm, ipPerm2)
                    .build();

                return getAsyncClient().authorizeSecurityGroupIngress(authRequest)
                    .thenApply(authResponse -> groupId);
            })
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    if (exception instanceof CompletionException && exception.getCause() instanceof Ec2Exception) {
                        throw (Ec2Exception) exception.getCause();
                    } else {
                        throw new RuntimeException("Failed to create security group: " + exception.getMessage(), exception);
                    }
                }
            });
    }
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateSecurityGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Deletes a key pair asynchronously.
     *
     * @param keyPair the name of the key pair to delete
     * @return a {@link CompletableFuture} that represents the result of the asynchronous operation.
     *         The {@link CompletableFuture} will complete with a {@link DeleteKeyPairResponse} object
     *         that provides the result of the key pair deletion operation.
     */
    public CompletableFuture<DeleteKeyPairResponse> deleteKeysAsync(String keyPair) {
        DeleteKeyPairRequest request = DeleteKeyPairRequest.builder()
            .keyName(keyPair)
            .build();

        // Initiate the asynchronous request to delete the key pair.
        CompletableFuture<DeleteKeyPairResponse> response = getAsyncClient().deleteKeyPair(request);
        return response.whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to delete key pair: " + keyPair, ex);
            } else if (resp == null) {
                throw new RuntimeException("No response received for deleting key pair: " + keyPair);
            }
        });
    }
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteKeyPair)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Deletes an EC2 security group asynchronously.
     *
     * @param groupId the ID of the security group to delete
     * @return a CompletableFuture that completes when the security group is deleted
     */
    public CompletableFuture<Void> deleteEC2SecGroupAsync(String groupId) {
        DeleteSecurityGroupRequest request = DeleteSecurityGroupRequest.builder()
            .groupId(groupId)
            .build();

        CompletableFuture<DeleteSecurityGroupResponse> response = getAsyncClient().deleteSecurityGroup(request);
        return response.whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to delete security group with Id " + groupId, ex);
            } else if (resp == null) {
                throw new RuntimeException("No response received for deleting security group with Id " + groupId);
            }
        }).thenApply(resp -> null);
    }
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteSecurityGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Asynchronously retrieves the instance types available in the current AWS region.
     * <p>
     * This method uses the AWS SDK's asynchronous API to fetch the available instance types
     * and then processes the response. It logs the memory information, network information,
     * and instance type for each instance type returned. Additionally, it returns a
     * {@link CompletableFuture} that resolves to the instance type string for the "t2.2xlarge"
     * instance type, if it is found in the response. If the "t2.2xlarge" instance type is not
     * found, an empty string is returned.
     * </p>
     *
     * @return a {@link CompletableFuture} that resolves to the instance type string for the
     * "t2.2xlarge" instance type, or an empty string if the instance type is not found
     */
    public CompletableFuture<String> getInstanceTypesAsync() {
        DescribeInstanceTypesRequest typesRequest = DescribeInstanceTypesRequest.builder()
            .maxResults(10)
            .build();

        CompletableFuture<DescribeInstanceTypesResponse> response = getAsyncClient().describeInstanceTypes(typesRequest);
        response.whenComplete((resp, ex) -> {
            if (resp != null) {
                List<InstanceTypeInfo> instanceTypes = resp.instanceTypes();
                for (InstanceTypeInfo type : instanceTypes) {
                    logger.info("The memory information of this type is " + type.memoryInfo().sizeInMiB());
                    logger.info("Network information is " + type.networkInfo().toString());
                    logger.info("Instance type is " + type.instanceType().toString());
                }
            } else {
                throw (RuntimeException) ex;
            }
        });

        return response.thenApply(resp -> {
            for (InstanceTypeInfo type : resp.instanceTypes()) {
                String instanceType = type.instanceType().toString();
                if (instanceType.equals("t2.2xlarge")) {
                    return instanceType;
                }
            }
            return "";
        });
    }
```
+  Untuk detail API, lihat [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstanceTypes)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Asynchronously describes the state of an EC2 instance.
     * The paginator helps you iterate over multiple pages of results.
     *
     * @param newInstanceId the ID of the EC2 instance to describe
     * @return a {@link CompletableFuture} that, when completed, contains a string describing the state of the EC2 instance
     */
    public CompletableFuture<String> describeEC2InstancesAsync(String newInstanceId) {
        DescribeInstancesRequest request = DescribeInstancesRequest.builder()
            .instanceIds(newInstanceId)
            .build();

        DescribeInstancesPublisher paginator = getAsyncClient().describeInstancesPaginator(request);
        AtomicReference<String> publicIpAddressRef = new AtomicReference<>();
        return paginator.subscribe(response -> {
            response.reservations().stream()
                .flatMap(reservation -> reservation.instances().stream())
                .filter(instance -> instance.instanceId().equals(newInstanceId))
                .findFirst()
                .ifPresent(instance -> publicIpAddressRef.set(instance.publicIpAddress()));
        }).thenApply(v -> {
            String publicIpAddress = publicIpAddressRef.get();
            if (publicIpAddress == null) {
                throw new RuntimeException("Instance with ID " + newInstanceId + " not found.");
            }
            return publicIpAddress;
        }).exceptionally(ex -> {
            logger.info("Failed to describe instances: " + ex.getMessage());
            throw new RuntimeException("Failed to describe instances", ex);
        });
    }
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstances)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Asynchronously describes the key pairs associated with the current AWS account.
     *
     * @return a {@link CompletableFuture} containing the {@link DescribeKeyPairsResponse} object, which provides
     * information about the key pairs.
     */
    public CompletableFuture<DescribeKeyPairsResponse> describeKeysAsync() {
        CompletableFuture<DescribeKeyPairsResponse> responseFuture = getAsyncClient().describeKeyPairs();
        responseFuture.whenComplete((response, exception) -> {
            if (exception != null) {
              throw new RuntimeException("Failed to describe key pairs: " + exception.getMessage(), exception);
            }
        });

        return responseFuture;
    }
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeKeyPairs)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Asynchronously describes the security groups for the specified group ID.
     *
     * @param groupName the name of the security group to describe
     * @return a {@link CompletableFuture} that represents the asynchronous operation
     *         of describing the security groups. The future will complete with a
     *         {@link DescribeSecurityGroupsResponse} object that contains the
     *         security group information.
     */
    public CompletableFuture<String> describeSecurityGroupArnByNameAsync(String groupName) {
        DescribeSecurityGroupsRequest request = DescribeSecurityGroupsRequest.builder()
            .groupNames(groupName)
            .build();

        DescribeSecurityGroupsPublisher paginator = getAsyncClient().describeSecurityGroupsPaginator(request);
        AtomicReference<String> groupIdRef = new AtomicReference<>();
        return paginator.subscribe(response -> {
            response.securityGroups().stream()
                .filter(securityGroup -> securityGroup.groupName().equals(groupName))
                .findFirst()
                .ifPresent(securityGroup -> groupIdRef.set(securityGroup.groupId()));
        }).thenApply(v -> {
            String groupId = groupIdRef.get();
            if (groupId == null) {
                throw new RuntimeException("No security group found with the name: " + groupName);
            }
            return groupId;
        }).exceptionally(ex -> {
            logger.info("Failed to describe security group: " + ex.getMessage());
            throw new RuntimeException("Failed to describe security group", ex);
        });
    }
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSecurityGroups)di *Referensi AWS SDK for Java 2.x API*. 

### `DisassociateAddress`
<a name="ec2_DisassociateAddress_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateAddress`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Disassociates an Elastic IP address from an instance asynchronously.
     *
     * @param associationId The ID of the association you want to disassociate.
     * @return a {@link CompletableFuture} representing the asynchronous operation of disassociating the address. The
     *         {@link CompletableFuture} will complete with a {@link DisassociateAddressResponse} when the operation is
     *         finished.
     * @throws RuntimeException if the disassociation of the address fails.
     */
    public CompletableFuture<DisassociateAddressResponse> disassociateAddressAsync(String associationId) {
        Ec2AsyncClient ec2 = getAsyncClient();
        DisassociateAddressRequest addressRequest = DisassociateAddressRequest.builder()
            .associationId(associationId)
            .build();

        // Disassociate the address asynchronously.
        CompletableFuture<DisassociateAddressResponse> response = ec2.disassociateAddress(addressRequest);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
               throw new RuntimeException("Failed to disassociate address", ex);
            }
        });

        return response;
    }
```
+  Untuk detail API, lihat [DisassociateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DisassociateAddress)di *Referensi AWS SDK for Java 2.x API*. 

### `GetPasswordData`
<a name="ec2_GetPasswordData_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPasswordData`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ec2.Ec2AsyncClient;
import software.amazon.awssdk.services.ec2.model.*;
import java.util.concurrent.CompletableFuture;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetPasswordData {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                   <instanceId> 

                Where:
                   instanceId - An instance id value that you can obtain from the AWS Management Console.\s
             """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }
        String instanceId = args[0];
        Ec2AsyncClient ec2AsyncClient = Ec2AsyncClient.builder()
            .region(Region.US_EAST_1)
            .build();

        try {
            CompletableFuture<Void> future = getPasswordDataAsync(ec2AsyncClient, instanceId);
            future.join();
        } catch (RuntimeException rte) {
            System.err.println("An exception occurred: " + (rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage()));
        }
    }

    /**
     * Fetches the password data for the specified EC2 instance asynchronously.
     *
     * @param ec2AsyncClient the EC2 asynchronous client to use for the request
     * @param instanceId instanceId the ID of the EC2 instance for which you want to fetch the password data
     * @return a {@link CompletableFuture} that completes when the password data has been fetched
     * @throws RuntimeException if there was a failure in fetching the password data
     */
    public static CompletableFuture<Void> getPasswordDataAsync(Ec2AsyncClient ec2AsyncClient, String instanceId) {
        GetPasswordDataRequest getPasswordDataRequest = GetPasswordDataRequest.builder()
            .instanceId(instanceId)
            .build();


        CompletableFuture<GetPasswordDataResponse> response = ec2AsyncClient.getPasswordData(getPasswordDataRequest);
        response.whenComplete((getPasswordDataResponse, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to get password data for instance: " + instanceId, ex);
            } else if (getPasswordDataResponse == null || getPasswordDataResponse.passwordData().isEmpty()) {
                throw new RuntimeException("No password data found for instance: " + instanceId);
            } else {
                String encryptedPasswordData = getPasswordDataResponse.passwordData();
                System.out.println("Encrypted Password Data: " + encryptedPasswordData);
            }
        });

        return response.thenApply(resp -> null);
    }
}
```
+  Untuk detail API, lihat [GetPasswordData](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/GetPasswordData)di *Referensi AWS SDK for Java 2.x API*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Releases an Elastic IP address asynchronously.
     *
     * @param allocId the allocation ID of the Elastic IP address to be released
     * @return a {@link CompletableFuture} representing the asynchronous operation of releasing the Elastic IP address
     */
    public CompletableFuture<ReleaseAddressResponse> releaseEC2AddressAsync(String allocId) {
        ReleaseAddressRequest request = ReleaseAddressRequest.builder()
            .allocationId(allocId)
            .build();

        CompletableFuture<ReleaseAddressResponse> response = getAsyncClient().releaseAddress(request);
        response.whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to release Elastic IP address", ex);
            }
        });

        return response;
    }
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/ReleaseAddress)di *Referensi AWS SDK for Java 2.x API*. 

### `RunInstances`
<a name="ec2_RunInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Runs an EC2 instance asynchronously.
     *
     * @param instanceType The instance type to use for the EC2 instance.
     * @param keyName The name of the key pair to associate with the EC2 instance.
     * @param groupName The name of the security group to associate with the EC2 instance.
     * @param amiId The ID of the Amazon Machine Image (AMI) to use for the EC2 instance.
     * @return A {@link CompletableFuture} that completes with the ID of the started EC2 instance.
     * @throws RuntimeException If there is an error running the EC2 instance.
     */
    public CompletableFuture<String> runInstanceAsync(String instanceType, String keyName, String groupName, String amiId) {
        RunInstancesRequest runRequest = RunInstancesRequest.builder()
            .instanceType(instanceType)
            .keyName(keyName)
            .securityGroups(groupName)
            .maxCount(1)
            .minCount(1)
            .imageId(amiId)
            .build();

        CompletableFuture<RunInstancesResponse> responseFuture = getAsyncClient().runInstances(runRequest);
        return responseFuture.thenCompose(response -> {
            String instanceIdVal = response.instances().get(0).instanceId();
            System.out.println("Going to start an EC2 instance and use a waiter to wait for it to be in running state");
            return getAsyncClient().waiter()
                .waitUntilInstanceExists(r -> r.instanceIds(instanceIdVal))
                .thenCompose(waitResponse -> getAsyncClient().waiter()
                    .waitUntilInstanceRunning(r -> r.instanceIds(instanceIdVal))
                    .thenApply(runningResponse -> instanceIdVal));
        }).exceptionally(throwable -> {
            // Handle any exceptions that occurred during the async call
            throw new RuntimeException("Failed to run EC2 instance: " + throwable.getMessage(), throwable);
        });
    }
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/RunInstances)di *Referensi AWS SDK for Java 2.x API*. 

### `StartInstances`
<a name="ec2_StartInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Starts an Amazon EC2 instance asynchronously and waits until it is in the "running" state.
     *
     * @param instanceId the ID of the instance to start
     * @return a {@link CompletableFuture} that completes when the instance has been started and is in the "running" state, or exceptionally if an error occurs
     */
    public CompletableFuture<Void> startInstanceAsync(String instanceId) {
        StartInstancesRequest startRequest = StartInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        Ec2AsyncWaiter ec2Waiter = Ec2AsyncWaiter.builder()
            .client(getAsyncClient())
            .build();

        DescribeInstancesRequest describeRequest = DescribeInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        logger.info("Starting instance " + instanceId + " and waiting for it to run.");
        CompletableFuture<Void> resultFuture = new CompletableFuture<>();
        return getAsyncClient().startInstances(startRequest)
            .thenCompose(response ->
                ec2Waiter.waitUntilInstanceRunning(describeRequest)
            )
            .thenAccept(waiterResponse -> {
                logger.info("Successfully started instance " + instanceId);
                resultFuture.complete(null);
            })
            .exceptionally(throwable -> {
                resultFuture.completeExceptionally(new RuntimeException("Failed to start instance: " + throwable.getMessage(), throwable));
                return null;
            });
    }
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/StartInstances)di *Referensi AWS SDK for Java 2.x API*. 

### `StopInstances`
<a name="ec2_StopInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Stops the EC2 instance with the specified ID asynchronously and waits for the instance to stop.
     *
     * @param instanceId the ID of the EC2 instance to stop
     * @return a {@link CompletableFuture} that completes when the instance has been stopped, or exceptionally if an error occurs
     */
    public CompletableFuture<Void> stopInstanceAsync(String instanceId) {
        StopInstancesRequest stopRequest = StopInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        DescribeInstancesRequest describeRequest = DescribeInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        Ec2AsyncWaiter ec2Waiter = Ec2AsyncWaiter.builder()
            .client(getAsyncClient())
            .build();

        CompletableFuture<Void> resultFuture = new CompletableFuture<>();
        logger.info("Stopping instance " + instanceId + " and waiting for it to stop.");
        getAsyncClient().stopInstances(stopRequest)
            .thenCompose(response -> {
                if (response.stoppingInstances().isEmpty()) {
                    return CompletableFuture.failedFuture(new RuntimeException("No instances were stopped. Please check the instance ID: " + instanceId));
                }
                return ec2Waiter.waitUntilInstanceStopped(describeRequest);
            })
            .thenAccept(waiterResponse -> {
                logger.info("Successfully stopped instance " + instanceId);
                resultFuture.complete(null);
            })
            .exceptionally(throwable -> {
                logger.error("Failed to stop instance " + instanceId + ": " + throwable.getMessage(), throwable);
                resultFuture.completeExceptionally(new RuntimeException("Failed to stop instance: " + throwable.getMessage(), throwable));
                return null;
            });

        return resultFuture;
    }
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/StopInstances)di *Referensi AWS SDK for Java 2.x API*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). 

```
    /**
     * Terminates an EC2 instance asynchronously and waits for it to reach the terminated state.
     *
     * @param instanceId the ID of the EC2 instance to terminate
     * @return a {@link CompletableFuture} that completes when the instance has been terminated
     * @throws RuntimeException if there is no response from the AWS SDK or if there is a failure during the termination process
     */
    public CompletableFuture<Object> terminateEC2Async(String instanceId) {
        TerminateInstancesRequest terminateRequest = TerminateInstancesRequest.builder()
            .instanceIds(instanceId)
            .build();

        CompletableFuture<TerminateInstancesResponse> responseFuture = getAsyncClient().terminateInstances(terminateRequest);
        return responseFuture.thenCompose(terminateResponse -> {
            if (terminateResponse == null) {
                throw new RuntimeException("No response received for terminating instance " + instanceId);
            }
            System.out.println("Going to terminate an EC2 instance and use a waiter to wait for it to be in terminated state");
            return getAsyncClient().waiter()
                .waitUntilInstanceTerminated(r -> r.instanceIds(instanceId))
                .thenApply(waiterResponse -> null);
        }).exceptionally(throwable -> {
            // Handle any exceptions that occurred during the async call
            throw new RuntimeException("Failed to terminate EC2 instance: " + throwable.getMessage(), throwable);
        });
    }
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/TerminateInstances)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
public class Main {

    public static final String fileName = "C:\\AWS\\resworkflow\\recommendations.json"; // Modify file location.
    public static final String tableName = "doc-example-recommendation-service";
    public static final String startScript = "C:\\AWS\\resworkflow\\server_startup_script.sh"; // Modify file location.
    public static final String policyFile = "C:\\AWS\\resworkflow\\instance_policy.json"; // Modify file location.
    public static final String ssmJSON = "C:\\AWS\\resworkflow\\ssm_only_policy.json"; // Modify file location.
    public static final String failureResponse = "doc-example-resilient-architecture-failure-response";
    public static final String healthCheck = "doc-example-resilient-architecture-health-check";
    public static final String templateName = "doc-example-resilience-template";
    public static final String roleName = "doc-example-resilience-role";
    public static final String policyName = "doc-example-resilience-pol";
    public static final String profileName = "doc-example-resilience-prof";

    public static final String badCredsProfileName = "doc-example-resilience-prof-bc";

    public static final String targetGroupName = "doc-example-resilience-tg";
    public static final String autoScalingGroupName = "doc-example-resilience-group";
    public static final String lbName = "doc-example-resilience-lb";
    public static final String protocol = "HTTP";
    public static final int port = 80;

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws IOException, InterruptedException {
        Scanner in = new Scanner(System.in);
        Database database = new Database();
        AutoScaler autoScaler = new AutoScaler();
        LoadBalancer loadBalancer = new LoadBalancer();

        System.out.println(DASHES);
        System.out.println("Welcome to the demonstration of How to Build and Manage a Resilient Service!");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("A - SETUP THE RESOURCES");
        System.out.println("Press Enter when you're ready to start deploying resources.");
        in.nextLine();
        deploy(loadBalancer);
        System.out.println(DASHES);
        System.out.println(DASHES);
        System.out.println("B - DEMO THE RESILIENCE FUNCTIONALITY");
        System.out.println("Press Enter when you're ready.");
        in.nextLine();
        demo(loadBalancer);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("C - DELETE THE RESOURCES");
        System.out.println("""
                This concludes the demo of how to build and manage a resilient service.
                To keep things tidy and to avoid unwanted charges on your account, we can clean up all AWS resources
                that were created for this demo.
                """);

        System.out.println("\n Do you want to delete the resources (y/n)? ");
        String userInput = in.nextLine().trim().toLowerCase(); // Capture user input

        if (userInput.equals("y")) {
            // Delete resources here
            deleteResources(loadBalancer, autoScaler, database);
            System.out.println("Resources deleted.");
        } else {
            System.out.println("""
                    Okay, we'll leave the resources intact.
                    Don't forget to delete them when you're done with them or you might incur unexpected charges.
                    """);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The example has completed. ");
        System.out.println("\n Thanks for watching!");
        System.out.println(DASHES);
    }

    // Deletes the AWS resources used in this example.
    private static void deleteResources(LoadBalancer loadBalancer, AutoScaler autoScaler, Database database)
            throws IOException, InterruptedException {
        loadBalancer.deleteLoadBalancer(lbName);
        System.out.println("*** Wait 30 secs for resource to be deleted");
        TimeUnit.SECONDS.sleep(30);
        loadBalancer.deleteTargetGroup(targetGroupName);
        autoScaler.deleteAutoScaleGroup(autoScalingGroupName);
        autoScaler.deleteRolesPolicies(policyName, roleName, profileName);
        autoScaler.deleteTemplate(templateName);
        database.deleteTable(tableName);
    }

    private static void deploy(LoadBalancer loadBalancer) throws InterruptedException, IOException {
        Scanner in = new Scanner(System.in);
        System.out.println(
                """
                        For this demo, we'll use the AWS SDK for Java (v2) to create several AWS resources
                        to set up a load-balanced web service endpoint and explore some ways to make it resilient
                        against various kinds of failures.

                        Some of the resources create by this demo are:
                        \t* A DynamoDB table that the web service depends on to provide book, movie, and song recommendations.
                        \t* An EC2 launch template that defines EC2 instances that each contain a Python web server.
                        \t* An EC2 Auto Scaling group that manages EC2 instances across several Availability Zones.
                        \t* An Elastic Load Balancing (ELB) load balancer that targets the Auto Scaling group to distribute requests.
                        """);

        System.out.println("Press Enter when you're ready.");
        in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Creating and populating a DynamoDB table named " + tableName);
        Database database = new Database();
        database.createTable(tableName, fileName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
                Creating an EC2 launch template that runs '{startup_script}' when an instance starts.
                This script starts a Python web server defined in the `server.py` script. The web server
                listens to HTTP requests on port 80 and responds to requests to '/' and to '/healthcheck'.
                For demo purposes, this server is run as the root user. In production, the best practice is to
                run a web server, such as Apache, with least-privileged credentials.

                The template also defines an IAM policy that each instance uses to assume a role that grants
                permissions to access the DynamoDB recommendation table and Systems Manager parameters
                that control the flow of the demo.
                """);

        LaunchTemplateCreator templateCreator = new LaunchTemplateCreator();
        templateCreator.createTemplate(policyFile, policyName, profileName, startScript, templateName, roleName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(
                "Creating an EC2 Auto Scaling group that maintains three EC2 instances, each in a different Availability Zone.");
        System.out.println("*** Wait 30 secs for the VPC to be created");
        TimeUnit.SECONDS.sleep(30);
        AutoScaler autoScaler = new AutoScaler();
        String[] zones = autoScaler.createGroup(3, templateName, autoScalingGroupName);

        System.out.println("""
                At this point, you have EC2 instances created. Once each instance starts, it listens for
                HTTP requests. You can see these instances in the console or continue with the demo.
                Press Enter when you're ready to continue.
                """);

        in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Creating variables that control the flow of the demo.");
        ParameterHelper paramHelper = new ParameterHelper();
        paramHelper.reset();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
                Creating an Elastic Load Balancing target group and load balancer. The target group
                defines how the load balancer connects to instances. The load balancer provides a
                single endpoint where clients connect and dispatches requests to instances in the group.
                """);

        String vpcId = autoScaler.getDefaultVPC();
        List<Subnet> subnets = autoScaler.getSubnets(vpcId, zones);
        System.out.println("You have retrieved a list with " + subnets.size() + " subnets");
        String targetGroupArn = loadBalancer.createTargetGroup(protocol, port, vpcId, targetGroupName);
        String elbDnsName = loadBalancer.createLoadBalancer(subnets, targetGroupArn, lbName, port, protocol);
        autoScaler.attachLoadBalancerTargetGroup(autoScalingGroupName, targetGroupArn);
        System.out.println("Verifying access to the load balancer endpoint...");
        boolean wasSuccessul = loadBalancer.verifyLoadBalancerEndpoint(elbDnsName);
        if (!wasSuccessul) {
            System.out.println("Couldn't connect to the load balancer, verifying that the port is open...");
            CloseableHttpClient httpClient = HttpClients.createDefault();

            // Create an HTTP GET request to "http://checkip.amazonaws.com"
            HttpGet httpGet = new HttpGet("http://checkip.amazonaws.com");
            try {
                // Execute the request and get the response
                HttpResponse response = httpClient.execute(httpGet);

                // Read the response content.
                String ipAddress = IOUtils.toString(response.getEntity().getContent(), StandardCharsets.UTF_8).trim();

                // Print the public IP address.
                System.out.println("Public IP Address: " + ipAddress);
                GroupInfo groupInfo = autoScaler.verifyInboundPort(vpcId, port, ipAddress);
                if (!groupInfo.isPortOpen()) {
                    System.out.println("""
                            For this example to work, the default security group for your default VPC must
                            allow access from this computer. You can either add it automatically from this
                            example or add it yourself using the AWS Management Console.
                            """);

                    System.out.println(
                            "Do you want to add a rule to security group " + groupInfo.getGroupName() + " to allow");
                    System.out.println("inbound traffic on port " + port + " from your computer's IP address (y/n) ");
                    String ans = in.nextLine();
                    if ("y".equalsIgnoreCase(ans)) {
                        autoScaler.openInboundPort(groupInfo.getGroupName(), String.valueOf(port), ipAddress);
                        System.out.println("Security group rule added.");
                    } else {
                        System.out.println("No security group rule added.");
                    }
                }

            } catch (AutoScalingException e) {
                e.printStackTrace();
            }
        } else if (wasSuccessul) {
            System.out.println("Your load balancer is ready. You can access it by browsing to:");
            System.out.println("\t http://" + elbDnsName);
        } else {
            System.out.println("Couldn't get a successful response from the load balancer endpoint. Troubleshoot by");
            System.out.println("manually verifying that your VPC and security group are configured correctly and that");
            System.out.println("you can successfully make a GET request to the load balancer.");
        }

        System.out.println("Press Enter when you're ready to continue with the demo.");
        in.nextLine();
    }

    // A method that controls the demo part of the Java program.
    public static void demo(LoadBalancer loadBalancer) throws IOException, InterruptedException {
        ParameterHelper paramHelper = new ParameterHelper();
        System.out.println("Read the ssm_only_policy.json file");
        String ssmOnlyPolicy = readFileAsString(ssmJSON);

        System.out.println("Resetting parameters to starting values for demo.");
        paramHelper.reset();

        System.out.println(
                """
                         This part of the demonstration shows how to toggle different parts of the system
                         to create situations where the web service fails, and shows how using a resilient
                         architecture can keep the web service running in spite of these failures.

                         At the start, the load balancer endpoint returns recommendations and reports that all targets are healthy.
                        """);
        demoChoices(loadBalancer);

        System.out.println(
                """
                         The web service running on the EC2 instances gets recommendations by querying a DynamoDB table.
                         The table name is contained in a Systems Manager parameter named self.param_helper.table.
                         To simulate a failure of the recommendation service, let's set this parameter to name a non-existent table.
                        """);
        paramHelper.put(paramHelper.tableName, "this-is-not-a-table");

        System.out.println(
                """
                         \nNow, sending a GET request to the load balancer endpoint returns a failure code. But, the service reports as
                         healthy to the load balancer because shallow health checks don't check for failure of the recommendation service.
                        """);
        demoChoices(loadBalancer);

        System.out.println(
                """
                        Instead of failing when the recommendation service fails, the web service can return a static response.
                        While this is not a perfect solution, it presents the customer with a somewhat better experience than failure.
                        """);
        paramHelper.put(paramHelper.failureResponse, "static");

        System.out.println("""
                Now, sending a GET request to the load balancer endpoint returns a static response.
                The service still reports as healthy because health checks are still shallow.
                """);
        demoChoices(loadBalancer);

        System.out.println("Let's reinstate the recommendation service.");
        paramHelper.put(paramHelper.tableName, paramHelper.dyntable);

        System.out.println("""
                Let's also substitute bad credentials for one of the instances in the target group so that it can't
                access the DynamoDB recommendation table. We will get an instance id value.
                """);

        LaunchTemplateCreator templateCreator = new LaunchTemplateCreator();
        AutoScaler autoScaler = new AutoScaler();

        // Create a new instance profile based on badCredsProfileName.
        templateCreator.createInstanceProfile(policyFile, policyName, badCredsProfileName, roleName);
        String badInstanceId = autoScaler.getBadInstance(autoScalingGroupName);
        System.out.println("The bad instance id values used for this demo is " + badInstanceId);

        String profileAssociationId = autoScaler.getInstanceProfile(badInstanceId);
        System.out.println("The association Id value is " + profileAssociationId);
        System.out.println("Replacing the profile for instance " + badInstanceId
                + " with a profile that contains bad credentials");
        autoScaler.replaceInstanceProfile(badInstanceId, badCredsProfileName, profileAssociationId);

        System.out.println(
                """
                        Now, sending a GET request to the load balancer endpoint returns either a recommendation or a static response,
                        depending on which instance is selected by the load balancer.
                        """);

        demoChoices(loadBalancer);

        System.out.println("""
                Let's implement a deep health check. For this demo, a deep health check tests whether
                the web service can access the DynamoDB table that it depends on for recommendations. Note that
                the deep health check is only for ELB routing and not for Auto Scaling instance health.
                This kind of deep health check is not recommended for Auto Scaling instance health, because it
                risks accidental termination of all instances in the Auto Scaling group when a dependent service fails.
                """);

        System.out.println("""
                By implementing deep health checks, the load balancer can detect when one of the instances is failing
                and take that instance out of rotation.
                """);

        paramHelper.put(paramHelper.healthCheck, "deep");

        System.out.println("""
                Now, checking target health indicates that the instance with bad credentials
                is unhealthy. Note that it might take a minute or two for the load balancer to detect the unhealthy
                instance. Sending a GET request to the load balancer endpoint always returns a recommendation, because
                the load balancer takes unhealthy instances out of its rotation.
                """);

        demoChoices(loadBalancer);

        System.out.println(
                """
                        Because the instances in this demo are controlled by an auto scaler, the simplest way to fix an unhealthy
                        instance is to terminate it and let the auto scaler start a new instance to replace it.
                        """);
        autoScaler.terminateInstance(badInstanceId);

        System.out.println("""
                Even while the instance is terminating and the new instance is starting, sending a GET
                request to the web service continues to get a successful recommendation response because
                the load balancer routes requests to the healthy instances. After the replacement instance
                starts and reports as healthy, it is included in the load balancing rotation.
                Note that terminating and replacing an instance typically takes several minutes, during which time you
                can see the changing health check status until the new instance is running and healthy.
                """);

        demoChoices(loadBalancer);
        System.out.println(
                "If the recommendation service fails now, deep health checks mean all instances report as unhealthy.");
        paramHelper.put(paramHelper.tableName, "this-is-not-a-table");

        demoChoices(loadBalancer);
        paramHelper.reset();
    }

    public static void demoChoices(LoadBalancer loadBalancer) throws IOException, InterruptedException {
        String[] actions = {
                "Send a GET request to the load balancer endpoint.",
                "Check the health of load balancer targets.",
                "Go to the next part of the demo."
        };
        Scanner scanner = new Scanner(System.in);

        while (true) {
            System.out.println("-".repeat(88));
            System.out.println("See the current state of the service by selecting one of the following choices:");
            for (int i = 0; i < actions.length; i++) {
                System.out.println(i + ": " + actions[i]);
            }

            try {
                System.out.print("\nWhich action would you like to take? ");
                int choice = scanner.nextInt();
                System.out.println("-".repeat(88));

                switch (choice) {
                    case 0 -> {
                        System.out.println("Request:\n");
                        System.out.println("GET http://" + loadBalancer.getEndpoint(lbName));
                        CloseableHttpClient httpClient = HttpClients.createDefault();

                        // Create an HTTP GET request to the ELB.
                        HttpGet httpGet = new HttpGet("http://" + loadBalancer.getEndpoint(lbName));

                        // Execute the request and get the response.
                        HttpResponse response = httpClient.execute(httpGet);
                        int statusCode = response.getStatusLine().getStatusCode();
                        System.out.println("HTTP Status Code: " + statusCode);

                        // Display the JSON response
                        BufferedReader reader = new BufferedReader(
                                new InputStreamReader(response.getEntity().getContent()));
                        StringBuilder jsonResponse = new StringBuilder();
                        String line;
                        while ((line = reader.readLine()) != null) {
                            jsonResponse.append(line);
                        }
                        reader.close();

                        // Print the formatted JSON response.
                        System.out.println("Full Response:\n");
                        System.out.println(jsonResponse.toString());

                        // Close the HTTP client.
                        httpClient.close();

                    }
                    case 1 -> {
                        System.out.println("\nChecking the health of load balancer targets:\n");
                        List<TargetHealthDescription> health = loadBalancer.checkTargetHealth(targetGroupName);
                        for (TargetHealthDescription target : health) {
                            System.out.printf("\tTarget %s on port %d is %s%n", target.target().id(),
                                    target.target().port(), target.targetHealth().stateAsString());
                        }
                        System.out.println("""
                                Note that it can take a minute or two for the health check to update
                                after changes are made.
                                """);
                    }
                    case 2 -> {
                        System.out.println("\nOkay, let's move on.");
                        System.out.println("-".repeat(88));
                        return; // Exit the method when choice is 2
                    }
                    default -> System.out.println("You must choose a value between 0-2. Please select again.");
                }

            } catch (java.util.InputMismatchException e) {
                System.out.println("Invalid input. Please select again.");
                scanner.nextLine(); // Clear the input buffer.
            }
        }
    }

    public static String readFileAsString(String filePath) throws IOException {
        byte[] bytes = Files.readAllBytes(Paths.get(filePath));
        return new String(bytes);
    }
}
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
public class AutoScaler {

    private static Ec2Client ec2Client;
    private static AutoScalingClient autoScalingClient;
    private static IamClient iamClient;

    private static SsmClient ssmClient;

    private IamClient getIAMClient() {
        if (iamClient == null) {
            iamClient = IamClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return iamClient;
    }

    private SsmClient getSSMClient() {
        if (ssmClient == null) {
            ssmClient = SsmClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return ssmClient;
    }

    private Ec2Client getEc2Client() {
        if (ec2Client == null) {
            ec2Client = Ec2Client.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return ec2Client;
    }

    private AutoScalingClient getAutoScalingClient() {
        if (autoScalingClient == null) {
            autoScalingClient = AutoScalingClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return autoScalingClient;
    }

    /**
     * Terminates and instances in an EC2 Auto Scaling group. After an instance is
     * terminated, it can no longer be accessed.
     */
    public void terminateInstance(String instanceId) {
        TerminateInstanceInAutoScalingGroupRequest terminateInstanceIRequest = TerminateInstanceInAutoScalingGroupRequest
                .builder()
                .instanceId(instanceId)
                .shouldDecrementDesiredCapacity(false)
                .build();

        getAutoScalingClient().terminateInstanceInAutoScalingGroup(terminateInstanceIRequest);
        System.out.format("Terminated instance %s.", instanceId);
    }

    /**
     * Replaces the profile associated with a running instance. After the profile is
     * replaced, the instance is rebooted to ensure that it uses the new profile.
     * When
     * the instance is ready, Systems Manager is used to restart the Python web
     * server.
     */
    public void replaceInstanceProfile(String instanceId, String newInstanceProfileName, String profileAssociationId)
            throws InterruptedException {
        // Create an IAM instance profile specification.
        software.amazon.awssdk.services.ec2.model.IamInstanceProfileSpecification iamInstanceProfile = software.amazon.awssdk.services.ec2.model.IamInstanceProfileSpecification
                .builder()
                .name(newInstanceProfileName) // Make sure 'newInstanceProfileName' is a valid IAM Instance Profile
                                              // name.
                .build();

        // Replace the IAM instance profile association for the EC2 instance.
        ReplaceIamInstanceProfileAssociationRequest replaceRequest = ReplaceIamInstanceProfileAssociationRequest
                .builder()
                .iamInstanceProfile(iamInstanceProfile)
                .associationId(profileAssociationId) // Make sure 'profileAssociationId' is a valid association ID.
                .build();

        try {
            getEc2Client().replaceIamInstanceProfileAssociation(replaceRequest);
            // Handle the response as needed.
        } catch (Ec2Exception e) {
            // Handle exceptions, log, or report the error.
            System.err.println("Error: " + e.getMessage());
        }
        System.out.format("Replaced instance profile for association %s with profile %s.", profileAssociationId,
                newInstanceProfileName);
        TimeUnit.SECONDS.sleep(15);
        boolean instReady = false;
        int tries = 0;

        // Reboot after 60 seconds
        while (!instReady) {
            if (tries % 6 == 0) {
                getEc2Client().rebootInstances(RebootInstancesRequest.builder()
                        .instanceIds(instanceId)
                        .build());
                System.out.println("Rebooting instance " + instanceId + " and waiting for it to be ready.");
            }
            tries++;
            try {
                TimeUnit.SECONDS.sleep(10);
            } catch (InterruptedException e) {
                e.printStackTrace();
            }

            DescribeInstanceInformationResponse informationResponse = getSSMClient().describeInstanceInformation();
            List<InstanceInformation> instanceInformationList = informationResponse.instanceInformationList();
            for (InstanceInformation info : instanceInformationList) {
                if (info.instanceId().equals(instanceId)) {
                    instReady = true;
                    break;
                }
            }
        }

        SendCommandRequest sendCommandRequest = SendCommandRequest.builder()
                .instanceIds(instanceId)
                .documentName("AWS-RunShellScript")
                .parameters(Collections.singletonMap("commands",
                        Collections.singletonList("cd / && sudo python3 server.py 80")))
                .build();

        getSSMClient().sendCommand(sendCommandRequest);
        System.out.println("Restarted the Python web server on instance " + instanceId + ".");
    }

    public void openInboundPort(String secGroupId, String port, String ipAddress) {
        AuthorizeSecurityGroupIngressRequest ingressRequest = AuthorizeSecurityGroupIngressRequest.builder()
                .groupName(secGroupId)
                .cidrIp(ipAddress)
                .fromPort(Integer.parseInt(port))
                .build();

        getEc2Client().authorizeSecurityGroupIngress(ingressRequest);
        System.out.format("Authorized ingress to %s on port %s from %s.", secGroupId, port, ipAddress);
    }

    /**
     * Detaches a role from an instance profile, detaches policies from the role,
     * and deletes all the resources.
     */
    public void deleteInstanceProfile(String roleName, String profileName) {
        try {
            software.amazon.awssdk.services.iam.model.GetInstanceProfileRequest getInstanceProfileRequest = software.amazon.awssdk.services.iam.model.GetInstanceProfileRequest
                    .builder()
                    .instanceProfileName(profileName)
                    .build();

            GetInstanceProfileResponse response = getIAMClient().getInstanceProfile(getInstanceProfileRequest);
            String name = response.instanceProfile().instanceProfileName();
            System.out.println(name);

            RemoveRoleFromInstanceProfileRequest profileRequest = RemoveRoleFromInstanceProfileRequest.builder()
                    .instanceProfileName(profileName)
                    .roleName(roleName)
                    .build();

            getIAMClient().removeRoleFromInstanceProfile(profileRequest);
            DeleteInstanceProfileRequest deleteInstanceProfileRequest = DeleteInstanceProfileRequest.builder()
                    .instanceProfileName(profileName)
                    .build();

            getIAMClient().deleteInstanceProfile(deleteInstanceProfileRequest);
            System.out.println("Deleted instance profile " + profileName);

            DeleteRoleRequest deleteRoleRequest = DeleteRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            // List attached role policies.
            ListAttachedRolePoliciesResponse rolesResponse = getIAMClient()
                    .listAttachedRolePolicies(role -> role.roleName(roleName));
            List<AttachedPolicy> attachedPolicies = rolesResponse.attachedPolicies();
            for (AttachedPolicy attachedPolicy : attachedPolicies) {
                DetachRolePolicyRequest request = DetachRolePolicyRequest.builder()
                        .roleName(roleName)
                        .policyArn(attachedPolicy.policyArn())
                        .build();

                getIAMClient().detachRolePolicy(request);
                System.out.println("Detached and deleted policy " + attachedPolicy.policyName());
            }

            getIAMClient().deleteRole(deleteRoleRequest);
            System.out.println("Instance profile and role deleted.");

        } catch (IamException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public void deleteTemplate(String templateName) {
        getEc2Client().deleteLaunchTemplate(name -> name.launchTemplateName(templateName));
        System.out.format(templateName + " was deleted.");
    }

    public void deleteAutoScaleGroup(String groupName) {
        DeleteAutoScalingGroupRequest deleteAutoScalingGroupRequest = DeleteAutoScalingGroupRequest.builder()
                .autoScalingGroupName(groupName)
                .forceDelete(true)
                .build();

        getAutoScalingClient().deleteAutoScalingGroup(deleteAutoScalingGroupRequest);
        System.out.println(groupName + " was deleted.");
    }

    /*
     * Verify the default security group of the specified VPC allows ingress from
     * this
     * computer. This can be done by allowing ingress from this computer's IP
     * address. In some situations, such as connecting from a corporate network, you
     * must instead specify a prefix list ID. You can also temporarily open the port
     * to
     * any IP address while running this example. If you do, be sure to remove
     * public
     * access when you're done.
     * 
     */
    public GroupInfo verifyInboundPort(String VPC, int port, String ipAddress) {
        boolean portIsOpen = false;
        GroupInfo groupInfo = new GroupInfo();
        try {
            Filter filter = Filter.builder()
                    .name("group-name")
                    .values("default")
                    .build();

            Filter filter1 = Filter.builder()
                    .name("vpc-id")
                    .values(VPC)
                    .build();

            DescribeSecurityGroupsRequest securityGroupsRequest = DescribeSecurityGroupsRequest.builder()
                    .filters(filter, filter1)
                    .build();

            DescribeSecurityGroupsResponse securityGroupsResponse = getEc2Client()
                    .describeSecurityGroups(securityGroupsRequest);
            String securityGroup = securityGroupsResponse.securityGroups().get(0).groupName();
            groupInfo.setGroupName(securityGroup);

            for (SecurityGroup secGroup : securityGroupsResponse.securityGroups()) {
                System.out.println("Found security group: " + secGroup.groupId());

                for (IpPermission ipPermission : secGroup.ipPermissions()) {
                    if (ipPermission.fromPort() == port) {
                        System.out.println("Found inbound rule: " + ipPermission);
                        for (IpRange ipRange : ipPermission.ipRanges()) {
                            String cidrIp = ipRange.cidrIp();
                            if (cidrIp.startsWith(ipAddress) || cidrIp.equals("0.0.0.0/0")) {
                                System.out.println(cidrIp + " is applicable");
                                portIsOpen = true;
                            }
                        }

                        if (!ipPermission.prefixListIds().isEmpty()) {
                            System.out.println("Prefix lList is applicable");
                            portIsOpen = true;
                        }

                        if (!portIsOpen) {
                            System.out
                                    .println("The inbound rule does not appear to be open to either this computer's IP,"
                                            + " all IP addresses (0.0.0.0/0), or to a prefix list ID.");
                        } else {
                            break;
                        }
                    }
                }
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }

        groupInfo.setPortOpen(portIsOpen);
        return groupInfo;
    }

    /*
     * Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto
     * Scaling group.
     * The target group specifies how the load balancer forward requests to the
     * instances
     * in the group.
     */
    public void attachLoadBalancerTargetGroup(String asGroupName, String targetGroupARN) {
        try {
            AttachLoadBalancerTargetGroupsRequest targetGroupsRequest = AttachLoadBalancerTargetGroupsRequest.builder()
                    .autoScalingGroupName(asGroupName)
                    .targetGroupARNs(targetGroupARN)
                    .build();

            getAutoScalingClient().attachLoadBalancerTargetGroups(targetGroupsRequest);
            System.out.println("Attached load balancer to " + asGroupName);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Creates an EC2 Auto Scaling group with the specified size.
    public String[] createGroup(int groupSize, String templateName, String autoScalingGroupName) {

        // Get availability zones.
        software.amazon.awssdk.services.ec2.model.DescribeAvailabilityZonesRequest zonesRequest = software.amazon.awssdk.services.ec2.model.DescribeAvailabilityZonesRequest
                .builder()
                .build();

        DescribeAvailabilityZonesResponse zonesResponse = getEc2Client().describeAvailabilityZones(zonesRequest);
        List<String> availabilityZoneNames = zonesResponse.availabilityZones().stream()
                .map(software.amazon.awssdk.services.ec2.model.AvailabilityZone::zoneName)
                .collect(Collectors.toList());

        String availabilityZones = String.join(",", availabilityZoneNames);
        LaunchTemplateSpecification specification = LaunchTemplateSpecification.builder()
                .launchTemplateName(templateName)
                .version("$Default")
                .build();

        String[] zones = availabilityZones.split(",");
        CreateAutoScalingGroupRequest groupRequest = CreateAutoScalingGroupRequest.builder()
                .launchTemplate(specification)
                .availabilityZones(zones)
                .maxSize(groupSize)
                .minSize(groupSize)
                .autoScalingGroupName(autoScalingGroupName)
                .build();

        try {
            getAutoScalingClient().createAutoScalingGroup(groupRequest);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Created an EC2 Auto Scaling group named " + autoScalingGroupName);
        return zones;
    }

    public String getDefaultVPC() {
        // Define the filter.
        Filter defaultFilter = Filter.builder()
                .name("is-default")
                .values("true")
                .build();

        software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest request = software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest
                .builder()
                .filters(defaultFilter)
                .build();

        DescribeVpcsResponse response = getEc2Client().describeVpcs(request);
        return response.vpcs().get(0).vpcId();
    }

    // Gets the default subnets in a VPC for a specified list of Availability Zones.
    public List<Subnet> getSubnets(String vpcId, String[] availabilityZones) {
        List<Subnet> subnets = null;
        Filter vpcFilter = Filter.builder()
                .name("vpc-id")
                .values(vpcId)
                .build();

        Filter azFilter = Filter.builder()
                .name("availability-zone")
                .values(availabilityZones)
                .build();

        Filter defaultForAZ = Filter.builder()
                .name("default-for-az")
                .values("true")
                .build();

        DescribeSubnetsRequest request = DescribeSubnetsRequest.builder()
                .filters(vpcFilter, azFilter, defaultForAZ)
                .build();

        DescribeSubnetsResponse response = getEc2Client().describeSubnets(request);
        subnets = response.subnets();
        return subnets;
    }

    // Gets data about the instances in the EC2 Auto Scaling group.
    public String getBadInstance(String groupName) {
        DescribeAutoScalingGroupsRequest request = DescribeAutoScalingGroupsRequest.builder()
                .autoScalingGroupNames(groupName)
                .build();

        DescribeAutoScalingGroupsResponse response = getAutoScalingClient().describeAutoScalingGroups(request);
        AutoScalingGroup autoScalingGroup = response.autoScalingGroups().get(0);
        List<String> instanceIds = autoScalingGroup.instances().stream()
                .map(instance -> instance.instanceId())
                .collect(Collectors.toList());

        String[] instanceIdArray = instanceIds.toArray(new String[0]);
        for (String instanceId : instanceIdArray) {
            System.out.println("Instance ID: " + instanceId);
            return instanceId;
        }
        return "";
    }

    // Gets data about the profile associated with an instance.
    public String getInstanceProfile(String instanceId) {
        Filter filter = Filter.builder()
                .name("instance-id")
                .values(instanceId)
                .build();

        DescribeIamInstanceProfileAssociationsRequest associationsRequest = DescribeIamInstanceProfileAssociationsRequest
                .builder()
                .filters(filter)
                .build();

        DescribeIamInstanceProfileAssociationsResponse response = getEc2Client()
                .describeIamInstanceProfileAssociations(associationsRequest);
        return response.iamInstanceProfileAssociations().get(0).associationId();
    }

    public void deleteRolesPolicies(String policyName, String roleName, String InstanceProfile) {
        ListPoliciesRequest listPoliciesRequest = ListPoliciesRequest.builder().build();
        ListPoliciesResponse listPoliciesResponse = getIAMClient().listPolicies(listPoliciesRequest);
        for (Policy policy : listPoliciesResponse.policies()) {
            if (policy.policyName().equals(policyName)) {
                // List the entities (users, groups, roles) that are attached to the policy.
                software.amazon.awssdk.services.iam.model.ListEntitiesForPolicyRequest listEntitiesRequest = software.amazon.awssdk.services.iam.model.ListEntitiesForPolicyRequest
                        .builder()
                        .policyArn(policy.arn())
                        .build();
                ListEntitiesForPolicyResponse listEntitiesResponse = iamClient
                        .listEntitiesForPolicy(listEntitiesRequest);
                if (!listEntitiesResponse.policyGroups().isEmpty() || !listEntitiesResponse.policyUsers().isEmpty()
                        || !listEntitiesResponse.policyRoles().isEmpty()) {
                    // Detach the policy from any entities it is attached to.
                    DetachRolePolicyRequest detachPolicyRequest = DetachRolePolicyRequest.builder()
                            .policyArn(policy.arn())
                            .roleName(roleName) // Specify the name of the IAM role
                            .build();

                    getIAMClient().detachRolePolicy(detachPolicyRequest);
                    System.out.println("Policy detached from entities.");
                }

                // Now, you can delete the policy.
                DeletePolicyRequest deletePolicyRequest = DeletePolicyRequest.builder()
                        .policyArn(policy.arn())
                        .build();

                getIAMClient().deletePolicy(deletePolicyRequest);
                System.out.println("Policy deleted successfully.");
                break;
            }
        }

        // List the roles associated with the instance profile
        ListInstanceProfilesForRoleRequest listRolesRequest = ListInstanceProfilesForRoleRequest.builder()
                .roleName(roleName)
                .build();

        // Detach the roles from the instance profile
        ListInstanceProfilesForRoleResponse listRolesResponse = iamClient.listInstanceProfilesForRole(listRolesRequest);
        for (software.amazon.awssdk.services.iam.model.InstanceProfile profile : listRolesResponse.instanceProfiles()) {
            RemoveRoleFromInstanceProfileRequest removeRoleRequest = RemoveRoleFromInstanceProfileRequest.builder()
                    .instanceProfileName(InstanceProfile)
                    .roleName(roleName) // Remove the extra dot here
                    .build();

            getIAMClient().removeRoleFromInstanceProfile(removeRoleRequest);
            System.out.println("Role " + roleName + " removed from instance profile " + InstanceProfile);
        }

        // Delete the instance profile after removing all roles
        DeleteInstanceProfileRequest deleteInstanceProfileRequest = DeleteInstanceProfileRequest.builder()
                .instanceProfileName(InstanceProfile)
                .build();

        getIAMClient().deleteInstanceProfile(r -> r.instanceProfileName(InstanceProfile));
        System.out.println(InstanceProfile + " Deleted");
        System.out.println("All roles and policies are deleted.");
    }
}
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
public class LoadBalancer {
    public ElasticLoadBalancingV2Client elasticLoadBalancingV2Client;

    public ElasticLoadBalancingV2Client getLoadBalancerClient() {
        if (elasticLoadBalancingV2Client == null) {
            elasticLoadBalancingV2Client = ElasticLoadBalancingV2Client.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }

        return elasticLoadBalancingV2Client;
    }

    // Checks the health of the instances in the target group.
    public List<TargetHealthDescription> checkTargetHealth(String targetGroupName) {
        DescribeTargetGroupsRequest targetGroupsRequest = DescribeTargetGroupsRequest.builder()
                .names(targetGroupName)
                .build();

        DescribeTargetGroupsResponse tgResponse = getLoadBalancerClient().describeTargetGroups(targetGroupsRequest);

        DescribeTargetHealthRequest healthRequest = DescribeTargetHealthRequest.builder()
                .targetGroupArn(tgResponse.targetGroups().get(0).targetGroupArn())
                .build();

        DescribeTargetHealthResponse healthResponse = getLoadBalancerClient().describeTargetHealth(healthRequest);
        return healthResponse.targetHealthDescriptions();
    }

    // Gets the HTTP endpoint of the load balancer.
    public String getEndpoint(String lbName) {
        DescribeLoadBalancersResponse res = getLoadBalancerClient()
                .describeLoadBalancers(describe -> describe.names(lbName));
        return res.loadBalancers().get(0).dnsName();
    }

    // Deletes a load balancer.
    public void deleteLoadBalancer(String lbName) {
        try {
            // Use a waiter to delete the Load Balancer.
            DescribeLoadBalancersResponse res = getLoadBalancerClient()
                    .describeLoadBalancers(describe -> describe.names(lbName));
            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(res.loadBalancers().get(0).loadBalancerArn())
                    .build();

            getLoadBalancerClient().deleteLoadBalancer(
                    builder -> builder.loadBalancerArn(res.loadBalancers().get(0).loadBalancerArn()));
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancersDeleted(request);
            waiterResponse.matched().response().ifPresent(System.out::println);

        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(lbName + " was deleted.");
    }

    // Deletes the target group.
    public void deleteTargetGroup(String targetGroupName) {
        try {
            DescribeTargetGroupsResponse res = getLoadBalancerClient()
                    .describeTargetGroups(describe -> describe.names(targetGroupName));
            getLoadBalancerClient()
                    .deleteTargetGroup(builder -> builder.targetGroupArn(res.targetGroups().get(0).targetGroupArn()));
        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(targetGroupName + " was deleted.");
    }

    // Verify this computer can successfully send a GET request to the load balancer
    // endpoint.
    public boolean verifyLoadBalancerEndpoint(String elbDnsName) throws IOException, InterruptedException {
        boolean success = false;
        int retries = 3;
        CloseableHttpClient httpClient = HttpClients.createDefault();

        // Create an HTTP GET request to the ELB.
        HttpGet httpGet = new HttpGet("http://" + elbDnsName);
        try {
            while ((!success) && (retries > 0)) {
                // Execute the request and get the response.
                HttpResponse response = httpClient.execute(httpGet);
                int statusCode = response.getStatusLine().getStatusCode();
                System.out.println("HTTP Status Code: " + statusCode);
                if (statusCode == 200) {
                    success = true;
                } else {
                    retries--;
                    System.out.println("Got connection error from load balancer endpoint, retrying...");
                    TimeUnit.SECONDS.sleep(15);
                }
            }

        } catch (org.apache.http.conn.HttpHostConnectException e) {
            System.out.println(e.getMessage());
        }

        System.out.println("Status.." + success);
        return success;
    }

    /*
     * Creates an Elastic Load Balancing target group. The target group specifies
     * how
     * the load balancer forward requests to instances in the group and how instance
     * health is checked.
     */
    public String createTargetGroup(String protocol, int port, String vpcId, String targetGroupName) {
        CreateTargetGroupRequest targetGroupRequest = CreateTargetGroupRequest.builder()
                .healthCheckPath("/healthcheck")
                .healthCheckTimeoutSeconds(5)
                .port(port)
                .vpcId(vpcId)
                .name(targetGroupName)
                .protocol(protocol)
                .build();

        CreateTargetGroupResponse targetGroupResponse = getLoadBalancerClient().createTargetGroup(targetGroupRequest);
        String targetGroupArn = targetGroupResponse.targetGroups().get(0).targetGroupArn();
        String targetGroup = targetGroupResponse.targetGroups().get(0).targetGroupName();
        System.out.println("The " + targetGroup + " was created with ARN" + targetGroupArn);
        return targetGroupArn;
    }

    /*
     * Creates an Elastic Load Balancing load balancer that uses the specified
     * subnets
     * and forwards requests to the specified target group.
     */
    public String createLoadBalancer(List<Subnet> subnetIds, String targetGroupARN, String lbName, int port,
            String protocol) {
        try {
            List<String> subnetIdStrings = subnetIds.stream()
                    .map(Subnet::subnetId)
                    .collect(Collectors.toList());

            CreateLoadBalancerRequest balancerRequest = CreateLoadBalancerRequest.builder()
                    .subnets(subnetIdStrings)
                    .name(lbName)
                    .scheme("internet-facing")
                    .build();

            // Create and wait for the load balancer to become available.
            CreateLoadBalancerResponse lsResponse = getLoadBalancerClient().createLoadBalancer(balancerRequest);
            String lbARN = lsResponse.loadBalancers().get(0).loadBalancerArn();

            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(lbARN)
                    .build();

            System.out.println("Waiting for Load Balancer " + lbName + " to become available.");
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancerAvailable(request);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Load Balancer " + lbName + " is available.");

            // Get the DNS name (endpoint) of the load balancer.
            String lbDNSName = lsResponse.loadBalancers().get(0).dnsName();
            System.out.println("*** Load Balancer DNS Name: " + lbDNSName);

            // Create a listener for the load balance.
            Action action = Action.builder()
                    .targetGroupArn(targetGroupARN)
                    .type("forward")
                    .build();

            CreateListenerRequest listenerRequest = CreateListenerRequest.builder()
                    .loadBalancerArn(lsResponse.loadBalancers().get(0).loadBalancerArn())
                    .defaultActions(action)
                    .port(port)
                    .protocol(protocol)
                    .build();

            getLoadBalancerClient().createListener(listenerRequest);
            System.out.println("Created listener to forward traffic from load balancer " + lbName + " to target group "
                    + targetGroupARN);

            // Return the load balancer DNS name.
            return lbDNSName;

        } catch (ElasticLoadBalancingV2Exception e) {
            e.printStackTrace();
        }
        return "";
    }
}
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
public class Database {

    private static DynamoDbClient dynamoDbClient;

    public static DynamoDbClient getDynamoDbClient() {
        if (dynamoDbClient == null) {
            dynamoDbClient = DynamoDbClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return dynamoDbClient;
    }

    // Checks to see if the Amazon DynamoDB table exists.
    private boolean doesTableExist(String tableName) {
        try {
            // Describe the table and catch any exceptions.
            DescribeTableRequest describeTableRequest = DescribeTableRequest.builder()
                    .tableName(tableName)
                    .build();

            getDynamoDbClient().describeTable(describeTableRequest);
            System.out.println("Table '" + tableName + "' exists.");
            return true;

        } catch (ResourceNotFoundException e) {
            System.out.println("Table '" + tableName + "' does not exist.");
        } catch (DynamoDbException e) {
            System.err.println("Error checking table existence: " + e.getMessage());
        }
        return false;
    }

    /*
     * Creates a DynamoDB table to use a recommendation service. The table has a
     * hash key named 'MediaType' that defines the type of media recommended, such
     * as
     * Book or Movie, and a range key named 'ItemId' that, combined with the
     * MediaType,
     * forms a unique identifier for the recommended item.
     */
    public void createTable(String tableName, String fileName) throws IOException {
        // First check to see if the table exists.
        boolean doesExist = doesTableExist(tableName);
        if (!doesExist) {
            DynamoDbWaiter dbWaiter = getDynamoDbClient().waiter();
            CreateTableRequest createTableRequest = CreateTableRequest.builder()
                    .tableName(tableName)
                    .attributeDefinitions(
                            AttributeDefinition.builder()
                                    .attributeName("MediaType")
                                    .attributeType(ScalarAttributeType.S)
                                    .build(),
                            AttributeDefinition.builder()
                                    .attributeName("ItemId")
                                    .attributeType(ScalarAttributeType.N)
                                    .build())
                    .keySchema(
                            KeySchemaElement.builder()
                                    .attributeName("MediaType")
                                    .keyType(KeyType.HASH)
                                    .build(),
                            KeySchemaElement.builder()
                                    .attributeName("ItemId")
                                    .keyType(KeyType.RANGE)
                                    .build())
                    .provisionedThroughput(
                            ProvisionedThroughput.builder()
                                    .readCapacityUnits(5L)
                                    .writeCapacityUnits(5L)
                                    .build())
                    .build();

            getDynamoDbClient().createTable(createTableRequest);
            System.out.println("Creating table " + tableName + "...");

            // Wait until the Amazon DynamoDB table is created.
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                    .tableName(tableName)
                    .build();

            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter.waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Table " + tableName + " created.");

            // Add records to the table.
            populateTable(fileName, tableName);
        }
    }

    public void deleteTable(String tableName) {
        getDynamoDbClient().deleteTable(table -> table.tableName(tableName));
        System.out.println("Table " + tableName + " deleted.");
    }

    // Populates the table with data located in a JSON file using the DynamoDB
    // enhanced client.
    public void populateTable(String fileName, String tableName) throws IOException {
        DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
                .dynamoDbClient(getDynamoDbClient())
                .build();
        ObjectMapper objectMapper = new ObjectMapper();
        File jsonFile = new File(fileName);
        JsonNode rootNode = objectMapper.readTree(jsonFile);

        DynamoDbTable<Recommendation> mappedTable = enhancedClient.table(tableName,
                TableSchema.fromBean(Recommendation.class));
        for (JsonNode currentNode : rootNode) {
            String mediaType = currentNode.path("MediaType").path("S").asText();
            int itemId = currentNode.path("ItemId").path("N").asInt();
            String title = currentNode.path("Title").path("S").asText();
            String creator = currentNode.path("Creator").path("S").asText();

            // Create a Recommendation object and set its properties.
            Recommendation rec = new Recommendation();
            rec.setMediaType(mediaType);
            rec.setItemId(itemId);
            rec.setTitle(title);
            rec.setCreator(creator);

            // Put the item into the DynamoDB table.
            mappedTable.putItem(rec); // Add the Recommendation to the list.
        }
        System.out.println("Added all records to the " + tableName);
    }
}
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
public class ParameterHelper {

    String tableName = "doc-example-resilient-architecture-table";
    String dyntable = "doc-example-recommendation-service";
    String failureResponse = "doc-example-resilient-architecture-failure-response";
    String healthCheck = "doc-example-resilient-architecture-health-check";

    public void reset() {
        put(dyntable, tableName);
        put(failureResponse, "none");
        put(healthCheck, "shallow");
    }

    public void put(String name, String value) {
        SsmClient ssmClient = SsmClient.builder()
                .region(Region.US_EAST_1)
                .build();

        PutParameterRequest parameterRequest = PutParameterRequest.builder()
                .name(name)
                .value(value)
                .overwrite(true)
                .type("String")
                .build();

        ssmClient.putParameter(parameterRequest);
        System.out.printf("Setting demo parameter %s to '%s'.", name, value);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# Contoh Amazon ECR menggunakan SDK for Java 2.x
<a name="java_2_ecr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x With Amazon ECR.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon ECR
<a name="ecr_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon ECR.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecr.EcrClient;
import software.amazon.awssdk.services.ecr.model.EcrException;
import software.amazon.awssdk.services.ecr.model.ListImagesRequest;
import software.amazon.awssdk.services.ecr.paginators.ListImagesIterable;

public class HelloECR {

    public static void main(String[] args) {
        final String usage = """
            Usage:    <repositoryName> 

            Where:
               repositoryName - The name of the Amazon ECR repository. 
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String repoName = args[0];
        EcrClient ecrClient = EcrClient.builder()
            .region(Region.US_EAST_1)
            .build();

        listImageTags(ecrClient, repoName);
    }
    public static void listImageTags(EcrClient ecrClient, String repoName){
        ListImagesRequest listImagesPaginator = ListImagesRequest.builder()
            .repositoryName(repoName)
            .build();

        ListImagesIterable imagesIterable = ecrClient.listImagesPaginator(listImagesPaginator);
        imagesIterable.stream()
            .flatMap(r -> r.imageIds().stream())
            .forEach(image -> System.out.println("The docker image tag is: " +image.imageTag()));
    }
}
```
+  Untuk detail API, lihat [listImages](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/listImages) di Referensi *AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ecr_Scenario_RepositoryManagement_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat repositori Amazon ECR.
+ Tetapkan kebijakan repositori.
+ Ambil URIs repositori.
+ Dapatkan token otorisasi Amazon ECR.
+ Tetapkan kebijakan siklus hidup untuk repositori Amazon ECR.
+ Dorong gambar Docker ke repositori Amazon ECR.
+ Verifikasi keberadaan gambar di repositori Amazon ECR.
+ Buat daftar repositori Amazon ECR untuk akun Anda dan dapatkan detailnya.
+ Hapus repositori Amazon ECR.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 
Jalankan skenario interaktif yang menunjukkan fitur Amazon ECR.  

```
import software.amazon.awssdk.services.ecr.model.EcrException;
import software.amazon.awssdk.services.ecr.model.RepositoryPolicyNotFoundException;

import java.util.Scanner;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This Java code example requires an IAM Role that has permissions to interact with the Amazon ECR service.
 *
 * To create an IAM role, see:
 *
 * https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html
 *
 * This Java scenario example requires a local docker image named echo-text. Without a local image,
 * this Java program will not successfully run. For more information including how to create the local
 * image, see:
 *
 * /scenarios/basics/ecr/README
 *
 */
public class ECRScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    public static void main(String[] args) {
        final String usage = """
            Usage: <iamRoleARN> <accountId>

            Where:
               iamRoleARN - The IAM role ARN that has the necessary permissions to access and manage the Amazon ECR repository.
               accountId - Your AWS account number. 
            """;

        if (args.length != 2) {
            System.out.println(usage);
            return;
        }

        ECRActions ecrActions = new ECRActions();
        String iamRole = args[0];
        String accountId = args[1];
        String localImageName;

        Scanner scanner = new Scanner(System.in);
        System.out.println("""
             The Amazon Elastic Container Registry (ECR) is a fully-managed Docker container registry 
             service provided by AWS. It allows developers and organizations to securely 
             store, manage, and deploy Docker container images. 
             ECR provides a simple and scalable way to manage container images throughout their lifecycle, 
             from building and testing to production deployment.\s
                         
             The `EcrAsyncClient` interface in the AWS SDK for Java 2.x provides a set of methods to 
             programmatically interact with the Amazon ECR service. This allows developers to 
             automate the storage, retrieval, and management of container images as part of their application 
             deployment pipelines. With ECR, teams can focus on building and deploying their 
             applications without having to worry about the underlying infrastructure required to 
             host and manage a container registry.
             
            This scenario walks you through how to perform key operations for this service.  
            Let's get started...
                       
            You have two choices:
            1 - Run the entire program.
            2 - Delete an existing Amazon ECR repository named echo-text (created from a previous execution of 
            this program that did not complete).
            """);

        while (true) {
            String input = scanner.nextLine();
            if (input.trim().equalsIgnoreCase("1")) {
                System.out.println("Continuing with the program...");
                System.out.println("");
                break;
            } else if (input.trim().equalsIgnoreCase("2")) {
                String repoName = "echo-text";
                ecrActions.deleteECRRepository(repoName);
                return;
            } else {
                // Handle invalid input.
                System.out.println("Invalid input. Please try again.");
            }
        }

        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println("""
           1. Create an ECR repository.
            
           The first task is to ensure we have a local Docker image named echo-text. 
           If this image exists, then an Amazon ECR repository is created. 
           
           An ECR repository is a private Docker container repository provided 
           by Amazon Web Services (AWS). It is a managed service that makes it easy 
           to store, manage, and deploy Docker container images.\s
           """ );

        // Ensure that a local docker image named echo-text exists.
        boolean doesExist = ecrActions.isEchoTextImagePresent();
        String repoName;
        if (!doesExist){
            System.out.println("The local image named echo-text does not exist");
            return;
        } else {
            localImageName = "echo-text";
            repoName = "echo-text";
        }

        try {
            String repoArn = ecrActions.createECRRepository(repoName);
            System.out.println("The ARN of the ECR repository is " + repoArn);

        } catch (IllegalArgumentException e) {
            System.err.println("Invalid repository name: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("An error occurred while creating the ECR repository: " + e.getMessage());
            e.printStackTrace();
            return;
        }
        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("""
        2. Set an ECR repository policy.
        
        Setting an ECR repository policy using the `setRepositoryPolicy` function is crucial for maintaining
        the security and integrity of your container images. The repository policy allows you to 
        define specific rules and restrictions for accessing and managing the images stored within your ECR 
        repository.    
        """);
        waitForInputToContinue(scanner);
        try {
            ecrActions.setRepoPolicy(repoName, iamRole);

        } catch (RepositoryPolicyNotFoundException e) {
            System.err.println("Invalid repository name: " + e.getMessage());
            return;
        } catch (EcrException e) {
            System.err.println("An ECR exception occurred: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("An error occurred while creating the ECR repository: " + e.getMessage());
            return;
        }
        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("""
        3. Display ECR repository policy.
       
        Now we will retrieve the ECR policy to ensure it was successfully set.   
        """);
        waitForInputToContinue(scanner);
        try {
            String policyText = ecrActions.getRepoPolicy(repoName);
            System.out.println("Policy Text:");
            System.out.println(policyText);

        } catch (EcrException e) {
            System.err.println("An ECR exception occurred: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("An error occurred while creating the ECR repository: " + e.getMessage());
            return;
        }

        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("""
        4. Retrieve an ECR authorization token.
       
        You need an authorization token to securely access and interact with the Amazon ECR registry. 
        The `getAuthorizationToken` method of the `EcrAsyncClient` is responsible for securely accessing 
        and interacting with an Amazon ECR repository. This operation is responsible for obtaining a 
        valid authorization token, which is required to authenticate your requests to the ECR service. 
        
        Without a valid authorization token, you would not be able to perform any operations on the 
        ECR repository, such as pushing, pulling, or managing your Docker images.    
        """);
        waitForInputToContinue(scanner);
        try {
             ecrActions.getAuthToken();

        } catch (EcrException e) {
            System.err.println("An ECR exception occurred: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("An error occurred while retrieving the authorization token: " + e.getMessage());
            return;
        }
        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("""
        5. Get the ECR Repository URI.
                    
        The URI  of an Amazon ECR repository is important. When you want to deploy a container image to 
        a container orchestration platform like Amazon Elastic Kubernetes Service (EKS) 
        or Amazon Elastic Container Service (ECS), you need to specify the full image URI, 
        which includes the ECR repository URI. This allows the container runtime to pull the 
        correct container image from the ECR repository.    
       """);
        waitForInputToContinue(scanner);

        try {
            ecrActions.getRepositoryURI(repoName);

        } catch (EcrException e) {
            System.err.println("An ECR exception occurred: " + e.getMessage());
            return;

        } catch (RuntimeException e) {
            System.err.println("An error occurred while retrieving the URI: " + e.getMessage());
            return;
        }
        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("""
            6. Set an ECR Lifecycle Policy.
                        
            An ECR Lifecycle Policy is used to manage the lifecycle of Docker images stored in your ECR repositories. 
            These policies allow you to automatically remove old or unused Docker images from your repositories, 
            freeing up storage space and reducing costs.    
                    
            This example policy helps to maintain the size and efficiency of the container registry
            by automatically removing older and potentially unused images, ensuring that the 
            storage is optimized and the registry remains up-to-date.
            """);
        waitForInputToContinue(scanner);
        try {
            ecrActions.setLifeCyclePolicy(repoName);

        } catch (RuntimeException e) {
            System.err.println("An error occurred while setting the lifecycle policy: " + e.getMessage());
            e.printStackTrace();
            return;
        }
        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("""
        7. Push a docker image to the Amazon ECR Repository.
            
        The `pushImageCmd()` method pushes a local Docker image to an Amazon ECR repository.
        It sets up the Docker client by connecting to the local Docker host using the default port.
        It then retrieves the authorization token for the ECR repository by making a call to the AWS SDK.
            
        The method uses the authorization token to create an `AuthConfig` object, which is used to authenticate
        the Docker client when pushing the image. Finally, the method tags the Docker image with the specified
        repository name and image tag, and then pushes the image to the ECR repository using the Docker client.
        If the push operation is successful, the method prints a message indicating that the image was pushed to ECR.
        """);
        waitForInputToContinue(scanner);

        try {
            ecrActions.pushDockerImage(repoName, localImageName);

        } catch (RuntimeException e) {
            System.err.println("An error occurred while pushing a local Docker image to Amazon ECR: " + e.getMessage());
            e.printStackTrace();
            return;
        }
        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("8. Verify if the image is in the ECR Repository.");
        waitForInputToContinue(scanner);
        try {
            ecrActions.verifyImage(repoName, localImageName);

        } catch (EcrException e) {
            System.err.println("An ECR exception occurred: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("An error occurred " + e.getMessage());
            e.printStackTrace();
            return;
        }
        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("9. As an optional step, you can interact with the image in Amazon ECR by using the CLI.");
        System.out.println("Would you like to view instructions on how to use the CLI to run the image? (y/n)");
        String ans = scanner.nextLine().trim();
        if (ans.equalsIgnoreCase("y")) {
            String instructions = """
            1. Authenticate with ECR - Before you can pull the image from Amazon ECR, you need to authenticate with the registry. You can do this using the AWS CLI:

                aws ecr get-login-password --region us-east-1 | docker login --username AWS --password-stdin %s.dkr.ecr.us-east-1.amazonaws.com

            2. Describe the image using this command:

               aws ecr describe-images --repository-name %s --image-ids imageTag=%s

            3. Run the Docker container and view the output using this command:

               docker run --rm %s.dkr.ecr.us-east-1.amazonaws.com/%s:%s
            """;

            instructions = String.format(instructions, accountId, repoName, localImageName, accountId, repoName, localImageName);
            System.out.println(instructions);
        }
        waitForInputToContinue(scanner);

        System.out.println(DASHES);
        System.out.println("10. Delete the ECR Repository.");
        System.out.println(
        """
        If the repository isn't empty, you must either delete the contents of the repository 
        or use the force option (used in this scenario) to delete the repository and have Amazon ECR delete all of its contents 
        on your behalf.
        """);
        System.out.println("Would you like to delete the Amazon ECR Repository? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            System.out.println("You selected to delete the AWS ECR resources.");

            try {
                ecrActions.deleteECRRepository(repoName);

            } catch (EcrException e) {
                System.err.println("An ECR exception occurred: " + e.getMessage());
                return;
            } catch (RuntimeException e) {
                System.err.println("An error occurred while deleting the Docker image: " + e.getMessage());
                e.printStackTrace();
                return;
            }
        }

        System.out.println(DASHES);
        System.out.println("This concludes the Amazon ECR SDK scenario");
        System.out.println(DASHES);
    }

   private static void waitForInputToContinue(Scanner scanner) {
       while (true) {
           System.out.println("");
           System.out.println("Enter 'c' followed by <ENTER> to continue:");
           String input = scanner.nextLine();

           if (input.trim().equalsIgnoreCase("c")) {
               System.out.println("Continuing with the program...");
               System.out.println("");
               break;
           } else {
               // Handle invalid input.
               System.out.println("Invalid input. Please try again.");
          }
       }
   }
}
```
Kelas pembungkus untuk metode Amazon ECR SDK.  

```
import com.github.dockerjava.api.DockerClient;
import com.github.dockerjava.api.exception.DockerClientException;
import com.github.dockerjava.api.model.AuthConfig;
import com.github.dockerjava.api.model.Image;
import com.github.dockerjava.core.DockerClientBuilder;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.http.async.SdkAsyncHttpClient;
import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecr.EcrAsyncClient;
import software.amazon.awssdk.services.ecr.model.AuthorizationData;
import software.amazon.awssdk.services.ecr.model.CreateRepositoryRequest;
import software.amazon.awssdk.services.ecr.model.CreateRepositoryResponse;
import software.amazon.awssdk.services.ecr.model.DeleteRepositoryRequest;
import software.amazon.awssdk.services.ecr.model.DeleteRepositoryResponse;
import software.amazon.awssdk.services.ecr.model.DescribeImagesRequest;
import software.amazon.awssdk.services.ecr.model.DescribeImagesResponse;
import software.amazon.awssdk.services.ecr.model.DescribeRepositoriesRequest;
import software.amazon.awssdk.services.ecr.model.DescribeRepositoriesResponse;
import software.amazon.awssdk.services.ecr.model.EcrException;
import software.amazon.awssdk.services.ecr.model.GetAuthorizationTokenResponse;
import software.amazon.awssdk.services.ecr.model.GetRepositoryPolicyRequest;
import software.amazon.awssdk.services.ecr.model.GetRepositoryPolicyResponse;
import software.amazon.awssdk.services.ecr.model.ImageIdentifier;
import software.amazon.awssdk.services.ecr.model.Repository;
import software.amazon.awssdk.services.ecr.model.RepositoryPolicyNotFoundException;
import software.amazon.awssdk.services.ecr.model.SetRepositoryPolicyRequest;
import software.amazon.awssdk.services.ecr.model.SetRepositoryPolicyResponse;
import software.amazon.awssdk.services.ecr.model.StartLifecyclePolicyPreviewRequest;
import software.amazon.awssdk.services.ecr.model.StartLifecyclePolicyPreviewResponse;
import com.github.dockerjava.api.command.DockerCmdExecFactory;
import com.github.dockerjava.netty.NettyDockerCmdExecFactory;
import java.time.Duration;
import java.util.Base64;
import java.util.List;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;

public class ECRActions {
    private static EcrAsyncClient ecrClient;

    private static DockerClient dockerClient;

    private static Logger logger = LoggerFactory.getLogger(ECRActions.class);

    /**
     * Creates an Amazon Elastic Container Registry (Amazon ECR) repository.
     *
     * @param repoName the name of the repository to create.
     * @return the Amazon Resource Name (ARN) of the created repository, or an empty string if the operation failed.
     * @throws IllegalArgumentException     If repository name is invalid.
     * @throws RuntimeException             if an error occurs while creating the repository.
     */
    public String createECRRepository(String repoName) {
        if (repoName == null || repoName.isEmpty()) {
            throw new IllegalArgumentException("Repository name cannot be null or empty");
        }

        CreateRepositoryRequest request = CreateRepositoryRequest.builder()
            .repositoryName(repoName)
            .build();

        CompletableFuture<CreateRepositoryResponse> response = getAsyncClient().createRepository(request);
        try {
            CreateRepositoryResponse result = response.join();
            if (result != null) {
                System.out.println("The " + repoName + " repository was created successfully.");
                return result.repository().repositoryArn();
            } else {
                throw new RuntimeException("Unexpected response type");
            }
        } catch (CompletionException e) {
            Throwable cause = e.getCause();
            if (cause instanceof EcrException ex) {
                if ("RepositoryAlreadyExistsException".equals(ex.awsErrorDetails().errorCode())) {
                    System.out.println("The Amazon ECR repository already exists, moving on...");
                    DescribeRepositoriesRequest describeRequest = DescribeRepositoriesRequest.builder()
                        .repositoryNames(repoName)
                        .build();
                    DescribeRepositoriesResponse describeResponse = getAsyncClient().describeRepositories(describeRequest).join();
                    return describeResponse.repositories().get(0).repositoryArn();
                } else {
                    throw new RuntimeException(ex);
                }
            } else {
                throw new RuntimeException(e);
            }
        }
    }

    /**
     * Deletes an ECR (Elastic Container Registry) repository.
     *
     * @param repoName the name of the repository to delete.
     * @throws IllegalArgumentException if the repository name is null or empty.
     * @throws EcrException if there is an error deleting the repository.
     * @throws RuntimeException if an unexpected error occurs during the deletion process.
     */
    public void deleteECRRepository(String repoName) {
        if (repoName == null || repoName.isEmpty()) {
            throw new IllegalArgumentException("Repository name cannot be null or empty");
        }

        DeleteRepositoryRequest repositoryRequest = DeleteRepositoryRequest.builder()
            .force(true)
            .repositoryName(repoName)
            .build();

        CompletableFuture<DeleteRepositoryResponse> response = getAsyncClient().deleteRepository(repositoryRequest);
        response.whenComplete((deleteRepositoryResponse, ex) -> {
            if (deleteRepositoryResponse != null) {
                System.out.println("You have successfully deleted the " + repoName + " repository");
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof EcrException) {
                    throw (EcrException) cause;
                } else {
                    throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
                }
            }
        });

        // Wait for the CompletableFuture to complete
        response.join();
    }



    private static DockerClient getDockerClient() {
        String osName = System.getProperty("os.name");
        if (osName.startsWith("Windows")) {
            // Make sure Docker Desktop is running.
            String dockerHost = "tcp://localhost:2375"; // Use the Docker Desktop default port.
            DockerCmdExecFactory dockerCmdExecFactory = new NettyDockerCmdExecFactory().withReadTimeout(20000).withConnectTimeout(20000);
            dockerClient = DockerClientBuilder.getInstance(dockerHost).withDockerCmdExecFactory(dockerCmdExecFactory).build();
        } else {
            dockerClient = DockerClientBuilder.getInstance().build();
        }
        return dockerClient;
    }

    /**
     * Retrieves an asynchronous Amazon Elastic Container Registry (ECR) client.
     *
     * @return the configured ECR asynchronous client.
     */
    private static EcrAsyncClient getAsyncClient() {

        /*
         The `NettyNioAsyncHttpClient` class is part of the AWS SDK for Java, version 2,
         and it is designed to provide a high-performance, asynchronous HTTP client for interacting with AWS services.
         It uses the Netty framework to handle the underlying network communication and the Java NIO API to
         provide a non-blocking, event-driven approach to HTTP requests and responses.
         */
        SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
            .maxConcurrency(50)  // Adjust as needed.
            .connectionTimeout(Duration.ofSeconds(60))  // Set the connection timeout.
            .readTimeout(Duration.ofSeconds(60))  // Set the read timeout.
            .writeTimeout(Duration.ofSeconds(60))  // Set the write timeout.
            .build();

        ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
            .apiCallTimeout(Duration.ofMinutes(2))  // Set the overall API call timeout.
            .apiCallAttemptTimeout(Duration.ofSeconds(90))  // Set the individual call attempt timeout.
            .build();

        if (ecrClient == null) {
            ecrClient = EcrAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return ecrClient;
    }

    /**
     * Sets the lifecycle policy for the specified repository.
     *
     * @param repoName the name of the repository for which to set the lifecycle policy.
     */
    public void setLifeCyclePolicy(String repoName) {
        /*
           This policy helps to maintain the size and efficiency of the container registry
           by automatically removing older and potentially unused images,
           ensuring that the storage is optimized and the registry remains up-to-date.
         */
        String polText = """
             {
             "rules": [
                 {
                     "rulePriority": 1,
                     "description": "Expire images older than 14 days",
                     "selection": {
                         "tagStatus": "any",
                         "countType": "sinceImagePushed",
                         "countUnit": "days",
                         "countNumber": 14
                     },
                     "action": {
                         "type": "expire"
                     }
                 }
            ]
            }
            """;

        StartLifecyclePolicyPreviewRequest lifecyclePolicyPreviewRequest = StartLifecyclePolicyPreviewRequest.builder()
            .lifecyclePolicyText(polText)
            .repositoryName(repoName)
            .build();

        CompletableFuture<StartLifecyclePolicyPreviewResponse> response = getAsyncClient().startLifecyclePolicyPreview(lifecyclePolicyPreviewRequest);
        response.whenComplete((lifecyclePolicyPreviewResponse, ex) -> {
            if (lifecyclePolicyPreviewResponse != null) {
                System.out.println("Lifecycle policy preview started successfully.");
            } else {
                if (ex.getCause() instanceof EcrException) {
                    throw (EcrException) ex.getCause();
                } else {
                    String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                    throw new RuntimeException(errorMessage, ex);
                }
            }
        });
        // Wait for the CompletableFuture to complete.
        response.join();
    }

    /**
     * Verifies the existence of an image in an Amazon Elastic Container Registry (Amazon ECR) repository asynchronously.
     *
     * @param repositoryName The name of the Amazon ECR repository.
     * @param imageTag       The tag of the image to verify.
     * @throws EcrException             if there is an error retrieving the image information from Amazon ECR.
     * @throws CompletionException      if the asynchronous operation completes exceptionally.
     */
    public void verifyImage(String repositoryName, String imageTag) {
        DescribeImagesRequest request = DescribeImagesRequest.builder()
            .repositoryName(repositoryName)
            .imageIds(ImageIdentifier.builder().imageTag(imageTag).build())
            .build();

        CompletableFuture<DescribeImagesResponse> response = getAsyncClient().describeImages(request);
        response.whenComplete((describeImagesResponse, ex) -> {
            if (ex != null) {
                if (ex instanceof CompletionException) {
                    Throwable cause = ex.getCause();
                    if (cause instanceof EcrException) {
                        throw (EcrException) cause;
                    } else {
                        throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
                    }
                } else {
                    throw new RuntimeException("Unexpected error: " + ex.getCause());
                }
            } else if (describeImagesResponse != null && !describeImagesResponse.imageDetails().isEmpty()) {
                System.out.println("Image is present in the repository.");
            } else {
                System.out.println("Image is not present in the repository.");
            }
        });

        // Wait for the CompletableFuture to complete.
        response.join();
    }

    /**
     * Retrieves the repository URI for the specified repository name.
     *
     * @param repoName the name of the repository to retrieve the URI for.
     * @return the repository URI for the specified repository name.
     * @throws EcrException        if there is an error retrieving the repository information.
     * @throws CompletionException if the asynchronous operation completes exceptionally.
     */
    public void getRepositoryURI(String repoName) {
        DescribeRepositoriesRequest request = DescribeRepositoriesRequest.builder()
            .repositoryNames(repoName)
            .build();

        CompletableFuture<DescribeRepositoriesResponse> response = getAsyncClient().describeRepositories(request);
        response.whenComplete((describeRepositoriesResponse, ex) -> {
            if (ex != null) {
                Throwable cause = ex.getCause();
                if (cause instanceof InterruptedException) {
                    Thread.currentThread().interrupt();
                    String errorMessage = "Thread interrupted while waiting for asynchronous operation: " + cause.getMessage();
                    throw new RuntimeException(errorMessage, cause);
                } else if (cause instanceof EcrException) {
                    throw (EcrException) cause;
                } else {
                    String errorMessage = "Unexpected error: " + cause.getMessage();
                    throw new RuntimeException(errorMessage, cause);
                }
            } else {
                if (describeRepositoriesResponse != null) {
                    if (!describeRepositoriesResponse.repositories().isEmpty()) {
                        String repositoryUri = describeRepositoriesResponse.repositories().get(0).repositoryUri();
                        System.out.println("Repository URI found: " + repositoryUri);
                    } else {
                        System.out.println("No repositories found for the given name.");
                    }
                } else {
                    System.err.println("No response received from describeRepositories.");
                }
            }
        });
        response.join();
    }

    /**
     * Retrieves the authorization token for Amazon Elastic Container Registry (ECR).
     * This method makes an asynchronous call to the ECR client to retrieve the authorization token.
     * If the operation is successful, the method prints the token to the console.
     * If an exception occurs, the method handles the exception and prints the error message.
     *
     * @throws EcrException     if there is an error retrieving the authorization token from ECR.
     * @throws RuntimeException if there is an unexpected error during the operation.
     */
    public void getAuthToken() {
        CompletableFuture<GetAuthorizationTokenResponse> response = getAsyncClient().getAuthorizationToken();
        response.whenComplete((authorizationTokenResponse, ex) -> {
            if (authorizationTokenResponse != null) {
                AuthorizationData authorizationData = authorizationTokenResponse.authorizationData().get(0);
                String token = authorizationData.authorizationToken();
                if (!token.isEmpty()) {
                    System.out.println("The token was successfully retrieved.");
                }
            } else {
                if (ex.getCause() instanceof EcrException) {
                    throw (EcrException) ex.getCause();
                } else {
                    String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                    throw new RuntimeException(errorMessage, ex); // Rethrow the exception
                }
            }
        });
        response.join();
    }

    /**
     * Gets the repository policy for the specified repository.
     *
     * @param repoName the name of the repository.
     * @throws EcrException if an AWS error occurs while getting the repository policy.
     */
    public String getRepoPolicy(String repoName) {
        if (repoName == null || repoName.isEmpty()) {
            throw new IllegalArgumentException("Repository name cannot be null or empty");
        }

        GetRepositoryPolicyRequest getRepositoryPolicyRequest = GetRepositoryPolicyRequest.builder()
            .repositoryName(repoName)
            .build();

        CompletableFuture<GetRepositoryPolicyResponse> response = getAsyncClient().getRepositoryPolicy(getRepositoryPolicyRequest);
        response.whenComplete((resp, ex) -> {
            if (resp != null) {
                System.out.println("Repository policy retrieved successfully.");
            } else {
                if (ex.getCause() instanceof EcrException) {
                    throw (EcrException) ex.getCause();
                } else {
                    String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                    throw new RuntimeException(errorMessage, ex);
                }
            }
        });

        GetRepositoryPolicyResponse result = response.join();
        return result != null ? result.policyText() : null;
    }

    /**
     * Sets the repository policy for the specified ECR repository.
     *
     * @param repoName the name of the ECR repository.
     * @param iamRole  the IAM role to be granted access to the repository.
     * @throws RepositoryPolicyNotFoundException if the repository policy does not exist.
     * @throws EcrException                      if there is an unexpected error setting the repository policy.
     */
    public void setRepoPolicy(String repoName, String iamRole) {
        /*
          This example policy document grants the specified AWS principal the permission to perform the
          `ecr:BatchGetImage` action. This policy is designed to allow the specified principal
          to retrieve Docker images from the ECR repository.
         */
        String policyDocumentTemplate = """
             {
              "Version":"2012-10-17",		 	 	 
              "Statement" : [ {
                "Sid" : "new statement",
                "Effect" : "Allow",
                "Principal" : {
                  "AWS" : "%s"
                },
                "Action" : "ecr:BatchGetImage"
              } ]
            }
             """;

        String policyDocument = String.format(policyDocumentTemplate, iamRole);
        SetRepositoryPolicyRequest setRepositoryPolicyRequest = SetRepositoryPolicyRequest.builder()
            .repositoryName(repoName)
            .policyText(policyDocument)
            .build();

        CompletableFuture<SetRepositoryPolicyResponse> response = getAsyncClient().setRepositoryPolicy(setRepositoryPolicyRequest);
        response.whenComplete((resp, ex) -> {
            if (resp != null) {
                System.out.println("Repository policy set successfully.");
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof RepositoryPolicyNotFoundException) {
                    throw (RepositoryPolicyNotFoundException) cause;
                } else if (cause instanceof EcrException) {
                    throw (EcrException) cause;
                } else {
                    String errorMessage = "Unexpected error: " + cause.getMessage();
                    throw new RuntimeException(errorMessage, cause);
                }
            }
        });
        response.join();
    }

    /**
     * Pushes a Docker image to an Amazon Elastic Container Registry (ECR) repository.
     *
     * @param repoName  the name of the ECR repository to push the image to.
     * @param imageName the name of the Docker image.
     */
    public void pushDockerImage(String repoName, String imageName) {
        System.out.println("Pushing " + imageName + " to Amazon ECR will take a few seconds.");
        CompletableFuture<AuthConfig> authResponseFuture = getAsyncClient().getAuthorizationToken()
            .thenApply(response -> {
                String token = response.authorizationData().get(0).authorizationToken();
                String decodedToken = new String(Base64.getDecoder().decode(token));
                String password = decodedToken.substring(4);

                DescribeRepositoriesResponse descrRepoResponse = getAsyncClient().describeRepositories(b -> b.repositoryNames(repoName)).join();
                Repository repoData = descrRepoResponse.repositories().stream().filter(r -> r.repositoryName().equals(repoName)).findFirst().orElse(null);
                assert repoData != null;
                String registryURL = repoData.repositoryUri().split("/")[0];

                AuthConfig authConfig = new AuthConfig()
                    .withUsername("AWS")
                    .withPassword(password)
                    .withRegistryAddress(registryURL);
                return authConfig;
            })
            .thenCompose(authConfig -> {
                DescribeRepositoriesResponse descrRepoResponse = getAsyncClient().describeRepositories(b -> b.repositoryNames(repoName)).join();
                Repository repoData = descrRepoResponse.repositories().stream().filter(r -> r.repositoryName().equals(repoName)).findFirst().orElse(null);
                getDockerClient().tagImageCmd(imageName + ":latest", repoData.repositoryUri() + ":latest", imageName).exec();
                try {
                    getDockerClient().pushImageCmd(repoData.repositoryUri()).withTag("echo-text").withAuthConfig(authConfig).start().awaitCompletion();
                    System.out.println("The " + imageName + " was pushed to ECR");

                } catch (InterruptedException e) {
                    throw (RuntimeException) e.getCause();
                }
                return CompletableFuture.completedFuture(authConfig);
            });

        authResponseFuture.join();
    }

    // Make sure local image echo-text exists.
    public boolean isEchoTextImagePresent() {
        try {
            List<Image> images = getDockerClient().listImagesCmd().exec();
            boolean helloWorldFound = false;
            for (Image image : images) {
                String[] repoTags = image.getRepoTags();
                if (repoTags != null) {
                    for (String tag : repoTags) {
                        if (tag.startsWith("echo-text")) {
                            System.out.println(tag);
                            helloWorldFound = true;
                        }
                    }
                }
            }
            if (helloWorldFound) {
                System.out.println("The local image named echo-text exists.");
                return true;
            } else {
                System.out.println("The local image named echo-text does not exist.");
                return false;
            }
        } catch (DockerClientException ex) {
            logger.error("ERROR: " + ex.getMessage());
            return false;
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateRepository](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/CreateRepository)
  + [DeleteRepository](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/DeleteRepository)
  + [DescribeImages](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/DescribeImages)
  + [DescribeRepositories](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/DescribeRepositories)
  + [GetAuthorizationToken](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/GetAuthorizationToken)
  + [GetRepositoryPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/GetRepositoryPolicy)
  + [SetRepositoryPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/SetRepositoryPolicy)
  + [StartLifecyclePolicyPreview](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/StartLifecyclePolicyPreview)

## Tindakan
<a name="actions"></a>

### `CreateRepository`
<a name="ecr_CreateRepository_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRepository`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Creates an Amazon Elastic Container Registry (Amazon ECR) repository.
     *
     * @param repoName the name of the repository to create.
     * @return the Amazon Resource Name (ARN) of the created repository, or an empty string if the operation failed.
     * @throws IllegalArgumentException     If repository name is invalid.
     * @throws RuntimeException             if an error occurs while creating the repository.
     */
    public String createECRRepository(String repoName) {
        if (repoName == null || repoName.isEmpty()) {
            throw new IllegalArgumentException("Repository name cannot be null or empty");
        }

        CreateRepositoryRequest request = CreateRepositoryRequest.builder()
            .repositoryName(repoName)
            .build();

        CompletableFuture<CreateRepositoryResponse> response = getAsyncClient().createRepository(request);
        try {
            CreateRepositoryResponse result = response.join();
            if (result != null) {
                System.out.println("The " + repoName + " repository was created successfully.");
                return result.repository().repositoryArn();
            } else {
                throw new RuntimeException("Unexpected response type");
            }
        } catch (CompletionException e) {
            Throwable cause = e.getCause();
            if (cause instanceof EcrException ex) {
                if ("RepositoryAlreadyExistsException".equals(ex.awsErrorDetails().errorCode())) {
                    System.out.println("The Amazon ECR repository already exists, moving on...");
                    DescribeRepositoriesRequest describeRequest = DescribeRepositoriesRequest.builder()
                        .repositoryNames(repoName)
                        .build();
                    DescribeRepositoriesResponse describeResponse = getAsyncClient().describeRepositories(describeRequest).join();
                    return describeResponse.repositories().get(0).repositoryArn();
                } else {
                    throw new RuntimeException(ex);
                }
            } else {
                throw new RuntimeException(e);
            }
        }
    }
```
+  Untuk detail API, lihat [CreateRepository](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/CreateRepository)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteRepository`
<a name="ecr_DeleteRepository_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRepository`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Deletes an ECR (Elastic Container Registry) repository.
     *
     * @param repoName the name of the repository to delete.
     * @throws IllegalArgumentException if the repository name is null or empty.
     * @throws EcrException if there is an error deleting the repository.
     * @throws RuntimeException if an unexpected error occurs during the deletion process.
     */
    public void deleteECRRepository(String repoName) {
        if (repoName == null || repoName.isEmpty()) {
            throw new IllegalArgumentException("Repository name cannot be null or empty");
        }

        DeleteRepositoryRequest repositoryRequest = DeleteRepositoryRequest.builder()
            .force(true)
            .repositoryName(repoName)
            .build();

        CompletableFuture<DeleteRepositoryResponse> response = getAsyncClient().deleteRepository(repositoryRequest);
        response.whenComplete((deleteRepositoryResponse, ex) -> {
            if (deleteRepositoryResponse != null) {
                System.out.println("You have successfully deleted the " + repoName + " repository");
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof EcrException) {
                    throw (EcrException) cause;
                } else {
                    throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
                }
            }
        });

        // Wait for the CompletableFuture to complete
        response.join();
    }
```
+  Untuk detail API, lihat [DeleteRepository](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/DeleteRepository)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeImages`
<a name="ecr_DescribeImages_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Verifies the existence of an image in an Amazon Elastic Container Registry (Amazon ECR) repository asynchronously.
     *
     * @param repositoryName The name of the Amazon ECR repository.
     * @param imageTag       The tag of the image to verify.
     * @throws EcrException             if there is an error retrieving the image information from Amazon ECR.
     * @throws CompletionException      if the asynchronous operation completes exceptionally.
     */
    public void verifyImage(String repositoryName, String imageTag) {
        DescribeImagesRequest request = DescribeImagesRequest.builder()
            .repositoryName(repositoryName)
            .imageIds(ImageIdentifier.builder().imageTag(imageTag).build())
            .build();

        CompletableFuture<DescribeImagesResponse> response = getAsyncClient().describeImages(request);
        response.whenComplete((describeImagesResponse, ex) -> {
            if (ex != null) {
                if (ex instanceof CompletionException) {
                    Throwable cause = ex.getCause();
                    if (cause instanceof EcrException) {
                        throw (EcrException) cause;
                    } else {
                        throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
                    }
                } else {
                    throw new RuntimeException("Unexpected error: " + ex.getCause());
                }
            } else if (describeImagesResponse != null && !describeImagesResponse.imageDetails().isEmpty()) {
                System.out.println("Image is present in the repository.");
            } else {
                System.out.println("Image is not present in the repository.");
            }
        });

        // Wait for the CompletableFuture to complete.
        response.join();
    }
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/DescribeImages)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeRepositories`
<a name="ecr_DescribeRepositories_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRepositories`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Retrieves the repository URI for the specified repository name.
     *
     * @param repoName the name of the repository to retrieve the URI for.
     * @return the repository URI for the specified repository name.
     * @throws EcrException        if there is an error retrieving the repository information.
     * @throws CompletionException if the asynchronous operation completes exceptionally.
     */
    public void getRepositoryURI(String repoName) {
        DescribeRepositoriesRequest request = DescribeRepositoriesRequest.builder()
            .repositoryNames(repoName)
            .build();

        CompletableFuture<DescribeRepositoriesResponse> response = getAsyncClient().describeRepositories(request);
        response.whenComplete((describeRepositoriesResponse, ex) -> {
            if (ex != null) {
                Throwable cause = ex.getCause();
                if (cause instanceof InterruptedException) {
                    Thread.currentThread().interrupt();
                    String errorMessage = "Thread interrupted while waiting for asynchronous operation: " + cause.getMessage();
                    throw new RuntimeException(errorMessage, cause);
                } else if (cause instanceof EcrException) {
                    throw (EcrException) cause;
                } else {
                    String errorMessage = "Unexpected error: " + cause.getMessage();
                    throw new RuntimeException(errorMessage, cause);
                }
            } else {
                if (describeRepositoriesResponse != null) {
                    if (!describeRepositoriesResponse.repositories().isEmpty()) {
                        String repositoryUri = describeRepositoriesResponse.repositories().get(0).repositoryUri();
                        System.out.println("Repository URI found: " + repositoryUri);
                    } else {
                        System.out.println("No repositories found for the given name.");
                    }
                } else {
                    System.err.println("No response received from describeRepositories.");
                }
            }
        });
        response.join();
    }
```
+  Untuk detail API, lihat [DescribeRepositories](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/DescribeRepositories)di *Referensi AWS SDK for Java 2.x API*. 

### `GetAuthorizationToken`
<a name="ecr_GetAuthorizationToken_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAuthorizationToken`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Retrieves the authorization token for Amazon Elastic Container Registry (ECR).
     * This method makes an asynchronous call to the ECR client to retrieve the authorization token.
     * If the operation is successful, the method prints the token to the console.
     * If an exception occurs, the method handles the exception and prints the error message.
     *
     * @throws EcrException     if there is an error retrieving the authorization token from ECR.
     * @throws RuntimeException if there is an unexpected error during the operation.
     */
    public void getAuthToken() {
        CompletableFuture<GetAuthorizationTokenResponse> response = getAsyncClient().getAuthorizationToken();
        response.whenComplete((authorizationTokenResponse, ex) -> {
            if (authorizationTokenResponse != null) {
                AuthorizationData authorizationData = authorizationTokenResponse.authorizationData().get(0);
                String token = authorizationData.authorizationToken();
                if (!token.isEmpty()) {
                    System.out.println("The token was successfully retrieved.");
                }
            } else {
                if (ex.getCause() instanceof EcrException) {
                    throw (EcrException) ex.getCause();
                } else {
                    String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                    throw new RuntimeException(errorMessage, ex); // Rethrow the exception
                }
            }
        });
        response.join();
    }
```
+  Untuk detail API, lihat [GetAuthorizationToken](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/GetAuthorizationToken)di *Referensi AWS SDK for Java 2.x API*. 

### `GetRepositoryPolicy`
<a name="ecr_GetRepositoryPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRepositoryPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Gets the repository policy for the specified repository.
     *
     * @param repoName the name of the repository.
     * @throws EcrException if an AWS error occurs while getting the repository policy.
     */
    public String getRepoPolicy(String repoName) {
        if (repoName == null || repoName.isEmpty()) {
            throw new IllegalArgumentException("Repository name cannot be null or empty");
        }

        GetRepositoryPolicyRequest getRepositoryPolicyRequest = GetRepositoryPolicyRequest.builder()
            .repositoryName(repoName)
            .build();

        CompletableFuture<GetRepositoryPolicyResponse> response = getAsyncClient().getRepositoryPolicy(getRepositoryPolicyRequest);
        response.whenComplete((resp, ex) -> {
            if (resp != null) {
                System.out.println("Repository policy retrieved successfully.");
            } else {
                if (ex.getCause() instanceof EcrException) {
                    throw (EcrException) ex.getCause();
                } else {
                    String errorMessage = "Unexpected error occurred: " + ex.getMessage();
                    throw new RuntimeException(errorMessage, ex);
                }
            }
        });

        GetRepositoryPolicyResponse result = response.join();
        return result != null ? result.policyText() : null;
    }
```
+  Untuk detail API, lihat [GetRepositoryPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/GetRepositoryPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `PushImageCmd`
<a name="ecr_PushImageCmd_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PushImageCmd`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Pushes a Docker image to an Amazon Elastic Container Registry (ECR) repository.
     *
     * @param repoName  the name of the ECR repository to push the image to.
     * @param imageName the name of the Docker image.
     */
    public void pushDockerImage(String repoName, String imageName) {
        System.out.println("Pushing " + imageName + " to Amazon ECR will take a few seconds.");
        CompletableFuture<AuthConfig> authResponseFuture = getAsyncClient().getAuthorizationToken()
            .thenApply(response -> {
                String token = response.authorizationData().get(0).authorizationToken();
                String decodedToken = new String(Base64.getDecoder().decode(token));
                String password = decodedToken.substring(4);

                DescribeRepositoriesResponse descrRepoResponse = getAsyncClient().describeRepositories(b -> b.repositoryNames(repoName)).join();
                Repository repoData = descrRepoResponse.repositories().stream().filter(r -> r.repositoryName().equals(repoName)).findFirst().orElse(null);
                assert repoData != null;
                String registryURL = repoData.repositoryUri().split("/")[0];

                AuthConfig authConfig = new AuthConfig()
                    .withUsername("AWS")
                    .withPassword(password)
                    .withRegistryAddress(registryURL);
                return authConfig;
            })
            .thenCompose(authConfig -> {
                DescribeRepositoriesResponse descrRepoResponse = getAsyncClient().describeRepositories(b -> b.repositoryNames(repoName)).join();
                Repository repoData = descrRepoResponse.repositories().stream().filter(r -> r.repositoryName().equals(repoName)).findFirst().orElse(null);
                getDockerClient().tagImageCmd(imageName + ":latest", repoData.repositoryUri() + ":latest", imageName).exec();
                try {
                    getDockerClient().pushImageCmd(repoData.repositoryUri()).withTag("echo-text").withAuthConfig(authConfig).start().awaitCompletion();
                    System.out.println("The " + imageName + " was pushed to ECR");

                } catch (InterruptedException e) {
                    throw (RuntimeException) e.getCause();
                }
                return CompletableFuture.completedFuture(authConfig);
            });

        authResponseFuture.join();
    }
```
+  Untuk detail API, lihat [PushImageCmd](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/PushImageCmd)di *Referensi AWS SDK for Java 2.x API*. 

### `SetRepositoryPolicy`
<a name="ecr_SetRepositoryPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetRepositoryPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Sets the repository policy for the specified ECR repository.
     *
     * @param repoName the name of the ECR repository.
     * @param iamRole  the IAM role to be granted access to the repository.
     * @throws RepositoryPolicyNotFoundException if the repository policy does not exist.
     * @throws EcrException                      if there is an unexpected error setting the repository policy.
     */
    public void setRepoPolicy(String repoName, String iamRole) {
        /*
          This example policy document grants the specified AWS principal the permission to perform the
          `ecr:BatchGetImage` action. This policy is designed to allow the specified principal
          to retrieve Docker images from the ECR repository.
         */
        String policyDocumentTemplate = """
             {
              "Version":"2012-10-17",		 	 	 
              "Statement" : [ {
                "Sid" : "new statement",
                "Effect" : "Allow",
                "Principal" : {
                  "AWS" : "%s"
                },
                "Action" : "ecr:BatchGetImage"
              } ]
            }
             """;

        String policyDocument = String.format(policyDocumentTemplate, iamRole);
        SetRepositoryPolicyRequest setRepositoryPolicyRequest = SetRepositoryPolicyRequest.builder()
            .repositoryName(repoName)
            .policyText(policyDocument)
            .build();

        CompletableFuture<SetRepositoryPolicyResponse> response = getAsyncClient().setRepositoryPolicy(setRepositoryPolicyRequest);
        response.whenComplete((resp, ex) -> {
            if (resp != null) {
                System.out.println("Repository policy set successfully.");
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof RepositoryPolicyNotFoundException) {
                    throw (RepositoryPolicyNotFoundException) cause;
                } else if (cause instanceof EcrException) {
                    throw (EcrException) cause;
                } else {
                    String errorMessage = "Unexpected error: " + cause.getMessage();
                    throw new RuntimeException(errorMessage, cause);
                }
            }
        });
        response.join();
    }
```
+  Untuk detail API, lihat [SetRepositoryPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/SetRepositoryPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `StartLifecyclePolicyPreview`
<a name="ecr_StartLifecyclePolicyPreview_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartLifecyclePolicyPreview`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecr#code-examples). 

```
    /**
     * Verifies the existence of an image in an Amazon Elastic Container Registry (Amazon ECR) repository asynchronously.
     *
     * @param repositoryName The name of the Amazon ECR repository.
     * @param imageTag       The tag of the image to verify.
     * @throws EcrException             if there is an error retrieving the image information from Amazon ECR.
     * @throws CompletionException      if the asynchronous operation completes exceptionally.
     */
    public void verifyImage(String repositoryName, String imageTag) {
        DescribeImagesRequest request = DescribeImagesRequest.builder()
            .repositoryName(repositoryName)
            .imageIds(ImageIdentifier.builder().imageTag(imageTag).build())
            .build();

        CompletableFuture<DescribeImagesResponse> response = getAsyncClient().describeImages(request);
        response.whenComplete((describeImagesResponse, ex) -> {
            if (ex != null) {
                if (ex instanceof CompletionException) {
                    Throwable cause = ex.getCause();
                    if (cause instanceof EcrException) {
                        throw (EcrException) cause;
                    } else {
                        throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
                    }
                } else {
                    throw new RuntimeException("Unexpected error: " + ex.getCause());
                }
            } else if (describeImagesResponse != null && !describeImagesResponse.imageDetails().isEmpty()) {
                System.out.println("Image is present in the repository.");
            } else {
                System.out.println("Image is not present in the repository.");
            }
        });

        // Wait for the CompletableFuture to complete.
        response.join();
    }
```
+  Untuk detail API, lihat [StartLifecyclePolicyPreview](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecr-2015-09-21/StartLifecyclePolicyPreview)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon ECS menggunakan SDK for Java 2.x
<a name="java_2_ecs_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan menerapkan skenario umum AWS SDK for Java 2.x dengan menggunakan Amazon ECS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="ecs_CreateCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecs.EcsClient;
import software.amazon.awssdk.services.ecs.model.ExecuteCommandConfiguration;
import software.amazon.awssdk.services.ecs.model.ExecuteCommandLogging;
import software.amazon.awssdk.services.ecs.model.ClusterConfiguration;
import software.amazon.awssdk.services.ecs.model.CreateClusterResponse;
import software.amazon.awssdk.services.ecs.model.EcsException;
import software.amazon.awssdk.services.ecs.model.CreateClusterRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateCluster {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                   <clusterName>\s

                Where:
                   clusterName - The name of the ECS cluster to create.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String clusterName = args[0];
        Region region = Region.US_EAST_1;
        EcsClient ecsClient = EcsClient.builder()
                .region(region)
                .build();

        String clusterArn = createGivenCluster(ecsClient, clusterName);
        System.out.println("The cluster ARN is " + clusterArn);
        ecsClient.close();
    }

    public static String createGivenCluster(EcsClient ecsClient, String clusterName) {
        try {
            ExecuteCommandConfiguration commandConfiguration = ExecuteCommandConfiguration.builder()
                    .logging(ExecuteCommandLogging.DEFAULT)
                    .build();

            ClusterConfiguration clusterConfiguration = ClusterConfiguration.builder()
                    .executeCommandConfiguration(commandConfiguration)
                    .build();

            CreateClusterRequest clusterRequest = CreateClusterRequest.builder()
                    .clusterName(clusterName)
                    .configuration(clusterConfiguration)
                    .build();

            CreateClusterResponse response = ecsClient.createCluster(clusterRequest);
            return response.cluster().clusterArn();

        } catch (EcsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecs-2014-11-13/CreateCluster)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateService`
<a name="ecs_CreateService_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateService`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecs.EcsClient;
import software.amazon.awssdk.services.ecs.model.AwsVpcConfiguration;
import software.amazon.awssdk.services.ecs.model.NetworkConfiguration;
import software.amazon.awssdk.services.ecs.model.CreateServiceRequest;
import software.amazon.awssdk.services.ecs.model.LaunchType;
import software.amazon.awssdk.services.ecs.model.CreateServiceResponse;
import software.amazon.awssdk.services.ecs.model.EcsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateService {
        public static void main(String[] args) {
                final String usage = """

                                Usage:
                                  <clusterName> <serviceName> <securityGroups> <subnets> <taskDefinition>

                                Where:
                                  clusterName - The name of the ECS cluster.
                                  serviceName - The name of the ECS service to create.
                                  securityGroups - The name of the security group.
                                  subnets - The name of the subnet.
                                  taskDefinition - The name of the task definition.
                                """;

                if (args.length != 5) {
                        System.out.println(usage);
                        System.exit(1);
                }

                String clusterName = args[0];
                String serviceName = args[1];
                String securityGroups = args[2];
                String subnets = args[3];
                String taskDefinition = args[4];
                Region region = Region.US_EAST_1;
                EcsClient ecsClient = EcsClient.builder()
                                .region(region)
                                .build();

                String serviceArn = createNewService(ecsClient, clusterName, serviceName, securityGroups, subnets,
                                taskDefinition);
                System.out.println("The ARN of the service is " + serviceArn);
                ecsClient.close();
        }

        public static String createNewService(EcsClient ecsClient,
                        String clusterName,
                        String serviceName,
                        String securityGroups,
                        String subnets,
                        String taskDefinition) {

                try {
                        AwsVpcConfiguration vpcConfiguration = AwsVpcConfiguration.builder()
                                        .securityGroups(securityGroups)
                                        .subnets(subnets)
                                        .build();

                        NetworkConfiguration configuration = NetworkConfiguration.builder()
                                        .awsvpcConfiguration(vpcConfiguration)
                                        .build();

                        CreateServiceRequest serviceRequest = CreateServiceRequest.builder()
                                        .cluster(clusterName)
                                        .networkConfiguration(configuration)
                                        .desiredCount(1)
                                        .launchType(LaunchType.FARGATE)
                                        .serviceName(serviceName)
                                        .taskDefinition(taskDefinition)
                                        .build();

                        CreateServiceResponse response = ecsClient.createService(serviceRequest);
                        return response.service().serviceArn();

                } catch (EcsException e) {
                        System.err.println(e.awsErrorDetails().errorMessage());
                        System.exit(1);
                }
                return "";
        }
}
```
+  Untuk detail API, lihat [CreateService](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecs-2014-11-13/CreateService)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteService`
<a name="ecs_DeleteService_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteService`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecs.EcsClient;
import software.amazon.awssdk.services.ecs.model.DeleteServiceRequest;
import software.amazon.awssdk.services.ecs.model.EcsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class DeleteService {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <clusterName> <serviceArn>\s

                Where:
                  clusterName - The name of the ECS cluster.
                  serviceArn - The ARN of the ECS service.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String clusterName = args[0];
        String serviceArn = args[1];
        Region region = Region.US_EAST_1;
        EcsClient ecsClient = EcsClient.builder()
                .region(region)
                .build();

        deleteSpecificService(ecsClient, clusterName, serviceArn);
        ecsClient.close();
    }

    public static void deleteSpecificService(EcsClient ecsClient, String clusterName, String serviceArn) {
        try {
            DeleteServiceRequest serviceRequest = DeleteServiceRequest.builder()
                    .cluster(clusterName)
                    .service(serviceArn)
                    .build();

            ecsClient.deleteService(serviceRequest);
            System.out.println("The Service was successfully deleted");

        } catch (EcsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteService](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecs-2014-11-13/DeleteService)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeClusters`
<a name="ecs_DescribeClusters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecs.EcsClient;
import software.amazon.awssdk.services.ecs.model.DescribeClustersRequest;
import software.amazon.awssdk.services.ecs.model.DescribeClustersResponse;
import software.amazon.awssdk.services.ecs.model.Cluster;
import software.amazon.awssdk.services.ecs.model.EcsException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeClusters {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <clusterArn> \s

                Where:
                  clusterArn - The ARN of the ECS cluster to describe.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String clusterArn = args[0];
        Region region = Region.US_EAST_1;
        EcsClient ecsClient = EcsClient.builder()
                .region(region)
                .build();

        descCluster(ecsClient, clusterArn);
    }

    public static void descCluster(EcsClient ecsClient, String clusterArn) {
        try {
            DescribeClustersRequest clustersRequest = DescribeClustersRequest.builder()
                    .clusters(clusterArn)
                    .build();

            DescribeClustersResponse response = ecsClient.describeClusters(clustersRequest);
            List<Cluster> clusters = response.clusters();
            for (Cluster cluster : clusters) {
                System.out.println("The cluster name is " + cluster.clusterName());
            }

        } catch (EcsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecs-2014-11-13/DescribeClusters)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeTasks`
<a name="ecs_DescribeTasks_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTasks`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecs.EcsClient;
import software.amazon.awssdk.services.ecs.model.DescribeTasksRequest;
import software.amazon.awssdk.services.ecs.model.DescribeTasksResponse;
import software.amazon.awssdk.services.ecs.model.EcsException;
import software.amazon.awssdk.services.ecs.model.Task;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListTaskDefinitions {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                  <clusterArn> <taskId>\s

                Where:
                  clusterArn - The ARN of an ECS cluster.
                  taskId - The task Id value.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String clusterArn = args[0];
        String taskId = args[1];
        Region region = Region.US_EAST_1;
        EcsClient ecsClient = EcsClient.builder()
                .region(region)
                .build();

        getAllTasks(ecsClient, clusterArn, taskId);
        ecsClient.close();
    }

    public static void getAllTasks(EcsClient ecsClient, String clusterArn, String taskId) {
        try {
            DescribeTasksRequest tasksRequest = DescribeTasksRequest.builder()
                    .cluster(clusterArn)
                    .tasks(taskId)
                    .build();

            DescribeTasksResponse response = ecsClient.describeTasks(tasksRequest);
            List<Task> tasks = response.tasks();
            for (Task task : tasks) {
                System.out.println("The task ARN is " + task.taskDefinitionArn());
            }

        } catch (EcsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeTasks](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecs-2014-11-13/DescribeTasks)di *Referensi AWS SDK for Java 2.x API*. 

### `ListClusters`
<a name="ecs_ListClusters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListClusters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecs.EcsClient;
import software.amazon.awssdk.services.ecs.model.ListClustersResponse;
import software.amazon.awssdk.services.ecs.model.EcsException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class ListClusters {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        EcsClient ecsClient = EcsClient.builder()
                .region(region)
                .build();

        listAllClusters(ecsClient);
        ecsClient.close();
    }

    public static void listAllClusters(EcsClient ecsClient) {
        try {
            ListClustersResponse response = ecsClient.listClusters();
            List<String> clusters = response.clusterArns();
            for (String cluster : clusters) {
                System.out.println("The cluster arn is " + cluster);
            }

        } catch (EcsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecs-2014-11-13/ListClusters)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateService`
<a name="ecs_UpdateService_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateService`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ecs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ecs.EcsClient;
import software.amazon.awssdk.services.ecs.model.EcsException;
import software.amazon.awssdk.services.ecs.model.UpdateServiceRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class UpdateService {

    public static void main(String[] args) {

        final String usage = """

                Usage:
                   <clusterName> <serviceArn>\s

                Where:
                  clusterName - The cluster name.
                  serviceArn - The service ARN value.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String clusterName = args[0];
        String serviceArn = args[1];
        Region region = Region.US_EAST_1;
        EcsClient ecsClient = EcsClient.builder()
                .region(region)
                .build();

        updateSpecificService(ecsClient, clusterName, serviceArn);
        ecsClient.close();
    }

    public static void updateSpecificService(EcsClient ecsClient, String clusterName, String serviceArn) {
        try {
            UpdateServiceRequest serviceRequest = UpdateServiceRequest.builder()
                    .cluster(clusterName)
                    .service(serviceArn)
                    .desiredCount(0)
                    .build();

            ecsClient.updateService(serviceRequest);
            System.out.println("The service was modified");

        } catch (EcsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [UpdateService](https://docs.aws.amazon.com/goto/SdkForJavaV2/ecs-2014-11-13/UpdateService)di *Referensi AWS SDK for Java 2.x API*. 

# Elastic Load Balancing - Contoh Versi 2 menggunakan SDK for Java 2.x
<a name="java_2_elastic-load-balancing-v2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Elastic Load Balancing - Versi 2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Elastic Load Balancing
<a name="elastic-load-balancing-v2_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Elastic Load Balancing.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 

```
public class HelloLoadBalancer {

        public static void main(String[] args) {
                ElasticLoadBalancingV2Client loadBalancingV2Client = ElasticLoadBalancingV2Client.builder()
                                .region(Region.US_EAST_1)
                                .build();

                DescribeLoadBalancersResponse loadBalancersResponse = loadBalancingV2Client
                                .describeLoadBalancers(r -> r.pageSize(10));
                List<LoadBalancer> loadBalancerList = loadBalancersResponse.loadBalancers();
                for (LoadBalancer lb : loadBalancerList)
                        System.out.println("Load Balancer DNS name = " + lb.dnsName());
        }
}
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)di *Referensi AWS SDK for Java 2.x API*. 

## Tindakan
<a name="actions"></a>

### `CreateListener`
<a name="elastic-load-balancing-v2_CreateListener_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateListener`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 

```
    /*
     * Creates an Elastic Load Balancing load balancer that uses the specified
     * subnets
     * and forwards requests to the specified target group.
     */
    public String createLoadBalancer(List<Subnet> subnetIds, String targetGroupARN, String lbName, int port,
            String protocol) {
        try {
            List<String> subnetIdStrings = subnetIds.stream()
                    .map(Subnet::subnetId)
                    .collect(Collectors.toList());

            CreateLoadBalancerRequest balancerRequest = CreateLoadBalancerRequest.builder()
                    .subnets(subnetIdStrings)
                    .name(lbName)
                    .scheme("internet-facing")
                    .build();

            // Create and wait for the load balancer to become available.
            CreateLoadBalancerResponse lsResponse = getLoadBalancerClient().createLoadBalancer(balancerRequest);
            String lbARN = lsResponse.loadBalancers().get(0).loadBalancerArn();

            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(lbARN)
                    .build();

            System.out.println("Waiting for Load Balancer " + lbName + " to become available.");
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancerAvailable(request);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Load Balancer " + lbName + " is available.");

            // Get the DNS name (endpoint) of the load balancer.
            String lbDNSName = lsResponse.loadBalancers().get(0).dnsName();
            System.out.println("*** Load Balancer DNS Name: " + lbDNSName);

            // Create a listener for the load balance.
            Action action = Action.builder()
                    .targetGroupArn(targetGroupARN)
                    .type("forward")
                    .build();

            CreateListenerRequest listenerRequest = CreateListenerRequest.builder()
                    .loadBalancerArn(lsResponse.loadBalancers().get(0).loadBalancerArn())
                    .defaultActions(action)
                    .port(port)
                    .protocol(protocol)
                    .build();

            getLoadBalancerClient().createListener(listenerRequest);
            System.out.println("Created listener to forward traffic from load balancer " + lbName + " to target group "
                    + targetGroupARN);

            // Return the load balancer DNS name.
            return lbDNSName;

        } catch (ElasticLoadBalancingV2Exception e) {
            e.printStackTrace();
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateListener](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateListener)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateLoadBalancer`
<a name="elastic-load-balancing-v2_CreateLoadBalancer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLoadBalancer`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 

```
    /*
     * Creates an Elastic Load Balancing load balancer that uses the specified
     * subnets
     * and forwards requests to the specified target group.
     */
    public String createLoadBalancer(List<Subnet> subnetIds, String targetGroupARN, String lbName, int port,
            String protocol) {
        try {
            List<String> subnetIdStrings = subnetIds.stream()
                    .map(Subnet::subnetId)
                    .collect(Collectors.toList());

            CreateLoadBalancerRequest balancerRequest = CreateLoadBalancerRequest.builder()
                    .subnets(subnetIdStrings)
                    .name(lbName)
                    .scheme("internet-facing")
                    .build();

            // Create and wait for the load balancer to become available.
            CreateLoadBalancerResponse lsResponse = getLoadBalancerClient().createLoadBalancer(balancerRequest);
            String lbARN = lsResponse.loadBalancers().get(0).loadBalancerArn();

            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(lbARN)
                    .build();

            System.out.println("Waiting for Load Balancer " + lbName + " to become available.");
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancerAvailable(request);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Load Balancer " + lbName + " is available.");

            // Get the DNS name (endpoint) of the load balancer.
            String lbDNSName = lsResponse.loadBalancers().get(0).dnsName();
            System.out.println("*** Load Balancer DNS Name: " + lbDNSName);

            // Create a listener for the load balance.
            Action action = Action.builder()
                    .targetGroupArn(targetGroupARN)
                    .type("forward")
                    .build();

            CreateListenerRequest listenerRequest = CreateListenerRequest.builder()
                    .loadBalancerArn(lsResponse.loadBalancers().get(0).loadBalancerArn())
                    .defaultActions(action)
                    .port(port)
                    .protocol(protocol)
                    .build();

            getLoadBalancerClient().createListener(listenerRequest);
            System.out.println("Created listener to forward traffic from load balancer " + lbName + " to target group "
                    + targetGroupARN);

            // Return the load balancer DNS name.
            return lbDNSName;

        } catch (ElasticLoadBalancingV2Exception e) {
            e.printStackTrace();
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateTargetGroup`
<a name="elastic-load-balancing-v2_CreateTargetGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTargetGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 

```
    /*
     * Creates an Elastic Load Balancing target group. The target group specifies
     * how
     * the load balancer forward requests to instances in the group and how instance
     * health is checked.
     */
    public String createTargetGroup(String protocol, int port, String vpcId, String targetGroupName) {
        CreateTargetGroupRequest targetGroupRequest = CreateTargetGroupRequest.builder()
                .healthCheckPath("/healthcheck")
                .healthCheckTimeoutSeconds(5)
                .port(port)
                .vpcId(vpcId)
                .name(targetGroupName)
                .protocol(protocol)
                .build();

        CreateTargetGroupResponse targetGroupResponse = getLoadBalancerClient().createTargetGroup(targetGroupRequest);
        String targetGroupArn = targetGroupResponse.targetGroups().get(0).targetGroupArn();
        String targetGroup = targetGroupResponse.targetGroups().get(0).targetGroupName();
        System.out.println("The " + targetGroup + " was created with ARN" + targetGroupArn);
        return targetGroupArn;
    }
```
+  Untuk detail API, lihat [CreateTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteLoadBalancer`
<a name="elastic-load-balancing-v2_DeleteLoadBalancer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLoadBalancer`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 

```
    // Deletes a load balancer.
    public void deleteLoadBalancer(String lbName) {
        try {
            // Use a waiter to delete the Load Balancer.
            DescribeLoadBalancersResponse res = getLoadBalancerClient()
                    .describeLoadBalancers(describe -> describe.names(lbName));
            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(res.loadBalancers().get(0).loadBalancerArn())
                    .build();

            getLoadBalancerClient().deleteLoadBalancer(
                    builder -> builder.loadBalancerArn(res.loadBalancers().get(0).loadBalancerArn()));
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancersDeleted(request);
            waiterResponse.matched().response().ifPresent(System.out::println);

        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(lbName + " was deleted.");
    }
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteTargetGroup`
<a name="elastic-load-balancing-v2_DeleteTargetGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTargetGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 

```
    // Deletes the target group.
    public void deleteTargetGroup(String targetGroupName) {
        try {
            DescribeTargetGroupsResponse res = getLoadBalancerClient()
                    .describeTargetGroups(describe -> describe.names(targetGroupName));
            getLoadBalancerClient()
                    .deleteTargetGroup(builder -> builder.targetGroupArn(res.targetGroups().get(0).targetGroupArn()));
        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(targetGroupName + " was deleted.");
    }
```
+  Untuk detail API, lihat [DeleteTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeTargetHealth`
<a name="elastic-load-balancing-v2_DescribeTargetHealth_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTargetHealth`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 

```
    // Checks the health of the instances in the target group.
    public List<TargetHealthDescription> checkTargetHealth(String targetGroupName) {
        DescribeTargetGroupsRequest targetGroupsRequest = DescribeTargetGroupsRequest.builder()
                .names(targetGroupName)
                .build();

        DescribeTargetGroupsResponse tgResponse = getLoadBalancerClient().describeTargetGroups(targetGroupsRequest);

        DescribeTargetHealthRequest healthRequest = DescribeTargetHealthRequest.builder()
                .targetGroupArn(tgResponse.targetGroups().get(0).targetGroupArn())
                .build();

        DescribeTargetHealthResponse healthResponse = getLoadBalancerClient().describeTargetHealth(healthRequest);
        return healthResponse.targetHealthDescriptions();
    }
```
+  Untuk detail API, lihat [DescribeTargetHealth](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
public class Main {

    public static final String fileName = "C:\\AWS\\resworkflow\\recommendations.json"; // Modify file location.
    public static final String tableName = "doc-example-recommendation-service";
    public static final String startScript = "C:\\AWS\\resworkflow\\server_startup_script.sh"; // Modify file location.
    public static final String policyFile = "C:\\AWS\\resworkflow\\instance_policy.json"; // Modify file location.
    public static final String ssmJSON = "C:\\AWS\\resworkflow\\ssm_only_policy.json"; // Modify file location.
    public static final String failureResponse = "doc-example-resilient-architecture-failure-response";
    public static final String healthCheck = "doc-example-resilient-architecture-health-check";
    public static final String templateName = "doc-example-resilience-template";
    public static final String roleName = "doc-example-resilience-role";
    public static final String policyName = "doc-example-resilience-pol";
    public static final String profileName = "doc-example-resilience-prof";

    public static final String badCredsProfileName = "doc-example-resilience-prof-bc";

    public static final String targetGroupName = "doc-example-resilience-tg";
    public static final String autoScalingGroupName = "doc-example-resilience-group";
    public static final String lbName = "doc-example-resilience-lb";
    public static final String protocol = "HTTP";
    public static final int port = 80;

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws IOException, InterruptedException {
        Scanner in = new Scanner(System.in);
        Database database = new Database();
        AutoScaler autoScaler = new AutoScaler();
        LoadBalancer loadBalancer = new LoadBalancer();

        System.out.println(DASHES);
        System.out.println("Welcome to the demonstration of How to Build and Manage a Resilient Service!");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("A - SETUP THE RESOURCES");
        System.out.println("Press Enter when you're ready to start deploying resources.");
        in.nextLine();
        deploy(loadBalancer);
        System.out.println(DASHES);
        System.out.println(DASHES);
        System.out.println("B - DEMO THE RESILIENCE FUNCTIONALITY");
        System.out.println("Press Enter when you're ready.");
        in.nextLine();
        demo(loadBalancer);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("C - DELETE THE RESOURCES");
        System.out.println("""
                This concludes the demo of how to build and manage a resilient service.
                To keep things tidy and to avoid unwanted charges on your account, we can clean up all AWS resources
                that were created for this demo.
                """);

        System.out.println("\n Do you want to delete the resources (y/n)? ");
        String userInput = in.nextLine().trim().toLowerCase(); // Capture user input

        if (userInput.equals("y")) {
            // Delete resources here
            deleteResources(loadBalancer, autoScaler, database);
            System.out.println("Resources deleted.");
        } else {
            System.out.println("""
                    Okay, we'll leave the resources intact.
                    Don't forget to delete them when you're done with them or you might incur unexpected charges.
                    """);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The example has completed. ");
        System.out.println("\n Thanks for watching!");
        System.out.println(DASHES);
    }

    // Deletes the AWS resources used in this example.
    private static void deleteResources(LoadBalancer loadBalancer, AutoScaler autoScaler, Database database)
            throws IOException, InterruptedException {
        loadBalancer.deleteLoadBalancer(lbName);
        System.out.println("*** Wait 30 secs for resource to be deleted");
        TimeUnit.SECONDS.sleep(30);
        loadBalancer.deleteTargetGroup(targetGroupName);
        autoScaler.deleteAutoScaleGroup(autoScalingGroupName);
        autoScaler.deleteRolesPolicies(policyName, roleName, profileName);
        autoScaler.deleteTemplate(templateName);
        database.deleteTable(tableName);
    }

    private static void deploy(LoadBalancer loadBalancer) throws InterruptedException, IOException {
        Scanner in = new Scanner(System.in);
        System.out.println(
                """
                        For this demo, we'll use the AWS SDK for Java (v2) to create several AWS resources
                        to set up a load-balanced web service endpoint and explore some ways to make it resilient
                        against various kinds of failures.

                        Some of the resources create by this demo are:
                        \t* A DynamoDB table that the web service depends on to provide book, movie, and song recommendations.
                        \t* An EC2 launch template that defines EC2 instances that each contain a Python web server.
                        \t* An EC2 Auto Scaling group that manages EC2 instances across several Availability Zones.
                        \t* An Elastic Load Balancing (ELB) load balancer that targets the Auto Scaling group to distribute requests.
                        """);

        System.out.println("Press Enter when you're ready.");
        in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Creating and populating a DynamoDB table named " + tableName);
        Database database = new Database();
        database.createTable(tableName, fileName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
                Creating an EC2 launch template that runs '{startup_script}' when an instance starts.
                This script starts a Python web server defined in the `server.py` script. The web server
                listens to HTTP requests on port 80 and responds to requests to '/' and to '/healthcheck'.
                For demo purposes, this server is run as the root user. In production, the best practice is to
                run a web server, such as Apache, with least-privileged credentials.

                The template also defines an IAM policy that each instance uses to assume a role that grants
                permissions to access the DynamoDB recommendation table and Systems Manager parameters
                that control the flow of the demo.
                """);

        LaunchTemplateCreator templateCreator = new LaunchTemplateCreator();
        templateCreator.createTemplate(policyFile, policyName, profileName, startScript, templateName, roleName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(
                "Creating an EC2 Auto Scaling group that maintains three EC2 instances, each in a different Availability Zone.");
        System.out.println("*** Wait 30 secs for the VPC to be created");
        TimeUnit.SECONDS.sleep(30);
        AutoScaler autoScaler = new AutoScaler();
        String[] zones = autoScaler.createGroup(3, templateName, autoScalingGroupName);

        System.out.println("""
                At this point, you have EC2 instances created. Once each instance starts, it listens for
                HTTP requests. You can see these instances in the console or continue with the demo.
                Press Enter when you're ready to continue.
                """);

        in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Creating variables that control the flow of the demo.");
        ParameterHelper paramHelper = new ParameterHelper();
        paramHelper.reset();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
                Creating an Elastic Load Balancing target group and load balancer. The target group
                defines how the load balancer connects to instances. The load balancer provides a
                single endpoint where clients connect and dispatches requests to instances in the group.
                """);

        String vpcId = autoScaler.getDefaultVPC();
        List<Subnet> subnets = autoScaler.getSubnets(vpcId, zones);
        System.out.println("You have retrieved a list with " + subnets.size() + " subnets");
        String targetGroupArn = loadBalancer.createTargetGroup(protocol, port, vpcId, targetGroupName);
        String elbDnsName = loadBalancer.createLoadBalancer(subnets, targetGroupArn, lbName, port, protocol);
        autoScaler.attachLoadBalancerTargetGroup(autoScalingGroupName, targetGroupArn);
        System.out.println("Verifying access to the load balancer endpoint...");
        boolean wasSuccessul = loadBalancer.verifyLoadBalancerEndpoint(elbDnsName);
        if (!wasSuccessul) {
            System.out.println("Couldn't connect to the load balancer, verifying that the port is open...");
            CloseableHttpClient httpClient = HttpClients.createDefault();

            // Create an HTTP GET request to "http://checkip.amazonaws.com"
            HttpGet httpGet = new HttpGet("http://checkip.amazonaws.com");
            try {
                // Execute the request and get the response
                HttpResponse response = httpClient.execute(httpGet);

                // Read the response content.
                String ipAddress = IOUtils.toString(response.getEntity().getContent(), StandardCharsets.UTF_8).trim();

                // Print the public IP address.
                System.out.println("Public IP Address: " + ipAddress);
                GroupInfo groupInfo = autoScaler.verifyInboundPort(vpcId, port, ipAddress);
                if (!groupInfo.isPortOpen()) {
                    System.out.println("""
                            For this example to work, the default security group for your default VPC must
                            allow access from this computer. You can either add it automatically from this
                            example or add it yourself using the AWS Management Console.
                            """);

                    System.out.println(
                            "Do you want to add a rule to security group " + groupInfo.getGroupName() + " to allow");
                    System.out.println("inbound traffic on port " + port + " from your computer's IP address (y/n) ");
                    String ans = in.nextLine();
                    if ("y".equalsIgnoreCase(ans)) {
                        autoScaler.openInboundPort(groupInfo.getGroupName(), String.valueOf(port), ipAddress);
                        System.out.println("Security group rule added.");
                    } else {
                        System.out.println("No security group rule added.");
                    }
                }

            } catch (AutoScalingException e) {
                e.printStackTrace();
            }
        } else if (wasSuccessul) {
            System.out.println("Your load balancer is ready. You can access it by browsing to:");
            System.out.println("\t http://" + elbDnsName);
        } else {
            System.out.println("Couldn't get a successful response from the load balancer endpoint. Troubleshoot by");
            System.out.println("manually verifying that your VPC and security group are configured correctly and that");
            System.out.println("you can successfully make a GET request to the load balancer.");
        }

        System.out.println("Press Enter when you're ready to continue with the demo.");
        in.nextLine();
    }

    // A method that controls the demo part of the Java program.
    public static void demo(LoadBalancer loadBalancer) throws IOException, InterruptedException {
        ParameterHelper paramHelper = new ParameterHelper();
        System.out.println("Read the ssm_only_policy.json file");
        String ssmOnlyPolicy = readFileAsString(ssmJSON);

        System.out.println("Resetting parameters to starting values for demo.");
        paramHelper.reset();

        System.out.println(
                """
                         This part of the demonstration shows how to toggle different parts of the system
                         to create situations where the web service fails, and shows how using a resilient
                         architecture can keep the web service running in spite of these failures.

                         At the start, the load balancer endpoint returns recommendations and reports that all targets are healthy.
                        """);
        demoChoices(loadBalancer);

        System.out.println(
                """
                         The web service running on the EC2 instances gets recommendations by querying a DynamoDB table.
                         The table name is contained in a Systems Manager parameter named self.param_helper.table.
                         To simulate a failure of the recommendation service, let's set this parameter to name a non-existent table.
                        """);
        paramHelper.put(paramHelper.tableName, "this-is-not-a-table");

        System.out.println(
                """
                         \nNow, sending a GET request to the load balancer endpoint returns a failure code. But, the service reports as
                         healthy to the load balancer because shallow health checks don't check for failure of the recommendation service.
                        """);
        demoChoices(loadBalancer);

        System.out.println(
                """
                        Instead of failing when the recommendation service fails, the web service can return a static response.
                        While this is not a perfect solution, it presents the customer with a somewhat better experience than failure.
                        """);
        paramHelper.put(paramHelper.failureResponse, "static");

        System.out.println("""
                Now, sending a GET request to the load balancer endpoint returns a static response.
                The service still reports as healthy because health checks are still shallow.
                """);
        demoChoices(loadBalancer);

        System.out.println("Let's reinstate the recommendation service.");
        paramHelper.put(paramHelper.tableName, paramHelper.dyntable);

        System.out.println("""
                Let's also substitute bad credentials for one of the instances in the target group so that it can't
                access the DynamoDB recommendation table. We will get an instance id value.
                """);

        LaunchTemplateCreator templateCreator = new LaunchTemplateCreator();
        AutoScaler autoScaler = new AutoScaler();

        // Create a new instance profile based on badCredsProfileName.
        templateCreator.createInstanceProfile(policyFile, policyName, badCredsProfileName, roleName);
        String badInstanceId = autoScaler.getBadInstance(autoScalingGroupName);
        System.out.println("The bad instance id values used for this demo is " + badInstanceId);

        String profileAssociationId = autoScaler.getInstanceProfile(badInstanceId);
        System.out.println("The association Id value is " + profileAssociationId);
        System.out.println("Replacing the profile for instance " + badInstanceId
                + " with a profile that contains bad credentials");
        autoScaler.replaceInstanceProfile(badInstanceId, badCredsProfileName, profileAssociationId);

        System.out.println(
                """
                        Now, sending a GET request to the load balancer endpoint returns either a recommendation or a static response,
                        depending on which instance is selected by the load balancer.
                        """);

        demoChoices(loadBalancer);

        System.out.println("""
                Let's implement a deep health check. For this demo, a deep health check tests whether
                the web service can access the DynamoDB table that it depends on for recommendations. Note that
                the deep health check is only for ELB routing and not for Auto Scaling instance health.
                This kind of deep health check is not recommended for Auto Scaling instance health, because it
                risks accidental termination of all instances in the Auto Scaling group when a dependent service fails.
                """);

        System.out.println("""
                By implementing deep health checks, the load balancer can detect when one of the instances is failing
                and take that instance out of rotation.
                """);

        paramHelper.put(paramHelper.healthCheck, "deep");

        System.out.println("""
                Now, checking target health indicates that the instance with bad credentials
                is unhealthy. Note that it might take a minute or two for the load balancer to detect the unhealthy
                instance. Sending a GET request to the load balancer endpoint always returns a recommendation, because
                the load balancer takes unhealthy instances out of its rotation.
                """);

        demoChoices(loadBalancer);

        System.out.println(
                """
                        Because the instances in this demo are controlled by an auto scaler, the simplest way to fix an unhealthy
                        instance is to terminate it and let the auto scaler start a new instance to replace it.
                        """);
        autoScaler.terminateInstance(badInstanceId);

        System.out.println("""
                Even while the instance is terminating and the new instance is starting, sending a GET
                request to the web service continues to get a successful recommendation response because
                the load balancer routes requests to the healthy instances. After the replacement instance
                starts and reports as healthy, it is included in the load balancing rotation.
                Note that terminating and replacing an instance typically takes several minutes, during which time you
                can see the changing health check status until the new instance is running and healthy.
                """);

        demoChoices(loadBalancer);
        System.out.println(
                "If the recommendation service fails now, deep health checks mean all instances report as unhealthy.");
        paramHelper.put(paramHelper.tableName, "this-is-not-a-table");

        demoChoices(loadBalancer);
        paramHelper.reset();
    }

    public static void demoChoices(LoadBalancer loadBalancer) throws IOException, InterruptedException {
        String[] actions = {
                "Send a GET request to the load balancer endpoint.",
                "Check the health of load balancer targets.",
                "Go to the next part of the demo."
        };
        Scanner scanner = new Scanner(System.in);

        while (true) {
            System.out.println("-".repeat(88));
            System.out.println("See the current state of the service by selecting one of the following choices:");
            for (int i = 0; i < actions.length; i++) {
                System.out.println(i + ": " + actions[i]);
            }

            try {
                System.out.print("\nWhich action would you like to take? ");
                int choice = scanner.nextInt();
                System.out.println("-".repeat(88));

                switch (choice) {
                    case 0 -> {
                        System.out.println("Request:\n");
                        System.out.println("GET http://" + loadBalancer.getEndpoint(lbName));
                        CloseableHttpClient httpClient = HttpClients.createDefault();

                        // Create an HTTP GET request to the ELB.
                        HttpGet httpGet = new HttpGet("http://" + loadBalancer.getEndpoint(lbName));

                        // Execute the request and get the response.
                        HttpResponse response = httpClient.execute(httpGet);
                        int statusCode = response.getStatusLine().getStatusCode();
                        System.out.println("HTTP Status Code: " + statusCode);

                        // Display the JSON response
                        BufferedReader reader = new BufferedReader(
                                new InputStreamReader(response.getEntity().getContent()));
                        StringBuilder jsonResponse = new StringBuilder();
                        String line;
                        while ((line = reader.readLine()) != null) {
                            jsonResponse.append(line);
                        }
                        reader.close();

                        // Print the formatted JSON response.
                        System.out.println("Full Response:\n");
                        System.out.println(jsonResponse.toString());

                        // Close the HTTP client.
                        httpClient.close();

                    }
                    case 1 -> {
                        System.out.println("\nChecking the health of load balancer targets:\n");
                        List<TargetHealthDescription> health = loadBalancer.checkTargetHealth(targetGroupName);
                        for (TargetHealthDescription target : health) {
                            System.out.printf("\tTarget %s on port %d is %s%n", target.target().id(),
                                    target.target().port(), target.targetHealth().stateAsString());
                        }
                        System.out.println("""
                                Note that it can take a minute or two for the health check to update
                                after changes are made.
                                """);
                    }
                    case 2 -> {
                        System.out.println("\nOkay, let's move on.");
                        System.out.println("-".repeat(88));
                        return; // Exit the method when choice is 2
                    }
                    default -> System.out.println("You must choose a value between 0-2. Please select again.");
                }

            } catch (java.util.InputMismatchException e) {
                System.out.println("Invalid input. Please select again.");
                scanner.nextLine(); // Clear the input buffer.
            }
        }
    }

    public static String readFileAsString(String filePath) throws IOException {
        byte[] bytes = Files.readAllBytes(Paths.get(filePath));
        return new String(bytes);
    }
}
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
public class AutoScaler {

    private static Ec2Client ec2Client;
    private static AutoScalingClient autoScalingClient;
    private static IamClient iamClient;

    private static SsmClient ssmClient;

    private IamClient getIAMClient() {
        if (iamClient == null) {
            iamClient = IamClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return iamClient;
    }

    private SsmClient getSSMClient() {
        if (ssmClient == null) {
            ssmClient = SsmClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return ssmClient;
    }

    private Ec2Client getEc2Client() {
        if (ec2Client == null) {
            ec2Client = Ec2Client.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return ec2Client;
    }

    private AutoScalingClient getAutoScalingClient() {
        if (autoScalingClient == null) {
            autoScalingClient = AutoScalingClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return autoScalingClient;
    }

    /**
     * Terminates and instances in an EC2 Auto Scaling group. After an instance is
     * terminated, it can no longer be accessed.
     */
    public void terminateInstance(String instanceId) {
        TerminateInstanceInAutoScalingGroupRequest terminateInstanceIRequest = TerminateInstanceInAutoScalingGroupRequest
                .builder()
                .instanceId(instanceId)
                .shouldDecrementDesiredCapacity(false)
                .build();

        getAutoScalingClient().terminateInstanceInAutoScalingGroup(terminateInstanceIRequest);
        System.out.format("Terminated instance %s.", instanceId);
    }

    /**
     * Replaces the profile associated with a running instance. After the profile is
     * replaced, the instance is rebooted to ensure that it uses the new profile.
     * When
     * the instance is ready, Systems Manager is used to restart the Python web
     * server.
     */
    public void replaceInstanceProfile(String instanceId, String newInstanceProfileName, String profileAssociationId)
            throws InterruptedException {
        // Create an IAM instance profile specification.
        software.amazon.awssdk.services.ec2.model.IamInstanceProfileSpecification iamInstanceProfile = software.amazon.awssdk.services.ec2.model.IamInstanceProfileSpecification
                .builder()
                .name(newInstanceProfileName) // Make sure 'newInstanceProfileName' is a valid IAM Instance Profile
                                              // name.
                .build();

        // Replace the IAM instance profile association for the EC2 instance.
        ReplaceIamInstanceProfileAssociationRequest replaceRequest = ReplaceIamInstanceProfileAssociationRequest
                .builder()
                .iamInstanceProfile(iamInstanceProfile)
                .associationId(profileAssociationId) // Make sure 'profileAssociationId' is a valid association ID.
                .build();

        try {
            getEc2Client().replaceIamInstanceProfileAssociation(replaceRequest);
            // Handle the response as needed.
        } catch (Ec2Exception e) {
            // Handle exceptions, log, or report the error.
            System.err.println("Error: " + e.getMessage());
        }
        System.out.format("Replaced instance profile for association %s with profile %s.", profileAssociationId,
                newInstanceProfileName);
        TimeUnit.SECONDS.sleep(15);
        boolean instReady = false;
        int tries = 0;

        // Reboot after 60 seconds
        while (!instReady) {
            if (tries % 6 == 0) {
                getEc2Client().rebootInstances(RebootInstancesRequest.builder()
                        .instanceIds(instanceId)
                        .build());
                System.out.println("Rebooting instance " + instanceId + " and waiting for it to be ready.");
            }
            tries++;
            try {
                TimeUnit.SECONDS.sleep(10);
            } catch (InterruptedException e) {
                e.printStackTrace();
            }

            DescribeInstanceInformationResponse informationResponse = getSSMClient().describeInstanceInformation();
            List<InstanceInformation> instanceInformationList = informationResponse.instanceInformationList();
            for (InstanceInformation info : instanceInformationList) {
                if (info.instanceId().equals(instanceId)) {
                    instReady = true;
                    break;
                }
            }
        }

        SendCommandRequest sendCommandRequest = SendCommandRequest.builder()
                .instanceIds(instanceId)
                .documentName("AWS-RunShellScript")
                .parameters(Collections.singletonMap("commands",
                        Collections.singletonList("cd / && sudo python3 server.py 80")))
                .build();

        getSSMClient().sendCommand(sendCommandRequest);
        System.out.println("Restarted the Python web server on instance " + instanceId + ".");
    }

    public void openInboundPort(String secGroupId, String port, String ipAddress) {
        AuthorizeSecurityGroupIngressRequest ingressRequest = AuthorizeSecurityGroupIngressRequest.builder()
                .groupName(secGroupId)
                .cidrIp(ipAddress)
                .fromPort(Integer.parseInt(port))
                .build();

        getEc2Client().authorizeSecurityGroupIngress(ingressRequest);
        System.out.format("Authorized ingress to %s on port %s from %s.", secGroupId, port, ipAddress);
    }

    /**
     * Detaches a role from an instance profile, detaches policies from the role,
     * and deletes all the resources.
     */
    public void deleteInstanceProfile(String roleName, String profileName) {
        try {
            software.amazon.awssdk.services.iam.model.GetInstanceProfileRequest getInstanceProfileRequest = software.amazon.awssdk.services.iam.model.GetInstanceProfileRequest
                    .builder()
                    .instanceProfileName(profileName)
                    .build();

            GetInstanceProfileResponse response = getIAMClient().getInstanceProfile(getInstanceProfileRequest);
            String name = response.instanceProfile().instanceProfileName();
            System.out.println(name);

            RemoveRoleFromInstanceProfileRequest profileRequest = RemoveRoleFromInstanceProfileRequest.builder()
                    .instanceProfileName(profileName)
                    .roleName(roleName)
                    .build();

            getIAMClient().removeRoleFromInstanceProfile(profileRequest);
            DeleteInstanceProfileRequest deleteInstanceProfileRequest = DeleteInstanceProfileRequest.builder()
                    .instanceProfileName(profileName)
                    .build();

            getIAMClient().deleteInstanceProfile(deleteInstanceProfileRequest);
            System.out.println("Deleted instance profile " + profileName);

            DeleteRoleRequest deleteRoleRequest = DeleteRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            // List attached role policies.
            ListAttachedRolePoliciesResponse rolesResponse = getIAMClient()
                    .listAttachedRolePolicies(role -> role.roleName(roleName));
            List<AttachedPolicy> attachedPolicies = rolesResponse.attachedPolicies();
            for (AttachedPolicy attachedPolicy : attachedPolicies) {
                DetachRolePolicyRequest request = DetachRolePolicyRequest.builder()
                        .roleName(roleName)
                        .policyArn(attachedPolicy.policyArn())
                        .build();

                getIAMClient().detachRolePolicy(request);
                System.out.println("Detached and deleted policy " + attachedPolicy.policyName());
            }

            getIAMClient().deleteRole(deleteRoleRequest);
            System.out.println("Instance profile and role deleted.");

        } catch (IamException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public void deleteTemplate(String templateName) {
        getEc2Client().deleteLaunchTemplate(name -> name.launchTemplateName(templateName));
        System.out.format(templateName + " was deleted.");
    }

    public void deleteAutoScaleGroup(String groupName) {
        DeleteAutoScalingGroupRequest deleteAutoScalingGroupRequest = DeleteAutoScalingGroupRequest.builder()
                .autoScalingGroupName(groupName)
                .forceDelete(true)
                .build();

        getAutoScalingClient().deleteAutoScalingGroup(deleteAutoScalingGroupRequest);
        System.out.println(groupName + " was deleted.");
    }

    /*
     * Verify the default security group of the specified VPC allows ingress from
     * this
     * computer. This can be done by allowing ingress from this computer's IP
     * address. In some situations, such as connecting from a corporate network, you
     * must instead specify a prefix list ID. You can also temporarily open the port
     * to
     * any IP address while running this example. If you do, be sure to remove
     * public
     * access when you're done.
     * 
     */
    public GroupInfo verifyInboundPort(String VPC, int port, String ipAddress) {
        boolean portIsOpen = false;
        GroupInfo groupInfo = new GroupInfo();
        try {
            Filter filter = Filter.builder()
                    .name("group-name")
                    .values("default")
                    .build();

            Filter filter1 = Filter.builder()
                    .name("vpc-id")
                    .values(VPC)
                    .build();

            DescribeSecurityGroupsRequest securityGroupsRequest = DescribeSecurityGroupsRequest.builder()
                    .filters(filter, filter1)
                    .build();

            DescribeSecurityGroupsResponse securityGroupsResponse = getEc2Client()
                    .describeSecurityGroups(securityGroupsRequest);
            String securityGroup = securityGroupsResponse.securityGroups().get(0).groupName();
            groupInfo.setGroupName(securityGroup);

            for (SecurityGroup secGroup : securityGroupsResponse.securityGroups()) {
                System.out.println("Found security group: " + secGroup.groupId());

                for (IpPermission ipPermission : secGroup.ipPermissions()) {
                    if (ipPermission.fromPort() == port) {
                        System.out.println("Found inbound rule: " + ipPermission);
                        for (IpRange ipRange : ipPermission.ipRanges()) {
                            String cidrIp = ipRange.cidrIp();
                            if (cidrIp.startsWith(ipAddress) || cidrIp.equals("0.0.0.0/0")) {
                                System.out.println(cidrIp + " is applicable");
                                portIsOpen = true;
                            }
                        }

                        if (!ipPermission.prefixListIds().isEmpty()) {
                            System.out.println("Prefix lList is applicable");
                            portIsOpen = true;
                        }

                        if (!portIsOpen) {
                            System.out
                                    .println("The inbound rule does not appear to be open to either this computer's IP,"
                                            + " all IP addresses (0.0.0.0/0), or to a prefix list ID.");
                        } else {
                            break;
                        }
                    }
                }
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }

        groupInfo.setPortOpen(portIsOpen);
        return groupInfo;
    }

    /*
     * Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto
     * Scaling group.
     * The target group specifies how the load balancer forward requests to the
     * instances
     * in the group.
     */
    public void attachLoadBalancerTargetGroup(String asGroupName, String targetGroupARN) {
        try {
            AttachLoadBalancerTargetGroupsRequest targetGroupsRequest = AttachLoadBalancerTargetGroupsRequest.builder()
                    .autoScalingGroupName(asGroupName)
                    .targetGroupARNs(targetGroupARN)
                    .build();

            getAutoScalingClient().attachLoadBalancerTargetGroups(targetGroupsRequest);
            System.out.println("Attached load balancer to " + asGroupName);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Creates an EC2 Auto Scaling group with the specified size.
    public String[] createGroup(int groupSize, String templateName, String autoScalingGroupName) {

        // Get availability zones.
        software.amazon.awssdk.services.ec2.model.DescribeAvailabilityZonesRequest zonesRequest = software.amazon.awssdk.services.ec2.model.DescribeAvailabilityZonesRequest
                .builder()
                .build();

        DescribeAvailabilityZonesResponse zonesResponse = getEc2Client().describeAvailabilityZones(zonesRequest);
        List<String> availabilityZoneNames = zonesResponse.availabilityZones().stream()
                .map(software.amazon.awssdk.services.ec2.model.AvailabilityZone::zoneName)
                .collect(Collectors.toList());

        String availabilityZones = String.join(",", availabilityZoneNames);
        LaunchTemplateSpecification specification = LaunchTemplateSpecification.builder()
                .launchTemplateName(templateName)
                .version("$Default")
                .build();

        String[] zones = availabilityZones.split(",");
        CreateAutoScalingGroupRequest groupRequest = CreateAutoScalingGroupRequest.builder()
                .launchTemplate(specification)
                .availabilityZones(zones)
                .maxSize(groupSize)
                .minSize(groupSize)
                .autoScalingGroupName(autoScalingGroupName)
                .build();

        try {
            getAutoScalingClient().createAutoScalingGroup(groupRequest);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Created an EC2 Auto Scaling group named " + autoScalingGroupName);
        return zones;
    }

    public String getDefaultVPC() {
        // Define the filter.
        Filter defaultFilter = Filter.builder()
                .name("is-default")
                .values("true")
                .build();

        software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest request = software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest
                .builder()
                .filters(defaultFilter)
                .build();

        DescribeVpcsResponse response = getEc2Client().describeVpcs(request);
        return response.vpcs().get(0).vpcId();
    }

    // Gets the default subnets in a VPC for a specified list of Availability Zones.
    public List<Subnet> getSubnets(String vpcId, String[] availabilityZones) {
        List<Subnet> subnets = null;
        Filter vpcFilter = Filter.builder()
                .name("vpc-id")
                .values(vpcId)
                .build();

        Filter azFilter = Filter.builder()
                .name("availability-zone")
                .values(availabilityZones)
                .build();

        Filter defaultForAZ = Filter.builder()
                .name("default-for-az")
                .values("true")
                .build();

        DescribeSubnetsRequest request = DescribeSubnetsRequest.builder()
                .filters(vpcFilter, azFilter, defaultForAZ)
                .build();

        DescribeSubnetsResponse response = getEc2Client().describeSubnets(request);
        subnets = response.subnets();
        return subnets;
    }

    // Gets data about the instances in the EC2 Auto Scaling group.
    public String getBadInstance(String groupName) {
        DescribeAutoScalingGroupsRequest request = DescribeAutoScalingGroupsRequest.builder()
                .autoScalingGroupNames(groupName)
                .build();

        DescribeAutoScalingGroupsResponse response = getAutoScalingClient().describeAutoScalingGroups(request);
        AutoScalingGroup autoScalingGroup = response.autoScalingGroups().get(0);
        List<String> instanceIds = autoScalingGroup.instances().stream()
                .map(instance -> instance.instanceId())
                .collect(Collectors.toList());

        String[] instanceIdArray = instanceIds.toArray(new String[0]);
        for (String instanceId : instanceIdArray) {
            System.out.println("Instance ID: " + instanceId);
            return instanceId;
        }
        return "";
    }

    // Gets data about the profile associated with an instance.
    public String getInstanceProfile(String instanceId) {
        Filter filter = Filter.builder()
                .name("instance-id")
                .values(instanceId)
                .build();

        DescribeIamInstanceProfileAssociationsRequest associationsRequest = DescribeIamInstanceProfileAssociationsRequest
                .builder()
                .filters(filter)
                .build();

        DescribeIamInstanceProfileAssociationsResponse response = getEc2Client()
                .describeIamInstanceProfileAssociations(associationsRequest);
        return response.iamInstanceProfileAssociations().get(0).associationId();
    }

    public void deleteRolesPolicies(String policyName, String roleName, String InstanceProfile) {
        ListPoliciesRequest listPoliciesRequest = ListPoliciesRequest.builder().build();
        ListPoliciesResponse listPoliciesResponse = getIAMClient().listPolicies(listPoliciesRequest);
        for (Policy policy : listPoliciesResponse.policies()) {
            if (policy.policyName().equals(policyName)) {
                // List the entities (users, groups, roles) that are attached to the policy.
                software.amazon.awssdk.services.iam.model.ListEntitiesForPolicyRequest listEntitiesRequest = software.amazon.awssdk.services.iam.model.ListEntitiesForPolicyRequest
                        .builder()
                        .policyArn(policy.arn())
                        .build();
                ListEntitiesForPolicyResponse listEntitiesResponse = iamClient
                        .listEntitiesForPolicy(listEntitiesRequest);
                if (!listEntitiesResponse.policyGroups().isEmpty() || !listEntitiesResponse.policyUsers().isEmpty()
                        || !listEntitiesResponse.policyRoles().isEmpty()) {
                    // Detach the policy from any entities it is attached to.
                    DetachRolePolicyRequest detachPolicyRequest = DetachRolePolicyRequest.builder()
                            .policyArn(policy.arn())
                            .roleName(roleName) // Specify the name of the IAM role
                            .build();

                    getIAMClient().detachRolePolicy(detachPolicyRequest);
                    System.out.println("Policy detached from entities.");
                }

                // Now, you can delete the policy.
                DeletePolicyRequest deletePolicyRequest = DeletePolicyRequest.builder()
                        .policyArn(policy.arn())
                        .build();

                getIAMClient().deletePolicy(deletePolicyRequest);
                System.out.println("Policy deleted successfully.");
                break;
            }
        }

        // List the roles associated with the instance profile
        ListInstanceProfilesForRoleRequest listRolesRequest = ListInstanceProfilesForRoleRequest.builder()
                .roleName(roleName)
                .build();

        // Detach the roles from the instance profile
        ListInstanceProfilesForRoleResponse listRolesResponse = iamClient.listInstanceProfilesForRole(listRolesRequest);
        for (software.amazon.awssdk.services.iam.model.InstanceProfile profile : listRolesResponse.instanceProfiles()) {
            RemoveRoleFromInstanceProfileRequest removeRoleRequest = RemoveRoleFromInstanceProfileRequest.builder()
                    .instanceProfileName(InstanceProfile)
                    .roleName(roleName) // Remove the extra dot here
                    .build();

            getIAMClient().removeRoleFromInstanceProfile(removeRoleRequest);
            System.out.println("Role " + roleName + " removed from instance profile " + InstanceProfile);
        }

        // Delete the instance profile after removing all roles
        DeleteInstanceProfileRequest deleteInstanceProfileRequest = DeleteInstanceProfileRequest.builder()
                .instanceProfileName(InstanceProfile)
                .build();

        getIAMClient().deleteInstanceProfile(r -> r.instanceProfileName(InstanceProfile));
        System.out.println(InstanceProfile + " Deleted");
        System.out.println("All roles and policies are deleted.");
    }
}
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
public class LoadBalancer {
    public ElasticLoadBalancingV2Client elasticLoadBalancingV2Client;

    public ElasticLoadBalancingV2Client getLoadBalancerClient() {
        if (elasticLoadBalancingV2Client == null) {
            elasticLoadBalancingV2Client = ElasticLoadBalancingV2Client.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }

        return elasticLoadBalancingV2Client;
    }

    // Checks the health of the instances in the target group.
    public List<TargetHealthDescription> checkTargetHealth(String targetGroupName) {
        DescribeTargetGroupsRequest targetGroupsRequest = DescribeTargetGroupsRequest.builder()
                .names(targetGroupName)
                .build();

        DescribeTargetGroupsResponse tgResponse = getLoadBalancerClient().describeTargetGroups(targetGroupsRequest);

        DescribeTargetHealthRequest healthRequest = DescribeTargetHealthRequest.builder()
                .targetGroupArn(tgResponse.targetGroups().get(0).targetGroupArn())
                .build();

        DescribeTargetHealthResponse healthResponse = getLoadBalancerClient().describeTargetHealth(healthRequest);
        return healthResponse.targetHealthDescriptions();
    }

    // Gets the HTTP endpoint of the load balancer.
    public String getEndpoint(String lbName) {
        DescribeLoadBalancersResponse res = getLoadBalancerClient()
                .describeLoadBalancers(describe -> describe.names(lbName));
        return res.loadBalancers().get(0).dnsName();
    }

    // Deletes a load balancer.
    public void deleteLoadBalancer(String lbName) {
        try {
            // Use a waiter to delete the Load Balancer.
            DescribeLoadBalancersResponse res = getLoadBalancerClient()
                    .describeLoadBalancers(describe -> describe.names(lbName));
            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(res.loadBalancers().get(0).loadBalancerArn())
                    .build();

            getLoadBalancerClient().deleteLoadBalancer(
                    builder -> builder.loadBalancerArn(res.loadBalancers().get(0).loadBalancerArn()));
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancersDeleted(request);
            waiterResponse.matched().response().ifPresent(System.out::println);

        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(lbName + " was deleted.");
    }

    // Deletes the target group.
    public void deleteTargetGroup(String targetGroupName) {
        try {
            DescribeTargetGroupsResponse res = getLoadBalancerClient()
                    .describeTargetGroups(describe -> describe.names(targetGroupName));
            getLoadBalancerClient()
                    .deleteTargetGroup(builder -> builder.targetGroupArn(res.targetGroups().get(0).targetGroupArn()));
        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(targetGroupName + " was deleted.");
    }

    // Verify this computer can successfully send a GET request to the load balancer
    // endpoint.
    public boolean verifyLoadBalancerEndpoint(String elbDnsName) throws IOException, InterruptedException {
        boolean success = false;
        int retries = 3;
        CloseableHttpClient httpClient = HttpClients.createDefault();

        // Create an HTTP GET request to the ELB.
        HttpGet httpGet = new HttpGet("http://" + elbDnsName);
        try {
            while ((!success) && (retries > 0)) {
                // Execute the request and get the response.
                HttpResponse response = httpClient.execute(httpGet);
                int statusCode = response.getStatusLine().getStatusCode();
                System.out.println("HTTP Status Code: " + statusCode);
                if (statusCode == 200) {
                    success = true;
                } else {
                    retries--;
                    System.out.println("Got connection error from load balancer endpoint, retrying...");
                    TimeUnit.SECONDS.sleep(15);
                }
            }

        } catch (org.apache.http.conn.HttpHostConnectException e) {
            System.out.println(e.getMessage());
        }

        System.out.println("Status.." + success);
        return success;
    }

    /*
     * Creates an Elastic Load Balancing target group. The target group specifies
     * how
     * the load balancer forward requests to instances in the group and how instance
     * health is checked.
     */
    public String createTargetGroup(String protocol, int port, String vpcId, String targetGroupName) {
        CreateTargetGroupRequest targetGroupRequest = CreateTargetGroupRequest.builder()
                .healthCheckPath("/healthcheck")
                .healthCheckTimeoutSeconds(5)
                .port(port)
                .vpcId(vpcId)
                .name(targetGroupName)
                .protocol(protocol)
                .build();

        CreateTargetGroupResponse targetGroupResponse = getLoadBalancerClient().createTargetGroup(targetGroupRequest);
        String targetGroupArn = targetGroupResponse.targetGroups().get(0).targetGroupArn();
        String targetGroup = targetGroupResponse.targetGroups().get(0).targetGroupName();
        System.out.println("The " + targetGroup + " was created with ARN" + targetGroupArn);
        return targetGroupArn;
    }

    /*
     * Creates an Elastic Load Balancing load balancer that uses the specified
     * subnets
     * and forwards requests to the specified target group.
     */
    public String createLoadBalancer(List<Subnet> subnetIds, String targetGroupARN, String lbName, int port,
            String protocol) {
        try {
            List<String> subnetIdStrings = subnetIds.stream()
                    .map(Subnet::subnetId)
                    .collect(Collectors.toList());

            CreateLoadBalancerRequest balancerRequest = CreateLoadBalancerRequest.builder()
                    .subnets(subnetIdStrings)
                    .name(lbName)
                    .scheme("internet-facing")
                    .build();

            // Create and wait for the load balancer to become available.
            CreateLoadBalancerResponse lsResponse = getLoadBalancerClient().createLoadBalancer(balancerRequest);
            String lbARN = lsResponse.loadBalancers().get(0).loadBalancerArn();

            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(lbARN)
                    .build();

            System.out.println("Waiting for Load Balancer " + lbName + " to become available.");
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancerAvailable(request);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Load Balancer " + lbName + " is available.");

            // Get the DNS name (endpoint) of the load balancer.
            String lbDNSName = lsResponse.loadBalancers().get(0).dnsName();
            System.out.println("*** Load Balancer DNS Name: " + lbDNSName);

            // Create a listener for the load balance.
            Action action = Action.builder()
                    .targetGroupArn(targetGroupARN)
                    .type("forward")
                    .build();

            CreateListenerRequest listenerRequest = CreateListenerRequest.builder()
                    .loadBalancerArn(lsResponse.loadBalancers().get(0).loadBalancerArn())
                    .defaultActions(action)
                    .port(port)
                    .protocol(protocol)
                    .build();

            getLoadBalancerClient().createListener(listenerRequest);
            System.out.println("Created listener to forward traffic from load balancer " + lbName + " to target group "
                    + targetGroupARN);

            // Return the load balancer DNS name.
            return lbDNSName;

        } catch (ElasticLoadBalancingV2Exception e) {
            e.printStackTrace();
        }
        return "";
    }
}
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
public class Database {

    private static DynamoDbClient dynamoDbClient;

    public static DynamoDbClient getDynamoDbClient() {
        if (dynamoDbClient == null) {
            dynamoDbClient = DynamoDbClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return dynamoDbClient;
    }

    // Checks to see if the Amazon DynamoDB table exists.
    private boolean doesTableExist(String tableName) {
        try {
            // Describe the table and catch any exceptions.
            DescribeTableRequest describeTableRequest = DescribeTableRequest.builder()
                    .tableName(tableName)
                    .build();

            getDynamoDbClient().describeTable(describeTableRequest);
            System.out.println("Table '" + tableName + "' exists.");
            return true;

        } catch (ResourceNotFoundException e) {
            System.out.println("Table '" + tableName + "' does not exist.");
        } catch (DynamoDbException e) {
            System.err.println("Error checking table existence: " + e.getMessage());
        }
        return false;
    }

    /*
     * Creates a DynamoDB table to use a recommendation service. The table has a
     * hash key named 'MediaType' that defines the type of media recommended, such
     * as
     * Book or Movie, and a range key named 'ItemId' that, combined with the
     * MediaType,
     * forms a unique identifier for the recommended item.
     */
    public void createTable(String tableName, String fileName) throws IOException {
        // First check to see if the table exists.
        boolean doesExist = doesTableExist(tableName);
        if (!doesExist) {
            DynamoDbWaiter dbWaiter = getDynamoDbClient().waiter();
            CreateTableRequest createTableRequest = CreateTableRequest.builder()
                    .tableName(tableName)
                    .attributeDefinitions(
                            AttributeDefinition.builder()
                                    .attributeName("MediaType")
                                    .attributeType(ScalarAttributeType.S)
                                    .build(),
                            AttributeDefinition.builder()
                                    .attributeName("ItemId")
                                    .attributeType(ScalarAttributeType.N)
                                    .build())
                    .keySchema(
                            KeySchemaElement.builder()
                                    .attributeName("MediaType")
                                    .keyType(KeyType.HASH)
                                    .build(),
                            KeySchemaElement.builder()
                                    .attributeName("ItemId")
                                    .keyType(KeyType.RANGE)
                                    .build())
                    .provisionedThroughput(
                            ProvisionedThroughput.builder()
                                    .readCapacityUnits(5L)
                                    .writeCapacityUnits(5L)
                                    .build())
                    .build();

            getDynamoDbClient().createTable(createTableRequest);
            System.out.println("Creating table " + tableName + "...");

            // Wait until the Amazon DynamoDB table is created.
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                    .tableName(tableName)
                    .build();

            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter.waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Table " + tableName + " created.");

            // Add records to the table.
            populateTable(fileName, tableName);
        }
    }

    public void deleteTable(String tableName) {
        getDynamoDbClient().deleteTable(table -> table.tableName(tableName));
        System.out.println("Table " + tableName + " deleted.");
    }

    // Populates the table with data located in a JSON file using the DynamoDB
    // enhanced client.
    public void populateTable(String fileName, String tableName) throws IOException {
        DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
                .dynamoDbClient(getDynamoDbClient())
                .build();
        ObjectMapper objectMapper = new ObjectMapper();
        File jsonFile = new File(fileName);
        JsonNode rootNode = objectMapper.readTree(jsonFile);

        DynamoDbTable<Recommendation> mappedTable = enhancedClient.table(tableName,
                TableSchema.fromBean(Recommendation.class));
        for (JsonNode currentNode : rootNode) {
            String mediaType = currentNode.path("MediaType").path("S").asText();
            int itemId = currentNode.path("ItemId").path("N").asInt();
            String title = currentNode.path("Title").path("S").asText();
            String creator = currentNode.path("Creator").path("S").asText();

            // Create a Recommendation object and set its properties.
            Recommendation rec = new Recommendation();
            rec.setMediaType(mediaType);
            rec.setItemId(itemId);
            rec.setTitle(title);
            rec.setCreator(creator);

            // Put the item into the DynamoDB table.
            mappedTable.putItem(rec); // Add the Recommendation to the list.
        }
        System.out.println("Added all records to the " + tableName);
    }
}
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
public class ParameterHelper {

    String tableName = "doc-example-resilient-architecture-table";
    String dyntable = "doc-example-recommendation-service";
    String failureResponse = "doc-example-resilient-architecture-failure-response";
    String healthCheck = "doc-example-resilient-architecture-health-check";

    public void reset() {
        put(dyntable, tableName);
        put(failureResponse, "none");
        put(healthCheck, "shallow");
    }

    public void put(String name, String value) {
        SsmClient ssmClient = SsmClient.builder()
                .region(Region.US_EAST_1)
                .build();

        PutParameterRequest parameterRequest = PutParameterRequest.builder()
                .name(name)
                .value(value)
                .overwrite(true)
                .type("String")
                .build();

        ssmClient.putParameter(parameterRequest);
        System.out.printf("Setting demo parameter %s to '%s'.", name, value);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# MediaStore contoh menggunakan SDK for Java 2.x
<a name="java_2_mediastore_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with MediaStore.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateContainer`
<a name="mediastore_CreateContainer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContainer`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediastore#code-examples). 

```
import software.amazon.awssdk.services.mediastore.MediaStoreClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediastore.model.CreateContainerRequest;
import software.amazon.awssdk.services.mediastore.model.CreateContainerResponse;
import software.amazon.awssdk.services.mediastore.model.MediaStoreException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateContainer {
    public static long sleepTime = 10;

    public static void main(String[] args) {
        final String usage = """

                Usage:    <containerName>

                Where:
                   containerName - The name of the container to create.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String containerName = args[0];
        Region region = Region.US_EAST_1;
        MediaStoreClient mediaStoreClient = MediaStoreClient.builder()
                .region(region)
                .build();

        createMediaContainer(mediaStoreClient, containerName);
        mediaStoreClient.close();
    }


    public static void createMediaContainer(MediaStoreClient mediaStoreClient, String containerName) {
        try {
            CreateContainerRequest containerRequest = CreateContainerRequest.builder()
                    .containerName(containerName)
                    .build();

            CreateContainerResponse containerResponse = mediaStoreClient.createContainer(containerRequest);
            String status = containerResponse.container().status().toString();
            while (!status.equalsIgnoreCase("Active")) {
                status = DescribeContainer.checkContainer(mediaStoreClient, containerName);
                System.out.println("Status - " + status);
                Thread.sleep(sleepTime * 1000);
            }

            System.out.println("The container ARN value is " + containerResponse.container().arn());
            System.out.println("Finished ");

        } catch (MediaStoreException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateContainer](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediastore-2017-09-01/CreateContainer)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteContainer`
<a name="mediastore_DeleteContainer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteContainer`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediastore#code-examples). 

```
import software.amazon.awssdk.services.mediastore.MediaStoreClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediastore.model.CreateContainerRequest;
import software.amazon.awssdk.services.mediastore.model.CreateContainerResponse;
import software.amazon.awssdk.services.mediastore.model.MediaStoreException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateContainer {
    public static long sleepTime = 10;

    public static void main(String[] args) {
        final String usage = """

                Usage:    <containerName>

                Where:
                   containerName - The name of the container to create.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String containerName = args[0];
        Region region = Region.US_EAST_1;
        MediaStoreClient mediaStoreClient = MediaStoreClient.builder()
                .region(region)
                .build();

        createMediaContainer(mediaStoreClient, containerName);
        mediaStoreClient.close();
    }


    public static void createMediaContainer(MediaStoreClient mediaStoreClient, String containerName) {
        try {
            CreateContainerRequest containerRequest = CreateContainerRequest.builder()
                    .containerName(containerName)
                    .build();

            CreateContainerResponse containerResponse = mediaStoreClient.createContainer(containerRequest);
            String status = containerResponse.container().status().toString();
            while (!status.equalsIgnoreCase("Active")) {
                status = DescribeContainer.checkContainer(mediaStoreClient, containerName);
                System.out.println("Status - " + status);
                Thread.sleep(sleepTime * 1000);
            }

            System.out.println("The container ARN value is " + containerResponse.container().arn());
            System.out.println("Finished ");

        } catch (MediaStoreException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteContainer](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediastore-2017-09-01/DeleteContainer)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteObject`
<a name="mediastore_DeleteObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediastore#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediastore.MediaStoreClient;
import software.amazon.awssdk.services.mediastore.model.DescribeContainerRequest;
import software.amazon.awssdk.services.mediastore.model.DescribeContainerResponse;
import software.amazon.awssdk.services.mediastoredata.MediaStoreDataClient;
import software.amazon.awssdk.services.mediastoredata.model.DeleteObjectRequest;
import software.amazon.awssdk.services.mediastoredata.model.MediaStoreDataException;
import java.net.URI;
import java.net.URISyntaxException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteObject {
    public static void main(String[] args) throws URISyntaxException {
        final String usage = """

                Usage:    <completePath> <containerName>

                Where:
                   completePath - The path (including the container) of the item to delete.
                   containerName - The name of the container.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String completePath = args[0];
        String containerName = args[1];
        Region region = Region.US_EAST_1;
        URI uri = new URI(getEndpoint(containerName));

        MediaStoreDataClient mediaStoreData = MediaStoreDataClient.builder()
                .endpointOverride(uri)
                .region(region)
                .build();

        deleteMediaObject(mediaStoreData, completePath);
        mediaStoreData.close();
    }

    public static void deleteMediaObject(MediaStoreDataClient mediaStoreData, String completePath) {
        try {
            DeleteObjectRequest deleteObjectRequest = DeleteObjectRequest.builder()
                    .path(completePath)
                    .build();

            mediaStoreData.deleteObject(deleteObjectRequest);

        } catch (MediaStoreDataException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    private static String getEndpoint(String containerName) {
        Region region = Region.US_EAST_1;
        MediaStoreClient mediaStoreClient = MediaStoreClient.builder()
                .region(region)
                .build();

        DescribeContainerRequest containerRequest = DescribeContainerRequest.builder()
                .containerName(containerName)
                .build();

        DescribeContainerResponse response = mediaStoreClient.describeContainer(containerRequest);
        mediaStoreClient.close();
        return response.container().endpoint();
    }
}
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediastore-2017-09-01/DeleteObject)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeContainer`
<a name="mediastore_DescribeContainer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeContainer`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediastore#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediastore.MediaStoreClient;
import software.amazon.awssdk.services.mediastore.model.DescribeContainerRequest;
import software.amazon.awssdk.services.mediastore.model.DescribeContainerResponse;
import software.amazon.awssdk.services.mediastore.model.MediaStoreException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeContainer {

    public static void main(String[] args) {
        final String usage = """

                Usage:    <containerName>

                Where:
                   containerName - The name of the container to describe.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String containerName = args[0];
        Region region = Region.US_EAST_1;
        MediaStoreClient mediaStoreClient = MediaStoreClient.builder()
                .region(region)
                .build();

        System.out.println("Status is " + checkContainer(mediaStoreClient, containerName));
        mediaStoreClient.close();
    }

    public static String checkContainer(MediaStoreClient mediaStoreClient, String containerName) {
        try {
            DescribeContainerRequest describeContainerRequest = DescribeContainerRequest.builder()
                    .containerName(containerName)
                    .build();

            DescribeContainerResponse containerResponse = mediaStoreClient.describeContainer(describeContainerRequest);
            System.out.println("The container name is " + containerResponse.container().name());
            System.out.println("The container ARN is " + containerResponse.container().arn());
            return containerResponse.container().status().toString();

        } catch (MediaStoreException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [DescribeContainer](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediastore-2017-09-01/DescribeContainer)di *Referensi AWS SDK for Java 2.x API*. 

### `GetObject`
<a name="mediastore_GetObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediastore#code-examples). 

```
import software.amazon.awssdk.core.ResponseInputStream;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediastore.MediaStoreClient;
import software.amazon.awssdk.services.mediastore.model.DescribeContainerRequest;
import software.amazon.awssdk.services.mediastore.model.DescribeContainerResponse;
import software.amazon.awssdk.services.mediastoredata.MediaStoreDataClient;
import software.amazon.awssdk.services.mediastoredata.model.GetObjectRequest;
import software.amazon.awssdk.services.mediastoredata.model.GetObjectResponse;
import software.amazon.awssdk.services.mediastoredata.model.MediaStoreDataException;
import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.net.URI;
import java.net.URISyntaxException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetObject {
    public static void main(String[] args) throws URISyntaxException {
        final String usage = """

                Usage:    <completePath> <containerName> <savePath>

                Where:
                   completePath - The path of the object in the container (for example, Videos5/sampleVideo.mp4).
                   containerName - The name of the container.
                   savePath - The path on the local drive where the file is saved, including the file name (for example, C:/AWS/myvid.mp4).
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String completePath = args[0];
        String containerName = args[1];
        String savePath = args[2];

        Region region = Region.US_EAST_1;
        URI uri = new URI(getEndpoint(containerName));
        MediaStoreDataClient mediaStoreData = MediaStoreDataClient.builder()
                .endpointOverride(uri)
                .region(region)
                .build();

        getMediaObject(mediaStoreData, completePath, savePath);
        mediaStoreData.close();
    }

    public static void getMediaObject(MediaStoreDataClient mediaStoreData, String completePath, String savePath) {

        try {
            GetObjectRequest objectRequest = GetObjectRequest.builder()
                    .path(completePath)
                    .build();

            // Write out the data to a file.
            ResponseInputStream<GetObjectResponse> data = mediaStoreData.getObject(objectRequest);
            byte[] buffer = new byte[data.available()];
            data.read(buffer);

            File targetFile = new File(savePath);
            OutputStream outStream = new FileOutputStream(targetFile);
            outStream.write(buffer);
            System.out.println("The data was written to " + savePath);

        } catch (MediaStoreDataException | IOException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    private static String getEndpoint(String containerName) {
        Region region = Region.US_EAST_1;
        MediaStoreClient mediaStoreClient = MediaStoreClient.builder()
                .region(region)
                .build();

        DescribeContainerRequest containerRequest = DescribeContainerRequest.builder()
                .containerName(containerName)
                .build();

        DescribeContainerResponse response = mediaStoreClient.describeContainer(containerRequest);
        return response.container().endpoint();
    }
}
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediastore-2017-09-01/GetObject)di *Referensi AWS SDK for Java 2.x API*. 

### `ListContainers`
<a name="mediastore_ListContainers_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListContainers`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediastore#code-examples). 

```
import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediastore.MediaStoreClient;
import software.amazon.awssdk.services.mediastore.model.Container;
import software.amazon.awssdk.services.mediastore.model.ListContainersResponse;
import software.amazon.awssdk.services.mediastore.model.MediaStoreException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListContainers {

    public static void main(String[] args) {

        Region region = Region.US_EAST_1;
        MediaStoreClient mediaStoreClient = MediaStoreClient.builder()
                .region(region)
                .build();

        listAllContainers(mediaStoreClient);
        mediaStoreClient.close();
    }

    public static void listAllContainers(MediaStoreClient mediaStoreClient) {
        try {
            ListContainersResponse containersResponse = mediaStoreClient.listContainers();
            List<Container> containers = containersResponse.containers();
            for (Container container : containers) {
                System.out.println("Container name is " + container.name());
            }

        } catch (MediaStoreException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListContainers](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediastore-2017-09-01/ListContainers)di *Referensi AWS SDK for Java 2.x API*. 

### `PutObject`
<a name="mediastore_PutObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediastore#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediastore.MediaStoreClient;
import software.amazon.awssdk.services.mediastoredata.MediaStoreDataClient;
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.services.mediastoredata.model.PutObjectRequest;
import software.amazon.awssdk.services.mediastoredata.model.MediaStoreDataException;
import software.amazon.awssdk.services.mediastoredata.model.PutObjectResponse;
import software.amazon.awssdk.services.mediastore.model.DescribeContainerRequest;
import software.amazon.awssdk.services.mediastore.model.DescribeContainerResponse;
import java.io.File;
import java.net.URI;
import java.net.URISyntaxException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PutObject {
    public static void main(String[] args) throws URISyntaxException {
        final String USAGE = """

                To run this example, supply the name of a container, a file location to use, and path in the container\s

                Ex: <containerName> <filePath> <completePath>
                """;

        if (args.length < 3) {
            System.out.println(USAGE);
            System.exit(1);
        }

        String containerName = args[0];
        String filePath = args[1];
        String completePath = args[2];

        Region region = Region.US_EAST_1;
        URI uri = new URI(getEndpoint(containerName));
        MediaStoreDataClient mediaStoreData = MediaStoreDataClient.builder()
                .endpointOverride(uri)
                .region(region)
                .build();

        putMediaObject(mediaStoreData, filePath, completePath);
        mediaStoreData.close();
    }

    public static void putMediaObject(MediaStoreDataClient mediaStoreData, String filePath, String completePath) {
        try {
            File myFile = new File(filePath);
            RequestBody requestBody = RequestBody.fromFile(myFile);

            PutObjectRequest objectRequest = PutObjectRequest.builder()
                    .path(completePath)
                    .contentType("video/mp4")
                    .build();

            PutObjectResponse response = mediaStoreData.putObject(objectRequest, requestBody);
            System.out.println("The saved object is " + response.storageClass().toString());

        } catch (MediaStoreDataException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static String getEndpoint(String containerName) {

        Region region = Region.US_EAST_1;
        MediaStoreClient mediaStoreClient = MediaStoreClient.builder()
                .region(region)
                .build();

        DescribeContainerRequest containerRequest = DescribeContainerRequest.builder()
                .containerName(containerName)
                .build();

        DescribeContainerResponse response = mediaStoreClient.describeContainer(containerRequest);
        return response.container().endpoint();
    }
}
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediastore-2017-09-01/PutObject)di *Referensi AWS SDK for Java 2.x API*. 

# Resolusi Entitas AWS contoh menggunakan SDK for Java 2.x
<a name="java_2_entityresolution_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Resolusi Entitas AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Resolusi Entitas AWS
<a name="entityresolution_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan Resolusi Entitas AWS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloEntityResoultion {

    private static final Logger logger = LoggerFactory.getLogger(HelloEntityResoultion.class);

    private static EntityResolutionAsyncClient entityResolutionAsyncClient;
    public static void main(String[] args) {
        listMatchingWorkflows();
    }

    public static EntityResolutionAsyncClient getResolutionAsyncClient() {
        if (entityResolutionAsyncClient == null) {
            /*
            The `NettyNioAsyncHttpClient` class is part of the AWS SDK for Java, version 2,
            and it is designed to provide a high-performance, asynchronous HTTP client for interacting with AWS services.
             It uses the Netty framework to handle the underlying network communication and the Java NIO API to
             provide a non-blocking, event-driven approach to HTTP requests and responses.
             */

            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(50)  // Adjust as needed.
                .connectionTimeout(Duration.ofSeconds(60))  // Set the connection timeout.
                .readTimeout(Duration.ofSeconds(60))  // Set the read timeout.
                .writeTimeout(Duration.ofSeconds(60))  // Set the write timeout.
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))  // Set the overall API call timeout.
                .apiCallAttemptTimeout(Duration.ofSeconds(90))  // Set the individual call attempt timeout.
                .retryStrategy(RetryMode.STANDARD)
                .build();

            entityResolutionAsyncClient = EntityResolutionAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return entityResolutionAsyncClient;
    }

    /**
     * Lists all matching workflows using an asynchronous paginator.
     * <p>
     * This method requests a paginated list of matching workflows from the
     * AWS Entity Resolution service and logs the names of the retrieved workflows.
     * It uses an asynchronous approach with a paginator and waits for the operation
     * to complete using {@code CompletableFuture#join()}.
     * </p>
     */
    public static void listMatchingWorkflows() {
        ListMatchingWorkflowsRequest request = ListMatchingWorkflowsRequest.builder().build();

        ListMatchingWorkflowsPublisher paginator =
            getResolutionAsyncClient().listMatchingWorkflowsPaginator(request);

        // Iterate through the paginated results asynchronously
        CompletableFuture<Void> future = paginator.subscribe(response -> {
            response.workflowSummaries().forEach(workflow ->
                logger.info("Matching Workflow Name: " + workflow.workflowName())
            );
        });

        // Wait for the asynchronous operation to complete
        future.join();
    }
}
```
+  Untuk detail API, lihat [ListMatchingWorkflows](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/ListMatchingWorkflows)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="entityresolution_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat Pemetaan Skema.
+ Buat Resolusi Entitas AWS alur kerja.
+ Mulai pekerjaan yang cocok untuk alur kerja.
+ Dapatkan detail untuk pekerjaan yang cocok.
+ Dapatkan Pemetaan Skema.
+ Daftar semua Pemetaan Skema.
+ Tandai sumber daya Pemetaan Skema.
+ Hapus Resolusi Entitas AWS Aset.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 
Jalankan skenario interaktif yang menunjukkan Resolusi Entitas AWS fitur.  

```
public class EntityResScenario {
    private static final Logger logger = LoggerFactory.getLogger(EntityResScenario.class);
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final String STACK_NAME = "EntityResolutionCdkStack2";
    private static final String ENTITY_RESOLUTION_ROLE_ARN_KEY = "EntityResolutionRoleArn";
    private static final String GLUE_DATA_BUCKET_NAME_KEY = "GlueDataBucketName";
    private static final String JSON_GLUE_TABLE_ARN_KEY = "JsonErGlueTableArn";
    private static final String CSV_GLUE_TABLE_ARN_KEY = "CsvErGlueTableArn";
    private static String glueBucketName;
    private static String workflowName = "workflow-" + UUID.randomUUID();

    private static String jsonSchemaMappingName = "jsonschema-" + UUID.randomUUID();
    private static String jsonSchemaMappingArn = null;
    private static String csvSchemaMappingName = "csv-" + UUID.randomUUID();
    private static String roleARN;
    private static String csvGlueTableArn;
    private static String jsonGlueTableArn;
    private static Scanner scanner = new Scanner(System.in);

    private static EntityResActions actions = new EntityResActions();

    public static void main(String[] args) throws InterruptedException {

        logger.info("Welcome to the AWS Entity Resolution Scenario.");
        logger.info("""
            AWS Entity Resolution is a fully-managed machine learning service provided by 
            Amazon Web Services (AWS) that helps organizations extract, link, and 
            organize information from multiple data sources. It leverages natural 
            language processing and deep learning models to identify and resolve 
            entities, such as people, places, organizations, and products, 
            across structured and unstructured data.
                         
            With Entity Resolution, customers can build robust data integration 
            pipelines to combine and reconcile data from multiple systems, databases, 
            and documents. The service can handle ambiguous, incomplete, or conflicting 
            information, and provide a unified view of entities and their relationships. 
            This can be particularly valuable in applications such as customer 360, 
            fraud detection, supply chain management, and knowledge management, where 
            accurate entity identification is crucial.
                         
            The `EntityResolutionAsyncClient` interface in the AWS SDK for Java 2.x 
            provides a set of methods to programmatically interact with the AWS Entity 
            Resolution service. This allows developers to automate the entity extraction, 
            linking, and deduplication process as part of their data processing workflows. 
            With Entity Resolution, organizations can unlock the value of their data, 
            improve decision-making, and enhance customer experiences by having a reliable, 
            comprehensive view of their key entities.
            """);

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("""
            To prepare the AWS resources needed for this scenario application, the next step uploads
            a CloudFormation template whose resulting stack creates the following resources:
            - An AWS Glue Data Catalog table
            - An AWS IAM role
            - An AWS S3 bucket
            - An AWS Entity Resolution Schema
                            
            It can take a couple minutes for the Stack to finish creating the resources.
            """);
        waitForInputToContinue(scanner);
        logger.info("Generating resources...");
        CloudFormationHelper.deployCloudFormationStack(STACK_NAME);
        Map<String, String> outputsMap = CloudFormationHelper.getStackOutputsAsync(STACK_NAME).join();
        roleARN = outputsMap.get(ENTITY_RESOLUTION_ROLE_ARN_KEY);
        glueBucketName = outputsMap.get(GLUE_DATA_BUCKET_NAME_KEY);
        csvGlueTableArn = outputsMap.get(CSV_GLUE_TABLE_ARN_KEY);
        jsonGlueTableArn = outputsMap.get(JSON_GLUE_TABLE_ARN_KEY);
        logger.info(DASHES);
        waitForInputToContinue(scanner);

        try {
            runScenario();

        } catch (Exception ce) {
            Throwable cause = ce.getCause();
            logger.error("An exception happened: " + (cause != null ? cause.getMessage() : ce.getMessage()));
        }
    }

    private static void runScenario() throws InterruptedException {
        /*
         This JSON is a valid input for the AWS Entity Resolution service.
         The JSON represents an array of three objects, each containing an "id", "name", and "email"
         property. This format aligns with the expected input structure for the
         Entity Resolution service.
         */
        String json = """
            {"id":"1","name":"Jane Doe","email":"jane.doe@example.com"}
            {"id":"2","name":"John Doe","email":"john.doe@example.com"}
            {"id":"3","name":"Jorge Souza","email":"jorge_souza@example.com"}
            """;
        logger.info("Upload the following JSON objects to the {} S3 bucket.", glueBucketName);
        logger.info(json);
        String csv = """
            id,name,email,phone
            1,Jane B.,Doe,jane.doe@example.com,555-876-9846
            2,John Doe Jr.,john.doe@example.com,555-654-3210
            3,María García,maría_garcia@company.com,555-567-1234
            4,Mary Major,mary_major@company.com,555-222-3333
            """;
        logger.info("Upload the following CSV data to the {} S3 bucket.", glueBucketName);
        logger.info(csv);
        waitForInputToContinue(scanner);
        try {
            actions.uploadInputData(glueBucketName, json, csv);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();

            if (cause == null) {
                logger.error("Failed to upload input data: {}", ce.getMessage(), ce);
            }

            if (cause instanceof ResourceNotFoundException) {
                logger.error("Failed to upload input data as the resource was not found: {}", cause.getMessage(), cause);
            }
            return;
        }
        logger.info("The JSON and CSV objects have been uploaded to the S3 bucket.");
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("1. Create Schema Mapping");
        logger.info("""
            Entity Resolution schema mapping aligns and integrates data from 
            multiple sources by identifying and matching corresponding entities 
            like customers or products. It unifies schemas, resolves conflicts, 
            and uses machine learning to link related entities, enabling a 
            consolidated, accurate view for improved data quality and decision-making.
                        
            In this example, the schema mapping lines up with the fields in the JSON and CSV objects. That is, 
            it contains these fields: id, name, and email. 
            """);
        try {
            CreateSchemaMappingResponse response = actions.createSchemaMappingAsync(jsonSchemaMappingName).join();
            jsonSchemaMappingName = response.schemaName();
            logger.info("The JSON schema mapping name is " + jsonSchemaMappingName);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();

            if (cause == null) {
                logger.error("Failed to create JSON schema mapping: {}", ce.getMessage(), ce);
            }

            if (cause instanceof ConflictException) {
                logger.error("Schema mapping conflict detected: {}", cause.getMessage(), cause);
            } else {
                logger.error("Unexpected error while creating schema mapping: {}", cause.getMessage(), cause);
            }
            return;
        }

        try {
            CreateSchemaMappingResponse response = actions.createSchemaMappingAsync(csvSchemaMappingName).join();
            csvSchemaMappingName = response.schemaName();
            logger.info("The CSV schema mapping name is " + csvSchemaMappingName);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause == null) {
                logger.error("Failed to create CSV schema mapping: {}", ce.getMessage(), ce);
            }

            if (cause instanceof ConflictException) {
                logger.error("Schema mapping conflict detected: {}", cause.getMessage(), cause);
            } else {
                logger.error("Unexpected error while creating CSV schema mapping: {}", cause.getMessage(), cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("2. Create an AWS Entity Resolution Workflow. ");
        logger.info("""
            An Entity Resolution matching workflow identifies and links records 
            across datasets that represent the same real-world entity, such as 
            customers or products. Using techniques like schema mapping, 
            data profiling, and machine learning algorithms, 
            it evaluates attributes like names or emails to detect duplicates
            or relationships, even with variations or inconsistencies. 
            The workflow outputs consolidated, de-duplicated data.
                        
            We will use the machine learning-based matching technique.
            """);
        waitForInputToContinue(scanner);
        try {
            String workflowArn = actions.createMatchingWorkflowAsync(
                roleARN, workflowName, glueBucketName, jsonGlueTableArn,
                jsonSchemaMappingName, csvGlueTableArn, csvSchemaMappingName).join();

            logger.info("The workflow ARN is: " + workflowArn);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();

            if (cause == null) {
                logger.error("An unexpected error occurred: {}", ce.getMessage(), ce);
            }

            if (cause instanceof ValidationException) {
                logger.error("Validation error: {}", cause.getMessage(), cause);
            } else if (cause instanceof ConflictException) {
                logger.error("Workflow conflict detected: {}", cause.getMessage(), cause);
            } else {
                logger.error("Unexpected error: {}", cause.getMessage(), cause);
            }
            return;
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);
        logger.info("3. Start the matching job of the " + workflowName + " workflow.");
        waitForInputToContinue(scanner);
        String jobId = null;
        try {
            jobId = actions.startMatchingJobAsync(workflowName).join();
            logger.info("The matching job was successfully started.");
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ConflictException) {
                logger.error("Job conflict detected: {}", cause.getMessage(), cause);
            } else {
                logger.error("Unexpected error while starting the job: {}", ce.getMessage(), ce);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("4. While the matching job is running, let's look at other API methods. First, let's get details for job " + jobId);
        waitForInputToContinue(scanner);
        try {
            actions.getMatchingJobAsync(jobId, workflowName).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.error("The matching job not found: {}", cause.getMessage(), cause);
            } else {
                logger.error("Failed to start matching job: " + (cause != null ? cause.getMessage() : ce.getMessage()));
            }
            return;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("5. Get the schema mapping for the JSON data.");
        waitForInputToContinue(scanner);
        try {
            GetSchemaMappingResponse response = actions.getSchemaMappingAsync(jsonSchemaMappingName).join();
            jsonSchemaMappingArn = response.schemaArn();
            logger.info("Schema mapping ARN is " + jsonSchemaMappingArn);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.error("Schema mapping not found: {}", cause.getMessage(), cause);
            } else {
                logger.error("Error retrieving the specific schema mapping: " + ce.getCause().getMessage());
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("6. List Schema Mappings.");
        try {
            actions.ListSchemaMappings();
        } catch (CompletionException ce) {
            logger.error("Error retrieving schema mappings: " + ce.getCause().getMessage());
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("7. Tag the {} resource.", jsonSchemaMappingName);
        logger.info("""
            Tags can help you organize and categorize your Entity Resolution resources. 
            You can also use them to scope user permissions by granting a user permission 
            to access or change only resources with certain tag values. 
            In Entity Resolution, SchemaMapping and MatchingWorkflow can be tagged. For this example, 
            the SchemaMapping is tagged.
                """);
        try {
            actions.tagEntityResource(jsonSchemaMappingArn).join();
        } catch (CompletionException ce) {
            logger.error("Error tagging the resource: " + ce.getCause().getMessage());
            return;
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("8. View the results of the AWS Entity Resolution Workflow.");
        logger.info("""
            You cannot view the result of the workflow that is in a running state.  
            In order to view the results, you need to wait for the workflow that we started in step 3 to complete.
                        
            If you choose not to wait, you cannot view the results. You can perform  
            this task manually in the AWS Management Console.
                       
            This can take up to 30 mins (y/n).
            """);
        String viewAns = scanner.nextLine().trim();
        boolean isComplete = false;
        if (viewAns.equalsIgnoreCase("y")) {
            logger.info("You selected to view the Entity Resolution Workflow results.");
            countdownWithWorkflowCheck(actions, 1800, jobId, workflowName);
            isComplete = true;
            try {
                JobMetrics metrics = actions.getJobInfo(workflowName, jobId).join();
                logger.info("Number of input records: {}", metrics.inputRecords());
                logger.info("Number of match ids: {}", metrics.matchIDs());
                logger.info("Number of records not processed: {}", metrics.recordsNotProcessed());
                logger.info("Number of total records processed: {}", metrics.totalRecordsProcessed());
                logger.info("The following represents the output data generated by the Entity Resolution workflow based on the JSON and CSV input data. The output data is stored in the {} bucket.", glueBucketName);
                actions.printData(glueBucketName);

                logger.info("""
                                                                          
                    Note that each of the last 2 records are considered a match even though the 'name' differs between the records;
                    For example 'John Doe Jr.' compared to 'John Doe'.
                    The confidence level is a value between 0 and 1, where 1 indicates a perfect match. 
                                       
                    """);

            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof ResourceNotFoundException) {
                    logger.error("The job not found: {}", cause.getMessage(), cause);
                } else {
                    logger.error("Error retrieving job information: " + ce.getCause().getMessage());
                }
                return;
            }
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("9. Do you want to delete the resources, including the workflow? (y/n)");
        logger.info("""
            You cannot delete the workflow that is in a running state.  
            In order to delete the workflow, you need to wait for the workflow to complete.
                        
            You can delete the workflow manually in the AWS Management Console at a later time.
                       
            If you already waited for the workflow to complete in the previous step, 
            the workflow is completed and you can delete it. 
                        
            If the workflow is not completed, this can take up to 30 mins (y/n).
            """);
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            try {
                if (!isComplete) {
                    countdownWithWorkflowCheck(actions, 1800, jobId, workflowName);
                }
                actions.deleteMatchingWorkflowAsync(workflowName).join();
                logger.info("Workflow deleted successfully!");
            } catch (CompletionException ce) {
                logger.info("Error deleting the workflow: {} ", ce.getMessage());
                return;
            }

            try {
                // Delete both schema mappings.
                actions.deleteSchemaMappingAsync(jsonSchemaMappingName).join();
                actions.deleteSchemaMappingAsync(csvSchemaMappingName).join();
                logger.info("Both schema mappings were deleted successfully!");
            } catch (CompletionException ce) {
                logger.error("Error deleting schema mapping: {}", ce.getMessage());
                return;
            }

            waitForInputToContinue(scanner);
            logger.info(DASHES);
            logger.info("""
                Now we delete the CloudFormation stack, which deletes 
                the resources that were created at the beginning of this scenario.
                """);
            waitForInputToContinue(scanner);
            logger.info(DASHES);
            try {
                deleteCloudFormationStack();
            } catch (RuntimeException e) {
                logger.error("Failed to delete the stack: {}", e.getMessage());
                return;
            }

        } else {
            logger.info("You can delete the AWS resources in the AWS Management Console.");
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("This concludes the AWS Entity Resolution scenario.");
        logger.info(DASHES);
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                // Handle invalid input.
                logger.info("Invalid input. Please try again.");
            }
        }
    }

    public static void countdownWithWorkflowCheck(EntityResActions actions, int totalSeconds, String jobId, String workflowName) throws InterruptedException {
        int secondsElapsed = 0;

        while (true) {
            // Calculate display minutes and seconds.
            int remainingTime = totalSeconds - secondsElapsed;
            int displayMinutes = remainingTime / 60;
            int displaySeconds = remainingTime % 60;

            // Print the countdown.
            System.out.printf("\r%02d:%02d", displayMinutes, displaySeconds);
            Thread.sleep(1000); // Wait for 1 second
            secondsElapsed++;

            // Check workflow status every 60 seconds.
            if (secondsElapsed % 60 == 0 || remainingTime <= 0) {
                GetMatchingJobResponse response = actions.checkWorkflowStatusCompleteAsync(jobId, workflowName).join();
                if (response != null && "SUCCEEDED".equalsIgnoreCase(String.valueOf(response.status()))) {
                    logger.info(""); // Move to the next line after countdown.
                    logger.info("Countdown complete: Workflow is in Completed state!");
                    break; // Break out of the loop if the status is "SUCCEEDED"
                }
            }

            // If countdown reaches zero, reset it for continuous countdown.
            if (remainingTime <= 0) {
                secondsElapsed = 0;
            }
        }
    }

    private static void deleteCloudFormationStack() {
        try {
            CloudFormationHelper.emptyS3Bucket(glueBucketName);
            CloudFormationHelper.destroyCloudFormationStack(STACK_NAME);
            logger.info("Resources deleted successfully!");
        } catch (CloudFormationException e) {
            throw new RuntimeException("Failed to delete CloudFormation stack: " + e.getMessage(), e);
        } catch (S3Exception e) {
            throw new RuntimeException("Failed to empty S3 bucket: " + e.getMessage(), e);
        }
    }
}
```
Kelas pembungkus untuk metode Resolusi Entitas AWS SDK.  

```
public class EntityResActions {

    private static final String PREFIX = "eroutput/";
    private static final Logger logger = LoggerFactory.getLogger(EntityResActions.class);

    private static EntityResolutionAsyncClient entityResolutionAsyncClient;

    private static S3AsyncClient s3AsyncClient;

    public static EntityResolutionAsyncClient getResolutionAsyncClient() {
        if (entityResolutionAsyncClient == null) {
            /*
            The `NettyNioAsyncHttpClient` class is part of the AWS SDK for Java, version 2,
            and it is designed to provide a high-performance, asynchronous HTTP client for interacting with AWS services.
             It uses the Netty framework to handle the underlying network communication and the Java NIO API to
             provide a non-blocking, event-driven approach to HTTP requests and responses.
             */

            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(50)  // Adjust as needed.
                .connectionTimeout(Duration.ofSeconds(60))  // Set the connection timeout.
                .readTimeout(Duration.ofSeconds(60))  // Set the read timeout.
                .writeTimeout(Duration.ofSeconds(60))  // Set the write timeout.
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))  // Set the overall API call timeout.
                .apiCallAttemptTimeout(Duration.ofSeconds(90))  // Set the individual call attempt timeout.
                .retryStrategy(RetryMode.STANDARD)
                .build();

            entityResolutionAsyncClient = EntityResolutionAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return entityResolutionAsyncClient;
    }

    public static S3AsyncClient getS3AsyncClient() {
        if (s3AsyncClient == null) {
            /*
            The `NettyNioAsyncHttpClient` class is part of the AWS SDK for Java, version 2,
            and it is designed to provide a high-performance, asynchronous HTTP client for interacting with AWS services.
             It uses the Netty framework to handle the underlying network communication and the Java NIO API to
             provide a non-blocking, event-driven approach to HTTP requests and responses.
             */

            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(50)  // Adjust as needed.
                .connectionTimeout(Duration.ofSeconds(60))  // Set the connection timeout.
                .readTimeout(Duration.ofSeconds(60))  // Set the read timeout.
                .writeTimeout(Duration.ofSeconds(60))  // Set the write timeout.
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))  // Set the overall API call timeout.
                .apiCallAttemptTimeout(Duration.ofSeconds(90))  // Set the individual call attempt timeout.
                .retryStrategy(RetryMode.STANDARD)
                .build();

            s3AsyncClient = S3AsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return s3AsyncClient;
    }

    /**
     * Deletes the schema mapping asynchronously.
     *
     * @param schemaName the name of the schema to delete
     * @return a {@link CompletableFuture} that completes when the schema mapping is deleted successfully,
     * or throws a {@link RuntimeException} if the deletion fails
     */
    public CompletableFuture<DeleteSchemaMappingResponse> deleteSchemaMappingAsync(String schemaName) {
        DeleteSchemaMappingRequest request = DeleteSchemaMappingRequest.builder()
            .schemaName(schemaName)
            .build();

        return getResolutionAsyncClient().deleteSchemaMapping(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    // Successfully deleted the schema mapping, log the success message.
                    logger.info("Schema mapping '{}' deleted successfully.", schemaName);
                } else {
                    // Ensure exception is not null before accessing its cause.
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while deleting the schema mapping.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The schema mapping was not found to delete: " + schemaName, cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to delete schema mapping: " + schemaName, exception);
                }
            });
    }

    /**
     * Lists the schema mappings associated with the current AWS account. This method uses an asynchronous paginator to
     * retrieve the schema mappings, and prints the name of each schema mapping to the console.
     */
    public void ListSchemaMappings() {
        ListSchemaMappingsRequest mappingsRequest = ListSchemaMappingsRequest.builder()
            .build();

        ListSchemaMappingsPublisher paginator = getResolutionAsyncClient().listSchemaMappingsPaginator(mappingsRequest);

        // Iterate through the pages of results
        CompletableFuture<Void> future = paginator.subscribe(response -> {
            response.schemaList().forEach(schemaMapping ->
                logger.info("Schema Mapping Name: " + schemaMapping.schemaName())
            );
        });

        // Wait for the asynchronous operation to complete
        future.join();
    }

    /**
     * Asynchronously deletes a workflow with the specified name.
     *
     * @param workflowName the name of the workflow to be deleted
     * @return a {@link CompletableFuture} that completes when the workflow has been deleted
     * @throws RuntimeException if the deletion of the workflow fails
     */
    public CompletableFuture<DeleteMatchingWorkflowResponse> deleteMatchingWorkflowAsync(String workflowName) {
        DeleteMatchingWorkflowRequest request = DeleteMatchingWorkflowRequest.builder()
            .workflowName(workflowName)
            .build();

        return getResolutionAsyncClient().deleteMatchingWorkflow(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("{} was deleted", workflowName );
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while deleting the workflow.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The workflow to delete was not found.", cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to delete workflow: " + exception.getMessage(), exception);
                }
            });
    }

    /**
     * Creates a schema mapping asynchronously.
     *
     * @param schemaName the name of the schema to create
     * @return a {@link CompletableFuture} that represents the asynchronous creation of the schema mapping
     */
    public CompletableFuture<CreateSchemaMappingResponse> createSchemaMappingAsync(String schemaName) {
        List<SchemaInputAttribute> schemaAttributes = null;
        if (schemaName.startsWith("json")) {
            schemaAttributes = List.of(
                SchemaInputAttribute.builder().matchKey("id").fieldName("id").type(SchemaAttributeType.UNIQUE_ID).build(),
                SchemaInputAttribute.builder().matchKey("name").fieldName("name").type(SchemaAttributeType.NAME).build(),
                SchemaInputAttribute.builder().matchKey("email").fieldName("email").type(SchemaAttributeType.EMAIL_ADDRESS).build()
            );
        } else {
            schemaAttributes = List.of(
                SchemaInputAttribute.builder().matchKey("id").fieldName("id").type(SchemaAttributeType.UNIQUE_ID).build(),
                SchemaInputAttribute.builder().matchKey("name").fieldName("name").type(SchemaAttributeType.NAME).build(),
                SchemaInputAttribute.builder().matchKey("email").fieldName("email").type(SchemaAttributeType.EMAIL_ADDRESS).build(),
                SchemaInputAttribute.builder().fieldName("phone").type(SchemaAttributeType.PROVIDER_ID).subType("STRING").build()
            );
        }

        CreateSchemaMappingRequest request = CreateSchemaMappingRequest.builder()
            .schemaName(schemaName)
            .mappedInputFields(schemaAttributes)
            .build();

        return getResolutionAsyncClient().createSchemaMapping(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("[{}] schema mapping Created Successfully!", schemaName);
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while creating the schema mapping.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("A conflicting schema mapping already exists. Resolve conflicts before proceeding.", cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to create schema mapping: " + exception.getMessage(), exception);
                }
            });
    }

    /**
     * Retrieves the schema mapping asynchronously.
     *
     * @param schemaName the name of the schema to retrieve the mapping for
     * @return a {@link CompletableFuture} that completes with the {@link GetSchemaMappingResponse} when the operation
     * is complete
     * @throws RuntimeException if the schema mapping retrieval fails
     */
    public CompletableFuture<GetSchemaMappingResponse> getSchemaMappingAsync(String schemaName) {
        GetSchemaMappingRequest mappingRequest = GetSchemaMappingRequest.builder()
            .schemaName(schemaName)
            .build();

        return getResolutionAsyncClient().getSchemaMapping(mappingRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    response.mappedInputFields().forEach(attribute ->
                        logger.info("Attribute Name: " + attribute.fieldName() +
                            ", Attribute Type: " + attribute.type().toString()));
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while getting schema mapping.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The requested schema mapping was not found.", cause);
                    }

                    // Wrap other exceptions in a CompletionException with the message.
                    throw new CompletionException("Failed to get schema mapping: " + exception.getMessage(), exception);
                }
            });
    }

    /**
     * Asynchronously retrieves a matching job based on the provided job ID and workflow name.
     *
     * @param jobId        the ID of the job to retrieve
     * @param workflowName the name of the workflow associated with the job
     * @return a {@link CompletableFuture} that completes when the job information is available or an exception occurs
     */
    public CompletableFuture<GetMatchingJobResponse> getMatchingJobAsync(String jobId, String workflowName) {
        GetMatchingJobRequest request = GetMatchingJobRequest.builder()
            .jobId(jobId)
            .workflowName(workflowName)
            .build();

        return getResolutionAsyncClient().getMatchingJob(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    // Successfully fetched the matching job details, log the job status.
                    logger.info("Job status: " + response.status());
                    logger.info("Job details: " + response.toString());
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while fetching the matching job.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The requested job could not be found.", cause);
                    }

                    // Wrap other exceptions in a CompletionException with the message.
                    throw new CompletionException("Error fetching matching job: " + exception.getMessage(), exception);
                }
            });
    }


    /**
     * Starts a matching job asynchronously for the specified workflow name.
     *
     * @param workflowName the name of the workflow for which to start the matching job
     * @return a {@link CompletableFuture} that completes with the job ID of the started matching job, or an empty
     * string if the operation fails
     */
    public CompletableFuture<String> startMatchingJobAsync(String workflowName) {
        StartMatchingJobRequest jobRequest = StartMatchingJobRequest.builder()
            .workflowName(workflowName)
            .build();

        return getResolutionAsyncClient().startMatchingJob(jobRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    String jobId = response.jobId();
                    logger.info("Job ID: " + jobId);
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while starting the job.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("The job is already running. Resolve conflicts before starting a new job.", cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to start the job: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response != null ? response.jobId() : "");
    }

    /**
     * Checks the status of a workflow asynchronously.
     *
     * @param jobId        the ID of the job to check
     * @param workflowName the name of the workflow to check
     * @return a CompletableFuture that resolves to a boolean value indicating whether the workflow has completed
     * successfully
     */
    public CompletableFuture<GetMatchingJobResponse> checkWorkflowStatusCompleteAsync(String jobId, String workflowName) {
        GetMatchingJobRequest request = GetMatchingJobRequest.builder()
            .jobId(jobId)
            .workflowName(workflowName)
            .build();

        return getResolutionAsyncClient().getMatchingJob(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    // Process the response and log the job status.
                    logger.info("Job status: " + response.status());
                } else {
                    // Ensure exception is not null before accessing its cause.
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while checking job status.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The requested resource was not found while checking the job status.", cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to check job status: " + exception.getMessage(), exception);
                }
            });
    }

    /**
     * Creates an asynchronous CompletableFuture to manage the creation of a matching workflow.
     *
     * @param roleARN                 the AWS IAM role ARN to be used for the workflow execution
     * @param workflowName            the name of the workflow to be created
     * @param outputBucket            the S3 bucket path where the workflow output will be stored
     * @param jsonGlueTableArn        the ARN of the Glue Data Catalog table to be used as the input source
     * @param jsonErSchemaMappingName the name of the schema to be used for the input source
     * @return a CompletableFuture that, when completed, will return the ARN of the created workflow
     */
    public CompletableFuture<String> createMatchingWorkflowAsync(
        String roleARN
        , String workflowName
        , String outputBucket
        , String jsonGlueTableArn
        , String jsonErSchemaMappingName
        , String csvGlueTableArn
        , String csvErSchemaMappingName) {

        InputSource jsonInputSource = InputSource.builder()
            .inputSourceARN(jsonGlueTableArn)
            .schemaName(jsonErSchemaMappingName)
            .applyNormalization(false)
            .build();

        InputSource csvInputSource = InputSource.builder()
            .inputSourceARN(csvGlueTableArn)
            .schemaName(csvErSchemaMappingName)
            .applyNormalization(false)
            .build();

        OutputAttribute idOutputAttribute = OutputAttribute.builder()
            .name("id")
            .build();

        OutputAttribute nameOutputAttribute = OutputAttribute.builder()
            .name("name")
            .build();

        OutputAttribute emailOutputAttribute = OutputAttribute.builder()
            .name("email")
            .build();

        OutputAttribute phoneOutputAttribute = OutputAttribute.builder()
            .name("phone")
            .build();

        OutputSource outputSource = OutputSource.builder()
            .outputS3Path("s3://" + outputBucket + "/eroutput")
            .output(idOutputAttribute, nameOutputAttribute, emailOutputAttribute, phoneOutputAttribute)
            .applyNormalization(false)
            .build();

        ResolutionTechniques resolutionType = ResolutionTechniques.builder()
            .resolutionType(ResolutionType.ML_MATCHING)
            .build();

        CreateMatchingWorkflowRequest workflowRequest = CreateMatchingWorkflowRequest.builder()
            .roleArn(roleARN)
            .description("Created by using the AWS SDK for Java")
            .workflowName(workflowName)
            .inputSourceConfig(List.of(jsonInputSource, csvInputSource))
            .outputSourceConfig(List.of(outputSource))
            .resolutionTechniques(resolutionType)
            .build();

        return getResolutionAsyncClient().createMatchingWorkflow(workflowRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("Workflow created successfully.");
                } else {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ValidationException) {
                        throw new CompletionException("Invalid request: Please check input parameters.", cause);
                    }

                    if (cause instanceof ConflictException) {
                        throw new CompletionException("A conflicting workflow already exists. Resolve conflicts before proceeding.", cause);
                    }
                    throw new CompletionException("Failed to create workflow: " + exception.getMessage(), exception);
                }
            })
            .thenApply(CreateMatchingWorkflowResponse::workflowArn);
    }

    /**
     * Tags the specified schema mapping ARN.
     *
     * @param schemaMappingARN the ARN of the schema mapping to tag
     */
    public CompletableFuture<TagResourceResponse> tagEntityResource(String schemaMappingARN) {
        Map<String, String> tags = new HashMap<>();
        tags.put("tag1", "tag1Value");
        tags.put("tag2", "tag2Value");

        TagResourceRequest request = TagResourceRequest.builder()
            .resourceArn(schemaMappingARN)
            .tags(tags)
            .build();

        return getResolutionAsyncClient().tagResource(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    // Successfully tagged the resource, log the success message.
                    logger.info("Successfully tagged the resource.");
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while tagging the resource.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The resource to tag was not found.", cause);
                    }
                    throw new CompletionException("Failed to tag the resource: " + exception.getMessage(), exception);
                }
            });
    }

    public CompletableFuture<JobMetrics> getJobInfo(String workflowName, String jobId) {
        return getResolutionAsyncClient().getMatchingJob(b -> b
                .workflowName(workflowName)
                .jobId(jobId))
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("Job metrics fetched successfully for jobId: " + jobId);
                } else {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("Invalid request: Job id was not found.", cause);
                    }
                    throw new CompletionException("Failed to fetch job info: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response.metrics()); // Extract job metrics
    }

    /**
     * Uploads data to an Amazon S3 bucket asynchronously.
     *
     * @param bucketName the name of the S3 bucket to upload the data to
     * @param jsonData   the JSON data to be uploaded
     * @param csvData    the CSV data to be uploaded
     * @return a {@link CompletableFuture} representing both asynchronous operation of uploading the data
     * @throws RuntimeException if an error occurs during the file upload
     */

    public void uploadInputData(String bucketName, String jsonData, String csvData) {
        // Upload JSON data.
        String jsonKey = "jsonData/data.json";
        PutObjectRequest jsonUploadRequest = PutObjectRequest.builder()
            .bucket(bucketName)
            .key(jsonKey)
            .contentType("application/json")
            .build();

        CompletableFuture<PutObjectResponse> jsonUploadResponse = getS3AsyncClient().putObject(jsonUploadRequest, AsyncRequestBody.fromString(jsonData));

        // Upload CSV data.
        String csvKey = "csvData/data.csv";
        PutObjectRequest csvUploadRequest = PutObjectRequest.builder()
            .bucket(bucketName)
            .key(csvKey)
            .contentType("text/csv")
            .build();
        CompletableFuture<PutObjectResponse> csvUploadResponse = getS3AsyncClient().putObject(csvUploadRequest, AsyncRequestBody.fromString(csvData));

        CompletableFuture.allOf(jsonUploadResponse, csvUploadResponse)
            .whenComplete((result, ex) -> {
                if (ex != null) {
                    // Wrap an AWS exception.
                    throw new CompletionException("Failed to upload files", ex);
                }
            }).join();

    }

    /**
     * Finds the latest file in the S3 bucket that starts with "run-" in any depth of subfolders
     */
    private CompletableFuture<String> findLatestMatchingFile(String bucketName) {
        ListObjectsV2Request request = ListObjectsV2Request.builder()
            .bucket(bucketName)
            .prefix(PREFIX) // Searches within the given folder
            .build();

        return getS3AsyncClient().listObjectsV2(request)
            .thenApply(response -> response.contents().stream()
                .map(S3Object::key)
                .filter(key -> key.matches(".*?/run-[0-9a-zA-Z\\-]+")) // Matches files like run-XXXXX in any subfolder
                .max(String::compareTo) // Gets the latest file
                .orElse(null))
            .whenComplete((result, exception) -> {
                if (exception == null) {
                    if (result != null) {
                        logger.info("Latest matching file found: " + result);
                    } else {
                        logger.info("No matching files found.");
                    }
                } else {
                    throw new CompletionException("Failed to find latest matching file: " + exception.getMessage(), exception);
                }
            });
    }

    /**
     * Prints the data located in the file in the S3 bucket that starts with "run-" in any depth of subfolders
     */
    public void printData(String bucketName) {
        try {
            // Find the latest file with "run-" prefix in any depth of subfolders.
            String s3Key = findLatestMatchingFile(bucketName).join();
            if (s3Key == null) {
                logger.error("No matching files found in S3.");
                return;
            }

            logger.info("Downloading file: " + s3Key);

            // Read CSV file as String.
            String csvContent = readCSVFromS3Async(bucketName, s3Key).join();
            if (csvContent.isEmpty()) {
                logger.error("File is empty.");
                return;
            }

            // Process CSV content.
            List<String[]> records = parseCSV(csvContent);
            printTable(records);

        } catch (RuntimeException | IOException | CsvException e) {
            logger.error("Error processing CSV file from S3: " + e.getMessage());
            e.printStackTrace();
        }
    }

    /**
     * Reads a CSV file from S3 and returns it as a String.
     */
    private static CompletableFuture<String> readCSVFromS3Async(String bucketName, String s3Key) {
        GetObjectRequest getObjectRequest = GetObjectRequest.builder()
            .bucket(bucketName)
            .key(s3Key)
            .build();

        // Initiating the asynchronous request to get the file as bytes
        return getS3AsyncClient().getObject(getObjectRequest, AsyncResponseTransformer.toBytes())
            .thenApply(responseBytes -> responseBytes.asUtf8String()) // Convert bytes to UTF-8 string
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    throw new CompletionException("Failed to read CSV from S3: " + exception.getMessage(), exception);
                } else {
                    logger.info("Successfully fetched CSV file content from S3.");
                }
            });
    }

    /**
     * Parses CSV content from a String into a list of records.
     */
    private static List<String[]> parseCSV(String csvContent) throws IOException, CsvException {
        try (CSVReader csvReader = new CSVReader(new StringReader(csvContent))) {
            return csvReader.readAll();
        }
    }

    /**
     * Prints the given CSV data in a formatted table
     */
    private static void printTable(List<String[]> records) {
        if (records.isEmpty()) {
            System.out.println("No records found.");
            return;
        }

        String[] headers = records.get(0);
        List<String[]> rows = records.subList(1, records.size());

        // Determine column widths dynamically based on longest content
        int[] columnWidths = new int[headers.length];
        for (int i = 0; i < headers.length; i++) {
            final int columnIndex = i;
            int maxWidth = Math.max(headers[i].length(), rows.stream()
                .map(row -> row.length > columnIndex ? row[columnIndex].length() : 0)
                .max(Integer::compareTo)
                .orElse(0));
            columnWidths[i] = Math.min(maxWidth, 25); // Limit max width for better readability
        }

        // Enable ANSI Console for colored output
        AnsiConsole.systemInstall();

        // Print table header
        System.out.println(ansi().fgYellow().a("=== CSV Data from S3 ===").reset());
        printRow(headers, columnWidths, true);

        // Print rows
        rows.forEach(row -> printRow(row, columnWidths, false));

        // Restore console to normal
        AnsiConsole.systemUninstall();
    }

    private static void printRow(String[] row, int[] columnWidths, boolean isHeader) {
        String border = IntStream.range(0, columnWidths.length)
            .mapToObj(i -> "-".repeat(columnWidths[i] + 2))
            .collect(Collectors.joining("+", "+", "+"));

        if (isHeader) {
            System.out.println(border);
        }

        System.out.print("|");
        for (int i = 0; i < columnWidths.length; i++) {
            String cell = (i < row.length && row[i] != null) ? row[i] : "";
            System.out.printf(" %-" + columnWidths[i] + "s |", isHeader ? ansi().fgBrightBlue().a(cell).reset() : cell);
        }
        System.out.println();

        if (isHeader) {
            System.out.println(border);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateMatchingWorkflow](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/CreateMatchingWorkflow)
  + [CreateSchemaMapping](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/CreateSchemaMapping)
  + [DeleteMatchingWorkflow](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/DeleteMatchingWorkflow)
  + [DeleteSchemaMapping](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/DeleteSchemaMapping)
  + [GetMatchingJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/GetMatchingJob)
  + [GetSchemaMapping](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/GetSchemaMapping)
  + [ListMatchingWorkflows](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/ListMatchingWorkflows)
  + [ListSchemaMappings](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/ListSchemaMappings)
  + [StartMatchingJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/StartMatchingJob)
  + [TagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/TagResource)

## Tindakan
<a name="actions"></a>

### `CreateMatchingWorkflow`
<a name="entityresolution_CreateMatchingWorkflow_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMatchingWorkflow`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Creates an asynchronous CompletableFuture to manage the creation of a matching workflow.
     *
     * @param roleARN                 the AWS IAM role ARN to be used for the workflow execution
     * @param workflowName            the name of the workflow to be created
     * @param outputBucket            the S3 bucket path where the workflow output will be stored
     * @param jsonGlueTableArn        the ARN of the Glue Data Catalog table to be used as the input source
     * @param jsonErSchemaMappingName the name of the schema to be used for the input source
     * @return a CompletableFuture that, when completed, will return the ARN of the created workflow
     */
    public CompletableFuture<String> createMatchingWorkflowAsync(
        String roleARN
        , String workflowName
        , String outputBucket
        , String jsonGlueTableArn
        , String jsonErSchemaMappingName
        , String csvGlueTableArn
        , String csvErSchemaMappingName) {

        InputSource jsonInputSource = InputSource.builder()
            .inputSourceARN(jsonGlueTableArn)
            .schemaName(jsonErSchemaMappingName)
            .applyNormalization(false)
            .build();

        InputSource csvInputSource = InputSource.builder()
            .inputSourceARN(csvGlueTableArn)
            .schemaName(csvErSchemaMappingName)
            .applyNormalization(false)
            .build();

        OutputAttribute idOutputAttribute = OutputAttribute.builder()
            .name("id")
            .build();

        OutputAttribute nameOutputAttribute = OutputAttribute.builder()
            .name("name")
            .build();

        OutputAttribute emailOutputAttribute = OutputAttribute.builder()
            .name("email")
            .build();

        OutputAttribute phoneOutputAttribute = OutputAttribute.builder()
            .name("phone")
            .build();

        OutputSource outputSource = OutputSource.builder()
            .outputS3Path("s3://" + outputBucket + "/eroutput")
            .output(idOutputAttribute, nameOutputAttribute, emailOutputAttribute, phoneOutputAttribute)
            .applyNormalization(false)
            .build();

        ResolutionTechniques resolutionType = ResolutionTechniques.builder()
            .resolutionType(ResolutionType.ML_MATCHING)
            .build();

        CreateMatchingWorkflowRequest workflowRequest = CreateMatchingWorkflowRequest.builder()
            .roleArn(roleARN)
            .description("Created by using the AWS SDK for Java")
            .workflowName(workflowName)
            .inputSourceConfig(List.of(jsonInputSource, csvInputSource))
            .outputSourceConfig(List.of(outputSource))
            .resolutionTechniques(resolutionType)
            .build();

        return getResolutionAsyncClient().createMatchingWorkflow(workflowRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("Workflow created successfully.");
                } else {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ValidationException) {
                        throw new CompletionException("Invalid request: Please check input parameters.", cause);
                    }

                    if (cause instanceof ConflictException) {
                        throw new CompletionException("A conflicting workflow already exists. Resolve conflicts before proceeding.", cause);
                    }
                    throw new CompletionException("Failed to create workflow: " + exception.getMessage(), exception);
                }
            })
            .thenApply(CreateMatchingWorkflowResponse::workflowArn);
    }
```
+  Untuk detail API, lihat [CreateMatchingWorkflow](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/CreateMatchingWorkflow)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateSchemaMapping`
<a name="entityresolution_CreateSchemaMapping_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSchemaMapping`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Creates a schema mapping asynchronously.
     *
     * @param schemaName the name of the schema to create
     * @return a {@link CompletableFuture} that represents the asynchronous creation of the schema mapping
     */
    public CompletableFuture<CreateSchemaMappingResponse> createSchemaMappingAsync(String schemaName) {
        List<SchemaInputAttribute> schemaAttributes = null;
        if (schemaName.startsWith("json")) {
            schemaAttributes = List.of(
                SchemaInputAttribute.builder().matchKey("id").fieldName("id").type(SchemaAttributeType.UNIQUE_ID).build(),
                SchemaInputAttribute.builder().matchKey("name").fieldName("name").type(SchemaAttributeType.NAME).build(),
                SchemaInputAttribute.builder().matchKey("email").fieldName("email").type(SchemaAttributeType.EMAIL_ADDRESS).build()
            );
        } else {
            schemaAttributes = List.of(
                SchemaInputAttribute.builder().matchKey("id").fieldName("id").type(SchemaAttributeType.UNIQUE_ID).build(),
                SchemaInputAttribute.builder().matchKey("name").fieldName("name").type(SchemaAttributeType.NAME).build(),
                SchemaInputAttribute.builder().matchKey("email").fieldName("email").type(SchemaAttributeType.EMAIL_ADDRESS).build(),
                SchemaInputAttribute.builder().fieldName("phone").type(SchemaAttributeType.PROVIDER_ID).subType("STRING").build()
            );
        }

        CreateSchemaMappingRequest request = CreateSchemaMappingRequest.builder()
            .schemaName(schemaName)
            .mappedInputFields(schemaAttributes)
            .build();

        return getResolutionAsyncClient().createSchemaMapping(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("[{}] schema mapping Created Successfully!", schemaName);
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while creating the schema mapping.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("A conflicting schema mapping already exists. Resolve conflicts before proceeding.", cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to create schema mapping: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [CreateSchemaMapping](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/CreateSchemaMapping)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteMatchingWorkflow`
<a name="entityresolution_DeleteMatchingWorkflow_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMatchingWorkflow`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Asynchronously deletes a workflow with the specified name.
     *
     * @param workflowName the name of the workflow to be deleted
     * @return a {@link CompletableFuture} that completes when the workflow has been deleted
     * @throws RuntimeException if the deletion of the workflow fails
     */
    public CompletableFuture<DeleteMatchingWorkflowResponse> deleteMatchingWorkflowAsync(String workflowName) {
        DeleteMatchingWorkflowRequest request = DeleteMatchingWorkflowRequest.builder()
            .workflowName(workflowName)
            .build();

        return getResolutionAsyncClient().deleteMatchingWorkflow(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("{} was deleted", workflowName );
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while deleting the workflow.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The workflow to delete was not found.", cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to delete workflow: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteMatchingWorkflow](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/DeleteMatchingWorkflow)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteSchemaMapping`
<a name="entityresolution_DeleteSchemaMapping_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSchemaMapping`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Deletes the schema mapping asynchronously.
     *
     * @param schemaName the name of the schema to delete
     * @return a {@link CompletableFuture} that completes when the schema mapping is deleted successfully,
     * or throws a {@link RuntimeException} if the deletion fails
     */
    public CompletableFuture<DeleteSchemaMappingResponse> deleteSchemaMappingAsync(String schemaName) {
        DeleteSchemaMappingRequest request = DeleteSchemaMappingRequest.builder()
            .schemaName(schemaName)
            .build();

        return getResolutionAsyncClient().deleteSchemaMapping(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    // Successfully deleted the schema mapping, log the success message.
                    logger.info("Schema mapping '{}' deleted successfully.", schemaName);
                } else {
                    // Ensure exception is not null before accessing its cause.
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while deleting the schema mapping.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The schema mapping was not found to delete: " + schemaName, cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to delete schema mapping: " + schemaName, exception);
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteSchemaMapping](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/DeleteSchemaMapping)di *Referensi AWS SDK for Java 2.x API*. 

### `GetMatchingJob`
<a name="entityresolution_GetMatchingJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMatchingJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Asynchronously retrieves a matching job based on the provided job ID and workflow name.
     *
     * @param jobId        the ID of the job to retrieve
     * @param workflowName the name of the workflow associated with the job
     * @return a {@link CompletableFuture} that completes when the job information is available or an exception occurs
     */
    public CompletableFuture<GetMatchingJobResponse> getMatchingJobAsync(String jobId, String workflowName) {
        GetMatchingJobRequest request = GetMatchingJobRequest.builder()
            .jobId(jobId)
            .workflowName(workflowName)
            .build();

        return getResolutionAsyncClient().getMatchingJob(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    // Successfully fetched the matching job details, log the job status.
                    logger.info("Job status: " + response.status());
                    logger.info("Job details: " + response.toString());
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while fetching the matching job.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The requested job could not be found.", cause);
                    }

                    // Wrap other exceptions in a CompletionException with the message.
                    throw new CompletionException("Error fetching matching job: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [GetMatchingJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/GetMatchingJob)di *Referensi AWS SDK for Java 2.x API*. 

### `GetSchemaMapping`
<a name="entityresolution_GetSchemaMapping_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSchemaMapping`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Retrieves the schema mapping asynchronously.
     *
     * @param schemaName the name of the schema to retrieve the mapping for
     * @return a {@link CompletableFuture} that completes with the {@link GetSchemaMappingResponse} when the operation
     * is complete
     * @throws RuntimeException if the schema mapping retrieval fails
     */
    public CompletableFuture<GetSchemaMappingResponse> getSchemaMappingAsync(String schemaName) {
        GetSchemaMappingRequest mappingRequest = GetSchemaMappingRequest.builder()
            .schemaName(schemaName)
            .build();

        return getResolutionAsyncClient().getSchemaMapping(mappingRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    response.mappedInputFields().forEach(attribute ->
                        logger.info("Attribute Name: " + attribute.fieldName() +
                            ", Attribute Type: " + attribute.type().toString()));
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while getting schema mapping.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The requested schema mapping was not found.", cause);
                    }

                    // Wrap other exceptions in a CompletionException with the message.
                    throw new CompletionException("Failed to get schema mapping: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [GetSchemaMapping](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/GetSchemaMapping)di *Referensi AWS SDK for Java 2.x API*. 

### `ListSchemaMappings`
<a name="entityresolution_ListSchemaMappings_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSchemaMappings`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Lists the schema mappings associated with the current AWS account. This method uses an asynchronous paginator to
     * retrieve the schema mappings, and prints the name of each schema mapping to the console.
     */
    public void ListSchemaMappings() {
        ListSchemaMappingsRequest mappingsRequest = ListSchemaMappingsRequest.builder()
            .build();

        ListSchemaMappingsPublisher paginator = getResolutionAsyncClient().listSchemaMappingsPaginator(mappingsRequest);

        // Iterate through the pages of results
        CompletableFuture<Void> future = paginator.subscribe(response -> {
            response.schemaList().forEach(schemaMapping ->
                logger.info("Schema Mapping Name: " + schemaMapping.schemaName())
            );
        });

        // Wait for the asynchronous operation to complete
        future.join();
    }
```
+  Untuk detail API, lihat [ListSchemaMappings](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/ListSchemaMappings)di *Referensi AWS SDK for Java 2.x API*. 

### `StartMatchingJob`
<a name="entityresolution_StartMatchingJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartMatchingJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Starts a matching job asynchronously for the specified workflow name.
     *
     * @param workflowName the name of the workflow for which to start the matching job
     * @return a {@link CompletableFuture} that completes with the job ID of the started matching job, or an empty
     * string if the operation fails
     */
    public CompletableFuture<String> startMatchingJobAsync(String workflowName) {
        StartMatchingJobRequest jobRequest = StartMatchingJobRequest.builder()
            .workflowName(workflowName)
            .build();

        return getResolutionAsyncClient().startMatchingJob(jobRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    String jobId = response.jobId();
                    logger.info("Job ID: " + jobId);
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while starting the job.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("The job is already running. Resolve conflicts before starting a new job.", cause);
                    }

                    // Wrap other AWS exceptions in a CompletionException.
                    throw new CompletionException("Failed to start the job: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response != null ? response.jobId() : "");
    }
```
+  Untuk detail API, lihat [StartMatchingJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/StartMatchingJob)di *Referensi AWS SDK for Java 2.x API*. 

### `TagResource`
<a name="entityresolution_TagResource_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/entityresolution#code-examples). 

```
    /**
     * Tags the specified schema mapping ARN.
     *
     * @param schemaMappingARN the ARN of the schema mapping to tag
     */
    public CompletableFuture<TagResourceResponse> tagEntityResource(String schemaMappingARN) {
        Map<String, String> tags = new HashMap<>();
        tags.put("tag1", "tag1Value");
        tags.put("tag2", "tag2Value");

        TagResourceRequest request = TagResourceRequest.builder()
            .resourceArn(schemaMappingARN)
            .tags(tags)
            .build();

        return getResolutionAsyncClient().tagResource(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    // Successfully tagged the resource, log the success message.
                    logger.info("Successfully tagged the resource.");
                } else {
                    if (exception == null) {
                        throw new CompletionException("An unknown error occurred while tagging the resource.", null);
                    }

                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The resource to tag was not found.", cause);
                    }
                    throw new CompletionException("Failed to tag the resource: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/entityresolution-2018-05-10/TagResource)di *Referensi AWS SDK for Java 2.x API*. 

# OpenSearch Contoh layanan menggunakan SDK for Java 2.x
<a name="java_2_opensearch_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan OpenSearch Layanan AWS SDK for Java 2.x with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### OpenSearch Layanan Halo
<a name="opensearch_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan OpenSearch Service.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
import software.amazon.awssdk.services.opensearch.OpenSearchAsyncClient;
import software.amazon.awssdk.services.opensearch.model.ListVersionsRequest;
import java.util.List;
import java.util.concurrent.CompletableFuture;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloOpenSearch {
    public static void main(String[] args) {
        try {
            CompletableFuture<Void> future = listVersionsAsync();
            future.join();
            System.out.println("Versions listed successfully.");
        } catch (RuntimeException e) {
            System.err.println("Error occurred while listing versions: " + e.getMessage());
        }
    }

    private static OpenSearchAsyncClient getAsyncClient() {
        return OpenSearchAsyncClient.builder().build();
    }

    public static CompletableFuture<Void> listVersionsAsync() {
        ListVersionsRequest request = ListVersionsRequest.builder()
            .maxResults(10)
            .build();

        return getAsyncClient().listVersions(request).thenAccept(response -> {
            List<String> versionList = response.versions();
            for (String version : versionList) {
                System.out.println("Version info: " + version);
            }
        }).exceptionally(ex -> {
            // Handle the exception, or propagate it as a RuntimeException
            throw new RuntimeException("Failed to list versions", ex);
        });
    }
}
```
+  Untuk detail API, lihat [ListVersions](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/ListVersions)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari operasi inti OpenSearch Layanan
<a name="opensearch_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat domain OpenSearch Layanan.
+ Memberikan informasi rinci tentang domain OpenSearch Layanan tertentu.
+ Daftar semua domain OpenSearch Layanan yang dimiliki oleh akun.
+ Menunggu hingga status perubahan domain OpenSearch Layanan mencapai status selesai.
+ Memodifikasi konfigurasi domain OpenSearch Layanan yang ada.
+ Tambahkan tag ke domain OpenSearch Layanan.
+ Daftar tag yang terkait dengan domain OpenSearch Layanan.
+ Menghapus tag dari domain OpenSearch Layanan.
+ Menghapus domain OpenSearch Layanan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/batch#code-examples). 
Jalankan skenario interaktif yang mendemonstrasikan fitur OpenSearch Layanan.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.opensearch.model.*;
import java.util.List;
import java.util.Scanner;
import java.util.concurrent.CompletableFuture;

public class OpenSearchScenario {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    private static final Logger logger = LoggerFactory.getLogger(OpenSearchScenario.class);
    static Scanner scanner = new Scanner(System.in);

    static OpenSearchActions openSearchActions = new OpenSearchActions();

    public static void main(String[] args) throws Throwable {
        logger.info("""
            Welcome to the Amazon OpenSearch Service Basics Scenario.

            Use the Amazon OpenSearch Service API to create, configure, and manage OpenSearch Service domains.

            The operations exposed by the AWS OpenSearch Service client are focused on managing the OpenSearch Service domains 
            and their configurations, not the data within the domains (such as indexing or querying documents). 
            For document management, you typically interact directly with the OpenSearch REST API or use other libraries, 
            such as the OpenSearch Java client (https://opensearch.org/docs/latest/clients/java/).

            Let's get started...
        """);
        waitForInputToContinue(scanner);
        try {
            runScenario();
        } catch (RuntimeException e) {
            e.printStackTrace();
        }
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                logger.info("Invalid input. Please try again.");
            }
        }
    }

    private static void runScenario() throws Throwable {
        String currentTimestamp = String.valueOf(System.currentTimeMillis());
        String domainName = "test-domain-" + currentTimestamp;

        logger.info(DASHES);
        logger.info("1. Create an Amazon OpenSearch domain");
        logger.info("""
            An Amazon OpenSearch domain is a managed instance of the OpenSearch engine, 
            which is an open-source search and analytics engine derived from Elasticsearch. 
            An OpenSearch domain is essentially a cluster of compute resources and storage that hosts 
            one or more OpenSearch indexes, enabling you to perform full-text searches, data analysis, and 
            visualizations.

            In this step, we'll initiate the creation of the domain. We'll check on the progress in a later step.
        """);
        waitForInputToContinue(scanner);

        try {
            CompletableFuture<String> future = openSearchActions.createNewDomainAsync(domainName);
            String domainId = future.join();
            logger.info("Domain successfully created with ID: {}", domainId);
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause != null) {
                if (cause instanceof OpenSearchException openSearchEx) {
                    logger.error("OpenSearch error occurred: Error message: {}, Error code {}", openSearchEx.awsErrorDetails().errorMessage(), openSearchEx.awsErrorDetails().errorCode());
                } else {
                    logger.error("An unexpected error occurred: " + cause.getMessage(), cause);
                }
            } else {
                logger.error("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("2. Describe the Amazon OpenSearch domain");
        logger.info("In this step, we get back the Domain ARN which is used in an upcoming step.");
        waitForInputToContinue(scanner);

        String arn = "";
        try {
            CompletableFuture<String> future = openSearchActions.describeDomainAsync(domainName);
            arn = future.join();
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof OpenSearchException openSearchEx) {
                logger.info("OpenSearch error occurred: Error message: {}, Error code {}", openSearchEx.awsErrorDetails().errorMessage(), openSearchEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("3. List the domains in your account");
        waitForInputToContinue(scanner);

        try {
            CompletableFuture<List<DomainInfo>> future = openSearchActions.listAllDomainsAsync();
            List<DomainInfo> domainInfoList = future.join();
            for (DomainInfo domain : domainInfoList) {
                logger.info("Domain name is: " + domain.domainName());
            }
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            while (cause.getCause() != null && !(cause instanceof OpenSearchException)) {
                cause = cause.getCause();
            }
            if (cause instanceof OpenSearchException openSearchEx) {
                logger.info("OpenSearch error occurred: Error message: {}, Error code {}", openSearchEx.awsErrorDetails().errorMessage(), openSearchEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("4. Wait until the domain's change status reaches a completed state");
        logger.info("""
            In this step, we check on the change status of the domain that we initiated in Step 1.
            Until we reach a COMPLETED state, we stay in a loop by sending a DescribeDomainChangeProgressRequest.

            The time it takes for a change to an OpenSearch domain to reach a completed state can range
            from a few minutes to several hours. In this case the change is creating a new domain that we initiated in Step 1.
            The time varies depending on the complexity of the change and the current load on
            the OpenSearch service. In general, simple changes, such as scaling the number of data nodes or
            updating the OpenSearch version, may take 10-30 minutes.
        """);

        waitForInputToContinue(scanner);

        try {
            CompletableFuture<Void> future = openSearchActions.domainChangeProgressAsync(domainName);
            future.join();
            logger.info("Domain change progress completed successfully.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            while (cause.getCause() != null && !(cause instanceof ResourceNotFoundException)) {
                cause = cause.getCause();
            }
            if (cause instanceof ResourceNotFoundException resourceNotFoundException) {
                logger.info("The specific AWS resource was not found: Error message: {}, Error code {}", resourceNotFoundException.awsErrorDetails().errorMessage(), resourceNotFoundException.awsErrorDetails().errorCode());

                if (cause instanceof OpenSearchException ex) {
                    logger.info("An OpenSearch error occurred: Error message: " + ex.getMessage());
                } else {
                    logger.info("An unexpected error occurred: " + rt.getMessage());
                }
                throw cause;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("5. Modify the domain");
        logger.info("""
            You can change your OpenSearch domain's settings, like the number of instances, without starting over from scratch.
            This makes it easy to adjust your domain as your needs change, allowing you to scale up or
            down quickly without recreating everything.

            We modify the domain in this step by changing the number of instances.
        """);

        waitForInputToContinue(scanner);

        try {
            CompletableFuture<UpdateDomainConfigResponse> future = openSearchActions.updateSpecificDomainAsync(domainName);
            UpdateDomainConfigResponse updateResponse = future.join();
            logger.info("Domain update status: " + updateResponse.domainConfig().changeProgressDetails().configChangeStatusAsString());
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof OpenSearchException openSearchEx) {
                logger.info("OpenSearch error occurred: Error message: {}, Error code {}", openSearchEx.awsErrorDetails().errorMessage(), openSearchEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("6. Wait until the domain's change status reaches a completed state");
        logger.info("""
            In this step, we poll the status until the domain's change status reaches a completed state.
        """);

        waitForInputToContinue(scanner);

        try {
            CompletableFuture<Void> future = openSearchActions.domainChangeProgressAsync(domainName);
            future.join();
            logger.info("Domain change progress completed successfully.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof OpenSearchException ex) {
                logger.info("EC2 error occurred: Error message: " +ex.getMessage());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("7. Tag the Domain");
        logger.info("""
            Tags let you assign arbitrary information to an Amazon OpenSearch Service domain so you can
            categorize and filter on that information. A tag is a key-value pair that you define and
            associate with an OpenSearch Service domain. You can use these tags to track costs by grouping
            expenses for similarly tagged resources.

            In this scenario, we create tags with keys "service" and "instances".
        """);

        waitForInputToContinue(scanner);

        try {
            CompletableFuture<AddTagsResponse> future = openSearchActions.addDomainTagsAsync(arn);
            future.join();
            logger.info("Domain tags added successfully.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            while (cause.getCause() != null && !(cause instanceof OpenSearchException)) {
                cause = cause.getCause();
            }
            if (cause instanceof OpenSearchException openSearchEx) {
                logger.info("OpenSearch error occurred: Error message: {}, Error code {}", openSearchEx.awsErrorDetails().errorMessage(), openSearchEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
                if (cause != null) {
                    if (cause instanceof OpenSearchException) {
                        logger.error("OpenSearch error occurred: Error message: " + cause.getMessage(), cause);
                    } else {
                        logger.error("An unexpected error occurred: " + cause.getMessage(), cause);
                    }
                } else {
                    logger.error("An unexpected error occurred: " + rt.getMessage(), rt);
                }
                throw cause;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("8. List Domain tags");
        waitForInputToContinue(scanner);

        try {
            CompletableFuture<ListTagsResponse> future = openSearchActions.listDomainTagsAsync(arn);
            ListTagsResponse listTagsResponse = future.join();
            listTagsResponse.tagList().forEach(tag -> logger.info("Tag Key: " + tag.key() + ", Tag Value: " + tag.value()));
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            while (cause.getCause() != null && !(cause instanceof OpenSearchException)) {
                cause = cause.getCause();
            }
            if (cause instanceof OpenSearchException openSearchEx) {
                logger.info("OpenSearch error occurred: Error message: {}, Error code {}", openSearchEx.awsErrorDetails().errorMessage(), openSearchEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;

        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("9. Delete the domain");
        logger.info("""
            In this step, we'll delete the Amazon OpenSearch domain that we created in Step 1.
            Deleting a domain will remove all data and configuration for that domain.
        """);

        waitForInputToContinue(scanner);

        try {
            CompletableFuture<DeleteDomainResponse> future = openSearchActions.deleteSpecificDomainAsync(domainName);
            future.join();
            logger.info("Domain successfully deleted.");
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            while (cause.getCause() != null && !(cause instanceof OpenSearchException)) {
                cause = cause.getCause();
            }
            if (cause instanceof OpenSearchException openSearchEx) {
                logger.info("OpenSearch error occurred: Error message: {}, Error code {}", openSearchEx.awsErrorDetails().errorMessage(), openSearchEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;

        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("Scenario complete!");
    }
 }
```
Kelas pembungkus untuk metode OpenSearch Service SDK.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.core.retry.RetryPolicy;
import software.amazon.awssdk.http.async.SdkAsyncHttpClient;
import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.opensearch.OpenSearchAsyncClient;
import software.amazon.awssdk.services.opensearch.model.AddTagsRequest;
import software.amazon.awssdk.services.opensearch.model.AddTagsResponse;
import software.amazon.awssdk.services.opensearch.model.ClusterConfig;
import software.amazon.awssdk.services.opensearch.model.CreateDomainRequest;
import software.amazon.awssdk.services.opensearch.model.DeleteDomainRequest;
import software.amazon.awssdk.services.opensearch.model.DeleteDomainResponse;
import software.amazon.awssdk.services.opensearch.model.DescribeDomainChangeProgressRequest;
import software.amazon.awssdk.services.opensearch.model.DescribeDomainChangeProgressResponse;
import software.amazon.awssdk.services.opensearch.model.DescribeDomainRequest;
import software.amazon.awssdk.services.opensearch.model.DomainInfo;
import software.amazon.awssdk.services.opensearch.model.DomainStatus;
import software.amazon.awssdk.services.opensearch.model.EBSOptions;
import software.amazon.awssdk.services.opensearch.model.ListDomainNamesRequest;
import software.amazon.awssdk.services.opensearch.model.ListTagsRequest;
import software.amazon.awssdk.services.opensearch.model.ListTagsResponse;
import software.amazon.awssdk.services.opensearch.model.NodeToNodeEncryptionOptions;
import software.amazon.awssdk.services.opensearch.model.Tag;
import software.amazon.awssdk.services.opensearch.model.UpdateDomainConfigRequest;
import software.amazon.awssdk.services.opensearch.model.UpdateDomainConfigResponse;
import software.amazon.awssdk.services.opensearch.model.VolumeType;
import java.time.Duration;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.CompletableFuture;

public class OpenSearchActions {
    private static final Logger logger = LoggerFactory.getLogger(OpenSearchActions.class);
    private static OpenSearchAsyncClient openSearchClientAsyncClient;
    private static OpenSearchAsyncClient getAsyncClient() {
        if (openSearchClientAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryPolicy(RetryPolicy.builder()
                    .numRetries(3)
                    .build())
                .build();

            openSearchClientAsyncClient = OpenSearchAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return openSearchClientAsyncClient;
    }

    /**
     * Creates a new OpenSearch domain asynchronously.
     * @param domainName the name of the new OpenSearch domain to create
     * @return a {@link CompletableFuture} containing the domain ID of the newly created domain
     */
    public CompletableFuture<String> createNewDomainAsync(String domainName) {
        ClusterConfig clusterConfig = ClusterConfig.builder()
            .dedicatedMasterEnabled(true)
            .dedicatedMasterCount(3)
            .dedicatedMasterType("t2.small.search")
            .instanceType("t2.small.search")
            .instanceCount(5)
            .build();

        EBSOptions ebsOptions = EBSOptions.builder()
            .ebsEnabled(true)
            .volumeSize(10)
            .volumeType(VolumeType.GP2)
            .build();

        NodeToNodeEncryptionOptions encryptionOptions = NodeToNodeEncryptionOptions.builder()
            .enabled(true)
            .build();

        CreateDomainRequest domainRequest = CreateDomainRequest.builder()
            .domainName(domainName)
            .engineVersion("OpenSearch_1.0")
            .clusterConfig(clusterConfig)
            .ebsOptions(ebsOptions)
            .nodeToNodeEncryptionOptions(encryptionOptions)
            .build();
        logger.info("Sending domain creation request...");
        return getAsyncClient().createDomain(domainRequest)
                .handle( (createResponse, throwable) -> {
                    if (createResponse != null) {
                        logger.info("Domain status is {}", createResponse.domainStatus().changeProgressDetails().configChangeStatusAsString());
                        logger.info("Domain Id is {}", createResponse.domainStatus().domainId());
                        return createResponse.domainStatus().domainId();
                    }
                    throw new RuntimeException("Failed to create domain", throwable);
                });
    }

    /**
     * Deletes a specific domain asynchronously.
     * @param domainName the name of the domain to be deleted
     * @return a {@link CompletableFuture} that completes when the domain has been deleted
     * or throws a {@link RuntimeException} if the deletion fails
     */
    public CompletableFuture<DeleteDomainResponse> deleteSpecificDomainAsync(String domainName) {
        DeleteDomainRequest domainRequest = DeleteDomainRequest.builder()
            .domainName(domainName)
            .build();

        // Delete domain asynchronously
        return getAsyncClient().deleteDomain(domainRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to delete the domain: " + domainName, exception);
                }
            });
    }

    /**
     * Describes the specified domain asynchronously.
     *
     * @param domainName the name of the domain to describe
     * @return a {@link CompletableFuture} that completes with the ARN of the domain
     * @throws RuntimeException if the domain description fails
     */
    public CompletableFuture<String> describeDomainAsync(String domainName) {
        DescribeDomainRequest request = DescribeDomainRequest.builder()
            .domainName(domainName)
            .build();

        return getAsyncClient().describeDomain(request)
            .handle((response, exception) -> {  // Handle both response and exception
                if (exception != null) {
                    throw new RuntimeException("Failed to describe domain", exception);
                }
                DomainStatus domainStatus = response.domainStatus();
                String endpoint = domainStatus.endpoint();
                String arn = domainStatus.arn();
                String engineVersion = domainStatus.engineVersion();
                logger.info("Domain endpoint is: " + endpoint);
                logger.info("ARN: " + arn);
                System.out.println("Engine version: " + engineVersion);

                return arn;  // Return ARN when successful
            });
    }

    /**
     * Asynchronously lists all the domains in the current AWS account.
     * @return a {@link CompletableFuture} that, when completed, contains a list of {@link DomainInfo} objects representing
     *         the domains in the account.
     * @throws RuntimeException if there was a failure while listing the domains.
     */
    public CompletableFuture<List<DomainInfo>> listAllDomainsAsync() {
        ListDomainNamesRequest namesRequest = ListDomainNamesRequest.builder()
            .engineType("OpenSearch")
            .build();

        return getAsyncClient().listDomainNames(namesRequest)
            .handle((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to list all domains", exception);
                }
                return response.domainNames();  // Return the list of domain names on success
            });
    }

    /**
     * Updates the configuration of a specific domain asynchronously.
     * @param domainName the name of the domain to update
     * @return a {@link CompletableFuture} that represents the asynchronous operation of updating the domain configuration
     */
    public CompletableFuture<UpdateDomainConfigResponse> updateSpecificDomainAsync(String domainName) {
        ClusterConfig clusterConfig = ClusterConfig.builder()
            .instanceCount(3)
            .build();

        UpdateDomainConfigRequest updateDomainConfigRequest = UpdateDomainConfigRequest.builder()
            .domainName(domainName)
            .clusterConfig(clusterConfig)
            .build();

        return getAsyncClient().updateDomainConfig(updateDomainConfigRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to update the domain configuration", exception);
                }
                // Handle success if needed (e.g., logging or additional actions)
            });
    }

    /**
     * Asynchronously checks the progress of a domain change operation in Amazon OpenSearch Service.
     * @param domainName the name of the OpenSearch domain to check the progress for
     * @return a {@link CompletableFuture} that completes when the domain change operation is completed
     */
    public CompletableFuture<Void> domainChangeProgressAsync(String domainName) {
        DescribeDomainChangeProgressRequest request = DescribeDomainChangeProgressRequest.builder()
            .domainName(domainName)
            .build();

        return CompletableFuture.runAsync(() -> {
            boolean isCompleted = false;
            long startTime = System.currentTimeMillis();

            while (!isCompleted) {
                try {
                    // Handle the async client call using `join` to block synchronously for the result
                    DescribeDomainChangeProgressResponse response = getAsyncClient()
                        .describeDomainChangeProgress(request)
                        .handle((resp, ex) -> {
                            if (ex != null) {
                                throw new RuntimeException("Failed to check domain progress", ex);
                            }
                            return resp;
                        }).join();

                    String state = response.changeProgressStatus().statusAsString();  // Get the status as string

                    if ("COMPLETED".equals(state)) {
                        logger.info("\nOpenSearch domain status: Completed");
                        isCompleted = true;
                    } else {
                        for (int i = 0; i < 5; i++) {
                            long elapsedTimeInSeconds = (System.currentTimeMillis() - startTime) / 1000;
                            String formattedTime = String.format("%02d:%02d", elapsedTimeInSeconds / 60, elapsedTimeInSeconds % 60);
                            System.out.print("\rOpenSearch domain state: " + state + " | Time Elapsed: " + formattedTime + " ");
                            System.out.flush();
                            Thread.sleep(1_000);
                        }
                    }
                } catch (InterruptedException e) {
                    Thread.currentThread().interrupt();
                    throw new RuntimeException("Thread was interrupted", e);
                }
            }
        });
    }

    /**
     * Asynchronously adds tags to an Amazon OpenSearch Service domain.
     * @param domainARN the Amazon Resource Name (ARN) of the Amazon OpenSearch Service domain to add tags to
     * @return a {@link CompletableFuture} that completes when the tags have been successfully added to the domain,
     * or throws a {@link RuntimeException} if the operation fails
     */
    public CompletableFuture<AddTagsResponse> addDomainTagsAsync(String domainARN) {
        Tag tag1 = Tag.builder()
            .key("service")
            .value("OpenSearch")
            .build();

        Tag tag2 = Tag.builder()
            .key("instances")
            .value("m3.2xlarge")
            .build();

        List<Tag> tagList = new ArrayList<>();
        tagList.add(tag1);
        tagList.add(tag2);

        AddTagsRequest addTagsRequest = AddTagsRequest.builder()
            .arn(domainARN)
            .tagList(tagList)
            .build();

        return getAsyncClient().addTags(addTagsRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to add tags to the domain: " + domainARN, exception);
                } else {
                    logger.info("Added Tags");
                }
            });
    }


    /**
     * Asynchronously lists the tags associated with the specified Amazon Resource Name (ARN).
     * @param arn the Amazon Resource Name (ARN) of the resource for which to list the tags
     * @return a {@link CompletableFuture} that, when completed, will contain a list of the tags associated with the
     * specified ARN
     * @throws RuntimeException if there is an error listing the tags
     */
    public CompletableFuture<ListTagsResponse> listDomainTagsAsync(String arn) {
        ListTagsRequest tagsRequest = ListTagsRequest.builder()
            .arn(arn)
            .build();

        return getAsyncClient().listTags(tagsRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to list domain tags", exception);
                }

                List<Tag> tagList = response.tagList();
                for (Tag tag : tagList) {
                    logger.info("Tag key is " + tag.key());
                    logger.info("Tag value is " + tag.value());
                }
            });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AddTags](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/AddTags)
  + [CreateDomain](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/CreateDomain)
  + [DeleteDomain](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/DeleteDomain)
  + [DescribeDomain](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/DescribeDomain)
  + [DescribeDomainChangeProgress](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/DescribeDomainChangeProgress)
  + [ListDomainNames](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/ListDomainNames)
  + [ListTags](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/ListTags)
  + [UpdateDomainConfig](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/UpdateDomainConfig)

## Tindakan
<a name="actions"></a>

### `AddTags`
<a name="opensearch_AddTags_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddTags`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
    /**
     * Asynchronously adds tags to an Amazon OpenSearch Service domain.
     * @param domainARN the Amazon Resource Name (ARN) of the Amazon OpenSearch Service domain to add tags to
     * @return a {@link CompletableFuture} that completes when the tags have been successfully added to the domain,
     * or throws a {@link RuntimeException} if the operation fails
     */
    public CompletableFuture<AddTagsResponse> addDomainTagsAsync(String domainARN) {
        Tag tag1 = Tag.builder()
            .key("service")
            .value("OpenSearch")
            .build();

        Tag tag2 = Tag.builder()
            .key("instances")
            .value("m3.2xlarge")
            .build();

        List<Tag> tagList = new ArrayList<>();
        tagList.add(tag1);
        tagList.add(tag2);

        AddTagsRequest addTagsRequest = AddTagsRequest.builder()
            .arn(domainARN)
            .tagList(tagList)
            .build();

        return getAsyncClient().addTags(addTagsRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to add tags to the domain: " + domainARN, exception);
                } else {
                    logger.info("Added Tags");
                }
            });
    }
```
+  Untuk detail API, lihat [AddTags](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/AddTags)di *Referensi AWS SDK for Java 2.x API*. 

### `ChangeProgress`
<a name="opensearch_ChangeProgress_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ChangeProgress`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
    /**
     * Asynchronously checks the progress of a domain change operation in Amazon OpenSearch Service.
     * @param domainName the name of the OpenSearch domain to check the progress for
     * @return a {@link CompletableFuture} that completes when the domain change operation is completed
     */
    public CompletableFuture<Void> domainChangeProgressAsync(String domainName) {
        DescribeDomainChangeProgressRequest request = DescribeDomainChangeProgressRequest.builder()
            .domainName(domainName)
            .build();

        return CompletableFuture.runAsync(() -> {
            boolean isCompleted = false;
            long startTime = System.currentTimeMillis();

            while (!isCompleted) {
                try {
                    // Handle the async client call using `join` to block synchronously for the result
                    DescribeDomainChangeProgressResponse response = getAsyncClient()
                        .describeDomainChangeProgress(request)
                        .handle((resp, ex) -> {
                            if (ex != null) {
                                throw new RuntimeException("Failed to check domain progress", ex);
                            }
                            return resp;
                        }).join();

                    String state = response.changeProgressStatus().statusAsString();  // Get the status as string

                    if ("COMPLETED".equals(state)) {
                        logger.info("\nOpenSearch domain status: Completed");
                        isCompleted = true;
                    } else {
                        for (int i = 0; i < 5; i++) {
                            long elapsedTimeInSeconds = (System.currentTimeMillis() - startTime) / 1000;
                            String formattedTime = String.format("%02d:%02d", elapsedTimeInSeconds / 60, elapsedTimeInSeconds % 60);
                            System.out.print("\rOpenSearch domain state: " + state + " | Time Elapsed: " + formattedTime + " ");
                            System.out.flush();
                            Thread.sleep(1_000);
                        }
                    }
                } catch (InterruptedException e) {
                    Thread.currentThread().interrupt();
                    throw new RuntimeException("Thread was interrupted", e);
                }
            }
        });
    }
```
+  Untuk detail API, lihat [ChangeProgress](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/ChangeProgress)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDomain`
<a name="opensearch_CreateDomain_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDomain`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
    /**
     * Creates a new OpenSearch domain asynchronously.
     * @param domainName the name of the new OpenSearch domain to create
     * @return a {@link CompletableFuture} containing the domain ID of the newly created domain
     */
    public CompletableFuture<String> createNewDomainAsync(String domainName) {
        ClusterConfig clusterConfig = ClusterConfig.builder()
            .dedicatedMasterEnabled(true)
            .dedicatedMasterCount(3)
            .dedicatedMasterType("t2.small.search")
            .instanceType("t2.small.search")
            .instanceCount(5)
            .build();

        EBSOptions ebsOptions = EBSOptions.builder()
            .ebsEnabled(true)
            .volumeSize(10)
            .volumeType(VolumeType.GP2)
            .build();

        NodeToNodeEncryptionOptions encryptionOptions = NodeToNodeEncryptionOptions.builder()
            .enabled(true)
            .build();

        CreateDomainRequest domainRequest = CreateDomainRequest.builder()
            .domainName(domainName)
            .engineVersion("OpenSearch_1.0")
            .clusterConfig(clusterConfig)
            .ebsOptions(ebsOptions)
            .nodeToNodeEncryptionOptions(encryptionOptions)
            .build();
        logger.info("Sending domain creation request...");
        return getAsyncClient().createDomain(domainRequest)
                .handle( (createResponse, throwable) -> {
                    if (createResponse != null) {
                        logger.info("Domain status is {}", createResponse.domainStatus().changeProgressDetails().configChangeStatusAsString());
                        logger.info("Domain Id is {}", createResponse.domainStatus().domainId());
                        return createResponse.domainStatus().domainId();
                    }
                    throw new RuntimeException("Failed to create domain", throwable);
                });
    }
```
+  Untuk detail API, lihat [CreateDomain](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/CreateDomain)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDomain`
<a name="opensearch_DeleteDomain_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDomain`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
    /**
     * Deletes a specific domain asynchronously.
     * @param domainName the name of the domain to be deleted
     * @return a {@link CompletableFuture} that completes when the domain has been deleted
     * or throws a {@link RuntimeException} if the deletion fails
     */
    public CompletableFuture<DeleteDomainResponse> deleteSpecificDomainAsync(String domainName) {
        DeleteDomainRequest domainRequest = DeleteDomainRequest.builder()
            .domainName(domainName)
            .build();

        // Delete domain asynchronously
        return getAsyncClient().deleteDomain(domainRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to delete the domain: " + domainName, exception);
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteDomain](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/DeleteDomain)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDomain`
<a name="opensearch_DescribeDomain_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDomain`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
    /**
     * Describes the specified domain asynchronously.
     *
     * @param domainName the name of the domain to describe
     * @return a {@link CompletableFuture} that completes with the ARN of the domain
     * @throws RuntimeException if the domain description fails
     */
    public CompletableFuture<String> describeDomainAsync(String domainName) {
        DescribeDomainRequest request = DescribeDomainRequest.builder()
            .domainName(domainName)
            .build();

        return getAsyncClient().describeDomain(request)
            .handle((response, exception) -> {  // Handle both response and exception
                if (exception != null) {
                    throw new RuntimeException("Failed to describe domain", exception);
                }
                DomainStatus domainStatus = response.domainStatus();
                String endpoint = domainStatus.endpoint();
                String arn = domainStatus.arn();
                String engineVersion = domainStatus.engineVersion();
                logger.info("Domain endpoint is: " + endpoint);
                logger.info("ARN: " + arn);
                System.out.println("Engine version: " + engineVersion);

                return arn;  // Return ARN when successful
            });
    }
```
+  Untuk detail API, lihat [DescribeDomain](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/DescribeDomain)di *Referensi AWS SDK for Java 2.x API*. 

### `ListDomainNames`
<a name="opensearch_ListDomainNames_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDomainNames`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
    /**
     * Asynchronously lists all the domains in the current AWS account.
     * @return a {@link CompletableFuture} that, when completed, contains a list of {@link DomainInfo} objects representing
     *         the domains in the account.
     * @throws RuntimeException if there was a failure while listing the domains.
     */
    public CompletableFuture<List<DomainInfo>> listAllDomainsAsync() {
        ListDomainNamesRequest namesRequest = ListDomainNamesRequest.builder()
            .engineType("OpenSearch")
            .build();

        return getAsyncClient().listDomainNames(namesRequest)
            .handle((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to list all domains", exception);
                }
                return response.domainNames();  // Return the list of domain names on success
            });
    }
```
+  Untuk detail API, lihat [ListDomainNames](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/ListDomainNames)di *Referensi AWS SDK for Java 2.x API*. 

### `ListTags`
<a name="opensearch_ListTags_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTags`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
    /**
     * Asynchronously adds tags to an Amazon OpenSearch Service domain.
     * @param domainARN the Amazon Resource Name (ARN) of the Amazon OpenSearch Service domain to add tags to
     * @return a {@link CompletableFuture} that completes when the tags have been successfully added to the domain,
     * or throws a {@link RuntimeException} if the operation fails
     */
    public CompletableFuture<AddTagsResponse> addDomainTagsAsync(String domainARN) {
        Tag tag1 = Tag.builder()
            .key("service")
            .value("OpenSearch")
            .build();

        Tag tag2 = Tag.builder()
            .key("instances")
            .value("m3.2xlarge")
            .build();

        List<Tag> tagList = new ArrayList<>();
        tagList.add(tag1);
        tagList.add(tag2);

        AddTagsRequest addTagsRequest = AddTagsRequest.builder()
            .arn(domainARN)
            .tagList(tagList)
            .build();

        return getAsyncClient().addTags(addTagsRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to add tags to the domain: " + domainARN, exception);
                } else {
                    logger.info("Added Tags");
                }
            });
    }
```
+  Untuk detail API, lihat [ListTags](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/ListTags)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateDomainConfig`
<a name="opensearch_UpdateDomainConfig_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateDomainConfig`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/opensearch#code-examples). 

```
    /**
     * Updates the configuration of a specific domain asynchronously.
     * @param domainName the name of the domain to update
     * @return a {@link CompletableFuture} that represents the asynchronous operation of updating the domain configuration
     */
    public CompletableFuture<UpdateDomainConfigResponse> updateSpecificDomainAsync(String domainName) {
        ClusterConfig clusterConfig = ClusterConfig.builder()
            .instanceCount(3)
            .build();

        UpdateDomainConfigRequest updateDomainConfigRequest = UpdateDomainConfigRequest.builder()
            .domainName(domainName)
            .clusterConfig(clusterConfig)
            .build();

        return getAsyncClient().updateDomainConfig(updateDomainConfigRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Failed to update the domain configuration", exception);
                }
                // Handle success if needed (e.g., logging or additional actions)
            });
    }
```
+  Untuk detail API, lihat [UpdateDomainConfig](https://docs.aws.amazon.com/goto/SdkForJavaV2/es-2021-01-01/UpdateDomainConfig)di *Referensi AWS SDK for Java 2.x API*. 

# EventBridge contoh menggunakan SDK for Java 2.x
<a name="java_2_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with EventBridge.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo EventBridge
<a name="eventbridge_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan EventBridge.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 */
public class HelloEventBridge {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        EventBridgeClient eventBrClient = EventBridgeClient.builder()
                .region(region)
                .build();

        listBuses(eventBrClient);
        eventBrClient.close();
    }

    public static void listBuses(EventBridgeClient eventBrClient) {
        try {
            ListEventBusesRequest busesRequest = ListEventBusesRequest.builder()
                    .limit(10)
                    .build();

            ListEventBusesResponse response = eventBrClient.listEventBuses(busesRequest);
            List<EventBus> buses = response.eventBuses();
            for (EventBus bus : buses) {
                System.out.println("The name of the event bus is: " + bus.name());
                System.out.println("The ARN of the event bus is: " + bus.arn());
            }

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListEventBuses](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/ListEventBuses)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="eventbridge_Scenario_GettingStarted_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat aturan dan tambahkan target ke dalamnya.
+ Aktifkan dan nonaktifkan aturan.
+ Daftar dan perbarui aturan dan target.
+ Kirim acara, lalu bersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This Java code example performs the following tasks:
 *
 * This Java V2 example performs the following tasks with Amazon EventBridge:
 *
 * 1. Creates an AWS Identity and Access Management (IAM) role to use with
 * Amazon EventBridge.
 * 2. Amazon Simple Storage Service (Amazon S3) bucket with EventBridge events
 * enabled.
 * 3. Creates a rule that triggers when an object is uploaded to Amazon S3.
 * 4. Lists rules on the event bus.
 * 5. Creates a new Amazon Simple Notification Service (Amazon SNS) topic and
 * lets the user subscribe to it.
 * 6. Adds a target to the rule that sends an email to the specified topic.
 * 7. Creates an EventBridge event that sends an email when an Amazon S3 object
 * is created.
 * 8. Lists Targets.
 * 9. Lists the rules for the same target.
 * 10. Triggers the rule by uploading a file to the Amazon S3 bucket.
 * 11. Disables a specific rule.
 * 12. Checks and print the state of the rule.
 * 13. Adds a transform to the rule to change the text of the email.
 * 14. Enables a specific rule.
 * 15. Triggers the updated rule by uploading a file to the Amazon S3 bucket.
 * 16. Updates the rule to be a custom rule pattern.
 * 17. Sending an event to trigger the rule.
 * 18. Cleans up resources.
 *
 */
public class EventbridgeMVP {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws InterruptedException, IOException {
        final String usage = """

                Usage:
                    <roleName> <bucketName> <topicName> <eventRuleName>

                Where:
                    roleName - The name of the role to create.
                    bucketName - The Amazon Simple Storage Service (Amazon S3) bucket name to create.
                    topicName - The name of the Amazon Simple Notification Service (Amazon SNS) topic to create.
                    eventRuleName - The Amazon EventBridge rule name to create.
                """;

        if (args.length != 5) {
            System.out.println(usage);
            System.exit(1);
        }

        String polJSON = "{" +
                "\"Version\": \"2012-10-17\"," +
                "\"Statement\": [{" +
                "\"Effect\": \"Allow\"," +
                "\"Principal\": {" +
                "\"Service\": \"events.amazonaws.com\"" +
                "}," +
                "\"Action\": \"sts:AssumeRole\"" +
                "}]" +
                "}";

        Scanner sc = new Scanner(System.in);
        String roleName = args[0];
        String bucketName = args[1];
        String topicName = args[2];
        String eventRuleName = args[3];

        Region region = Region.US_EAST_1;
        EventBridgeClient eventBrClient = EventBridgeClient.builder()
                .region(region)
                .build();

        S3Client s3Client = S3Client.builder()
                .region(region)
                .build();

        Region regionGl = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(regionGl)
                .build();

        SnsClient snsClient = SnsClient.builder()
                .region(region)
                .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon EventBridge example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out
                .println("1. Create an AWS Identity and Access Management (IAM) role to use with Amazon EventBridge.");
        String roleArn = createIAMRole(iam, roleName, polJSON);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Create an S3 bucket with EventBridge events enabled.");
        if (checkBucket(s3Client, bucketName)) {
            System.out.println("Bucket " + bucketName + " already exists. Ending this scenario.");
            System.exit(1);
        }

        createBucket(s3Client, bucketName);
        Thread.sleep(3000);
        setBucketNotification(s3Client, bucketName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Create a rule that triggers when an object is uploaded to Amazon S3.");
        Thread.sleep(10000);
        addEventRule(eventBrClient, roleArn, bucketName, eventRuleName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. List rules on the event bus.");
        listRules(eventBrClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Create a new SNS topic for testing and let the user subscribe to the topic.");
        String topicArn = createSnsTopic(snsClient, topicName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Add a target to the rule that sends an email to the specified topic.");
        System.out.println("Enter your email to subscribe to the Amazon SNS topic:");
        String email = sc.nextLine();
        subEmail(snsClient, topicArn, email);
        System.out.println(
                "Use the link in the email you received to confirm your subscription. Then, press Enter to continue.");
        sc.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Create an EventBridge event that sends an email when an Amazon S3 object is created.");
        addSnsEventRule(eventBrClient, eventRuleName, topicArn, topicName, eventRuleName, bucketName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(" 8. List Targets.");
        listTargets(eventBrClient, eventRuleName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(" 9. List the rules for the same target.");
        listTargetRules(eventBrClient, topicArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(" 10. Trigger the rule by uploading a file to the S3 bucket.");
        System.out.println("Press Enter to continue.");
        sc.nextLine();
        uploadTextFiletoS3(s3Client, bucketName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("11. Disable a specific rule.");
        changeRuleState(eventBrClient, eventRuleName, false);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("12. Check and print the state of the rule.");
        checkRule(eventBrClient, eventRuleName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("13. Add a transform to the rule to change the text of the email.");
        updateSnsEventRule(eventBrClient, topicArn, eventRuleName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("14. Enable a specific rule.");
        changeRuleState(eventBrClient, eventRuleName, true);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(" 15. Trigger the updated rule by uploading a file to the S3 bucket.");
        System.out.println("Press Enter to continue.");
        sc.nextLine();
        uploadTextFiletoS3(s3Client, bucketName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(" 16. Update the rule to be a custom rule pattern.");
        updateToCustomRule(eventBrClient, eventRuleName);
        System.out.println("Updated event rule " + eventRuleName + " to use a custom pattern.");
        updateCustomRuleTargetWithTransform(eventBrClient, topicArn, eventRuleName);
        System.out.println("Updated event target " + topicArn + ".");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("17. Sending an event to trigger the rule. This will trigger a subscription email.");
        triggerCustomRule(eventBrClient, email);
        System.out.println("Events have been sent. Press Enter to continue.");
        sc.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("18. Clean up resources.");
        System.out.println("Do you want to clean up resources (y/n)");
        String ans = sc.nextLine();
        if (ans.compareTo("y") == 0) {
            cleanupResources(eventBrClient, snsClient, s3Client, iam, topicArn, eventRuleName, bucketName, roleName);
        } else {
            System.out.println("The resources will not be cleaned up. ");
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The Amazon EventBridge example scenario has successfully completed.");
        System.out.println(DASHES);
    }

    public static void cleanupResources(EventBridgeClient eventBrClient, SnsClient snsClient, S3Client s3Client,
            IamClient iam, String topicArn, String eventRuleName, String bucketName, String roleName) {
        System.out.println("Removing all targets from the event rule.");
        deleteTargetsFromRule(eventBrClient, eventRuleName);
        deleteRuleByName(eventBrClient, eventRuleName);
        deleteSNSTopic(snsClient, topicArn);
        deleteS3Bucket(s3Client, bucketName);
        deleteRole(iam, roleName);
    }

    public static void deleteRole(IamClient iam, String roleName) {
        String policyArn = "arn:aws:iam::aws:policy/AmazonEventBridgeFullAccess";
        DetachRolePolicyRequest policyRequest = DetachRolePolicyRequest.builder()
                .policyArn(policyArn)
                .roleName(roleName)
                .build();

        iam.detachRolePolicy(policyRequest);
        System.out.println("Successfully detached policy " + policyArn + " from role " + roleName);

        // Delete the role.
        DeleteRoleRequest roleRequest = DeleteRoleRequest.builder()
                .roleName(roleName)
                .build();

        iam.deleteRole(roleRequest);
        System.out.println("*** Successfully deleted " + roleName);
    }

    public static void deleteS3Bucket(S3Client s3Client, String bucketName) {
        // Remove all the objects from the S3 bucket.
        ListObjectsRequest listObjects = ListObjectsRequest.builder()
                .bucket(bucketName)
                .build();

        ListObjectsResponse res = s3Client.listObjects(listObjects);
        List<S3Object> objects = res.contents();
        ArrayList<ObjectIdentifier> toDelete = new ArrayList<>();

        for (S3Object myValue : objects) {
            toDelete.add(ObjectIdentifier.builder()
                    .key(myValue.key())
                    .build());
        }

        DeleteObjectsRequest dor = DeleteObjectsRequest.builder()
                .bucket(bucketName)
                .delete(Delete.builder()
                        .objects(toDelete).build())
                .build();

        s3Client.deleteObjects(dor);

        // Delete the S3 bucket.
        DeleteBucketRequest deleteBucketRequest = DeleteBucketRequest.builder()
                .bucket(bucketName)
                .build();

        s3Client.deleteBucket(deleteBucketRequest);
        System.out.println("You have deleted the bucket and the objects");
    }

    // Delete the SNS topic.
    public static void deleteSNSTopic(SnsClient snsClient, String topicArn) {
        try {
            DeleteTopicRequest request = DeleteTopicRequest.builder()
                    .topicArn(topicArn)
                    .build();

            DeleteTopicResponse result = snsClient.deleteTopic(request);
            System.out.println("\n\nStatus was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteRuleByName(EventBridgeClient eventBrClient, String ruleName) {
        DeleteRuleRequest ruleRequest = DeleteRuleRequest.builder()
                .name(ruleName)
                .build();

        eventBrClient.deleteRule(ruleRequest);
        System.out.println("Successfully deleted the rule");
    }

    public static void deleteTargetsFromRule(EventBridgeClient eventBrClient, String eventRuleName) {
        // First, get all targets that will be deleted.
        ListTargetsByRuleRequest request = ListTargetsByRuleRequest.builder()
                .rule(eventRuleName)
                .build();

        ListTargetsByRuleResponse response = eventBrClient.listTargetsByRule(request);
        List<Target> allTargets = response.targets();

        // Get all targets and delete them.
        for (Target myTarget : allTargets) {
            RemoveTargetsRequest removeTargetsRequest = RemoveTargetsRequest.builder()
                    .rule(eventRuleName)
                    .ids(myTarget.id())
                    .build();

            eventBrClient.removeTargets(removeTargetsRequest);
            System.out.println("Successfully removed the target");
        }
    }

    public static void triggerCustomRule(EventBridgeClient eventBrClient, String email) {
        String json = "{" +
                "\"UserEmail\": \"" + email + "\"," +
                "\"Message\": \"This event was generated by example code.\"," +
                "\"UtcTime\": \"Now.\"" +
                "}";

        PutEventsRequestEntry entry = PutEventsRequestEntry.builder()
                .source("ExampleSource")
                .detail(json)
                .detailType("ExampleType")
                .build();

        PutEventsRequest eventsRequest = PutEventsRequest.builder()
                .entries(entry)
                .build();

        eventBrClient.putEvents(eventsRequest);
    }

    public static void updateCustomRuleTargetWithTransform(EventBridgeClient eventBrClient, String topicArn,
            String ruleName) {
        String targetId = java.util.UUID.randomUUID().toString();
        InputTransformer inputTransformer = InputTransformer.builder()
                .inputTemplate("\"Notification: sample event was received.\"")
                .build();

        Target target = Target.builder()
                .id(targetId)
                .arn(topicArn)
                .inputTransformer(inputTransformer)
                .build();

        try {
            PutTargetsRequest targetsRequest = PutTargetsRequest.builder()
                    .rule(ruleName)
                    .targets(target)
                    .eventBusName(null)
                    .build();

            eventBrClient.putTargets(targetsRequest);
        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void updateToCustomRule(EventBridgeClient eventBrClient, String ruleName) {
        String customEventsPattern = "{" +
                "\"source\": [\"ExampleSource\"]," +
                "\"detail-type\": [\"ExampleType\"]" +
                "}";

        PutRuleRequest request = PutRuleRequest.builder()
                .name(ruleName)
                .description("Custom test rule")
                .eventPattern(customEventsPattern)
                .build();

        eventBrClient.putRule(request);
    }

    // Update an Amazon S3 object created rule with a transform on the target.
    public static void updateSnsEventRule(EventBridgeClient eventBrClient, String topicArn, String ruleName) {
        String targetId = java.util.UUID.randomUUID().toString();
        Map<String, String> myMap = new HashMap<>();
        myMap.put("bucket", "$.detail.bucket.name");
        myMap.put("time", "$.time");

        InputTransformer inputTransformer = InputTransformer.builder()
                .inputTemplate("\"Notification: an object was uploaded to bucket <bucket> at <time>.\"")
                .inputPathsMap(myMap)
                .build();

        Target target = Target.builder()
                .id(targetId)
                .arn(topicArn)
                .inputTransformer(inputTransformer)
                .build();

        try {
            PutTargetsRequest targetsRequest = PutTargetsRequest.builder()
                    .rule(ruleName)
                    .targets(target)
                    .eventBusName(null)
                    .build();

            eventBrClient.putTargets(targetsRequest);

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void checkRule(EventBridgeClient eventBrClient, String eventRuleName) {
        try {
            DescribeRuleRequest ruleRequest = DescribeRuleRequest.builder()
                    .name(eventRuleName)
                    .build();

            DescribeRuleResponse response = eventBrClient.describeRule(ruleRequest);
            System.out.println("The state of the rule is " + response.stateAsString());

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void changeRuleState(EventBridgeClient eventBrClient, String eventRuleName, Boolean isEnabled) {
        try {
            if (!isEnabled) {
                System.out.println("Disabling the rule: " + eventRuleName);
                DisableRuleRequest ruleRequest = DisableRuleRequest.builder()
                        .name(eventRuleName)
                        .build();

                eventBrClient.disableRule(ruleRequest);
            } else {
                System.out.println("Enabling the rule: " + eventRuleName);
                EnableRuleRequest ruleRequest = EnableRuleRequest.builder()
                        .name(eventRuleName)
                        .build();
                eventBrClient.enableRule(ruleRequest);
            }

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Create and upload a file to an S3 bucket to trigger an event.
    public static void uploadTextFiletoS3(S3Client s3Client, String bucketName) throws IOException {
        // Create a unique file name.
        String fileSuffix = new SimpleDateFormat("yyyyMMddHHmmss").format(new Date());
        String fileName = "TextFile" + fileSuffix + ".txt";

        File myFile = new File(fileName);
        FileWriter fw = new FileWriter(myFile.getAbsoluteFile());
        BufferedWriter bw = new BufferedWriter(fw);
        bw.write("This is a sample file for testing uploads.");
        bw.close();

        try {
            PutObjectRequest putOb = PutObjectRequest.builder()
                    .bucket(bucketName)
                    .key(fileName)
                    .build();

            s3Client.putObject(putOb, RequestBody.fromFile(myFile));

        } catch (S3Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void listTargetRules(EventBridgeClient eventBrClient, String topicArn) {
        ListRuleNamesByTargetRequest ruleNamesByTargetRequest = ListRuleNamesByTargetRequest.builder()
                .targetArn(topicArn)
                .build();

        ListRuleNamesByTargetResponse response = eventBrClient.listRuleNamesByTarget(ruleNamesByTargetRequest);
        List<String> rules = response.ruleNames();
        for (String rule : rules) {
            System.out.println("The rule name is " + rule);
        }
    }

    public static void listTargets(EventBridgeClient eventBrClient, String ruleName) {
        ListTargetsByRuleRequest ruleRequest = ListTargetsByRuleRequest.builder()
                .rule(ruleName)
                .build();

        ListTargetsByRuleResponse res = eventBrClient.listTargetsByRule(ruleRequest);
        List<Target> targetsList = res.targets();
        for (Target target: targetsList) {
            System.out.println("Target ARN: "+target.arn());
        }
    }

    // Add a rule which triggers an SNS target when a file is uploaded to an S3
    // bucket.
    public static void addSnsEventRule(EventBridgeClient eventBrClient, String ruleName, String topicArn,
            String topicName, String eventRuleName, String bucketName) {
        String targetID = java.util.UUID.randomUUID().toString();
        Target myTarget = Target.builder()
                .id(targetID)
                .arn(topicArn)
                .build();

        List<Target> targets = new ArrayList<>();
        targets.add(myTarget);
        PutTargetsRequest request = PutTargetsRequest.builder()
                .eventBusName(null)
                .targets(targets)
                .rule(ruleName)
                .build();

        eventBrClient.putTargets(request);
        System.out.println("Added event rule " + eventRuleName + " with Amazon SNS target " + topicName + " for bucket "
                + bucketName + ".");
    }

    public static void subEmail(SnsClient snsClient, String topicArn, String email) {
        try {
            SubscribeRequest request = SubscribeRequest.builder()
                    .protocol("email")
                    .endpoint(email)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

            SubscribeResponse result = snsClient.subscribe(request);
            System.out.println("Subscription ARN: " + result.subscriptionArn() + "\n\n Status is "
                    + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void listRules(EventBridgeClient eventBrClient) {
        try {
            ListRulesRequest rulesRequest = ListRulesRequest.builder()
                    .eventBusName("default")
                    .limit(10)
                    .build();

            ListRulesResponse response = eventBrClient.listRules(rulesRequest);
            List<Rule> rules = response.rules();
            for (Rule rule : rules) {
                System.out.println("The rule name is : " + rule.name());
                System.out.println("The rule description is : " + rule.description());
                System.out.println("The rule state is : " + rule.stateAsString());
            }

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static String createSnsTopic(SnsClient snsClient, String topicName) {
        String topicPolicy = "{" +
                "\"Version\": \"2012-10-17\"," +
                "\"Statement\": [{" +
                "\"Sid\": \"EventBridgePublishTopic\"," +
                "\"Effect\": \"Allow\"," +
                "\"Principal\": {" +
                "\"Service\": \"events.amazonaws.com\"" +
                "}," +
                "\"Resource\": \"*\"," +
                "\"Action\": \"sns:Publish\"" +
                "}]" +
                "}";

        Map<String, String> topicAttributes = new HashMap<>();
        topicAttributes.put("Policy", topicPolicy);
        CreateTopicRequest topicRequest = CreateTopicRequest.builder()
                .name(topicName)
                .attributes(topicAttributes)
                .build();

        CreateTopicResponse response = snsClient.createTopic(topicRequest);
        System.out.println("Added topic " + topicName + " for email subscriptions.");
        return response.topicArn();
    }

    // Create a new event rule that triggers when an Amazon S3 object is created in
    // a bucket.
    public static void addEventRule(EventBridgeClient eventBrClient, String roleArn, String bucketName,
            String eventRuleName) {
        String pattern = "{\n" +
                "  \"source\": [\"aws.s3\"],\n" +
                "  \"detail-type\": [\"Object Created\"],\n" +
                "  \"detail\": {\n" +
                "    \"bucket\": {\n" +
                "      \"name\": [\"" + bucketName + "\"]\n" +
                "    }\n" +
                "  }\n" +
                "}";

        try {
            PutRuleRequest ruleRequest = PutRuleRequest.builder()
                    .description("Created by using the AWS SDK for Java v2")
                    .name(eventRuleName)
                    .eventPattern(pattern)
                    .roleArn(roleArn)
                    .build();

            PutRuleResponse ruleResponse = eventBrClient.putRule(ruleRequest);
            System.out.println("The ARN of the new rule is " + ruleResponse.ruleArn());

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Determine if the S3 bucket exists.
    public static Boolean checkBucket(S3Client s3Client, String bucketName) {
        try {
            HeadBucketRequest headBucketRequest = HeadBucketRequest.builder()
                    .bucket(bucketName)
                    .build();

            s3Client.headBucket(headBucketRequest);
            return true;
        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        return false;
    }

    // Set the S3 bucket notification configuration.
    public static void setBucketNotification(S3Client s3Client, String bucketName) {
        try {
            EventBridgeConfiguration eventBridgeConfiguration = EventBridgeConfiguration.builder()
                    .build();

            NotificationConfiguration configuration = NotificationConfiguration.builder()
                    .eventBridgeConfiguration(eventBridgeConfiguration)
                    .build();

            PutBucketNotificationConfigurationRequest configurationRequest = PutBucketNotificationConfigurationRequest
                    .builder()
                    .bucket(bucketName)
                    .notificationConfiguration(configuration)
                    .skipDestinationValidation(true)
                    .build();

            s3Client.putBucketNotificationConfiguration(configurationRequest);
            System.out.println("Added bucket " + bucketName + " with EventBridge events enabled.");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void createBucket(S3Client s3Client, String bucketName) {
        try {
            S3Waiter s3Waiter = s3Client.waiter();
            CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
                    .bucket(bucketName)
                    .build();

            s3Client.createBucket(bucketRequest);
            HeadBucketRequest bucketRequestWait = HeadBucketRequest.builder()
                    .bucket(bucketName)
                    .build();

            // Wait until the bucket is created and print out the response.
            WaiterResponse<HeadBucketResponse> waiterResponse = s3Waiter.waitUntilBucketExists(bucketRequestWait);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println(bucketName + " is ready");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static String createIAMRole(IamClient iam, String rolename, String polJSON) {
        try {
            CreateRoleRequest request = CreateRoleRequest.builder()
                    .roleName(rolename)
                    .assumeRolePolicyDocument(polJSON)
                    .description("Created using the AWS SDK for Java")
                    .build();

            CreateRoleResponse response = iam.createRole(request);
            AttachRolePolicyRequest rolePolicyRequest = AttachRolePolicyRequest.builder()
                    .roleName(rolename)
                    .policyArn("arn:aws:iam::aws:policy/AmazonEventBridgeFullAccess")
                    .build();

            iam.attachRolePolicy(rolePolicyRequest);
            return response.role().arn();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [DeleteRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/DeleteRule)
  + [DescribeRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/DescribeRule)
  + [DisableRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/DisableRule)
  + [EnableRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/EnableRule)
  + [ListRuleNamesByTarget](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/ListRuleNamesByTarget)
  + [ListRules](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/ListRules)
  + [ListTargetsByRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/ListTargetsByRule)
  + [PutEvents](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutEvents)
  + [PutRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutRule)
  + [PutTargets](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutTargets)

## Tindakan
<a name="actions"></a>

### `DeleteRule`
<a name="eventbridge_DeleteRule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 

```
    public static void deleteRuleByName(EventBridgeClient eventBrClient, String ruleName) {
        DeleteRuleRequest ruleRequest = DeleteRuleRequest.builder()
                .name(ruleName)
                .build();

        eventBrClient.deleteRule(ruleRequest);
        System.out.println("Successfully deleted the rule");
    }
```
+  Untuk detail API, lihat [DeleteRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/DeleteRule)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeRule`
<a name="eventbridge_DescribeRule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 

```
    public static void checkRule(EventBridgeClient eventBrClient, String eventRuleName) {
        try {
            DescribeRuleRequest ruleRequest = DescribeRuleRequest.builder()
                    .name(eventRuleName)
                    .build();

            DescribeRuleResponse response = eventBrClient.describeRule(ruleRequest);
            System.out.println("The state of the rule is " + response.stateAsString());

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/DescribeRule)di *Referensi AWS SDK for Java 2.x API*. 

### `DisableRule`
<a name="eventbridge_DisableRule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableRule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 
Nonaktifkan aturan dengan menggunakan nama aturannya.  

```
    public static void changeRuleState(EventBridgeClient eventBrClient, String eventRuleName, Boolean isEnabled) {
        try {
            if (!isEnabled) {
                System.out.println("Disabling the rule: " + eventRuleName);
                DisableRuleRequest ruleRequest = DisableRuleRequest.builder()
                        .name(eventRuleName)
                        .build();

                eventBrClient.disableRule(ruleRequest);
            } else {
                System.out.println("Enabling the rule: " + eventRuleName);
                EnableRuleRequest ruleRequest = EnableRuleRequest.builder()
                        .name(eventRuleName)
                        .build();
                eventBrClient.enableRule(ruleRequest);
            }

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DisableRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/DisableRule)di *Referensi AWS SDK for Java 2.x API*. 

### `EnableRule`
<a name="eventbridge_EnableRule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableRule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 
Aktifkan aturan dengan menggunakan nama aturannya.  

```
    public static void changeRuleState(EventBridgeClient eventBrClient, String eventRuleName, Boolean isEnabled) {
        try {
            if (!isEnabled) {
                System.out.println("Disabling the rule: " + eventRuleName);
                DisableRuleRequest ruleRequest = DisableRuleRequest.builder()
                        .name(eventRuleName)
                        .build();

                eventBrClient.disableRule(ruleRequest);
            } else {
                System.out.println("Enabling the rule: " + eventRuleName);
                EnableRuleRequest ruleRequest = EnableRuleRequest.builder()
                        .name(eventRuleName)
                        .build();
                eventBrClient.enableRule(ruleRequest);
            }

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [EnableRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/EnableRule)di *Referensi AWS SDK for Java 2.x API*. 

### `ListRuleNamesByTarget`
<a name="eventbridge_ListRuleNamesByTarget_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRuleNamesByTarget`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 
Buat daftar semua nama aturan dengan menggunakan target.  

```
    public static void listTargetRules(EventBridgeClient eventBrClient, String topicArn) {
        ListRuleNamesByTargetRequest ruleNamesByTargetRequest = ListRuleNamesByTargetRequest.builder()
                .targetArn(topicArn)
                .build();

        ListRuleNamesByTargetResponse response = eventBrClient.listRuleNamesByTarget(ruleNamesByTargetRequest);
        List<String> rules = response.ruleNames();
        for (String rule : rules) {
            System.out.println("The rule name is " + rule);
        }
    }
```
+  Untuk detail API, lihat [ListRuleNamesByTarget](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/ListRuleNamesByTarget)di *Referensi AWS SDK for Java 2.x API*. 

### `ListRules`
<a name="eventbridge_ListRules_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRules`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 
Aktifkan aturan dengan menggunakan nama aturannya.  

```
    public static void listRules(EventBridgeClient eventBrClient) {
        try {
            ListRulesRequest rulesRequest = ListRulesRequest.builder()
                    .eventBusName("default")
                    .limit(10)
                    .build();

            ListRulesResponse response = eventBrClient.listRules(rulesRequest);
            List<Rule> rules = response.rules();
            for (Rule rule : rules) {
                System.out.println("The rule name is : " + rule.name());
                System.out.println("The rule description is : " + rule.description());
                System.out.println("The rule state is : " + rule.stateAsString());
            }

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListRules](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/ListRules)di *Referensi AWS SDK for Java 2.x API*. 

### `ListTargetsByRule`
<a name="eventbridge_ListTargetsByRule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTargetsByRule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 
Buat daftar semua target untuk aturan dengan menggunakan nama aturan.  

```
    public static void listTargets(EventBridgeClient eventBrClient, String ruleName) {
        ListTargetsByRuleRequest ruleRequest = ListTargetsByRuleRequest.builder()
                .rule(ruleName)
                .build();

        ListTargetsByRuleResponse res = eventBrClient.listTargetsByRule(ruleRequest);
        List<Target> targetsList = res.targets();
        for (Target target: targetsList) {
            System.out.println("Target ARN: "+target.arn());
        }
    }
```
+  Untuk detail API, lihat [ListTargetsByRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/ListTargetsByRule)di *Referensi AWS SDK for Java 2.x API*. 

### `PutEvents`
<a name="eventbridge_PutEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 

```
    public static void triggerCustomRule(EventBridgeClient eventBrClient, String email) {
        String json = "{" +
                "\"UserEmail\": \"" + email + "\"," +
                "\"Message\": \"This event was generated by example code.\"," +
                "\"UtcTime\": \"Now.\"" +
                "}";

        PutEventsRequestEntry entry = PutEventsRequestEntry.builder()
                .source("ExampleSource")
                .detail(json)
                .detailType("ExampleType")
                .build();

        PutEventsRequest eventsRequest = PutEventsRequest.builder()
                .entries(entry)
                .build();

        eventBrClient.putEvents(eventsRequest);
    }
```
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutEvents)di *Referensi AWS SDK for Java 2.x API*. 

### `PutRule`
<a name="eventbridge_PutRule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 
Buat aturan terjadwal.  

```
    public static void createEBRule(EventBridgeClient eventBrClient, String ruleName, String cronExpression) {
        try {
            PutRuleRequest ruleRequest = PutRuleRequest.builder()
                    .name(ruleName)
                    .eventBusName("default")
                    .scheduleExpression(cronExpression)
                    .state("ENABLED")
                    .description("A test rule that runs on a schedule created by the Java API")
                    .build();

            PutRuleResponse ruleResponse = eventBrClient.putRule(ruleRequest);
            System.out.println("The ARN of the new rule is " + ruleResponse.ruleArn());

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
Buat aturan yang dipicu saat objek ditambahkan ke bucket Amazon Simple Storage Service.  

```
    // Create a new event rule that triggers when an Amazon S3 object is created in
    // a bucket.
    public static void addEventRule(EventBridgeClient eventBrClient, String roleArn, String bucketName,
            String eventRuleName) {
        String pattern = "{\n" +
                "  \"source\": [\"aws.s3\"],\n" +
                "  \"detail-type\": [\"Object Created\"],\n" +
                "  \"detail\": {\n" +
                "    \"bucket\": {\n" +
                "      \"name\": [\"" + bucketName + "\"]\n" +
                "    }\n" +
                "  }\n" +
                "}";

        try {
            PutRuleRequest ruleRequest = PutRuleRequest.builder()
                    .description("Created by using the AWS SDK for Java v2")
                    .name(eventRuleName)
                    .eventPattern(pattern)
                    .roleArn(roleArn)
                    .build();

            PutRuleResponse ruleResponse = eventBrClient.putRule(ruleRequest);
            System.out.println("The ARN of the new rule is " + ruleResponse.ruleArn());

        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [PutRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutRule)di *Referensi AWS SDK for Java 2.x API*. 

### `PutTargets`
<a name="eventbridge_PutTargets_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 
Tambahkan topik Amazon SNS sebagai target aturan.  

```
    // Add a rule which triggers an SNS target when a file is uploaded to an S3
    // bucket.
    public static void addSnsEventRule(EventBridgeClient eventBrClient, String ruleName, String topicArn,
            String topicName, String eventRuleName, String bucketName) {
        String targetID = java.util.UUID.randomUUID().toString();
        Target myTarget = Target.builder()
                .id(targetID)
                .arn(topicArn)
                .build();

        List<Target> targets = new ArrayList<>();
        targets.add(myTarget);
        PutTargetsRequest request = PutTargetsRequest.builder()
                .eventBusName(null)
                .targets(targets)
                .rule(ruleName)
                .build();

        eventBrClient.putTargets(request);
        System.out.println("Added event rule " + eventRuleName + " with Amazon SNS target " + topicName + " for bucket "
                + bucketName + ".");
    }
```
Tambahkan transformator input ke target untuk aturan.  

```
    public static void updateCustomRuleTargetWithTransform(EventBridgeClient eventBrClient, String topicArn,
            String ruleName) {
        String targetId = java.util.UUID.randomUUID().toString();
        InputTransformer inputTransformer = InputTransformer.builder()
                .inputTemplate("\"Notification: sample event was received.\"")
                .build();

        Target target = Target.builder()
                .id(targetId)
                .arn(topicArn)
                .inputTransformer(inputTransformer)
                .build();

        try {
            PutTargetsRequest targetsRequest = PutTargetsRequest.builder()
                    .rule(ruleName)
                    .targets(target)
                    .eventBusName(null)
                    .build();

            eventBrClient.putTargets(targetsRequest);
        } catch (EventBridgeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [PutTargets](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutTargets)di *Referensi AWS SDK for Java 2.x API*. 

### `RemoveTargets`
<a name="eventbridge_RemoveTargets_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RemoveTargets`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/eventbridge#code-examples). 
Hapus semua target untuk aturan dengan menggunakan nama aturan.  

```
    public static void deleteTargetsFromRule(EventBridgeClient eventBrClient, String eventRuleName) {
        // First, get all targets that will be deleted.
        ListTargetsByRuleRequest request = ListTargetsByRuleRequest.builder()
                .rule(eventRuleName)
                .build();

        ListTargetsByRuleResponse response = eventBrClient.listTargetsByRule(request);
        List<Target> allTargets = response.targets();

        // Get all targets and delete them.
        for (Target myTarget : allTargets) {
            RemoveTargetsRequest removeTargetsRequest = RemoveTargetsRequest.builder()
                    .rule(eventRuleName)
                    .ids(myTarget.id())
                    .build();

            eventBrClient.removeTargets(removeTargetsRequest);
            System.out.println("Successfully removed the target");
        }
    }
```
+  Untuk detail API, lihat [RemoveTargets](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/RemoveTargets)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Kirim pemberitahuan acara ke EventBridge
<a name="s3_Scenario_PutBucketNotificationConfiguration_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengaktifkan bucket untuk mengirim notifikasi peristiwa S3 ke EventBridge dan merutekan notifikasi ke topik Amazon SNS dan antrean Amazon SQS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    /** This method configures a bucket to send events to AWS EventBridge and creates a rule
     * to route the S3 object created events to a topic and a queue.
     *
     * @param bucketName Name of existing bucket
     * @param topicArn ARN of existing topic to receive S3 event notifications
     * @param queueArn ARN of existing queue to receive S3 event notifications
     *
     *  An AWS CloudFormation stack sets up the bucket, queue, topic before the method runs.
     */
    public static String setBucketNotificationToEventBridge(String bucketName, String topicArn, String queueArn) {
        try {
            // Enable bucket to emit S3 Event notifications to EventBridge.
            s3Client.putBucketNotificationConfiguration(b -> b
                    .bucket(bucketName)
                    .notificationConfiguration(b1 -> b1
                            .eventBridgeConfiguration(
                                    SdkBuilder::build)
                    ).build()).join();

            // Create an EventBridge rule to route Object Created notifications.
            PutRuleRequest putRuleRequest = PutRuleRequest.builder()
                    .name(RULE_NAME)
                    .eventPattern("""
                            {
                              "source": ["aws.s3"],
                              "detail-type": ["Object Created"],
                              "detail": {
                                "bucket": {
                                  "name": ["%s"]
                                }
                              }
                            }
                            """.formatted(bucketName))
                    .build();

            // Add the rule to the default event bus.
            PutRuleResponse putRuleResponse = eventBridgeClient.putRule(putRuleRequest)
                    .whenComplete((r, t) -> {
                        if (t != null) {
                            logger.error("Error creating event bus rule: " + t.getMessage(), t);
                            throw new RuntimeException(t.getCause().getMessage(), t);
                        }
                        logger.info("Event bus rule creation request sent successfully. ARN is: {}", r.ruleArn());
                    }).join();

            // Add the existing SNS topic and SQS queue as targets to the rule.
            eventBridgeClient.putTargets(b -> b
                    .eventBusName("default")
                    .rule(RULE_NAME)
                    .targets(List.of (
                            Target.builder()
                                    .arn(queueArn)
                                    .id("Queue")
                                    .build(),
                            Target.builder()
                                    .arn(topicArn)
                                    .id("Topic")
                                    .build())
                            )
                    ).join();
            return putRuleResponse.ruleArn();
        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [PutBucketNotificationConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketNotificationConfiguration)
  + [PutRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutRule)
  + [PutTargets](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutTargets)

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda menggunakan API runtime Java Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_scheduled_events).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

# EventBridge Contoh penjadwal menggunakan SDK for Java 2.x
<a name="java_2_scheduler_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with EventBridge Scheduler.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo EventBridge Penjadwal
<a name="scheduler_hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan EventBridge Scheduler.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/scheduler#code-examples). 

```
import software.amazon.awssdk.services.scheduler.SchedulerAsyncClient;
import software.amazon.awssdk.services.scheduler.model.ListSchedulesRequest;
import software.amazon.awssdk.services.scheduler.model.ScheduleSummary;
import software.amazon.awssdk.services.scheduler.paginators.ListSchedulesPublisher;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.CompletableFuture;

public class HelloScheduler {

    public static void main(String [] args) {
        listSchedulesAsync();
    }

    /**
     * Lists all the schedules available.
     * <p>
     * This method uses the {@link SchedulerAsyncClient} to make an asynchronous request to
     * list all the schedules available. The method uses the {@link ListSchedulesPublisher}
     * to fetch the schedules in a paginated manner, and then processes the responses
     * asynchronously.
     */
    public static void listSchedulesAsync() {
        SchedulerAsyncClient schedulerAsyncClient = SchedulerAsyncClient.create();

        // Build the request to list schedules
        ListSchedulesRequest listSchedulesRequest = ListSchedulesRequest.builder().build();

        // Use the paginator to fetch all schedules asynchronously.
        ListSchedulesPublisher paginator = schedulerAsyncClient.listSchedulesPaginator(listSchedulesRequest);
        List<ScheduleSummary> results = new ArrayList<>();

        // Subscribe to the paginator to process the response asynchronously
        CompletableFuture<Void> future = paginator.subscribe(response -> {
            response.schedules().forEach(schedule -> {
                results.add(schedule);
                System.out.printf("Schedule: %s%n", schedule.name());
            });
        });

        // Wait for the asynchronous operation to complete.
        future.join();

        // After all schedules are fetched, print the total count.
        System.out.printf("Total of %d schedule(s) available.%n", results.size());
    }
}
```
+  Untuk detail API, lihat [ListSchedules](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/ListSchedules)di *Referensi AWS SDK for Java 2.x API*. 

## Tindakan
<a name="actions"></a>

### `CreateSchedule`
<a name="scheduler_CreateSchedule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSchedule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/scheduler#code-examples). 

```
    /**
     * Creates a new schedule for a target task.
     *
     * @param name                  the name of the schedule
     * @param scheduleExpression    The schedule expression that defines when the schedule should run.
     * @param scheduleGroupName     the name of the schedule group to which the schedule belongs
     * @param targetArn             the Amazon Resource Name (ARN) of the target task
     * @param roleArn               the ARN of the IAM role to be used for the schedule
     * @param input                 the input data for the target task
     * @param deleteAfterCompletion whether to delete the schedule after it's executed
     * @param useFlexibleTimeWindow whether to use a flexible time window for the schedule execution
     * @return true if the schedule was successfully created, false otherwise
     */
    public CompletableFuture<Boolean> createScheduleAsync(
        String name,
        String scheduleExpression,
        String scheduleGroupName,
        String targetArn,
        String roleArn,
        String input,
        boolean deleteAfterCompletion,
        boolean useFlexibleTimeWindow) {

        int hoursToRun = 1;
        int flexibleTimeWindowMinutes = 10;

        Target target = Target.builder()
            .arn(targetArn)
            .roleArn(roleArn)
            .input(input)
            .build();

        FlexibleTimeWindow flexibleTimeWindow = FlexibleTimeWindow.builder()
            .mode(useFlexibleTimeWindow
                ? FlexibleTimeWindowMode.FLEXIBLE
                : FlexibleTimeWindowMode.OFF)
            .maximumWindowInMinutes(useFlexibleTimeWindow
                ? flexibleTimeWindowMinutes
                : null)
            .build();

        Instant startDate = Instant.now();
        Instant endDate = startDate.plus(Duration.ofHours(hoursToRun));

        CreateScheduleRequest request = CreateScheduleRequest.builder()
            .name(name)
            .scheduleExpression(scheduleExpression)
            .groupName(scheduleGroupName)
            .target(target)
            .actionAfterCompletion(deleteAfterCompletion
                ? ActionAfterCompletion.DELETE
                : ActionAfterCompletion.NONE)
            .startDate(startDate)
            .endDate(endDate)
            .flexibleTimeWindow(flexibleTimeWindow)
            .build();

        return getAsyncClient().createSchedule(request)
            .thenApply(response -> {
                logger.info("Successfully created schedule {} in schedule group {}, The ARN is {} ", name, scheduleGroupName, response.scheduleArn());
                return true;
            })
            .whenComplete((result, ex) -> {
                if (ex != null) {
                    if (ex instanceof ConflictException) {
                        // Handle ConflictException
                        logger.error("A conflict exception occurred while creating the schedule: {}", ex.getMessage());
                        throw new CompletionException("A conflict exception occurred while creating the schedule: " + ex.getMessage(), ex);
                    } else {
                        throw new CompletionException("Error creating schedule: " + ex.getMessage(), ex);
                    }
                }
            });
    }
```
+  Untuk detail API, lihat [CreateSchedule](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/CreateSchedule)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateScheduleGroup`
<a name="scheduler_CreateScheduleGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateScheduleGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/scheduler#code-examples). 

```
    /**
     * Creates a new schedule group.
     *
     * @param name the name of the schedule group to be created
     * @return a {@link CompletableFuture} representing the asynchronous operation of creating the schedule group
     */
    public CompletableFuture<CreateScheduleGroupResponse> createScheduleGroup(String name) {
        CreateScheduleGroupRequest request = CreateScheduleGroupRequest.builder()
            .name(name)
            .build();

        logger.info("Initiating createScheduleGroup call for group: {}", name);
        CompletableFuture<CreateScheduleGroupResponse> futureResponse = getAsyncClient().createScheduleGroup(request);
        futureResponse.whenComplete((response, ex) -> {
            if (ex != null) {
                if (ex instanceof CompletionException && ex.getCause() instanceof ConflictException) {
                    // Rethrow the ConflictException
                    throw (ConflictException) ex.getCause();
                } else {
                    throw new CompletionException("Failed to create schedule group: " + name, ex);
                }
            } else if (response == null) {
                throw new RuntimeException("Failed to create schedule group: response was null");
            } else {
                logger.info("Successfully created schedule group '{}': {}", name, response.scheduleGroupArn());
            }
        });

        return futureResponse;
    }
```
+  Untuk detail API, lihat [CreateScheduleGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/CreateScheduleGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteSchedule`
<a name="scheduler_DeleteSchedule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSchedule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/scheduler#code-examples). 

```
    /**
     * Deletes a schedule with the specified name and group name.
     *
     * @param name      the name of the schedule to be deleted
     * @param groupName the group name of the schedule to be deleted
     * @return a {@link CompletableFuture} that, when completed, indicates whether the schedule was successfully deleted
     * @throws CompletionException if an error occurs while deleting the schedule, except for the case where the schedule is not found
     */
    public CompletableFuture<Boolean> deleteScheduleAsync(String name, String groupName) {
        DeleteScheduleRequest request = DeleteScheduleRequest.builder()
            .name(name)
            .groupName(groupName)
            .build();

        CompletableFuture<DeleteScheduleResponse> response = getAsyncClient().deleteSchedule(request);
        return response.handle((result, ex) -> {
            if (ex != null) {
                if (ex instanceof ResourceNotFoundException) {
                    throw new CompletionException("Resource not found while deleting schedule with ID: " + name, ex);
                } else {
                    throw new CompletionException("Failed to delete schedule.", ex);
                }
            }
            logger.info("Successfully deleted schedule with name {}.", name);
            return true;
        });
    }
```
+  Untuk detail API, lihat [DeleteSchedule](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/DeleteSchedule)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteScheduleGroup`
<a name="scheduler_DeleteScheduleGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteScheduleGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/scheduler#code-examples). 

```
    /**
     * Deletes the specified schedule group.
     *
     * @param name the name of the schedule group to delete
     * @return a {@link CompletableFuture} that completes when the schedule group has been deleted
     * @throws CompletionException if an error occurs while deleting the schedule group
     */
    public CompletableFuture<Void> deleteScheduleGroupAsync(String name) {
        DeleteScheduleGroupRequest request = DeleteScheduleGroupRequest.builder()
            .name(name)
            .build();

        return getAsyncClient().deleteScheduleGroup(request)
            .thenRun(() -> {
                logger.info("Successfully deleted schedule group {}", name);
            })
            .whenComplete((result, ex) -> {
                if (ex != null) {
                    if (ex instanceof ResourceNotFoundException) {
                        throw new CompletionException("The resource was not found: " + ex.getMessage(), ex);
                    } else {
                        throw new CompletionException("Error deleting schedule group: " + ex.getMessage(), ex);
                    }
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteScheduleGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/DeleteScheduleGroup)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Acara Terjadwal
<a name="scheduler_ScheduledEventsScenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Menyebarkan CloudFormation tumpukan dengan sumber daya yang diperlukan.
+ Buat grup EventBridge jadwal Scheduler.
+ Buat jadwal EventBridge Penjadwal satu kali dengan jendela waktu yang fleksibel.
+ Buat jadwal EventBridge Scheduler berulang dengan tarif yang ditentukan.
+ Hapus EventBridge Scheduler jadwal dan jadwal grup.
+ Bersihkan sumber daya dan hapus tumpukan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/scheduler#code-examples). 
Jalankan skenario.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.scheduler.model.SchedulerException;
import javax.mail.internet.AddressException;
import javax.mail.internet.InternetAddress;
import java.time.LocalDateTime;
import java.time.format.DateTimeFormatter;
import java.util.Map;
import java.util.Scanner;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;

/**
 * This Java code example performs the following tasks for the Amazon EventBridge Scheduler workflow:
 * <p>
 * 1. Prepare the Application:
 * - Prompt the user for an email address to use for the subscription for the SNS topic subscription.
 * - Deploy the Cloud Formation template in resources/cfn_template.yaml for resource creation.
 * - Store the outputs of the stack into variables for use in the workflow.
 * - Create a schedule group for all workflow schedules.
 * <p>
 * 2. Create one-time Schedule:
 * - Create a one-time schedule to send an initial event.
 * - Use a Flexible Time Window and set the schedule to delete after completion.
 * - Wait for the user to receive the event email from SNS.
 * <p>
 * 3. Create a time-based schedule:
 * - Prompt the user for how many X times per Y hours a recurring event should be scheduled.
 * - Create the scheduled event for X times per hour for Y hours.
 * - Wait for the user to receive the event email from SNS.
 * - Delete the schedule when the user is finished.
 * <p>
 * 4. Clean up:
 * - Prompt the user for y/n answer if they want to destroy the stack and clean up all resources.
 * - Delete the schedule group.
 * - Destroy the Cloud Formation stack and wait until the stack has been removed.
 */

public class EventbridgeSchedulerScenario {

    private static final Logger logger = LoggerFactory.getLogger(EventbridgeSchedulerScenario.class);
    private static final Scanner scanner = new Scanner(System.in);
    private static String STACK_NAME = "workflow-stack-name";
    private static final String scheduleGroupName = "schedules-group";

    private static String recurringScheduleName = "";

    private static String oneTimeScheduleName = "";

    private static final EventbridgeSchedulerActions eventbridgeActions = new EventbridgeSchedulerActions();

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static String roleArn = "";
    public static String snsTopicArn = "";

    public static void main(String[] args) {
        logger.info(DASHES);
        logger.info("Welcome to the Amazon EventBridge Scheduler Workflow.");
        logger.info("""
            Amazon EventBridge Scheduler is a fully managed service that helps you schedule and execute 
            a wide range of tasks and events in the cloud. It's designed to simplify the process of 
            scheduling and managing recurring or one-time events, making it easier for developers and 
            businesses to automate various workflows and processes.
                        
            One of the key features of Amazon EventBridge Scheduler is its ability to schedule events 
            based on a variety of triggers, including time-based schedules, custom event patterns, or 
            even integration with other AWS services. For example, you can use EventBridge Scheduler 
            to schedule a report generation task to run every weekday at 9 AM, or to trigger a 
            Lambda function when a specific Amazon S3 object is created. 
                        
            This flexibility allows you to build complex and dynamic event-driven architectures 
            that adapt to your business needs.
                        
            Lets get started... 
            """);
        waitForInputToContinue();
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("1. Prepare the application.");
        waitForInputToContinue();
        try {
            boolean prepareSuccess = prepareApplication();
            logger.info(DASHES);

            if (prepareSuccess) {
                logger.info("2. Create one-time schedule.");
                logger.info("""
                    A one-time schedule in Amazon EventBridge Scheduler is an event trigger that allows
                    you to schedule a one-time event to run at a specific date and time. This is useful for
                    executing a specific task or workflow at a predetermined time, without the need for recurring
                    or complex scheduling.
                    """);
                waitForInputToContinue();
                createOneTimeSchedule();
                logger.info("Do you want to delete the schedule {} (y/n) ?", oneTimeScheduleName);
                String ans = scanner.nextLine().trim();
                if (ans.equalsIgnoreCase("y")) {
                    eventbridgeActions.deleteScheduleAsync(oneTimeScheduleName,scheduleGroupName);
                }
                logger.info(DASHES);

                logger.info("3. Create a recurring schedule.");
                logger.info("""
                    A recurring schedule is a feature that allows you to schedule and manage the execution
                    of your serverless applications or workloads on a recurring basis. For example, 
                    with EventBridge Scheduler, you can create custom schedules for your AWS Lambda functions, 
                    AWS Step Functions, and other supported event sources, enabling you to automate tasks and 
                    workflows without the need for complex infrastructure management. 
                    """);
                waitForInputToContinue();
                createRecurringSchedule();
                logger.info("Do you want to delete the schedule {} (y/n) ?", oneTimeScheduleName);
                String ans2 = scanner.nextLine().trim();
                if (ans2.equalsIgnoreCase("y")) {
                    eventbridgeActions.deleteScheduleAsync(recurringScheduleName,scheduleGroupName);
                }
                logger.info(DASHES);
            }
        } catch (Exception ex) {
            logger.info("There was a problem with the workflow {}, initiating cleanup...", ex.getMessage());
            cleanUp();
        }

        logger.info(DASHES);
        logger.info("4. Clean up the resources.");
        logger.info("Do you want to delete these AWS resources (y/n) ?");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            cleanUp();
        } else {
            logger.info("The AWS resources will not be deleted.");
        }
        logger.info("Amazon EventBridge Scheduler workflow completed.");
        logger.info(DASHES);
    }

    /**
     * Cleans up the resources associated with the EventBridge scheduler.
     * If any errors occur during the cleanup process, the corresponding error messages are logged.
     */
    public static void cleanUp() {
        logger.info("First, delete the schedule group.");
        logger.info("When the schedule group is deleted, schedules that are part of that group are deleted.");
        waitForInputToContinue();
        try {
            eventbridgeActions.deleteScheduleGroupAsync(scheduleGroupName).join();

        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof SchedulerException schedulerException) {
                logger.error("Scheduler error occurred: Error message: {}, Error code {}",
                    schedulerException.getMessage(), schedulerException.awsErrorDetails().errorCode(), schedulerException);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage());
            }
            return;
        }

        logger.info("Destroy the CloudFormation stack");
        waitForInputToContinue();
        CloudFormationHelper.destroyCloudFormationStack(STACK_NAME);
    }

    /**
     * Prepares the application by creating resources in a CloudFormation stack, including an SNS topic
     * that will be subscribed to the EventBridge Scheduler events. The user will need to confirm the subscription
     * in order to receive event emails.
     *
     * @return true if the application preparation was successful, false otherwise
     */
    public static boolean prepareApplication() {
        logger.info("""
            This example creates resources in a CloudFormation stack, including an SNS topic
            that will be subscribed to the EventBridge Scheduler events.
            You will need to confirm the subscription in order to receive event emails.
             """);

        String emailAddress = promptUserForEmail();
        logger.info("You entered {}", emailAddress);

        logger.info("Do you want to use a custom Stack name (y/n) ?");
        String ans = scanner.nextLine().trim();
        if (ans.equalsIgnoreCase("y")) {
            String newStackName = scanner.nextLine();
            logger.info("You entered {} for the new stack name", newStackName);
            waitForInputToContinue();
            STACK_NAME = newStackName;
        }

        logger.info("Get the roleArn and snsTopicArn values using a Cloudformation template.");
        waitForInputToContinue();
        CloudFormationHelper.deployCloudFormationStack(STACK_NAME, emailAddress);
        Map<String, String> stackOutputs = CloudFormationHelper.getStackOutputs(STACK_NAME);
        roleArn = stackOutputs.get("RoleARN");
        snsTopicArn = stackOutputs.get("SNStopicARN");

        logger.info("The roleARN is {}", roleArn);
        logger.info("The snsTopicArn is {}", snsTopicArn);

        try {
            eventbridgeActions.createScheduleGroup(scheduleGroupName).join();
            logger.info("createScheduleGroupAsync completed successfully.");

        } catch (RuntimeException e) {
            logger.error("Error occurred: {} ", e.getMessage());
            return false;
        }
        logger.info("Application preparation complete.");
        return true;
    }

    /**
     * Waits for the user to enter 'c' followed by <ENTER> to continue the program.
     * This method is used to pause the program execution and wait for user input before
     * proceeding.
     */
    private static void waitForInputToContinue() {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                // Handle invalid input.
                logger.info("Invalid input. Please try again.");
            }
        }
    }

    /**
     * Prompts the user to enter an email address and validates the input.
     * If the provided email address is invalid, the method will prompt the user to try again.
     *
     * @return the valid email address entered by the user
     */
    private static String promptUserForEmail() {
        logger.info("Enter an email address to use for event subscriptions: ");
        String email = scanner.nextLine();
        if (!isValidEmail(email)) {
            logger.info("Invalid email address. Please try again.");
            return promptUserForEmail();
        }
        return email;
    }

    /**
     * Checks if the given email address is valid.
     *
     * @param email the email address to be validated
     * @return {@code true} if the email address is valid, {@code false} otherwise
     */
    private static boolean isValidEmail(String email) {
        try {
            InternetAddress emailAddress = new InternetAddress(email);
            emailAddress.validate();
            return true;

        } catch (AddressException e) {
            return false;
        }
    }

    /**
     * Creates a one-time schedule to send an initial event in 1 minute with a flexible time window.
     *
     * @return {@code true} if the schedule was created successfully, {@code false} otherwise
     */
    public static Boolean createOneTimeSchedule() {
        oneTimeScheduleName = promptUserForResourceName("Enter a name for the one-time schedule:");
        logger.info("Creating a one-time schedule named {} to send an initial event in 1 minute with a flexible time window...", oneTimeScheduleName);
        LocalDateTime scheduledTime = LocalDateTime.now();
        DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd'T'HH:mm:ss");

        String scheduleExpression = "at(" + scheduledTime.format(formatter) + ")";
        return eventbridgeActions.createScheduleAsync(
            oneTimeScheduleName,
            scheduleExpression,
            scheduleGroupName,
            snsTopicArn,
            roleArn,
            "One time scheduled event test from schedule",
            true,
            true).join();
    }


    /**
     * Creates a recurring schedule to send events based on a specific time.
     *
     * @return A {@link CompletableFuture} that completes with a boolean value indicating the success or failure of the operation.
     */
    public static Boolean createRecurringSchedule() {
        logger.info("Creating a recurring schedule to send events for one hour...");
        recurringScheduleName = promptUserForResourceName("Enter a name for the recurring schedule:");

        // Prompt the user for the schedule rate (in minutes).
        int scheduleRateInMinutes = promptUserForInteger("Enter the desired schedule rate (in minutes): ");
        String scheduleExpression = "rate(" + scheduleRateInMinutes + " minutes)";
        return eventbridgeActions.createScheduleAsync(
            recurringScheduleName,
            scheduleExpression,
            scheduleGroupName,
            snsTopicArn,
            roleArn,
            "Recurrent event test from schedule " + recurringScheduleName,
            true,
            true).join();
    }

    /**
     * Prompts the user for a resource name and validates the input.
     *
     * @param prompt the message to display to the user when prompting for the resource name
     * @return the valid resource name entered by the user
     */
    private static String promptUserForResourceName(String prompt) {
        logger.info(prompt);
        String resourceName = scanner.nextLine();
        String regex = "[0-9a-zA-Z-_.]+";
        if (!resourceName.matches(regex)) {
            logger.info("Invalid resource name. Please use a name that matches the pattern " + regex + ".");
            return promptUserForResourceName(prompt);
        }
        return resourceName;
    }

    /**
     * Prompts the user for an integer input and returns the integer value.
     *
     * @param prompt the message to be displayed to the user when prompting for input
     * @return the integer value entered by the user
     */
    private static int promptUserForInteger(String prompt) {
        logger.info(prompt);
        String stringResponse = scanner.nextLine();
        if (stringResponse == null || stringResponse.trim().isEmpty() || !isInteger(stringResponse)) {
            logger.info("Invalid integer.");
            return promptUserForInteger(prompt);
        }
        return Integer.parseInt(stringResponse);
    }

    /**
     * Checks if the given string represents a valid integer.
     *
     * @param str the string to be checked
     * @return {@code true} if the string represents a valid integer, {@code false} otherwise
     */
    private static boolean isInteger(String str) {
        try {
            Integer.parseInt(str);
            return true;
        } catch (NumberFormatException e) {
            return false;
        }
    }
}
```
Pembungkus untuk operasi layanan.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.core.retry.RetryMode;
import software.amazon.awssdk.http.async.SdkAsyncHttpClient;
import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.scheduler.SchedulerAsyncClient;
import software.amazon.awssdk.services.scheduler.model.ActionAfterCompletion;
import software.amazon.awssdk.services.scheduler.model.ConflictException;
import software.amazon.awssdk.services.scheduler.model.CreateScheduleGroupRequest;
import software.amazon.awssdk.services.scheduler.model.CreateScheduleGroupResponse;
import software.amazon.awssdk.services.scheduler.model.CreateScheduleRequest;
import software.amazon.awssdk.services.scheduler.model.DeleteScheduleGroupRequest;
import software.amazon.awssdk.services.scheduler.model.DeleteScheduleRequest;
import software.amazon.awssdk.services.scheduler.model.DeleteScheduleResponse;
import software.amazon.awssdk.services.scheduler.model.FlexibleTimeWindow;
import software.amazon.awssdk.services.scheduler.model.FlexibleTimeWindowMode;
import software.amazon.awssdk.services.scheduler.model.ResourceNotFoundException;
import software.amazon.awssdk.services.scheduler.model.Target;

import java.time.Instant;
import java.util.concurrent.CompletableFuture;
import java.time.Duration;
import java.util.concurrent.CompletionException;

public class EventbridgeSchedulerActions {

    private static SchedulerAsyncClient schedulerClient;
    private static final Logger logger = LoggerFactory.getLogger(EventbridgeSchedulerActions.class);

    public static SchedulerAsyncClient getAsyncClient() {
        if (schedulerClient == null) {
            /*
            The `NettyNioAsyncHttpClient` class is part of the AWS SDK for Java, version 2,
            and it is designed to provide a high-performance, asynchronous HTTP client for interacting with AWS services.
             It uses the Netty framework to handle the underlying network communication and the Java NIO API to
             provide a non-blocking, event-driven approach to HTTP requests and responses.
             */

            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(50)  // Adjust as needed.
                .connectionTimeout(Duration.ofSeconds(60))  // Set the connection timeout.
                .readTimeout(Duration.ofSeconds(60))  // Set the read timeout.
                .writeTimeout(Duration.ofSeconds(60))  // Set the write timeout.
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))  // Set the overall API call timeout.
                .apiCallAttemptTimeout(Duration.ofSeconds(90))  // Set the individual call attempt timeout.
                .retryStrategy(RetryMode.STANDARD)
                .build();

            schedulerClient = SchedulerAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return schedulerClient;
    }


    /**
     * Creates a new schedule group.
     *
     * @param name the name of the schedule group to be created
     * @return a {@link CompletableFuture} representing the asynchronous operation of creating the schedule group
     */
    public CompletableFuture<CreateScheduleGroupResponse> createScheduleGroup(String name) {
        CreateScheduleGroupRequest request = CreateScheduleGroupRequest.builder()
            .name(name)
            .build();

        logger.info("Initiating createScheduleGroup call for group: {}", name);
        CompletableFuture<CreateScheduleGroupResponse> futureResponse = getAsyncClient().createScheduleGroup(request);
        futureResponse.whenComplete((response, ex) -> {
            if (ex != null) {
                if (ex instanceof CompletionException && ex.getCause() instanceof ConflictException) {
                    // Rethrow the ConflictException
                    throw (ConflictException) ex.getCause();
                } else {
                    throw new CompletionException("Failed to create schedule group: " + name, ex);
                }
            } else if (response == null) {
                throw new RuntimeException("Failed to create schedule group: response was null");
            } else {
                logger.info("Successfully created schedule group '{}': {}", name, response.scheduleGroupArn());
            }
        });

        return futureResponse;
    }


    /**
     * Creates a new schedule for a target task.
     *
     * @param name                  the name of the schedule
     * @param scheduleExpression    The schedule expression that defines when the schedule should run.
     * @param scheduleGroupName     the name of the schedule group to which the schedule belongs
     * @param targetArn             the Amazon Resource Name (ARN) of the target task
     * @param roleArn               the ARN of the IAM role to be used for the schedule
     * @param input                 the input data for the target task
     * @param deleteAfterCompletion whether to delete the schedule after it's executed
     * @param useFlexibleTimeWindow whether to use a flexible time window for the schedule execution
     * @return true if the schedule was successfully created, false otherwise
     */
    public CompletableFuture<Boolean> createScheduleAsync(
        String name,
        String scheduleExpression,
        String scheduleGroupName,
        String targetArn,
        String roleArn,
        String input,
        boolean deleteAfterCompletion,
        boolean useFlexibleTimeWindow) {

        int hoursToRun = 1;
        int flexibleTimeWindowMinutes = 10;

        Target target = Target.builder()
            .arn(targetArn)
            .roleArn(roleArn)
            .input(input)
            .build();

        FlexibleTimeWindow flexibleTimeWindow = FlexibleTimeWindow.builder()
            .mode(useFlexibleTimeWindow
                ? FlexibleTimeWindowMode.FLEXIBLE
                : FlexibleTimeWindowMode.OFF)
            .maximumWindowInMinutes(useFlexibleTimeWindow
                ? flexibleTimeWindowMinutes
                : null)
            .build();

        Instant startDate = Instant.now();
        Instant endDate = startDate.plus(Duration.ofHours(hoursToRun));

        CreateScheduleRequest request = CreateScheduleRequest.builder()
            .name(name)
            .scheduleExpression(scheduleExpression)
            .groupName(scheduleGroupName)
            .target(target)
            .actionAfterCompletion(deleteAfterCompletion
                ? ActionAfterCompletion.DELETE
                : ActionAfterCompletion.NONE)
            .startDate(startDate)
            .endDate(endDate)
            .flexibleTimeWindow(flexibleTimeWindow)
            .build();

        return getAsyncClient().createSchedule(request)
            .thenApply(response -> {
                logger.info("Successfully created schedule {} in schedule group {}, The ARN is {} ", name, scheduleGroupName, response.scheduleArn());
                return true;
            })
            .whenComplete((result, ex) -> {
                if (ex != null) {
                    if (ex instanceof ConflictException) {
                        // Handle ConflictException
                        logger.error("A conflict exception occurred while creating the schedule: {}", ex.getMessage());
                        throw new CompletionException("A conflict exception occurred while creating the schedule: " + ex.getMessage(), ex);
                    } else {
                        throw new CompletionException("Error creating schedule: " + ex.getMessage(), ex);
                    }
                }
            });
    }


    /**
     * Deletes the specified schedule group.
     *
     * @param name the name of the schedule group to delete
     * @return a {@link CompletableFuture} that completes when the schedule group has been deleted
     * @throws CompletionException if an error occurs while deleting the schedule group
     */
    public CompletableFuture<Void> deleteScheduleGroupAsync(String name) {
        DeleteScheduleGroupRequest request = DeleteScheduleGroupRequest.builder()
            .name(name)
            .build();

        return getAsyncClient().deleteScheduleGroup(request)
            .thenRun(() -> {
                logger.info("Successfully deleted schedule group {}", name);
            })
            .whenComplete((result, ex) -> {
                if (ex != null) {
                    if (ex instanceof ResourceNotFoundException) {
                        throw new CompletionException("The resource was not found: " + ex.getMessage(), ex);
                    } else {
                        throw new CompletionException("Error deleting schedule group: " + ex.getMessage(), ex);
                    }
                }
            });
    }


    /**
     * Deletes a schedule with the specified name and group name.
     *
     * @param name      the name of the schedule to be deleted
     * @param groupName the group name of the schedule to be deleted
     * @return a {@link CompletableFuture} that, when completed, indicates whether the schedule was successfully deleted
     * @throws CompletionException if an error occurs while deleting the schedule, except for the case where the schedule is not found
     */
    public CompletableFuture<Boolean> deleteScheduleAsync(String name, String groupName) {
        DeleteScheduleRequest request = DeleteScheduleRequest.builder()
            .name(name)
            .groupName(groupName)
            .build();

        CompletableFuture<DeleteScheduleResponse> response = getAsyncClient().deleteSchedule(request);
        return response.handle((result, ex) -> {
            if (ex != null) {
                if (ex instanceof ResourceNotFoundException) {
                    throw new CompletionException("Resource not found while deleting schedule with ID: " + name, ex);
                } else {
                    throw new CompletionException("Failed to delete schedule.", ex);
                }
            }
            logger.info("Successfully deleted schedule with name {}.", name);
            return true;
        });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateSchedule](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/CreateSchedule)
  + [CreateScheduleGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/CreateScheduleGroup)
  + [DeleteSchedule](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/DeleteSchedule)
  + [DeleteScheduleGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/scheduler-2021-06-30/DeleteScheduleGroups)

# Contoh Forecast menggunakan SDK for Java 2.x
<a name="java_2_forecast_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK for Java 2.x with Forecast.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateDataset`
<a name="forecast_CreateDataset_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDataset`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/forecast#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.forecast.ForecastClient;
import software.amazon.awssdk.services.forecast.model.CreateDatasetRequest;
import software.amazon.awssdk.services.forecast.model.Schema;
import software.amazon.awssdk.services.forecast.model.SchemaAttribute;
import software.amazon.awssdk.services.forecast.model.CreateDatasetResponse;
import software.amazon.awssdk.services.forecast.model.ForecastException;
import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateDataSet {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <name>\s

                Where:
                    name - The name of the data set.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String name = args[0];
        Region region = Region.US_WEST_2;
        ForecastClient forecast = ForecastClient.builder()
                .region(region)
                .build();

        String myDataSetARN = createForecastDataSet(forecast, name);
        System.out.println("The ARN of the new data set is " + myDataSetARN);
        forecast.close();
    }

    public static String createForecastDataSet(ForecastClient forecast, String name) {
        try {
            Schema schema = Schema.builder()
                    .attributes(getSchema())
                    .build();

            CreateDatasetRequest datasetRequest = CreateDatasetRequest.builder()
                    .datasetName(name)
                    .domain("CUSTOM")
                    .datasetType("RELATED_TIME_SERIES")
                    .dataFrequency("D")
                    .schema(schema)
                    .build();

            CreateDatasetResponse response = forecast.createDataset(datasetRequest);
            return response.datasetArn();

        } catch (ForecastException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return "";
    }

    // Create a SchemaAttribute list required to create a data set.
    private static List<SchemaAttribute> getSchema() {

        List<SchemaAttribute> schemaList = new ArrayList<>();
        SchemaAttribute att1 = SchemaAttribute.builder()
                .attributeName("item_id")
                .attributeType("string")
                .build();

        SchemaAttribute att2 = SchemaAttribute.builder()
                .attributeName("timestamp")
                .attributeType("timestamp")
                .build();

        SchemaAttribute att3 = SchemaAttribute.builder()
                .attributeName("target_value")
                .attributeType("float")
                .build();

        // Push the SchemaAttribute objects to the List.
        schemaList.add(att1);
        schemaList.add(att2);
        schemaList.add(att3);
        return schemaList;
    }
}
```
+  Untuk detail API, lihat [CreateDataset](https://docs.aws.amazon.com/goto/SdkForJavaV2/forecast-2018-06-26/CreateDataset)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateForecast`
<a name="forecast_CreateForecast_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateForecast`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/forecast#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.forecast.ForecastClient;
import software.amazon.awssdk.services.forecast.model.CreateForecastRequest;
import software.amazon.awssdk.services.forecast.model.CreateForecastResponse;
import software.amazon.awssdk.services.forecast.model.ForecastException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateForecast {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <name> <predictorArn>\s

                Where:
                    name - The name of the forecast.\s
                    predictorArn - The arn of the predictor to use.\s

                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String name = args[0];
        String predictorArn = args[1];
        Region region = Region.US_WEST_2;
        ForecastClient forecast = ForecastClient.builder()
                .region(region)
                .build();

        String forecastArn = createNewForecast(forecast, name, predictorArn);
        System.out.println("The ARN of the new forecast is " + forecastArn);
        forecast.close();
    }

    public static String createNewForecast(ForecastClient forecast, String name, String predictorArn) {
        try {
            CreateForecastRequest forecastRequest = CreateForecastRequest.builder()
                    .forecastName(name)
                    .predictorArn(predictorArn)
                    .build();

            CreateForecastResponse response = forecast.createForecast(forecastRequest);
            return response.forecastArn();

        } catch (ForecastException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateForecast](https://docs.aws.amazon.com/goto/SdkForJavaV2/forecast-2018-06-26/CreateForecast)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDataset`
<a name="forecast_DeleteDataset_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDataset`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/forecast#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.forecast.ForecastClient;
import software.amazon.awssdk.services.forecast.model.DeleteDatasetRequest;
import software.amazon.awssdk.services.forecast.model.ForecastException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteDataset {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <datasetARN>\s

                Where:
                    datasetARN - The ARN of the data set to delete.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String datasetARN = args[0];
        Region region = Region.US_WEST_2;
        ForecastClient forecast = ForecastClient.builder()
                .region(region)
                .build();

        deleteForecastDataSet(forecast, datasetARN);
        forecast.close();
    }

    public static void deleteForecastDataSet(ForecastClient forecast, String myDataSetARN) {
        try {
            DeleteDatasetRequest deleteRequest = DeleteDatasetRequest.builder()
                    .datasetArn(myDataSetARN)
                    .build();

            forecast.deleteDataset(deleteRequest);
            System.out.println("The Data Set was deleted");

        } catch (ForecastException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteDataset](https://docs.aws.amazon.com/goto/SdkForJavaV2/forecast-2018-06-26/DeleteDataset)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteForecast`
<a name="forecast_DeleteForecast_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteForecast`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/forecast#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.forecast.ForecastClient;
import software.amazon.awssdk.services.forecast.model.DeleteDatasetRequest;
import software.amazon.awssdk.services.forecast.model.ForecastException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteDataset {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <datasetARN>\s

                Where:
                    datasetARN - The ARN of the data set to delete.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String datasetARN = args[0];
        Region region = Region.US_WEST_2;
        ForecastClient forecast = ForecastClient.builder()
                .region(region)
                .build();

        deleteForecastDataSet(forecast, datasetARN);
        forecast.close();
    }

    public static void deleteForecastDataSet(ForecastClient forecast, String myDataSetARN) {
        try {
            DeleteDatasetRequest deleteRequest = DeleteDatasetRequest.builder()
                    .datasetArn(myDataSetARN)
                    .build();

            forecast.deleteDataset(deleteRequest);
            System.out.println("The Data Set was deleted");

        } catch (ForecastException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteForecast](https://docs.aws.amazon.com/goto/SdkForJavaV2/forecast-2018-06-26/DeleteForecast)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeForecast`
<a name="forecast_DescribeForecast_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeForecast`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/forecast#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.forecast.ForecastClient;
import software.amazon.awssdk.services.forecast.model.DescribeForecastRequest;
import software.amazon.awssdk.services.forecast.model.DescribeForecastResponse;
import software.amazon.awssdk.services.forecast.model.ForecastException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeForecast {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <forecastarn>\s

                Where:
                    forecastarn - The arn of the forecast (for example, "arn:aws:forecast:us-west-2:xxxxx322:forecast/my_forecast)
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String forecastarn = args[0];
        Region region = Region.US_WEST_2;
        ForecastClient forecast = ForecastClient.builder()
                .region(region)
                .build();

        describe(forecast, forecastarn);
        forecast.close();
    }

    public static void describe(ForecastClient forecast, String forecastarn) {
        try {
            DescribeForecastRequest request = DescribeForecastRequest.builder()
                    .forecastArn(forecastarn)
                    .build();

            DescribeForecastResponse response = forecast.describeForecast(request);
            System.out.println("The name of the forecast is " + response.forecastName());

        } catch (ForecastException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeForecast](https://docs.aws.amazon.com/goto/SdkForJavaV2/forecast-2018-06-26/DescribeForecast)di *Referensi AWS SDK for Java 2.x API*. 

### `ListDatasetGroups`
<a name="forecast_ListDatasetGroups_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatasetGroups`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/forecast#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.forecast.ForecastClient;
import software.amazon.awssdk.services.forecast.model.DatasetGroupSummary;
import software.amazon.awssdk.services.forecast.model.ListDatasetGroupsRequest;
import software.amazon.awssdk.services.forecast.model.ListDatasetGroupsResponse;
import software.amazon.awssdk.services.forecast.model.ForecastException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListDataSetGroups {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        ForecastClient forecast = ForecastClient.builder()
                .region(region)
                .build();

        listDataGroups(forecast);
        forecast.close();
    }

    public static void listDataGroups(ForecastClient forecast) {
        try {
            ListDatasetGroupsRequest group = ListDatasetGroupsRequest.builder()
                    .maxResults(10)
                    .build();

            ListDatasetGroupsResponse response = forecast.listDatasetGroups(group);
            List<DatasetGroupSummary> groups = response.datasetGroups();
            for (DatasetGroupSummary myGroup : groups) {
                System.out.println("The Data Set name is " + myGroup.datasetGroupName());
            }

        } catch (ForecastException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListDatasetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/forecast-2018-06-26/ListDatasetGroups)di *Referensi AWS SDK for Java 2.x API*. 

### `ListForecasts`
<a name="forecast_ListForecasts_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListForecasts`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/forecast#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.forecast.ForecastClient;
import software.amazon.awssdk.services.forecast.model.ListForecastsResponse;
import software.amazon.awssdk.services.forecast.model.ListForecastsRequest;
import software.amazon.awssdk.services.forecast.model.ForecastSummary;
import software.amazon.awssdk.services.forecast.model.ForecastException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListForecasts {

    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        ForecastClient forecast = ForecastClient.builder()
                .region(region)
                .build();

        listAllForeCasts(forecast);
        forecast.close();
    }

    public static void listAllForeCasts(ForecastClient forecast) {
        try {
            ListForecastsRequest request = ListForecastsRequest.builder()
                    .maxResults(10)
                    .build();

            ListForecastsResponse response = forecast.listForecasts(request);
            List<ForecastSummary> forecasts = response.forecasts();
            for (ForecastSummary forecastSummary : forecasts) {
                System.out.println("The name of the forecast is " + forecastSummary.forecastName());
            }

        } catch (ForecastException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListForecasts](https://docs.aws.amazon.com/goto/SdkForJavaV2/forecast-2018-06-26/ListForecasts)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon Glacier menggunakan SDK for Java 2.x
<a name="java_2_glacier_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Glacier. AWS SDK for Java 2.x 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateVault`
<a name="glacier_CreateVault_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVault`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glacier#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.glacier.GlacierClient;
import software.amazon.awssdk.services.glacier.model.CreateVaultRequest;
import software.amazon.awssdk.services.glacier.model.CreateVaultResponse;
import software.amazon.awssdk.services.glacier.model.GlacierException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateVault {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <vaultName>

                Where:
                   vaultName - The name of the vault to create.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String vaultName = args[0];
        GlacierClient glacier = GlacierClient.builder()
                .region(Region.US_EAST_1)
                .build();

        createGlacierVault(glacier, vaultName);
        glacier.close();
    }

    public static void createGlacierVault(GlacierClient glacier, String vaultName) {
        try {
            CreateVaultRequest vaultRequest = CreateVaultRequest.builder()
                    .vaultName(vaultName)
                    .build();

            CreateVaultResponse createVaultResult = glacier.createVault(vaultRequest);
            System.out.println("The URI of the new vault is " + createVaultResult.location());

        } catch (GlacierException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateVault](https://docs.aws.amazon.com/goto/SdkForJavaV2/glacier-2012-06-01/CreateVault)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteArchive`
<a name="glacier_DeleteArchive_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteArchive`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glacier#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.glacier.GlacierClient;
import software.amazon.awssdk.services.glacier.model.DeleteArchiveRequest;
import software.amazon.awssdk.services.glacier.model.GlacierException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteArchive {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <vaultName> <accountId> <archiveId>

                Where:
                   vaultName - The name of the vault that contains the archive to delete.
                   accountId - The account ID value.
                   archiveId - The archive ID value.
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String vaultName = args[0];
        String accountId = args[1];
        String archiveId = args[2];
        GlacierClient glacier = GlacierClient.builder()
                .region(Region.US_EAST_1)
                .build();

        deleteGlacierArchive(glacier, vaultName, accountId, archiveId);
        glacier.close();
    }

    public static void deleteGlacierArchive(GlacierClient glacier, String vaultName, String accountId,
            String archiveId) {
        try {
            DeleteArchiveRequest delArcRequest = DeleteArchiveRequest.builder()
                    .vaultName(vaultName)
                    .accountId(accountId)
                    .archiveId(archiveId)
                    .build();

            glacier.deleteArchive(delArcRequest);
            System.out.println("The archive was deleted.");

        } catch (GlacierException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteArchive](https://docs.aws.amazon.com/goto/SdkForJavaV2/glacier-2012-06-01/DeleteArchive)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteVault`
<a name="glacier_DeleteVault_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVault`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glacier#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.glacier.GlacierClient;
import software.amazon.awssdk.services.glacier.model.DeleteVaultRequest;
import software.amazon.awssdk.services.glacier.model.GlacierException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteVault {
    public static void main(String[] args) {

        final String usage = """

                Usage:    <vaultName>

                Where:
                   vaultName - The name of the vault to delete.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String vaultName = args[0];
        GlacierClient glacier = GlacierClient.builder()
                .region(Region.US_EAST_1)
                .build();

        deleteGlacierVault(glacier, vaultName);
        glacier.close();
    }

    public static void deleteGlacierVault(GlacierClient glacier, String vaultName) {
        try {
            DeleteVaultRequest delVaultRequest = DeleteVaultRequest.builder()
                    .vaultName(vaultName)
                    .build();

            glacier.deleteVault(delVaultRequest);
            System.out.println("The vault was deleted!");

        } catch (GlacierException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteVault](https://docs.aws.amazon.com/goto/SdkForJavaV2/glacier-2012-06-01/DeleteVault)di *Referensi AWS SDK for Java 2.x API*. 

### `InitiateJob`
<a name="glacier_InitiateJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InitiateJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glacier#code-examples). 
Ambil inventaris lemari besi.  

```
import software.amazon.awssdk.core.ResponseBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.glacier.GlacierClient;
import software.amazon.awssdk.services.glacier.model.JobParameters;
import software.amazon.awssdk.services.glacier.model.InitiateJobResponse;
import software.amazon.awssdk.services.glacier.model.GlacierException;
import software.amazon.awssdk.services.glacier.model.InitiateJobRequest;
import software.amazon.awssdk.services.glacier.model.DescribeJobRequest;
import software.amazon.awssdk.services.glacier.model.DescribeJobResponse;
import software.amazon.awssdk.services.glacier.model.GetJobOutputRequest;
import software.amazon.awssdk.services.glacier.model.GetJobOutputResponse;
import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.OutputStream;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ArchiveDownload {
    public static void main(String[] args) {

        final String usage = """

                Usage:    <vaultName> <accountId> <path>

                Where:
                   vaultName - The name of the vault.
                   accountId - The account ID value.
                   path - The path where the file is written to.
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String vaultName = args[0];
        String accountId = args[1];
        String path = args[2];
        GlacierClient glacier = GlacierClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String jobNum = createJob(glacier, vaultName, accountId);
        checkJob(glacier, jobNum, vaultName, accountId, path);
        glacier.close();
    }

    public static String createJob(GlacierClient glacier, String vaultName, String accountId) {
        try {
            JobParameters job = JobParameters.builder()
                    .type("inventory-retrieval")
                    .build();

            InitiateJobRequest initJob = InitiateJobRequest.builder()
                    .jobParameters(job)
                    .accountId(accountId)
                    .vaultName(vaultName)
                    .build();

            InitiateJobResponse response = glacier.initiateJob(initJob);
            System.out.println("The job ID is: " + response.jobId());
            System.out.println("The relative URI path of the job is: " + response.location());
            return response.jobId();

        } catch (GlacierException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);

        }
        return "";
    }

    // Poll S3 Glacier = Polling a Job may take 4-6 hours according to the
    // Documentation.
    public static void checkJob(GlacierClient glacier, String jobId, String name, String account, String path) {
        try {
            boolean finished = false;
            String jobStatus;
            int yy = 0;

            while (!finished) {
                DescribeJobRequest jobRequest = DescribeJobRequest.builder()
                        .jobId(jobId)
                        .accountId(account)
                        .vaultName(name)
                        .build();

                DescribeJobResponse response = glacier.describeJob(jobRequest);
                jobStatus = response.statusCodeAsString();

                if (jobStatus.compareTo("Succeeded") == 0)
                    finished = true;
                else {
                    System.out.println(yy + " status is: " + jobStatus);
                    Thread.sleep(1000);
                }
                yy++;
            }

            System.out.println("Job has Succeeded");
            GetJobOutputRequest jobOutputRequest = GetJobOutputRequest.builder()
                    .jobId(jobId)
                    .vaultName(name)
                    .accountId(account)
                    .build();

            ResponseBytes<GetJobOutputResponse> objectBytes = glacier.getJobOutputAsBytes(jobOutputRequest);
            // Write the data to a local file.
            byte[] data = objectBytes.asByteArray();
            File myFile = new File(path);
            OutputStream os = new FileOutputStream(myFile);
            os.write(data);
            System.out.println("Successfully obtained bytes from a Glacier vault");
            os.close();

        } catch (GlacierException | InterruptedException | IOException e) {
            System.out.println(e.getMessage());
            System.exit(1);

        }
    }
}
```
+  Untuk detail API, lihat [InitiateJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/glacier-2012-06-01/InitiateJob)di *Referensi AWS SDK for Java 2.x API*. 

### `ListVaults`
<a name="glacier_ListVaults_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListVaults`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glacier#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.glacier.model.ListVaultsRequest;
import software.amazon.awssdk.services.glacier.model.ListVaultsResponse;
import software.amazon.awssdk.services.glacier.GlacierClient;
import software.amazon.awssdk.services.glacier.model.DescribeVaultOutput;
import software.amazon.awssdk.services.glacier.model.GlacierException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListVaults {
    public static void main(String[] args) {
        GlacierClient glacier = GlacierClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listAllVault(glacier);
        glacier.close();
    }

    public static void listAllVault(GlacierClient glacier) {
        boolean listComplete = false;
        String newMarker = null;
        int totalVaults = 0;
        System.out.println("Your Amazon Glacier vaults:");
        try {
            while (!listComplete) {
                ListVaultsResponse response = null;
                if (newMarker != null) {
                    ListVaultsRequest request = ListVaultsRequest.builder()
                            .marker(newMarker)
                            .build();

                    response = glacier.listVaults(request);
                } else {
                    ListVaultsRequest request = ListVaultsRequest.builder()
                            .build();
                    response = glacier.listVaults(request);
                }

                List<DescribeVaultOutput> vaultList = response.vaultList();
                for (DescribeVaultOutput v : vaultList) {
                    totalVaults += 1;
                    System.out.println("* " + v.vaultName());
                }

                // Check for further results.
                newMarker = response.marker();
                if (newMarker == null) {
                    listComplete = true;
                }
            }

            if (totalVaults == 0) {
                System.out.println("No vaults found.");
            }

        } catch (GlacierException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListVaults](https://docs.aws.amazon.com/goto/SdkForJavaV2/glacier-2012-06-01/ListVaults)di *Referensi AWS SDK for Java 2.x API*. 

### `UploadArchive`
<a name="glacier_UploadArchive_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadArchive`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glacier#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.glacier.GlacierClient;
import software.amazon.awssdk.services.glacier.model.UploadArchiveRequest;
import software.amazon.awssdk.services.glacier.model.UploadArchiveResponse;
import software.amazon.awssdk.services.glacier.model.GlacierException;
import java.io.File;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.io.FileInputStream;
import java.io.IOException;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class UploadArchive {

    static final int ONE_MB = 1024 * 1024;

    public static void main(String[] args) {
        final String usage = """

                Usage:   <strPath> <vaultName>\s

                Where:
                   strPath - The path to the archive to upload (for example, C:\\AWS\\test.pdf).
                   vaultName - The name of the vault.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String strPath = args[0];
        String vaultName = args[1];
        File myFile = new File(strPath);
        Path path = Paths.get(strPath);
        GlacierClient glacier = GlacierClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String archiveId = uploadContent(glacier, path, vaultName, myFile);
        System.out.println("The ID of the archived item is " + archiveId);
        glacier.close();
    }

    public static String uploadContent(GlacierClient glacier, Path path, String vaultName, File myFile) {
        // Get an SHA-256 tree hash value.
        String checkVal = computeSHA256(myFile);
        try {
            UploadArchiveRequest uploadRequest = UploadArchiveRequest.builder()
                    .vaultName(vaultName)
                    .checksum(checkVal)
                    .build();

            UploadArchiveResponse res = glacier.uploadArchive(uploadRequest, path);
            return res.archiveId();

        } catch (GlacierException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    private static String computeSHA256(File inputFile) {
        try {
            byte[] treeHash = computeSHA256TreeHash(inputFile);
            System.out.printf("SHA-256 tree hash = %s\n", toHex(treeHash));
            return toHex(treeHash);

        } catch (IOException ioe) {
            System.err.format("Exception when reading from file %s: %s", inputFile, ioe.getMessage());
            System.exit(-1);

        } catch (NoSuchAlgorithmException nsae) {
            System.err.format("Cannot locate MessageDigest algorithm for SHA-256: %s", nsae.getMessage());
            System.exit(-1);
        }
        return "";
    }

    public static byte[] computeSHA256TreeHash(File inputFile) throws IOException,
            NoSuchAlgorithmException {

        byte[][] chunkSHA256Hashes = getChunkSHA256Hashes(inputFile);
        return computeSHA256TreeHash(chunkSHA256Hashes);
    }

    /**
     * Computes an SHA256 checksum for each 1 MB chunk of the input file. This
     * includes the checksum for the last chunk, even if it's smaller than 1 MB.
     */
    public static byte[][] getChunkSHA256Hashes(File file) throws IOException,
            NoSuchAlgorithmException {

        MessageDigest md = MessageDigest.getInstance("SHA-256");
        long numChunks = file.length() / ONE_MB;
        if (file.length() % ONE_MB > 0) {
            numChunks++;
        }

        if (numChunks == 0) {
            return new byte[][] { md.digest() };
        }

        byte[][] chunkSHA256Hashes = new byte[(int) numChunks][];
        FileInputStream fileStream = null;

        try {
            fileStream = new FileInputStream(file);
            byte[] buff = new byte[ONE_MB];

            int bytesRead;
            int idx = 0;

            while ((bytesRead = fileStream.read(buff, 0, ONE_MB)) > 0) {
                md.reset();
                md.update(buff, 0, bytesRead);
                chunkSHA256Hashes[idx++] = md.digest();
            }

            return chunkSHA256Hashes;

        } finally {
            if (fileStream != null) {
                try {
                    fileStream.close();
                } catch (IOException ioe) {
                    System.err.printf("Exception while closing %s.\n %s", file.getName(),
                            ioe.getMessage());
                }
            }
        }
    }

    /**
     * Computes the SHA-256 tree hash for the passed array of 1 MB chunk
     * checksums.
     */
    public static byte[] computeSHA256TreeHash(byte[][] chunkSHA256Hashes)
            throws NoSuchAlgorithmException {

        MessageDigest md = MessageDigest.getInstance("SHA-256");
        byte[][] prevLvlHashes = chunkSHA256Hashes;
        while (prevLvlHashes.length > 1) {
            int len = prevLvlHashes.length / 2;
            if (prevLvlHashes.length % 2 != 0) {
                len++;
            }

            byte[][] currLvlHashes = new byte[len][];
            int j = 0;
            for (int i = 0; i < prevLvlHashes.length; i = i + 2, j++) {

                // If there are at least two elements remaining.
                if (prevLvlHashes.length - i > 1) {

                    // Calculate a digest of the concatenated nodes.
                    md.reset();
                    md.update(prevLvlHashes[i]);
                    md.update(prevLvlHashes[i + 1]);
                    currLvlHashes[j] = md.digest();

                } else { // Take care of the remaining odd chunk
                    currLvlHashes[j] = prevLvlHashes[i];
                }
            }

            prevLvlHashes = currLvlHashes;
        }

        return prevLvlHashes[0];
    }

    /**
     * Returns the hexadecimal representation of the input byte array
     */
    public static String toHex(byte[] data) {
        StringBuilder sb = new StringBuilder(data.length * 2);
        for (byte datum : data) {
            String hex = Integer.toHexString(datum & 0xFF);

            if (hex.length() == 1) {
                // Append leading zero.
                sb.append("0");
            }
            sb.append(hex);
        }
        return sb.toString().toLowerCase();
    }
}
```
+  Untuk detail API, lihat [UploadArchive](https://docs.aws.amazon.com/goto/SdkForJavaV2/glacier-2012-06-01/UploadArchive)di *Referensi AWS SDK for Java 2.x API*. 

# AWS Glue contoh menggunakan SDK for Java 2.x
<a name="java_2_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS Glue.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Glue
<a name="glue_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Glue.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
package com.example.glue;

import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.glue.GlueClient;
import software.amazon.awssdk.services.glue.model.ListJobsRequest;
import software.amazon.awssdk.services.glue.model.ListJobsResponse;
import java.util.List;

public class HelloGlue {
    public static void main(String[] args) {
        GlueClient glueClient = GlueClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listJobs(glueClient);
    }

    public static void listJobs(GlueClient glueClient) {
        ListJobsRequest request = ListJobsRequest.builder()
                .maxResults(10)
                .build();
        ListJobsResponse response = glueClient.listJobs(request);
        List<String> jobList = response.jobNames();
        jobList.forEach(job -> {
            System.out.println("Job Name: " + job);
        });
    }
}
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/ListJobs)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Buat daftar informasi tentang database dan tabel di situs Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * To set up the resources, see this documentation topic:
 *
 * https://docs.aws.amazon.com/glue/latest/ug/tutorial-add-crawler.html
 *
 * This example performs the following tasks:
 *
 * 1. Create a database.
 * 2. Create a crawler.
 * 3. Get a crawler.
 * 4. Start a crawler.
 * 5. Get a database.
 * 6. Get tables.
 * 7. Create a job.
 * 8. Start a job run.
 * 9. List all jobs.
 * 10. Get job runs.
 * 11. Delete a job.
 * 12. Delete a database.
 * 13. Delete a crawler.
 */

public class GlueScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws InterruptedException {
        final String usage = """

            Usage:
                <iam> <s3Path> <cron> <dbName> <crawlerName> <jobName> <scriptLocation> <locationUri> <bucketNameSc>\s

            Where:
                iam - The ARN of the IAM role that has AWS Glue and S3 permissions.\s
                s3Path - The Amazon Simple Storage Service (Amazon S3) target that contains data (for example, s3://<bucket name>/read).
                cron - A cron expression used to specify the schedule  (i.e., cron(15 12 * * ? *).
                dbName - The database name.\s
                crawlerName - The name of the crawler.\s
                jobName - The name you assign to this job definition.
                scriptLocation - The Amazon S3 path to a script that runs a job.
                locationUri - The location of the database (you can find this file in resources folder).
                bucketNameSc - The Amazon S3 bucket name used when creating a job
                """;

        if (args.length != 9) {
            System.out.println(usage);
            return;
        }
        Scanner scanner = new Scanner(System.in);
        String iam = args[0];
        String s3Path = args[1];
        String cron = args[2];
        String dbName = args[3];
        String crawlerName = args[4];
        String jobName = args[5];
        String scriptLocation = args[6];
        String locationUri = args[7];
        String bucketNameSc = args[8];

        Region region = Region.US_EAST_1;
        GlueClient glueClient = GlueClient.builder()
            .region(region)
            .build();
        System.out.println(DASHES);
        System.out.println("Welcome to the AWS Glue scenario.");
        System.out.println("""
            AWS Glue is a fully managed extract, transform, and load (ETL) service provided by Amazon 
            Web Services (AWS). It is designed to simplify the process of building, running, and maintaining 
            ETL pipelines, which are essential for data integration and data warehousing tasks.
                        
            One of the key features of AWS Glue is its ability to automatically discover and catalog data 
            stored in various sources, such as Amazon S3, Amazon RDS, Amazon Redshift, and other databases. 
            This cataloging process creates a central metadata repository, known as the AWS Glue Data Catalog, 
            which provides a unified view of an organization's data assets. This metadata can then be used to 
            create ETL jobs, which can be scheduled and run on-demand or on a regular basis.
                        
            Lets get started.          
                         
            """);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. Create a database.");
        try {
            createDatabase(glueClient, dbName, locationUri);
        } catch (GlueException e) {
            if (e.awsErrorDetails().errorMessage().equals("Database already exists.")) {
                System.out.println("Database " + dbName + " already exists. Skipping creation.");
            } else {
                System.err.println(e.awsErrorDetails().errorMessage());
                return;
            }
        }

        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Create a crawler.");
        try {
            createGlueCrawler(glueClient, iam, s3Path, cron, dbName, crawlerName);
        } catch (GlueException e) {
            if (e.awsErrorDetails().errorMessage().contains("already exists")) {
                System.out.println("Crawler " + crawlerName + " already exists. Skipping creation.");
            } else {
                System.err.println(e.awsErrorDetails().errorMessage());
                System.exit(1);
            }
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Get a crawler.");
        try {
            getSpecificCrawler(glueClient, crawlerName);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Start a crawler.");
        try {
            startSpecificCrawler(glueClient, crawlerName);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Get a database.");
        try {
            getSpecificDatabase(glueClient, dbName);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("*** Wait 5 min for the tables to become available");
        TimeUnit.MINUTES.sleep(5);
        System.out.println("6. Get tables.");
        String myTableName;
        try {
            myTableName = getGlueTables(glueClient, dbName);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Create a job.");
        try {
            createJob(glueClient, jobName, iam, scriptLocation);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Start a Job run.");
        try {
            startJob(glueClient, jobName, dbName, myTableName, bucketNameSc);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. List all jobs.");
        try {
            getAllJobs(glueClient);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Get job runs.");
        try {
            getJobRuns(glueClient, jobName);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("11. Delete a job.");
        try {
            deleteJob(glueClient, jobName);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        System.out.println("*** Wait 5 MIN for the " + crawlerName + " to stop");
        TimeUnit.MINUTES.sleep(5);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("12. Delete a database.");
        try {
            deleteDatabase(glueClient, dbName);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Delete a crawler.");
        try {
            deleteSpecificCrawler(glueClient, crawlerName);
        } catch (GlueException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Successfully completed the AWS Glue Scenario");
        System.out.println(DASHES);
    }


    /**
     * Creates a Glue database with the specified name and location URI.
     *
     * @param glueClient  The Glue client to use for the database creation.
     * @param dbName      The name of the database to create.
     * @param locationUri The location URI for the database.
     */
    public static void createDatabase(GlueClient glueClient, String dbName, String locationUri) {
        try {
            DatabaseInput input = DatabaseInput.builder()
                .description("Built with the AWS SDK for Java V2")
                .name(dbName)
                .locationUri(locationUri)
                .build();

            CreateDatabaseRequest request = CreateDatabaseRequest.builder()
                .databaseInput(input)
                .build();

            glueClient.createDatabase(request);
            System.out.println(dbName + " was successfully created");

        } catch (GlueException e) {
            throw e;
        }
    }


    /**
     * Creates a new AWS Glue crawler using the AWS Glue Java API.
     *
     * @param glueClient  the AWS Glue client used to interact with the AWS Glue service
     * @param iam         the IAM role that the crawler will use to access the data source
     * @param s3Path      the S3 path that the crawler will scan for data
     * @param cron        the cron expression that defines the crawler's schedule
     * @param dbName      the name of the AWS Glue database where the crawler will store the metadata
     * @param crawlerName the name of the crawler to be created
     */
    public static void createGlueCrawler(GlueClient glueClient,
                                         String iam,
                                         String s3Path,
                                         String cron,
                                         String dbName,
                                         String crawlerName) {

        try {
            S3Target s3Target = S3Target.builder()
                .path(s3Path)
                .build();

            List<S3Target> targetList = new ArrayList<>();
            targetList.add(s3Target);
            CrawlerTargets targets = CrawlerTargets.builder()
                .s3Targets(targetList)
                .build();

            CreateCrawlerRequest crawlerRequest = CreateCrawlerRequest.builder()
                .databaseName(dbName)
                .name(crawlerName)
                .description("Created by the AWS Glue Java API")
                .targets(targets)
                .role(iam)
                .schedule(cron)
                .build();

            glueClient.createCrawler(crawlerRequest);
            System.out.println(crawlerName + " was successfully created");

        } catch (GlueException e) {
            throw e;
        }
    }

    /**
     * Retrieves a specific crawler from the AWS Glue service and waits for it to be in the "READY" state.
     *
     * @param glueClient  the AWS Glue client used to interact with the Glue service
     * @param crawlerName the name of the crawler to be retrieved
     */
    public static void getSpecificCrawler(GlueClient glueClient, String crawlerName) throws InterruptedException {
        try {
            GetCrawlerRequest crawlerRequest = GetCrawlerRequest.builder()
                .name(crawlerName)
                .build();

            boolean ready = false;
            while (!ready) {
                GetCrawlerResponse response = glueClient.getCrawler(crawlerRequest);
                String status = response.crawler().stateAsString();
                if (status.compareTo("READY") == 0) {
                    ready = true;
                }
                Thread.sleep(3000);
            }

            System.out.println("The crawler is now ready");

        } catch (GlueException | InterruptedException e) {
            throw e;
        }
    }

    /**
     * Starts a specific AWS Glue crawler.
     *
     * @param glueClient  the AWS Glue client to use for the crawler operation
     * @param crawlerName the name of the crawler to start
     * @throws GlueException if there is an error starting the crawler
     */
    public static void startSpecificCrawler(GlueClient glueClient, String crawlerName) {
        try {
            StartCrawlerRequest crawlerRequest = StartCrawlerRequest.builder()
                .name(crawlerName)
                .build();

            glueClient.startCrawler(crawlerRequest);
            System.out.println(crawlerName + " was successfully started!");

        } catch (GlueException e) {
            throw e;
        }
    }

    /**
     * Retrieves the specific database from the AWS Glue service.
     *
     * @param glueClient   an instance of the AWS Glue client used to interact with the service
     * @param databaseName the name of the database to retrieve
     * @throws GlueException if there is an error retrieving the database from the AWS Glue service
     */
    public static void getSpecificDatabase(GlueClient glueClient, String databaseName) {
        try {
            GetDatabaseRequest databasesRequest = GetDatabaseRequest.builder()
                .name(databaseName)
                .build();

            GetDatabaseResponse response = glueClient.getDatabase(databasesRequest);
            Instant createDate = response.database().createTime();

            // Convert the Instant to readable date.
            DateTimeFormatter formatter = DateTimeFormatter.ofLocalizedDateTime(FormatStyle.SHORT)
                .withLocale(Locale.US)
                .withZone(ZoneId.systemDefault());

            formatter.format(createDate);
            System.out.println("The create date of the database is " + createDate);

        } catch (GlueException e) {
            throw e;
        }
    }


    /**
     * Retrieves the names of the tables in the specified Glue database.
     *
     * @param glueClient the Glue client to use for the operation
     * @param dbName     the name of the Glue database to retrieve the table names from
     * @return the name of the first table retrieved, or an empty string if no tables were found
     */
    public static String getGlueTables(GlueClient glueClient, String dbName) {
        String myTableName = "";
        try {
            GetTablesRequest tableRequest = GetTablesRequest.builder()
                .databaseName(dbName)
                .build();

            GetTablesResponse response = glueClient.getTables(tableRequest);
            List<Table> tables = response.tableList();
            if (tables.isEmpty()) {
                System.out.println("No tables were returned");
            } else {
                for (Table table : tables) {
                    myTableName = table.name();
                    System.out.println("Table name is: " + myTableName);
                }
            }

        } catch (GlueException e) {
            throw e;
        }
        return myTableName;
    }


    /**
     * Starts a job run in AWS Glue.
     *
     * @param glueClient    the AWS Glue client to use for the job run
     * @param jobName       the name of the Glue job to run
     * @param inputDatabase the name of the input database
     * @param inputTable    the name of the input table
     * @param outBucket     the URL of the output S3 bucket
     * @throws GlueException if there is an error starting the job run
     */
    public static void startJob(GlueClient glueClient, String jobName, String inputDatabase, String inputTable,
                                String outBucket) {
        try {
            Map<String, String> myMap = new HashMap<>();
            myMap.put("--input_database", inputDatabase);
            myMap.put("--input_table", inputTable);
            myMap.put("--output_bucket_url", outBucket);

            StartJobRunRequest runRequest = StartJobRunRequest.builder()
                .workerType(WorkerType.G_1_X)
                .numberOfWorkers(10)
                .arguments(myMap)
                .jobName(jobName)
                .build();

            StartJobRunResponse response = glueClient.startJobRun(runRequest);
            System.out.println("The request Id of the job is " + response.responseMetadata().requestId());

        } catch (GlueException e) {
            throw e;
        }
    }


    /**
     * Creates a new AWS Glue job.
     *
     * @param glueClient     the AWS Glue client to use for the operation
     * @param jobName        the name of the job to create
     * @param iam            the IAM role to associate with the job
     * @param scriptLocation the location of the script to be used by the job
     * @throws GlueException if there is an error creating the job
     */
    public static void createJob(GlueClient glueClient, String jobName, String iam, String scriptLocation) {
        try {
            JobCommand command = JobCommand.builder()
                .pythonVersion("3")
                .name("glueetl")
                .scriptLocation(scriptLocation)
                .build();

            CreateJobRequest jobRequest = CreateJobRequest.builder()
                .description("A Job created by using the AWS SDK for Java V2")
                .glueVersion("2.0")
                .workerType(WorkerType.G_1_X)
                .numberOfWorkers(10)
                .name(jobName)
                .role(iam)
                .command(command)
                .build();

            glueClient.createJob(jobRequest);
            System.out.println(jobName + " was successfully created.");

        } catch (GlueException e) {
            throw e;
        }
    }


    /**
     * Retrieves and prints information about all the jobs in the Glue data catalog.
     *
     * @param glueClient the Glue client used to interact with the AWS Glue service
     */
    public static void getAllJobs(GlueClient glueClient) {
        try {
            GetJobsRequest jobsRequest = GetJobsRequest.builder()
                .maxResults(10)
                .build();

            GetJobsResponse jobsResponse = glueClient.getJobs(jobsRequest);
            List<Job> jobs = jobsResponse.jobs();
            for (Job job : jobs) {
                System.out.println("Job name is : " + job.name());
                System.out.println("The job worker type is : " + job.workerType().name());
            }

        } catch (GlueException e) {
            throw e;
        }
    }

    /**
     * Retrieves the job runs for a given Glue job and prints the status of the job runs.
     *
     * @param glueClient the Glue client used to make API calls
     * @param jobName    the name of the Glue job to retrieve the job runs for
     */
    public static void getJobRuns(GlueClient glueClient, String jobName) {
        try {
            GetJobRunsRequest runsRequest = GetJobRunsRequest.builder()
                .jobName(jobName)
                .maxResults(20)
                .build();

            boolean jobDone = false;
            while (!jobDone) {
                GetJobRunsResponse response = glueClient.getJobRuns(runsRequest);
                List<JobRun> jobRuns = response.jobRuns();
                for (JobRun jobRun : jobRuns) {
                    String jobState = jobRun.jobRunState().name();
                    if (jobState.compareTo("SUCCEEDED") == 0) {
                        System.out.println(jobName + " has succeeded");
                        jobDone = true;

                    } else if (jobState.compareTo("STOPPED") == 0) {
                        System.out.println("Job run has stopped");
                        jobDone = true;

                    } else if (jobState.compareTo("FAILED") == 0) {
                        System.out.println("Job run has failed");
                        jobDone = true;

                    } else if (jobState.compareTo("TIMEOUT") == 0) {
                        System.out.println("Job run has timed out");
                        jobDone = true;

                    } else {
                        System.out.println("*** Job run state is " + jobRun.jobRunState().name());
                        System.out.println("Job run Id is " + jobRun.id());
                        System.out.println("The Glue version is " + jobRun.glueVersion());
                    }
                    TimeUnit.SECONDS.sleep(5);
                }
            }

        } catch (GlueException e) {
            throw e;
        } catch (InterruptedException e) {
            throw new RuntimeException(e);
        }
    }


    /**
     * Deletes a Glue job.
     *
     * @param glueClient the Glue client to use for the operation
     * @param jobName    the name of the job to be deleted
     * @throws GlueException if there is an error deleting the job
     */
    public static void deleteJob(GlueClient glueClient, String jobName) {
        try {
            DeleteJobRequest jobRequest = DeleteJobRequest.builder()
                .jobName(jobName)
                .build();

            glueClient.deleteJob(jobRequest);
            System.out.println(jobName + " was successfully deleted");

        } catch (GlueException e) {
            throw e;
        }
    }

    /**
     * Deletes a AWS Glue Database.
     *
     * @param glueClient   An instance of the AWS Glue client used to interact with the AWS Glue service.
     * @param databaseName The name of the database to be deleted.
     * @throws GlueException If an error occurs while deleting the database.
     */
    public static void deleteDatabase(GlueClient glueClient, String databaseName) {
        try {
            DeleteDatabaseRequest request = DeleteDatabaseRequest.builder()
                .name(databaseName)
                .build();

            glueClient.deleteDatabase(request);
            System.out.println(databaseName + " was successfully deleted");

        } catch (GlueException e) {
            throw e;
        }
    }


    /**
     * Deletes a specific AWS Glue crawler.
     *
     * @param glueClient  the AWS Glue client object
     * @param crawlerName the name of the crawler to be deleted
     * @throws GlueException if an error occurs during the deletion process
     */
    public static void deleteSpecificCrawler(GlueClient glueClient, String crawlerName) {
        try {
            DeleteCrawlerRequest deleteCrawlerRequest = DeleteCrawlerRequest.builder()
                .name(crawlerName)
                .build();

            glueClient.deleteCrawler(deleteCrawlerRequest);
            System.out.println(crawlerName + " was deleted");

        } catch (GlueException e) {
            throw e;
        }
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            System.out.println("");
            System.out.println("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                System.out.println("Continuing with the program...");
                System.out.println("");
                break;
            } else {
                // Handle invalid input.
                System.out.println("Invalid input. Please try again.");
            }
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateCrawler](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/CreateCrawler)
  + [CreateJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/CreateJob)
  + [DeleteCrawler](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/DeleteCrawler)
  + [DeleteDatabase](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/DeleteDatabase)
  + [DeleteJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/DeleteJob)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/DeleteTable)
  + [GetCrawler](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetCrawler)
  + [GetDatabase](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetDatabase)
  + [GetDatabases](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetDatabases)
  + [GetJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetJob)
  + [GetJobRun](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetJobRun)
  + [GetJobRuns](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetJobRuns)
  + [GetTables](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetTables)
  + [ListJobs](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/ListJobs)
  + [StartCrawler](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/StartCrawler)
  + [StartJobRun](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/StartJobRun)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Creates a new AWS Glue crawler using the AWS Glue Java API.
     *
     * @param glueClient  the AWS Glue client used to interact with the AWS Glue service
     * @param iam         the IAM role that the crawler will use to access the data source
     * @param s3Path      the S3 path that the crawler will scan for data
     * @param cron        the cron expression that defines the crawler's schedule
     * @param dbName      the name of the AWS Glue database where the crawler will store the metadata
     * @param crawlerName the name of the crawler to be created
     */
    public static void createGlueCrawler(GlueClient glueClient,
                                         String iam,
                                         String s3Path,
                                         String cron,
                                         String dbName,
                                         String crawlerName) {

        try {
            S3Target s3Target = S3Target.builder()
                .path(s3Path)
                .build();

            List<S3Target> targetList = new ArrayList<>();
            targetList.add(s3Target);
            CrawlerTargets targets = CrawlerTargets.builder()
                .s3Targets(targetList)
                .build();

            CreateCrawlerRequest crawlerRequest = CreateCrawlerRequest.builder()
                .databaseName(dbName)
                .name(crawlerName)
                .description("Created by the AWS Glue Java API")
                .targets(targets)
                .role(iam)
                .schedule(cron)
                .build();

            glueClient.createCrawler(crawlerRequest);
            System.out.println(crawlerName + " was successfully created");

        } catch (GlueException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/CreateCrawler)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateJob`
<a name="glue_CreateJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Creates a new AWS Glue job.
     *
     * @param glueClient     the AWS Glue client to use for the operation
     * @param jobName        the name of the job to create
     * @param iam            the IAM role to associate with the job
     * @param scriptLocation the location of the script to be used by the job
     * @throws GlueException if there is an error creating the job
     */
    public static void createJob(GlueClient glueClient, String jobName, String iam, String scriptLocation) {
        try {
            JobCommand command = JobCommand.builder()
                .pythonVersion("3")
                .name("glueetl")
                .scriptLocation(scriptLocation)
                .build();

            CreateJobRequest jobRequest = CreateJobRequest.builder()
                .description("A Job created by using the AWS SDK for Java V2")
                .glueVersion("2.0")
                .workerType(WorkerType.G_1_X)
                .numberOfWorkers(10)
                .name(jobName)
                .role(iam)
                .command(command)
                .build();

            glueClient.createJob(jobRequest);
            System.out.println(jobName + " was successfully created.");

        } catch (GlueException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/CreateJob)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Deletes a specific AWS Glue crawler.
     *
     * @param glueClient  the AWS Glue client object
     * @param crawlerName the name of the crawler to be deleted
     * @throws GlueException if an error occurs during the deletion process
     */
    public static void deleteSpecificCrawler(GlueClient glueClient, String crawlerName) {
        try {
            DeleteCrawlerRequest deleteCrawlerRequest = DeleteCrawlerRequest.builder()
                .name(crawlerName)
                .build();

            glueClient.deleteCrawler(deleteCrawlerRequest);
            System.out.println(crawlerName + " was deleted");

        } catch (GlueException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/DeleteCrawler)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Deletes a AWS Glue Database.
     *
     * @param glueClient   An instance of the AWS Glue client used to interact with the AWS Glue service.
     * @param databaseName The name of the database to be deleted.
     * @throws GlueException If an error occurs while deleting the database.
     */
    public static void deleteDatabase(GlueClient glueClient, String databaseName) {
        try {
            DeleteDatabaseRequest request = DeleteDatabaseRequest.builder()
                .name(databaseName)
                .build();

            glueClient.deleteDatabase(request);
            System.out.println(databaseName + " was successfully deleted");

        } catch (GlueException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/DeleteDatabase)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteJob`
<a name="glue_DeleteJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Deletes a Glue job.
     *
     * @param glueClient the Glue client to use for the operation
     * @param jobName    the name of the job to be deleted
     * @throws GlueException if there is an error deleting the job
     */
    public static void deleteJob(GlueClient glueClient, String jobName) {
        try {
            DeleteJobRequest jobRequest = DeleteJobRequest.builder()
                .jobName(jobName)
                .build();

            glueClient.deleteJob(jobRequest);
            System.out.println(jobName + " was successfully deleted");

        } catch (GlueException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DeleteJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/DeleteJob)di *Referensi AWS SDK for Java 2.x API*. 

### `GetCrawler`
<a name="glue_GetCrawler_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Retrieves a specific crawler from the AWS Glue service and waits for it to be in the "READY" state.
     *
     * @param glueClient  the AWS Glue client used to interact with the Glue service
     * @param crawlerName the name of the crawler to be retrieved
     */
    public static void getSpecificCrawler(GlueClient glueClient, String crawlerName) throws InterruptedException {
        try {
            GetCrawlerRequest crawlerRequest = GetCrawlerRequest.builder()
                .name(crawlerName)
                .build();

            boolean ready = false;
            while (!ready) {
                GetCrawlerResponse response = glueClient.getCrawler(crawlerRequest);
                String status = response.crawler().stateAsString();
                if (status.compareTo("READY") == 0) {
                    ready = true;
                }
                Thread.sleep(3000);
            }

            System.out.println("The crawler is now ready");

        } catch (GlueException | InterruptedException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [GetCrawler](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetCrawler)di *Referensi AWS SDK for Java 2.x API*. 

### `GetDatabase`
<a name="glue_GetDatabase_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Retrieves the specific database from the AWS Glue service.
     *
     * @param glueClient   an instance of the AWS Glue client used to interact with the service
     * @param databaseName the name of the database to retrieve
     * @throws GlueException if there is an error retrieving the database from the AWS Glue service
     */
    public static void getSpecificDatabase(GlueClient glueClient, String databaseName) {
        try {
            GetDatabaseRequest databasesRequest = GetDatabaseRequest.builder()
                .name(databaseName)
                .build();

            GetDatabaseResponse response = glueClient.getDatabase(databasesRequest);
            Instant createDate = response.database().createTime();

            // Convert the Instant to readable date.
            DateTimeFormatter formatter = DateTimeFormatter.ofLocalizedDateTime(FormatStyle.SHORT)
                .withLocale(Locale.US)
                .withZone(ZoneId.systemDefault());

            formatter.format(createDate);
            System.out.println("The create date of the database is " + createDate);

        } catch (GlueException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [GetDatabase](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetDatabase)di *Referensi AWS SDK for Java 2.x API*. 

### `GetJobRuns`
<a name="glue_GetJobRuns_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Retrieves the job runs for a given Glue job and prints the status of the job runs.
     *
     * @param glueClient the Glue client used to make API calls
     * @param jobName    the name of the Glue job to retrieve the job runs for
     */
    public static void getJobRuns(GlueClient glueClient, String jobName) {
        try {
            GetJobRunsRequest runsRequest = GetJobRunsRequest.builder()
                .jobName(jobName)
                .maxResults(20)
                .build();

            boolean jobDone = false;
            while (!jobDone) {
                GetJobRunsResponse response = glueClient.getJobRuns(runsRequest);
                List<JobRun> jobRuns = response.jobRuns();
                for (JobRun jobRun : jobRuns) {
                    String jobState = jobRun.jobRunState().name();
                    if (jobState.compareTo("SUCCEEDED") == 0) {
                        System.out.println(jobName + " has succeeded");
                        jobDone = true;

                    } else if (jobState.compareTo("STOPPED") == 0) {
                        System.out.println("Job run has stopped");
                        jobDone = true;

                    } else if (jobState.compareTo("FAILED") == 0) {
                        System.out.println("Job run has failed");
                        jobDone = true;

                    } else if (jobState.compareTo("TIMEOUT") == 0) {
                        System.out.println("Job run has timed out");
                        jobDone = true;

                    } else {
                        System.out.println("*** Job run state is " + jobRun.jobRunState().name());
                        System.out.println("Job run Id is " + jobRun.id());
                        System.out.println("The Glue version is " + jobRun.glueVersion());
                    }
                    TimeUnit.SECONDS.sleep(5);
                }
            }

        } catch (GlueException e) {
            throw e;
        } catch (InterruptedException e) {
            throw new RuntimeException(e);
        }
    }
```
+  Untuk detail API, lihat [GetJobRuns](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetJobRuns)di *Referensi AWS SDK for Java 2.x API*. 

### `GetTables`
<a name="glue_GetTables_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Retrieves the names of the tables in the specified Glue database.
     *
     * @param glueClient the Glue client to use for the operation
     * @param dbName     the name of the Glue database to retrieve the table names from
     * @return the name of the first table retrieved, or an empty string if no tables were found
     */
    public static String getGlueTables(GlueClient glueClient, String dbName) {
        String myTableName = "";
        try {
            GetTablesRequest tableRequest = GetTablesRequest.builder()
                .databaseName(dbName)
                .build();

            GetTablesResponse response = glueClient.getTables(tableRequest);
            List<Table> tables = response.tableList();
            if (tables.isEmpty()) {
                System.out.println("No tables were returned");
            } else {
                for (Table table : tables) {
                    myTableName = table.name();
                    System.out.println("Table name is: " + myTableName);
                }
            }

        } catch (GlueException e) {
            throw e;
        }
        return myTableName;
    }
```
+  Untuk detail API, lihat [GetTables](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/GetTables)di *Referensi AWS SDK for Java 2.x API*. 

### `StartCrawler`
<a name="glue_StartCrawler_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Starts a specific AWS Glue crawler.
     *
     * @param glueClient  the AWS Glue client to use for the crawler operation
     * @param crawlerName the name of the crawler to start
     * @throws GlueException if there is an error starting the crawler
     */
    public static void startSpecificCrawler(GlueClient glueClient, String crawlerName) {
        try {
            StartCrawlerRequest crawlerRequest = StartCrawlerRequest.builder()
                .name(crawlerName)
                .build();

            glueClient.startCrawler(crawlerRequest);
            System.out.println(crawlerName + " was successfully started!");

        } catch (GlueException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [StartCrawler](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/StartCrawler)di *Referensi AWS SDK for Java 2.x API*. 

### `StartJobRun`
<a name="glue_StartJobRun_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/glue#code-examples). 

```
    /**
     * Starts a job run in AWS Glue.
     *
     * @param glueClient    the AWS Glue client to use for the job run
     * @param jobName       the name of the Glue job to run
     * @param inputDatabase the name of the input database
     * @param inputTable    the name of the input table
     * @param outBucket     the URL of the output S3 bucket
     * @throws GlueException if there is an error starting the job run
     */
    public static void startJob(GlueClient glueClient, String jobName, String inputDatabase, String inputTable,
                                String outBucket) {
        try {
            Map<String, String> myMap = new HashMap<>();
            myMap.put("--input_database", inputDatabase);
            myMap.put("--input_table", inputTable);
            myMap.put("--output_bucket_url", outBucket);

            StartJobRunRequest runRequest = StartJobRunRequest.builder()
                .workerType(WorkerType.G_1_X)
                .numberOfWorkers(10)
                .arguments(myMap)
                .jobName(jobName)
                .build();

            StartJobRunResponse response = glueClient.startJobRun(runRequest);
            System.out.println("The request Id of the job is " + response.responseMetadata().requestId());

        } catch (GlueException e) {
            throw e;
        }
    }
```
+  Untuk detail API, lihat [StartJobRun](https://docs.aws.amazon.com/goto/SdkForJavaV2/glue-2017-03-31/StartJobRun)di *Referensi AWS SDK for Java 2.x API*. 

# HealthImaging contoh menggunakan SDK for Java 2.x
<a name="java_2_medical-imaging_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with HealthImaging.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CopyImageSet`
<a name="medical-imaging_CopyImageSet_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyImageSet`.

**SDK untuk Java 2.x**  

```
    /**
     * Copy an AWS HealthImaging image set.
     *
     * @param medicalImagingClient  - The AWS HealthImaging client object.
     * @param datastoreId           - The datastore ID.
     * @param imageSetId            - The image set ID.
     * @param latestVersionId       - The version ID.
     * @param destinationImageSetId - The optional destination image set ID, ignored if null.
     * @param destinationVersionId  - The optional destination version ID, ignored if null.
     * @param force                 - The force flag.
     * @param subsets               - The optional subsets to copy, ignored if null.
     * @return                      - The image set ID of the copy.
     * @throws MedicalImagingException - Base exception for all service exceptions thrown by AWS HealthImaging.
     */
    public static String copyMedicalImageSet(MedicalImagingClient medicalImagingClient,
                                             String datastoreId,
                                             String imageSetId,
                                             String latestVersionId,
                                             String destinationImageSetId,
                                             String destinationVersionId,
                                             boolean force,
                                             Vector<String> subsets) {

        try {
            CopySourceImageSetInformation.Builder copySourceImageSetInformation = CopySourceImageSetInformation.builder()
                    .latestVersionId(latestVersionId);

            // Optionally copy a subset of image instances.
            if (subsets != null) {
                String subsetInstanceToCopy = getCopiableAttributesJSON(imageSetId, subsets);
                copySourceImageSetInformation.dicomCopies(MetadataCopies.builder()
                        .copiableAttributes(subsetInstanceToCopy)
                        .build());
            }

            CopyImageSetInformation.Builder copyImageSetBuilder = CopyImageSetInformation.builder()
                    .sourceImageSet(copySourceImageSetInformation.build());

            // Optionally designate a destination image set.
            if (destinationImageSetId != null) {
                copyImageSetBuilder = copyImageSetBuilder.destinationImageSet(CopyDestinationImageSet.builder()
                        .imageSetId(destinationImageSetId)
                        .latestVersionId(destinationVersionId)
                        .build());
            }

            CopyImageSetRequest copyImageSetRequest = CopyImageSetRequest.builder()
                    .datastoreId(datastoreId)
                    .sourceImageSetId(imageSetId)
                    .copyImageSetInformation(copyImageSetBuilder.build())
                    .force(force)
                    .build();

            CopyImageSetResponse response = medicalImagingClient.copyImageSet(copyImageSetRequest);

            return response.destinationImageSetProperties().imageSetId();
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            throw e;
        }
    }
```
Fungsi utilitas untuk membuat atribut yang dapat disalin.  

```
    /**
     * Create a JSON string of copiable image instances.
     *
     * @param imageSetId - The image set ID.
     * @param subsets    - The subsets to copy.
     * @return A JSON string of copiable image instances.
     */
    private static String getCopiableAttributesJSON(String imageSetId, Vector<String> subsets) {
        StringBuilder subsetInstanceToCopy = new StringBuilder(
                """
                        {
                          "SchemaVersion": 1.1,
                          "Study": {
                            "Series": {
                                "
                                 """
        );

        subsetInstanceToCopy.append(imageSetId);

        subsetInstanceToCopy.append(
                """
                                ": {
                                "Instances": {
                        """
        );

        for (String subset : subsets) {
            subsetInstanceToCopy.append('"' + subset + "\": {},");
        }
        subsetInstanceToCopy.deleteCharAt(subsetInstanceToCopy.length() - 1);
        subsetInstanceToCopy.append("""
                         }
                       }
                    }
                  }
                }
                """);
        return subsetInstanceToCopy.toString();
    }
```
+  Untuk detail API, lihat [CopyImageSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/CopyImageSet)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `CreateDatastore`
<a name="medical-imaging_CreateDatastore_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatastore`.

**SDK untuk Java 2.x**  

```
    public static String createMedicalImageDatastore(MedicalImagingClient medicalImagingClient,
            String datastoreName) {
        try {
            CreateDatastoreRequest datastoreRequest = CreateDatastoreRequest.builder()
                    .datastoreName(datastoreName)
                    .build();
            CreateDatastoreResponse response = medicalImagingClient.createDatastore(datastoreRequest);
            return response.datastoreId();
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return "";
    }
```
+  Untuk detail API, lihat [CreateDatastore](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/CreateDatastore)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `DeleteDatastore`
<a name="medical-imaging_DeleteDatastore_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatastore`.

**SDK untuk Java 2.x**  

```
    public static void deleteMedicalImagingDatastore(MedicalImagingClient medicalImagingClient,
            String datastoreID) {
        try {
            DeleteDatastoreRequest datastoreRequest = DeleteDatastoreRequest.builder()
                    .datastoreId(datastoreID)
                    .build();
            medicalImagingClient.deleteDatastore(datastoreRequest);
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteDatastore](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/DeleteDatastore)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `DeleteImageSet`
<a name="medical-imaging_DeleteImageSet_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteImageSet`.

**SDK untuk Java 2.x**  

```
    public static void deleteMedicalImageSet(MedicalImagingClient medicalImagingClient,
            String datastoreId,
            String imagesetId) {
        try {
            DeleteImageSetRequest deleteImageSetRequest = DeleteImageSetRequest.builder()
                    .datastoreId(datastoreId)
                    .imageSetId(imagesetId)
                    .build();

            medicalImagingClient.deleteImageSet(deleteImageSetRequest);

            System.out.println("The image set was deleted.");
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteImageSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/DeleteImageSet)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `GetDICOMImportJob`
<a name="medical-imaging_GetDICOMImportJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDICOMImportJob`.

**SDK untuk Java 2.x**  

```
    public static DICOMImportJobProperties getDicomImportJob(MedicalImagingClient medicalImagingClient,
            String datastoreId,
            String jobId) {

        try {
            GetDicomImportJobRequest getDicomImportJobRequest = GetDicomImportJobRequest.builder()
                    .datastoreId(datastoreId)
                    .jobId(jobId)
                    .build();
            GetDicomImportJobResponse response = medicalImagingClient.getDICOMImportJob(getDicomImportJobRequest);
            return response.jobProperties();
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
+  Untuk detail API, lihat [Mendapatkan DICOMImport Job](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/GetDICOMImportJob) di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `GetDatastore`
<a name="medical-imaging_GetDatastore_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatastore`.

**SDK untuk Java 2.x**  

```
    public static DatastoreProperties getMedicalImageDatastore(MedicalImagingClient medicalImagingClient,
            String datastoreID) {
        try {
            GetDatastoreRequest datastoreRequest = GetDatastoreRequest.builder()
                    .datastoreId(datastoreID)
                    .build();
            GetDatastoreResponse response = medicalImagingClient.getDatastore(datastoreRequest);
            return response.datastoreProperties();
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
+  Untuk detail API, lihat [GetDatastore](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/GetDatastore)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `GetImageFrame`
<a name="medical-imaging_GetImageFrame_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageFrame`.

**SDK untuk Java 2.x**  

```
        public static void getMedicalImageSetFrame(MedicalImagingClient medicalImagingClient,
                        String destinationPath,
                        String datastoreId,
                        String imagesetId,
                        String imageFrameId) {

                try {
                        GetImageFrameRequest getImageSetMetadataRequest = GetImageFrameRequest.builder()
                                        .datastoreId(datastoreId)
                                        .imageSetId(imagesetId)
                                        .imageFrameInformation(ImageFrameInformation.builder()
                                                        .imageFrameId(imageFrameId)
                                                        .build())
                                        .build();
                        medicalImagingClient.getImageFrame(getImageSetMetadataRequest,
                                        FileSystems.getDefault().getPath(destinationPath));

                        System.out.println("Image frame downloaded to " + destinationPath);
                } catch (MedicalImagingException e) {
                        System.err.println(e.awsErrorDetails().errorMessage());
                        System.exit(1);
                }
        }
```
+  Untuk detail API, lihat [GetImageFrame](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/GetImageFrame)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `GetImageSet`
<a name="medical-imaging_GetImageSet_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSet`.

**SDK untuk Java 2.x**  

```
    public static GetImageSetResponse getMedicalImageSet(MedicalImagingClient medicalImagingClient,
            String datastoreId,
            String imagesetId,
            String versionId) {
        try {
            GetImageSetRequest.Builder getImageSetRequestBuilder = GetImageSetRequest.builder()
                    .datastoreId(datastoreId)
                    .imageSetId(imagesetId);

            if (versionId != null) {
                getImageSetRequestBuilder = getImageSetRequestBuilder.versionId(versionId);
            }

            return medicalImagingClient.getImageSet(getImageSetRequestBuilder.build());
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
+  Untuk detail API, lihat [GetImageSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/GetImageSet)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `GetImageSetMetadata`
<a name="medical-imaging_GetImageSetMetadata_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSetMetadata`.

**SDK untuk Java 2.x**  

```
    public static void getMedicalImageSetMetadata(MedicalImagingClient medicalImagingClient,
            String destinationPath,
            String datastoreId,
            String imagesetId,
            String versionId) {

        try {
            GetImageSetMetadataRequest.Builder getImageSetMetadataRequestBuilder = GetImageSetMetadataRequest.builder()
                    .datastoreId(datastoreId)
                    .imageSetId(imagesetId);

            if (versionId != null) {
                getImageSetMetadataRequestBuilder = getImageSetMetadataRequestBuilder.versionId(versionId);
            }

            medicalImagingClient.getImageSetMetadata(getImageSetMetadataRequestBuilder.build(),
                    FileSystems.getDefault().getPath(destinationPath));

            System.out.println("Metadata downloaded to " + destinationPath);
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [GetImageSetMetadata](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/GetImageSetMetadata)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `ListDICOMImportJobs`
<a name="medical-imaging_ListDICOMImportJobs_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDICOMImportJobs`.

**SDK untuk Java 2.x**  

```
    public static List<DICOMImportJobSummary> listDicomImportJobs(MedicalImagingClient medicalImagingClient,
            String datastoreId) {

        try {
            ListDicomImportJobsRequest listDicomImportJobsRequest = ListDicomImportJobsRequest.builder()
                    .datastoreId(datastoreId)
                    .build();
            ListDicomImportJobsResponse response = medicalImagingClient.listDICOMImportJobs(listDicomImportJobsRequest);
            return response.jobSummaries();
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return new ArrayList<>();
    }
```
+  Untuk detail API, lihat [Daftar DICOMImport Pekerjaan](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/ListDICOMImportJobs) di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `ListDatastores`
<a name="medical-imaging_ListDatastores_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatastores`.

**SDK untuk Java 2.x**  

```
    public static List<DatastoreSummary> listMedicalImagingDatastores(MedicalImagingClient medicalImagingClient) {
        try {
            ListDatastoresRequest datastoreRequest = ListDatastoresRequest.builder()
                    .build();
            ListDatastoresIterable responses = medicalImagingClient.listDatastoresPaginator(datastoreRequest);
            List<DatastoreSummary> datastoreSummaries = new ArrayList<>();

            responses.stream().forEach(response -> datastoreSummaries.addAll(response.datastoreSummaries()));

            return datastoreSummaries;
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
+  Untuk detail API, lihat [ListDatastores](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/ListDatastores)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `ListImageSetVersions`
<a name="medical-imaging_ListImageSetVersions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListImageSetVersions`.

**SDK untuk Java 2.x**  

```
    public static List<ImageSetProperties> listMedicalImageSetVersions(MedicalImagingClient medicalImagingClient,
            String datastoreId,
            String imagesetId) {
        try {
            ListImageSetVersionsRequest getImageSetRequest = ListImageSetVersionsRequest.builder()
                    .datastoreId(datastoreId)
                    .imageSetId(imagesetId)
                    .build();

            ListImageSetVersionsIterable responses = medicalImagingClient
                    .listImageSetVersionsPaginator(getImageSetRequest);
            List<ImageSetProperties> imageSetProperties = new ArrayList<>();
            responses.stream().forEach(response -> imageSetProperties.addAll(response.imageSetPropertiesList()));

            return imageSetProperties;
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
+  Untuk detail API, lihat [ListImageSetVersions](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/ListImageSetVersions)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `ListTagsForResource`
<a name="medical-imaging_ListTagsForResource_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForResource`.

**SDK untuk Java 2.x**  

```
    public static ListTagsForResourceResponse listMedicalImagingResourceTags(MedicalImagingClient medicalImagingClient,
            String resourceArn) {
        try {
            ListTagsForResourceRequest listTagsForResourceRequest = ListTagsForResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .build();

            return medicalImagingClient.listTagsForResource(listTagsForResourceRequest);
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/ListTagsForResource)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `SearchImageSets`
<a name="medical-imaging_SearchImageSets_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchImageSets`.

**SDK untuk Java 2.x**  
Fungsi utilitas untuk mencari set gambar.  

```
    public static List<ImageSetsMetadataSummary> searchMedicalImagingImageSets(
            MedicalImagingClient medicalImagingClient,
            String datastoreId, SearchCriteria searchCriteria) {
        try {
            SearchImageSetsRequest datastoreRequest = SearchImageSetsRequest.builder()
                    .datastoreId(datastoreId)
                    .searchCriteria(searchCriteria)
                    .build();
            SearchImageSetsIterable responses = medicalImagingClient
                    .searchImageSetsPaginator(datastoreRequest);
            List<ImageSetsMetadataSummary> imageSetsMetadataSummaries = new ArrayList<>();

            responses.stream().forEach(response -> imageSetsMetadataSummaries
                    .addAll(response.imageSetsMetadataSummaries()));

            return imageSetsMetadataSummaries;
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
Kasus penggunaan \$11: operator EQUAL.  

```
        List<SearchFilter> searchFilters = Collections.singletonList(SearchFilter.builder()
                .operator(Operator.EQUAL)
                .values(SearchByAttributeValue.builder()
                        .dicomPatientId(patientId)
                        .build())
                .build());

        SearchCriteria searchCriteria = SearchCriteria.builder()
                .filters(searchFilters)
                .build();

        List<ImageSetsMetadataSummary> imageSetsMetadataSummaries = searchMedicalImagingImageSets(
                medicalImagingClient,
                datastoreId, searchCriteria);
        if (imageSetsMetadataSummaries != null) {
            System.out.println("The image sets for patient " + patientId + " are:\n"
                    + imageSetsMetadataSummaries);
            System.out.println();
        }
```
Kasus penggunaan \$12: ANTARA operator menggunakan DICOMStudy Tanggal dan DICOMStudy Waktu.   

```
        DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyyMMdd");
        searchFilters = Collections.singletonList(SearchFilter.builder()
                .operator(Operator.BETWEEN)
                .values(SearchByAttributeValue.builder()
                                .dicomStudyDateAndTime(DICOMStudyDateAndTime.builder()
                                        .dicomStudyDate("19990101")
                                        .dicomStudyTime("000000.000")
                                        .build())
                                .build(),
                        SearchByAttributeValue.builder()
                                .dicomStudyDateAndTime(DICOMStudyDateAndTime.builder()
                                        .dicomStudyDate((LocalDate.now()
                                                .format(formatter)))
                                        .dicomStudyTime("000000.000")
                                        .build())
                                .build())
                .build());

        searchCriteria = SearchCriteria.builder()
                .filters(searchFilters)
                .build();

        imageSetsMetadataSummaries = searchMedicalImagingImageSets(medicalImagingClient,
                datastoreId, searchCriteria);
        if (imageSetsMetadataSummaries != null) {
            System.out.println(
                    "The image sets searched with BETWEEN operator using DICOMStudyDate and DICOMStudyTime are:\n"
                            +
                            imageSetsMetadataSummaries);
            System.out.println();
        }
```
Kasus penggunaan \$13: ANTARA operator menggunakan createDat. Studi waktu sebelumnya bertahan.   

```
        searchFilters = Collections.singletonList(SearchFilter.builder()
                .operator(Operator.BETWEEN)
                .values(SearchByAttributeValue.builder()
                                .createdAt(Instant.parse("1985-04-12T23:20:50.52Z"))
                                .build(),
                        SearchByAttributeValue.builder()
                                .createdAt(Instant.now())
                                .build())
                .build());

        searchCriteria = SearchCriteria.builder()
                .filters(searchFilters)
                .build();
        imageSetsMetadataSummaries = searchMedicalImagingImageSets(medicalImagingClient,
                datastoreId, searchCriteria);
        if (imageSetsMetadataSummaries != null) {
            System.out.println("The image sets searched with BETWEEN operator using createdAt are:\n "
                    + imageSetsMetadataSummaries);
            System.out.println();
        }
```
Kasus penggunaan \$14: Operator EQUAL di DICOMSeries InstanceUID dan BETWEET di UpdateDAT dan mengurutkan respons dalam urutan ASC di bidang UpdateDAT.   

```
        Instant startDate = Instant.parse("1985-04-12T23:20:50.52Z");
        Instant endDate = Instant.now();

        searchFilters = Arrays.asList(
                SearchFilter.builder()
                        .operator(Operator.EQUAL)
                        .values(SearchByAttributeValue.builder()
                                .dicomSeriesInstanceUID(seriesInstanceUID)
                                .build())
                        .build(),
                SearchFilter.builder()
                        .operator(Operator.BETWEEN)
                        .values(
                                SearchByAttributeValue.builder().updatedAt(startDate).build(),
                                SearchByAttributeValue.builder().updatedAt(endDate).build()
                        ).build());

        Sort sort = Sort.builder().sortOrder(SortOrder.ASC).sortField(SortField.UPDATED_AT).build();

        searchCriteria = SearchCriteria.builder()
                .filters(searchFilters)
                .sort(sort)
                .build();

        imageSetsMetadataSummaries = searchMedicalImagingImageSets(medicalImagingClient,
                datastoreId, searchCriteria);
        if (imageSetsMetadataSummaries != null) {
            System.out.println("The image sets searched with EQUAL operator on DICOMSeriesInstanceUID and BETWEEN on updatedAt and sort response\n" +
                    "in ASC order on updatedAt field are:\n "
                    + imageSetsMetadataSummaries);
            System.out.println();
        }
```
+  Untuk detail API, lihat [SearchImageSets](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/SearchImageSets)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `StartDICOMImportJob`
<a name="medical-imaging_StartDICOMImportJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDICOMImportJob`.

**SDK untuk Java 2.x**  

```
    public static String startDicomImportJob(MedicalImagingClient medicalImagingClient,
            String jobName,
            String datastoreId,
            String dataAccessRoleArn,
            String inputS3Uri,
            String outputS3Uri) {

        try {
            StartDicomImportJobRequest startDicomImportJobRequest = StartDicomImportJobRequest.builder()
                    .jobName(jobName)
                    .datastoreId(datastoreId)
                    .dataAccessRoleArn(dataAccessRoleArn)
                    .inputS3Uri(inputS3Uri)
                    .outputS3Uri(outputS3Uri)
                    .build();
            StartDicomImportJobResponse response = medicalImagingClient.startDICOMImportJob(startDicomImportJobRequest);
            return response.jobId();
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return "";
    }
```
+  Untuk detail API, lihat [Memulai DICOMImport Job](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/StartDICOMImportJob) di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `TagResource`
<a name="medical-imaging_TagResource_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk Java 2.x**  

```
    public static void tagMedicalImagingResource(MedicalImagingClient medicalImagingClient,
            String resourceArn,
            Map<String, String> tags) {
        try {
            TagResourceRequest tagResourceRequest = TagResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .tags(tags)
                    .build();

            medicalImagingClient.tagResource(tagResourceRequest);

            System.out.println("Tags have been added to the resource.");
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/TagResource)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `UntagResource`
<a name="medical-imaging_UntagResource_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UntagResource`.

**SDK untuk Java 2.x**  

```
    public static void untagMedicalImagingResource(MedicalImagingClient medicalImagingClient,
            String resourceArn,
            Collection<String> tagKeys) {
        try {
            UntagResourceRequest untagResourceRequest = UntagResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .tagKeys(tagKeys)
                    .build();

            medicalImagingClient.untagResource(untagResourceRequest);

            System.out.println("Tags have been removed from the resource.");
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/UntagResource)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### `UpdateImageSetMetadata`
<a name="medical-imaging_UpdateImageSetMetadata_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateImageSetMetadata`.

**SDK untuk Java 2.x**  

```
    /**
     * Update the metadata of an AWS HealthImaging image set.
     *
     * @param medicalImagingClient - The AWS HealthImaging client object.
     * @param datastoreId          - The datastore ID.
     * @param imageSetId           - The image set ID.
     * @param versionId            - The version ID.
     * @param metadataUpdates      - A MetadataUpdates object containing the updates.
     * @param force                - The force flag.
     * @throws MedicalImagingException - Base exception for all service exceptions thrown by AWS HealthImaging.
     */
    public static void updateMedicalImageSetMetadata(MedicalImagingClient medicalImagingClient,
                                                     String datastoreId,
                                                     String imageSetId,
                                                     String versionId,
                                                     MetadataUpdates metadataUpdates,
                                                     boolean force) {
        try {
            UpdateImageSetMetadataRequest updateImageSetMetadataRequest = UpdateImageSetMetadataRequest
                    .builder()
                    .datastoreId(datastoreId)
                    .imageSetId(imageSetId)
                    .latestVersionId(versionId)
                    .updateImageSetMetadataUpdates(metadataUpdates)
                    .force(force)
                    .build();

            UpdateImageSetMetadataResponse response = medicalImagingClient.updateImageSetMetadata(updateImageSetMetadataRequest);

            System.out.println("The image set metadata was updated" + response);
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            throw e;
        }
    }
```
Kasus penggunaan \$11: Menyisipkan atau memperbarui atribut.  

```
                final String insertAttributes = """
                        {
                          "SchemaVersion": 1.1,
                          "Study": {
                            "DICOM": {
                              "StudyDescription": "CT CHEST"
                            }
                          }
                        }
                        """;
                MetadataUpdates metadataInsertUpdates = MetadataUpdates.builder()
                        .dicomUpdates(DICOMUpdates.builder()
                                .updatableAttributes(SdkBytes.fromByteBuffer(
                                        ByteBuffer.wrap(insertAttributes
                                                .getBytes(StandardCharsets.UTF_8))))
                                .build())
                        .build();

                updateMedicalImageSetMetadata(medicalImagingClient, datastoreId, imagesetId,
                        versionid, metadataInsertUpdates, force);
```
Use case \$12: Hapus atribut.  

```
                final String removeAttributes = """
                        {
                          "SchemaVersion": 1.1,
                          "Study": {
                            "DICOM": {
                              "StudyDescription": "CT CHEST"
                            }
                          }
                        }
                        """;
                MetadataUpdates metadataRemoveUpdates = MetadataUpdates.builder()
                        .dicomUpdates(DICOMUpdates.builder()
                                .removableAttributes(SdkBytes.fromByteBuffer(
                                        ByteBuffer.wrap(removeAttributes
                                                .getBytes(StandardCharsets.UTF_8))))
                                .build())
                        .build();

                updateMedicalImageSetMetadata(medicalImagingClient, datastoreId, imagesetId,
                        versionid, metadataRemoveUpdates, force);
```
Use case \$13: Hapus sebuah instance.  

```
                final String removeInstance = """
                        {
                          "SchemaVersion": 1.1,
                          "Study": {
                            "Series": {
                              "1.1.1.1.1.1.12345.123456789012.123.12345678901234.1": {
                                "Instances": {
                                  "1.1.1.1.1.1.12345.123456789012.123.12345678901234.1": {}
                                }
                              }
                            }
                          }
                        }      
                        """;
                MetadataUpdates metadataRemoveUpdates = MetadataUpdates.builder()
                        .dicomUpdates(DICOMUpdates.builder()
                                .removableAttributes(SdkBytes.fromByteBuffer(
                                        ByteBuffer.wrap(removeInstance
                                                .getBytes(StandardCharsets.UTF_8))))
                                .build())
                        .build();

                updateMedicalImageSetMetadata(medicalImagingClient, datastoreId, imagesetId,
                        versionid, metadataRemoveUpdates, force);
```
Kasus penggunaan \$14: Kembalikan ke versi sebelumnya.  

```
                // In this case, revert to previous version.
                String revertVersionId = Integer.toString(Integer.parseInt(versionid) - 1);
                MetadataUpdates metadataRemoveUpdates = MetadataUpdates.builder()
                        .revertToVersionId(revertVersionId)
                        .build();
                updateMedicalImageSetMetadata(medicalImagingClient, datastoreId, imagesetId,
                        versionid, metadataRemoveUpdates, force);
```
+  Untuk detail API, lihat [UpdateImageSetMetadata](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/UpdateImageSetMetadata)di *Referensi AWS SDK for Java 2.x API*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

## Skenario
<a name="scenarios"></a>

### Menandai penyimpanan data
<a name="medical-imaging_Scenario_TaggingDataStores_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menandai penyimpanan HealthImaging data.

**SDK untuk Java 2.x**  
Untuk menandai penyimpanan data.  

```
                final String datastoreArn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012";

                TagResource.tagMedicalImagingResource(medicalImagingClient, datastoreArn,
                                ImmutableMap.of("Deployment", "Development"));
```
Fungsi utilitas untuk menandai sumber daya.  

```
    public static void tagMedicalImagingResource(MedicalImagingClient medicalImagingClient,
            String resourceArn,
            Map<String, String> tags) {
        try {
            TagResourceRequest tagResourceRequest = TagResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .tags(tags)
                    .build();

            medicalImagingClient.tagResource(tagResourceRequest);

            System.out.println("Tags have been added to the resource.");
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
Untuk daftar tag untuk penyimpanan data.  

```
                final String datastoreArn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012";

                ListTagsForResourceResponse result = ListTagsForResource.listMedicalImagingResourceTags(
                                medicalImagingClient,
                                datastoreArn);
                if (result != null) {
                        System.out.println("Tags for resource: " + result.tags());
                }
```
Fungsi utilitas untuk daftar tag sumber daya.  

```
    public static ListTagsForResourceResponse listMedicalImagingResourceTags(MedicalImagingClient medicalImagingClient,
            String resourceArn) {
        try {
            ListTagsForResourceRequest listTagsForResourceRequest = ListTagsForResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .build();

            return medicalImagingClient.listTagsForResource(listTagsForResourceRequest);
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
Untuk menghapus tag penyimpanan data.  

```
                final String datastoreArn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012";

                UntagResource.untagMedicalImagingResource(medicalImagingClient, datastoreArn,
                                Collections.singletonList("Deployment"));
```
Fungsi utilitas untuk membuka tag sumber daya.  

```
    public static void untagMedicalImagingResource(MedicalImagingClient medicalImagingClient,
            String resourceArn,
            Collection<String> tagKeys) {
        try {
            UntagResourceRequest untagResourceRequest = UntagResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .tagKeys(tagKeys)
                    .build();

            medicalImagingClient.untagResource(untagResourceRequest);

            System.out.println("Tags have been removed from the resource.");
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [ListTagsForResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/ListTagsForResource)
  + [TagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/TagResource)
  + [UntagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/UntagResource)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

### Menandai set gambar
<a name="medical-imaging_Scenario_TaggingImageSets_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menandai set HealthImaging gambar.

**SDK untuk Java 2.x**  
Untuk menandai set gambar.  

```
                final String imageSetArn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/12345678901234567890123456789012";

                TagResource.tagMedicalImagingResource(medicalImagingClient, imageSetArn,
                                ImmutableMap.of("Deployment", "Development"));
```
Fungsi utilitas untuk menandai sumber daya.  

```
    public static void tagMedicalImagingResource(MedicalImagingClient medicalImagingClient,
            String resourceArn,
            Map<String, String> tags) {
        try {
            TagResourceRequest tagResourceRequest = TagResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .tags(tags)
                    .build();

            medicalImagingClient.tagResource(tagResourceRequest);

            System.out.println("Tags have been added to the resource.");
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
Untuk mencantumkan tag untuk kumpulan gambar.  

```
                final String imageSetArn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/12345678901234567890123456789012";

                ListTagsForResourceResponse result = ListTagsForResource.listMedicalImagingResourceTags(
                                medicalImagingClient,
                                imageSetArn);
                if (result != null) {
                        System.out.println("Tags for resource: " + result.tags());
                }
```
Fungsi utilitas untuk daftar tag sumber daya.  

```
    public static ListTagsForResourceResponse listMedicalImagingResourceTags(MedicalImagingClient medicalImagingClient,
            String resourceArn) {
        try {
            ListTagsForResourceRequest listTagsForResourceRequest = ListTagsForResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .build();

            return medicalImagingClient.listTagsForResource(listTagsForResourceRequest);
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
```
Untuk menghapus tag set gambar.  

```
                final String imageSetArn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/imageset/12345678901234567890123456789012";

                UntagResource.untagMedicalImagingResource(medicalImagingClient, imageSetArn,
                                Collections.singletonList("Deployment"));
```
Fungsi utilitas untuk membuka tag sumber daya.  

```
    public static void untagMedicalImagingResource(MedicalImagingClient medicalImagingClient,
            String resourceArn,
            Collection<String> tagKeys) {
        try {
            UntagResourceRequest untagResourceRequest = UntagResourceRequest.builder()
                    .resourceArn(resourceArn)
                    .tagKeys(tagKeys)
                    .build();

            medicalImagingClient.untagResource(untagResourceRequest);

            System.out.println("Tags have been removed from the resource.");
        } catch (MedicalImagingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [ListTagsForResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/ListTagsForResource)
  + [TagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/TagResource)
  + [UntagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/medical-imaging-2023-07-19/UntagResource)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/medicalimaging#code-examples). 

# Contoh IAM menggunakan SDK for Java 2.x
<a name="java_2_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo IAM
<a name="iam_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan IAM.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.ListPoliciesResponse;
import software.amazon.awssdk.services.iam.model.Policy;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloIAM {
    public static void main(String[] args) {
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        listPolicies(iam);
    }

    public static void listPolicies(IamClient iam) {
        ListPoliciesResponse response = iam.listPolicies();
        List<Policy> polList = response.policies();
        polList.forEach(policy -> {
            System.out.println("Policy Name: " + policy.policyName());
        });
    }
}
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/ListPolicies)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 
Buat fungsi yang membungkus tindakan pengguna IAM.  

```
/*
  To run this Java V2 code example, set up your development environment, including your credentials.

  For information, see this documentation topic:

  https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html

  This example performs these operations:

  1. Creates a user that has no permissions.
  2. Creates a role and policy that grants Amazon S3 permissions.
  3. Creates a role.
  4. Grants the user permissions.
  5. Gets temporary credentials by assuming the role.  Creates an Amazon S3 Service client object with the temporary credentials.
  6. Deletes the resources.
 */

public class IAMScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    public static final String PolicyDocument = "{" +
            "  \"Version\": \"2012-10-17\"," +
            "  \"Statement\": [" +
            "    {" +
            "        \"Effect\": \"Allow\"," +
            "        \"Action\": [" +
            "            \"s3:*\"" +
            "       ]," +
            "       \"Resource\": \"*\"" +
            "    }" +
            "   ]" +
            "}";

    public static String userArn;

    public static void main(String[] args) throws Exception {

        final String usage = """

                Usage:
                    <username> <policyName> <roleName> <roleSessionName> <bucketName>\s

                Where:
                    username - The name of the IAM user to create.\s
                    policyName - The name of the policy to create.\s
                    roleName - The name of the role to create.\s
                    roleSessionName - The name of the session required for the assumeRole operation.\s
                    bucketName - The name of the Amazon S3 bucket from which objects are read.\s
                """;

        if (args.length != 5) {
            System.out.println(usage);
            System.exit(1);
        }

        String userName = args[0];
        String policyName = args[1];
        String roleName = args[2];
        String roleSessionName = args[3];
        String bucketName = args[4];

        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the AWS IAM example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(" 1. Create the IAM user.");
        User createUser = createIAMUser(iam, userName);

        System.out.println(DASHES);
        userArn = createUser.arn();

        AccessKey myKey = createIAMAccessKey(iam, userName);
        String accessKey = myKey.accessKeyId();
        String secretKey = myKey.secretAccessKey();
        String assumeRolePolicyDocument = "{" +
                "\"Version\": \"2012-10-17\"," +
                "\"Statement\": [{" +
                "\"Effect\": \"Allow\"," +
                "\"Principal\": {" +
                "	\"AWS\": \"" + userArn + "\"" +
                "}," +
                "\"Action\": \"sts:AssumeRole\"" +
                "}]" +
                "}";

        System.out.println(assumeRolePolicyDocument);
        System.out.println(userName + " was successfully created.");
        System.out.println(DASHES);
        System.out.println("2. Creates a policy.");
        String polArn = createIAMPolicy(iam, policyName);
        System.out.println("The policy " + polArn + " was successfully created.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Creates a role.");
        TimeUnit.SECONDS.sleep(30);
        String roleArn = createIAMRole(iam, roleName, assumeRolePolicyDocument);
        System.out.println(roleArn + " was successfully created.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Grants the user permissions.");
        attachIAMRolePolicy(iam, roleName, polArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("*** Wait for 30 secs so the resource is available");
        TimeUnit.SECONDS.sleep(30);
        System.out.println("5. Gets temporary credentials by assuming the role.");
        System.out.println("Perform an Amazon S3 Service operation using the temporary credentials.");
        assumeRole(roleArn, roleSessionName, bucketName, accessKey, secretKey);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6 Getting ready to delete the AWS resources");
        deleteKey(iam, userName, accessKey);
        deleteRole(iam, roleName, polArn);
        deleteIAMUser(iam, userName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("This IAM Scenario has successfully completed");
        System.out.println(DASHES);
    }

    public static AccessKey createIAMAccessKey(IamClient iam, String user) {
        try {
            CreateAccessKeyRequest request = CreateAccessKeyRequest.builder()
                    .userName(user)
                    .build();

            CreateAccessKeyResponse response = iam.createAccessKey(request);
            return response.accessKey();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }

    public static User createIAMUser(IamClient iam, String username) {
        try {
            // Create an IamWaiter object
            IamWaiter iamWaiter = iam.waiter();
            CreateUserRequest request = CreateUserRequest.builder()
                    .userName(username)
                    .build();

            // Wait until the user is created.
            CreateUserResponse response = iam.createUser(request);
            GetUserRequest userRequest = GetUserRequest.builder()
                    .userName(response.user().userName())
                    .build();

            WaiterResponse<GetUserResponse> waitUntilUserExists = iamWaiter.waitUntilUserExists(userRequest);
            waitUntilUserExists.matched().response().ifPresent(System.out::println);
            return response.user();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }

    public static String createIAMRole(IamClient iam, String rolename, String json) {

        try {
            CreateRoleRequest request = CreateRoleRequest.builder()
                    .roleName(rolename)
                    .assumeRolePolicyDocument(json)
                    .description("Created using the AWS SDK for Java")
                    .build();

            CreateRoleResponse response = iam.createRole(request);
            System.out.println("The ARN of the role is " + response.role().arn());
            return response.role().arn();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static String createIAMPolicy(IamClient iam, String policyName) {
        try {
            // Create an IamWaiter object.
            IamWaiter iamWaiter = iam.waiter();
            CreatePolicyRequest request = CreatePolicyRequest.builder()
                    .policyName(policyName)
                    .policyDocument(PolicyDocument).build();

            CreatePolicyResponse response = iam.createPolicy(request);
            GetPolicyRequest polRequest = GetPolicyRequest.builder()
                    .policyArn(response.policy().arn())
                    .build();

            WaiterResponse<GetPolicyResponse> waitUntilPolicyExists = iamWaiter.waitUntilPolicyExists(polRequest);
            waitUntilPolicyExists.matched().response().ifPresent(System.out::println);
            return response.policy().arn();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static void attachIAMRolePolicy(IamClient iam, String roleName, String policyArn) {
        try {
            ListAttachedRolePoliciesRequest request = ListAttachedRolePoliciesRequest.builder()
                    .roleName(roleName)
                    .build();

            ListAttachedRolePoliciesResponse response = iam.listAttachedRolePolicies(request);
            List<AttachedPolicy> attachedPolicies = response.attachedPolicies();
            String polArn;
            for (AttachedPolicy policy : attachedPolicies) {
                polArn = policy.policyArn();
                if (polArn.compareTo(policyArn) == 0) {
                    System.out.println(roleName + " policy is already attached to this role.");
                    return;
                }
            }

            AttachRolePolicyRequest attachRequest = AttachRolePolicyRequest.builder()
                    .roleName(roleName)
                    .policyArn(policyArn)
                    .build();

            iam.attachRolePolicy(attachRequest);
            System.out.println("Successfully attached policy " + policyArn + " to role " + roleName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Invoke an Amazon S3 operation using the Assumed Role.
    public static void assumeRole(String roleArn, String roleSessionName, String bucketName, String keyVal,
            String keySecret) {

        // Use the creds of the new IAM user that was created in this code example.
        AwsBasicCredentials credentials = AwsBasicCredentials.create(keyVal, keySecret);
        StsClient stsClient = StsClient.builder()
                .region(Region.US_EAST_1)
                .credentialsProvider(StaticCredentialsProvider.create(credentials))
                .build();

        try {
            AssumeRoleRequest roleRequest = AssumeRoleRequest.builder()
                    .roleArn(roleArn)
                    .roleSessionName(roleSessionName)
                    .build();

            AssumeRoleResponse roleResponse = stsClient.assumeRole(roleRequest);
            Credentials myCreds = roleResponse.credentials();
            String key = myCreds.accessKeyId();
            String secKey = myCreds.secretAccessKey();
            String secToken = myCreds.sessionToken();

            // List all objects in an Amazon S3 bucket using the temp creds retrieved by
            // invoking assumeRole.
            Region region = Region.US_EAST_1;
            S3Client s3 = S3Client.builder()
                    .credentialsProvider(
                            StaticCredentialsProvider.create(AwsSessionCredentials.create(key, secKey, secToken)))
                    .region(region)
                    .build();

            System.out.println("Created a S3Client using temp credentials.");
            System.out.println("Listing objects in " + bucketName);
            ListObjectsRequest listObjects = ListObjectsRequest.builder()
                    .bucket(bucketName)
                    .build();

            ListObjectsResponse res = s3.listObjects(listObjects);
            List<S3Object> objects = res.contents();
            for (S3Object myValue : objects) {
                System.out.println("The name of the key is " + myValue.key());
                System.out.println("The owner is " + myValue.owner());
            }

        } catch (StsException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void deleteRole(IamClient iam, String roleName, String polArn) {

        try {
            // First the policy needs to be detached.
            DetachRolePolicyRequest rolePolicyRequest = DetachRolePolicyRequest.builder()
                    .policyArn(polArn)
                    .roleName(roleName)
                    .build();

            iam.detachRolePolicy(rolePolicyRequest);

            // Delete the policy.
            DeletePolicyRequest request = DeletePolicyRequest.builder()
                    .policyArn(polArn)
                    .build();

            iam.deletePolicy(request);
            System.out.println("*** Successfully deleted " + polArn);

            // Delete the role.
            DeleteRoleRequest roleRequest = DeleteRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            iam.deleteRole(roleRequest);
            System.out.println("*** Successfully deleted " + roleName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteKey(IamClient iam, String username, String accessKey) {
        try {
            DeleteAccessKeyRequest request = DeleteAccessKeyRequest.builder()
                    .accessKeyId(accessKey)
                    .userName(username)
                    .build();

            iam.deleteAccessKey(request);
            System.out.println("Successfully deleted access key " + accessKey +
                    " from user " + username);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteIAMUser(IamClient iam, String userName) {
        try {
            DeleteUserRequest request = DeleteUserRequest.builder()
                    .userName(userName)
                    .build();

            iam.deleteUser(request);
            System.out.println("*** Successfully deleted " + userName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/AttachRolePolicy)
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateAccessKey)
  + [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreatePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateRole)
  + [CreateUser](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateUser)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteAccessKey)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeletePolicy)
  + [DeleteRole](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteRole)
  + [DeleteUser](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteUser)
  + [DeleteUserPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteUserPolicy)
  + [DetachRolePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DetachRolePolicy)
  + [PutUserPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/PutUserPolicy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.services.iam.model.AttachRolePolicyRequest;
import software.amazon.awssdk.services.iam.model.AttachedPolicy;
import software.amazon.awssdk.services.iam.model.ListAttachedRolePoliciesRequest;
import software.amazon.awssdk.services.iam.model.ListAttachedRolePoliciesResponse;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class AttachRolePolicy {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <roleName> <policyArn>\s

                Where:
                    roleName - A role name that you can obtain from the AWS Management Console.\s
                    policyArn - A policy ARN that you can obtain from the AWS Management Console.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String roleName = args[0];
        String policyArn = args[1];

        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        attachIAMRolePolicy(iam, roleName, policyArn);
        iam.close();
    }

    public static void attachIAMRolePolicy(IamClient iam, String roleName, String policyArn) {
        try {
            ListAttachedRolePoliciesRequest request = ListAttachedRolePoliciesRequest.builder()
                    .roleName(roleName)
                    .build();

            ListAttachedRolePoliciesResponse response = iam.listAttachedRolePolicies(request);
            List<AttachedPolicy> attachedPolicies = response.attachedPolicies();

            // Ensure that the policy is not attached to this role
            String polArn = "";
            for (AttachedPolicy policy : attachedPolicies) {
                polArn = policy.policyArn();
                if (polArn.compareTo(policyArn) == 0) {
                    System.out.println(roleName + " policy is already attached to this role.");
                    return;
                }
            }

            AttachRolePolicyRequest attachRequest = AttachRolePolicyRequest.builder()
                    .roleName(roleName)
                    .policyArn(policyArn)
                    .build();

            iam.attachRolePolicy(attachRequest);

            System.out.println("Successfully attached policy " + policyArn +
                    " to role " + roleName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Done");
    }
}
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/AttachRolePolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.CreateAccessKeyRequest;
import software.amazon.awssdk.services.iam.model.CreateAccessKeyResponse;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.IamException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateAccessKey {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                   <user>\s

                Where:
                   user - An AWS IAM user that you can obtain from the AWS Management Console.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String user = args[0];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        String keyId = createIAMAccessKey(iam, user);
        System.out.println("The Key Id is " + keyId);
        iam.close();
    }

    public static String createIAMAccessKey(IamClient iam, String user) {
        try {
            CreateAccessKeyRequest request = CreateAccessKeyRequest.builder()
                    .userName(user)
                    .build();

            CreateAccessKeyResponse response = iam.createAccessKey(request);
            return response.accessKey().accessKeyId();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateAccessKey)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateAccountAlias`
<a name="iam_CreateAccountAlias_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccountAlias`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.CreateAccountAliasRequest;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.IamException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateAccountAlias {
    public static void main(String[] args) {
        final String usage = """
                Usage:
                    <alias>\s

                Where:
                    alias - The account alias to create (for example, myawsaccount).\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String alias = args[0];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        createIAMAccountAlias(iam, alias);
        iam.close();
        System.out.println("Done");
    }

    public static void createIAMAccountAlias(IamClient iam, String alias) {
        try {
            CreateAccountAliasRequest request = CreateAccountAliasRequest.builder()
                    .accountAlias(alias)
                    .build();

            iam.createAccountAlias(request);
            System.out.println("Successfully created account alias: " + alias);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateAccountAlias)di *Referensi AWS SDK for Java 2.x API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.core.waiters.WaiterResponse;
import software.amazon.awssdk.services.iam.model.CreatePolicyRequest;
import software.amazon.awssdk.services.iam.model.CreatePolicyResponse;
import software.amazon.awssdk.services.iam.model.GetPolicyRequest;
import software.amazon.awssdk.services.iam.model.GetPolicyResponse;
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.waiters.IamWaiter;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreatePolicy {

    public static final String PolicyDocument = "{" +
            "  \"Version\": \"2012-10-17\"," +
            "  \"Statement\": [" +
            "    {" +
            "        \"Effect\": \"Allow\"," +
            "        \"Action\": [" +
            "            \"dynamodb:DeleteItem\"," +
            "            \"dynamodb:GetItem\"," +
            "            \"dynamodb:PutItem\"," +
            "            \"dynamodb:Scan\"," +
            "            \"dynamodb:UpdateItem\"" +
            "       ]," +
            "       \"Resource\": \"*\"" +
            "    }" +
            "   ]" +
            "}";

    public static void main(String[] args) {

        final String usage = """
                Usage:
                    CreatePolicy <policyName>\s

                Where:
                    policyName - A unique policy name.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String policyName = args[0];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        String result = createIAMPolicy(iam, policyName);
        System.out.println("Successfully created a policy with this ARN value: " + result);
        iam.close();
    }

    public static String createIAMPolicy(IamClient iam, String policyName) {
        try {
            // Create an IamWaiter object.
            IamWaiter iamWaiter = iam.waiter();

            CreatePolicyRequest request = CreatePolicyRequest.builder()
                    .policyName(policyName)
                    .policyDocument(PolicyDocument)
                    .build();

            CreatePolicyResponse response = iam.createPolicy(request);

            // Wait until the policy is created.
            GetPolicyRequest polRequest = GetPolicyRequest.builder()
                    .policyArn(response.policy().arn())
                    .build();

            WaiterResponse<GetPolicyResponse> waitUntilPolicyExists = iamWaiter.waitUntilPolicyExists(polRequest);
            waitUntilPolicyExists.matched().response().ifPresent(System.out::println);
            return response.policy().arn();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreatePolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateRole`
<a name="iam_CreateRole_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import org.json.simple.JSONObject;
import org.json.simple.parser.JSONParser;
import software.amazon.awssdk.services.iam.model.CreateRoleRequest;
import software.amazon.awssdk.services.iam.model.CreateRoleResponse;
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import java.io.FileReader;

/*
*   This example requires a trust policy document. For more information, see:
*   https://aws.amazon.com/blogs/security/how-to-use-trust-policies-with-iam-roles/
*
*
*  In addition, set up your development environment, including your credentials.
*
*  For information, see this documentation topic:
*
*  https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class CreateRole {
    public static void main(String[] args) throws Exception {
        final String usage = """
                Usage:
                    <rolename> <fileLocation>\s

                Where:
                    rolename - The name of the role to create.\s
                    fileLocation - The location of the JSON document that represents the trust policy.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String rolename = args[0];
        String fileLocation = args[1];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        String result = createIAMRole(iam, rolename, fileLocation);
        System.out.println("Successfully created user: " + result);
        iam.close();
    }

    public static String createIAMRole(IamClient iam, String rolename, String fileLocation) throws Exception {
        try {
            JSONObject jsonObject = (JSONObject) readJsonSimpleDemo(fileLocation);
            CreateRoleRequest request = CreateRoleRequest.builder()
                    .roleName(rolename)
                    .assumeRolePolicyDocument(jsonObject.toJSONString())
                    .description("Created using the AWS SDK for Java")
                    .build();

            CreateRoleResponse response = iam.createRole(request);
            System.out.println("The ARN of the role is " + response.role().arn());

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static Object readJsonSimpleDemo(String filename) throws Exception {
        FileReader reader = new FileReader(filename);
        JSONParser jsonParser = new JSONParser();
        return jsonParser.parse(reader);
    }
}
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateRole)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateUser`
<a name="iam_CreateUser_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.core.waiters.WaiterResponse;
import software.amazon.awssdk.services.iam.model.CreateUserRequest;
import software.amazon.awssdk.services.iam.model.CreateUserResponse;
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.waiters.IamWaiter;
import software.amazon.awssdk.services.iam.model.GetUserRequest;
import software.amazon.awssdk.services.iam.model.GetUserResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateUser {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <username>\s

                Where:
                    username - The name of the user to create.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String username = args[0];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        String result = createIAMUser(iam, username);
        System.out.println("Successfully created user: " + result);
        iam.close();
    }

    public static String createIAMUser(IamClient iam, String username) {
        try {
            // Create an IamWaiter object.
            IamWaiter iamWaiter = iam.waiter();

            CreateUserRequest request = CreateUserRequest.builder()
                    .userName(username)
                    .build();

            CreateUserResponse response = iam.createUser(request);

            // Wait until the user is created.
            GetUserRequest userRequest = GetUserRequest.builder()
                    .userName(response.user().userName())
                    .build();

            WaiterResponse<GetUserResponse> waitUntilUserExists = iamWaiter.waitUntilUserExists(userRequest);
            waitUntilUserExists.matched().response().ifPresent(System.out::println);
            return response.user().userName();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateUser)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.DeleteAccessKeyRequest;
import software.amazon.awssdk.services.iam.model.IamException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteAccessKey {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <username> <accessKey>\s

                Where:
                    username - The name of the user.\s
                    accessKey - The access key ID for the secret access key you want to delete.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String username = args[0];
        String accessKey = args[1];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();
        deleteKey(iam, username, accessKey);
        iam.close();
    }

    public static void deleteKey(IamClient iam, String username, String accessKey) {
        try {
            DeleteAccessKeyRequest request = DeleteAccessKeyRequest.builder()
                    .accessKeyId(accessKey)
                    .userName(username)
                    .build();

            iam.deleteAccessKey(request);
            System.out.println("Successfully deleted access key " + accessKey +
                    " from user " + username);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteAccessKey)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteAccountAlias`
<a name="iam_DeleteAccountAlias_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccountAlias`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.DeleteAccountAliasRequest;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.IamException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteAccountAlias {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <alias>\s

                Where:
                    alias - The account alias to delete.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String alias = args[0];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        deleteIAMAccountAlias(iam, alias);
        iam.close();
    }

    public static void deleteIAMAccountAlias(IamClient iam, String alias) {
        try {
            DeleteAccountAliasRequest request = DeleteAccountAliasRequest.builder()
                    .accountAlias(alias)
                    .build();

            iam.deleteAccountAlias(request);
            System.out.println("Successfully deleted account alias " + alias);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Done");
    }
}
```
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteAccountAlias)di *Referensi AWS SDK for Java 2.x API*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.DeletePolicyRequest;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.IamException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeletePolicy {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <policyARN>\s

                Where:
                    policyARN - A policy ARN value to delete.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String policyARN = args[0];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        deleteIAMPolicy(iam, policyARN);
        iam.close();
    }

    public static void deleteIAMPolicy(IamClient iam, String policyARN) {
        try {
            DeletePolicyRequest request = DeletePolicyRequest.builder()
                    .policyArn(policyARN)
                    .build();

            iam.deletePolicy(request);
            System.out.println("Successfully deleted the policy");

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Done");
    }
}
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeletePolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteUser`
<a name="iam_DeleteUser_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.DeleteUserRequest;
import software.amazon.awssdk.services.iam.model.IamException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteUser {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <userName>\s

                Where:
                    userName - The name of the user to delete.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String userName = args[0];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        deleteIAMUser(iam, userName);
        System.out.println("Done");
        iam.close();
    }

    public static void deleteIAMUser(IamClient iam, String userName) {
        try {
            DeleteUserRequest request = DeleteUserRequest.builder()
                    .userName(userName)
                    .build();

            iam.deleteUser(request);
            System.out.println("Successfully deleted IAM user " + userName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteUser)di *Referensi AWS SDK for Java 2.x API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.DetachRolePolicyRequest;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.IamException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetachRolePolicy {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <roleName> <policyArn>\s

                Where:
                    roleName - A role name that you can obtain from the AWS Management Console.\s
                    policyArn - A policy ARN that you can obtain from the AWS Management Console.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String roleName = args[0];
        String policyArn = args[1];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();
        detachPolicy(iam, roleName, policyArn);
        System.out.println("Done");
        iam.close();
    }

    public static void detachPolicy(IamClient iam, String roleName, String policyArn) {
        try {
            DetachRolePolicyRequest request = DetachRolePolicyRequest.builder()
                    .roleName(roleName)
                    .policyArn(policyArn)
                    .build();

            iam.detachRolePolicy(request);
            System.out.println("Successfully detached policy " + policyArn +
                    " from role " + roleName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DetachRolePolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.AccessKeyMetadata;
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.services.iam.model.ListAccessKeysRequest;
import software.amazon.awssdk.services.iam.model.ListAccessKeysResponse;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListAccessKeys {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <userName>\s

                Where:
                    userName - The name of the user for which access keys are retrieved.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String userName = args[0];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        listKeys(iam, userName);
        System.out.println("Done");
        iam.close();
    }

    public static void listKeys(IamClient iam, String userName) {
        try {
            boolean done = false;
            String newMarker = null;

            while (!done) {
                ListAccessKeysResponse response;

                if (newMarker == null) {
                    ListAccessKeysRequest request = ListAccessKeysRequest.builder()
                            .userName(userName)
                            .build();

                    response = iam.listAccessKeys(request);

                } else {
                    ListAccessKeysRequest request = ListAccessKeysRequest.builder()
                            .userName(userName)
                            .marker(newMarker)
                            .build();

                    response = iam.listAccessKeys(request);
                }

                for (AccessKeyMetadata metadata : response.accessKeyMetadata()) {
                    System.out.format("Retrieved access key %s", metadata.accessKeyId());
                }

                if (!response.isTruncated()) {
                    done = true;
                } else {
                    newMarker = response.marker();
                }
            }

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/ListAccessKeys)di *Referensi AWS SDK for Java 2.x API*. 

### `ListAccountAliases`
<a name="iam_ListAccountAliases_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccountAliases`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.services.iam.model.ListAccountAliasesResponse;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListAccountAliases {
    public static void main(String[] args) {
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        listAliases(iam);
        System.out.println("Done");
        iam.close();
    }

    public static void listAliases(IamClient iam) {
        try {
            ListAccountAliasesResponse response = iam.listAccountAliases();
            for (String alias : response.accountAliases()) {
                System.out.printf("Retrieved account alias %s", alias);
            }

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/ListAccountAliases)di *Referensi AWS SDK for Java 2.x API*. 

### `ListUsers`
<a name="iam_ListUsers_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.AttachedPermissionsBoundary;
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.services.iam.model.ListUsersRequest;
import software.amazon.awssdk.services.iam.model.ListUsersResponse;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.User;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListUsers {
    public static void main(String[] args) {
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        listAllUsers(iam);
        System.out.println("Done");
        iam.close();
    }

    public static void listAllUsers(IamClient iam) {
        try {
            boolean done = false;
            String newMarker = null;
            while (!done) {
                ListUsersResponse response;
                if (newMarker == null) {
                    ListUsersRequest request = ListUsersRequest.builder().build();
                    response = iam.listUsers(request);
                } else {
                    ListUsersRequest request = ListUsersRequest.builder()
                            .marker(newMarker)
                            .build();

                    response = iam.listUsers(request);
                }

                for (User user : response.users()) {
                    System.out.format("\n Retrieved user %s", user.userName());
                    AttachedPermissionsBoundary permissionsBoundary = user.permissionsBoundary();
                    if (permissionsBoundary != null)
                        System.out.format("\n Permissions boundary details %s",
                                permissionsBoundary.permissionsBoundaryTypeAsString());
                }

                if (!response.isTruncated()) {
                    done = true;
                } else {
                    newMarker = response.marker();
                }
            }

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/ListUsers)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateAccessKey`
<a name="iam_UpdateAccessKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAccessKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.services.iam.model.StatusType;
import software.amazon.awssdk.services.iam.model.UpdateAccessKeyRequest;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class UpdateAccessKey {

    private static StatusType statusType;

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <username> <accessId> <status>\s

                Where:
                    username - The name of the user whose key you want to update.\s
                    accessId - The access key ID of the secret access key you want to update.\s
                    status - The status you want to assign to the secret access key.\s
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String username = args[0];
        String accessId = args[1];
        String status = args[2];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        updateKey(iam, username, accessId, status);
        System.out.println("Done");
        iam.close();
    }

    public static void updateKey(IamClient iam, String username, String accessId, String status) {
        try {
            if (status.toLowerCase().equalsIgnoreCase("active")) {
                statusType = StatusType.ACTIVE;
            } else if (status.toLowerCase().equalsIgnoreCase("inactive")) {
                statusType = StatusType.INACTIVE;
            } else {
                statusType = StatusType.UNKNOWN_TO_SDK_VERSION;
            }

            UpdateAccessKeyRequest request = UpdateAccessKeyRequest.builder()
                    .accessKeyId(accessId)
                    .userName(username)
                    .status(statusType)
                    .build();

            iam.updateAccessKey(request);
            System.out.printf("Successfully updated the status of access key %s to" +
                    "status %s for user %s", accessId, status, username);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/UpdateAccessKey)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateUser`
<a name="iam_UpdateUser_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUser`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.IamException;
import software.amazon.awssdk.services.iam.model.UpdateUserRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class UpdateUser {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <curName> <newName>\s

                Where:
                    curName - The current user name.\s
                    newName - An updated user name.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String curName = args[0];
        String newName = args[1];
        Region region = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        updateIAMUser(iam, curName, newName);
        System.out.println("Done");
        iam.close();
    }

    public static void updateIAMUser(IamClient iam, String curName, String newName) {
        try {
            UpdateUserRequest request = UpdateUserRequest.builder()
                    .userName(curName)
                    .newUserName(newName)
                    .build();

            iam.updateUser(request);
            System.out.printf("Successfully updated user to username %s", newName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/UpdateUser)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/resilient_service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
public class Main {

    public static final String fileName = "C:\\AWS\\resworkflow\\recommendations.json"; // Modify file location.
    public static final String tableName = "doc-example-recommendation-service";
    public static final String startScript = "C:\\AWS\\resworkflow\\server_startup_script.sh"; // Modify file location.
    public static final String policyFile = "C:\\AWS\\resworkflow\\instance_policy.json"; // Modify file location.
    public static final String ssmJSON = "C:\\AWS\\resworkflow\\ssm_only_policy.json"; // Modify file location.
    public static final String failureResponse = "doc-example-resilient-architecture-failure-response";
    public static final String healthCheck = "doc-example-resilient-architecture-health-check";
    public static final String templateName = "doc-example-resilience-template";
    public static final String roleName = "doc-example-resilience-role";
    public static final String policyName = "doc-example-resilience-pol";
    public static final String profileName = "doc-example-resilience-prof";

    public static final String badCredsProfileName = "doc-example-resilience-prof-bc";

    public static final String targetGroupName = "doc-example-resilience-tg";
    public static final String autoScalingGroupName = "doc-example-resilience-group";
    public static final String lbName = "doc-example-resilience-lb";
    public static final String protocol = "HTTP";
    public static final int port = 80;

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws IOException, InterruptedException {
        Scanner in = new Scanner(System.in);
        Database database = new Database();
        AutoScaler autoScaler = new AutoScaler();
        LoadBalancer loadBalancer = new LoadBalancer();

        System.out.println(DASHES);
        System.out.println("Welcome to the demonstration of How to Build and Manage a Resilient Service!");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("A - SETUP THE RESOURCES");
        System.out.println("Press Enter when you're ready to start deploying resources.");
        in.nextLine();
        deploy(loadBalancer);
        System.out.println(DASHES);
        System.out.println(DASHES);
        System.out.println("B - DEMO THE RESILIENCE FUNCTIONALITY");
        System.out.println("Press Enter when you're ready.");
        in.nextLine();
        demo(loadBalancer);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("C - DELETE THE RESOURCES");
        System.out.println("""
                This concludes the demo of how to build and manage a resilient service.
                To keep things tidy and to avoid unwanted charges on your account, we can clean up all AWS resources
                that were created for this demo.
                """);

        System.out.println("\n Do you want to delete the resources (y/n)? ");
        String userInput = in.nextLine().trim().toLowerCase(); // Capture user input

        if (userInput.equals("y")) {
            // Delete resources here
            deleteResources(loadBalancer, autoScaler, database);
            System.out.println("Resources deleted.");
        } else {
            System.out.println("""
                    Okay, we'll leave the resources intact.
                    Don't forget to delete them when you're done with them or you might incur unexpected charges.
                    """);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The example has completed. ");
        System.out.println("\n Thanks for watching!");
        System.out.println(DASHES);
    }

    // Deletes the AWS resources used in this example.
    private static void deleteResources(LoadBalancer loadBalancer, AutoScaler autoScaler, Database database)
            throws IOException, InterruptedException {
        loadBalancer.deleteLoadBalancer(lbName);
        System.out.println("*** Wait 30 secs for resource to be deleted");
        TimeUnit.SECONDS.sleep(30);
        loadBalancer.deleteTargetGroup(targetGroupName);
        autoScaler.deleteAutoScaleGroup(autoScalingGroupName);
        autoScaler.deleteRolesPolicies(policyName, roleName, profileName);
        autoScaler.deleteTemplate(templateName);
        database.deleteTable(tableName);
    }

    private static void deploy(LoadBalancer loadBalancer) throws InterruptedException, IOException {
        Scanner in = new Scanner(System.in);
        System.out.println(
                """
                        For this demo, we'll use the AWS SDK for Java (v2) to create several AWS resources
                        to set up a load-balanced web service endpoint and explore some ways to make it resilient
                        against various kinds of failures.

                        Some of the resources create by this demo are:
                        \t* A DynamoDB table that the web service depends on to provide book, movie, and song recommendations.
                        \t* An EC2 launch template that defines EC2 instances that each contain a Python web server.
                        \t* An EC2 Auto Scaling group that manages EC2 instances across several Availability Zones.
                        \t* An Elastic Load Balancing (ELB) load balancer that targets the Auto Scaling group to distribute requests.
                        """);

        System.out.println("Press Enter when you're ready.");
        in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Creating and populating a DynamoDB table named " + tableName);
        Database database = new Database();
        database.createTable(tableName, fileName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
                Creating an EC2 launch template that runs '{startup_script}' when an instance starts.
                This script starts a Python web server defined in the `server.py` script. The web server
                listens to HTTP requests on port 80 and responds to requests to '/' and to '/healthcheck'.
                For demo purposes, this server is run as the root user. In production, the best practice is to
                run a web server, such as Apache, with least-privileged credentials.

                The template also defines an IAM policy that each instance uses to assume a role that grants
                permissions to access the DynamoDB recommendation table and Systems Manager parameters
                that control the flow of the demo.
                """);

        LaunchTemplateCreator templateCreator = new LaunchTemplateCreator();
        templateCreator.createTemplate(policyFile, policyName, profileName, startScript, templateName, roleName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(
                "Creating an EC2 Auto Scaling group that maintains three EC2 instances, each in a different Availability Zone.");
        System.out.println("*** Wait 30 secs for the VPC to be created");
        TimeUnit.SECONDS.sleep(30);
        AutoScaler autoScaler = new AutoScaler();
        String[] zones = autoScaler.createGroup(3, templateName, autoScalingGroupName);

        System.out.println("""
                At this point, you have EC2 instances created. Once each instance starts, it listens for
                HTTP requests. You can see these instances in the console or continue with the demo.
                Press Enter when you're ready to continue.
                """);

        in.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Creating variables that control the flow of the demo.");
        ParameterHelper paramHelper = new ParameterHelper();
        paramHelper.reset();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
                Creating an Elastic Load Balancing target group and load balancer. The target group
                defines how the load balancer connects to instances. The load balancer provides a
                single endpoint where clients connect and dispatches requests to instances in the group.
                """);

        String vpcId = autoScaler.getDefaultVPC();
        List<Subnet> subnets = autoScaler.getSubnets(vpcId, zones);
        System.out.println("You have retrieved a list with " + subnets.size() + " subnets");
        String targetGroupArn = loadBalancer.createTargetGroup(protocol, port, vpcId, targetGroupName);
        String elbDnsName = loadBalancer.createLoadBalancer(subnets, targetGroupArn, lbName, port, protocol);
        autoScaler.attachLoadBalancerTargetGroup(autoScalingGroupName, targetGroupArn);
        System.out.println("Verifying access to the load balancer endpoint...");
        boolean wasSuccessul = loadBalancer.verifyLoadBalancerEndpoint(elbDnsName);
        if (!wasSuccessul) {
            System.out.println("Couldn't connect to the load balancer, verifying that the port is open...");
            CloseableHttpClient httpClient = HttpClients.createDefault();

            // Create an HTTP GET request to "http://checkip.amazonaws.com"
            HttpGet httpGet = new HttpGet("http://checkip.amazonaws.com");
            try {
                // Execute the request and get the response
                HttpResponse response = httpClient.execute(httpGet);

                // Read the response content.
                String ipAddress = IOUtils.toString(response.getEntity().getContent(), StandardCharsets.UTF_8).trim();

                // Print the public IP address.
                System.out.println("Public IP Address: " + ipAddress);
                GroupInfo groupInfo = autoScaler.verifyInboundPort(vpcId, port, ipAddress);
                if (!groupInfo.isPortOpen()) {
                    System.out.println("""
                            For this example to work, the default security group for your default VPC must
                            allow access from this computer. You can either add it automatically from this
                            example or add it yourself using the AWS Management Console.
                            """);

                    System.out.println(
                            "Do you want to add a rule to security group " + groupInfo.getGroupName() + " to allow");
                    System.out.println("inbound traffic on port " + port + " from your computer's IP address (y/n) ");
                    String ans = in.nextLine();
                    if ("y".equalsIgnoreCase(ans)) {
                        autoScaler.openInboundPort(groupInfo.getGroupName(), String.valueOf(port), ipAddress);
                        System.out.println("Security group rule added.");
                    } else {
                        System.out.println("No security group rule added.");
                    }
                }

            } catch (AutoScalingException e) {
                e.printStackTrace();
            }
        } else if (wasSuccessul) {
            System.out.println("Your load balancer is ready. You can access it by browsing to:");
            System.out.println("\t http://" + elbDnsName);
        } else {
            System.out.println("Couldn't get a successful response from the load balancer endpoint. Troubleshoot by");
            System.out.println("manually verifying that your VPC and security group are configured correctly and that");
            System.out.println("you can successfully make a GET request to the load balancer.");
        }

        System.out.println("Press Enter when you're ready to continue with the demo.");
        in.nextLine();
    }

    // A method that controls the demo part of the Java program.
    public static void demo(LoadBalancer loadBalancer) throws IOException, InterruptedException {
        ParameterHelper paramHelper = new ParameterHelper();
        System.out.println("Read the ssm_only_policy.json file");
        String ssmOnlyPolicy = readFileAsString(ssmJSON);

        System.out.println("Resetting parameters to starting values for demo.");
        paramHelper.reset();

        System.out.println(
                """
                         This part of the demonstration shows how to toggle different parts of the system
                         to create situations where the web service fails, and shows how using a resilient
                         architecture can keep the web service running in spite of these failures.

                         At the start, the load balancer endpoint returns recommendations and reports that all targets are healthy.
                        """);
        demoChoices(loadBalancer);

        System.out.println(
                """
                         The web service running on the EC2 instances gets recommendations by querying a DynamoDB table.
                         The table name is contained in a Systems Manager parameter named self.param_helper.table.
                         To simulate a failure of the recommendation service, let's set this parameter to name a non-existent table.
                        """);
        paramHelper.put(paramHelper.tableName, "this-is-not-a-table");

        System.out.println(
                """
                         \nNow, sending a GET request to the load balancer endpoint returns a failure code. But, the service reports as
                         healthy to the load balancer because shallow health checks don't check for failure of the recommendation service.
                        """);
        demoChoices(loadBalancer);

        System.out.println(
                """
                        Instead of failing when the recommendation service fails, the web service can return a static response.
                        While this is not a perfect solution, it presents the customer with a somewhat better experience than failure.
                        """);
        paramHelper.put(paramHelper.failureResponse, "static");

        System.out.println("""
                Now, sending a GET request to the load balancer endpoint returns a static response.
                The service still reports as healthy because health checks are still shallow.
                """);
        demoChoices(loadBalancer);

        System.out.println("Let's reinstate the recommendation service.");
        paramHelper.put(paramHelper.tableName, paramHelper.dyntable);

        System.out.println("""
                Let's also substitute bad credentials for one of the instances in the target group so that it can't
                access the DynamoDB recommendation table. We will get an instance id value.
                """);

        LaunchTemplateCreator templateCreator = new LaunchTemplateCreator();
        AutoScaler autoScaler = new AutoScaler();

        // Create a new instance profile based on badCredsProfileName.
        templateCreator.createInstanceProfile(policyFile, policyName, badCredsProfileName, roleName);
        String badInstanceId = autoScaler.getBadInstance(autoScalingGroupName);
        System.out.println("The bad instance id values used for this demo is " + badInstanceId);

        String profileAssociationId = autoScaler.getInstanceProfile(badInstanceId);
        System.out.println("The association Id value is " + profileAssociationId);
        System.out.println("Replacing the profile for instance " + badInstanceId
                + " with a profile that contains bad credentials");
        autoScaler.replaceInstanceProfile(badInstanceId, badCredsProfileName, profileAssociationId);

        System.out.println(
                """
                        Now, sending a GET request to the load balancer endpoint returns either a recommendation or a static response,
                        depending on which instance is selected by the load balancer.
                        """);

        demoChoices(loadBalancer);

        System.out.println("""
                Let's implement a deep health check. For this demo, a deep health check tests whether
                the web service can access the DynamoDB table that it depends on for recommendations. Note that
                the deep health check is only for ELB routing and not for Auto Scaling instance health.
                This kind of deep health check is not recommended for Auto Scaling instance health, because it
                risks accidental termination of all instances in the Auto Scaling group when a dependent service fails.
                """);

        System.out.println("""
                By implementing deep health checks, the load balancer can detect when one of the instances is failing
                and take that instance out of rotation.
                """);

        paramHelper.put(paramHelper.healthCheck, "deep");

        System.out.println("""
                Now, checking target health indicates that the instance with bad credentials
                is unhealthy. Note that it might take a minute or two for the load balancer to detect the unhealthy
                instance. Sending a GET request to the load balancer endpoint always returns a recommendation, because
                the load balancer takes unhealthy instances out of its rotation.
                """);

        demoChoices(loadBalancer);

        System.out.println(
                """
                        Because the instances in this demo are controlled by an auto scaler, the simplest way to fix an unhealthy
                        instance is to terminate it and let the auto scaler start a new instance to replace it.
                        """);
        autoScaler.terminateInstance(badInstanceId);

        System.out.println("""
                Even while the instance is terminating and the new instance is starting, sending a GET
                request to the web service continues to get a successful recommendation response because
                the load balancer routes requests to the healthy instances. After the replacement instance
                starts and reports as healthy, it is included in the load balancing rotation.
                Note that terminating and replacing an instance typically takes several minutes, during which time you
                can see the changing health check status until the new instance is running and healthy.
                """);

        demoChoices(loadBalancer);
        System.out.println(
                "If the recommendation service fails now, deep health checks mean all instances report as unhealthy.");
        paramHelper.put(paramHelper.tableName, "this-is-not-a-table");

        demoChoices(loadBalancer);
        paramHelper.reset();
    }

    public static void demoChoices(LoadBalancer loadBalancer) throws IOException, InterruptedException {
        String[] actions = {
                "Send a GET request to the load balancer endpoint.",
                "Check the health of load balancer targets.",
                "Go to the next part of the demo."
        };
        Scanner scanner = new Scanner(System.in);

        while (true) {
            System.out.println("-".repeat(88));
            System.out.println("See the current state of the service by selecting one of the following choices:");
            for (int i = 0; i < actions.length; i++) {
                System.out.println(i + ": " + actions[i]);
            }

            try {
                System.out.print("\nWhich action would you like to take? ");
                int choice = scanner.nextInt();
                System.out.println("-".repeat(88));

                switch (choice) {
                    case 0 -> {
                        System.out.println("Request:\n");
                        System.out.println("GET http://" + loadBalancer.getEndpoint(lbName));
                        CloseableHttpClient httpClient = HttpClients.createDefault();

                        // Create an HTTP GET request to the ELB.
                        HttpGet httpGet = new HttpGet("http://" + loadBalancer.getEndpoint(lbName));

                        // Execute the request and get the response.
                        HttpResponse response = httpClient.execute(httpGet);
                        int statusCode = response.getStatusLine().getStatusCode();
                        System.out.println("HTTP Status Code: " + statusCode);

                        // Display the JSON response
                        BufferedReader reader = new BufferedReader(
                                new InputStreamReader(response.getEntity().getContent()));
                        StringBuilder jsonResponse = new StringBuilder();
                        String line;
                        while ((line = reader.readLine()) != null) {
                            jsonResponse.append(line);
                        }
                        reader.close();

                        // Print the formatted JSON response.
                        System.out.println("Full Response:\n");
                        System.out.println(jsonResponse.toString());

                        // Close the HTTP client.
                        httpClient.close();

                    }
                    case 1 -> {
                        System.out.println("\nChecking the health of load balancer targets:\n");
                        List<TargetHealthDescription> health = loadBalancer.checkTargetHealth(targetGroupName);
                        for (TargetHealthDescription target : health) {
                            System.out.printf("\tTarget %s on port %d is %s%n", target.target().id(),
                                    target.target().port(), target.targetHealth().stateAsString());
                        }
                        System.out.println("""
                                Note that it can take a minute or two for the health check to update
                                after changes are made.
                                """);
                    }
                    case 2 -> {
                        System.out.println("\nOkay, let's move on.");
                        System.out.println("-".repeat(88));
                        return; // Exit the method when choice is 2
                    }
                    default -> System.out.println("You must choose a value between 0-2. Please select again.");
                }

            } catch (java.util.InputMismatchException e) {
                System.out.println("Invalid input. Please select again.");
                scanner.nextLine(); // Clear the input buffer.
            }
        }
    }

    public static String readFileAsString(String filePath) throws IOException {
        byte[] bytes = Files.readAllBytes(Paths.get(filePath));
        return new String(bytes);
    }
}
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
public class AutoScaler {

    private static Ec2Client ec2Client;
    private static AutoScalingClient autoScalingClient;
    private static IamClient iamClient;

    private static SsmClient ssmClient;

    private IamClient getIAMClient() {
        if (iamClient == null) {
            iamClient = IamClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return iamClient;
    }

    private SsmClient getSSMClient() {
        if (ssmClient == null) {
            ssmClient = SsmClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return ssmClient;
    }

    private Ec2Client getEc2Client() {
        if (ec2Client == null) {
            ec2Client = Ec2Client.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return ec2Client;
    }

    private AutoScalingClient getAutoScalingClient() {
        if (autoScalingClient == null) {
            autoScalingClient = AutoScalingClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return autoScalingClient;
    }

    /**
     * Terminates and instances in an EC2 Auto Scaling group. After an instance is
     * terminated, it can no longer be accessed.
     */
    public void terminateInstance(String instanceId) {
        TerminateInstanceInAutoScalingGroupRequest terminateInstanceIRequest = TerminateInstanceInAutoScalingGroupRequest
                .builder()
                .instanceId(instanceId)
                .shouldDecrementDesiredCapacity(false)
                .build();

        getAutoScalingClient().terminateInstanceInAutoScalingGroup(terminateInstanceIRequest);
        System.out.format("Terminated instance %s.", instanceId);
    }

    /**
     * Replaces the profile associated with a running instance. After the profile is
     * replaced, the instance is rebooted to ensure that it uses the new profile.
     * When
     * the instance is ready, Systems Manager is used to restart the Python web
     * server.
     */
    public void replaceInstanceProfile(String instanceId, String newInstanceProfileName, String profileAssociationId)
            throws InterruptedException {
        // Create an IAM instance profile specification.
        software.amazon.awssdk.services.ec2.model.IamInstanceProfileSpecification iamInstanceProfile = software.amazon.awssdk.services.ec2.model.IamInstanceProfileSpecification
                .builder()
                .name(newInstanceProfileName) // Make sure 'newInstanceProfileName' is a valid IAM Instance Profile
                                              // name.
                .build();

        // Replace the IAM instance profile association for the EC2 instance.
        ReplaceIamInstanceProfileAssociationRequest replaceRequest = ReplaceIamInstanceProfileAssociationRequest
                .builder()
                .iamInstanceProfile(iamInstanceProfile)
                .associationId(profileAssociationId) // Make sure 'profileAssociationId' is a valid association ID.
                .build();

        try {
            getEc2Client().replaceIamInstanceProfileAssociation(replaceRequest);
            // Handle the response as needed.
        } catch (Ec2Exception e) {
            // Handle exceptions, log, or report the error.
            System.err.println("Error: " + e.getMessage());
        }
        System.out.format("Replaced instance profile for association %s with profile %s.", profileAssociationId,
                newInstanceProfileName);
        TimeUnit.SECONDS.sleep(15);
        boolean instReady = false;
        int tries = 0;

        // Reboot after 60 seconds
        while (!instReady) {
            if (tries % 6 == 0) {
                getEc2Client().rebootInstances(RebootInstancesRequest.builder()
                        .instanceIds(instanceId)
                        .build());
                System.out.println("Rebooting instance " + instanceId + " and waiting for it to be ready.");
            }
            tries++;
            try {
                TimeUnit.SECONDS.sleep(10);
            } catch (InterruptedException e) {
                e.printStackTrace();
            }

            DescribeInstanceInformationResponse informationResponse = getSSMClient().describeInstanceInformation();
            List<InstanceInformation> instanceInformationList = informationResponse.instanceInformationList();
            for (InstanceInformation info : instanceInformationList) {
                if (info.instanceId().equals(instanceId)) {
                    instReady = true;
                    break;
                }
            }
        }

        SendCommandRequest sendCommandRequest = SendCommandRequest.builder()
                .instanceIds(instanceId)
                .documentName("AWS-RunShellScript")
                .parameters(Collections.singletonMap("commands",
                        Collections.singletonList("cd / && sudo python3 server.py 80")))
                .build();

        getSSMClient().sendCommand(sendCommandRequest);
        System.out.println("Restarted the Python web server on instance " + instanceId + ".");
    }

    public void openInboundPort(String secGroupId, String port, String ipAddress) {
        AuthorizeSecurityGroupIngressRequest ingressRequest = AuthorizeSecurityGroupIngressRequest.builder()
                .groupName(secGroupId)
                .cidrIp(ipAddress)
                .fromPort(Integer.parseInt(port))
                .build();

        getEc2Client().authorizeSecurityGroupIngress(ingressRequest);
        System.out.format("Authorized ingress to %s on port %s from %s.", secGroupId, port, ipAddress);
    }

    /**
     * Detaches a role from an instance profile, detaches policies from the role,
     * and deletes all the resources.
     */
    public void deleteInstanceProfile(String roleName, String profileName) {
        try {
            software.amazon.awssdk.services.iam.model.GetInstanceProfileRequest getInstanceProfileRequest = software.amazon.awssdk.services.iam.model.GetInstanceProfileRequest
                    .builder()
                    .instanceProfileName(profileName)
                    .build();

            GetInstanceProfileResponse response = getIAMClient().getInstanceProfile(getInstanceProfileRequest);
            String name = response.instanceProfile().instanceProfileName();
            System.out.println(name);

            RemoveRoleFromInstanceProfileRequest profileRequest = RemoveRoleFromInstanceProfileRequest.builder()
                    .instanceProfileName(profileName)
                    .roleName(roleName)
                    .build();

            getIAMClient().removeRoleFromInstanceProfile(profileRequest);
            DeleteInstanceProfileRequest deleteInstanceProfileRequest = DeleteInstanceProfileRequest.builder()
                    .instanceProfileName(profileName)
                    .build();

            getIAMClient().deleteInstanceProfile(deleteInstanceProfileRequest);
            System.out.println("Deleted instance profile " + profileName);

            DeleteRoleRequest deleteRoleRequest = DeleteRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            // List attached role policies.
            ListAttachedRolePoliciesResponse rolesResponse = getIAMClient()
                    .listAttachedRolePolicies(role -> role.roleName(roleName));
            List<AttachedPolicy> attachedPolicies = rolesResponse.attachedPolicies();
            for (AttachedPolicy attachedPolicy : attachedPolicies) {
                DetachRolePolicyRequest request = DetachRolePolicyRequest.builder()
                        .roleName(roleName)
                        .policyArn(attachedPolicy.policyArn())
                        .build();

                getIAMClient().detachRolePolicy(request);
                System.out.println("Detached and deleted policy " + attachedPolicy.policyName());
            }

            getIAMClient().deleteRole(deleteRoleRequest);
            System.out.println("Instance profile and role deleted.");

        } catch (IamException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public void deleteTemplate(String templateName) {
        getEc2Client().deleteLaunchTemplate(name -> name.launchTemplateName(templateName));
        System.out.format(templateName + " was deleted.");
    }

    public void deleteAutoScaleGroup(String groupName) {
        DeleteAutoScalingGroupRequest deleteAutoScalingGroupRequest = DeleteAutoScalingGroupRequest.builder()
                .autoScalingGroupName(groupName)
                .forceDelete(true)
                .build();

        getAutoScalingClient().deleteAutoScalingGroup(deleteAutoScalingGroupRequest);
        System.out.println(groupName + " was deleted.");
    }

    /*
     * Verify the default security group of the specified VPC allows ingress from
     * this
     * computer. This can be done by allowing ingress from this computer's IP
     * address. In some situations, such as connecting from a corporate network, you
     * must instead specify a prefix list ID. You can also temporarily open the port
     * to
     * any IP address while running this example. If you do, be sure to remove
     * public
     * access when you're done.
     * 
     */
    public GroupInfo verifyInboundPort(String VPC, int port, String ipAddress) {
        boolean portIsOpen = false;
        GroupInfo groupInfo = new GroupInfo();
        try {
            Filter filter = Filter.builder()
                    .name("group-name")
                    .values("default")
                    .build();

            Filter filter1 = Filter.builder()
                    .name("vpc-id")
                    .values(VPC)
                    .build();

            DescribeSecurityGroupsRequest securityGroupsRequest = DescribeSecurityGroupsRequest.builder()
                    .filters(filter, filter1)
                    .build();

            DescribeSecurityGroupsResponse securityGroupsResponse = getEc2Client()
                    .describeSecurityGroups(securityGroupsRequest);
            String securityGroup = securityGroupsResponse.securityGroups().get(0).groupName();
            groupInfo.setGroupName(securityGroup);

            for (SecurityGroup secGroup : securityGroupsResponse.securityGroups()) {
                System.out.println("Found security group: " + secGroup.groupId());

                for (IpPermission ipPermission : secGroup.ipPermissions()) {
                    if (ipPermission.fromPort() == port) {
                        System.out.println("Found inbound rule: " + ipPermission);
                        for (IpRange ipRange : ipPermission.ipRanges()) {
                            String cidrIp = ipRange.cidrIp();
                            if (cidrIp.startsWith(ipAddress) || cidrIp.equals("0.0.0.0/0")) {
                                System.out.println(cidrIp + " is applicable");
                                portIsOpen = true;
                            }
                        }

                        if (!ipPermission.prefixListIds().isEmpty()) {
                            System.out.println("Prefix lList is applicable");
                            portIsOpen = true;
                        }

                        if (!portIsOpen) {
                            System.out
                                    .println("The inbound rule does not appear to be open to either this computer's IP,"
                                            + " all IP addresses (0.0.0.0/0), or to a prefix list ID.");
                        } else {
                            break;
                        }
                    }
                }
            }

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }

        groupInfo.setPortOpen(portIsOpen);
        return groupInfo;
    }

    /*
     * Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto
     * Scaling group.
     * The target group specifies how the load balancer forward requests to the
     * instances
     * in the group.
     */
    public void attachLoadBalancerTargetGroup(String asGroupName, String targetGroupARN) {
        try {
            AttachLoadBalancerTargetGroupsRequest targetGroupsRequest = AttachLoadBalancerTargetGroupsRequest.builder()
                    .autoScalingGroupName(asGroupName)
                    .targetGroupARNs(targetGroupARN)
                    .build();

            getAutoScalingClient().attachLoadBalancerTargetGroups(targetGroupsRequest);
            System.out.println("Attached load balancer to " + asGroupName);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Creates an EC2 Auto Scaling group with the specified size.
    public String[] createGroup(int groupSize, String templateName, String autoScalingGroupName) {

        // Get availability zones.
        software.amazon.awssdk.services.ec2.model.DescribeAvailabilityZonesRequest zonesRequest = software.amazon.awssdk.services.ec2.model.DescribeAvailabilityZonesRequest
                .builder()
                .build();

        DescribeAvailabilityZonesResponse zonesResponse = getEc2Client().describeAvailabilityZones(zonesRequest);
        List<String> availabilityZoneNames = zonesResponse.availabilityZones().stream()
                .map(software.amazon.awssdk.services.ec2.model.AvailabilityZone::zoneName)
                .collect(Collectors.toList());

        String availabilityZones = String.join(",", availabilityZoneNames);
        LaunchTemplateSpecification specification = LaunchTemplateSpecification.builder()
                .launchTemplateName(templateName)
                .version("$Default")
                .build();

        String[] zones = availabilityZones.split(",");
        CreateAutoScalingGroupRequest groupRequest = CreateAutoScalingGroupRequest.builder()
                .launchTemplate(specification)
                .availabilityZones(zones)
                .maxSize(groupSize)
                .minSize(groupSize)
                .autoScalingGroupName(autoScalingGroupName)
                .build();

        try {
            getAutoScalingClient().createAutoScalingGroup(groupRequest);

        } catch (AutoScalingException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Created an EC2 Auto Scaling group named " + autoScalingGroupName);
        return zones;
    }

    public String getDefaultVPC() {
        // Define the filter.
        Filter defaultFilter = Filter.builder()
                .name("is-default")
                .values("true")
                .build();

        software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest request = software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest
                .builder()
                .filters(defaultFilter)
                .build();

        DescribeVpcsResponse response = getEc2Client().describeVpcs(request);
        return response.vpcs().get(0).vpcId();
    }

    // Gets the default subnets in a VPC for a specified list of Availability Zones.
    public List<Subnet> getSubnets(String vpcId, String[] availabilityZones) {
        List<Subnet> subnets = null;
        Filter vpcFilter = Filter.builder()
                .name("vpc-id")
                .values(vpcId)
                .build();

        Filter azFilter = Filter.builder()
                .name("availability-zone")
                .values(availabilityZones)
                .build();

        Filter defaultForAZ = Filter.builder()
                .name("default-for-az")
                .values("true")
                .build();

        DescribeSubnetsRequest request = DescribeSubnetsRequest.builder()
                .filters(vpcFilter, azFilter, defaultForAZ)
                .build();

        DescribeSubnetsResponse response = getEc2Client().describeSubnets(request);
        subnets = response.subnets();
        return subnets;
    }

    // Gets data about the instances in the EC2 Auto Scaling group.
    public String getBadInstance(String groupName) {
        DescribeAutoScalingGroupsRequest request = DescribeAutoScalingGroupsRequest.builder()
                .autoScalingGroupNames(groupName)
                .build();

        DescribeAutoScalingGroupsResponse response = getAutoScalingClient().describeAutoScalingGroups(request);
        AutoScalingGroup autoScalingGroup = response.autoScalingGroups().get(0);
        List<String> instanceIds = autoScalingGroup.instances().stream()
                .map(instance -> instance.instanceId())
                .collect(Collectors.toList());

        String[] instanceIdArray = instanceIds.toArray(new String[0]);
        for (String instanceId : instanceIdArray) {
            System.out.println("Instance ID: " + instanceId);
            return instanceId;
        }
        return "";
    }

    // Gets data about the profile associated with an instance.
    public String getInstanceProfile(String instanceId) {
        Filter filter = Filter.builder()
                .name("instance-id")
                .values(instanceId)
                .build();

        DescribeIamInstanceProfileAssociationsRequest associationsRequest = DescribeIamInstanceProfileAssociationsRequest
                .builder()
                .filters(filter)
                .build();

        DescribeIamInstanceProfileAssociationsResponse response = getEc2Client()
                .describeIamInstanceProfileAssociations(associationsRequest);
        return response.iamInstanceProfileAssociations().get(0).associationId();
    }

    public void deleteRolesPolicies(String policyName, String roleName, String InstanceProfile) {
        ListPoliciesRequest listPoliciesRequest = ListPoliciesRequest.builder().build();
        ListPoliciesResponse listPoliciesResponse = getIAMClient().listPolicies(listPoliciesRequest);
        for (Policy policy : listPoliciesResponse.policies()) {
            if (policy.policyName().equals(policyName)) {
                // List the entities (users, groups, roles) that are attached to the policy.
                software.amazon.awssdk.services.iam.model.ListEntitiesForPolicyRequest listEntitiesRequest = software.amazon.awssdk.services.iam.model.ListEntitiesForPolicyRequest
                        .builder()
                        .policyArn(policy.arn())
                        .build();
                ListEntitiesForPolicyResponse listEntitiesResponse = iamClient
                        .listEntitiesForPolicy(listEntitiesRequest);
                if (!listEntitiesResponse.policyGroups().isEmpty() || !listEntitiesResponse.policyUsers().isEmpty()
                        || !listEntitiesResponse.policyRoles().isEmpty()) {
                    // Detach the policy from any entities it is attached to.
                    DetachRolePolicyRequest detachPolicyRequest = DetachRolePolicyRequest.builder()
                            .policyArn(policy.arn())
                            .roleName(roleName) // Specify the name of the IAM role
                            .build();

                    getIAMClient().detachRolePolicy(detachPolicyRequest);
                    System.out.println("Policy detached from entities.");
                }

                // Now, you can delete the policy.
                DeletePolicyRequest deletePolicyRequest = DeletePolicyRequest.builder()
                        .policyArn(policy.arn())
                        .build();

                getIAMClient().deletePolicy(deletePolicyRequest);
                System.out.println("Policy deleted successfully.");
                break;
            }
        }

        // List the roles associated with the instance profile
        ListInstanceProfilesForRoleRequest listRolesRequest = ListInstanceProfilesForRoleRequest.builder()
                .roleName(roleName)
                .build();

        // Detach the roles from the instance profile
        ListInstanceProfilesForRoleResponse listRolesResponse = iamClient.listInstanceProfilesForRole(listRolesRequest);
        for (software.amazon.awssdk.services.iam.model.InstanceProfile profile : listRolesResponse.instanceProfiles()) {
            RemoveRoleFromInstanceProfileRequest removeRoleRequest = RemoveRoleFromInstanceProfileRequest.builder()
                    .instanceProfileName(InstanceProfile)
                    .roleName(roleName) // Remove the extra dot here
                    .build();

            getIAMClient().removeRoleFromInstanceProfile(removeRoleRequest);
            System.out.println("Role " + roleName + " removed from instance profile " + InstanceProfile);
        }

        // Delete the instance profile after removing all roles
        DeleteInstanceProfileRequest deleteInstanceProfileRequest = DeleteInstanceProfileRequest.builder()
                .instanceProfileName(InstanceProfile)
                .build();

        getIAMClient().deleteInstanceProfile(r -> r.instanceProfileName(InstanceProfile));
        System.out.println(InstanceProfile + " Deleted");
        System.out.println("All roles and policies are deleted.");
    }
}
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
public class LoadBalancer {
    public ElasticLoadBalancingV2Client elasticLoadBalancingV2Client;

    public ElasticLoadBalancingV2Client getLoadBalancerClient() {
        if (elasticLoadBalancingV2Client == null) {
            elasticLoadBalancingV2Client = ElasticLoadBalancingV2Client.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }

        return elasticLoadBalancingV2Client;
    }

    // Checks the health of the instances in the target group.
    public List<TargetHealthDescription> checkTargetHealth(String targetGroupName) {
        DescribeTargetGroupsRequest targetGroupsRequest = DescribeTargetGroupsRequest.builder()
                .names(targetGroupName)
                .build();

        DescribeTargetGroupsResponse tgResponse = getLoadBalancerClient().describeTargetGroups(targetGroupsRequest);

        DescribeTargetHealthRequest healthRequest = DescribeTargetHealthRequest.builder()
                .targetGroupArn(tgResponse.targetGroups().get(0).targetGroupArn())
                .build();

        DescribeTargetHealthResponse healthResponse = getLoadBalancerClient().describeTargetHealth(healthRequest);
        return healthResponse.targetHealthDescriptions();
    }

    // Gets the HTTP endpoint of the load balancer.
    public String getEndpoint(String lbName) {
        DescribeLoadBalancersResponse res = getLoadBalancerClient()
                .describeLoadBalancers(describe -> describe.names(lbName));
        return res.loadBalancers().get(0).dnsName();
    }

    // Deletes a load balancer.
    public void deleteLoadBalancer(String lbName) {
        try {
            // Use a waiter to delete the Load Balancer.
            DescribeLoadBalancersResponse res = getLoadBalancerClient()
                    .describeLoadBalancers(describe -> describe.names(lbName));
            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(res.loadBalancers().get(0).loadBalancerArn())
                    .build();

            getLoadBalancerClient().deleteLoadBalancer(
                    builder -> builder.loadBalancerArn(res.loadBalancers().get(0).loadBalancerArn()));
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancersDeleted(request);
            waiterResponse.matched().response().ifPresent(System.out::println);

        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(lbName + " was deleted.");
    }

    // Deletes the target group.
    public void deleteTargetGroup(String targetGroupName) {
        try {
            DescribeTargetGroupsResponse res = getLoadBalancerClient()
                    .describeTargetGroups(describe -> describe.names(targetGroupName));
            getLoadBalancerClient()
                    .deleteTargetGroup(builder -> builder.targetGroupArn(res.targetGroups().get(0).targetGroupArn()));
        } catch (ElasticLoadBalancingV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println(targetGroupName + " was deleted.");
    }

    // Verify this computer can successfully send a GET request to the load balancer
    // endpoint.
    public boolean verifyLoadBalancerEndpoint(String elbDnsName) throws IOException, InterruptedException {
        boolean success = false;
        int retries = 3;
        CloseableHttpClient httpClient = HttpClients.createDefault();

        // Create an HTTP GET request to the ELB.
        HttpGet httpGet = new HttpGet("http://" + elbDnsName);
        try {
            while ((!success) && (retries > 0)) {
                // Execute the request and get the response.
                HttpResponse response = httpClient.execute(httpGet);
                int statusCode = response.getStatusLine().getStatusCode();
                System.out.println("HTTP Status Code: " + statusCode);
                if (statusCode == 200) {
                    success = true;
                } else {
                    retries--;
                    System.out.println("Got connection error from load balancer endpoint, retrying...");
                    TimeUnit.SECONDS.sleep(15);
                }
            }

        } catch (org.apache.http.conn.HttpHostConnectException e) {
            System.out.println(e.getMessage());
        }

        System.out.println("Status.." + success);
        return success;
    }

    /*
     * Creates an Elastic Load Balancing target group. The target group specifies
     * how
     * the load balancer forward requests to instances in the group and how instance
     * health is checked.
     */
    public String createTargetGroup(String protocol, int port, String vpcId, String targetGroupName) {
        CreateTargetGroupRequest targetGroupRequest = CreateTargetGroupRequest.builder()
                .healthCheckPath("/healthcheck")
                .healthCheckTimeoutSeconds(5)
                .port(port)
                .vpcId(vpcId)
                .name(targetGroupName)
                .protocol(protocol)
                .build();

        CreateTargetGroupResponse targetGroupResponse = getLoadBalancerClient().createTargetGroup(targetGroupRequest);
        String targetGroupArn = targetGroupResponse.targetGroups().get(0).targetGroupArn();
        String targetGroup = targetGroupResponse.targetGroups().get(0).targetGroupName();
        System.out.println("The " + targetGroup + " was created with ARN" + targetGroupArn);
        return targetGroupArn;
    }

    /*
     * Creates an Elastic Load Balancing load balancer that uses the specified
     * subnets
     * and forwards requests to the specified target group.
     */
    public String createLoadBalancer(List<Subnet> subnetIds, String targetGroupARN, String lbName, int port,
            String protocol) {
        try {
            List<String> subnetIdStrings = subnetIds.stream()
                    .map(Subnet::subnetId)
                    .collect(Collectors.toList());

            CreateLoadBalancerRequest balancerRequest = CreateLoadBalancerRequest.builder()
                    .subnets(subnetIdStrings)
                    .name(lbName)
                    .scheme("internet-facing")
                    .build();

            // Create and wait for the load balancer to become available.
            CreateLoadBalancerResponse lsResponse = getLoadBalancerClient().createLoadBalancer(balancerRequest);
            String lbARN = lsResponse.loadBalancers().get(0).loadBalancerArn();

            ElasticLoadBalancingV2Waiter loadBalancerWaiter = getLoadBalancerClient().waiter();
            DescribeLoadBalancersRequest request = DescribeLoadBalancersRequest.builder()
                    .loadBalancerArns(lbARN)
                    .build();

            System.out.println("Waiting for Load Balancer " + lbName + " to become available.");
            WaiterResponse<DescribeLoadBalancersResponse> waiterResponse = loadBalancerWaiter
                    .waitUntilLoadBalancerAvailable(request);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Load Balancer " + lbName + " is available.");

            // Get the DNS name (endpoint) of the load balancer.
            String lbDNSName = lsResponse.loadBalancers().get(0).dnsName();
            System.out.println("*** Load Balancer DNS Name: " + lbDNSName);

            // Create a listener for the load balance.
            Action action = Action.builder()
                    .targetGroupArn(targetGroupARN)
                    .type("forward")
                    .build();

            CreateListenerRequest listenerRequest = CreateListenerRequest.builder()
                    .loadBalancerArn(lsResponse.loadBalancers().get(0).loadBalancerArn())
                    .defaultActions(action)
                    .port(port)
                    .protocol(protocol)
                    .build();

            getLoadBalancerClient().createListener(listenerRequest);
            System.out.println("Created listener to forward traffic from load balancer " + lbName + " to target group "
                    + targetGroupARN);

            // Return the load balancer DNS name.
            return lbDNSName;

        } catch (ElasticLoadBalancingV2Exception e) {
            e.printStackTrace();
        }
        return "";
    }
}
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
public class Database {

    private static DynamoDbClient dynamoDbClient;

    public static DynamoDbClient getDynamoDbClient() {
        if (dynamoDbClient == null) {
            dynamoDbClient = DynamoDbClient.builder()
                    .region(Region.US_EAST_1)
                    .build();
        }
        return dynamoDbClient;
    }

    // Checks to see if the Amazon DynamoDB table exists.
    private boolean doesTableExist(String tableName) {
        try {
            // Describe the table and catch any exceptions.
            DescribeTableRequest describeTableRequest = DescribeTableRequest.builder()
                    .tableName(tableName)
                    .build();

            getDynamoDbClient().describeTable(describeTableRequest);
            System.out.println("Table '" + tableName + "' exists.");
            return true;

        } catch (ResourceNotFoundException e) {
            System.out.println("Table '" + tableName + "' does not exist.");
        } catch (DynamoDbException e) {
            System.err.println("Error checking table existence: " + e.getMessage());
        }
        return false;
    }

    /*
     * Creates a DynamoDB table to use a recommendation service. The table has a
     * hash key named 'MediaType' that defines the type of media recommended, such
     * as
     * Book or Movie, and a range key named 'ItemId' that, combined with the
     * MediaType,
     * forms a unique identifier for the recommended item.
     */
    public void createTable(String tableName, String fileName) throws IOException {
        // First check to see if the table exists.
        boolean doesExist = doesTableExist(tableName);
        if (!doesExist) {
            DynamoDbWaiter dbWaiter = getDynamoDbClient().waiter();
            CreateTableRequest createTableRequest = CreateTableRequest.builder()
                    .tableName(tableName)
                    .attributeDefinitions(
                            AttributeDefinition.builder()
                                    .attributeName("MediaType")
                                    .attributeType(ScalarAttributeType.S)
                                    .build(),
                            AttributeDefinition.builder()
                                    .attributeName("ItemId")
                                    .attributeType(ScalarAttributeType.N)
                                    .build())
                    .keySchema(
                            KeySchemaElement.builder()
                                    .attributeName("MediaType")
                                    .keyType(KeyType.HASH)
                                    .build(),
                            KeySchemaElement.builder()
                                    .attributeName("ItemId")
                                    .keyType(KeyType.RANGE)
                                    .build())
                    .provisionedThroughput(
                            ProvisionedThroughput.builder()
                                    .readCapacityUnits(5L)
                                    .writeCapacityUnits(5L)
                                    .build())
                    .build();

            getDynamoDbClient().createTable(createTableRequest);
            System.out.println("Creating table " + tableName + "...");

            // Wait until the Amazon DynamoDB table is created.
            DescribeTableRequest tableRequest = DescribeTableRequest.builder()
                    .tableName(tableName)
                    .build();

            WaiterResponse<DescribeTableResponse> waiterResponse = dbWaiter.waitUntilTableExists(tableRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("Table " + tableName + " created.");

            // Add records to the table.
            populateTable(fileName, tableName);
        }
    }

    public void deleteTable(String tableName) {
        getDynamoDbClient().deleteTable(table -> table.tableName(tableName));
        System.out.println("Table " + tableName + " deleted.");
    }

    // Populates the table with data located in a JSON file using the DynamoDB
    // enhanced client.
    public void populateTable(String fileName, String tableName) throws IOException {
        DynamoDbEnhancedClient enhancedClient = DynamoDbEnhancedClient.builder()
                .dynamoDbClient(getDynamoDbClient())
                .build();
        ObjectMapper objectMapper = new ObjectMapper();
        File jsonFile = new File(fileName);
        JsonNode rootNode = objectMapper.readTree(jsonFile);

        DynamoDbTable<Recommendation> mappedTable = enhancedClient.table(tableName,
                TableSchema.fromBean(Recommendation.class));
        for (JsonNode currentNode : rootNode) {
            String mediaType = currentNode.path("MediaType").path("S").asText();
            int itemId = currentNode.path("ItemId").path("N").asInt();
            String title = currentNode.path("Title").path("S").asText();
            String creator = currentNode.path("Creator").path("S").asText();

            // Create a Recommendation object and set its properties.
            Recommendation rec = new Recommendation();
            rec.setMediaType(mediaType);
            rec.setItemId(itemId);
            rec.setTitle(title);
            rec.setCreator(creator);

            // Put the item into the DynamoDB table.
            mappedTable.putItem(rec); // Add the Recommendation to the list.
        }
        System.out.println("Added all records to the " + tableName);
    }
}
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
public class ParameterHelper {

    String tableName = "doc-example-resilient-architecture-table";
    String dyntable = "doc-example-recommendation-service";
    String failureResponse = "doc-example-resilient-architecture-failure-response";
    String healthCheck = "doc-example-resilient-architecture-health-check";

    public void reset() {
        put(dyntable, tableName);
        put(failureResponse, "none");
        put(healthCheck, "shallow");
    }

    public void put(String name, String value) {
        SsmClient ssmClient = SsmClient.builder()
                .region(Region.US_EAST_1)
                .build();

        PutParameterRequest parameterRequest = PutParameterRequest.builder()
                .name(name)
                .value(value)
                .overwrite(true)
                .type("String")
                .build();

        ssmClient.putParameter(parameterRequest);
        System.out.printf("Setting demo parameter %s to '%s'.", name, value);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/SdkForJavaV2/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/autoscaling-2011-01-01/UpdateAutoScalingGroup)

### Bekerja dengan API Pembuat Kebijakan IAM
<a name="iam_Scenario_IamPolicyBuilder_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat kebijakan IAM dengan menggunakan API berorientasi objek.
+ Gunakan API Pembuat Kebijakan IAM dengan layanan IAM.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iam#code-examples). 
Contoh menggunakan impor berikut.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.policybuilder.iam.IamConditionOperator;
import software.amazon.awssdk.policybuilder.iam.IamEffect;
import software.amazon.awssdk.policybuilder.iam.IamPolicy;
import software.amazon.awssdk.policybuilder.iam.IamPolicyWriter;
import software.amazon.awssdk.policybuilder.iam.IamPrincipal;
import software.amazon.awssdk.policybuilder.iam.IamPrincipalType;
import software.amazon.awssdk.policybuilder.iam.IamResource;
import software.amazon.awssdk.policybuilder.iam.IamStatement;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iam.IamClient;
import software.amazon.awssdk.services.iam.model.GetPolicyResponse;
import software.amazon.awssdk.services.iam.model.GetPolicyVersionResponse;
import software.amazon.awssdk.services.sts.StsClient;

import java.net.URLDecoder;
import java.nio.charset.StandardCharsets;
import java.util.Arrays;
import java.util.List;
```
Buat kebijakan berbasis waktu.  

```
        public String timeBasedPolicyExample() {
                IamPolicy policy = IamPolicy.builder()
                                .addStatement(b -> b
                                                .effect(IamEffect.ALLOW)
                                                .addAction("dynamodb:GetItem")
                                                .addResource(IamResource.ALL)
                                                .addCondition(b1 -> b1
                                                                .operator(IamConditionOperator.DATE_GREATER_THAN)
                                                                .key("aws:CurrentTime")
                                                                .value("2020-04-01T00:00:00Z"))
                                                .addCondition(b1 -> b1
                                                                .operator(IamConditionOperator.DATE_LESS_THAN)
                                                                .key("aws:CurrentTime")
                                                                .value("2020-06-30T23:59:59Z")))
                                .build();

                // Use an IamPolicyWriter to write out the JSON string to a more readable
                // format.
                return policy.toJson(IamPolicyWriter.builder()
                                .prettyPrint(true)
                                .build());
        }
```
Buat kebijakan dengan beberapa kondisi.  

```
        public String multipleConditionsExample() {
                IamPolicy policy = IamPolicy.builder()
                                .addStatement(b -> b
                                                .effect(IamEffect.ALLOW)
                                                .addAction("dynamodb:GetItem")
                                                .addAction("dynamodb:BatchGetItem")
                                                .addAction("dynamodb:Query")
                                                .addAction("dynamodb:PutItem")
                                                .addAction("dynamodb:UpdateItem")
                                                .addAction("dynamodb:DeleteItem")
                                                .addAction("dynamodb:BatchWriteItem")
                                                .addResource("arn:aws:dynamodb:*:*:table/table-name")
                                                .addConditions(IamConditionOperator.STRING_EQUALS
                                                                .addPrefix("ForAllValues:"),
                                                                "dynamodb:Attributes",
                                                                List.of("column-name1", "column-name2", "column-name3"))
                                                .addCondition(b1 -> b1
                                                                .operator(IamConditionOperator.STRING_EQUALS
                                                                                .addSuffix("IfExists"))
                                                                .key("dynamodb:Select")
                                                                .value("SPECIFIC_ATTRIBUTES")))
                                .build();

                return policy.toJson(IamPolicyWriter.builder()
                                .prettyPrint(true).build());
        }
```
Gunakan prinsip dalam kebijakan.  

```
        public String specifyPrincipalsExample() {
                IamPolicy policy = IamPolicy.builder()
                                .addStatement(b -> b
                                                .effect(IamEffect.DENY)
                                                .addAction("s3:*")
                                                .addPrincipal(IamPrincipal.ALL)
                                                .addResource("arn:aws:s3:::amzn-s3-demo-bucket/*")
                                                .addResource("arn:aws:s3:::amzn-s3-demo-bucket")
                                                .addCondition(b1 -> b1
                                                                .operator(IamConditionOperator.ARN_NOT_EQUALS)
                                                                .key("aws:PrincipalArn")
                                                                .value("arn:aws:iam::444455556666:user/user-name")))
                                .build();
                return policy.toJson(IamPolicyWriter.builder()
                                .prettyPrint(true).build());
        }
```
Izinkan akses lintas akun.  

```
        public String allowCrossAccountAccessExample() {
                IamPolicy policy = IamPolicy.builder()
                                .addStatement(b -> b
                                                .effect(IamEffect.ALLOW)
                                                .addPrincipal(IamPrincipalType.AWS, "111122223333")
                                                .addAction("s3:PutObject")
                                                .addResource("arn:aws:s3:::amzn-s3-demo-bucket/*")
                                                .addCondition(b1 -> b1
                                                                .operator(IamConditionOperator.STRING_EQUALS)
                                                                .key("s3:x-amz-acl")
                                                                .value("bucket-owner-full-control")))
                                .build();
                return policy.toJson(IamPolicyWriter.builder()
                                .prettyPrint(true).build());
        }
```
Bangun dan unggah file`IamPolicy`.  

```
        public String createAndUploadPolicyExample(IamClient iam, String accountID, String policyName) {
                // Build the policy.
                IamPolicy policy = IamPolicy.builder() // 'version' defaults to "2012-10-17".
                                .addStatement(IamStatement.builder()
                                                .effect(IamEffect.ALLOW)
                                                .addAction("dynamodb:PutItem")
                                                .addResource("arn:aws:dynamodb:us-east-1:" + accountID
                                                                + ":table/exampleTableName")
                                                .build())
                                .build();
                // Upload the policy.
                iam.createPolicy(r -> r.policyName(policyName).policyDocument(policy.toJson()));
                return policy.toJson(IamPolicyWriter.builder().prettyPrint(true).build());
        }
```
Unduh dan bekerja dengan file`IamPolicy`.  

```
        public String createNewBasedOnExistingPolicyExample(IamClient iam, String accountID, String policyName,
                        String newPolicyName) {

                String policyArn = "arn:aws:iam::" + accountID + ":policy/" + policyName;
                GetPolicyResponse getPolicyResponse = iam.getPolicy(r -> r.policyArn(policyArn));

                String policyVersion = getPolicyResponse.policy().defaultVersionId();
                GetPolicyVersionResponse getPolicyVersionResponse = iam
                                .getPolicyVersion(r -> r.policyArn(policyArn).versionId(policyVersion));

                // Create an IamPolicy instance from the JSON string returned from IAM.
                String decodedPolicy = URLDecoder.decode(getPolicyVersionResponse.policyVersion().document(),
                                StandardCharsets.UTF_8);
                IamPolicy policy = IamPolicy.fromJson(decodedPolicy);

                /*
                 * All IamPolicy components are immutable, so use the copy method that creates a
                 * new instance that
                 * can be altered in the same method call.
                 * 
                 * Add the ability to get an item from DynamoDB as an additional action.
                 */
                IamStatement newStatement = policy.statements().get(0).copy(s -> s.addAction("dynamodb:GetItem"));

                // Create a new statement that replaces the original statement.
                IamPolicy newPolicy = policy.copy(p -> p.statements(Arrays.asList(newStatement)));

                // Upload the new policy. IAM now has both policies.
                iam.createPolicy(r -> r.policyName(newPolicyName)
                                .policyDocument(newPolicy.toJson()));

                return newPolicy.toJson(IamPolicyWriter.builder().prettyPrint(true).build());
        }
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK for Java 2.x](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/feature-iam-policy-builder.html). 
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/CreatePolicy)
  + [GetPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/GetPolicy)
  + [GetPolicyVersion](https://docs.aws.amazon.com/goto/SdkForJavaV2/iam-2010-05-08/GetPolicyVersion)

# Contoh Amazon Inspector menggunakan SDK for Java 2.x
<a name="java_2_inspector_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x With Amazon Inspector.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo
<a name="inspector_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloInspector {
    private static final Logger logger = LoggerFactory.getLogger(HelloInspector.class);

    public static void main(String[] args) {
        logger.info("Hello Amazon Inspector!");

        try (Inspector2Client inspectorClient = Inspector2Client.builder().build()) {

            logger.info("Listing member accounts for this Inspector administrator account...");
            listMembers(inspectorClient);

            logger.info("The Hello Inspector example completed successfully.");

        } catch (Inspector2Exception e) {
            logger.error("Error: {}", e.getMessage());
            logger.info("Troubleshooting:");
            logger.info("1. Verify AWS credentials are configured");
            logger.info("2. Check IAM permissions for Inspector2");
            logger.info("3. Ensure Inspector2 is enabled in your account");
            logger.info("4. Verify you're using a supported region");
        }
    }

    /**
     * Lists all member accounts associated with the current Inspector administrator account.
     *
     * @param inspectorClient The Inspector2Client used to interact with AWS Inspector.
     */
    public static void listMembers(Inspector2Client inspectorClient) {
        try {
            ListMembersRequest request = ListMembersRequest.builder()
                    .maxResults(50) // optional: limit results
                    .build();

            ListMembersResponse response = inspectorClient.listMembers(request);
            List<Member> members = response.members();

            if (members == null || members.isEmpty()) {
                logger.info("No member accounts found for this Inspector administrator account.");
                return;
            }

            logger.info("Found {} member account(s):", members.size());
            for (Member member : members) {
                logger.info(" - Account ID: {}, Status: {}",
                        member.accountId(),
                        member.relationshipStatusAsString());
            }

        } catch (Inspector2Exception e) {
            logger.error("Failed to list members: {}", e.awsErrorDetails().errorMessage());
        }
    }
}
```
+  Untuk detail API, lihat [ListMembers](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListMembers)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="inspector_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Periksa status akun Inspector.
+ Pastikan Inspector diaktifkan.
+ Menganalisis temuan keamanan.
+ Periksa cakupan pemindaian.
+ Buat filter temuan.
+ Daftar filter yang ada.
+ Periksa penggunaan dan biaya.
+ Dapatkan statistik cakupan.
+ Hapus filter.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 
Jalankan skenario interaktif yang menunjukkan fitur.  

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class InspectorScenario {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final Logger logger = LoggerFactory.getLogger(InspectorScenario.class);
    private static final Scanner scanner = new Scanner(System.in);

    public static void main(String[] args) {
        InspectorActions inspectorActions = new InspectorActions();
        logger.info("Amazon Inspector Basics Scenario");

        logger.info("""
                    Amazon Inspector is a security assessment service provided by Amazon Web Services (AWS) that helps
                    improve the security and compliance of applications deployed on AWS. It automatically assesses
                    applications for vulnerabilities or deviations from best practices. By leveraging Amazon Inspector,
                    users can gain insights into the overall security state of their application and identify potential
                    security risks.
                    
                    This service operates by conducting both network and host-based assessments, allowing it to detect a
                    wide range of security issues, including those related to operating systems, network configurations,
                    and application dependencies.
                    """);

        waitForInputToContinue();

        try {
            runScenario(inspectorActions);

            logger.info("");
            logger.info("Scenario completed successfully!");
            logger.info("");
            logger.info("What you learned:");
            logger.info("  - How to check Inspector account status");
            logger.info("  - How to enable Inspector");
            logger.info("  - How to list and analyze findings");
            logger.info("  - How to check coverage information");
            logger.info("  - How to create and manage filters");
            logger.info("  - How to track usage and costs");
            logger.info("  - How to clean up resources");
            logger.info("");

        } catch (Exception ex) {
            logger.error("Scenario failed due to unexpected error: {}", ex.getMessage(), ex);

        } finally {
            scanner.close();
            logger.info("Exiting...");
        }
    }

    /**
     * Runs the Inspector scenario in a step-by-step sequence.
     *
     * All InspectorActions methods are asynchronous and return CompletableFutures.
     * Each step ends with .join(). Any async exception thrown during .join() will bubble up
     *
     */
    public static void runScenario(InspectorActions actions) {
        String filterArn = null;
        boolean inspectorEnabled = false;

        try {
            // Step 1
            logger.info(DASHES);
            logger.info("Step 1: Checking Inspector account status...");
            String status = actions.getAccountStatusAsync().join();
            logger.info(status);
            waitForInputToContinue();

            // Step 2
            logger.info(DASHES);
            logger.info("Step 2: Enabling Inspector...");
            String message = actions.enableInspectorAsync(null).join();
            logger.info(message);
            inspectorEnabled = true;  // track that Inspector was enabled
            waitForInputToContinue();

            // Step 3
            logger.info(DASHES);
            logger.info("Step 3: Listing LOW severity findings...");

            // Call the service method
            List<String> allFindings = actions.listLowSeverityFindingsAsync().join();

            if (!allFindings.isEmpty()) {
                // Only proceed if there are findings
                String lastArn = allFindings.get(allFindings.size() - 1);
                logger.info("Look up details on: {}", lastArn);
                waitForInputToContinue();
                String details = actions.getFindingDetailsAsync(lastArn).join();
                logger.info(details);
            } else {
                logger.info("No LOW severity findings found.");
            }

            waitForInputToContinue();

            // Step 4
            logger.info(DASHES);
            logger.info("Step 4: Listing coverage...");
            String coverage = actions.listCoverageAsync(5).join();
            logger.info(coverage);
            waitForInputToContinue();

            // Step 5
            logger.info(DASHES);
            logger.info("Step 5: Creating filter...");
            String filterName = "suppress-low-" + System.currentTimeMillis();
            filterArn = actions.createLowSeverityFilterAsync(filterName, "Suppress low severity findings").join();
            logger.info("Created filter: {}", filterArn);
            waitForInputToContinue();

            // Step 6
            logger.info(DASHES);
            logger.info("Step 6: Listing filters...");
            String filters = actions.listFiltersAsync(10).join();
            logger.info(filters);
            waitForInputToContinue();

            // Step 7
            logger.info(DASHES);
            logger.info("Step 7: Usage totals...");
            String usage = actions.listUsageTotalsAsync(null, 10).join();
            logger.info(usage);
            waitForInputToContinue();

            // Step 8
            logger.info(DASHES);
            logger.info("Step 8: Coverage statistics...");
            String stats = actions.listCoverageStatisticsAsync().join();
            logger.info(stats);
            waitForInputToContinue();

            // Step 9
            logger.info(DASHES);
            logger.info("Step 9: Delete filter?");
            logger.info("Filter ARN: {}", filterArn);
            logger.info("Delete the filter and disable Inspector? (y/n)");

            if (scanner.nextLine().trim().equalsIgnoreCase("y")) {
                actions.deleteFilterAsync(filterArn).join();
                logger.info("Filter deleted.");
                String disableMsg = actions.disableInspectorAsync(null).join();
                logger.info(disableMsg);
                inspectorEnabled = false; // track that Inspector was disabled
            }

            waitForInputToContinue();

        } catch (Exception ex) {
            logger.error("Scenario encountered an error: {}", ex.getMessage(), ex);
            // Rethrow the exception
            throw ex;

        } finally {
            // Cleanup in case of an exception
            if (filterArn != null) {
                try {
                    actions.deleteFilterAsync(filterArn).join();
                    logger.info("Cleanup: Filter deleted.");
                } catch (Exception e) {
                    logger.warn("Failed to delete filter during cleanup: {}", e.getMessage(), e);
                }
            }

            if (inspectorEnabled) {
                try {
                    actions.disableInspectorAsync(null).join();
                    logger.info("Cleanup: Inspector disabled.");
                } catch (Exception e) {
                    logger.warn("Failed to disable Inspector during cleanup: {}", e.getMessage(), e);
                }
            }
        }
    }

    // Utility Method
    private static void waitForInputToContinue() {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' to continue:");
            String input = scanner.nextLine().trim();
            if (input.equalsIgnoreCase("c")) break;
            logger.info("Invalid input, try again.");
        }
    }
}
```
Kelas pembungkus untuk metode SDK.  

```
public class InspectorActions {
    private static Inspector2AsyncClient inspectorAsyncClient;
    private static final Logger logger = LoggerFactory.getLogger(InspectorActions.class);

    private static Inspector2AsyncClient getAsyncClient() {
        if (inspectorAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                    .maxConcurrency(100)
                    .connectionTimeout(Duration.ofSeconds(60))
                    .readTimeout(Duration.ofSeconds(60))
                    .writeTimeout(Duration.ofSeconds(60))
                    .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                    .apiCallTimeout(Duration.ofMinutes(2))
                    .apiCallAttemptTimeout(Duration.ofSeconds(90))
                    .retryStrategy(RetryMode.STANDARD)
                    .build();

            inspectorAsyncClient = Inspector2AsyncClient.builder()
                    .httpClient(httpClient)
                    .overrideConfiguration(overrideConfig)
                    .build();
        }
        return inspectorAsyncClient;
    }


    /**
     * Enables AWS Inspector for the provided account(s) and default resource types.
     *
     * @param accountIds Optional list of AWS account IDs.
     */
    public CompletableFuture<String> enableInspectorAsync(List<String> accountIds) {

        // The resource types to enable.
        List<ResourceScanType> resourceTypes = List.of(
                ResourceScanType.EC2,
                ResourceScanType.ECR,
                ResourceScanType.LAMBDA,
                ResourceScanType.LAMBDA_CODE
        );

        // Build the request.
        EnableRequest.Builder requestBuilder = EnableRequest.builder()
                .resourceTypes(resourceTypes);

        if (accountIds != null && !accountIds.isEmpty()) {
            requestBuilder.accountIds(accountIds);
        }

        EnableRequest request = requestBuilder.build();
        return getAsyncClient().enable(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ValidationException) {
                            throw new CompletionException(
                                    "Inspector may already be enabled for this account: %s".formatted(cause.getMessage()),
                                    cause
                            );

                        }

                        if (cause instanceof Inspector2Exception) {
                            Inspector2Exception e = (Inspector2Exception) cause;
                            throw new CompletionException(
                                    "AWS Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    cause
                            );
                        }

                        throw new CompletionException(
                                "Failed to enable Inspector: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                .thenApply(response -> {
                    StringBuilder summary = new StringBuilder("Enable results:\n");

                    if (response.accounts() == null || response.accounts().isEmpty()) {
                        summary.append("Inspector may already be enabled for all target accounts.");
                        return summary.toString();
                    }

                    for (Account account : response.accounts()) {
                        String accountId = account.accountId() != null ? account.accountId() : "Unknown";
                        String status = account.status() != null ? account.statusAsString() : "Unknown";
                        summary.append(" • Account: ").append(accountId)
                                .append(" → Status: ").append(status).append("\n");
                    }

                    return summary.toString();
                });
    }


    /**
     * Retrieves and prints the coverage statistics using a paginator.
     */
    public CompletableFuture<String> listCoverageStatisticsAsync() {
        ListCoverageStatisticsRequest request = ListCoverageStatisticsRequest.builder()
                .build();

        return getAsyncClient().listCoverageStatistics(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();

                        if (cause instanceof ValidationException) {
                            throw new CompletionException(
                                    "Validation error listing coverage statistics: %s".formatted(cause.getMessage()),
                                    cause
                            );
                        }

                        if (cause instanceof Inspector2Exception) {
                            Inspector2Exception e = (Inspector2Exception) cause;

                            throw new CompletionException(
                                    "Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    e
                            );
                        }

                        throw new CompletionException(
                                "Unexpected error listing coverage statistics: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                .thenApply(response -> {
                    List<Counts> countsList = response.countsByGroup();
                    StringBuilder sb = new StringBuilder();

                    if (countsList == null || countsList.isEmpty()) {
                        sb.append("No coverage statistics available.\n");
                        return sb.toString();
                    }

                    sb.append("Coverage Statistics:\n");

                    for (Counts c : countsList) {
                        sb.append("  Group: ").append(c.groupKey()).append("\n")
                                .append("    Total Count: ").append(c.count()).append("\n\n");
                    }

                    return sb.toString();
                });
    }


    /**
     * Asynchronously lists Inspector2 usage totals using a paginator.
     *
     * @param accountIds optional list of account IDs
     * @param maxResults maximum results per page
     * @return CompletableFuture completed with formatted summary text
     */
    public CompletableFuture<String> listUsageTotalsAsync(
            List<String> accountIds,
            int maxResults) {

        logger.info("Starting usage totals paginator…");

        ListUsageTotalsRequest.Builder builder = ListUsageTotalsRequest.builder()
                .maxResults(maxResults);

        if (accountIds != null && !accountIds.isEmpty()) {
            builder.accountIds(accountIds);
        }

        ListUsageTotalsRequest request = builder.build();
        ListUsageTotalsPublisher paginator = getAsyncClient().listUsageTotalsPaginator(request);
        StringBuilder summaryBuilder = new StringBuilder();

        return paginator.subscribe(response -> {
                    if (response.totals() != null && !response.totals().isEmpty()) {
                        response.totals().forEach(total -> {
                            if (total.usage() != null) {
                                total.usage().forEach(usage -> {
                                    logger.info("Usage: {} = {}", usage.typeAsString(), usage.total());
                                    summaryBuilder.append(usage.typeAsString())
                                            .append(": ")
                                            .append(usage.total())
                                            .append("\n");
                                });
                            }
                        });
                    } else {
                        logger.info("Page contained no usage totals.");
                    }
                }).thenRun(() -> logger.info("Successfully listed usage totals."))
                .thenApply(v -> {
                    String summary = summaryBuilder.toString();
                    return summary.isEmpty() ? "No usage totals found." : summary;
                }).exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ValidationException ve) {
                        throw new CompletionException(
                                "Validation error listing usage totals: %s".formatted(ve.getMessage()),
                                ve
                        );
                    }

                    throw new CompletionException("Failed to list usage totals", cause);
                });
    }



    /**
     * Retrieves the account status using the Inspector2Client.
     */
    public CompletableFuture<String> getAccountStatusAsync() {
        BatchGetAccountStatusRequest request = BatchGetAccountStatusRequest.builder()
                .accountIds(Collections.emptyList())
                .build();

        return getAsyncClient().batchGetAccountStatus(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof AccessDeniedException) {
                            throw new CompletionException(
                                    "You do not have sufficient access: %s".formatted(cause.getMessage()),
                                    cause
                            );

                        }

                        if (cause instanceof Inspector2Exception) {
                            Inspector2Exception e = (Inspector2Exception) cause;

                            throw new CompletionException(
                                    "Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    e
                            );
                        }

                        throw new CompletionException(
                                "Unexpected error getting account status: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                .thenApply(response -> {

                    StringBuilder sb = new StringBuilder();
                    List<AccountState> accounts = response.accounts();

                    if (accounts == null || accounts.isEmpty()) {
                        sb.append("No account status returned.\n");
                        return sb.toString();
                    }

                    sb.append("Inspector Account Status:\n");
                    for (AccountState account : accounts) {

                        String accountId = account.accountId() != null
                                ? account.accountId()
                                : "Unknown";

                        sb.append("  Account ID: ").append(accountId).append("\n");

                        // Overall account state
                        if (account.state() != null && account.state().status() != null) {
                            sb.append("  Overall State: ")
                                    .append(account.state().status())
                                    .append("\n");
                        } else {
                            sb.append("  Overall State: Unknown\n");
                        }

                        // Resource state (only status available)
                        ResourceState resources = account.resourceState();
                        if (resources != null) {
                            sb.append("  Resource Status: available\n");
                        }

                        sb.append("\n");
                    }

                    return sb.toString();
                });
    }


    /**
     * Asynchronously lists Inspector2 filters using a paginator.
     *
     * @param maxResults maximum filters per page (nullable)
     * @return CompletableFuture completed with summary text
     */
    public CompletableFuture<String> listFiltersAsync(Integer maxResults) {
        logger.info("Starting async filters paginator…");

        ListFiltersRequest.Builder builder = ListFiltersRequest.builder();
        if (maxResults != null) {
            builder.maxResults(maxResults);
        }

        ListFiltersRequest request = builder.build();

        // Paginator from SDK
        ListFiltersPublisher paginator = getAsyncClient().listFiltersPaginator(request);
        StringBuilder collectedFilterIds = new StringBuilder();

        return paginator.subscribe(response -> {
            response.filters().forEach(filter -> {
                logger.info("Filter: " + filter.arn());
                collectedFilterIds.append(filter.arn()).append("\n");
            });
        }).thenApply(v -> {
            String result = collectedFilterIds.toString();
            logger.info("Successfully listed all filters.");
            return result.isEmpty() ? "No filters found." : result;
        }).exceptionally(ex -> {
            Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

            if (cause instanceof ValidationException ve) {
                throw new CompletionException(
                        "Validation error listing filters: %s".formatted(ve.getMessage()),
                        ve
                );
            }

            throw new RuntimeException("Failed to list filters", ex);
        });
    }


    /**
     * Creates a new LOW severity filter in AWS Inspector2 to suppress findings.
     *
     * @param filterName  the name of the filter to create
     * @param description a descriptive string explaining the purpose of the filter
     * @return a CompletableFuture that completes with the ARN of the created filter
     * @throws CompletionException wraps any validation, Inspector2 service, or unexpected errors
     */
    public CompletableFuture<String> createLowSeverityFilterAsync(
            String filterName,
            String description) {

        // Define a filter to match LOW severity findings.
        StringFilter severityFilter = StringFilter.builder()
                .value(Severity.LOW.toString())
                .comparison(StringComparison.EQUALS)
                .build();

        // Create filter criteria.
        FilterCriteria filterCriteria = FilterCriteria.builder()
                .severity(Collections.singletonList(severityFilter))
                .build();

        // Build the filter creation request.
        CreateFilterRequest request = CreateFilterRequest.builder()
                .name(filterName)
                .filterCriteria(filterCriteria)
                .action(FilterAction.SUPPRESS)
                .description(description)
                .build();

        return getAsyncClient().createFilter(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof ValidationException ve) {
                            throw new CompletionException(
                                    "Validation error creating filter: %s".formatted(ve.getMessage()),
                                    ve
                            );
                        }

                        if (cause instanceof Inspector2Exception e) {
                            throw new CompletionException(
                                    "Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    e
                            );
                        }

                        // Unexpected async error
                        throw new CompletionException(
                                "Unexpected error creating filter: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                // Extract and return the ARN of the created filter.
                .thenApply(CreateFilterResponse::arn);
    }


    /**
     * Lists all AWS Inspector findings of LOW severity asynchronously.
     *
     * @return CompletableFuture containing a List of finding ARNs.
     * Returns an empty list if no LOW severity findings are found.
     */
    public CompletableFuture<ArrayList<String>> listLowSeverityFindingsAsync() {
        logger.info("Starting async LOW severity findings paginator…");

        // Build a filter criteria for LOW severity.
        StringFilter severityFilter = StringFilter.builder()
                .value(Severity.LOW.toString())
                .comparison(StringComparison.EQUALS)
                .build();

        FilterCriteria filterCriteria = FilterCriteria.builder()
                .severity(Collections.singletonList(severityFilter))
                .build();

        // Build the request.
        ListFindingsRequest request = ListFindingsRequest.builder()
                .filterCriteria(filterCriteria)
                .build();

        ListFindingsPublisher paginator = getAsyncClient().listFindingsPaginator(request);
        List<String> allArns = Collections.synchronizedList(new ArrayList<>());

        return paginator.subscribe(response -> {
                    if (response.findings() != null && !response.findings().isEmpty()) {
                        response.findings().forEach(finding -> {
                            logger.info("Finding ARN: {}", finding.findingArn());
                            allArns.add(finding.findingArn());
                        });
                    } else {
                        logger.info("Page contained no findings.");
                    }
                })
                .thenRun(() -> logger.info("Successfully listed all LOW severity findings."))
                .thenApply(v -> new ArrayList<>(allArns)) // Return list instead of a formatted string
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;
                    if (cause instanceof ValidationException ve) {
                        throw new CompletionException(
                                "Validation error listing LOW severity findings: %s".formatted(ve.getMessage()),
                                ve
                        );
                    }
                    throw new RuntimeException("Failed to list LOW severity findings", ex);
                });
    }



    /**
     * Lists AWS Inspector2 coverage details for scanned resources using a paginator.
     *
     * @param maxResults Maximum number of resources to return.
     */
    public CompletableFuture<String> listCoverageAsync(int maxResults) {
        ListCoverageRequest initialRequest = ListCoverageRequest.builder()
                .maxResults(maxResults)
                .build();

        ListCoveragePublisher paginator = getAsyncClient().listCoveragePaginator(initialRequest);
        StringBuilder summary = new StringBuilder();

        return paginator.subscribe(response -> {
            List<CoveredResource> coveredResources = response.coveredResources();

            if (coveredResources == null || coveredResources.isEmpty()) {
                summary.append("No coverage information available for this page.\n");
                return;
            }

            Map<String, List<CoveredResource>> byType = coveredResources.stream()
                    .collect(Collectors.groupingBy(CoveredResource::resourceTypeAsString));

            byType.forEach((type, list) ->
                    summary.append("  ").append(type)
                            .append(": ").append(list.size())
                            .append(" resource(s)\n")
            );

            // Include up to 3 sample resources per page
            for (int i = 0; i < Math.min(coveredResources.size(), 3); i++) {
                CoveredResource r = coveredResources.get(i);
                summary.append("  - ").append(r.resourceTypeAsString())
                        .append(": ").append(r.resourceId()).append("\n");
                summary.append("    Scan Type: ").append(r.scanTypeAsString()).append("\n");
                if (r.scanStatus() != null) {
                    summary.append("    Status: ").append(r.scanStatus().statusCodeAsString()).append("\n");
                }
                if (r.accountId() != null) {
                    summary.append("    Account ID: ").append(r.accountId()).append("\n");
                }
                summary.append("\n");
            }

        }).thenApply(v -> {
            if (summary.length() == 0) {
                return "No coverage information found across all pages.";
            } else {
                return "Coverage Information:\n" + summary.toString();
            }
        }).exceptionally(ex -> {
            Throwable cause = ex.getCause();
            if (cause instanceof ValidationException) {
                throw new CompletionException(
                        "Validation error listing coverage: " + cause.getMessage(), cause);
            } else if (cause instanceof Inspector2Exception e) {
                throw new CompletionException(
                        "Inspector2 service error: " + e.awsErrorDetails().errorMessage(), e);
            }
            throw new CompletionException("Unexpected error listing coverage: " + ex.getMessage(), ex);
        });
    }


    /**
     * Deletes an AWS Inspector2 filter.
     *
     * @param filterARN The ARN of the filter to delete.
     */
    public CompletableFuture<Void> deleteFilterAsync(String filterARN) {
        return getAsyncClient().deleteFilter(
                        DeleteFilterRequest.builder()
                                .arn(filterARN)
                                .build()
                )
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof ResourceNotFoundException rnfe) {
                            String msg = "Filter not found for ARN: %s".formatted(filterARN);
                            logger.warn(msg, rnfe);
                            throw new CompletionException(msg, rnfe);
                        }

                        throw new RuntimeException("Failed to delete the filter: " + cause, cause);
                    }
                    return null;
                });
    }

    /**
     * Retrieves detailed information about a specific AWS Inspector2 finding asynchronously.
     *
     * @param findingArn The ARN of the finding to look up.
     * @return A {@link CompletableFuture} that, when completed, provides a formatted string
     * containing all available details for the finding.
     * @throws RuntimeException if the async call to Inspector2 fails.
     */
    public CompletableFuture<String> getFindingDetailsAsync(String findingArn) {
        BatchGetFindingDetailsRequest request = BatchGetFindingDetailsRequest.builder()
                .findingArns(findingArn)
                .build();

        return getAsyncClient().batchGetFindingDetails(request)
                .thenApply(response -> {
                    if (response.findingDetails() == null || response.findingDetails().isEmpty()) {
                        return String.format("No details found for ARN: ", findingArn);
                    }

                    StringBuilder sb = new StringBuilder();
                    response.findingDetails().forEach(detail -> {
                        sb.append("Finding ARN: ").append(detail.findingArn()).append("\n")
                                .append("Risk Score: ").append(detail.riskScore()).append("\n");

                        // ExploitObserved timings
                        if (detail.exploitObserved() != null) {
                            sb.append("Exploit First Seen: ").append(detail.exploitObserved().firstSeen()).append("\n")
                                    .append("Exploit Last Seen: ").append(detail.exploitObserved().lastSeen()).append("\n");
                        }

                        // Reference URLs
                        if (detail.hasReferenceUrls()) {
                            sb.append("Reference URLs:\n");
                            detail.referenceUrls().forEach(url -> sb.append("  • ").append(url).append("\n"));
                        }

                        // Tools
                        if (detail.hasTools()) {
                            sb.append("Tools:\n");
                            detail.tools().forEach(tool -> sb.append("  • ").append(tool).append("\n"));
                        }

                        // TTPs
                        if (detail.hasTtps()) {
                            sb.append("TTPs:\n");
                            detail.ttps().forEach(ttp -> sb.append("  • ").append(ttp).append("\n"));
                        }

                        // CWEs
                        if (detail.hasCwes()) {
                            sb.append("CWEs:\n");
                            detail.cwes().forEach(cwe -> sb.append("  • ").append(cwe).append("\n"));
                        }

                        // Evidence
                        if (detail.hasEvidences()) {
                            sb.append("Evidence:\n");
                            detail.evidences().forEach(ev -> {
                                sb.append("  - Severity: ").append(ev.severity()).append("\n");

                            });
                        }

                        sb.append("\n");
                    });

                    return sb.toString();
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ResourceNotFoundException rnfe) {
                        return "Finding not found: %s".formatted(findingArn);
                    }

                    // Fallback for other exceptions
                    throw new RuntimeException("Failed to get finding details for ARN: " + findingArn, cause);
                });
    }


    /**
     * Asynchronously disables AWS Inspector for the specified accounts and resource types.
     *
     * @param accountIds a {@link List} of AWS account IDs for which to disable Inspector;
     *                   may be {@code null} or empty to target the current account
     * @return a {@link CompletableFuture} that, when completed, returns a {@link String}
     *         summarizing the disable results for each account
     * @throws CompletionException if the disable operation fails due to validation errors,
     *                             service errors, or other exceptions
     * @see <a href="https://docs.aws.amazon.com/inspector/latest/APIReference/API_Disable.html">
     *      AWS Inspector2 Disable API</a>
     */
    public CompletableFuture<String> disableInspectorAsync(List<String> accountIds) {

        // The resource types to disable.
        List<ResourceScanType> resourceTypes = List.of(
                ResourceScanType.EC2,
                ResourceScanType.ECR,
                ResourceScanType.LAMBDA,
                ResourceScanType.LAMBDA_CODE
        );

        // Build the request.
        DisableRequest.Builder requestBuilder = DisableRequest.builder()
                .resourceTypes(resourceTypes);

        if (accountIds != null && !accountIds.isEmpty()) {
            requestBuilder.accountIds(accountIds);
        }

        DisableRequest request = requestBuilder.build();

        return getAsyncClient().disable(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ValidationException) {
                            throw new CompletionException(
                                    "Inspector may already be disabled for this account: %s".formatted(cause.getMessage()),
                                    cause
                            );
                        }

                        if (cause instanceof Inspector2Exception) {
                            Inspector2Exception e = (Inspector2Exception) cause;
                            throw new CompletionException(
                                    "AWS Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    cause
                            );
                        }

                        throw new CompletionException(
                                "Failed to disable Inspector: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                .thenApply(response -> {
                    StringBuilder summary = new StringBuilder("Disable results:\n");

                    if (response.accounts() == null || response.accounts().isEmpty()) {
                        summary.append("Inspector may already be disabled for all target accounts.");
                        return summary.toString();
                    }

                    for (Account account : response.accounts()) {
                        String accountId = account.accountId() != null ? account.accountId() : "Unknown";
                        String status = account.status() != null ? account.statusAsString() : "Unknown";
                        summary.append(" • Account: ").append(accountId)
                                .append(" → Status: ").append(status).append("\n");
                    }

                    return summary.toString();
                });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [BatchGetAccountStatus](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/BatchGetAccountStatus)
  + [BatchGetFindingDetails](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/BatchGetFindingDetails)
  + [CreateFilter](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/CreateFilter)
  + [DeleteFilter](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/DeleteFilter)
  + [Aktifkan](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/Enable)
  + [ListCoverage](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListCoverage)
  + [ListCoverageStatistics](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListCoverageStatistics)
  + [ListFilters](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListFilters)
  + [ListFindings](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListFindings)
  + [ListUsageTotals](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListUsageTotals)

## Tindakan
<a name="actions"></a>

### `BatchGetAccountStatus`
<a name="inspector_GetAccountStatus_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetAccountStatus`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Retrieves the account status using the Inspector2Client.
     */
    public CompletableFuture<String> getAccountStatusAsync() {
        BatchGetAccountStatusRequest request = BatchGetAccountStatusRequest.builder()
                .accountIds(Collections.emptyList())
                .build();

        return getAsyncClient().batchGetAccountStatus(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof AccessDeniedException) {
                            throw new CompletionException(
                                    "You do not have sufficient access: %s".formatted(cause.getMessage()),
                                    cause
                            );

                        }

                        if (cause instanceof Inspector2Exception) {
                            Inspector2Exception e = (Inspector2Exception) cause;

                            throw new CompletionException(
                                    "Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    e
                            );
                        }

                        throw new CompletionException(
                                "Unexpected error getting account status: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                .thenApply(response -> {

                    StringBuilder sb = new StringBuilder();
                    List<AccountState> accounts = response.accounts();

                    if (accounts == null || accounts.isEmpty()) {
                        sb.append("No account status returned.\n");
                        return sb.toString();
                    }

                    sb.append("Inspector Account Status:\n");
                    for (AccountState account : accounts) {

                        String accountId = account.accountId() != null
                                ? account.accountId()
                                : "Unknown";

                        sb.append("  Account ID: ").append(accountId).append("\n");

                        // Overall account state
                        if (account.state() != null && account.state().status() != null) {
                            sb.append("  Overall State: ")
                                    .append(account.state().status())
                                    .append("\n");
                        } else {
                            sb.append("  Overall State: Unknown\n");
                        }

                        // Resource state (only status available)
                        ResourceState resources = account.resourceState();
                        if (resources != null) {
                            sb.append("  Resource Status: available\n");
                        }

                        sb.append("\n");
                    }

                    return sb.toString();
                });
    }
```
+  Untuk detail API, lihat [BatchGetAccountStatus](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/BatchGetAccountStatus)di *Referensi AWS SDK for Java 2.x API*. 

### `BatchGetFindingDetails`
<a name="inspector_BatchGetFindingDetails_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetFindingDetails`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Retrieves detailed information about a specific AWS Inspector2 finding asynchronously.
     *
     * @param findingArn The ARN of the finding to look up.
     * @return A {@link CompletableFuture} that, when completed, provides a formatted string
     * containing all available details for the finding.
     * @throws RuntimeException if the async call to Inspector2 fails.
     */
    public CompletableFuture<String> getFindingDetailsAsync(String findingArn) {
        BatchGetFindingDetailsRequest request = BatchGetFindingDetailsRequest.builder()
                .findingArns(findingArn)
                .build();

        return getAsyncClient().batchGetFindingDetails(request)
                .thenApply(response -> {
                    if (response.findingDetails() == null || response.findingDetails().isEmpty()) {
                        return String.format("No details found for ARN: ", findingArn);
                    }

                    StringBuilder sb = new StringBuilder();
                    response.findingDetails().forEach(detail -> {
                        sb.append("Finding ARN: ").append(detail.findingArn()).append("\n")
                                .append("Risk Score: ").append(detail.riskScore()).append("\n");

                        // ExploitObserved timings
                        if (detail.exploitObserved() != null) {
                            sb.append("Exploit First Seen: ").append(detail.exploitObserved().firstSeen()).append("\n")
                                    .append("Exploit Last Seen: ").append(detail.exploitObserved().lastSeen()).append("\n");
                        }

                        // Reference URLs
                        if (detail.hasReferenceUrls()) {
                            sb.append("Reference URLs:\n");
                            detail.referenceUrls().forEach(url -> sb.append("  • ").append(url).append("\n"));
                        }

                        // Tools
                        if (detail.hasTools()) {
                            sb.append("Tools:\n");
                            detail.tools().forEach(tool -> sb.append("  • ").append(tool).append("\n"));
                        }

                        // TTPs
                        if (detail.hasTtps()) {
                            sb.append("TTPs:\n");
                            detail.ttps().forEach(ttp -> sb.append("  • ").append(ttp).append("\n"));
                        }

                        // CWEs
                        if (detail.hasCwes()) {
                            sb.append("CWEs:\n");
                            detail.cwes().forEach(cwe -> sb.append("  • ").append(cwe).append("\n"));
                        }

                        // Evidence
                        if (detail.hasEvidences()) {
                            sb.append("Evidence:\n");
                            detail.evidences().forEach(ev -> {
                                sb.append("  - Severity: ").append(ev.severity()).append("\n");

                            });
                        }

                        sb.append("\n");
                    });

                    return sb.toString();
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ResourceNotFoundException rnfe) {
                        return "Finding not found: %s".formatted(findingArn);
                    }

                    // Fallback for other exceptions
                    throw new RuntimeException("Failed to get finding details for ARN: " + findingArn, cause);
                });
    }
```
+  Untuk detail API, lihat [BatchGetFindingDetails](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/BatchGetFindingDetails)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateFilter`
<a name="inspector_CreateFilter_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFilter`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Creates a new LOW severity filter in AWS Inspector2 to suppress findings.
     *
     * @param filterName  the name of the filter to create
     * @param description a descriptive string explaining the purpose of the filter
     * @return a CompletableFuture that completes with the ARN of the created filter
     * @throws CompletionException wraps any validation, Inspector2 service, or unexpected errors
     */
    public CompletableFuture<String> createLowSeverityFilterAsync(
            String filterName,
            String description) {

        // Define a filter to match LOW severity findings.
        StringFilter severityFilter = StringFilter.builder()
                .value(Severity.LOW.toString())
                .comparison(StringComparison.EQUALS)
                .build();

        // Create filter criteria.
        FilterCriteria filterCriteria = FilterCriteria.builder()
                .severity(Collections.singletonList(severityFilter))
                .build();

        // Build the filter creation request.
        CreateFilterRequest request = CreateFilterRequest.builder()
                .name(filterName)
                .filterCriteria(filterCriteria)
                .action(FilterAction.SUPPRESS)
                .description(description)
                .build();

        return getAsyncClient().createFilter(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof ValidationException ve) {
                            throw new CompletionException(
                                    "Validation error creating filter: %s".formatted(ve.getMessage()),
                                    ve
                            );
                        }

                        if (cause instanceof Inspector2Exception e) {
                            throw new CompletionException(
                                    "Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    e
                            );
                        }

                        // Unexpected async error
                        throw new CompletionException(
                                "Unexpected error creating filter: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                // Extract and return the ARN of the created filter.
                .thenApply(CreateFilterResponse::arn);
    }
```
+  Untuk detail API, lihat [CreateFilter](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/CreateFilter)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteFilter`
<a name="inspector_DeleteFilter_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFilter`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Deletes an AWS Inspector2 filter.
     *
     * @param filterARN The ARN of the filter to delete.
     */
    public CompletableFuture<Void> deleteFilterAsync(String filterARN) {
        return getAsyncClient().deleteFilter(
                        DeleteFilterRequest.builder()
                                .arn(filterARN)
                                .build()
                )
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof ResourceNotFoundException rnfe) {
                            String msg = "Filter not found for ARN: %s".formatted(filterARN);
                            logger.warn(msg, rnfe);
                            throw new CompletionException(msg, rnfe);
                        }

                        throw new RuntimeException("Failed to delete the filter: " + cause, cause);
                    }
                    return null;
                });
    }
```
+  Untuk detail API, lihat [DeleteFilter](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/DeleteFilter)di *Referensi AWS SDK for Java 2.x API*. 

### `Disable`
<a name="inspector_Disable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Asynchronously disables AWS Inspector for the specified accounts and resource types.
     *
     * @param accountIds a {@link List} of AWS account IDs for which to disable Inspector;
     *                   may be {@code null} or empty to target the current account
     * @return a {@link CompletableFuture} that, when completed, returns a {@link String}
     *         summarizing the disable results for each account
     * @throws CompletionException if the disable operation fails due to validation errors,
     *                             service errors, or other exceptions
     * @see <a href="https://docs.aws.amazon.com/inspector/latest/APIReference/API_Disable.html">
     *      AWS Inspector2 Disable API</a>
     */
    public CompletableFuture<String> disableInspectorAsync(List<String> accountIds) {

        // The resource types to disable.
        List<ResourceScanType> resourceTypes = List.of(
                ResourceScanType.EC2,
                ResourceScanType.ECR,
                ResourceScanType.LAMBDA,
                ResourceScanType.LAMBDA_CODE
        );

        // Build the request.
        DisableRequest.Builder requestBuilder = DisableRequest.builder()
                .resourceTypes(resourceTypes);

        if (accountIds != null && !accountIds.isEmpty()) {
            requestBuilder.accountIds(accountIds);
        }

        DisableRequest request = requestBuilder.build();

        return getAsyncClient().disable(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ValidationException) {
                            throw new CompletionException(
                                    "Inspector may already be disabled for this account: %s".formatted(cause.getMessage()),
                                    cause
                            );
                        }

                        if (cause instanceof Inspector2Exception) {
                            Inspector2Exception e = (Inspector2Exception) cause;
                            throw new CompletionException(
                                    "AWS Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    cause
                            );
                        }

                        throw new CompletionException(
                                "Failed to disable Inspector: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                .thenApply(response -> {
                    StringBuilder summary = new StringBuilder("Disable results:\n");

                    if (response.accounts() == null || response.accounts().isEmpty()) {
                        summary.append("Inspector may already be disabled for all target accounts.");
                        return summary.toString();
                    }

                    for (Account account : response.accounts()) {
                        String accountId = account.accountId() != null ? account.accountId() : "Unknown";
                        String status = account.status() != null ? account.statusAsString() : "Unknown";
                        summary.append(" • Account: ").append(accountId)
                                .append(" → Status: ").append(status).append("\n");
                    }

                    return summary.toString();
                });
    }
```
+  Untuk detail API, lihat [Nonaktifkan](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/Disable) di *Referensi AWS SDK for Java 2.x API*. 

### `Enable`
<a name="inspector_Enable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Enables AWS Inspector for the provided account(s) and default resource types.
     *
     * @param accountIds Optional list of AWS account IDs.
     */
    public CompletableFuture<String> enableInspectorAsync(List<String> accountIds) {

        // The resource types to enable.
        List<ResourceScanType> resourceTypes = List.of(
                ResourceScanType.EC2,
                ResourceScanType.ECR,
                ResourceScanType.LAMBDA,
                ResourceScanType.LAMBDA_CODE
        );

        // Build the request.
        EnableRequest.Builder requestBuilder = EnableRequest.builder()
                .resourceTypes(resourceTypes);

        if (accountIds != null && !accountIds.isEmpty()) {
            requestBuilder.accountIds(accountIds);
        }

        EnableRequest request = requestBuilder.build();
        return getAsyncClient().enable(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ValidationException) {
                            throw new CompletionException(
                                    "Inspector may already be enabled for this account: %s".formatted(cause.getMessage()),
                                    cause
                            );

                        }

                        if (cause instanceof Inspector2Exception) {
                            Inspector2Exception e = (Inspector2Exception) cause;
                            throw new CompletionException(
                                    "AWS Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    cause
                            );
                        }

                        throw new CompletionException(
                                "Failed to enable Inspector: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                .thenApply(response -> {
                    StringBuilder summary = new StringBuilder("Enable results:\n");

                    if (response.accounts() == null || response.accounts().isEmpty()) {
                        summary.append("Inspector may already be enabled for all target accounts.");
                        return summary.toString();
                    }

                    for (Account account : response.accounts()) {
                        String accountId = account.accountId() != null ? account.accountId() : "Unknown";
                        String status = account.status() != null ? account.statusAsString() : "Unknown";
                        summary.append(" • Account: ").append(accountId)
                                .append(" → Status: ").append(status).append("\n");
                    }

                    return summary.toString();
                });
    }
```
+  Untuk detail API, lihat [Mengaktifkan](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/Enable) di *Referensi AWS SDK for Java 2.x API*. 

### `ListCoverage`
<a name="inspector_ListCoverage_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCoverage`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Lists AWS Inspector2 coverage details for scanned resources using a paginator.
     *
     * @param maxResults Maximum number of resources to return.
     */
    public CompletableFuture<String> listCoverageAsync(int maxResults) {
        ListCoverageRequest initialRequest = ListCoverageRequest.builder()
                .maxResults(maxResults)
                .build();

        ListCoveragePublisher paginator = getAsyncClient().listCoveragePaginator(initialRequest);
        StringBuilder summary = new StringBuilder();

        return paginator.subscribe(response -> {
            List<CoveredResource> coveredResources = response.coveredResources();

            if (coveredResources == null || coveredResources.isEmpty()) {
                summary.append("No coverage information available for this page.\n");
                return;
            }

            Map<String, List<CoveredResource>> byType = coveredResources.stream()
                    .collect(Collectors.groupingBy(CoveredResource::resourceTypeAsString));

            byType.forEach((type, list) ->
                    summary.append("  ").append(type)
                            .append(": ").append(list.size())
                            .append(" resource(s)\n")
            );

            // Include up to 3 sample resources per page
            for (int i = 0; i < Math.min(coveredResources.size(), 3); i++) {
                CoveredResource r = coveredResources.get(i);
                summary.append("  - ").append(r.resourceTypeAsString())
                        .append(": ").append(r.resourceId()).append("\n");
                summary.append("    Scan Type: ").append(r.scanTypeAsString()).append("\n");
                if (r.scanStatus() != null) {
                    summary.append("    Status: ").append(r.scanStatus().statusCodeAsString()).append("\n");
                }
                if (r.accountId() != null) {
                    summary.append("    Account ID: ").append(r.accountId()).append("\n");
                }
                summary.append("\n");
            }

        }).thenApply(v -> {
            if (summary.length() == 0) {
                return "No coverage information found across all pages.";
            } else {
                return "Coverage Information:\n" + summary.toString();
            }
        }).exceptionally(ex -> {
            Throwable cause = ex.getCause();
            if (cause instanceof ValidationException) {
                throw new CompletionException(
                        "Validation error listing coverage: " + cause.getMessage(), cause);
            } else if (cause instanceof Inspector2Exception e) {
                throw new CompletionException(
                        "Inspector2 service error: " + e.awsErrorDetails().errorMessage(), e);
            }
            throw new CompletionException("Unexpected error listing coverage: " + ex.getMessage(), ex);
        });
    }
```
+  Untuk detail API, lihat [ListCoverage](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListCoverage)di *Referensi AWS SDK for Java 2.x API*. 

### `ListCoverageStatistics`
<a name="inspector_ListCoverageStatistics_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCoverageStatistics`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Retrieves and prints the coverage statistics using a paginator.
     */
    public CompletableFuture<String> listCoverageStatisticsAsync() {
        ListCoverageStatisticsRequest request = ListCoverageStatisticsRequest.builder()
                .build();

        return getAsyncClient().listCoverageStatistics(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();

                        if (cause instanceof ValidationException) {
                            throw new CompletionException(
                                    "Validation error listing coverage statistics: %s".formatted(cause.getMessage()),
                                    cause
                            );
                        }

                        if (cause instanceof Inspector2Exception) {
                            Inspector2Exception e = (Inspector2Exception) cause;

                            throw new CompletionException(
                                    "Inspector2 service error: %s".formatted(e.awsErrorDetails().errorMessage()),
                                    e
                            );
                        }

                        throw new CompletionException(
                                "Unexpected error listing coverage statistics: %s".formatted(exception.getMessage()),
                                exception
                        );
                    }
                })
                .thenApply(response -> {
                    List<Counts> countsList = response.countsByGroup();
                    StringBuilder sb = new StringBuilder();

                    if (countsList == null || countsList.isEmpty()) {
                        sb.append("No coverage statistics available.\n");
                        return sb.toString();
                    }

                    sb.append("Coverage Statistics:\n");

                    for (Counts c : countsList) {
                        sb.append("  Group: ").append(c.groupKey()).append("\n")
                                .append("    Total Count: ").append(c.count()).append("\n\n");
                    }

                    return sb.toString();
                });
    }
```
+  Untuk detail API, lihat [ListCoverageStatistics](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListCoverageStatistics)di *Referensi AWS SDK for Java 2.x API*. 

### `ListFilters`
<a name="inspector_ListFilters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFilters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Asynchronously lists Inspector2 filters using a paginator.
     *
     * @param maxResults maximum filters per page (nullable)
     * @return CompletableFuture completed with summary text
     */
    public CompletableFuture<String> listFiltersAsync(Integer maxResults) {
        logger.info("Starting async filters paginator…");

        ListFiltersRequest.Builder builder = ListFiltersRequest.builder();
        if (maxResults != null) {
            builder.maxResults(maxResults);
        }

        ListFiltersRequest request = builder.build();

        // Paginator from SDK
        ListFiltersPublisher paginator = getAsyncClient().listFiltersPaginator(request);
        StringBuilder collectedFilterIds = new StringBuilder();

        return paginator.subscribe(response -> {
            response.filters().forEach(filter -> {
                logger.info("Filter: " + filter.arn());
                collectedFilterIds.append(filter.arn()).append("\n");
            });
        }).thenApply(v -> {
            String result = collectedFilterIds.toString();
            logger.info("Successfully listed all filters.");
            return result.isEmpty() ? "No filters found." : result;
        }).exceptionally(ex -> {
            Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

            if (cause instanceof ValidationException ve) {
                throw new CompletionException(
                        "Validation error listing filters: %s".formatted(ve.getMessage()),
                        ve
                );
            }

            throw new RuntimeException("Failed to list filters", ex);
        });
    }
```
+  Untuk detail API, lihat [ListFilters](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListFilters)di *Referensi AWS SDK for Java 2.x API*. 

### `ListFindings`
<a name="inspector_ListFindings_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFindings`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Lists all AWS Inspector findings of LOW severity asynchronously.
     *
     * @return CompletableFuture containing a List of finding ARNs.
     * Returns an empty list if no LOW severity findings are found.
     */
    public CompletableFuture<ArrayList<String>> listLowSeverityFindingsAsync() {
        logger.info("Starting async LOW severity findings paginator…");

        // Build a filter criteria for LOW severity.
        StringFilter severityFilter = StringFilter.builder()
                .value(Severity.LOW.toString())
                .comparison(StringComparison.EQUALS)
                .build();

        FilterCriteria filterCriteria = FilterCriteria.builder()
                .severity(Collections.singletonList(severityFilter))
                .build();

        // Build the request.
        ListFindingsRequest request = ListFindingsRequest.builder()
                .filterCriteria(filterCriteria)
                .build();

        ListFindingsPublisher paginator = getAsyncClient().listFindingsPaginator(request);
        List<String> allArns = Collections.synchronizedList(new ArrayList<>());

        return paginator.subscribe(response -> {
                    if (response.findings() != null && !response.findings().isEmpty()) {
                        response.findings().forEach(finding -> {
                            logger.info("Finding ARN: {}", finding.findingArn());
                            allArns.add(finding.findingArn());
                        });
                    } else {
                        logger.info("Page contained no findings.");
                    }
                })
                .thenRun(() -> logger.info("Successfully listed all LOW severity findings."))
                .thenApply(v -> new ArrayList<>(allArns)) // Return list instead of a formatted string
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;
                    if (cause instanceof ValidationException ve) {
                        throw new CompletionException(
                                "Validation error listing LOW severity findings: %s".formatted(ve.getMessage()),
                                ve
                        );
                    }
                    throw new RuntimeException("Failed to list LOW severity findings", ex);
                });
    }
```
+  Untuk detail API, lihat [ListFindings](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListFindings)di *Referensi AWS SDK for Java 2.x API*. 

### `ListUsageTotals`
<a name="inspector_ListUsageTotals_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsageTotals`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/inspector#code-examples). 

```
    /**
     * Asynchronously lists Inspector2 usage totals using a paginator.
     *
     * @param accountIds optional list of account IDs
     * @param maxResults maximum results per page
     * @return CompletableFuture completed with formatted summary text
     */
    public CompletableFuture<String> listUsageTotalsAsync(
            List<String> accountIds,
            int maxResults) {

        logger.info("Starting usage totals paginator…");

        ListUsageTotalsRequest.Builder builder = ListUsageTotalsRequest.builder()
                .maxResults(maxResults);

        if (accountIds != null && !accountIds.isEmpty()) {
            builder.accountIds(accountIds);
        }

        ListUsageTotalsRequest request = builder.build();
        ListUsageTotalsPublisher paginator = getAsyncClient().listUsageTotalsPaginator(request);
        StringBuilder summaryBuilder = new StringBuilder();

        return paginator.subscribe(response -> {
                    if (response.totals() != null && !response.totals().isEmpty()) {
                        response.totals().forEach(total -> {
                            if (total.usage() != null) {
                                total.usage().forEach(usage -> {
                                    logger.info("Usage: {} = {}", usage.typeAsString(), usage.total());
                                    summaryBuilder.append(usage.typeAsString())
                                            .append(": ")
                                            .append(usage.total())
                                            .append("\n");
                                });
                            }
                        });
                    } else {
                        logger.info("Page contained no usage totals.");
                    }
                }).thenRun(() -> logger.info("Successfully listed usage totals."))
                .thenApply(v -> {
                    String summary = summaryBuilder.toString();
                    return summary.isEmpty() ? "No usage totals found." : summary;
                }).exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ValidationException ve) {
                        throw new CompletionException(
                                "Validation error listing usage totals: %s".formatted(ve.getMessage()),
                                ve
                        );
                    }

                    throw new CompletionException("Failed to list usage totals", cause);
                });
    }
```
+  Untuk detail API, lihat [ListUsageTotals](https://docs.aws.amazon.com/goto/SdkForJavaV2/inspector-2016-02-16/ListUsageTotals)di *Referensi AWS SDK for Java 2.x API*. 

# AWS IoT contoh menggunakan SDK for Java 2.x
<a name="java_2_iot_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS IoT.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT
<a name="iot_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iot.IotClient;
import software.amazon.awssdk.services.iot.model.ListThingsRequest;
import software.amazon.awssdk.services.iot.model.ListThingsResponse;
import software.amazon.awssdk.services.iot.model.ThingAttribute;
import software.amazon.awssdk.services.iot.paginators.ListThingsIterable;

import java.util.List;

public class HelloIoT {
    public static void main(String[] args) {
        System.out.println("Hello AWS IoT. Here is a listing of your AWS IoT Things:");
        IotClient iotClient = IotClient.builder()
            .region(Region.US_EAST_1)
            .build();

        listAllThings(iotClient);
    }

    public static void listAllThings(IotClient iotClient) {
        iotClient.listThingsPaginator(ListThingsRequest.builder()
                .maxResults(10)
                .build())
            .stream()
            .flatMap(response -> response.things().stream())
            .forEach(attribute -> {
                System.out.println("Thing name: " + attribute.thingName());
                System.out.println("Thing ARN: " + attribute.thingArn());
            });
    }
}
```
+  Untuk detail API, lihat [ListThings](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/listThings) di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iot_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat AWS IoT sesuatu.
+ Hasilkan sertifikat perangkat.
+ Perbarui AWS IoT Sesuatu dengan Atribut.
+ Kembalikan titik akhir yang unik.
+ Buat daftar AWS IoT sertifikat Anda.
+ Perbarui AWS IoT bayangan.
+ Tuliskan informasi negara.
+ Membuat aturan.
+ Buat daftar aturan Anda.
+ Cari sesuatu menggunakan nama Thing.
+ Hapus AWS IoT sesuatu.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS IoT fitur.  

```
import java.util.Scanner;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This Java example performs these tasks:
 *
 * 1. Creates an AWS IoT Thing.
 * 2. Generate and attach a device certificate.
 * 3. Update an AWS IoT Thing with Attributes.
 * 4. Get an AWS IoT Endpoint.
 * 5. List your certificates.
 * 6. Updates the shadow for the specified thing..
 * 7. Write out the state information, in JSON format
 * 8. Creates a rule
 * 9. List rules
 * 10. Search things
 * 11. Detach amd delete the certificate.
 * 12. Delete Thing.
 */
public class IotScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) {
        final String usage =
            """
                Usage:
                    <roleARN> <snsAction>

                Where:
                    roleARN - The ARN of an IAM role that has permission to work with AWS IOT.
                    snsAction  - An ARN of an SNS topic.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        IotActions iotActions = new IotActions();
        String thingName;
        String ruleName;
        String roleARN = args[0];
        String snsAction = args[1];
        Scanner scanner = new Scanner(System.in);

        System.out.println(DASHES);
        System.out.println("Welcome to the AWS IoT basics scenario.");
        System.out.println("""
            This example program demonstrates various interactions with the AWS Internet of Things (IoT) Core service. The program guides you through a series of steps, 
            including creating an IoT Thing, generating a device certificate, updating the Thing with attributes, and so on. 
            It utilizes the AWS SDK for Java V2 and incorporates functionality for creating and managing IoT Things, certificates, rules, 
            shadows, and performing searches. The program aims to showcase AWS IoT capabilities and provides a comprehensive example for 
            developers working with AWS IoT in a Java environment.
            
            Let's get started...
       
            """);
        System.out.println(DASHES);

        System.out.println("1. Create an AWS IoT Thing.");
        System.out.println("""
            An AWS IoT Thing represents a virtual entity in the AWS IoT service that can be associated with 
            a physical device.
            """);
        // Prompt the user for input.
        System.out.print("Enter Thing name: ");
        thingName = scanner.nextLine();
        iotActions.createIoTThing(thingName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Generate a device certificate.");
        System.out.println("""
            A device certificate performs a role in securing the communication between devices (Things) 
            and the AWS IoT platform.
            """);

        System.out.print("Do you want to create a certificate for " +thingName +"? (y/n)");
        String certAns = scanner.nextLine();
        String certificateArn="" ;
        if (certAns != null && certAns.trim().equalsIgnoreCase("y")) {
            certificateArn = iotActions.createCertificate();
            System.out.println("Attach the certificate to the AWS IoT Thing.");
            iotActions.attachCertificateToThing(thingName, certificateArn);
        } else {
            System.out.println("A device certificate was not created.");
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Update an AWS IoT Thing with Attributes.");
        System.out.println("""
             IoT Thing attributes, represented as key-value pairs, offer a pivotal advantage in facilitating efficient data 
             management and retrieval within the AWS IoT ecosystem. 
            """);
        waitForInputToContinue(scanner);
        iotActions.updateShadowThing(thingName);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Return a unique endpoint specific to the Amazon Web Services account.");
        System.out.println("""
            An IoT Endpoint refers to a specific URL or Uniform Resource Locator that serves as the entry point for communication between IoT devices and the AWS IoT service.
           """);
        waitForInputToContinue(scanner);
        String endpointUrl = iotActions.describeEndpoint();
        System.out.println("The endpoint is "+endpointUrl);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. List your AWS IoT certificates");
        waitForInputToContinue(scanner);
        if (certificateArn.length() > 0) {
            iotActions.listCertificates();
        } else {
            System.out.println("You did not create a certificates. Skipping this step.");
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Create an IoT shadow that refers to a digital representation or virtual twin of a physical IoT device");
        System.out.println("""
            A Thing Shadow refers to a feature that enables you to create a virtual representation, or "shadow," 
            of a physical device or thing. The Thing Shadow allows you to synchronize and control the state of a device between 
            the cloud and the device itself. and the AWS IoT service. For example, you can write and retrieve JSON data from a Thing Shadow. 
           """);
        waitForInputToContinue(scanner);
        iotActions.updateShadowThing(thingName);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Write out the state information, in JSON format.");
        waitForInputToContinue(scanner);
        iotActions.getPayload(thingName);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Creates a rule");
        System.out.println("""
        Creates a rule that is an administrator-level action. 
        Any user who has permission to create rules will be able to access data processed by the rule.
        """);
        System.out.print("Enter Rule name: ");
        ruleName = scanner.nextLine();
        iotActions.createIoTRule(roleARN, ruleName, snsAction);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. List your rules.");
        waitForInputToContinue(scanner);
        iotActions.listIoTRules();
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Search things using the Thing name.");
        waitForInputToContinue(scanner);
        String queryString = "thingName:"+thingName ;
        iotActions.searchThings(queryString);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        if (certificateArn.length() > 0) {
            System.out.print("Do you want to detach and delete the certificate for " +thingName +"? (y/n)");
            String delAns = scanner.nextLine();
            if (delAns != null && delAns.trim().equalsIgnoreCase("y")) {
                System.out.println("11. You selected to detach amd delete the certificate.");
                waitForInputToContinue(scanner);
                iotActions.detachThingPrincipal(thingName, certificateArn);
                iotActions.deleteCertificate(certificateArn);
                waitForInputToContinue(scanner);
            } else {
                System.out.println("11. You selected not to delete the certificate.");
            }
        } else {
            System.out.println("11. You did not create a certificate so there is nothing to delete.");
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("12. Delete the AWS IoT Thing.");
        System.out.print("Do you want to delete the IoT Thing? (y/n)");
        String delAns = scanner.nextLine();
        if (delAns != null && delAns.trim().equalsIgnoreCase("y")) {
            iotActions.deleteIoTThing(thingName);
        } else {
            System.out.println("The IoT Thing was not deleted.");
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The AWS IoT workflow has successfully completed.");
        System.out.println(DASHES);
    }


    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            System.out.println("");
            System.out.println("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                System.out.println("Continuing with the program...");
                System.out.println("");
                break;
            } else {
                // Handle invalid input.
                System.out.println("Invalid input. Please try again.");
            }
        }
    }
}
```
Kelas pembungkus untuk metode AWS IoT SDK.  

```
import software.amazon.awssdk.auth.credentials.EnvironmentVariableCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.core.retry.RetryPolicy;
import software.amazon.awssdk.http.async.SdkAsyncHttpClient;
import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.iot.IotAsyncClient;
import software.amazon.awssdk.services.iot.model.Action;
import software.amazon.awssdk.services.iot.model.AttachThingPrincipalRequest;
import software.amazon.awssdk.services.iot.model.AttachThingPrincipalResponse;
import software.amazon.awssdk.services.iot.model.Certificate;
import software.amazon.awssdk.services.iot.model.CreateKeysAndCertificateResponse;
import software.amazon.awssdk.services.iot.model.CreateThingRequest;
import software.amazon.awssdk.services.iot.model.CreateThingResponse;
import software.amazon.awssdk.services.iot.model.CreateTopicRuleRequest;
import software.amazon.awssdk.services.iot.model.CreateTopicRuleResponse;
import software.amazon.awssdk.services.iot.model.DeleteCertificateRequest;
import software.amazon.awssdk.services.iot.model.DeleteCertificateResponse;
import software.amazon.awssdk.services.iot.model.DeleteThingRequest;
import software.amazon.awssdk.services.iot.model.DeleteThingResponse;
import software.amazon.awssdk.services.iot.model.DescribeEndpointRequest;
import software.amazon.awssdk.services.iot.model.DescribeEndpointResponse;
import software.amazon.awssdk.services.iot.model.DescribeThingRequest;
import software.amazon.awssdk.services.iot.model.DescribeThingResponse;
import software.amazon.awssdk.services.iot.model.DetachThingPrincipalRequest;
import software.amazon.awssdk.services.iot.model.DetachThingPrincipalResponse;
import software.amazon.awssdk.services.iot.model.IotException;
import software.amazon.awssdk.services.iot.model.ListCertificatesResponse;
import software.amazon.awssdk.services.iot.model.ListTopicRulesRequest;
import software.amazon.awssdk.services.iot.model.ListTopicRulesResponse;
import software.amazon.awssdk.services.iot.model.SearchIndexRequest;
import software.amazon.awssdk.services.iot.model.SearchIndexResponse;
import software.amazon.awssdk.services.iot.model.TopicRuleListItem;
import software.amazon.awssdk.services.iot.model.SnsAction;
import software.amazon.awssdk.services.iot.model.TopicRulePayload;
import software.amazon.awssdk.services.iotdataplane.IotDataPlaneAsyncClient;
import software.amazon.awssdk.services.iotdataplane.model.GetThingShadowRequest;
import software.amazon.awssdk.services.iotdataplane.model.GetThingShadowResponse;
import software.amazon.awssdk.services.iotdataplane.model.UpdateThingShadowRequest;
import software.amazon.awssdk.services.iotdataplane.model.UpdateThingShadowResponse;
import java.nio.charset.StandardCharsets;
import java.time.Duration;
import java.util.List;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.regex.Matcher;
import java.util.regex.Pattern;

public class IotActions {

    private static IotAsyncClient iotAsyncClient;

    private static IotDataPlaneAsyncClient iotAsyncDataPlaneClient;

    private static final String TOPIC = "your-iot-topic";

    private static IotDataPlaneAsyncClient getAsyncDataPlaneClient() {
        SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
            .maxConcurrency(100)
            .connectionTimeout(Duration.ofSeconds(60))
            .readTimeout(Duration.ofSeconds(60))
            .writeTimeout(Duration.ofSeconds(60))
            .build();

        ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
            .apiCallTimeout(Duration.ofMinutes(2))
            .apiCallAttemptTimeout(Duration.ofSeconds(90))
            .retryPolicy(RetryPolicy.builder()
                .numRetries(3)
                .build())
            .build();

        if (iotAsyncDataPlaneClient == null) {
            iotAsyncDataPlaneClient = IotDataPlaneAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return iotAsyncDataPlaneClient;
    }


    private static IotAsyncClient getAsyncClient() {
        SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
            .maxConcurrency(100)
            .connectionTimeout(Duration.ofSeconds(60))
            .readTimeout(Duration.ofSeconds(60))
            .writeTimeout(Duration.ofSeconds(60))
            .build();

        ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
            .apiCallTimeout(Duration.ofMinutes(2))
            .apiCallAttemptTimeout(Duration.ofSeconds(90))
            .retryPolicy(RetryPolicy.builder()
                .numRetries(3)
                .build())
            .build();

        if (iotAsyncClient == null) {
            iotAsyncClient = IotAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return iotAsyncClient;
    }

    /**
     * Creates an IoT certificate asynchronously.
     *
     * @return The ARN of the created certificate.
     * <p>
     * This method initiates an asynchronous request to create an IoT certificate.
     * If the request is successful, it prints the certificate details and returns the certificate ARN.
     * If an exception occurs, it prints the error message.
     */
    public String createCertificate() {
        CompletableFuture<CreateKeysAndCertificateResponse> future = getAsyncClient().createKeysAndCertificate();
        final String[] certificateArn = {null};
        future.whenComplete((response, ex) -> {
            if (response != null) {
                String certificatePem = response.certificatePem();
                certificateArn[0] = response.certificateArn();

                // Print the details.
                System.out.println("\nCertificate:");
                System.out.println(certificatePem);
                System.out.println("\nCertificate ARN:");
                System.out.println(certificateArn[0]);

            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + cause.getMessage());
                }
            }
        });

        future.join();
        return certificateArn[0];
    }

    /**
     * Creates an IoT Thing with the specified name asynchronously.
     *
     * @param thingName The name of the IoT Thing to create.
     *
     * This method initiates an asynchronous request to create an IoT Thing with the specified name.
     * If the request is successful, it prints the name of the thing and its ARN value.
     * If an exception occurs, it prints the error message.
     */
    public void createIoTThing(String thingName) {
        CreateThingRequest createThingRequest = CreateThingRequest.builder()
            .thingName(thingName)
            .build();

        CompletableFuture<CreateThingResponse> future = getAsyncClient().createThing(createThingRequest);
        future.whenComplete((createThingResponse, ex) -> {
            if (createThingResponse != null) {
                System.out.println(thingName + " was successfully created. The ARN value is " + createThingResponse.thingArn());
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + cause.getMessage());
                }
            }
        });

        future.join();
    }

    /**
     * Attaches a certificate to an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     * @param certificateArn The ARN of the certificate to attach.
     *
     * This method initiates an asynchronous request to attach a certificate to an IoT Thing.
     * If the request is successful, it prints a confirmation message and additional information about the Thing.
     * If an exception occurs, it prints the error message.
     */
    public void attachCertificateToThing(String thingName, String certificateArn) {
        AttachThingPrincipalRequest principalRequest = AttachThingPrincipalRequest.builder()
            .thingName(thingName)
            .principal(certificateArn)
            .build();

        CompletableFuture<AttachThingPrincipalResponse> future = getAsyncClient().attachThingPrincipal(principalRequest);
        future.whenComplete((attachResponse, ex) -> {
            if (attachResponse != null && attachResponse.sdkHttpResponse().isSuccessful()) {
                System.out.println("Certificate attached to Thing successfully.");

                // Print additional information about the Thing.
                describeThing(thingName);
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to attach certificate to Thing. HTTP Status Code: " +
                        attachResponse.sdkHttpResponse().statusCode());
                }
            }
        });

        future.join();
    }

    /**
     * Describes an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     *
     * This method initiates an asynchronous request to describe an IoT Thing.
     * If the request is successful, it prints the Thing details.
     * If an exception occurs, it prints the error message.
     */
    private void describeThing(String thingName) {
        DescribeThingRequest thingRequest = DescribeThingRequest.builder()
            .thingName(thingName)
            .build();

        CompletableFuture<DescribeThingResponse> future = getAsyncClient().describeThing(thingRequest);
        future.whenComplete((describeResponse, ex) -> {
            if (describeResponse != null) {
                System.out.println("Thing Details:");
                System.out.println("Thing Name: " + describeResponse.thingName());
                System.out.println("Thing ARN: " + describeResponse.thingArn());
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to describe Thing.");
                }
            }
        });

        future.join();
    }

    /**
     * Updates the shadow of an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     *
     * This method initiates an asynchronous request to update the shadow of an IoT Thing.
     * If the request is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void updateShadowThing(String thingName) {
        // Create Thing Shadow State Document.
        String stateDocument = "{\"state\":{\"reported\":{\"temperature\":25, \"humidity\":50}}}";
        SdkBytes data = SdkBytes.fromString(stateDocument, StandardCharsets.UTF_8);
        UpdateThingShadowRequest updateThingShadowRequest = UpdateThingShadowRequest.builder()
            .thingName(thingName)
            .payload(data)
            .build();

        CompletableFuture<UpdateThingShadowResponse> future = getAsyncDataPlaneClient().updateThingShadow(updateThingShadowRequest);
        future.whenComplete((updateResponse, ex) -> {
            if (updateResponse != null) {
                System.out.println("Thing Shadow updated successfully.");
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to update Thing Shadow.");
                }
            }
        });

        future.join();
    }

    /**
     * Describes the endpoint of the IoT service asynchronously.
     *
     * @return A CompletableFuture containing the full endpoint URL.
     *
     * This method initiates an asynchronous request to describe the endpoint of the IoT service.
     * If the request is successful, it prints and returns the full endpoint URL.
     * If an exception occurs, it prints the error message.
     */
    public String describeEndpoint() {
        CompletableFuture<DescribeEndpointResponse> future = getAsyncClient().describeEndpoint(DescribeEndpointRequest.builder().endpointType("iot:Data-ATS").build());
        final String[] result = {null};

        future.whenComplete((endpointResponse, ex) -> {
            if (endpointResponse != null) {
                String endpointUrl = endpointResponse.endpointAddress();
                String exString = getValue(endpointUrl);
                String fullEndpoint = "https://" + exString + "-ats.iot.us-east-1.amazonaws.com";

                System.out.println("Full Endpoint URL: " + fullEndpoint);
                result[0] = fullEndpoint;
            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + cause.getMessage());
                }
            }
        });

        future.join();
        return result[0];
    }

    /**
     * Extracts a specific value from the endpoint URL.
     *
     * @param input The endpoint URL to process.
     * @return The extracted value from the endpoint URL.
     */
    private static String getValue(String input) {
        // Define a regular expression pattern for extracting the subdomain.
        Pattern pattern = Pattern.compile("^(.*?)\\.iot\\.us-east-1\\.amazonaws\\.com");

        // Match the pattern against the input string.
        Matcher matcher = pattern.matcher(input);

        // Check if a match is found.
        if (matcher.find()) {
            // Extract the subdomain from the first capturing group.
            String subdomain = matcher.group(1);
            System.out.println("Extracted subdomain: " + subdomain);
            return subdomain ;
        } else {
            System.out.println("No match found");
        }
        return "" ;
    }

    /**
     * Lists all certificates asynchronously.
     *
     * This method initiates an asynchronous request to list all certificates.
     * If the request is successful, it prints the certificate IDs and ARNs.
     * If an exception occurs, it prints the error message.
     */
    public void listCertificates() {
        CompletableFuture<ListCertificatesResponse> future = getAsyncClient().listCertificates();
        future.whenComplete((response, ex) -> {
            if (response != null) {
                List<Certificate> certList = response.certificates();
                for (Certificate cert : certList) {
                    System.out.println("Cert id: " + cert.certificateId());
                    System.out.println("Cert Arn: " + cert.certificateArn());
                }
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to list certificates.");
                }
            }
        });

        future.join();
    }

    /**
     * Retrieves the payload of a Thing's shadow asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     *
     * This method initiates an asynchronous request to get the payload of a Thing's shadow.
     * If the request is successful, it prints the shadow data.
     * If an exception occurs, it prints the error message.
     */
    public void getPayload(String thingName) {
        GetThingShadowRequest getThingShadowRequest = GetThingShadowRequest.builder()
            .thingName(thingName)
            .build();

        CompletableFuture<GetThingShadowResponse> future = getAsyncDataPlaneClient().getThingShadow(getThingShadowRequest);
        future.whenComplete((getThingShadowResponse, ex) -> {
            if (getThingShadowResponse != null) {
                // Extracting payload from response.
                SdkBytes payload = getThingShadowResponse.payload();
                String payloadString = payload.asUtf8String();
                System.out.println("Received Shadow Data: " + payloadString);
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to get Thing Shadow payload.");
                }
            }
        });

        future.join();
    }

    /**
     * Creates an IoT rule asynchronously.
     *
     * @param roleARN The ARN of the IAM role that grants access to the rule's actions.
     * @param ruleName The name of the IoT rule.
     * @param action The ARN of the action to perform when the rule is triggered.
     *
     * This method initiates an asynchronous request to create an IoT rule.
     * If the request is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void createIoTRule(String roleARN, String ruleName, String action) {
        String sql = "SELECT * FROM '" + TOPIC + "'";
        SnsAction action1 = SnsAction.builder()
            .targetArn(action)
            .roleArn(roleARN)
            .build();

        // Create the action.
        Action myAction = Action.builder()
            .sns(action1)
            .build();

        // Create the topic rule payload.
        TopicRulePayload topicRulePayload = TopicRulePayload.builder()
            .sql(sql)
            .actions(myAction)
            .build();

        // Create the topic rule request.
        CreateTopicRuleRequest topicRuleRequest = CreateTopicRuleRequest.builder()
            .ruleName(ruleName)
            .topicRulePayload(topicRulePayload)
            .build();

        CompletableFuture<CreateTopicRuleResponse> future = getAsyncClient().createTopicRule(topicRuleRequest);
        future.whenComplete((response, ex) -> {
            if (response != null) {
                System.out.println("IoT Rule created successfully.");
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to create IoT Rule.");
                }
            }
        });

        future.join();
    }

    /**
     * Lists IoT rules asynchronously.
     *
     * This method initiates an asynchronous request to list IoT rules.
     * If the request is successful, it prints the names and ARNs of the rules.
     * If an exception occurs, it prints the error message.
     */
    public void listIoTRules() {
        ListTopicRulesRequest listTopicRulesRequest = ListTopicRulesRequest.builder().build();
        CompletableFuture<ListTopicRulesResponse> future = getAsyncClient().listTopicRules(listTopicRulesRequest);
        future.whenComplete((listTopicRulesResponse, ex) -> {
            if (listTopicRulesResponse != null) {
                System.out.println("List of IoT Rules:");
                List<TopicRuleListItem> ruleList = listTopicRulesResponse.rules();
                for (TopicRuleListItem rule : ruleList) {
                    System.out.println("Rule Name: " + rule.ruleName());
                    System.out.println("Rule ARN: " + rule.ruleArn());
                    System.out.println("--------------");
                }
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to list IoT Rules.");
                }
            }
        });

        future.join();
    }

    /**
     * Searches for IoT Things asynchronously based on a query string.
     *
     * @param queryString The query string to search for Things.
     *
     * This method initiates an asynchronous request to search for IoT Things.
     * If the request is successful and Things are found, it prints their IDs.
     * If no Things are found, it prints a message indicating so.
     * If an exception occurs, it prints the error message.
     */
    public void searchThings(String queryString) {
        SearchIndexRequest searchIndexRequest = SearchIndexRequest.builder()
            .queryString(queryString)
            .build();

        CompletableFuture<SearchIndexResponse> future = getAsyncClient().searchIndex(searchIndexRequest);
        future.whenComplete((searchIndexResponse, ex) -> {
            if (searchIndexResponse != null) {
                // Process the result.
                if (searchIndexResponse.things().isEmpty()) {
                    System.out.println("No things found.");
                } else {
                    searchIndexResponse.things().forEach(thing -> System.out.println("Thing id found using search is " + thing.thingId()));
                }
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to search for IoT Things.");
                }
            }
        });

        future.join();
    }

    /**
     * Detaches a principal (certificate) from an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     * @param certificateArn The ARN of the certificate to detach.
     *
     * This method initiates an asynchronous request to detach a certificate from an IoT Thing.
     * If the detachment is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void detachThingPrincipal(String thingName, String certificateArn) {
        DetachThingPrincipalRequest thingPrincipalRequest = DetachThingPrincipalRequest.builder()
            .principal(certificateArn)
            .thingName(thingName)
            .build();

        CompletableFuture<DetachThingPrincipalResponse> future = getAsyncClient().detachThingPrincipal(thingPrincipalRequest);
        future.whenComplete((voidResult, ex) -> {
            if (ex == null) {
                System.out.println(certificateArn + " was successfully removed from " + thingName);
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + ex.getMessage());
                }
            }
        });

        future.join();
    }

    /**
     * Deletes a certificate asynchronously.
     *
     * @param certificateArn The ARN of the certificate to delete.
     *
     * This method initiates an asynchronous request to delete a certificate.
     * If the deletion is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void deleteCertificate(String certificateArn) {
        DeleteCertificateRequest certificateProviderRequest = DeleteCertificateRequest.builder()
            .certificateId(extractCertificateId(certificateArn))
            .build();

        CompletableFuture<DeleteCertificateResponse> future = getAsyncClient().deleteCertificate(certificateProviderRequest);
        future.whenComplete((voidResult, ex) -> {
            if (ex == null) {
                System.out.println(certificateArn + " was successfully deleted.");
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + ex.getMessage());
                }
            }
        });

        future.join();
    }

    /**
     * Deletes an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing to delete.
     *
     * This method initiates an asynchronous request to delete an IoT Thing.
     * If the deletion is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void deleteIoTThing(String thingName) {
        DeleteThingRequest deleteThingRequest = DeleteThingRequest.builder()
            .thingName(thingName)
            .build();

        CompletableFuture<DeleteThingResponse> future = getAsyncClient().deleteThing(deleteThingRequest);
        future.whenComplete((voidResult, ex) -> {
            if (ex == null) {
                System.out.println("Deleted Thing " + thingName);
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + ex.getMessage());
                }
            }
        });

        future.join();
    }

    // Get the cert Id  from the Cert ARN value.
    private String extractCertificateId(String certificateArn) {
        // Example ARN: arn:aws:iot:region:account-id:cert/certificate-id.
        String[] arnParts = certificateArn.split(":");
        String certificateIdPart = arnParts[arnParts.length - 1];
        return certificateIdPart.substring(certificateIdPart.lastIndexOf("/") + 1);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AttachThingPrincipal](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/AttachThingPrincipal)
  + [CreateKeysAndCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/CreateKeysAndCertificate)
  + [CreateThing](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/CreateThing)
  + [CreateTopicRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/CreateTopicRule)
  + [DeleteCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DeleteCertificate)
  + [DeleteThing](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DeleteThing)
  + [DeleteTopicRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DeleteTopicRule)
  + [DescribeEndpoint](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DescribeEndpoint)
  + [DescribeThing](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DescribeThing)
  + [DetachThingPrincipal](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DetachThingPrincipal)
  + [ListCertificates](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/ListCertificates)
  + [ListThings](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/ListThings)
  + [SearchIndex](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/SearchIndex)
  + [UpdateIndexingConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/UpdateIndexingConfiguration)
  + [UpdateThing](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/UpdateThing)

## Tindakan
<a name="actions"></a>

### `AttachThingPrincipal`
<a name="iot_AttachThingPrincipal_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachThingPrincipal`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Attaches a certificate to an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     * @param certificateArn The ARN of the certificate to attach.
     *
     * This method initiates an asynchronous request to attach a certificate to an IoT Thing.
     * If the request is successful, it prints a confirmation message and additional information about the Thing.
     * If an exception occurs, it prints the error message.
     */
    public void attachCertificateToThing(String thingName, String certificateArn) {
        AttachThingPrincipalRequest principalRequest = AttachThingPrincipalRequest.builder()
            .thingName(thingName)
            .principal(certificateArn)
            .build();

        CompletableFuture<AttachThingPrincipalResponse> future = getAsyncClient().attachThingPrincipal(principalRequest);
        future.whenComplete((attachResponse, ex) -> {
            if (attachResponse != null && attachResponse.sdkHttpResponse().isSuccessful()) {
                System.out.println("Certificate attached to Thing successfully.");

                // Print additional information about the Thing.
                describeThing(thingName);
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to attach certificate to Thing. HTTP Status Code: " +
                        attachResponse.sdkHttpResponse().statusCode());
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [AttachThingPrincipal](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/AttachThingPrincipal)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateKeysAndCertificate`
<a name="iot_CreateKeysAndCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeysAndCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Creates an IoT certificate asynchronously.
     *
     * @return The ARN of the created certificate.
     * <p>
     * This method initiates an asynchronous request to create an IoT certificate.
     * If the request is successful, it prints the certificate details and returns the certificate ARN.
     * If an exception occurs, it prints the error message.
     */
    public String createCertificate() {
        CompletableFuture<CreateKeysAndCertificateResponse> future = getAsyncClient().createKeysAndCertificate();
        final String[] certificateArn = {null};
        future.whenComplete((response, ex) -> {
            if (response != null) {
                String certificatePem = response.certificatePem();
                certificateArn[0] = response.certificateArn();

                // Print the details.
                System.out.println("\nCertificate:");
                System.out.println(certificatePem);
                System.out.println("\nCertificate ARN:");
                System.out.println(certificateArn[0]);

            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + cause.getMessage());
                }
            }
        });

        future.join();
        return certificateArn[0];
    }
```
+  Untuk detail API, lihat [CreateKeysAndCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/CreateKeysAndCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateThing`
<a name="iot_CreateThing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateThing`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Creates an IoT Thing with the specified name asynchronously.
     *
     * @param thingName The name of the IoT Thing to create.
     *
     * This method initiates an asynchronous request to create an IoT Thing with the specified name.
     * If the request is successful, it prints the name of the thing and its ARN value.
     * If an exception occurs, it prints the error message.
     */
    public void createIoTThing(String thingName) {
        CreateThingRequest createThingRequest = CreateThingRequest.builder()
            .thingName(thingName)
            .build();

        CompletableFuture<CreateThingResponse> future = getAsyncClient().createThing(createThingRequest);
        future.whenComplete((createThingResponse, ex) -> {
            if (createThingResponse != null) {
                System.out.println(thingName + " was successfully created. The ARN value is " + createThingResponse.thingArn());
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + cause.getMessage());
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [CreateThing](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/CreateThing)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateTopicRule`
<a name="iot_CreateTopicRule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopicRule`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Creates an IoT rule asynchronously.
     *
     * @param roleARN The ARN of the IAM role that grants access to the rule's actions.
     * @param ruleName The name of the IoT rule.
     * @param action The ARN of the action to perform when the rule is triggered.
     *
     * This method initiates an asynchronous request to create an IoT rule.
     * If the request is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void createIoTRule(String roleARN, String ruleName, String action) {
        String sql = "SELECT * FROM '" + TOPIC + "'";
        SnsAction action1 = SnsAction.builder()
            .targetArn(action)
            .roleArn(roleARN)
            .build();

        // Create the action.
        Action myAction = Action.builder()
            .sns(action1)
            .build();

        // Create the topic rule payload.
        TopicRulePayload topicRulePayload = TopicRulePayload.builder()
            .sql(sql)
            .actions(myAction)
            .build();

        // Create the topic rule request.
        CreateTopicRuleRequest topicRuleRequest = CreateTopicRuleRequest.builder()
            .ruleName(ruleName)
            .topicRulePayload(topicRulePayload)
            .build();

        CompletableFuture<CreateTopicRuleResponse> future = getAsyncClient().createTopicRule(topicRuleRequest);
        future.whenComplete((response, ex) -> {
            if (response != null) {
                System.out.println("IoT Rule created successfully.");
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to create IoT Rule.");
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [CreateTopicRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/CreateTopicRule)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteCertificate`
<a name="iot_DeleteCertificate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Deletes a certificate asynchronously.
     *
     * @param certificateArn The ARN of the certificate to delete.
     *
     * This method initiates an asynchronous request to delete a certificate.
     * If the deletion is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void deleteCertificate(String certificateArn) {
        DeleteCertificateRequest certificateProviderRequest = DeleteCertificateRequest.builder()
            .certificateId(extractCertificateId(certificateArn))
            .build();

        CompletableFuture<DeleteCertificateResponse> future = getAsyncClient().deleteCertificate(certificateProviderRequest);
        future.whenComplete((voidResult, ex) -> {
            if (ex == null) {
                System.out.println(certificateArn + " was successfully deleted.");
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + ex.getMessage());
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DeleteCertificate)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteThing`
<a name="iot_DeleteThing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteThing`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Deletes an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing to delete.
     *
     * This method initiates an asynchronous request to delete an IoT Thing.
     * If the deletion is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void deleteIoTThing(String thingName) {
        DeleteThingRequest deleteThingRequest = DeleteThingRequest.builder()
            .thingName(thingName)
            .build();

        CompletableFuture<DeleteThingResponse> future = getAsyncClient().deleteThing(deleteThingRequest);
        future.whenComplete((voidResult, ex) -> {
            if (ex == null) {
                System.out.println("Deleted Thing " + thingName);
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + ex.getMessage());
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [DeleteThing](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DeleteThing)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeEndpoint`
<a name="iot_DescribeEndpoint_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeEndpoint`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Describes the endpoint of the IoT service asynchronously.
     *
     * @return A CompletableFuture containing the full endpoint URL.
     *
     * This method initiates an asynchronous request to describe the endpoint of the IoT service.
     * If the request is successful, it prints and returns the full endpoint URL.
     * If an exception occurs, it prints the error message.
     */
    public String describeEndpoint() {
        CompletableFuture<DescribeEndpointResponse> future = getAsyncClient().describeEndpoint(DescribeEndpointRequest.builder().endpointType("iot:Data-ATS").build());
        final String[] result = {null};

        future.whenComplete((endpointResponse, ex) -> {
            if (endpointResponse != null) {
                String endpointUrl = endpointResponse.endpointAddress();
                String exString = getValue(endpointUrl);
                String fullEndpoint = "https://" + exString + "-ats.iot.us-east-1.amazonaws.com";

                System.out.println("Full Endpoint URL: " + fullEndpoint);
                result[0] = fullEndpoint;
            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + cause.getMessage());
                }
            }
        });

        future.join();
        return result[0];
    }
```
+  Untuk detail API, lihat [DescribeEndpoint](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DescribeEndpoint)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeThing`
<a name="iot_DescribeThing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeThing`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Describes an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     *
     * This method initiates an asynchronous request to describe an IoT Thing.
     * If the request is successful, it prints the Thing details.
     * If an exception occurs, it prints the error message.
     */
    private void describeThing(String thingName) {
        DescribeThingRequest thingRequest = DescribeThingRequest.builder()
            .thingName(thingName)
            .build();

        CompletableFuture<DescribeThingResponse> future = getAsyncClient().describeThing(thingRequest);
        future.whenComplete((describeResponse, ex) -> {
            if (describeResponse != null) {
                System.out.println("Thing Details:");
                System.out.println("Thing Name: " + describeResponse.thingName());
                System.out.println("Thing ARN: " + describeResponse.thingArn());
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to describe Thing.");
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [DescribeThing](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DescribeThing)di *Referensi AWS SDK for Java 2.x API*. 

### `DetachThingPrincipal`
<a name="iot_DetachThingPrincipal_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachThingPrincipal`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Detaches a principal (certificate) from an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     * @param certificateArn The ARN of the certificate to detach.
     *
     * This method initiates an asynchronous request to detach a certificate from an IoT Thing.
     * If the detachment is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void detachThingPrincipal(String thingName, String certificateArn) {
        DetachThingPrincipalRequest thingPrincipalRequest = DetachThingPrincipalRequest.builder()
            .principal(certificateArn)
            .thingName(thingName)
            .build();

        CompletableFuture<DetachThingPrincipalResponse> future = getAsyncClient().detachThingPrincipal(thingPrincipalRequest);
        future.whenComplete((voidResult, ex) -> {
            if (ex == null) {
                System.out.println(certificateArn + " was successfully removed from " + thingName);
            } else {
                Throwable cause = ex.getCause();
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else {
                    System.err.println("Unexpected error: " + ex.getMessage());
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [DetachThingPrincipal](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/DetachThingPrincipal)di *Referensi AWS SDK for Java 2.x API*. 

### `ListCertificates`
<a name="iot_ListCertificates_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Lists all certificates asynchronously.
     *
     * This method initiates an asynchronous request to list all certificates.
     * If the request is successful, it prints the certificate IDs and ARNs.
     * If an exception occurs, it prints the error message.
     */
    public void listCertificates() {
        CompletableFuture<ListCertificatesResponse> future = getAsyncClient().listCertificates();
        future.whenComplete((response, ex) -> {
            if (response != null) {
                List<Certificate> certList = response.certificates();
                for (Certificate cert : certList) {
                    System.out.println("Cert id: " + cert.certificateId());
                    System.out.println("Cert Arn: " + cert.certificateArn());
                }
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to list certificates.");
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/ListCertificates)di *Referensi AWS SDK for Java 2.x API*. 

### `SearchIndex`
<a name="iot_SearchIndex_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchIndex`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Searches for IoT Things asynchronously based on a query string.
     *
     * @param queryString The query string to search for Things.
     *
     * This method initiates an asynchronous request to search for IoT Things.
     * If the request is successful and Things are found, it prints their IDs.
     * If no Things are found, it prints a message indicating so.
     * If an exception occurs, it prints the error message.
     */
    public void searchThings(String queryString) {
        SearchIndexRequest searchIndexRequest = SearchIndexRequest.builder()
            .queryString(queryString)
            .build();

        CompletableFuture<SearchIndexResponse> future = getAsyncClient().searchIndex(searchIndexRequest);
        future.whenComplete((searchIndexResponse, ex) -> {
            if (searchIndexResponse != null) {
                // Process the result.
                if (searchIndexResponse.things().isEmpty()) {
                    System.out.println("No things found.");
                } else {
                    searchIndexResponse.things().forEach(thing -> System.out.println("Thing id found using search is " + thing.thingId()));
                }
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to search for IoT Things.");
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [SearchIndex](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-2015-05-28/SearchIndex)di *Referensi AWS SDK for Java 2.x API*. 

# AWS IoT data contoh menggunakan SDK for Java 2.x
<a name="java_2_iot-data-plane_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS IoT data.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetThingShadow`
<a name="iot-data-plane_GetThingShadow_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetThingShadow`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Retrieves the payload of a Thing's shadow asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     *
     * This method initiates an asynchronous request to get the payload of a Thing's shadow.
     * If the request is successful, it prints the shadow data.
     * If an exception occurs, it prints the error message.
     */
    public void getPayload(String thingName) {
        GetThingShadowRequest getThingShadowRequest = GetThingShadowRequest.builder()
            .thingName(thingName)
            .build();

        CompletableFuture<GetThingShadowResponse> future = getAsyncDataPlaneClient().getThingShadow(getThingShadowRequest);
        future.whenComplete((getThingShadowResponse, ex) -> {
            if (getThingShadowResponse != null) {
                // Extracting payload from response.
                SdkBytes payload = getThingShadowResponse.payload();
                String payloadString = payload.asUtf8String();
                System.out.println("Received Shadow Data: " + payloadString);
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to get Thing Shadow payload.");
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [GetThingShadow](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-data-2015-05-28/GetThingShadow)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateThingShadow`
<a name="iot-data-plane_UpdateThingShadow_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateThingShadow`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iot#code-examples). 

```
    /**
     * Updates the shadow of an IoT Thing asynchronously.
     *
     * @param thingName The name of the IoT Thing.
     *
     * This method initiates an asynchronous request to update the shadow of an IoT Thing.
     * If the request is successful, it prints a confirmation message.
     * If an exception occurs, it prints the error message.
     */
    public void updateShadowThing(String thingName) {
        // Create Thing Shadow State Document.
        String stateDocument = "{\"state\":{\"reported\":{\"temperature\":25, \"humidity\":50}}}";
        SdkBytes data = SdkBytes.fromString(stateDocument, StandardCharsets.UTF_8);
        UpdateThingShadowRequest updateThingShadowRequest = UpdateThingShadowRequest.builder()
            .thingName(thingName)
            .payload(data)
            .build();

        CompletableFuture<UpdateThingShadowResponse> future = getAsyncDataPlaneClient().updateThingShadow(updateThingShadowRequest);
        future.whenComplete((updateResponse, ex) -> {
            if (updateResponse != null) {
                System.out.println("Thing Shadow updated successfully.");
            } else {
                Throwable cause = ex != null ? ex.getCause() : null;
                if (cause instanceof IotException) {
                    System.err.println(((IotException) cause).awsErrorDetails().errorMessage());
                } else if (cause != null) {
                    System.err.println("Unexpected error: " + cause.getMessage());
                } else {
                    System.err.println("Failed to update Thing Shadow.");
                }
            }
        });

        future.join();
    }
```
+  Untuk detail API, lihat [UpdateThingShadow](https://docs.aws.amazon.com/goto/SdkForJavaV2/iot-data-2015-05-28/UpdateThingShadow)di *Referensi AWS SDK for Java 2.x API*. 

# AWS IoT FleetWise contoh menggunakan SDK for Java 2.x
<a name="java_2_iotfleetwise_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS IoT FleetWise.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT FleetWise
<a name="iotfleetwise_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT FleetWise.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
public class HelloFleetwise {

        public static void main(String[] args) {
            ListSignalCatalogs();
        }

        public static void  ListSignalCatalogs() {
            try (IoTFleetWiseClient fleetWiseClient = IoTFleetWiseClient.builder()
                    .region(Region.US_EAST_1)
                    .credentialsProvider(DefaultCredentialsProvider.create())
                    .build()) {

                ListSignalCatalogsRequest request = ListSignalCatalogsRequest.builder()
                        .maxResults(10) // Optional: limit per page
                        .build();

                ListSignalCatalogsIterable paginator = fleetWiseClient.listSignalCatalogsPaginator(request);
                boolean found = false;

                for (ListSignalCatalogsResponse response : paginator) {
                    for (SignalCatalogSummary summary : response.summaries()) {
                        found = true;
                        System.out.println("Catalog Name: " + summary.name());
                        System.out.println("ARN: " + summary.arn());
                        System.out.println("Created: " + summary.creationTime());
                        System.out.println("Last Modified: " + summary.lastModificationTime());
                        System.out.println("---------------");
                    }
                }

                if (!found) {
                    System.out.println("No AWS Fleetwise Signal Catalogs were found.");
                }

            } catch (IoTFleetWiseException e) {
                System.err.println("Error listing signal catalogs: " + e.awsErrorDetails().errorMessage());
                throw new RuntimeException(e);
            }
        }
    }
```
+  Untuk detail API, lihat [listSignalCatalogsPaginator di Referensi AWS SDK for Java 2.x](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/listSignalCatalogsPaginator) *API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iotfleetwise_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat kumpulan sinyal standar.
+ Buat armada yang mewakili sekelompok kendaraan.
+ Buat manifes model.
+ Buat manifes decoder.
+ Periksa status manifes model.
+ Periksa status decoder.
+ Buat IoT Thing.
+ Buat kendaraan.
+ Tampilkan detail kendaraan.
+ Hapus AWS IoT FleetWise Aset.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS IoT SiteWise fitur.  

```
public class FleetwiseScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    static FleetwiseActions actions = new FleetwiseActions();
    private static final Logger logger = LoggerFactory.getLogger(FleetwiseScenario.class);
    static Scanner scanner = new Scanner(System.in);

    public static void main(String[] args) {
        final String usage =
                """
                Usage:
                    <signalCatalogName> <manifestName> <fleetId> <vecName> <decName>
                
                Where:
                    signalCatalogName     - The name of the Signal Catalog to create (eg, catalog30).
                    manifestName          - The name of the Vehicle Model (Model Manifest) to create (eg, manifest30).
                    fleetId               - The ID of the Fleet to create (eg, fleet30).
                    vecName               - The name of the Vehicle to create (eg, vehicle30).
                    decName               - The name of the Decoder Manifest to create (eg, decManifest30).
                """;

        if (args.length != 5) {
            logger.info(usage);
            return;
        }

        String signalCatalogName = args[0];
        String manifestName = args[1];
        String fleetId = args[2];
        String vecName = args[3];
        String decName = args[4];

        logger.info(
                """
                 AWS IoT FleetWise is a managed service that simplifies the 
                 process of collecting, organizing, and transmitting vehicle 
                 data to the cloud in near real-time. Designed for automakers 
                 and fleet operators, it allows you to define vehicle models, 
                 specify the exact data you want to collect (such as engine 
                 temperature, speed, or battery status), and send this data to 
                 AWS for analysis. By using intelligent data collection 
                 techniques, IoT FleetWise reduces the volume of data 
                 transmitted by filtering and transforming it at the edge, 
                 helping to minimize bandwidth usage and costs. 
                
                At its core, AWS IoT FleetWise helps organizations build 
                scalable systems for vehicle data management and analytics, 
                supporting a wide variety of vehicles and sensor configurations. 
                You can define signal catalogs and decoder manifests that describe 
                how raw CAN bus signals are translated into readable data, making 
                the platform highly flexible and extensible. This allows 
                manufacturers to optimize vehicle performance, improve safety, 
                and reduce maintenance costs by gaining real-time visibility 
                into fleet operations. 
                """);

        waitForInputToContinue(scanner);
        logger.info(DASHES);
        try {
            runScenario(signalCatalogName, manifestName, fleetId, vecName, decName);
        } catch (RuntimeException e) {
            logger.info(e.getMessage());
        }
    }

    private static void runScenario(String signalCatalogName,
                                    String manifestName,
                                    String fleetId,
                                    String vecName,
                                    String decName) {
        logger.info(DASHES);
        logger.info("1. Creates a collection of standardized signals that can be reused to create vehicle models");
        String signalCatalogArn;
        try {
            signalCatalogArn = actions.createSignalCatalogAsync(signalCatalogName).join();
            logger.info("The collection ARN is " + signalCatalogArn);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ValidationException) {
                logger.error("The request failed due to a validation issue: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("2. Create a fleet that represents a group of vehicles");
        logger.info(
                """
                Creating an IoT FleetWise fleet allows you to efficiently collect, 
                organize, and transfer vehicle data to the cloud, enabling real-time 
                insights into vehicle performance and health. 
                
                It helps reduce data costs by allowing you to filter and prioritize 
                only the most relevant vehicle signals, supporting advanced analytics 
                and predictive maintenance use cases.
                """);

        waitForInputToContinue(scanner);
        String fleetid;
        try {
            fleetid = actions.createFleetAsync(signalCatalogArn, fleetId).join();
            logger.info("The fleet Id is " + fleetid);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.error("The resource was not found: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("3. Create a model manifest");
        logger.info(
                """
                An AWS IoT FleetWise manifest defines the structure and 
                relationships of vehicle data. The model manifest specifies 
                which signals to collect and how they relate to vehicle systems, 
                while the decoder manifest defines how to decode raw vehicle data 
                into meaningful signals. 
                """);
        waitForInputToContinue(scanner);
        String manifestArn;
        try {
            List<Node> nodes = actions.listSignalCatalogNodeAsync(signalCatalogName).join();
            manifestArn = actions.createModelManifestAsync(manifestName, signalCatalogArn, nodes).join();
            logger.info("The manifest ARN is {}", manifestArn);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            logger.error("An unexpected error occurred.", cause);
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("4. Create a decoder manifest");
        logger.info(
                """
                A decoder manifest in AWS IoT FleetWise defines how raw vehicle 
                data (such as CAN signals) should be interpreted and decoded 
                into meaningful signals. It acts as a translation layer 
                that maps vehicle-specific protocols to standardized data formats
                using decoding rules. This is crucial for extracting usable
                data from different vehicle models, even when their data 
                formats vary.
                
                """);
        waitForInputToContinue(scanner);
        String decArn;
        try {
            decArn = actions.createDecoderManifestAsync(decName, manifestArn).join();
            logger.info("The decoder manifest ARN is {}", decArn);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            logger.error("An unexpected error occurred.", cause);
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("5. Check the status of the model manifest");
        logger.info(
                """
                The model manifest must be in an ACTIVE state before it can be used 
                to create or update a vehicle.
                """);
        waitForInputToContinue(scanner);
        try {
            actions.updateModelManifestAsync(manifestName);
            actions.waitForModelManifestActiveAsync(manifestName).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            logger.error("An unexpected error occurred while waiting for the model manifest status.", cause);
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("6. Check the status of the decoder");
        logger.info(
                """
                The decoder manifest must be in an ACTIVE state before it can be used 
                to create or update a vehicle.
                """);
        waitForInputToContinue(scanner);
        try {
            actions.updateDecoderManifestAsync(decName);
            actions.waitForDecoderManifestActiveAsync(decName).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            logger.error("An unexpected error occurred while waiting for the decoder manifest status.", cause);
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("7. Create an IoT Thing");
        logger.info(
                """
                AWS IoT FleetWise expects an existing AWS IoT Thing with the same 
                name as the vehicle name you are passing to createVehicle method. 
                Before calling createVehicle(), you must create an AWS IoT Thing 
                with the same name using the AWS IoT Core service.
                """);
        waitForInputToContinue(scanner);
        try {
            actions.createThingIfNotExistsAsync(vecName).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceAlreadyExistsException) {
                logger.error("The resource exists: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
                return;
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("8. Create a vehicle");
        logger.info(
                """
                Creating a vehicle in AWS IoT FleetWise allows you to digitally 
                represent and manage a physical vehicle within the AWS ecosystem. 
                This enables efficient ingestion, transformation, and transmission 
                of vehicle telemetry data to the cloud for analysis.
                """);
        waitForInputToContinue(scanner);
        try {
            actions.createVehicleAsync(vecName, manifestArn, decArn).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();

            if (cause instanceof ResourceNotFoundException) {
                logger.error("The required resource was not found: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred while creating vehicle.", cause);
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("9. Display vehicle details");
        waitForInputToContinue(scanner);
        try {
            actions.getVehicleDetailsAsync(vecName).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.error("The resource was not found: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("10. Delete the AWS IoT Fleetwise Assets");
        logger.info("Would you like to delete the IoT Fleetwise Assets? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            try {
                actions.deleteVehicleAsync(vecName).join();
                actions.deleteDecoderManifestAsync(decName).join();
                actions.deleteModelManifestAsync(manifestName).join();
                actions.deleteFleetAsync(fleetid).join();
                actions.deleteSignalCatalogAsync(signalCatalogName).join();
            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof ResourceNotFoundException) {
                    // Handle the case where the resource is not found.
                    logger.error("The resource was not found: {}", cause.getMessage());
                } else if (cause instanceof RuntimeException) {
                    // Handle other runtime exceptions.
                    logger.error("An unexpected error occurred: {}", cause.getMessage());
                } else {
                    // Catch any other unexpected exceptions.
                    logger.error("An unknown error occurred.", cause);
                }
                return;
            }

            logger.info(DASHES);
            logger.info(
                    """
                    Thank you for checking out the AWS IoT Fleetwise Service Use demo. We hope you
                    learned something new, or got some inspiration for your own apps today.
                    For more AWS code examples, have a look at:
                    https://docs.aws.amazon.com/code-library/latest/ug/what-is-code-library.html
                    """);
            logger.info(DASHES);
        } else {
            logger.info("The AWS resources will not be deleted.");
        }
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                logger.info("Invalid input. Please try again.");
            }
        }
    }
}
```
Kelas pembungkus untuk metode AWS IoT FleetWise SDK.  

```
public class FleetwiseActions {
    private static final Logger logger = LoggerFactory.getLogger(FleetwiseActions.class);
    private static IoTFleetWiseAsyncClient ioTFleetWiseAsyncClient;

    private static IoTFleetWiseAsyncClient getAsyncClient() {
        if (ioTFleetWiseAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                    .maxConcurrency(100)
                    .connectionTimeout(Duration.ofSeconds(60))
                    .readTimeout(Duration.ofSeconds(60))
                    .writeTimeout(Duration.ofSeconds(60))
                    .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                    .apiCallTimeout(Duration.ofMinutes(2))
                    .apiCallAttemptTimeout(Duration.ofSeconds(90))
                    .retryStrategy(RetryMode.STANDARD)
                    .build();

            ioTFleetWiseAsyncClient = IoTFleetWiseAsyncClient.builder()
                    .httpClient(httpClient)
                    .overrideConfiguration(overrideConfig)
                    .build();
        }
        return ioTFleetWiseAsyncClient;
    }


    /**
     * Creates a signal catalog.
     *
     * @param signalCatalogName the name of the signal catalog to be created
     * @return a {@link CompletableFuture} that completes with the Amazon Resource Name (ARN) of the created signal catalog
     */
    public CompletableFuture<String> createSignalCatalogAsync(String signalCatalogName) {
        return deleteSignalCatalogIfExistsAsync(signalCatalogName)
                .thenCompose(ignored -> delayAsync(2000)) // Wait for 2 seconds
                .thenCompose(ignored -> {
                    List<Node> nodes = List.of(
                            Node.builder().branch(
                                    Branch.builder()
                                            .fullyQualifiedName("Vehicle")
                                            .description("Root branch")
                                            .build()
                            ).build(),
                            Node.builder().branch(
                                    Branch.builder()
                                            .fullyQualifiedName("Vehicle.Powertrain")
                                            .description("Powertrain branch")
                                            .build()
                            ).build(),
                            Node.builder().sensor(
                                    Sensor.builder()
                                            .fullyQualifiedName("Vehicle.Powertrain.EngineRPM")
                                            .description("Engine RPM")
                                            .dataType(NodeDataType.DOUBLE)
                                            .unit("rpm")
                                            .build()
                            ).build(),
                            Node.builder().sensor(
                                    Sensor.builder()
                                            .fullyQualifiedName("Vehicle.Powertrain.VehicleSpeed")
                                            .description("Vehicle Speed")
                                            .dataType(NodeDataType.DOUBLE)
                                            .unit("km/h")
                                            .build()
                            ).build()
                    );

                    CreateSignalCatalogRequest request = CreateSignalCatalogRequest.builder()
                            .name(signalCatalogName)
                            .nodes(nodes)
                            .build();

                    CompletableFuture<String> result = new CompletableFuture<>();

                    getAsyncClient().createSignalCatalog(request)
                            .whenComplete((response, exception) -> {
                                if (exception != null) {
                                    Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                                    if (cause instanceof ValidationException) {
                                        result.completeExceptionally(cause);
                                    } else {
                                        result.completeExceptionally(new RuntimeException("Error creating the catalog", cause));
                                    }
                                } else {
                                    result.complete(response.arn());
                                }
                            });

                    return result;
                });
    }

    /**
     * Delays the execution of the current thread asynchronously for the specified duration.
     *
     * @param millis the duration of the delay in milliseconds
     * @return a {@link CompletableFuture} that completes after the specified delay
     */
    private static CompletableFuture<Void> delayAsync(long millis) {
        return CompletableFuture.runAsync(() -> {
            try {
                Thread.sleep(millis);
            } catch (InterruptedException e) {
                throw new CompletionException("Sleep interrupted", e);
            }
        });
    }

    /**
     * Deletes the specified signal catalog.
     *
     * @param signalCatalogName the name of the signal catalog to delete
     * @return a {@link CompletableFuture} representing the asynchronous operation.
     */
    public static CompletableFuture<Void> deleteSignalCatalogIfExistsAsync(String signalCatalogName) {
        DeleteSignalCatalogRequest request = DeleteSignalCatalogRequest.builder()
                .name(signalCatalogName)
                .build();

        return getAsyncClient().deleteSignalCatalog(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                           throw new CompletionException(new RuntimeException("Signal Catalog not found: " + signalCatalogName));
                        }
                        throw new RuntimeException("Failed to delete signal catalog: " + signalCatalogName, cause);
                    }
                    return null;
                });
    }


    /**
     * Creates a new decoder manifest.
     *
     * @param name             the name of the decoder manifest
     * @param modelManifestArn the ARN of the model manifest
     * @return a {@link CompletableFuture} that completes with the ARN of the created decoder manifest
     */
    public CompletableFuture<String> createDecoderManifestAsync(String name, String modelManifestArn) {
        String interfaceId = "can0";
        NetworkInterface networkInterface = NetworkInterface.builder()
                .interfaceId(interfaceId)
                .type(NetworkInterfaceType.CAN_INTERFACE)
                .canInterface(CanInterface.builder()
                        .name("canInterface0")
                        .protocolName("CAN")
                        .protocolVersion("1.0")
                        .build())
                .build();

        // Vehicle.Powertrain.EngineRPM decoder.
        SignalDecoder engineRpmDecoder = SignalDecoder.builder()
                .fullyQualifiedName("Vehicle.Powertrain.EngineRPM")
                .interfaceId(interfaceId)
                .type(SignalDecoderType.CAN_SIGNAL)
                .canSignal(CanSignal.builder()
                        .messageId(100)
                        .isBigEndian(false)
                        .isSigned(false)
                        .startBit(0)
                        .length(16)
                        .factor(1.0)
                        .offset(0.0)
                        .build())
                .build();

        // Vehicle.Powertrain.VehicleSpeed decoder.
        SignalDecoder vehicleSpeedDecoder = SignalDecoder.builder()
                .fullyQualifiedName("Vehicle.Powertrain.VehicleSpeed")
                .interfaceId(interfaceId)
                .type(SignalDecoderType.CAN_SIGNAL)
                .canSignal(CanSignal.builder()
                        .messageId(101)
                        .isBigEndian(false)
                        .isSigned(false)
                        .startBit(16)
                        .length(16)
                        .factor(1.0)
                        .offset(0.0)
                        .build())
                .build();

        CreateDecoderManifestRequest request = CreateDecoderManifestRequest.builder()
                .name(name)
                .modelManifestArn(modelManifestArn)
                .networkInterfaces(List.of(networkInterface))
                .signalDecoders(List.of(engineRpmDecoder, vehicleSpeedDecoder))
                .build();

        CompletableFuture<String> result = new CompletableFuture<>();

        getAsyncClient().createDecoderManifest(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof DecoderManifestValidationException) {
                            result.completeExceptionally(new CompletionException("The request contains signal decoders with validation errors: " + cause.getMessage(), cause));
                        } else {
                            result.completeExceptionally(new CompletionException("Failed to create decoder manifest: " + exception.getMessage(), exception));
                        }
                    } else {
                        result.complete(response.arn()); // Complete successfully with the ARN
                    }
                });

        return result;
    }

    /**
     * Deletes a decoder manifest.
     *
     * @param name the name of the decoder manifest to delete
     * @return a {@link CompletableFuture} that completes when the decoder manifest has been deleted
     */
    public CompletableFuture<Void> deleteDecoderManifestAsync(String name) {
        return getAsyncClient().deleteDecoderManifest(DeleteDecoderManifestRequest.builder().name(name).build())
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the decoder manifest: " + cause);
                    }
                    return null;
                });
    }


    /**
     * Deletes a vehicle with the specified name.
     *
     * @param vecName the name of the vehicle to be deleted
     * @return a {@link CompletableFuture} that completes when the vehicle has been deleted
     */
    public CompletableFuture<Void> deleteVehicleAsync(String vecName) {
        DeleteVehicleRequest request = DeleteVehicleRequest.builder()
                .vehicleName(vecName)
                .build();

        return getAsyncClient().deleteVehicle(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the vehicle: " + cause);
                    }
                    return null;
                });
    }


    /**
     * Updates the model manifest.
     *
     * @param name the name of the model manifest to update
     */
    public void updateModelManifestAsync(String name) {
        UpdateModelManifestRequest request = UpdateModelManifestRequest.builder()
                .name(name)
                .status(ManifestStatus.ACTIVE)
                .build();

        getAsyncClient().updateModelManifest(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        throw new CompletionException("Failed to update model manifest: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> null);
    }


    /**
     * Updates the decoder manifest with the given name.
     *
     * @param name the name of the decoder manifest to update
     * @return a {@link CompletableFuture} that completes when the update operation is finished
     */
    public CompletableFuture<Void> updateDecoderManifestAsync(String name) {
        UpdateDecoderManifestRequest request = UpdateDecoderManifestRequest.builder()
                .name(name)
                .status(ManifestStatus.ACTIVE)
                .build();

        return getAsyncClient().updateDecoderManifest(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        throw new CompletionException("Failed to update decoder manifest: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> null);
    }


    /**
     * Creates a new vehicle in the system.
     *
     * @param vecName     the name of the vehicle to be created
     * @param manifestArn the Amazon Resource Name (ARN) of the model manifest for the vehicle
     * @param decArn      the Amazon Resource Name (ARN) of the decoder manifest for the vehicle
     * @return a {@link CompletableFuture} that completes when the vehicle has been created, or throws a
     */
    public CompletableFuture<Void> createVehicleAsync(String vecName, String manifestArn, String decArn) {
        CreateVehicleRequest request = CreateVehicleRequest.builder()
                .vehicleName(vecName)
                .modelManifestArn(manifestArn)
                .decoderManifestArn(decArn)
                .build();

        CompletableFuture<Void> result = new CompletableFuture<>();
        getAsyncClient().createVehicle(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception instanceof CompletionException ? exception.getCause() : exception;

                        if (cause instanceof ResourceNotFoundException) {
                            result.completeExceptionally(cause);
                        } else {
                            result.completeExceptionally(new RuntimeException("Failed to create vehicle: " + cause.getMessage(), cause));
                        }
                    } else {
                        logger.info("Vehicle '{}' created successfully.", vecName);
                        result.complete(null); // mark future as complete
                    }
                });

        return result;
    }


    /**
     * Waits for the decoder manifest to become active.
     *
     * @param decoderName the name of the decoder to wait for
     * @return a {@link CompletableFuture} that completes when the decoder manifest becomes active, or exceptionally if an error occurs or the manifest becomes invalid
     */
    public CompletableFuture<Void> waitForDecoderManifestActiveAsync(String decoderName) {
        CompletableFuture<Void> result = new CompletableFuture<>();

        ScheduledExecutorService scheduler = Executors.newSingleThreadScheduledExecutor();
        AtomicInteger secondsElapsed = new AtomicInteger(0);
        AtomicReference<ManifestStatus> lastStatus = new AtomicReference<>(ManifestStatus.DRAFT);

        logger.info(" Elapsed: 0s | Decoder Status: DRAFT");

        final Runnable pollTask = new Runnable() {
            @Override
            public void run() {
                int elapsed = secondsElapsed.incrementAndGet();

                // Check status every 5 seconds
                if (elapsed % 5 == 0) {
                    GetDecoderManifestRequest request = GetDecoderManifestRequest.builder()
                            .name(decoderName)
                            .build();

                    getAsyncClient().getDecoderManifest(request)
                            .whenComplete((response, exception) -> {
                                if (exception != null) {
                                    Throwable cause = exception instanceof CompletionException ? exception.getCause() : exception;

                                    scheduler.shutdown();
                                    if (cause instanceof ResourceNotFoundException) {
                                        result.completeExceptionally(new RuntimeException("Decoder manifest not found: " + cause.getMessage(), cause));
                                    } else {
                                        result.completeExceptionally(new RuntimeException("Error while polling decoder manifest status: " + exception.getMessage(), exception));
                                    }
                                    return;
                                }

                                ManifestStatus status = response.status();
                                lastStatus.set(status);

                                if (status == ManifestStatus.ACTIVE) {
                                    logger.info("\r Elapsed: {}s | Decoder Status: ACTIVE", elapsed);
                                    scheduler.shutdown();
                                    result.complete(null);
                                } else if (status == ManifestStatus.INVALID) {
                                    logger.info("\r Elapsed: {}s | Decoder Status: INVALID", elapsed);
                                    scheduler.shutdown();
                                    result.completeExceptionally(new RuntimeException("Decoder manifest became INVALID. Cannot proceed."));
                                } else {
                                    logger.info("\r⏱ Elapsed: {}s | Decoder Status: {}", elapsed, status);
                                }
                            });
                } else {
                    logger.info("\r Elapsed: {}s | Decoder Status: {}", elapsed, lastStatus.get());
                }
            }
        };

        // Start the task with an initial delay of 1 second, and repeat every second
        scheduler.scheduleAtFixedRate(pollTask, 1, 1, TimeUnit.SECONDS);
        return result;
    }



    /**
     * Waits for the specified model manifest to become active.
     *
     * @param manifestName the name of the model manifest to wait for
     */
    public CompletableFuture<Void> waitForModelManifestActiveAsync(String manifestName) {
        CompletableFuture<Void> result = new CompletableFuture<>();

        ScheduledExecutorService scheduler = Executors.newSingleThreadScheduledExecutor();
        AtomicInteger secondsElapsed = new AtomicInteger(0);
        AtomicReference<ManifestStatus> lastStatus = new AtomicReference<>(ManifestStatus.DRAFT);

        logger.info("Elapsed: 0s | Status: DRAFT");

        final Runnable pollTask = new Runnable() {
            @Override
            public void run() {
                int elapsed = secondsElapsed.incrementAndGet();

                // Only check status every 5 seconds
                if (elapsed % 5 == 0) {
                    GetModelManifestRequest request = GetModelManifestRequest.builder()
                            .name(manifestName)
                            .build();

                    getAsyncClient().getModelManifest(request)
                            .whenComplete((response, exception) -> {
                                if (exception != null) {
                                    Throwable cause = exception instanceof CompletionException ? exception.getCause() : exception;

                                    scheduler.shutdown();
                                    if (cause instanceof ResourceNotFoundException) {
                                        result.completeExceptionally(new RuntimeException("Model manifest not found: " + cause.getMessage(), cause));
                                    } else {
                                        result.completeExceptionally(new RuntimeException("Error while polling model manifest status: " + exception.getMessage(), exception));
                                    }
                                    return;
                                }

                                ManifestStatus status = response.status();
                                lastStatus.set(status);

                                if (status == ManifestStatus.ACTIVE) {
                                    logger.info("\rElapsed: {}s | Status: ACTIVE", elapsed);
                                    scheduler.shutdown();
                                    result.complete(null);
                                } else if (status == ManifestStatus.INVALID) {
                                    logger.info("\rElapsed: {}s | Status: INVALID", elapsed);
                                    scheduler.shutdown();
                                    result.completeExceptionally(new RuntimeException("Model manifest became INVALID. Cannot proceed."));
                                } else {
                                    logger.info("\rElapsed: {}s | Status: {}", elapsed, status);
                                }
                            });
                } else {
                    logger.info("\rElapsed: {}s | Status: {}", elapsed, lastStatus.get());
                }
            }
        };

        // Start the task with an initial delay of 1 second, and repeat every second
        scheduler.scheduleAtFixedRate(pollTask, 1, 1, TimeUnit.SECONDS);
        return result;
    }



    /**
     * Fetches the details of a vehicle.
     *
     * @param vehicleName the name of the vehicle to fetch details for
     * @return a {@link CompletableFuture} that completes when the vehicle details have been fetched
     */
    public CompletableFuture<Void> getVehicleDetailsAsync(String vehicleName) {
        GetVehicleRequest request = GetVehicleRequest.builder()
                .vehicleName(vehicleName)
                .build();

        CompletableFuture<Void> result = new CompletableFuture<>();

        getAsyncClient().getVehicle(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception instanceof CompletionException ? exception.getCause() : exception;

                        if (cause instanceof ResourceNotFoundException) {
                            result.completeExceptionally(cause); // don't rewrap
                        } else {
                            result.completeExceptionally(new RuntimeException("Failed to fetch vehicle details: " + cause.getMessage(), cause));
                        }
                    } else {
                        Map<String, Object> details = new HashMap<>();
                        details.put("vehicleName", response.vehicleName());
                        details.put("arn", response.arn());
                        details.put("modelManifestArn", response.modelManifestArn());
                        details.put("decoderManifestArn", response.decoderManifestArn());
                        details.put("attributes", response.attributes());
                        details.put("creationTime", response.creationTime().toString());
                        details.put("lastModificationTime", response.lastModificationTime().toString());

                        logger.info("Vehicle Details:");
                        details.forEach((key, value) -> logger.info("• {} : {}", key, value));

                        result.complete(null); // mark as successful
                    }
                });

        return result;
    }


    /**
     * Creates an IoT Thing if it does not already exist.
     *
     * @param thingName the name of the IoT Thing to create
     * @return a {@link CompletableFuture} that completes when the IoT Thing has been created or if it already exists
     */
    public CompletableFuture<Void> createThingIfNotExistsAsync(String thingName) {
        IotAsyncClient iotClient = IotAsyncClient.builder()
                .region(Region.US_EAST_1)
                .build();

        CreateThingRequest request = CreateThingRequest.builder()
                .thingName(thingName)
                .build();

        return iotClient.createThing(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        if (exception instanceof ResourceAlreadyExistsException) {
                            logger.info(" IoT Thing already exists: " + thingName);
                        } else {
                            throw new CompletionException("Failed to create IoT Thing: " + thingName, exception);
                        }
                    } else {
                        logger.info("IoT Thing created: " + response.thingName());
                    }
                })
                .thenApply(response -> null);
    }


    /**
     * Deletes a model manifest.
     *
     * @param name the name of the model manifest to delete
     * @return a {@link CompletableFuture} that completes when the model manifest has been deleted
     */
    public CompletableFuture<Void> deleteModelManifestAsync(String name) {
        DeleteModelManifestRequest request = DeleteModelManifestRequest.builder()
                .name(name)
                .build();

        return getAsyncClient().deleteModelManifest(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the model manifest: " + cause);
                    }
                    logger.info("{} was successfully deleted", name);
                    return null;
                });
    }


    /**
     * Deletes a signal catalog.
     *
     * @param name the name of the signal catalog to delete
     * @return a {@link CompletableFuture} that completes when the signal catalog is deleted
     */
    public CompletableFuture<Void> deleteSignalCatalogAsync(String name) {
        DeleteSignalCatalogRequest request = DeleteSignalCatalogRequest.builder()
                .name(name)
                .build();

        return getAsyncClient().deleteSignalCatalog(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the signal catalog: " + cause);
                    }
                    logger.info("{} was successfully deleted", name);
                    return null;
                });
    }

    /**
     * Asynchronously retrieves a list of all nodes in the specified signal catalog.
     *
     * @param signalCatalogName the name of the signal catalog to retrieve nodes for
     * @return a {@link CompletableFuture} that, when completed, contains a {@link List} of {@link Node} objects
     * representing all the nodes in the specified signal catalog
     */
    public CompletableFuture<List<Node>> listSignalCatalogNodeAsync(String signalCatalogName) {
        ListSignalCatalogNodesRequest request = ListSignalCatalogNodesRequest.builder()
                .name(signalCatalogName)
                .build();

        List<Node> allNodes = new ArrayList<>();

        return getAsyncClient().listSignalCatalogNodesPaginator(request)
                .subscribe(response -> allNodes.addAll(response.nodes()))
                .thenApply(v -> allNodes);
    }



    /**
     * Creates a model manifest.
     *
     * @param name             the name of the model manifest to create
     * @param signalCatalogArn the Amazon Resource Name (ARN) of the signal catalog
     * @param nodes            a list of nodes to include in the model manifest
     * @return a {@link CompletableFuture} that completes with the ARN of the created model manifest
     */
    public CompletableFuture<String> createModelManifestAsync(String name,
                                                              String signalCatalogArn,
                                                              List<Node> nodes) {
        // Extract the fully qualified names (FQNs) from each Node in the provided list.
        List<String> fqnList = nodes.stream()
                .map(node -> {
                    if (node.sensor() != null) {
                        return node.sensor().fullyQualifiedName();
                    } else if (node.branch() != null) {
                        return node.branch().fullyQualifiedName();
                    } else if (node.attribute() != null) {
                        return node.attribute().fullyQualifiedName();
                    } else {
                        throw new RuntimeException("Unsupported node type");
                    }
                })
                .toList();

        CreateModelManifestRequest request = CreateModelManifestRequest.builder()
                .name(name)
                .signalCatalogArn(signalCatalogArn)
                .nodes(fqnList)
                .build();


        CompletableFuture<String> result = new CompletableFuture<>();
        getAsyncClient().createModelManifest(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof InvalidSignalsException) {
                            result.completeExceptionally(new CompletionException("The request contains signals that aren't valid: " + cause.getMessage(), cause));
                        } else {
                            result.completeExceptionally(new CompletionException("Failed to create model manifest: " + exception.getMessage(), exception));
                        }
                    } else {
                        result.complete(response.arn()); // Complete successfully with the ARN
                    }
                });

        return result;
    }


    /**
     * Deletes a fleet based on the provided fleet ID.
     *
     * @param fleetId the ID of the fleet to be deleted
     */
    public CompletableFuture<Void> deleteFleetAsync(String fleetId) {
        DeleteFleetRequest request = DeleteFleetRequest.builder()
                .fleetId(fleetId)
                .build();

        return getAsyncClient().deleteFleet(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the fleet: " + cause);
                    }
                    logger.info("{} was successfully deleted", fleetId);
                    return null;
                });
    }



    /**
     * Creates a new fleet.
     *
     * @param catARN  the Amazon Resource Name (ARN) of the signal catalog to associate with the fleet
     * @param fleetId the unique identifier for the fleet
     * @return a {@link CompletableFuture} that completes with the ID of the created fleet
     */
    public CompletableFuture<String> createFleetAsync(String catARN, String fleetId) {
        CreateFleetRequest fleetRequest = CreateFleetRequest.builder()
                .fleetId(fleetId)
                .signalCatalogArn(catARN)
                .description("Built using the AWS For Java V2")
                .build();

        CompletableFuture<String> result = new CompletableFuture<>();
        getAsyncClient().createFleet(fleetRequest)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof ResourceNotFoundException) {
                            result.completeExceptionally(cause);
                        } else {
                            result.completeExceptionally(new RuntimeException("An unexpected error occurred", cause));
                        }
                    } else {
                        result.complete(response.id());
                    }
                });

        return result;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [createDecoderManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createDecoderManifest)
  + [CreateFleet](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createFleet)
  + [createModelManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createModelManifest)
  + [createSignalCatalog](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createSignalCatalog)
  + [CreateVehicle](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createVehicle)
  + [deleteDecoderManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteDecoderManifest)
  + [DeleteFleet](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteFleet)
  + [deleteModelManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteModelManifest)
  + [deleteSignalCatalog](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteSignalCatalog)
  + [DeleteveHicle](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteVehicle)
  + [getDecoderManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/getDecoderManifest)
  + [getModelManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/getModelManifest)
  + [GetVehicle](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/getVehicle)
  + [listSignalCatalogNode](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/listSignalCatalogNodes)
  + [updateDecoderManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/updateDecoderManifest)
  + [updateModelManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/updateModelManifest)

## Tindakan
<a name="actions"></a>

### `createDecoderManifest`
<a name="iotfleetwise_CreateDecoderManifest_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createDecoderManifest`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Creates a new decoder manifest.
     *
     * @param name             the name of the decoder manifest
     * @param modelManifestArn the ARN of the model manifest
     * @return a {@link CompletableFuture} that completes with the ARN of the created decoder manifest
     */
    public CompletableFuture<String> createDecoderManifestAsync(String name, String modelManifestArn) {
        String interfaceId = "can0";
        NetworkInterface networkInterface = NetworkInterface.builder()
                .interfaceId(interfaceId)
                .type(NetworkInterfaceType.CAN_INTERFACE)
                .canInterface(CanInterface.builder()
                        .name("canInterface0")
                        .protocolName("CAN")
                        .protocolVersion("1.0")
                        .build())
                .build();

        // Vehicle.Powertrain.EngineRPM decoder.
        SignalDecoder engineRpmDecoder = SignalDecoder.builder()
                .fullyQualifiedName("Vehicle.Powertrain.EngineRPM")
                .interfaceId(interfaceId)
                .type(SignalDecoderType.CAN_SIGNAL)
                .canSignal(CanSignal.builder()
                        .messageId(100)
                        .isBigEndian(false)
                        .isSigned(false)
                        .startBit(0)
                        .length(16)
                        .factor(1.0)
                        .offset(0.0)
                        .build())
                .build();

        // Vehicle.Powertrain.VehicleSpeed decoder.
        SignalDecoder vehicleSpeedDecoder = SignalDecoder.builder()
                .fullyQualifiedName("Vehicle.Powertrain.VehicleSpeed")
                .interfaceId(interfaceId)
                .type(SignalDecoderType.CAN_SIGNAL)
                .canSignal(CanSignal.builder()
                        .messageId(101)
                        .isBigEndian(false)
                        .isSigned(false)
                        .startBit(16)
                        .length(16)
                        .factor(1.0)
                        .offset(0.0)
                        .build())
                .build();

        CreateDecoderManifestRequest request = CreateDecoderManifestRequest.builder()
                .name(name)
                .modelManifestArn(modelManifestArn)
                .networkInterfaces(List.of(networkInterface))
                .signalDecoders(List.of(engineRpmDecoder, vehicleSpeedDecoder))
                .build();

        CompletableFuture<String> result = new CompletableFuture<>();

        getAsyncClient().createDecoderManifest(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof DecoderManifestValidationException) {
                            result.completeExceptionally(new CompletionException("The request contains signal decoders with validation errors: " + cause.getMessage(), cause));
                        } else {
                            result.completeExceptionally(new CompletionException("Failed to create decoder manifest: " + exception.getMessage(), exception));
                        }
                    } else {
                        result.complete(response.arn()); // Complete successfully with the ARN
                    }
                });

        return result;
    }
```
+  Untuk detail API, lihat [createDecoderManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createDecoderManifest)di *Referensi AWS SDK for Java 2.x API*. 

### `createFleet`
<a name="iotfleetwise_CreateFleet_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createFleet`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Creates a new fleet.
     *
     * @param catARN  the Amazon Resource Name (ARN) of the signal catalog to associate with the fleet
     * @param fleetId the unique identifier for the fleet
     * @return a {@link CompletableFuture} that completes with the ID of the created fleet
     */
    public CompletableFuture<String> createFleetAsync(String catARN, String fleetId) {
        CreateFleetRequest fleetRequest = CreateFleetRequest.builder()
                .fleetId(fleetId)
                .signalCatalogArn(catARN)
                .description("Built using the AWS For Java V2")
                .build();

        CompletableFuture<String> result = new CompletableFuture<>();
        getAsyncClient().createFleet(fleetRequest)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof ResourceNotFoundException) {
                            result.completeExceptionally(cause);
                        } else {
                            result.completeExceptionally(new RuntimeException("An unexpected error occurred", cause));
                        }
                    } else {
                        result.complete(response.id());
                    }
                });

        return result;
    }
```
+  *Untuk detail API, lihat [createFleet di Referensi](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createFleet) API.AWS SDK for Java 2.x * 

### `createModelManifest`
<a name="iotfleetwise_CreateModelManifest_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createModelManifest`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Creates a model manifest.
     *
     * @param name             the name of the model manifest to create
     * @param signalCatalogArn the Amazon Resource Name (ARN) of the signal catalog
     * @param nodes            a list of nodes to include in the model manifest
     * @return a {@link CompletableFuture} that completes with the ARN of the created model manifest
     */
    public CompletableFuture<String> createModelManifestAsync(String name,
                                                              String signalCatalogArn,
                                                              List<Node> nodes) {
        // Extract the fully qualified names (FQNs) from each Node in the provided list.
        List<String> fqnList = nodes.stream()
                .map(node -> {
                    if (node.sensor() != null) {
                        return node.sensor().fullyQualifiedName();
                    } else if (node.branch() != null) {
                        return node.branch().fullyQualifiedName();
                    } else if (node.attribute() != null) {
                        return node.attribute().fullyQualifiedName();
                    } else {
                        throw new RuntimeException("Unsupported node type");
                    }
                })
                .toList();

        CreateModelManifestRequest request = CreateModelManifestRequest.builder()
                .name(name)
                .signalCatalogArn(signalCatalogArn)
                .nodes(fqnList)
                .build();


        CompletableFuture<String> result = new CompletableFuture<>();
        getAsyncClient().createModelManifest(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                        if (cause instanceof InvalidSignalsException) {
                            result.completeExceptionally(new CompletionException("The request contains signals that aren't valid: " + cause.getMessage(), cause));
                        } else {
                            result.completeExceptionally(new CompletionException("Failed to create model manifest: " + exception.getMessage(), exception));
                        }
                    } else {
                        result.complete(response.arn()); // Complete successfully with the ARN
                    }
                });

        return result;
    }
```
+  Untuk detail API, lihat [createModelManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createModelManifest)di *Referensi AWS SDK for Java 2.x API*. 

### `createSignalCatalog`
<a name="iotfleetwise_CreateSignalCatalog_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createSignalCatalog`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Creates a signal catalog.
     *
     * @param signalCatalogName the name of the signal catalog to be created
     * @return a {@link CompletableFuture} that completes with the Amazon Resource Name (ARN) of the created signal catalog
     */
    public CompletableFuture<String> createSignalCatalogAsync(String signalCatalogName) {
        return deleteSignalCatalogIfExistsAsync(signalCatalogName)
                .thenCompose(ignored -> delayAsync(2000)) // Wait for 2 seconds
                .thenCompose(ignored -> {
                    List<Node> nodes = List.of(
                            Node.builder().branch(
                                    Branch.builder()
                                            .fullyQualifiedName("Vehicle")
                                            .description("Root branch")
                                            .build()
                            ).build(),
                            Node.builder().branch(
                                    Branch.builder()
                                            .fullyQualifiedName("Vehicle.Powertrain")
                                            .description("Powertrain branch")
                                            .build()
                            ).build(),
                            Node.builder().sensor(
                                    Sensor.builder()
                                            .fullyQualifiedName("Vehicle.Powertrain.EngineRPM")
                                            .description("Engine RPM")
                                            .dataType(NodeDataType.DOUBLE)
                                            .unit("rpm")
                                            .build()
                            ).build(),
                            Node.builder().sensor(
                                    Sensor.builder()
                                            .fullyQualifiedName("Vehicle.Powertrain.VehicleSpeed")
                                            .description("Vehicle Speed")
                                            .dataType(NodeDataType.DOUBLE)
                                            .unit("km/h")
                                            .build()
                            ).build()
                    );

                    CreateSignalCatalogRequest request = CreateSignalCatalogRequest.builder()
                            .name(signalCatalogName)
                            .nodes(nodes)
                            .build();

                    CompletableFuture<String> result = new CompletableFuture<>();

                    getAsyncClient().createSignalCatalog(request)
                            .whenComplete((response, exception) -> {
                                if (exception != null) {
                                    Throwable cause = exception.getCause() != null ? exception.getCause() : exception;

                                    if (cause instanceof ValidationException) {
                                        result.completeExceptionally(cause);
                                    } else {
                                        result.completeExceptionally(new RuntimeException("Error creating the catalog", cause));
                                    }
                                } else {
                                    result.complete(response.arn());
                                }
                            });

                    return result;
                });
    }
```
+  Untuk detail API, lihat [createSignalCatalog](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createSignalCatalog)di *Referensi AWS SDK for Java 2.x API*. 

### `createVehicle`
<a name="iotfleetwise_CreateVehicle_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createVehicle`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Creates a new vehicle in the system.
     *
     * @param vecName     the name of the vehicle to be created
     * @param manifestArn the Amazon Resource Name (ARN) of the model manifest for the vehicle
     * @param decArn      the Amazon Resource Name (ARN) of the decoder manifest for the vehicle
     * @return a {@link CompletableFuture} that completes when the vehicle has been created, or throws a
     */
    public CompletableFuture<Void> createVehicleAsync(String vecName, String manifestArn, String decArn) {
        CreateVehicleRequest request = CreateVehicleRequest.builder()
                .vehicleName(vecName)
                .modelManifestArn(manifestArn)
                .decoderManifestArn(decArn)
                .build();

        CompletableFuture<Void> result = new CompletableFuture<>();
        getAsyncClient().createVehicle(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception instanceof CompletionException ? exception.getCause() : exception;

                        if (cause instanceof ResourceNotFoundException) {
                            result.completeExceptionally(cause);
                        } else {
                            result.completeExceptionally(new RuntimeException("Failed to create vehicle: " + cause.getMessage(), cause));
                        }
                    } else {
                        logger.info("Vehicle '{}' created successfully.", vecName);
                        result.complete(null); // mark future as complete
                    }
                });

        return result;
    }
```
+  *Untuk detail API, lihat [CreateVehicle](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/createVehicle) di Referensi API.AWS SDK for Java 2.x * 

### `deleteDecoderManifest`
<a name="iotfleetwise_DeleteDecoderManifest_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteDecoderManifest`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Deletes a decoder manifest.
     *
     * @param name the name of the decoder manifest to delete
     * @return a {@link CompletableFuture} that completes when the decoder manifest has been deleted
     */
    public CompletableFuture<Void> deleteDecoderManifestAsync(String name) {
        return getAsyncClient().deleteDecoderManifest(DeleteDecoderManifestRequest.builder().name(name).build())
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the decoder manifest: " + cause);
                    }
                    return null;
                });
    }
```
+  Untuk detail API, lihat [deleteDecoderManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteDecoderManifest)di *Referensi AWS SDK for Java 2.x API*. 

### `deleteFleet`
<a name="iotfleetwise_DeleteFleet_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteFleet`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Deletes a fleet based on the provided fleet ID.
     *
     * @param fleetId the ID of the fleet to be deleted
     */
    public CompletableFuture<Void> deleteFleetAsync(String fleetId) {
        DeleteFleetRequest request = DeleteFleetRequest.builder()
                .fleetId(fleetId)
                .build();

        return getAsyncClient().deleteFleet(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the fleet: " + cause);
                    }
                    logger.info("{} was successfully deleted", fleetId);
                    return null;
                });
    }
```
+  *Untuk detail API, lihat [DeleteFleet](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteFleet) di AWS SDK for Java 2.x Referensi API.* 

### `deleteModelManifest`
<a name="iotfleetwise_DeleteModelManifest_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteModelManifest`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Deletes a model manifest.
     *
     * @param name the name of the model manifest to delete
     * @return a {@link CompletableFuture} that completes when the model manifest has been deleted
     */
    public CompletableFuture<Void> deleteModelManifestAsync(String name) {
        DeleteModelManifestRequest request = DeleteModelManifestRequest.builder()
                .name(name)
                .build();

        return getAsyncClient().deleteModelManifest(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the model manifest: " + cause);
                    }
                    logger.info("{} was successfully deleted", name);
                    return null;
                });
    }
```
+  Untuk detail API, lihat [deleteModelManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteModelManifest)di *Referensi AWS SDK for Java 2.x API*. 

### `deleteSignalCatalog`
<a name="iotfleetwise_DeleteSignalCatalog_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteSignalCatalog`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Deletes a signal catalog.
     *
     * @param name the name of the signal catalog to delete
     * @return a {@link CompletableFuture} that completes when the signal catalog is deleted
     */
    public CompletableFuture<Void> deleteSignalCatalogAsync(String name) {
        DeleteSignalCatalogRequest request = DeleteSignalCatalogRequest.builder()
                .name(name)
                .build();

        return getAsyncClient().deleteSignalCatalog(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the signal catalog: " + cause);
                    }
                    logger.info("{} was successfully deleted", name);
                    return null;
                });
    }
```
+  Untuk detail API, lihat [deleteSignalCatalog](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteSignalCatalog)di *Referensi AWS SDK for Java 2.x API*. 

### `deleteVehicle`
<a name="iotfleetwise_DeleteVehicle_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteVehicle`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Deletes a vehicle with the specified name.
     *
     * @param vecName the name of the vehicle to be deleted
     * @return a {@link CompletableFuture} that completes when the vehicle has been deleted
     */
    public CompletableFuture<Void> deleteVehicleAsync(String vecName) {
        DeleteVehicleRequest request = DeleteVehicleRequest.builder()
                .vehicleName(vecName)
                .build();

        return getAsyncClient().deleteVehicle(request)
                .handle((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }
                        throw new RuntimeException("Failed to delete the vehicle: " + cause);
                    }
                    return null;
                });
    }
```
+  *Untuk detail API, lihat [DeleteVehicle](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/deleteVehicle) di Referensi API.AWS SDK for Java 2.x * 

### `getDecoderManifest`
<a name="iotfleetwise_GetDecoderManifest_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`getDecoderManifest`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Waits for the decoder manifest to become active.
     *
     * @param decoderName the name of the decoder to wait for
     * @return a {@link CompletableFuture} that completes when the decoder manifest becomes active, or exceptionally if an error occurs or the manifest becomes invalid
     */
    public CompletableFuture<Void> waitForDecoderManifestActiveAsync(String decoderName) {
        CompletableFuture<Void> result = new CompletableFuture<>();

        ScheduledExecutorService scheduler = Executors.newSingleThreadScheduledExecutor();
        AtomicInteger secondsElapsed = new AtomicInteger(0);
        AtomicReference<ManifestStatus> lastStatus = new AtomicReference<>(ManifestStatus.DRAFT);

        logger.info(" Elapsed: 0s | Decoder Status: DRAFT");

        final Runnable pollTask = new Runnable() {
            @Override
            public void run() {
                int elapsed = secondsElapsed.incrementAndGet();

                // Check status every 5 seconds
                if (elapsed % 5 == 0) {
                    GetDecoderManifestRequest request = GetDecoderManifestRequest.builder()
                            .name(decoderName)
                            .build();

                    getAsyncClient().getDecoderManifest(request)
                            .whenComplete((response, exception) -> {
                                if (exception != null) {
                                    Throwable cause = exception instanceof CompletionException ? exception.getCause() : exception;

                                    scheduler.shutdown();
                                    if (cause instanceof ResourceNotFoundException) {
                                        result.completeExceptionally(new RuntimeException("Decoder manifest not found: " + cause.getMessage(), cause));
                                    } else {
                                        result.completeExceptionally(new RuntimeException("Error while polling decoder manifest status: " + exception.getMessage(), exception));
                                    }
                                    return;
                                }

                                ManifestStatus status = response.status();
                                lastStatus.set(status);

                                if (status == ManifestStatus.ACTIVE) {
                                    logger.info("\r Elapsed: {}s | Decoder Status: ACTIVE", elapsed);
                                    scheduler.shutdown();
                                    result.complete(null);
                                } else if (status == ManifestStatus.INVALID) {
                                    logger.info("\r Elapsed: {}s | Decoder Status: INVALID", elapsed);
                                    scheduler.shutdown();
                                    result.completeExceptionally(new RuntimeException("Decoder manifest became INVALID. Cannot proceed."));
                                } else {
                                    logger.info("\r⏱ Elapsed: {}s | Decoder Status: {}", elapsed, status);
                                }
                            });
                } else {
                    logger.info("\r Elapsed: {}s | Decoder Status: {}", elapsed, lastStatus.get());
                }
            }
        };

        // Start the task with an initial delay of 1 second, and repeat every second
        scheduler.scheduleAtFixedRate(pollTask, 1, 1, TimeUnit.SECONDS);
        return result;
    }
```
+  Untuk detail API, lihat [getDecoderManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/getDecoderManifest)di *Referensi AWS SDK for Java 2.x API*. 

### `getModelManifest`
<a name="iotfleetwise_GetModelManifest_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`getModelManifest`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Waits for the specified model manifest to become active.
     *
     * @param manifestName the name of the model manifest to wait for
     */
    public CompletableFuture<Void> waitForModelManifestActiveAsync(String manifestName) {
        CompletableFuture<Void> result = new CompletableFuture<>();

        ScheduledExecutorService scheduler = Executors.newSingleThreadScheduledExecutor();
        AtomicInteger secondsElapsed = new AtomicInteger(0);
        AtomicReference<ManifestStatus> lastStatus = new AtomicReference<>(ManifestStatus.DRAFT);

        logger.info("Elapsed: 0s | Status: DRAFT");

        final Runnable pollTask = new Runnable() {
            @Override
            public void run() {
                int elapsed = secondsElapsed.incrementAndGet();

                // Only check status every 5 seconds
                if (elapsed % 5 == 0) {
                    GetModelManifestRequest request = GetModelManifestRequest.builder()
                            .name(manifestName)
                            .build();

                    getAsyncClient().getModelManifest(request)
                            .whenComplete((response, exception) -> {
                                if (exception != null) {
                                    Throwable cause = exception instanceof CompletionException ? exception.getCause() : exception;

                                    scheduler.shutdown();
                                    if (cause instanceof ResourceNotFoundException) {
                                        result.completeExceptionally(new RuntimeException("Model manifest not found: " + cause.getMessage(), cause));
                                    } else {
                                        result.completeExceptionally(new RuntimeException("Error while polling model manifest status: " + exception.getMessage(), exception));
                                    }
                                    return;
                                }

                                ManifestStatus status = response.status();
                                lastStatus.set(status);

                                if (status == ManifestStatus.ACTIVE) {
                                    logger.info("\rElapsed: {}s | Status: ACTIVE", elapsed);
                                    scheduler.shutdown();
                                    result.complete(null);
                                } else if (status == ManifestStatus.INVALID) {
                                    logger.info("\rElapsed: {}s | Status: INVALID", elapsed);
                                    scheduler.shutdown();
                                    result.completeExceptionally(new RuntimeException("Model manifest became INVALID. Cannot proceed."));
                                } else {
                                    logger.info("\rElapsed: {}s | Status: {}", elapsed, status);
                                }
                            });
                } else {
                    logger.info("\rElapsed: {}s | Status: {}", elapsed, lastStatus.get());
                }
            }
        };

        // Start the task with an initial delay of 1 second, and repeat every second
        scheduler.scheduleAtFixedRate(pollTask, 1, 1, TimeUnit.SECONDS);
        return result;
    }
```
+  Untuk detail API, lihat [getModelManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/getModelManifest)di *Referensi AWS SDK for Java 2.x API*. 

### `getVehicle`
<a name="iotfleetwise_GetVehicle_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`getVehicle`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Fetches the details of a vehicle.
     *
     * @param vehicleName the name of the vehicle to fetch details for
     * @return a {@link CompletableFuture} that completes when the vehicle details have been fetched
     */
    public CompletableFuture<Void> getVehicleDetailsAsync(String vehicleName) {
        GetVehicleRequest request = GetVehicleRequest.builder()
                .vehicleName(vehicleName)
                .build();

        CompletableFuture<Void> result = new CompletableFuture<>();

        getAsyncClient().getVehicle(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception instanceof CompletionException ? exception.getCause() : exception;

                        if (cause instanceof ResourceNotFoundException) {
                            result.completeExceptionally(cause); // don't rewrap
                        } else {
                            result.completeExceptionally(new RuntimeException("Failed to fetch vehicle details: " + cause.getMessage(), cause));
                        }
                    } else {
                        Map<String, Object> details = new HashMap<>();
                        details.put("vehicleName", response.vehicleName());
                        details.put("arn", response.arn());
                        details.put("modelManifestArn", response.modelManifestArn());
                        details.put("decoderManifestArn", response.decoderManifestArn());
                        details.put("attributes", response.attributes());
                        details.put("creationTime", response.creationTime().toString());
                        details.put("lastModificationTime", response.lastModificationTime().toString());

                        logger.info("Vehicle Details:");
                        details.forEach((key, value) -> logger.info("• {} : {}", key, value));

                        result.complete(null); // mark as successful
                    }
                });

        return result;
    }
```
+  Untuk detail API, lihat [GetVehicle](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/getVehicle) di *Referensi AWS SDK for Java 2.x API*. 

### `listSignalCatalogNodes`
<a name="iotfleetwise_ListSignalCatalogNodes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`listSignalCatalogNodes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Asynchronously retrieves a list of all nodes in the specified signal catalog.
     *
     * @param signalCatalogName the name of the signal catalog to retrieve nodes for
     * @return a {@link CompletableFuture} that, when completed, contains a {@link List} of {@link Node} objects
     * representing all the nodes in the specified signal catalog
     */
    public CompletableFuture<List<Node>> listSignalCatalogNodeAsync(String signalCatalogName) {
        ListSignalCatalogNodesRequest request = ListSignalCatalogNodesRequest.builder()
                .name(signalCatalogName)
                .build();

        List<Node> allNodes = new ArrayList<>();

        return getAsyncClient().listSignalCatalogNodesPaginator(request)
                .subscribe(response -> allNodes.addAll(response.nodes()))
                .thenApply(v -> allNodes);
    }
```
+  Untuk detail API, lihat [listSignalCatalogNode](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/listSignalCatalogNodes) di *Referensi AWS SDK for Java 2.x API*. 

### `updateDecoderManifest`
<a name="iotfleetwise_UpdateDecoderManifest_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`updateDecoderManifest`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Updates the decoder manifest with the given name.
     *
     * @param name the name of the decoder manifest to update
     * @return a {@link CompletableFuture} that completes when the update operation is finished
     */
    public CompletableFuture<Void> updateDecoderManifestAsync(String name) {
        UpdateDecoderManifestRequest request = UpdateDecoderManifestRequest.builder()
                .name(name)
                .status(ManifestStatus.ACTIVE)
                .build();

        return getAsyncClient().updateDecoderManifest(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        throw new CompletionException("Failed to update decoder manifest: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> null);
    }
```
+  Untuk detail API, lihat [updateDecoderManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/updateDecoderManifest)di *Referensi AWS SDK for Java 2.x API*. 

### `updateModelManifest`
<a name="iotfleetwise_UpdateModelManifest_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`updateModelManifest`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotfleetwise#code-examples). 

```
    /**
     * Updates the model manifest.
     *
     * @param name the name of the model manifest to update
     */
    public void updateModelManifestAsync(String name) {
        UpdateModelManifestRequest request = UpdateModelManifestRequest.builder()
                .name(name)
                .status(ManifestStatus.ACTIVE)
                .build();

        getAsyncClient().updateModelManifest(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        throw new CompletionException("Failed to update model manifest: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> null);
    }
```
+  Untuk detail API, lihat [updateModelManifest](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotfleetwise-2021-06-17/updateModelManifest)di *Referensi AWS SDK for Java 2.x API*. 

# AWS IoT SiteWise contoh menggunakan SDK for Java 2.x
<a name="java_2_iotsitewise_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS IoT SiteWise.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT SiteWise
<a name="iotsitewise_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT SiteWise.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
public class HelloSitewise {
    private static final Logger logger = LoggerFactory.getLogger(HelloSitewise.class);
    public static void main(String[] args) {
         fetchAssetModels();
    }

    /**
     * Fetches asset models using the provided {@link IoTSiteWiseAsyncClient}.
     */
    public static void fetchAssetModels() {
        IoTSiteWiseAsyncClient siteWiseAsyncClient = IoTSiteWiseAsyncClient.create();
        ListAssetModelsRequest assetModelsRequest = ListAssetModelsRequest.builder()
            .assetModelTypes(AssetModelType.ASSET_MODEL)
            .build();

        // Asynchronous paginator - process paginated results.
        ListAssetModelsPublisher listModelsPaginator = siteWiseAsyncClient.listAssetModelsPaginator(assetModelsRequest);
        CompletableFuture<Void> future = listModelsPaginator.subscribe(response -> {
            response.assetModelSummaries().forEach(assetSummary ->
                logger.info("Asset Model Name: {} ", assetSummary.name())
            );
        });

        // Wait for the asynchronous operation to complete
        future.join();
    }
}
```
+  Untuk detail API, lihat [ListAssetModels](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/ListAssetModels)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iotsitewise_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat Model AWS IoT SiteWise Aset.
+ Buat AWS IoT SiteWise Aset.
+ Mengambil nilai ID properti.
+ Kirim data ke AWS IoT SiteWise Aset.
+ Ambil nilai properti AWS IoT SiteWise Aset.
+ Buat AWS IoT SiteWise Portal.
+ Buat AWS IoT SiteWise Gateway.
+ Jelaskan AWS IoT SiteWise Gateway.
+ Hapus AWS IoT SiteWise Aset.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS IoT SiteWise fitur.  

```
public class SitewiseScenario {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    private static final Logger logger = LoggerFactory.getLogger(SitewiseScenario.class);
    static Scanner scanner = new Scanner(System.in);

    private static final String ROLES_STACK = "RoleSitewise";

    static SitewiseActions sitewiseActions = new SitewiseActions();

    public static void main(String[] args) throws Throwable {
        Scanner scanner = new Scanner(System.in);
        String contactEmail = "user@mydomain.com"; // Change email address.
        String assetModelName = "MyAssetModel1";
        String assetName = "MyAsset1" ;
        String portalName = "MyPortal1" ;
        String gatewayName = "MyGateway1" ;
        String myThing =  "MyThing1" ;

        logger.info("""
            AWS IoT SiteWise is a fully managed software-as-a-service (SaaS) that 
            makes it easy to collect, store, organize, and monitor data from industrial equipment and processes. 
            It is designed to help industrial and manufacturing organizations collect data from their equipment and 
            processes, and use that data to make informed decisions about their operations.
                                            
            One of the key features of AWS IoT SiteWise is its ability to connect to a wide range of industrial 
            equipment and systems, including programmable logic controllers (PLCs), sensors, and other 
            industrial devices. It can collect data from these devices and organize it into a unified data model, 
            making it easier to analyze and gain insights from the data. AWS IoT SiteWise also provides tools for 
            visualizing the data, setting up alarms and alerts, and generating reports.
                                
            Another key feature of AWS IoT SiteWise is its ability to scale to handle large volumes of data. 
            It can collect and store data from thousands of devices and process millions of data points per second, 
            making it suitable for large-scale industrial operations. Additionally, AWS IoT SiteWise is designed 
            to be secure and compliant, with features like role-based access controls, data encryption, 
            and integration with other AWS services for additional security and compliance features.
                        
            Let's get started...
            """);

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        try {
            runScenario(assetModelName, assetName, portalName, contactEmail, gatewayName, myThing);
        } catch (RuntimeException e) {
           logger.info(e.getMessage());
        }
    }

    public static void runScenario(String assetModelName, String assetName,  String portalName, String contactEmail, String gatewayName, String myThing) throws Throwable {
        logger.info("Use AWS CloudFormation to create an IAM role that is required for this scenario.");
        CloudFormationHelper.deployCloudFormationStack(ROLES_STACK);
        Map<String, String> stackOutputs = CloudFormationHelper.getStackOutputsAsync(ROLES_STACK).join();
        String iamRole = stackOutputs.get("SitewiseRoleArn");
        logger.info("The ARN of the IAM role is {}",iamRole);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("1. Create an AWS SiteWise Asset Model");
        logger.info("""
             An AWS IoT SiteWise Asset Model is a way to represent the physical assets, such as equipment,
             processes, and systems, that exist in an industrial environment. This model provides a structured and
             hierarchical representation of these assets, allowing users to define the relationships and properties
             of each asset.
             
             This scenario creates two asset model properties: temperature and humidity.
            """);
        waitForInputToContinue(scanner);
        String assetModelId = null;
        try {
            CreateAssetModelResponse response = sitewiseActions.createAssetModelAsync(assetModelName).join();
            assetModelId = response.assetModelId();
            logger.info("Asset Model successfully created. Asset Model ID: {}. ", assetModelId);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceAlreadyExistsException) {
                try {
                    assetModelId = sitewiseActions.getAssetModelIdAsync(assetModelName).join();
                    logger.info("The Asset Model {} already exists. The id of the existing model is {}. Moving on...", assetModelName, assetModelId);
                } catch (CompletionException cex) {
                    logger.error("Exception thrown acquiring the asset model id: {}", cex.getCause().getCause(), cex);
                    return;
                }
            } else {
                logger.info("An unexpected error occurred: " + cause.getMessage(), cause);
                return;
            }
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("2. Create an AWS IoT SiteWise Asset");
        logger.info("""
             The IoT SiteWise model that we just created defines the structure and metadata for your physical assets. 
             Now we create an asset from the asset model.
             
            """);
        logger.info("Let's wait 30 seconds for the asset to be ready.");
        countdown(30);
        waitForInputToContinue(scanner);
        String assetId;
        try {
            CreateAssetResponse response = sitewiseActions.createAssetAsync(assetName, assetModelId).join();
            assetId = response.assetId();
            logger.info("Asset created with ID: {}", assetId);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.info("The asset model id was not found: {}", cause.getMessage(), cause);
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("3. Retrieve the property ID values");
        logger.info("""
             To send data to an asset, we need to get the property ID values. In this scenario, we access the
             temperature and humidity property ID values. 
            """);
        waitForInputToContinue(scanner);
        Map<String, String>  propertyIds = null;
        try {
            propertyIds = sitewiseActions.getPropertyIds(assetModelId).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof IoTSiteWiseException) {
                logger.error("IoTSiteWiseException occurred: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
            }
            return;
        }
        String humPropId =  propertyIds.get("Humidity");
        logger.info("The Humidity property Id is {}", humPropId);
        String tempPropId = propertyIds.get("Temperature");
        logger.info("The Temperature property Id is {}", tempPropId);

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("4. Send data to an AWS IoT SiteWise Asset");
        logger.info("""
            By sending data to an IoT SiteWise Asset, you can aggregate data from 
            multiple sources, normalize the data into a standard format, and store it in a 
            centralized location. This makes it easier to analyze and gain insights from the data.
                        
            In this example, we generate sample temperature and humidity data and send it to the AWS IoT SiteWise asset.
                        
            """);
        waitForInputToContinue(scanner);
        try {
            sitewiseActions.sendDataToSiteWiseAsync(assetId, tempPropId, humPropId).join();
            logger.info("Data sent successfully.");
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.error("The AWS resource was not found: {}", cause.getMessage(), cause);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("5. Retrieve the value of the IoT SiteWise Asset property");
        logger.info("""
            IoT SiteWise is an AWS service that allows you to collect, process, and analyze industrial data 
            from connected equipment and sensors. One of the key benefits of reading an IoT SiteWise property 
            is the ability to gain valuable insights from your industrial data.
                       
            """);
        waitForInputToContinue(scanner);
        try {
            Double assetVal = sitewiseActions.getAssetPropValueAsync(tempPropId, assetId).join();
            logger.info("The property name is: {}", "Temperature");
            logger.info("The value of this property is: {}", assetVal);

            waitForInputToContinue(scanner);

            assetVal = sitewiseActions.getAssetPropValueAsync(humPropId, assetId).join();
            logger.info("The property name is: {}", "Humidity");
            logger.info("The value of this property is: {}", assetVal);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
                if (cause instanceof ResourceNotFoundException) {
                    logger.info("The AWS resource was not found: {}", cause.getMessage(), cause);
                } else {
                    logger.info("An unexpected error occurred: {}", cause.getMessage(), cause);
                }
                return;
            }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("6. Create an IoT SiteWise Gateway");
        logger.info(
            """
                IoT SiteWise Gateway serves as the bridge between industrial equipment, sensors, and the 
                cloud-based IoT SiteWise service. It is responsible for securely collecting, processing, and 
                transmitting data from various industrial assets to the IoT SiteWise platform, 
                enabling real-time monitoring, analysis, and optimization of industrial operations.
                     
                """);
        waitForInputToContinue(scanner);
        String gatewayId = "";
        try {
            gatewayId = sitewiseActions.createGatewayAsync(gatewayName, myThing).join();
            logger.info("Gateway creation completed successfully. id is {}", gatewayId );
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof IoTSiteWiseException siteWiseEx) {
                logger.error("IoT SiteWise error occurred: Error message: {}, Error code {}",
                        siteWiseEx.getMessage(), siteWiseEx.awsErrorDetails().errorCode(), siteWiseEx);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage());
            }
            return;
        }
        logger.info(DASHES);
        logger.info(DASHES);

        logger.info("7. Describe the IoT SiteWise Gateway");
         waitForInputToContinue(scanner);
        try {
            sitewiseActions.describeGatewayAsync(gatewayId)
                .thenAccept(response -> {
                    logger.info("Gateway Name: {}", response.gatewayName());
                    logger.info("Gateway ARN: {}", response.gatewayArn());
                    logger.info("Gateway Platform: {}", response.gatewayPlatform());
                    logger.info("Gateway Creation Date: {}", response.creationDate());
                }).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException notFoundException) {
                logger.error("A ResourceNotFoundException occurred: Error message: {}, Error code {}",
                        notFoundException.getMessage(), notFoundException.awsErrorDetails().errorCode(), notFoundException);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("8. Delete the AWS IoT SiteWise Assets");
        logger.info(
            """
            Before you can delete the Asset Model, you must delete the assets.  
     
            """);
        logger.info("Would you like to delete the IoT SiteWise Assets? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            logger.info("You selected to delete the SiteWise assets.");

            try {
                sitewiseActions.deleteGatewayAsync(gatewayId).join();
                logger.info("Gateway {} was deleted successfully.", gatewayId);
            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof ResourceNotFoundException notFoundException) {
                    logger.error("A ResourceNotFoundException occurred: Error message: {}, Error code {}",
                            notFoundException.getMessage(), notFoundException.awsErrorDetails().errorCode(), notFoundException);
                } else {
                    logger.error("An unexpected error occurred: {}", cause.getMessage());
                }
            }

            try {
                sitewiseActions.deleteAssetAsync(assetId).join();
                logger.info("Request to delete asset {} sent successfully", assetId);
            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof ResourceNotFoundException notFoundException) {
                    logger.error("A ResourceNotFoundException occurred: Error message: {}, Error code {}",
                            notFoundException.getMessage(), notFoundException.awsErrorDetails().errorCode(), notFoundException);
                } else {
                    logger.error("An unexpected error occurred: {}", cause.getMessage());
                }
            }
            logger.info("Let's wait 1 minute for the asset to be deleted.");
            countdown(60);
            waitForInputToContinue(scanner);
            logger.info("Delete the AWS IoT SiteWise Asset Model");
            try {
                sitewiseActions.deleteAssetModelAsync(assetModelId).join();
                logger.info("Asset model deleted successfully.");
            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof ResourceNotFoundException notFoundException) {
                    logger.error("A ResourceNotFoundException occurred: Error message: {}, Error code {}",
                            notFoundException.getMessage(), notFoundException.awsErrorDetails().errorCode(), notFoundException);
                } else {
                    logger.error("An unexpected error occurred: {}", cause.getMessage());
                }
            }
            waitForInputToContinue(scanner);

        } else {
            logger.info("The resources will not be deleted.");
        }
        logger.info(DASHES);

        logger.info(DASHES);
        CloudFormationHelper.destroyCloudFormationStack(ROLES_STACK);
        logger.info("This concludes the AWS IoT SiteWise Scenario");
        logger.info(DASHES);
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                logger.info("Invalid input. Please try again.");
            }
        }
    }

    public static void countdown(int totalSeconds) throws InterruptedException {
        for (int i = totalSeconds; i >= 0; i--) {
            int displayMinutes = i / 60;
            int displaySeconds = i % 60;
            System.out.printf("\r%02d:%02d", displayMinutes, displaySeconds);
            Thread.sleep(1000); // Wait for 1 second
        }
        System.out.println(); // Move to the next line after countdown
        logger.info("Countdown complete!");
    }
}
```
Kelas pembungkus untuk metode AWS IoT SiteWise SDK.  

```
public class SitewiseActions {

    private static final Logger logger = LoggerFactory.getLogger(SitewiseActions.class);

    private static IoTSiteWiseAsyncClient ioTSiteWiseAsyncClient;

    private static IoTSiteWiseAsyncClient getAsyncClient() {
        if (ioTSiteWiseAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            ioTSiteWiseAsyncClient = IoTSiteWiseAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return ioTSiteWiseAsyncClient;
    }


    /**
     * Creates an asset model.
     *
     * @param name the name of the asset model to create.
     * @return a {@link CompletableFuture} that represents a {@link CreateAssetModelResponse} result. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps it
     *         available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<CreateAssetModelResponse> createAssetModelAsync(String name) {
        PropertyType humidity = PropertyType.builder()
            .measurement(Measurement.builder().build())
            .build();

        PropertyType temperaturePropertyType = PropertyType.builder()
            .measurement(Measurement.builder().build())
            .build();

        AssetModelPropertyDefinition temperatureProperty = AssetModelPropertyDefinition.builder()
            .name("Temperature")
            .dataType(PropertyDataType.DOUBLE)
            .type(temperaturePropertyType)
            .build();

        AssetModelPropertyDefinition humidityProperty = AssetModelPropertyDefinition.builder()
            .name("Humidity")
            .dataType(PropertyDataType.DOUBLE)
            .type(humidity)
            .build();

        CreateAssetModelRequest createAssetModelRequest = CreateAssetModelRequest.builder()
            .assetModelName(name)
            .assetModelDescription("This is my asset model")
            .assetModelProperties(temperatureProperty, humidityProperty)
            .build();

        return getAsyncClient().createAssetModel(createAssetModelRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("Failed to create asset model: {} ", exception.getCause().getMessage());
                }
            });
    }


    /**
     * Creates an asset with the specified name and asset model Id.
     *
     * @param assetName    the name of the asset to create.
     * @param assetModelId the Id of the asset model to associate with the asset.
     * @return a {@link CompletableFuture} that represents a {@link CreateAssetResponse} result. The calling code can
     *         attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps it
     *         available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<CreateAssetResponse> createAssetAsync(String assetName, String assetModelId) {
        CreateAssetRequest createAssetRequest = CreateAssetRequest.builder()
            .assetModelId(assetModelId)
            .assetDescription("Created using the AWS SDK for Java")
            .assetName(assetName)
            .build();

        return getAsyncClient().createAsset(createAssetRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("Failed to create asset: {}", exception.getCause().getMessage());
                }
            });
    }

    /**
     * Sends data to the SiteWise service.
     *
     * @param assetId        the ID of the asset to which the data will be sent.
     * @param tempPropertyId the ID of the temperature property.
     * @param humidityPropId the ID of the humidity property.
     * @return a {@link CompletableFuture} that represents a {@link BatchPutAssetPropertyValueResponse} result. The
     *         calling code can attach callbacks, then handle the result or exception by calling
     *         {@link CompletableFuture#join()} or {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps it
     *         available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<BatchPutAssetPropertyValueResponse> sendDataToSiteWiseAsync(String assetId, String tempPropertyId, String humidityPropId) {
        Map<String, Double> sampleData = generateSampleData();
        long timestamp = Instant.now().toEpochMilli();

        TimeInNanos time = TimeInNanos.builder()
            .timeInSeconds(timestamp / 1000)
            .offsetInNanos((int) ((timestamp % 1000) * 1000000))
            .build();

        BatchPutAssetPropertyValueRequest request = BatchPutAssetPropertyValueRequest.builder()
            .entries(Arrays.asList(
                PutAssetPropertyValueEntry.builder()
                    .entryId("entry-3")
                    .assetId(assetId)
                    .propertyId(tempPropertyId)
                    .propertyValues(Arrays.asList(
                        AssetPropertyValue.builder()
                            .value(Variant.builder()
                                .doubleValue(sampleData.get("Temperature"))
                                .build())
                            .timestamp(time)
                            .build()
                    ))
                    .build(),
                PutAssetPropertyValueEntry.builder()
                    .entryId("entry-4")
                    .assetId(assetId)
                    .propertyId(humidityPropId)
                    .propertyValues(Arrays.asList(
                        AssetPropertyValue.builder()
                            .value(Variant.builder()
                                .doubleValue(sampleData.get("Humidity"))
                                .build())
                            .timestamp(time)
                            .build()
                    ))
                    .build()
            ))
            .build();

        return getAsyncClient().batchPutAssetPropertyValue(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("An exception occurred: {}", exception.getCause().getMessage());
                }
            });
    }

    /**
     * Fetches the value of an asset property.
     *
     * @param propId  the ID of the asset property to fetch.
     * @param assetId the ID of the asset to fetch the property value for.
     * @return a {@link CompletableFuture} that represents a {@link Double} result. The calling code can attach
     *         callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<Double> getAssetPropValueAsync(String propId, String assetId) {
        GetAssetPropertyValueRequest assetPropertyValueRequest = GetAssetPropertyValueRequest.builder()
                .propertyId(propId)
                .assetId(assetId)
                .build();

        return getAsyncClient().getAssetPropertyValue(assetPropertyValueRequest)
                .handle((response, exception) -> {
                    if (exception != null) {
                        logger.error("Error occurred while fetching property value: {}.", exception.getCause().getMessage());
                        throw (CompletionException) exception;
                    }
                    return response.propertyValue().value().doubleValue();
                });
    }

    /**
     * Retrieves the property IDs associated with a specific asset model.
     *
     * @param assetModelId the ID of the asset model that defines the properties.
     * @return a {@link CompletableFuture} that represents a {@link Map} result that associates the property name to the
     *         propert ID. The calling code can attach callbacks, then handle the result or exception by calling
     *         {@link CompletableFuture#join()} or {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<Map<String, String>> getPropertyIds(String assetModelId) {
        ListAssetModelPropertiesRequest modelPropertiesRequest = ListAssetModelPropertiesRequest.builder().assetModelId(assetModelId).build();
        return getAsyncClient().listAssetModelProperties(modelPropertiesRequest)
            .handle((response, throwable) -> {
                if (response != null) {
                    return response.assetModelPropertySummaries().stream()
                        .collect(Collectors
                            .toMap(AssetModelPropertySummary::name, AssetModelPropertySummary::id));
                } else {
                    logger.error("Error occurred while fetching property IDs: {}.", throwable.getCause().getMessage());
                    throw (CompletionException) throwable;
                }
            });
    }

    /**
     * Deletes an asset.
     *
     * @param assetId the ID of the asset to be deleted.
     * @return a {@link CompletableFuture} that represents a {@link DeleteAssetResponse} result. The calling code can
     *         attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<DeleteAssetResponse> deleteAssetAsync(String assetId) {
        DeleteAssetRequest deleteAssetRequest = DeleteAssetRequest.builder()
            .assetId(assetId)
            .build();

        return getAsyncClient().deleteAsset(deleteAssetRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("An error occurred deleting asset with id: {}", assetId);
                }
            });
    }

    /**
     * Deletes an Asset Model with the specified ID.
     *
     * @param assetModelId the ID of the Asset Model to delete.
     * @return a {@link CompletableFuture} that represents a {@link DeleteAssetModelResponse} result. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<DeleteAssetModelResponse> deleteAssetModelAsync(String assetModelId) {
        DeleteAssetModelRequest deleteAssetModelRequest = DeleteAssetModelRequest.builder()
            .assetModelId(assetModelId)
            .build();

        return getAsyncClient().deleteAssetModel(deleteAssetModelRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("Failed to delete asset model with ID:{}.", exception.getMessage());
                }
            });
    }

    /**
     * Retrieves the asset model ID for the given asset model name.
     *
     * @param assetModelName the name of the asset model for the ID.
     * @return a {@link CompletableFuture} that represents a {@link String} result of the asset model ID or null if the
     *         asset model cannot be found. The calling code can attach callbacks, then handle the result or exception
     *         by calling {@link CompletableFuture#join()} or {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<String> getAssetModelIdAsync(String assetModelName) {
        ListAssetModelsRequest listAssetModelsRequest = ListAssetModelsRequest.builder().build();
        return getAsyncClient().listAssetModels(listAssetModelsRequest)
                .handle((listAssetModelsResponse, exception) -> {
                    if (exception != null) {
                        logger.error("Failed to retrieve Asset Model ID: {}", exception.getCause().getMessage());
                        throw (CompletionException) exception;
                    }
                    for (AssetModelSummary assetModelSummary : listAssetModelsResponse.assetModelSummaries()) {
                        if (assetModelSummary.name().equals(assetModelName)) {
                            return assetModelSummary.id();
                        }
                    }
                    return null;
                });
    }


    /**
     * Creates a new IoT Sitewise gateway.
     *
     * @param gatewayName The name of the gateway to create.
     * @param myThing     The name of the core device thing to associate with the gateway.
     * @return a {@link CompletableFuture} that represents a {@link String} result of the gateways ID. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<String> createGatewayAsync(String gatewayName, String myThing) {
        GreengrassV2 gg = GreengrassV2.builder()
            .coreDeviceThingName(myThing)
            .build();

        GatewayPlatform platform = GatewayPlatform.builder()
            .greengrassV2(gg)
            .build();

        Map<String, String> tag = new HashMap<>();
        tag.put("Environment", "Production");

        CreateGatewayRequest createGatewayRequest = CreateGatewayRequest.builder()
            .gatewayName(gatewayName)
            .gatewayPlatform(platform)
            .tags(tag)
            .build();

        return getAsyncClient().createGateway(createGatewayRequest)
            .handle((response, exception) -> {
                if (exception != null) {
                    logger.error("Error creating the gateway.");
                    throw (CompletionException) exception;
                }
                logger.info("The ARN of the gateway is {}" ,  response.gatewayArn());
                return response.gatewayId();
            });
    }

    /**
     * Deletes the specified gateway.
     *
     * @param gatewayId the ID of the gateway to delete.
     * @return a {@link CompletableFuture} that represents a {@link DeleteGatewayResponse} result.. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<DeleteGatewayResponse> deleteGatewayAsync(String gatewayId) {
        DeleteGatewayRequest deleteGatewayRequest = DeleteGatewayRequest.builder()
            .gatewayId(gatewayId)
            .build();

        return getAsyncClient().deleteGateway(deleteGatewayRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("Failed to delete gateway: {}", exception.getCause().getMessage());
                }
            });
    }

    /**
     * Describes the specified gateway.
     *
     * @param gatewayId the ID of the gateway to describe.
     * @return a {@link CompletableFuture} that represents a {@link DescribeGatewayResponse} result. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<DescribeGatewayResponse> describeGatewayAsync(String gatewayId) {
        DescribeGatewayRequest request = DescribeGatewayRequest.builder()
            .gatewayId(gatewayId)
            .build();

        return getAsyncClient().describeGateway(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("An error occurred during the describeGateway method: {}", exception.getCause().getMessage());
                }
            });
    }

    private static Map<String, Double> generateSampleData() {
        Map<String, Double> data = new HashMap<>();
        data.put("Temperature", 23.5);
        data.put("Humidity", 65.0);
        return data;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [BatchPutAssetPropertyValue](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/BatchPutAssetPropertyValue)
  + [CreateAsset](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/CreateAsset)
  + [CreateAssetModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/CreateAssetModel)
  + [CreateGateway](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/CreateGateway)
  + [DeleteAsset](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DeleteAsset)
  + [DeleteAssetModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DeleteAssetModel)
  + [DeleteGateway](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DeleteGateway)
  + [DescribeAssetModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DescribeAssetModel)
  + [DescribeGateway](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DescribeGateway)
  + [GetAssetPropertyValue](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/GetAssetPropertyValue)
  + [ListAssetModelProperties](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/ListAssetModelProperties)
  + [ListAssetModels](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/ListAssetModels)

## Tindakan
<a name="actions"></a>

### `BatchPutAssetPropertyValue`
<a name="iotsitewise_BatchPutAssetPropertyValue_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchPutAssetPropertyValue`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Sends data to the SiteWise service.
     *
     * @param assetId        the ID of the asset to which the data will be sent.
     * @param tempPropertyId the ID of the temperature property.
     * @param humidityPropId the ID of the humidity property.
     * @return a {@link CompletableFuture} that represents a {@link BatchPutAssetPropertyValueResponse} result. The
     *         calling code can attach callbacks, then handle the result or exception by calling
     *         {@link CompletableFuture#join()} or {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps it
     *         available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<BatchPutAssetPropertyValueResponse> sendDataToSiteWiseAsync(String assetId, String tempPropertyId, String humidityPropId) {
        Map<String, Double> sampleData = generateSampleData();
        long timestamp = Instant.now().toEpochMilli();

        TimeInNanos time = TimeInNanos.builder()
            .timeInSeconds(timestamp / 1000)
            .offsetInNanos((int) ((timestamp % 1000) * 1000000))
            .build();

        BatchPutAssetPropertyValueRequest request = BatchPutAssetPropertyValueRequest.builder()
            .entries(Arrays.asList(
                PutAssetPropertyValueEntry.builder()
                    .entryId("entry-3")
                    .assetId(assetId)
                    .propertyId(tempPropertyId)
                    .propertyValues(Arrays.asList(
                        AssetPropertyValue.builder()
                            .value(Variant.builder()
                                .doubleValue(sampleData.get("Temperature"))
                                .build())
                            .timestamp(time)
                            .build()
                    ))
                    .build(),
                PutAssetPropertyValueEntry.builder()
                    .entryId("entry-4")
                    .assetId(assetId)
                    .propertyId(humidityPropId)
                    .propertyValues(Arrays.asList(
                        AssetPropertyValue.builder()
                            .value(Variant.builder()
                                .doubleValue(sampleData.get("Humidity"))
                                .build())
                            .timestamp(time)
                            .build()
                    ))
                    .build()
            ))
            .build();

        return getAsyncClient().batchPutAssetPropertyValue(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("An exception occurred: {}", exception.getCause().getMessage());
                }
            });
    }
```
+  Untuk detail API, lihat [BatchPutAssetPropertyValue](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/BatchPutAssetPropertyValue)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateAsset`
<a name="iotsitewise_CreateAsset_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAsset`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Creates an asset with the specified name and asset model Id.
     *
     * @param assetName    the name of the asset to create.
     * @param assetModelId the Id of the asset model to associate with the asset.
     * @return a {@link CompletableFuture} that represents a {@link CreateAssetResponse} result. The calling code can
     *         attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps it
     *         available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<CreateAssetResponse> createAssetAsync(String assetName, String assetModelId) {
        CreateAssetRequest createAssetRequest = CreateAssetRequest.builder()
            .assetModelId(assetModelId)
            .assetDescription("Created using the AWS SDK for Java")
            .assetName(assetName)
            .build();

        return getAsyncClient().createAsset(createAssetRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("Failed to create asset: {}", exception.getCause().getMessage());
                }
            });
    }
```
+  Untuk detail API, lihat [CreateAsset](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/CreateAsset)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateAssetModel`
<a name="iotsitewise_CreateAssetModel_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAssetModel`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Creates an asset model.
     *
     * @param name the name of the asset model to create.
     * @return a {@link CompletableFuture} that represents a {@link CreateAssetModelResponse} result. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps it
     *         available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<CreateAssetModelResponse> createAssetModelAsync(String name) {
        PropertyType humidity = PropertyType.builder()
            .measurement(Measurement.builder().build())
            .build();

        PropertyType temperaturePropertyType = PropertyType.builder()
            .measurement(Measurement.builder().build())
            .build();

        AssetModelPropertyDefinition temperatureProperty = AssetModelPropertyDefinition.builder()
            .name("Temperature")
            .dataType(PropertyDataType.DOUBLE)
            .type(temperaturePropertyType)
            .build();

        AssetModelPropertyDefinition humidityProperty = AssetModelPropertyDefinition.builder()
            .name("Humidity")
            .dataType(PropertyDataType.DOUBLE)
            .type(humidity)
            .build();

        CreateAssetModelRequest createAssetModelRequest = CreateAssetModelRequest.builder()
            .assetModelName(name)
            .assetModelDescription("This is my asset model")
            .assetModelProperties(temperatureProperty, humidityProperty)
            .build();

        return getAsyncClient().createAssetModel(createAssetModelRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("Failed to create asset model: {} ", exception.getCause().getMessage());
                }
            });
    }
```
+  Untuk detail API, lihat [CreateAssetModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/CreateAssetModel)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateGateway`
<a name="iotsitewise_CreateGateway_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGateway`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Creates a new IoT Sitewise gateway.
     *
     * @param gatewayName The name of the gateway to create.
     * @param myThing     The name of the core device thing to associate with the gateway.
     * @return a {@link CompletableFuture} that represents a {@link String} result of the gateways ID. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<String> createGatewayAsync(String gatewayName, String myThing) {
        GreengrassV2 gg = GreengrassV2.builder()
            .coreDeviceThingName(myThing)
            .build();

        GatewayPlatform platform = GatewayPlatform.builder()
            .greengrassV2(gg)
            .build();

        Map<String, String> tag = new HashMap<>();
        tag.put("Environment", "Production");

        CreateGatewayRequest createGatewayRequest = CreateGatewayRequest.builder()
            .gatewayName(gatewayName)
            .gatewayPlatform(platform)
            .tags(tag)
            .build();

        return getAsyncClient().createGateway(createGatewayRequest)
            .handle((response, exception) -> {
                if (exception != null) {
                    logger.error("Error creating the gateway.");
                    throw (CompletionException) exception;
                }
                logger.info("The ARN of the gateway is {}" ,  response.gatewayArn());
                return response.gatewayId();
            });
    }
```
+  Untuk detail API, lihat [CreateGateway](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/CreateGateway)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteAsset`
<a name="iotsitewise_DeleteAsset_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAsset`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Deletes an asset.
     *
     * @param assetId the ID of the asset to be deleted.
     * @return a {@link CompletableFuture} that represents a {@link DeleteAssetResponse} result. The calling code can
     *         attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<DeleteAssetResponse> deleteAssetAsync(String assetId) {
        DeleteAssetRequest deleteAssetRequest = DeleteAssetRequest.builder()
            .assetId(assetId)
            .build();

        return getAsyncClient().deleteAsset(deleteAssetRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("An error occurred deleting asset with id: {}", assetId);
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteAsset](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DeleteAsset)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteAssetModel`
<a name="iotsitewise_DeleteAssetModel_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAssetModel`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Deletes an Asset Model with the specified ID.
     *
     * @param assetModelId the ID of the Asset Model to delete.
     * @return a {@link CompletableFuture} that represents a {@link DeleteAssetModelResponse} result. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<DeleteAssetModelResponse> deleteAssetModelAsync(String assetModelId) {
        DeleteAssetModelRequest deleteAssetModelRequest = DeleteAssetModelRequest.builder()
            .assetModelId(assetModelId)
            .build();

        return getAsyncClient().deleteAssetModel(deleteAssetModelRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("Failed to delete asset model with ID:{}.", exception.getMessage());
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteAssetModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DeleteAssetModel)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteGateway`
<a name="iotsitewise_DeleteGateway_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteGateway`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Deletes the specified gateway.
     *
     * @param gatewayId the ID of the gateway to delete.
     * @return a {@link CompletableFuture} that represents a {@link DeleteGatewayResponse} result.. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<DeleteGatewayResponse> deleteGatewayAsync(String gatewayId) {
        DeleteGatewayRequest deleteGatewayRequest = DeleteGatewayRequest.builder()
            .gatewayId(gatewayId)
            .build();

        return getAsyncClient().deleteGateway(deleteGatewayRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("Failed to delete gateway: {}", exception.getCause().getMessage());
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteGateway](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DeleteGateway)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAssetModel`
<a name="iotsitewise_DescribeAssetModel_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAssetModel`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Retrieves the property IDs associated with a specific asset model.
     *
     * @param assetModelId the ID of the asset model that defines the properties.
     * @return a {@link CompletableFuture} that represents a {@link Map} result that associates the property name to the
     *         propert ID. The calling code can attach callbacks, then handle the result or exception by calling
     *         {@link CompletableFuture#join()} or {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<Map<String, String>> getPropertyIds(String assetModelId) {
        ListAssetModelPropertiesRequest modelPropertiesRequest = ListAssetModelPropertiesRequest.builder().assetModelId(assetModelId).build();
        return getAsyncClient().listAssetModelProperties(modelPropertiesRequest)
            .handle((response, throwable) -> {
                if (response != null) {
                    return response.assetModelPropertySummaries().stream()
                        .collect(Collectors
                            .toMap(AssetModelPropertySummary::name, AssetModelPropertySummary::id));
                } else {
                    logger.error("Error occurred while fetching property IDs: {}.", throwable.getCause().getMessage());
                    throw (CompletionException) throwable;
                }
            });
    }
```
+  Untuk detail API, lihat [DescribeAssetModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DescribeAssetModel)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeGateway`
<a name="iotsitewise_DescribeGateway_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeGateway`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Describes the specified gateway.
     *
     * @param gatewayId the ID of the gateway to describe.
     * @return a {@link CompletableFuture} that represents a {@link DescribeGatewayResponse} result. The calling code
     *         can attach callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<DescribeGatewayResponse> describeGatewayAsync(String gatewayId) {
        DescribeGatewayRequest request = DescribeGatewayRequest.builder()
            .gatewayId(gatewayId)
            .build();

        return getAsyncClient().describeGateway(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    logger.error("An error occurred during the describeGateway method: {}", exception.getCause().getMessage());
                }
            });
    }
```
+  Untuk detail API, lihat [DescribeGateway](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/DescribeGateway)di *Referensi AWS SDK for Java 2.x API*. 

### `GetAssetPropertyValue`
<a name="iotsitewise_GetAssetPropertyValue_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAssetPropertyValue`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Fetches the value of an asset property.
     *
     * @param propId  the ID of the asset property to fetch.
     * @param assetId the ID of the asset to fetch the property value for.
     * @return a {@link CompletableFuture} that represents a {@link Double} result. The calling code can attach
     *         callbacks, then handle the result or exception by calling {@link CompletableFuture#join()} or
     *         {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<Double> getAssetPropValueAsync(String propId, String assetId) {
        GetAssetPropertyValueRequest assetPropertyValueRequest = GetAssetPropertyValueRequest.builder()
                .propertyId(propId)
                .assetId(assetId)
                .build();

        return getAsyncClient().getAssetPropertyValue(assetPropertyValueRequest)
                .handle((response, exception) -> {
                    if (exception != null) {
                        logger.error("Error occurred while fetching property value: {}.", exception.getCause().getMessage());
                        throw (CompletionException) exception;
                    }
                    return response.propertyValue().value().doubleValue();
                });
    }
```
+  Untuk detail API, lihat [GetAssetPropertyValue](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/GetAssetPropertyValue)di *Referensi AWS SDK for Java 2.x API*. 

### `ListAssetModels`
<a name="iotsitewise_ListAssetModels_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAssetModels`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/iotsitewise#code-examples). 

```
    /**
     * Retrieves the asset model ID for the given asset model name.
     *
     * @param assetModelName the name of the asset model for the ID.
     * @return a {@link CompletableFuture} that represents a {@link String} result of the asset model ID or null if the
     *         asset model cannot be found. The calling code can attach callbacks, then handle the result or exception
     *         by calling {@link CompletableFuture#join()} or {@link CompletableFuture#get()}.
     *         <p>
     *         If any completion stage in this method throws an exception, the method logs the exception cause and keeps
     *         it available to the calling code as a {@link CompletionException}. By calling
     *         {@link CompletionException#getCause()}, the calling code can access the original exception.
     */
    public CompletableFuture<String> getAssetModelIdAsync(String assetModelName) {
        ListAssetModelsRequest listAssetModelsRequest = ListAssetModelsRequest.builder().build();
        return getAsyncClient().listAssetModels(listAssetModelsRequest)
                .handle((listAssetModelsResponse, exception) -> {
                    if (exception != null) {
                        logger.error("Failed to retrieve Asset Model ID: {}", exception.getCause().getMessage());
                        throw (CompletionException) exception;
                    }
                    for (AssetModelSummary assetModelSummary : listAssetModelsResponse.assetModelSummaries()) {
                        if (assetModelSummary.name().equals(assetModelName)) {
                            return assetModelSummary.id();
                        }
                    }
                    return null;
                });
    }
```
+  Untuk detail API, lihat [ListAssetModels](https://docs.aws.amazon.com/goto/SdkForJavaV2/iotsitewise-2019-12-02/ListAssetModels)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon Keyspaces menggunakan SDK for Java 2.x
<a name="java_2_keyspaces_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Amazon Keyspaces.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Keyspaces
<a name="keyspaces_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Keyspaces.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.keyspaces.KeyspacesClient;
import software.amazon.awssdk.services.keyspaces.model.KeyspaceSummary;
import software.amazon.awssdk.services.keyspaces.model.KeyspacesException;
import software.amazon.awssdk.services.keyspaces.model.ListKeyspacesRequest;
import software.amazon.awssdk.services.keyspaces.model.ListKeyspacesResponse;
import java.util.List;

/**
 * Before running this Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloKeyspaces {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        KeyspacesClient keyClient = KeyspacesClient.builder()
                .region(region)
                .build();

        listKeyspaces(keyClient);
    }

    public static void listKeyspaces(KeyspacesClient keyClient) {
        try {
            ListKeyspacesRequest keyspacesRequest = ListKeyspacesRequest.builder()
                    .maxResults(10)
                    .build();

            ListKeyspacesResponse response = keyClient.listKeyspaces(keyspacesRequest);
            List<KeyspaceSummary> keyspaces = response.keyspaces();
            for (KeyspaceSummary keyspace : keyspaces) {
                System.out.println("The name of the keyspace is " + keyspace.keyspaceName());
            }

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListKeyspaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/ListKeyspaces)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="keyspaces_Scenario_GetStartedKeyspaces_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat keyspace dan tabel. Skema tabel menyimpan data film dan mengaktifkan point-in-time pemulihan.
+ Connect ke keyspace menggunakan koneksi TLS aman dengan otentikasi SiGv4.
+ Kueri tabel. Tambahkan, ambil, dan perbarui data film.
+ Perbarui tabel. Tambahkan kolom untuk melacak film yang ditonton.
+ Kembalikan tabel ke keadaan sebelumnya dan bersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
/**
 * Before running this Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * Before running this Java code example, you must create a
 * Java keystore (JKS) file and place it in your project's resources folder.
 *
 * This file is a secure file format used to hold certificate information for
 * Java applications. This is required to make a connection to Amazon Keyspaces.
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/keyspaces/latest/devguide/using_java_driver.html
 *
 * This Java example performs the following tasks:
 *
 * 1. Create a keyspace.
 * 2. Check for keyspace existence.
 * 3. List keyspaces using a paginator.
 * 4. Create a table with a simple movie data schema and enable point-in-time
 * recovery.
 * 5. Check for the table to be in an Active state.
 * 6. List all tables in the keyspace.
 * 7. Use a Cassandra driver to insert some records into the Movie table.
 * 8. Get all records from the Movie table.
 * 9. Get a specific Movie.
 * 10. Get a UTC timestamp for the current time.
 * 11. Update the table schema to add a ‘watched’ Boolean column.
 * 12. Update an item as watched.
 * 13. Query for items with watched = True.
 * 14. Restore the table back to the previous state using the timestamp.
 * 15. Check for completion of the restore action.
 * 16. Delete the table.
 * 17. Confirm that both tables are deleted.
 * 18. Delete the keyspace.
 */

public class ScenarioKeyspaces {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    /*
     * Usage:
     * fileName - The name of the JSON file that contains movie data. (Get this file
     * from the GitHub repo at resources/sample_file.)
     * keyspaceName - The name of the keyspace to create.
     */
    public static void main(String[] args) throws InterruptedException, IOException {
        String fileName = "<Replace with the JSON file that contains movie data>";
        String keyspaceName = "<Replace with the name of the keyspace to create>";
        String titleUpdate = "The Family";
        int yearUpdate = 2013;
        String tableName = "Movie";
        String tableNameRestore = "MovieRestore";
        Region region = Region.US_EAST_1;
        KeyspacesClient keyClient = KeyspacesClient.builder()
                .region(region)
                .build();

        DriverConfigLoader loader = DriverConfigLoader.fromClasspath("application.conf");
        CqlSession session = CqlSession.builder()
                .withConfigLoader(loader)
                .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon Keyspaces example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. Create a keyspace.");
        createKeySpace(keyClient, keyspaceName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        Thread.sleep(5000);
        System.out.println("2. Check for keyspace existence.");
        checkKeyspaceExistence(keyClient, keyspaceName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. List keyspaces using a paginator.");
        listKeyspacesPaginator(keyClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Create a table with a simple movie data schema and enable point-in-time recovery.");
        createTable(keyClient, keyspaceName, tableName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Check for the table to be in an Active state.");
        Thread.sleep(6000);
        checkTable(keyClient, keyspaceName, tableName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. List all tables in the keyspace.");
        listTables(keyClient, keyspaceName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Use a Cassandra driver to insert some records into the Movie table.");
        Thread.sleep(6000);
        loadData(session, fileName, keyspaceName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Get all records from the Movie table.");
        getMovieData(session, keyspaceName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. Get a specific Movie.");
        getSpecificMovie(session, keyspaceName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Get a UTC timestamp for the current time.");
        ZonedDateTime utc = ZonedDateTime.now(ZoneOffset.UTC);
        System.out.println("DATETIME = " + Date.from(utc.toInstant()));
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("11. Update the table schema to add a watched Boolean column.");
        updateTable(keyClient, keyspaceName, tableName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("12. Update an item as watched.");
        Thread.sleep(10000); // Wait 10 secs for the update.
        updateRecord(session, keyspaceName, titleUpdate, yearUpdate);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("13. Query for items with watched = True.");
        getWatchedData(session, keyspaceName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("14. Restore the table back to the previous state using the timestamp.");
        System.out.println("Note that the restore operation can take up to 20 minutes.");
        restoreTable(keyClient, keyspaceName, utc);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("15. Check for completion of the restore action.");
        Thread.sleep(5000);
        checkRestoredTable(keyClient, keyspaceName, "MovieRestore");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("16. Delete both tables.");
        deleteTable(keyClient, keyspaceName, tableName);
        deleteTable(keyClient, keyspaceName, tableNameRestore);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("17. Confirm that both tables are deleted.");
        checkTableDelete(keyClient, keyspaceName, tableName);
        checkTableDelete(keyClient, keyspaceName, tableNameRestore);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("18. Delete the keyspace.");
        deleteKeyspace(keyClient, keyspaceName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The scenario has completed successfully.");
        System.out.println(DASHES);
    }

    public static void deleteKeyspace(KeyspacesClient keyClient, String keyspaceName) {
        try {
            DeleteKeyspaceRequest deleteKeyspaceRequest = DeleteKeyspaceRequest.builder()
                    .keyspaceName(keyspaceName)
                    .build();

            keyClient.deleteKeyspace(deleteKeyspaceRequest);

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void checkTableDelete(KeyspacesClient keyClient, String keyspaceName, String tableName)
            throws InterruptedException {
        try {
            String status;
            GetTableResponse response;
            GetTableRequest tableRequest = GetTableRequest.builder()
                    .keyspaceName(keyspaceName)
                    .tableName(tableName)
                    .build();

            // Keep looping until table cannot be found and a ResourceNotFoundException is
            // thrown.
            while (true) {
                response = keyClient.getTable(tableRequest);
                status = response.statusAsString();
                System.out.println(". The table status is " + status);
                Thread.sleep(500);
            }

        } catch (ResourceNotFoundException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        System.out.println("The table is deleted");
    }

    public static void deleteTable(KeyspacesClient keyClient, String keyspaceName, String tableName) {
        try {
            DeleteTableRequest tableRequest = DeleteTableRequest.builder()
                    .keyspaceName(keyspaceName)
                    .tableName(tableName)
                    .build();

            keyClient.deleteTable(tableRequest);

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void checkRestoredTable(KeyspacesClient keyClient, String keyspaceName, String tableName)
            throws InterruptedException {
        try {
            boolean tableStatus = false;
            String status;
            GetTableResponse response = null;
            GetTableRequest tableRequest = GetTableRequest.builder()
                    .keyspaceName(keyspaceName)
                    .tableName(tableName)
                    .build();

            while (!tableStatus) {
                response = keyClient.getTable(tableRequest);
                status = response.statusAsString();
                System.out.println("The table status is " + status);

                if (status.compareTo("ACTIVE") == 0) {
                    tableStatus = true;
                }
                Thread.sleep(500);
            }

            List<ColumnDefinition> cols = response.schemaDefinition().allColumns();
            for (ColumnDefinition def : cols) {
                System.out.println("The column name is " + def.name());
                System.out.println("The column type is " + def.type());
            }

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void restoreTable(KeyspacesClient keyClient, String keyspaceName, ZonedDateTime utc) {
        try {
            Instant myTime = utc.toInstant();
            RestoreTableRequest restoreTableRequest = RestoreTableRequest.builder()
                    .restoreTimestamp(myTime)
                    .sourceTableName("Movie")
                    .targetKeyspaceName(keyspaceName)
                    .targetTableName("MovieRestore")
                    .sourceKeyspaceName(keyspaceName)
                    .build();

            RestoreTableResponse response = keyClient.restoreTable(restoreTableRequest);
            System.out.println("The ARN of the restored table is " + response.restoredTableARN());

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void getWatchedData(CqlSession session, String keyspaceName) {
        ResultSet resultSet = session
                .execute("SELECT * FROM \"" + keyspaceName + "\".\"Movie\" WHERE watched = true ALLOW FILTERING;");
        resultSet.forEach(item -> {
            System.out.println("The Movie title is " + item.getString("title"));
            System.out.println("The Movie year is " + item.getInt("year"));
            System.out.println("The plot is " + item.getString("plot"));
        });
    }

    public static void updateRecord(CqlSession session, String keySpace, String titleUpdate, int yearUpdate) {
        String sqlStatement = "UPDATE \"" + keySpace
                + "\".\"Movie\" SET watched=true WHERE title = :k0 AND year = :k1;";
        BatchStatementBuilder builder = BatchStatement.builder(DefaultBatchType.UNLOGGED);
        builder.setConsistencyLevel(ConsistencyLevel.LOCAL_QUORUM);
        PreparedStatement preparedStatement = session.prepare(sqlStatement);
        builder.addStatement(preparedStatement.boundStatementBuilder()
                .setString("k0", titleUpdate)
                .setInt("k1", yearUpdate)
                .build());

        BatchStatement batchStatement = builder.build();
        session.execute(batchStatement);
    }

    public static void updateTable(KeyspacesClient keyClient, String keySpace, String tableName) {
        try {
            ColumnDefinition def = ColumnDefinition.builder()
                    .name("watched")
                    .type("boolean")
                    .build();

            UpdateTableRequest tableRequest = UpdateTableRequest.builder()
                    .keyspaceName(keySpace)
                    .tableName(tableName)
                    .addColumns(def)
                    .build();

            keyClient.updateTable(tableRequest);

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void getSpecificMovie(CqlSession session, String keyspaceName) {
        ResultSet resultSet = session.execute(
                "SELECT * FROM \"" + keyspaceName + "\".\"Movie\" WHERE title = 'The Family' ALLOW FILTERING ;");
        resultSet.forEach(item -> {
            System.out.println("The Movie title is " + item.getString("title"));
            System.out.println("The Movie year is " + item.getInt("year"));
            System.out.println("The plot is " + item.getString("plot"));
        });
    }

    // Get records from the Movie table.
    public static void getMovieData(CqlSession session, String keyspaceName) {
        ResultSet resultSet = session.execute("SELECT * FROM \"" + keyspaceName + "\".\"Movie\";");
        resultSet.forEach(item -> {
            System.out.println("The Movie title is " + item.getString("title"));
            System.out.println("The Movie year is " + item.getInt("year"));
            System.out.println("The plot is " + item.getString("plot"));
        });
    }

    // Load data into the table.
    public static void loadData(CqlSession session, String fileName, String keySpace) throws IOException {
        String sqlStatement = "INSERT INTO \"" + keySpace + "\".\"Movie\" (title, year, plot) values (:k0, :k1, :k2)";
        JsonParser parser = new JsonFactory().createParser(new File(fileName));
        com.fasterxml.jackson.databind.JsonNode rootNode = new ObjectMapper().readTree(parser);
        Iterator<JsonNode> iter = rootNode.iterator();
        ObjectNode currentNode;
        int t = 0;
        while (iter.hasNext()) {

            // Add 20 movies to the table.
            if (t == 20)
                break;
            currentNode = (ObjectNode) iter.next();

            int year = currentNode.path("year").asInt();
            String title = currentNode.path("title").asText();
            String plot = currentNode.path("info").path("plot").toString();

            // Insert the data into the Amazon Keyspaces table.
            BatchStatementBuilder builder = BatchStatement.builder(DefaultBatchType.UNLOGGED);
            builder.setConsistencyLevel(ConsistencyLevel.LOCAL_QUORUM);
            PreparedStatement preparedStatement = session.prepare(sqlStatement);
            builder.addStatement(preparedStatement.boundStatementBuilder()
                    .setString("k0", title)
                    .setInt("k1", year)
                    .setString("k2", plot)
                    .build());

            BatchStatement batchStatement = builder.build();
            session.execute(batchStatement);
            t++;
        }

        System.out.println("You have added " + t + " records successfully!");
    }

    public static void listTables(KeyspacesClient keyClient, String keyspaceName) {
        try {
            ListTablesRequest tablesRequest = ListTablesRequest.builder()
                    .keyspaceName(keyspaceName)
                    .build();

            ListTablesIterable listRes = keyClient.listTablesPaginator(tablesRequest);
            listRes.stream()
                    .flatMap(r -> r.tables().stream())
                    .forEach(content -> System.out.println(" ARN: " + content.resourceArn() +
                            " Table name: " + content.tableName()));

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void checkTable(KeyspacesClient keyClient, String keyspaceName, String tableName)
            throws InterruptedException {
        try {
            boolean tableStatus = false;
            String status;
            GetTableResponse response = null;
            GetTableRequest tableRequest = GetTableRequest.builder()
                    .keyspaceName(keyspaceName)
                    .tableName(tableName)
                    .build();

            while (!tableStatus) {
                response = keyClient.getTable(tableRequest);
                status = response.statusAsString();
                System.out.println(". The table status is " + status);

                if (status.compareTo("ACTIVE") == 0) {
                    tableStatus = true;
                }
                Thread.sleep(500);
            }

            List<ColumnDefinition> cols = response.schemaDefinition().allColumns();
            for (ColumnDefinition def : cols) {
                System.out.println("The column name is " + def.name());
                System.out.println("The column type is " + def.type());
            }

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void createTable(KeyspacesClient keyClient, String keySpace, String tableName) {
        try {
            // Set the columns.
            ColumnDefinition defTitle = ColumnDefinition.builder()
                    .name("title")
                    .type("text")
                    .build();

            ColumnDefinition defYear = ColumnDefinition.builder()
                    .name("year")
                    .type("int")
                    .build();

            ColumnDefinition defReleaseDate = ColumnDefinition.builder()
                    .name("release_date")
                    .type("timestamp")
                    .build();

            ColumnDefinition defPlot = ColumnDefinition.builder()
                    .name("plot")
                    .type("text")
                    .build();

            List<ColumnDefinition> colList = new ArrayList<>();
            colList.add(defTitle);
            colList.add(defYear);
            colList.add(defReleaseDate);
            colList.add(defPlot);

            // Set the keys.
            PartitionKey yearKey = PartitionKey.builder()
                    .name("year")
                    .build();

            PartitionKey titleKey = PartitionKey.builder()
                    .name("title")
                    .build();

            List<PartitionKey> keyList = new ArrayList<>();
            keyList.add(yearKey);
            keyList.add(titleKey);

            SchemaDefinition schemaDefinition = SchemaDefinition.builder()
                    .partitionKeys(keyList)
                    .allColumns(colList)
                    .build();

            PointInTimeRecovery timeRecovery = PointInTimeRecovery.builder()
                    .status(PointInTimeRecoveryStatus.ENABLED)
                    .build();

            CreateTableRequest tableRequest = CreateTableRequest.builder()
                    .keyspaceName(keySpace)
                    .tableName(tableName)
                    .schemaDefinition(schemaDefinition)
                    .pointInTimeRecovery(timeRecovery)
                    .build();

            CreateTableResponse response = keyClient.createTable(tableRequest);
            System.out.println("The table ARN is " + response.resourceArn());

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void listKeyspacesPaginator(KeyspacesClient keyClient) {
        try {
            ListKeyspacesRequest keyspacesRequest = ListKeyspacesRequest.builder()
                    .maxResults(10)
                    .build();

            ListKeyspacesIterable listRes = keyClient.listKeyspacesPaginator(keyspacesRequest);
            listRes.stream()
                    .flatMap(r -> r.keyspaces().stream())
                    .forEach(content -> System.out.println(" Name: " + content.keyspaceName()));

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void checkKeyspaceExistence(KeyspacesClient keyClient, String keyspaceName) {
        try {
            GetKeyspaceRequest keyspaceRequest = GetKeyspaceRequest.builder()
                    .keyspaceName(keyspaceName)
                    .build();

            GetKeyspaceResponse response = keyClient.getKeyspace(keyspaceRequest);
            String name = response.keyspaceName();
            System.out.println("The " + name + " KeySpace is ready");

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void createKeySpace(KeyspacesClient keyClient, String keyspaceName) {
        try {
            CreateKeyspaceRequest keyspaceRequest = CreateKeyspaceRequest.builder()
                    .keyspaceName(keyspaceName)
                    .build();

            CreateKeyspaceResponse response = keyClient.createKeyspace(keyspaceRequest);
            System.out.println("The ARN of the KeySpace is " + response.resourceArn());

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateKeyspace](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/CreateKeyspace)
  + [CreateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/CreateTable)
  + [DeleteKeyspace](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/DeleteKeyspace)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/DeleteTable)
  + [GetKeyspace](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/GetKeyspace)
  + [GetTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/GetTable)
  + [ListKeyspaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/ListKeyspaces)
  + [ListTables](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/ListTables)
  + [RestoreTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/RestoreTable)
  + [UpdateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/UpdateTable)

## Tindakan
<a name="actions"></a>

### `CreateKeyspace`
<a name="keyspaces_CreateKeyspace_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyspace`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void createKeySpace(KeyspacesClient keyClient, String keyspaceName) {
        try {
            CreateKeyspaceRequest keyspaceRequest = CreateKeyspaceRequest.builder()
                    .keyspaceName(keyspaceName)
                    .build();

            CreateKeyspaceResponse response = keyClient.createKeyspace(keyspaceRequest);
            System.out.println("The ARN of the KeySpace is " + response.resourceArn());

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [CreateKeyspace](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/CreateKeyspace)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateTable`
<a name="keyspaces_CreateTable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void createTable(KeyspacesClient keyClient, String keySpace, String tableName) {
        try {
            // Set the columns.
            ColumnDefinition defTitle = ColumnDefinition.builder()
                    .name("title")
                    .type("text")
                    .build();

            ColumnDefinition defYear = ColumnDefinition.builder()
                    .name("year")
                    .type("int")
                    .build();

            ColumnDefinition defReleaseDate = ColumnDefinition.builder()
                    .name("release_date")
                    .type("timestamp")
                    .build();

            ColumnDefinition defPlot = ColumnDefinition.builder()
                    .name("plot")
                    .type("text")
                    .build();

            List<ColumnDefinition> colList = new ArrayList<>();
            colList.add(defTitle);
            colList.add(defYear);
            colList.add(defReleaseDate);
            colList.add(defPlot);

            // Set the keys.
            PartitionKey yearKey = PartitionKey.builder()
                    .name("year")
                    .build();

            PartitionKey titleKey = PartitionKey.builder()
                    .name("title")
                    .build();

            List<PartitionKey> keyList = new ArrayList<>();
            keyList.add(yearKey);
            keyList.add(titleKey);

            SchemaDefinition schemaDefinition = SchemaDefinition.builder()
                    .partitionKeys(keyList)
                    .allColumns(colList)
                    .build();

            PointInTimeRecovery timeRecovery = PointInTimeRecovery.builder()
                    .status(PointInTimeRecoveryStatus.ENABLED)
                    .build();

            CreateTableRequest tableRequest = CreateTableRequest.builder()
                    .keyspaceName(keySpace)
                    .tableName(tableName)
                    .schemaDefinition(schemaDefinition)
                    .pointInTimeRecovery(timeRecovery)
                    .build();

            CreateTableResponse response = keyClient.createTable(tableRequest);
            System.out.println("The table ARN is " + response.resourceArn());

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/CreateTable)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteKeyspace`
<a name="keyspaces_DeleteKeyspace_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyspace`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void deleteKeyspace(KeyspacesClient keyClient, String keyspaceName) {
        try {
            DeleteKeyspaceRequest deleteKeyspaceRequest = DeleteKeyspaceRequest.builder()
                    .keyspaceName(keyspaceName)
                    .build();

            keyClient.deleteKeyspace(deleteKeyspaceRequest);

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteKeyspace](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/DeleteKeyspace)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteTable`
<a name="keyspaces_DeleteTable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void deleteTable(KeyspacesClient keyClient, String keyspaceName, String tableName) {
        try {
            DeleteTableRequest tableRequest = DeleteTableRequest.builder()
                    .keyspaceName(keyspaceName)
                    .tableName(tableName)
                    .build();

            keyClient.deleteTable(tableRequest);

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/DeleteTable)di *Referensi AWS SDK for Java 2.x API*. 

### `GetKeyspace`
<a name="keyspaces_GetKeyspace_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetKeyspace`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void checkKeyspaceExistence(KeyspacesClient keyClient, String keyspaceName) {
        try {
            GetKeyspaceRequest keyspaceRequest = GetKeyspaceRequest.builder()
                    .keyspaceName(keyspaceName)
                    .build();

            GetKeyspaceResponse response = keyClient.getKeyspace(keyspaceRequest);
            String name = response.keyspaceName();
            System.out.println("The " + name + " KeySpace is ready");

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [GetKeyspace](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/GetKeyspace)di *Referensi AWS SDK for Java 2.x API*. 

### `GetTable`
<a name="keyspaces_GetTable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void checkTable(KeyspacesClient keyClient, String keyspaceName, String tableName)
            throws InterruptedException {
        try {
            boolean tableStatus = false;
            String status;
            GetTableResponse response = null;
            GetTableRequest tableRequest = GetTableRequest.builder()
                    .keyspaceName(keyspaceName)
                    .tableName(tableName)
                    .build();

            while (!tableStatus) {
                response = keyClient.getTable(tableRequest);
                status = response.statusAsString();
                System.out.println(". The table status is " + status);

                if (status.compareTo("ACTIVE") == 0) {
                    tableStatus = true;
                }
                Thread.sleep(500);
            }

            List<ColumnDefinition> cols = response.schemaDefinition().allColumns();
            for (ColumnDefinition def : cols) {
                System.out.println("The column name is " + def.name());
                System.out.println("The column type is " + def.type());
            }

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [GetTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/GetTable)di *Referensi AWS SDK for Java 2.x API*. 

### `ListKeyspaces`
<a name="keyspaces_ListKeyspaces_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeyspaces`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void listKeyspacesPaginator(KeyspacesClient keyClient) {
        try {
            ListKeyspacesRequest keyspacesRequest = ListKeyspacesRequest.builder()
                    .maxResults(10)
                    .build();

            ListKeyspacesIterable listRes = keyClient.listKeyspacesPaginator(keyspacesRequest);
            listRes.stream()
                    .flatMap(r -> r.keyspaces().stream())
                    .forEach(content -> System.out.println(" Name: " + content.keyspaceName()));

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListKeyspaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/ListKeyspaces)di *Referensi AWS SDK for Java 2.x API*. 

### `ListTables`
<a name="keyspaces_ListTables_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void listTables(KeyspacesClient keyClient, String keyspaceName) {
        try {
            ListTablesRequest tablesRequest = ListTablesRequest.builder()
                    .keyspaceName(keyspaceName)
                    .build();

            ListTablesIterable listRes = keyClient.listTablesPaginator(tablesRequest);
            listRes.stream()
                    .flatMap(r -> r.tables().stream())
                    .forEach(content -> System.out.println(" ARN: " + content.resourceArn() +
                            " Table name: " + content.tableName()));

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/ListTables)di *Referensi AWS SDK for Java 2.x API*. 

### `RestoreTable`
<a name="keyspaces_RestoreTable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RestoreTable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void restoreTable(KeyspacesClient keyClient, String keyspaceName, ZonedDateTime utc) {
        try {
            Instant myTime = utc.toInstant();
            RestoreTableRequest restoreTableRequest = RestoreTableRequest.builder()
                    .restoreTimestamp(myTime)
                    .sourceTableName("Movie")
                    .targetKeyspaceName(keyspaceName)
                    .targetTableName("MovieRestore")
                    .sourceKeyspaceName(keyspaceName)
                    .build();

            RestoreTableResponse response = keyClient.restoreTable(restoreTableRequest);
            System.out.println("The ARN of the restored table is " + response.restoredTableARN());

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [RestoreTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/RestoreTable)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateTable`
<a name="keyspaces_UpdateTable_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTable`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/keyspaces#code-examples). 

```
    public static void updateTable(KeyspacesClient keyClient, String keySpace, String tableName) {
        try {
            ColumnDefinition def = ColumnDefinition.builder()
                    .name("watched")
                    .type("boolean")
                    .build();

            UpdateTableRequest tableRequest = UpdateTableRequest.builder()
                    .keyspaceName(keySpace)
                    .tableName(tableName)
                    .addColumns(def)
                    .build();

            keyClient.updateTable(tableRequest);

        } catch (KeyspacesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/goto/SdkForJavaV2/keyspaces-2022-02-10/UpdateTable)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Kinesis menggunakan SDK for Java 2.x
<a name="java_2_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x Kinesis with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CreateStream`
<a name="kinesis_CreateStream_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStream`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kinesis#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.kinesis.KinesisClient;
import software.amazon.awssdk.services.kinesis.model.CreateStreamRequest;
import software.amazon.awssdk.services.kinesis.model.KinesisException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateDataStream {
    public static void main(String[] args) {

        final String usage = """

                Usage:
                    <streamName>

                Where:
                    streamName - The Amazon Kinesis data stream (for example, StockTradeStream).
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String streamName = args[0];
        Region region = Region.US_EAST_1;
        KinesisClient kinesisClient = KinesisClient.builder()
                .region(region)
                .build();
        createStream(kinesisClient, streamName);
        System.out.println("Done");
        kinesisClient.close();
    }

    public static void createStream(KinesisClient kinesisClient, String streamName) {
        try {
            CreateStreamRequest streamReq = CreateStreamRequest.builder()
                    .streamName(streamName)
                    .shardCount(1)
                    .build();

            kinesisClient.createStream(streamReq);

        } catch (KinesisException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/kinesis-2013-12-02/CreateStream)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteStream`
<a name="kinesis_DeleteStream_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStream`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kinesis#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.kinesis.KinesisClient;
import software.amazon.awssdk.services.kinesis.model.DeleteStreamRequest;
import software.amazon.awssdk.services.kinesis.model.KinesisException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteDataStream {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <streamName>

                Where:
                    streamName - The Amazon Kinesis data stream (for example, StockTradeStream)
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String streamName = args[0];
        Region region = Region.US_EAST_1;
        KinesisClient kinesisClient = KinesisClient.builder()
                .region(region)
                .build();

        deleteStream(kinesisClient, streamName);
        kinesisClient.close();
        System.out.println("Done");
    }

    public static void deleteStream(KinesisClient kinesisClient, String streamName) {
        try {
            DeleteStreamRequest delStream = DeleteStreamRequest.builder()
                    .streamName(streamName)
                    .build();

            kinesisClient.deleteStream(delStream);

        } catch (KinesisException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/kinesis-2013-12-02/DeleteStream)di *Referensi AWS SDK for Java 2.x API*. 

### `GetRecords`
<a name="kinesis_GetRecords_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRecords`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kinesis#code-examples). 

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.kinesis.KinesisClient;
import software.amazon.awssdk.services.kinesis.model.DescribeStreamResponse;
import software.amazon.awssdk.services.kinesis.model.DescribeStreamRequest;
import software.amazon.awssdk.services.kinesis.model.Shard;
import software.amazon.awssdk.services.kinesis.model.GetShardIteratorRequest;
import software.amazon.awssdk.services.kinesis.model.GetShardIteratorResponse;
import software.amazon.awssdk.services.kinesis.model.Record;
import software.amazon.awssdk.services.kinesis.model.GetRecordsRequest;
import software.amazon.awssdk.services.kinesis.model.GetRecordsResponse;
import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetRecords {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <streamName>

                Where:
                    streamName - The Amazon Kinesis data stream to read from (for example, StockTradeStream).
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String streamName = args[0];
        Region region = Region.US_EAST_1;
        KinesisClient kinesisClient = KinesisClient.builder()
                .region(region)
                .build();

        getStockTrades(kinesisClient, streamName);
        kinesisClient.close();
    }

    public static void getStockTrades(KinesisClient kinesisClient, String streamName) {
        String shardIterator;
        String lastShardId = null;
        DescribeStreamRequest describeStreamRequest = DescribeStreamRequest.builder()
                .streamName(streamName)
                .build();

        List<Shard> shards = new ArrayList<>();
        DescribeStreamResponse streamRes;
        do {
            streamRes = kinesisClient.describeStream(describeStreamRequest);
            shards.addAll(streamRes.streamDescription().shards());

            if (shards.size() > 0) {
                lastShardId = shards.get(shards.size() - 1).shardId();
            }
        } while (streamRes.streamDescription().hasMoreShards());

        GetShardIteratorRequest itReq = GetShardIteratorRequest.builder()
                .streamName(streamName)
                .shardIteratorType("TRIM_HORIZON")
                .shardId(lastShardId)
                .build();

        GetShardIteratorResponse shardIteratorResult = kinesisClient.getShardIterator(itReq);
        shardIterator = shardIteratorResult.shardIterator();

        // Continuously read data records from shard.
        List<Record> records;

        // Create new GetRecordsRequest with existing shardIterator.
        // Set maximum records to return to 1000.
        GetRecordsRequest recordsRequest = GetRecordsRequest.builder()
                .shardIterator(shardIterator)
                .limit(1000)
                .build();

        GetRecordsResponse result = kinesisClient.getRecords(recordsRequest);

        // Put result into record list. Result may be empty.
        records = result.records();

        // Print records
        for (Record record : records) {
            SdkBytes byteBuffer = record.data();
            System.out.printf("Seq No: %s - %s%n", record.sequenceNumber(), new String(byteBuffer.asByteArray()));
        }
    }
}
```
+  Untuk detail API, lihat [GetRecords](https://docs.aws.amazon.com/goto/SdkForJavaV2/kinesis-2013-12-02/GetRecords)di *Referensi AWS SDK for Java 2.x API*. 

### `PutRecord`
<a name="kinesis_PutRecord_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecord`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kinesis#code-examples). 

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.kinesis.KinesisClient;
import software.amazon.awssdk.services.kinesis.model.PutRecordRequest;
import software.amazon.awssdk.services.kinesis.model.KinesisException;
import software.amazon.awssdk.services.kinesis.model.DescribeStreamRequest;
import software.amazon.awssdk.services.kinesis.model.DescribeStreamResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class StockTradesWriter {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <streamName>

                Where:
                    streamName - The Amazon Kinesis data stream to which records are written (for example, StockTradeStream)
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String streamName = args[0];
        Region region = Region.US_EAST_1;
        KinesisClient kinesisClient = KinesisClient.builder()
                .region(region)
                .build();

        // Ensure that the Kinesis Stream is valid.
        validateStream(kinesisClient, streamName);
        setStockData(kinesisClient, streamName);
        kinesisClient.close();
    }

    public static void setStockData(KinesisClient kinesisClient, String streamName) {
        try {
            // Repeatedly send stock trades with a 100 milliseconds wait in between.
            StockTradeGenerator stockTradeGenerator = new StockTradeGenerator();

            // Put in 50 Records for this example.
            int index = 50;
            for (int x = 0; x < index; x++) {
                StockTrade trade = stockTradeGenerator.getRandomTrade();
                sendStockTrade(trade, kinesisClient, streamName);
                Thread.sleep(100);
            }

        } catch (KinesisException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        System.out.println("Done");
    }

    private static void sendStockTrade(StockTrade trade, KinesisClient kinesisClient,
            String streamName) {
        byte[] bytes = trade.toJsonAsBytes();

        // The bytes could be null if there is an issue with the JSON serialization by
        // the Jackson JSON library.
        if (bytes == null) {
            System.out.println("Could not get JSON bytes for stock trade");
            return;
        }

        System.out.println("Putting trade: " + trade);
        PutRecordRequest request = PutRecordRequest.builder()
                .partitionKey(trade.getTickerSymbol()) // We use the ticker symbol as the partition key, explained in
                                                       // the Supplemental Information section below.
                .streamName(streamName)
                .data(SdkBytes.fromByteArray(bytes))
                .build();

        try {
            kinesisClient.putRecord(request);
        } catch (KinesisException e) {
            System.err.println(e.getMessage());
        }
    }

    private static void validateStream(KinesisClient kinesisClient, String streamName) {
        try {
            DescribeStreamRequest describeStreamRequest = DescribeStreamRequest.builder()
                    .streamName(streamName)
                    .build();

            DescribeStreamResponse describeStreamResponse = kinesisClient.describeStream(describeStreamRequest);

            if (!describeStreamResponse.streamDescription().streamStatus().toString().equals("ACTIVE")) {
                System.err.println("Stream " + streamName + " is not active. Please wait a few moments and try again.");
                System.exit(1);
            }

        } catch (KinesisException e) {
            System.err.println("Error found while describing the stream " + streamName);
            System.err.println(e);
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutRecord](https://docs.aws.amazon.com/goto/SdkForJavaV2/kinesis-2013-12-02/PutRecord)di *Referensi AWS SDK for Java 2.x API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package example;

import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.LambdaLogger;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.KinesisEvent;

public class Handler implements RequestHandler<KinesisEvent, Void> {
    @Override
    public Void handleRequest(final KinesisEvent event, final Context context) {
        LambdaLogger logger = context.getLogger();
        if (event.getRecords().isEmpty()) {
            logger.log("Empty Kinesis Event received");
            return null;
        }
        for (KinesisEvent.KinesisEventRecord record : event.getRecords()) {
            try {
                logger.log("Processed Event with EventId: "+record.getEventID());
                String data = new String(record.getKinesis().getData().array());
                logger.log("Data:"+ data);
                // TODO: Do interesting work based on the new data
            }
            catch (Exception ex) {
                logger.log("An error occurred:"+ex.getMessage());
                throw ex;
            }
        }
        logger.log("Successfully processed:"+event.getRecords().size()+" records");
        return null;
    }

}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.KinesisEvent;
import com.amazonaws.services.lambda.runtime.events.StreamsEventResponse;

import java.io.Serializable;
import java.util.ArrayList;
import java.util.List;

public class ProcessKinesisRecords implements RequestHandler<KinesisEvent, StreamsEventResponse> {

    @Override
    public StreamsEventResponse handleRequest(KinesisEvent input, Context context) {

        List<StreamsEventResponse.BatchItemFailure> batchItemFailures = new ArrayList<>();
        String curRecordSequenceNumber = "";

        for (KinesisEvent.KinesisEventRecord kinesisEventRecord : input.getRecords()) {
            try {
                //Process your record
                KinesisEvent.Record kinesisRecord = kinesisEventRecord.getKinesis();
                curRecordSequenceNumber = kinesisRecord.getSequenceNumber();

            } catch (Exception e) {
                /* Since we are working with streams, we can return the failed item immediately.
                   Lambda will immediately begin to retry processing from this failed item onwards. */
                batchItemFailures.add(new StreamsEventResponse.BatchItemFailure(curRecordSequenceNumber));
                return new StreamsEventResponse(batchItemFailures);
            }
        }
       
       return new StreamsEventResponse(batchItemFailures);   
    }
}
```

# AWS KMS contoh menggunakan SDK for Java 2.x
<a name="java_2_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS KMS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS KMS
<a name="kms_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Key Management Service.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
import software.amazon.awssdk.services.kms.KmsAsyncClient;
import software.amazon.awssdk.services.kms.model.ListKeysRequest;
import software.amazon.awssdk.services.kms.paginators.ListKeysPublisher;
import java.util.concurrent.CompletableFuture;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloKMS {
    public static void main(String[] args) {
        listAllKeys();
    }

    public static void listAllKeys() {
        KmsAsyncClient kmsAsyncClient = KmsAsyncClient.builder()
            .build();
        ListKeysRequest listKeysRequest = ListKeysRequest.builder()
            .limit(15)
            .build();

        /*
         * The `subscribe` method is required when using paginator methods in the AWS SDK
         * because paginator methods return an instance of a `ListKeysPublisher`, which is
         * based on a reactive stream. This allows asynchronous retrieval of paginated
         * results as they become available. By subscribing to the stream, we can process
         * each page of results as they are emitted.
         */
        ListKeysPublisher keysPublisher = kmsAsyncClient.listKeysPaginator(listKeysRequest);
        CompletableFuture<Void> future = keysPublisher
            .subscribe(r -> r.keys().forEach(key ->
                System.out.println("The key ARN is: " + key.keyArn() + ". The key Id is: " + key.keyId())))
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    System.err.println("Error occurred: " + exception.getMessage());
                } else {
                    System.out.println("Successfully listed all keys.");
                }
            });

        try {
            future.join();
        } catch (Exception e) {
            System.err.println("Failed to list keys: " + e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [ListKeys](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ListKeys)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="kms_Scenario_Basics_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat kunci KMS.
+ Buat daftar kunci KMS untuk akun Anda dan dapatkan detailnya.
+ Aktifkan dan nonaktifkan tombol KMS.
+ Hasilkan kunci data simetris yang dapat digunakan untuk enkripsi sisi klien.
+ Hasilkan kunci asimetris yang digunakan untuk menandatangani data secara digital.
+ Tombol tag.
+ Hapus kunci KMS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 
Menjalankan skenario di prompt perintah.  

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.kms.model.AlreadyExistsException;
import software.amazon.awssdk.services.kms.model.DisabledException;
import software.amazon.awssdk.services.kms.model.EnableKeyRotationResponse;
import software.amazon.awssdk.services.kms.model.KmsException;
import software.amazon.awssdk.services.kms.model.NotFoundException;
import software.amazon.awssdk.services.kms.model.RevokeGrantResponse;
import java.util.List;
import java.util.Scanner;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class KMSScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static String accountId = "";

    private static final Logger logger = LoggerFactory.getLogger(KMSScenario.class);

    static KMSActions kmsActions = new KMSActions();

    static Scanner scanner = new Scanner(System.in);

    static String aliasName = "alias/dev-encryption-key";

    public static void main(String[] args) {
        final String usage = """
            Usage: <granteePrincipal>

            Where:
               granteePrincipal - The principal (user, service account, or group) to whom the grant or permission is being given. 
            """;

        if (args.length != 1) {
            logger.info(usage);
            return;
        }
        String granteePrincipal = args[0];
        String policyName = "default";

        accountId = kmsActions.getAccountId();
        String keyDesc = "Created by the AWS KMS API";

        logger.info(DASHES);
        logger.info("""
            Welcome to the AWS Key Management SDK Basics scenario.
                        
            This program demonstrates how to interact with AWS Key Management using the AWS SDK for Java (v2).
            The AWS Key Management Service (KMS) is a secure and highly available service that allows you to create 
            and manage AWS KMS keys and control their use across a wide range of AWS services and applications. 
            KMS provides a centralized and unified approach to managing encryption keys, making it easier to meet your 
            data protection and regulatory compliance requirements.
                        
            This Basics scenario creates two key types:
                        
            - A symmetric encryption key is used to encrypt and decrypt data.
            - An asymmetric key used to digitally sign data. 
                        
            Let's get started...
            """);
        waitForInputToContinue(scanner);

        try {
        // Run the methods that belong to this scenario.
        String targetKeyId = runScenario(granteePrincipal, keyDesc, policyName);
        requestDeleteResources(aliasName, targetKeyId);

        } catch (Throwable rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
        }
    }

    private static String runScenario(String granteePrincipal, String keyDesc, String policyName) throws Throwable {
        logger.info(DASHES);
        logger.info("1. Create a symmetric KMS key\n");
        logger.info("First, the program will creates a symmetric KMS key that you can used to encrypt and decrypt data.");
        waitForInputToContinue(scanner);
        String targetKeyId;
        try {
            CompletableFuture<String> futureKeyId = kmsActions.createKeyAsync(keyDesc);
            targetKeyId = futureKeyId.join();
            logger.info("A symmetric key was successfully created " + targetKeyId);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("""
            2. Enable a KMS key
                         
            By default, when the SDK creates an AWS key, it is enabled. The next bit of code checks to 
            determine if the key is enabled. 
             """);
        waitForInputToContinue(scanner);
        boolean isEnabled;
        try {
            CompletableFuture<Boolean> futureIsKeyEnabled = kmsActions.isKeyEnabledAsync(targetKeyId);
            isEnabled = futureIsKeyEnabled.join();
            logger.info("Is the key enabled? {}", isEnabled);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }

        if (!isEnabled)
            try {
                CompletableFuture<Void> future = kmsActions.enableKeyAsync(targetKeyId);
                future.join();

            } catch (RuntimeException rt) {
                Throwable cause = rt.getCause();
                if (cause instanceof KmsException kmsEx) {
                    logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
                } else {
                    logger.info("An unexpected error occurred: " + rt.getMessage());
                }
                throw cause;
            }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("3. Encrypt data using the symmetric KMS key");
        String plaintext = "Hello, AWS KMS!";
        logger.info("""
            One of the main uses of symmetric keys is to encrypt and decrypt data.
            Next, the code encrypts the string {} with the SYMMETRIC_DEFAULT encryption algorithm.
            """, plaintext);
        waitForInputToContinue(scanner);
        SdkBytes encryptedData;
        try {
            CompletableFuture<SdkBytes> future = kmsActions.encryptDataAsync(targetKeyId, plaintext);
            encryptedData = future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof DisabledException kmsDisabledEx) {
                logger.info("KMS error occurred due to a disabled key: Error message: {}, Error code {}", kmsDisabledEx.getMessage(), kmsDisabledEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("4. Create an alias");
        logger.info("""
             
            The alias name should be prefixed with 'alias/'.
            The default, 'alias/dev-encryption-key'.
             """);
        waitForInputToContinue(scanner);

        try {
            CompletableFuture<Void> future = kmsActions.createCustomAliasAsync(targetKeyId, aliasName);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof AlreadyExistsException kmsExistsEx) {
                if (kmsExistsEx.getMessage().contains("already exists")) {
                    logger.info("The alias '" + aliasName + "' already exists. Moving on...");
                }
            } else {
                logger.error("An unexpected error occurred: " + rt.getMessage(), rt);
                deleteKey(targetKeyId);
                throw cause;
            }
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("5. List all of your aliases");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Object> future = kmsActions.listAllAliasesAsync();
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteAliasName(aliasName);
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("6. Enable automatic rotation of the KMS key");
        logger.info("""
                        
            By default, when the SDK enables automatic rotation of a KMS key,
            KMS rotates the key material of the KMS key one year (approximately 365 days) from the enable date and every year 
            thereafter. 
            """);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<EnableKeyRotationResponse> future = kmsActions.enableKeyRotationAsync(targetKeyId);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteAliasName(aliasName);
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("""
            7. Create a grant
                        
            A grant is a policy instrument that allows Amazon Web Services principals to use KMS keys.
            It also can allow them to view a KMS key (DescribeKey) and create and manage grants.
            When authorizing access to a KMS key, grants are considered along with key policies and IAM policies.
            """);

        waitForInputToContinue(scanner);
        String grantId = null;
        try {
            CompletableFuture<String> futureGrantId = kmsActions.grantKeyAsync(targetKeyId, granteePrincipal);
            grantId = futureGrantId.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("8. List grants for the KMS key");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Object> future = kmsActions.displayGrantIdsAsync(targetKeyId);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteAliasName(aliasName);
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("9. Revoke the grant");
        logger.info("""
            The revocation of a grant immediately removes the permissions and access that the grant had provided. 
            This means that any principal (user, role, or service) that was granted access to perform specific 
            KMS operations on a KMS key will no longer be able to perform those operations.
            """);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<RevokeGrantResponse> future = kmsActions.revokeKeyGrantAsync(targetKeyId, grantId);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                if (kmsEx.getMessage().contains("Grant does not exist")) {
                    logger.info("The grant ID '" + grantId + "' does not exist. Moving on...");
                } else {
                    logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
                    throw cause;
                }
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
                deleteAliasName(aliasName);
                deleteKey(targetKeyId);
                throw cause;
            }
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("10. Decrypt the data\n");
        logger.info("""
            Lets decrypt the data that was encrypted in an early step.
            The code uses the same key to decrypt the string that we encrypted earlier in the program.
            """);
        waitForInputToContinue(scanner);
        String decryptedData = "";
        try {
            CompletableFuture<String> future = kmsActions.decryptDataAsync(encryptedData, targetKeyId);
            decryptedData = future.join();
            logger.info("Decrypted data: " + decryptedData);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteAliasName(aliasName);
            deleteKey(targetKeyId);
            throw cause;
        }
        logger.info("Decrypted text is: " + decryptedData);
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("11. Replace a key policy\n");
        logger.info("""
            A key policy is a resource policy for a KMS key. Key policies are the primary way to control 
            access to KMS keys. Every KMS key must have exactly one key policy. The statements in the key policy 
            determine who has permission to use the KMS key and how they can use it. 
            You can also use IAM policies and grants to control access to the KMS key, but every KMS key 
            must have a key policy.
                        
            By default, when you create a key by using the SDK, a policy is created that 
            gives the AWS account that owns the KMS key full access to the KMS key.
                        
            Let's try to replace the automatically created policy with the following policy.
                    
                "Version":"2012-10-17",		 	 	 
                "Statement": [{
                "Effect": "Allow",
                "Principal": {"AWS": "arn:aws:iam::0000000000:root"},
                "Action": "kms:*",
                "Resource": "*"
                }] 
            """);

        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Boolean> future = kmsActions.replacePolicyAsync(targetKeyId, policyName, accountId);
            boolean success = future.join();
            if (success) {
                logger.info("Key policy replacement succeeded.");
            } else {
                logger.error("Key policy replacement failed.");
            }

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteAliasName(aliasName);
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("12. Get the key policy\n");
        logger.info("The next bit of code that runs gets the key policy to make sure it exists.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<String> future = kmsActions.getKeyPolicyAsync(targetKeyId, policyName);
            String policy = future.join();
            if (!policy.isEmpty()) {
                logger.info("Retrieved policy: " + policy);
            }

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteAliasName(aliasName);
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("13. Create an asymmetric KMS key and sign your data\n");
        logger.info("""
             Signing your data with an AWS key can provide several benefits that make it an attractive option 
             for your data signing needs. By using an AWS KMS key, you can leverage the 
             security controls and compliance features provided by AWS,
             which can help you meet various regulatory requirements and enhance the overall security posture 
             of your organization.
            """);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Boolean> future = kmsActions.signVerifyDataAsync();
            boolean success = future.join();
            if (success) {
                logger.info("Sign and verify data operation succeeded.");
            } else {
                logger.error("Sign and verify data operation failed.");
            }

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteAliasName(aliasName);
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);

        logger.info(DASHES);
        logger.info("14. Tag your symmetric KMS Key\n");
        logger.info("""
            By using tags, you can improve the overall management, security, and governance of your 
            KMS keys, making it easier to organize, track, and control access to your encrypted data within 
            your AWS environment
            """);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = kmsActions.tagKMSKeyAsync(targetKeyId);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            deleteAliasName(aliasName);
            deleteKey(targetKeyId);
            throw cause;
        }
        waitForInputToContinue(scanner);
        return targetKeyId;
    }

    // Deletes KMS resources with user input.
    private static void requestDeleteResources(String aliasName, String targetKeyId) {
        logger.info(DASHES);
        logger.info("15. Schedule the deletion of the KMS key\n");
        logger.info("""
            By default, KMS applies a waiting period of 30 days,
            but you can specify a waiting period of 7-30 days. When this operation is successful, 
            the key state of the KMS key changes to PendingDeletion and the key can't be used in any 
            cryptographic operations. It remains in this state for the duration of the waiting period.
                
            Deleting a KMS key is a destructive and potentially dangerous operation. When a KMS key is deleted, 
            all data that was encrypted under the KMS key is unrecoverable.
            """);
        logger.info("Would you like to delete the Key Management resources? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            logger.info("You selected to delete the AWS KMS resources.");
            waitForInputToContinue(scanner);
            try {
                CompletableFuture<Void> future = kmsActions.deleteSpecificAliasAsync(aliasName);
                future.join();

            } catch (RuntimeException rt) {
                Throwable cause = rt.getCause();
                if (cause instanceof KmsException kmsEx) {
                    logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
                } else {
                    logger.info("An unexpected error occurred: " + rt.getMessage());
                }
            }
            waitForInputToContinue(scanner);
            try {
                CompletableFuture<Void> future = kmsActions.disableKeyAsync(targetKeyId);
                future.join();

            } catch (RuntimeException rt) {
                Throwable cause = rt.getCause();
                if (cause instanceof KmsException kmsEx) {
                    logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
                } else {
                    logger.info("An unexpected error occurred: " + rt.getMessage());
                }
            }

            try {
                CompletableFuture<Void> future = kmsActions.deleteKeyAsync(targetKeyId);
                future.join();

            } catch (RuntimeException rt) {
                Throwable cause = rt.getCause();
                if (cause instanceof KmsException kmsEx) {
                    logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
                } else {
                    logger.info("An unexpected error occurred: " + rt.getMessage());
                }
            }

        } else {
            logger.info("The Key Management resources will not be deleted");
        }

        logger.info(DASHES);
        logger.info("This concludes the AWS Key Management SDK scenario");
        logger.info(DASHES);
    }

    // This method is invoked from Exceptions to clean up the resources.
    private static void deleteKey(String targetKeyId) {
        try {
            CompletableFuture<Void> future = kmsActions.disableKeyAsync(targetKeyId);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
        }

        try {
            CompletableFuture<Void> future = kmsActions.deleteKeyAsync(targetKeyId);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
        }
    }

    // This method is invoked from Exceptions to clean up the resources.
    private static void deleteAliasName(String aliasName) {
        try {
            CompletableFuture<Void> future = kmsActions.deleteSpecificAliasAsync(aliasName);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof KmsException kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
        }
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                // Handle invalid input.
                logger.info("Invalid input. Please try again.");
            }
        }
    }
}
```
Tentukan kelas yang membungkus tindakan KMS.  

```
public class KMSActions {
    private static final Logger logger = LoggerFactory.getLogger(KMSActions.class);
    private static KmsAsyncClient kmsAsyncClient;

    /**
     * Retrieves an asynchronous AWS Key Management Service (KMS) client.
     * <p>
     * This method creates and returns a singleton instance of the KMS async client, with the following configurations:
     * <ul>
     *   <li>Max concurrency: 100</li>
     *   <li>Connection timeout: 60 seconds</li>
     *   <li>Read timeout: 60 seconds</li>
     *   <li>Write timeout: 60 seconds</li>
     *   <li>API call timeout: 2 minutes</li>
     *   <li>API call attempt timeout: 90 seconds</li>
     *   <li>Retry policy: up to 3 retries</li>
     *   <li>Credentials provider: environment variable credentials provider</li>
     * </ul>
     * <p>
     * If the client instance has already been created, it is returned instead of creating a new one.
     *
     * @return the KMS async client instance
     */
    private static KmsAsyncClient getAsyncClient() {
        if (kmsAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryPolicy(RetryPolicy.builder()
                    .numRetries(3)
                    .build())
                .build();

            kmsAsyncClient = KmsAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return kmsAsyncClient;
    }

    /**
     * Creates a new symmetric encryption key asynchronously.
     *
     * @param keyDesc the description of the key to be created
     * @return a {@link CompletableFuture} that completes with the ID of the newly created key
     * @throws RuntimeException if an error occurs while creating the key
     */
    public CompletableFuture<String> createKeyAsync(String keyDesc) {
        CreateKeyRequest keyRequest = CreateKeyRequest.builder()
            .description(keyDesc)
            .keySpec(KeySpec.SYMMETRIC_DEFAULT)
            .keyUsage(KeyUsageType.ENCRYPT_DECRYPT)
            .build();

        return getAsyncClient().createKey(keyRequest)
            .thenApply(resp -> resp.keyMetadata().keyId())
            .exceptionally(ex -> {
                throw new RuntimeException("An error occurred while creating the key: " + ex.getMessage(), ex);
            });
    }

    /**
     * Asynchronously checks if a specified key is enabled.
     *
     * @param keyId the ID of the key to check
     * @return a {@link CompletableFuture} that, when completed, indicates whether the key is enabled or not
     *
     * @throws RuntimeException if an exception occurs while checking the key state
     */
    public CompletableFuture<Boolean> isKeyEnabledAsync(String keyId) {
        DescribeKeyRequest keyRequest = DescribeKeyRequest.builder()
            .keyId(keyId)
            .build();

        CompletableFuture<DescribeKeyResponse> responseFuture = getAsyncClient().describeKey(keyRequest);
        return responseFuture.whenComplete((resp, ex) -> {
            if (resp != null) {
                KeyState keyState = resp.keyMetadata().keyState();
                if (keyState == KeyState.ENABLED) {
                    logger.info("The key is enabled.");
                } else {
                    logger.info("The key is not enabled. Key state: {}", keyState);
                }
            } else {
                throw new RuntimeException(ex);
            }
        }).thenApply(resp -> resp.keyMetadata().keyState() == KeyState.ENABLED);
    }

    /**
     * Asynchronously enables the specified key.
     *
     * @param keyId the ID of the key to enable
     * @return a {@link CompletableFuture} that completes when the key has been enabled
     */
    public CompletableFuture<Void> enableKeyAsync(String keyId) {
        EnableKeyRequest enableKeyRequest = EnableKeyRequest.builder()
            .keyId(keyId)
            .build();

        CompletableFuture<EnableKeyResponse> responseFuture = getAsyncClient().enableKey(enableKeyRequest);
        responseFuture.whenComplete((response, exception) -> {
            if (exception == null) {
                logger.info("Key with ID [{}] has been enabled.", keyId);
            } else {
                if (exception instanceof KmsException kmsEx) {
                    throw new RuntimeException("KMS error occurred while enabling key: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred while enabling key: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture.thenApply(response -> null);
    }

    /**
     * Encrypts the given text asynchronously using the specified KMS client and key ID.
     *
     * @param keyId the ID of the KMS key to use for encryption
     * @param text the text to encrypt
     * @return a CompletableFuture that completes with the encrypted data as an SdkBytes object
     */
    public CompletableFuture<SdkBytes> encryptDataAsync(String keyId, String text) {
        SdkBytes myBytes = SdkBytes.fromUtf8String(text);
        EncryptRequest encryptRequest = EncryptRequest.builder()
            .keyId(keyId)
            .plaintext(myBytes)
            .build();

        CompletableFuture<EncryptResponse> responseFuture = getAsyncClient().encrypt(encryptRequest).toCompletableFuture();
        return responseFuture.whenComplete((response, ex) -> {
            if (response != null) {
                String algorithm = response.encryptionAlgorithm().toString();
                logger.info("The string was encrypted with algorithm {}.", algorithm);
            } else {
                throw new RuntimeException(ex);
            }
        }).thenApply(EncryptResponse::ciphertextBlob);
    }

    /**
     * Creates a custom alias for the specified target key asynchronously.
     *
     * @param targetKeyId the ID of the target key for the alias
     * @param aliasName   the name of the alias to create
     * @return a {@link CompletableFuture} that completes when the alias creation operation is finished
     */
    public CompletableFuture<Void> createCustomAliasAsync(String targetKeyId, String aliasName) {
        CreateAliasRequest aliasRequest = CreateAliasRequest.builder()
            .aliasName(aliasName)
            .targetKeyId(targetKeyId)
            .build();

        CompletableFuture<CreateAliasResponse> responseFuture = getAsyncClient().createAlias(aliasRequest);
        responseFuture.whenComplete((response, exception) -> {
            if (exception == null) {
                logger.info("{} was successfully created.", aliasName);
            } else {
                if (exception instanceof ResourceExistsException) {
                    logger.info("Alias [{}] already exists. Moving on...", aliasName);
                } else if (exception instanceof KmsException kmsEx) {
                    throw new RuntimeException("KMS error occurred while creating alias: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred while creating alias: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture.thenApply(response -> null);
    }

    /**
     * Asynchronously lists all the aliases in the current AWS account.
     *
     * @return a {@link CompletableFuture} that completes when the list of aliases has been processed
     */
    public CompletableFuture<Object> listAllAliasesAsync() {
        ListAliasesRequest aliasesRequest = ListAliasesRequest.builder()
            .limit(15)
            .build();

        ListAliasesPublisher paginator = getAsyncClient().listAliasesPaginator(aliasesRequest);
        return paginator.subscribe(response -> {
                response.aliases().forEach(alias ->
                    logger.info("The alias name is: " + alias.aliasName())
                );
            })
            .thenApply(v -> null)
            .exceptionally(ex -> {
                if (ex.getCause() instanceof KmsException) {
                    KmsException e = (KmsException) ex.getCause();
                    throw new RuntimeException("A KMS exception occurred: " + e.getMessage());
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + ex.getMessage());
                }
            });
    }

    /**
     * Enables key rotation asynchronously for the specified key ID.
     *
     * @param keyId the ID of the key for which to enable key rotation
     * @return a CompletableFuture that represents the asynchronous operation of enabling key rotation
     * @throws RuntimeException if there was an error enabling key rotation, either due to a KMS exception or an unexpected error
     */
    public CompletableFuture<EnableKeyRotationResponse> enableKeyRotationAsync(String keyId) {
        EnableKeyRotationRequest enableKeyRotationRequest = EnableKeyRotationRequest.builder()
            .keyId(keyId)
            .build();

        CompletableFuture<EnableKeyRotationResponse> responseFuture = getAsyncClient().enableKeyRotation(enableKeyRotationRequest);
        responseFuture.whenComplete((response, exception) -> {
            if (exception == null) {
                logger.info("Key rotation has been enabled for key with id [{}]", keyId);
            } else {
                if (exception instanceof KmsException kmsEx) {
                    throw new RuntimeException("Failed to enable key rotation: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture;
    }

    /**
     * Grants permissions to a specified principal on a customer master key (CMK) asynchronously.
     *
     * @param keyId             The unique identifier for the customer master key (CMK) that the grant applies to.
     * @param granteePrincipal  The principal that is given permission to perform the operations that the grant permits on the CMK.
     * @return A {@link CompletableFuture} that, when completed, contains the ID of the created grant.
     * @throws RuntimeException If an error occurs during the grant creation process.
     */
    public CompletableFuture<String> grantKeyAsync(String keyId, String granteePrincipal) {
        List<GrantOperation> grantPermissions = List.of(
            GrantOperation.ENCRYPT,
            GrantOperation.DECRYPT,
            GrantOperation.DESCRIBE_KEY
        );

        CreateGrantRequest grantRequest = CreateGrantRequest.builder()
            .keyId(keyId)
            .name("grant1")
            .granteePrincipal(granteePrincipal)
            .operations(grantPermissions)
            .build();

        CompletableFuture<CreateGrantResponse> responseFuture = getAsyncClient().createGrant(grantRequest);
        responseFuture.whenComplete((response, ex) -> {
            if (ex == null) {
                logger.info("Grant created successfully with ID: " + response.grantId());
            } else {
                if (ex instanceof KmsException kmsEx) {
                    throw new RuntimeException("Failed to create grant: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + ex.getMessage(), ex);
                }
            }
        });

        return responseFuture.thenApply(CreateGrantResponse::grantId);
    }

    /**
     * Asynchronously displays the grant IDs for the specified key ID.
     *
     * @param keyId the ID of the AWS KMS key for which to list the grants
     * @return a {@link CompletableFuture} that, when completed, will be null if the operation succeeded, or will throw a {@link RuntimeException} if the operation failed
     * @throws RuntimeException if there was an error listing the grants, either due to an {@link KmsException} or an unexpected error
     */
    public CompletableFuture<Object> displayGrantIdsAsync(String keyId) {
        ListGrantsRequest grantsRequest = ListGrantsRequest.builder()
            .keyId(keyId)
            .limit(15)
            .build();

        ListGrantsPublisher paginator = getAsyncClient().listGrantsPaginator(grantsRequest);
        return paginator.subscribe(response -> {
                response.grants().forEach(grant -> {
                    logger.info("The grant Id is: " + grant.grantId());
                });
            })
            .thenApply(v -> null)
            .exceptionally(ex -> {
                Throwable cause = ex.getCause();
                if (cause instanceof KmsException) {
                    throw new RuntimeException("Failed to list grants: " + cause.getMessage(), cause);
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + cause.getMessage(), cause);
                }
            });
    }

    /**
     * Revokes a grant for the specified AWS KMS key asynchronously.
     *
     * @param keyId   The ID or key ARN of the AWS KMS key.
     * @param grantId The identifier of the grant to be revoked.
     * @return A {@link CompletableFuture} representing the asynchronous operation of revoking the grant.
     *         The {@link CompletableFuture} will complete with a {@link RevokeGrantResponse} object
     *         if the operation is successful, or with a {@code null} value if an error occurs.
     */
    public CompletableFuture<RevokeGrantResponse> revokeKeyGrantAsync(String keyId, String grantId) {
        RevokeGrantRequest grantRequest = RevokeGrantRequest.builder()
            .keyId(keyId)
            .grantId(grantId)
            .build();

        CompletableFuture<RevokeGrantResponse> responseFuture = getAsyncClient().revokeGrant(grantRequest);
        responseFuture.whenComplete((response, exception) -> {
            if (exception == null) {
                logger.info("Grant ID: [" + grantId + "] was successfully revoked!");
            } else {
                if (exception instanceof KmsException kmsEx) {
                    if (kmsEx.getMessage().contains("Grant does not exist")) {
                        logger.info("The grant ID '" + grantId + "' does not exist. Moving on...");
                    } else {
                        throw new RuntimeException("KMS error occurred: " + kmsEx.getMessage(), kmsEx);
                    }
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture;
    }


    /**
     * Asynchronously decrypts the given encrypted data using the specified key ID.
     *
     * @param encryptedData The encrypted data to be decrypted.
     * @param keyId The ID of the key to be used for decryption.
     * @return A CompletableFuture that, when completed, will contain the decrypted data as a String.
     *         If an error occurs during the decryption process, the CompletableFuture will complete
     *         exceptionally with the error, and the method will return an empty String.
     */
    public CompletableFuture<String> decryptDataAsync(SdkBytes encryptedData, String keyId) {
        DecryptRequest decryptRequest = DecryptRequest.builder()
            .ciphertextBlob(encryptedData)
            .keyId(keyId)
            .build();

        CompletableFuture<DecryptResponse> responseFuture = getAsyncClient().decrypt(decryptRequest);
        responseFuture.whenComplete((decryptResponse, exception) -> {
            if (exception == null) {
                logger.info("Data decrypted successfully for key ID: " + keyId);
            } else {
                if (exception instanceof KmsException kmsEx) {
                    throw new RuntimeException("KMS error occurred while decrypting data: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred while decrypting data: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture.thenApply(decryptResponse -> decryptResponse.plaintext().asString(StandardCharsets.UTF_8));
    }

    /**
     * Asynchronously replaces the policy for the specified KMS key.
     *
     * @param keyId       the ID of the KMS key to replace the policy for
     * @param policyName  the name of the policy to be replaced
     * @param accountId   the AWS account ID to be used in the policy
     * @return a {@link CompletableFuture} that completes with a boolean indicating
     *         whether the policy replacement was successful or not
     */
    public CompletableFuture<Boolean> replacePolicyAsync(String keyId, String policyName, String accountId) {
        String policy = """
    {
      "Version":"2012-10-17",		 	 	 
      "Statement": [{
        "Effect": "Allow",
        "Principal": {"AWS": "arn:aws:iam::%s:root"},
        "Action": "kms:*",
        "Resource": "*"
      }]
    }
    """.formatted(accountId);

        PutKeyPolicyRequest keyPolicyRequest = PutKeyPolicyRequest.builder()
            .keyId(keyId)
            .policyName(policyName)
            .policy(policy)
            .build();

        // First, get the current policy to check if it exists
        return getAsyncClient().getKeyPolicy(r -> r.keyId(keyId).policyName(policyName))
            .thenCompose(response -> {
                logger.info("Current policy exists. Replacing it...");
                return getAsyncClient().putKeyPolicy(keyPolicyRequest);
            })
            .thenApply(putPolicyResponse -> {
                logger.info("The key policy has been replaced.");
                return true;
            })
            .exceptionally(throwable -> {
                if (throwable.getCause() instanceof LimitExceededException) {
                    logger.error("Cannot replace policy, as only one policy is allowed per key.");
                    return false;
                }
                throw new RuntimeException("Error replacing policy", throwable);
            });
    }


    /**
     * Asynchronously retrieves the key policy for the specified key ID and policy name.
     *
     * @param keyId       the ID of the AWS KMS key for which to retrieve the policy
     * @param policyName the name of the key policy to retrieve
     * @return a {@link CompletableFuture} that, when completed, contains the key policy as a {@link String}
     */
    public CompletableFuture<String> getKeyPolicyAsync(String keyId, String policyName) {
        GetKeyPolicyRequest policyRequest = GetKeyPolicyRequest.builder()
            .keyId(keyId)
            .policyName(policyName)
            .build();

        return getAsyncClient().getKeyPolicy(policyRequest)
            .thenApply(response -> {
                String policy = response.policy();
                logger.info("The response is: " + policy);
                return policy;
            })
            .exceptionally(ex -> {
                throw new RuntimeException("Failed to get key policy", ex);
            });
    }

    /**
     * Asynchronously signs and verifies data using AWS KMS.
     *
     * <p>The method performs the following steps:
     * <ol>
     *     <li>Creates an AWS KMS key with the specified key spec, key usage, and origin.</li>
     *     <li>Signs the provided message using the created KMS key and the RSASSA-PSS-SHA-256 algorithm.</li>
     *     <li>Verifies the signature of the message using the created KMS key and the RSASSA-PSS-SHA-256 algorithm.</li>
     * </ol>
     *
     * @return a {@link CompletableFuture} that completes with the result of the signature verification,
     *         {@code true} if the signature is valid, {@code false} otherwise.
     * @throws KmsException if any error occurs during the KMS operations.
     * @throws RuntimeException if an unexpected error occurs.
     */
    public CompletableFuture<Boolean> signVerifyDataAsync() {
        String signMessage = "Here is the message that will be digitally signed";

        // Create an AWS KMS key used to digitally sign data.
        CreateKeyRequest createKeyRequest = CreateKeyRequest.builder()
            .keySpec(KeySpec.RSA_2048)
            .keyUsage(KeyUsageType.SIGN_VERIFY)
            .origin(OriginType.AWS_KMS)
            .build();

        return getAsyncClient().createKey(createKeyRequest)
            .thenCompose(createKeyResponse -> {
                String keyId = createKeyResponse.keyMetadata().keyId();

                SdkBytes messageBytes = SdkBytes.fromString(signMessage, Charset.defaultCharset());
                SignRequest signRequest = SignRequest.builder()
                    .keyId(keyId)
                    .message(messageBytes)
                    .signingAlgorithm(SigningAlgorithmSpec.RSASSA_PSS_SHA_256)
                    .build();

                return getAsyncClient().sign(signRequest)
                    .thenCompose(signResponse -> {
                        byte[] signedBytes = signResponse.signature().asByteArray();

                        VerifyRequest verifyRequest = VerifyRequest.builder()
                            .keyId(keyId)
                            .message(SdkBytes.fromByteArray(signMessage.getBytes(Charset.defaultCharset())))
                            .signature(SdkBytes.fromByteBuffer(ByteBuffer.wrap(signedBytes)))
                            .signingAlgorithm(SigningAlgorithmSpec.RSASSA_PSS_SHA_256)
                            .build();

                        return getAsyncClient().verify(verifyRequest)
                            .thenApply(verifyResponse -> {
                                return (boolean) verifyResponse.signatureValid();
                            });
                    });
            })
            .exceptionally(throwable -> {
               throw new RuntimeException("Failed to sign or verify data", throwable);
            });
    }

    /**
     * Asynchronously tags a KMS key with a specific tag.
     *
     * @param keyId the ID of the KMS key to be tagged
     * @return a {@link CompletableFuture} that completes when the tagging operation is finished
     */
    public CompletableFuture<Void> tagKMSKeyAsync(String keyId) {
        Tag tag = Tag.builder()
            .tagKey("Environment")
            .tagValue("Production")
            .build();

        TagResourceRequest tagResourceRequest = TagResourceRequest.builder()
            .keyId(keyId)
            .tags(tag)
            .build();

        return getAsyncClient().tagResource(tagResourceRequest)
            .thenRun(() -> {
                logger.info("{} key was tagged", keyId);
            })
            .exceptionally(throwable -> {
                throw new RuntimeException("Failed to tag the KMS key", throwable);
            });
    }

    /**
     * Deletes a specific KMS alias asynchronously.
     *
     * @param aliasName the name of the alias to be deleted
     * @return a {@link CompletableFuture} representing the asynchronous operation of deleting the specified alias
     */
    public CompletableFuture<Void> deleteSpecificAliasAsync(String aliasName) {
        DeleteAliasRequest deleteAliasRequest = DeleteAliasRequest.builder()
            .aliasName(aliasName)
            .build();

        return getAsyncClient().deleteAlias(deleteAliasRequest)
            .thenRun(() -> {
                logger.info("Alias {} has been deleted successfully", aliasName);
            })
            .exceptionally(throwable -> {
                throw new RuntimeException("Failed to delete alias: " + aliasName, throwable);
            });
    }

    /**
     * Asynchronously disables the specified AWS Key Management Service (KMS) key.
     *
     * @param keyId the ID or Amazon Resource Name (ARN) of the KMS key to be disabled
     * @return a CompletableFuture that, when completed, indicates that the key has been disabled successfully
     */
    public CompletableFuture<Void> disableKeyAsync(String keyId) {
        DisableKeyRequest keyRequest = DisableKeyRequest.builder()
            .keyId(keyId)
            .build();

        return getAsyncClient().disableKey(keyRequest)
            .thenRun(() -> {
                logger.info("Key {} has been disabled successfully",keyId);
            })
            .exceptionally(throwable -> {
                throw new RuntimeException("Failed to disable key: " + keyId, throwable);
            });
    }

    /**
     * Deletes a KMS key asynchronously.
     *
     * <p><strong>Warning:</strong> Deleting a KMS key is a destructive and potentially dangerous operation.
     * When a KMS key is deleted, all data that was encrypted under the KMS key becomes unrecoverable.
     * This means that any files, databases, or other data that were encrypted using the deleted KMS key
     * will become permanently inaccessible. Exercise extreme caution when deleting KMS keys.</p>
     *
     * @param keyId the ID of the KMS key to delete
     * @return a {@link CompletableFuture} that completes when the key deletion is scheduled
     */
    public CompletableFuture<Void> deleteKeyAsync(String keyId) {
        ScheduleKeyDeletionRequest deletionRequest = ScheduleKeyDeletionRequest.builder()
            .keyId(keyId)
            .pendingWindowInDays(7)
            .build();

        return getAsyncClient().scheduleKeyDeletion(deletionRequest)
            .thenRun(() -> {
                logger.info("Key {} will be deleted in 7 days", keyId);
            })
            .exceptionally(throwable -> {
                throw new RuntimeException("Failed to schedule key deletion for key ID: " + keyId, throwable);
            });
    }


    public String getAccountId(){
        try (StsClient stsClient = StsClient.create()){
            GetCallerIdentityResponse callerIdentity = stsClient.getCallerIdentity();
            return callerIdentity.account();
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateAlias](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/CreateAlias)
  + [CreateGrant](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/CreateGrant)
  + [CreateKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/CreateKey)
  + [Dekripsi](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/Decrypt)
  + [DescribeKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/DescribeKey)
  + [DisableKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/DisableKey)
  + [EnableKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/EnableKey)
  + [Enkripsi](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/Encrypt)
  + [GetKeyPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/GetKeyPolicy)
  + [ListAliases](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ListAliases)
  + [ListGrants](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ListGrants)
  + [ListKeys](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ListKeys)
  + [RevokeGrant](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/RevokeGrant)
  + [ScheduleKeyDeletion](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ScheduleKeyDeletion)
  + [Tanda](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/Sign)
  + [TagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/TagResource)

## Tindakan
<a name="actions"></a>

### `CreateAlias`
<a name="kms_CreateAlias_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAlias`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Creates a custom alias for the specified target key asynchronously.
     *
     * @param targetKeyId the ID of the target key for the alias
     * @param aliasName   the name of the alias to create
     * @return a {@link CompletableFuture} that completes when the alias creation operation is finished
     */
    public CompletableFuture<Void> createCustomAliasAsync(String targetKeyId, String aliasName) {
        CreateAliasRequest aliasRequest = CreateAliasRequest.builder()
            .aliasName(aliasName)
            .targetKeyId(targetKeyId)
            .build();

        CompletableFuture<CreateAliasResponse> responseFuture = getAsyncClient().createAlias(aliasRequest);
        responseFuture.whenComplete((response, exception) -> {
            if (exception == null) {
                logger.info("{} was successfully created.", aliasName);
            } else {
                if (exception instanceof ResourceExistsException) {
                    logger.info("Alias [{}] already exists. Moving on...", aliasName);
                } else if (exception instanceof KmsException kmsEx) {
                    throw new RuntimeException("KMS error occurred while creating alias: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred while creating alias: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture.thenApply(response -> null);
    }
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/CreateAlias)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateGrant`
<a name="kms_CreateGrant_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGrant`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Grants permissions to a specified principal on a customer master key (CMK) asynchronously.
     *
     * @param keyId             The unique identifier for the customer master key (CMK) that the grant applies to.
     * @param granteePrincipal  The principal that is given permission to perform the operations that the grant permits on the CMK.
     * @return A {@link CompletableFuture} that, when completed, contains the ID of the created grant.
     * @throws RuntimeException If an error occurs during the grant creation process.
     */
    public CompletableFuture<String> grantKeyAsync(String keyId, String granteePrincipal) {
        List<GrantOperation> grantPermissions = List.of(
            GrantOperation.ENCRYPT,
            GrantOperation.DECRYPT,
            GrantOperation.DESCRIBE_KEY
        );

        CreateGrantRequest grantRequest = CreateGrantRequest.builder()
            .keyId(keyId)
            .name("grant1")
            .granteePrincipal(granteePrincipal)
            .operations(grantPermissions)
            .build();

        CompletableFuture<CreateGrantResponse> responseFuture = getAsyncClient().createGrant(grantRequest);
        responseFuture.whenComplete((response, ex) -> {
            if (ex == null) {
                logger.info("Grant created successfully with ID: " + response.grantId());
            } else {
                if (ex instanceof KmsException kmsEx) {
                    throw new RuntimeException("Failed to create grant: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + ex.getMessage(), ex);
                }
            }
        });

        return responseFuture.thenApply(CreateGrantResponse::grantId);
    }
```
+  Untuk detail API, lihat [CreateGrant](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/CreateGrant)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateKey`
<a name="kms_CreateKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Creates a new symmetric encryption key asynchronously.
     *
     * @param keyDesc the description of the key to be created
     * @return a {@link CompletableFuture} that completes with the ID of the newly created key
     * @throws RuntimeException if an error occurs while creating the key
     */
    public CompletableFuture<String> createKeyAsync(String keyDesc) {
        CreateKeyRequest keyRequest = CreateKeyRequest.builder()
            .description(keyDesc)
            .keySpec(KeySpec.SYMMETRIC_DEFAULT)
            .keyUsage(KeyUsageType.ENCRYPT_DECRYPT)
            .build();

        return getAsyncClient().createKey(keyRequest)
            .thenApply(resp -> resp.keyMetadata().keyId())
            .exceptionally(ex -> {
                throw new RuntimeException("An error occurred while creating the key: " + ex.getMessage(), ex);
            });
    }
```
+  Untuk detail API, lihat [CreateKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/CreateKey)di *Referensi AWS SDK for Java 2.x API*. 

### `Decrypt`
<a name="kms_Decrypt_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Decrypt`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously decrypts the given encrypted data using the specified key ID.
     *
     * @param encryptedData The encrypted data to be decrypted.
     * @param keyId The ID of the key to be used for decryption.
     * @return A CompletableFuture that, when completed, will contain the decrypted data as a String.
     *         If an error occurs during the decryption process, the CompletableFuture will complete
     *         exceptionally with the error, and the method will return an empty String.
     */
    public CompletableFuture<String> decryptDataAsync(SdkBytes encryptedData, String keyId) {
        DecryptRequest decryptRequest = DecryptRequest.builder()
            .ciphertextBlob(encryptedData)
            .keyId(keyId)
            .build();

        CompletableFuture<DecryptResponse> responseFuture = getAsyncClient().decrypt(decryptRequest);
        responseFuture.whenComplete((decryptResponse, exception) -> {
            if (exception == null) {
                logger.info("Data decrypted successfully for key ID: " + keyId);
            } else {
                if (exception instanceof KmsException kmsEx) {
                    throw new RuntimeException("KMS error occurred while decrypting data: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred while decrypting data: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture.thenApply(decryptResponse -> decryptResponse.plaintext().asString(StandardCharsets.UTF_8));
    }
```
+  Untuk detail API, lihat [Mendekripsi](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/Decrypt) di Referensi *AWS SDK for Java 2.x API*. 

### `DeleteAlias`
<a name="kms_DeleteAlias_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlias`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Deletes a specific KMS alias asynchronously.
     *
     * @param aliasName the name of the alias to be deleted
     * @return a {@link CompletableFuture} representing the asynchronous operation of deleting the specified alias
     */
    public CompletableFuture<Void> deleteSpecificAliasAsync(String aliasName) {
        DeleteAliasRequest deleteAliasRequest = DeleteAliasRequest.builder()
            .aliasName(aliasName)
            .build();

        return getAsyncClient().deleteAlias(deleteAliasRequest)
            .thenRun(() -> {
                logger.info("Alias {} has been deleted successfully", aliasName);
            })
            .exceptionally(throwable -> {
                throw new RuntimeException("Failed to delete alias: " + aliasName, throwable);
            });
    }
```
+  Untuk detail API, lihat [DeleteAlias](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/DeleteAlias)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeKey`
<a name="kms_DescribeKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously checks if a specified key is enabled.
     *
     * @param keyId the ID of the key to check
     * @return a {@link CompletableFuture} that, when completed, indicates whether the key is enabled or not
     *
     * @throws RuntimeException if an exception occurs while checking the key state
     */
    public CompletableFuture<Boolean> isKeyEnabledAsync(String keyId) {
        DescribeKeyRequest keyRequest = DescribeKeyRequest.builder()
            .keyId(keyId)
            .build();

        CompletableFuture<DescribeKeyResponse> responseFuture = getAsyncClient().describeKey(keyRequest);
        return responseFuture.whenComplete((resp, ex) -> {
            if (resp != null) {
                KeyState keyState = resp.keyMetadata().keyState();
                if (keyState == KeyState.ENABLED) {
                    logger.info("The key is enabled.");
                } else {
                    logger.info("The key is not enabled. Key state: {}", keyState);
                }
            } else {
                throw new RuntimeException(ex);
            }
        }).thenApply(resp -> resp.keyMetadata().keyState() == KeyState.ENABLED);
    }
```
+  Untuk detail API, lihat [DescribeKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/DescribeKey)di *Referensi AWS SDK for Java 2.x API*. 

### `DisableKey`
<a name="kms_DisableKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously disables the specified AWS Key Management Service (KMS) key.
     *
     * @param keyId the ID or Amazon Resource Name (ARN) of the KMS key to be disabled
     * @return a CompletableFuture that, when completed, indicates that the key has been disabled successfully
     */
    public CompletableFuture<Void> disableKeyAsync(String keyId) {
        DisableKeyRequest keyRequest = DisableKeyRequest.builder()
            .keyId(keyId)
            .build();

        return getAsyncClient().disableKey(keyRequest)
            .thenRun(() -> {
                logger.info("Key {} has been disabled successfully",keyId);
            })
            .exceptionally(throwable -> {
                throw new RuntimeException("Failed to disable key: " + keyId, throwable);
            });
    }
```
+  Untuk detail API, lihat [DisableKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/DisableKey)di *Referensi AWS SDK for Java 2.x API*. 

### `EnableKey`
<a name="kms_EnableKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously enables the specified key.
     *
     * @param keyId the ID of the key to enable
     * @return a {@link CompletableFuture} that completes when the key has been enabled
     */
    public CompletableFuture<Void> enableKeyAsync(String keyId) {
        EnableKeyRequest enableKeyRequest = EnableKeyRequest.builder()
            .keyId(keyId)
            .build();

        CompletableFuture<EnableKeyResponse> responseFuture = getAsyncClient().enableKey(enableKeyRequest);
        responseFuture.whenComplete((response, exception) -> {
            if (exception == null) {
                logger.info("Key with ID [{}] has been enabled.", keyId);
            } else {
                if (exception instanceof KmsException kmsEx) {
                    throw new RuntimeException("KMS error occurred while enabling key: " + kmsEx.getMessage(), kmsEx);
                } else {
                    throw new RuntimeException("An unexpected error occurred while enabling key: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture.thenApply(response -> null);
    }
```
+  Untuk detail API, lihat [EnableKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/EnableKey)di *Referensi AWS SDK for Java 2.x API*. 

### `Encrypt`
<a name="kms_Encrypt_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Encrypt`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Encrypts the given text asynchronously using the specified KMS client and key ID.
     *
     * @param keyId the ID of the KMS key to use for encryption
     * @param text the text to encrypt
     * @return a CompletableFuture that completes with the encrypted data as an SdkBytes object
     */
    public CompletableFuture<SdkBytes> encryptDataAsync(String keyId, String text) {
        SdkBytes myBytes = SdkBytes.fromUtf8String(text);
        EncryptRequest encryptRequest = EncryptRequest.builder()
            .keyId(keyId)
            .plaintext(myBytes)
            .build();

        CompletableFuture<EncryptResponse> responseFuture = getAsyncClient().encrypt(encryptRequest).toCompletableFuture();
        return responseFuture.whenComplete((response, ex) -> {
            if (response != null) {
                String algorithm = response.encryptionAlgorithm().toString();
                logger.info("The string was encrypted with algorithm {}.", algorithm);
            } else {
                throw new RuntimeException(ex);
            }
        }).thenApply(EncryptResponse::ciphertextBlob);
    }
```
+  Untuk detail API, lihat [Enkripsi](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/Encrypt) di *Referensi AWS SDK for Java 2.x API*. 

### `ListAliases`
<a name="kms_ListAliases_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAliases`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously lists all the aliases in the current AWS account.
     *
     * @return a {@link CompletableFuture} that completes when the list of aliases has been processed
     */
    public CompletableFuture<Object> listAllAliasesAsync() {
        ListAliasesRequest aliasesRequest = ListAliasesRequest.builder()
            .limit(15)
            .build();

        ListAliasesPublisher paginator = getAsyncClient().listAliasesPaginator(aliasesRequest);
        return paginator.subscribe(response -> {
                response.aliases().forEach(alias ->
                    logger.info("The alias name is: " + alias.aliasName())
                );
            })
            .thenApply(v -> null)
            .exceptionally(ex -> {
                if (ex.getCause() instanceof KmsException) {
                    KmsException e = (KmsException) ex.getCause();
                    throw new RuntimeException("A KMS exception occurred: " + e.getMessage());
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + ex.getMessage());
                }
            });
    }
```
+  Untuk detail API, lihat [ListAliases](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ListAliases)di *Referensi AWS SDK for Java 2.x API*. 

### `ListGrants`
<a name="kms_ListGrants_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGrants`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously displays the grant IDs for the specified key ID.
     *
     * @param keyId the ID of the AWS KMS key for which to list the grants
     * @return a {@link CompletableFuture} that, when completed, will be null if the operation succeeded, or will throw a {@link RuntimeException} if the operation failed
     * @throws RuntimeException if there was an error listing the grants, either due to an {@link KmsException} or an unexpected error
     */
    public CompletableFuture<Object> displayGrantIdsAsync(String keyId) {
        ListGrantsRequest grantsRequest = ListGrantsRequest.builder()
            .keyId(keyId)
            .limit(15)
            .build();

        ListGrantsPublisher paginator = getAsyncClient().listGrantsPaginator(grantsRequest);
        return paginator.subscribe(response -> {
                response.grants().forEach(grant -> {
                    logger.info("The grant Id is: " + grant.grantId());
                });
            })
            .thenApply(v -> null)
            .exceptionally(ex -> {
                Throwable cause = ex.getCause();
                if (cause instanceof KmsException) {
                    throw new RuntimeException("Failed to list grants: " + cause.getMessage(), cause);
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + cause.getMessage(), cause);
                }
            });
    }
```
+  Untuk detail API, lihat [ListGrants](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ListGrants)di *Referensi AWS SDK for Java 2.x API*. 

### `ListKeyPolicies`
<a name="kms_ListKeyPolicies_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeyPolicies`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously retrieves the key policy for the specified key ID and policy name.
     *
     * @param keyId       the ID of the AWS KMS key for which to retrieve the policy
     * @param policyName the name of the key policy to retrieve
     * @return a {@link CompletableFuture} that, when completed, contains the key policy as a {@link String}
     */
    public CompletableFuture<String> getKeyPolicyAsync(String keyId, String policyName) {
        GetKeyPolicyRequest policyRequest = GetKeyPolicyRequest.builder()
            .keyId(keyId)
            .policyName(policyName)
            .build();

        return getAsyncClient().getKeyPolicy(policyRequest)
            .thenApply(response -> {
                String policy = response.policy();
                logger.info("The response is: " + policy);
                return policy;
            })
            .exceptionally(ex -> {
                throw new RuntimeException("Failed to get key policy", ex);
            });
    }
```
+  Untuk detail API, lihat [ListKeyPolicies](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ListKeyPolicies)di *Referensi AWS SDK for Java 2.x API*. 

### `ListKeys`
<a name="kms_ListKeys_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeys`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
import software.amazon.awssdk.services.kms.KmsAsyncClient;
import software.amazon.awssdk.services.kms.model.ListKeysRequest;
import software.amazon.awssdk.services.kms.paginators.ListKeysPublisher;
import java.util.concurrent.CompletableFuture;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloKMS {
    public static void main(String[] args) {
        listAllKeys();
    }

    public static void listAllKeys() {
        KmsAsyncClient kmsAsyncClient = KmsAsyncClient.builder()
            .build();
        ListKeysRequest listKeysRequest = ListKeysRequest.builder()
            .limit(15)
            .build();

        /*
         * The `subscribe` method is required when using paginator methods in the AWS SDK
         * because paginator methods return an instance of a `ListKeysPublisher`, which is
         * based on a reactive stream. This allows asynchronous retrieval of paginated
         * results as they become available. By subscribing to the stream, we can process
         * each page of results as they are emitted.
         */
        ListKeysPublisher keysPublisher = kmsAsyncClient.listKeysPaginator(listKeysRequest);
        CompletableFuture<Void> future = keysPublisher
            .subscribe(r -> r.keys().forEach(key ->
                System.out.println("The key ARN is: " + key.keyArn() + ". The key Id is: " + key.keyId())))
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    System.err.println("Error occurred: " + exception.getMessage());
                } else {
                    System.out.println("Successfully listed all keys.");
                }
            });

        try {
            future.join();
        } catch (Exception e) {
            System.err.println("Failed to list keys: " + e.getMessage());
        }
    }
}
```
+  Untuk detail API, lihat [ListKeys](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ListKeys)di *Referensi AWS SDK for Java 2.x API*. 

### `RevokeGrant`
<a name="kms_RevokeGrant_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RevokeGrant`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Revokes a grant for the specified AWS KMS key asynchronously.
     *
     * @param keyId   The ID or key ARN of the AWS KMS key.
     * @param grantId The identifier of the grant to be revoked.
     * @return A {@link CompletableFuture} representing the asynchronous operation of revoking the grant.
     *         The {@link CompletableFuture} will complete with a {@link RevokeGrantResponse} object
     *         if the operation is successful, or with a {@code null} value if an error occurs.
     */
    public CompletableFuture<RevokeGrantResponse> revokeKeyGrantAsync(String keyId, String grantId) {
        RevokeGrantRequest grantRequest = RevokeGrantRequest.builder()
            .keyId(keyId)
            .grantId(grantId)
            .build();

        CompletableFuture<RevokeGrantResponse> responseFuture = getAsyncClient().revokeGrant(grantRequest);
        responseFuture.whenComplete((response, exception) -> {
            if (exception == null) {
                logger.info("Grant ID: [" + grantId + "] was successfully revoked!");
            } else {
                if (exception instanceof KmsException kmsEx) {
                    if (kmsEx.getMessage().contains("Grant does not exist")) {
                        logger.info("The grant ID '" + grantId + "' does not exist. Moving on...");
                    } else {
                        throw new RuntimeException("KMS error occurred: " + kmsEx.getMessage(), kmsEx);
                    }
                } else {
                    throw new RuntimeException("An unexpected error occurred: " + exception.getMessage(), exception);
                }
            }
        });

        return responseFuture;
    }
```
+  Untuk detail API, lihat [RevokeGrant](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/RevokeGrant)di *Referensi AWS SDK for Java 2.x API*. 

### `ScheduleKeyDeletion`
<a name="kms_ScheduleKeyDeletion_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ScheduleKeyDeletion`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Deletes a KMS key asynchronously.
     *
     * <p><strong>Warning:</strong> Deleting a KMS key is a destructive and potentially dangerous operation.
     * When a KMS key is deleted, all data that was encrypted under the KMS key becomes unrecoverable.
     * This means that any files, databases, or other data that were encrypted using the deleted KMS key
     * will become permanently inaccessible. Exercise extreme caution when deleting KMS keys.</p>
     *
     * @param keyId the ID of the KMS key to delete
     * @return a {@link CompletableFuture} that completes when the key deletion is scheduled
     */
    public CompletableFuture<Void> deleteKeyAsync(String keyId) {
        ScheduleKeyDeletionRequest deletionRequest = ScheduleKeyDeletionRequest.builder()
            .keyId(keyId)
            .pendingWindowInDays(7)
            .build();

        return getAsyncClient().scheduleKeyDeletion(deletionRequest)
            .thenRun(() -> {
                logger.info("Key {} will be deleted in 7 days", keyId);
            })
            .exceptionally(throwable -> {
                throw new RuntimeException("Failed to schedule key deletion for key ID: " + keyId, throwable);
            });
    }
```
+  Untuk detail API, lihat [ScheduleKeyDeletion](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/ScheduleKeyDeletion)di *Referensi AWS SDK for Java 2.x API*. 

### `Sign`
<a name="kms_Sign_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Sign`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously signs and verifies data using AWS KMS.
     *
     * <p>The method performs the following steps:
     * <ol>
     *     <li>Creates an AWS KMS key with the specified key spec, key usage, and origin.</li>
     *     <li>Signs the provided message using the created KMS key and the RSASSA-PSS-SHA-256 algorithm.</li>
     *     <li>Verifies the signature of the message using the created KMS key and the RSASSA-PSS-SHA-256 algorithm.</li>
     * </ol>
     *
     * @return a {@link CompletableFuture} that completes with the result of the signature verification,
     *         {@code true} if the signature is valid, {@code false} otherwise.
     * @throws KmsException if any error occurs during the KMS operations.
     * @throws RuntimeException if an unexpected error occurs.
     */
    public CompletableFuture<Boolean> signVerifyDataAsync() {
        String signMessage = "Here is the message that will be digitally signed";

        // Create an AWS KMS key used to digitally sign data.
        CreateKeyRequest createKeyRequest = CreateKeyRequest.builder()
            .keySpec(KeySpec.RSA_2048)
            .keyUsage(KeyUsageType.SIGN_VERIFY)
            .origin(OriginType.AWS_KMS)
            .build();

        return getAsyncClient().createKey(createKeyRequest)
            .thenCompose(createKeyResponse -> {
                String keyId = createKeyResponse.keyMetadata().keyId();

                SdkBytes messageBytes = SdkBytes.fromString(signMessage, Charset.defaultCharset());
                SignRequest signRequest = SignRequest.builder()
                    .keyId(keyId)
                    .message(messageBytes)
                    .signingAlgorithm(SigningAlgorithmSpec.RSASSA_PSS_SHA_256)
                    .build();

                return getAsyncClient().sign(signRequest)
                    .thenCompose(signResponse -> {
                        byte[] signedBytes = signResponse.signature().asByteArray();

                        VerifyRequest verifyRequest = VerifyRequest.builder()
                            .keyId(keyId)
                            .message(SdkBytes.fromByteArray(signMessage.getBytes(Charset.defaultCharset())))
                            .signature(SdkBytes.fromByteBuffer(ByteBuffer.wrap(signedBytes)))
                            .signingAlgorithm(SigningAlgorithmSpec.RSASSA_PSS_SHA_256)
                            .build();

                        return getAsyncClient().verify(verifyRequest)
                            .thenApply(verifyResponse -> {
                                return (boolean) verifyResponse.signatureValid();
                            });
                    });
            })
            .exceptionally(throwable -> {
               throw new RuntimeException("Failed to sign or verify data", throwable);
            });
    }
```
+  Untuk detail API, lihat *Referensi AWS SDK for Java 2.x API* [Masuk](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/Sign). 

### `TagResource`
<a name="kms_TagResource_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/kms#code-examples). 

```
    /**
     * Asynchronously tags a KMS key with a specific tag.
     *
     * @param keyId the ID of the KMS key to be tagged
     * @return a {@link CompletableFuture} that completes when the tagging operation is finished
     */
    public CompletableFuture<Void> tagKMSKeyAsync(String keyId) {
        Tag tag = Tag.builder()
            .tagKey("Environment")
            .tagValue("Production")
            .build();

        TagResourceRequest tagResourceRequest = TagResourceRequest.builder()
            .keyId(keyId)
            .tags(tag)
            .build();

        return getAsyncClient().tagResource(tagResourceRequest)
            .thenRun(() -> {
                logger.info("{} key was tagged", keyId);
            })
            .exceptionally(throwable -> {
                throw new RuntimeException("Failed to tag the KMS key", throwable);
            });
    }
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/kms-2014-11-01/TagResource)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Lambda menggunakan SDK for Java 2.x
<a name="java_2_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Lambda AWS SDK for Java 2.x with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Memulai
<a name="get_started"></a>

### Halo Lambda
<a name="lambda_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Lambda.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/lambda#code-examples). 

```
    /**
     * Lists the AWS Lambda functions associated with the current AWS account.
     *
     * @param awsLambda an instance of the {@link LambdaClient} class, which is used to interact with the AWS Lambda service
     *
     * @throws LambdaException if an error occurs while interacting with the AWS Lambda service
     */
    public static void listFunctions(LambdaClient awsLambda) {
        try {
            ListFunctionsResponse functionResult = awsLambda.listFunctions();
            List<FunctionConfiguration> list = functionResult.functions();
            for (FunctionConfiguration config : list) {
                System.out.println("The function name is " + config.functionName());
            }

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/ListFunctions)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/lambda#code-examples). 

```
/*
 *  Lambda function names appear as:
 *
 *  arn:aws:lambda:us-west-2:335556666777:function:HelloFunction
 *
 *  To find this value, look at the function in the AWS Management Console.
 *
 *  Before running this Java code example, set up your development environment, including your credentials.
 *
 *  For more information, see this documentation topic:
 *
 *  https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 *  This example performs the following tasks:
 *
 * 1. Creates an AWS Lambda function.
 * 2. Gets a specific AWS Lambda function.
 * 3. Lists all Lambda functions.
 * 4. Invokes a Lambda function.
 * 5. Updates the Lambda function code and invokes it again.
 * 6. Updates a Lambda function's configuration value.
 * 7. Deletes a Lambda function.
 */

public class LambdaScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws InterruptedException {
        final String usage = """

            Usage:
                <functionName> <role> <handler> <bucketName> <key>\s

            Where:
                functionName - The name of the Lambda function.\s
                role - The AWS Identity and Access Management (IAM) service role that has Lambda permissions.\s
                handler - The fully qualified method name (for example, example.Handler::handleRequest).\s
                bucketName - The Amazon Simple Storage Service (Amazon S3) bucket name that contains the .zip or .jar used to update the Lambda function's code.\s
                key - The Amazon S3 key name that represents the .zip or .jar (for example, LambdaHello-1.0-SNAPSHOT.jar).
                """;

        if (args.length != 5) {
              System.out.println(usage);
              return;
        }

        String functionName = args[0];
        String role = args[1];
        String handler = args[2];
        String bucketName = args[3];
        String key = args[4];
        LambdaClient awsLambda = LambdaClient.builder()
            .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the AWS Lambda Basics scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. Create an AWS Lambda function.");
        String funArn = createLambdaFunction(awsLambda, functionName, key, bucketName, role, handler);
        System.out.println("The AWS Lambda ARN is " + funArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Get the " + functionName + " AWS Lambda function.");
        getFunction(awsLambda, functionName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. List all AWS Lambda functions.");
        listFunctions(awsLambda);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Invoke the Lambda function.");
        System.out.println("*** Sleep for 1 min to get Lambda function ready.");
        Thread.sleep(60000);
        invokeFunction(awsLambda, functionName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Update the Lambda function code and invoke it again.");
        updateFunctionCode(awsLambda, functionName, bucketName, key);
        System.out.println("*** Sleep for 1 min to get Lambda function ready.");
        Thread.sleep(60000);
        invokeFunction(awsLambda, functionName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Update a Lambda function's configuration value.");
        updateFunctionConfiguration(awsLambda, functionName, handler);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Delete the AWS Lambda function.");
        LambdaScenario.deleteLambdaFunction(awsLambda, functionName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The AWS Lambda scenario completed successfully");
        System.out.println(DASHES);
        awsLambda.close();
    }

    /**
     * Creates a new Lambda function in AWS using the AWS Lambda Java API.
     *
     * @param awsLambda    the AWS Lambda client used to interact with the AWS Lambda service
     * @param functionName the name of the Lambda function to create
     * @param key          the S3 key of the function code
     * @param bucketName   the name of the S3 bucket containing the function code
     * @param role         the IAM role to assign to the Lambda function
     * @param handler      the fully qualified class name of the function handler
     * @return the Amazon Resource Name (ARN) of the created Lambda function
     */
    public static String createLambdaFunction(LambdaClient awsLambda,
                                              String functionName,
                                              String key,
                                              String bucketName,
                                              String role,
                                              String handler) {

        try {
            LambdaWaiter waiter = awsLambda.waiter();
            FunctionCode code = FunctionCode.builder()
                .s3Key(key)
                .s3Bucket(bucketName)
                .build();

            CreateFunctionRequest functionRequest = CreateFunctionRequest.builder()
                .functionName(functionName)
                .description("Created by the Lambda Java API")
                .code(code)
                .handler(handler)
                .runtime(Runtime.JAVA17)
                .role(role)
                .build();

            // Create a Lambda function using a waiter
            CreateFunctionResponse functionResponse = awsLambda.createFunction(functionRequest);
            GetFunctionRequest getFunctionRequest = GetFunctionRequest.builder()
                .functionName(functionName)
                .build();
            WaiterResponse<GetFunctionResponse> waiterResponse = waiter.waitUntilFunctionExists(getFunctionRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            return functionResponse.functionArn();

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }

    /**
     * Retrieves information about an AWS Lambda function.
     *
     * @param awsLambda    an instance of the {@link LambdaClient} class, which is used to interact with the AWS Lambda service
     * @param functionName the name of the AWS Lambda function to retrieve information about
     */
    public static void getFunction(LambdaClient awsLambda, String functionName) {
        try {
            GetFunctionRequest functionRequest = GetFunctionRequest.builder()
                .functionName(functionName)
                .build();

            GetFunctionResponse response = awsLambda.getFunction(functionRequest);
            System.out.println("The runtime of this Lambda function is " + response.configuration().runtime());

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Lists the AWS Lambda functions associated with the current AWS account.
     *
     * @param awsLambda an instance of the {@link LambdaClient} class, which is used to interact with the AWS Lambda service
     *
     * @throws LambdaException if an error occurs while interacting with the AWS Lambda service
     */
    public static void listFunctions(LambdaClient awsLambda) {
        try {
            ListFunctionsResponse functionResult = awsLambda.listFunctions();
            List<FunctionConfiguration> list = functionResult.functions();
            for (FunctionConfiguration config : list) {
                System.out.println("The function name is " + config.functionName());
            }

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Invokes a specific AWS Lambda function.
     *
     * @param awsLambda    an instance of {@link LambdaClient} to interact with the AWS Lambda service
     * @param functionName the name of the AWS Lambda function to be invoked
     */
    public static void invokeFunction(LambdaClient awsLambda, String functionName) {
        InvokeResponse res;
        try {
            // Need a SdkBytes instance for the payload.
            JSONObject jsonObj = new JSONObject();
            jsonObj.put("inputValue", "2000");
            String json = jsonObj.toString();
            SdkBytes payload = SdkBytes.fromUtf8String(json);

            InvokeRequest request = InvokeRequest.builder()
                .functionName(functionName)
                .payload(payload)
                .build();

            res = awsLambda.invoke(request);
            String value = res.payload().asUtf8String();
            System.out.println(value);

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Updates the code for an AWS Lambda function.
     *
     * @param awsLambda  the AWS Lambda client
     * @param functionName the name of the Lambda function to update
     * @param bucketName the name of the S3 bucket where the function code is located
     * @param key the key (file name) of the function code in the S3 bucket
     * @throws LambdaException if there is an error updating the function code
     */
    public static void updateFunctionCode(LambdaClient awsLambda, String functionName, String bucketName, String key) {
        try {
            LambdaWaiter waiter = awsLambda.waiter();
            UpdateFunctionCodeRequest functionCodeRequest = UpdateFunctionCodeRequest.builder()
                .functionName(functionName)
                .publish(true)
                .s3Bucket(bucketName)
                .s3Key(key)
                .build();

            UpdateFunctionCodeResponse response = awsLambda.updateFunctionCode(functionCodeRequest);
            GetFunctionConfigurationRequest getFunctionConfigRequest = GetFunctionConfigurationRequest.builder()
                .functionName(functionName)
                .build();

            WaiterResponse<GetFunctionConfigurationResponse> waiterResponse = waiter
                .waitUntilFunctionUpdated(getFunctionConfigRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("The last modified value is " + response.lastModified());

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Updates the configuration of an AWS Lambda function.
     *
     * @param awsLambda     the {@link LambdaClient} instance to use for the AWS Lambda operation
     * @param functionName  the name of the AWS Lambda function to update
     * @param handler       the new handler for the AWS Lambda function
     *
     * @throws LambdaException if there is an error while updating the function configuration
     */
    public static void updateFunctionConfiguration(LambdaClient awsLambda, String functionName, String handler) {
        try {
            UpdateFunctionConfigurationRequest configurationRequest = UpdateFunctionConfigurationRequest.builder()
                .functionName(functionName)
                .handler(handler)
                .runtime(Runtime.JAVA17)
                .build();

            awsLambda.updateFunctionConfiguration(configurationRequest);

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Deletes an AWS Lambda function.
     *
     * @param awsLambda     an instance of the {@link LambdaClient} class, which is used to interact with the AWS Lambda service
     * @param functionName  the name of the Lambda function to be deleted
     *
     * @throws LambdaException if an error occurs while deleting the Lambda function
     */
    public static void deleteLambdaFunction(LambdaClient awsLambda, String functionName) {
        try {
            DeleteFunctionRequest request = DeleteFunctionRequest.builder()
                .functionName(functionName)
                .build();

            awsLambda.deleteFunction(request);
            System.out.println("The " + functionName + " function was deleted");

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateFunction](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/CreateFunction)
  + [DeleteFunction](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/DeleteFunction)
  + [GetFunction](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/GetFunction)
  + [Memohon](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/Invoke)
  + [ListFunctions](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/ListFunctions)
  + [UpdateFunctionCode](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/UpdateFunctionCode)
  + [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/UpdateFunctionConfiguration)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/lambda#code-examples). 

```
    /**
     * Creates a new Lambda function in AWS using the AWS Lambda Java API.
     *
     * @param awsLambda    the AWS Lambda client used to interact with the AWS Lambda service
     * @param functionName the name of the Lambda function to create
     * @param key          the S3 key of the function code
     * @param bucketName   the name of the S3 bucket containing the function code
     * @param role         the IAM role to assign to the Lambda function
     * @param handler      the fully qualified class name of the function handler
     * @return the Amazon Resource Name (ARN) of the created Lambda function
     */
    public static String createLambdaFunction(LambdaClient awsLambda,
                                              String functionName,
                                              String key,
                                              String bucketName,
                                              String role,
                                              String handler) {

        try {
            LambdaWaiter waiter = awsLambda.waiter();
            FunctionCode code = FunctionCode.builder()
                .s3Key(key)
                .s3Bucket(bucketName)
                .build();

            CreateFunctionRequest functionRequest = CreateFunctionRequest.builder()
                .functionName(functionName)
                .description("Created by the Lambda Java API")
                .code(code)
                .handler(handler)
                .runtime(Runtime.JAVA17)
                .role(role)
                .build();

            // Create a Lambda function using a waiter
            CreateFunctionResponse functionResponse = awsLambda.createFunction(functionRequest);
            GetFunctionRequest getFunctionRequest = GetFunctionRequest.builder()
                .functionName(functionName)
                .build();
            WaiterResponse<GetFunctionResponse> waiterResponse = waiter.waitUntilFunctionExists(getFunctionRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            return functionResponse.functionArn();

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/CreateFunction)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/lambda#code-examples). 

```
    /**
     * Deletes an AWS Lambda function.
     *
     * @param awsLambda     an instance of the {@link LambdaClient} class, which is used to interact with the AWS Lambda service
     * @param functionName  the name of the Lambda function to be deleted
     *
     * @throws LambdaException if an error occurs while deleting the Lambda function
     */
    public static void deleteLambdaFunction(LambdaClient awsLambda, String functionName) {
        try {
            DeleteFunctionRequest request = DeleteFunctionRequest.builder()
                .functionName(functionName)
                .build();

            awsLambda.deleteFunction(request);
            System.out.println("The " + functionName + " function was deleted");

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/DeleteFunction)di *Referensi AWS SDK for Java 2.x API*. 

### `GetFunction`
<a name="lambda_GetFunction_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/lambda#code-examples). 

```
    /**
     * Retrieves information about an AWS Lambda function.
     *
     * @param awsLambda    an instance of the {@link LambdaClient} class, which is used to interact with the AWS Lambda service
     * @param functionName the name of the AWS Lambda function to retrieve information about
     */
    public static void getFunction(LambdaClient awsLambda, String functionName) {
        try {
            GetFunctionRequest functionRequest = GetFunctionRequest.builder()
                .functionName(functionName)
                .build();

            GetFunctionResponse response = awsLambda.getFunction(functionRequest);
            System.out.println("The runtime of this Lambda function is " + response.configuration().runtime());

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [GetFunction](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/GetFunction)di *Referensi AWS SDK for Java 2.x API*. 

### `Invoke`
<a name="lambda_Invoke_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/lambda#code-examples). 

```
    /**
     * Invokes a specific AWS Lambda function.
     *
     * @param awsLambda    an instance of {@link LambdaClient} to interact with the AWS Lambda service
     * @param functionName the name of the AWS Lambda function to be invoked
     */
    public static void invokeFunction(LambdaClient awsLambda, String functionName) {
        InvokeResponse res;
        try {
            // Need a SdkBytes instance for the payload.
            JSONObject jsonObj = new JSONObject();
            jsonObj.put("inputValue", "2000");
            String json = jsonObj.toString();
            SdkBytes payload = SdkBytes.fromUtf8String(json);

            InvokeRequest request = InvokeRequest.builder()
                .functionName(functionName)
                .payload(payload)
                .build();

            res = awsLambda.invoke(request);
            String value = res.payload().asUtf8String();
            System.out.println(value);

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Memanggil di Referensi AWS SDK for Java 2.x](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/Invoke) *API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/lambda#code-examples). 

```
    /**
     * Updates the code for an AWS Lambda function.
     *
     * @param awsLambda  the AWS Lambda client
     * @param functionName the name of the Lambda function to update
     * @param bucketName the name of the S3 bucket where the function code is located
     * @param key the key (file name) of the function code in the S3 bucket
     * @throws LambdaException if there is an error updating the function code
     */
    public static void updateFunctionCode(LambdaClient awsLambda, String functionName, String bucketName, String key) {
        try {
            LambdaWaiter waiter = awsLambda.waiter();
            UpdateFunctionCodeRequest functionCodeRequest = UpdateFunctionCodeRequest.builder()
                .functionName(functionName)
                .publish(true)
                .s3Bucket(bucketName)
                .s3Key(key)
                .build();

            UpdateFunctionCodeResponse response = awsLambda.updateFunctionCode(functionCodeRequest);
            GetFunctionConfigurationRequest getFunctionConfigRequest = GetFunctionConfigurationRequest.builder()
                .functionName(functionName)
                .build();

            WaiterResponse<GetFunctionConfigurationResponse> waiterResponse = waiter
                .waitUntilFunctionUpdated(getFunctionConfigRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("The last modified value is " + response.lastModified());

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/UpdateFunctionCode)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/lambda#code-examples). 

```
    /**
     * Updates the configuration of an AWS Lambda function.
     *
     * @param awsLambda     the {@link LambdaClient} instance to use for the AWS Lambda operation
     * @param functionName  the name of the AWS Lambda function to update
     * @param handler       the new handler for the AWS Lambda function
     *
     * @throws LambdaException if there is an error while updating the function configuration
     */
    public static void updateFunctionConfiguration(LambdaClient awsLambda, String functionName, String handler) {
        try {
            UpdateFunctionConfigurationRequest configurationRequest = UpdateFunctionConfigurationRequest.builder()
                .functionName(functionName)
                .handler(handler)
                .runtime(Runtime.JAVA17)
                .build();

            awsLambda.updateFunctionConfiguration(configurationRequest);

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/lambda-2015-03-31/UpdateFunctionConfiguration)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Java 2.x**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/pam_source_files).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Java 2.x**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_fsa_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat AWS Lambda fungsi dengan menggunakan Lambda Java runtime API. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat fungsi Lambda yang diinvokasi oleh Amazon API Gateway yang memindai peringatan hari jadi kerja di tabel Amazon DynamoDB dan menggunakan Amazon Simple Notification Service (Amazon SNS) untuk mengirim pesan teks berisi ucapan selamat kepada karyawan Anda pada tanggal hari jadi kerja satu tahun mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lambda_apigateway).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Menggunakan Step Functions untuk menginvokasi fungsi Lambda
<a name="cross_ServerlessWorkflows_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat mesin AWS Step Functions status yang memanggil AWS Lambda fungsi secara berurutan.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat alur kerja AWS tanpa server dengan menggunakan AWS Step Functions dan. AWS SDK for Java 2.x Setiap langkah alur kerja diimplementasikan menggunakan AWS Lambda fungsi.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_workflows_stepfunctions).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda
+ Amazon SES
+ Step Functions

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda menggunakan API runtime Java Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_scheduled_events).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

### Gunakan Neptunus API untuk menanyakan data grafik
<a name="cross_Neptune_Query_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Neptunus API untuk query data grafik.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Neptune Java API untuk membuat fungsi Lambda yang menanyakan data grafik dalam VPC.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_neptune_lambda).   

**Layanan yang digunakan dalam contoh ini**
+ Lambda
+ Neptune

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Java.  

```
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.APIGatewayProxyRequestEvent;
import com.amazonaws.services.lambda.runtime.events.APIGatewayProxyResponseEvent;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rdsdata.RdsDataClient;
import software.amazon.awssdk.services.rdsdata.model.ExecuteStatementRequest;
import software.amazon.awssdk.services.rdsdata.model.ExecuteStatementResponse;
import software.amazon.awssdk.services.rdsdata.model.Field;

import java.sql.Connection;
import java.sql.DriverManager;
import java.sql.PreparedStatement;
import java.sql.ResultSet;

public class RdsLambdaHandler implements RequestHandler<APIGatewayProxyRequestEvent, APIGatewayProxyResponseEvent> {

    @Override
    public APIGatewayProxyResponseEvent handleRequest(APIGatewayProxyRequestEvent event, Context context) {
        APIGatewayProxyResponseEvent response = new APIGatewayProxyResponseEvent();

        try {
            // Obtain auth token
            String token = createAuthToken();

            // Define connection configuration
            String connectionString = String.format("jdbc:mysql://%s:%s/%s?useSSL=true&requireSSL=true",
                    System.getenv("ProxyHostName"),
                    System.getenv("Port"),
                    System.getenv("DBName"));

            // Establish a connection to the database
            try (Connection connection = DriverManager.getConnection(connectionString, System.getenv("DBUserName"), token);
                 PreparedStatement statement = connection.prepareStatement("SELECT ? + ? AS sum")) {

                statement.setInt(1, 3);
                statement.setInt(2, 2);

                try (ResultSet resultSet = statement.executeQuery()) {
                    if (resultSet.next()) {
                        int sum = resultSet.getInt("sum");
                        response.setStatusCode(200);
                        response.setBody("The selected sum is: " + sum);
                    }
                }
            }

        } catch (Exception e) {
            response.setStatusCode(500);
            response.setBody("Error: " + e.getMessage());
        }

        return response;
    }

    private String createAuthToken() {
        // Create RDS Data Service client
        RdsDataClient rdsDataClient = RdsDataClient.builder()
                .region(Region.of(System.getenv("AWS_REGION")))
                .credentialsProvider(DefaultCredentialsProvider.create())
                .build();

        // Define authentication request
        ExecuteStatementRequest request = ExecuteStatementRequest.builder()
                .resourceArn(System.getenv("ProxyHostName"))
                .secretArn(System.getenv("DBUserName"))
                .database(System.getenv("DBName"))
                .sql("SELECT 'RDS IAM Authentication'")
                .build();

        // Execute request and obtain authentication token
        ExecuteStatementResponse response = rdsDataClient.executeStatement(request);
        Field tokenField = response.records().get(0).get(0);

        return tokenField.stringValue();
    }
}
```

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package example;

import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.LambdaLogger;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.KinesisEvent;

public class Handler implements RequestHandler<KinesisEvent, Void> {
    @Override
    public Void handleRequest(final KinesisEvent event, final Context context) {
        LambdaLogger logger = context.getLogger();
        if (event.getRecords().isEmpty()) {
            logger.log("Empty Kinesis Event received");
            return null;
        }
        for (KinesisEvent.KinesisEventRecord record : event.getRecords()) {
            try {
                logger.log("Processed Event with EventId: "+record.getEventID());
                String data = new String(record.getKinesis().getData().array());
                logger.log("Data:"+ data);
                // TODO: Do interesting work based on the new data
            }
            catch (Exception ex) {
                logger.log("An error occurred:"+ex.getMessage());
                throw ex;
            }
        }
        logger.log("Successfully processed:"+event.getRecords().size()+" records");
        return null;
    }

}
```

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Java.  

```
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.DynamodbEvent;
import com.amazonaws.services.lambda.runtime.events.DynamodbEvent.DynamodbStreamRecord;
import com.google.gson.Gson;
import com.google.gson.GsonBuilder;

public class example implements RequestHandler<DynamodbEvent, Void> {

    private static final Gson GSON = new GsonBuilder().setPrettyPrinting().create();

    @Override
    public Void handleRequest(DynamodbEvent event, Context context) {
        System.out.println(GSON.toJson(event));
        event.getRecords().forEach(this::logDynamoDBRecord);
        return null;
    }

    private void logDynamoDBRecord(DynamodbStreamRecord record) {
        System.out.println(record.getEventID());
        System.out.println(record.getEventName());
        System.out.println("DynamoDB Record: " + GSON.toJson(record.getDynamodb()));
    }
}
```

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Java.  

```
import java.util.List;
import java.util.Map;

import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;

public class Example implements RequestHandler<Map<String, Object>, String> {

    @SuppressWarnings("unchecked")
    @Override
    public String handleRequest(Map<String, Object> event, Context context) {
        List<Map<String, Object>> events = (List<Map<String, Object>>) event.get("events");
        for (Map<String, Object> record : events) {
            Map<String, Object> eventData = (Map<String, Object>) record.get("event");
            processEventData(eventData);
        }

        return "OK";
    }

    @SuppressWarnings("unchecked")
    private void processEventData(Map<String, Object> eventData) {
        String operationType = (String) eventData.get("operationType");
        System.out.println("operationType: %s".formatted(operationType));

        Map<String, Object> ns = (Map<String, Object>) eventData.get("ns");

        String db = (String) ns.get("db");
        System.out.println("db: %s".formatted(db));
        String coll = (String) ns.get("coll");
        System.out.println("coll: %s".formatted(coll));

        Map<String, Object> fullDocument = (Map<String, Object>) eventData.get("fullDocument");
        System.out.println("fullDocument: %s".formatted(fullDocument));
    }

}
```

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Java.  

```
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.KafkaEvent;
import com.amazonaws.services.lambda.runtime.events.KafkaEvent.KafkaEventRecord;

import java.util.Base64;
import java.util.Map;

public class Example implements RequestHandler<KafkaEvent, Void> {

    @Override
    public Void handleRequest(KafkaEvent event, Context context) {
        for (Map.Entry<String, java.util.List<KafkaEventRecord>> entry : event.getRecords().entrySet()) {
            String key = entry.getKey();
            System.out.println("Key: " + key);

            for (KafkaEventRecord record : entry.getValue()) {
                System.out.println("Record: " + record);

                byte[] value = Base64.getDecoder().decode(record.getValue());
                String message = new String(value);
                System.out.println("Message: " + message);
            }
        }

        return null;
    }
}
```

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package example;

import software.amazon.awssdk.services.s3.model.HeadObjectRequest;
import software.amazon.awssdk.services.s3.model.HeadObjectResponse;
import software.amazon.awssdk.services.s3.S3Client;

import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.S3Event;
import com.amazonaws.services.lambda.runtime.events.models.s3.S3EventNotification.S3EventNotificationRecord;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

public class Handler implements RequestHandler<S3Event, String> {
    private static final Logger logger = LoggerFactory.getLogger(Handler.class);
    @Override
    public String handleRequest(S3Event s3event, Context context) {
        try {
          S3EventNotificationRecord record = s3event.getRecords().get(0);
          String srcBucket = record.getS3().getBucket().getName();
          String srcKey = record.getS3().getObject().getUrlDecodedKey();

          S3Client s3Client = S3Client.builder().build();
          HeadObjectResponse headObject = getHeadObject(s3Client, srcBucket, srcKey);

          logger.info("Successfully retrieved " + srcBucket + "/" + srcKey + " of type " + headObject.contentType());

          return "Ok";
        } catch (Exception e) {
          throw new RuntimeException(e);
        }
    }

    private HeadObjectResponse getHeadObject(S3Client s3Client, String bucket, String key) {
        HeadObjectRequest headObjectRequest = HeadObjectRequest.builder()
                .bucket(bucket)
                .key(key)
                .build();
        return s3Client.headObject(headObjectRequest);
    }
}
```

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package example;

import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.LambdaLogger;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.SNSEvent;
import com.amazonaws.services.lambda.runtime.events.SNSEvent.SNSRecord;


import java.util.Iterator;
import java.util.List;

public class SNSEventHandler implements RequestHandler<SNSEvent, Boolean> {
    LambdaLogger logger;

    @Override
    public Boolean handleRequest(SNSEvent event, Context context) {
        logger = context.getLogger();
        List<SNSRecord> records = event.getRecords();
        if (!records.isEmpty()) {
            Iterator<SNSRecord> recordsIter = records.iterator();
            while (recordsIter.hasNext()) {
                processRecord(recordsIter.next());
            }
        }
        return Boolean.TRUE;
    }

    public void processRecord(SNSRecord record) {
        try {
            String message = record.getSNS().getMessage();
            logger.log("message: " + message);
        } catch (Exception e) {
            throw new RuntimeException(e);
        }
    }

}
```

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.SQSEvent;
import com.amazonaws.services.lambda.runtime.events.SQSEvent.SQSMessage;

public class Function implements RequestHandler<SQSEvent, Void> {
    @Override
    public Void handleRequest(SQSEvent sqsEvent, Context context) {
        for (SQSMessage msg : sqsEvent.getRecords()) {
            processMessage(msg, context);
        }
        context.getLogger().log("done");
        return null;
    }

    private void processMessage(SQSMessage msg, Context context) {
        try {
            context.getLogger().log("Processed message " + msg.getBody());

            // TODO: Do interesting work based on the new message

        } catch (Exception e) {
            context.getLogger().log("An error occurred");
            throw e;
        }

    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.KinesisEvent;
import com.amazonaws.services.lambda.runtime.events.StreamsEventResponse;

import java.io.Serializable;
import java.util.ArrayList;
import java.util.List;

public class ProcessKinesisRecords implements RequestHandler<KinesisEvent, StreamsEventResponse> {

    @Override
    public StreamsEventResponse handleRequest(KinesisEvent input, Context context) {

        List<StreamsEventResponse.BatchItemFailure> batchItemFailures = new ArrayList<>();
        String curRecordSequenceNumber = "";

        for (KinesisEvent.KinesisEventRecord kinesisEventRecord : input.getRecords()) {
            try {
                //Process your record
                KinesisEvent.Record kinesisRecord = kinesisEventRecord.getKinesis();
                curRecordSequenceNumber = kinesisRecord.getSequenceNumber();

            } catch (Exception e) {
                /* Since we are working with streams, we can return the failed item immediately.
                   Lambda will immediately begin to retry processing from this failed item onwards. */
                batchItemFailures.add(new StreamsEventResponse.BatchItemFailure(curRecordSequenceNumber));
                return new StreamsEventResponse(batchItemFailures);
            }
        }
       
       return new StreamsEventResponse(batchItemFailures);   
    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.DynamodbEvent;
import com.amazonaws.services.lambda.runtime.events.StreamsEventResponse;
import com.amazonaws.services.lambda.runtime.events.models.dynamodb.StreamRecord;

import java.util.ArrayList;
import java.util.List;

public class ProcessDynamodbRecords implements RequestHandler<DynamodbEvent, StreamsEventResponse> {

    @Override
    public StreamsEventResponse handleRequest(DynamodbEvent input, Context context) {

        List<StreamsEventResponse.BatchItemFailure> batchItemFailures = new ArrayList<>();
        String curRecordSequenceNumber = "";

        for (DynamodbEvent.DynamodbStreamRecord dynamodbStreamRecord : input.getRecords()) {
          try {
                //Process your record
                StreamRecord dynamodbRecord = dynamodbStreamRecord.getDynamodb();
                curRecordSequenceNumber = dynamodbRecord.getSequenceNumber();
                
            } catch (Exception e) {
                /* Since we are working with streams, we can return the failed item immediately.
                   Lambda will immediately begin to retry processing from this failed item onwards. */
                batchItemFailures.add(new StreamsEventResponse.BatchItemFailure(curRecordSequenceNumber));
                return new StreamsEventResponse(batchItemFailures);
            }
        }
       
       return new StreamsEventResponse();   
    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.SQSEvent;
import com.amazonaws.services.lambda.runtime.events.SQSBatchResponse;
 
import java.util.ArrayList;
import java.util.List;
 
public class ProcessSQSMessageBatch implements RequestHandler<SQSEvent, SQSBatchResponse> {
    @Override
    public SQSBatchResponse handleRequest(SQSEvent sqsEvent, Context context) {
         List<SQSBatchResponse.BatchItemFailure> batchItemFailures = new ArrayList<SQSBatchResponse.BatchItemFailure>();

         for (SQSEvent.SQSMessage message : sqsEvent.getRecords()) {
             try {
                 //process your message
             } catch (Exception e) {
                 //Add failed message identifier to the batchItemFailures list
                 batchItemFailures.add(new SQSBatchResponse.BatchItemFailure(message.getMessageId()));
             }
         }
         return new SQSBatchResponse(batchItemFailures);
     }
}
```

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK untuk Java 2.x**  
 Menunjukkan cara membangun dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Java SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-java-frameworks-samples).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh Amazon Lex menggunakan SDK for Java 2.x
<a name="java_2_lex_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Lex. AWS SDK for Java 2.x 

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membangun chatbot Amazon Lex
<a name="cross_LexChatbotLanguages_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat chatbot untuk melibatkan pengunjung situs web Anda.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Lex API untuk membuat Chatbot dalam aplikasi web untuk melibatkan pengunjung situs web Anda.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lex_chatbot).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon Lex
+ Amazon Translate

# Contoh Lokasi Amazon menggunakan SDK for Java 2.x
<a name="java_2_location_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Lokasi AWS SDK for Java 2.x dengan Amazon.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Lokasi Amazon
<a name="location_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Location Service.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * In addition, you need to create a collection using the AWS Management
 * console. For information, see the following documentation.
 *
 * https://docs.aws.amazon.com/location/latest/developerguide/geofence-gs.html

 */
public class HelloLocation {

    private static LocationAsyncClient locationAsyncClient;
    private static final Logger logger = LoggerFactory.getLogger(HelloLocation.class);

    // This Singleton pattern ensures that only one `LocationClient`
    // instance.
    private static LocationAsyncClient getClient() {
        if (locationAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            locationAsyncClient = LocationAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return locationAsyncClient;
    }

    public static void main(String[] args) {
        final String usage = """

            Usage:
                <collectionName>

            Where:
                collectionName - The Amazon location collection name.
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionName = args[0];
        listGeofences(collectionName);
    }

    /**
     * Lists geofences from a specified geofence collection asynchronously.
     *
     * @param collectionName The name of the geofence collection to list geofences from.
     * @return A {@link CompletableFuture} representing the result of the asynchronous operation.
     *         The future completes when all geofences have been processed and logged.
     */
    public static CompletableFuture<Void> listGeofences(String collectionName) {
        ListGeofencesRequest geofencesRequest = ListGeofencesRequest.builder()
                .collectionName(collectionName)
                .build();

        ListGeofencesPublisher paginator = getClient().listGeofencesPaginator(geofencesRequest);
        CompletableFuture<Void> future = paginator.subscribe(response -> {
            if (response.entries().isEmpty()) {
                logger.info("No Geofences were found in the collection.");
            } else {
                response.entries().forEach(geofence ->
                        logger.info("Geofence ID: " + geofence.geofenceId())
                );
            }
        });
        return future;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [ListGeofenceCollections](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/ListGeofenceCollections)
  + [ListGeofences](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/ListGeofences)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="location_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peta Lokasi Amazon.
+ Buat kunci API Lokasi Amazon.
+ Tampilkan URL Peta.
+ Buat koleksi geofence.
+ Simpan geometri geofence.
+ Buat sumber daya pelacak.
+ Perbarui posisi perangkat.
+ Ambil pembaruan posisi terbaru untuk perangkat tertentu.
+ Buat kalkulator rute.
+ Tentukan jarak antara Seattle dan Vancouver.
+ Gunakan Lokasi Amazon tingkat yang lebih tinggi APIs.
+ Hapus Aset Lokasi Amazon.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 
Jalankan skenario interaktif yang mendemonstrasikan fitur Amazon Location Service.  

```
/*
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 */
public class LocationScenario {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    private static final Logger logger = LoggerFactory.getLogger(LocationScenario.class);
    static Scanner scanner = new Scanner(System.in);

    static LocationActions locationActions = new LocationActions();

    public static void main(String[] args) {
        final String usage = """

            Usage:    <mapName> <keyName> <collectionName> <geoId> <trackerName> <calculatorName> <deviceId>

            Where:
              mapName - The name of the map to be create (e.g., "AWSMap").
              keyName - The name of the API key to create (e.g., "AWSApiKey").
              collectionName - The name of the geofence collection (e.g., "AWSLocationCollection").
              geoId - The geographic identifier used for the geofence or map (e.g., "geoId").
              trackerName - The name of the tracker (e.g., "geoTracker").
              calculatorName - The name of the route calculator (e.g., "AWSRouteCalc").
              deviceId - The ID of the device (e.g., "iPhone-112356").
            """;

        if (args.length != 7) {
            logger.info(usage);
            return;
        }

        String mapName = args[0];
        String keyName = args[1];
        String collectionName = args[2];
        String geoId = args[3];
        String trackerName = args[4];
        String calculatorName = args[5];
        String deviceId = args[6];

        logger.info("""
            AWS Location Service is a fully managed service offered by Amazon Web Services (AWS) that
            provides location-based services for developers. This service simplifies
            the integration of location-based features into applications, making it
            easier to build and deploy location-aware applications.
                        
            The AWS Location Service offers a range of location-based services,
            including:
                        
            Maps: The service provides access to high-quality maps, satellite imagery,\s
            and geospatial data from various providers, allowing developers to\s
            easily embed maps into their applications.
                        
            Tracking: The Location Service enables real-time tracking of mobile devices,\s
            assets, or other entities, allowing developers to build applications\s
            that can monitor the location of people, vehicles, or other objects.
                        
            Geocoding: The service provides the ability to convert addresses or\s
            location names into geographic coordinates (latitude and longitude),\s
            and vice versa, enabling developers to integrate location-based search\s
            and routing functionality into their applications.
            """);
        waitForInputToContinue(scanner);
        try {
            runScenario(mapName, keyName, collectionName, geoId, trackerName, calculatorName, deviceId);
        } catch (RuntimeException e) {
            // Clean up AWS Resources.
            cleanUp(mapName, keyName, collectionName, trackerName, calculatorName);
            logger.info(e.getMessage());
        }
    }

    public static void runScenario(String mapName, String keyName, String collectionName, String geoId, String trackerName, String calculatorName, String deviceId) {
        logger.info(DASHES);
        logger.info("1. Create a map");
        logger.info("""
             An AWS Location map can enhance the user experience of your
             application by providing accurate and personalized location-based
             features. For example, you could use the geocoding capabilities to
             allow users to search for and locate businesses, landmarks, or
             other points of interest within a specific region.
            """);

        waitForInputToContinue(scanner);
        String mapArn;
        try {
            mapArn = locationActions.createMap(mapName).join();
            logger.info("The Map ARN is: {}", mapArn);  // Log success in calling code
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ServiceQuotaExceededException) {
                logger.error("The request exceeded the maximum quota: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred while creating the map.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("2. Create an AWS Location API key");
        logger.info("""
            When you embed a map in a web app or website, the API key is
            included in the map tile URL to authenticate requests. You can
            restrict API keys to specific AWS Location operations (e.g., only
            maps, not geocoding). API keys can expire, ensuring temporary
            access control.
            """);

        try {
            String keyArn = locationActions.createKey(keyName, mapArn).join();
            logger.info("The API key was successfully created: {}", keyArn);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof AccessDeniedException) {
                logger.error("Request was denied: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred while creating the API key.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("3. Display Map URL");
        logger.info("""
            In order to get the MAP URL, you need to get the API Key value.
            You can get the key value using the AWS Management Console under
            Location Services. This operation cannot be completed using the
            AWS SDK. For more information about getting the key value, see 
            the AWS Location Documentation.
            """);
        String mapUrl = "https://maps.geo.aws.amazon.com/maps/v0/maps/"+mapName+"/tiles/{z}/{x}/{y}?key={KeyValue}";
        logger.info("Embed this URL in your Web app: " + mapUrl);
        logger.info("");
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("4. Create a geofence collection, which manages and stores geofences.");
        waitForInputToContinue(scanner);
        try {
            String collectionArn = locationActions.createGeofenceCollection(collectionName).join();
            logger.info("The geofence collection was successfully created: {}", collectionArn);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ConflictException) {
                logger.error("A conflict occurred: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred while creating the geofence collection.", cause);
            }
            return;
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("5. Store a geofence geometry in a given geofence collection.");
        logger.info("""
            An AWS Location geofence is a virtual boundary that defines a geographic area
            on a map. It is a useful feature for tracking the location of
            assets or monitoring the movement of objects within a specific region.
                        
            To define a geofence, you need to specify the coordinates of a
            polygon that represents the area of interest. The polygon must be
            defined in a counter-clockwise direction, meaning that the points of
            the polygon must be listed in a counter-clockwise order.
                        
            This is a requirement for the AWS Location service to correctly
            interpret the geofence and ensure that the location data is
            accurately processed within the defined area.
            """);

        waitForInputToContinue(scanner);
        try {
            locationActions.putGeofence(collectionName, geoId).join();
            logger.info("Successfully created geofence: {}", geoId);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ValidationException) {
                logger.error("A validation error occurred while creating geofence: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("6. Create a tracker resource which lets you retrieve current and historical location of devices..");
        waitForInputToContinue(scanner);
        try {
            String trackerArn = locationActions.createTracker(trackerName).join();
            logger.info("Successfully created tracker. ARN: {}", trackerArn);  // Log success
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ConflictException) {
                logger.error("A conflict occurred while creating the tracker: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("7. Update the position of a device in the location tracking system.");
        logger.info("""
            The AWS location service does not enforce a strict format for deviceId, but it must:
              - Be a string (case-sensitive).
              - Be 1–100 characters long.
              - Contain only:
                - Alphanumeric characters (A-Z, a-z, 0-9)
                - Underscores (_)
                - Hyphens (-)
                - Be the same ID used when sending and retrieving positions.
            """);

        waitForInputToContinue(scanner);
        try {
            CompletableFuture<BatchUpdateDevicePositionResponse> future = locationActions.updateDevicePosition(trackerName, deviceId);
            future.join();
            logger.info(deviceId + " was successfully updated in the location tracking system.");
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.info("The resource was not found: {}", cause.getMessage(), cause);
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("8. Retrieve the most recent position update for a specified device..");
        waitForInputToContinue(scanner);
        try {
            GetDevicePositionResponse response = locationActions.getDevicePosition(trackerName, deviceId).join();
            logger.info("Successfully fetched device position: {}", response.position());
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.info("The resource was not found: {}", cause.getMessage(), cause);
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("9. Create a route calculator.");
        waitForInputToContinue(scanner);
        try {
            CreateRouteCalculatorResponse response = locationActions.createRouteCalculator(calculatorName).join();
            logger.info("Route calculator created successfully: {}", response.calculatorArn());
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ConflictException) {
                logger.info("A conflict occurred: {}", cause.getMessage(), cause);
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("10. Determine the distance between Seattle and Vancouver using the route calculator.");
        waitForInputToContinue(scanner);
        try {
            CalculateRouteResponse response = locationActions.calcDistanceAsync(calculatorName).join();
            logger.info("Successfully calculated route. The distance in kilometers is {}", response.summary().distance());
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.info("The resource was not found: {}", cause.getMessage(), cause);
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info("11. Use the GeoPlacesAsyncClient to perform additional operations.");
        logger.info("""
            This scenario will show use of the GeoPlacesClient that enables  
            location search and geocoding capabilities for your applications.\s
                    
            We are going to use this client to perform these AWS Location tasks:
             - Reverse Geocoding (reverseGeocode): Converts geographic coordinates into addresses.
             - Place Search (searchText): Finds places based on search queries.
             - Nearby Search (searchNearby): Finds places near a specific location.
            """);

        logger.info("First we will perform a Reverse Geocoding operation");
        waitForInputToContinue(scanner);
        try {
            locationActions.reverseGeocode().join();
            logger.info("Now we are going to perform a text search using coffee shop.");
            waitForInputToContinue(scanner);
            locationActions.searchText("coffee shop").join();
            waitForInputToContinue(scanner);

            logger.info("Now we are going to perform a nearby Search.");
            //waitForInputToContinue(scanner);
            locationActions.searchNearBy().join();
            waitForInputToContinue(scanner);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof software.amazon.awssdk.services.geoplaces.model.ValidationException) {
                logger.error("A validation error occurred: {}", cause.getMessage(), cause);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
        logger.info(DASHES);

        logger.info("12. Delete the AWS Location Services resources.");
        logger.info("Would you like to delete the AWS Location Services resources? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            cleanUp(mapName, keyName, collectionName, trackerName, calculatorName);
        } else {
            logger.info("The AWS resources will not be deleted.");
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info(" This concludes the AWS Location Service scenario.");
        logger.info(DASHES);
    }

    /**
     * Cleans up resources by deleting the specified map, key, geofence collection, tracker, and route calculator.
     *
     * @param mapName The name of the map to delete.
     * @param keyName The name of the key to delete.
     * @param collectionName The name of the geofence collection to delete.
     * @param trackerName The name of the tracker to delete.
     * @param calculatorName The name of the route calculator to delete.
     */
    private static void cleanUp(String mapName, String keyName, String collectionName, String trackerName, String calculatorName) {
        try {
            locationActions.deleteMap(mapName).join();
            locationActions.deleteKey(keyName).join();
            locationActions.deleteGeofenceCollectionAsync(collectionName).join();
            locationActions.deleteTracker(trackerName).join();
            locationActions.deleteRouteCalculator(calculatorName).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.info("The resource was not found: {}", cause.getMessage(), cause);
            } else {
                logger.info("An unexpected error occurred: {}", cause.getMessage(), cause);
            }
            return;
        }
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                logger.info("Invalid input. Please try again.");
            }
        }
    }
}
```
Kelas pembungkus untuk metode Amazon Location Service SDK.  

```
public class LocationActions {

    private static LocationAsyncClient locationAsyncClient;

    private static GeoPlacesAsyncClient geoPlacesAsyncClient;
    private static final Logger logger = LoggerFactory.getLogger(LocationActions.class);

    // This Singleton pattern ensures that only one `LocationClient`
    // instance is used throughout the application.
    private LocationAsyncClient getClient() {
        if (locationAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            locationAsyncClient = LocationAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return locationAsyncClient;
    }

    private static GeoPlacesAsyncClient getGeoPlacesClient() {
        if (geoPlacesAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            geoPlacesAsyncClient = GeoPlacesAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return geoPlacesAsyncClient;
    }


    /**
     * Performs a nearby places search based on the provided geographic coordinates (latitude and longitude).
     * The method sends an asynchronous request to search for places within a 1-kilometer radius of the specified location.
     * The results are processed and printed once the search completes successfully.
     */
    public CompletableFuture<SearchNearbyResponse> searchNearBy() {
        double latitude = 37.7749;  // San Francisco
        double longitude = -122.4194;
        List<Double> queryPosition = List.of(longitude, latitude);

        // Set up the request for searching nearby places.
        SearchNearbyRequest request = SearchNearbyRequest.builder()
            .queryPosition(queryPosition)  // Set the position
            .queryRadius(1000L)  // Radius in meters (1000 meters = 1 km).
            .build();

        return getGeoPlacesClient().searchNearby(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof software.amazon.awssdk.services.geoplaces.model.ValidationException) {
                        throw new CompletionException("A validation error occurred: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error performing place search", exception);
                }

                // Process the response and print the results.
                response.resultItems().forEach(result -> {
                    logger.info("Place Name: " + result.placeType().name());
                    logger.info("Address: " + result.address().label());
                    logger.info("Distance: " + result.distance() + " meters");
                    logger.info("-------------------------");
                });
            });
    }


    /**
     * Searches for a place using the provided search query and prints the detailed information of the first result.
     *
     * @param searchQuery the search query to be used for the place search (ex, coffee shop)
     */
    public CompletableFuture<Void> searchText(String searchQuery) {
        double latitude = 37.7749;  // San Francisco
        double longitude = -122.4194;
        List<Double> queryPosition = List.of(longitude, latitude);

        SearchTextRequest request = SearchTextRequest.builder()
                .queryText(searchQuery)
                .biasPosition(queryPosition)
                .build();

        return getGeoPlacesClient().searchText(request)
                .thenCompose(response -> {
                    if (response.resultItems().isEmpty()) {
                        logger.info("No places found.");
                        return CompletableFuture.completedFuture(null);
                    }

                    // Get the first place ID
                    String placeId = response.resultItems().get(0).placeId();
                    logger.info("Found Place with id: " + placeId);

                    // Fetch detailed info using getPlace
                    GetPlaceRequest getPlaceRequest = GetPlaceRequest.builder()
                            .placeId(placeId)
                            .build();

                    return getGeoPlacesClient().getPlace(getPlaceRequest)
                            .thenAccept(placeResponse -> {
                                logger.info("Detailed Place Information:");
                                logger.info("Name: " + placeResponse.placeType().name());
                                logger.info("Address: " + placeResponse.address().label());

                                if (placeResponse.foodTypes() != null && !placeResponse.foodTypes().isEmpty()) {
                                    logger.info("Food Types:");
                                    placeResponse.foodTypes().forEach(foodType -> {
                                        logger.info("  - " + foodType);
                                    });
                                } else {
                                    logger.info("No food types available.");
                                }
                                logger.info("-------------------------");
                            });
                })
                .exceptionally(exception -> {
                    Throwable cause = exception.getCause();
                    if (cause instanceof software.amazon.awssdk.services.geoplaces.model.ValidationException) {
                        throw new CompletionException("A validation error occurred: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error performing place search", exception);
                });
    }



    /**
     * Performs reverse geocoding using the AWS Geo Places API.
     * Reverse geocoding is the process of converting geographic coordinates (latitude and longitude) to a human-readable address.
     * This method uses the latitude and longitude of San Francisco as the input, and prints the resulting address.
     */
    public CompletableFuture<ReverseGeocodeResponse> reverseGeocode() {
        double latitude = 37.7749;  // San Francisco
        double longitude = -122.4194;
        logger.info("Use latitude 37.7749 and longitude -122.4194");

        // AWS expects [longitude, latitude].
        List<Double> queryPosition = List.of(longitude, latitude);
        ReverseGeocodeRequest request = ReverseGeocodeRequest.builder()
            .queryPosition(queryPosition)
            .build();
        CompletableFuture<ReverseGeocodeResponse> futureResponse =
            getGeoPlacesClient().reverseGeocode(request);

        return futureResponse.whenComplete((response, exception) -> {
            if (exception != null) {
                Throwable cause = exception.getCause();
                if (cause instanceof software.amazon.awssdk.services.geoplaces.model.ValidationException) {
                    throw new CompletionException("A validation error occurred: " + cause.getMessage(), cause);
                }
                throw new CompletionException("Error performing reverse geocoding", exception);
            }

            response.resultItems().forEach(result ->
                logger.info("The address is: " + result.address().label())
            );
        });
    }


    /**
     * Calculates the distance between two locations asynchronously.
     *
     * @param routeCalcName the name of the route calculator to use
     * @return a {@link CompletableFuture} that will complete with a {@link CalculateRouteResponse} containing the distance and estimated duration of the route
     */
    public CompletableFuture<CalculateRouteResponse> calcDistanceAsync(String routeCalcName) {
        // Define coordinates for Seattle, WA and Vancouver, BC.
        List<Double> departurePosition = Arrays.asList(-122.3321, 47.6062);
        List<Double> arrivePosition = Arrays.asList(-123.1216, 49.2827);

        CalculateRouteRequest request = CalculateRouteRequest.builder()
            .calculatorName(routeCalcName)
            .departurePosition(departurePosition)
            .destinationPosition(arrivePosition)
            .travelMode("Car") // Options: Car, Truck, Walking, Bicycle
            .distanceUnit("Kilometers") // Options: Meters, Kilometers, Miles
            .build();

        return getClient().calculateRoute(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The AWS resource was not found: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Failed to calculate route: " + exception.getMessage(), exception);
                }
            });
    }


    /**
     * Creates a new route calculator with the specified name and data source.
     *
     * @param routeCalcName the name of the route calculator to be created
     */
    public CompletableFuture<CreateRouteCalculatorResponse> createRouteCalculator(String routeCalcName) {
        String dataSource = "Esri"; // or "Here"
        CreateRouteCalculatorRequest request = CreateRouteCalculatorRequest.builder()
            .calculatorName(routeCalcName)
            .dataSource(dataSource)
            .build();

        return getClient().createRouteCalculator(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("A conflict error occurred: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Failed to create route calculator: " + exception.getMessage(), exception);
                }
            });
    }


    /**
     * Retrieves the position of a device using the provided LocationClient.
     *
     * @param trackerName The name of the tracker associated with the device.
     * @param deviceId    The ID of the device to retrieve the position for.
     * @throws RuntimeException If there is an error fetching the device position.
     */
    public CompletableFuture<GetDevicePositionResponse> getDevicePosition(String trackerName, String deviceId) {
        GetDevicePositionRequest request = GetDevicePositionRequest.builder()
            .trackerName(trackerName)
            .deviceId(deviceId)
            .build();

        return getClient().getDevicePosition(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The AWS resource was not found: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error fetching device position: " + exception.getMessage(), exception);
                }
            });
    }


    /**
     * Updates the position of a device in the location tracking system.
     *
     * @param trackerName the name of the tracker associated with the device
     * @param deviceId    the unique identifier of the device
     * @throws RuntimeException if an error occurs while updating the device position
     */
    public CompletableFuture<BatchUpdateDevicePositionResponse> updateDevicePosition(String trackerName, String deviceId) {
        double latitude = 37.7749;  // Example: San Francisco
        double longitude = -122.4194;

        DevicePositionUpdate positionUpdate = DevicePositionUpdate.builder()
            .deviceId(deviceId)
            .sampleTime(Instant.now()) // Timestamp of position update.
            .position(Arrays.asList(longitude, latitude)) // AWS requires [longitude, latitude]
            .build();

        BatchUpdateDevicePositionRequest request = BatchUpdateDevicePositionRequest.builder()
            .trackerName(trackerName)
            .updates(positionUpdate)
            .build();

        CompletableFuture<BatchUpdateDevicePositionResponse> futureResponse = getClient().batchUpdateDevicePosition(request);
        return futureResponse.whenComplete((response, exception) -> {
            if (exception != null) {
                Throwable cause = exception.getCause();
                if (cause instanceof ResourceNotFoundException) {
                    throw new CompletionException("The resource was not found: " + cause.getMessage(), cause);
                } else {
                    throw new CompletionException("Error updating device position: " + exception.getMessage(), exception);
                }
            }
        });
    }


    /**
     * Creates a new tracker resource in your AWS account, which you can use to track the location of devices.
     *
     * @param trackerName the name of the tracker to be created
     * @return a {@link CompletableFuture} that, when completed, will contain the Amazon Resource Name (ARN) of the created tracker
     */
    public CompletableFuture<String> createTracker(String trackerName) {
        CreateTrackerRequest trackerRequest = CreateTrackerRequest.builder()
            .description("Created using the Java V2 SDK")
            .trackerName(trackerName)
            .positionFiltering("TimeBased") // Options: TimeBased, DistanceBased, AccuracyBased
            .build();

        return getClient().createTracker(trackerRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("Conflict occurred while creating tracker: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error creating tracker: " + exception.getMessage(), exception);
                }
            })
            .thenApply(CreateTrackerResponse::trackerArn); // Return only the tracker ARN
    }



    /**
     * Adds a new geofence to the specified collection.
     *
     * @param collectionName the name of the geofence collection to add the geofence to
     * @param geoId          the unique identifier for the geofence
     */
    public CompletableFuture<PutGeofenceResponse> putGeofence(String collectionName, String geoId) {
        // Define the geofence geometry (polygon).
        GeofenceGeometry geofenceGeometry = GeofenceGeometry.builder()
            .polygon(List.of(
                List.of(
                    List.of(-122.3381, 47.6101), // First point
                    List.of(-122.3281, 47.6101),
                    List.of(-122.3281, 47.6201),
                    List.of(-122.3381, 47.6201),
                    List.of(-122.3381, 47.6101) // Closing the polygon
                )
            ))
            .build();

        PutGeofenceRequest geofenceRequest = PutGeofenceRequest.builder()
            .collectionName(collectionName) // Specify the collection.
            .geofenceId(geoId) // Unique ID for the geofence.
            .geometry(geofenceGeometry)
            .build();

        return getClient().putGeofence(geofenceRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ValidationException) {
                        throw new CompletionException("Validation error while creating geofence: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error creating geofence: " + exception.getMessage(), exception);
                }
            });
    }


    /**
     * Creates a new geofence collection.
     *
     * @param collectionName the name of the geofence collection to be created
     */
    public CompletableFuture<String> createGeofenceCollection(String collectionName) {
        CreateGeofenceCollectionRequest collectionRequest = CreateGeofenceCollectionRequest.builder()
            .collectionName(collectionName)
            .description("Created by using the AWS SDK for Java")
            .build();

        return getClient().createGeofenceCollection(collectionRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("The geofence collection was not created due to ConflictException.", cause);
                    }
                    throw new CompletionException("Failed to create geofence collection: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response.collectionArn()); // Return only the ARN
    }




    /**
     * Creates a new API key with the specified name and restrictions.
     *
     * @param keyName the name of the API key to be created
     * @param mapArn  the Amazon Resource Name (ARN) of the map resource to which the API key will be associated
     * @return a {@link CompletableFuture} that completes with the Amazon Resource Name (ARN) of the created API key,
     * or {@code null} if the operation failed
     */
    public CompletableFuture<String> createKey(String keyName, String mapArn) {
        ApiKeyRestrictions keyRestrictions = ApiKeyRestrictions.builder()
            .allowActions("geo:GetMap*")
            .allowResources(mapArn)
            .build();

        CreateKeyRequest request = CreateKeyRequest.builder()
            .keyName(keyName)
            .restrictions(keyRestrictions)
            .noExpiry(true)
            .build();

        return getClient().createKey(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof AccessDeniedException) {
                        throw new CompletionException("The request was denied because of insufficient access or permissions.", cause);
                    }
                    throw new CompletionException("Failed to create API key: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response.keyArn()); // This will never return null if the response reaches here
    }



    /**
     * Creates a new map with the specified name and configuration.
     *
     * @param mapName the name of the map to be created
     * @return a {@link CompletableFuture} that, when completed, will contain the Amazon Resource Name (ARN) of the created map
     * @throws CompletionException if an error occurs while creating the map, such as exceeding the service quota
     */
    public CompletableFuture<String> createMap(String mapName) {
        MapConfiguration configuration = MapConfiguration.builder()
            .style("VectorEsriNavigation")
            .build();

        CreateMapRequest mapRequest = CreateMapRequest.builder()
            .mapName(mapName)
            .configuration(configuration)
            .description("A map created using the Java V2 API")
            .build();

        return getClient().createMap(mapRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ServiceQuotaExceededException) {
                        throw new CompletionException("The operation was denied because the request would exceed the maximum quota.", cause);
                    }
                    throw new CompletionException("Failed to create map: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response.mapArn()); // Return the map ARN
    }



    /**
     * Deletes a geofence collection asynchronously.
     *
     * @param collectionName the name of the geofence collection to be deleted
     * @return a {@link CompletableFuture} that completes when the geofence collection has been deleted
     */
    public CompletableFuture<Void> deleteGeofenceCollectionAsync(String collectionName) {
        DeleteGeofenceCollectionRequest collectionRequest = DeleteGeofenceCollectionRequest.builder()
            .collectionName(collectionName)
            .build();

        return getClient().deleteGeofenceCollection(collectionRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The requested geofence collection was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete geofence collection: " + exception.getMessage(), exception);
                }
                logger.info("The geofence collection {} was deleted.", collectionName);
            })
            .thenApply(response -> null);
    }



    /**
     * Deletes the specified key from the key-value store.
     *
     * @param keyName the name of the key to be deleted
     * @return a {@link CompletableFuture} that completes when the key has been deleted
     * @throws CompletionException if the key was not found or if an error occurred during the deletion process
     */
    public CompletableFuture<Void> deleteKey(String keyName) {
        DeleteKeyRequest keyRequest = DeleteKeyRequest.builder()
            .keyName(keyName)
            .build();

        return getClient().deleteKey(keyRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The key was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete key: " + exception.getMessage(), exception);
                }
                logger.info("The key {} was deleted.", keyName);
            })
            .thenApply(response -> null);
    }


    /**
     * Deletes a map with the specified name.
     *
     * @param mapName the name of the map to be deleted
     * @return a {@link CompletableFuture} that completes when the map deletion is successful, or throws a {@link CompletionException} if an error occurs
     */
    public CompletableFuture<Void> deleteMap(String mapName) {
        DeleteMapRequest mapRequest = DeleteMapRequest.builder()
            .mapName(mapName)
            .build();

        return getClient().deleteMap(mapRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The map was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete map: " + exception.getMessage(), exception);
                }
                logger.info("The map {} was deleted.", mapName);
            })
            .thenApply(response -> null);
    }


    /**
     * Deletes a tracker with the specified name.
     *
     * @param trackerName the name of the tracker to be deleted
     * @return a {@link CompletableFuture} that completes when the tracker has been deleted
     * @throws CompletionException if an error occurs while deleting the tracker
     *                             - if the tracker was not found, a {@link ResourceNotFoundException} is thrown wrapped in the CompletionException
     *                             - if any other error occurs, a generic CompletionException is thrown with the error message
     */
    public CompletableFuture<Void> deleteTracker(String trackerName) {
        DeleteTrackerRequest trackerRequest = DeleteTrackerRequest.builder()
            .trackerName(trackerName)
            .build();

        return getClient().deleteTracker(trackerRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The tracker was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete the tracker: " + exception.getMessage(), exception);
                }
                logger.info("The tracker {} was deleted.", trackerName);
            })
            .thenApply(response -> null); // Ensures CompletableFuture<Void>
    }


    /**
     * Deletes a route calculator from the system.
     *
     * @param calcName the name of the route calculator to delete
     * @return a {@link CompletableFuture} that completes when the route calculator has been deleted
     * @throws CompletionException if an error occurs while deleting the route calculator
     *                             - If the route calculator was not found, a {@link ResourceNotFoundException} will be thrown
     *                             - If any other error occurs, a generic {@link CompletionException} will be thrown
     */
    public CompletableFuture<Void> deleteRouteCalculator(String calcName) {
        DeleteRouteCalculatorRequest calculatorRequest = DeleteRouteCalculatorRequest.builder()
            .calculatorName(calcName)
            .build();

        return getClient().deleteRouteCalculator(calculatorRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The route calculator was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete the route calculator: " + exception.getMessage(), exception);
                }
                logger.info("The route calculator {} was deleted.", calcName);
            })
            .thenApply(response -> null);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [BatchUpdateDevicePosition](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/BatchUpdateDevicePosition)
  + [CalculateRoute](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CalculateRoute)
  + [CreateGeofenceCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateGeofenceCollection)
  + [CreateKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateKey)
  + [CreateMap](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateMap)
  + [CreateRouteCalculator](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateRouteCalculator)
  + [CreateTracker](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateTracker)
  + [DeleteGeofenceCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteGeofenceCollection)
  + [DeleteKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteKey)
  + [DeleteMap](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteMap)
  + [DeleteRouteCalculator](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteRouteCalculator)
  + [DeleteTracker](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteTracker)
  + [GetDevicePosition](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/GetDevicePosition)
  + [PutGeofence](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/PutGeofence)

## Tindakan
<a name="actions"></a>

### `BatchUpdateDevicePosition`
<a name="location_BatchUpdateDevicePosition_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchUpdateDevicePosition`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Updates the position of a device in the location tracking system.
     *
     * @param trackerName the name of the tracker associated with the device
     * @param deviceId    the unique identifier of the device
     * @throws RuntimeException if an error occurs while updating the device position
     */
    public CompletableFuture<BatchUpdateDevicePositionResponse> updateDevicePosition(String trackerName, String deviceId) {
        double latitude = 37.7749;  // Example: San Francisco
        double longitude = -122.4194;

        DevicePositionUpdate positionUpdate = DevicePositionUpdate.builder()
            .deviceId(deviceId)
            .sampleTime(Instant.now()) // Timestamp of position update.
            .position(Arrays.asList(longitude, latitude)) // AWS requires [longitude, latitude]
            .build();

        BatchUpdateDevicePositionRequest request = BatchUpdateDevicePositionRequest.builder()
            .trackerName(trackerName)
            .updates(positionUpdate)
            .build();

        CompletableFuture<BatchUpdateDevicePositionResponse> futureResponse = getClient().batchUpdateDevicePosition(request);
        return futureResponse.whenComplete((response, exception) -> {
            if (exception != null) {
                Throwable cause = exception.getCause();
                if (cause instanceof ResourceNotFoundException) {
                    throw new CompletionException("The resource was not found: " + cause.getMessage(), cause);
                } else {
                    throw new CompletionException("Error updating device position: " + exception.getMessage(), exception);
                }
            }
        });
    }
```
+  Untuk detail API, lihat [BatchUpdateDevicePosition](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/BatchUpdateDevicePosition)di *Referensi AWS SDK for Java 2.x API*. 

### `CalculateRoute`
<a name="location_CalculateRoute_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CalculateRoute`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Calculates the distance between two locations asynchronously.
     *
     * @param routeCalcName the name of the route calculator to use
     * @return a {@link CompletableFuture} that will complete with a {@link CalculateRouteResponse} containing the distance and estimated duration of the route
     */
    public CompletableFuture<CalculateRouteResponse> calcDistanceAsync(String routeCalcName) {
        // Define coordinates for Seattle, WA and Vancouver, BC.
        List<Double> departurePosition = Arrays.asList(-122.3321, 47.6062);
        List<Double> arrivePosition = Arrays.asList(-123.1216, 49.2827);

        CalculateRouteRequest request = CalculateRouteRequest.builder()
            .calculatorName(routeCalcName)
            .departurePosition(departurePosition)
            .destinationPosition(arrivePosition)
            .travelMode("Car") // Options: Car, Truck, Walking, Bicycle
            .distanceUnit("Kilometers") // Options: Meters, Kilometers, Miles
            .build();

        return getClient().calculateRoute(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The AWS resource was not found: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Failed to calculate route: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [CalculateRoute](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CalculateRoute)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateGeofenceCollection`
<a name="location_CreateGeofenceCollection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGeofenceCollection`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Creates a new geofence collection.
     *
     * @param collectionName the name of the geofence collection to be created
     */
    public CompletableFuture<String> createGeofenceCollection(String collectionName) {
        CreateGeofenceCollectionRequest collectionRequest = CreateGeofenceCollectionRequest.builder()
            .collectionName(collectionName)
            .description("Created by using the AWS SDK for Java")
            .build();

        return getClient().createGeofenceCollection(collectionRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("The geofence collection was not created due to ConflictException.", cause);
                    }
                    throw new CompletionException("Failed to create geofence collection: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response.collectionArn()); // Return only the ARN
    }
```
+  Untuk detail API, lihat [CreateGeofenceCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateGeofenceCollection)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateKey`
<a name="location_CreateKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Creates a new API key with the specified name and restrictions.
     *
     * @param keyName the name of the API key to be created
     * @param mapArn  the Amazon Resource Name (ARN) of the map resource to which the API key will be associated
     * @return a {@link CompletableFuture} that completes with the Amazon Resource Name (ARN) of the created API key,
     * or {@code null} if the operation failed
     */
    public CompletableFuture<String> createKey(String keyName, String mapArn) {
        ApiKeyRestrictions keyRestrictions = ApiKeyRestrictions.builder()
            .allowActions("geo:GetMap*")
            .allowResources(mapArn)
            .build();

        CreateKeyRequest request = CreateKeyRequest.builder()
            .keyName(keyName)
            .restrictions(keyRestrictions)
            .noExpiry(true)
            .build();

        return getClient().createKey(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof AccessDeniedException) {
                        throw new CompletionException("The request was denied because of insufficient access or permissions.", cause);
                    }
                    throw new CompletionException("Failed to create API key: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response.keyArn()); // This will never return null if the response reaches here
    }
```
+  Untuk detail API, lihat [CreateKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateKey)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateMap`
<a name="location_CreateMap_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMap`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Creates a new map with the specified name and configuration.
     *
     * @param mapName the name of the map to be created
     * @return a {@link CompletableFuture} that, when completed, will contain the Amazon Resource Name (ARN) of the created map
     * @throws CompletionException if an error occurs while creating the map, such as exceeding the service quota
     */
    public CompletableFuture<String> createMap(String mapName) {
        MapConfiguration configuration = MapConfiguration.builder()
            .style("VectorEsriNavigation")
            .build();

        CreateMapRequest mapRequest = CreateMapRequest.builder()
            .mapName(mapName)
            .configuration(configuration)
            .description("A map created using the Java V2 API")
            .build();

        return getClient().createMap(mapRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ServiceQuotaExceededException) {
                        throw new CompletionException("The operation was denied because the request would exceed the maximum quota.", cause);
                    }
                    throw new CompletionException("Failed to create map: " + exception.getMessage(), exception);
                }
            })
            .thenApply(response -> response.mapArn()); // Return the map ARN
    }
```
+  Untuk detail API, lihat [CreateMap](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateMap)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateRouteCalculator`
<a name="location_CreateRouteCalculator_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRouteCalculator`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Creates a new route calculator with the specified name and data source.
     *
     * @param routeCalcName the name of the route calculator to be created
     */
    public CompletableFuture<CreateRouteCalculatorResponse> createRouteCalculator(String routeCalcName) {
        String dataSource = "Esri"; // or "Here"
        CreateRouteCalculatorRequest request = CreateRouteCalculatorRequest.builder()
            .calculatorName(routeCalcName)
            .dataSource(dataSource)
            .build();

        return getClient().createRouteCalculator(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("A conflict error occurred: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Failed to create route calculator: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [CreateRouteCalculator](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateRouteCalculator)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateTracker`
<a name="location_CreateTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTracker`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Creates a new tracker resource in your AWS account, which you can use to track the location of devices.
     *
     * @param trackerName the name of the tracker to be created
     * @return a {@link CompletableFuture} that, when completed, will contain the Amazon Resource Name (ARN) of the created tracker
     */
    public CompletableFuture<String> createTracker(String trackerName) {
        CreateTrackerRequest trackerRequest = CreateTrackerRequest.builder()
            .description("Created using the Java V2 SDK")
            .trackerName(trackerName)
            .positionFiltering("TimeBased") // Options: TimeBased, DistanceBased, AccuracyBased
            .build();

        return getClient().createTracker(trackerRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ConflictException) {
                        throw new CompletionException("Conflict occurred while creating tracker: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error creating tracker: " + exception.getMessage(), exception);
                }
            })
            .thenApply(CreateTrackerResponse::trackerArn); // Return only the tracker ARN
    }
```
+  Untuk detail API, lihat [CreateTracker](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/CreateTracker)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteGeofenceCollection`
<a name="location_DeleteGeofenceCollection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteGeofenceCollection`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Deletes a geofence collection asynchronously.
     *
     * @param collectionName the name of the geofence collection to be deleted
     * @return a {@link CompletableFuture} that completes when the geofence collection has been deleted
     */
    public CompletableFuture<Void> deleteGeofenceCollectionAsync(String collectionName) {
        DeleteGeofenceCollectionRequest collectionRequest = DeleteGeofenceCollectionRequest.builder()
            .collectionName(collectionName)
            .build();

        return getClient().deleteGeofenceCollection(collectionRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The requested geofence collection was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete geofence collection: " + exception.getMessage(), exception);
                }
                logger.info("The geofence collection {} was deleted.", collectionName);
            })
            .thenApply(response -> null);
    }
```
+  Untuk detail API, lihat [DeleteGeofenceCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteGeofenceCollection)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteKey`
<a name="location_DeleteKey_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKey`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Deletes the specified key from the key-value store.
     *
     * @param keyName the name of the key to be deleted
     * @return a {@link CompletableFuture} that completes when the key has been deleted
     * @throws CompletionException if the key was not found or if an error occurred during the deletion process
     */
    public CompletableFuture<Void> deleteKey(String keyName) {
        DeleteKeyRequest keyRequest = DeleteKeyRequest.builder()
            .keyName(keyName)
            .build();

        return getClient().deleteKey(keyRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The key was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete key: " + exception.getMessage(), exception);
                }
                logger.info("The key {} was deleted.", keyName);
            })
            .thenApply(response -> null);
    }
```
+  Untuk detail API, lihat [DeleteKey](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteKey)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteMap`
<a name="location_DeleteMap_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMap`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Deletes a map with the specified name.
     *
     * @param mapName the name of the map to be deleted
     * @return a {@link CompletableFuture} that completes when the map deletion is successful, or throws a {@link CompletionException} if an error occurs
     */
    public CompletableFuture<Void> deleteMap(String mapName) {
        DeleteMapRequest mapRequest = DeleteMapRequest.builder()
            .mapName(mapName)
            .build();

        return getClient().deleteMap(mapRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The map was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete map: " + exception.getMessage(), exception);
                }
                logger.info("The map {} was deleted.", mapName);
            })
            .thenApply(response -> null);
    }
```
+  Untuk detail API, lihat [DeleteMap](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteMap)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteRouteCalculator`
<a name="location_DeleteRouteCalculator_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRouteCalculator`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Deletes a route calculator from the system.
     *
     * @param calcName the name of the route calculator to delete
     * @return a {@link CompletableFuture} that completes when the route calculator has been deleted
     * @throws CompletionException if an error occurs while deleting the route calculator
     *                             - If the route calculator was not found, a {@link ResourceNotFoundException} will be thrown
     *                             - If any other error occurs, a generic {@link CompletionException} will be thrown
     */
    public CompletableFuture<Void> deleteRouteCalculator(String calcName) {
        DeleteRouteCalculatorRequest calculatorRequest = DeleteRouteCalculatorRequest.builder()
            .calculatorName(calcName)
            .build();

        return getClient().deleteRouteCalculator(calculatorRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The route calculator was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete the route calculator: " + exception.getMessage(), exception);
                }
                logger.info("The route calculator {} was deleted.", calcName);
            })
            .thenApply(response -> null);
    }
```
+  Untuk detail API, lihat [DeleteRouteCalculator](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteRouteCalculator)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteTracker`
<a name="location_DeleteTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTracker`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Deletes a tracker with the specified name.
     *
     * @param trackerName the name of the tracker to be deleted
     * @return a {@link CompletableFuture} that completes when the tracker has been deleted
     * @throws CompletionException if an error occurs while deleting the tracker
     *                             - if the tracker was not found, a {@link ResourceNotFoundException} is thrown wrapped in the CompletionException
     *                             - if any other error occurs, a generic CompletionException is thrown with the error message
     */
    public CompletableFuture<Void> deleteTracker(String trackerName) {
        DeleteTrackerRequest trackerRequest = DeleteTrackerRequest.builder()
            .trackerName(trackerName)
            .build();

        return getClient().deleteTracker(trackerRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The tracker was not found.", cause);
                    }
                    throw new CompletionException("Failed to delete the tracker: " + exception.getMessage(), exception);
                }
                logger.info("The tracker {} was deleted.", trackerName);
            })
            .thenApply(response -> null); // Ensures CompletableFuture<Void>
    }
```
+  Untuk detail API, lihat [DeleteTracker](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/DeleteTracker)di *Referensi AWS SDK for Java 2.x API*. 

### `GetDevicePosition`
<a name="location_GetDevicePosition_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDevicePosition`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Retrieves the position of a device using the provided LocationClient.
     *
     * @param trackerName The name of the tracker associated with the device.
     * @param deviceId    The ID of the device to retrieve the position for.
     * @throws RuntimeException If there is an error fetching the device position.
     */
    public CompletableFuture<GetDevicePositionResponse> getDevicePosition(String trackerName, String deviceId) {
        GetDevicePositionRequest request = GetDevicePositionRequest.builder()
            .trackerName(trackerName)
            .deviceId(deviceId)
            .build();

        return getClient().getDevicePosition(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ResourceNotFoundException) {
                        throw new CompletionException("The AWS resource was not found: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error fetching device position: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [GetDevicePosition](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/GetDevicePosition)di *Referensi AWS SDK for Java 2.x API*. 

### `PutGeofence`
<a name="location_PutGeofence_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutGeofence`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Adds a new geofence to the specified collection.
     *
     * @param collectionName the name of the geofence collection to add the geofence to
     * @param geoId          the unique identifier for the geofence
     */
    public CompletableFuture<PutGeofenceResponse> putGeofence(String collectionName, String geoId) {
        // Define the geofence geometry (polygon).
        GeofenceGeometry geofenceGeometry = GeofenceGeometry.builder()
            .polygon(List.of(
                List.of(
                    List.of(-122.3381, 47.6101), // First point
                    List.of(-122.3281, 47.6101),
                    List.of(-122.3281, 47.6201),
                    List.of(-122.3381, 47.6201),
                    List.of(-122.3381, 47.6101) // Closing the polygon
                )
            ))
            .build();

        PutGeofenceRequest geofenceRequest = PutGeofenceRequest.builder()
            .collectionName(collectionName) // Specify the collection.
            .geofenceId(geoId) // Unique ID for the geofence.
            .geometry(geofenceGeometry)
            .build();

        return getClient().putGeofence(geofenceRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof ValidationException) {
                        throw new CompletionException("Validation error while creating geofence: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error creating geofence: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [PutGeofence](https://docs.aws.amazon.com/goto/SdkForJavaV2/location-2020-11-19/PutGeofence)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Location Service Places menggunakan SDK for Java 2.x
<a name="java_2_geo-places_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Location Service Places.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ReverseGeocode`
<a name="geo-places_ReverseGeocode_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReverseGeocode`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Performs reverse geocoding using the AWS Geo Places API.
     * Reverse geocoding is the process of converting geographic coordinates (latitude and longitude) to a human-readable address.
     * This method uses the latitude and longitude of San Francisco as the input, and prints the resulting address.
     */
    public CompletableFuture<ReverseGeocodeResponse> reverseGeocode() {
        double latitude = 37.7749;  // San Francisco
        double longitude = -122.4194;
        logger.info("Use latitude 37.7749 and longitude -122.4194");

        // AWS expects [longitude, latitude].
        List<Double> queryPosition = List.of(longitude, latitude);
        ReverseGeocodeRequest request = ReverseGeocodeRequest.builder()
            .queryPosition(queryPosition)
            .build();
        CompletableFuture<ReverseGeocodeResponse> futureResponse =
            getGeoPlacesClient().reverseGeocode(request);

        return futureResponse.whenComplete((response, exception) -> {
            if (exception != null) {
                Throwable cause = exception.getCause();
                if (cause instanceof software.amazon.awssdk.services.geoplaces.model.ValidationException) {
                    throw new CompletionException("A validation error occurred: " + cause.getMessage(), cause);
                }
                throw new CompletionException("Error performing reverse geocoding", exception);
            }

            response.resultItems().forEach(result ->
                logger.info("The address is: " + result.address().label())
            );
        });
    }
```
+  Untuk detail API, lihat [ReverseGeocode](https://docs.aws.amazon.com/goto/SdkForJavaV2/geo-places-2020-11-19/ReverseGeocode)di *Referensi AWS SDK for Java 2.x API*. 

### `SearchNearby`
<a name="geo-places_SearchNearby_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchNearby`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Performs a nearby places search based on the provided geographic coordinates (latitude and longitude).
     * The method sends an asynchronous request to search for places within a 1-kilometer radius of the specified location.
     * The results are processed and printed once the search completes successfully.
     */
    public CompletableFuture<SearchNearbyResponse> searchNearBy() {
        double latitude = 37.7749;  // San Francisco
        double longitude = -122.4194;
        List<Double> queryPosition = List.of(longitude, latitude);

        // Set up the request for searching nearby places.
        SearchNearbyRequest request = SearchNearbyRequest.builder()
            .queryPosition(queryPosition)  // Set the position
            .queryRadius(1000L)  // Radius in meters (1000 meters = 1 km).
            .build();

        return getGeoPlacesClient().searchNearby(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof software.amazon.awssdk.services.geoplaces.model.ValidationException) {
                        throw new CompletionException("A validation error occurred: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error performing place search", exception);
                }

                // Process the response and print the results.
                response.resultItems().forEach(result -> {
                    logger.info("Place Name: " + result.placeType().name());
                    logger.info("Address: " + result.address().label());
                    logger.info("Distance: " + result.distance() + " meters");
                    logger.info("-------------------------");
                });
            });
    }
```
+  Untuk detail API, lihat [SearchNearby](https://docs.aws.amazon.com/goto/SdkForJavaV2/geo-places-2020-11-19/SearchNearby)di *Referensi AWS SDK for Java 2.x API*. 

### `SearchText`
<a name="geo-places_SearchText_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchText`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/location#code-examples). 

```
    /**
     * Searches for a place using the provided search query and prints the detailed information of the first result.
     *
     * @param searchQuery the search query to be used for the place search (ex, coffee shop)
     */
    public CompletableFuture<Void> searchText(String searchQuery) {
        double latitude = 37.7749;  // San Francisco
        double longitude = -122.4194;
        List<Double> queryPosition = List.of(longitude, latitude);

        SearchTextRequest request = SearchTextRequest.builder()
                .queryText(searchQuery)
                .biasPosition(queryPosition)
                .build();

        return getGeoPlacesClient().searchText(request)
                .thenCompose(response -> {
                    if (response.resultItems().isEmpty()) {
                        logger.info("No places found.");
                        return CompletableFuture.completedFuture(null);
                    }

                    // Get the first place ID
                    String placeId = response.resultItems().get(0).placeId();
                    logger.info("Found Place with id: " + placeId);

                    // Fetch detailed info using getPlace
                    GetPlaceRequest getPlaceRequest = GetPlaceRequest.builder()
                            .placeId(placeId)
                            .build();

                    return getGeoPlacesClient().getPlace(getPlaceRequest)
                            .thenAccept(placeResponse -> {
                                logger.info("Detailed Place Information:");
                                logger.info("Name: " + placeResponse.placeType().name());
                                logger.info("Address: " + placeResponse.address().label());

                                if (placeResponse.foodTypes() != null && !placeResponse.foodTypes().isEmpty()) {
                                    logger.info("Food Types:");
                                    placeResponse.foodTypes().forEach(foodType -> {
                                        logger.info("  - " + foodType);
                                    });
                                } else {
                                    logger.info("No food types available.");
                                }
                                logger.info("-------------------------");
                            });
                })
                .exceptionally(exception -> {
                    Throwable cause = exception.getCause();
                    if (cause instanceof software.amazon.awssdk.services.geoplaces.model.ValidationException) {
                        throw new CompletionException("A validation error occurred: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Error performing place search", exception);
                });
    }
```
+  Untuk detail API, lihat [SearchText](https://docs.aws.amazon.com/goto/SdkForJavaV2/geo-places-2020-11-19/SearchText)di *Referensi AWS SDK for Java 2.x API*. 

# AWS Marketplace Contoh API Katalog menggunakan SDK for Java 2.x
<a name="java_2_marketplace-catalog_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS Marketplace Catalog API.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Produk AMI](#ami_products)
+ [Penawaran mitra saluran](#channel_partner_offers)
+ [Produk kontainer](#container_products)
+ [Entitas](#entities)
+ [Penawaran](#offers)
+ [Produk](#products)
+ [Otorisasi penjualan kembali](#resale_authorization)
+ [Produk SaaS](#saas_products)
+ [Utilitas](#utilities)

## Produk AMI
<a name="ami_products"></a>

### Tambahkan dimensi ke produk AMI yang ada dan perbarui ketentuan harga penawaran
<a name="marketplace-catalog_AddDimensionToAmiProductAndSetPriceInPublicOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menambahkan dimensi ke produk AMI yang ada dan memperbarui ketentuan harga penawaran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Identifier": "prod-1111111111111",
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": [
                {
                    "Key": "m7g.8xlarge",
                    "Description": "m7g.8xlarge",
                    "Name": "m7g.8xlarge",
                    "Types": [
                        "Metered"
                    ],
                    "Unit": "Hrs"
                }
            ]
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "m5.large",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "m7g.4xlarge",
                                        "Price": "0.45"
                                    },
                                    {
                                        "DimensionKey": "m7g.2xlarge",
                                        "Price": "0.45"
                                    },
                                    {
                                        "DimensionKey": "m7g.8xlarge",
                                        "Price": "0.55"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Menambahkan wilayah tempat produk AMI digunakan
<a name="marketplace-catalog_AddRegionExistingAmiProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menambahkan wilayah tempat produk AMI dikerahkan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "AddRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-east-2",
                    "us-west-2"
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat produk AMI publik atau terbatas dan penawaran umum dengan harga tahunan per jam
<a name="marketplace-catalog_CreateLimitedAmiProductAndPublicOfferWithHourlyAnnualPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk AMI publik atau terbatas dan penawaran umum dengan harga tahunan per jam. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Operating Systems"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "AddRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-east-1"
                ]
            }
        },
        {
            "ChangeType": "AddInstanceTypes",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "InstanceTypes": [
                    "t2.micro"
                ]
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Version": {
                    "VersionTitle": "Test AMI Version1.0",
                    "ReleaseNotes": "Test AMI Version"
                },
                "DeliveryOptions": [
                    {
                        "Details": {
                            "AmiDeliveryOptionDetails": {
                                "AmiSource": {
                                    "AmiId": "ami-11111111111111111",
                                    "AccessRoleArn": "arn:aws:iam::111111111111:role/AWSMarketplaceAmiIngestion",
                                    "UserName": "ec2-user",
                                    "OperatingSystemName": "AMAZONLINUX",
                                    "OperatingSystemVersion": "10.0.14393",
                                    "ScanningPort": 22
                                },
                                "UsageInstructions": "Test AMI Version",
                                "RecommendedInstanceType": "t2.micro",
                                "SecurityGroups": [
                                    {
                                        "IpProtocol": "tcp",
                                        "IpRanges": [
                                            "0.0.0.0/0"
                                        ],
                                        "FromPort": 10,
                                        "ToPort": 22
                                    }
                                ]
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "t2.micro",
                    "Description": "t2.micro",
                    "Name": "t2.micro",
                    "Types": [
                        "Metered"
                    ],
                    "Unit": "Hrs"
                }
            ]
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with hourly-annual pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.15"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P365D"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat produk AMI publik atau terbatas dan penawaran umum dengan harga bulanan per jam
<a name="marketplace-catalog_CreateLimitedAmiProductAndPublicOfferWithHourlyMonthlyPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk AMI publik atau terbatas dan penawaran umum dengan harga bulanan per jam. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Operating Systems"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "AddRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-east-1"
                ]
            }
        },
        {
            "ChangeType": "AddInstanceTypes",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "InstanceTypes": [
                    "t2.micro"
                ]
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Version": {
                    "VersionTitle": "Test AMI Version1.0",
                    "ReleaseNotes": "Test AMI Version"
                },
                "DeliveryOptions": [
                    {
                        "Details": {
                            "AmiDeliveryOptionDetails": {
                                "AmiSource": {
                                    "AmiId": "ami-11111111111111111",
                                    "AccessRoleArn": "arn:aws:iam::111111111111:role/AWSMarketplaceAmiIngestion",
                                    "UserName": "ec2-user",
                                    "OperatingSystemName": "AMAZONLINUX",
                                    "OperatingSystemVersion": "10.0.14393",
                                    "ScanningPort": 22
                                },
                                "UsageInstructions": "Test AMI Version",
                                "RecommendedInstanceType": "t2.micro",
                                "SecurityGroups": [
                                    {
                                        "IpProtocol": "tcp",
                                        "IpRanges": [
                                            "0.0.0.0/0"
                                        ],
                                        "FromPort": 10,
                                        "ToPort": 22
                                    }
                                ]
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "t2.micro",
                    "Description": "t2.micro",
                    "Name": "t2.micro",
                    "Types": [
                        "Metered"
                    ],
                    "Unit": "Hrs"
                }
            ]
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with hourly-monthly pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.15"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "RecurringPaymentTerm",
                        "CurrencyCode": "USD",
                        "BillingPeriod": "Monthly",
                        "Price": "15.0"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat produk AMI publik atau terbatas dan penawaran umum dengan harga per jam
<a name="marketplace-catalog_CreateLimitedAmiProductAndPublicOfferWithHourlyPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk AMI publik atau terbatas dan penawaran umum dengan harga per jam. Contoh ini menciptakan EULA baik dan standar atau kustom.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Operating Systems"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "AddRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-east-1"
                ]
            }
        },
        {
            "ChangeType": "AddInstanceTypes",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "InstanceTypes": [
                    "t2.micro"
                ]
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Version": {
                    "VersionTitle": "Test AMI Version1.0",
                    "ReleaseNotes": "Test AMI Version"
                },
                "DeliveryOptions": [
                    {
                        "Details": {
                            "AmiDeliveryOptionDetails": {
                                "AmiSource": {
                                    "AmiId": "ami-11111111111111111",
                                    "AccessRoleArn": "arn:aws:iam::111111111111:role/AWSMarketplaceAmiIngestion",
                                    "UserName": "ec2-user",
                                    "OperatingSystemName": "AMAZONLINUX",
                                    "OperatingSystemVersion": "10.0.14393",
                                    "ScanningPort": 22
                                },
                                "UsageInstructions": "Test AMI Version",
                                "RecommendedInstanceType": "t2.micro",
                                "SecurityGroups": [
                                    {
                                        "IpProtocol": "tcp",
                                        "IpRanges": [
                                            "0.0.0.0/0"
                                        ],
                                        "FromPort": 10,
                                        "ToPort": 22
                                    }
                                ]
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "t2.micro",
                    "Description": "t2.micro",
                    "Name": "t2.micro",
                    "Types": [
                        "Metered"
                    ],
                    "Unit": "Hrs"
                }
            ]
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with hourly pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.15"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat draf produk AMI dengan draf penawaran umum
<a name="marketplace-catalog_CreateDraftAmiProductWithDraftPublicOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf produk AMI dengan draf penawaran umum.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product"
            }
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier",
                "Name": "Test Offer"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Batasi wilayah tempat produk AMI dikerahkan
<a name="marketplace-catalog_RestrictRegionExistingAmiProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membatasi wilayah tempat produk AMI dikerahkan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "RestrictRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-west-2"
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Batasi visibilitas produk
<a name="marketplace-catalog_RestrictExistingAmi_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membatasi visibilitas produk.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateVisibility",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "TargetVisibility": "Restricted"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Tentukan apakah aset AMI digunakan di wilayah baru
<a name="marketplace-catalog_UpdateFutureRegionSupport_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menentukan apakah aset AMI dikerahkan di wilayah baru yang dibangun oleh AWS untuk mendukung wilayah masa depan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateFutureRegionSupport",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "FutureRegionSupport": {
                    "SupportedRegions": [
                        "All"
                    ]
                }
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

## Penawaran mitra saluran
<a name="channel_partner_offers"></a>

### Buat draf CPPO untuk semua jenis produk
<a name="marketplace-catalog_CreateDraftCppoOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf CPPO untuk semua jenis produk sehingga Anda dapat meninjaunya secara internal sebelum dipublikasikan ke pembeli.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOfferUsingResaleAuthorization",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ResaleAuthorizationId": "11111111-1111-1111-1111-111111111111",
                "Name": "Test Offer",
                "Description": "Test product"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi pengganti otorisasi penjualan kembali dengan harga kontrak
<a name="marketplace-catalog_CreateResaleAuthorizationReplacementOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi pengganti otorisasi penjualan kembali dari perjanjian yang ada dengan harga kontrak.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateReplacementOfferUsingResaleAuthorization",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateReplacementOfferResaleAuth",
            "DetailsDocument": {
                "AgreementId": "agmt-1111111111111111111111111",
                "ResaleAuthorizationId": "resaleauthz-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test replacement offer for SaaSProduct using AWS Marketplace API Reference Codes",
                "Description": "Test private resale replacement offer with contract pricing for SaaSProduct"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "FixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.0",
                        "Duration": "P12M",
                        "Grants": [
                            {
                                "DimensionKey": "BasicService",
                                "MaxQuantity": 2
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementEndDate": "2024-01-30"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "PaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2024-01-01",
                                "ChargeAmount": "0"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Daftar semua CPPOs yang dibuat oleh mitra saluran
<a name="marketplace-catalog_ListAllCppoOffers_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat daftar semua yang CPPOs dibuat oleh mitra saluran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
package com.example.awsmarketplace.catalogapi;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityResponse;
import software.amazon.awssdk.services.marketplacecatalog.model.EntitySummary;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesResponse;

public class ListAllCppoOffers {

	/*
	 * List all CPPOs created by a channel partner
	 */
	public static void main(String[] args) {
		
		List<String> cppoOfferIds = getAllCppoOfferIds();

		ReferenceCodesUtils.formatOutput(cppoOfferIds);
	}

	public static List<String> getAllCppoOfferIds() {
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		// get all offer entity ids
		List<String> entityIdList = new ArrayList<String>();

		ListEntitiesRequest listEntitiesRequest = 
				ListEntitiesRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityType(ENTITY_TYPE_OFFER)
				.maxResults(10)
				.nextToken(null)
				.build();

		ListEntitiesResponse listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);

		for (EntitySummary entitySummary : listEntitiesResponse.entitySummaryList()) {
			entityIdList.add(entitySummary.entityId());
		}

		while (listEntitiesResponse.nextToken() != null) {
			listEntitiesRequest = 
					ListEntitiesRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityType(ENTITY_TYPE_OFFER)
					.maxResults(10)
					.nextToken(listEntitiesResponse.nextToken())
					.build();
			listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);

			for (EntitySummary entitySummary : listEntitiesResponse.entitySummaryList()) {
				entityIdList.add(entitySummary.entityId());
			}
		}

		// filter for CPPO offers: ResaleAuthorizationId exists in Details

		List<String> cppoOfferIds = new ArrayList<String>();
		
		for (String entityId : entityIdList) {
			DescribeEntityRequest describeEntityRequest = 
					DescribeEntityRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityId(entityId)
					.build();
			DescribeEntityResponse describeEntityResponse = marketplaceCatalogClient.describeEntity(describeEntityRequest);
			
			Document resaleAuthorizationDocument = describeEntityResponse.detailsDocument().asMap().get(ATTRIBUTE_RESALE_AUTHORIZATION_ID);
			String resaleAuthorizationId = resaleAuthorizationDocument != null ? resaleAuthorizationDocument.asString() : "";

			if (!resaleAuthorizationId.isEmpty()) {
			    cppoOfferIds.add(resaleAuthorizationId);
			}
		}
		return cppoOfferIds;
	}

}
```
+  Untuk detail API, lihat [ListEntities](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/ListEntities)di *Referensi AWS SDK for Java 2.x API*. 

### Buat daftar semua otorisasi penjualan kembali bersama yang tersedia untuk mitra saluran
<a name="marketplace-catalog_ListAllSharedResaleAuthorizations_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mencantumkan semua otorisasi penjualan kembali bersama yang tersedia untuk mitra saluran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
package com.example.awsmarketplace.catalogapi;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesResponse;

public class ListAllSharedResaleAuthorizations {

	/*
	 * list all resale authorizations shared to an account
	 */
	public static void main(String[] args) {
		
		List<ListEntitiesResponse> responseList = getListEntityResponseList();
		ReferenceCodesUtils.formatOutput(responseList);
	}

	public static List<ListEntitiesResponse> getListEntityResponseList() {
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		List<ListEntitiesResponse> responseList = new ArrayList<ListEntitiesResponse>();

		ListEntitiesRequest listEntitiesRequest = 
				ListEntitiesRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityType(ENTITY_TYPE_RESALE_AUTHORIZATION)
				.maxResults(10)
				.ownershipType(OWNERSHIP_TYPE_SHARED)
				.nextToken(null)
				.build();

		ListEntitiesResponse listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);

		responseList.add(listEntitiesResponse);

		while (listEntitiesResponse.nextToken() != null) {
			listEntitiesRequest = ListEntitiesRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityType(ENTITY_TYPE_RESALE_AUTHORIZATION)
					.maxResults(10)
					.ownershipType(OWNERSHIP_TYPE_SHARED)
					.nextToken(listEntitiesResponse.nextToken())
					.build();

			listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);

			responseList.add(listEntitiesResponse);
		}
		return responseList;
	}
	
}
```
+  Untuk detail API, lihat [ListEntities](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/ListEntities)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan CPPO dan tambahkan EULA pembeli
<a name="marketplace-catalog_PublishCppoEula_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan CPPO dan menambahkan EULA pembeli.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateOfferUsingResaleAuthorization",
            "Entity": {
            "Type": "Offer@1.0"
            },
            "ChangeName": "CreateCPPOoffer",
            "DetailsDocument": {
                "ResaleAuthorizationId":"resaleauthz-1111111111111", 
                "Name": "Test Offer",
                "Description":"Test product"
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
        			{			
            			"Type": "LegalTerm",
            			"Documents": [
            				{
            					"Type": "CustomEula", 
            					"Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
            				}
            			]
        			}
    			]
        	}
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": ["222222222222"]
                    }
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-07-31"
                }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P450D"
                    }
                ]
             }
        },
        { 
            "ChangeType":"ReleaseOffer",
            "Entity":{
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan CPPO menggunakan otorisasi penjualan kembali satu kali dan perbarui markup harga
<a name="marketplace-catalog_PublishOneTimeCppoWithPriceMarkup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan CPPO menggunakan otorisasi penjualan kembali satu kali pada produk AMI, SaaS, atau Container dan memperbarui markup harga.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateOfferUsingResaleAuthorization",
            "Entity": {
            "Type": "Offer@1.0"
            },
            "ChangeName": "CreateCPPOoffer",
            "DetailsDocument": {
                "ResaleAuthorizationId":"resaleauthz-1111111111111", 
                "Name": "Test Offer",
                "Description":"Test product"
            }
        },
        {
            "ChangeType": "UpdateMarkup",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Percentage" : "5.0"
        }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": ["222222222222"]
                    }
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-07-31"
                }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P450D"
                    }
                ]
             }
        },
        { 
            "ChangeType":"ReleaseOffer",
            "Entity":{
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan draf CPPO dan perbarui markup harga
<a name="marketplace-catalog_PublishCppoPriceMarkup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan draf CPPO dan memperbarui markup harga.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateOfferUsingResaleAuthorization",
            "Entity": {
            "Type": "Offer@1.0"
            },
            "ChangeName": "CreateCPPOoffer",
            "DetailsDocument": {
                "ResaleAuthorizationId":"resaleauthz-1111111111111", 
                "Name": "Test Offer",
                "Description":"Test product"
            }
        },
        {
            "ChangeType": "UpdateMarkup",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Percentage" : "5.0"
        }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": ["222222222222"]
                    }
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-07-31"
                }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P450D"
                    }
                ]
             }
        },
        { 
            "ChangeType":"ReleaseOffer",
            "Entity":{
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui tanggal kedaluwarsa CPPO
<a name="marketplace-catalog_UpdateCppoExpiryDate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui tanggal kedaluwarsa CPPO untuk memberi pembeli lebih banyak waktu untuk mengevaluasi dan menerima penawaran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2025-07-31"
                }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

## Produk kontainer
<a name="container_products"></a>

### Buat produk kontainer draf dengan draf penawaran umum
<a name="marketplace-catalog_CreateDraftContainerProductWithDraftPublicOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk kontainer draf dengan draf penawaran umum.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog":"AWSMarketplace",
    "changeSet":[
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "ContainerProduct@1.0"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product"
            }
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier",
                "Name": "Test Offer"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat produk kontainer terbatas dengan penawaran umum dan harga kontrak
<a name="marketplace-catalog_CreateLimitedContainerProductPublicOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk kontainer terbatas dengan penawaran umum, harga kontrak, dan EULA standar.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "Entity": {
                "Type": "ContainerProduct@1.0"
            },
            "DetailsDocument": {},
            "ChangeName": "CreateProductChange"
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "Categories": [
                    "Streaming solutions"
                ],
                "ProductTitle": "ContainerProduct",
                "AdditionalResources": [],
                "LongDescription": "Long description goes here",
                "SearchKeywords": [
                    "container streaming"
                ],
                "ShortDescription": "Description1",
                "Highlights": [
                    "Highlight 1",
                    "Highlight 2"
                ],
                "SupportDescription": "No support available",
                "VideoUrls": []
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "Cores",
                    "Description": "Cores per cluster",
                    "Name": "Cores",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111"
                    ]
                }
            }
        },
        {
            "ChangeType": "AddRepositories",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Repositories": [
                    {
                        "RepositoryName": "uniquerepositoryname",
                        "RepositoryType": "ECR"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            },
            "ChangeName": "CreateOfferChange"
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "Constraints": {
                                    "MultipleDimensionSelection": "Disallowed",
                                    "QuantityConfiguration": "Disallowed"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "Cores",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "No refunds"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Some container offer Name",
                "Description": "Some interesting container offer description"
            }
        },
        {
            "ChangeType": "UpdateRenewalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "RenewalTerm"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

## Entitas
<a name="entities"></a>

### Jelaskan semua entitas dalam satu panggilan
<a name="marketplace-catalog_BatchDescribeEntities_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana mendeskripsikan semua entitas dalam satu panggilan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.catalogapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.BatchDescribeEntitiesRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.EntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.BatchDescribeEntitiesResponse;
import software.amazon.awssdk.services.marketplacecatalog.model.EntityDetail;
import software.amazon.awssdk.services.marketplacecatalog.model.BatchDescribeErrorDetail;

import java.util.Arrays;
import java.util.Map;

public class BatchDescribeEntities {

    /*
     * BatchDescribe my entities in a single call and
     *  check if it contains all the information I need to know about the entities.
     */
    public static void main(String[] args) {

        MarketplaceCatalogClient marketplaceCatalogClient =
                MarketplaceCatalogClient.builder()
                        .httpClient(ApacheHttpClient.builder().build())
                        .credentialsProvider(ProfileCredentialsProvider.create())
                        .build();

        BatchDescribeEntitiesRequest batchDescribeEntitiesRequest =
                BatchDescribeEntitiesRequest.builder()
                        .entityRequestList(Arrays.asList(
                                EntityRequest.builder()
                                        .catalog(AWS_MP_CATALOG).entityId(OFFER_ID)
                                        .build(),
                                EntityRequest.builder()
                                        .catalog(AWS_MP_CATALOG).entityId(PRODUCT_ID)
                                        .build()))
                        .build();

        BatchDescribeEntitiesResponse batchDescribeEntitiesResponse = marketplaceCatalogClient.batchDescribeEntities(batchDescribeEntitiesRequest);

        // Reading the successful entities response
        Map<String, EntityDetail> entityDetailsMap = batchDescribeEntitiesResponse.entityDetails();
        for (Map.Entry<String, EntityDetail> entry : entityDetailsMap.entrySet()) {
            System.out.println("EntityId: " + entry.getKey());
            ReferenceCodesUtils.formatOutput(entry.getValue());
        }

        // Logging the failed entities error details
        Map<String, BatchDescribeErrorDetail> entityErrorsMap = batchDescribeEntitiesResponse.errors();
        for (Map.Entry<String, BatchDescribeErrorDetail> entry : entityErrorsMap.entrySet()) {
            System.out.println(String.format("EntityId: %s, ErrorCode: %s, ErrorMessage: %s", entry.getKey(),
                    entry.getValue().errorCode(), entry.getValue().errorMessage()));
        }
    }
}
```
+  Untuk detail API, lihat [BatchDescribeEntities](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/BatchDescribeEntities)di *Referensi AWS SDK for Java 2.x API*. 

### Buat daftar dan jelaskan semua penawaran yang terkait dengan suatu produk
<a name="marketplace-catalog_ListProductOffers_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat daftar dan menjelaskan semua penawaran yang terkait dengan suatu produk.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
package com.example.awsmarketplace.catalogapi;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityResponse;
import software.amazon.awssdk.services.marketplacecatalog.model.EntitySummary;
import software.amazon.awssdk.services.marketplacecatalog.model.EntityTypeFilters;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesResponse;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferFilters;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferProductIdFilter;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferTargetingFilter;

public class ListProductPrivateOffers {

	private static MarketplaceCatalogClient marketplaceCatalogClient = 
			MarketplaceCatalogClient.builder()
			.httpClient(ApacheHttpClient.builder().build())
			.credentialsProvider(ProfileCredentialsProvider.create())
			.build();
	/*
	 * retrieve all private offer information related to a single product
	 */
	public static void main(String[] args) {

		List<EntitySummary> entitySummaryList = getEntitySummaryList();
		
		// for each offer id, output the offer detail using DescribeEntity API
		
		for (EntitySummary entitySummary : entitySummaryList) {
			DescribeEntityRequest describeEntityRequest = 
					DescribeEntityRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityId(entitySummary.entityId())
					.build();
			DescribeEntityResponse describeEntityResponse = marketplaceCatalogClient.describeEntity(describeEntityRequest);
			ReferenceCodesUtils.formatOutput(describeEntityResponse);
		}
	}
	public static List<EntitySummary> getEntitySummaryList() {
		// define list entities filters
		
		EntityTypeFilters entityTypeFilters = 
				EntityTypeFilters.builder()
				.offerFilters(OfferFilters.builder()
						.targeting(OfferTargetingFilter.builder()
								.valueListWithStrings(OFFER_TARGETING_BUYERACCOUNTS)
								.build())
						.productId(OfferProductIdFilter.builder()
								.valueList(PRODUCT_ID)
								.build())
						.build())
				.build();
		
		ListEntitiesRequest listEntitiesRequest = 
				ListEntitiesRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityType(ENTITY_TYPE_OFFER).maxResults(50)
				.entityTypeFilters(entityTypeFilters)
				.nextToken(null)
				.build();
		
		ListEntitiesResponse listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
		
		// save all entitySummary of the results into entitySummaryList
		
		List<EntitySummary> entitySummaryList = new ArrayList<EntitySummary>();
		
		entitySummaryList.addAll(listEntitiesResponse.entitySummaryList());
		
		while ( listEntitiesResponse.nextToken() != null && listEntitiesResponse.nextToken().length() > 0) {
			listEntitiesRequest = 
					ListEntitiesRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityType(ENTITY_TYPE_OFFER).maxResults(50)
					.entityTypeFilters(entityTypeFilters)
					.nextToken(listEntitiesResponse.nextToken())
					.build();
			listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
			entitySummaryList.addAll(listEntitiesResponse.entitySummaryList());
		}
		return entitySummaryList;
	}

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [DescribeEntity](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/DescribeEntity)
  + [ListEntities](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/ListEntities)

## Penawaran
<a name="offers"></a>

### Buat dimensi khusus untuk produk SaaS dan buat penawaran pribadi
<a name="marketplace-catalog_CreateSaasProductCustomDimensionAndPrivateOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat dimensi khusus untuk produk SaaS dan membuat penawaran pribadi.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": [
                {
                    "Types": [
                        "Entitled"
                    ],
                    "Description": "Custom Pricing 4 w/ terms and coverage to be defined in Private Offer",
                    "Unit": "Units",
                    "Key": "Custom4",
                    "Name": "Custom Pricing 4"
                }
            ]
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            },
            "ChangeName": "CreateOfferChange"
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Private Test Offer - SaaS Contract Product",
                "Description": "Private Test Offer - SaaS Contract Product"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "Custom4",
                                        "Price": "300.0"
                                    }
                                ],
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P36M"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ],
    "ChangeSetName": "PrivateOfferWithCustomDimension"
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat draf penawaran pribadi untuk produk AMI atau SaaS
<a name="marketplace-catalog_CreateDraftPrivateOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf penawaran pribadi untuk produk AMI atau SaaS sehingga Anda dapat memeriksanya secara internal sebelum dipublikasikan ke pembeli.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "Test Private Offer"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan kontrak dan Pay-As-You-Go harga untuk produk SaaS
<a name="marketplace-catalog_CreatePrivateOfferWithContractWithPayAsYouGoPricingForSaasProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan kontrak dan Pay-As-You-Go harga untuk produk SaaS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan harga kontrak dan jadwal pembayaran yang fleksibel untuk produk SaaS
<a name="marketplace-catalog_CreatePrivateOfferWithContractPricingWithFlexiblePaymentScheduleForSaasProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga kontrak dan jadwal pembayaran yang fleksibel untuk produk SaaS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "FixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.0",
                        "Grants": [
                            {
                                "DimensionKey": "BasicService",
                                "MaxQuantity": 1
                            },
                            {
                                "DimensionKey": "PremiumService",
                                "MaxQuantity": 1
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P12M"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "PaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2024-01-01",
                                "ChargeAmount": "200.00"
                            },
                            {
                                "ChargeDate": "2024-02-01",
                                "ChargeAmount": "170.00"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan harga kontrak untuk produk Container
<a name="marketplace-catalog_CreatePrivateOfferWithContractPricingForContainerProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga kontrak untuk produk Container.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for Container product using AWS Marketplace API Reference Code",
                "Description": "Test private offer for Container product with contract pricing using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "Constraints": {
                                    "MultipleDimensionSelection": "Disallowed",
                                    "QuantityConfiguration": "Disallowed"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "ReqPerHour",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan harga kontrak untuk produk AMI
<a name="marketplace-catalog_CreatePrivateOfferWithContractPricingForAmiProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga kontrak untuk produk AMI.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with hourly annual pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "ReadOnlyUsers",
                                        "Price": "220.00"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan harga tahunan per jam dan jadwal pembayaran yang fleksibel untuk produk AMI
<a name="marketplace-catalog_CreatePrivateOfferWithHourlyAnnualPricingAndFlexiblePaymentScheduleForAmiProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga tahunan per jam dan jadwal pembayaran yang fleksibel untuk produk AMI.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with hourly annual pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.17"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "FixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.0",
                        "Duration": "P365D",
                        "Grants": [
                            {
                                "DimensionKey": "t2.micro",
                                "MaxQuantity": 1
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P650D"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "PaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2024-01-01",
                                "ChargeAmount": "200.00"
                            },
                            {
                                "ChargeDate": "2024-02-01",
                                "ChargeAmount": "170.00"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan harga tahunan per jam untuk produk AMI
<a name="marketplace-catalog_CreatePrivateOfferWithHourlyAnnualPricingForAmiProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga tahunan per jam untuk produk AMI.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with hourly annual pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.17"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P365D"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "220.00"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P650D"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan harga per jam untuk produk AMI
<a name="marketplace-catalog_CreatePrivateOfferWithHourlyPricingForAmiProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga per jam untuk produk AMI.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with hourly pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2025-01-01"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.15"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P30D"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan harga berlangganan untuk produk SaaS
<a name="marketplace-catalog_CreatePrivateOfferWithSubscriptionPricingForSaasProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga berlangganan untuk produk SaaS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.13"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.22"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P30D"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi dengan harga kontrak berjenjang untuk produk SaaS
<a name="marketplace-catalog_CreatePrivateOfferWithTieredContractPricingForSaasProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga kontrak berjenjang untuk produk SaaS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "120.00"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "200.00"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Disallowed",
                                    "QuantityConfiguration": "Disallowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran uji coba gratis publik dengan harga berlangganan untuk produk SaaS
<a name="marketplace-catalog_CreatePublicFreeTrialOfferWithSubscriptionPricingForSaasProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran uji coba gratis publik dengan harga berlangganan untuk produk SaaS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public free trial offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test public free trial offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Free",
                "Terms": [
                    {
                        "Type": "FreeTrialPricingTerm",
                        "Duration": "P20D",
                        "Grants": [
                            {
                                "DimensionKey": "WorkloadSmall"
                            },
                            {
                                "DimensionKey": "WorkloadMedium"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat penawaran pribadi pengganti dengan harga kontrak
<a name="marketplace-catalog_CreateReplacementPrivateOfferWithContractPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi pengganti dari perjanjian yang ada dengan harga kontrak.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateReplacementOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateReplacementOffer",
            "DetailsDocument": {
                "AgreementId": "agmt-1111111111111111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test replacement offer for SaaSProduct using AWS Marketplace API Reference Codes",
                "Description": "Test private replacement offer with contract pricing for SaaSProduct"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "FixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.0",
                        "Grants": [
                            {
                                "DimensionKey": "BasicService",
                                "MaxQuantity": 2
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementEndDate": "2024-01-30"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "PaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2024-01-01",
                                "ChargeAmount": "0"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Jelaskan penawaran umum
<a name="marketplace-catalog_DescribeOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggambarkan penawaran umum.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.catalogapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityResponse;

public class DescribeEntity {

	/*
	 * Describe my AMI or SaaS or Container product and check if it contains all the information I need to know about the product
	 */
	public static void main(String[] args) {

		String offerId = args.length > 0 ? args[0] : OFFER_ID;

		DescribeEntityResponse describeEntityResponse = getDescribeEntityResponse(offerId);

		ReferenceCodesUtils.formatOutput(describeEntityResponse);
	}

	public static DescribeEntityResponse getDescribeEntityResponse(String offerId) {
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		DescribeEntityRequest describeEntityRequest = 
				DescribeEntityRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityId(offerId)
				.build();

		DescribeEntityResponse describeEntityResponse = marketplaceCatalogClient.describeEntity(describeEntityRequest);
		return describeEntityResponse;
	}
}
```
+  Untuk detail API, lihat [DescribeEntity](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/DescribeEntity)di *Referensi AWS SDK for Java 2.x API*. 

### Kedaluwarsa draf penawaran pribadi
<a name="marketplace-catalog_ExpirePrivateOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengatur tanggal kedaluwarsa penawaran pribadi ke tanggal di masa lalu sehingga pembeli tidak lagi melihat penawaran tersebut.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-01-01"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Daftar semua penawaran pribadi
<a name="marketplace-catalog_ListAllPrivateOffers_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat daftar semua penawaran pribadi.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
package com.example.awsmarketplace.catalogapi;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityResponse;
import software.amazon.awssdk.services.marketplacecatalog.model.EntitySummary;
import software.amazon.awssdk.services.marketplacecatalog.model.EntityTypeFilters;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesResponse;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferAvailabilityEndDateFilter;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferAvailabilityEndDateFilterDateRange;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferBuyerAccountsFilter;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferFilters;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferReleaseDateFilter;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferReleaseDateFilterDateRange;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferTargetingFilter;

public class ListAllPrivateOffers {

	/*
	 * List all my private offers and sort or filter them by Offer Publish Date, Offer Expiry Date and Buyer IDs
	 * 
	 * OfferTargetingFilter = BuyerAccounts (private offer);
	 * OfferBuyerAccountsFilter: Buyer IDs filter
	 * OfferAvailabilityEndDateFilter : Offer Expiry Date filter
	 * OfferReleaseDateFilter : Offer Publish Date filter
	 */
	
	private static MarketplaceCatalogClient marketplaceCatalogClient = 
			MarketplaceCatalogClient.builder()
			.httpClient(ApacheHttpClient.builder().build())
			.credentialsProvider(ProfileCredentialsProvider.create())
			.build();
	
	public static void main(String[] args) {

		String offerReleaseDateAfterValue = "2023-01-01T23:59:59Z";
		String offerAvailableEndDateAfterValue = "2040-12-24T23:59:59Z";
		
		List<EntitySummary> entitySummaryList = getEntitySummaryList(offerReleaseDateAfterValue, offerAvailableEndDateAfterValue);
		
		// for each offer id, output the offer detail using DescribeEntity API
		
		
		for (EntitySummary entitySummary : entitySummaryList) {
			DescribeEntityRequest describeEntityRequest = 
					DescribeEntityRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityId(entitySummary.entityId())
					.build();
			DescribeEntityResponse describeEntityResponse = marketplaceCatalogClient.describeEntity(describeEntityRequest);
			ReferenceCodesUtils.formatOutput(describeEntityResponse);
		}
	}
	
	public static List<EntitySummary> getEntitySummaryList (String offerReleaseDateAfterValue, String offerAvailableEndDateAfterValue) {
		
		EntityTypeFilters entityTypeFilters = 
				EntityTypeFilters.builder()
				.offerFilters(OfferFilters.builder()
						.targeting(OfferTargetingFilter.builder()
								.valueListWithStrings(OFFER_TARGETING_BUYERACCOUNTS)
								.build())
						.buyerAccounts(OfferBuyerAccountsFilter.builder()
								.wildCardValue(BUYER_ACCOUNT_ID)
								.build())
						.availabilityEndDate(OfferAvailabilityEndDateFilter.builder()
								.dateRange(OfferAvailabilityEndDateFilterDateRange.builder()
										.afterValue(offerAvailableEndDateAfterValue).build())
								.build())
						.releaseDate(OfferReleaseDateFilter.builder()
								.dateRange(OfferReleaseDateFilterDateRange.builder()
										.afterValue(offerReleaseDateAfterValue)
										.build())
								.build())
						.build())
				.build();
			
		ListEntitiesRequest listEntitiesRequest = 
				ListEntitiesRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityType(ENTITY_TYPE_OFFER).maxResults(10)
				.entityTypeFilters(entityTypeFilters)
				.nextToken(null)
				.build();
		
		ListEntitiesResponse listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
		List<EntitySummary> entitySummaryList = new ArrayList<EntitySummary>();
		
		entitySummaryList.addAll(listEntitiesResponse.entitySummaryList());
		
		while ( listEntitiesResponse.nextToken() != null && listEntitiesResponse.nextToken().length() > 0) {
			listEntitiesRequest = 
					ListEntitiesRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityType(ENTITY_TYPE_OFFER)
					.maxResults(10)
					.entityTypeFilters(entityTypeFilters)
					.nextToken(listEntitiesResponse.nextToken())
					.build();
			listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
			entitySummaryList.addAll(listEntitiesResponse.entitySummaryList());
		}
		
		return entitySummaryList;
	}

}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Daftar penawaran publik dan pribadi yang dirilis untuk ID produk tertentu
<a name="marketplace-catalog_ListProductPublicOrPrivateReleasedOffers_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat daftar penawaran publik dan pribadi yang dirilis untuk ID produk tertentu.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
package com.example.awsmarketplace.catalogapi;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.EntitySummary;
import software.amazon.awssdk.services.marketplacecatalog.model.EntityTypeFilters;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesResponse;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferFilters;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferProductIdFilter;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferStateFilter;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferTargetingFilter;

public class ListProductPublicOrPrivateReleasedOffers {

	/*
	 * List released Public/Private offers for a specific product id.
	 * Example below is to list released public offers.
	 * To change to released private offers, change OFFER_TARGETING_NONE (None) to OFFER_TARGETING_BUYERACCOUNTS(BuyerAccounts)
	 */
	public static void main(String[] args) {

		List<EntitySummary> entitySummaryList = getEntitySummaryLIst();
		ReferenceCodesUtils.formatOutput(entitySummaryList);
	}

	public static List<EntitySummary> getEntitySummaryLIst() {
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		// define list entities filters
		
		EntityTypeFilters entityTypeFilters = 
				EntityTypeFilters.builder()
				.offerFilters(OfferFilters.builder()
						.targeting(OfferTargetingFilter.builder()
								.valueListWithStrings(OFFER_TARGETING_NONE)
								.build())
						.state(OfferStateFilter.builder()
								.valueListWithStrings(OFFER_STATE_RELEASED)
								.build())
						.productId(OfferProductIdFilter.builder()
								.valueList(PRODUCT_ID)
								.build())
						.build())
				.build();
		
		ListEntitiesRequest listEntitiesRequest = 
				ListEntitiesRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityType(ENTITY_TYPE_OFFER)
				.maxResults(10)
				.entityTypeFilters(entityTypeFilters)
				.nextToken(null)
				.build();
		
		ListEntitiesResponse listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
		
		// save all entitySummary of the results into entitySummaryList
		
		List<EntitySummary> entitySummaryList = new ArrayList<EntitySummary>();
		
		entitySummaryList.addAll(listEntitiesResponse.entitySummaryList());
		
		while ( listEntitiesResponse.nextToken() != null && listEntitiesResponse.nextToken().length() > 0) {
			listEntitiesRequest = 
					ListEntitiesRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityType(ENTITY_TYPE_OFFER)
					.maxResults(10)
					.entityTypeFilters(entityTypeFilters)
					.nextToken(listEntitiesResponse.nextToken())
					.build();
			listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
			entitySummaryList.addAll(listEntitiesResponse.entitySummaryList());
		}
		return entitySummaryList;
	}

}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui penawaran untuk menerapkan kontrak dengan Pay-As-You-Go harga
<a name="marketplace-catalog_UpdateOfferWithContractAndPayAsYouGoPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui penawaran untuk menerapkan kontrak dengan Pay-As-You-Go harga.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui penawaran untuk menerapkan harga tahunan per jam
<a name="marketplace-catalog_UpdateOfferWithHourlyAnnualPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui penawaran untuk menerapkan harga tahunan per jam.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "m5.large",
                                        "Price": "0.13"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P365D"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "m5.large",
                                        "Price": "20.03"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Memperbarui penawaran untuk menerapkan penargetan ke wilayah geografis tertentu
<a name="marketplace-catalog_UpdateOfferTargeting_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui penawaran untuk menerapkan penargetan ke wilayah geografis tertentu.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "CountryCodes": [
                        "US",
                        "ES",
                        "FR",
                        "AU"
                    ]
                }
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui nama dan deskripsi penawaran umum
<a name="marketplace-catalog_UpdateOfferNameAndDescription_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui nama dan deskripsi penawaran umum.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui EULA penawaran
<a name="marketplace-catalog_UpdateEula_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui EULA penawaran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "Name": "New offer name",
                "Description": "New offer description"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui tanggal kedaluwarsa penawaran pribadi ke tanggal yang akan datang
<a name="marketplace-catalog_UpdateOfferExpirationDateOfPrivateOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui tanggal kedaluwarsa penawaran pribadi ke tanggal di masa depan untuk memberi pembeli lebih banyak waktu untuk mengevaluasi dan menerima penawaran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2026-01-01"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui durasi uji coba gratis dari penawaran uji coba gratis publik untuk produk SaaS
<a name="marketplace-catalog_UpdateFreeTrialDurationOfPublicFreeTrialOfferForSaasProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui durasi uji coba gratis dari penawaran uji coba gratis publik untuk produk SaaS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "FreeTrialPricingTerm",
                        "Duration": "P21D",
                        "Grants": [
                            {
                                "DimensionKey": "WorkloadSmall"
                            },
                            {
                                "DimensionKey": "WorkloadMedium"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui kebijakan pengembalian dana dari suatu penawaran
<a name="marketplace-catalog_UpdateRefundPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui kebijakan pengembalian dana penawaran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Updated refund policy description"
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

## Produk
<a name="products"></a>

### Jelaskan produk AMI, SaaS, atau Kontainer
<a name="marketplace-catalog_DescribeProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendeskripsikan produk AMI, SaaS, atau Container dan periksa apakah produk tersebut berisi semua informasi yang ingin Anda ketahui tentang produk tersebut.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.catalogapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityResponse;

public class DescribeEntity {

	/*
	 * Describe my AMI or SaaS or Container product and check if it contains all the information I need to know about the product
	 */
	public static void main(String[] args) {

		String offerId = args.length > 0 ? args[0] : OFFER_ID;

		DescribeEntityResponse describeEntityResponse = getDescribeEntityResponse(offerId);

		ReferenceCodesUtils.formatOutput(describeEntityResponse);
	}

	public static DescribeEntityResponse getDescribeEntityResponse(String offerId) {
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		DescribeEntityRequest describeEntityRequest = 
				DescribeEntityRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityId(offerId)
				.build();

		DescribeEntityResponse describeEntityResponse = marketplaceCatalogClient.describeEntity(describeEntityRequest);
		return describeEntityResponse;
	}
}
```
+  Untuk detail API, lihat [DescribeEntity](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/DescribeEntity)di *Referensi AWS SDK for Java 2.x API*. 

### Cantumkan semua produk AMI, SaaS, atau Container dan penawaran publik terkait
<a name="marketplace-catalog_ListProducts_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mencantumkan semua produk AMI, SaaS, atau Container dan penawaran publik terkait.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
package com.example.awsmarketplace.catalogapi;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.EntitySummary;
import software.amazon.awssdk.services.marketplacecatalog.model.EntityTypeFilters;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.ListEntitiesResponse;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferFilters;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferProductIdFilter;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferStateFilter;
import software.amazon.awssdk.services.marketplacecatalog.model.OfferTargetingFilter;

public class ListEntities {

	/*
	 * List all my AMI or SaaS or Container products and associated public offers
	 */
	public static void main(String[] args) {
		
		Map<String, List<EntitySummary>> allProductsWithOffers = getAllProductsWithOffers();
	
		ReferenceCodesUtils.formatOutput(allProductsWithOffers);
	}

	public static Map<String, List<EntitySummary>> getAllProductsWithOffers() {
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		Map<String, List<EntitySummary>> allProductsWithOffers = new HashMap<String, List<EntitySummary>> ();

		// get all product entities
		List<EntitySummary> productEntityList = new ArrayList<EntitySummary>();

		ListEntitiesRequest listEntitiesRequest = 
				ListEntitiesRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityType(PRODUCT_TYPE_AMI)
				.maxResults(10)
				.nextToken(null)
				.build();
		
	 
		ListEntitiesResponse listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);

		productEntityList.addAll(listEntitiesResponse.entitySummaryList());


		while (listEntitiesResponse.nextToken() != null) {
			listEntitiesRequest = 
					ListEntitiesRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityType(PRODUCT_TYPE_AMI)
					.maxResults(10)
					.nextToken(listEntitiesResponse.nextToken())
					.build();
			listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
			productEntityList.addAll(listEntitiesResponse.entitySummaryList());
		}
		
		// loop through each product entity and get the public released offers associated using product id filter
		
		for ( EntitySummary productEntitySummary : productEntityList) {
			EntityTypeFilters entityTypeFilters = 
					EntityTypeFilters.builder()
					.offerFilters(OfferFilters.builder()
							.targeting(OfferTargetingFilter.builder()
									.valueListWithStrings(OFFER_TARGETING_NONE)
									.build())
							.state(OfferStateFilter.builder()
									.valueListWithStrings(OFFER_STATE_RELEASED)
									.build())
							.productId(OfferProductIdFilter.builder()
									.valueList(productEntitySummary.entityId())
									.build())
							.build())
					.build();
			
			listEntitiesRequest = 
					ListEntitiesRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityType(ENTITY_TYPE_OFFER)
					.maxResults(10)
					.entityTypeFilters(entityTypeFilters)
					.nextToken(null)
					.build();
			
			listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
			
			// save all entitySummary of the results into entitySummaryList
			
			List<EntitySummary> offerEntitySummaryList = new ArrayList<EntitySummary>();
			
			offerEntitySummaryList.addAll(listEntitiesResponse.entitySummaryList());
			
			while ( listEntitiesResponse.nextToken() != null && listEntitiesResponse.nextToken().length() > 0) {
				listEntitiesRequest = 
						ListEntitiesRequest.builder()
						.catalog(AWS_MP_CATALOG)
						.entityType(ENTITY_TYPE_OFFER)
						.maxResults(10)
						.entityTypeFilters(entityTypeFilters)
						.nextToken(listEntitiesResponse.nextToken())
						.build();
				listEntitiesResponse = marketplaceCatalogClient.listEntities(listEntitiesRequest);
				offerEntitySummaryList.addAll(listEntitiesResponse.entitySummaryList());
			}
			
			// save final results into map; key = product id; value = offer entity summary list
			
			allProductsWithOffers.put(productEntitySummary.entityId(), offerEntitySummaryList);
		}
		return allProductsWithOffers;
	}

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [DescribeEntity](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/DescribeEntity)
  + [ListEntities](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/ListEntities)

## Otorisasi penjualan kembali
<a name="resale_authorization"></a>

### Buat draf otorisasi penjualan kembali
<a name="marketplace-catalog_DraftResaleauthAllproducttype_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf otorisasi penjualan kembali untuk semua jenis produk sehingga Anda dapat memeriksanya secara internal sebelum memublikasikan ke Mitra Saluran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Jelaskan otorisasi penjualan kembali
<a name="marketplace-catalog_DescribeResaleAuthorization_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggambarkan otorisasi penjualan kembali.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.catalogapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityResponse;

public class DescribeEntity {

	/*
	 * Describe my AMI or SaaS or Container product and check if it contains all the information I need to know about the product
	 */
	public static void main(String[] args) {

		String offerId = args.length > 0 ? args[0] : OFFER_ID;

		DescribeEntityResponse describeEntityResponse = getDescribeEntityResponse(offerId);

		ReferenceCodesUtils.formatOutput(describeEntityResponse);
	}

	public static DescribeEntityResponse getDescribeEntityResponse(String offerId) {
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		DescribeEntityRequest describeEntityRequest = 
				DescribeEntityRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityId(offerId)
				.build();

		DescribeEntityResponse describeEntityResponse = marketplaceCatalogClient.describeEntity(describeEntityRequest);
		return describeEntityResponse;
	}
}
```
+  Untuk detail API, lihat [DescribeEntity](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/DescribeEntity)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali satu kali dengan penawaran pribadi
<a name="marketplace-catalog_OnetimeResaleauthPrivateoffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali satu kali dengan penawaran pribadi sehingga Mitra Saluran dapat menggunakannya untuk membuat Penawaran Pribadi Mitra Saluran (CPPO).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa
<a name="marketplace-catalog_MultiuseResaleauthExpirydateCppo_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa untuk produk AMI dengan harga tahunan per jam sehingga Mitra Saluran dapat menggunakannya untuk membuat CPPO.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-05-31"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa dan EULA
<a name="marketplace-catalog_MultiuseResaleauthExpirydateCustomEula_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa untuk semua jenis produk dan menambahkan EULA khusus untuk dikirim ke pembeli.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-05-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa dan dokumentasi kontrak pengecer
<a name="marketplace-catalog_MultiuseResaleauthExpirydateCustomresellerContractdoc_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa untuk semua jenis produk dan menambahkan dokumentasi kontrak pengecer antara ISV dan Mitra Saluran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-05-31"
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    },
                    {
                        "Type": "ResaleLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomResellerContract",
                                "Url": "https://s3.amazonaws.com/aws-mp-standard-contracts/Standard-Contact-for-AWS-Marketplace-2022-07-14.pdf"}
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali multi-guna dengan kedaluwarsa dan tambahkan akun pembeli tertentu
<a name="marketplace-catalog_PublishMultiuseResaleAuthorizationExpirydateSpecificBuyer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa untuk semua jenis produk dan menambahkan akun pembeli tertentu untuk penjualan kembali.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-05-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateBuyerTargetingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerTargetingTerm",
                        "PositiveTargeting": {
                            "BuyerAccounts": [
                                "111111111111"
                            ]
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa
<a name="marketplace-catalog_MultiuseResaleauthNoExpirydateCppo_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa untuk produk AMI dengan harga tahunan per jam sehingga CP dapat menggunakannya untuk membuat CPPO.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa dan EULA
<a name="marketplace-catalog_MultiuseResaleauthNoExpirydateCustomEula_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa untuk jenis produk apa pun dan menambahkan EULA khusus untuk dikirim ke pembeli.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa dan dokumentasi kontrak pengecer
<a name="marketplace-catalog_MultiuseResaleauthNoExpirydateCustomresellerContractdoc_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa untuk jenis produk apa pun dan menambahkan dokumentasi kontrak pengecer antara ISV dan Mitra Saluran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    },
                    {
                        "Type": "ResaleLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomResellerContract",
                                "Url": "https://s3.amazonaws.com/aws-mp-standard-contracts/Standard-Contact-for-AWS-Marketplace-2022-07-14.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali multi-guna tanpa kedaluwarsa dan tambahkan akun pembeli tertentu
<a name="marketplace-catalog_PublishMultiuseResaleAuthorizationNoExpirydateSpecificBuyer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa untuk jenis produk apa pun dan menambahkan akun pembeli tertentu untuk penjualan kembali.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateBuyerTargetingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerTargetingTerm",
                        "PositiveTargeting": {
                            "BuyerAccounts": [
                                "111111111111"
                            ]
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan jadwal pembayaran Fleksibel
<a name="marketplace-catalog_PublishOnetimeResaleAuthorizationFlexiblePayment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan jadwal pembayaran Fleksibel.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleFixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.00",
                        "Duration": "P12M",
                        "Grants": [
                          {
                            "DimensionKey": "Users",
                            "MaxQuantity": 10
                          }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ResalePaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2023-09-01",
                                "ChargeAmount": "200.00"
                            },
                            {
                                "ChargeDate": "2023-12-01",
                                "ChargeAmount": "250.00"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-06-30",
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan EULA
<a name="marketplace-catalog_OnetimeResaleauthCustomEula_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan EULA khusus untuk dikirim ke pembeli.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan akun pembeli tertentu
<a name="marketplace-catalog_PublishOnetimeResaleAuthorizationSpecificBuyer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan akun pembeli tertentu untuk penjualan kembali.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": "1"
            }
        },
        {
            "ChangeType": "UpdateBuyerTargetingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerTargetingTerm",
                        "PositiveTargeting": {
                            "BuyerAccounts": [
                                "111111111111"
                            ]
                        }
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan dokumentasi kontrak pengecer
<a name="marketplace-catalog_OnetimeResaleauthCustomresellerContractdoc_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan dokumentasi kontrak pengecer antara ISV dan Mitra Saluran.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan apakah itu pembaruan
<a name="marketplace-catalog_OnetimeResaleauthRenewal_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan apakah itu pembaruan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "UpdateBuyerTargetingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerTargetingTerm",
                        "PositiveTargeting": {
                            "BuyerAccounts": [
                                "222222222222"
                            ]
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType":"UpdateInformation",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "PreExistingBuyerAgreement": {
                    "AcquisitionChannel": "AwsMarketplace",
                    "PricingModel": "Contract"
                }
             }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Batasi otorisasi penjualan kembali
<a name="marketplace-catalog_RestrictResaleAuthorization_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membatasi otorisasi penjualan kembali.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "RestrictResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "resaleauthz-1111111111111"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui nama dan deskripsi otorisasi penjualan kembali satu kali atau multi-guna
<a name="marketplace-catalog_UpdateUnpublishedResaleAuthorization_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui nama dan deskripsi otorisasi penjualan kembali satu kali atau multi-guna sebelum menerbitkan untuk jenis produk apa pun.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType":"UpdateInformation",
            "Entity": {
            	"Type": "ResaleAuthorization@1.0",
            	"Identifier": "resaleauthz-1111111111111"
            },
            "DetailsDocument": {
            	"Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

## Produk SaaS
<a name="saas_products"></a>

### Buat draf produk SaaS dengan draf penawaran umum
<a name="marketplace-catalog_CreateDraftSaasProductWithDraftPublicOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf produk SaaS dengan draf penawaran umum.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog":"AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "DetailsDocument": {
              "ProductTitle": "Sample product"
            }
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier",
                "Name": "Test Offer"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat produk SaaS publik atau terbatas dan penawaran publik dengan harga kontrak
<a name="marketplace-catalog_CreateLimitedSaasProductAndPublicOfferWithContractPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk SaaS publik atau terbatas dan penawaran publik dengan harga kontrak. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "ChangeName": "CreateProductChange",
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Data Catalogs"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "DeliveryOptions": [
                    {
                        "Details": {
                            "SaaSUrlDeliveryOptionDetails": {
                                "FulfillmentUrl":"https://sample.amazonaws.com/sample-saas-fulfillment-url"
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "BasicService",
                    "Description": "Basic Service",
                    "Name": "Basic Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "PremiumService",
                    "Description": "Premium Service",
                    "Name": "Premium Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with contract pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P1M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "20"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "25"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            },
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat produk SaaS publik atau terbatas dan penawaran publik dengan kontrak dengan harga Pay-As-You-Go
<a name="marketplace-catalog_CreateLimitedSaasProductAndPublicOfferWithContractWithPayAsYouGoPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk SaaS publik atau terbatas dan penawaran publik dengan kontrak dengan Pay-As-You-Go harga. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "ChangeName": "CreateProductChange",
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Data Catalogs"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "DeliveryOptions": [
                    {
                        "Details": {
                            "SaaSUrlDeliveryOptionDetails": {
                                "FulfillmentUrl":"https://sample.amazonaws.com/sample-saas-fulfillment-url"
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "BasicService",
                    "Description": "Basic Service",
                    "Name": "Basic Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "PremiumService",
                    "Description": "Premium Service",
                    "Name": "Premium Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "WorkloadSmall",
                    "Description": "Workload: Per medium instance",
                    "Name": "Workload: Per medium instance",
                    "Types": [
                        "ExternallyMetered"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "WorkloadMedium",
                    "Description": "Workload: Per large instance",
                    "Name": "Workload: Per large instance",
                    "Types": [
                        "ExternallyMetered"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with contract pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Buat produk SaaS publik atau terbatas dan penawaran publik dengan harga berlangganan
<a name="marketplace-catalog_CreateLimitedSaasProductAndPublicOfferWithSubscriptionPricing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk SaaS publik atau terbatas dan penawaran umum dengan harga berlangganan. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "ChangeName": "CreateProductChange",
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Data Catalogs"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "DeliveryOptions": [
                    {
                        "Details": {
                            "SaaSUrlDeliveryOptionDetails": {
                                "FulfillmentUrl":"https://sample.amazonaws.com/sample-saas-fulfillment-url"
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "WorkloadSmall",
                    "Description": "Workload: Per medium instance",
                    "Name": "Workload: Per medium instance",
                    "Types": [
                        "ExternallyMetered"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "WorkloadMedium",
                    "Description": "Workload: Per large instance",
                    "Name": "Workload: Per large instance",
                    "Types": [
                        "ExternallyMetered"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with contract pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan produk SaaS dan penawaran publik terkait
<a name="marketplace-catalog_PublishSaasProductPublicOffer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan produk SaaS dan penawaran publik terkait. Produk akan berada dalam keadaan terbatas secara default.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog":"AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Data Catalogs"
                ],
                "LogoUrl": "https://bucketname.s3.amazonaws.com/logo.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "BasicService",
                    "Description": "Basic Service",
                    "Name": "Basic Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "PremiumService",
                    "Description": "Premium Service",
                    "Name": "Premium Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "DeliveryOptions": [
                    {
                        "Details": {
                            "SaaSUrlDeliveryOptionDetails": {
                                "FulfillmentUrl": "https://www.aws.amazon.com/marketplace/management"
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "New Test Offer",
                "Description": "New offer description"
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Updated refund policy description"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P1M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "20"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "25"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            },
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateRenewalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "RenewalTerm"
                    }
                ]
            }
        },
        {
            "ChangeType":"ReleaseOffer",
            "Entity":{
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan produk SaaS dan penawaran publik terkait dari draf yang ada
<a name="marketplace-catalog_PublishExistingSaas_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan produk SaaS dan penawaran publik terkait dari draf yang ada. Produk akan berada dalam keadaan terbatas secara default.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 

```
{
    "Catalog":"AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateVisibility",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "TargetVisibility": "Public"
            }
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

### Perbarui dimensi pada produk AMI atau SaaS
<a name="marketplace-catalog_UpdateNameDimensionSaasProduct_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui dimensi pada produk AMI atau SaaS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
**Untuk menjalankan contoh ini, teruskan changeset JSON berikut ke `RunChangesets` dalam *Utilities untuk memulai changeset dari* bagian Utilities.**  

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "prod-111111111111"
            },
            "DetailsDocument": [
                {
                    "Key": "BasicService",
                    "Types": [
                        "Entitled"
                    ],
                    "Name": "Some new name",
                    "Description": "Some new description"
                }
            ]
        }
    ]
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

## Utilitas
<a name="utilities"></a>

### Utilitas untuk memulai set perubahan
<a name="marketplace-catalog_ChangeSetUtilities_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana mendefinisikan utilitas untuk memulai changeset.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#catalog-api-reference-code). 
Utilitas untuk memuat changeset dari file JSON dan mulai memprosesnya.  

```
package com.example.awsmarketplace.catalogapi;

import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.List;

import org.apache.commons.io.IOUtils;
import org.apache.commons.lang3.StringUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.protocols.json.internal.unmarshall.document.DocumentUnmarshaller;
import software.amazon.awssdk.protocols.jsoncore.JsonNodeParser;
import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.Change;
import software.amazon.awssdk.services.marketplacecatalog.model.Entity;
import software.amazon.awssdk.services.marketplacecatalog.model.StartChangeSetRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.StartChangeSetResponse;
import com.google.gson.Gson;
import com.google.gson.GsonBuilder;
import com.google.gson.ToNumberPolicy;
import com.example.awsmarketplace.catalogapi.Entity.ChangeSet;
import com.example.awsmarketplace.catalogapi.Entity.ChangeSetEntity;
import com.example.awsmarketplace.catalogapi.Entity.Root;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;
import com.example.awsmarketplace.utils.StringSerializer;

/**
 * Before running this Java V2 code example, convert all Details attribute to DetailsDocument if any
 */

public class RunChangesets {
	
	private static final Gson GSON = new GsonBuilder()
			.setObjectToNumberStrategy(ToNumberPolicy.LAZILY_PARSED_NUMBER)
			.registerTypeAdapter(String.class, new StringSerializer())
			.create();

	public static void main(String[] args) {

		// input json can be specified here or passed from input parameter
		String inputChangeSetFile = "changeSets/offers/CreateReplacementOfferFromAGWithContractPricingDetailDocument.json";
		
		if (args.length > 0)
			inputChangeSetFile = args[0];
		
		// parse the input changeset file to string for process
		String changeSetsInput = readChangeSetToString(inputChangeSetFile);

		// process the changeset request
		try {
			StartChangeSetResponse result = getChangeSetRequestResult(changeSetsInput);
			ReferenceCodesUtils.formatOutput(result);
		} catch (Exception e) {
			e.printStackTrace();
		}
	}
	
	public static StartChangeSetResponse getChangeSetRequestResult(String changeSetsInput) throws IOException {
		
		//set up AWS credentials
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		//changeset list to save all the changesets in the changesets file
		List<Change> changeSetLists = new ArrayList<Change>();

		// read all changesets into object
		Root root = GSON.fromJson(changeSetsInput, Root.class);
		
		// process each changeset and add each changeset request to changesets list
		for (ChangeSet cs : root.changeSet) {
			
			ChangeSetEntity entity = cs.Entity;
			String entityType = entity.Type;
			String entityIdentifier = StringUtils.defaultIfBlank(entity.Identifier, null);
			Document detailsDocument = getDocumentFromObject(cs.DetailsDocument);
			
			Entity awsEntity = 
					Entity.builder()
					.type(entityType)
					.identifier(entityIdentifier)
					.build();

			Change inputChangeRequest = 
					Change.builder()
					.changeType(cs.ChangeType)
					.changeName(cs.ChangeName)
					.entity(awsEntity)
					.detailsDocument(detailsDocument)
					.build();
			
			changeSetLists.add(inputChangeRequest);
		}
		
		// process all changeset requests
		StartChangeSetRequest startChangeSetRequest = 
				StartChangeSetRequest.builder()
				.catalog(root.catalog)
				.changeSet(changeSetLists)
				.build();

		StartChangeSetResponse result = marketplaceCatalogClient.startChangeSet(startChangeSetRequest);

		return result;
	}

	public static Document getDocumentFromObject(Object detailsObject) {
		
		String detailsString = "{}";
		try {
			detailsString = IOUtils.toString(new ByteArrayInputStream(GSON.toJson(detailsObject).getBytes()), "UTF-8");
		} catch (IOException e) {
			e.printStackTrace();
		}
		
		JsonNodeParser jsonNodeParser = JsonNodeParser.create();
		Document doc = jsonNodeParser.parse(detailsString).visit(new DocumentUnmarshaller());
		return doc;
	}
	
	
	public static String readChangeSetToString (String inputChangeSetFile) {
		
		InputStream changesetInputStream = RunChangesets.class.getClassLoader().getResourceAsStream(inputChangeSetFile);

		String changeSetsInput = null;
		
		try {
			changeSetsInput = IOUtils.toString(changesetInputStream, "UTF-8");
		} catch (IOException e) {
			e.printStackTrace();
		}
		
		return changeSetsInput;
		
	}
}
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-catalog-2018-09-17/StartChangeSet)di *Referensi AWS SDK for Java 2.x API*. 

# AWS Marketplace Contoh API perjanjian menggunakan SDK for Java 2.x
<a name="java_2_marketplace-agreement_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS Marketplace Agreement API.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Perjanjian](#agreements)

## Perjanjian
<a name="agreements"></a>

### Dapatkan semua perjanjian IDs
<a name="marketplace-agreement_GetAllAgreementsIds_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan semua kesepakatan IDs.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AgreementViewSummary;
import software.amazon.awssdk.services.marketplaceagreement.model.Filter;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsResponse;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAllAgreementsIds {

	/*
	 * Get all purchase agreements ids with party type = proposer; 
	 * Depend on the number of agreements in your account, this code may take some time to finish.
	 */
	public static void main(String[] args) {

		List<String> agreementIds = getAllAgreementIds();
		
		ReferenceCodesUtils.formatOutput(agreementIds);

	}

	public static List<String> getAllAgreementIds() {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		// get all filters
		Filter partyType = Filter.builder().name(PARTY_TYPE_FILTER_NAME)
				.values(PARTY_TYPE_FILTER_VALUE_PROPOSER).build();

		Filter agreementType = Filter.builder().name(AGREEMENT_TYPE_FILTER_NAME)
				.values(AGREEMENT_TYPE_FILTER_VALUE_PURCHASEAGREEMENT).build();
		
		List<Filter> searchFilters = new ArrayList<Filter>();
		
		searchFilters.addAll(Arrays.asList(partyType, agreementType));
		
		// Save all results in a list array
		List<AgreementViewSummary> agreementSummaryList = new ArrayList<AgreementViewSummary>();

		SearchAgreementsRequest searchAgreementsRequest = 
				SearchAgreementsRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.filters(searchFilters)
				.build();
		
		SearchAgreementsResponse searchAgreementsResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);

		agreementSummaryList.addAll(searchAgreementsResponse.agreementViewSummaries());

		while (searchAgreementsResponse.nextToken() != null && searchAgreementsResponse.nextToken().length() > 0) {
			searchAgreementsRequest = 
					SearchAgreementsRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.nextToken(searchAgreementsResponse.nextToken())
					.filters(searchFilters)
					.build();
			searchAgreementsResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
			agreementSummaryList.addAll(searchAgreementsResponse.agreementViewSummaries());
		}

		List<String> agreementIds = new ArrayList<String>();
		for (AgreementViewSummary summary : agreementSummaryList) {
			agreementIds.add(summary.agreementId());
		}
		return agreementIds;
	}

}
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/SearchAgreements)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan semua perjanjian
<a name="marketplace-agreement_GetAllAgreements_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan semua perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AgreementViewSummary;
import software.amazon.awssdk.services.marketplaceagreement.model.Filter;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsResponse;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;

import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAllAgreements {

	/*
	 * Get all purchase agreements with party type = proposer; 
	 * Depend on the number of agreements in your account, this code may take some time to finish.
	 */
	public static void main(String[] args) {

		List<AgreementViewSummary> agreementSummaryList = getAllAgreements();

		ReferenceCodesUtils.formatOutput(agreementSummaryList);
	}

	public static List<AgreementViewSummary> getAllAgreements() {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		// get all filters
		
		Filter partyType = Filter.builder().name(PARTY_TYPE_FILTER_NAME)
				.values(PARTY_TYPE_FILTER_VALUE_PROPOSER).build();

		Filter agreementType = Filter.builder().name(AGREEMENT_TYPE_FILTER_NAME)
				.values(AGREEMENT_TYPE_FILTER_VALUE_PURCHASEAGREEMENT).build();
		
		List<Filter> searchFilters = new ArrayList<Filter>();
		
		searchFilters.addAll(Arrays.asList(partyType, agreementType));
		
		// Save all results in a list array

		List<AgreementViewSummary> agreementSummaryList = new ArrayList<AgreementViewSummary>();

		SearchAgreementsRequest searchAgreementsRequest = 
				SearchAgreementsRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.filters(searchFilters)
				.build();
		
		SearchAgreementsResponse searchAgreementsResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);

		agreementSummaryList.addAll(searchAgreementsResponse.agreementViewSummaries());

		while (searchAgreementsResponse.nextToken() != null && searchAgreementsResponse.nextToken().length() > 0) {
			searchAgreementsRequest = 
					SearchAgreementsRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.nextToken(searchAgreementsResponse.nextToken())
					.filters(searchFilters).build();
			searchAgreementsResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
			agreementSummaryList.addAll(searchAgreementsResponse.agreementViewSummaries());
		}
		return agreementSummaryList;
	}

}
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/SearchAgreements)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan ID pelanggan dari perjanjian
<a name="marketplace-agreement_GetAgreementCustomer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan ID pelanggan dari perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementResponse;

public class GetAgreementCustomerInfo {

	/*
	 * Obtain metadata about the customer who created the agreement, such as the customer's AWS Account ID
	 */
	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		DescribeAgreementResponse describeAgreementResponse = getDescribeAgreementResponse(agreementId);

		System.out.println("Customer's AWS Account ID is " + describeAgreementResponse.acceptor().accountId());

	}

	public static DescribeAgreementResponse getDescribeAgreementResponse(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		DescribeAgreementRequest describeAgreementRequest = 
				DescribeAgreementRequest.builder()
				.agreementId(agreementId)
				.build();

		DescribeAgreementResponse describeAgreementResponse = marketplaceAgreementClient.describeAgreement(describeAgreementRequest);
		return describeAgreementResponse;
	}

}
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/DescribeAgreement)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan detail keuangan dari perjanjian
<a name="marketplace-agreement_GetAgreementFinancialDetails_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan detail keuangan dari suatu perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementResponse;

public class GetAgreementFinancialDetails {

	/*
	 * Obtain financial details, such as Total Contract Value of the agreement from a given agreement
	 */
	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		String totalContractValue = getTotalContractValue(agreementId);

		System.out.println("Total Contract Value is " + totalContractValue);

	}

	public static String getTotalContractValue(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		DescribeAgreementRequest describeAgreementRequest = 
				DescribeAgreementRequest.builder()
				.agreementId(agreementId)
				.build();

		DescribeAgreementResponse describeAgreementResponse = marketplaceAgreementClient.describeAgreement(describeAgreementRequest);
		
		String totalContractValue = "N/A";

		if ( describeAgreementResponse.estimatedCharges() != null ) {
			totalContractValue = describeAgreementResponse.estimatedCharges().agreementValue() 
					+ " " 
					+ describeAgreementResponse.estimatedCharges().currencyCode();
		}
		return totalContractValue;
	}
}
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/DescribeAgreement)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan detail uji coba gratis dari perjanjian
<a name="marketplace-agreement_GetAgreementTermsFreeTrialDetails_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan detail uji coba gratis dari perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AcceptedTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.FreeTrialPricingTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.AGREEMENT_ID;

import java.util.ArrayList;
import java.util.List;

import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAgreementTermsFreeTrialDetails {

	/*
	 * Obtain the details from an agreement of a free trial I have provided to the customer
	 */
	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;
		
		List<FreeTrialPricingTerm> freeTrialPricingTerms = getFreeTrialPricingTerms(agreementId);

		ReferenceCodesUtils.formatOutput(freeTrialPricingTerms);
	}

	public static List<FreeTrialPricingTerm> getFreeTrialPricingTerms(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder().agreementId(agreementId)
					.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);

		List<FreeTrialPricingTerm> freeTrialPricingTerms = new ArrayList<FreeTrialPricingTerm>();

		for (AcceptedTerm acceptedTerm : getAgreementTermsResponse.acceptedTerms()) {
			if (acceptedTerm.freeTrialPricingTerm() != null) {
				freeTrialPricingTerms.add(acceptedTerm.freeTrialPricingTerm());
			}
		}
		return freeTrialPricingTerms;
	}
}
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/DescribeAgreement)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan informasi tentang perjanjian
<a name="marketplace-agreement_DescribeAgreement_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan informasi tentang perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementResponse;

public class DescribeAgreement {

	public static void main(String[] args) {
		
		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		DescribeAgreementResponse describeAgreementResponse = getResponse(agreementId);

		ReferenceCodesUtils.formatOutput(describeAgreementResponse);

	}

	public static DescribeAgreementResponse getResponse(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		DescribeAgreementRequest describeAgreementRequest = 
				DescribeAgreementRequest.builder()
				.agreementId(agreementId)
				.build();

		DescribeAgreementResponse describeAgreementResponse = marketplaceAgreementClient.describeAgreement(describeAgreementRequest);
		return describeAgreementResponse;
	}

}
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/DescribeAgreement)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan detail produk dan penawaran dari perjanjian
<a name="marketplace-agreement_GetProductAndOfferDetailFromAgreement_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan detail produk dan penawaran dari perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementResponse;
import software.amazon.awssdk.services.marketplaceagreement.model.Resource;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityResponse;

public class GetProductAndOfferDetailFromAgreement {

	public static void main(String[] args) {

		// call Agreement API to get offer and product information for the agreement
		
		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;
		
		List<DescribeEntityResponse> entityResponseList = getEntities(agreementId);

		for (DescribeEntityResponse response : entityResponseList) {
			ReferenceCodesUtils.formatOutput(response);
		}
	}

	public static List<DescribeEntityResponse> getEntities(String agreementId) {
		List<DescribeEntityResponse> entityResponseList = new ArrayList<DescribeEntityResponse> ();
		
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		DescribeAgreementRequest describeAgreementRequest = 
				DescribeAgreementRequest.builder()
				.agreementId(agreementId)
				.build();

		DescribeAgreementResponse describeAgreementResponse = marketplaceAgreementClient.describeAgreement(describeAgreementRequest);

		// get offer id for the given agreement

		String offerId = describeAgreementResponse.proposalSummary().offerId();

		// get all the product ids for this agreement
		
		List<String> productIds = new ArrayList<String>();
		for (Resource resource : describeAgreementResponse.proposalSummary().resources()) {
			productIds.add(resource.id());
		}

		// call Catalog API to get the details of the offer and products
		
		MarketplaceCatalogClient marketplaceCatalogClient = 
				MarketplaceCatalogClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		DescribeEntityRequest describeEntityRequest = 
				DescribeEntityRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityId(offerId).build();

		DescribeEntityResponse describeEntityResponse = marketplaceCatalogClient.describeEntity(describeEntityRequest);
		
		entityResponseList.add(describeEntityResponse);

		for (String productId : productIds) {
			describeEntityRequest = 
					DescribeEntityRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.entityId(productId).build();
			describeEntityResponse = marketplaceCatalogClient.describeEntity(describeEntityRequest);
			System.out.println("Print details for product " + productId);
			entityResponseList.add(describeEntityResponse);
		}
		return entityResponseList;
	}
}
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/DescribeAgreement)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan EULA dari sebuah perjanjian
<a name="marketplace-agreement_GetAgreementTermsEula_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan EULA dari suatu perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.DocumentItem;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.AGREEMENT_ID;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAgreementTermsEula {

	/*
	 * Obtain the EULA I have entered into with my customer via the agreement
	 */
	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		List<DocumentItem> legalEulaArray = getLegalEula(agreementId);
		
		ReferenceCodesUtils.formatOutput(legalEulaArray);
	}

	public static List<DocumentItem> getLegalEula(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder().agreementId(agreementId)
				.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);

		List<DocumentItem> legalEulaArray = new ArrayList<>();

		getAgreementTermsResponse.acceptedTerms().stream()
	    	.filter(acceptedTerm -> acceptedTerm.legalTerm() != null && acceptedTerm.legalTerm().hasDocuments())
	    	.flatMap(acceptedTerm -> acceptedTerm.legalTerm().documents().stream())
	    	.filter(docItem -> docItem.type() != null)
	    	.forEach(legalEulaArray::add);
		return legalEulaArray;
	}

}
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/GetAgreementTerms)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan ketentuan perpanjangan otomatis dari suatu perjanjian
<a name="marketplace-agreement_GetAgreementAutoRenewal_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan ketentuan perpanjangan otomatis dari suatu perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AcceptedTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;

public class GetAgreementAutoRenewal {

	/*
	 * Obtain the auto-renewal status of the agreement
	 */
	
	public static void main(String[] args) {
		
		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;
		
		String autoRenewal = getAutoRenewal(agreementId);

		System.out.println("Auto-Renewal status is " + autoRenewal);
	}

	public static String getAutoRenewal(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder()
				.agreementId(agreementId)
				.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);

		String autoRenewal = "No Auto Renewal";

		for (AcceptedTerm acceptedTerm : getAgreementTermsResponse.acceptedTerms()) {
			if (acceptedTerm.renewalTerm() != null && acceptedTerm.renewalTerm().configuration() != null
					&& acceptedTerm.renewalTerm().configuration().enableAutoRenew() != null) {
				autoRenewal = String.valueOf(acceptedTerm.renewalTerm().configuration().enableAutoRenew().booleanValue());
				break;
			}
		}
		return autoRenewal;
	}

}
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/GetAgreementTerms)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan dimensi yang dibeli dalam perjanjian
<a name="marketplace-agreement_GetAgreementTermsDimensionPurchased_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan dimensi yang dibeli dalam perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AcceptedTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.Dimension;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.AGREEMENT_ID;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAgreementTermsDimensionPurchased {

	/*
	 * Obtain the dimensions the buyer has purchased from me via the agreement
	 */
	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		List<String> dimensionKeys = getDimensionKeys(agreementId);

		ReferenceCodesUtils.formatOutput(dimensionKeys);
	}

	public static List<String> getDimensionKeys(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder().agreementId(agreementId)
				.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);

		List<String> dimensionKeys = new ArrayList<String>();
		for (AcceptedTerm acceptedTerm : getAgreementTermsResponse.acceptedTerms()) {
			if (acceptedTerm.configurableUpfrontPricingTerm() != null) {
				if (acceptedTerm.configurableUpfrontPricingTerm().configuration().selectorValue() != null) {
					List<Dimension> dimensions = acceptedTerm.configurableUpfrontPricingTerm().configuration().dimensions();
					for (Dimension dimension : dimensions) {
						dimensionKeys.add(dimension.dimensionKey());
					}
				}

			}
		}
		return dimensionKeys;
	}
}
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/GetAgreementTerms)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan contoh dari setiap dimensi yang dibeli dalam perjanjian
<a name="marketplace-agreement_GetAgreementTermsDimensionInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan contoh dari setiap dimensi yang dibeli dalam perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AcceptedTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.Dimension;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.AGREEMENT_ID;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAgreementTermsDimensionInstances {

	/* 
	 * get instances of each dimension that buyer has purchased in the agreement
	 */
	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		Map<String, List<Dimension>> dimensionMap = getDimensions(agreementId);

		ReferenceCodesUtils.formatOutput(dimensionMap);
	}

	public static Map<String, List<Dimension>> getDimensions(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder().agreementId(agreementId)
				.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);

		Map<String, List<Dimension>> dimensionMap = new HashMap<String, List<Dimension>>();

		for (AcceptedTerm acceptedTerm : getAgreementTermsResponse.acceptedTerms()) {
			List<Dimension> dimensionsList = new ArrayList<Dimension>();
			if (acceptedTerm.configurableUpfrontPricingTerm() != null) {
				String selectorValue = "";
				if (acceptedTerm.configurableUpfrontPricingTerm().configuration() != null) {
					if (acceptedTerm.configurableUpfrontPricingTerm().configuration().selectorValue() != null) {
						selectorValue = acceptedTerm.configurableUpfrontPricingTerm().configuration().selectorValue();
					}
					if (acceptedTerm.configurableUpfrontPricingTerm().configuration().hasDimensions()) {
						dimensionsList = acceptedTerm.configurableUpfrontPricingTerm().configuration().dimensions();
					}
				}
				if (selectorValue.length() > 0) {
					dimensionMap.put(selectorValue, dimensionsList);
				}
			}
		}
		return dimensionMap;
	}
}
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/GetAgreementTerms)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan jadwal pembayaran perjanjian
<a name="marketplace-agreement_GetAgreementTermsPaymentSchedule_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan jadwal pembayaran perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AcceptedTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;
import software.amazon.awssdk.services.marketplaceagreement.model.PaymentScheduleTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.ScheduleItem;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAgreementTermsPaymentSchedule {

	/*
	 * Obtain the payment schedule I have agreed to with the agreement, including the invoice date and invoice amount
	 */
	public static void main(String[] args) {
		
		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		List<Map<String, Object>> paymentScheduleArray = getPaymentSchedules(agreementId);

		ReferenceCodesUtils.formatOutput(paymentScheduleArray);
	}

	public static List<Map<String, Object>> getPaymentSchedules(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder().agreementId(agreementId)
				.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);
		List<Map<String, Object>> paymentScheduleArray = new ArrayList<>();

		String currencyCode = "";

		for (AcceptedTerm acceptedTerm : getAgreementTermsResponse.acceptedTerms()) {
			if (acceptedTerm.paymentScheduleTerm() != null) {
				PaymentScheduleTerm paymentScheduleTerm = acceptedTerm.paymentScheduleTerm();
				if (paymentScheduleTerm.currencyCode() != null) {
					currencyCode = paymentScheduleTerm.currencyCode();
				}
				if (paymentScheduleTerm.hasSchedule()) {
					for (ScheduleItem schedule : paymentScheduleTerm.schedule()) {
						if (schedule.chargeDate() != null) {
							String chargeDate = schedule.chargeDate().toString();
							String chargeAmount = schedule.chargeAmount();
							Map<String, Object> scheduleMap = new HashMap<>();
							scheduleMap.put(ATTRIBUTE_CURRENCY_CODE, currencyCode);
							scheduleMap.put(ATTRIBUTE_CHARGE_DATE, chargeDate);
							scheduleMap.put(ATTRIBUTE_CHARGE_AMOUNT, chargeAmount);
							paymentScheduleArray.add(scheduleMap);
						}
					}
				}
			}
		}
		return paymentScheduleArray;
	}
}
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/GetAgreementTerms)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan harga per dimensi dalam perjanjian
<a name="marketplace-agreement_GetAgreementTermsPricingEachDimension_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan harga per dimensi dalam suatu perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AcceptedTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.AGREEMENT_ID;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAgreementTermsPricingEachDimension {

	/*
	 * Obtain pricing per each dimension in the agreement
	 */
	public static void main(String[] args) {
		
		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		List<Object> dimensions = getDimensions(agreementId);

		ReferenceCodesUtils.formatOutput(dimensions);
	}

	public static List<Object> getDimensions(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder().agreementId(agreementId)
				.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);

		List<Object> dimensions = new ArrayList<Object>();

		for (AcceptedTerm acceptedTerm : getAgreementTermsResponse.acceptedTerms()) {
			List<Object> rateInfo = new ArrayList<Object>();
			if (acceptedTerm.configurableUpfrontPricingTerm() != null) {
				if (acceptedTerm.configurableUpfrontPricingTerm().type() != null) {
					rateInfo.add(acceptedTerm.configurableUpfrontPricingTerm().type());
				}
				if (acceptedTerm.configurableUpfrontPricingTerm().currencyCode() != null) {
					rateInfo.add(acceptedTerm.configurableUpfrontPricingTerm().currencyCode());
				}
				if (acceptedTerm.configurableUpfrontPricingTerm().hasRateCards()) {
					rateInfo.add(acceptedTerm.configurableUpfrontPricingTerm().rateCards());
				}
				dimensions.add(rateInfo);
			}
		}
		return dimensions;
	}
}
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/GetAgreementTerms)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan jenis harga perjanjian
<a name="marketplace-agreement_GetAgreementPricingType_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan jenis harga perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AcceptedTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.AgreementViewSummary;
import software.amazon.awssdk.services.marketplaceagreement.model.Filter;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsResponse;

import com.fasterxml.jackson.annotation.JsonAutoDetect.Visibility;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Set;

import org.apache.commons.lang3.tuple.Triple;

import software.amazon.awssdk.services.marketplacecatalog.MarketplaceCatalogClient;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityRequest;
import software.amazon.awssdk.services.marketplacecatalog.model.DescribeEntityResponse;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.fasterxml.jackson.annotation.PropertyAccessor;
import com.fasterxml.jackson.core.JsonProcessingException;
import com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.ObjectMapper;
import com.fasterxml.jackson.databind.ObjectWriter;
import com.fasterxml.jackson.datatype.jsr310.JavaTimeModule;

/*
 * Obtain the pricing type of the agreement (contract, FPS, metered, free etc.)
 */
public class GetAgreementPricingType {

	private static final String FILTER_NAME = "OfferId";

	private static final String FILTER_VALUE = OFFER_ID;
	
	// Product types
	private static final String SAAS_PRODUCT = "SaaSProduct";
	private static final String AMI_PRODUCT = "AmiProduct";
	private static final String ML_PRODUCT = "MachineLearningProduct";
	private static final String CONTAINER_PRODUCT = "ContainerProduct";
	private static final String DATA_PRODUCT = "DataProduct";
	private static final String PROSERVICE_PRODUCT = "ProfessionalServicesProduct";
	private static final String AIQ_PRODUCT = "AiqProduct";

	// Pricing types
	private static final String CCP = "CCP";
	private static final String ANNUAL = "Annual";
	private static final String CONTRACT = "Contract";
	private static final String SFT = "SaaS Free Trial";
	private static final String HMA = "Hourly and Monthly Agreements";
	private static final String HOURLY = "Hourly";
	private static final String MONTHLY = "Monthly";
	private static final String AFPS = "Annual FPS";
	private static final String CFPS = "Contract FPS";
	private static final String CCPFPS = "CCP with FPS";
	private static final String BYOL = "BYOL";
	private static final String FREE = "Free";
	private static final String FTH = "Free Trials and Hourly";

	// Agreement term pricing types
	private static final Set<String> LEGAL = Set.of("LegalTerm");
	private static final Set<String> CONFIGURABLE_UPFRONT = Set.of("ConfigurableUpfrontPricingTerm");
	private static final Set<String> USAGE_BASED = Set.of("UsageBasedPricingTerm");
	private static final Set<String> CONFIGURABLE_UPFRONT_AND_USAGE_BASED = Set.of("ConfigurableUpfrontPricingTerm", "UsageBasedPricingTerm");
	private static final Set<String> FREE_TRIAL = Set.of("FreeTrialPricingTerm");
	private static final Set<String> RECURRING_PAYMENT = Set.of("RecurringPaymentTerm");
	private static final Set<String> USAGE_BASED_AND_RECURRING_PAYMENT = Set.of("UsageBasedPricingTerm", "RecurringPaymentTerm");
	private static final Set<String> FIXED_UPFRONT_AND_PAYMENT_SCHEDULE = Set.of("FixedUpfrontPricingTerm", "PaymentScheduleTerm");
	private static final Set<String> FIXED_UPFRONT_AND_PAYMENT_SCHEDULE_AND_USAGE_BASED = Set.of("FixedUpfrontPricingTerm", "PaymentScheduleTerm", "UsageBasedPricingTerm");
	private static final Set<String> BYOL_PRICING = Set.of("ByolPricingTerm");
	private static final Set<String> FREE_TRIAL_AND_USAGE_BASED = Set.of("FreeTrialPricingTerm", "UsageBasedPricingTerm");

	private static final List<Set<String>> ALL_AGREEMENT_TERM_TYPES_COMBINATION = Arrays.asList(LEGAL, CONFIGURABLE_UPFRONT, USAGE_BASED, CONFIGURABLE_UPFRONT_AND_USAGE_BASED,
			FREE_TRIAL, RECURRING_PAYMENT, USAGE_BASED_AND_RECURRING_PAYMENT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE_AND_USAGE_BASED, BYOL_PRICING, FREE_TRIAL_AND_USAGE_BASED);
	
	private static  MarketplaceAgreementClient marketplaceAgreementClient = 
			MarketplaceAgreementClient.builder()
			.httpClient(ApacheHttpClient.builder().build())
			.credentialsProvider(ProfileCredentialsProvider.create())
			.build();

	private static MarketplaceCatalogClient marketplaceCatalogClient = 
			MarketplaceCatalogClient.builder()
			.httpClient(ApacheHttpClient.builder().build())
			.credentialsProvider(ProfileCredentialsProvider.create())
			.build();

    /*
     * Get agreement Pricing Type given product type, agreement term types and offer types if needed
     */
	public static String getPricingType(String productType, Set<String> agreementTermType, Set<String> offerType) {
		Map<Triple<String, Set<String>, Set<String>>, String> pricingTypes = new HashMap<>();

		pricingTypes.put(Triple.of(SAAS_PRODUCT, CONFIGURABLE_UPFRONT_AND_USAGE_BASED, new HashSet<>()), CCP);
		pricingTypes.put(Triple.of(DATA_PRODUCT, CONFIGURABLE_UPFRONT_AND_USAGE_BASED, new HashSet<>()), CCP);
		pricingTypes.put(Triple.of(CONTAINER_PRODUCT, CONFIGURABLE_UPFRONT, CONFIGURABLE_UPFRONT_AND_USAGE_BASED), ANNUAL);
		pricingTypes.put(Triple.of(AMI_PRODUCT, CONFIGURABLE_UPFRONT, CONFIGURABLE_UPFRONT_AND_USAGE_BASED), ANNUAL);
		pricingTypes.put(Triple.of(ML_PRODUCT, CONFIGURABLE_UPFRONT, CONFIGURABLE_UPFRONT_AND_USAGE_BASED), ANNUAL);
		pricingTypes.put(Triple.of(CONTAINER_PRODUCT, CONFIGURABLE_UPFRONT, CONFIGURABLE_UPFRONT), CONTRACT);
		pricingTypes.put(Triple.of(AMI_PRODUCT, CONFIGURABLE_UPFRONT, CONFIGURABLE_UPFRONT), CONTRACT);
		pricingTypes.put(Triple.of(SAAS_PRODUCT, CONFIGURABLE_UPFRONT, new HashSet<>()), CONTRACT);
		pricingTypes.put(Triple.of(DATA_PRODUCT, CONFIGURABLE_UPFRONT, new HashSet<>()), CONTRACT);
		pricingTypes.put(Triple.of(AIQ_PRODUCT, CONFIGURABLE_UPFRONT, new HashSet<>()), CONTRACT);
		pricingTypes.put(Triple.of(PROSERVICE_PRODUCT, CONFIGURABLE_UPFRONT, new HashSet<>()), CONTRACT);
		pricingTypes.put(Triple.of(SAAS_PRODUCT, FREE_TRIAL, new HashSet<>()), SFT);
		pricingTypes.put(Triple.of(AMI_PRODUCT, USAGE_BASED_AND_RECURRING_PAYMENT, new HashSet<>()), HMA);
		pricingTypes.put(Triple.of(SAAS_PRODUCT, USAGE_BASED, new HashSet<>()), HOURLY);
		pricingTypes.put(Triple.of(AMI_PRODUCT, USAGE_BASED, new HashSet<>()), HOURLY);
		pricingTypes.put(Triple.of(ML_PRODUCT, USAGE_BASED, new HashSet<>()), HOURLY);
		pricingTypes.put(Triple.of(CONTAINER_PRODUCT, RECURRING_PAYMENT, new HashSet<>()), MONTHLY);
		pricingTypes.put(Triple.of(AMI_PRODUCT, RECURRING_PAYMENT, new HashSet<>()), MONTHLY);
		pricingTypes.put(Triple.of(CONTAINER_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE_AND_USAGE_BASED), AFPS);
		pricingTypes.put(Triple.of(AMI_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE_AND_USAGE_BASED), AFPS);
		pricingTypes.put(Triple.of(ML_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, new HashSet<>()), AFPS);
		pricingTypes.put(Triple.of(CONTAINER_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, new HashSet<>()), CFPS);
		pricingTypes.put(Triple.of(AMI_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE), CFPS);
		pricingTypes.put(Triple.of(SAAS_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, new HashSet<>()), CFPS);
		pricingTypes.put(Triple.of(DATA_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, new HashSet<>()), CFPS);
		pricingTypes.put(Triple.of(AIQ_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, new HashSet<>()), CFPS);
		pricingTypes.put(Triple.of(PROSERVICE_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE, new HashSet<>()), CFPS);
		pricingTypes.put(Triple.of(SAAS_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE_AND_USAGE_BASED, new HashSet<>()), CCPFPS);
		pricingTypes.put(Triple.of(DATA_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE_AND_USAGE_BASED, new HashSet<>()), CCPFPS);
		pricingTypes.put(Triple.of(AIQ_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE_AND_USAGE_BASED, new HashSet<>()), CCPFPS);
		pricingTypes.put(Triple.of(PROSERVICE_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE_AND_USAGE_BASED, new HashSet<>()), CCPFPS);
		pricingTypes.put(Triple.of(AMI_PRODUCT, BYOL_PRICING, new HashSet<>()), BYOL);
		pricingTypes.put(Triple.of(SAAS_PRODUCT, BYOL_PRICING, new HashSet<>()), BYOL);
		pricingTypes.put(Triple.of(PROSERVICE_PRODUCT, BYOL_PRICING, new HashSet<>()), BYOL);
		pricingTypes.put(Triple.of(AIQ_PRODUCT, BYOL_PRICING, new HashSet<>()), BYOL);
		pricingTypes.put(Triple.of(ML_PRODUCT, BYOL_PRICING, new HashSet<>()), BYOL);
		pricingTypes.put(Triple.of(CONTAINER_PRODUCT, BYOL_PRICING, new HashSet<>()), BYOL);
		pricingTypes.put(Triple.of(DATA_PRODUCT, BYOL_PRICING, new HashSet<>()), BYOL);
		pricingTypes.put(Triple.of(CONTAINER_PRODUCT, LEGAL, new HashSet<>()), FREE);
		pricingTypes.put(Triple.of(AMI_PRODUCT, FREE_TRIAL_AND_USAGE_BASED, new HashSet<>()), FTH);
		pricingTypes.put(Triple.of(CONTAINER_PRODUCT, FREE_TRIAL_AND_USAGE_BASED, new HashSet<>()), FTH);
		pricingTypes.put(Triple.of(ML_PRODUCT, FREE_TRIAL_AND_USAGE_BASED, new HashSet<>()), FTH);

		Triple<String, Set<String>, Set<String>> key = Triple.of(productType, agreementTermType, offerType);

		if (pricingTypes.containsKey(key)) {
			return pricingTypes.get(key);
		} else {
			return "Unknown";
		}
	}

	/*
	 * Given product type and agreement term types, some combinations need to check offer term types as well.
	 */
	public static String needToCheckOfferTermsType(String productType, Set<String> agreementTermTypes) {
		Map<KeyPair, String> offerTermTypes = new HashMap<>();
		offerTermTypes.put(new KeyPair(CONTAINER_PRODUCT, CONFIGURABLE_UPFRONT), "Y");
		offerTermTypes.put(new KeyPair(AMI_PRODUCT, CONFIGURABLE_UPFRONT), "Y");
		offerTermTypes.put(new KeyPair(CONTAINER_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE), "Y");
		offerTermTypes.put(new KeyPair(AMI_PRODUCT, FIXED_UPFRONT_AND_PAYMENT_SCHEDULE), "Y");

		KeyPair key = new KeyPair(productType, agreementTermTypes);
		if (offerTermTypes.containsKey(key)) {
			return offerTermTypes.get(key);
		} else {
			return null;
		}
	}

	public static List<AgreementViewSummary> getAgreementsById() {
		
		List<AgreementViewSummary> agreementSummaryList = new ArrayList<AgreementViewSummary>();

		Filter partyType = Filter.builder().name(PARTY_TYPE_FILTER_NAME).values(PARTY_TYPE_FILTER_VALUE_PROPOSER).build();

		Filter agreementType = Filter.builder().name(AGREEMENT_TYPE_FILTER_NAME).values(AGREEMENT_TYPE_FILTER_VALUE_PURCHASEAGREEMENT).build();

		Filter customizeFilter = Filter.builder().name(FILTER_NAME).values(FILTER_VALUE).build();

		SearchAgreementsRequest searchAgreementsRequest = 
				SearchAgreementsRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.filters(partyType, agreementType, customizeFilter).build();

		SearchAgreementsResponse searchResultResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);

		agreementSummaryList.addAll(searchResultResponse.agreementViewSummaries());

		while (searchResultResponse.nextToken() != null && searchResultResponse.nextToken().length() > 0) {
			searchAgreementsRequest = SearchAgreementsRequest.builder().catalog(AWS_MP_CATALOG)
					.filters(partyType, agreementType).nextToken(searchResultResponse.nextToken()).build();
			searchResultResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
			agreementSummaryList.addAll(searchResultResponse.agreementViewSummaries());
		}
		return agreementSummaryList;

	}

	static class KeyPair {
		private final String first;
		private final Set<String> second;

		public KeyPair(String productType, Set<String> second) {
			this.first = productType;
			this.second = second;
		}

		@Override
		public int hashCode() {
			return Objects.hash(first, second);
		}

		@Override
		public boolean equals(Object obj) {
			if (this == obj)
				return true;
			if (obj == null || getClass() != obj.getClass())
				return false;
			KeyPair other = (KeyPair) obj;
			return Objects.equals(first, other.first) && Objects.equals(second, other.second);
		}
	}

	/*
	 * Get all the term types for the offer
	 */
	public static Set<String> getOfferTermTypes(String offerId) {

		Set<String> offerTermTypes = new HashSet<String>();

		DescribeEntityRequest request = 
				DescribeEntityRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.entityId(offerId)
				.build();

		DescribeEntityResponse result = marketplaceCatalogClient.describeEntity(request);

		String details = result.details();
		
		try {
			ObjectMapper objectMapper = new ObjectMapper();
			JsonNode rootNode = objectMapper.readTree(details);
			JsonNode termsNode = rootNode.get(ATTRIBUTE_TERMS);

			for (JsonNode termNode : termsNode) {
				if (termNode.get(ATTRIBUTE_TYPE_ENTITY) != null ) {
					offerTermTypes.add(termNode.get(ATTRIBUTE_TYPE_ENTITY).asText());
				}
			}
		} catch (Exception e) {
			e.printStackTrace();
		}

		return offerTermTypes;

	}

	/*
	 * Get all the agreement term types
	 */
	public static Set<String> getAgreementTermTypes(GetAgreementTermsResponse agreementTerm) {
		Set<String> agreementTermTypes = new HashSet<String>();
		try {
			for (AcceptedTerm term : agreementTerm.acceptedTerms()) {
				ObjectMapper objectMapper = new ObjectMapper();
				JsonNode termNode = objectMapper.readTree(getJson(term));
				Iterator<Map.Entry<String, JsonNode>> fieldsIterator = termNode.fields();
				while (fieldsIterator.hasNext()) {
					Map.Entry<String, JsonNode> entry = fieldsIterator.next();
					JsonNode value = entry.getValue();
					if (value.isObject() && value.has(ATTRIBUTE_TYPE_AGREEMENT)) {
						agreementTermTypes.add(value.get(ATTRIBUTE_TYPE_AGREEMENT).asText());
					}
				}
			}
		} catch (Exception e) {
			e.printStackTrace();
		}
		return agreementTermTypes;

	}

	/*
	 * make sure all elements in array2 exist in array1
	 */
	public static boolean allElementsExist(Set<String> array1, Set<String> array2) {
		for (String element : array2) {
			boolean found = false;
			for (String str : array1) {
				if (element.equals(str)) {
					found = true;
					break;
				}
			}
			if (!found) {
				return false;
			}
		}
		return true;
	}

	/*
	 * Find the combinations of the agreement term types for the agreement
	 */
	public static Set<String> getMatchedTermTypesCombination(Set<String> agreementTermTypes) {
		Set<String> matchedCombination = new HashSet<String>();
		for (Set<String> element : ALL_AGREEMENT_TERM_TYPES_COMBINATION) {
			if (allElementsExist(agreementTermTypes, element)) {
				matchedCombination = element;
			}
		}
		return matchedCombination;
	}

	public static void main(String[] args) {

		List<AgreementViewSummary> agreements = getAgreementsById();

		for (AgreementViewSummary summary : agreements) {
			String pricingType = "";
			String agreementId = summary.agreementId();
			System.out.println(agreementId);
			String offerId = summary.proposalSummary().offerId();
			
			//get all pricing term types for the offer in the agreement
			Set<String> offerTermTypes = getOfferTermTypes(offerId);
			String productType = summary.proposalSummary().resources().get(0).type();
			
			//get all pricing term types for the agreement
			GetAgreementTermsRequest getAgreementTermsRequest = 
					GetAgreementTermsRequest.builder().agreementId(agreementId)
					.build();
			GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);
			Set<String> agreementTermTypes = getAgreementTermTypes(getAgreementTermsResponse);
			
			//get matched pricing term type combination set
			Set<String> agreementMatchedTermType = getMatchedTermTypesCombination(agreementTermTypes);
			
			//check to see if this agreement pricing term combination needs additional check on offer pricing terms
			String needToCheckOfferType = needToCheckOfferTermsType(productType, agreementMatchedTermType);
			
			// get the pricing type for the agreement based on the product type, agreement term types and offer term types if needed
			if (needToCheckOfferType != null) {
				Set<String> offerMatchedTermType = getMatchedTermTypesCombination(offerTermTypes);
				pricingType = getPricingType(productType, agreementMatchedTermType, offerMatchedTermType);
			} else if (agreementMatchedTermType == LEGAL) {
				pricingType = FREE;
			} else {
				pricingType = getPricingType(productType, agreementMatchedTermType, new HashSet());
			}
			System.out.println("Pricing type is " + pricingType);
		}
	}

	private static String getJson(Object result) {
		String json = "";

		try {
			ObjectMapper om = new ObjectMapper();
			om.setVisibility(PropertyAccessor.FIELD, Visibility.ANY);
			om.registerModule(new JavaTimeModule());
			ObjectWriter ow = om.writer().withDefaultPrettyPrinter();

			json = ow.writeValueAsString(result);
		} catch (JsonProcessingException e) {
			e.printStackTrace();
		}
		return json;
	}

}
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/DescribeAgreement)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan jenis produk dari perjanjian
<a name="marketplace-agreement_GetAgreementProductType_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan jenis produk perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementResponse;
import software.amazon.awssdk.services.marketplaceagreement.model.Resource;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;

import java.util.ArrayList;
import java.util.List;

import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAgreementProductType {

	/* 
	 * Obtain the Product Type of the product the agreement was created on
	 */
	public static void main(String[] args) {
		
		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		List<String> productIds = getProducts(agreementId);

		ReferenceCodesUtils.formatOutput(productIds);
	}

	public static List<String> getProducts(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		DescribeAgreementRequest describeAgreementRequest = 
				DescribeAgreementRequest.builder()
				.agreementId(agreementId)
				.build();

		DescribeAgreementResponse describeAgreementResponse = marketplaceAgreementClient.describeAgreement(describeAgreementRequest);

		List<String> productIds = new ArrayList<String>();
		for (Resource resource : describeAgreementResponse.proposalSummary().resources()) {
			productIds.add(resource.id() + ":" + resource.type());
		}
		return productIds;
	}
}
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/DescribeAgreement)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan status perjanjian
<a name="marketplace-agreement_GetAgreementStatus_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan status perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.AGREEMENT_ID;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.DescribeAgreementResponse;

public class GetAgreementStatus {

	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		DescribeAgreementResponse describeAgreementResponse = getDescribeAgreementResponse(agreementId);

		System.out.println("Agreement status is " + describeAgreementResponse.status());

	}

	public static DescribeAgreementResponse getDescribeAgreementResponse(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		DescribeAgreementRequest describeAgreementRequest = 
				DescribeAgreementRequest.builder()
				.agreementId(agreementId)
				.build();

		DescribeAgreementResponse describeAgreementResponse = marketplaceAgreementClient.describeAgreement(describeAgreementRequest);
		return describeAgreementResponse;
	}

}
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/DescribeAgreement)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan ketentuan dukungan dari perjanjian
<a name="marketplace-agreement_GetAgreementTermsSupportTerm_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan ketentuan dukungan dari suatu perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AcceptedTerm;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;
import software.amazon.awssdk.services.marketplaceagreement.model.SupportTerm;

import java.util.ArrayList;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.AGREEMENT_ID;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class GetAgreementTermsSupportTerm {

	/*
	 * Obtain the support and refund policy I have provided to the customer
	 */
	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		List<SupportTerm> supportTerms = getSupportTerms(agreementId);

		ReferenceCodesUtils.formatOutput(supportTerms);
	}

	public static List<SupportTerm> getSupportTerms(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder().agreementId(agreementId)
				.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);

		List<SupportTerm> supportTerms = new ArrayList<>();

		for (AcceptedTerm acceptedTerm : getAgreementTermsResponse.acceptedTerms()) {
			if (acceptedTerm.supportTerm() != null) {
				supportTerms.add(acceptedTerm.supportTerm());
			}
		}
		return supportTerms;
	}

}
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/GetAgreementTerms)di *Referensi AWS SDK for Java 2.x API*. 

### Dapatkan ketentuan perjanjian
<a name="marketplace-agreement_GetAgreementTerms_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan ketentuan perjanjian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.GetAgreementTermsResponse;

public class GetAgreementTerms {

	public static void main(String[] args) {

		String agreementId = args.length > 0 ? args[0] : AGREEMENT_ID;

		GetAgreementTermsResponse getAgreementTermsResponse = getAgreementTermsResponse(agreementId);

		ReferenceCodesUtils.formatOutput(getAgreementTermsResponse);

	}

	public static GetAgreementTermsResponse getAgreementTermsResponse(String agreementId) {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		GetAgreementTermsRequest getAgreementTermsRequest = 
				GetAgreementTermsRequest.builder()
				.agreementId(agreementId)
				.build();

		GetAgreementTermsResponse getAgreementTermsResponse = marketplaceAgreementClient.getAgreementTerms(getAgreementTermsRequest);
		return getAgreementTermsResponse;
	}

}
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/GetAgreementTerms)di *Referensi AWS SDK for Java 2.x API*. 

### Cari perjanjian berdasarkan tanggal akhir
<a name="marketplace-agreement_SearchAgreementsByEndDate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian berdasarkan tanggal akhir.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AgreementViewSummary;
import software.amazon.awssdk.services.marketplaceagreement.model.Filter;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsResponse;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

public class SearchAgreementsByEndDate {

	static String beforeOrAfterEndtimeFilterName = BeforeOrAfterEndTimeFilterName.BeforeEndTime.name();

	static String cutoffDate = "2050-11-18T00:00:00Z";

	static String partyTypeFilterValue = PARTY_TYPE_FILTER_VALUE_PROPOSER;

	public static void main(String[] args) {

		List<AgreementViewSummary> agreementSummaryList = getAgreements();

		ReferenceCodesUtils.formatOutput(agreementSummaryList);
	}

	public static List<AgreementViewSummary> getAgreements() {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();

		// set up filters
		
		Filter partyTypeFilter = Filter.builder().name(PARTY_TYPE_FILTER_NAME)
				.values(PARTY_TYPE_FILTER_VALUE_PROPOSER).build();

		Filter agreementTypeFilter = Filter.builder().name(AGREEMENT_TYPE_FILTER_NAME)
				.values(AGREEMENT_TYPE_FILTER_VALUE_PURCHASEAGREEMENT).build();
		
		Filter customizeFilter = Filter.builder().name(beforeOrAfterEndtimeFilterName).values(cutoffDate).build();
		
		List<Filter> filters = new ArrayList<Filter>();
		
		filters.addAll(Arrays.asList(partyTypeFilter, agreementTypeFilter, customizeFilter));
		
		// search agreement with filters
		
		SearchAgreementsRequest searchAgreementsRequest = 
				SearchAgreementsRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.filters(filters)
				.build();
		
		SearchAgreementsResponse searchAgreementResponse= marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
		
		List<AgreementViewSummary> agreementSummaryList = new ArrayList<AgreementViewSummary>();
		
		agreementSummaryList.addAll(searchAgreementResponse.agreementViewSummaries());

		while (searchAgreementResponse.nextToken() != null && searchAgreementResponse.nextToken().length() > 0) {
			searchAgreementsRequest = 
					SearchAgreementsRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.filters(filters)
					.nextToken(searchAgreementResponse.nextToken())
					.build();
			searchAgreementResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
			agreementSummaryList.addAll(searchAgreementResponse.agreementViewSummaries());
		}
		return agreementSummaryList;
	}

}
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/SearchAgreements)di *Referensi AWS SDK for Java 2.x API*. 

### Cari perjanjian dengan satu filter khusus
<a name="marketplace-agreement_SearchAgreementsByOneFilter_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian dengan satu filter khusus.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AgreementViewSummary;
import software.amazon.awssdk.services.marketplaceagreement.model.Filter;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsResponse;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

import com.example.awsmarketplace.utils.ReferenceCodesUtils;

/**
 * To search by 
 * offer id: OfferId; 
 * product id: ResourceIdentifier; 
 * customer AWS account id: AcceptorAccountId 
 * product type: ResourceType (i.e. SaasProduct)
 * status: Status. status values can be: ACTIVE, CANCELED,
 * 		EXPIRED, RENEWED, REPLACED, ROLLED_BACK, SUPERSEDED, TERMINATED
 */

public class SearchAgreementsByOneFilter {

	private static final String FILTER_NAME = "ResourceType"; 

	private static final String FILTER_VALUE = "SaaSProduct";

	/*
	 * search agreements by one customize filter
	 */
	public static void main(String[] args) {

		List<AgreementViewSummary> agreementSummaryList = getAgreements();

		ReferenceCodesUtils.formatOutput(agreementSummaryList);
	}

	public static List<AgreementViewSummary> getAgreements() {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		Filter partyTypeFilter = Filter.builder().name(PARTY_TYPE_FILTER_NAME)
				.values(PARTY_TYPE_FILTER_VALUE_PROPOSER).build();

		Filter agreementTypeFilter = Filter.builder().name(AGREEMENT_TYPE_FILTER_NAME)
				.values(AGREEMENT_TYPE_FILTER_VALUE_PURCHASEAGREEMENT).build();
		
		Filter customizeFilter = Filter.builder().name(FILTER_NAME).values(FILTER_VALUE).build();
		
		List<Filter> filters = new ArrayList<Filter>();
		
		filters.addAll(Arrays.asList(partyTypeFilter, agreementTypeFilter, customizeFilter));
		
		SearchAgreementsRequest searchAgreementsRequest = 
				SearchAgreementsRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.filters(filters)
				.build();
		SearchAgreementsResponse searchAgreementsResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
		
		List<AgreementViewSummary> agreementSummaryList = new ArrayList<AgreementViewSummary>();

		agreementSummaryList.addAll(searchAgreementsResponse.agreementViewSummaries());

		while (searchAgreementsResponse.nextToken() != null && searchAgreementsResponse.nextToken().length() > 0) {
			searchAgreementsRequest = 
					SearchAgreementsRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.filters(filters)
					.nextToken(searchAgreementsResponse.nextToken())
					.build();
			searchAgreementsResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
			agreementSummaryList.addAll(searchAgreementsResponse.agreementViewSummaries());
		}
		return agreementSummaryList;
	}

}
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/SearchAgreements)di *Referensi AWS SDK for Java 2.x API*. 

### Cari perjanjian dengan dua filter khusus
<a name="marketplace-agreement_SearchAgreementsByTwoFilters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian dengan dua filter khusus.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/tree/main/java#agreement-api-reference-code). 

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.example.awsmarketplace.agreementapi;

import software.amazon.awssdk.auth.credentials.AwsCredentialsProvider;
import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.http.SdkHttpClient;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.marketplaceagreement.MarketplaceAgreementClient;
import software.amazon.awssdk.services.marketplaceagreement.model.AgreementViewSummary;
import software.amazon.awssdk.services.marketplaceagreement.model.Filter;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsRequest;
import software.amazon.awssdk.services.marketplaceagreement.model.SearchAgreementsResponse;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

import static com.example.awsmarketplace.utils.ReferenceCodesConstants.*;
import com.example.awsmarketplace.utils.ReferenceCodesUtils;

/**
 * Party Type = Proposer AND Acceptor: 
 * 	AfterEndTime 
 * 	BeforeEndTime
 * 	ResourceIdentifier + BeforeEndTime 
 * 	ResourceIdentifier + AfterEndTime
 * 	ResourceType + BeforeEndTime 
 * 	ResourceType + AfterEndTime 
 * 
 * Party Type = Proposer 
 * 	ResourceIdentifier 
 * 	OfferId 
 * 	AcceptorAccountId 
 * 	Status (ACTIVE) 
 * 	Status (ACTIVE) + ResourceIdentifier 
 * 	Status (ACTIVE) + AcceptorAccountId 
 * 	Status (ACTIVE) + OfferId 
 * 	Status (ACTIVE) + ResourceType 
 * 	AcceptorAccountId + BeforeEndTime 
 * 	AcceptorAccountId + AfterEndTime 
 * 	AcceptorAccountId + AfterEndTime 
 * 	OfferId + BeforeEndTime 
 * 
 * Status values can be: ACTIVE, CANCELLED, EXPIRED, RENEWED, REPLACED, ROLLED_BACK, SUPERSEDED, TERMINATED
 */

public class SearchAgreementsByTwoFilters {

	public static final String FILTER_1_NAME = "ResourceType";

	public static final String FILTER_1_VALUE = "SaaSProduct";

	public static final String FILTER_2_NAME = "Status";

	public static final String FILTER_2_VALUE = "ACTIVE";
	
	/*
	 * search agreements by two customize filter
	 */
	public static void main(String[] args) {

		List<AgreementViewSummary> agreementSummaryList = getAgreements();

		ReferenceCodesUtils.formatOutput(agreementSummaryList);

	}

	public static List<AgreementViewSummary> getAgreements() {
		MarketplaceAgreementClient marketplaceAgreementClient = 
				MarketplaceAgreementClient.builder()
				.httpClient(ApacheHttpClient.builder().build())
				.credentialsProvider(ProfileCredentialsProvider.create())
				.build();
		
		Filter partyTypeFilter = Filter.builder().name(PARTY_TYPE_FILTER_NAME)
				.values(PARTY_TYPE_FILTER_VALUE_PROPOSER).build();

		Filter agreementTypeFilter = Filter.builder().name(AGREEMENT_TYPE_FILTER_NAME)
				.values(AGREEMENT_TYPE_FILTER_VALUE_PURCHASEAGREEMENT).build();
		
		Filter customizeFilter1 = Filter.builder().name(FILTER_1_NAME).values(FILTER_1_VALUE).build();
		
		Filter customizeFilter2 = Filter.builder().name(FILTER_2_NAME).values(FILTER_2_VALUE).build();

		
		List<Filter> filters = new ArrayList<Filter>();
		
		filters.addAll(Arrays.asList(partyTypeFilter, agreementTypeFilter, customizeFilter1, customizeFilter2));
		
		SearchAgreementsRequest searchAgreementsRequest = 
				SearchAgreementsRequest.builder()
				.catalog(AWS_MP_CATALOG)
				.filters(filters)
				.build();
		
		SearchAgreementsResponse searchAgreementsResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
		
		List<AgreementViewSummary> agreementSummaryList = new ArrayList<AgreementViewSummary>();

		agreementSummaryList.addAll(searchAgreementsResponse.agreementViewSummaries());

		while (searchAgreementsResponse.nextToken() != null && searchAgreementsResponse.nextToken().length() > 0) {
			searchAgreementsRequest = 
					SearchAgreementsRequest.builder()
					.catalog(AWS_MP_CATALOG)
					.filters(filters)
					.nextToken(searchAgreementsResponse.nextToken())
					.build();
			searchAgreementsResponse = marketplaceAgreementClient.searchAgreements(searchAgreementsRequest);
			agreementSummaryList.addAll(searchAgreementsResponse.agreementViewSummaries());
		}
		return agreementSummaryList;
	}

}
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/SdkForJavaV2/marketplace-agreement-2020-03-01/SearchAgreements)di *Referensi AWS SDK for Java 2.x API*. 

# MediaConvert contoh menggunakan SDK for Java 2.x
<a name="java_2_mediaconvert_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with MediaConvert.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateJob`
<a name="mediaconvert_CreateJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediaconvert#code-examples). 

```
package com.example.mediaconvert;

import java.net.URI;
import java.util.HashMap;
import java.util.Map;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediaconvert.MediaConvertClient;
import software.amazon.awssdk.services.mediaconvert.model.DescribeEndpointsResponse;
import software.amazon.awssdk.services.mediaconvert.model.DescribeEndpointsRequest;
import software.amazon.awssdk.services.mediaconvert.model.Output;
import software.amazon.awssdk.services.mediaconvert.model.MediaConvertException;
import software.amazon.awssdk.services.mediaconvert.model.OutputGroup;
import software.amazon.awssdk.services.mediaconvert.model.OutputGroupSettings;
import software.amazon.awssdk.services.mediaconvert.model.HlsGroupSettings;
import software.amazon.awssdk.services.mediaconvert.model.OutputGroupType;
import software.amazon.awssdk.services.mediaconvert.model.HlsDirectoryStructure;
import software.amazon.awssdk.services.mediaconvert.model.HlsManifestDurationFormat;
import software.amazon.awssdk.services.mediaconvert.model.HlsStreamInfResolution;
import software.amazon.awssdk.services.mediaconvert.model.HlsClientCache;
import software.amazon.awssdk.services.mediaconvert.model.HlsCaptionLanguageSetting;
import software.amazon.awssdk.services.mediaconvert.model.HlsManifestCompression;
import software.amazon.awssdk.services.mediaconvert.model.HlsCodecSpecification;
import software.amazon.awssdk.services.mediaconvert.model.HlsOutputSelection;
import software.amazon.awssdk.services.mediaconvert.model.HlsProgramDateTime;
import software.amazon.awssdk.services.mediaconvert.model.HlsTimedMetadataId3Frame;
import software.amazon.awssdk.services.mediaconvert.model.HlsSegmentControl;
import software.amazon.awssdk.services.mediaconvert.model.FileGroupSettings;
import software.amazon.awssdk.services.mediaconvert.model.ContainerSettings;
import software.amazon.awssdk.services.mediaconvert.model.VideoDescription;
import software.amazon.awssdk.services.mediaconvert.model.ContainerType;
import software.amazon.awssdk.services.mediaconvert.model.ScalingBehavior;
import software.amazon.awssdk.services.mediaconvert.model.VideoTimecodeInsertion;
import software.amazon.awssdk.services.mediaconvert.model.ColorMetadata;
import software.amazon.awssdk.services.mediaconvert.model.RespondToAfd;
import software.amazon.awssdk.services.mediaconvert.model.AfdSignaling;
import software.amazon.awssdk.services.mediaconvert.model.DropFrameTimecode;
import software.amazon.awssdk.services.mediaconvert.model.VideoCodecSettings;
import software.amazon.awssdk.services.mediaconvert.model.H264Settings;
import software.amazon.awssdk.services.mediaconvert.model.VideoCodec;
import software.amazon.awssdk.services.mediaconvert.model.CreateJobRequest;
import software.amazon.awssdk.services.mediaconvert.model.H264RateControlMode;
import software.amazon.awssdk.services.mediaconvert.model.H264QualityTuningLevel;
import software.amazon.awssdk.services.mediaconvert.model.H264SceneChangeDetect;
import software.amazon.awssdk.services.mediaconvert.model.AacAudioDescriptionBroadcasterMix;
import software.amazon.awssdk.services.mediaconvert.model.H264ParControl;
import software.amazon.awssdk.services.mediaconvert.model.AacRawFormat;
import software.amazon.awssdk.services.mediaconvert.model.H264QvbrSettings;
import software.amazon.awssdk.services.mediaconvert.model.H264FramerateConversionAlgorithm;
import software.amazon.awssdk.services.mediaconvert.model.H264CodecLevel;
import software.amazon.awssdk.services.mediaconvert.model.H264FramerateControl;
import software.amazon.awssdk.services.mediaconvert.model.AacCodingMode;
import software.amazon.awssdk.services.mediaconvert.model.H264Telecine;
import software.amazon.awssdk.services.mediaconvert.model.H264FlickerAdaptiveQuantization;
import software.amazon.awssdk.services.mediaconvert.model.H264GopSizeUnits;
import software.amazon.awssdk.services.mediaconvert.model.H264CodecProfile;
import software.amazon.awssdk.services.mediaconvert.model.H264GopBReference;
import software.amazon.awssdk.services.mediaconvert.model.AudioTypeControl;
import software.amazon.awssdk.services.mediaconvert.model.AntiAlias;
import software.amazon.awssdk.services.mediaconvert.model.H264SlowPal;
import software.amazon.awssdk.services.mediaconvert.model.H264SpatialAdaptiveQuantization;
import software.amazon.awssdk.services.mediaconvert.model.H264Syntax;
import software.amazon.awssdk.services.mediaconvert.model.M3u8Settings;
import software.amazon.awssdk.services.mediaconvert.model.InputDenoiseFilter;
import software.amazon.awssdk.services.mediaconvert.model.H264TemporalAdaptiveQuantization;
import software.amazon.awssdk.services.mediaconvert.model.CreateJobResponse;
import software.amazon.awssdk.services.mediaconvert.model.H264UnregisteredSeiTimecode;
import software.amazon.awssdk.services.mediaconvert.model.H264EntropyEncoding;
import software.amazon.awssdk.services.mediaconvert.model.InputPsiControl;
import software.amazon.awssdk.services.mediaconvert.model.ColorSpace;
import software.amazon.awssdk.services.mediaconvert.model.H264RepeatPps;
import software.amazon.awssdk.services.mediaconvert.model.H264FieldEncoding;
import software.amazon.awssdk.services.mediaconvert.model.M3u8NielsenId3;
import software.amazon.awssdk.services.mediaconvert.model.InputDeblockFilter;
import software.amazon.awssdk.services.mediaconvert.model.InputRotate;
import software.amazon.awssdk.services.mediaconvert.model.H264DynamicSubGop;
import software.amazon.awssdk.services.mediaconvert.model.TimedMetadata;
import software.amazon.awssdk.services.mediaconvert.model.JobSettings;
import software.amazon.awssdk.services.mediaconvert.model.AudioDefaultSelection;
import software.amazon.awssdk.services.mediaconvert.model.VideoSelector;
import software.amazon.awssdk.services.mediaconvert.model.AacSpecification;
import software.amazon.awssdk.services.mediaconvert.model.Input;
import software.amazon.awssdk.services.mediaconvert.model.OutputSettings;
import software.amazon.awssdk.services.mediaconvert.model.H264AdaptiveQuantization;
import software.amazon.awssdk.services.mediaconvert.model.AudioLanguageCodeControl;
import software.amazon.awssdk.services.mediaconvert.model.InputFilterEnable;
import software.amazon.awssdk.services.mediaconvert.model.AudioDescription;
import software.amazon.awssdk.services.mediaconvert.model.H264InterlaceMode;
import software.amazon.awssdk.services.mediaconvert.model.AudioCodecSettings;
import software.amazon.awssdk.services.mediaconvert.model.AacSettings;
import software.amazon.awssdk.services.mediaconvert.model.AudioCodec;
import software.amazon.awssdk.services.mediaconvert.model.AacRateControlMode;
import software.amazon.awssdk.services.mediaconvert.model.AacCodecProfile;
import software.amazon.awssdk.services.mediaconvert.model.HlsIFrameOnlyManifest;
import software.amazon.awssdk.services.mediaconvert.model.FrameCaptureSettings;
import software.amazon.awssdk.services.mediaconvert.model.AudioSelector;
import software.amazon.awssdk.services.mediaconvert.model.M3u8PcrControl;
import software.amazon.awssdk.services.mediaconvert.model.InputTimecodeSource;
import software.amazon.awssdk.services.mediaconvert.model.HlsSettings;
import software.amazon.awssdk.services.mediaconvert.model.M3u8Scte35Source;

/**
 * Create a MediaConvert job. Must supply MediaConvert access role Amazon
 * Resource Name (ARN), and a
 * valid video input file via Amazon S3 URL.
 *
 * Also, set up your development environment, including your credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 */
public class CreateJob {
        public static void main(String[] args) {
                final String usage = """

                                Usage:
                                    <mcRoleARN> <fileInput>\s

                                Where:
                                    mcRoleARN - The MediaConvert Role ARN.\s
                                    fileInput -  The URL of an Amazon S3 bucket where the input file is located.\s
                                """;

                if (args.length != 2) {
                        System.out.println(usage);
                        System.exit(1);
                }

                String mcRoleARN = args[0];
                String fileInput = args[1];
                Region region = Region.US_WEST_2;
                MediaConvertClient mc = MediaConvertClient.builder()
                                .region(region)
                                .build();

                String id = createMediaJob(mc, mcRoleARN, fileInput);
                System.out.println("MediaConvert job created. Job Id = " + id);
                mc.close();
        }

        public static String createMediaJob(MediaConvertClient mc, String mcRoleARN, String fileInput) {

                String s3path = fileInput.substring(0, fileInput.lastIndexOf('/') + 1) + "javasdk/out/";
                String fileOutput = s3path + "index";
                String thumbsOutput = s3path + "thumbs/";
                String mp4Output = s3path + "mp4/";

                try {
                        System.out.println("MediaConvert role arn: " + mcRoleARN);
                        System.out.println("MediaConvert input file: " + fileInput);
                        System.out.println("MediaConvert output path: " + s3path);

                        // output group Preset HLS low profile
                        Output hlsLow = createOutput("hls_low", "_low", "_$dt$", 750000, 7, 1920, 1080, 640);
                        // output group Preset HLS media profile
                        Output hlsMedium = createOutput("hls_medium", "_medium", "_$dt$", 1200000, 7, 1920, 1080, 1280);
                        // output group Preset HLS high profole
                        Output hlsHigh = createOutput("hls_high", "_high", "_$dt$", 3500000, 8, 1920, 1080, 1920);

                        OutputGroup appleHLS = OutputGroup.builder().name("Apple HLS").customName("Example")
                                        .outputGroupSettings(OutputGroupSettings.builder()
                                                        .type(OutputGroupType.HLS_GROUP_SETTINGS)
                                                        .hlsGroupSettings(HlsGroupSettings.builder()
                                                                        .directoryStructure(
                                                                                        HlsDirectoryStructure.SINGLE_DIRECTORY)
                                                                        .manifestDurationFormat(
                                                                                        HlsManifestDurationFormat.INTEGER)
                                                                        .streamInfResolution(
                                                                                        HlsStreamInfResolution.INCLUDE)
                                                                        .clientCache(HlsClientCache.ENABLED)
                                                                        .captionLanguageSetting(
                                                                                        HlsCaptionLanguageSetting.OMIT)
                                                                        .manifestCompression(
                                                                                        HlsManifestCompression.NONE)
                                                                        .codecSpecification(
                                                                                        HlsCodecSpecification.RFC_4281)
                                                                        .outputSelection(
                                                                                        HlsOutputSelection.MANIFESTS_AND_SEGMENTS)
                                                                        .programDateTime(HlsProgramDateTime.EXCLUDE)
                                                                        .programDateTimePeriod(600)
                                                                        .timedMetadataId3Frame(
                                                                                        HlsTimedMetadataId3Frame.PRIV)
                                                                        .timedMetadataId3Period(10)
                                                                        .destination(fileOutput)
                                                                        .segmentControl(HlsSegmentControl.SEGMENTED_FILES)
                                                                        .minFinalSegmentLength((double) 0)
                                                                        .segmentLength(4).minSegmentLength(0).build())
                                                        .build())
                                        .outputs(hlsLow, hlsMedium, hlsHigh).build();

                        OutputGroup fileMp4 = OutputGroup.builder().name("File Group").customName("mp4")
                                        .outputGroupSettings(OutputGroupSettings.builder()
                                                        .type(OutputGroupType.FILE_GROUP_SETTINGS)
                                                        .fileGroupSettings(FileGroupSettings.builder()
                                                                        .destination(mp4Output).build())
                                                        .build())
                                        .outputs(Output.builder().extension("mp4")
                                                        .containerSettings(ContainerSettings.builder()
                                                                        .container(ContainerType.MP4).build())
                                                        .videoDescription(VideoDescription.builder().width(1280)
                                                                        .height(720)
                                                                        .scalingBehavior(ScalingBehavior.DEFAULT)
                                                                        .sharpness(50).antiAlias(AntiAlias.ENABLED)
                                                                        .timecodeInsertion(
                                                                                        VideoTimecodeInsertion.DISABLED)
                                                                        .colorMetadata(ColorMetadata.INSERT)
                                                                        .respondToAfd(RespondToAfd.NONE)
                                                                        .afdSignaling(AfdSignaling.NONE)
                                                                        .dropFrameTimecode(DropFrameTimecode.ENABLED)
                                                                        .codecSettings(VideoCodecSettings.builder()
                                                                                        .codec(VideoCodec.H_264)
                                                                                        .h264Settings(H264Settings
                                                                                                        .builder()
                                                                                                        .rateControlMode(
                                                                                                                        H264RateControlMode.QVBR)
                                                                                                        .parControl(H264ParControl.INITIALIZE_FROM_SOURCE)
                                                                                                        .qualityTuningLevel(
                                                                                                                        H264QualityTuningLevel.SINGLE_PASS)
                                                                                                        .qvbrSettings(
                                                                                                                        H264QvbrSettings.builder()
                                                                                                                                        .qvbrQualityLevel(
                                                                                                                                                        8)
                                                                                                                                        .build())
                                                                                                        .codecLevel(H264CodecLevel.AUTO)
                                                                                                        .codecProfile(H264CodecProfile.MAIN)
                                                                                                        .maxBitrate(2400000)
                                                                                                        .framerateControl(
                                                                                                                        H264FramerateControl.INITIALIZE_FROM_SOURCE)
                                                                                                        .gopSize(2.0)
                                                                                                        .gopSizeUnits(H264GopSizeUnits.SECONDS)
                                                                                                        .numberBFramesBetweenReferenceFrames(
                                                                                                                        2)
                                                                                                        .gopClosedCadence(
                                                                                                                        1)
                                                                                                        .gopBReference(H264GopBReference.DISABLED)
                                                                                                        .slowPal(H264SlowPal.DISABLED)
                                                                                                        .syntax(H264Syntax.DEFAULT)
                                                                                                        .numberReferenceFrames(
                                                                                                                        3)
                                                                                                        .dynamicSubGop(H264DynamicSubGop.STATIC)
                                                                                                        .fieldEncoding(H264FieldEncoding.PAFF)
                                                                                                        .sceneChangeDetect(
                                                                                                                        H264SceneChangeDetect.ENABLED)
                                                                                                        .minIInterval(0)
                                                                                                        .telecine(H264Telecine.NONE)
                                                                                                        .framerateConversionAlgorithm(
                                                                                                                        H264FramerateConversionAlgorithm.DUPLICATE_DROP)
                                                                                                        .entropyEncoding(
                                                                                                                        H264EntropyEncoding.CABAC)
                                                                                                        .slices(1)
                                                                                                        .unregisteredSeiTimecode(
                                                                                                                        H264UnregisteredSeiTimecode.DISABLED)
                                                                                                        .repeatPps(H264RepeatPps.DISABLED)
                                                                                                        .adaptiveQuantization(
                                                                                                                        H264AdaptiveQuantization.HIGH)
                                                                                                        .spatialAdaptiveQuantization(
                                                                                                                        H264SpatialAdaptiveQuantization.ENABLED)
                                                                                                        .temporalAdaptiveQuantization(
                                                                                                                        H264TemporalAdaptiveQuantization.ENABLED)
                                                                                                        .flickerAdaptiveQuantization(
                                                                                                                        H264FlickerAdaptiveQuantization.DISABLED)
                                                                                                        .softness(0)
                                                                                                        .interlaceMode(H264InterlaceMode.PROGRESSIVE)
                                                                                                        .build())
                                                                                        .build())
                                                                        .build())
                                                        .audioDescriptions(AudioDescription.builder()
                                                                        .audioTypeControl(AudioTypeControl.FOLLOW_INPUT)
                                                                        .languageCodeControl(
                                                                                        AudioLanguageCodeControl.FOLLOW_INPUT)
                                                                        .codecSettings(AudioCodecSettings.builder()
                                                                                        .codec(AudioCodec.AAC)
                                                                                        .aacSettings(AacSettings
                                                                                                        .builder()
                                                                                                        .codecProfile(AacCodecProfile.LC)
                                                                                                        .rateControlMode(
                                                                                                                        AacRateControlMode.CBR)
                                                                                                        .codingMode(AacCodingMode.CODING_MODE_2_0)
                                                                                                        .sampleRate(44100)
                                                                                                        .bitrate(160000)
                                                                                                        .rawFormat(AacRawFormat.NONE)
                                                                                                        .specification(AacSpecification.MPEG4)
                                                                                                        .audioDescriptionBroadcasterMix(
                                                                                                                        AacAudioDescriptionBroadcasterMix.NORMAL)
                                                                                                        .build())
                                                                                        .build())
                                                                        .build())
                                                        .build())
                                        .build();
                        OutputGroup thumbs = OutputGroup.builder().name("File Group").customName("thumbs")
                                        .outputGroupSettings(OutputGroupSettings.builder()
                                                        .type(OutputGroupType.FILE_GROUP_SETTINGS)
                                                        .fileGroupSettings(FileGroupSettings.builder()
                                                                        .destination(thumbsOutput).build())
                                                        .build())
                                        .outputs(Output.builder().extension("jpg")
                                                        .containerSettings(ContainerSettings.builder()
                                                                        .container(ContainerType.RAW).build())
                                                        .videoDescription(VideoDescription.builder()
                                                                        .scalingBehavior(ScalingBehavior.DEFAULT)
                                                                        .sharpness(50).antiAlias(AntiAlias.ENABLED)
                                                                        .timecodeInsertion(
                                                                                        VideoTimecodeInsertion.DISABLED)
                                                                        .colorMetadata(ColorMetadata.INSERT)
                                                                        .dropFrameTimecode(DropFrameTimecode.ENABLED)
                                                                        .codecSettings(VideoCodecSettings.builder()
                                                                                        .codec(VideoCodec.FRAME_CAPTURE)
                                                                                        .frameCaptureSettings(
                                                                                                        FrameCaptureSettings
                                                                                                                        .builder()
                                                                                                                        .framerateNumerator(
                                                                                                                                        1)
                                                                                                                        .framerateDenominator(
                                                                                                                                        1)
                                                                                                                        .maxCaptures(10000000)
                                                                                                                        .quality(80)
                                                                                                                        .build())
                                                                                        .build())
                                                                        .build())
                                                        .build())
                                        .build();

                        Map<String, AudioSelector> audioSelectors = new HashMap<>();
                        audioSelectors.put("Audio Selector 1",
                                        AudioSelector.builder().defaultSelection(AudioDefaultSelection.DEFAULT)
                                                        .offset(0).build());

                        JobSettings jobSettings = JobSettings.builder().inputs(Input.builder()
                                        .audioSelectors(audioSelectors)
                                        .videoSelector(
                                                        VideoSelector.builder().colorSpace(ColorSpace.FOLLOW)
                                                                        .rotate(InputRotate.DEGREE_0).build())
                                        .filterEnable(InputFilterEnable.AUTO).filterStrength(0)
                                        .deblockFilter(InputDeblockFilter.DISABLED)
                                        .denoiseFilter(InputDenoiseFilter.DISABLED).psiControl(InputPsiControl.USE_PSI)
                                        .timecodeSource(InputTimecodeSource.EMBEDDED).fileInput(fileInput).build())
                                        .outputGroups(appleHLS, thumbs, fileMp4).build();

                        CreateJobRequest createJobRequest = CreateJobRequest.builder().role(mcRoleARN)
                                        .settings(jobSettings)
                                        .build();

                        CreateJobResponse createJobResponse = mc.createJob(createJobRequest);
                        return createJobResponse.job().id();

                } catch (MediaConvertException e) {
                        System.out.println(e.toString());
                        System.exit(0);
                }
                return "";
        }

        private final static Output createOutput(String customName,
                        String nameModifier,
                        String segmentModifier,
                        int qvbrMaxBitrate,
                        int qvbrQualityLevel,
                        int originWidth,
                        int originHeight,
                        int targetWidth) {

                int targetHeight = Math.round(originHeight * targetWidth / originWidth)
                                - (Math.round(originHeight * targetWidth / originWidth) % 4);
                Output output = null;
                try {
                        output = Output.builder().nameModifier(nameModifier).outputSettings(OutputSettings.builder()
                                        .hlsSettings(HlsSettings.builder().segmentModifier(segmentModifier)
                                                        .audioGroupId("program_audio")
                                                        .iFrameOnlyManifest(HlsIFrameOnlyManifest.EXCLUDE).build())
                                        .build())
                                        .containerSettings(ContainerSettings.builder().container(ContainerType.M3_U8)
                                                        .m3u8Settings(M3u8Settings.builder().audioFramesPerPes(4)
                                                                        .pcrControl(M3u8PcrControl.PCR_EVERY_PES_PACKET)
                                                                        .pmtPid(480).privateMetadataPid(503)
                                                                        .programNumber(1).patInterval(0).pmtInterval(0)
                                                                        .scte35Source(M3u8Scte35Source.NONE)
                                                                        .scte35Pid(500).nielsenId3(M3u8NielsenId3.NONE)
                                                                        .timedMetadata(TimedMetadata.NONE)
                                                                        .timedMetadataPid(502).videoPid(481)
                                                                        .audioPids(482, 483, 484, 485, 486, 487, 488,
                                                                                        489, 490, 491, 492)
                                                                        .build())
                                                        .build())
                                        .videoDescription(
                                                        VideoDescription.builder().width(targetWidth)
                                                                        .height(targetHeight)
                                                                        .scalingBehavior(ScalingBehavior.DEFAULT)
                                                                        .sharpness(50).antiAlias(AntiAlias.ENABLED)
                                                                        .timecodeInsertion(
                                                                                        VideoTimecodeInsertion.DISABLED)
                                                                        .colorMetadata(ColorMetadata.INSERT)
                                                                        .respondToAfd(RespondToAfd.NONE)
                                                                        .afdSignaling(AfdSignaling.NONE)
                                                                        .dropFrameTimecode(DropFrameTimecode.ENABLED)
                                                                        .codecSettings(VideoCodecSettings.builder()
                                                                                        .codec(VideoCodec.H_264)
                                                                                        .h264Settings(H264Settings
                                                                                                        .builder()
                                                                                                        .rateControlMode(
                                                                                                                        H264RateControlMode.QVBR)
                                                                                                        .parControl(H264ParControl.INITIALIZE_FROM_SOURCE)
                                                                                                        .qualityTuningLevel(
                                                                                                                        H264QualityTuningLevel.SINGLE_PASS)
                                                                                                        .qvbrSettings(H264QvbrSettings
                                                                                                                        .builder()
                                                                                                                        .qvbrQualityLevel(
                                                                                                                                        qvbrQualityLevel)
                                                                                                                        .build())
                                                                                                        .codecLevel(H264CodecLevel.AUTO)
                                                                                                        .codecProfile((targetHeight > 720
                                                                                                                        && targetWidth > 1280)
                                                                                                                                        ? H264CodecProfile.HIGH
                                                                                                                                        : H264CodecProfile.MAIN)
                                                                                                        .maxBitrate(qvbrMaxBitrate)
                                                                                                        .framerateControl(
                                                                                                                        H264FramerateControl.INITIALIZE_FROM_SOURCE)
                                                                                                        .gopSize(2.0)
                                                                                                        .gopSizeUnits(H264GopSizeUnits.SECONDS)
                                                                                                        .numberBFramesBetweenReferenceFrames(
                                                                                                                        2)
                                                                                                        .gopClosedCadence(
                                                                                                                        1)
                                                                                                        .gopBReference(H264GopBReference.DISABLED)
                                                                                                        .slowPal(H264SlowPal.DISABLED)
                                                                                                        .syntax(H264Syntax.DEFAULT)
                                                                                                        .numberReferenceFrames(
                                                                                                                        3)
                                                                                                        .dynamicSubGop(H264DynamicSubGop.STATIC)
                                                                                                        .fieldEncoding(H264FieldEncoding.PAFF)
                                                                                                        .sceneChangeDetect(
                                                                                                                        H264SceneChangeDetect.ENABLED)
                                                                                                        .minIInterval(0)
                                                                                                        .telecine(H264Telecine.NONE)
                                                                                                        .framerateConversionAlgorithm(
                                                                                                                        H264FramerateConversionAlgorithm.DUPLICATE_DROP)
                                                                                                        .entropyEncoding(
                                                                                                                        H264EntropyEncoding.CABAC)
                                                                                                        .slices(1)
                                                                                                        .unregisteredSeiTimecode(
                                                                                                                        H264UnregisteredSeiTimecode.DISABLED)
                                                                                                        .repeatPps(H264RepeatPps.DISABLED)
                                                                                                        .adaptiveQuantization(
                                                                                                                        H264AdaptiveQuantization.HIGH)
                                                                                                        .spatialAdaptiveQuantization(
                                                                                                                        H264SpatialAdaptiveQuantization.ENABLED)
                                                                                                        .temporalAdaptiveQuantization(
                                                                                                                        H264TemporalAdaptiveQuantization.ENABLED)
                                                                                                        .flickerAdaptiveQuantization(
                                                                                                                        H264FlickerAdaptiveQuantization.DISABLED)
                                                                                                        .softness(0)
                                                                                                        .interlaceMode(H264InterlaceMode.PROGRESSIVE)
                                                                                                        .build())
                                                                                        .build())
                                                                        .build())
                                        .audioDescriptions(AudioDescription.builder()
                                                        .audioTypeControl(AudioTypeControl.FOLLOW_INPUT)
                                                        .languageCodeControl(AudioLanguageCodeControl.FOLLOW_INPUT)
                                                        .codecSettings(AudioCodecSettings.builder()
                                                                        .codec(AudioCodec.AAC).aacSettings(AacSettings
                                                                                        .builder()
                                                                                        .codecProfile(AacCodecProfile.LC)
                                                                                        .rateControlMode(
                                                                                                        AacRateControlMode.CBR)
                                                                                        .codingMode(AacCodingMode.CODING_MODE_2_0)
                                                                                        .sampleRate(44100)
                                                                                        .bitrate(96000)
                                                                                        .rawFormat(AacRawFormat.NONE)
                                                                                        .specification(AacSpecification.MPEG4)
                                                                                        .audioDescriptionBroadcasterMix(
                                                                                                        AacAudioDescriptionBroadcasterMix.NORMAL)
                                                                                        .build())
                                                                        .build())
                                                        .build())
                                        .build();
                } catch (MediaConvertException e) {
                        e.printStackTrace();
                        System.exit(0);
                }
                return output;
        }
}
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediaconvert-2017-08-29/CreateJob)di *Referensi AWS SDK for Java 2.x API*. 

### `GetJob`
<a name="mediaconvert_GetJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediaconvert#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediaconvert.model.DescribeEndpointsResponse;
import software.amazon.awssdk.services.mediaconvert.model.GetJobRequest;
import software.amazon.awssdk.services.mediaconvert.model.DescribeEndpointsRequest;
import software.amazon.awssdk.services.mediaconvert.model.GetJobResponse;
import software.amazon.awssdk.services.mediaconvert.model.MediaConvertException;
import software.amazon.awssdk.services.mediaconvert.MediaConvertClient;
import java.net.URI;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetJob {

    public static void main(String[] args) {

        final String usage = "\n" +
                "  <jobId> \n\n" +
                "Where:\n" +
                "  jobId - The job id value.\n\n";

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String jobId = args[0];
        Region region = Region.US_WEST_2;
        MediaConvertClient mc = MediaConvertClient.builder()
                .region(region)
                .build();

        getSpecificJob(mc, jobId);
        mc.close();
    }

    public static void getSpecificJob(MediaConvertClient mc, String jobId) {
        try {
            GetJobRequest jobRequest = GetJobRequest.builder()
                    .id(jobId)
                    .build();

            GetJobResponse response = mc.getJob(jobRequest);
            System.out.println("The ARN of the job is " + response.job().arn());

        } catch (MediaConvertException e) {
            System.out.println(e.toString());
            System.exit(0);
        }
    }
}
```
+  Untuk detail API, lihat [GetJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediaconvert-2017-08-29/GetJob)di *Referensi AWS SDK for Java 2.x API*. 

### `ListJobs`
<a name="mediaconvert_ListJobs_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/mediaconvert#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.mediaconvert.MediaConvertClient;
import software.amazon.awssdk.services.mediaconvert.model.ListJobsRequest;
import software.amazon.awssdk.services.mediaconvert.model.DescribeEndpointsResponse;
import software.amazon.awssdk.services.mediaconvert.model.DescribeEndpointsRequest;
import software.amazon.awssdk.services.mediaconvert.model.ListJobsResponse;
import software.amazon.awssdk.services.mediaconvert.model.Job;
import software.amazon.awssdk.services.mediaconvert.model.MediaConvertException;
import java.net.URI;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListJobs {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        MediaConvertClient mc = MediaConvertClient.builder()
                .region(region)
                .build();

        listCompleteJobs(mc);
        mc.close();
    }

    public static void listCompleteJobs(MediaConvertClient mc) {
        try {
            // Create the ListJobsRequest
            ListJobsRequest jobsRequest = ListJobsRequest.builder()
                    .maxResults(10)
                    .status("COMPLETE")
                    .build();

            // Call the listJobs operation
            ListJobsResponse jobsResponse = mc.listJobs(jobsRequest);
            List<Job> jobs = jobsResponse.jobs();
            for (Job job : jobs) {
                System.out.println("The JOB ARN is : " + job.arn());
            }

        } catch (MediaConvertException e) {
            System.out.println(e.toString());
            System.exit(0);
        }
    }
}
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForJavaV2/mediaconvert-2017-08-29/ListJobs)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Migration Hub menggunakan SDK for Java 2.x
<a name="java_2_migration-hub_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan AWS SDK for Java 2.x with Migration Hub.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteProgressUpdateStream`
<a name="migration-hub_DeleteProgressUpdateStream_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteProgressUpdateStream`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/migrationhub#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.migrationhub.MigrationHubClient;
import software.amazon.awssdk.services.migrationhub.model.DeleteProgressUpdateStreamRequest;
import software.amazon.awssdk.services.migrationhub.model.MigrationHubException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteProgressStream {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <progressStream>\s

                Where:
                    progressStream - the name of a progress stream to delete.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String progressStream = args[0];
        Region region = Region.US_WEST_2;
        MigrationHubClient migrationClient = MigrationHubClient.builder()
                .region(region)
                .build();

        deleteStream(migrationClient, progressStream);
        migrationClient.close();
    }

    public static void deleteStream(MigrationHubClient migrationClient, String streamName) {
        try {
            DeleteProgressUpdateStreamRequest deleteProgressUpdateStreamRequest = DeleteProgressUpdateStreamRequest
                    .builder()
                    .progressUpdateStreamName(streamName)
                    .build();

            migrationClient.deleteProgressUpdateStream(deleteProgressUpdateStreamRequest);
            System.out.println(streamName + " is deleted");

        } catch (MigrationHubException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteProgressUpdateStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/migration-hub-2017-05-31/DeleteProgressUpdateStream)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeApplicationState`
<a name="migration-hub_DescribeApplicationState_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeApplicationState`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/migrationhub#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.migrationhub.MigrationHubClient;
import software.amazon.awssdk.services.migrationhub.model.DescribeApplicationStateRequest;
import software.amazon.awssdk.services.migrationhub.model.DescribeApplicationStateResponse;
import software.amazon.awssdk.services.migrationhub.model.MigrationHubException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeAppState {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    DescribeAppState <appId>\s

                Where:
                    appId -  the application id value.\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        Region region = Region.US_WEST_2;
        MigrationHubClient migrationClient = MigrationHubClient.builder()
                .region(region)
                .build();

        describeApplicationState(migrationClient, appId);
        migrationClient.close();
    }

    public static void describeApplicationState(MigrationHubClient migrationClient, String appId) {
        try {
            DescribeApplicationStateRequest applicationStateRequest = DescribeApplicationStateRequest.builder()
                    .applicationId(appId)
                    .build();

            DescribeApplicationStateResponse applicationStateResponse = migrationClient
                    .describeApplicationState(applicationStateRequest);
            System.out.println("The application status is " + applicationStateResponse.applicationStatusAsString());

        } catch (MigrationHubException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeApplicationState](https://docs.aws.amazon.com/goto/SdkForJavaV2/migration-hub-2017-05-31/DescribeApplicationState)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeMigrationTask`
<a name="migration-hub_DescribeMigrationTask_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeMigrationTask`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/migrationhub#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.migrationhub.MigrationHubClient;
import software.amazon.awssdk.services.migrationhub.model.DescribeMigrationTaskRequest;
import software.amazon.awssdk.services.migrationhub.model.DescribeMigrationTaskResponse;
import software.amazon.awssdk.services.migrationhub.model.MigrationHubException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeMigrationTask {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    DescribeMigrationTask <migrationTask> <progressStream>\s

                Where:
                    migrationTask - the name of a migration task.\s
                    progressStream - the name of a progress stream.\s
                """;

        if (args.length < 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String migrationTask = args[0];
        String progressStream = args[1];
        Region region = Region.US_WEST_2;
        MigrationHubClient migrationClient = MigrationHubClient.builder()
                .region(region)
                .build();

        describeMigTask(migrationClient, migrationTask, progressStream);
        migrationClient.close();
    }

    public static void describeMigTask(MigrationHubClient migrationClient, String migrationTask,
            String progressStream) {
        try {
            DescribeMigrationTaskRequest migrationTaskRequestRequest = DescribeMigrationTaskRequest.builder()
                    .progressUpdateStream(progressStream)
                    .migrationTaskName(migrationTask)
                    .build();

            DescribeMigrationTaskResponse migrationTaskResponse = migrationClient
                    .describeMigrationTask(migrationTaskRequestRequest);
            System.out.println("The name is " + migrationTaskResponse.migrationTask().migrationTaskName());

        } catch (MigrationHubException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeMigrationTask](https://docs.aws.amazon.com/goto/SdkForJavaV2/migration-hub-2017-05-31/DescribeMigrationTask)di *Referensi AWS SDK for Java 2.x API*. 

### `ImportMigrationTask`
<a name="migration-hub_ImportMigrationTask_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ImportMigrationTask`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/migrationhub#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.migrationhub.MigrationHubClient;
import software.amazon.awssdk.services.migrationhub.model.CreateProgressUpdateStreamRequest;
import software.amazon.awssdk.services.migrationhub.model.ImportMigrationTaskRequest;
import software.amazon.awssdk.services.migrationhub.model.MigrationHubException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ImportMigrationTask {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <migrationTask> <progressStream>\s

                Where:
                    migrationTask - the name of a migration task.\s
                    progressStream - the name of a progress stream.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String migrationTask = args[0];
        String progressStream = args[1];
        Region region = Region.US_WEST_2;
        MigrationHubClient migrationClient = MigrationHubClient.builder()
                .region(region)
                .build();

        importMigrTask(migrationClient, migrationTask, progressStream);
        migrationClient.close();
    }

    public static void importMigrTask(MigrationHubClient migrationClient, String migrationTask, String progressStream) {
        try {
            CreateProgressUpdateStreamRequest progressUpdateStreamRequest = CreateProgressUpdateStreamRequest.builder()
                    .progressUpdateStreamName(progressStream)
                    .dryRun(false)
                    .build();

            migrationClient.createProgressUpdateStream(progressUpdateStreamRequest);
            ImportMigrationTaskRequest migrationTaskRequest = ImportMigrationTaskRequest.builder()
                    .migrationTaskName(migrationTask)
                    .progressUpdateStream(progressStream)
                    .dryRun(false)
                    .build();

            migrationClient.importMigrationTask(migrationTaskRequest);

        } catch (MigrationHubException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ImportMigrationTask](https://docs.aws.amazon.com/goto/SdkForJavaV2/migration-hub-2017-05-31/ImportMigrationTask)di *Referensi AWS SDK for Java 2.x API*. 

### `ListApplications`
<a name="migration-hub_ListApplications_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListApplications`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/migrationhub#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.migrationhub.MigrationHubClient;
import software.amazon.awssdk.services.migrationhub.model.ApplicationState;
import software.amazon.awssdk.services.migrationhub.model.ListApplicationStatesRequest;
import software.amazon.awssdk.services.migrationhub.model.ListApplicationStatesResponse;
import software.amazon.awssdk.services.migrationhub.model.MigrationHubException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListApplications {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        MigrationHubClient migrationClient = MigrationHubClient.builder()
                .region(region)
                .build();

        listApps(migrationClient);
        migrationClient.close();
    }

    public static void listApps(MigrationHubClient migrationClient) {
        try {
            ListApplicationStatesRequest applicationStatesRequest = ListApplicationStatesRequest.builder()
                    .maxResults(10)
                    .build();

            ListApplicationStatesResponse response = migrationClient.listApplicationStates(applicationStatesRequest);
            List<ApplicationState> apps = response.applicationStateList();
            for (ApplicationState appState : apps) {
                System.out.println("App Id is " + appState.applicationId());
                System.out.println("The status is " + appState.applicationStatus().toString());
            }

        } catch (MigrationHubException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListApplications](https://docs.aws.amazon.com/goto/SdkForJavaV2/migration-hub-2017-05-31/ListApplications)di *Referensi AWS SDK for Java 2.x API*. 

### `ListCreatedArtifacts`
<a name="migration-hub_ListCreatedArtifacts_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCreatedArtifacts`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/migrationhub#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.migrationhub.MigrationHubClient;
import software.amazon.awssdk.services.migrationhub.model.CreatedArtifact;
import software.amazon.awssdk.services.migrationhub.model.ListCreatedArtifactsRequest;
import software.amazon.awssdk.services.migrationhub.model.ListCreatedArtifactsResponse;
import software.amazon.awssdk.services.migrationhub.model.MigrationHubException;
import java.util.List;

/**
 * To run this Java V2 code example, ensure that you have setup your development
 * environment, including your credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListCreatedArtifacts {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        MigrationHubClient migrationClient = MigrationHubClient.builder()
                .region(region)
                .build();

        listArtifacts(migrationClient);
        migrationClient.close();
    }

    public static void listArtifacts(MigrationHubClient migrationClient) {
        try {
            ListCreatedArtifactsRequest listCreatedArtifactsRequest = ListCreatedArtifactsRequest.builder()
                    .maxResults(10)
                    .migrationTaskName("SampleApp5")
                    .progressUpdateStream("ProgressSteamB")
                    .build();

            ListCreatedArtifactsResponse response = migrationClient.listCreatedArtifacts(listCreatedArtifactsRequest);
            List<CreatedArtifact> apps = response.createdArtifactList();
            for (CreatedArtifact artifact : apps) {
                System.out.println("APp Id is " + artifact.description());
                System.out.println("The name is " + artifact.name());
            }

        } catch (MigrationHubException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListCreatedArtifacts](https://docs.aws.amazon.com/goto/SdkForJavaV2/migration-hub-2017-05-31/ListCreatedArtifacts)di *Referensi AWS SDK for Java 2.x API*. 

### `ListMigrationTasks`
<a name="migration-hub_ListMigrationTasks_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMigrationTasks`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/migrationhub#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.migrationhub.MigrationHubClient;
import software.amazon.awssdk.services.migrationhub.model.ListMigrationTasksRequest;
import software.amazon.awssdk.services.migrationhub.model.ListMigrationTasksResponse;
import software.amazon.awssdk.services.migrationhub.model.MigrationTaskSummary;
import software.amazon.awssdk.services.migrationhub.model.MigrationHubException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListMigrationTasks {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        MigrationHubClient migrationClient = MigrationHubClient.builder()
                .region(region)
                .build();

        listMigrTasks(migrationClient);
        migrationClient.close();
    }

    public static void listMigrTasks(MigrationHubClient migrationClient) {
        try {
            ListMigrationTasksRequest listMigrationTasksRequest = ListMigrationTasksRequest.builder()
                    .maxResults(10)
                    .build();

            ListMigrationTasksResponse response = migrationClient.listMigrationTasks(listMigrationTasksRequest);
            List<MigrationTaskSummary> migrationList = response.migrationTaskSummaryList();
            for (MigrationTaskSummary migration : migrationList) {
                System.out.println("Migration task name is " + migration.migrationTaskName());
                System.out.println("The Progress update stream is " + migration.progressUpdateStream());
            }

        } catch (MigrationHubException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListMigrationTasks](https://docs.aws.amazon.com/goto/SdkForJavaV2/migration-hub-2017-05-31/ListMigrationTasks)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh MSK Amazon menggunakan SDK for Java 2.x
<a name="java_2_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan MSK AWS SDK for Java 2.x with Amazon.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Java.  

```
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.KafkaEvent;
import com.amazonaws.services.lambda.runtime.events.KafkaEvent.KafkaEventRecord;

import java.util.Base64;
import java.util.Map;

public class Example implements RequestHandler<KafkaEvent, Void> {

    @Override
    public Void handleRequest(KafkaEvent event, Context context) {
        for (Map.Entry<String, java.util.List<KafkaEventRecord>> entry : event.getRecords().entrySet()) {
            String key = entry.getKey();
            System.out.println("Key: " + key);

            for (KafkaEventRecord record : entry.getValue()) {
                System.out.println("Record: " + record);

                byte[] value = Base64.getDecoder().decode(record.getValue());
                String message = new String(value);
                System.out.println("Message: " + message);
            }
        }

        return null;
    }
}
```

# Contoh Neptunus menggunakan SDK for Java 2.x
<a name="java_2_neptune_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Neptunus. AWS SDK for Java 2.x 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Neptunus
<a name="neptune_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Neptunus.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloNeptune {
    public static void main(String[] args) {
        NeptuneAsyncClient neptuneClient = NeptuneAsyncClient.create();
        describeDbCluster(neptuneClient).join(); // This ensures the async code runs to completion
    }

    /**
     * Describes the Amazon Neptune DB clusters.
     *
     * @param neptuneClient the Neptune asynchronous client used to make the request
     * @return a {@link CompletableFuture} that completes when the operation is finished
     */
    public static CompletableFuture<Void> describeDbCluster(NeptuneAsyncClient neptuneClient) {
        DescribeDbClustersRequest request = DescribeDbClustersRequest.builder()
                .maxRecords(20)
                .build();

        SdkPublisher<DescribeDbClustersResponse> paginator = neptuneClient.describeDBClustersPaginator(request);
        CompletableFuture<Void> future = new CompletableFuture<>();

        paginator.subscribe(new Subscriber<DescribeDbClustersResponse>() {
            private Subscription subscription;

            @Override
            public void onSubscribe(Subscription s) {
                this.subscription = s;
                s.request(Long.MAX_VALUE); // request all items
            }

            @Override
            public void onNext(DescribeDbClustersResponse response) {
                response.dbClusters().forEach(cluster -> {
                    System.out.println("Cluster Identifier: " + cluster.dbClusterIdentifier());
                    System.out.println("Status: " + cluster.status());
                });
            }

            @Override
            public void onError(Throwable t) {
                future.completeExceptionally(t);
            }

            @Override
            public void onComplete() {
                future.complete(null);
            }
        });

        return future.whenComplete((result, throwable) -> {
            neptuneClient.close();
            if (throwable != null) {
                System.err.println("Error describing DB clusters: " + throwable.getMessage());
            }
        });
    }
```
+  Untuk detail API, lihat [Menjelaskan DBClusters Paginator di Referensi AWS SDK for Java 2.x](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DescribeDBClustersPaginator) *API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="neptune_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat Grup Subnet Amazon Neptunus.
+ Buat Cluster Neptunus.
+ Buat Instance Neptunus.
+ Periksa status Instance Neptunus.
+ Tampilkan detail cluster Neptunus.
+ Hentikan gugus Neptunus.
+ Mulai cluster Neptunus.
+ Hapus Aset Neptunus.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 
Jalankan skenario interaktif yang menunjukkan fitur Neptunus.  

```
public class NeptuneScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final Logger logger = LoggerFactory.getLogger(NeptuneScenario.class);
    static Scanner scanner = new Scanner(System.in);
    static NeptuneActions neptuneActions = new NeptuneActions();

    public static void main(String[] args) {
        final String usage =
                """
                Usage:
                    <subnetGroupName> <clusterName> <dbInstanceId>
                
                Where:
                    subnetGroupName - The name of an existing Neptune DB subnet group that includes subnets in at least two Availability Zones.
                    clusterName     - The unique identifier for the Neptune DB cluster.
                    dbInstanceId    - The identifier for a specific Neptune DB instance within the cluster.
                """;
        String subnetGroupName = "neptuneSubnetGroup65";
        String clusterName = "neptuneCluster65";
        String dbInstanceId = "neptuneDB65";

        logger.info("""
                   Amazon Neptune is a fully managed graph 
                   database service by AWS, designed specifically
                   for handling complex relationships and connected 
                   datasets at scale. It supports two popular graph models: 
                   property graphs (via openCypher and Gremlin) and RDF 
                   graphs (via SPARQL). This makes Neptune ideal for 
                   use cases such as knowledge graphs, fraud detection, 
                   social networking, recommendation engines, and 
                   network management, where relationships between 
                   entities are central to the data.
                    
                   Being fully managed, Neptune handles database 
                   provisioning, patching, backups, and replication, 
                   while also offering high availability and durability 
                   within AWS's infrastructure.
                    
                   For developers, programming with Neptune allows 
                   for building intelligent, relationship-aware 
                   applications that go beyond traditional tabular 
                   databases. Developers can use the AWS SDK for Java 
                   to automate infrastructure operations (via NeptuneClient). 
                    
                    Let's get started...
                    """);
        waitForInputToContinue(scanner);
        runScenario(subnetGroupName, dbInstanceId, clusterName);
    }

    public static void runScenario(String subnetGroupName, String dbInstanceId, String clusterName) {
        logger.info(DASHES);
        logger.info("1. Create a Neptune DB Subnet Group");
        logger.info("The Neptune DB subnet group is used when launching a Neptune cluster");
        waitForInputToContinue(scanner);
        try {
            neptuneActions.createSubnetGroupAsync(subnetGroupName).join();

        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ServiceQuotaExceededException) {
                logger.error("The request failed due to service quota exceeded: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("2. Create a Neptune Cluster");
        logger.info("A Neptune Cluster allows you to store and query highly connected datasets with low latency.");
        waitForInputToContinue(scanner);
        String dbClusterId;
        try {
            dbClusterId = neptuneActions.createDBClusterAsync(clusterName).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ServiceQuotaExceededException) {
                logger.error("The request failed due to service quota exceeded: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }

        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("3. Create a Neptune DB Instance");
        logger.info("In this step, we add a new database instance to the Neptune cluster");
        waitForInputToContinue(scanner);
        try {
        neptuneActions.createDBInstanceAsync(dbInstanceId, dbClusterId).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ServiceQuotaExceededException) {
                logger.error("The request failed due to service quota exceeded: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("4. Check the status of the Neptune DB Instance");
        logger.info("""
                    In this step, we will wait until the DB instance 
                    becomes available. This may take around 10 minutes.
                    """);
        waitForInputToContinue(scanner);
        try {
            neptuneActions.checkInstanceStatus(dbInstanceId, "available").join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            logger.error("An unexpected error occurred.", cause);
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("5.Show Neptune Cluster details");
        waitForInputToContinue(scanner);
        try {
            neptuneActions.describeDBClustersAsync(clusterName).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.error("The request failed due to the resource not found: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("6. Stop the Amazon Neptune cluster");
        logger.info("""
                    Once stopped, this step polls the status 
                    until the cluster is in a stopped state.
                    """);
        waitForInputToContinue(scanner);
        try {
            neptuneActions.stopDBClusterAsync(dbClusterId);
            neptuneActions.waitForClusterStatus(dbClusterId, "stopped");
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.error("The request failed due to the resource not found: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("7. Start the Amazon Neptune cluster");
        logger.info("""
                    Once started, this step polls the clusters 
                    status until it's in an available state.
                    We will also poll the instance status.
                    """);
        waitForInputToContinue(scanner);
        try {
            neptuneActions.startDBClusterAsync(dbClusterId);
            neptuneActions.waitForClusterStatus(dbClusterId, "available");
            neptuneActions.checkInstanceStatus(dbInstanceId, "available").join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof ResourceNotFoundException) {
                logger.error("The request failed due to the resource not found: {}", cause.getMessage());
            } else {
                logger.error("An unexpected error occurred.", cause);
            }
            return;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("8. Delete the Neptune Assets");
        logger.info("Would you like to delete the Neptune Assets? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            logger.info("You selected to delete the Neptune assets.");
            try {
                neptuneActions.deleteNeptuneResourcesAsync(dbInstanceId, clusterName, subnetGroupName);
            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof ResourceNotFoundException) {
                    logger.error("The request failed due to the resource not found: {}", cause.getMessage());
                } else {
                    logger.error("An unexpected error occurred.", cause);
                }
                return;
            }
        } else {
            logger.info("You selected not to delete Neptune assets.");
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info(
                """
                Thank you for checking out the Amazon Neptune Service Use demo. We hope you
                learned something new, or got some inspiration for your own apps today.
                For more AWS code examples, have a look at:
                https://docs.aws.amazon.com/code-library/latest/ug/what-is-code-library.html
                """);
        logger.info(DASHES);
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                logger.info("Invalid input. Please try again.");
            }
        }
    }
}
```
Kelas pembungkus untuk metode Neptunus SDK.  

```
public class NeptuneActions {
    private CompletableFuture<Void> instanceCheckFuture;
    private static NeptuneAsyncClient neptuneAsyncClient;
    private final Region region = Region.US_EAST_1;
    private static final Logger logger = LoggerFactory.getLogger(NeptuneActions.class);
    private final NeptuneClient neptuneClient = NeptuneClient.builder().region(region).build();

    /**
     * Retrieves an instance of the NeptuneAsyncClient.
     * <p>
     * This method initializes and returns a singleton instance of the NeptuneAsyncClient. The client
     * is configured with the following settings:
     * <ul>
     *     <li>Maximum concurrency: 100</li>
     *     <li>Connection timeout: 60 seconds</li>
     *     <li>Read timeout: 60 seconds</li>
     *     <li>Write timeout: 60 seconds</li>
     *     <li>API call timeout: 2 minutes</li>
     *     <li>API call attempt timeout: 90 seconds</li>
     *     <li>Retry strategy: STANDARD</li>
     * </ul>
     * The client is built using the NettyNioAsyncHttpClient.
     *
     * @return the singleton instance of the NeptuneAsyncClient
     */
    private static NeptuneAsyncClient getAsyncClient() {
        if (neptuneAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                    .maxConcurrency(100)
                    .connectionTimeout(Duration.ofSeconds(60))
                    .readTimeout(Duration.ofSeconds(60))
                    .writeTimeout(Duration.ofSeconds(60))
                    .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                    .apiCallTimeout(Duration.ofMinutes(2))
                    .apiCallAttemptTimeout(Duration.ofSeconds(90))
                    .retryStrategy(RetryMode.STANDARD)
                    .build();

            neptuneAsyncClient = NeptuneAsyncClient.builder()
                    .httpClient(httpClient)
                    .overrideConfiguration(overrideConfig)
                    .build();
        }
        return neptuneAsyncClient;
    }

    /**
     * Asynchronously deletes a set of Amazon Neptune resources in a defined order.
     * <p>
     * The method performs the following operations in sequence:
     * <ol>
     *     <li>Deletes the Neptune DB instance identified by {@code dbInstanceId}.</li>
     *     <li>Waits until the DB instance is fully deleted.</li>
     *     <li>Deletes the Neptune DB cluster identified by {@code dbClusterId}.</li>
     *     <li>Deletes the Neptune DB subnet group identified by {@code subnetGroupName}.</li>
     * </ol>
     * <p>
     * If any step fails, the subsequent operations are not performed, and the exception
     * is logged. This method blocks the calling thread until all operations complete.
     *
     * @param dbInstanceId      the ID of the Neptune DB instance to delete
     * @param dbClusterId       the ID of the Neptune DB cluster to delete
     * @param subnetGroupName   the name of the Neptune DB subnet group to delete
     */
    public void deleteNeptuneResourcesAsync(String dbInstanceId, String dbClusterId, String subnetGroupName) {
        deleteDBInstanceAsync(dbInstanceId)
                .thenCompose(v -> waitUntilInstanceDeletedAsync(dbInstanceId))
                .thenCompose(v -> deleteDBClusterAsync(dbClusterId))
                .thenCompose(v -> deleteDBSubnetGroupAsync(subnetGroupName))
                .whenComplete((v, ex) -> {
                    if (ex != null) {
                        logger.info("Failed to delete Neptune resources: " + ex.getMessage());
                    } else {
                        logger.info("Neptune resources deleted successfully.");
                    }
                })
                .join(); // Waits for the entire async chain to complete
    }

    /**
     * Deletes a subnet group.
     *
     * @param subnetGroupName the identifier of the subnet group to delete
     * @return a {@link CompletableFuture} that completes when the cluster has been deleted
     */
    public CompletableFuture<Void> deleteDBSubnetGroupAsync(String subnetGroupName) {
        DeleteDbSubnetGroupRequest request = DeleteDbSubnetGroupRequest.builder()
                .dbSubnetGroupName(subnetGroupName)
                .build();

        return getAsyncClient().deleteDBSubnetGroup(request)
                .thenAccept(response -> logger.info("🗑️ Deleting Subnet Group: " + subnetGroupName));
    }

    /**
     * Deletes a DB instance asynchronously.
     *
     * @param clusterId the identifier of the cluster to delete
     * @return a {@link CompletableFuture} that completes when the cluster has been deleted
     */
    public CompletableFuture<Void> deleteDBClusterAsync(String clusterId) {
        DeleteDbClusterRequest request = DeleteDbClusterRequest.builder()
                .dbClusterIdentifier(clusterId)
                .skipFinalSnapshot(true)
                .build();

        return getAsyncClient().deleteDBCluster(request)
                .thenAccept(response -> System.out.println("🗑️ Deleting DB Cluster: " + clusterId));
    }

    public CompletableFuture<Void> waitUntilInstanceDeletedAsync(String instanceId) {
        CompletableFuture<Void> future = new CompletableFuture<>();
        long startTime = System.currentTimeMillis();
        checkInstanceDeletedRecursive(instanceId, startTime, future);
        return future;
    }

    /**
     * Deletes a DB instance asynchronously.
     *
     * @param instanceId the identifier of the DB instance to be deleted
     * @return a {@link CompletableFuture} that completes when the DB instance has been deleted
     */
    public CompletableFuture<Void> deleteDBInstanceAsync(String instanceId) {
        DeleteDbInstanceRequest request = DeleteDbInstanceRequest.builder()
                .dbInstanceIdentifier(instanceId)
                .skipFinalSnapshot(true)
                .build();

        return getAsyncClient().deleteDBInstance(request)
                .thenAccept(response -> System.out.println("🗑️ Deleting DB Instance: " + instanceId));
    }


    private void checkInstanceDeletedRecursive(String instanceId, long startTime, CompletableFuture<Void> future) {
        DescribeDbInstancesRequest request = DescribeDbInstancesRequest.builder()
                .dbInstanceIdentifier(instanceId)
                .build();

        getAsyncClient().describeDBInstances(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof NeptuneException &&
                                ((NeptuneException) cause).awsErrorDetails().errorCode().equals("DBInstanceNotFound")) {
                            long elapsed = (System.currentTimeMillis() - startTime) / 1000;
                            logger.info("\r Instance %s deleted after %ds%n", instanceId, elapsed);
                            future.complete(null);
                            return;
                        }
                        future.completeExceptionally(new CompletionException("Error polling DB instance", cause));
                        return;
                    }

                    String status = response.dbInstances().get(0).dbInstanceStatus();
                    long elapsed = (System.currentTimeMillis() - startTime) / 1000;
                    System.out.printf("\r  Waiting: Instance %s status: %-10s (%ds elapsed)", instanceId, status, elapsed);
                    System.out.flush();

                    CompletableFuture.delayedExecutor(20, TimeUnit.SECONDS)
                            .execute(() -> checkInstanceDeletedRecursive(instanceId, startTime, future));
                });
    }


    public void waitForClusterStatus(String clusterId, String desiredStatus) {
        System.out.printf("Waiting for cluster '%s' to reach status '%s'...\n", clusterId, desiredStatus);
        CompletableFuture<Void> future = new CompletableFuture<>();
        checkClusterStatusRecursive(clusterId, desiredStatus, System.currentTimeMillis(), future);
        future.join();
    }

    private void checkClusterStatusRecursive(String clusterId, String desiredStatus, long startTime, CompletableFuture<Void> future) {
        DescribeDbClustersRequest request = DescribeDbClustersRequest.builder()
                .dbClusterIdentifier(clusterId)
                .build();

        getAsyncClient().describeDBClusters(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        future.completeExceptionally(
                                new CompletionException("Error checking Neptune cluster status", cause)
                        );
                        return;
                    }

                    List<DBCluster> clusters = response.dbClusters();
                    if (clusters.isEmpty()) {
                        future.completeExceptionally(new RuntimeException("Cluster not found: " + clusterId));
                        return;
                    }

                    String currentStatus = clusters.get(0).status();
                    long elapsedSeconds = (System.currentTimeMillis() - startTime) / 1000;
                    System.out.printf("\r Elapsed: %-20s  Cluster status: %-20s", formatElapsedTime((int) elapsedSeconds), currentStatus);
                    System.out.flush();

                    if (desiredStatus.equalsIgnoreCase(currentStatus)) {
                        System.out.printf("\r Neptune cluster reached desired status '%s' after %s.\n", desiredStatus, formatElapsedTime((int) elapsedSeconds));
                        future.complete(null);
                    } else {
                        CompletableFuture.delayedExecutor(20, TimeUnit.SECONDS)
                                .execute(() -> checkClusterStatusRecursive(clusterId, desiredStatus, startTime, future));
                    }
                });
    }


    /**
     * Starts an Amazon Neptune DB cluster.
     *
     * @param clusterIdentifier the unique identifier of the DB cluster to be stopped
     */
    public CompletableFuture<StartDbClusterResponse> startDBClusterAsync(String clusterIdentifier) {
        StartDbClusterRequest clusterRequest = StartDbClusterRequest.builder()
                .dbClusterIdentifier(clusterIdentifier)
                .build();

        return getAsyncClient().startDBCluster(clusterRequest)
                .whenComplete((response, error) -> {
                    if (error != null) {
                        Throwable cause = error.getCause() != null ? error.getCause() : error;

                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }

                        throw new RuntimeException("Failed to start DB cluster: " + cause.getMessage(), cause);
                    } else {
                        logger.info("DB Cluster starting: " + clusterIdentifier);
                    }
                });
    }

    /**
     * Stops an Amazon Neptune DB cluster.
     *
     * @param clusterIdentifier the unique identifier of the DB cluster to be stopped
     */
    public CompletableFuture<StopDbClusterResponse> stopDBClusterAsync(String clusterIdentifier) {
        StopDbClusterRequest clusterRequest = StopDbClusterRequest.builder()
                .dbClusterIdentifier(clusterIdentifier)
                .build();

        return getAsyncClient().stopDBCluster(clusterRequest)
                .whenComplete((response, error) -> {
                    if (error != null) {
                        Throwable cause = error.getCause() != null ? error.getCause() : error;

                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }

                        throw new RuntimeException("Failed to stop DB cluster: " + cause.getMessage(), cause);
                    } else {
                        logger.info("DB Cluster stopped: " + clusterIdentifier);
                    }
                });
    }



    /**
     * Asynchronously describes the specified Amazon RDS DB cluster.
     *
     * @param clusterId the identifier of the DB cluster to describe
     * @return a {@link CompletableFuture} that completes when the operation is done, or throws a {@link RuntimeException}
     * if an error occurs
     */
    public CompletableFuture<Void> describeDBClustersAsync(String clusterId) {
        DescribeDbClustersRequest request = DescribeDbClustersRequest.builder()
                .dbClusterIdentifier(clusterId)
                .build();

        return getAsyncClient().describeDBClusters(request)
                .thenAccept(response -> {
                    for (DBCluster cluster : response.dbClusters()) {
                        logger.info("Cluster Identifier: " + cluster.dbClusterIdentifier());
                        logger.info("Status: " + cluster.status());
                        logger.info("Engine: " + cluster.engine());
                        logger.info("Engine Version: " + cluster.engineVersion());
                        logger.info("Endpoint: " + cluster.endpoint());
                        logger.info("Reader Endpoint: " + cluster.readerEndpoint());
                        logger.info("Availability Zones: " + cluster.availabilityZones());
                        logger.info("Subnet Group: " + cluster.dbSubnetGroup());
                        logger.info("VPC Security Groups:");
                        cluster.vpcSecurityGroups().forEach(vpcGroup ->
                                logger.info("  - " + vpcGroup.vpcSecurityGroupId()));
                        logger.info("Storage Encrypted: " + cluster.storageEncrypted());
                        logger.info("IAM DB Auth Enabled: " + cluster.iamDatabaseAuthenticationEnabled());
                        logger.info("Backup Retention Period: " + cluster.backupRetentionPeriod() + " days");
                        logger.info("Preferred Backup Window: " + cluster.preferredBackupWindow());
                        logger.info("Preferred Maintenance Window: " + cluster.preferredMaintenanceWindow());
                        logger.info("------");
                    }
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ResourceNotFoundException) {
                        throw (ResourceNotFoundException) cause;
                    }

                    throw new RuntimeException("Failed to describe the DB cluster: " + cause.getMessage(), cause);
                });
    }


    public CompletableFuture<Void> checkInstanceStatus(String instanceId, String desiredStatus) {
        CompletableFuture<Void> future = new CompletableFuture<>();
        long startTime = System.currentTimeMillis();
        checkStatusRecursive(instanceId, desiredStatus.toLowerCase(), startTime, future);
        return future;
    }

    /**
     * Checks the status of a Neptune instance recursively until the desired status is reached or a timeout occurs.
     *
     * @param instanceId     the ID of the Neptune instance to check
     * @param desiredStatus  the desired status of the Neptune instance
     * @param startTime      the start time of the operation, used to calculate the elapsed time
     * @param future         a {@link CompletableFuture} that will be completed when the desired status is reached
     */
    private void checkStatusRecursive(String instanceId, String desiredStatus, long startTime, CompletableFuture<Void> future) {
        DescribeDbInstancesRequest request = DescribeDbInstancesRequest.builder()
                .dbInstanceIdentifier(instanceId)
                .build();

        getAsyncClient().describeDBInstances(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        future.completeExceptionally(
                                new CompletionException("Error checking Neptune instance status", cause)
                        );
                        return;
                    }

                    List<DBInstance> instances = response.dbInstances();
                    if (instances.isEmpty()) {
                        future.completeExceptionally(new RuntimeException("Instance not found: " + instanceId));
                        return;
                    }

                    String currentStatus = instances.get(0).dbInstanceStatus();
                    long elapsedSeconds = (System.currentTimeMillis() - startTime) / 1000;
                    System.out.printf("\r Elapsed: %-20s  Status: %-20s", formatElapsedTime((int) elapsedSeconds), currentStatus);
                    System.out.flush();

                    if (desiredStatus.equalsIgnoreCase(currentStatus)) {
                        System.out.printf("\r Neptune instance reached desired status '%s' after %s.\n", desiredStatus, formatElapsedTime((int) elapsedSeconds));
                        future.complete(null);
                    } else {
                        CompletableFuture.delayedExecutor(20, TimeUnit.SECONDS)
                                .execute(() -> checkStatusRecursive(instanceId, desiredStatus, startTime, future));
                    }
                });
    }


    private String formatElapsedTime(int seconds) {
        int minutes = seconds / 60;
        int remainingSeconds = seconds % 60;

        if (minutes > 0) {
            return minutes + (minutes == 1 ? " min" : " mins") + ", " +
                    remainingSeconds + (remainingSeconds == 1 ? " sec" : " secs");
        } else {
            return remainingSeconds + (remainingSeconds == 1 ? " sec" : " secs");
        }
    }


    /**
     * Creates a new Amazon Neptune DB instance asynchronously.
     *
     * @param dbInstanceId the identifier for the new DB instance
     * @param dbClusterId  the identifier for the DB cluster that the new instance will be a part of
     * @return a {@link CompletableFuture} that completes with the identifier of the newly created DB instance
     * @throws CompletionException if the operation fails, with a cause of either:
     *                             - {@link ServiceQuotaExceededException} if the request would exceed the maximum quota, or
     *                             - a general exception with the failure message
     */
    public CompletableFuture<String> createDBInstanceAsync(String dbInstanceId, String dbClusterId) {
        CreateDbInstanceRequest request = CreateDbInstanceRequest.builder()
                .dbInstanceIdentifier(dbInstanceId)
                .dbInstanceClass("db.r5.large")
                .engine("neptune")
                .dbClusterIdentifier(dbClusterId)
                .build();

        return getAsyncClient().createDBInstance(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ServiceQuotaExceededException) {
                            throw new CompletionException("The operation was denied because the request would exceed the maximum quota.", cause);
                        }
                        throw new CompletionException("Failed to create Neptune DB instance: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> {
                    String instanceId = response.dbInstance().dbInstanceIdentifier();
                    logger.info("Created Neptune DB Instance: " + instanceId);
                    return instanceId;
                });
    }


    /**
     * Creates a new Amazon Neptune DB cluster asynchronously.
     *
     * @param dbName the name of the DB cluster to be created
     * @return a CompletableFuture that, when completed, provides the ID of the created DB cluster
     * @throws CompletionException if the operation fails for any reason, including if the request would exceed the maximum quota
     */
    public CompletableFuture<String> createDBClusterAsync(String dbName) {
        CreateDbClusterRequest request = CreateDbClusterRequest.builder()
                .dbClusterIdentifier(dbName)
                .engine("neptune")
                .deletionProtection(false)
                .backupRetentionPeriod(1)
                .build();

        return getAsyncClient().createDBCluster(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ServiceQuotaExceededException) {
                            throw new CompletionException("The operation was denied because the request would exceed the maximum quota.", cause);
                        }
                        throw new CompletionException("Failed to create Neptune DB cluster: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> {
                    String clusterId = response.dbCluster().dbClusterIdentifier();
                    logger.info("DB Cluster created: " + clusterId);
                    return clusterId;
                });
    }


    /**
     * Creates a new DB subnet group asynchronously.
     *
     * @param groupName the name of the subnet group to create
     * @return a CompletableFuture that, when completed, returns the Amazon Resource Name (ARN) of the created subnet group
     * @throws CompletionException if the operation fails, with a cause that may be a ServiceQuotaExceededException if the request would exceed the maximum quota
     */
    public CompletableFuture<String> createSubnetGroupAsync(String groupName) {

        // Get the Amazon Virtual Private Cloud (VPC) where the Neptune cluster and resources will be created
        String vpcId = getDefaultVpcId();
        logger.info("VPC is : " + vpcId);

        List<String> subnetList = getSubnetIds(vpcId);
        for (String subnetId : subnetList) {
            System.out.println("Subnet group:" +subnetId);
        }

        CreateDbSubnetGroupRequest request = CreateDbSubnetGroupRequest.builder()
                .dbSubnetGroupName(groupName)
                .dbSubnetGroupDescription("Subnet group for Neptune cluster")
                .subnetIds(subnetList)
                .build();

        return getAsyncClient().createDBSubnetGroup(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ServiceQuotaExceededException) {
                            throw new CompletionException("The operation was denied because the request would exceed the maximum quota.", cause);
                        }
                        throw new CompletionException("Failed to create subnet group: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> {
                    String name = response.dbSubnetGroup().dbSubnetGroupName();
                    String arn = response.dbSubnetGroup().dbSubnetGroupArn();
                    logger.info("Subnet group created: " + name);
                    return arn;
                });
    }

    private List<String> getSubnetIds(String vpcId) {
        try (Ec2Client ec2 = Ec2Client.builder().region(region).build()) {
            DescribeSubnetsRequest request = DescribeSubnetsRequest.builder()
                    .filters(builder -> builder.name("vpc-id").values(vpcId))
                    .build();

            DescribeSubnetsResponse response = ec2.describeSubnets(request);
            return response.subnets().stream()
                    .map(Subnet::subnetId)
                    .collect(Collectors.toList());
        }
    }

    public static String getDefaultVpcId() {
        Ec2Client ec2 = Ec2Client.builder()
                .region(Region.US_EAST_1)
                .build();

        Filter myFilter = Filter.builder()
                .name("isDefault")
                .values("true")
                .build();

        List<Filter> filterList = new ArrayList<>();
        filterList.add(myFilter);

        DescribeVpcsRequest request = DescribeVpcsRequest.builder()
                .filters(filterList)
                .build();


        DescribeVpcsResponse response = ec2.describeVpcs(request);
        if (!response.vpcs().isEmpty()) {
            Vpc defaultVpc = response.vpcs().get(0);
            return defaultVpc.vpcId();
        } else {
            throw new RuntimeException("No default VPC found in this region.");
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [Buat DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/CreateDBCluster)
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/CreateDBInstance)
  + [Buat DBSubnet Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/CreateDBSubnetGroup)
  + [CreateGraph](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/CreateGraph)
  + [Hapus DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DeleteDBCluster)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DeleteDBInstance)
  + [Hapus DBSubnet Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DeleteDBSubnetGroup)
  + [Jelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DescribeDBClusters)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DescribeDBInstances)
  + [ExecuteGremlinProfileQuery](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/ExecuteGremlinProfileQuery)
  + [ExecuteGremlinQuery](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/ExecuteGremlinQuery)
  + [ExecuteOpenCypherExplainQuery](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/ExecuteOpenCypherExplainQuery)
  + [ExecuteQuery](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/ExecuteQuery)
  + [Mulai DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/StartDBCluster)
  + [Berhenti DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/StopDBCluster)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="neptune_CreateDBCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Creates a new Amazon Neptune DB cluster asynchronously.
     *
     * @param dbName the name of the DB cluster to be created
     * @return a CompletableFuture that, when completed, provides the ID of the created DB cluster
     * @throws CompletionException if the operation fails for any reason, including if the request would exceed the maximum quota
     */
    public CompletableFuture<String> createDBClusterAsync(String dbName) {
        CreateDbClusterRequest request = CreateDbClusterRequest.builder()
                .dbClusterIdentifier(dbName)
                .engine("neptune")
                .deletionProtection(false)
                .backupRetentionPeriod(1)
                .build();

        return getAsyncClient().createDBCluster(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ServiceQuotaExceededException) {
                            throw new CompletionException("The operation was denied because the request would exceed the maximum quota.", cause);
                        }
                        throw new CompletionException("Failed to create Neptune DB cluster: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> {
                    String clusterId = response.dbCluster().dbClusterIdentifier();
                    logger.info("DB Cluster created: " + clusterId);
                    return clusterId;
                });
    }
```
+  Untuk detail API, lihat [Membuat DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/CreateDBCluster) di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDBInstance`
<a name="neptune_CreateDBInstance_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Creates a new Amazon Neptune DB instance asynchronously.
     *
     * @param dbInstanceId the identifier for the new DB instance
     * @param dbClusterId  the identifier for the DB cluster that the new instance will be a part of
     * @return a {@link CompletableFuture} that completes with the identifier of the newly created DB instance
     * @throws CompletionException if the operation fails, with a cause of either:
     *                             - {@link ServiceQuotaExceededException} if the request would exceed the maximum quota, or
     *                             - a general exception with the failure message
     */
    public CompletableFuture<String> createDBInstanceAsync(String dbInstanceId, String dbClusterId) {
        CreateDbInstanceRequest request = CreateDbInstanceRequest.builder()
                .dbInstanceIdentifier(dbInstanceId)
                .dbInstanceClass("db.r5.large")
                .engine("neptune")
                .dbClusterIdentifier(dbClusterId)
                .build();

        return getAsyncClient().createDBInstance(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ServiceQuotaExceededException) {
                            throw new CompletionException("The operation was denied because the request would exceed the maximum quota.", cause);
                        }
                        throw new CompletionException("Failed to create Neptune DB instance: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> {
                    String instanceId = response.dbInstance().dbInstanceIdentifier();
                    logger.info("Created Neptune DB Instance: " + instanceId);
                    return instanceId;
                });
    }
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/CreateDBInstance) di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDBSubnetGroup`
<a name="neptune_CreateDBSubnetGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSubnetGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Creates a new DB subnet group asynchronously.
     *
     * @param groupName the name of the subnet group to create
     * @return a CompletableFuture that, when completed, returns the Amazon Resource Name (ARN) of the created subnet group
     * @throws CompletionException if the operation fails, with a cause that may be a ServiceQuotaExceededException if the request would exceed the maximum quota
     */
    public CompletableFuture<String> createSubnetGroupAsync(String groupName) {

        // Get the Amazon Virtual Private Cloud (VPC) where the Neptune cluster and resources will be created
        String vpcId = getDefaultVpcId();
        logger.info("VPC is : " + vpcId);

        List<String> subnetList = getSubnetIds(vpcId);
        for (String subnetId : subnetList) {
            System.out.println("Subnet group:" +subnetId);
        }

        CreateDbSubnetGroupRequest request = CreateDbSubnetGroupRequest.builder()
                .dbSubnetGroupName(groupName)
                .dbSubnetGroupDescription("Subnet group for Neptune cluster")
                .subnetIds(subnetList)
                .build();

        return getAsyncClient().createDBSubnetGroup(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof ServiceQuotaExceededException) {
                            throw new CompletionException("The operation was denied because the request would exceed the maximum quota.", cause);
                        }
                        throw new CompletionException("Failed to create subnet group: " + exception.getMessage(), exception);
                    }
                })
                .thenApply(response -> {
                    String name = response.dbSubnetGroup().dbSubnetGroupName();
                    String arn = response.dbSubnetGroup().dbSubnetGroupArn();
                    logger.info("Subnet group created: " + name);
                    return arn;
                });
    }
```
+  Untuk detail API, lihat [Membuat DBSubnet Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/CreateDBSubnetGroup) di *Referensi AWS SDK for Java 2.x API*. 

### `CreateGraph`
<a name="neptune_CreateGraph_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGraph`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Executes the process of creating a new Neptune graph.
     *
     * @param client        the Neptune graph client used to interact with the Neptune service
     * @param graphName     the name of the graph to be created
     * @throws NeptuneGraphException if an error occurs while creating the graph
     */
    public static void executeCreateGraph(NeptuneGraphClient client, String graphName) {
        try {
            // Create the graph request
            CreateGraphRequest request = CreateGraphRequest.builder()
                    .graphName(graphName)
                    .provisionedMemory(16)
                    .build();

            // Create the graph
            CreateGraphResponse response = client.createGraph(request);

            // Extract the graph name and ARN
            String createdGraphName = response.name();
            String graphArn = response.arn();
            String graphEndpoint = response.endpoint();

            System.out.println("Graph created successfully!");
            System.out.println("Graph Name: " + createdGraphName);
            System.out.println("Graph ARN: " + graphArn);
            System.out.println("Graph Endpoint: " +graphEndpoint );

        } catch (NeptuneGraphException e) {
            System.err.println("Failed to create graph: " + e.awsErrorDetails().errorMessage());
        } finally {
            client.close();
        }
   }
```
+  Untuk detail API, lihat [CreateGraph](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/CreateGraph)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDBCluster`
<a name="neptune_DeleteDBCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Deletes a DB instance asynchronously.
     *
     * @param clusterId the identifier of the cluster to delete
     * @return a {@link CompletableFuture} that completes when the cluster has been deleted
     */
    public CompletableFuture<Void> deleteDBClusterAsync(String clusterId) {
        DeleteDbClusterRequest request = DeleteDbClusterRequest.builder()
                .dbClusterIdentifier(clusterId)
                .skipFinalSnapshot(true)
                .build();

        return getAsyncClient().deleteDBCluster(request)
                .thenAccept(response -> System.out.println("🗑️ Deleting DB Cluster: " + clusterId));
    }
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DeleteDBCluster) di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDBInstance`
<a name="neptune_DeleteDBInstance_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Deletes a DB instance asynchronously.
     *
     * @param instanceId the identifier of the DB instance to be deleted
     * @return a {@link CompletableFuture} that completes when the DB instance has been deleted
     */
    public CompletableFuture<Void> deleteDBInstanceAsync(String instanceId) {
        DeleteDbInstanceRequest request = DeleteDbInstanceRequest.builder()
                .dbInstanceIdentifier(instanceId)
                .skipFinalSnapshot(true)
                .build();

        return getAsyncClient().deleteDBInstance(request)
                .thenAccept(response -> System.out.println("🗑️ Deleting DB Instance: " + instanceId));
    }
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DeleteDBInstance) di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDBSubnetGroup`
<a name="neptune_DeleteDBSubnetGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBSubnetGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Deletes a subnet group.
     *
     * @param subnetGroupName the identifier of the subnet group to delete
     * @return a {@link CompletableFuture} that completes when the cluster has been deleted
     */
    public CompletableFuture<Void> deleteDBSubnetGroupAsync(String subnetGroupName) {
        DeleteDbSubnetGroupRequest request = DeleteDbSubnetGroupRequest.builder()
                .dbSubnetGroupName(subnetGroupName)
                .build();

        return getAsyncClient().deleteDBSubnetGroup(request)
                .thenAccept(response -> logger.info("🗑️ Deleting Subnet Group: " + subnetGroupName));
    }
```
+  Untuk detail API, lihat [Menghapus DBSubnet Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DeleteDBSubnetGroup) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBClusters`
<a name="neptune_DescribeDBClusters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Asynchronously describes the specified Amazon RDS DB cluster.
     *
     * @param clusterId the identifier of the DB cluster to describe
     * @return a {@link CompletableFuture} that completes when the operation is done, or throws a {@link RuntimeException}
     * if an error occurs
     */
    public CompletableFuture<Void> describeDBClustersAsync(String clusterId) {
        DescribeDbClustersRequest request = DescribeDbClustersRequest.builder()
                .dbClusterIdentifier(clusterId)
                .build();

        return getAsyncClient().describeDBClusters(request)
                .thenAccept(response -> {
                    for (DBCluster cluster : response.dbClusters()) {
                        logger.info("Cluster Identifier: " + cluster.dbClusterIdentifier());
                        logger.info("Status: " + cluster.status());
                        logger.info("Engine: " + cluster.engine());
                        logger.info("Engine Version: " + cluster.engineVersion());
                        logger.info("Endpoint: " + cluster.endpoint());
                        logger.info("Reader Endpoint: " + cluster.readerEndpoint());
                        logger.info("Availability Zones: " + cluster.availabilityZones());
                        logger.info("Subnet Group: " + cluster.dbSubnetGroup());
                        logger.info("VPC Security Groups:");
                        cluster.vpcSecurityGroups().forEach(vpcGroup ->
                                logger.info("  - " + vpcGroup.vpcSecurityGroupId()));
                        logger.info("Storage Encrypted: " + cluster.storageEncrypted());
                        logger.info("IAM DB Auth Enabled: " + cluster.iamDatabaseAuthenticationEnabled());
                        logger.info("Backup Retention Period: " + cluster.backupRetentionPeriod() + " days");
                        logger.info("Preferred Backup Window: " + cluster.preferredBackupWindow());
                        logger.info("Preferred Maintenance Window: " + cluster.preferredMaintenanceWindow());
                        logger.info("------");
                    }
                })
                .exceptionally(ex -> {
                    Throwable cause = ex.getCause() != null ? ex.getCause() : ex;

                    if (cause instanceof ResourceNotFoundException) {
                        throw (ResourceNotFoundException) cause;
                    }

                    throw new RuntimeException("Failed to describe the DB cluster: " + cause.getMessage(), cause);
                });
    }
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DescribeDBClusters) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBInstances`
<a name="neptune_DescribeDBInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Checks the status of a Neptune instance recursively until the desired status is reached or a timeout occurs.
     *
     * @param instanceId     the ID of the Neptune instance to check
     * @param desiredStatus  the desired status of the Neptune instance
     * @param startTime      the start time of the operation, used to calculate the elapsed time
     * @param future         a {@link CompletableFuture} that will be completed when the desired status is reached
     */
    private void checkStatusRecursive(String instanceId, String desiredStatus, long startTime, CompletableFuture<Void> future) {
        DescribeDbInstancesRequest request = DescribeDbInstancesRequest.builder()
                .dbInstanceIdentifier(instanceId)
                .build();

        getAsyncClient().describeDBInstances(request)
                .whenComplete((response, exception) -> {
                    if (exception != null) {
                        Throwable cause = exception.getCause();
                        future.completeExceptionally(
                                new CompletionException("Error checking Neptune instance status", cause)
                        );
                        return;
                    }

                    List<DBInstance> instances = response.dbInstances();
                    if (instances.isEmpty()) {
                        future.completeExceptionally(new RuntimeException("Instance not found: " + instanceId));
                        return;
                    }

                    String currentStatus = instances.get(0).dbInstanceStatus();
                    long elapsedSeconds = (System.currentTimeMillis() - startTime) / 1000;
                    System.out.printf("\r Elapsed: %-20s  Status: %-20s", formatElapsedTime((int) elapsedSeconds), currentStatus);
                    System.out.flush();

                    if (desiredStatus.equalsIgnoreCase(currentStatus)) {
                        System.out.printf("\r Neptune instance reached desired status '%s' after %s.\n", desiredStatus, formatElapsedTime((int) elapsedSeconds));
                        future.complete(null);
                    } else {
                        CompletableFuture.delayedExecutor(20, TimeUnit.SECONDS)
                                .execute(() -> checkStatusRecursive(instanceId, desiredStatus, startTime, future));
                    }
                });
    }
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK for Java 2.x API*. 

### `ExecuteGremlinProfileQuery`
<a name="neptune_ExecuteGremlinProfileQuery_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteGremlinProfileQuery`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Executes a Gremlin query against an Amazon Neptune database using the provided {@link NeptunedataClient}.
     *
     * @param client the {@link NeptunedataClient} instance to use for executing the Gremlin query
     */
    public static void executeGremlinQuery(NeptunedataClient client) {
        try {
            System.out.println("Querying Neptune...");
            ExecuteGremlinQueryRequest request = ExecuteGremlinQueryRequest.builder()
                    .gremlinQuery("g.V().has('code', 'ANC')")
                    .build();

            ExecuteGremlinQueryResponse response = client.executeGremlinQuery(request);

            System.out.println("Full Response:");
            System.out.println(response);

            // Retrieve and print the result
            if (response.result() != null) {
                System.out.println("Query Result:");
                System.out.println(response.result().toString());
            } else {
                System.out.println("No result returned from the query.");
            }
        } catch (NeptunedataException e) {
            System.err.println("Error calling Neptune: " + e.awsErrorDetails().errorMessage());
        } catch (Exception e) {
            System.err.println("Unexpected error: " + e.getMessage());
        } finally {
            client.close();
        }
    }
```
+  Untuk detail API, lihat [ExecuteGremlinProfileQuery](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/ExecuteGremlinProfileQuery)di *Referensi AWS SDK for Java 2.x API*. 

### `ExecuteGremlinQuery`
<a name="neptune_ExecuteGremlinQuery_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteGremlinQuery`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Executes a Gremlin PROFILE query using the provided NeptunedataClient.
     *
     * @param client The NeptunedataClient instance to be used for executing the Gremlin PROFILE query.
     */
    private static void executeGremlinProfileQuery(NeptunedataClient client) {
        System.out.println("Executing Gremlin PROFILE query...");

        ExecuteGremlinProfileQueryRequest request = ExecuteGremlinProfileQueryRequest.builder()
                .gremlinQuery("g.V().has('code', 'ANC')")
                .build();

        ExecuteGremlinProfileQueryResponse response = client.executeGremlinProfileQuery(request);
        if (response.output() != null) {
            System.out.println("Query Profile Output:");
            System.out.println(response.output());
        } else {
            System.out.println("No output returned from the profile query.");
        }
    }
```
+  Untuk detail API, lihat [ExecuteGremlinQuery](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/ExecuteGremlinQuery)di *Referensi AWS SDK for Java 2.x API*. 

### `ExecuteOpenCypherExplainQuery`
<a name="neptune_ExecuteOpenCypherExplainQuery_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteOpenCypherExplainQuery`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Executes an OpenCypher EXPLAIN query using the provided Neptune data client.
     *
     * @param client The Neptune data client to use for the query execution.
     */
    public static void executeGremlinQuery(NeptunedataClient client) {
        try {
            System.out.println("Executing OpenCypher EXPLAIN query...");
            ExecuteOpenCypherExplainQueryRequest request = ExecuteOpenCypherExplainQueryRequest.builder()
                    .openCypherQuery("MATCH (n {code: 'ANC'}) RETURN n")
                    .explainMode("debug")
                    .build();

            ExecuteOpenCypherExplainQueryResponse response = client.executeOpenCypherExplainQuery(request);

            if (response.results() != null) {
                System.out.println("Explain Results:");
                System.out.println(response.results().asUtf8String());
            } else {
                System.out.println("No explain results returned.");
            }

        } catch (NeptunedataException e) {
            System.err.println("Neptune error: " + e.awsErrorDetails().errorMessage());
        } catch (Exception e) {
            System.err.println("Unexpected error: " + e.getMessage());
        } finally {
            client.close();
        }
    }
```
+  Untuk detail API, lihat [ExecuteOpenCypherExplainQuery](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/ExecuteOpenCypherExplainQuery)di *Referensi AWS SDK for Java 2.x API*. 

### `ExecuteQuery`
<a name="neptune_ExecuteQuery_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteQuery`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Executes a Gremlin profile query on the Neptune Analytics graph.
     *
     * @param client       the {@link NeptuneGraphClient} instance to use for the query
     * @param graphId      the identifier of the graph to execute the query on
     *
     * @throws NeptuneGraphException if an error occurs while executing the query on the Neptune Graph
     * @throws Exception if an unexpected error occurs
     */
    public static void executeGremlinProfileQuery(NeptuneGraphClient client, String graphId) {

        try {
            System.out.println("Running openCypher query on Neptune Analytics...");

            ExecuteQueryRequest request = ExecuteQueryRequest.builder()
                    .graphIdentifier(graphId)
                    .queryString("MATCH (n {code: 'ANC'}) RETURN n")
                    .language("OPEN_CYPHER")
                    .build();

            ResponseInputStream<ExecuteQueryResponse> response = client.executeQuery(request);
            try (BufferedReader reader = new BufferedReader(new InputStreamReader(response, StandardCharsets.UTF_8))) {
                String result = reader.lines().collect(Collectors.joining("\n"));
                System.out.println("Query Result:");
                System.out.println(result);
            } catch (Exception e) {
                System.err.println("Error reading response: " + e.getMessage());
            }

        } catch (NeptuneGraphException e) {
            System.err.println("NeptuneGraph error: " + e.awsErrorDetails().errorMessage());
        } catch (Exception e) {
            System.err.println("Unexpected error: " + e.getMessage());
        } finally {
            client.close();
        }
    }
```
+  Untuk detail API, lihat [ExecuteQuery](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/ExecuteQuery)di *Referensi AWS SDK for Java 2.x API*. 

### `StartDBCluster`
<a name="neptune_StartDBCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDBCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Starts an Amazon Neptune DB cluster.
     *
     * @param clusterIdentifier the unique identifier of the DB cluster to be stopped
     */
    public CompletableFuture<StartDbClusterResponse> startDBClusterAsync(String clusterIdentifier) {
        StartDbClusterRequest clusterRequest = StartDbClusterRequest.builder()
                .dbClusterIdentifier(clusterIdentifier)
                .build();

        return getAsyncClient().startDBCluster(clusterRequest)
                .whenComplete((response, error) -> {
                    if (error != null) {
                        Throwable cause = error.getCause() != null ? error.getCause() : error;

                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }

                        throw new RuntimeException("Failed to start DB cluster: " + cause.getMessage(), cause);
                    } else {
                        logger.info("DB Cluster starting: " + clusterIdentifier);
                    }
                });
    }
```
+  Untuk detail API, lihat [Mulai DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/StartDBCluster) di *Referensi AWS SDK for Java 2.x API*. 

### `StopDBCluster`
<a name="neptune_StopDBCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopDBCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/neptune#code-examples). 

```
    /**
     * Stops an Amazon Neptune DB cluster.
     *
     * @param clusterIdentifier the unique identifier of the DB cluster to be stopped
     */
    public CompletableFuture<StopDbClusterResponse> stopDBClusterAsync(String clusterIdentifier) {
        StopDbClusterRequest clusterRequest = StopDbClusterRequest.builder()
                .dbClusterIdentifier(clusterIdentifier)
                .build();

        return getAsyncClient().stopDBCluster(clusterRequest)
                .whenComplete((response, error) -> {
                    if (error != null) {
                        Throwable cause = error.getCause() != null ? error.getCause() : error;

                        if (cause instanceof ResourceNotFoundException) {
                            throw (ResourceNotFoundException) cause;
                        }

                        throw new RuntimeException("Failed to stop DB cluster: " + cause.getMessage(), cause);
                    } else {
                        logger.info("DB Cluster stopped: " + clusterIdentifier);
                    }
                });
    }
```
+  Untuk detail API, lihat [Berhenti DBCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/neptune-2014-10-31/StopDBCluster) di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Gunakan Neptunus API untuk menanyakan data grafik
<a name="cross_Neptune_Query_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Neptunus API untuk query data grafik.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Neptune Java API untuk membuat fungsi Lambda yang menanyakan data grafik dalam VPC.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_neptune_lambda).   

**Layanan yang digunakan dalam contoh ini**
+ Lambda
+ Neptune

# Contoh Partner Central menggunakan SDK for Java 2.x
<a name="java_2_partnercentral-selling_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Pusat Mitra AWS SDK for Java 2.x dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AssignOpportunity`
<a name="partnercentral-selling_AssignOpportunity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssignOpportunity`.

**SDK untuk Java 2.x**  
Tetapkan kembali Peluang yang ada ke pengguna lain.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.AssignOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.AssignOpportunityResponse;
import software.amazon.awssdk.services.partnercentralselling.model.AssigneeContact;

/*
Purpose
PC-API-07 Assigning a new owner
*/

public class AssignOpportunity {
	
	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();

    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	    	
    	String assigneeFirstName = "John";
    	
    	String assigneeLastName = "Doe";
    	
    	String assigneeEmail = "test@test.com";
    	
    	String businessTitle = "PartnerAccountManager";
    	
    	AssignOpportunityResponse response = getResponse(opportunityId, assigneeFirstName, assigneeLastName, assigneeEmail, businessTitle);
    	
    	ReferenceCodesUtils.formatOutput(response);
    }

	static AssignOpportunityResponse getResponse(String opportunityId, String assigneeFirstName, String assigneeLastName, String assigneeEmail, String businessTitle) {
				
		AssignOpportunityRequest assignOpportunityRequest = AssignOpportunityRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.identifier(opportunityId)
        		.assignee(AssigneeContact.builder()
        				.firstName(assigneeFirstName)
        				.lastName(assigneeLastName)
        				.email(assigneeEmail)
        				.businessTitle(businessTitle)
        				.build())
        		.build();
        
        AssignOpportunityResponse response = client.assignOpportunity(assignOpportunityRequest);
        
        return response;
	}
}
```
+  Untuk detail API, lihat [AssignOpportunity](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/AssignOpportunity)di *Referensi AWS SDK for Java 2.x API*. 

### `AssociateOpportunity`
<a name="partnercentral-selling_AssociateOpportunity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateOpportunity`.

**SDK untuk Java 2.x**  
Buat hubungan formal antara Peluang dan berbagai entitas terkait.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.AssociateOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.AssociateOpportunityResponse;

/*
Purpose
PC-API -11 Associating a product
PC-API -12 Associating a solution
PC-API -13 Associating an offer
entity_type = Solutions | AWSProducts | AWSMarketplaceOffers 
*/

public class AssociateOpportunity {
	
	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();

    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	    	
    	String entityType = "Solutions";
    	
    	String entityIdentifier = "S-0000000";
    	
    	AssociateOpportunityResponse response = getResponse(opportunityId, entityType, entityIdentifier );
    	
    	ReferenceCodesUtils.formatOutput(response);
    }

static AssociateOpportunityResponse getResponse(String opportunityId, String entityType, String entityIdentifier) {
		
        AssociateOpportunityRequest associateOpportunityRequest = AssociateOpportunityRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.opportunityIdentifier(opportunityId)
        		.relatedEntityType(entityType)
        		.relatedEntityIdentifier(entityIdentifier)
        		.build();
        
        AssociateOpportunityResponse response = client.associateOpportunity(associateOpportunityRequest);
        
        return response;
	}
}
```
+  Untuk detail API, lihat [AssociateOpportunity](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/AssociateOpportunity)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateOpportunity`
<a name="partnercentral-selling_CreateOpportunity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOpportunity`.

**SDK untuk Java 2.x**  
Ciptakan peluang.  

```
package org.example;

import java.time.Instant;
import java.util.ArrayList;
import java.util.List;

import static org.example.utils.Constants.*;

import org.example.entity.Root;
import org.example.utils.ReferenceCodesUtils;
import org.example.utils.StringSerializer;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.Account;
import software.amazon.awssdk.services.partnercentralselling.model.Address;
import software.amazon.awssdk.services.partnercentralselling.model.Contact;
import software.amazon.awssdk.services.partnercentralselling.model.CreateOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.CreateOpportunityResponse;
import software.amazon.awssdk.services.partnercentralselling.model.Customer;
import software.amazon.awssdk.services.partnercentralselling.model.ExpectedCustomerSpend;
import software.amazon.awssdk.services.partnercentralselling.model.LifeCycle;
import software.amazon.awssdk.services.partnercentralselling.model.Marketing;
import software.amazon.awssdk.services.partnercentralselling.model.MonetaryValue;
import software.amazon.awssdk.services.partnercentralselling.model.NextStepsHistory;
import software.amazon.awssdk.services.partnercentralselling.model.Project;
import software.amazon.awssdk.services.partnercentralselling.model.SoftwareRevenue;

import com.google.gson.Gson;
import com.google.gson.GsonBuilder;
import com.google.gson.ToNumberPolicy;

public class CreateOpportunity {
	
	static final Gson GSON = new GsonBuilder()
			.setObjectToNumberStrategy(ToNumberPolicy.LAZILY_PARSED_NUMBER)
			.registerTypeAdapter(String.class, new StringSerializer())
			.create();
	
	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();

	public static void main(String[] args) {

		String inputFile = "CreateOpportunity2.json";
		
		if (args.length > 0)
			inputFile = args[0];
		
		CreateOpportunityResponse response = createOpportunity(inputFile);
		
		client.close();
	}
	
	static CreateOpportunityResponse createOpportunity(String inputFile) {
		
		String inputString = ReferenceCodesUtils.readInputFileToString(inputFile);
		
		Root root = GSON.fromJson(inputString, Root.class);
				
		List<NextStepsHistory> nextStepsHistories = new ArrayList<NextStepsHistory>();
		if ( root.lifeCycle != null && root.lifeCycle.nextStepsHistories != null) {		
			for (org.example.entity.NextStepsHistory nextStepsHistoryJson : root.lifeCycle.nextStepsHistories) {
				NextStepsHistory nextStepsHistory = NextStepsHistory.builder()
						.time(Instant.parse(nextStepsHistoryJson.time))
						.value(nextStepsHistoryJson.value)
		                .build();
				nextStepsHistories.add(nextStepsHistory);
			}
		}
		
		LifeCycle lifeCycle = null;
		if ( root.lifeCycle != null ) {
			lifeCycle = LifeCycle.builder()
				.closedLostReason(root.lifeCycle.closedLostReason)
				.nextSteps(root.lifeCycle.nextSteps)
				.nextStepsHistory(nextStepsHistories)
				.reviewComments(root.lifeCycle.reviewComments)
				.reviewStatus(root.lifeCycle.reviewStatus)
				.reviewStatusReason(root.lifeCycle.reviewStatusReason)
				.stage(root.lifeCycle.stage)
				.targetCloseDate(root.lifeCycle.targetCloseDate)
				.build();
		}
		
		Marketing marketing = null;
		if ( root.marketing != null ) {
			marketing = Marketing.builder()
					.awsFundingUsed(root.marketing.awsFundingUsed)
					.campaignName(root.marketing.campaignName)
					.channels(root.marketing.channels)
					.source(root.marketing.source)
					.useCases(root.marketing.useCases)
					.build();
					
		}
		
		Address address = null;
		if ( root.customer != null && root.customer.account != null && root.customer.account.address != null ) {
			address = Address.builder()
				.city(root.customer.account.address.city)
                .postalCode(root.customer.account.address.postalCode)
                .stateOrRegion(root.customer.account.address.stateOrRegion)
                .countryCode(root.customer.account.address.countryCode)
                .streetAddress(root.customer.account.address.streetAddress)
                .build();
		}
		
		Account account = null;
		if ( root.customer != null && root.customer.account!= null) {
			account = Account.builder()
	            .address(address)
	            .awsAccountId(root.customer.account.awsAccountId)
                .duns(root.customer.account.duns)
                .industry(root.customer.account.industry)
                .otherIndustry(root.customer.account.otherIndustry)
                .companyName(root.customer.account.companyName)
                .websiteUrl(root.customer.account.websiteUrl)
                .build();
		}
		
		List<Contact> contacts = new ArrayList<Contact>();
		if ( root.customer != null && root.customer.contacts != null) {		
			for (org.example.entity.Contact jsonContact : root.customer.contacts) {
				Contact contact = Contact.builder()
		                .email(jsonContact.email)
		                .firstName(jsonContact.firstName)
		                .lastName(jsonContact.lastName)
		                .phone(jsonContact.phone)
		                .businessTitle(jsonContact.businessTitle)
		                .build();
				contacts.add(contact);
			}
		}

		Customer customer = Customer.builder()
				.account(account)
				.contacts(contacts)
				.build();
		
		Contact oportunityTeamContact = null;
		if (root.opportunityTeam != null && root.opportunityTeam.get(0) != null ) {
			oportunityTeamContact = Contact.builder()
                .firstName(root.opportunityTeam.get(0).firstName)
                .lastName(root.opportunityTeam.get(0).lastName)
                .email(root.opportunityTeam.get(0).email)
                .phone(root.opportunityTeam.get(0).phone)
                .businessTitle(root.opportunityTeam.get(0).businessTitle)
                .build();
		}
		
		List<ExpectedCustomerSpend> expectedCustomerSpends = new ArrayList<ExpectedCustomerSpend>();
		if ( root.project != null && root.project.expectedCustomerSpend != null) {
			for (org.example.entity.ExpectedCustomerSpend expectedCustomerSpendJson : root.project.expectedCustomerSpend) {
				ExpectedCustomerSpend expectedCustomerSpend = null;
				expectedCustomerSpend = ExpectedCustomerSpend.builder()
						.amount(expectedCustomerSpendJson.amount)
						.currencyCode(expectedCustomerSpendJson.currencyCode)
						.frequency(expectedCustomerSpendJson.frequency)
						.targetCompany(expectedCustomerSpendJson.targetCompany)
						.build();
				expectedCustomerSpends.add(expectedCustomerSpend);
			}
        }
        
        Project project = null;
        if ( root.project != null) {
        	project = Project.builder()
                .title(root.project.title)
                .customerBusinessProblem(root.project.customerBusinessProblem)
                .customerUseCase(root.project.customerUseCase)
                .deliveryModels(root.project.deliveryModels)
                .expectedCustomerSpend(expectedCustomerSpends)
                .salesActivities(root.project.salesActivities)
                .competitorName(root.project.competitorName)
                .otherSolutionDescription(root.project.otherSolutionDescription)
                .build();
        }
        
        SoftwareRevenue softwareRevenue = null;
        if ( root.softwareRevenue != null) {
        	MonetaryValue monetaryValue = null;
        	if ( root.softwareRevenue.value != null) {
        		monetaryValue = MonetaryValue.builder()
        				.amount(root.softwareRevenue.value.amount)
        				.currencyCode(root.softwareRevenue.value.currencyCode)
        				.build();
        	}
        	softwareRevenue = SoftwareRevenue.builder()
        			.deliveryModel(root.softwareRevenue.deliveryModel)
        			.effectiveDate(root.softwareRevenue.effectiveDate)
        			.expirationDate(root.softwareRevenue.expirationDate)
        			.value(monetaryValue)
        			.build();
        }
		
		// Building the Actual CreateOpportunity Request
		CreateOpportunityRequest createOpportunityRequest = CreateOpportunityRequest.builder()
				.catalog(CATALOG_TO_USE)
				.clientToken(root.clientToken)
				.primaryNeedsFromAwsWithStrings(root.primaryNeedsFromAws)
				.opportunityType(root.opportunityType)
				.lifeCycle(lifeCycle)
				.marketing(marketing)
				.nationalSecurity(root.nationalSecurity)
				.origin(root.origin)
				.customer(customer)
				.project(project)
				.partnerOpportunityIdentifier(root.partnerOpportunityIdentifier)
				.opportunityTeam(oportunityTeamContact)
				.softwareRevenue(softwareRevenue)
				.build();
		
		CreateOpportunityResponse response = client.createOpportunity(createOpportunityRequest);
		System.out.println("Successfully created: " + response);

		return response;
    }

}
```
+  Untuk detail API, lihat [CreateOpportunity](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/CreateOpportunity)di *Referensi AWS SDK for Java 2.x API*. 

### `DisassociateOpportunity`
<a name="partnercentral-selling_DisassociateOpportunity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateOpportunity`.

**SDK untuk Java 2.x**  
Hapus asosiasi yang ada antara Peluang dan entitas terkait.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.DisassociateOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.DisassociateOpportunityResponse;

/*
Purpose
PC-API -14 Removing a Solution
PC-API -15 Removing an offer
PC-API -16 Removing a product
entity_type = Solutions | AWSProducts | AWSMarketplaceOffers 
*/

public class DisassociateOpportunity {

	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	
    	String entityType = "Solutions";
    	
    	String entityIdentifier = "S-0000000";
    	
    	DisassociateOpportunityResponse response = getResponse(opportunityId, entityType, entityIdentifier );
    	
    	ReferenceCodesUtils.formatOutput(response);
    }

	static DisassociateOpportunityResponse getResponse(String opportunityId, String entityType, String entityIdentifier) {
		
		DisassociateOpportunityRequest disassociateOpportunityRequest = DisassociateOpportunityRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.opportunityIdentifier(opportunityId)
        		.relatedEntityType(entityType)
        		.relatedEntityIdentifier(entityIdentifier)
        		.build();
        
        DisassociateOpportunityResponse response = client.disassociateOpportunity(disassociateOpportunityRequest);
        
        return response;
	}
}
```
+  Untuk detail API, lihat [DisassociateOpportunity](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/DisassociateOpportunity)di *Referensi AWS SDK for Java 2.x API*. 

### `GetAwsOpportunitySummary`
<a name="partnercentral-selling_GetAwsOpportunitySummary_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAwsOpportunitySummary`.

**SDK untuk Java 2.x**  
Mengambil ringkasan dari AWS Peluang.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.GetAwsOpportunitySummaryRequest;
import software.amazon.awssdk.services.partnercentralselling.model.GetAwsOpportunitySummaryResponse;

/*
 * Purpose
 * PC-API-25 Retrieves a summary of an AWS Opportunity.
 */

public class GetAwsOpportunitySummary {

	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	
    	GetAwsOpportunitySummaryResponse response = getResponse(opportunityId);
    	
    	ReferenceCodesUtils.formatOutput(response);
    }

	public static GetAwsOpportunitySummaryResponse getResponse(String opportunityId) {

		GetAwsOpportunitySummaryRequest getOpportunityRequest = GetAwsOpportunitySummaryRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.relatedOpportunityIdentifier(opportunityId)
        		.build();
        
		GetAwsOpportunitySummaryResponse response = client.getAwsOpportunitySummary(getOpportunityRequest);
        
        return response;
	}
}
```
+  Untuk detail API, lihat [GetAwsOpportunitySummary](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/GetAwsOpportunitySummary)di *Referensi AWS SDK for Java 2.x API*. 

### `GetEngagementInvitation`
<a name="partnercentral-selling_GetEngagementInvitation_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetEngagementInvitation`.

**SDK untuk Java 2.x**  
Mengambil detail undangan pertunangan yang dibagikan AWS dengan pasangan.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.GetEngagementInvitationRequest;
import software.amazon.awssdk.services.partnercentralselling.model.GetEngagementInvitationResponse;

/*
 * Purpose
 * PC-API-22 Get engagement invitation opportunity
 */

public class GetEngagementInvitation {

	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	    	
    	GetEngagementInvitationResponse response = getResponse(opportunityId);
    	
    	ReferenceCodesUtils.formatOutput(response);
    }

	static GetEngagementInvitationResponse getResponse(String opportunityId) {
		
		GetEngagementInvitationRequest getOpportunityRequest = GetEngagementInvitationRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.identifier(opportunityId)
        		.build();
        
		GetEngagementInvitationResponse response = client.getEngagementInvitation(getOpportunityRequest);
        
        return response;
	}
}
```
+  Untuk detail API, lihat [GetEngagementInvitation](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/GetEngagementInvitation)di *Referensi AWS SDK for Java 2.x API*. 

### `GetOpportunity`
<a name="partnercentral-selling_GetOpportunity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetOpportunity`.

**SDK untuk Java 2.x**  
Dapatkan kesempatan.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.GetOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.GetOpportunityResponse;

/*
 * Purpose
 * PC-API-08 Get updated Opportunity
 */

public class GetOpportunity {

	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	
    	GetOpportunityResponse response = getResponse(opportunityId);
    	
    	ReferenceCodesUtils.formatOutput(response);
    }

	public static GetOpportunityResponse getResponse(String opportunityId) {

        GetOpportunityRequest getOpportunityRequest = GetOpportunityRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.identifier(opportunityId)
        		.build();
        
        GetOpportunityResponse response = client.getOpportunity(getOpportunityRequest);
        
        return response;
	}
}
```
+  Untuk detail API, lihat [GetOpportunity](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/GetOpportunity)di *Referensi AWS SDK for Java 2.x API*. 

### `ListEngagementInvitations`
<a name="partnercentral-selling_ListEngagementInvitations_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEngagementInvitations`.

**SDK untuk Java 2.x**  
Mengambil daftar undangan keterlibatan yang dikirim ke mitra.  

```
package org.example;

import java.util.ArrayList;
import java.util.List;

import org.example.utils.ReferenceCodesUtils;
import static org.example.utils.Constants.*;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.ListEngagementInvitationsRequest;
import software.amazon.awssdk.services.partnercentralselling.model.ListEngagementInvitationsResponse;
import software.amazon.awssdk.services.partnercentralselling.model.ParticipantType;
import software.amazon.awssdk.services.partnercentralselling.model.EngagementInvitationSummary;

public class ListEngagementInvitations {
	
	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	
    	List<EngagementInvitationSummary> opportunitySummaries = getResponse();
        ReferenceCodesUtils.formatOutput(opportunitySummaries);
    }
    
    static List<EngagementInvitationSummary> getResponse() {
		
		List<EngagementInvitationSummary> opportunitySummaries = new ArrayList<EngagementInvitationSummary>();
		
		ListEngagementInvitationsRequest listOpportunityRequest = ListEngagementInvitationsRequest.builder()
                .catalog(CATALOG_TO_USE)
                .participantType(ParticipantType.RECEIVER)
        		.maxResults(5)
        		.build();
        
		ListEngagementInvitationsResponse response = client.listEngagementInvitations(listOpportunityRequest);
    	
    	opportunitySummaries.addAll(response.engagementInvitationSummaries());
    	
    	client.close();
    	
        return opportunitySummaries;
	}
}
```
+  Untuk detail API, lihat [ListEngagementInvitations](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/ListEngagementInvitations)di *Referensi AWS SDK for Java 2.x API*. 

### `ListOpportunities`
<a name="partnercentral-selling_ListOpportunities_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOpportunities`.

**SDK untuk Java 2.x**  
Daftar peluang.  

```
package org.example;

import java.util.ArrayList;
import java.util.List;

import org.example.utils.ReferenceCodesUtils;
import static org.example.utils.Constants.*;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.ListOpportunitiesRequest;
import software.amazon.awssdk.services.partnercentralselling.model.ListOpportunitiesResponse;
import software.amazon.awssdk.services.partnercentralselling.model.OpportunitySummary;

/*
 * Purpose
 * PC-API-18 Getting list of Opportunities
 */

public class ListOpportunititesPaging {
	
	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	List<OpportunitySummary> opportunitySummaries = getResponse();
        ReferenceCodesUtils.formatOutput(opportunitySummaries);
    }
    
    private static List<OpportunitySummary> getResponse() {
    	List<OpportunitySummary> opportunitySummaries = new ArrayList<OpportunitySummary>();
		
		ListOpportunitiesRequest listOpportunityRequest = ListOpportunitiesRequest.builder()
                .catalog(CATALOG_TO_USE)
        		.maxResults(5)
        		.build();
        
    	ListOpportunitiesResponse response = client.listOpportunities(listOpportunityRequest);
    	
    	opportunitySummaries.addAll(response.opportunitySummaries());
    	
    	while (response.nextToken() != null && response.nextToken().length() > 0) {
    		listOpportunityRequest = ListOpportunitiesRequest.builder()
                    .catalog(CATALOG_TO_USE)
            		.maxResults(5)
            		.nextToken(response.nextToken())
            		.build();
    		response = client.listOpportunities(listOpportunityRequest);
    		opportunitySummaries.addAll(response.opportunitySummaries());
    	}
        
    	client.close();
    	
        return opportunitySummaries;
	}
}
```
+  Untuk detail API, lihat [ListOpportunities](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/ListOpportunities)di *Referensi AWS SDK for Java 2.x API*. 

### `ListSolutions`
<a name="partnercentral-selling_ListSolutions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSolutions`.

**SDK untuk Java 2.x**  
Mengambil daftar Solusi Mitra yang didaftarkan mitra di Partner Central.  

```
package org.example;

import java.util.ArrayList;
import java.util.List;

import static org.example.utils.Constants.*;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.ListSolutionsRequest;
import software.amazon.awssdk.services.partnercentralselling.model.ListSolutionsResponse;
import software.amazon.awssdk.services.partnercentralselling.model.SolutionBase;

/*
 * Purpose
 * PC-API-10 Getting list of solutions
 */

public class ListSolutions {

	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	List<SolutionBase> solutionSummaries = getResponse();
        ReferenceCodesUtils.formatOutput(solutionSummaries);
    }
    
    static List<SolutionBase> getResponse() {
		List<SolutionBase> solutionSummaries = new ArrayList<SolutionBase>();

		ListSolutionsRequest listSolutionsRequest = ListSolutionsRequest.builder()
				.catalog(CATALOG_TO_USE)
        		.maxResults(5)
        		.build();
        
    	ListSolutionsResponse response = client.listSolutions(listSolutionsRequest);
        
    	solutionSummaries.addAll(response.solutionSummaries());
    	
        return solutionSummaries;
	}
}
```
+  Untuk detail API, lihat [ListSolutions](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/ListSolutions)di *Referensi AWS SDK for Java 2.x API*. 

### `RejectEngagementInvitation`
<a name="partnercentral-selling_RejectEngagementInvitation_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RejectEngagementInvitation`.

**SDK untuk Java 2.x**  
Menolak EngagementInvitation yang AWS dibagikan.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.RejectEngagementInvitationRequest;
import software.amazon.awssdk.services.partnercentralselling.model.RejectEngagementInvitationResponse;

/*
 * Purpose
 * PC-API-05 AWS Originated(AO) rejection
 */

public class RejectEngagementInvitation {

	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;

		RejectEngagementInvitationResponse response = getResponse(opportunityId);
    	
    	ReferenceCodesUtils.formatOutput(response);
    }

	static RejectEngagementInvitationResponse getResponse(String invitationId) {
		
        RejectEngagementInvitationRequest rejectOpportunityRequest = RejectEngagementInvitationRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.identifier(invitationId)
        		.rejectionReason("Unable to support")
        		.build();

		RejectEngagementInvitationResponse response = client.rejectEngagementInvitation(rejectOpportunityRequest);
        
        return response;
	}
}
```
+  Untuk detail API, lihat [RejectEngagementInvitation](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/RejectEngagementInvitation)di *Referensi AWS SDK for Java 2.x API*. 

### `StartEngagementByAcceptingInvitationTask`
<a name="partnercentral-selling_StartEngagementByAcceptingInvitationTask_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartEngagementByAcceptingInvitationTask`.

**SDK untuk Java 2.x**  
Memulai pertunangan dengan menerima EngagementInvitation.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.StartEngagementByAcceptingInvitationTaskRequest;
import software.amazon.awssdk.services.partnercentralselling.model.StartEngagementByAcceptingInvitationTaskResponse;
import software.amazon.awssdk.services.partnercentralselling.model.GetEngagementInvitationRequest;
import software.amazon.awssdk.services.partnercentralselling.model.GetEngagementInvitationResponse;
import software.amazon.awssdk.services.partnercentralselling.model.InvitationStatus;

/*
Purpose
PC-API-04: Start Engagement By Accepting InvitationTask for AWS Originated(AO) opportunity
*/

public class StartEngagementByAcceptingInvitationTask {
	
	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())            
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
	static String clientToken = "test-a30d161";

    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	
    	StartEngagementByAcceptingInvitationTaskResponse response = getResponse(opportunityId);
    	
    	if ( response == null) {
    		System.out.println("Opportunity is not AWS Originated.");
    	} else {
    		ReferenceCodesUtils.formatOutput(response);
    	}
    }
    
    private static GetEngagementInvitationResponse getInvitation(String invitationId) {
		
    	GetEngagementInvitationRequest getRequest = GetEngagementInvitationRequest.builder()
        		.catalog(Constants.CATALOG_TO_USE)
        		.identifier(invitationId)
        		.build();

		GetEngagementInvitationResponse response = client.getEngagementInvitation(getRequest);
        
        return response;
	}

	static StartEngagementByAcceptingInvitationTaskResponse getResponse(String invitationId) {
		
		if ( getInvitation(invitationId).status().equals(InvitationStatus.PENDING)) {
			StartEngagementByAcceptingInvitationTaskRequest acceptOpportunityRequest = 
					StartEngagementByAcceptingInvitationTaskRequest.builder()
					.catalog(Constants.CATALOG_TO_USE)
	        		.identifier(invitationId)
	        		.clientToken(clientToken)
	        		.build();

			StartEngagementByAcceptingInvitationTaskResponse response = client.startEngagementByAcceptingInvitationTask(acceptOpportunityRequest);
	        return response;
		}
		return null;
	}
}
```
+  Untuk detail API, lihat [StartEngagementByAcceptingInvitationTask](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/StartEngagementByAcceptingInvitationTask)di *Referensi AWS SDK for Java 2.x API*. 

### `StartEngagementFromOpportunityTask`
<a name="partnercentral-selling_StartEngagementFromOpportunityTask_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartEngagementFromOpportunityTask`.

**SDK untuk Java 2.x**  
Memulai proses keterlibatan dari peluang yang ada dengan menerima undangan keterlibatan dan menciptakan peluang yang sesuai dalam sistem mitra.  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.AwsSubmission;
import software.amazon.awssdk.services.partnercentralselling.model.SalesInvolvementType;
import software.amazon.awssdk.services.partnercentralselling.model.StartEngagementFromOpportunityTaskRequest;
import software.amazon.awssdk.services.partnercentralselling.model.StartEngagementFromOpportunityTaskResponse;
import software.amazon.awssdk.services.partnercentralselling.model.Visibility;

/*
 * Purpose
 * PC-API-01 Partner Originated (PO) opp submission(Start Engagement From Opportunity Task for AO Originated Opportunity)
 */

public class StartEngagementFromOpportunityTask {

	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	
    	StartEngagementFromOpportunityTaskResponse response = getResponse(opportunityId);
    	
    	ReferenceCodesUtils.formatOutput(response);
    }

	static StartEngagementFromOpportunityTaskResponse getResponse(String opportunityId) {
		
		StartEngagementFromOpportunityTaskRequest submitOpportunityRequest = StartEngagementFromOpportunityTaskRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.identifier(opportunityId)
        		.clientToken("test-annjqwesdsd99")
        		.awsSubmission(AwsSubmission.builder().involvementType(SalesInvolvementType.CO_SELL).visibility(Visibility.FULL).build())
        		.build();

		StartEngagementFromOpportunityTaskResponse response = client.startEngagementFromOpportunityTask(submitOpportunityRequest);
        
        return response;
	}
}
```
+  Untuk detail API, lihat [StartEngagementFromOpportunityTask](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/StartEngagementFromOpportunityTask)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateOpportunity`
<a name="partnercentral-selling_UpdateOpportunity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateOpportunity`.

**SDK untuk Java 2.x**  
Perbarui peluang.  

```
package org.example;

import java.time.Instant;
import java.util.ArrayList;
import java.util.List;

import static org.example.utils.Constants.*;

import org.example.entity.Root;
import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;
import org.example.utils.StringSerializer;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.Account;
import software.amazon.awssdk.services.partnercentralselling.model.Address;
import software.amazon.awssdk.services.partnercentralselling.model.Contact;
import software.amazon.awssdk.services.partnercentralselling.model.Customer;
import software.amazon.awssdk.services.partnercentralselling.model.ExpectedCustomerSpend;
import software.amazon.awssdk.services.partnercentralselling.model.GetOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.GetOpportunityResponse;
import software.amazon.awssdk.services.partnercentralselling.model.LifeCycle;
import software.amazon.awssdk.services.partnercentralselling.model.Marketing;
import software.amazon.awssdk.services.partnercentralselling.model.NextStepsHistory;
import software.amazon.awssdk.services.partnercentralselling.model.Project;
import software.amazon.awssdk.services.partnercentralselling.model.ReviewStatus;
import software.amazon.awssdk.services.partnercentralselling.model.UpdateOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.UpdateOpportunityResponse;

import com.google.gson.Gson;
import com.google.gson.GsonBuilder;
import com.google.gson.ToNumberPolicy;

/*
 * Purpose
 * PC-API-02/06 Update opportunity when LifeCycle.ReviewStatus is not Submitted or In-Review
 */

public class UpdateOpportunity {
	
	static final Gson GSON = new GsonBuilder()
			.setObjectToNumberStrategy(ToNumberPolicy.LAZILY_PARSED_NUMBER)
			.registerTypeAdapter(String.class, new StringSerializer())
			.create();
	
	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
	static String OPPORTUNITY_ORIGIN = ORIGIN_PARTNER_ORIGINATED;

	public static void main(String[] args) {

		String inputFile = "updateOpportunity.json";
		
		if (args.length > 0)
			inputFile = args[0];
		
		UpdateOpportunityResponse response = updateOpportunity(inputFile);
		
		client.close();
	}
	
	public static GetOpportunityResponse getResponse(String opportunityId) {

        GetOpportunityRequest getOpportunityRequest = GetOpportunityRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.identifier(opportunityId)
        		.build();
        
        GetOpportunityResponse response = client.getOpportunity(getOpportunityRequest);
        System.out.println(opportunityId + ":" + response);
        return response;
	}
	
	public static UpdateOpportunityResponse updateOpportunity(String inputFile) {
		
		String inputString = ReferenceCodesUtils.readInputFileToString(inputFile);

		Root root = GSON.fromJson(inputString, Root.class);
		GetOpportunityResponse response = getResponse(root.identifier);

		if (response != null 
				&& response.lifeCycle() != null
				&& response.lifeCycle().reviewStatus() != null
				&& response.lifeCycle().reviewStatus() != ReviewStatus.SUBMITTED
				&& response.lifeCycle().reviewStatus() != ReviewStatus.IN_REVIEW) {
			
			List<NextStepsHistory> nextStepsHistories = new ArrayList<NextStepsHistory>();
			if ( root.lifeCycle != null && root.lifeCycle.nextStepsHistories != null) {		
				for (org.example.entity.NextStepsHistory nextStepsHistoryJson : root.lifeCycle.nextStepsHistories) {
					NextStepsHistory nextStepsHistory = NextStepsHistory.builder()
							.time(Instant.parse(nextStepsHistoryJson.time))
							.value(nextStepsHistoryJson.value)
			                .build();
					nextStepsHistories.add(nextStepsHistory);
				}
			}
			
			LifeCycle lifeCycle = null;
			if ( root.lifeCycle != null ) {
				lifeCycle = LifeCycle.builder()
					.closedLostReason(root.lifeCycle.closedLostReason)
					.nextSteps(root.lifeCycle.nextSteps)
					.nextStepsHistory(nextStepsHistories)
					.reviewComments(root.lifeCycle.reviewComments)
					.reviewStatus(root.lifeCycle.reviewStatus)
					.reviewStatusReason(root.lifeCycle.reviewStatusReason)
					.stage(root.lifeCycle.stage)
					.targetCloseDate(root.lifeCycle.targetCloseDate)
					.build();
			}
			
			Marketing marketing = null;
			if ( root.marketing != null ) {
				marketing = Marketing.builder()
						.awsFundingUsed(root.marketing.awsFundingUsed)
						.campaignName(root.marketing.campaignName)
						.channels(root.marketing.channels)
						.source(root.marketing.source)
						.useCases(root.marketing.useCases)
						.build();
						
			}

			Address address = null;
			if (root.customer != null && root.customer.account != null && root.customer.account.address != null) {
				address = Address.builder().postalCode(root.customer.account.address.postalCode)
						.stateOrRegion(root.customer.account.address.stateOrRegion)
						.countryCode(root.customer.account.address.countryCode).build();
			}

			Account account = null;
			if (root.customer != null && root.customer.account != null) {
				account = Account.builder().address(address).duns(root.customer.account.duns)
						.industry(root.customer.account.industry).companyName(root.customer.account.companyName)
						.websiteUrl(root.customer.account.websiteUrl).build();
			}

			List<Contact> contacts = new ArrayList<Contact>();
			if ( root.customer != null && root.customer.contacts != null) {		
				for (org.example.entity.Contact jsonContact : root.customer.contacts) {
					Contact contact = Contact.builder()
			                .email(jsonContact.email)
			                .firstName(jsonContact.firstName)
			                .lastName(jsonContact.lastName)
			                .phone(jsonContact.phone)
			                .businessTitle(jsonContact.businessTitle)
			                .build();
					contacts.add(contact);
				}
			}

			Customer customer = Customer.builder().account(account).contacts(contacts).build();

			List<ExpectedCustomerSpend> expectedCustomerSpends = new ArrayList<ExpectedCustomerSpend>();
			if ( root.project != null && root.project.expectedCustomerSpend != null) {
				for (org.example.entity.ExpectedCustomerSpend expectedCustomerSpendJson : root.project.expectedCustomerSpend) {
					ExpectedCustomerSpend expectedCustomerSpend = null;
					expectedCustomerSpend = ExpectedCustomerSpend.builder()
							.amount(expectedCustomerSpendJson.amount)
							.currencyCode(expectedCustomerSpendJson.currencyCode)
							.frequency(expectedCustomerSpendJson.frequency)
							.targetCompany(expectedCustomerSpendJson.targetCompany)
							.build();
					expectedCustomerSpends.add(expectedCustomerSpend);
				}
	        }

			Project project = null;
			if (root.project != null) {
				project = Project.builder().title(root.project.title)
						.customerBusinessProblem(root.project.customerBusinessProblem)
						.customerUseCase(root.project.customerUseCase).deliveryModels(root.project.deliveryModels)
						.expectedCustomerSpend(expectedCustomerSpends)
						.salesActivities(root.project.salesActivities).competitorName(root.project.competitorName)
						.otherSolutionDescription(root.project.otherSolutionDescription).build();
			}

			// Building the Actual CreateOpportunity Request
			UpdateOpportunityRequest updateOpportunityRequest = UpdateOpportunityRequest.builder().catalog(root.catalog)
					.identifier(root.identifier).lastModifiedDate(Instant.parse(root.lastModifiedDate))
					.primaryNeedsFromAwsWithStrings(root.primaryNeedsFromAws).opportunityType(root.opportunityType)
					.lifeCycle(lifeCycle)
					.customer(customer)
					.project(project)
					.partnerOpportunityIdentifier(root.partnerOpportunityIdentifier)
					.marketing(marketing)
					.nationalSecurity(root.nationalSecurity)
					.opportunityType(root.opportunityType)
					.build();

			UpdateOpportunityResponse updateResponse = client.updateOpportunity(updateOpportunityRequest);
			System.out.println("Successfully updated opportunity: " + updateResponse);

			return updateResponse;
		} else {
			System.out.println("Opportunity cannot be updated.");
			return null;
		}
    }
}
```
+  Untuk detail API, lihat [UpdateOpportunity](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/UpdateOpportunity)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Perbarui entitas terkait dari suatu peluang
<a name="partnercentral-selling__UpdateAssociatedEntity_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Putus entitas lama.
+ Mengasosiasikan entitas baru.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di repositori [Skenario](https://github.com/aws-samples/partner-crm-integration-samples/tree/main/partner-central-api-sample-codes/java_preview). 
Perbarui entitas terkait dari suatu peluang  

```
package org.example;

import static org.example.utils.Constants.*;

import org.example.utils.Constants;
import org.example.utils.ReferenceCodesUtils;

import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.partnercentralselling.PartnerCentralSellingClient;
import software.amazon.awssdk.services.partnercentralselling.model.AssociateOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.AssociateOpportunityResponse;
import software.amazon.awssdk.services.partnercentralselling.model.DisassociateOpportunityRequest;
import software.amazon.awssdk.services.partnercentralselling.model.DisassociateOpportunityResponse;

/*
Purpose
PC-API -17 Replacing a solution
*/

public class ReplaceSolution {

	static PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();
	
    public static void main(String[] args) {
    	
    	String opportunityId = args.length > 0 ? args[0] : OPPORTUNITY_ID;
    	
    	String entityType = "Solutions";
    	String originalEntityIdentifier = "S-0000000";
    	String newEntityIdentifier = "S-0011111";
    	
    	disassociateOppornitityResponse(opportunityId, entityType, originalEntityIdentifier );
    	AssociateOpportunityResponse associateOpportunityResponse = associateOpportunityResponse(opportunityId, entityType, newEntityIdentifier );
    	
    	ReferenceCodesUtils.formatOutput(associateOpportunityResponse);
    }

	private static AssociateOpportunityResponse associateOpportunityResponse(String opportunityId, String entityType, String entityIdentifier) {
		
        AssociateOpportunityRequest associateOpportunityRequest = AssociateOpportunityRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.opportunityIdentifier(opportunityId)
        		.relatedEntityType(entityType)
        		.relatedEntityIdentifier(entityIdentifier)
        		.build();
        
        AssociateOpportunityResponse response = client.associateOpportunity(associateOpportunityRequest);
        
        return response;
	}
	
	private static DisassociateOpportunityResponse disassociateOppornitityResponse(String opportunityId, String entityType, String entityIdentifier) {
		PartnerCentralSellingClient client = PartnerCentralSellingClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(DefaultCredentialsProvider.create())
            .httpClient(ApacheHttpClient.builder().build())
            .build();

        DisassociateOpportunityRequest disassociateOpportunityRequest = DisassociateOpportunityRequest.builder()
				.catalog(Constants.CATALOG_TO_USE)
        		.opportunityIdentifier(opportunityId)
        		.relatedEntityType(entityType)
        		.relatedEntityIdentifier(entityIdentifier)
        		.build();
        
        DisassociateOpportunityResponse response = client.disassociateOpportunity(disassociateOpportunityRequest);
        
        return response;
	}
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AssociateOpportunity](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/AssociateOpportunity)
  + [DisassociateOpportunity](https://docs.aws.amazon.com/goto/SdkForJavaV2/partnercentral-selling-2022-07-26/DisassociateOpportunity)

# Amazon Personalisasi contoh menggunakan SDK for Java 2.x
<a name="java_2_personalize_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Personalize. AWS SDK for Java 2.x 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateBatchInferenceJob`
<a name="personalize_CreateBatchInferenceJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBatchInferenceJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
        public static String createPersonalizeBatchInferenceJob(PersonalizeClient personalizeClient,
                        String solutionVersionArn,
                        String jobName,
                        String s3InputDataSourcePath,
                        String s3DataDestinationPath,
                        String roleArn,
                        String explorationWeight,
                        String explorationItemAgeCutOff) {

                long waitInMilliseconds = 60 * 1000;
                String status;
                String batchInferenceJobArn;

                try {

                        // Set up data input and output parameters.
                        S3DataConfig inputSource = S3DataConfig.builder()
                                        .path(s3InputDataSourcePath)
                                        .build();

                        S3DataConfig outputDestination = S3DataConfig.builder()
                                        .path(s3DataDestinationPath)
                                        .build();

                        BatchInferenceJobInput jobInput = BatchInferenceJobInput.builder()
                                        .s3DataSource(inputSource)
                                        .build();

                        BatchInferenceJobOutput jobOutputLocation = BatchInferenceJobOutput.builder()
                                        .s3DataDestination(outputDestination)
                                        .build();

                        // Optional code to build the User-Personalization specific item exploration
                        // config.
                        HashMap<String, String> explorationConfig = new HashMap<>();

                        explorationConfig.put("explorationWeight", explorationWeight);
                        explorationConfig.put("explorationItemAgeCutOff", explorationItemAgeCutOff);

                        BatchInferenceJobConfig jobConfig = BatchInferenceJobConfig.builder()
                                        .itemExplorationConfig(explorationConfig)
                                        .build();

                        // End optional User-Personalization recipe specific code.

                        CreateBatchInferenceJobRequest createBatchInferenceJobRequest = CreateBatchInferenceJobRequest
                                        .builder()
                                        .solutionVersionArn(solutionVersionArn)
                                        .jobInput(jobInput)
                                        .jobOutput(jobOutputLocation)
                                        .jobName(jobName)
                                        .roleArn(roleArn)
                                        .batchInferenceJobConfig(jobConfig) // Optional
                                        .build();

                        batchInferenceJobArn = personalizeClient.createBatchInferenceJob(createBatchInferenceJobRequest)
                                        .batchInferenceJobArn();

                        DescribeBatchInferenceJobRequest describeBatchInferenceJobRequest = DescribeBatchInferenceJobRequest
                                        .builder()
                                        .batchInferenceJobArn(batchInferenceJobArn)
                                        .build();

                        long maxTime = Instant.now().getEpochSecond() + 3 * 60 * 60;
                        while (Instant.now().getEpochSecond() < maxTime) {

                                BatchInferenceJob batchInferenceJob = personalizeClient
                                                .describeBatchInferenceJob(describeBatchInferenceJobRequest)
                                                .batchInferenceJob();

                                status = batchInferenceJob.status();
                                System.out.println("Batch inference job status: " + status);

                                if (status.equals("ACTIVE") || status.equals("CREATE FAILED")) {
                                        break;
                                }
                                try {
                                        Thread.sleep(waitInMilliseconds);
                                } catch (InterruptedException e) {
                                        System.out.println(e.getMessage());
                                }
                        }
                        return batchInferenceJobArn;

                } catch (PersonalizeException e) {
                        System.out.println(e.awsErrorDetails().errorMessage());
                }
                return "";
        }
```
+  Untuk detail API, lihat [CreateBatchInferenceJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateBatchInferenceJob)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateCampaign`
<a name="personalize_CreateCampaign_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCampaign`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createPersonalCompaign(PersonalizeClient personalizeClient, String solutionVersionArn,
            String name) {

        try {
            CreateCampaignRequest createCampaignRequest = CreateCampaignRequest.builder()
                    .minProvisionedTPS(1)
                    .solutionVersionArn(solutionVersionArn)
                    .name(name)
                    .build();

            CreateCampaignResponse campaignResponse = personalizeClient.createCampaign(createCampaignRequest);
            System.out.println("The campaign ARN is " + campaignResponse.campaignArn());
            return campaignResponse.campaignArn();
        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }
```
+  Untuk detail API, lihat [CreateCampaign](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateCampaign)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDataset`
<a name="personalize_CreateDataset_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDataset`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createDataset(PersonalizeClient personalizeClient,
            String datasetName,
            String datasetGroupArn,
            String datasetType,
            String schemaArn) {
        try {
            CreateDatasetRequest request = CreateDatasetRequest.builder()
                    .name(datasetName)
                    .datasetGroupArn(datasetGroupArn)
                    .datasetType(datasetType)
                    .schemaArn(schemaArn)
                    .build();

            String datasetArn = personalizeClient.createDataset(request)
                    .datasetArn();
            System.out.println("Dataset " + datasetName + " created.");
            return datasetArn;

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateDataset](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateDataset)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDatasetExportJob`
<a name="personalize_CreateDatasetExportJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatasetExportJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createDatasetExportJob(PersonalizeClient personalizeClient,
            String jobName,
            String datasetArn,
            IngestionMode ingestionMode,
            String roleArn,
            String s3BucketPath,
            String kmsKeyArn) {

        long waitInMilliseconds = 30 * 1000; // 30 seconds
        String status = null;

        try {

            S3DataConfig exportS3DataConfig = S3DataConfig.builder().path(s3BucketPath).kmsKeyArn(kmsKeyArn).build();
            DatasetExportJobOutput jobOutput = DatasetExportJobOutput.builder().s3DataDestination(exportS3DataConfig)
                    .build();

            CreateDatasetExportJobRequest createRequest = CreateDatasetExportJobRequest.builder()
                    .jobName(jobName)
                    .datasetArn(datasetArn)
                    .ingestionMode(ingestionMode)
                    .jobOutput(jobOutput)
                    .roleArn(roleArn)
                    .build();

            String datasetExportJobArn = personalizeClient.createDatasetExportJob(createRequest).datasetExportJobArn();

            DescribeDatasetExportJobRequest describeDatasetExportJobRequest = DescribeDatasetExportJobRequest.builder()
                    .datasetExportJobArn(datasetExportJobArn)
                    .build();

            long maxTime = Instant.now().getEpochSecond() + 3 * 60 * 60;

            while (Instant.now().getEpochSecond() < maxTime) {

                DatasetExportJob datasetExportJob = personalizeClient
                        .describeDatasetExportJob(describeDatasetExportJobRequest)
                        .datasetExportJob();

                status = datasetExportJob.status();
                System.out.println("Export job status: " + status);

                if (status.equals("ACTIVE") || status.equals("CREATE FAILED")) {
                    return status;
                }
                try {
                    Thread.sleep(waitInMilliseconds);
                } catch (InterruptedException e) {
                    System.out.println(e.getMessage());
                }
            }
        } catch (PersonalizeException e) {
            System.out.println(e.awsErrorDetails().errorMessage());
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateDatasetExportJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateDatasetExportJob)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDatasetGroup`
<a name="personalize_CreateDatasetGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatasetGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createDatasetGroup(PersonalizeClient personalizeClient, String datasetGroupName) {

        try {
            CreateDatasetGroupRequest createDatasetGroupRequest = CreateDatasetGroupRequest.builder()
                    .name(datasetGroupName)
                    .build();
            return personalizeClient.createDatasetGroup(createDatasetGroupRequest).datasetGroupArn();
        } catch (PersonalizeException e) {
            System.out.println(e.awsErrorDetails().errorMessage());
        }
        return "";
    }
```
Buat grup dataset domain.  

```
    public static String createDomainDatasetGroup(PersonalizeClient personalizeClient,
            String datasetGroupName,
            String domain) {

        try {
            CreateDatasetGroupRequest createDatasetGroupRequest = CreateDatasetGroupRequest.builder()
                    .name(datasetGroupName)
                    .domain(domain)
                    .build();
            return personalizeClient.createDatasetGroup(createDatasetGroupRequest).datasetGroupArn();
        } catch (PersonalizeException e) {
            System.out.println(e.awsErrorDetails().errorMessage());
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateDatasetGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateDatasetGroup)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDatasetImportJob`
<a name="personalize_CreateDatasetImportJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatasetImportJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createPersonalizeDatasetImportJob(PersonalizeClient personalizeClient,
            String jobName,
            String datasetArn,
            String s3BucketPath,
            String roleArn) {

        long waitInMilliseconds = 60 * 1000;
        String status;
        String datasetImportJobArn;

        try {
            DataSource importDataSource = DataSource.builder()
                    .dataLocation(s3BucketPath)
                    .build();

            CreateDatasetImportJobRequest createDatasetImportJobRequest = CreateDatasetImportJobRequest.builder()
                    .datasetArn(datasetArn)
                    .dataSource(importDataSource)
                    .jobName(jobName)
                    .roleArn(roleArn)
                    .build();

            datasetImportJobArn = personalizeClient.createDatasetImportJob(createDatasetImportJobRequest)
                    .datasetImportJobArn();
            DescribeDatasetImportJobRequest describeDatasetImportJobRequest = DescribeDatasetImportJobRequest.builder()
                    .datasetImportJobArn(datasetImportJobArn)
                    .build();

            long maxTime = Instant.now().getEpochSecond() + 3 * 60 * 60;

            while (Instant.now().getEpochSecond() < maxTime) {

                DatasetImportJob datasetImportJob = personalizeClient
                        .describeDatasetImportJob(describeDatasetImportJobRequest)
                        .datasetImportJob();

                status = datasetImportJob.status();
                System.out.println("Dataset import job status: " + status);

                if (status.equals("ACTIVE") || status.equals("CREATE FAILED")) {
                    break;
                }
                try {
                    Thread.sleep(waitInMilliseconds);
                } catch (InterruptedException e) {
                    System.out.println(e.getMessage());
                }
            }
            return datasetImportJobArn;

        } catch (PersonalizeException e) {
            System.out.println(e.awsErrorDetails().errorMessage());
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateDatasetImportJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateDatasetImportJob)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateEventTracker`
<a name="personalize_CreateEventTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEventTracker`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createEventTracker(PersonalizeClient personalizeClient, String eventTrackerName,
            String datasetGroupArn) {

        String eventTrackerId = "";
        String eventTrackerArn;
        long maxTime = 3 * 60 * 60; // 3 hours
        long waitInMilliseconds = 20 * 1000; // 20 seconds
        String status;

        try {

            CreateEventTrackerRequest createEventTrackerRequest = CreateEventTrackerRequest.builder()
                    .name(eventTrackerName)
                    .datasetGroupArn(datasetGroupArn)
                    .build();

            CreateEventTrackerResponse createEventTrackerResponse = personalizeClient
                    .createEventTracker(createEventTrackerRequest);

            eventTrackerArn = createEventTrackerResponse.eventTrackerArn();
            eventTrackerId = createEventTrackerResponse.trackingId();
            System.out.println("Event tracker ARN: " + eventTrackerArn);
            System.out.println("Event tracker ID: " + eventTrackerId);

            maxTime = Instant.now().getEpochSecond() + maxTime;

            DescribeEventTrackerRequest describeRequest = DescribeEventTrackerRequest.builder()
                    .eventTrackerArn(eventTrackerArn)
                    .build();

            while (Instant.now().getEpochSecond() < maxTime) {

                status = personalizeClient.describeEventTracker(describeRequest).eventTracker().status();
                System.out.println("EventTracker status: " + status);

                if (status.equals("ACTIVE") || status.equals("CREATE FAILED")) {
                    break;
                }
                try {
                    Thread.sleep(waitInMilliseconds);
                } catch (InterruptedException e) {
                    System.out.println(e.getMessage());
                }
            }
            return eventTrackerId;
        } catch (PersonalizeException e) {
            System.out.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return eventTrackerId;
    }
```
+  Untuk detail API, lihat [CreateEventTracker](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateEventTracker)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateFilter`
<a name="personalize_CreateFilter_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFilter`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createFilter(PersonalizeClient personalizeClient,
            String filterName,
            String datasetGroupArn,
            String filterExpression) {
        try {
            CreateFilterRequest request = CreateFilterRequest.builder()
                    .name(filterName)
                    .datasetGroupArn(datasetGroupArn)
                    .filterExpression(filterExpression)
                    .build();

            return personalizeClient.createFilter(request).filterArn();
        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateFilter](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateFilter)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateRecommender`
<a name="personalize_CreateRecommender_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRecommender`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createRecommender(PersonalizeClient personalizeClient,
            String name,
            String datasetGroupArn,
            String recipeArn) {

        long maxTime = 0;
        long waitInMilliseconds = 30 * 1000; // 30 seconds
        String recommenderStatus = "";

        try {
            CreateRecommenderRequest createRecommenderRequest = CreateRecommenderRequest.builder()
                    .datasetGroupArn(datasetGroupArn)
                    .name(name)
                    .recipeArn(recipeArn)
                    .build();

            CreateRecommenderResponse recommenderResponse = personalizeClient
                    .createRecommender(createRecommenderRequest);
            String recommenderArn = recommenderResponse.recommenderArn();
            System.out.println("The recommender ARN is " + recommenderArn);

            DescribeRecommenderRequest describeRecommenderRequest = DescribeRecommenderRequest.builder()
                    .recommenderArn(recommenderArn)
                    .build();

            maxTime = Instant.now().getEpochSecond() + 3 * 60 * 60;

            while (Instant.now().getEpochSecond() < maxTime) {

                recommenderStatus = personalizeClient.describeRecommender(describeRecommenderRequest).recommender()
                        .status();
                System.out.println("Recommender status: " + recommenderStatus);

                if (recommenderStatus.equals("ACTIVE") || recommenderStatus.equals("CREATE FAILED")) {
                    break;
                }
                try {
                    Thread.sleep(waitInMilliseconds);
                } catch (InterruptedException e) {
                    System.out.println(e.getMessage());
                }
            }
            return recommenderArn;

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateRecommender](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateRecommender)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateSchema`
<a name="personalize_CreateSchema_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSchema`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createSchema(PersonalizeClient personalizeClient, String schemaName, String filePath) {

        String schema = null;
        try {
            schema = new String(Files.readAllBytes(Paths.get(filePath)));
        } catch (IOException e) {
            System.out.println(e.getMessage());
        }

        try {
            CreateSchemaRequest createSchemaRequest = CreateSchemaRequest.builder()
                    .name(schemaName)
                    .schema(schema)
                    .build();

            String schemaArn = personalizeClient.createSchema(createSchemaRequest).schemaArn();

            System.out.println("Schema arn: " + schemaArn);

            return schemaArn;

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
Buat skema dengan domain.  

```
    public static String createDomainSchema(PersonalizeClient personalizeClient, String schemaName, String domain,
            String filePath) {

        String schema = null;
        try {
            schema = new String(Files.readAllBytes(Paths.get(filePath)));
        } catch (IOException e) {
            System.out.println(e.getMessage());
        }

        try {
            CreateSchemaRequest createSchemaRequest = CreateSchemaRequest.builder()
                    .name(schemaName)
                    .domain(domain)
                    .schema(schema)
                    .build();

            String schemaArn = personalizeClient.createSchema(createSchemaRequest).schemaArn();

            System.out.println("Schema arn: " + schemaArn);

            return schemaArn;

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateSchema](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateSchema)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateSolution`
<a name="personalize_CreateSolution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSolution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createPersonalizeSolution(PersonalizeClient personalizeClient,
            String datasetGroupArn,
            String solutionName,
            String recipeArn) {

        try {
            CreateSolutionRequest solutionRequest = CreateSolutionRequest.builder()
                    .name(solutionName)
                    .datasetGroupArn(datasetGroupArn)
                    .recipeArn(recipeArn)
                    .build();

            CreateSolutionResponse solutionResponse = personalizeClient.createSolution(solutionRequest);
            return solutionResponse.solutionArn();

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateSolution](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateSolution)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateSolutionVersion`
<a name="personalize_CreateSolutionVersion_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSolutionVersion`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static String createPersonalizeSolutionVersion(PersonalizeClient personalizeClient, String solutionArn) {
        long maxTime = 0;
        long waitInMilliseconds = 30 * 1000; // 30 seconds
        String solutionStatus = "";
        String solutionVersionStatus = "";
        String solutionVersionArn = "";

        try {
            DescribeSolutionRequest describeSolutionRequest = DescribeSolutionRequest.builder()
                    .solutionArn(solutionArn)
                    .build();

            maxTime = Instant.now().getEpochSecond() + 3 * 60 * 60;

            // Wait until solution is active.
            while (Instant.now().getEpochSecond() < maxTime) {

                solutionStatus = personalizeClient.describeSolution(describeSolutionRequest).solution().status();
                System.out.println("Solution status: " + solutionStatus);

                if (solutionStatus.equals("ACTIVE") || solutionStatus.equals("CREATE FAILED")) {
                    break;
                }
                try {
                    Thread.sleep(waitInMilliseconds);
                } catch (InterruptedException e) {
                    System.out.println(e.getMessage());
                }
            }

            if (solutionStatus.equals("ACTIVE")) {

                CreateSolutionVersionRequest createSolutionVersionRequest = CreateSolutionVersionRequest.builder()
                        .solutionArn(solutionArn)
                        .build();

                CreateSolutionVersionResponse createSolutionVersionResponse = personalizeClient
                        .createSolutionVersion(createSolutionVersionRequest);
                solutionVersionArn = createSolutionVersionResponse.solutionVersionArn();

                System.out.println("Solution version ARN: " + solutionVersionArn);

                DescribeSolutionVersionRequest describeSolutionVersionRequest = DescribeSolutionVersionRequest.builder()
                        .solutionVersionArn(solutionVersionArn)
                        .build();

                while (Instant.now().getEpochSecond() < maxTime) {

                    solutionVersionStatus = personalizeClient.describeSolutionVersion(describeSolutionVersionRequest)
                            .solutionVersion().status();
                    System.out.println("Solution version status: " + solutionVersionStatus);

                    if (solutionVersionStatus.equals("ACTIVE") || solutionVersionStatus.equals("CREATE FAILED")) {
                        break;
                    }
                    try {
                        Thread.sleep(waitInMilliseconds);
                    } catch (InterruptedException e) {
                        System.out.println(e.getMessage());
                    }
                }
                return solutionVersionArn;
            }
        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateSolutionVersion](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/CreateSolutionVersion)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteCampaign`
<a name="personalize_DeleteCampaign_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCampaign`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void deleteSpecificCampaign(PersonalizeClient personalizeClient, String campaignArn) {
        try {
            DeleteCampaignRequest campaignRequest = DeleteCampaignRequest.builder()
                    .campaignArn(campaignArn)
                    .build();

            personalizeClient.deleteCampaign(campaignRequest);
            System.out.println("Delete request sent successfully.");
        } catch (PersonalizeException e) {
            System.err.println("Error deleting campaign: " + e.awsErrorDetails().errorMessage());
            throw new RuntimeException(e);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteCampaign](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/DeleteCampaign)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteEventTracker`
<a name="personalize_DeleteEventTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEventTracker`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void deleteEventTracker(PersonalizeClient personalizeClient, String eventTrackerArn) {
        try {
            DeleteEventTrackerRequest deleteEventTrackerRequest = DeleteEventTrackerRequest.builder()
                    .eventTrackerArn(eventTrackerArn)
                    .build();

            int status = personalizeClient.deleteEventTracker(deleteEventTrackerRequest).sdkHttpResponse().statusCode();

            System.out.println("Status code:" + status);

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteEventTracker](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/DeleteEventTracker)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteSolution`
<a name="personalize_DeleteSolution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSolution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void deleteGivenSolution(PersonalizeClient personalizeClient, String solutionArn) {

        try {
            DeleteSolutionRequest solutionRequest = DeleteSolutionRequest.builder()
                    .solutionArn(solutionArn)
                    .build();

            personalizeClient.deleteSolution(solutionRequest);
            System.out.println("Done");

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteSolution](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/DeleteSolution)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeCampaign`
<a name="personalize_DescribeCampaign_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCampaign`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void describeSpecificCampaign(PersonalizeClient personalizeClient, String campaignArn) {

        try {
            DescribeCampaignRequest campaignRequest = DescribeCampaignRequest.builder()
                    .campaignArn(campaignArn)
                    .build();

            DescribeCampaignResponse campaignResponse = personalizeClient.describeCampaign(campaignRequest);
            Campaign myCampaign = campaignResponse.campaign();
            System.out.println("The Campaign name is " + myCampaign.name());
            System.out.println("The Campaign status is " + myCampaign.status());

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeCampaign](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/DescribeCampaign)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeRecipe`
<a name="personalize_DescribeRecipe_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRecipe`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void describeSpecificRecipe(PersonalizeClient personalizeClient, String recipeArn) {

        try {
            DescribeRecipeRequest recipeRequest = DescribeRecipeRequest.builder()
                    .recipeArn(recipeArn)
                    .build();

            DescribeRecipeResponse recipeResponse = personalizeClient.describeRecipe(recipeRequest);
            System.out.println("The recipe name is " + recipeResponse.recipe().name());

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeRecipe](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/DescribeRecipe)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeSolution`
<a name="personalize_DescribeSolution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSolution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void describeSpecificSolution(PersonalizeClient personalizeClient, String solutionArn) {

        try {
            DescribeSolutionRequest solutionRequest = DescribeSolutionRequest.builder()
                    .solutionArn(solutionArn)
                    .build();

            DescribeSolutionResponse response = personalizeClient.describeSolution(solutionRequest);
            System.out.println("The Solution name is " + response.solution().name());

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeSolution](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/DescribeSolution)di *Referensi AWS SDK for Java 2.x API*. 

### `ListCampaigns`
<a name="personalize_ListCampaigns_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCampaigns`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void listAllCampaigns(PersonalizeClient personalizeClient, String solutionArn) {

        try {
            ListCampaignsRequest campaignsRequest = ListCampaignsRequest.builder()
                    .maxResults(10)
                    .solutionArn(solutionArn)
                    .build();

            ListCampaignsResponse response = personalizeClient.listCampaigns(campaignsRequest);
            List<CampaignSummary> campaigns = response.campaigns();
            for (CampaignSummary campaign : campaigns) {
                System.out.println("Campaign name is : " + campaign.name());
                System.out.println("Campaign ARN is : " + campaign.campaignArn());
            }

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListCampaigns](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/ListCampaigns)di *Referensi AWS SDK for Java 2.x API*. 

### `ListDatasetGroups`
<a name="personalize_ListDatasetGroups_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatasetGroups`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void listDSGroups(PersonalizeClient personalizeClient) {

        try {
            ListDatasetGroupsRequest groupsRequest = ListDatasetGroupsRequest.builder()
                    .maxResults(15)
                    .build();

            ListDatasetGroupsResponse groupsResponse = personalizeClient.listDatasetGroups(groupsRequest);
            List<DatasetGroupSummary> groups = groupsResponse.datasetGroups();
            for (DatasetGroupSummary group : groups) {
                System.out.println("The DataSet name is : " + group.name());
                System.out.println("The DataSet ARN is : " + group.datasetGroupArn());
            }

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListDatasetGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/ListDatasetGroups)di *Referensi AWS SDK for Java 2.x API*. 

### `ListRecipes`
<a name="personalize_ListRecipes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRecipes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void listAllRecipes(PersonalizeClient personalizeClient) {

        try {
            ListRecipesRequest recipesRequest = ListRecipesRequest.builder()
                    .maxResults(15)
                    .build();

            ListRecipesResponse response = personalizeClient.listRecipes(recipesRequest);
            List<RecipeSummary> recipes = response.recipes();
            for (RecipeSummary recipe : recipes) {
                System.out.println("The recipe ARN is: " + recipe.recipeArn());
                System.out.println("The recipe name is: " + recipe.name());
            }

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListRecipes](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/ListRecipes)di *Referensi AWS SDK for Java 2.x API*. 

### `ListSolutions`
<a name="personalize_ListSolutions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSolutions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static void listAllSolutions(PersonalizeClient personalizeClient, String datasetGroupArn) {

        try {
            ListSolutionsRequest solutionsRequest = ListSolutionsRequest.builder()
                    .maxResults(10)
                    .datasetGroupArn(datasetGroupArn)
                    .build();

            ListSolutionsResponse response = personalizeClient.listSolutions(solutionsRequest);
            List<SolutionSummary> solutions = response.solutions();
            for (SolutionSummary solution : solutions) {
                System.out.println("The solution ARN is: " + solution.solutionArn());
                System.out.println("The solution name is: " + solution.name());
            }

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListSolutions](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/ListSolutions)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateCampaign`
<a name="personalize_UpdateCampaign_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateCampaign`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/personalize#code-examples). 

```
    public static String updateCampaign(PersonalizeClient personalizeClient,
            String campaignArn,
            String solutionVersionArn,
            Integer minProvisionedTPS) {

        try {
            // build the updateCampaignRequest
            UpdateCampaignRequest updateCampaignRequest = UpdateCampaignRequest.builder()
                    .campaignArn(campaignArn)
                    .solutionVersionArn(solutionVersionArn)
                    .minProvisionedTPS(minProvisionedTPS)
                    .build();

            // update the campaign
            personalizeClient.updateCampaign(updateCampaignRequest);

            DescribeCampaignRequest campaignRequest = DescribeCampaignRequest.builder()
                    .campaignArn(campaignArn)
                    .build();

            DescribeCampaignResponse campaignResponse = personalizeClient.describeCampaign(campaignRequest);
            Campaign updatedCampaign = campaignResponse.campaign();

            System.out.println("The Campaign status is " + updatedCampaign.status());
            return updatedCampaign.status();

        } catch (PersonalizeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [UpdateCampaign](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-2018-05-22/UpdateCampaign)di *Referensi AWS SDK for Java 2.x API*. 

# Amazon Personalize Events contoh menggunakan SDK for Java 2.x
<a name="java_2_personalize-events_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK for Java 2.x dengan menggunakan Peristiwa Personalisasi Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutEvents`
<a name="personalize-events_PutEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
        public static int putItems(PersonalizeEventsClient personalizeEventsClient,
                        String datasetArn,
                        String item1Id,
                        String item1PropertyName,
                        String item1PropertyValue,
                        String item2Id,
                        String item2PropertyName,
                        String item2PropertyValue) {

                int responseCode = 0;
                ArrayList<Item> items = new ArrayList<>();

                try {
                        Item item1 = Item.builder()
                                        .itemId(item1Id)
                                        .properties(String.format("{\"%1$s\": \"%2$s\"}",
                                                        item1PropertyName, item1PropertyValue))
                                        .build();

                        items.add(item1);

                        Item item2 = Item.builder()
                                        .itemId(item2Id)
                                        .properties(String.format("{\"%1$s\": \"%2$s\"}",
                                                        item2PropertyName, item2PropertyValue))
                                        .build();

                        items.add(item2);

                        PutItemsRequest putItemsRequest = PutItemsRequest.builder()
                                        .datasetArn(datasetArn)
                                        .items(items)
                                        .build();

                        responseCode = personalizeEventsClient.putItems(putItemsRequest).sdkHttpResponse().statusCode();
                        System.out.println("Response code: " + responseCode);
                        return responseCode;

                } catch (PersonalizeEventsException e) {
                        System.out.println(e.awsErrorDetails().errorMessage());
                }
                return responseCode;
        }
```
+  Untuk detail API, lihat [PutEvents](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-events-2018-03-22/PutEvents)di *Referensi AWS SDK for Java 2.x API*. 

### `PutUsers`
<a name="personalize-events_PutUsers_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutUsers`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
        public static int putUsers(PersonalizeEventsClient personalizeEventsClient,
                        String datasetArn,
                        String user1Id,
                        String user1PropertyName,
                        String user1PropertyValue,
                        String user2Id,
                        String user2PropertyName,
                        String user2PropertyValue) {

                int responseCode = 0;
                ArrayList<User> users = new ArrayList<>();

                try {
                        User user1 = User.builder()
                                        .userId(user1Id)
                                        .properties(String.format("{\"%1$s\": \"%2$s\"}",
                                                        user1PropertyName, user1PropertyValue))
                                        .build();

                        users.add(user1);

                        User user2 = User.builder()
                                        .userId(user2Id)
                                        .properties(String.format("{\"%1$s\": \"%2$s\"}",
                                                        user2PropertyName, user2PropertyValue))
                                        .build();

                        users.add(user2);

                        PutUsersRequest putUsersRequest = PutUsersRequest.builder()
                                        .datasetArn(datasetArn)
                                        .users(users)
                                        .build();

                        responseCode = personalizeEventsClient.putUsers(putUsersRequest).sdkHttpResponse().statusCode();
                        System.out.println("Response code: " + responseCode);
                        return responseCode;

                } catch (PersonalizeEventsException e) {
                        System.out.println(e.awsErrorDetails().errorMessage());
                }
                return responseCode;
        }
```
+  Untuk detail API, lihat [PutUsers](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-events-2018-03-22/PutUsers)di *Referensi AWS SDK for Java 2.x API*. 

# Amazon Personalisasi contoh Runtime menggunakan SDK for Java 2.x
<a name="java_2_personalize-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum menggunakan Runtime AWS SDK for Java 2.x with Amazon Personalize.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetPersonalizedRanking`
<a name="personalize-runtime_GetPersonalizedRanking_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPersonalizedRanking`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 

```
    public static List<PredictedItem> getRankedRecs(PersonalizeRuntimeClient personalizeRuntimeClient,
            String campaignArn,
            String userId,
            ArrayList<String> items) {

        try {
            GetPersonalizedRankingRequest rankingRecommendationsRequest = GetPersonalizedRankingRequest.builder()
                    .campaignArn(campaignArn)
                    .userId(userId)
                    .inputList(items)
                    .build();

            GetPersonalizedRankingResponse recommendationsResponse = personalizeRuntimeClient
                    .getPersonalizedRanking(rankingRecommendationsRequest);
            List<PredictedItem> rankedItems = recommendationsResponse.personalizedRanking();
            int rank = 1;
            for (PredictedItem item : rankedItems) {
                System.out.println("Item ranked at position " + rank + " details");
                System.out.println("Item Id is : " + item.itemId());
                System.out.println("Item score is : " + item.score());
                System.out.println("---------------------------------------------");
                rank++;
            }
            return rankedItems;
        } catch (PersonalizeRuntimeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }
```
+  Untuk detail API, lihat [GetPersonalizedRanking](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-runtime-2018-05-22/GetPersonalizedRanking)di *Referensi AWS SDK for Java 2.x API*. 

### `GetRecommendations`
<a name="personalize-runtime_GetRecommendations_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRecommendations`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/personalize#code-examples). 
Dapatkan daftar item yang direkomendasikan.  

```
    public static void getRecs(PersonalizeRuntimeClient personalizeRuntimeClient, String campaignArn, String userId) {

        try {
            GetRecommendationsRequest recommendationsRequest = GetRecommendationsRequest.builder()
                    .campaignArn(campaignArn)
                    .numResults(20)
                    .userId(userId)
                    .build();

            GetRecommendationsResponse recommendationsResponse = personalizeRuntimeClient
                    .getRecommendations(recommendationsRequest);
            List<PredictedItem> items = recommendationsResponse.itemList();
            for (PredictedItem item : items) {
                System.out.println("Item Id is : " + item.itemId());
                System.out.println("Item score is : " + item.score());
            }

        } catch (AwsServiceException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
Dapatkan daftar item yang direkomendasikan dari pemberi rekomendasi yang dibuat dalam grup kumpulan data domain.  

```
    public static void getRecs(PersonalizeRuntimeClient personalizeRuntimeClient, String recommenderArn,
            String userId) {

        try {
            GetRecommendationsRequest recommendationsRequest = GetRecommendationsRequest.builder()
                    .recommenderArn(recommenderArn)
                    .numResults(20)
                    .userId(userId)
                    .build();

            GetRecommendationsResponse recommendationsResponse = personalizeRuntimeClient
                    .getRecommendations(recommendationsRequest);
            List<PredictedItem> items = recommendationsResponse.itemList();

            for (PredictedItem item : items) {
                System.out.println("Item Id is : " + item.itemId());
                System.out.println("Item score is : " + item.score());
            }
        } catch (AwsServiceException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
Gunakan filter saat meminta rekomendasi.  

```
    public static void getFilteredRecs(PersonalizeRuntimeClient personalizeRuntimeClient,
            String campaignArn,
            String userId,
            String filterArn,
            String parameter1Name,
            String parameter1Value1,
            String parameter1Value2,
            String parameter2Name,
            String parameter2Value) {

        try {

            Map<String, String> filterValues = new HashMap<>();

            filterValues.put(parameter1Name, String.format("\"%1$s\",\"%2$s\"",
                    parameter1Value1, parameter1Value2));
            filterValues.put(parameter2Name, String.format("\"%1$s\"",
                    parameter2Value));

            GetRecommendationsRequest recommendationsRequest = GetRecommendationsRequest.builder()
                    .campaignArn(campaignArn)
                    .numResults(20)
                    .userId(userId)
                    .filterArn(filterArn)
                    .filterValues(filterValues)
                    .build();

            GetRecommendationsResponse recommendationsResponse = personalizeRuntimeClient
                    .getRecommendations(recommendationsRequest);
            List<PredictedItem> items = recommendationsResponse.itemList();

            for (PredictedItem item : items) {
                System.out.println("Item Id is : " + item.itemId());
                System.out.println("Item score is : " + item.score());
            }
        } catch (PersonalizeRuntimeException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [GetRecommendations](https://docs.aws.amazon.com/goto/SdkForJavaV2/personalize-runtime-2018-05-22/GetRecommendations)di *Referensi AWS SDK for Java 2.x API*. 

# Amazon Pinpoint contoh menggunakan SDK for Java 2.x
<a name="java_2_pinpoint_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x dengan Amazon Pinpoint.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateApp`
<a name="pinpoint_CreateApp_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateApp`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.CreateAppRequest;
import software.amazon.awssdk.services.pinpoint.model.CreateAppResponse;
import software.amazon.awssdk.services.pinpoint.model.CreateApplicationRequest;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateApp {
    public static void main(String[] args) {
        final String usage = """

                 Usage:  <appName>

                 Where:
                  appName - The name of the application to create.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }
        String appName = args[0];
        System.out.println("Creating an application with name: " + appName);

        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String appID = createApplication(pinpoint, appName);
        System.out.println("App ID is: " + appID);
        pinpoint.close();
    }

    public static String createApplication(PinpointClient pinpoint, String appName) {
        try {
            CreateApplicationRequest appRequest = CreateApplicationRequest.builder()
                    .name(appName)
                    .build();

            CreateAppRequest request = CreateAppRequest.builder()
                    .createApplicationRequest(appRequest)
                    .build();

            CreateAppResponse result = pinpoint.createApp(request);
            return result.applicationResponse().id();

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateApp](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/CreateApp)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateCampaign`
<a name="pinpoint_CreateCampaign_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCampaign`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 
Buat kampanye.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.CampaignResponse;
import software.amazon.awssdk.services.pinpoint.model.Message;
import software.amazon.awssdk.services.pinpoint.model.Schedule;
import software.amazon.awssdk.services.pinpoint.model.Action;
import software.amazon.awssdk.services.pinpoint.model.MessageConfiguration;
import software.amazon.awssdk.services.pinpoint.model.WriteCampaignRequest;
import software.amazon.awssdk.services.pinpoint.model.CreateCampaignResponse;
import software.amazon.awssdk.services.pinpoint.model.CreateCampaignRequest;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateCampaign {
    public static void main(String[] args) {

        final String usage = """

                Usage:   <appId> <segmentId>

                Where:
                  appId - The ID of the application to create the campaign in.
                  segmentId - The ID of the segment to create the campaign from.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        String segmentId = args[1];
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        createPinCampaign(pinpoint, appId, segmentId);
        pinpoint.close();
    }

    public static void createPinCampaign(PinpointClient pinpoint, String appId, String segmentId) {
        CampaignResponse result = createCampaign(pinpoint, appId, segmentId);
        System.out.println("Campaign " + result.name() + " created.");
        System.out.println(result.description());
    }

    public static CampaignResponse createCampaign(PinpointClient client, String appID, String segmentID) {

        try {
            Schedule schedule = Schedule.builder()
                    .startTime("IMMEDIATE")
                    .build();

            Message defaultMessage = Message.builder()
                    .action(Action.OPEN_APP)
                    .body("My message body.")
                    .title("My message title.")
                    .build();

            MessageConfiguration messageConfiguration = MessageConfiguration.builder()
                    .defaultMessage(defaultMessage)
                    .build();

            WriteCampaignRequest request = WriteCampaignRequest.builder()
                    .description("My description")
                    .schedule(schedule)
                    .name("MyCampaign")
                    .segmentId(segmentID)
                    .messageConfiguration(messageConfiguration)
                    .build();

            CreateCampaignResponse result = client.createCampaign(CreateCampaignRequest.builder()
                    .applicationId(appID)
                    .writeCampaignRequest(request).build());

            System.out.println("Campaign ID: " + result.campaignResponse().id());
            return result.campaignResponse();

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return null;
    }
}
```
+  Untuk detail API, lihat [CreateCampaign](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/CreateCampaign)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateExportJob`
<a name="pinpoint_CreateExportJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateExportJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 
Ekspor titik akhir.  

```
import software.amazon.awssdk.core.ResponseBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.ExportJobRequest;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import software.amazon.awssdk.services.pinpoint.model.CreateExportJobRequest;
import software.amazon.awssdk.services.pinpoint.model.CreateExportJobResponse;
import software.amazon.awssdk.services.pinpoint.model.GetExportJobResponse;
import software.amazon.awssdk.services.pinpoint.model.GetExportJobRequest;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetObjectRequest;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Request;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Response;
import software.amazon.awssdk.services.s3.model.S3Object;
import software.amazon.awssdk.services.s3.model.GetObjectResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;
import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Date;
import java.util.List;
import java.util.concurrent.TimeUnit;
import java.util.stream.Collectors;

/**
 * To run this code example, you need to create an AWS Identity and Access
 * Management (IAM) role with the correct policy as described in this
 * documentation:
 * https://docs.aws.amazon.com/pinpoint/latest/developerguide/audience-data-export.html
 *
 * Also, set up your development environment, including your credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class ExportEndpoints {
    public static void main(String[] args) {
        final String usage = """

                This program performs the following steps:

                1. Exports the endpoints to an Amazon S3 bucket.
                2. Downloads the exported endpoints files from Amazon S3.
                3. Parses the endpoints files to obtain the endpoint IDs and prints them.
                Usage: ExportEndpoints <applicationId> <s3BucketName> <iamExportRoleArn> <path>

                Where:
                  applicationId - The ID of the Amazon Pinpoint application that has the endpoint.
                  s3BucketName - The name of the Amazon S3 bucket to export the JSON file to.\s
                  iamExportRoleArn - The ARN of an IAM role that grants Amazon Pinpoint write permissions to the S3 bucket.  path - The path where the files downloaded from the Amazon S3 bucket are written (for example, C:/AWS/).
                """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String applicationId = args[0];
        String s3BucketName = args[1];
        String iamExportRoleArn = args[2];
        String path = args[3];
        System.out.println("Deleting an application with ID: " + applicationId);

        Region region = Region.US_EAST_1;
        PinpointClient pinpoint = PinpointClient.builder()
                .region(region)
                .build();

        S3Client s3Client = S3Client.builder()
                .region(region)
                .build();

        exportAllEndpoints(pinpoint, s3Client, applicationId, s3BucketName, path, iamExportRoleArn);
        pinpoint.close();
        s3Client.close();
    }

    public static void exportAllEndpoints(PinpointClient pinpoint,
            S3Client s3Client,
            String applicationId,
            String s3BucketName,
            String path,
            String iamExportRoleArn) {

        try {
            List<String> objectKeys = exportEndpointsToS3(pinpoint, s3Client, s3BucketName, iamExportRoleArn,
                    applicationId);
            List<String> endpointFileKeys = objectKeys.stream().filter(o -> o.endsWith(".gz"))
                    .collect(Collectors.toList());
            downloadFromS3(s3Client, path, s3BucketName, endpointFileKeys);

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static List<String> exportEndpointsToS3(PinpointClient pinpoint, S3Client s3Client, String s3BucketName,
            String iamExportRoleArn, String applicationId) {

        SimpleDateFormat dateFormat = new SimpleDateFormat("yyyy-MM-dd-HH_mm:ss.SSS_z");
        String endpointsKeyPrefix = "exports/" + applicationId + "_" + dateFormat.format(new Date());
        String s3UrlPrefix = "s3://" + s3BucketName + "/" + endpointsKeyPrefix + "/";
        List<String> objectKeys = new ArrayList<>();
        String key;

        try {
            // Defines the export job that Amazon Pinpoint runs.
            ExportJobRequest jobRequest = ExportJobRequest.builder()
                    .roleArn(iamExportRoleArn)
                    .s3UrlPrefix(s3UrlPrefix)
                    .build();

            CreateExportJobRequest exportJobRequest = CreateExportJobRequest.builder()
                    .applicationId(applicationId)
                    .exportJobRequest(jobRequest)
                    .build();

            System.out.format("Exporting endpoints from Amazon Pinpoint application %s to Amazon S3 " +
                    "bucket %s . . .\n", applicationId, s3BucketName);

            CreateExportJobResponse exportResult = pinpoint.createExportJob(exportJobRequest);
            String jobId = exportResult.exportJobResponse().id();
            System.out.println(jobId);
            printExportJobStatus(pinpoint, applicationId, jobId);

            ListObjectsV2Request v2Request = ListObjectsV2Request.builder()
                    .bucket(s3BucketName)
                    .prefix(endpointsKeyPrefix)
                    .build();

            // Create a list of object keys.
            ListObjectsV2Response v2Response = s3Client.listObjectsV2(v2Request);
            List<S3Object> objects = v2Response.contents();
            for (S3Object object : objects) {
                key = object.key();
                objectKeys.add(key);
            }

            return objectKeys;

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }

    private static void printExportJobStatus(PinpointClient pinpointClient,
            String applicationId,
            String jobId) {

        GetExportJobResponse getExportJobResult;
        String status;

        try {
            // Checks the job status until the job completes or fails.
            GetExportJobRequest exportJobRequest = GetExportJobRequest.builder()
                    .jobId(jobId)
                    .applicationId(applicationId)
                    .build();

            do {
                getExportJobResult = pinpointClient.getExportJob(exportJobRequest);
                status = getExportJobResult.exportJobResponse().jobStatus().toString().toUpperCase();
                System.out.format("Export job %s . . .\n", status);
                TimeUnit.SECONDS.sleep(3);

            } while (!status.equals("COMPLETED") && !status.equals("FAILED"));

            if (status.equals("COMPLETED")) {
                System.out.println("Finished exporting endpoints.");
            } else {
                System.err.println("Failed to export endpoints.");
                System.exit(1);
            }

        } catch (PinpointException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    // Download files from an Amazon S3 bucket and write them to the path location.
    public static void downloadFromS3(S3Client s3Client, String path, String s3BucketName, List<String> objectKeys) {

        String newPath;
        try {
            for (String key : objectKeys) {
                GetObjectRequest objectRequest = GetObjectRequest.builder()
                        .bucket(s3BucketName)
                        .key(key)
                        .build();

                ResponseBytes<GetObjectResponse> objectBytes = s3Client.getObjectAsBytes(objectRequest);
                byte[] data = objectBytes.asByteArray();

                // Write the data to a local file.
                String fileSuffix = new SimpleDateFormat("yyyyMMddHHmmss").format(new Date());
                newPath = path + fileSuffix + ".gz";
                File myFile = new File(newPath);
                OutputStream os = new FileOutputStream(myFile);
                os.write(data);
            }
            System.out.println("Download finished.");

        } catch (S3Exception | NullPointerException | IOException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateExportJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/CreateExportJob)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateImportJob`
<a name="pinpoint_CreateImportJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateImportJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 
Impor segmen.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.CreateImportJobRequest;
import software.amazon.awssdk.services.pinpoint.model.ImportJobResponse;
import software.amazon.awssdk.services.pinpoint.model.ImportJobRequest;
import software.amazon.awssdk.services.pinpoint.model.Format;
import software.amazon.awssdk.services.pinpoint.model.CreateImportJobResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ImportSegment {
    public static void main(String[] args) {
        final String usage = """

                Usage:   <appId> <bucket> <key> <roleArn>\s

                Where:
                  appId - The application ID to create a segment for.
                  bucket - The name of the Amazon S3 bucket that contains the segment definitons.
                  key - The key of the S3 object.
                  roleArn - ARN of the role that allows Amazon Pinpoint to access S3. You need to set trust management for this to work. See https://docs.aws.amazon.com/IAM/latest/UserGuide/reference_policies_elements_principal.html
                  """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        String bucket = args[1];
        String key = args[2];
        String roleArn = args[3];

        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        ImportJobResponse response = createImportSegment(pinpoint, appId, bucket, key, roleArn);
        System.out.println("Import job for " + bucket + " submitted.");
        System.out.println("See application " + response.applicationId() + " for import job status.");
        System.out.println("See application " + response.jobStatus() + " for import job status.");
        pinpoint.close();
    }

    public static ImportJobResponse createImportSegment(PinpointClient client,
            String appId,
            String bucket,
            String key,
            String roleArn) {

        try {
            ImportJobRequest importRequest = ImportJobRequest.builder()
                    .defineSegment(true)
                    .registerEndpoints(true)
                    .roleArn(roleArn)
                    .format(Format.JSON)
                    .s3Url("s3://" + bucket + "/" + key)
                    .build();

            CreateImportJobRequest jobRequest = CreateImportJobRequest.builder()
                    .importJobRequest(importRequest)
                    .applicationId(appId)
                    .build();

            CreateImportJobResponse jobResponse = client.createImportJob(jobRequest);
            return jobResponse.importJobResponse();

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }
}
```
+  Untuk detail API, lihat [CreateImportJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/CreateImportJob)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateSegment`
<a name="pinpoint_CreateSegment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSegment`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.AttributeDimension;
import software.amazon.awssdk.services.pinpoint.model.SegmentResponse;
import software.amazon.awssdk.services.pinpoint.model.AttributeType;
import software.amazon.awssdk.services.pinpoint.model.RecencyDimension;
import software.amazon.awssdk.services.pinpoint.model.SegmentBehaviors;
import software.amazon.awssdk.services.pinpoint.model.SegmentDemographics;
import software.amazon.awssdk.services.pinpoint.model.SegmentLocation;
import software.amazon.awssdk.services.pinpoint.model.SegmentDimensions;
import software.amazon.awssdk.services.pinpoint.model.WriteSegmentRequest;
import software.amazon.awssdk.services.pinpoint.model.CreateSegmentRequest;
import software.amazon.awssdk.services.pinpoint.model.CreateSegmentResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import java.util.HashMap;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateSegment {
        public static void main(String[] args) {
                final String usage = """

                                Usage:   <appId>

                                Where:
                                  appId - The application ID to create a segment for.

                                """;

                if (args.length != 1) {
                        System.out.println(usage);
                        System.exit(1);
                }

                String appId = args[0];
                PinpointClient pinpoint = PinpointClient.builder()
                                .region(Region.US_EAST_1)
                                .build();

                SegmentResponse result = createSegment(pinpoint, appId);
                System.out.println("Segment " + result.name() + " created.");
                System.out.println(result.segmentType());
                pinpoint.close();
        }

        public static SegmentResponse createSegment(PinpointClient client, String appId) {
                try {
                        Map<String, AttributeDimension> segmentAttributes = new HashMap<>();
                        segmentAttributes.put("Team", AttributeDimension.builder()
                                        .attributeType(AttributeType.INCLUSIVE)
                                        .values("Lakers")
                                        .build());

                        RecencyDimension recencyDimension = RecencyDimension.builder()
                                        .duration("DAY_30")
                                        .recencyType("ACTIVE")
                                        .build();

                        SegmentBehaviors segmentBehaviors = SegmentBehaviors.builder()
                                        .recency(recencyDimension)
                                        .build();

                        SegmentDemographics segmentDemographics = SegmentDemographics
                                        .builder()
                                        .build();

                        SegmentLocation segmentLocation = SegmentLocation
                                        .builder()
                                        .build();

                        SegmentDimensions dimensions = SegmentDimensions
                                        .builder()
                                        .attributes(segmentAttributes)
                                        .behavior(segmentBehaviors)
                                        .demographic(segmentDemographics)
                                        .location(segmentLocation)
                                        .build();

                        WriteSegmentRequest writeSegmentRequest = WriteSegmentRequest.builder()
                                        .name("MySegment")
                                        .dimensions(dimensions)
                                        .build();

                        CreateSegmentRequest createSegmentRequest = CreateSegmentRequest.builder()
                                        .applicationId(appId)
                                        .writeSegmentRequest(writeSegmentRequest)
                                        .build();

                        CreateSegmentResponse createSegmentResult = client.createSegment(createSegmentRequest);
                        System.out.println("Segment ID: " + createSegmentResult.segmentResponse().id());
                        System.out.println("Done");
                        return createSegmentResult.segmentResponse();

                } catch (PinpointException e) {
                        System.err.println(e.awsErrorDetails().errorMessage());
                        System.exit(1);
                }
                return null;
        }
}
```
+  Untuk detail API, lihat [CreateSegment](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/CreateSegment)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteApp`
<a name="pinpoint_DeleteApp_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteApp`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 
Hapus aplikasi.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.DeleteAppRequest;
import software.amazon.awssdk.services.pinpoint.model.DeleteAppResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteApp {
    public static void main(String[] args) {
        final String usage = """

                Usage:  <appId>

                Where:
                 appId - The ID of the application to delete.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        System.out.println("Deleting an application with ID: " + appId);
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        deletePinApp(pinpoint, appId);
        System.out.println("Done");
        pinpoint.close();
    }

    public static void deletePinApp(PinpointClient pinpoint, String appId) {
        try {
            DeleteAppRequest appRequest = DeleteAppRequest.builder()
                    .applicationId(appId)
                    .build();

            DeleteAppResponse result = pinpoint.deleteApp(appRequest);
            String appName = result.applicationResponse().name();
            System.out.println("Application " + appName + " has been deleted.");

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteApp](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/DeleteApp)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteEndpoint`
<a name="pinpoint_DeleteEndpoint_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEndpoint`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 
Hapus titik akhir.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.DeleteEndpointRequest;
import software.amazon.awssdk.services.pinpoint.model.DeleteEndpointResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteEndpoint {
    public static void main(String[] args) {
        final String usage = """

                Usage:   <appName> <endpointId >

                Where:
                  appId - The id of the application to delete.
                  endpointId - The id of the endpoint to delete.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        String endpointId = args[1];
        System.out.println("Deleting an endpoint with id: " + endpointId);
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        deletePinEncpoint(pinpoint, appId, endpointId);
        pinpoint.close();
    }

    public static void deletePinEncpoint(PinpointClient pinpoint, String appId, String endpointId) {
        try {
            DeleteEndpointRequest appRequest = DeleteEndpointRequest.builder()
                    .applicationId(appId)
                    .endpointId(endpointId)
                    .build();

            DeleteEndpointResponse result = pinpoint.deleteEndpoint(appRequest);
            String id = result.endpointResponse().id();
            System.out.println("The deleted endpoint id  " + id);

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Done");
    }
}
```
+  Untuk detail API, lihat [DeleteEndpoint](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/DeleteEndpoint)di *Referensi AWS SDK for Java 2.x API*. 

### `GetEndpoint`
<a name="pinpoint_GetEndpoint_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetEndpoint`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 

```
import com.google.gson.FieldNamingPolicy;
import com.google.gson.Gson;
import com.google.gson.GsonBuilder;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.EndpointResponse;
import software.amazon.awssdk.services.pinpoint.model.GetEndpointResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import software.amazon.awssdk.services.pinpoint.model.GetEndpointRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class LookUpEndpoint {
    public static void main(String[] args) {
        final String usage = """

                Usage:   <appId> <endpoint>

                Where:
                  appId - The ID of the application to delete.
                  endpoint - The ID of the endpoint.\s
                  """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        String endpoint = args[1];
        System.out.println("Looking up an endpoint point with ID: " + endpoint);
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        lookupPinpointEndpoint(pinpoint, appId, endpoint);
        pinpoint.close();
    }

    public static void lookupPinpointEndpoint(PinpointClient pinpoint, String appId, String endpoint) {
        try {
            GetEndpointRequest appRequest = GetEndpointRequest.builder()
                    .applicationId(appId)
                    .endpointId(endpoint)
                    .build();

            GetEndpointResponse result = pinpoint.getEndpoint(appRequest);
            EndpointResponse endResponse = result.endpointResponse();

            // Uses the Google Gson library to pretty print the endpoint JSON.
            Gson gson = new GsonBuilder()
                    .setFieldNamingPolicy(FieldNamingPolicy.UPPER_CAMEL_CASE)
                    .setPrettyPrinting()
                    .create();

            String endpointJson = gson.toJson(endResponse);
            System.out.println(endpointJson);

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Done");
    }
}
```
+  Untuk detail API, lihat [GetEndpoint](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/GetEndpoint)di *Referensi AWS SDK for Java 2.x API*. 

### `GetSegments`
<a name="pinpoint_GetSegments_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSegments`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 
Daftar segmen.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.GetSegmentsRequest;
import software.amazon.awssdk.services.pinpoint.model.GetSegmentsResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import software.amazon.awssdk.services.pinpoint.model.SegmentResponse;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListSegments {
    public static void main(String[] args) {
        final String usage = """

                Usage:   <appId>

                Where:
                  appId - The ID of the application that contains a segment.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listSegs(pinpoint, appId);
        pinpoint.close();
    }

    public static void listSegs(PinpointClient pinpoint, String appId) {
        try {
            GetSegmentsRequest request = GetSegmentsRequest.builder()
                    .applicationId(appId)
                    .build();

            GetSegmentsResponse response = pinpoint.getSegments(request);
            List<SegmentResponse> segments = response.segmentsResponse().item();
            for (SegmentResponse segment : segments) {
                System.out
                        .println("Segement " + segment.id() + " " + segment.name() + " " + segment.lastModifiedDate());
            }

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetSegments](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/GetSegments)di *Referensi AWS SDK for Java 2.x API*. 

### `GetSmsChannel`
<a name="pinpoint_GetSmsChannel_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSmsChannel`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.SMSChannelResponse;
import software.amazon.awssdk.services.pinpoint.model.GetSmsChannelRequest;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import software.amazon.awssdk.services.pinpoint.model.SMSChannelRequest;
import software.amazon.awssdk.services.pinpoint.model.UpdateSmsChannelRequest;
import software.amazon.awssdk.services.pinpoint.model.UpdateSmsChannelResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class UpdateChannel {
    public static void main(String[] args) {
        final String usage = """

                Usage: CreateChannel <appId>

                Where:
                  appId - The name of the application whose channel is updated.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        SMSChannelResponse getResponse = getSMSChannel(pinpoint, appId);
        toggleSmsChannel(pinpoint, appId, getResponse);
        pinpoint.close();
    }

    private static SMSChannelResponse getSMSChannel(PinpointClient client, String appId) {
        try {
            GetSmsChannelRequest request = GetSmsChannelRequest.builder()
                    .applicationId(appId)
                    .build();

            SMSChannelResponse response = client.getSmsChannel(request).smsChannelResponse();
            System.out.println("Channel state is " + response.enabled());
            return response;

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }

    private static void toggleSmsChannel(PinpointClient client, String appId, SMSChannelResponse getResponse) {
        boolean enabled = !getResponse.enabled();
        try {
            SMSChannelRequest request = SMSChannelRequest.builder()
                    .enabled(enabled)
                    .build();

            UpdateSmsChannelRequest updateRequest = UpdateSmsChannelRequest.builder()
                    .smsChannelRequest(request)
                    .applicationId(appId)
                    .build();

            UpdateSmsChannelResponse result = client.updateSmsChannel(updateRequest);
            System.out.println("Channel state: " + result.smsChannelResponse().enabled());

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetSmsChannel](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/GetSmsChannel)di *Referensi AWS SDK for Java 2.x API*. 

### `GetUserEndpoints`
<a name="pinpoint_GetUserEndpoints_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetUserEndpoints`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.EndpointResponse;
import software.amazon.awssdk.services.pinpoint.model.GetUserEndpointsRequest;
import software.amazon.awssdk.services.pinpoint.model.GetUserEndpointsResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListEndpointIds {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <applicationId> <userId>

                Where:
                   applicationId - The ID of the Amazon Pinpoint application that has the endpoint.
                   userId - The user id applicable to the endpoints""";

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String applicationId = args[0];
        String userId = args[1];
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listAllEndpoints(pinpoint, applicationId, userId);
        pinpoint.close();
    }

    public static void listAllEndpoints(PinpointClient pinpoint,
            String applicationId,
            String userId) {

        try {
            GetUserEndpointsRequest endpointsRequest = GetUserEndpointsRequest.builder()
                    .userId(userId)
                    .applicationId(applicationId)
                    .build();

            GetUserEndpointsResponse response = pinpoint.getUserEndpoints(endpointsRequest);
            List<EndpointResponse> endpoints = response.endpointsResponse().item();

            // Display the results.
            for (EndpointResponse endpoint : endpoints) {
                System.out.println("The channel type is: " + endpoint.channelType());
                System.out.println("The address is  " + endpoint.address());
            }

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetUserEndpoints](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/GetUserEndpoints)di *Referensi AWS SDK for Java 2.x API*. 

### `SendMessages`
<a name="pinpoint_SendMessages_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessages`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 
Kirim pesan email.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.AddressConfiguration;
import software.amazon.awssdk.services.pinpoint.model.ChannelType;
import software.amazon.awssdk.services.pinpoint.model.SimpleEmailPart;
import software.amazon.awssdk.services.pinpoint.model.SimpleEmail;
import software.amazon.awssdk.services.pinpoint.model.EmailMessage;
import software.amazon.awssdk.services.pinpoint.model.DirectMessageConfiguration;
import software.amazon.awssdk.services.pinpoint.model.MessageRequest;
import software.amazon.awssdk.services.pinpoint.model.SendMessagesRequest;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import software.amazon.awssdk.services.pinpointemail.PinpointEmailClient;
import software.amazon.awssdk.services.pinpointemail.model.Body;
import software.amazon.awssdk.services.pinpointemail.model.Content;
import software.amazon.awssdk.services.pinpointemail.model.Destination;
import software.amazon.awssdk.services.pinpointemail.model.EmailContent;
import software.amazon.awssdk.services.pinpointemail.model.Message;
import software.amazon.awssdk.services.pinpointemail.model.SendEmailRequest;

import java.util.HashMap;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SendEmailMessage {

        // The character encoding the you want to use for the subject line and
        // message body of the email.
        public static String charset = "UTF-8";

    // The body of the email for recipients whose email clients support HTML content.
    static final String body = """
        Amazon Pinpoint test (AWS SDK for Java 2.x)
                
        This email was sent through the Amazon Pinpoint Email API using the AWS SDK for Java 2.x
                
        """;

        public static void main(String[] args) {
                final String usage = """

                                Usage:    <subject> <appId> <senderAddress> <toAddress>

            Where:
               subject - The email subject to use.
               senderAddress - The from address. This address has to be verified in Amazon Pinpoint in the region you're using to send email\s
               toAddress - The to address. This address has to be verified in Amazon Pinpoint in the region you're using to send email\s
            """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String subject = args[0];
        String senderAddress = args[1];
        String toAddress = args[2];
        System.out.println("Sending a message");
        PinpointEmailClient pinpoint = PinpointEmailClient.builder()
            .region(Region.US_EAST_1)
            .build();

        sendEmail(pinpoint, subject, senderAddress, toAddress);
        System.out.println("Email was sent");
        pinpoint.close();
    }

    public static void sendEmail(PinpointEmailClient pinpointEmailClient, String subject, String senderAddress, String toAddress) {
        try {
            Content content = Content.builder()
                .data(body)
                .build();

            Body messageBody = Body.builder()
                .text(content)
                .build();

            Message message = Message.builder()
                .body(messageBody)
                .subject(Content.builder().data(subject).build())
                .build();

            Destination destination = Destination.builder()
                .toAddresses(toAddress)
                .build();

            EmailContent emailContent = EmailContent.builder()
                .simple(message)
                .build();

            SendEmailRequest sendEmailRequest = SendEmailRequest.builder()
                .fromEmailAddress(senderAddress)
                .destination(destination)
                .content(emailContent)
                .build();

            pinpointEmailClient.sendEmail(sendEmailRequest);
            System.out.println("Message Sent");

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Kirim pesan email dengan nilai CC.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import  software.amazon.awssdk.services.pinpointemail.PinpointEmailClient;
import software.amazon.awssdk.services.pinpointemail.model.Body;
import software.amazon.awssdk.services.pinpointemail.model.Content;
import software.amazon.awssdk.services.pinpointemail.model.Destination;
import software.amazon.awssdk.services.pinpointemail.model.EmailContent;
import software.amazon.awssdk.services.pinpointemail.model.Message;
import software.amazon.awssdk.services.pinpointemail.model.SendEmailRequest;
import java.util.ArrayList;

/**
 * Before running this Java V2 code example, set up your development environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SendEmailMessageCC {

    // The body of the email.
    static final String body = """
        Amazon Pinpoint test (AWS SDK for Java 2.x)
                
        This email was sent through the Amazon Pinpoint Email API using the AWS SDK for Java 2.x
                
        """;
    public static void main(String[] args) {
        final String usage = """

            Usage:    <subject> <senderAddress> <toAddress> <ccAddress>

            Where:
               subject - The email subject to use.
               senderAddress - The from address. This address has to be verified in Amazon Pinpoint in the region you're using to send email\s
               toAddress - The to address. This address has to be verified in Amazon Pinpoint in the region you're using to send email\s
               ccAddress - The CC address.
            """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String subject = args[0];
        String senderAddress = args[1];
        String toAddress = args[2];
        String ccAddress = args[3];

        System.out.println("Sending a message");
        PinpointEmailClient pinpoint = PinpointEmailClient.builder()
            .region(Region.US_EAST_1)
            .build();

        ArrayList<String> ccList = new ArrayList<>();
        ccList.add(ccAddress);
        sendEmail(pinpoint, subject, senderAddress, toAddress, ccList);
        pinpoint.close();
    }

    public static void sendEmail(PinpointEmailClient pinpointEmailClient, String subject, String senderAddress, String toAddress, ArrayList<String> ccAddresses) {
        try {
            Content content = Content.builder()
                .data(body)
                .build();

            Body messageBody = Body.builder()
                .text(content)
                .build();

            Message message = Message.builder()
                .body(messageBody)
                .subject(Content.builder().data(subject).build())
                .build();

            Destination destination = Destination.builder()
                .toAddresses(toAddress)
                .ccAddresses(ccAddresses)
                .build();

            EmailContent emailContent = EmailContent.builder()
                .simple(message)
                .build();

            SendEmailRequest sendEmailRequest = SendEmailRequest.builder()
                .fromEmailAddress(senderAddress)
                .destination(destination)
                .content(emailContent)
                .build();

            pinpointEmailClient.sendEmail(sendEmailRequest);
            System.out.println("Message Sent");

        } catch (PinpointException e) {
            // Handle exception
            e.printStackTrace();
        }
    }
}
```
Kirim pesan SMS.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.DirectMessageConfiguration;
import software.amazon.awssdk.services.pinpoint.model.SMSMessage;
import software.amazon.awssdk.services.pinpoint.model.AddressConfiguration;
import software.amazon.awssdk.services.pinpoint.model.ChannelType;
import software.amazon.awssdk.services.pinpoint.model.MessageRequest;
import software.amazon.awssdk.services.pinpoint.model.SendMessagesRequest;
import software.amazon.awssdk.services.pinpoint.model.SendMessagesResponse;
import software.amazon.awssdk.services.pinpoint.model.MessageResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import java.util.HashMap;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SendMessage {

        // The type of SMS message that you want to send. If you plan to send
        // time-sensitive content, specify TRANSACTIONAL. If you plan to send
        // marketing-related content, specify PROMOTIONAL.
        public static String messageType = "TRANSACTIONAL";

        // The registered keyword associated with the originating short code.
        public static String registeredKeyword = "myKeyword";

        // The sender ID to use when sending the message. Support for sender ID
        // varies by country or region. For more information, see
        // https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms-countries.html
        public static String senderId = "MySenderID";

        public static void main(String[] args) {
                final String usage = """

                                Usage:   <message> <appId> <originationNumber> <destinationNumber>\s

                                Where:
                                  message - The body of the message to send.
                                  appId - The Amazon Pinpoint project/application ID to use when you send this message.
                                  originationNumber - The phone number or short code that you specify has to be associated with your Amazon Pinpoint account. For best results, specify long codes in E.164 format (for example, +1-555-555-5654).
                                  destinationNumber - The recipient's phone number.  For best results, you should specify the phone number in E.164 format (for example, +1-555-555-5654).\s
                                  """;

                if (args.length != 4) {
                        System.out.println(usage);
                        System.exit(1);
                }

                String message = args[0];
                String appId = args[1];
                String originationNumber = args[2];
                String destinationNumber = args[3];
                System.out.println("Sending a message");
                PinpointClient pinpoint = PinpointClient.builder()
                                .region(Region.US_EAST_1)
                                .build();

                sendSMSMessage(pinpoint, message, appId, originationNumber, destinationNumber);
                pinpoint.close();
        }

        public static void sendSMSMessage(PinpointClient pinpoint, String message, String appId,
                        String originationNumber,
                        String destinationNumber) {
                try {
                        Map<String, AddressConfiguration> addressMap = new HashMap<String, AddressConfiguration>();
                        AddressConfiguration addConfig = AddressConfiguration.builder()
                                        .channelType(ChannelType.SMS)
                                        .build();

                        addressMap.put(destinationNumber, addConfig);
                        SMSMessage smsMessage = SMSMessage.builder()
                                        .body(message)
                                        .messageType(messageType)
                                        .originationNumber(originationNumber)
                                        .senderId(senderId)
                                        .keyword(registeredKeyword)
                                        .build();

                        // Create a DirectMessageConfiguration object.
                        DirectMessageConfiguration direct = DirectMessageConfiguration.builder()
                                        .smsMessage(smsMessage)
                                        .build();

                        MessageRequest msgReq = MessageRequest.builder()
                                        .addresses(addressMap)
                                        .messageConfiguration(direct)
                                        .build();

                        // create a SendMessagesRequest object
                        SendMessagesRequest request = SendMessagesRequest.builder()
                                        .applicationId(appId)
                                        .messageRequest(msgReq)
                                        .build();

                        SendMessagesResponse response = pinpoint.sendMessages(request);
                        MessageResponse msg1 = response.messageResponse();
                        Map map1 = msg1.result();

                        // Write out the result of sendMessage.
                        map1.forEach((k, v) -> System.out.println((k + ":" + v)));

                } catch (PinpointException e) {
                        System.err.println(e.awsErrorDetails().errorMessage());
                        System.exit(1);
                }
        }
}
```
Kirim pesan SMS batch.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.DirectMessageConfiguration;
import software.amazon.awssdk.services.pinpoint.model.SMSMessage;
import software.amazon.awssdk.services.pinpoint.model.AddressConfiguration;
import software.amazon.awssdk.services.pinpoint.model.ChannelType;
import software.amazon.awssdk.services.pinpoint.model.MessageRequest;
import software.amazon.awssdk.services.pinpoint.model.SendMessagesRequest;
import software.amazon.awssdk.services.pinpoint.model.SendMessagesResponse;
import software.amazon.awssdk.services.pinpoint.model.MessageResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;

import java.util.HashMap;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SendMessageBatch {

    // The type of SMS message that you want to send. If you plan to send
    // time-sensitive content, specify TRANSACTIONAL. If you plan to send
    // marketing-related content, specify PROMOTIONAL.
    public static String messageType = "TRANSACTIONAL";

    // The registered keyword associated with the originating short code.
    public static String registeredKeyword = "myKeyword";

    // The sender ID to use when sending the message. Support for sender ID
    // varies by country or region. For more information, see
    // https://docs.aws.amazon.com/pinpoint/latest/userguide/channels-sms-countries.html
    public static String senderId = "MySenderID";

    public static void main(String[] args) {
        final String usage = """
                
                Usage:   <message> <appId> <originationNumber> <destinationNumber> <destinationNumber1>\s
                
                Where:
                  message - The body of the message to send.
                  appId - The Amazon Pinpoint project/application ID to use when you send this message.
                  originationNumber - The phone number or short code that you specify has to be associated with your Amazon Pinpoint account. For best results, specify long codes in E.164 format (for example, +1-555-555-5654).
                  destinationNumber - The recipient's phone number.  For best results, you should specify the phone number in E.164 format (for example, +1-555-555-5654).
                  destinationNumber1 - The second recipient's phone number.  For best results, you should specify the phone number in E.164 format (for example, +1-555-555-5654).\s
                """;

        if (args.length != 5) {
            System.out.println(usage);
            System.exit(1);
        }

        String message = args[0];
        String appId = args[1];
        String originationNumber = args[2];
        String destinationNumber = args[3];
        String destinationNumber1 = args[4];
        System.out.println("Sending a message");
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        sendSMSMessage(pinpoint, message, appId, originationNumber, destinationNumber, destinationNumber1);
        pinpoint.close();
    }

    public static void sendSMSMessage(PinpointClient pinpoint, String message, String appId,
                                      String originationNumber,
                                      String destinationNumber, String destinationNumber1) {
        try {
            Map<String, AddressConfiguration> addressMap = new HashMap<String, AddressConfiguration>();
            AddressConfiguration addConfig = AddressConfiguration.builder()
                    .channelType(ChannelType.SMS)
                    .build();

            // Add an entry to the Map object for each number to whom you want to send a
            // message.
            addressMap.put(destinationNumber, addConfig);
            addressMap.put(destinationNumber1, addConfig);
            SMSMessage smsMessage = SMSMessage.builder()
                    .body(message)
                    .messageType(messageType)
                    .originationNumber(originationNumber)
                    .senderId(senderId)
                    .keyword(registeredKeyword)
                    .build();

            // Create a DirectMessageConfiguration object.
            DirectMessageConfiguration direct = DirectMessageConfiguration.builder()
                    .smsMessage(smsMessage)
                    .build();

            MessageRequest msgReq = MessageRequest.builder()
                    .addresses(addressMap)
                    .messageConfiguration(direct)
                    .build();

            // Create a SendMessagesRequest object.
            SendMessagesRequest request = SendMessagesRequest.builder()
                    .applicationId(appId)
                    .messageRequest(msgReq)
                    .build();

            SendMessagesResponse response = pinpoint.sendMessages(request);
            MessageResponse msg1 = response.messageResponse();
            Map map1 = msg1.result();

            // Write out the result of sendMessage.
            map1.forEach((k, v) -> System.out.println((k + ":" + v)));

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [SendMessages](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/SendMessages)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateEndpoint`
<a name="pinpoint_UpdateEndpoint_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateEndpoint`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpoint.PinpointClient;
import software.amazon.awssdk.services.pinpoint.model.EndpointResponse;
import software.amazon.awssdk.services.pinpoint.model.EndpointRequest;
import software.amazon.awssdk.services.pinpoint.model.UpdateEndpointRequest;
import software.amazon.awssdk.services.pinpoint.model.UpdateEndpointResponse;
import software.amazon.awssdk.services.pinpoint.model.GetEndpointRequest;
import software.amazon.awssdk.services.pinpoint.model.GetEndpointResponse;
import software.amazon.awssdk.services.pinpoint.model.PinpointException;
import software.amazon.awssdk.services.pinpoint.model.EndpointDemographic;
import software.amazon.awssdk.services.pinpoint.model.EndpointLocation;
import software.amazon.awssdk.services.pinpoint.model.EndpointUser;
import java.text.DateFormat;
import java.text.SimpleDateFormat;
import java.util.List;
import java.util.UUID;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Map;
import java.util.Date;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class UpdateEndpoint {
    public static void main(String[] args) {
        final String usage = """

                Usage:  <appId>

                Where:
                  appId - The ID of the application to create an endpoint for.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String appId = args[0];
        PinpointClient pinpoint = PinpointClient.builder()
                .region(Region.US_EAST_1)
                .build();

        EndpointResponse response = createEndpoint(pinpoint, appId);
        System.out.println("Got Endpoint: " + response.id());
        pinpoint.close();
    }

    public static EndpointResponse createEndpoint(PinpointClient client, String appId) {
        String endpointId = UUID.randomUUID().toString();
        System.out.println("Endpoint ID: " + endpointId);

        try {
            EndpointRequest endpointRequest = createEndpointRequestData();
            UpdateEndpointRequest updateEndpointRequest = UpdateEndpointRequest.builder()
                    .applicationId(appId)
                    .endpointId(endpointId)
                    .endpointRequest(endpointRequest)
                    .build();

            UpdateEndpointResponse updateEndpointResponse = client.updateEndpoint(updateEndpointRequest);
            System.out.println("Update Endpoint Response: " + updateEndpointResponse.messageBody());

            GetEndpointRequest getEndpointRequest = GetEndpointRequest.builder()
                    .applicationId(appId)
                    .endpointId(endpointId)
                    .build();

            GetEndpointResponse getEndpointResponse = client.getEndpoint(getEndpointRequest);
            System.out.println(getEndpointResponse.endpointResponse().address());
            System.out.println(getEndpointResponse.endpointResponse().channelType());
            System.out.println(getEndpointResponse.endpointResponse().applicationId());
            System.out.println(getEndpointResponse.endpointResponse().endpointStatus());
            System.out.println(getEndpointResponse.endpointResponse().requestId());
            System.out.println(getEndpointResponse.endpointResponse().user());

            return getEndpointResponse.endpointResponse();

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }

    private static EndpointRequest createEndpointRequestData() {
        try {
            List<String> favoriteTeams = new ArrayList<>();
            favoriteTeams.add("Lakers");
            favoriteTeams.add("Warriors");
            HashMap<String, List<String>> customAttributes = new HashMap<>();
            customAttributes.put("team", favoriteTeams);

            EndpointDemographic demographic = EndpointDemographic.builder()
                    .appVersion("1.0")
                    .make("apple")
                    .model("iPhone")
                    .modelVersion("7")
                    .platform("ios")
                    .platformVersion("10.1.1")
                    .timezone("America/Los_Angeles")
                    .build();

            EndpointLocation location = EndpointLocation.builder()
                    .city("Los Angeles")
                    .country("US")
                    .latitude(34.0)
                    .longitude(-118.2)
                    .postalCode("90068")
                    .region("CA")
                    .build();

            Map<String, Double> metrics = new HashMap<>();
            metrics.put("health", 100.00);
            metrics.put("luck", 75.00);

            EndpointUser user = EndpointUser.builder()
                    .userId(UUID.randomUUID().toString())
                    .build();

            DateFormat df = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm'Z'"); // Quoted "Z" to indicate UTC, no timezone
                                                                           // offset
            String nowAsISO = df.format(new Date());

            return EndpointRequest.builder()
                    .address(UUID.randomUUID().toString())
                    .attributes(customAttributes)
                    .channelType("APNS")
                    .demographic(demographic)
                    .effectiveDate(nowAsISO)
                    .location(location)
                    .metrics(metrics)
                    .optOut("NONE")
                    .requestId(UUID.randomUUID().toString())
                    .user(user)
                    .build();

        } catch (PinpointException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }
}
```
+  Untuk detail API, lihat [UpdateEndpoint](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-2016-12-01/UpdateEndpoint)di *Referensi AWS SDK for Java 2.x API*. 

# Amazon Pinpoint SMS dan Voice API contoh menggunakan SDK for Java 2.x
<a name="java_2_pinpoint-sms-voice_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK for Java 2.x dengan menggunakan Amazon Pinpoint SMS dan Voice API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendVoiceMessage`
<a name="pinpoint-sms-voice_SendVoiceMessage_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendVoiceMessage`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/pinpoint#code-examples). 

```
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.pinpointsmsvoice.PinpointSmsVoiceClient;
import software.amazon.awssdk.services.pinpointsmsvoice.model.SSMLMessageType;
import software.amazon.awssdk.services.pinpointsmsvoice.model.VoiceMessageContent;
import software.amazon.awssdk.services.pinpointsmsvoice.model.SendVoiceMessageRequest;
import software.amazon.awssdk.services.pinpointsmsvoice.model.PinpointSmsVoiceException;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SendVoiceMessage {

    // The Amazon Polly voice that you want to use to send the message. For a list
    // of voices, see https://docs.aws.amazon.com/polly/latest/dg/voicelist.html
    static final String voiceName = "Matthew";

    // The language to use when sending the message. For a list of supported
    // languages, see
    // https://docs.aws.amazon.com/polly/latest/dg/SupportedLanguage.html
    static final String languageCode = "en-US";

    // The content of the message. This example uses SSML to customize and control
    // certain aspects of the message, such as by adding pauses and changing
    // phonation. The message can't contain any line breaks.
    static final String ssmlMessage = "<speak>This is a test message sent from "
            + "<emphasis>Amazon Pinpoint</emphasis> "
            + "using the <break strength='weak'/>AWS "
            + "SDK for Java. "
            + "<amazon:effect phonation='soft'>Thank "
            + "you for listening.</amazon:effect></speak>";

    public static void main(String[] args) {

        final String usage = """
                Usage:   <originationNumber> <destinationNumber>\s
                
                Where:
                  originationNumber - The phone number or short code that you specify has to be associated with your Amazon Pinpoint account. For best results, specify long codes in E.164 format (for example, +1-555-555-5654).
                  destinationNumber - The recipient's phone number.  For best results, you should specify the phone number in E.164 format (for example, +1-555-555-5654).\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }
        String originationNumber = args[0];
        String destinationNumber = args[1];
        System.out.println("Sending a voice message");

        // Set the content type to application/json.
        List<String> listVal = new ArrayList<>();
        listVal.add("application/json");
        Map<String, List<String>> values = new HashMap<>();
        values.put("Content-Type", listVal);

        ClientOverrideConfiguration config2 = ClientOverrideConfiguration.builder()
                .headers(values)
                .build();

        PinpointSmsVoiceClient client = PinpointSmsVoiceClient.builder()
                .overrideConfiguration(config2)
                .region(Region.US_EAST_1)
                .build();

        sendVoiceMsg(client, originationNumber, destinationNumber);
        client.close();
    }

    public static void sendVoiceMsg(PinpointSmsVoiceClient client, String originationNumber,
                                    String destinationNumber) {
        try {
            SSMLMessageType ssmlMessageType = SSMLMessageType.builder()
                    .languageCode(languageCode)
                    .text(ssmlMessage)
                    .voiceId(voiceName)
                    .build();

            VoiceMessageContent content = VoiceMessageContent.builder()
                    .ssmlMessage(ssmlMessageType)
                    .build();

            SendVoiceMessageRequest voiceMessageRequest = SendVoiceMessageRequest.builder()
                    .destinationPhoneNumber(destinationNumber)
                    .originationPhoneNumber(originationNumber)
                    .content(content)
                    .build();

            client.sendVoiceMessage(voiceMessageRequest);
            System.out.println("The message was sent successfully.");

        } catch (PinpointSmsVoiceException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [SendVoiceMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/pinpoint-sms-voice-2018-09-05/SendVoiceMessage)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon Polly menggunakan SDK for Java 2.x
<a name="java_2_polly_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Polly. AWS SDK for Java 2.x 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DescribeVoices`
<a name="polly_DescribeVoices_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVoices`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/polly#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.polly.PollyClient;
import software.amazon.awssdk.services.polly.model.DescribeVoicesRequest;
import software.amazon.awssdk.services.polly.model.DescribeVoicesResponse;
import software.amazon.awssdk.services.polly.model.PollyException;
import software.amazon.awssdk.services.polly.model.Voice;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeVoicesSample {
    public static void main(String args[]) {
        PollyClient polly = PollyClient.builder()
                .region(Region.US_WEST_2)
                .build();

        describeVoice(polly);
        polly.close();
    }

    public static void describeVoice(PollyClient polly) {
        try {
            DescribeVoicesRequest voicesRequest = DescribeVoicesRequest.builder()
                    .languageCode("en-US")
                    .build();

            DescribeVoicesResponse enUsVoicesResult = polly.describeVoices(voicesRequest);
            List<Voice> voices = enUsVoicesResult.voices();
            for (Voice myVoice : voices) {
                System.out.println("The ID of the voice is " + myVoice.id());
                System.out.println("The gender of the voice is " + myVoice.gender());
            }

        } catch (PollyException e) {
            System.err.println("Exception caught: " + e);
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeVoices](https://docs.aws.amazon.com/goto/SdkForJavaV2/polly-2016-06-10/DescribeVoices)di *Referensi AWS SDK for Java 2.x API*. 

### `ListLexicons`
<a name="polly_ListLexicons_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLexicons`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/polly#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.polly.PollyClient;
import software.amazon.awssdk.services.polly.model.ListLexiconsResponse;
import software.amazon.awssdk.services.polly.model.ListLexiconsRequest;
import software.amazon.awssdk.services.polly.model.LexiconDescription;
import software.amazon.awssdk.services.polly.model.PollyException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListLexicons {
    public static void main(String args[]) {
        PollyClient polly = PollyClient.builder()
                .region(Region.US_WEST_2)
                .build();

        listLexicons(polly);
        polly.close();
    }

    public static void listLexicons(PollyClient client) {
        try {
            ListLexiconsRequest listLexiconsRequest = ListLexiconsRequest.builder()
                    .build();

            ListLexiconsResponse listLexiconsResult = client.listLexicons(listLexiconsRequest);
            List<LexiconDescription> lexiconDescription = listLexiconsResult.lexicons();
            for (LexiconDescription lexDescription : lexiconDescription) {
                System.out.println("The name of the Lexicon is " + lexDescription.name());
            }

        } catch (PollyException e) {
            System.err.println("Exception caught: " + e);
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListLexicons](https://docs.aws.amazon.com/goto/SdkForJavaV2/polly-2016-06-10/ListLexicons)di *Referensi AWS SDK for Java 2.x API*. 

### `SynthesizeSpeech`
<a name="polly_SynthesizeSpeech_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SynthesizeSpeech`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/polly#code-examples). 

```
import javazoom.jl.decoder.JavaLayerException;
import software.amazon.awssdk.core.ResponseInputStream;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.polly.PollyClient;
import software.amazon.awssdk.services.polly.model.DescribeVoicesRequest;
import software.amazon.awssdk.services.polly.model.Voice;
import software.amazon.awssdk.services.polly.model.DescribeVoicesResponse;
import software.amazon.awssdk.services.polly.model.OutputFormat;
import software.amazon.awssdk.services.polly.model.PollyException;
import software.amazon.awssdk.services.polly.model.SynthesizeSpeechRequest;
import software.amazon.awssdk.services.polly.model.SynthesizeSpeechResponse;
import java.io.IOException;
import java.io.InputStream;
import javazoom.jl.player.advanced.AdvancedPlayer;
import javazoom.jl.player.advanced.PlaybackEvent;
import javazoom.jl.player.advanced.PlaybackListener;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PollyDemo {
    private static final String SAMPLE = "Congratulations. You have successfully built this working demo " +
            " of Amazon Polly in Java Version 2. Have fun building voice enabled apps with Amazon Polly (that's me!), and always "
            +
            " look at the AWS website for tips and tricks on using Amazon Polly and other great services from AWS";

    public static void main(String args[]) {
        PollyClient polly = PollyClient.builder()
                .region(Region.US_WEST_2)
                .build();

        talkPolly(polly);
        polly.close();
    }

    public static void talkPolly(PollyClient polly) {
        try {
            DescribeVoicesRequest describeVoiceRequest = DescribeVoicesRequest.builder()
                    .engine("standard")
                    .build();

            DescribeVoicesResponse describeVoicesResult = polly.describeVoices(describeVoiceRequest);
            Voice voice = describeVoicesResult.voices().stream()
                    .filter(v -> v.name().equals("Joanna"))
                    .findFirst()
                    .orElseThrow(() -> new RuntimeException("Voice not found"));
            InputStream stream = synthesize(polly, SAMPLE, voice, OutputFormat.MP3);
            AdvancedPlayer player = new AdvancedPlayer(stream,
                    javazoom.jl.player.FactoryRegistry.systemRegistry().createAudioDevice());
            player.setPlayBackListener(new PlaybackListener() {
                public void playbackStarted(PlaybackEvent evt) {
                    System.out.println("Playback started");
                    System.out.println(SAMPLE);
                }

                public void playbackFinished(PlaybackEvent evt) {
                    System.out.println("Playback finished");
                }
            });

            // play it!
            player.play();

        } catch (PollyException | JavaLayerException | IOException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static InputStream synthesize(PollyClient polly, String text, Voice voice, OutputFormat format)
            throws IOException {
        SynthesizeSpeechRequest synthReq = SynthesizeSpeechRequest.builder()
                .text(text)
                .voiceId(voice.id())
                .outputFormat(format)
                .build();

        ResponseInputStream<SynthesizeSpeechResponse> synthRes = polly.synthesizeSpeech(synthReq);
        return synthRes;
    }
}
```
+  Untuk detail API, lihat [SynthesizeSpeech](https://docs.aws.amazon.com/goto/SdkForJavaV2/polly-2016-06-10/SynthesizeSpeech)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Java 2.x**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_fsa_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon RDS menggunakan SDK for Java 2.x
<a name="java_2_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x With Amazon RDS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon RDS
<a name="rds_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon RDS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.model.DescribeDbInstancesResponse;
import software.amazon.awssdk.services.rds.model.DBInstance;
import software.amazon.awssdk.services.rds.model.RdsException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeDBInstances {

    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        describeInstances(rdsClient);
        rdsClient.close();
    }

    public static void describeInstances(RdsClient rdsClient) {
        try {
            DescribeDbInstancesResponse response = rdsClient.describeDBInstances();
            List<DBInstance> instanceList = response.dbInstances();
            for (DBInstance instance : instanceList) {
                System.out.println("Instance ARN is: " + instance.dbInstanceArn());
                System.out.println("The Engine is " + instance.engine());
                System.out.println("Connection endpoint is" + instance.endpoint().address());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="rds_Scenario_GetStartedInstances_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter basis data kustom dan mengatur nilai parameter.
+ Membuat instans basis data yang dikonfigurasikan untuk menggunakan grup parameter. Instans basis data juga berisi basis data.
+ Mengambil cuplikan instans.
+ Menghapus instans dan grup parameter.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 
Menjalankan beberapa operasi.  

```
import com.google.gson.Gson;
import software.amazon.awssdk.auth.credentials.EnvironmentVariableCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.model.CreateDbInstanceRequest;
import software.amazon.awssdk.services.rds.model.CreateDbInstanceResponse;
import software.amazon.awssdk.services.rds.model.CreateDbParameterGroupResponse;
import software.amazon.awssdk.services.rds.model.CreateDbSnapshotRequest;
import software.amazon.awssdk.services.rds.model.CreateDbSnapshotResponse;
import software.amazon.awssdk.services.rds.model.DBEngineVersion;
import software.amazon.awssdk.services.rds.model.DBInstance;
import software.amazon.awssdk.services.rds.model.DBParameterGroup;
import software.amazon.awssdk.services.rds.model.DBSnapshot;
import software.amazon.awssdk.services.rds.model.DeleteDbInstanceRequest;
import software.amazon.awssdk.services.rds.model.DeleteDbInstanceResponse;
import software.amazon.awssdk.services.rds.model.DescribeDbEngineVersionsRequest;
import software.amazon.awssdk.services.rds.model.DescribeDbEngineVersionsResponse;
import software.amazon.awssdk.services.rds.model.DescribeDbInstancesRequest;
import software.amazon.awssdk.services.rds.model.DescribeDbInstancesResponse;
import software.amazon.awssdk.services.rds.model.DescribeDbParameterGroupsResponse;
import software.amazon.awssdk.services.rds.model.DescribeDbParametersResponse;
import software.amazon.awssdk.services.rds.model.DescribeDbSnapshotsRequest;
import software.amazon.awssdk.services.rds.model.DescribeDbSnapshotsResponse;
import software.amazon.awssdk.services.rds.model.DescribeOrderableDbInstanceOptionsResponse;
import software.amazon.awssdk.services.rds.model.ModifyDbParameterGroupResponse;
import software.amazon.awssdk.services.rds.model.OrderableDBInstanceOption;
import software.amazon.awssdk.services.rds.model.Parameter;
import software.amazon.awssdk.services.rds.model.RdsException;
import software.amazon.awssdk.services.rds.model.CreateDbParameterGroupRequest;
import software.amazon.awssdk.services.rds.model.DescribeDbParameterGroupsRequest;
import software.amazon.awssdk.services.rds.model.DescribeDbParametersRequest;
import software.amazon.awssdk.services.rds.model.ModifyDbParameterGroupRequest;
import software.amazon.awssdk.services.rds.model.DescribeOrderableDbInstanceOptionsRequest;
import software.amazon.awssdk.services.rds.model.DeleteDbParameterGroupRequest;
import software.amazon.awssdk.services.secretsmanager.SecretsManagerClient;
import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueRequest;
import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueResponse;
import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This example requires an AWS Secrets Manager secret that contains the
 * database credentials. If you do not create a
 * secret, this example will not work. For details, see:
 *
 * https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html
 *
 * This Java example performs these tasks:
 *
 * 1. Returns a list of the available DB engines.
 * 2. Selects an engine family and create a custom DB parameter group.
 * 3. Gets the parameter groups.
 * 4. Gets parameters in the group.
 * 5. Modifies the auto_increment_offset parameter.
 * 6. Gets and displays the updated parameters.
 * 7. Gets a list of allowed engine versions.
 * 8. Gets a list of micro instance classes available for the selected engine.
 * 9. Creates an RDS database instance that contains a MySql database and uses
 * the parameter group.
 * 10. Waits for the DB instance to be ready and prints out the connection
 * endpoint value.
 * 11. Creates a snapshot of the DB instance.
 * 12. Waits for an RDS DB snapshot to be ready.
 * 13. Deletes the RDS DB instance.
 * 14. Deletes the parameter group.
 */
public class RDSScenario {
    public static long sleepTime = 20;
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws InterruptedException {
        final String usage = """

                Usage:
                    <dbGroupName> <dbParameterGroupFamily> <dbInstanceIdentifier> <dbName> <dbSnapshotIdentifier> <secretName>

                Where:
                    dbGroupName - The database group name.\s
                    dbParameterGroupFamily - The database parameter group name (for example, mysql8.0).
                    dbInstanceIdentifier - The database instance identifier\s
                    dbName - The database name.\s
                    dbSnapshotIdentifier - The snapshot identifier.\s
                    secretName - The name of the AWS Secrets Manager secret that contains the database credentials"
                """;

        if (args.length != 6) {
            System.out.println(usage);
            System.exit(1);
        }

        String dbGroupName = args[0];
        String dbParameterGroupFamily = args[1];
        String dbInstanceIdentifier = args[2];
        String dbName = args[3];
        String dbSnapshotIdentifier = args[4];
        String secretName = args[5];

        Gson gson = new Gson();
        User user = gson.fromJson(String.valueOf(getSecretValues(secretName)), User.class);
        String masterUsername = user.getUsername();
        String masterUserPassword = user.getPassword();

        Region region = Region.US_WEST_2;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();
        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon RDS example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. Return a list of the available DB engines");
        describeDBEngines(rdsClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Create a custom parameter group");
        createDBParameterGroup(rdsClient, dbGroupName, dbParameterGroupFamily);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Get the parameter group");
        describeDbParameterGroups(rdsClient, dbGroupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Get the parameters in the group");
        describeDbParameters(rdsClient, dbGroupName, 0);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Modify the auto_increment_offset parameter");
        modifyDBParas(rdsClient, dbGroupName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Display the updated value");
        describeDbParameters(rdsClient, dbGroupName, -1);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Get a list of allowed engine versions");
        getAllowedEngines(rdsClient, dbParameterGroupFamily);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Get a list of micro instance classes available for the selected engine");
        getMicroInstances(rdsClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println(
                "9. Create an RDS database instance that contains a MySql database and uses the parameter group");
        String dbARN = createDatabaseInstance(rdsClient, dbGroupName, dbInstanceIdentifier, dbName, masterUsername,
                masterUserPassword);
        System.out.println("The ARN of the new database is " + dbARN);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Wait for DB instance to be ready");
        waitForInstanceReady(rdsClient, dbInstanceIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("11. Create a snapshot of the DB instance");
        createSnapshot(rdsClient, dbInstanceIdentifier, dbSnapshotIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("12. Wait for DB snapshot to be ready");
        waitForSnapshotReady(rdsClient, dbInstanceIdentifier, dbSnapshotIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("13. Delete the DB instance");
        deleteDatabaseInstance(rdsClient, dbInstanceIdentifier);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("14. Delete the parameter group");
        deleteParaGroup(rdsClient, dbGroupName, dbARN);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The Scenario has successfully completed.");
        System.out.println(DASHES);

        rdsClient.close();
    }

    private static SecretsManagerClient getSecretClient() {
        Region region = Region.US_WEST_2;
        return SecretsManagerClient.builder()
            .region(region)
            .build();
    }

    public static String getSecretValues(String secretName) {
        SecretsManagerClient secretClient = getSecretClient();
        GetSecretValueRequest valueRequest = GetSecretValueRequest.builder()
                .secretId(secretName)
                .build();

        GetSecretValueResponse valueResponse = secretClient.getSecretValue(valueRequest);
        return valueResponse.secretString();
    }

    // Delete the parameter group after database has been deleted.
    // An exception is thrown if you attempt to delete the para group while database
    // exists.
    public static void deleteParaGroup(RdsClient rdsClient, String dbGroupName, String dbARN)
            throws InterruptedException {
        try {
            boolean isDataDel = false;
            boolean didFind;
            String instanceARN;

            // Make sure that the database has been deleted.
            while (!isDataDel) {
                DescribeDbInstancesResponse response = rdsClient.describeDBInstances();
                List<DBInstance> instanceList = response.dbInstances();
                int listSize = instanceList.size();
                didFind = false;
                int index = 1;
                for (DBInstance instance : instanceList) {
                    instanceARN = instance.dbInstanceArn();
                    if (instanceARN.compareTo(dbARN) == 0) {
                        System.out.println(dbARN + " still exists");
                        didFind = true;
                    }
                    if ((index == listSize) && (!didFind)) {
                        // Went through the entire list and did not find the database ARN.
                        isDataDel = true;
                    }
                    Thread.sleep(sleepTime * 1000);
                    index++;
                }
            }

            // Delete the para group.
            DeleteDbParameterGroupRequest parameterGroupRequest = DeleteDbParameterGroupRequest.builder()
                    .dbParameterGroupName(dbGroupName)
                    .build();

            rdsClient.deleteDBParameterGroup(parameterGroupRequest);
            System.out.println(dbGroupName + " was deleted.");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Delete the DB instance.
    public static void deleteDatabaseInstance(RdsClient rdsClient, String dbInstanceIdentifier) {
        try {
            DeleteDbInstanceRequest deleteDbInstanceRequest = DeleteDbInstanceRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .deleteAutomatedBackups(true)
                    .skipFinalSnapshot(true)
                    .build();

            DeleteDbInstanceResponse response = rdsClient.deleteDBInstance(deleteDbInstanceRequest);
            System.out.print("The status of the database is " + response.dbInstance().dbInstanceStatus());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Waits until the snapshot instance is available.
    public static void waitForSnapshotReady(RdsClient rdsClient, String dbInstanceIdentifier,
            String dbSnapshotIdentifier) {
        try {
            boolean snapshotReady = false;
            String snapshotReadyStr;
            System.out.println("Waiting for the snapshot to become available.");

            DescribeDbSnapshotsRequest snapshotsRequest = DescribeDbSnapshotsRequest.builder()
                    .dbSnapshotIdentifier(dbSnapshotIdentifier)
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .build();

            while (!snapshotReady) {
                DescribeDbSnapshotsResponse response = rdsClient.describeDBSnapshots(snapshotsRequest);
                List<DBSnapshot> snapshotList = response.dbSnapshots();
                for (DBSnapshot snapshot : snapshotList) {
                    snapshotReadyStr = snapshot.status();
                    if (snapshotReadyStr.contains("available")) {
                        snapshotReady = true;
                    } else {
                        System.out.print(".");
                        Thread.sleep(sleepTime * 1000);
                    }
                }
            }

            System.out.println("The Snapshot is available!");
        } catch (RdsException | InterruptedException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Create an Amazon RDS snapshot.
    public static void createSnapshot(RdsClient rdsClient, String dbInstanceIdentifier, String dbSnapshotIdentifier) {
        try {
            CreateDbSnapshotRequest snapshotRequest = CreateDbSnapshotRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .dbSnapshotIdentifier(dbSnapshotIdentifier)
                    .build();

            CreateDbSnapshotResponse response = rdsClient.createDBSnapshot(snapshotRequest);
            System.out.println("The Snapshot id is " + response.dbSnapshot().dbiResourceId());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Waits until the database instance is available.
    public static void waitForInstanceReady(RdsClient rdsClient, String dbInstanceIdentifier) {
        boolean instanceReady = false;
        String instanceReadyStr;
        System.out.println("Waiting for instance to become available.");
        try {
            DescribeDbInstancesRequest instanceRequest = DescribeDbInstancesRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .build();

            String endpoint = "";
            while (!instanceReady) {
                DescribeDbInstancesResponse response = rdsClient.describeDBInstances(instanceRequest);
                List<DBInstance> instanceList = response.dbInstances();
                for (DBInstance instance : instanceList) {
                    instanceReadyStr = instance.dbInstanceStatus();
                    if (instanceReadyStr.contains("available")) {
                        endpoint = instance.endpoint().address();
                        instanceReady = true;
                    } else {
                        System.out.print(".");
                        Thread.sleep(sleepTime * 1000);
                    }
                }
            }
            System.out.println("Database instance is available! The connection endpoint is " + endpoint);

        } catch (RdsException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    // Create a database instance and return the ARN of the database.
    public static String createDatabaseInstance(RdsClient rdsClient,
            String dbGroupName,
            String dbInstanceIdentifier,
            String dbName,
            String userName,
            String userPassword) {

        try {
            CreateDbInstanceRequest instanceRequest = CreateDbInstanceRequest.builder()
                .dbInstanceIdentifier(dbInstanceIdentifier)
                .allocatedStorage(100)
                .dbName(dbName)
                .engine("mysql")
                .dbInstanceClass("db.t3.medium") // Updated to a supported class
                .engineVersion("8.0.32")         // Updated to a supported version
                .storageType("gp2")             // Changed to General Purpose SSD (gp2)
                .masterUsername(userName)
                .masterUserPassword(userPassword)
                .build();

            CreateDbInstanceResponse response = rdsClient.createDBInstance(instanceRequest);
            System.out.print("The status is " + response.dbInstance().dbInstanceStatus());
            return response.dbInstance().dbInstanceArn();

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }

        return "";
    }

    // Get a list of micro instances.
    public static void getMicroInstances(RdsClient rdsClient) {
        try {
            DescribeOrderableDbInstanceOptionsRequest dbInstanceOptionsRequest = DescribeOrderableDbInstanceOptionsRequest
                    .builder()
                    .engine("mysql")
                    .build();

            DescribeOrderableDbInstanceOptionsResponse response = rdsClient
                    .describeOrderableDBInstanceOptions(dbInstanceOptionsRequest);
            List<OrderableDBInstanceOption> orderableDBInstances = response.orderableDBInstanceOptions();
            for (OrderableDBInstanceOption dbInstanceOption : orderableDBInstances) {
                System.out.println("The engine version is " + dbInstanceOption.engineVersion());
                System.out.println("The engine description is " + dbInstanceOption.engine());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Get a list of allowed engine versions.
    public static void getAllowedEngines(RdsClient rdsClient, String dbParameterGroupFamily) {
        try {
            DescribeDbEngineVersionsRequest versionsRequest = DescribeDbEngineVersionsRequest.builder()
                    .dbParameterGroupFamily(dbParameterGroupFamily)
                    .engine("mysql")
                    .build();

            DescribeDbEngineVersionsResponse response = rdsClient.describeDBEngineVersions(versionsRequest);
            List<DBEngineVersion> dbEngines = response.dbEngineVersions();
            for (DBEngineVersion dbEngine : dbEngines) {
                System.out.println("The engine version is " + dbEngine.engineVersion());
                System.out.println("The engine description is " + dbEngine.dbEngineDescription());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Modify auto_increment_offset and auto_increment_increment parameters.
    public static void modifyDBParas(RdsClient rdsClient, String dbGroupName) {
        try {
            Parameter parameter1 = Parameter.builder()
                    .parameterName("auto_increment_offset")
                    .applyMethod("immediate")
                    .parameterValue("5")
                    .build();

            List<Parameter> paraList = new ArrayList<>();
            paraList.add(parameter1);
            ModifyDbParameterGroupRequest groupRequest = ModifyDbParameterGroupRequest.builder()
                    .dbParameterGroupName(dbGroupName)
                    .parameters(paraList)
                    .build();

            ModifyDbParameterGroupResponse response = rdsClient.modifyDBParameterGroup(groupRequest);
            System.out.println("The parameter group " + response.dbParameterGroupName() + " was successfully modified");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Retrieve parameters in the group.
    public static void describeDbParameters(RdsClient rdsClient, String dbGroupName, int flag) {
        try {
            DescribeDbParametersRequest dbParameterGroupsRequest;
            if (flag == 0) {
                dbParameterGroupsRequest = DescribeDbParametersRequest.builder()
                        .dbParameterGroupName(dbGroupName)
                        .build();
            } else {
                dbParameterGroupsRequest = DescribeDbParametersRequest.builder()
                        .dbParameterGroupName(dbGroupName)
                        .source("user")
                        .build();
            }

            DescribeDbParametersResponse response = rdsClient.describeDBParameters(dbParameterGroupsRequest);
            List<Parameter> dbParameters = response.parameters();
            String paraName;
            for (Parameter para : dbParameters) {
                // Only print out information about either auto_increment_offset or
                // auto_increment_increment.
                paraName = para.parameterName();
                if ((paraName.compareTo("auto_increment_offset") == 0)
                        || (paraName.compareTo("auto_increment_increment ") == 0)) {
                    System.out.println("*** The parameter name is  " + paraName);
                    System.out.println("*** The parameter value is  " + para.parameterValue());
                    System.out.println("*** The parameter data type is " + para.dataType());
                    System.out.println("*** The parameter description is " + para.description());
                    System.out.println("*** The parameter allowed values  is " + para.allowedValues());
                }
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void describeDbParameterGroups(RdsClient rdsClient, String dbGroupName) {
        try {
            DescribeDbParameterGroupsRequest groupsRequest = DescribeDbParameterGroupsRequest.builder()
                    .dbParameterGroupName(dbGroupName)
                    .maxRecords(20)
                    .build();

            DescribeDbParameterGroupsResponse response = rdsClient.describeDBParameterGroups(groupsRequest);
            List<DBParameterGroup> groups = response.dbParameterGroups();
            for (DBParameterGroup group : groups) {
                System.out.println("The group name is " + group.dbParameterGroupName());
                System.out.println("The group description is " + group.description());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void createDBParameterGroup(RdsClient rdsClient, String dbGroupName, String dbParameterGroupFamily) {
        try {
            CreateDbParameterGroupRequest groupRequest = CreateDbParameterGroupRequest.builder()
                    .dbParameterGroupName(dbGroupName)
                    .dbParameterGroupFamily(dbParameterGroupFamily)
                    .description("Created by using the AWS SDK for Java")
                    .build();

            CreateDbParameterGroupResponse response = rdsClient.createDBParameterGroup(groupRequest);
            System.out.println("The group name is " + response.dbParameterGroup().dbParameterGroupName());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void describeDBEngines(RdsClient rdsClient) {
        try {
            DescribeDbEngineVersionsRequest engineVersionsRequest = DescribeDbEngineVersionsRequest.builder()
                    .defaultOnly(true)
                    .engine("mysql")
                    .maxRecords(20)
                    .build();

            DescribeDbEngineVersionsResponse response = rdsClient.describeDBEngineVersions(engineVersionsRequest);
            List<DBEngineVersion> engines = response.dbEngineVersions();

            // Get all DBEngineVersion objects.
            for (DBEngineVersion engineOb : engines) {
                System.out.println("The name of the DB parameter group family for the database engine is "
                        + engineOb.dbParameterGroupFamily());
                System.out.println("The name of the database engine " + engineOb.engine());
                System.out.println("The version number of the database engine " + engineOb.engineVersion());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK for Java 2.x *.
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBInstance)
  + [Buat DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBParameterGroup)
  + [Buat DBSnapshot](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBSnapshot)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBInstance)
  + [Hapus DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBParameterGroup)
  + [Jelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBInstances)
  + [Jelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBParameterGroups)
  + [Jelaskan DBParameters](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBParameters)
  + [Jelaskan DBSnapshots](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBSnapshots)
  + [DescribeOrderableDBInstancePilihan](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeOrderableDBInstanceOptions)
  + [Ubah DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/ModifyDBParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBInstance`
<a name="rds_CreateDBInstance_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
import com.google.gson.Gson;
import software.amazon.awssdk.auth.credentials.EnvironmentVariableCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.model.DescribeDbInstancesRequest;
import software.amazon.awssdk.services.rds.model.CreateDbInstanceRequest;
import software.amazon.awssdk.services.rds.model.CreateDbInstanceResponse;
import software.amazon.awssdk.services.rds.model.RdsException;
import software.amazon.awssdk.services.rds.model.DescribeDbInstancesResponse;
import software.amazon.awssdk.services.rds.model.DBInstance;
import software.amazon.awssdk.services.secretsmanager.SecretsManagerClient;
import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueRequest;
import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueResponse;

import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This example requires an AWS Secrets Manager secret that contains the
 * database credentials. If you do not create a
 * secret, this example will not work. For more details, see:
 *
 * https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html
 *
 *
 */

public class CreateDBInstance {
    public static long sleepTime = 20;

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <dbInstanceIdentifier> <dbName> <secretName>

                Where:
                    dbInstanceIdentifier - The database instance identifier.\s
                    dbName - The database name.\s
                    secretName - The name of the AWS Secrets Manager secret that contains the database credentials."
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String dbInstanceIdentifier = args[0];
        String dbName = args[1];
        String secretName = args[2];
        Gson gson = new Gson();
        User user = gson.fromJson(String.valueOf(getSecretValues(secretName)), User.class);
        Region region = Region.US_WEST_2;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        createDatabaseInstance(rdsClient, dbInstanceIdentifier, dbName, user.getUsername(), user.getPassword());
        waitForInstanceReady(rdsClient, dbInstanceIdentifier);
        rdsClient.close();
    }

    private static SecretsManagerClient getSecretClient() {
        Region region = Region.US_WEST_2;
        return SecretsManagerClient.builder()
                .region(region)
                .credentialsProvider(EnvironmentVariableCredentialsProvider.create())
                .build();
    }

    private static String getSecretValues(String secretName) {
        SecretsManagerClient secretClient = getSecretClient();
        GetSecretValueRequest valueRequest = GetSecretValueRequest.builder()
                .secretId(secretName)
                .build();

        GetSecretValueResponse valueResponse = secretClient.getSecretValue(valueRequest);
        return valueResponse.secretString();
    }

    public static void createDatabaseInstance(RdsClient rdsClient,
            String dbInstanceIdentifier,
            String dbName,
            String userName,
            String userPassword) {

        try {
            CreateDbInstanceRequest instanceRequest = CreateDbInstanceRequest.builder()
                .dbInstanceIdentifier(dbInstanceIdentifier)
                .allocatedStorage(100)
                .dbName(dbName)
                .engine("mysql")
                .dbInstanceClass("db.t3.medium") // Updated to a supported class
                .engineVersion("8.0.32")         // Updated to a supported version
                .storageType("gp2")             // Changed to General Purpose SSD (gp2)
                .masterUsername(userName)
                .masterUserPassword(userPassword)
                .build();

            CreateDbInstanceResponse response = rdsClient.createDBInstance(instanceRequest);
            System.out.print("The status is " + response.dbInstance().dbInstanceStatus());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    // Waits until the database instance is available.
    public static void waitForInstanceReady(RdsClient rdsClient, String dbInstanceIdentifier) {
        boolean instanceReady = false;
        String instanceReadyStr;
        System.out.println("Waiting for instance to become available.");
        try {
            DescribeDbInstancesRequest instanceRequest = DescribeDbInstancesRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .build();

            // Loop until the cluster is ready.
            while (!instanceReady) {
                DescribeDbInstancesResponse response = rdsClient.describeDBInstances(instanceRequest);
                List<DBInstance> instanceList = response.dbInstances();
                for (DBInstance instance : instanceList) {
                    instanceReadyStr = instance.dbInstanceStatus();
                    if (instanceReadyStr.contains("available"))
                        instanceReady = true;
                    else {
                        System.out.print(".");
                        Thread.sleep(sleepTime * 1000);
                    }
                }
            }
            System.out.println("Database instance is available!");

        } catch (RdsException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBInstance) di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDBParameterGroup`
<a name="rds_CreateDBParameterGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBParameterGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void createDBParameterGroup(RdsClient rdsClient, String dbGroupName, String dbParameterGroupFamily) {
        try {
            CreateDbParameterGroupRequest groupRequest = CreateDbParameterGroupRequest.builder()
                    .dbParameterGroupName(dbGroupName)
                    .dbParameterGroupFamily(dbParameterGroupFamily)
                    .description("Created by using the AWS SDK for Java")
                    .build();

            CreateDbParameterGroupResponse response = rdsClient.createDBParameterGroup(groupRequest);
            System.out.println("The group name is " + response.dbParameterGroup().dbParameterGroupName());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Membuat DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBParameterGroup) di *Referensi AWS SDK for Java 2.x API*. 

### `CreateDBSnapshot`
<a name="rds_CreateDBSnapshot_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSnapshot`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    // Create an Amazon RDS snapshot.
    public static void createSnapshot(RdsClient rdsClient, String dbInstanceIdentifier, String dbSnapshotIdentifier) {
        try {
            CreateDbSnapshotRequest snapshotRequest = CreateDbSnapshotRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .dbSnapshotIdentifier(dbSnapshotIdentifier)
                    .build();

            CreateDbSnapshotResponse response = rdsClient.createDBSnapshot(snapshotRequest);
            System.out.println("The Snapshot id is " + response.dbSnapshot().dbiResourceId());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Membuat DBSnapshot](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/CreateDBSnapshot) di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDBInstance`
<a name="rds_DeleteDBInstance_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.model.DeleteDbInstanceRequest;
import software.amazon.awssdk.services.rds.model.DeleteDbInstanceResponse;
import software.amazon.awssdk.services.rds.model.RdsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteDBInstance {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <dbInstanceIdentifier>\s

                Where:
                    dbInstanceIdentifier - The database instance identifier\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String dbInstanceIdentifier = args[0];
        Region region = Region.US_WEST_2;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        deleteDatabaseInstance(rdsClient, dbInstanceIdentifier);
        rdsClient.close();
    }

    public static void deleteDatabaseInstance(RdsClient rdsClient, String dbInstanceIdentifier) {
        try {
            DeleteDbInstanceRequest deleteDbInstanceRequest = DeleteDbInstanceRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .deleteAutomatedBackups(true)
                    .skipFinalSnapshot(true)
                    .build();

            DeleteDbInstanceResponse response = rdsClient.deleteDBInstance(deleteDbInstanceRequest);
            System.out.print("The status of the database is " + response.dbInstance().dbInstanceStatus());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBInstance) di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDBParameterGroup`
<a name="rds_DeleteDBParameterGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBParameterGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    // Delete the parameter group after database has been deleted.
    // An exception is thrown if you attempt to delete the para group while database
    // exists.
    public static void deleteParaGroup(RdsClient rdsClient, String dbGroupName, String dbARN)
            throws InterruptedException {
        try {
            boolean isDataDel = false;
            boolean didFind;
            String instanceARN;

            // Make sure that the database has been deleted.
            while (!isDataDel) {
                DescribeDbInstancesResponse response = rdsClient.describeDBInstances();
                List<DBInstance> instanceList = response.dbInstances();
                int listSize = instanceList.size();
                didFind = false;
                int index = 1;
                for (DBInstance instance : instanceList) {
                    instanceARN = instance.dbInstanceArn();
                    if (instanceARN.compareTo(dbARN) == 0) {
                        System.out.println(dbARN + " still exists");
                        didFind = true;
                    }
                    if ((index == listSize) && (!didFind)) {
                        // Went through the entire list and did not find the database ARN.
                        isDataDel = true;
                    }
                    Thread.sleep(sleepTime * 1000);
                    index++;
                }
            }

            // Delete the para group.
            DeleteDbParameterGroupRequest parameterGroupRequest = DeleteDbParameterGroupRequest.builder()
                    .dbParameterGroupName(dbGroupName)
                    .build();

            rdsClient.deleteDBParameterGroup(parameterGroupRequest);
            System.out.println(dbGroupName + " was deleted.");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menghapus DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DeleteDBParameterGroup) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAccountAttributes`
<a name="rds_DescribeAccountAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAccountAttributes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.model.AccountQuota;
import software.amazon.awssdk.services.rds.model.RdsException;
import software.amazon.awssdk.services.rds.model.DescribeAccountAttributesResponse;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeAccountAttributes {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        getAccountAttributes(rdsClient);
        rdsClient.close();
    }

    public static void getAccountAttributes(RdsClient rdsClient) {
        try {
            DescribeAccountAttributesResponse response = rdsClient.describeAccountAttributes();
            List<AccountQuota> quotasList = response.accountQuotas();
            for (AccountQuota quotas : quotasList) {
                System.out.println("Name is: " + quotas.accountQuotaName());
                System.out.println("Max value is " + quotas.max());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeAccountAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeAccountAttributes)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBEngineVersions`
<a name="rds_DescribeDBEngineVersions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void describeDBEngines(RdsClient rdsClient) {
        try {
            DescribeDbEngineVersionsRequest engineVersionsRequest = DescribeDbEngineVersionsRequest.builder()
                    .defaultOnly(true)
                    .engine("mysql")
                    .maxRecords(20)
                    .build();

            DescribeDbEngineVersionsResponse response = rdsClient.describeDBEngineVersions(engineVersionsRequest);
            List<DBEngineVersion> engines = response.dbEngineVersions();

            // Get all DBEngineVersion objects.
            for (DBEngineVersion engineOb : engines) {
                System.out.println("The name of the DB parameter group family for the database engine is "
                        + engineOb.dbParameterGroupFamily());
                System.out.println("The name of the database engine " + engineOb.engine());
                System.out.println("The version number of the database engine " + engineOb.engineVersion());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBEngineVersions) dalam *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.model.DescribeDbInstancesResponse;
import software.amazon.awssdk.services.rds.model.DBInstance;
import software.amazon.awssdk.services.rds.model.RdsException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeDBInstances {

    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        describeInstances(rdsClient);
        rdsClient.close();
    }

    public static void describeInstances(RdsClient rdsClient) {
        try {
            DescribeDbInstancesResponse response = rdsClient.describeDBInstances();
            List<DBInstance> instanceList = response.dbInstances();
            for (DBInstance instance : instanceList) {
                System.out.println("Instance ARN is: " + instance.dbInstanceArn());
                System.out.println("The Engine is " + instance.engine());
                System.out.println("Connection endpoint is" + instance.endpoint().address());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBParameterGroups`
<a name="rds_DescribeDBParameterGroups_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameterGroups`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    public static void describeDbParameterGroups(RdsClient rdsClient, String dbGroupName) {
        try {
            DescribeDbParameterGroupsRequest groupsRequest = DescribeDbParameterGroupsRequest.builder()
                    .dbParameterGroupName(dbGroupName)
                    .maxRecords(20)
                    .build();

            DescribeDbParameterGroupsResponse response = rdsClient.describeDBParameterGroups(groupsRequest);
            List<DBParameterGroup> groups = response.dbParameterGroups();
            for (DBParameterGroup group : groups) {
                System.out.println("The group name is " + group.dbParameterGroupName());
                System.out.println("The group description is " + group.description());
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBParameterGroups) dalam *Referensi AWS SDK for Java 2.x API*. 

### `DescribeDBParameters`
<a name="rds_DescribeDBParameters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    // Retrieve parameters in the group.
    public static void describeDbParameters(RdsClient rdsClient, String dbGroupName, int flag) {
        try {
            DescribeDbParametersRequest dbParameterGroupsRequest;
            if (flag == 0) {
                dbParameterGroupsRequest = DescribeDbParametersRequest.builder()
                        .dbParameterGroupName(dbGroupName)
                        .build();
            } else {
                dbParameterGroupsRequest = DescribeDbParametersRequest.builder()
                        .dbParameterGroupName(dbGroupName)
                        .source("user")
                        .build();
            }

            DescribeDbParametersResponse response = rdsClient.describeDBParameters(dbParameterGroupsRequest);
            List<Parameter> dbParameters = response.parameters();
            String paraName;
            for (Parameter para : dbParameters) {
                // Only print out information about either auto_increment_offset or
                // auto_increment_increment.
                paraName = para.parameterName();
                if ((paraName.compareTo("auto_increment_offset") == 0)
                        || (paraName.compareTo("auto_increment_increment ") == 0)) {
                    System.out.println("*** The parameter name is  " + paraName);
                    System.out.println("*** The parameter value is  " + para.parameterValue());
                    System.out.println("*** The parameter data type is " + para.dataType());
                    System.out.println("*** The parameter description is " + para.description());
                    System.out.println("*** The parameter allowed values  is " + para.allowedValues());
                }
            }

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/DescribeDBParameters) di *Referensi AWS SDK for Java 2.x API*. 

### `GenerateRDSAuthToken`
<a name="rds_GenerateRDSAuthToken_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GenerateRDSAuthToken`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 
Gunakan [RdsUtilities](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/rds/RdsUtilities.html)kelas untuk menghasilkan token otentikasi.  

```
public class GenerateRDSAuthToken {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <dbInstanceIdentifier> <masterUsername>

                Where:
                    dbInstanceIdentifier - The database instance identifier.\s
                    masterUsername - The master user name.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String dbInstanceIdentifier = args[0];
        String masterUsername = args[1];
        Region region = Region.US_WEST_2;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        String token = getAuthToken(rdsClient, dbInstanceIdentifier, masterUsername);
        System.out.println("The token response is " + token);
    }

    public static String getAuthToken(RdsClient rdsClient, String dbInstanceIdentifier, String masterUsername) {

        RdsUtilities utilities = rdsClient.utilities();
        try {
            GenerateAuthenticationTokenRequest tokenRequest = GenerateAuthenticationTokenRequest.builder()
                    .credentialsProvider(ProfileCredentialsProvider.create())
                    .username(masterUsername)
                    .port(3306)
                    .hostname(dbInstanceIdentifier)
                    .build();

            return utilities.generateAuthenticationToken(tokenRequest);

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [Menghasilkan RDSAuth Token](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/GenerateRDSAuthToken) di *Referensi AWS SDK for Java 2.x API*. 

### `ModifyDBInstance`
<a name="rds_ModifyDBInstance_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBInstance`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.model.ModifyDbInstanceRequest;
import software.amazon.awssdk.services.rds.model.ModifyDbInstanceResponse;
import software.amazon.awssdk.services.rds.model.RdsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ModifyDBInstance {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <dbInstanceIdentifier> <dbSnapshotIdentifier>\s
                Where:
                    dbInstanceIdentifier - The database instance identifier.\s
                    masterUserPassword - The updated password that corresponds to the master user name.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String dbInstanceIdentifier = args[0];
        String masterUserPassword = args[1];
        Region region = Region.US_WEST_2;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        updateIntance(rdsClient, dbInstanceIdentifier, masterUserPassword);
        rdsClient.close();
    }

    public static void updateIntance(RdsClient rdsClient, String dbInstanceIdentifier, String masterUserPassword) {
        try {
            // For a demo - modify the DB instance by modifying the master password.
            ModifyDbInstanceRequest modifyDbInstanceRequest = ModifyDbInstanceRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .publiclyAccessible(true)
                    .masterUserPassword(masterUserPassword)
                    .build();

            ModifyDbInstanceResponse instanceResponse = rdsClient.modifyDBInstance(modifyDbInstanceRequest);
            System.out.print("The ARN of the modified database is: " + instanceResponse.dbInstance().dbInstanceArn());

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Memodifikasi DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/ModifyDBInstance) dalam *Referensi AWS SDK for Java 2.x API*. 

### `ModifyDBParameterGroup`
<a name="rds_ModifyDBParameterGroup_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBParameterGroup`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
    // Modify auto_increment_offset and auto_increment_increment parameters.
    public static void modifyDBParas(RdsClient rdsClient, String dbGroupName) {
        try {
            Parameter parameter1 = Parameter.builder()
                    .parameterName("auto_increment_offset")
                    .applyMethod("immediate")
                    .parameterValue("5")
                    .build();

            List<Parameter> paraList = new ArrayList<>();
            paraList.add(parameter1);
            ModifyDbParameterGroupRequest groupRequest = ModifyDbParameterGroupRequest.builder()
                    .dbParameterGroupName(dbGroupName)
                    .parameters(paraList)
                    .build();

            ModifyDbParameterGroupResponse response = rdsClient.modifyDBParameterGroup(groupRequest);
            System.out.println("The parameter group " + response.dbParameterGroupName() + " was successfully modified");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [Memodifikasi DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/ModifyDBParameterGroup) di *Referensi AWS SDK for Java 2.x API*. 

### `RebootDBInstance`
<a name="rds_RebootDBInstance_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RebootDBInstance`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rds#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rds.RdsClient;
import software.amazon.awssdk.services.rds.model.RebootDbInstanceRequest;
import software.amazon.awssdk.services.rds.model.RebootDbInstanceResponse;
import software.amazon.awssdk.services.rds.model.RdsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class RebootDBInstance {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <dbInstanceIdentifier>\s

                Where:
                    dbInstanceIdentifier - The database instance identifier\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String dbInstanceIdentifier = args[0];
        Region region = Region.US_WEST_2;
        RdsClient rdsClient = RdsClient.builder()
                .region(region)
                .build();

        rebootInstance(rdsClient, dbInstanceIdentifier);
        rdsClient.close();
    }

    public static void rebootInstance(RdsClient rdsClient, String dbInstanceIdentifier) {
        try {
            RebootDbInstanceRequest rebootDbInstanceRequest = RebootDbInstanceRequest.builder()
                    .dbInstanceIdentifier(dbInstanceIdentifier)
                    .build();

            RebootDbInstanceResponse instanceResponse = rdsClient.rebootDBInstance(rebootDbInstanceRequest);
            System.out.print("The database " + instanceResponse.dbInstance().dbInstanceArn() + " was rebooted");

        } catch (RdsException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Reboot DBInstance](https://docs.aws.amazon.com/goto/SdkForJavaV2/rds-2014-10-31/RebootDBInstance) di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon RDS.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/Creating_Spring_RDS_Rest)   
 Untuk kode sumber lengkap dan instruksi tentang cara menyiapkan dan menjalankan contoh yang menggunakan JDBC API, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/Creating_rds_item_tracker)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Java.  

```
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.APIGatewayProxyRequestEvent;
import com.amazonaws.services.lambda.runtime.events.APIGatewayProxyResponseEvent;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rdsdata.RdsDataClient;
import software.amazon.awssdk.services.rdsdata.model.ExecuteStatementRequest;
import software.amazon.awssdk.services.rdsdata.model.ExecuteStatementResponse;
import software.amazon.awssdk.services.rdsdata.model.Field;

import java.sql.Connection;
import java.sql.DriverManager;
import java.sql.PreparedStatement;
import java.sql.ResultSet;

public class RdsLambdaHandler implements RequestHandler<APIGatewayProxyRequestEvent, APIGatewayProxyResponseEvent> {

    @Override
    public APIGatewayProxyResponseEvent handleRequest(APIGatewayProxyRequestEvent event, Context context) {
        APIGatewayProxyResponseEvent response = new APIGatewayProxyResponseEvent();

        try {
            // Obtain auth token
            String token = createAuthToken();

            // Define connection configuration
            String connectionString = String.format("jdbc:mysql://%s:%s/%s?useSSL=true&requireSSL=true",
                    System.getenv("ProxyHostName"),
                    System.getenv("Port"),
                    System.getenv("DBName"));

            // Establish a connection to the database
            try (Connection connection = DriverManager.getConnection(connectionString, System.getenv("DBUserName"), token);
                 PreparedStatement statement = connection.prepareStatement("SELECT ? + ? AS sum")) {

                statement.setInt(1, 3);
                statement.setInt(2, 2);

                try (ResultSet resultSet = statement.executeQuery()) {
                    if (resultSet.next()) {
                        int sum = resultSet.getInt("sum");
                        response.setStatusCode(200);
                        response.setBody("The selected sum is: " + sum);
                    }
                }
            }

        } catch (Exception e) {
            response.setStatusCode(500);
            response.setBody("Error: " + e.getMessage());
        }

        return response;
    }

    private String createAuthToken() {
        // Create RDS Data Service client
        RdsDataClient rdsDataClient = RdsDataClient.builder()
                .region(Region.of(System.getenv("AWS_REGION")))
                .credentialsProvider(DefaultCredentialsProvider.create())
                .build();

        // Define authentication request
        ExecuteStatementRequest request = ExecuteStatementRequest.builder()
                .resourceArn(System.getenv("ProxyHostName"))
                .secretArn(System.getenv("DBUserName"))
                .database(System.getenv("DBName"))
                .sql("SELECT 'RDS IAM Authentication'")
                .build();

        // Execute request and obtain authentication token
        ExecuteStatementResponse response = rdsDataClient.executeStatement(request);
        Field tokenField = response.records().get(0).get(0);

        return tokenField.stringValue();
    }
}
```

# Contoh Amazon RDS Data Service menggunakan SDK for Java 2.x
<a name="java_2_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK for Java 2.x dengan menggunakan Layanan Data Amazon RDS.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon RDS.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/Creating_Spring_RDS_Rest)   
 Untuk kode sumber lengkap dan instruksi tentang cara menyiapkan dan menjalankan contoh yang menggunakan JDBC API, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/Creating_rds_item_tracker)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon Redshift menggunakan SDK for Java 2.x
<a name="java_2_redshift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Amazon Redshift.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon Redshift
<a name="redshift_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Redshift.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.redshift.RedshiftClient;
import software.amazon.awssdk.services.redshift.paginators.DescribeClustersIterable;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloRedshift {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        RedshiftClient redshiftClient = RedshiftClient.builder()
            .region(region)
            .build();

        listClustersPaginator(redshiftClient);
    }

    public static void listClustersPaginator(RedshiftClient redshiftClient) {
        DescribeClustersIterable clustersIterable = redshiftClient.describeClustersPaginator();
        clustersIterable.stream()
            .flatMap(r -> r.clusters().stream())
            .forEach(cluster -> System.out
                .println(" Cluster identifier: " + cluster.clusterIdentifier() + " status = " + cluster.clusterStatus()));
    }
}
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/DescribeClusters)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="redshift_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat cluster Redshift.
+ Daftar database di cluster.
+ Buat tabel bernama Movies.
+ Isi tabel Film.
+ Kueri tabel Film berdasarkan tahun.
+ Ubah cluster Redshift.
+ Hapus cluster Amazon Redshift.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 
Jalankan skenario interaktif yang mendemonstrasikan fitur Amazon Redshift.  

```
import com.example.redshift.User;
import com.google.gson.Gson;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.redshift.model.ClusterAlreadyExistsException;
import software.amazon.awssdk.services.redshift.model.CreateClusterResponse;
import software.amazon.awssdk.services.redshift.model.DeleteClusterResponse;
import software.amazon.awssdk.services.redshift.model.ModifyClusterResponse;
import software.amazon.awssdk.services.redshift.model.RedshiftException;
import software.amazon.awssdk.services.redshiftdata.model.ExecuteStatementResponse;
import software.amazon.awssdk.services.redshiftdata.model.RedshiftDataException;
import java.util.Scanner;
import java.util.concurrent.CompletableFuture;
import software.amazon.awssdk.services.secretsmanager.SecretsManagerClient;
import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueRequest;
import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 *
 *  This example requires an AWS Secrets Manager secret that contains the
 *  database credentials. If you do not create a
 *  secret that specifies user name and password, this example will not work. For details, see:
 *
 *  https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html
 *
 This Java example performs these tasks:
 *
 * 1. Prompts the user for a unique cluster ID or use the default value.
 * 2. Creates a Redshift cluster with the specified or default cluster Id value.
 * 3. Waits until the Redshift cluster is available for use.
 * 4. Lists all databases using a pagination API call.
 * 5. Creates a table named "Movies" with fields ID, title, and year.
 * 6. Inserts a specified number of records into the "Movies" table by reading the Movies JSON file.
 * 7. Prompts the user for a movie release year.
 * 8. Runs a SQL query to retrieve movies released in the specified year.
 * 9. Modifies the Redshift cluster.
 * 10. Prompts the user for confirmation to delete the Redshift cluster.
 * 11. If confirmed, deletes the specified Redshift cluster.
 */

public class RedshiftScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final Logger logger = LoggerFactory.getLogger(RedshiftScenario.class);

    static RedshiftActions redshiftActions = new RedshiftActions();
    public static void main(String[] args) throws Exception {
        final String usage = """

            Usage:
                <jsonFilePath> <secretName>\s

            Where:
                jsonFilePath - The path to the Movies JSON file (you can locate that file in ../../../resources/sample_files/movies.json)
                secretName - The name of the secret that belongs to Secret Manager that stores the user name and password used in this scenario. 
            """;

        if (args.length != 2) {
            logger.info(usage);
            return;
        }

        String jsonFilePath = args[0];
        String secretName = args[1];
        Scanner scanner = new Scanner(System.in);
        logger.info(DASHES);
        logger.info("Welcome to the Amazon Redshift SDK Basics scenario.");
        logger.info("""
            This Java program demonstrates how to interact with Amazon Redshift by using the AWS SDK for Java (v2).\s
            Amazon Redshift is a fully managed, petabyte-scale data warehouse service hosted in the cloud.
                                                                                
            The program's primary functionalities include cluster creation, verification of cluster readiness,\s
            list databases, table creation, data population within the table, and execution of SQL statements.
            Furthermore, it demonstrates the process of querying data from the Movie table.\s
                    
            Upon completion of the program, all AWS resources are cleaned up.
            """);

        logger.info("Lets get started...");
        logger.info("""
            First, we will retrieve the user name and password from Secrets Manager.
                    
            Using Amazon Secrets Manager to store Redshift credentials provides several security benefits. 
            It allows you to securely store and manage sensitive information, such as passwords, API keys, and 
            database credentials, without embedding them directly in your application code.
            
            More information can be found here: 
            
            https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html
            """);
        Gson gson = new Gson();
        User user = gson.fromJson(String.valueOf(getSecretValues(secretName)), User.class);
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        try {
            runScenario(user, scanner, jsonFilePath);
        } catch (RuntimeException e) {
            e.printStackTrace();
        } catch (Throwable e) {
            throw new RuntimeException(e);
        }
    }

    private static void runScenario(User user, Scanner scanner,  String jsonFilePath) throws Throwable {
        String databaseName = "dev";
        System.out.println(DASHES);
        logger.info("Create a Redshift Cluster");
        logger.info("A Redshift cluster refers to the collection of computing resources and storage that work together to process and analyze large volumes of data.");
        logger.info("Enter a cluster id value or accept the default by hitting Enter (default is redshift-cluster-movies): ");
        String userClusterId = scanner.nextLine();
        String clusterId = userClusterId.isEmpty() ? "redshift-cluster-movies" : userClusterId;
        try {
            CompletableFuture<CreateClusterResponse> future = redshiftActions.createClusterAsync(clusterId, user.getUserName(), user.getUserPassword());
            CreateClusterResponse response = future.join();
            logger.info("Cluster successfully created. Cluster Identifier {} ", response.cluster().clusterIdentifier());

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof ClusterAlreadyExistsException) {
                logger.info("The Cluster {} already exists. Moving on...", clusterId);
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("Wait until {} is available.", clusterId);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = redshiftActions.waitForClusterReadyAsync(clusterId);
            future.join();
            logger.info("Cluster is ready!");

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof RedshiftException redshiftEx) {
                logger.info("Redshift error occurred: Error message: {}, Error code {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        String databaseInfo = """
            When you created $clusteridD, the dev database is created by default and used in this scenario.\s
            
            To create a custom database, you need to have a CREATEDB privilege.\s
            For more information, see the documentation here: https://docs.aws.amazon.com/redshift/latest/dg/r_CREATE_DATABASE.html.
           """.replace("$clusteridD", clusterId);

        logger.info(databaseInfo);
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("List databases in {} ",clusterId);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = redshiftActions.listAllDatabasesAsync(clusterId, user.getUserName(), "dev");
            future.join();
            logger.info("Databases listed successfully.");

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof RedshiftDataException redshiftEx) {
                logger.error("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
            } else {
                logger.error("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("Now you will create a table named Movies.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<ExecuteStatementResponse> future = redshiftActions.createTableAsync(clusterId, databaseName, user.getUserName());
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof RedshiftDataException redshiftEx) {
                logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("Populate the Movies table using the Movies.json file.");
        logger.info("Specify the number of records you would like to add to the Movies Table.");
        logger.info("Please enter a value between 50 and 200.");
        int numRecords;
        do {
            logger.info("Enter a value: ");
            while (!scanner.hasNextInt()) {
                logger.info("Invalid input. Please enter a value between 50 and 200.");
                logger.info("Enter a year: ");
                scanner.next();
            }
            numRecords = scanner.nextInt();
        } while (numRecords < 50 || numRecords > 200);
        try {
            redshiftActions.popTableAsync(clusterId, databaseName, user.getUserName(), jsonFilePath, numRecords).join();  // Wait for the operation to complete
        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof RedshiftDataException redshiftEx) {
                logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("Query the Movies table by year. Enter a value between 2012-2014.");
        int movieYear;
        do {
            logger.info("Enter a year: ");
            while (!scanner.hasNextInt()) {
                logger.info("Invalid input. Please enter a valid year between 2012 and 2014.");
                logger.info("Enter a year: ");
                scanner.next();
            }
            movieYear = scanner.nextInt();
            scanner.nextLine();
        } while (movieYear < 2012 || movieYear > 2014);

        String id;
        try {
            CompletableFuture<String> future = redshiftActions.queryMoviesByYearAsync(databaseName, user.getUserName(), movieYear, clusterId);
            id = future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof RedshiftDataException redshiftEx) {
                logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }

        logger.info("The identifier of the statement is " + id);
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = redshiftActions.checkStatementAsync(id);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof RedshiftDataException redshiftEx) {
                logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = redshiftActions.getResultsAsync(id);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof RedshiftDataException redshiftEx) {
                logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("Now you will modify the Redshift cluster.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<ModifyClusterResponse> future = redshiftActions.modifyClusterAsync(clusterId);;
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof RedshiftDataException redshiftEx) {
                logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: {}", rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("Would you like to delete the Amazon Redshift cluster? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            logger.info("You selected to delete {} ", clusterId);
            waitForInputToContinue(scanner);
            try {
                CompletableFuture<DeleteClusterResponse> future = redshiftActions.deleteRedshiftClusterAsync(clusterId);;
                future.join();

            } catch (RuntimeException rt) {
                Throwable cause = rt.getCause();
                if (cause instanceof RedshiftDataException redshiftEx) {
                    logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode());
                } else {
                    logger.info("An unexpected error occurred: {}", rt.getMessage());
                }
                throw cause;
            }
        } else {
            logger.info("The {}  was not deleted", clusterId);
        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("This concludes the Amazon Redshift SDK Basics scenario.");
        logger.info(DASHES);
    }

    private static SecretsManagerClient getSecretClient() {
        Region region = Region.US_EAST_1;
        return SecretsManagerClient.builder()
            .region(region)
            .build();
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            System.out.println("");
            System.out.println("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                System.out.println("Continuing with the program...");
                System.out.println("");
                break;
            } else {
                // Handle invalid input.
                System.out.println("Invalid input. Please try again.");
            }
        }
    }

    // Get the Amazon Redshift credentials from AWS Secrets Manager.
    private static String getSecretValues(String secretName) {
        SecretsManagerClient secretClient = getSecretClient();
        GetSecretValueRequest valueRequest = GetSecretValueRequest.builder()
            .secretId(secretName)
            .build();

        GetSecretValueResponse valueResponse = secretClient.getSecretValue(valueRequest);
        return valueResponse.secretString();
    }
}
```
Kelas pembungkus untuk metode Amazon Redshift SDK.  

```
public class RedshiftActions {

    private static final Logger logger = LoggerFactory.getLogger(RedshiftActions.class);
    private static RedshiftDataAsyncClient redshiftDataAsyncClient;

    private static RedshiftAsyncClient redshiftAsyncClient;

    private static RedshiftAsyncClient getAsyncClient() {
        if (redshiftAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            redshiftAsyncClient = RedshiftAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return redshiftAsyncClient;
    }

    private static RedshiftDataAsyncClient getAsyncDataClient() {
        if (redshiftDataAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            redshiftDataAsyncClient = RedshiftDataAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return redshiftDataAsyncClient;
    }

    /**
     * Creates a new Amazon Redshift cluster asynchronously.
     * @param clusterId     the unique identifier for the cluster
     * @param username      the username for the administrative user
     * @param userPassword  the password for the administrative user
     * @return a CompletableFuture that represents the asynchronous operation of creating the cluster
     * @throws RuntimeException if the cluster creation fails
     */
    public CompletableFuture<CreateClusterResponse> createClusterAsync(String clusterId, String username, String userPassword) {
        CreateClusterRequest clusterRequest = CreateClusterRequest.builder()
            .clusterIdentifier(clusterId)
            .masterUsername(username)
            .masterUserPassword(userPassword)
            .nodeType("ra3.4xlarge")
            .publiclyAccessible(true)
            .numberOfNodes(2)
            .build();

        return getAsyncClient().createCluster(clusterRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("Created cluster ");
                } else {
                    throw new RuntimeException("Failed to create cluster: " + exception.getMessage(), exception);
                }
            });
    }

    /**
     * Waits asynchronously for the specified cluster to become available.
     * @param clusterId the identifier of the cluster to wait for
     * @return a {@link CompletableFuture} that completes when the cluster is ready
     */
    public CompletableFuture<Void> waitForClusterReadyAsync(String clusterId) {
        DescribeClustersRequest clustersRequest = DescribeClustersRequest.builder()
            .clusterIdentifier(clusterId)
            .build();

        logger.info("Waiting for cluster to become available. This may take a few minutes.");
        long startTime = System.currentTimeMillis();

        // Recursive method to poll the cluster status.
        return checkClusterStatusAsync(clustersRequest, startTime);
    }

    private CompletableFuture<Void> checkClusterStatusAsync(DescribeClustersRequest clustersRequest, long startTime) {
        return getAsyncClient().describeClusters(clustersRequest)
            .thenCompose(clusterResponse -> {
                List<Cluster> clusterList = clusterResponse.clusters();
                boolean clusterReady = false;
                for (Cluster cluster : clusterList) {
                    if ("available".equals(cluster.clusterStatus())) {
                        clusterReady = true;
                        break;
                    }
                }

                if (clusterReady) {
                    logger.info(String.format("Cluster is available!"));
                    return CompletableFuture.completedFuture(null);
                } else {
                    long elapsedTimeMillis = System.currentTimeMillis() - startTime;
                    long elapsedSeconds = elapsedTimeMillis / 1000;
                    long minutes = elapsedSeconds / 60;
                    long seconds = elapsedSeconds % 60;
                    System.out.printf("\rElapsed Time: %02d:%02d - Waiting for cluster...", minutes, seconds);
                    System.out.flush();

                    // Wait 1 second before the next status check
                    return CompletableFuture.runAsync(() -> {
                        try {
                            TimeUnit.SECONDS.sleep(1);
                        } catch (InterruptedException e) {
                            throw new RuntimeException("Error during sleep: " + e.getMessage(), e);
                        }
                    }).thenCompose(ignored -> checkClusterStatusAsync(clustersRequest, startTime));
                }
            }).exceptionally(exception -> {
                throw new RuntimeException("Failed to get cluster status: " + exception.getMessage(), exception);
            });
    }

    /**
     * Lists all databases asynchronously for the specified cluster, database user, and database.
     * @param clusterId the identifier of the cluster to list databases for
     * @param dbUser the database user to use for the list databases request
     * @param database the database to list databases for
     * @return a {@link CompletableFuture} that completes when the database listing is complete, or throws a {@link RuntimeException} if there was an error
     */
    public CompletableFuture<Void> listAllDatabasesAsync(String clusterId, String dbUser, String database) {
        ListDatabasesRequest databasesRequest = ListDatabasesRequest.builder()
            .clusterIdentifier(clusterId)
            .dbUser(dbUser)
            .database(database)
            .build();

        // Asynchronous paginator for listing databases.
        ListDatabasesPublisher databasesPaginator = getAsyncDataClient().listDatabasesPaginator(databasesRequest);
        CompletableFuture<Void> future = databasesPaginator.subscribe(response -> {
            response.databases().forEach(db -> {
                logger.info("The database name is {} ", db);
            });
        });

        // Return the future for asynchronous handling.
        return future.exceptionally(exception -> {
            throw new RuntimeException("Failed to list databases: " + exception.getMessage(), exception);
        });
    }

    /**
     * Creates an asynchronous task to execute a SQL statement for creating a new table.
     *
     * @param clusterId    the identifier of the Amazon Redshift cluster
     * @param databaseName the name of the database to create the table in
     * @param userName     the username to use for the database connection
     * @return a {@link CompletableFuture} that completes with the result of the SQL statement execution
     * @throws RuntimeException if there is an error creating the table
     */
    public CompletableFuture<ExecuteStatementResponse> createTableAsync(String clusterId, String databaseName, String userName) {
        ExecuteStatementRequest createTableRequest = ExecuteStatementRequest.builder()
            .clusterIdentifier(clusterId)
            .dbUser(userName)
            .database(databaseName)
            .sql("CREATE TABLE Movies (" +
                "id INT PRIMARY KEY, " +
                "title VARCHAR(100), " +
                "year INT)")
            .build();

        return getAsyncDataClient().executeStatement(createTableRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Error creating table: " + exception.getMessage(), exception);
                } else {
                    logger.info("Table created: Movies");
                }
            });
    }

    /**
     * Asynchronously pops a table from a JSON file.
     *
     * @param clusterId   the ID of the cluster
     * @param databaseName the name of the database
     * @param userName    the username
     * @param fileName    the name of the JSON file
     * @param number      the number of records to process
     * @return a CompletableFuture that completes with the number of records added to the Movies table
     */
    public CompletableFuture<Integer> popTableAsync(String clusterId, String databaseName, String userName, String fileName, int number) {
        return CompletableFuture.supplyAsync(() -> {
                try {
                    JsonParser parser = new JsonFactory().createParser(new File(fileName));
                    JsonNode rootNode = new ObjectMapper().readTree(parser);
                    Iterator<JsonNode> iter = rootNode.iterator();
                    return iter;
                } catch (IOException e) {
                    throw new RuntimeException("Failed to read or parse JSON file: " + e.getMessage(), e);
                }
            }).thenCompose(iter -> processNodesAsync(clusterId, databaseName, userName, iter, number))
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    logger.info("Error {} ", exception.getMessage());
                } else {
                    logger.info("{} records were added to the Movies table." , result);
                }
            });
    }

    private CompletableFuture<Integer> processNodesAsync(String clusterId, String databaseName, String userName, Iterator<JsonNode> iter, int number) {
        return CompletableFuture.supplyAsync(() -> {
            int t = 0;
            try {
                while (iter.hasNext()) {
                    if (t == number)
                        break;
                    JsonNode currentNode = iter.next();
                    int year = currentNode.get("year").asInt();
                    String title = currentNode.get("title").asText();

                    // Use SqlParameter to avoid SQL injection.
                    List<SqlParameter> parameterList = new ArrayList<>();
                    String sqlStatement = "INSERT INTO Movies VALUES( :id , :title, :year);";
                    SqlParameter idParam = SqlParameter.builder()
                        .name("id")
                        .value(String.valueOf(t))
                        .build();

                    SqlParameter titleParam = SqlParameter.builder()
                        .name("title")
                        .value(title)
                        .build();

                    SqlParameter yearParam = SqlParameter.builder()
                        .name("year")
                        .value(String.valueOf(year))
                        .build();
                    parameterList.add(idParam);
                    parameterList.add(titleParam);
                    parameterList.add(yearParam);

                    ExecuteStatementRequest insertStatementRequest = ExecuteStatementRequest.builder()
                        .clusterIdentifier(clusterId)
                        .sql(sqlStatement)
                        .database(databaseName)
                        .dbUser(userName)
                        .parameters(parameterList)
                        .build();

                    getAsyncDataClient().executeStatement(insertStatementRequest);
                    logger.info("Inserted: " + title + " (" + year + ")");
                    t++;
                }
            } catch (RedshiftDataException e) {
                throw new RuntimeException("Error inserting data: " + e.getMessage(), e);
            }
            return t;
        });
    }

    /**
     * Checks the status of an SQL statement asynchronously and handles the completion of the statement.
     *
     * @param sqlId the ID of the SQL statement to check
     * @return a {@link CompletableFuture} that completes when the SQL statement's status is either "FINISHED" or "FAILED"
     */
    public CompletableFuture<Void> checkStatementAsync(String sqlId) {
        DescribeStatementRequest statementRequest = DescribeStatementRequest.builder()
            .id(sqlId)
            .build();

        return getAsyncDataClient().describeStatement(statementRequest)
            .thenCompose(response -> {
                String status = response.statusAsString();
                logger.info("... Status: {} ", status);

                if ("FAILED".equals(status)) {
                    throw new RuntimeException("The Query Failed. Ending program");
                } else if ("FINISHED".equals(status)) {
                    return CompletableFuture.completedFuture(null);
                } else {
                    // Sleep for 1 second and recheck status
                    return CompletableFuture.runAsync(() -> {
                        try {
                            TimeUnit.SECONDS.sleep(1);
                        } catch (InterruptedException e) {
                            throw new RuntimeException("Error during sleep: " + e.getMessage(), e);
                        }
                    }).thenCompose(ignore -> checkStatementAsync(sqlId)); // Recursively call until status is FINISHED or FAILED
                }
            }).whenComplete((result, exception) -> {
                if (exception != null) {
                    // Handle exceptions
                    logger.info("Error: {} ", exception.getMessage());
                } else {
                    logger.info("The statement is finished!");
                }
            });
    }

    /**
     * Asynchronously retrieves the results of a statement execution.
     *
     * @param statementId the ID of the statement for which to retrieve the results
     * @return a {@link CompletableFuture} that completes when the statement result has been processed
     */
    public CompletableFuture<Void> getResultsAsync(String statementId) {
        GetStatementResultRequest resultRequest = GetStatementResultRequest.builder()
            .id(statementId)
            .build();

        return getAsyncDataClient().getStatementResult(resultRequest)
            .handle((response, exception) -> {
                if (exception != null) {
                    logger.info("Error getting statement result {} ", exception.getMessage());
                    throw new RuntimeException("Error getting statement result: " + exception.getMessage(), exception);
                }

                // Extract and print the field values using streams if the response is valid.
                response.records().stream()
                    .flatMap(List::stream)
                    .map(Field::stringValue)
                    .filter(value -> value != null)
                    .forEach(value -> System.out.println("The Movie title field is " + value));

                return response;
            }).thenAccept(response -> {
                // Optionally add more logic here if needed after handling the response
            });
    }


    /**
     * Asynchronously queries movies by a given year from a Redshift database.
     *
     * @param database    the name of the database to query
     * @param dbUser      the user to connect to the database with
     * @param year        the year to filter the movies by
     * @param clusterId   the identifier of the Redshift cluster to connect to
     * @return a {@link CompletableFuture} containing the response ID of the executed SQL statement
     */
    public CompletableFuture<String> queryMoviesByYearAsync(String database,
                                                                   String dbUser,
                                                                   int year,
                                                                   String clusterId) {

        String sqlStatement = "SELECT * FROM Movies WHERE year = :year";
        SqlParameter yearParam = SqlParameter.builder()
            .name("year")
            .value(String.valueOf(year))
            .build();

        ExecuteStatementRequest statementRequest = ExecuteStatementRequest.builder()
            .clusterIdentifier(clusterId)
            .database(database)
            .dbUser(dbUser)
            .parameters(yearParam)
            .sql(sqlStatement)
            .build();

        return CompletableFuture.supplyAsync(() -> {
            try {
                ExecuteStatementResponse response = getAsyncDataClient().executeStatement(statementRequest).join(); // Use join() to wait for the result
                return response.id();
            } catch (RedshiftDataException e) {
                throw new RuntimeException("Error executing statement: " + e.getMessage(), e);
            }
        }).exceptionally(exception -> {
            logger.info("Error: {}", exception.getMessage());
            return "";
        });
    }

    /**
     * Modifies an Amazon Redshift cluster asynchronously.
     *
     * @param clusterId the identifier of the cluster to be modified
     * @return a {@link CompletableFuture} that completes when the cluster modification is complete
     */
    public CompletableFuture<ModifyClusterResponse> modifyClusterAsync(String clusterId) {
        ModifyClusterRequest modifyClusterRequest = ModifyClusterRequest.builder()
            .clusterIdentifier(clusterId)
            .preferredMaintenanceWindow("wed:07:30-wed:08:00")
            .build();

        return getAsyncClient().modifyCluster(modifyClusterRequest)
            .whenComplete((clusterResponse, exception) -> {
                if (exception != null) {
                    if (exception.getCause() instanceof RedshiftException) {
                        logger.info("Error: {} ", exception.getMessage());
                    } else {
                        logger.info("Unexpected error: {} ", exception.getMessage());
                    }
                } else {
                    logger.info("The modified cluster was successfully modified and has "
                        + clusterResponse.cluster().preferredMaintenanceWindow() + " as the maintenance window");
                }
            });
    }

    /**
     * Deletes a Redshift cluster asynchronously.
     *
     * @param clusterId the identifier of the Redshift cluster to be deleted
     * @return a {@link CompletableFuture} that represents the asynchronous operation of deleting the Redshift cluster
     */
    public CompletableFuture<DeleteClusterResponse> deleteRedshiftClusterAsync(String clusterId) {
        DeleteClusterRequest deleteClusterRequest = DeleteClusterRequest.builder()
            .clusterIdentifier(clusterId)
            .skipFinalClusterSnapshot(true)
            .build();

        return getAsyncClient().deleteCluster(deleteClusterRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    // Handle exceptions
                    if (exception.getCause() instanceof RedshiftException) {
                        logger.info("Error: {}", exception.getMessage());
                    } else {
                        logger.info("Unexpected error: {}", exception.getMessage());
                    }
                } else {
                    // Handle successful response
                    logger.info("The status is {}", response.cluster().clusterStatus());
                }
            });
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/CreateCluster)
  + [DescribeClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/DescribeClusters)
  + [DescribeStatement](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/DescribeStatement)
  + [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/ExecuteStatement)
  + [GetStatementResult](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/GetStatementResult)
  + [ListDatabasesPaginator](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/ListDatabasesPaginator)
  + [ModifyCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/ModifyCluster)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="redshift_CreateCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 
Buat cluster.  

```
    /**
     * Creates a new Amazon Redshift cluster asynchronously.
     * @param clusterId     the unique identifier for the cluster
     * @param username      the username for the administrative user
     * @param userPassword  the password for the administrative user
     * @return a CompletableFuture that represents the asynchronous operation of creating the cluster
     * @throws RuntimeException if the cluster creation fails
     */
    public CompletableFuture<CreateClusterResponse> createClusterAsync(String clusterId, String username, String userPassword) {
        CreateClusterRequest clusterRequest = CreateClusterRequest.builder()
            .clusterIdentifier(clusterId)
            .masterUsername(username)
            .masterUserPassword(userPassword)
            .nodeType("ra3.4xlarge")
            .publiclyAccessible(true)
            .numberOfNodes(2)
            .build();

        return getAsyncClient().createCluster(clusterRequest)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("Created cluster ");
                } else {
                    throw new RuntimeException("Failed to create cluster: " + exception.getMessage(), exception);
                }
            });
    }
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/CreateCluster)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteCluster`
<a name="redshift_DeleteCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 
Hapus klaster .  

```
    /**
     * Deletes a Redshift cluster asynchronously.
     *
     * @param clusterId the identifier of the Redshift cluster to be deleted
     * @return a {@link CompletableFuture} that represents the asynchronous operation of deleting the Redshift cluster
     */
    public CompletableFuture<DeleteClusterResponse> deleteRedshiftClusterAsync(String clusterId) {
        DeleteClusterRequest deleteClusterRequest = DeleteClusterRequest.builder()
            .clusterIdentifier(clusterId)
            .skipFinalClusterSnapshot(true)
            .build();

        return getAsyncClient().deleteCluster(deleteClusterRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    // Handle exceptions
                    if (exception.getCause() instanceof RedshiftException) {
                        logger.info("Error: {}", exception.getMessage());
                    } else {
                        logger.info("Unexpected error: {}", exception.getMessage());
                    }
                } else {
                    // Handle successful response
                    logger.info("The status is {}", response.cluster().clusterStatus());
                }
            });
    }
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/DeleteCluster)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeClusters`
<a name="redshift_DescribeClusters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 
Jelaskan cluster.  

```
    /**
     * Waits asynchronously for the specified cluster to become available.
     * @param clusterId the identifier of the cluster to wait for
     * @return a {@link CompletableFuture} that completes when the cluster is ready
     */
    public CompletableFuture<Void> waitForClusterReadyAsync(String clusterId) {
        DescribeClustersRequest clustersRequest = DescribeClustersRequest.builder()
            .clusterIdentifier(clusterId)
            .build();

        logger.info("Waiting for cluster to become available. This may take a few minutes.");
        long startTime = System.currentTimeMillis();

        // Recursive method to poll the cluster status.
        return checkClusterStatusAsync(clustersRequest, startTime);
    }

    private CompletableFuture<Void> checkClusterStatusAsync(DescribeClustersRequest clustersRequest, long startTime) {
        return getAsyncClient().describeClusters(clustersRequest)
            .thenCompose(clusterResponse -> {
                List<Cluster> clusterList = clusterResponse.clusters();
                boolean clusterReady = false;
                for (Cluster cluster : clusterList) {
                    if ("available".equals(cluster.clusterStatus())) {
                        clusterReady = true;
                        break;
                    }
                }

                if (clusterReady) {
                    logger.info(String.format("Cluster is available!"));
                    return CompletableFuture.completedFuture(null);
                } else {
                    long elapsedTimeMillis = System.currentTimeMillis() - startTime;
                    long elapsedSeconds = elapsedTimeMillis / 1000;
                    long minutes = elapsedSeconds / 60;
                    long seconds = elapsedSeconds % 60;
                    System.out.printf("\rElapsed Time: %02d:%02d - Waiting for cluster...", minutes, seconds);
                    System.out.flush();

                    // Wait 1 second before the next status check
                    return CompletableFuture.runAsync(() -> {
                        try {
                            TimeUnit.SECONDS.sleep(1);
                        } catch (InterruptedException e) {
                            throw new RuntimeException("Error during sleep: " + e.getMessage(), e);
                        }
                    }).thenCompose(ignored -> checkClusterStatusAsync(clustersRequest, startTime));
                }
            }).exceptionally(exception -> {
                throw new RuntimeException("Failed to get cluster status: " + exception.getMessage(), exception);
            });
    }
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/DescribeClusters)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeStatement`
<a name="redshift_DescribeStatement_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStatement`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 

```
    /**
     * Checks the status of an SQL statement asynchronously and handles the completion of the statement.
     *
     * @param sqlId the ID of the SQL statement to check
     * @return a {@link CompletableFuture} that completes when the SQL statement's status is either "FINISHED" or "FAILED"
     */
    public CompletableFuture<Void> checkStatementAsync(String sqlId) {
        DescribeStatementRequest statementRequest = DescribeStatementRequest.builder()
            .id(sqlId)
            .build();

        return getAsyncDataClient().describeStatement(statementRequest)
            .thenCompose(response -> {
                String status = response.statusAsString();
                logger.info("... Status: {} ", status);

                if ("FAILED".equals(status)) {
                    throw new RuntimeException("The Query Failed. Ending program");
                } else if ("FINISHED".equals(status)) {
                    return CompletableFuture.completedFuture(null);
                } else {
                    // Sleep for 1 second and recheck status
                    return CompletableFuture.runAsync(() -> {
                        try {
                            TimeUnit.SECONDS.sleep(1);
                        } catch (InterruptedException e) {
                            throw new RuntimeException("Error during sleep: " + e.getMessage(), e);
                        }
                    }).thenCompose(ignore -> checkStatementAsync(sqlId)); // Recursively call until status is FINISHED or FAILED
                }
            }).whenComplete((result, exception) -> {
                if (exception != null) {
                    // Handle exceptions
                    logger.info("Error: {} ", exception.getMessage());
                } else {
                    logger.info("The statement is finished!");
                }
            });
    }
```
+  Untuk detail API, lihat [DescribeStatement](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/DescribeStatement)di *Referensi AWS SDK for Java 2.x API*. 

### `ExecuteStatement`
<a name="redshift_ExecuteStatement_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 
Mengeksekusi pernyataan SQL untuk membuat tabel database.  

```
    /**
     * Creates an asynchronous task to execute a SQL statement for creating a new table.
     *
     * @param clusterId    the identifier of the Amazon Redshift cluster
     * @param databaseName the name of the database to create the table in
     * @param userName     the username to use for the database connection
     * @return a {@link CompletableFuture} that completes with the result of the SQL statement execution
     * @throws RuntimeException if there is an error creating the table
     */
    public CompletableFuture<ExecuteStatementResponse> createTableAsync(String clusterId, String databaseName, String userName) {
        ExecuteStatementRequest createTableRequest = ExecuteStatementRequest.builder()
            .clusterIdentifier(clusterId)
            .dbUser(userName)
            .database(databaseName)
            .sql("CREATE TABLE Movies (" +
                "id INT PRIMARY KEY, " +
                "title VARCHAR(100), " +
                "year INT)")
            .build();

        return getAsyncDataClient().executeStatement(createTableRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    throw new RuntimeException("Error creating table: " + exception.getMessage(), exception);
                } else {
                    logger.info("Table created: Movies");
                }
            });
    }
```
Mengeksekusi pernyataan SQL untuk memasukkan data ke dalam tabel database.  

```
    /**
     * Asynchronously pops a table from a JSON file.
     *
     * @param clusterId   the ID of the cluster
     * @param databaseName the name of the database
     * @param userName    the username
     * @param fileName    the name of the JSON file
     * @param number      the number of records to process
     * @return a CompletableFuture that completes with the number of records added to the Movies table
     */
    public CompletableFuture<Integer> popTableAsync(String clusterId, String databaseName, String userName, String fileName, int number) {
        return CompletableFuture.supplyAsync(() -> {
                try {
                    JsonParser parser = new JsonFactory().createParser(new File(fileName));
                    JsonNode rootNode = new ObjectMapper().readTree(parser);
                    Iterator<JsonNode> iter = rootNode.iterator();
                    return iter;
                } catch (IOException e) {
                    throw new RuntimeException("Failed to read or parse JSON file: " + e.getMessage(), e);
                }
            }).thenCompose(iter -> processNodesAsync(clusterId, databaseName, userName, iter, number))
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    logger.info("Error {} ", exception.getMessage());
                } else {
                    logger.info("{} records were added to the Movies table." , result);
                }
            });
    }

    private CompletableFuture<Integer> processNodesAsync(String clusterId, String databaseName, String userName, Iterator<JsonNode> iter, int number) {
        return CompletableFuture.supplyAsync(() -> {
            int t = 0;
            try {
                while (iter.hasNext()) {
                    if (t == number)
                        break;
                    JsonNode currentNode = iter.next();
                    int year = currentNode.get("year").asInt();
                    String title = currentNode.get("title").asText();

                    // Use SqlParameter to avoid SQL injection.
                    List<SqlParameter> parameterList = new ArrayList<>();
                    String sqlStatement = "INSERT INTO Movies VALUES( :id , :title, :year);";
                    SqlParameter idParam = SqlParameter.builder()
                        .name("id")
                        .value(String.valueOf(t))
                        .build();

                    SqlParameter titleParam = SqlParameter.builder()
                        .name("title")
                        .value(title)
                        .build();

                    SqlParameter yearParam = SqlParameter.builder()
                        .name("year")
                        .value(String.valueOf(year))
                        .build();
                    parameterList.add(idParam);
                    parameterList.add(titleParam);
                    parameterList.add(yearParam);

                    ExecuteStatementRequest insertStatementRequest = ExecuteStatementRequest.builder()
                        .clusterIdentifier(clusterId)
                        .sql(sqlStatement)
                        .database(databaseName)
                        .dbUser(userName)
                        .parameters(parameterList)
                        .build();

                    getAsyncDataClient().executeStatement(insertStatementRequest);
                    logger.info("Inserted: " + title + " (" + year + ")");
                    t++;
                }
            } catch (RedshiftDataException e) {
                throw new RuntimeException("Error inserting data: " + e.getMessage(), e);
            }
            return t;
        });
    }
```
Mengeksekusi pernyataan SQL untuk query tabel database.  

```
    /**
     * Asynchronously queries movies by a given year from a Redshift database.
     *
     * @param database    the name of the database to query
     * @param dbUser      the user to connect to the database with
     * @param year        the year to filter the movies by
     * @param clusterId   the identifier of the Redshift cluster to connect to
     * @return a {@link CompletableFuture} containing the response ID of the executed SQL statement
     */
    public CompletableFuture<String> queryMoviesByYearAsync(String database,
                                                                   String dbUser,
                                                                   int year,
                                                                   String clusterId) {

        String sqlStatement = "SELECT * FROM Movies WHERE year = :year";
        SqlParameter yearParam = SqlParameter.builder()
            .name("year")
            .value(String.valueOf(year))
            .build();

        ExecuteStatementRequest statementRequest = ExecuteStatementRequest.builder()
            .clusterIdentifier(clusterId)
            .database(database)
            .dbUser(dbUser)
            .parameters(yearParam)
            .sql(sqlStatement)
            .build();

        return CompletableFuture.supplyAsync(() -> {
            try {
                ExecuteStatementResponse response = getAsyncDataClient().executeStatement(statementRequest).join(); // Use join() to wait for the result
                return response.id();
            } catch (RedshiftDataException e) {
                throw new RuntimeException("Error executing statement: " + e.getMessage(), e);
            }
        }).exceptionally(exception -> {
            logger.info("Error: {}", exception.getMessage());
            return "";
        });
    }
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/ExecuteStatement)di *Referensi AWS SDK for Java 2.x API*. 

### `GetStatementResult`
<a name="redshift_GetStatementResult_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetStatementResult`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 
Periksa hasil pernyataan.  

```
    /**
     * Asynchronously retrieves the results of a statement execution.
     *
     * @param statementId the ID of the statement for which to retrieve the results
     * @return a {@link CompletableFuture} that completes when the statement result has been processed
     */
    public CompletableFuture<Void> getResultsAsync(String statementId) {
        GetStatementResultRequest resultRequest = GetStatementResultRequest.builder()
            .id(statementId)
            .build();

        return getAsyncDataClient().getStatementResult(resultRequest)
            .handle((response, exception) -> {
                if (exception != null) {
                    logger.info("Error getting statement result {} ", exception.getMessage());
                    throw new RuntimeException("Error getting statement result: " + exception.getMessage(), exception);
                }

                // Extract and print the field values using streams if the response is valid.
                response.records().stream()
                    .flatMap(List::stream)
                    .map(Field::stringValue)
                    .filter(value -> value != null)
                    .forEach(value -> System.out.println("The Movie title field is " + value));

                return response;
            }).thenAccept(response -> {
                // Optionally add more logic here if needed after handling the response
            });
    }
```
+  Untuk detail API, lihat [GetStatementResult](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/GetStatementResult)di *Referensi AWS SDK for Java 2.x API*. 

### `ListDatabases`
<a name="redshift_ListDatabases_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatabases`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 

```
    /**
     * Lists all databases asynchronously for the specified cluster, database user, and database.
     * @param clusterId the identifier of the cluster to list databases for
     * @param dbUser the database user to use for the list databases request
     * @param database the database to list databases for
     * @return a {@link CompletableFuture} that completes when the database listing is complete, or throws a {@link RuntimeException} if there was an error
     */
    public CompletableFuture<Void> listAllDatabasesAsync(String clusterId, String dbUser, String database) {
        ListDatabasesRequest databasesRequest = ListDatabasesRequest.builder()
            .clusterIdentifier(clusterId)
            .dbUser(dbUser)
            .database(database)
            .build();

        // Asynchronous paginator for listing databases.
        ListDatabasesPublisher databasesPaginator = getAsyncDataClient().listDatabasesPaginator(databasesRequest);
        CompletableFuture<Void> future = databasesPaginator.subscribe(response -> {
            response.databases().forEach(db -> {
                logger.info("The database name is {} ", db);
            });
        });

        // Return the future for asynchronous handling.
        return future.exceptionally(exception -> {
            throw new RuntimeException("Failed to list databases: " + exception.getMessage(), exception);
        });
    }
```
+  Untuk detail API, lihat [ListDatabases](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/ListDatabases)di *Referensi AWS SDK for Java 2.x API*. 

### `ModifyCluster`
<a name="redshift_ModifyCluster_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyCluster`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/redshift#code-examples). 
Memodifikasi cluster.  

```
    /**
     * Modifies an Amazon Redshift cluster asynchronously.
     *
     * @param clusterId the identifier of the cluster to be modified
     * @return a {@link CompletableFuture} that completes when the cluster modification is complete
     */
    public CompletableFuture<ModifyClusterResponse> modifyClusterAsync(String clusterId) {
        ModifyClusterRequest modifyClusterRequest = ModifyClusterRequest.builder()
            .clusterIdentifier(clusterId)
            .preferredMaintenanceWindow("wed:07:30-wed:08:00")
            .build();

        return getAsyncClient().modifyCluster(modifyClusterRequest)
            .whenComplete((clusterResponse, exception) -> {
                if (exception != null) {
                    if (exception.getCause() instanceof RedshiftException) {
                        logger.info("Error: {} ", exception.getMessage());
                    } else {
                        logger.info("Unexpected error: {} ", exception.getMessage());
                    }
                } else {
                    logger.info("The modified cluster was successfully modified and has "
                        + clusterResponse.cluster().preferredMaintenanceWindow() + " as the maintenance window");
                }
            });
    }
```
+  Untuk detail API, lihat [ModifyCluster](https://docs.aws.amazon.com/goto/SdkForJavaV2/redshift-2012-12-01/ModifyCluster)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi web untuk melacak data Amazon Redshift
<a name="cross_RedshiftDataTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak dan melaporkan item pekerjaan menggunakan database Amazon Redshift.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan item pekerjaan yang disimpan dalam database Amazon Redshift.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Redshift dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/CreatingSpringRedshiftRest)   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Redshift
+ Amazon SES

# Contoh Amazon Rekognition menggunakan SDK for Java 2.x
<a name="java_2_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x With Amazon Rekognition.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CompareFaces`
<a name="rekognition_CompareFaces_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompareFaces`.

Untuk informasi selengkapnya, lihat [Membandingkan wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-comparefaces.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.*;
import software.amazon.awssdk.core.SdkBytes;

import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CompareFaces {
    public static void main(String[] args) {
        final String usage = """
            Usage: <bucketName> <sourceKey> <targetKey>
           
            Where:
                bucketName - The name of the S3 bucket where the images are stored.
                sourceKey  - The S3 key (file name) for the source image.
                targetKey  - The S3 key (file name) for the target image.
           """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String sourceKey = args[1];
        String targetKey = args[2];

        Region region = Region.US_WEST_2;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();
        compareTwoFaces(rekClient, bucketName, sourceKey, targetKey);
     }

    /**
     * Compares two faces from images stored in an Amazon S3 bucket using AWS Rekognition.
     *
     * <p>This method takes two image keys from an S3 bucket and compares the faces within them.
     * It prints out the confidence level of matched faces and reports the number of unmatched faces.</p>
     *
     * @param rekClient   The {@link RekognitionClient} used to call AWS Rekognition.
     * @param bucketName  The name of the S3 bucket containing the images.
     * @param sourceKey   The object key (file path) for the source image in the S3 bucket.
     * @param targetKey   The object key (file path) for the target image in the S3 bucket.
     * @throws RuntimeException If the Rekognition service returns an error.
     */
    public static void compareTwoFaces(RekognitionClient rekClient, String bucketName, String sourceKey, String targetKey) {
        try {
            Float similarityThreshold = 70F;
            S3Object s3ObjectSource = S3Object.builder()
                    .bucket(bucketName)
                    .name(sourceKey)
                    .build();

            Image sourceImage = Image.builder()
                    .s3Object(s3ObjectSource)
                    .build();

            S3Object s3ObjectTarget = S3Object.builder()
                    .bucket(bucketName)
                    .name(targetKey)
                    .build();

            Image targetImage = Image.builder()
                    .s3Object(s3ObjectTarget)
                    .build();

            CompareFacesRequest facesRequest = CompareFacesRequest.builder()
                    .sourceImage(sourceImage)
                    .targetImage(targetImage)
                    .similarityThreshold(similarityThreshold)
                    .build();

            // Compare the two images.
            CompareFacesResponse compareFacesResult = rekClient.compareFaces(facesRequest);
            List<CompareFacesMatch> faceDetails = compareFacesResult.faceMatches();

            for (CompareFacesMatch match : faceDetails) {
                ComparedFace face = match.face();
                BoundingBox position = face.boundingBox();
                System.out.println("Face at " + position.left().toString()
                        + " " + position.top()
                        + " matches with " + face.confidence().toString()
                        + "% confidence.");
            }

            List<ComparedFace> unmatchedFaces = compareFacesResult.unmatchedFaces();
            System.out.println("There were " + unmatchedFaces.size() + " face(s) that did not match.");

        } catch (RekognitionException e) {
            System.err.println("Error comparing faces: " + e.awsErrorDetails().errorMessage());
            throw new RuntimeException(e);
        }
    }
}
```
+  Untuk detail API, lihat [CompareFaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/CompareFaces)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateCollection`
<a name="rekognition_CreateCollection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCollection`.

Untuk informasi selengkapnya, lihat [Membuat koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/create-collection-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.CreateCollectionResponse;
import software.amazon.awssdk.services.rekognition.model.CreateCollectionRequest;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateCollection {
    public static void main(String[] args) {
        final String usage = """

            Usage: <collectionName>\s

            Where:
                collectionName - The name of the collection.\s
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionId = args[0];
        Region region = Region.US_WEST_2;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        System.out.println("Creating collection: " + collectionId);
        createMyCollection(rekClient, collectionId);
        rekClient.close();
    }

    /**
     * Creates a new Amazon Rekognition collection.
     *
     * @param rekClient    the Amazon Rekognition client used to interact with the Rekognition service
     * @param collectionId the unique identifier for the collection to be created
     */
    public static void createMyCollection(RekognitionClient rekClient, String collectionId) {
        try {
            CreateCollectionRequest collectionRequest = CreateCollectionRequest.builder()
                    .collectionId(collectionId)
                    .build();

            CreateCollectionResponse collectionResponse = rekClient.createCollection(collectionRequest);
            System.out.println("CollectionArn: " + collectionResponse.collectionArn());
            System.out.println("Status code: " + collectionResponse.statusCode().toString());

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/CreateCollection)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteCollection`
<a name="rekognition_DeleteCollection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCollection`.

Untuk informasi selengkapnya, lihat [Menghapus koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-collection-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.DeleteCollectionRequest;
import software.amazon.awssdk.services.rekognition.model.DeleteCollectionResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteCollection {
    public static void main(String[] args) {
        final String usage = """
            Usage: <collectionId>\s

            Where:
                collectionId - The id of the collection to delete.\s
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionId = args[0];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        System.out.println("Deleting collection: " + collectionId);
        deleteMyCollection(rekClient, collectionId);
        rekClient.close();
    }

    /**
     * Deletes an Amazon Rekognition collection.
     *
     * @param rekClient      An instance of the {@link RekognitionClient} class, which is used to interact with the Amazon Rekognition service.
     * @param collectionId   The ID of the collection to be deleted.
     */
    public static void deleteMyCollection(RekognitionClient rekClient, String collectionId) {
        try {
            DeleteCollectionRequest deleteCollectionRequest = DeleteCollectionRequest.builder()
                    .collectionId(collectionId)
                    .build();

            DeleteCollectionResponse deleteCollectionResponse = rekClient.deleteCollection(deleteCollectionRequest);
            System.out.println(collectionId + ": " + deleteCollectionResponse.statusCode().toString());

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/DeleteCollection)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteFaces`
<a name="rekognition_DeleteFaces_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFaces`.

Untuk informasi selengkapnya, lihat [Menghapus wajah dari koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-faces-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.DeleteFacesRequest;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteFacesFromCollection {
    public static void main(String[] args) {
        final String usage = """
            Usage: <collectionId> <faceId>\s

            Where:
                collectionId - The id of the collection from which faces are deleted.\s
                faceId - The id of the face to delete.\s
           """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionId = args[0];
        String faceId = args[1];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        System.out.println("Deleting collection: " + collectionId);
        deleteFacesCollection(rekClient, collectionId, faceId);
        rekClient.close();
    }

    /**
     * Deletes a face from the specified Amazon Rekognition collection.
     *
     * @param rekClient     an instance of the Amazon Rekognition client
     * @param collectionId  the ID of the collection from which the face should be deleted
     * @param faceId        the ID of the face to be deleted
     * @throws RekognitionException if an error occurs while deleting the face
     */
    public static void deleteFacesCollection(RekognitionClient rekClient,
            String collectionId,
            String faceId) {

        try {
            DeleteFacesRequest deleteFacesRequest = DeleteFacesRequest.builder()
                    .collectionId(collectionId)
                    .faceIds(faceId)
                    .build();

            rekClient.deleteFaces(deleteFacesRequest);
            System.out.println("The face was deleted from the collection.");

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteFaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/DeleteFaces)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeCollection`
<a name="rekognition_DescribeCollection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCollection`.

Untuk informasi selengkapnya, lihat [Menjelaskan koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/describe-collection-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.DescribeCollectionRequest;
import software.amazon.awssdk.services.rekognition.model.DescribeCollectionResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DescribeCollection {
    public static void main(String[] args) {
        final String usage = """
            Usage:    <collectionName>

            Where:
                collectionName - The name of the Amazon Rekognition collection.\s
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionName = args[0];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        describeColl(rekClient, collectionName);
        rekClient.close();
    }

    /**
     * Describes an Amazon Rekognition collection.
     *
     * @param rekClient         The Amazon Rekognition client used to make the request.
     * @param collectionName    The name of the collection to describe.
     *
     * @throws RekognitionException If an error occurs while describing the collection.
     */
    public static void describeColl(RekognitionClient rekClient, String collectionName) {
        try {
            DescribeCollectionRequest describeCollectionRequest = DescribeCollectionRequest.builder()
                    .collectionId(collectionName)
                    .build();

            DescribeCollectionResponse describeCollectionResponse = rekClient
                    .describeCollection(describeCollectionRequest);
            System.out.println("Collection Arn : " + describeCollectionResponse.collectionARN());
            System.out.println("Created : " + describeCollectionResponse.creationTimestamp().toString());

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeCollection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/DescribeCollection)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectFaces`
<a name="rekognition_DetectFaces_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectFaces`.

Untuk informasi selengkapnya, lihat [Mendeteksi wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-detect-images.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.*;

import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectFaces {
    public static void main(String[] args) {
        final String usage = """
                
            Usage:   <bucketName> <sourceImage>
                
            Where:
                bucketName = The name of the Amazon S3 bucket where the source image is stored.
                sourceImage - The name of the source image file in the Amazon S3 bucket. (for example, pic1.png).\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String sourceImage = args[1];
        Region region = Region.US_WEST_2;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        detectFacesinImage(rekClient, bucketName, sourceImage);
        rekClient.close();
    }

    /**
     * Detects faces in an image stored in an Amazon S3 bucket using the Amazon Rekognition service.
     *
     * @param rekClient    The Amazon Rekognition client used to interact with the Rekognition service.
     * @param bucketName   The name of the Amazon S3 bucket where the source image is stored.
     * @param sourceImage  The name of the source image file in the Amazon S3 bucket.
     */
    public static void detectFacesinImage(RekognitionClient rekClient, String bucketName, String sourceImage) {
        try {
            S3Object s3ObjectTarget = S3Object.builder()
                .bucket(bucketName)
                .name(sourceImage)
                .build();

            Image targetImage = Image.builder()
                .s3Object(s3ObjectTarget)
                .build();

            DetectFacesRequest facesRequest = DetectFacesRequest.builder()
                .attributes(Attribute.ALL)
                .image(targetImage)
                .build();

            DetectFacesResponse facesResponse = rekClient.detectFaces(facesRequest);
            List<FaceDetail> faceDetails = facesResponse.faceDetails();
            for (FaceDetail face : faceDetails) {
                AgeRange ageRange = face.ageRange();
                System.out.println("The detected face is estimated to be between "
                        + ageRange.low().toString() + " and " + ageRange.high().toString()
                        + " years old.");

                System.out.println("There is a smile : " + face.smile().value().toString());
            }

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectFaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/DetectFaces)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectLabels`
<a name="rekognition_DetectLabels_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi label dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detect-labels-image.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.*;

import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectLabels {
    public static void main(String[] args) {
        final String usage = """
            Usage: <bucketName> <sourceImage>

            Where:
                bucketName - The name of the Amazon S3 bucket where the image is stored
                sourceImage - The name of the image file (for example, pic1.png).\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0] ;
        String sourceImage = args[1] ;
        Region region = Region.US_WEST_2;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        detectImageLabels(rekClient, bucketName, sourceImage);
        rekClient.close();
    }

    /**
     * Detects the labels in an image stored in an Amazon S3 bucket using the Amazon Rekognition service.
     *
     * @param rekClient     the Amazon Rekognition client used to make the detection request
     * @param bucketName    the name of the Amazon S3 bucket where the image is stored
     * @param sourceImage   the name of the image file to be analyzed
     */
    public static void detectImageLabels(RekognitionClient rekClient, String bucketName, String sourceImage) {
        try {
            S3Object s3ObjectTarget = S3Object.builder()
                    .bucket(bucketName)
                    .name(sourceImage)
                    .build();

            Image souImage = Image.builder()
                    .s3Object(s3ObjectTarget)
                    .build();

            DetectLabelsRequest detectLabelsRequest = DetectLabelsRequest.builder()
                    .image(souImage)
                    .maxLabels(10)
                    .build();

            DetectLabelsResponse labelsResponse = rekClient.detectLabels(detectLabelsRequest);
            List<Label> labels = labelsResponse.labels();
            System.out.println("Detected labels for the given photo");
            for (Label label : labels) {
                System.out.println(label.name() + ": " + label.confidence().toString());
            }

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectLabels](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/DetectLabels)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectModerationLabels`
<a name="rekognition_DetectModerationLabels_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectModerationLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi gambar yang tidak pantas](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-images.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.*;

import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectModerationLabels {

    public static void main(String[] args) {
        final String usage = """
            Usage:  <bucketName>  <sourceImage>

            Where:
                bucketName - The name of the S3 bucket where the images are stored.
                sourceImage - The name of the image (for example, pic1.png).\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String sourceImage = args[1];
        Region region = Region.US_WEST_2;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        detectModLabels(rekClient, bucketName, sourceImage);
        rekClient.close();
    }

    /**
     * Detects moderation labels in an image stored in an Amazon S3 bucket.
     *
     * @param rekClient      the Amazon Rekognition client to use for the detection
     * @param bucketName     the name of the Amazon S3 bucket where the image is stored
     * @param sourceImage    the name of the image file to be analyzed
     *
     * @throws RekognitionException if there is an error during the image detection process
     */
    public static void detectModLabels(RekognitionClient rekClient, String bucketName, String sourceImage) {
        try {
            S3Object s3ObjectTarget = S3Object.builder()
                    .bucket(bucketName)
                    .name(sourceImage)
                    .build();

            Image targetImage = Image.builder()
                    .s3Object(s3ObjectTarget)
                    .build();

            DetectModerationLabelsRequest moderationLabelsRequest = DetectModerationLabelsRequest.builder()
                    .image(targetImage)
                    .minConfidence(60F)
                    .build();

            DetectModerationLabelsResponse moderationLabelsResponse = rekClient
                    .detectModerationLabels(moderationLabelsRequest);
            List<ModerationLabel> labels = moderationLabelsResponse.moderationLabels();
            System.out.println("Detected labels for image");
            for (ModerationLabel label : labels) {
                System.out.println("Label: " + label.name()
                        + "\n Confidence: " + label.confidence().toString() + "%"
                        + "\n Parent:" + label.parentName());
            }

        } catch (RekognitionException e) {
            e.printStackTrace();
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectModerationLabels](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/DetectModerationLabels)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectText`
<a name="rekognition_DetectText_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectText`.

Untuk informasi selengkapnya, lihat [Mendeteksi teks dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/text-detecting-text-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.*;

import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectText {
    public static void main(String[] args) {
        final String usage = "\n" +
            "Usage:   <bucketName> <sourceImage>\n" +
            "\n" +
            "Where:\n" +
            "   bucketName - The name of the S3 bucket where the image is stored\n" +
            "   sourceImage - The path to the image that contains text (for example, pic1.png). \n";

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String sourceImage = args[1];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        detectTextLabels(rekClient, bucketName, sourceImage);
        rekClient.close();
    }

    /**
     * Detects text labels in an image stored in an S3 bucket using Amazon Rekognition.
     *
     * @param rekClient    an instance of the Amazon Rekognition client
     * @param bucketName   the name of the S3 bucket where the image is stored
     * @param sourceImage  the name of the image file in the S3 bucket
     * @throws RekognitionException if an error occurs while calling the Amazon Rekognition API
     */
    public static void detectTextLabels(RekognitionClient rekClient, String bucketName, String sourceImage) {
        try {
            S3Object s3ObjectTarget = S3Object.builder()
                    .bucket(bucketName)
                    .name(sourceImage)
                    .build();

            Image souImage = Image.builder()
                    .s3Object(s3ObjectTarget)
                    .build();

            DetectTextRequest textRequest = DetectTextRequest.builder()
                    .image(souImage)
                    .build();

            DetectTextResponse textResponse = rekClient.detectText(textRequest);
            List<TextDetection> textCollection = textResponse.textDetections();
            System.out.println("Detected lines and words");
            for (TextDetection text : textCollection) {
                System.out.println("Detected: " + text.detectedText());
                System.out.println("Confidence: " + text.confidence().toString());
                System.out.println("Id : " + text.id());
                System.out.println("Parent Id: " + text.parentId());
                System.out.println("Type: " + text.type());
                System.out.println();
            }

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectText](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/DetectText)di *Referensi AWS SDK for Java 2.x API*. 

### `IndexFaces`
<a name="rekognition_IndexFaces_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`IndexFaces`.

Untuk informasi selengkapnya, lihat [Menambahkan wajah ke koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/add-faces-to-collection-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.*;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class AddFacesToCollection {
    public static void main(String[] args) {
        final String usage = """
            Usage: <collectionId> <sourceImage> <bucketName>

            Where:
                collectionName - The name of the collection.
                sourceImage - The name of the image (for example, pic1.png).
                bucketName - The name of the S3 bucket.
            """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionId = args[0];
        String sourceImage = args[1];
        String bucketName = args[2];;
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        addToCollection(rekClient, collectionId, bucketName, sourceImage);
        rekClient.close();
    }

    /**
     * Adds a face from an image to an Amazon Rekognition collection.
     *
     * @param rekClient     the Amazon Rekognition client
     * @param collectionId  the ID of the collection to add the face to
     * @param bucketName    the name of the Amazon S3 bucket containing the image
     * @param sourceImage   the name of the image file to add to the collection
     * @throws RekognitionException if there is an error while interacting with the Amazon Rekognition service
     */
    public static void addToCollection(RekognitionClient rekClient, String collectionId, String bucketName, String sourceImage) {
        try {
            S3Object s3ObjectTarget = S3Object.builder()
                    .bucket(bucketName)
                    .name(sourceImage)
                    .build();

            Image targetImage = Image.builder()
                    .s3Object(s3ObjectTarget)
                    .build();

            IndexFacesRequest facesRequest = IndexFacesRequest.builder()
                    .collectionId(collectionId)
                    .image(targetImage)
                    .maxFaces(1)
                    .qualityFilter(QualityFilter.AUTO)
                    .detectionAttributes(Attribute.DEFAULT)
                    .build();

            IndexFacesResponse facesResponse = rekClient.indexFaces(facesRequest);
            System.out.println("Results for the image");
            System.out.println("\n Faces indexed:");
            List<FaceRecord> faceRecords = facesResponse.faceRecords();
            for (FaceRecord faceRecord : faceRecords) {
                System.out.println("  Face ID: " + faceRecord.face().faceId());
                System.out.println("  Location:" + faceRecord.faceDetail().boundingBox().toString());
            }

            List<UnindexedFace> unindexedFaces = facesResponse.unindexedFaces();
            System.out.println("Faces not indexed:");
            for (UnindexedFace unindexedFace : unindexedFaces) {
                System.out.println("  Location:" + unindexedFace.faceDetail().boundingBox().toString());
                System.out.println("  Reasons:");
                for (Reason reason : unindexedFace.reasons()) {
                    System.out.println("Reason:  " + reason);
                }
            }

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [IndexFaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/IndexFaces)di *Referensi AWS SDK for Java 2.x API*. 

### `ListCollections`
<a name="rekognition_ListCollections_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCollections`.

Untuk informasi selengkapnya, lihat [Daftar koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-collection-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.ListCollectionsRequest;
import software.amazon.awssdk.services.rekognition.model.ListCollectionsResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListCollections {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        System.out.println("Listing collections");
        listAllCollections(rekClient);
        rekClient.close();
    }

    public static void listAllCollections(RekognitionClient rekClient) {
        try {
            ListCollectionsRequest listCollectionsRequest = ListCollectionsRequest.builder()
                    .maxResults(10)
                    .build();

            ListCollectionsResponse response = rekClient.listCollections(listCollectionsRequest);
            List<String> collectionIds = response.collectionIds();
            for (String resultId : collectionIds) {
                System.out.println(resultId);
            }

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListCollections](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/ListCollections)di *Referensi AWS SDK for Java 2.x API*. 

### `ListFaces`
<a name="rekognition_ListFaces_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFaces`.

Untuk informasi selengkapnya, lihat [Daftar wajah dalam koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-faces-in-collection-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.Face;
import software.amazon.awssdk.services.rekognition.model.ListFacesRequest;
import software.amazon.awssdk.services.rekognition.model.ListFacesResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListFacesInCollection {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <collectionId>

                Where:
                   collectionId - The name of the collection.\s
                """;

        if (args.length < 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionId = args[0];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        System.out.println("Faces in collection " + collectionId);
        listFacesCollection(rekClient, collectionId);
        rekClient.close();
    }

    public static void listFacesCollection(RekognitionClient rekClient, String collectionId) {
        try {
            ListFacesRequest facesRequest = ListFacesRequest.builder()
                    .collectionId(collectionId)
                    .maxResults(10)
                    .build();

            ListFacesResponse facesResponse = rekClient.listFaces(facesRequest);
            List<Face> faces = facesResponse.faces();
            for (Face face : faces) {
                System.out.println("Confidence level there is a face: " + face.confidence());
                System.out.println("The face Id value is " + face.faceId());
            }

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListFaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/ListFaces)di *Referensi AWS SDK for Java 2.x API*. 

### `RecognizeCelebrities`
<a name="rekognition_RecognizeCelebrities_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RecognizeCelebrities`.

Untuk informasi selengkapnya, lihat [Mengenali selebriti dalam sebuah gambar](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-procedure-image.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.core.SdkBytes;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.util.List;

import software.amazon.awssdk.services.rekognition.model.*;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class RecognizeCelebrities {
    public static void main(String[] args) {
        final String usage = """
                Usage:   <bucketName> <sourceImage>

                Where:
                   bucketName - The name of the S3 bucket where the images are stored.
                   sourceImage - The path to the image (for example, C:\\AWS\\pic1.png).\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
       }

        String bucketName = args[0];;
        String sourceImage = args[1];
        Region region = Region.US_WEST_2;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        System.out.println("Locating celebrities in " + sourceImage);
        recognizeAllCelebrities(rekClient, bucketName, sourceImage);
        rekClient.close();
    }

    /**
     * Recognizes all celebrities in an image stored in an Amazon S3 bucket.
     *
     * @param rekClient    the Amazon Rekognition client used to perform the celebrity recognition operation
     * @param bucketName   the name of the Amazon S3 bucket where the source image is stored
     * @param sourceImage  the name of the source image file stored in the Amazon S3 bucket
     */
    public static void recognizeAllCelebrities(RekognitionClient rekClient, String bucketName, String sourceImage) {
        try {
            S3Object s3ObjectTarget = S3Object.builder()
                .bucket(bucketName)
                .name(sourceImage)
                .build();

            Image souImage = Image.builder()
                    .s3Object(s3ObjectTarget)
                    .build();

            RecognizeCelebritiesRequest request = RecognizeCelebritiesRequest.builder()
                    .image(souImage)
                    .build();

            RecognizeCelebritiesResponse result = rekClient.recognizeCelebrities(request);
            List<Celebrity> celebs = result.celebrityFaces();
            System.out.println(celebs.size() + " celebrity(s) were recognized.\n");
            for (Celebrity celebrity : celebs) {
                System.out.println("Celebrity recognized: " + celebrity.name());
                System.out.println("Celebrity ID: " + celebrity.id());

                System.out.println("Further information (if available):");
                for (String url : celebrity.urls()) {
                    System.out.println(url);
                }
                System.out.println();
            }
            System.out.println(result.unrecognizedFaces().size() + " face(s) were unrecognized.");

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [RecognizeCelebrities](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/RecognizeCelebrities)di *Referensi AWS SDK for Java 2.x API*. 

### `SearchFaces`
<a name="rekognition_SearchFaces_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchFaces`.

Untuk informasi selengkapnya, lihat [Mencari wajah (ID wajah)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-id-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import software.amazon.awssdk.services.rekognition.model.SearchFacesByImageRequest;
import software.amazon.awssdk.services.rekognition.model.Image;
import software.amazon.awssdk.services.rekognition.model.SearchFacesByImageResponse;
import software.amazon.awssdk.services.rekognition.model.FaceMatch;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SearchFaceMatchingImageCollection {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <collectionId> <sourceImage>

                Where:
                   collectionId - The id of the collection. \s
                   sourceImage - The path to the image (for example, C:\\AWS\\pic1.png).\s

                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionId = args[0];
        String sourceImage = args[1];
        Region region = Region.US_WEST_2;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        System.out.println("Searching for a face in a collections");
        searchFaceInCollection(rekClient, collectionId, sourceImage);
        rekClient.close();
    }

    public static void searchFaceInCollection(RekognitionClient rekClient, String collectionId, String sourceImage) {
        try {
            InputStream sourceStream = new FileInputStream(new File(sourceImage));
            SdkBytes sourceBytes = SdkBytes.fromInputStream(sourceStream);
            Image souImage = Image.builder()
                    .bytes(sourceBytes)
                    .build();

            SearchFacesByImageRequest facesByImageRequest = SearchFacesByImageRequest.builder()
                    .image(souImage)
                    .maxFaces(10)
                    .faceMatchThreshold(70F)
                    .collectionId(collectionId)
                    .build();

            SearchFacesByImageResponse imageResponse = rekClient.searchFacesByImage(facesByImageRequest);
            System.out.println("Faces matching in the collection");
            List<FaceMatch> faceImageMatches = imageResponse.faceMatches();
            for (FaceMatch face : faceImageMatches) {
                System.out.println("The similarity level is  " + face.similarity());
                System.out.println();
            }

        } catch (RekognitionException | FileNotFoundException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [SearchFaces](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/SearchFaces)di *Referensi AWS SDK for Java 2.x API*. 

### `SearchFacesByImage`
<a name="rekognition_SearchFacesByImage_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchFacesByImage`.

Untuk informasi selengkapnya, lihat [Mencari wajah (gambar)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-image-procedure.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.SearchFacesRequest;
import software.amazon.awssdk.services.rekognition.model.SearchFacesResponse;
import software.amazon.awssdk.services.rekognition.model.FaceMatch;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SearchFaceMatchingIdCollection {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <collectionId> <sourceImage>

                Where:
                   collectionId - The id of the collection. \s
                   sourceImage - The path to the image (for example, C:\\AWS\\pic1.png).\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String collectionId = args[0];
        String faceId = args[1];
        Region region = Region.US_WEST_2;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        System.out.println("Searching for a face in a collections");
        searchFacebyId(rekClient, collectionId, faceId);
        rekClient.close();
    }

    public static void searchFacebyId(RekognitionClient rekClient, String collectionId, String faceId) {
        try {
            SearchFacesRequest searchFacesRequest = SearchFacesRequest.builder()
                    .collectionId(collectionId)
                    .faceId(faceId)
                    .faceMatchThreshold(70F)
                    .maxFaces(2)
                    .build();

            SearchFacesResponse imageResponse = rekClient.searchFaces(searchFacesRequest);
            System.out.println("Faces matching in the collection");
            List<FaceMatch> faceImageMatches = imageResponse.faceMatches();
            for (FaceMatch face : faceImageMatches) {
                System.out.println("The similarity level is  " + face.similarity());
                System.out.println();
            }

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [SearchFacesByImage](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/SearchFacesByImage)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Java 2.x**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/pam_source_files).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Mendeteksi APD dalam gambar
<a name="cross_RekognitionPhotoAnalyzerPPE_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi Alat Pelindung Diri (APD) dalam gambar.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat AWS Lambda fungsi yang mendeteksi gambar dengan Alat Pelindung Diri.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lambda_ppe).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi informasi dalam video
<a name="rekognition_VideoDetection_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulai pekerjaan Amazon Rekognition untuk mendeteksi elemen seperti orang, objek, dan teks dalam video.
+ Periksa status pekerjaan sampai pekerjaan selesai.
+ Keluarkan daftar elemen yang terdeteksi oleh setiap pekerjaan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/rekognition/#code-examples). 
Dapatkan hasil selebriti dari video yang terletak di ember Amazon S3.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.S3Object;
import software.amazon.awssdk.services.rekognition.model.NotificationChannel;
import software.amazon.awssdk.services.rekognition.model.Video;
import software.amazon.awssdk.services.rekognition.model.StartCelebrityRecognitionResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import software.amazon.awssdk.services.rekognition.model.CelebrityRecognitionSortBy;
import software.amazon.awssdk.services.rekognition.model.VideoMetadata;
import software.amazon.awssdk.services.rekognition.model.CelebrityRecognition;
import software.amazon.awssdk.services.rekognition.model.CelebrityDetail;
import software.amazon.awssdk.services.rekognition.model.StartCelebrityRecognitionRequest;
import software.amazon.awssdk.services.rekognition.model.GetCelebrityRecognitionRequest;
import software.amazon.awssdk.services.rekognition.model.GetCelebrityRecognitionResponse;
import java.util.List;

/**
 * To run this code example, ensure that you perform the Prerequisites as stated
 * in the Amazon Rekognition Guide:
 * https://docs.aws.amazon.com/rekognition/latest/dg/video-analyzing-with-sqs.html
 *
 * Also, ensure that set up your development environment, including your
 * credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class VideoCelebrityDetection {
    private static String startJobId = "";

    public static void main(String[] args) {
        final String usage = """

                Usage:    <bucket> <video> <topicArn> <roleArn>

                Where:
                   bucket - The name of the bucket in which the video is located (for example, (for example, myBucket).\s
                   video - The name of video (for example, people.mp4).\s
                   topicArn - The ARN of the Amazon Simple Notification Service (Amazon SNS) topic.\s
                   roleArn - The ARN of the AWS Identity and Access Management (IAM) role to use.\s
                """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucket = args[0];
        String video = args[1];
        String topicArn = args[2];
        String roleArn = args[3];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        NotificationChannel channel = NotificationChannel.builder()
                .snsTopicArn(topicArn)
                .roleArn(roleArn)
                .build();

        startCelebrityDetection(rekClient, channel, bucket, video);
        getCelebrityDetectionResults(rekClient);
        System.out.println("This example is done!");
        rekClient.close();
    }

    public static void startCelebrityDetection(RekognitionClient rekClient,
            NotificationChannel channel,
            String bucket,
            String video) {
        try {
            S3Object s3Obj = S3Object.builder()
                    .bucket(bucket)
                    .name(video)
                    .build();

            Video vidOb = Video.builder()
                    .s3Object(s3Obj)
                    .build();

            StartCelebrityRecognitionRequest recognitionRequest = StartCelebrityRecognitionRequest.builder()
                    .jobTag("Celebrities")
                    .notificationChannel(channel)
                    .video(vidOb)
                    .build();

            StartCelebrityRecognitionResponse startCelebrityRecognitionResult = rekClient
                    .startCelebrityRecognition(recognitionRequest);
            startJobId = startCelebrityRecognitionResult.jobId();

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void getCelebrityDetectionResults(RekognitionClient rekClient) {
        try {
            String paginationToken = null;
            GetCelebrityRecognitionResponse recognitionResponse = null;
            boolean finished = false;
            String status;
            int yy = 0;

            do {
                if (recognitionResponse != null)
                    paginationToken = recognitionResponse.nextToken();

                GetCelebrityRecognitionRequest recognitionRequest = GetCelebrityRecognitionRequest.builder()
                        .jobId(startJobId)
                        .nextToken(paginationToken)
                        .sortBy(CelebrityRecognitionSortBy.TIMESTAMP)
                        .maxResults(10)
                        .build();

                // Wait until the job succeeds
                while (!finished) {
                    recognitionResponse = rekClient.getCelebrityRecognition(recognitionRequest);
                    status = recognitionResponse.jobStatusAsString();

                    if (status.compareTo("SUCCEEDED") == 0)
                        finished = true;
                    else {
                        System.out.println(yy + " status is: " + status);
                        Thread.sleep(1000);
                    }
                    yy++;
                }

                finished = false;

                // Proceed when the job is done - otherwise VideoMetadata is null.
                VideoMetadata videoMetaData = recognitionResponse.videoMetadata();
                System.out.println("Format: " + videoMetaData.format());
                System.out.println("Codec: " + videoMetaData.codec());
                System.out.println("Duration: " + videoMetaData.durationMillis());
                System.out.println("FrameRate: " + videoMetaData.frameRate());
                System.out.println("Job");

                List<CelebrityRecognition> celebs = recognitionResponse.celebrities();
                for (CelebrityRecognition celeb : celebs) {
                    long seconds = celeb.timestamp() / 1000;
                    System.out.print("Sec: " + seconds + " ");
                    CelebrityDetail details = celeb.celebrity();
                    System.out.println("Name: " + details.name());
                    System.out.println("Id: " + details.id());
                    System.out.println();
                }

            } while (recognitionResponse.nextToken() != null);

        } catch (RekognitionException | InterruptedException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
Mendeteksi label dalam video dengan operasi deteksi label.  

```
import com.fasterxml.jackson.core.JsonProcessingException;
import com.fasterxml.jackson.databind.JsonMappingException;
import com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.ObjectMapper;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.StartLabelDetectionResponse;
import software.amazon.awssdk.services.rekognition.model.NotificationChannel;
import software.amazon.awssdk.services.rekognition.model.S3Object;
import software.amazon.awssdk.services.rekognition.model.Video;
import software.amazon.awssdk.services.rekognition.model.StartLabelDetectionRequest;
import software.amazon.awssdk.services.rekognition.model.GetLabelDetectionRequest;
import software.amazon.awssdk.services.rekognition.model.GetLabelDetectionResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import software.amazon.awssdk.services.rekognition.model.LabelDetectionSortBy;
import software.amazon.awssdk.services.rekognition.model.VideoMetadata;
import software.amazon.awssdk.services.rekognition.model.LabelDetection;
import software.amazon.awssdk.services.rekognition.model.Label;
import software.amazon.awssdk.services.rekognition.model.Instance;
import software.amazon.awssdk.services.rekognition.model.Parent;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageRequest;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class VideoDetect {
    private static String startJobId = "";

    public static void main(String[] args) {
        final String usage = """

                Usage:    <bucket> <video> <queueUrl> <topicArn> <roleArn>

                Where:
                   bucket - The name of the bucket in which the video is located (for example, (for example, myBucket).\s
                   video - The name of the video (for example, people.mp4).\s
                   queueUrl- The URL of a SQS queue.\s
                   topicArn - The ARN of the Amazon Simple Notification Service (Amazon SNS) topic.\s
                   roleArn - The ARN of the AWS Identity and Access Management (IAM) role to use.\s
                """;

        if (args.length != 5) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucket = args[0];
        String video = args[1];
        String queueUrl = args[2];
        String topicArn = args[3];
        String roleArn = args[4];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        SqsClient sqs = SqsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        NotificationChannel channel = NotificationChannel.builder()
                .snsTopicArn(topicArn)
                .roleArn(roleArn)
                .build();

        startLabels(rekClient, channel, bucket, video);
        getLabelJob(rekClient, sqs, queueUrl);
        System.out.println("This example is done!");
        sqs.close();
        rekClient.close();
    }

    public static void startLabels(RekognitionClient rekClient,
            NotificationChannel channel,
            String bucket,
            String video) {
        try {
            S3Object s3Obj = S3Object.builder()
                    .bucket(bucket)
                    .name(video)
                    .build();

            Video vidOb = Video.builder()
                    .s3Object(s3Obj)
                    .build();

            StartLabelDetectionRequest labelDetectionRequest = StartLabelDetectionRequest.builder()
                    .jobTag("DetectingLabels")
                    .notificationChannel(channel)
                    .video(vidOb)
                    .minConfidence(50F)
                    .build();

            StartLabelDetectionResponse labelDetectionResponse = rekClient.startLabelDetection(labelDetectionRequest);
            startJobId = labelDetectionResponse.jobId();

            boolean ans = true;
            String status = "";
            int yy = 0;
            while (ans) {

                GetLabelDetectionRequest detectionRequest = GetLabelDetectionRequest.builder()
                        .jobId(startJobId)
                        .maxResults(10)
                        .build();

                GetLabelDetectionResponse result = rekClient.getLabelDetection(detectionRequest);
                status = result.jobStatusAsString();

                if (status.compareTo("SUCCEEDED") == 0)
                    ans = false;
                else
                    System.out.println(yy + " status is: " + status);

                Thread.sleep(1000);
                yy++;
            }

            System.out.println(startJobId + " status is: " + status);

        } catch (RekognitionException | InterruptedException e) {
            e.getMessage();
            System.exit(1);
        }
    }

    public static void getLabelJob(RekognitionClient rekClient, SqsClient sqs, String queueUrl) {
        List<Message> messages;
        ReceiveMessageRequest messageRequest = ReceiveMessageRequest.builder()
                .queueUrl(queueUrl)
                .build();

        try {
            messages = sqs.receiveMessage(messageRequest).messages();

            if (!messages.isEmpty()) {
                for (Message message : messages) {
                    String notification = message.body();

                    // Get the status and job id from the notification
                    ObjectMapper mapper = new ObjectMapper();
                    JsonNode jsonMessageTree = mapper.readTree(notification);
                    JsonNode messageBodyText = jsonMessageTree.get("Message");
                    ObjectMapper operationResultMapper = new ObjectMapper();
                    JsonNode jsonResultTree = operationResultMapper.readTree(messageBodyText.textValue());
                    JsonNode operationJobId = jsonResultTree.get("JobId");
                    JsonNode operationStatus = jsonResultTree.get("Status");
                    System.out.println("Job found in JSON is " + operationJobId);

                    DeleteMessageRequest deleteMessageRequest = DeleteMessageRequest.builder()
                            .queueUrl(queueUrl)
                            .build();

                    String jobId = operationJobId.textValue();
                    if (startJobId.compareTo(jobId) == 0) {
                        System.out.println("Job id: " + operationJobId);
                        System.out.println("Status : " + operationStatus.toString());

                        if (operationStatus.asText().equals("SUCCEEDED"))
                            getResultsLabels(rekClient);
                        else
                            System.out.println("Video analysis failed");

                        sqs.deleteMessage(deleteMessageRequest);
                    } else {
                        System.out.println("Job received was not job " + startJobId);
                        sqs.deleteMessage(deleteMessageRequest);
                    }
                }
            }

        } catch (RekognitionException e) {
            e.getMessage();
            System.exit(1);
        } catch (JsonMappingException e) {
            e.printStackTrace();
        } catch (JsonProcessingException e) {
            e.printStackTrace();
        }
    }

    // Gets the job results by calling GetLabelDetection
    private static void getResultsLabels(RekognitionClient rekClient) {

        int maxResults = 10;
        String paginationToken = null;
        GetLabelDetectionResponse labelDetectionResult = null;

        try {
            do {
                if (labelDetectionResult != null)
                    paginationToken = labelDetectionResult.nextToken();

                GetLabelDetectionRequest labelDetectionRequest = GetLabelDetectionRequest.builder()
                        .jobId(startJobId)
                        .sortBy(LabelDetectionSortBy.TIMESTAMP)
                        .maxResults(maxResults)
                        .nextToken(paginationToken)
                        .build();

                labelDetectionResult = rekClient.getLabelDetection(labelDetectionRequest);
                VideoMetadata videoMetaData = labelDetectionResult.videoMetadata();
                System.out.println("Format: " + videoMetaData.format());
                System.out.println("Codec: " + videoMetaData.codec());
                System.out.println("Duration: " + videoMetaData.durationMillis());
                System.out.println("FrameRate: " + videoMetaData.frameRate());

                List<LabelDetection> detectedLabels = labelDetectionResult.labels();
                for (LabelDetection detectedLabel : detectedLabels) {
                    long seconds = detectedLabel.timestamp();
                    Label label = detectedLabel.label();
                    System.out.println("Millisecond: " + seconds + " ");

                    System.out.println("   Label:" + label.name());
                    System.out.println("   Confidence:" + detectedLabel.label().confidence().toString());

                    List<Instance> instances = label.instances();
                    System.out.println("   Instances of " + label.name());

                    if (instances.isEmpty()) {
                        System.out.println("        " + "None");
                    } else {
                        for (Instance instance : instances) {
                            System.out.println("        Confidence: " + instance.confidence().toString());
                            System.out.println("        Bounding box: " + instance.boundingBox().toString());
                        }
                    }
                    System.out.println("   Parent labels for " + label.name() + ":");
                    List<Parent> parents = label.parents();

                    if (parents.isEmpty()) {
                        System.out.println("        None");
                    } else {
                        for (Parent parent : parents) {
                            System.out.println("   " + parent.name());
                        }
                    }
                    System.out.println();
                }
            } while (labelDetectionResult != null && labelDetectionResult.nextToken() != null);

        } catch (RekognitionException e) {
            e.getMessage();
            System.exit(1);
        }
    }
}
```
Mendeteksi wajah dalam video yang disimpan dalam bucket Amazon S3.  

```
import com.fasterxml.jackson.core.JsonProcessingException;
import com.fasterxml.jackson.databind.JsonMappingException;
import com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.ObjectMapper;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.StartLabelDetectionResponse;
import software.amazon.awssdk.services.rekognition.model.NotificationChannel;
import software.amazon.awssdk.services.rekognition.model.S3Object;
import software.amazon.awssdk.services.rekognition.model.Video;
import software.amazon.awssdk.services.rekognition.model.StartLabelDetectionRequest;
import software.amazon.awssdk.services.rekognition.model.GetLabelDetectionRequest;
import software.amazon.awssdk.services.rekognition.model.GetLabelDetectionResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import software.amazon.awssdk.services.rekognition.model.LabelDetectionSortBy;
import software.amazon.awssdk.services.rekognition.model.VideoMetadata;
import software.amazon.awssdk.services.rekognition.model.LabelDetection;
import software.amazon.awssdk.services.rekognition.model.Label;
import software.amazon.awssdk.services.rekognition.model.Instance;
import software.amazon.awssdk.services.rekognition.model.Parent;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageRequest;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class VideoDetect {
    private static String startJobId = "";

    public static void main(String[] args) {
        final String usage = """

                Usage:    <bucket> <video> <queueUrl> <topicArn> <roleArn>

                Where:
                   bucket - The name of the bucket in which the video is located (for example, (for example, myBucket).\s
                   video - The name of the video (for example, people.mp4).\s
                   queueUrl- The URL of a SQS queue.\s
                   topicArn - The ARN of the Amazon Simple Notification Service (Amazon SNS) topic.\s
                   roleArn - The ARN of the AWS Identity and Access Management (IAM) role to use.\s
                """;

        if (args.length != 5) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucket = args[0];
        String video = args[1];
        String queueUrl = args[2];
        String topicArn = args[3];
        String roleArn = args[4];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        SqsClient sqs = SqsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        NotificationChannel channel = NotificationChannel.builder()
                .snsTopicArn(topicArn)
                .roleArn(roleArn)
                .build();

        startLabels(rekClient, channel, bucket, video);
        getLabelJob(rekClient, sqs, queueUrl);
        System.out.println("This example is done!");
        sqs.close();
        rekClient.close();
    }

    public static void startLabels(RekognitionClient rekClient,
            NotificationChannel channel,
            String bucket,
            String video) {
        try {
            S3Object s3Obj = S3Object.builder()
                    .bucket(bucket)
                    .name(video)
                    .build();

            Video vidOb = Video.builder()
                    .s3Object(s3Obj)
                    .build();

            StartLabelDetectionRequest labelDetectionRequest = StartLabelDetectionRequest.builder()
                    .jobTag("DetectingLabels")
                    .notificationChannel(channel)
                    .video(vidOb)
                    .minConfidence(50F)
                    .build();

            StartLabelDetectionResponse labelDetectionResponse = rekClient.startLabelDetection(labelDetectionRequest);
            startJobId = labelDetectionResponse.jobId();

            boolean ans = true;
            String status = "";
            int yy = 0;
            while (ans) {

                GetLabelDetectionRequest detectionRequest = GetLabelDetectionRequest.builder()
                        .jobId(startJobId)
                        .maxResults(10)
                        .build();

                GetLabelDetectionResponse result = rekClient.getLabelDetection(detectionRequest);
                status = result.jobStatusAsString();

                if (status.compareTo("SUCCEEDED") == 0)
                    ans = false;
                else
                    System.out.println(yy + " status is: " + status);

                Thread.sleep(1000);
                yy++;
            }

            System.out.println(startJobId + " status is: " + status);

        } catch (RekognitionException | InterruptedException e) {
            e.getMessage();
            System.exit(1);
        }
    }

    public static void getLabelJob(RekognitionClient rekClient, SqsClient sqs, String queueUrl) {
        List<Message> messages;
        ReceiveMessageRequest messageRequest = ReceiveMessageRequest.builder()
                .queueUrl(queueUrl)
                .build();

        try {
            messages = sqs.receiveMessage(messageRequest).messages();

            if (!messages.isEmpty()) {
                for (Message message : messages) {
                    String notification = message.body();

                    // Get the status and job id from the notification
                    ObjectMapper mapper = new ObjectMapper();
                    JsonNode jsonMessageTree = mapper.readTree(notification);
                    JsonNode messageBodyText = jsonMessageTree.get("Message");
                    ObjectMapper operationResultMapper = new ObjectMapper();
                    JsonNode jsonResultTree = operationResultMapper.readTree(messageBodyText.textValue());
                    JsonNode operationJobId = jsonResultTree.get("JobId");
                    JsonNode operationStatus = jsonResultTree.get("Status");
                    System.out.println("Job found in JSON is " + operationJobId);

                    DeleteMessageRequest deleteMessageRequest = DeleteMessageRequest.builder()
                            .queueUrl(queueUrl)
                            .build();

                    String jobId = operationJobId.textValue();
                    if (startJobId.compareTo(jobId) == 0) {
                        System.out.println("Job id: " + operationJobId);
                        System.out.println("Status : " + operationStatus.toString());

                        if (operationStatus.asText().equals("SUCCEEDED"))
                            getResultsLabels(rekClient);
                        else
                            System.out.println("Video analysis failed");

                        sqs.deleteMessage(deleteMessageRequest);
                    } else {
                        System.out.println("Job received was not job " + startJobId);
                        sqs.deleteMessage(deleteMessageRequest);
                    }
                }
            }

        } catch (RekognitionException e) {
            e.getMessage();
            System.exit(1);
        } catch (JsonMappingException e) {
            e.printStackTrace();
        } catch (JsonProcessingException e) {
            e.printStackTrace();
        }
    }

    // Gets the job results by calling GetLabelDetection
    private static void getResultsLabels(RekognitionClient rekClient) {

        int maxResults = 10;
        String paginationToken = null;
        GetLabelDetectionResponse labelDetectionResult = null;

        try {
            do {
                if (labelDetectionResult != null)
                    paginationToken = labelDetectionResult.nextToken();

                GetLabelDetectionRequest labelDetectionRequest = GetLabelDetectionRequest.builder()
                        .jobId(startJobId)
                        .sortBy(LabelDetectionSortBy.TIMESTAMP)
                        .maxResults(maxResults)
                        .nextToken(paginationToken)
                        .build();

                labelDetectionResult = rekClient.getLabelDetection(labelDetectionRequest);
                VideoMetadata videoMetaData = labelDetectionResult.videoMetadata();
                System.out.println("Format: " + videoMetaData.format());
                System.out.println("Codec: " + videoMetaData.codec());
                System.out.println("Duration: " + videoMetaData.durationMillis());
                System.out.println("FrameRate: " + videoMetaData.frameRate());

                List<LabelDetection> detectedLabels = labelDetectionResult.labels();
                for (LabelDetection detectedLabel : detectedLabels) {
                    long seconds = detectedLabel.timestamp();
                    Label label = detectedLabel.label();
                    System.out.println("Millisecond: " + seconds + " ");

                    System.out.println("   Label:" + label.name());
                    System.out.println("   Confidence:" + detectedLabel.label().confidence().toString());

                    List<Instance> instances = label.instances();
                    System.out.println("   Instances of " + label.name());

                    if (instances.isEmpty()) {
                        System.out.println("        " + "None");
                    } else {
                        for (Instance instance : instances) {
                            System.out.println("        Confidence: " + instance.confidence().toString());
                            System.out.println("        Bounding box: " + instance.boundingBox().toString());
                        }
                    }
                    System.out.println("   Parent labels for " + label.name() + ":");
                    List<Parent> parents = label.parents();

                    if (parents.isEmpty()) {
                        System.out.println("        None");
                    } else {
                        for (Parent parent : parents) {
                            System.out.println("   " + parent.name());
                        }
                    }
                    System.out.println();
                }
            } while (labelDetectionResult != null && labelDetectionResult.nextToken() != null);

        } catch (RekognitionException e) {
            e.getMessage();
            System.exit(1);
        }
    }
}
```
Mendeteksi konten yang tidak pantas atau menyinggung dalam video yang disimpan di bucket Amazon S3.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.NotificationChannel;
import software.amazon.awssdk.services.rekognition.model.S3Object;
import software.amazon.awssdk.services.rekognition.model.Video;
import software.amazon.awssdk.services.rekognition.model.StartContentModerationRequest;
import software.amazon.awssdk.services.rekognition.model.StartContentModerationResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import software.amazon.awssdk.services.rekognition.model.GetContentModerationResponse;
import software.amazon.awssdk.services.rekognition.model.GetContentModerationRequest;
import software.amazon.awssdk.services.rekognition.model.VideoMetadata;
import software.amazon.awssdk.services.rekognition.model.ContentModerationDetection;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class VideoDetectInappropriate {
    private static String startJobId = "";

    public static void main(String[] args) {

        final String usage = """

                Usage:    <bucket> <video> <topicArn> <roleArn>

                Where:
                   bucket - The name of the bucket in which the video is located (for example, (for example, myBucket).\s
                   video - The name of video (for example, people.mp4).\s
                   topicArn - The ARN of the Amazon Simple Notification Service (Amazon SNS) topic.\s
                   roleArn - The ARN of the AWS Identity and Access Management (IAM) role to use.\s
                """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucket = args[0];
        String video = args[1];
        String topicArn = args[2];
        String roleArn = args[3];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        NotificationChannel channel = NotificationChannel.builder()
                .snsTopicArn(topicArn)
                .roleArn(roleArn)
                .build();

        startModerationDetection(rekClient, channel, bucket, video);
        getModResults(rekClient);
        System.out.println("This example is done!");
        rekClient.close();
    }

    public static void startModerationDetection(RekognitionClient rekClient,
            NotificationChannel channel,
            String bucket,
            String video) {

        try {
            S3Object s3Obj = S3Object.builder()
                    .bucket(bucket)
                    .name(video)
                    .build();

            Video vidOb = Video.builder()
                    .s3Object(s3Obj)
                    .build();

            StartContentModerationRequest modDetectionRequest = StartContentModerationRequest.builder()
                    .jobTag("Moderation")
                    .notificationChannel(channel)
                    .video(vidOb)
                    .build();

            StartContentModerationResponse startModDetectionResult = rekClient
                    .startContentModeration(modDetectionRequest);
            startJobId = startModDetectionResult.jobId();

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void getModResults(RekognitionClient rekClient) {
        try {
            String paginationToken = null;
            GetContentModerationResponse modDetectionResponse = null;
            boolean finished = false;
            String status;
            int yy = 0;

            do {
                if (modDetectionResponse != null)
                    paginationToken = modDetectionResponse.nextToken();

                GetContentModerationRequest modRequest = GetContentModerationRequest.builder()
                        .jobId(startJobId)
                        .nextToken(paginationToken)
                        .maxResults(10)
                        .build();

                // Wait until the job succeeds.
                while (!finished) {
                    modDetectionResponse = rekClient.getContentModeration(modRequest);
                    status = modDetectionResponse.jobStatusAsString();

                    if (status.compareTo("SUCCEEDED") == 0)
                        finished = true;
                    else {
                        System.out.println(yy + " status is: " + status);
                        Thread.sleep(1000);
                    }
                    yy++;
                }

                finished = false;

                // Proceed when the job is done - otherwise VideoMetadata is null.
                VideoMetadata videoMetaData = modDetectionResponse.videoMetadata();
                System.out.println("Format: " + videoMetaData.format());
                System.out.println("Codec: " + videoMetaData.codec());
                System.out.println("Duration: " + videoMetaData.durationMillis());
                System.out.println("FrameRate: " + videoMetaData.frameRate());
                System.out.println("Job");

                List<ContentModerationDetection> mods = modDetectionResponse.moderationLabels();
                for (ContentModerationDetection mod : mods) {
                    long seconds = mod.timestamp() / 1000;
                    System.out.print("Mod label: " + seconds + " ");
                    System.out.println(mod.moderationLabel().toString());
                    System.out.println();
                }

            } while (modDetectionResponse != null && modDetectionResponse.nextToken() != null);

        } catch (RekognitionException | InterruptedException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
Mendeteksi segmen isyarat teknis dan segmen deteksi bidikan dalam video yang disimpan dalam bucket Amazon S3.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.S3Object;
import software.amazon.awssdk.services.rekognition.model.NotificationChannel;
import software.amazon.awssdk.services.rekognition.model.Video;
import software.amazon.awssdk.services.rekognition.model.StartShotDetectionFilter;
import software.amazon.awssdk.services.rekognition.model.StartTechnicalCueDetectionFilter;
import software.amazon.awssdk.services.rekognition.model.StartSegmentDetectionFilters;
import software.amazon.awssdk.services.rekognition.model.StartSegmentDetectionRequest;
import software.amazon.awssdk.services.rekognition.model.StartSegmentDetectionResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import software.amazon.awssdk.services.rekognition.model.GetSegmentDetectionResponse;
import software.amazon.awssdk.services.rekognition.model.GetSegmentDetectionRequest;
import software.amazon.awssdk.services.rekognition.model.VideoMetadata;
import software.amazon.awssdk.services.rekognition.model.SegmentDetection;
import software.amazon.awssdk.services.rekognition.model.TechnicalCueSegment;
import software.amazon.awssdk.services.rekognition.model.ShotSegment;
import software.amazon.awssdk.services.rekognition.model.SegmentType;
import software.amazon.awssdk.services.sqs.SqsClient;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class VideoDetectSegment {
    private static String startJobId = "";

    public static void main(String[] args) {
        final String usage = """

                Usage:    <bucket> <video> <topicArn> <roleArn>

                Where:
                   bucket - The name of the bucket in which the video is located (for example, (for example, myBucket).\s
                   video - The name of video (for example, people.mp4).\s
                   topicArn - The ARN of the Amazon Simple Notification Service (Amazon SNS) topic.\s
                   roleArn - The ARN of the AWS Identity and Access Management (IAM) role to use.\s
                """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucket = args[0];
        String video = args[1];
        String topicArn = args[2];
        String roleArn = args[3];

        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        SqsClient sqs = SqsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        NotificationChannel channel = NotificationChannel.builder()
                .snsTopicArn(topicArn)
                .roleArn(roleArn)
                .build();

        startSegmentDetection(rekClient, channel, bucket, video);
        getSegmentResults(rekClient);
        System.out.println("This example is done!");
        sqs.close();
        rekClient.close();
    }

    public static void startSegmentDetection(RekognitionClient rekClient,
            NotificationChannel channel,
            String bucket,
            String video) {
        try {
            S3Object s3Obj = S3Object.builder()
                    .bucket(bucket)
                    .name(video)
                    .build();

            Video vidOb = Video.builder()
                    .s3Object(s3Obj)
                    .build();

            StartShotDetectionFilter cueDetectionFilter = StartShotDetectionFilter.builder()
                    .minSegmentConfidence(60F)
                    .build();

            StartTechnicalCueDetectionFilter technicalCueDetectionFilter = StartTechnicalCueDetectionFilter.builder()
                    .minSegmentConfidence(60F)
                    .build();

            StartSegmentDetectionFilters filters = StartSegmentDetectionFilters.builder()
                    .shotFilter(cueDetectionFilter)
                    .technicalCueFilter(technicalCueDetectionFilter)
                    .build();

            StartSegmentDetectionRequest segDetectionRequest = StartSegmentDetectionRequest.builder()
                    .jobTag("DetectingLabels")
                    .notificationChannel(channel)
                    .segmentTypes(SegmentType.TECHNICAL_CUE, SegmentType.SHOT)
                    .video(vidOb)
                    .filters(filters)
                    .build();

            StartSegmentDetectionResponse segDetectionResponse = rekClient.startSegmentDetection(segDetectionRequest);
            startJobId = segDetectionResponse.jobId();

        } catch (RekognitionException e) {
            e.getMessage();
            System.exit(1);
        }
    }

    public static void getSegmentResults(RekognitionClient rekClient) {
        try {
            String paginationToken = null;
            GetSegmentDetectionResponse segDetectionResponse = null;
            boolean finished = false;
            String status;
            int yy = 0;

            do {
                if (segDetectionResponse != null)
                    paginationToken = segDetectionResponse.nextToken();

                GetSegmentDetectionRequest recognitionRequest = GetSegmentDetectionRequest.builder()
                        .jobId(startJobId)
                        .nextToken(paginationToken)
                        .maxResults(10)
                        .build();

                // Wait until the job succeeds.
                while (!finished) {
                    segDetectionResponse = rekClient.getSegmentDetection(recognitionRequest);
                    status = segDetectionResponse.jobStatusAsString();

                    if (status.compareTo("SUCCEEDED") == 0)
                        finished = true;
                    else {
                        System.out.println(yy + " status is: " + status);
                        Thread.sleep(1000);
                    }
                    yy++;
                }
                finished = false;

                // Proceed when the job is done - otherwise VideoMetadata is null.
                List<VideoMetadata> videoMetaData = segDetectionResponse.videoMetadata();
                for (VideoMetadata metaData : videoMetaData) {
                    System.out.println("Format: " + metaData.format());
                    System.out.println("Codec: " + metaData.codec());
                    System.out.println("Duration: " + metaData.durationMillis());
                    System.out.println("FrameRate: " + metaData.frameRate());
                    System.out.println("Job");
                }

                List<SegmentDetection> detectedSegments = segDetectionResponse.segments();
                for (SegmentDetection detectedSegment : detectedSegments) {
                    String type = detectedSegment.type().toString();
                    if (type.contains(SegmentType.TECHNICAL_CUE.toString())) {
                        System.out.println("Technical Cue");
                        TechnicalCueSegment segmentCue = detectedSegment.technicalCueSegment();
                        System.out.println("\tType: " + segmentCue.type());
                        System.out.println("\tConfidence: " + segmentCue.confidence().toString());
                    }

                    if (type.contains(SegmentType.SHOT.toString())) {
                        System.out.println("Shot");
                        ShotSegment segmentShot = detectedSegment.shotSegment();
                        System.out.println("\tIndex " + segmentShot.index());
                        System.out.println("\tConfidence: " + segmentShot.confidence().toString());
                    }

                    long seconds = detectedSegment.durationMillis();
                    System.out.println("\tDuration : " + seconds + " milliseconds");
                    System.out.println("\tStart time code: " + detectedSegment.startTimecodeSMPTE());
                    System.out.println("\tEnd time code: " + detectedSegment.endTimecodeSMPTE());
                    System.out.println("\tDuration time code: " + detectedSegment.durationSMPTE());
                    System.out.println();
                }

            } while (segDetectionResponse != null && segDetectionResponse.nextToken() != null);

        } catch (RekognitionException | InterruptedException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
Mendeteksi teks dalam video yang disimpan dalam video yang disimpan dalam bucket Amazon S3.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.S3Object;
import software.amazon.awssdk.services.rekognition.model.NotificationChannel;
import software.amazon.awssdk.services.rekognition.model.Video;
import software.amazon.awssdk.services.rekognition.model.StartTextDetectionRequest;
import software.amazon.awssdk.services.rekognition.model.StartTextDetectionResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import software.amazon.awssdk.services.rekognition.model.GetTextDetectionResponse;
import software.amazon.awssdk.services.rekognition.model.GetTextDetectionRequest;
import software.amazon.awssdk.services.rekognition.model.VideoMetadata;
import software.amazon.awssdk.services.rekognition.model.TextDetectionResult;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class VideoDetectText {
    private static String startJobId = "";

    public static void main(String[] args) {
        final String usage = """

                Usage:    <bucket> <video> <topicArn> <roleArn>

                Where:
                   bucket - The name of the bucket in which the video is located (for example, (for example, myBucket).\s
                   video - The name of video (for example, people.mp4).\s
                   topicArn - The ARN of the Amazon Simple Notification Service (Amazon SNS) topic.\s
                   roleArn - The ARN of the AWS Identity and Access Management (IAM) role to use.\s
                """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucket = args[0];
        String video = args[1];
        String topicArn = args[2];
        String roleArn = args[3];

        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        NotificationChannel channel = NotificationChannel.builder()
                .snsTopicArn(topicArn)
                .roleArn(roleArn)
                .build();

        startTextLabels(rekClient, channel, bucket, video);
        getTextResults(rekClient);
        System.out.println("This example is done!");
        rekClient.close();
    }

    public static void startTextLabels(RekognitionClient rekClient,
            NotificationChannel channel,
            String bucket,
            String video) {
        try {
            S3Object s3Obj = S3Object.builder()
                    .bucket(bucket)
                    .name(video)
                    .build();

            Video vidOb = Video.builder()
                    .s3Object(s3Obj)
                    .build();

            StartTextDetectionRequest labelDetectionRequest = StartTextDetectionRequest.builder()
                    .jobTag("DetectingLabels")
                    .notificationChannel(channel)
                    .video(vidOb)
                    .build();

            StartTextDetectionResponse labelDetectionResponse = rekClient.startTextDetection(labelDetectionRequest);
            startJobId = labelDetectionResponse.jobId();

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void getTextResults(RekognitionClient rekClient) {
        try {
            String paginationToken = null;
            GetTextDetectionResponse textDetectionResponse = null;
            boolean finished = false;
            String status;
            int yy = 0;

            do {
                if (textDetectionResponse != null)
                    paginationToken = textDetectionResponse.nextToken();

                GetTextDetectionRequest recognitionRequest = GetTextDetectionRequest.builder()
                        .jobId(startJobId)
                        .nextToken(paginationToken)
                        .maxResults(10)
                        .build();

                // Wait until the job succeeds.
                while (!finished) {
                    textDetectionResponse = rekClient.getTextDetection(recognitionRequest);
                    status = textDetectionResponse.jobStatusAsString();

                    if (status.compareTo("SUCCEEDED") == 0)
                        finished = true;
                    else {
                        System.out.println(yy + " status is: " + status);
                        Thread.sleep(1000);
                    }
                    yy++;
                }

                finished = false;

                // Proceed when the job is done - otherwise VideoMetadata is null.
                VideoMetadata videoMetaData = textDetectionResponse.videoMetadata();
                System.out.println("Format: " + videoMetaData.format());
                System.out.println("Codec: " + videoMetaData.codec());
                System.out.println("Duration: " + videoMetaData.durationMillis());
                System.out.println("FrameRate: " + videoMetaData.frameRate());
                System.out.println("Job");

                List<TextDetectionResult> labels = textDetectionResponse.textDetections();
                for (TextDetectionResult detectedText : labels) {
                    System.out.println("Confidence: " + detectedText.textDetection().confidence().toString());
                    System.out.println("Id : " + detectedText.textDetection().id());
                    System.out.println("Parent Id: " + detectedText.textDetection().parentId());
                    System.out.println("Type: " + detectedText.textDetection().type());
                    System.out.println("Text: " + detectedText.textDetection().detectedText());
                    System.out.println();
                }

            } while (textDetectionResponse != null && textDetectionResponse.nextToken() != null);

        } catch (RekognitionException | InterruptedException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
Mendeteksi orang dalam video yang disimpan dalam video yang disimpan dalam bucket Amazon S3.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.rekognition.RekognitionClient;
import software.amazon.awssdk.services.rekognition.model.S3Object;
import software.amazon.awssdk.services.rekognition.model.NotificationChannel;
import software.amazon.awssdk.services.rekognition.model.StartPersonTrackingRequest;
import software.amazon.awssdk.services.rekognition.model.Video;
import software.amazon.awssdk.services.rekognition.model.StartPersonTrackingResponse;
import software.amazon.awssdk.services.rekognition.model.RekognitionException;
import software.amazon.awssdk.services.rekognition.model.GetPersonTrackingResponse;
import software.amazon.awssdk.services.rekognition.model.GetPersonTrackingRequest;
import software.amazon.awssdk.services.rekognition.model.VideoMetadata;
import software.amazon.awssdk.services.rekognition.model.PersonDetection;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class VideoPersonDetection {
    private static String startJobId = "";

    public static void main(String[] args) {

        final String usage = """

                Usage:    <bucket> <video> <topicArn> <roleArn>

                Where:
                   bucket - The name of the bucket in which the video is located (for example, (for example, myBucket).\s
                   video - The name of video (for example, people.mp4).\s
                   topicArn - The ARN of the Amazon Simple Notification Service (Amazon SNS) topic.\s
                   roleArn - The ARN of the AWS Identity and Access Management (IAM) role to use.\s
                """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucket = args[0];
        String video = args[1];
        String topicArn = args[2];
        String roleArn = args[3];
        Region region = Region.US_EAST_1;
        RekognitionClient rekClient = RekognitionClient.builder()
                .region(region)
                .build();

        NotificationChannel channel = NotificationChannel.builder()
                .snsTopicArn(topicArn)
                .roleArn(roleArn)
                .build();

        startPersonLabels(rekClient, channel, bucket, video);
        getPersonDetectionResults(rekClient);
        System.out.println("This example is done!");
        rekClient.close();
    }

    public static void startPersonLabels(RekognitionClient rekClient,
            NotificationChannel channel,
            String bucket,
            String video) {
        try {
            S3Object s3Obj = S3Object.builder()
                    .bucket(bucket)
                    .name(video)
                    .build();

            Video vidOb = Video.builder()
                    .s3Object(s3Obj)
                    .build();

            StartPersonTrackingRequest personTrackingRequest = StartPersonTrackingRequest.builder()
                    .jobTag("DetectingLabels")
                    .video(vidOb)
                    .notificationChannel(channel)
                    .build();

            StartPersonTrackingResponse labelDetectionResponse = rekClient.startPersonTracking(personTrackingRequest);
            startJobId = labelDetectionResponse.jobId();

        } catch (RekognitionException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void getPersonDetectionResults(RekognitionClient rekClient) {
        try {
            String paginationToken = null;
            GetPersonTrackingResponse personTrackingResult = null;
            boolean finished = false;
            String status;
            int yy = 0;

            do {
                if (personTrackingResult != null)
                    paginationToken = personTrackingResult.nextToken();

                GetPersonTrackingRequest recognitionRequest = GetPersonTrackingRequest.builder()
                        .jobId(startJobId)
                        .nextToken(paginationToken)
                        .maxResults(10)
                        .build();

                // Wait until the job succeeds
                while (!finished) {

                    personTrackingResult = rekClient.getPersonTracking(recognitionRequest);
                    status = personTrackingResult.jobStatusAsString();

                    if (status.compareTo("SUCCEEDED") == 0)
                        finished = true;
                    else {
                        System.out.println(yy + " status is: " + status);
                        Thread.sleep(1000);
                    }
                    yy++;
                }

                finished = false;

                // Proceed when the job is done - otherwise VideoMetadata is null.
                VideoMetadata videoMetaData = personTrackingResult.videoMetadata();

                System.out.println("Format: " + videoMetaData.format());
                System.out.println("Codec: " + videoMetaData.codec());
                System.out.println("Duration: " + videoMetaData.durationMillis());
                System.out.println("FrameRate: " + videoMetaData.frameRate());
                System.out.println("Job");

                List<PersonDetection> detectedPersons = personTrackingResult.persons();
                for (PersonDetection detectedPerson : detectedPersons) {
                    long seconds = detectedPerson.timestamp() / 1000;
                    System.out.print("Sec: " + seconds + " ");
                    System.out.println("Person Identifier: " + detectedPerson.person().index());
                    System.out.println();
                }

            } while (personTrackingResult != null && personTrackingResult.nextToken() != null);

        } catch (RekognitionException | InterruptedException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [GetCelebrityRecognition](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/GetCelebrityRecognition)
  + [GetContentModeration](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/GetContentModeration)
  + [GetLabelDetection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/GetLabelDetection)
  + [GetPersonTracking](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/GetPersonTracking)
  + [GetSegmentDetection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/GetSegmentDetection)
  + [GetTextDetection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/GetTextDetection)
  + [StartCelebrityRecognition](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/StartCelebrityRecognition)
  + [StartContentModeration](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/StartContentModeration)
  + [StartLabelDetection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/StartLabelDetection)
  + [StartPersonTracking](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/StartPersonTracking)
  + [StartSegmentDetection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/StartSegmentDetection)
  + [StartTextDetection](https://docs.aws.amazon.com/goto/SdkForJavaV2/rekognition-2016-06-27/StartTextDetection)

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Rekognition Java API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang terletak di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_photo_analyzer_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Rekognition Java API untuk membuat aplikasi guna mendeteksi wajah dan objek di video yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/video_analyzer_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

# Route 53 contoh pendaftaran domain menggunakan SDK for Java 2.x
<a name="java_2_route-53-domains_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan pendaftaran domain AWS SDK for Java 2.x with Route 53.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Hello Route 53 pendaftaran domain
<a name="route-53-domains_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan pendaftaran domain Route 53.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.route53domains.Route53DomainsClient;
import software.amazon.awssdk.services.route53.model.Route53Exception;
import software.amazon.awssdk.services.route53domains.model.DomainPrice;
import software.amazon.awssdk.services.route53domains.model.ListPricesRequest;
import software.amazon.awssdk.services.route53domains.model.ListPricesResponse;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This Java code examples performs the following operation:
 *
 * 1. Invokes ListPrices for at least one domain type, such as the “com” type
 * and displays the prices for Registration and Renewal.
 *
 */
public class HelloRoute53 {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) {
        final String usage = "\n" +
                "Usage:\n" +
                "    <hostedZoneId> \n\n" +
                "Where:\n" +
                "    hostedZoneId - The id value of an existing hosted zone. \n";

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String domainType = args[0];
        Region region = Region.US_EAST_1;
        Route53DomainsClient route53DomainsClient = Route53DomainsClient.builder()
                .region(region)
                .build();

        System.out.println(DASHES);
        System.out.println("Invokes ListPrices for at least one domain type.");
        listPrices(route53DomainsClient, domainType);
        System.out.println(DASHES);
    }

    public static void listPrices(Route53DomainsClient route53DomainsClient, String domainType) {
        try {
            ListPricesRequest pricesRequest = ListPricesRequest.builder()
                    .maxItems(10)
                    .tld(domainType)
                    .build();

            ListPricesResponse response = route53DomainsClient.listPrices(pricesRequest);
            List<DomainPrice> prices = response.prices();
            for (DomainPrice pr : prices) {
                System.out.println("Name: " + pr.name());
                System.out.println(
                        "Registration: " + pr.registrationPrice().price() + " " + pr.registrationPrice().currency());
                System.out.println("Renewal: " + pr.renewalPrice().price() + " " + pr.renewalPrice().currency());
                System.out.println("Transfer: " + pr.transferPrice().price() + " " + pr.transferPrice().currency());
                System.out.println("Transfer: " + pr.transferPrice().price() + " " + pr.transferPrice().currency());
                System.out.println("Change Ownership: " + pr.changeOwnershipPrice().price() + " "
                        + pr.changeOwnershipPrice().currency());
                System.out.println(
                        "Restoration: " + pr.restorationPrice().price() + " " + pr.restorationPrice().currency());
                System.out.println(" ");
            }

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListPrices](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ListPrices)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="route-53-domains_Scenario_GetStartedRoute53Domains_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat daftar domain saat ini, dan daftar operasi dalam satu tahun terakhir.
+ Lihat tagihan selama setahun terakhir, dan lihat harga untuk jenis domain.
+ Dapatkan saran domain.
+ Periksa ketersediaan domain dan transferabilitas.
+ Secara opsional, minta pendaftaran domain.
+ Dapatkan detail operasi.
+ Secara opsional, dapatkan detail domain.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This example uses pagination methods where applicable. For example, to list
 * domains, the
 * listDomainsPaginator method is used. For more information about pagination,
 * see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/pagination.html
 *
 * This Java code example performs the following operations:
 *
 * 1. List current domains.
 * 2. List operations in the past year.
 * 3. View billing for the account in the past year.
 * 4. View prices for domain types.
 * 5. Get domain suggestions.
 * 6. Check domain availability.
 * 7. Check domain transferability.
 * 8. Request a domain registration.
 * 9. Get operation details.
 * 10. Optionally, get domain details.
 */

public class Route53Scenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <domainType> <phoneNumber> <email> <domainSuggestion> <firstName> <lastName> <city>

                Where:
                    domainType - The domain type (for example, com).\s
                    phoneNumber - The phone number to use (for example, +91.9966564xxx)      email - The email address to use.      domainSuggestion - The domain suggestion (for example, findmy.accountants).\s
                    firstName - The first name to use to register a domain.\s
                    lastName -  The last name to use to register a domain.\s
                    city - the city to use to register a domain.\s
                    """;

        if (args.length != 7) {
            System.out.println(usage);
            System.exit(1);
        }

        String domainType = args[0];
        String phoneNumber = args[1];
        String email = args[2];
        String domainSuggestion = args[3];
        String firstName = args[4];
        String lastName = args[5];
        String city = args[6];
        Region region = Region.US_EAST_1;
        Route53DomainsClient route53DomainsClient = Route53DomainsClient.builder()
                .region(region)
                .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon Route 53 domains example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. List current domains.");
        listDomains(route53DomainsClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. List operations in the past year.");
        listOperations(route53DomainsClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. View billing for the account in the past year.");
        listBillingRecords(route53DomainsClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. View prices for domain types.");
        listPrices(route53DomainsClient, domainType);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Get domain suggestions.");
        listDomainSuggestions(route53DomainsClient, domainSuggestion);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Check domain availability.");
        checkDomainAvailability(route53DomainsClient, domainSuggestion);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Check domain transferability.");
        checkDomainTransferability(route53DomainsClient, domainSuggestion);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Request a domain registration.");
        String opId = requestDomainRegistration(route53DomainsClient, domainSuggestion, phoneNumber, email, firstName,
                lastName, city);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. Get operation details.");
        getOperationalDetail(route53DomainsClient, opId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Get domain details.");
        System.out.println("Note: You must have a registered domain to get details.");
        System.out.println("Otherwise, an exception is thrown that states ");
        System.out.println("Domain xxxxxxx not found in xxxxxxx account.");
        getDomainDetails(route53DomainsClient, domainSuggestion);
        System.out.println(DASHES);
    }

    public static void getDomainDetails(Route53DomainsClient route53DomainsClient, String domainSuggestion) {
        try {
            GetDomainDetailRequest detailRequest = GetDomainDetailRequest.builder()
                    .domainName(domainSuggestion)
                    .build();

            GetDomainDetailResponse response = route53DomainsClient.getDomainDetail(detailRequest);
            System.out.println("The contact first name is " + response.registrantContact().firstName());
            System.out.println("The contact last name is " + response.registrantContact().lastName());
            System.out.println("The contact org name is " + response.registrantContact().organizationName());

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void getOperationalDetail(Route53DomainsClient route53DomainsClient, String operationId) {
        try {
            GetOperationDetailRequest detailRequest = GetOperationDetailRequest.builder()
                    .operationId(operationId)
                    .build();

            GetOperationDetailResponse response = route53DomainsClient.getOperationDetail(detailRequest);
            System.out.println("Operation detail message is " + response.message());

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static String requestDomainRegistration(Route53DomainsClient route53DomainsClient,
            String domainSuggestion,
            String phoneNumber,
            String email,
            String firstName,
            String lastName,
            String city) {

        try {
            ContactDetail contactDetail = ContactDetail.builder()
                    .contactType(ContactType.COMPANY)
                    .state("LA")
                    .countryCode(CountryCode.IN)
                    .email(email)
                    .firstName(firstName)
                    .lastName(lastName)
                    .city(city)
                    .phoneNumber(phoneNumber)
                    .organizationName("My Org")
                    .addressLine1("My Address")
                    .zipCode("123 123")
                    .build();

            RegisterDomainRequest domainRequest = RegisterDomainRequest.builder()
                    .adminContact(contactDetail)
                    .registrantContact(contactDetail)
                    .techContact(contactDetail)
                    .domainName(domainSuggestion)
                    .autoRenew(true)
                    .durationInYears(1)
                    .build();

            RegisterDomainResponse response = route53DomainsClient.registerDomain(domainRequest);
            System.out.println("Registration requested. Operation Id: " + response.operationId());
            return response.operationId();

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }

    public static void checkDomainTransferability(Route53DomainsClient route53DomainsClient, String domainSuggestion) {
        try {
            CheckDomainTransferabilityRequest transferabilityRequest = CheckDomainTransferabilityRequest.builder()
                    .domainName(domainSuggestion)
                    .build();

            CheckDomainTransferabilityResponse response = route53DomainsClient
                    .checkDomainTransferability(transferabilityRequest);
            System.out.println("Transferability: " + response.transferability().transferable().toString());

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void checkDomainAvailability(Route53DomainsClient route53DomainsClient, String domainSuggestion) {
        try {
            CheckDomainAvailabilityRequest availabilityRequest = CheckDomainAvailabilityRequest.builder()
                    .domainName(domainSuggestion)
                    .build();

            CheckDomainAvailabilityResponse response = route53DomainsClient
                    .checkDomainAvailability(availabilityRequest);
            System.out.println(domainSuggestion + " is " + response.availability().toString());

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void listDomainSuggestions(Route53DomainsClient route53DomainsClient, String domainSuggestion) {
        try {
            GetDomainSuggestionsRequest suggestionsRequest = GetDomainSuggestionsRequest.builder()
                    .domainName(domainSuggestion)
                    .suggestionCount(5)
                    .onlyAvailable(true)
                    .build();

            GetDomainSuggestionsResponse response = route53DomainsClient.getDomainSuggestions(suggestionsRequest);
            List<DomainSuggestion> suggestions = response.suggestionsList();
            for (DomainSuggestion suggestion : suggestions) {
                System.out.println("Suggestion Name: " + suggestion.domainName());
                System.out.println("Availability: " + suggestion.availability());
                System.out.println(" ");
            }

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void listPrices(Route53DomainsClient route53DomainsClient, String domainType) {
        try {
            ListPricesRequest pricesRequest = ListPricesRequest.builder()
                    .tld(domainType)
                    .build();

            ListPricesIterable listRes = route53DomainsClient.listPricesPaginator(pricesRequest);
            listRes.stream()
                    .flatMap(r -> r.prices().stream())
                    .forEach(content -> System.out.println(" Name: " + content.name() +
                            " Registration: " + content.registrationPrice().price() + " "
                            + content.registrationPrice().currency() +
                            " Renewal: " + content.renewalPrice().price() + " " + content.renewalPrice().currency()));

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void listBillingRecords(Route53DomainsClient route53DomainsClient) {
        try {
            Date currentDate = new Date();
            LocalDateTime localDateTime = currentDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDateTime();
            ZoneOffset zoneOffset = ZoneOffset.of("+01:00");
            LocalDateTime localDateTime2 = localDateTime.minusYears(1);
            Instant myStartTime = localDateTime2.toInstant(zoneOffset);
            Instant myEndTime = localDateTime.toInstant(zoneOffset);

            ViewBillingRequest viewBillingRequest = ViewBillingRequest.builder()
                    .start(myStartTime)
                    .end(myEndTime)
                    .build();

            ViewBillingIterable listRes = route53DomainsClient.viewBillingPaginator(viewBillingRequest);
            listRes.stream()
                    .flatMap(r -> r.billingRecords().stream())
                    .forEach(content -> System.out.println(" Bill Date:: " + content.billDate() +
                            " Operation: " + content.operationAsString() +
                            " Price: " + content.price()));

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void listOperations(Route53DomainsClient route53DomainsClient) {
        try {
            Date currentDate = new Date();
            LocalDateTime localDateTime = currentDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDateTime();
            ZoneOffset zoneOffset = ZoneOffset.of("+01:00");
            localDateTime = localDateTime.minusYears(1);
            Instant myTime = localDateTime.toInstant(zoneOffset);

            ListOperationsRequest operationsRequest = ListOperationsRequest.builder()
                    .submittedSince(myTime)
                    .build();

            ListOperationsIterable listRes = route53DomainsClient.listOperationsPaginator(operationsRequest);
            listRes.stream()
                    .flatMap(r -> r.operations().stream())
                    .forEach(content -> System.out.println(" Operation Id: " + content.operationId() +
                            " Status: " + content.statusAsString() +
                            " Date: " + content.submittedDate()));

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void listDomains(Route53DomainsClient route53DomainsClient) {
        try {
            ListDomainsIterable listRes = route53DomainsClient.listDomainsPaginator();
            listRes.stream()
                    .flatMap(r -> r.domains().stream())
                    .forEach(content -> System.out.println("The domain name is " + content.domainName()));

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CheckDomainAvailability](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/CheckDomainAvailability)
  + [CheckDomainTransferability](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/CheckDomainTransferability)
  + [GetDomainDetail](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/GetDomainDetail)
  + [GetDomainSuggestions](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/GetDomainSuggestions)
  + [GetOperationDetail](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/GetOperationDetail)
  + [ListDomains](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ListDomains)
  + [ListOperations](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ListOperations)
  + [ListPrices](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ListPrices)
  + [RegisterDomain](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/RegisterDomain)
  + [ViewBilling](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ViewBilling)

## Tindakan
<a name="actions"></a>

### `CheckDomainAvailability`
<a name="route-53-domains_CheckDomainAvailability_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckDomainAvailability`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void checkDomainAvailability(Route53DomainsClient route53DomainsClient, String domainSuggestion) {
        try {
            CheckDomainAvailabilityRequest availabilityRequest = CheckDomainAvailabilityRequest.builder()
                    .domainName(domainSuggestion)
                    .build();

            CheckDomainAvailabilityResponse response = route53DomainsClient
                    .checkDomainAvailability(availabilityRequest);
            System.out.println(domainSuggestion + " is " + response.availability().toString());

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [CheckDomainAvailability](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/CheckDomainAvailability)di *Referensi AWS SDK for Java 2.x API*. 

### `CheckDomainTransferability`
<a name="route-53-domains_CheckDomainTransferability_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckDomainTransferability`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void checkDomainTransferability(Route53DomainsClient route53DomainsClient, String domainSuggestion) {
        try {
            CheckDomainTransferabilityRequest transferabilityRequest = CheckDomainTransferabilityRequest.builder()
                    .domainName(domainSuggestion)
                    .build();

            CheckDomainTransferabilityResponse response = route53DomainsClient
                    .checkDomainTransferability(transferabilityRequest);
            System.out.println("Transferability: " + response.transferability().transferable().toString());

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [CheckDomainTransferability](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/CheckDomainTransferability)di *Referensi AWS SDK for Java 2.x API*. 

### `GetDomainDetail`
<a name="route-53-domains_GetDomainDetail_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDomainDetail`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void getDomainDetails(Route53DomainsClient route53DomainsClient, String domainSuggestion) {
        try {
            GetDomainDetailRequest detailRequest = GetDomainDetailRequest.builder()
                    .domainName(domainSuggestion)
                    .build();

            GetDomainDetailResponse response = route53DomainsClient.getDomainDetail(detailRequest);
            System.out.println("The contact first name is " + response.registrantContact().firstName());
            System.out.println("The contact last name is " + response.registrantContact().lastName());
            System.out.println("The contact org name is " + response.registrantContact().organizationName());

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [GetDomainDetail](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/GetDomainDetail)di *Referensi AWS SDK for Java 2.x API*. 

### `GetDomainSuggestions`
<a name="route-53-domains_GetDomainSuggestions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDomainSuggestions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void listDomainSuggestions(Route53DomainsClient route53DomainsClient, String domainSuggestion) {
        try {
            GetDomainSuggestionsRequest suggestionsRequest = GetDomainSuggestionsRequest.builder()
                    .domainName(domainSuggestion)
                    .suggestionCount(5)
                    .onlyAvailable(true)
                    .build();

            GetDomainSuggestionsResponse response = route53DomainsClient.getDomainSuggestions(suggestionsRequest);
            List<DomainSuggestion> suggestions = response.suggestionsList();
            for (DomainSuggestion suggestion : suggestions) {
                System.out.println("Suggestion Name: " + suggestion.domainName());
                System.out.println("Availability: " + suggestion.availability());
                System.out.println(" ");
            }

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [GetDomainSuggestions](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/GetDomainSuggestions)di *Referensi AWS SDK for Java 2.x API*. 

### `GetOperationDetail`
<a name="route-53-domains_GetOperationDetail_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetOperationDetail`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void getOperationalDetail(Route53DomainsClient route53DomainsClient, String operationId) {
        try {
            GetOperationDetailRequest detailRequest = GetOperationDetailRequest.builder()
                    .operationId(operationId)
                    .build();

            GetOperationDetailResponse response = route53DomainsClient.getOperationDetail(detailRequest);
            System.out.println("Operation detail message is " + response.message());

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [GetOperationDetail](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/GetOperationDetail)di *Referensi AWS SDK for Java 2.x API*. 

### `ListDomains`
<a name="route-53-domains_ListDomains_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDomains`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void listDomains(Route53DomainsClient route53DomainsClient) {
        try {
            ListDomainsIterable listRes = route53DomainsClient.listDomainsPaginator();
            listRes.stream()
                    .flatMap(r -> r.domains().stream())
                    .forEach(content -> System.out.println("The domain name is " + content.domainName()));

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListDomains](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ListDomains)di *Referensi AWS SDK for Java 2.x API*. 

### `ListOperations`
<a name="route-53-domains_ListOperations_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOperations`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void listOperations(Route53DomainsClient route53DomainsClient) {
        try {
            Date currentDate = new Date();
            LocalDateTime localDateTime = currentDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDateTime();
            ZoneOffset zoneOffset = ZoneOffset.of("+01:00");
            localDateTime = localDateTime.minusYears(1);
            Instant myTime = localDateTime.toInstant(zoneOffset);

            ListOperationsRequest operationsRequest = ListOperationsRequest.builder()
                    .submittedSince(myTime)
                    .build();

            ListOperationsIterable listRes = route53DomainsClient.listOperationsPaginator(operationsRequest);
            listRes.stream()
                    .flatMap(r -> r.operations().stream())
                    .forEach(content -> System.out.println(" Operation Id: " + content.operationId() +
                            " Status: " + content.statusAsString() +
                            " Date: " + content.submittedDate()));

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListOperations](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ListOperations)di *Referensi AWS SDK for Java 2.x API*. 

### `ListPrices`
<a name="route-53-domains_ListPrices_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPrices`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void listPrices(Route53DomainsClient route53DomainsClient, String domainType) {
        try {
            ListPricesRequest pricesRequest = ListPricesRequest.builder()
                    .tld(domainType)
                    .build();

            ListPricesIterable listRes = route53DomainsClient.listPricesPaginator(pricesRequest);
            listRes.stream()
                    .flatMap(r -> r.prices().stream())
                    .forEach(content -> System.out.println(" Name: " + content.name() +
                            " Registration: " + content.registrationPrice().price() + " "
                            + content.registrationPrice().currency() +
                            " Renewal: " + content.renewalPrice().price() + " " + content.renewalPrice().currency()));

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListPrices](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ListPrices)di *Referensi AWS SDK for Java 2.x API*. 

### `RegisterDomain`
<a name="route-53-domains_RegisterDomain_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RegisterDomain`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static String requestDomainRegistration(Route53DomainsClient route53DomainsClient,
            String domainSuggestion,
            String phoneNumber,
            String email,
            String firstName,
            String lastName,
            String city) {

        try {
            ContactDetail contactDetail = ContactDetail.builder()
                    .contactType(ContactType.COMPANY)
                    .state("LA")
                    .countryCode(CountryCode.IN)
                    .email(email)
                    .firstName(firstName)
                    .lastName(lastName)
                    .city(city)
                    .phoneNumber(phoneNumber)
                    .organizationName("My Org")
                    .addressLine1("My Address")
                    .zipCode("123 123")
                    .build();

            RegisterDomainRequest domainRequest = RegisterDomainRequest.builder()
                    .adminContact(contactDetail)
                    .registrantContact(contactDetail)
                    .techContact(contactDetail)
                    .domainName(domainSuggestion)
                    .autoRenew(true)
                    .durationInYears(1)
                    .build();

            RegisterDomainResponse response = route53DomainsClient.registerDomain(domainRequest);
            System.out.println("Registration requested. Operation Id: " + response.operationId());
            return response.operationId();

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [RegisterDomain](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/RegisterDomain)di *Referensi AWS SDK for Java 2.x API*. 

### `ViewBilling`
<a name="route-53-domains_ViewBilling_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ViewBilling`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/route53#code-examples). 

```
    public static void listBillingRecords(Route53DomainsClient route53DomainsClient) {
        try {
            Date currentDate = new Date();
            LocalDateTime localDateTime = currentDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDateTime();
            ZoneOffset zoneOffset = ZoneOffset.of("+01:00");
            LocalDateTime localDateTime2 = localDateTime.minusYears(1);
            Instant myStartTime = localDateTime2.toInstant(zoneOffset);
            Instant myEndTime = localDateTime.toInstant(zoneOffset);

            ViewBillingRequest viewBillingRequest = ViewBillingRequest.builder()
                    .start(myStartTime)
                    .end(myEndTime)
                    .build();

            ViewBillingIterable listRes = route53DomainsClient.viewBillingPaginator(viewBillingRequest);
            listRes.stream()
                    .flatMap(r -> r.billingRecords().stream())
                    .forEach(content -> System.out.println(" Bill Date:: " + content.billDate() +
                            " Operation: " + content.operationAsString() +
                            " Price: " + content.price()));

        } catch (Route53Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ViewBilling](https://docs.aws.amazon.com/goto/SdkForJavaV2/route53domains-2014-05-15/ViewBilling)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon S3 menggunakan SDK for Java 2.x
<a name="java_2_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon S3. AWS SDK for Java 2.x 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.Bucket;
import software.amazon.awssdk.services.s3.model.ListBucketsResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloS3 {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        listBuckets(s3);
    }

    /**
     * Lists all the S3 buckets associated with the provided AWS S3 client.
     *
     * @param s3 the S3Client instance used to interact with the AWS S3 service
     */
    public static void listBuckets(S3Client s3) {
        try {
            ListBucketsResponse response = s3.listBuckets();
            List<Bucket> bucketList = response.buckets();
            bucketList.forEach(bucket -> {
                System.out.println("Bucket Name: " + bucket.name());
            });

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Contoh skenario.  

```
import java.io.IOException;
import java.util.Scanner;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.s3.model.PutObjectResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * This Java code example performs the following tasks:
 *
 * 1. Creates an Amazon S3 bucket.
 * 2. Uploads an object to the bucket.
 * 3. Downloads the object to another local file.
 * 4. Uploads an object using multipart upload.
 * 5. List all objects located in the Amazon S3 bucket.
 * 6. Copies the object to another Amazon S3 bucket.
 * 7. Copy the object to another Amazon S3 bucket using multi copy.
 * 8. Deletes the object from the Amazon S3 bucket.
 * 9. Deletes the Amazon S3 bucket.
 */

public class S3Scenario {

    public static Scanner scanner = new Scanner(System.in);
    static S3Actions s3Actions = new S3Actions();
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final Logger logger = LoggerFactory.getLogger(S3Scenario.class);
    public static void main(String[] args) throws IOException {
        final String usage = """
            Usage:
               <bucketName> <key> <objectPath> <savePath> <toBucket>

            Where:
                bucketName - The name of the  S3 bucket.
                key - The unique identifier for the object stored in the S3 bucket.
                objectPath - The full file path of the object within the S3 bucket (e.g., "documents/reports/annual_report.pdf").
                savePath - The local file path where the object will be downloaded and saved (e.g., "C:/Users/username/Downloads/annual_report.pdf").
                toBucket - The name of the S3 bucket to which the object will be copied.
            """;

        if (args.length != 5) {
            logger.info(usage);
            return;
        }

        String bucketName = args[0];
        String key = args[1];
        String objectPath = args[2];
        String savePath = args[3];
        String toBucket = args[4];

        logger.info(DASHES);
        logger.info("Welcome to the Amazon Simple Storage Service (S3) example scenario.");
        logger.info("""
            Amazon S3 is a highly scalable and durable object storage 
            service provided by Amazon Web Services (AWS). It is designed to store and retrieve 
            any amount of data, from anywhere on the web, at any time.
                        
            The `S3AsyncClient` interface in the AWS SDK for Java 2.x provides a set of methods to 
            programmatically interact with the Amazon S3 (Simple Storage Service) service. This allows 
            developers to automate the management and manipulation of S3 buckets and objects as 
            part of their application deployment pipelines. With S3, teams can focus on building 
            and deploying their applications without having to worry about the underlying storage 
            infrastructure required to host and manage large amounts of data.
                        
            This scenario walks you through how to perform key operations for this service.  
            Let's get started...
            """);
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        try {
            // Run the methods that belong to this scenario.
            runScenario(bucketName, key, objectPath, savePath, toBucket);

        } catch (Throwable rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception kmsEx) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", kmsEx.getMessage(), kmsEx.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
        }
    }

    private static void runScenario(String bucketName, String key, String objectPath, String savePath, String toBucket) throws Throwable {
        logger.info(DASHES);
        logger.info("1. Create an Amazon S3 bucket.");
        try {
            CompletableFuture<Void> future = s3Actions.createBucketAsync(bucketName);
            future.join();
            waitForInputToContinue(scanner);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;

        }
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("2. Upload a local file to the Amazon S3 bucket.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<PutObjectResponse> future = s3Actions.uploadLocalFileAsync(bucketName, key, objectPath);
            future.join();
            logger.info("File uploaded successfully to {}/{}", bucketName, key);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);


        logger.info(DASHES);
        logger.info("3. Download the object to another local file.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = s3Actions.getObjectBytesAsync(bucketName, key, savePath);
            future.join();
            logger.info("Successfully obtained bytes from S3 object and wrote to file {}", savePath);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("4. Perform a multipart upload.");
        waitForInputToContinue(scanner);
        String multipartKey = "multiPartKey";
        try {
            // Call the multipartUpload method
            CompletableFuture<Void> future = s3Actions.multipartUpload(bucketName, multipartKey);
            future.join();
            logger.info("Multipart upload completed successfully for bucket '{}' and key '{}'", bucketName, multipartKey);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("5. List all objects located in the Amazon S3 bucket.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = s3Actions.listAllObjectsAsync(bucketName);
            future.join();
            logger.info("Object listing completed successfully.");

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("6. Copy the object to another Amazon S3 bucket.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<String> future = s3Actions.copyBucketObjectAsync(bucketName, key, toBucket);
            String result = future.join();
            logger.info("Copy operation result: {}", result);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("7. Copy the object to another Amazon S3 bucket using multi copy.");
        waitForInputToContinue(scanner);

        try {
            CompletableFuture<String> future = s3Actions.performMultiCopy(toBucket, bucketName, key);
            String result = future.join();
            logger.info("Copy operation result: {}", result);

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("KMS error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);


        logger.info(DASHES);
        logger.info("8. Delete objects from the Amazon S3 bucket.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = s3Actions.deleteObjectFromBucketAsync(bucketName, key);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        try {
            CompletableFuture<Void> future = s3Actions.deleteObjectFromBucketAsync(bucketName, "multiPartKey");
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("9. Delete the Amazon S3 bucket.");
        waitForInputToContinue(scanner);
        try {
            CompletableFuture<Void> future = s3Actions.deleteBucketAsync(bucketName);
            future.join();

        } catch (RuntimeException rt) {
            Throwable cause = rt.getCause();
            if (cause instanceof S3Exception s3Ex) {
                logger.info("S3 error occurred: Error message: {}, Error code {}", s3Ex.getMessage(), s3Ex.awsErrorDetails().errorCode());
            } else {
                logger.info("An unexpected error occurred: " + rt.getMessage());
            }
            throw cause;
        }
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        logger.info(DASHES);
        logger.info("You successfully completed the Amazon S3 scenario.");
        logger.info(DASHES);
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                // Handle invalid input.
                logger.info("Invalid input. Please try again.");
            }
        }
    }
}
```
Kelas pembungkus yang berisi operasi.  

```
public class S3Actions {

    private static final Logger logger = LoggerFactory.getLogger(S3Actions.class);
    private static S3AsyncClient s3AsyncClient;

    public static S3AsyncClient getAsyncClient() {
        if (s3AsyncClient == null) {
            /*
            The `NettyNioAsyncHttpClient` class is part of the AWS SDK for Java, version 2,
            and it is designed to provide a high-performance, asynchronous HTTP client for interacting with AWS services.
             It uses the Netty framework to handle the underlying network communication and the Java NIO API to
             provide a non-blocking, event-driven approach to HTTP requests and responses.
             */

            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(50)  // Adjust as needed.
                .connectionTimeout(Duration.ofSeconds(60))  // Set the connection timeout.
                .readTimeout(Duration.ofSeconds(60))  // Set the read timeout.
                .writeTimeout(Duration.ofSeconds(60))  // Set the write timeout.
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))  // Set the overall API call timeout.
                .apiCallAttemptTimeout(Duration.ofSeconds(90))  // Set the individual call attempt timeout.
                .retryStrategy(RetryMode.STANDARD)
                .build();

            s3AsyncClient = S3AsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return s3AsyncClient;
    }


    /**
     * Creates an S3 bucket asynchronously.
     *
     * @param bucketName the name of the S3 bucket to create
     * @return a {@link CompletableFuture} that completes when the bucket is created and ready
     * @throws RuntimeException if there is a failure while creating the bucket
     */
    public CompletableFuture<Void> createBucketAsync(String bucketName) {
        CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
            .bucket(bucketName)
            .build();

        CompletableFuture<CreateBucketResponse> response = getAsyncClient().createBucket(bucketRequest);
        return response.thenCompose(resp -> {
            S3AsyncWaiter s3Waiter = getAsyncClient().waiter();
            HeadBucketRequest bucketRequestWait = HeadBucketRequest.builder()
                .bucket(bucketName)
                .build();

            CompletableFuture<WaiterResponse<HeadBucketResponse>> waiterResponseFuture =
                s3Waiter.waitUntilBucketExists(bucketRequestWait);
            return waiterResponseFuture.thenAccept(waiterResponse -> {
                waiterResponse.matched().response().ifPresent(headBucketResponse -> {
                    logger.info(bucketName + " is ready");
                });
            });
        }).whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to create bucket", ex);
            }
        });
    }


    /**
     * Uploads a local file to an AWS S3 bucket asynchronously.
     *
     * @param bucketName the name of the S3 bucket to upload the file to
     * @param key        the key (object name) to use for the uploaded file
     * @param objectPath the local file path of the file to be uploaded
     * @return a {@link CompletableFuture} that completes with the {@link PutObjectResponse} when the upload is successful, or throws a {@link RuntimeException} if the upload fails
     */
    public CompletableFuture<PutObjectResponse> uploadLocalFileAsync(String bucketName, String key, String objectPath) {
        PutObjectRequest objectRequest = PutObjectRequest.builder()
            .bucket(bucketName)
            .key(key)
            .build();

        CompletableFuture<PutObjectResponse> response = getAsyncClient().putObject(objectRequest, AsyncRequestBody.fromFile(Paths.get(objectPath)));
        return response.whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to upload file", ex);
            }
        });
    }


    /**
     * Asynchronously retrieves the bytes of an object from an Amazon S3 bucket and writes them to a local file.
     *
     * @param bucketName the name of the S3 bucket containing the object
     * @param keyName    the key (or name) of the S3 object to retrieve
     * @param path       the local file path where the object's bytes will be written
     * @return a {@link CompletableFuture} that completes when the object bytes have been written to the local file
     */
    public CompletableFuture<Void> getObjectBytesAsync(String bucketName, String keyName, String path) {
        GetObjectRequest objectRequest = GetObjectRequest.builder()
            .key(keyName)
            .bucket(bucketName)
            .build();

        CompletableFuture<ResponseBytes<GetObjectResponse>> response = getAsyncClient().getObject(objectRequest, AsyncResponseTransformer.toBytes());
        return response.thenAccept(objectBytes -> {
            try {
                byte[] data = objectBytes.asByteArray();
                Path filePath = Paths.get(path);
                Files.write(filePath, data);
                logger.info("Successfully obtained bytes from an S3 object");
            } catch (IOException ex) {
                throw new RuntimeException("Failed to write data to file", ex);
            }
        }).whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to get object bytes from S3", ex);
            }
        });
    }


    /**
     * Asynchronously lists all objects in the specified S3 bucket.
     *
     * @param bucketName the name of the S3 bucket to list objects for
     * @return a {@link CompletableFuture} that completes when all objects have been listed
     */
    public CompletableFuture<Void> listAllObjectsAsync(String bucketName) {
        ListObjectsV2Request initialRequest = ListObjectsV2Request.builder()
            .bucket(bucketName)
            .maxKeys(1)
            .build();

        ListObjectsV2Publisher paginator = getAsyncClient().listObjectsV2Paginator(initialRequest);
        return paginator.subscribe(response -> {
            response.contents().forEach(s3Object -> {
                logger.info("Object key: " + s3Object.key());
            });
        }).thenRun(() -> {
            logger.info("Successfully listed all objects in the bucket: " + bucketName);
        }).exceptionally(ex -> {
            throw new RuntimeException("Failed to list objects", ex);
        });
    }


    /**
     * Asynchronously copies an object from one S3 bucket to another.
     *
     * @param fromBucket the name of the source S3 bucket
     * @param objectKey  the key (name) of the object to be copied
     * @param toBucket   the name of the destination S3 bucket
     * @return a {@link CompletableFuture} that completes with the copy result as a {@link String}
     * @throws RuntimeException if the URL could not be encoded or an S3 exception occurred during the copy
     */
    public CompletableFuture<String> copyBucketObjectAsync(String fromBucket, String objectKey, String toBucket) {
        CopyObjectRequest copyReq = CopyObjectRequest.builder()
            .sourceBucket(fromBucket)
            .sourceKey(objectKey)
            .destinationBucket(toBucket)
            .destinationKey(objectKey)
            .build();

        CompletableFuture<CopyObjectResponse> response = getAsyncClient().copyObject(copyReq);
        response.whenComplete((copyRes, ex) -> {
            if (copyRes != null) {
                logger.info("The " + objectKey + " was copied to " + toBucket);
            } else {
                throw new RuntimeException("An S3 exception occurred during copy", ex);
            }
        });

        return response.thenApply(CopyObjectResponse::copyObjectResult)
            .thenApply(Object::toString);
    }

    /**
     * Performs a multipart upload to an Amazon S3 bucket.
     *
     * @param bucketName the name of the S3 bucket to upload the file to
     * @param key        the key (name) of the file to be uploaded
     * @return a {@link CompletableFuture} that completes when the multipart upload is successful
     */
    public CompletableFuture<Void> multipartUpload(String bucketName, String key) {
        int mB = 1024 * 1024;

        CreateMultipartUploadRequest createMultipartUploadRequest = CreateMultipartUploadRequest.builder()
            .bucket(bucketName)
            .key(key)
            .build();

        return getAsyncClient().createMultipartUpload(createMultipartUploadRequest)
            .thenCompose(createResponse -> {
                String uploadId = createResponse.uploadId();
                System.out.println("Upload ID: " + uploadId);

                // Upload part 1.
                UploadPartRequest uploadPartRequest1 = UploadPartRequest.builder()
                    .bucket(bucketName)
                    .key(key)
                    .uploadId(uploadId)
                    .partNumber(1)
                    .contentLength((long) (5 * mB)) // Specify the content length
                    .build();

                CompletableFuture<CompletedPart> part1Future = getAsyncClient().uploadPart(uploadPartRequest1,
                        AsyncRequestBody.fromByteBuffer(getRandomByteBuffer(5 * mB)))
                    .thenApply(uploadPartResponse -> CompletedPart.builder()
                        .partNumber(1)
                        .eTag(uploadPartResponse.eTag())
                        .build());

                // Upload part 2.
                UploadPartRequest uploadPartRequest2 = UploadPartRequest.builder()
                    .bucket(bucketName)
                    .key(key)
                    .uploadId(uploadId)
                    .partNumber(2)
                    .contentLength((long) (3 * mB))
                    .build();

                CompletableFuture<CompletedPart> part2Future = getAsyncClient().uploadPart(uploadPartRequest2,
                        AsyncRequestBody.fromByteBuffer(getRandomByteBuffer(3 * mB)))
                    .thenApply(uploadPartResponse -> CompletedPart.builder()
                        .partNumber(2)
                        .eTag(uploadPartResponse.eTag())
                        .build());

                // Combine the results of both parts.
                return CompletableFuture.allOf(part1Future, part2Future)
                    .thenCompose(v -> {
                        CompletedPart part1 = part1Future.join();
                        CompletedPart part2 = part2Future.join();

                        CompletedMultipartUpload completedMultipartUpload = CompletedMultipartUpload.builder()
                            .parts(part1, part2)
                            .build();

                        CompleteMultipartUploadRequest completeMultipartUploadRequest = CompleteMultipartUploadRequest.builder()
                            .bucket(bucketName)
                            .key(key)
                            .uploadId(uploadId)
                            .multipartUpload(completedMultipartUpload)
                            .build();

                        // Complete the multipart upload
                        return getAsyncClient().completeMultipartUpload(completeMultipartUploadRequest);
                    });
            })
            .thenAccept(response -> System.out.println("Multipart upload completed successfully"))
            .exceptionally(ex -> {
                System.err.println("Failed to complete multipart upload: " + ex.getMessage());
                throw new RuntimeException(ex);
            });
    }


    /**
     * Deletes an object from an S3 bucket asynchronously.
     *
     * @param bucketName the name of the S3 bucket
     * @param key        the key (file name) of the object to be deleted
     * @return a {@link CompletableFuture} that completes when the object has been deleted
     */
    public CompletableFuture<Void> deleteObjectFromBucketAsync(String bucketName, String key) {
        DeleteObjectRequest deleteObjectRequest = DeleteObjectRequest.builder()
            .bucket(bucketName)
            .key(key)
            .build();

        CompletableFuture<DeleteObjectResponse> response = getAsyncClient().deleteObject(deleteObjectRequest);
        response.whenComplete((deleteRes, ex) -> {
            if (deleteRes != null) {
                logger.info(key + " was deleted");
            } else {
                throw new RuntimeException("An S3 exception occurred during delete", ex);
            }
        });

        return response.thenApply(r -> null);
    }


    /**
     * Deletes an S3 bucket asynchronously.
     *
     * @param bucket the name of the bucket to be deleted
     * @return a {@link CompletableFuture} that completes when the bucket deletion is successful, or throws a {@link RuntimeException}
     * if an error occurs during the deletion process
     */
    public CompletableFuture<Void> deleteBucketAsync(String bucket) {
        DeleteBucketRequest deleteBucketRequest = DeleteBucketRequest.builder()
            .bucket(bucket)
            .build();

        CompletableFuture<DeleteBucketResponse> response = getAsyncClient().deleteBucket(deleteBucketRequest);
        response.whenComplete((deleteRes, ex) -> {
            if (deleteRes != null) {
                logger.info(bucket + " was deleted.");
            } else {
                throw new RuntimeException("An S3 exception occurred during bucket deletion", ex);
            }
        });
        return response.thenApply(r -> null);
    }

    public CompletableFuture<String> performMultiCopy(String toBucket, String bucketName, String key) {
        CreateMultipartUploadRequest createMultipartUploadRequest = CreateMultipartUploadRequest.builder()
            .bucket(toBucket)
            .key(key)
            .build();

        getAsyncClient().createMultipartUpload(createMultipartUploadRequest)
            .thenApply(createMultipartUploadResponse -> {
                String uploadId = createMultipartUploadResponse.uploadId();
                System.out.println("Upload ID: " + uploadId);

                UploadPartCopyRequest uploadPartCopyRequest = UploadPartCopyRequest.builder()
                    .sourceBucket(bucketName)
                    .destinationBucket(toBucket)
                    .sourceKey(key)
                    .destinationKey(key)
                    .uploadId(uploadId)  // Use the valid uploadId.
                    .partNumber(1)  // Ensure the part number is correct.
                    .copySourceRange("bytes=0-1023")  // Adjust range as needed
                    .build();

                return getAsyncClient().uploadPartCopy(uploadPartCopyRequest);
            })
            .thenCompose(uploadPartCopyFuture -> uploadPartCopyFuture)
            .whenComplete((uploadPartCopyResponse, exception) -> {
                if (exception != null) {
                    // Handle any exceptions.
                    logger.error("Error during upload part copy: " + exception.getMessage());
                } else {
                    // Successfully completed the upload part copy.
                    System.out.println("Upload Part Copy completed successfully. ETag: " + uploadPartCopyResponse.copyPartResult().eTag());
                }
            });
        return null;
    }

    private static ByteBuffer getRandomByteBuffer(int size) {
        ByteBuffer buffer = ByteBuffer.allocate(size);
        for (int i = 0; i < size; i++) {
            buffer.put((byte) (Math.random() * 256));
        }
        buffer.flip();
        return buffer;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CopyObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteBucket)
  + [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteObjects)
  + [GetObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObject)
  + [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListObjectsV2)
  + [PutObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `AbortMultipartUpload`
<a name="s3_AbortMultipartUpload_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AbortMultipartUpload`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.AbortMultipartUploadRequest;
import software.amazon.awssdk.services.s3.model.AbortMultipartUploadResponse;
import software.amazon.awssdk.services.s3.model.CompletedMultipartUpload;
import software.amazon.awssdk.services.s3.model.CompletedPart;
import software.amazon.awssdk.services.s3.model.CreateMultipartUploadResponse;
import software.amazon.awssdk.services.s3.model.LifecycleRule;
import software.amazon.awssdk.services.s3.model.ListMultipartUploadsRequest;
import software.amazon.awssdk.services.s3.model.ListMultipartUploadsResponse;
import software.amazon.awssdk.services.s3.model.MultipartUpload;
import software.amazon.awssdk.services.s3.model.PutBucketLifecycleConfigurationResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.UploadPartRequest;
import software.amazon.awssdk.services.s3.model.UploadPartResponse;
import software.amazon.awssdk.services.s3.waiters.S3Waiter;
import software.amazon.awssdk.services.sts.StsClient;
import software.amazon.awssdk.utils.builder.SdkBuilder;

import java.io.IOException;
import java.io.RandomAccessFile;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.ByteBuffer;
import java.time.Duration;
import java.time.Instant;
import java.util.ArrayList;
import java.util.Collection;
import java.util.List;
import java.util.Objects;
import java.util.UUID;

import static software.amazon.awssdk.transfer.s3.SizeConstant.KB;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class AbortMultipartUploadExamples {
    static final String bucketName = "amzn-s3-demo-bucket" + UUID.randomUUID(); // Change bucket name.
    static final String key = UUID.randomUUID().toString();
    static final String classPathFilePath = "/multipartUploadFiles/s3-userguide.pdf";
    static final String filePath = getFullFilePath(classPathFilePath);
    static final S3Client s3Client = S3Client.create();
    private static final Logger logger = LoggerFactory.getLogger(AbortMultipartUploadExamples.class);
    private static String accountId = getAccountId();

    public static void main(String[] args) {
        doAbortIncompleteMultipartUploadsFromList();
        doAbortMultipartUploadUsingUploadId();
        doAbortIncompleteMultipartUploadsOlderThan();
        doAbortMultipartUploadsUsingLifecycleConfig();
    }

    // A wrapper method that sets up the multipart upload environment for abortIncompleteMultipartUploadsFromList().
    public static void doAbortIncompleteMultipartUploadsFromList() {
        createBucket();
        initiateAndInterruptMultiPartUpload("uploadThread");
        abortIncompleteMultipartUploadsFromList();
        deleteResources();
    }

    /**
     * Aborts all incomplete multipart uploads from the specified S3 bucket.
     * <p>
     * This method retrieves a list of all incomplete multipart uploads in the specified S3 bucket,
     * and then aborts each of those uploads.
     */
    public static void abortIncompleteMultipartUploadsFromList() {
        ListMultipartUploadsRequest listMultipartUploadsRequest = ListMultipartUploadsRequest.builder()
            .bucket(bucketName)
            .build();

        ListMultipartUploadsResponse response = s3Client.listMultipartUploads(listMultipartUploadsRequest);
        List<MultipartUpload> uploads = response.uploads();

        AbortMultipartUploadRequest abortMultipartUploadRequest;
        for (MultipartUpload upload : uploads) {
            abortMultipartUploadRequest = AbortMultipartUploadRequest.builder()
                .bucket(bucketName)
                .key(upload.key())
                .expectedBucketOwner(accountId)
                .uploadId(upload.uploadId())
                .build();

            AbortMultipartUploadResponse abortMultipartUploadResponse = s3Client.abortMultipartUpload(abortMultipartUploadRequest);
            if (abortMultipartUploadResponse.sdkHttpResponse().isSuccessful()) {
                logger.info("Upload ID [{}] to bucket [{}] successfully aborted.", upload.uploadId(), bucketName);
            }
        }
    }

    // A wrapper method that sets up the multipart upload environment for abortIncompleteMultipartUploadsOlderThan().
    static void doAbortIncompleteMultipartUploadsOlderThan() {
        createBucket();
        Instant secondUploadInstant = initiateAndInterruptTwoUploads();
        abortIncompleteMultipartUploadsOlderThan(secondUploadInstant);
        deleteResources();
    }

    static void abortIncompleteMultipartUploadsOlderThan(Instant pointInTime) {
        ListMultipartUploadsRequest listMultipartUploadsRequest = ListMultipartUploadsRequest.builder()
            .bucket(bucketName)
            .build();

        ListMultipartUploadsResponse response = s3Client.listMultipartUploads(listMultipartUploadsRequest);
        List<MultipartUpload> uploads = response.uploads();

        AbortMultipartUploadRequest abortMultipartUploadRequest;
        for (MultipartUpload upload : uploads) {
            logger.info("Found multipartUpload with upload ID [{}], initiated [{}]", upload.uploadId(), upload.initiated());
            if (upload.initiated().isBefore(pointInTime)) {
                abortMultipartUploadRequest = AbortMultipartUploadRequest.builder()
                    .bucket(bucketName)
                    .key(upload.key())
                    .expectedBucketOwner(accountId)
                    .uploadId(upload.uploadId())
                    .build();

                AbortMultipartUploadResponse abortMultipartUploadResponse = s3Client.abortMultipartUpload(abortMultipartUploadRequest);
                if (abortMultipartUploadResponse.sdkHttpResponse().isSuccessful()) {
                    logger.info("Upload ID [{}] to bucket [{}] successfully aborted.", upload.uploadId(), bucketName);
                }
            }
        }
    }

    // A wrapper method that sets up the multipart upload environment for abortMultipartUploadUsingUploadId().
    static void doAbortMultipartUploadUsingUploadId() {
        createBucket();
        try {
            abortMultipartUploadUsingUploadId();
        } catch (S3Exception e) {
            logger.error(e.getMessage());
        } finally {
            deleteResources();
        }
    }

    static void abortMultipartUploadUsingUploadId() {
        String uploadId = startUploadReturningUploadId();
        AbortMultipartUploadResponse response = s3Client.abortMultipartUpload(b -> b
            .uploadId(uploadId)
            .bucket(bucketName)
            .key(key));

        if (response.sdkHttpResponse().isSuccessful()) {
            logger.info("Upload ID [{}] to bucket [{}] successfully aborted.", uploadId, bucketName);
        }
    }

    // A wrapper method that sets up the multipart upload environment for abortMultipartUploadsUsingLifecycleConfig().
    static void doAbortMultipartUploadsUsingLifecycleConfig() {
        createBucket();
        try {
            abortMultipartUploadsUsingLifecycleConfig();
        } catch (S3Exception e) {
            logger.error(e.getMessage());
        } finally {
            deleteResources();
        }
    }

    static void abortMultipartUploadsUsingLifecycleConfig() {
        Collection<LifecycleRule> lifeCycleRules = List.of(LifecycleRule.builder()
            .abortIncompleteMultipartUpload(b -> b.
                daysAfterInitiation(7))
            .status("Enabled")
            .filter(SdkBuilder::build) // Filter element is required.
            .build());

        // If the action is successful, the service sends back an HTTP 200 response with an empty HTTP body.
        PutBucketLifecycleConfigurationResponse response = s3Client.putBucketLifecycleConfiguration(b -> b
            .bucket(bucketName)
            .lifecycleConfiguration(b1 -> b1.rules(lifeCycleRules)));

        if (response.sdkHttpResponse().isSuccessful()) {
            logger.info("Rule to abort incomplete multipart uploads added to bucket.");
        } else {
            logger.error("Unsuccessfully applied rule. HTTP status code is [{}]", response.sdkHttpResponse().statusCode());
        }
    }

    /************************
     Multipart upload methods
     ***********************/

    static void initiateAndInterruptMultiPartUpload(String threadName) {
        Runnable upload = () -> {
            try {
                AbortMultipartUploadExamples.doMultipartUpload();
            } catch (SdkException e) {
                logger.error(e.getMessage());
            }
        };
        Thread uploadThread = new Thread(upload, threadName);
        uploadThread.start();
        try {
            Thread.sleep(Duration.ofSeconds(1).toMillis()); // Give the multipart upload time to register.
        } catch (InterruptedException e) {
            logger.error(e.getMessage());
        }
        uploadThread.interrupt();
    }

    static Instant initiateAndInterruptTwoUploads() {
        Instant firstUploadInstant = Instant.now();
        initiateAndInterruptMultiPartUpload("uploadThread1");
        try {
            Thread.sleep(Duration.ofSeconds(5).toMillis());
        } catch (InterruptedException e) {
            logger.error(e.getMessage());
        }
        Instant secondUploadInstant = Instant.now();
        initiateAndInterruptMultiPartUpload("uploadThread2");
        return secondUploadInstant;
    }

    static void doMultipartUpload() {
        String uploadId = step1CreateMultipartUpload();
        List<CompletedPart> completedParts = step2UploadParts(uploadId);
        step3CompleteMultipartUpload(uploadId, completedParts);
    }

    static String step1CreateMultipartUpload() {
        CreateMultipartUploadResponse createMultipartUploadResponse = s3Client.createMultipartUpload(b -> b
            .bucket(bucketName)
            .key(key));
        return createMultipartUploadResponse.uploadId();
    }

    static List<CompletedPart> step2UploadParts(String uploadId) {
        int partNumber = 1;
        List<CompletedPart> completedParts = new ArrayList<>();
        ByteBuffer bb = ByteBuffer.allocate(Long.valueOf(1024 * KB).intValue());

        try (RandomAccessFile file = new RandomAccessFile(filePath, "r")) {
            long fileSize = file.length();
            long position = 0;
            while (position < fileSize) {
                file.seek(position);
                long read = file.getChannel().read(bb);

                bb.flip(); // Swap position and limit before reading from the buffer.
                UploadPartRequest uploadPartRequest = UploadPartRequest.builder()
                    .bucket(bucketName)
                    .key(key)
                    .uploadId(uploadId)
                    .partNumber(partNumber)
                    .build();

                UploadPartResponse partResponse = s3Client.uploadPart(
                    uploadPartRequest,
                    RequestBody.fromByteBuffer(bb));

                CompletedPart part = CompletedPart.builder()
                    .partNumber(partNumber)
                    .eTag(partResponse.eTag())
                    .build();
                completedParts.add(part);
                logger.info("Part {} upload", partNumber);

                bb.clear();
                position += read;
                partNumber++;
            }
        } catch (IOException | S3Exception e) {
            logger.error(e.getMessage());
            return null;
        }
        return completedParts;
    }

    static void step3CompleteMultipartUpload(String uploadId, List<CompletedPart> completedParts) {
        s3Client.completeMultipartUpload(b -> b
            .bucket(bucketName)
            .key(key)
            .uploadId(uploadId)
            .multipartUpload(CompletedMultipartUpload.builder().parts(completedParts).build()));
    }

    static String startUploadReturningUploadId() {
        String uploadId = step1CreateMultipartUpload();
        doMultipartUploadWithUploadId(uploadId);
        return uploadId;

    }

    static void doMultipartUploadWithUploadId(String uploadId) {
        new Thread(() -> {
            try {
                List<CompletedPart> completedParts = step2UploadParts(uploadId);
                step3CompleteMultipartUpload(uploadId, completedParts);
            } catch (SdkException e) {
                logger.error(e.getMessage());
            }
        }, "upload thread").start();
        try {
            Thread.sleep(Duration.ofSeconds(2L).toMillis());
        } catch (InterruptedException e) {
            logger.error(e.getMessage());
            System.exit(1);
        }
    }

    /*************************
     Resource handling methods
     ************************/

    static void createBucket() {
        logger.info("Creating bucket: [{}]", bucketName);
        s3Client.createBucket(b -> b.bucket(bucketName));
        try (S3Waiter s3Waiter = s3Client.waiter()) {
            s3Waiter.waitUntilBucketExists(b -> b.bucket(bucketName));
        }
        logger.info("Bucket created.");
    }

    static void deleteResources() {
        logger.info("Deleting resources ...");
        s3Client.deleteObject(b -> b.bucket(bucketName).key(key));
        s3Client.deleteBucket(b -> b.bucket(bucketName));
        try (S3Waiter s3Waiter = s3Client.waiter()) {
            s3Waiter.waitUntilBucketNotExists(b -> b.bucket(bucketName));
        }
        logger.info("Resources deleted.");
    }

    private static String getAccountId() {
        try (StsClient stsClient = StsClient.create()) {
            return stsClient.getCallerIdentity().account();
        }
    }

    static String getFullFilePath(String filePath) {
        URL uploadDirectoryURL = PerformMultiPartUpload.class.getResource(filePath);
        String fullFilePath;
        try {
            fullFilePath = Objects.requireNonNull(uploadDirectoryURL).toURI().getPath();
        } catch (URISyntaxException e) {
            throw new RuntimeException(e);
        }
        return fullFilePath;
    }
}
```
+  Untuk detail API, lihat [AbortMultipartUpload](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/AbortMultipartUpload)di *Referensi AWS SDK for Java 2.x API*. 

### `CopyObject`
<a name="s3_CopyObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Salin objek menggunakan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
    /**
     * Asynchronously copies an object from one S3 bucket to another.
     *
     * @param fromBucket the name of the source S3 bucket
     * @param objectKey  the key (name) of the object to be copied
     * @param toBucket   the name of the destination S3 bucket
     * @return a {@link CompletableFuture} that completes with the copy result as a {@link String}
     * @throws RuntimeException if the URL could not be encoded or an S3 exception occurred during the copy
     */
    public CompletableFuture<String> copyBucketObjectAsync(String fromBucket, String objectKey, String toBucket) {
        CopyObjectRequest copyReq = CopyObjectRequest.builder()
            .sourceBucket(fromBucket)
            .sourceKey(objectKey)
            .destinationBucket(toBucket)
            .destinationKey(objectKey)
            .build();

        CompletableFuture<CopyObjectResponse> response = getAsyncClient().copyObject(copyReq);
        response.whenComplete((copyRes, ex) -> {
            if (copyRes != null) {
                logger.info("The " + objectKey + " was copied to " + toBucket);
            } else {
                throw new RuntimeException("An S3 exception occurred during copy", ex);
            }
        });

        return response.thenApply(CopyObjectResponse::copyObjectResult)
            .thenApply(Object::toString);
    }
```
Gunakan [S3 TransferManager](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html) untuk [menyalin objek](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html#copy(software.amazon.awssdk.transfer.s3.CopyRequest)) dari satu ember ke ember lainnya. Lihat [file lengkap](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/main/java/com/example/s3/transfermanager/ObjectCopy.java) dan [lakukan pengujian](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/test/java/TransferManagerTest.java).  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.services.s3.model.CopyObjectRequest;
import software.amazon.awssdk.transfer.s3.S3TransferManager;
import software.amazon.awssdk.transfer.s3.model.CompletedCopy;
import software.amazon.awssdk.transfer.s3.model.Copy;
import software.amazon.awssdk.transfer.s3.model.CopyRequest;

import java.util.UUID;

    public String copyObject(S3TransferManager transferManager, String bucketName,
            String key, String destinationBucket, String destinationKey) {
        CopyObjectRequest copyObjectRequest = CopyObjectRequest.builder()
                .sourceBucket(bucketName)
                .sourceKey(key)
                .destinationBucket(destinationBucket)
                .destinationKey(destinationKey)
                .build();

        CopyRequest copyRequest = CopyRequest.builder()
                .copyObjectRequest(copyObjectRequest)
                .build();

        Copy copy = transferManager.copy(copyRequest);

        CompletedCopy completedCopy = copy.completionFuture().join();
        return completedCopy.response().copyObjectResult().eTag();
    }
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CopyObject)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateBucket`
<a name="s3_CreateBucket_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Buat bucket.  

```
    /**
     * Creates an S3 bucket asynchronously.
     *
     * @param bucketName the name of the S3 bucket to create
     * @return a {@link CompletableFuture} that completes when the bucket is created and ready
     * @throws RuntimeException if there is a failure while creating the bucket
     */
    public CompletableFuture<Void> createBucketAsync(String bucketName) {
        CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
            .bucket(bucketName)
            .build();

        CompletableFuture<CreateBucketResponse> response = getAsyncClient().createBucket(bucketRequest);
        return response.thenCompose(resp -> {
            S3AsyncWaiter s3Waiter = getAsyncClient().waiter();
            HeadBucketRequest bucketRequestWait = HeadBucketRequest.builder()
                .bucket(bucketName)
                .build();

            CompletableFuture<WaiterResponse<HeadBucketResponse>> waiterResponseFuture =
                s3Waiter.waitUntilBucketExists(bucketRequestWait);
            return waiterResponseFuture.thenAccept(waiterResponse -> {
                waiterResponse.matched().response().ifPresent(headBucketResponse -> {
                    logger.info(bucketName + " is ready");
                });
            });
        }).whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to create bucket", ex);
            }
        });
    }
```
Buat ember dengan kunci objek diaktifkan.  

```
    // Create a new Amazon S3 bucket with object lock options.
    public void createBucketWithLockOptions(boolean enableObjectLock, String bucketName) {
        S3Waiter s3Waiter = getClient().waiter();
        CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
            .bucket(bucketName)
            .objectLockEnabledForBucket(enableObjectLock)
            .build();

        getClient().createBucket(bucketRequest);
        HeadBucketRequest bucketRequestWait = HeadBucketRequest.builder()
            .bucket(bucketName)
            .build();

        // Wait until the bucket is created and print out the response.
        s3Waiter.waitUntilBucketExists(bucketRequestWait);
        System.out.println(bucketName + " is ready");
    }
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateBucket)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    /**
     * Deletes an S3 bucket asynchronously.
     *
     * @param bucket the name of the bucket to be deleted
     * @return a {@link CompletableFuture} that completes when the bucket deletion is successful, or throws a {@link RuntimeException}
     * if an error occurs during the deletion process
     */
    public CompletableFuture<Void> deleteBucketAsync(String bucket) {
        DeleteBucketRequest deleteBucketRequest = DeleteBucketRequest.builder()
            .bucket(bucket)
            .build();

        CompletableFuture<DeleteBucketResponse> response = getAsyncClient().deleteBucket(deleteBucketRequest);
        response.whenComplete((deleteRes, ex) -> {
            if (deleteRes != null) {
                logger.info(bucket + " was deleted.");
            } else {
                throw new RuntimeException("An S3 exception occurred during bucket deletion", ex);
            }
        });
        return response.thenApply(r -> null);
    }
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteBucket)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteBucketPolicy`
<a name="s3_DeleteBucketPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.DeleteBucketPolicyRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class DeleteBucketPolicy {
    public static void main(String[] args) {

        final String usage = """

                Usage:
                    <bucketName>

                Where:
                    bucketName - The Amazon S3 bucket to delete the policy from (for example, bucket1).""";

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        System.out.format("Deleting policy from bucket: \"%s\"\n\n", bucketName);
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
                .region(region)
                .build();

        deleteS3BucketPolicy(s3, bucketName);
        s3.close();
    }

    /**
     * Deletes the S3 bucket policy for the specified bucket.
     *
     * @param s3 the {@link S3Client} instance to use for the operation
     * @param bucketName the name of the S3 bucket for which the policy should be deleted
     *
     * @throws S3Exception if there is an error deleting the bucket policy
     */
    public static void deleteS3BucketPolicy(S3Client s3, String bucketName) {
        DeleteBucketPolicyRequest delReq = DeleteBucketPolicyRequest.builder()
                .bucket(bucketName)
                .build();

        try {
            s3.deleteBucketPolicy(delReq);
            System.out.println("Done!");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteBucketPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteBucketWebsite`
<a name="s3_DeleteBucketWebsite_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketWebsite`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.DeleteBucketWebsiteRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class DeleteWebsiteConfiguration {
    public static void main(String[] args) {
        final String usage = """

            Usage:     <bucketName>

            Where:
                bucketName - The Amazon S3 bucket to delete the website configuration from.
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        System.out.format("Deleting website configuration for Amazon S3 bucket: %s\n", bucketName);
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        deleteBucketWebsiteConfig(s3, bucketName);
        System.out.println("Done!");
        s3.close();
    }

    /**
     * Deletes the website configuration for an Amazon S3 bucket.
     *
     * @param s3 The {@link S3Client} instance used to interact with Amazon S3.
     * @param bucketName The name of the S3 bucket for which the website configuration should be deleted.
     * @throws S3Exception If an error occurs while deleting the website configuration.
     */
    public static void deleteBucketWebsiteConfig(S3Client s3, String bucketName) {
        DeleteBucketWebsiteRequest delReq = DeleteBucketWebsiteRequest.builder()
            .bucket(bucketName)
            .build();

        try {
            s3.deleteBucketWebsite(delReq);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.out.println("Failed to delete website configuration!");
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteBucketWebsite](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteBucketWebsite)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteObject`
<a name="s3_DeleteObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    /**
     * Deletes an object from an S3 bucket asynchronously.
     *
     * @param bucketName the name of the S3 bucket
     * @param key        the key (file name) of the object to be deleted
     * @return a {@link CompletableFuture} that completes when the object has been deleted
     */
    public CompletableFuture<Void> deleteObjectFromBucketAsync(String bucketName, String key) {
        DeleteObjectRequest deleteObjectRequest = DeleteObjectRequest.builder()
            .bucket(bucketName)
            .key(key)
            .build();

        CompletableFuture<DeleteObjectResponse> response = getAsyncClient().deleteObject(deleteObjectRequest);
        response.whenComplete((deleteRes, ex) -> {
            if (deleteRes != null) {
                logger.info(key + " was deleted");
            } else {
                throw new RuntimeException("An S3 exception occurred during delete", ex);
            }
        });

        return response.thenApply(r -> null);
    }
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteObject)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutObjectRequest;
import software.amazon.awssdk.services.s3.model.ObjectIdentifier;
import software.amazon.awssdk.services.s3.model.Delete;
import software.amazon.awssdk.services.s3.model.DeleteObjectsRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.util.ArrayList;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class DeleteMultiObjects {
    public static void main(String[] args) {
        final String usage = """

            Usage:    <bucketName>

            Where:
               bucketName - the Amazon S3 bucket name.
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        deleteBucketObjects(s3, bucketName);
        s3.close();
    }

    /**
     * Deletes multiple objects from an Amazon S3 bucket.
     *
     * @param s3 An Amazon S3 client object.
     * @param bucketName The name of the Amazon S3 bucket to delete objects from.
     */
    public static void deleteBucketObjects(S3Client s3, String bucketName) {
        // Upload three sample objects to the specfied Amazon S3 bucket.
        ArrayList<ObjectIdentifier> keys = new ArrayList<>();
        PutObjectRequest putOb;
        ObjectIdentifier objectId;

        for (int i = 0; i < 3; i++) {
            String keyName = "delete object example " + i;
            objectId = ObjectIdentifier.builder()
                .key(keyName)
                .build();

            putOb = PutObjectRequest.builder()
                .bucket(bucketName)
                .key(keyName)
                .build();

            s3.putObject(putOb, RequestBody.fromString(keyName));
            keys.add(objectId);
        }

        System.out.println(keys.size() + " objects successfully created.");

        // Delete multiple objects in one request.
        Delete del = Delete.builder()
            .objects(keys)
            .build();

        try {
            DeleteObjectsRequest multiObjectDeleteRequest = DeleteObjectsRequest.builder()
                .bucket(bucketName)
                .delete(del)
                .build();

            s3.deleteObjects(multiObjectDeleteRequest);
            System.out.println("Multiple objects are deleted!");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteObjects)di *Referensi AWS SDK for Java 2.x API*. 

### `GetBucketAcl`
<a name="s3_GetBucketAcl_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketAcl`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetObjectAclRequest;
import software.amazon.awssdk.services.s3.model.GetObjectAclResponse;
import software.amazon.awssdk.services.s3.model.Grant;

import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class GetAcl {
    public static void main(String[] args) {
        final String usage = """

            Usage:
              <bucketName> <objectKey>

            Where:
              bucketName - The Amazon S3 bucket to get the access control list (ACL) for.
              objectKey - The object to get the ACL for.\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String objectKey = args[1];
        System.out.println("Retrieving ACL for object: " + objectKey);
        System.out.println("in bucket: " + bucketName);
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        getBucketACL(s3, objectKey, bucketName);
        s3.close();
        System.out.println("Done!");
    }

    /**
     * Retrieves the Access Control List (ACL) for an object in an Amazon S3 bucket.
     *
     * @param s3 The S3Client object used to interact with the Amazon S3 service.
     * @param objectKey The key of the object for which the ACL is to be retrieved.
     * @param bucketName The name of the bucket containing the object.
     * @return The ID of the grantee who has permission on the object, or an empty string if an error occurs.
     */
    public static String getBucketACL(S3Client s3, String objectKey, String bucketName) {
        try {
            GetObjectAclRequest aclReq = GetObjectAclRequest.builder()
                .bucket(bucketName)
                .key(objectKey)
                .build();

            GetObjectAclResponse aclRes = s3.getObjectAcl(aclReq);
            List<Grant> grants = aclRes.grants();
            String grantee = "";
            for (Grant grant : grants) {
                System.out.format("  %s: %s\n", grant.grantee().id(), grant.permission());
                grantee = grant.grantee().id();
            }

            return grantee;
        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return "";
    }
}
```
+  Untuk detail API, lihat [GetBucketAcl](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetBucketAcl)di *Referensi AWS SDK for Java 2.x API*. 

### `GetBucketPolicy`
<a name="s3_GetBucketPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetBucketPolicyRequest;
import software.amazon.awssdk.services.s3.model.GetBucketPolicyResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class GetBucketPolicy {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName>

            Where:
                bucketName - The Amazon S3 bucket to get the policy from.
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        System.out.format("Getting policy for bucket: \"%s\"\n\n", bucketName);
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        String polText = getPolicy(s3, bucketName);
        System.out.println("Policy Text: " + polText);
        s3.close();
    }

    /**
     * Retrieves the policy for the specified Amazon S3 bucket.
     *
     * @param s3 the {@link S3Client} instance to use for making the request
     * @param bucketName the name of the S3 bucket for which to retrieve the policy
     * @return the policy text for the specified bucket, or an empty string if an error occurs
     */
    public static String getPolicy(S3Client s3, String bucketName) {
        String policyText;
        System.out.format("Getting policy for bucket: \"%s\"\n\n", bucketName);
        GetBucketPolicyRequest policyReq = GetBucketPolicyRequest.builder()
            .bucket(bucketName)
            .build();

        try {
            GetBucketPolicyResponse policyRes = s3.getBucketPolicy(policyReq);
            policyText = policyRes.policy();
            return policyText;

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        return "";
    }
}
```
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetBucketPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `GetBucketReplication`
<a name="s3_GetBucketReplication_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketReplication`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    /**
     * Retrieves the replication details for the specified S3 bucket.
     *
     * @param s3Client           the S3 client used to interact with the S3 service
     * @param sourceBucketName   the name of the S3 bucket to retrieve the replication details for
     *
     * @throws S3Exception if there is an error retrieving the replication details
     */
    public static void getReplicationDetails(S3Client s3Client, String sourceBucketName) {
        GetBucketReplicationRequest getRequest = GetBucketReplicationRequest.builder()
            .bucket(sourceBucketName)
            .build();

        try {
            ReplicationConfiguration replicationConfig = s3Client.getBucketReplication(getRequest).replicationConfiguration();
            ReplicationRule rule = replicationConfig.rules().get(0);
            System.out.println("Retrieved destination bucket: " + rule.destination().bucket());
            System.out.println("Retrieved priority: " + rule.priority());
            System.out.println("Retrieved source-bucket replication rule status: " + rule.status());

        } catch (S3Exception e) {
            System.err.println("Failed to retrieve replication details: " + e.awsErrorDetails().errorMessage());
        }
    }
```
+  Untuk detail API, lihat [GetBucketReplication](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetBucketReplication)di *Referensi AWS SDK for Java 2.x API*. 

### `GetObject`
<a name="s3_GetObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Membaca data sebagai array byte menggunakan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
    /**
     * Asynchronously retrieves the bytes of an object from an Amazon S3 bucket and writes them to a local file.
     *
     * @param bucketName the name of the S3 bucket containing the object
     * @param keyName    the key (or name) of the S3 object to retrieve
     * @param path       the local file path where the object's bytes will be written
     * @return a {@link CompletableFuture} that completes when the object bytes have been written to the local file
     */
    public CompletableFuture<Void> getObjectBytesAsync(String bucketName, String keyName, String path) {
        GetObjectRequest objectRequest = GetObjectRequest.builder()
            .key(keyName)
            .bucket(bucketName)
            .build();

        CompletableFuture<ResponseBytes<GetObjectResponse>> response = getAsyncClient().getObject(objectRequest, AsyncResponseTransformer.toBytes());
        return response.thenAccept(objectBytes -> {
            try {
                byte[] data = objectBytes.asByteArray();
                Path filePath = Paths.get(path);
                Files.write(filePath, data);
                logger.info("Successfully obtained bytes from an S3 object");
            } catch (IOException ex) {
                throw new RuntimeException("Failed to write data to file", ex);
            }
        }).whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to get object bytes from S3", ex);
            }
        });
    }
```
Gunakan [S3 TransferManager](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html) untuk [mengunduh objek](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html#downloadFile(software.amazon.awssdk.transfer.s3.DownloadFileRequest)) dalam bucket S3 ke file lokal. Lihat [file lengkap](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/main/java/com/example/s3/transfermanager/DownloadFile.java) dan [lakukan pengujian](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/test/java/TransferManagerTest.java).  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.transfer.s3.S3TransferManager;
import software.amazon.awssdk.transfer.s3.model.CompletedFileDownload;
import software.amazon.awssdk.transfer.s3.model.DownloadFileRequest;
import software.amazon.awssdk.transfer.s3.model.FileDownload;
import software.amazon.awssdk.transfer.s3.progress.LoggingTransferListener;

import java.io.IOException;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.file.Files;
import java.nio.file.NoSuchFileException;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.UUID;

    public Long downloadFile(S3TransferManager transferManager, String bucketName,
                             String key, String downloadedFileWithPath) {
        DownloadFileRequest downloadFileRequest = DownloadFileRequest.builder()
                .getObjectRequest(b -> b.bucket(bucketName).key(key))
                .destination(Paths.get(downloadedFileWithPath))
                .build();

        FileDownload downloadFile = transferManager.downloadFile(downloadFileRequest);

        CompletedFileDownload downloadResult = downloadFile.completionFuture().join();
        logger.info("Content length [{}]", downloadResult.response().contentLength());
        return downloadResult.response().contentLength();
    }
```
Baca tanda milik objek menggunakan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetObjectTaggingRequest;
import software.amazon.awssdk.services.s3.model.GetObjectTaggingResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.Tag;

import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class GetObjectTags {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName> <keyName>\s

            Where:
                bucketName - The Amazon S3 bucket name.\s
                keyName - A key name that represents the object.\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String keyName = args[1];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        listTags(s3, bucketName, keyName);
        s3.close();
    }

    /**
     * Lists the tags associated with an Amazon S3 object.
     *
     * @param s3 the S3Client object used to interact with the Amazon S3 service
     * @param bucketName the name of the S3 bucket that contains the object
     * @param keyName the key (name) of the S3 object
     */
    public static void listTags(S3Client s3, String bucketName, String keyName) {
        try {
            GetObjectTaggingRequest getTaggingRequest = GetObjectTaggingRequest
                .builder()
                .key(keyName)
                .bucket(bucketName)
                .build();

            GetObjectTaggingResponse tags = s3.getObjectTagging(getTaggingRequest);
            List<Tag> tagSet = tags.tagSet();
            for (Tag tag : tagSet) {
                System.out.println(tag.key());
                System.out.println(tag.value());
            }

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Dapatkan URL untuk objek menggunakan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetUrlRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.net.URL;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class GetObjectUrl {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName> <keyName>\s

            Where:
                bucketName - The Amazon S3 bucket name.
                keyName - A key name that represents the object.\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String keyName = args[1];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        getURL(s3, bucketName, keyName);
        s3.close();
    }

    /**
     * Retrieves the URL for a specific object in an Amazon S3 bucket.
     *
     * @param s3 the S3Client object used to interact with the Amazon S3 service
     * @param bucketName the name of the S3 bucket where the object is stored
     * @param keyName the name of the object for which the URL should be retrieved
     * @throws S3Exception if there is an error retrieving the URL for the specified object
     */
    public static void getURL(S3Client s3, String bucketName, String keyName) {
        try {
            GetUrlRequest request = GetUrlRequest.builder()
                .bucket(bucketName)
                .key(keyName)
                .build();

            URL url = s3.utilities().getUrl(request);
            System.out.println("The URL for  " + keyName + " is " + url);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Dapatkan objek dengan menggunakan objek klien S3Presigner menggunakan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.HttpURLConnection;
import java.time.Duration;

import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.model.GetObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.presigner.model.GetObjectPresignRequest;
import software.amazon.awssdk.services.s3.presigner.model.PresignedGetObjectRequest;
import software.amazon.awssdk.services.s3.presigner.S3Presigner;
import software.amazon.awssdk.utils.IoUtils;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetObjectPresignedUrl {
    public static void main(String[] args) {
        final String USAGE = """

            Usage:
                <bucketName> <keyName>\s

            Where:
                bucketName - The Amazon S3 bucket name.\s
                keyName - A key name that represents a text file.\s
            """;

        if (args.length != 2) {
            System.out.println(USAGE);
            System.exit(1);
        }

        String bucketName = args[0];
        String keyName = args[1];
        Region region = Region.US_EAST_1;
        S3Presigner presigner = S3Presigner.builder()
            .region(region)
            .build();

        getPresignedUrl(presigner, bucketName, keyName);
        presigner.close();
    }

    /**
     * Generates a pre-signed URL for an Amazon S3 object.
     *
     * @param presigner The {@link S3Presigner} instance to use for generating the pre-signed URL.
     * @param bucketName The name of the Amazon S3 bucket where the object is stored.
     * @param keyName The key name (file name) of the object in the Amazon S3 bucket.
     *
     * @throws S3Exception If there is an error interacting with the Amazon S3 service.
     * @throws IOException If there is an error opening the HTTP connection or reading/writing the request/response.
     */
    public static void getPresignedUrl(S3Presigner presigner, String bucketName, String keyName) {
        try {
            GetObjectRequest getObjectRequest = GetObjectRequest.builder()
                .bucket(bucketName)
                .key(keyName)
                .build();

            GetObjectPresignRequest getObjectPresignRequest = GetObjectPresignRequest.builder()
                .signatureDuration(Duration.ofMinutes(60))
                .getObjectRequest(getObjectRequest)
                .build();

            PresignedGetObjectRequest presignedGetObjectRequest = presigner.presignGetObject(getObjectPresignRequest);
            String theUrl = presignedGetObjectRequest.url().toString();
            System.out.println("Presigned URL: " + theUrl);
            HttpURLConnection connection = (HttpURLConnection) presignedGetObjectRequest.url().openConnection();
            presignedGetObjectRequest.httpRequest().headers().forEach((header, values) -> {
                values.forEach(value -> {
                    connection.addRequestProperty(header, value);
                });
            });

            // Send any request payload that the service needs (not needed when
            // isBrowserExecutable is true).
            if (presignedGetObjectRequest.signedPayload().isPresent()) {
                connection.setDoOutput(true);

                try (InputStream signedPayload = presignedGetObjectRequest.signedPayload().get().asInputStream();
                     OutputStream httpOutputStream = connection.getOutputStream()) {
                    IoUtils.copy(signedPayload, httpOutputStream);
                }
            }

            // Download the result of executing the request.
            try (InputStream content = connection.getInputStream()) {
                System.out.println("Service returned response: ");
                IoUtils.copy(content, System.out);
            }

        } catch (S3Exception | IOException e) {
            e.printStackTrace();
        }
    }
}
```
Dapatkan objek dengan menggunakan ResponseTransformer objek dan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
import software.amazon.awssdk.core.ResponseBytes;
import software.amazon.awssdk.core.sync.ResponseTransformer;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.GetObjectResponse;

import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.OutputStream;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class GetObjectData {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName> <keyName> <path>

            Where:
                bucketName - The Amazon S3 bucket name.\s
                keyName - The key name.\s
                path - The path where the file is written to.\s
            """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String keyName = args[1];
        String path = args[2];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        getObjectBytes(s3, bucketName, keyName, path);
        s3.close();
    }

    /**
     * Retrieves the bytes of an object stored in an Amazon S3 bucket and saves them to a local file.
     *
     * @param s3 The S3Client instance used to interact with the Amazon S3 service.
     * @param bucketName The name of the S3 bucket where the object is stored.
     * @param keyName The key (or name) of the S3 object.
     * @param path The local file path where the object's bytes will be saved.
     * @throws IOException If an I/O error occurs while writing the bytes to the local file.
     * @throws S3Exception If an error occurs while retrieving the object from the S3 bucket.
     */
    public static void getObjectBytes(S3Client s3, String bucketName, String keyName, String path) {
        try {
            GetObjectRequest objectRequest = GetObjectRequest
                .builder()
                .key(keyName)
                .bucket(bucketName)
                .build();

            ResponseBytes<GetObjectResponse> objectBytes = s3.getObject(objectRequest, ResponseTransformer.toBytes());
            byte[] data = objectBytes.asByteArray();

            // Write the data to a local file.
            File myFile = new File(path);
            OutputStream os = new FileOutputStream(myFile);
            os.write(data);
            System.out.println("Successfully obtained bytes from an S3 object");
            os.close();

        } catch (IOException ex) {
            ex.printStackTrace();
        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObject)di *Referensi AWS SDK for Java 2.x API*. 

### `GetObjectLegalHold`
<a name="s3_GetObjectLegalHold_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLegalHold`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    // Get the legal hold details for an S3 object.
    public ObjectLockLegalHold getObjectLegalHold(String bucketName, String objectKey) {
        try {
            GetObjectLegalHoldRequest legalHoldRequest = GetObjectLegalHoldRequest.builder()
                .bucket(bucketName)
                .key(objectKey)
                .build();

            GetObjectLegalHoldResponse response = getClient().getObjectLegalHold(legalHoldRequest);
            System.out.println("Object legal hold for " + objectKey + " in " + bucketName +
                ":\n\tStatus: " + response.legalHold().status());
            return response.legalHold();

        } catch (S3Exception ex) {
            System.out.println("\tUnable to fetch legal hold: '" + ex.getMessage() + "'");
        }

        return null;
    }
```
+  Untuk detail API, lihat [GetObjectLegalHold](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObjectLegalHold)di *Referensi AWS SDK for Java 2.x API*. 

### `GetObjectLockConfiguration`
<a name="s3_GetObjectLockConfiguration_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLockConfiguration`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    // Get the object lock configuration details for an S3 bucket.
    public void getBucketObjectLockConfiguration(String bucketName) {
        GetObjectLockConfigurationRequest objectLockConfigurationRequest = GetObjectLockConfigurationRequest.builder()
            .bucket(bucketName)
            .build();

        GetObjectLockConfigurationResponse response = getClient().getObjectLockConfiguration(objectLockConfigurationRequest);
        System.out.println("Bucket object lock config for "+bucketName +":  ");
        System.out.println("\tEnabled: "+response.objectLockConfiguration().objectLockEnabled());
        System.out.println("\tRule: "+ response.objectLockConfiguration().rule().defaultRetention());
    }
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObjectLockConfiguration)di *Referensi AWS SDK for Java 2.x API*. 

### `GetObjectRetention`
<a name="s3_GetObjectRetention_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectRetention`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    // Get the retention period for an S3 object.
    public ObjectLockRetention getObjectRetention(String bucketName, String key){
        try {
            GetObjectRetentionRequest retentionRequest = GetObjectRetentionRequest.builder()
                .bucket(bucketName)
                .key(key)
                .build();

            GetObjectRetentionResponse response = getClient().getObjectRetention(retentionRequest);
            System.out.println("tObject retention for "+key +" in "+ bucketName +": " + response.retention().mode() +" until "+ response.retention().retainUntilDate() +".");
            return response.retention();

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return null;
        }
    }
```
+  Untuk detail API, lihat [GetObjectRetention](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObjectRetention)di *Referensi AWS SDK for Java 2.x API*. 

### `HeadObject`
<a name="s3_HeadObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`HeadObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Tentukan jenis konten suatu objek.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.HeadObjectRequest;
import software.amazon.awssdk.services.s3.model.HeadObjectResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetObjectContentType {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName> <keyName>

            Where:
                bucketName - The Amazon S3 bucket name.\s
                keyName - The key name.\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String keyName = args[1];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        getContentType(s3, bucketName, keyName);
        s3.close();
    }

    /**
     * Retrieves the content type of an object stored in an Amazon S3 bucket.
     *
     * @param s3 an instance of the {@link S3Client} class, which is used to interact with the Amazon S3 service
     * @param bucketName the name of the S3 bucket where the object is stored
     * @param keyName the key (file name) of the object in the S3 bucket
     */
    public static void getContentType(S3Client s3, String bucketName, String keyName) {
        try {
            HeadObjectRequest objectRequest = HeadObjectRequest.builder()
                .key(keyName)
                .bucket(bucketName)
                .build();

            HeadObjectResponse objectHead = s3.headObject(objectRequest);
            String type = objectHead.contentType();
            System.out.println("The object content type is " + type);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Dapatkan status pemulihan suatu objek.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.HeadObjectRequest;
import software.amazon.awssdk.services.s3.model.HeadObjectResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

public class GetObjectRestoreStatus {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName> <keyName>\s

            Where:
                bucketName - The Amazon S3 bucket name.\s
                keyName - A key name that represents the object.\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String keyName = args[1];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        checkStatus(s3, bucketName, keyName);
        s3.close();
    }

    /**
     * Checks the restoration status of an Amazon S3 object.
     *
     * @param s3         an instance of the {@link S3Client} class used to interact with the Amazon S3 service
     * @param bucketName the name of the Amazon S3 bucket where the object is stored
     * @param keyName    the name of the Amazon S3 object to be checked
     * @throws S3Exception if an error occurs while interacting with the Amazon S3 service
     */
    public static void checkStatus(S3Client s3, String bucketName, String keyName) {
        try {
            HeadObjectRequest headObjectRequest = HeadObjectRequest.builder()
                .bucket(bucketName)
                .key(keyName)
                .build();

            HeadObjectResponse response = s3.headObject(headObjectRequest);
            System.out.println("The Amazon S3 object restoration status is " + response.restore());

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [HeadObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/HeadObject)di *Referensi AWS SDK for Java 2.x API*. 

### `ListBuckets`
<a name="s3_ListBuckets_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.paginators.ListBucketsIterable;
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListBuckets {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        listAllBuckets(s3);

    }

    /**
     * Lists all the S3 buckets available in the current AWS account.
     *
     * @param s3 The {@link S3Client} instance to use for interacting with the Amazon S3 service.
     */
    public static void listAllBuckets(S3Client s3) {
        ListBucketsIterable response = s3.listBucketsPaginator();
        response.buckets().forEach(bucket ->
            System.out.println("Bucket Name: " + bucket.name()));
    }
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK for Java 2.x API*. 

### `ListMultipartUploads`
<a name="s3_ListMultipartUploads_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMultipartUploads`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.ListMultipartUploadsRequest;
import software.amazon.awssdk.services.s3.model.ListMultipartUploadsResponse;
import software.amazon.awssdk.services.s3.model.MultipartUpload;
import software.amazon.awssdk.services.s3.model.S3Exception;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class ListMultipartUploads {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <bucketName>\s

                Where:
                    bucketName - The name of the Amazon S3 bucket where an in-progress multipart upload is occurring.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
                .region(region)
                .build();
        listUploads(s3, bucketName);
        s3.close();
    }

    /**
     * Lists the multipart uploads currently in progress in the specified Amazon S3 bucket.
     *
     * @param s3 the S3Client object used to interact with Amazon S3
     * @param bucketName the name of the Amazon S3 bucket to list the multipart uploads for
     */
    public static void listUploads(S3Client s3, String bucketName) {
        try {
            ListMultipartUploadsRequest listMultipartUploadsRequest = ListMultipartUploadsRequest.builder()
                    .bucket(bucketName)
                    .build();

            ListMultipartUploadsResponse response = s3.listMultipartUploads(listMultipartUploadsRequest);
            List<MultipartUpload> uploads = response.uploads();
            for (MultipartUpload upload : uploads) {
                System.out.println("Upload in progress: Key = \"" + upload.key() + "\", id = " + upload.uploadId());
            }

        } catch (S3Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListMultipartUploads](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListMultipartUploads)di *Referensi AWS SDK for Java 2.x API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    /**
     * Asynchronously lists all objects in the specified S3 bucket.
     *
     * @param bucketName the name of the S3 bucket to list objects for
     * @return a {@link CompletableFuture} that completes when all objects have been listed
     */
    public CompletableFuture<Void> listAllObjectsAsync(String bucketName) {
        ListObjectsV2Request initialRequest = ListObjectsV2Request.builder()
            .bucket(bucketName)
            .maxKeys(1)
            .build();

        ListObjectsV2Publisher paginator = getAsyncClient().listObjectsV2Paginator(initialRequest);
        return paginator.subscribe(response -> {
            response.contents().forEach(s3Object -> {
                logger.info("Object key: " + s3Object.key());
            });
        }).thenRun(() -> {
            logger.info("Successfully listed all objects in the bucket: " + bucketName);
        }).exceptionally(ex -> {
            throw new RuntimeException("Failed to list objects", ex);
        });
    }
```
Buat daftar objek menggunakan penomoran halaman.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Request;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.paginators.ListObjectsV2Iterable;

public class ListObjectsPaginated {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName>\s

            Where:
                bucketName - The Amazon S3 bucket from which objects are read.\s
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        listBucketObjects(s3, bucketName);
        s3.close();
    }

    /**
     * Lists the objects in the specified S3 bucket.
     *
     * @param s3 the S3Client instance used to interact with Amazon S3
     * @param bucketName the name of the S3 bucket to list the objects from
     */
    public static void listBucketObjects(S3Client s3, String bucketName) {
        try {
            ListObjectsV2Request listReq = ListObjectsV2Request.builder()
                .bucket(bucketName)
                .maxKeys(1)
                .build();

            ListObjectsV2Iterable listRes = s3.listObjectsV2Paginator(listReq);
            listRes.stream()
                .flatMap(r -> r.contents().stream())
                .forEach(content -> System.out.println(" Key: " + content.key() + " size = " + content.size()));

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListObjectsV2) di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketAcl`
<a name="s3_PutBucketAcl_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketAcl`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.AccessControlPolicy;
import software.amazon.awssdk.services.s3.model.Grant;
import software.amazon.awssdk.services.s3.model.Permission;
import software.amazon.awssdk.services.s3.model.PutBucketAclRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.Type;

import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SetAcl {
    public static void main(String[] args) {
        final String usage = """

            Usage:
              <bucketName> <id>\s

            Where:
              bucketName - The Amazon S3 bucket to grant permissions on.\s
              id - The ID of the owner of this bucket (you can get this value from the AWS Management Console).
            """;

        if (args.length != 2) {
            System.out.println(usage);
            return;
        }

        String bucketName = args[0];
        String id = args[1];
        System.out.format("Setting access \n");
        System.out.println(" in bucket: " + bucketName);
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        setBucketAcl(s3, bucketName, id);
        System.out.println("Done!");
        s3.close();
    }

    /**
     * Sets the Access Control List (ACL) for an Amazon S3 bucket.
     *
     * @param s3 the S3Client instance to be used for the operation
     * @param bucketName the name of the S3 bucket to set the ACL for
     * @param id the ID of the AWS user or account that will be granted full control of the bucket
     * @throws S3Exception if an error occurs while setting the bucket ACL
     */
    public static void setBucketAcl(S3Client s3, String bucketName, String id) {
        try {
            Grant ownerGrant = Grant.builder()
                .grantee(builder -> builder.id(id)
                    .type(Type.CANONICAL_USER))
                .permission(Permission.FULL_CONTROL)
                .build();

            List<Grant> grantList2 = new ArrayList<>();
            grantList2.add(ownerGrant);

            AccessControlPolicy acl = AccessControlPolicy.builder()
                .owner(builder -> builder.id(id))
                .grants(grantList2)
                .build();

            PutBucketAclRequest putAclReq = PutBucketAclRequest.builder()
                .bucket(bucketName)
                .accessControlPolicy(acl)
                .build();

            s3.putBucketAcl(putAclReq);

        } catch (S3Exception e) {
            e.printStackTrace();
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutBucketAcl](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketAcl)di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketCors`
<a name="s3_PutBucketCors_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketCors`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;

import java.util.ArrayList;
import java.util.List;

import software.amazon.awssdk.services.s3.model.GetBucketCorsRequest;
import software.amazon.awssdk.services.s3.model.GetBucketCorsResponse;
import software.amazon.awssdk.services.s3.model.DeleteBucketCorsRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.CORSRule;
import software.amazon.awssdk.services.s3.model.CORSConfiguration;
import software.amazon.awssdk.services.s3.model.PutBucketCorsRequest;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class S3Cors {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName> <accountId>\s

            Where:
                bucketName - The Amazon S3 bucket to upload an object into.
                accountId - The id of the account that owns the Amazon S3 bucket.
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String accountId = args[1];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        setCorsInformation(s3, bucketName, accountId);
        getBucketCorsInformation(s3, bucketName, accountId);
        deleteBucketCorsInformation(s3, bucketName, accountId);
        s3.close();
    }

    /**
     * Deletes the CORS (Cross-Origin Resource Sharing) configuration for an Amazon S3 bucket.
     *
     * @param s3            the {@link S3Client} instance used to interact with the Amazon S3 service
     * @param bucketName    the name of the Amazon S3 bucket for which the CORS configuration should be deleted
     * @param accountId     the expected AWS account ID of the bucket owner
     *
     * @throws S3Exception if an error occurs while deleting the CORS configuration for the bucket
     */
    public static void deleteBucketCorsInformation(S3Client s3, String bucketName, String accountId) {
        try {
            DeleteBucketCorsRequest bucketCorsRequest = DeleteBucketCorsRequest.builder()
                .bucket(bucketName)
                .expectedBucketOwner(accountId)
                .build();

            s3.deleteBucketCors(bucketCorsRequest);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    /**
     * Retrieves the CORS (Cross-Origin Resource Sharing) configuration for the specified S3 bucket.
     *
     * @param s3 the S3Client instance to use for the operation
     * @param bucketName the name of the S3 bucket to retrieve the CORS configuration for
     * @param accountId the expected bucket owner's account ID
     *
     * @throws S3Exception if there is an error retrieving the CORS configuration
     */
    public static void getBucketCorsInformation(S3Client s3, String bucketName, String accountId) {
        try {
            GetBucketCorsRequest bucketCorsRequest = GetBucketCorsRequest.builder()
                .bucket(bucketName)
                .expectedBucketOwner(accountId)
                .build();

            GetBucketCorsResponse corsResponse = s3.getBucketCors(bucketCorsRequest);
            List<CORSRule> corsRules = corsResponse.corsRules();
            for (CORSRule rule : corsRules) {
                System.out.println("allowOrigins: " + rule.allowedOrigins());
                System.out.println("AllowedMethod: " + rule.allowedMethods());
            }

        } catch (S3Exception e) {

            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    /**
     * Sets the Cross-Origin Resource Sharing (CORS) rules for an Amazon S3 bucket.
     *
     * @param s3 The S3Client object used to interact with the Amazon S3 service.
     * @param bucketName The name of the S3 bucket to set the CORS rules for.
     * @param accountId The AWS account ID of the bucket owner.
     */
    public static void setCorsInformation(S3Client s3, String bucketName, String accountId) {
        List<String> allowMethods = new ArrayList<>();
        allowMethods.add("PUT");
        allowMethods.add("POST");
        allowMethods.add("DELETE");

        List<String> allowOrigins = new ArrayList<>();
        allowOrigins.add("http://example.com");
        try {
            // Define CORS rules.
            CORSRule corsRule = CORSRule.builder()
                .allowedMethods(allowMethods)
                .allowedOrigins(allowOrigins)
                .build();

            List<CORSRule> corsRules = new ArrayList<>();
            corsRules.add(corsRule);
            CORSConfiguration configuration = CORSConfiguration.builder()
                .corsRules(corsRules)
                .build();

            PutBucketCorsRequest putBucketCorsRequest = PutBucketCorsRequest.builder()
                .bucket(bucketName)
                .corsConfiguration(configuration)
                .expectedBucketOwner(accountId)
                .build();

            s3.putBucketCors(putBucketCorsRequest);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutBucketCors](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketCors)di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketLifecycleConfiguration`
<a name="s3_PutBucketLifecycleConfiguration_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketLifecycleConfiguration`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.LifecycleRuleFilter;
import software.amazon.awssdk.services.s3.model.Transition;
import software.amazon.awssdk.services.s3.model.GetBucketLifecycleConfigurationRequest;
import software.amazon.awssdk.services.s3.model.GetBucketLifecycleConfigurationResponse;
import software.amazon.awssdk.services.s3.model.DeleteBucketLifecycleRequest;
import software.amazon.awssdk.services.s3.model.TransitionStorageClass;
import software.amazon.awssdk.services.s3.model.LifecycleRule;
import software.amazon.awssdk.services.s3.model.ExpirationStatus;
import software.amazon.awssdk.services.s3.model.BucketLifecycleConfiguration;
import software.amazon.awssdk.services.s3.model.PutBucketLifecycleConfigurationRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class LifecycleConfiguration {
    public static void main(String[] args) {
        final String usage = """

            Usage:
              <bucketName> <accountId>\s

            Where:
              bucketName - The Amazon Simple Storage Service (Amazon S3) bucket to upload an object into.
              accountId - The id of the account that owns the Amazon S3 bucket.
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String accountId = args[1];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        setLifecycleConfig(s3, bucketName, accountId);
        getLifecycleConfig(s3, bucketName, accountId);
        deleteLifecycleConfig(s3, bucketName, accountId);
        System.out.println("You have successfully created, updated, and deleted a Lifecycle configuration");
        s3.close();
    }

    /**
     * Sets the lifecycle configuration for an Amazon S3 bucket.
     *
     * @param s3           The Amazon S3 client to use for the operation.
     * @param bucketName   The name of the Amazon S3 bucket.
     * @param accountId    The expected owner of the Amazon S3 bucket.
     *
     * @throws S3Exception if there is an error setting the lifecycle configuration.
     */
    public static void setLifecycleConfig(S3Client s3, String bucketName, String accountId) {
        try {
            // Create a rule to archive objects with the "glacierobjects/" prefix to the
            // S3 Glacier Flexible Retrieval storage class immediately.
            LifecycleRuleFilter ruleFilter = LifecycleRuleFilter.builder()
                .prefix("glacierobjects/")
                .build();

            Transition transition = Transition.builder()
                .storageClass(TransitionStorageClass.GLACIER)
                .days(0)
                .build();

            LifecycleRule rule1 = LifecycleRule.builder()
                .id("Archive immediately rule")
                .filter(ruleFilter)
                .transitions(transition)
                .status(ExpirationStatus.ENABLED)
                .build();

            // Create a second rule.
            Transition transition2 = Transition.builder()
                .storageClass(TransitionStorageClass.GLACIER)
                .days(0)
                .build();

            List<Transition> transitionList = new ArrayList<>();
            transitionList.add(transition2);

            LifecycleRuleFilter ruleFilter2 = LifecycleRuleFilter.builder()
                .prefix("glacierobjects/")
                .build();

            LifecycleRule rule2 = LifecycleRule.builder()
                .id("Archive and then delete rule")
                .filter(ruleFilter2)
                .transitions(transitionList)
                .status(ExpirationStatus.ENABLED)
                .build();

            // Add the LifecycleRule objects to an ArrayList.
            ArrayList<LifecycleRule> ruleList = new ArrayList<>();
            ruleList.add(rule1);
            ruleList.add(rule2);

            BucketLifecycleConfiguration lifecycleConfiguration = BucketLifecycleConfiguration.builder()
                .rules(ruleList)
                .build();

            PutBucketLifecycleConfigurationRequest putBucketLifecycleConfigurationRequest = PutBucketLifecycleConfigurationRequest
                .builder()
                .bucket(bucketName)
                .lifecycleConfiguration(lifecycleConfiguration)
                .expectedBucketOwner(accountId)
                .build();

            s3.putBucketLifecycleConfiguration(putBucketLifecycleConfigurationRequest);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    /**
     * Retrieves the lifecycle configuration for an Amazon S3 bucket and adds a new lifecycle rule to it.
     *
     * @param s3 the S3Client instance used to interact with Amazon S3
     * @param bucketName the name of the Amazon S3 bucket
     * @param accountId the expected owner of the Amazon S3 bucket
     */
    public static void getLifecycleConfig(S3Client s3, String bucketName, String accountId) {
        try {
            GetBucketLifecycleConfigurationRequest getBucketLifecycleConfigurationRequest = GetBucketLifecycleConfigurationRequest
                .builder()
                .bucket(bucketName)
                .expectedBucketOwner(accountId)
                .build();

            GetBucketLifecycleConfigurationResponse response = s3
                .getBucketLifecycleConfiguration(getBucketLifecycleConfigurationRequest);
            List<LifecycleRule> newList = new ArrayList<>();
            List<LifecycleRule> rules = response.rules();
            for (LifecycleRule rule : rules) {
                newList.add(rule);
            }

            // Add a new rule with both a prefix predicate and a tag predicate.
            LifecycleRuleFilter ruleFilter = LifecycleRuleFilter.builder()
                .prefix("YearlyDocuments/")
                .build();

            Transition transition = Transition.builder()
                .storageClass(TransitionStorageClass.GLACIER)
                .days(3650)
                .build();

            LifecycleRule rule1 = LifecycleRule.builder()
                .id("NewRule")
                .filter(ruleFilter)
                .transitions(transition)
                .status(ExpirationStatus.ENABLED)
                .build();

            // Add the new rule to the list.
            newList.add(rule1);
            BucketLifecycleConfiguration lifecycleConfiguration = BucketLifecycleConfiguration.builder()
                .rules(newList)
                .build();

            PutBucketLifecycleConfigurationRequest putBucketLifecycleConfigurationRequest = PutBucketLifecycleConfigurationRequest
                .builder()
                .bucket(bucketName)
                .lifecycleConfiguration(lifecycleConfiguration)
                .expectedBucketOwner(accountId)
                .build();

            s3.putBucketLifecycleConfiguration(putBucketLifecycleConfigurationRequest);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    /**
     * Deletes the lifecycle configuration for an Amazon S3 bucket.
     *
     * @param s3 the {@link S3Client} to use for the operation
     * @param bucketName the name of the S3 bucket
     * @param accountId the expected account owner of the S3 bucket
     *
     * @throws S3Exception if an error occurs while deleting the lifecycle configuration
     */
    public static void deleteLifecycleConfig(S3Client s3, String bucketName, String accountId) {
        try {
            DeleteBucketLifecycleRequest deleteBucketLifecycleRequest = DeleteBucketLifecycleRequest
                .builder()
                .bucket(bucketName)
                .expectedBucketOwner(accountId)
                .build();

            s3.deleteBucketLifecycle(deleteBucketLifecycleRequest);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketLifecycleConfiguration)di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketPolicy`
<a name="s3_PutBucketPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutBucketPolicyRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.regions.Region;

import java.io.IOException;
import java.nio.charset.StandardCharsets;
import java.nio.file.Files;
import java.nio.file.Paths;
import java.util.List;

import com.fasterxml.jackson.core.JsonParser;
import com.fasterxml.jackson.databind.ObjectMapper;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SetBucketPolicy {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName> <polFile>

            Where:
                bucketName - The Amazon S3 bucket to set the policy on.
                polFile - A JSON file containing the policy (see the Amazon S3 Readme for an example).\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String polFile = args[1];
        String policyText = getBucketPolicyFromFile(polFile);
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        setPolicy(s3, bucketName, policyText);
        s3.close();
    }

    /**
     * Sets the policy for an Amazon S3 bucket.
     *
     * @param s3         the {@link S3Client} object used to interact with the Amazon S3 service
     * @param bucketName the name of the Amazon S3 bucket
     * @param policyText the text of the policy to be set on the bucket
     * @throws S3Exception if there is an error setting the bucket policy
     */
    public static void setPolicy(S3Client s3, String bucketName, String policyText) {
        System.out.println("Setting policy:");
        System.out.println("----");
        System.out.println(policyText);
        System.out.println("----");
        System.out.format("On Amazon S3 bucket: \"%s\"\n", bucketName);

        try {
            PutBucketPolicyRequest policyReq = PutBucketPolicyRequest.builder()
                .bucket(bucketName)
                .policy(policyText)
                .build();

            s3.putBucketPolicy(policyReq);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        System.out.println("Done!");
    }

    /**
     * Retrieves the bucket policy from a specified file.
     *
     * @param policyFile the path to the file containing the bucket policy
     * @return the content of the bucket policy file as a string
     */
    public static String getBucketPolicyFromFile(String policyFile) {
        StringBuilder fileText = new StringBuilder();
        try {
            List<String> lines = Files.readAllLines(Paths.get(policyFile), StandardCharsets.UTF_8);
            for (String line : lines) {
                fileText.append(line);
            }

        } catch (IOException e) {
            System.out.format("Problem reading file: \"%s\"", policyFile);
            System.out.println(e.getMessage());
        }

        try {
            final JsonParser parser = new ObjectMapper().getFactory().createParser(fileText.toString());
            while (parser.nextToken() != null) {
            }

        } catch (IOException jpe) {
            jpe.printStackTrace();
        }
        return fileText.toString();
    }
}
```
+  Untuk detail API, lihat [PutBucketPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketReplication`
<a name="s3_PutBucketReplication_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketReplication`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    /**
     * Sets the replication configuration for an Amazon S3 bucket.
     *
     * @param s3Client             the S3Client instance to use for the operation
     * @param sourceBucketName     the name of the source bucket
     * @param destBucketName       the name of the destination bucket
     * @param destinationBucketARN the Amazon Resource Name (ARN) of the destination bucket
     * @param roleARN              the ARN of the IAM role to use for the replication configuration
     */
    public static void setReplication(S3Client s3Client, String sourceBucketName, String destBucketName, String destinationBucketARN, String roleARN) {
        try {
            Destination destination = Destination.builder()
                .bucket(destinationBucketARN)
                .storageClass(StorageClass.STANDARD)
                .build();

            // Define a prefix filter for replication.
            ReplicationRuleFilter ruleFilter = ReplicationRuleFilter.builder()
                .prefix("documents/")
                .build();

            // Define delete marker replication setting.
            DeleteMarkerReplication deleteMarkerReplication = DeleteMarkerReplication.builder()
                .status(DeleteMarkerReplicationStatus.DISABLED)
                .build();

            // Create the replication rule.
            ReplicationRule replicationRule = ReplicationRule.builder()
                .priority(1)
                .filter(ruleFilter)
                .status(ReplicationRuleStatus.ENABLED)
                .deleteMarkerReplication(deleteMarkerReplication)
                .destination(destination)
                .build();

            List<ReplicationRule> replicationRuleList = new ArrayList<>();
            replicationRuleList.add(replicationRule);

            // Define the replication configuration with IAM role.
            ReplicationConfiguration configuration = ReplicationConfiguration.builder()
                .role(roleARN)
                .rules(replicationRuleList)
                .build();

            // Apply the replication configuration to the source bucket.
            PutBucketReplicationRequest replicationRequest = PutBucketReplicationRequest.builder()
                .bucket(sourceBucketName)
                .replicationConfiguration(configuration)
                .build();

            s3Client.putBucketReplication(replicationRequest);
            System.out.println("Replication configuration set successfully.");

        } catch (IllegalArgumentException e) {
            System.err.println("Configuration error: " + e.getMessage());
        } catch (S3Exception e) {
            System.err.println("S3 Exception: " + e.awsErrorDetails().errorMessage());
            System.err.println("Status Code: " + e.statusCode());
            System.err.println("Error Code: " + e.awsErrorDetails().errorCode());


        } catch (SdkException e) {
            System.err.println("SDK Exception: " + e.getMessage());
        }
    }
```
+  Untuk detail API, lihat [PutBucketReplication](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketReplication)di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketVersioning`
<a name="s3_PutBucketVersioning_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketVersioning`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    /**
     * Enables bucket versioning for the specified S3 bucket.
     *
     * @param s3Client the S3 client to use for the operation
     * @param bucketName the name of the S3 bucket to enable versioning for
     */
    public static void enableBucketVersioning(S3Client s3Client, String bucketName){
        VersioningConfiguration versioningConfiguration = VersioningConfiguration.builder()
            .status(BucketVersioningStatus.ENABLED)
            .build();

        PutBucketVersioningRequest versioningRequest = PutBucketVersioningRequest.builder()
            .bucket(bucketName)
            .versioningConfiguration(versioningConfiguration)
            .build();

        s3Client.putBucketVersioning(versioningRequest);
        System.out.println("Bucket versioning has been enabled for "+bucketName);
    }
```
+  Untuk detail API, lihat [PutBucketVersioning](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketVersioning)di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketWebsite`
<a name="s3_PutBucketWebsite_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketWebsite`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.IndexDocument;
import software.amazon.awssdk.services.s3.model.PutBucketWebsiteRequest;
import software.amazon.awssdk.services.s3.model.WebsiteConfiguration;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.regions.Region;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class SetWebsiteConfiguration {
    public static void main(String[] args) {
        final String usage = """

            Usage:    <bucketName> [indexdoc]\s

            Where:
               bucketName   - The Amazon S3 bucket to set the website configuration on.\s
               indexdoc - The index document, ex. 'index.html'
                          If not specified, 'index.html' will be set.
            """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String indexDoc = "index.html";
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        setWebsiteConfig(s3, bucketName, indexDoc);
        s3.close();
    }

    /**
     * Sets the website configuration for an Amazon S3 bucket.
     *
     * @param s3 The {@link S3Client} instance to use for the AWS SDK operations.
     * @param bucketName The name of the S3 bucket to configure.
     * @param indexDoc The name of the index document to use for the website configuration.
     */
    public static void setWebsiteConfig(S3Client s3, String bucketName, String indexDoc) {
        try {
            WebsiteConfiguration websiteConfig = WebsiteConfiguration.builder()
                .indexDocument(IndexDocument.builder().suffix(indexDoc).build())
                .build();

            PutBucketWebsiteRequest pubWebsiteReq = PutBucketWebsiteRequest.builder()
                .bucket(bucketName)
                .websiteConfiguration(websiteConfig)
                .build();

            s3.putBucketWebsite(pubWebsiteReq);
            System.out.println("The call was successful");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutBucketWebsite](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketWebsite)di *Referensi AWS SDK for Java 2.x API*. 

### `PutObject`
<a name="s3_PutObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Unggah file ke bucket menggunakan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
    /**
     * Uploads a local file to an AWS S3 bucket asynchronously.
     *
     * @param bucketName the name of the S3 bucket to upload the file to
     * @param key        the key (object name) to use for the uploaded file
     * @param objectPath the local file path of the file to be uploaded
     * @return a {@link CompletableFuture} that completes with the {@link PutObjectResponse} when the upload is successful, or throws a {@link RuntimeException} if the upload fails
     */
    public CompletableFuture<PutObjectResponse> uploadLocalFileAsync(String bucketName, String key, String objectPath) {
        PutObjectRequest objectRequest = PutObjectRequest.builder()
            .bucket(bucketName)
            .key(key)
            .build();

        CompletableFuture<PutObjectResponse> response = getAsyncClient().putObject(objectRequest, AsyncRequestBody.fromFile(Paths.get(objectPath)));
        return response.whenComplete((resp, ex) -> {
            if (ex != null) {
                throw new RuntimeException("Failed to upload file", ex);
            }
        });
    }
```
Gunakan [S3 TransferManager](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html) untuk [mengunggah file](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html#uploadFile(software.amazon.awssdk.transfer.s3.UploadFileRequest)) ke bucket. Lihat [file lengkap](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/main/java/com/example/s3/transfermanager/UploadFile.java) dan [lakukan pengujian](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/test/java/TransferManagerTest.java).  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.transfer.s3.S3TransferManager;
import software.amazon.awssdk.transfer.s3.model.CompletedFileUpload;
import software.amazon.awssdk.transfer.s3.model.FileUpload;
import software.amazon.awssdk.transfer.s3.model.UploadFileRequest;
import software.amazon.awssdk.transfer.s3.progress.LoggingTransferListener;
import java.net.URI;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.file.Paths;
import java.util.UUID;

    public String uploadFile(S3TransferManager transferManager, String bucketName,
                             String key, URI filePathURI) {
        UploadFileRequest uploadFileRequest = UploadFileRequest.builder()
            .putObjectRequest(b -> b.bucket(bucketName).key(key))
            .source(Paths.get(filePathURI))
            .build();

        FileUpload fileUpload = transferManager.uploadFile(uploadFileRequest);

        CompletedFileUpload uploadResult = fileUpload.completionFuture().join();
        return uploadResult.response().eTag();
    }
```
Unggah objek ke bucket dan tetapkan tanda menggunakan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
    /**
     * Puts tags on an Amazon S3 object.
     *
     * @param s3 An {@link S3Client} object that represents the Amazon S3 client.
     * @param bucketName The name of the Amazon S3 bucket.
     * @param objectKey The key of the Amazon S3 object.
     * @param objectPath The file path of the object to be uploaded.
     */
    public static void putS3ObjectTags(S3Client s3, String bucketName, String objectKey, String objectPath) {
        try {
            Tag tag1 = Tag.builder()
                .key("Tag 1")
                .value("This is tag 1")
                .build();

            Tag tag2 = Tag.builder()
                .key("Tag 2")
                .value("This is tag 2")
                .build();

            List<Tag> tags = new ArrayList<>();
            tags.add(tag1);
            tags.add(tag2);

            Tagging allTags = Tagging.builder()
                .tagSet(tags)
                .build();

            PutObjectRequest putOb = PutObjectRequest.builder()
                .bucket(bucketName)
                .key(objectKey)
                .tagging(allTags)
                .build();

            s3.putObject(putOb, RequestBody.fromBytes(getObjectFile(objectPath)));

        } catch (S3Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Updates the tags associated with an object in an Amazon S3 bucket.
     *
     * @param s3 an instance of the S3Client class, which is used to interact with the Amazon S3 service
     * @param bucketName the name of the S3 bucket containing the object
     * @param objectKey the key (or name) of the object in the S3 bucket
     * @throws S3Exception if there is an error updating the object's tags
     */
    public static void updateObjectTags(S3Client s3, String bucketName, String objectKey) {
        try {
            GetObjectTaggingRequest taggingRequest = GetObjectTaggingRequest.builder()
                .bucket(bucketName)
                .key(objectKey)
                .build();

            GetObjectTaggingResponse getTaggingRes = s3.getObjectTagging(taggingRequest);
            List<Tag> obTags = getTaggingRes.tagSet();
            for (Tag sinTag : obTags) {
                System.out.println("The tag key is: " + sinTag.key());
                System.out.println("The tag value is: " + sinTag.value());
            }

            // Replace the object's tags with two new tags.
            Tag tag3 = Tag.builder()
                .key("Tag 3")
                .value("This is tag 3")
                .build();

            Tag tag4 = Tag.builder()
                .key("Tag 4")
                .value("This is tag 4")
                .build();

            List<Tag> tags = new ArrayList<>();
            tags.add(tag3);
            tags.add(tag4);

            Tagging updatedTags = Tagging.builder()
                .tagSet(tags)
                .build();

            PutObjectTaggingRequest taggingRequest1 = PutObjectTaggingRequest.builder()
                .bucket(bucketName)
                .key(objectKey)
                .tagging(updatedTags)
                .build();

            s3.putObjectTagging(taggingRequest1);
            GetObjectTaggingResponse getTaggingRes2 = s3.getObjectTagging(taggingRequest);
            List<Tag> modTags = getTaggingRes2.tagSet();
            for (Tag sinTag : modTags) {
                System.out.println("The tag key is: " + sinTag.key());
                System.out.println("The tag value is: " + sinTag.value());
            }

        } catch (S3Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    /**
     * Retrieves the contents of a file as a byte array.
     *
     * @param filePath the path of the file to be read
     * @return a byte array containing the contents of the file, or null if an error occurs
     */
    private static byte[] getObjectFile(String filePath) {
        FileInputStream fileInputStream = null;
        byte[] bytesArray = null;

        try {
            File file = new File(filePath);
            bytesArray = new byte[(int) file.length()];
            fileInputStream = new FileInputStream(file);
            fileInputStream.read(bytesArray);

        } catch (IOException e) {
            e.printStackTrace();
        } finally {
            if (fileInputStream != null) {
                try {
                    fileInputStream.close();
                } catch (IOException e) {
                    e.printStackTrace();
                }
            }
        }

        return bytesArray;
    }
}
```
Unggah objek ke bucket dan tetapkan metadata menggunakan [S3Client.](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html)  

```
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.io.File;
import java.util.HashMap;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PutObjectMetadata {
    public static void main(String[] args) {
        final String USAGE = """

            Usage:
              <bucketName> <objectKey> <objectPath>\s

            Where:
              bucketName - The Amazon S3 bucket to upload an object into.
              objectKey - The object to upload (for example, book.pdf).
              objectPath - The path where the file is located (for example, C:/AWS/book2.pdf).\s
            """;

        if (args.length != 3) {
            System.out.println(USAGE);
            System.exit(1);
        }

        String bucketName = args[0];
        String objectKey = args[1];
        String objectPath = args[2];
        System.out.println("Putting object " + objectKey + " into bucket " + bucketName);
        System.out.println("  in bucket: " + bucketName);
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        putS3Object(s3, bucketName, objectKey, objectPath);
        s3.close();
    }

    /**
     * Uploads an object to an Amazon S3 bucket with metadata.
     *
     * @param s3 the S3Client object used to interact with the Amazon S3 service
     * @param bucketName the name of the S3 bucket to upload the object to
     * @param objectKey the name of the object to be uploaded
     * @param objectPath the local file path of the object to be uploaded
     */
    public static void putS3Object(S3Client s3, String bucketName, String objectKey, String objectPath) {
        try {
            Map<String, String> metadata = new HashMap<>();
            metadata.put("author", "Mary Doe");
            metadata.put("version", "1.0.0.0");

            PutObjectRequest putOb = PutObjectRequest.builder()
                .bucket(bucketName)
                .key(objectKey)
                .metadata(metadata)
                .build();

            s3.putObject(putOb, RequestBody.fromFile(new File(objectPath)));
            System.out.println("Successfully placed " + objectKey + " into bucket " + bucketName);

        } catch (S3Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
Unggah objek ke bucket dan tetapkan nilai retensi objek menggunakan [S3Client](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html).  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutObjectRetentionRequest;
import software.amazon.awssdk.services.s3.model.ObjectLockRetention;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.time.Instant;
import java.time.LocalDate;
import java.time.LocalDateTime;
import java.time.ZoneOffset;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class PutObjectRetention {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <key> <bucketName>\s

            Where:
                key - The name of the object (for example, book.pdf).\s
                bucketName - The Amazon S3 bucket name that contains the object (for example, bucket1).\s
            """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String key = args[0];
        String bucketName = args[1];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        setRentionPeriod(s3, key, bucketName);
        s3.close();
    }

    /**
     * Sets the retention period for an object in an Amazon S3 bucket.
     *
     * @param s3     the S3Client object used to interact with the Amazon S3 service
     * @param key    the key (name) of the object in the S3 bucket
     * @param bucket the name of the S3 bucket where the object is stored
     *
     * @throws S3Exception if an error occurs while setting the object retention period
     */
    public static void setRentionPeriod(S3Client s3, String key, String bucket) {
        try {
            LocalDate localDate = LocalDate.parse("2020-07-17");
            LocalDateTime localDateTime = localDate.atStartOfDay();
            Instant instant = localDateTime.toInstant(ZoneOffset.UTC);

            ObjectLockRetention lockRetention = ObjectLockRetention.builder()
                .mode("COMPLIANCE")
                .retainUntilDate(instant)
                .build();

            PutObjectRetentionRequest retentionRequest = PutObjectRetentionRequest.builder()
                .bucket(bucket)
                .key(key)
                .bypassGovernanceRetention(true)
                .retention(lockRetention)
                .build();

            // To set Retention on an object, the Amazon S3 bucket must support object
            // locking, otherwise an exception is thrown.
            s3.putObjectRetention(retentionRequest);
            System.out.print("An object retention configuration was successfully placed on the object");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObject)di *Referensi AWS SDK for Java 2.x API*. 

### `PutObjectLegalHold`
<a name="s3_PutObjectLegalHold_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLegalHold`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    // Set or modify a legal hold on an object in an S3 bucket.
    public void modifyObjectLegalHold(String bucketName, String objectKey, boolean legalHoldOn) {
        ObjectLockLegalHold legalHold ;
        if (legalHoldOn) {
            legalHold = ObjectLockLegalHold.builder()
                .status(ObjectLockLegalHoldStatus.ON)
                .build();
        } else {
            legalHold = ObjectLockLegalHold.builder()
                .status(ObjectLockLegalHoldStatus.OFF)
                .build();
        }

        PutObjectLegalHoldRequest legalHoldRequest = PutObjectLegalHoldRequest.builder()
            .bucket(bucketName)
            .key(objectKey)
            .legalHold(legalHold)
            .build();

        getClient().putObjectLegalHold(legalHoldRequest) ;
        System.out.println("Modified legal hold for "+ objectKey +" in "+bucketName +".");
    }
```
+  Untuk detail API, lihat [PutObjectLegalHold](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObjectLegalHold)di *Referensi AWS SDK for Java 2.x API*. 

### `PutObjectLockConfiguration`
<a name="s3_PutObjectLockConfiguration_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLockConfiguration`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Atur konfigurasi kunci objek dari ember.  

```
    // Enable object lock on an existing bucket.
    public void enableObjectLockOnBucket(String bucketName) {
        try {
            VersioningConfiguration versioningConfiguration = VersioningConfiguration.builder()
                .status(BucketVersioningStatus.ENABLED)
                .build();

            PutBucketVersioningRequest putBucketVersioningRequest = PutBucketVersioningRequest.builder()
                .bucket(bucketName)
                .versioningConfiguration(versioningConfiguration)
                .build();

            // Enable versioning on the bucket.
            getClient().putBucketVersioning(putBucketVersioningRequest);
            PutObjectLockConfigurationRequest request = PutObjectLockConfigurationRequest.builder()
                .bucket(bucketName)
                .objectLockConfiguration(ObjectLockConfiguration.builder()
                    .objectLockEnabled(ObjectLockEnabled.ENABLED)
                    .build())
                .build();

            getClient().putObjectLockConfiguration(request);
            System.out.println("Successfully enabled object lock on "+bucketName);

        } catch (S3Exception ex) {
            System.out.println("Error modifying object lock: '" + ex.getMessage() + "'");
        }
    }
```
Setel periode retensi default bucket.  

```
    // Set or modify a retention period on an S3 bucket.
    public void modifyBucketDefaultRetention(String bucketName) {
        VersioningConfiguration versioningConfiguration = VersioningConfiguration.builder()
            .mfaDelete(MFADelete.DISABLED)
            .status(BucketVersioningStatus.ENABLED)
            .build();

        PutBucketVersioningRequest versioningRequest = PutBucketVersioningRequest.builder()
            .bucket(bucketName)
            .versioningConfiguration(versioningConfiguration)
            .build();

        getClient().putBucketVersioning(versioningRequest);
        DefaultRetention rention = DefaultRetention.builder()
            .days(1)
            .mode(ObjectLockRetentionMode.GOVERNANCE)
            .build();

        ObjectLockRule lockRule = ObjectLockRule.builder()
            .defaultRetention(rention)
            .build();

        ObjectLockConfiguration objectLockConfiguration = ObjectLockConfiguration.builder()
            .objectLockEnabled(ObjectLockEnabled.ENABLED)
            .rule(lockRule)
            .build();

        PutObjectLockConfigurationRequest putObjectLockConfigurationRequest = PutObjectLockConfigurationRequest.builder()
            .bucket(bucketName)
            .objectLockConfiguration(objectLockConfiguration)
            .build();

        getClient().putObjectLockConfiguration(putObjectLockConfigurationRequest) ;
        System.out.println("Added a default retention to bucket "+bucketName +".");
    }
```
+  Untuk detail API, lihat [PutObjectLockConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObjectLockConfiguration)di *Referensi AWS SDK for Java 2.x API*. 

### `PutObjectRetention`
<a name="s3_PutObjectRetention_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectRetention`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    // Set or modify a retention period on an object in an S3 bucket.
    public void modifyObjectRetentionPeriod(String bucketName, String objectKey) {
        // Calculate the instant one day from now.
        Instant futureInstant = Instant.now().plus(1, ChronoUnit.DAYS);

        // Convert the Instant to a ZonedDateTime object with a specific time zone.
        ZonedDateTime zonedDateTime = futureInstant.atZone(ZoneId.systemDefault());

        // Define a formatter for human-readable output.
        DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss");

        // Format the ZonedDateTime object to a human-readable date string.
        String humanReadableDate = formatter.format(zonedDateTime);

        // Print the formatted date string.
        System.out.println("Formatted Date: " + humanReadableDate);
        ObjectLockRetention retention = ObjectLockRetention.builder()
            .mode(ObjectLockRetentionMode.GOVERNANCE)
            .retainUntilDate(futureInstant)
            .build();

        PutObjectRetentionRequest retentionRequest = PutObjectRetentionRequest.builder()
            .bucket(bucketName)
            .key(objectKey)
            .retention(retention)
            .build();

        getClient().putObjectRetention(retentionRequest);
        System.out.println("Set retention for "+objectKey +" in " +bucketName +" until "+ humanReadableDate +".");
    }
```
+  Untuk detail API, lihat [PutObjectRetention](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObjectRetention)di *Referensi AWS SDK for Java 2.x API*. 

### `RestoreObject`
<a name="s3_RestoreObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RestoreObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.RestoreRequest;
import software.amazon.awssdk.services.s3.model.GlacierJobParameters;
import software.amazon.awssdk.services.s3.model.RestoreObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.Tier;

/*
 *  For more information about restoring an object, see "Restoring an archived object" at
 *  https://docs.aws.amazon.com/AmazonS3/latest/userguide/restoring-objects.html
 *
 *  Before running this Java V2 code example, set up your development environment, including your credentials.
 *
 *  For more information, see the following documentation topic:
 *
 *  https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class RestoreObject {
    public static void main(String[] args) {
        final String usage = """

            Usage:
                <bucketName> <keyName> <expectedBucketOwner>

            Where:
                bucketName - The Amazon S3 bucket name.\s
                keyName - The key name of an object with a Storage class value of Glacier.\s
                expectedBucketOwner - The account that owns the bucket (you can obtain this value from the AWS Management Console).\s
            """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String keyName = args[1];
        String expectedBucketOwner = args[2];
        Region region = Region.US_EAST_1;
        S3Client s3 = S3Client.builder()
            .region(region)
            .build();

        restoreS3Object(s3, bucketName, keyName, expectedBucketOwner);
        s3.close();
    }

    /**
     * Restores an S3 object from the Glacier storage class.
     *
     * @param s3                   an instance of the {@link S3Client} to be used for interacting with Amazon S3
     * @param bucketName           the name of the S3 bucket where the object is stored
     * @param keyName              the key (object name) of the S3 object to be restored
     * @param expectedBucketOwner  the AWS account ID of the expected bucket owner
     */
    public static void restoreS3Object(S3Client s3, String bucketName, String keyName, String expectedBucketOwner) {
        try {
            RestoreRequest restoreRequest = RestoreRequest.builder()
                .days(10)
                .glacierJobParameters(GlacierJobParameters.builder().tier(Tier.STANDARD).build())
                .build();

            RestoreObjectRequest objectRequest = RestoreObjectRequest.builder()
                .expectedBucketOwner(expectedBucketOwner)
                .bucket(bucketName)
                .key(keyName)
                .restoreRequest(restoreRequest)
                .build();

            s3.restoreObject(objectRequest);

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [RestoreObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/RestoreObject)di *Referensi AWS SDK for Java 2.x API*. 

### `SelectObjectContent`
<a name="s3_SelectObjectContent_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SelectObjectContent`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Contoh berikut menunjukkan query menggunakan objek JSON. [Contoh lengkap](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/main/java/com/example/s3/async/SelectObjectContentExample.java) juga menunjukkan penggunaan objek CSV.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.async.AsyncRequestBody;
import software.amazon.awssdk.core.async.BlockingInputStreamAsyncRequestBody;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.services.s3.S3AsyncClient;
import software.amazon.awssdk.services.s3.model.CSVInput;
import software.amazon.awssdk.services.s3.model.CSVOutput;
import software.amazon.awssdk.services.s3.model.CompressionType;
import software.amazon.awssdk.services.s3.model.ExpressionType;
import software.amazon.awssdk.services.s3.model.FileHeaderInfo;
import software.amazon.awssdk.services.s3.model.InputSerialization;
import software.amazon.awssdk.services.s3.model.JSONInput;
import software.amazon.awssdk.services.s3.model.JSONOutput;
import software.amazon.awssdk.services.s3.model.JSONType;
import software.amazon.awssdk.services.s3.model.ObjectIdentifier;
import software.amazon.awssdk.services.s3.model.OutputSerialization;
import software.amazon.awssdk.services.s3.model.Progress;
import software.amazon.awssdk.services.s3.model.PutObjectResponse;
import software.amazon.awssdk.services.s3.model.SelectObjectContentRequest;
import software.amazon.awssdk.services.s3.model.SelectObjectContentResponseHandler;
import software.amazon.awssdk.services.s3.model.Stats;

import java.io.IOException;
import java.net.URL;
import java.util.ArrayList;
import java.util.List;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;

public class SelectObjectContentExample {
    static final Logger logger = LoggerFactory.getLogger(SelectObjectContentExample.class);
    static final String BUCKET_NAME = "amzn-s3-demo-bucket-" + UUID.randomUUID();
    static final S3AsyncClient s3AsyncClient = S3AsyncClient.create();
    static String FILE_CSV = "csv";
    static String FILE_JSON = "json";
    static String URL_CSV = "https://raw.githubusercontent.com/mledoze/countries/master/dist/countries.csv";
    static String URL_JSON = "https://raw.githubusercontent.com/mledoze/countries/master/dist/countries.json";

    public static void main(String[] args) {
        SelectObjectContentExample selectObjectContentExample = new SelectObjectContentExample();
        try {
            SelectObjectContentExample.setUp();
            selectObjectContentExample.runSelectObjectContentMethodForJSON();
            selectObjectContentExample.runSelectObjectContentMethodForCSV();
        } catch (SdkException e) {
            logger.error(e.getMessage(), e);
            System.exit(1);
        } finally {
            SelectObjectContentExample.tearDown();
        }
    }

    EventStreamInfo runSelectObjectContentMethodForJSON() {
        // Set up request parameters.
        final String queryExpression = "select * from s3object[*][*] c where c.area < 350000";
        final String fileType = FILE_JSON;

        InputSerialization inputSerialization = InputSerialization.builder()
                .json(JSONInput.builder().type(JSONType.DOCUMENT).build())
                .compressionType(CompressionType.NONE)
                .build();

        OutputSerialization outputSerialization = OutputSerialization.builder()
                .json(JSONOutput.builder().recordDelimiter(null).build())
                .build();

        // Build the SelectObjectContentRequest.
        SelectObjectContentRequest select = SelectObjectContentRequest.builder()
                .bucket(BUCKET_NAME)
                .key(FILE_JSON)
                .expression(queryExpression)
                .expressionType(ExpressionType.SQL)
                .inputSerialization(inputSerialization)
                .outputSerialization(outputSerialization)
                .build();

        EventStreamInfo eventStreamInfo = new EventStreamInfo();
        // Call the selectObjectContent method with the request and a response handler.
        // Supply an EventStreamInfo object to the response handler to gather records and information from the response.
        s3AsyncClient.selectObjectContent(select, buildResponseHandler(eventStreamInfo)).join();

        // Log out information gathered while processing the response stream.
        long recordCount = eventStreamInfo.getRecords().stream().mapToInt(record ->
                record.split("\n").length
        ).sum();
        logger.info("Total records {}: {}", fileType, recordCount);
        logger.info("Visitor onRecords for fileType {} called {} times", fileType, eventStreamInfo.getCountOnRecordsCalled());
        logger.info("Visitor onStats for fileType {}, {}", fileType, eventStreamInfo.getStats());
        logger.info("Visitor onContinuations for fileType {}, {}", fileType, eventStreamInfo.getCountContinuationEvents());
        return eventStreamInfo;
    }

    static SelectObjectContentResponseHandler buildResponseHandler(EventStreamInfo eventStreamInfo) {
        // Use a Visitor to process the response stream. This visitor logs information and gathers details while processing.
        final SelectObjectContentResponseHandler.Visitor visitor = SelectObjectContentResponseHandler.Visitor.builder()
                .onRecords(r -> {
                    logger.info("Record event received.");
                    eventStreamInfo.addRecord(r.payload().asUtf8String());
                    eventStreamInfo.incrementOnRecordsCalled();
                })
                .onCont(ce -> {
                    logger.info("Continuation event received.");
                    eventStreamInfo.incrementContinuationEvents();
                })
                .onProgress(pe -> {
                    Progress progress = pe.details();
                    logger.info("Progress event received:\n bytesScanned:{}\nbytesProcessed: {}\nbytesReturned:{}",
                            progress.bytesScanned(),
                            progress.bytesProcessed(),
                            progress.bytesReturned());
                })
                .onEnd(ee -> logger.info("End event received."))
                .onStats(se -> {
                    logger.info("Stats event received.");
                    eventStreamInfo.addStats(se.details());
                })
                .build();

        // Build the SelectObjectContentResponseHandler with the visitor that processes the stream.
        return SelectObjectContentResponseHandler.builder()
                .subscriber(visitor).build();
    }

    // The EventStreamInfo class is used to store information gathered while processing the response stream.
    static class EventStreamInfo {
        private final List<String> records = new ArrayList<>();
        private Integer countOnRecordsCalled = 0;
        private Integer countContinuationEvents = 0;
        private Stats stats;

        void incrementOnRecordsCalled() {
            countOnRecordsCalled++;
        }

        void incrementContinuationEvents() {
            countContinuationEvents++;
        }

        void addRecord(String record) {
            records.add(record);
        }

        void addStats(Stats stats) {
            this.stats = stats;
        }

        public List<String> getRecords() {
            return records;
        }

        public Integer getCountOnRecordsCalled() {
            return countOnRecordsCalled;
        }

        public Integer getCountContinuationEvents() {
            return countContinuationEvents;
        }

        public Stats getStats() {
            return stats;
        }
    }
```
+  Untuk detail API, lihat [SelectObjectContent](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/SelectObjectContent)di *Referensi AWS SDK for Java 2.x API*. 

### `UploadPartCopy`
<a name="s3_UploadPartCopy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadPartCopy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    public CompletableFuture<String> performMultiCopy(String toBucket, String bucketName, String key) {
        CreateMultipartUploadRequest createMultipartUploadRequest = CreateMultipartUploadRequest.builder()
            .bucket(toBucket)
            .key(key)
            .build();

        getAsyncClient().createMultipartUpload(createMultipartUploadRequest)
            .thenApply(createMultipartUploadResponse -> {
                String uploadId = createMultipartUploadResponse.uploadId();
                System.out.println("Upload ID: " + uploadId);

                UploadPartCopyRequest uploadPartCopyRequest = UploadPartCopyRequest.builder()
                    .sourceBucket(bucketName)
                    .destinationBucket(toBucket)
                    .sourceKey(key)
                    .destinationKey(key)
                    .uploadId(uploadId)  // Use the valid uploadId.
                    .partNumber(1)  // Ensure the part number is correct.
                    .copySourceRange("bytes=0-1023")  // Adjust range as needed
                    .build();

                return getAsyncClient().uploadPartCopy(uploadPartCopyRequest);
            })
            .thenCompose(uploadPartCopyFuture -> uploadPartCopyFuture)
            .whenComplete((uploadPartCopyResponse, exception) -> {
                if (exception != null) {
                    // Handle any exceptions.
                    logger.error("Error during upload part copy: " + exception.getMessage());
                } else {
                    // Successfully completed the upload part copy.
                    System.out.println("Upload Part Copy completed successfully. ETag: " + uploadPartCopyResponse.copyPartResult().eTag());
                }
            });
        return null;
    }
```
+  Untuk detail API, lihat [UploadPartCopy](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/UploadPartCopy)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Periksa apakah ada ember
<a name="s3_Scenario_DoesBucketExist_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memeriksa apakah ada bucket.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Anda dapat menggunakan `doesBucketExists` metode berikut sebagai pengganti metode SDK for Java [V1 doesBucketExist Amazons3Client\$1 V2 (](https://docs.aws.amazon.com/AWSJavaSDK/latest/javadoc/com/amazonaws/services/s3/AmazonS3Client.html#doesBucketExistV2-java.lang.String-)String).  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.awscore.exception.AwsServiceException;
import software.amazon.awssdk.http.HttpStatusCode;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.utils.Validate;

public class DoesBucketExist {
    private static final Logger logger = LoggerFactory.getLogger(DoesBucketExist.class);

    public static void main(String[] args) {
        DoesBucketExist doesBucketExist = new DoesBucketExist();

        final S3Client s3SyncClient = S3Client.builder().build();
        final String bucketName = "amzn-s3-demo-bucket"; // Change to the bucket name that you want to check.

        boolean exists = doesBucketExist.doesBucketExist(bucketName, s3SyncClient);
        logger.info("Bucket exists: {}", exists);
    }

    /**
     * Checks if the specified bucket exists. Amazon S3 buckets are named in a global namespace; use this method to
     * determine if a specified bucket name already exists, and therefore can't be used to create a new bucket.
     * <p>
     * Internally this method uses the <a
     * href="https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html#getBucketAcl(java.util.function.Consumer)">S3Client.getBucketAcl(String)</a>
     * operation to determine whether the bucket exists.
     * <p>
     * This method is equivalent to the AWS SDK for Java V1's <a
     * href="https://docs.aws.amazon.com/AWSJavaSDK/latest/javadoc/com/amazonaws/services/s3/AmazonS3Client.html#doesBucketExistV2-java.lang.String-">AmazonS3Client#doesBucketExistV2(String)</a>.
     *
     * @param bucketName   The name of the bucket to check.
     * @param s3SyncClient An <code>S3Client</code> instance. The method checks for the bucket in the AWS Region
     *                     configured on the instance.
     * @return The value true if the specified bucket exists in Amazon S3; the value false if there is no bucket in
     *         Amazon S3 with that name.
     */
    public boolean doesBucketExist(String bucketName, S3Client s3SyncClient) {
        try {
            Validate.notEmpty(bucketName, "The bucket name must not be null or an empty string.", "");
            s3SyncClient.getBucketAcl(r -> r.bucket(bucketName));
            return true;
        } catch (AwsServiceException ase) {
            // A redirect error or an AccessDenied exception means the bucket exists but it's not in this region
            // or we don't have permissions to it.
            if ((ase.statusCode() == HttpStatusCode.MOVED_PERMANENTLY) || "AccessDenied".equals(ase.awsErrorDetails().errorCode())) {
                return true;
            }
            if (ase.statusCode() == HttpStatusCode.NOT_FOUND) {
                return false;
            }
            throw ase;
        }
    }
}
```
+  Untuk detail API, lihat [GetBucketAcl](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetBucketAcl)di *Referensi AWS SDK for Java 2.x API*. 

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Berikut ini menunjukkan tiga contoh cara membuat presigned URLs dan menggunakan URLs dengan perpustakaan klien HTTP:  
+ Permintaan HTTP GET yang menggunakan URL dengan tiga pustaka klien HTTP
+ Permintaan HTTP PUT dengan metadata di header yang menggunakan URL dengan tiga pustaka klien HTTP
+ Permintaan HTTP PUT dengan parameter kueri yang menggunakan URL dengan satu pustaka klien HTTP
 Buat URL yang telah ditandatangani sebelumnya untuk suatu objek, lalu unduh (GET request).  
Impor.  

```
import com.example.s3.util.PresignUrlUtils;
import org.slf4j.Logger;
import software.amazon.awssdk.http.HttpExecuteRequest;
import software.amazon.awssdk.http.HttpExecuteResponse;
import software.amazon.awssdk.http.SdkHttpClient;
import software.amazon.awssdk.http.SdkHttpMethod;
import software.amazon.awssdk.http.SdkHttpRequest;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.presigner.S3Presigner;
import software.amazon.awssdk.services.s3.presigner.model.GetObjectPresignRequest;
import software.amazon.awssdk.services.s3.presigner.model.PresignedGetObjectRequest;
import software.amazon.awssdk.utils.IoUtils;

import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.net.HttpURLConnection;
import java.net.URISyntaxException;
import java.net.URL;
import java.net.http.HttpClient;
import java.net.http.HttpRequest;
import java.net.http.HttpResponse;
import java.nio.file.Paths;
import java.time.Duration;
import java.util.UUID;
```
Hasilkan URL.  

```
    /* Create a pre-signed URL to download an object in a subsequent GET request. */
    public String createPresignedGetUrl(String bucketName, String keyName) {
        try (S3Presigner presigner = S3Presigner.create()) {

            GetObjectRequest objectRequest = GetObjectRequest.builder()
                    .bucket(bucketName)
                    .key(keyName)
                    .build();

            GetObjectPresignRequest presignRequest = GetObjectPresignRequest.builder()
                    .signatureDuration(Duration.ofMinutes(10))  // The URL will expire in 10 minutes.
                    .getObjectRequest(objectRequest)
                    .build();

            PresignedGetObjectRequest presignedRequest = presigner.presignGetObject(presignRequest);
            logger.info("Presigned URL: [{}]", presignedRequest.url().toString());
            logger.info("HTTP method: [{}]", presignedRequest.httpRequest().method());

            return presignedRequest.url().toExternalForm();
        }
    }
```
Unduh objek dengan menggunakan salah satu dari tiga pendekatan berikut.  
Gunakan kelas JDK `HttpURLConnection` (sejak v1.1) untuk melakukan download.  

```
    /* Use the JDK HttpURLConnection (since v1.1) class to do the download. */
    public byte[] useHttpUrlConnectionToGet(String presignedUrlString) {
        ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream(); // Capture the response body to a byte array.

        try {
            URL presignedUrl = new URL(presignedUrlString);
            HttpURLConnection connection = (HttpURLConnection) presignedUrl.openConnection();
            connection.setRequestMethod("GET");
            // Download the result of executing the request.
            try (InputStream content = connection.getInputStream()) {
                IoUtils.copy(content, byteArrayOutputStream);
            }
            logger.info("HTTP response code is " + connection.getResponseCode());

        } catch (S3Exception | IOException e) {
            logger.error(e.getMessage(), e);
        }
        return byteArrayOutputStream.toByteArray();
    }
```
Gunakan kelas JDK `HttpClient` (sejak v11) untuk melakukan download.  

```
    /* Use the JDK HttpClient (since v11) class to do the download. */
    public byte[] useHttpClientToGet(String presignedUrlString) {
        ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream(); // Capture the response body to a byte array.

        HttpRequest.Builder requestBuilder = HttpRequest.newBuilder();
        HttpClient httpClient = HttpClient.newHttpClient();
        try {
            URL presignedUrl = new URL(presignedUrlString);
            HttpResponse<InputStream> response = httpClient.send(requestBuilder
                            .uri(presignedUrl.toURI())
                            .GET()
                            .build(),
                    HttpResponse.BodyHandlers.ofInputStream());

            IoUtils.copy(response.body(), byteArrayOutputStream);

            logger.info("HTTP response code is " + response.statusCode());

        } catch (URISyntaxException | InterruptedException | IOException e) {
            logger.error(e.getMessage(), e);
        }
        return byteArrayOutputStream.toByteArray();
    }
```
Gunakan kelas AWS SDK for `SdkHttpClient` Java untuk melakukan download.  

```
    /* Use the AWS SDK for Java SdkHttpClient class to do the download. */
    public byte[] useSdkHttpClientToGet(String presignedUrlString) {

        ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream(); // Capture the response body to a byte array.
        try {
            URL presignedUrl = new URL(presignedUrlString);
            SdkHttpRequest request = SdkHttpRequest.builder()
                    .method(SdkHttpMethod.GET)
                    .uri(presignedUrl.toURI())
                    .build();

            HttpExecuteRequest executeRequest = HttpExecuteRequest.builder()
                    .request(request)
                    .build();

            try (SdkHttpClient sdkHttpClient = ApacheHttpClient.create()) {
                HttpExecuteResponse response = sdkHttpClient.prepareRequest(executeRequest).call();
                response.responseBody().ifPresentOrElse(
                        abortableInputStream -> {
                            try {
                                IoUtils.copy(abortableInputStream, byteArrayOutputStream);
                            } catch (IOException e) {
                                throw new RuntimeException(e);
                            }
                        },
                        () -> logger.error("No response body."));

                logger.info("HTTP Response code is {}", response.httpResponse().statusCode());
            }
        } catch (URISyntaxException | IOException e) {
            logger.error(e.getMessage(), e);
        }
        return byteArrayOutputStream.toByteArray();
    }
```
Buat URL yang telah ditandatangani sebelumnya dengan metadata di header untuk diunggah, lalu unggah file (permintaan PUT).  
Impor.  

```
import com.example.s3.util.PresignUrlUtils;
import org.slf4j.Logger;
import software.amazon.awssdk.core.internal.sync.FileContentStreamProvider;
import software.amazon.awssdk.http.HttpExecuteRequest;
import software.amazon.awssdk.http.HttpExecuteResponse;
import software.amazon.awssdk.http.SdkHttpClient;
import software.amazon.awssdk.http.SdkHttpMethod;
import software.amazon.awssdk.http.SdkHttpRequest;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.presigner.S3Presigner;
import software.amazon.awssdk.services.s3.presigner.model.PresignedPutObjectRequest;
import software.amazon.awssdk.services.s3.presigner.model.PutObjectPresignRequest;

import java.io.File;
import java.io.IOException;
import java.io.OutputStream;
import java.io.RandomAccessFile;
import java.net.HttpURLConnection;
import java.net.URISyntaxException;
import java.net.URL;
import java.net.http.HttpClient;
import java.net.http.HttpRequest;
import java.net.http.HttpResponse;
import java.nio.ByteBuffer;
import java.nio.channels.FileChannel;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.time.Duration;
import java.util.Map;
import java.util.UUID;
```
Hasilkan URL.  

```
    /* Create a presigned URL to use in a subsequent PUT request */
    public String createPresignedUrl(String bucketName, String keyName, Map<String, String> metadata) {
        try (S3Presigner presigner = S3Presigner.create()) {

            PutObjectRequest objectRequest = PutObjectRequest.builder()
                    .bucket(bucketName)
                    .key(keyName)
                    .metadata(metadata)
                    .build();

            PutObjectPresignRequest presignRequest = PutObjectPresignRequest.builder()
                    .signatureDuration(Duration.ofMinutes(10))  // The URL expires in 10 minutes.
                    .putObjectRequest(objectRequest)
                    .build();


            PresignedPutObjectRequest presignedRequest = presigner.presignPutObject(presignRequest);
            String myURL = presignedRequest.url().toString();
            logger.info("Presigned URL to upload a file to: [{}]", myURL);
            logger.info("HTTP method: [{}]", presignedRequest.httpRequest().method());

            return presignedRequest.url().toExternalForm();
        }
    }
```
Unggah objek file dengan menggunakan salah satu dari tiga pendekatan berikut.  
Gunakan kelas JDK `HttpURLConnection` (sejak v1.1) untuk melakukan upload.  

```
    /* Use the JDK HttpURLConnection (since v1.1) class to do the upload. */
    public void useHttpUrlConnectionToPut(String presignedUrlString, File fileToPut, Map<String, String> metadata) {
        logger.info("Begin [{}] upload", fileToPut.toString());
        try {
            URL presignedUrl = new URL(presignedUrlString);
            HttpURLConnection connection = (HttpURLConnection) presignedUrl.openConnection();
            connection.setDoOutput(true);
            metadata.forEach((k, v) -> connection.setRequestProperty("x-amz-meta-" + k, v));
            connection.setRequestMethod("PUT");
            OutputStream out = connection.getOutputStream();

            try (RandomAccessFile file = new RandomAccessFile(fileToPut, "r");
                 FileChannel inChannel = file.getChannel()) {
                ByteBuffer buffer = ByteBuffer.allocate(8192); //Buffer size is 8k

                while (inChannel.read(buffer) > 0) {
                    buffer.flip();
                    for (int i = 0; i < buffer.limit(); i++) {
                        out.write(buffer.get());
                    }
                    buffer.clear();
                }
            } catch (IOException e) {
                logger.error(e.getMessage(), e);
            }

            out.close();
            connection.getResponseCode();
            logger.info("HTTP response code is " + connection.getResponseCode());

        } catch (S3Exception | IOException e) {
            logger.error(e.getMessage(), e);
        }
    }
```
Gunakan kelas JDK `HttpClient` (sejak v11) untuk melakukan upload.  

```
    /* Use the JDK HttpClient (since v11) class to do the upload. */
    public void useHttpClientToPut(String presignedUrlString, File fileToPut, Map<String, String> metadata) {
        logger.info("Begin [{}] upload", fileToPut.toString());

        HttpRequest.Builder requestBuilder = HttpRequest.newBuilder();
        metadata.forEach((k, v) -> requestBuilder.header("x-amz-meta-" + k, v));

        HttpClient httpClient = HttpClient.newHttpClient();
        try {
            final HttpResponse<Void> response = httpClient.send(requestBuilder
                            .uri(new URL(presignedUrlString).toURI())
                            .PUT(HttpRequest.BodyPublishers.ofFile(Path.of(fileToPut.toURI())))
                            .build(),
                    HttpResponse.BodyHandlers.discarding());

            logger.info("HTTP response code is " + response.statusCode());

        } catch (URISyntaxException | InterruptedException | IOException e) {
            logger.error(e.getMessage(), e);
        }
    }
```
Gunakan `SdkHttpClient` kelas AWS for Java V2 untuk melakukan upload.  

```
    /* Use the AWS SDK for Java V2 SdkHttpClient class to do the upload. */
    public void useSdkHttpClientToPut(String presignedUrlString, File fileToPut, Map<String, String> metadata) {
        logger.info("Begin [{}] upload", fileToPut.toString());

        try {
            URL presignedUrl = new URL(presignedUrlString);

            SdkHttpRequest.Builder requestBuilder = SdkHttpRequest.builder()
                    .method(SdkHttpMethod.PUT)
                    .uri(presignedUrl.toURI());
            // Add headers
            metadata.forEach((k, v) -> requestBuilder.putHeader("x-amz-meta-" + k, v));
            // Finish building the request.
            SdkHttpRequest request = requestBuilder.build();

            HttpExecuteRequest executeRequest = HttpExecuteRequest.builder()
                    .request(request)
                    .contentStreamProvider(new FileContentStreamProvider(fileToPut.toPath()))
                    .build();

            try (SdkHttpClient sdkHttpClient = ApacheHttpClient.create()) {
                HttpExecuteResponse response = sdkHttpClient.prepareRequest(executeRequest).call();
                logger.info("Response code: {}", response.httpResponse().statusCode());
            }
        } catch (URISyntaxException | IOException e) {
            logger.error(e.getMessage(), e);
        }
    }
```
Buat URL yang telah ditandatangani sebelumnya dengan parameter kueri untuk unggahan, lalu unggah file (permintaan PUT).  
Impor.  

```
import com.example.s3.util.PresignUrlUtils;
import org.slf4j.Logger;
import software.amazon.awssdk.awscore.AwsRequestOverrideConfiguration;
import software.amazon.awssdk.core.internal.sync.FileContentStreamProvider;
import software.amazon.awssdk.http.HttpExecuteRequest;
import software.amazon.awssdk.http.HttpExecuteResponse;
import software.amazon.awssdk.http.SdkHttpClient;
import software.amazon.awssdk.http.SdkHttpMethod;
import software.amazon.awssdk.http.SdkHttpRequest;
import software.amazon.awssdk.http.apache.ApacheHttpClient;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutObjectRequest;
import software.amazon.awssdk.services.s3.presigner.S3Presigner;
import software.amazon.awssdk.services.s3.presigner.model.PresignedPutObjectRequest;
import software.amazon.awssdk.services.s3.presigner.model.PutObjectPresignRequest;

import java.io.File;
import java.io.IOException;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.file.Paths;
import java.time.Duration;
import java.util.Map;
import java.util.UUID;
```
Hasilkan URL.  

```
    /**
     *  Creates a presigned URL to use in a subsequent HTTP PUT request. The code adds query parameters
     *  to the request instead of using headers. By using query parameters, you do not need to add the
     *  the parameters as headers when the PUT request is eventually sent.
     *
     * @param bucketName Bucket name where the object will be uploaded.
     * @param keyName Key name of the object that will be uploaded.
     * @param queryParams Query string parameters to be added to the presigned URL.
     * @return
     */
    public String createPresignedUrl(String bucketName, String keyName, Map<String, String> queryParams) {
        try (S3Presigner presigner = S3Presigner.create()) {
            // Create an override configuration to store the query parameters.
            AwsRequestOverrideConfiguration.Builder overrideConfigurationBuilder = AwsRequestOverrideConfiguration.builder();

            queryParams.forEach(overrideConfigurationBuilder::putRawQueryParameter);

            PutObjectRequest objectRequest = PutObjectRequest.builder()
                    .bucket(bucketName)
                    .key(keyName)
                    .overrideConfiguration(overrideConfigurationBuilder.build()) // Add the override configuration.
                    .build();

            PutObjectPresignRequest presignRequest = PutObjectPresignRequest.builder()
                    .signatureDuration(Duration.ofMinutes(10))  // The URL expires in 10 minutes.
                    .putObjectRequest(objectRequest)
                    .build();


            PresignedPutObjectRequest presignedRequest = presigner.presignPutObject(presignRequest);
            String myURL = presignedRequest.url().toString();
            logger.info("Presigned URL to upload a file to: [{}]", myURL);
            logger.info("HTTP method: [{}]", presignedRequest.httpRequest().method());

            return presignedRequest.url().toExternalForm();
        }
    }
```
Gunakan `SdkHttpClient` kelas AWS for Java V2 untuk melakukan upload.  

```
    /**
     * Use the AWS SDK for Java V2 SdkHttpClient class to execute the PUT request. Since the
     * URL contains the query parameters, no headers are needed for metadata, SSE settings, or ACL settings.
     *
     * @param presignedUrlString The URL for the PUT request.
     * @param fileToPut File to uplaod
     */
    public void useSdkHttpClientToPut(String presignedUrlString, File fileToPut) {
        logger.info("Begin [{}] upload", fileToPut.toString());

        try {
            URL presignedUrl = new URL(presignedUrlString);

            SdkHttpRequest.Builder requestBuilder = SdkHttpRequest.builder()
                    .method(SdkHttpMethod.PUT)
                    .uri(presignedUrl.toURI());

            SdkHttpRequest request = requestBuilder.build();

            HttpExecuteRequest executeRequest = HttpExecuteRequest.builder()
                    .request(request)
                    .contentStreamProvider(new FileContentStreamProvider(fileToPut.toPath()))
                    .build();

            try (SdkHttpClient sdkHttpClient = ApacheHttpClient.create()) {
                HttpExecuteResponse response = sdkHttpClient.prepareRequest(executeRequest).call();
                logger.info("Response code: {}", response.httpResponse().statusCode());
            }
        } catch (URISyntaxException | IOException e) {
            logger.error(e.getMessage(), e);
        }
    }
```

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Java 2.x**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/pam_source_files).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Hapus unggahan multipart yang tidak lengkap
<a name="s3_Scenario_AbortMultipartUpload_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menghapus atau menghentikan unggahan multipart Amazon S3 yang tidak lengkap.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Untuk menghentikan unggahan multibagian yang sedang berlangsung atau tidak lengkap karena alasan apa pun, Anda bisa mendapatkan unggahan daftar lalu menghapusnya seperti yang ditunjukkan pada contoh berikut.   

```
    /**
     * Aborts all incomplete multipart uploads from the specified S3 bucket.
     * <p>
     * This method retrieves a list of all incomplete multipart uploads in the specified S3 bucket,
     * and then aborts each of those uploads.
     */
    public static void abortIncompleteMultipartUploadsFromList() {
        ListMultipartUploadsRequest listMultipartUploadsRequest = ListMultipartUploadsRequest.builder()
            .bucket(bucketName)
            .build();

        ListMultipartUploadsResponse response = s3Client.listMultipartUploads(listMultipartUploadsRequest);
        List<MultipartUpload> uploads = response.uploads();

        AbortMultipartUploadRequest abortMultipartUploadRequest;
        for (MultipartUpload upload : uploads) {
            abortMultipartUploadRequest = AbortMultipartUploadRequest.builder()
                .bucket(bucketName)
                .key(upload.key())
                .expectedBucketOwner(accountId)
                .uploadId(upload.uploadId())
                .build();

            AbortMultipartUploadResponse abortMultipartUploadResponse = s3Client.abortMultipartUpload(abortMultipartUploadRequest);
            if (abortMultipartUploadResponse.sdkHttpResponse().isSuccessful()) {
                logger.info("Upload ID [{}] to bucket [{}] successfully aborted.", upload.uploadId(), bucketName);
            }
        }
    }
```
Untuk menghapus unggahan multibagian yang tidak lengkap yang dimulai sebelum atau sesudah tanggal, Anda dapat menghapus unggahan multibagian secara selektif berdasarkan titik waktu seperti yang ditunjukkan pada contoh berikut.   

```
    static void abortIncompleteMultipartUploadsOlderThan(Instant pointInTime) {
        ListMultipartUploadsRequest listMultipartUploadsRequest = ListMultipartUploadsRequest.builder()
            .bucket(bucketName)
            .build();

        ListMultipartUploadsResponse response = s3Client.listMultipartUploads(listMultipartUploadsRequest);
        List<MultipartUpload> uploads = response.uploads();

        AbortMultipartUploadRequest abortMultipartUploadRequest;
        for (MultipartUpload upload : uploads) {
            logger.info("Found multipartUpload with upload ID [{}], initiated [{}]", upload.uploadId(), upload.initiated());
            if (upload.initiated().isBefore(pointInTime)) {
                abortMultipartUploadRequest = AbortMultipartUploadRequest.builder()
                    .bucket(bucketName)
                    .key(upload.key())
                    .expectedBucketOwner(accountId)
                    .uploadId(upload.uploadId())
                    .build();

                AbortMultipartUploadResponse abortMultipartUploadResponse = s3Client.abortMultipartUpload(abortMultipartUploadRequest);
                if (abortMultipartUploadResponse.sdkHttpResponse().isSuccessful()) {
                    logger.info("Upload ID [{}] to bucket [{}] successfully aborted.", upload.uploadId(), bucketName);
                }
            }
        }
    }
```
Jika Anda memiliki akses ke ID unggahan setelah memulai unggahan multibagian, Anda dapat menghapus unggahan yang sedang berlangsung dengan menggunakan ID.  

```
    static void abortMultipartUploadUsingUploadId() {
        String uploadId = startUploadReturningUploadId();
        AbortMultipartUploadResponse response = s3Client.abortMultipartUpload(b -> b
            .uploadId(uploadId)
            .bucket(bucketName)
            .key(key));

        if (response.sdkHttpResponse().isSuccessful()) {
            logger.info("Upload ID [{}] to bucket [{}] successfully aborted.", uploadId, bucketName);
        }
    }
```
Untuk secara konsisten menghapus unggahan multibagian yang tidak lengkap yang lebih lama dalam beberapa hari tertentu, siapkan konfigurasi siklus hidup bucket untuk bucket. Contoh berikut menunjukkan cara membuat aturan untuk menghapus unggahan yang tidak lengkap yang lebih lama dari 7 hari.   

```
    static void abortMultipartUploadsUsingLifecycleConfig() {
        Collection<LifecycleRule> lifeCycleRules = List.of(LifecycleRule.builder()
            .abortIncompleteMultipartUpload(b -> b.
                daysAfterInitiation(7))
            .status("Enabled")
            .filter(SdkBuilder::build) // Filter element is required.
            .build());

        // If the action is successful, the service sends back an HTTP 200 response with an empty HTTP body.
        PutBucketLifecycleConfigurationResponse response = s3Client.putBucketLifecycleConfiguration(b -> b
            .bucket(bucketName)
            .lifecycleConfiguration(b1 -> b1.rules(lifeCycleRules)));

        if (response.sdkHttpResponse().isSuccessful()) {
            logger.info("Rule to abort incomplete multipart uploads added to bucket.");
        } else {
            logger.error("Unsuccessfully applied rule. HTTP status code is [{}]", response.sdkHttpResponse().statusCode());
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AbortMultipartUpload](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/AbortMultipartUpload)
  + [ListMultipartUploads](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListMultipartUploads)
  + [PutBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketLifecycleConfiguration)

### Mendeteksi APD dalam gambar
<a name="cross_RekognitionPhotoAnalyzerPPE_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi Alat Pelindung Diri (APD) dalam gambar.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat AWS Lambda fungsi yang mendeteksi gambar dengan Alat Pelindung Diri.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lambda_ppe).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Rekognition Java API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang terletak di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_photo_analyzer_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Rekognition Java API untuk membuat aplikasi guna mendeteksi wajah dan objek di video yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/video_analyzer_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

### Unduh 'direktori' S3
<a name="s3_Scenario_DownloadS3Directory_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengunduh dan memfilter konten 'direktori' bucket Amazon S3.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Contoh ini menunjukkan cara menggunakan [S3 TransferManager](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html) di AWS SDK for Java 2.x untuk mengunduh 'direktori' dari bucket Amazon S3. Ini juga menunjukkan bagaimana menggunakan [DownloadFilters](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/config/DownloadFilter.html)dalam permintaan.  

```
    /**
     * For standard buckets, S3 provides the illusion of a directory structure through the use of keys. When you upload
     * an object to an S3 bucket, you specify a key, which is essentially the "path" to the object. The key can contain
     * forward slashes ("/") to make it appear as if the object is stored in a directory structure, but this is just a
     * logical representation, not an actual directory.
     * <p><pre>
     * In this example, our S3 bucket contains the following objects:
     *
     * folder1/file1.txt
     * folder1/file2.txt
     * folder1/file3.txt
     * folder2/file1.txt
     * folder2/file2.txt
     * folder2/file3.txt
     * folder3/file1.txt
     * folder3/file2.txt
     * folder3/file3.txt
     *
     * When method `downloadS3Directories` is invoked with
     * `destinationPathURI` set to `/test`, the downloaded
     * directory looks like:
     *
     * |- test
     *    |- folder1
     *    	  |- file1.txt
     *    	  |- file2.txt
     *    	  |- file3.txt
     *    |- folder3
     *    	  |- file1.txt
     *    	  |- file2.txt
     *    	  |- file3.txt
     * </pre>
     *
     * @param transferManager    An S3TransferManager instance.
     * @param destinationPathURI local directory to hold the downloaded S3 'directories' and files.
     * @param bucketName         The S3 bucket that contains the 'directories' to download.
     * @return The number of objects (files, in this case) that were downloaded.
     */
    public Integer downloadS3Directories(S3TransferManager transferManager,
                                         URI destinationPathURI, String bucketName) {

        // Define the filters for which 'directories' we want to download.
        DownloadFilter folder1Filter = (S3Object s3Object) -> s3Object.key().startsWith("folder1/");
        DownloadFilter folder3Filter = (S3Object s3Object) -> s3Object.key().startsWith("folder3/");
        DownloadFilter folderFilter = s3Object -> folder1Filter.or(folder3Filter).test(s3Object);

        DirectoryDownload directoryDownload = transferManager.downloadDirectory(DownloadDirectoryRequest.builder()
                .destination(Paths.get(destinationPathURI))
                .bucket(bucketName)
                .filter(folderFilter)
                .build());
        CompletedDirectoryDownload completedDirectoryDownload = directoryDownload.completionFuture().join();

        Integer numFilesInFolder1 = Paths.get(destinationPathURI).resolve("folder1").toFile().list().length;
        Integer numFilesInFolder3 = Paths.get(destinationPathURI).resolve("folder3").toFile().list().length;

        try {
            assert numFilesInFolder1 == 3;
            assert numFilesInFolder3 == 3;
            assert !Paths.get(destinationPathURI).resolve("folder2").toFile().exists(); // `folder2` was not downloaded.
        } catch (AssertionError e) {
            logger.error("An assertion failed.");
        }

        completedDirectoryDownload.failedTransfers()
                .forEach(fail -> logger.warn("Object failed to transfer  [{}]", fail.exception().getMessage()));
        return numFilesInFolder1 + numFilesInFolder3;
    }
```

### Mengunduh objek ke direktori lokal
<a name="s3_DownloadBucketToDirectory_java_2_topic"></a>

Contoh Kode berikut ini menunjukkan cara mengunduh semua objek di bucket Amazon Simple Storage Service (Amazon S3) ke direktori lokal.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Gunakan [S3 TransferManager](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html) untuk [mengunduh semua objek S3 di bucket](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html#downloadDirectory(software.amazon.awssdk.transfer.s3.DownloadDirectoryRequest)) S3 yang sama. Lihat [file lengkap](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/main/java/com/example/s3/transfermanager/DownloadToDirectory.java) dan [lakukan pengujian](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/test/java/TransferManagerTest.java).  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.services.s3.model.ObjectIdentifier;
import software.amazon.awssdk.transfer.s3.S3TransferManager;
import software.amazon.awssdk.transfer.s3.model.CompletedDirectoryDownload;
import software.amazon.awssdk.transfer.s3.model.DirectoryDownload;
import software.amazon.awssdk.transfer.s3.model.DownloadDirectoryRequest;
import java.io.IOException;
import java.net.URI;
import java.net.URISyntaxException;
import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.HashSet;
import java.util.Set;
import java.util.UUID;
import java.util.stream.Collectors;

    public Integer downloadObjectsToDirectory(S3TransferManager transferManager,
            URI destinationPathURI, String bucketName) {
        DirectoryDownload directoryDownload = transferManager.downloadDirectory(DownloadDirectoryRequest.builder()
                .destination(Paths.get(destinationPathURI))
                .bucket(bucketName)
                .build());
        CompletedDirectoryDownload completedDirectoryDownload = directoryDownload.completionFuture().join();

        completedDirectoryDownload.failedTransfers()
                .forEach(fail -> logger.warn("Object [{}] failed to transfer", fail.toString()));
        return completedDirectoryDownload.failedTransfers().size();
    }
```
+  Untuk detail API, lihat [DownloadDirectory](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DownloadDirectory)di *Referensi AWS SDK for Java 2.x API*. 

### Kunci objek Amazon S3
<a name="s3_Scenario_ObjectLock_java_2_topic"></a>

Contoh kode berikut menunjukkan cara bekerja dengan fitur kunci objek S3.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/lockscenario#code-examples). 
Jalankan skenario interaktif yang mendemonstrasikan fitur kunci objek Amazon S3.  

```
import software.amazon.awssdk.services.s3.model.ObjectLockLegalHold;
import software.amazon.awssdk.services.s3.model.ObjectLockRetention;
import java.io.BufferedWriter;
import java.io.IOException;
import java.util.ArrayList;
import java.util.List;
import java.util.Scanner;
import java.util.stream.Collectors;

/*
 Before running this Java V2 code example, set up your development
 environment, including your credentials.

 For more information, see the following documentation topic:
 https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/setup.html

 This Java example performs the following tasks:
    1. Create test Amazon Simple Storage Service (S3) buckets with different lock policies.
    2. Upload sample objects to each bucket.
    3. Set some Legal Hold and Retention Periods on objects and buckets.
    4. Investigate lock policies by viewing settings or attempting to delete or overwrite objects.
    5. Clean up objects and buckets.
 */
public class S3ObjectLockWorkflow {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    static String bucketName;
    static S3LockActions s3LockActions;
    private static final List<String> bucketNames = new ArrayList<>();
    private static final List<String> fileNames = new ArrayList<>();

    public static void main(String[] args) {
        final String usage = """
            Usage:
                <bucketName> \s

            Where:
                bucketName - The Amazon S3 bucket name. 
           """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }
        s3LockActions = new S3LockActions();
        bucketName = args[0];
        Scanner scanner = new Scanner(System.in);

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon Simple Storage Service (S3) Object Locking Feature Scenario.");
        System.out.println("Press Enter to continue...");
        scanner.nextLine();
        configurationSetup();
        System.out.println(DASHES);

        System.out.println(DASHES);
        setup();
        System.out.println("Setup is complete. Press Enter to continue...");
        scanner.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Lets present the user with choices.");
        System.out.println("Press Enter to continue...");
        scanner.nextLine();
        demoActionChoices() ;
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Would you like to clean up the resources? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            cleanup();
            System.out.println("Clean up is complete.");
        }

        System.out.println("Press Enter to continue...");
        scanner.nextLine();
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Amazon S3 Object Locking Workflow is complete.");
        System.out.println(DASHES);
    }

    // Present the user with the demo action choices.
    public static void demoActionChoices() {
        String[] choices = {
            "List all files in buckets.",
            "Attempt to delete a file.",
            "Attempt to delete a file with retention period bypass.",
            "Attempt to overwrite a file.",
            "View the object and bucket retention settings for a file.",
            "View the legal hold settings for a file.",
            "Finish the workflow."
        };

        int choice = 0;
        while (true) {
            System.out.println(DASHES);
            choice = getChoiceResponse("Explore the S3 locking features by selecting one of the following choices:", choices);
            System.out.println(DASHES);
            System.out.println("You selected "+choices[choice]);
            switch (choice) {
                case 0 -> {
                    s3LockActions.listBucketsAndObjects(bucketNames, true);
                }

                case 1 -> {
                    System.out.println("Enter the number of the object to delete:");
                    List<S3InfoObject> allFiles = s3LockActions.listBucketsAndObjects(bucketNames, true);
                    List<String> fileKeys = allFiles.stream().map(f -> f.getKeyName()).collect(Collectors.toList());
                    String[] fileKeysArray = fileKeys.toArray(new String[0]);
                    int fileChoice = getChoiceResponse(null, fileKeysArray);
                    String objectKey = fileKeys.get(fileChoice);
                    String bucketName = allFiles.get(fileChoice).getBucketName();
                    String version = allFiles.get(fileChoice).getVersion();
                    s3LockActions.deleteObjectFromBucket(bucketName, objectKey, false, version);
                }

                case 2 -> {
                    System.out.println("Enter the number of the object to delete:");
                    List<S3InfoObject> allFiles = s3LockActions.listBucketsAndObjects(bucketNames, true);
                    List<String> fileKeys = allFiles.stream().map(f -> f.getKeyName()).collect(Collectors.toList());
                    String[] fileKeysArray = fileKeys.toArray(new String[0]);
                    int fileChoice = getChoiceResponse(null, fileKeysArray);
                    String objectKey = fileKeys.get(fileChoice);
                    String bucketName = allFiles.get(fileChoice).getBucketName();
                    String version = allFiles.get(fileChoice).getVersion();
                    s3LockActions.deleteObjectFromBucket(bucketName, objectKey, true, version);
                }

                case 3 -> {
                    System.out.println("Enter the number of the object to overwrite:");
                    List<S3InfoObject> allFiles = s3LockActions.listBucketsAndObjects(bucketNames, true);
                    List<String> fileKeys = allFiles.stream().map(f -> f.getKeyName()).collect(Collectors.toList());
                    String[] fileKeysArray = fileKeys.toArray(new String[0]);
                    int fileChoice = getChoiceResponse(null, fileKeysArray);
                    String objectKey = fileKeys.get(fileChoice);
                    String bucketName = allFiles.get(fileChoice).getBucketName();

                    // Attempt to overwrite the file.
                    try (BufferedWriter writer = new BufferedWriter(new java.io.FileWriter(objectKey))) {
                        writer.write("This is a modified text.");

                    } catch (IOException e) {
                        e.printStackTrace();
                    }
                    s3LockActions.uploadFile(bucketName, objectKey, objectKey);
                }

                case 4 -> {
                    System.out.println("Enter the number of the object to overwrite:");
                    List<S3InfoObject> allFiles = s3LockActions.listBucketsAndObjects(bucketNames, true);
                    List<String> fileKeys = allFiles.stream().map(f -> f.getKeyName()).collect(Collectors.toList());
                    String[] fileKeysArray = fileKeys.toArray(new String[0]);
                    int fileChoice = getChoiceResponse(null, fileKeysArray);
                    String objectKey = fileKeys.get(fileChoice);
                    String bucketName = allFiles.get(fileChoice).getBucketName();
                    s3LockActions.getObjectRetention(bucketName, objectKey);
                }

                case 5 -> {
                    System.out.println("Enter the number of the object to view:");
                    List<S3InfoObject> allFiles = s3LockActions.listBucketsAndObjects(bucketNames, true);
                    List<String> fileKeys = allFiles.stream().map(f -> f.getKeyName()).collect(Collectors.toList());
                    String[] fileKeysArray = fileKeys.toArray(new String[0]);
                    int fileChoice = getChoiceResponse(null, fileKeysArray);
                    String objectKey = fileKeys.get(fileChoice);
                    String bucketName = allFiles.get(fileChoice).getBucketName();
                    s3LockActions.getObjectLegalHold(bucketName, objectKey);
                    s3LockActions.getBucketObjectLockConfiguration(bucketName);
                }

                case 6 -> {
                    System.out.println("Exiting the workflow...");
                    return;
                }

                default -> {
                    System.out.println("Invalid choice. Please select again.");
                }
            }
        }
    }

    // Clean up the resources from the scenario.
    private static void cleanup() {
        List<S3InfoObject> allFiles = s3LockActions.listBucketsAndObjects(bucketNames, false);
        for (S3InfoObject fileInfo : allFiles) {
            String bucketName = fileInfo.getBucketName();
            String key = fileInfo.getKeyName();
            String version = fileInfo.getVersion();
            if (bucketName.contains("lock-enabled") || (bucketName.contains("retention-after-creation"))) {
                ObjectLockLegalHold legalHold = s3LockActions.getObjectLegalHold(bucketName, key);
                if (legalHold != null) {
                    String holdStatus = legalHold.status().name();
                    System.out.println(holdStatus);
                    if (holdStatus.compareTo("ON") == 0) {
                        s3LockActions.modifyObjectLegalHold(bucketName, key, false);
                    }
                }
                // Check for a retention period.
                ObjectLockRetention retention = s3LockActions.getObjectRetention(bucketName, key);
                boolean hasRetentionPeriod ;
                hasRetentionPeriod = retention != null;
                s3LockActions.deleteObjectFromBucket(bucketName, key,hasRetentionPeriod, version);

            } else {
                System.out.println(bucketName +" objects do not have a legal lock");
                s3LockActions.deleteObjectFromBucket(bucketName, key,false, version);
            }
        }

        // Delete the buckets.
        System.out.println("Delete "+bucketName);
        for (String bucket : bucketNames){
            s3LockActions.deleteBucketByName(bucket);
        }
    }

    private static void setup() {
        Scanner scanner = new Scanner(System.in);
        System.out.println("""
                For this workflow, we will use the AWS SDK for Java to create several S3
                buckets and files to demonstrate working with S3 locking features.
                """);

        System.out.println("S3 buckets can be created either with or without object lock enabled.");
        System.out.println("Press Enter to continue...");
        scanner.nextLine();

        // Create three S3 buckets.
        s3LockActions.createBucketWithLockOptions(false, bucketNames.get(0));
        s3LockActions.createBucketWithLockOptions(true, bucketNames.get(1));
        s3LockActions.createBucketWithLockOptions(false, bucketNames.get(2));
        System.out.println("Press Enter to continue.");
        scanner.nextLine();

        System.out.println("Bucket "+bucketNames.get(2) +" will be configured to use object locking with a default retention period.");
        s3LockActions.modifyBucketDefaultRetention(bucketNames.get(2));
        System.out.println("Press Enter to continue.");
        scanner.nextLine();

        System.out.println("Object lock policies can also be added to existing buckets. For this example, we will use "+bucketNames.get(1));
        s3LockActions.enableObjectLockOnBucket(bucketNames.get(1));
        System.out.println("Press Enter to continue.");
        scanner.nextLine();

        // Upload some files to the buckets.
        System.out.println("Now let's add some test files:");
        String fileName = "exampleFile.txt";
        int fileCount = 2;
        try (BufferedWriter writer = new BufferedWriter(new java.io.FileWriter(fileName))) {
            writer.write("This is a sample file for uploading to a bucket.");

        } catch (IOException e) {
            e.printStackTrace();
        }

        for (String bucketName : bucketNames){
            for (int i = 0; i < fileCount; i++) {
                // Get the file name without extension.
                String fileNameWithoutExtension = java.nio.file.Paths.get(fileName).getFileName().toString();
                int extensionIndex = fileNameWithoutExtension.lastIndexOf('.');
                if (extensionIndex > 0) {
                    fileNameWithoutExtension = fileNameWithoutExtension.substring(0, extensionIndex);
                }

                // Create the numbered file names.
                String numberedFileName = fileNameWithoutExtension + i + getFileExtension(fileName);
                fileNames.add(numberedFileName);
                s3LockActions.uploadFile(bucketName, numberedFileName, fileName);
            }
        }

        String question = null;
        System.out.print("Press Enter to continue...");
        scanner.nextLine();
        System.out.println("Now we can set some object lock policies on individual files:");
        for (String bucketName : bucketNames) {
            for (int i = 0; i < fileNames.size(); i++){

                // No modifications to the objects in the first bucket.
                if (!bucketName.equals(bucketNames.get(0))) {
                    String exampleFileName = fileNames.get(i);
                    switch (i) {
                        case 0 -> {
                            question = "Would you like to add a legal hold to " + exampleFileName + " in " + bucketName + " (y/n)?";
                            System.out.println(question);
                            String ans = scanner.nextLine().trim();
                            if (ans.equalsIgnoreCase("y")) {
                                System.out.println("**** You have selected to put a legal hold " + exampleFileName);

                                // Set a legal hold.
                                s3LockActions.modifyObjectLegalHold(bucketName, exampleFileName, true);
                            }
                        }
                        case 1 -> {
                            """
                                Would you like to add a 1 day Governance retention period to %s in %s (y/n)?
                                Reminder: Only a user with the s3:BypassGovernanceRetention permission will be able to delete this file or its bucket until the retention period has expired.
                                """.formatted(exampleFileName, bucketName);
                            System.out.println(question);
                            String ans2 = scanner.nextLine().trim();
                            if (ans2.equalsIgnoreCase("y")) {
                                s3LockActions.modifyObjectRetentionPeriod(bucketName, exampleFileName);
                            }
                        }
                    }
                }
            }
        }
    }

    // Get file extension.
    private static String getFileExtension(String fileName) {
        int dotIndex = fileName.lastIndexOf('.');
        if (dotIndex > 0) {
            return fileName.substring(dotIndex);
        }
        return "";
    }

    public static void configurationSetup() {
        String noLockBucketName = bucketName + "-no-lock";
        String lockEnabledBucketName = bucketName + "-lock-enabled";
        String retentionAfterCreationBucketName = bucketName + "-retention-after-creation";
        bucketNames.add(noLockBucketName);
        bucketNames.add(lockEnabledBucketName);
        bucketNames.add(retentionAfterCreationBucketName);
    }

    public static int getChoiceResponse(String question, String[] choices) {
        Scanner scanner = new Scanner(System.in);
        if (question != null) {
            System.out.println(question);
            for (int i = 0; i < choices.length; i++) {
                System.out.println("\t" + (i + 1) + ". " + choices[i]);
            }
        }

        int choiceNumber = 0;
        while (choiceNumber < 1 || choiceNumber > choices.length) {
            String choice = scanner.nextLine();
            try {
                choiceNumber = Integer.parseInt(choice);
            } catch (NumberFormatException e) {
                System.out.println("Invalid choice. Please enter a valid number.");
            }
        }

        return choiceNumber - 1;
    }
}
```
Kelas pembungkus untuk fungsi S3.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.BucketVersioningStatus;
import software.amazon.awssdk.services.s3.model.ChecksumAlgorithm;
import software.amazon.awssdk.services.s3.model.CreateBucketRequest;
import software.amazon.awssdk.services.s3.model.DefaultRetention;
import software.amazon.awssdk.services.s3.model.DeleteBucketRequest;
import software.amazon.awssdk.services.s3.model.DeleteObjectRequest;
import software.amazon.awssdk.services.s3.model.GetObjectLegalHoldRequest;
import software.amazon.awssdk.services.s3.model.GetObjectLegalHoldResponse;
import software.amazon.awssdk.services.s3.model.GetObjectLockConfigurationRequest;
import software.amazon.awssdk.services.s3.model.GetObjectLockConfigurationResponse;
import software.amazon.awssdk.services.s3.model.GetObjectRetentionRequest;
import software.amazon.awssdk.services.s3.model.GetObjectRetentionResponse;
import software.amazon.awssdk.services.s3.model.HeadBucketRequest;
import software.amazon.awssdk.services.s3.model.ListObjectVersionsRequest;
import software.amazon.awssdk.services.s3.model.ListObjectVersionsResponse;
import software.amazon.awssdk.services.s3.model.MFADelete;
import software.amazon.awssdk.services.s3.model.ObjectLockConfiguration;
import software.amazon.awssdk.services.s3.model.ObjectLockEnabled;
import software.amazon.awssdk.services.s3.model.ObjectLockLegalHold;
import software.amazon.awssdk.services.s3.model.ObjectLockLegalHoldStatus;
import software.amazon.awssdk.services.s3.model.ObjectLockRetention;
import software.amazon.awssdk.services.s3.model.ObjectLockRetentionMode;
import software.amazon.awssdk.services.s3.model.ObjectLockRule;
import software.amazon.awssdk.services.s3.model.PutBucketVersioningRequest;
import software.amazon.awssdk.services.s3.model.PutObjectLegalHoldRequest;
import software.amazon.awssdk.services.s3.model.PutObjectLockConfigurationRequest;
import software.amazon.awssdk.services.s3.model.PutObjectRequest;
import software.amazon.awssdk.services.s3.model.PutObjectResponse;
import software.amazon.awssdk.services.s3.model.PutObjectRetentionRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.VersioningConfiguration;
import software.amazon.awssdk.services.s3.waiters.S3Waiter;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.time.Instant;
import java.time.ZoneId;
import java.time.ZonedDateTime;
import java.time.format.DateTimeFormatter;
import java.time.temporal.ChronoUnit;
import java.util.List;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.stream.Collectors;

// Contains application logic for the Amazon S3 operations used in this workflow.
public class S3LockActions {

    private static S3Client getClient() {
        return S3Client.builder()
            .region(Region.US_EAST_1)
            .build();
    }

    // Set or modify a retention period on an object in an S3 bucket.
    public void modifyObjectRetentionPeriod(String bucketName, String objectKey) {
        // Calculate the instant one day from now.
        Instant futureInstant = Instant.now().plus(1, ChronoUnit.DAYS);

        // Convert the Instant to a ZonedDateTime object with a specific time zone.
        ZonedDateTime zonedDateTime = futureInstant.atZone(ZoneId.systemDefault());

        // Define a formatter for human-readable output.
        DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss");

        // Format the ZonedDateTime object to a human-readable date string.
        String humanReadableDate = formatter.format(zonedDateTime);

        // Print the formatted date string.
        System.out.println("Formatted Date: " + humanReadableDate);
        ObjectLockRetention retention = ObjectLockRetention.builder()
            .mode(ObjectLockRetentionMode.GOVERNANCE)
            .retainUntilDate(futureInstant)
            .build();

        PutObjectRetentionRequest retentionRequest = PutObjectRetentionRequest.builder()
            .bucket(bucketName)
            .key(objectKey)
            .retention(retention)
            .build();

        getClient().putObjectRetention(retentionRequest);
        System.out.println("Set retention for "+objectKey +" in " +bucketName +" until "+ humanReadableDate +".");
    }

    // Get the legal hold details for an S3 object.
    public ObjectLockLegalHold getObjectLegalHold(String bucketName, String objectKey) {
        try {
            GetObjectLegalHoldRequest legalHoldRequest = GetObjectLegalHoldRequest.builder()
                .bucket(bucketName)
                .key(objectKey)
                .build();

            GetObjectLegalHoldResponse response = getClient().getObjectLegalHold(legalHoldRequest);
            System.out.println("Object legal hold for " + objectKey + " in " + bucketName +
                ":\n\tStatus: " + response.legalHold().status());
            return response.legalHold();

        } catch (S3Exception ex) {
            System.out.println("\tUnable to fetch legal hold: '" + ex.getMessage() + "'");
        }

        return null;
    }

    // Create a new Amazon S3 bucket with object lock options.
    public void createBucketWithLockOptions(boolean enableObjectLock, String bucketName) {
        S3Waiter s3Waiter = getClient().waiter();
        CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
            .bucket(bucketName)
            .objectLockEnabledForBucket(enableObjectLock)
            .build();

        getClient().createBucket(bucketRequest);
        HeadBucketRequest bucketRequestWait = HeadBucketRequest.builder()
            .bucket(bucketName)
            .build();

        // Wait until the bucket is created and print out the response.
        s3Waiter.waitUntilBucketExists(bucketRequestWait);
        System.out.println(bucketName + " is ready");
    }

    public List<S3InfoObject> listBucketsAndObjects(List<String> bucketNames, Boolean interactive) {
        AtomicInteger counter = new AtomicInteger(0); // Initialize counter.
        return bucketNames.stream()
            .flatMap(bucketName -> listBucketObjectsAndVersions(bucketName).versions().stream()
                .map(version -> {
                    S3InfoObject s3InfoObject = new S3InfoObject();
                    s3InfoObject.setBucketName(bucketName);
                    s3InfoObject.setVersion(version.versionId());
                    s3InfoObject.setKeyName(version.key());
                    return s3InfoObject;
                }))
            .peek(s3InfoObject -> {
                int i = counter.incrementAndGet(); // Increment and get the updated value.
                if (interactive) {
                    System.out.println(i + ": "+ s3InfoObject.getKeyName());
                    System.out.printf("%5s Bucket name: %s\n", "", s3InfoObject.getBucketName());
                    System.out.printf("%5s Version: %s\n", "", s3InfoObject.getVersion());
                }
            })
            .collect(Collectors.toList());
    }

    public ListObjectVersionsResponse listBucketObjectsAndVersions(String bucketName) {
        ListObjectVersionsRequest versionsRequest = ListObjectVersionsRequest.builder()
            .bucket(bucketName)
            .build();

        return getClient().listObjectVersions(versionsRequest);
    }

    // Set or modify a retention period on an S3 bucket.
    public void modifyBucketDefaultRetention(String bucketName) {
        VersioningConfiguration versioningConfiguration = VersioningConfiguration.builder()
            .mfaDelete(MFADelete.DISABLED)
            .status(BucketVersioningStatus.ENABLED)
            .build();

        PutBucketVersioningRequest versioningRequest = PutBucketVersioningRequest.builder()
            .bucket(bucketName)
            .versioningConfiguration(versioningConfiguration)
            .build();

        getClient().putBucketVersioning(versioningRequest);
        DefaultRetention rention = DefaultRetention.builder()
            .days(1)
            .mode(ObjectLockRetentionMode.GOVERNANCE)
            .build();

        ObjectLockRule lockRule = ObjectLockRule.builder()
            .defaultRetention(rention)
            .build();

        ObjectLockConfiguration objectLockConfiguration = ObjectLockConfiguration.builder()
            .objectLockEnabled(ObjectLockEnabled.ENABLED)
            .rule(lockRule)
            .build();

        PutObjectLockConfigurationRequest putObjectLockConfigurationRequest = PutObjectLockConfigurationRequest.builder()
            .bucket(bucketName)
            .objectLockConfiguration(objectLockConfiguration)
            .build();

        getClient().putObjectLockConfiguration(putObjectLockConfigurationRequest) ;
        System.out.println("Added a default retention to bucket "+bucketName +".");
    }

    // Enable object lock on an existing bucket.
    public void enableObjectLockOnBucket(String bucketName) {
        try {
            VersioningConfiguration versioningConfiguration = VersioningConfiguration.builder()
                .status(BucketVersioningStatus.ENABLED)
                .build();

            PutBucketVersioningRequest putBucketVersioningRequest = PutBucketVersioningRequest.builder()
                .bucket(bucketName)
                .versioningConfiguration(versioningConfiguration)
                .build();

            // Enable versioning on the bucket.
            getClient().putBucketVersioning(putBucketVersioningRequest);
            PutObjectLockConfigurationRequest request = PutObjectLockConfigurationRequest.builder()
                .bucket(bucketName)
                .objectLockConfiguration(ObjectLockConfiguration.builder()
                    .objectLockEnabled(ObjectLockEnabled.ENABLED)
                    .build())
                .build();

            getClient().putObjectLockConfiguration(request);
            System.out.println("Successfully enabled object lock on "+bucketName);

        } catch (S3Exception ex) {
            System.out.println("Error modifying object lock: '" + ex.getMessage() + "'");
        }
    }

    public void uploadFile(String bucketName, String objectName, String filePath) {
        Path file = Paths.get(filePath);
        PutObjectRequest request = PutObjectRequest.builder()
            .bucket(bucketName)
            .key(objectName)
            .checksumAlgorithm(ChecksumAlgorithm.SHA256)
            .build();

        PutObjectResponse response = getClient().putObject(request, file);
        if (response != null) {
            System.out.println("\tSuccessfully uploaded " + objectName + " to " + bucketName + ".");
        } else {
            System.out.println("\tCould not upload " + objectName + " to " + bucketName + ".");
        }
    }

    // Set or modify a legal hold on an object in an S3 bucket.
    public void modifyObjectLegalHold(String bucketName, String objectKey, boolean legalHoldOn) {
        ObjectLockLegalHold legalHold ;
        if (legalHoldOn) {
            legalHold = ObjectLockLegalHold.builder()
                .status(ObjectLockLegalHoldStatus.ON)
                .build();
        } else {
            legalHold = ObjectLockLegalHold.builder()
                .status(ObjectLockLegalHoldStatus.OFF)
                .build();
        }

        PutObjectLegalHoldRequest legalHoldRequest = PutObjectLegalHoldRequest.builder()
            .bucket(bucketName)
            .key(objectKey)
            .legalHold(legalHold)
            .build();

        getClient().putObjectLegalHold(legalHoldRequest) ;
        System.out.println("Modified legal hold for "+ objectKey +" in "+bucketName +".");
    }

    // Delete an object from a specific bucket.
    public void deleteObjectFromBucket(String bucketName, String objectKey, boolean hasRetention, String versionId) {
        try {
            DeleteObjectRequest objectRequest;
            if (hasRetention) {
                objectRequest = DeleteObjectRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .versionId(versionId)
                    .bypassGovernanceRetention(true)
                    .build();
            } else {
                objectRequest = DeleteObjectRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .versionId(versionId)
                    .build();
            }

            getClient().deleteObject(objectRequest) ;
            System.out.println("The object was successfully deleted");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
    }

    // Get the retention period for an S3 object.
    public ObjectLockRetention getObjectRetention(String bucketName, String key){
        try {
            GetObjectRetentionRequest retentionRequest = GetObjectRetentionRequest.builder()
                .bucket(bucketName)
                .key(key)
                .build();

            GetObjectRetentionResponse response = getClient().getObjectRetention(retentionRequest);
            System.out.println("tObject retention for "+key +" in "+ bucketName +": " + response.retention().mode() +" until "+ response.retention().retainUntilDate() +".");
            return response.retention();

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            return null;
        }
    }

    public void deleteBucketByName(String bucketName) {
        try {
            DeleteBucketRequest request = DeleteBucketRequest.builder()
                .bucket(bucketName)
                .build();

            getClient().deleteBucket(request);
            System.out.println(bucketName +" was deleted.");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
    }

    // Get the object lock configuration details for an S3 bucket.
    public void getBucketObjectLockConfiguration(String bucketName) {
        GetObjectLockConfigurationRequest objectLockConfigurationRequest = GetObjectLockConfigurationRequest.builder()
            .bucket(bucketName)
            .build();

        GetObjectLockConfigurationResponse response = getClient().getObjectLockConfiguration(objectLockConfigurationRequest);
        System.out.println("Bucket object lock config for "+bucketName +":  ");
        System.out.println("\tEnabled: "+response.objectLockConfiguration().objectLockEnabled());
        System.out.println("\tRule: "+ response.objectLockConfiguration().rule().defaultRetention());
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [GetObjectLegalHold](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObjectLegalHold)
  + [GetObjectLockConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObjectLockConfiguration)
  + [GetObjectRetention](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObjectRetention)
  + [PutObjectLegalHold](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObjectLegalHold)
  + [PutObjectLockConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObjectLockConfiguration)
  + [PutObjectRetention](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObjectRetention)

### Kelola pesan besar menggunakan S3
<a name="sqs_Scenario_SqsExtendedClient_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Amazon SQS Extended Client Library untuk bekerja dengan pesan Amazon SQS besar.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
import com.amazon.sqs.javamessaging.AmazonSQSExtendedClient;
import com.amazon.sqs.javamessaging.ExtendedClientConfiguration;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.joda.time.DateTime;
import org.joda.time.format.DateTimeFormat;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.BucketLifecycleConfiguration;
import software.amazon.awssdk.services.s3.model.CreateBucketRequest;
import software.amazon.awssdk.services.s3.model.DeleteBucketRequest;
import software.amazon.awssdk.services.s3.model.DeleteObjectRequest;
import software.amazon.awssdk.services.s3.model.ExpirationStatus;
import software.amazon.awssdk.services.s3.model.LifecycleExpiration;
import software.amazon.awssdk.services.s3.model.LifecycleRule;
import software.amazon.awssdk.services.s3.model.LifecycleRuleFilter;
import software.amazon.awssdk.services.s3.model.ListObjectVersionsRequest;
import software.amazon.awssdk.services.s3.model.ListObjectVersionsResponse;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Request;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Response;
import software.amazon.awssdk.services.s3.model.PutBucketLifecycleConfigurationRequest;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.CreateQueueRequest;
import software.amazon.awssdk.services.sqs.model.CreateQueueResponse;
import software.amazon.awssdk.services.sqs.model.DeleteMessageRequest;
import software.amazon.awssdk.services.sqs.model.DeleteQueueRequest;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageResponse;
import software.amazon.awssdk.services.sqs.model.SendMessageRequest;

import java.util.Arrays;
import java.util.List;
import java.util.UUID;

/**
 * Example of using Amazon SQS Extended Client Library for Java 2.x.
 */
public class SqsExtendedClientExample {
    private static final Logger logger = LoggerFactory.getLogger(SqsExtendedClientExample.class);
    
    private String s3BucketName;
    private String queueUrl;
    private final String queueName;
    private final S3Client s3Client;
    private final SqsClient sqsExtendedClient;
    private final int messageSize;

    /**
     * Constructor with default clients and message size.
     */
    public SqsExtendedClientExample() {
        this(S3Client.create(), 300000);
    }

    /**
     * Constructor with custom S3 client and message size.
     *
     * @param s3Client The S3 client to use
     * @param messageSize The size of the test message to create
     */
    public SqsExtendedClientExample(S3Client s3Client, int messageSize) {
        this.s3Client = s3Client;
        this.messageSize = messageSize;

        // Generate a unique bucket name.
        this.s3BucketName = UUID.randomUUID() + "-" +
                DateTimeFormat.forPattern("yyMMdd-hhmmss").print(new DateTime());

        // Generate a unique queue name.
        this.queueName = "MyQueue-" + UUID.randomUUID();

        // Configure the SQS extended client.
        final ExtendedClientConfiguration extendedClientConfig = new ExtendedClientConfiguration()
                .withPayloadSupportEnabled(s3Client, s3BucketName);

        this.sqsExtendedClient = new AmazonSQSExtendedClient(SqsClient.builder().build(), extendedClientConfig);
    }

    public static void main(String[] args) {
        SqsExtendedClientExample example = new SqsExtendedClientExample();
        try {
            example.setup();
            example.sendAndReceiveMessage();
        } finally {
            example.cleanup();
        }
    }

    /**
     * Send a large message and receive it back.
     *
     * @return The received message
     */
    public Message sendAndReceiveMessage() {
        try {
            // Create a large message.
            char[] chars = new char[messageSize];
            Arrays.fill(chars, 'x');
            String largeMessage = new String(chars);

            // Send the message.
            final SendMessageRequest sendMessageRequest = SendMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .messageBody(largeMessage)
                    .build();

            sqsExtendedClient.sendMessage(sendMessageRequest);
            logger.info("Sent message of size: {}", largeMessage.length());

            // Receive and return the message.
            final ReceiveMessageResponse receiveMessageResponse = sqsExtendedClient.receiveMessage(
                    ReceiveMessageRequest.builder().queueUrl(queueUrl).build());

            List<Message> messages = receiveMessageResponse.messages();
            if (messages.isEmpty()) {
                throw new RuntimeException("No messages received");
            }

            Message message = messages.getFirst();
            logger.info("\nMessage received.");
            logger.info("  ID: {}", message.messageId());
            logger.info("  Receipt handle: {}", message.receiptHandle());
            logger.info("  Message body size: {}", message.body().length());
            logger.info("  Message body (first 5 characters): {}", message.body().substring(0, 5));

            return message;
        } catch (RuntimeException e) {
            logger.error("Error during message processing: {}", e.getMessage(), e);
            throw e;
        }
    }
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK for Java 2.x](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-s3-messages.html). 
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateBucket)
  + [PutBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketLifecycleConfiguration)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ReceiveMessage)
  + [SendMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SendMessage)

### Mengurai URIs
<a name="s3_Scenario_URIParsing_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengurai Amazon URIs S3 untuk mengekstrak komponen penting seperti nama bucket dan kunci objek.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Mengurai Amazon S3 URI dengan menggunakan kelas [S3Uri](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Uri.html).  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.S3Uri;
import software.amazon.awssdk.services.s3.S3Utilities;

import java.net.URI;
import java.util.List;
import java.util.Map;

    /**
     *
     * @param s3Client    - An S3Client through which you acquire an S3Uri instance.
     * @param s3ObjectUrl - A complex URL (String) that is used to demonstrate S3Uri
     *                    capabilities.
     */
    public static void parseS3UriExample(S3Client s3Client, String s3ObjectUrl) {
        logger.info(s3ObjectUrl);
        // Console output:
        // 'https://s3.us-west-1.amazonaws.com/myBucket/resources/doc.txt?versionId=abc123&partNumber=77&partNumber=88'.

        // Create an S3Utilities object using the configuration of the s3Client.
        S3Utilities s3Utilities = s3Client.utilities();

        // From a String URL create a URI object to pass to the parseUri() method.
        URI uri = URI.create(s3ObjectUrl);
        S3Uri s3Uri = s3Utilities.parseUri(uri);

        // If the URI contains no value for the Region, bucket or key, the SDK returns
        // an empty Optional.
        // The SDK returns decoded URI values.

        Region region = s3Uri.region().orElse(null);
        log("region", region);
        // Console output: 'region: us-west-1'.

        String bucket = s3Uri.bucket().orElse(null);
        log("bucket", bucket);
        // Console output: 'bucket: myBucket'.

        String key = s3Uri.key().orElse(null);
        log("key", key);
        // Console output: 'key: resources/doc.txt'.

        Boolean isPathStyle = s3Uri.isPathStyle();
        log("isPathStyle", isPathStyle);
        // Console output: 'isPathStyle: true'.

        // If the URI contains no query parameters, the SDK returns an empty map.
        Map<String, List<String>> queryParams = s3Uri.rawQueryParameters();
        log("rawQueryParameters", queryParams);
        // Console output: 'rawQueryParameters: {versionId=[abc123], partNumber=[77,
        // 88]}'.

        // Retrieve the first or all values for a query parameter as shown in the
        // following code.
        String versionId = s3Uri.firstMatchingRawQueryParameter("versionId").orElse(null);
        log("firstMatchingRawQueryParameter-versionId", versionId);
        // Console output: 'firstMatchingRawQueryParameter-versionId: abc123'.

        String partNumber = s3Uri.firstMatchingRawQueryParameter("partNumber").orElse(null);
        log("firstMatchingRawQueryParameter-partNumber", partNumber);
        // Console output: 'firstMatchingRawQueryParameter-partNumber: 77'.

        List<String> partNumbers = s3Uri.firstMatchingRawQueryParameters("partNumber");
        log("firstMatchingRawQueryParameter", partNumbers);
        // Console output: 'firstMatchingRawQueryParameter: [77, 88]'.

        /*
         * Object keys and query parameters with reserved or unsafe characters, must be
         * URL-encoded.
         * For example replace whitespace " " with "%20".
         * Valid:
         * "https://s3.us-west-1.amazonaws.com/myBucket/object%20key?query=%5Bbrackets%5D"
         * Invalid:
         * "https://s3.us-west-1.amazonaws.com/myBucket/object key?query=[brackets]"
         * 
         * Virtual-hosted-style URIs with bucket names that contain a dot, ".", the dot
         * must not be URL-encoded.
         * Valid: "https://my.Bucket.s3.us-west-1.amazonaws.com/key"
         * Invalid: "https://my%2EBucket.s3.us-west-1.amazonaws.com/key"
         */
    }

    private static void log(String s3UriElement, Object element) {
        if (element == null) {
            logger.info("{}: {}", s3UriElement, "null");
        } else {
            logger.info("{}: {}", s3UriElement, element);
        }
    }
```

### Memproses pemberitahuan acara S3
<a name="s3_Scenario_ProcessS3EventNotification_java_2_topic"></a>

Contoh kode berikut menunjukkan cara bekerja dengan pemberitahuan acara S3 dengan cara berorientasi objek.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Contoh ini menunjukkan cara memproses acara notifikasi S3 dengan menggunakan Amazon SQS.  

```
    /**
     * This method receives S3 event notifications by using an SqsAsyncClient.
     * After the client receives the messages it deserializes the JSON payload and logs them. It uses
     * the S3EventNotification class (part of the S3 event notification API for Java) to deserialize
     * the JSON payload and access the messages in an object-oriented way.
     *
     * @param queueUrl The URL of the AWS SQS queue that receives the S3 event notifications.
     * @see <a href="https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/eventnotifications/s3/model/package-summary.html">S3EventNotification API</a>.
     * <p>
     * To use S3 event notification serialization/deserialization to objects, add the following
     * dependency to your Maven pom.xml file.
     * <dependency>
     * <groupId>software.amazon.awssdk</groupId>
     * <artifactId>s3-event-notifications</artifactId>
     * <version><LATEST></version>
     * </dependency>
     * <p>
     * The S3 event notification API became available with version 2.25.11 of the Java SDK.
     * <p>
     * This example shows the use of the API with AWS SQS, but it can be used to process S3 event notifications
     * in AWS SNS or AWS Lambda as well.
     * <p>
     * Note: The S3EventNotification class does not work with messages routed through AWS EventBridge.
     */
    static void processS3Events(String bucketName, String queueUrl, String queueArn) {
        try {
            // Configure the bucket to send Object Created and Object Tagging notifications to an existing SQS queue.
            s3Client.putBucketNotificationConfiguration(b -> b
                    .notificationConfiguration(ncb -> ncb
                            .queueConfigurations(qcb -> qcb
                                    .events(Event.S3_OBJECT_CREATED, Event.S3_OBJECT_TAGGING)
                                    .queueArn(queueArn)))
                            .bucket(bucketName)
            ).join();

            triggerS3EventNotifications(bucketName);
            // Wait for event notifications to propagate.
            Thread.sleep(Duration.ofSeconds(5).toMillis());

            boolean didReceiveMessages = true;
            while (didReceiveMessages) {
                // Display the number of messages that are available in the queue.
                sqsClient.getQueueAttributes(b -> b
                                .queueUrl(queueUrl)
                                .attributeNames(QueueAttributeName.APPROXIMATE_NUMBER_OF_MESSAGES)
                        ).thenAccept(attributeResponse ->
                                logger.info("Approximate number of messages in the queue: {}",
                                        attributeResponse.attributes().get(QueueAttributeName.APPROXIMATE_NUMBER_OF_MESSAGES)))
                        .join();

                // Receive the messages.
                ReceiveMessageResponse response = sqsClient.receiveMessage(b -> b
                        .queueUrl(queueUrl)
                ).get();
                logger.info("Count of received messages: {}", response.messages().size());
                didReceiveMessages = !response.messages().isEmpty();

                // Create a collection to hold the received message for deletion
                // after we log the messages.
                HashSet<DeleteMessageBatchRequestEntry> messagesToDelete = new HashSet<>();
                // Process each message.
                response.messages().forEach(message -> {
                    logger.info("Message id: {}", message.messageId());
                    // Deserialize JSON message body to a S3EventNotification object
                    // to access messages in an object-oriented way.
                    S3EventNotification event = S3EventNotification.fromJson(message.body());

                    // Log the S3 event notification record details.
                    if (event.getRecords() != null) {
                        event.getRecords().forEach(record -> {
                            String eventName = record.getEventName();
                            String key = record.getS3().getObject().getKey();
                            logger.info(record.toString());
                            logger.info("Event name is {} and key is {}", eventName, key);
                        });
                    }
                    // Add logged messages to collection for batch deletion.
                    messagesToDelete.add(DeleteMessageBatchRequestEntry.builder()
                            .id(message.messageId())
                            .receiptHandle(message.receiptHandle())
                            .build());
                });
                // Delete messages.
                if (!messagesToDelete.isEmpty()) {
                    sqsClient.deleteMessageBatch(DeleteMessageBatchRequest.builder()
                            .queueUrl(queueUrl)
                            .entries(messagesToDelete)
                            .build()
                    ).join();
                }
            } // End of while block.
        } catch (InterruptedException | ExecutionException e) {
            throw new RuntimeException(e);
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteMessageBatch)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/GetQueueAttributes)
  + [PutBucketNotificationConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketNotificationConfiguration)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ReceiveMessage)

### Kirim pemberitahuan acara ke EventBridge
<a name="s3_Scenario_PutBucketNotificationConfiguration_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengaktifkan bucket untuk mengirim notifikasi peristiwa S3 ke EventBridge dan merutekan notifikasi ke topik Amazon SNS dan antrean Amazon SQS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 

```
    /** This method configures a bucket to send events to AWS EventBridge and creates a rule
     * to route the S3 object created events to a topic and a queue.
     *
     * @param bucketName Name of existing bucket
     * @param topicArn ARN of existing topic to receive S3 event notifications
     * @param queueArn ARN of existing queue to receive S3 event notifications
     *
     *  An AWS CloudFormation stack sets up the bucket, queue, topic before the method runs.
     */
    public static String setBucketNotificationToEventBridge(String bucketName, String topicArn, String queueArn) {
        try {
            // Enable bucket to emit S3 Event notifications to EventBridge.
            s3Client.putBucketNotificationConfiguration(b -> b
                    .bucket(bucketName)
                    .notificationConfiguration(b1 -> b1
                            .eventBridgeConfiguration(
                                    SdkBuilder::build)
                    ).build()).join();

            // Create an EventBridge rule to route Object Created notifications.
            PutRuleRequest putRuleRequest = PutRuleRequest.builder()
                    .name(RULE_NAME)
                    .eventPattern("""
                            {
                              "source": ["aws.s3"],
                              "detail-type": ["Object Created"],
                              "detail": {
                                "bucket": {
                                  "name": ["%s"]
                                }
                              }
                            }
                            """.formatted(bucketName))
                    .build();

            // Add the rule to the default event bus.
            PutRuleResponse putRuleResponse = eventBridgeClient.putRule(putRuleRequest)
                    .whenComplete((r, t) -> {
                        if (t != null) {
                            logger.error("Error creating event bus rule: " + t.getMessage(), t);
                            throw new RuntimeException(t.getCause().getMessage(), t);
                        }
                        logger.info("Event bus rule creation request sent successfully. ARN is: {}", r.ruleArn());
                    }).join();

            // Add the existing SNS topic and SQS queue as targets to the rule.
            eventBridgeClient.putTargets(b -> b
                    .eventBusName("default")
                    .rule(RULE_NAME)
                    .targets(List.of (
                            Target.builder()
                                    .arn(queueArn)
                                    .id("Queue")
                                    .build(),
                            Target.builder()
                                    .arn(topicArn)
                                    .id("Topic")
                                    .build())
                            )
                    ).join();
            return putRuleResponse.ruleArn();
        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [PutBucketNotificationConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketNotificationConfiguration)
  + [PutRule](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutRule)
  + [PutTargets](https://docs.aws.amazon.com/goto/SdkForJavaV2/eventbridge-2015-10-07/PutTargets)

### Lacak unggahan dan unduhan
<a name="s3_Scenario_TrackUploadDownload_java_2_topic"></a>

Contoh kode berikut menunjukkan cara melacak unggahan atau unduhan objek Amazon S3.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Lacak kemajuan unggahan file.  

```
    public void trackUploadFile(S3TransferManager transferManager, String bucketName,
                             String key, URI filePathURI) {
        UploadFileRequest uploadFileRequest = UploadFileRequest.builder()
                .putObjectRequest(b -> b.bucket(bucketName).key(key))
                .addTransferListener(LoggingTransferListener.create())  // Add listener.
                .source(Paths.get(filePathURI))
                .build();

        FileUpload fileUpload = transferManager.uploadFile(uploadFileRequest);

        fileUpload.completionFuture().join();
        /*
            The SDK provides a LoggingTransferListener implementation of the TransferListener interface.
            You can also implement the interface to provide your own logic.

            Configure log4J2 with settings such as the following.
                <Configuration status="WARN">
                    <Appenders>
                        <Console name="AlignedConsoleAppender" target="SYSTEM_OUT">
                            <PatternLayout pattern="%m%n"/>
                        </Console>
                    </Appenders>

                    <Loggers>
                        <logger name="software.amazon.awssdk.transfer.s3.progress.LoggingTransferListener" level="INFO" additivity="false">
                            <AppenderRef ref="AlignedConsoleAppender"/>
                        </logger>
                    </Loggers>
                </Configuration>

            Log4J2 logs the progress. The following is example output for a 21.3 MB file upload.
                Transfer initiated...
                |                    | 0.0%
                |====                | 21.1%
                |============        | 60.5%
                |====================| 100.0%
                Transfer complete!
        */
    }
```
Lacak kemajuan unduhan file.  

```
    public void trackDownloadFile(S3TransferManager transferManager, String bucketName,
                             String key, String downloadedFileWithPath) {
        DownloadFileRequest downloadFileRequest = DownloadFileRequest.builder()
                .getObjectRequest(b -> b.bucket(bucketName).key(key))
                .addTransferListener(LoggingTransferListener.create())  // Add listener.
                .destination(Paths.get(downloadedFileWithPath))
                .build();

        FileDownload downloadFile = transferManager.downloadFile(downloadFileRequest);

        CompletedFileDownload downloadResult = downloadFile.completionFuture().join();
        /*
            The SDK provides a LoggingTransferListener implementation of the TransferListener interface.
            You can also implement the interface to provide your own logic.

            Configure log4J2 with settings such as the following.
                <Configuration status="WARN">
                    <Appenders>
                        <Console name="AlignedConsoleAppender" target="SYSTEM_OUT">
                            <PatternLayout pattern="%m%n"/>
                        </Console>
                    </Appenders>

                    <Loggers>
                        <logger name="software.amazon.awssdk.transfer.s3.progress.LoggingTransferListener" level="INFO" additivity="false">
                            <AppenderRef ref="AlignedConsoleAppender"/>
                        </logger>
                    </Loggers>
                </Configuration>

            Log4J2 logs the progress. The following is example output for a 21.3 MB file download.
                Transfer initiated...
                |=======             | 39.4%
                |===============     | 78.8%
                |====================| 100.0%
                Transfer complete!
        */
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [GetObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObject)
  + [PutObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObject)

### Mengunggah direktori ke bucket
<a name="s3_UploadDirectoryToBucket_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara mengunggah direktori lokal secara rekursif ke bucket Amazon Simple Storage Service (Amazon S3).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Gunakan [S3 TransferManager](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html) untuk [mengunggah direktori lokal](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/transfer/s3/S3TransferManager.html#uploadDirectory(software.amazon.awssdk.transfer.s3.UploadDirectoryRequest)). Lihat [file lengkap](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/main/java/com/example/s3/transfermanager/UploadADirectory.java) dan [lakukan pengujian](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/javav2/example_code/s3/src/test/java/TransferManagerTest.java).  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.s3.model.ObjectIdentifier;
import software.amazon.awssdk.transfer.s3.S3TransferManager;
import software.amazon.awssdk.transfer.s3.model.CompletedDirectoryUpload;
import software.amazon.awssdk.transfer.s3.model.DirectoryUpload;
import software.amazon.awssdk.transfer.s3.model.UploadDirectoryRequest;

import java.net.URI;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.file.Paths;
import java.util.UUID;

    public Integer uploadDirectory(S3TransferManager transferManager,
            URI sourceDirectory, String bucketName) {
        DirectoryUpload directoryUpload = transferManager.uploadDirectory(UploadDirectoryRequest.builder()
                .source(Paths.get(sourceDirectory))
                .bucket(bucketName)
                .build());

        CompletedDirectoryUpload completedDirectoryUpload = directoryUpload.completionFuture().join();
        completedDirectoryUpload.failedTransfers()
                .forEach(fail -> logger.warn("Object [{}] failed to transfer", fail.toString()));
        return completedDirectoryUpload.failedTransfers().size();
    }
```
+  Untuk detail API, lihat [UploadDirectory](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/UploadDirectory)di *Referensi AWS SDK for Java 2.x API*. 

### Mengunggah atau mengunduh file besar
<a name="s3_Scenario_UsingLargeFiles_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah atau mengunduh file besar ke dan dari Amazon S3.

Untuk informasi selengkapnya, lihat [Pengunggahan objek menggunakan unggahan multibagian](https://docs.aws.amazon.com/AmazonS3/latest/userguide/mpu-upload-object.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Fungsi panggilan yang mentransfer file ke dan dari bucket S3 menggunakan TransferManager S3.  

```
    public Integer downloadObjectsToDirectory(S3TransferManager transferManager,
            URI destinationPathURI, String bucketName) {
        DirectoryDownload directoryDownload = transferManager.downloadDirectory(DownloadDirectoryRequest.builder()
                .destination(Paths.get(destinationPathURI))
                .bucket(bucketName)
                .build());
        CompletedDirectoryDownload completedDirectoryDownload = directoryDownload.completionFuture().join();

        completedDirectoryDownload.failedTransfers()
                .forEach(fail -> logger.warn("Object [{}] failed to transfer", fail.toString()));
        return completedDirectoryDownload.failedTransfers().size();
    }
```
Unggah seluruh direktori lokal.  

```
    public Integer uploadDirectory(S3TransferManager transferManager,
            URI sourceDirectory, String bucketName) {
        DirectoryUpload directoryUpload = transferManager.uploadDirectory(UploadDirectoryRequest.builder()
                .source(Paths.get(sourceDirectory))
                .bucket(bucketName)
                .build());

        CompletedDirectoryUpload completedDirectoryUpload = directoryUpload.completionFuture().join();
        completedDirectoryUpload.failedTransfers()
                .forEach(fail -> logger.warn("Object [{}] failed to transfer", fail.toString()));
        return completedDirectoryUpload.failedTransfers().size();
    }
```
Unggah file tunggal.  

```
    public String uploadFile(S3TransferManager transferManager, String bucketName,
                             String key, URI filePathURI) {
        UploadFileRequest uploadFileRequest = UploadFileRequest.builder()
            .putObjectRequest(b -> b.bucket(bucketName).key(key))
            .source(Paths.get(filePathURI))
            .build();

        FileUpload fileUpload = transferManager.uploadFile(uploadFileRequest);

        CompletedFileUpload uploadResult = fileUpload.completionFuture().join();
        return uploadResult.response().eTag();
    }
```
Contoh kode menggunakan impor berikut.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.services.s3.S3AsyncClient;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.CompletedMultipartUpload;
import software.amazon.awssdk.services.s3.model.CompletedPart;
import software.amazon.awssdk.services.s3.model.CreateMultipartUploadResponse;
import software.amazon.awssdk.services.s3.model.PutObjectResponse;
import software.amazon.awssdk.services.s3.model.UploadPartRequest;
import software.amazon.awssdk.services.s3.model.UploadPartResponse;
import software.amazon.awssdk.services.s3.waiters.S3Waiter;
import software.amazon.awssdk.transfer.s3.S3TransferManager;
import software.amazon.awssdk.transfer.s3.model.FileUpload;
import software.amazon.awssdk.transfer.s3.model.UploadFileRequest;

import java.io.IOException;
import java.io.RandomAccessFile;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.ByteBuffer;
import java.nio.file.Paths;
import java.util.ArrayList;
import java.util.List;
import java.util.Objects;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;
```
Gunakan [Manajer Transfer S3](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/transfer-manager.html) di atas [klien S3 AWS berbasis CRT](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/crt-based-s3-client.html) untuk melakukan unggahan multibagian secara transparan ketika ukuran konten melebihi ambang batas. Ukuran ambang default adalah 8 MB.  

```
    /**
     * Uploads a file to an Amazon S3 bucket using the S3TransferManager.
     *
     * @param filePath the file path of the file to be uploaded
     */
    public void multipartUploadWithTransferManager(String filePath) {
        S3TransferManager transferManager = S3TransferManager.create();
        UploadFileRequest uploadFileRequest = UploadFileRequest.builder()
            .putObjectRequest(b -> b
                .bucket(bucketName)
                .key(key))
            .source(Paths.get(filePath))
            .build();
        FileUpload fileUpload = transferManager.uploadFile(uploadFileRequest);
        fileUpload.completionFuture().join();
        transferManager.close();
    }
```
Gunakan [S3Client API](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html) untuk melakukan unggahan multipart.  

```
    /**
     * Performs a multipart upload to Amazon S3 using the provided S3 client.
     *
     * @param filePath the path to the file to be uploaded
     */
    public void multipartUploadWithS3Client(String filePath) {

        // Initiate the multipart upload.
        CreateMultipartUploadResponse createMultipartUploadResponse = s3Client.createMultipartUpload(b -> b
            .bucket(bucketName)
            .key(key));
        String uploadId = createMultipartUploadResponse.uploadId();

        // Upload the parts of the file.
        int partNumber = 1;
        List<CompletedPart> completedParts = new ArrayList<>();
        ByteBuffer bb = ByteBuffer.allocate(1024 * 1024 * 5); // 5 MB byte buffer

        try (RandomAccessFile file = new RandomAccessFile(filePath, "r")) {
            long fileSize = file.length();
            long position = 0;
            while (position < fileSize) {
                file.seek(position);
                long read = file.getChannel().read(bb);

                bb.flip(); // Swap position and limit before reading from the buffer.
                UploadPartRequest uploadPartRequest = UploadPartRequest.builder()
                    .bucket(bucketName)
                    .key(key)
                    .uploadId(uploadId)
                    .partNumber(partNumber)
                    .build();

                UploadPartResponse partResponse = s3Client.uploadPart(
                    uploadPartRequest,
                    RequestBody.fromByteBuffer(bb));

                CompletedPart part = CompletedPart.builder()
                    .partNumber(partNumber)
                    .eTag(partResponse.eTag())
                    .build();
                completedParts.add(part);

                bb.clear();
                position += read;
                partNumber++;
            }
        } catch (IOException e) {
            logger.error(e.getMessage());
        }

        // Complete the multipart upload.
        s3Client.completeMultipartUpload(b -> b
            .bucket(bucketName)
            .key(key)
            .uploadId(uploadId)
            .multipartUpload(CompletedMultipartUpload.builder().parts(completedParts).build()));
    }
```
Gunakan [AsyncClient API S3](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3AsyncClient.html) dengan dukungan multipart diaktifkan untuk melakukan pengunggahan multipart.  

```
    /**
     * Uploads a file to an S3 bucket using the S3AsyncClient and enabling multipart support.
     *
     * @param filePath the local file path of the file to be uploaded
     */
    public void multipartUploadWithS3AsyncClient(String filePath) {
        // Enable multipart support.
        S3AsyncClient s3AsyncClient = S3AsyncClient.builder()
            .multipartEnabled(true)
            .build();

        CompletableFuture<PutObjectResponse> response = s3AsyncClient.putObject(b -> b
                .bucket(bucketName)
                .key(key),
            Paths.get(filePath));

        response.join();
        logger.info("File uploaded in multiple 8 MiB parts using S3AsyncClient.");
    }
```

### Mengunggah aliran ukuran yang tidak diketahui
<a name="s3_Scenario_UploadStream_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah aliran dengan ukuran yang tidak diketahui ke objek Amazon S3.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Gunakan [Klien S3 berbasis CRT AWS](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/crt-based-s3-client.html).  

```
import com.example.s3.util.AsyncExampleUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.async.AsyncRequestBody;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.services.s3.S3AsyncClient;
import software.amazon.awssdk.services.s3.model.PutObjectResponse;

import java.io.ByteArrayInputStream;
import java.io.InputStream;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;

public class PutObjectFromStreamAsync {
    private static final Logger logger = LoggerFactory.getLogger(PutObjectFromStreamAsync.class);

    public static void main(String[] args) {
        String bucketName = "amzn-s3-demo-bucket-" + UUID.randomUUID(); // Change bucket name.
        String key = UUID.randomUUID().toString();

        AsyncExampleUtils.createBucket(bucketName);
        try {
            PutObjectFromStreamAsync example = new PutObjectFromStreamAsync();
            S3AsyncClient s3AsyncClientCrt = S3AsyncClient.crtCreate();
            PutObjectResponse putObjectResponse = example.putObjectFromStreamCrt(s3AsyncClientCrt, bucketName, key);
            logger.info("Object {} etag: {}", key, putObjectResponse.eTag());
            logger.info("Object {} uploaded to bucket {}.", key, bucketName);
        } catch (SdkException e) {
            logger.error(e.getMessage(), e);
        } finally {
            AsyncExampleUtils.deleteObject(bucketName, key);
            AsyncExampleUtils.deleteBucket(bucketName);
        }
    }

    /**
     * @param s33CrtAsyncClient - To upload content from a stream of unknown size, use can the AWS CRT-based S3 client.
     * @param bucketName - The name of the bucket.
     * @param key - The name of the object.
     * @return software.amazon.awssdk.services.s3.model.PutObjectResponse - Returns metadata pertaining to the put object operation.
     */
    public PutObjectResponse putObjectFromStreamCrt(S3AsyncClient s33CrtAsyncClient, String bucketName, String key) {

        // AsyncExampleUtils.randomString() returns a random string up to 100 characters.
        String randomString = AsyncExampleUtils.randomString();
        logger.info("random string to upload: {}: length={}", randomString, randomString.length());
        InputStream inputStream = new ByteArrayInputStream(randomString.getBytes());

        // Executor required to handle reading from the InputStream on a separate thread so the main upload is not blocked.
        ExecutorService executor = Executors.newSingleThreadExecutor();
        // Specify `null` for the content length when you don't know the content length.
        AsyncRequestBody body = AsyncRequestBody.fromInputStream(inputStream, null, executor);

        CompletableFuture<PutObjectResponse> responseFuture =
                s33CrtAsyncClient.putObject(r -> r.bucket(bucketName).key(key), body);

        PutObjectResponse response = responseFuture.join(); // Wait for the response.
        logger.info("Object {} uploaded to bucket {}.", key, bucketName);
        executor.shutdown();
        return response;
    }
}
```
Gunakan [klien S3 asinkron standar dengan](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/s3-async-client-multipart.html#s3-async-client-mp-on) unggahan multibagian diaktifkan.  

```
import com.example.s3.util.AsyncExampleUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.async.AsyncRequestBody;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.services.s3.S3AsyncClient;
import software.amazon.awssdk.services.s3.model.PutObjectResponse;

import java.io.ByteArrayInputStream;
import java.io.InputStream;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;

public class PutObjectFromStreamAsyncMp {
    private static final Logger logger = LoggerFactory.getLogger(PutObjectFromStreamAsyncMp.class);

    public static void main(String[] args) {
        String bucketName = "amzn-s3-demo-bucket-" + UUID.randomUUID(); // Change bucket name.
        String key = UUID.randomUUID().toString();

        AsyncExampleUtils.createBucket(bucketName);
        try {
            PutObjectFromStreamAsyncMp example = new PutObjectFromStreamAsyncMp();
            S3AsyncClient s3AsyncClientMp = S3AsyncClient.builder().multipartEnabled(true).build();
            PutObjectResponse putObjectResponse = example.putObjectFromStreamMp(s3AsyncClientMp, bucketName, key);
            logger.info("Object {} etag: {}", key, putObjectResponse.eTag());
            logger.info("Object {} uploaded to bucket {}.", key, bucketName);
        } catch (SdkException e) {
            logger.error(e.getMessage(), e);
        } finally {
            AsyncExampleUtils.deleteObject(bucketName, key);
            AsyncExampleUtils.deleteBucket(bucketName);
        }
    }

    /**
     * @param s3AsyncClientMp - To upload content from a stream of unknown size, use can the S3 asynchronous client with multipart enabled.
     * @param bucketName - The name of the bucket.
     * @param key - The name of the object.
     * @return software.amazon.awssdk.services.s3.model.PutObjectResponse - Returns metadata pertaining to the put object operation.
     */
    public PutObjectResponse putObjectFromStreamMp(S3AsyncClient s3AsyncClientMp, String bucketName, String key) {

        // AsyncExampleUtils.randomString() returns a random string up to 100 characters.
        String randomString = AsyncExampleUtils.randomString();
        logger.info("random string to upload: {}: length={}", randomString, randomString.length());
        InputStream inputStream = new ByteArrayInputStream(randomString.getBytes());

        // Executor required to handle reading from the InputStream on a separate thread so the main upload is not blocked.
        ExecutorService executor = Executors.newSingleThreadExecutor();
        // Specify `null` for the content length when you don't know the content length.
        AsyncRequestBody body = AsyncRequestBody.fromInputStream(inputStream, null, executor);

        CompletableFuture<PutObjectResponse> responseFuture =
                s3AsyncClientMp.putObject(r -> r.bucket(bucketName).key(key), body);

        PutObjectResponse response = responseFuture.join(); // Wait for the response.
        logger.info("Object {} uploaded to bucket {}.", key, bucketName);
        executor.shutdown();
        return response;
    }
}
```
Gunakan [Manajer Transfer Amazon S3](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/transfer-manager.html).  

```
import com.example.s3.util.AsyncExampleUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.async.AsyncRequestBody;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.transfer.s3.S3TransferManager;
import software.amazon.awssdk.transfer.s3.model.CompletedUpload;
import software.amazon.awssdk.transfer.s3.model.Upload;

import java.io.ByteArrayInputStream;
import java.io.InputStream;
import java.util.UUID;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;

public class UploadStream {
    private static final Logger logger = LoggerFactory.getLogger(UploadStream.class);

    public static void main(String[] args) {
        String bucketName = "amzn-s3-demo-bucket" + UUID.randomUUID();
        String key = UUID.randomUUID().toString();

        AsyncExampleUtils.createBucket(bucketName);
        try {
            UploadStream example = new UploadStream();
            CompletedUpload completedUpload = example.uploadStream(S3TransferManager.create(), bucketName, key);
            logger.info("Object {} etag: {}", key, completedUpload.response().eTag());
            logger.info("Object {} uploaded to bucket {}.", key, bucketName);
        } catch (SdkException e) {
            logger.error(e.getMessage(), e);
        } finally {
            AsyncExampleUtils.deleteObject(bucketName, key);
            AsyncExampleUtils.deleteBucket(bucketName);
        }
    }

    /**
     * @param transferManager - To upload content from a stream of unknown size, you can use the S3TransferManager based on the AWS CRT-based S3 client.
     * @param bucketName - The name of the bucket.
     * @param key - The name of the object.
     * @return - software.amazon.awssdk.transfer.s3.model.CompletedUpload - The result of the completed upload.
     */
    public CompletedUpload uploadStream(S3TransferManager transferManager, String bucketName, String key) {

        // AsyncExampleUtils.randomString() returns a random string up to 100 characters.
        String randomString = AsyncExampleUtils.randomString();
        logger.info("random string to upload: {}: length={}", randomString, randomString.length());
        InputStream inputStream = new ByteArrayInputStream(randomString.getBytes());

        // Executor required to handle reading from the InputStream on a separate thread so the main upload is not blocked.
        ExecutorService executor = Executors.newSingleThreadExecutor();
        // Specify `null` for the content length when you don't know the content length.
        AsyncRequestBody body = AsyncRequestBody.fromInputStream(inputStream, null, executor);

        Upload upload = transferManager.upload(builder -> builder
                .requestBody(body)
                .putObjectRequest(req -> req.bucket(bucketName).key(key))
                .build());

        CompletedUpload completedUpload = upload.completionFuture().join();
        executor.shutdown();
        return completedUpload;
    }
}
```

### Gunakan checksum
<a name="s3_Scenario_UseChecksums_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan checksum untuk bekerja dengan objek Amazon S3.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Contoh kode menggunakan subset dari impor berikut.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.ChecksumAlgorithm;
import software.amazon.awssdk.services.s3.model.ChecksumMode;
import software.amazon.awssdk.services.s3.model.CompletedMultipartUpload;
import software.amazon.awssdk.services.s3.model.CompletedPart;
import software.amazon.awssdk.services.s3.model.CreateMultipartUploadResponse;
import software.amazon.awssdk.services.s3.model.GetObjectResponse;
import software.amazon.awssdk.services.s3.model.UploadPartRequest;
import software.amazon.awssdk.services.s3.model.UploadPartResponse;
import software.amazon.awssdk.services.s3.waiters.S3Waiter;
import software.amazon.awssdk.transfer.s3.S3TransferManager;
import software.amazon.awssdk.transfer.s3.model.FileUpload;
import software.amazon.awssdk.transfer.s3.model.UploadFileRequest;

import java.io.FileInputStream;
import java.io.IOException;
import java.io.RandomAccessFile;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.ByteBuffer;
import java.nio.file.Paths;
import java.security.DigestInputStream;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import java.util.ArrayList;
import java.util.Base64;
import java.util.List;
import java.util.Objects;
import java.util.UUID;
```
Tentukan algoritma checksum untuk metode `putObject` saat Anda [membangun `PutObjectRequest`](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/model/PutObjectRequest.Builder.html).  

```
    public void putObjectWithChecksum() {
        s3Client.putObject(b -> b
                .bucket(bucketName)
                .key(key)
                .checksumAlgorithm(ChecksumAlgorithm.CRC32),
            RequestBody.fromString("This is a test"));
    }
```
Verifikasi checksum untuk `getObject` metode saat Anda [membangun. GetObjectRequest](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/model/GetObjectRequest.Builder.html)  

```
    public GetObjectResponse getObjectWithChecksum() {
        return s3Client.getObject(b -> b
                .bucket(bucketName)
                .key(key)
                .checksumMode(ChecksumMode.ENABLED))
            .response();
    }
```
Hitung terlebih dahulu checksum untuk metode `putObject` saat Anda [membangun `PutObjectRequest`](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/model/PutObjectRequest.Builder.html).  

```
    public void putObjectWithPrecalculatedChecksum(String filePath) {
        String checksum = calculateChecksum(filePath, "SHA-256");

        s3Client.putObject((b -> b
                .bucket(bucketName)
                .key(key)
                .checksumSHA256(checksum)),
            RequestBody.fromFile(Paths.get(filePath)));
    }
```
Gunakan [Manajer Transfer S3](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/transfer-manager.html) di atas [klien S3 AWS berbasis CRT](https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/crt-based-s3-client.html) untuk melakukan unggahan multibagian secara transparan ketika ukuran konten melebihi ambang batas. Ukuran ambang default adalah 8 MB.  
Anda dapat menentukan algoritma checksum untuk SDK yang akan digunakan. Secara default, SDK menggunakan CRC32 algoritma.  

```
    public void multipartUploadWithChecksumTm(String filePath) {
        S3TransferManager transferManager = S3TransferManager.create();
        UploadFileRequest uploadFileRequest = UploadFileRequest.builder()
            .putObjectRequest(b -> b
                .bucket(bucketName)
                .key(key)
                .checksumAlgorithm(ChecksumAlgorithm.SHA1))
            .source(Paths.get(filePath))
            .build();
        FileUpload fileUpload = transferManager.uploadFile(uploadFileRequest);
        fileUpload.completionFuture().join();
        transferManager.close();
    }
```
Gunakan [S3Client API](https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/services/s3/S3Client.html) atau (S3 AsyncClient API) untuk melakukan upload multipart. Jika Anda menentukan checksum tambahan, Anda juga harus menentukan algoritma yang akan digunakan pada inisiasi unggahan. Anda juga harus menentukan algoritma untuk setiap permintaan bagian dan memberikan checksum yang dihitung untuk setiap bagian setelah diunggah.  

```
    public void multipartUploadWithChecksumS3Client(String filePath) {
        ChecksumAlgorithm algorithm = ChecksumAlgorithm.CRC32;

        // Initiate the multipart upload.
        CreateMultipartUploadResponse createMultipartUploadResponse = s3Client.createMultipartUpload(b -> b
            .bucket(bucketName)
            .key(key)
            .checksumAlgorithm(algorithm)); // Checksum specified on initiation.
        String uploadId = createMultipartUploadResponse.uploadId();

        // Upload the parts of the file.
        int partNumber = 1;
        List<CompletedPart> completedParts = new ArrayList<>();
        ByteBuffer bb = ByteBuffer.allocate(1024 * 1024 * 5); // 5 MB byte buffer

        try (RandomAccessFile file = new RandomAccessFile(filePath, "r")) {
            long fileSize = file.length();
            long position = 0;
            while (position < fileSize) {
                file.seek(position);
                long read = file.getChannel().read(bb);

                bb.flip(); // Swap position and limit before reading from the buffer.
                UploadPartRequest uploadPartRequest = UploadPartRequest.builder()
                    .bucket(bucketName)
                    .key(key)
                    .uploadId(uploadId)
                    .checksumAlgorithm(algorithm) // Checksum specified on each part.
                    .partNumber(partNumber)
                    .build();

                UploadPartResponse partResponse = s3Client.uploadPart(
                    uploadPartRequest,
                    RequestBody.fromByteBuffer(bb));

                CompletedPart part = CompletedPart.builder()
                    .partNumber(partNumber)
                    .checksumCRC32(partResponse.checksumCRC32()) // Provide the calculated checksum.
                    .eTag(partResponse.eTag())
                    .build();
                completedParts.add(part);

                bb.clear();
                position += read;
                partNumber++;
            }
        } catch (IOException e) {
            System.err.println(e.getMessage());
        }

        // Complete the multipart upload.
        s3Client.completeMultipartUpload(b -> b
            .bucket(bucketName)
            .key(key)
            .uploadId(uploadId)
            .multipartUpload(CompletedMultipartUpload.builder().parts(completedParts).build()));
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CompleteMultipartUpload](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CompleteMultipartUpload)
  + [CreateMultipartUpload](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateMultipartUpload)
  + [UploadPart](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/UploadPart)

## Contoh nirserver
<a name="serverless_examples"></a>

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package example;

import software.amazon.awssdk.services.s3.model.HeadObjectRequest;
import software.amazon.awssdk.services.s3.model.HeadObjectResponse;
import software.amazon.awssdk.services.s3.S3Client;

import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.S3Event;
import com.amazonaws.services.lambda.runtime.events.models.s3.S3EventNotification.S3EventNotificationRecord;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

public class Handler implements RequestHandler<S3Event, String> {
    private static final Logger logger = LoggerFactory.getLogger(Handler.class);
    @Override
    public String handleRequest(S3Event s3event, Context context) {
        try {
          S3EventNotificationRecord record = s3event.getRecords().get(0);
          String srcBucket = record.getS3().getBucket().getName();
          String srcKey = record.getS3().getObject().getUrlDecodedKey();

          S3Client s3Client = S3Client.builder().build();
          HeadObjectResponse headObject = getHeadObject(s3Client, srcBucket, srcKey);

          logger.info("Successfully retrieved " + srcBucket + "/" + srcKey + " of type " + headObject.contentType());

          return "Ok";
        } catch (Exception e) {
          throw new RuntimeException(e);
        }
    }

    private HeadObjectResponse getHeadObject(S3Client s3Client, String bucket, String key) {
        HeadObjectRequest headObjectRequest = HeadObjectRequest.builder()
                .bucket(bucket)
                .key(key)
                .build();
        return s3Client.headObject(headObjectRequest);
    }
}
```

# Contoh Kontrol Amazon S3 menggunakan SDK for Java 2.x
<a name="java_2_s3-control_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Kontrol Amazon S3 AWS SDK for Java 2.x dengan.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Kontrol Amazon S3
<a name="s3-control_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3 Control.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 

```
import software.amazon.awssdk.auth.credentials.EnvironmentVariableCredentialsProvider;
import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration;
import software.amazon.awssdk.core.retry.RetryMode;
import software.amazon.awssdk.core.retry.RetryPolicy;
import software.amazon.awssdk.http.async.SdkAsyncHttpClient;
import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3control.S3ControlAsyncClient;
import software.amazon.awssdk.services.s3control.model.JobListDescriptor;
import software.amazon.awssdk.services.s3control.model.JobStatus;
import software.amazon.awssdk.services.s3control.model.ListJobsRequest;
import software.amazon.awssdk.services.s3control.paginators.ListJobsPublisher;
import java.time.Duration;
import java.util.List;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;

/**
 * Before running this example:
 * <p/>
 * The SDK must be able to authenticate AWS requests on your behalf. If you have not configured
 * authentication for SDKs and tools,see https://docs.aws.amazon.com/sdkref/latest/guide/access.html in the AWS SDKs and Tools Reference Guide.
 * <p/>
 * You must have a runtime environment configured with the Java SDK.
 * See https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/setup.html in the Developer Guide if this is not set up.
 */
public class HelloS3Batch {
    private static S3ControlAsyncClient asyncClient;

    public static void main(String[] args) {
        S3BatchActions actions = new S3BatchActions();
        String accountId = actions.getAccountId();
        try {
            listBatchJobsAsync(accountId)
                .exceptionally(ex -> {
                    System.err.println("List batch jobs failed: " + ex.getMessage());
                    return null;
                })
                .join();

        } catch (CompletionException ex) {
            System.err.println("Failed to list batch jobs: " + ex.getMessage());
        }
    }

    /**
     * Retrieves the asynchronous S3 Control client instance.
     * <p>
     * This method creates and returns a singleton instance of the {@link S3ControlAsyncClient}. If the instance
     * has not been created yet, it will be initialized with the following configuration:
     * <ul>
     *   <li>Maximum concurrency: 100</li>
     *   <li>Connection timeout: 60 seconds</li>
     *   <li>Read timeout: 60 seconds</li>
     *   <li>Write timeout: 60 seconds</li>
     *   <li>API call timeout: 2 minutes</li>
     *   <li>API call attempt timeout: 90 seconds</li>
     *   <li>Retry policy: 3 retries</li>
     *   <li>Region: US_EAST_1</li>
     *   <li>Credentials provider: {@link EnvironmentVariableCredentialsProvider}</li>
     * </ul>
     *
     * @return the asynchronous S3 Control client instance
     */
    private static S3ControlAsyncClient getAsyncClient() {
        if (asyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            asyncClient = S3ControlAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return asyncClient;
    }

    /**
     * Asynchronously lists batch jobs that have completed for the specified account.
     *
     * @param accountId the ID of the account to list jobs for
     * @return a CompletableFuture that completes when the job listing operation is finished
     */
    public static CompletableFuture<Void> listBatchJobsAsync(String accountId) {
        ListJobsRequest jobsRequest = ListJobsRequest.builder()
            .jobStatuses(JobStatus.COMPLETE)
            .accountId(accountId)
            .maxResults(10)
            .build();

        ListJobsPublisher publisher = getAsyncClient().listJobsPaginator(jobsRequest);
        return publisher.subscribe(response -> {
            List<JobListDescriptor> jobs = response.jobs();
            for (JobListDescriptor job : jobs) {
                System.out.println("The job id is " + job.jobId());
                System.out.println("The job priority is " + job.priority());
            }
        }).thenAccept(response -> {
            System.out.println("Listing batch jobs completed");
        }).exceptionally(ex -> {
            System.err.println("Failed to list batch jobs: " + ex.getMessage());
            throw new RuntimeException(ex);
        });
    }
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/ListJobs)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3-control_Basics_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempelajari operasi inti untuk Kontrol Amazon S3.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 
Pelajari operasi inti.  

```
package com.example.s3.batch;

import software.amazon.awssdk.services.s3.model.S3Exception;
import java.io.IOException;
import java.util.Map;
import java.util.Scanner;
import java.util.UUID;
import java.util.concurrent.CompletionException;

public class S3BatchScenario {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final String STACK_NAME = "MyS3Stack";
    public static void main(String[] args) throws IOException {
        S3BatchActions actions = new S3BatchActions();
        String accountId = actions.getAccountId();
        String uuid = java.util.UUID.randomUUID().toString();
        Scanner scanner = new Scanner(System.in);

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon S3 Batch basics scenario.");
        System.out.println("""
            S3 Batch operations enables efficient and cost-effective processing of large-scale 
            data stored in Amazon S3. It automatically scales resources to handle varying workloads 
            without the need for manual intervention. 
                        
            One of the key features of S3 Batch is its ability to perform tagging operations on objects stored in 
            S3 buckets. Users can leverage S3 Batch to apply, update, or remove tags on thousands or millions of 
            objects in a single operation, streamlining the management and organization of their data. 
                        
            This can be particularly useful for tasks such as cost allocation, lifecycle management, or 
            metadata-driven workflows, where consistent and accurate tagging is essential. 
            S3 Batch's scalability and serverless nature make it an ideal solution for organizations with 
            growing data volumes and complex data management requirements.
                        
            This Java program walks you through Amazon S3 Batch operations. 
                        
            Let's get started...
                   
            """);
        waitForInputToContinue(scanner);
        // Use CloudFormation to stand up the resource required for this scenario.
        System.out.println("Use CloudFormation to stand up the resource required for this scenario.");
        CloudFormationHelper.deployCloudFormationStack(STACK_NAME);

        Map<String, String> stackOutputs = CloudFormationHelper.getStackOutputs(STACK_NAME);
        String iamRoleArn = stackOutputs.get("S3BatchRoleArn");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Setup the required bucket for this scenario.");
        waitForInputToContinue(scanner);
        String bucketName = "amzn-s3-demo-bucket-" + UUID.randomUUID(); // Change bucket name. 
        actions.createBucket(bucketName);
        String reportBucketName = "arn:aws:s3:::"+bucketName;
        String manifestLocation = "arn:aws:s3:::"+bucketName+"/job-manifest.csv";
        System.out.println("Populate the bucket with the required files.");
        String[] fileNames = {"job-manifest.csv", "object-key-1.txt", "object-key-2.txt", "object-key-3.txt", "object-key-4.txt"};
        actions.uploadFilesToBucket(bucketName, fileNames, actions);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. Create a S3 Batch Job");
        System.out.println("This job tags all objects listed in the manifest file with tags");
        waitForInputToContinue(scanner);
        String jobId ;
        try {
            jobId = actions.createS3JobAsync(accountId, iamRoleArn, manifestLocation, reportBucketName, uuid).join();
            System.out.println("The Job id is " + jobId);

        } catch (S3Exception e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
            return;
        }

        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Update an existing S3 Batch Operations job's priority");
        System.out.println("""
             In this step, we modify the job priority value. The higher the number, the higher the priority. 
             So, a job with a priority of `30` would have a higher priority than a job with 
             a priority of `20`. This is a common way to represent the priority of a task 
             or job, with higher numbers indicating a higher priority.
             
             Ensure that the job status allows for priority updates. Jobs in certain 
             states (e.g., Cancelled, Failed, or Completed) cannot have their priorities 
             updated. Only jobs in the Active or Suspended state typically allow priority 
             updates.
             """);

        try {
            actions.updateJobPriorityAsync(jobId, accountId)
                .exceptionally(ex -> {
                    System.err.println("Update job priority failed: " + ex.getMessage());
                    return null;
                })
                .join();
        } catch (CompletionException ex) {
            System.err.println("Failed to update job priority: " + ex.getMessage());
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Cancel the S3 Batch job");
        System.out.print("Do you want to cancel the Batch job? (y/n): ");
        String cancelAns = scanner.nextLine();
        if (cancelAns != null && cancelAns.trim().equalsIgnoreCase("y")) {
            try {
                actions.cancelJobAsync(jobId, accountId)
                    .exceptionally(ex -> {
                        System.err.println("Cancel job failed: " + ex.getMessage());
                        return null;
                    })
                    .join();
            } catch (CompletionException ex) {
                System.err.println("Failed to cancel job: " + ex.getMessage());
            }
        } else {
            System.out.println("Job " +jobId +" was not canceled.");
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Describe the job that was just created");
        waitForInputToContinue(scanner);
        try {
            actions.describeJobAsync(jobId, accountId)
                .exceptionally(ex -> {
                    System.err.println("Describe job failed: " + ex.getMessage());
                    return null;
                })
                .join();
        } catch (CompletionException ex) {
            System.err.println("Failed to describe job: " + ex.getMessage());
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Describe the tags associated with the job");
        waitForInputToContinue(scanner);
        try {
            actions.getJobTagsAsync(jobId, accountId)
                .exceptionally(ex -> {
                    System.err.println("Get job tags failed: " + ex.getMessage());
                    return null;
                })
                .join();
        } catch (CompletionException ex) {
            System.err.println("Failed to get job tags: " + ex.getMessage());
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Update Batch Job Tags");
        waitForInputToContinue(scanner);
        try {
            actions.putJobTaggingAsync(jobId, accountId)
                .exceptionally(ex -> {
                    System.err.println("Put job tagging failed: " + ex.getMessage());
                    return null;
                })
                .join();
        } catch (CompletionException ex) {
            System.err.println("Failed to put job tagging: " + ex.getMessage());
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Delete the Amazon S3 Batch job tagging.");
        System.out.print("Do you want to delete Batch job tagging? (y/n)");
        String delAns = scanner.nextLine();
        if (delAns != null && delAns.trim().equalsIgnoreCase("y")) {
            try {
                actions.deleteBatchJobTagsAsync(jobId, accountId)
                    .exceptionally(ex -> {
                        System.err.println("Delete batch job tags failed: " + ex.getMessage());
                        return null;
                    })
                    .join();
            } catch (CompletionException ex) {
                System.err.println("Failed to delete batch job tags: " + ex.getMessage());
            }
        } else {
            System.out.println("Tagging was not deleted.");
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.print("Do you want to delete the AWS resources used in this scenario? (y/n)");
        String delResAns = scanner.nextLine();
        if (delResAns != null && delResAns.trim().equalsIgnoreCase("y")) {
            actions.deleteFilesFromBucket(bucketName, fileNames, actions);
            actions.deleteBucketFolderAsync(bucketName);
            actions.deleteBucket(bucketName)
                .thenRun(() -> System.out.println("Bucket deletion completed"))
                .exceptionally(ex -> {
                    System.err.println("Error occurred: " + ex.getMessage());
                    return null;
                });
            CloudFormationHelper.destroyCloudFormationStack(STACK_NAME);
        } else {
            System.out.println("The AWS resources were not deleted.");
        }
        System.out.println("The Amazon S3 Batch scenario has successfully completed.");
        System.out.println(DASHES);
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            System.out.println();
            System.out.println("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                System.out.println("Continuing with the program...");
                System.out.println();
                break;
            } else {
                // Handle invalid input.
                System.out.println("Invalid input. Please try again.");
            }
        }
    }


}
```
Kelas aksi yang membungkus operasi.  

```
public class S3BatchActions {

    private static S3ControlAsyncClient asyncClient;

    private static S3AsyncClient s3AsyncClient ;
    /**
     * Retrieves the asynchronous S3 Control client instance.
     * <p>
     * This method creates and returns a singleton instance of the {@link S3ControlAsyncClient}. If the instance
     * has not been created yet, it will be initialized with the following configuration:
     * <ul>
     *   <li>Maximum concurrency: 100</li>
     *   <li>Connection timeout: 60 seconds</li>
     *   <li>Read timeout: 60 seconds</li>
     *   <li>Write timeout: 60 seconds</li>
     *   <li>API call timeout: 2 minutes</li>
     *   <li>API call attempt timeout: 90 seconds</li>
     *   <li>Retry policy: 3 retries</li>
     *   <li>Region: US_EAST_1</li>
     *   <li>Credentials provider: {@link EnvironmentVariableCredentialsProvider}</li>
     * </ul>
     *
     * @return the asynchronous S3 Control client instance
     */
    private static S3ControlAsyncClient getAsyncClient() {
        if (asyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryPolicy(RetryPolicy.builder()
                    .numRetries(3)
                    .build())
                .build();

            asyncClient = S3ControlAsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return asyncClient;
    }

    private static S3AsyncClient getS3AsyncClient() {
        if (asyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            s3AsyncClient = S3AsyncClient.builder()
                .region(Region.US_EAST_1)
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return s3AsyncClient;
    }


    /**
     * Cancels a job asynchronously.
     *
     * @param jobId The ID of the job to be canceled.
     * @param accountId The ID of the account associated with the job.
     * @return A {@link CompletableFuture} that completes when the job status has been updated to "CANCELLED".
     *         If an error occurs during the update, the returned future will complete exceptionally.
     */
    public CompletableFuture<Void> cancelJobAsync(String jobId, String accountId) {
        UpdateJobStatusRequest updateJobStatusRequest = UpdateJobStatusRequest.builder()
            .accountId(accountId)
            .jobId(jobId)
            .requestedJobStatus(String.valueOf(JobStatus.CANCELLED))
            .build();

        return asyncClient.updateJobStatus(updateJobStatusRequest)
            .thenAccept(updateJobStatusResponse -> {
                System.out.println("Job status updated to: " + updateJobStatusResponse.status());
            })
            .exceptionally(ex -> {
                System.err.println("Failed to cancel job: " + ex.getMessage());
                throw new RuntimeException(ex); // Propagate the exception
            });
    }

    /**
     * Updates the priority of a job asynchronously.
     *
     * @param jobId     the ID of the job to update
     * @param accountId the ID of the account associated with the job
     * @return a {@link CompletableFuture} that represents the asynchronous operation, which completes when the job priority has been updated or an error has occurred
     */
    public CompletableFuture<Void> updateJobPriorityAsync(String jobId, String accountId) {
        UpdateJobPriorityRequest priorityRequest = UpdateJobPriorityRequest.builder()
            .accountId(accountId)
            .jobId(jobId)
            .priority(60)
            .build();

        CompletableFuture<Void> future = new CompletableFuture<>();
        getAsyncClient().updateJobPriority(priorityRequest)
            .thenAccept(response -> {
                System.out.println("The job priority was updated");
                future.complete(null); // Complete the CompletableFuture on successful execution
            })
            .exceptionally(ex -> {
                System.err.println("Failed to update job priority: " + ex.getMessage());
                future.completeExceptionally(ex); // Complete the CompletableFuture exceptionally on error
                return null; // Return null to handle the exception
            });

        return future;
    }

    /**
     * Asynchronously retrieves the tags associated with a specific job in an AWS account.
     *
     * @param jobId     the ID of the job for which to retrieve the tags
     * @param accountId the ID of the AWS account associated with the job
     * @return a {@link CompletableFuture} that completes when the job tags have been retrieved, or with an exception if the operation fails
     * @throws RuntimeException if an error occurs while retrieving the job tags
     */
    public CompletableFuture<Void> getJobTagsAsync(String jobId, String accountId) {
        GetJobTaggingRequest request = GetJobTaggingRequest.builder()
            .jobId(jobId)
            .accountId(accountId)
            .build();

        return asyncClient.getJobTagging(request)
            .thenAccept(response -> {
                List<S3Tag> tags = response.tags();
                if (tags.isEmpty()) {
                    System.out.println("No tags found for job ID: " + jobId);
                } else {
                    for (S3Tag tag : tags) {
                        System.out.println("Tag key is: " + tag.key());
                        System.out.println("Tag value is: " + tag.value());
                    }
                }
            })
            .exceptionally(ex -> {
                System.err.println("Failed to get job tags: " + ex.getMessage());
                throw new RuntimeException(ex); // Propagate the exception
            });
    }

    /**
     * Asynchronously deletes the tags associated with a specific batch job.
     *
     * @param jobId     The ID of the batch job whose tags should be deleted.
     * @param accountId The ID of the account associated with the batch job.
     * @return A CompletableFuture that completes when the job tags have been successfully deleted, or an exception is thrown if the deletion fails.
     */
    public CompletableFuture<Void> deleteBatchJobTagsAsync(String jobId, String accountId) {
        DeleteJobTaggingRequest jobTaggingRequest = DeleteJobTaggingRequest.builder()
            .accountId(accountId)
            .jobId(jobId)
            .build();

        return asyncClient.deleteJobTagging(jobTaggingRequest)
            .thenAccept(response -> {
                System.out.println("You have successfully deleted " + jobId + " tagging.");
            })
            .exceptionally(ex -> {
                System.err.println("Failed to delete job tags: " + ex.getMessage());
                throw new RuntimeException(ex);
            });
    }

    /**
     * Asynchronously describes the specified job.
     *
     * @param jobId     the ID of the job to describe
     * @param accountId the ID of the AWS account associated with the job
     * @return a {@link CompletableFuture} that completes when the job description is available
     * @throws RuntimeException if an error occurs while describing the job
     */
    public CompletableFuture<Void> describeJobAsync(String jobId, String accountId) {
        DescribeJobRequest jobRequest = DescribeJobRequest.builder()
            .jobId(jobId)
            .accountId(accountId)
            .build();

        return getAsyncClient().describeJob(jobRequest)
            .thenAccept(response -> {
                System.out.println("Job ID: " + response.job().jobId());
                System.out.println("Description: " + response.job().description());
                System.out.println("Status: " + response.job().statusAsString());
                System.out.println("Role ARN: " + response.job().roleArn());
                System.out.println("Priority: " + response.job().priority());
                System.out.println("Progress Summary: " + response.job().progressSummary());

                // Print out details about the job manifest.
                JobManifest manifest = response.job().manifest();
                System.out.println("Manifest Location: " + manifest.location().objectArn());
                System.out.println("Manifest ETag: " + manifest.location().eTag());

                // Print out details about the job operation.
                JobOperation operation = response.job().operation();
                if (operation.s3PutObjectTagging() != null) {
                    System.out.println("Operation: S3 Put Object Tagging");
                    System.out.println("Tag Set: " + operation.s3PutObjectTagging().tagSet());
                }

                // Print out details about the job report.
                JobReport report = response.job().report();
                System.out.println("Report Bucket: " + report.bucket());
                System.out.println("Report Prefix: " + report.prefix());
                System.out.println("Report Format: " + report.format());
                System.out.println("Report Enabled: " + report.enabled());
                System.out.println("Report Scope: " + report.reportScopeAsString());
            })
            .exceptionally(ex -> {
                System.err.println("Failed to describe job: " + ex.getMessage());
                throw new RuntimeException(ex);
            });
    }

    /**
     * Creates an asynchronous S3 job using the AWS Java SDK.
     *
     * @param accountId         the AWS account ID associated with the job
     * @param iamRoleArn        the ARN of the IAM role to be used for the job
     * @param manifestLocation  the location of the job manifest file in S3
     * @param reportBucketName  the name of the S3 bucket to store the job report
     * @param uuid              a unique identifier for the job
     * @return a CompletableFuture that represents the asynchronous creation of the S3 job.
     *         The CompletableFuture will return the job ID if the job is created successfully,
     *         or throw an exception if there is an error.
     */
    public CompletableFuture<String> createS3JobAsync(String accountId, String iamRoleArn,
                                                      String manifestLocation, String reportBucketName, String uuid) {

        String[] bucketName = new String[]{""};
        String[] parts = reportBucketName.split(":::");
        if (parts.length > 1) {
            bucketName[0] = parts[1];
        } else {
            System.out.println("The input string does not contain the expected format.");
        }

        return CompletableFuture.supplyAsync(() -> getETag(bucketName[0], "job-manifest.csv"))
            .thenCompose(eTag -> {
                  ArrayList<S3Tag> tagSet = new ArrayList<>();
                S3Tag s3Tag = S3Tag.builder()
                    .key("keyOne")
                    .value("ValueOne")
                    .build();
                S3Tag s3Tag2 = S3Tag.builder()
                    .key("keyTwo")
                    .value("ValueTwo")
                    .build();
                tagSet.add(s3Tag);
                tagSet.add(s3Tag2);

                S3SetObjectTaggingOperation objectTaggingOperation = S3SetObjectTaggingOperation.builder()
                    .tagSet(tagSet)
                    .build();

                JobOperation jobOperation = JobOperation.builder()
                    .s3PutObjectTagging(objectTaggingOperation)
                    .build();

                JobManifestLocation jobManifestLocation = JobManifestLocation.builder()
                    .objectArn(manifestLocation)
                    .eTag(eTag)
                    .build();

                JobManifestSpec manifestSpec = JobManifestSpec.builder()
                    .fieldsWithStrings("Bucket", "Key")
                    .format("S3BatchOperations_CSV_20180820")
                    .build();

                JobManifest jobManifest = JobManifest.builder()
                    .spec(manifestSpec)
                    .location(jobManifestLocation)
                    .build();

                JobReport jobReport = JobReport.builder()
                    .bucket(reportBucketName)
                    .prefix("reports")
                    .format("Report_CSV_20180820")
                    .enabled(true)
                    .reportScope("AllTasks")
                    .build();

                CreateJobRequest jobRequest = CreateJobRequest.builder()
                    .accountId(accountId)
                    .description("Job created using the AWS Java SDK")
                    .manifest(jobManifest)
                    .operation(jobOperation)
                    .report(jobReport)
                    .priority(42)
                    .roleArn(iamRoleArn)
                    .clientRequestToken(uuid)
                    .confirmationRequired(false)
                    .build();

                // Create the job asynchronously.
                 return getAsyncClient().createJob(jobRequest)
                    .thenApply(CreateJobResponse::jobId);
                 })
                 .handle((jobId, ex) -> {
                    if (ex != null) {
                    Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                    if (cause instanceof S3ControlException) {
                        throw new CompletionException(cause);
                    } else {
                        throw new RuntimeException(cause);
                    }
                }
                return jobId;
            });
    }

    /**
     * Retrieves the ETag (Entity Tag) for an object stored in an Amazon S3 bucket.
     *
     * @param bucketName the name of the Amazon S3 bucket where the object is stored
     * @param key the key (file name) of the object in the Amazon S3 bucket
     * @return the ETag of the object
     */
    public String getETag(String bucketName, String key) {
        S3Client s3Client = S3Client.builder()
            .region(Region.US_EAST_1)
            .build();

        HeadObjectRequest headObjectRequest = HeadObjectRequest.builder()
            .bucket(bucketName)
            .key(key)
            .build();

        HeadObjectResponse headObjectResponse = s3Client.headObject(headObjectRequest);
        return headObjectResponse.eTag();
    }

    /**
     * Asynchronously adds tags to a job in the system.
     *
     * @param jobId     the ID of the job to add tags to
     * @param accountId the account ID associated with the job
     * @return a CompletableFuture that completes when the tagging operation is finished
     */
    public CompletableFuture<Void> putJobTaggingAsync(String jobId, String accountId) {
        S3Tag departmentTag = S3Tag.builder()
            .key("department")
            .value("Marketing")
            .build();

        S3Tag fiscalYearTag = S3Tag.builder()
            .key("FiscalYear")
            .value("2020")
            .build();

        PutJobTaggingRequest putJobTaggingRequest = PutJobTaggingRequest.builder()
            .jobId(jobId)
            .accountId(accountId)
            .tags(departmentTag, fiscalYearTag)
            .build();

        return asyncClient.putJobTagging(putJobTaggingRequest)
            .thenRun(() -> {
                System.out.println("Additional Tags were added to job " + jobId);
            })
            .exceptionally(ex -> {
                System.err.println("Failed to add tags to job: " + ex.getMessage());
                throw new RuntimeException(ex); // Propagate the exception
            });
    }

    // Setup the S3 bucket required for this scenario.
    /**
     * Creates an Amazon S3 bucket with the specified name.
     *
     * @param bucketName the name of the S3 bucket to create
     * @throws S3Exception if there is an error creating the bucket
     */
    public void createBucket(String bucketName) {
        try {
            S3Client s3Client = S3Client.builder()
                .region(Region.US_EAST_1)
                .build();


            S3Waiter s3Waiter = s3Client.waiter();
            CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
                .bucket(bucketName)
                .build();

            s3Client.createBucket(bucketRequest);
            HeadBucketRequest bucketRequestWait = HeadBucketRequest.builder()
                .bucket(bucketName)
                .build();

            // Wait until the bucket is created and print out the response.
            WaiterResponse<HeadBucketResponse> waiterResponse = s3Waiter.waitUntilBucketExists(bucketRequestWait);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println(bucketName + " is ready");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    /**
     * Uploads a file to an Amazon S3 bucket asynchronously.
     *
     * @param bucketName the name of the S3 bucket to upload the file to
     * @param fileName the name of the file to be uploaded
     * @throws RuntimeException if an error occurs during the file upload
     */
    public void populateBucket(String bucketName, String fileName) {
        // Define the path to the directory.
        Path filePath = Paths.get("src/main/resources/batch/", fileName).toAbsolutePath();
        PutObjectRequest putOb = PutObjectRequest.builder()
            .bucket(bucketName)
            .key(fileName)
            .build();

        CompletableFuture<PutObjectResponse> future = getS3AsyncClient().putObject(putOb, AsyncRequestBody.fromFile(filePath));
        future.whenComplete((result, ex) -> {
            if (ex != null) {
                System.err.println("Error uploading file: " + ex.getMessage());
            } else {
                System.out.println("Successfully placed " + fileName + " into bucket " + bucketName);
            }
        }).join();
    }


    // Update the bucketName in CSV.
    public void updateCSV(String newValue) {
        Path csvFilePath = Paths.get("src/main/resources/batch/job-manifest.csv").toAbsolutePath();
        try {
            // Read all lines from the CSV file.
            List<String> lines = Files.readAllLines(csvFilePath);

            // Update the first value in each line.
            List<String> updatedLines = lines.stream()
                .map(line -> {
                    String[] parts = line.split(",");
                    parts[0] = newValue;
                    return String.join(",", parts);
                })
                .collect(Collectors.toList());

            // Write the updated lines back to the CSV file
            Files.write(csvFilePath, updatedLines);
            System.out.println("CSV file updated successfully.");
        } catch (Exception e) {
            e.printStackTrace();
        }
    }

    /**
     * Deletes an object from an Amazon S3 bucket asynchronously.
     *
     * @param bucketName The name of the S3 bucket where the object is stored.
     * @param objectName The name of the object to be deleted.
     * @return A {@link CompletableFuture} that completes when the object has been deleted,
     *         or throws a {@link RuntimeException} if an error occurs during the deletion.
     */
    public CompletableFuture<Void> deleteBucketObjects(String bucketName, String objectName) {
        ArrayList<ObjectIdentifier> toDelete = new ArrayList<>();
        toDelete.add(ObjectIdentifier.builder()
            .key(objectName)
            .build());

        DeleteObjectsRequest dor = DeleteObjectsRequest.builder()
            .bucket(bucketName)
            .delete(Delete.builder()
                .objects(toDelete).build())
            .build();

        return getS3AsyncClient().deleteObjects(dor)
            .thenAccept(result -> {
                System.out.println("The object was deleted!");
            })
            .exceptionally(ex -> {
                throw new RuntimeException("Error deleting object: " + ex.getMessage(), ex);
            });
    }

    /**
     * Deletes a folder and all its contents asynchronously from an Amazon S3 bucket.
     *
     * @param bucketName the name of the S3 bucket containing the folder to be deleted
     * @return a {@link CompletableFuture} that completes when the folder and its contents have been deleted
     * @throws RuntimeException if any error occurs during the deletion process
     */
    public void deleteBucketFolderAsync(String bucketName) {
        String folderName = "reports/";
        ListObjectsV2Request request = ListObjectsV2Request.builder()
            .bucket(bucketName)
            .prefix(folderName)
            .build();

        CompletableFuture<ListObjectsV2Response> listObjectsFuture = getS3AsyncClient().listObjectsV2(request);
        listObjectsFuture.thenCompose(response -> {
            List<CompletableFuture<DeleteObjectResponse>> deleteFutures = response.contents().stream()
                .map(obj -> {
                    DeleteObjectRequest deleteRequest = DeleteObjectRequest.builder()
                        .bucket(bucketName)
                        .key(obj.key())
                        .build();
                    return getS3AsyncClient().deleteObject(deleteRequest)
                        .thenApply(deleteResponse -> {
                            System.out.println("Deleted object: " + obj.key());
                            return deleteResponse;
                        });
                })
                .collect(Collectors.toList());

            return CompletableFuture.allOf(deleteFutures.toArray(new CompletableFuture[0]))
                .thenCompose(v -> {
                    // Delete the folder.
                    DeleteObjectRequest deleteRequest = DeleteObjectRequest.builder()
                        .bucket(bucketName)
                        .key(folderName)
                        .build();
                    return getS3AsyncClient().deleteObject(deleteRequest)
                        .thenApply(deleteResponse -> {
                            System.out.println("Deleted folder: " + folderName);
                            return deleteResponse;
                        });
                });
        }).join();
    }

    /**
     * Deletes an Amazon S3 bucket.
     *
     * @param bucketName the name of the bucket to delete
     * @return a {@link CompletableFuture} that completes when the bucket has been deleted, or exceptionally if there is an error
     * @throws RuntimeException if there is an error deleting the bucket
     */
    public CompletableFuture<Void> deleteBucket(String bucketName) {
        S3AsyncClient s3Client = getS3AsyncClient();
        return s3Client.deleteBucket(DeleteBucketRequest.builder()
                .bucket(bucketName)
                .build())
            .thenAccept(deleteBucketResponse -> {
                System.out.println(bucketName + " was deleted");
            })
            .exceptionally(ex -> {
                // Handle the exception or rethrow it.
                throw new RuntimeException("Failed to delete bucket: " + bucketName, ex);
            });
    }

    /**
     * Uploads a set of files to an Amazon S3 bucket.
     *
     * @param bucketName the name of the S3 bucket to upload the files to
     * @param fileNames an array of file names to be uploaded
     * @param actions an instance of {@link S3BatchActions} that provides the implementation for the necessary S3 operations
     * @throws IOException if there's an error creating the text files or uploading the files to the S3 bucket
     */
    public static void uploadFilesToBucket(String bucketName, String[] fileNames, S3BatchActions actions) throws IOException {
        actions.updateCSV(bucketName);
        createTextFiles(fileNames);
        for (String fileName : fileNames) {
            actions.populateBucket(bucketName, fileName);
        }
        System.out.println("All files are placed in the S3 bucket " + bucketName);
    }

    /**
     * Deletes the specified files from the given S3 bucket.
     *
     * @param bucketName the name of the S3 bucket
     * @param fileNames an array of file names to be deleted from the bucket
     * @param actions the S3BatchActions instance to be used for the file deletion
     * @throws IOException if an I/O error occurs during the file deletion
     */
    public void deleteFilesFromBucket(String bucketName, String[] fileNames, S3BatchActions actions) throws IOException {
        for (String fileName : fileNames) {
                   actions.deleteBucketObjects(bucketName, fileName)
                  .thenRun(() -> System.out.println("Object deletion completed"))
                  .exceptionally(ex -> {
                      System.err.println("Error occurred: " + ex.getMessage());
                      return null;
                  });
        }
        System.out.println("All files have been deleted from the bucket " + bucketName);
    }

    public static void createTextFiles(String[] fileNames) {
        String currentDirectory = System.getProperty("user.dir");
        String directoryPath = currentDirectory + "\\src\\main\\resources\\batch";
        Path path = Paths.get(directoryPath);

        try {
            // Create the directory if it doesn't exist.
            if (Files.notExists(path)) {
                Files.createDirectories(path);
                System.out.println("Created directory: " + path.toString());
            } else {
                System.out.println("Directory already exists: " + path.toString());
            }

            for (String fileName : fileNames) {
                // Check if the file is a .txt file.
                if (fileName.endsWith(".txt")) {
                    // Define the path for the new file.
                    Path filePath = path.resolve(fileName);
                    System.out.println("Attempting to create file: " + filePath.toString());

                    // Create and write content to the new file.
                    Files.write(filePath, "This is a test".getBytes());

                    // Verify the file was created.
                    if (Files.exists(filePath)) {
                        System.out.println("Successfully created file: " + filePath.toString());
                    } else {
                        System.out.println("Failed to create file: " + filePath.toString());
                    }
                }
            }

        } catch (IOException e) {
            System.err.println("An error occurred: " + e.getMessage());
            e.printStackTrace();
        }
    }

    public String getAccountId() {
        StsClient stsClient = StsClient.builder()
            .region(Region.US_EAST_1)
            .build();

        GetCallerIdentityResponse callerIdentityResponse = stsClient.getCallerIdentity();
        return callerIdentityResponse.account();
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/CreateJob)
  + [DeleteJobTagging](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/DeleteJobTagging)
  + [DescribeJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/DescribeJob)
  + [GetJobTagging](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/GetJobTagging)
  + [ListJobs](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/ListJobs)
  + [PutJobTagging](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/PutJobTagging)
  + [UpdateJobPriority](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/UpdateJobPriority)
  + [UpdateJobStatus](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/UpdateJobStatus)

## Tindakan
<a name="actions"></a>

### `CreateJob`
<a name="s3-control_CreateJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 
Buat pekerjaan S3 asinkron.  

```
    /**
     * Creates an asynchronous S3 job using the AWS Java SDK.
     *
     * @param accountId         the AWS account ID associated with the job
     * @param iamRoleArn        the ARN of the IAM role to be used for the job
     * @param manifestLocation  the location of the job manifest file in S3
     * @param reportBucketName  the name of the S3 bucket to store the job report
     * @param uuid              a unique identifier for the job
     * @return a CompletableFuture that represents the asynchronous creation of the S3 job.
     *         The CompletableFuture will return the job ID if the job is created successfully,
     *         or throw an exception if there is an error.
     */
    public CompletableFuture<String> createS3JobAsync(String accountId, String iamRoleArn,
                                                      String manifestLocation, String reportBucketName, String uuid) {

        String[] bucketName = new String[]{""};
        String[] parts = reportBucketName.split(":::");
        if (parts.length > 1) {
            bucketName[0] = parts[1];
        } else {
            System.out.println("The input string does not contain the expected format.");
        }

        return CompletableFuture.supplyAsync(() -> getETag(bucketName[0], "job-manifest.csv"))
            .thenCompose(eTag -> {
                  ArrayList<S3Tag> tagSet = new ArrayList<>();
                S3Tag s3Tag = S3Tag.builder()
                    .key("keyOne")
                    .value("ValueOne")
                    .build();
                S3Tag s3Tag2 = S3Tag.builder()
                    .key("keyTwo")
                    .value("ValueTwo")
                    .build();
                tagSet.add(s3Tag);
                tagSet.add(s3Tag2);

                S3SetObjectTaggingOperation objectTaggingOperation = S3SetObjectTaggingOperation.builder()
                    .tagSet(tagSet)
                    .build();

                JobOperation jobOperation = JobOperation.builder()
                    .s3PutObjectTagging(objectTaggingOperation)
                    .build();

                JobManifestLocation jobManifestLocation = JobManifestLocation.builder()
                    .objectArn(manifestLocation)
                    .eTag(eTag)
                    .build();

                JobManifestSpec manifestSpec = JobManifestSpec.builder()
                    .fieldsWithStrings("Bucket", "Key")
                    .format("S3BatchOperations_CSV_20180820")
                    .build();

                JobManifest jobManifest = JobManifest.builder()
                    .spec(manifestSpec)
                    .location(jobManifestLocation)
                    .build();

                JobReport jobReport = JobReport.builder()
                    .bucket(reportBucketName)
                    .prefix("reports")
                    .format("Report_CSV_20180820")
                    .enabled(true)
                    .reportScope("AllTasks")
                    .build();

                CreateJobRequest jobRequest = CreateJobRequest.builder()
                    .accountId(accountId)
                    .description("Job created using the AWS Java SDK")
                    .manifest(jobManifest)
                    .operation(jobOperation)
                    .report(jobReport)
                    .priority(42)
                    .roleArn(iamRoleArn)
                    .clientRequestToken(uuid)
                    .confirmationRequired(false)
                    .build();

                // Create the job asynchronously.
                 return getAsyncClient().createJob(jobRequest)
                    .thenApply(CreateJobResponse::jobId);
                 })
                 .handle((jobId, ex) -> {
                    if (ex != null) {
                    Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                    if (cause instanceof S3ControlException) {
                        throw new CompletionException(cause);
                    } else {
                        throw new RuntimeException(cause);
                    }
                }
                return jobId;
            });
    }
```
Buat pekerjaan retensi kepatuhan.  

```
    /**
     * Creates a compliance retention job in Amazon S3 Control.
     * <p>
     * A compliance retention job in Amazon S3 Control is a feature that allows you to
     * set a retention period for objects stored in an S3 bucket.
     * This feature is particularly useful for organizations that need to comply with
     * regulatory requirements or internal policies that mandate the retention of data for
     * a specific duration.
     *
     * @param s3ControlClient The S3ControlClient instance to use for the API call.
     * @return The job ID of the created compliance retention job.
     */
    public static String createComplianceRetentionJob(final S3ControlClient s3ControlClient, String roleArn, String bucketName, String accountId) {
        final String manifestObjectArn = "arn:aws:s3:::amzn-s3-demo-manifest-bucket/compliance-objects-manifest.csv";
        final String manifestObjectVersionId = "your-object-version-Id";

        Instant jan2025 = Instant.parse("2025-01-01T00:00:00Z");
        JobOperation jobOperation = JobOperation.builder()
            .s3PutObjectRetention(S3SetObjectRetentionOperation.builder()
                .retention(S3Retention.builder()
                    .mode(S3ObjectLockRetentionMode.COMPLIANCE)
                    .retainUntilDate(jan2025)
                    .build())
                .build())
            .build();

        JobManifestLocation manifestLocation = JobManifestLocation.builder()
            .objectArn(manifestObjectArn)
            .eTag(manifestObjectVersionId)
            .build();

        JobManifestSpec manifestSpec = JobManifestSpec.builder()
            .fieldsWithStrings("Bucket", "Key")
            .format("S3BatchOperations_CSV_20180820")
            .build();

        JobManifest manifestToPublicApi = JobManifest.builder()
            .location(manifestLocation)
            .spec(manifestSpec)
            .build();

        // Report details.
        final String jobReportBucketArn = "arn:aws:s3:::" + bucketName;
        final String jobReportPrefix = "reports/compliance-objects-bops";

        JobReport jobReport = JobReport.builder()
            .enabled(true)
            .reportScope(JobReportScope.ALL_TASKS)
            .bucket(jobReportBucketArn)
            .prefix(jobReportPrefix)
            .format(JobReportFormat.REPORT_CSV_20180820)
            .build();

        final Boolean requiresConfirmation = true;
        final int priority = 10;
        CreateJobRequest request = CreateJobRequest.builder()
            .accountId(accountId)
            .description("Set compliance retain-until to 1 Jan 2025")
            .manifest(manifestToPublicApi)
            .operation(jobOperation)
            .priority(priority)
            .roleArn(roleArn)
            .report(jobReport)
            .confirmationRequired(requiresConfirmation)
            .build();

        // Create the job and get the result.
        CreateJobResponse result = s3ControlClient.createJob(request);
        return result.jobId();
    }
```
Buat pekerjaan penundaan hukum.  

```
    /**
     * Creates a compliance retention job in Amazon S3 Control.
     * <p>
     * A compliance retention job in Amazon S3 Control is a feature that allows you to
     * set a retention period for objects stored in an S3 bucket.
     * This feature is particularly useful for organizations that need to comply with
     * regulatory requirements or internal policies that mandate the retention of data for
     * a specific duration.
     *
     * @param s3ControlClient The S3ControlClient instance to use for the API call.
     * @return The job ID of the created compliance retention job.
     */
    public static String createComplianceRetentionJob(final S3ControlClient s3ControlClient, String roleArn, String bucketName, String accountId) {
        final String manifestObjectArn = "arn:aws:s3:::amzn-s3-demo-manifest-bucket/compliance-objects-manifest.csv";
        final String manifestObjectVersionId = "your-object-version-Id";

        Instant jan2025 = Instant.parse("2025-01-01T00:00:00Z");
        JobOperation jobOperation = JobOperation.builder()
            .s3PutObjectRetention(S3SetObjectRetentionOperation.builder()
                .retention(S3Retention.builder()
                    .mode(S3ObjectLockRetentionMode.COMPLIANCE)
                    .retainUntilDate(jan2025)
                    .build())
                .build())
            .build();

        JobManifestLocation manifestLocation = JobManifestLocation.builder()
            .objectArn(manifestObjectArn)
            .eTag(manifestObjectVersionId)
            .build();

        JobManifestSpec manifestSpec = JobManifestSpec.builder()
            .fieldsWithStrings("Bucket", "Key")
            .format("S3BatchOperations_CSV_20180820")
            .build();

        JobManifest manifestToPublicApi = JobManifest.builder()
            .location(manifestLocation)
            .spec(manifestSpec)
            .build();

        // Report details.
        final String jobReportBucketArn = "arn:aws:s3:::" + bucketName;
        final String jobReportPrefix = "reports/compliance-objects-bops";

        JobReport jobReport = JobReport.builder()
            .enabled(true)
            .reportScope(JobReportScope.ALL_TASKS)
            .bucket(jobReportBucketArn)
            .prefix(jobReportPrefix)
            .format(JobReportFormat.REPORT_CSV_20180820)
            .build();

        final Boolean requiresConfirmation = true;
        final int priority = 10;
        CreateJobRequest request = CreateJobRequest.builder()
            .accountId(accountId)
            .description("Set compliance retain-until to 1 Jan 2025")
            .manifest(manifestToPublicApi)
            .operation(jobOperation)
            .priority(priority)
            .roleArn(roleArn)
            .report(jobReport)
            .confirmationRequired(requiresConfirmation)
            .build();

        // Create the job and get the result.
        CreateJobResponse result = s3ControlClient.createJob(request);
        return result.jobId();
    }
```
Buat pekerjaan retensi tata kelola baru.  

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateGovernanceRetentionJob {

    public static void main(String[]args) throws ParseException {
        final String usage = """

            Usage:
                <manifestObjectArn> <jobReportBucketArn> <roleArn> <accountId> <manifestObjectVersionId>

            Where:
                manifestObjectArn - The Amazon Resource Name (ARN) of the S3 object that contains the manifest file for the governance objects.\s
                bucketName - The ARN of the S3 bucket where the job report will be stored.
                roleArn - The ARN of the IAM role that will be used to perform the governance retention operation.
                accountId - Your AWS account Id.
                manifestObjectVersionId =  A unique value that is used as the `eTag` property of the `JobManifestLocation` object.
            """;

        if (args.length != 4) {
            System.out.println(usage);
            return;
        }

        String manifestObjectArn = args[0];
        String jobReportBucketArn = args[1];
        String roleArn = args[2];
        String accountId = args[3];
        String manifestObjectVersionId = args[4];

        S3ControlClient s3ControlClient = S3ControlClient.create();
        createGovernanceRetentionJob(s3ControlClient, manifestObjectArn, jobReportBucketArn, roleArn, accountId, manifestObjectVersionId);
    }

    public static String createGovernanceRetentionJob(final S3ControlClient s3ControlClient, String manifestObjectArn, String jobReportBucketArn, String roleArn, String accountId, String manifestObjectVersionId) throws ParseException {
        final JobManifestLocation manifestLocation = JobManifestLocation.builder()
            .objectArn(manifestObjectArn)
            .eTag(manifestObjectVersionId)
            .build();

        final JobManifestSpec manifestSpec = JobManifestSpec.builder()
            .format(JobManifestFormat.S3_BATCH_OPERATIONS_CSV_20180820)
            .fields(Arrays.asList(JobManifestFieldName.BUCKET, JobManifestFieldName.KEY))
            .build();

        final JobManifest manifestToPublicApi = JobManifest.builder()
            .location(manifestLocation)
            .spec(manifestSpec)
            .build();

        final String jobReportPrefix = "reports/governance-objects";
        final JobReport jobReport = JobReport.builder()
            .enabled(true)
            .reportScope(JobReportScope.ALL_TASKS)
            .bucket(jobReportBucketArn)
            .prefix(jobReportPrefix)
            .format(JobReportFormat.REPORT_CSV_20180820)
            .build();

        final SimpleDateFormat format = new SimpleDateFormat("dd/MM/yyyy");
        final Date jan30th = format.parse("30/01/2025");

        final S3SetObjectRetentionOperation s3SetObjectRetentionOperation = S3SetObjectRetentionOperation.builder()
            .retention(S3Retention.builder()
                .mode(S3ObjectLockRetentionMode.GOVERNANCE)
                .retainUntilDate(jan30th.toInstant())
                .build())
            .build();

        final JobOperation jobOperation = JobOperation.builder()
            .s3PutObjectRetention(s3SetObjectRetentionOperation)
            .build();

        final Boolean requiresConfirmation = true;
        final int priority = 10;

        final CreateJobRequest request = CreateJobRequest.builder()
            .accountId(accountId)
            .description("Put governance retention")
            .manifest(manifestToPublicApi)
            .operation(jobOperation)
            .priority(priority)
            .roleArn(roleArn)
            .report(jobReport)
            .confirmationRequired(requiresConfirmation)
            .build();

        final CreateJobResponse result = s3ControlClient.createJob(request);
        return result.jobId();
    }
}
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/CreateJob)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteJobTagging`
<a name="s3-control_DeleteJobTagging_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJobTagging`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 

```
    /**
     * Asynchronously deletes the tags associated with a specific batch job.
     *
     * @param jobId     The ID of the batch job whose tags should be deleted.
     * @param accountId The ID of the account associated with the batch job.
     * @return A CompletableFuture that completes when the job tags have been successfully deleted, or an exception is thrown if the deletion fails.
     */
    public CompletableFuture<Void> deleteBatchJobTagsAsync(String jobId, String accountId) {
        DeleteJobTaggingRequest jobTaggingRequest = DeleteJobTaggingRequest.builder()
            .accountId(accountId)
            .jobId(jobId)
            .build();

        return asyncClient.deleteJobTagging(jobTaggingRequest)
            .thenAccept(response -> {
                System.out.println("You have successfully deleted " + jobId + " tagging.");
            })
            .exceptionally(ex -> {
                System.err.println("Failed to delete job tags: " + ex.getMessage());
                throw new RuntimeException(ex);
            });
    }
```
+  Untuk detail API, lihat [DeleteJobTagging](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/DeleteJobTagging)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeJob`
<a name="s3-control_DescribeJob_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeJob`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 

```
    /**
     * Asynchronously describes the specified job.
     *
     * @param jobId     the ID of the job to describe
     * @param accountId the ID of the AWS account associated with the job
     * @return a {@link CompletableFuture} that completes when the job description is available
     * @throws RuntimeException if an error occurs while describing the job
     */
    public CompletableFuture<Void> describeJobAsync(String jobId, String accountId) {
        DescribeJobRequest jobRequest = DescribeJobRequest.builder()
            .jobId(jobId)
            .accountId(accountId)
            .build();

        return getAsyncClient().describeJob(jobRequest)
            .thenAccept(response -> {
                System.out.println("Job ID: " + response.job().jobId());
                System.out.println("Description: " + response.job().description());
                System.out.println("Status: " + response.job().statusAsString());
                System.out.println("Role ARN: " + response.job().roleArn());
                System.out.println("Priority: " + response.job().priority());
                System.out.println("Progress Summary: " + response.job().progressSummary());

                // Print out details about the job manifest.
                JobManifest manifest = response.job().manifest();
                System.out.println("Manifest Location: " + manifest.location().objectArn());
                System.out.println("Manifest ETag: " + manifest.location().eTag());

                // Print out details about the job operation.
                JobOperation operation = response.job().operation();
                if (operation.s3PutObjectTagging() != null) {
                    System.out.println("Operation: S3 Put Object Tagging");
                    System.out.println("Tag Set: " + operation.s3PutObjectTagging().tagSet());
                }

                // Print out details about the job report.
                JobReport report = response.job().report();
                System.out.println("Report Bucket: " + report.bucket());
                System.out.println("Report Prefix: " + report.prefix());
                System.out.println("Report Format: " + report.format());
                System.out.println("Report Enabled: " + report.enabled());
                System.out.println("Report Scope: " + report.reportScopeAsString());
            })
            .exceptionally(ex -> {
                System.err.println("Failed to describe job: " + ex.getMessage());
                throw new RuntimeException(ex);
            });
    }
```
+  Untuk detail API, lihat [DescribeJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/DescribeJob)di *Referensi AWS SDK for Java 2.x API*. 

### `GetJobTagging`
<a name="s3-control_GetJobTagging_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobTagging`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 

```
    /**
     * Asynchronously retrieves the tags associated with a specific job in an AWS account.
     *
     * @param jobId     the ID of the job for which to retrieve the tags
     * @param accountId the ID of the AWS account associated with the job
     * @return a {@link CompletableFuture} that completes when the job tags have been retrieved, or with an exception if the operation fails
     * @throws RuntimeException if an error occurs while retrieving the job tags
     */
    public CompletableFuture<Void> getJobTagsAsync(String jobId, String accountId) {
        GetJobTaggingRequest request = GetJobTaggingRequest.builder()
            .jobId(jobId)
            .accountId(accountId)
            .build();

        return asyncClient.getJobTagging(request)
            .thenAccept(response -> {
                List<S3Tag> tags = response.tags();
                if (tags.isEmpty()) {
                    System.out.println("No tags found for job ID: " + jobId);
                } else {
                    for (S3Tag tag : tags) {
                        System.out.println("Tag key is: " + tag.key());
                        System.out.println("Tag value is: " + tag.value());
                    }
                }
            })
            .exceptionally(ex -> {
                System.err.println("Failed to get job tags: " + ex.getMessage());
                throw new RuntimeException(ex); // Propagate the exception
            });
    }
```
+  Untuk detail API, lihat [GetJobTagging](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/GetJobTagging)di *Referensi AWS SDK for Java 2.x API*. 

### `PutJobTagging`
<a name="s3-control_PutJobTagging_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutJobTagging`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 

```
    /**
     * Asynchronously adds tags to a job in the system.
     *
     * @param jobId     the ID of the job to add tags to
     * @param accountId the account ID associated with the job
     * @return a CompletableFuture that completes when the tagging operation is finished
     */
    public CompletableFuture<Void> putJobTaggingAsync(String jobId, String accountId) {
        S3Tag departmentTag = S3Tag.builder()
            .key("department")
            .value("Marketing")
            .build();

        S3Tag fiscalYearTag = S3Tag.builder()
            .key("FiscalYear")
            .value("2020")
            .build();

        PutJobTaggingRequest putJobTaggingRequest = PutJobTaggingRequest.builder()
            .jobId(jobId)
            .accountId(accountId)
            .tags(departmentTag, fiscalYearTag)
            .build();

        return asyncClient.putJobTagging(putJobTaggingRequest)
            .thenRun(() -> {
                System.out.println("Additional Tags were added to job " + jobId);
            })
            .exceptionally(ex -> {
                System.err.println("Failed to add tags to job: " + ex.getMessage());
                throw new RuntimeException(ex); // Propagate the exception
            });
    }
```
+  Untuk detail API, lihat [PutJobTagging](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/PutJobTagging)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateJobPriority`
<a name="s3-control_UpdateJobPriority_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateJobPriority`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 

```
    /**
     * Updates the priority of a job asynchronously.
     *
     * @param jobId     the ID of the job to update
     * @param accountId the ID of the account associated with the job
     * @return a {@link CompletableFuture} that represents the asynchronous operation, which completes when the job priority has been updated or an error has occurred
     */
    public CompletableFuture<Void> updateJobPriorityAsync(String jobId, String accountId) {
        UpdateJobPriorityRequest priorityRequest = UpdateJobPriorityRequest.builder()
            .accountId(accountId)
            .jobId(jobId)
            .priority(60)
            .build();

        CompletableFuture<Void> future = new CompletableFuture<>();
        getAsyncClient().updateJobPriority(priorityRequest)
            .thenAccept(response -> {
                System.out.println("The job priority was updated");
                future.complete(null); // Complete the CompletableFuture on successful execution
            })
            .exceptionally(ex -> {
                System.err.println("Failed to update job priority: " + ex.getMessage());
                future.completeExceptionally(ex); // Complete the CompletableFuture exceptionally on error
                return null; // Return null to handle the exception
            });

        return future;
    }
```
+  Untuk detail API, lihat [UpdateJobPriority](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/UpdateJobPriority)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateJobStatus`
<a name="s3-control_UpdateJobStatus_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateJobStatus`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/batch#code-examples). 

```
    /**
     * Cancels a job asynchronously.
     *
     * @param jobId The ID of the job to be canceled.
     * @param accountId The ID of the account associated with the job.
     * @return A {@link CompletableFuture} that completes when the job status has been updated to "CANCELLED".
     *         If an error occurs during the update, the returned future will complete exceptionally.
     */
    public CompletableFuture<Void> cancelJobAsync(String jobId, String accountId) {
        UpdateJobStatusRequest updateJobStatusRequest = UpdateJobStatusRequest.builder()
            .accountId(accountId)
            .jobId(jobId)
            .requestedJobStatus(String.valueOf(JobStatus.CANCELLED))
            .build();

        return asyncClient.updateJobStatus(updateJobStatusRequest)
            .thenAccept(updateJobStatusResponse -> {
                System.out.println("Job status updated to: " + updateJobStatusResponse.status());
            })
            .exceptionally(ex -> {
                System.err.println("Failed to cancel job: " + ex.getMessage());
                throw new RuntimeException(ex); // Propagate the exception
            });
    }
```
+  Untuk detail API, lihat [UpdateJobStatus](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3control-2018-08-20/UpdateJobStatus)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Bucket Direktori S3 menggunakan SDK for Java 2.x
<a name="java_2_s3-directory-buckets_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Bucket Direktori AWS SDK for Java 2.x with S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo ember direktori Amazon S3
<a name="s3-directory-buckets_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan bucket direktori Amazon S3.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 

```
package com.example.s3.directorybucket;


import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.Bucket;
import software.amazon.awssdk.services.s3.model.BucketInfo;
import software.amazon.awssdk.services.s3.model.BucketType;
import software.amazon.awssdk.services.s3.model.CreateBucketConfiguration;
import software.amazon.awssdk.services.s3.model.CreateBucketRequest;
import software.amazon.awssdk.services.s3.model.CreateBucketResponse;
import software.amazon.awssdk.services.s3.model.DataRedundancy;
import software.amazon.awssdk.services.s3.model.DeleteBucketRequest;
import software.amazon.awssdk.services.s3.model.ListDirectoryBucketsRequest;
import software.amazon.awssdk.services.s3.model.ListDirectoryBucketsResponse;
import software.amazon.awssdk.services.s3.model.LocationInfo;
import software.amazon.awssdk.services.s3.model.LocationType;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.util.List;
import java.util.stream.Collectors;

import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;

/**
 * Before running this example:
 * <p>
 * The SDK must be able to authenticate AWS requests on your behalf. If you have
 * not configured
 * authentication for SDKs and tools, see
 * https://docs.aws.amazon.com/sdkref/latest/guide/access.html in the AWS SDKs
 * and Tools Reference Guide.
 * <p>
 * You must have a runtime environment configured with the Java SDK.
 * See
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/setup.html in
 * the Developer Guide if this is not set up.
 * <p>
 * To use S3 directory buckets, configure a gateway VPC endpoint. This is the
 * recommended method to enable directory bucket traffic without
 * requiring an internet gateway or NAT device. For more information on
 * configuring VPC gateway endpoints, visit
 * https://docs.aws.amazon.com/AmazonS3/latest/userguide/s3-express-networking.html#s3-express-networking-vpc-gateway.
 * <p>
 * Directory buckets are available in specific AWS Regions and Zones. For
 * details on Regions and Zones supporting directory buckets, see
 * https://docs.aws.amazon.com/AmazonS3/latest/userguide/s3-express-networking.html#s3-express-endpoints.
 */

public class HelloS3DirectoryBuckets {
    private static final Logger logger = LoggerFactory.getLogger(HelloS3DirectoryBuckets.class);

    public static void main(String[] args) {
        String bucketName = "test-bucket-" + System.currentTimeMillis() + "--usw2-az1--x-s3";
        Region region = Region.US_WEST_2;
        String zone = "usw2-az1";
        S3Client s3Client = createS3Client(region);

        try {
            // Create the directory bucket
            createDirectoryBucket(s3Client, bucketName, zone);
            logger.info("Created bucket: {}", bucketName);

            // List all directory buckets
            List<String> bucketNames = listDirectoryBuckets(s3Client);
            bucketNames.forEach(name -> logger.info("Bucket Name: {}", name));
        } catch (S3Exception e) {
            logger.error("An error occurred during S3 operations: {} - Error code: {}",
                    e.awsErrorDetails().errorMessage(), e.awsErrorDetails().errorCode(), e);
        } finally {
            try {
                // Delete the created bucket
                deleteDirectoryBucket(s3Client, bucketName);
                logger.info("Deleted bucket: {}", bucketName);
            } catch (S3Exception e) {
                logger.error("Failed to delete the bucket due to S3 error: {} - Error code: {}",
                        e.awsErrorDetails().errorMessage(), e.awsErrorDetails().errorCode(), e);
            } catch (RuntimeException e) {
                logger.error("Failed to delete the bucket due to unexpected error: {}", e.getMessage(), e);
            } finally {
                s3Client.close();
            }
        }
    }

    /**
     * Creates a new S3 directory bucket in a specified Zone (For example, a
     * specified Availability Zone in this code example).
     *
     * @param s3Client   The S3 client used to create the bucket
     * @param bucketName The name of the bucket to be created
     * @param zone       The region where the bucket will be created
     * @throws S3Exception if there's an error creating the bucket
     */
    public static void createDirectoryBucket(S3Client s3Client, String bucketName, String zone) throws S3Exception {
        logger.info("Creating bucket: {}", bucketName);

        CreateBucketConfiguration bucketConfiguration = CreateBucketConfiguration.builder()
                .location(LocationInfo.builder()
                        .type(LocationType.AVAILABILITY_ZONE)
                        .name(zone).build())
                .bucket(BucketInfo.builder()
                        .type(BucketType.DIRECTORY)
                        .dataRedundancy(DataRedundancy.SINGLE_AVAILABILITY_ZONE)
                        .build())
                .build();
        try {
            CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
                    .bucket(bucketName)
                    .createBucketConfiguration(bucketConfiguration).build();
            CreateBucketResponse response = s3Client.createBucket(bucketRequest);
            logger.info("Bucket created successfully with location: {}", response.location());
        } catch (S3Exception e) {
            logger.error("Error creating bucket: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }

    /**
     * Lists all S3 directory buckets.
     *
     * @param s3Client The S3 client used to interact with S3
     * @return A list of bucket names
     */
    public static List<String> listDirectoryBuckets(S3Client s3Client) {
        logger.info("Listing all directory buckets");

        try {
            // Create a ListBucketsRequest
            ListDirectoryBucketsRequest listBucketsRequest = ListDirectoryBucketsRequest.builder().build();

            // Retrieve the list of buckets
            ListDirectoryBucketsResponse response = s3Client.listDirectoryBuckets(listBucketsRequest);

            // Extract bucket names
            List<String> bucketNames = response.buckets().stream()
                    .map(Bucket::name)
                    .collect(Collectors.toList());

            return bucketNames;
        } catch (S3Exception e) {
            logger.error("Failed to list buckets: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }

    /**
     * Deletes the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the bucket to delete
     */
    public static void deleteDirectoryBucket(S3Client s3Client, String bucketName) {
        try {
            DeleteBucketRequest deleteBucketRequest = DeleteBucketRequest.builder()
                    .bucket(bucketName)
                    .build();
            s3Client.deleteBucket(deleteBucketRequest);
        } catch (S3Exception e) {
            logger.error("Failed to delete bucket: " + bucketName + " - Error code: " + e.awsErrorDetails().errorCode(),
                    e);
            throw e;
        }
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateBucket)
  + [ListDirectoryBuckets](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListDirectoryBuckets)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3-directory-buckets_Scenario_ExpressBasics_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan VPC dan VPC Endpoint.
+ Siapkan Kebijakan, Peran, dan Pengguna untuk bekerja dengan bucket direktori S3 dan kelas penyimpanan S3 Express One Zone.
+ Buat dua Klien S3.
+ Buat dua bucket.
+ Buat objek dan salin.
+ Menunjukkan perbedaan kinerja.
+ Isi ember untuk menunjukkan perbedaan leksikografis.
+ Minta pengguna untuk melihat apakah mereka ingin membersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Jalankan skenario interaktif yang menunjukkan fitur Amazon S3.  

```
public class S3DirectoriesScenario {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    private static final Logger logger = LoggerFactory.getLogger(S3DirectoriesScenario.class);
    static Scanner scanner = new Scanner(System.in);

    private static S3AsyncClient mS3RegularClient;
    private static S3AsyncClient mS3ExpressClient;

    private static String mdirectoryBucketName;
    private static String mregularBucketName;

    private static String stackName = "cfn-stack-s3-express-basics--" + UUID.randomUUID();

    private static String regularUser = "";
    private static String vpcId = "";
    private static String expressUser = "";

    private static String vpcEndpointId = "";

    private static final S3DirectoriesActions s3DirectoriesActions = new S3DirectoriesActions();

    public static void main(String[] args) {
        try {
            s3ExpressScenario();
        } catch (RuntimeException e) {
            logger.info(e.getMessage());
        }
    }

    // Runs the scenario.
    private static void s3ExpressScenario() {
        logger.info(DASHES);
        logger.info("Welcome to the Amazon S3 Express Basics demo using AWS SDK for Java V2.");
        logger.info("""
            Let's get started! First, please note that S3 Express One Zone works best when working within the AWS infrastructure,
            specifically when working in the same Availability Zone (AZ). To see the best results in this example and when you implement
            directory buckets into your infrastructure, it is best to put your compute resources in the same AZ as your directory
            bucket.
            """);
        waitForInputToContinue(scanner);
        logger.info(DASHES);

        // Create an optional VPC and create 2 IAM users.
        UserNames userNames = createVpcUsers();
        String expressUserName = userNames.getExpressUserName();
        String regularUserName = userNames.getRegularUserName();

        //  Set up two S3 clients, one regular and one express,
        //  and two buckets, one regular and one directory.
        setupClientsAndBuckets(expressUserName, regularUserName);

        // Create an S3 session for the express S3 client and add objects to the buckets.
        logger.info("Now let's add some objects to our buckets and demonstrate how to work with S3 Sessions.");
        waitForInputToContinue(scanner);
        String bucketObject = createSessionAddObjects();

        // Demonstrate performance differences between regular and directory buckets.
        demonstratePerformance(bucketObject);

        // Populate the buckets to show the lexicographical difference between
        // regular and express buckets.
        showLexicographicalDifferences(bucketObject);

        logger.info(DASHES);
        logger.info("That's it for our tour of the basic operations for S3 Express One Zone.");
        logger.info("Would you like to cleanUp the AWS resources? (y/n): ");
        String response = scanner.next().trim().toLowerCase();
        if (response.equals("y")) {
            cleanUp(stackName);
        }
    }

    /*
      Delete resources created by this scenario.
    */
    public static void cleanUp(String stackName) {
        try {
            if (mdirectoryBucketName != null) {
                s3DirectoriesActions.deleteBucketAndObjectsAsync(mS3ExpressClient, mdirectoryBucketName).join();
            }
            logger.info("Deleted directory bucket " + mdirectoryBucketName);
            mdirectoryBucketName = null;
            if (mregularBucketName != null) {
                s3DirectoriesActions.deleteBucketAndObjectsAsync(mS3RegularClient, mregularBucketName).join();
            }
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof S3Exception) {
                logger.error("S3Exception occurred: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
            }
        }

        logger.info("Deleted regular bucket " + mregularBucketName);
        mregularBucketName = null;
        CloudFormationHelper.destroyCloudFormationStack(stackName);
    }

    private static void showLexicographicalDifferences(String bucketObject) {
        logger.info(DASHES);
        logger.info("""
            7. Populate the buckets to show the lexicographical (alphabetical) difference 
            when object names are listed. Now let's explore how directory buckets store 
            objects in a different manner to regular buckets. The key is in the name 
            "Directory". Where regular buckets store their key/value pairs in a 
            flat manner, directory buckets use actual directories/folders. 
            This allows for more rapid indexing, traversing, and therefore 
            retrieval times! 
                        
            The more segmented your bucket is, with lots of 
            directories, sub-directories, and objects, the more efficient it becomes. 
            This structural difference also causes `ListObject` operations to behave 
            differently, which can cause unexpected results. Let's add a few more 
            objects in sub-directories to see how the output of 
            ListObjects changes.
            """);

        waitForInputToContinue(scanner);

        //  Populate a few more files in each bucket so that we can use
        //  ListObjects and show the difference.
        String otherObject = "other/" + bucketObject;
        String altObject = "alt/" + bucketObject;
        String otherAltObject = "other/alt/" + bucketObject;

        try {
            s3DirectoriesActions.putObjectAsync(mS3RegularClient, mregularBucketName, otherObject, "").join();
            s3DirectoriesActions.putObjectAsync(mS3ExpressClient, mdirectoryBucketName, otherObject, "").join();
            s3DirectoriesActions.putObjectAsync(mS3RegularClient, mregularBucketName, altObject, "").join();
            s3DirectoriesActions.putObjectAsync(mS3ExpressClient, mdirectoryBucketName, altObject, "").join();
            s3DirectoriesActions.putObjectAsync(mS3RegularClient, mregularBucketName, otherAltObject, "").join();
            s3DirectoriesActions.putObjectAsync(mS3ExpressClient, mdirectoryBucketName, otherAltObject, "").join();

        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof NoSuchBucketException) {
                logger.error("S3Exception occurred: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
            }
            return;
        }

        try {
            // List objects in both S3 buckets.
            List<String> dirBucketObjects = s3DirectoriesActions.listObjectsAsync(mS3ExpressClient, mdirectoryBucketName).join();
            List<String> regBucketObjects = s3DirectoriesActions.listObjectsAsync(mS3RegularClient, mregularBucketName).join();

            logger.info("Directory bucket content");
            for (String obj : dirBucketObjects) {
                logger.info(obj);
            }

            logger.info("Regular bucket content");
            for (String obj : regBucketObjects) {
                logger.info(obj);
            }
        } catch (CompletionException e) {
            logger.error("Async operation failed: {} ", e.getCause().getMessage());
            return;
        }

        logger.info("""
            Notice how the regular bucket lists objects in lexicographical order, while the directory bucket does not. This is 
            because the regular bucket considers the whole "key" to be the object identifier, while the directory bucket actually 
            creates directories and uses the object "key" as a path to the object.
            """);
        waitForInputToContinue(scanner);
    }

    /**
     * Demonstrates the performance difference between downloading an object from a directory bucket and a regular bucket.
     *
     * <p>This method:
     * <ul>
     *     <li>Prompts the user to choose the number of downloads (default is 1,000).</li>
     *     <li>Downloads the specified object from the directory bucket and measures the total time.</li>
     *     <li>Downloads the same object from the regular bucket and measures the total time.</li>
     *     <li>Compares the time differences and prints the results.</li>
     * </ul>
     *
     * <p>Note: The performance difference will be more pronounced if this example is run on an EC2 instance
     * in the same Availability Zone as the buckets.
     *
     * @param bucketObject the name of the object to download
     */
    private static void demonstratePerformance(String bucketObject) {
        logger.info(DASHES);
        logger.info("6. Demonstrate the performance difference.");
        logger.info("""
            Now, let's do a performance test. We'll download the same object from each 
            bucket repeatedly and compare the total time needed. 
                        
            Note: the performance difference will be much more pronounced if this
            example is run in an EC2 instance in the same Availability Zone as 
            the bucket.
            """);
        waitForInputToContinue(scanner);

        int downloads = 1000; // Default value.
        logger.info("The default number of downloads of the same object for this example is set at " + downloads + ".");

        // Ask if the user wants to download a different number.
        logger.info("Would you like to download the file a different number of times? (y/n): ");
        String response = scanner.next().trim().toLowerCase();
        if (response.equals("y")) {
            int maxDownloads = 1_000_000;

            // Ask for a valid number of downloads.
            while (true) {
                logger.info("Enter a number between 1 and " + maxDownloads + " for the number of downloads: ");
                if (scanner.hasNextInt()) {
                    downloads = scanner.nextInt();
                    if (downloads >= 1 && downloads <= maxDownloads) {
                        break;
                    } else {
                        logger.info("Please enter a number between 1 and " + maxDownloads + ".");
                    }
                } else {
                    logger.info("Invalid input. Please enter a valid integer.");
                    scanner.next();
                }
            }

            logger.info("You have chosen to download {}  items.", downloads);
        } else {
            logger.info("No changes made. Using default downloads: {}", downloads);
        }
        // Simulating the download process for the directory bucket.
        logger.info("Downloading from the directory bucket.");
        long directoryTimeStart = System.nanoTime();
        for (int index = 0; index < downloads; index++) {
            if (index % 50 == 0) {
                logger.info("Download " + index + " of " + downloads);
            }

            try {
                // Get the object from the directory bucket.
                s3DirectoriesActions.getObjectAsync(mS3ExpressClient, mdirectoryBucketName, bucketObject).join();
            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof NoSuchKeyException) {
                    logger.error("S3Exception occurred: {}", cause.getMessage(), ce);
                } else {
                    logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
                }
                return;
            }
        }
        long directoryTimeDifference = System.nanoTime() - directoryTimeStart;

        // Download from the regular bucket.
        logger.info("Downloading from the regular bucket.");
        long normalTimeStart = System.nanoTime();
        for (int index = 0; index < downloads; index++) {
            if (index % 50 == 0) {
                logger.info("Download " + index + " of " + downloads);
            }

            try {
                s3DirectoriesActions.getObjectAsync(mS3RegularClient, mregularBucketName, bucketObject).join();
            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof NoSuchKeyException) {
                    logger.error("S3Exception occurred: {}", cause.getMessage(), ce);
                } else {
                    logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
                }
                return;
            }
        }

        long normalTimeDifference = System.nanoTime() - normalTimeStart;
        logger.info("The directory bucket took " + directoryTimeDifference + " nanoseconds, while the regular bucket took " + normalTimeDifference + " nanoseconds.");
        long difference = normalTimeDifference - directoryTimeDifference;
        logger.info("That's a difference of " + difference + " nanoseconds, or");
        logger.info(difference / 1_000_000_000.0 + " seconds.");

        if (difference < 0) {
            logger.info("The directory buckets were slower. This can happen if you are not running on the cloud within a VPC.");
        }
        waitForInputToContinue(scanner);
    }

    private static String createSessionAddObjects() {
        logger.info(DASHES);
        logger.info("""    
            5. Create an object and copy it.
            We'll create an object consisting of some text and upload it to the 
            regular bucket. 
            """);
        waitForInputToContinue(scanner);

        String bucketObject = "basic-text-object.txt";
        try {
            s3DirectoriesActions.putObjectAsync(mS3RegularClient, mregularBucketName, bucketObject, "Look Ma, I'm a bucket!").join();
            s3DirectoriesActions.createSessionAsync(mS3ExpressClient, mdirectoryBucketName).join();

            // Copy the object to the destination S3 bucket.
            s3DirectoriesActions.copyObjectAsync(mS3ExpressClient, mregularBucketName, bucketObject, mdirectoryBucketName, bucketObject).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof S3Exception) {
                logger.error("S3Exception occurred: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
            }
        }
        logger.info(""" 
            It worked! This is because the S3Client that performed the copy operation 
            is the expressClient using the credentials for the user with permission to 
            work with directory buckets. 
                        
            It's important to remember the user permissions when interacting with 
            directory buckets. Instead of validating permissions on every call as 
            regular buckets do, directory buckets utilize the user credentials and session 
            token to validate. This allows for much faster connection speeds on every call. 
            For single calls, this is low, but for many concurrent calls 
            this adds up to a lot of time saved.
            """);
        waitForInputToContinue(scanner);
        return bucketObject;
    }

    /**
     * Creates VPC users for the S3 Express One Zone scenario.
     * <p>
     * This method performs the following steps:
     * <ol>
     *     <li>Optionally creates a new VPC and VPC Endpoint if the application is running in an EC2 instance in the same Availability Zone as the directory buckets.</li>
     *     <li>Creates two IAM users: one with S3 Express One Zone permissions and one without.</li>
     * </ol>
     *
     * @return a {@link UserNames} object containing the names of the created IAM users
     */
    public static UserNames createVpcUsers() {
        /*
        Optionally create a VPC.
        Create two IAM users, one with S3 Express One Zone permissions and one without.
        */
        logger.info(DASHES);
        logger.info("""
            1. First, we'll set up a new VPC and VPC Endpoint if this program is running in an EC2 instance in the same AZ as your\s
            directory buckets will be. Are you running this in an EC2 instance located in the same AZ as your intended directory buckets?
            """);

        logger.info("Do you want to setup a VPC Endpoint? (y/n)");
        String endpointAns = scanner.nextLine().trim();
        if (endpointAns.equalsIgnoreCase("y")) {
            logger.info("""
                Great! Let's set up a VPC, retrieve the Route Table from it, and create a VPC Endpoint to connect the S3 Client to.
                """);
            try {
                s3DirectoriesActions.setupVPCAsync().join();
            } catch (CompletionException ce) {
                Throwable cause = ce.getCause();
                if (cause instanceof Ec2Exception) {
                    logger.error("IamException occurred: {}", cause.getMessage(), ce);
                } else {
                    logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
                }
            }
            waitForInputToContinue(scanner);
        } else {
            logger.info("Skipping the VPC setup. Don't forget to use this in production!");
        }
        logger.info(DASHES);
        logger.info("""            
            2. Create a RegularUser and ExpressUser by using the AWS CDK.
            One IAM User, named RegularUser, will have permissions to work only 
            with regular buckets and one IAM user, named ExpressUser, will have 
            permissions to work only with directory buckets.
            """);
        waitForInputToContinue(scanner);

        // Create two users required for this scenario.
        Map<String, String> stackOutputs = createUsersUsingCDK(stackName);
        regularUser = stackOutputs.get("RegularUser");
        expressUser = stackOutputs.get("ExpressUser");

        UserNames names = new UserNames();
        names.setRegularUserName(regularUser);
        names.setExpressUserName(expressUser);
        return names;
    }

    /**
     * Creates users using AWS CloudFormation.
     *
     * @return a {@link Map} of String keys and String values representing the stack outputs,
     * which may include user-related information such as user names and IDs.
     */
    public static Map<String, String> createUsersUsingCDK(String stackName) {
        logger.info("We'll use an AWS CloudFormation template to create the IAM users and policies.");
        CloudFormationHelper.deployCloudFormationStack(stackName);
        return CloudFormationHelper.getStackOutputsAsync(stackName).join();
    }

    /**
     * Sets up the necessary clients and buckets for the S3 Express service.
     *
     * @param expressUserName the username for the user with S3 Express permissions
     * @param regularUserName the username for the user with regular S3 permissions
     */
    public static void setupClientsAndBuckets(String expressUserName, String regularUserName) {
        Scanner locscanner = new Scanner(System.in);
        String accessKeyIdforRegUser;
        String secretAccessforRegUser;
        try {
            CreateAccessKeyResponse keyResponse = s3DirectoriesActions.createAccessKeyAsync(regularUserName).join();
            accessKeyIdforRegUser = keyResponse.accessKey().accessKeyId();
            secretAccessforRegUser = keyResponse.accessKey().secretAccessKey();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof IamException) {
                logger.error("IamException occurred: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
            }
            return;
        }

        String accessKeyIdforExpressUser;
        String secretAccessforExpressUser;
        try {
            CreateAccessKeyResponse keyResponseExpress = s3DirectoriesActions.createAccessKeyAsync(expressUserName).join();
            accessKeyIdforExpressUser = keyResponseExpress.accessKey().accessKeyId();
            secretAccessforExpressUser = keyResponseExpress.accessKey().secretAccessKey();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof IamException) {
                logger.error("IamException occurred: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
            }
            return;
        }

        logger.info(DASHES);
        logger.info("""            
            3. Create two S3Clients; one uses the ExpressUser's credentials and one uses the RegularUser's credentials.
            The 2 S3Clients will use different credentials.
            """);
        waitForInputToContinue(locscanner);
        try {
            mS3RegularClient = createS3ClientWithAccessKeyAsync(accessKeyIdforRegUser, secretAccessforRegUser).join();
            mS3ExpressClient = createS3ClientWithAccessKeyAsync(accessKeyIdforExpressUser, secretAccessforExpressUser).join();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof IllegalArgumentException) {
                logger.error("An invalid argument exception occurred: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
            }
            return;
        }

        logger.info("""
            We can now use the ExpressUser client to make calls to S3 Express operations. 
            """);
        waitForInputToContinue(locscanner);
        logger.info(DASHES);
        logger.info("""
            4. Create two buckets.
            Now we will create a directory bucket which is the linchpin of the S3 Express One Zone service. Directory buckets 
            behave differently from regular S3 buckets which we will explore here. We'll also create a regular bucket, put 
            an object into the regular bucket, and copy it to the directory bucket.
            """);

        logger.info("""
            Now, let's choose an availability zone (AZ) for the directory bucket. 
            We'll choose one that is supported.
            """);
        String zoneId;
        String regularBucketName;
        try {
            zoneId = s3DirectoriesActions.selectAvailabilityZoneIdAsync().join();
            regularBucketName = "reg-bucket-" + System.currentTimeMillis();
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof Ec2Exception) {
                logger.error("EC2Exception occurred: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
            }
            return;
        }
        logger.info("""
            Now, let's create the actual directory bucket, as well as a regular bucket."
             """);

        String directoryBucketName = "test-bucket-" + System.currentTimeMillis() + "--" + zoneId + "--x-s3";
        try {
            s3DirectoriesActions.createDirectoryBucketAsync(mS3ExpressClient, directoryBucketName, zoneId).join();
            logger.info("Created directory bucket {}", directoryBucketName);
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof BucketAlreadyExistsException) {
                logger.error("The bucket already exists. Moving on: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
                return;
            }
        }

        // Assign to the data member.
        mdirectoryBucketName = directoryBucketName;
        try {
            s3DirectoriesActions.createBucketAsync(mS3RegularClient, regularBucketName).join();
            logger.info("Created regular bucket {} ", regularBucketName);
            mregularBucketName = regularBucketName;
        } catch (CompletionException ce) {
            Throwable cause = ce.getCause();
            if (cause instanceof BucketAlreadyExistsException) {
                logger.error("The bucket already exists. Moving on: {}", cause.getMessage(), ce);
            } else {
                logger.error("An unexpected error occurred: {}", cause.getMessage(), ce);
                return;
            }
        }
        logger.info("Great! Both buckets were created.");
        waitForInputToContinue(locscanner);
    }

    /**
     * Creates an asynchronous S3 client with the specified access key and secret access key.
     *
     * @param accessKeyId     the AWS access key ID
     * @param secretAccessKey the AWS secret access key
     * @return a {@link CompletableFuture} that asynchronously creates the S3 client
     * @throws IllegalArgumentException if the access key ID or secret access key is null
     */
    public static CompletableFuture<S3AsyncClient> createS3ClientWithAccessKeyAsync(String accessKeyId, String secretAccessKey) {
        return CompletableFuture.supplyAsync(() -> {
            // Validate input parameters
            if (accessKeyId == null || accessKeyId.isBlank() || secretAccessKey == null || secretAccessKey.isBlank()) {
                throw new IllegalArgumentException("Access Key ID and Secret Access Key must not be null or empty");
            }

            AwsBasicCredentials awsCredentials = AwsBasicCredentials.create(accessKeyId, secretAccessKey);
            return S3AsyncClient.builder()
                .credentialsProvider(StaticCredentialsProvider.create(awsCredentials))
                .region(Region.US_WEST_2)
                .build();
        });
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            logger.info("");
            logger.info("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                logger.info("Continuing with the program...");
                logger.info("");
                break;
            } else {
                logger.info("Invalid input. Please try again.");
            }
        }
    }
}
```
Kelas pembungkus untuk metode Amazon S3 SDK.  

```
public class S3DirectoriesActions {

    private static IamAsyncClient iamAsyncClient;

    private static Ec2AsyncClient ec2AsyncClient;
    private static final Logger logger = LoggerFactory.getLogger(S3DirectoriesActions.class);

    private static IamAsyncClient getIAMAsyncClient() {
        if (iamAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            iamAsyncClient = IamAsyncClient.builder()
                .httpClient(httpClient)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return iamAsyncClient;
    }

    private static Ec2AsyncClient getEc2AsyncClient() {
        if (ec2AsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                .maxConcurrency(100)
                .connectionTimeout(Duration.ofSeconds(60))
                .readTimeout(Duration.ofSeconds(60))
                .writeTimeout(Duration.ofSeconds(60))
                .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                .apiCallTimeout(Duration.ofMinutes(2))
                .apiCallAttemptTimeout(Duration.ofSeconds(90))
                .retryStrategy(RetryMode.STANDARD)
                .build();

            ec2AsyncClient = Ec2AsyncClient.builder()
                .httpClient(httpClient)
                .region(Region.US_WEST_2)
                .overrideConfiguration(overrideConfig)
                .build();
        }
        return ec2AsyncClient;
    }

    /**
     * Deletes the specified S3 bucket and all the objects within it asynchronously.
     *
     * @param s3AsyncClient the S3 asynchronous client to use for the operations
     * @param bucketName the name of the S3 bucket to be deleted
     * @return a {@link CompletableFuture} that completes with a {@link WaiterResponse} containing the
     *         {@link HeadBucketResponse} when the bucket has been successfully deleted
     * @throws CompletionException if there was an error deleting the bucket or its objects
     */
    public CompletableFuture<WaiterResponse<HeadBucketResponse>> deleteBucketAndObjectsAsync(S3AsyncClient s3AsyncClient, String bucketName) {
        ListObjectsV2Request listRequest = ListObjectsV2Request.builder()
            .bucket(bucketName)
            .build();

        return s3AsyncClient.listObjectsV2(listRequest)
            .thenCompose(listResponse -> {
                if (!listResponse.contents().isEmpty()) {
                    List<ObjectIdentifier> objectIdentifiers = listResponse.contents().stream()
                        .map(s3Object -> ObjectIdentifier.builder().key(s3Object.key()).build())
                        .collect(Collectors.toList());

                    DeleteObjectsRequest deleteRequest = DeleteObjectsRequest.builder()
                        .bucket(bucketName)
                        .delete(Delete.builder().objects(objectIdentifiers).build())
                        .build();

                    return s3AsyncClient.deleteObjects(deleteRequest)
                        .thenAccept(deleteResponse -> {
                            if (!deleteResponse.errors().isEmpty()) {
                                deleteResponse.errors().forEach(error ->
                                    logger.error("Couldn't delete object " + error.key() + ". Reason: " + error.message()));
                            }
                        });
                }
                return CompletableFuture.completedFuture(null);
            })
            .thenCompose(ignored -> {
                DeleteBucketRequest deleteBucketRequest = DeleteBucketRequest.builder()
                    .bucket(bucketName)
                    .build();
                return s3AsyncClient.deleteBucket(deleteBucketRequest);
            })
            .thenCompose(ignored -> {
                S3AsyncWaiter waiter = s3AsyncClient.waiter();
                HeadBucketRequest headBucketRequest = HeadBucketRequest.builder().bucket(bucketName).build();
                return waiter.waitUntilBucketNotExists(headBucketRequest);
            })
            .whenComplete((ignored, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof S3Exception) {
                        throw new CompletionException("Error deleting bucket: " + bucketName, cause);
                    }
                    throw new CompletionException("Failed to delete bucket and objects: " + bucketName, exception);
                }
                logger.info("Bucket deleted successfully: " + bucketName);
            });
    }

    /**
     *  Lists the objects in an S3 bucket asynchronously.
     *
     * @param s3Client the S3 async client to use for the operation
     * @param bucketName the name of the S3 bucket containing the objects to list
     * @return a {@link CompletableFuture} that contains the list of object keys in the specified bucket
     */
    public CompletableFuture<List<String>> listObjectsAsync(S3AsyncClient s3Client, String bucketName) {
        ListObjectsV2Request request = ListObjectsV2Request.builder()
            .bucket(bucketName)
            .build();

        return s3Client.listObjectsV2(request)
            .thenApply(response -> response.contents().stream()
                .map(S3Object::key)
                .toList())
            .whenComplete((result, exception) -> {
                if (exception != null) {
                    throw new CompletionException("Couldn't list objects in bucket: " + bucketName, exception);
                }
            });
    }

    /**
     * Retrieves an object from an Amazon S3 bucket asynchronously.
     *
     * @param s3Client   the S3 async client to use for the operation
     * @param bucketName the name of the S3 bucket containing the object
     * @param keyName    the unique identifier (key) of the object to retrieve
     * @return a {@link CompletableFuture} that, when completed, contains the object's content as a {@link ResponseBytes} of {@link GetObjectResponse}
     */
    public CompletableFuture<ResponseBytes<GetObjectResponse>> getObjectAsync(S3AsyncClient s3Client, String bucketName, String keyName) {
        GetObjectRequest objectRequest = GetObjectRequest.builder()
            .key(keyName)
            .bucket(bucketName)
            .build();

        // Get the object asynchronously and transform it into a byte array
        return s3Client.getObject(objectRequest, AsyncResponseTransformer.toBytes())
            .exceptionally(exception -> {
                Throwable cause = exception.getCause();
                if (cause instanceof NoSuchKeyException) {
                    throw new CompletionException("Failed to get the object. Reason: " + ((S3Exception) cause).awsErrorDetails().errorMessage(), cause);
                }
                throw new CompletionException("Failed to get the object", exception);
            });
    }

    /**
     * Asynchronously copies an object from one S3 bucket to another.
     *
     * @param s3Client           the S3 async client to use for the copy operation
     * @param sourceBucket       the name of the source bucket
     * @param sourceKey          the key of the object to be copied in the source bucket
     * @param destinationBucket  the name of the destination bucket
     * @param destinationKey     the key of the copied object in the destination bucket
     * @return a {@link CompletableFuture} that completes when the copy operation is finished
     */
    public CompletableFuture<Void> copyObjectAsync(S3AsyncClient s3Client, String sourceBucket, String sourceKey, String destinationBucket, String destinationKey) {
        CopyObjectRequest copyRequest = CopyObjectRequest.builder()
            .sourceBucket(sourceBucket)
            .sourceKey(sourceKey)
            .destinationBucket(destinationBucket)
            .destinationKey(destinationKey)
            .build();

        return s3Client.copyObject(copyRequest)
            .thenRun(() -> logger.info("Copied object '" + sourceKey + "' from bucket '" + sourceBucket + "' to bucket '" + destinationBucket + "'"))
            .whenComplete((ignored, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof S3Exception) {
                        throw new CompletionException("Couldn't copy object '" + sourceKey + "' from bucket '" + sourceBucket + "' to bucket '" + destinationBucket + "'. Reason: " + ((S3Exception) cause).awsErrorDetails().errorMessage(), cause);
                    }
                    throw new CompletionException("Failed to copy object", exception);
                }
            });
    }

    /**
     * Asynchronously creates a session for the specified S3 bucket.
     *
     * @param s3Client   the S3 asynchronous client to use for creating the session
     * @param bucketName the name of the S3 bucket for which to create the session
     * @return a {@link CompletableFuture} that completes when the session is created, or throws a {@link CompletionException} if an error occurs
     */
    public CompletableFuture<CreateSessionResponse> createSessionAsync(S3AsyncClient s3Client, String bucketName) {
        CreateSessionRequest request = CreateSessionRequest.builder()
            .bucket(bucketName)
            .build();

        return s3Client.createSession(request)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof S3Exception) {
                        throw new CompletionException("Couldn't create the session. Reason: " + ((S3Exception) cause).awsErrorDetails().errorMessage(), cause);
                    }
                    throw new CompletionException("Unexpected error occurred while creating session", exception);
                }
                logger.info("Created session for bucket: " + bucketName);
            });

    }

    /**
     * Creates a new S3 directory bucket in a specified Zone (For example, a
     * specified Availability Zone in this code example).
     *
     * @param s3Client   The asynchronous S3 client used to create the bucket
     * @param bucketName The name of the bucket to be created
     * @param zone       The Availability Zone where the bucket will be created
     * @throws CompletionException if there's an error creating the bucket
     */
    public CompletableFuture<CreateBucketResponse> createDirectoryBucketAsync(S3AsyncClient s3Client, String bucketName, String zone) {
        logger.info("Creating bucket: " + bucketName);

        CreateBucketConfiguration bucketConfiguration = CreateBucketConfiguration.builder()
            .location(LocationInfo.builder()
                .type(LocationType.AVAILABILITY_ZONE)
                .name(zone)
                .build())
            .bucket(BucketInfo.builder()
                .type(BucketType.DIRECTORY)
                .dataRedundancy(DataRedundancy.SINGLE_AVAILABILITY_ZONE)
                .build())
            .build();

        CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
            .bucket(bucketName)
            .createBucketConfiguration(bucketConfiguration)
            .build();

        return s3Client.createBucket(bucketRequest)
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof BucketAlreadyExistsException) {
                        throw new CompletionException("The bucket already exists: " + ((S3Exception) cause).awsErrorDetails().errorMessage(), cause);
                    }
                    throw new CompletionException("Unexpected error occurred while creating bucket", exception);
                }
                logger.info("Bucket created successfully with location: " + response.location());
            });
    }

    /**
     * Creates an S3 bucket asynchronously.
     *
     * @param s3Client    the S3 async client to use for the bucket creation
     * @param bucketName  the name of the S3 bucket to create
     * @return a {@link CompletableFuture} that completes with the {@link WaiterResponse} containing the {@link HeadBucketResponse}
     *         when the bucket is successfully created
     * @throws CompletionException if there's an error creating the bucket
     */
    public CompletableFuture<WaiterResponse<HeadBucketResponse>> createBucketAsync(S3AsyncClient s3Client, String bucketName) {
        CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
            .bucket(bucketName)
            .build();

        return s3Client.createBucket(bucketRequest)
            .thenCompose(response -> {
                S3AsyncWaiter s3Waiter = s3Client.waiter();
                HeadBucketRequest bucketRequestWait = HeadBucketRequest.builder()
                    .bucket(bucketName)
                    .build();
                return s3Waiter.waitUntilBucketExists(bucketRequestWait);
            })
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof BucketAlreadyExistsException) {
                        throw new CompletionException("The S3 bucket exists: " + cause.getMessage(), cause);
                    } else {
                        throw new CompletionException("Failed to create access key: " + exception.getMessage(), exception);
                    }
                }
                logger.info(bucketName + " is ready");
            });
    }

    /**
     * Uploads an object to an Amazon S3 bucket asynchronously.
     *
     * @param s3Client     the S3 async client to use for the upload
     * @param bucketName   the destination S3 bucket name
     * @param bucketObject the name of the object to be uploaded
     * @param text         the content to be uploaded as the object
     */
    public CompletableFuture<PutObjectResponse> putObjectAsync(S3AsyncClient s3Client, String bucketName, String bucketObject, String text) {
        PutObjectRequest objectRequest = PutObjectRequest.builder()
            .bucket(bucketName)
            .key(bucketObject)
            .build();

        return s3Client.putObject(objectRequest, AsyncRequestBody.fromString(text))
            .whenComplete((response, exception) -> {
                if (exception != null) {
                    Throwable cause = exception.getCause();
                    if (cause instanceof NoSuchBucketException) {
                        throw new CompletionException("The S3 bucket does not exist: " + cause.getMessage(), cause);
                    } else {
                        throw new CompletionException("Failed to create access key: " + exception.getMessage(), exception);
                    }
                }
            });
    }

    /**
     * Creates an AWS IAM access key asynchronously for the specified user name.
     *
     * @param userName the name of the IAM user for whom to create the access key
     * @return a {@link CompletableFuture} that completes with the {@link CreateAccessKeyResponse} containing the created access key
     */
    public CompletableFuture<CreateAccessKeyResponse> createAccessKeyAsync(String userName) {
        CreateAccessKeyRequest request = CreateAccessKeyRequest.builder()
            .userName(userName)
            .build();

        return getIAMAsyncClient().createAccessKey(request)
            .whenComplete((response, exception) -> {
                if (response != null) {
                    logger.info("Access Key Created.");
                } else {
                    if (exception == null) {
                        Throwable cause = exception.getCause();
                        if (cause instanceof IamException) {
                            throw new CompletionException("IAM error while creating access key: " + cause.getMessage(), cause);
                        } else {
                            throw new CompletionException("Failed to create access key: " + exception.getMessage(), exception);
                        }
                    }
                }
            });
    }

    /**
     * Asynchronously selects an Availability Zone ID from the available EC2 zones.
     *
     * @return A {@link CompletableFuture} that resolves to the selected Availability Zone ID.
     * @throws CompletionException if an error occurs during the request or processing.
     */
    public CompletableFuture<String> selectAvailabilityZoneIdAsync() {
        DescribeAvailabilityZonesRequest zonesRequest = DescribeAvailabilityZonesRequest.builder()
            .build();

        return getEc2AsyncClient().describeAvailabilityZones(zonesRequest)
            .thenCompose(response -> {
                List<AvailabilityZone> zonesList = response.availabilityZones();
                if (zonesList.isEmpty()) {
                    logger.info("No availability zones found.");
                    return CompletableFuture.completedFuture(null); // Return null if no zones are found
                }

                List<String> zoneIds = zonesList.stream()
                    .map(AvailabilityZone::zoneId) // Get the zoneId (e.g., "usw2-az1")
                    .toList();

                return CompletableFuture.supplyAsync(() -> promptUserForZoneSelection(zonesList, zoneIds))
                    .thenApply(selectedZone -> {
                        // Return only the selected Zone ID (e.g., "usw2-az1").
                        return selectedZone.zoneId();
                    });
            })
            .whenComplete((result, exception) -> {
                if (exception == null) {
                    if (result != null) {
                        logger.info("Selected Availability Zone ID: " + result);
                    } else {
                        logger.info("No availability zone selected.");
                    }
                } else {
                    Throwable cause = exception.getCause();
                    if (cause instanceof Ec2Exception) {
                        throw new CompletionException("EC2 error while selecting availability zone: " + cause.getMessage(), cause);
                    }
                    throw new CompletionException("Failed to select availability zone: " + exception.getMessage(), exception);
                }
            });
    }

    /**
     * Prompts the user to select an Availability Zone from the given list.
     *
     * @param zonesList the list of Availability Zones
     * @param zoneIds the list of zone IDs
     * @return the selected Availability Zone
     */
    private static AvailabilityZone promptUserForZoneSelection(List<AvailabilityZone> zonesList, List<String> zoneIds) {
        Scanner scanner = new Scanner(System.in);
        int index = -1;

        while (index < 0 || index >= zoneIds.size()) {
            logger.info("Select an availability zone:");
            IntStream.range(0, zoneIds.size()).forEach(i ->
                logger.info(i + ": " + zoneIds.get(i))
            );

            logger.info("Enter the number corresponding to your choice: ");
            if (scanner.hasNextInt()) {
                index = scanner.nextInt();
            } else {
                scanner.next();
            }
        }

        AvailabilityZone selectedZone = zonesList.get(index);
        logger.info("You selected: " + selectedZone.zoneId());
        return selectedZone;
    }

    /**
     * Asynchronously sets up a new VPC, including creating the VPC, finding the associated route table, and
     * creating a VPC endpoint for the S3 service.
     *
     * @return a {@link CompletableFuture} that, when completed, contains a AbstractMap with the
     *         VPC ID and VPC endpoint ID.
     */
    public CompletableFuture<AbstractMap.SimpleEntry<String, String>> setupVPCAsync() {
        String cidr = "10.0.0.0/16";
        CreateVpcRequest vpcRequest = CreateVpcRequest.builder()
            .cidrBlock(cidr)
            .build();

        return getEc2AsyncClient().createVpc(vpcRequest)
            .thenCompose(vpcResponse -> {
                String vpcId = vpcResponse.vpc().vpcId();
                logger.info("VPC Created: {}", vpcId);

                Ec2AsyncWaiter waiter = getEc2AsyncClient().waiter();
                DescribeVpcsRequest request = DescribeVpcsRequest.builder()
                    .vpcIds(vpcId)
                    .build();

                return waiter.waitUntilVpcAvailable(request)
                    .thenApply(waiterResponse -> vpcId);
            })
            .thenCompose(vpcId -> {
                Filter filter = Filter.builder()
                    .name("vpc-id")
                    .values(vpcId)
                    .build();

                DescribeRouteTablesRequest describeRouteTablesRequest = DescribeRouteTablesRequest.builder()
                    .filters(filter)
                    .build();

                return getEc2AsyncClient().describeRouteTables(describeRouteTablesRequest)
                    .thenApply(routeTablesResponse -> {
                        if (routeTablesResponse.routeTables().isEmpty()) {
                            throw new CompletionException("No route tables found for VPC: " + vpcId, null);
                        }
                        String routeTableId = routeTablesResponse.routeTables().get(0).routeTableId();
                        logger.info("Route table found: {}", routeTableId);
                        return new AbstractMap.SimpleEntry<>(vpcId, routeTableId);
                    });
            })
            .thenCompose(vpcAndRouteTable -> {
                String vpcId = vpcAndRouteTable.getKey();
                String routeTableId = vpcAndRouteTable.getValue();
                Region region = getEc2AsyncClient().serviceClientConfiguration().region();
                String serviceName = String.format("com.amazonaws.%s.s3express", region.id());

                CreateVpcEndpointRequest endpointRequest = CreateVpcEndpointRequest.builder()
                    .vpcId(vpcId)
                    .routeTableIds(routeTableId)
                    .serviceName(serviceName)
                    .build();

                return getEc2AsyncClient().createVpcEndpoint(endpointRequest)
                    .thenApply(vpcEndpointResponse -> {
                        String vpcEndpointId = vpcEndpointResponse.vpcEndpoint().vpcEndpointId();
                        logger.info("VPC Endpoint created: {}", vpcEndpointId);
                        return new AbstractMap.SimpleEntry<>(vpcId, vpcEndpointId);
                    });
            })
            .exceptionally(exception -> {
                Throwable cause = exception.getCause() != null ? exception.getCause() : exception;
                if (cause instanceof Ec2Exception) {
                    logger.error("EC2 error during VPC setup: {}", cause.getMessage(), cause);
                    throw new CompletionException("EC2 error during VPC setup: " + cause.getMessage(), cause);
                }

                logger.error("VPC setup failed: {}", cause.getMessage(), cause);
                throw new CompletionException("VPC setup failed: " + cause.getMessage(), cause);
            });
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CopyObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteBucket)
  + [DeleteObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteObject)
  + [GetObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObject)
  + [ListObjects](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListObjects)
  + [PutObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `AbortMultipartUpload`
<a name="s3-directory-buckets_AbortMultipartUpload_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AbortMultipartUpload`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Batalkan unggahan multibagian dalam ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.AbortMultipartUploadRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucketMultipartUpload;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;


    /**
     * Aborts a specific multipart upload for the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object to be uploaded
     * @param uploadId   The upload ID of the multipart upload to abort
     * @return True if the multipart upload is successfully aborted, false otherwise
     */
    public static boolean abortDirectoryBucketMultipartUpload(S3Client s3Client, String bucketName,
            String objectKey, String uploadId) {
        logger.info("Aborting multipart upload: {} for bucket: {}", uploadId, bucketName);
        try {
            // Abort the multipart upload
            AbortMultipartUploadRequest abortMultipartUploadRequest = AbortMultipartUploadRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .uploadId(uploadId)
                    .build();

            s3Client.abortMultipartUpload(abortMultipartUploadRequest);
            logger.info("Aborted multipart upload: {} for object: {}", uploadId, objectKey);
            return true;
        } catch (S3Exception e) {
            logger.error("Failed to abort multipart upload: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            return false;
        }
    }
```
+  Untuk detail API, lihat [AbortMultipartUpload](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/AbortMultipartUpload)di *Referensi AWS SDK for Java 2.x API*. 

### `CompleteMultipartUpload`
<a name="s3-directory-buckets_CompleteMultipartUpload_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompleteMultipartUpload`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Selesaikan unggahan multibagian dalam ember direktori.  

```
import com.example.s3.util.S3DirectoryBucketUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.CompleteMultipartUploadRequest;
import software.amazon.awssdk.services.s3.model.CompleteMultipartUploadResponse;
import software.amazon.awssdk.services.s3.model.CompletedMultipartUpload;
import software.amazon.awssdk.services.s3.model.CompletedPart;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.io.IOException;
import java.nio.file.Path;
import java.util.List;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucketMultipartUpload;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.multipartUploadForDirectoryBucket;


    /**
     * This method completes the multipart upload request by collating all the
     * upload parts.
     *
     * @param s3Client    The S3 client used to interact with S3
     * @param bucketName  The name of the directory bucket
     * @param objectKey   The key (name) of the object to be uploaded
     * @param uploadId    The upload ID used to track the multipart upload
     * @param uploadParts The list of completed parts
     * @return True if the multipart upload is successfully completed, false
     *         otherwise
     */
    public static boolean completeDirectoryBucketMultipartUpload(S3Client s3Client, String bucketName, String objectKey,
            String uploadId, List<CompletedPart> uploadParts) {
        try {
            CompletedMultipartUpload completedMultipartUpload = CompletedMultipartUpload.builder()
                    .parts(uploadParts)
                    .build();
            CompleteMultipartUploadRequest completeMultipartUploadRequest = CompleteMultipartUploadRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .uploadId(uploadId)
                    .multipartUpload(completedMultipartUpload)
                    .build();

            CompleteMultipartUploadResponse response = s3Client.completeMultipartUpload(completeMultipartUploadRequest);
            logger.info("Multipart upload completed. ETag: {}", response.eTag());
            return true;
        } catch (S3Exception e) {
            logger.error("Failed to complete multipart upload: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            return false;
        }
    }
```
+  Untuk detail API, lihat [CompleteMultipartUpload](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CompleteMultipartUpload)di *Referensi AWS SDK for Java 2.x API*. 

### `CopyObject`
<a name="s3-directory-buckets_CopyObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Salin objek dari bucket direktori ke bucket direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.CopyObjectRequest;
import software.amazon.awssdk.services.s3.model.CopyObjectResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.nio.file.Path;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketObject;

    /**
     * Copies an object from one S3 general purpose bucket to one S3 directory
     * bucket.
     *
     * @param s3Client     The S3 client used to interact with S3
     * @param sourceBucket The name of the source bucket
     * @param objectKey    The key (name) of the object to be copied
     * @param targetBucket The name of the target bucket
     */
    public static void copyDirectoryBucketObject(S3Client s3Client, String sourceBucket, String objectKey,
            String targetBucket) {
        logger.info("Copying object: {} from bucket: {} to bucket: {}", objectKey, sourceBucket, targetBucket);

        try {
            // Create a CopyObjectRequest
            CopyObjectRequest copyReq = CopyObjectRequest.builder()
                    .sourceBucket(sourceBucket)
                    .sourceKey(objectKey)
                    .destinationBucket(targetBucket)
                    .destinationKey(objectKey)
                    .build();

            // Copy the object
            CopyObjectResponse copyRes = s3Client.copyObject(copyReq);
            logger.info("Successfully copied {} from bucket {} into bucket {}. CopyObjectResponse: {}",
                    objectKey, sourceBucket, targetBucket, copyRes.copyObjectResult().toString());

        } catch (S3Exception e) {
            logger.error("Failed to copy object: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CopyObject)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateBucket`
<a name="s3-directory-buckets_CreateBucket_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Buat bucket direktori S3.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.BucketInfo;
import software.amazon.awssdk.services.s3.model.BucketType;
import software.amazon.awssdk.services.s3.model.CreateBucketConfiguration;
import software.amazon.awssdk.services.s3.model.CreateBucketRequest;
import software.amazon.awssdk.services.s3.model.CreateBucketResponse;
import software.amazon.awssdk.services.s3.model.DataRedundancy;
import software.amazon.awssdk.services.s3.model.LocationInfo;
import software.amazon.awssdk.services.s3.model.LocationType;
import software.amazon.awssdk.services.s3.model.S3Exception;

import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;

    /**
     * Creates a new S3 directory bucket in a specified Zone (For example, a
     * specified Availability Zone in this code example).
     *
     * @param s3Client   The S3 client used to create the bucket
     * @param bucketName The name of the bucket to be created
     * @param zone       The region where the bucket will be created
     * @throws S3Exception if there's an error creating the bucket
     */
    public static void createDirectoryBucket(S3Client s3Client, String bucketName, String zone) throws S3Exception {
        logger.info("Creating bucket: {}", bucketName);

        CreateBucketConfiguration bucketConfiguration = CreateBucketConfiguration.builder()
                .location(LocationInfo.builder()
                        .type(LocationType.AVAILABILITY_ZONE)
                        .name(zone).build())
                .bucket(BucketInfo.builder()
                        .type(BucketType.DIRECTORY)
                        .dataRedundancy(DataRedundancy.SINGLE_AVAILABILITY_ZONE)
                        .build())
                .build();
        try {
            CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
                    .bucket(bucketName)
                    .createBucketConfiguration(bucketConfiguration).build();
            CreateBucketResponse response = s3Client.createBucket(bucketRequest);
            logger.info("Bucket created successfully with location: {}", response.location());
        } catch (S3Exception e) {
            logger.error("Error creating bucket: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateBucket)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateMultipartUpload`
<a name="s3-directory-buckets_CreateMultipartUpload_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMultipartUpload`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Buat unggahan multibagian dalam ember direktori.  

```
import com.example.s3.util.S3DirectoryBucketUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.CreateMultipartUploadRequest;
import software.amazon.awssdk.services.s3.model.CreateMultipartUploadResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;

    /**
     * This method creates a multipart upload request that generates a unique upload
     * ID used to track
     * all the upload parts.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object to be uploaded
     * @return The upload ID used to track the multipart upload
     */
    public static String createDirectoryBucketMultipartUpload(S3Client s3Client, String bucketName, String objectKey) {
        logger.info("Creating multipart upload for object: {} in bucket: {}", objectKey, bucketName);

        try {
            // Create a CreateMultipartUploadRequest
            CreateMultipartUploadRequest createMultipartUploadRequest = CreateMultipartUploadRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .build();

            // Initiate the multipart upload
            CreateMultipartUploadResponse response = s3Client.createMultipartUpload(createMultipartUploadRequest);
            String uploadId = response.uploadId();
            logger.info("Multipart upload initiated. Upload ID: {}", uploadId);
            return uploadId;

        } catch (S3Exception e) {
            logger.error("Failed to create multipart upload: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [CreateMultipartUpload](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateMultipartUpload)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteBucket`
<a name="s3-directory-buckets_DeleteBucket_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Hapus bucket direktori S3.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.DeleteBucketRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;

    /**
     * Deletes the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket to delete
     */
    public static void deleteDirectoryBucket(S3Client s3Client, String bucketName) {
        logger.info("Deleting bucket: {}", bucketName);

        try {
            // Create a DeleteBucketRequest
            DeleteBucketRequest deleteBucketRequest = DeleteBucketRequest.builder()
                    .bucket(bucketName)
                    .build();

            // Delete the bucket
            s3Client.deleteBucket(deleteBucketRequest);
            logger.info("Successfully deleted bucket: {}", bucketName);

        } catch (S3Exception e) {
            logger.error("Failed to delete bucket: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteBucket)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteBucketEncryption`
<a name="s3-directory-buckets_DeleteBucketEncryption_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketEncryption`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Hapus konfigurasi enkripsi untuk bucket direktori.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.DeleteBucketEncryptionRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;

    /**
     * Deletes the encryption configuration from an S3 bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     */
    public static void deleteDirectoryBucketEncryption(S3Client s3Client, String bucketName) {
        DeleteBucketEncryptionRequest deleteRequest = DeleteBucketEncryptionRequest.builder()
                .bucket(bucketName)
                .build();

        try {
            s3Client.deleteBucketEncryption(deleteRequest);
            logger.info("Bucket encryption deleted for bucket: {}", bucketName);
        } catch (S3Exception e) {
            logger.error("Failed to delete bucket encryption: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DeleteBucketEncryption](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteBucketEncryption)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteBucketPolicy`
<a name="s3-directory-buckets_DeleteBucketPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Menghapus kebijakan bucket untuk bucket direktori.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.DeleteBucketPolicyRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getAwsAccountId;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketPolicy;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;


    /**
     * Deletes the bucket policy for the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     */
    public static void deleteDirectoryBucketPolicy(S3Client s3Client, String bucketName) {
        logger.info("Deleting policy for bucket: {}", bucketName);

        try {
            // Create a DeleteBucketPolicyRequest
            DeleteBucketPolicyRequest deletePolicyReq = DeleteBucketPolicyRequest.builder()
                    .bucket(bucketName)
                    .build();

            // Delete the bucket policy
            s3Client.deleteBucketPolicy(deletePolicyReq);
            logger.info("Successfully deleted bucket policy");

        } catch (S3Exception e) {
            logger.error("Failed to delete bucket policy: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteBucketPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteObject`
<a name="s3-directory-buckets_DeleteObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Hapus objek dalam ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.DeleteObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.nio.file.Path;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketObject;




    /**
     * Deletes an object from the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object to be deleted
     */
    public static void deleteDirectoryBucketObject(S3Client s3Client, String bucketName, String objectKey) {
        logger.info("Deleting object: {} from bucket: {}", objectKey, bucketName);

        try {
            // Create a DeleteObjectRequest
            DeleteObjectRequest deleteObjectRequest = DeleteObjectRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .build();

            // Delete the object
            s3Client.deleteObject(deleteObjectRequest);
            logger.info("Object {} has been deleted", objectKey);

        } catch (S3Exception e) {
            logger.error("Failed to delete object: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteObject)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteObjects`
<a name="s3-directory-buckets_DeleteObjects_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Hapus beberapa objek dalam ember direktori.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.Delete;
import software.amazon.awssdk.services.s3.model.DeleteObjectsRequest;
import software.amazon.awssdk.services.s3.model.DeleteObjectsResponse;
import software.amazon.awssdk.services.s3.model.ObjectIdentifier;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.net.URISyntaxException;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.List;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketObject;


    /**
     * Deletes multiple objects from the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKeys The list of keys (names) of the objects to be deleted
     */
    public static void deleteDirectoryBucketObjects(S3Client s3Client, String bucketName, List<String> objectKeys) {
        logger.info("Deleting objects from bucket: {}", bucketName);

        try {
            // Create a list of ObjectIdentifier.
            List<ObjectIdentifier> identifiers = objectKeys.stream()
                    .map(key -> ObjectIdentifier.builder().key(key).build())
                    .toList();

            Delete delete = Delete.builder()
                    .objects(identifiers)
                    .build();

            DeleteObjectsRequest deleteObjectsRequest = DeleteObjectsRequest.builder()
                    .bucket(bucketName)
                    .delete(delete)
                    .build();

            DeleteObjectsResponse deleteObjectsResponse = s3Client.deleteObjects(deleteObjectsRequest);
            deleteObjectsResponse.deleted().forEach(deleted -> logger.info("Deleted object: {}", deleted.key()));

        } catch (S3Exception e) {
            logger.error("Failed to delete objects: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/DeleteObjects)di *Referensi AWS SDK for Java 2.x API*. 

### `GetBucketEncryption`
<a name="s3-directory-buckets_GetBucketEncryption_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketEncryption`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Dapatkan konfigurasi enkripsi bucket direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetBucketEncryptionRequest;
import software.amazon.awssdk.services.s3.model.GetBucketEncryptionResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.ServerSideEncryptionRule;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;

    /**
     * Retrieves the encryption configuration for an S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @return The type of server-side encryption applied to the bucket (e.g.,
     *         AES256, aws:kms)
     */
    public static String getDirectoryBucketEncryption(S3Client s3Client, String bucketName) {
        try {
            // Create a GetBucketEncryptionRequest
            GetBucketEncryptionRequest getRequest = GetBucketEncryptionRequest.builder()
                    .bucket(bucketName)
                    .build();

            // Retrieve the bucket encryption configuration
            GetBucketEncryptionResponse response = s3Client.getBucketEncryption(getRequest);
            ServerSideEncryptionRule rule = response.serverSideEncryptionConfiguration().rules().get(0);

            String encryptionType = rule.applyServerSideEncryptionByDefault().sseAlgorithmAsString();
            logger.info("Bucket encryption algorithm: {}", encryptionType);
            logger.info("KMS Customer Managed Key ID: {}", rule.applyServerSideEncryptionByDefault().kmsMasterKeyID());
            logger.info("Bucket Key Enabled: {}", rule.bucketKeyEnabled());

            return encryptionType;
        } catch (S3Exception e) {
            logger.error("Failed to get bucket encryption: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [GetBucketEncryption](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetBucketEncryption)di *Referensi AWS SDK for Java 2.x API*. 

### `GetBucketPolicy`
<a name="s3-directory-buckets_GetBucketPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Dapatkan kebijakan bucket direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetBucketPolicyRequest;
import software.amazon.awssdk.services.s3.model.GetBucketPolicyResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getAwsAccountId;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketPolicy;

    /**
     * Retrieves the bucket policy for the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @return The bucket policy text
     */
    public static String getDirectoryBucketPolicy(S3Client s3Client, String bucketName) {
        logger.info("Getting policy for bucket: {}", bucketName);

        try {
            // Create a GetBucketPolicyRequest
            GetBucketPolicyRequest policyReq = GetBucketPolicyRequest.builder()
                    .bucket(bucketName)
                    .build();

            // Retrieve the bucket policy
            GetBucketPolicyResponse response = s3Client.getBucketPolicy(policyReq);

            // Print and return the policy text
            String policyText = response.policy();
            logger.info("Bucket policy: {}", policyText);
            return policyText;

        } catch (S3Exception e) {
            logger.error("Failed to get bucket policy: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetBucketPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `GetObject`
<a name="s3-directory-buckets_GetObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Dapatkan objek dari ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.ResponseBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetObjectRequest;
import software.amazon.awssdk.services.s3.model.GetObjectResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.nio.charset.StandardCharsets;
import java.nio.file.Path;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketObject;

    /**
     * Retrieves an object from the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object to be retrieved
     * @return The retrieved object as a ResponseInputStream
     */
    public static boolean getDirectoryBucketObject(S3Client s3Client, String bucketName, String objectKey) {
        logger.info("Retrieving object: {} from bucket: {}", objectKey, bucketName);

        try {
            // Create a GetObjectRequest
            GetObjectRequest objectRequest = GetObjectRequest.builder()
                    .key(objectKey)
                    .bucket(bucketName)
                    .build();

            // Retrieve the object as bytes
            ResponseBytes<GetObjectResponse> objectBytes = s3Client.getObjectAsBytes(objectRequest);
            byte[] data = objectBytes.asByteArray();

            // Print object contents to console
            String objectContent = new String(data, StandardCharsets.UTF_8);
            logger.info("Object contents: \n{}", objectContent);

            return true;

        } catch (S3Exception e) {
            logger.error("Failed to retrieve object: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            return false;
        }
    }
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObject)di *Referensi AWS SDK for Java 2.x API*. 

### `GetObjectAttributes`
<a name="s3-directory-buckets_GetObjectAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectAttributes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Dapatkan atribut objek dari bucket direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetObjectAttributesRequest;
import software.amazon.awssdk.services.s3.model.GetObjectAttributesResponse;
import software.amazon.awssdk.services.s3.model.ObjectAttributes;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.nio.file.Path;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketObject;

    /**
     * Retrieves attributes for an object in the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object to retrieve attributes for
     * @return True if the object attributes are successfully retrieved, false
     *         otherwise
     */
    public static boolean getDirectoryBucketObjectAttributes(S3Client s3Client, String bucketName, String objectKey) {
        logger.info("Retrieving attributes for object: {} from bucket: {}", objectKey, bucketName);

        try {
            // Create a GetObjectAttributesRequest
            GetObjectAttributesRequest getObjectAttributesRequest = GetObjectAttributesRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .objectAttributes(ObjectAttributes.E_TAG, ObjectAttributes.STORAGE_CLASS,
                            ObjectAttributes.OBJECT_SIZE)
                    .build();

            // Retrieve the object attributes
            GetObjectAttributesResponse response = s3Client.getObjectAttributes(getObjectAttributesRequest);
            logger.info("Attributes for object {}:", objectKey);
            logger.info("ETag: {}", response.eTag());
            logger.info("Storage Class: {}", response.storageClass());
            logger.info("Object Size: {}", response.objectSize());
            return true;

        } catch (S3Exception e) {
            logger.error("Failed to retrieve object attributes: {} - Error code: {}",
                    e.awsErrorDetails().errorMessage(), e.awsErrorDetails().errorCode(), e);
            return false;
        }
    }
```
+  Untuk detail API, lihat [GetObjectAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObjectAttributes)di *Referensi AWS SDK for Java 2.x API*. 

### `HeadBucket`
<a name="s3-directory-buckets_HeadBucket_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`HeadBucket`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Memeriksa apakah bucket direktori S3 yang ditentukan ada dan dapat diakses.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.HeadBucketRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;

    /**
     * Checks if the specified S3 directory bucket exists and is accessible.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket to check
     * @return True if the bucket exists and is accessible, false otherwise
     */
    public static boolean headDirectoryBucket(S3Client s3Client, String bucketName) {
        logger.info("Checking if bucket exists: {}", bucketName);

        try {
            // Create a HeadBucketRequest
            HeadBucketRequest headBucketRequest = HeadBucketRequest.builder()
                    .bucket(bucketName)
                    .build();
            // If the bucket doesn't exist, the following statement throws NoSuchBucketException,
            // which is a subclass of S3Exception.
            s3Client.headBucket(headBucketRequest);
            logger.info("Amazon S3 directory bucket: \"{}\" found.", bucketName);
            return true;

        } catch (S3Exception e) {
            logger.error("Failed to access bucket: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [HeadBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/HeadBucket)di *Referensi AWS SDK for Java 2.x API*. 

### `HeadObject`
<a name="s3-directory-buckets_HeadObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`HeadObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Dapatkan metadata objek dalam ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.HeadObjectRequest;
import software.amazon.awssdk.services.s3.model.HeadObjectResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.nio.file.Path;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketObject;

    /**
     * Retrieves metadata for an object in the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object to retrieve metadata for
     * @return True if the object exists, false otherwise
     */
    public static boolean headDirectoryBucketObject(S3Client s3Client, String bucketName, String objectKey) {
        logger.info("Retrieving metadata for object: {} from bucket: {}", objectKey, bucketName);

        try {
            // Create a HeadObjectRequest
            HeadObjectRequest headObjectRequest = HeadObjectRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .build();

            // Retrieve the object metadata
            HeadObjectResponse response = s3Client.headObject(headObjectRequest);
            logger.info("Amazon S3 object: \"{}\" found in bucket: \"{}\" with ETag: \"{}\"", objectKey, bucketName,
                    response.eTag());
            logger.info("Content-Type: {}", response.contentType());
            logger.info("Content-Length: {}", response.contentLength());
            logger.info("Last Modified: {}", response.lastModified());
            return true;

        } catch (S3Exception e) {
            logger.error("Failed to retrieve object metadata: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            return false;
        }
    }
```
+  Untuk detail API, lihat [HeadObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/HeadObject)di *Referensi AWS SDK for Java 2.x API*. 

### `ListDirectoryBuckets`
<a name="s3-directory-buckets_ListDirectoryBuckets_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDirectoryBuckets`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Daftar semua ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.Bucket;
import software.amazon.awssdk.services.s3.model.ListDirectoryBucketsRequest;
import software.amazon.awssdk.services.s3.model.ListDirectoryBucketsResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.util.List;
import java.util.UUID;
import java.util.stream.Collectors;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;

     /**
     * Lists all S3 directory buckets and no general purpose buckets.
     *
     * @param s3Client The S3 client used to interact with S3
     * @return A list of bucket names
     */
    public static List<String> listDirectoryBuckets(S3Client s3Client) {
        logger.info("Listing all directory buckets");

        try {
            // Create a ListBucketsRequest
            ListDirectoryBucketsRequest listDirectoryBucketsRequest = ListDirectoryBucketsRequest.builder().build();

            // Retrieve the list of buckets
            ListDirectoryBucketsResponse response = s3Client.listDirectoryBuckets(listDirectoryBucketsRequest);

            // Extract bucket names
            List<String> bucketNames = response.buckets().stream()
                    .map(Bucket::name)
                    .collect(Collectors.toList());

            return bucketNames;
        } catch (S3Exception e) {
            logger.error("Failed to list buckets: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode());
            throw e;
        }
    }
```
+  Untuk detail API, lihat [ListDirectoryBuckets](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListDirectoryBuckets)di *Referensi AWS SDK for Java 2.x API*. 

### `ListMultipartUploads`
<a name="s3-directory-buckets_ListMultipartUploads_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMultipartUploads`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Buat daftar unggahan multibagian dalam ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.ListMultipartUploadsRequest;
import software.amazon.awssdk.services.s3.model.ListMultipartUploadsResponse;
import software.amazon.awssdk.services.s3.model.MultipartUpload;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.io.IOException;
import java.nio.file.Path;
import java.util.List;

import static com.example.s3.util.S3DirectoryBucketUtils.abortDirectoryBucketMultipartUploads;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucketMultipartUpload;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.multipartUploadForDirectoryBucket;


    /**
     * Lists multipart uploads for the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @return A list of MultipartUpload objects representing the multipart uploads
     */
    public static List<MultipartUpload> listDirectoryBucketMultipartUploads(S3Client s3Client, String bucketName) {
        logger.info("Listing in-progress multipart uploads for bucket: {}", bucketName);

        try {
            // Create a ListMultipartUploadsRequest
            ListMultipartUploadsRequest listMultipartUploadsRequest = ListMultipartUploadsRequest.builder()
                    .bucket(bucketName)
                    .build();

            // List the multipart uploads
            ListMultipartUploadsResponse response = s3Client.listMultipartUploads(listMultipartUploadsRequest);
            List<MultipartUpload> uploads = response.uploads();
            for (MultipartUpload upload : uploads) {
                logger.info("In-progress multipart upload: Upload ID: {}, Key: {}, Initiated: {}", upload.uploadId(),
                        upload.key(), upload.initiated());
            }
            return uploads;

        } catch (S3Exception e) {
            logger.error("Failed to list multipart uploads: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode());
            return List.of(); // Return an empty list if an exception is thrown
        }
    }
```
+  Untuk detail API, lihat [ListMultipartUploads](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListMultipartUploads)di *Referensi AWS SDK for Java 2.x API*. 

### `ListObjectsV2`
<a name="s3-directory-buckets_ListObjectsV2_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Daftar objek dalam ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Request;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Response;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.S3Object;

import java.nio.file.Path;
import java.util.List;
import java.util.stream.Collectors;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketObject;

    /**
     * Lists objects in the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @return A list of object keys in the bucket
     */
    public static List<String> listDirectoryBucketObjectsV2(S3Client s3Client, String bucketName) {
        logger.info("Listing objects in bucket: {}", bucketName);

        try {
            // Create a ListObjectsV2Request
            ListObjectsV2Request listObjectsV2Request = ListObjectsV2Request.builder()
                    .bucket(bucketName)
                    .build();

            // Retrieve the list of objects
            ListObjectsV2Response response = s3Client.listObjectsV2(listObjectsV2Request);

            // Extract and return the object keys
            return response.contents().stream()
                    .map(S3Object::key)
                    .collect(Collectors.toList());

        } catch (S3Exception e) {
            logger.error("Failed to list objects: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode());
            throw e;
        }
    }
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListObjectsV2) di *Referensi AWS SDK for Java 2.x API*. 

### `ListParts`
<a name="s3-directory-buckets_ListParts_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListParts`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Buat daftar bagian dari unggahan multibagian dalam bucket direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.ListPartsRequest;
import software.amazon.awssdk.services.s3.model.ListPartsResponse;
import software.amazon.awssdk.services.s3.model.Part;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.io.IOException;
import java.nio.file.Path;
import java.util.List;

import static com.example.s3.util.S3DirectoryBucketUtils.abortDirectoryBucketMultipartUploads;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucketMultipartUpload;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.multipartUploadForDirectoryBucket;

    /**
     * Lists the parts of a multipart upload for the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object being uploaded
     * @param uploadId   The upload ID used to track the multipart upload
     * @return A list of Part representing the parts of the multipart upload
     */
    public static List<Part> listDirectoryBucketMultipartUploadParts(S3Client s3Client, String bucketName,
            String objectKey, String uploadId) {
        logger.info("Listing parts for object: {} in bucket: {}", objectKey, bucketName);

        try {
            // Create a ListPartsRequest
            ListPartsRequest listPartsRequest = ListPartsRequest.builder()
                    .bucket(bucketName)
                    .uploadId(uploadId)
                    .key(objectKey)
                    .build();

            // List the parts of the multipart upload
            ListPartsResponse response = s3Client.listParts(listPartsRequest);
            List<Part> parts = response.parts();
            for (Part part : parts) {
                logger.info("Uploaded part: Part number = \"{}\", etag = {}", part.partNumber(), part.eTag());
            }
            return parts;

        } catch (S3Exception e) {
            logger.error("Failed to list parts: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode());
            return List.of(); // Return an empty list if an exception is thrown
        }
    }
```
+  Untuk detail API, lihat [ListParts](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/ListParts)di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketEncryption`
<a name="s3-directory-buckets_PutBucketEncryption_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketEncryption`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Setel enkripsi bucket ke bucket direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.kms.KmsClient;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutBucketEncryptionRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.ServerSideEncryption;
import software.amazon.awssdk.services.s3.model.ServerSideEncryptionByDefault;
import software.amazon.awssdk.services.s3.model.ServerSideEncryptionConfiguration;
import software.amazon.awssdk.services.s3.model.ServerSideEncryptionRule;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createKmsClient;
import static com.example.s3.util.S3DirectoryBucketUtils.createKmsKey;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.scheduleKeyDeletion;

    /**
     * Sets the default encryption configuration for an S3 bucket as SSE-KMS.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param kmsKeyId   The ID of the customer-managed KMS key
     */
    public static void putDirectoryBucketEncryption(S3Client s3Client, String bucketName, String kmsKeyId) {
        // Define the default encryption configuration to use SSE-KMS. For directory
        // buckets, AWS managed KMS keys aren't supported. Only customer-managed keys
        // are supported.
        ServerSideEncryptionByDefault encryptionByDefault = ServerSideEncryptionByDefault.builder()
                .sseAlgorithm(ServerSideEncryption.AWS_KMS)
                .kmsMasterKeyID(kmsKeyId)
                .build();

        // Create a server-side encryption rule to apply the default encryption
        // configuration. For directory buckets, the bucketKeyEnabled field is enforced
        // to be true.
        ServerSideEncryptionRule rule = ServerSideEncryptionRule.builder()
                .bucketKeyEnabled(true)
                .applyServerSideEncryptionByDefault(encryptionByDefault)
                .build();

        // Create the server-side encryption configuration for the bucket
        ServerSideEncryptionConfiguration encryptionConfiguration = ServerSideEncryptionConfiguration.builder()
                .rules(rule)
                .build();

        // Create the PutBucketEncryption request
        PutBucketEncryptionRequest putRequest = PutBucketEncryptionRequest.builder()
                .bucket(bucketName)
                .serverSideEncryptionConfiguration(encryptionConfiguration)
                .build();

        // Set the bucket encryption
        try {
            s3Client.putBucketEncryption(putRequest);
            logger.info("SSE-KMS Bucket encryption configuration set for the directory bucket: {}", bucketName);
        } catch (S3Exception e) {
            logger.error("Failed to set bucket encryption: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode());
            throw e;
        }
    }
```
+  Untuk detail API, lihat [PutBucketEncryption](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketEncryption)di *Referensi AWS SDK for Java 2.x API*. 

### `PutBucketPolicy`
<a name="s3-directory-buckets_PutBucketPolicy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketPolicy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Menerapkan kebijakan bucket ke bucket direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutBucketPolicyRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getAwsAccountId;

    /**
     * Sets the following bucket policy for the specified S3 directory bucket.
     *<pre>
     * {
     *     "Version":"2012-10-17",		 	 	 
     *     "Statement": [
     *         {
     *             "Sid": "AdminPolicy",
     *             "Effect": "Allow",
     *             "Principal": {
     *                 "AWS": "arn:aws:iam::<ACCOUNT_ID>:root"
     *             },
     *             "Action": "s3express:*",
     *             "Resource": "arn:aws:s3express:us-west-2:<ACCOUNT_ID>:bucket/<DIR_BUCKET_NAME>
     *         }
     *     ]
     * }
     * </pre>
     * This policy grants all S3 directory bucket actions to identities in the same account as the bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param policyText The policy text to be applied
     */
    public static void putDirectoryBucketPolicy(S3Client s3Client, String bucketName, String policyText) {
        logger.info("Setting policy on bucket: {}", bucketName);
        logger.info("Policy: {}", policyText);

        try {
            PutBucketPolicyRequest policyReq = PutBucketPolicyRequest.builder()
                    .bucket(bucketName)
                    .policy(policyText)
                    .build();

            s3Client.putBucketPolicy(policyReq);
            logger.info("Bucket policy set successfully!");

        } catch (S3Exception e) {
            logger.error("Failed to set bucket policy: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [PutBucketPolicy](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketPolicy)di *Referensi AWS SDK for Java 2.x API*. 

### `PutObject`
<a name="s3-directory-buckets_PutObject_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Masukkan objek ke dalam ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.awscore.exception.AwsErrorDetails;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.PutObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;

import java.io.UncheckedIOException;
import java.nio.file.Path;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;

    /**
     * Puts an object into the specified S3 directory bucket.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object to be placed in the bucket
     * @param filePath   The path of the file to be uploaded
     */
    public static void putDirectoryBucketObject(S3Client s3Client, String bucketName, String objectKey, Path filePath) {
        logger.info("Putting object: {} into bucket: {}", objectKey, bucketName);

        try {
            // Create a PutObjectRequest
            PutObjectRequest putObj = PutObjectRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .build();

            // Upload the object
            s3Client.putObject(putObj, filePath);
            logger.info("Successfully placed {} into bucket {}", objectKey, bucketName);

        } catch (UncheckedIOException e) {
            throw S3Exception.builder().message("Failed to read the file: " + e.getMessage()).cause(e)
                    .awsErrorDetails(AwsErrorDetails.builder()
                            .errorCode("ClientSideException:FailedToReadFile")
                            .errorMessage(e.getMessage())
                            .build())
                    .build();
        } catch (S3Exception e) {
            logger.error("Failed to put object: {}", e.getMessage(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutObject)di *Referensi AWS SDK for Java 2.x API*. 

### `UploadPart`
<a name="s3-directory-buckets_UploadPart_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadPart`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Unggah bagian dari unggahan multibagian untuk bucket direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.sync.RequestBody;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.CompletedPart;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.UploadPartRequest;
import software.amazon.awssdk.services.s3.model.UploadPartResponse;

import java.io.IOException;
import java.io.RandomAccessFile;
import java.nio.ByteBuffer;
import java.nio.file.Path;
import java.util.ArrayList;
import java.util.List;

import static com.example.s3.util.S3DirectoryBucketUtils.abortDirectoryBucketMultipartUploads;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucketMultipartUpload;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;

    /**
     * This method creates part requests and uploads individual parts to S3.
     * While it uses the UploadPart API to upload a single part, it does so
     * sequentially to handle multiple parts of a file, returning all the completed
     * parts.
     *
     * @param s3Client   The S3 client used to interact with S3
     * @param bucketName The name of the directory bucket
     * @param objectKey  The key (name) of the object to be uploaded
     * @param uploadId   The upload ID used to track the multipart upload
     * @param filePath   The path to the file to be uploaded
     * @return A list of uploaded parts
     * @throws IOException if an I/O error occurs
     */
    public static List<CompletedPart> multipartUploadForDirectoryBucket(S3Client s3Client, String bucketName,
            String objectKey, String uploadId, Path filePath) throws IOException {
        logger.info("Uploading parts for object: {} in bucket: {}", objectKey, bucketName);

        int partNumber = 1;
        List<CompletedPart> uploadedParts = new ArrayList<>();
        ByteBuffer bb = ByteBuffer.allocate(1024 * 1024 * 5); // 5 MB byte buffer

        // Read the local file, break down into chunks and process
        try (RandomAccessFile file = new RandomAccessFile(filePath.toFile(), "r")) {
            long fileSize = file.length();
            int position = 0;

            // Sequentially upload parts of the file
            while (position < fileSize) {
                file.seek(position);
                int read = file.getChannel().read(bb);

                bb.flip(); // Swap position and limit before reading from the buffer
                UploadPartRequest uploadPartRequest = UploadPartRequest.builder()
                        .bucket(bucketName)
                        .key(objectKey)
                        .uploadId(uploadId)
                        .partNumber(partNumber)
                        .build();

                UploadPartResponse partResponse = s3Client.uploadPart(
                        uploadPartRequest,
                        RequestBody.fromByteBuffer(bb));

                // Build the uploaded part
                CompletedPart uploadedPart = CompletedPart.builder()
                        .partNumber(partNumber)
                        .eTag(partResponse.eTag())
                        .build();

                // Add the uploaded part to the list
                uploadedParts.add(uploadedPart);

                // Log to indicate the part upload is done
                logger.info("Uploaded part number: {} with ETag: {}", partNumber, partResponse.eTag());

                bb.clear();
                position += read;
                partNumber++;
            }
        } catch (S3Exception e) {
            logger.error("Failed to list parts: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode());
            throw e;
        }
        return uploadedParts;
    }
```
+  Untuk detail API, lihat [UploadPart](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/UploadPart)di *Referensi AWS SDK for Java 2.x API*. 

### `UploadPartCopy`
<a name="s3-directory-buckets_UploadPartCopy_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadPartCopy`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Buat salinan bagian berdasarkan ukuran objek sumber dan salin bagian individual ke ember direktori.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.CompletedPart;
import software.amazon.awssdk.services.s3.model.HeadObjectRequest;
import software.amazon.awssdk.services.s3.model.HeadObjectResponse;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.model.UploadPartCopyRequest;
import software.amazon.awssdk.services.s3.model.UploadPartCopyResponse;

import java.io.IOException;
import java.nio.file.Path;
import java.util.ArrayList;
import java.util.List;

import static com.example.s3.util.S3DirectoryBucketUtils.abortDirectoryBucketMultipartUploads;
import static com.example.s3.util.S3DirectoryBucketUtils.completeDirectoryBucketMultipartUpload;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucketMultipartUpload;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.multipartUploadForDirectoryBucket;

    /**
     * Creates copy parts based on source object size and copies over individual
     * parts.
     *
     * @param s3Client          The S3 client used to interact with S3
     * @param sourceBucket      The name of the source bucket
     * @param sourceKey         The key (name) of the source object
     * @param destinationBucket The name of the destination bucket
     * @param destinationKey    The key (name) of the destination object
     * @param uploadId          The upload ID used to track the multipart upload
     * @return A list of completed parts
     */
    public static List<CompletedPart> multipartUploadCopyForDirectoryBucket(S3Client s3Client, String sourceBucket,
            String sourceKey, String destinationBucket, String destinationKey, String uploadId) {
        // Get the object size to track the end of the copy operation
        HeadObjectRequest headObjectRequest = HeadObjectRequest.builder()
                .bucket(sourceBucket)
                .key(sourceKey)
                .build();
        HeadObjectResponse headObjectResponse = s3Client.headObject(headObjectRequest);
        long objectSize = headObjectResponse.contentLength();

        logger.info("Source Object size: {}", objectSize);

        // Copy the object using 20 MB parts
        long partSize = 20 * 1024 * 1024; // 20 MB
        long bytePosition = 0;
        int partNum = 1;
        List<CompletedPart> uploadedParts = new ArrayList<>();

        while (bytePosition < objectSize) {
            long lastByte = Math.min(bytePosition + partSize - 1, objectSize - 1);
            logger.info("Part Number: {}, Byte Position: {}, Last Byte: {}", partNum, bytePosition, lastByte);

            try {
                UploadPartCopyRequest uploadPartCopyRequest = UploadPartCopyRequest.builder()
                        .sourceBucket(sourceBucket)
                        .sourceKey(sourceKey)
                        .destinationBucket(destinationBucket)
                        .destinationKey(destinationKey)
                        .uploadId(uploadId)
                        .copySourceRange("bytes=" + bytePosition + "-" + lastByte)
                        .partNumber(partNum)
                        .build();
                UploadPartCopyResponse uploadPartCopyResponse = s3Client.uploadPartCopy(uploadPartCopyRequest);

                CompletedPart part = CompletedPart.builder()
                        .partNumber(partNum)
                        .eTag(uploadPartCopyResponse.copyPartResult().eTag())
                        .build();
                uploadedParts.add(part);

                bytePosition += partSize;
                partNum++;
            } catch (S3Exception e) {
                logger.error("Failed to copy part number {}: {} - Error code: {}", partNum,
                        e.awsErrorDetails().errorMessage(), e.awsErrorDetails().errorCode());
                throw e;
            }
        }

        return uploadedParts;
    }
```
+  Untuk detail API, lihat [UploadPartCopy](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/UploadPartCopy)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Buat URL presigned untuk mendapatkan objek
<a name="s3-directory-buckets_GeneratePresignedGetURLForDirectoryBucket_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk bucket direktori S3 dan mendapatkan objek.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3/src/main/java/com/example/s3/directorybucket#code-examples). 
Hasilkan URL GET yang telah ditetapkan sebelumnya untuk mengakses objek di bucket direktori S3.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.GetObjectRequest;
import software.amazon.awssdk.services.s3.model.S3Exception;
import software.amazon.awssdk.services.s3.presigner.S3Presigner;
import software.amazon.awssdk.services.s3.presigner.model.GetObjectPresignRequest;
import software.amazon.awssdk.services.s3.presigner.model.PresignedGetObjectRequest;

import java.nio.file.Path;
import java.time.Duration;

import static com.example.s3.util.S3DirectoryBucketUtils.createDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Client;
import static com.example.s3.util.S3DirectoryBucketUtils.createS3Presigner;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteAllObjectsInDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.deleteDirectoryBucket;
import static com.example.s3.util.S3DirectoryBucketUtils.getFilePath;
import static com.example.s3.util.S3DirectoryBucketUtils.putDirectoryBucketObject;


    /**
     * Generates a presigned URL for accessing an object in the specified S3
     * directory bucket.
     *
     * @param s3Presigner The S3 presigner client used to generate the presigned URL
     * @param bucketName  The name of the directory bucket
     * @param objectKey   The key (name) of the object to access
     * @return A presigned URL for accessing the specified object
     */
    public static String generatePresignedGetURLForDirectoryBucket(S3Presigner s3Presigner, String bucketName,
            String objectKey) {
        logger.info("Generating presigned URL for object: {} in bucket: {}", objectKey, bucketName);

        try {
            // Create a GetObjectRequest
            GetObjectRequest getObjectRequest = GetObjectRequest.builder()
                    .bucket(bucketName)
                    .key(objectKey)
                    .build();

            // Create a GetObjectPresignRequest
            GetObjectPresignRequest getObjectPresignRequest = GetObjectPresignRequest.builder()
                    .signatureDuration(Duration.ofMinutes(10)) // Presigned URL valid for 10 minutes
                    .getObjectRequest(getObjectRequest)
                    .build();

            // Generate the presigned URL
            PresignedGetObjectRequest presignedGetObjectRequest = s3Presigner.presignGetObject(getObjectPresignRequest);

            // Get the presigned URL
            String presignedURL = presignedGetObjectRequest.url().toString();
            logger.info("Presigned URL: {}", presignedURL);
            return presignedURL;

        } catch (S3Exception e) {
            logger.error("Failed to generate presigned URL: {} - Error code: {}", e.awsErrorDetails().errorMessage(),
                    e.awsErrorDetails().errorCode(), e);
            throw e;
        }
    }
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/GetObject)di *Referensi AWS SDK for Java 2.x API*. 

# SageMaker Contoh AI menggunakan SDK for Java 2.x
<a name="java_2_sagemaker_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum AWS SDK for Java 2.x dengan menggunakan SageMaker AI.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo SageMaker AI
<a name="sagemaker_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan SageMaker AI.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sagemaker#code-examples). 

```
/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloSageMaker {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        SageMakerClient sageMakerClient = SageMakerClient.builder()
                .region(region)
                .build();

        listBooks(sageMakerClient);
        sageMakerClient.close();
    }

    public static void listBooks(SageMakerClient sageMakerClient) {
        try {
            ListNotebookInstancesResponse notebookInstancesResponse = sageMakerClient.listNotebookInstances();
            List<NotebookInstanceSummary> items = notebookInstancesResponse.notebookInstances();
            for (NotebookInstanceSummary item : items) {
                System.out.println("The notebook name is: " + item.notebookInstanceName());
            }

        } catch (SageMakerException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListNotebookInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/ListNotebookInstances)di *Referensi AWS SDK for Java 2.x API*. 

## Tindakan
<a name="actions"></a>

### `CreatePipeline`
<a name="sagemaker_CreatePipeline_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePipeline`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/workflow_sagemaker_pipes#code-examples). 

```
    // Create a pipeline from the example pipeline JSON.
    public static void setupPipeline(SageMakerClient sageMakerClient, String filePath, String roleArn,
            String functionArn, String pipelineName) {
        System.out.println("Setting up the pipeline.");
        JSONParser parser = new JSONParser();

        // Read JSON and get pipeline definition.
        try (FileReader reader = new FileReader(filePath)) {
            Object obj = parser.parse(reader);
            JSONObject jsonObject = (JSONObject) obj;
            JSONArray stepsArray = (JSONArray) jsonObject.get("Steps");
            for (Object stepObj : stepsArray) {
                JSONObject step = (JSONObject) stepObj;
                if (step.containsKey("FunctionArn")) {
                    step.put("FunctionArn", functionArn);
                }
            }
            System.out.println(jsonObject);

            // Create the pipeline.
            CreatePipelineRequest pipelineRequest = CreatePipelineRequest.builder()
                    .pipelineDescription("Java SDK example pipeline")
                    .roleArn(roleArn)
                    .pipelineName(pipelineName)
                    .pipelineDefinition(jsonObject.toString())
                    .build();

            sageMakerClient.createPipeline(pipelineRequest);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        } catch (IOException | ParseException e) {
            throw new RuntimeException(e);
        }
    }
```
+  Untuk detail API, lihat [CreatePipeline](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/CreatePipeline)di *Referensi AWS SDK for Java 2.x API*. 

### `DeletePipeline`
<a name="sagemaker_DeletePipeline_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePipeline`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/workflow_sagemaker_pipes#code-examples). 

```
    // Delete a SageMaker pipeline by name.
    public static void deletePipeline(SageMakerClient sageMakerClient, String pipelineName) {
        DeletePipelineRequest pipelineRequest = DeletePipelineRequest.builder()
                .pipelineName(pipelineName)
                .build();

        sageMakerClient.deletePipeline(pipelineRequest);
        System.out.println("*** Successfully deleted " + pipelineName);
    }
```
+  Untuk detail API, lihat [DeletePipeline](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/DeletePipeline)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribePipelineExecution`
<a name="sagemaker_DescribePipelineExecution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribePipelineExecution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/workflow_sagemaker_pipes#code-examples). 

```
    // Check the status of a pipeline execution.
    public static void waitForPipelineExecution(SageMakerClient sageMakerClient, String executionArn)
            throws InterruptedException {
        String status;
        int index = 0;
        do {
            DescribePipelineExecutionRequest pipelineExecutionRequest = DescribePipelineExecutionRequest.builder()
                    .pipelineExecutionArn(executionArn)
                    .build();

            DescribePipelineExecutionResponse response = sageMakerClient
                    .describePipelineExecution(pipelineExecutionRequest);
            status = response.pipelineExecutionStatusAsString();
            System.out.println(index + ". The Status of the pipeline is " + status);
            TimeUnit.SECONDS.sleep(4);
            index++;
        } while ("Executing".equals(status));
        System.out.println("Pipeline finished with status " + status);
    }
```
+  Untuk detail API, lihat [DescribePipelineExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/DescribePipelineExecution)di *Referensi AWS SDK for Java 2.x API*. 

### `StartPipelineExecution`
<a name="sagemaker_StartPipelineExecution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartPipelineExecution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/workflow_sagemaker_pipes#code-examples). 

```
    // Start a pipeline run with job configurations.
    public static String executePipeline(SageMakerClient sageMakerClient, String bucketName, String queueUrl,
            String roleArn, String pipelineName) {
        System.out.println("Starting pipeline execution.");
        String inputBucketLocation = "s3://" + bucketName + "/samplefiles/latlongtest.csv";
        String output = "s3://" + bucketName + "/outputfiles/";
        Gson gson = new GsonBuilder()
                .setFieldNamingPolicy(FieldNamingPolicy.UPPER_CAMEL_CASE)
                .setPrettyPrinting().create();

        // Set up all parameters required to start the pipeline.
        List<Parameter> parameters = new ArrayList<>();
        Parameter para1 = Parameter.builder()
                .name("parameter_execution_role")
                .value(roleArn)
                .build();

        Parameter para2 = Parameter.builder()
                .name("parameter_queue_url")
                .value(queueUrl)
                .build();

        String inputJSON = "{\n" +
                "  \"DataSourceConfig\": {\n" +
                "    \"S3Data\": {\n" +
                "      \"S3Uri\": \"s3://" + bucketName + "/samplefiles/latlongtest.csv\"\n" +
                "    },\n" +
                "    \"Type\": \"S3_DATA\"\n" +
                "  },\n" +
                "  \"DocumentType\": \"CSV\"\n" +
                "}";

        System.out.println(inputJSON);

        Parameter para3 = Parameter.builder()
                .name("parameter_vej_input_config")
                .value(inputJSON)
                .build();

        // Create an ExportVectorEnrichmentJobOutputConfig object.
        VectorEnrichmentJobS3Data jobS3Data = VectorEnrichmentJobS3Data.builder()
                .s3Uri(output)
                .build();

        ExportVectorEnrichmentJobOutputConfig outputConfig = ExportVectorEnrichmentJobOutputConfig.builder()
                .s3Data(jobS3Data)
                .build();

        String gson4 = gson.toJson(outputConfig);
        Parameter para4 = Parameter.builder()
                .name("parameter_vej_export_config")
                .value(gson4)
                .build();
        System.out.println("parameter_vej_export_config:" + gson.toJson(outputConfig));

        // Create a VectorEnrichmentJobConfig object.
        ReverseGeocodingConfig reverseGeocodingConfig = ReverseGeocodingConfig.builder()
                .xAttributeName("Longitude")
                .yAttributeName("Latitude")
                .build();

        VectorEnrichmentJobConfig jobConfig = VectorEnrichmentJobConfig.builder()
                .reverseGeocodingConfig(reverseGeocodingConfig)
                .build();

        String para5JSON = "{\"MapMatchingConfig\":null,\"ReverseGeocodingConfig\":{\"XAttributeName\":\"Longitude\",\"YAttributeName\":\"Latitude\"}}";
        Parameter para5 = Parameter.builder()
                .name("parameter_step_1_vej_config")
                .value(para5JSON)
                .build();

        System.out.println("parameter_step_1_vej_config:" + gson.toJson(jobConfig));
        parameters.add(para1);
        parameters.add(para2);
        parameters.add(para3);
        parameters.add(para4);
        parameters.add(para5);

        StartPipelineExecutionRequest pipelineExecutionRequest = StartPipelineExecutionRequest.builder()
                .pipelineExecutionDescription("Created using Java SDK")
                .pipelineExecutionDisplayName(pipelineName + "-example-execution")
                .pipelineParameters(parameters)
                .pipelineName(pipelineName)
                .build();

        StartPipelineExecutionResponse response = sageMakerClient.startPipelineExecution(pipelineExecutionRequest);
        return response.pipelineExecutionArn();
    }
```
+  Untuk detail API, lihat [StartPipelineExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/StartPipelineExecution)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Memulai pekerjaan geospasial dan jaringan pipa
<a name="sagemaker_Scenario_Pipelines_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan sumber daya untuk pipa.
+ Siapkan pipa yang menjalankan pekerjaan geospasial.
+ Mulai eksekusi pipeline.
+ Pantau status eksekusi.
+ Lihat output dari pipa.
+ Pembersihan sumber daya 

Untuk informasi selengkapnya, lihat [Membuat dan menjalankan SageMaker pipeline menggunakan AWS SDKs Community.aws](https://community.aws/posts/create-and-run-sagemaker-pipelines-using-aws-sdks).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/workflow_sagemaker_pipes#code-examples). 

```
public class SagemakerWorkflow {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static String eventSourceMapping = "";

    public static void main(String[] args) throws InterruptedException {
        final String usage = "\n" +
                "Usage:\n" +
                "    <sageMakerRoleName> <lambdaRoleName> <functionFileLocation> <functionName> <queueName> <bucketName> <lnglatData> <spatialPipelinePath> <pipelineName>\n\n"
                +
                "Where:\n" +
                "    sageMakerRoleName - The name of the Amazon SageMaker role.\n\n" +
                "    lambdaRoleName - The name of the AWS Lambda role.\n\n" +
                "    functionFileLocation - The file location where the JAR file that represents the AWS Lambda function is located.\n\n"
                +
                "    functionName - The name of the AWS Lambda function (for example,SageMakerExampleFunction).\n\n" +
                "    queueName - The name of the Amazon Simple Queue Service (Amazon SQS) queue.\n\n" +
                "    bucketName - The name of the Amazon Simple Storage Service (Amazon S3) bucket.\n\n" +
                "    lnglatData - The file location of the latlongtest.csv file required for this use case.\n\n" +
                "    spatialPipelinePath - The file location of the GeoSpatialPipeline.json file required for this use case.\n\n"
                +
                "    pipelineName - The name of the pipeline to create (for example, sagemaker-sdk-example-pipeline).\n\n";

        if (args.length != 9) {
            System.out.println(usage);
            System.exit(1);
        }

        String sageMakerRoleName = args[0];
        String lambdaRoleName = args[1];
        String functionFileLocation = args[2];
        String functionName = args[3];
        String queueName = args[4];
        String bucketName = args[5];
        String lnglatData = args[6];
        String spatialPipelinePath = args[7];
        String pipelineName = args[8];
        String handlerName = "org.example.SageMakerLambdaFunction::handleRequest";

        Region region = Region.US_WEST_2;
        SageMakerClient sageMakerClient = SageMakerClient.builder()
                .region(region)
                .build();

        IamClient iam = IamClient.builder()
                .region(region)
                .build();

        LambdaClient lambdaClient = LambdaClient.builder()
                .region(region)
                .build();

        SqsClient sqsClient = SqsClient.builder()
                .region(region)
                .build();

        S3Client s3Client = S3Client.builder()
                .region(region)
                .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the Amazon SageMaker pipeline example scenario.");
        System.out.println(
                "\nThis example workflow will guide you through setting up and running an" +
                        "\nAmazon SageMaker pipeline. The pipeline uses an AWS Lambda function and an" +
                        "\nAmazon SQS Queue. It runs a vector enrichment reverse geocode job to" +
                        "\nreverse geocode addresses in an input file and store the results in an export file.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("First, we will set up the roles, functions, and queue needed by the SageMaker pipeline.");
        String lambdaRoleArn = checkLambdaRole(iam, lambdaRoleName);
        String sageMakerRoleArn = checkSageMakerRole(iam, sageMakerRoleName);

        String functionArn = checkFunction(lambdaClient, functionName, functionFileLocation, lambdaRoleArn,
                handlerName);
        String queueUrl = checkQueue(sqsClient, lambdaClient, queueName, functionName);
        System.out.println("The queue URL is " + queueUrl);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Setting up bucket " + bucketName);
        if (!checkBucket(s3Client, bucketName)) {
            setupBucket(s3Client, bucketName);
            System.out.println("Put " + lnglatData + " into " + bucketName);
            putS3Object(s3Client, bucketName, "latlongtest.csv", lnglatData);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Now we can create and run our pipeline.");
        setupPipeline(sageMakerClient, spatialPipelinePath, sageMakerRoleArn, functionArn, pipelineName);
        String pipelineExecutionARN = executePipeline(sageMakerClient, bucketName, queueUrl, sageMakerRoleArn,
                pipelineName);
        System.out.println("The pipeline execution ARN value is " + pipelineExecutionARN);
        waitForPipelineExecution(sageMakerClient, pipelineExecutionARN);
        System.out.println("Getting output results " + bucketName);
        getOutputResults(s3Client, bucketName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The pipeline has completed. To view the pipeline and runs " +
                "in SageMaker Studio, follow these instructions:" +
                "\nhttps://docs.aws.amazon.com/sagemaker/latest/dg/pipelines-studio.html");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("Do you want to delete the AWS resources used in this Workflow? (y/n)");
        Scanner in = new Scanner(System.in);
        String delResources = in.nextLine();
        if (delResources.compareTo("y") == 0) {
            System.out.println("Lets clean up the AWS resources. Wait 30 seconds");
            TimeUnit.SECONDS.sleep(30);
            deleteEventSourceMapping(lambdaClient);
            deleteSQSQueue(sqsClient, queueName);
            listBucketObjects(s3Client, bucketName);
            deleteBucket(s3Client, bucketName);
            deleteLambdaFunction(lambdaClient, functionName);
            deleteLambdaRole(iam, lambdaRoleName);
            deleteSagemakerRole(iam, sageMakerRoleName);
            deletePipeline(sageMakerClient, pipelineName);
        } else {
            System.out.println("The AWS Resources were not deleted!");
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("SageMaker pipeline scenario is complete.");
        System.out.println(DASHES);
    }

    private static void readObject(S3Client s3Client, String bucketName, String key) {
        System.out.println("Output file contents: \n");
        GetObjectRequest objectRequest = GetObjectRequest.builder()
                .bucket(bucketName)
                .key(key)
                .build();

        ResponseBytes<GetObjectResponse> objectBytes = s3Client.getObjectAsBytes(objectRequest);
        byte[] byteArray = objectBytes.asByteArray();
        String text = new String(byteArray, StandardCharsets.UTF_8);
        System.out.println("Text output: " + text);
    }

    // Display some results from the output directory.
    public static void getOutputResults(S3Client s3Client, String bucketName) {
        System.out.println("Getting output results {bucketName}.");
        ListObjectsRequest listObjectsRequest = ListObjectsRequest.builder()
                .bucket(bucketName)
                .prefix("outputfiles/")
                .build();

        ListObjectsResponse response = s3Client.listObjects(listObjectsRequest);
        List<S3Object> s3Objects = response.contents();
        for (S3Object object : s3Objects) {
            readObject(s3Client, bucketName, object.key());
        }
    }

    // Check the status of a pipeline execution.
    public static void waitForPipelineExecution(SageMakerClient sageMakerClient, String executionArn)
            throws InterruptedException {
        String status;
        int index = 0;
        do {
            DescribePipelineExecutionRequest pipelineExecutionRequest = DescribePipelineExecutionRequest.builder()
                    .pipelineExecutionArn(executionArn)
                    .build();

            DescribePipelineExecutionResponse response = sageMakerClient
                    .describePipelineExecution(pipelineExecutionRequest);
            status = response.pipelineExecutionStatusAsString();
            System.out.println(index + ". The Status of the pipeline is " + status);
            TimeUnit.SECONDS.sleep(4);
            index++;
        } while ("Executing".equals(status));
        System.out.println("Pipeline finished with status " + status);
    }

    // Delete a SageMaker pipeline by name.
    public static void deletePipeline(SageMakerClient sageMakerClient, String pipelineName) {
        DeletePipelineRequest pipelineRequest = DeletePipelineRequest.builder()
                .pipelineName(pipelineName)
                .build();

        sageMakerClient.deletePipeline(pipelineRequest);
        System.out.println("*** Successfully deleted " + pipelineName);
    }

    // Create a pipeline from the example pipeline JSON.
    public static void setupPipeline(SageMakerClient sageMakerClient, String filePath, String roleArn,
            String functionArn, String pipelineName) {
        System.out.println("Setting up the pipeline.");
        JSONParser parser = new JSONParser();

        // Read JSON and get pipeline definition.
        try (FileReader reader = new FileReader(filePath)) {
            Object obj = parser.parse(reader);
            JSONObject jsonObject = (JSONObject) obj;
            JSONArray stepsArray = (JSONArray) jsonObject.get("Steps");
            for (Object stepObj : stepsArray) {
                JSONObject step = (JSONObject) stepObj;
                if (step.containsKey("FunctionArn")) {
                    step.put("FunctionArn", functionArn);
                }
            }
            System.out.println(jsonObject);

            // Create the pipeline.
            CreatePipelineRequest pipelineRequest = CreatePipelineRequest.builder()
                    .pipelineDescription("Java SDK example pipeline")
                    .roleArn(roleArn)
                    .pipelineName(pipelineName)
                    .pipelineDefinition(jsonObject.toString())
                    .build();

            sageMakerClient.createPipeline(pipelineRequest);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        } catch (IOException | ParseException e) {
            throw new RuntimeException(e);
        }
    }

    // Start a pipeline run with job configurations.
    public static String executePipeline(SageMakerClient sageMakerClient, String bucketName, String queueUrl,
            String roleArn, String pipelineName) {
        System.out.println("Starting pipeline execution.");
        String inputBucketLocation = "s3://" + bucketName + "/samplefiles/latlongtest.csv";
        String output = "s3://" + bucketName + "/outputfiles/";
        Gson gson = new GsonBuilder()
                .setFieldNamingPolicy(FieldNamingPolicy.UPPER_CAMEL_CASE)
                .setPrettyPrinting().create();

        // Set up all parameters required to start the pipeline.
        List<Parameter> parameters = new ArrayList<>();
        Parameter para1 = Parameter.builder()
                .name("parameter_execution_role")
                .value(roleArn)
                .build();

        Parameter para2 = Parameter.builder()
                .name("parameter_queue_url")
                .value(queueUrl)
                .build();

        String inputJSON = "{\n" +
                "  \"DataSourceConfig\": {\n" +
                "    \"S3Data\": {\n" +
                "      \"S3Uri\": \"s3://" + bucketName + "/samplefiles/latlongtest.csv\"\n" +
                "    },\n" +
                "    \"Type\": \"S3_DATA\"\n" +
                "  },\n" +
                "  \"DocumentType\": \"CSV\"\n" +
                "}";

        System.out.println(inputJSON);

        Parameter para3 = Parameter.builder()
                .name("parameter_vej_input_config")
                .value(inputJSON)
                .build();

        // Create an ExportVectorEnrichmentJobOutputConfig object.
        VectorEnrichmentJobS3Data jobS3Data = VectorEnrichmentJobS3Data.builder()
                .s3Uri(output)
                .build();

        ExportVectorEnrichmentJobOutputConfig outputConfig = ExportVectorEnrichmentJobOutputConfig.builder()
                .s3Data(jobS3Data)
                .build();

        String gson4 = gson.toJson(outputConfig);
        Parameter para4 = Parameter.builder()
                .name("parameter_vej_export_config")
                .value(gson4)
                .build();
        System.out.println("parameter_vej_export_config:" + gson.toJson(outputConfig));

        // Create a VectorEnrichmentJobConfig object.
        ReverseGeocodingConfig reverseGeocodingConfig = ReverseGeocodingConfig.builder()
                .xAttributeName("Longitude")
                .yAttributeName("Latitude")
                .build();

        VectorEnrichmentJobConfig jobConfig = VectorEnrichmentJobConfig.builder()
                .reverseGeocodingConfig(reverseGeocodingConfig)
                .build();

        String para5JSON = "{\"MapMatchingConfig\":null,\"ReverseGeocodingConfig\":{\"XAttributeName\":\"Longitude\",\"YAttributeName\":\"Latitude\"}}";
        Parameter para5 = Parameter.builder()
                .name("parameter_step_1_vej_config")
                .value(para5JSON)
                .build();

        System.out.println("parameter_step_1_vej_config:" + gson.toJson(jobConfig));
        parameters.add(para1);
        parameters.add(para2);
        parameters.add(para3);
        parameters.add(para4);
        parameters.add(para5);

        StartPipelineExecutionRequest pipelineExecutionRequest = StartPipelineExecutionRequest.builder()
                .pipelineExecutionDescription("Created using Java SDK")
                .pipelineExecutionDisplayName(pipelineName + "-example-execution")
                .pipelineParameters(parameters)
                .pipelineName(pipelineName)
                .build();

        StartPipelineExecutionResponse response = sageMakerClient.startPipelineExecution(pipelineExecutionRequest);
        return response.pipelineExecutionArn();
    }

    public static void deleteEventSourceMapping(LambdaClient lambdaClient) {
        DeleteEventSourceMappingRequest eventSourceMappingRequest = DeleteEventSourceMappingRequest.builder()
                .uuid(eventSourceMapping)
                .build();

        lambdaClient.deleteEventSourceMapping(eventSourceMappingRequest);
    }

    public static void deleteSagemakerRole(IamClient iam, String roleName) {
        String[] sageMakerRolePolicies = getSageMakerRolePolicies();
        try {
            for (String policy : sageMakerRolePolicies) {
                // First the policy needs to be detached.
                DetachRolePolicyRequest rolePolicyRequest = DetachRolePolicyRequest.builder()
                        .policyArn(policy)
                        .roleName(roleName)
                        .build();

                iam.detachRolePolicy(rolePolicyRequest);
            }

            // Delete the role.
            DeleteRoleRequest roleRequest = DeleteRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            iam.deleteRole(roleRequest);
            System.out.println("*** Successfully deleted " + roleName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteLambdaRole(IamClient iam, String roleName) {
        String[] lambdaRolePolicies = getLambdaRolePolicies();
        try {
            for (String policy : lambdaRolePolicies) {
                // First the policy needs to be detached.
                DetachRolePolicyRequest rolePolicyRequest = DetachRolePolicyRequest.builder()
                        .policyArn(policy)
                        .roleName(roleName)
                        .build();

                iam.detachRolePolicy(rolePolicyRequest);
            }

            // Delete the role.
            DeleteRoleRequest roleRequest = DeleteRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            iam.deleteRole(roleRequest);
            System.out.println("*** Successfully deleted " + roleName);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Delete the specific AWS Lambda function.
    public static void deleteLambdaFunction(LambdaClient awsLambda, String functionName) {
        try {
            DeleteFunctionRequest request = DeleteFunctionRequest.builder()
                    .functionName(functionName)
                    .build();

            awsLambda.deleteFunction(request);
            System.out.println("*** " + functionName + " was deleted");

        } catch (LambdaException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    // Delete the specific S3 bucket.
    public static void deleteBucket(S3Client s3Client, String bucketName) {
        DeleteBucketRequest deleteBucketRequest = DeleteBucketRequest.builder()
                .bucket(bucketName)
                .build();
        s3Client.deleteBucket(deleteBucketRequest);
        System.out.println("*** " + bucketName + " was deleted.");
    }

    public static void listBucketObjects(S3Client s3, String bucketName) {
        try {
            ListObjectsRequest listObjects = ListObjectsRequest
                    .builder()
                    .bucket(bucketName)
                    .build();

            ListObjectsResponse res = s3.listObjects(listObjects);
            List<S3Object> objects = res.contents();
            for (S3Object myValue : objects) {
                System.out.print("\n The name of the key is " + myValue.key());
                deleteBucketObjects(s3, bucketName, myValue.key());
            }

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteBucketObjects(S3Client s3, String bucketName, String objectName) {
        ArrayList<ObjectIdentifier> toDelete = new ArrayList<>();
        toDelete.add(ObjectIdentifier.builder()
                .key(objectName)
                .build());
        try {
            DeleteObjectsRequest dor = DeleteObjectsRequest.builder()
                    .bucket(bucketName)
                    .delete(Delete.builder()
                            .objects(toDelete).build())
                    .build();

            s3.deleteObjects(dor);
            System.out.println("*** " + bucketName + " objects were deleted.");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Delete the specific Amazon SQS queue.
    public static void deleteSQSQueue(SqsClient sqsClient, String queueName) {
        try {
            GetQueueUrlRequest getQueueRequest = GetQueueUrlRequest.builder()
                    .queueName(queueName)
                    .build();

            String queueUrl = sqsClient.getQueueUrl(getQueueRequest).queueUrl();
            DeleteQueueRequest deleteQueueRequest = DeleteQueueRequest.builder()
                    .queueUrl(queueUrl)
                    .build();

            sqsClient.deleteQueue(deleteQueueRequest);

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void putS3Object(S3Client s3, String bucketName, String objectKey, String objectPath) {
        try {
            Map<String, String> metadata = new HashMap<>();
            metadata.put("x-amz-meta-myVal", "test");
            PutObjectRequest putOb = PutObjectRequest.builder()
                    .bucket(bucketName)
                    .key("samplefiles/" + objectKey)
                    .metadata(metadata)
                    .build();

            s3.putObject(putOb, RequestBody.fromFile(new File(objectPath)));
            System.out.println("Successfully placed " + objectKey + " into bucket " + bucketName);

        } catch (S3Exception e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void setupBucket(S3Client s3Client, String bucketName) {
        try {
            S3Waiter s3Waiter = s3Client.waiter();
            CreateBucketRequest bucketRequest = CreateBucketRequest.builder()
                    .bucket(bucketName)
                    .build();

            s3Client.createBucket(bucketRequest);
            HeadBucketRequest bucketRequestWait = HeadBucketRequest.builder()
                    .bucket(bucketName)
                    .build();

            // Wait until the bucket is created and print out the response.
            WaiterResponse<HeadBucketResponse> waiterResponse = s3Waiter.waitUntilBucketExists(bucketRequestWait);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println(bucketName + " is ready");

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Set up the SQS queue to use with the pipeline.
    public static String setupQueue(SqsClient sqsClient, LambdaClient lambdaClient, String queueName,
            String lambdaName) {
        System.out.println("Setting up queue named " + queueName);
        try {
            Map<QueueAttributeName, String> queueAtt = new HashMap<>();
            queueAtt.put(QueueAttributeName.DELAY_SECONDS, "5");
            queueAtt.put(QueueAttributeName.RECEIVE_MESSAGE_WAIT_TIME_SECONDS, "5");
            queueAtt.put(QueueAttributeName.VISIBILITY_TIMEOUT, "300");
            CreateQueueRequest createQueueRequest = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .attributes(queueAtt)
                    .build();

            sqsClient.createQueue(createQueueRequest);
            System.out.println("\nGet queue url");
            GetQueueUrlResponse getQueueUrlResponse = sqsClient
                    .getQueueUrl(GetQueueUrlRequest.builder().queueName(queueName).build());
            TimeUnit.SECONDS.sleep(15);

            connectLambda(sqsClient, lambdaClient, getQueueUrlResponse.queueUrl(), lambdaName);
            System.out.println("Queue ready with Url " + getQueueUrlResponse.queueUrl());
            return getQueueUrlResponse.queueUrl();

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        } catch (InterruptedException e) {
            throw new RuntimeException(e);
        }
        return "";
    }

    // Connect the queue to the Lambda function as an event source.
    public static void connectLambda(SqsClient sqsClient, LambdaClient lambdaClient, String queueUrl,
            String lambdaName) {
        System.out.println("Connecting the Lambda function and queue for the pipeline.");
        String queueArn = "";

        // Specify the attributes to retrieve.
        List<QueueAttributeName> atts = new ArrayList<>();
        atts.add(QueueAttributeName.QUEUE_ARN);
        GetQueueAttributesRequest attributesRequest = GetQueueAttributesRequest.builder()
                .queueUrl(queueUrl)
                .attributeNames(atts)
                .build();

        GetQueueAttributesResponse response = sqsClient.getQueueAttributes(attributesRequest);
        Map<String, String> queueAtts = response.attributesAsStrings();
        for (Map.Entry<String, String> queueAtt : queueAtts.entrySet()) {
            System.out.println("Key = " + queueAtt.getKey() + ", Value = " + queueAtt.getValue());
            queueArn = queueAtt.getValue();
        }

        CreateEventSourceMappingRequest eventSourceMappingRequest = CreateEventSourceMappingRequest.builder()
                .eventSourceArn(queueArn)
                .functionName(lambdaName)
                .build();

        CreateEventSourceMappingResponse response1 = lambdaClient.createEventSourceMapping(eventSourceMappingRequest);
        eventSourceMapping = response1.uuid();
        System.out.println("The mapping between the event source and Lambda function was successful");
    }

    // Create an AWS Lambda function.
    public static String createLambdaFunction(LambdaClient awsLambda, String functionName, String filePath, String role,
            String handler) {
        try {
            LambdaWaiter waiter = awsLambda.waiter();
            InputStream is = new FileInputStream(filePath);
            SdkBytes fileToUpload = SdkBytes.fromInputStream(is);
            FunctionCode code = FunctionCode.builder()
                    .zipFile(fileToUpload)
                    .build();

            CreateFunctionRequest functionRequest = CreateFunctionRequest.builder()
                    .functionName(functionName)
                    .description("SageMaker example function.")
                    .code(code)
                    .handler(handler)
                    .runtime(Runtime.JAVA11)
                    .timeout(200)
                    .memorySize(1024)
                    .role(role)
                    .build();

            // Create a Lambda function using a waiter.
            CreateFunctionResponse functionResponse = awsLambda.createFunction(functionRequest);
            GetFunctionRequest getFunctionRequest = GetFunctionRequest.builder()
                    .functionName(functionName)
                    .build();
            WaiterResponse<GetFunctionResponse> waiterResponse = waiter.waitUntilFunctionExists(getFunctionRequest);
            waiterResponse.matched().response().ifPresent(System.out::println);
            System.out.println("The function ARN is " + functionResponse.functionArn());
            return functionResponse.functionArn();

        } catch (LambdaException | FileNotFoundException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }

    public static String createSageMakerRole(IamClient iam, String roleName) {
        String[] sageMakerRolePolicies = getSageMakerRolePolicies();
        System.out.println("Creating a role to use with SageMaker.");
        String assumeRolePolicy = "{" +
                "\"Version\": \"2012-10-17\"," +
                "\"Statement\": [{" +
                "\"Effect\": \"Allow\"," +
                "\"Principal\": {" +
                "\"Service\": [" +
                "\"sagemaker.amazonaws.com\"," +
                "\"sagemaker-geospatial.amazonaws.com\"," +
                "\"lambda.amazonaws.com\"," +
                "\"s3.amazonaws.com\"" +
                "]" +
                "}," +
                "\"Action\": \"sts:AssumeRole\"" +
                "}]" +
                "}";

        try {
            CreateRoleRequest request = CreateRoleRequest.builder()
                    .roleName(roleName)
                    .assumeRolePolicyDocument(assumeRolePolicy)
                    .description("Created using the AWS SDK for Java")
                    .build();

            CreateRoleResponse roleResult = iam.createRole(request);

            // Attach the policies to the role.
            for (String policy : sageMakerRolePolicies) {
                AttachRolePolicyRequest attachRequest = AttachRolePolicyRequest.builder()
                        .roleName(roleName)
                        .policyArn(policy)
                        .build();

                iam.attachRolePolicy(attachRequest);
            }

            // Allow time for the role to be ready.
            TimeUnit.SECONDS.sleep(15);
            System.out.println("Role ready with ARN " + roleResult.role().arn());
            return roleResult.role().arn();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        } catch (InterruptedException e) {
            throw new RuntimeException(e);
        }
        return "";
    }

    private static String createLambdaRole(IamClient iam, String roleName) {
        String[] lambdaRolePolicies = getLambdaRolePolicies();
        String assumeRolePolicy = "{" +
                "\"Version\": \"2012-10-17\"," +
                "\"Statement\": [{" +
                "\"Effect\": \"Allow\"," +
                "\"Principal\": {" +
                "\"Service\": [" +
                "\"sagemaker.amazonaws.com\"," +
                "\"sagemaker-geospatial.amazonaws.com\"," +
                "\"lambda.amazonaws.com\"," +
                "\"s3.amazonaws.com\"" +
                "]" +
                "}," +
                "\"Action\": \"sts:AssumeRole\"" +
                "}]" +
                "}";

        try {
            CreateRoleRequest request = CreateRoleRequest.builder()
                    .roleName(roleName)
                    .assumeRolePolicyDocument(assumeRolePolicy)
                    .description("Created using the AWS SDK for Java")
                    .build();

            CreateRoleResponse roleResult = iam.createRole(request);

            // Attach the policies to the role.
            for (String policy : lambdaRolePolicies) {
                AttachRolePolicyRequest attachRequest = AttachRolePolicyRequest.builder()
                        .roleName(roleName)
                        .policyArn(policy)
                        .build();

                iam.attachRolePolicy(attachRequest);
            }

            // Allow time for the role to be ready.
            TimeUnit.SECONDS.sleep(15);
            System.out.println("Role ready with ARN " + roleResult.role().arn());
            return roleResult.role().arn();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());

        } catch (InterruptedException e) {
            throw new RuntimeException(e);
        }
        return "";
    }

    public static String checkFunction(LambdaClient lambdaClient, String functionName, String filePath, String role,
            String handler) {
        System.out.println("Create an AWS Lambda function used in this workflow.");
        String functionArn;
        try {
            // Does this function already exist.
            GetFunctionRequest functionRequest = GetFunctionRequest.builder()
                    .functionName(functionName)
                    .build();

            GetFunctionResponse response = lambdaClient.getFunction(functionRequest);
            functionArn = response.configuration().functionArn();

        } catch (LambdaException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            functionArn = createLambdaFunction(lambdaClient, functionName, filePath, role, handler);
        }
        return functionArn;
    }

    // Check to see if the specific S3 bucket exists. If the S3 bucket exists, this
    // method returns true.
    public static boolean checkBucket(S3Client s3, String bucketName) {
        try {
            HeadBucketRequest headBucketRequest = HeadBucketRequest.builder()
                    .bucket(bucketName)
                    .build();

            s3.headBucket(headBucketRequest);
            System.out.println(bucketName + " exists");
            return true;

        } catch (S3Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
        return false;
    }

    // Checks to see if the Amazon SQS queue exists. If not, this method creates a
    // new queue
    // and returns the ARN value.
    public static String checkQueue(SqsClient sqsClient, LambdaClient lambdaClient, String queueName,
            String lambdaName) {
        System.out.println("Creating a queue for this use case.");
        String queueUrl;
        try {
            GetQueueUrlRequest request = GetQueueUrlRequest.builder()
                    .queueName(queueName)
                    .build();

            GetQueueUrlResponse response = sqsClient.getQueueUrl(request);
            queueUrl = response.queueUrl();
            System.out.println(queueUrl);

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            queueUrl = setupQueue(sqsClient, lambdaClient, queueName, lambdaName);
        }
        return queueUrl;
    }

    // Checks to see if the Lambda role exists. If not, this method creates it.
    public static String checkLambdaRole(IamClient iam, String roleName) {
        System.out.println("Creating a role to for AWS Lambda to use.");
        String roleArn;
        try {
            GetRoleRequest roleRequest = GetRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            GetRoleResponse response = iam.getRole(roleRequest);
            roleArn = response.role().arn();
            System.out.println(roleArn);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            roleArn = createLambdaRole(iam, roleName);
        }
        return roleArn;
    }

    // Checks to see if the SageMaker role exists. If not, this method creates it.
    public static String checkSageMakerRole(IamClient iam, String roleName) {
        System.out.println("Creating a role to for AWS SageMaker to use.");
        String roleArn;
        try {
            GetRoleRequest roleRequest = GetRoleRequest.builder()
                    .roleName(roleName)
                    .build();

            GetRoleResponse response = iam.getRole(roleRequest);
            roleArn = response.role().arn();
            System.out.println(roleArn);

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            roleArn = createSageMakerRole(iam, roleName);
        }
        return roleArn;
    }

    private static String[] getSageMakerRolePolicies() {
        String[] sageMakerRolePolicies = new String[3];
        sageMakerRolePolicies[0] = "arn:aws:iam::aws:policy/AmazonSageMakerFullAccess";
        sageMakerRolePolicies[1] = "arn:aws:iam::aws:policy/" + "AmazonSageMakerGeospatialFullAccess";
        sageMakerRolePolicies[2] = "arn:aws:iam::aws:policy/AmazonSQSFullAccess";
        return sageMakerRolePolicies;
    }

    private static String[] getLambdaRolePolicies() {
        String[] lambdaRolePolicies = new String[5];
        lambdaRolePolicies[0] = "arn:aws:iam::aws:policy/AmazonSageMakerFullAccess";
        lambdaRolePolicies[1] = "arn:aws:iam::aws:policy/AmazonSQSFullAccess";
        lambdaRolePolicies[2] = "arn:aws:iam::aws:policy/service-role/" + "AmazonSageMakerGeospatialFullAccess";
        lambdaRolePolicies[3] = "arn:aws:iam::aws:policy/service-role/"
                + "AmazonSageMakerServiceCatalogProductsLambdaServiceRolePolicy";
        lambdaRolePolicies[4] = "arn:aws:iam::aws:policy/service-role/" + "AWSLambdaSQSQueueExecutionRole";
        return lambdaRolePolicies;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreatePipeline](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/CreatePipeline)
  + [DeletePipeline](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/DeletePipeline)
  + [DescribePipelineExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/DescribePipelineExecution)
  + [StartPipelineExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/StartPipelineExecution)
  + [UpdatePipeline](https://docs.aws.amazon.com/goto/SdkForJavaV2/sagemaker-2017-07-24/UpdatePipeline)

# Secrets Manager contoh menggunakan SDK for Java 2.x
<a name="java_2_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Secrets Manager AWS SDK for Java 2.x with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetSecretValue`
<a name="secrets-manager_GetSecretValue_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSecretValue`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/secrets-manager#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.secretsmanager.SecretsManagerClient;
import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueRequest;
import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueResponse;
import software.amazon.awssdk.services.secretsmanager.model.SecretsManagerException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * We recommend that you cache your secret values by using client-side caching.
 *
 * Caching secrets improves speed and reduces your costs. For more information,
 * see the following documentation topic:
 *
 * https://docs.aws.amazon.com/secretsmanager/latest/userguide/retrieving-secrets.html
 */
public class GetSecretValue {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <secretName>\s

                Where:
                    secretName - The name of the secret (for example, tutorials/MyFirstSecret).\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String secretName = args[0];
        Region region = Region.US_EAST_1;
        SecretsManagerClient secretsClient = SecretsManagerClient.builder()
                .region(region)
                .build();

        getValue(secretsClient, secretName);
        secretsClient.close();
    }

    public static void getValue(SecretsManagerClient secretsClient, String secretName) {
        try {
            GetSecretValueRequest valueRequest = GetSecretValueRequest.builder()
                    .secretId(secretName)
                    .build();

            GetSecretValueResponse valueResponse = secretsClient.getSecretValue(valueRequest);
            String secret = valueResponse.secretString();
            System.out.println(secret);

        } catch (SecretsManagerException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetSecretValue](https://docs.aws.amazon.com/goto/SdkForJavaV2/secretsmanager-2017-10-17/GetSecretValue)di *Referensi AWS SDK for Java 2.x API*. 

# Amazon SES contoh menggunakan SDK for Java 2.x
<a name="java_2_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x With Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `ListIdentities`
<a name="ses_ListIdentities_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentities`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ses.SesClient;
import software.amazon.awssdk.services.ses.model.ListIdentitiesResponse;
import software.amazon.awssdk.services.ses.model.SesException;
import java.io.IOException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListIdentities {

    public static void main(String[] args) throws IOException {
        Region region = Region.US_WEST_2;
        SesClient client = SesClient.builder()
                .region(region)
                .build();

        listSESIdentities(client);
    }

    public static void listSESIdentities(SesClient client) {
        try {
            ListIdentitiesResponse identitiesResponse = client.listIdentities();
            List<String> identities = identitiesResponse.identities();
            for (String identity : identities) {
                System.out.println("The identity is " + identity);
            }

        } catch (SesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/goto/SdkForJavaV2/email-2010-12-01/ListIdentities)di *Referensi AWS SDK for Java 2.x API*. 

### `ListTemplates`
<a name="ses_ListTemplates_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTemplates`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sesv2.SesV2Client;
import software.amazon.awssdk.services.sesv2.model.ListEmailTemplatesRequest;
import software.amazon.awssdk.services.sesv2.model.ListEmailTemplatesResponse;
import software.amazon.awssdk.services.sesv2.model.SesV2Exception;

public class ListTemplates {

    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        SesV2Client sesv2Client = SesV2Client.builder()
                .region(region)
                .build();

        listAllTemplates(sesv2Client);
    }

    public static void listAllTemplates(SesV2Client sesv2Client) {
        try {
            ListEmailTemplatesRequest templatesRequest = ListEmailTemplatesRequest.builder()
                    .pageSize(1)
                    .build();

            ListEmailTemplatesResponse response = sesv2Client.listEmailTemplates(templatesRequest);
            response.templatesMetadata()
                    .forEach(template -> System.out.println("Template name: " + template.templateName()));

        } catch (SesV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListTemplates](https://docs.aws.amazon.com/goto/SdkForJavaV2/email-2010-12-01/ListTemplates)di *Referensi AWS SDK for Java 2.x API*. 

### `SendEmail`
<a name="ses_SendEmail_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ses.SesClient;
import software.amazon.awssdk.services.ses.model.Content;
import software.amazon.awssdk.services.ses.model.Destination;
import software.amazon.awssdk.services.ses.model.Message;
import software.amazon.awssdk.services.ses.model.Body;
import software.amazon.awssdk.services.ses.model.SendEmailRequest;
import software.amazon.awssdk.services.ses.model.SesException;

import javax.mail.MessagingException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SendMessageEmailRequest {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <sender> <recipient> <subject>\s

                Where:
                    sender - An email address that represents the sender.\s
                    recipient -  An email address that represents the recipient.\s
                    subject - The  subject line.\s
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String sender = args[0];
        String recipient = args[1];
        String subject = args[2];

        Region region = Region.US_EAST_1;
        SesClient client = SesClient.builder()
                .region(region)
                .build();

        // The HTML body of the email.
        String bodyHTML = "<html>" + "<head></head>" + "<body>" + "<h1>Hello!</h1>"
                + "<p> See the list of customers.</p>" + "</body>" + "</html>";

        try {
            send(client, sender, recipient, subject, bodyHTML);
            client.close();
            System.out.println("Done");

        } catch (MessagingException e) {
            e.printStackTrace();
        }
    }

    public static void send(SesClient client,
            String sender,
            String recipient,
            String subject,
            String bodyHTML) throws MessagingException {

        Destination destination = Destination.builder()
                .toAddresses(recipient)
                .build();

        Content content = Content.builder()
                .data(bodyHTML)
                .build();

        Content sub = Content.builder()
                .data(subject)
                .build();

        Body body = Body.builder()
                .html(content)
                .build();

        Message msg = Message.builder()
                .subject(sub)
                .body(body)
                .build();

        SendEmailRequest emailRequest = SendEmailRequest.builder()
                .destination(destination)
                .message(msg)
                .source(sender)
                .build();

        try {
            System.out.println("Attempting to send an email through Amazon SES " + "using the AWS SDK for Java...");
            client.sendEmail(emailRequest);

        } catch (SesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}

import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ses.SesClient;
import javax.activation.DataHandler;
import javax.activation.DataSource;
import javax.mail.Message;
import javax.mail.MessagingException;
import javax.mail.Session;
import javax.mail.internet.AddressException;
import javax.mail.internet.InternetAddress;
import javax.mail.internet.MimeMessage;
import javax.mail.internet.MimeMultipart;
import javax.mail.internet.MimeBodyPart;
import javax.mail.util.ByteArrayDataSource;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.file.Files;
import java.util.Properties;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.services.ses.model.SendRawEmailRequest;
import software.amazon.awssdk.services.ses.model.RawMessage;
import software.amazon.awssdk.services.ses.model.SesException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class SendMessageAttachment {
    public static void main(String[] args) throws IOException {
        final String usage = """

                Usage:
                    <sender> <recipient> <subject> <fileLocation>\s

                Where:
                    sender - An email address that represents the sender.\s
                    recipient -  An email address that represents the recipient.\s
                    subject - The  subject line.\s
                    fileLocation - The location of a Microsoft Excel file to use as an attachment (C:/AWS/customers.xls).\s
                """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String sender = args[0];
        String recipient = args[1];
        String subject = args[2];
        String fileLocation = args[3];

        // The email body for recipients with non-HTML email clients.
        String bodyText = "Hello,\r\n" + "Please see the attached file for a list "
                + "of customers to contact.";

        // The HTML body of the email.
        String bodyHTML = "<html>" + "<head></head>" + "<body>" + "<h1>Hello!</h1>"
                + "<p>Please see the attached file for a " + "list of customers to contact.</p>" + "</body>"
                + "</html>";

        Region region = Region.US_WEST_2;
        SesClient client = SesClient.builder()
                .region(region)
                .build();

        try {
            sendemailAttachment(client, sender, recipient, subject, bodyText, bodyHTML, fileLocation);
            client.close();
            System.out.println("Done");

        } catch (IOException | MessagingException e) {
            e.printStackTrace();
        }
    }

    public static void sendemailAttachment(SesClient client,
            String sender,
            String recipient,
            String subject,
            String bodyText,
            String bodyHTML,
            String fileLocation) throws AddressException, MessagingException, IOException {

        java.io.File theFile = new java.io.File(fileLocation);
        byte[] fileContent = Files.readAllBytes(theFile.toPath());

        Session session = Session.getDefaultInstance(new Properties());

        // Create a new MimeMessage object.
        MimeMessage message = new MimeMessage(session);

        // Add subject, from and to lines.
        message.setSubject(subject, "UTF-8");
        message.setFrom(new InternetAddress(sender));
        message.setRecipients(Message.RecipientType.TO, InternetAddress.parse(recipient));

        // Create a multipart/alternative child container.
        MimeMultipart msgBody = new MimeMultipart("alternative");

        // Create a wrapper for the HTML and text parts.
        MimeBodyPart wrap = new MimeBodyPart();

        // Define the text part.
        MimeBodyPart textPart = new MimeBodyPart();
        textPart.setContent(bodyText, "text/plain; charset=UTF-8");

        // Define the HTML part.
        MimeBodyPart htmlPart = new MimeBodyPart();
        htmlPart.setContent(bodyHTML, "text/html; charset=UTF-8");

        // Add the text and HTML parts to the child container.
        msgBody.addBodyPart(textPart);
        msgBody.addBodyPart(htmlPart);

        // Add the child container to the wrapper object.
        wrap.setContent(msgBody);

        // Create a multipart/mixed parent container.
        MimeMultipart msg = new MimeMultipart("mixed");

        // Add the parent container to the message.
        message.setContent(msg);
        msg.addBodyPart(wrap);

        // Define the attachment.
        MimeBodyPart att = new MimeBodyPart();
        DataSource fds = new ByteArrayDataSource(fileContent,
                "application/vnd.openxmlformats-officedocument.spreadsheetml.sheet");
        att.setDataHandler(new DataHandler(fds));

        String reportName = "WorkReport.xls";
        att.setFileName(reportName);

        // Add the attachment to the message.
        msg.addBodyPart(att);

        try {
            System.out.println("Attempting to send an email through Amazon SES " + "using the AWS SDK for Java...");

            ByteArrayOutputStream outputStream = new ByteArrayOutputStream();
            message.writeTo(outputStream);

            ByteBuffer buf = ByteBuffer.wrap(outputStream.toByteArray());

            byte[] arr = new byte[buf.remaining()];
            buf.get(arr);

            SdkBytes data = SdkBytes.fromByteArray(arr);
            RawMessage rawMessage = RawMessage.builder()
                    .data(data)
                    .build();

            SendRawEmailRequest rawEmailRequest = SendRawEmailRequest.builder()
                    .rawMessage(rawMessage)
                    .build();

            client.sendRawEmail(rawEmailRequest);

        } catch (SesException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        System.out.println("Email sent using SesClient with attachment");
    }
}
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/SdkForJavaV2/email-2010-12-01/SendEmail)di *Referensi AWS SDK for Java 2.x API*. 

### `SendTemplatedEmail`
<a name="ses_SendTemplatedEmail_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTemplatedEmail`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sesv2.model.Destination;
import software.amazon.awssdk.services.sesv2.model.EmailContent;
import software.amazon.awssdk.services.sesv2.model.SendEmailRequest;
import software.amazon.awssdk.services.sesv2.model.SesV2Exception;
import software.amazon.awssdk.services.sesv2.SesV2Client;
import software.amazon.awssdk.services.sesv2.model.Template;

/**
 * Before running this AWS SDK for Java (v2) example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * Also, make sure that you create a template. See the following documentation
 * topic:
 *
 * https://docs.aws.amazon.com/ses/latest/dg/send-personalized-email-api.html
 */

public class SendEmailTemplate {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <template> <sender> <recipient>\s

                Where:
                    template - The name of the email template.
                    sender - An email address that represents the sender.\s
                    recipient - An email address that represents the recipient.\s
                """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String templateName = args[0];
        String sender = args[1];
        String recipient = args[2];
        Region region = Region.US_EAST_1;
        SesV2Client sesv2Client = SesV2Client.builder()
                .region(region)
                .build();

        send(sesv2Client, sender, recipient, templateName);
    }

    public static void send(SesV2Client client, String sender, String recipient, String templateName) {
        Destination destination = Destination.builder()
                .toAddresses(recipient)
                .build();

        /*
         * Specify both name and favorite animal (favoriteanimal) in your code when
         * defining the Template object.
         * If you don't specify all the variables in the template, Amazon SES doesn't
         * send the email.
         */
        Template myTemplate = Template.builder()
                .templateName(templateName)
                .templateData("{\n" +
                        "  \"name\": \"Jason\"\n," +
                        "  \"favoriteanimal\": \"Cat\"\n" +
                        "}")
                .build();

        EmailContent emailContent = EmailContent.builder()
                .template(myTemplate)
                .build();

        SendEmailRequest emailRequest = SendEmailRequest.builder()
                .destination(destination)
                .content(emailContent)
                .fromEmailAddress(sender)
                .build();

        try {
            System.out.println("Attempting to send an email based on a template using the AWS SDK for Java (v2)...");
            client.sendEmail(emailRequest);
            System.out.println("email based on a template was sent");

        } catch (SesV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [SendTemplatedEmail](https://docs.aws.amazon.com/goto/SdkForJavaV2/email-2010-12-01/SendTemplatedEmail)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi web untuk melacak data DynamoDB
<a name="cross_DynamoDBDataTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item kerja dalam tabel Amazon DynamoDB dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon DynamoDB API untuk membuat aplikasi web dinamis yang melacak data kerja DynamoDB.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_dynamodb_web_app).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SES

### Buat aplikasi web untuk melacak data Amazon Redshift
<a name="cross_RedshiftDataTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak dan melaporkan item pekerjaan menggunakan database Amazon Redshift.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan item pekerjaan yang disimpan dalam database Amazon Redshift.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Redshift dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/CreatingSpringRedshiftRest)   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Redshift
+ Amazon SES

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon RDS.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/Creating_Spring_RDS_Rest)   
 Untuk kode sumber lengkap dan instruksi tentang cara menyiapkan dan menjalankan contoh yang menggunakan JDBC API, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/Creating_rds_item_tracker)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

### Mendeteksi APD dalam gambar
<a name="cross_RekognitionPhotoAnalyzerPPE_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi Alat Pelindung Diri (APD) dalam gambar.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat AWS Lambda fungsi yang mendeteksi gambar dengan Alat Pelindung Diri.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lambda_ppe).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Rekognition Java API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang terletak di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_photo_analyzer_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Rekognition Java API untuk membuat aplikasi guna mendeteksi wajah dan objek di video yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/video_analyzer_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

### Menggunakan Step Functions untuk menginvokasi fungsi Lambda
<a name="cross_ServerlessWorkflows_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat mesin AWS Step Functions status yang memanggil AWS Lambda fungsi secara berurutan.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat alur kerja AWS tanpa server dengan menggunakan AWS Step Functions dan. AWS SDK for Java 2.x Setiap langkah alur kerja diimplementasikan menggunakan AWS Lambda fungsi.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_workflows_stepfunctions).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda
+ Amazon SES
+ Step Functions

# Amazon SES API v2 contoh menggunakan SDK for Java 2.x
<a name="java_2_sesv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Amazon SES API v2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateContact`
<a name="sesv2_CreateContact_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContact`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
      try {
        // Create a new contact with the provided email address in the
        CreateContactRequest contactRequest = CreateContactRequest.builder()
            .contactListName(CONTACT_LIST_NAME)
            .emailAddress(emailAddress)
            .build();

        sesClient.createContact(contactRequest);
        contacts.add(emailAddress);

        System.out.println("Contact created: " + emailAddress);

        // Send a welcome email to the new contact
        String welcomeHtml = Files.readString(Paths.get("resources/coupon_newsletter/welcome.html"));
        String welcomeText = Files.readString(Paths.get("resources/coupon_newsletter/welcome.txt"));

        SendEmailRequest welcomeEmailRequest = SendEmailRequest.builder()
            .fromEmailAddress(this.verifiedEmail)
            .destination(Destination.builder().toAddresses(emailAddress).build())
            .content(EmailContent.builder()
                .simple(
                    Message.builder()
                        .subject(Content.builder().data("Welcome to the Weekly Coupons Newsletter").build())
                        .body(Body.builder()
                            .text(Content.builder().data(welcomeText).build())
                            .html(Content.builder().data(welcomeHtml).build())
                            .build())
                        .build())
                .build())
            .build();
        SendEmailResponse welcomeEmailResponse = sesClient.sendEmail(welcomeEmailRequest);
        System.out.println("Welcome email sent: " + welcomeEmailResponse.messageId());
      } catch (AlreadyExistsException e) {
        // If the contact already exists, skip this step for that contact and proceed
        // with the next contact
        System.out.println("Contact already exists, skipping creation...");
      } catch (Exception e) {
        System.err.println("Error occurred while processing email address " + emailAddress + ": " + e.getMessage());
        throw e;
      }
    }
```
+  Untuk detail API, lihat [CreateContact](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/CreateContact)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateContactList`
<a name="sesv2_CreateContactList_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContactList`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
    try {
      // 2. Create a contact list
      String contactListName = CONTACT_LIST_NAME;
      CreateContactListRequest createContactListRequest = CreateContactListRequest.builder()
          .contactListName(contactListName)
          .build();
      sesClient.createContactList(createContactListRequest);
      System.out.println("Contact list created: " + contactListName);
    } catch (AlreadyExistsException e) {
      System.out.println("Contact list already exists, skipping creation: weekly-coupons-newsletter");
    } catch (LimitExceededException e) {
      System.err.println("Limit for contact lists has been exceeded.");
      throw e;
    } catch (SesV2Exception e) {
      System.err.println("Error creating contact list: " + e.getMessage());
      throw e;
    }
```
+  Untuk detail API, lihat [CreateContactList](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/CreateContactList)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateEmailIdentity`
<a name="sesv2_CreateEmailIdentity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailIdentity`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
    try {
      CreateEmailIdentityRequest createEmailIdentityRequest = CreateEmailIdentityRequest.builder()
          .emailIdentity(verifiedEmail)
          .build();
      sesClient.createEmailIdentity(createEmailIdentityRequest);
      System.out.println("Email identity created: " + verifiedEmail);
    } catch (AlreadyExistsException e) {
      System.out.println("Email identity already exists, skipping creation: " + verifiedEmail);
    } catch (NotFoundException e) {
      System.err.println("The provided email address is not verified: " + verifiedEmail);
      throw e;
    } catch (LimitExceededException e) {
      System.err
          .println("You have reached the limit for email identities. Please remove some identities and try again.");
      throw e;
    } catch (SesV2Exception e) {
      System.err.println("Error creating email identity: " + e.getMessage());
      throw e;
    }
```
+  Untuk detail API, lihat [CreateEmailIdentity](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/CreateEmailIdentity)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateEmailTemplate`
<a name="sesv2_CreateEmailTemplate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailTemplate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
    try {
      // Create an email template named "weekly-coupons"
      String newsletterHtml = loadFile("resources/coupon_newsletter/coupon-newsletter.html");
      String newsletterText = loadFile("resources/coupon_newsletter/coupon-newsletter.txt");

      CreateEmailTemplateRequest templateRequest = CreateEmailTemplateRequest.builder()
          .templateName(TEMPLATE_NAME)
          .templateContent(EmailTemplateContent.builder()
              .subject("Weekly Coupons Newsletter")
              .html(newsletterHtml)
              .text(newsletterText)
              .build())
          .build();

      sesClient.createEmailTemplate(templateRequest);

      System.out.println("Email template created: " + TEMPLATE_NAME);
    } catch (AlreadyExistsException e) {
      // If the template already exists, skip this step and proceed with the next
      // operation
      System.out.println("Email template already exists, skipping creation...");
    } catch (LimitExceededException e) {
      // If the limit for email templates is exceeded, fail the workflow and inform
      // the user
      System.err.println("You have reached the limit for email templates. Please remove some templates and try again.");
      throw e;
    } catch (Exception e) {
      System.err.println("Error occurred while creating email template: " + e.getMessage());
      throw e;
    }
```
+  Untuk detail API, lihat [CreateEmailTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/CreateEmailTemplate)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteContactList`
<a name="sesv2_DeleteContactList_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteContactList`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
    try {
      // Delete the contact list
      DeleteContactListRequest deleteContactListRequest = DeleteContactListRequest.builder()
          .contactListName(CONTACT_LIST_NAME)
          .build();

      sesClient.deleteContactList(deleteContactListRequest);

      System.out.println("Contact list deleted: " + CONTACT_LIST_NAME);
    } catch (NotFoundException e) {
      // If the contact list does not exist, log the error and proceed
      System.out.println("Contact list not found. Skipping deletion...");
    } catch (Exception e) {
      System.err.println("Error occurred while deleting the contact list: " + e.getMessage());
      e.printStackTrace();
    }
```
+  Untuk detail API, lihat [DeleteContactList](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/DeleteContactList)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteEmailIdentity`
<a name="sesv2_DeleteEmailIdentity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailIdentity`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
      try {
        // Delete the email identity
        DeleteEmailIdentityRequest deleteIdentityRequest = DeleteEmailIdentityRequest.builder()
            .emailIdentity(this.verifiedEmail)
            .build();

        sesClient.deleteEmailIdentity(deleteIdentityRequest);

        System.out.println("Email identity deleted: " + this.verifiedEmail);
      } catch (NotFoundException e) {
        // If the email identity does not exist, log the error and proceed
        System.out.println("Email identity not found. Skipping deletion...");
      } catch (Exception e) {
        System.err.println("Error occurred while deleting the email identity: " + e.getMessage());
        e.printStackTrace();
      }
    } else {
      System.out.println("Skipping email identity deletion.");
    }
```
+  Untuk detail API, lihat [DeleteEmailIdentity](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/DeleteEmailIdentity)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteEmailTemplate`
<a name="sesv2_DeleteEmailTemplate_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailTemplate`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
    try {
      // Delete the template
      DeleteEmailTemplateRequest deleteTemplateRequest = DeleteEmailTemplateRequest.builder()
          .templateName(TEMPLATE_NAME)
          .build();

      sesClient.deleteEmailTemplate(deleteTemplateRequest);

      System.out.println("Email template deleted: " + TEMPLATE_NAME);
    } catch (NotFoundException e) {
      // If the email template does not exist, log the error and proceed
      System.out.println("Email template not found. Skipping deletion...");
    } catch (Exception e) {
      System.err.println("Error occurred while deleting the email template: " + e.getMessage());
      e.printStackTrace();
    }
```
+  Untuk detail API, lihat [DeleteEmailTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/DeleteEmailTemplate)di *Referensi AWS SDK for Java 2.x API*. 

### `ListContacts`
<a name="sesv2_ListContacts_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListContacts`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
      ListContactsRequest contactListRequest = ListContactsRequest.builder()
          .contactListName(CONTACT_LIST_NAME)
          .build();

      List<String> contactEmails;
      try {
        ListContactsResponse contactListResponse = sesClient.listContacts(contactListRequest);

        contactEmails = contactListResponse.contacts().stream()
            .map(Contact::emailAddress)
            .toList();
      } catch (Exception e) {
        // TODO: Remove when listContacts's GET body issue is resolved.
        contactEmails = this.contacts;
      }
```
+  Untuk detail API, lihat [ListContacts](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/ListContacts)di *Referensi AWS SDK for Java 2.x API*. 

### `SendEmail`
<a name="sesv2_SendEmail_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 
Mengirim pesan.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sesv2.model.Body;
import software.amazon.awssdk.services.sesv2.model.Content;
import software.amazon.awssdk.services.sesv2.model.Destination;
import software.amazon.awssdk.services.sesv2.model.EmailContent;
import software.amazon.awssdk.services.sesv2.model.Message;
import software.amazon.awssdk.services.sesv2.model.SendEmailRequest;
import software.amazon.awssdk.services.sesv2.model.SesV2Exception;
import software.amazon.awssdk.services.sesv2.SesV2Client;

/**
 * Before running this AWS SDK for Java (v2) example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class SendEmail {
    public static void main(String[] args) {
        final String usage = """
                             
                             Usage:
                                 <sender> <recipient> <subject>\s
                             
                             Where:
                                 sender - An email address that represents the sender.\s
                                 recipient - An email address that represents the recipient.\s
                                 subject - The subject line.\s
                             """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String sender = args[0];
        String recipient = args[1];
        String subject = args[2];

        Region region = Region.US_EAST_1;
        SesV2Client sesv2Client = SesV2Client.builder()
                .region(region)
                .build();

        // The HTML body of the email.
        String bodyHTML = "<html>" + "<head></head>" + "<body>" + "<h1>Hello!</h1>"
                + "<p> See the list of customers.</p>" + "</body>" + "</html>";

        send(sesv2Client, sender, recipient, subject, bodyHTML);
    }

    public static void send(SesV2Client client,
                            String sender,
                            String recipient,
                            String subject,
                            String bodyHTML) {

        Destination destination = Destination.builder()
                .toAddresses(recipient)
                .build();

        Content content = Content.builder()
                .data(bodyHTML)
                .build();

        Content sub = Content.builder()
                .data(subject)
                .build();

        Body body = Body.builder()
                .html(content)
                .build();

        Message msg = Message.builder()
                .subject(sub)
                .body(body)
                .build();

        EmailContent emailContent = EmailContent.builder()
                .simple(msg)
                .build();

        SendEmailRequest emailRequest = SendEmailRequest.builder()
                .destination(destination)
                .content(emailContent)
                .fromEmailAddress(sender)
                .build();

        try {
            System.out.println("Attempting to send an email through Amazon SES "
                    + "using the AWS SDK for Java...");
            client.sendEmail(emailRequest);
            System.out.println("email was sent");

        } catch (SesV2Exception e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Mengirim pesan menggunakan template.  

```
      String coupons = Files.readString(Paths.get("resources/coupon_newsletter/sample_coupons.json"));
      for (String emailAddress : contactEmails) {
        SendEmailRequest newsletterRequest = SendEmailRequest.builder()
            .destination(Destination.builder().toAddresses(emailAddress).build())
            .content(EmailContent.builder()
                .template(Template.builder()
                    .templateName(TEMPLATE_NAME)
                    .templateData(coupons)
                    .build())
                .build())
            .fromEmailAddress(this.verifiedEmail)
            .listManagementOptions(ListManagementOptions.builder()
                .contactListName(CONTACT_LIST_NAME)
                .build())
            .build();
        SendEmailResponse newsletterResponse = sesClient.sendEmail(newsletterRequest);
        System.out.println("Newsletter sent to " + emailAddress + ": " + newsletterResponse.messageId());
      }
```
Mengirim pesan dengan informasi header.  

```
public class SendwithHeader {

    public static void main(String[] args) {
        final String usage = """
                             
            Usage:
                <sender> <recipient> <subject>\s
                             
            Where:
                sender - An email address that represents the sender.\s
                recipient - An email address that represents the recipient.\s
                subject - The subject line.\s
            """;

        if (args.length != 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String sender = args[0];
        String recipient = args[1];
        String subject = args[2];
        Region region = Region.US_EAST_1;
        SesV2Client sesv2Client = SesV2Client.builder()
                .region(region)
                .build();

        String bodyHTML = """
                <html>
                    <head></head>
                    <body>
                        <h1>Hello!</h1>
                        <p>See the list of customers.</p>
                    </body>
                </html>
                """;

        sendWithHeader(sesv2Client, sender, recipient, subject, bodyHTML);
        sesv2Client.close();
    }

    /**
     * Sends an email using the AWS SES V2 client.
     *
     * @param sesv2Client the SES V2 client to use for sending the email
     * @param sender the email address of the sender
     * @param recipient the email address of the recipient
     * @param subject the subject of the email
     * @param bodyHTML the HTML content of the email body
     */
    public static void sendWithHeader(SesV2Client sesv2Client,
                                      String sender,
                                      String recipient,
                                      String subject,
                                      String bodyHTML) {
        EmailContent emailContent = EmailContent.builder()
                .simple(Message.builder()
                        .body(b -> b.html(c -> c.charset(UTF_8.name()).data(bodyHTML))
                                .text(c -> c.charset(UTF_8.name()).data(bodyHTML)))
                        .subject(c -> c.charset(UTF_8.name()).data(subject))
                        .headers(List.of(
                                MessageHeader.builder()
                                        .name("List-Unsubscribe")
                                        .value("<https://nutrition.co/?address=x&topic=x>, <mailto:unsubscribe@nutrition.co?subject=TopicUnsubscribe>")
                                        .build(),
                                MessageHeader.builder()
                                        .name("List-Unsubscribe-Post")
                                        .value("List-Unsubscribe=One-Click")
                                        .build()))
                        .build())
                .build();

        SendEmailRequest request = SendEmailRequest.builder()
                .fromEmailAddress(sender)
                .destination(d -> d.toAddresses(recipient))
                .content(emailContent)
                .build();

        try {
            SendEmailResponse response = sesv2Client.sendEmail(request);
            System.out.println("Email sent! Message ID: " + response.messageId());
        } catch (SesV2Exception e) {
            System.err.println("Failed to send email: " + e.awsErrorDetails().errorMessage());
            throw new RuntimeException(e);
        }
    }
}
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/SendEmail)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Skenario buletin
<a name="sesv2_NewsletterWorkflow_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menjalankan skenario buletin Amazon SES API v2.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ses#code-examples). 

```
    try {
      // 2. Create a contact list
      String contactListName = CONTACT_LIST_NAME;
      CreateContactListRequest createContactListRequest = CreateContactListRequest.builder()
          .contactListName(contactListName)
          .build();
      sesClient.createContactList(createContactListRequest);
      System.out.println("Contact list created: " + contactListName);
    } catch (AlreadyExistsException e) {
      System.out.println("Contact list already exists, skipping creation: weekly-coupons-newsletter");
    } catch (LimitExceededException e) {
      System.err.println("Limit for contact lists has been exceeded.");
      throw e;
    } catch (SesV2Exception e) {
      System.err.println("Error creating contact list: " + e.getMessage());
      throw e;
    }

      try {
        // Create a new contact with the provided email address in the
        CreateContactRequest contactRequest = CreateContactRequest.builder()
            .contactListName(CONTACT_LIST_NAME)
            .emailAddress(emailAddress)
            .build();

        sesClient.createContact(contactRequest);
        contacts.add(emailAddress);

        System.out.println("Contact created: " + emailAddress);

        // Send a welcome email to the new contact
        String welcomeHtml = Files.readString(Paths.get("resources/coupon_newsletter/welcome.html"));
        String welcomeText = Files.readString(Paths.get("resources/coupon_newsletter/welcome.txt"));

        SendEmailRequest welcomeEmailRequest = SendEmailRequest.builder()
            .fromEmailAddress(this.verifiedEmail)
            .destination(Destination.builder().toAddresses(emailAddress).build())
            .content(EmailContent.builder()
                .simple(
                    Message.builder()
                        .subject(Content.builder().data("Welcome to the Weekly Coupons Newsletter").build())
                        .body(Body.builder()
                            .text(Content.builder().data(welcomeText).build())
                            .html(Content.builder().data(welcomeHtml).build())
                            .build())
                        .build())
                .build())
            .build();
        SendEmailResponse welcomeEmailResponse = sesClient.sendEmail(welcomeEmailRequest);
        System.out.println("Welcome email sent: " + welcomeEmailResponse.messageId());
      } catch (AlreadyExistsException e) {
        // If the contact already exists, skip this step for that contact and proceed
        // with the next contact
        System.out.println("Contact already exists, skipping creation...");
      } catch (Exception e) {
        System.err.println("Error occurred while processing email address " + emailAddress + ": " + e.getMessage());
        throw e;
      }
    }

      ListContactsRequest contactListRequest = ListContactsRequest.builder()
          .contactListName(CONTACT_LIST_NAME)
          .build();

      List<String> contactEmails;
      try {
        ListContactsResponse contactListResponse = sesClient.listContacts(contactListRequest);

        contactEmails = contactListResponse.contacts().stream()
            .map(Contact::emailAddress)
            .toList();
      } catch (Exception e) {
        // TODO: Remove when listContacts's GET body issue is resolved.
        contactEmails = this.contacts;
      }


      String coupons = Files.readString(Paths.get("resources/coupon_newsletter/sample_coupons.json"));
      for (String emailAddress : contactEmails) {
        SendEmailRequest newsletterRequest = SendEmailRequest.builder()
            .destination(Destination.builder().toAddresses(emailAddress).build())
            .content(EmailContent.builder()
                .template(Template.builder()
                    .templateName(TEMPLATE_NAME)
                    .templateData(coupons)
                    .build())
                .build())
            .fromEmailAddress(this.verifiedEmail)
            .listManagementOptions(ListManagementOptions.builder()
                .contactListName(CONTACT_LIST_NAME)
                .build())
            .build();
        SendEmailResponse newsletterResponse = sesClient.sendEmail(newsletterRequest);
        System.out.println("Newsletter sent to " + emailAddress + ": " + newsletterResponse.messageId());
      }

    try {
      CreateEmailIdentityRequest createEmailIdentityRequest = CreateEmailIdentityRequest.builder()
          .emailIdentity(verifiedEmail)
          .build();
      sesClient.createEmailIdentity(createEmailIdentityRequest);
      System.out.println("Email identity created: " + verifiedEmail);
    } catch (AlreadyExistsException e) {
      System.out.println("Email identity already exists, skipping creation: " + verifiedEmail);
    } catch (NotFoundException e) {
      System.err.println("The provided email address is not verified: " + verifiedEmail);
      throw e;
    } catch (LimitExceededException e) {
      System.err
          .println("You have reached the limit for email identities. Please remove some identities and try again.");
      throw e;
    } catch (SesV2Exception e) {
      System.err.println("Error creating email identity: " + e.getMessage());
      throw e;
    }

    try {
      // Create an email template named "weekly-coupons"
      String newsletterHtml = loadFile("resources/coupon_newsletter/coupon-newsletter.html");
      String newsletterText = loadFile("resources/coupon_newsletter/coupon-newsletter.txt");

      CreateEmailTemplateRequest templateRequest = CreateEmailTemplateRequest.builder()
          .templateName(TEMPLATE_NAME)
          .templateContent(EmailTemplateContent.builder()
              .subject("Weekly Coupons Newsletter")
              .html(newsletterHtml)
              .text(newsletterText)
              .build())
          .build();

      sesClient.createEmailTemplate(templateRequest);

      System.out.println("Email template created: " + TEMPLATE_NAME);
    } catch (AlreadyExistsException e) {
      // If the template already exists, skip this step and proceed with the next
      // operation
      System.out.println("Email template already exists, skipping creation...");
    } catch (LimitExceededException e) {
      // If the limit for email templates is exceeded, fail the workflow and inform
      // the user
      System.err.println("You have reached the limit for email templates. Please remove some templates and try again.");
      throw e;
    } catch (Exception e) {
      System.err.println("Error occurred while creating email template: " + e.getMessage());
      throw e;
    }

    try {
      // Delete the contact list
      DeleteContactListRequest deleteContactListRequest = DeleteContactListRequest.builder()
          .contactListName(CONTACT_LIST_NAME)
          .build();

      sesClient.deleteContactList(deleteContactListRequest);

      System.out.println("Contact list deleted: " + CONTACT_LIST_NAME);
    } catch (NotFoundException e) {
      // If the contact list does not exist, log the error and proceed
      System.out.println("Contact list not found. Skipping deletion...");
    } catch (Exception e) {
      System.err.println("Error occurred while deleting the contact list: " + e.getMessage());
      e.printStackTrace();
    }

      try {
        // Delete the email identity
        DeleteEmailIdentityRequest deleteIdentityRequest = DeleteEmailIdentityRequest.builder()
            .emailIdentity(this.verifiedEmail)
            .build();

        sesClient.deleteEmailIdentity(deleteIdentityRequest);

        System.out.println("Email identity deleted: " + this.verifiedEmail);
      } catch (NotFoundException e) {
        // If the email identity does not exist, log the error and proceed
        System.out.println("Email identity not found. Skipping deletion...");
      } catch (Exception e) {
        System.err.println("Error occurred while deleting the email identity: " + e.getMessage());
        e.printStackTrace();
      }
    } else {
      System.out.println("Skipping email identity deletion.");
    }

    try {
      // Delete the template
      DeleteEmailTemplateRequest deleteTemplateRequest = DeleteEmailTemplateRequest.builder()
          .templateName(TEMPLATE_NAME)
          .build();

      sesClient.deleteEmailTemplate(deleteTemplateRequest);

      System.out.println("Email template deleted: " + TEMPLATE_NAME);
    } catch (NotFoundException e) {
      // If the email template does not exist, log the error and proceed
      System.out.println("Email template not found. Skipping deletion...");
    } catch (Exception e) {
      System.err.println("Error occurred while deleting the email template: " + e.getMessage());
      e.printStackTrace();
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateContact](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/CreateContact)
  + [CreateContactList](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/CreateContactList)
  + [CreateEmailIdentity](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/CreateEmailIdentity)
  + [CreateEmailTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/CreateEmailTemplate)
  + [DeleteContactList](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/DeleteContactList)
  + [DeleteEmailIdentity](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/DeleteEmailIdentity)
  + [DeleteEmailTemplate](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/DeleteEmailTemplate)
  + [ListContacts](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/ListContacts)
  + [SendEmail.sederhana](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/SendEmail.simple)
  + [SendEmail.template](https://docs.aws.amazon.com/goto/SdkForJavaV2/sesv2-2019-09-27/SendEmail.template)

# Contoh Amazon SNS menggunakan SDK for Java 2.x
<a name="java_2_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK for Java 2.x dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon SNS
<a name="sns_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SNS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
package com.example.sns;

import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.paginators.ListTopicsIterable;

public class HelloSNS {
    public static void main(String[] args) {
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listSNSTopics(snsClient);
        snsClient.close();
    }

    public static void listSNSTopics(SnsClient snsClient) {
        try {
            ListTopicsIterable listTopics = snsClient.listTopicsPaginator();
            listTopics.stream()
                    .flatMap(r -> r.topics().stream())
                    .forEach(content -> System.out.println(" Topic ARN: " + content.topicArn()));

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/ListTopics)di *Referensi AWS SDK for Java 2.x API*. 

## Tindakan
<a name="actions"></a>

### `CheckIfPhoneNumberIsOptedOut`
<a name="sns_CheckIfPhoneNumberIsOptedOut_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckIfPhoneNumberIsOptedOut`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.CheckIfPhoneNumberIsOptedOutRequest;
import software.amazon.awssdk.services.sns.model.CheckIfPhoneNumberIsOptedOutResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CheckOptOut {
    public static void main(String[] args) {

        final String usage = """

                Usage:    <phoneNumber>

                Where:
                   phoneNumber - The mobile phone number to look up (for example, +1XXX5550100).

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String phoneNumber = args[0];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        checkPhone(snsClient, phoneNumber);
        snsClient.close();
    }

    public static void checkPhone(SnsClient snsClient, String phoneNumber) {
        try {
            CheckIfPhoneNumberIsOptedOutRequest request = CheckIfPhoneNumberIsOptedOutRequest.builder()
                    .phoneNumber(phoneNumber)
                    .build();

            CheckIfPhoneNumberIsOptedOutResponse result = snsClient.checkIfPhoneNumberIsOptedOut(request);
            System.out.println(
                    result.isOptedOut() + "Phone Number " + phoneNumber + " has Opted Out of receiving sns messages." +
                            "\n\nStatus was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CheckIfPhoneNumberIsOptedOut](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/CheckIfPhoneNumberIsOptedOut)di *Referensi AWS SDK for Java 2.x API*. 

### `ConfirmSubscription`
<a name="sns_ConfirmSubscription_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSubscription`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.ConfirmSubscriptionRequest;
import software.amazon.awssdk.services.sns.model.ConfirmSubscriptionResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ConfirmSubscription {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <subscriptionToken> <topicArn>

                Where:
                   subscriptionToken - A short-lived token sent to an endpoint during the Subscribe action.
                   topicArn - The ARN of the topic.\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String subscriptionToken = args[0];
        String topicArn = args[1];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        confirmSub(snsClient, subscriptionToken, topicArn);
        snsClient.close();
    }

    public static void confirmSub(SnsClient snsClient, String subscriptionToken, String topicArn) {
        try {
            ConfirmSubscriptionRequest request = ConfirmSubscriptionRequest.builder()
                    .token(subscriptionToken)
                    .topicArn(topicArn)
                    .build();

            ConfirmSubscriptionResponse result = snsClient.confirmSubscription(request);
            System.out.println("\n\nStatus was " + result.sdkHttpResponse().statusCode() + "\n\nSubscription Arn: \n\n"
                    + result.subscriptionArn());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ConfirmSubscription](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/ConfirmSubscription)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateTopic`
<a name="sns_CreateTopic_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.CreateTopicRequest;
import software.amazon.awssdk.services.sns.model.CreateTopicResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateTopic {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <topicName>

                Where:
                   topicName - The name of the topic to create (for example, mytopic).

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicName = args[0];
        System.out.println("Creating a topic with name: " + topicName);
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String arnVal = createSNSTopic(snsClient, topicName);
        System.out.println("The topic ARN is" + arnVal);
        snsClient.close();
    }

    public static String createSNSTopic(SnsClient snsClient, String topicName) {
        CreateTopicResponse result;
        try {
            CreateTopicRequest request = CreateTopicRequest.builder()
                    .name(topicName)
                    .build();

            result = snsClient.createTopic(request);
            return result.topicArn();

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [CreateTopic](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/CreateTopic)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteTopic`
<a name="sns_DeleteTopic_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.DeleteTopicRequest;
import software.amazon.awssdk.services.sns.model.DeleteTopicResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteTopic {
    public static void main(String[] args) {
        final String usage = """

                Usage:     <topicArn>

                Where:
                   topicArn - The ARN of the topic to delete.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicArn = args[0];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        System.out.println("Deleting a topic with name: " + topicArn);
        deleteSNSTopic(snsClient, topicArn);
        snsClient.close();
    }

    public static void deleteSNSTopic(SnsClient snsClient, String topicArn) {
        try {
            DeleteTopicRequest request = DeleteTopicRequest.builder()
                    .topicArn(topicArn)
                    .build();

            DeleteTopicResponse result = snsClient.deleteTopic(request);
            System.out.println("\n\nStatus was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteTopic](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/DeleteTopic)di *Referensi AWS SDK for Java 2.x API*. 

### `GetSMSAttributes`
<a name="sns_GetSMSAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSMSAttributes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.GetSubscriptionAttributesRequest;
import software.amazon.awssdk.services.sns.model.GetSubscriptionAttributesResponse;
import software.amazon.awssdk.services.sns.model.SnsException;
import java.util.Iterator;
import java.util.Map;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetSMSAtrributes {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <topicArn>

                Where:
                   topicArn - The ARN of the topic from which to retrieve attributes.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicArn = args[0];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        getSNSAttrutes(snsClient, topicArn);
        snsClient.close();
    }

    public static void getSNSAttrutes(SnsClient snsClient, String topicArn) {
        try {
            GetSubscriptionAttributesRequest request = GetSubscriptionAttributesRequest.builder()
                    .subscriptionArn(topicArn)
                    .build();

            // Get the Subscription attributes
            GetSubscriptionAttributesResponse res = snsClient.getSubscriptionAttributes(request);
            Map<String, String> map = res.attributes();

            // Iterate through the map
            Iterator iter = map.entrySet().iterator();
            while (iter.hasNext()) {
                Map.Entry entry = (Map.Entry) iter.next();
                System.out.println("[Key] : " + entry.getKey() + " [Value] : " + entry.getValue());
            }

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }

        System.out.println("\n\nStatus was good");
    }
}
```
+  Untuk detail API, lihat [Dapatkan SMSAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/GetSMSAttributes) *Referensi AWS SDK for Java 2.x API*. 

### `GetTopicAttributes`
<a name="sns_GetTopicAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTopicAttributes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.GetTopicAttributesRequest;
import software.amazon.awssdk.services.sns.model.GetTopicAttributesResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetTopicAttributes {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <topicArn>

                Where:
                   topicArn - The ARN of the topic to look up.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicArn = args[0];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        System.out.println("Getting attributes for a topic with name: " + topicArn);
        getSNSTopicAttributes(snsClient, topicArn);
        snsClient.close();
    }

    public static void getSNSTopicAttributes(SnsClient snsClient, String topicArn) {
        try {
            GetTopicAttributesRequest request = GetTopicAttributesRequest.builder()
                    .topicArn(topicArn)
                    .build();

            GetTopicAttributesResponse result = snsClient.getTopicAttributes(request);
            System.out.println("\n\nStatus is " + result.sdkHttpResponse().statusCode() + "\n\nAttributes: \n\n"
                    + result.attributes());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [GetTopicAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/GetTopicAttributes)di *Referensi AWS SDK for Java 2.x API*. 

### `ListPhoneNumbersOptedOut`
<a name="sns_ListPhoneNumbersOptedOut_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPhoneNumbersOptedOut`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.ListPhoneNumbersOptedOutRequest;
import software.amazon.awssdk.services.sns.model.ListPhoneNumbersOptedOutResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListOptOut {
    public static void main(String[] args) {
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listOpts(snsClient);
        snsClient.close();
    }

    public static void listOpts(SnsClient snsClient) {
        try {
            ListPhoneNumbersOptedOutRequest request = ListPhoneNumbersOptedOutRequest.builder().build();
            ListPhoneNumbersOptedOutResponse result = snsClient.listPhoneNumbersOptedOut(request);
            System.out.println("Status is " + result.sdkHttpResponse().statusCode() + "\n\nPhone Numbers: \n\n"
                    + result.phoneNumbers());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListPhoneNumbersOptedOut](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/ListPhoneNumbersOptedOut)di *Referensi AWS SDK for Java 2.x API*. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.ListSubscriptionsRequest;
import software.amazon.awssdk.services.sns.model.ListSubscriptionsResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListSubscriptions {
    public static void main(String[] args) {
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listSNSSubscriptions(snsClient);
        snsClient.close();
    }

    public static void listSNSSubscriptions(SnsClient snsClient) {
        try {
            ListSubscriptionsRequest request = ListSubscriptionsRequest.builder()
                    .build();

            ListSubscriptionsResponse result = snsClient.listSubscriptions(request);
            System.out.println(result.subscriptions());

        } catch (SnsException e) {

            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListSubscriptions](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/ListSubscriptions)di *Referensi AWS SDK for Java 2.x API*. 

### `ListTopics`
<a name="sns_ListTopics_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.ListTopicsRequest;
import software.amazon.awssdk.services.sns.model.ListTopicsResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListTopics {
    public static void main(String[] args) {
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        listSNSTopics(snsClient);
        snsClient.close();
    }

    public static void listSNSTopics(SnsClient snsClient) {
        try {
            ListTopicsRequest request = ListTopicsRequest.builder()
                    .build();

            ListTopicsResponse result = snsClient.listTopics(request);
            System.out.println(
                    "Status was " + result.sdkHttpResponse().statusCode() + "\n\nTopics\n\n" + result.topics());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/ListTopics)di *Referensi AWS SDK for Java 2.x API*. 

### `Publish`
<a name="sns_Publish_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.PublishRequest;
import software.amazon.awssdk.services.sns.model.PublishResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PublishTopic {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <message> <topicArn>

                Where:
                   message - The message text to send.
                   topicArn - The ARN of the topic to publish.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String message = args[0];
        String topicArn = args[1];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();
        pubTopic(snsClient, message, topicArn);
        snsClient.close();
    }

    public static void pubTopic(SnsClient snsClient, String message, String topicArn) {
        try {
            PublishRequest request = PublishRequest.builder()
                    .message(message)
                    .topicArn(topicArn)
                    .build();

            PublishResponse result = snsClient.publish(request);
            System.out
                    .println(result.messageId() + " Message sent. Status is " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Publish) di *Referensi AWS SDK for Java 2.x API*. 

### `SetSMSAttributes`
<a name="sns_SetSMSAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetSMSAttributes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SetSmsAttributesRequest;
import software.amazon.awssdk.services.sns.model.SetSmsAttributesResponse;
import software.amazon.awssdk.services.sns.model.SnsException;
import java.util.HashMap;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SetSMSAttributes {
    public static void main(String[] args) {
        HashMap<String, String> attributes = new HashMap<>(1);
        attributes.put("DefaultSMSType", "Transactional");
        attributes.put("UsageReportS3Bucket", "janbucket");

        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();
        setSNSAttributes(snsClient, attributes);
        snsClient.close();
    }

    public static void setSNSAttributes(SnsClient snsClient, HashMap<String, String> attributes) {
        try {
            SetSmsAttributesRequest request = SetSmsAttributesRequest.builder()
                    .attributes(attributes)
                    .build();

            SetSmsAttributesResponse result = snsClient.setSMSAttributes(request);
            System.out.println("Set default Attributes to " + attributes + ". Status was "
                    + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Menyetel SMSAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/SetSMSAttributes) di *Referensi AWS SDK for Java 2.x API*. 

### `SetSubscriptionAttributes`
<a name="sns_SetSubscriptionAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetSubscriptionAttributes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SnsException;
import java.util.ArrayList;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class UseMessageFilterPolicy {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <subscriptionArn>

                Where:
                   subscriptionArn - The ARN of a subscription.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String subscriptionArn = args[0];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        usePolicy(snsClient, subscriptionArn);
        snsClient.close();
    }

    public static void usePolicy(SnsClient snsClient, String subscriptionArn) {
        try {
            SNSMessageFilterPolicy fp = new SNSMessageFilterPolicy();
            // Add a filter policy attribute with a single value
            fp.addAttribute("store", "example_corp");
            fp.addAttribute("event", "order_placed");

            // Add a prefix attribute
            fp.addAttributePrefix("customer_interests", "bas");

            // Add an anything-but attribute
            fp.addAttributeAnythingBut("customer_interests", "baseball");

            // Add a filter policy attribute with a list of values
            ArrayList<String> attributeValues = new ArrayList<>();
            attributeValues.add("rugby");
            attributeValues.add("soccer");
            attributeValues.add("hockey");
            fp.addAttribute("customer_interests", attributeValues);

            // Add a numeric attribute
            fp.addAttribute("price_usd", "=", 0);

            // Add a numeric attribute with a range
            fp.addAttributeRange("price_usd", ">", 0, "<=", 100);

            // Apply the filter policy attributes to an Amazon SNS subscription
            fp.apply(snsClient, subscriptionArn);

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [SetSubscriptionAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/SetSubscriptionAttributes)di *Referensi AWS SDK for Java 2.x API*. 

### `SetTopicAttributes`
<a name="sns_SetTopicAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetTopicAttributes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SetTopicAttributesRequest;
import software.amazon.awssdk.services.sns.model.SetTopicAttributesResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SetTopicAttributes {

    public static void main(String[] args) {
        final String usage = """

                Usage:    <attribute> <topicArn> <value>

                Where:
                   attribute - The attribute action to use. Valid parameters are: Policy | DisplayName | DeliveryPolicy .
                   topicArn - The ARN of the topic.\s
                   value - The value for the attribute.
                """;

        if (args.length < 3) {
            System.out.println(usage);
            System.exit(1);
        }

        String attribute = args[0];
        String topicArn = args[1];
        String value = args[2];

        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        setTopAttr(snsClient, attribute, topicArn, value);
        snsClient.close();
    }

    public static void setTopAttr(SnsClient snsClient, String attribute, String topicArn, String value) {
        try {
            SetTopicAttributesRequest request = SetTopicAttributesRequest.builder()
                    .attributeName(attribute)
                    .attributeValue(value)
                    .topicArn(topicArn)
                    .build();

            SetTopicAttributesResponse result = snsClient.setTopicAttributes(request);
            System.out.println(
                    "\n\nStatus was " + result.sdkHttpResponse().statusCode() + "\n\nTopic " + request.topicArn()
                            + " updated " + request.attributeName() + " to " + request.attributeValue());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [SetTopicAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/SetTopicAttributes)di *Referensi AWS SDK for Java 2.x API*. 

### `Subscribe`
<a name="sns_Subscribe_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.model.SubscribeRequest;
import software.amazon.awssdk.services.sns.model.SubscribeResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SubscribeEmail {
    public static void main(String[] args) {
        final String usage = """
                Usage:     <topicArn> <email>

                Where:
                   topicArn - The ARN of the topic to subscribe.
                   email - The email address to use.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicArn = args[0];
        String email = args[1];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        subEmail(snsClient, topicArn, email);
        snsClient.close();
    }

    public static void subEmail(SnsClient snsClient, String topicArn, String email) {
        try {
            SubscribeRequest request = SubscribeRequest.builder()
                    .protocol("email")
                    .endpoint(email)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

            SubscribeResponse result = snsClient.subscribe(request);
            System.out.println("Subscription ARN: " + result.subscriptionArn() + "\n\n Status is "
                    + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Berlangganan titik akhir HTTP ke suatu topik.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.model.SubscribeRequest;
import software.amazon.awssdk.services.sns.model.SubscribeResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SubscribeHTTPS {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <topicArn> <url>

                Where:
                   topicArn - The ARN of the topic to subscribe.
                   url - The HTTPS endpoint that you want to receive notifications.
                """;

        if (args.length < 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicArn = args[0];
        String url = args[1];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        subHTTPS(snsClient, topicArn, url);
        snsClient.close();
    }

    public static void subHTTPS(SnsClient snsClient, String topicArn, String url) {
        try {
            SubscribeRequest request = SubscribeRequest.builder()
                    .protocol("https")
                    .endpoint(url)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

            SubscribeResponse result = snsClient.subscribe(request);
            System.out.println("Subscription ARN is " + result.subscriptionArn() + "\n\n Status is "
                    + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Berlangganan fungsi Lambda ke suatu topik.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.model.SubscribeRequest;
import software.amazon.awssdk.services.sns.model.SubscribeResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SubscribeLambda {

    public static void main(String[] args) {

        final String usage = """

                Usage:    <topicArn> <lambdaArn>

                Where:
                   topicArn - The ARN of the topic to subscribe.
                   lambdaArn - The ARN of an AWS Lambda function.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicArn = args[0];
        String lambdaArn = args[1];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String arnValue = subLambda(snsClient, topicArn, lambdaArn);
        System.out.println("Subscription ARN: " + arnValue);
        snsClient.close();
    }

    public static String subLambda(SnsClient snsClient, String topicArn, String lambdaArn) {
        try {
            SubscribeRequest request = SubscribeRequest.builder()
                    .protocol("lambda")
                    .endpoint(lambdaArn)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

            SubscribeResponse result = snsClient.subscribe(request);
            return result.subscriptionArn();

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [Berlangganan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Subscribe) di *Referensi AWS SDK for Java 2.x API*. 

### `TagResource`
<a name="sns_TagResource_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.model.Tag;
import software.amazon.awssdk.services.sns.model.TagResourceRequest;
import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class AddTags {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <topicArn>

                Where:
                   topicArn - The ARN of the topic to which tags are added.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicArn = args[0];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        addTopicTags(snsClient, topicArn);
        snsClient.close();
    }

    public static void addTopicTags(SnsClient snsClient, String topicArn) {
        try {
            Tag tag = Tag.builder()
                    .key("Team")
                    .value("Development")
                    .build();

            Tag tag2 = Tag.builder()
                    .key("Environment")
                    .value("Gamma")
                    .build();

            List<Tag> tagList = new ArrayList<>();
            tagList.add(tag);
            tagList.add(tag2);

            TagResourceRequest tagResourceRequest = TagResourceRequest.builder()
                    .resourceArn(topicArn)
                    .tags(tagList)
                    .build();

            snsClient.tagResource(tagResourceRequest);
            System.out.println("Tags have been added to " + topicArn);

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/TagResource)di *Referensi AWS SDK for Java 2.x API*. 

### `Unsubscribe`
<a name="sns_Unsubscribe_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.model.UnsubscribeRequest;
import software.amazon.awssdk.services.sns.model.UnsubscribeResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class Unsubscribe {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <subscriptionArn>

                Where:
                   subscriptionArn - The ARN of the subscription to delete.
                """;

        if (args.length < 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String subscriptionArn = args[0];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        unSub(snsClient, subscriptionArn);
        snsClient.close();
    }

    public static void unSub(SnsClient snsClient, String subscriptionArn) {
        try {
            UnsubscribeRequest request = UnsubscribeRequest.builder()
                    .subscriptionArn(subscriptionArn)
                    .build();

            UnsubscribeResponse result = snsClient.unsubscribe(request);
            System.out.println("\n\nStatus was " + result.sdkHttpResponse().statusCode()
                    + "\n\nSubscription was removed for " + request.subscriptionArn());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Berhenti berlangganan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Unsubscribe) di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi untuk mengirimkan data ke tabel DynamoDB
<a name="cross_SubmitDataApp_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang mengirimkan data ke tabel Amazon DynamoDB dan memberi tahu Anda saat pengguna memperbarui tabel.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat aplikasi web dinamis yang mengirimkan data menggunakan API Java Amazon DynamoDB dan mengirim pesan teks menggunakan API Java Amazon Simple Notification Service.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_first_project).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SNS

### Membangun aplikasi Amazon SNS
<a name="cross_SnsPublishSubscription_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang memiliki langganan dan mempublikasikan fungsionalitas dan menerjemahkan pesan.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Simple Notification Service Java API untuk membuat aplikasi web yang memiliki fungsi berlangganan dan mempublikasikan. Selain itu, contoh aplikasi ini juga menerjemahkan pesan.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_sns_sample_app).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan contoh yang menggunakan Java Async API, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_sns_async)   

**Layanan yang digunakan dalam contoh ini**
+ Amazon SNS
+ Amazon Translate

### Buat titik akhir platform untuk pemberitahuan push
<a name="sns_CreatePlatformEndpoint_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat titik akhir platform untuk notifikasi push Amazon SNS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.CreatePlatformEndpointRequest;
import software.amazon.awssdk.services.sns.model.CreatePlatformEndpointResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * In addition, create a platform application using the AWS Management Console.
 * See this doc topic:
 *
 * https://docs.aws.amazon.com/sns/latest/dg/mobile-push-send-register.html
 *
 * Without the values created by following the previous link, this code examples
 * does not work.
 */

public class RegistrationExample {
    public static void main(String[] args) {
        final String usage = """

            Usage:     <token> <platformApplicationArn>

            Where:
               token - The device token or registration ID of the mobile device. This is a unique 
               identifier provided by the device platform (e.g., Apple Push Notification Service (APNS) for iOS devices, Firebase Cloud Messaging (FCM) 
               for Android devices) when the mobile app is registered to receive push notifications.

               platformApplicationArn - The ARN value of platform application. You can get this value from the AWS Management Console.\s

            """;

        if (args.length != 2) {
            System.out.println(usage);
            return;
        }

        String token = args[0];
        String platformApplicationArn = args[1];
        SnsClient snsClient = SnsClient.builder()
            .region(Region.US_EAST_1)
            .build();

        createEndpoint(snsClient, token, platformApplicationArn);
    }
    public static void createEndpoint(SnsClient snsClient, String token, String platformApplicationArn) {
        System.out.println("Creating platform endpoint with token " + token);
        try {
            CreatePlatformEndpointRequest endpointRequest = CreatePlatformEndpointRequest.builder()
                .token(token)
                .platformApplicationArn(platformApplicationArn)
                .build();

            CreatePlatformEndpointResponse response = snsClient.createPlatformEndpoint(endpointRequest);
            System.out.println("The ARN of the endpoint is " + response.endpointArn());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
        }
    }
}
```

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Java 2.x**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/pam_source_files).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Membuat dan mempublikasikan ke topik FIFO
<a name="sns_PublishFifoTopic_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mempublikasikan ke topik FIFO Amazon SNS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 
Contoh ini  
+ membuat topik Amazon SNS FIFO, dua antrian FIFO Amazon SQS, dan satu antrian Standar.
+ berlangganan antrian ke topik dan menerbitkan pesan ke topik tersebut.
[Tes](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns/src/test/java/com/example/sns/PriceUpdateExampleTest.java) memverifikasi penerimaan pesan ke setiap antrian. [Contoh lengkap](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns/src/main/java/com/example/sns/PriceUpdateExample.java) juga menunjukkan penambahan kebijakan akses dan menghapus sumber daya di akhir.  

```
public class PriceUpdateExample {
    public final static SnsClient snsClient = SnsClient.create();
    public final static SqsClient sqsClient = SqsClient.create();

    public static void main(String[] args) {

        final String usage = "\n" +
            "Usage: " +
            "    <topicName> <wholesaleQueueFifoName> <retailQueueFifoName> <analyticsQueueName>\n\n" +
            "Where:\n" +
            "   fifoTopicName - The name of the FIFO topic that you want to create. \n\n" +
            "   wholesaleQueueARN - The name of a SQS FIFO queue that will be created for the wholesale consumer. \n\n"
            +
            "   retailQueueARN - The name of a SQS FIFO queue that will created for the retail consumer. \n\n" +
            "   analyticsQueueARN - The name of a SQS standard queue that will be created for the analytics consumer. \n\n";
        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        final String fifoTopicName = args[0];
        final String wholeSaleQueueName = args[1];
        final String retailQueueName = args[2];
        final String analyticsQueueName = args[3];

        // For convenience, the QueueData class holds metadata about a queue: ARN, URL,
        // name and type.
        List<QueueData> queues = List.of(
            new QueueData(wholeSaleQueueName, QueueType.FIFO),
            new QueueData(retailQueueName, QueueType.FIFO),
            new QueueData(analyticsQueueName, QueueType.Standard));

        // Create queues.
        createQueues(queues);

        // Create a topic.
        String topicARN = createFIFOTopic(fifoTopicName);

        // Subscribe each queue to the topic.
        subscribeQueues(queues, topicARN);

        // Allow the newly created topic to send messages to the queues.
        addAccessPolicyToQueuesFINAL(queues, topicARN);

        // Publish a sample price update message with payload.
        publishPriceUpdate(topicARN, "{\"product\": 214, \"price\": 79.99}", "Consumables");

        // Clean up resources.
        deleteSubscriptions(queues);
        deleteQueues(queues);
        deleteTopic(topicARN);
    }

    public static String createFIFOTopic(String topicName) {
        try {
            // Create a FIFO topic by using the SNS service client.
            Map<String, String> topicAttributes = Map.of(
                "FifoTopic", "true",
                "ContentBasedDeduplication", "false",
                "FifoThroughputScope", "MessageGroup");

            CreateTopicRequest topicRequest = CreateTopicRequest.builder()
                .name(topicName)
                .attributes(topicAttributes)
                .build();

            CreateTopicResponse response = snsClient.createTopic(topicRequest);
            String topicArn = response.topicArn();
            System.out.println("The topic ARN is" + topicArn);

            return topicArn;

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static void subscribeQueues(List<QueueData> queues, String topicARN) {
        queues.forEach(queue -> {
            SubscribeRequest subscribeRequest = SubscribeRequest.builder()
                .topicArn(topicARN)
                .endpoint(queue.queueARN)
                .protocol("sqs")
                .build();

            // Subscribe to the endpoint by using the SNS service client.
            // Only Amazon SQS queues can receive notifications from an Amazon SNS FIFO
            // topic.
            SubscribeResponse subscribeResponse = snsClient.subscribe(subscribeRequest);
            System.out.println("The queue [" + queue.queueARN + "] subscribed to the topic [" + topicARN + "]");
            queue.subscriptionARN = subscribeResponse.subscriptionArn();
        });
    }

    public static void publishPriceUpdate(String topicArn, String payload, String groupId) {

        try {
            // Create and publish a message that updates the wholesale price.
            String subject = "Price Update";
            String dedupId = UUID.randomUUID().toString();
            String attributeName = "business";
            String attributeValue = "wholesale";

            MessageAttributeValue msgAttValue = MessageAttributeValue.builder()
                .dataType("String")
                .stringValue(attributeValue)
                .build();

            Map<String, MessageAttributeValue> attributes = new HashMap<>();
            attributes.put(attributeName, msgAttValue);
            PublishRequest pubRequest = PublishRequest.builder()
                .topicArn(topicArn)
                .subject(subject)
                .message(payload)
                .messageGroupId(groupId)
                .messageDeduplicationId(dedupId)
                .messageAttributes(attributes)
                .build();

            final PublishResponse response = snsClient.publish(pubRequest);
            System.out.println(response.messageId());
            System.out.println(response.sequenceNumber());
            System.out.println("Message was published to " + topicArn);

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateTopic](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/CreateTopic)
  + [Publikasikan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Publish)
  + [Berlangganan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Subscribe)

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Rekognition Java API untuk membuat aplikasi guna mendeteksi wajah dan objek di video yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/video_analyzer_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

### Publikasikan pesan SMS ke suatu topik
<a name="sns_UsageSmsTopic_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik Amazon SNS.
+ Berlangganan nomor telepon ke topik.
+ Publikasikan pesan SMS ke topik sehingga semua nomor telepon berlangganan menerima pesan sekaligus.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 
Buat topik dan kembalikan ARN-nya.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.CreateTopicRequest;
import software.amazon.awssdk.services.sns.model.CreateTopicResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class CreateTopic {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <topicName>

                Where:
                   topicName - The name of the topic to create (for example, mytopic).

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicName = args[0];
        System.out.println("Creating a topic with name: " + topicName);
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        String arnVal = createSNSTopic(snsClient, topicName);
        System.out.println("The topic ARN is" + arnVal);
        snsClient.close();
    }

    public static String createSNSTopic(SnsClient snsClient, String topicName) {
        CreateTopicResponse result;
        try {
            CreateTopicRequest request = CreateTopicRequest.builder()
                    .name(topicName)
                    .build();

            result = snsClient.createTopic(request);
            return result.topicArn();

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
Berlangganan titik akhir ke suatu topik.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.model.SubscribeRequest;
import software.amazon.awssdk.services.sns.model.SubscribeResponse;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SubscribeTextSMS {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <topicArn> <phoneNumber>

                Where:
                   topicArn - The ARN of the topic to subscribe.
                   phoneNumber - A mobile phone number that receives notifications (for example, +1XXX5550100).
                """;

        if (args.length < 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String topicArn = args[0];
        String phoneNumber = args[1];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();

        subTextSNS(snsClient, topicArn, phoneNumber);
        snsClient.close();
    }

    public static void subTextSNS(SnsClient snsClient, String topicArn, String phoneNumber) {
        try {
            SubscribeRequest request = SubscribeRequest.builder()
                    .protocol("sms")
                    .endpoint(phoneNumber)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

            SubscribeResponse result = snsClient.subscribe(request);
            System.out.println("Subscription ARN: " + result.subscriptionArn() + "\n\n Status is "
                    + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Tetapkan atribut pada pesan, seperti ID pengirim, harga maksimum, dan jenisnya. Atribut pesan bersifat opsional.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.SetSmsAttributesRequest;
import software.amazon.awssdk.services.sns.model.SetSmsAttributesResponse;
import software.amazon.awssdk.services.sns.model.SnsException;
import java.util.HashMap;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SetSMSAttributes {
    public static void main(String[] args) {
        HashMap<String, String> attributes = new HashMap<>(1);
        attributes.put("DefaultSMSType", "Transactional");
        attributes.put("UsageReportS3Bucket", "janbucket");

        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();
        setSNSAttributes(snsClient, attributes);
        snsClient.close();
    }

    public static void setSNSAttributes(SnsClient snsClient, HashMap<String, String> attributes) {
        try {
            SetSmsAttributesRequest request = SetSmsAttributesRequest.builder()
                    .attributes(attributes)
                    .build();

            SetSmsAttributesResponse result = snsClient.setSMSAttributes(request);
            System.out.println("Set default Attributes to " + attributes + ". Status was "
                    + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Publikasikan pesan ke topik. Pesan dikirim ke setiap pelanggan.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.PublishRequest;
import software.amazon.awssdk.services.sns.model.PublishResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PublishTextSMS {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <message> <phoneNumber>

                Where:
                   message - The message text to send.
                   phoneNumber - The mobile phone number to which a message is sent (for example, +1XXX5550100).\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String message = args[0];
        String phoneNumber = args[1];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();
        pubTextSMS(snsClient, message, phoneNumber);
        snsClient.close();
    }

    public static void pubTextSMS(SnsClient snsClient, String message, String phoneNumber) {
        try {
            PublishRequest request = PublishRequest.builder()
                    .message(message)
                    .phoneNumber(phoneNumber)
                    .build();

            PublishResponse result = snsClient.publish(request);
            System.out
                    .println(result.messageId() + " Message sent. Status was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```

### Publikasikan pesan teks SMS
<a name="sns_PublishTextSMS_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan pesan SMS menggunakan Amazon SNS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.PublishRequest;
import software.amazon.awssdk.services.sns.model.PublishResponse;
import software.amazon.awssdk.services.sns.model.SnsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class PublishTextSMS {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <message> <phoneNumber>

                Where:
                   message - The message text to send.
                   phoneNumber - The mobile phone number to which a message is sent (for example, +1XXX5550100).\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String message = args[0];
        String phoneNumber = args[1];
        SnsClient snsClient = SnsClient.builder()
                .region(Region.US_EAST_1)
                .build();
        pubTextSMS(snsClient, message, phoneNumber);
        snsClient.close();
    }

    public static void pubTextSMS(SnsClient snsClient, String message, String phoneNumber) {
        try {
            PublishRequest request = PublishRequest.builder()
                    .message(message)
                    .phoneNumber(phoneNumber)
                    .build();

            PublishResponse result = snsClient.publish(request);
            System.out
                    .println(result.messageId() + " Message sent. Status was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Publish) di *Referensi AWS SDK for Java 2.x API*. 

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/topics_and_queues#code-examples). 

```
package com.example.sns;

import software.amazon.awssdk.auth.credentials.EnvironmentVariableCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.CreateTopicRequest;
import software.amazon.awssdk.services.sns.model.CreateTopicResponse;
import software.amazon.awssdk.services.sns.model.DeleteTopicRequest;
import software.amazon.awssdk.services.sns.model.DeleteTopicResponse;
import software.amazon.awssdk.services.sns.model.MessageAttributeValue;
import software.amazon.awssdk.services.sns.model.PublishRequest;
import software.amazon.awssdk.services.sns.model.PublishResponse;
import software.amazon.awssdk.services.sns.model.SetSubscriptionAttributesRequest;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.model.SubscribeRequest;
import software.amazon.awssdk.services.sns.model.SubscribeResponse;
import software.amazon.awssdk.services.sns.model.UnsubscribeRequest;
import software.amazon.awssdk.services.sns.model.UnsubscribeResponse;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.CreateQueueRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageBatchRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageBatchRequestEntry;
import software.amazon.awssdk.services.sqs.model.DeleteQueueRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueAttributesRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueAttributesResponse;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlResponse;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.QueueAttributeName;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.SetQueueAttributesRequest;
import software.amazon.awssdk.services.sqs.model.SqsException;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Scanner;

import com.google.gson.Gson;
import com.google.gson.JsonArray;
import com.google.gson.JsonObject;
import com.google.gson.JsonPrimitive;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 * <p>
 * This Java example performs these tasks:
 * <p>
 * 1. Gives the user three options to choose from.
 * 2. Creates an Amazon Simple Notification Service (Amazon SNS) topic.
 * 3. Creates an Amazon Simple Queue Service (Amazon SQS) queue.
 * 4. Gets the SQS queue Amazon Resource Name (ARN) attribute.
 * 5. Attaches an AWS Identity and Access Management (IAM) policy to the queue.
 * 6. Subscribes to the SQS queue.
 * 7. Publishes a message to the topic.
 * 8. Displays the messages.
 * 9. Deletes the received message.
 * 10. Unsubscribes from the topic.
 * 11. Deletes the SNS topic.
 */
public class SNSWorkflow {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) {
        final String usage = "\n" +
            "Usage:\n" +
            "    <fifoQueueARN>\n\n" +
            "Where:\n" +
            "    accountId - Your AWS account Id value.";

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        SnsClient snsClient = SnsClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(EnvironmentVariableCredentialsProvider.create())
            .build();

        SqsClient sqsClient = SqsClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(EnvironmentVariableCredentialsProvider.create())
            .build();

        Scanner in = new Scanner(System.in);
        String accountId = args[0];
        String useFIFO;
        String duplication = "n";
        String topicName;
        String deduplicationID = null;
        String groupId = null;

        String topicArn;
        String sqsQueueName;
        String sqsQueueUrl;
        String sqsQueueArn;
        String subscriptionArn;
        boolean selectFIFO = false;

        String message;
        List<Message> messageList;
        List<String> filterList = new ArrayList<>();
        String msgAttValue = "";

        System.out.println(DASHES);
        System.out.println("Welcome to messaging with topics and queues.");
        System.out.println("In this scenario, you will create an SNS topic and subscribe an SQS queue to the topic.\n" +
            "You can select from several options for configuring the topic and the subscriptions for the queue.\n" +
            "You can then post to the topic and see the results in the queue.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("SNS topics can be configured as FIFO (First-In-First-Out).\n" +
            "FIFO topics deliver messages in order and support deduplication and message filtering.\n" +
            "Would you like to work with FIFO topics? (y/n)");
        useFIFO = in.nextLine();
        if (useFIFO.compareTo("y") == 0) {
            selectFIFO = true;
            System.out.println("You have selected FIFO");
            System.out.println(" Because you have chosen a FIFO topic, deduplication is supported.\n" +
                "        Deduplication IDs are either set in the message or automatically generated from content using a hash function.\n"
                +
                "        If a message is successfully published to an SNS FIFO topic, any message published and determined to have the same deduplication ID,\n"
                +
                "        within the five-minute deduplication interval, is accepted but not delivered.\n" +
                "        For more information about deduplication, see https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.");

            System.out.println(
                "Would you like to use content-based deduplication instead of entering a deduplication ID? (y/n)");
            duplication = in.nextLine();
            if (duplication.compareTo("y") == 0) {
                System.out.println("Please enter a group id value");
                groupId = in.nextLine();
            } else {
                System.out.println("Please enter deduplication Id value");
                deduplicationID = in.nextLine();
                System.out.println("Please enter a group id value");
                groupId = in.nextLine();
            }
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Create a topic.");
        System.out.println("Enter a name for your SNS topic.");
        topicName = in.nextLine();
        if (selectFIFO) {
            System.out.println("Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.");
            topicName = topicName + ".fifo";
            System.out.println("The name of the topic is " + topicName);
            topicArn = createFIFO(snsClient, topicName, duplication);
            System.out.println("The ARN of the FIFO topic is " + topicArn);

        } else {
            System.out.println("The name of the topic is " + topicName);
            topicArn = createSNSTopic(snsClient, topicName);
            System.out.println("The ARN of the non-FIFO topic is " + topicArn);

        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Create an SQS queue.");
        System.out.println("Enter a name for your SQS queue.");
        sqsQueueName = in.nextLine();
        if (selectFIFO) {
            sqsQueueName = sqsQueueName + ".fifo";
        }
        sqsQueueUrl = createQueue(sqsClient, sqsQueueName, selectFIFO);
        System.out.println("The queue URL is " + sqsQueueUrl);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Get the SQS queue ARN attribute.");
        sqsQueueArn = getSQSQueueAttrs(sqsClient, sqsQueueUrl);
        System.out.println("The ARN of the new queue is " + sqsQueueArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Attach an IAM policy to the queue.");

        // Define the policy to use. Make sure that you change the REGION if you are
        // running this code
        // in a different region.
        String policy = """
        {
             "Statement": [
             {
                 "Effect": "Allow",
                         "Principal": {
                     "Service": "sns.amazonaws.com"
                 },
                 "Action": "sqs:SendMessage",
                         "Resource": "arn:aws:sqs:us-east-1:%s:%s",
                         "Condition": {
                     "ArnEquals": {
                         "aws:SourceArn": "arn:aws:sns:us-east-1:%s:%s"
                     }
                 }
             }
             ]
         }
        """.formatted(accountId, sqsQueueName, accountId, topicName);

        setQueueAttr(sqsClient, sqsQueueUrl, policy);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Subscribe to the SQS queue.");
        if (selectFIFO) {
            System.out.println(
                "If you add a filter to this subscription, then only the filtered messages will be received in the queue.\n"
                    +
                    "For information about message filtering, see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html\n"
                    +
                    "For this example, you can filter messages by a \"tone\" attribute.");
            System.out.println("Would you like to filter messages for " + sqsQueueName + "'s subscription to the topic "
                + topicName + "?  (y/n)");
            String filterAns = in.nextLine();
            if (filterAns.compareTo("y") == 0) {
                boolean moreAns = false;
                System.out.println("You can filter messages by one or more of the following \"tone\" attributes.");
                System.out.println("1. cheerful");
                System.out.println("2. funny");
                System.out.println("3. serious");
                System.out.println("4. sincere");
                while (!moreAns) {
                    System.out.println("Select a number or choose 0 to end.");
                    String ans = in.nextLine();
                    switch (ans) {
                        case "1":
                            filterList.add("cheerful");
                            break;
                        case "2":
                            filterList.add("funny");
                            break;
                        case "3":
                            filterList.add("serious");
                            break;
                        case "4":
                            filterList.add("sincere");
                            break;
                        default:
                            moreAns = true;
                            break;
                    }
                }
            }
        }
        subscriptionArn = subQueue(snsClient, topicArn, sqsQueueArn, filterList);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Publish a message to the topic.");
        if (selectFIFO) {
            System.out.println("Would you like to add an attribute to this message?  (y/n)");
            String msgAns = in.nextLine();
            if (msgAns.compareTo("y") == 0) {
                System.out.println("You can filter messages by one or more of the following \"tone\" attributes.");
                System.out.println("1. cheerful");
                System.out.println("2. funny");
                System.out.println("3. serious");
                System.out.println("4. sincere");
                System.out.println("Select a number or choose 0 to end.");
                String ans = in.nextLine();
                switch (ans) {
                    case "1":
                        msgAttValue = "cheerful";
                        break;
                    case "2":
                        msgAttValue = "funny";
                        break;
                    case "3":
                        msgAttValue = "serious";
                        break;
                    default:
                        msgAttValue = "sincere";
                        break;
                }

                System.out.println("Selected value is " + msgAttValue);
            }
            System.out.println("Enter a message.");
            message = in.nextLine();
            pubMessageFIFO(snsClient, message, topicArn, msgAttValue, duplication, groupId, deduplicationID);

        } else {
            System.out.println("Enter a message.");
            message = in.nextLine();
            pubMessage(snsClient, message, topicArn);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Display the message. Press any key to continue.");
        in.nextLine();
        messageList = receiveMessages(sqsClient, sqsQueueUrl, msgAttValue);
        for (Message mes : messageList) {
            System.out.println("Message Id: " + mes.messageId());
            System.out.println("Full Message: " + mes.body());
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. Delete the received message. Press any key to continue.");
        in.nextLine();
        deleteMessages(sqsClient, sqsQueueUrl, messageList);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Unsubscribe from the topic and delete the queue. Press any key to continue.");
        in.nextLine();
        unSub(snsClient, subscriptionArn);
        deleteSQSQueue(sqsClient, sqsQueueName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("11. Delete the topic. Press any key to continue.");
        in.nextLine();
        deleteSNSTopic(snsClient, topicArn);

        System.out.println(DASHES);
        System.out.println("The SNS/SQS workflow has completed successfully.");
        System.out.println(DASHES);
    }

    public static void deleteSNSTopic(SnsClient snsClient, String topicArn) {
        try {
            DeleteTopicRequest request = DeleteTopicRequest.builder()
                .topicArn(topicArn)
                .build();

            DeleteTopicResponse result = snsClient.deleteTopic(request);
            System.out.println("Status was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteSQSQueue(SqsClient sqsClient, String queueName) {
        try {
            GetQueueUrlRequest getQueueRequest = GetQueueUrlRequest.builder()
                .queueName(queueName)
                .build();

            String queueUrl = sqsClient.getQueueUrl(getQueueRequest).queueUrl();
            DeleteQueueRequest deleteQueueRequest = DeleteQueueRequest.builder()
                .queueUrl(queueUrl)
                .build();

            sqsClient.deleteQueue(deleteQueueRequest);
            System.out.println(queueName + " was successfully deleted.");

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void unSub(SnsClient snsClient, String subscriptionArn) {
        try {
            UnsubscribeRequest request = UnsubscribeRequest.builder()
                .subscriptionArn(subscriptionArn)
                .build();

            UnsubscribeResponse result = snsClient.unsubscribe(request);
            System.out.println("Status was " + result.sdkHttpResponse().statusCode()
                + "\nSubscription was removed for " + request.subscriptionArn());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteMessages(SqsClient sqsClient, String queueUrl, List<Message> messages) {
        try {
            List<DeleteMessageBatchRequestEntry> entries = new ArrayList<>();
            for (Message msg : messages) {
                DeleteMessageBatchRequestEntry entry = DeleteMessageBatchRequestEntry.builder()
                    .id(msg.messageId())
                    .build();

                entries.add(entry);
            }

            DeleteMessageBatchRequest deleteMessageBatchRequest = DeleteMessageBatchRequest.builder()
                .queueUrl(queueUrl)
                .entries(entries)
                .build();

            sqsClient.deleteMessageBatch(deleteMessageBatchRequest);
            System.out.println("The batch delete of messages was successful");

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static List<Message> receiveMessages(SqsClient sqsClient, String queueUrl, String msgAttValue) {
        try {
            if (msgAttValue.isEmpty()) {
                ReceiveMessageRequest receiveMessageRequest = ReceiveMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .maxNumberOfMessages(5)
                    .build();
                return sqsClient.receiveMessage(receiveMessageRequest).messages();
            } else {
                // We know there are filters on the message.
                ReceiveMessageRequest receiveRequest = ReceiveMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .messageAttributeNames(msgAttValue) // Include other message attributes if needed.
                    .maxNumberOfMessages(5)
                    .build();

                return sqsClient.receiveMessage(receiveRequest).messages();
            }

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }

    public static void pubMessage(SnsClient snsClient, String message, String topicArn) {
        try {
            PublishRequest request = PublishRequest.builder()
                .message(message)
                .topicArn(topicArn)
                .build();

            PublishResponse result = snsClient.publish(request);
            System.out
                .println(result.messageId() + " Message sent. Status is " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void pubMessageFIFO(SnsClient snsClient,
                                      String message,
                                      String topicArn,
                                      String msgAttValue,
                                      String duplication,
                                      String groupId,
                                      String deduplicationID) {

        try {
            PublishRequest request;
            // Means the user did not choose to use a message attribute.
            if (msgAttValue.isEmpty()) {
                if (duplication.compareTo("y") == 0) {
                    request = PublishRequest.builder()
                        .message(message)
                        .messageGroupId(groupId)
                        .topicArn(topicArn)
                        .build();
                } else {
                    request = PublishRequest.builder()
                        .message(message)
                        .messageDeduplicationId(deduplicationID)
                        .messageGroupId(groupId)
                        .topicArn(topicArn)
                        .build();
                }

            } else {
                Map<String, MessageAttributeValue> messageAttributes = new HashMap<>();
                messageAttributes.put(msgAttValue, MessageAttributeValue.builder()
                    .dataType("String")
                    .stringValue("true")
                    .build());

                if (duplication.compareTo("y") == 0) {
                    request = PublishRequest.builder()
                        .message(message)
                        .messageGroupId(groupId)
                        .topicArn(topicArn)
                        .build();
                } else {
                    // Create a publish request with the message and attributes.
                    request = PublishRequest.builder()
                        .topicArn(topicArn)
                        .message(message)
                        .messageDeduplicationId(deduplicationID)
                        .messageGroupId(groupId)
                        .messageAttributes(messageAttributes)
                        .build();
                }
            }

            // Publish the message to the topic.
            PublishResponse result = snsClient.publish(request);
            System.out
                .println(result.messageId() + " Message sent. Status was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Subscribe to the SQS queue.
    public static String subQueue(SnsClient snsClient, String topicArn, String queueArn, List<String> filterList) {
        try {
            SubscribeRequest request;
            if (filterList.isEmpty()) {
                // No filter subscription is added.
                request = SubscribeRequest.builder()
                    .protocol("sqs")
                    .endpoint(queueArn)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

                SubscribeResponse result = snsClient.subscribe(request);
                System.out.println("The queue " + queueArn + " has been subscribed to the topic " + topicArn + "\n" +
                    "with the subscription ARN " + result.subscriptionArn());
                return result.subscriptionArn();
            } else {
                request = SubscribeRequest.builder()
                    .protocol("sqs")
                    .endpoint(queueArn)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

                SubscribeResponse result = snsClient.subscribe(request);
                System.out.println("The queue " + queueArn + " has been subscribed to the topic " + topicArn + "\n" +
                    "with the subscription ARN " + result.subscriptionArn());

                String attributeName = "FilterPolicy";
                Gson gson = new Gson();
                String jsonString = "{\"tone\": []}";
                JsonObject jsonObject = gson.fromJson(jsonString, JsonObject.class);
                JsonArray toneArray = jsonObject.getAsJsonArray("tone");
                for (String value : filterList) {
                    toneArray.add(new JsonPrimitive(value));
                }

                String updatedJsonString = gson.toJson(jsonObject);
                System.out.println(updatedJsonString);
                SetSubscriptionAttributesRequest attRequest = SetSubscriptionAttributesRequest.builder()
                    .subscriptionArn(result.subscriptionArn())
                    .attributeName(attributeName)
                    .attributeValue(updatedJsonString)
                    .build();

                snsClient.setSubscriptionAttributes(attRequest);
                return result.subscriptionArn();
            }

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    // Attach a policy to the queue.
    public static void setQueueAttr(SqsClient sqsClient, String queueUrl, String policy) {
        try {
            Map<software.amazon.awssdk.services.sqs.model.QueueAttributeName, String> attrMap = new HashMap<>();
            attrMap.put(QueueAttributeName.POLICY, policy);

            SetQueueAttributesRequest attributesRequest = SetQueueAttributesRequest.builder()
                .queueUrl(queueUrl)
                .attributes(attrMap)
                .build();

            sqsClient.setQueueAttributes(attributesRequest);
            System.out.println("The policy has been successfully attached.");

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static String getSQSQueueAttrs(SqsClient sqsClient, String queueUrl) {
        // Specify the attributes to retrieve.
        List<QueueAttributeName> atts = new ArrayList<>();
        atts.add(QueueAttributeName.QUEUE_ARN);

        GetQueueAttributesRequest attributesRequest = GetQueueAttributesRequest.builder()
            .queueUrl(queueUrl)
            .attributeNames(atts)
            .build();

        GetQueueAttributesResponse response = sqsClient.getQueueAttributes(attributesRequest);
        Map<String, String> queueAtts = response.attributesAsStrings();
        for (Map.Entry<String, String> queueAtt : queueAtts.entrySet())
            return queueAtt.getValue();

        return "";
    }

    public static String createQueue(SqsClient sqsClient, String queueName, Boolean selectFIFO) {
        try {
            System.out.println("\nCreate Queue");
            if (selectFIFO) {
                Map<QueueAttributeName, String> attrs = new HashMap<>();
                attrs.put(QueueAttributeName.FIFO_QUEUE, "true");
                CreateQueueRequest createQueueRequest = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .attributes(attrs)
                    .build();

                sqsClient.createQueue(createQueueRequest);
                System.out.println("\nGet queue url");
                GetQueueUrlResponse getQueueUrlResponse = sqsClient
                    .getQueueUrl(GetQueueUrlRequest.builder().queueName(queueName).build());
                return getQueueUrlResponse.queueUrl();
            } else {
                CreateQueueRequest createQueueRequest = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .build();

                sqsClient.createQueue(createQueueRequest);
                System.out.println("\nGet queue url");
                GetQueueUrlResponse getQueueUrlResponse = sqsClient
                    .getQueueUrl(GetQueueUrlRequest.builder().queueName(queueName).build());
                return getQueueUrlResponse.queueUrl();
            }

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static String createSNSTopic(SnsClient snsClient, String topicName) {
        CreateTopicResponse result;
        try {
            CreateTopicRequest request = CreateTopicRequest.builder()
                .name(topicName)
                .build();

            result = snsClient.createTopic(request);
            return result.topicArn();

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static String createFIFO(SnsClient snsClient, String topicName, String duplication) {
        try {
            // Create a FIFO topic by using the SNS service client.
            Map<String, String> topicAttributes = new HashMap<>();
            if (duplication.compareTo("n") == 0) {
                topicAttributes.put("FifoTopic", "true");
                topicAttributes.put("ContentBasedDeduplication", "false");
            } else {
                topicAttributes.put("FifoTopic", "true");
                topicAttributes.put("ContentBasedDeduplication", "true");
            }

            CreateTopicRequest topicRequest = CreateTopicRequest.builder()
                .name(topicName)
                .attributes(topicAttributes)
                .build();

            CreateTopicResponse response = snsClient.createTopic(topicRequest);
            return response.topicArn();

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/CreateQueue)
  + [CreateTopic](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/CreateTopic)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteQueue)
  + [DeleteTopic](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/DeleteTopic)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/GetQueueAttributes)
  + [Publikasikan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Publish)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ReceiveMessage)
  + [SetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SetQueueAttributes)
  + [Berlangganan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Subscribe)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Unsubscribe)

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat AWS Lambda fungsi dengan menggunakan Lambda Java runtime API. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat fungsi Lambda yang diinvokasi oleh Amazon API Gateway yang memindai peringatan hari jadi kerja di tabel Amazon DynamoDB dan menggunakan Amazon Simple Notification Service (Amazon SNS) untuk mengirim pesan teks berisi ucapan selamat kepada karyawan Anda pada tanggal hari jadi kerja satu tahun mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lambda_apigateway).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat acara EventBridge terjadwal Amazon yang memanggil AWS Lambda fungsi. Konfigurasikan EventBridge untuk menggunakan ekspresi cron untuk menjadwalkan saat fungsi Lambda dipanggil. Dalam contoh ini, Anda membuat fungsi Lambda menggunakan API runtime Java Lambda. Contoh ini memanggil AWS layanan yang berbeda untuk melakukan kasus penggunaan tertentu. Contoh ini menunjukkan cara membuat aplikasi yang mengirimkan pesan teks seluler kepada karyawan Anda berisi ucapan selamat pada hari jadi setahun kerja mereka.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_scheduled_events).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package example;

import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.LambdaLogger;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.SNSEvent;
import com.amazonaws.services.lambda.runtime.events.SNSEvent.SNSRecord;


import java.util.Iterator;
import java.util.List;

public class SNSEventHandler implements RequestHandler<SNSEvent, Boolean> {
    LambdaLogger logger;

    @Override
    public Boolean handleRequest(SNSEvent event, Context context) {
        logger = context.getLogger();
        List<SNSRecord> records = event.getRecords();
        if (!records.isEmpty()) {
            Iterator<SNSRecord> recordsIter = records.iterator();
            while (recordsIter.hasNext()) {
                processRecord(recordsIter.next());
            }
        }
        return Boolean.TRUE;
    }

    public void processRecord(SNSRecord record) {
        try {
            String message = record.getSNS().getMessage();
            logger.log("message: " + message);
        } catch (Exception e) {
            throw new RuntimeException(e);
        }
    }

}
```

# Contoh Amazon SQS menggunakan SDK for Java 2.x
<a name="java_2_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon SQS. AWS SDK for Java 2.x 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon SQS
<a name="sqs_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SQS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.SqsException;
import software.amazon.awssdk.services.sqs.paginators.ListQueuesIterable;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class HelloSQS {
    public static void main(String[] args) {
        SqsClient sqsClient = SqsClient.builder()
                .region(Region.US_WEST_2)
                .build();

        listQueues(sqsClient);
        sqsClient.close();
    }

    public static void listQueues(SqsClient sqsClient) {
        try {
            ListQueuesIterable listQueues = sqsClient.listQueuesPaginator();
            listQueues.stream()
                    .flatMap(r -> r.queueUrls().stream())
                    .forEach(content -> System.out.println(" Queue URL: " + content.toLowerCase()));

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ListQueues)di *Referensi AWS SDK for Java 2.x API*. 

## Tindakan
<a name="actions"></a>

### `CreateQueue`
<a name="sqs_CreateQueue_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.ChangeMessageVisibilityRequest;
import software.amazon.awssdk.services.sqs.model.CreateQueueRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlResponse;
import software.amazon.awssdk.services.sqs.model.ListQueuesRequest;
import software.amazon.awssdk.services.sqs.model.ListQueuesResponse;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.SendMessageBatchRequest;
import software.amazon.awssdk.services.sqs.model.SendMessageBatchRequestEntry;
import software.amazon.awssdk.services.sqs.model.SendMessageRequest;
import software.amazon.awssdk.services.sqs.model.SqsException;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SQSExample {
    public static void main(String[] args) {
        String queueName = "queue" + System.currentTimeMillis();
        SqsClient sqsClient = SqsClient.builder()
                .region(Region.US_WEST_2)
                .build();

        // Perform various tasks on the Amazon SQS queue.
        String queueUrl = createQueue(sqsClient, queueName);
        listQueues(sqsClient);
        listQueuesFilter(sqsClient, queueUrl);
        List<Message> messages = receiveMessages(sqsClient, queueUrl);
        sendBatchMessages(sqsClient, queueUrl);
        changeMessages(sqsClient, queueUrl, messages);
        deleteMessages(sqsClient, queueUrl, messages);
        sqsClient.close();
    }

    public static String createQueue(SqsClient sqsClient, String queueName) {
        try {
            System.out.println("\nCreate Queue");

            CreateQueueRequest createQueueRequest = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .build();

            sqsClient.createQueue(createQueueRequest);

            System.out.println("\nGet queue url");

            GetQueueUrlResponse getQueueUrlResponse = sqsClient
                    .getQueueUrl(GetQueueUrlRequest.builder().queueName(queueName).build());
            return getQueueUrlResponse.queueUrl();

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static void listQueues(SqsClient sqsClient) {

        System.out.println("\nList Queues");
        String prefix = "que";

        try {
            ListQueuesRequest listQueuesRequest = ListQueuesRequest.builder().queueNamePrefix(prefix).build();
            ListQueuesResponse listQueuesResponse = sqsClient.listQueues(listQueuesRequest);
            for (String url : listQueuesResponse.queueUrls()) {
                System.out.println(url);
            }

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void listQueuesFilter(SqsClient sqsClient, String queueUrl) {
        // List queues with filters
        String namePrefix = "queue";
        ListQueuesRequest filterListRequest = ListQueuesRequest.builder()
                .queueNamePrefix(namePrefix)
                .build();

        ListQueuesResponse listQueuesFilteredResponse = sqsClient.listQueues(filterListRequest);
        System.out.println("Queue URLs with prefix: " + namePrefix);
        for (String url : listQueuesFilteredResponse.queueUrls()) {
            System.out.println(url);
        }

        System.out.println("\nSend message");
        try {
            sqsClient.sendMessage(SendMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .messageBody("Hello world!")
                    .delaySeconds(10)
                    .build());

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void sendBatchMessages(SqsClient sqsClient, String queueUrl) {

        System.out.println("\nSend multiple messages");
        try {
            SendMessageBatchRequest sendMessageBatchRequest = SendMessageBatchRequest.builder()
                    .queueUrl(queueUrl)
                    .entries(SendMessageBatchRequestEntry.builder().id("id1").messageBody("Hello from msg 1").build(),
                            SendMessageBatchRequestEntry.builder().id("id2").messageBody("msg 2").delaySeconds(10)
                                    .build())
                    .build();
            sqsClient.sendMessageBatch(sendMessageBatchRequest);

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static List<Message> receiveMessages(SqsClient sqsClient, String queueUrl) {

        System.out.println("\nReceive messages");
        try {
            ReceiveMessageRequest receiveMessageRequest = ReceiveMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .maxNumberOfMessages(5)
                    .build();
            return sqsClient.receiveMessage(receiveMessageRequest).messages();

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }

    public static void changeMessages(SqsClient sqsClient, String queueUrl, List<Message> messages) {

        System.out.println("\nChange Message Visibility");
        try {

            for (Message message : messages) {
                ChangeMessageVisibilityRequest req = ChangeMessageVisibilityRequest.builder()
                        .queueUrl(queueUrl)
                        .receiptHandle(message.receiptHandle())
                        .visibilityTimeout(100)
                        .build();
                sqsClient.changeMessageVisibility(req);
            }

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteMessages(SqsClient sqsClient, String queueUrl, List<Message> messages) {
        System.out.println("\nDelete Messages");

        try {
            for (Message message : messages) {
                DeleteMessageRequest deleteMessageRequest = DeleteMessageRequest.builder()
                        .queueUrl(queueUrl)
                        .receiptHandle(message.receiptHandle())
                        .build();
                sqsClient.deleteMessage(deleteMessageRequest);
            }
        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/CreateQueue)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteMessage`
<a name="sqs_DeleteMessage_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessage`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
        try {
            for (Message message : messages) {
                DeleteMessageRequest deleteMessageRequest = DeleteMessageRequest.builder()
                        .queueUrl(queueUrl)
                        .receiptHandle(message.receiptHandle())
                        .build();
                sqsClient.deleteMessage(deleteMessageRequest);
            }
        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
```
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteMessage)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlRequest;
import software.amazon.awssdk.services.sqs.model.DeleteQueueRequest;
import software.amazon.awssdk.services.sqs.model.SqsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DeleteQueue {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <queueName>

                Where:
                   queueName - The name of the Amazon SQS queue to delete.

                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String queueName = args[0];
        SqsClient sqs = SqsClient.builder()
                .region(Region.US_WEST_2)
                .build();

        deleteSQSQueue(sqs, queueName);
        sqs.close();
    }

    public static void deleteSQSQueue(SqsClient sqsClient, String queueName) {
        try {
            GetQueueUrlRequest getQueueRequest = GetQueueUrlRequest.builder()
                    .queueName(queueName)
                    .build();

            String queueUrl = sqsClient.getQueueUrl(getQueueRequest).queueUrl();
            DeleteQueueRequest deleteQueueRequest = DeleteQueueRequest.builder()
                    .queueUrl(queueUrl)
                    .build();

            sqsClient.deleteQueue(deleteQueueRequest);

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteQueue)di *Referensi AWS SDK for Java 2.x API*. 

### `GetQueueUrl`
<a name="sqs_GetQueueUrl_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueUrl`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
            GetQueueUrlResponse getQueueUrlResponse = sqsClient
                    .getQueueUrl(GetQueueUrlRequest.builder().queueName(queueName).build());
            return getQueueUrlResponse.queueUrl();
```
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/GetQueueUrl)di *Referensi AWS SDK for Java 2.x API*. 

### `ListQueues`
<a name="sqs_ListQueues_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
        String prefix = "que";

        try {
            ListQueuesRequest listQueuesRequest = ListQueuesRequest.builder().queueNamePrefix(prefix).build();
            ListQueuesResponse listQueuesResponse = sqsClient.listQueues(listQueuesRequest);
            for (String url : listQueuesResponse.queueUrls()) {
                System.out.println(url);
            }

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ListQueues)di *Referensi AWS SDK for Java 2.x API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
        try {
            ReceiveMessageRequest receiveMessageRequest = ReceiveMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .maxNumberOfMessages(5)
                    .build();
            return sqsClient.receiveMessage(receiveMessageRequest).messages();

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ReceiveMessage)di *Referensi AWS SDK for Java 2.x API*. 

### `SendMessage`
<a name="sqs_SendMessage_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 
Dua contoh `SendMessage` operasi berikut:  
+ Kirim pesan dengan tubuh dan penundaan
+ Mengirim pesan dengan atribut isi dan pesan
Kirim pesan dengan tubuh dan penundaan.  

```
import software.amazon.awssdk.auth.credentials.ProfileCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.CreateQueueRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlRequest;
import software.amazon.awssdk.services.sqs.model.SendMessageRequest;
import software.amazon.awssdk.services.sqs.model.SqsException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class SendMessages {
    public static void main(String[] args) {
        final String usage = """

                Usage:    <queueName> <message>

                Where:
                   queueName - The name of the queue.
                   message - The message to send.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String queueName = args[0];
        String message = args[1];
        SqsClient sqsClient = SqsClient.builder()
                .region(Region.US_WEST_2)
                .build();
        sendMessage(sqsClient, queueName, message);
        sqsClient.close();
    }

    public static void sendMessage(SqsClient sqsClient, String queueName, String message) {
        try {
            CreateQueueRequest request = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .build();
            sqsClient.createQueue(request);

            GetQueueUrlRequest getQueueRequest = GetQueueUrlRequest.builder()
                    .queueName(queueName)
                    .build();

            String queueUrl = sqsClient.getQueueUrl(getQueueRequest).queueUrl();
            SendMessageRequest sendMsgRequest = SendMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .messageBody(message)
                    .delaySeconds(5)
                    .build();

            sqsClient.sendMessage(sendMsgRequest);

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
Kirim pesan dengan atribut tubuh dan pesan.  

```
    /**
     * <p>This method demonstrates how to add message attributes to a message.
     * Each attribute must specify a name, value, and data type. You use a Java Map to supply the attributes. The map's
     * key is the attribute name, and you specify the map's entry value using a builder that includes the attribute
     * value and data type.</p>
     *
     * <p>The data type must start with one of "String", "Number" or "Binary". You can optionally
     * define a custom extension by using a "." and your extension.</p>
     *
     * <p>The SQS Developer Guide provides more information on @see <a
     * href="https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-message-metadata.html#sqs-message-attributes">message
     * attributes</a>.</p>
     *
     * @param thumbailPath Filesystem path of the image.
     * @param queueUrl     URL of the SQS queue.
     */
    static void sendMessageWithAttributes(Path thumbailPath, String queueUrl) {
        Map<String, MessageAttributeValue> messageAttributeMap;
        try {
            messageAttributeMap = Map.of(
                    "Name", MessageAttributeValue.builder()
                            .stringValue("Jane Doe")
                            .dataType("String").build(),
                    "Age", MessageAttributeValue.builder()
                            .stringValue("42")
                            .dataType("Number.int").build(),
                    "Image", MessageAttributeValue.builder()
                            .binaryValue(SdkBytes.fromByteArray(Files.readAllBytes(thumbailPath)))
                            .dataType("Binary.jpg").build()
            );
        } catch (IOException e) {
            LOGGER.error("An I/O exception occurred reading thumbnail image: {}", e.getMessage(), e);
            throw new RuntimeException(e);
        }

        SendMessageRequest request = SendMessageRequest.builder()
                .queueUrl(queueUrl)
                .messageBody("Hello SQS")
                .messageAttributes(messageAttributeMap)
                .build();
        try {
            SendMessageResponse sendMessageResponse = SQS_CLIENT.sendMessage(request);
            LOGGER.info("Message ID: {}", sendMessageResponse.messageId());
        } catch (SqsException e) {
            LOGGER.error("Exception occurred sending message: {}", e.getMessage(), e);
            throw new RuntimeException(e);
        }
    }
```
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SendMessage)di *Referensi AWS SDK for Java 2.x API*. 

### `SendMessageBatch`
<a name="sqs_SendMessageBatch_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessageBatch`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
            SendMessageBatchRequest sendMessageBatchRequest = SendMessageBatchRequest.builder()
                    .queueUrl(queueUrl)
                    .entries(SendMessageBatchRequestEntry.builder().id("id1").messageBody("Hello from msg 1").build(),
                            SendMessageBatchRequestEntry.builder().id("id2").messageBody("msg 2").delaySeconds(10)
                                    .build())
                    .build();
            sqsClient.sendMessageBatch(sendMessageBatchRequest);
```
+  Untuk detail API, lihat [SendMessageBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SendMessageBatch)di *Referensi AWS SDK for Java 2.x API*. 

### `SetQueueAttributes`
<a name="sqs_SetQueueAttributes_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetQueueAttributes`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 
Konfigurasikan Amazon SQS untuk menggunakan enkripsi sisi server (SSE) menggunakan kunci KMS kustom.  

```
    public static void addEncryption(String queueName, String kmsMasterKeyAlias) {
        SqsClient sqsClient = SqsClient.create();

        GetQueueUrlRequest urlRequest = GetQueueUrlRequest.builder()
                .queueName(queueName)
                .build();

        GetQueueUrlResponse getQueueUrlResponse;
        try {
            getQueueUrlResponse = sqsClient.getQueueUrl(urlRequest);
        } catch (QueueDoesNotExistException e) {
            LOGGER.error(e.getMessage(), e);
            throw new RuntimeException(e);
        }
        String queueUrl = getQueueUrlResponse.queueUrl();


        Map<QueueAttributeName, String> attributes = Map.of(
                QueueAttributeName.KMS_MASTER_KEY_ID, kmsMasterKeyAlias,
                QueueAttributeName.KMS_DATA_KEY_REUSE_PERIOD_SECONDS, "140" // Set the data key reuse period to 140 seconds.
        );                                                                  // This is how long SQS can reuse the data key before requesting a new one from KMS.

        SetQueueAttributesRequest attRequest = SetQueueAttributesRequest.builder()
                .queueUrl(queueUrl)
                .attributes(attributes)
                .build();
        try {
            sqsClient.setQueueAttributes(attRequest);
            LOGGER.info("The attributes have been applied to {}", queueName);
        } catch (InvalidAttributeNameException | InvalidAttributeValueException e) {
            LOGGER.error(e.getMessage(), e);
            throw new RuntimeException(e);
        } finally {
            sqsClient.close();
        }
    }
```
+  Untuk detail API, lihat [SetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SetQueueAttributes)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi perpesanan
<a name="cross_SQSMessageApp_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi pesan dengan menggunakan Amazon SQS.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon SQS API untuk mengembangkan Spring REST API yang mengirim dan mengambil pesan.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_message_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon SQS

### Membuat dan mempublikasikan ke topik FIFO
<a name="sns_PublishFifoTopic_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mempublikasikan ke topik FIFO Amazon SNS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns#code-examples). 
Contoh ini  
+ membuat topik Amazon SNS FIFO, dua antrian FIFO Amazon SQS, dan satu antrian Standar.
+ berlangganan antrian ke topik dan menerbitkan pesan ke topik tersebut.
[Tes](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns/src/test/java/com/example/sns/PriceUpdateExampleTest.java) memverifikasi penerimaan pesan ke setiap antrian. [Contoh lengkap](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sns/src/main/java/com/example/sns/PriceUpdateExample.java) juga menunjukkan penambahan kebijakan akses dan menghapus sumber daya di akhir.  

```
public class PriceUpdateExample {
    public final static SnsClient snsClient = SnsClient.create();
    public final static SqsClient sqsClient = SqsClient.create();

    public static void main(String[] args) {

        final String usage = "\n" +
            "Usage: " +
            "    <topicName> <wholesaleQueueFifoName> <retailQueueFifoName> <analyticsQueueName>\n\n" +
            "Where:\n" +
            "   fifoTopicName - The name of the FIFO topic that you want to create. \n\n" +
            "   wholesaleQueueARN - The name of a SQS FIFO queue that will be created for the wholesale consumer. \n\n"
            +
            "   retailQueueARN - The name of a SQS FIFO queue that will created for the retail consumer. \n\n" +
            "   analyticsQueueARN - The name of a SQS standard queue that will be created for the analytics consumer. \n\n";
        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        final String fifoTopicName = args[0];
        final String wholeSaleQueueName = args[1];
        final String retailQueueName = args[2];
        final String analyticsQueueName = args[3];

        // For convenience, the QueueData class holds metadata about a queue: ARN, URL,
        // name and type.
        List<QueueData> queues = List.of(
            new QueueData(wholeSaleQueueName, QueueType.FIFO),
            new QueueData(retailQueueName, QueueType.FIFO),
            new QueueData(analyticsQueueName, QueueType.Standard));

        // Create queues.
        createQueues(queues);

        // Create a topic.
        String topicARN = createFIFOTopic(fifoTopicName);

        // Subscribe each queue to the topic.
        subscribeQueues(queues, topicARN);

        // Allow the newly created topic to send messages to the queues.
        addAccessPolicyToQueuesFINAL(queues, topicARN);

        // Publish a sample price update message with payload.
        publishPriceUpdate(topicARN, "{\"product\": 214, \"price\": 79.99}", "Consumables");

        // Clean up resources.
        deleteSubscriptions(queues);
        deleteQueues(queues);
        deleteTopic(topicARN);
    }

    public static String createFIFOTopic(String topicName) {
        try {
            // Create a FIFO topic by using the SNS service client.
            Map<String, String> topicAttributes = Map.of(
                "FifoTopic", "true",
                "ContentBasedDeduplication", "false",
                "FifoThroughputScope", "MessageGroup");

            CreateTopicRequest topicRequest = CreateTopicRequest.builder()
                .name(topicName)
                .attributes(topicAttributes)
                .build();

            CreateTopicResponse response = snsClient.createTopic(topicRequest);
            String topicArn = response.topicArn();
            System.out.println("The topic ARN is" + topicArn);

            return topicArn;

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static void subscribeQueues(List<QueueData> queues, String topicARN) {
        queues.forEach(queue -> {
            SubscribeRequest subscribeRequest = SubscribeRequest.builder()
                .topicArn(topicARN)
                .endpoint(queue.queueARN)
                .protocol("sqs")
                .build();

            // Subscribe to the endpoint by using the SNS service client.
            // Only Amazon SQS queues can receive notifications from an Amazon SNS FIFO
            // topic.
            SubscribeResponse subscribeResponse = snsClient.subscribe(subscribeRequest);
            System.out.println("The queue [" + queue.queueARN + "] subscribed to the topic [" + topicARN + "]");
            queue.subscriptionARN = subscribeResponse.subscriptionArn();
        });
    }

    public static void publishPriceUpdate(String topicArn, String payload, String groupId) {

        try {
            // Create and publish a message that updates the wholesale price.
            String subject = "Price Update";
            String dedupId = UUID.randomUUID().toString();
            String attributeName = "business";
            String attributeValue = "wholesale";

            MessageAttributeValue msgAttValue = MessageAttributeValue.builder()
                .dataType("String")
                .stringValue(attributeValue)
                .build();

            Map<String, MessageAttributeValue> attributes = new HashMap<>();
            attributes.put(attributeName, msgAttValue);
            PublishRequest pubRequest = PublishRequest.builder()
                .topicArn(topicArn)
                .subject(subject)
                .message(payload)
                .messageGroupId(groupId)
                .messageDeduplicationId(dedupId)
                .messageAttributes(attributes)
                .build();

            final PublishResponse response = snsClient.publish(pubRequest);
            System.out.println(response.messageId());
            System.out.println(response.sequenceNumber());
            System.out.println("Message was published to " + topicArn);

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateTopic](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/CreateTopic)
  + [Publikasikan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Publish)
  + [Berlangganan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Subscribe)

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Rekognition Java API untuk membuat aplikasi guna mendeteksi wajah dan objek di video yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/video_analyzer_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

### Kelola pesan besar menggunakan S3
<a name="sqs_Scenario_SqsExtendedClient_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Amazon SQS Extended Client Library untuk bekerja dengan pesan Amazon SQS besar.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 

```
import com.amazon.sqs.javamessaging.AmazonSQSExtendedClient;
import com.amazon.sqs.javamessaging.ExtendedClientConfiguration;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.joda.time.DateTime;
import org.joda.time.format.DateTimeFormat;
import software.amazon.awssdk.services.s3.S3Client;
import software.amazon.awssdk.services.s3.model.BucketLifecycleConfiguration;
import software.amazon.awssdk.services.s3.model.CreateBucketRequest;
import software.amazon.awssdk.services.s3.model.DeleteBucketRequest;
import software.amazon.awssdk.services.s3.model.DeleteObjectRequest;
import software.amazon.awssdk.services.s3.model.ExpirationStatus;
import software.amazon.awssdk.services.s3.model.LifecycleExpiration;
import software.amazon.awssdk.services.s3.model.LifecycleRule;
import software.amazon.awssdk.services.s3.model.LifecycleRuleFilter;
import software.amazon.awssdk.services.s3.model.ListObjectVersionsRequest;
import software.amazon.awssdk.services.s3.model.ListObjectVersionsResponse;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Request;
import software.amazon.awssdk.services.s3.model.ListObjectsV2Response;
import software.amazon.awssdk.services.s3.model.PutBucketLifecycleConfigurationRequest;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.CreateQueueRequest;
import software.amazon.awssdk.services.sqs.model.CreateQueueResponse;
import software.amazon.awssdk.services.sqs.model.DeleteMessageRequest;
import software.amazon.awssdk.services.sqs.model.DeleteQueueRequest;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageResponse;
import software.amazon.awssdk.services.sqs.model.SendMessageRequest;

import java.util.Arrays;
import java.util.List;
import java.util.UUID;

/**
 * Example of using Amazon SQS Extended Client Library for Java 2.x.
 */
public class SqsExtendedClientExample {
    private static final Logger logger = LoggerFactory.getLogger(SqsExtendedClientExample.class);
    
    private String s3BucketName;
    private String queueUrl;
    private final String queueName;
    private final S3Client s3Client;
    private final SqsClient sqsExtendedClient;
    private final int messageSize;

    /**
     * Constructor with default clients and message size.
     */
    public SqsExtendedClientExample() {
        this(S3Client.create(), 300000);
    }

    /**
     * Constructor with custom S3 client and message size.
     *
     * @param s3Client The S3 client to use
     * @param messageSize The size of the test message to create
     */
    public SqsExtendedClientExample(S3Client s3Client, int messageSize) {
        this.s3Client = s3Client;
        this.messageSize = messageSize;

        // Generate a unique bucket name.
        this.s3BucketName = UUID.randomUUID() + "-" +
                DateTimeFormat.forPattern("yyMMdd-hhmmss").print(new DateTime());

        // Generate a unique queue name.
        this.queueName = "MyQueue-" + UUID.randomUUID();

        // Configure the SQS extended client.
        final ExtendedClientConfiguration extendedClientConfig = new ExtendedClientConfiguration()
                .withPayloadSupportEnabled(s3Client, s3BucketName);

        this.sqsExtendedClient = new AmazonSQSExtendedClient(SqsClient.builder().build(), extendedClientConfig);
    }

    public static void main(String[] args) {
        SqsExtendedClientExample example = new SqsExtendedClientExample();
        try {
            example.setup();
            example.sendAndReceiveMessage();
        } finally {
            example.cleanup();
        }
    }

    /**
     * Send a large message and receive it back.
     *
     * @return The received message
     */
    public Message sendAndReceiveMessage() {
        try {
            // Create a large message.
            char[] chars = new char[messageSize];
            Arrays.fill(chars, 'x');
            String largeMessage = new String(chars);

            // Send the message.
            final SendMessageRequest sendMessageRequest = SendMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .messageBody(largeMessage)
                    .build();

            sqsExtendedClient.sendMessage(sendMessageRequest);
            logger.info("Sent message of size: {}", largeMessage.length());

            // Receive and return the message.
            final ReceiveMessageResponse receiveMessageResponse = sqsExtendedClient.receiveMessage(
                    ReceiveMessageRequest.builder().queueUrl(queueUrl).build());

            List<Message> messages = receiveMessageResponse.messages();
            if (messages.isEmpty()) {
                throw new RuntimeException("No messages received");
            }

            Message message = messages.getFirst();
            logger.info("\nMessage received.");
            logger.info("  ID: {}", message.messageId());
            logger.info("  Receipt handle: {}", message.receiptHandle());
            logger.info("  Message body size: {}", message.body().length());
            logger.info("  Message body (first 5 characters): {}", message.body().substring(0, 5));

            return message;
        } catch (RuntimeException e) {
            logger.error("Error during message processing: {}", e.getMessage(), e);
            throw e;
        }
    }
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK for Java 2.x](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-s3-messages.html). 
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/CreateBucket)
  + [PutBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketLifecycleConfiguration)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ReceiveMessage)
  + [SendMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SendMessage)

### Memproses pemberitahuan acara S3
<a name="s3_Scenario_ProcessS3EventNotification_java_2_topic"></a>

Contoh kode berikut menunjukkan cara bekerja dengan pemberitahuan acara S3 dengan cara berorientasi objek.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/s3#code-examples). 
Contoh ini menunjukkan cara memproses acara notifikasi S3 dengan menggunakan Amazon SQS.  

```
    /**
     * This method receives S3 event notifications by using an SqsAsyncClient.
     * After the client receives the messages it deserializes the JSON payload and logs them. It uses
     * the S3EventNotification class (part of the S3 event notification API for Java) to deserialize
     * the JSON payload and access the messages in an object-oriented way.
     *
     * @param queueUrl The URL of the AWS SQS queue that receives the S3 event notifications.
     * @see <a href="https://sdk.amazonaws.com/java/api/latest/software/amazon/awssdk/eventnotifications/s3/model/package-summary.html">S3EventNotification API</a>.
     * <p>
     * To use S3 event notification serialization/deserialization to objects, add the following
     * dependency to your Maven pom.xml file.
     * <dependency>
     * <groupId>software.amazon.awssdk</groupId>
     * <artifactId>s3-event-notifications</artifactId>
     * <version><LATEST></version>
     * </dependency>
     * <p>
     * The S3 event notification API became available with version 2.25.11 of the Java SDK.
     * <p>
     * This example shows the use of the API with AWS SQS, but it can be used to process S3 event notifications
     * in AWS SNS or AWS Lambda as well.
     * <p>
     * Note: The S3EventNotification class does not work with messages routed through AWS EventBridge.
     */
    static void processS3Events(String bucketName, String queueUrl, String queueArn) {
        try {
            // Configure the bucket to send Object Created and Object Tagging notifications to an existing SQS queue.
            s3Client.putBucketNotificationConfiguration(b -> b
                    .notificationConfiguration(ncb -> ncb
                            .queueConfigurations(qcb -> qcb
                                    .events(Event.S3_OBJECT_CREATED, Event.S3_OBJECT_TAGGING)
                                    .queueArn(queueArn)))
                            .bucket(bucketName)
            ).join();

            triggerS3EventNotifications(bucketName);
            // Wait for event notifications to propagate.
            Thread.sleep(Duration.ofSeconds(5).toMillis());

            boolean didReceiveMessages = true;
            while (didReceiveMessages) {
                // Display the number of messages that are available in the queue.
                sqsClient.getQueueAttributes(b -> b
                                .queueUrl(queueUrl)
                                .attributeNames(QueueAttributeName.APPROXIMATE_NUMBER_OF_MESSAGES)
                        ).thenAccept(attributeResponse ->
                                logger.info("Approximate number of messages in the queue: {}",
                                        attributeResponse.attributes().get(QueueAttributeName.APPROXIMATE_NUMBER_OF_MESSAGES)))
                        .join();

                // Receive the messages.
                ReceiveMessageResponse response = sqsClient.receiveMessage(b -> b
                        .queueUrl(queueUrl)
                ).get();
                logger.info("Count of received messages: {}", response.messages().size());
                didReceiveMessages = !response.messages().isEmpty();

                // Create a collection to hold the received message for deletion
                // after we log the messages.
                HashSet<DeleteMessageBatchRequestEntry> messagesToDelete = new HashSet<>();
                // Process each message.
                response.messages().forEach(message -> {
                    logger.info("Message id: {}", message.messageId());
                    // Deserialize JSON message body to a S3EventNotification object
                    // to access messages in an object-oriented way.
                    S3EventNotification event = S3EventNotification.fromJson(message.body());

                    // Log the S3 event notification record details.
                    if (event.getRecords() != null) {
                        event.getRecords().forEach(record -> {
                            String eventName = record.getEventName();
                            String key = record.getS3().getObject().getKey();
                            logger.info(record.toString());
                            logger.info("Event name is {} and key is {}", eventName, key);
                        });
                    }
                    // Add logged messages to collection for batch deletion.
                    messagesToDelete.add(DeleteMessageBatchRequestEntry.builder()
                            .id(message.messageId())
                            .receiptHandle(message.receiptHandle())
                            .build());
                });
                // Delete messages.
                if (!messagesToDelete.isEmpty()) {
                    sqsClient.deleteMessageBatch(DeleteMessageBatchRequest.builder()
                            .queueUrl(queueUrl)
                            .entries(messagesToDelete)
                            .build()
                    ).join();
                }
            } // End of while block.
        } catch (InterruptedException | ExecutionException e) {
            throw new RuntimeException(e);
        }
    }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteMessageBatch)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/GetQueueAttributes)
  + [PutBucketNotificationConfiguration](https://docs.aws.amazon.com/goto/SdkForJavaV2/s3-2006-03-01/PutBucketNotificationConfiguration)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ReceiveMessage)

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/topics_and_queues#code-examples). 

```
package com.example.sns;

import software.amazon.awssdk.auth.credentials.EnvironmentVariableCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sns.SnsClient;
import software.amazon.awssdk.services.sns.model.CreateTopicRequest;
import software.amazon.awssdk.services.sns.model.CreateTopicResponse;
import software.amazon.awssdk.services.sns.model.DeleteTopicRequest;
import software.amazon.awssdk.services.sns.model.DeleteTopicResponse;
import software.amazon.awssdk.services.sns.model.MessageAttributeValue;
import software.amazon.awssdk.services.sns.model.PublishRequest;
import software.amazon.awssdk.services.sns.model.PublishResponse;
import software.amazon.awssdk.services.sns.model.SetSubscriptionAttributesRequest;
import software.amazon.awssdk.services.sns.model.SnsException;
import software.amazon.awssdk.services.sns.model.SubscribeRequest;
import software.amazon.awssdk.services.sns.model.SubscribeResponse;
import software.amazon.awssdk.services.sns.model.UnsubscribeRequest;
import software.amazon.awssdk.services.sns.model.UnsubscribeResponse;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.CreateQueueRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageBatchRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageBatchRequestEntry;
import software.amazon.awssdk.services.sqs.model.DeleteQueueRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueAttributesRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueAttributesResponse;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlRequest;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlResponse;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.QueueAttributeName;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.SetQueueAttributesRequest;
import software.amazon.awssdk.services.sqs.model.SqsException;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Scanner;

import com.google.gson.Gson;
import com.google.gson.JsonArray;
import com.google.gson.JsonObject;
import com.google.gson.JsonPrimitive;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 * <p>
 * For more information, see the following documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 * <p>
 * This Java example performs these tasks:
 * <p>
 * 1. Gives the user three options to choose from.
 * 2. Creates an Amazon Simple Notification Service (Amazon SNS) topic.
 * 3. Creates an Amazon Simple Queue Service (Amazon SQS) queue.
 * 4. Gets the SQS queue Amazon Resource Name (ARN) attribute.
 * 5. Attaches an AWS Identity and Access Management (IAM) policy to the queue.
 * 6. Subscribes to the SQS queue.
 * 7. Publishes a message to the topic.
 * 8. Displays the messages.
 * 9. Deletes the received message.
 * 10. Unsubscribes from the topic.
 * 11. Deletes the SNS topic.
 */
public class SNSWorkflow {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) {
        final String usage = "\n" +
            "Usage:\n" +
            "    <fifoQueueARN>\n\n" +
            "Where:\n" +
            "    accountId - Your AWS account Id value.";

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        SnsClient snsClient = SnsClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(EnvironmentVariableCredentialsProvider.create())
            .build();

        SqsClient sqsClient = SqsClient.builder()
            .region(Region.US_EAST_1)
            .credentialsProvider(EnvironmentVariableCredentialsProvider.create())
            .build();

        Scanner in = new Scanner(System.in);
        String accountId = args[0];
        String useFIFO;
        String duplication = "n";
        String topicName;
        String deduplicationID = null;
        String groupId = null;

        String topicArn;
        String sqsQueueName;
        String sqsQueueUrl;
        String sqsQueueArn;
        String subscriptionArn;
        boolean selectFIFO = false;

        String message;
        List<Message> messageList;
        List<String> filterList = new ArrayList<>();
        String msgAttValue = "";

        System.out.println(DASHES);
        System.out.println("Welcome to messaging with topics and queues.");
        System.out.println("In this scenario, you will create an SNS topic and subscribe an SQS queue to the topic.\n" +
            "You can select from several options for configuring the topic and the subscriptions for the queue.\n" +
            "You can then post to the topic and see the results in the queue.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("SNS topics can be configured as FIFO (First-In-First-Out).\n" +
            "FIFO topics deliver messages in order and support deduplication and message filtering.\n" +
            "Would you like to work with FIFO topics? (y/n)");
        useFIFO = in.nextLine();
        if (useFIFO.compareTo("y") == 0) {
            selectFIFO = true;
            System.out.println("You have selected FIFO");
            System.out.println(" Because you have chosen a FIFO topic, deduplication is supported.\n" +
                "        Deduplication IDs are either set in the message or automatically generated from content using a hash function.\n"
                +
                "        If a message is successfully published to an SNS FIFO topic, any message published and determined to have the same deduplication ID,\n"
                +
                "        within the five-minute deduplication interval, is accepted but not delivered.\n" +
                "        For more information about deduplication, see https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.");

            System.out.println(
                "Would you like to use content-based deduplication instead of entering a deduplication ID? (y/n)");
            duplication = in.nextLine();
            if (duplication.compareTo("y") == 0) {
                System.out.println("Please enter a group id value");
                groupId = in.nextLine();
            } else {
                System.out.println("Please enter deduplication Id value");
                deduplicationID = in.nextLine();
                System.out.println("Please enter a group id value");
                groupId = in.nextLine();
            }
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Create a topic.");
        System.out.println("Enter a name for your SNS topic.");
        topicName = in.nextLine();
        if (selectFIFO) {
            System.out.println("Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.");
            topicName = topicName + ".fifo";
            System.out.println("The name of the topic is " + topicName);
            topicArn = createFIFO(snsClient, topicName, duplication);
            System.out.println("The ARN of the FIFO topic is " + topicArn);

        } else {
            System.out.println("The name of the topic is " + topicName);
            topicArn = createSNSTopic(snsClient, topicName);
            System.out.println("The ARN of the non-FIFO topic is " + topicArn);

        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Create an SQS queue.");
        System.out.println("Enter a name for your SQS queue.");
        sqsQueueName = in.nextLine();
        if (selectFIFO) {
            sqsQueueName = sqsQueueName + ".fifo";
        }
        sqsQueueUrl = createQueue(sqsClient, sqsQueueName, selectFIFO);
        System.out.println("The queue URL is " + sqsQueueUrl);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Get the SQS queue ARN attribute.");
        sqsQueueArn = getSQSQueueAttrs(sqsClient, sqsQueueUrl);
        System.out.println("The ARN of the new queue is " + sqsQueueArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Attach an IAM policy to the queue.");

        // Define the policy to use. Make sure that you change the REGION if you are
        // running this code
        // in a different region.
        String policy = """
        {
             "Statement": [
             {
                 "Effect": "Allow",
                         "Principal": {
                     "Service": "sns.amazonaws.com"
                 },
                 "Action": "sqs:SendMessage",
                         "Resource": "arn:aws:sqs:us-east-1:%s:%s",
                         "Condition": {
                     "ArnEquals": {
                         "aws:SourceArn": "arn:aws:sns:us-east-1:%s:%s"
                     }
                 }
             }
             ]
         }
        """.formatted(accountId, sqsQueueName, accountId, topicName);

        setQueueAttr(sqsClient, sqsQueueUrl, policy);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Subscribe to the SQS queue.");
        if (selectFIFO) {
            System.out.println(
                "If you add a filter to this subscription, then only the filtered messages will be received in the queue.\n"
                    +
                    "For information about message filtering, see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html\n"
                    +
                    "For this example, you can filter messages by a \"tone\" attribute.");
            System.out.println("Would you like to filter messages for " + sqsQueueName + "'s subscription to the topic "
                + topicName + "?  (y/n)");
            String filterAns = in.nextLine();
            if (filterAns.compareTo("y") == 0) {
                boolean moreAns = false;
                System.out.println("You can filter messages by one or more of the following \"tone\" attributes.");
                System.out.println("1. cheerful");
                System.out.println("2. funny");
                System.out.println("3. serious");
                System.out.println("4. sincere");
                while (!moreAns) {
                    System.out.println("Select a number or choose 0 to end.");
                    String ans = in.nextLine();
                    switch (ans) {
                        case "1":
                            filterList.add("cheerful");
                            break;
                        case "2":
                            filterList.add("funny");
                            break;
                        case "3":
                            filterList.add("serious");
                            break;
                        case "4":
                            filterList.add("sincere");
                            break;
                        default:
                            moreAns = true;
                            break;
                    }
                }
            }
        }
        subscriptionArn = subQueue(snsClient, topicArn, sqsQueueArn, filterList);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Publish a message to the topic.");
        if (selectFIFO) {
            System.out.println("Would you like to add an attribute to this message?  (y/n)");
            String msgAns = in.nextLine();
            if (msgAns.compareTo("y") == 0) {
                System.out.println("You can filter messages by one or more of the following \"tone\" attributes.");
                System.out.println("1. cheerful");
                System.out.println("2. funny");
                System.out.println("3. serious");
                System.out.println("4. sincere");
                System.out.println("Select a number or choose 0 to end.");
                String ans = in.nextLine();
                switch (ans) {
                    case "1":
                        msgAttValue = "cheerful";
                        break;
                    case "2":
                        msgAttValue = "funny";
                        break;
                    case "3":
                        msgAttValue = "serious";
                        break;
                    default:
                        msgAttValue = "sincere";
                        break;
                }

                System.out.println("Selected value is " + msgAttValue);
            }
            System.out.println("Enter a message.");
            message = in.nextLine();
            pubMessageFIFO(snsClient, message, topicArn, msgAttValue, duplication, groupId, deduplicationID);

        } else {
            System.out.println("Enter a message.");
            message = in.nextLine();
            pubMessage(snsClient, message, topicArn);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Display the message. Press any key to continue.");
        in.nextLine();
        messageList = receiveMessages(sqsClient, sqsQueueUrl, msgAttValue);
        for (Message mes : messageList) {
            System.out.println("Message Id: " + mes.messageId());
            System.out.println("Full Message: " + mes.body());
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. Delete the received message. Press any key to continue.");
        in.nextLine();
        deleteMessages(sqsClient, sqsQueueUrl, messageList);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Unsubscribe from the topic and delete the queue. Press any key to continue.");
        in.nextLine();
        unSub(snsClient, subscriptionArn);
        deleteSQSQueue(sqsClient, sqsQueueName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("11. Delete the topic. Press any key to continue.");
        in.nextLine();
        deleteSNSTopic(snsClient, topicArn);

        System.out.println(DASHES);
        System.out.println("The SNS/SQS workflow has completed successfully.");
        System.out.println(DASHES);
    }

    public static void deleteSNSTopic(SnsClient snsClient, String topicArn) {
        try {
            DeleteTopicRequest request = DeleteTopicRequest.builder()
                .topicArn(topicArn)
                .build();

            DeleteTopicResponse result = snsClient.deleteTopic(request);
            System.out.println("Status was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteSQSQueue(SqsClient sqsClient, String queueName) {
        try {
            GetQueueUrlRequest getQueueRequest = GetQueueUrlRequest.builder()
                .queueName(queueName)
                .build();

            String queueUrl = sqsClient.getQueueUrl(getQueueRequest).queueUrl();
            DeleteQueueRequest deleteQueueRequest = DeleteQueueRequest.builder()
                .queueUrl(queueUrl)
                .build();

            sqsClient.deleteQueue(deleteQueueRequest);
            System.out.println(queueName + " was successfully deleted.");

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void unSub(SnsClient snsClient, String subscriptionArn) {
        try {
            UnsubscribeRequest request = UnsubscribeRequest.builder()
                .subscriptionArn(subscriptionArn)
                .build();

            UnsubscribeResponse result = snsClient.unsubscribe(request);
            System.out.println("Status was " + result.sdkHttpResponse().statusCode()
                + "\nSubscription was removed for " + request.subscriptionArn());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void deleteMessages(SqsClient sqsClient, String queueUrl, List<Message> messages) {
        try {
            List<DeleteMessageBatchRequestEntry> entries = new ArrayList<>();
            for (Message msg : messages) {
                DeleteMessageBatchRequestEntry entry = DeleteMessageBatchRequestEntry.builder()
                    .id(msg.messageId())
                    .build();

                entries.add(entry);
            }

            DeleteMessageBatchRequest deleteMessageBatchRequest = DeleteMessageBatchRequest.builder()
                .queueUrl(queueUrl)
                .entries(entries)
                .build();

            sqsClient.deleteMessageBatch(deleteMessageBatchRequest);
            System.out.println("The batch delete of messages was successful");

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static List<Message> receiveMessages(SqsClient sqsClient, String queueUrl, String msgAttValue) {
        try {
            if (msgAttValue.isEmpty()) {
                ReceiveMessageRequest receiveMessageRequest = ReceiveMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .maxNumberOfMessages(5)
                    .build();
                return sqsClient.receiveMessage(receiveMessageRequest).messages();
            } else {
                // We know there are filters on the message.
                ReceiveMessageRequest receiveRequest = ReceiveMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .messageAttributeNames(msgAttValue) // Include other message attributes if needed.
                    .maxNumberOfMessages(5)
                    .build();

                return sqsClient.receiveMessage(receiveRequest).messages();
            }

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return null;
    }

    public static void pubMessage(SnsClient snsClient, String message, String topicArn) {
        try {
            PublishRequest request = PublishRequest.builder()
                .message(message)
                .topicArn(topicArn)
                .build();

            PublishResponse result = snsClient.publish(request);
            System.out
                .println(result.messageId() + " Message sent. Status is " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void pubMessageFIFO(SnsClient snsClient,
                                      String message,
                                      String topicArn,
                                      String msgAttValue,
                                      String duplication,
                                      String groupId,
                                      String deduplicationID) {

        try {
            PublishRequest request;
            // Means the user did not choose to use a message attribute.
            if (msgAttValue.isEmpty()) {
                if (duplication.compareTo("y") == 0) {
                    request = PublishRequest.builder()
                        .message(message)
                        .messageGroupId(groupId)
                        .topicArn(topicArn)
                        .build();
                } else {
                    request = PublishRequest.builder()
                        .message(message)
                        .messageDeduplicationId(deduplicationID)
                        .messageGroupId(groupId)
                        .topicArn(topicArn)
                        .build();
                }

            } else {
                Map<String, MessageAttributeValue> messageAttributes = new HashMap<>();
                messageAttributes.put(msgAttValue, MessageAttributeValue.builder()
                    .dataType("String")
                    .stringValue("true")
                    .build());

                if (duplication.compareTo("y") == 0) {
                    request = PublishRequest.builder()
                        .message(message)
                        .messageGroupId(groupId)
                        .topicArn(topicArn)
                        .build();
                } else {
                    // Create a publish request with the message and attributes.
                    request = PublishRequest.builder()
                        .topicArn(topicArn)
                        .message(message)
                        .messageDeduplicationId(deduplicationID)
                        .messageGroupId(groupId)
                        .messageAttributes(messageAttributes)
                        .build();
                }
            }

            // Publish the message to the topic.
            PublishResponse result = snsClient.publish(request);
            System.out
                .println(result.messageId() + " Message sent. Status was " + result.sdkHttpResponse().statusCode());

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    // Subscribe to the SQS queue.
    public static String subQueue(SnsClient snsClient, String topicArn, String queueArn, List<String> filterList) {
        try {
            SubscribeRequest request;
            if (filterList.isEmpty()) {
                // No filter subscription is added.
                request = SubscribeRequest.builder()
                    .protocol("sqs")
                    .endpoint(queueArn)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

                SubscribeResponse result = snsClient.subscribe(request);
                System.out.println("The queue " + queueArn + " has been subscribed to the topic " + topicArn + "\n" +
                    "with the subscription ARN " + result.subscriptionArn());
                return result.subscriptionArn();
            } else {
                request = SubscribeRequest.builder()
                    .protocol("sqs")
                    .endpoint(queueArn)
                    .returnSubscriptionArn(true)
                    .topicArn(topicArn)
                    .build();

                SubscribeResponse result = snsClient.subscribe(request);
                System.out.println("The queue " + queueArn + " has been subscribed to the topic " + topicArn + "\n" +
                    "with the subscription ARN " + result.subscriptionArn());

                String attributeName = "FilterPolicy";
                Gson gson = new Gson();
                String jsonString = "{\"tone\": []}";
                JsonObject jsonObject = gson.fromJson(jsonString, JsonObject.class);
                JsonArray toneArray = jsonObject.getAsJsonArray("tone");
                for (String value : filterList) {
                    toneArray.add(new JsonPrimitive(value));
                }

                String updatedJsonString = gson.toJson(jsonObject);
                System.out.println(updatedJsonString);
                SetSubscriptionAttributesRequest attRequest = SetSubscriptionAttributesRequest.builder()
                    .subscriptionArn(result.subscriptionArn())
                    .attributeName(attributeName)
                    .attributeValue(updatedJsonString)
                    .build();

                snsClient.setSubscriptionAttributes(attRequest);
                return result.subscriptionArn();
            }

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    // Attach a policy to the queue.
    public static void setQueueAttr(SqsClient sqsClient, String queueUrl, String policy) {
        try {
            Map<software.amazon.awssdk.services.sqs.model.QueueAttributeName, String> attrMap = new HashMap<>();
            attrMap.put(QueueAttributeName.POLICY, policy);

            SetQueueAttributesRequest attributesRequest = SetQueueAttributesRequest.builder()
                .queueUrl(queueUrl)
                .attributes(attrMap)
                .build();

            sqsClient.setQueueAttributes(attributesRequest);
            System.out.println("The policy has been successfully attached.");

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static String getSQSQueueAttrs(SqsClient sqsClient, String queueUrl) {
        // Specify the attributes to retrieve.
        List<QueueAttributeName> atts = new ArrayList<>();
        atts.add(QueueAttributeName.QUEUE_ARN);

        GetQueueAttributesRequest attributesRequest = GetQueueAttributesRequest.builder()
            .queueUrl(queueUrl)
            .attributeNames(atts)
            .build();

        GetQueueAttributesResponse response = sqsClient.getQueueAttributes(attributesRequest);
        Map<String, String> queueAtts = response.attributesAsStrings();
        for (Map.Entry<String, String> queueAtt : queueAtts.entrySet())
            return queueAtt.getValue();

        return "";
    }

    public static String createQueue(SqsClient sqsClient, String queueName, Boolean selectFIFO) {
        try {
            System.out.println("\nCreate Queue");
            if (selectFIFO) {
                Map<QueueAttributeName, String> attrs = new HashMap<>();
                attrs.put(QueueAttributeName.FIFO_QUEUE, "true");
                CreateQueueRequest createQueueRequest = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .attributes(attrs)
                    .build();

                sqsClient.createQueue(createQueueRequest);
                System.out.println("\nGet queue url");
                GetQueueUrlResponse getQueueUrlResponse = sqsClient
                    .getQueueUrl(GetQueueUrlRequest.builder().queueName(queueName).build());
                return getQueueUrlResponse.queueUrl();
            } else {
                CreateQueueRequest createQueueRequest = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .build();

                sqsClient.createQueue(createQueueRequest);
                System.out.println("\nGet queue url");
                GetQueueUrlResponse getQueueUrlResponse = sqsClient
                    .getQueueUrl(GetQueueUrlRequest.builder().queueName(queueName).build());
                return getQueueUrlResponse.queueUrl();
            }

        } catch (SqsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static String createSNSTopic(SnsClient snsClient, String topicName) {
        CreateTopicResponse result;
        try {
            CreateTopicRequest request = CreateTopicRequest.builder()
                .name(topicName)
                .build();

            result = snsClient.createTopic(request);
            return result.topicArn();

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static String createFIFO(SnsClient snsClient, String topicName, String duplication) {
        try {
            // Create a FIFO topic by using the SNS service client.
            Map<String, String> topicAttributes = new HashMap<>();
            if (duplication.compareTo("n") == 0) {
                topicAttributes.put("FifoTopic", "true");
                topicAttributes.put("ContentBasedDeduplication", "false");
            } else {
                topicAttributes.put("FifoTopic", "true");
                topicAttributes.put("ContentBasedDeduplication", "true");
            }

            CreateTopicRequest topicRequest = CreateTopicRequest.builder()
                .name(topicName)
                .attributes(topicAttributes)
                .build();

            CreateTopicResponse response = snsClient.createTopic(topicRequest);
            return response.topicArn();

        } catch (SnsException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/CreateQueue)
  + [CreateTopic](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/CreateTopic)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteQueue)
  + [DeleteTopic](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/DeleteTopic)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/GetQueueAttributes)
  + [Publikasikan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Publish)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ReceiveMessage)
  + [SetQueueAttributes](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SetQueueAttributes)
  + [Berlangganan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Subscribe)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/goto/SdkForJavaV2/sns-2010-03-31/Unsubscribe)

### Mengirim dan menerima batch pesan
<a name="sqs_Scenario_SendReceiveBatch_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat antrean Amazon SQS.
+ Kirim batch pesan ke antrian.
+ Menerima kumpulan pesan dari antrian.
+ Hapus kumpulan pesan dari antrian.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 
Seperti yang ditunjukkan dalam contoh berikut, Anda dapat menangani operasi pesan batch dengan Amazon SQS menggunakan dua pendekatan berbeda dengan: AWS SDK for Java 2.x  
**SendRecvBatch.java** menggunakan operasi batch eksplisit. Anda secara manual membuat batch pesan dan menelepon `sendMessageBatch()` dan `deleteMessageBatch()` langsung. Anda juga menangani tanggapan batch, termasuk pesan yang gagal. Pendekatan ini memberi Anda kontrol penuh atas ukuran batch dan penanganan kesalahan. Namun, diperlukan lebih banyak kode untuk mengelola logika batching.  
**SimpleProducerConsumer.java** menggunakan `SqsAsyncBatchManager` pustaka tingkat tinggi untuk batching permintaan otomatis. Anda membuat individu `sendMessage()` dan `deleteMessage()` panggilan dengan tanda tangan metode yang sama dengan klien standar. SDK secara otomatis menyangga panggilan ini dan mengirimkannya sebagai operasi batch. Pendekatan ini membutuhkan perubahan kode minimal sambil memberikan manfaat kinerja batching.  
Gunakan batching eksplisit saat Anda membutuhkan kontrol halus atas komposisi batch dan penanganan kesalahan. Gunakan batching otomatis saat Anda ingin mengoptimalkan kinerja dengan perubahan kode minimal.  
SendRecvBatch.java - Menggunakan operasi batch eksplisit dengan pesan.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.BatchResultErrorEntry;
import software.amazon.awssdk.services.sqs.model.CreateQueueRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageBatchRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageBatchRequestEntry;
import software.amazon.awssdk.services.sqs.model.DeleteMessageBatchResponse;
import software.amazon.awssdk.services.sqs.model.DeleteMessageBatchResultEntry;
import software.amazon.awssdk.services.sqs.model.DeleteQueueRequest;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.MessageAttributeValue;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.SendMessageBatchRequest;
import software.amazon.awssdk.services.sqs.model.SendMessageBatchRequestEntry;
import software.amazon.awssdk.services.sqs.model.SendMessageBatchResponse;
import software.amazon.awssdk.services.sqs.model.SendMessageBatchResultEntry;
import software.amazon.awssdk.services.sqs.model.SqsException;

import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;


/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

/**
 * This code demonstrates basic message operations in Amazon Simple Queue Service (Amazon SQS).
 */

public class SendRecvBatch {
    private static final Logger LOGGER = LoggerFactory.getLogger(SendRecvBatch.class);
    private static final SqsClient sqsClient = SqsClient.create();


    public static void main(String[] args) {
        usageDemo();
    }
    /**
     * Send a batch of messages in a single request to an SQS queue.
     * This request may return overall success even when some messages were not sent.
     * The caller must inspect the Successful and Failed lists in the response and
     * resend any failed messages.
     *
     * @param queueUrl  The URL of the queue to receive the messages.
     * @param messages  The messages to send to the queue. Each message contains a body and attributes.
     * @return The response from SQS that contains the list of successful and failed messages.
     */
    public static SendMessageBatchResponse sendMessages(
            String queueUrl, List<MessageEntry> messages) {

        try {
            List<SendMessageBatchRequestEntry> entries = new ArrayList<>();

            for (int i = 0; i < messages.size(); i++) {
                MessageEntry message = messages.get(i);
                entries.add(SendMessageBatchRequestEntry.builder()
                        .id(String.valueOf(i))
                        .messageBody(message.getBody())
                        .messageAttributes(message.getAttributes())
                        .build());
            }

            SendMessageBatchRequest sendBatchRequest = SendMessageBatchRequest.builder()
                    .queueUrl(queueUrl)
                    .entries(entries)
                    .build();

            SendMessageBatchResponse response = sqsClient.sendMessageBatch(sendBatchRequest);

            if (!response.successful().isEmpty()) {
                for (SendMessageBatchResultEntry resultEntry : response.successful()) {
                    LOGGER.info("Message sent: {}: {}", resultEntry.messageId(),
                            messages.get(Integer.parseInt(resultEntry.id())).getBody());
                }
            }

            if (!response.failed().isEmpty()) {
                for (BatchResultErrorEntry errorEntry : response.failed()) {
                    LOGGER.warn("Failed to send: {}: {}", errorEntry.id(),
                            messages.get(Integer.parseInt(errorEntry.id())).getBody());
                }
            }

            return response;

        } catch (SqsException e) {
            LOGGER.error("Send messages failed to queue: {}", queueUrl, e);
            throw e;
        }
    }

    /**
     * Receive a batch of messages in a single request from an SQS queue.
     *
     * @param queueUrl   The URL of the queue from which to receive messages.
     * @param maxNumber  The maximum number of messages to receive (capped at 10 by SQS).
     *                   The actual number of messages received might be less.
     * @param waitTime   The maximum time to wait (in seconds) before returning. When
     *                   this number is greater than zero, long polling is used. This
     *                   can result in reduced costs and fewer false empty responses.
     * @return The list of Message objects received. These each contain the body
     *         of the message and metadata and custom attributes.
     */
    public static List<Message> receiveMessages(String queueUrl, int maxNumber, int waitTime) {
        try {
            ReceiveMessageRequest receiveRequest = ReceiveMessageRequest.builder()
                    .queueUrl(queueUrl)
                    .maxNumberOfMessages(maxNumber)
                    .waitTimeSeconds(waitTime)
                    .messageAttributeNames("All")
                    .build();

            List<Message> messages = sqsClient.receiveMessage(receiveRequest).messages();

            for (Message message : messages) {
                LOGGER.info("Received message: {}: {}", message.messageId(), message.body());
            }

            return messages;

        } catch (SqsException e) {
            LOGGER.error("Couldn't receive messages from queue: {}", queueUrl, e);
            throw e;
        }
    }

    /**
     * Delete a batch of messages from a queue in a single request.
     *
     * @param queueUrl  The URL of the queue from which to delete the messages.
     * @param messages  The list of messages to delete.
     * @return The response from SQS that contains the list of successful and failed
     *         message deletions.
     */
    public static DeleteMessageBatchResponse deleteMessages(String queueUrl, List<Message> messages) {
        try {
            List<DeleteMessageBatchRequestEntry> entries = new ArrayList<>();

            for (int i = 0; i < messages.size(); i++) {
                entries.add(DeleteMessageBatchRequestEntry.builder()
                        .id(String.valueOf(i))
                        .receiptHandle(messages.get(i).receiptHandle())
                        .build());
            }

            DeleteMessageBatchRequest deleteRequest = DeleteMessageBatchRequest.builder()
                    .queueUrl(queueUrl)
                    .entries(entries)
                    .build();

            DeleteMessageBatchResponse response = sqsClient.deleteMessageBatch(deleteRequest);

            if (!response.successful().isEmpty()) {
                for (DeleteMessageBatchResultEntry resultEntry : response.successful()) {
                    LOGGER.info("Deleted {}", messages.get(Integer.parseInt(resultEntry.id())).receiptHandle());
                }
            }

            if (!response.failed().isEmpty()) {
                for (BatchResultErrorEntry errorEntry : response.failed()) {
                    LOGGER.warn("Could not delete {}", messages.get(Integer.parseInt(errorEntry.id())).receiptHandle());
                }
            }

            return response;

        } catch (SqsException e) {
            LOGGER.error("Couldn't delete messages from queue {}", queueUrl, e);
            throw e;
        }
    }

    /**
     * Helper class to represent a message with body and attributes.
     */
    public static class MessageEntry {
        private final String body;
        private final Map<String, MessageAttributeValue> attributes;

        public MessageEntry(String body, Map<String, MessageAttributeValue> attributes) {
            this.body = body;
            this.attributes = attributes != null ? attributes : new HashMap<>();
        }

        public String getBody() {
            return body;
        }

        public Map<String, MessageAttributeValue> getAttributes() {
            return attributes;
        }
    }

    /**
     * Shows how to:
     * * Read the lines from a file and send the lines in
     *   batches of 10 as messages to a queue.
     * * Receive the messages in batches until the queue is empty.
     * * Reassemble the lines of the file and verify they match the original file.
     */
    public static void usageDemo() {
        LOGGER.info("-".repeat(88));
        LOGGER.info("Welcome to the Amazon Simple Queue Service (Amazon SQS) demo!");
        LOGGER.info("-".repeat(88));

        String queueUrl = null;
        try {
            // Create a queue for the demo.
            String queueName = "sqs-usage-demo-message-wrapper-" + System.currentTimeMillis();
            CreateQueueRequest createRequest = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .build();
            queueUrl = sqsClient.createQueue(createRequest).queueUrl();
            LOGGER.info("Created queue: {}", queueUrl);

            try (InputStream inputStream = SendRecvBatch.class.getResourceAsStream("/log4j2.xml");
                 BufferedReader reader = new BufferedReader(new InputStreamReader(inputStream))) {
                
                List<String> lines = reader.lines().toList();

                // Send file lines in batches.
                int batchSize = 10;
                LOGGER.info("Sending file lines in batches of {} as messages.", batchSize);

                for (int i = 0; i < lines.size(); i += batchSize) {
                    List<MessageEntry> messageBatch = new ArrayList<>();

                    for (int j = i; j < Math.min(i + batchSize, lines.size()); j++) {
                        String line = lines.get(j);
                        if (line == null || line.trim().isEmpty()) {
                            continue; // Skip empty lines.
                        }

                        Map<String, MessageAttributeValue> attributes = new HashMap<>();
                        attributes.put("line", MessageAttributeValue.builder()
                                .dataType("String")
                                .stringValue(String.valueOf(j))
                                .build());

                        messageBatch.add(new MessageEntry(lines.get(j), attributes));
                    }

                    sendMessages(queueUrl, messageBatch);
                    System.out.print(".");
                    System.out.flush();
                }

                LOGGER.info("\nDone. Sent {} messages.", lines.size());

                // Receive and process messages.
                LOGGER.info("Receiving, handling, and deleting messages in batches of {}.", batchSize);
                String[] receivedLines = new String[lines.size()];
                boolean moreMessages = true;

                while (moreMessages) {
                    List<Message> receivedMessages = receiveMessages(queueUrl, batchSize, 5);

                    for (Message message : receivedMessages) {
                        int lineNumber = Integer.parseInt(message.messageAttributes().get("line").stringValue());
                        receivedLines[lineNumber] = message.body();
                    }

                    if (!receivedMessages.isEmpty()) {
                        deleteMessages(queueUrl, receivedMessages);
                    } else {
                        moreMessages = false;
                    }
                }

                LOGGER.info("\nDone.");

                // Verify that all lines were received correctly.
                boolean allLinesMatch = true;
                for (int i = 0; i < lines.size(); i++) {
                    String originalLine = lines.get(i);
                    String receivedLine = receivedLines[i] == null ? "" : receivedLines[i];

                    if (!originalLine.equals(receivedLine)) {
                        allLinesMatch = false;
                        break;
                    }
                }

                if (allLinesMatch) {
                    LOGGER.info("Successfully reassembled all file lines!");
                } else {
                    LOGGER.info("Uh oh, some lines were missed!");
                }
            }
        } catch (SqsException e) {
            LOGGER.error("SQS operation failed", e);
        } catch (RuntimeException | IOException e) {
            LOGGER.error("Unexpected runtime error during demo", e);
        } finally {
            // Clean up by deleting the queue if it was created.
            if (queueUrl != null) {
                try {
                    DeleteQueueRequest deleteQueueRequest = DeleteQueueRequest.builder()
                            .queueUrl(queueUrl)
                            .build();
                    sqsClient.deleteQueue(deleteQueueRequest);
                    LOGGER.info("Deleted queue: {}", queueUrl);
                } catch (SqsException e) {
                    LOGGER.error("Failed to delete queue: {}", queueUrl, e);
                }
            }
        }

        LOGGER.info("Thanks for watching!");
        LOGGER.info("-".repeat(88));
    }
 }
```
SimpleProducerConsumer.java - Menggunakan batching otomatis pesan.  

```
package com.example.sqs;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.sqs.SqsAsyncClient;
import software.amazon.awssdk.services.sqs.batchmanager.SqsAsyncBatchManager;
import software.amazon.awssdk.services.sqs.model.DeleteMessageRequest;
import software.amazon.awssdk.services.sqs.model.DeleteMessageResponse;
import software.amazon.awssdk.services.sqs.model.GetQueueUrlRequest;
import software.amazon.awssdk.services.sqs.model.Message;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageRequest;
import software.amazon.awssdk.services.sqs.model.ReceiveMessageResponse;
import software.amazon.awssdk.services.sqs.model.SendMessageRequest;
import software.amazon.awssdk.services.sqs.model.SendMessageResponse;
import software.amazon.awssdk.core.exception.SdkException;

import java.math.BigInteger;
import java.util.List;
import java.util.Random;
import java.util.Scanner;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;

/**
 * Demonstrates the AWS SDK for Java 2.x Automatic Request Batching API for Amazon SQS.
 * 
 * This example showcases the high-level SqsAsyncBatchManager library that provides
 * efficient batching and buffering for SQS operations. The batch manager offers
 * methods that directly mirror SqsAsyncClient methods—sendMessage, changeMessageVisibility,
 * deleteMessage, and receiveMessage—making it a drop-in replacement with minimal code changes.
 * 
 * Key features of the SqsAsyncBatchManager:
 * - Automatic batching: The SDK automatically buffers individual requests and sends them
 *   as batches when maxBatchSize (default: 10) or sendRequestFrequency (default: 200ms) 
 *   thresholds are reached
 * - Familiar API: Method signatures match SqsAsyncClient exactly, requiring no learning curve
 * - Background optimization: The batch manager maintains internal buffers and handles
 *   batching logic transparently
 * - Asynchronous operations: All methods return CompletableFuture for non-blocking execution
 * 
 * Performance benefits demonstrated:
 * - Reduced API calls: Multiple individual requests are consolidated into single batch operations
 * - Lower costs: Fewer API calls result in reduced SQS charges
 * - Higher throughput: Batch operations process more messages per second
 * - Efficient resource utilization: Fewer network round trips and better connection reuse
 * 
 * This example compares:
 * 1. Single-message operations using SqsAsyncClient directly
 * 2. Batch operations using SqsAsyncBatchManager with identical method calls
 * 
 * Usage patterns:
 * - Set batch size to 1 to use SqsAsyncClient for baseline performance measurement
 * - Set batch size > 1 to use SqsAsyncBatchManager for optimized batch processing
 * - Monitor real-time throughput metrics to observe performance improvements
 * 
 * Prerequisites:
 * - AWS SDK for Java 2.x version 2.28.0 or later
 * - An existing SQS queue
 * - Valid AWS credentials configured
 * 
 * The program displays real-time metrics showing the dramatic performance difference
 * between individual operations and automatic batching.
 */
public class SimpleProducerConsumer {

    // The maximum runtime of the program.
    private final static int MAX_RUNTIME_MINUTES = 60;
    private final static Logger log = LoggerFactory.getLogger(SimpleProducerConsumer.class);

    /**
     * Runs the SQS batching demonstration with user-configured parameters.
     * 
     * Prompts for queue name, thread counts, batch size, message size, and runtime.
     * Creates producer and consumer threads to demonstrate batching performance.
     * 
     * @param args command line arguments (not used)
     * @throws InterruptedException if thread operations are interrupted
     */
    public static void main(String[] args) throws InterruptedException {

        final Scanner input = new Scanner(System.in);

        System.out.print("Enter the queue name: ");
        final String queueName = input.nextLine();

        System.out.print("Enter the number of producers: ");
        final int producerCount = input.nextInt();

        System.out.print("Enter the number of consumers: ");
        final int consumerCount = input.nextInt();

        System.out.print("Enter the number of messages per batch: ");
        final int batchSize = input.nextInt();

        System.out.print("Enter the message size in bytes: ");
        final int messageSizeByte = input.nextInt();

        System.out.print("Enter the run time in minutes: ");
        final int runTimeMinutes = input.nextInt();

        // Create SQS async client and batch manager for all operations.
        // The SqsAsyncBatchManager is created from the SqsAsyncClient using the
        // batchManager() factory method, which provides default batching configuration.
        // This high-level library automatically handles request buffering and batching
        // while maintaining the same method signatures as SqsAsyncClient.
        final SqsAsyncClient sqsAsyncClient = SqsAsyncClient.create();
        final SqsAsyncBatchManager batchManager = sqsAsyncClient.batchManager();

        final String queueUrl = sqsAsyncClient.getQueueUrl(GetQueueUrlRequest.builder()
                .queueName(queueName)
                .build()).join().queueUrl();

        // The flag used to stop producer, consumer, and monitor threads.
        final AtomicBoolean stop = new AtomicBoolean(false);

        // Start the producers.
        final AtomicInteger producedCount = new AtomicInteger();
        final Thread[] producers = new Thread[producerCount];
        for (int i = 0; i < producerCount; i++) {
            if (batchSize == 1) {
                producers[i] = new Producer(sqsAsyncClient, queueUrl, messageSizeByte,
                        producedCount, stop);
            } else {
                producers[i] = new BatchProducer(batchManager, queueUrl, batchSize,
                        messageSizeByte, producedCount, stop);
            }
            producers[i].start();
        }

        // Start the consumers.
        final AtomicInteger consumedCount = new AtomicInteger();
        final Thread[] consumers = new Thread[consumerCount];
        for (int i = 0; i < consumerCount; i++) {
            if (batchSize == 1) {
                consumers[i] = new Consumer(sqsAsyncClient, queueUrl, consumedCount, stop);
            } else {
                consumers[i] = new BatchConsumer(batchManager, queueUrl, batchSize,
                        consumedCount, stop);
            }
            consumers[i].start();
        }

        // Start the monitor thread.
        final Thread monitor = new Monitor(producedCount, consumedCount, stop);
        monitor.start();

        // Wait for the specified amount of time then stop.
        Thread.sleep(TimeUnit.MINUTES.toMillis(Math.min(runTimeMinutes,
                MAX_RUNTIME_MINUTES)));
        stop.set(true);

        // Join all threads.
        for (int i = 0; i < producerCount; i++) {
            producers[i].join();
        }

        for (int i = 0; i < consumerCount; i++) {
            consumers[i].join();
        }

        monitor.interrupt();
        monitor.join();

        // Close resources
        batchManager.close();
        sqsAsyncClient.close();
    }

    /**
     * Creates a random string of approximately the specified size in bytes.
     * 
     * @param sizeByte the target size in bytes for the generated string
     * @return a random string encoded in base-32
     */
    private static String makeRandomString(int sizeByte) {
        final byte[] bs = new byte[(int) Math.ceil(sizeByte * 5 / 8)];
        new Random().nextBytes(bs);
        bs[0] = (byte) ((bs[0] | 64) & 127);
        return new BigInteger(bs).toString(32);
    }

    /**
     * Sends messages individually using SqsAsyncClient for baseline performance measurement.
     * 
     * This producer demonstrates traditional single-message operations without batching.
     * Each sendMessage() call results in a separate API request to SQS, providing
     * a performance baseline for comparison with the batch operations.
     * 
     * The sendMessage() method signature is identical to SqsAsyncBatchManager.sendMessage(),
     * showing how the high-level batching library maintains API compatibility while
     * adding automatic optimization behind the scenes.
     */
    private static class Producer extends Thread {
        final SqsAsyncClient sqsAsyncClient;
        final String queueUrl;
        final AtomicInteger producedCount;
        final AtomicBoolean stop;
        final String theMessage;

        /**
         * Creates a producer thread for single-message operations.
         * 
         * @param sqsAsyncClient the SQS client for sending messages
         * @param queueUrl the URL of the target queue
         * @param messageSizeByte the size of messages to generate
         * @param producedCount shared counter for tracking sent messages
         * @param stop shared flag to signal thread termination
         */
        Producer(SqsAsyncClient sqsAsyncClient, String queueUrl, int messageSizeByte,
                 AtomicInteger producedCount, AtomicBoolean stop) {
            this.sqsAsyncClient = sqsAsyncClient;
            this.queueUrl = queueUrl;
            this.producedCount = producedCount;
            this.stop = stop;
            this.theMessage = makeRandomString(messageSizeByte);
        }

        /**
         * Continuously sends messages until the stop flag is set.
         * 
         * Uses SqsAsyncClient.sendMessage() directly, resulting in one API call per message.
         * This approach provides baseline performance metrics for comparison with batching.
         * Each call blocks until the individual message is sent, demonstrating traditional
         * one-request-per-operation behavior.
         */
        public void run() {
            try {
                while (!stop.get()) {
                    sqsAsyncClient.sendMessage(SendMessageRequest.builder()
                            .queueUrl(queueUrl)
                            .messageBody(theMessage)
                            .build()).join();
                    producedCount.incrementAndGet();
                }
            } catch (SdkException | java.util.concurrent.CompletionException e) {
                // Handle both SdkException and CompletionException from async operations.
                // If this unlikely condition occurs, stop.
                log.error("Producer: " + e.getMessage());
                System.exit(1);
            }
        }
    }

    /**
     * Sends messages using SqsAsyncBatchManager for automatic request batching and optimization.
     * 
     * This producer demonstrates the AWS SDK for Java 2.x high-level batching library.
     * The SqsAsyncBatchManager automatically buffers individual sendMessage() calls and
     * sends them as batches when thresholds are reached:
     * - maxBatchSize: Maximum 10 messages per batch (default)
     * - sendRequestFrequency: 200ms timeout before sending partial batches (default)
     * 
     * Key advantages of the batching approach:
     * - Identical API: batchManager.sendMessage() has the same signature as sqsAsyncClient.sendMessage()
     * - Automatic optimization: No code changes needed to benefit from batching
     * - Transparent buffering: The SDK handles batching logic internally
     * - Reduced API calls: Multiple messages sent in single batch requests
     * - Lower costs: Fewer API calls result in reduced SQS charges
     * - Higher throughput: Batch operations process significantly more messages per second
     */
    private static class BatchProducer extends Thread {
        final SqsAsyncBatchManager batchManager;
        final String queueUrl;
        final int batchSize;
        final AtomicInteger producedCount;
        final AtomicBoolean stop;
        final String theMessage;

        /**
         * Creates a producer thread for batch operations.
         * 
         * @param batchManager the batch manager for efficient message sending
         * @param queueUrl the URL of the target queue
         * @param batchSize the number of messages to send per batch
         * @param messageSizeByte the size of messages to generate
         * @param producedCount shared counter for tracking sent messages
         * @param stop shared flag to signal thread termination
         */
        BatchProducer(SqsAsyncBatchManager batchManager, String queueUrl, int batchSize,
                      int messageSizeByte, AtomicInteger producedCount,
                      AtomicBoolean stop) {
            this.batchManager = batchManager;
            this.queueUrl = queueUrl;
            this.batchSize = batchSize;
            this.producedCount = producedCount;
            this.stop = stop;
            this.theMessage = makeRandomString(messageSizeByte);
        }

        /**
         * Continuously sends batches of messages using the high-level batching library.
         * 
         * Notice how batchManager.sendMessage() uses the exact same method signature
         * and request builder pattern as SqsAsyncClient.sendMessage(). This demonstrates
         * the drop-in replacement capability of the SqsAsyncBatchManager.
         * 
         * The SDK automatically:
         * - Buffers individual sendMessage() calls internally
         * - Groups them into batch requests when thresholds are met
         * - Sends SendMessageBatchRequest operations to SQS
         * - Returns individual CompletableFuture responses for each message
         * 
         * This transparent batching provides significant performance improvements
         * without requiring changes to application logic or error handling patterns.
         */
        public void run() {
            try {
                while (!stop.get()) {
                    // Send multiple messages using the high-level batch manager.
                    // Each batchManager.sendMessage() call uses identical syntax to
                    // sqsAsyncClient.sendMessage(), demonstrating API compatibility.
                    // The SDK automatically buffers these calls and sends them as
                    // batch operations when maxBatchSize (10) or sendRequestFrequency (200ms)
                    // thresholds are reached, significantly improving throughput.
                    for (int i = 0; i < batchSize; i++) {
                        CompletableFuture<SendMessageResponse> future = batchManager.sendMessage(
                                SendMessageRequest.builder()
                                        .queueUrl(queueUrl)
                                        .messageBody(theMessage)
                                        .build());
                        
                        // Handle the response asynchronously
                        future.whenComplete((response, throwable) -> {
                            if (throwable == null) {
                                producedCount.incrementAndGet();
                            } else if (!(throwable instanceof java.util.concurrent.CancellationException) &&
                                      !(throwable.getMessage() != null && throwable.getMessage().contains("executor not accepting a task"))) {
                                log.error("BatchProducer: Failed to send message", throwable);
                            }
                            // Ignore CancellationException and executor shutdown errors - expected during shutdown
                        });
                    }
                    
                    // Small delay to allow batching to occur
                    Thread.sleep(10);
                }
            } catch (InterruptedException e) {
                Thread.currentThread().interrupt();
                log.error("BatchProducer interrupted: " + e.getMessage());
            } catch (SdkException | java.util.concurrent.CompletionException e) {
                log.error("BatchProducer: " + e.getMessage());
                System.exit(1);
            }
        }
    }

    /**
     * Receives and deletes messages individually using SqsAsyncClient for baseline measurement.
     * 
     * This consumer demonstrates traditional single-message operations without batching.
     * Each receiveMessage() and deleteMessage() call results in separate API requests,
     * providing a performance baseline for comparison with batch operations.
     * 
     * The method signatures are identical to SqsAsyncBatchManager methods:
     * - receiveMessage() matches batchManager.receiveMessage()
     * - deleteMessage() matches batchManager.deleteMessage()
     * 
     * This API consistency allows easy migration to the high-level batching library.
     */
    private static class Consumer extends Thread {
        final SqsAsyncClient sqsAsyncClient;
        final String queueUrl;
        final AtomicInteger consumedCount;
        final AtomicBoolean stop;

        /**
         * Creates a consumer thread for single-message operations.
         * 
         * @param sqsAsyncClient the SQS client for receiving messages
         * @param queueUrl the URL of the source queue
         * @param consumedCount shared counter for tracking processed messages
         * @param stop shared flag to signal thread termination
         */
        Consumer(SqsAsyncClient sqsAsyncClient, String queueUrl, AtomicInteger consumedCount,
                 AtomicBoolean stop) {
            this.sqsAsyncClient = sqsAsyncClient;
            this.queueUrl = queueUrl;
            this.consumedCount = consumedCount;
            this.stop = stop;
        }

        /**
         * Continuously receives and deletes messages using traditional single-request operations.
         * 
         * Uses SqsAsyncClient methods directly:
         * - receiveMessage(): One API call per receive operation
         * - deleteMessage(): One API call per delete operation
         * 
         * This approach demonstrates the baseline performance without batching optimization.
         * Compare these method calls with the identical signatures used in BatchConsumer
         * to see how the high-level batching library maintains API compatibility.
         */
        public void run() {
            try {
                while (!stop.get()) {
                    try {
                        final ReceiveMessageResponse result = sqsAsyncClient.receiveMessage(
                                ReceiveMessageRequest.builder()
                                        .queueUrl(queueUrl)
                                        .build()).join();

                        if (!result.messages().isEmpty()) {
                            final Message m = result.messages().get(0);
                            // Note: deleteMessage() signature identical to batchManager.deleteMessage()
                            sqsAsyncClient.deleteMessage(DeleteMessageRequest.builder()
                                    .queueUrl(queueUrl)
                                    .receiptHandle(m.receiptHandle())
                                    .build()).join();
                            consumedCount.incrementAndGet();
                        }
                    } catch (SdkException | java.util.concurrent.CompletionException e) {
                        log.error(e.getMessage());
                    }
                }
            } catch (SdkException | java.util.concurrent.CompletionException e) {
                // Handle both SdkException and CompletionException from async operations.
                // If this unlikely condition occurs, stop.
                log.error("Consumer: " + e.getMessage());
                System.exit(1);
            }
        }
    }

    /**
     * Receives and deletes messages using SqsAsyncBatchManager for automatic optimization.
     * 
     * This consumer demonstrates the AWS SDK for Java 2.x high-level batching library
     * for message consumption. The SqsAsyncBatchManager provides two key optimizations:
     * 
     * 1. Receive optimization: Maintains an internal buffer of messages fetched in the
     *    background, so receiveMessage() calls return immediately from the buffer
     * 2. Delete batching: Automatically buffers deleteMessage() calls and sends them
     *    as DeleteMessageBatchRequest operations when thresholds are reached
     * 
     * Key features:
     * - Identical API: receiveMessage() and deleteMessage() have the same signatures
     *   as SqsAsyncClient methods, making this a true drop-in replacement
     * - Background fetching: The batch manager continuously fetches messages to keep
     *   the internal buffer populated, reducing receive latency
     * - Automatic delete batching: Individual deleteMessage() calls are buffered and
     *   sent as batch operations (up to 10 per batch, 200ms frequency)
     * - Transparent optimization: No application logic changes needed to benefit
     * 
     * Performance benefits:
     * - Reduced API calls through automatic batching of delete operations
     * - Lower latency for receives due to background message buffering
     * - Higher overall throughput with fewer network round trips
     */
    private static class BatchConsumer extends Thread {
        final SqsAsyncBatchManager batchManager;
        final String queueUrl;
        final int batchSize;
        final AtomicInteger consumedCount;
        final AtomicBoolean stop;

        /**
         * Creates a consumer thread for batch operations.
         * 
         * @param batchManager the batch manager for efficient message processing
         * @param queueUrl the URL of the source queue
         * @param batchSize the maximum number of messages to receive per batch
         * @param consumedCount shared counter for tracking processed messages
         * @param stop shared flag to signal thread termination
         */
        BatchConsumer(SqsAsyncBatchManager batchManager, String queueUrl, int batchSize,
                      AtomicInteger consumedCount, AtomicBoolean stop) {
            this.batchManager = batchManager;
            this.queueUrl = queueUrl;
            this.batchSize = batchSize;
            this.consumedCount = consumedCount;
            this.stop = stop;
        }

        /**
         * Continuously receives and deletes messages using the high-level batching library.
         * 
         * Demonstrates the key advantage of SqsAsyncBatchManager: identical method signatures
         * with automatic optimization. Notice how:
         * 
         * - batchManager.receiveMessage() uses the same syntax as sqsAsyncClient.receiveMessage()
         * - batchManager.deleteMessage() uses the same syntax as sqsAsyncClient.deleteMessage()
         * 
         * Behind the scenes, the batch manager:
         * 1. Maintains an internal message buffer populated by background fetching
         * 2. Returns messages immediately from the buffer (reduced latency)
         * 3. Automatically batches deleteMessage() calls into DeleteMessageBatchRequest operations
         * 4. Sends batch deletes when maxBatchSize (10) or sendRequestFrequency (200ms) is reached
         * 
         * This provides significant performance improvements with zero code changes
         * compared to traditional SqsAsyncClient usage patterns.
         */
        public void run() {
            try {
                while (!stop.get()) {
                    // Receive messages using the high-level batch manager.
                    // This call uses identical syntax to sqsAsyncClient.receiveMessage()
                    // but benefits from internal message buffering for improved performance.
                    final ReceiveMessageResponse result = batchManager.receiveMessage(
                            ReceiveMessageRequest.builder()
                                    .queueUrl(queueUrl)
                                    .maxNumberOfMessages(Math.min(batchSize, 10))
                                    .build()).join();

                    if (!result.messages().isEmpty()) {
                        final List<Message> messages = result.messages();
                        
                        // Delete messages using the batch manager.
                        // Each deleteMessage() call uses identical syntax to SqsAsyncClient
                        // but the SDK automatically buffers these calls and sends them
                        // as DeleteMessageBatchRequest operations for optimal performance.
                        for (Message message : messages) {
                            CompletableFuture<DeleteMessageResponse> future = batchManager.deleteMessage(
                                    DeleteMessageRequest.builder()
                                            .queueUrl(queueUrl)
                                            .receiptHandle(message.receiptHandle())
                                            .build());
                            
                            future.whenComplete((response, throwable) -> {
                                if (throwable == null) {
                                    consumedCount.incrementAndGet();
                                } else if (!(throwable instanceof java.util.concurrent.CancellationException) &&
                                          !(throwable.getMessage() != null && throwable.getMessage().contains("executor not accepting a task"))) {
                                    log.error("BatchConsumer: Failed to delete message", throwable);
                                }
                                // Ignore CancellationException and executor shutdown errors - expected during shutdown
                            });
                        }
                    }
                    
                    // Small delay to prevent tight polling
                    Thread.sleep(10);
                }
            } catch (InterruptedException e) {
                Thread.currentThread().interrupt();
                log.error("BatchConsumer interrupted: " + e.getMessage());
            } catch (SdkException | java.util.concurrent.CompletionException e) {
                // Handle both SdkException and CompletionException from async operations.
                // If this unlikely condition occurs, stop.
                log.error("BatchConsumer: " + e.getMessage());
                System.exit(1);
            }
        }
    }

    /**
     * Displays real-time throughput statistics every second.
     * 
     * This thread logs the current count of produced and consumed messages
     * to help you monitor the performance comparison.
     */
    private static class Monitor extends Thread {
        private final AtomicInteger producedCount;
        private final AtomicInteger consumedCount;
        private final AtomicBoolean stop;

        /**
         * Creates a monitoring thread that displays throughput statistics.
         * 
         * @param producedCount shared counter for messages sent
         * @param consumedCount shared counter for messages processed
         * @param stop shared flag to signal thread termination
         */
        Monitor(AtomicInteger producedCount, AtomicInteger consumedCount,
                AtomicBoolean stop) {
            this.producedCount = producedCount;
            this.consumedCount = consumedCount;
            this.stop = stop;
        }

        /**
         * Logs throughput statistics every second until stopped.
         * 
         * Displays the current count of produced and consumed messages
         * to help monitor the performance comparison between batching strategies.
         */
        public void run() {
            try {
                while (!stop.get()) {
                    Thread.sleep(1000);
                    log.info("produced messages = " + producedCount.get()
                            + ", consumed messages = " + consumedCount.get());
                }
            } catch (InterruptedException e) {
                // Allow the thread to exit.
            }
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/CreateQueue)
  + [DeleteMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteMessage)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteQueue)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ReceiveMessage)
  + [SendMessage](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SendMessage)
  + [SendMessageBatch](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/SendMessageBatch)

### Gunakan Amazon SQS Java Messaging Library untuk bekerja dengan antarmuka JMS
<a name="sqs_Scenario_UseJMS_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Amazon SQS Java Messaging Library untuk bekerja dengan antarmuka JMS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 
Contoh berikut bekerja dengan antrian Amazon SQS standar dan termasuk:  
+ Mengirim pesan teks.
+ Menerima pesan secara sinkron.
+ Menerima pesan secara asinkron.
+ Menerima pesan menggunakan mode CLIENT\$1ACCOGNEWNED.
+ Menerima pesan menggunakan mode UNORDERED\$1ACCOGNEWNED.
+ Menggunakan Spring untuk menyuntikkan dependensi.
+ Kelas utilitas yang menyediakan metode umum yang digunakan oleh contoh lain.
Untuk informasi selengkapnya tentang penggunaan JMS dengan Amazon SQS, lihat Panduan Pengembang [Amazon SQS](https://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/sqs-java-message-service-jms-client.html).   
Mengirim pesan teks.  

```
    /**
     * This method establishes a connection to a standard Amazon SQS queue using the Amazon SQS
     * Java Messaging Library and sends text messages to it. It uses JMS (Java Message Service) API
     * with automatic acknowledgment mode to ensure reliable message delivery, and automatically
     * manages all messaging resources.
     *
     * @throws JMSException If there is a problem connecting to or sending messages to the queue
     */
    public static void doSendTextMessage() throws JMSException {
        // Create a connection factory.
        SQSConnectionFactory connectionFactory = new SQSConnectionFactory(
                new ProviderConfiguration(),
                SqsClient.create()
        );

        // Create the connection in a try-with-resources statement so that it's closed automatically.
        try (SQSConnection connection = connectionFactory.createConnection()) {

            // Create the queue if needed.
            SqsJmsExampleUtils.ensureQueueExists(connection, QUEUE_NAME, SqsJmsExampleUtils.QUEUE_VISIBILITY_TIMEOUT);

            // Create a session that uses the JMS auto-acknowledge mode.
            Session session = connection.createSession(false, Session.AUTO_ACKNOWLEDGE);
            MessageProducer producer = session.createProducer(session.createQueue(QUEUE_NAME));

            createAndSendMessages(session, producer);
        } // The connection closes automatically. This also closes the session.
        LOGGER.info("Connection closed");
    }

    /**
     * This method reads text input from the keyboard and sends each line as a separate message
     * to a standard Amazon SQS queue using the Amazon SQS Java Messaging Library. It continues
     * to accept input until the user enters an empty line, using JMS (Java Message Service) API to
     * handle the message delivery.
     *
     * @param session The JMS session used to create messages
     * @param producer The JMS message producer used to send messages to the queue
     */
    private static void createAndSendMessages(Session session, MessageProducer producer) {
        BufferedReader inputReader = new BufferedReader(
                new InputStreamReader(System.in, Charset.defaultCharset()));

        try {
            String input;
            while (true) {
                LOGGER.info("Enter message to send (leave empty to exit): ");
                input = inputReader.readLine();
                if (input == null || input.isEmpty()) break;

                TextMessage message = session.createTextMessage(input);
                producer.send(message);
                LOGGER.info("Send message {}", message.getJMSMessageID());
            }
        } catch (EOFException e) {
            // Just return on EOF
        } catch (IOException e) {
            LOGGER.error("Failed reading input: {}", e.getMessage(), e);
        } catch (JMSException e) {
            LOGGER.error("Failed sending message: {}", e.getMessage(), e);
        }
    }
```
Menerima pesan secara sinkron.  

```
    /**
     * This method receives messages from a standard Amazon SQS queue using the Amazon SQS Java
     * Messaging Library. It creates a connection to the queue using JMS (Java Message Service),
     * waits for messages to arrive, and processes them one at a time. The method handles all
     * necessary setup and cleanup of messaging resources.
     *
     * @throws JMSException If there is a problem connecting to or receiving messages from the queue
     */
    public static void doReceiveMessageSync() throws JMSException {
        // Create a connection factory.
        SQSConnectionFactory connectionFactory = new SQSConnectionFactory(
                new ProviderConfiguration(),
                SqsClient.create()
        );

        // Create a connection.
        try (SQSConnection connection = connectionFactory.createConnection() ) {

            // Create the queue if needed.
            SqsJmsExampleUtils.ensureQueueExists(connection, QUEUE_NAME, SqsJmsExampleUtils.QUEUE_VISIBILITY_TIMEOUT);

            // Create a session.
            Session session = connection.createSession(false, Session.CLIENT_ACKNOWLEDGE);
            MessageConsumer consumer = session.createConsumer(session.createQueue(QUEUE_NAME));

            connection.start();

            receiveMessages(consumer);
        }  // The connection closes automatically. This also closes the session.
        LOGGER.info("Connection closed");
    }

    /**
     * This method continuously checks for new messages from a standard Amazon SQS queue using
     * the Amazon SQS Java Messaging Library. It waits up to 20 seconds for each message, processes
     * it using JMS (Java Message Service), and confirms receipt. The method stops checking for
     * messages after 20 seconds of no activity.
     *
     * @param consumer The JMS message consumer that receives messages from the queue
     */
    private static void receiveMessages(MessageConsumer consumer) {
        try {
            while (true) {
                LOGGER.info("Waiting for messages...");
                // Wait 1 minute for a message
                Message message = consumer.receive(Duration.ofSeconds(20).toMillis());
                if (message == null) {
                    LOGGER.info("Shutting down after 20 seconds of silence.");
                    break;
                }
                SqsJmsExampleUtils.handleMessage(message);
                message.acknowledge();
                LOGGER.info("Acknowledged message {}", message.getJMSMessageID());
            }
        } catch (JMSException e) {
            LOGGER.error("Error receiving from SQS: {}", e.getMessage(), e);
        }
    }
```
Menerima pesan secara asinkron.  

```
    /**
     * This method sets up automatic message handling for a standard Amazon SQS queue using the
     * Amazon SQS Java Messaging Library. It creates a listener that processes messages as soon
     * as they arrive using JMS (Java Message Service), runs for 5 seconds, then cleans up all
     * messaging resources.
     *
     * @throws JMSException If there is a problem connecting to or receiving messages from the queue
     */
    public static void doReceiveMessageAsync() throws JMSException {
        // Create a connection factory.
        SQSConnectionFactory connectionFactory = new SQSConnectionFactory(
                new ProviderConfiguration(),
                SqsClient.create()
        );

        // Create a connection.
        try (SQSConnection connection = connectionFactory.createConnection() ) {

            // Create the queue if needed.
            SqsJmsExampleUtils.ensureQueueExists(connection, QUEUE_NAME, SqsJmsExampleUtils.QUEUE_VISIBILITY_TIMEOUT);

            // Create a session.
            Session session = connection.createSession(false, Session.CLIENT_ACKNOWLEDGE);

            try {
                // Create a consumer for the queue.
                MessageConsumer consumer = session.createConsumer(session.createQueue(QUEUE_NAME));
                // Provide an implementation of the MessageListener interface, which has a single 'onMessage' method.
                // We use a lambda expression for the implementation.
                consumer.setMessageListener(message -> {
                    try {
                        SqsJmsExampleUtils.handleMessage(message);
                        message.acknowledge();
                    } catch (JMSException e) {
                        LOGGER.error("Error processing message: {}", e.getMessage());
                    }
                });
                // Start receiving incoming messages.
                connection.start();
                LOGGER.info("Waiting for messages...");
            } catch (JMSException e) {
                throw new RuntimeException(e);
            }
            try {
                Thread.sleep(5000);
            } catch (InterruptedException e) {
                throw new RuntimeException(e);
            }
        }  // The connection closes automatically. This also closes the session.
        LOGGER.info( "Connection closed" );
    }
```
Menerima pesan menggunakan mode CLIENT\$1ACCOGNEWNED.  

```
    /**
     * This method demonstrates how message acknowledgment affects message processing in a standard
     * Amazon SQS queue using the Amazon SQS Java Messaging Library. It sends messages to the queue,
     * then shows how JMS (Java Message Service) client acknowledgment mode handles both explicit
     * and implicit message confirmations, including how acknowledging one message can automatically
     * acknowledge previous messages.
     *
     * @throws JMSException If there is a problem with the messaging operations
     */
    public static void doReceiveMessagesSyncClientAcknowledge() throws JMSException {
        // Create a connection factory.
        SQSConnectionFactory connectionFactory = new SQSConnectionFactory(
                new ProviderConfiguration(),
                SqsClient.create()
        );

        // Create the connection in a try-with-resources statement so that it's closed automatically.
        try (SQSConnection connection = connectionFactory.createConnection() ) {

            // Create the queue if needed.
            SqsJmsExampleUtils.ensureQueueExists(connection, QUEUE_NAME, TIME_OUT_SECONDS);

            // Create a session with client acknowledge mode.
            Session session = connection.createSession(false, Session.CLIENT_ACKNOWLEDGE);

            // Create a producer and consumer.
            MessageProducer producer = session.createProducer(session.createQueue(QUEUE_NAME));
            MessageConsumer consumer = session.createConsumer(session.createQueue(QUEUE_NAME));

            // Open the connection.
            connection.start();

            // Send two text messages.
            sendMessage(producer, session, "Message 1");
            sendMessage(producer, session, "Message 2");

            // Receive a message and don't acknowledge it.
            receiveMessage(consumer, false);

            // Receive another message and acknowledge it.
            receiveMessage(consumer, true);

            // Wait for the visibility time out, so that unacknowledged messages reappear in the queue,
            LOGGER.info("Waiting for visibility timeout...");
            try {
                Thread.sleep(TIME_OUT_MILLIS);
            } catch (InterruptedException e) {
                LOGGER.error("Interrupted while waiting for visibility timeout", e);
                Thread.currentThread().interrupt();
                throw new RuntimeException("Processing interrupted", e);
            }

            /*  We will attempt to receive another message, but none will be available. This is because in
                CLIENT_ACKNOWLEDGE mode, when we acknowledged the second message, all previous messages were
                automatically acknowledged as well. Therefore, although we never directly acknowledged the first
                message, it was implicitly acknowledged when we confirmed the second one. */
            receiveMessage(consumer, true);
        } // The connection closes automatically. This also closes the session.
        LOGGER.info("Connection closed.");

    }


    /**
     * Sends a text message using the specified JMS MessageProducer and Session.
     *
     * @param producer    The JMS MessageProducer used to send the message
     * @param session     The JMS Session used to create the text message
     * @param messageText The text content to be sent in the message
     * @throws JMSException If there is an error creating or sending the message
     */
    private static void sendMessage(MessageProducer producer, Session session, String messageText) throws JMSException {
        // Create a text message and send it.
        producer.send(session.createTextMessage(messageText));
    }

    /**
     * Receives and processes a message from a JMS queue using the specified consumer.
     * The method waits for a message until the configured timeout period is reached.
     * If a message is received, it is logged and optionally acknowledged based on the
     * acknowledge parameter.
     *
     * @param consumer    The JMS MessageConsumer used to receive messages from the queue
     * @param acknowledge Boolean flag indicating whether to acknowledge the message.
     *                    If true, the message will be acknowledged after processing
     * @throws JMSException If there is an error receiving, processing, or acknowledging the message
     */
    private static void receiveMessage(MessageConsumer consumer, boolean acknowledge) throws JMSException {
        // Receive a message.
        Message message = consumer.receive(TIME_OUT_MILLIS);

        if (message == null) {
            LOGGER.info("Queue is empty!");
        } else {
            // Since this queue has only text messages, cast the message object and print the text.
            LOGGER.info("Received: {}    Acknowledged: {}", ((TextMessage) message).getText(), acknowledge);

            // Acknowledge the message if asked.
            if (acknowledge) message.acknowledge();
        }
    }
```
Menerima pesan menggunakan mode UNORDERED\$1ACCOGNEWNED.  

```
    /**
     * Demonstrates message acknowledgment behavior in UNORDERED_ACKNOWLEDGE mode with Amazon SQS JMS.
     * In this mode, each message must be explicitly acknowledged regardless of receive order.
     * Unacknowledged messages return to the queue after the visibility timeout expires,
     * unlike CLIENT_ACKNOWLEDGE mode where acknowledging one message acknowledges all previous messages.
     *
     * @throws JMSException         If a JMS-related error occurs during message operations
     */
    public static void doReceiveMessagesUnorderedAcknowledge() throws JMSException {
        // Create a connection factory.
        SQSConnectionFactory connectionFactory = new SQSConnectionFactory(
                new ProviderConfiguration(),
                SqsClient.create()
        );

        // Create the connection in a try-with-resources statement so that it's closed automatically.
        try( SQSConnection connection = connectionFactory.createConnection() ) {

            // Create the queue if needed.
            SqsJmsExampleUtils.ensureQueueExists(connection, QUEUE_NAME, TIME_OUT_SECONDS);

            // Create a session with unordered acknowledge mode.
            Session session = connection.createSession(false, SQSSession.UNORDERED_ACKNOWLEDGE);

            // Create the producer and consumer.
            MessageProducer producer = session.createProducer(session.createQueue(QUEUE_NAME));
            MessageConsumer consumer = session.createConsumer(session.createQueue(QUEUE_NAME));

            // Open a connection.
            connection.start();

            // Send two text messages.
            sendMessage(producer, session, "Message 1");
            sendMessage(producer, session, "Message 2");

            // Receive a message and don't acknowledge it.
            receiveMessage(consumer, false);

            // Receive another message and acknowledge it.
            receiveMessage(consumer, true);

            // Wait for the visibility time out, so that unacknowledged messages reappear in the queue.
            LOGGER.info("Waiting for visibility timeout...");
            try {
                Thread.sleep(TIME_OUT_MILLIS);
            } catch (InterruptedException e) {
                LOGGER.error("Interrupted while waiting for visibility timeout", e);
                Thread.currentThread().interrupt();
                throw new RuntimeException("Processing interrupted", e);
            }

            /*  We will attempt to receive another message, and we'll get the first message again. This occurs
                because in UNORDERED_ACKNOWLEDGE mode, each message requires its own separate acknowledgment.
                Since we only acknowledged the second message, the first message remains in the queue for
                redelivery. */
            receiveMessage(consumer, true);

            LOGGER.info("Connection closed.");
        } // The connection closes automatically. This also closes the session.
    }

    /**
     * Sends a text message to an Amazon SQS queue using JMS.
     *
     * @param producer    The JMS MessageProducer for the queue
     * @param session     The JMS Session for message creation
     * @param messageText The message content
     * @throws JMSException If message creation or sending fails
     */
    private static void sendMessage(MessageProducer producer, Session session, String messageText) throws JMSException {
        // Create a text message and send it.
        producer.send(session.createTextMessage(messageText));
    }
    /**
     * Synchronously receives a message from an Amazon SQS queue using the JMS API
     * with an acknowledgment parameter.
     *
     * @param consumer    The JMS MessageConsumer for the queue
     * @param acknowledge If true, acknowledges the message after receipt
     * @throws JMSException If message reception or acknowledgment fails
     */
    private static void receiveMessage(MessageConsumer consumer, boolean acknowledge) throws JMSException {
        // Receive a message.
        Message message = consumer.receive(TIME_OUT_MILLIS);

        if (message == null) {
            LOGGER.info("Queue is empty!");
        } else {
            // Since this queue has only text messages, cast the message object and print the text.
            LOGGER.info("Received: {}    Acknowledged: {}", ((TextMessage) message).getText(), acknowledge);

            // Acknowledge the message if asked.
            if (acknowledge) message.acknowledge();
        }
    }
```
Menggunakan Spring untuk menyuntikkan dependensi.  

```
package com.example.sqs.jms.spring;

import com.amazon.sqs.javamessaging.SQSConnection;
import com.example.sqs.jms.SqsJmsExampleUtils;
import jakarta.jms.*;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.springframework.beans.factory.NoSuchBeanDefinitionException;
import org.springframework.context.support.FileSystemXmlApplicationContext;

import java.io.File;
import java.net.URL;
import java.util.concurrent.TimeUnit;

/**
 * Demonstrates how to send and receive messages using the Amazon SQS Java Messaging Library
 * with Spring Framework integration. This example connects to a standard Amazon SQS message
 * queue using Spring's dependency injection to configure the connection and messaging components.
 * The application uses the JMS (Java Message Service) API to handle message operations.
 */
public class SpringExample {
    private static final Integer POLLING_SECONDS = 15;
    private static final String SPRING_XML_CONFIG_FILE = "SpringExampleConfiguration.xml.txt";
    private static final Logger LOGGER = LoggerFactory.getLogger(SpringExample.class);

    /**
     * Demonstrates sending and receiving messages through a standard Amazon SQS message queue
     * using Spring Framework configuration. This method loads connection settings from an XML file,
     * establishes a messaging session using the Amazon SQS Java Messaging Library, and processes
     * messages using JMS (Java Message Service) operations. If the queue doesn't exist, it will
     * be created automatically.
     *
     * @param args Command line arguments (not used)
     */
    public static void main(String[] args) {

        URL resource = SpringExample.class.getClassLoader().getResource(SPRING_XML_CONFIG_FILE);
        File springFile = new File(resource.getFile());
        if (!springFile.exists() || !springFile.canRead()) {
            LOGGER.error("File " + SPRING_XML_CONFIG_FILE + " doesn't exist or isn't readable.");
            System.exit(1);
        }

        try (FileSystemXmlApplicationContext context =
                     new FileSystemXmlApplicationContext("file://" + springFile.getAbsolutePath())) {

            Connection connection;
            try {
                connection = context.getBean(Connection.class);
            } catch (NoSuchBeanDefinitionException e) {
                LOGGER.error("Can't find the JMS connection to use: " + e.getMessage(), e);
                System.exit(2);
                return;
            }

            String queueName;
            try {
                queueName = context.getBean("queueName", String.class);
            } catch (NoSuchBeanDefinitionException e) {
                LOGGER.error("Can't find the name of the queue to use: " + e.getMessage(), e);
                System.exit(3);
                return;
            }
            try {
                if (connection instanceof SQSConnection) {
                    SqsJmsExampleUtils.ensureQueueExists((SQSConnection) connection, queueName, SqsJmsExampleUtils.QUEUE_VISIBILITY_TIMEOUT);
                }
                // Create the JMS session.
                Session session = connection.createSession(false, Session.CLIENT_ACKNOWLEDGE);

                SqsJmsExampleUtils.sendTextMessage(session, queueName);
                MessageConsumer consumer = session.createConsumer(session.createQueue(queueName));

                receiveMessages(consumer);
            } catch (JMSException e) {
                LOGGER.error(e.getMessage(), e);
                throw new RuntimeException(e);
            }
        }   // Spring context autocloses. Managed Spring beans that implement AutoClosable, such as the
        // 'connection' bean, are also closed.
        LOGGER.info("Context closed");
    }

    /**
     * Continuously checks for and processes messages from a standard Amazon SQS message queue
     * using the Amazon SQS Java Messaging Library underlying the JMS API. This method waits for incoming messages,
     * processes them when they arrive, and acknowledges their receipt using JMS (Java Message
     * Service) operations. The method will stop checking for messages after 15 seconds of
     * inactivity.
     *
     * @param consumer The JMS message consumer used to receive messages from the queue
     */
    private static void receiveMessages(MessageConsumer consumer) {
        try {
            while (true) {
                LOGGER.info("Waiting for messages...");
                // Wait 15 seconds for a message.
                Message message = consumer.receive(TimeUnit.SECONDS.toMillis(POLLING_SECONDS));
                if (message == null) {
                    LOGGER.info("Shutting down after {} seconds of silence.", POLLING_SECONDS);
                    break;
                }
                SqsJmsExampleUtils.handleMessage(message);
                message.acknowledge();
                LOGGER.info("Message acknowledged.");
            }
        } catch (JMSException e) {
            LOGGER.error("Error receiving from SQS.", e);
        }
    }
}
```
Definisi kacang musim semi.  

```
<?xml version="1.0" encoding="UTF-8"?>
<beans
        xmlns="http://www.springframework.org/schema/beans"
        xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
        xsi:schemaLocation="
http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-3.0.xsd
        ">
    <!-- Define the AWS Region -->
    <bean id="region" class="software.amazon.awssdk.regions.Region" factory-method="of">
        <constructor-arg value="us-east-1"/>
    </bean>

    <bean id="credentialsProviderBean" class="software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider"
          factory-method="create"/>

    <bean id="clientBuilder" class="software.amazon.awssdk.services.sqs.SqsClient" factory-method="builder"/>

    <bean id="regionSetClientBuilder" factory-bean="clientBuilder" factory-method="region">
        <constructor-arg ref="region"/>
    </bean>

    <!-- Configure the Builder with Credentials Provider -->
    <bean id="sqsClient" factory-bean="regionSetClientBuilder" factory-method="credentialsProvider">
        <constructor-arg ref="credentialsProviderBean"/>
    </bean>

    <bean id="providerConfiguration" class="com.amazon.sqs.javamessaging.ProviderConfiguration">
        <property name="numberOfMessagesToPrefetch" value="5"/>
    </bean>

    <bean id="connectionFactory" class="com.amazon.sqs.javamessaging.SQSConnectionFactory">
        <constructor-arg ref="providerConfiguration"/>
        <constructor-arg ref="clientBuilder"/>
    </bean>

    <bean id="connection"
          factory-bean="connectionFactory"
          factory-method="createConnection"
          init-method="start"
          destroy-method="close"/>

    <bean id="queueName" class="java.lang.String">
        <constructor-arg value="SQSJMSClientExampleQueue"/>
    </bean>
</beans>
```
Kelas utilitas yang menyediakan metode umum yang digunakan oleh contoh lain.  

```
package com.example.sqs.jms;

import com.amazon.sqs.javamessaging.AmazonSQSMessagingClientWrapper;
import com.amazon.sqs.javamessaging.ProviderConfiguration;
import com.amazon.sqs.javamessaging.SQSConnection;
import com.amazon.sqs.javamessaging.SQSConnectionFactory;
import jakarta.jms.*;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.core.exception.SdkException;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.CreateQueueRequest;
import software.amazon.awssdk.services.sqs.model.QueueAttributeName;

import java.time.Duration;
import java.util.Base64;
import java.util.Map;

/**
 * This utility class provides helper methods for working with Amazon Simple Queue Service (Amazon SQS)
 * through the Java Message Service (JMS) interface. It contains common operations for managing message
 * queues and handling message delivery.
 */
public class SqsJmsExampleUtils {
    private static final Logger LOGGER = LoggerFactory.getLogger(SqsJmsExampleUtils.class);
    public static final Long QUEUE_VISIBILITY_TIMEOUT = 5L;

    /**
     * This method verifies that a message queue exists and creates it if necessary. The method checks for
     * an existing queue first to optimize performance.
     *
     * @param connection The active connection to the messaging service
     * @param queueName The name of the queue to verify or create
     * @param visibilityTimeout The duration in seconds that messages will be hidden after being received
     * @throws JMSException If there is an error accessing or creating the queue
     */
    public static void ensureQueueExists(SQSConnection connection, String queueName, Long visibilityTimeout) throws JMSException {
        AmazonSQSMessagingClientWrapper client = connection.getWrappedAmazonSQSClient();

       /* In most cases, you can do this with just a 'createQueue' call, but 'getQueueUrl'
       (called by 'queueExists') is a faster operation for the common case where the queue
       already exists. Also, many users and roles have permission to call 'getQueueUrl'
       but don't have permission to call 'createQueue'.
       */
        if( !client.queueExists(queueName) ) {
            CreateQueueRequest createQueueRequest = CreateQueueRequest.builder()
                    .queueName(queueName)
                    .attributes(Map.of(QueueAttributeName.VISIBILITY_TIMEOUT, String.valueOf(visibilityTimeout)))
                    .build();
            client.createQueue( createQueueRequest );
        }
    }

    /**
     * This method sends a simple text message to a specified message queue. It handles all necessary
     * setup for the message delivery process.
     *
     * @param session The active messaging session used to create and send the message
     * @param queueName The name of the queue where the message will be sent
     */
    public static void sendTextMessage(Session session, String queueName) {
        // Rest of implementation...

        try {
            MessageProducer producer = session.createProducer( session.createQueue( queueName) );
            Message message = session.createTextMessage("Hello world!");
            producer.send(message);
        } catch (JMSException e) {
            LOGGER.error( "Error receiving from SQS", e );
        }
    }

    /**
     * This method processes incoming messages and logs their content based on the message type.
     * It supports text messages, binary data, and Java objects.
     *
     * @param message The message to be processed and logged
     * @throws JMSException If there is an error reading the message content
     */
    public static void handleMessage(Message message) throws JMSException {
        // Rest of implementation...
        LOGGER.info( "Got message {}", message.getJMSMessageID() );
        LOGGER.info( "Content: ");
        if(message instanceof TextMessage txtMessage) {
            LOGGER.info( "\t{}", txtMessage.getText() );
        } else if(message instanceof BytesMessage byteMessage){
            // Assume the length fits in an int - SQS only supports sizes up to 256k so that
            // should be true
            byte[] bytes = new byte[(int)byteMessage.getBodyLength()];
            byteMessage.readBytes(bytes);
            LOGGER.info( "\t{}", Base64.getEncoder().encodeToString( bytes ) );
        } else if( message instanceof ObjectMessage) {
            ObjectMessage objMessage = (ObjectMessage) message;
            LOGGER.info( "\t{}", objMessage.getObject() );
        }
    }

    /**
     * This method sets up automatic message processing for a specified queue. It creates a listener
     * that will receive and handle incoming messages without blocking the main program.
     *
     * @param session The active messaging session
     * @param queueName The name of the queue to monitor
     * @param connection The active connection to the messaging service
     */
    public static void receiveMessagesAsync(Session session, String queueName, Connection connection) {
        // Rest of implementation...
        try {
            // Create a consumer for the queue.
            MessageConsumer consumer = session.createConsumer(session.createQueue(queueName));
            // Provide an implementation of the MessageListener interface, which has a single 'onMessage' method.
            // We use a lambda expression for the implementation.
            consumer.setMessageListener(message -> {
                try {
                    SqsJmsExampleUtils.handleMessage(message);
                    message.acknowledge();
                } catch (JMSException e) {
                    LOGGER.error("Error processing message: {}", e.getMessage());
                }
            });
            // Start receiving incoming messages.
            connection.start();
        } catch (JMSException e) {
            throw new RuntimeException(e);
        }
        try {
            Thread.sleep(2000);
        } catch (InterruptedException e) {
            throw new RuntimeException(e);
        }
    }


    /**
     * This method performs cleanup operations after message processing is complete. It receives
     * any messages in the specified queue, removes the message queue and closes all
     * active connections to prevent resource leaks.
     *
     * @param queueName The name of the queue to be removed
     * @param visibilityTimeout The duration in seconds that messages are hidden after being received
     * @throws JMSException If there is an error during the cleanup process
     */
    public static void cleanUpExample(String queueName, Long visibilityTimeout) throws JMSException {
        LOGGER.info("Performing cleanup.");

        SQSConnectionFactory connectionFactory = new SQSConnectionFactory(
                new ProviderConfiguration(),
                SqsClient.create()
        );

        try (SQSConnection connection = connectionFactory.createConnection() ) {
            ensureQueueExists(connection, queueName, visibilityTimeout);
            Session session = connection.createSession(false, Session.AUTO_ACKNOWLEDGE);

            receiveMessagesAsync(session, queueName, connection);

            SqsClient sqsClient = connection.getWrappedAmazonSQSClient().getAmazonSQSClient();
            try {
                String queueUrl = sqsClient.getQueueUrl(b -> b.queueName(queueName)).queueUrl();
                sqsClient.deleteQueue(b -> b.queueUrl(queueUrl));
                LOGGER.info("Queue deleted: {}", queueUrl);
            } catch (SdkException e) {
                LOGGER.error("Error during SQS operations: ", e);
            }
        }
        LOGGER.info("Clean up: Connection closed");
    }

    /**
     * This method creates a background task that sends multiple messages to a specified queue
     * after waiting for a set time period. The task operates independently to ensure efficient
     * message processing without interrupting other operations.
     *
     * @param queueName The name of the queue where messages will be sent
     * @param secondsToWait The number of seconds to wait before sending messages
     * @param numMessages The number of messages to send
     * @param visibilityTimeout The duration in seconds that messages remain hidden after being received
     * @return A task that can be executed to send the messages
     */
    public static Runnable sendAMessageAsync(String queueName, Long secondsToWait, Integer numMessages, Long visibilityTimeout) {
        return () -> {
            try {
                Thread.sleep(Duration.ofSeconds(secondsToWait).toMillis());
            } catch (InterruptedException e) {
                Thread.currentThread().interrupt();
                throw new RuntimeException(e);
            }
            try {
                SQSConnectionFactory connectionFactory = new SQSConnectionFactory(
                        new ProviderConfiguration(),
                        SqsClient.create()
                );
                try (SQSConnection connection = connectionFactory.createConnection()) {
                    ensureQueueExists(connection, queueName, visibilityTimeout);
                    Session session = connection.createSession(false, Session.CLIENT_ACKNOWLEDGE);
                    for (int i = 1; i <= numMessages; i++) {
                        MessageProducer producer = session.createProducer(session.createQueue(queueName));
                        producer.send(session.createTextMessage("Hello World " + i + "!"));
                    }
                }
            } catch (JMSException e) {
                LOGGER.error(e.getMessage(), e);
                throw new RuntimeException(e);
            }
        };
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/CreateQueue)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/DeleteQueue)

### Bekerja dengan tag antrian
<a name="sqs_Scenario_WorkWithTags_java_2_topic"></a>

Contoh kode berikut menunjukkan cara melakukan operasi penandaan dengan Amazon SQS.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sqs#code-examples). 
Contoh berikut membuat tag untuk antrian, daftar tag, dan menghapus tag.  

```
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import software.amazon.awssdk.services.sqs.SqsClient;
import software.amazon.awssdk.services.sqs.model.ListQueueTagsResponse;
import software.amazon.awssdk.services.sqs.model.QueueDoesNotExistException;
import software.amazon.awssdk.services.sqs.model.SqsException;

import java.util.Map;
import java.util.UUID;

/**
 * Before running this Java V2 code example, set up your development environment, including your credentials. For more
 * information, see the <a href="https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html">AWS
 * SDK for Java Developer Guide</a>.
 */
public class TagExamples {
    static final SqsClient sqsClient = SqsClient.create();
    static final String queueName = "TagExamples-queue-" + UUID.randomUUID().toString().replace("-", "").substring(0, 20);
    private static final Logger LOGGER = LoggerFactory.getLogger(TagExamples.class);

    public static void main(String[] args) {
        final String queueUrl;
        try {
            queueUrl = sqsClient.createQueue(b -> b.queueName(queueName)).queueUrl();
            LOGGER.info("Queue created. The URL is: {}", queueUrl);
        } catch (RuntimeException e) {
            LOGGER.error("Program ending because queue was not created.");
            throw new RuntimeException(e);
        }
        try {
            addTags(queueUrl);
            listTags(queueUrl);
            removeTags(queueUrl);
        } catch (RuntimeException e) {
            LOGGER.error("Program ending because of an error in a method.");
        } finally {
            try {
                sqsClient.deleteQueue(b -> b.queueUrl(queueUrl));
                LOGGER.info("Queue successfully deleted. Program ending.");
                sqsClient.close();
            } catch (RuntimeException e) {
                LOGGER.error("Program ending.");
            } finally {
                sqsClient.close();
            }
        }
    }

    /** This method demonstrates how to use a Java Map to a tag a aueue.
     * @param queueUrl The URL of the queue to tag.
     */
    public static void addTags(String queueUrl) {
        // Build a map of the tags.
        final Map<String, String> tagsToAdd = Map.of(
                "Team", "Development",
                "Priority", "Beta",
                "Accounting ID", "456def");

        try {
            // Add tags to the queue using a Consumer<TagQueueRequest.Builder> parameter.
            sqsClient.tagQueue(b -> b
                    .queueUrl(queueUrl)
                    .tags(tagsToAdd)
            );
        } catch (QueueDoesNotExistException e) {
            LOGGER.error("Queue does not exist: {}", e.getMessage(), e);
            throw new RuntimeException(e);
        }
    }

    /** This method demonstrates how to view the tags for a queue.
     * @param queueUrl The URL of the queue whose tags you want to list.
     */
    public static void listTags(String queueUrl) {
        ListQueueTagsResponse response;
        try {
            // Call the listQueueTags method with a Consumer<ListQueueTagsRequest.Builder> parameter that creates a ListQueueTagsRequest.
            response = sqsClient.listQueueTags(b -> b
                    .queueUrl(queueUrl));
        } catch (SqsException e) {
            LOGGER.error("Exception thrown: {}", e.getMessage(), e);
            throw new RuntimeException(e);
        }

        // Log the tags.
        response.tags()
                .forEach((k, v) ->
                        LOGGER.info("Key: {} -> Value: {}", k, v));
    }

    /**
     * This method demonstrates how to remove tags from a queue.
     * @param queueUrl The URL of the queue whose tags you want to remove.
     */
    public static void removeTags(String queueUrl) {
        try {
            // Call the untagQueue method with a Consumer<UntagQueueRequest.Builder> parameter.
            sqsClient.untagQueue(b -> b
                    .queueUrl(queueUrl)
                    .tagKeys("Accounting ID") // Remove a single tag.
            );
        } catch (SqsException e) {
            LOGGER.error("Exception thrown: {}", e.getMessage(), e);
            throw new RuntimeException(e);
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [ListQueueTags](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/ListQueueTags)
  + [TagQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/TagQueue)
  + [UntagQueue](https://docs.aws.amazon.com/goto/SdkForJavaV2/sqs-2012-11-05/UntagQueue)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.SQSEvent;
import com.amazonaws.services.lambda.runtime.events.SQSEvent.SQSMessage;

public class Function implements RequestHandler<SQSEvent, Void> {
    @Override
    public Void handleRequest(SQSEvent sqsEvent, Context context) {
        for (SQSMessage msg : sqsEvent.getRecords()) {
            processMessage(msg, context);
        }
        context.getLogger().log("done");
        return null;
    }

    private void processMessage(SQSMessage msg, Context context) {
        try {
            context.getLogger().log("Processed message " + msg.getBody());

            // TODO: Do interesting work based on the new message

        } catch (Exception e) {
            context.getLogger().log("An error occurred");
            throw e;
        }

    }
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_java_2_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Java.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
import com.amazonaws.services.lambda.runtime.Context;
import com.amazonaws.services.lambda.runtime.RequestHandler;
import com.amazonaws.services.lambda.runtime.events.SQSEvent;
import com.amazonaws.services.lambda.runtime.events.SQSBatchResponse;
 
import java.util.ArrayList;
import java.util.List;
 
public class ProcessSQSMessageBatch implements RequestHandler<SQSEvent, SQSBatchResponse> {
    @Override
    public SQSBatchResponse handleRequest(SQSEvent sqsEvent, Context context) {
         List<SQSBatchResponse.BatchItemFailure> batchItemFailures = new ArrayList<SQSBatchResponse.BatchItemFailure>();

         for (SQSEvent.SQSMessage message : sqsEvent.getRecords()) {
             try {
                 //process your message
             } catch (Exception e) {
                 //Add failed message identifier to the batchItemFailures list
                 batchItemFailures.add(new SQSBatchResponse.BatchItemFailure(message.getMessageId()));
             }
         }
         return new SQSBatchResponse(batchItemFailures);
     }
}
```

# Contoh Step Functions menggunakan SDK for Java 2.x
<a name="java_2_sfn_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Step Functions.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Hello Step Functions
<a name="sfn_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Step Functions.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 
Versi Java dari Hello.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sfn.SfnClient;
import software.amazon.awssdk.services.sfn.model.ListStateMachinesResponse;
import software.amazon.awssdk.services.sfn.model.SfnException;
import software.amazon.awssdk.services.sfn.model.StateMachineListItem;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListStateMachines {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        SfnClient sfnClient = SfnClient.builder()
                .region(region)
                .build();

        listMachines(sfnClient);
        sfnClient.close();
    }

    public static void listMachines(SfnClient sfnClient) {
        try {
            ListStateMachinesResponse response = sfnClient.listStateMachines();
            List<StateMachineListItem> machines = response.stateMachines();
            for (StateMachineListItem machine : machines) {
                System.out.println("The name of the state machine is: " + machine.name());
                System.out.println("The ARN value is : " + machine.stateMachineArn());
            }

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListStateMachines](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/ListStateMachines)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="sfn_Scenario_GetStartedStateMachines_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat aktivitas.
+ Buat mesin status dari definisi Amazon States Language yang berisi aktivitas yang dibuat sebelumnya sebagai langkah.
+ Jalankan mesin status dan tanggapi aktivitas dengan input pengguna.
+ Dapatkan status dan output akhir setelah proses selesai, lalu bersihkan sumber daya.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
/**
 * You can obtain the JSON file to create a state machine in the following
 * GitHub location.
 * <p>
 * https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/resources/sample_files
 * <p>
 * To run this code example, place the chat_sfn_state_machine.json file into
 * your project's resources folder.
 * <p>
 * Also, set up your development environment, including your credentials.
 * <p>
 * For information, see this documentation topic:
 * <p>
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 * <p>
 * This Java code example performs the following tasks:
 * <p>
 * 1. Creates an activity.
 * 2. Creates a state machine.
 * 3. Describes the state machine.
 * 4. Starts execution of the state machine and interacts with it.
 * 5. Describes the execution.
 * 6. Delete the activity.
 * 7. Deletes the state machine.
 */
public class StepFunctionsScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) throws Exception {
        final String usage = """

            Usage:
                <roleARN> <activityName> <stateMachineName>

            Where:
                roleName - The name of the IAM role to create for this state machine.
                activityName - The name of an activity to create.
                stateMachineName - The name of the state machine to create.
                jsonFile - The location of the chat_sfn_state_machine.json file. You can located it in resources/sample_files. 
            """;

        if (args.length != 4) {
            System.out.println(usage);
            System.exit(1);
        }

        String roleName = args[0];
        String activityName = args[1];
        String stateMachineName = args[2];
        String jsonFile = args[3];
        String polJSON = """
            {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Sid": "",
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "states.amazonaws.com"
                        },
                        "Action": "sts:AssumeRole"
                    }
                ]
            }
            """;


        Scanner sc = new Scanner(System.in);
        boolean action = false;

        Region region = Region.US_EAST_1;
        SfnClient sfnClient = SfnClient.builder()
            .region(region)
            .build();

        Region regionGl = Region.AWS_GLOBAL;
        IamClient iam = IamClient.builder()
            .region(regionGl)
            .build();

        System.out.println(DASHES);
        System.out.println("Welcome to the AWS Step Functions example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. Create an activity.");
        String activityArn = createActivity(sfnClient, activityName);
        System.out.println("The ARN of the activity is " + activityArn);
        System.out.println(DASHES);

        // Read the file using FileInputStream
        FileInputStream inputStream = new FileInputStream(jsonFile);
        ObjectMapper mapper = new ObjectMapper();
        JsonNode jsonNode = mapper.readValue(inputStream, JsonNode.class);
        String jsonString = mapper.writeValueAsString(jsonNode);

        // Modify the Resource node.
        ObjectMapper objectMapper = new ObjectMapper();
        JsonNode root = objectMapper.readTree(jsonString);
        ((ObjectNode) root.path("States").path("GetInput")).put("Resource", activityArn);

        // Convert the modified Java object back to a JSON string.
        String stateDefinition = objectMapper.writeValueAsString(root);
        System.out.println(stateDefinition);

        System.out.println(DASHES);
        System.out.println("2. Create a state machine.");
        String roleARN = createIAMRole(iam, roleName, polJSON);
        String stateMachineArn = createMachine(sfnClient, roleARN, stateMachineName, stateDefinition);
        System.out.println("The ARN of the state machine is " + stateMachineArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Describe the state machine.");
        describeStateMachine(sfnClient, stateMachineArn);
        System.out.println("What should ChatSFN call you?");
        String userName = sc.nextLine();
        System.out.println("Hello " + userName);
        System.out.println(DASHES);

        System.out.println(DASHES);
        // The JSON to pass to the StartExecution call.
        String executionJson = "{ \"name\" : \"" + userName + "\" }";
        System.out.println(executionJson);
        System.out.println("4. Start execution of the state machine and interact with it.");
        String runArn = startWorkflow(sfnClient, stateMachineArn, executionJson);
        System.out.println("The ARN of the state machine execution is " + runArn);
        List<String> myList;
        while (!action) {
            myList = getActivityTask(sfnClient, activityArn);
            System.out.println("ChatSFN: " + myList.get(1));
            System.out.println(userName + " please specify a value.");
            String myAction = sc.nextLine();
            if (myAction.compareTo("done") == 0)
                action = true;

            System.out.println("You have selected " + myAction);
            String taskJson = "{ \"action\" : \"" + myAction + "\" }";
            System.out.println(taskJson);
            sendTaskSuccess(sfnClient, myList.get(0), taskJson);
        }
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Describe the execution.");
        describeExe(sfnClient, runArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Delete the activity.");
        deleteActivity(sfnClient, activityArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Delete the state machines.");
        deleteMachine(sfnClient, stateMachineArn);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("The AWS Step Functions example scenario is complete.");
        System.out.println(DASHES);
    }

    public static String createIAMRole(IamClient iam, String rolename, String polJSON) {
        try {
            CreateRoleRequest request = CreateRoleRequest.builder()
                .roleName(rolename)
                .assumeRolePolicyDocument(polJSON)
                .description("Created using the AWS SDK for Java")
                .build();

            CreateRoleResponse response = iam.createRole(request);
            return response.role().arn();

        } catch (IamException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static void describeExe(SfnClient sfnClient, String executionArn) {
        try {
            DescribeExecutionRequest executionRequest = DescribeExecutionRequest.builder()
                .executionArn(executionArn)
                .build();

            String status = "";
            boolean hasSucceeded = false;
            while (!hasSucceeded) {
                DescribeExecutionResponse response = sfnClient.describeExecution(executionRequest);
                status = response.statusAsString();
                if (status.compareTo("RUNNING") == 0) {
                    System.out.println("The state machine is still running, let's wait for it to finish.");
                    Thread.sleep(2000);
                } else if (status.compareTo("SUCCEEDED") == 0) {
                    System.out.println("The Step Function workflow has succeeded");
                    hasSucceeded = true;
                } else {
                    System.out.println("The Status is neither running or succeeded");
                }
            }
            System.out.println("The Status is " + status);

        } catch (SfnException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }

    public static void sendTaskSuccess(SfnClient sfnClient, String token, String json) {
        try {
            SendTaskSuccessRequest successRequest = SendTaskSuccessRequest.builder()
                .taskToken(token)
                .output(json)
                .build();

            sfnClient.sendTaskSuccess(successRequest);

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static List<String> getActivityTask(SfnClient sfnClient, String actArn) {
        List<String> myList = new ArrayList<>();
        GetActivityTaskRequest getActivityTaskRequest = GetActivityTaskRequest.builder()
            .activityArn(actArn)
            .build();

        GetActivityTaskResponse response = sfnClient.getActivityTask(getActivityTaskRequest);
        myList.add(response.taskToken());
        myList.add(response.input());
        return myList;
    }

    public static void deleteActivity(SfnClient sfnClient, String actArn) {
        try {
            DeleteActivityRequest activityRequest = DeleteActivityRequest.builder()
                .activityArn(actArn)
                .build();

            sfnClient.deleteActivity(activityRequest);
            System.out.println("You have deleted " + actArn);

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }

    public static void describeStateMachine(SfnClient sfnClient, String stateMachineArn) {
        try {
            DescribeStateMachineRequest stateMachineRequest = DescribeStateMachineRequest.builder()
                .stateMachineArn(stateMachineArn)
                .build();

            DescribeStateMachineResponse response = sfnClient.describeStateMachine(stateMachineRequest);
            System.out.println("The name of the State machine is " + response.name());
            System.out.println("The status of the State machine is " + response.status());
            System.out.println("The ARN value of the State machine is " + response.stateMachineArn());
            System.out.println("The role ARN value is " + response.roleArn());

        } catch (SfnException e) {
            System.err.println(e.getMessage());
        }
    }

    public static void deleteMachine(SfnClient sfnClient, String stateMachineArn) {
        try {
            DeleteStateMachineRequest deleteStateMachineRequest = DeleteStateMachineRequest.builder()
                .stateMachineArn(stateMachineArn)
                .build();

            sfnClient.deleteStateMachine(deleteStateMachineRequest);
            DescribeStateMachineRequest describeStateMachine = DescribeStateMachineRequest.builder()
                .stateMachineArn(stateMachineArn)
                .build();

            while (true) {
                DescribeStateMachineResponse response = sfnClient.describeStateMachine(describeStateMachine);
                System.out.println("The state machine is not deleted yet. The status is " + response.status());
                Thread.sleep(3000);
            }

        } catch (SfnException | InterruptedException e) {
            System.err.println(e.getMessage());
        }
        System.out.println(stateMachineArn + " was successfully deleted.");
    }

    public static String startWorkflow(SfnClient sfnClient, String stateMachineArn, String jsonEx) {
        UUID uuid = UUID.randomUUID();
        String uuidValue = uuid.toString();
        try {
            StartExecutionRequest executionRequest = StartExecutionRequest.builder()
                .input(jsonEx)
                .stateMachineArn(stateMachineArn)
                .name(uuidValue)
                .build();

            StartExecutionResponse response = sfnClient.startExecution(executionRequest);
            return response.executionArn();

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static String createMachine(SfnClient sfnClient, String roleARN, String stateMachineName, String json) {
        try {
            CreateStateMachineRequest machineRequest = CreateStateMachineRequest.builder()
                .definition(json)
                .name(stateMachineName)
                .roleArn(roleARN)
                .type(StateMachineType.STANDARD)
                .build();

            CreateStateMachineResponse response = sfnClient.createStateMachine(machineRequest);
            return response.stateMachineArn();

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }

    public static String createActivity(SfnClient sfnClient, String activityName) {
        try {
            CreateActivityRequest activityRequest = CreateActivityRequest.builder()
                .name(activityName)
                .build();

            CreateActivityResponse response = sfnClient.createActivity(activityRequest);
            return response.activityArn();

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateActivity](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/CreateActivity)
  + [CreateStateMachine](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/CreateStateMachine)
  + [DeleteActivity](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/DeleteActivity)
  + [DeleteStateMachine](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/DeleteStateMachine)
  + [DescribeExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/DescribeExecution)
  + [DescribeStateMachine](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/DescribeStateMachine)
  + [GetActivityTask](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/GetActivityTask)
  + [ListActivities](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/ListActivities)
  + [ListStateMachines](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/ListStateMachines)
  + [SendTaskSuccess](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/SendTaskSuccess)
  + [StartExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/StartExecution)
  + [StopExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/StopExecution)

## Tindakan
<a name="actions"></a>

### `CreateActivity`
<a name="sfn_CreateActivity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateActivity`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static String createActivity(SfnClient sfnClient, String activityName) {
        try {
            CreateActivityRequest activityRequest = CreateActivityRequest.builder()
                .name(activityName)
                .build();

            CreateActivityResponse response = sfnClient.createActivity(activityRequest);
            return response.activityArn();

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateActivity](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/CreateActivity)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateStateMachine`
<a name="sfn_CreateStateMachine_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStateMachine`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static String createMachine(SfnClient sfnClient, String roleARN, String stateMachineName, String json) {
        try {
            CreateStateMachineRequest machineRequest = CreateStateMachineRequest.builder()
                .definition(json)
                .name(stateMachineName)
                .roleArn(roleARN)
                .type(StateMachineType.STANDARD)
                .build();

            CreateStateMachineResponse response = sfnClient.createStateMachine(machineRequest);
            return response.stateMachineArn();

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateStateMachine](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/CreateStateMachine)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteActivity`
<a name="sfn_DeleteActivity_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteActivity`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static void deleteActivity(SfnClient sfnClient, String actArn) {
        try {
            DeleteActivityRequest activityRequest = DeleteActivityRequest.builder()
                .activityArn(actArn)
                .build();

            sfnClient.deleteActivity(activityRequest);
            System.out.println("You have deleted " + actArn);

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DeleteActivity](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/DeleteActivity)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteStateMachine`
<a name="sfn_DeleteStateMachine_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStateMachine`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static void deleteMachine(SfnClient sfnClient, String stateMachineArn) {
        try {
            DeleteStateMachineRequest deleteStateMachineRequest = DeleteStateMachineRequest.builder()
                .stateMachineArn(stateMachineArn)
                .build();

            sfnClient.deleteStateMachine(deleteStateMachineRequest);
            DescribeStateMachineRequest describeStateMachine = DescribeStateMachineRequest.builder()
                .stateMachineArn(stateMachineArn)
                .build();

            while (true) {
                DescribeStateMachineResponse response = sfnClient.describeStateMachine(describeStateMachine);
                System.out.println("The state machine is not deleted yet. The status is " + response.status());
                Thread.sleep(3000);
            }

        } catch (SfnException | InterruptedException e) {
            System.err.println(e.getMessage());
        }
        System.out.println(stateMachineArn + " was successfully deleted.");
    }
```
+  Untuk detail API, lihat [DeleteStateMachine](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/DeleteStateMachine)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeExecution`
<a name="sfn_DescribeExecution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeExecution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static void describeExe(SfnClient sfnClient, String executionArn) {
        try {
            DescribeExecutionRequest executionRequest = DescribeExecutionRequest.builder()
                .executionArn(executionArn)
                .build();

            String status = "";
            boolean hasSucceeded = false;
            while (!hasSucceeded) {
                DescribeExecutionResponse response = sfnClient.describeExecution(executionRequest);
                status = response.statusAsString();
                if (status.compareTo("RUNNING") == 0) {
                    System.out.println("The state machine is still running, let's wait for it to finish.");
                    Thread.sleep(2000);
                } else if (status.compareTo("SUCCEEDED") == 0) {
                    System.out.println("The Step Function workflow has succeeded");
                    hasSucceeded = true;
                } else {
                    System.out.println("The Status is neither running or succeeded");
                }
            }
            System.out.println("The Status is " + status);

        } catch (SfnException | InterruptedException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/DescribeExecution)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeStateMachine`
<a name="sfn_DescribeStateMachine_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStateMachine`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static void describeStateMachine(SfnClient sfnClient, String stateMachineArn) {
        try {
            DescribeStateMachineRequest stateMachineRequest = DescribeStateMachineRequest.builder()
                .stateMachineArn(stateMachineArn)
                .build();

            DescribeStateMachineResponse response = sfnClient.describeStateMachine(stateMachineRequest);
            System.out.println("The name of the State machine is " + response.name());
            System.out.println("The status of the State machine is " + response.status());
            System.out.println("The ARN value of the State machine is " + response.stateMachineArn());
            System.out.println("The role ARN value is " + response.roleArn());

        } catch (SfnException e) {
            System.err.println(e.getMessage());
        }
    }
```
+  Untuk detail API, lihat [DescribeStateMachine](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/DescribeStateMachine)di *Referensi AWS SDK for Java 2.x API*. 

### `GetActivityTask`
<a name="sfn_GetActivityTask_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetActivityTask`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static List<String> getActivityTask(SfnClient sfnClient, String actArn) {
        List<String> myList = new ArrayList<>();
        GetActivityTaskRequest getActivityTaskRequest = GetActivityTaskRequest.builder()
            .activityArn(actArn)
            .build();

        GetActivityTaskResponse response = sfnClient.getActivityTask(getActivityTaskRequest);
        myList.add(response.taskToken());
        myList.add(response.input());
        return myList;
    }
```
+  Untuk detail API, lihat [GetActivityTask](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/GetActivityTask)di *Referensi AWS SDK for Java 2.x API*. 

### `ListActivities`
<a name="sfn_ListActivities_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListActivities`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sfn.SfnClient;
import software.amazon.awssdk.services.sfn.model.ListActivitiesRequest;
import software.amazon.awssdk.services.sfn.model.ListActivitiesResponse;
import software.amazon.awssdk.services.sfn.model.SfnException;
import software.amazon.awssdk.services.sfn.model.ActivityListItem;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListActivities {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        SfnClient sfnClient = SfnClient.builder()
                .region(region)
                .build();

        listAllActivites(sfnClient);
        sfnClient.close();
    }

    public static void listAllActivites(SfnClient sfnClient) {
        try {
            ListActivitiesRequest activitiesRequest = ListActivitiesRequest.builder()
                    .maxResults(10)
                    .build();

            ListActivitiesResponse response = sfnClient.listActivities(activitiesRequest);
            List<ActivityListItem> items = response.activities();
            for (ActivityListItem item : items) {
                System.out.println("The activity ARN is " + item.activityArn());
                System.out.println("The activity name is " + item.name());
            }

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListActivities](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/ListActivities)di *Referensi AWS SDK for Java 2.x API*. 

### `ListExecutions`
<a name="sfn_ListExecutions_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListExecutions`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static void getExeHistory(SfnClient sfnClient, String exeARN) {
        try {
            GetExecutionHistoryRequest historyRequest = GetExecutionHistoryRequest.builder()
                    .executionArn(exeARN)
                    .maxResults(10)
                    .build();

            GetExecutionHistoryResponse historyResponse = sfnClient.getExecutionHistory(historyRequest);
            List<HistoryEvent> events = historyResponse.events();
            for (HistoryEvent event : events) {
                System.out.println("The event type is " + event.type().toString());
            }

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ListExecutions](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/ListExecutions)di *Referensi AWS SDK for Java 2.x API*. 

### `ListStateMachines`
<a name="sfn_ListStateMachines_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStateMachines`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sfn.SfnClient;
import software.amazon.awssdk.services.sfn.model.ListStateMachinesResponse;
import software.amazon.awssdk.services.sfn.model.SfnException;
import software.amazon.awssdk.services.sfn.model.StateMachineListItem;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class ListStateMachines {
    public static void main(String[] args) {
        Region region = Region.US_EAST_1;
        SfnClient sfnClient = SfnClient.builder()
                .region(region)
                .build();

        listMachines(sfnClient);
        sfnClient.close();
    }

    public static void listMachines(SfnClient sfnClient) {
        try {
            ListStateMachinesResponse response = sfnClient.listStateMachines();
            List<StateMachineListItem> machines = response.stateMachines();
            for (StateMachineListItem machine : machines) {
                System.out.println("The name of the state machine is: " + machine.name());
                System.out.println("The ARN value is : " + machine.stateMachineArn());
            }

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [ListStateMachines](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/ListStateMachines)di *Referensi AWS SDK for Java 2.x API*. 

### `SendTaskSuccess`
<a name="sfn_SendTaskSuccess_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTaskSuccess`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static void sendTaskSuccess(SfnClient sfnClient, String token, String json) {
        try {
            SendTaskSuccessRequest successRequest = SendTaskSuccessRequest.builder()
                .taskToken(token)
                .output(json)
                .build();

            sfnClient.sendTaskSuccess(successRequest);

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [SendTaskSuccess](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/SendTaskSuccess)di *Referensi AWS SDK for Java 2.x API*. 

### `StartExecution`
<a name="sfn_StartExecution_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartExecution`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/stepfunctions#code-examples). 

```
    public static String startWorkflow(SfnClient sfnClient, String stateMachineArn, String jsonEx) {
        UUID uuid = UUID.randomUUID();
        String uuidValue = uuid.toString();
        try {
            StartExecutionRequest executionRequest = StartExecutionRequest.builder()
                .input(jsonEx)
                .stateMachineArn(stateMachineArn)
                .name(uuidValue)
                .build();

            StartExecutionResponse response = sfnClient.startExecution(executionRequest);
            return response.executionArn();

        } catch (SfnException e) {
            System.err.println(e.awsErrorDetails().errorMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [StartExecution](https://docs.aws.amazon.com/goto/SdkForJavaV2/states-2016-11-23/StartExecution)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Menggunakan Step Functions untuk menginvokasi fungsi Lambda
<a name="cross_ServerlessWorkflows_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat mesin AWS Step Functions status yang memanggil AWS Lambda fungsi secara berurutan.

**SDK untuk Java 2.x**  
 Menunjukkan cara membuat alur kerja AWS tanpa server dengan menggunakan AWS Step Functions dan. AWS SDK for Java 2.x Setiap langkah alur kerja diimplementasikan menggunakan AWS Lambda fungsi.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_workflows_stepfunctions).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda
+ Amazon SES
+ Step Functions

# AWS STS contoh menggunakan SDK for Java 2.x
<a name="java_2_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/sts#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.sts.StsClient;
import software.amazon.awssdk.services.sts.model.AssumeRoleRequest;
import software.amazon.awssdk.services.sts.model.StsException;
import software.amazon.awssdk.services.sts.model.AssumeRoleResponse;
import software.amazon.awssdk.services.sts.model.Credentials;
import java.time.Instant;
import java.time.ZoneId;
import java.time.format.DateTimeFormatter;
import java.time.format.FormatStyle;
import java.util.Locale;

/**
 * To make this code example work, create a Role that you want to assume.
 * Then define a Trust Relationship in the AWS Console. You can use this as an
 * example:
 *
 * {
 * "Version":"2012-10-17",		 	 	 
 * "Statement": [
 * {
 * "Effect": "Allow",
 * "Principal": {
 * "AWS": "<Specify the ARN of your IAM user you are using in this code example>"
 * },
 * "Action": "sts:AssumeRole"
 * }
 * ]
 * }
 *
 * For more information, see "Editing the Trust Relationship for an Existing
 * Role" in the AWS Directory Service guide.
 *
 * Also, set up your development environment, including your credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class AssumeRole {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <roleArn> <roleSessionName>\s

                Where:
                    roleArn - The Amazon Resource Name (ARN) of the role to assume (for example, arn:aws:iam::000008047983:role/s3role).\s
                    roleSessionName - An identifier for the assumed role session (for example, mysession).\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String roleArn = args[0];
        String roleSessionName = args[1];
        Region region = Region.US_EAST_1;
        StsClient stsClient = StsClient.builder()
                .region(region)
                .build();

        assumeGivenRole(stsClient, roleArn, roleSessionName);
        stsClient.close();
    }

    public static void assumeGivenRole(StsClient stsClient, String roleArn, String roleSessionName) {
        try {
            AssumeRoleRequest roleRequest = AssumeRoleRequest.builder()
                    .roleArn(roleArn)
                    .roleSessionName(roleSessionName)
                    .build();

            AssumeRoleResponse roleResponse = stsClient.assumeRole(roleRequest);
            Credentials myCreds = roleResponse.credentials();

            // Display the time when the temp creds expire.
            Instant exTime = myCreds.expiration();
            String tokenInfo = myCreds.sessionToken();

            // Convert the Instant to readable date.
            DateTimeFormatter formatter = DateTimeFormatter.ofLocalizedDateTime(FormatStyle.SHORT)
                    .withLocale(Locale.US)
                    .withZone(ZoneId.systemDefault());

            formatter.format(exTime);
            System.out.println("The token " + tokenInfo + "  expires on " + exTime);

        } catch (StsException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/SdkForJavaV2/sts-2011-06-15/AssumeRole)di *Referensi AWS SDK for Java 2.x API*. 

# Dukungan contoh menggunakan SDK for Java 2.x
<a name="java_2_support_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Dukungan.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Dukungan
<a name="support_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan Dukungan.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.support.SupportClient;
import software.amazon.awssdk.services.support.model.Category;
import software.amazon.awssdk.services.support.model.DescribeServicesRequest;
import software.amazon.awssdk.services.support.model.DescribeServicesResponse;
import software.amazon.awssdk.services.support.model.Service;
import software.amazon.awssdk.services.support.model.SupportException;
import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * In addition, you must have the AWS Business Support Plan to use the AWS
 * Support Java API. For more information, see:
 *
 * https://aws.amazon.com/premiumsupport/plans/
 *
 * This Java example performs the following task:
 *
 * 1. Gets and displays available services.
 *
 *
 * NOTE: To see multiple operations, see SupportScenario.
 */

public class HelloSupport {
    public static void main(String[] args) {
        Region region = Region.US_WEST_2;
        SupportClient supportClient = SupportClient.builder()
                .region(region)
                .build();

        System.out.println("***** Step 1. Get and display available services.");
        displayServices(supportClient);
    }

    // Return a List that contains a Service name and Category name.
    public static void displayServices(SupportClient supportClient) {
        try {
            DescribeServicesRequest servicesRequest = DescribeServicesRequest.builder()
                    .language("en")
                    .build();

            DescribeServicesResponse response = supportClient.describeServices(servicesRequest);
            List<Service> services = response.services();

            System.out.println("Get the first 10 services");
            int index = 1;
            for (Service service : services) {
                if (index == 11)
                    break;

                System.out.println("The Service name is: " + service.name());

                // Display the Categories for this service.
                List<Category> categories = service.categories();
                for (Category cat : categories) {
                    System.out.println("The category name is: " + cat.name());
                }
                index++;
            }

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeServices)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="support_Scenario_GetStartedSupportCases_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan dan tampilkan layanan yang tersedia dan tingkat keparahan untuk kasus.
+ Buat kasus dukungan menggunakan layanan, kategori, dan tingkat keparahan yang dipilih.
+ Dapatkan dan tampilkan daftar kasus terbuka untuk hari ini.
+ Tambahkan set lampiran dan komunikasi ke kasus baru.
+ Jelaskan keterikatan dan komunikasi baru untuk kasus ini.
+ Selesaikan kasusnya.
+ Dapatkan dan tampilkan daftar kasus yang diselesaikan untuk hari ini.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 
Jalankan berbagai Dukungan operasi.  

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.support.SupportClient;
import software.amazon.awssdk.services.support.model.AddAttachmentsToSetResponse;
import software.amazon.awssdk.services.support.model.AddCommunicationToCaseRequest;
import software.amazon.awssdk.services.support.model.AddCommunicationToCaseResponse;
import software.amazon.awssdk.services.support.model.Attachment;
import software.amazon.awssdk.services.support.model.AttachmentDetails;
import software.amazon.awssdk.services.support.model.CaseDetails;
import software.amazon.awssdk.services.support.model.Category;
import software.amazon.awssdk.services.support.model.Communication;
import software.amazon.awssdk.services.support.model.CreateCaseRequest;
import software.amazon.awssdk.services.support.model.CreateCaseResponse;
import software.amazon.awssdk.services.support.model.DescribeAttachmentRequest;
import software.amazon.awssdk.services.support.model.DescribeAttachmentResponse;
import software.amazon.awssdk.services.support.model.DescribeCasesRequest;
import software.amazon.awssdk.services.support.model.DescribeCasesResponse;
import software.amazon.awssdk.services.support.model.DescribeCommunicationsRequest;
import software.amazon.awssdk.services.support.model.DescribeCommunicationsResponse;
import software.amazon.awssdk.services.support.model.DescribeServicesRequest;
import software.amazon.awssdk.services.support.model.DescribeServicesResponse;
import software.amazon.awssdk.services.support.model.DescribeSeverityLevelsRequest;
import software.amazon.awssdk.services.support.model.DescribeSeverityLevelsResponse;
import software.amazon.awssdk.services.support.model.ResolveCaseRequest;
import software.amazon.awssdk.services.support.model.ResolveCaseResponse;
import software.amazon.awssdk.services.support.model.Service;
import software.amazon.awssdk.services.support.model.SeverityLevel;
import software.amazon.awssdk.services.support.model.SupportException;
import software.amazon.awssdk.services.support.model.AddAttachmentsToSetRequest;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.time.Instant;
import java.time.temporal.ChronoUnit;
import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java (v2) code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 *
 * In addition, you must have the AWS Business Support Plan to use the AWS
 * Support Java API. For more information, see:
 *
 * https://aws.amazon.com/premiumsupport/plans/
 *
 * This Java example performs the following tasks:
 *
 * 1. Gets and displays available services.
 * 2. Gets and displays severity levels.
 * 3. Creates a support case by using the selected service, category, and
 * severity level.
 * 4. Gets a list of open cases for the current day.
 * 5. Creates an attachment set with a generated file.
 * 6. Adds a communication with the attachment to the support case.
 * 7. Lists the communications of the support case.
 * 8. Describes the attachment set included with the communication.
 * 9. Resolves the support case.
 * 10. Gets a list of resolved cases for the current day.
 */
public class SupportScenario {

    public static final String DASHES = new String(new char[80]).replace("\0", "-");

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <fileAttachment>Where:
                    fileAttachment - The file can be a simple saved .txt file to use as an email attachment.\s
                """;

      //  if (args.length != 1) {
      //      System.out.println(usage);
      //      System.exit(1);
      //  }

        String fileAttachment = "C:\\AWS\\test.txt" ; //args[0];
        Region region = Region.US_WEST_2;
        SupportClient supportClient = SupportClient.builder()
                .region(region)
                .build();

        System.out.println(DASHES);
        System.out.println("***** Welcome to the AWS Support case example scenario.");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("1. Get and display available services.");
        List<String> sevCatList = displayServices(supportClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("2. Get and display Support severity levels.");
        String sevLevel = displaySevLevels(supportClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("3. Create a support case using the selected service, category, and severity level.");
        String caseId = createSupportCase(supportClient, sevCatList, sevLevel);
        if (caseId.compareTo("") == 0) {
            System.out.println("A support case was not successfully created!");
            System.exit(1);
        } else
            System.out.println("Support case " + caseId + " was successfully created!");
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("4. Get open support cases.");
        getOpenCase(supportClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("5. Create an attachment set with a generated file to add to the case.");
        String attachmentSetId = addAttachment(supportClient, fileAttachment);
        System.out.println("The Attachment Set id value is" + attachmentSetId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("6. Add communication with the attachment to the support case.");
        addAttachSupportCase(supportClient, caseId, attachmentSetId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. List the communications of the support case.");
        String attachId = listCommunications(supportClient, caseId);
        System.out.println("The Attachment id value is" + attachId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("8. Describe the attachment set included with the communication.");
        describeAttachment(supportClient, attachId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("9. Resolve the support case.");
        resolveSupportCase(supportClient, caseId);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("10. Get a list of resolved cases for the current day.");
        getResolvedCase(supportClient);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("***** This Scenario has successfully completed");
        System.out.println(DASHES);
    }

    public static void getResolvedCase(SupportClient supportClient) {
        try {
            // Specify the start and end time.
            Instant now = Instant.now();
            java.time.LocalDate.now();
            Instant yesterday = now.minus(1, ChronoUnit.DAYS);

            DescribeCasesRequest describeCasesRequest = DescribeCasesRequest.builder()
                    .maxResults(30)
                    .afterTime(yesterday.toString())
                    .beforeTime(now.toString())
                    .includeResolvedCases(true)
                    .build();

            DescribeCasesResponse response = supportClient.describeCases(describeCasesRequest);
            List<CaseDetails> cases = response.cases();
            for (CaseDetails sinCase : cases) {
                if (sinCase.status().compareTo("resolved") == 0)
                    System.out.println("The case status is " + sinCase.status());
            }

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void resolveSupportCase(SupportClient supportClient, String caseId) {
        try {
            ResolveCaseRequest caseRequest = ResolveCaseRequest.builder()
                    .caseId(caseId)
                    .build();

            ResolveCaseResponse response = supportClient.resolveCase(caseRequest);
            System.out.println("The status of case " + caseId + " is " + response.finalCaseStatus());

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static void describeAttachment(SupportClient supportClient, String attachId) {
        try {
            DescribeAttachmentRequest attachmentRequest = DescribeAttachmentRequest.builder()
                    .attachmentId(attachId)
                    .build();

            DescribeAttachmentResponse response = supportClient.describeAttachment(attachmentRequest);
            System.out.println("The name of the file is " + response.attachment().fileName());

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static String listCommunications(SupportClient supportClient, String caseId) {
        try {
            String attachId = null;
            DescribeCommunicationsRequest communicationsRequest = DescribeCommunicationsRequest.builder()
                    .caseId(caseId)
                    .maxResults(10)
                    .build();

            DescribeCommunicationsResponse response = supportClient.describeCommunications(communicationsRequest);
            List<Communication> communications = response.communications();
            for (Communication comm : communications) {
                System.out.println("the body is: " + comm.body());

                // Get the attachment id value.
                List<AttachmentDetails> attachments = comm.attachmentSet();
                for (AttachmentDetails detail : attachments) {
                    attachId = detail.attachmentId();
                }
            }
            return attachId;

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }

    public static void addAttachSupportCase(SupportClient supportClient, String caseId, String attachmentSetId) {
        try {
            AddCommunicationToCaseRequest caseRequest = AddCommunicationToCaseRequest.builder()
                    .caseId(caseId)
                    .attachmentSetId(attachmentSetId)
                    .communicationBody("Please refer to attachment for details.")
                    .build();

            AddCommunicationToCaseResponse response = supportClient.addCommunicationToCase(caseRequest);
            if (response.result())
                System.out.println("You have successfully added a communication to an AWS Support case");
            else
                System.out.println("There was an error adding the communication to an AWS Support case");

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static String addAttachment(SupportClient supportClient, String fileAttachment) {
        try {
            File myFile = new File(fileAttachment);
            InputStream sourceStream = new FileInputStream(myFile);
            SdkBytes sourceBytes = SdkBytes.fromInputStream(sourceStream);

            Attachment attachment = Attachment.builder()
                    .fileName(myFile.getName())
                    .data(sourceBytes)
                    .build();

            AddAttachmentsToSetRequest setRequest = AddAttachmentsToSetRequest.builder()
                    .attachments(attachment)
                    .build();

            AddAttachmentsToSetResponse response = supportClient.addAttachmentsToSet(setRequest);
            return response.attachmentSetId();

        } catch (SupportException | FileNotFoundException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }

    public static void getOpenCase(SupportClient supportClient) {
        try {
            // Specify the start and end time.
            Instant now = Instant.now();
            java.time.LocalDate.now();
            Instant yesterday = now.minus(1, ChronoUnit.DAYS);

            DescribeCasesRequest describeCasesRequest = DescribeCasesRequest.builder()
                    .maxResults(20)
                    .afterTime(yesterday.toString())
                    .beforeTime(now.toString())
                    .build();

            DescribeCasesResponse response = supportClient.describeCases(describeCasesRequest);
            List<CaseDetails> cases = response.cases();
            for (CaseDetails sinCase : cases) {
                System.out.println("The case status is " + sinCase.status());
                System.out.println("The case Id is " + sinCase.caseId());
                System.out.println("The case subject is " + sinCase.subject());
            }

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }

    public static String createSupportCase(SupportClient supportClient, List<String> sevCatList, String sevLevel) {
        try {
            String serviceCode = sevCatList.get(0);
            String caseCat = sevCatList.get(1);
            CreateCaseRequest caseRequest = CreateCaseRequest.builder()
                    .categoryCode(caseCat.toLowerCase())
                    .serviceCode(serviceCode.toLowerCase())
                    .severityCode(sevLevel.toLowerCase())
                    .communicationBody("Test issue with " + serviceCode.toLowerCase())
                    .subject("Test case, please ignore")
                    .language("en")
                    .issueType("technical")
                    .build();

            CreateCaseResponse response = supportClient.createCase(caseRequest);
            return response.caseId();

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }

    public static String displaySevLevels(SupportClient supportClient) {
        try {
            DescribeSeverityLevelsRequest severityLevelsRequest = DescribeSeverityLevelsRequest.builder()
                    .language("en")
                    .build();

            DescribeSeverityLevelsResponse response = supportClient.describeSeverityLevels(severityLevelsRequest);
            List<SeverityLevel> severityLevels = response.severityLevels();
            String levelName = null;
            for (SeverityLevel sevLevel : severityLevels) {
                System.out.println("The severity level name is: " + sevLevel.name());
                if (sevLevel.name().compareTo("High") == 0)
                    levelName = sevLevel.name();
            }
            return levelName;

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }

    // Return a List that contains a Service name and Category name.
    public static List<String> displayServices(SupportClient supportClient) {
        try {
            DescribeServicesRequest servicesRequest = DescribeServicesRequest.builder()
                    .language("en")
                    .build();

            DescribeServicesResponse response = supportClient.describeServices(servicesRequest);
            String serviceCode = null;
            String catName = null;
            List<String> sevCatList = new ArrayList<>();
            List<Service> services = response.services();

            System.out.println("Get the first 10 services");
            int index = 1;
            for (Service service : services) {
                if (index == 11)
                    break;

                System.out.println("The Service name is: " + service.name());
                if (service.name().compareTo("Account") == 0)
                    serviceCode = service.code();

                // Get the Categories for this service.
                List<Category> categories = service.categories();
                for (Category cat : categories) {
                    System.out.println("The category name is: " + cat.name());
                    if (cat.name().compareTo("Security") == 0)
                        catName = cat.name();
                }
                index++;
            }

            // Push the two values to the list.
            sevCatList.add(serviceCode);
            sevCatList.add(catName);
            return sevCatList;

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return null;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [AddAttachmentsToSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/AddAttachmentsToSet)
  + [AddCommunicationToCase](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/AddCommunicationToCase)
  + [CreateCase](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/CreateCase)
  + [DescribeAttachment](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeAttachment)
  + [DescribeCases](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeCases)
  + [DescribeCommunications](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeCommunications)
  + [DescribeServices](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeServices)
  + [DescribeSeverityLevels](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeSeverityLevels)
  + [ResolveCase](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/ResolveCase)

## Tindakan
<a name="actions"></a>

### `AddAttachmentsToSet`
<a name="support_AddAttachmentsToSet_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddAttachmentsToSet`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    public static String addAttachment(SupportClient supportClient, String fileAttachment) {
        try {
            File myFile = new File(fileAttachment);
            InputStream sourceStream = new FileInputStream(myFile);
            SdkBytes sourceBytes = SdkBytes.fromInputStream(sourceStream);

            Attachment attachment = Attachment.builder()
                    .fileName(myFile.getName())
                    .data(sourceBytes)
                    .build();

            AddAttachmentsToSetRequest setRequest = AddAttachmentsToSetRequest.builder()
                    .attachments(attachment)
                    .build();

            AddAttachmentsToSetResponse response = supportClient.addAttachmentsToSet(setRequest);
            return response.attachmentSetId();

        } catch (SupportException | FileNotFoundException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [AddAttachmentsToSet](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/AddAttachmentsToSet)di *Referensi AWS SDK for Java 2.x API*. 

### `AddCommunicationToCase`
<a name="support_AddCommunicationToCase_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddCommunicationToCase`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    public static void addAttachSupportCase(SupportClient supportClient, String caseId, String attachmentSetId) {
        try {
            AddCommunicationToCaseRequest caseRequest = AddCommunicationToCaseRequest.builder()
                    .caseId(caseId)
                    .attachmentSetId(attachmentSetId)
                    .communicationBody("Please refer to attachment for details.")
                    .build();

            AddCommunicationToCaseResponse response = supportClient.addCommunicationToCase(caseRequest);
            if (response.result())
                System.out.println("You have successfully added a communication to an AWS Support case");
            else
                System.out.println("There was an error adding the communication to an AWS Support case");

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [AddCommunicationToCase](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/AddCommunicationToCase)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateCase`
<a name="support_CreateCase_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCase`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    public static String createSupportCase(SupportClient supportClient, List<String> sevCatList, String sevLevel) {
        try {
            String serviceCode = sevCatList.get(0);
            String caseCat = sevCatList.get(1);
            CreateCaseRequest caseRequest = CreateCaseRequest.builder()
                    .categoryCode(caseCat.toLowerCase())
                    .serviceCode(serviceCode.toLowerCase())
                    .severityCode(sevLevel.toLowerCase())
                    .communicationBody("Test issue with " + serviceCode.toLowerCase())
                    .subject("Test case, please ignore")
                    .language("en")
                    .issueType("technical")
                    .build();

            CreateCaseResponse response = supportClient.createCase(caseRequest);
            return response.caseId();

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [CreateCase](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/CreateCase)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeAttachment`
<a name="support_DescribeAttachment_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAttachment`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    public static void describeAttachment(SupportClient supportClient, String attachId) {
        try {
            DescribeAttachmentRequest attachmentRequest = DescribeAttachmentRequest.builder()
                    .attachmentId(attachId)
                    .build();

            DescribeAttachmentResponse response = supportClient.describeAttachment(attachmentRequest);
            System.out.println("The name of the file is " + response.attachment().fileName());

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeAttachment](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeAttachment)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeCases`
<a name="support_DescribeCases_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCases`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    public static void getOpenCase(SupportClient supportClient) {
        try {
            // Specify the start and end time.
            Instant now = Instant.now();
            java.time.LocalDate.now();
            Instant yesterday = now.minus(1, ChronoUnit.DAYS);

            DescribeCasesRequest describeCasesRequest = DescribeCasesRequest.builder()
                    .maxResults(20)
                    .afterTime(yesterday.toString())
                    .beforeTime(now.toString())
                    .build();

            DescribeCasesResponse response = supportClient.describeCases(describeCasesRequest);
            List<CaseDetails> cases = response.cases();
            for (CaseDetails sinCase : cases) {
                System.out.println("The case status is " + sinCase.status());
                System.out.println("The case Id is " + sinCase.caseId());
                System.out.println("The case subject is " + sinCase.subject());
            }

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [DescribeCases](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeCases)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeCommunications`
<a name="support_DescribeCommunications_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCommunications`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    public static String listCommunications(SupportClient supportClient, String caseId) {
        try {
            String attachId = null;
            DescribeCommunicationsRequest communicationsRequest = DescribeCommunicationsRequest.builder()
                    .caseId(caseId)
                    .maxResults(10)
                    .build();

            DescribeCommunicationsResponse response = supportClient.describeCommunications(communicationsRequest);
            List<Communication> communications = response.communications();
            for (Communication comm : communications) {
                System.out.println("the body is: " + comm.body());

                // Get the attachment id value.
                List<AttachmentDetails> attachments = comm.attachmentSet();
                for (AttachmentDetails detail : attachments) {
                    attachId = detail.attachmentId();
                }
            }
            return attachId;

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [DescribeCommunications](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeCommunications)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeServices`
<a name="support_DescribeServices_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeServices`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    // Return a List that contains a Service name and Category name.
    public static List<String> displayServices(SupportClient supportClient) {
        try {
            DescribeServicesRequest servicesRequest = DescribeServicesRequest.builder()
                    .language("en")
                    .build();

            DescribeServicesResponse response = supportClient.describeServices(servicesRequest);
            String serviceCode = null;
            String catName = null;
            List<String> sevCatList = new ArrayList<>();
            List<Service> services = response.services();

            System.out.println("Get the first 10 services");
            int index = 1;
            for (Service service : services) {
                if (index == 11)
                    break;

                System.out.println("The Service name is: " + service.name());
                if (service.name().compareTo("Account") == 0)
                    serviceCode = service.code();

                // Get the Categories for this service.
                List<Category> categories = service.categories();
                for (Category cat : categories) {
                    System.out.println("The category name is: " + cat.name());
                    if (cat.name().compareTo("Security") == 0)
                        catName = cat.name();
                }
                index++;
            }

            // Push the two values to the list.
            sevCatList.add(serviceCode);
            sevCatList.add(catName);
            return sevCatList;

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return null;
    }
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeServices)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeSeverityLevels`
<a name="support_DescribeSeverityLevels_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSeverityLevels`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    public static String displaySevLevels(SupportClient supportClient) {
        try {
            DescribeSeverityLevelsRequest severityLevelsRequest = DescribeSeverityLevelsRequest.builder()
                    .language("en")
                    .build();

            DescribeSeverityLevelsResponse response = supportClient.describeSeverityLevels(severityLevelsRequest);
            List<SeverityLevel> severityLevels = response.severityLevels();
            String levelName = null;
            for (SeverityLevel sevLevel : severityLevels) {
                System.out.println("The severity level name is: " + sevLevel.name());
                if (sevLevel.name().compareTo("High") == 0)
                    levelName = sevLevel.name();
            }
            return levelName;

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
        return "";
    }
```
+  Untuk detail API, lihat [DescribeSeverityLevels](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/DescribeSeverityLevels)di *Referensi AWS SDK for Java 2.x API*. 

### `ResolveCase`
<a name="support_ResolveCase_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResolveCase`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/support#code-examples). 

```
    public static void resolveSupportCase(SupportClient supportClient, String caseId) {
        try {
            ResolveCaseRequest caseRequest = ResolveCaseRequest.builder()
                    .caseId(caseId)
                    .build();

            ResolveCaseResponse response = supportClient.resolveCase(caseRequest);
            System.out.println("The status of case " + caseId + " is " + response.finalCaseStatus());

        } catch (SupportException e) {
            System.out.println(e.getLocalizedMessage());
            System.exit(1);
        }
    }
```
+  Untuk detail API, lihat [ResolveCase](https://docs.aws.amazon.com/goto/SdkForJavaV2/support-2013-04-15/ResolveCase)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Systems Manager menggunakan SDK for Java 2.x
<a name="java_2_ssm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Systems Manager.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Hello Systems Manager
<a name="ssm_Hello_java_2_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Systems Manager.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ssm.SsmClient;
import software.amazon.awssdk.services.ssm.model.DocumentFilter;
import software.amazon.awssdk.services.ssm.model.ListDocumentsRequest;
import software.amazon.awssdk.services.ssm.model.ListDocumentsResponse;

public class HelloSSM {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <awsAccount>

                Where:
                    awsAccount - Your AWS Account number.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String awsAccount = args[0] ;
        Region region = Region.US_EAST_1;
        SsmClient ssmClient = SsmClient.builder()
            .region(region)
            .build();

        listDocuments(ssmClient, awsAccount);
    }

    /*
    This code automatically fetches the next set of results using the `nextToken` and
    stops once the desired maxResults (20 in this case) have been reached.
    */
    public static void listDocuments(SsmClient ssmClient, String awsAccount) {
        String nextToken = null;
        int totalDocumentsReturned = 0;
        int maxResults = 20;
        do {
            ListDocumentsRequest request = ListDocumentsRequest.builder()
                .documentFilterList(
                    DocumentFilter.builder()
                        .key("Owner")
                        .value(awsAccount)
                        .build()
                    )
                .maxResults(maxResults)
                .nextToken(nextToken)
                .build();

            ListDocumentsResponse response = ssmClient.listDocuments(request);
            response.documentIdentifiers().forEach(identifier -> System.out.println("Document Name: " + identifier.name()));
            nextToken = response.nextToken();
            totalDocumentsReturned += response.documentIdentifiers().size();
        } while (nextToken != null && totalDocumentsReturned < maxResults);
    }
}
```
+  Untuk detail API, lihat [ListDocuments](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/ListDocuments)di *Referensi AWS SDK for Java 2.x API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ssm_Scenario_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat jendela pemeliharaan.
+ Ubah jadwal jendela pemeliharaan.
+ Buat dokumen.
+ Kirim perintah ke instance EC2 tertentu.
+ Buat sebuah OpsItem.
+ Perbarui dan selesaikan OpsItem.
+ Hapus jendela pemeliharaan, OpsItem, dan dokumen.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
import software.amazon.awssdk.services.ssm.model.DocumentAlreadyExistsException;
import software.amazon.awssdk.services.ssm.model.SsmException;

import java.util.Map;
import java.util.Scanner;
public class SSMScenario {
    public static final String DASHES = new String(new char[80]).replace("\0", "-");
    private static final String ROLES_STACK = "SsmStack3`1";

    public static void main(String[] args) {
        String usage = """
            Usage:
              <title> <source> <category> <severity>
      
            Where:
                title - The title of the parameter (default is Disk Space Alert).
                source - The source of the parameter (default is EC2).
                category - The category of the parameter. Valid values are 'Availability', 'Cost', 'Performance', 'Recovery', 'Security' (default is Performance).
                severity - The severity of the parameter. Severity should be a number from 1 to 4 (default is 2).
        """;

        Scanner scanner = new Scanner(System.in);
        SSMActions actions = new SSMActions();
        String documentName;
        String windowName;

        System.out.println("Use AWS CloudFormation to create the EC2 instance that is required for this scenario.");
        CloudFormationHelper.deployCloudFormationStack(ROLES_STACK);
        Map<String, String> stackOutputs = CloudFormationHelper.getStackOutputsAsync(ROLES_STACK).join();
        String instanceId = stackOutputs.get("InstanceId");
        System.out.println("The Instance ID: " + instanceId +" was created.");
        String title = "Disk Space Alert" ;
        String source = "EC2" ;
        String category = "Availability" ;
        String severity = "2" ;

        System.out.println(DASHES);
        System.out.println("""
                Welcome to the AWS Systems Manager SDK Basics scenario.
                This Java program demonstrates how to interact with AWS Systems Manager using the AWS SDK for Java (v2).
                AWS Systems Manager is the operations hub for your AWS applications and resources and a secure end-to-end management solution.
                The program's primary functionalities include creating a maintenance window, creating a document, sending a command to a document,
                listing documents, listing commands, creating an OpsItem, modifying an OpsItem, and deleting AWS SSM resources.
                Upon completion of the program, all AWS resources are cleaned up.
                Let's get started...
            
                """);
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println("1. Create an SSM maintenance window.");
        System.out.println("Please enter the maintenance window name (default is ssm-maintenance-window):");
        String win = scanner.nextLine();
        windowName = win.isEmpty() ? "ssm-maintenance-window" : win;
        String winId = null;
        try {
            winId = actions.createMaintenanceWindow(windowName);
            waitForInputToContinue(scanner);
            System.out.println("The maintenance window ID is: " + winId);
        } catch (DocumentAlreadyExistsException e) {
            System.err.println("The SSM maintenance window already exists. Retrieving existing window ID...");
            String existingWinId = actions.createMaintenanceWindow(windowName);
            System.out.println("Existing window ID: " + existingWinId);
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println("2. Modify the maintenance window by changing the schedule");
        waitForInputToContinue(scanner);
        try {
            actions.updateSSMMaintenanceWindow(winId, windowName);
            waitForInputToContinue(scanner);
            System.out.println("The SSM maintenance window was successfully updated");
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println("3. Create an SSM document that defines the actions that Systems Manager performs on your managed nodes.");
        System.out.println("Please enter the document name (default is ssmdocument):");
        String doc = scanner.nextLine();
        documentName = doc.isEmpty() ? "ssmdocument" : doc;
        try {
            actions.createSSMDoc(documentName);
            waitForInputToContinue(scanner);
            System.out.println("The SSM document was successfully created");
        } catch (DocumentAlreadyExistsException e) {
            System.err.println("The SSM document already exists. Moving on");
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println("4. Now we are going to run a command on an EC2 instance");
        waitForInputToContinue(scanner);
        String commandId="";
        try {
            commandId = actions.sendSSMCommand(documentName, instanceId);
            waitForInputToContinue(scanner);
            System.out.println("The command was successfully sent. Command ID: " + commandId);
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
        } catch (InterruptedException e) {
            System.err.println("Thread was interrupted: " + e.getMessage());
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println("5. Lets get the time when the specific command was sent to the specific managed node");
        waitForInputToContinue(scanner);
        try {
            actions.displayCommands(commandId);
            System.out.println("The command invocations were successfully displayed.");
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("""
             6. Now we will create an SSM OpsItem. 
             A SSM OpsItem is a feature provided by Amazon's Systems Manager (SSM) service. 
             It is a type of operational data item that allows you to manage and track various operational issues, 
             events, or tasks within your AWS environment.
             
             You can create OpsItems to track and manage operational issues as they arise. 
             For example, you could create an OpsItem whenever your application detects a critical error 
             or an anomaly in your infrastructure.
            """);

        waitForInputToContinue(scanner);
        String opsItemId;
        try {
            opsItemId = actions.createSSMOpsItem(title, source, category, severity);
            System.out.println(opsItemId + " was created");
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
            return;
        }
        waitForInputToContinue(scanner);
        System.out.println(DASHES);

        System.out.println(DASHES);
        System.out.println("7. Now we will update the SSM OpsItem "+opsItemId);
        waitForInputToContinue(scanner);
        String description = "An update to "+opsItemId ;
        try {
            actions.updateOpsItem(opsItemId, title, description);
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
            return;
        }

        System.out.println(DASHES);
        System.out.println("8. Now we will get the status of the SSM OpsItem "+opsItemId);
        waitForInputToContinue(scanner);
        try {
            actions.describeOpsItems(opsItemId);
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
            return;
        }

        System.out.println(DASHES);
        System.out.println("9. Now we will resolve the SSM OpsItem "+opsItemId);
        waitForInputToContinue(scanner);
        try {
            actions.resolveOpsItem(opsItemId);
        } catch (SsmException e) {
            System.err.println("SSM error: " + e.getMessage());
            return;
        } catch (RuntimeException e) {
            System.err.println("Unexpected error: " + e.getMessage());
            return;
        }

        System.out.println(DASHES);
        System.out.println("10. Would you like to delete the AWS Systems Manager resources? (y/n)");
        String delAns = scanner.nextLine().trim();
        if (delAns.equalsIgnoreCase("y")) {
            System.out.println("You selected to delete the resources.");
            waitForInputToContinue(scanner);
            try {
                actions.deleteMaintenanceWindow(winId);
                actions.deleteDoc(documentName);
            } catch (SsmException e) {
                System.err.println("SSM error: " + e.getMessage());
                return;
            } catch (RuntimeException e) {
                System.err.println("Unexpected error: " + e.getMessage());
                return;
            }
        } else {
            System.out.println("The AWS Systems Manager resources will not be deleted");
        }
        System.out.println(DASHES);
        CloudFormationHelper.destroyCloudFormationStack(ROLES_STACK);
        System.out.println("This concludes the AWS Systems Manager SDK Basics scenario.");
        System.out.println(DASHES);
    }

    private static void waitForInputToContinue(Scanner scanner) {
        while (true) {
            System.out.println("");
            System.out.println("Enter 'c' followed by <ENTER> to continue:");
            String input = scanner.nextLine();

            if (input.trim().equalsIgnoreCase("c")) {
                System.out.println("Continuing with the program...");
                System.out.println("");
                break;
            } else {
                // Handle invalid input.
                System.out.println("Invalid input. Please try again.");
            }
        }
    }
}
```
Kelas pembungkus untuk metode SDK Systems Manager.  

```
public class SSMActions {

    private static SsmAsyncClient ssmAsyncClient;

    private static SsmAsyncClient getAsyncClient() {
        if (ssmAsyncClient == null) {
            SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder()
                    .maxConcurrency(100)
                    .connectionTimeout(Duration.ofSeconds(60))
                    .readTimeout(Duration.ofSeconds(60))
                    .writeTimeout(Duration.ofSeconds(60))
                    .build();

            ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder()
                    .apiCallTimeout(Duration.ofMinutes(2))
                    .apiCallAttemptTimeout(Duration.ofSeconds(90))
                    .retryPolicy(RetryPolicy.builder()
                            .numRetries(3)
                            .build())
                    .build();

            ssmAsyncClient = SsmAsyncClient.builder()
                    .region(Region.US_WEST_2)
                    .httpClient(httpClient)
                    .overrideConfiguration(overrideConfig)
                    .build();
        }
        return ssmAsyncClient;
    }

    /**
     * Deletes an AWS SSM document asynchronously.
     *
     * @param documentName The name of the document to delete.
     * <p>
     * This method initiates an asynchronous request to delete an SSM document.
     * If an exception occurs, it handles the error appropriately.
     */
    public void deleteDoc(String documentName) {
        DeleteDocumentRequest documentRequest = DeleteDocumentRequest.builder()
                .name(documentName)
                .build();

        CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
            getAsyncClient().deleteDocument(documentRequest)
                    .thenAccept(response -> {
                        System.out.println("The SSM document was successfully deleted.");
                    })
                    .exceptionally(ex -> {
                        throw new CompletionException(ex);
                    }).join();
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }

    /**
     * Deletes an AWS SSM Maintenance Window asynchronously.
     *
     * @param winId The ID of the Maintenance Window to delete.
     * <p>
     * This method initiates an asynchronous request to delete an SSM Maintenance Window.
     * If an exception occurs, it handles the error appropriately.
     */
    public void deleteMaintenanceWindow(String winId) {
        DeleteMaintenanceWindowRequest windowRequest = DeleteMaintenanceWindowRequest.builder()
                .windowId(winId)
                .build();

        CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
            getAsyncClient().deleteMaintenanceWindow(windowRequest)
                    .thenAccept(response -> {
                        System.out.println("The maintenance window was successfully deleted.");
                    })
                    .exceptionally(ex -> {
                        throw new CompletionException(ex);
                    }).join();
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }

    /**
     * Resolves an AWS SSM OpsItem asynchronously.
     *
     * @param opsID The ID of the OpsItem to resolve.
     * <p>
     * This method initiates an asynchronous request to resolve an SSM OpsItem.
     * If an exception occurs, it handles the error appropriately.
     */
    public void resolveOpsItem(String opsID) {
        UpdateOpsItemRequest opsItemRequest = UpdateOpsItemRequest.builder()
                .opsItemId(opsID)
                .status(OpsItemStatus.RESOLVED)
                .build();

        CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
            getAsyncClient().updateOpsItem(opsItemRequest)
                    .thenAccept(response -> {
                        System.out.println("OpsItem resolved successfully.");
                    })
                    .exceptionally(ex -> {
                        throw new CompletionException(ex);
                    }).join();
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }

    /**
     * Describes AWS SSM OpsItems asynchronously.
     *
     * @param key The key to filter OpsItems by (e.g., OPS_ITEM_ID).
     *
     * This method initiates an asynchronous request to describe SSM OpsItems.
     * If the request is successful, it prints the title and status of each OpsItem.
     * If an exception occurs, it handles the error appropriately.
     */
    public void describeOpsItems(String key) {
        OpsItemFilter filter = OpsItemFilter.builder()
                .key(OpsItemFilterKey.OPS_ITEM_ID)
                .values(key)
                .operator(OpsItemFilterOperator.EQUAL)
                .build();

        DescribeOpsItemsRequest itemsRequest = DescribeOpsItemsRequest.builder()
                .maxResults(10)
                .opsItemFilters(filter)
                .build();

        CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
            getAsyncClient().describeOpsItems(itemsRequest)
                    .thenAccept(itemsResponse -> {
                        List<OpsItemSummary> items = itemsResponse.opsItemSummaries();
                        for (OpsItemSummary item : items) {
                            System.out.println("The item title is " + item.title() + " and the status is " + item.status().toString());
                        }
                    })
                    .exceptionally(ex -> {
                        throw new CompletionException(ex);
                    }).join();
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }

    /**
     * Updates the AWS SSM OpsItem asynchronously.
     *
     * @param opsItemId The ID of the OpsItem to update.
     * @param title The new title of the OpsItem.
     * @param description The new description of the OpsItem.
     * <p>
     * This method initiates an asynchronous request to update an SSM OpsItem.
     * If the request is successful, it completes without returning a value.
     * If an exception occurs, it handles the error appropriately.
     */
    public void updateOpsItem(String opsItemId, String title, String description) {
        Map<String, OpsItemDataValue> operationalData = new HashMap<>();
        operationalData.put("key1", OpsItemDataValue.builder().value("value1").build());
        operationalData.put("key2", OpsItemDataValue.builder().value("value2").build());

        CompletableFuture<Void> future = getOpsItem(opsItemId).thenCompose(opsItem -> {
            UpdateOpsItemRequest request = UpdateOpsItemRequest.builder()
                    .opsItemId(opsItemId)
                    .title(title)
                    .operationalData(operationalData)
                    .status(opsItem.statusAsString())
                    .description(description)
                    .build();

            return getAsyncClient().updateOpsItem(request).thenAccept(response -> {
                System.out.println(opsItemId + " updated successfully.");
            }).exceptionally(ex -> {
                throw new CompletionException(ex);
            });
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }


    private static CompletableFuture<OpsItem> getOpsItem(String opsItemId) {
        GetOpsItemRequest request = GetOpsItemRequest.builder().opsItemId(opsItemId).build();
        return getAsyncClient().getOpsItem(request).thenApply(GetOpsItemResponse::opsItem);
    }

    /**
     * Creates an SSM OpsItem asynchronously.
     *
     * @param title The title of the OpsItem.
     * @param source The source of the OpsItem.
     * @param category The category of the OpsItem.
     * @param severity The severity of the OpsItem.
     * @return The ID of the created OpsItem.
     * <p>
     * This method initiates an asynchronous request to create an SSM OpsItem.
     * If the request is successful, it returns the OpsItem ID.
     * If an exception occurs, it handles the error appropriately.
     */
    public String createSSMOpsItem(String title, String source, String category, String severity) {
        CreateOpsItemRequest opsItemRequest = CreateOpsItemRequest.builder()
                .description("Created by the SSM Java API")
                .title(title)
                .source(source)
                .category(category)
                .severity(severity)
                .build();

        CompletableFuture<CreateOpsItemResponse> future = getAsyncClient().createOpsItem(opsItemRequest);

        try {
            CreateOpsItemResponse response = future.join();
            return response.opsItemId();
        } catch (CompletionException e) {
            Throwable cause = e.getCause();
            if (cause instanceof SsmException) {
                throw (SsmException) cause;
            } else {
                throw new RuntimeException(cause);
            }
        }
    }

    /**
     * Displays the date and time when the specific command was invoked.
     *
     * @param commandId The ID of the command to describe.
     * <p>
     * This method initiates an asynchronous request to list command invocations and prints the date and time of each command invocation.
     * If an exception occurs, it handles the error appropriately.
     */
    public void displayCommands(String commandId) {
        ListCommandInvocationsRequest commandInvocationsRequest = ListCommandInvocationsRequest.builder()
                .commandId(commandId)
                .build();

        CompletableFuture<ListCommandInvocationsResponse> future = getAsyncClient().listCommandInvocations(commandInvocationsRequest);
        future.thenAccept(response -> {
            List<CommandInvocation> commandList = response.commandInvocations();
            DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss").withZone(ZoneId.systemDefault());
            for (CommandInvocation invocation : commandList) {
                System.out.println("The time of the command invocation is " + formatter.format(invocation.requestedDateTime()));
            }
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw (SsmException) cause;
            } else {
                throw new RuntimeException(cause);
            }
        }).join();
    }

    /**
     * Sends a SSM command to a managed node asynchronously.
     *
     * @param documentName The name of the document to use.
     * @param instanceId The ID of the instance to send the command to.
     * @return The command ID.
     * <p>
     * This method initiates asynchronous requests to send a SSM command to a managed node.
     * It waits until the document is active, sends the command, and checks the command execution status.
     */
    public String sendSSMCommand(String documentName, String instanceId) throws InterruptedException, SsmException {
        // Before we use Document to send a command - make sure it is active.
        CompletableFuture<Void> documentActiveFuture = CompletableFuture.runAsync(() -> {
            boolean isDocumentActive = false;
            DescribeDocumentRequest request = DescribeDocumentRequest.builder()
                    .name(documentName)
                    .build();

            while (!isDocumentActive) {
                CompletableFuture<DescribeDocumentResponse> response = getAsyncClient().describeDocument(request);
                String documentStatus = response.join().document().statusAsString();
                if (documentStatus.equals("Active")) {
                    System.out.println("The SSM document is active and ready to use.");
                    isDocumentActive = true;
                } else {
                    System.out.println("The SSM document is not active. Status: " + documentStatus);
                    try {
                        Thread.sleep(5000);
                    } catch (InterruptedException e) {
                        throw new RuntimeException(e);
                    }
                }
            }
        });

        documentActiveFuture.join();

        // Create the SendCommandRequest.
        SendCommandRequest commandRequest = SendCommandRequest.builder()
                .documentName(documentName)
                .instanceIds(instanceId)
                .build();

        // Send the command.
        CompletableFuture<SendCommandResponse> commandFuture = getAsyncClient().sendCommand(commandRequest);
        final String[] commandId = {null};

        commandFuture.whenComplete((commandResponse, ex) -> {
            if (commandResponse != null) {
                commandId[0] = commandResponse.command().commandId();
                System.out.println("Command ID: " + commandId[0]);

                // Wait for the command execution to complete.
                GetCommandInvocationRequest invocationRequest = GetCommandInvocationRequest.builder()
                        .commandId(commandId[0])
                        .instanceId(instanceId)
                        .build();

                try {
                    System.out.println("Wait 5 secs");
                    TimeUnit.SECONDS.sleep(5);

                    // Retrieve the command execution details.
                    CompletableFuture<GetCommandInvocationResponse> invocationFuture = getAsyncClient().getCommandInvocation(invocationRequest);
                    invocationFuture.whenComplete((commandInvocationResponse, invocationEx) -> {
                        if (commandInvocationResponse != null) {
                            // Check the status of the command execution.
                            CommandInvocationStatus status = commandInvocationResponse.status();
                            if (status == CommandInvocationStatus.SUCCESS) {
                                System.out.println("Command execution successful");
                            } else {
                                System.out.println("Command execution failed. Status: " + status);
                            }
                        } else {
                            Throwable invocationCause = (invocationEx instanceof CompletionException) ? invocationEx.getCause() : invocationEx;
                            throw new CompletionException(invocationCause);
                        }
                    }).join();
                } catch (InterruptedException e) {
                    throw new RuntimeException(e);
                }
            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof SsmException) {
                    throw (SsmException) cause;
                } else {
                    throw new RuntimeException(cause);
                }
            }
        }).join();

        return commandId[0];
    }

    /**
     * Creates an AWS SSM document asynchronously.
     *
     * @param docName The name of the document to create.
     * <p>
     * This method initiates an asynchronous request to create an SSM document.
     * If the request is successful, it prints the document status.
     * If an exception occurs, it handles the error appropriately.
     */
    public void createSSMDoc(String docName) throws SsmException {
        String jsonData = """
        {
        "schemaVersion": "2.2",
        "description": "Run a simple shell command",
        "mainSteps": [
            {
                "action": "aws:runShellScript",
                "name": "runEchoCommand",
                "inputs": {
                  "runCommand": [
                    "echo 'Hello, world!'"
                  ]
                }
              }
            ]
        }
        """;

        CreateDocumentRequest request = CreateDocumentRequest.builder()
                .content(jsonData)
                .name(docName)
                .documentType(DocumentType.COMMAND)
                .build();

        CompletableFuture<CreateDocumentResponse> future = getAsyncClient().createDocument(request);
        future.thenAccept(response -> {
            System.out.println("The status of the SSM document is " + response.documentDescription().status());
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof DocumentAlreadyExistsException) {
                throw new CompletionException(cause);
            } else if (cause instanceof SsmException) {
                throw new CompletionException(cause);
            } else {
                throw new RuntimeException(cause);
            }
        }).join();
    }

    /**
     * Updates an SSM maintenance window asynchronously.
     *
     * @param id The ID of the maintenance window to update.
     * @param name The new name for the maintenance window.
     * <p>
     * This method initiates an asynchronous request to update an SSM maintenance window.
     * If the request is successful, it prints a success message.
     * If an exception occurs, it handles the error appropriately.
     */
    public void updateSSMMaintenanceWindow(String id, String name) throws SsmException {
        UpdateMaintenanceWindowRequest updateRequest = UpdateMaintenanceWindowRequest.builder()
                .windowId(id)
                .allowUnassociatedTargets(true)
                .duration(24)
                .enabled(true)
                .name(name)
                .schedule("cron(0 0 ? * MON *)")
                .build();

        CompletableFuture<UpdateMaintenanceWindowResponse> future = getAsyncClient().updateMaintenanceWindow(updateRequest);
        future.whenComplete((response, ex) -> {
            if (response != null) {
                System.out.println("The SSM maintenance window was successfully updated");
            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof SsmException) {
                    throw new CompletionException(cause);
                } else {
                    throw new RuntimeException(cause);
                }
            }
        }).join();
    }

    /**
     * Creates an SSM maintenance window asynchronously.
     *
     * @param winName The name of the maintenance window.
     * @return The ID of the created or existing maintenance window.
     * <p>
     * This method initiates an asynchronous request to create an SSM maintenance window.
     * If the request is successful, it prints the maintenance window ID.
     * If an exception occurs, it handles the error appropriately.
     */
    public String createMaintenanceWindow(String winName) throws SsmException, DocumentAlreadyExistsException {
        CreateMaintenanceWindowRequest request = CreateMaintenanceWindowRequest.builder()
                .name(winName)
                .description("This is my maintenance window")
                .allowUnassociatedTargets(true)
                .duration(2)
                .cutoff(1)
                .schedule("cron(0 10 ? * MON-FRI *)")
                .build();

        CompletableFuture<CreateMaintenanceWindowResponse> future = getAsyncClient().createMaintenanceWindow(request);
        final String[] windowId = {null};
        future.whenComplete((response, ex) -> {
            if (response != null) {
                String maintenanceWindowId = response.windowId();
                System.out.println("The maintenance window id is " + maintenanceWindowId);
                windowId[0] = maintenanceWindowId;
            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof DocumentAlreadyExistsException) {
                    throw new CompletionException(cause);
                } else if (cause instanceof SsmException) {
                    throw new CompletionException(cause);
                } else {
                    throw new RuntimeException(cause);
                }
            }
        }).join();

        if (windowId[0] == null) {
            MaintenanceWindowFilter filter = MaintenanceWindowFilter.builder()
                    .key("name")
                    .values(winName)
                    .build();

            DescribeMaintenanceWindowsRequest winRequest = DescribeMaintenanceWindowsRequest.builder()
                    .filters(filter)
                    .build();

            CompletableFuture<DescribeMaintenanceWindowsResponse> describeFuture = getAsyncClient().describeMaintenanceWindows(winRequest);
            describeFuture.whenComplete((describeResponse, describeEx) -> {
                if (describeResponse != null) {
                    List<MaintenanceWindowIdentity> windows = describeResponse.windowIdentities();
                    if (!windows.isEmpty()) {
                        windowId[0] = windows.get(0).windowId();
                        System.out.println("Window ID: " + windowId[0]);
                    } else {
                        System.out.println("Window not found.");
                        windowId[0] = "";
                    }
                } else {
                    Throwable describeCause = (describeEx instanceof CompletionException) ? describeEx.getCause() : describeEx;
                    throw new RuntimeException("Error describing maintenance windows: " + describeCause.getMessage(), describeCause);
                }
            }).join();
        }

        return windowId[0];
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [CreateDocument](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/CreateDocument)
  + [CreateMaintenanceWindow](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/CreateMaintenanceWindow)
  + [CreateOpsItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/CreateOpsItem)
  + [DeleteMaintenanceWindow](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/DeleteMaintenanceWindow)
  + [ListCommandInvocations](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/ListCommandInvocations)
  + [SendCommand](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/SendCommand)
  + [UpdateOpsItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/UpdateOpsItem)

## Tindakan
<a name="actions"></a>

### `CreateDocument`
<a name="ssm_CreateDocument_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDocument`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Creates an AWS SSM document asynchronously.
     *
     * @param docName The name of the document to create.
     * <p>
     * This method initiates an asynchronous request to create an SSM document.
     * If the request is successful, it prints the document status.
     * If an exception occurs, it handles the error appropriately.
     */
    public void createSSMDoc(String docName) throws SsmException {
        String jsonData = """
        {
        "schemaVersion": "2.2",
        "description": "Run a simple shell command",
        "mainSteps": [
            {
                "action": "aws:runShellScript",
                "name": "runEchoCommand",
                "inputs": {
                  "runCommand": [
                    "echo 'Hello, world!'"
                  ]
                }
              }
            ]
        }
        """;

        CreateDocumentRequest request = CreateDocumentRequest.builder()
                .content(jsonData)
                .name(docName)
                .documentType(DocumentType.COMMAND)
                .build();

        CompletableFuture<CreateDocumentResponse> future = getAsyncClient().createDocument(request);
        future.thenAccept(response -> {
            System.out.println("The status of the SSM document is " + response.documentDescription().status());
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof DocumentAlreadyExistsException) {
                throw new CompletionException(cause);
            } else if (cause instanceof SsmException) {
                throw new CompletionException(cause);
            } else {
                throw new RuntimeException(cause);
            }
        }).join();
    }
```
+  Untuk detail API, lihat [CreateDocument](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/CreateDocument)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateMaintenanceWindow`
<a name="ssm_CreateMaintenanceWindow_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMaintenanceWindow`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Creates an SSM maintenance window asynchronously.
     *
     * @param winName The name of the maintenance window.
     * @return The ID of the created or existing maintenance window.
     * <p>
     * This method initiates an asynchronous request to create an SSM maintenance window.
     * If the request is successful, it prints the maintenance window ID.
     * If an exception occurs, it handles the error appropriately.
     */
    public String createMaintenanceWindow(String winName) throws SsmException, DocumentAlreadyExistsException {
        CreateMaintenanceWindowRequest request = CreateMaintenanceWindowRequest.builder()
                .name(winName)
                .description("This is my maintenance window")
                .allowUnassociatedTargets(true)
                .duration(2)
                .cutoff(1)
                .schedule("cron(0 10 ? * MON-FRI *)")
                .build();

        CompletableFuture<CreateMaintenanceWindowResponse> future = getAsyncClient().createMaintenanceWindow(request);
        final String[] windowId = {null};
        future.whenComplete((response, ex) -> {
            if (response != null) {
                String maintenanceWindowId = response.windowId();
                System.out.println("The maintenance window id is " + maintenanceWindowId);
                windowId[0] = maintenanceWindowId;
            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof DocumentAlreadyExistsException) {
                    throw new CompletionException(cause);
                } else if (cause instanceof SsmException) {
                    throw new CompletionException(cause);
                } else {
                    throw new RuntimeException(cause);
                }
            }
        }).join();

        if (windowId[0] == null) {
            MaintenanceWindowFilter filter = MaintenanceWindowFilter.builder()
                    .key("name")
                    .values(winName)
                    .build();

            DescribeMaintenanceWindowsRequest winRequest = DescribeMaintenanceWindowsRequest.builder()
                    .filters(filter)
                    .build();

            CompletableFuture<DescribeMaintenanceWindowsResponse> describeFuture = getAsyncClient().describeMaintenanceWindows(winRequest);
            describeFuture.whenComplete((describeResponse, describeEx) -> {
                if (describeResponse != null) {
                    List<MaintenanceWindowIdentity> windows = describeResponse.windowIdentities();
                    if (!windows.isEmpty()) {
                        windowId[0] = windows.get(0).windowId();
                        System.out.println("Window ID: " + windowId[0]);
                    } else {
                        System.out.println("Window not found.");
                        windowId[0] = "";
                    }
                } else {
                    Throwable describeCause = (describeEx instanceof CompletionException) ? describeEx.getCause() : describeEx;
                    throw new RuntimeException("Error describing maintenance windows: " + describeCause.getMessage(), describeCause);
                }
            }).join();
        }

        return windowId[0];
    }
```
+  Untuk detail API, lihat [CreateMaintenanceWindow](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/CreateMaintenanceWindow)di *Referensi AWS SDK for Java 2.x API*. 

### `CreateOpsItem`
<a name="ssm_CreateOpsItem_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOpsItem`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Creates an SSM OpsItem asynchronously.
     *
     * @param title The title of the OpsItem.
     * @param source The source of the OpsItem.
     * @param category The category of the OpsItem.
     * @param severity The severity of the OpsItem.
     * @return The ID of the created OpsItem.
     * <p>
     * This method initiates an asynchronous request to create an SSM OpsItem.
     * If the request is successful, it returns the OpsItem ID.
     * If an exception occurs, it handles the error appropriately.
     */
    public String createSSMOpsItem(String title, String source, String category, String severity) {
        CreateOpsItemRequest opsItemRequest = CreateOpsItemRequest.builder()
                .description("Created by the SSM Java API")
                .title(title)
                .source(source)
                .category(category)
                .severity(severity)
                .build();

        CompletableFuture<CreateOpsItemResponse> future = getAsyncClient().createOpsItem(opsItemRequest);

        try {
            CreateOpsItemResponse response = future.join();
            return response.opsItemId();
        } catch (CompletionException e) {
            Throwable cause = e.getCause();
            if (cause instanceof SsmException) {
                throw (SsmException) cause;
            } else {
                throw new RuntimeException(cause);
            }
        }
    }
```
+  Untuk detail API, lihat [CreateOpsItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/CreateOpsItem)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteDocument`
<a name="ssm_DeleteDocument_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDocument`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Deletes an AWS SSM document asynchronously.
     *
     * @param documentName The name of the document to delete.
     * <p>
     * This method initiates an asynchronous request to delete an SSM document.
     * If an exception occurs, it handles the error appropriately.
     */
    public void deleteDoc(String documentName) {
        DeleteDocumentRequest documentRequest = DeleteDocumentRequest.builder()
                .name(documentName)
                .build();

        CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
            getAsyncClient().deleteDocument(documentRequest)
                    .thenAccept(response -> {
                        System.out.println("The SSM document was successfully deleted.");
                    })
                    .exceptionally(ex -> {
                        throw new CompletionException(ex);
                    }).join();
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }
```
+  Untuk detail API, lihat [DeleteDocument](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/DeleteDocument)di *Referensi AWS SDK for Java 2.x API*. 

### `DeleteMaintenanceWindow`
<a name="ssm_DeleteMaintenanceWindow_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMaintenanceWindow`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Deletes an AWS SSM Maintenance Window asynchronously.
     *
     * @param winId The ID of the Maintenance Window to delete.
     * <p>
     * This method initiates an asynchronous request to delete an SSM Maintenance Window.
     * If an exception occurs, it handles the error appropriately.
     */
    public void deleteMaintenanceWindow(String winId) {
        DeleteMaintenanceWindowRequest windowRequest = DeleteMaintenanceWindowRequest.builder()
                .windowId(winId)
                .build();

        CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
            getAsyncClient().deleteMaintenanceWindow(windowRequest)
                    .thenAccept(response -> {
                        System.out.println("The maintenance window was successfully deleted.");
                    })
                    .exceptionally(ex -> {
                        throw new CompletionException(ex);
                    }).join();
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }
```
+  Untuk detail API, lihat [DeleteMaintenanceWindow](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/DeleteMaintenanceWindow)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeOpsItems`
<a name="ssm_DescribeOpsItems_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOpsItems`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Describes AWS SSM OpsItems asynchronously.
     *
     * @param key The key to filter OpsItems by (e.g., OPS_ITEM_ID).
     *
     * This method initiates an asynchronous request to describe SSM OpsItems.
     * If the request is successful, it prints the title and status of each OpsItem.
     * If an exception occurs, it handles the error appropriately.
     */
    public void describeOpsItems(String key) {
        OpsItemFilter filter = OpsItemFilter.builder()
                .key(OpsItemFilterKey.OPS_ITEM_ID)
                .values(key)
                .operator(OpsItemFilterOperator.EQUAL)
                .build();

        DescribeOpsItemsRequest itemsRequest = DescribeOpsItemsRequest.builder()
                .maxResults(10)
                .opsItemFilters(filter)
                .build();

        CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
            getAsyncClient().describeOpsItems(itemsRequest)
                    .thenAccept(itemsResponse -> {
                        List<OpsItemSummary> items = itemsResponse.opsItemSummaries();
                        for (OpsItemSummary item : items) {
                            System.out.println("The item title is " + item.title() + " and the status is " + item.status().toString());
                        }
                    })
                    .exceptionally(ex -> {
                        throw new CompletionException(ex);
                    }).join();
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }
```
+  Untuk detail API, lihat [DescribeOpsItems](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/DescribeOpsItems)di *Referensi AWS SDK for Java 2.x API*. 

### `DescribeParameters`
<a name="ssm_DescribeParameters_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeParameters`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ssm.SsmClient;
import software.amazon.awssdk.services.ssm.model.GetParameterRequest;
import software.amazon.awssdk.services.ssm.model.GetParameterResponse;
import software.amazon.awssdk.services.ssm.model.SsmException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class GetParameter {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <paraName>

                Where:
                    paraName - The name of the parameter.
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String paraName = args[0];
        Region region = Region.US_EAST_1;
        SsmClient ssmClient = SsmClient.builder()
                .region(region)
                .build();

        getParaValue(ssmClient, paraName);
        ssmClient.close();
    }

    public static void getParaValue(SsmClient ssmClient, String paraName) {
        try {
            GetParameterRequest parameterRequest = GetParameterRequest.builder()
                    .name(paraName)
                    .build();

            GetParameterResponse parameterResponse = ssmClient.getParameter(parameterRequest);
            System.out.println("The parameter value is " + parameterResponse.parameter().value());

        } catch (SsmException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DescribeParameters](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/DescribeParameters)di *Referensi AWS SDK for Java 2.x API*. 

### `PutParameter`
<a name="ssm_PutParameter_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutParameter`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.ssm.SsmClient;
import software.amazon.awssdk.services.ssm.model.ParameterType;
import software.amazon.awssdk.services.ssm.model.PutParameterRequest;
import software.amazon.awssdk.services.ssm.model.SsmException;

public class PutParameter {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <paraName>

                Where:
                    paraName - The name of the parameter.
                    paraValue - The value of the parameter.
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String paraName = args[0];
        String paraValue = args[1];
        Region region = Region.US_EAST_1;
        SsmClient ssmClient = SsmClient.builder()
                .region(region)
                .build();

        putParaValue(ssmClient, paraName, paraValue);
        ssmClient.close();
    }

    public static void putParaValue(SsmClient ssmClient, String paraName, String value) {
        try {
            PutParameterRequest parameterRequest = PutParameterRequest.builder()
                    .name(paraName)
                    .type(ParameterType.STRING)
                    .value(value)
                    .build();

            ssmClient.putParameter(parameterRequest);
            System.out.println("The parameter was successfully added.");

        } catch (SsmException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [PutParameter](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/PutParameter)di *Referensi AWS SDK for Java 2.x API*. 

### `SendCommand`
<a name="ssm_SendCommand_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendCommand`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Sends a SSM command to a managed node asynchronously.
     *
     * @param documentName The name of the document to use.
     * @param instanceId The ID of the instance to send the command to.
     * @return The command ID.
     * <p>
     * This method initiates asynchronous requests to send a SSM command to a managed node.
     * It waits until the document is active, sends the command, and checks the command execution status.
     */
    public String sendSSMCommand(String documentName, String instanceId) throws InterruptedException, SsmException {
        // Before we use Document to send a command - make sure it is active.
        CompletableFuture<Void> documentActiveFuture = CompletableFuture.runAsync(() -> {
            boolean isDocumentActive = false;
            DescribeDocumentRequest request = DescribeDocumentRequest.builder()
                    .name(documentName)
                    .build();

            while (!isDocumentActive) {
                CompletableFuture<DescribeDocumentResponse> response = getAsyncClient().describeDocument(request);
                String documentStatus = response.join().document().statusAsString();
                if (documentStatus.equals("Active")) {
                    System.out.println("The SSM document is active and ready to use.");
                    isDocumentActive = true;
                } else {
                    System.out.println("The SSM document is not active. Status: " + documentStatus);
                    try {
                        Thread.sleep(5000);
                    } catch (InterruptedException e) {
                        throw new RuntimeException(e);
                    }
                }
            }
        });

        documentActiveFuture.join();

        // Create the SendCommandRequest.
        SendCommandRequest commandRequest = SendCommandRequest.builder()
                .documentName(documentName)
                .instanceIds(instanceId)
                .build();

        // Send the command.
        CompletableFuture<SendCommandResponse> commandFuture = getAsyncClient().sendCommand(commandRequest);
        final String[] commandId = {null};

        commandFuture.whenComplete((commandResponse, ex) -> {
            if (commandResponse != null) {
                commandId[0] = commandResponse.command().commandId();
                System.out.println("Command ID: " + commandId[0]);

                // Wait for the command execution to complete.
                GetCommandInvocationRequest invocationRequest = GetCommandInvocationRequest.builder()
                        .commandId(commandId[0])
                        .instanceId(instanceId)
                        .build();

                try {
                    System.out.println("Wait 5 secs");
                    TimeUnit.SECONDS.sleep(5);

                    // Retrieve the command execution details.
                    CompletableFuture<GetCommandInvocationResponse> invocationFuture = getAsyncClient().getCommandInvocation(invocationRequest);
                    invocationFuture.whenComplete((commandInvocationResponse, invocationEx) -> {
                        if (commandInvocationResponse != null) {
                            // Check the status of the command execution.
                            CommandInvocationStatus status = commandInvocationResponse.status();
                            if (status == CommandInvocationStatus.SUCCESS) {
                                System.out.println("Command execution successful");
                            } else {
                                System.out.println("Command execution failed. Status: " + status);
                            }
                        } else {
                            Throwable invocationCause = (invocationEx instanceof CompletionException) ? invocationEx.getCause() : invocationEx;
                            throw new CompletionException(invocationCause);
                        }
                    }).join();
                } catch (InterruptedException e) {
                    throw new RuntimeException(e);
                }
            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof SsmException) {
                    throw (SsmException) cause;
                } else {
                    throw new RuntimeException(cause);
                }
            }
        }).join();

        return commandId[0];
    }
```
+  Untuk detail API, lihat [SendCommand](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/SendCommand)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateMaintenanceWindow`
<a name="ssm_UpdateMaintenanceWindow_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateMaintenanceWindow`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Updates an SSM maintenance window asynchronously.
     *
     * @param id The ID of the maintenance window to update.
     * @param name The new name for the maintenance window.
     * <p>
     * This method initiates an asynchronous request to update an SSM maintenance window.
     * If the request is successful, it prints a success message.
     * If an exception occurs, it handles the error appropriately.
     */
    public void updateSSMMaintenanceWindow(String id, String name) throws SsmException {
        UpdateMaintenanceWindowRequest updateRequest = UpdateMaintenanceWindowRequest.builder()
                .windowId(id)
                .allowUnassociatedTargets(true)
                .duration(24)
                .enabled(true)
                .name(name)
                .schedule("cron(0 0 ? * MON *)")
                .build();

        CompletableFuture<UpdateMaintenanceWindowResponse> future = getAsyncClient().updateMaintenanceWindow(updateRequest);
        future.whenComplete((response, ex) -> {
            if (response != null) {
                System.out.println("The SSM maintenance window was successfully updated");
            } else {
                Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
                if (cause instanceof SsmException) {
                    throw new CompletionException(cause);
                } else {
                    throw new RuntimeException(cause);
                }
            }
        }).join();
    }
```
+  Untuk detail API, lihat [UpdateMaintenanceWindow](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/UpdateMaintenanceWindow)di *Referensi AWS SDK for Java 2.x API*. 

### `UpdateOpsItem`
<a name="ssm_UpdateOpsItem_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateOpsItem`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ssm#code-examples). 

```
    /**
     * Resolves an AWS SSM OpsItem asynchronously.
     *
     * @param opsID The ID of the OpsItem to resolve.
     * <p>
     * This method initiates an asynchronous request to resolve an SSM OpsItem.
     * If an exception occurs, it handles the error appropriately.
     */
    public void resolveOpsItem(String opsID) {
        UpdateOpsItemRequest opsItemRequest = UpdateOpsItemRequest.builder()
                .opsItemId(opsID)
                .status(OpsItemStatus.RESOLVED)
                .build();

        CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
            getAsyncClient().updateOpsItem(opsItemRequest)
                    .thenAccept(response -> {
                        System.out.println("OpsItem resolved successfully.");
                    })
                    .exceptionally(ex -> {
                        throw new CompletionException(ex);
                    }).join();
        }).exceptionally(ex -> {
            Throwable cause = (ex instanceof CompletionException) ? ex.getCause() : ex;
            if (cause instanceof SsmException) {
                throw new RuntimeException("SSM error: " + cause.getMessage(), cause);
            } else {
                throw new RuntimeException("Unexpected error: " + cause.getMessage(), cause);
            }
        });

        try {
            future.join();
        } catch (CompletionException ex) {
            throw ex.getCause() instanceof RuntimeException ? (RuntimeException) ex.getCause() : ex;
        }
    }
```
+  Untuk detail API, lihat [UpdateOpsItem](https://docs.aws.amazon.com/goto/SdkForJavaV2/ssm-2014-11-06/UpdateOpsItem)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon Texttract menggunakan SDK for Java 2.x
<a name="java_2_textract_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Textract. AWS SDK for Java 2.x 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AnalyzeDocument`
<a name="textract_AnalyzeDocument_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AnalyzeDocument`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/textract#code-examples). 

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.textract.TextractClient;
import software.amazon.awssdk.services.textract.model.AnalyzeDocumentRequest;
import software.amazon.awssdk.services.textract.model.Document;
import software.amazon.awssdk.services.textract.model.FeatureType;
import software.amazon.awssdk.services.textract.model.AnalyzeDocumentResponse;
import software.amazon.awssdk.services.textract.model.Block;
import software.amazon.awssdk.services.textract.model.TextractException;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class AnalyzeDocument {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <sourceDoc>\s

                Where:
                    sourceDoc - The path where the document is located (must be an image, for example, C:/AWS/book.png).\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String sourceDoc = args[0];
        Region region = Region.US_EAST_2;
        TextractClient textractClient = TextractClient.builder()
                .region(region)
                .build();

        analyzeDoc(textractClient, sourceDoc);
        textractClient.close();
    }

    public static void analyzeDoc(TextractClient textractClient, String sourceDoc) {
        try {
            InputStream sourceStream = new FileInputStream(new File(sourceDoc));
            SdkBytes sourceBytes = SdkBytes.fromInputStream(sourceStream);

            // Get the input Document object as bytes
            Document myDoc = Document.builder()
                    .bytes(sourceBytes)
                    .build();

            List<FeatureType> featureTypes = new ArrayList<FeatureType>();
            featureTypes.add(FeatureType.FORMS);
            featureTypes.add(FeatureType.TABLES);

            AnalyzeDocumentRequest analyzeDocumentRequest = AnalyzeDocumentRequest.builder()
                    .featureTypes(featureTypes)
                    .document(myDoc)
                    .build();

            AnalyzeDocumentResponse analyzeDocument = textractClient.analyzeDocument(analyzeDocumentRequest);
            List<Block> docInfo = analyzeDocument.blocks();
            Iterator<Block> blockIterator = docInfo.iterator();

            while (blockIterator.hasNext()) {
                Block block = blockIterator.next();
                System.out.println("The block type is " + block.blockType().toString());
            }

        } catch (TextractException | FileNotFoundException e) {

            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [AnalyzeDocument](https://docs.aws.amazon.com/goto/SdkForJavaV2/textract-2018-06-27/AnalyzeDocument)di *Referensi AWS SDK for Java 2.x API*. 

### `DetectDocumentText`
<a name="textract_DetectDocumentText_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectDocumentText`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/textract#code-examples). 
Mendeteksi teks dari dokumen input.  

```
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.textract.TextractClient;
import software.amazon.awssdk.services.textract.model.Document;
import software.amazon.awssdk.services.textract.model.DetectDocumentTextRequest;
import software.amazon.awssdk.services.textract.model.DetectDocumentTextResponse;
import software.amazon.awssdk.services.textract.model.Block;
import software.amazon.awssdk.services.textract.model.DocumentMetadata;
import software.amazon.awssdk.services.textract.model.TextractException;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectDocumentText {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <sourceDoc>\s

                Where:
                    sourceDoc - The path where the document is located (must be an image, for example, C:/AWS/book.png).\s
                """;

        if (args.length != 1) {
            System.out.println(usage);
            System.exit(1);
        }

        String sourceDoc = args[0];
        Region region = Region.US_EAST_2;
        TextractClient textractClient = TextractClient.builder()
                .region(region)
                .build();

        detectDocText(textractClient, sourceDoc);
        textractClient.close();
    }

    public static void detectDocText(TextractClient textractClient, String sourceDoc) {
        try {
            InputStream sourceStream = new FileInputStream(new File(sourceDoc));
            SdkBytes sourceBytes = SdkBytes.fromInputStream(sourceStream);

            // Get the input Document object as bytes.
            Document myDoc = Document.builder()
                    .bytes(sourceBytes)
                    .build();

            DetectDocumentTextRequest detectDocumentTextRequest = DetectDocumentTextRequest.builder()
                    .document(myDoc)
                    .build();

            // Invoke the Detect operation.
            DetectDocumentTextResponse textResponse = textractClient.detectDocumentText(detectDocumentTextRequest);
            List<Block> docInfo = textResponse.blocks();
            for (Block block : docInfo) {
                System.out.println("The block type is " + block.blockType().toString());
            }

            DocumentMetadata documentMetadata = textResponse.documentMetadata();
            System.out.println("The number of pages in the document is " + documentMetadata.pages());

        } catch (TextractException | FileNotFoundException e) {

            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
Mendeteksi teks dari dokumen yang terletak di bucket Amazon S3.  

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.textract.model.S3Object;
import software.amazon.awssdk.services.textract.TextractClient;
import software.amazon.awssdk.services.textract.model.Document;
import software.amazon.awssdk.services.textract.model.DetectDocumentTextRequest;
import software.amazon.awssdk.services.textract.model.DetectDocumentTextResponse;
import software.amazon.awssdk.services.textract.model.Block;
import software.amazon.awssdk.services.textract.model.DocumentMetadata;
import software.amazon.awssdk.services.textract.model.TextractException;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class DetectDocumentTextS3 {

    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <bucketName> <docName>\s

                Where:
                    bucketName - The name of the Amazon S3 bucket that contains the document.\s

                    docName - The document name (must be an image, i.e., book.png).\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String docName = args[1];
        Region region = Region.US_WEST_2;
        TextractClient textractClient = TextractClient.builder()
                .region(region)
                .build();

        detectDocTextS3(textractClient, bucketName, docName);
        textractClient.close();
    }

    public static void detectDocTextS3(TextractClient textractClient, String bucketName, String docName) {
        try {
            S3Object s3Object = S3Object.builder()
                    .bucket(bucketName)
                    .name(docName)
                    .build();

            // Create a Document object and reference the s3Object instance.
            Document myDoc = Document.builder()
                    .s3Object(s3Object)
                    .build();

            DetectDocumentTextRequest detectDocumentTextRequest = DetectDocumentTextRequest.builder()
                    .document(myDoc)
                    .build();

            DetectDocumentTextResponse textResponse = textractClient.detectDocumentText(detectDocumentTextRequest);
            for (Block block : textResponse.blocks()) {
                System.out.println("The block type is " + block.blockType().toString());
            }

            DocumentMetadata documentMetadata = textResponse.documentMetadata();
            System.out.println("The number of pages in the document is " + documentMetadata.pages());

        } catch (TextractException e) {

            System.err.println(e.getMessage());
            System.exit(1);
        }
    }
}
```
+  Untuk detail API, lihat [DetectDocumentText](https://docs.aws.amazon.com/goto/SdkForJavaV2/textract-2018-06-27/DetectDocumentText)di *Referensi AWS SDK for Java 2.x API*. 

### `StartDocumentAnalysis`
<a name="textract_StartDocumentAnalysis_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDocumentAnalysis`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/textract#code-examples). 

```
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.textract.model.S3Object;
import software.amazon.awssdk.services.textract.TextractClient;
import software.amazon.awssdk.services.textract.model.StartDocumentAnalysisRequest;
import software.amazon.awssdk.services.textract.model.DocumentLocation;
import software.amazon.awssdk.services.textract.model.TextractException;
import software.amazon.awssdk.services.textract.model.StartDocumentAnalysisResponse;
import software.amazon.awssdk.services.textract.model.GetDocumentAnalysisRequest;
import software.amazon.awssdk.services.textract.model.GetDocumentAnalysisResponse;
import software.amazon.awssdk.services.textract.model.FeatureType;
import java.util.ArrayList;
import java.util.List;

/**
 * Before running this Java V2 code example, set up your development
 * environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */
public class StartDocumentAnalysis {
    public static void main(String[] args) {
        final String usage = """

                Usage:
                    <bucketName> <docName>\s

                Where:
                    bucketName - The name of the Amazon S3 bucket that contains the document.\s
                    docName - The document name (must be an image, for example, book.png).\s
                """;

        if (args.length != 2) {
            System.out.println(usage);
            System.exit(1);
        }

        String bucketName = args[0];
        String docName = args[1];
        Region region = Region.US_WEST_2;
        TextractClient textractClient = TextractClient.builder()
                .region(region)
                .build();

        String jobId = startDocAnalysisS3(textractClient, bucketName, docName);
        System.out.println("Getting results for job " + jobId);
        String status = getJobResults(textractClient, jobId);
        System.out.println("The job status is " + status);
        textractClient.close();
    }

    public static String startDocAnalysisS3(TextractClient textractClient, String bucketName, String docName) {
        try {
            List<FeatureType> myList = new ArrayList<>();
            myList.add(FeatureType.TABLES);
            myList.add(FeatureType.FORMS);

            S3Object s3Object = S3Object.builder()
                    .bucket(bucketName)
                    .name(docName)
                    .build();

            DocumentLocation location = DocumentLocation.builder()
                    .s3Object(s3Object)
                    .build();

            StartDocumentAnalysisRequest documentAnalysisRequest = StartDocumentAnalysisRequest.builder()
                    .documentLocation(location)
                    .featureTypes(myList)
                    .build();

            StartDocumentAnalysisResponse response = textractClient.startDocumentAnalysis(documentAnalysisRequest);

            // Get the job ID
            String jobId = response.jobId();
            return jobId;

        } catch (TextractException e) {
            System.err.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }

    private static String getJobResults(TextractClient textractClient, String jobId) {
        boolean finished = false;
        int index = 0;
        String status = "";

        try {
            while (!finished) {
                GetDocumentAnalysisRequest analysisRequest = GetDocumentAnalysisRequest.builder()
                        .jobId(jobId)
                        .maxResults(1000)
                        .build();

                GetDocumentAnalysisResponse response = textractClient.getDocumentAnalysis(analysisRequest);
                status = response.jobStatus().toString();

                if (status.compareTo("SUCCEEDED") == 0)
                    finished = true;
                else {
                    System.out.println(index + " status is: " + status);
                    Thread.sleep(1000);
                }
                index++;
            }

            return status;

        } catch (InterruptedException e) {
            System.out.println(e.getMessage());
            System.exit(1);
        }
        return "";
    }
}
```
+  Untuk detail API, lihat [StartDocumentAnalysis](https://docs.aws.amazon.com/goto/SdkForJavaV2/textract-2018-06-27/StartDocumentAnalysis)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Java 2.x**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_fsa_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon Transcribe menggunakan SDK for Java 2.x
<a name="java_2_transcribe_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan AWS SDK for Java 2.x with Amazon Transcribe.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `ListTranscriptionJobs`
<a name="transcribe_ListTranscriptionJobs_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTranscriptionJobs`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/transcribe#code-examples). 

```
public class ListTranscriptionJobs {
    public static void main(String[] args) {
        TranscribeClient transcribeClient = TranscribeClient.builder()
            .region(Region.US_EAST_1)
            .build();

            listTranscriptionJobs(transcribeClient);
        }

        public static void listTranscriptionJobs(TranscribeClient transcribeClient) {
            ListTranscriptionJobsRequest listJobsRequest = ListTranscriptionJobsRequest.builder()
                .build();

            transcribeClient.listTranscriptionJobsPaginator(listJobsRequest).stream()
                .flatMap(response -> response.transcriptionJobSummaries().stream())
                .forEach(jobSummary -> {
                    System.out.println("Job Name: " + jobSummary.transcriptionJobName());
                    System.out.println("Job Status: " + jobSummary.transcriptionJobStatus());
                    System.out.println("Output Location: " + jobSummary.outputLocationType());
                    // Add more information as needed

                    // Retrieve additional details for the job if necessary
                    GetTranscriptionJobResponse jobDetails = transcribeClient.getTranscriptionJob(
                        GetTranscriptionJobRequest.builder()
                            .transcriptionJobName(jobSummary.transcriptionJobName())
                            .build());

                    // Display additional details
                    System.out.println("Language Code: " + jobDetails.transcriptionJob().languageCode());
                    System.out.println("Media Format: " + jobDetails.transcriptionJob().mediaFormat());
                    // Add more details as needed

                    System.out.println("--------------");
                });
        }
    }
```
+  Untuk detail API, lihat [ListTranscriptionJobs](https://docs.aws.amazon.com/goto/SdkForJavaV2/transcribe-2017-10-26/ListTranscriptionJobs)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Transcribe audio dan dapatkan data pekerjaan
<a name="transcribe_Scenario_GettingStartedTranscriptionJobs_java_2_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulai pekerjaan transkripsi dengan Amazon Transcribe.
+ Tunggu hingga tugas selesai.
+ Dapatkan URI tempat transkrip disimpan.

Untuk informasi selengkapnya, lihat [Memulai Amazon Transcribe](https://docs.aws.amazon.com/transcribe/latest/dg/getting-started.html).

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/transcribe#code-examples). 
Mentranskripsikan file PCM.  

```
/**
 * To run this AWS code example, ensure that you have set up your development
 * environment, including your AWS credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class TranscribeStreamingDemoFile {
    private static final Region REGION = Region.US_EAST_1;
    private static TranscribeStreamingAsyncClient client;

    public static void main(String args[]) throws ExecutionException, InterruptedException {

        final String USAGE = "\n" +
                "Usage:\n" +
                "    <file> \n\n" +
                "Where:\n" +
                "    file - the location of a PCM file to transcribe. In this example, ensure the PCM file is 16 hertz (Hz). \n";

        if (args.length != 1) {
            System.out.println(USAGE);
            System.exit(1);
        }

        String file = args[0];
        client = TranscribeStreamingAsyncClient.builder()
                .region(REGION)
                .build();

        CompletableFuture<Void> result = client.startStreamTranscription(getRequest(16_000),
                new AudioStreamPublisher(getStreamFromFile(file)),
                getResponseHandler());

        result.get();
        client.close();
    }

    private static InputStream getStreamFromFile(String file) {
        try {
            File inputFile = new File(file);
            InputStream audioStream = new FileInputStream(inputFile);
            return audioStream;

        } catch (FileNotFoundException e) {
            throw new RuntimeException(e);
        }
    }

    private static StartStreamTranscriptionRequest getRequest(Integer mediaSampleRateHertz) {
        return StartStreamTranscriptionRequest.builder()
                .languageCode(LanguageCode.EN_US)
                .mediaEncoding(MediaEncoding.PCM)
                .mediaSampleRateHertz(mediaSampleRateHertz)
                .build();
    }

    private static StartStreamTranscriptionResponseHandler getResponseHandler() {
        return StartStreamTranscriptionResponseHandler.builder()
                .onResponse(r -> {
                    System.out.println("Received Initial response");
                })
                .onError(e -> {
                    System.out.println(e.getMessage());
                    StringWriter sw = new StringWriter();
                    e.printStackTrace(new PrintWriter(sw));
                    System.out.println("Error Occurred: " + sw.toString());
                })
                .onComplete(() -> {
                    System.out.println("=== All records stream successfully ===");
                })
                .subscriber(event -> {
                    List<Result> results = ((TranscriptEvent) event).transcript().results();
                    if (results.size() > 0) {
                        if (!results.get(0).alternatives().get(0).transcript().isEmpty()) {
                            System.out.println(results.get(0).alternatives().get(0).transcript());
                        }
                    }
                })
                .build();
    }

    private static class AudioStreamPublisher implements Publisher<AudioStream> {
        private final InputStream inputStream;
        private static Subscription currentSubscription;

        private AudioStreamPublisher(InputStream inputStream) {
            this.inputStream = inputStream;
        }

        @Override
        public void subscribe(Subscriber<? super AudioStream> s) {

            if (this.currentSubscription == null) {
                this.currentSubscription = new SubscriptionImpl(s, inputStream);
            } else {
                this.currentSubscription.cancel();
                this.currentSubscription = new SubscriptionImpl(s, inputStream);
            }
            s.onSubscribe(currentSubscription);
        }
    }

    public static class SubscriptionImpl implements Subscription {
        private static final int CHUNK_SIZE_IN_BYTES = 1024 * 1;
        private final Subscriber<? super AudioStream> subscriber;
        private final InputStream inputStream;
        private ExecutorService executor = Executors.newFixedThreadPool(1);
        private AtomicLong demand = new AtomicLong(0);

        SubscriptionImpl(Subscriber<? super AudioStream> s, InputStream inputStream) {
            this.subscriber = s;
            this.inputStream = inputStream;
        }

        @Override
        public void request(long n) {
            if (n <= 0) {
                subscriber.onError(new IllegalArgumentException("Demand must be positive"));
            }

            demand.getAndAdd(n);

            executor.submit(() -> {
                try {
                    do {
                        ByteBuffer audioBuffer = getNextEvent();
                        if (audioBuffer.remaining() > 0) {
                            AudioEvent audioEvent = audioEventFromBuffer(audioBuffer);
                            subscriber.onNext(audioEvent);
                        } else {
                            subscriber.onComplete();
                            break;
                        }
                    } while (demand.decrementAndGet() > 0);
                } catch (Exception e) {
                    subscriber.onError(e);
                }
            });
        }

        @Override
        public void cancel() {
            executor.shutdown();
        }

        private ByteBuffer getNextEvent() {
            ByteBuffer audioBuffer = null;
            byte[] audioBytes = new byte[CHUNK_SIZE_IN_BYTES];

            int len = 0;
            try {
                len = inputStream.read(audioBytes);

                if (len <= 0) {
                    audioBuffer = ByteBuffer.allocate(0);
                } else {
                    audioBuffer = ByteBuffer.wrap(audioBytes, 0, len);
                }
            } catch (IOException e) {
                throw new UncheckedIOException(e);
            }

            return audioBuffer;
        }

        private AudioEvent audioEventFromBuffer(ByteBuffer bb) {
            return AudioEvent.builder()
                    .audioChunk(SdkBytes.fromByteBuffer(bb))
                    .build();
        }
    }
}
```
Mentranskripsikan audio streaming dari mikrofon komputer Anda.  

```
public class TranscribeStreamingDemoApp {
    private static final Region REGION = Region.US_EAST_1;
    private static TranscribeStreamingAsyncClient client;

    public static void main(String[] args)
            throws URISyntaxException, ExecutionException, InterruptedException, LineUnavailableException {

        client = TranscribeStreamingAsyncClient.builder()
                .credentialsProvider(getCredentials())
                .region(REGION)
                .build();

        CompletableFuture<Void> result = client.startStreamTranscription(getRequest(16_000),
                new AudioStreamPublisher(getStreamFromMic()),
                getResponseHandler());

        result.get();
        client.close();
    }

    private static InputStream getStreamFromMic() throws LineUnavailableException {

        // Signed PCM AudioFormat with 16kHz, 16 bit sample size, mono
        int sampleRate = 16000;
        AudioFormat format = new AudioFormat(sampleRate, 16, 1, true, false);
        DataLine.Info info = new DataLine.Info(TargetDataLine.class, format);

        if (!AudioSystem.isLineSupported(info)) {
            System.out.println("Line not supported");
            System.exit(0);
        }

        TargetDataLine line = (TargetDataLine) AudioSystem.getLine(info);
        line.open(format);
        line.start();

        InputStream audioStream = new AudioInputStream(line);
        return audioStream;
    }

    private static AwsCredentialsProvider getCredentials() {
        return DefaultCredentialsProvider.create();
    }

    private static StartStreamTranscriptionRequest getRequest(Integer mediaSampleRateHertz) {
        return StartStreamTranscriptionRequest.builder()
                .languageCode(LanguageCode.EN_US.toString())
                .mediaEncoding(MediaEncoding.PCM)
                .mediaSampleRateHertz(mediaSampleRateHertz)
                .build();
    }

    private static StartStreamTranscriptionResponseHandler getResponseHandler() {
        return StartStreamTranscriptionResponseHandler.builder()
                .onResponse(r -> {
                    System.out.println("Received Initial response");
                })
                .onError(e -> {
                    System.out.println(e.getMessage());
                    StringWriter sw = new StringWriter();
                    e.printStackTrace(new PrintWriter(sw));
                    System.out.println("Error Occurred: " + sw);
                })
                .onComplete(() -> {
                    System.out.println("=== All records stream successfully ===");
                })
                .subscriber(event -> {
                    List<Result> results = ((TranscriptEvent) event).transcript().results();
                    if (results.size() > 0) {
                        if (!results.get(0).alternatives().get(0).transcript().isEmpty()) {
                            System.out.println(results.get(0).alternatives().get(0).transcript());
                        }
                    }
                })
                .build();
    }

    
    private static class AudioStreamPublisher implements Publisher<AudioStream> {
        private static Subscription currentSubscription;
        private final InputStream inputStream;

        private AudioStreamPublisher(InputStream inputStream) {
            this.inputStream = inputStream;
        }

        @Override
        public void subscribe(Subscriber<? super AudioStream> s) {

            if (currentSubscription == null) {
                currentSubscription = new SubscriptionImpl(s, inputStream);
            } else {
                currentSubscription.cancel();
                currentSubscription = new SubscriptionImpl(s, inputStream);
            }
            s.onSubscribe(currentSubscription);
        }
    }

    public static class SubscriptionImpl implements Subscription {
        private static final int CHUNK_SIZE_IN_BYTES = 1024;
        private final Subscriber<? super AudioStream> subscriber;
        private final InputStream inputStream;
        private final ExecutorService executor = Executors.newFixedThreadPool(1);
        private final AtomicLong demand = new AtomicLong(0);

        SubscriptionImpl(Subscriber<? super AudioStream> s, InputStream inputStream) {
            this.subscriber = s;
            this.inputStream = inputStream;
        }

        @Override
        public void request(long n) {
            if (n <= 0) {
                subscriber.onError(new IllegalArgumentException("Demand must be positive"));
            }

            demand.getAndAdd(n);

            executor.submit(() -> {
                try {
                    do {
                        ByteBuffer audioBuffer = getNextEvent();
                        if (audioBuffer.remaining() > 0) {
                            AudioEvent audioEvent = audioEventFromBuffer(audioBuffer);
                            subscriber.onNext(audioEvent);
                        } else {
                            subscriber.onComplete();
                            break;
                        }
                    } while (demand.decrementAndGet() > 0);
                } catch (Exception e) {
                    subscriber.onError(e);
                }
            });
        }

        @Override
        public void cancel() {
            executor.shutdown();
        }

        private ByteBuffer getNextEvent() {
            ByteBuffer audioBuffer = null;
            byte[] audioBytes = new byte[CHUNK_SIZE_IN_BYTES];

            int len = 0;
            try {
                len = inputStream.read(audioBytes);

                if (len <= 0) {
                    audioBuffer = ByteBuffer.allocate(0);
                } else {
                    audioBuffer = ByteBuffer.wrap(audioBytes, 0, len);
                }
            } catch (IOException e) {
                throw new UncheckedIOException(e);
            }

            return audioBuffer;
        }

        private AudioEvent audioEventFromBuffer(ByteBuffer bb) {
            return AudioEvent.builder()
                    .audioChunk(SdkBytes.fromByteBuffer(bb))
                    .build();
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Java 2.x *.
  + [GetTranscriptionJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/transcribe-2017-10-26/GetTranscriptionJob)
  + [StartTranscriptionJob](https://docs.aws.amazon.com/goto/SdkForJavaV2/transcribe-2017-10-26/StartTranscriptionJob)

# Contoh Streaming Amazon Transcribe menggunakan SDK for Java 2.x
<a name="java_2_transcribe-streaming_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan streaming AWS SDK for Java 2.x with Amazon Transcribe.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `StartMedicalStreamTranscription`
<a name="transcribe-streaming_StartMedicalStreamTranscription_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartMedicalStreamTranscription`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/transcribe-streaming#code-examples). 

```
/*
To run this AWS code example, ensure that you have set up your development
 environment, including your AWS credentials.

 For information, see this documentation topic:

 https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html

This code demonstrates the process of starting a medical transcription job using the AWS Transcribe
Streaming service, including setting up the audio input stream, configuring the transcription request,
and handling the transcription response.
 */

public class TranscribeMedicalStreamingDemoApp {
    private static TranscribeStreamingAsyncClient client;

    public static void main(String args[])
        throws ExecutionException, InterruptedException, LineUnavailableException {

        client = TranscribeStreamingAsyncClient.builder()
            .credentialsProvider(getCredentials())
            .build();

        CompletableFuture<Void> result = client.startMedicalStreamTranscription(getMedicalRequest(16_000),
            new AudioStreamPublisher(getStreamFromMic()),
            getMedicalResponseHandler());

        result.get();
        client.close();
    }

    private static InputStream getStreamFromMic() throws LineUnavailableException {

        // Signed PCM AudioFormat with 16kHz, 16 bit sample size, mono
        int sampleRate = 16000;
        AudioFormat format = new AudioFormat(sampleRate, 16, 1, true, false);
        DataLine.Info info = new DataLine.Info(TargetDataLine.class, format);

        if (!AudioSystem.isLineSupported(info)) {
            System.out.println("Line not supported");
            throw new LineUnavailableException("The audio system microphone line is not supported.");
        }

        TargetDataLine line = (TargetDataLine) AudioSystem.getLine(info);
        line.open(format);
        line.start();

        InputStream audioStream = new AudioInputStream(line);
        return audioStream;
    }

    private static AwsCredentialsProvider getCredentials() {
        return DefaultCredentialsProvider.create();
    }

    private static StartMedicalStreamTranscriptionRequest getMedicalRequest(Integer mediaSampleRateHertz) {
        return StartMedicalStreamTranscriptionRequest.builder()
            .languageCode(LanguageCode.EN_US.toString()) // For medical transcription, EN_US is typically used.
            .mediaEncoding(MediaEncoding.PCM)
            .mediaSampleRateHertz(mediaSampleRateHertz)
            .specialty(Specialty.PRIMARYCARE) // Specify the medical specialty.
            .type(Type.CONVERSATION) // Set the type as CONVERSATION or DICTATION.
            .build();
    }

    private static StartMedicalStreamTranscriptionResponseHandler getMedicalResponseHandler() {
        return StartMedicalStreamTranscriptionResponseHandler.builder()
            .onResponse(r -> {
                System.out.println("Received Initial response");
            })
            .onError(e -> {
                System.out.println(e.getMessage());
                StringWriter sw = new StringWriter();
                e.printStackTrace(new PrintWriter(sw));
                System.out.println("Error Occurred: " + sw.toString());
            })
            .onComplete(() -> {
                System.out.println("=== All records streamed successfully ===");
            })
            .subscriber(event -> {
                List<MedicalResult> results = ((MedicalTranscriptEvent) event).transcript().results();
                if (results.size() > 0) {
                    if (!results.get(0).alternatives().get(0).transcript().isEmpty()) {
                        System.out.println(results.get(0).alternatives().get(0).transcript());
                    }
                }
            })
            .build();
    }

    private static class AudioStreamPublisher implements Publisher<AudioStream> {
        private final InputStream inputStream;
        private static Subscription currentSubscription;

        private AudioStreamPublisher(InputStream inputStream) {
            this.inputStream = inputStream;
        }

        @Override
        public void subscribe(Subscriber<? super AudioStream> s) {

            if (this.currentSubscription == null) {
                this.currentSubscription = new SubscriptionImpl(s, inputStream);
            } else {
                this.currentSubscription.cancel();
                this.currentSubscription = new SubscriptionImpl(s, inputStream);
            }
            s.onSubscribe(currentSubscription);
        }
    }

    public static class SubscriptionImpl implements Subscription {
        private static final int CHUNK_SIZE_IN_BYTES = 1024 * 1;
        private final Subscriber<? super AudioStream> subscriber;
        private final InputStream inputStream;
        private ExecutorService executor = Executors.newFixedThreadPool(1);
        private AtomicLong demand = new AtomicLong(0);

        SubscriptionImpl(Subscriber<? super AudioStream> s, InputStream inputStream) {
            this.subscriber = s;
            this.inputStream = inputStream;
        }

        @Override
        public void request(long n) {
            if (n <= 0) {
                subscriber.onError(new IllegalArgumentException("Demand must be positive"));
            }

            demand.getAndAdd(n);
            executor.submit(() -> {
                try {
                    do {
                        ByteBuffer audioBuffer = getNextEvent();
                        if (audioBuffer.remaining() > 0) {
                            AudioEvent audioEvent = audioEventFromBuffer(audioBuffer);
                            subscriber.onNext(audioEvent);
                        } else {
                            subscriber.onComplete();
                            break;
                        }
                    } while (demand.decrementAndGet() > 0);
                } catch (Exception e) {
                    subscriber.onError(e);
                }
            });
        }

        @Override
        public void cancel() {
            executor.shutdown();
        }

        private ByteBuffer getNextEvent() {
            ByteBuffer audioBuffer = null;
            byte[] audioBytes = new byte[CHUNK_SIZE_IN_BYTES];

            int len = 0;
            try {
                len = inputStream.read(audioBytes);

                if (len <= 0) {
                    audioBuffer = ByteBuffer.allocate(0);
                } else {
                    audioBuffer = ByteBuffer.wrap(audioBytes, 0, len);
                }
            } catch (IOException e) {
                throw new UncheckedIOException(e);
            }

            return audioBuffer;
        }

        private AudioEvent audioEventFromBuffer(ByteBuffer bb) {
            return AudioEvent.builder()
                .audioChunk(SdkBytes.fromByteBuffer(bb))
                .build();
        }
    }
}
```
+  Untuk detail API, lihat [StartMedicalStreamTranscription](https://docs.aws.amazon.com/goto/SdkForJavaV2/transcribe-streaming-2017-10-26/StartMedicalStreamTranscription)di *Referensi AWS SDK for Java 2.x API*. 

### `StartStreamTranscription`
<a name="transcribe-streaming_StartStreamTranscription_java_2_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartStreamTranscription`.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/transcribe-streaming#code-examples). 

```
public class TranscribeStreamingDemoApp {
    private static final Region REGION = Region.US_EAST_1;
    private static TranscribeStreamingAsyncClient client;

    public static void main(String[] args)
            throws URISyntaxException, ExecutionException, InterruptedException, LineUnavailableException {

        client = TranscribeStreamingAsyncClient.builder()
                .credentialsProvider(getCredentials())
                .region(REGION)
                .build();

        CompletableFuture<Void> result = client.startStreamTranscription(getRequest(16_000),
                new AudioStreamPublisher(getStreamFromMic()),
                getResponseHandler());

        result.get();
        client.close();
    }

    private static InputStream getStreamFromMic() throws LineUnavailableException {

        // Signed PCM AudioFormat with 16kHz, 16 bit sample size, mono
        int sampleRate = 16000;
        AudioFormat format = new AudioFormat(sampleRate, 16, 1, true, false);
        DataLine.Info info = new DataLine.Info(TargetDataLine.class, format);

        if (!AudioSystem.isLineSupported(info)) {
            System.out.println("Line not supported");
            System.exit(0);
        }

        TargetDataLine line = (TargetDataLine) AudioSystem.getLine(info);
        line.open(format);
        line.start();

        InputStream audioStream = new AudioInputStream(line);
        return audioStream;
    }

    private static AwsCredentialsProvider getCredentials() {
        return DefaultCredentialsProvider.create();
    }

    private static StartStreamTranscriptionRequest getRequest(Integer mediaSampleRateHertz) {
        return StartStreamTranscriptionRequest.builder()
                .languageCode(LanguageCode.EN_US.toString())
                .mediaEncoding(MediaEncoding.PCM)
                .mediaSampleRateHertz(mediaSampleRateHertz)
                .build();
    }

    private static StartStreamTranscriptionResponseHandler getResponseHandler() {
        return StartStreamTranscriptionResponseHandler.builder()
                .onResponse(r -> {
                    System.out.println("Received Initial response");
                })
                .onError(e -> {
                    System.out.println(e.getMessage());
                    StringWriter sw = new StringWriter();
                    e.printStackTrace(new PrintWriter(sw));
                    System.out.println("Error Occurred: " + sw);
                })
                .onComplete(() -> {
                    System.out.println("=== All records stream successfully ===");
                })
                .subscriber(event -> {
                    List<Result> results = ((TranscriptEvent) event).transcript().results();
                    if (results.size() > 0) {
                        if (!results.get(0).alternatives().get(0).transcript().isEmpty()) {
                            System.out.println(results.get(0).alternatives().get(0).transcript());
                        }
                    }
                })
                .build();
    }

    
    private static class AudioStreamPublisher implements Publisher<AudioStream> {
        private static Subscription currentSubscription;
        private final InputStream inputStream;

        private AudioStreamPublisher(InputStream inputStream) {
            this.inputStream = inputStream;
        }

        @Override
        public void subscribe(Subscriber<? super AudioStream> s) {

            if (currentSubscription == null) {
                currentSubscription = new SubscriptionImpl(s, inputStream);
            } else {
                currentSubscription.cancel();
                currentSubscription = new SubscriptionImpl(s, inputStream);
            }
            s.onSubscribe(currentSubscription);
        }
    }

    public static class SubscriptionImpl implements Subscription {
        private static final int CHUNK_SIZE_IN_BYTES = 1024;
        private final Subscriber<? super AudioStream> subscriber;
        private final InputStream inputStream;
        private final ExecutorService executor = Executors.newFixedThreadPool(1);
        private final AtomicLong demand = new AtomicLong(0);

        SubscriptionImpl(Subscriber<? super AudioStream> s, InputStream inputStream) {
            this.subscriber = s;
            this.inputStream = inputStream;
        }

        @Override
        public void request(long n) {
            if (n <= 0) {
                subscriber.onError(new IllegalArgumentException("Demand must be positive"));
            }

            demand.getAndAdd(n);

            executor.submit(() -> {
                try {
                    do {
                        ByteBuffer audioBuffer = getNextEvent();
                        if (audioBuffer.remaining() > 0) {
                            AudioEvent audioEvent = audioEventFromBuffer(audioBuffer);
                            subscriber.onNext(audioEvent);
                        } else {
                            subscriber.onComplete();
                            break;
                        }
                    } while (demand.decrementAndGet() > 0);
                } catch (Exception e) {
                    subscriber.onError(e);
                }
            });
        }

        @Override
        public void cancel() {
            executor.shutdown();
        }

        private ByteBuffer getNextEvent() {
            ByteBuffer audioBuffer = null;
            byte[] audioBytes = new byte[CHUNK_SIZE_IN_BYTES];

            int len = 0;
            try {
                len = inputStream.read(audioBytes);

                if (len <= 0) {
                    audioBuffer = ByteBuffer.allocate(0);
                } else {
                    audioBuffer = ByteBuffer.wrap(audioBytes, 0, len);
                }
            } catch (IOException e) {
                throw new UncheckedIOException(e);
            }

            return audioBuffer;
        }

        private AudioEvent audioEventFromBuffer(ByteBuffer bb) {
            return AudioEvent.builder()
                    .audioChunk(SdkBytes.fromByteBuffer(bb))
                    .build();
        }
    }
}
```
+  Untuk detail API, lihat [StartStreamTranscription](https://docs.aws.amazon.com/goto/SdkForJavaV2/transcribe-streaming-2017-10-26/StartStreamTranscription)di *Referensi AWS SDK for Java 2.x API*. 

## Skenario
<a name="scenarios"></a>

### Transkripsikan file audio
<a name="transcribe-streaming_Scenario_StreamEvents_File_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat transkripsi file audio sumber menggunakan streaming Amazon Transcribe.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/transcribe-streaming#code-examples). 

```
/**
 * To run this AWS code example, ensure that you have set up your development
 * environment, including your AWS credentials.
 *
 * For information, see this documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html
 */

public class TranscribeStreamingDemoFile {
    private static final Region REGION = Region.US_EAST_1;
    private static TranscribeStreamingAsyncClient client;

    public static void main(String args[]) throws ExecutionException, InterruptedException {

        final String USAGE = "\n" +
                "Usage:\n" +
                "    <file> \n\n" +
                "Where:\n" +
                "    file - the location of a PCM file to transcribe. In this example, ensure the PCM file is 16 hertz (Hz). \n";

        if (args.length != 1) {
            System.out.println(USAGE);
            System.exit(1);
        }

        String file = args[0];
        client = TranscribeStreamingAsyncClient.builder()
                .region(REGION)
                .build();

        CompletableFuture<Void> result = client.startStreamTranscription(getRequest(16_000),
                new AudioStreamPublisher(getStreamFromFile(file)),
                getResponseHandler());

        result.get();
        client.close();
    }

    private static InputStream getStreamFromFile(String file) {
        try {
            File inputFile = new File(file);
            InputStream audioStream = new FileInputStream(inputFile);
            return audioStream;

        } catch (FileNotFoundException e) {
            throw new RuntimeException(e);
        }
    }

    private static StartStreamTranscriptionRequest getRequest(Integer mediaSampleRateHertz) {
        return StartStreamTranscriptionRequest.builder()
                .languageCode(LanguageCode.EN_US)
                .mediaEncoding(MediaEncoding.PCM)
                .mediaSampleRateHertz(mediaSampleRateHertz)
                .build();
    }

    private static StartStreamTranscriptionResponseHandler getResponseHandler() {
        return StartStreamTranscriptionResponseHandler.builder()
                .onResponse(r -> {
                    System.out.println("Received Initial response");
                })
                .onError(e -> {
                    System.out.println(e.getMessage());
                    StringWriter sw = new StringWriter();
                    e.printStackTrace(new PrintWriter(sw));
                    System.out.println("Error Occurred: " + sw.toString());
                })
                .onComplete(() -> {
                    System.out.println("=== All records stream successfully ===");
                })
                .subscriber(event -> {
                    List<Result> results = ((TranscriptEvent) event).transcript().results();
                    if (results.size() > 0) {
                        if (!results.get(0).alternatives().get(0).transcript().isEmpty()) {
                            System.out.println(results.get(0).alternatives().get(0).transcript());
                        }
                    }
                })
                .build();
    }

    private static class AudioStreamPublisher implements Publisher<AudioStream> {
        private final InputStream inputStream;
        private static Subscription currentSubscription;

        private AudioStreamPublisher(InputStream inputStream) {
            this.inputStream = inputStream;
        }

        @Override
        public void subscribe(Subscriber<? super AudioStream> s) {

            if (this.currentSubscription == null) {
                this.currentSubscription = new SubscriptionImpl(s, inputStream);
            } else {
                this.currentSubscription.cancel();
                this.currentSubscription = new SubscriptionImpl(s, inputStream);
            }
            s.onSubscribe(currentSubscription);
        }
    }

    public static class SubscriptionImpl implements Subscription {
        private static final int CHUNK_SIZE_IN_BYTES = 1024 * 1;
        private final Subscriber<? super AudioStream> subscriber;
        private final InputStream inputStream;
        private ExecutorService executor = Executors.newFixedThreadPool(1);
        private AtomicLong demand = new AtomicLong(0);

        SubscriptionImpl(Subscriber<? super AudioStream> s, InputStream inputStream) {
            this.subscriber = s;
            this.inputStream = inputStream;
        }

        @Override
        public void request(long n) {
            if (n <= 0) {
                subscriber.onError(new IllegalArgumentException("Demand must be positive"));
            }

            demand.getAndAdd(n);

            executor.submit(() -> {
                try {
                    do {
                        ByteBuffer audioBuffer = getNextEvent();
                        if (audioBuffer.remaining() > 0) {
                            AudioEvent audioEvent = audioEventFromBuffer(audioBuffer);
                            subscriber.onNext(audioEvent);
                        } else {
                            subscriber.onComplete();
                            break;
                        }
                    } while (demand.decrementAndGet() > 0);
                } catch (Exception e) {
                    subscriber.onError(e);
                }
            });
        }

        @Override
        public void cancel() {
            executor.shutdown();
        }

        private ByteBuffer getNextEvent() {
            ByteBuffer audioBuffer = null;
            byte[] audioBytes = new byte[CHUNK_SIZE_IN_BYTES];

            int len = 0;
            try {
                len = inputStream.read(audioBytes);

                if (len <= 0) {
                    audioBuffer = ByteBuffer.allocate(0);
                } else {
                    audioBuffer = ByteBuffer.wrap(audioBytes, 0, len);
                }
            } catch (IOException e) {
                throw new UncheckedIOException(e);
            }

            return audioBuffer;
        }

        private AudioEvent audioEventFromBuffer(ByteBuffer bb) {
            return AudioEvent.builder()
                    .audioChunk(SdkBytes.fromByteBuffer(bb))
                    .build();
        }
    }
}
```
+  Untuk detail API, lihat [StartStreamTranscription](https://docs.aws.amazon.com/goto/SdkForJavaV2/transcribe-streaming-2017-10-26/StartStreamTranscription)di *Referensi AWS SDK for Java 2.x API*. 

### Transcribe audio dari mikrofon
<a name="transcribe-streaming_Scenario_StreamEvents_Microphone_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat transkripsi dari mikrofon menggunakan streaming Amazon Transcribe.

**SDK untuk Java 2.x**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/transcribe-streaming#code-examples). 

```
public class TranscribeStreamingDemoApp {
    private static final Region REGION = Region.US_EAST_1;
    private static TranscribeStreamingAsyncClient client;

    public static void main(String[] args)
            throws URISyntaxException, ExecutionException, InterruptedException, LineUnavailableException {

        client = TranscribeStreamingAsyncClient.builder()
                .credentialsProvider(getCredentials())
                .region(REGION)
                .build();

        CompletableFuture<Void> result = client.startStreamTranscription(getRequest(16_000),
                new AudioStreamPublisher(getStreamFromMic()),
                getResponseHandler());

        result.get();
        client.close();
    }

    private static InputStream getStreamFromMic() throws LineUnavailableException {

        // Signed PCM AudioFormat with 16kHz, 16 bit sample size, mono
        int sampleRate = 16000;
        AudioFormat format = new AudioFormat(sampleRate, 16, 1, true, false);
        DataLine.Info info = new DataLine.Info(TargetDataLine.class, format);

        if (!AudioSystem.isLineSupported(info)) {
            System.out.println("Line not supported");
            System.exit(0);
        }

        TargetDataLine line = (TargetDataLine) AudioSystem.getLine(info);
        line.open(format);
        line.start();

        InputStream audioStream = new AudioInputStream(line);
        return audioStream;
    }

    private static AwsCredentialsProvider getCredentials() {
        return DefaultCredentialsProvider.create();
    }

    private static StartStreamTranscriptionRequest getRequest(Integer mediaSampleRateHertz) {
        return StartStreamTranscriptionRequest.builder()
                .languageCode(LanguageCode.EN_US.toString())
                .mediaEncoding(MediaEncoding.PCM)
                .mediaSampleRateHertz(mediaSampleRateHertz)
                .build();
    }

    private static StartStreamTranscriptionResponseHandler getResponseHandler() {
        return StartStreamTranscriptionResponseHandler.builder()
                .onResponse(r -> {
                    System.out.println("Received Initial response");
                })
                .onError(e -> {
                    System.out.println(e.getMessage());
                    StringWriter sw = new StringWriter();
                    e.printStackTrace(new PrintWriter(sw));
                    System.out.println("Error Occurred: " + sw);
                })
                .onComplete(() -> {
                    System.out.println("=== All records stream successfully ===");
                })
                .subscriber(event -> {
                    List<Result> results = ((TranscriptEvent) event).transcript().results();
                    if (results.size() > 0) {
                        if (!results.get(0).alternatives().get(0).transcript().isEmpty()) {
                            System.out.println(results.get(0).alternatives().get(0).transcript());
                        }
                    }
                })
                .build();
    }

    
    private static class AudioStreamPublisher implements Publisher<AudioStream> {
        private static Subscription currentSubscription;
        private final InputStream inputStream;

        private AudioStreamPublisher(InputStream inputStream) {
            this.inputStream = inputStream;
        }

        @Override
        public void subscribe(Subscriber<? super AudioStream> s) {

            if (currentSubscription == null) {
                currentSubscription = new SubscriptionImpl(s, inputStream);
            } else {
                currentSubscription.cancel();
                currentSubscription = new SubscriptionImpl(s, inputStream);
            }
            s.onSubscribe(currentSubscription);
        }
    }

    public static class SubscriptionImpl implements Subscription {
        private static final int CHUNK_SIZE_IN_BYTES = 1024;
        private final Subscriber<? super AudioStream> subscriber;
        private final InputStream inputStream;
        private final ExecutorService executor = Executors.newFixedThreadPool(1);
        private final AtomicLong demand = new AtomicLong(0);

        SubscriptionImpl(Subscriber<? super AudioStream> s, InputStream inputStream) {
            this.subscriber = s;
            this.inputStream = inputStream;
        }

        @Override
        public void request(long n) {
            if (n <= 0) {
                subscriber.onError(new IllegalArgumentException("Demand must be positive"));
            }

            demand.getAndAdd(n);

            executor.submit(() -> {
                try {
                    do {
                        ByteBuffer audioBuffer = getNextEvent();
                        if (audioBuffer.remaining() > 0) {
                            AudioEvent audioEvent = audioEventFromBuffer(audioBuffer);
                            subscriber.onNext(audioEvent);
                        } else {
                            subscriber.onComplete();
                            break;
                        }
                    } while (demand.decrementAndGet() > 0);
                } catch (Exception e) {
                    subscriber.onError(e);
                }
            });
        }

        @Override
        public void cancel() {
            executor.shutdown();
        }

        private ByteBuffer getNextEvent() {
            ByteBuffer audioBuffer = null;
            byte[] audioBytes = new byte[CHUNK_SIZE_IN_BYTES];

            int len = 0;
            try {
                len = inputStream.read(audioBytes);

                if (len <= 0) {
                    audioBuffer = ByteBuffer.allocate(0);
                } else {
                    audioBuffer = ByteBuffer.wrap(audioBytes, 0, len);
                }
            } catch (IOException e) {
                throw new UncheckedIOException(e);
            }

            return audioBuffer;
        }

        private AudioEvent audioEventFromBuffer(ByteBuffer bb) {
            return AudioEvent.builder()
                    .audioChunk(SdkBytes.fromByteBuffer(bb))
                    .build();
        }
    }
}
```
+  Untuk detail API, lihat [StartStreamTranscription](https://docs.aws.amazon.com/goto/SdkForJavaV2/transcribe-streaming-2017-10-26/StartStreamTranscription)di *Referensi AWS SDK for Java 2.x API*. 

# Contoh Amazon Translate menggunakan SDK for Java 2.x
<a name="java_2_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Java 2.x with Amazon Translate.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membangun chatbot Amazon Lex
<a name="cross_LexChatbotLanguages_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat chatbot untuk melibatkan pengunjung situs web Anda.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Lex API untuk membuat Chatbot dalam aplikasi web untuk melibatkan pengunjung situs web Anda.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_lex_chatbot).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon Lex
+ Amazon Translate

### Membangun aplikasi Amazon SNS
<a name="cross_SnsPublishSubscription_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang memiliki langganan dan mempublikasikan fungsionalitas dan menerjemahkan pesan.

**SDK untuk Java 2.x**  
 Menunjukkan cara menggunakan Amazon Simple Notification Service Java API untuk membuat aplikasi web yang memiliki fungsi berlangganan dan mempublikasikan. Selain itu, contoh aplikasi ini juga menerjemahkan pesan.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_sns_sample_app).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan contoh yang menggunakan Java Async API, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_sns_async)   

**Layanan yang digunakan dalam contoh ini**
+ Amazon SNS
+ Amazon Translate

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_java_2_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Java 2.x**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/usecases/creating_fsa_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh kode untuk SDK untuk Kotlin
<a name="kotlin_1_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk Kotlin. AWS

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK for Kotlin Developer Guide — Selengkapnya](https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/home.html)** tentang menggunakan Kotlin dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23kotlin)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [API Gateway](kotlin_1_api-gateway_code_examples.md)
+ [Aurora](kotlin_1_aurora_code_examples.md)
+ [Auto Scaling](kotlin_1_auto-scaling_code_examples.md)
+ [Amazon Bedrock](kotlin_1_bedrock_code_examples.md)
+ [Runtime Amazon Bedrock](kotlin_1_bedrock-runtime_code_examples.md)
+ [CloudWatch](kotlin_1_cloudwatch_code_examples.md)
+ [CloudWatch Log](kotlin_1_cloudwatch-logs_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](kotlin_1_cognito-identity-provider_code_examples.md)
+ [Amazon Comprehend](kotlin_1_comprehend_code_examples.md)
+ [DynamoDB](kotlin_1_dynamodb_code_examples.md)
+ [Amazon EC2](kotlin_1_ec2_code_examples.md)
+ [Amazon ECR](kotlin_1_ecr_code_examples.md)
+ [OpenSearch Layanan](kotlin_1_opensearch_code_examples.md)
+ [EventBridge](kotlin_1_eventbridge_code_examples.md)
+ [AWS Glue](kotlin_1_glue_code_examples.md)
+ [IAM](kotlin_1_iam_code_examples.md)
+ [AWS IoT](kotlin_1_iot_code_examples.md)
+ [AWS IoT data](kotlin_1_iot-data-plane_code_examples.md)
+ [AWS IoT FleetWise](kotlin_1_iotfleetwise_code_examples.md)
+ [Amazon Keyspaces](kotlin_1_keyspaces_code_examples.md)
+ [AWS KMS](kotlin_1_kms_code_examples.md)
+ [Lambda](kotlin_1_lambda_code_examples.md)
+ [Amazon Location Service](kotlin_1_location_code_examples.md)
+ [MediaConvert](kotlin_1_mediaconvert_code_examples.md)
+ [Amazon Pinpoint](kotlin_1_pinpoint_code_examples.md)
+ [Amazon RDS](kotlin_1_rds_code_examples.md)
+ [Layanan Data Amazon RDS](kotlin_1_rds-data_code_examples.md)
+ [Amazon Redshift](kotlin_1_redshift_code_examples.md)
+ [Amazon Rekognition](kotlin_1_rekognition_code_examples.md)
+ [Registrasi domain Route 53](kotlin_1_route-53-domains_code_examples.md)
+ [Amazon S3](kotlin_1_s3_code_examples.md)
+ [SageMaker AI](kotlin_1_sagemaker_code_examples.md)
+ [Secrets Manager](kotlin_1_secrets-manager_code_examples.md)
+ [Amazon SES](kotlin_1_ses_code_examples.md)
+ [Amazon SNS](kotlin_1_sns_code_examples.md)
+ [Amazon SQS](kotlin_1_sqs_code_examples.md)
+ [Step Functions](kotlin_1_sfn_code_examples.md)
+ [Dukungan](kotlin_1_support_code_examples.md)
+ [Amazon Translate](kotlin_1_translate_code_examples.md)

# Contoh API Gateway menggunakan SDK untuk Kotlin
<a name="kotlin_1_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan API Gateway.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Kotlin**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_pam).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

# Contoh Aurora menggunakan SDK untuk Kotlin
<a name="kotlin_1_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Aurora.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="aurora_Scenario_GetStartedClusters_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter klaster DB Aurora dan mengatur nilai parameter.
+ Membuat klaster DB yang menggunakan grup parameter.
+ Membuat instans DB yang berisi basis data.
+ Mengambil snapshot klaster DB, lalu membersihkan sumber daya.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment, including your credentials.

For more information, see the following documentation topic:

https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

This example requires an AWS Secrets Manager secret that contains the database credentials. If you do not create a
secret, this example will not work. For more details, see:

https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html

This Kotlin example performs the following tasks:

1. Returns a list of the available DB engines.
2. Creates a custom DB parameter group.
3. Gets the parameter groups.
4. Gets the parameters in the group.
5. Modifies the auto_increment_increment parameter.
6. Displays the updated parameter value.
7. Gets a list of allowed engine versions.
8. Creates an Aurora DB cluster database.
9. Waits for DB instance to be ready.
10. Gets a list of instance classes available for the selected engine.
11. Creates a database instance in the cluster.
12. Waits for the database instance in the cluster to be ready.
13. Creates a snapshot.
14. Waits for DB snapshot to be ready.
15. Deletes the DB instance.
16. Deletes the DB cluster.
17. Deletes the DB cluster group.
 */

var slTime: Long = 20

suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
            <dbClusterGroupName> <dbParameterGroupFamily> <dbInstanceClusterIdentifier> <dbName> <dbSnapshotIdentifier> <secretName>
        Where:
            dbClusterGroupName - The database group name. 
            dbParameterGroupFamily - The database parameter group name.
            dbInstanceClusterIdentifier - The database instance identifier. 
            dbName -  The database name. 
            dbSnapshotIdentifier - The snapshot identifier.
            secretName - The name of the AWS Secrets Manager secret that contains the database credentials.
    """

    if (args.size != 7) {
        println(usage)
        exitProcess(1)
    }

    val dbClusterGroupName = args[0]
    val dbParameterGroupFamily = args[1]
    val dbInstanceClusterIdentifier = args[2]
    val dbInstanceIdentifier = args[3]
    val dbName = args[4]
    val dbSnapshotIdentifier = args[5]
    val secretName = args[6]

    val gson = Gson()
    val user = gson.fromJson(getSecretValues(secretName).toString(), User::class.java)
    val username = user.username
    val userPassword = user.password

    println("1. Return a list of the available DB engines")
    describeAuroraDBEngines()

    println("2. Create a custom parameter group")
    createDBClusterParameterGroup(dbClusterGroupName, dbParameterGroupFamily)

    println("3. Get the parameter group")
    describeDbClusterParameterGroups(dbClusterGroupName)

    println("4. Get the parameters in the group")
    describeDbClusterParameters(dbClusterGroupName, 0)

    println("5. Modify the auto_increment_offset parameter")
    modifyDBClusterParas(dbClusterGroupName)

    println("6. Display the updated parameter value")
    describeDbClusterParameters(dbClusterGroupName, -1)

    println("7. Get a list of allowed engine versions")
    getAllowedClusterEngines(dbParameterGroupFamily)

    println("8. Create an Aurora DB cluster database")
    val arnClusterVal = createDBCluster(dbClusterGroupName, dbName, dbInstanceClusterIdentifier, username, userPassword)
    println("The ARN of the cluster is $arnClusterVal")

    println("9. Wait for DB instance to be ready")
    waitForClusterInstanceReady(dbInstanceClusterIdentifier)

    println("10. Get a list of instance classes available for the selected engine")
    val instanceClass = getListInstanceClasses()

    println("11. Create a database instance in the cluster.")
    val clusterDBARN = createDBInstanceCluster(dbInstanceIdentifier, dbInstanceClusterIdentifier, instanceClass)
    println("The ARN of the database is $clusterDBARN")

    println("12. Wait for DB instance to be ready")
    waitDBAuroraInstanceReady(dbInstanceIdentifier)

    println("13. Create a snapshot")
    createDBClusterSnapshot(dbInstanceClusterIdentifier, dbSnapshotIdentifier)

    println("14. Wait for DB snapshot to be ready")
    waitSnapshotReady(dbSnapshotIdentifier, dbInstanceClusterIdentifier)

    println("15. Delete the DB instance")
    deleteDBInstance(dbInstanceIdentifier)

    println("16. Delete the DB cluster")
    deleteCluster(dbInstanceClusterIdentifier)

    println("17. Delete the DB cluster group")
    if (clusterDBARN != null) {
        deleteDBClusterGroup(dbClusterGroupName, clusterDBARN)
    }
    println("The Scenario has successfully completed.")
}

@Throws(InterruptedException::class)
suspend fun deleteDBClusterGroup(
    dbClusterGroupName: String,
    clusterDBARN: String,
) {
    var isDataDel = false
    var didFind: Boolean
    var instanceARN: String

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        // Make sure that the database has been deleted.
        while (!isDataDel) {
            val response = rdsClient.describeDbInstances()
            val instanceList = response.dbInstances
            val listSize = instanceList?.size
            isDataDel = false
            didFind = false
            var index = 1
            if (instanceList != null) {
                for (instance in instanceList) {
                    instanceARN = instance.dbInstanceArn.toString()
                    if (instanceARN.compareTo(clusterDBARN) == 0) {
                        println("$clusterDBARN still exists")
                        didFind = true
                    }
                    if (index == listSize && !didFind) {
                        // Went through the entire list and did not find the database ARN.
                        isDataDel = true
                    }
                    delay(slTime * 1000)
                    index++
                }
            }
        }
        val clusterParameterGroupRequest =
            DeleteDbClusterParameterGroupRequest {
                dbClusterParameterGroupName = dbClusterGroupName
            }

        rdsClient.deleteDbClusterParameterGroup(clusterParameterGroupRequest)
        println("$dbClusterGroupName was deleted.")
    }
}

suspend fun deleteCluster(dbInstanceClusterIdentifier: String) {
    val deleteDbClusterRequest =
        DeleteDbClusterRequest {
            dbClusterIdentifier = dbInstanceClusterIdentifier
            skipFinalSnapshot = true
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        rdsClient.deleteDbCluster(deleteDbClusterRequest)
        println("$dbInstanceClusterIdentifier was deleted!")
    }
}

suspend fun deleteDBInstance(dbInstanceIdentifierVal: String) {
    val deleteDbInstanceRequest =
        DeleteDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            deleteAutomatedBackups = true
            skipFinalSnapshot = true
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.deleteDbInstance(deleteDbInstanceRequest)
        print("The status of the database is ${response.dbInstance?.dbInstanceStatus}")
    }
}

suspend fun waitSnapshotReady(
    dbSnapshotIdentifier: String?,
    dbInstanceClusterIdentifier: String?,
) {
    var snapshotReady = false
    var snapshotReadyStr: String
    println("Waiting for the snapshot to become available.")

    val snapshotsRequest =
        DescribeDbClusterSnapshotsRequest {
            dbClusterSnapshotIdentifier = dbSnapshotIdentifier
            dbClusterIdentifier = dbInstanceClusterIdentifier
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        while (!snapshotReady) {
            val response = rdsClient.describeDbClusterSnapshots(snapshotsRequest)
            val snapshotList = response.dbClusterSnapshots
            if (snapshotList != null) {
                for (snapshot in snapshotList) {
                    snapshotReadyStr = snapshot.status.toString()
                    if (snapshotReadyStr.contains("available")) {
                        snapshotReady = true
                    } else {
                        println(".")
                        delay(slTime * 5000)
                    }
                }
            }
        }
    }
    println("The Snapshot is available!")
}

suspend fun createDBClusterSnapshot(
    dbInstanceClusterIdentifier: String?,
    dbSnapshotIdentifier: String?,
) {
    val snapshotRequest =
        CreateDbClusterSnapshotRequest {
            dbClusterIdentifier = dbInstanceClusterIdentifier
            dbClusterSnapshotIdentifier = dbSnapshotIdentifier
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbClusterSnapshot(snapshotRequest)
        println("The Snapshot ARN is ${response.dbClusterSnapshot?.dbClusterSnapshotArn}")
    }
}

suspend fun waitDBAuroraInstanceReady(dbInstanceIdentifierVal: String?) {
    var instanceReady = false
    var instanceReadyStr: String
    println("Waiting for instance to become available.")
    val instanceRequest =
        DescribeDbInstancesRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
        }

    var endpoint = ""
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        while (!instanceReady) {
            val response = rdsClient.describeDbInstances(instanceRequest)
            response.dbInstances?.forEach { instance ->
                instanceReadyStr = instance.dbInstanceStatus.toString()
                if (instanceReadyStr.contains("available")) {
                    endpoint = instance.endpoint?.address.toString()
                    instanceReady = true
                } else {
                    print(".")
                    delay(sleepTime * 1000)
                }
            }
        }
    }
    println("Database instance is available! The connection endpoint is $endpoint")
}

suspend fun createDBInstanceCluster(
    dbInstanceIdentifierVal: String?,
    dbInstanceClusterIdentifierVal: String?,
    instanceClassVal: String?,
): String? {
    val instanceRequest =
        CreateDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            dbClusterIdentifier = dbInstanceClusterIdentifierVal
            engine = "aurora-mysql"
            dbInstanceClass = instanceClassVal
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbInstance(instanceRequest)
        print("The status is ${response.dbInstance?.dbInstanceStatus}")
        return response.dbInstance?.dbInstanceArn
    }
}

suspend fun getListInstanceClasses(): String {
    val optionsRequest =
        DescribeOrderableDbInstanceOptionsRequest {
            engine = "aurora-mysql"
            maxRecords = 20
        }
    var instanceClass = ""
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeOrderableDbInstanceOptions(optionsRequest)
        response.orderableDbInstanceOptions?.forEach { instanceOption ->
            instanceClass = instanceOption.dbInstanceClass.toString()
            println("The instance class is ${instanceOption.dbInstanceClass}")
            println("The engine version is ${instanceOption.engineVersion}")
        }
    }
    return instanceClass
}

// Waits until the database instance is available.
suspend fun waitForClusterInstanceReady(dbClusterIdentifierVal: String?) {
    var instanceReady = false
    var instanceReadyStr: String
    println("Waiting for instance to become available.")

    val instanceRequest =
        DescribeDbClustersRequest {
            dbClusterIdentifier = dbClusterIdentifierVal
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        while (!instanceReady) {
            val response = rdsClient.describeDbClusters(instanceRequest)
            response.dbClusters?.forEach { cluster ->
                instanceReadyStr = cluster.status.toString()
                if (instanceReadyStr.contains("available")) {
                    instanceReady = true
                } else {
                    print(".")
                    delay(sleepTime * 1000)
                }
            }
        }
    }
    println("Database cluster is available!")
}

suspend fun createDBCluster(
    dbParameterGroupFamilyVal: String?,
    dbName: String?,
    dbClusterIdentifierVal: String?,
    userName: String?,
    password: String?,
): String? {
    val clusterRequest =
        CreateDbClusterRequest {
            databaseName = dbName
            dbClusterIdentifier = dbClusterIdentifierVal
            dbClusterParameterGroupName = dbParameterGroupFamilyVal
            engine = "aurora-mysql"
            masterUsername = userName
            masterUserPassword = password
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbCluster(clusterRequest)
        return response.dbCluster?.dbClusterArn
    }
}

// Get a list of allowed engine versions.
suspend fun getAllowedClusterEngines(dbParameterGroupFamilyVal: String?) {
    val versionsRequest =
        DescribeDbEngineVersionsRequest {
            dbParameterGroupFamily = dbParameterGroupFamilyVal
            engine = "aurora-mysql"
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbEngineVersions(versionsRequest)
        response.dbEngineVersions?.forEach { dbEngine ->
            println("The engine version is ${dbEngine.engineVersion}")
            println("The engine description is ${dbEngine.dbEngineDescription}")
        }
    }
}

// Modify the auto_increment_offset parameter.
suspend fun modifyDBClusterParas(dClusterGroupName: String?) {
    val parameter1 =
        Parameter {
            parameterName = "auto_increment_offset"
            applyMethod = ApplyMethod.fromValue("immediate")
            parameterValue = "5"
        }

    val paraList = ArrayList<Parameter>()
    paraList.add(parameter1)
    val groupRequest =
        ModifyDbClusterParameterGroupRequest {
            dbClusterParameterGroupName = dClusterGroupName
            parameters = paraList
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.modifyDbClusterParameterGroup(groupRequest)
        println("The parameter group ${response.dbClusterParameterGroupName} was successfully modified")
    }
}

suspend fun describeDbClusterParameters(
    dbCLusterGroupName: String?,
    flag: Int,
) {
    val dbParameterGroupsRequest: DescribeDbClusterParametersRequest
    dbParameterGroupsRequest =
        if (flag == 0) {
            DescribeDbClusterParametersRequest {
                dbClusterParameterGroupName = dbCLusterGroupName
            }
        } else {
            DescribeDbClusterParametersRequest {
                dbClusterParameterGroupName = dbCLusterGroupName
                source = "user"
            }
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbClusterParameters(dbParameterGroupsRequest)
        response.parameters?.forEach { para ->
            // Only print out information about either auto_increment_offset or auto_increment_increment.
            val paraName = para.parameterName
            if (paraName != null) {
                if (paraName.compareTo("auto_increment_offset") == 0 || paraName.compareTo("auto_increment_increment ") == 0) {
                    println("*** The parameter name is  $paraName")
                    println("*** The parameter value is  ${para.parameterValue}")
                    println("*** The parameter data type is ${para.dataType}")
                    println("*** The parameter description is ${para.description}")
                    println("*** The parameter allowed values  is ${para.allowedValues}")
                }
            }
        }
    }
}

suspend fun describeDbClusterParameterGroups(dbClusterGroupName: String?) {
    val groupsRequest =
        DescribeDbClusterParameterGroupsRequest {
            dbClusterParameterGroupName = dbClusterGroupName
            maxRecords = 20
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbClusterParameterGroups(groupsRequest)
        response.dbClusterParameterGroups?.forEach { group ->
            println("The group name is ${group.dbClusterParameterGroupName}")
            println("The group ARN is ${group.dbClusterParameterGroupArn}")
        }
    }
}

suspend fun createDBClusterParameterGroup(
    dbClusterGroupNameVal: String?,
    dbParameterGroupFamilyVal: String?,
) {
    val groupRequest =
        CreateDbClusterParameterGroupRequest {
            dbClusterParameterGroupName = dbClusterGroupNameVal
            dbParameterGroupFamily = dbParameterGroupFamilyVal
            description = "Created by using the AWS SDK for Kotlin"
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbClusterParameterGroup(groupRequest)
        println("The group name is ${response.dbClusterParameterGroup?.dbClusterParameterGroupName}")
    }
}

suspend fun describeAuroraDBEngines() {
    val engineVersionsRequest =
        DescribeDbEngineVersionsRequest {
            engine = "aurora-mysql"
            defaultOnly = true
            maxRecords = 20
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbEngineVersions(engineVersionsRequest)
        response.dbEngineVersions?.forEach { engineOb ->
            println("The name of the DB parameter group family for the database engine is ${engineOb.dbParameterGroupFamily}")
            println("The name of the database engine ${engineOb.engine}")
            println("The version number of the database engine ${engineOb.engineVersion}")
        }
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [Buat DBCluster](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Buat DBCluster ParameterGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Buat DBCluster Snapshot](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Buat DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Hapus DBCluster](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Hapus DBCluster ParameterGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Hapus DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBCluster ParameterGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBCluster Parameter](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBCluster Snapshots](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBClusters](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBEngine Versi](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeOrderableDBInstancePilihan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Memodifikasi DBCluster ParameterGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="aurora_CreateDBCluster_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun createDBCluster(
    dbParameterGroupFamilyVal: String?,
    dbName: String?,
    dbClusterIdentifierVal: String?,
    userName: String?,
    password: String?,
): String? {
    val clusterRequest =
        CreateDbClusterRequest {
            databaseName = dbName
            dbClusterIdentifier = dbClusterIdentifierVal
            dbClusterParameterGroupName = dbParameterGroupFamilyVal
            engine = "aurora-mysql"
            masterUsername = userName
            masterUserPassword = password
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbCluster(clusterRequest)
        return response.dbCluster?.dbClusterArn
    }
}
```
+  Untuk detail API, lihat [Membuat DBCluster](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `CreateDBClusterParameterGroup`
<a name="aurora_CreateDBClusterParameterGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterParameterGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun createDBClusterParameterGroup(
    dbClusterGroupNameVal: String?,
    dbParameterGroupFamilyVal: String?,
) {
    val groupRequest =
        CreateDbClusterParameterGroupRequest {
            dbClusterParameterGroupName = dbClusterGroupNameVal
            dbParameterGroupFamily = dbParameterGroupFamilyVal
            description = "Created by using the AWS SDK for Kotlin"
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbClusterParameterGroup(groupRequest)
        println("The group name is ${response.dbClusterParameterGroup?.dbClusterParameterGroupName}")
    }
}
```
+  Untuk detail API, lihat [Membuat DBCluster ParameterGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `CreateDBClusterSnapshot`
<a name="aurora_CreateDBClusterSnapshot_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterSnapshot`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun createDBClusterSnapshot(
    dbInstanceClusterIdentifier: String?,
    dbSnapshotIdentifier: String?,
) {
    val snapshotRequest =
        CreateDbClusterSnapshotRequest {
            dbClusterIdentifier = dbInstanceClusterIdentifier
            dbClusterSnapshotIdentifier = dbSnapshotIdentifier
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbClusterSnapshot(snapshotRequest)
        println("The Snapshot ARN is ${response.dbClusterSnapshot?.dbClusterSnapshotArn}")
    }
}
```
+  Untuk detail API, lihat [Membuat DBCluster Snapshot](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `CreateDBInstance`
<a name="aurora_CreateDBInstance_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun createDBInstanceCluster(
    dbInstanceIdentifierVal: String?,
    dbInstanceClusterIdentifierVal: String?,
    instanceClassVal: String?,
): String? {
    val instanceRequest =
        CreateDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            dbClusterIdentifier = dbInstanceClusterIdentifierVal
            engine = "aurora-mysql"
            dbInstanceClass = instanceClassVal
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbInstance(instanceRequest)
        print("The status is ${response.dbInstance?.dbInstanceStatus}")
        return response.dbInstance?.dbInstanceArn
    }
}
```
+  Untuk detail API, lihat [Membuat DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteDBCluster`
<a name="aurora_DeleteDBCluster_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun deleteCluster(dbInstanceClusterIdentifier: String) {
    val deleteDbClusterRequest =
        DeleteDbClusterRequest {
            dbClusterIdentifier = dbInstanceClusterIdentifier
            skipFinalSnapshot = true
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        rdsClient.deleteDbCluster(deleteDbClusterRequest)
        println("$dbInstanceClusterIdentifier was deleted!")
    }
}
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteDBClusterParameterGroup`
<a name="aurora_DeleteDBClusterParameterGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBClusterParameterGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
@Throws(InterruptedException::class)
suspend fun deleteDBClusterGroup(
    dbClusterGroupName: String,
    clusterDBARN: String,
) {
    var isDataDel = false
    var didFind: Boolean
    var instanceARN: String

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        // Make sure that the database has been deleted.
        while (!isDataDel) {
            val response = rdsClient.describeDbInstances()
            val instanceList = response.dbInstances
            val listSize = instanceList?.size
            isDataDel = false
            didFind = false
            var index = 1
            if (instanceList != null) {
                for (instance in instanceList) {
                    instanceARN = instance.dbInstanceArn.toString()
                    if (instanceARN.compareTo(clusterDBARN) == 0) {
                        println("$clusterDBARN still exists")
                        didFind = true
                    }
                    if (index == listSize && !didFind) {
                        // Went through the entire list and did not find the database ARN.
                        isDataDel = true
                    }
                    delay(slTime * 1000)
                    index++
                }
            }
        }
        val clusterParameterGroupRequest =
            DeleteDbClusterParameterGroupRequest {
                dbClusterParameterGroupName = dbClusterGroupName
            }

        rdsClient.deleteDbClusterParameterGroup(clusterParameterGroupRequest)
        println("$dbClusterGroupName was deleted.")
    }
}
```
+  Untuk detail API, lihat [Menghapus DBCluster ParameterGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteDBInstance`
<a name="aurora_DeleteDBInstance_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun deleteDBInstance(dbInstanceIdentifierVal: String) {
    val deleteDbInstanceRequest =
        DeleteDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            deleteAutomatedBackups = true
            skipFinalSnapshot = true
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.deleteDbInstance(deleteDbInstanceRequest)
        print("The status of the database is ${response.dbInstance?.dbInstanceStatus}")
    }
}
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeDBClusterParameterGroups`
<a name="aurora_DescribeDBClusterParameterGroups_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameterGroups`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun describeDbClusterParameterGroups(dbClusterGroupName: String?) {
    val groupsRequest =
        DescribeDbClusterParameterGroupsRequest {
            dbClusterParameterGroupName = dbClusterGroupName
            maxRecords = 20
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbClusterParameterGroups(groupsRequest)
        response.dbClusterParameterGroups?.forEach { group ->
            println("The group name is ${group.dbClusterParameterGroupName}")
            println("The group ARN is ${group.dbClusterParameterGroupArn}")
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBCluster ParameterGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeDBClusterParameters`
<a name="aurora_DescribeDBClusterParameters_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameters`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun describeDbClusterParameters(
    dbCLusterGroupName: String?,
    flag: Int,
) {
    val dbParameterGroupsRequest: DescribeDbClusterParametersRequest
    dbParameterGroupsRequest =
        if (flag == 0) {
            DescribeDbClusterParametersRequest {
                dbClusterParameterGroupName = dbCLusterGroupName
            }
        } else {
            DescribeDbClusterParametersRequest {
                dbClusterParameterGroupName = dbCLusterGroupName
                source = "user"
            }
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbClusterParameters(dbParameterGroupsRequest)
        response.parameters?.forEach { para ->
            // Only print out information about either auto_increment_offset or auto_increment_increment.
            val paraName = para.parameterName
            if (paraName != null) {
                if (paraName.compareTo("auto_increment_offset") == 0 || paraName.compareTo("auto_increment_increment ") == 0) {
                    println("*** The parameter name is  $paraName")
                    println("*** The parameter value is  ${para.parameterValue}")
                    println("*** The parameter data type is ${para.dataType}")
                    println("*** The parameter description is ${para.description}")
                    println("*** The parameter allowed values  is ${para.allowedValues}")
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Parameter](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeDBClusterSnapshots`
<a name="aurora_DescribeDBClusterSnapshots_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterSnapshots`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun waitSnapshotReady(
    dbSnapshotIdentifier: String?,
    dbInstanceClusterIdentifier: String?,
) {
    var snapshotReady = false
    var snapshotReadyStr: String
    println("Waiting for the snapshot to become available.")

    val snapshotsRequest =
        DescribeDbClusterSnapshotsRequest {
            dbClusterSnapshotIdentifier = dbSnapshotIdentifier
            dbClusterIdentifier = dbInstanceClusterIdentifier
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        while (!snapshotReady) {
            val response = rdsClient.describeDbClusterSnapshots(snapshotsRequest)
            val snapshotList = response.dbClusterSnapshots
            if (snapshotList != null) {
                for (snapshot in snapshotList) {
                    snapshotReadyStr = snapshot.status.toString()
                    if (snapshotReadyStr.contains("available")) {
                        snapshotReady = true
                    } else {
                        println(".")
                        delay(slTime * 5000)
                    }
                }
            }
        }
    }
    println("The Snapshot is available!")
}
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Snapshot](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeDBClusters`
<a name="aurora_DescribeDBClusters_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun describeDbClusterParameters(
    dbCLusterGroupName: String?,
    flag: Int,
) {
    val dbParameterGroupsRequest: DescribeDbClusterParametersRequest
    dbParameterGroupsRequest =
        if (flag == 0) {
            DescribeDbClusterParametersRequest {
                dbClusterParameterGroupName = dbCLusterGroupName
            }
        } else {
            DescribeDbClusterParametersRequest {
                dbClusterParameterGroupName = dbCLusterGroupName
                source = "user"
            }
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbClusterParameters(dbParameterGroupsRequest)
        response.parameters?.forEach { para ->
            // Only print out information about either auto_increment_offset or auto_increment_increment.
            val paraName = para.parameterName
            if (paraName != null) {
                if (paraName.compareTo("auto_increment_offset") == 0 || paraName.compareTo("auto_increment_increment ") == 0) {
                    println("*** The parameter name is  $paraName")
                    println("*** The parameter value is  ${para.parameterValue}")
                    println("*** The parameter data type is ${para.dataType}")
                    println("*** The parameter description is ${para.description}")
                    println("*** The parameter allowed values  is ${para.allowedValues}")
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeDBEngineVersions`
<a name="aurora_DescribeDBEngineVersions_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
// Get a list of allowed engine versions.
suspend fun getAllowedClusterEngines(dbParameterGroupFamilyVal: String?) {
    val versionsRequest =
        DescribeDbEngineVersionsRequest {
            dbParameterGroupFamily = dbParameterGroupFamilyVal
            engine = "aurora-mysql"
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbEngineVersions(versionsRequest)
        response.dbEngineVersions?.forEach { dbEngine ->
            println("The engine version is ${dbEngine.engineVersion}")
            println("The engine description is ${dbEngine.dbEngineDescription}")
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeDBInstances`
<a name="aurora_DescribeDBInstances_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun waitDBAuroraInstanceReady(dbInstanceIdentifierVal: String?) {
    var instanceReady = false
    var instanceReadyStr: String
    println("Waiting for instance to become available.")
    val instanceRequest =
        DescribeDbInstancesRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
        }

    var endpoint = ""
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        while (!instanceReady) {
            val response = rdsClient.describeDbInstances(instanceRequest)
            response.dbInstances?.forEach { instance ->
                instanceReadyStr = instance.dbInstanceStatus.toString()
                if (instanceReadyStr.contains("available")) {
                    endpoint = instance.endpoint?.address.toString()
                    instanceReady = true
                } else {
                    print(".")
                    delay(sleepTime * 1000)
                }
            }
        }
    }
    println("Database instance is available! The connection endpoint is $endpoint")
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `ModifyDBClusterParameterGroup`
<a name="aurora_ModifyDBClusterParameterGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBClusterParameterGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
// Modify the auto_increment_offset parameter.
suspend fun modifyDBClusterParas(dClusterGroupName: String?) {
    val parameter1 =
        Parameter {
            parameterName = "auto_increment_offset"
            applyMethod = ApplyMethod.fromValue("immediate")
            parameterValue = "5"
        }

    val paraList = ArrayList<Parameter>()
    paraList.add(parameter1)
    val groupRequest =
        ModifyDbClusterParameterGroupRequest {
            dbClusterParameterGroupName = dClusterGroupName
            parameters = paraList
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.modifyDbClusterParameterGroup(groupRequest)
        println("The parameter group ${response.dbClusterParameterGroupName} was successfully modified")
    }
}
```
+  Untuk detail API, lihat [Memodifikasi DBCluster ParameterGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Kotlin**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon RDS.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/serverless_rds)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Auto Scaling menggunakan SDK untuk Kotlin
<a name="kotlin_1_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Auto Scaling.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="auto-scaling_Scenario_GroupsAndInstances_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat grup Amazon EC2 Auto Scaling dengan template peluncuran dan Availability Zone, dan dapatkan informasi tentang menjalankan instans.
+ Aktifkan pengumpulan CloudWatch metrik Amazon.
+ Perbarui kapasitas yang diinginkan grup dan tunggu instance dimulai.
+ Mengakhiri sebuah instance dalam grup.
+ Buat daftar aktivitas penskalaan yang terjadi sebagai respons terhadap permintaan pengguna dan perubahan kapasitas.
+ Dapatkan statistik untuk CloudWatch metrik, lalu bersihkan sumber daya.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun main(args: Array<String>) {
    val usage = """
    Usage:
        <groupName> <launchTemplateName> <serviceLinkedRoleARN> <vpcZoneId>

    Where:
        groupName - The name of the Auto Scaling group.
        launchTemplateName - The name of the launch template. 
        serviceLinkedRoleARN - The Amazon Resource Name (ARN) of the service-linked role that the Auto Scaling group uses.
        vpcZoneId - A subnet Id for a virtual private cloud (VPC) where instances in the Auto Scaling group can be created.
    """

    if (args.size != 4) {
        println(usage)
        exitProcess(1)
    }

    val groupName = args[0]
    val launchTemplateName = args[1]
    val serviceLinkedRoleARN = args[2]
    val vpcZoneId = args[3]

    println("**** Create an Auto Scaling group named $groupName")
    createAutoScalingGroup(groupName, launchTemplateName, serviceLinkedRoleARN, vpcZoneId)

    println("Wait 1 min for the resources, including the instance. Otherwise, an empty instance Id is returned")
    delay(60000)

    val instanceId = getSpecificAutoScaling(groupName)
    if (instanceId.compareTo("") == 0) {
        println("Error - no instance Id value")
        exitProcess(1)
    } else {
        println("The instance Id value is $instanceId")
    }

    println("**** Describe Auto Scaling with the Id value $instanceId")
    describeAutoScalingInstance(instanceId)

    println("**** Enable metrics collection $instanceId")
    enableMetricsCollection(groupName)

    println("**** Update an Auto Scaling group to maximum size of 3")
    updateAutoScalingGroup(groupName, launchTemplateName, serviceLinkedRoleARN)

    println("**** Describe all Auto Scaling groups to show the current state of the groups")
    describeAutoScalingGroups(groupName)

    println("**** Describe account details")
    describeAccountLimits()

    println("Wait 1 min for the resources, including the instance. Otherwise, an empty instance Id is returned")
    delay(60000)

    println("**** Set desired capacity to 2")
    setDesiredCapacity(groupName)

    println("**** Get the two instance Id values and state")
    getAutoScalingGroups(groupName)

    println("**** List the scaling activities that have occurred for the group")
    describeScalingActivities(groupName)

    println("**** Terminate an instance in the Auto Scaling group")
    terminateInstanceInAutoScalingGroup(instanceId)

    println("**** Stop the metrics collection")
    disableMetricsCollection(groupName)

    println("**** Delete the Auto Scaling group")
    deleteSpecificAutoScalingGroup(groupName)
}

suspend fun describeAutoScalingGroups(groupName: String) {
    val groupsReques =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
            maxRecords = 10
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeAutoScalingGroups(groupsReques)
        response.autoScalingGroups?.forEach { group ->
            println("The service to use for the health checks: ${group.healthCheckType}")
        }
    }
}

suspend fun disableMetricsCollection(groupName: String) {
    val disableMetricsCollectionRequest =
        DisableMetricsCollectionRequest {
            autoScalingGroupName = groupName
            metrics = listOf("GroupMaxSize")
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.disableMetricsCollection(disableMetricsCollectionRequest)
        println("The disable metrics collection operation was successful")
    }
}

suspend fun describeScalingActivities(groupName: String?) {
    val scalingActivitiesRequest =
        DescribeScalingActivitiesRequest {
            autoScalingGroupName = groupName
            maxRecords = 10
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeScalingActivities(scalingActivitiesRequest)
        response.activities?.forEach { activity ->
            println("The activity Id is ${activity.activityId}")
            println("The activity details are ${activity.details}")
        }
    }
}

suspend fun getAutoScalingGroups(groupName: String) {
    val scalingGroupsRequest =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeAutoScalingGroups(scalingGroupsRequest)
        response.autoScalingGroups?.forEach { group ->
            println("The group name is ${group.autoScalingGroupName}")
            println("The group ARN is ${group.autoScalingGroupArn}")
            group.instances?.forEach { instance ->
                println("The instance id is ${instance.instanceId}")
                println("The lifecycle state is " + instance.lifecycleState)
            }
        }
    }
}

suspend fun setDesiredCapacity(groupName: String) {
    val capacityRequest =
        SetDesiredCapacityRequest {
            autoScalingGroupName = groupName
            desiredCapacity = 2
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.setDesiredCapacity(capacityRequest)
        println("You set the DesiredCapacity to 2")
    }
}

suspend fun updateAutoScalingGroup(
    groupName: String,
    launchTemplateNameVal: String,
    serviceLinkedRoleARNVal: String,
) {
    val templateSpecification =
        LaunchTemplateSpecification {
            launchTemplateName = launchTemplateNameVal
        }

    val groupRequest =
        UpdateAutoScalingGroupRequest {
            maxSize = 3
            serviceLinkedRoleArn = serviceLinkedRoleARNVal
            autoScalingGroupName = groupName
            launchTemplate = templateSpecification
        }

    val groupsRequestWaiter =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.updateAutoScalingGroup(groupRequest)
        autoScalingClient.waitUntilGroupExists(groupsRequestWaiter)
        println("You successfully updated the Auto Scaling group  $groupName")
    }
}

suspend fun createAutoScalingGroup(
    groupName: String,
    launchTemplateNameVal: String,
    serviceLinkedRoleARNVal: String,
    vpcZoneIdVal: String,
) {
    val templateSpecification =
        LaunchTemplateSpecification {
            launchTemplateName = launchTemplateNameVal
        }

    val request =
        CreateAutoScalingGroupRequest {
            autoScalingGroupName = groupName
            availabilityZones = listOf("us-east-1a")
            launchTemplate = templateSpecification
            maxSize = 1
            minSize = 1
            vpcZoneIdentifier = vpcZoneIdVal
            serviceLinkedRoleArn = serviceLinkedRoleARNVal
        }

    // This object is required for the waiter call.
    val groupsRequestWaiter =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.createAutoScalingGroup(request)
        autoScalingClient.waitUntilGroupExists(groupsRequestWaiter)
        println("$groupName was created!")
    }
}

suspend fun describeAutoScalingInstance(id: String) {
    val describeAutoScalingInstancesRequest =
        DescribeAutoScalingInstancesRequest {
            instanceIds = listOf(id)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeAutoScalingInstances(describeAutoScalingInstancesRequest)
        response.autoScalingInstances?.forEach { group ->
            println("The instance lifecycle state is: ${group.lifecycleState}")
        }
    }
}

suspend fun enableMetricsCollection(groupName: String?) {
    val collectionRequest =
        EnableMetricsCollectionRequest {
            autoScalingGroupName = groupName
            metrics = listOf("GroupMaxSize")
            granularity = "1Minute"
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.enableMetricsCollection(collectionRequest)
        println("The enable metrics collection operation was successful")
    }
}

suspend fun getSpecificAutoScaling(groupName: String): String {
    var instanceId = ""
    val scalingGroupsRequest =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeAutoScalingGroups(scalingGroupsRequest)
        response.autoScalingGroups?.forEach { group ->
            println("The group name is ${group.autoScalingGroupName}")
            println("The group ARN is ${group.autoScalingGroupArn}")

            group.instances?.forEach { instance ->
                instanceId = instance.instanceId.toString()
            }
        }
    }
    return instanceId
}

suspend fun describeAccountLimits() {
    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeAccountLimits(DescribeAccountLimitsRequest {})
        println("The max number of Auto Scaling groups is ${response.maxNumberOfAutoScalingGroups}")
        println("The current number of Auto Scaling groups is ${response.numberOfAutoScalingGroups}")
    }
}

suspend fun terminateInstanceInAutoScalingGroup(instanceIdVal: String) {
    val request =
        TerminateInstanceInAutoScalingGroupRequest {
            instanceId = instanceIdVal
            shouldDecrementDesiredCapacity = false
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.terminateInstanceInAutoScalingGroup(request)
        println("You have terminated instance $instanceIdVal")
    }
}

suspend fun deleteSpecificAutoScalingGroup(groupName: String) {
    val deleteAutoScalingGroupRequest =
        DeleteAutoScalingGroupRequest {
            autoScalingGroupName = groupName
            forceDelete = true
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.deleteAutoScalingGroup(deleteAutoScalingGroupRequest)
        println("You successfully deleted $groupName")
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CreateAutoScalingGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteAutoScalingGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeAutoScalingGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeAutoScalingInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeScalingActivities](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DisableMetricsCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [EnableMetricsCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [SetDesiredCapacity](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [TerminateInstanceInAutoScalingGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UpdateAutoScalingGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAutoScalingGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun createAutoScalingGroup(
    groupName: String,
    launchTemplateNameVal: String,
    serviceLinkedRoleARNVal: String,
    vpcZoneIdVal: String,
) {
    val templateSpecification =
        LaunchTemplateSpecification {
            launchTemplateName = launchTemplateNameVal
        }

    val request =
        CreateAutoScalingGroupRequest {
            autoScalingGroupName = groupName
            availabilityZones = listOf("us-east-1a")
            launchTemplate = templateSpecification
            maxSize = 1
            minSize = 1
            vpcZoneIdentifier = vpcZoneIdVal
            serviceLinkedRoleArn = serviceLinkedRoleARNVal
        }

    // This object is required for the waiter call.
    val groupsRequestWaiter =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.createAutoScalingGroup(request)
        autoScalingClient.waitUntilGroupExists(groupsRequestWaiter)
        println("$groupName was created!")
    }
}
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAutoScalingGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun deleteSpecificAutoScalingGroup(groupName: String) {
    val deleteAutoScalingGroupRequest =
        DeleteAutoScalingGroupRequest {
            autoScalingGroupName = groupName
            forceDelete = true
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.deleteAutoScalingGroup(deleteAutoScalingGroupRequest)
        println("You successfully deleted $groupName")
    }
}
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeAutoScalingGroups`
<a name="auto-scaling_DescribeAutoScalingGroups_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingGroups`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun getAutoScalingGroups(groupName: String) {
    val scalingGroupsRequest =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeAutoScalingGroups(scalingGroupsRequest)
        response.autoScalingGroups?.forEach { group ->
            println("The group name is ${group.autoScalingGroupName}")
            println("The group ARN is ${group.autoScalingGroupArn}")
            group.instances?.forEach { instance ->
                println("The instance id is ${instance.instanceId}")
                println("The lifecycle state is " + instance.lifecycleState)
            }
        }
    }
}
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeAutoScalingInstances`
<a name="auto-scaling_DescribeAutoScalingInstances_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingInstances`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun describeAutoScalingInstance(id: String) {
    val describeAutoScalingInstancesRequest =
        DescribeAutoScalingInstancesRequest {
            instanceIds = listOf(id)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeAutoScalingInstances(describeAutoScalingInstancesRequest)
        response.autoScalingInstances?.forEach { group ->
            println("The instance lifecycle state is: ${group.lifecycleState}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeScalingActivities`
<a name="auto-scaling_DescribeScalingActivities_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingActivities`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun describeAutoScalingGroups(groupName: String) {
    val groupsReques =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
            maxRecords = 10
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        val response = autoScalingClient.describeAutoScalingGroups(groupsReques)
        response.autoScalingGroups?.forEach { group ->
            println("The service to use for the health checks: ${group.healthCheckType}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DisableMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableMetricsCollection`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun disableMetricsCollection(groupName: String) {
    val disableMetricsCollectionRequest =
        DisableMetricsCollectionRequest {
            autoScalingGroupName = groupName
            metrics = listOf("GroupMaxSize")
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.disableMetricsCollection(disableMetricsCollectionRequest)
        println("The disable metrics collection operation was successful")
    }
}
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `EnableMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableMetricsCollection`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun enableMetricsCollection(groupName: String?) {
    val collectionRequest =
        EnableMetricsCollectionRequest {
            autoScalingGroupName = groupName
            metrics = listOf("GroupMaxSize")
            granularity = "1Minute"
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.enableMetricsCollection(collectionRequest)
        println("The enable metrics collection operation was successful")
    }
}
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `SetDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDesiredCapacity`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun setDesiredCapacity(groupName: String) {
    val capacityRequest =
        SetDesiredCapacityRequest {
            autoScalingGroupName = groupName
            desiredCapacity = 2
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.setDesiredCapacity(capacityRequest)
        println("You set the DesiredCapacity to 2")
    }
}
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `TerminateInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstanceInAutoScalingGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun terminateInstanceInAutoScalingGroup(instanceIdVal: String) {
    val request =
        TerminateInstanceInAutoScalingGroupRequest {
            instanceId = instanceIdVal
            shouldDecrementDesiredCapacity = false
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.terminateInstanceInAutoScalingGroup(request)
        println("You have terminated instance $instanceIdVal")
    }
}
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `UpdateAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAutoScalingGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/autoscale#code-examples). 

```
suspend fun updateAutoScalingGroup(
    groupName: String,
    launchTemplateNameVal: String,
    serviceLinkedRoleARNVal: String,
) {
    val templateSpecification =
        LaunchTemplateSpecification {
            launchTemplateName = launchTemplateNameVal
        }

    val groupRequest =
        UpdateAutoScalingGroupRequest {
            maxSize = 3
            serviceLinkedRoleArn = serviceLinkedRoleARNVal
            autoScalingGroupName = groupName
            launchTemplate = templateSpecification
        }

    val groupsRequestWaiter =
        DescribeAutoScalingGroupsRequest {
            autoScalingGroupNames = listOf(groupName)
        }

    AutoScalingClient { region = "us-east-1" }.use { autoScalingClient ->
        autoScalingClient.updateAutoScalingGroup(groupRequest)
        autoScalingClient.waitUntilGroupExists(groupsRequestWaiter)
        println("You successfully updated the Auto Scaling group  $groupName")
    }
}
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon Bedrock menggunakan SDK untuk Kotlin
<a name="kotlin_1_bedrock_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon Bedrock.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListFoundationModels`
<a name="bedrock_ListFoundationModels_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFoundationModels`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/bedrock#code-examples). 
Buat daftar model foundation Amazon Bedrock yang tersedia.  

```
suspend fun listFoundationModels(): List<FoundationModelSummary>? {
    BedrockClient.fromEnvironment { region = "us-east-1" }.use { bedrockClient ->
        val response = bedrockClient.listFoundationModels(ListFoundationModelsRequest {})
        response.modelSummaries?.forEach { model ->
            println("==========================================")
            println(" Model ID: ${model.modelId}")
            println("------------------------------------------")
            println(" Name: ${model.modelName}")
            println(" Provider: ${model.providerName}")
            println(" Input modalities: ${model.inputModalities}")
            println(" Output modalities: ${model.outputModalities}")
            println(" Supported customizations: ${model.customizationsSupported}")
            println(" Supported inference types: ${model.inferenceTypesSupported}")
            println("------------------------------------------\n")
        }
        return response.modelSummaries
    }
}
```
+  Untuk detail API, lihat [ListFoundationModels](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon Bedrock Runtime menggunakan SDK untuk Kotlin
<a name="kotlin_1_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon Bedrock Runtime.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Amazon Nova](#amazon_nova)

## Amazon Nova
<a name="amazon_nova"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AmazonNovaText_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.  

```
import aws.sdk.kotlin.services.bedrockruntime.BedrockRuntimeClient
import aws.sdk.kotlin.services.bedrockruntime.model.ContentBlock
import aws.sdk.kotlin.services.bedrockruntime.model.ConversationRole
import aws.sdk.kotlin.services.bedrockruntime.model.ConverseRequest
import aws.sdk.kotlin.services.bedrockruntime.model.Message

/**
 * This example demonstrates how to use the Amazon Nova foundation models to generate text.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Create a message
 * - Configure and send a request
 * - Process the response
 */
suspend fun main() {
    converse().also { println(it) }
}

suspend fun converse(): String {
    // Create and configure the Bedrock runtime client
    BedrockRuntimeClient { region = "us-east-1" }.use { client ->

        // Specify the model ID. For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        val modelId = "amazon.nova-lite-v1:0"

        // Create the message with the user's prompt
        val prompt = "Describe the purpose of a 'hello world' program in one line."
        val message = Message {
            role = ConversationRole.User
            content = listOf(ContentBlock.Text(prompt))
        }

        // Configure the request with optional model parameters
        val request = ConverseRequest {
            this.modelId = modelId
            messages = listOf(message)
            inferenceConfig {
                maxTokens = 500 // Maximum response length
                temperature = 0.5F // Lower values: more focused output
                // topP = 0.8F // Alternative to temperature
            }
        }

        // Send the request and process the model's response
        runCatching {
            val response = client.converse(request)
            return response.output!!.asMessage().content.first().asText()
        }.getOrElse { error ->
            error.message?.let { e -> System.err.println("ERROR: Can't invoke '$modelId'. Reason: $e") }
            throw RuntimeException("Failed to generate text with model $modelId", error)
        }
    }
}
```
+  Untuk detail API, lihat [Converse](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK untuk referensi API Kotlin*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AmazonNovaText_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
import aws.sdk.kotlin.services.bedrockruntime.BedrockRuntimeClient
import aws.sdk.kotlin.services.bedrockruntime.model.ContentBlock
import aws.sdk.kotlin.services.bedrockruntime.model.ConversationRole
import aws.sdk.kotlin.services.bedrockruntime.model.ConverseStreamOutput
import aws.sdk.kotlin.services.bedrockruntime.model.ConverseStreamRequest
import aws.sdk.kotlin.services.bedrockruntime.model.Message

/**
 * This example demonstrates how to use the Amazon Nova foundation models
 * to generate streaming text responses.
 * It shows how to:
 * - Set up the Amazon Bedrock runtime client
 * - Create a message with a prompt
 * - Configure a streaming request with parameters
 * - Process the response stream in real time
 */
suspend fun main() {
    converseStream()
}

suspend fun converseStream(): String {
    // A buffer to collect the complete response
    val completeResponseBuffer = StringBuilder()

    // Create and configure the Bedrock runtime client
    BedrockRuntimeClient { region = "us-east-1" }.use { client ->

        // Specify the model ID. For the latest available models, see:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
        val modelId = "amazon.nova-lite-v1:0"

        // Create the message with the user's prompt
        val prompt = "Describe the purpose of a 'hello world' program in a paragraph."
        val message = Message {
            role = ConversationRole.User
            content = listOf(ContentBlock.Text(prompt))
        }

        // Configure the request with optional model parameters
        val request = ConverseStreamRequest {
            this.modelId = modelId
            messages = listOf(message)
            inferenceConfig {
                maxTokens = 500 // Maximum response length
                temperature = 0.5F // Lower values: more focused output
                // topP = 0.8F // Alternative to temperature
            }
        }

        // Process the streaming response
        runCatching {
            client.converseStream(request) { response ->
                response.stream?.collect { chunk ->
                    when (chunk) {
                        is ConverseStreamOutput.ContentBlockDelta -> {
                            // Process each text chunk as it arrives
                            chunk.value.delta?.asText()?.let { text ->
                                print(text)
                                System.out.flush() // Ensure immediate output
                                completeResponseBuffer.append(text)
                            }
                        }
                        else -> {} // Other output block types can be handled as needed
                    }
                }
            }
        }.onFailure { error ->
            error.message?.let { e -> System.err.println("ERROR: Can't invoke '$modelId'. Reason: $e") }
            throw RuntimeException("Failed to generate text with model $modelId: $error", error)
        }
    }

    return completeResponseBuffer.toString()
}
```
+  Untuk detail API, lihat [ConverseStream](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# CloudWatch contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin. CloudWatch

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo CloudWatch
<a name="cloudwatch_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan CloudWatch.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */
suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
           <namespace> 
        Where:
           namespace - The namespace to filter against (for example, AWS/EC2). 
    """

    if (args.size != 1) {
        println(usage)
        exitProcess(0)
    }

    val namespace = args[0]
    listAllMets(namespace)
}

suspend fun listAllMets(namespaceVal: String?) {
    val request =
        ListMetricsRequest {
            namespace = namespaceVal
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient
            .listMetricsPaginated(request)
            .transform { it.metrics?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println("Name is ${obj.metricName}")
                println("Namespace is ${obj.namespace}")
            }
    }
}
```
+  Untuk detail API, lihat [ListMetrics](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="cloudwatch_GetStartedMetricsDashboardsAlarms_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat daftar CloudWatch ruang nama dan metrik.
+ Ambil statistik untuk metrik dan estimasi penagihan.
+ Membuat dan memperbarui sebuah dasbor.
+ Membuat dan menambahkan data ke metrik.
+ Membuat dan memicu alarm, lalu lihat riwayat alarm.
+ Menambahkan detektor anomali.
+ Ambil gambar metrik, lalu bersihkan sumber daya.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 
Jalankan skenario interaktif yang menunjukkan CloudWatch fitur.  

```
/**
 Before running this Kotlin code example, set up your development environment,
 including your credentials.

 For more information, see the following documentation topic:
 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

 To enable billing metrics and statistics for this example, make sure billing alerts are enabled for your account:
 https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/monitor_estimated_charges_with_cloudwatch.html#turning_on_billing_metrics

 This Kotlin code example performs the following tasks:

 1. List available namespaces from Amazon CloudWatch. Select a namespace from the list.
 2. List available metrics within the selected namespace.
 3. Get statistics for the selected metric over the last day.
 4. Get CloudWatch estimated billing for the last week.
 5. Create a new CloudWatch dashboard with metrics.
 6. List dashboards using a paginator.
 7. Create a new custom metric by adding data for it.
 8. Add the custom metric to the dashboard.
 9. Create an alarm for the custom metric.
 10. Describe current alarms.
 11. Get current data for the new custom metric.
 12. Push data into the custom metric to trigger the alarm.
 13. Check the alarm state using the action DescribeAlarmsForMetric.
 14. Get alarm history for the new alarm.
 15. Add an anomaly detector for the custom metric.
 16. Describe current anomaly detectors.
 17. Get a metric image for the custom metric.
 18. Clean up the Amazon CloudWatch resources.
 */

val DASHES: String? = String(CharArray(80)).replace("\u0000", "-")

suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
            <myDate> <costDateWeek> <dashboardName> <dashboardJson> <dashboardAdd> <settings> <metricImage>  

        Where:
            myDate - The start date to use to get metric statistics. (For example, 2023-01-11T18:35:24.00Z.) 
            costDateWeek - The start date to use to get AWS Billing and Cost Management statistics. (For example, 2023-01-11T18:35:24.00Z.) 
            dashboardName - The name of the dashboard to create. 
            dashboardJson - The location of a JSON file to use to create a dashboard. (See Readme file.) 
            dashboardAdd - The location of a JSON file to use to update a dashboard. (See Readme file.) 
            settings - The location of a JSON file from which various values are read. (See Readme file.) 
            metricImage - The location of a BMP file that is used to create a graph. 
    """

    if (args.size != 7) {
        println(usage)
        System.exit(1)
    }

    val myDate = args[0]
    val costDateWeek = args[1]
    val dashboardName = args[2]
    val dashboardJson = args[3]
    val dashboardAdd = args[4]
    val settings = args[5]
    var metricImage = args[6]
    val dataPoint = "10.0".toDouble()
    val inOb = Scanner(System.`in`)

    println(DASHES)
    println("Welcome to the Amazon CloudWatch example scenario.")
    println(DASHES)

    println(DASHES)
    println("1. List at least five available unique namespaces from Amazon CloudWatch. Select a CloudWatch namespace from the list.")
    val list: ArrayList<String> = listNameSpaces()
    for (z in 0..4) {
        println("    ${z + 1}. ${list[z]}")
    }

    var selectedNamespace: String
    var selectedMetrics = ""
    var num = inOb.nextLine().toInt()
    println("You selected $num")

    if (1 <= num && num <= 5) {
        selectedNamespace = list[num - 1]
    } else {
        println("You did not select a valid option.")
        exitProcess(1)
    }
    println("You selected $selectedNamespace")
    println(DASHES)

    println(DASHES)
    println("2. List available metrics within the selected namespace and select one from the list.")
    val metList = listMets(selectedNamespace)
    for (z in 0..4) {
        println("    ${ z + 1}. ${metList?.get(z)}")
    }
    num = inOb.nextLine().toInt()
    if (1 <= num && num <= 5) {
        selectedMetrics = metList!![num - 1]
    } else {
        println("You did not select a valid option.")
        System.exit(1)
    }
    println("You selected $selectedMetrics")
    val myDimension = getSpecificMet(selectedNamespace)
    if (myDimension == null) {
        println("Error - Dimension is null")
        exitProcess(1)
    }
    println(DASHES)

    println(DASHES)
    println("3. Get statistics for the selected metric over the last day.")
    val metricOption: String
    val statTypes = ArrayList<String>()
    statTypes.add("SampleCount")
    statTypes.add("Average")
    statTypes.add("Sum")
    statTypes.add("Minimum")
    statTypes.add("Maximum")

    for (t in 0..4) {
        println("    ${t + 1}. ${statTypes[t]}")
    }
    println("Select a metric statistic by entering a number from the preceding list:")
    num = inOb.nextLine().toInt()
    if (1 <= num && num <= 5) {
        metricOption = statTypes[num - 1]
    } else {
        println("You did not select a valid option.")
        exitProcess(1)
    }
    println("You selected $metricOption")
    getAndDisplayMetricStatistics(selectedNamespace, selectedMetrics, metricOption, myDate, myDimension)
    println(DASHES)

    println(DASHES)
    println("4. Get CloudWatch estimated billing for the last week.")
    getMetricStatistics(costDateWeek)
    println(DASHES)

    println(DASHES)
    println("5. Create a new CloudWatch dashboard with metrics.")
    createDashboardWithMetrics(dashboardName, dashboardJson)
    println(DASHES)

    println(DASHES)
    println("6. List dashboards using a paginator.")
    listDashboards()
    println(DASHES)

    println(DASHES)
    println("7. Create a new custom metric by adding data to it.")
    createNewCustomMetric(dataPoint)
    println(DASHES)

    println(DASHES)
    println("8. Add an additional metric to the dashboard.")
    addMetricToDashboard(dashboardAdd, dashboardName)
    println(DASHES)

    println(DASHES)
    println("9. Create an alarm for the custom metric.")
    val alarmName: String = createAlarm(settings)
    println(DASHES)

    println(DASHES)
    println("10. Describe 10 current alarms.")
    describeAlarms()
    println(DASHES)

    println(DASHES)
    println("11. Get current data for the new custom metric.")
    getCustomMetricData(settings)
    println(DASHES)

    println(DASHES)
    println("12. Push data into the custom metric to trigger the alarm.")
    addMetricDataForAlarm(settings)
    println(DASHES)

    println(DASHES)
    println("13. Check the alarm state using the action DescribeAlarmsForMetric.")
    checkForMetricAlarm(settings)
    println(DASHES)

    println(DASHES)
    println("14. Get alarm history for the new alarm.")
    getAlarmHistory(settings, myDate)
    println(DASHES)

    println(DASHES)
    println("15. Add an anomaly detector for the custom metric.")
    addAnomalyDetector(settings)
    println(DASHES)

    println(DASHES)
    println("16. Describe current anomaly detectors.")
    describeAnomalyDetectors(settings)
    println(DASHES)

    println(DASHES)
    println("17. Get a metric image for the custom metric.")
    getAndOpenMetricImage(metricImage)
    println(DASHES)

    println(DASHES)
    println("18. Clean up the Amazon CloudWatch resources.")
    deleteDashboard(dashboardName)
    deleteAlarm(alarmName)
    deleteAnomalyDetector(settings)
    println(DASHES)

    println(DASHES)
    println("The Amazon CloudWatch example scenario is complete.")
    println(DASHES)
}

suspend fun deleteAnomalyDetector(fileName: String) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    val singleMetricAnomalyDetectorVal =
        SingleMetricAnomalyDetector {
            metricName = customMetricName
            namespace = customMetricNamespace
            stat = "Maximum"
        }

    val request =
        DeleteAnomalyDetectorRequest {
            singleMetricAnomalyDetector = singleMetricAnomalyDetectorVal
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.deleteAnomalyDetector(request)
        println("Successfully deleted the Anomaly Detector.")
    }
}

suspend fun deleteAlarm(alarmNameVal: String) {
    val request =
        DeleteAlarmsRequest {
            alarmNames = listOf(alarmNameVal)
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.deleteAlarms(request)
        println("Successfully deleted alarm $alarmNameVal")
    }
}

suspend fun deleteDashboard(dashboardName: String) {
    val dashboardsRequest =
        DeleteDashboardsRequest {
            dashboardNames = listOf(dashboardName)
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.deleteDashboards(dashboardsRequest)
        println("$dashboardName was successfully deleted.")
    }
}

suspend fun getAndOpenMetricImage(fileName: String) {
    println("Getting Image data for custom metric.")
    val myJSON = """{
        "title": "Example Metric Graph",
        "view": "timeSeries",
        "stacked ": false,
        "period": 10,
        "width": 1400,
        "height": 600,
        "metrics": [
            [
            "AWS/Billing",
            "EstimatedCharges",
            "Currency",
            "USD"
            ]
        ]
        }"""

    val imageRequest =
        GetMetricWidgetImageRequest {
            metricWidget = myJSON
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.getMetricWidgetImage(imageRequest)
        val bytes = response.metricWidgetImage
        if (bytes != null) {
            File(fileName).writeBytes(bytes)
        }
    }
    println("You have successfully written data to $fileName")
}

suspend fun describeAnomalyDetectors(fileName: String) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    val detectorsRequest =
        DescribeAnomalyDetectorsRequest {
            maxResults = 10
            metricName = customMetricName
            namespace = customMetricNamespace
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.describeAnomalyDetectors(detectorsRequest)
        response.anomalyDetectors?.forEach { detector ->
            println("Metric name: ${detector.singleMetricAnomalyDetector?.metricName}")
            println("State: ${detector.stateValue}")
        }
    }
}

suspend fun addAnomalyDetector(fileName: String?) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    val singleMetricAnomalyDetectorVal =
        SingleMetricAnomalyDetector {
            metricName = customMetricName
            namespace = customMetricNamespace
            stat = "Maximum"
        }

    val anomalyDetectorRequest =
        PutAnomalyDetectorRequest {
            singleMetricAnomalyDetector = singleMetricAnomalyDetectorVal
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.putAnomalyDetector(anomalyDetectorRequest)
        println("Added anomaly detector for metric $customMetricName.")
    }
}

suspend fun getAlarmHistory(
    fileName: String,
    date: String,
) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val alarmNameVal = rootNode.findValue("exampleAlarmName").asText()
    val start = Instant.parse(date)
    val endDateVal = Instant.now()

    val historyRequest =
        DescribeAlarmHistoryRequest {
            startDate =
                aws.smithy.kotlin.runtime.time
                    .Instant(start)
            endDate =
                aws.smithy.kotlin.runtime.time
                    .Instant(endDateVal)
            alarmName = alarmNameVal
            historyItemType = HistoryItemType.Action
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.describeAlarmHistory(historyRequest)
        val historyItems = response.alarmHistoryItems
        if (historyItems != null) {
            if (historyItems.isEmpty()) {
                println("No alarm history data found for $alarmNameVal.")
            } else {
                for (item in historyItems) {
                    println("History summary ${item.historySummary}")
                    println("Time stamp: ${item.timestamp}")
                }
            }
        }
    }
}

suspend fun checkForMetricAlarm(fileName: String?) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()
    var hasAlarm = false
    var retries = 10

    val metricRequest =
        DescribeAlarmsForMetricRequest {
            metricName = customMetricName
            namespace = customMetricNamespace
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        while (!hasAlarm && retries > 0) {
            val response = cwClient.describeAlarmsForMetric(metricRequest)
            if (response.metricAlarms?.count()!! > 0) {
                hasAlarm = true
            }
            retries--
            delay(20000)
            println(".")
        }
        if (!hasAlarm) {
            println("No Alarm state found for $customMetricName after 10 retries.")
        } else {
            println("Alarm state found for $customMetricName.")
        }
    }
}

suspend fun addMetricDataForAlarm(fileName: String?) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    // Set an Instant object.
    val time = ZonedDateTime.now(ZoneOffset.UTC).format(DateTimeFormatter.ISO_INSTANT)
    val instant = Instant.parse(time)
    val datum =
        MetricDatum {
            metricName = customMetricName
            unit = StandardUnit.None
            value = 1001.00
            timestamp =
                aws.smithy.kotlin.runtime.time
                    .Instant(instant)
        }

    val datum2 =
        MetricDatum {
            metricName = customMetricName
            unit = StandardUnit.None
            value = 1002.00
            timestamp =
                aws.smithy.kotlin.runtime.time
                    .Instant(instant)
        }

    val metricDataList = ArrayList<MetricDatum>()
    metricDataList.add(datum)
    metricDataList.add(datum2)

    val request =
        PutMetricDataRequest {
            namespace = customMetricNamespace
            metricData = metricDataList
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.putMetricData(request)
        println("Added metric values for for metric $customMetricName")
    }
}

suspend fun getCustomMetricData(fileName: String) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    // Set the date.
    val nowDate = Instant.now()
    val hours: Long = 1
    val minutes: Long = 30
    val date2 =
        nowDate.plus(hours, ChronoUnit.HOURS).plus(
            minutes,
            ChronoUnit.MINUTES,
        )

    val met =
        Metric {
            metricName = customMetricName
            namespace = customMetricNamespace
        }

    val metStat =
        MetricStat {
            stat = "Maximum"
            period = 1
            metric = met
        }

    val dataQUery =
        MetricDataQuery {
            metricStat = metStat
            id = "foo2"
            returnData = true
        }

    val dq = ArrayList<MetricDataQuery>()
    dq.add(dataQUery)
    val getMetReq =
        GetMetricDataRequest {
            maxDatapoints = 10
            scanBy = ScanBy.TimestampDescending
            startTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(nowDate)
            endTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(date2)
            metricDataQueries = dq
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.getMetricData(getMetReq)
        response.metricDataResults?.forEach { item ->
            println("The label is ${item.label}")
            println("The status code is ${item.statusCode}")
        }
    }
}

suspend fun describeAlarms() {
    val typeList = ArrayList<AlarmType>()
    typeList.add(AlarmType.MetricAlarm)
    val alarmsRequest =
        DescribeAlarmsRequest {
            alarmTypes = typeList
            maxRecords = 10
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.describeAlarms(alarmsRequest)
        response.metricAlarms?.forEach { alarm ->
            println("Alarm name: ${alarm.alarmName}")
            println("Alarm description: ${alarm.alarmDescription}")
        }
    }
}

suspend fun createAlarm(fileName: String): String {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode: JsonNode = ObjectMapper().readTree(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()
    val alarmNameVal = rootNode.findValue("exampleAlarmName").asText()
    val emailTopic = rootNode.findValue("emailTopic").asText()
    val accountId = rootNode.findValue("accountId").asText()
    val region2 = rootNode.findValue("region").asText()

    // Create a List for alarm actions.
    val alarmActionObs: MutableList<String> = ArrayList()
    alarmActionObs.add("arn:aws:sns:$region2:$accountId:$emailTopic")
    val alarmRequest =
        PutMetricAlarmRequest {
            alarmActions = alarmActionObs
            alarmDescription = "Example metric alarm"
            alarmName = alarmNameVal
            comparisonOperator = ComparisonOperator.GreaterThanOrEqualToThreshold
            threshold = 100.00
            metricName = customMetricName
            namespace = customMetricNamespace
            evaluationPeriods = 1
            period = 10
            statistic = Statistic.Maximum
            datapointsToAlarm = 1
            treatMissingData = "ignore"
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.putMetricAlarm(alarmRequest)
        println("$alarmNameVal was successfully created!")
        return alarmNameVal
    }
}

suspend fun addMetricToDashboard(
    fileNameVal: String,
    dashboardNameVal: String,
) {
    val dashboardRequest =
        PutDashboardRequest {
            dashboardName = dashboardNameVal
            dashboardBody = readFileAsString(fileNameVal)
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.putDashboard(dashboardRequest)
        println("$dashboardNameVal was successfully updated.")
    }
}

suspend fun createNewCustomMetric(dataPoint: Double) {
    val dimension =
        Dimension {
            name = "UNIQUE_PAGES"
            value = "URLS"
        }

    // Set an Instant object.
    val time = ZonedDateTime.now(ZoneOffset.UTC).format(DateTimeFormatter.ISO_INSTANT)
    val instant = Instant.parse(time)
    val datum =
        MetricDatum {
            metricName = "PAGES_VISITED"
            unit = StandardUnit.None
            value = dataPoint
            timestamp =
                aws.smithy.kotlin.runtime.time
                    .Instant(instant)
            dimensions = listOf(dimension)
        }

    val request =
        PutMetricDataRequest {
            namespace = "SITE/TRAFFIC"
            metricData = listOf(datum)
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.putMetricData(request)
        println("Added metric values for for metric PAGES_VISITED")
    }
}

suspend fun listDashboards() {
    CloudWatchClient { region = "us-east-1" }.use { cwClient ->
        cwClient
            .listDashboardsPaginated({})
            .transform { it.dashboardEntries?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println("Name is ${obj.dashboardName}")
                println("Dashboard ARN is ${obj.dashboardArn}")
            }
    }
}

suspend fun createDashboardWithMetrics(
    dashboardNameVal: String,
    fileNameVal: String,
) {
    val dashboardRequest =
        PutDashboardRequest {
            dashboardName = dashboardNameVal
            dashboardBody = readFileAsString(fileNameVal)
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.putDashboard(dashboardRequest)
        println("$dashboardNameVal was successfully created.")
        val messages = response.dashboardValidationMessages
        if (messages != null) {
            if (messages.isEmpty()) {
                println("There are no messages in the new Dashboard")
            } else {
                for (message in messages) {
                    println("Message is: ${message.message}")
                }
            }
        }
    }
}

fun readFileAsString(file: String): String = String(Files.readAllBytes(Paths.get(file)))

suspend fun getMetricStatistics(costDateWeek: String?) {
    val start = Instant.parse(costDateWeek)
    val endDate = Instant.now()
    val dimension =
        Dimension {
            name = "Currency"
            value = "USD"
        }

    val dimensionList: MutableList<Dimension> = ArrayList()
    dimensionList.add(dimension)

    val statisticsRequest =
        GetMetricStatisticsRequest {
            metricName = "EstimatedCharges"
            namespace = "AWS/Billing"
            dimensions = dimensionList
            statistics = listOf(Statistic.Maximum)
            startTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(start)
            endTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(endDate)
            period = 86400
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.getMetricStatistics(statisticsRequest)
        val data: List<Datapoint>? = response.datapoints
        if (data != null) {
            if (!data.isEmpty()) {
                for (datapoint in data) {
                    println("Timestamp:  ${datapoint.timestamp} Maximum value: ${datapoint.maximum}")
                }
            } else {
                println("The returned data list is empty")
            }
        }
    }
}

suspend fun getAndDisplayMetricStatistics(
    nameSpaceVal: String,
    metVal: String,
    metricOption: String,
    date: String,
    myDimension: Dimension,
) {
    val start = Instant.parse(date)
    val endDate = Instant.now()
    val statisticsRequest =
        GetMetricStatisticsRequest {
            endTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(endDate)
            startTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(start)
            dimensions = listOf(myDimension)
            metricName = metVal
            namespace = nameSpaceVal
            period = 86400
            statistics = listOf(Statistic.fromValue(metricOption))
        }

    CloudWatchClient { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.getMetricStatistics(statisticsRequest)
        val data = response.datapoints
        if (data != null) {
            if (data.isNotEmpty()) {
                for (datapoint in data) {
                    println("Timestamp: ${datapoint.timestamp} Maximum value: ${datapoint.maximum}")
                }
            } else {
                println("The returned data list is empty")
            }
        }
    }
}

suspend fun listMets(namespaceVal: String?): ArrayList<String>? {
    val metList = ArrayList<String>()
    val request =
        ListMetricsRequest {
            namespace = namespaceVal
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val reponse = cwClient.listMetrics(request)
        reponse.metrics?.forEach { metrics ->
            val data = metrics.metricName
            if (!metList.contains(data)) {
                metList.add(data!!)
            }
        }
    }
    return metList
}

suspend fun getSpecificMet(namespaceVal: String?): Dimension? {
    val request =
        ListMetricsRequest {
            namespace = namespaceVal
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.listMetrics(request)
        val myList = response.metrics
        if (myList != null) {
            return myList[0].dimensions?.get(0)
        }
    }
    return null
}

suspend fun listNameSpaces(): ArrayList<String> {
    val nameSpaceList = ArrayList<String>()
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.listMetrics(ListMetricsRequest {})
        response.metrics?.forEach { metrics ->
            val data = metrics.namespace
            if (!nameSpaceList.contains(data)) {
                nameSpaceList.add(data!!)
            }
        }
    }
    return nameSpaceList
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Kotlin*.
  + [DeleteAlarms](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteAnomalyDetector](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteDashboards](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeAlarmHistory](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeAlarms](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeAlarmsForMetric](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeAnomalyDetectors](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetMetricData](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetMetricStatistics](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetMetricWidgetImage](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListMetrics](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutAnomalyDetector](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutDashboard](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutMetricAlarm](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutMetricData](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `DeleteAlarms`
<a name="cloudwatch_DeleteAlarms_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlarms`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun deleteAlarm(alarmNameVal: String) {
    val request =
        DeleteAlarmsRequest {
            alarmNames = listOf(alarmNameVal)
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.deleteAlarms(request)
        println("Successfully deleted alarm $alarmNameVal")
    }
}
```
+  Untuk detail API, lihat [DeleteAlarms](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteAnomalyDetector`
<a name="cloudwatch_DeleteAnomalyDetector_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAnomalyDetector`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun deleteAnomalyDetector(fileName: String) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    val singleMetricAnomalyDetectorVal =
        SingleMetricAnomalyDetector {
            metricName = customMetricName
            namespace = customMetricNamespace
            stat = "Maximum"
        }

    val request =
        DeleteAnomalyDetectorRequest {
            singleMetricAnomalyDetector = singleMetricAnomalyDetectorVal
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.deleteAnomalyDetector(request)
        println("Successfully deleted the Anomaly Detector.")
    }
}
```
+  Untuk detail API, lihat [DeleteAnomalyDetector](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteDashboards`
<a name="cloudwatch_DeleteDashboards_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDashboards`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun deleteDashboard(dashboardName: String) {
    val dashboardsRequest =
        DeleteDashboardsRequest {
            dashboardNames = listOf(dashboardName)
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.deleteDashboards(dashboardsRequest)
        println("$dashboardName was successfully deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteDashboards](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeAlarmHistory`
<a name="cloudwatch_DescribeAlarmHistory_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmHistory`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun getAlarmHistory(
    fileName: String,
    date: String,
) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val alarmNameVal = rootNode.findValue("exampleAlarmName").asText()
    val start = Instant.parse(date)
    val endDateVal = Instant.now()

    val historyRequest =
        DescribeAlarmHistoryRequest {
            startDate =
                aws.smithy.kotlin.runtime.time
                    .Instant(start)
            endDate =
                aws.smithy.kotlin.runtime.time
                    .Instant(endDateVal)
            alarmName = alarmNameVal
            historyItemType = HistoryItemType.Action
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.describeAlarmHistory(historyRequest)
        val historyItems = response.alarmHistoryItems
        if (historyItems != null) {
            if (historyItems.isEmpty()) {
                println("No alarm history data found for $alarmNameVal.")
            } else {
                for (item in historyItems) {
                    println("History summary ${item.historySummary}")
                    println("Time stamp: ${item.timestamp}")
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [DescribeAlarmHistory](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeAlarms`
<a name="cloudwatch_DescribeAlarms_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarms`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun describeAlarms() {
    val typeList = ArrayList<AlarmType>()
    typeList.add(AlarmType.MetricAlarm)
    val alarmsRequest =
        DescribeAlarmsRequest {
            alarmTypes = typeList
            maxRecords = 10
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.describeAlarms(alarmsRequest)
        response.metricAlarms?.forEach { alarm ->
            println("Alarm name: ${alarm.alarmName}")
            println("Alarm description: ${alarm.alarmDescription}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeAlarms](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun checkForMetricAlarm(fileName: String?) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()
    var hasAlarm = false
    var retries = 10

    val metricRequest =
        DescribeAlarmsForMetricRequest {
            metricName = customMetricName
            namespace = customMetricNamespace
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        while (!hasAlarm && retries > 0) {
            val response = cwClient.describeAlarmsForMetric(metricRequest)
            if (response.metricAlarms?.count()!! > 0) {
                hasAlarm = true
            }
            retries--
            delay(20000)
            println(".")
        }
        if (!hasAlarm) {
            println("No Alarm state found for $customMetricName after 10 retries.")
        } else {
            println("Alarm state found for $customMetricName.")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeAnomalyDetectors`
<a name="cloudwatch_DescribeAnomalyDetectors_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAnomalyDetectors`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun describeAnomalyDetectors(fileName: String) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    val detectorsRequest =
        DescribeAnomalyDetectorsRequest {
            maxResults = 10
            metricName = customMetricName
            namespace = customMetricNamespace
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.describeAnomalyDetectors(detectorsRequest)
        response.anomalyDetectors?.forEach { detector ->
            println("Metric name: ${detector.singleMetricAnomalyDetector?.metricName}")
            println("State: ${detector.stateValue}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeAnomalyDetectors](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun disableActions(alarmName: String) {
    val request =
        DisableAlarmActionsRequest {
            alarmNames = listOf(alarmName)
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.disableAlarmActions(request)
        println("Successfully disabled actions on alarm $alarmName")
    }
}
```
+  Untuk detail API, lihat [DisableAlarmActions](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `EnableAlarmActions`
<a name="cloudwatch_EnableAlarmActions_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableAlarmActions`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun enableActions(alarm: String) {
    val request =
        EnableAlarmActionsRequest {
            alarmNames = listOf(alarm)
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.enableAlarmActions(request)
        println("Successfully enabled actions on alarm $alarm")
    }
}
```
+  Untuk detail API, lihat [EnableAlarmActions](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetMetricData`
<a name="cloudwatch_GetMetricData_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricData`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun getCustomMetricData(fileName: String) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    // Set the date.
    val nowDate = Instant.now()
    val hours: Long = 1
    val minutes: Long = 30
    val date2 =
        nowDate.plus(hours, ChronoUnit.HOURS).plus(
            minutes,
            ChronoUnit.MINUTES,
        )

    val met =
        Metric {
            metricName = customMetricName
            namespace = customMetricNamespace
        }

    val metStat =
        MetricStat {
            stat = "Maximum"
            period = 1
            metric = met
        }

    val dataQUery =
        MetricDataQuery {
            metricStat = metStat
            id = "foo2"
            returnData = true
        }

    val dq = ArrayList<MetricDataQuery>()
    dq.add(dataQUery)
    val getMetReq =
        GetMetricDataRequest {
            maxDatapoints = 10
            scanBy = ScanBy.TimestampDescending
            startTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(nowDate)
            endTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(date2)
            metricDataQueries = dq
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.getMetricData(getMetReq)
        response.metricDataResults?.forEach { item ->
            println("The label is ${item.label}")
            println("The status code is ${item.statusCode}")
        }
    }
}
```
+  Untuk detail API, lihat [GetMetricData](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetMetricStatistics`
<a name="cloudwatch_GetMetricStatistics_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricStatistics`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun getAndDisplayMetricStatistics(
    nameSpaceVal: String,
    metVal: String,
    metricOption: String,
    date: String,
    myDimension: Dimension,
) {
    val start = Instant.parse(date)
    val endDate = Instant.now()
    val statisticsRequest =
        GetMetricStatisticsRequest {
            endTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(endDate)
            startTime =
                aws.smithy.kotlin.runtime.time
                    .Instant(start)
            dimensions = listOf(myDimension)
            metricName = metVal
            namespace = nameSpaceVal
            period = 86400
            statistics = listOf(Statistic.fromValue(metricOption))
        }

    CloudWatchClient { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.getMetricStatistics(statisticsRequest)
        val data = response.datapoints
        if (data != null) {
            if (data.isNotEmpty()) {
                for (datapoint in data) {
                    println("Timestamp: ${datapoint.timestamp} Maximum value: ${datapoint.maximum}")
                }
            } else {
                println("The returned data list is empty")
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetMetricStatistics](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetMetricWidgetImage`
<a name="cloudwatch_GetMetricWidgetImage_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricWidgetImage`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun getAndOpenMetricImage(fileName: String) {
    println("Getting Image data for custom metric.")
    val myJSON = """{
        "title": "Example Metric Graph",
        "view": "timeSeries",
        "stacked ": false,
        "period": 10,
        "width": 1400,
        "height": 600,
        "metrics": [
            [
            "AWS/Billing",
            "EstimatedCharges",
            "Currency",
            "USD"
            ]
        ]
        }"""

    val imageRequest =
        GetMetricWidgetImageRequest {
            metricWidget = myJSON
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.getMetricWidgetImage(imageRequest)
        val bytes = response.metricWidgetImage
        if (bytes != null) {
            File(fileName).writeBytes(bytes)
        }
    }
    println("You have successfully written data to $fileName")
}
```
+  Untuk detail API, lihat [GetMetricWidgetImage](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListDashboards`
<a name="cloudwatch_ListDashboards_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDashboards`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun listDashboards() {
    CloudWatchClient { region = "us-east-1" }.use { cwClient ->
        cwClient
            .listDashboardsPaginated({})
            .transform { it.dashboardEntries?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println("Name is ${obj.dashboardName}")
                println("Dashboard ARN is ${obj.dashboardArn}")
            }
    }
}
```
+  Untuk detail API, lihat [ListDashboards](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun listMets(namespaceVal: String?): ArrayList<String>? {
    val metList = ArrayList<String>()
    val request =
        ListMetricsRequest {
            namespace = namespaceVal
        }
    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val reponse = cwClient.listMetrics(request)
        reponse.metrics?.forEach { metrics ->
            val data = metrics.metricName
            if (!metList.contains(data)) {
                metList.add(data!!)
            }
        }
    }
    return metList
}
```
+  Untuk detail API, lihat [ListMetrics](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutAnomalyDetector`
<a name="cloudwatch_PutAnomalyDetector_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutAnomalyDetector`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun addAnomalyDetector(fileName: String?) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    val singleMetricAnomalyDetectorVal =
        SingleMetricAnomalyDetector {
            metricName = customMetricName
            namespace = customMetricNamespace
            stat = "Maximum"
        }

    val anomalyDetectorRequest =
        PutAnomalyDetectorRequest {
            singleMetricAnomalyDetector = singleMetricAnomalyDetectorVal
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.putAnomalyDetector(anomalyDetectorRequest)
        println("Added anomaly detector for metric $customMetricName.")
    }
}
```
+  Untuk detail API, lihat [PutAnomalyDetector](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutDashboard`
<a name="cloudwatch_PutDashboard_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutDashboard`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun createDashboardWithMetrics(
    dashboardNameVal: String,
    fileNameVal: String,
) {
    val dashboardRequest =
        PutDashboardRequest {
            dashboardName = dashboardNameVal
            dashboardBody = readFileAsString(fileNameVal)
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        val response = cwClient.putDashboard(dashboardRequest)
        println("$dashboardNameVal was successfully created.")
        val messages = response.dashboardValidationMessages
        if (messages != null) {
            if (messages.isEmpty()) {
                println("There are no messages in the new Dashboard")
            } else {
                for (message in messages) {
                    println("Message is: ${message.message}")
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [PutDashboard](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun putMetricAlarm(
    alarmNameVal: String,
    instanceIdVal: String,
) {
    val dimensionOb =
        Dimension {
            name = "InstanceId"
            value = instanceIdVal
        }

    val request =
        PutMetricAlarmRequest {
            alarmName = alarmNameVal
            comparisonOperator = ComparisonOperator.GreaterThanThreshold
            evaluationPeriods = 1
            metricName = "CPUUtilization"
            namespace = "AWS/EC2"
            period = 60
            statistic = Statistic.fromValue("Average")
            threshold = 70.0
            actionsEnabled = false
            alarmDescription = "An Alarm created by the Kotlin SDK when server CPU utilization exceeds 70%"
            unit = StandardUnit.fromValue("Seconds")
            dimensions = listOf(dimensionOb)
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.putMetricAlarm(request)
        println("Successfully created an alarm with name $alarmNameVal")
    }
}
```
+  Untuk detail API, lihat [PutMetricAlarm](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun addMetricDataForAlarm(fileName: String?) {
    // Read values from the JSON file.
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val customMetricNamespace = rootNode.findValue("customMetricNamespace").asText()
    val customMetricName = rootNode.findValue("customMetricName").asText()

    // Set an Instant object.
    val time = ZonedDateTime.now(ZoneOffset.UTC).format(DateTimeFormatter.ISO_INSTANT)
    val instant = Instant.parse(time)
    val datum =
        MetricDatum {
            metricName = customMetricName
            unit = StandardUnit.None
            value = 1001.00
            timestamp =
                aws.smithy.kotlin.runtime.time
                    .Instant(instant)
        }

    val datum2 =
        MetricDatum {
            metricName = customMetricName
            unit = StandardUnit.None
            value = 1002.00
            timestamp =
                aws.smithy.kotlin.runtime.time
                    .Instant(instant)
        }

    val metricDataList = ArrayList<MetricDatum>()
    metricDataList.add(datum)
    metricDataList.add(datum2)

    val request =
        PutMetricDataRequest {
            namespace = customMetricNamespace
            metricData = metricDataList
        }

    CloudWatchClient.fromEnvironment { region = "us-east-1" }.use { cwClient ->
        cwClient.putMetricData(request)
        println("Added metric values for for metric $customMetricName")
    }
}
```
+  Untuk detail API, lihat [PutMetricData](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# CloudWatch Contoh log menggunakan SDK untuk Kotlin
<a name="kotlin_1_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan CloudWatch Log.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteSubscriptionFilter`
<a name="cloudwatch-logs_DeleteSubscriptionFilter_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSubscriptionFilter`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun deleteSubFilter(
    filter: String?,
    logGroup: String?,
) {
    val request =
        DeleteSubscriptionFilterRequest {
            filterName = filter
            logGroupName = logGroup
        }

    CloudWatchLogsClient.fromEnvironment { region = "us-west-2" }.use { logs ->
        logs.deleteSubscriptionFilter(request)
        println("Successfully deleted CloudWatch logs subscription filter named $filter")
    }
}
```
+  Untuk detail API, lihat [DeleteSubscriptionFilter](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeSubscriptionFilters`
<a name="cloudwatch-logs_DescribeSubscriptionFilters_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSubscriptionFilters`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cloudwatch#code-examples). 

```
suspend fun describeFilters(logGroup: String) {
    val request =
        DescribeSubscriptionFiltersRequest {
            logGroupName = logGroup
            limit = 1
        }

    CloudWatchLogsClient.fromEnvironment { region = "us-west-2" }.use { cwlClient ->
        val response = cwlClient.describeSubscriptionFilters(request)
        response.subscriptionFilters?.forEach { filter ->
            println("Retrieved filter with name  ${filter.filterName} pattern ${filter.filterPattern} and destination ${filter.destinationArn}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeSubscriptionFilters](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `StartLiveTail`
<a name="cloudwatch-logs_StartLiveTail_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartLiveTail`.

**SDK untuk Kotlin**  
Sertakan file-file yang diperlukan.  

```
import aws.sdk.kotlin.services.cloudwatchlogs.CloudWatchLogsClient
import aws.sdk.kotlin.services.cloudwatchlogs.model.StartLiveTailRequest
import aws.sdk.kotlin.services.cloudwatchlogs.model.StartLiveTailResponseStream
import kotlinx.coroutines.flow.takeWhile
```
Mulai sesi Live Tail.  

```
    val client = CloudWatchLogsClient.fromEnvironment()

    val request = StartLiveTailRequest {
        logGroupIdentifiers = logGroupIdentifiersVal
        logStreamNames = logStreamNamesVal
        logEventFilterPattern = logEventFilterPatternVal
    }

    val startTime = System.currentTimeMillis()

    try {
        client.startLiveTail(request) { response ->
            val stream = response.responseStream
            if (stream != null) {
                /* Set a timeout to unsubcribe from the flow. This will:
                * 1). Close the stream
                * 2). Stop the Live Tail session
                */
                stream.takeWhile { System.currentTimeMillis() - startTime < 10000 }.collect { value ->
                    if (value is StartLiveTailResponseStream.SessionStart) {
                        println(value.asSessionStart())
                    } else if (value is StartLiveTailResponseStream.SessionUpdate) {
                        for (e in value.asSessionUpdate().sessionResults!!) {
                            println(e)
                        }
                    } else {
                        throw IllegalArgumentException("Unknown event type")
                    }
                }
            } else {
                throw IllegalArgumentException("No response stream")
            }
        }
    } catch (e: Exception) {
        println("Exception occurred during StartLiveTail: $e")
        System.exit(1)
    }
```
+  Untuk detail API, lihat [StartLiveTail](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK untuk Kotlin
<a name="kotlin_1_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Penyedia Identitas Amazon Cognito.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AdminGetUser`
<a name="cognito-identity-provider_AdminGetUser_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminGetUser`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
suspend fun getAdminUser(
    userNameVal: String?,
    poolIdVal: String?,
) {
    val userRequest =
        AdminGetUserRequest {
            username = userNameVal
            userPoolId = poolIdVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val response = identityProviderClient.adminGetUser(userRequest)
        println("User status ${response.userStatus}")
    }
}
```
+  Untuk detail API, lihat [AdminGetUser](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `AdminInitiateAuth`
<a name="cognito-identity-provider_AdminInitiateAuth_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminInitiateAuth`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
suspend fun checkAuthMethod(
    clientIdVal: String,
    userNameVal: String,
    passwordVal: String,
    userPoolIdVal: String,
): AdminInitiateAuthResponse {
    val authParas = mutableMapOf<String, String>()
    authParas["USERNAME"] = userNameVal
    authParas["PASSWORD"] = passwordVal

    val authRequest =
        AdminInitiateAuthRequest {
            clientId = clientIdVal
            userPoolId = userPoolIdVal
            authParameters = authParas
            authFlow = AuthFlowType.AdminUserPasswordAuth
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val response = identityProviderClient.adminInitiateAuth(authRequest)
        println("Result Challenge is ${response.challengeName}")
        return response
    }
}
```
+  Untuk detail API, lihat [AdminInitiateAuth](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `AdminRespondToAuthChallenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminRespondToAuthChallenge`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
// Respond to an authentication challenge.
suspend fun adminRespondToAuthChallenge(
    userName: String,
    clientIdVal: String?,
    mfaCode: String,
    sessionVal: String?,
) {
    println("SOFTWARE_TOKEN_MFA challenge is generated")
    val challengeResponsesOb = mutableMapOf<String, String>()
    challengeResponsesOb["USERNAME"] = userName
    challengeResponsesOb["SOFTWARE_TOKEN_MFA_CODE"] = mfaCode

    val adminRespondToAuthChallengeRequest =
        AdminRespondToAuthChallengeRequest {
            challengeName = ChallengeNameType.SoftwareTokenMfa
            clientId = clientIdVal
            challengeResponses = challengeResponsesOb
            session = sessionVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val respondToAuthChallengeResult = identityProviderClient.adminRespondToAuthChallenge(adminRespondToAuthChallengeRequest)
        println("respondToAuthChallengeResult.getAuthenticationResult() ${respondToAuthChallengeResult.authenticationResult}")
    }
}
```
+  Untuk detail API, lihat [AdminRespondToAuthChallenge](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `AssociateSoftwareToken`
<a name="cognito-identity-provider_AssociateSoftwareToken_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateSoftwareToken`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
suspend fun getSecretForAppMFA(sessionVal: String?): String? {
    val softwareTokenRequest =
        AssociateSoftwareTokenRequest {
            session = sessionVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val tokenResponse = identityProviderClient.associateSoftwareToken(softwareTokenRequest)
        val secretCode = tokenResponse.secretCode
        println("Enter this token into Google Authenticator")
        println(secretCode)
        return tokenResponse.session
    }
}
```
+  Untuk detail API, lihat [AssociateSoftwareToken](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ConfirmSignUp`
<a name="cognito-identity-provider_ConfirmSignUp_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSignUp`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
suspend fun confirmSignUp(
    clientIdVal: String?,
    codeVal: String?,
    userNameVal: String?,
) {
    val signUpRequest =
        ConfirmSignUpRequest {
            clientId = clientIdVal
            confirmationCode = codeVal
            username = userNameVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        identityProviderClient.confirmSignUp(signUpRequest)
        println("$userNameVal  was confirmed")
    }
}
```
+  Untuk detail API, lihat [ConfirmSignUp](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListUsers`
<a name="cognito-identity-provider_ListUsers_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
suspend fun listAllUsers(userPoolId: String) {
    val request =
        ListUsersRequest {
            this.userPoolId = userPoolId
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { cognitoClient ->
        val response = cognitoClient.listUsers(request)
        response.users?.forEach { user ->
            println("The user name is ${user.username}")
        }
    }
}
```
+  Untuk detail API, lihat [ListUsers](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ResendConfirmationCode`
<a name="cognito-identity-provider_ResendConfirmationCode_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendConfirmationCode`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
suspend fun resendConfirmationCode(
    clientIdVal: String?,
    userNameVal: String?,
) {
    val codeRequest =
        ResendConfirmationCodeRequest {
            clientId = clientIdVal
            username = userNameVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val response = identityProviderClient.resendConfirmationCode(codeRequest)
        println("Method of delivery is " + (response.codeDeliveryDetails?.deliveryMedium))
    }
}
```
+  Untuk detail API, lihat [ResendConfirmationCode](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `SignUp`
<a name="cognito-identity-provider_SignUp_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SignUp`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
suspend fun signUp(
    clientIdVal: String?,
    userNameVal: String?,
    passwordVal: String?,
    emailVal: String?,
) {
    val userAttrs =
        AttributeType {
            name = "email"
            value = emailVal
        }

    val userAttrsList = mutableListOf<AttributeType>()
    userAttrsList.add(userAttrs)
    val signUpRequest =
        SignUpRequest {
            userAttributes = userAttrsList
            username = userNameVal
            clientId = clientIdVal
            password = passwordVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        identityProviderClient.signUp(signUpRequest)
        println("User has been signed up")
    }
}
```
+  Untuk detail API, lihat [SignUp](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `VerifySoftwareToken`
<a name="cognito-identity-provider_VerifySoftwareToken_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifySoftwareToken`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
// Verify the TOTP and register for MFA.
suspend fun verifyTOTP(
    sessionVal: String?,
    codeVal: String?,
) {
    val tokenRequest =
        VerifySoftwareTokenRequest {
            userCode = codeVal
            session = sessionVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val verifyResponse = identityProviderClient.verifySoftwareToken(tokenRequest)
        println("The status of the token is ${verifyResponse.status}")
    }
}
```
+  Untuk detail API, lihat [VerifySoftwareToken](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Mendaftar pengguna dengan kumpulan pengguna yang membutuhkan MFA
<a name="cognito-identity-provider_Scenario_SignUpUserWithMfa_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar dan konfirmasi pengguna dengan nama pengguna, kata sandi, dan alamat email.
+ Siapkan otentikasi multi-faktor dengan mengaitkan aplikasi MFA dengan pengguna.
+ Masuk dengan menggunakan kata sandi dan kode MFA.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/cognito#code-examples). 

```
/**
 Before running this Kotlin code example, set up your development environment, including your credentials.

 For more information, see the following documentation:
 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

 TIP: To set up the required user pool, run the AWS Cloud Development Kit (AWS CDK) script provided in this GitHub repo at resources/cdk/cognito_scenario_user_pool_with_mfa.

 This code example performs the following operations:

 1. Invokes the signUp method to sign up a user.
 2. Invokes the adminGetUser method to get the user's confirmation status.
 3. Invokes the ResendConfirmationCode method if the user requested another code.
 4. Invokes the confirmSignUp method.
 5. Invokes the initiateAuth to sign in. This results in being prompted to set up TOTP (time-based one-time password). (The response is “ChallengeName”: “MFA_SETUP”).
 6. Invokes the AssociateSoftwareToken method to generate a TOTP MFA private key. This can be used with Google Authenticator.
 7. Invokes the VerifySoftwareToken method to verify the TOTP and register for MFA.
 8. Invokes the AdminInitiateAuth to sign in again. This results in being prompted to submit a TOTP (Response: “ChallengeName”: “SOFTWARE_TOKEN_MFA”).
 9. Invokes the AdminRespondToAuthChallenge to get back a token.
 */

suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
            <clientId> <poolId>
        Where:
            clientId - The app client Id value that you can get from the AWS CDK script.
            poolId - The pool Id that you can get from the AWS CDK script. 
    """

    if (args.size != 2) {
        println(usage)
        exitProcess(1)
    }

    val clientId = args[0]
    val poolId = args[1]

    // Use the console to get data from the user.
    println("*** Enter your use name")
    val inOb = Scanner(System.`in`)
    val userName = inOb.nextLine()
    println(userName)

    println("*** Enter your password")
    val password: String = inOb.nextLine()

    println("*** Enter your email")
    val email = inOb.nextLine()

    println("*** Signing up $userName")
    signUp(clientId, userName, password, email)

    println("*** Getting $userName in the user pool")
    getAdminUser(userName, poolId)

    println("*** Conformation code sent to $userName. Would you like to send a new code? (Yes/No)")
    val ans = inOb.nextLine()

    if (ans.compareTo("Yes") == 0) {
        println("*** Sending a new confirmation code")
        resendConfirmationCode(clientId, userName)
    }
    println("*** Enter the confirmation code that was emailed")
    val code = inOb.nextLine()
    confirmSignUp(clientId, code, userName)

    println("*** Rechecking the status of $userName in the user pool")
    getAdminUser(userName, poolId)

    val authResponse = checkAuthMethod(clientId, userName, password, poolId)
    val mySession = authResponse.session
    val newSession = getSecretForAppMFA(mySession)
    println("*** Enter the 6-digit code displayed in Google Authenticator")
    val myCode = inOb.nextLine()

    // Verify the TOTP and register for MFA.
    verifyTOTP(newSession, myCode)
    println("*** Re-enter a 6-digit code displayed in Google Authenticator")
    val mfaCode: String = inOb.nextLine()
    val authResponse1 = checkAuthMethod(clientId, userName, password, poolId)
    val session2 = authResponse1.session
    adminRespondToAuthChallenge(userName, clientId, mfaCode, session2)
}

suspend fun checkAuthMethod(
    clientIdVal: String,
    userNameVal: String,
    passwordVal: String,
    userPoolIdVal: String,
): AdminInitiateAuthResponse {
    val authParas = mutableMapOf<String, String>()
    authParas["USERNAME"] = userNameVal
    authParas["PASSWORD"] = passwordVal

    val authRequest =
        AdminInitiateAuthRequest {
            clientId = clientIdVal
            userPoolId = userPoolIdVal
            authParameters = authParas
            authFlow = AuthFlowType.AdminUserPasswordAuth
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val response = identityProviderClient.adminInitiateAuth(authRequest)
        println("Result Challenge is ${response.challengeName}")
        return response
    }
}

suspend fun resendConfirmationCode(
    clientIdVal: String?,
    userNameVal: String?,
) {
    val codeRequest =
        ResendConfirmationCodeRequest {
            clientId = clientIdVal
            username = userNameVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val response = identityProviderClient.resendConfirmationCode(codeRequest)
        println("Method of delivery is " + (response.codeDeliveryDetails?.deliveryMedium))
    }
}

// Respond to an authentication challenge.
suspend fun adminRespondToAuthChallenge(
    userName: String,
    clientIdVal: String?,
    mfaCode: String,
    sessionVal: String?,
) {
    println("SOFTWARE_TOKEN_MFA challenge is generated")
    val challengeResponsesOb = mutableMapOf<String, String>()
    challengeResponsesOb["USERNAME"] = userName
    challengeResponsesOb["SOFTWARE_TOKEN_MFA_CODE"] = mfaCode

    val adminRespondToAuthChallengeRequest =
        AdminRespondToAuthChallengeRequest {
            challengeName = ChallengeNameType.SoftwareTokenMfa
            clientId = clientIdVal
            challengeResponses = challengeResponsesOb
            session = sessionVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val respondToAuthChallengeResult = identityProviderClient.adminRespondToAuthChallenge(adminRespondToAuthChallengeRequest)
        println("respondToAuthChallengeResult.getAuthenticationResult() ${respondToAuthChallengeResult.authenticationResult}")
    }
}

// Verify the TOTP and register for MFA.
suspend fun verifyTOTP(
    sessionVal: String?,
    codeVal: String?,
) {
    val tokenRequest =
        VerifySoftwareTokenRequest {
            userCode = codeVal
            session = sessionVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val verifyResponse = identityProviderClient.verifySoftwareToken(tokenRequest)
        println("The status of the token is ${verifyResponse.status}")
    }
}

suspend fun getSecretForAppMFA(sessionVal: String?): String? {
    val softwareTokenRequest =
        AssociateSoftwareTokenRequest {
            session = sessionVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val tokenResponse = identityProviderClient.associateSoftwareToken(softwareTokenRequest)
        val secretCode = tokenResponse.secretCode
        println("Enter this token into Google Authenticator")
        println(secretCode)
        return tokenResponse.session
    }
}

suspend fun confirmSignUp(
    clientIdVal: String?,
    codeVal: String?,
    userNameVal: String?,
) {
    val signUpRequest =
        ConfirmSignUpRequest {
            clientId = clientIdVal
            confirmationCode = codeVal
            username = userNameVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        identityProviderClient.confirmSignUp(signUpRequest)
        println("$userNameVal  was confirmed")
    }
}

suspend fun getAdminUser(
    userNameVal: String?,
    poolIdVal: String?,
) {
    val userRequest =
        AdminGetUserRequest {
            username = userNameVal
            userPoolId = poolIdVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        val response = identityProviderClient.adminGetUser(userRequest)
        println("User status ${response.userStatus}")
    }
}

suspend fun signUp(
    clientIdVal: String?,
    userNameVal: String?,
    passwordVal: String?,
    emailVal: String?,
) {
    val userAttrs =
        AttributeType {
            name = "email"
            value = emailVal
        }

    val userAttrsList = mutableListOf<AttributeType>()
    userAttrsList.add(userAttrs)
    val signUpRequest =
        SignUpRequest {
            userAttributes = userAttrsList
            username = userNameVal
            clientId = clientIdVal
            password = passwordVal
        }

    CognitoIdentityProviderClient.fromEnvironment { region = "us-east-1" }.use { identityProviderClient ->
        identityProviderClient.signUp(signUpRequest)
        println("User has been signed up")
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [AdminGetUser](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [AdminInitiateAuth](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [AdminRespondToAuthChallenge](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [AssociateSoftwareToken](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ConfirmDevice](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ConfirmSignUp](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [InitiateAuth](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListUsers](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ResendConfirmationCode](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [RespondToAuthChallenge](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [SignUp](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [VerifySoftwareToken](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

# Amazon Comprehend contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_comprehend_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon Comprehend.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi perpesanan
<a name="cross_SQSMessageApp_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi pesan dengan menggunakan Amazon SQS.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon SQS API untuk mengembangkan Spring REST API yang mengirim dan mengambil pesan.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_message_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon SQS

# Contoh DynamoDB menggunakan SDK untuk Kotlin
<a name="kotlin_1_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 
Buat tabel DynamoDB.  

```
suspend fun createScenarioTable(
    tableNameVal: String,
    key: String,
) {
    val attDef =
        AttributeDefinition {
            attributeName = key
            attributeType = ScalarAttributeType.N
        }

    val attDef1 =
        AttributeDefinition {
            attributeName = "title"
            attributeType = ScalarAttributeType.S
        }

    val keySchemaVal =
        KeySchemaElement {
            attributeName = key
            keyType = KeyType.Hash
        }

    val keySchemaVal1 =
        KeySchemaElement {
            attributeName = "title"
            keyType = KeyType.Range
        }

    val request =
        CreateTableRequest {
            attributeDefinitions = listOf(attDef, attDef1)
            keySchema = listOf(keySchemaVal, keySchemaVal1)
            billingMode = BillingMode.PayPerRequest
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val response = ddb.createTable(request)
        ddb.waitUntilTableExists {
            // suspend call
            tableName = tableNameVal
        }
        println("The table was successfully created ${response.tableDescription?.tableArn}")
    }
}
```
Buat fungsi pembantu untuk mengunduh dan mengekstrak file JSON sampel.  

```
// Load data into the table.
suspend fun loadData(
    tableName: String,
    fileName: String,
) {
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val iter: Iterator<JsonNode> = rootNode.iterator()
    var currentNode: ObjectNode

    var t = 0
    while (iter.hasNext()) {
        if (t == 50) {
            break
        }

        currentNode = iter.next() as ObjectNode
        val year = currentNode.path("year").asInt()
        val title = currentNode.path("title").asText()
        val info = currentNode.path("info").toString()
        putMovie(tableName, year, title, info)
        t++
    }
}

suspend fun putMovie(
    tableNameVal: String,
    year: Int,
    title: String,
    info: String,
) {
    val itemValues = mutableMapOf<String, AttributeValue>()
    val strVal = year.toString()
    // Add all content to the table.
    itemValues["year"] = AttributeValue.N(strVal)
    itemValues["title"] = AttributeValue.S(title)
    itemValues["info"] = AttributeValue.S(info)

    val request =
        PutItemRequest {
            tableName = tableNameVal
            item = itemValues
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        ddb.putItem(request)
        println("Added $title to the Movie table.")
    }
}
```
Dapatkan item dari tabel.  

```
suspend fun getMovie(
    tableNameVal: String,
    keyName: String,
    keyVal: String,
) {
    val keyToGet = mutableMapOf<String, AttributeValue>()
    keyToGet[keyName] = AttributeValue.N(keyVal)
    keyToGet["title"] = AttributeValue.S("King Kong")

    val request =
        GetItemRequest {
            key = keyToGet
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val returnedItem = ddb.getItem(request)
        val numbersMap = returnedItem.item
        numbersMap?.forEach { key1 ->
            println(key1.key)
            println(key1.value)
        }
    }
}
```
Contoh lengkap.  

```
suspend fun main() {
    val tableName = "Movies"
    val fileName = "../../../resources/sample_files/movies.json"
    val partitionAlias = "#a"

    println("Creating an Amazon DynamoDB table named Movies with a key named id and a sort key named title.")
    createScenarioTable(tableName, "year")
    loadData(tableName, fileName)
    getMovie(tableName, "year", "1933")
    scanMovies(tableName)
    val count = queryMovieTable(tableName, "year", partitionAlias)
    println("There are $count Movies released in 2013.")
    deletIssuesTable(tableName)
}

suspend fun createScenarioTable(
    tableNameVal: String,
    key: String,
) {
    val attDef =
        AttributeDefinition {
            attributeName = key
            attributeType = ScalarAttributeType.N
        }

    val attDef1 =
        AttributeDefinition {
            attributeName = "title"
            attributeType = ScalarAttributeType.S
        }

    val keySchemaVal =
        KeySchemaElement {
            attributeName = key
            keyType = KeyType.Hash
        }

    val keySchemaVal1 =
        KeySchemaElement {
            attributeName = "title"
            keyType = KeyType.Range
        }

    val request =
        CreateTableRequest {
            attributeDefinitions = listOf(attDef, attDef1)
            keySchema = listOf(keySchemaVal, keySchemaVal1)
            billingMode = BillingMode.PayPerRequest
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val response = ddb.createTable(request)
        ddb.waitUntilTableExists {
            // suspend call
            tableName = tableNameVal
        }
        println("The table was successfully created ${response.tableDescription?.tableArn}")
    }
}

// Load data into the table.
suspend fun loadData(
    tableName: String,
    fileName: String,
) {
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val iter: Iterator<JsonNode> = rootNode.iterator()
    var currentNode: ObjectNode

    var t = 0
    while (iter.hasNext()) {
        if (t == 50) {
            break
        }

        currentNode = iter.next() as ObjectNode
        val year = currentNode.path("year").asInt()
        val title = currentNode.path("title").asText()
        val info = currentNode.path("info").toString()
        putMovie(tableName, year, title, info)
        t++
    }
}

suspend fun putMovie(
    tableNameVal: String,
    year: Int,
    title: String,
    info: String,
) {
    val itemValues = mutableMapOf<String, AttributeValue>()
    val strVal = year.toString()
    // Add all content to the table.
    itemValues["year"] = AttributeValue.N(strVal)
    itemValues["title"] = AttributeValue.S(title)
    itemValues["info"] = AttributeValue.S(info)

    val request =
        PutItemRequest {
            tableName = tableNameVal
            item = itemValues
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        ddb.putItem(request)
        println("Added $title to the Movie table.")
    }
}

suspend fun getMovie(
    tableNameVal: String,
    keyName: String,
    keyVal: String,
) {
    val keyToGet = mutableMapOf<String, AttributeValue>()
    keyToGet[keyName] = AttributeValue.N(keyVal)
    keyToGet["title"] = AttributeValue.S("King Kong")

    val request =
        GetItemRequest {
            key = keyToGet
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val returnedItem = ddb.getItem(request)
        val numbersMap = returnedItem.item
        numbersMap?.forEach { key1 ->
            println(key1.key)
            println(key1.value)
        }
    }
}

suspend fun deletIssuesTable(tableNameVal: String) {
    val request =
        DeleteTableRequest {
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        ddb.deleteTable(request)
        println("$tableNameVal was deleted")
    }
}

suspend fun queryMovieTable(
    tableNameVal: String,
    partitionKeyName: String,
    partitionAlias: String,
): Int {
    val attrNameAlias = mutableMapOf<String, String>()
    attrNameAlias[partitionAlias] = "year"

    // Set up mapping of the partition name with the value.
    val attrValues = mutableMapOf<String, AttributeValue>()
    attrValues[":$partitionKeyName"] = AttributeValue.N("2013")

    val request =
        QueryRequest {
            tableName = tableNameVal
            keyConditionExpression = "$partitionAlias = :$partitionKeyName"
            expressionAttributeNames = attrNameAlias
            this.expressionAttributeValues = attrValues
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val response = ddb.query(request)
        return response.count
    }
}

suspend fun scanMovies(tableNameVal: String) {
    val request =
        ScanRequest {
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val response = ddb.scan(request)
        response.items?.forEach { item ->
            item.keys.forEach { key ->
                println("The key name is $key\n")
                println("The value is ${item[key]}")
            }
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Kotlin*.
  + [BatchWriteItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Kueri](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Scan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UpdateItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateTable`
<a name="dynamodb_CreateTable_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun createNewTable(
    tableNameVal: String,
    key: String,
): String? {
    val attDef =
        AttributeDefinition {
            attributeName = key
            attributeType = ScalarAttributeType.S
        }

    val keySchemaVal =
        KeySchemaElement {
            attributeName = key
            keyType = KeyType.Hash
        }

    val request =
        CreateTableRequest {
            attributeDefinitions = listOf(attDef)
            keySchema = listOf(keySchemaVal)
            billingMode = BillingMode.PayPerRequest
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        var tableArn: String
        val response = ddb.createTable(request)
        ddb.waitUntilTableExists {
            // suspend call
            tableName = tableNameVal
        }
        tableArn = response.tableDescription!!.tableArn.toString()
        println("Table $tableArn is ready")
        return tableArn
    }
}
```
+  Untuk detail API, lihat [CreateTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun deleteDynamoDBItem(
    tableNameVal: String,
    keyName: String,
    keyVal: String,
) {
    val keyToGet = mutableMapOf<String, AttributeValue>()
    keyToGet[keyName] = AttributeValue.S(keyVal)

    val request =
        DeleteItemRequest {
            tableName = tableNameVal
            key = keyToGet
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        ddb.deleteItem(request)
        println("Item with key matching $keyVal was deleted")
    }
}
```
+  Untuk detail API, lihat [DeleteItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun deleteDynamoDBTable(tableNameVal: String) {
    val request =
        DeleteTableRequest {
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        ddb.deleteTable(request)
        println("$tableNameVal was deleted")
    }
}
```
+  Untuk detail API, lihat [DeleteTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetItem`
<a name="dynamodb_GetItem_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun getSpecificItem(
    tableNameVal: String,
    keyName: String,
    keyVal: String,
) {
    val keyToGet = mutableMapOf<String, AttributeValue>()
    keyToGet[keyName] = AttributeValue.S(keyVal)

    val request =
        GetItemRequest {
            key = keyToGet
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val returnedItem = ddb.getItem(request)
        val numbersMap = returnedItem.item
        numbersMap?.forEach { key1 ->
            println(key1.key)
            println(key1.value)
        }
    }
}
```
+  Untuk detail API, lihat [GetItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListTables`
<a name="dynamodb_ListTables_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun listAllTables() {
    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val response = ddb.listTables(ListTablesRequest {})
        response.tableNames?.forEach { tableName ->
            println("Table name is $tableName")
        }
    }
}
```
+  Untuk detail API, lihat [ListTables](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutItem`
<a name="dynamodb_PutItem_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun putItemInTable(
    tableNameVal: String,
    key: String,
    keyVal: String,
    albumTitle: String,
    albumTitleValue: String,
    awards: String,
    awardVal: String,
    songTitle: String,
    songTitleVal: String,
) {
    val itemValues = mutableMapOf<String, AttributeValue>()

    // Add all content to the table.
    itemValues[key] = AttributeValue.S(keyVal)
    itemValues[songTitle] = AttributeValue.S(songTitleVal)
    itemValues[albumTitle] = AttributeValue.S(albumTitleValue)
    itemValues[awards] = AttributeValue.S(awardVal)

    val request =
        PutItemRequest {
            tableName = tableNameVal
            item = itemValues
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        ddb.putItem(request)
        println(" A new item was placed into $tableNameVal.")
    }
}
```
+  Untuk detail API, lihat [PutItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `Query`
<a name="dynamodb_Query_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun queryDynTable(
    tableNameVal: String,
    partitionKeyName: String,
    partitionKeyVal: String,
    partitionAlias: String,
): Int {
    val attrNameAlias = mutableMapOf<String, String>()
    attrNameAlias[partitionAlias] = partitionKeyName

    // Set up mapping of the partition name with the value.
    val attrValues = mutableMapOf<String, AttributeValue>()
    attrValues[":$partitionKeyName"] = AttributeValue.S(partitionKeyVal)

    val request =
        QueryRequest {
            tableName = tableNameVal
            keyConditionExpression = "$partitionAlias = :$partitionKeyName"
            expressionAttributeNames = attrNameAlias
            this.expressionAttributeValues = attrValues
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val response = ddb.query(request)
        return response.count
    }
}
```
+  Untuk detail API, lihat [Kueri](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *Referensi API AWS SDK untuk Kotlin*. 

### `Scan`
<a name="dynamodb_Scan_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun scanItems(tableNameVal: String) {
    val request =
        ScanRequest {
            tableName = tableNameVal
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        val response = ddb.scan(request)
        response.items?.forEach { item ->
            item.keys.forEach { key ->
                println("The key name is $key\n")
                println("The value is ${item[key]}")
            }
        }
    }
}
```
+  Untuk detail API, lihat [Scan](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *Referensi API AWS SDK untuk Kotlin*. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun updateTableItem(
    tableNameVal: String,
    keyName: String,
    keyVal: String,
    name: String,
    updateVal: String,
) {
    val itemKey = mutableMapOf<String, AttributeValue>()
    itemKey[keyName] = AttributeValue.S(keyVal)

    val updatedValues = mutableMapOf<String, AttributeValueUpdate>()
    updatedValues[name] =
        AttributeValueUpdate {
            value = AttributeValue.S(updateVal)
            action = AttributeAction.Put
        }

    val request =
        UpdateItemRequest {
            tableName = tableNameVal
            key = itemKey
            attributeUpdates = updatedValues
        }

    DynamoDbClient.fromEnvironment { region = "us-east-1" }.use { ddb ->
        ddb.updateItem(request)
        println("Item in $tableNameVal was updated")
    }
}
```
+  Untuk detail API, lihat [UpdateItem](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Kotlin**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_pam).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Membuat aplikasi web untuk melacak data DynamoDB
<a name="cross_DynamoDBDataTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item kerja dalam tabel Amazon DynamoDB dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon DynamoDB API untuk membuat aplikasi web dinamis yang melacak data kerja DynamoDB.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/itemtracker_dynamodb).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SES

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun main() {
    val ddb = DynamoDbClient.fromEnvironment { region = "us-east-1" }
    val tableName = "MoviesPartiQBatch"
    println("Creating an Amazon DynamoDB table named $tableName with a key named id and a sort key named title.")
    createTablePartiQLBatch(ddb, tableName, "year")
    putRecordBatch(ddb)
    updateTableItemBatchBatch(ddb)
    deleteItemsBatch(ddb)
    deleteTablePartiQLBatch(tableName)
}

suspend fun createTablePartiQLBatch(
    ddb: DynamoDbClient,
    tableNameVal: String,
    key: String,
) {
    val attDef =
        AttributeDefinition {
            attributeName = key
            attributeType = ScalarAttributeType.N
        }

    val attDef1 =
        AttributeDefinition {
            attributeName = "title"
            attributeType = ScalarAttributeType.S
        }

    val keySchemaVal =
        KeySchemaElement {
            attributeName = key
            keyType = KeyType.Hash
        }

    val keySchemaVal1 =
        KeySchemaElement {
            attributeName = "title"
            keyType = KeyType.Range
        }

    val request =
        CreateTableRequest {
            attributeDefinitions = listOf(attDef, attDef1)
            keySchema = listOf(keySchemaVal, keySchemaVal1)
            billingMode = BillingMode.PayPerRequest
            tableName = tableNameVal
        }

    val response = ddb.createTable(request)
    ddb.waitUntilTableExists {
        // suspend call
        tableName = tableNameVal
    }
    println("The table was successfully created ${response.tableDescription?.tableArn}")
}

suspend fun putRecordBatch(ddb: DynamoDbClient) {
    val sqlStatement = "INSERT INTO MoviesPartiQBatch VALUE {'year':?, 'title' : ?, 'info' : ?}"

    // Create three movies to add to the Amazon DynamoDB table.
    val parametersMovie1 = mutableListOf<AttributeValue>()
    parametersMovie1.add(AttributeValue.N("2022"))
    parametersMovie1.add(AttributeValue.S("My Movie 1"))
    parametersMovie1.add(AttributeValue.S("No Information"))

    val statementRequestMovie1 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersMovie1
        }

    // Set data for Movie 2.
    val parametersMovie2 = mutableListOf<AttributeValue>()
    parametersMovie2.add(AttributeValue.N("2022"))
    parametersMovie2.add(AttributeValue.S("My Movie 2"))
    parametersMovie2.add(AttributeValue.S("No Information"))

    val statementRequestMovie2 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersMovie2
        }

    // Set data for Movie 3.
    val parametersMovie3 = mutableListOf<AttributeValue>()
    parametersMovie3.add(AttributeValue.N("2022"))
    parametersMovie3.add(AttributeValue.S("My Movie 3"))
    parametersMovie3.add(AttributeValue.S("No Information"))

    val statementRequestMovie3 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersMovie3
        }

    // Add all three movies to the list.
    val myBatchStatementList = mutableListOf<BatchStatementRequest>()
    myBatchStatementList.add(statementRequestMovie1)
    myBatchStatementList.add(statementRequestMovie2)
    myBatchStatementList.add(statementRequestMovie3)

    val batchRequest =
        BatchExecuteStatementRequest {
            statements = myBatchStatementList
        }
    val response = ddb.batchExecuteStatement(batchRequest)
    println("ExecuteStatement successful: " + response.toString())
    println("Added new movies using a batch command.")
}

suspend fun updateTableItemBatchBatch(ddb: DynamoDbClient) {
    val sqlStatement =
        "UPDATE MoviesPartiQBatch SET info = 'directors\":[\"Merian C. Cooper\",\"Ernest B. Schoedsack' where year=? and title=?"
    val parametersRec1 = mutableListOf<AttributeValue>()
    parametersRec1.add(AttributeValue.N("2022"))
    parametersRec1.add(AttributeValue.S("My Movie 1"))
    val statementRequestRec1 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersRec1
        }

    // Update record 2.
    val parametersRec2 = mutableListOf<AttributeValue>()
    parametersRec2.add(AttributeValue.N("2022"))
    parametersRec2.add(AttributeValue.S("My Movie 2"))
    val statementRequestRec2 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersRec2
        }

    // Update record 3.
    val parametersRec3 = mutableListOf<AttributeValue>()
    parametersRec3.add(AttributeValue.N("2022"))
    parametersRec3.add(AttributeValue.S("My Movie 3"))
    val statementRequestRec3 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersRec3
        }

    // Add all three movies to the list.
    val myBatchStatementList = mutableListOf<BatchStatementRequest>()
    myBatchStatementList.add(statementRequestRec1)
    myBatchStatementList.add(statementRequestRec2)
    myBatchStatementList.add(statementRequestRec3)

    val batchRequest =
        BatchExecuteStatementRequest {
            statements = myBatchStatementList
        }

    val response = ddb.batchExecuteStatement(batchRequest)
    println("ExecuteStatement successful: $response")
    println("Updated three movies using a batch command.")
    println("Items were updated!")
}

suspend fun deleteItemsBatch(ddb: DynamoDbClient) {
    // Specify three records to delete.
    val sqlStatement = "DELETE FROM MoviesPartiQBatch WHERE year = ? and title=?"
    val parametersRec1 = mutableListOf<AttributeValue>()
    parametersRec1.add(AttributeValue.N("2022"))
    parametersRec1.add(AttributeValue.S("My Movie 1"))

    val statementRequestRec1 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersRec1
        }

    // Specify record 2.
    val parametersRec2 = mutableListOf<AttributeValue>()
    parametersRec2.add(AttributeValue.N("2022"))
    parametersRec2.add(AttributeValue.S("My Movie 2"))
    val statementRequestRec2 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersRec2
        }

    // Specify record 3.
    val parametersRec3 = mutableListOf<AttributeValue>()
    parametersRec3.add(AttributeValue.N("2022"))
    parametersRec3.add(AttributeValue.S("My Movie 3"))
    val statementRequestRec3 =
        BatchStatementRequest {
            statement = sqlStatement
            parameters = parametersRec3
        }

    // Add all three movies to the list.
    val myBatchStatementList = mutableListOf<BatchStatementRequest>()
    myBatchStatementList.add(statementRequestRec1)
    myBatchStatementList.add(statementRequestRec2)
    myBatchStatementList.add(statementRequestRec3)

    val batchRequest =
        BatchExecuteStatementRequest {
            statements = myBatchStatementList
        }

    ddb.batchExecuteStatement(batchRequest)
    println("Deleted three movies using a batch command.")
}

suspend fun deleteTablePartiQLBatch(tableNameVal: String) {
    val request =
        DeleteTableRequest {
            tableName = tableNameVal
        }

    DynamoDbClient { region = "us-east-1" }.use { ddb ->
        ddb.deleteTable(request)
        println("$tableNameVal was deleted")
    }
}
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/dynamodb#code-examples). 

```
suspend fun main() {
    val ddb = DynamoDbClient.fromEnvironment { region = "us-east-1" }
    val tableName = "MoviesPartiQ"
    val fileName = "../../../resources/sample_files/movies.json"
    println("Creating an Amazon DynamoDB table named MoviesPartiQ with a key named id and a sort key named title.")
    createTablePartiQL(ddb, tableName, "year")
    loadDataPartiQL(ddb, fileName)

    println("******* Getting data from the MoviesPartiQ table.")
    getMoviePartiQL(ddb)

    println("******* Putting a record into the MoviesPartiQ table.")
    putRecordPartiQL(ddb)

    println("******* Updating a record.")
    updateTableItemPartiQL(ddb)

    println("******* Querying the movies released in 2013.")
    queryTablePartiQL(ddb)

    println("******* Deleting the MoviesPartiQ table.")
    deleteTablePartiQL(tableName)
}

suspend fun createTablePartiQL(
    ddb: DynamoDbClient,
    tableNameVal: String,
    key: String,
) {
    val attDef =
        AttributeDefinition {
            attributeName = key
            attributeType = ScalarAttributeType.N
        }

    val attDef1 =
        AttributeDefinition {
            attributeName = "title"
            attributeType = ScalarAttributeType.S
        }

    val keySchemaVal =
        KeySchemaElement {
            attributeName = key
            keyType = KeyType.Hash
        }

    val keySchemaVal1 =
        KeySchemaElement {
            attributeName = "title"
            keyType = KeyType.Range
        }

    val request =
        CreateTableRequest {
            attributeDefinitions = listOf(attDef, attDef1)
            keySchema = listOf(keySchemaVal, keySchemaVal1)
            billingMode = BillingMode.PayPerRequest
            tableName = tableNameVal
        }

    val response = ddb.createTable(request)
    ddb.waitUntilTableExists {
        // suspend call
        tableName = tableNameVal
    }
    println("The table was successfully created ${response.tableDescription?.tableArn}")
}

suspend fun loadDataPartiQL(
    ddb: DynamoDbClient,
    fileName: String,
) {
    val sqlStatement = "INSERT INTO MoviesPartiQ VALUE {'year':?, 'title' : ?, 'info' : ?}"
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val iter: Iterator<JsonNode> = rootNode.iterator()
    var currentNode: ObjectNode
    var t = 0

    while (iter.hasNext()) {
        if (t == 200) {
            break
        }

        currentNode = iter.next() as ObjectNode
        val year = currentNode.path("year").asInt()
        val title = currentNode.path("title").asText()
        val info = currentNode.path("info").toString()

        val parameters: MutableList<AttributeValue> = ArrayList<AttributeValue>()
        parameters.add(AttributeValue.N(year.toString()))
        parameters.add(AttributeValue.S(title))
        parameters.add(AttributeValue.S(info))

        executeStatementPartiQL(ddb, sqlStatement, parameters)
        println("Added Movie $title")
        parameters.clear()
        t++
    }
}

suspend fun getMoviePartiQL(ddb: DynamoDbClient) {
    val sqlStatement = "SELECT * FROM MoviesPartiQ where year=? and title=?"
    val parameters: MutableList<AttributeValue> = ArrayList<AttributeValue>()
    parameters.add(AttributeValue.N("2012"))
    parameters.add(AttributeValue.S("The Perks of Being a Wallflower"))
    val response = executeStatementPartiQL(ddb, sqlStatement, parameters)
    println("ExecuteStatement successful: $response")
}

suspend fun putRecordPartiQL(ddb: DynamoDbClient) {
    val sqlStatement = "INSERT INTO MoviesPartiQ VALUE {'year':?, 'title' : ?, 'info' : ?}"
    val parameters: MutableList<AttributeValue> = java.util.ArrayList()
    parameters.add(AttributeValue.N("2020"))
    parameters.add(AttributeValue.S("My Movie"))
    parameters.add(AttributeValue.S("No Info"))
    executeStatementPartiQL(ddb, sqlStatement, parameters)
    println("Added new movie.")
}

suspend fun updateTableItemPartiQL(ddb: DynamoDbClient) {
    val sqlStatement = "UPDATE MoviesPartiQ SET info = 'directors\":[\"Merian C. Cooper\",\"Ernest B. Schoedsack\' where year=? and title=?"
    val parameters: MutableList<AttributeValue> = java.util.ArrayList()
    parameters.add(AttributeValue.N("2013"))
    parameters.add(AttributeValue.S("The East"))
    executeStatementPartiQL(ddb, sqlStatement, parameters)
    println("Item was updated!")
}

// Query the table where the year is 2013.
suspend fun queryTablePartiQL(ddb: DynamoDbClient) {
    val sqlStatement = "SELECT * FROM MoviesPartiQ where year = ?"
    val parameters: MutableList<AttributeValue> = java.util.ArrayList()
    parameters.add(AttributeValue.N("2013"))
    val response = executeStatementPartiQL(ddb, sqlStatement, parameters)
    println("ExecuteStatement successful: $response")
}

suspend fun deleteTablePartiQL(tableNameVal: String) {
    val request =
        DeleteTableRequest {
            tableName = tableNameVal
        }

    DynamoDbClient { region = "us-east-1" }.use { ddb ->
        ddb.deleteTable(request)
        println("$tableNameVal was deleted")
    }
}

suspend fun executeStatementPartiQL(
    ddb: DynamoDbClient,
    statementVal: String,
    parametersVal: List<AttributeValue>,
): ExecuteStatementResponse {
    val request =
        ExecuteStatementRequest {
            statement = statementVal
            parameters = parametersVal
        }

    return ddb.executeStatement(request)
}
```
+  Untuk detail API, lihat [ExecuteStatement](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon EC2 menggunakan SDK untuk Kotlin
<a name="kotlin_1_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon EC2.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun describeEC2SecurityGroups(groupId: String) {
    val request =
        DescribeSecurityGroupsRequest {
            groupIds = listOf(groupId)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeSecurityGroups(request)
        response.securityGroups?.forEach { group ->
            println("Found Security Group with id ${group.groupId}, vpc id ${group.vpcId} and description ${group.description}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ec2_Scenario_GetStartedInstances_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat pasangan kunci dan grup keamanan.
+ Memilih Amazon Machine Image (AMI) dan tipe instans yang kompatibel, lalu membuat instans.
+ Menghentikan dan memulai ulang instans.
+ Kaitkan alamat IP Elastis dengan instans Anda.
+ Menghubungkan instans Anda dengan SSH, lalu membersihkan sumber daya.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
/**
 Before running this Kotlin code example, set up your development environment,
 including your credentials.

 For more information, see the following documentation topic:
 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

 This Kotlin example performs the following tasks:

 1. Creates an RSA key pair and saves the private key data as a .pem file.
 2. Lists key pairs.
 3. Creates a security group for the default VPC.
 4. Displays security group information.
 5. Gets a list of Amazon Linux 2 AMIs and selects one.
 6. Gets more information about the image.
 7. Gets a list of instance types that are compatible with the selected AMI’s architecture.
 8. Creates an instance with the key pair, security group, AMI, and an instance type.
 9. Displays information about the instance.
 10. Stops the instance and waits for it to stop.
 11. Starts the instance and waits for it to start.
 12. Allocates an Elastic IP address and associates it with the instance.
 13. Displays SSH connection info for the instance.
 14. Disassociates and deletes the Elastic IP address.
 15. Terminates the instance.
 16. Deletes the security group.
 17. Deletes the key pair.
 */

val DASHES = String(CharArray(80)).replace("\u0000", "-")

suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
            <keyName> <fileName> <groupName> <groupDesc> <vpcId> <myIpAddress>

        Where:
            keyName - A key pair name (for example, TestKeyPair). 
            fileName - A file name where the key information is written to. 
            groupName - The name of the security group. 
            groupDesc - The description of the security group. 
            vpcId - A VPC ID. You can get this value from the AWS Management Console. 
            myIpAddress - The IP address of your development machine. 

"""

    if (args.size != 6) {
        println(usage)
        exitProcess(0)
    }

    val keyName = args[0]
    val fileName = args[1]
    val groupName = args[2]
    val groupDesc = args[3]
    val vpcId = args[4]
    val myIpAddress = args[5]
    var newInstanceId: String? = ""

    println(DASHES)
    println("Welcome to the Amazon EC2 example scenario.")
    println(DASHES)

    println(DASHES)
    println("1. Create an RSA key pair and save the private key material as a .pem file.")
    createKeyPairSc(keyName, fileName)
    println(DASHES)

    println(DASHES)
    println("2. List key pairs.")
    describeEC2KeysSc()
    println(DASHES)

    println(DASHES)
    println("3. Create a security group.")
    val groupId = createEC2SecurityGroupSc(groupName, groupDesc, vpcId, myIpAddress)
    println(DASHES)

    println(DASHES)
    println("4. Display security group info for the newly created security group.")
    describeSecurityGroupsSc(groupId.toString())
    println(DASHES)

    println(DASHES)
    println("5. Get a list of Amazon Linux 2 AMIs and select one with amzn2 in the name.")
    val instanceId = getParaValuesSc()
    if (instanceId == "") {
        println("The instance Id value isn't valid.")
        exitProcess(0)
    }
    println("The instance Id is $instanceId.")
    println(DASHES)

    println(DASHES)
    println("6. Get more information about an amzn2 image and return the AMI value.")
    val amiValue = instanceId?.let { describeImageSc(it) }
    if (instanceId == "") {
        println("The instance Id value is invalid.")
        exitProcess(0)
    }
    println("The AMI value is $amiValue.")
    println(DASHES)

    println(DASHES)
    println("7. Get a list of instance types.")
    val instanceType = getInstanceTypesSc()
    println(DASHES)

    println(DASHES)
    println("8. Create an instance.")
    if (amiValue != null) {
        newInstanceId = runInstanceSc(instanceType, keyName, groupName, amiValue)
        println("The instance Id is $newInstanceId")
    }
    println(DASHES)

    println(DASHES)
    println("9. Display information about the running instance. ")
    var ipAddress = describeEC2InstancesSc(newInstanceId)
    println("You can SSH to the instance using this command:")
    println("ssh -i " + fileName + "ec2-user@" + ipAddress)
    println(DASHES)

    println(DASHES)
    println("10.  Stop the instance.")
    if (newInstanceId != null) {
        stopInstanceSc(newInstanceId)
    }
    println(DASHES)

    println(DASHES)
    println("11.  Start the instance.")
    if (newInstanceId != null) {
        startInstanceSc(newInstanceId)
    }
    ipAddress = describeEC2InstancesSc(newInstanceId)
    println("You can SSH to the instance using this command:")
    println("ssh -i " + fileName + "ec2-user@" + ipAddress)
    println(DASHES)

    println(DASHES)
    println("12. Allocate an Elastic IP address and associate it with the instance.")
    val allocationId = allocateAddressSc()
    println("The allocation Id value is $allocationId")
    val associationId = associateAddressSc(newInstanceId, allocationId)
    println("The associate Id value is $associationId")
    println(DASHES)

    println(DASHES)
    println("13. Describe the instance again.")
    ipAddress = describeEC2InstancesSc(newInstanceId)
    println("You can SSH to the instance using this command:")
    println("ssh -i " + fileName + "ec2-user@" + ipAddress)
    println(DASHES)

    println(DASHES)
    println("14. Disassociate and release the Elastic IP address.")
    disassociateAddressSc(associationId)
    releaseEC2AddressSc(allocationId)
    println(DASHES)

    println(DASHES)
    println("15. Terminate the instance and use a waiter.")
    if (newInstanceId != null) {
        terminateEC2Sc(newInstanceId)
    }
    println(DASHES)

    println(DASHES)
    println("16. Delete the security group.")
    if (groupId != null) {
        deleteEC2SecGroupSc(groupId)
    }
    println(DASHES)

    println(DASHES)
    println("17. Delete the key pair.")
    deleteKeysSc(keyName)
    println(DASHES)

    println(DASHES)
    println("You successfully completed the Amazon EC2 scenario.")
    println(DASHES)
}

suspend fun deleteKeysSc(keyPair: String) {
    val request =
        DeleteKeyPairRequest {
            keyName = keyPair
        }
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.deleteKeyPair(request)
        println("Successfully deleted key pair named $keyPair")
    }
}

suspend fun deleteEC2SecGroupSc(groupIdVal: String) {
    val request =
        DeleteSecurityGroupRequest {
            groupId = groupIdVal
        }
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.deleteSecurityGroup(request)
        println("Successfully deleted security group with Id $groupIdVal")
    }
}

suspend fun terminateEC2Sc(instanceIdVal: String) {
    val ti =
        TerminateInstancesRequest {
            instanceIds = listOf(instanceIdVal)
        }
    println("Wait for the instance to terminate. This will take a few minutes.")
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.terminateInstances(ti)
        ec2.waitUntilInstanceTerminated {
            // suspend call
            instanceIds = listOf(instanceIdVal)
        }
        println("$instanceIdVal is terminated!")
    }
}

suspend fun releaseEC2AddressSc(allocId: String?) {
    val request =
        ReleaseAddressRequest {
            allocationId = allocId
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.releaseAddress(request)
        println("Successfully released Elastic IP address $allocId")
    }
}

suspend fun disassociateAddressSc(associationIdVal: String?) {
    val addressRequest =
        DisassociateAddressRequest {
            associationId = associationIdVal
        }
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.disassociateAddress(addressRequest)
        println("You successfully disassociated the address!")
    }
}

suspend fun associateAddressSc(
    instanceIdVal: String?,
    allocationIdVal: String?,
): String? {
    val associateRequest =
        AssociateAddressRequest {
            instanceId = instanceIdVal
            allocationId = allocationIdVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val associateResponse = ec2.associateAddress(associateRequest)
        return associateResponse.associationId
    }
}

suspend fun allocateAddressSc(): String? {
    val allocateRequest =
        AllocateAddressRequest {
            domain = DomainType.Vpc
        }
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val allocateResponse = ec2.allocateAddress(allocateRequest)
        return allocateResponse.allocationId
    }
}

suspend fun startInstanceSc(instanceId: String) {
    val request =
        StartInstancesRequest {
            instanceIds = listOf(instanceId)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.startInstances(request)
        println("Waiting until instance $instanceId starts. This will take a few minutes.")
        ec2.waitUntilInstanceRunning {
            // suspend call
            instanceIds = listOf(instanceId)
        }
        println("Successfully started instance $instanceId")
    }
}

suspend fun stopInstanceSc(instanceId: String) {
    val request =
        StopInstancesRequest {
            instanceIds = listOf(instanceId)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.stopInstances(request)
        println("Waiting until instance $instanceId stops. This will take a few minutes.")
        ec2.waitUntilInstanceStopped {
            // suspend call
            instanceIds = listOf(instanceId)
        }
        println("Successfully stopped instance $instanceId")
    }
}

suspend fun describeEC2InstancesSc(newInstanceId: String?): String {
    var pubAddress = ""
    var isRunning = false
    val request =
        DescribeInstancesRequest {
            instanceIds = listOf(newInstanceId.toString())
        }

    while (!isRunning) {
        Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
            val response = ec2.describeInstances(request)
            val state =
                response.reservations
                    ?.get(0)
                    ?.instances
                    ?.get(0)
                    ?.state
                    ?.name
                    ?. value
            if (state != null) {
                if (state.compareTo("running") == 0) {
                    println("Image id is ${response.reservations!!.get(0).instances?.get(0)?.imageId}")
                    println("Instance type is ${response.reservations!!.get(0).instances?.get(0)?.instanceType}")
                    println("Instance state is ${response.reservations!!.get(0).instances?.get(0)?.state}")
                    pubAddress =
                        response.reservations!!
                            .get(0)
                            .instances
                            ?.get(0)
                            ?.publicIpAddress
                            .toString()
                    println("Instance address is $pubAddress")
                    isRunning = true
                }
            }
        }
    }
    return pubAddress
}

suspend fun runInstanceSc(
    instanceTypeVal: String,
    keyNameVal: String,
    groupNameVal: String,
    amiIdVal: String,
): String {
    val runRequest =
        RunInstancesRequest {
            instanceType = InstanceType.fromValue(instanceTypeVal)
            keyName = keyNameVal
            securityGroups = listOf(groupNameVal)
            maxCount = 1
            minCount = 1
            imageId = amiIdVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.runInstances(runRequest)
        val instanceId = response.instances?.get(0)?.instanceId
        println("Successfully started EC2 Instance $instanceId based on AMI $amiIdVal")
        return instanceId.toString()
    }
}

// Get a list of instance types.
suspend fun getInstanceTypesSc(): String {
    var instanceType = ""
    val filterObs = ArrayList<Filter>()
    val filter =
        Filter {
            name = "processor-info.supported-architecture"
            values = listOf("arm64")
        }

    filterObs.add(filter)
    val typesRequest =
        DescribeInstanceTypesRequest {
            filters = filterObs
            maxResults = 10
        }
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeInstanceTypes(typesRequest)
        response.instanceTypes?.forEach { type ->
            println("The memory information of this type is ${type.memoryInfo?.sizeInMib}")
            println("Maximum number of network cards is ${type.networkInfo?.maximumNetworkCards}")
            instanceType = type.instanceType.toString()
        }
        return instanceType
    }
}

// Display the Description field that corresponds to the instance Id value.
suspend fun describeImageSc(instanceId: String): String? {
    val imagesRequest =
        DescribeImagesRequest {
            imageIds = listOf(instanceId)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeImages(imagesRequest)
        println("The description of the first image is ${response.images?.get(0)?.description}")
        println("The name of the first image is  ${response.images?.get(0)?.name}")

        // Return the image Id value.
        return response.images?.get(0)?.imageId
    }
}

// Get the Id value of an instance with amzn2 in the name.
suspend fun getParaValuesSc(): String? {
    val parameterRequest =
        GetParametersByPathRequest {
            path = "/aws/service/ami-amazon-linux-latest"
        }

    SsmClient.fromEnvironment { region = "us-west-2" }.use { ssmClient ->
        val response = ssmClient.getParametersByPath(parameterRequest)
        response.parameters?.forEach { para ->
            println("The name of the para is: ${para.name}")
            println("The type of the para is: ${para.type}")
            println("")
            if (para.name?.let { filterName(it) } == true) {
                return para.value
            }
        }
    }
    return ""
}

fun filterName(name: String): Boolean {
    val parts = name.split("/").toTypedArray()
    val myValue = parts[4]
    return myValue.contains("amzn2")
}

suspend fun describeSecurityGroupsSc(groupId: String) {
    val request =
        DescribeSecurityGroupsRequest {
            groupIds = listOf(groupId)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeSecurityGroups(request)
        for (group in response.securityGroups!!) {
            println("Found Security Group with id " + group.groupId.toString() + " and group VPC " + group.vpcId)
        }
    }
}

suspend fun createEC2SecurityGroupSc(
    groupNameVal: String?,
    groupDescVal: String?,
    vpcIdVal: String?,
    myIpAddress: String?,
): String? {
    val request =
        CreateSecurityGroupRequest {
            groupName = groupNameVal
            description = groupDescVal
            vpcId = vpcIdVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val resp = ec2.createSecurityGroup(request)
        val ipRange =
            IpRange {
                cidrIp = "$myIpAddress/0"
            }

        val ipPerm =
            IpPermission {
                ipProtocol = "tcp"
                toPort = 80
                fromPort = 80
                ipRanges = listOf(ipRange)
            }

        val ipPerm2 =
            IpPermission {
                ipProtocol = "tcp"
                toPort = 22
                fromPort = 22
                ipRanges = listOf(ipRange)
            }

        val authRequest =
            AuthorizeSecurityGroupIngressRequest {
                groupName = groupNameVal
                ipPermissions = listOf(ipPerm, ipPerm2)
            }
        ec2.authorizeSecurityGroupIngress(authRequest)
        println("Successfully added ingress policy to Security Group $groupNameVal")
        return resp.groupId
    }
}

suspend fun describeEC2KeysSc() {
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeKeyPairs(DescribeKeyPairsRequest {})
        response.keyPairs?.forEach { keyPair ->
            println("Found key pair with name ${keyPair.keyName} and fingerprint ${ keyPair.keyFingerprint}")
        }
    }
}

suspend fun createKeyPairSc(
    keyNameVal: String,
    fileNameVal: String,
) {
    val request =
        CreateKeyPairRequest {
            keyName = keyNameVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.createKeyPair(request)
        val content = response.keyMaterial
        if (content != null) {
            File(fileNameVal).writeText(content)
        }
        println("Successfully created key pair named $keyNameVal")
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [AllocateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [AssociateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [AuthorizeSecurityGroupIngress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateKeyPair](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateSecurityGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteKeyPair](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteSecurityGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeImages](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeInstanceTypes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeKeyPairs](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeSecurityGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DisassociateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ReleaseAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [RunInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StopInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [TerminateInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UnmonitorInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun getAllocateAddress(instanceIdVal: String?): String? {
    val allocateRequest =
        AllocateAddressRequest {
            domain = DomainType.Vpc
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val allocateResponse = ec2.allocateAddress(allocateRequest)
        val allocationIdVal = allocateResponse.allocationId

        val request =
            AssociateAddressRequest {
                instanceId = instanceIdVal
                allocationId = allocationIdVal
            }

        val associateResponse = ec2.associateAddress(request)
        return associateResponse.associationId
    }
}
```
+  Untuk detail API, lihat [AllocateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun associateAddressSc(
    instanceIdVal: String?,
    allocationIdVal: String?,
): String? {
    val associateRequest =
        AssociateAddressRequest {
            instanceId = instanceIdVal
            allocationId = allocationIdVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val associateResponse = ec2.associateAddress(associateRequest)
        return associateResponse.associationId
    }
}
```
+  Untuk detail API, lihat [AssociateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun createEC2SecurityGroupSc(
    groupNameVal: String?,
    groupDescVal: String?,
    vpcIdVal: String?,
    myIpAddress: String?,
): String? {
    val request =
        CreateSecurityGroupRequest {
            groupName = groupNameVal
            description = groupDescVal
            vpcId = vpcIdVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val resp = ec2.createSecurityGroup(request)
        val ipRange =
            IpRange {
                cidrIp = "$myIpAddress/0"
            }

        val ipPerm =
            IpPermission {
                ipProtocol = "tcp"
                toPort = 80
                fromPort = 80
                ipRanges = listOf(ipRange)
            }

        val ipPerm2 =
            IpPermission {
                ipProtocol = "tcp"
                toPort = 22
                fromPort = 22
                ipRanges = listOf(ipRange)
            }

        val authRequest =
            AuthorizeSecurityGroupIngressRequest {
                groupName = groupNameVal
                ipPermissions = listOf(ipPerm, ipPerm2)
            }
        ec2.authorizeSecurityGroupIngress(authRequest)
        println("Successfully added ingress policy to Security Group $groupNameVal")
        return resp.groupId
    }
}
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun createEC2KeyPair(keyNameVal: String) {
    val request =
        CreateKeyPairRequest {
            keyName = keyNameVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.createKeyPair(request)
        println("The key ID is ${response.keyPairId}")
    }
}
```
+  Untuk detail API, lihat [CreateKeyPair](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun createEC2SecurityGroup(
    groupNameVal: String?,
    groupDescVal: String?,
    vpcIdVal: String?,
): String? {
    val request =
        CreateSecurityGroupRequest {
            groupName = groupNameVal
            description = groupDescVal
            vpcId = vpcIdVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val resp = ec2.createSecurityGroup(request)
        val ipRange =
            IpRange {
                cidrIp = "0.0.0.0/0"
            }

        val ipPerm =
            IpPermission {
                ipProtocol = "tcp"
                toPort = 80
                fromPort = 80
                ipRanges = listOf(ipRange)
            }

        val ipPerm2 =
            IpPermission {
                ipProtocol = "tcp"
                toPort = 22
                fromPort = 22
                ipRanges = listOf(ipRange)
            }

        val authRequest =
            AuthorizeSecurityGroupIngressRequest {
                groupName = groupNameVal
                ipPermissions = listOf(ipPerm, ipPerm2)
            }
        ec2.authorizeSecurityGroupIngress(authRequest)
        println("Successfully added ingress policy to Security Group $groupNameVal")
        return resp.groupId
    }
}
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun deleteKeys(keyPair: String?) {
    val request =
        DeleteKeyPairRequest {
            keyName = keyPair
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.deleteKeyPair(request)
        println("Successfully deleted key pair named $keyPair")
    }
}
```
+  Untuk detail API, lihat [DeleteKeyPair](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun deleteEC2SecGroup(groupIdVal: String) {
    val request =
        DeleteSecurityGroupRequest {
            groupId = groupIdVal
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.deleteSecurityGroup(request)
        println("Successfully deleted Security Group with id $groupIdVal")
    }
}
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
// Get a list of instance types.
suspend fun getInstanceTypesSc(): String {
    var instanceType = ""
    val filterObs = ArrayList<Filter>()
    val filter =
        Filter {
            name = "processor-info.supported-architecture"
            values = listOf("arm64")
        }

    filterObs.add(filter)
    val typesRequest =
        DescribeInstanceTypesRequest {
            filters = filterObs
            maxResults = 10
        }
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeInstanceTypes(typesRequest)
        response.instanceTypes?.forEach { type ->
            println("The memory information of this type is ${type.memoryInfo?.sizeInMib}")
            println("Maximum number of network cards is ${type.networkInfo?.maximumNetworkCards}")
            instanceType = type.instanceType.toString()
        }
        return instanceType
    }
}
```
+  Untuk detail API, lihat [DescribeInstanceTypes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun describeEC2Instances() {
    val request =
        DescribeInstancesRequest {
            maxResults = 6
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeInstances(request)
        response.reservations?.forEach { reservation ->
            reservation.instances?.forEach { instance ->
                println("Instance Id is ${instance.instanceId}")
                println("Image id is ${instance.imageId}")
                println("Instance type is ${instance.instanceType}")
                println("Instance state name is ${instance.state?.name}")
                println("monitoring information is ${instance.monitoring?.state}")
            }
        }
    }
}
```
+  Untuk detail API, lihat [DescribeInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun describeEC2Keys() {
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeKeyPairs(DescribeKeyPairsRequest {})
        response.keyPairs?.forEach { keyPair ->
            println("Found key pair with name ${keyPair.keyName} and fingerprint ${ keyPair.keyFingerprint}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun describeEC2SecurityGroups(groupId: String) {
    val request =
        DescribeSecurityGroupsRequest {
            groupIds = listOf(groupId)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.describeSecurityGroups(request)
        response.securityGroups?.forEach { group ->
            println("Found Security Group with id ${group.groupId}, vpc id ${group.vpcId} and description ${group.description}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DisassociateAddress`
<a name="ec2_DisassociateAddress_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateAddress`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun disassociateAddressSc(associationIdVal: String?) {
    val addressRequest =
        DisassociateAddressRequest {
            associationId = associationIdVal
        }
    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.disassociateAddress(addressRequest)
        println("You successfully disassociated the address!")
    }
}
```
+  Untuk detail API, lihat [DisassociateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun releaseEC2AddressSc(allocId: String?) {
    val request =
        ReleaseAddressRequest {
            allocationId = allocId
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.releaseAddress(request)
        println("Successfully released Elastic IP address $allocId")
    }
}
```
+  Untuk detail API, lihat [ReleaseAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `RunInstances`
<a name="ec2_RunInstances_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun createEC2Instance(
    name: String,
    amiId: String,
): String? {
    val request =
        RunInstancesRequest {
            imageId = amiId
            instanceType = InstanceType.T1Micro
            maxCount = 1
            minCount = 1
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.runInstances(request)
        val instanceId = response.instances?.get(0)?.instanceId
        val tag =
            Tag {
                key = "Name"
                value = name
            }

        val requestTags =
            CreateTagsRequest {
                resources = listOf(instanceId.toString())
                tags = listOf(tag)
            }
        ec2.createTags(requestTags)
        println("Successfully started EC2 Instance $instanceId based on AMI $amiId")
        return instanceId
    }
}
```
+  Untuk detail API, lihat [RunInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `StartInstances`
<a name="ec2_StartInstances_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun startInstanceSc(instanceId: String) {
    val request =
        StartInstancesRequest {
            instanceIds = listOf(instanceId)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.startInstances(request)
        println("Waiting until instance $instanceId starts. This will take a few minutes.")
        ec2.waitUntilInstanceRunning {
            // suspend call
            instanceIds = listOf(instanceId)
        }
        println("Successfully started instance $instanceId")
    }
}
```
+  Untuk detail API, lihat [StartInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `StopInstances`
<a name="ec2_StopInstances_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun stopInstanceSc(instanceId: String) {
    val request =
        StopInstancesRequest {
            instanceIds = listOf(instanceId)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        ec2.stopInstances(request)
        println("Waiting until instance $instanceId stops. This will take a few minutes.")
        ec2.waitUntilInstanceStopped {
            // suspend call
            instanceIds = listOf(instanceId)
        }
        println("Successfully stopped instance $instanceId")
    }
}
```
+  Untuk detail API, lihat [StopInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). 

```
suspend fun terminateEC2(instanceID: String) {
    val request =
        TerminateInstancesRequest {
            instanceIds = listOf(instanceID)
        }

    Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 ->
        val response = ec2.terminateInstances(request)
        response.terminatingInstances?.forEach { instance ->
            println("The ID of the terminated instance is ${instance.instanceId}")
        }
    }
}
```
+  Untuk detail API, lihat [TerminateInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon ECR menggunakan SDK untuk Kotlin
<a name="kotlin_1_ecr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon ECR.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon ECR
<a name="ecr_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon ECR.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
import aws.sdk.kotlin.services.ecr.EcrClient
import aws.sdk.kotlin.services.ecr.model.ListImagesRequest
import kotlin.system.exitProcess

suspend fun main(args: Array<String>) {
    val usage = """
            Usage: <repositoryName> 

            Where:
               repositoryName - The name of the Amazon ECR repository. 
            
    """.trimIndent()

    if (args.size != 1) {
        println(usage)
        exitProcess(1)
    }

    val repoName = args[0]
    listImageTags(repoName)
}

suspend fun listImageTags(repoName: String?) {
    val listImages =
        ListImagesRequest {
            repositoryName = repoName
        }

    EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
        val imageResponse = ecrClient.listImages(listImages)
        imageResponse.imageIds?.forEach { imageId ->
            println("Image tag: ${imageId.imageTag}")
        }
    }
}
```
+  Untuk detail API, lihat [listImages](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ecr_Scenario_RepositoryManagement_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat repositori Amazon ECR.
+ Tetapkan kebijakan repositori.
+ Ambil URIs repositori.
+ Dapatkan token otorisasi Amazon ECR.
+ Tetapkan kebijakan siklus hidup untuk repositori Amazon ECR.
+ Dorong gambar Docker ke repositori Amazon ECR.
+ Verifikasi keberadaan gambar di repositori Amazon ECR.
+ Buat daftar repositori Amazon ECR untuk akun Anda dan dapatkan detailnya.
+ Hapus repositori Amazon ECR.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 
Jalankan skenario interaktif yang menunjukkan fitur Amazon ECR.  

```
import java.util.Scanner

/**
 * Before running this Kotlin code example, set up your development environment, including your credentials.
 *
 * For more information, see the following documentation topic:
 *
 * https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 *
 * This code example requires an IAM Role that has permissions to interact with the Amazon ECR service.
 *
 * To create an IAM role, see:
 *
 * https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html
 *
 * This code example requires a local docker image named echo-text. Without a local image,
 * this program will not successfully run. For more information including how to create the local
 * image, see:
 *
 * /scenarios/basics/ecr/README
 *
 */

val DASHES = String(CharArray(80)).replace("\u0000", "-")

suspend fun main(args: Array<String>) {
    val usage =
        """
        Usage: <iamRoleARN> <accountId>

        Where:
           iamRoleARN - The IAM role ARN that has the necessary permissions to access and manage the Amazon ECR repository.
           accountId - Your AWS account number. 
        
        """.trimIndent()

    if (args.size != 2) {
        println(usage)
        return
    }

    var iamRole = args[0]
    var localImageName: String
    var accountId = args[1]
    val ecrActions = ECRActions()
    val scanner = Scanner(System.`in`)

    println(
        """
        The Amazon Elastic Container Registry (ECR) is a fully-managed Docker container registry 
        service provided by AWS. It allows developers and organizations to securely 
        store, manage, and deploy Docker container images. 
        ECR provides a simple and scalable way to manage container images throughout their lifecycle, 
        from building and testing to production deployment. 
                        
        The `EcrClient` service client that is part of the AWS SDK for Kotlin provides a set of methods to 
        programmatically interact with the Amazon ECR service. This allows developers to 
        automate the storage, retrieval, and management of container images as part of their application 
        deployment pipelines. With ECR, teams can focus on building and deploying their 
        applications without having to worry about the underlying infrastructure required to 
        host and manage a container registry.
            
        This scenario walks you through how to perform key operations for this service.  
        Let's get started...
        
         You have two choices:
            1 - Run the entire program.
            2 - Delete an existing Amazon ECR repository named echo-text (created from a previous execution of 
            this program that did not complete).
          
        """.trimIndent(),
    )

    while (true) {
        val input = scanner.nextLine()
        if (input.trim { it <= ' ' }.equals("1", ignoreCase = true)) {
            println("Continuing with the program...")
            println("")
            break
        } else if (input.trim { it <= ' ' }.equals("2", ignoreCase = true)) {
            val repoName = "echo-text"
            ecrActions.deleteECRRepository(repoName)
            return
        } else {
            // Handle invalid input.
            println("Invalid input. Please try again.")
        }
    }

    waitForInputToContinue(scanner)
    println(DASHES)
    println(
        """
        1. Create an ECR repository.
         
        The first task is to ensure we have a local Docker image named echo-text. 
        If this image exists, then an Amazon ECR repository is created. 
        
        An ECR repository is a private Docker container repository provided 
        by Amazon Web Services (AWS). It is a managed service that makes it easy 
        to store, manage, and deploy Docker container images. 
        
        """.trimIndent(),
    )

    // Ensure that a local docker image named echo-text exists.
    val doesExist = ecrActions.listLocalImages()
    val repoName: String
    if (!doesExist) {
        println("The local image named echo-text does not exist")
        return
    } else {
        localImageName = "echo-text"
        repoName = "echo-text"
    }

    val repoArn = ecrActions.createECRRepository(repoName).toString()
    println("The ARN of the ECR repository is $repoArn")
    waitForInputToContinue(scanner)

    println(DASHES)
    println(
        """
        2. Set an ECR repository policy.
        
        Setting an ECR repository policy using the `setRepositoryPolicy` function is crucial for maintaining
        the security and integrity of your container images. The repository policy allows you to 
        define specific rules and restrictions for accessing and managing the images stored within your ECR 
        repository.    
        
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    ecrActions.setRepoPolicy(repoName, iamRole)
    waitForInputToContinue(scanner)

    println(DASHES)
    println(
        """
        3. Display ECR repository policy.
        
        Now we will retrieve the ECR policy to ensure it was successfully set.   
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    val policyText = ecrActions.getRepoPolicy(repoName)
    println("Policy Text:")
    println(policyText)
    waitForInputToContinue(scanner)

    println(DASHES)
    println(
        """
        4. Retrieve an ECR authorization token.
        
        You need an authorization token to securely access and interact with the Amazon ECR registry. 
        The `getAuthorizationToken` method of the `EcrAsyncClient` is responsible for securely accessing 
        and interacting with an Amazon ECR repository. This operation is responsible for obtaining a 
        valid authorization token, which is required to authenticate your requests to the ECR service. 
        
        Without a valid authorization token, you would not be able to perform any operations on the 
        ECR repository, such as pushing, pulling, or managing your Docker images.    
        
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    ecrActions.getAuthToken()
    waitForInputToContinue(scanner)

    println(DASHES)
    println(
        """
        5. Get the ECR Repository URI.
                    
        The URI  of an Amazon ECR repository is important. When you want to deploy a container image to 
        a container orchestration platform like Amazon Elastic Kubernetes Service (EKS) 
        or Amazon Elastic Container Service (ECS), you need to specify the full image URI, 
        which includes the ECR repository URI. This allows the container runtime to pull the 
        correct container image from the ECR repository.    
        
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    val repositoryURI: String? = ecrActions.getRepositoryURI(repoName)
    println("The repository URI is $repositoryURI")
    waitForInputToContinue(scanner)

    println(DASHES)
    println(
        """
        6. Set an ECR Lifecycle Policy.
                    
        An ECR Lifecycle Policy is used to manage the lifecycle of Docker images stored in your ECR repositories. 
        These policies allow you to automatically remove old or unused Docker images from your repositories, 
        freeing up storage space and reducing costs.    
        
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    val pol = ecrActions.setLifeCyclePolicy(repoName)
    println(pol)
    waitForInputToContinue(scanner)

    println(DASHES)
    println(
        """
        7. Push a docker image to the Amazon ECR Repository.
            
        The `pushImageCmd()` method pushes a local Docker image to an Amazon ECR repository.
        It sets up the Docker client by connecting to the local Docker host using the default port.
        It then retrieves the authorization token for the ECR repository by making a call to the AWS SDK.
            
        The method uses the authorization token to create an `AuthConfig` object, which is used to authenticate
        the Docker client when pushing the image. Finally, the method tags the Docker image with the specified
        repository name and image tag, and then pushes the image to the ECR repository using the Docker client.
        If the push operation is successful, the method prints a message indicating that the image was pushed to ECR.
        
        """.trimIndent(),
    )

    waitForInputToContinue(scanner)
    ecrActions.pushDockerImage(repoName, localImageName)
    waitForInputToContinue(scanner)

    println(DASHES)
    println("8. Verify if the image is in the ECR Repository.")
    waitForInputToContinue(scanner)
    ecrActions.verifyImage(repoName, localImageName)
    waitForInputToContinue(scanner)

    println(DASHES)
    println("9. As an optional step, you can interact with the image in Amazon ECR by using the CLI.")
    println("Would you like to view instructions on how to use the CLI to run the image? (y/n)")
    val ans = scanner.nextLine().trim()
    if (ans.equals("y", true)) {
        val instructions = """
        1. Authenticate with ECR - Before you can pull the image from Amazon ECR, you need to authenticate with the registry. You can do this using the AWS CLI:
        
            aws ecr get-login-password --region us-east-1 | docker login --username AWS --password-stdin $accountId.dkr.ecr.us-east-1.amazonaws.com
        
        2. Describe the image using this command:
        
           aws ecr describe-images --repository-name $repoName --image-ids imageTag=$localImageName
        
        3. Run the Docker container and view the output using this command:
        
           docker run --rm $accountId.dkr.ecr.us-east-1.amazonaws.com/$repoName:$localImageName
        """
        println(instructions)
    }
    waitForInputToContinue(scanner)

    println(DASHES)
    println("10. Delete the ECR Repository.")
    println(
        """
        If the repository isn't empty, you must either delete the contents of the repository 
        or use the force option (used in this scenario) to delete the repository and have Amazon ECR delete all of its contents 
        on your behalf.
        
        """.trimIndent(),
    )
    println("Would you like to delete the Amazon ECR Repository? (y/n)")
    val delAns = scanner.nextLine().trim { it <= ' ' }
    if (delAns.equals("y", ignoreCase = true)) {
        println("You selected to delete the AWS ECR resources.")
        waitForInputToContinue(scanner)
        ecrActions.deleteECRRepository(repoName)
    }

    println(DASHES)
    println("This concludes the Amazon ECR SDK scenario")
    println(DASHES)
}

private fun waitForInputToContinue(scanner: Scanner) {
    while (true) {
        println("")
        println("Enter 'c' followed by <ENTER> to continue:")
        val input = scanner.nextLine()
        if (input.trim { it <= ' ' }.equals("c", ignoreCase = true)) {
            println("Continuing with the program...")
            println("")
            break
        } else {
            // Handle invalid input.
            println("Invalid input. Please try again.")
        }
    }
}
```
Kelas pembungkus untuk metode Amazon ECR SDK.  

```
import aws.sdk.kotlin.services.ecr.EcrClient
import aws.sdk.kotlin.services.ecr.model.CreateRepositoryRequest
import aws.sdk.kotlin.services.ecr.model.DeleteRepositoryRequest
import aws.sdk.kotlin.services.ecr.model.DescribeImagesRequest
import aws.sdk.kotlin.services.ecr.model.DescribeRepositoriesRequest
import aws.sdk.kotlin.services.ecr.model.EcrException
import aws.sdk.kotlin.services.ecr.model.GetRepositoryPolicyRequest
import aws.sdk.kotlin.services.ecr.model.ImageIdentifier
import aws.sdk.kotlin.services.ecr.model.RepositoryAlreadyExistsException
import aws.sdk.kotlin.services.ecr.model.SetRepositoryPolicyRequest
import aws.sdk.kotlin.services.ecr.model.StartLifecyclePolicyPreviewRequest
import com.github.dockerjava.api.DockerClient
import com.github.dockerjava.api.command.DockerCmdExecFactory
import com.github.dockerjava.api.model.AuthConfig
import com.github.dockerjava.core.DockerClientBuilder
import com.github.dockerjava.netty.NettyDockerCmdExecFactory
import java.io.IOException
import java.util.Base64

class ECRActions {
    private var dockerClient: DockerClient? = null

    private fun getDockerClient(): DockerClient? {
        val osName = System.getProperty("os.name")
        if (osName.startsWith("Windows")) {
            // Make sure Docker Desktop is running.
            val dockerHost = "tcp://localhost:2375" // Use the Docker Desktop default port.
            val dockerCmdExecFactory: DockerCmdExecFactory =
                NettyDockerCmdExecFactory().withReadTimeout(20000).withConnectTimeout(20000)
            dockerClient = DockerClientBuilder.getInstance(dockerHost).withDockerCmdExecFactory(dockerCmdExecFactory).build()
        } else {
            dockerClient = DockerClientBuilder.getInstance().build()
        }
        return dockerClient
    }


    /**
     * Sets the lifecycle policy for the specified repository.
     *
     * @param repoName the name of the repository for which to set the lifecycle policy.
     */
    suspend fun setLifeCyclePolicy(repoName: String): String? {
        val polText =
            """
             {
             "rules": [
                 {
                     "rulePriority": 1,
                     "description": "Expire images older than 14 days",
                     "selection": {
                         "tagStatus": "any",
                         "countType": "sinceImagePushed",
                         "countUnit": "days",
                         "countNumber": 14
                     },
                     "action": {
                         "type": "expire"
                     }
                 }
            ]
            }
            
            """.trimIndent()
        val lifecyclePolicyPreviewRequest =
            StartLifecyclePolicyPreviewRequest {
                lifecyclePolicyText = polText
                repositoryName = repoName
            }

        // Execute the request asynchronously.
        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val response = ecrClient.startLifecyclePolicyPreview(lifecyclePolicyPreviewRequest)
            return response.lifecyclePolicyText
        }
    }


    /**
     * Retrieves the repository URI for the specified repository name.
     *
     * @param repoName the name of the repository to retrieve the URI for.
     * @return the repository URI for the specified repository name.
     */
    suspend fun getRepositoryURI(repoName: String?): String? {
        require(!(repoName == null || repoName.isEmpty())) { "Repository name cannot be null or empty" }
        val request =
            DescribeRepositoriesRequest {
                repositoryNames = listOf(repoName)
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val describeRepositoriesResponse = ecrClient.describeRepositories(request)
            if (!describeRepositoriesResponse.repositories?.isEmpty()!!) {
                return describeRepositoriesResponse?.repositories?.get(0)?.repositoryUri
            } else {
                println("No repositories found for the given name.")
                return ""
            }
        }
    }


    /**
     * Retrieves the authorization token for Amazon Elastic Container Registry (ECR).
     *
     */
    suspend fun getAuthToken() {
        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            // Retrieve the authorization token for ECR.
            val response = ecrClient.getAuthorizationToken()
            val authorizationData = response.authorizationData?.get(0)
            val token = authorizationData?.authorizationToken
            if (token != null) {
                println("The token was successfully retrieved.")
            }
        }
    }


    /**
     * Gets the repository policy for the specified repository.
     *
     * @param repoName the name of the repository.
     */
    suspend fun getRepoPolicy(repoName: String?): String? {
        require(!(repoName == null || repoName.isEmpty())) { "Repository name cannot be null or empty" }

        // Create the request
        val getRepositoryPolicyRequest =
            GetRepositoryPolicyRequest {
                repositoryName = repoName
            }
        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val response = ecrClient.getRepositoryPolicy(getRepositoryPolicyRequest)
            val responseText = response.policyText
            return responseText
        }
    }


    /**
     * Sets the repository policy for the specified ECR repository.
     *
     * @param repoName the name of the ECR repository.
     * @param iamRole the IAM role to be granted access to the repository.
     */
    suspend fun setRepoPolicy(
        repoName: String?,
        iamRole: String?,
    ) {
        val policyDocumentTemplate =
            """
             {
              "Version":"2012-10-17",		 	 	 
              "Statement" : [ {
                "Sid" : "new statement",
                "Effect" : "Allow",
                "Principal" : {
                  "AWS" : "$iamRole"
                },
                "Action" : "ecr:BatchGetImage"
              } ]
            }
             
            """.trimIndent()
        val setRepositoryPolicyRequest =
            SetRepositoryPolicyRequest {
                repositoryName = repoName
                policyText = policyDocumentTemplate
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val response = ecrClient.setRepositoryPolicy(setRepositoryPolicyRequest)
            if (response != null) {
                println("Repository policy set successfully.")
            }
        }
    }


    /**
     * Creates an Amazon Elastic Container Registry (Amazon ECR) repository.
     *
     * @param repoName the name of the repository to create.
     * @return the Amazon Resource Name (ARN) of the created repository, or an empty string if the operation failed.
     * @throws RepositoryAlreadyExistsException if the repository exists.
     * @throws EcrException         if an error occurs while creating the repository.
     */
    suspend fun createECRRepository(repoName: String?): String? {
        val request =
            CreateRepositoryRequest {
                repositoryName = repoName
            }

        return try {
            EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
                val response = ecrClient.createRepository(request)
                response.repository?.repositoryArn
            }
        } catch (e: RepositoryAlreadyExistsException) {
            println("Repository already exists: $repoName")
            repoName?.let { getRepoARN(it) }
        } catch (e: EcrException) {
            println("An error occurred: ${e.message}")
            null
        }
    }

    suspend fun getRepoARN(repoName: String): String? {
        // Fetch the existing repository's ARN.
        val describeRequest =
            DescribeRepositoriesRequest {
                repositoryNames = listOf(repoName)
            }
        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val describeResponse = ecrClient.describeRepositories(describeRequest)
            return describeResponse.repositories?.get(0)?.repositoryArn
        }
    }

    fun listLocalImages(): Boolean = try {
        val images = getDockerClient()?.listImagesCmd()?.exec()
        images?.any { image ->
            image.repoTags?.any { tag -> tag.startsWith("echo-text") } ?: false
        } ?: false
    } catch (ex: Exception) {
        println("ERROR: ${ex.message}")
        false
    }


    /**
     * Pushes a Docker image to an Amazon Elastic Container Registry (ECR) repository.
     *
     * @param repoName the name of the ECR repository to push the image to.
     * @param imageName the name of the Docker image.
     */
    suspend fun pushDockerImage(
        repoName: String,
        imageName: String,
    ) {
        println("Pushing $imageName to $repoName will take a few seconds")
        val authConfig = getAuthConfig(repoName)

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val desRequest =
                DescribeRepositoriesRequest {
                    repositoryNames = listOf(repoName)
                }

            val describeRepoResponse = ecrClient.describeRepositories(desRequest)
            val repoData =
                describeRepoResponse.repositories?.firstOrNull { it.repositoryName == repoName }
                    ?: throw RuntimeException("Repository not found: $repoName")

            val tagImageCmd = getDockerClient()?.tagImageCmd("$imageName", "${repoData.repositoryUri}", imageName)
            if (tagImageCmd != null) {
                tagImageCmd.exec()
            }
            val pushImageCmd =
                repoData.repositoryUri?.let {
                    dockerClient?.pushImageCmd(it)
                        // ?.withTag("latest")
                        ?.withAuthConfig(authConfig)
                }

            try {
                if (pushImageCmd != null) {
                    pushImageCmd.start().awaitCompletion()
                }
                println("The $imageName was pushed to Amazon ECR")
            } catch (e: IOException) {
                throw RuntimeException(e)
            }
        }
    }


    /**
     * Verifies the existence of an image in an Amazon Elastic Container Registry (Amazon ECR) repository asynchronously.
     *
     * @param repositoryName The name of the Amazon ECR repository.
     * @param imageTag       The tag of the image to verify.
     */
    suspend fun verifyImage(
        repoName: String?,
        imageTagVal: String?,
    ) {
        require(!(repoName == null || repoName.isEmpty())) { "Repository name cannot be null or empty" }
        require(!(imageTagVal == null || imageTagVal.isEmpty())) { "Image tag cannot be null or empty" }

        val imageId =
            ImageIdentifier {
                imageTag = imageTagVal
            }
        val request =
            DescribeImagesRequest {
                repositoryName = repoName
                imageIds = listOf(imageId)
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val describeImagesResponse = ecrClient.describeImages(request)
            if (describeImagesResponse != null && !describeImagesResponse.imageDetails?.isEmpty()!!) {
                println("Image is present in the repository.")
            } else {
                println("Image is not present in the repository.")
            }
        }
    }


    /**
     * Deletes an ECR (Elastic Container Registry) repository.
     *
     * @param repoName the name of the repository to delete.
     */
    suspend fun deleteECRRepository(repoName: String) {
        if (repoName.isNullOrEmpty()) {
            throw IllegalArgumentException("Repository name cannot be null or empty")
        }

        val repositoryRequest =
            DeleteRepositoryRequest {
                force = true
                repositoryName = repoName
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            ecrClient.deleteRepository(repositoryRequest)
            println("You have successfully deleted the $repoName repository")
        }
    }

    // Return an AuthConfig.
    private suspend fun getAuthConfig(repoName: String): AuthConfig {
        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            // Retrieve the authorization token for ECR.
            val response = ecrClient.getAuthorizationToken()
            val authorizationData = response.authorizationData?.get(0)
            val token = authorizationData?.authorizationToken
            val decodedToken = String(Base64.getDecoder().decode(token))
            val password = decodedToken.substring(4)

            val request =
                DescribeRepositoriesRequest {
                    repositoryNames = listOf(repoName)
                }

            val descrRepoResponse = ecrClient.describeRepositories(request)
            val repoData = descrRepoResponse.repositories?.firstOrNull { it.repositoryName == repoName }
            val registryURL: String = repoData?.repositoryUri?.split("/")?.get(0) ?: ""

            return AuthConfig()
                .withUsername("AWS")
                .withPassword(password)
                .withRegistryAddress(registryURL)
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Kotlin*.
  + [CreateRepository](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteRepository](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeImages](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeRepositories](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetAuthorizationToken](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetRepositoryPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [SetRepositoryPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartLifecyclePolicyPreview](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateRepository`
<a name="ecr_CreateRepository_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRepository`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Creates an Amazon Elastic Container Registry (Amazon ECR) repository.
     *
     * @param repoName the name of the repository to create.
     * @return the Amazon Resource Name (ARN) of the created repository, or an empty string if the operation failed.
     * @throws RepositoryAlreadyExistsException if the repository exists.
     * @throws EcrException         if an error occurs while creating the repository.
     */
    suspend fun createECRRepository(repoName: String?): String? {
        val request =
            CreateRepositoryRequest {
                repositoryName = repoName
            }

        return try {
            EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
                val response = ecrClient.createRepository(request)
                response.repository?.repositoryArn
            }
        } catch (e: RepositoryAlreadyExistsException) {
            println("Repository already exists: $repoName")
            repoName?.let { getRepoARN(it) }
        } catch (e: EcrException) {
            println("An error occurred: ${e.message}")
            null
        }
    }
```
+  Untuk detail API, lihat [CreateRepository](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteRepository`
<a name="ecr_DeleteRepository_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRepository`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Deletes an ECR (Elastic Container Registry) repository.
     *
     * @param repoName the name of the repository to delete.
     */
    suspend fun deleteECRRepository(repoName: String) {
        if (repoName.isNullOrEmpty()) {
            throw IllegalArgumentException("Repository name cannot be null or empty")
        }

        val repositoryRequest =
            DeleteRepositoryRequest {
                force = true
                repositoryName = repoName
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            ecrClient.deleteRepository(repositoryRequest)
            println("You have successfully deleted the $repoName repository")
        }
    }
```
+  Untuk detail API, lihat [DeleteRepository](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeImages`
<a name="ecr_DescribeImages_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Verifies the existence of an image in an Amazon Elastic Container Registry (Amazon ECR) repository asynchronously.
     *
     * @param repositoryName The name of the Amazon ECR repository.
     * @param imageTag       The tag of the image to verify.
     */
    suspend fun verifyImage(
        repoName: String?,
        imageTagVal: String?,
    ) {
        require(!(repoName == null || repoName.isEmpty())) { "Repository name cannot be null or empty" }
        require(!(imageTagVal == null || imageTagVal.isEmpty())) { "Image tag cannot be null or empty" }

        val imageId =
            ImageIdentifier {
                imageTag = imageTagVal
            }
        val request =
            DescribeImagesRequest {
                repositoryName = repoName
                imageIds = listOf(imageId)
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val describeImagesResponse = ecrClient.describeImages(request)
            if (describeImagesResponse != null && !describeImagesResponse.imageDetails?.isEmpty()!!) {
                println("Image is present in the repository.")
            } else {
                println("Image is not present in the repository.")
            }
        }
    }
```
+  Untuk detail API, lihat [DescribeImages](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeRepositories`
<a name="ecr_DescribeRepositories_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRepositories`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Retrieves the repository URI for the specified repository name.
     *
     * @param repoName the name of the repository to retrieve the URI for.
     * @return the repository URI for the specified repository name.
     */
    suspend fun getRepositoryURI(repoName: String?): String? {
        require(!(repoName == null || repoName.isEmpty())) { "Repository name cannot be null or empty" }
        val request =
            DescribeRepositoriesRequest {
                repositoryNames = listOf(repoName)
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val describeRepositoriesResponse = ecrClient.describeRepositories(request)
            if (!describeRepositoriesResponse.repositories?.isEmpty()!!) {
                return describeRepositoriesResponse?.repositories?.get(0)?.repositoryUri
            } else {
                println("No repositories found for the given name.")
                return ""
            }
        }
    }
```
+  Untuk detail API, lihat [DescribeRepositories](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetAuthorizationToken`
<a name="ecr_GetAuthorizationToken_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAuthorizationToken`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Retrieves the authorization token for Amazon Elastic Container Registry (ECR).
     *
     */
    suspend fun getAuthToken() {
        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            // Retrieve the authorization token for ECR.
            val response = ecrClient.getAuthorizationToken()
            val authorizationData = response.authorizationData?.get(0)
            val token = authorizationData?.authorizationToken
            if (token != null) {
                println("The token was successfully retrieved.")
            }
        }
    }
```
+  Untuk detail API, lihat [GetAuthorizationToken](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetRepositoryPolicy`
<a name="ecr_GetRepositoryPolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRepositoryPolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Gets the repository policy for the specified repository.
     *
     * @param repoName the name of the repository.
     */
    suspend fun getRepoPolicy(repoName: String?): String? {
        require(!(repoName == null || repoName.isEmpty())) { "Repository name cannot be null or empty" }

        // Create the request
        val getRepositoryPolicyRequest =
            GetRepositoryPolicyRequest {
                repositoryName = repoName
            }
        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val response = ecrClient.getRepositoryPolicy(getRepositoryPolicyRequest)
            val responseText = response.policyText
            return responseText
        }
    }
```
+  Untuk detail API, lihat [GetRepositoryPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PushImageCmd`
<a name="ecr_PushImageCmd_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PushImageCmd`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Pushes a Docker image to an Amazon Elastic Container Registry (ECR) repository.
     *
     * @param repoName the name of the ECR repository to push the image to.
     * @param imageName the name of the Docker image.
     */
    suspend fun pushDockerImage(
        repoName: String,
        imageName: String,
    ) {
        println("Pushing $imageName to $repoName will take a few seconds")
        val authConfig = getAuthConfig(repoName)

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val desRequest =
                DescribeRepositoriesRequest {
                    repositoryNames = listOf(repoName)
                }

            val describeRepoResponse = ecrClient.describeRepositories(desRequest)
            val repoData =
                describeRepoResponse.repositories?.firstOrNull { it.repositoryName == repoName }
                    ?: throw RuntimeException("Repository not found: $repoName")

            val tagImageCmd = getDockerClient()?.tagImageCmd("$imageName", "${repoData.repositoryUri}", imageName)
            if (tagImageCmd != null) {
                tagImageCmd.exec()
            }
            val pushImageCmd =
                repoData.repositoryUri?.let {
                    dockerClient?.pushImageCmd(it)
                        // ?.withTag("latest")
                        ?.withAuthConfig(authConfig)
                }

            try {
                if (pushImageCmd != null) {
                    pushImageCmd.start().awaitCompletion()
                }
                println("The $imageName was pushed to Amazon ECR")
            } catch (e: IOException) {
                throw RuntimeException(e)
            }
        }
    }
```
+  Untuk detail API, lihat [PushImageCmd](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `SetRepositoryPolicy`
<a name="ecr_SetRepositoryPolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetRepositoryPolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Sets the repository policy for the specified ECR repository.
     *
     * @param repoName the name of the ECR repository.
     * @param iamRole the IAM role to be granted access to the repository.
     */
    suspend fun setRepoPolicy(
        repoName: String?,
        iamRole: String?,
    ) {
        val policyDocumentTemplate =
            """
             {
              "Version":"2012-10-17",		 	 	 
              "Statement" : [ {
                "Sid" : "new statement",
                "Effect" : "Allow",
                "Principal" : {
                  "AWS" : "$iamRole"
                },
                "Action" : "ecr:BatchGetImage"
              } ]
            }
             
            """.trimIndent()
        val setRepositoryPolicyRequest =
            SetRepositoryPolicyRequest {
                repositoryName = repoName
                policyText = policyDocumentTemplate
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val response = ecrClient.setRepositoryPolicy(setRepositoryPolicyRequest)
            if (response != null) {
                println("Repository policy set successfully.")
            }
        }
    }
```
+  Untuk detail API, lihat [SetRepositoryPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `StartLifecyclePolicyPreview`
<a name="ecr_StartLifecyclePolicyPreview_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartLifecyclePolicyPreview`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ecr#code-examples). 

```
    /**
     * Verifies the existence of an image in an Amazon Elastic Container Registry (Amazon ECR) repository asynchronously.
     *
     * @param repositoryName The name of the Amazon ECR repository.
     * @param imageTag       The tag of the image to verify.
     */
    suspend fun verifyImage(
        repoName: String?,
        imageTagVal: String?,
    ) {
        require(!(repoName == null || repoName.isEmpty())) { "Repository name cannot be null or empty" }
        require(!(imageTagVal == null || imageTagVal.isEmpty())) { "Image tag cannot be null or empty" }

        val imageId =
            ImageIdentifier {
                imageTag = imageTagVal
            }
        val request =
            DescribeImagesRequest {
                repositoryName = repoName
                imageIds = listOf(imageId)
            }

        EcrClient.fromEnvironment { region = "us-east-1" }.use { ecrClient ->
            val describeImagesResponse = ecrClient.describeImages(request)
            if (describeImagesResponse != null && !describeImagesResponse.imageDetails?.isEmpty()!!) {
                println("Image is present in the repository.")
            } else {
                println("Image is not present in the repository.")
            }
        }
    }
```
+  Untuk detail API, lihat [StartLifecyclePolicyPreview](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# OpenSearch Contoh layanan menggunakan SDK untuk Kotlin
<a name="kotlin_1_opensearch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan OpenSearch Service.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateDomain`
<a name="opensearch_CreateDomain_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDomain`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/opensearch#code-examples). 

```
suspend fun createNewDomain(domainNameVal: String?) {
    val clusterConfigOb =
        ClusterConfig {
            dedicatedMasterEnabled = true
            dedicatedMasterCount = 3
            dedicatedMasterType = OpenSearchPartitionInstanceType.fromValue("t2.small.search")
            instanceType = OpenSearchPartitionInstanceType.fromValue("t2.small.search")
            instanceCount = 5
        }

    val ebsOptionsOb =
        EbsOptions {
            ebsEnabled = true
            volumeSize = 10
            volumeType = VolumeType.Gp2
        }

    val encryptionOptionsOb =
        NodeToNodeEncryptionOptions {
            enabled = true
        }

    val request =
        CreateDomainRequest {
            domainName = domainNameVal
            engineVersion = "OpenSearch_1.0"
            clusterConfig = clusterConfigOb
            ebsOptions = ebsOptionsOb
            nodeToNodeEncryptionOptions = encryptionOptionsOb
        }

    println("Sending domain creation request...")
    OpenSearchClient.fromEnvironment { region = "us-east-1" }.use { searchClient ->
        val createResponse = searchClient.createDomain(request)
        println("Domain status is ${createResponse.domainStatus}")
        println("Domain Id is ${createResponse.domainStatus?.domainId}")
    }
}
```
+  Untuk detail API, lihat [CreateDomain](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteDomain`
<a name="opensearch_DeleteDomain_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDomain`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/opensearch#code-examples). 

```
suspend fun deleteSpecificDomain(domainNameVal: String) {
    val request =
        DeleteDomainRequest {
            domainName = domainNameVal
        }
    OpenSearchClient.fromEnvironment { region = "us-east-1" }.use { searchClient ->
        searchClient.deleteDomain(request)
        println("$domainNameVal was successfully deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteDomain](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListDomainNames`
<a name="opensearch_ListDomainNames_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDomainNames`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/opensearch#code-examples). 

```
suspend fun listAllDomains() {
    OpenSearchClient.fromEnvironment { region = "us-east-1" }.use { searchClient ->
        val response: ListDomainNamesResponse = searchClient.listDomainNames(ListDomainNamesRequest {})
        response.domainNames?.forEach { domain ->
            println("Domain name is " + domain.domainName)
        }
    }
}
```
+  Untuk detail API, lihat [ListDomainNames](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `UpdateDomainConfig`
<a name="opensearch_UpdateDomainConfig_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateDomainConfig`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/opensearch#code-examples). 

```
suspend fun updateSpecificDomain(domainNameVal: String?) {
    val clusterConfigOb =
        ClusterConfig {
            instanceCount = 3
        }

    val request =
        UpdateDomainConfigRequest {
            domainName = domainNameVal
            clusterConfig = clusterConfigOb
        }

    println("Sending domain update request...")
    OpenSearchClient.fromEnvironment { region = "us-east-1" }.use { searchClient ->
        val updateResponse = searchClient.updateDomainConfig(request)
        println("Domain update response from Amazon OpenSearch Service:")
        println(updateResponse.toString())
    }
}
```
+  Untuk detail API, lihat [UpdateDomainConfig](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# EventBridge contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin. EventBridge

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo EventBridge
<a name="eventbridge_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan EventBridge.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
import aws.sdk.kotlin.services.eventbridge.EventBridgeClient
import aws.sdk.kotlin.services.eventbridge.model.ListEventBusesRequest
import aws.sdk.kotlin.services.eventbridge.model.ListEventBusesResponse

suspend fun main() {
    listBusesHello()
}

suspend fun listBusesHello() {
    val request =
        ListEventBusesRequest {
            limit = 10
        }

    EventBridgeClient.fromEnvironment { region = "us-west-2" }.use { eventBrClient ->
        val response: ListEventBusesResponse = eventBrClient.listEventBuses(request)
        response.eventBuses?.forEach { bus ->
            println("The name of the event bus is ${bus.name}")
            println("The ARN of the event bus is ${bus.arn}")
        }
    }
}
```
+  Untuk detail API, lihat [ListEventBuses](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="eventbridge_Scenario_GettingStarted_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat aturan dan tambahkan target ke dalamnya.
+ Aktifkan dan nonaktifkan aturan.
+ Daftar dan perbarui aturan dan target.
+ Kirim acara, lalu bersihkan sumber daya.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
/*
 Before running this Kotlin code example, set up your development environment,
 including your credentials.

 For more information, see the following documentation topic:
 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

 This Kotlin example performs the following tasks with Amazon EventBridge:

 1. Creates an AWS Identity and Access Management (IAM) role to use with Amazon EventBridge.
 2. Creates an Amazon Simple Storage Service (Amazon S3) bucket with EventBridge events enabled.
 3. Creates a rule that triggers when an object is uploaded to Amazon S3.
 4. Lists rules on the event bus.
 5. Creates a new Amazon Simple Notification Service (Amazon SNS) topic and lets the user subscribe to it.
 6. Adds a target to the rule that sends an email to the specified topic.
 7. Creates an EventBridge event that sends an email when an Amazon S3 object is created.
 8. Lists targets.
 9. Lists the rules for the same target.
 10. Triggers the rule by uploading a file to the S3 bucket.
 11. Disables a specific rule.
 12. Checks and prints the state of the rule.
 13. Adds a transform to the rule to change the text of the email.
 14. Enables a specific rule.
 15. Triggers the updated rule by uploading a file to the S3 bucket.
 16. Updates the rule to a custom rule pattern.
 17. Sends an event to trigger the rule.
 18. Cleans up resources.
*/
val DASHES: String = String(CharArray(80)).replace("\u0000", "-")

suspend fun main(args: Array<String>) {
    val usage = """
    Usage:
        <roleName> <bucketName> <topicName> <eventRuleName>

    Where:
        roleName - The name of the role to create.
        bucketName - The Amazon Simple Storage Service (Amazon S3) bucket name to create.
        topicName - The name of the Amazon Simple Notification Service (Amazon SNS) topic to create.
        eventRuleName - The Amazon EventBridge rule name to create.
    """
    val polJSON =
        "{" +
            "\"Version\": \"2012-10-17\"," +
            "\"Statement\": [{" +
            "\"Effect\": \"Allow\"," +
            "\"Principal\": {" +
            "\"Service\": \"events.amazonaws.com\"" +
            "}," +
            "\"Action\": \"sts:AssumeRole\"" +
            "}]" +
            "}"

    if (args.size != 4) {
        println(usage)
        exitProcess(1)
    }

    val sc = Scanner(System.`in`)
    val roleName = args[0]
    val bucketName = args[1]
    val topicName = args[2]
    val eventRuleName = args[3]

    println(DASHES)
    println("Welcome to the Amazon EventBridge example scenario.")
    println(DASHES)

    println(DASHES)
    println("1. Create an AWS Identity and Access Management (IAM) role to use with Amazon EventBridge.")
    val roleArn = createIAMRole(roleName, polJSON)
    println(DASHES)

    println(DASHES)
    println("2. Create an S3 bucket with EventBridge events enabled.")
    if (checkBucket(bucketName)) {
        println("$bucketName already exists. Ending this scenario.")
        exitProcess(1)
    }

    createBucket(bucketName)
    delay(3000)
    setBucketNotification(bucketName)
    println(DASHES)

    println(DASHES)
    println("3. Create a rule that triggers when an object is uploaded to Amazon S3.")
    delay(10000)
    addEventRule(roleArn, bucketName, eventRuleName)
    println(DASHES)

    println(DASHES)
    println("4. List rules on the event bus.")
    listRules()
    println(DASHES)

    println(DASHES)
    println("5. Create a new SNS topic for testing and let the user subscribe to the topic.")
    val topicArn = createSnsTopic(topicName)
    println(DASHES)

    println(DASHES)
    println("6. Add a target to the rule that sends an email to the specified topic.")
    println("Enter your email to subscribe to the Amazon SNS topic:")
    val email = sc.nextLine()
    subEmail(topicArn, email)
    println("Use the link in the email you received to confirm your subscription. Then press Enter to continue.")
    sc.nextLine()
    println(DASHES)

    println(DASHES)
    println("7. Create an EventBridge event that sends an email when an Amazon S3 object is created.")
    addSnsEventRule(eventRuleName, topicArn, topicName, eventRuleName, bucketName)
    println(DASHES)

    println(DASHES)
    println("8. List targets.")
    listTargets(eventRuleName)
    println(DASHES)

    println(DASHES)
    println(" 9. List the rules for the same target.")
    listTargetRules(topicArn)
    println(DASHES)

    println(DASHES)
    println("10. Trigger the rule by uploading a file to the S3 bucket.")
    println("Press Enter to continue.")
    sc.nextLine()
    uploadTextFiletoS3(bucketName)
    println(DASHES)

    println(DASHES)
    println("11. Disable a specific rule.")
    changeRuleState(eventRuleName, false)
    println(DASHES)

    println(DASHES)
    println("12. Check and print the state of the rule.")
    checkRule(eventRuleName)
    println(DASHES)

    println(DASHES)
    println("13. Add a transform to the rule to change the text of the email.")
    updateSnsEventRule(topicArn, eventRuleName)
    println(DASHES)

    println(DASHES)
    println("14. Enable a specific rule.")
    changeRuleState(eventRuleName, true)
    println(DASHES)

    println(DASHES)
    println("15. Trigger the updated rule by uploading a file to the S3 bucket.")
    println("Press Enter to continue.")
    sc.nextLine()
    uploadTextFiletoS3(bucketName)
    println(DASHES)

    println(DASHES)
    println("16. Update the rule to a custom rule pattern.")
    updateToCustomRule(eventRuleName)
    println("Updated event rule $eventRuleName to use a custom pattern.")
    updateCustomRuleTargetWithTransform(topicArn, eventRuleName)
    println("Updated event target $topicArn.")
    println(DASHES)

    println(DASHES)
    println("17. Send an event to trigger the rule. This will trigger a subscription email.")
    triggerCustomRule(email)
    println("Events have been sent. Press Enter to continue.")
    sc.nextLine()
    println(DASHES)

    println(DASHES)
    println("18. Clean up resources.")
    println("Do you want to clean up resources (y/n)")
    val ans = sc.nextLine()
    if (ans.compareTo("y") == 0) {
        cleanupResources(topicArn, eventRuleName, bucketName, roleName)
    } else {
        println("The resources will not be cleaned up. ")
    }
    println(DASHES)

    println(DASHES)
    println("The Amazon EventBridge example scenario has successfully completed.")
    println(DASHES)
}

suspend fun cleanupResources(
    topicArn: String?,
    eventRuleName: String?,
    bucketName: String?,
    roleName: String?,
) {
    println("Removing all targets from the event rule.")
    deleteTargetsFromRule(eventRuleName)
    deleteRuleByName(eventRuleName)
    deleteSNSTopic(topicArn)
    deleteS3Bucket(bucketName)
    deleteRole(roleName)
}

suspend fun deleteRole(roleNameVal: String?) {
    val policyArnVal = "arn:aws:iam::aws:policy/AmazonEventBridgeFullAccess"
    val policyRequest =
        DetachRolePolicyRequest {
            policyArn = policyArnVal
            roleName = roleNameVal
        }
    IamClient.fromEnvironment { region = "us-east-1" }.use { iam ->
        iam.detachRolePolicy(policyRequest)
        println("Successfully detached policy $policyArnVal from role $roleNameVal")

        // Delete the role.
        val roleRequest =
            DeleteRoleRequest {
                roleName = roleNameVal
            }

        iam.deleteRole(roleRequest)
        println("*** Successfully deleted $roleNameVal")
    }
}

suspend fun deleteS3Bucket(bucketName: String?) {
    // Remove all the objects from the S3 bucket.
    val listObjects =
        ListObjectsRequest {
            bucket = bucketName
        }
    S3Client.fromEnvironment { region = "us-east-1" }.use { s3Client ->
        val res = s3Client.listObjects(listObjects)
        val myObjects = res.contents
        val toDelete = mutableListOf<ObjectIdentifier>()

        if (myObjects != null) {
            for (myValue in myObjects) {
                toDelete.add(
                    ObjectIdentifier {
                        key = myValue.key
                    },
                )
            }
        }

        val delOb =
            Delete {
                objects = toDelete
            }

        val dor =
            DeleteObjectsRequest {
                bucket = bucketName
                delete = delOb
            }
        s3Client.deleteObjects(dor)

        // Delete the S3 bucket.
        val deleteBucketRequest =
            DeleteBucketRequest {
                bucket = bucketName
            }
        s3Client.deleteBucket(deleteBucketRequest)
        println("You have deleted the bucket and the objects")
    }
}

// Delete the SNS topic.
suspend fun deleteSNSTopic(topicArnVal: String?) {
    val request =
        DeleteTopicRequest {
            topicArn = topicArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        snsClient.deleteTopic(request)
        println(" $topicArnVal was deleted.")
    }
}

suspend fun deleteRuleByName(ruleName: String?) {
    val ruleRequest =
        DeleteRuleRequest {
            name = ruleName
        }
    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.deleteRule(ruleRequest)
        println("Successfully deleted the rule")
    }
}

suspend fun deleteTargetsFromRule(eventRuleName: String?) {
    // First, get all targets that will be deleted.
    val request =
        ListTargetsByRuleRequest {
            rule = eventRuleName
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.listTargetsByRule(request)
        val allTargets = response.targets

        // Get all targets and delete them.
        if (allTargets != null) {
            for (myTarget in allTargets) {
                val removeTargetsRequest =
                    RemoveTargetsRequest {
                        rule = eventRuleName
                        ids = listOf(myTarget.id.toString())
                    }
                eventBrClient.removeTargets(removeTargetsRequest)
                println("Successfully removed the target")
            }
        }
    }
}

suspend fun triggerCustomRule(email: String) {
    val json =
        "{" +
            "\"UserEmail\": \"" + email + "\"," +
            "\"Message\": \"This event was generated by example code.\"" +
            "\"UtcTime\": \"Now.\"" +
            "}"

    val entry =
        PutEventsRequestEntry {
            source = "ExampleSource"
            detail = json
            detailType = "ExampleType"
        }

    val eventsRequest =
        PutEventsRequest {
            this.entries = listOf(entry)
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.putEvents(eventsRequest)
    }
}

suspend fun updateCustomRuleTargetWithTransform(
    topicArn: String?,
    ruleName: String?,
) {
    val targetId = UUID.randomUUID().toString()

    val inputTransformerOb =
        InputTransformer {
            inputTemplate = "\"Notification: sample event was received.\""
        }

    val target =
        Target {
            id = targetId
            arn = topicArn
            inputTransformer = inputTransformerOb
        }

    val targetsRequest =
        PutTargetsRequest {
            rule = ruleName
            targets = listOf(target)
            eventBusName = null
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.putTargets(targetsRequest)
    }
}

suspend fun updateToCustomRule(ruleName: String?) {
    val customEventsPattern =
        "{" +
            "\"source\": [\"ExampleSource\"]," +
            "\"detail-type\": [\"ExampleType\"]" +
            "}"
    val request =
        PutRuleRequest {
            name = ruleName
            description = "Custom test rule"
            eventPattern = customEventsPattern
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.putRule(request)
    }
}

// Update an Amazon S3 object created rule with a transform on the target.
suspend fun updateSnsEventRule(
    topicArn: String?,
    ruleName: String?,
) {
    val targetId = UUID.randomUUID().toString()
    val myMap = mutableMapOf<String, String>()
    myMap["bucket"] = "$.detail.bucket.name"
    myMap["time"] = "$.time"

    val inputTransOb =
        InputTransformer {
            inputTemplate = "\"Notification: an object was uploaded to bucket <bucket> at <time>.\""
            inputPathsMap = myMap
        }
    val targetOb =
        Target {
            id = targetId
            arn = topicArn
            inputTransformer = inputTransOb
        }

    val targetsRequest =
        PutTargetsRequest {
            rule = ruleName
            targets = listOf(targetOb)
            eventBusName = null
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.putTargets(targetsRequest)
    }
}

suspend fun checkRule(eventRuleName: String?) {
    val ruleRequest =
        DescribeRuleRequest {
            name = eventRuleName
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.describeRule(ruleRequest)
        println("The state of the rule is $response")
    }
}

suspend fun changeRuleState(
    eventRuleName: String,
    isEnabled: Boolean?,
) {
    if (!isEnabled!!) {
        println("Disabling the rule: $eventRuleName")
        val ruleRequest =
            DisableRuleRequest {
                name = eventRuleName
            }
        EventBridgeClient { region = "us-east-1" }.use { eventBrClient ->
            eventBrClient.disableRule(ruleRequest)
        }
    } else {
        println("Enabling the rule: $eventRuleName")
        val ruleRequest =
            EnableRuleRequest {
                name = eventRuleName
            }
        EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
            eventBrClient.enableRule(ruleRequest)
        }
    }
}

// Create and upload a file to an S3 bucket to trigger an event.
@Throws(IOException::class)
suspend fun uploadTextFiletoS3(bucketName: String?) {
    val fileSuffix = SimpleDateFormat("yyyyMMddHHmmss").format(Date())
    val fileName = "TextFile$fileSuffix.txt"
    val myFile = File(fileName)
    val fw = FileWriter(myFile.absoluteFile)
    val bw = BufferedWriter(fw)
    bw.write("This is a sample file for testing uploads.")
    bw.close()

    val putOb =
        PutObjectRequest {
            bucket = bucketName
            key = fileName
            body = myFile.asByteStream()
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3Client ->
        s3Client.putObject(putOb)
    }
}

suspend fun listTargetRules(topicArnVal: String?) {
    val ruleNamesByTargetRequest =
        ListRuleNamesByTargetRequest {
            targetArn = topicArnVal
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.listRuleNamesByTarget(ruleNamesByTargetRequest)
        response.ruleNames?.forEach { rule ->
            println("The rule name is $rule")
        }
    }
}

suspend fun listTargets(ruleName: String?) {
    val ruleRequest =
        ListTargetsByRuleRequest {
            rule = ruleName
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.listTargetsByRule(ruleRequest)
        response.targets?.forEach { target ->
            println("Target ARN: ${target.arn}")
        }
    }
}

// Add a rule that triggers an SNS target when a file is uploaded to an S3 bucket.
suspend fun addSnsEventRule(
    ruleName: String?,
    topicArn: String?,
    topicName: String,
    eventRuleName: String,
    bucketName: String,
) {
    val targetID = UUID.randomUUID().toString()
    val myTarget =
        Target {
            id = targetID
            arn = topicArn
        }

    val targetsOb = mutableListOf<Target>()
    targetsOb.add(myTarget)

    val request =
        PutTargetsRequest {
            eventBusName = null
            targets = targetsOb
            rule = ruleName
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.putTargets(request)
        println("Added event rule $eventRuleName with Amazon SNS target $topicName for bucket $bucketName.")
    }
}

suspend fun subEmail(
    topicArnVal: String?,
    email: String?,
) {
    val request =
        SubscribeRequest {
            protocol = "email"
            endpoint = email
            returnSubscriptionArn = true
            topicArn = topicArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.subscribe(request)
        println(" Subscription ARN: ${result.subscriptionArn}")
    }
}

suspend fun createSnsTopic(topicName: String): String? {
    val topicPolicy = """
    {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Sid": "EventBridgePublishTopic",
                "Effect": "Allow",
                "Principal": {
                    "Service": "events.amazonaws.com"
                },
                "Resource": "*",
                "Action": "sns:Publish"
            }
        ]
    }
    """.trimIndent()

    val topicAttributes = mutableMapOf<String, String>()
    topicAttributes["Policy"] = topicPolicy

    val topicRequest =
        CreateTopicRequest {
            name = topicName
            attributes = topicAttributes
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val response = snsClient.createTopic(topicRequest)
        println("Added topic $topicName for email subscriptions.")
        return response.topicArn
    }
}

suspend fun listRules() {
    val rulesRequest =
        ListRulesRequest {
            eventBusName = "default"
            limit = 10
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.listRules(rulesRequest)
        response.rules?.forEach { rule ->
            println("The rule name is ${rule.name}")
            println("The rule ARN is ${rule.arn}")
        }
    }
}

// Create a new event rule that triggers when an Amazon S3 object is created in a bucket.
suspend fun addEventRule(
    roleArnVal: String?,
    bucketName: String,
    eventRuleName: String?,
) {
    val pattern = """
    {
        "source": ["aws.s3"],
        "detail-type": ["Object Created"],
        "detail": {
            "bucket": {
                "name": ["$bucketName"]
            }
        }
    }
    """.trimIndent()

    val ruleRequest =
        PutRuleRequest {
            description = "Created by using the AWS SDK for Kotlin"
            name = eventRuleName
            eventPattern = pattern
            roleArn = roleArnVal
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val ruleResponse = eventBrClient.putRule(ruleRequest)
        println("The ARN of the new rule is ${ruleResponse.ruleArn}")
    }
}

// Set the Amazon S3 bucket notification configuration.
suspend fun setBucketNotification(bucketName: String) {
    val eventBridgeConfig =
        EventBridgeConfiguration {
        }

    val configuration =
        NotificationConfiguration {
            eventBridgeConfiguration = eventBridgeConfig
        }

    val configurationRequest =
        PutBucketNotificationConfigurationRequest {
            bucket = bucketName
            notificationConfiguration = configuration
            skipDestinationValidation = true
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3Client ->
        s3Client.putBucketNotificationConfiguration(configurationRequest)
        println("Added bucket $bucketName with EventBridge events enabled.")
    }
}

// Create an S3 bucket using a waiter.
suspend fun createBucket(bucketName: String) {
    val request =
        CreateBucketRequest {
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.createBucket(request)
        s3.waitUntilBucketExists {
            bucket = bucketName
        }
        println("$bucketName is ready")
    }
}

suspend fun checkBucket(bucketName: String?): Boolean {
    try {
        // Determine if the S3 bucket exists.
        val headBucketRequest =
            HeadBucketRequest {
                bucket = bucketName
            }

        S3Client.fromEnvironment { region = "us-east-1" }.use { s3Client ->
            s3Client.headBucket(headBucketRequest)
            return true
        }
    } catch (e: S3Exception) {
        System.err.println(e.message)
    }
    return false
}

suspend fun createIAMRole(
    rolenameVal: String?,
    polJSON: String?,
): String? {
    val request =
        CreateRoleRequest {
            roleName = rolenameVal
            assumeRolePolicyDocument = polJSON
            description = "Created using the AWS SDK for Kotlin"
        }

    val rolePolicyRequest =
        AttachRolePolicyRequest {
            roleName = rolenameVal
            policyArn = "arn:aws:iam::aws:policy/AmazonEventBridgeFullAccess"
        }

    IamClient.fromEnvironment { region = "us-east-1" }.use { iam ->
        val response = iam.createRole(request)
        iam.attachRolePolicy(rolePolicyRequest)
        return response.role?.arn
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [DeleteRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DisableRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [EnableRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListRuleNamesByTarget](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListRules](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListTargetsByRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutEvents](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutTargets](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `DeleteRule`
<a name="eventbridge_DeleteRule_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRule`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun deleteRuleByName(ruleName: String?) {
    val ruleRequest =
        DeleteRuleRequest {
            name = ruleName
        }
    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.deleteRule(ruleRequest)
        println("Successfully deleted the rule")
    }
}
```
+  Untuk detail API, lihat [DeleteRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeRule`
<a name="eventbridge_DescribeRule_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRule`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun checkRule(eventRuleName: String?) {
    val ruleRequest =
        DescribeRuleRequest {
            name = eventRuleName
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.describeRule(ruleRequest)
        println("The state of the rule is $response")
    }
}
```
+  Untuk detail API, lihat [DescribeRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DisableRule`
<a name="eventbridge_DisableRule_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableRule`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun changeRuleState(
    eventRuleName: String,
    isEnabled: Boolean?,
) {
    if (!isEnabled!!) {
        println("Disabling the rule: $eventRuleName")
        val ruleRequest =
            DisableRuleRequest {
                name = eventRuleName
            }
        EventBridgeClient { region = "us-east-1" }.use { eventBrClient ->
            eventBrClient.disableRule(ruleRequest)
        }
    } else {
        println("Enabling the rule: $eventRuleName")
        val ruleRequest =
            EnableRuleRequest {
                name = eventRuleName
            }
        EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
            eventBrClient.enableRule(ruleRequest)
        }
    }
}
```
+  Untuk detail API, lihat [DisableRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `EnableRule`
<a name="eventbridge_EnableRule_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableRule`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun changeRuleState(
    eventRuleName: String,
    isEnabled: Boolean?,
) {
    if (!isEnabled!!) {
        println("Disabling the rule: $eventRuleName")
        val ruleRequest =
            DisableRuleRequest {
                name = eventRuleName
            }
        EventBridgeClient { region = "us-east-1" }.use { eventBrClient ->
            eventBrClient.disableRule(ruleRequest)
        }
    } else {
        println("Enabling the rule: $eventRuleName")
        val ruleRequest =
            EnableRuleRequest {
                name = eventRuleName
            }
        EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
            eventBrClient.enableRule(ruleRequest)
        }
    }
}
```
+  Untuk detail API, lihat [EnableRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListRuleNamesByTarget`
<a name="eventbridge_ListRuleNamesByTarget_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRuleNamesByTarget`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun listTargetRules(topicArnVal: String?) {
    val ruleNamesByTargetRequest =
        ListRuleNamesByTargetRequest {
            targetArn = topicArnVal
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.listRuleNamesByTarget(ruleNamesByTargetRequest)
        response.ruleNames?.forEach { rule ->
            println("The rule name is $rule")
        }
    }
}
```
+  Untuk detail API, lihat [ListRuleNamesByTarget](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListRules`
<a name="eventbridge_ListRules_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRules`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun listRules() {
    val rulesRequest =
        ListRulesRequest {
            eventBusName = "default"
            limit = 10
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.listRules(rulesRequest)
        response.rules?.forEach { rule ->
            println("The rule name is ${rule.name}")
            println("The rule ARN is ${rule.arn}")
        }
    }
}
```
+  Untuk detail API, lihat [ListRules](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListTargetsByRule`
<a name="eventbridge_ListTargetsByRule_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTargetsByRule`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun listTargets(ruleName: String?) {
    val ruleRequest =
        ListTargetsByRuleRequest {
            rule = ruleName
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.listTargetsByRule(ruleRequest)
        response.targets?.forEach { target ->
            println("Target ARN: ${target.arn}")
        }
    }
}
```
+  Untuk detail API, lihat [ListTargetsByRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutEvents`
<a name="eventbridge_PutEvents_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutEvents`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun triggerCustomRule(email: String) {
    val json =
        "{" +
            "\"UserEmail\": \"" + email + "\"," +
            "\"Message\": \"This event was generated by example code.\"" +
            "\"UtcTime\": \"Now.\"" +
            "}"

    val entry =
        PutEventsRequestEntry {
            source = "ExampleSource"
            detail = json
            detailType = "ExampleType"
        }

    val eventsRequest =
        PutEventsRequest {
            this.entries = listOf(entry)
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.putEvents(eventsRequest)
    }
}
```
+  Untuk detail API, lihat [PutEvents](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutRule`
<a name="eventbridge_PutRule_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRule`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 
Buat aturan terjadwal.  

```
suspend fun createScRule(
    ruleName: String?,
    cronExpression: String?,
) {
    val ruleRequest =
        PutRuleRequest {
            name = ruleName
            eventBusName = "default"
            scheduleExpression = cronExpression
            state = RuleState.Enabled
            description = "A test rule that runs on a schedule created by the Kotlin API"
        }

    EventBridgeClient.fromEnvironment { region = "us-west-2" }.use { eventBrClient ->
        val ruleResponse = eventBrClient.putRule(ruleRequest)
        println("The ARN of the new rule is ${ruleResponse.ruleArn}")
    }
}
```
Buat aturan yang dipicu saat objek ditambahkan ke bucket Amazon Simple Storage Service.  

```
// Create a new event rule that triggers when an Amazon S3 object is created in a bucket.
suspend fun addEventRule(
    roleArnVal: String?,
    bucketName: String,
    eventRuleName: String?,
) {
    val pattern = """
    {
        "source": ["aws.s3"],
        "detail-type": ["Object Created"],
        "detail": {
            "bucket": {
                "name": ["$bucketName"]
            }
        }
    }
    """.trimIndent()

    val ruleRequest =
        PutRuleRequest {
            description = "Created by using the AWS SDK for Kotlin"
            name = eventRuleName
            eventPattern = pattern
            roleArn = roleArnVal
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val ruleResponse = eventBrClient.putRule(ruleRequest)
        println("The ARN of the new rule is ${ruleResponse.ruleArn}")
    }
}
```
+  Untuk detail API, lihat [PutRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutTargets`
<a name="eventbridge_PutTargets_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutTargets`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
// Add a rule that triggers an SNS target when a file is uploaded to an S3 bucket.
suspend fun addSnsEventRule(
    ruleName: String?,
    topicArn: String?,
    topicName: String,
    eventRuleName: String,
    bucketName: String,
) {
    val targetID = UUID.randomUUID().toString()
    val myTarget =
        Target {
            id = targetID
            arn = topicArn
        }

    val targetsOb = mutableListOf<Target>()
    targetsOb.add(myTarget)

    val request =
        PutTargetsRequest {
            eventBusName = null
            targets = targetsOb
            rule = ruleName
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.putTargets(request)
        println("Added event rule $eventRuleName with Amazon SNS target $topicName for bucket $bucketName.")
    }
}
```
Tambahkan transformator input ke target untuk aturan.  

```
suspend fun updateCustomRuleTargetWithTransform(
    topicArn: String?,
    ruleName: String?,
) {
    val targetId = UUID.randomUUID().toString()

    val inputTransformerOb =
        InputTransformer {
            inputTemplate = "\"Notification: sample event was received.\""
        }

    val target =
        Target {
            id = targetId
            arn = topicArn
            inputTransformer = inputTransformerOb
        }

    val targetsRequest =
        PutTargetsRequest {
            rule = ruleName
            targets = listOf(target)
            eventBusName = null
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        eventBrClient.putTargets(targetsRequest)
    }
}
```
+  Untuk detail API, lihat [PutTargets](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `RemoveTargets`
<a name="eventbridge_RemoveTargets_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RemoveTargets`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/eventbridge#code-examples). 

```
suspend fun deleteTargetsFromRule(eventRuleName: String?) {
    // First, get all targets that will be deleted.
    val request =
        ListTargetsByRuleRequest {
            rule = eventRuleName
        }

    EventBridgeClient.fromEnvironment { region = "us-east-1" }.use { eventBrClient ->
        val response = eventBrClient.listTargetsByRule(request)
        val allTargets = response.targets

        // Get all targets and delete them.
        if (allTargets != null) {
            for (myTarget in allTargets) {
                val removeTargetsRequest =
                    RemoveTargetsRequest {
                        rule = eventRuleName
                        ids = listOf(myTarget.id.toString())
                    }
                eventBrClient.removeTargets(removeTargetsRequest)
                println("Successfully removed the target")
            }
        }
    }
}
```
+  Untuk detail API, lihat [RemoveTargets](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# AWS Glue contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin. AWS Glue

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Buat daftar informasi tentang database dan tabel di situs Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/glue#code-examples). 

```
suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
            <iam> <s3Path> <cron> <dbName> <crawlerName> <jobName> <scriptLocation> <locationUri>

        Where:
            iam - The Amazon Resource Name (ARN) of the AWS Identity and Access Management (IAM) role that has AWS Glue and Amazon Simple Storage Service (Amazon S3) permissions.
            s3Path - The Amazon Simple Storage Service (Amazon S3) target that contains data (for example, CSV data).
            cron - A cron expression used to specify the schedule (for example, cron(15 12 * * ? *).
            dbName - The database name. 
            crawlerName - The name of the crawler. 
            jobName - The name you assign to this job definition.
            scriptLocation - Specifies the Amazon S3 path to a script that runs a job.
            locationUri - Specifies the location of the database 
        """

    if (args.size != 8) {
        println(usage)
        exitProcess(1)
    }

    val iam = args[0]
    val s3Path = args[1]
    val cron = args[2]
    val dbName = args[3]
    val crawlerName = args[4]
    val jobName = args[5]
    val scriptLocation = args[6]
    val locationUri = args[7]

    println("About to start the AWS Glue Scenario")
    createDatabase(dbName, locationUri)
    createCrawler(iam, s3Path, cron, dbName, crawlerName)
    getCrawler(crawlerName)
    startCrawler(crawlerName)
    getDatabase(dbName)
    getGlueTables(dbName)
    createJob(jobName, iam, scriptLocation)
    startJob(jobName)
    getJobs()
    getJobRuns(jobName)
    deleteJob(jobName)
    println("*** Wait for 5 MIN so the $crawlerName is ready to be deleted")
    TimeUnit.MINUTES.sleep(5)
    deleteMyDatabase(dbName)
    deleteCrawler(crawlerName)
}

suspend fun createDatabase(
    dbName: String?,
    locationUriVal: String?,
) {
    val input =
        DatabaseInput {
            description = "Built with the AWS SDK for Kotlin"
            name = dbName
            locationUri = locationUriVal
        }

    val request =
        CreateDatabaseRequest {
            databaseInput = input
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        glueClient.createDatabase(request)
        println("The database was successfully created")
    }
}

suspend fun createCrawler(
    iam: String?,
    s3Path: String?,
    cron: String?,
    dbName: String?,
    crawlerName: String,
) {
    val s3Target =
        S3Target {
            path = s3Path
        }

    val targetList = ArrayList<S3Target>()
    targetList.add(s3Target)

    val targetOb =
        CrawlerTargets {
            s3Targets = targetList
        }

    val crawlerRequest =
        CreateCrawlerRequest {
            databaseName = dbName
            name = crawlerName
            description = "Created by the AWS Glue Java API"
            targets = targetOb
            role = iam
            schedule = cron
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        glueClient.createCrawler(crawlerRequest)
        println("$crawlerName was successfully created")
    }
}

suspend fun getCrawler(crawlerName: String?) {
    val request =
        GetCrawlerRequest {
            name = crawlerName
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        val response = glueClient.getCrawler(request)
        val role = response.crawler?.role
        println("The role associated with this crawler is $role")
    }
}

suspend fun startCrawler(crawlerName: String) {
    val crawlerRequest =
        StartCrawlerRequest {
            name = crawlerName
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        glueClient.startCrawler(crawlerRequest)
        println("$crawlerName was successfully started.")
    }
}

suspend fun getDatabase(databaseName: String?) {
    val request =
        GetDatabaseRequest {
            name = databaseName
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        val response = glueClient.getDatabase(request)
        val dbDesc = response.database?.description
        println("The database description is $dbDesc")
    }
}

suspend fun getGlueTables(dbName: String?) {
    val tableRequest =
        GetTablesRequest {
            databaseName = dbName
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        val response = glueClient.getTables(tableRequest)
        response.tableList?.forEach { tableName ->
            println("Table name is ${tableName.name}")
        }
    }
}

suspend fun startJob(jobNameVal: String?) {
    val runRequest =
        StartJobRunRequest {
            workerType = WorkerType.G1X
            numberOfWorkers = 10
            jobName = jobNameVal
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        val response = glueClient.startJobRun(runRequest)
        println("The job run Id is ${response.jobRunId}")
    }
}

suspend fun createJob(
    jobName: String,
    iam: String?,
    scriptLocationVal: String?,
) {
    val commandOb =
        JobCommand {
            pythonVersion = "3"
            name = "MyJob1"
            scriptLocation = scriptLocationVal
        }

    val jobRequest =
        CreateJobRequest {
            description = "A Job created by using the AWS SDK for Java V2"
            glueVersion = "2.0"
            workerType = WorkerType.G1X
            numberOfWorkers = 10
            name = jobName
            role = iam
            command = commandOb
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        glueClient.createJob(jobRequest)
        println("$jobName was successfully created.")
    }
}

suspend fun getJobs() {
    val request =
        GetJobsRequest {
            maxResults = 10
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        val response = glueClient.getJobs(request)
        response.jobs?.forEach { job ->
            println("Job name is ${job.name}")
        }
    }
}

suspend fun getJobRuns(jobNameVal: String?) {
    val request =
        GetJobRunsRequest {
            jobName = jobNameVal
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        val response = glueClient.getJobRuns(request)
        response.jobRuns?.forEach { job ->
            println("Job name is ${job.jobName}")
        }
    }
}

suspend fun deleteJob(jobNameVal: String) {
    val jobRequest =
        DeleteJobRequest {
            jobName = jobNameVal
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        glueClient.deleteJob(jobRequest)
        println("$jobNameVal was successfully deleted")
    }
}

suspend fun deleteMyDatabase(databaseName: String) {
    val request =
        DeleteDatabaseRequest {
            name = databaseName
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        glueClient.deleteDatabase(request)
        println("$databaseName was successfully deleted")
    }
}

suspend fun deleteCrawler(crawlerName: String) {
    val request =
        DeleteCrawlerRequest {
            name = crawlerName
        }
    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        glueClient.deleteCrawler(request)
        println("$crawlerName was deleted")
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CreateCrawler](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateJob](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteCrawler](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteDatabase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteJob](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetCrawler](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetDatabase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetDatabases](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetJob](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetJobRun](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetJobRuns](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetTables](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListJobs](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartCrawler](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartJobRun](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/glue#code-examples). 

```
suspend fun createGlueCrawler(
    iam: String?,
    s3Path: String?,
    cron: String?,
    dbName: String?,
    crawlerName: String,
) {
    val s3Target =
        S3Target {
            path = s3Path
        }

    // Add the S3Target to a list.
    val targetList = mutableListOf<S3Target>()
    targetList.add(s3Target)

    val targetOb =
        CrawlerTargets {
            s3Targets = targetList
        }

    val request =
        CreateCrawlerRequest {
            databaseName = dbName
            name = crawlerName
            description = "Created by the AWS Glue Kotlin API"
            targets = targetOb
            role = iam
            schedule = cron
        }

    GlueClient.fromEnvironment { region = "us-west-2" }.use { glueClient ->
        glueClient.createCrawler(request)
        println("$crawlerName was successfully created")
    }
}
```
+  Untuk detail API, lihat [CreateCrawler](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetCrawler`
<a name="glue_GetCrawler_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/glue#code-examples). 

```
suspend fun getSpecificCrawler(crawlerName: String?) {
    val request =
        GetCrawlerRequest {
            name = crawlerName
        }
    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        val response = glueClient.getCrawler(request)
        val role = response.crawler?.role
        println("The role associated with this crawler is $role")
    }
}
```
+  Untuk detail API, lihat [GetCrawler](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetDatabase`
<a name="glue_GetDatabase_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/glue#code-examples). 

```
suspend fun getSpecificDatabase(databaseName: String?) {
    val request =
        GetDatabaseRequest {
            name = databaseName
        }

    GlueClient.fromEnvironment { region = "us-east-1" }.use { glueClient ->
        val response = glueClient.getDatabase(request)
        val dbDesc = response.database?.description
        println("The database description is $dbDesc")
    }
}
```
+  Untuk detail API, lihat [GetDatabase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `StartCrawler`
<a name="glue_StartCrawler_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/glue#code-examples). 

```
suspend fun startSpecificCrawler(crawlerName: String?) {
    val request =
        StartCrawlerRequest {
            name = crawlerName
        }

    GlueClient.fromEnvironment { region = "us-west-2" }.use { glueClient ->
        glueClient.startCrawler(request)
        println("$crawlerName was successfully started.")
    }
}
```
+  Untuk detail API, lihat [StartCrawler](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh IAM menggunakan SDK untuk Kotlin
<a name="kotlin_1_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 
Buat fungsi yang membungkus tindakan pengguna IAM.  

```
suspend fun main(args: Array<String>) {
    val usage = """
    Usage:
        <username> <policyName> <roleName> <roleSessionName> <fileLocation> <bucketName> 

    Where:
        username - The name of the IAM user to create. 
        policyName - The name of the policy to create. 
        roleName - The name of the role to create. 
        roleSessionName - The name of the session required for the assumeRole operation. 
        fileLocation - The file location to the JSON required to create the role (see Readme). 
        bucketName - The name of the Amazon S3 bucket from which objects are read. 
    """

    if (args.size != 6) {
        println(usage)
        exitProcess(1)
    }

    val userName = args[0]
    val policyName = args[1]
    val roleName = args[2]
    val roleSessionName = args[3]
    val fileLocation = args[4]
    val bucketName = args[5]

    createUser(userName)
    println("$userName was successfully created.")

    val polArn = createPolicy(policyName)
    println("The policy $polArn was successfully created.")

    val roleArn = createRole(roleName, fileLocation)
    println("$roleArn was successfully created.")
    attachRolePolicy(roleName, polArn)

    println("*** Wait for 1 MIN so the resource is available.")
    delay(60000)
    assumeGivenRole(roleArn, roleSessionName, bucketName)

    println("*** Getting ready to delete the AWS resources.")
    deleteRole(roleName, polArn)
    deleteUser(userName)
    println("This IAM Scenario has successfully completed.")
}

suspend fun createUser(usernameVal: String?): String? {
    val request =
        CreateUserRequest {
            userName = usernameVal
        }

    IamClient { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.createUser(request)
        return response.user?.userName
    }
}

suspend fun createPolicy(policyNameVal: String?): String {
    val policyDocumentValue = """
    {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Effect": "Allow",
                "Action": [
                    "s3:*"
                ],
                "Resource": "*"
            }
        ]
    }
    """.trimIndent()

    val request =
        CreatePolicyRequest {
            policyName = policyNameVal
            policyDocument = policyDocumentValue
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.createPolicy(request)
        return response.policy?.arn.toString()
    }
}

suspend fun createRole(
    rolenameVal: String?,
    fileLocation: String?,
): String? {
    val jsonObject = fileLocation?.let { readJsonSimpleDemo(it) } as JSONObject

    val request =
        CreateRoleRequest {
            roleName = rolenameVal
            assumeRolePolicyDocument = jsonObject.toJSONString()
            description = "Created using the AWS SDK for Kotlin"
        }

    IamClient { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.createRole(request)
        return response.role?.arn
    }
}

suspend fun attachRolePolicy(
    roleNameVal: String,
    policyArnVal: String,
) {
    val request =
        ListAttachedRolePoliciesRequest {
            roleName = roleNameVal
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.listAttachedRolePolicies(request)
        val attachedPolicies = response.attachedPolicies

        // Ensure that the policy is not attached to this role.
        val checkStatus: Int
        if (attachedPolicies != null) {
            checkStatus = checkMyList(attachedPolicies, policyArnVal)
            if (checkStatus == -1) {
                return
            }
        }

        val policyRequest =
            AttachRolePolicyRequest {
                roleName = roleNameVal
                policyArn = policyArnVal
            }
        iamClient.attachRolePolicy(policyRequest)
        println("Successfully attached policy $policyArnVal to role $roleNameVal")
    }
}

fun checkMyList(
    attachedPolicies: List<AttachedPolicy>,
    policyArnVal: String,
): Int {
    for (policy in attachedPolicies) {
        val polArn = policy.policyArn.toString()

        if (polArn.compareTo(policyArnVal) == 0) {
            println("The policy is already attached to this role.")
            return -1
        }
    }
    return 0
}

suspend fun assumeGivenRole(
    roleArnVal: String?,
    roleSessionNameVal: String?,
    bucketName: String,
) {
    val stsClient = StsClient.fromEnvironment { region = "us-east-1" }
    val roleRequest =
        AssumeRoleRequest {
            roleArn = roleArnVal
            roleSessionName = roleSessionNameVal
        }

    val roleResponse = stsClient.assumeRole(roleRequest)
    val myCreds = roleResponse.credentials
    val key = myCreds?.accessKeyId
    val secKey = myCreds?.secretAccessKey
    val secToken = myCreds?.sessionToken

    val staticCredentials = StaticCredentialsProvider {
        accessKeyId = key
        secretAccessKey = secKey
        sessionToken = secToken
    }

    // List all objects in an Amazon S3 bucket using the temp creds.
    val s3 = S3Client.fromEnvironment {
        region = "us-east-1"
        credentialsProvider = staticCredentials
    }

    println("Created a S3Client using temp credentials.")
    println("Listing objects in $bucketName")

    val listObjects =
        ListObjectsRequest {
            bucket = bucketName
        }

    val response = s3.listObjects(listObjects)
    response.contents?.forEach { myObject ->
        println("The name of the key is ${myObject.key}")
        println("The owner is ${myObject.owner}")
    }
}

suspend fun deleteRole(
    roleNameVal: String,
    polArn: String,
) {
    val iam = IamClient.fromEnvironment { region = "AWS_GLOBAL" }

    // First the policy needs to be detached.
    val rolePolicyRequest =
        DetachRolePolicyRequest {
            policyArn = polArn
            roleName = roleNameVal
        }

    iam.detachRolePolicy(rolePolicyRequest)

    // Delete the policy.
    val request =
        DeletePolicyRequest {
            policyArn = polArn
        }

    iam.deletePolicy(request)
    println("*** Successfully deleted $polArn")

    // Delete the role.
    val roleRequest =
        DeleteRoleRequest {
            roleName = roleNameVal
        }

    iam.deleteRole(roleRequest)
    println("*** Successfully deleted $roleNameVal")
}

suspend fun deleteUser(userNameVal: String) {
    val iam = IamClient.fromEnvironment { region = "AWS_GLOBAL" }
    val request =
        DeleteUserRequest {
            userName = userNameVal
        }

    iam.deleteUser(request)
    println("*** Successfully deleted $userNameVal")
}

@Throws(java.lang.Exception::class)
fun readJsonSimpleDemo(filename: String): Any? {
    val reader = FileReader(filename)
    val jsonParser = JSONParser()
    return jsonParser.parse(reader)
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Kotlin*.
  + [AttachRolePolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateAccessKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreatePolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateRole](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateUser](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteAccessKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeletePolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteRole](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteUser](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteUserPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DetachRolePolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutUserPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun attachIAMRolePolicy(
    roleNameVal: String,
    policyArnVal: String,
) {
    val request =
        ListAttachedRolePoliciesRequest {
            roleName = roleNameVal
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.listAttachedRolePolicies(request)
        val attachedPolicies = response.attachedPolicies

        // Ensure that the policy is not attached to this role.
        val checkStatus: Int
        if (attachedPolicies != null) {
            checkStatus = checkList(attachedPolicies, policyArnVal)
            if (checkStatus == -1) {
                return
            }
        }

        val policyRequest =
            AttachRolePolicyRequest {
                roleName = roleNameVal
                policyArn = policyArnVal
            }
        iamClient.attachRolePolicy(policyRequest)
        println("Successfully attached policy $policyArnVal to role $roleNameVal")
    }
}

fun checkList(
    attachedPolicies: List<AttachedPolicy>,
    policyArnVal: String,
): Int {
    for (policy in attachedPolicies) {
        val polArn = policy.policyArn.toString()

        if (polArn.compareTo(policyArnVal) == 0) {
            println("The policy is already attached to this role.")
            return -1
        }
    }
    return 0
}
```
+  Untuk detail API, lihat [AttachRolePolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun createIAMAccessKey(user: String?): String {
    val request =
        CreateAccessKeyRequest {
            userName = user
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.createAccessKey(request)
        return response.accessKey?.accessKeyId.toString()
    }
}
```
+  Untuk detail API, lihat [CreateAccessKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateAccountAlias`
<a name="iam_CreateAccountAlias_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccountAlias`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun createIAMAccountAlias(alias: String) {
    val request =
        CreateAccountAliasRequest {
            accountAlias = alias
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        iamClient.createAccountAlias(request)
        println("Successfully created account alias named $alias")
    }
}
```
+  Untuk detail API, lihat [CreateAccountAlias](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun createIAMPolicy(policyNameVal: String?): String {
    val policyDocumentVal = """
    {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Effect": "Allow",
                "Action": [
                    "dynamodb:DeleteItem",
                    "dynamodb:GetItem",
                    "dynamodb:PutItem",
                    "dynamodb:Scan",
                    "dynamodb:UpdateItem"
                ],
                "Resource": "*"
            }
        ]
    }
    """.trimIndent()

    val request =
        CreatePolicyRequest {
            policyName = policyNameVal
            policyDocument = policyDocumentVal
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.createPolicy(request)
        return response.policy?.arn.toString()
    }
}
```
+  Untuk detail API, lihat [CreatePolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateUser`
<a name="iam_CreateUser_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun createIAMUser(usernameVal: String?): String? {
    val request =
        CreateUserRequest {
            userName = usernameVal
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.createUser(request)
        return response.user?.userName
    }
}
```
+  Untuk detail API, lihat [CreateUser](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun deleteKey(
    userNameVal: String,
    accessKey: String,
) {
    val request =
        DeleteAccessKeyRequest {
            accessKeyId = accessKey
            userName = userNameVal
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        iamClient.deleteAccessKey(request)
        println("Successfully deleted access key $accessKey from $userNameVal")
    }
}
```
+  Untuk detail API, lihat [DeleteAccessKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteAccountAlias`
<a name="iam_DeleteAccountAlias_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccountAlias`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun deleteIAMAccountAlias(alias: String) {
    val request =
        DeleteAccountAliasRequest {
            accountAlias = alias
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        iamClient.deleteAccountAlias(request)
        println("Successfully deleted account alias $alias")
    }
}
```
+  Untuk detail API, lihat [DeleteAccountAlias](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun deleteIAMPolicy(policyARNVal: String?) {
    val request =
        DeletePolicyRequest {
            policyArn = policyARNVal
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        iamClient.deletePolicy(request)
        println("Successfully deleted $policyARNVal")
    }
}
```
+  Untuk detail API, lihat [DeletePolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteUser`
<a name="iam_DeleteUser_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun deleteIAMUser(userNameVal: String) {
    val request =
        DeleteUserRequest {
            userName = userNameVal
        }

    // To delete a user, ensure that the user's access keys are deleted first.
    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        iamClient.deleteUser(request)
        println("Successfully deleted user $userNameVal")
    }
}
```
+  Untuk detail API, lihat [DeleteUser](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun detachPolicy(
    roleNameVal: String,
    policyArnVal: String,
) {
    val request =
        DetachRolePolicyRequest {
            roleName = roleNameVal
            policyArn = policyArnVal
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        iamClient.detachRolePolicy(request)
        println("Successfully detached policy $policyArnVal from role $roleNameVal")
    }
}
```
+  Untuk detail API, lihat [DetachRolePolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetPolicy`
<a name="iam_GetPolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun getIAMPolicy(policyArnVal: String?) {
    val request =
        GetPolicyRequest {
            policyArn = policyArnVal
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.getPolicy(request)
        println("Successfully retrieved policy ${response.policy?.policyName}")
    }
}
```
+  Untuk detail API, lihat [GetPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun listKeys(userNameVal: String?) {
    val request =
        ListAccessKeysRequest {
            userName = userNameVal
        }
    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.listAccessKeys(request)
        response.accessKeyMetadata?.forEach { md ->
            println("Retrieved access key ${md.accessKeyId}")
        }
    }
}
```
+  Untuk detail API, lihat [ListAccessKeys](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListAccountAliases`
<a name="iam_ListAccountAliases_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccountAliases`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun listAliases() {
    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.listAccountAliases(ListAccountAliasesRequest {})
        response.accountAliases?.forEach { alias ->
            println("Retrieved account alias $alias")
        }
    }
}
```
+  Untuk detail API, lihat [ListAccountAliases](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListUsers`
<a name="iam_ListUsers_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun listAllUsers() {
    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.listUsers(ListUsersRequest { })
        response.users?.forEach { user ->
            println("Retrieved user ${user.userName}")
            val permissionsBoundary = user.permissionsBoundary
            if (permissionsBoundary != null) {
                println("Permissions boundary details ${permissionsBoundary.permissionsBoundaryType}")
            }
        }
    }
}
```
+  Untuk detail API, lihat [ListUsers](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `UpdateUser`
<a name="iam_UpdateUser_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUser`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iam#code-examples). 

```
suspend fun updateIAMUser(
    curName: String?,
    newName: String?,
) {
    val request =
        UpdateUserRequest {
            userName = curName
            newUserName = newName
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        iamClient.updateUser(request)
        println("Successfully updated user to $newName")
    }
}
```
+  Untuk detail API, lihat [UpdateUser](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# AWS IoT contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_iot_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin with. AWS IoT

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT
<a name="iot_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
import aws.sdk.kotlin.services.iot.IotClient
import aws.sdk.kotlin.services.iot.model.ListThingsRequest

suspend fun main() {
    println("A listing of your AWS IoT Things:")
    listAllThings()
}

suspend fun listAllThings() {
    val thingsRequest =
        ListThingsRequest {
            maxResults = 10
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val response = iotClient.listThings(thingsRequest)
        val thingList = response.things
        if (thingList != null) {
            for (attribute in thingList) {
                println("Thing name ${attribute.thingName}")
                println("Thing ARN: ${attribute.thingArn}")
            }
        }
    }
}
```
+  Untuk detail API, lihat [ListThings](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iot_Scenario_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat AWS IoT Sesuatu.
+ Hasilkan sertifikat perangkat.
+ Perbarui AWS IoT Sesuatu dengan Atribut.
+ Kembalikan titik akhir yang unik.
+ Buat daftar AWS IoT sertifikat Anda.
+ Perbarui AWS IoT bayangan.
+ Tuliskan informasi negara.
+ Membuat aturan.
+ Buat daftar aturan Anda.
+ Cari sesuatu menggunakan nama Thing.
+ Hapus AWS IoT sesuatu.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
import aws.sdk.kotlin.services.iot.IotClient
import aws.sdk.kotlin.services.iot.model.Action
import aws.sdk.kotlin.services.iot.model.AttachThingPrincipalRequest
import aws.sdk.kotlin.services.iot.model.AttributePayload
import aws.sdk.kotlin.services.iot.model.CreateThingRequest
import aws.sdk.kotlin.services.iot.model.CreateTopicRuleRequest
import aws.sdk.kotlin.services.iot.model.DeleteCertificateRequest
import aws.sdk.kotlin.services.iot.model.DeleteThingRequest
import aws.sdk.kotlin.services.iot.model.DescribeEndpointRequest
import aws.sdk.kotlin.services.iot.model.DescribeThingRequest
import aws.sdk.kotlin.services.iot.model.DetachThingPrincipalRequest
import aws.sdk.kotlin.services.iot.model.ListTopicRulesRequest
import aws.sdk.kotlin.services.iot.model.SearchIndexRequest
import aws.sdk.kotlin.services.iot.model.SnsAction
import aws.sdk.kotlin.services.iot.model.TopicRulePayload
import aws.sdk.kotlin.services.iot.model.UpdateThingRequest
import aws.sdk.kotlin.services.iotdataplane.IotDataPlaneClient
import aws.sdk.kotlin.services.iotdataplane.model.GetThingShadowRequest
import aws.sdk.kotlin.services.iotdataplane.model.UpdateThingShadowRequest
import aws.smithy.kotlin.runtime.content.ByteStream
import aws.smithy.kotlin.runtime.content.toByteArray
import java.util.Scanner
import java.util.regex.Pattern
import kotlin.system.exitProcess

/**
 * Before running this Kotlin code example, ensure that your development environment
 * is set up, including configuring your credentials.
 *
 * For detailed instructions, refer to the following documentation topic:
 * [Setting Up Your Development Environment](https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html)
 *
 * This code example requires an SNS topic and an IAM Role.
 * Follow the steps in the documentation to set up these resources:
 *
 * - [Creating an SNS Topic](https://docs.aws.amazon.com/sns/latest/dg/sns-getting-started.html#step-create-topic)
 * - [Creating an IAM Role](https://docs.aws.amazon.com/IAM/latest/UserGuide/id_roles_create.html)
 */

val DASHES = String(CharArray(80)).replace("\u0000", "-")
val TOPIC = "your-iot-topic"

suspend fun main(args: Array<String>) {
    val usage =
        """
        Usage:
            <roleARN> <snsAction> 

        Where:
            roleARN - The ARN of an IAM role that has permission to work with AWS IOT.
            snsAction  - An ARN of an SNS topic.
        
        """.trimIndent()

    if (args.size != 2) {
        println(usage)
        exitProcess(1)
    }

    var thingName: String
    val roleARN = args[0]
    val snsAction = args[1]
    val scanner = Scanner(System.`in`)

    println(DASHES)
    println("Welcome to the AWS IoT example scenario.")
    println(
        """
        This example program demonstrates various interactions with the AWS Internet of Things (IoT) Core service. 
        The program guides you through a series of steps, including creating an IoT thing, generating a device certificate, 
        updating the thing with attributes, and so on. 
        
        It utilizes the AWS SDK for Kotlin and incorporates functionality for creating and managing IoT things, certificates, rules, 
        shadows, and performing searches. The program aims to showcase AWS IoT capabilities and provides a comprehensive example for 
        developers working with AWS IoT in a Kotlin environment.
        """.trimIndent(),
    )

    print("Press Enter to continue...")
    scanner.nextLine()
    println(DASHES)

    println(DASHES)
    println("1. Create an AWS IoT thing.")
    println(
        """
        An AWS IoT thing represents a virtual entity in the AWS IoT service that can be associated with a physical device.
        """.trimIndent(),
    )
    // Prompt the user for input.
    print("Enter thing name: ")
    thingName = scanner.nextLine()
    createIoTThing(thingName)
    describeThing(thingName)
    println(DASHES)

    println(DASHES)
    println("2. Generate a device certificate.")
    println(
        """
        A device certificate performs a role in securing the communication between devices (things) and the AWS IoT platform.
        """.trimIndent(),
    )

    print("Do you want to create a certificate for $thingName? (y/n)")
    val certAns = scanner.nextLine()
    var certificateArn: String? = ""
    if (certAns != null && certAns.trim { it <= ' ' }.equals("y", ignoreCase = true)) {
        certificateArn = createCertificate()
        println("Attach the certificate to the AWS IoT thing.")
        attachCertificateToThing(thingName, certificateArn)
    } else {
        println("A device certificate was not created.")
    }
    println(DASHES)

    println(DASHES)
    println("3. Update an AWS IoT thing with Attributes.")
    println(
        """
        IoT thing attributes, represented as key-value pairs, offer a pivotal advantage in facilitating efficient data 
        management and retrieval within the AWS IoT ecosystem. 
        """.trimIndent(),
    )
    print("Press Enter to continue...")
    scanner.nextLine()
    updateThing(thingName)
    println(DASHES)

    println(DASHES)
    println("4. Return a unique endpoint specific to the Amazon Web Services account.")
    println(
        """
        An IoT Endpoint refers to a specific URL or Uniform Resource Locator that serves as the entry point for communication between IoT devices and the AWS IoT service.
        """.trimIndent(),
    )
    print("Press Enter to continue...")
    scanner.nextLine()
    val endpointUrl = describeEndpoint()
    println(DASHES)

    println(DASHES)
    println("5. List your AWS IoT certificates")
    print("Press Enter to continue...")
    scanner.nextLine()
    if (certificateArn!!.isNotEmpty()) {
        listCertificates()
    } else {
        println("You did not create a certificates. Skipping this step.")
    }
    println(DASHES)

    println(DASHES)
    println("6. Create an IoT shadow that refers to a digital representation or virtual twin of a physical IoT device")
    println(
        """
        A thing shadow refers to a feature that enables you to create a virtual representation, or "shadow," 
        of a physical device or thing. The thing shadow allows you to synchronize and control the state of a device between 
        the cloud and the device itself. and the AWS IoT service. For example, you can write and retrieve JSON data from a thing shadow. 
        
        """.trimIndent(),
    )
    print("Press Enter to continue...")
    scanner.nextLine()
    updateShawdowThing(thingName)
    println(DASHES)

    println(DASHES)
    println("7. Write out the state information, in JSON format.")
    print("Press Enter to continue...")
    scanner.nextLine()
    getPayload(thingName)
    println(DASHES)

    println(DASHES)
    println("8. Creates a rule")
    println(
        """
        Creates a rule that is an administrator-level action. 
        Any user who has permission to create rules will be able to access data processed by the rule.
        """.trimIndent(),
    )
    print("Enter Rule name: ")
    val ruleName = scanner.nextLine()
    createIoTRule(roleARN, ruleName, snsAction)
    println(DASHES)

    println(DASHES)
    println("9. List your rules.")
    print("Press Enter to continue...")
    scanner.nextLine()
    listIoTRules()
    println(DASHES)

    println(DASHES)
    println("10. Search things using the name.")
    print("Press Enter to continue...")
    scanner.nextLine()
    val queryString = "thingName:$thingName"
    searchThings(queryString)
    println(DASHES)

    println(DASHES)
    if (certificateArn.length > 0) {
        print("Do you want to detach and delete the certificate for $thingName? (y/n)")
        val delAns = scanner.nextLine()
        if (delAns != null && delAns.trim { it <= ' ' }.equals("y", ignoreCase = true)) {
            println("11. You selected to detach amd delete the certificate.")
            print("Press Enter to continue...")
            scanner.nextLine()
            detachThingPrincipal(thingName, certificateArn)
            deleteCertificate(certificateArn)
        } else {
            println("11. You selected not to delete the certificate.")
        }
    } else {
        println("11. You did not create a certificate so there is nothing to delete.")
    }
    println(DASHES)

    println(DASHES)
    println("12. Delete the AWS IoT thing.")
    print("Do you want to delete the IoT thing? (y/n)")
    val delAns = scanner.nextLine()
    if (delAns != null && delAns.trim { it <= ' ' }.equals("y", ignoreCase = true)) {
        deleteIoTThing(thingName)
    } else {
        println("The IoT thing was not deleted.")
    }
    println(DASHES)

    println(DASHES)
    println("The AWS IoT workflow has successfully completed.")
    println(DASHES)
}

suspend fun deleteIoTThing(thingNameVal: String) {
    val deleteThingRequest =
        DeleteThingRequest {
            thingName = thingNameVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.deleteThing(deleteThingRequest)
        println("Deleted $thingNameVal")
    }
}

suspend fun deleteCertificate(certificateArn: String) {
    val certificateProviderRequest =
        DeleteCertificateRequest {
            certificateId = extractCertificateId(certificateArn)
        }
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.deleteCertificate(certificateProviderRequest)
        println("$certificateArn was successfully deleted.")
    }
}

private fun extractCertificateId(certificateArn: String): String? {
    // Example ARN: arn:aws:iot:region:account-id:cert/certificate-id.
    val arnParts = certificateArn.split(":".toRegex()).dropLastWhile { it.isEmpty() }.toTypedArray()
    val certificateIdPart = arnParts[arnParts.size - 1]
    return certificateIdPart.substring(certificateIdPart.lastIndexOf("/") + 1)
}

suspend fun detachThingPrincipal(
    thingNameVal: String,
    certificateArn: String,
) {
    val thingPrincipalRequest =
        DetachThingPrincipalRequest {
            principal = certificateArn
            thingName = thingNameVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.detachThingPrincipal(thingPrincipalRequest)
        println("$certificateArn was successfully removed from $thingNameVal")
    }
}

suspend fun searchThings(queryStringVal: String?) {
    val searchIndexRequest =
        SearchIndexRequest {
            queryString = queryStringVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val searchIndexResponse = iotClient.searchIndex(searchIndexRequest)
        if (searchIndexResponse.things?.isEmpty() == true) {
            println("No things found.")
        } else {
            searchIndexResponse.things
                ?.forEach { thing -> println("Thing id found using search is ${thing.thingId}") }
        }
    }
}

suspend fun listIoTRules() {
    val listTopicRulesRequest = ListTopicRulesRequest {}

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val listTopicRulesResponse = iotClient.listTopicRules(listTopicRulesRequest)
        println("List of IoT rules:")
        val ruleList = listTopicRulesResponse.rules
        ruleList?.forEach { rule ->
            println("Rule name: ${rule.ruleName}")
            println("Rule ARN: ${rule.ruleArn}")
            println("--------------")
        }
    }
}

suspend fun createIoTRule(
    roleARNVal: String?,
    ruleNameVal: String?,
    action: String?,
) {
    val sqlVal = "SELECT * FROM '$TOPIC '"
    val action1 =
        SnsAction {
            targetArn = action
            roleArn = roleARNVal
        }

    val myAction =
        Action {
            sns = action1
        }

    val topicRulePayloadVal =
        TopicRulePayload {
            sql = sqlVal
            actions = listOf(myAction)
        }

    val topicRuleRequest =
        CreateTopicRuleRequest {
            ruleName = ruleNameVal
            topicRulePayload = topicRulePayloadVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.createTopicRule(topicRuleRequest)
        println("IoT rule created successfully.")
    }
}

suspend fun getPayload(thingNameVal: String?) {
    val getThingShadowRequest =
        GetThingShadowRequest {
            thingName = thingNameVal
        }

    IotDataPlaneClient.fromEnvironment { region = "us-east-1" }.use { iotPlaneClient ->
        val getThingShadowResponse = iotPlaneClient.getThingShadow(getThingShadowRequest)
        val payload = getThingShadowResponse.payload
        val payloadString = payload?.let { java.lang.String(it, Charsets.UTF_8) }
        println("Received shadow data: $payloadString")
    }
}

suspend fun listCertificates() {
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val response = iotClient.listCertificates()
        val certList = response.certificates
        certList?.forEach { cert ->
            println("Cert id: ${cert.certificateId}")
            println("Cert Arn: ${cert.certificateArn}")
        }
    }
}

suspend fun describeEndpoint(): String? {
    val request = DescribeEndpointRequest {}
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val endpointResponse = iotClient.describeEndpoint(request)
        val endpointUrl: String? = endpointResponse.endpointAddress
        val exString: String = getValue(endpointUrl)
        val fullEndpoint = "https://$exString-ats.iot.us-east-1.amazonaws.com"
        println("Full endpoint URL: $fullEndpoint")
        return fullEndpoint
    }
}

private fun getValue(input: String?): String {
    // Define a regular expression pattern for extracting the subdomain.
    val pattern = Pattern.compile("^(.*?)\\.iot\\.us-east-1\\.amazonaws\\.com")

    // Match the pattern against the input string.
    val matcher = pattern.matcher(input)

    // Check if a match is found.
    if (matcher.find()) {
        val subdomain = matcher.group(1)
        println("Extracted subdomain: $subdomain")
        return subdomain
    } else {
        println("No match found")
    }
    return ""
}

suspend fun updateThing(thingNameVal: String?) {
    val newLocation = "Office"
    val newFirmwareVersion = "v2.0"
    val attMap: MutableMap<String, String> = HashMap()
    attMap["location"] = newLocation
    attMap["firmwareVersion"] = newFirmwareVersion

    val attributePayloadVal =
        AttributePayload {
            attributes = attMap
        }

    val updateThingRequest =
        UpdateThingRequest {
            thingName = thingNameVal
            attributePayload = attributePayloadVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        // Update the IoT thing attributes.
        iotClient.updateThing(updateThingRequest)
        println("$thingNameVal attributes updated successfully.")
    }
}

suspend fun updateShawdowThing(thingNameVal: String?) {
    // Create the thing shadow state document.
    val stateDocument = "{\"state\":{\"reported\":{\"temperature\":25, \"humidity\":50}}}"
    val byteStream: ByteStream = ByteStream.fromString(stateDocument)
    val byteArray: ByteArray = byteStream.toByteArray()

    val updateThingShadowRequest =
        UpdateThingShadowRequest {
            thingName = thingNameVal
            payload = byteArray
        }

    IotDataPlaneClient.fromEnvironment { region = "us-east-1" }.use { iotPlaneClient ->
        iotPlaneClient.updateThingShadow(updateThingShadowRequest)
        println("The thing shadow was updated successfully.")
    }
}

suspend fun attachCertificateToThing(
    thingNameVal: String?,
    certificateArn: String?,
) {
    val principalRequest =
        AttachThingPrincipalRequest {
            thingName = thingNameVal
            principal = certificateArn
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.attachThingPrincipal(principalRequest)
        println("Certificate attached to $thingNameVal successfully.")
    }
}

suspend fun describeThing(thingNameVal: String) {
    val thingRequest =
        DescribeThingRequest {
            thingName = thingNameVal
        }

    // Print Thing details.
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val describeResponse = iotClient.describeThing(thingRequest)
        println("Thing details:")
        println("Thing name: ${describeResponse.thingName}")
        println("Thing ARN:  ${describeResponse.thingArn}")
    }
}

suspend fun createCertificate(): String? {
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val response = iotClient.createKeysAndCertificate()
        val certificatePem = response.certificatePem
        val certificateArn = response.certificateArn

        // Print the details.
        println("\nCertificate:")
        println(certificatePem)
        println("\nCertificate ARN:")
        println(certificateArn)
        return certificateArn
    }
}

suspend fun createIoTThing(thingNameVal: String) {
    val createThingRequest =
        CreateThingRequest {
            thingName = thingNameVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.createThing(createThingRequest)
        println("Created $thingNameVal}")
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [AttachThingPrincipal](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateKeysAndCertificate](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateThing](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateTopicRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteCertificate](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteThing](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteTopicRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeEndpoint](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeThing](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DetachThingPrincipal](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListCertificates](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListThings](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [SearchIndex](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UpdateIndexingConfiguration](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UpdateThing](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `AttachThingPrincipal`
<a name="iot_AttachThingPrincipal_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachThingPrincipal`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun attachCertificateToThing(
    thingNameVal: String?,
    certificateArn: String?,
) {
    val principalRequest =
        AttachThingPrincipalRequest {
            thingName = thingNameVal
            principal = certificateArn
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.attachThingPrincipal(principalRequest)
        println("Certificate attached to $thingNameVal successfully.")
    }
}
```
+  Untuk detail API, lihat [AttachThingPrincipal](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateKeysAndCertificate`
<a name="iot_CreateKeysAndCertificate_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeysAndCertificate`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun createCertificate(): String? {
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val response = iotClient.createKeysAndCertificate()
        val certificatePem = response.certificatePem
        val certificateArn = response.certificateArn

        // Print the details.
        println("\nCertificate:")
        println(certificatePem)
        println("\nCertificate ARN:")
        println(certificateArn)
        return certificateArn
    }
}
```
+  Untuk detail API, lihat [CreateKeysAndCertificate](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateThing`
<a name="iot_CreateThing_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateThing`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun createIoTThing(thingNameVal: String) {
    val createThingRequest =
        CreateThingRequest {
            thingName = thingNameVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.createThing(createThingRequest)
        println("Created $thingNameVal}")
    }
}
```
+  Untuk detail API, lihat [CreateThing](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateTopicRule`
<a name="iot_CreateTopicRule_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopicRule`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun createIoTRule(
    roleARNVal: String?,
    ruleNameVal: String?,
    action: String?,
) {
    val sqlVal = "SELECT * FROM '$TOPIC '"
    val action1 =
        SnsAction {
            targetArn = action
            roleArn = roleARNVal
        }

    val myAction =
        Action {
            sns = action1
        }

    val topicRulePayloadVal =
        TopicRulePayload {
            sql = sqlVal
            actions = listOf(myAction)
        }

    val topicRuleRequest =
        CreateTopicRuleRequest {
            ruleName = ruleNameVal
            topicRulePayload = topicRulePayloadVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.createTopicRule(topicRuleRequest)
        println("IoT rule created successfully.")
    }
}
```
+  Untuk detail API, lihat [CreateTopicRule](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteCertificate`
<a name="iot_DeleteCertificate_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun deleteCertificate(certificateArn: String) {
    val certificateProviderRequest =
        DeleteCertificateRequest {
            certificateId = extractCertificateId(certificateArn)
        }
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.deleteCertificate(certificateProviderRequest)
        println("$certificateArn was successfully deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteCertificate](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteThing`
<a name="iot_DeleteThing_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteThing`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun deleteIoTThing(thingNameVal: String) {
    val deleteThingRequest =
        DeleteThingRequest {
            thingName = thingNameVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.deleteThing(deleteThingRequest)
        println("Deleted $thingNameVal")
    }
}
```
+  Untuk detail API, lihat [DeleteThing](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeEndpoint`
<a name="iot_DescribeEndpoint_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeEndpoint`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun describeEndpoint(): String? {
    val request = DescribeEndpointRequest {}
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val endpointResponse = iotClient.describeEndpoint(request)
        val endpointUrl: String? = endpointResponse.endpointAddress
        val exString: String = getValue(endpointUrl)
        val fullEndpoint = "https://$exString-ats.iot.us-east-1.amazonaws.com"
        println("Full endpoint URL: $fullEndpoint")
        return fullEndpoint
    }
}
```
+  Untuk detail API, lihat [DescribeEndpoint](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeThing`
<a name="iot_DescribeThing_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeThing`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun describeThing(thingNameVal: String) {
    val thingRequest =
        DescribeThingRequest {
            thingName = thingNameVal
        }

    // Print Thing details.
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val describeResponse = iotClient.describeThing(thingRequest)
        println("Thing details:")
        println("Thing name: ${describeResponse.thingName}")
        println("Thing ARN:  ${describeResponse.thingArn}")
    }
}
```
+  Untuk detail API, lihat [DescribeThing](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DetachThingPrincipal`
<a name="iot_DetachThingPrincipal_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachThingPrincipal`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun detachThingPrincipal(
    thingNameVal: String,
    certificateArn: String,
) {
    val thingPrincipalRequest =
        DetachThingPrincipalRequest {
            principal = certificateArn
            thingName = thingNameVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        iotClient.detachThingPrincipal(thingPrincipalRequest)
        println("$certificateArn was successfully removed from $thingNameVal")
    }
}
```
+  Untuk detail API, lihat [DetachThingPrincipal](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListCertificates`
<a name="iot_ListCertificates_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun listCertificates() {
    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val response = iotClient.listCertificates()
        val certList = response.certificates
        certList?.forEach { cert ->
            println("Cert id: ${cert.certificateId}")
            println("Cert Arn: ${cert.certificateArn}")
        }
    }
}
```
+  Untuk detail API, lihat [ListCertificates](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `SearchIndex`
<a name="iot_SearchIndex_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchIndex`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun searchThings(queryStringVal: String?) {
    val searchIndexRequest =
        SearchIndexRequest {
            queryString = queryStringVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        val searchIndexResponse = iotClient.searchIndex(searchIndexRequest)
        if (searchIndexResponse.things?.isEmpty() == true) {
            println("No things found.")
        } else {
            searchIndexResponse.things
                ?.forEach { thing -> println("Thing id found using search is ${thing.thingId}") }
        }
    }
}
```
+  Untuk detail API, lihat [SearchIndex](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `UpdateThing`
<a name="iot_UpdateThing_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateThing`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun updateThing(thingNameVal: String?) {
    val newLocation = "Office"
    val newFirmwareVersion = "v2.0"
    val attMap: MutableMap<String, String> = HashMap()
    attMap["location"] = newLocation
    attMap["firmwareVersion"] = newFirmwareVersion

    val attributePayloadVal =
        AttributePayload {
            attributes = attMap
        }

    val updateThingRequest =
        UpdateThingRequest {
            thingName = thingNameVal
            attributePayload = attributePayloadVal
        }

    IotClient.fromEnvironment { region = "us-east-1" }.use { iotClient ->
        // Update the IoT thing attributes.
        iotClient.updateThing(updateThingRequest)
        println("$thingNameVal attributes updated successfully.")
    }
}
```
+  Untuk detail API, lihat [UpdateThing](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# AWS IoT data contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_iot-data-plane_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin with. AWS IoT data

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetThingShadow`
<a name="iot-data-plane_GetThingShadow_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetThingShadow`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun getPayload(thingNameVal: String?) {
    val getThingShadowRequest =
        GetThingShadowRequest {
            thingName = thingNameVal
        }

    IotDataPlaneClient.fromEnvironment { region = "us-east-1" }.use { iotPlaneClient ->
        val getThingShadowResponse = iotPlaneClient.getThingShadow(getThingShadowRequest)
        val payload = getThingShadowResponse.payload
        val payloadString = payload?.let { java.lang.String(it, Charsets.UTF_8) }
        println("Received shadow data: $payloadString")
    }
}
```
+  Untuk detail API, lihat [GetThingShadow](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `UpdateThingShadow`
<a name="iot-data-plane_UpdateThingShadow_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateThingShadow`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iot#code-examples). 

```
suspend fun updateShawdowThing(thingNameVal: String?) {
    // Create the thing shadow state document.
    val stateDocument = "{\"state\":{\"reported\":{\"temperature\":25, \"humidity\":50}}}"
    val byteStream: ByteStream = ByteStream.fromString(stateDocument)
    val byteArray: ByteArray = byteStream.toByteArray()

    val updateThingShadowRequest =
        UpdateThingShadowRequest {
            thingName = thingNameVal
            payload = byteArray
        }

    IotDataPlaneClient.fromEnvironment { region = "us-east-1" }.use { iotPlaneClient ->
        iotPlaneClient.updateThingShadow(updateThingShadowRequest)
        println("The thing shadow was updated successfully.")
    }
}
```
+  Untuk detail API, lihat [UpdateThingShadow](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# AWS IoT FleetWise contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_iotfleetwise_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin with. AWS IoT FleetWise

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT FleetWise
<a name="iotfleetwise_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT FleetWise.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */
suspend fun main() {
    listSignalCatalogs()
}

/**
 * Lists the AWS FleetWise Signal Catalogs associated with the current AWS account.
 */
suspend fun listSignalCatalogs() {
    val request = ListSignalCatalogsRequest {
        maxResults = 10
    }

    IotFleetWiseClient { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.listSignalCatalogs(request)
        val summaries = response.summaries

        if (summaries.isNullOrEmpty()) {
            println("No AWS FleetWise Signal Catalogs were found.")
        } else {
            summaries.forEach { summary ->
                with(summary) {
                    println("Catalog Name: $name")
                    println("ARN: $arn")
                    println("Created: $creationTime")
                    println("Last Modified: $lastModificationTime")
                    println("---------------")
                }
            }
        }
    }
}
```
+  Untuk detail API, lihat [listSignalCatalogsPaginator](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iotfleetwise_Scenario_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat kumpulan sinyal standar.
+ Buat armada yang mewakili sekelompok kendaraan.
+ Buat manifes model.
+ Buat manifes decoder.
+ Periksa status manifes model.
+ Periksa status decoder.
+ Buat IoT Thing.
+ Buat kendaraan.
+ Tampilkan detail kendaraan.
+ Hapus AWS IoT FleetWise Aset.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS IoT SiteWise fitur.  

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */
var scanner = Scanner(System.`in`)
val DASHES = String(CharArray(80)).replace("\u0000", "-")
suspend fun main(args: Array<String>) {
    val usage =
        """
        Usage:
            <signalCatalogName> <manifestName> <fleetId> <vecName> <decName>
                        
        Where:
            signalCatalogName     - The name of the Signal Catalog to create (eg, catalog30).
            manifestName          - The name of the Vehicle Model (Model Manifest) to create (eg, manifest30).
            fleetId               - The ID of the Fleet to create (eg, fleet30).
            vecName               - The name of the Vehicle to create (eg, vehicle30).
            decName               - The name of the Decoder Manifest to create (eg, decManifest30).
                        
        """.trimIndent()

    if (args.size != 5) {
        println(usage)
        return
    }

    val signalCatalogName = args[0]
    val manifestName = args[1]
    val fleetId = args[2]
    val vecName = args[3]
    val decName = args[4]

    println(
        """
        AWS IoT FleetWise is a managed service that simplifies the 
        process of collecting, organizing, and transmitting vehicle 
        data to the cloud in near real-time. Designed for automakers 
        and fleet operators, it allows you to define vehicle models, 
        specify the exact data you want to collect (such as engine 
        temperature, speed, or battery status), and send this data to 
        AWS for analysis. By using intelligent data collection 
        techniques, IoT FleetWise reduces the volume of data 
        transmitted by filtering and transforming it at the edge, 
        helping to minimize bandwidth usage and costs. 
                
        At its core, AWS IoT FleetWise helps organizations build 
        scalable systems for vehicle data management and analytics, 
        supporting a wide variety of vehicles and sensor configurations. 
        You can define signal catalogs and decoder manifests that describe 
        how raw CAN bus signals are translated into readable data, making 
        the platform highly flexible and extensible. This allows 
        manufacturers to optimize vehicle performance, improve safety, 
        and reduce maintenance costs by gaining real-time visibility 
        into fleet operations. 
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    println(DASHES)
    runScenario(signalCatalogName, fleetId, manifestName, decName, vecName)
}

suspend fun runScenario(signalCatalogName: String, fleetIdVal: String, manifestName: String, decName: String, vecName: String) {
    println(DASHES)
    println("1. Creates a collection of standardized signals that can be reused to create vehicle models")
    waitForInputToContinue(scanner)
    val signalCatalogArn = createbranchVehicle(signalCatalogName)
    println("The collection ARN is $signalCatalogArn")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("2. Create a fleet that represents a group of vehicles")
    println(
        """
        Creating an IoT FleetWise fleet allows you to efficiently collect, 
        organize, and transfer vehicle data to the cloud, enabling real-time 
        insights into vehicle performance and health. 
                
        It helps reduce data costs by allowing you to filter and prioritize 
        only the most relevant vehicle signals, supporting advanced analytics 
        and predictive maintenance use cases.
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    val fleetid = createFleet(signalCatalogArn, fleetIdVal)
    println("The fleet Id is $fleetid")
    waitForInputToContinue(scanner)
    val nodeList = listSignalCatalogNode(signalCatalogName)
    println(DASHES)

    println(DASHES)
    println("3. Create a model manifest")
    println(
        """
        An AWS IoT FleetWise manifest defines the structure and 
        relationships of vehicle data. The model manifest specifies 
        which signals to collect and how they relate to vehicle systems, 
        while the decoder manifest defines how to decode raw vehicle data 
        into meaningful signals. 
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    val nodes = listSignalCatalogNode(signalCatalogName)
    val manifestArn = nodes?.let { createModelManifest(manifestName, signalCatalogArn, it) }
    println("The manifest ARN is $manifestArn")
    println(DASHES)

    println(DASHES)
    println("4. Create a decoder manifest")
    println(
        """
        A decoder manifest in AWS IoT FleetWise defines how raw vehicle 
        data (such as CAN signals) should be interpreted and decoded 
        into meaningful signals. It acts as a translation layer 
        that maps vehicle-specific protocols to standardized data formats
        using decoding rules. This is crucial for extracting usable
        data from different vehicle models, even when their data 
        formats vary.
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    val decArn = createDecoderManifest(decName, manifestArn)
    println("The decoder manifest ARN is $decArn")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("5. Check the status of the model manifest")
    println(
        """
        The model manifest must be in an ACTIVE state before it can be used 
        to create or update a vehicle.
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    updateModelManifest(manifestName)
    waitForModelManifestActive(manifestName)
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("6. Check the status of the decoder")
    println(
        """
        The decoder manifest must be in an ACTIVE state before it can be used 
        to create or update a vehicle.
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    updateDecoderManifest(decName)
    waitForDecoderManifestActive(decName)
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("7. Create an IoT Thing")
    println(
        """
        AWS IoT FleetWise expects an existing AWS IoT Thing with the same 
        name as the vehicle name you are passing to createVehicle method. 
        Before calling createVehicle(), you must create an AWS IoT Thing 
        with the same name using the AWS IoT Core service.
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    createThingIfNotExist(vecName)
    println(DASHES)

    println(DASHES)
    println("8. Create a vehicle")
    println(
        """
        Creating a vehicle in AWS IoT FleetWise allows you to digitally 
        represent and manage a physical vehicle within the AWS ecosystem. 
        This enables efficient ingestion, transformation, and transmission 
        of vehicle telemetry data to the cloud for analysis.
        """.trimIndent(),
    )
    waitForInputToContinue(scanner)
    createVehicle(vecName, manifestArn, decArn)
    println(DASHES)

    println(DASHES)
    println("9. Display vehicle details")
    waitForInputToContinue(scanner)
    getVehicleDetails(vecName)
    waitForInputToContinue(scanner)
    println(DASHES)
    println(DASHES)
    println("10. Delete the AWS IoT Fleetwise Assets")
    println("Would you like to delete the IoT Fleetwise Assets? (y/n)")
    val delAns = scanner.nextLine().trim()
    if (delAns.equals("y", ignoreCase = true)) {
        deleteVehicle(vecName)
        deleteDecoderManifest(decName)
        deleteModelManifest(manifestName)
        deleteFleet(fleetid)
        deleteSignalCatalog(signalCatalogName)
    }

    println(DASHES)
    println(
        """
        Thank you for checking out the AWS IoT Fleetwise Service Use demo. We hope you
        learned something new, or got some inspiration for your own apps today.
        For more AWS code examples, have a look at:
        https://docs.aws.amazon.com/code-library/latest/ug/what-is-code-library.html
        """.trimIndent(),
    )
    println(DASHES)
}

suspend fun deleteVehicle(vecName: String) {
    val request = DeleteVehicleRequest {
        vehicleName = vecName
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteVehicle(request)
        println("Vehicle $vecName was deleted successfully.")
    }
}

suspend fun getVehicleDetails(vehicleNameVal: String) {
    val request = GetVehicleRequest {
        vehicleName = vehicleNameVal
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.getVehicle(request)
        val details = mapOf(
            "vehicleName" to response.vehicleName,
            "arn" to response.arn,
            "modelManifestArn" to response.modelManifestArn,
            "decoderManifestArn" to response.decoderManifestArn,
            "attributes" to response.attributes.toString(),
            "creationTime" to response.creationTime.toString(),
            "lastModificationTime" to response.lastModificationTime.toString(),
        )

        println("Vehicle Details:")
        for ((key, value) in details) {
            println("• %-20s : %s".format(key, value))
        }
    }
}

suspend fun createVehicle(vecName: String, manifestArn: String?, decArn: String) {
    val request = CreateVehicleRequest {
        vehicleName = vecName
        modelManifestArn = manifestArn
        decoderManifestArn = decArn
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.createVehicle(request)
        println("Vehicle $vecName was created successfully.")
    }
}

/**
 * Creates an IoT Thing if it does not already exist.
 *
 * @param vecName the name of the IoT Thing to create
 */
suspend fun createThingIfNotExist(vecName: String) {
    val request = CreateThingRequest {
        thingName = vecName
    }

    IotClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.createThing(request)
        println("The $vecName IoT Thing was successfully created")
    }
}

suspend fun updateDecoderManifest(nameVal: String) {
    val request = UpdateDecoderManifestRequest {
        name = nameVal
        status = ManifestStatus.Active
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.updateDecoderManifest(request)
        println("$nameVal was successfully updated")
    }
}

/**
 * Waits for the specified model manifest to become active.
 *
 * @param decNameVal the name of the model manifest to wait for
 */
suspend fun waitForDecoderManifestActive(decNameVal: String) {
    var elapsedSeconds = 0
    var lastStatus: ManifestStatus = ManifestStatus.Draft

    print("⏳ Elapsed: 0s | Status: DRAFT")
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        while (true) {
            delay(1000)
            elapsedSeconds++
            if (elapsedSeconds % 5 == 0) {
                val request = GetDecoderManifestRequest {
                    name = decNameVal
                }

                val response = fleetwiseClient.getDecoderManifest(request)
                lastStatus = response.status ?: ManifestStatus.Draft

                when (lastStatus) {
                    ManifestStatus.Active -> {
                        print("\rElapsed: ${elapsedSeconds}s | Status: ACTIVE ✅\n")
                        return
                    }

                    ManifestStatus.Invalid -> {
                        print("\rElapsed: ${elapsedSeconds}s | Status: INVALID ❌\n")
                        throw RuntimeException("Model manifest became INVALID. Cannot proceed.")
                    }

                    else -> {
                        print("\r Elapsed: ${elapsedSeconds}s | Status: $lastStatus")
                    }
                }
            } else {
                print("\r Elapsed: ${elapsedSeconds}s | Status: $lastStatus")
            }
        }
    }
}

/**
 * Waits for the specified model manifest to become active.
 *
 * @param manifestName the name of the model manifest to wait for
 */
suspend fun waitForModelManifestActive(manifestNameVal: String) {
    var elapsedSeconds = 0
    var lastStatus: ManifestStatus = ManifestStatus.Draft

    print("⏳ Elapsed: 0s | Status: DRAFT")
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        while (true) {
            delay(1000)
            elapsedSeconds++
            if (elapsedSeconds % 5 == 0) {
                val request = GetModelManifestRequest {
                    name = manifestNameVal
                }

                val response = fleetwiseClient.getModelManifest(request)
                lastStatus = response.status ?: ManifestStatus.Draft

                when (lastStatus) {
                    ManifestStatus.Active -> {
                        print("\r Elapsed: ${elapsedSeconds}s | Status: ACTIVE ✅\n")
                        return
                    }

                    ManifestStatus.Invalid -> {
                        print("\r Elapsed: ${elapsedSeconds}s | Status: INVALID ❌\n")
                        throw RuntimeException("Model manifest became INVALID. Cannot proceed.")
                    }

                    else -> {
                        print("\r Elapsed: ${elapsedSeconds}s | Status: $lastStatus")
                    }
                }
            } else {
                print("\r Elapsed: ${elapsedSeconds}s | Status: $lastStatus")
            }
        }
    }
}

/**
 * Updates the model manifest.
 *
 * @param nameVal the name of the model manifest to update
 */
suspend fun updateModelManifest(nameVal: String) {
    val request = UpdateModelManifestRequest {
        name = nameVal
        status = ManifestStatus.Active
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.updateModelManifest(request)
        println("$nameVal was successfully updated")
    }
}

suspend fun deleteDecoderManifest(nameVal: String) {
    val request = DeleteDecoderManifestRequest {
        name = nameVal
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteDecoderManifest(request)
        println("$nameVal was successfully deleted")
    }
}

/**
 * Creates a new decoder manifest.
 *
 * @param decName             the name of the decoder manifest
 * @param modelManifestArnVal the ARN of the model manifest
 * @return the ARN of the decoder manifest
 */
suspend fun createDecoderManifest(decName: String, modelManifestArnVal: String?): String {
    val interfaceIdVal = "can0"

    val canInter = CanInterface {
        name = "canInterface0"
        protocolName = "CAN"
        protocolVersion = "1.0"
    }

    val networkInterface = NetworkInterface {
        interfaceId = interfaceIdVal
        type = NetworkInterfaceType.CanInterface
        canInterface = canInter
    }

    val carRpmSig = CanSignal {
        messageId = 100
        isBigEndian = false
        isSigned = false
        startBit = 16
        length = 16
        factor = 1.0
        offset = 0.0
    }

    val carSpeedSig = CanSignal {
        messageId = 101
        isBigEndian = false
        isSigned = false
        startBit = 0
        length = 16
        factor = 1.0
        offset = 0.0
    }

    val engineRpmDecoder = SignalDecoder {
        fullyQualifiedName = "Vehicle.Powertrain.EngineRPM"
        interfaceId = interfaceIdVal
        type = SignalDecoderType.CanSignal
        canSignal = carRpmSig
    }

    val vehicleSpeedDecoder = SignalDecoder {
        fullyQualifiedName = "Vehicle.Powertrain.VehicleSpeed"
        interfaceId = interfaceIdVal
        type = SignalDecoderType.CanSignal
        canSignal = carSpeedSig
    }

    val request = CreateDecoderManifestRequest {
        name = decName
        modelManifestArn = modelManifestArnVal
        networkInterfaces = listOf(networkInterface)
        signalDecoders = listOf(engineRpmDecoder, vehicleSpeedDecoder)
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.createDecoderManifest(request)
        return response.arn
    }
}

/**
 * Deletes a signal catalog.
 *
 * @param name the name of the signal catalog to delete
 */
suspend fun deleteSignalCatalog(catName: String) {
    val request = DeleteSignalCatalogRequest {
        name = catName
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteSignalCatalog(request)
        println(" $catName was successfully deleted")
    }
}

/**
 * Deletes a fleet based on the provided fleet ID.
 *
 * @param fleetId the ID of the fleet to be deleted
 */
suspend fun deleteFleet(fleetIdVal: String) {
    val request = DeleteFleetRequest {
        fleetId = fleetIdVal
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteFleet(request)
        println(" $fleetIdVal was successfully deleted")
    }
}

/**
 * Deletes a model manifest.
 *
 * @param nameVal the name of the model manifest to delete
 */
suspend fun deleteModelManifest(nameVal: String) {
    val request = DeleteModelManifestRequest {
        name = nameVal
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteModelManifest(request)
        println(" $nameVal was successfully deleted")
    }
}

/**
 * Creates a model manifest.
 *
 * @param name              the name of the model manifest to create
 * @param signalCatalogArn  the Amazon Resource Name (ARN) of the signal catalog
 * @param nodes             a list of nodes to include in the model manifest
 * @return a {@link CompletableFuture} that completes with the ARN of the created model manifest
 */
suspend fun createModelManifest(nameVal: String, signalCatalogArnVal: String, nodesList: List<Node>): String {
    val fqnList: List<String> = nodesList.map { node ->
        when (node) {
            is Node.Sensor -> node.asSensor().fullyQualifiedName
            is Node.Branch -> node.asBranch().fullyQualifiedName
            else -> throw RuntimeException("Unsupported node type")
        }
    }

    val request = CreateModelManifestRequest {
        name = nameVal
        signalCatalogArn = signalCatalogArnVal
        nodes = fqnList
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.createModelManifest(request)
        return response.arn
    }
}

/**
 * Lists the signal catalog nodes asynchronously.
 *
 * @param signalCatalogName the name of the signal catalog
 * @return a CompletableFuture that, when completed, contains a list of nodes in the specified signal catalog
 * @throws CompletionException if an exception occurs during the asynchronous operation
 */
suspend fun listSignalCatalogNode(signalCatalogName: String): List<Node>? {
    val request = ListSignalCatalogNodesRequest {
        name = signalCatalogName
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.listSignalCatalogNodes(request)
        return response.nodes
    }
}

/**
 * Creates a new fleet.
 *
 * @param catARN the Amazon Resource Name (ARN) of the signal catalog to associate with the fleet
 * @param fleetId the unique identifier for the fleet
 * @return the ID of the created fleet
 */
suspend fun createFleet(catARN: String, fleetIdVal: String): String {
    val fleetRequest = CreateFleetRequest {
        fleetId = fleetIdVal
        signalCatalogArn = catARN
        description = "Built using the AWS For Kotlin"
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.createFleet(fleetRequest)
        return response.id
    }
}

/**
 * Creates a signal catalog.
 *
 * @param signalCatalogName the name of the signal catalog to create the branch vehicle in
 * @return the ARN (Amazon Resource Name) of the created signal catalog
 */
suspend fun createbranchVehicle(signalCatalogName: String): String {
    delay(2000) // Wait for 2 seconds
    val branchVehicle = Branch {
        fullyQualifiedName = "Vehicle"
        description = "Root branch"
    }

    val branchPowertrain = Branch {
        fullyQualifiedName = "Vehicle.Powertrain"
        description = "Powertrain branch"
    }

    val sensorRPM = Sensor {
        fullyQualifiedName = "Vehicle.Powertrain.EngineRPM"
        description = "Engine RPM"
        dataType = NodeDataType.Double
        unit = "rpm"
    }

    val sensorKM = Sensor {
        fullyQualifiedName = "Vehicle.Powertrain.VehicleSpeed"
        description = "Vehicle Speed"
        dataType = NodeDataType.Double
        unit = "km/h"
    }

    // Wrap each specific node type (Branch and Sensor) into the sealed Node class
    // so they can be included in the CreateSignalCatalogRequest.
    val myNodes = listOf(
        Node.Branch(branchVehicle),
        Node.Branch(branchPowertrain),
        Node.Sensor(sensorRPM),
        Node.Sensor(sensorKM),
    )

    val request = CreateSignalCatalogRequest {
        name = signalCatalogName
        nodes = myNodes
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.createSignalCatalog(request)
        return response.arn
    }
}

private fun waitForInputToContinue(scanner: Scanner) {
    while (true) {
        println("")
        println("Enter 'c' followed by <ENTER> to continue:")
        val input = scanner.nextLine()

        if (input.trim { it <= ' ' }.equals("c", ignoreCase = true)) {
            println("Continuing with the program...")
            println("")
            break
        } else {
            println("Invalid input. Please try again.")
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Kotlin*.
  + [createDecoderManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateFleet](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [createModelManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [createSignalCatalog](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateVehicle](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [deleteDecoderManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteFleet](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [deleteModelManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [deleteSignalCatalog](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteveHicle](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [getDecoderManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [getModelManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetVehicle](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [listSignalCatalogNode](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [updateDecoderManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [updateModelManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `createDecoderManifest`
<a name="iotfleetwise_CreateDecoderManifest_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createDecoderManifest`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Creates a new decoder manifest.
 *
 * @param decName             the name of the decoder manifest
 * @param modelManifestArnVal the ARN of the model manifest
 * @return the ARN of the decoder manifest
 */
suspend fun createDecoderManifest(decName: String, modelManifestArnVal: String?): String {
    val interfaceIdVal = "can0"

    val canInter = CanInterface {
        name = "canInterface0"
        protocolName = "CAN"
        protocolVersion = "1.0"
    }

    val networkInterface = NetworkInterface {
        interfaceId = interfaceIdVal
        type = NetworkInterfaceType.CanInterface
        canInterface = canInter
    }

    val carRpmSig = CanSignal {
        messageId = 100
        isBigEndian = false
        isSigned = false
        startBit = 16
        length = 16
        factor = 1.0
        offset = 0.0
    }

    val carSpeedSig = CanSignal {
        messageId = 101
        isBigEndian = false
        isSigned = false
        startBit = 0
        length = 16
        factor = 1.0
        offset = 0.0
    }

    val engineRpmDecoder = SignalDecoder {
        fullyQualifiedName = "Vehicle.Powertrain.EngineRPM"
        interfaceId = interfaceIdVal
        type = SignalDecoderType.CanSignal
        canSignal = carRpmSig
    }

    val vehicleSpeedDecoder = SignalDecoder {
        fullyQualifiedName = "Vehicle.Powertrain.VehicleSpeed"
        interfaceId = interfaceIdVal
        type = SignalDecoderType.CanSignal
        canSignal = carSpeedSig
    }

    val request = CreateDecoderManifestRequest {
        name = decName
        modelManifestArn = modelManifestArnVal
        networkInterfaces = listOf(networkInterface)
        signalDecoders = listOf(engineRpmDecoder, vehicleSpeedDecoder)
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.createDecoderManifest(request)
        return response.arn
    }
}
```
+  Untuk detail API, lihat [createDecoderManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `createFleet`
<a name="iotfleetwise_CreateFleet_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createFleet`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Creates a new fleet.
 *
 * @param catARN the Amazon Resource Name (ARN) of the signal catalog to associate with the fleet
 * @param fleetId the unique identifier for the fleet
 * @return the ID of the created fleet
 */
suspend fun createFleet(catARN: String, fleetIdVal: String): String {
    val fleetRequest = CreateFleetRequest {
        fleetId = fleetIdVal
        signalCatalogArn = catARN
        description = "Built using the AWS For Kotlin"
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.createFleet(fleetRequest)
        return response.id
    }
}
```
+  Untuk detail API, lihat [createFleet](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK* untuk referensi API Kotlin. 

### `createModelManifest`
<a name="iotfleetwise_CreateModelManifest_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createModelManifest`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Creates a model manifest.
 *
 * @param name              the name of the model manifest to create
 * @param signalCatalogArn  the Amazon Resource Name (ARN) of the signal catalog
 * @param nodes             a list of nodes to include in the model manifest
 * @return a {@link CompletableFuture} that completes with the ARN of the created model manifest
 */
suspend fun createModelManifest(nameVal: String, signalCatalogArnVal: String, nodesList: List<Node>): String {
    val fqnList: List<String> = nodesList.map { node ->
        when (node) {
            is Node.Sensor -> node.asSensor().fullyQualifiedName
            is Node.Branch -> node.asBranch().fullyQualifiedName
            else -> throw RuntimeException("Unsupported node type")
        }
    }

    val request = CreateModelManifestRequest {
        name = nameVal
        signalCatalogArn = signalCatalogArnVal
        nodes = fqnList
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.createModelManifest(request)
        return response.arn
    }
}
```
+  Untuk detail API, lihat [createModelManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `createSignalCatalog`
<a name="iotfleetwise_CreateSignalCatalog_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createSignalCatalog`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Creates a signal catalog.
 *
 * @param signalCatalogName the name of the signal catalog to create the branch vehicle in
 * @return the ARN (Amazon Resource Name) of the created signal catalog
 */
suspend fun createbranchVehicle(signalCatalogName: String): String {
    delay(2000) // Wait for 2 seconds
    val branchVehicle = Branch {
        fullyQualifiedName = "Vehicle"
        description = "Root branch"
    }

    val branchPowertrain = Branch {
        fullyQualifiedName = "Vehicle.Powertrain"
        description = "Powertrain branch"
    }

    val sensorRPM = Sensor {
        fullyQualifiedName = "Vehicle.Powertrain.EngineRPM"
        description = "Engine RPM"
        dataType = NodeDataType.Double
        unit = "rpm"
    }

    val sensorKM = Sensor {
        fullyQualifiedName = "Vehicle.Powertrain.VehicleSpeed"
        description = "Vehicle Speed"
        dataType = NodeDataType.Double
        unit = "km/h"
    }

    // Wrap each specific node type (Branch and Sensor) into the sealed Node class
    // so they can be included in the CreateSignalCatalogRequest.
    val myNodes = listOf(
        Node.Branch(branchVehicle),
        Node.Branch(branchPowertrain),
        Node.Sensor(sensorRPM),
        Node.Sensor(sensorKM),
    )

    val request = CreateSignalCatalogRequest {
        name = signalCatalogName
        nodes = myNodes
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.createSignalCatalog(request)
        return response.arn
    }
}
```
+  Untuk detail API, lihat [createSignalCatalog](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `createVehicle`
<a name="iotfleetwise_CreateVehicle_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`createVehicle`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
suspend fun createVehicle(vecName: String, manifestArn: String?, decArn: String) {
    val request = CreateVehicleRequest {
        vehicleName = vecName
        modelManifestArn = manifestArn
        decoderManifestArn = decArn
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.createVehicle(request)
        println("Vehicle $vecName was created successfully.")
    }
}
```
+  Untuk detail API, lihat [CreateVehicle di *AWS SDK* untuk referensi API Kotlin](https://sdk.amazonaws.com/kotlin/api/latest/index.html). 

### `deleteDecoderManifest`
<a name="iotfleetwise_DeleteDecoderManifest_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteDecoderManifest`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
suspend fun deleteDecoderManifest(nameVal: String) {
    val request = DeleteDecoderManifestRequest {
        name = nameVal
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteDecoderManifest(request)
        println("$nameVal was successfully deleted")
    }
}
```
+  Untuk detail API, lihat [deleteDecoderManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `deleteFleet`
<a name="iotfleetwise_DeleteFleet_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteFleet`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Deletes a fleet based on the provided fleet ID.
 *
 * @param fleetId the ID of the fleet to be deleted
 */
suspend fun deleteFleet(fleetIdVal: String) {
    val request = DeleteFleetRequest {
        fleetId = fleetIdVal
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteFleet(request)
        println(" $fleetIdVal was successfully deleted")
    }
}
```
+  Untuk detail API, lihat [DeleteFleet](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk* referensi API Kotlin. 

### `deleteModelManifest`
<a name="iotfleetwise_DeleteModelManifest_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteModelManifest`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Deletes a model manifest.
 *
 * @param nameVal the name of the model manifest to delete
 */
suspend fun deleteModelManifest(nameVal: String) {
    val request = DeleteModelManifestRequest {
        name = nameVal
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteModelManifest(request)
        println(" $nameVal was successfully deleted")
    }
}
```
+  Untuk detail API, lihat [deleteModelManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `deleteSignalCatalog`
<a name="iotfleetwise_DeleteSignalCatalog_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteSignalCatalog`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Deletes a signal catalog.
 *
 * @param name the name of the signal catalog to delete
 */
suspend fun deleteSignalCatalog(catName: String) {
    val request = DeleteSignalCatalogRequest {
        name = catName
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteSignalCatalog(request)
        println(" $catName was successfully deleted")
    }
}
```
+  Untuk detail API, lihat [deleteSignalCatalog](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `deleteVehicle`
<a name="iotfleetwise_DeleteVehicle_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`deleteVehicle`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
suspend fun deleteVehicle(vecName: String) {
    val request = DeleteVehicleRequest {
        vehicleName = vecName
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.deleteVehicle(request)
        println("Vehicle $vecName was deleted successfully.")
    }
}
```
+  Untuk detail API, lihat [DeleteVehicle](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK* untuk referensi API Kotlin. 

### `getDecoderManifest`
<a name="iotfleetwise_GetDecoderManifest_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`getDecoderManifest`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Waits for the specified model manifest to become active.
 *
 * @param decNameVal the name of the model manifest to wait for
 */
suspend fun waitForDecoderManifestActive(decNameVal: String) {
    var elapsedSeconds = 0
    var lastStatus: ManifestStatus = ManifestStatus.Draft

    print("⏳ Elapsed: 0s | Status: DRAFT")
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        while (true) {
            delay(1000)
            elapsedSeconds++
            if (elapsedSeconds % 5 == 0) {
                val request = GetDecoderManifestRequest {
                    name = decNameVal
                }

                val response = fleetwiseClient.getDecoderManifest(request)
                lastStatus = response.status ?: ManifestStatus.Draft

                when (lastStatus) {
                    ManifestStatus.Active -> {
                        print("\rElapsed: ${elapsedSeconds}s | Status: ACTIVE ✅\n")
                        return
                    }

                    ManifestStatus.Invalid -> {
                        print("\rElapsed: ${elapsedSeconds}s | Status: INVALID ❌\n")
                        throw RuntimeException("Model manifest became INVALID. Cannot proceed.")
                    }

                    else -> {
                        print("\r Elapsed: ${elapsedSeconds}s | Status: $lastStatus")
                    }
                }
            } else {
                print("\r Elapsed: ${elapsedSeconds}s | Status: $lastStatus")
            }
        }
    }
}
```
+  Untuk detail API, lihat [getDecoderManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `getModelManifest`
<a name="iotfleetwise_GetModelManifest_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`getModelManifest`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Waits for the specified model manifest to become active.
 *
 * @param manifestName the name of the model manifest to wait for
 */
suspend fun waitForModelManifestActive(manifestNameVal: String) {
    var elapsedSeconds = 0
    var lastStatus: ManifestStatus = ManifestStatus.Draft

    print("⏳ Elapsed: 0s | Status: DRAFT")
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        while (true) {
            delay(1000)
            elapsedSeconds++
            if (elapsedSeconds % 5 == 0) {
                val request = GetModelManifestRequest {
                    name = manifestNameVal
                }

                val response = fleetwiseClient.getModelManifest(request)
                lastStatus = response.status ?: ManifestStatus.Draft

                when (lastStatus) {
                    ManifestStatus.Active -> {
                        print("\r Elapsed: ${elapsedSeconds}s | Status: ACTIVE ✅\n")
                        return
                    }

                    ManifestStatus.Invalid -> {
                        print("\r Elapsed: ${elapsedSeconds}s | Status: INVALID ❌\n")
                        throw RuntimeException("Model manifest became INVALID. Cannot proceed.")
                    }

                    else -> {
                        print("\r Elapsed: ${elapsedSeconds}s | Status: $lastStatus")
                    }
                }
            } else {
                print("\r Elapsed: ${elapsedSeconds}s | Status: $lastStatus")
            }
        }
    }
}
```
+  Untuk detail API, lihat [getModelManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `getVehicle`
<a name="iotfleetwise_GetVehicle_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`getVehicle`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
suspend fun getVehicleDetails(vehicleNameVal: String) {
    val request = GetVehicleRequest {
        vehicleName = vehicleNameVal
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.getVehicle(request)
        val details = mapOf(
            "vehicleName" to response.vehicleName,
            "arn" to response.arn,
            "modelManifestArn" to response.modelManifestArn,
            "decoderManifestArn" to response.decoderManifestArn,
            "attributes" to response.attributes.toString(),
            "creationTime" to response.creationTime.toString(),
            "lastModificationTime" to response.lastModificationTime.toString(),
        )

        println("Vehicle Details:")
        for ((key, value) in details) {
            println("• %-20s : %s".format(key, value))
        }
    }
}
```
+  Untuk detail API, lihat [getVehicle](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK untuk referensi API Kotlin*. 

### `listSignalCatalogNodes`
<a name="iotfleetwise_ListSignalCatalogNodes_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`listSignalCatalogNodes`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Lists the signal catalog nodes asynchronously.
 *
 * @param signalCatalogName the name of the signal catalog
 * @return a CompletableFuture that, when completed, contains a list of nodes in the specified signal catalog
 * @throws CompletionException if an exception occurs during the asynchronous operation
 */
suspend fun listSignalCatalogNode(signalCatalogName: String): List<Node>? {
    val request = ListSignalCatalogNodesRequest {
        name = signalCatalogName
    }

    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        val response = fleetwiseClient.listSignalCatalogNodes(request)
        return response.nodes
    }
}
```
+  Untuk detail API, lihat [listSignalCatalogNode](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `updateDecoderManifest`
<a name="iotfleetwise_UpdateDecoderManifest_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`updateDecoderManifest`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
suspend fun updateDecoderManifest(nameVal: String) {
    val request = UpdateDecoderManifestRequest {
        name = nameVal
        status = ManifestStatus.Active
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.updateDecoderManifest(request)
        println("$nameVal was successfully updated")
    }
}
```
+  Untuk detail API, lihat [updateDecoderManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `updateModelManifest`
<a name="iotfleetwise_UpdateModelManifest_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`updateModelManifest`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/iotfleetwise#code-examples). 

```
/**
 * Updates the model manifest.
 *
 * @param nameVal the name of the model manifest to update
 */
suspend fun updateModelManifest(nameVal: String) {
    val request = UpdateModelManifestRequest {
        name = nameVal
        status = ManifestStatus.Active
    }
    IotFleetWiseClient.fromEnvironment { region = "us-east-1" }.use { fleetwiseClient ->
        fleetwiseClient.updateModelManifest(request)
        println("$nameVal was successfully updated")
    }
}
```
+  Untuk detail API, lihat [updateModelManifest](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon Keyspaces menggunakan SDK untuk Kotlin
<a name="kotlin_1_keyspaces_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon Keyspaces.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Keyspaces
<a name="keyspaces_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Keyspaces.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment, including your credentials.

For more information, see the following documentation topic:

https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
*/

suspend fun main() {
    listKeyspaces()
}

suspend fun listKeyspaces() {
    val keyspacesRequest =
        ListKeyspacesRequest {
            maxResults = 10
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response = keyClient.listKeyspaces(keyspacesRequest)
        response.keyspaces?.forEach { keyspace ->
            println("The name of the keyspace is ${keyspace.keyspaceName}")
        }
    }
}
```
+  Untuk detail API, lihat [ListKeyspaces](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="keyspaces_Scenario_GetStartedKeyspaces_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat keyspace dan tabel. Skema tabel menyimpan data film dan mengaktifkan point-in-time pemulihan.
+ Connect ke keyspace menggunakan koneksi TLS aman dengan otentikasi SiGv4.
+ Kueri tabel. Tambahkan, ambil, dan perbarui data film.
+ Perbarui tabel. Tambahkan kolom untuk melacak film yang ditonton.
+ Kembalikan tabel ke keadaan sebelumnya dan bersihkan sumber daya.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
/**
 Before running this Kotlin code example, set up your development environment, including your credentials.

 For more information, see the following documentation topic:

 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

 This example uses a secure file format to hold certificate information for
 Kotlin applications. This is required to make a connection to Amazon Keyspaces.
 For more information, see the following documentation topic:

 https://docs.aws.amazon.com/keyspaces/latest/devguide/using_java_driver.html

 This Kotlin example performs the following tasks:

 1. Create a keyspace.
 2. Check for keyspace existence.
 3. List keyspaces using a paginator.
 4. Create a table with a simple movie data schema and enable point-in-time recovery.
 5. Check for the table to be in an Active state.
 6. List all tables in the keyspace.
 7. Use a Cassandra driver to insert some records into the Movie table.
 8. Get all records from the Movie table.
 9. Get a specific Movie.
 10. Get a UTC timestamp for the current time.
 11. Update the table schema to add a ‘watched’ Boolean column.
 12. Update an item as watched.
 13. Query for items with watched = True.
 14. Restore the table back to the previous state using the timestamp.
 15. Check for completion of the restore action.
 16. Delete the table.
 17. Confirm that both tables are deleted.
 18. Delete the keyspace.
 */

/*
   Usage:
     fileName - The name of the JSON file that contains movie data. (Get this file from the GitHub repo at resources/sample_file.)
     keyspaceName - The name of the keyspace to create.
 */
val DASHES: String = String(CharArray(80)).replace("\u0000", "-")

suspend fun main() {
    val fileName = "<Replace with the JSON file that contains movie data>"
    val keyspaceName = "<Replace with the name of the keyspace to create>"
    val titleUpdate = "The Family"
    val yearUpdate = 2013
    val tableName = "MovieKotlin"
    val tableNameRestore = "MovieRestore"

    val loader = DriverConfigLoader.fromClasspath("application.conf")
    val session =
        CqlSession
            .builder()
            .withConfigLoader(loader)
            .build()

    println(DASHES)
    println("Welcome to the Amazon Keyspaces example scenario.")
    println(DASHES)

    println(DASHES)
    println("1. Create a keyspace.")
    createKeySpace(keyspaceName)
    println(DASHES)

    println(DASHES)
    delay(5000)
    println("2. Check for keyspace existence.")
    checkKeyspaceExistence(keyspaceName)
    println(DASHES)

    println(DASHES)
    println("3. List keyspaces using a paginator.")
    listKeyspacesPaginator()
    println(DASHES)

    println(DASHES)
    println("4. Create a table with a simple movie data schema and enable point-in-time recovery.")
    createTable(keyspaceName, tableName)
    println(DASHES)

    println(DASHES)
    println("5. Check for the table to be in an Active state.")
    delay(6000)
    checkTable(keyspaceName, tableName)
    println(DASHES)

    println(DASHES)
    println("6. List all tables in the keyspace.")
    listTables(keyspaceName)
    println(DASHES)

    println(DASHES)
    println("7. Use a Cassandra driver to insert some records into the Movie table.")
    delay(6000)
    loadData(session, fileName, keyspaceName)
    println(DASHES)

    println(DASHES)
    println("8. Get all records from the Movie table.")
    getMovieData(session, keyspaceName)
    println(DASHES)

    println(DASHES)
    println("9. Get a specific Movie.")
    getSpecificMovie(session, keyspaceName)
    println(DASHES)

    println(DASHES)
    println("10. Get a UTC timestamp for the current time.")
    val utc = ZonedDateTime.now(ZoneOffset.UTC)
    println("DATETIME = ${Date.from(utc.toInstant())}")
    println(DASHES)

    println(DASHES)
    println("11. Update the table schema to add a watched Boolean column.")
    updateTable(keyspaceName, tableName)
    println(DASHES)

    println(DASHES)
    println("12. Update an item as watched.")
    delay(10000) // Wait 10 seconds for the update.
    updateRecord(session, keyspaceName, titleUpdate, yearUpdate)
    println(DASHES)

    println(DASHES)
    println("13. Query for items with watched = True.")
    getWatchedData(session, keyspaceName)
    println(DASHES)

    println(DASHES)
    println("14. Restore the table back to the previous state using the timestamp.")
    println("Note that the restore operation can take up to 20 minutes.")
    restoreTable(keyspaceName, utc)
    println(DASHES)

    println(DASHES)
    println("15. Check for completion of the restore action.")
    delay(5000)
    checkRestoredTable(keyspaceName, "MovieRestore")
    println(DASHES)

    println(DASHES)
    println("16. Delete both tables.")
    deleteTable(keyspaceName, tableName)
    deleteTable(keyspaceName, tableNameRestore)
    println(DASHES)

    println(DASHES)
    println("17. Confirm that both tables are deleted.")
    checkTableDelete(keyspaceName, tableName)
    checkTableDelete(keyspaceName, tableNameRestore)
    println(DASHES)

    println(DASHES)
    println("18. Delete the keyspace.")
    deleteKeyspace(keyspaceName)
    println(DASHES)

    println(DASHES)
    println("The scenario has completed successfully.")
    println(DASHES)
}

suspend fun deleteKeyspace(keyspaceNameVal: String?) {
    val deleteKeyspaceRequest =
        DeleteKeyspaceRequest {
            keyspaceName = keyspaceNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient.deleteKeyspace(deleteKeyspaceRequest)
    }
}

suspend fun checkTableDelete(
    keyspaceNameVal: String?,
    tableNameVal: String?,
) {
    var status: String
    var response: GetTableResponse
    val tableRequest =
        GetTableRequest {
            keyspaceName = keyspaceNameVal
            tableName = tableNameVal
        }

    try {
        KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
            // Keep looping until the table cannot be found and a ResourceNotFoundException is thrown.
            while (true) {
                response = keyClient.getTable(tableRequest)
                status = response.status.toString()
                println(". The table status is $status")
                delay(500)
            }
        }
    } catch (e: ResourceNotFoundException) {
        println(e.message)
    }
    println("The table is deleted")
}

suspend fun deleteTable(
    keyspaceNameVal: String?,
    tableNameVal: String?,
) {
    val tableRequest =
        DeleteTableRequest {
            keyspaceName = keyspaceNameVal
            tableName = tableNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient.deleteTable(tableRequest)
    }
}

suspend fun checkRestoredTable(
    keyspaceNameVal: String?,
    tableNameVal: String?,
) {
    var tableStatus = false
    var status: String
    var response: GetTableResponse? = null

    val tableRequest =
        GetTableRequest {
            keyspaceName = keyspaceNameVal
            tableName = tableNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        while (!tableStatus) {
            response = keyClient.getTable(tableRequest)
            status = response!!.status.toString()
            println("The table status is $status")

            if (status.compareTo("ACTIVE") == 0) {
                tableStatus = true
            }
            delay(500)
        }

        val cols = response!!.schemaDefinition?.allColumns
        if (cols != null) {
            for (def in cols) {
                println("The column name is ${def.name}")
                println("The column type is ${def.type}")
            }
        }
    }
}

suspend fun restoreTable(
    keyspaceName: String?,
    utc: ZonedDateTime,
) {
    // Create an aws.smithy.kotlin.runtime.time.Instant value.
    val timeStamp =
        aws.smithy.kotlin.runtime.time
            .Instant(utc.toInstant())
    val restoreTableRequest =
        RestoreTableRequest {
            restoreTimestamp = timeStamp
            sourceTableName = "MovieKotlin"
            targetKeyspaceName = keyspaceName
            targetTableName = "MovieRestore"
            sourceKeyspaceName = keyspaceName
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response = keyClient.restoreTable(restoreTableRequest)
        println("The ARN of the restored table is ${response.restoredTableArn}")
    }
}

fun getWatchedData(
    session: CqlSession,
    keyspaceName: String,
) {
    val resultSet = session.execute("SELECT * FROM \"$keyspaceName\".\"MovieKotlin\" WHERE watched = true ALLOW FILTERING;")
    resultSet.forEach { item: Row ->
        println("The Movie title is ${item.getString("title")}")
        println("The Movie year is ${item.getInt("year")}")
        println("The plot is ${item.getString("plot")}")
    }
}

fun updateRecord(
    session: CqlSession,
    keySpace: String,
    titleUpdate: String?,
    yearUpdate: Int,
) {
    val sqlStatement =
        "UPDATE \"$keySpace\".\"MovieKotlin\" SET watched=true WHERE title = :k0 AND year = :k1;"
    val builder = BatchStatement.builder(DefaultBatchType.UNLOGGED)
    builder.setConsistencyLevel(ConsistencyLevel.LOCAL_QUORUM)
    val preparedStatement = session.prepare(sqlStatement)
    builder.addStatement(
        preparedStatement
            .boundStatementBuilder()
            .setString("k0", titleUpdate)
            .setInt("k1", yearUpdate)
            .build(),
    )
    val batchStatement = builder.build()
    session.execute(batchStatement)
}

suspend fun updateTable(
    keySpace: String?,
    tableNameVal: String?,
) {
    val def =
        ColumnDefinition {
            name = "watched"
            type = "boolean"
        }

    val tableRequest =
        UpdateTableRequest {
            keyspaceName = keySpace
            tableName = tableNameVal
            addColumns = listOf(def)
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient.updateTable(tableRequest)
    }
}

fun getSpecificMovie(
    session: CqlSession,
    keyspaceName: String,
) {
    val resultSet =
        session.execute("SELECT * FROM \"$keyspaceName\".\"MovieKotlin\" WHERE title = 'The Family' ALLOW FILTERING ;")

    resultSet.forEach { item: Row ->
        println("The Movie title is ${item.getString("title")}")
        println("The Movie year is ${item.getInt("year")}")
        println("The plot is ${item.getString("plot")}")
    }
}

// Get records from the Movie table.
fun getMovieData(
    session: CqlSession,
    keyspaceName: String,
) {
    val resultSet = session.execute("SELECT * FROM \"$keyspaceName\".\"MovieKotlin\";")
    resultSet.forEach { item: Row ->
        println("The Movie title is ${item.getString("title")}")
        println("The Movie year is ${item.getInt("year")}")
        println("The plot is ${item.getString("plot")}")
    }
}

// Load data into the table.
fun loadData(
    session: CqlSession,
    fileName: String,
    keySpace: String,
) {
    val sqlStatement =
        "INSERT INTO \"$keySpace\".\"MovieKotlin\" (title, year, plot) values (:k0, :k1, :k2)"
    val parser = JsonFactory().createParser(File(fileName))
    val rootNode = ObjectMapper().readTree<JsonNode>(parser)
    val iter: Iterator<JsonNode> = rootNode.iterator()
    var currentNode: ObjectNode

    var t = 0
    while (iter.hasNext()) {
        if (t == 50) {
            break
        }

        currentNode = iter.next() as ObjectNode
        val year = currentNode.path("year").asInt()
        val title = currentNode.path("title").asText()
        val info = currentNode.path("info").toString()

        // Insert the data into the Amazon Keyspaces table.
        val builder = BatchStatement.builder(DefaultBatchType.UNLOGGED)
        builder.setConsistencyLevel(ConsistencyLevel.LOCAL_QUORUM)
        val preparedStatement: PreparedStatement = session.prepare(sqlStatement)
        builder.addStatement(
            preparedStatement
                .boundStatementBuilder()
                .setString("k0", title)
                .setInt("k1", year)
                .setString("k2", info)
                .build(),
        )

        val batchStatement = builder.build()
        session.execute(batchStatement)
        t++
    }
}

suspend fun listTables(keyspaceNameVal: String?) {
    val tablesRequest =
        ListTablesRequest {
            keyspaceName = keyspaceNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient
            .listTablesPaginated(tablesRequest)
            .transform { it.tables?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println(" ARN: ${obj.resourceArn} Table name: ${obj.tableName}")
            }
    }
}

suspend fun checkTable(
    keyspaceNameVal: String?,
    tableNameVal: String?,
) {
    var tableStatus = false
    var status: String
    var response: GetTableResponse? = null

    val tableRequest =
        GetTableRequest {
            keyspaceName = keyspaceNameVal
            tableName = tableNameVal
        }
    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        while (!tableStatus) {
            response = keyClient.getTable(tableRequest)
            status = response!!.status.toString()
            println(". The table status is $status")
            if (status.compareTo("ACTIVE") == 0) {
                tableStatus = true
            }
            delay(500)
        }
        val cols: List<ColumnDefinition>? = response!!.schemaDefinition?.allColumns
        if (cols != null) {
            for (def in cols) {
                println("The column name is ${def.name}")
                println("The column type is ${def.type}")
            }
        }
    }
}

suspend fun createTable(
    keySpaceVal: String?,
    tableNameVal: String?,
) {
    // Set the columns.
    val defTitle =
        ColumnDefinition {
            name = "title"
            type = "text"
        }

    val defYear =
        ColumnDefinition {
            name = "year"
            type = "int"
        }

    val defReleaseDate =
        ColumnDefinition {
            name = "release_date"
            type = "timestamp"
        }

    val defPlot =
        ColumnDefinition {
            name = "plot"
            type = "text"
        }

    val colList = ArrayList<ColumnDefinition>()
    colList.add(defTitle)
    colList.add(defYear)
    colList.add(defReleaseDate)
    colList.add(defPlot)

    // Set the keys.
    val yearKey =
        PartitionKey {
            name = "year"
        }

    val titleKey =
        PartitionKey {
            name = "title"
        }

    val keyList = ArrayList<PartitionKey>()
    keyList.add(yearKey)
    keyList.add(titleKey)

    val schemaDefinitionOb =
        SchemaDefinition {
            partitionKeys = keyList
            allColumns = colList
        }

    val timeRecovery =
        PointInTimeRecovery {
            status = PointInTimeRecoveryStatus.Enabled
        }

    val tableRequest =
        CreateTableRequest {
            keyspaceName = keySpaceVal
            tableName = tableNameVal
            schemaDefinition = schemaDefinitionOb
            pointInTimeRecovery = timeRecovery
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response = keyClient.createTable(tableRequest)
        println("The table ARN is ${response.resourceArn}")
    }
}

suspend fun listKeyspacesPaginator() {
    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient
            .listKeyspacesPaginated(ListKeyspacesRequest {})
            .transform { it.keyspaces?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println("Name: ${obj.keyspaceName}")
            }
    }
}

suspend fun checkKeyspaceExistence(keyspaceNameVal: String?) {
    val keyspaceRequest =
        GetKeyspaceRequest {
            keyspaceName = keyspaceNameVal
        }
    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response: GetKeyspaceResponse = keyClient.getKeyspace(keyspaceRequest)
        val name = response.keyspaceName
        println("The $name KeySpace is ready")
    }
}

suspend fun createKeySpace(keyspaceNameVal: String) {
    val keyspaceRequest =
        CreateKeyspaceRequest {
            keyspaceName = keyspaceNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response = keyClient.createKeyspace(keyspaceRequest)
        println("The ARN of the KeySpace is ${response.resourceArn}")
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CreateKeyspace](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteKeyspace](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetKeyspace](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListKeyspaces](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListTables](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [RestoreTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UpdateTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateKeyspace`
<a name="keyspaces_CreateKeyspace_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyspace`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun createKeySpace(keyspaceNameVal: String) {
    val keyspaceRequest =
        CreateKeyspaceRequest {
            keyspaceName = keyspaceNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response = keyClient.createKeyspace(keyspaceRequest)
        println("The ARN of the KeySpace is ${response.resourceArn}")
    }
}
```
+  Untuk detail API, lihat [CreateKeyspace](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateTable`
<a name="keyspaces_CreateTable_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun createTable(
    keySpaceVal: String?,
    tableNameVal: String?,
) {
    // Set the columns.
    val defTitle =
        ColumnDefinition {
            name = "title"
            type = "text"
        }

    val defYear =
        ColumnDefinition {
            name = "year"
            type = "int"
        }

    val defReleaseDate =
        ColumnDefinition {
            name = "release_date"
            type = "timestamp"
        }

    val defPlot =
        ColumnDefinition {
            name = "plot"
            type = "text"
        }

    val colList = ArrayList<ColumnDefinition>()
    colList.add(defTitle)
    colList.add(defYear)
    colList.add(defReleaseDate)
    colList.add(defPlot)

    // Set the keys.
    val yearKey =
        PartitionKey {
            name = "year"
        }

    val titleKey =
        PartitionKey {
            name = "title"
        }

    val keyList = ArrayList<PartitionKey>()
    keyList.add(yearKey)
    keyList.add(titleKey)

    val schemaDefinitionOb =
        SchemaDefinition {
            partitionKeys = keyList
            allColumns = colList
        }

    val timeRecovery =
        PointInTimeRecovery {
            status = PointInTimeRecoveryStatus.Enabled
        }

    val tableRequest =
        CreateTableRequest {
            keyspaceName = keySpaceVal
            tableName = tableNameVal
            schemaDefinition = schemaDefinitionOb
            pointInTimeRecovery = timeRecovery
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response = keyClient.createTable(tableRequest)
        println("The table ARN is ${response.resourceArn}")
    }
}
```
+  Untuk detail API, lihat [CreateTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteKeyspace`
<a name="keyspaces_DeleteKeyspace_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyspace`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun deleteKeyspace(keyspaceNameVal: String?) {
    val deleteKeyspaceRequest =
        DeleteKeyspaceRequest {
            keyspaceName = keyspaceNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient.deleteKeyspace(deleteKeyspaceRequest)
    }
}
```
+  Untuk detail API, lihat [DeleteKeyspace](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteTable`
<a name="keyspaces_DeleteTable_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun deleteTable(
    keyspaceNameVal: String?,
    tableNameVal: String?,
) {
    val tableRequest =
        DeleteTableRequest {
            keyspaceName = keyspaceNameVal
            tableName = tableNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient.deleteTable(tableRequest)
    }
}
```
+  Untuk detail API, lihat [DeleteTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetKeyspace`
<a name="keyspaces_GetKeyspace_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetKeyspace`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun checkKeyspaceExistence(keyspaceNameVal: String?) {
    val keyspaceRequest =
        GetKeyspaceRequest {
            keyspaceName = keyspaceNameVal
        }
    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response: GetKeyspaceResponse = keyClient.getKeyspace(keyspaceRequest)
        val name = response.keyspaceName
        println("The $name KeySpace is ready")
    }
}
```
+  Untuk detail API, lihat [GetKeyspace](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetTable`
<a name="keyspaces_GetTable_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTable`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun checkTable(
    keyspaceNameVal: String?,
    tableNameVal: String?,
) {
    var tableStatus = false
    var status: String
    var response: GetTableResponse? = null

    val tableRequest =
        GetTableRequest {
            keyspaceName = keyspaceNameVal
            tableName = tableNameVal
        }
    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        while (!tableStatus) {
            response = keyClient.getTable(tableRequest)
            status = response!!.status.toString()
            println(". The table status is $status")
            if (status.compareTo("ACTIVE") == 0) {
                tableStatus = true
            }
            delay(500)
        }
        val cols: List<ColumnDefinition>? = response!!.schemaDefinition?.allColumns
        if (cols != null) {
            for (def in cols) {
                println("The column name is ${def.name}")
                println("The column type is ${def.type}")
            }
        }
    }
}
```
+  Untuk detail API, lihat [GetTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListKeyspaces`
<a name="keyspaces_ListKeyspaces_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeyspaces`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun listKeyspacesPaginator() {
    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient
            .listKeyspacesPaginated(ListKeyspacesRequest {})
            .transform { it.keyspaces?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println("Name: ${obj.keyspaceName}")
            }
    }
}
```
+  Untuk detail API, lihat [ListKeyspaces](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListTables`
<a name="keyspaces_ListTables_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun listTables(keyspaceNameVal: String?) {
    val tablesRequest =
        ListTablesRequest {
            keyspaceName = keyspaceNameVal
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient
            .listTablesPaginated(tablesRequest)
            .transform { it.tables?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println(" ARN: ${obj.resourceArn} Table name: ${obj.tableName}")
            }
    }
}
```
+  Untuk detail API, lihat [ListTables](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `RestoreTable`
<a name="keyspaces_RestoreTable_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RestoreTable`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun restoreTable(
    keyspaceName: String?,
    utc: ZonedDateTime,
) {
    // Create an aws.smithy.kotlin.runtime.time.Instant value.
    val timeStamp =
        aws.smithy.kotlin.runtime.time
            .Instant(utc.toInstant())
    val restoreTableRequest =
        RestoreTableRequest {
            restoreTimestamp = timeStamp
            sourceTableName = "MovieKotlin"
            targetKeyspaceName = keyspaceName
            targetTableName = "MovieRestore"
            sourceKeyspaceName = keyspaceName
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        val response = keyClient.restoreTable(restoreTableRequest)
        println("The ARN of the restored table is ${response.restoredTableArn}")
    }
}
```
+  Untuk detail API, lihat [RestoreTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `UpdateTable`
<a name="keyspaces_UpdateTable_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTable`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/keyspaces#code-examples). 

```
suspend fun updateTable(
    keySpace: String?,
    tableNameVal: String?,
) {
    val def =
        ColumnDefinition {
            name = "watched"
            type = "boolean"
        }

    val tableRequest =
        UpdateTableRequest {
            keyspaceName = keySpace
            tableName = tableNameVal
            addColumns = listOf(def)
        }

    KeyspacesClient.fromEnvironment { region = "us-east-1" }.use { keyClient ->
        keyClient.updateTable(tableRequest)
    }
}
```
+  Untuk detail API, lihat [UpdateTable](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# AWS KMS contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin with. AWS KMS

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateAlias`
<a name="kms_CreateAlias_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAlias`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun createCustomAlias(
    targetKeyIdVal: String?,
    aliasNameVal: String?,
) {
    val request =
        CreateAliasRequest {
            aliasName = aliasNameVal
            targetKeyId = targetKeyIdVal
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        kmsClient.createAlias(request)
        println("$aliasNameVal was successfully created")
    }
}
```
+  Untuk detail API, lihat [CreateAlias](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateGrant`
<a name="kms_CreateGrant_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGrant`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun createNewGrant(
    keyIdVal: String?,
    granteePrincipalVal: String?,
    operation: String,
): String? {
    val operationOb = GrantOperation.fromValue(operation)
    val grantOperationList = ArrayList<GrantOperation>()
    grantOperationList.add(operationOb)

    val request =
        CreateGrantRequest {
            keyId = keyIdVal
            granteePrincipal = granteePrincipalVal
            operations = grantOperationList
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        val response = kmsClient.createGrant(request)
        return response.grantId
    }
}
```
+  Untuk detail API, lihat [CreateGrant](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateKey`
<a name="kms_CreateKey_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun createKey(keyDesc: String?): String? {
    val request =
        CreateKeyRequest {
            description = keyDesc
            customerMasterKeySpec = CustomerMasterKeySpec.SymmetricDefault
            keyUsage = KeyUsageType.fromValue("ENCRYPT_DECRYPT")
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        val result = kmsClient.createKey(request)
        println("Created a customer key with id " + result.keyMetadata?.arn)
        return result.keyMetadata?.keyId
    }
}
```
+  Untuk detail API, lihat [CreateKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `Decrypt`
<a name="kms_Decrypt_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Decrypt`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun encryptData(keyIdValue: String): ByteArray? {
    val text = "This is the text to encrypt by using the AWS KMS Service"
    val myBytes: ByteArray = text.toByteArray()

    val encryptRequest =
        EncryptRequest {
            keyId = keyIdValue
            plaintext = myBytes
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        val response = kmsClient.encrypt(encryptRequest)
        val algorithm: String = response.encryptionAlgorithm.toString()
        println("The encryption algorithm is $algorithm")

        // Return the encrypted data.
        return response.ciphertextBlob
    }
}

suspend fun decryptData(
    encryptedDataVal: ByteArray?,
    keyIdVal: String?,
) {
    val decryptRequest =
        DecryptRequest {
            ciphertextBlob = encryptedDataVal
            keyId = keyIdVal
        }
    KmsClient { region = "us-west-2" }.use { kmsClient ->
        val decryptResponse = kmsClient.decrypt(decryptRequest)
        val myVal = decryptResponse.plaintext

        // Print the decrypted data.
        print(myVal)
    }
}
```
+  Untuk detail API, lihat [Mendekripsi](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeKey`
<a name="kms_DescribeKey_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKey`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun describeSpecifcKey(keyIdVal: String?) {
    val request =
        DescribeKeyRequest {
            keyId = keyIdVal
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        val response = kmsClient.describeKey(request)
        println("The key description is ${response.keyMetadata?.description}")
        println("The key ARN is ${response.keyMetadata?.arn}")
    }
}
```
+  Untuk detail API, lihat [DescribeKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DisableKey`
<a name="kms_DisableKey_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableKey`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun disableKey(keyIdVal: String?) {
    val request =
        DisableKeyRequest {
            keyId = keyIdVal
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        kmsClient.disableKey(request)
        println("$keyIdVal was successfully disabled")
    }
}
```
+  Untuk detail API, lihat [DisableKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `EnableKey`
<a name="kms_EnableKey_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableKey`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun enableKey(keyIdVal: String?) {
    val request =
        EnableKeyRequest {
            keyId = keyIdVal
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        kmsClient.enableKey(request)
        println("$keyIdVal was successfully enabled.")
    }
}
```
+  Untuk detail API, lihat [EnableKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `Encrypt`
<a name="kms_Encrypt_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Encrypt`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun encryptData(keyIdValue: String): ByteArray? {
    val text = "This is the text to encrypt by using the AWS KMS Service"
    val myBytes: ByteArray = text.toByteArray()

    val encryptRequest =
        EncryptRequest {
            keyId = keyIdValue
            plaintext = myBytes
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        val response = kmsClient.encrypt(encryptRequest)
        val algorithm: String = response.encryptionAlgorithm.toString()
        println("The encryption algorithm is $algorithm")

        // Return the encrypted data.
        return response.ciphertextBlob
    }
}

suspend fun decryptData(
    encryptedDataVal: ByteArray?,
    keyIdVal: String?,
) {
    val decryptRequest =
        DecryptRequest {
            ciphertextBlob = encryptedDataVal
            keyId = keyIdVal
        }
    KmsClient { region = "us-west-2" }.use { kmsClient ->
        val decryptResponse = kmsClient.decrypt(decryptRequest)
        val myVal = decryptResponse.plaintext

        // Print the decrypted data.
        print(myVal)
    }
}
```
+  Untuk detail API, lihat [Enkripsi](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `ListAliases`
<a name="kms_ListAliases_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAliases`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun listAllAliases() {
    val request =
        ListAliasesRequest {
            limit = 15
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        val response = kmsClient.listAliases(request)
        response.aliases?.forEach { alias ->
            println("The alias name is ${alias.aliasName}")
        }
    }
}
```
+  Untuk detail API, lihat [ListAliases](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListGrants`
<a name="kms_ListGrants_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGrants`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun displayGrantIds(keyIdVal: String?) {
    val request =
        ListGrantsRequest {
            keyId = keyIdVal
            limit = 15
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        val response = kmsClient.listGrants(request)
        response.grants?.forEach { grant ->
            println("The grant Id is ${grant.grantId}")
        }
    }
}
```
+  Untuk detail API, lihat [ListGrants](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListKeys`
<a name="kms_ListKeys_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeys`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/kms#code-examples). 

```
suspend fun listAllKeys() {
    val request =
        ListKeysRequest {
            limit = 15
        }

    KmsClient.fromEnvironment { region = "us-west-2" }.use { kmsClient ->
        val response = kmsClient.listKeys(request)
        response.keys?.forEach { key ->
            println("The key ARN is ${key.keyArn}")
            println("The key Id is ${key.keyId}")
        }
    }
}
```
+  Untuk detail API, lihat [ListKeys](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Lambda menggunakan SDK untuk Kotlin
<a name="kotlin_1_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Lambda.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/lambda#code-examples). 

```
suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
            <functionName> <role> <handler> <bucketName> <updatedBucketName> <key> 

        Where:
            functionName - The name of the AWS Lambda function. 
            role - The AWS Identity and Access Management (IAM) service role that has AWS Lambda permissions. 
            handler - The fully qualified method name (for example, example.Handler::handleRequest). 
            bucketName - The Amazon Simple Storage Service (Amazon S3) bucket name that contains the ZIP or JAR used for the Lambda function's code.
            updatedBucketName - The Amazon S3 bucket name that contains the .zip or .jar used to update the Lambda function's code. 
            key - The Amazon S3 key name that represents the .zip or .jar file (for example, LambdaHello-1.0-SNAPSHOT.jar).
            """

    if (args.size != 6) {
        println(usage)
        exitProcess(1)
    }

    val functionName = args[0]
    val role = args[1]
    val handler = args[2]
    val bucketName = args[3]
    val updatedBucketName = args[4]
    val key = args[5]

    println("Creating a Lambda function named $functionName.")
    val funArn = createScFunction(functionName, bucketName, key, handler, role)
    println("The AWS Lambda ARN is $funArn")

    // Get a specific Lambda function.
    println("Getting the $functionName AWS Lambda function.")
    getFunction(functionName)

    // List the Lambda functions.
    println("Listing all AWS Lambda functions.")
    listFunctionsSc()

    // Invoke the Lambda function.
    println("*** Invoke the Lambda function.")
    invokeFunctionSc(functionName)

    // Update the AWS Lambda function code.
    println("*** Update the Lambda function code.")
    updateFunctionCode(functionName, updatedBucketName, key)

    // println("*** Invoke the function again after updating the code.")
    invokeFunctionSc(functionName)

    // Update the AWS Lambda function configuration.
    println("Update the run time of the function.")
    updateFunctionConfiguration(functionName, handler)

    // Delete the AWS Lambda function.
    println("Delete the AWS Lambda function.")
    delFunction(functionName)
}

suspend fun createScFunction(
    myFunctionName: String,
    s3BucketName: String,
    myS3Key: String,
    myHandler: String,
    myRole: String,
): String {
    val functionCode =
        FunctionCode {
            s3Bucket = s3BucketName
            s3Key = myS3Key
        }

    val request =
        CreateFunctionRequest {
            functionName = myFunctionName
            code = functionCode
            description = "Created by the Lambda Kotlin API"
            handler = myHandler
            role = myRole
            runtime = Runtime.Java17
        }

    // Create a Lambda function using a waiter
    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        val functionResponse = awsLambda.createFunction(request)
        awsLambda.waitUntilFunctionActive {
            functionName = myFunctionName
        }
        return functionResponse.functionArn.toString()
    }
}

suspend fun getFunction(functionNameVal: String) {
    val functionRequest =
        GetFunctionRequest {
            functionName = functionNameVal
        }

    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        val response = awsLambda.getFunction(functionRequest)
        println("The runtime of this Lambda function is ${response.configuration?.runtime}")
    }
}

suspend fun listFunctionsSc() {
    val request =
        ListFunctionsRequest {
            maxItems = 10
        }

    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        val response = awsLambda.listFunctions(request)
        response.functions?.forEach { function ->
            println("The function name is ${function.functionName}")
        }
    }
}

suspend fun invokeFunctionSc(functionNameVal: String) {
    val json = """{"inputValue":"1000"}"""
    val byteArray = json.trimIndent().encodeToByteArray()
    val request =
        InvokeRequest {
            functionName = functionNameVal
            payload = byteArray
            logType = LogType.Tail
        }

    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        val res = awsLambda.invoke(request)
        println("The function payload is ${res.payload?.toString(Charsets.UTF_8)}")
    }
}

suspend fun updateFunctionCode(
    functionNameVal: String?,
    bucketName: String?,
    key: String?,
) {
    val functionCodeRequest =
        UpdateFunctionCodeRequest {
            functionName = functionNameVal
            publish = true
            s3Bucket = bucketName
            s3Key = key
        }

    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        val response = awsLambda.updateFunctionCode(functionCodeRequest)
        awsLambda.waitUntilFunctionUpdated {
            functionName = functionNameVal
        }
        println("The last modified value is " + response.lastModified)
    }
}

suspend fun updateFunctionConfiguration(
    functionNameVal: String?,
    handlerVal: String?,
) {
    val configurationRequest =
        UpdateFunctionConfigurationRequest {
            functionName = functionNameVal
            handler = handlerVal
            runtime = Runtime.Java17
        }

    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        awsLambda.updateFunctionConfiguration(configurationRequest)
    }
}

suspend fun delFunction(myFunctionName: String) {
    val request =
        DeleteFunctionRequest {
            functionName = myFunctionName
        }

    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        awsLambda.deleteFunction(request)
        println("$myFunctionName was deleted")
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CreateFunction](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteFunction](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetFunction](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Memohon](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListFunctions](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UpdateFunctionCode](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UpdateFunctionConfiguration](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/lambda#code-examples). 

```
suspend fun createNewFunction(
    myFunctionName: String,
    s3BucketName: String,
    myS3Key: String,
    myHandler: String,
    myRole: String,
): String? {
    val functionCode =
        FunctionCode {
            s3Bucket = s3BucketName
            s3Key = myS3Key
        }

    val request =
        CreateFunctionRequest {
            functionName = myFunctionName
            code = functionCode
            description = "Created by the Lambda Kotlin API"
            handler = myHandler
            role = myRole
            runtime = Runtime.Java17
        }

    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        val functionResponse = awsLambda.createFunction(request)
        awsLambda.waitUntilFunctionActive {
            functionName = myFunctionName
        }
        return functionResponse.functionArn
    }
}
```
+  Untuk detail API, lihat [CreateFunction](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/lambda#code-examples). 

```
suspend fun delLambdaFunction(myFunctionName: String) {
    val request =
        DeleteFunctionRequest {
            functionName = myFunctionName
        }

    LambdaClient { region = "us-east-1" }.use { awsLambda ->
        awsLambda.deleteFunction(request)
        println("$myFunctionName was deleted")
    }
}
```
+  Untuk detail API, lihat [DeleteFunction](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `Invoke`
<a name="lambda_Invoke_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/lambda#code-examples). 

```
suspend fun invokeFunction(functionNameVal: String) {
    val json = """{"inputValue":"1000"}"""
    val byteArray = json.trimIndent().encodeToByteArray()
    val request =
        InvokeRequest {
            functionName = functionNameVal
            logType = LogType.Tail
            payload = byteArray
        }

    LambdaClient { region = "us-west-2" }.use { awsLambda ->
        val res = awsLambda.invoke(request)
        println("${res.payload?.toString(Charsets.UTF_8)}")
        println("The log result is ${res.logResult}")
    }
}
```
+  Untuk detail API, lihat [Memanggil](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Kotlin**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_pam).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

# Contoh Lokasi Amazon menggunakan SDK untuk Kotlin
<a name="kotlin_1_location_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Lokasi Amazon.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Lokasi Amazon
<a name="location_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Location Service.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

In addition, you need to create a collection using the AWS Management
console. For information, see the following documentation.

https://docs.aws.amazon.com/location/latest/developerguide/geofence-gs.html

 */
suspend fun main(args: Array<String>) {
    val usage = """

        Usage:
            <colletionName>

        Where:
            colletionName - The Amazon location collection name. 
    """

    if (args.size != 1) {
        println(usage)
        exitProcess(0)
    }
    val colletionName = args[0]
    listGeofences(colletionName)
}

/**
 * Lists the geofences for the specified collection name.
 *
 * @param collectionName the name of the geofence collection
 */
suspend fun listGeofences(collectionName: String) {
    val request = ListGeofencesRequest {
        this.collectionName = collectionName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.listGeofences(request)
        val geofences = response.entries
        if (geofences.isNullOrEmpty()) {
            println("No Geofences found")
        } else {
            geofences.forEach { geofence ->
                println("Geofence ID: ${geofence.geofenceId}")
            }
        }
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [ListGeofenceCollections](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListGeofences](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="location_Scenario_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peta Lokasi Amazon.
+ Buat kunci API Lokasi Amazon.
+ Tampilkan URL Peta.
+ Buat koleksi geofence.
+ Simpan geometri geofence.
+ Buat sumber daya pelacak.
+ Perbarui posisi perangkat.
+ Ambil pembaruan posisi terbaru untuk perangkat tertentu.
+ Buat kalkulator rute.
+ Tentukan jarak antara Seattle dan Vancouver.
+ Gunakan Lokasi Amazon tingkat yang lebih tinggi APIs.
+ Hapus Aset Lokasi Amazon.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */

val scanner = Scanner(System.`in`)
val DASHES = String(CharArray(80)).replace("\u0000", "-")
suspend fun main(args: Array<String>) {
    val usage = """

        Usage:    <mapName> <keyName> <collectionName> <geoId> <trackerName> <calculatorName> <deviceId>

        Where:
            mapName - The name of the map to create (e.g., "AWSMap").
            keyName - The name of the API key to create (e.g., "AWSApiKey").
            collectionName - The name of the geofence collection (e.g., "AWSLocationCollection").
            geoId - The geographic identifier used for the geofence or map (e.g., "geoId").
            trackerName - The name of the tracker (e.g., "geoTracker").
            calculatorName - The name of the route calculator (e.g., "AWSRouteCalc").
            deviceId - The ID of the device (e.g., "iPhone-112356").
    """

    if (args.size != 7) {
        println(usage)
        exitProcess(0)
    }

    val mapName = args[0]
    val keyName = args[1]
    val collectionName = args[2]
    val geoId = args[3]
    val trackerName = args[4]
    val calculatorName = args[5]
    val deviceId = args[6]

    println(
        """
    AWS Location Service is a fully managed service offered by Amazon Web Services (AWS) that
    provides location-based services for developers. This service simplifies
    the integration of location-based features into applications, making it
    easier to build and deploy location-aware applications.

    The AWS Location Service offers a range of location-based services,
    including:

    - Maps: The service provides access to high-quality maps, satellite imagery,
      and geospatial data from various providers, allowing developers to
      easily embed maps into their applications.

    - Tracking: The Location Service enables real-time tracking of mobile devices,
      assets, or other entities, allowing developers to build applications
      that can monitor the location of people, vehicles, or other objects.

    - Geocoding: The service provides the ability to convert addresses or
      location names into geographic coordinates (latitude and longitude),
      and vice versa, enabling developers to integrate location-based search
      and routing functionality into their applications.
        """.trimIndent(),
    )

    waitForInputToContinue(scanner)
    println(DASHES)
    println("1. Create an AWS Location Service map")
    println(
        """
        An AWS Location map can enhance the user experience of your
        application by providing accurate and personalized location-based
        features. For example, you could use the geocoding capabilities to
        allow users to search for and locate businesses, landmarks, or
        other points of interest within a specific region.
            
        """.trimIndent(),
    )

    waitForInputToContinue(scanner)
    val mapArn = createMap(mapName)
    println("The Map ARN is: $mapArn")
    waitForInputToContinue(scanner)
    println(DASHES)

    waitForInputToContinue(scanner)
    println("2. Create an AWS Location API key")
    println(
        """
            When you embed a map in a web app or website, the API key is
            included in the map tile URL to authenticate requests. You can
            restrict API keys to specific AWS Location operations (e.g., only
            maps, not geocoding). API keys can expire, ensuring temporary
            access control.
            
        """.trimIndent(),
    )
    val keyArn = createKey(keyName, mapArn)
    println("The Key ARN is: $keyArn")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("3. Display Map URL")
    println(
        """
        In order to get the MAP URL, you need to get the API Key value.
        You can get the key value using the AWS Management Console under
        Location Services. This operation cannot be completed using the
        AWS SDK. For more information about getting the key value, see 
        the AWS Location Documentation.
        """.trimIndent(),
    )
    val mapUrl = "https://maps.geo.aws.amazon.com/maps/v0/maps/$mapName/tiles/{z}/{x}/{y}?key={KeyValue}"
    println("Embed this URL in your Web app: $mapUrl")
    println("")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("4. Create a geofence collection, which manages and stores geofences.")
    waitForInputToContinue(scanner)
    val collectionArn: String =
        createGeofenceCollection(collectionName)
    println("The geofence collection was successfully created: $collectionArn")
    waitForInputToContinue(scanner)

    println(DASHES)
    println("5. Store a geofence geometry in a given geofence collection.")
    println(
        """
        An AWS Location geofence is a virtual boundary that defines a geographic area
        on a map. It is a useful feature for tracking the location of
        assets or monitoring the movement of objects within a specific region.
                        
        To define a geofence, you need to specify the coordinates of a
        polygon that represents the area of interest. The polygon must be
        defined in a counter-clockwise direction, meaning that the points of
        the polygon must be listed in a counter-clockwise order.
                        
        This is a requirement for the AWS Location service to correctly
        interpret the geofence and ensure that the location data is
        accurately processed within the defined area.
        """.trimIndent(),
    )

    waitForInputToContinue(scanner)
    putGeofence(collectionName, geoId)
    println("Successfully created geofence: $geoId")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("6. Create a tracker resource which lets you retrieve current and historical location of devices.")
    waitForInputToContinue(scanner)
    val trackerArn: String = createTracker(trackerName)
    println("Successfully created tracker. ARN: $trackerArn")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("7. Update the position of a device in the location tracking system.")
    println(
        """
        The AWS location service does not enforce a strict format for deviceId, but it must:
            - Be a string (case-sensitive).
            - Be 1–100 characters long.
            - Contain only:
            - Alphanumeric characters (A-Z, a-z, 0-9)
            - Underscores (_)
            - Hyphens (-)
            - Be the same ID used when sending and retrieving positions.
            
        """.trimIndent(),
    )

    waitForInputToContinue(scanner)
    updateDevicePosition(trackerName, deviceId)
    println("$deviceId was successfully updated in the location tracking system.")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("8. Retrieve the most recent position update for a specified device.")
    waitForInputToContinue(scanner)
    val response = getDevicePosition(trackerName, deviceId)
    println("Successfully fetched device position: ${response.position}")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("9. Create a route calculator.")
    waitForInputToContinue(scanner)
    val routeResponse = createRouteCalculator(calculatorName)
    println("Route calculator created successfully: ${routeResponse.calculatorArn}")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("10. Determine the distance in kilometers between Seattle and Vancouver using the route calculator.")
    waitForInputToContinue(scanner)
    val responseDis = calcDistance(calculatorName)
    println("Successfully calculated route. The distance in kilometers is ${responseDis.summary?.distance}")
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("11. Use the GeoPlacesClient to perform additional operations.")
    println(
        """
        This scenario will show use of the GeoPlacesClient that enables  
        location search and geocoding capabilities for your applications. 
                    
        We are going to use this client to perform these AWS Location tasks:
            - Reverse Geocoding (reverseGeocode): Converts geographic coordinates into addresses.
            - Place Search (searchText): Finds places based on search queries.
            - Nearby Search (searchNearby): Finds places near a specific location.
            
        """.trimIndent(),
    )

    waitForInputToContinue(scanner)
    println("First we will perform a Reverse Geocoding operation")
    waitForInputToContinue(scanner)
    reverseGeocode()

    println("Now we are going to perform a text search using coffee shop.")
    waitForInputToContinue(scanner)
    searchText("coffee shop")
    waitForInputToContinue(scanner)

    println("Now we are going to perform a nearby Search.")
    waitForInputToContinue(scanner)
    searchNearby()
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println("12. Delete the AWS Location Services resources.")
    println("Would you like to delete the AWS Location Services resources? (y/n)")
    val delAns = scanner.nextLine().trim { it <= ' ' }
    if (delAns.equals("y", ignoreCase = true)) {
        deleteMap(mapName)
        deleteKey(keyName)
        deleteGeofenceCollection(collectionName)
        deleteTracker(trackerName)
        deleteRouteCalculator(calculatorName)
    } else {
        println("The AWS resources will not be deleted.")
    }
    waitForInputToContinue(scanner)
    println(DASHES)

    println(DASHES)
    println(" This concludes the AWS Location Service scenario.")
    println(DASHES)
}

/**
 * Deletes a route calculator from the system.
 * @param calcName the name of the route calculator to delete
 */
suspend fun deleteRouteCalculator(calcName: String) {
    val calculatorRequest = DeleteRouteCalculatorRequest {
        this.calculatorName = calcName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.deleteRouteCalculator(calculatorRequest)
        println("The route calculator $calcName was deleted.")
    }
}


/**
 * Deletes a tracker with the specified name.
 * @param trackerName the name of the tracker to be deleted
 */
suspend fun deleteTracker(trackerName: String) {
    val trackerRequest = DeleteTrackerRequest {
        this.trackerName = trackerName
    }

    LocationClient { region = "us-east-1" }.use { client ->
        client.deleteTracker(trackerRequest)
        println("The tracker $trackerName was deleted.")
    }
}


/**
 * Deletes a geofence collection.
 *
 * @param collectionName the name of the geofence collection to be deleted
 * @return a {@link CompletableFuture} that completes when the geofence collection has been deleted
 */
suspend fun deleteGeofenceCollection(collectionName: String) {
    val collectionRequest = DeleteGeofenceCollectionRequest {
        this.collectionName = collectionName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.deleteGeofenceCollection(collectionRequest)
        println("The geofence collection $collectionName was deleted.")
    }
}

/**
 * Deletes the specified key from the key-value store.
 *
 * @param keyName the name of the key to be deleted
 */
suspend fun deleteKey(keyName: String) {
    val keyRequest = DeleteKeyRequest {
        this.keyName = keyName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.deleteKey(keyRequest)
        println("The key $keyName was deleted.")
    }
}

/**
 * Deletes the specified key from the key-value store.
 *
 * @param keyName the name of the key to be deleted
 */
suspend fun deleteMap(mapName: String) {
    val mapRequest = DeleteMapRequest {
        this.mapName = mapName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.deleteMap(mapRequest)
        println("The map $mapName was deleted.")
    }
}


/**
 * Performs a nearby places search based on the provided geographic coordinates (latitude and longitude).
 * The method sends an asynchronous request to search for places within a 1-kilometer radius of the specified location.
 * The results are processed and printed once the search completes successfully.
 */
suspend fun searchNearby() {
    val latitude = 37.7749
    val longitude = -122.4194
    val queryPosition = listOf(longitude, latitude)

    // Set up the request for searching nearby places.
    val request = SearchNearbyRequest {
        this.queryPosition = queryPosition
        this.queryRadius = 1000L
    }

    GeoPlacesClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.searchNearby(request)

        // Process the response and print the results.
        response.resultItems?.forEach { result ->
            println("Title: ${result.title}")
            println("Address: ${result.address?.label}")
            println("Distance: ${result.distance} meters")
            println("-------------------------")
        }
    }
}


/**
 * Searches for a place using the provided search query and prints the detailed information of the first result.
 *
 * @param searchQuery the search query to be used for the place search (ex, coffee shop)
 */
suspend fun searchText(searchQuery: String) {
    val latitude = 37.7749
    val longitude = -122.4194
    val queryPosition = listOf(longitude, latitude)

    val request = SearchTextRequest {
        this.queryText = searchQuery
        this.biasPosition = queryPosition
    }

    GeoPlacesClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.searchText(request)

        response.resultItems?.firstOrNull()?.let { result ->
            val placeId = result.placeId // Get Place ID
            println("Found Place with id: $placeId")

            // Fetch detailed info using getPlace.
            val getPlaceRequest = GetPlaceRequest {
                this.placeId = placeId
            }

            val placeResponse = client.getPlace(getPlaceRequest)

            // Print detailed place information.
            println("Detailed Place Information:")
            println("Title: ${placeResponse.title}")
            println("Address: ${placeResponse.address?.label}")

            // Print each food type (if any).
            placeResponse.foodTypes?.takeIf { it.isNotEmpty() }?.let {
                println("Food Types:")
                it.forEach { foodType ->
                    println("  - $foodType")
                }
            } ?: run {
                println("No food types available.")
            }

            println("-------------------------")
        }
    }
}

/**
 * Performs reverse geocoding using the AWS Geo Places API.
 * Reverse geocoding is the process of converting geographic coordinates (latitude and longitude) to a human-readable address.
 * This method uses the latitude and longitude of San Francisco as the input, and prints the resulting address.
 */
suspend fun reverseGeocode() {
    val latitude = 37.7749
    val longitude = -122.4194
    println("Use latitude 37.7749 and longitude -122.4194")

    // AWS expects [longitude, latitude].
    val queryPosition = listOf(longitude, latitude)
    val request = ReverseGeocodeRequest {
        this.queryPosition = queryPosition
    }

    GeoPlacesClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.reverseGeocode(request)
        response.resultItems?.forEach { result ->
            println("The address is: ${result.address?.label}")
        }
    }
}


/**
 * Calculates the distance between two locations.
 *
 * @param routeCalcName the name of the route calculator to use
 * @return a {@link CompletableFuture} that will complete with a {@link CalculateRouteResponse} containing the distance and estimated duration of the route
 */
suspend fun calcDistance(routeCalcName: String): CalculateRouteResponse {
    // Define coordinates for Seattle, WA and Vancouver, BC.
    val departurePosition = listOf(-122.3321, 47.6062)
    val arrivePosition = listOf(-123.1216, 49.2827)

    val request = CalculateRouteRequest {
        this.calculatorName = routeCalcName
        this.departurePosition = departurePosition
        this.destinationPosition = arrivePosition
        this.travelMode = TravelMode.Car // Options: Car, Truck, Walking, Bicycle
        this.distanceUnit = DistanceUnit.Kilometers // Options: Meters, Kilometers, Miles
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        return client.calculateRoute(request)
    }
}

/**
 * Creates a new route calculator with the specified name and data source.
 *
 * @param routeCalcName the name of the route calculator to be created
 */
suspend fun createRouteCalculator(routeCalcName: String): CreateRouteCalculatorResponse {
    val dataSource = "Esri"

    val request = CreateRouteCalculatorRequest {
        this.calculatorName = routeCalcName
        this.dataSource = dataSource
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        return client.createRouteCalculator(request)
    }
}

/**
 * Retrieves the position of a device using the provided LocationClient.
 *
 * @param trackerName The name of the tracker associated with the device.
 * @param deviceId    The ID of the device to retrieve the position for.
 */
suspend fun getDevicePosition(trackerName: String, deviceId: String): GetDevicePositionResponse {
    val request = GetDevicePositionRequest {
        this.trackerName = trackerName
        this.deviceId = deviceId
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        return client.getDevicePosition(request)
    }
}

/**
 * Updates the position of a device in the location tracking system.
 *
 * @param trackerName the name of the tracker associated with the device
 * @param deviceId    the unique identifier of the device
 */
suspend fun updateDevicePosition(trackerName: String, deviceId: String) {
    val latitude = 37.7749
    val longitude = -122.4194

    val positionUpdate = DevicePositionUpdate {
        this.deviceId = deviceId
        sampleTime = aws.smithy.kotlin.runtime.time.Instant.now() // Timestamp of position update.
        position = listOf(longitude, latitude) // AWS requires [longitude, latitude]
    }

    val request = BatchUpdateDevicePositionRequest {
        this.trackerName = trackerName
        updates = listOf(positionUpdate)
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.batchUpdateDevicePosition(request)
    }
}

/**
 * Creates a new tracker resource in your AWS account, which you can use to track the location of devices.
 *
 * @param trackerName the name of the tracker to be created
 * @return a {@link CompletableFuture} that, when completed, will contain the Amazon Resource Name (ARN) of the created tracker
 */
suspend fun createTracker(trackerName: String): String {
    val trackerRequest = CreateTrackerRequest {
        description = "Created using the Kotlin SDK"
        this.trackerName = trackerName
        positionFiltering = PositionFiltering.TimeBased // Options: TimeBased, DistanceBased, AccuracyBased
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.createTracker(trackerRequest)
        return response.trackerArn
    }
}

/**
 * Adds a new geofence to the specified collection.
 *
 * @param collectionName the name of the geofence collection to add the geofence to
 * @param geoId          the unique identifier for the geofence
 */
suspend fun putGeofence(collectionName: String, geoId: String) {
    val geofenceGeometry = GeofenceGeometry {
        polygon = listOf(
            listOf(
                listOf(-122.3381, 47.6101),
                listOf(-122.3281, 47.6101),
                listOf(-122.3281, 47.6201),
                listOf(-122.3381, 47.6201),
                listOf(-122.3381, 47.6101),
            ),
        )
    }

    val geofenceRequest = PutGeofenceRequest {
        this.collectionName = collectionName
        this.geofenceId = geoId
        this.geometry = geofenceGeometry
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.putGeofence(geofenceRequest)
    }
}

/**
 * Creates a new geofence collection.
 *
 * @param collectionName the name of the geofence collection to be created
 */
suspend fun createGeofenceCollection(collectionName: String): String {
    val collectionRequest = CreateGeofenceCollectionRequest {
        this.collectionName = collectionName
        description = "Created by using the AWS SDK for Kotlin"
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.createGeofenceCollection(collectionRequest)
        return response.collectionArn
    }
}

/**
 * Creates a new API key with the specified name and restrictions.
 *
 * @param keyName the name of the API key to be created
 * @param mapArn  the Amazon Resource Name (ARN) of the map resource to which the API key will be associated
 * @return the Amazon Resource Name (ARN) of the created API key
 */
suspend fun createKey(keyName: String, mapArn: String): String {
    val keyRestrictions = ApiKeyRestrictions {
        allowActions = listOf("geo:GetMap*")
        allowResources = listOf(mapArn)
    }

    val request = CreateKeyRequest {
        this.keyName = keyName
        this.restrictions = keyRestrictions
        noExpiry = true
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.createKey(request)
        return response.keyArn
    }
}

/**
 * Creates a new map with the specified name and configuration.
 *
 * @param mapName the name of the map to be created
 * @return he Amazon Resource Name (ARN) of the created map
 */
suspend fun createMap(mapName: String): String {
    val configuration = MapConfiguration {
        style = "VectorEsriNavigation"
    }

    val mapRequest = CreateMapRequest {
        this.mapName = mapName
        this.configuration = configuration
        description = "A map created using the Kotlin SDK"
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.createMap(mapRequest)
        return response.mapArn
    }
}

fun waitForInputToContinue(scanner: Scanner) {
    while (true) {
        println("")
        println("Enter 'c' followed by <ENTER> to continue:")
        val input = scanner.nextLine()
        if (input.trim { it <= ' ' }.equals("c", ignoreCase = true)) {
            println("Continuing with the program...")
            println("")
            break
        } else {
            println("Invalid input. Please try again.")
        }
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [BatchUpdateDevicePosition](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CalculateRoute](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateGeofenceCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateMap](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateRouteCalculator](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateTracker](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteGeofenceCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteMap](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteRouteCalculator](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteTracker](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetDevicePosition](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutGeofence](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `BatchUpdateDevicePosition`
<a name="location_BatchUpdateDevicePosition_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchUpdateDevicePosition`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Updates the position of a device in the location tracking system.
 *
 * @param trackerName the name of the tracker associated with the device
 * @param deviceId    the unique identifier of the device
 */
suspend fun updateDevicePosition(trackerName: String, deviceId: String) {
    val latitude = 37.7749
    val longitude = -122.4194

    val positionUpdate = DevicePositionUpdate {
        this.deviceId = deviceId
        sampleTime = aws.smithy.kotlin.runtime.time.Instant.now() // Timestamp of position update.
        position = listOf(longitude, latitude) // AWS requires [longitude, latitude]
    }

    val request = BatchUpdateDevicePositionRequest {
        this.trackerName = trackerName
        updates = listOf(positionUpdate)
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.batchUpdateDevicePosition(request)
    }
}
```
+  Untuk detail API, lihat [BatchUpdateDevicePosition](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CalculateRoute`
<a name="location_CalculateRoute_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CalculateRoute`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Calculates the distance between two locations.
 *
 * @param routeCalcName the name of the route calculator to use
 * @return a {@link CompletableFuture} that will complete with a {@link CalculateRouteResponse} containing the distance and estimated duration of the route
 */
suspend fun calcDistance(routeCalcName: String): CalculateRouteResponse {
    // Define coordinates for Seattle, WA and Vancouver, BC.
    val departurePosition = listOf(-122.3321, 47.6062)
    val arrivePosition = listOf(-123.1216, 49.2827)

    val request = CalculateRouteRequest {
        this.calculatorName = routeCalcName
        this.departurePosition = departurePosition
        this.destinationPosition = arrivePosition
        this.travelMode = TravelMode.Car // Options: Car, Truck, Walking, Bicycle
        this.distanceUnit = DistanceUnit.Kilometers // Options: Meters, Kilometers, Miles
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        return client.calculateRoute(request)
    }
}
```
+  Untuk detail API, lihat [CalculateRoute](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateGeofenceCollection`
<a name="location_CreateGeofenceCollection_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGeofenceCollection`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Creates a new geofence collection.
 *
 * @param collectionName the name of the geofence collection to be created
 */
suspend fun createGeofenceCollection(collectionName: String): String {
    val collectionRequest = CreateGeofenceCollectionRequest {
        this.collectionName = collectionName
        description = "Created by using the AWS SDK for Kotlin"
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.createGeofenceCollection(collectionRequest)
        return response.collectionArn
    }
}
```
+  Untuk detail API, lihat [CreateGeofenceCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateKey`
<a name="location_CreateKey_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Creates a new API key with the specified name and restrictions.
 *
 * @param keyName the name of the API key to be created
 * @param mapArn  the Amazon Resource Name (ARN) of the map resource to which the API key will be associated
 * @return the Amazon Resource Name (ARN) of the created API key
 */
suspend fun createKey(keyName: String, mapArn: String): String {
    val keyRestrictions = ApiKeyRestrictions {
        allowActions = listOf("geo:GetMap*")
        allowResources = listOf(mapArn)
    }

    val request = CreateKeyRequest {
        this.keyName = keyName
        this.restrictions = keyRestrictions
        noExpiry = true
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.createKey(request)
        return response.keyArn
    }
}
```
+  Untuk detail API, lihat [CreateKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateMap`
<a name="location_CreateMap_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMap`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Creates a new map with the specified name and configuration.
 *
 * @param mapName the name of the map to be created
 * @return he Amazon Resource Name (ARN) of the created map
 */
suspend fun createMap(mapName: String): String {
    val configuration = MapConfiguration {
        style = "VectorEsriNavigation"
    }

    val mapRequest = CreateMapRequest {
        this.mapName = mapName
        this.configuration = configuration
        description = "A map created using the Kotlin SDK"
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.createMap(mapRequest)
        return response.mapArn
    }
}
```
+  Untuk detail API, lihat [CreateMap](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateRouteCalculator`
<a name="location_CreateRouteCalculator_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRouteCalculator`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Creates a new route calculator with the specified name and data source.
 *
 * @param routeCalcName the name of the route calculator to be created
 */
suspend fun createRouteCalculator(routeCalcName: String): CreateRouteCalculatorResponse {
    val dataSource = "Esri"

    val request = CreateRouteCalculatorRequest {
        this.calculatorName = routeCalcName
        this.dataSource = dataSource
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        return client.createRouteCalculator(request)
    }
}
```
+  Untuk detail API, lihat [CreateRouteCalculator](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateTracker`
<a name="location_CreateTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTracker`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Creates a new tracker resource in your AWS account, which you can use to track the location of devices.
 *
 * @param trackerName the name of the tracker to be created
 * @return a {@link CompletableFuture} that, when completed, will contain the Amazon Resource Name (ARN) of the created tracker
 */
suspend fun createTracker(trackerName: String): String {
    val trackerRequest = CreateTrackerRequest {
        description = "Created using the Kotlin SDK"
        this.trackerName = trackerName
        positionFiltering = PositionFiltering.TimeBased // Options: TimeBased, DistanceBased, AccuracyBased
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        val response = client.createTracker(trackerRequest)
        return response.trackerArn
    }
}
```
+  Untuk detail API, lihat [CreateTracker](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteGeofenceCollection`
<a name="location_DeleteGeofenceCollection_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteGeofenceCollection`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Deletes a geofence collection.
 *
 * @param collectionName the name of the geofence collection to be deleted
 * @return a {@link CompletableFuture} that completes when the geofence collection has been deleted
 */
suspend fun deleteGeofenceCollection(collectionName: String) {
    val collectionRequest = DeleteGeofenceCollectionRequest {
        this.collectionName = collectionName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.deleteGeofenceCollection(collectionRequest)
        println("The geofence collection $collectionName was deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteGeofenceCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteKey`
<a name="location_DeleteKey_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKey`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Deletes the specified key from the key-value store.
 *
 * @param keyName the name of the key to be deleted
 */
suspend fun deleteKey(keyName: String) {
    val keyRequest = DeleteKeyRequest {
        this.keyName = keyName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.deleteKey(keyRequest)
        println("The key $keyName was deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteKey](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteMap`
<a name="location_DeleteMap_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMap`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Deletes the specified key from the key-value store.
 *
 * @param keyName the name of the key to be deleted
 */
suspend fun deleteMap(mapName: String) {
    val mapRequest = DeleteMapRequest {
        this.mapName = mapName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.deleteMap(mapRequest)
        println("The map $mapName was deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteMap](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteRouteCalculator`
<a name="location_DeleteRouteCalculator_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRouteCalculator`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Deletes a route calculator from the system.
 * @param calcName the name of the route calculator to delete
 */
suspend fun deleteRouteCalculator(calcName: String) {
    val calculatorRequest = DeleteRouteCalculatorRequest {
        this.calculatorName = calcName
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.deleteRouteCalculator(calculatorRequest)
        println("The route calculator $calcName was deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteRouteCalculator](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteTracker`
<a name="location_DeleteTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTracker`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Deletes a tracker with the specified name.
 * @param trackerName the name of the tracker to be deleted
 */
suspend fun deleteTracker(trackerName: String) {
    val trackerRequest = DeleteTrackerRequest {
        this.trackerName = trackerName
    }

    LocationClient { region = "us-east-1" }.use { client ->
        client.deleteTracker(trackerRequest)
        println("The tracker $trackerName was deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteTracker](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetDevicePosition`
<a name="location_GetDevicePosition_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDevicePosition`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Retrieves the position of a device using the provided LocationClient.
 *
 * @param trackerName The name of the tracker associated with the device.
 * @param deviceId    The ID of the device to retrieve the position for.
 */
suspend fun getDevicePosition(trackerName: String, deviceId: String): GetDevicePositionResponse {
    val request = GetDevicePositionRequest {
        this.trackerName = trackerName
        this.deviceId = deviceId
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        return client.getDevicePosition(request)
    }
}
```
+  Untuk detail API, lihat [GetDevicePosition](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutGeofence`
<a name="location_PutGeofence_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutGeofence`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/location#code-examples). 

```
/**
 * Adds a new geofence to the specified collection.
 *
 * @param collectionName the name of the geofence collection to add the geofence to
 * @param geoId          the unique identifier for the geofence
 */
suspend fun putGeofence(collectionName: String, geoId: String) {
    val geofenceGeometry = GeofenceGeometry {
        polygon = listOf(
            listOf(
                listOf(-122.3381, 47.6101),
                listOf(-122.3281, 47.6101),
                listOf(-122.3281, 47.6201),
                listOf(-122.3381, 47.6201),
                listOf(-122.3381, 47.6101),
            ),
        )
    }

    val geofenceRequest = PutGeofenceRequest {
        this.collectionName = collectionName
        this.geofenceId = geoId
        this.geometry = geofenceGeometry
    }

    LocationClient.fromEnvironment { region = "us-east-1" }.use { client ->
        client.putGeofence(geofenceRequest)
    }
}
```
+  Untuk detail API, lihat [PutGeofence](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# MediaConvert contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_mediaconvert_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin with. MediaConvert

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateJob`
<a name="mediaconvert_CreateJob_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/mediaconvert#code-examples). 

```
suspend fun createMediaJob(
    mcClient: MediaConvertClient,
    mcRoleARN: String,
    fileInput1: String,
): String? {
    // Step 1: Describe endpoints to get the MediaConvert endpoint URL
    val describeResponse = mcClient.describeEndpoints(
        DescribeEndpointsRequest {
            maxResults = 1
        },
    )

    val endpointUrl = describeResponse.endpoints?.firstOrNull()?.url
        ?: error("No MediaConvert endpoint found")

    // Step 2: Create MediaConvert client with resolved endpoint
    val mediaConvert = MediaConvertClient.fromEnvironment {
        region = "us-west-2"
        endpointProvider = MediaConvertEndpointProvider {
            Endpoint(endpointUrl)
        }
    }

    // Output destination folder in S3 - put in 'output/' folder beside input
    val outputDestination = fileInput1.substringBeforeLast('/') + "/output/"

    // Step 3: Create the job request with minimal valid video codec settings
    val jobRequest = CreateJobRequest {
        role = mcRoleARN
        settings = JobSettings {
            inputs = listOf(
                Input {
                    fileInput = fileInput1
                },
            )
            outputGroups = listOf(
                OutputGroup {
                    outputGroupSettings = OutputGroupSettings {
                        type = OutputGroupType.FileGroupSettings
                        fileGroupSettings = FileGroupSettings {
                            destination = outputDestination
                        }
                    }
                    outputs = listOf(
                        Output {
                            containerSettings = ContainerSettings {
                                container = ContainerType.Mp4
                            }
                            videoDescription = VideoDescription {
                                width = 1280
                                height = 720
                                codecSettings = VideoCodecSettings {
                                    codec = VideoCodec.H264
                                    h264Settings = H264Settings {
                                        rateControlMode = H264RateControlMode.Qvbr
                                        qvbrSettings = H264QvbrSettings {
                                            qvbrQualityLevel = 7
                                        }
                                        maxBitrate = 5_000_000
                                        codecLevel = H264CodecLevel.Auto
                                        codecProfile = H264CodecProfile.Main
                                        framerateControl = H264FramerateControl.InitializeFromSource
                                    }
                                }
                            }
                        },
                    )
                },
            )
        }
    }

    // Step 4: Call MediaConvert to create the job
    val response = mediaConvert.createJob(jobRequest)

    // Return the job ID or null if not found
    return response.job?.id
}
```
+  Untuk detail API, lihat [CreateJob](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetJob`
<a name="mediaconvert_GetJob_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJob`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/mediaconvert#code-examples). 

```
suspend fun getSpecificJob(mcClient: MediaConvertClient, jobId: String) {
    // 1. Discover the correct endpoint
    val res = mcClient.describeEndpoints(DescribeEndpointsRequest { maxResults = 1 })
    var endpointUrl = res.endpoints?.firstOrNull()?.url
        ?: error(" No MediaConvert endpoint found")

    // 2. Create a new client using the endpoint
    val clientWithEndpoint = MediaConvertClient {
        region = "us-west-2"
        endpointUrl = endpointUrl
    }

    // 3. Get the job details
    val jobResponse = clientWithEndpoint.getJob(GetJobRequest { id = jobId })
    val job = jobResponse.job

    println("Job status: ${job?.status}")
    println("Job ARN: ${job?.arn}")
    println("Output group count: ${job?.settings?.outputGroups?.size}")
}
```
+  Untuk detail API, lihat [GetJob](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListJobs`
<a name="mediaconvert_ListJobs_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/mediaconvert#code-examples). 

```
suspend fun listCompleteJobs(mcClient: MediaConvertClient) {
    val describeEndpoints =
        DescribeEndpointsRequest {
            maxResults = 20
        }

    val res = mcClient.describeEndpoints(describeEndpoints)
    if (res.endpoints?.size!! <= 0) {
        println("Cannot find MediaConvert service endpoint URL!")
        exitProcess(0)
    }
    val endpointURL = res.endpoints!![0].url!!
    val mediaConvert =
        MediaConvertClient.fromEnvironment {
            region = "us-west-2"
            endpointProvider =
                MediaConvertEndpointProvider {
                    Endpoint(endpointURL)
                }
        }

    val jobsRequest =
        ListJobsRequest {
            maxResults = 10
            status = JobStatus.fromValue("COMPLETE")
        }

    val jobsResponse = mediaConvert.listJobs(jobsRequest)
    val jobs = jobsResponse.jobs
    if (jobs != null) {
        for (job in jobs) {
            println("The JOB ARN is ${job.arn}")
        }
    }
}
```
+  Untuk detail API, lihat [ListJobs](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Amazon Pinpoint contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_pinpoint_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon Pinpoint.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateApp`
<a name="pinpoint_CreateApp_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateApp`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/pinpoint#code-examples). 

```
suspend fun createApplication(applicationName: String?): String? {
    val createApplicationRequestOb =
        CreateApplicationRequest {
            name = applicationName
        }

    PinpointClient.fromEnvironment { region = "us-west-2" }.use { pinpoint ->
        val result =
            pinpoint.createApp(
                CreateAppRequest {
                    createApplicationRequest = createApplicationRequestOb
                },
            )
        return result.applicationResponse?.id
    }
}
```
+  Untuk detail API, lihat [CreateApp](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateCampaign`
<a name="pinpoint_CreateCampaign_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCampaign`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/pinpoint#code-examples). 

```
suspend fun createPinCampaign(
    appId: String,
    segmentIdVal: String,
) {
    val scheduleOb =
        Schedule {
            startTime = "IMMEDIATE"
        }

    val defaultMessageOb =
        Message {
            action = Action.OpenApp
            body = "My message body"
            title = "My message title"
        }

    val messageConfigurationOb =
        MessageConfiguration {
            defaultMessage = defaultMessageOb
        }

    val writeCampaign =
        WriteCampaignRequest {
            description = "My description"
            schedule = scheduleOb
            name = "MyCampaign"
            segmentId = segmentIdVal
            messageConfiguration = messageConfigurationOb
        }

    PinpointClient.fromEnvironment { region = "us-west-2" }.use { pinpoint ->
        val result: CreateCampaignResponse =
            pinpoint.createCampaign(
                CreateCampaignRequest {
                    applicationId = appId
                    writeCampaignRequest = writeCampaign
                },
            )
        println("Campaign ID is ${result.campaignResponse?.id}")
    }
}
```
+  Untuk detail API, lihat [CreateCampaign](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateSegment`
<a name="pinpoint_CreateSegment_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSegment`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/pinpoint#code-examples). 

```
suspend fun createPinpointSegment(applicationIdVal: String?): String? {
    val segmentAttributes = mutableMapOf<String, AttributeDimension>()
    val myList = mutableListOf<String>()
    myList.add("Lakers")

    val atts =
        AttributeDimension {
            attributeType = AttributeType.Inclusive
            values = myList
        }

    segmentAttributes["Team"] = atts
    val recencyDimension =
        RecencyDimension {
            duration = Duration.fromValue("DAY_30")
            recencyType = RecencyType.fromValue("ACTIVE")
        }

    val segmentBehaviors =
        SegmentBehaviors {
            recency = recencyDimension
        }

    val segmentLocation = SegmentLocation {}
    val dimensionsOb =
        SegmentDimensions {
            attributes = segmentAttributes
            behavior = segmentBehaviors
            demographic = SegmentDemographics {}
            location = segmentLocation
        }

    val writeSegmentRequestOb =
        WriteSegmentRequest {
            name = "MySegment101"
            dimensions = dimensionsOb
        }

    PinpointClient.fromEnvironment { region = "us-west-2" }.use { pinpoint ->
        val createSegmentResult: CreateSegmentResponse =
            pinpoint.createSegment(
                CreateSegmentRequest {
                    applicationId = applicationIdVal
                    writeSegmentRequest = writeSegmentRequestOb
                },
            )
        println("Segment ID is ${createSegmentResult.segmentResponse?.id}")
        return createSegmentResult.segmentResponse?.id
    }
}
```
+  Untuk detail API, lihat [CreateSegment](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteApp`
<a name="pinpoint_DeleteApp_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteApp`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/pinpoint#code-examples). 

```
suspend fun deletePinApp(appId: String?) {
    PinpointClient.fromEnvironment { region = "us-west-2" }.use { pinpoint ->
        val result =
            pinpoint.deleteApp(
                DeleteAppRequest {
                    applicationId = appId
                },
            )
        val appName = result.applicationResponse?.name
        println("Application $appName has been deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteApp](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteEndpoint`
<a name="pinpoint_DeleteEndpoint_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEndpoint`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/pinpoint#code-examples). 

```
suspend fun deletePinEncpoint(
    appIdVal: String?,
    endpointIdVal: String?,
) {
    val deleteEndpointRequest =
        DeleteEndpointRequest {
            applicationId = appIdVal
            endpointId = endpointIdVal
        }

    PinpointClient.fromEnvironment { region = "us-west-2" }.use { pinpoint ->
        val result = pinpoint.deleteEndpoint(deleteEndpointRequest)
        val id = result.endpointResponse?.id
        println("The deleted endpoint is  $id")
    }
}
```
+  Untuk detail API, lihat [DeleteEndpoint](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetEndpoint`
<a name="pinpoint_GetEndpoint_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetEndpoint`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/pinpoint#code-examples). 

```
suspend fun lookupPinpointEndpoint(
    appId: String?,
    endpoint: String?,
) {
    PinpointClient.fromEnvironment { region = "us-west-2" }.use { pinpoint ->
        val result =
            pinpoint.getEndpoint(
                GetEndpointRequest {
                    applicationId = appId
                    endpointId = endpoint
                },
            )
        val endResponse = result.endpointResponse

        // Uses the Google Gson library to pretty print the endpoint JSON.
        val gson: com.google.gson.Gson =
            GsonBuilder()
                .setFieldNamingPolicy(FieldNamingPolicy.UPPER_CAMEL_CASE)
                .setPrettyPrinting()
                .create()

        val endpointJson: String = gson.toJson(endResponse)
        println(endpointJson)
    }
}
```
+  Untuk detail API, lihat [GetEndpoint](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetSegments`
<a name="pinpoint_GetSegments_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSegments`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/pinpoint#code-examples). 

```
suspend fun listSegs(appId: String?) {
    PinpointClient.fromEnvironment { region = "us-west-2" }.use { pinpoint ->
        val response =
            pinpoint.getSegments(
                GetSegmentsRequest {
                    applicationId = appId
                },
            )
        response.segmentsResponse?.item?.forEach { segment ->
            println("Segement id is ${segment.id}")
        }
    }
}
```
+  Untuk detail API, lihat [GetSegments](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `SendMessages`
<a name="pinpoint_SendMessages_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessages`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/pinpoint#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */

val body: String =
    """
    Amazon Pinpoint test (AWS SDK for Kotlin)
            
    This email was sent through the Amazon Pinpoint Email API using the AWS SDK for Kotlin.
                            
    """.trimIndent()

suspend fun main(args: Array<String>) {
    val usage = """
    Usage: 
        <subject> <appId> <senderAddress> <toAddress>

    Where:
        subject - The email subject to use.
        senderAddress - The from address. This address has to be verified in Amazon Pinpoint in the region you're using to send email 
        toAddress - The to address. This address has to be verified in Amazon Pinpoint in the region you're using to send email 
    """

    if (args.size != 3) {
        println(usage)
        exitProcess(0)
    }

    val subject = args[0]
    val senderAddress = args[1]
    val toAddress = args[2]
    sendEmail(subject, senderAddress, toAddress)
}

suspend fun sendEmail(
    subjectVal: String?,
    senderAddress: String,
    toAddressVal: String,
) {
    var content =
        Content {
            data = body
        }

    val messageBody =
        Body {
            text = content
        }

    val subContent =
        Content {
            data = subjectVal
        }

    val message =
        Message {
            body = messageBody
            subject = subContent
        }

    val destinationOb =
        Destination {
            toAddresses = listOf(toAddressVal)
        }

    val emailContent =
        EmailContent {
            simple = message
        }

    val sendEmailRequest =
        SendEmailRequest {
            fromEmailAddress = senderAddress
            destination = destinationOb
            this.content = emailContent
        }

    PinpointEmailClient.fromEnvironment { region = "us-east-1" }.use { pinpointemail ->
        pinpointemail.sendEmail(sendEmailRequest)
        println("Message Sent")
    }
}
```
+  Untuk detail API, lihat [SendMessages](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon RDS menggunakan SDK untuk Kotlin
<a name="kotlin_1_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon RDS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="rds_Scenario_GetStartedInstances_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter basis data kustom dan mengatur nilai parameter.
+ Membuat instans basis data yang dikonfigurasikan untuk menggunakan grup parameter. Instans basis data juga berisi basis data.
+ Mengambil cuplikan instans.
+ Menghapus instans dan grup parameter.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
/**
Before running this code example, set up your development environment, including your credentials.

For more information, see the following documentation topic:

https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

This example requires an AWS Secrets Manager secret that contains the database credentials. If you do not create a
secret, this example will not work. For more details, see:

https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html

This example performs the following tasks:

1. Returns a list of the available DB engines by invoking the DescribeDbEngineVersions method.
2. Selects an engine family and create a custom DB parameter group by invoking the createDBParameterGroup method.
3. Gets the parameter groups by invoking the DescribeDbParameterGroups method.
4. Gets parameters in the group by invoking the DescribeDbParameters method.
5. Modifies both the auto_increment_offset and auto_increment_increment parameters by invoking the modifyDbParameterGroup method.
6. Gets and displays the updated parameters.
7. Gets a list of allowed engine versions by invoking the describeDbEngineVersions method.
8. Gets a list of micro instance classes available for the selected engine.
9. Creates an Amazon Relational Database Service (Amazon RDS) database instance that contains a MySQL database and uses the parameter group.
10. Waits for DB instance to be ready and prints out the connection endpoint value.
11. Creates a snapshot of the DB instance.
12. Waits for the DB snapshot to be ready.
13. Deletes the DB instance.
14. Deletes the parameter group.
 */

var sleepTime: Long = 20

suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
            <dbGroupName> <dbParameterGroupFamily> <dbInstanceIdentifier> <dbName> <dbSnapshotIdentifier><secretName>

        Where:
            dbGroupName - The database group name. 
            dbParameterGroupFamily - The database parameter group name.
            dbInstanceIdentifier - The database instance identifier. 
            dbName -  The database name. 
            dbSnapshotIdentifier - The snapshot identifier. 
            secretName - The name of the AWS Secrets Manager secret that contains the database credentials.
    """

    if (args.size != 6) {
        println(usage)
        exitProcess(1)
    }

    val dbGroupName = args[0]
    val dbParameterGroupFamily = args[1]
    val dbInstanceIdentifier = args[2]
    val dbName = args[3]
    val dbSnapshotIdentifier = args[4]
    val secretName = args[5]

    val gson = Gson()
    val user = gson.fromJson(getSecretValues(secretName).toString(), User::class.java)
    val username = user.username
    val userPassword = user.password

    println("1. Return a list of the available DB engines")
    describeDBEngines()

    println("2. Create a custom parameter group")
    createDBParameterGroup(dbGroupName, dbParameterGroupFamily)

    println("3. Get the parameter groups")
    describeDbParameterGroups(dbGroupName)

    println("4. Get the parameters in the group")
    describeDbParameters(dbGroupName, 0)

    println("5. Modify the auto_increment_offset parameter")
    modifyDBParas(dbGroupName)

    println("6. Display the updated value")
    describeDbParameters(dbGroupName, -1)

    println("7. Get a list of allowed engine versions")
    getAllowedEngines(dbParameterGroupFamily)

    println("8. Get a list of micro instance classes available for the selected engine")
    getMicroInstances()

    println("9. Create an RDS database instance that contains a MySql database and uses the parameter group")
    val dbARN = createDatabaseInstance(dbGroupName, dbInstanceIdentifier, dbName, username, userPassword)
    println("The ARN of the new database is $dbARN")

    println("10. Wait for DB instance to be ready")
    waitForDbInstanceReady(dbInstanceIdentifier)

    println("11. Create a snapshot of the DB instance")
    createDbSnapshot(dbInstanceIdentifier, dbSnapshotIdentifier)

    println("12. Wait for DB snapshot to be ready")
    waitForSnapshotReady(dbInstanceIdentifier, dbSnapshotIdentifier)

    println("13. Delete the DB instance")
    deleteDbInstance(dbInstanceIdentifier)

    println("14. Delete the parameter group")
    if (dbARN != null) {
        deleteParaGroup(dbGroupName, dbARN)
    }

    println("The Scenario has successfully completed.")
}

suspend fun deleteParaGroup(
    dbGroupName: String,
    dbARN: String,
) {
    var isDataDel = false
    var didFind: Boolean
    var instanceARN: String

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        // Make sure that the database has been deleted.
        while (!isDataDel) {
            val response = rdsClient.describeDbInstances()
            val instanceList = response.dbInstances
            val listSize = instanceList?.size
            isDataDel = false // Reset this value.
            didFind = false // Reset this value.
            var index = 1
            if (instanceList != null) {
                for (instance in instanceList) {
                    instanceARN = instance.dbInstanceArn.toString()
                    if (instanceARN.compareTo(dbARN) == 0) {
                        println("$dbARN still exists")
                        didFind = true
                    }
                    if (index == listSize && !didFind) {
                        // Went through the entire list and did not find the database name.
                        isDataDel = true
                    }
                    index++
                }
            }
        }

        // Delete the para group.
        val parameterGroupRequest =
            DeleteDbParameterGroupRequest {
                dbParameterGroupName = dbGroupName
            }
        rdsClient.deleteDbParameterGroup(parameterGroupRequest)
        println("$dbGroupName was deleted.")
    }
}

suspend fun deleteDbInstance(dbInstanceIdentifierVal: String) {
    val deleteDbInstanceRequest =
        DeleteDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            deleteAutomatedBackups = true
            skipFinalSnapshot = true
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.deleteDbInstance(deleteDbInstanceRequest)
        print("The status of the database is ${response.dbInstance?.dbInstanceStatus}")
    }
}

// Waits until the snapshot instance is available.
suspend fun waitForSnapshotReady(
    dbInstanceIdentifierVal: String?,
    dbSnapshotIdentifierVal: String?,
) {
    var snapshotReady = false
    var snapshotReadyStr: String
    println("Waiting for the snapshot to become available.")

    val snapshotsRequest =
        DescribeDbSnapshotsRequest {
            dbSnapshotIdentifier = dbSnapshotIdentifierVal
            dbInstanceIdentifier = dbInstanceIdentifierVal
        }

    while (!snapshotReady) {
        RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
            val response = rdsClient.describeDbSnapshots(snapshotsRequest)
            val snapshotList: List<DbSnapshot>? = response.dbSnapshots
            if (snapshotList != null) {
                for (snapshot in snapshotList) {
                    snapshotReadyStr = snapshot.status.toString()
                    if (snapshotReadyStr.contains("available")) {
                        snapshotReady = true
                    } else {
                        print(".")
                        delay(sleepTime * 1000)
                    }
                }
            }
        }
    }
    println("The Snapshot is available!")
}

// Create an Amazon RDS snapshot.
suspend fun createDbSnapshot(
    dbInstanceIdentifierVal: String?,
    dbSnapshotIdentifierVal: String?,
) {
    val snapshotRequest =
        CreateDbSnapshotRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            dbSnapshotIdentifier = dbSnapshotIdentifierVal
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbSnapshot(snapshotRequest)
        print("The Snapshot id is ${response.dbSnapshot?.dbiResourceId}")
    }
}

// Waits until the database instance is available.
suspend fun waitForDbInstanceReady(dbInstanceIdentifierVal: String?) {
    var instanceReady = false
    var instanceReadyStr: String
    println("Waiting for instance to become available.")

    val instanceRequest =
        DescribeDbInstancesRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
        }
    var endpoint = ""
    while (!instanceReady) {
        RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
            val response = rdsClient.describeDbInstances(instanceRequest)
            val instanceList = response.dbInstances
            if (instanceList != null) {
                for (instance in instanceList) {
                    instanceReadyStr = instance.dbInstanceStatus.toString()
                    if (instanceReadyStr.contains("available")) {
                        endpoint = instance.endpoint?.address.toString()
                        instanceReady = true
                    } else {
                        print(".")
                        delay(sleepTime * 1000)
                    }
                }
            }
        }
    }
    println("Database instance is available! The connection endpoint is $endpoint")
}

// Create a database instance and return the ARN of the database.
suspend fun createDatabaseInstance(
    dbGroupNameVal: String?,
    dbInstanceIdentifierVal: String?,
    dbNameVal: String?,
    masterUsernameVal: String?,
    masterUserPasswordVal: String?,
): String? {
    val instanceRequest =
        CreateDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            allocatedStorage = 100
            dbName = dbNameVal
            dbParameterGroupName = dbGroupNameVal
            engine = "mysql"
            dbInstanceClass = "db.t3.micro"
            engineVersion = "8.0.35"
            storageType = "gp2"
            masterUsername = masterUsernameVal
            masterUserPassword = masterUserPasswordVal
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbInstance(instanceRequest)
        print("The status is ${response.dbInstance?.dbInstanceStatus}")
        return response.dbInstance?.dbInstanceArn
    }
}

// Get a list of micro instances.
suspend fun getMicroInstances() {
    val dbInstanceOptionsRequest =
        DescribeOrderableDbInstanceOptionsRequest {
            engine = "mysql"
        }
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeOrderableDbInstanceOptions(dbInstanceOptionsRequest)
        val orderableDBInstances = response.orderableDbInstanceOptions
        if (orderableDBInstances != null) {
            for (dbInstanceOption in orderableDBInstances) {
                println("The engine version is ${dbInstanceOption.engineVersion}")
                println("The engine description is ${dbInstanceOption.engine}")
            }
        }
    }
}

// Get a list of allowed engine versions.
suspend fun getAllowedEngines(dbParameterGroupFamilyVal: String?) {
    val versionsRequest =
        DescribeDbEngineVersionsRequest {
            dbParameterGroupFamily = dbParameterGroupFamilyVal
            engine = "mysql"
        }
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbEngineVersions(versionsRequest)
        val dbEngines: List<DbEngineVersion>? = response.dbEngineVersions
        if (dbEngines != null) {
            for (dbEngine in dbEngines) {
                println("The engine version is ${dbEngine.engineVersion}")
                println("The engine description is ${dbEngine.dbEngineDescription}")
            }
        }
    }
}

// Modify the auto_increment_offset parameter.
suspend fun modifyDBParas(dbGroupName: String) {
    val parameter1 =
        Parameter {
            parameterName = "auto_increment_offset"
            applyMethod = ApplyMethod.Immediate
            parameterValue = "5"
        }

    val paraList: ArrayList<Parameter> = ArrayList()
    paraList.add(parameter1)
    val groupRequest =
        ModifyDbParameterGroupRequest {
            dbParameterGroupName = dbGroupName
            parameters = paraList
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.modifyDbParameterGroup(groupRequest)
        println("The parameter group ${response.dbParameterGroupName} was successfully modified")
    }
}

// Retrieve parameters in the group.
suspend fun describeDbParameters(
    dbGroupName: String?,
    flag: Int,
) {
    val dbParameterGroupsRequest: DescribeDbParametersRequest
    dbParameterGroupsRequest =
        if (flag == 0) {
            DescribeDbParametersRequest {
                dbParameterGroupName = dbGroupName
            }
        } else {
            DescribeDbParametersRequest {
                dbParameterGroupName = dbGroupName
                source = "user"
            }
        }
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbParameters(dbParameterGroupsRequest)
        val dbParameters: List<Parameter>? = response.parameters
        var paraName: String
        if (dbParameters != null) {
            for (para in dbParameters) {
                // Only print out information about either auto_increment_offset or auto_increment_increment.
                paraName = para.parameterName.toString()
                if (paraName.compareTo("auto_increment_offset") == 0 || paraName.compareTo("auto_increment_increment ") == 0) {
                    println("*** The parameter name is  $paraName")
                    System.out.println("*** The parameter value is  ${para.parameterValue}")
                    System.out.println("*** The parameter data type is ${para.dataType}")
                    System.out.println("*** The parameter description is ${para.description}")
                    System.out.println("*** The parameter allowed values  is ${para.allowedValues}")
                }
            }
        }
    }
}

suspend fun describeDbParameterGroups(dbGroupName: String?) {
    val groupsRequest =
        DescribeDbParameterGroupsRequest {
            dbParameterGroupName = dbGroupName
            maxRecords = 20
        }
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbParameterGroups(groupsRequest)
        val groups = response.dbParameterGroups
        if (groups != null) {
            for (group in groups) {
                println("The group name is ${group.dbParameterGroupName}")
                println("The group description is ${group.description}")
            }
        }
    }
}

// Create a parameter group.
suspend fun createDBParameterGroup(
    dbGroupName: String?,
    dbParameterGroupFamilyVal: String?,
) {
    val groupRequest =
        CreateDbParameterGroupRequest {
            dbParameterGroupName = dbGroupName
            dbParameterGroupFamily = dbParameterGroupFamilyVal
            description = "Created by using the AWS SDK for Kotlin"
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbParameterGroup(groupRequest)
        println("The group name is ${response.dbParameterGroup?.dbParameterGroupName}")
    }
}

// Returns a list of the available DB engines.
suspend fun describeDBEngines() {
    val engineVersionsRequest =
        DescribeDbEngineVersionsRequest {
            defaultOnly = true
            engine = "mysql"
            maxRecords = 20
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbEngineVersions(engineVersionsRequest)
        val engines: List<DbEngineVersion>? = response.dbEngineVersions

        // Get all DbEngineVersion objects.
        if (engines != null) {
            for (engineOb in engines) {
                println("The name of the DB parameter group family for the database engine is ${engineOb.dbParameterGroupFamily}.")
                println("The name of the database engine ${engineOb.engine}.")
                println("The version number of the database engine ${engineOb.engineVersion}")
            }
        }
    }
}

suspend fun getSecretValues(secretName: String?): String? {
    val valueRequest =
        GetSecretValueRequest {
            secretId = secretName
        }

    SecretsManagerClient.fromEnvironment { region = "us-west-2" }.use { secretsClient ->
        val valueResponse = secretsClient.getSecretValue(valueRequest)
        return valueResponse.secretString
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [Buat DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Buat DBParameter Grup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Buat DBSnapshot](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Hapus DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Hapus DBParameter Grup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBEngine Versi](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBParameter Grup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBParameters](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Jelaskan DBSnapshots](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeOrderableDBInstancePilihan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Ubah DBParameter Grup](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateDBInstance`
<a name="rds_CreateDBInstance_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun createDatabaseInstance(
    dbInstanceIdentifierVal: String?,
    dbNamedbVal: String?,
    masterUsernameVal: String?,
    masterUserPasswordVal: String?,
) {
    val instanceRequest =
        CreateDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            allocatedStorage = 100
            dbName = dbNamedbVal
            engine = "mysql"
            dbInstanceClass = "db.t3.micro" // Use a supported instance class
            engineVersion = "8.0.39" // Use a supported engine version
            storageType = "gp2"
            masterUsername = masterUsernameVal
            masterUserPassword = masterUserPasswordVal
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.createDbInstance(instanceRequest)
        print("The status is ${response.dbInstance?.dbInstanceStatus}")
    }
}

// Waits until the database instance is available.
suspend fun waitForInstanceReady(dbInstanceIdentifierVal: String?) {
    val sleepTime: Long = 20
    var instanceReady = false
    var instanceReadyStr: String
    println("Waiting for instance to become available.")

    val instanceRequest =
        DescribeDbInstancesRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        while (!instanceReady) {
            val response = rdsClient.describeDbInstances(instanceRequest)
            val instanceList = response.dbInstances
            if (instanceList != null) {
                for (instance in instanceList) {
                    instanceReadyStr = instance.dbInstanceStatus.toString()
                    if (instanceReadyStr.contains("available")) {
                        instanceReady = true
                    } else {
                        println("...$instanceReadyStr")
                        delay(sleepTime * 1000)
                    }
                }
            }
        }
        println("Database instance is available!")
    }
}
```
+  Untuk detail API, lihat [Membuat DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteDBInstance`
<a name="rds_DeleteDBInstance_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun deleteDatabaseInstance(dbInstanceIdentifierVal: String?) {
    val deleteDbInstanceRequest =
        DeleteDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            deleteAutomatedBackups = true
            skipFinalSnapshot = true
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.deleteDbInstance(deleteDbInstanceRequest)
        print("The status of the database is ${response.dbInstance?.dbInstanceStatus}")
    }
}
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeAccountAttributes`
<a name="rds_DescribeAccountAttributes_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAccountAttributes`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun getAccountAttributes() {
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeAccountAttributes(DescribeAccountAttributesRequest {})
        response.accountQuotas?.forEach { quotas ->
            val response = response.accountQuotas
            println("Name is: ${quotas.accountQuotaName}")
            println("Max value is ${quotas.max}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeAccountAttributes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun describeInstances() {
    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val response = rdsClient.describeDbInstances(DescribeDbInstancesRequest {})
        response.dbInstances?.forEach { instance ->
            println("Instance Identifier is ${instance.dbInstanceIdentifier}")
            println("The Engine is ${instance.engine}")
            println("Connection endpoint is ${instance.endpoint?.address}")
        }
    }
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `ModifyDBInstance`
<a name="rds_ModifyDBInstance_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBInstance`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples). 

```
suspend fun updateIntance(
    dbInstanceIdentifierVal: String?,
    masterUserPasswordVal: String?,
) {
    val request =
        ModifyDbInstanceRequest {
            dbInstanceIdentifier = dbInstanceIdentifierVal
            publiclyAccessible = true
            masterUserPassword = masterUserPasswordVal
        }

    RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
        val instanceResponse = rdsClient.modifyDbInstance(request)
        println("The ARN of the modified database is ${instanceResponse.dbInstance?.dbInstanceArn}")
    }
}
```
+  Untuk detail API, lihat [Memodifikasi DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Kotlin**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon RDS.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/serverless_rds)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon RDS Data Service menggunakan SDK untuk Kotlin
<a name="kotlin_1_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon RDS Data Service.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Kotlin**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon RDS.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/serverless_rds)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon Redshift menggunakan SDK untuk Kotlin
<a name="kotlin_1_redshift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon Redshift.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="redshift_CreateCluster_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/redshift#code-examples). 
Buat cluster.  

```
suspend fun createCluster(
    clusterId: String?,
    masterUsernameVal: String?,
    masterUserPasswordVal: String?,
) {
    val clusterRequest =
        CreateClusterRequest {
            clusterIdentifier = clusterId
            availabilityZone = "us-east-1a"
            masterUsername = masterUsernameVal
            masterUserPassword = masterUserPasswordVal
            nodeType = "ra3.4xlarge"
            publiclyAccessible = true
            numberOfNodes = 2
        }

    RedshiftClient.fromEnvironment { region = "us-east-1" }.use { redshiftClient ->
        val clusterResponse = redshiftClient.createCluster(clusterRequest)
        println("Created cluster ${clusterResponse.cluster?.clusterIdentifier}")
    }
}
```
+  Untuk detail API, lihat [CreateCluster](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteCluster`
<a name="redshift_DeleteCluster_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/redshift#code-examples). 
Hapus klaster .  

```
suspend fun deleteRedshiftCluster(clusterId: String?) {
    val request =
        DeleteClusterRequest {
            clusterIdentifier = clusterId
            skipFinalClusterSnapshot = true
        }

    RedshiftClient.fromEnvironment { region = "us-west-2" }.use { redshiftClient ->
        val response = redshiftClient.deleteCluster(request)
        println("The status is ${response.cluster?.clusterStatus}")
    }
}
```
+  Untuk detail API, lihat [DeleteCluster](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeClusters`
<a name="redshift_DescribeClusters_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/redshift#code-examples). 
Jelaskan cluster.  

```
suspend fun describeRedshiftClusters() {
    RedshiftClient.fromEnvironment { region = "us-west-2" }.use { redshiftClient ->
        val clusterResponse = redshiftClient.describeClusters(DescribeClustersRequest {})
        val clusterList = clusterResponse.clusters

        if (clusterList != null) {
            for (cluster in clusterList) {
                println("Cluster database name is ${cluster.dbName}")
                println("Cluster status is ${cluster.clusterStatus}")
            }
        }
    }
}
```
+  Untuk detail API, lihat [DescribeClusters](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ModifyCluster`
<a name="redshift_ModifyCluster_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyCluster`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/redshift#code-examples). 
Memodifikasi cluster.  

```
suspend fun modifyCluster(clusterId: String?) {
    val modifyClusterRequest =
        ModifyClusterRequest {
            clusterIdentifier = clusterId
            preferredMaintenanceWindow = "wed:07:30-wed:08:00"
        }

    RedshiftClient { region = "us-west-2" }.use { redshiftClient ->
        val clusterResponse = redshiftClient.modifyCluster(modifyClusterRequest)
        println(
            "The modified cluster was successfully modified and has ${clusterResponse.cluster?.preferredMaintenanceWindow} as the maintenance window",
        )
    }
}
```
+  Untuk detail API, lihat [ModifyCluster](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi web untuk melacak data Amazon Redshift
<a name="cross_RedshiftDataTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak dan melaporkan item pekerjaan menggunakan database Amazon Redshift.

**SDK untuk Kotlin**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan item pekerjaan yang disimpan dalam database Amazon Redshift.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Redshift dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_redshift_application)   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Redshift
+ Amazon SES

# Contoh Rekognition Amazon menggunakan SDK untuk Kotlin
<a name="kotlin_1_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon Rekognition.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CompareFaces`
<a name="rekognition_CompareFaces_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompareFaces`.

Untuk informasi selengkapnya, lihat [Membandingkan wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-comparefaces.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun compareTwoFaces(
    similarityThresholdVal: Float,
    sourceImageVal: String,
    targetImageVal: String,
) {
    val sourceBytes = (File(sourceImageVal).readBytes())
    val targetBytes = (File(targetImageVal).readBytes())

    // Create an Image object for the source image.
    val souImage =
        Image {
            bytes = sourceBytes
        }

    val tarImage =
        Image {
            bytes = targetBytes
        }

    val facesRequest =
        CompareFacesRequest {
            sourceImage = souImage
            targetImage = tarImage
            similarityThreshold = similarityThresholdVal
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->

        val compareFacesResult = rekClient.compareFaces(facesRequest)
        val faceDetails = compareFacesResult.faceMatches

        if (faceDetails != null) {
            for (match: CompareFacesMatch in faceDetails) {
                val face = match.face
                val position = face?.boundingBox
                if (position != null) {
                    println("Face at ${position.left} ${position.top} matches with ${face.confidence} % confidence.")
                }
            }
        }

        val uncompared = compareFacesResult.unmatchedFaces
        if (uncompared != null) {
            println("There was ${uncompared.size} face(s) that did not match")
        }

        println("Source image rotation: ${compareFacesResult.sourceImageOrientationCorrection}")
        println("target image rotation: ${compareFacesResult.targetImageOrientationCorrection}")
    }
}
```
+  Untuk detail API, lihat [CompareFaces](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateCollection`
<a name="rekognition_CreateCollection_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCollection`.

Untuk informasi selengkapnya, lihat [Membuat koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/create-collection-procedure.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun createMyCollection(collectionIdVal: String) {
    val request =
        CreateCollectionRequest {
            collectionId = collectionIdVal
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.createCollection(request)
        println("Collection ARN is ${response.collectionArn}")
        println("Status code is ${response.statusCode}")
    }
}
```
+  Untuk detail API, lihat [CreateCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteCollection`
<a name="rekognition_DeleteCollection_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCollection`.

Untuk informasi selengkapnya, lihat [Menghapus koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-collection-procedure.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun deleteMyCollection(collectionIdVal: String) {
    val request =
        DeleteCollectionRequest {
            collectionId = collectionIdVal
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.deleteCollection(request)
        println("The collectionId status is ${response.statusCode}")
    }
}
```
+  Untuk detail API, lihat [DeleteCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteFaces`
<a name="rekognition_DeleteFaces_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFaces`.

Untuk informasi selengkapnya, lihat [Menghapus wajah dari koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-faces-procedure.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun deleteFacesCollection(
    collectionIdVal: String?,
    faceIdVal: String,
) {
    val deleteFacesRequest =
        DeleteFacesRequest {
            collectionId = collectionIdVal
            faceIds = listOf(faceIdVal)
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        rekClient.deleteFaces(deleteFacesRequest)
        println("$faceIdVal was deleted from the collection")
    }
}
```
+  Untuk detail API, lihat [DeleteFaces](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeCollection`
<a name="rekognition_DescribeCollection_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCollection`.

Untuk informasi selengkapnya, lihat [Menjelaskan koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/describe-collection-procedure.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun describeColl(collectionName: String) {
    val request =
        DescribeCollectionRequest {
            collectionId = collectionName
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.describeCollection(request)
        println("The collection Arn is ${response.collectionArn}")
        println("The collection contains this many faces ${response.faceCount}")
    }
}
```
+  Untuk detail API, lihat [DescribeCollection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DetectFaces`
<a name="rekognition_DetectFaces_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectFaces`.

Untuk informasi selengkapnya, lihat [Mendeteksi wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-detect-images.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun detectFacesinImage(sourceImage: String?) {
    val souImage =
        Image {
            bytes = (File(sourceImage).readBytes())
        }

    val request =
        DetectFacesRequest {
            attributes = listOf(Attribute.All)
            image = souImage
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.detectFaces(request)
        response.faceDetails?.forEach { face ->
            val ageRange = face.ageRange
            println("The detected face is estimated to be between ${ageRange?.low} and ${ageRange?.high} years old.")
            println("There is a smile ${face.smile?.value}")
        }
    }
}
```
+  Untuk detail API, lihat [DetectFaces](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DetectLabels`
<a name="rekognition_DetectLabels_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi label dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detect-labels-image.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun detectImageLabels(sourceImage: String) {
    val souImage =
        Image {
            bytes = (File(sourceImage).readBytes())
        }
    val request =
        DetectLabelsRequest {
            image = souImage
            maxLabels = 10
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.detectLabels(request)
        response.labels?.forEach { label ->
            println("${label.name} : ${label.confidence}")
        }
    }
}
```
+  Untuk detail API, lihat [DetectLabels](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DetectModerationLabels`
<a name="rekognition_DetectModerationLabels_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectModerationLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi gambar yang tidak pantas](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-images.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun detectModLabels(sourceImage: String) {
    val myImage =
        Image {
            this.bytes = (File(sourceImage).readBytes())
        }

    val request =
        DetectModerationLabelsRequest {
            image = myImage
            minConfidence = 60f
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.detectModerationLabels(request)
        response.moderationLabels?.forEach { label ->
            println("Label: ${label.name} - Confidence: ${label.confidence} % Parent: ${label.parentName}")
        }
    }
}
```
+  Untuk detail API, lihat [DetectModerationLabels](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DetectText`
<a name="rekognition_DetectText_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectText`.

Untuk informasi selengkapnya, lihat [Mendeteksi teks dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/text-detecting-text-procedure.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun detectTextLabels(sourceImage: String?) {
    val souImage =
        Image {
            bytes = (File(sourceImage).readBytes())
        }

    val request =
        DetectTextRequest {
            image = souImage
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.detectText(request)
        response.textDetections?.forEach { text ->
            println("Detected: ${text.detectedText}")
            println("Confidence: ${text.confidence}")
            println("Id: ${text.id}")
            println("Parent Id:  ${text.parentId}")
            println("Type: ${text.type}")
        }
    }
}
```
+  Untuk detail API, lihat [DetectText](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `IndexFaces`
<a name="rekognition_IndexFaces_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`IndexFaces`.

Untuk informasi selengkapnya, lihat [Menambahkan wajah ke koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/add-faces-to-collection-procedure.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun addToCollection(
    collectionIdVal: String?,
    sourceImage: String,
) {
    val souImage =
        Image {
            bytes = (File(sourceImage).readBytes())
        }

    val request =
        IndexFacesRequest {
            collectionId = collectionIdVal
            image = souImage
            maxFaces = 1
            qualityFilter = QualityFilter.Auto
            detectionAttributes = listOf(Attribute.Default)
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val facesResponse = rekClient.indexFaces(request)

        // Display the results.
        println("Results for the image")
        println("\n Faces indexed:")
        facesResponse.faceRecords?.forEach { faceRecord ->
            println("Face ID: ${faceRecord.face?.faceId}")
            println("Location: ${faceRecord.faceDetail?.boundingBox}")
        }

        println("Faces not indexed:")
        facesResponse.unindexedFaces?.forEach { unindexedFace ->
            println("Location: ${unindexedFace.faceDetail?.boundingBox}")
            println("Reasons:")

            unindexedFace.reasons?.forEach { reason ->
                println("Reason:  $reason")
            }
        }
    }
}
```
+  Untuk detail API, lihat [IndexFaces](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListCollections`
<a name="rekognition_ListCollections_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCollections`.

Untuk informasi selengkapnya, lihat [Daftar koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-collection-procedure.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun listAllCollections() {
    val request =
        ListCollectionsRequest {
            maxResults = 10
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.listCollections(request)
        response.collectionIds?.forEach { resultId ->
            println(resultId)
        }
    }
}
```
+  Untuk detail API, lihat [ListCollections](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListFaces`
<a name="rekognition_ListFaces_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFaces`.

Untuk informasi selengkapnya, lihat [Daftar wajah dalam koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-faces-in-collection-procedure.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun listFacesCollection(collectionIdVal: String?) {
    val request =
        ListFacesRequest {
            collectionId = collectionIdVal
            maxResults = 10
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.listFaces(request)
        response.faces?.forEach { face ->
            println("Confidence level there is a face: ${face.confidence}")
            println("The face Id value is ${face.faceId}")
        }
    }
}
```
+  Untuk detail API, lihat [ListFaces](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `RecognizeCelebrities`
<a name="rekognition_RecognizeCelebrities_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RecognizeCelebrities`.

Untuk informasi selengkapnya, lihat [Mengenali selebriti dalam sebuah gambar](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-procedure-image.html).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 

```
suspend fun recognizeAllCelebrities(sourceImage: String?) {
    val souImage =
        Image {
            bytes = (File(sourceImage).readBytes())
        }

    val request =
        RecognizeCelebritiesRequest {
            image = souImage
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val response = rekClient.recognizeCelebrities(request)
        response.celebrityFaces?.forEach { celebrity ->
            println("Celebrity recognized: ${celebrity.name}")
            println("Celebrity ID:${celebrity.id}")
            println("Further information (if available):")
            celebrity.urls?.forEach { url ->
                println(url)
            }
        }
        println("${response.unrecognizedFaces?.size} face(s) were unrecognized.")
    }
}
```
+  Untuk detail API, lihat [RecognizeCelebrities](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Kotlin**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_pam).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Mendeteksi informasi dalam video
<a name="rekognition_VideoDetection_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulai pekerjaan Amazon Rekognition untuk mendeteksi elemen seperti orang, objek, dan teks dalam video.
+ Periksa status pekerjaan sampai pekerjaan selesai.
+ Output daftar elemen yang terdeteksi oleh setiap pekerjaan.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rekognition#code-examples). 
Mendeteksi wajah dalam video yang disimpan dalam bucket Amazon S3.  

```
suspend fun startFaceDetection(
    channelVal: NotificationChannel?,
    bucketVal: String,
    videoVal: String,
) {
    val s3Obj =
        S3Object {
            bucket = bucketVal
            name = videoVal
        }
    val vidOb =
        Video {
            s3Object = s3Obj
        }

    val request =
        StartFaceDetectionRequest {
            jobTag = "Faces"
            faceAttributes = FaceAttributes.All
            notificationChannel = channelVal
            video = vidOb
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val startLabelDetectionResult = rekClient.startFaceDetection(request)
        startJobId = startLabelDetectionResult.jobId.toString()
    }
}

suspend fun getFaceResults() {
    var finished = false
    var status: String
    var yy = 0
    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        var response: GetFaceDetectionResponse? = null

        val recognitionRequest =
            GetFaceDetectionRequest {
                jobId = startJobId
                maxResults = 10
            }

        // Wait until the job succeeds.
        while (!finished) {
            response = rekClient.getFaceDetection(recognitionRequest)
            status = response.jobStatus.toString()
            if (status.compareTo("Succeeded") == 0) {
                finished = true
            } else {
                println("$yy status is: $status")
                delay(1000)
            }
            yy++
        }

        // Proceed when the job is done - otherwise VideoMetadata is null.
        val videoMetaData = response?.videoMetadata
        println("Format: ${videoMetaData?.format}")
        println("Codec: ${videoMetaData?.codec}")
        println("Duration: ${videoMetaData?.durationMillis}")
        println("FrameRate: ${videoMetaData?.frameRate}")

        // Show face information.
        response?.faces?.forEach { face ->
            println("Age: ${face.face?.ageRange}")
            println("Face: ${face.face?.beard}")
            println("Eye glasses: ${face?.face?.eyeglasses}")
            println("Mustache: ${face.face?.mustache}")
            println("Smile: ${face.face?.smile}")
        }
    }
}
```
Mendeteksi konten yang tidak pantas atau menyinggung dalam video yang disimpan di bucket Amazon S3.  

```
suspend fun startModerationDetection(
    channel: NotificationChannel?,
    bucketVal: String?,
    videoVal: String?,
) {
    val s3Obj =
        S3Object {
            bucket = bucketVal
            name = videoVal
        }
    val vidOb =
        Video {
            s3Object = s3Obj
        }
    val request =
        StartContentModerationRequest {
            jobTag = "Moderation"
            notificationChannel = channel
            video = vidOb
        }

    RekognitionClient.fromEnvironment { region = "us-east-1" }.use { rekClient ->
        val startModDetectionResult = rekClient.startContentModeration(request)
        startJobId = startModDetectionResult.jobId.toString()
    }
}

suspend fun getModResults() {
    var finished = false
    var status: String
    var yy = 0
    RekognitionClient { region = "us-east-1" }.use { rekClient ->
        var modDetectionResponse: GetContentModerationResponse? = null

        val modRequest =
            GetContentModerationRequest {
                jobId = startJobId
                maxResults = 10
            }

        // Wait until the job succeeds.
        while (!finished) {
            modDetectionResponse = rekClient.getContentModeration(modRequest)
            status = modDetectionResponse.jobStatus.toString()
            if (status.compareTo("Succeeded") == 0) {
                finished = true
            } else {
                println("$yy status is: $status")
                delay(1000)
            }
            yy++
        }

        // Proceed when the job is done - otherwise VideoMetadata is null.
        val videoMetaData = modDetectionResponse?.videoMetadata
        println("Format: ${videoMetaData?.format}")
        println("Codec: ${videoMetaData?.codec}")
        println("Duration: ${videoMetaData?.durationMillis}")
        println("FrameRate: ${videoMetaData?.frameRate}")

        modDetectionResponse?.moderationLabels?.forEach { mod ->
            val seconds: Long = mod.timestamp / 1000
            print("Mod label: $seconds ")
            println(mod.moderationLabel)
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Kotlin*.
  + [GetCelebrityRecognition](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetContentModeration](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetLabelDetection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetPersonTracking](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetSegmentDetection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetTextDetection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartCelebrityRecognition](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartContentModeration](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartLabelDetection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartPersonTracking](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartSegmentDetection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartTextDetection](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon Rekognition Kotlin API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_photo_analyzer_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

# Route 53 contoh pendaftaran domain menggunakan SDK untuk Kotlin
<a name="kotlin_1_route-53-domains_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan registrasi domain Route 53.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Hello Route 53 pendaftaran domain
<a name="route-53-domains_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan pendaftaran domain Route 53.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
/**
 Before running this Kotlin code example, set up your development environment,
 including your credentials.

 For more information, see the following documentation topic:
 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */
suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
           <domainType> 

       Where:
           domainType - The domain type (for example, com). 
    """

    if (args.size != 1) {
        println(usage)
        exitProcess(0)
    }

    val domainType = args[0]
    println("Invokes ListPrices using a Paginated method.")
    listPricesPaginated(domainType)
}

suspend fun listPricesPaginated(domainType: String) {
    val pricesRequest =
        ListPricesRequest {
            maxItems = 10
            tld = domainType
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .listPricesPaginated(pricesRequest)
            .transform { it.prices?.forEach { obj -> emit(obj) } }
            .collect { pr ->
                println("Registration: ${pr.registrationPrice} ${pr.registrationPrice?.currency}")
                println("Renewal: ${pr.renewalPrice?.price} ${pr.renewalPrice?.currency}")
                println("Transfer: ${pr.transferPrice?.price} ${pr.transferPrice?.currency}")
                println("Restoration: ${pr.restorationPrice?.price} ${pr.restorationPrice?.currency}")
            }
    }
}
```
+  Untuk detail API, lihat [ListPrices](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="route-53-domains_Scenario_GetStartedRoute53Domains_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat daftar domain saat ini, dan daftar operasi dalam satu tahun terakhir.
+ Lihat tagihan selama setahun terakhir, dan lihat harga untuk jenis domain.
+ Dapatkan saran domain.
+ Periksa ketersediaan domain dan transferabilitas.
+ Secara opsional, minta pendaftaran domain.
+ Dapatkan detail operasi.
+ Secara opsional, dapatkan detail domain.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

This Kotlin code example performs the following operations:

1. List current domains.
2. List operations in the past year.
3. View billing for the account in the past year.
4. View prices for domain types.
5. Get domain suggestions.
6. Check domain availability.
7. Check domain transferability.
8. Request a domain registration.
9. Get operation details.
10. Optionally, get domain details.
 */

val DASHES: String = String(CharArray(80)).replace("\u0000", "-")

suspend fun main(args: Array<String>) {
    val usage = """
        Usage:
            <domainType> <phoneNumber> <email> <domainSuggestion> <firstName> <lastName> <city>
        Where:
           domainType - The domain type (for example, com). 
           phoneNumber - The phone number to use (for example, +1.2065550100)      
           email - The email address to use.      
           domainSuggestion - The domain suggestion (for example, findmy.example). 
           firstName - The first name to use to register a domain. 
           lastName -  The last name to use to register a domain. 
           city - The city to use to register a domain. 
    """

    if (args.size != 7) {
        println(usage)
        exitProcess(1)
    }

    val domainType = args[0]
    val phoneNumber = args[1]
    val email = args[2]
    val domainSuggestion = args[3]
    val firstName = args[4]
    val lastName = args[5]
    val city = args[6]

    println(DASHES)
    println("Welcome to the Amazon Route 53 domains example scenario.")
    println(DASHES)

    println(DASHES)
    println("1. List current domains.")
    listDomains()
    println(DASHES)

    println(DASHES)
    println("2. List operations in the past year.")
    listOperations()
    println(DASHES)

    println(DASHES)
    println("3. View billing for the account in the past year.")
    listBillingRecords()
    println(DASHES)

    println(DASHES)
    println("4. View prices for domain types.")
    listAllPrices(domainType)
    println(DASHES)

    println(DASHES)
    println("5. Get domain suggestions.")
    listDomainSuggestions(domainSuggestion)
    println(DASHES)

    println(DASHES)
    println("6. Check domain availability.")
    checkDomainAvailability(domainSuggestion)
    println(DASHES)

    println(DASHES)
    println("7. Check domain transferability.")
    checkDomainTransferability(domainSuggestion)
    println(DASHES)

    println(DASHES)
    println("8. Request a domain registration.")
    val opId = requestDomainRegistration(domainSuggestion, phoneNumber, email, firstName, lastName, city)
    println(DASHES)

    println(DASHES)
    println("9. Get operation details.")
    getOperationalDetail(opId)
    println(DASHES)

    println(DASHES)
    println("10. Get domain details.")
    println("Note: You must have a registered domain to get details.")
    println("Otherwise an exception is thrown that states ")
    println("Domain xxxxxxx not found in xxxxxxx account.")
    getDomainDetails(domainSuggestion)
    println(DASHES)
}

suspend fun getDomainDetails(domainSuggestion: String?) {
    val detailRequest =
        GetDomainDetailRequest {
            domainName = domainSuggestion
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.getDomainDetail(detailRequest)
        println("The contact first name is ${response.registrantContact?.firstName}")
        println("The contact last name is ${response.registrantContact?.lastName}")
        println("The contact org name is ${response.registrantContact?.organizationName}")
    }
}

suspend fun getOperationalDetail(opId: String?) {
    val detailRequest =
        GetOperationDetailRequest {
            operationId = opId
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.getOperationDetail(detailRequest)
        println("Operation detail message is ${response.message}")
    }
}

suspend fun requestDomainRegistration(
    domainSuggestion: String?,
    phoneNumberVal: String?,
    emailVal: String?,
    firstNameVal: String?,
    lastNameVal: String?,
    cityVal: String?,
): String? {
    val contactDetail =
        ContactDetail {
            contactType = ContactType.Company
            state = "LA"
            countryCode = CountryCode.In
            email = emailVal
            firstName = firstNameVal
            lastName = lastNameVal
            city = cityVal
            phoneNumber = phoneNumberVal
            organizationName = "My Org"
            addressLine1 = "My Address"
            zipCode = "123 123"
        }

    val domainRequest =
        RegisterDomainRequest {
            adminContact = contactDetail
            registrantContact = contactDetail
            techContact = contactDetail
            domainName = domainSuggestion
            autoRenew = true
            durationInYears = 1
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.registerDomain(domainRequest)
        println("Registration requested. Operation Id: ${response.operationId}")
        return response.operationId
    }
}

suspend fun checkDomainTransferability(domainSuggestion: String?) {
    val transferabilityRequest =
        CheckDomainTransferabilityRequest {
            domainName = domainSuggestion
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.checkDomainTransferability(transferabilityRequest)
        println("Transferability: ${response.transferability?.transferable}")
    }
}

suspend fun checkDomainAvailability(domainSuggestion: String) {
    val availabilityRequest =
        CheckDomainAvailabilityRequest {
            domainName = domainSuggestion
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.checkDomainAvailability(availabilityRequest)
        println("$domainSuggestion is ${response.availability}")
    }
}

suspend fun listDomainSuggestions(domainSuggestion: String?) {
    val suggestionsRequest =
        GetDomainSuggestionsRequest {
            domainName = domainSuggestion
            suggestionCount = 5
            onlyAvailable = true
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.getDomainSuggestions(suggestionsRequest)
        response.suggestionsList?.forEach { suggestion ->
            println("Suggestion Name: ${suggestion.domainName}")
            println("Availability: ${suggestion.availability}")
            println(" ")
        }
    }
}

suspend fun listAllPrices(domainType: String?) {
    val pricesRequest =
        ListPricesRequest {
            tld = domainType
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .listPricesPaginated(pricesRequest)
            .transform { it.prices?.forEach { obj -> emit(obj) } }
            .collect { pr ->
                println("Registration: ${pr.registrationPrice} ${pr.registrationPrice?.currency}")
                println("Renewal: ${pr.renewalPrice?.price} ${pr.renewalPrice?.currency}")
                println("Transfer: ${pr.transferPrice?.price} ${pr.transferPrice?.currency}")
                println("Restoration: ${pr.restorationPrice?.price} ${pr.restorationPrice?.currency}")
            }
    }
}

suspend fun listBillingRecords() {
    val currentDate = Date()
    val localDateTime = currentDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDateTime()
    val zoneOffset = ZoneOffset.of("+01:00")
    val localDateTime2 = localDateTime.minusYears(1)
    val myStartTime = localDateTime2.toInstant(zoneOffset)
    val myEndTime = localDateTime.toInstant(zoneOffset)
    val timeStart: Instant? = myStartTime?.let { Instant(it) }
    val timeEnd: Instant? = myEndTime?.let { Instant(it) }

    val viewBillingRequest =
        ViewBillingRequest {
            start = timeStart
            end = timeEnd
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .viewBillingPaginated(viewBillingRequest)
            .transform { it.billingRecords?.forEach { obj -> emit(obj) } }
            .collect { billing ->
                println("Bill Date: ${billing.billDate}")
                println("Operation: ${billing.operation}")
                println("Price: ${billing.price}")
            }
    }
}

suspend fun listOperations() {
    val currentDate = Date()
    var localDateTime = currentDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDateTime()
    val zoneOffset = ZoneOffset.of("+01:00")
    localDateTime = localDateTime.minusYears(1)
    val myTime: java.time.Instant? = localDateTime.toInstant(zoneOffset)
    val time2: Instant? = myTime?.let { Instant(it) }
    val operationsRequest =
        ListOperationsRequest {
            submittedSince = time2
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .listOperationsPaginated(operationsRequest)
            .transform { it.operations?.forEach { obj -> emit(obj) } }
            .collect { content ->
                println("Operation Id: ${content.operationId}")
                println("Status: ${content.status}")
                println("Date: ${content.submittedDate}")
            }
    }
}

suspend fun listDomains() {
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .listDomainsPaginated(ListDomainsRequest {})
            .transform { it.domains?.forEach { obj -> emit(obj) } }
            .collect { content ->
                println("The domain name is ${content.domainName}")
            }
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CheckDomainAvailability](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CheckDomainTransferability](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetDomainDetail](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetDomainSuggestions](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetOperationDetail](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListDomains](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListOperations](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListPrices](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [RegisterDomain](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ViewBilling](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CheckDomainAvailability`
<a name="route-53-domains_CheckDomainAvailability_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckDomainAvailability`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun checkDomainAvailability(domainSuggestion: String) {
    val availabilityRequest =
        CheckDomainAvailabilityRequest {
            domainName = domainSuggestion
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.checkDomainAvailability(availabilityRequest)
        println("$domainSuggestion is ${response.availability}")
    }
}
```
+  Untuk detail API, lihat [CheckDomainAvailability](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CheckDomainTransferability`
<a name="route-53-domains_CheckDomainTransferability_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckDomainTransferability`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun checkDomainTransferability(domainSuggestion: String?) {
    val transferabilityRequest =
        CheckDomainTransferabilityRequest {
            domainName = domainSuggestion
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.checkDomainTransferability(transferabilityRequest)
        println("Transferability: ${response.transferability?.transferable}")
    }
}
```
+  Untuk detail API, lihat [CheckDomainTransferability](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetDomainDetail`
<a name="route-53-domains_GetDomainDetail_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDomainDetail`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun getDomainDetails(domainSuggestion: String?) {
    val detailRequest =
        GetDomainDetailRequest {
            domainName = domainSuggestion
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.getDomainDetail(detailRequest)
        println("The contact first name is ${response.registrantContact?.firstName}")
        println("The contact last name is ${response.registrantContact?.lastName}")
        println("The contact org name is ${response.registrantContact?.organizationName}")
    }
}
```
+  Untuk detail API, lihat [GetDomainDetail](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetDomainSuggestions`
<a name="route-53-domains_GetDomainSuggestions_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDomainSuggestions`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun listDomainSuggestions(domainSuggestion: String?) {
    val suggestionsRequest =
        GetDomainSuggestionsRequest {
            domainName = domainSuggestion
            suggestionCount = 5
            onlyAvailable = true
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.getDomainSuggestions(suggestionsRequest)
        response.suggestionsList?.forEach { suggestion ->
            println("Suggestion Name: ${suggestion.domainName}")
            println("Availability: ${suggestion.availability}")
            println(" ")
        }
    }
}
```
+  Untuk detail API, lihat [GetDomainSuggestions](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetOperationDetail`
<a name="route-53-domains_GetOperationDetail_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetOperationDetail`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun getOperationalDetail(opId: String?) {
    val detailRequest =
        GetOperationDetailRequest {
            operationId = opId
        }
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.getOperationDetail(detailRequest)
        println("Operation detail message is ${response.message}")
    }
}
```
+  Untuk detail API, lihat [GetOperationDetail](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListDomains`
<a name="route-53-domains_ListDomains_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDomains`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun listDomains() {
    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .listDomainsPaginated(ListDomainsRequest {})
            .transform { it.domains?.forEach { obj -> emit(obj) } }
            .collect { content ->
                println("The domain name is ${content.domainName}")
            }
    }
}
```
+  Untuk detail API, lihat [ListDomains](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListOperations`
<a name="route-53-domains_ListOperations_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOperations`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun listOperations() {
    val currentDate = Date()
    var localDateTime = currentDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDateTime()
    val zoneOffset = ZoneOffset.of("+01:00")
    localDateTime = localDateTime.minusYears(1)
    val myTime: java.time.Instant? = localDateTime.toInstant(zoneOffset)
    val time2: Instant? = myTime?.let { Instant(it) }
    val operationsRequest =
        ListOperationsRequest {
            submittedSince = time2
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .listOperationsPaginated(operationsRequest)
            .transform { it.operations?.forEach { obj -> emit(obj) } }
            .collect { content ->
                println("Operation Id: ${content.operationId}")
                println("Status: ${content.status}")
                println("Date: ${content.submittedDate}")
            }
    }
}
```
+  Untuk detail API, lihat [ListOperations](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListPrices`
<a name="route-53-domains_ListPrices_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPrices`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun listAllPrices(domainType: String?) {
    val pricesRequest =
        ListPricesRequest {
            tld = domainType
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .listPricesPaginated(pricesRequest)
            .transform { it.prices?.forEach { obj -> emit(obj) } }
            .collect { pr ->
                println("Registration: ${pr.registrationPrice} ${pr.registrationPrice?.currency}")
                println("Renewal: ${pr.renewalPrice?.price} ${pr.renewalPrice?.currency}")
                println("Transfer: ${pr.transferPrice?.price} ${pr.transferPrice?.currency}")
                println("Restoration: ${pr.restorationPrice?.price} ${pr.restorationPrice?.currency}")
            }
    }
}
```
+  Untuk detail API, lihat [ListPrices](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `RegisterDomain`
<a name="route-53-domains_RegisterDomain_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RegisterDomain`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun requestDomainRegistration(
    domainSuggestion: String?,
    phoneNumberVal: String?,
    emailVal: String?,
    firstNameVal: String?,
    lastNameVal: String?,
    cityVal: String?,
): String? {
    val contactDetail =
        ContactDetail {
            contactType = ContactType.Company
            state = "LA"
            countryCode = CountryCode.In
            email = emailVal
            firstName = firstNameVal
            lastName = lastNameVal
            city = cityVal
            phoneNumber = phoneNumberVal
            organizationName = "My Org"
            addressLine1 = "My Address"
            zipCode = "123 123"
        }

    val domainRequest =
        RegisterDomainRequest {
            adminContact = contactDetail
            registrantContact = contactDetail
            techContact = contactDetail
            domainName = domainSuggestion
            autoRenew = true
            durationInYears = 1
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        val response = route53DomainsClient.registerDomain(domainRequest)
        println("Registration requested. Operation Id: ${response.operationId}")
        return response.operationId
    }
}
```
+  Untuk detail API, lihat [RegisterDomain](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ViewBilling`
<a name="route-53-domains_ViewBilling_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ViewBilling`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/route53#code-examples). 

```
suspend fun listBillingRecords() {
    val currentDate = Date()
    val localDateTime = currentDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDateTime()
    val zoneOffset = ZoneOffset.of("+01:00")
    val localDateTime2 = localDateTime.minusYears(1)
    val myStartTime = localDateTime2.toInstant(zoneOffset)
    val myEndTime = localDateTime.toInstant(zoneOffset)
    val timeStart: Instant? = myStartTime?.let { Instant(it) }
    val timeEnd: Instant? = myEndTime?.let { Instant(it) }

    val viewBillingRequest =
        ViewBillingRequest {
            start = timeStart
            end = timeEnd
        }

    Route53DomainsClient.fromEnvironment { region = "us-east-1" }.use { route53DomainsClient ->
        route53DomainsClient
            .viewBillingPaginated(viewBillingRequest)
            .transform { it.billingRecords?.forEach { obj -> emit(obj) } }
            .collect { billing ->
                println("Bill Date: ${billing.billDate}")
                println("Operation: ${billing.operation}")
                println("Price: ${billing.price}")
            }
    }
}
```
+  Untuk detail API, lihat [ViewBilling](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon S3 menggunakan SDK untuk Kotlin
<a name="kotlin_1_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun main(args: Array<String>) {
    val usage = """
    Usage:
        <bucketName> <key> <objectPath> <savePath> <toBucket>

    Where:
        bucketName - The Amazon S3 bucket to create.
        key - The key to use.
        objectPath - The path where the file is located (for example, C:/AWS/book2.pdf).   
        savePath - The path where the file is saved after it's downloaded (for example, C:/AWS/book2.pdf).     
        toBucket - An Amazon S3 bucket to where an object is copied to (for example, C:/AWS/book2.pdf). 
        """

    if (args.size != 4) {
        println(usage)
        exitProcess(1)
    }

    val bucketName = args[0]
    val key = args[1]
    val objectPath = args[2]
    val savePath = args[3]
    val toBucket = args[4]

    // Create an Amazon S3 bucket.
    createBucket(bucketName)

    // Update a local file to the Amazon S3 bucket.
    putObject(bucketName, key, objectPath)

    // Download the object to another local file.
    getObjectFromMrap(bucketName, key, savePath)

    // List all objects located in the Amazon S3 bucket.
    listBucketObs(bucketName)

    // Copy the object to another Amazon S3 bucket
    copyBucketOb(bucketName, key, toBucket)

    // Delete the object from the Amazon S3 bucket.
    deleteBucketObs(bucketName, key)

    // Delete the Amazon S3 bucket.
    deleteBucket(bucketName)
    println("All Amazon S3 operations were successfully performed")
}

suspend fun createBucket(bucketName: String) {
    val request =
        CreateBucketRequest {
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.createBucket(request)
        println("$bucketName is ready")
    }
}

suspend fun putObject(
    bucketName: String,
    objectKey: String,
    objectPath: String,
) {
    val metadataVal = mutableMapOf<String, String>()
    metadataVal["myVal"] = "test"

    val request =
        PutObjectRequest {
            bucket = bucketName
            key = objectKey
            metadata = metadataVal
            this.body = Paths.get(objectPath).asByteStream()
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        val response = s3.putObject(request)
        println("Tag information is ${response.eTag}")
    }
}

suspend fun getObjectFromMrap(
    bucketName: String,
    keyName: String,
    path: String,
) {
    val request =
        GetObjectRequest {
            key = keyName
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.getObject(request) { resp ->
            val myFile = File(path)
            resp.body?.writeToFile(myFile)
            println("Successfully read $keyName from $bucketName")
        }
    }
}

suspend fun listBucketObs(bucketName: String) {
    val request =
        ListObjectsRequest {
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->

        val response = s3.listObjects(request)
        response.contents?.forEach { myObject ->
            println("The name of the key is ${myObject.key}")
            println("The owner is ${myObject.owner}")
        }
    }
}

suspend fun copyBucketOb(
    fromBucket: String,
    objectKey: String,
    toBucket: String,
) {
    var encodedUrl = ""
    try {
        encodedUrl = URLEncoder.encode("$fromBucket/$objectKey", StandardCharsets.UTF_8.toString())
    } catch (e: UnsupportedEncodingException) {
        println("URL could not be encoded: " + e.message)
    }

    val request =
        CopyObjectRequest {
            copySource = encodedUrl
            bucket = toBucket
            key = objectKey
        }
    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.copyObject(request)
    }
}

suspend fun deleteBucketObs(
    bucketName: String,
    objectName: String,
) {
    val objectId =
        ObjectIdentifier {
            key = objectName
        }

    val delOb =
        Delete {
            objects = listOf(objectId)
        }

    val request =
        DeleteObjectsRequest {
            bucket = bucketName
            delete = delOb
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.deleteObjects(request)
        println("$objectName was deleted from $bucketName")
    }
}

suspend fun deleteBucket(bucketName: String?) {
    val request =
        DeleteBucketRequest {
            bucket = bucketName
        }
    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.deleteBucket(request)
        println("The $bucketName was successfully deleted!")
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CopyObject](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateBucket](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteBucket](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteObjects](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetObject](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListObjectsV2](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [PutObject](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun copyBucketObject(
    fromBucket: String,
    objectKey: String,
    toBucket: String,
) {
    var encodedUrl = ""
    try {
        encodedUrl = URLEncoder.encode("$fromBucket/$objectKey", StandardCharsets.UTF_8.toString())
    } catch (e: UnsupportedEncodingException) {
        println("URL could not be encoded: " + e.message)
    }

    val request =
        CopyObjectRequest {
            copySource = encodedUrl
            bucket = toBucket
            key = objectKey
        }
    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.copyObject(request)
    }
}
```
+  Untuk detail API, lihat [CopyObject](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateBucket`
<a name="s3_CreateBucket_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun createNewBucket(bucketName: String) {
    val request =
        CreateBucketRequest {
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.createBucket(request)
        println("$bucketName is ready")
    }
}
```
+  Untuk detail API, lihat [CreateBucket](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateMultiRegionAccessPoint`
<a name="s3_CreateMultiRegionAccessPoint_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMultiRegionAccessPoint`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 
Konfigurasikan klien kontrol S3 untuk mengirim permintaan ke Wilayah us-west-2.  

```
        suspend fun createS3ControlClient(): S3ControlClient {
            // Configure your S3ControlClient to send requests to US West (Oregon).
            val s3Control = S3ControlClient.fromEnvironment {
                region = "us-west-2"
            }
            return s3Control
        }
```
Buat Titik Akses Multi-Wilayah.  

```
    suspend fun createMrap(
        s3Control: S3ControlClient,
        accountIdParam: String,
        bucketName1: String,
        bucketName2: String,
        mrapName: String,
    ): String {
        println("Creating MRAP ...")
        val createMrapResponse: CreateMultiRegionAccessPointResponse =
            s3Control.createMultiRegionAccessPoint {
                accountId = accountIdParam
                clientToken = UUID.randomUUID().toString()
                details {
                    name = mrapName
                    regions = listOf(
                        Region {
                            bucket = bucketName1
                        },
                        Region {
                            bucket = bucketName2
                        },
                    )
                }
            }
        val requestToken: String? = createMrapResponse.requestTokenArn

        // Use the request token to check for the status of the CreateMultiRegionAccessPoint operation.
        if (requestToken != null) {
            waitForSucceededStatus(s3Control, requestToken, accountIdParam)
            println("MRAP created")
        }

        val getMrapResponse =
            s3Control.getMultiRegionAccessPoint(
                input = GetMultiRegionAccessPointRequest {
                    accountId = accountIdParam
                    name = mrapName
                },
            )
        val mrapAlias = getMrapResponse.accessPoint?.alias
        return "arn:aws:s3::$accountIdParam:accesspoint/$mrapAlias"
    }
```
Tunggu hingga Titik Akses Multi-Wilayah tersedia.  

```
        suspend fun waitForSucceededStatus(
            s3Control: S3ControlClient,
            requestToken: String,
            accountIdParam: String,
            timeBetweenChecks: Duration = 1.minutes,
        ) {
            var describeResponse: DescribeMultiRegionAccessPointOperationResponse
            describeResponse = s3Control.describeMultiRegionAccessPointOperation(
                input = DescribeMultiRegionAccessPointOperationRequest {
                    accountId = accountIdParam
                    requestTokenArn = requestToken
                },
            )

            var status: String? = describeResponse.asyncOperation?.requestStatus
            while (status != "SUCCEEDED") {
                delay(timeBetweenChecks)
                describeResponse = s3Control.describeMultiRegionAccessPointOperation(
                    input = DescribeMultiRegionAccessPointOperationRequest {
                        accountId = accountIdParam
                        requestTokenArn = requestToken
                    },
                )
                status = describeResponse.asyncOperation?.requestStatus
                println(status)
            }
        }
```
+  Untuk informasi selengkapnya, lihat [AWS panduan pengembang SDK untuk Kotlin](https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/use-services-s3-mrap.html). 
+  Untuk detail API, lihat [CreateMultiRegionAccessPoint](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteBucketPolicy`
<a name="s3_DeleteBucketPolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketPolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun deleteS3BucketPolicy(bucketName: String?) {
    val request =
        DeleteBucketPolicyRequest {
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.deleteBucketPolicy(request)
        println("Done!")
    }
}
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun deleteBucketObjects(
    bucketName: String,
    objectName: String,
) {
    val objectId =
        ObjectIdentifier {
            key = objectName
        }

    val delOb =
        Delete {
            objects = listOf(objectId)
        }

    val request =
        DeleteObjectsRequest {
            bucket = bucketName
            delete = delOb
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.deleteObjects(request)
        println("$objectName was deleted from $bucketName")
    }
}
```
+  Untuk detail API, lihat [DeleteObjects](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetBucketPolicy`
<a name="s3_GetBucketPolicy_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketPolicy`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun getPolicy(bucketName: String): String? {
    println("Getting policy for bucket $bucketName")

    val request =
        GetBucketPolicyRequest {
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        val policyRes = s3.getBucketPolicy(request)
        return policyRes.policy
    }
}
```
+  Untuk detail API, lihat [GetBucketPolicy](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetObject`
<a name="s3_GetObject_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun getObjectBytes(
    bucketName: String,
    keyName: String,
    path: String,
) {
    val request =
        GetObjectRequest {
            key = keyName
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.getObject(request) { resp ->
            val myFile = File(path)
            resp.body?.writeToFile(myFile)
            println("Successfully read $keyName from $bucketName")
        }
    }
}
```
+  Untuk detail API, lihat [GetObject](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetObjectAcl`
<a name="s3_GetObjectAcl_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectAcl`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun getBucketACL(
    objectKey: String,
    bucketName: String,
) {
    val request =
        GetObjectAclRequest {
            bucket = bucketName
            key = objectKey
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        val response = s3.getObjectAcl(request)
        response.grants?.forEach { grant ->
            println("Grant permission is ${grant.permission}")
        }
    }
}
```
+  Untuk detail API, lihat [GetObjectAcl](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun listBucketObjects(bucketName: String) {
    val request =
        ListObjectsRequest {
            bucket = bucketName
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        val response = s3.listObjects(request)
        response.contents?.forEach { myObject ->
            println("The name of the key is ${myObject.key}")
            println("The object is ${myObject.size?.let { calKb(it) }} KBs")
            println("The owner is ${myObject.owner}")
        }
    }
}

private fun calKb(intValue: Long): Long = intValue / 1024
```
+  Untuk detail API, lihat [ListObjectsV2](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `PutBucketAcl`
<a name="s3_PutBucketAcl_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketAcl`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun setBucketAcl(
    bucketName: String,
    idVal: String,
) {
    val myGrant =
        Grantee {
            id = idVal
            type = Type.CanonicalUser
        }

    val ownerGrant =
        Grant {
            grantee = myGrant
            permission = Permission.FullControl
        }

    val grantList = mutableListOf<Grant>()
    grantList.add(ownerGrant)

    val ownerOb =
        Owner {
            id = idVal
        }

    val acl =
        AccessControlPolicy {
            owner = ownerOb
            grants = grantList
        }

    val request =
        PutBucketAclRequest {
            bucket = bucketName
            accessControlPolicy = acl
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        s3.putBucketAcl(request)
        println("An ACL was successfully set on $bucketName")
    }
}
```
+  Untuk detail API, lihat [PutBucketAcl](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `PutObject`
<a name="s3_PutObject_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 

```
suspend fun putS3Object(
    bucketName: String,
    objectKey: String,
    objectPath: String,
) {
    val metadataVal = mutableMapOf<String, String>()
    metadataVal["myVal"] = "test"

    val request =
        PutObjectRequest {
            bucket = bucketName
            key = objectKey
            metadata = metadataVal
            body = File(objectPath).asByteStream()
        }

    S3Client.fromEnvironment { region = "us-east-1" }.use { s3 ->
        val response = s3.putObject(request)
        println("Tag information is ${response.eTag}")
    }
}
```
+  Untuk detail API, lihat [PutObject](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 
Buat permintaan `GetObject` yang telah ditetapkan sebelumnya dan gunakan URL untuk mengunduh objek.  

```
suspend fun getObjectPresigned(
    s3: S3Client,
    bucketName: String,
    keyName: String,
): String {
    // Create a GetObjectRequest.
    val unsignedRequest =
        GetObjectRequest {
            bucket = bucketName
            key = keyName
        }

    // Presign the GetObject request.
    val presignedRequest = s3.presignGetObject(unsignedRequest, 24.hours)

    // Use the URL from the presigned HttpRequest in a subsequent HTTP GET request to retrieve the object.
    val objectContents = URL(presignedRequest.url.toString()).readText()

    return objectContents
}
```
Buat permintaan yang `GetObject` telah ditetapkan sebelumnya dengan opsi lanjutan.  

```
suspend fun getObjectPresignedMoreOptions(
    s3: S3Client,
    bucketName: String,
    keyName: String,
): HttpRequest {
    // Create a GetObjectRequest.
    val unsignedRequest =
        GetObjectRequest {
            bucket = bucketName
            key = keyName
        }

    // Presign the GetObject request.
    val presignedRequest =
        s3.presignGetObject(unsignedRequest, signer = CrtAwsSigner) {
            signingDate = Instant.now() + 12.hours // Presigned request can be used 12 hours from now.
            algorithm = AwsSigningAlgorithm.SIGV4_ASYMMETRIC
            signatureType = AwsSignatureType.HTTP_REQUEST_VIA_QUERY_PARAMS
            expiresAfter = 8.hours // Presigned request expires 8 hours later.
        }
    return presignedRequest
}
```
Buat permintaan `PutObject` yang telah ditetapkan sebelumnya dan gunakan untuk mengunggah objek.  

```
suspend fun putObjectPresigned(
    s3: S3Client,
    bucketName: String,
    keyName: String,
    content: String,
) {
    // Create a PutObjectRequest.
    val unsignedRequest =
        PutObjectRequest {
            bucket = bucketName
            key = keyName
        }

    // Presign the request.
    val presignedRequest = s3.presignPutObject(unsignedRequest, 24.hours)

    // Use the URL and any headers from the presigned HttpRequest in a subsequent HTTP PUT request to retrieve the object.
    // Create a PUT request using the OKHttpClient API.
    val putRequest =
        Request
            .Builder()
            .url(presignedRequest.url.toString())
            .apply {
                presignedRequest.headers.forEach { key, values ->
                    header(key, values.joinToString(", "))
                }
            }.put(content.toRequestBody())
            .build()

    val response = OkHttpClient().newCall(putRequest).execute()
    assert(response.isSuccessful)
}
```
+  Untuk informasi selengkapnya, lihat [AWS panduan pengembang SDK untuk Kotlin](https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/presign-requests.html). 

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Kotlin**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_pam).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon Rekognition Kotlin API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_photo_analyzer_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Dapatkan objek dari Titik Akses Multi-Region
<a name="s3_GetObject_MRAP_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mendapatkan objek dari Multi-Region Access Point.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/s3#code-examples). 
Konfigurasikan klien S3 untuk menggunakan algoritma penandatanganan Asymmetric Sigv4 (Sigv4a).  

```
        suspend fun createS3Client(): S3Client {
            // Configure your S3Client to use the Asymmetric SigV4 (SigV4a) signing algorithm.
            val sigV4aScheme = SigV4AsymmetricAuthScheme(DefaultAwsSigner)
            val s3 = S3Client.fromEnvironment {
                authSchemes = listOf(sigV4aScheme)
            }
            return s3
        }
```
Gunakan ARN Titik Akses Multi-Wilayah sebagai ganti nama bucket untuk mengambil objek.  

```
    suspend fun getObjectFromMrap(
        s3: S3Client,
        mrapArn: String,
        keyName: String,
    ): String? {
        val request = GetObjectRequest {
            bucket = mrapArn // Use the ARN instead of the bucket name for object operations.
            key = keyName
        }

        var stringObj: String? = null
        s3.getObject(request) { resp ->
            stringObj = resp.body?.decodeToString()
            if (stringObj != null) {
                println("Successfully read $keyName from $mrapArn")
            }
        }
        return stringObj
    }
```
+  Untuk informasi selengkapnya, lihat [AWS panduan pengembang SDK untuk Kotlin](https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/use-services-s3-mrap.html). 
+  Untuk detail API, lihat [GetObject](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# SageMaker Contoh AI menggunakan SDK untuk Kotlin
<a name="kotlin_1_sagemaker_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan SageMaker AI.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo SageMaker AI
<a name="sagemaker_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan SageMaker AI.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sagemaker#code-examples). 

```
suspend fun listBooks() {
    SageMakerClient.fromEnvironment { region = "us-west-2" }.use { sageMakerClient ->
        val response = sageMakerClient.listNotebookInstances(ListNotebookInstancesRequest {})
        response.notebookInstances?.forEach { item ->
            println("The notebook name is: ${item.notebookInstanceName}")
        }
    }
}
```
+  Untuk detail API, lihat [ListNotebookInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Tindakan
<a name="actions"></a>

### `CreatePipeline`
<a name="sagemaker_CreatePipeline_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePipeline`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/workflow_sagemaker_pipes#code-examples). 

```
// Create a pipeline from the example pipeline JSON.
suspend fun setupPipeline(filePath: String?, roleArnVal: String?, functionArnVal: String?, pipelineNameVal: String?) {
    println("Setting up the pipeline.")
    val parser = JSONParser()

    // Read JSON and get pipeline definition.
    FileReader(filePath).use { reader ->
        val obj: Any = parser.parse(reader)
        val jsonObject: JSONObject = obj as JSONObject
        val stepsArray: JSONArray = jsonObject.get("Steps") as JSONArray
        for (stepObj in stepsArray) {
            val step: JSONObject = stepObj as JSONObject
            if (step.containsKey("FunctionArn")) {
                step.put("FunctionArn", functionArnVal)
            }
        }
        println(jsonObject)

        // Create the pipeline.
        val pipelineRequest = CreatePipelineRequest {
            pipelineDescription = "Kotlin SDK example pipeline"
            roleArn = roleArnVal
            pipelineName = pipelineNameVal
            pipelineDefinition = jsonObject.toString()
        }

        SageMakerClient { region = "us-west-2" }.use { sageMakerClient ->
            sageMakerClient.createPipeline(pipelineRequest)
        }
    }
}
```
+  Untuk detail API, lihat [CreatePipeline](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeletePipeline`
<a name="sagemaker_DeletePipeline_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePipeline`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/workflow_sagemaker_pipes#code-examples). 

```
// Delete a SageMaker pipeline by name.
suspend fun deletePipeline(pipelineNameVal: String) {
    val pipelineRequest = DeletePipelineRequest {
        pipelineName = pipelineNameVal
    }

    SageMakerClient { region = "us-west-2" }.use { sageMakerClient ->
        sageMakerClient.deletePipeline(pipelineRequest)
        println("*** Successfully deleted $pipelineNameVal")
    }
}
```
+  Untuk detail API, lihat [DeletePipeline](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribePipelineExecution`
<a name="sagemaker_DescribePipelineExecution_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribePipelineExecution`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/workflow_sagemaker_pipes#code-examples). 

```
suspend fun waitForPipelineExecution(executionArn: String?) {
    var status: String
    var index = 0
    do {
        val pipelineExecutionRequest = DescribePipelineExecutionRequest {
            pipelineExecutionArn = executionArn
        }

        SageMakerClient { region = "us-west-2" }.use { sageMakerClient ->
            val response = sageMakerClient.describePipelineExecution(pipelineExecutionRequest)
            status = response.pipelineExecutionStatus.toString()
            println("$index. The status of the pipeline is $status")
            TimeUnit.SECONDS.sleep(4)
            index++
        }
    } while ("Executing" == status)
    println("Pipeline finished with status $status")
}
```
+  Untuk detail API, lihat [DescribePipelineExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `StartPipelineExecution`
<a name="sagemaker_StartPipelineExecution_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartPipelineExecution`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/workflow_sagemaker_pipes#code-examples). 

```
// Start a pipeline run with job configurations.
suspend fun executePipeline(bucketName: String, queueUrl: String?, roleArn: String?, pipelineNameVal: String): String? {
    println("Starting pipeline execution.")
    val inputBucketLocation = "s3://$bucketName/samplefiles/latlongtest.csv"
    val output = "s3://$bucketName/outputfiles/"

    val gson = GsonBuilder()
        .setFieldNamingPolicy(FieldNamingPolicy.UPPER_CAMEL_CASE)
        .setPrettyPrinting()
        .create()

    // Set up all parameters required to start the pipeline.
    val parameters: MutableList<Parameter> = java.util.ArrayList<Parameter>()

    val para1 = Parameter {
        name = "parameter_execution_role"
        value = roleArn
    }
    val para2 = Parameter {
        name = "parameter_queue_url"
        value = queueUrl
    }

    val inputJSON = """{
        "DataSourceConfig": {
        "S3Data": {
            "S3Uri": "s3://$bucketName/samplefiles/latlongtest.csv"
        },
        "Type": "S3_DATA"
        },
        "DocumentType": "CSV"
    }"""
    println(inputJSON)
    val para3 = Parameter {
        name = "parameter_vej_input_config"
        value = inputJSON
    }

    // Create an ExportVectorEnrichmentJobOutputConfig object.
    val jobS3Data = VectorEnrichmentJobS3Data {
        s3Uri = output
    }

    val outputConfig = ExportVectorEnrichmentJobOutputConfig {
        s3Data = jobS3Data
    }

    val gson4: String = gson.toJson(outputConfig)
    val para4: Parameter = Parameter {
        name = "parameter_vej_export_config"
        value = gson4
    }
    println("parameter_vej_export_config:" + gson.toJson(outputConfig))

    val para5JSON =
        "{\"MapMatchingConfig\":null,\"ReverseGeocodingConfig\":{\"XAttributeName\":\"Longitude\",\"YAttributeName\":\"Latitude\"}}"

    val para5: Parameter = Parameter {
        name = "parameter_step_1_vej_config"
        value = para5JSON
    }

    parameters.add(para1)
    parameters.add(para2)
    parameters.add(para3)
    parameters.add(para4)
    parameters.add(para5)

    val pipelineExecutionRequest = StartPipelineExecutionRequest {
        pipelineExecutionDescription = "Created using Kotlin SDK"
        pipelineExecutionDisplayName = "$pipelineName-example-execution"
        pipelineParameters = parameters
        pipelineName = pipelineNameVal
    }

    SageMakerClient { region = "us-west-2" }.use { sageMakerClient ->
        val response = sageMakerClient.startPipelineExecution(pipelineExecutionRequest)
        return response.pipelineExecutionArn
    }
}
```
+  Untuk detail API, lihat [StartPipelineExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Memulai pekerjaan geospasial dan jaringan pipa
<a name="sagemaker_Scenario_Pipelines_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan sumber daya untuk pipa.
+ Siapkan pipa yang menjalankan pekerjaan geospasial.
+ Mulai eksekusi pipeline.
+ Pantau status eksekusi.
+ Lihat output dari pipa.
+ Pembersihan sumber daya 

Untuk informasi selengkapnya, lihat [Membuat dan menjalankan SageMaker pipeline menggunakan AWS SDKs Community.aws](https://community.aws/posts/create-and-run-sagemaker-pipelines-using-aws-sdks).

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/workflow_sagemaker_pipes#code-examples). 

```
val DASHES = String(CharArray(80)).replace("\u0000", "-")
private var eventSourceMapping = ""

suspend fun main(args: Array<String>) {
    val usage = """
    Usage:
          <sageMakerRoleName> <lambdaRoleName> <functionName> <functionKey> <queueName> <bucketName> <bucketFunction> <lnglatData> <spatialPipelinePath> <pipelineName>

    Where:
        sageMakerRoleName - The name of the Amazon SageMaker role.
        lambdaRoleName - The name of the AWS Lambda role.
        functionName - The name of the AWS Lambda function (for example,SageMakerExampleFunction).
        functionKey - The name of the Amazon S3 key name that represents the Lambda function (for example, SageMakerLambda.zip).
        queueName - The name of the Amazon Simple Queue Service (Amazon SQS) queue.
        bucketName - The name of the Amazon Simple Storage Service (Amazon S3) bucket.
        bucketFunction - The name of the Amazon S3 bucket that contains the Lambda ZIP file. 
        lnglatData - The file location of the latlongtest.csv file required for this use case.
        spatialPipelinePath - The file location of the GeoSpatialPipeline.json file required for this use case.
        pipelineName - The name of the pipeline to create (for example, sagemaker-sdk-example-pipeline).
    """

    if (args.size != 10) {
        println(usage)
        exitProcess(1)
    }

    val sageMakerRoleName = args[0]
    val lambdaRoleName = args[1]
    val functionKey = args[2]
    val functionName = args[3]
    val queueName = args[4]
    val bucketName = args[5]
    val bucketFunction = args[6]
    val lnglatData = args[7]
    val spatialPipelinePath = args[8]
    val pipelineName = args[9]
    val handlerName = "org.example.SageMakerLambdaFunction::handleRequest"

    println(DASHES)
    println("Welcome to the Amazon SageMaker pipeline example scenario.")
    println(
        """
         This example workflow will guide you through setting up and running an
         Amazon SageMaker pipeline. The pipeline uses an AWS Lambda function and an
         Amazon SQS Queue. It runs a vector enrichment reverse geocode job to
         reverse geocode addresses in an input file and store the results in an export file.
        """.trimIndent(),
    )
    println(DASHES)

    println(DASHES)
    println("First, we will set up the roles, functions, and queue needed by the SageMaker pipeline.")
    val lambdaRoleArn: String = checkLambdaRole(lambdaRoleName)
    val sageMakerRoleArn: String = checkSageMakerRole(sageMakerRoleName)
    val functionArn = checkFunction(functionName, bucketFunction, functionKey, handlerName, lambdaRoleArn)
    val queueUrl = checkQueue(queueName, functionName)
    println(DASHES)

    println(DASHES)
    println("Setting up bucket $bucketName")
    if (!checkBucket(bucketName)) {
        setupBucket(bucketName)
        println("Put $lnglatData into $bucketName")
        val objectKey = "samplefiles/latlongtest.csv"
        putS3Object(bucketName, objectKey, lnglatData)
    }
    println(DASHES)

    println(DASHES)
    println("Now we can create and run our pipeline.")
    setupPipeline(spatialPipelinePath, sageMakerRoleArn, functionArn, pipelineName)
    val pipelineExecutionARN = executePipeline(bucketName, queueUrl, sageMakerRoleArn, pipelineName)
    println("The pipeline execution ARN value is $pipelineExecutionARN")
    waitForPipelineExecution(pipelineExecutionARN)
    println("Wait 30 secs to get output results $bucketName")
    TimeUnit.SECONDS.sleep(30)
    getOutputResults(bucketName)
    println(DASHES)

    println(DASHES)
    println(
        """
             The pipeline has completed. To view the pipeline and runs in SageMaker Studio, follow these instructions:
             https://docs.aws.amazon.com/sagemaker/latest/dg/pipelines-studio.html
        """.trimIndent(),
    )
    println(DASHES)

    println(DASHES)
    println("Do you want to delete the AWS resources used in this Workflow? (y/n)")
    val `in` = Scanner(System.`in`)
    val delResources = `in`.nextLine()
    if (delResources.compareTo("y") == 0) {
        println("Lets clean up the AWS resources. Wait 30 seconds")
        TimeUnit.SECONDS.sleep(30)
        deleteEventSourceMapping(functionName)
        deleteSQSQueue(queueName)
        listBucketObjects(bucketName)
        deleteBucket(bucketName)
        delLambdaFunction(functionName)
        deleteLambdaRole(lambdaRoleName)
        deleteSagemakerRole(sageMakerRoleName)
        deletePipeline(pipelineName)
    } else {
        println("The AWS Resources were not deleted!")
    }
    println(DASHES)

    println(DASHES)
    println("SageMaker pipeline scenario is complete.")
    println(DASHES)
}

// Delete a SageMaker pipeline by name.
suspend fun deletePipeline(pipelineNameVal: String) {
    val pipelineRequest = DeletePipelineRequest {
        pipelineName = pipelineNameVal
    }

    SageMakerClient { region = "us-west-2" }.use { sageMakerClient ->
        sageMakerClient.deletePipeline(pipelineRequest)
        println("*** Successfully deleted $pipelineNameVal")
    }
}

suspend fun deleteSagemakerRole(roleNameVal: String) {
    val sageMakerRolePolicies = getSageMakerRolePolicies()
    IamClient { region = "us-west-2" }.use { iam ->
        for (policy in sageMakerRolePolicies) {
            // First the policy needs to be detached.
            val rolePolicyRequest = DetachRolePolicyRequest {
                policyArn = policy
                roleName = roleNameVal
            }
            iam.detachRolePolicy(rolePolicyRequest)
        }

        // Delete the role.
        val roleRequest = DeleteRoleRequest {
            roleName = roleNameVal
        }
        iam.deleteRole(roleRequest)
        println("*** Successfully deleted $roleNameVal")
    }
}

suspend fun deleteLambdaRole(roleNameVal: String) {
    val lambdaRolePolicies = getLambdaRolePolicies()
    IamClient { region = "us-west-2" }.use { iam ->
        for (policy in lambdaRolePolicies) {
            // First the policy needs to be detached.
            val rolePolicyRequest = DetachRolePolicyRequest {
                policyArn = policy
                roleName = roleNameVal
            }
            iam.detachRolePolicy(rolePolicyRequest)
        }

        // Delete the role.
        val roleRequest = DeleteRoleRequest {
            roleName = roleNameVal
        }
        iam.deleteRole(roleRequest)
        println("*** Successfully deleted $roleNameVal")
    }
}

suspend fun delLambdaFunction(myFunctionName: String) {
    val request = DeleteFunctionRequest {
        functionName = myFunctionName
    }

    LambdaClient { region = "us-west-2" }.use { awsLambda ->
        awsLambda.deleteFunction(request)
        println("$myFunctionName was deleted")
    }
}

suspend fun deleteBucket(bucketName: String?) {
    val request = DeleteBucketRequest {
        bucket = bucketName
    }
    S3Client { region = "us-east-1" }.use { s3 ->
        s3.deleteBucket(request)
        println("The $bucketName was successfully deleted!")
    }
}

suspend fun deleteBucketObjects(bucketName: String, objectName: String?) {
    val toDelete = ArrayList<ObjectIdentifier>()
    val obId = ObjectIdentifier {
        key = objectName
    }
    toDelete.add(obId)
    val delOb = Delete {
        objects = toDelete
    }
    val dor = DeleteObjectsRequest {
        bucket = bucketName
        delete = delOb
    }

    S3Client { region = "us-east-1" }.use { s3Client ->
        s3Client.deleteObjects(dor)
        println("*** $bucketName objects were deleted.")
    }
}

suspend fun listBucketObjects(bucketNameVal: String) {
    val listObjects = ListObjectsRequest {
        bucket = bucketNameVal
    }

    S3Client { region = "us-east-1" }.use { s3Client ->
        val res = s3Client.listObjects(listObjects)
        val objects = res.contents
        if (objects != null) {
            for (myValue in objects) {
                println("The name of the key is ${myValue.key}")
                deleteBucketObjects(bucketNameVal, myValue.key)
            }
        }
    }
}

// Delete the specific Amazon SQS queue.
suspend fun deleteSQSQueue(queueNameVal: String?) {
    val getQueueRequest = GetQueueUrlRequest {
        queueName = queueNameVal
    }

    SqsClient { region = "us-west-2" }.use { sqsClient ->
        val urlVal = sqsClient.getQueueUrl(getQueueRequest).queueUrl
        val deleteQueueRequest = DeleteQueueRequest {
            queueUrl = urlVal
        }
        sqsClient.deleteQueue(deleteQueueRequest)
    }
}

// Delete the queue event mapping.
suspend fun deleteEventSourceMapping(functionNameVal: String) {
    if (eventSourceMapping.compareTo("") == 0) {
        LambdaClient { region = "us-west-2" }.use { lambdaClient ->
            val request = ListEventSourceMappingsRequest {
                functionName = functionNameVal
            }
            val response = lambdaClient.listEventSourceMappings(request)
            val eventList = response.eventSourceMappings
            if (eventList != null) {
                for (event in eventList) {
                    eventSourceMapping = event.uuid.toString()
                }
            }
        }
    }

    val eventSourceMappingRequest = DeleteEventSourceMappingRequest {
        uuid = eventSourceMapping
    }
    LambdaClient { region = "us-west-2" }.use { lambdaClient ->
        lambdaClient.deleteEventSourceMapping(eventSourceMappingRequest)
        println("The event mapping is deleted!")
    }
}

// Reads the objects in the S3 bucket and displays the values.
private suspend fun readObject(bucketName: String, keyVal: String?) {
    println("Output file contents: \n")
    val objectRequest = GetObjectRequest {
        bucket = bucketName
        key = keyVal
    }
    S3Client { region = "us-east-1" }.use { s3Client ->
        s3Client.getObject(objectRequest) { resp ->
            val byteArray = resp.body?.toByteArray()
            val text = byteArray?.let { String(it, StandardCharsets.UTF_8) }
            println("Text output: $text")
        }
    }
}

// Display the results from the output directory.
suspend fun getOutputResults(bucketName: String?) {
    println("Getting output results $bucketName.")
    val listObjectsRequest = ListObjectsRequest {
        bucket = bucketName
        prefix = "outputfiles/"
    }
    S3Client { region = "us-east-1" }.use { s3Client ->
        val response = s3Client.listObjects(listObjectsRequest)
        val s3Objects: List<Object>? = response.contents
        if (s3Objects != null) {
            for (`object` in s3Objects) {
                if (bucketName != null) {
                    readObject(bucketName, (`object`.key))
                }
            }
        }
    }
}

suspend fun waitForPipelineExecution(executionArn: String?) {
    var status: String
    var index = 0
    do {
        val pipelineExecutionRequest = DescribePipelineExecutionRequest {
            pipelineExecutionArn = executionArn
        }

        SageMakerClient { region = "us-west-2" }.use { sageMakerClient ->
            val response = sageMakerClient.describePipelineExecution(pipelineExecutionRequest)
            status = response.pipelineExecutionStatus.toString()
            println("$index. The status of the pipeline is $status")
            TimeUnit.SECONDS.sleep(4)
            index++
        }
    } while ("Executing" == status)
    println("Pipeline finished with status $status")
}

// Start a pipeline run with job configurations.
suspend fun executePipeline(bucketName: String, queueUrl: String?, roleArn: String?, pipelineNameVal: String): String? {
    println("Starting pipeline execution.")
    val inputBucketLocation = "s3://$bucketName/samplefiles/latlongtest.csv"
    val output = "s3://$bucketName/outputfiles/"

    val gson = GsonBuilder()
        .setFieldNamingPolicy(FieldNamingPolicy.UPPER_CAMEL_CASE)
        .setPrettyPrinting()
        .create()

    // Set up all parameters required to start the pipeline.
    val parameters: MutableList<Parameter> = java.util.ArrayList<Parameter>()

    val para1 = Parameter {
        name = "parameter_execution_role"
        value = roleArn
    }
    val para2 = Parameter {
        name = "parameter_queue_url"
        value = queueUrl
    }

    val inputJSON = """{
        "DataSourceConfig": {
        "S3Data": {
            "S3Uri": "s3://$bucketName/samplefiles/latlongtest.csv"
        },
        "Type": "S3_DATA"
        },
        "DocumentType": "CSV"
    }"""
    println(inputJSON)
    val para3 = Parameter {
        name = "parameter_vej_input_config"
        value = inputJSON
    }

    // Create an ExportVectorEnrichmentJobOutputConfig object.
    val jobS3Data = VectorEnrichmentJobS3Data {
        s3Uri = output
    }

    val outputConfig = ExportVectorEnrichmentJobOutputConfig {
        s3Data = jobS3Data
    }

    val gson4: String = gson.toJson(outputConfig)
    val para4: Parameter = Parameter {
        name = "parameter_vej_export_config"
        value = gson4
    }
    println("parameter_vej_export_config:" + gson.toJson(outputConfig))

    val para5JSON =
        "{\"MapMatchingConfig\":null,\"ReverseGeocodingConfig\":{\"XAttributeName\":\"Longitude\",\"YAttributeName\":\"Latitude\"}}"

    val para5: Parameter = Parameter {
        name = "parameter_step_1_vej_config"
        value = para5JSON
    }

    parameters.add(para1)
    parameters.add(para2)
    parameters.add(para3)
    parameters.add(para4)
    parameters.add(para5)

    val pipelineExecutionRequest = StartPipelineExecutionRequest {
        pipelineExecutionDescription = "Created using Kotlin SDK"
        pipelineExecutionDisplayName = "$pipelineName-example-execution"
        pipelineParameters = parameters
        pipelineName = pipelineNameVal
    }

    SageMakerClient { region = "us-west-2" }.use { sageMakerClient ->
        val response = sageMakerClient.startPipelineExecution(pipelineExecutionRequest)
        return response.pipelineExecutionArn
    }
}

// Create a pipeline from the example pipeline JSON.
suspend fun setupPipeline(filePath: String?, roleArnVal: String?, functionArnVal: String?, pipelineNameVal: String?) {
    println("Setting up the pipeline.")
    val parser = JSONParser()

    // Read JSON and get pipeline definition.
    FileReader(filePath).use { reader ->
        val obj: Any = parser.parse(reader)
        val jsonObject: JSONObject = obj as JSONObject
        val stepsArray: JSONArray = jsonObject.get("Steps") as JSONArray
        for (stepObj in stepsArray) {
            val step: JSONObject = stepObj as JSONObject
            if (step.containsKey("FunctionArn")) {
                step.put("FunctionArn", functionArnVal)
            }
        }
        println(jsonObject)

        // Create the pipeline.
        val pipelineRequest = CreatePipelineRequest {
            pipelineDescription = "Kotlin SDK example pipeline"
            roleArn = roleArnVal
            pipelineName = pipelineNameVal
            pipelineDefinition = jsonObject.toString()
        }

        SageMakerClient { region = "us-west-2" }.use { sageMakerClient ->
            sageMakerClient.createPipeline(pipelineRequest)
        }
    }
}

suspend fun putS3Object(bucketName: String, objectKey: String, objectPath: String) {
    val request = PutObjectRequest {
        bucket = bucketName
        key = objectKey
        body = File(objectPath).asByteStream()
    }

    S3Client { region = "us-east-1" }.use { s3 ->
        s3.putObject(request)
        println("Successfully placed $objectKey into bucket $bucketName")
    }
}

suspend fun setupBucket(bucketName: String) {
    val request = CreateBucketRequest {
        bucket = bucketName
    }

    S3Client { region = "us-east-1" }.use { s3 ->
        s3.createBucket(request)
        println("$bucketName is ready")
    }
}

suspend fun checkBucket(bucketName: String): Boolean {
    try {
        val headBucketRequest = HeadBucketRequest {
            bucket = bucketName
        }
        S3Client { region = "us-east-1" }.use { s3Client ->
            s3Client.headBucket(headBucketRequest)
            println("$bucketName exists")
            return true
        }
    } catch (e: S3Exception) {
        println("Bucket does not exist")
    }
    return false
}

// Connect the queue to the Lambda function as an event source.
suspend fun connectLambda(queueUrlVal: String?, lambdaNameVal: String?) {
    println("Connecting the Lambda function and queue for the pipeline.")
    var queueArn = ""

    // Specify the attributes to retrieve.
    val atts: MutableList<QueueAttributeName> = ArrayList()
    atts.add(QueueAttributeName.QueueArn)
    val attributesRequest = GetQueueAttributesRequest {
        queueUrl = queueUrlVal
        attributeNames = atts
    }

    SqsClient { region = "us-west-2" }.use { sqsClient ->
        val response = sqsClient.getQueueAttributes(attributesRequest)
        val queueAtts = response.attributes
        if (queueAtts != null) {
            for ((key, value) in queueAtts) {
                println("Key = $key, Value = $value")
                queueArn = value
            }
        }
    }
    val eventSourceMappingRequest = CreateEventSourceMappingRequest {
        eventSourceArn = queueArn
        functionName = lambdaNameVal
    }
    LambdaClient { region = "us-west-2" }.use { lambdaClient ->
        val response1 = lambdaClient.createEventSourceMapping(eventSourceMappingRequest)
        eventSourceMapping = response1.uuid.toString()
        println("The mapping between the event source and Lambda function was successful")
    }
}

// Set up the SQS queue to use with the pipeline.
suspend fun setupQueue(queueNameVal: String, lambdaNameVal: String): String {
    println("Setting up queue named $queueNameVal")
    val queueAtt: MutableMap<String, String> = HashMap()
    queueAtt.put("DelaySeconds", "5")
    queueAtt.put("ReceiveMessageWaitTimeSeconds", "5")
    queueAtt.put("VisibilityTimeout", "300")

    val createQueueRequest = CreateQueueRequest {
        queueName = queueNameVal
        attributes = queueAtt
    }

    SqsClient { region = "us-west-2" }.use { sqsClient ->
        sqsClient.createQueue(createQueueRequest)
        println("\nGet queue url")
        val getQueueUrlResponse = sqsClient.getQueueUrl(GetQueueUrlRequest { queueName = queueNameVal })
        TimeUnit.SECONDS.sleep(15)
        connectLambda(getQueueUrlResponse.queueUrl, lambdaNameVal)
        println("Queue ready with Url " + getQueueUrlResponse.queueUrl)
        return getQueueUrlResponse.queueUrl.toString()
    }
}

// Checks to see if the Amazon SQS queue exists. If not, this method creates a new queue
// and returns the ARN value.
suspend fun checkQueue(queueNameVal: String, lambdaNameVal: String): String? {
    println("Checking to see if the queue exists. If not, a new queue will be created for use in this workflow.")
    var queueUrl: String
    try {
        val request = GetQueueUrlRequest {
            queueName = queueNameVal
        }

        SqsClient { region = "us-west-2" }.use { sqsClient ->
            val response = sqsClient.getQueueUrl(request)
            queueUrl = response.queueUrl.toString()
            println(queueUrl)
        }
    } catch (e: SqsException) {
        println(e.message + " A new queue will be created")
        queueUrl = setupQueue(queueNameVal, lambdaNameVal)
    }
    return queueUrl
}

suspend fun createNewFunction(myFunctionName: String, s3BucketName: String, myS3Key: String, myHandler: String, myRole: String): String {
    val functionCode = FunctionCode {
        s3Bucket = s3BucketName
        s3Key = myS3Key
    }

    val request = CreateFunctionRequest {
        functionName = myFunctionName
        code = functionCode
        description = "Created by the Lambda Kotlin API"
        handler = myHandler
        role = myRole
        runtime = Runtime.Java11
        memorySize = 1024
        timeout = 200
    }

    LambdaClient { region = "us-west-2" }.use { awsLambda ->
        val functionResponse = awsLambda.createFunction(request)
        awsLambda.waitUntilFunctionActive {
            functionName = myFunctionName
        }
        println("${functionResponse.functionArn} was created")
        return functionResponse.functionArn.toString()
    }
}

suspend fun checkFunction(myFunctionName: String, s3BucketName: String, myS3Key: String, myHandler: String, myRole: String): String {
    println("Checking to see if the function exists. If not, a new AWS Lambda function will be created for use in this workflow.")
    var functionArn: String
    try {
        // Does this function already exist.
        val functionRequest = GetFunctionRequest {
            functionName = myFunctionName
        }
        LambdaClient { region = "us-west-2" }.use { lambdaClient ->
            val response = lambdaClient.getFunction(functionRequest)
            functionArn = response.configuration?.functionArn.toString()
            println("$functionArn exists")
        }
    } catch (e: LambdaException) {
        println(e.message + " A new function will be created")
        functionArn = createNewFunction(myFunctionName, s3BucketName, myS3Key, myHandler, myRole)
    }
    return functionArn
}

// Checks to see if the SageMaker role exists. If not, this method creates it.
suspend fun checkSageMakerRole(roleNameVal: String): String {
    println("Checking to see if the role exists. If not, a new role will be created for AWS SageMaker to use.")
    var roleArn: String
    try {
        val roleRequest = GetRoleRequest {
            roleName = roleNameVal
        }
        IamClient { region = "AWS_GLOBAL" }.use { iamClient ->
            val response = iamClient.getRole(roleRequest)
            roleArn = response.role?.arn.toString()
            println(roleArn)
        }
    } catch (e: IamException) {
        println(e.message + " A new role will be created")
        roleArn = createSageMakerRole(roleNameVal)
    }
    return roleArn
}

suspend fun createSageMakerRole(roleNameVal: String): String {
    val sageMakerRolePolicies = getSageMakerRolePolicies()
    println("Creating a role to use with SageMaker.")
    val assumeRolePolicy = "{" +
        "\"Version\": \"2012-10-17\"," +
        "\"Statement\": [{" +
        "\"Effect\": \"Allow\"," +
        "\"Principal\": {" +
        "\"Service\": [" +
        "\"sagemaker.amazonaws.com\"," +
        "\"sagemaker-geospatial.amazonaws.com\"," +
        "\"lambda.amazonaws.com\"," +
        "\"s3.amazonaws.com\"" +
        "]" +
        "}," +
        "\"Action\": \"sts:AssumeRole\"" +
        "}]" +
        "}"

    val request = CreateRoleRequest {
        roleName = roleNameVal
        assumeRolePolicyDocument = assumeRolePolicy
        description = "Created using the AWS SDK for Kotlin"
    }
    IamClient { region = "AWS_GLOBAL" }.use { iamClient ->
        val roleResult = iamClient.createRole(request)

        // Attach the policies to the role.
        for (policy in sageMakerRolePolicies) {
            val attachRequest = AttachRolePolicyRequest {
                roleName = roleNameVal
                policyArn = policy
            }
            iamClient.attachRolePolicy(attachRequest)
        }

        // Allow time for the role to be ready.
        TimeUnit.SECONDS.sleep(15)
        System.out.println("Role ready with ARN ${roleResult.role?.arn}")
        return roleResult.role?.arn.toString()
    }
}

// Checks to see if the Lambda role exists. If not, this method creates it.
suspend fun checkLambdaRole(roleNameVal: String): String {
    println("Checking to see if the role exists. If not, a new role will be created for AWS Lambda to use.")
    var roleArn: String
    val roleRequest = GetRoleRequest {
        roleName = roleNameVal
    }

    try {
        IamClient { region = "AWS_GLOBAL" }.use { iamClient ->
            val response = iamClient.getRole(roleRequest)
            roleArn = response.role?.arn.toString()
            println(roleArn)
        }
    } catch (e: IamException) {
        println(e.message + " A new role will be created")
        roleArn = createLambdaRole(roleNameVal)
    }

    return roleArn
}

private suspend fun createLambdaRole(roleNameVal: String): String {
    val lambdaRolePolicies = getLambdaRolePolicies()
    val assumeRolePolicy = "{" +
        "\"Version\": \"2012-10-17\"," +
        "\"Statement\": [{" +
        "\"Effect\": \"Allow\"," +
        "\"Principal\": {" +
        "\"Service\": [" +
        "\"sagemaker.amazonaws.com\"," +
        "\"sagemaker-geospatial.amazonaws.com\"," +
        "\"lambda.amazonaws.com\"," +
        "\"s3.amazonaws.com\"" +
        "]" +
        "}," +
        "\"Action\": \"sts:AssumeRole\"" +
        "}]" +
        "}"

    val request = CreateRoleRequest {
        roleName = roleNameVal
        assumeRolePolicyDocument = assumeRolePolicy
        description = "Created using the AWS SDK for Kotlin"
    }

    IamClient { region = "AWS_GLOBAL" }.use { iamClient ->
        val roleResult = iamClient.createRole(request)

        // Attach the policies to the role.
        for (policy in lambdaRolePolicies) {
            val attachRequest = AttachRolePolicyRequest {
                roleName = roleNameVal
                policyArn = policy
            }
            iamClient.attachRolePolicy(attachRequest)
        }

        // Allow time for the role to be ready.
        TimeUnit.SECONDS.sleep(15)
        println("Role ready with ARN " + roleResult.role?.arn)
        return roleResult.role?.arn.toString()
    }
}

fun getLambdaRolePolicies(): Array<String?> {
    val lambdaRolePolicies = arrayOfNulls<String>(5)
    lambdaRolePolicies[0] = "arn:aws:iam::aws:policy/AmazonSageMakerFullAccess"
    lambdaRolePolicies[1] = "arn:aws:iam::aws:policy/AmazonSQSFullAccess"
    lambdaRolePolicies[2] = "arn:aws:iam::aws:policy/service-role/" + "AmazonSageMakerGeospatialFullAccess"
    lambdaRolePolicies[3] = "arn:aws:iam::aws:policy/service-role/" + "AmazonSageMakerServiceCatalogProductsLambdaServiceRolePolicy"
    lambdaRolePolicies[4] = "arn:aws:iam::aws:policy/service-role/" + "AWSLambdaSQSQueueExecutionRole"
    return lambdaRolePolicies
}

fun getSageMakerRolePolicies(): Array<String?> {
    val sageMakerRolePolicies = arrayOfNulls<String>(3)
    sageMakerRolePolicies[0] = "arn:aws:iam::aws:policy/AmazonSageMakerFullAccess"
    sageMakerRolePolicies[1] = "arn:aws:iam::aws:policy/service-role/" + "AmazonSageMakerGeospatialFullAccess"
    sageMakerRolePolicies[2] = "arn:aws:iam::aws:policy/AmazonSQSFullAccess"
    return sageMakerRolePolicies
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CreatePipeline](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeletePipeline](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribePipelineExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartPipelineExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [UpdatePipeline](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

# Contoh Secrets Manager menggunakan SDK untuk Kotlin
<a name="kotlin_1_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Kotlin with Secrets Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetSecretValue`
<a name="secrets-manager_GetSecretValue_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSecretValue`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/secrets-manager#code-examples). 

```
suspend fun getValue(secretName: String?) {
    val valueRequest =
        GetSecretValueRequest {
            secretId = secretName
        }

    SecretsManagerClient.fromEnvironment { region = "us-east-1" }.use { secretsClient ->
        val response = secretsClient.getSecretValue(valueRequest)
        val secret = response.secretString
        println("The secret value is $secret")
    }
}
```
+  Untuk detail API, lihat [GetSecretValue](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon SES menggunakan SDK untuk Kotlin
<a name="kotlin_1_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon SES.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi web untuk melacak data DynamoDB
<a name="cross_DynamoDBDataTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item kerja dalam tabel Amazon DynamoDB dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon DynamoDB API untuk membuat aplikasi web dinamis yang melacak data kerja DynamoDB.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/itemtracker_dynamodb).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SES

### Buat aplikasi web untuk melacak data Amazon Redshift
<a name="cross_RedshiftDataTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak dan melaporkan item pekerjaan menggunakan database Amazon Redshift.

**SDK untuk Kotlin**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan item pekerjaan yang disimpan dalam database Amazon Redshift.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Redshift dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_redshift_application)   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Redshift
+ Amazon SES

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Kotlin**  
 Menunjukkan cara membuat aplikasi web yang melacak dan melaporkan butir kerja yang tersimpan dalam basis data Amazon RDS.   
 Untuk kode sumber lengkap dan petunjuk tentang cara menyiapkan Spring REST API yang menanyakan data Amazon Aurora Tanpa Server dan untuk digunakan oleh aplikasi React, lihat contoh lengkapnya di. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/serverless_rds)   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon Rekognition Kotlin API untuk membuat aplikasi yang menggunakan Amazon Rekognition untuk mengidentifikasi objek berdasarkan kategori dalam gambar yang berada di bucket Amazon Simple Storage Service (Amazon S3). Aplikasi ini mengirimkan notifikasi email kepada admin beserta hasilnya menggunakan Amazon Simple Email Service (Amazon SES).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_photo_analyzer_app).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

# Contoh Amazon SNS menggunakan SDK untuk Kotlin
<a name="kotlin_1_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon SNS
<a name="sns_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SNS.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
import aws.sdk.kotlin.services.sns.SnsClient
import aws.sdk.kotlin.services.sns.model.ListTopicsRequest
import aws.sdk.kotlin.services.sns.paginators.listTopicsPaginated
import kotlinx.coroutines.flow.transform

/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */
suspend fun main() {
    listTopicsPag()
}

suspend fun listTopicsPag() {
    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        snsClient
            .listTopicsPaginated(ListTopicsRequest { })
            .transform { it.topics?.forEach { topic -> emit(topic) } }
            .collect { topic ->
                println("The topic ARN is ${topic.topicArn}")
            }
    }
}
```
+  Untuk detail API, lihat [ListTopics](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Tindakan
<a name="actions"></a>

### `CreateTopic`
<a name="sns_CreateTopic_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun createSNSTopic(topicName: String): String {
    val request =
        CreateTopicRequest {
            name = topicName
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.createTopic(request)
        return result.topicArn.toString()
    }
}
```
+  Untuk detail API, lihat [CreateTopic](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteTopic`
<a name="sns_DeleteTopic_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun deleteSNSTopic(topicArnVal: String) {
    val request =
        DeleteTopicRequest {
            topicArn = topicArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        snsClient.deleteTopic(request)
        println("$topicArnVal was successfully deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteTopic](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetTopicAttributes`
<a name="sns_GetTopicAttributes_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTopicAttributes`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun getSNSTopicAttributes(topicArnVal: String) {
    val request =
        GetTopicAttributesRequest {
            topicArn = topicArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.getTopicAttributes(request)
        println("${result.attributes}")
    }
}
```
+  Untuk detail API, lihat [GetTopicAttributes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun listSNSSubscriptions() {
    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val response = snsClient.listSubscriptions(ListSubscriptionsRequest {})
        response.subscriptions?.forEach { sub ->
            println("Sub ARN is ${sub.subscriptionArn}")
            println("Sub protocol is ${sub.protocol}")
        }
    }
}
```
+  Untuk detail API, lihat [ListSubscriptions](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListTopics`
<a name="sns_ListTopics_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun listSNSTopics() {
    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val response = snsClient.listTopics(ListTopicsRequest { })
        response.topics?.forEach { topic ->
            println("The topic ARN is ${topic.topicArn}")
        }
    }
}
```
+  Untuk detail API, lihat [ListTopics](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `Publish`
<a name="sns_Publish_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun pubTopic(
    topicArnVal: String,
    messageVal: String,
) {
    val request =
        PublishRequest {
            message = messageVal
            topicArn = topicArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.publish(request)
        println("${result.messageId} message sent.")
    }
}
```
+  Untuk detail API, lihat [Menerbitkan](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `SetTopicAttributes`
<a name="sns_SetTopicAttributes_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetTopicAttributes`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun setTopAttr(
    attribute: String?,
    topicArnVal: String?,
    value: String?,
) {
    val request =
        SetTopicAttributesRequest {
            attributeName = attribute
            attributeValue = value
            topicArn = topicArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        snsClient.setTopicAttributes(request)
        println("Topic ${request.topicArn} was updated.")
    }
}
```
+  Untuk detail API, lihat [SetTopicAttributes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `Subscribe`
<a name="sns_Subscribe_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
suspend fun subEmail(
    topicArnVal: String,
    email: String,
): String {
    val request =
        SubscribeRequest {
            protocol = "email"
            endpoint = email
            returnSubscriptionArn = true
            topicArn = topicArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.subscribe(request)
        return result.subscriptionArn.toString()
    }
}
```
Berlangganan fungsi Lambda ke suatu topik.  

```
suspend fun subLambda(
    topicArnVal: String?,
    lambdaArn: String?,
) {
    val request =
        SubscribeRequest {
            protocol = "lambda"
            endpoint = lambdaArn
            returnSubscriptionArn = true
            topicArn = topicArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.subscribe(request)
        println(" The subscription Arn is ${result.subscriptionArn}")
    }
}
```
+  Untuk detail API, lihat [Berlangganan](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### `TagResource`
<a name="sns_TagResource_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun addTopicTags(topicArn: String) {
    val tag =
        Tag {
            key = "Team"
            value = "Development"
        }

    val tag2 =
        Tag {
            key = "Environment"
            value = "Gamma"
        }

    val tagList = mutableListOf<Tag>()
    tagList.add(tag)
    tagList.add(tag2)

    val request =
        TagResourceRequest {
            resourceArn = topicArn
            tags = tagList
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        snsClient.tagResource(request)
        println("Tags have been added to $topicArn")
    }
}
```
+  Untuk detail API, lihat [TagResource](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `Unsubscribe`
<a name="sns_Unsubscribe_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun unSub(subscriptionArnVal: String) {
    val request =
        UnsubscribeRequest {
            subscriptionArn = subscriptionArnVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        snsClient.unsubscribe(request)
        println("Subscription was removed for ${request.subscriptionArn}")
    }
}
```
+  Untuk detail API, lihat [Berhenti berlangganan](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi Amazon SNS
<a name="cross_SnsPublishSubscription_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang memiliki langganan dan mempublikasikan fungsionalitas dan menerjemahkan pesan.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon SNS Kotlin API untuk membuat aplikasi yang memiliki fungsionalitas langganan dan publikasi. Selain itu, contoh aplikasi ini juga menerjemahkan pesan.   
 Untuk kode sumber lengkap dan petunjuk tentang cara membuat aplikasi web, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/subpub_app).   
 Untuk kode sumber lengkap dan petunjuk tentang cara membuat aplikasi Android asli, lihat contoh selengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/subpub_app_android).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon SNS
+ Amazon Translate

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk Kotlin**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_pam).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Publikasikan pesan teks SMS
<a name="sns_PublishTextSMS_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan pesan SMS menggunakan Amazon SNS.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sns#code-examples). 

```
suspend fun pubTextSMS(
    messageVal: String?,
    phoneNumberVal: String?,
) {
    val request =
        PublishRequest {
            message = messageVal
            phoneNumber = phoneNumberVal
        }

    SnsClient.fromEnvironment { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.publish(request)
        println("${result.messageId} message sent.")
    }
}
```
+  Untuk detail API, lihat [Menerbitkan](https://sdk.amazonaws.com/kotlin/api/latest/index.html) di *AWS SDK untuk referensi API Kotlin*. 

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/topics_and_queues#code-examples). 

```
package com.example.sns

import aws.sdk.kotlin.services.sns.SnsClient
import aws.sdk.kotlin.services.sns.model.CreateTopicRequest
import aws.sdk.kotlin.services.sns.model.DeleteTopicRequest
import aws.sdk.kotlin.services.sns.model.PublishRequest
import aws.sdk.kotlin.services.sns.model.SetSubscriptionAttributesRequest
import aws.sdk.kotlin.services.sns.model.SubscribeRequest
import aws.sdk.kotlin.services.sns.model.UnsubscribeRequest
import aws.sdk.kotlin.services.sqs.SqsClient
import aws.sdk.kotlin.services.sqs.model.CreateQueueRequest
import aws.sdk.kotlin.services.sqs.model.DeleteMessageBatchRequest
import aws.sdk.kotlin.services.sqs.model.DeleteMessageBatchRequestEntry
import aws.sdk.kotlin.services.sqs.model.DeleteQueueRequest
import aws.sdk.kotlin.services.sqs.model.GetQueueAttributesRequest
import aws.sdk.kotlin.services.sqs.model.GetQueueUrlRequest
import aws.sdk.kotlin.services.sqs.model.Message
import aws.sdk.kotlin.services.sqs.model.QueueAttributeName
import aws.sdk.kotlin.services.sqs.model.ReceiveMessageRequest
import aws.sdk.kotlin.services.sqs.model.SetQueueAttributesRequest
import com.google.gson.Gson
import com.google.gson.JsonObject
import com.google.gson.JsonPrimitive
import java.util.Scanner

/**
Before running this Kotlin code example, set up your development environment,
including your AWS credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

This Kotlin example performs the following tasks:

 1. Gives the user three options to choose from.
 2. Creates an Amazon Simple Notification Service (Amazon SNS) topic.
 3. Creates an Amazon Simple Queue Service (Amazon SQS) queue.
 4. Gets the SQS queue Amazon Resource Name (ARN) attribute.
 5. Attaches an AWS Identity and Access Management (IAM) policy to the queue.
 6. Subscribes to the SQS queue.
 7. Publishes a message to the topic.
 8. Displays the messages.
 9. Deletes the received message.
 10. Unsubscribes from the topic.
 11. Deletes the SNS topic.
 */

val DASHES: String = String(CharArray(80)).replace("\u0000", "-")
suspend fun main() {
    val input = Scanner(System.`in`)
    val useFIFO: String
    var duplication = "n"
    var topicName: String
    var deduplicationID: String? = null
    var groupId: String? = null
    val topicArn: String?
    var sqsQueueName: String
    val sqsQueueUrl: String?
    val sqsQueueArn: String
    val subscriptionArn: String?
    var selectFIFO = false
    val message: String
    val messageList: List<Message?>?
    val filterList = ArrayList<String>()
    var msgAttValue = ""

    println(DASHES)
    println("Welcome to the AWS SDK for Kotlin messaging with topics and queues.")
    println(
        """
                In this scenario, you will create an SNS topic and subscribe an SQS queue to the topic.
                You can select from several options for configuring the topic and the subscriptions for the queue.
                You can then post to the topic and see the results in the queue.
        """.trimIndent(),
    )
    println(DASHES)

    println(DASHES)
    println(
        """
                SNS topics can be configured as FIFO (First-In-First-Out).
                FIFO topics deliver messages in order and support deduplication and message filtering.
                Would you like to work with FIFO topics? (y/n)
        """.trimIndent(),
    )
    useFIFO = input.nextLine()
    if (useFIFO.compareTo("y") == 0) {
        selectFIFO = true
        println("You have selected FIFO")
        println(
            """ Because you have chosen a FIFO topic, deduplication is supported.
        Deduplication IDs are either set in the message or automatically generated from content using a hash function.
        If a message is successfully published to an SNS FIFO topic, any message published and determined to have the same deduplication ID,
        within the five-minute deduplication interval, is accepted but not delivered.
        For more information about deduplication, see https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.""",
        )

        println("Would you like to use content-based deduplication instead of entering a deduplication ID? (y/n)")
        duplication = input.nextLine()
        if (duplication.compareTo("y") == 0) {
            println("Enter a group id value")
            groupId = input.nextLine()
        } else {
            println("Enter deduplication Id value")
            deduplicationID = input.nextLine()
            println("Enter a group id value")
            groupId = input.nextLine()
        }
    }
    println(DASHES)

    println(DASHES)
    println("2. Create a topic.")
    println("Enter a name for your SNS topic.")
    topicName = input.nextLine()
    if (selectFIFO) {
        println("Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.")
        topicName = "$topicName.fifo"
        println("The name of the topic is $topicName")
        topicArn = createFIFO(topicName, duplication)
        println("The ARN of the FIFO topic is $topicArn")
    } else {
        println("The name of the topic is $topicName")
        topicArn = createSNSTopic(topicName)
        println("The ARN of the non-FIFO topic is $topicArn")
    }
    println(DASHES)

    println(DASHES)
    println("3. Create an SQS queue.")
    println("Enter a name for your SQS queue.")
    sqsQueueName = input.nextLine()
    if (selectFIFO) {
        sqsQueueName = "$sqsQueueName.fifo"
    }
    sqsQueueUrl = createQueue(sqsQueueName, selectFIFO)
    println("The queue URL is $sqsQueueUrl")
    println(DASHES)

    println(DASHES)
    println("4. Get the SQS queue ARN attribute.")
    sqsQueueArn = getSQSQueueAttrs(sqsQueueUrl)
    println("The ARN of the new queue is $sqsQueueArn")
    println(DASHES)

    println(DASHES)
    println("5. Attach an IAM policy to the queue.")
    // Define the policy to use.
    val policy = """{
     "Statement": [
     {
         "Effect": "Allow",
                 "Principal": {
             "Service": "sns.amazonaws.com"
         },
         "Action": "sqs:SendMessage",
                 "Resource": "$sqsQueueArn",
                 "Condition": {
             "ArnEquals": {
                 "aws:SourceArn": "$topicArn"
             }
         }
     }
     ]
     }"""
    setQueueAttr(sqsQueueUrl, policy)
    println(DASHES)

    println(DASHES)
    println("6. Subscribe to the SQS queue.")
    if (selectFIFO) {
        println(
            """If you add a filter to this subscription, then only the filtered messages will be received in the queue.
For information about message filtering, see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html
For this example, you can filter messages by a "tone" attribute.""",
        )
        println("Would you like to filter messages for $sqsQueueName's subscription to the topic $topicName?  (y/n)")
        val filterAns: String = input.nextLine()
        if (filterAns.compareTo("y") == 0) {
            var moreAns = false
            println("You can filter messages by using one or more of the following \"tone\" attributes.")
            println("1. cheerful")
            println("2. funny")
            println("3. serious")
            println("4. sincere")
            while (!moreAns) {
                println("Select a number or choose 0 to end.")
                val ans: String = input.nextLine()
                when (ans) {
                    "1" -> filterList.add("cheerful")
                    "2" -> filterList.add("funny")
                    "3" -> filterList.add("serious")
                    "4" -> filterList.add("sincere")
                    else -> moreAns = true
                }
            }
        }
    }
    subscriptionArn = subQueue(topicArn, sqsQueueArn, filterList)
    println(DASHES)

    println(DASHES)
    println("7. Publish a message to the topic.")
    if (selectFIFO) {
        println("Would you like to add an attribute to this message?  (y/n)")
        val msgAns: String = input.nextLine()
        if (msgAns.compareTo("y") == 0) {
            println("You can filter messages by one or more of the following \"tone\" attributes.")
            println("1. cheerful")
            println("2. funny")
            println("3. serious")
            println("4. sincere")
            println("Select a number or choose 0 to end.")
            val ans: String = input.nextLine()
            msgAttValue = when (ans) {
                "1" -> "cheerful"
                "2" -> "funny"
                "3" -> "serious"
                else -> "sincere"
            }
            println("Selected value is $msgAttValue")
        }
        println("Enter a message.")
        message = input.nextLine()
        pubMessageFIFO(message, topicArn, msgAttValue, duplication, groupId, deduplicationID)
    } else {
        println("Enter a message.")
        message = input.nextLine()
        pubMessage(message, topicArn)
    }
    println(DASHES)

    println(DASHES)
    println("8. Display the message. Press any key to continue.")
    input.nextLine()
    messageList = receiveMessages(sqsQueueUrl, msgAttValue)
    if (messageList != null) {
        for (mes in messageList) {
            println("Message Id: ${mes.messageId}")
            println("Full Message: ${mes.body}")
        }
    }
    println(DASHES)

    println(DASHES)
    println("9. Delete the received message. Press any key to continue.")
    input.nextLine()
    if (messageList != null) {
        deleteMessages(sqsQueueUrl, messageList)
    }
    println(DASHES)

    println(DASHES)
    println("10. Unsubscribe from the topic and delete the queue. Press any key to continue.")
    input.nextLine()
    unSub(subscriptionArn)
    deleteSQSQueue(sqsQueueName)
    println(DASHES)

    println(DASHES)
    println("11. Delete the topic. Press any key to continue.")
    input.nextLine()
    deleteSNSTopic(topicArn)
    println(DASHES)

    println(DASHES)
    println("The SNS/SQS workflow has completed successfully.")
    println(DASHES)
}

suspend fun deleteSNSTopic(topicArnVal: String?) {
    val request = DeleteTopicRequest {
        topicArn = topicArnVal
    }

    SnsClient { region = "us-east-1" }.use { snsClient ->
        snsClient.deleteTopic(request)
        println("$topicArnVal was deleted")
    }
}

suspend fun deleteSQSQueue(queueNameVal: String) {
    val getQueueRequest = GetQueueUrlRequest {
        queueName = queueNameVal
    }

    SqsClient { region = "us-east-1" }.use { sqsClient ->
        val queueUrlVal = sqsClient.getQueueUrl(getQueueRequest).queueUrl
        val deleteQueueRequest = DeleteQueueRequest {
            queueUrl = queueUrlVal
        }

        sqsClient.deleteQueue(deleteQueueRequest)
        println("$queueNameVal was successfully deleted.")
    }
}

suspend fun unSub(subscripArn: String?) {
    val request = UnsubscribeRequest {
        subscriptionArn = subscripArn
    }
    SnsClient { region = "us-east-1" }.use { snsClient ->
        snsClient.unsubscribe(request)
        println("Subscription was removed for $subscripArn")
    }
}

suspend fun deleteMessages(queueUrlVal: String?, messages: List<Message>) {
    val entriesVal: MutableList<DeleteMessageBatchRequestEntry> = mutableListOf()
    for (msg in messages) {
        val entry = DeleteMessageBatchRequestEntry {
            id = msg.messageId
        }
        entriesVal.add(entry)
    }

    val deleteMessageBatchRequest = DeleteMessageBatchRequest {
        queueUrl = queueUrlVal
        entries = entriesVal
    }

    SqsClient { region = "us-east-1" }.use { sqsClient ->
        sqsClient.deleteMessageBatch(deleteMessageBatchRequest)
        println("The batch delete of messages was successful")
    }
}

suspend fun receiveMessages(queueUrlVal: String?, msgAttValue: String): List<Message>? {
    if (msgAttValue.isEmpty()) {
        val request = ReceiveMessageRequest {
            queueUrl = queueUrlVal
            maxNumberOfMessages = 5
        }
        SqsClient { region = "us-east-1" }.use { sqsClient ->
            return sqsClient.receiveMessage(request).messages
        }
    } else {
        val receiveRequest = ReceiveMessageRequest {
            queueUrl = queueUrlVal
            waitTimeSeconds = 1
            maxNumberOfMessages = 5
        }
        SqsClient { region = "us-east-1" }.use { sqsClient ->
            return sqsClient.receiveMessage(receiveRequest).messages
        }
    }
}

suspend fun pubMessage(messageVal: String?, topicArnVal: String?) {
    val request = PublishRequest {
        message = messageVal
        topicArn = topicArnVal
    }

    SnsClient { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.publish(request)
        println("${result.messageId} message sent.")
    }
}

suspend fun pubMessageFIFO(
    messageVal: String?,
    topicArnVal: String?,
    msgAttValue: String,
    duplication: String,
    groupIdVal: String?,
    deduplicationID: String?,
) {
    // Means the user did not choose to use a message attribute.
    if (msgAttValue.isEmpty()) {
        if (duplication.compareTo("y") == 0) {
            val request = PublishRequest {
                message = messageVal
                messageGroupId = groupIdVal
                topicArn = topicArnVal
            }

            SnsClient { region = "us-east-1" }.use { snsClient ->
                val result = snsClient.publish(request)
                println(result.messageId.toString() + " Message sent.")
            }
        } else {
            val request = PublishRequest {
                message = messageVal
                messageDeduplicationId = deduplicationID
                messageGroupId = groupIdVal
                topicArn = topicArnVal
            }

            SnsClient { region = "us-east-1" }.use { snsClient ->
                val result = snsClient.publish(request)
                println(result.messageId.toString() + " Message sent.")
            }
        }
    } else {
        val messAttr = aws.sdk.kotlin.services.sns.model.MessageAttributeValue {
            dataType = "String"
            stringValue = "true"
        }

        val mapAtt: Map<String, aws.sdk.kotlin.services.sns.model.MessageAttributeValue> =
            mapOf(msgAttValue to messAttr)
        if (duplication.compareTo("y") == 0) {
            val request = PublishRequest {
                message = messageVal
                messageGroupId = groupIdVal
                topicArn = topicArnVal
            }

            SnsClient { region = "us-east-1" }.use { snsClient ->
                val result = snsClient.publish(request)
                println(result.messageId.toString() + " Message sent.")
            }
        } else {
            // Create a publish request with the message and attributes.
            val request = PublishRequest {
                topicArn = topicArnVal
                message = messageVal
                messageDeduplicationId = deduplicationID
                messageGroupId = groupIdVal
                messageAttributes = mapAtt
            }

            SnsClient { region = "us-east-1" }.use { snsClient ->
                val result = snsClient.publish(request)
                println(result.messageId.toString() + " Message sent.")
            }
        }
    }
}

// Subscribe to the SQS queue.
suspend fun subQueue(topicArnVal: String?, queueArnVal: String, filterList: List<String?>): String? {
    val request: SubscribeRequest
    if (filterList.isEmpty()) {
        // No filter subscription is added.
        request = SubscribeRequest {
            protocol = "sqs"
            endpoint = queueArnVal
            returnSubscriptionArn = true
            topicArn = topicArnVal
        }

        SnsClient { region = "us-east-1" }.use { snsClient ->
            val result = snsClient.subscribe(request)
            println(
                "The queue " + queueArnVal + " has been subscribed to the topic " + topicArnVal + "\n" +
                    "with the subscription ARN " + result.subscriptionArn,
            )
            return result.subscriptionArn
        }
    } else {
        request = SubscribeRequest {
            protocol = "sqs"
            endpoint = queueArnVal
            returnSubscriptionArn = true
            topicArn = topicArnVal
        }

        SnsClient { region = "us-east-1" }.use { snsClient ->
            val result = snsClient.subscribe(request)
            println("The queue $queueArnVal has been subscribed to the topic $topicArnVal with the subscription ARN ${result.subscriptionArn}")

            val attributeNameVal = "FilterPolicy"
            val gson = Gson()
            val jsonString = "{\"tone\": []}"
            val jsonObject = gson.fromJson(jsonString, JsonObject::class.java)
            val toneArray = jsonObject.getAsJsonArray("tone")
            for (value: String? in filterList) {
                toneArray.add(JsonPrimitive(value))
            }

            val updatedJsonString: String = gson.toJson(jsonObject)
            println(updatedJsonString)
            val attRequest = SetSubscriptionAttributesRequest {
                subscriptionArn = result.subscriptionArn
                attributeName = attributeNameVal
                attributeValue = updatedJsonString
            }

            snsClient.setSubscriptionAttributes(attRequest)
            return result.subscriptionArn
        }
    }
}

suspend fun setQueueAttr(queueUrlVal: String?, policy: String) {
    val attrMap: MutableMap<String, String> = HashMap()
    attrMap[QueueAttributeName.Policy.toString()] = policy

    val attributesRequest = SetQueueAttributesRequest {
        queueUrl = queueUrlVal
        attributes = attrMap
    }

    SqsClient { region = "us-east-1" }.use { sqsClient ->
        sqsClient.setQueueAttributes(attributesRequest)
        println("The policy has been successfully attached.")
    }
}

suspend fun getSQSQueueAttrs(queueUrlVal: String?): String {
    val atts: MutableList<QueueAttributeName> = ArrayList()
    atts.add(QueueAttributeName.QueueArn)

    val attributesRequest = GetQueueAttributesRequest {
        queueUrl = queueUrlVal
        attributeNames = atts
    }
    SqsClient { region = "us-east-1" }.use { sqsClient ->
        val response = sqsClient.getQueueAttributes(attributesRequest)
        val mapAtts = response.attributes
        if (mapAtts != null) {
            mapAtts.forEach { entry ->
                println("${entry.key} : ${entry.value}")
                return entry.value
            }
        }
    }
    return ""
}

suspend fun createQueue(queueNameVal: String?, selectFIFO: Boolean): String? {
    println("\nCreate Queue")
    if (selectFIFO) {
        val attrs = mutableMapOf<String, String>()
        attrs[QueueAttributeName.FifoQueue.toString()] = "true"

        val createQueueRequest = CreateQueueRequest {
            queueName = queueNameVal
            attributes = attrs
        }

        SqsClient { region = "us-east-1" }.use { sqsClient ->
            sqsClient.createQueue(createQueueRequest)
            println("\nGet queue url")

            val urlRequest = GetQueueUrlRequest {
                queueName = queueNameVal
            }

            val getQueueUrlResponse = sqsClient.getQueueUrl(urlRequest)
            return getQueueUrlResponse.queueUrl
        }
    } else {
        val createQueueRequest = CreateQueueRequest {
            queueName = queueNameVal
        }

        SqsClient { region = "us-east-1" }.use { sqsClient ->
            sqsClient.createQueue(createQueueRequest)
            println("Get queue url")

            val urlRequest = GetQueueUrlRequest {
                queueName = queueNameVal
            }

            val getQueueUrlResponse = sqsClient.getQueueUrl(urlRequest)
            return getQueueUrlResponse.queueUrl
        }
    }
}

suspend fun createSNSTopic(topicName: String?): String? {
    val request = CreateTopicRequest {
        name = topicName
    }

    SnsClient { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.createTopic(request)
        return result.topicArn
    }
}

suspend fun createFIFO(topicName: String?, duplication: String): String? {
    val topicAttributes: MutableMap<String, String> = HashMap()
    if (duplication.compareTo("n") == 0) {
        topicAttributes["FifoTopic"] = "true"
        topicAttributes["ContentBasedDeduplication"] = "false"
    } else {
        topicAttributes["FifoTopic"] = "true"
        topicAttributes["ContentBasedDeduplication"] = "true"
    }

    val topicRequest = CreateTopicRequest {
        name = topicName
        attributes = topicAttributes
    }
    SnsClient { region = "us-east-1" }.use { snsClient ->
        val response = snsClient.createTopic(topicRequest)
        return response.topicArn
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CreateQueue](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateTopic](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteMessageBatch](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteQueue](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteTopic](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetQueueAttributes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Publikasikan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ReceiveMessage](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [SetQueueAttributes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Berlangganan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Berhenti berlangganan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

# Contoh Amazon SQS menggunakan SDK untuk Kotlin
<a name="kotlin_1_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon SQS
<a name="sqs_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SQS.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sqs#code-examples). 

```
package com.kotlin.sqs

import aws.sdk.kotlin.services.sqs.SqsClient
import aws.sdk.kotlin.services.sqs.paginators.listQueuesPaginated
import kotlinx.coroutines.flow.transform

suspend fun main() {
    listTopicsPag()
}

suspend fun listTopicsPag() {
    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        sqsClient
            .listQueuesPaginated { }
            .transform { it.queueUrls?.forEach { queue -> emit(queue) } }
            .collect { queue ->
                println("The Queue URL is $queue")
            }
    }
}
```
+  Untuk detail API, lihat [ListQueues](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Tindakan
<a name="actions"></a>

### `CreateQueue`
<a name="sqs_CreateQueue_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sqs#code-examples). 

```
suspend fun createQueue(queueNameVal: String): String {
    println("Create Queue")
    val createQueueRequest =
        CreateQueueRequest {
            queueName = queueNameVal
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        sqsClient.createQueue(createQueueRequest)
        println("Get queue url")

        val getQueueUrlRequest =
            GetQueueUrlRequest {
                queueName = queueNameVal
            }

        val getQueueUrlResponse = sqsClient.getQueueUrl(getQueueUrlRequest)
        return getQueueUrlResponse.queueUrl.toString()
    }
}
```
+  Untuk detail API, lihat [CreateQueue](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteMessage`
<a name="sqs_DeleteMessage_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessage`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sqs#code-examples). 

```
suspend fun deleteMessages(queueUrlVal: String) {
    println("Delete Messages from $queueUrlVal")

    val purgeRequest =
        PurgeQueueRequest {
            queueUrl = queueUrlVal
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        sqsClient.purgeQueue(purgeRequest)
        println("Messages are successfully deleted from $queueUrlVal")
    }
}

suspend fun deleteQueue(queueUrlVal: String) {
    val request =
        DeleteQueueRequest {
            queueUrl = queueUrlVal
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        sqsClient.deleteQueue(request)
        println("$queueUrlVal was deleted!")
    }
}
```
+  Untuk detail API, lihat [DeleteMessage](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sqs#code-examples). 

```
suspend fun deleteMessages(queueUrlVal: String) {
    println("Delete Messages from $queueUrlVal")

    val purgeRequest =
        PurgeQueueRequest {
            queueUrl = queueUrlVal
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        sqsClient.purgeQueue(purgeRequest)
        println("Messages are successfully deleted from $queueUrlVal")
    }
}

suspend fun deleteQueue(queueUrlVal: String) {
    val request =
        DeleteQueueRequest {
            queueUrl = queueUrlVal
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        sqsClient.deleteQueue(request)
        println("$queueUrlVal was deleted!")
    }
}
```
+  Untuk detail API, lihat [DeleteQueue](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListQueues`
<a name="sqs_ListQueues_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sqs#code-examples). 

```
suspend fun listQueues() {
    println("\nList Queues")

    val prefix = "que"
    val listQueuesRequest =
        ListQueuesRequest {
            queueNamePrefix = prefix
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        val response = sqsClient.listQueues(listQueuesRequest)
        response.queueUrls?.forEach { url ->
            println(url)
        }
    }
}
```
+  Untuk detail API, lihat [ListQueues](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sqs#code-examples). 

```
suspend fun receiveMessages(queueUrlVal: String?) {
    println("Retrieving messages from $queueUrlVal")

    val receiveMessageRequest =
        ReceiveMessageRequest {
            queueUrl = queueUrlVal
            maxNumberOfMessages = 5
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        val response = sqsClient.receiveMessage(receiveMessageRequest)
        response.messages?.forEach { message ->
            println(message.body)
        }
    }
}
```
+  Untuk detail API, lihat [ReceiveMessage](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `SendMessage`
<a name="sqs_SendMessage_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/sqs#code-examples). 

```
suspend fun sendMessages(
    queueUrlVal: String,
    message: String,
) {
    println("Sending multiple messages")
    println("\nSend message")
    val sendRequest =
        SendMessageRequest {
            queueUrl = queueUrlVal
            messageBody = message
            delaySeconds = 10
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        sqsClient.sendMessage(sendRequest)
        println("A single message was successfully sent.")
    }
}

suspend fun sendBatchMessages(queueUrlVal: String?) {
    println("Sending multiple messages")

    val msg1 =
        SendMessageBatchRequestEntry {
            id = "id1"
            messageBody = "Hello from msg 1"
        }

    val msg2 =
        SendMessageBatchRequestEntry {
            id = "id2"
            messageBody = "Hello from msg 2"
        }

    val sendMessageBatchRequest =
        SendMessageBatchRequest {
            queueUrl = queueUrlVal
            entries = listOf(msg1, msg2)
        }

    SqsClient.fromEnvironment { region = "us-east-1" }.use { sqsClient ->
        sqsClient.sendMessageBatch(sendMessageBatchRequest)
        println("Batch message were successfully sent.")
    }
}
```
+  Untuk detail API, lihat [SendMessage](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi perpesanan
<a name="cross_SQSMessageApp_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi pesan dengan menggunakan Amazon SQS.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon SQS API untuk mengembangkan Spring REST API yang mengirim dan mengambil pesan.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/creating_message_application).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon SQS

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/topics_and_queues#code-examples). 

```
package com.example.sns

import aws.sdk.kotlin.services.sns.SnsClient
import aws.sdk.kotlin.services.sns.model.CreateTopicRequest
import aws.sdk.kotlin.services.sns.model.DeleteTopicRequest
import aws.sdk.kotlin.services.sns.model.PublishRequest
import aws.sdk.kotlin.services.sns.model.SetSubscriptionAttributesRequest
import aws.sdk.kotlin.services.sns.model.SubscribeRequest
import aws.sdk.kotlin.services.sns.model.UnsubscribeRequest
import aws.sdk.kotlin.services.sqs.SqsClient
import aws.sdk.kotlin.services.sqs.model.CreateQueueRequest
import aws.sdk.kotlin.services.sqs.model.DeleteMessageBatchRequest
import aws.sdk.kotlin.services.sqs.model.DeleteMessageBatchRequestEntry
import aws.sdk.kotlin.services.sqs.model.DeleteQueueRequest
import aws.sdk.kotlin.services.sqs.model.GetQueueAttributesRequest
import aws.sdk.kotlin.services.sqs.model.GetQueueUrlRequest
import aws.sdk.kotlin.services.sqs.model.Message
import aws.sdk.kotlin.services.sqs.model.QueueAttributeName
import aws.sdk.kotlin.services.sqs.model.ReceiveMessageRequest
import aws.sdk.kotlin.services.sqs.model.SetQueueAttributesRequest
import com.google.gson.Gson
import com.google.gson.JsonObject
import com.google.gson.JsonPrimitive
import java.util.Scanner

/**
Before running this Kotlin code example, set up your development environment,
including your AWS credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

This Kotlin example performs the following tasks:

 1. Gives the user three options to choose from.
 2. Creates an Amazon Simple Notification Service (Amazon SNS) topic.
 3. Creates an Amazon Simple Queue Service (Amazon SQS) queue.
 4. Gets the SQS queue Amazon Resource Name (ARN) attribute.
 5. Attaches an AWS Identity and Access Management (IAM) policy to the queue.
 6. Subscribes to the SQS queue.
 7. Publishes a message to the topic.
 8. Displays the messages.
 9. Deletes the received message.
 10. Unsubscribes from the topic.
 11. Deletes the SNS topic.
 */

val DASHES: String = String(CharArray(80)).replace("\u0000", "-")
suspend fun main() {
    val input = Scanner(System.`in`)
    val useFIFO: String
    var duplication = "n"
    var topicName: String
    var deduplicationID: String? = null
    var groupId: String? = null
    val topicArn: String?
    var sqsQueueName: String
    val sqsQueueUrl: String?
    val sqsQueueArn: String
    val subscriptionArn: String?
    var selectFIFO = false
    val message: String
    val messageList: List<Message?>?
    val filterList = ArrayList<String>()
    var msgAttValue = ""

    println(DASHES)
    println("Welcome to the AWS SDK for Kotlin messaging with topics and queues.")
    println(
        """
                In this scenario, you will create an SNS topic and subscribe an SQS queue to the topic.
                You can select from several options for configuring the topic and the subscriptions for the queue.
                You can then post to the topic and see the results in the queue.
        """.trimIndent(),
    )
    println(DASHES)

    println(DASHES)
    println(
        """
                SNS topics can be configured as FIFO (First-In-First-Out).
                FIFO topics deliver messages in order and support deduplication and message filtering.
                Would you like to work with FIFO topics? (y/n)
        """.trimIndent(),
    )
    useFIFO = input.nextLine()
    if (useFIFO.compareTo("y") == 0) {
        selectFIFO = true
        println("You have selected FIFO")
        println(
            """ Because you have chosen a FIFO topic, deduplication is supported.
        Deduplication IDs are either set in the message or automatically generated from content using a hash function.
        If a message is successfully published to an SNS FIFO topic, any message published and determined to have the same deduplication ID,
        within the five-minute deduplication interval, is accepted but not delivered.
        For more information about deduplication, see https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.""",
        )

        println("Would you like to use content-based deduplication instead of entering a deduplication ID? (y/n)")
        duplication = input.nextLine()
        if (duplication.compareTo("y") == 0) {
            println("Enter a group id value")
            groupId = input.nextLine()
        } else {
            println("Enter deduplication Id value")
            deduplicationID = input.nextLine()
            println("Enter a group id value")
            groupId = input.nextLine()
        }
    }
    println(DASHES)

    println(DASHES)
    println("2. Create a topic.")
    println("Enter a name for your SNS topic.")
    topicName = input.nextLine()
    if (selectFIFO) {
        println("Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.")
        topicName = "$topicName.fifo"
        println("The name of the topic is $topicName")
        topicArn = createFIFO(topicName, duplication)
        println("The ARN of the FIFO topic is $topicArn")
    } else {
        println("The name of the topic is $topicName")
        topicArn = createSNSTopic(topicName)
        println("The ARN of the non-FIFO topic is $topicArn")
    }
    println(DASHES)

    println(DASHES)
    println("3. Create an SQS queue.")
    println("Enter a name for your SQS queue.")
    sqsQueueName = input.nextLine()
    if (selectFIFO) {
        sqsQueueName = "$sqsQueueName.fifo"
    }
    sqsQueueUrl = createQueue(sqsQueueName, selectFIFO)
    println("The queue URL is $sqsQueueUrl")
    println(DASHES)

    println(DASHES)
    println("4. Get the SQS queue ARN attribute.")
    sqsQueueArn = getSQSQueueAttrs(sqsQueueUrl)
    println("The ARN of the new queue is $sqsQueueArn")
    println(DASHES)

    println(DASHES)
    println("5. Attach an IAM policy to the queue.")
    // Define the policy to use.
    val policy = """{
     "Statement": [
     {
         "Effect": "Allow",
                 "Principal": {
             "Service": "sns.amazonaws.com"
         },
         "Action": "sqs:SendMessage",
                 "Resource": "$sqsQueueArn",
                 "Condition": {
             "ArnEquals": {
                 "aws:SourceArn": "$topicArn"
             }
         }
     }
     ]
     }"""
    setQueueAttr(sqsQueueUrl, policy)
    println(DASHES)

    println(DASHES)
    println("6. Subscribe to the SQS queue.")
    if (selectFIFO) {
        println(
            """If you add a filter to this subscription, then only the filtered messages will be received in the queue.
For information about message filtering, see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html
For this example, you can filter messages by a "tone" attribute.""",
        )
        println("Would you like to filter messages for $sqsQueueName's subscription to the topic $topicName?  (y/n)")
        val filterAns: String = input.nextLine()
        if (filterAns.compareTo("y") == 0) {
            var moreAns = false
            println("You can filter messages by using one or more of the following \"tone\" attributes.")
            println("1. cheerful")
            println("2. funny")
            println("3. serious")
            println("4. sincere")
            while (!moreAns) {
                println("Select a number or choose 0 to end.")
                val ans: String = input.nextLine()
                when (ans) {
                    "1" -> filterList.add("cheerful")
                    "2" -> filterList.add("funny")
                    "3" -> filterList.add("serious")
                    "4" -> filterList.add("sincere")
                    else -> moreAns = true
                }
            }
        }
    }
    subscriptionArn = subQueue(topicArn, sqsQueueArn, filterList)
    println(DASHES)

    println(DASHES)
    println("7. Publish a message to the topic.")
    if (selectFIFO) {
        println("Would you like to add an attribute to this message?  (y/n)")
        val msgAns: String = input.nextLine()
        if (msgAns.compareTo("y") == 0) {
            println("You can filter messages by one or more of the following \"tone\" attributes.")
            println("1. cheerful")
            println("2. funny")
            println("3. serious")
            println("4. sincere")
            println("Select a number or choose 0 to end.")
            val ans: String = input.nextLine()
            msgAttValue = when (ans) {
                "1" -> "cheerful"
                "2" -> "funny"
                "3" -> "serious"
                else -> "sincere"
            }
            println("Selected value is $msgAttValue")
        }
        println("Enter a message.")
        message = input.nextLine()
        pubMessageFIFO(message, topicArn, msgAttValue, duplication, groupId, deduplicationID)
    } else {
        println("Enter a message.")
        message = input.nextLine()
        pubMessage(message, topicArn)
    }
    println(DASHES)

    println(DASHES)
    println("8. Display the message. Press any key to continue.")
    input.nextLine()
    messageList = receiveMessages(sqsQueueUrl, msgAttValue)
    if (messageList != null) {
        for (mes in messageList) {
            println("Message Id: ${mes.messageId}")
            println("Full Message: ${mes.body}")
        }
    }
    println(DASHES)

    println(DASHES)
    println("9. Delete the received message. Press any key to continue.")
    input.nextLine()
    if (messageList != null) {
        deleteMessages(sqsQueueUrl, messageList)
    }
    println(DASHES)

    println(DASHES)
    println("10. Unsubscribe from the topic and delete the queue. Press any key to continue.")
    input.nextLine()
    unSub(subscriptionArn)
    deleteSQSQueue(sqsQueueName)
    println(DASHES)

    println(DASHES)
    println("11. Delete the topic. Press any key to continue.")
    input.nextLine()
    deleteSNSTopic(topicArn)
    println(DASHES)

    println(DASHES)
    println("The SNS/SQS workflow has completed successfully.")
    println(DASHES)
}

suspend fun deleteSNSTopic(topicArnVal: String?) {
    val request = DeleteTopicRequest {
        topicArn = topicArnVal
    }

    SnsClient { region = "us-east-1" }.use { snsClient ->
        snsClient.deleteTopic(request)
        println("$topicArnVal was deleted")
    }
}

suspend fun deleteSQSQueue(queueNameVal: String) {
    val getQueueRequest = GetQueueUrlRequest {
        queueName = queueNameVal
    }

    SqsClient { region = "us-east-1" }.use { sqsClient ->
        val queueUrlVal = sqsClient.getQueueUrl(getQueueRequest).queueUrl
        val deleteQueueRequest = DeleteQueueRequest {
            queueUrl = queueUrlVal
        }

        sqsClient.deleteQueue(deleteQueueRequest)
        println("$queueNameVal was successfully deleted.")
    }
}

suspend fun unSub(subscripArn: String?) {
    val request = UnsubscribeRequest {
        subscriptionArn = subscripArn
    }
    SnsClient { region = "us-east-1" }.use { snsClient ->
        snsClient.unsubscribe(request)
        println("Subscription was removed for $subscripArn")
    }
}

suspend fun deleteMessages(queueUrlVal: String?, messages: List<Message>) {
    val entriesVal: MutableList<DeleteMessageBatchRequestEntry> = mutableListOf()
    for (msg in messages) {
        val entry = DeleteMessageBatchRequestEntry {
            id = msg.messageId
        }
        entriesVal.add(entry)
    }

    val deleteMessageBatchRequest = DeleteMessageBatchRequest {
        queueUrl = queueUrlVal
        entries = entriesVal
    }

    SqsClient { region = "us-east-1" }.use { sqsClient ->
        sqsClient.deleteMessageBatch(deleteMessageBatchRequest)
        println("The batch delete of messages was successful")
    }
}

suspend fun receiveMessages(queueUrlVal: String?, msgAttValue: String): List<Message>? {
    if (msgAttValue.isEmpty()) {
        val request = ReceiveMessageRequest {
            queueUrl = queueUrlVal
            maxNumberOfMessages = 5
        }
        SqsClient { region = "us-east-1" }.use { sqsClient ->
            return sqsClient.receiveMessage(request).messages
        }
    } else {
        val receiveRequest = ReceiveMessageRequest {
            queueUrl = queueUrlVal
            waitTimeSeconds = 1
            maxNumberOfMessages = 5
        }
        SqsClient { region = "us-east-1" }.use { sqsClient ->
            return sqsClient.receiveMessage(receiveRequest).messages
        }
    }
}

suspend fun pubMessage(messageVal: String?, topicArnVal: String?) {
    val request = PublishRequest {
        message = messageVal
        topicArn = topicArnVal
    }

    SnsClient { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.publish(request)
        println("${result.messageId} message sent.")
    }
}

suspend fun pubMessageFIFO(
    messageVal: String?,
    topicArnVal: String?,
    msgAttValue: String,
    duplication: String,
    groupIdVal: String?,
    deduplicationID: String?,
) {
    // Means the user did not choose to use a message attribute.
    if (msgAttValue.isEmpty()) {
        if (duplication.compareTo("y") == 0) {
            val request = PublishRequest {
                message = messageVal
                messageGroupId = groupIdVal
                topicArn = topicArnVal
            }

            SnsClient { region = "us-east-1" }.use { snsClient ->
                val result = snsClient.publish(request)
                println(result.messageId.toString() + " Message sent.")
            }
        } else {
            val request = PublishRequest {
                message = messageVal
                messageDeduplicationId = deduplicationID
                messageGroupId = groupIdVal
                topicArn = topicArnVal
            }

            SnsClient { region = "us-east-1" }.use { snsClient ->
                val result = snsClient.publish(request)
                println(result.messageId.toString() + " Message sent.")
            }
        }
    } else {
        val messAttr = aws.sdk.kotlin.services.sns.model.MessageAttributeValue {
            dataType = "String"
            stringValue = "true"
        }

        val mapAtt: Map<String, aws.sdk.kotlin.services.sns.model.MessageAttributeValue> =
            mapOf(msgAttValue to messAttr)
        if (duplication.compareTo("y") == 0) {
            val request = PublishRequest {
                message = messageVal
                messageGroupId = groupIdVal
                topicArn = topicArnVal
            }

            SnsClient { region = "us-east-1" }.use { snsClient ->
                val result = snsClient.publish(request)
                println(result.messageId.toString() + " Message sent.")
            }
        } else {
            // Create a publish request with the message and attributes.
            val request = PublishRequest {
                topicArn = topicArnVal
                message = messageVal
                messageDeduplicationId = deduplicationID
                messageGroupId = groupIdVal
                messageAttributes = mapAtt
            }

            SnsClient { region = "us-east-1" }.use { snsClient ->
                val result = snsClient.publish(request)
                println(result.messageId.toString() + " Message sent.")
            }
        }
    }
}

// Subscribe to the SQS queue.
suspend fun subQueue(topicArnVal: String?, queueArnVal: String, filterList: List<String?>): String? {
    val request: SubscribeRequest
    if (filterList.isEmpty()) {
        // No filter subscription is added.
        request = SubscribeRequest {
            protocol = "sqs"
            endpoint = queueArnVal
            returnSubscriptionArn = true
            topicArn = topicArnVal
        }

        SnsClient { region = "us-east-1" }.use { snsClient ->
            val result = snsClient.subscribe(request)
            println(
                "The queue " + queueArnVal + " has been subscribed to the topic " + topicArnVal + "\n" +
                    "with the subscription ARN " + result.subscriptionArn,
            )
            return result.subscriptionArn
        }
    } else {
        request = SubscribeRequest {
            protocol = "sqs"
            endpoint = queueArnVal
            returnSubscriptionArn = true
            topicArn = topicArnVal
        }

        SnsClient { region = "us-east-1" }.use { snsClient ->
            val result = snsClient.subscribe(request)
            println("The queue $queueArnVal has been subscribed to the topic $topicArnVal with the subscription ARN ${result.subscriptionArn}")

            val attributeNameVal = "FilterPolicy"
            val gson = Gson()
            val jsonString = "{\"tone\": []}"
            val jsonObject = gson.fromJson(jsonString, JsonObject::class.java)
            val toneArray = jsonObject.getAsJsonArray("tone")
            for (value: String? in filterList) {
                toneArray.add(JsonPrimitive(value))
            }

            val updatedJsonString: String = gson.toJson(jsonObject)
            println(updatedJsonString)
            val attRequest = SetSubscriptionAttributesRequest {
                subscriptionArn = result.subscriptionArn
                attributeName = attributeNameVal
                attributeValue = updatedJsonString
            }

            snsClient.setSubscriptionAttributes(attRequest)
            return result.subscriptionArn
        }
    }
}

suspend fun setQueueAttr(queueUrlVal: String?, policy: String) {
    val attrMap: MutableMap<String, String> = HashMap()
    attrMap[QueueAttributeName.Policy.toString()] = policy

    val attributesRequest = SetQueueAttributesRequest {
        queueUrl = queueUrlVal
        attributes = attrMap
    }

    SqsClient { region = "us-east-1" }.use { sqsClient ->
        sqsClient.setQueueAttributes(attributesRequest)
        println("The policy has been successfully attached.")
    }
}

suspend fun getSQSQueueAttrs(queueUrlVal: String?): String {
    val atts: MutableList<QueueAttributeName> = ArrayList()
    atts.add(QueueAttributeName.QueueArn)

    val attributesRequest = GetQueueAttributesRequest {
        queueUrl = queueUrlVal
        attributeNames = atts
    }
    SqsClient { region = "us-east-1" }.use { sqsClient ->
        val response = sqsClient.getQueueAttributes(attributesRequest)
        val mapAtts = response.attributes
        if (mapAtts != null) {
            mapAtts.forEach { entry ->
                println("${entry.key} : ${entry.value}")
                return entry.value
            }
        }
    }
    return ""
}

suspend fun createQueue(queueNameVal: String?, selectFIFO: Boolean): String? {
    println("\nCreate Queue")
    if (selectFIFO) {
        val attrs = mutableMapOf<String, String>()
        attrs[QueueAttributeName.FifoQueue.toString()] = "true"

        val createQueueRequest = CreateQueueRequest {
            queueName = queueNameVal
            attributes = attrs
        }

        SqsClient { region = "us-east-1" }.use { sqsClient ->
            sqsClient.createQueue(createQueueRequest)
            println("\nGet queue url")

            val urlRequest = GetQueueUrlRequest {
                queueName = queueNameVal
            }

            val getQueueUrlResponse = sqsClient.getQueueUrl(urlRequest)
            return getQueueUrlResponse.queueUrl
        }
    } else {
        val createQueueRequest = CreateQueueRequest {
            queueName = queueNameVal
        }

        SqsClient { region = "us-east-1" }.use { sqsClient ->
            sqsClient.createQueue(createQueueRequest)
            println("Get queue url")

            val urlRequest = GetQueueUrlRequest {
                queueName = queueNameVal
            }

            val getQueueUrlResponse = sqsClient.getQueueUrl(urlRequest)
            return getQueueUrlResponse.queueUrl
        }
    }
}

suspend fun createSNSTopic(topicName: String?): String? {
    val request = CreateTopicRequest {
        name = topicName
    }

    SnsClient { region = "us-east-1" }.use { snsClient ->
        val result = snsClient.createTopic(request)
        return result.topicArn
    }
}

suspend fun createFIFO(topicName: String?, duplication: String): String? {
    val topicAttributes: MutableMap<String, String> = HashMap()
    if (duplication.compareTo("n") == 0) {
        topicAttributes["FifoTopic"] = "true"
        topicAttributes["ContentBasedDeduplication"] = "false"
    } else {
        topicAttributes["FifoTopic"] = "true"
        topicAttributes["ContentBasedDeduplication"] = "true"
    }

    val topicRequest = CreateTopicRequest {
        name = topicName
        attributes = topicAttributes
    }
    SnsClient { region = "us-east-1" }.use { snsClient ->
        val response = snsClient.createTopic(topicRequest)
        return response.topicArn
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CreateQueue](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateTopic](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteMessageBatch](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteQueue](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteTopic](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetQueueAttributes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Publikasikan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ReceiveMessage](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [SetQueueAttributes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Berlangganan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [Berhenti berlangganan](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

# Contoh Step Functions menggunakan SDK untuk Kotlin
<a name="kotlin_1_sfn_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Step Functions.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Hello Step Functions
<a name="sfn_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Step Functions.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
import aws.sdk.kotlin.services.sfn.SfnClient
import aws.sdk.kotlin.services.sfn.model.ListStateMachinesRequest

/**
 Before running this Kotlin code example, set up your development environment,
 including your credentials.

 For more information, see the following documentation topic:
 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */

suspend fun main() {
    println(DASHES)
    println("Welcome to the AWS Step Functions Hello example.")
    println("Lets list up to ten of your state machines:")
    println(DASHES)

    listMachines()
}

suspend fun listMachines() {
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.listStateMachines(ListStateMachinesRequest {})
        response.stateMachines?.forEach { machine ->
            println("The name of the state machine is ${machine.name}")
            println("The ARN value is ${machine.stateMachineArn}")
        }
    }
}
```
+  Untuk detail API, lihat [ListStateMachines](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="sfn_Scenario_GetStartedStateMachines_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat aktivitas.
+ Buat mesin status dari definisi Bahasa Negara Amazon yang berisi aktivitas yang dibuat sebelumnya sebagai langkah.
+ Jalankan mesin status dan tanggapi aktivitas dengan input pengguna.
+ Dapatkan status dan output akhir setelah proses selesai, lalu bersihkan sumber daya.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
import aws.sdk.kotlin.services.iam.IamClient
import aws.sdk.kotlin.services.iam.model.CreateRoleRequest
import aws.sdk.kotlin.services.sfn.SfnClient
import aws.sdk.kotlin.services.sfn.model.CreateActivityRequest
import aws.sdk.kotlin.services.sfn.model.CreateStateMachineRequest
import aws.sdk.kotlin.services.sfn.model.DeleteActivityRequest
import aws.sdk.kotlin.services.sfn.model.DeleteStateMachineRequest
import aws.sdk.kotlin.services.sfn.model.DescribeExecutionRequest
import aws.sdk.kotlin.services.sfn.model.DescribeStateMachineRequest
import aws.sdk.kotlin.services.sfn.model.GetActivityTaskRequest
import aws.sdk.kotlin.services.sfn.model.ListActivitiesRequest
import aws.sdk.kotlin.services.sfn.model.ListStateMachinesRequest
import aws.sdk.kotlin.services.sfn.model.SendTaskSuccessRequest
import aws.sdk.kotlin.services.sfn.model.StartExecutionRequest
import aws.sdk.kotlin.services.sfn.model.StateMachineType
import aws.sdk.kotlin.services.sfn.paginators.listActivitiesPaginated
import aws.sdk.kotlin.services.sfn.paginators.listStateMachinesPaginated
import com.fasterxml.jackson.databind.JsonNode
import com.fasterxml.jackson.databind.ObjectMapper
import com.fasterxml.jackson.databind.node.ObjectNode
import kotlinx.coroutines.flow.transform
import java.util.Scanner
import java.util.UUID
import kotlin.collections.ArrayList
import kotlin.system.exitProcess

/**
 To run this code example, place the chat_sfn_state_machine.json file into your project's resources folder.

 You can obtain the JSON file to create a state machine in the following GitHub location:

 https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/resources/sample_files

 Before running this Kotlin code example, set up your development environment,
 including your credentials.

 For more information, see the following documentation topic:
 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

 This Kotlin code example performs the following tasks:

 1. List activities using a paginator.
 2. List state machines using a paginator.
 3. Creates an activity.
 4. Creates a state machine.
 5. Describes the state machine.
 6. Starts execution of the state machine and interacts with it.
 7. Describes the execution.
 8. Deletes the activity.
 9. Deletes the state machine.
 */

val DASHES: String = String(CharArray(80)).replace("\u0000", "-")

suspend fun main(args: Array<String>) {
    val usage = """
    Usage:
        <roleARN> <activityName> <stateMachineName>

    Where:
        roleName - The name of the IAM role to create for this state machine.
        activityName - The name of an activity to create.    
        stateMachineName - The name of the state machine to create.
        jsonFile - The location of the chat_sfn_state_machine.json file. You can located it in resources/sample_files. 
    """

    if (args.size != 4) {
        println(usage)
        exitProcess(0)
    }

    val roleName = args[0]
    val activityName = args[1]
    val stateMachineName = args[2]
    val jsonFile = args[3]
    val sc = Scanner(System.`in`)
    var action = false

    val polJSON = """{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Sid": "",
            "Effect": "Allow",
            "Principal": {
                "Service": "states.amazonaws.com"
            },
            "Action": "sts:AssumeRole"
        }
    ]
    }"""

    println(DASHES)
    println("Welcome to the AWS Step Functions example scenario.")
    println(DASHES)

    println(DASHES)
    println("1. List activities using a Paginator.")
    listActivitesPagnator()
    println(DASHES)

    println(DASHES)
    println("2. List state machines using a paginator.")
    listStatemachinesPagnator()
    println(DASHES)

    println(DASHES)
    println("3. Create a new activity.")
    val activityArn = createActivity(activityName)
    println("The ARN of the Activity is $activityArn")
    println(DASHES)

    // Get JSON to use for the state machine and place the activityArn value into it.
    val stream = GetStream()
    val jsonString = stream.getStream(jsonFile)

    // Modify the Resource node.
    val objectMapper = ObjectMapper()
    val root: JsonNode = objectMapper.readTree(jsonString)
    (root.path("States").path("GetInput") as ObjectNode).put("Resource", activityArn)

    // Convert the modified Java object back to a JSON string.
    val stateDefinition = objectMapper.writeValueAsString(root)
    println(stateDefinition)

    println(DASHES)
    println("4. Create a state machine.")
    val roleARN = createIAMRole(roleName, polJSON)
    val stateMachineArn = createMachine(roleARN, stateMachineName, stateDefinition)
    println("The ARN of the state machine is $stateMachineArn")
    println(DASHES)

    println(DASHES)
    println("5. Describe the state machine.")
    describeStateMachine(stateMachineArn)
    println("What should ChatSFN call you?")
    val userName = sc.nextLine()
    println("Hello $userName")
    println(DASHES)

    println(DASHES)
    // The JSON to pass to the StartExecution call.
    val executionJson = "{ \"name\" : \"$userName\" }"
    println(executionJson)
    println("6. Start execution of the state machine and interact with it.")
    val runArn = startWorkflow(stateMachineArn, executionJson)
    println("The ARN of the state machine execution is $runArn")
    var myList: List<String>
    while (!action) {
        myList = getActivityTask(activityArn)
        println("ChatSFN: " + myList[1])
        println("$userName please specify a value.")
        val myAction = sc.nextLine()
        if (myAction.compareTo("done") == 0) {
            action = true
        }
        println("You have selected $myAction")
        val taskJson = "{ \"action\" : \"$myAction\" }"
        println(taskJson)
        sendTaskSuccess(myList[0], taskJson)
    }
    println(DASHES)

    println(DASHES)
    println("7. Describe the execution.")
    describeExe(runArn)
    println(DASHES)

    println(DASHES)
    println("8. Delete the activity.")
    deleteActivity(activityArn)
    println(DASHES)

    println(DASHES)
    println("9. Delete the state machines.")
    deleteMachine(stateMachineArn)
    println(DASHES)

    println(DASHES)
    println("The AWS Step Functions example scenario is complete.")
    println(DASHES)
}

suspend fun listStatemachinesPagnator() {
    val machineRequest =
        ListStateMachinesRequest {
            maxResults = 10
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        sfnClient
            .listStateMachinesPaginated(machineRequest)
            .transform { it.stateMachines?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println(" The state machine ARN is ${obj.stateMachineArn}")
            }
    }
}

suspend fun listActivitesPagnator() {
    val activitiesRequest =
        ListActivitiesRequest {
            maxResults = 10
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        sfnClient
            .listActivitiesPaginated(activitiesRequest)
            .transform { it.activities?.forEach { obj -> emit(obj) } }
            .collect { obj ->
                println(" The activity ARN is ${obj.activityArn}")
            }
    }
}

suspend fun deleteMachine(stateMachineArnVal: String?) {
    val deleteStateMachineRequest =
        DeleteStateMachineRequest {
            stateMachineArn = stateMachineArnVal
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        sfnClient.deleteStateMachine(deleteStateMachineRequest)
        println("$stateMachineArnVal was successfully deleted.")
    }
}

suspend fun deleteActivity(actArn: String?) {
    val activityRequest =
        DeleteActivityRequest {
            activityArn = actArn
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        sfnClient.deleteActivity(activityRequest)
        println("You have deleted $actArn")
    }
}

suspend fun describeExe(executionArnVal: String?) {
    val executionRequest =
        DescribeExecutionRequest {
            executionArn = executionArnVal
        }

    var status = ""
    var hasSucceeded = false
    while (!hasSucceeded) {
        SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
            val response = sfnClient.describeExecution(executionRequest)
            status = response.status.toString()
            if (status.compareTo("Running") == 0) {
                println("The state machine is still running, let's wait for it to finish.")
                Thread.sleep(2000)
            } else if (status.compareTo("Succeeded") == 0) {
                println("The Step Function workflow has succeeded")
                hasSucceeded = true
            } else {
                println("The Status is $status")
            }
        }
    }
    println("The Status is $status")
}

suspend fun sendTaskSuccess(
    token: String?,
    json: String?,
) {
    val successRequest =
        SendTaskSuccessRequest {
            taskToken = token
            output = json
        }
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        sfnClient.sendTaskSuccess(successRequest)
    }
}

suspend fun getActivityTask(actArn: String?): List<String> {
    val myList: MutableList<String> = ArrayList()
    val getActivityTaskRequest =
        GetActivityTaskRequest {
            activityArn = actArn
        }
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.getActivityTask(getActivityTaskRequest)
        myList.add(response.taskToken.toString())
        myList.add(response.input.toString())
        return myList
    }
}

suspend fun startWorkflow(
    stateMachineArnVal: String?,
    jsonEx: String?,
): String? {
    val uuid = UUID.randomUUID()
    val uuidValue = uuid.toString()
    val executionRequest =
        StartExecutionRequest {
            input = jsonEx
            stateMachineArn = stateMachineArnVal
            name = uuidValue
        }
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.startExecution(executionRequest)
        return response.executionArn
    }
}

suspend fun describeStateMachine(stateMachineArnVal: String?) {
    val stateMachineRequest =
        DescribeStateMachineRequest {
            stateMachineArn = stateMachineArnVal
        }
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.describeStateMachine(stateMachineRequest)
        println("The name of the State machine is ${response.name}")
        println("The status of the State machine is ${response.status}")
        println("The ARN value of the State machine is ${response.stateMachineArn}")
        println("The role ARN value is ${response.roleArn}")
    }
}

suspend fun createMachine(
    roleARNVal: String?,
    stateMachineName: String?,
    jsonVal: String?,
): String? {
    val machineRequest =
        CreateStateMachineRequest {
            definition = jsonVal
            name = stateMachineName
            roleArn = roleARNVal
            type = StateMachineType.Standard
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.createStateMachine(machineRequest)
        return response.stateMachineArn
    }
}

suspend fun createIAMRole(
    roleNameVal: String?,
    polJSON: String?,
): String? {
    val request =
        CreateRoleRequest {
            roleName = roleNameVal
            assumeRolePolicyDocument = polJSON
            description = "Created using the AWS SDK for Kotlin"
        }

    IamClient.fromEnvironment { region = "AWS_GLOBAL" }.use { iamClient ->
        val response = iamClient.createRole(request)
        return response.role?.arn
    }
}

suspend fun createActivity(activityName: String): String? {
    val activityRequest =
        CreateActivityRequest {
            name = activityName
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.createActivity(activityRequest)
        return response.activityArn
    }
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [CreateActivity](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateStateMachine](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteActivity](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DeleteStateMachine](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeStateMachine](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [GetActivityTask](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListActivities](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ListStateMachines](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [SendTaskSuccess](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StartExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [StopExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateActivity`
<a name="sfn_CreateActivity_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateActivity`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun createActivity(activityName: String): String? {
    val activityRequest =
        CreateActivityRequest {
            name = activityName
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.createActivity(activityRequest)
        return response.activityArn
    }
}
```
+  Untuk detail API, lihat [CreateActivity](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateStateMachine`
<a name="sfn_CreateStateMachine_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStateMachine`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun createMachine(
    roleARNVal: String?,
    stateMachineName: String?,
    jsonVal: String?,
): String? {
    val machineRequest =
        CreateStateMachineRequest {
            definition = jsonVal
            name = stateMachineName
            roleArn = roleARNVal
            type = StateMachineType.Standard
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.createStateMachine(machineRequest)
        return response.stateMachineArn
    }
}
```
+  Untuk detail API, lihat [CreateStateMachine](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteActivity`
<a name="sfn_DeleteActivity_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteActivity`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun deleteActivity(actArn: String?) {
    val activityRequest =
        DeleteActivityRequest {
            activityArn = actArn
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        sfnClient.deleteActivity(activityRequest)
        println("You have deleted $actArn")
    }
}
```
+  Untuk detail API, lihat [DeleteActivity](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DeleteStateMachine`
<a name="sfn_DeleteStateMachine_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStateMachine`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun deleteMachine(stateMachineArnVal: String?) {
    val deleteStateMachineRequest =
        DeleteStateMachineRequest {
            stateMachineArn = stateMachineArnVal
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        sfnClient.deleteStateMachine(deleteStateMachineRequest)
        println("$stateMachineArnVal was successfully deleted.")
    }
}
```
+  Untuk detail API, lihat [DeleteStateMachine](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeExecution`
<a name="sfn_DescribeExecution_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeExecution`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun describeExe(executionArnVal: String?) {
    val executionRequest =
        DescribeExecutionRequest {
            executionArn = executionArnVal
        }

    var status = ""
    var hasSucceeded = false
    while (!hasSucceeded) {
        SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
            val response = sfnClient.describeExecution(executionRequest)
            status = response.status.toString()
            if (status.compareTo("Running") == 0) {
                println("The state machine is still running, let's wait for it to finish.")
                Thread.sleep(2000)
            } else if (status.compareTo("Succeeded") == 0) {
                println("The Step Function workflow has succeeded")
                hasSucceeded = true
            } else {
                println("The Status is $status")
            }
        }
    }
    println("The Status is $status")
}
```
+  Untuk detail API, lihat [DescribeExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeStateMachine`
<a name="sfn_DescribeStateMachine_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStateMachine`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun describeStateMachine(stateMachineArnVal: String?) {
    val stateMachineRequest =
        DescribeStateMachineRequest {
            stateMachineArn = stateMachineArnVal
        }
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.describeStateMachine(stateMachineRequest)
        println("The name of the State machine is ${response.name}")
        println("The status of the State machine is ${response.status}")
        println("The ARN value of the State machine is ${response.stateMachineArn}")
        println("The role ARN value is ${response.roleArn}")
    }
}
```
+  Untuk detail API, lihat [DescribeStateMachine](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `GetActivityTask`
<a name="sfn_GetActivityTask_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetActivityTask`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun getActivityTask(actArn: String?): List<String> {
    val myList: MutableList<String> = ArrayList()
    val getActivityTaskRequest =
        GetActivityTaskRequest {
            activityArn = actArn
        }
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.getActivityTask(getActivityTaskRequest)
        myList.add(response.taskToken.toString())
        myList.add(response.input.toString())
        return myList
    }
}
```
+  Untuk detail API, lihat [GetActivityTask](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListActivities`
<a name="sfn_ListActivities_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListActivities`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun listAllActivites() {
    val activitiesRequest =
        ListActivitiesRequest {
            maxResults = 10
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.listActivities(activitiesRequest)
        response.activities?.forEach { item ->
            println("The activity ARN is ${item.activityArn}")
            println("The activity name is ${item.name}")
        }
    }
}
```
+  Untuk detail API, lihat [ListActivities](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListExecutions`
<a name="sfn_ListExecutions_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListExecutions`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun getExeHistory(exeARN: String?) {
    val historyRequest =
        GetExecutionHistoryRequest {
            executionArn = exeARN
            maxResults = 10
        }

    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.getExecutionHistory(historyRequest)
        response.events?.forEach { event ->
            println("The event type is ${event.type}")
        }
    }
}
```
+  Untuk detail API, lihat [ListExecutions](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ListStateMachines`
<a name="sfn_ListStateMachines_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStateMachines`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
import aws.sdk.kotlin.services.sfn.SfnClient
import aws.sdk.kotlin.services.sfn.model.ListStateMachinesRequest

/**
 Before running this Kotlin code example, set up your development environment,
 including your credentials.

 For more information, see the following documentation topic:
 https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
 */

suspend fun main() {
    println(DASHES)
    println("Welcome to the AWS Step Functions Hello example.")
    println("Lets list up to ten of your state machines:")
    println(DASHES)

    listMachines()
}

suspend fun listMachines() {
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.listStateMachines(ListStateMachinesRequest {})
        response.stateMachines?.forEach { machine ->
            println("The name of the state machine is ${machine.name}")
            println("The ARN value is ${machine.stateMachineArn}")
        }
    }
}
```
+  Untuk detail API, lihat [ListStateMachines](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `SendTaskSuccess`
<a name="sfn_SendTaskSuccess_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTaskSuccess`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun sendTaskSuccess(
    token: String?,
    json: String?,
) {
    val successRequest =
        SendTaskSuccessRequest {
            taskToken = token
            output = json
        }
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        sfnClient.sendTaskSuccess(successRequest)
    }
}
```
+  Untuk detail API, lihat [SendTaskSuccess](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `StartExecution`
<a name="sfn_StartExecution_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartExecution`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/stepfunctions#code-examples). 

```
suspend fun startWorkflow(
    stateMachineArnVal: String?,
    jsonEx: String?,
): String? {
    val uuid = UUID.randomUUID()
    val uuidValue = uuid.toString()
    val executionRequest =
        StartExecutionRequest {
            input = jsonEx
            stateMachineArn = stateMachineArnVal
            name = uuidValue
        }
    SfnClient.fromEnvironment { region = "us-east-1" }.use { sfnClient ->
        val response = sfnClient.startExecution(executionRequest)
        return response.executionArn
    }
}
```
+  Untuk detail API, lihat [StartExecution](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Dukungan contoh menggunakan SDK untuk Kotlin
<a name="kotlin_1_support_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Kotlin with. Dukungan

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Dukungan
<a name="support_Hello_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan Dukungan.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html

In addition, you must have the AWS Business Support Plan to use the AWS Support Java API. For more information, see:

https://aws.amazon.com/premiumsupport/plans/

This Kotlin example performs the following task:

1. Gets and displays available services.
 */

suspend fun main() {
    displaySomeServices()
}

// Return a List that contains a Service name and Category name.
suspend fun displaySomeServices() {
    val servicesRequest =
        DescribeServicesRequest {
            language = "en"
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeServices(servicesRequest)
        println("Get the first 10 services")
        var index = 1

        response.services?.forEach { service ->
            if (index == 11) {
                return@forEach
            }

            println("The Service name is: " + service.name)

            // Get the categories for this service.
            service.categories?.forEach { cat ->
                println("The category name is ${cat.name}")
                index++
            }
        }
    }
}
```
+  Untuk detail API, lihat [DescribeServices](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="support_Scenario_GetStartedSupportCases_kotlin_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan dan tampilkan layanan yang tersedia dan tingkat keparahan untuk kasus.
+ Buat kasus dukungan menggunakan layanan, kategori, dan tingkat keparahan yang dipilih.
+ Dapatkan dan tampilkan daftar kasus terbuka untuk hari ini.
+ Tambahkan set lampiran dan komunikasi ke kasus baru.
+ Jelaskan keterikatan dan komunikasi baru untuk kasus ini.
+ Selesaikan kasusnya.
+ Dapatkan dan tampilkan daftar kasus yang diselesaikan untuk hari ini.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
/**
Before running this Kotlin code example, set up your development environment,
including your credentials.

For more information, see the following documentation topic:

https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
In addition, you must have the AWS Business Support Plan to use the AWS Support Java API. For more information, see:

https://aws.amazon.com/premiumsupport/plans/

This Kotlin example performs the following tasks:
1. Gets and displays available services.
2. Gets and displays severity levels.
3. Creates a support case by using the selected service, category, and severity level.
4. Gets a list of open cases for the current day.
5. Creates an attachment set with a generated file.
6. Adds a communication with the attachment to the support case.
7. Lists the communications of the support case.
8. Describes the attachment set included with the communication.
9. Resolves the support case.
10. Gets a list of resolved cases for the current day.
*/

suspend fun main(args: Array<String>) {
    val usage = """
    Usage:
        <fileAttachment> 
    Where:
         fileAttachment - The file can be a simple saved .txt file to use as an email attachment.
    """

    if (args.size != 1) {
        println(usage)
        exitProcess(0)
    }

    val fileAttachment = args[0]
    println("***** Welcome to the AWS Support case example scenario.")
    println("***** Step 1. Get and display available services.")
    val sevCatList = displayServices()

    println("***** Step 2. Get and display Support severity levels.")
    val sevLevel = displaySevLevels()

    println("***** Step 3. Create a support case using the selected service, category, and severity level.")
    val caseIdVal = createSupportCase(sevCatList, sevLevel)
    if (caseIdVal != null) {
        println("Support case $caseIdVal was successfully created!")
    } else {
        println("A support case was not successfully created!")
        exitProcess(1)
    }

    println("***** Step 4. Get open support cases.")
    getOpenCase()

    println("***** Step 5. Create an attachment set with a generated file to add to the case.")
    val attachmentSetId = addAttachment(fileAttachment)
    println("The Attachment Set id value is $attachmentSetId")

    println("***** Step 6. Add communication with the attachment to the support case.")
    addAttachSupportCase(caseIdVal, attachmentSetId)

    println("***** Step 7. List the communications of the support case.")
    val attachId = listCommunications(caseIdVal)
    println("The Attachment id value is $attachId")

    println("***** Step 8. Describe the attachment set included with the communication.")
    describeAttachment(attachId)

    println("***** Step 9. Resolve the support case.")
    resolveSupportCase(caseIdVal)

    println("***** Step 10. Get a list of resolved cases for the current day.")
    getResolvedCase()
    println("***** This Scenario has successfully completed")
}

suspend fun getResolvedCase() {
    // Specify the start and end time.
    val now = Instant.now()
    LocalDate.now()
    val yesterday = now.minus(1, ChronoUnit.DAYS)
    val describeCasesRequest =
        DescribeCasesRequest {
            maxResults = 30
            afterTime = yesterday.toString()
            beforeTime = now.toString()
            includeResolvedCases = true
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeCases(describeCasesRequest)
        response.cases?.forEach { sinCase ->
            println("The case status is ${sinCase.status}")
            println("The case Id is ${sinCase.caseId}")
            println("The case subject is ${sinCase.subject}")
        }
    }
}

suspend fun resolveSupportCase(caseIdVal: String) {
    val caseRequest =
        ResolveCaseRequest {
            caseId = caseIdVal
        }
    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.resolveCase(caseRequest)
        println("The status of case $caseIdVal is ${response.finalCaseStatus}")
    }
}

suspend fun describeAttachment(attachId: String?) {
    val attachmentRequest =
        DescribeAttachmentRequest {
            attachmentId = attachId
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeAttachment(attachmentRequest)
        println("The name of the file is ${response.attachment?.fileName}")
    }
}

suspend fun listCommunications(caseIdVal: String?): String? {
    val communicationsRequest =
        DescribeCommunicationsRequest {
            caseId = caseIdVal
            maxResults = 10
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeCommunications(communicationsRequest)
        response.communications?.forEach { comm ->
            println("the body is: " + comm.body)
            comm.attachmentSet?.forEach { detail ->
                return detail.attachmentId
            }
        }
    }
    return ""
}

suspend fun addAttachSupportCase(
    caseIdVal: String?,
    attachmentSetIdVal: String?,
) {
    val caseRequest =
        AddCommunicationToCaseRequest {
            caseId = caseIdVal
            attachmentSetId = attachmentSetIdVal
            communicationBody = "Please refer to attachment for details."
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.addCommunicationToCase(caseRequest)
        if (response.result) {
            println("You have successfully added a communication to an AWS Support case")
        } else {
            println("There was an error adding the communication to an AWS Support case")
        }
    }
}

suspend fun addAttachment(fileAttachment: String): String? {
    val myFile = File(fileAttachment)
    val sourceBytes = (File(fileAttachment).readBytes())
    val attachmentVal =
        Attachment {
            fileName = myFile.name
            data = sourceBytes
        }

    val setRequest =
        AddAttachmentsToSetRequest {
            attachments = listOf(attachmentVal)
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.addAttachmentsToSet(setRequest)
        return response.attachmentSetId
    }
}

suspend fun getOpenCase() {
    // Specify the start and end time.
    val now = Instant.now()
    LocalDate.now()
    val yesterday = now.minus(1, ChronoUnit.DAYS)
    val describeCasesRequest =
        DescribeCasesRequest {
            maxResults = 20
            afterTime = yesterday.toString()
            beforeTime = now.toString()
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeCases(describeCasesRequest)
        response.cases?.forEach { sinCase ->
            println("The case status is ${sinCase.status}")
            println("The case Id is ${sinCase.caseId}")
            println("The case subject is ${sinCase.subject}")
        }
    }
}

suspend fun createSupportCase(
    sevCatListVal: List<String>,
    sevLevelVal: String,
): String? {
    val serCode = sevCatListVal[0]
    val caseCategory = sevCatListVal[1]
    val caseRequest =
        CreateCaseRequest {
            categoryCode = caseCategory.lowercase(Locale.getDefault())
            serviceCode = serCode.lowercase(Locale.getDefault())
            severityCode = sevLevelVal.lowercase(Locale.getDefault())
            communicationBody = "Test issue with ${serCode.lowercase(Locale.getDefault())}"
            subject = "Test case, please ignore"
            language = "en"
            issueType = "technical"
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.createCase(caseRequest)
        return response.caseId
    }
}

suspend fun displaySevLevels(): String {
    var levelName = ""
    val severityLevelsRequest =
        DescribeSeverityLevelsRequest {
            language = "en"
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeSeverityLevels(severityLevelsRequest)
        response.severityLevels?.forEach { sevLevel ->
            println("The severity level name is: ${sevLevel.name}")
            if (sevLevel.name == "High") {
                levelName = sevLevel.name!!
            }
        }
        return levelName
    }
}

// Return a List that contains a Service name and Category name.
suspend fun displayServices(): List<String> {
    var serviceCode = ""
    var catName = ""
    val sevCatList = mutableListOf<String>()
    val servicesRequest =
        DescribeServicesRequest {
            language = "en"
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeServices(servicesRequest)
        println("Get the first 10 services")
        var index = 1

        response.services?.forEach { service ->
            if (index == 11) {
                return@forEach
            }

            println("The Service name is ${service.name}")
            if (service.name == "Account") {
                serviceCode = service.code.toString()
            }

            // Get the categories for this service.
            service.categories?.forEach { cat ->
                println("The category name is ${cat.name}")
                if (cat.name == "Security") {
                    catName = cat.name!!
                }
            }
            index++
        }
    }

    // Push the two values to the list.
    serviceCode.let { sevCatList.add(it) }
    catName.let { sevCatList.add(it) }
    return sevCatList
}
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK For Kotlin*.
  + [AddAttachmentsToSet](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [AddCommunicationToCase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [CreateCase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeAttachment](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeCases](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeCommunications](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeServices](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [DescribeSeverityLevels](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
  + [ResolveCase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `AddAttachmentsToSet`
<a name="support_AddAttachmentsToSet_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddAttachmentsToSet`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
suspend fun addAttachment(fileAttachment: String): String? {
    val myFile = File(fileAttachment)
    val sourceBytes = (File(fileAttachment).readBytes())
    val attachmentVal =
        Attachment {
            fileName = myFile.name
            data = sourceBytes
        }

    val setRequest =
        AddAttachmentsToSetRequest {
            attachments = listOf(attachmentVal)
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.addAttachmentsToSet(setRequest)
        return response.attachmentSetId
    }
}
```
+  Untuk detail API, lihat [AddAttachmentsToSet](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `AddCommunicationToCase`
<a name="support_AddCommunicationToCase_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddCommunicationToCase`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
suspend fun addAttachSupportCase(
    caseIdVal: String?,
    attachmentSetIdVal: String?,
) {
    val caseRequest =
        AddCommunicationToCaseRequest {
            caseId = caseIdVal
            attachmentSetId = attachmentSetIdVal
            communicationBody = "Please refer to attachment for details."
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.addCommunicationToCase(caseRequest)
        if (response.result) {
            println("You have successfully added a communication to an AWS Support case")
        } else {
            println("There was an error adding the communication to an AWS Support case")
        }
    }
}
```
+  Untuk detail API, lihat [AddCommunicationToCase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `CreateCase`
<a name="support_CreateCase_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCase`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
suspend fun createSupportCase(
    sevCatListVal: List<String>,
    sevLevelVal: String,
): String? {
    val serCode = sevCatListVal[0]
    val caseCategory = sevCatListVal[1]
    val caseRequest =
        CreateCaseRequest {
            categoryCode = caseCategory.lowercase(Locale.getDefault())
            serviceCode = serCode.lowercase(Locale.getDefault())
            severityCode = sevLevelVal.lowercase(Locale.getDefault())
            communicationBody = "Test issue with ${serCode.lowercase(Locale.getDefault())}"
            subject = "Test case, please ignore"
            language = "en"
            issueType = "technical"
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.createCase(caseRequest)
        return response.caseId
    }
}
```
+  Untuk detail API, lihat [CreateCase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeAttachment`
<a name="support_DescribeAttachment_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAttachment`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
suspend fun describeAttachment(attachId: String?) {
    val attachmentRequest =
        DescribeAttachmentRequest {
            attachmentId = attachId
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeAttachment(attachmentRequest)
        println("The name of the file is ${response.attachment?.fileName}")
    }
}
```
+  Untuk detail API, lihat [DescribeAttachment](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeCases`
<a name="support_DescribeCases_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCases`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
suspend fun getOpenCase() {
    // Specify the start and end time.
    val now = Instant.now()
    LocalDate.now()
    val yesterday = now.minus(1, ChronoUnit.DAYS)
    val describeCasesRequest =
        DescribeCasesRequest {
            maxResults = 20
            afterTime = yesterday.toString()
            beforeTime = now.toString()
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeCases(describeCasesRequest)
        response.cases?.forEach { sinCase ->
            println("The case status is ${sinCase.status}")
            println("The case Id is ${sinCase.caseId}")
            println("The case subject is ${sinCase.subject}")
        }
    }
}
```
+  Untuk detail API, lihat [DescribeCases](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeCommunications`
<a name="support_DescribeCommunications_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCommunications`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
suspend fun listCommunications(caseIdVal: String?): String? {
    val communicationsRequest =
        DescribeCommunicationsRequest {
            caseId = caseIdVal
            maxResults = 10
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeCommunications(communicationsRequest)
        response.communications?.forEach { comm ->
            println("the body is: " + comm.body)
            comm.attachmentSet?.forEach { detail ->
                return detail.attachmentId
            }
        }
    }
    return ""
}
```
+  Untuk detail API, lihat [DescribeCommunications](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeServices`
<a name="support_DescribeServices_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeServices`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
// Return a List that contains a Service name and Category name.
suspend fun displayServices(): List<String> {
    var serviceCode = ""
    var catName = ""
    val sevCatList = mutableListOf<String>()
    val servicesRequest =
        DescribeServicesRequest {
            language = "en"
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeServices(servicesRequest)
        println("Get the first 10 services")
        var index = 1

        response.services?.forEach { service ->
            if (index == 11) {
                return@forEach
            }

            println("The Service name is ${service.name}")
            if (service.name == "Account") {
                serviceCode = service.code.toString()
            }

            // Get the categories for this service.
            service.categories?.forEach { cat ->
                println("The category name is ${cat.name}")
                if (cat.name == "Security") {
                    catName = cat.name!!
                }
            }
            index++
        }
    }

    // Push the two values to the list.
    serviceCode.let { sevCatList.add(it) }
    catName.let { sevCatList.add(it) }
    return sevCatList
}
```
+  Untuk detail API, lihat [DescribeServices](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `DescribeSeverityLevels`
<a name="support_DescribeSeverityLevels_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSeverityLevels`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
suspend fun displaySevLevels(): String {
    var levelName = ""
    val severityLevelsRequest =
        DescribeSeverityLevelsRequest {
            language = "en"
        }

    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.describeSeverityLevels(severityLevelsRequest)
        response.severityLevels?.forEach { sevLevel ->
            println("The severity level name is: ${sevLevel.name}")
            if (sevLevel.name == "High") {
                levelName = sevLevel.name!!
            }
        }
        return levelName
    }
}
```
+  Untuk detail API, lihat [DescribeSeverityLevels](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

### `ResolveCase`
<a name="support_ResolveCase_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResolveCase`.

**SDK untuk Kotlin**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/support#code-examples). 

```
suspend fun resolveSupportCase(caseIdVal: String) {
    val caseRequest =
        ResolveCaseRequest {
            caseId = caseIdVal
        }
    SupportClient.fromEnvironment { region = "us-west-2" }.use { supportClient ->
        val response = supportClient.resolveCase(caseRequest)
        println("The status of case $caseIdVal is ${response.finalCaseStatus}")
    }
}
```
+  Untuk detail API, lihat [ResolveCase](https://sdk.amazonaws.com/kotlin/api/latest/index.html)di *AWS SDK untuk referensi API Kotlin*. 

# Contoh Amazon Translate menggunakan SDK untuk Kotlin
<a name="kotlin_1_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Kotlin dengan Amazon Translate.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membangun aplikasi Amazon SNS
<a name="cross_SnsPublishSubscription_kotlin_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang memiliki langganan dan mempublikasikan fungsionalitas dan menerjemahkan pesan.

**SDK untuk Kotlin**  
 Menunjukkan cara menggunakan Amazon SNS Kotlin API untuk membuat aplikasi yang memiliki fungsionalitas langganan dan publikasi. Selain itu, contoh aplikasi ini juga menerjemahkan pesan.   
 Untuk kode sumber lengkap dan petunjuk tentang cara membuat aplikasi web, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/subpub_app).   
 Untuk kode sumber lengkap dan petunjuk tentang cara membuat aplikasi Android asli, lihat contoh selengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/subpub_app_android).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon SNS
+ Amazon Translate

# Contoh kode untuk SDK for PHP
<a name="php_3_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk PHP with AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK for PHP Developer](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/welcome.html)** Guide — Lebih lanjut tentang menggunakan PHP AWS dengan. 
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23php)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [API Gateway](php_3_api-gateway_code_examples.md)
+ [Aurora](php_3_aurora_code_examples.md)
+ [Auto Scaling](php_3_auto-scaling_code_examples.md)
+ [Amazon Bedrock](php_3_bedrock_code_examples.md)
+ [Waktu Jalan Amazon Bedrock](php_3_bedrock-runtime_code_examples.md)
+ [Amazon DocumentDB](php_3_docdb_code_examples.md)
+ [DynamoDB](php_3_dynamodb_code_examples.md)
+ [Amazon EC2](php_3_ec2_code_examples.md)
+ [AWS Glue](php_3_glue_code_examples.md)
+ [IAM](php_3_iam_code_examples.md)
+ [Kinesis](php_3_kinesis_code_examples.md)
+ [AWS KMS](php_3_kms_code_examples.md)
+ [Lambda](php_3_lambda_code_examples.md)
+ [Amazon MSK](php_3_kafka_code_examples.md)
+ [Amazon RDS](php_3_rds_code_examples.md)
+ [Layanan Data Amazon RDS](php_3_rds-data_code_examples.md)
+ [Amazon Rekognition](php_3_rekognition_code_examples.md)
+ [Amazon S3](php_3_s3_code_examples.md)
+ [Ember Direktori S3](php_3_s3-directory-buckets_code_examples.md)
+ [Amazon SES](php_3_ses_code_examples.md)
+ [Amazon SNS](php_3_sns_code_examples.md)
+ [Amazon SQS](php_3_sqs_code_examples.md)

# Contoh API Gateway menggunakan SDK for PHP
<a name="php_3_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan API Gateway AWS SDK untuk PHP with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `GetBasePathMapping`
<a name="api-gateway_GetBasePathMapping_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBasePathMapping`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/apigateway#code-examples). 

```
require 'vendor/autoload.php';

use Aws\ApiGateway\ApiGatewayClient;
use Aws\Exception\AwsException;


/* ////////////////////////////////////////////////////////////////////////////
 * Purpose: Gets the base path mapping for a custom domain name in
 * Amazon API Gateway.
 *
 * Prerequisites: A custom domain name in API Gateway. For more information,
 * see "Custom Domain Names" in the Amazon API Gateway Developer Guide.
 *
 * Inputs:
 * - $apiGatewayClient: An initialized AWS SDK for PHP API client for
 *   API Gateway.
 * - $basePath: The base path name that callers must provide as part of the
 *   URL after the domain name.
 * - $domainName: The custom domain name for the base path mapping.
 *
 * Returns: The base path mapping, if available; otherwise, the error message.
 * ///////////////////////////////////////////////////////////////////////// */

function getBasePathMapping($apiGatewayClient, $basePath, $domainName)
{
    try {
        $result = $apiGatewayClient->getBasePathMapping([
            'basePath' => $basePath,
            'domainName' => $domainName,
        ]);
        return 'The base path mapping\'s effective URI is: ' .
            $result['@metadata']['effectiveUri'];
    } catch (AwsException $e) {
        return 'Error: ' . $e['message'];
    }
}

function getsTheBasePathMapping()
{
    $apiGatewayClient = new ApiGatewayClient([
        'profile' => 'default',
        'region' => 'us-east-1',
        'version' => '2015-07-09'
    ]);

    echo getBasePathMapping($apiGatewayClient, '(none)', 'example.com');
}

// Uncomment the following line to run this code in an AWS account.
// getsTheBasePathMapping();
```
+  Untuk detail API, lihat [GetBasePathMapping](https://docs.aws.amazon.com/goto/SdkForPHPV3/apigateway-2015-07-09/GetBasePathMapping)di *Referensi AWS SDK untuk PHP API*. 

### `ListBasePathMappings`
<a name="api-gateway_ListBasePathMappings_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBasePathMappings`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/apigateway#code-examples). 

```
require 'vendor/autoload.php';

use Aws\ApiGateway\ApiGatewayClient;
use Aws\Exception\AwsException;


/* ////////////////////////////////////////////////////////////////////////////
 * Purpose: Lists the base path mapping for a custom domain name in
 * Amazon API Gateway.
 *
 * Prerequisites: A custom domain name in API Gateway. For more information,
 * see "Custom Domain Names" in the Amazon API Gateway Developer Guide.
 *
 * Inputs:
 * - $apiGatewayClient: An initialized AWS SDK for PHP API client for
 *   API Gateway.
 * - $domainName: The custom domain name for the base path mappings.
 *
 * Returns: Information about the base path mappings, if available;
 * otherwise, the error message.
 * ///////////////////////////////////////////////////////////////////////// */

function listBasePathMappings($apiGatewayClient, $domainName)
{
    try {
        $result = $apiGatewayClient->getBasePathMappings([
            'domainName' => $domainName
        ]);
        return 'The base path mapping(s) effective URI is: ' .
            $result['@metadata']['effectiveUri'];
    } catch (AwsException $e) {
        return 'Error: ' . $e['message'];
    }
}

function listTheBasePathMappings()
{
    $apiGatewayClient = new ApiGatewayClient([
        'profile' => 'default',
        'region' => 'us-east-1',
        'version' => '2015-07-09'
    ]);

    echo listBasePathMappings($apiGatewayClient, 'example.com');
}

// Uncomment the following line to run this code in an AWS account.
// listTheBasePathMappings();
```
+  Untuk detail API, lihat [ListBasePathMappings](https://docs.aws.amazon.com/goto/SdkForPHPV3/apigateway-2015-07-09/ListBasePathMappings)di *Referensi AWS SDK untuk PHP API*. 

### `UpdateBasePathMapping`
<a name="api-gateway_UpdateBasePathMapping_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateBasePathMapping`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/apigateway#code-examples). 

```
require 'vendor/autoload.php';

use Aws\ApiGateway\ApiGatewayClient;
use Aws\Exception\AwsException;


/* ////////////////////////////////////////////////////////////////////////////
 *
 * Purpose: Updates the base path mapping for a custom domain name
 * in Amazon API Gateway.
 *
 * Inputs:
 * - $apiGatewayClient: An initialized AWS SDK for PHP API client for
 *   API Gateway.
 * - $basePath: The base path name that callers must provide as part of the
 *   URL after the domain name.
 * - $domainName: The custom domain name for the base path mapping.
 * - $patchOperations: The base path update operations to apply.
 *
 * Returns: Information about the updated base path mapping, if available;
 * otherwise, the error message.
 * ///////////////////////////////////////////////////////////////////////// */

function updateBasePathMapping(
    $apiGatewayClient,
    $basePath,
    $domainName,
    $patchOperations
) {
    try {
        $result = $apiGatewayClient->updateBasePathMapping([
            'basePath' => $basePath,
            'domainName' => $domainName,
            'patchOperations' => $patchOperations
        ]);
        return 'The updated base path\'s URI is: ' .
            $result['@metadata']['effectiveUri'];
    } catch (AwsException $e) {
        return 'Error: ' . $e['message'];
    }
}

function updateTheBasePathMapping()
{
    $patchOperations = array([
        'op' => 'replace',
        'path' => '/stage',
        'value' => 'stage2'
    ]);

    $apiGatewayClient = new ApiGatewayClient([
        'profile' => 'default',
        'region' => 'us-east-1',
        'version' => '2015-07-09'
    ]);

    echo updateBasePathMapping(
        $apiGatewayClient,
        '(none)',
        'example.com',
        $patchOperations
    );
}

// Uncomment the following line to run this code in an AWS account.
// updateTheBasePathMapping();
```
+  Untuk detail API, lihat [UpdateBasePathMapping](https://docs.aws.amazon.com/goto/SdkForPHPV3/apigateway-2015-07-09/UpdateBasePathMapping)di *Referensi AWS SDK untuk PHP API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk PHP**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/applications/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

# Contoh Aurora menggunakan SDK for PHP
<a name="php_3_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP with Aurora.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk PHP**  
 Menunjukkan cara menggunakan AWS SDK untuk PHP untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon RDS dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan front end yang dibangun dengan React.js untuk berinteraksi dengan backend RESTful PHP.   
+ Integrasikan aplikasi web React.js dengan AWS layanan.
+ Cantumkan, tambahkan, perbarui, dan hapus butir di tabel Amazon RDS.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/cross_service/aurora_item_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Auto Scaling menggunakan SDK for PHP
<a name="php_3_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Auto Scaling AWS SDK untuk PHP with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Auto Scaling
<a name="auto-scaling_Hello_php_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Auto Scaling.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function helloService()
    {
        $autoScalingClient = new AutoScalingClient([
            'region' => 'us-west-2',
            'version' => 'latest',
            'profile' => 'default',
        ]);

        $groups = $autoScalingClient->describeAutoScalingGroups([]);
        var_dump($groups);
    }
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK untuk PHP API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="auto-scaling_Scenario_GroupsAndInstances_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat grup Amazon EC2 Auto Scaling dengan template peluncuran dan Availability Zone, dan dapatkan informasi tentang menjalankan instans.
+ Aktifkan pengumpulan CloudWatch metrik Amazon.
+ Perbarui kapasitas yang diinginkan grup dan tunggu instance dimulai.
+ Mengakhiri sebuah instance dalam grup.
+ Buat daftar aktivitas penskalaan yang terjadi sebagai respons terhadap permintaan pengguna dan perubahan kapasitas.
+ Dapatkan statistik untuk CloudWatch metrik, lalu bersihkan sumber daya.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
namespace AutoScaling;

use Aws\AutoScaling\AutoScalingClient;
use Aws\CloudWatch\CloudWatchClient;
use Aws\Ec2\Ec2Client;
use AwsUtilities\AWSServiceClass;
use AwsUtilities\RunnableExample;

class GettingStartedWithAutoScaling implements RunnableExample
{
    protected Ec2Client $ec2Client;
    protected AutoScalingClient $autoScalingClient;
    protected AutoScalingService $autoScalingService;
    protected CloudWatchClient $cloudWatchClient;
    protected string $templateName;
    protected string $autoScalingGroupName;
    protected array $role;

    public function runExample()
    {
        echo("\n");
        echo("--------------------------------------\n");
        print("Welcome to the Amazon EC2 Auto Scaling getting started demo using PHP!\n");
        echo("--------------------------------------\n");

        $clientArgs = [
            'region' => 'us-west-2',
            'version' => 'latest',
            'profile' => 'default',
        ];
        $uniqid = uniqid();

        $this->autoScalingClient = new AutoScalingClient($clientArgs);
        $this->autoScalingService = new AutoScalingService($this->autoScalingClient);
        $this->cloudWatchClient = new CloudWatchClient($clientArgs);

        AWSServiceClass::$waitTime = 5;
        AWSServiceClass::$maxWaitAttempts = 20;

        /**
         * Step 0: Create an EC2 launch template that you'll use to create an Auto Scaling group.
         */
        $this->ec2Client = new EC2Client($clientArgs);
        $this->templateName = "example_launch_template_$uniqid";
        $instanceType = "t1.micro";
        $amiId = "ami-0ca285d4c2cda3300";
        $launchTemplate = $this->ec2Client->createLaunchTemplate(
            [
            'LaunchTemplateName' => $this->templateName,
            'LaunchTemplateData' => [
                'InstanceType' => $instanceType,
                'ImageId' => $amiId,
            ]
            ]
        );

        /**
         * Step 1: CreateAutoScalingGroup: pass it the launch template you created in step 0.
         */
        $availabilityZones[] = $this->ec2Client->describeAvailabilityZones([])['AvailabilityZones'][1]['ZoneName'];

        $this->autoScalingGroupName = "demoAutoScalingGroupName_$uniqid";
        $minSize = 1;
        $maxSize = 1;
        $launchTemplateId = $launchTemplate['LaunchTemplate']['LaunchTemplateId'];
        $this->autoScalingService->createAutoScalingGroup(
            $this->autoScalingGroupName,
            $availabilityZones,
            $minSize,
            $maxSize,
            $launchTemplateId
        );

        $this->autoScalingService->waitUntilGroupInService([$this->autoScalingGroupName]);
        $autoScalingGroup = $this->autoScalingService->describeAutoScalingGroups([$this->autoScalingGroupName]);

        /**
         * Step 2: DescribeAutoScalingInstances: show that one instance has launched.
         */
        $instanceIds = [$autoScalingGroup['AutoScalingGroups'][0]['Instances'][0]['InstanceId']];
        $instances = $this->autoScalingService->describeAutoScalingInstances($instanceIds);
        echo "The Auto Scaling group {$this->autoScalingGroupName} was created successfully.\n";
        echo count($instances['AutoScalingInstances']) . " instances were created for the group.\n";
        echo $autoScalingGroup['AutoScalingGroups'][0]['MaxSize'] . " is the max number of instances for the group.\n";

        /**
         * Step 3: EnableMetricsCollection: enable all metrics or a subset.
         */
        $this->autoScalingService->enableMetricsCollection($this->autoScalingGroupName, "1Minute");

        /**
         * Step 4: UpdateAutoScalingGroup: update max size to 3.
         */
        echo "Updating the max number of instances to 3.\n";
        $this->autoScalingService->updateAutoScalingGroup($this->autoScalingGroupName, ['MaxSize' => 3]);

        /**
         * Step 5: DescribeAutoScalingGroups: show the current state of the group.
         */
        $autoScalingGroup = $this->autoScalingService->describeAutoScalingGroups([$this->autoScalingGroupName]);
        echo $autoScalingGroup['AutoScalingGroups'][0]['MaxSize'];
        echo " is the updated max number of instances for the group.\n";

        $limits = $this->autoScalingService->describeAccountLimits();
        echo "Here are your account limits:\n";
        echo "MaxNumberOfAutoScalingGroups: {$limits['MaxNumberOfAutoScalingGroups']}\n";
        echo "MaxNumberOfLaunchConfigurations: {$limits['MaxNumberOfLaunchConfigurations']}\n";
        echo "NumberOfAutoScalingGroups: {$limits['NumberOfAutoScalingGroups']}\n";
        echo "NumberOfLaunchConfigurations: {$limits['NumberOfLaunchConfigurations']}\n";

        /**
         * Step 6: SetDesiredCapacity: set desired capacity to 2.
         */
        $this->autoScalingService->setDesiredCapacity($this->autoScalingGroupName, 2);
        sleep(10); // Wait for the group to start processing the request.
        $this->autoScalingService->waitUntilGroupInService([$this->autoScalingGroupName]);

        /**
         * Step 7: DescribeAutoScalingInstances: show that two instances are launched.
         */
        $autoScalingGroups = $this->autoScalingService->describeAutoScalingGroups([$this->autoScalingGroupName]);
        foreach ($autoScalingGroups['AutoScalingGroups'] as $autoScalingGroup) {
            echo "There is a group named: {$autoScalingGroup['AutoScalingGroupName']}";
            echo "with an ARN of {$autoScalingGroup['AutoScalingGroupARN']}.\n";
            foreach ($autoScalingGroup['Instances'] as $instance) {
                echo "{$autoScalingGroup['AutoScalingGroupName']} has an instance with id of: ";
                echo "{$instance['InstanceId']} and a lifecycle state of: {$instance['LifecycleState']}.\n";
            }
        }

        /**
         * Step 8: TerminateInstanceInAutoScalingGroup: terminate one of the instances in the group.
         */
        $this->autoScalingService->terminateInstanceInAutoScalingGroup($instance['InstanceId'], false);
        do {
            sleep(10);
            $instances = $this->autoScalingService->describeAutoScalingInstances([$instance['InstanceId']]);
        } while (count($instances['AutoScalingInstances']) > 0);
        do {
            sleep(10);
            $autoScalingGroups = $this->autoScalingService->describeAutoScalingGroups([$this->autoScalingGroupName]);
            $instances = $autoScalingGroups['AutoScalingGroups'][0]['Instances'];
        } while (count($instances) < 2);
        $this->autoScalingService->waitUntilGroupInService([$this->autoScalingGroupName]);
        foreach ($autoScalingGroups['AutoScalingGroups'] as $autoScalingGroup) {
            echo "There is a group named: {$autoScalingGroup['AutoScalingGroupName']}";
            echo "with an ARN of {$autoScalingGroup['AutoScalingGroupARN']}.\n";
            foreach ($autoScalingGroup['Instances'] as $instance) {
                echo "{$autoScalingGroup['AutoScalingGroupName']} has an instance with id of: ";
                echo "{$instance['InstanceId']} and a lifecycle state of: {$instance['LifecycleState']}.\n";
            }
        }

        /**
         * Step 9: DescribeScalingActivities: list the scaling activities that have occurred for the group so far.
         */
        $activities = $this->autoScalingService->describeScalingActivities($autoScalingGroup['AutoScalingGroupName']);
        echo "We found " . count($activities['Activities']) . " activities.\n";
        foreach ($activities['Activities'] as $activity) {
            echo "{$activity['ActivityId']} - {$activity['StartTime']} - {$activity['Description']}\n";
        }

        /**
         * Step 10: Use the Amazon CloudWatch API to get and show some metrics collected for the group.
         */
        $metricsNamespace = 'AWS/AutoScaling';
        $metricsDimensions = [
            [
                'Name' => 'AutoScalingGroupName',
                'Value' => $autoScalingGroup['AutoScalingGroupName'],
            ],
        ];
        $metrics = $this->cloudWatchClient->listMetrics(
            [
            'Dimensions' => $metricsDimensions,
            'Namespace' => $metricsNamespace,
            ]
        );
        foreach ($metrics['Metrics'] as $metric) {
            $timespan = 5;
            if ($metric['MetricName'] != 'GroupTotalCapacity' && $metric['MetricName'] != 'GroupMaxSize') {
                continue;
            }
            echo "Over the last $timespan minutes, {$metric['MetricName']} recorded:\n";
            $stats = $this->cloudWatchClient->getMetricStatistics(
                [
                'Dimensions' => $metricsDimensions,
                'EndTime' => time(),
                'StartTime' => time() - (5 * 60),
                'MetricName' => $metric['MetricName'],
                'Namespace' => $metricsNamespace,
                'Period' => 60,
                'Statistics' => ['Sum'],
                ]
            );
            foreach ($stats['Datapoints'] as $stat) {
                echo "{$stat['Timestamp']}: {$stat['Sum']}\n";
            }
        }

        return $instances;
    }

    public function cleanUp()
    {
        /**
         * Step 11: DisableMetricsCollection: disable all metrics.
         */
        $this->autoScalingService->disableMetricsCollection($this->autoScalingGroupName);

        /**
         * Step 12: DeleteAutoScalingGroup: to delete the group you must stop all instances.
         * - UpdateAutoScalingGroup with MinSize=0
         * - TerminateInstanceInAutoScalingGroup for each instance,
         *     specify ShouldDecrementDesiredCapacity=True. Wait for instances to stop.
         * - Now you can delete the group.
         */
        $this->autoScalingService->updateAutoScalingGroup($this->autoScalingGroupName, ['MinSize' => 0]);
        $this->autoScalingService->terminateAllInstancesInAutoScalingGroup($this->autoScalingGroupName);
        $this->autoScalingService->waitUntilGroupInService([$this->autoScalingGroupName]);
        $this->autoScalingService->deleteAutoScalingGroup($this->autoScalingGroupName);

        /**
         * Step 13: Delete launch template.
         */
        $this->ec2Client->deleteLaunchTemplate(
            [
            'LaunchTemplateName' => $this->templateName,
            ]
        );
    }

    public function helloService()
    {
        $autoScalingClient = new AutoScalingClient([
            'region' => 'us-west-2',
            'version' => 'latest',
            'profile' => 'default',
        ]);

        $groups = $autoScalingClient->describeAutoScalingGroups([]);
        var_dump($groups);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DescribeAutoScalingInstances)
  + [DescribeScalingActivities](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DescribeScalingActivities)
  + [DisableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DisableMetricsCollection)
  + [EnableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/EnableMetricsCollection)
  + [SetDesiredCapacity](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/SetDesiredCapacity)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

## Tindakan
<a name="actions"></a>

### `CreateAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAutoScalingGroup`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function createAutoScalingGroup(
        $autoScalingGroupName,
        $availabilityZones,
        $minSize,
        $maxSize,
        $launchTemplateId
    ) {
        return $this->autoScalingClient->createAutoScalingGroup([
            'AutoScalingGroupName' => $autoScalingGroupName,
            'AvailabilityZones' => $availabilityZones,
            'MinSize' => $minSize,
            'MaxSize' => $maxSize,
            'LaunchTemplate' => [
                'LaunchTemplateId' => $launchTemplateId,
            ],
        ]);
    }
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/CreateAutoScalingGroup)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAutoScalingGroup`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function deleteAutoScalingGroup($autoScalingGroupName)
    {
        return $this->autoScalingClient->deleteAutoScalingGroup([
            'AutoScalingGroupName' => $autoScalingGroupName,
            'ForceDelete' => true,
        ]);
    }
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DeleteAutoScalingGroup)di *Referensi AWS SDK untuk PHP API*. 

### `DescribeAutoScalingGroups`
<a name="auto-scaling_DescribeAutoScalingGroups_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingGroups`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function describeAutoScalingGroups($autoScalingGroupNames)
    {
        return $this->autoScalingClient->describeAutoScalingGroups([
            'AutoScalingGroupNames' => $autoScalingGroupNames
        ]);
    }
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK untuk PHP API*. 

### `DescribeAutoScalingInstances`
<a name="auto-scaling_DescribeAutoScalingInstances_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingInstances`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function describeAutoScalingInstances($instanceIds)
    {
        return $this->autoScalingClient->describeAutoScalingInstances([
            'InstanceIds' => $instanceIds
        ]);
    }
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DescribeAutoScalingInstances)di *Referensi AWS SDK untuk PHP API*. 

### `DescribeScalingActivities`
<a name="auto-scaling_DescribeScalingActivities_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingActivities`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function describeScalingActivities($autoScalingGroupName)
    {
        return $this->autoScalingClient->describeScalingActivities([
            'AutoScalingGroupName' => $autoScalingGroupName,
        ]);
    }
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DescribeScalingActivities)di *Referensi AWS SDK untuk PHP API*. 

### `DisableMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableMetricsCollection`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function disableMetricsCollection($autoScalingGroupName)
    {
        return $this->autoScalingClient->disableMetricsCollection([
            'AutoScalingGroupName' => $autoScalingGroupName,
        ]);
    }
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/DisableMetricsCollection)di *Referensi AWS SDK untuk PHP API*. 

### `EnableMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableMetricsCollection`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function enableMetricsCollection($autoScalingGroupName, $granularity)
    {
        return $this->autoScalingClient->enableMetricsCollection([
            'AutoScalingGroupName' => $autoScalingGroupName,
            'Granularity' => $granularity,
        ]);
    }
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/EnableMetricsCollection)di *Referensi AWS SDK untuk PHP API*. 

### `SetDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDesiredCapacity`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function setDesiredCapacity($autoScalingGroupName, $desiredCapacity)
    {
        return $this->autoScalingClient->setDesiredCapacity([
            'AutoScalingGroupName' => $autoScalingGroupName,
            'DesiredCapacity' => $desiredCapacity,
        ]);
    }
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/SetDesiredCapacity)di *Referensi AWS SDK untuk PHP API*. 

### `TerminateInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstanceInAutoScalingGroup`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function terminateInstanceInAutoScalingGroup(
        $instanceId,
        $shouldDecrementDesiredCapacity = true,
        $attempts = 0
    ) {
        try {
            return $this->autoScalingClient->terminateInstanceInAutoScalingGroup([
                'InstanceId' => $instanceId,
                'ShouldDecrementDesiredCapacity' => $shouldDecrementDesiredCapacity,
            ]);
        } catch (AutoScalingException $exception) {
            if ($exception->getAwsErrorCode() == "ScalingActivityInProgress" && $attempts < 5) {
                error_log("Cannot terminate an instance while it is still pending. Waiting then trying again.");
                sleep(5 * (1 + $attempts));
                return $this->terminateInstanceInAutoScalingGroup(
                    $instanceId,
                    $shouldDecrementDesiredCapacity,
                    ++$attempts
                );
            } else {
                throw $exception;
            }
        }
    }
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)di *Referensi AWS SDK untuk PHP API*. 

### `UpdateAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAutoScalingGroup`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/auto-scaling#code-examples). 

```
    public function updateAutoScalingGroup($autoScalingGroupName, $args)
    {
        if (array_key_exists('MaxSize', $args)) {
            $maxSize = ['MaxSize' => $args['MaxSize']];
        } else {
            $maxSize = [];
        }
        if (array_key_exists('MinSize', $args)) {
            $minSize = ['MinSize' => $args['MinSize']];
        } else {
            $minSize = [];
        }
        $parameters = ['AutoScalingGroupName' => $autoScalingGroupName];
        $parameters = array_merge($parameters, $minSize, $maxSize);
        return $this->autoScalingClient->updateAutoScalingGroup($parameters);
    }
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/SdkForPHPV3/autoscaling-2011-01-01/UpdateAutoScalingGroup)di *Referensi AWS SDK untuk PHP API*. 

# Contoh Amazon Bedrock menggunakan SDK for PHP
<a name="php_3_bedrock_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP With Amazon Bedrock.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListFoundationModels`
<a name="bedrock_ListFoundationModels_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFoundationModels`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/bedrock#code-examples). 
Buat daftar model foundation Amazon Bedrock yang tersedia.  

```
    public function listFoundationModels()
    {
        $bedrockClient = new BedrockClient([
            'region' => 'us-west-2',
            'profile' => 'default'
        ]);
        $response = $bedrockClient->listFoundationModels();
        return $response['modelSummaries'];
    }
```
+  Untuk detail API, lihat [ListFoundationModels](https://docs.aws.amazon.com/goto/SdkForPHPV3/bedrock-2023-04-20/ListFoundationModels)di *Referensi AWS SDK untuk PHP API*. 

# Contoh Amazon Bedrock Runtime menggunakan SDK for PHP
<a name="php_3_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Runtime AWS SDK untuk PHP with Amazon Bedrock.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)
+ [Amazon Nova](#amazon_nova)
+ [Generator Gambar Amazon Titan](#amazon_titan_image_generator)
+ [Antropik Claude](#anthropic_claude)
+ [Difusi Stabil](#stable_diffusion)

## Skenario
<a name="scenarios"></a>

### Gunakan beberapa model fondasi di Amazon Bedrock
<a name="bedrock-runtime_Scenario_InvokeModels_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menyiapkan dan mengirim prompt ke berbagai model berbahasa besar (LLMs) di Amazon Bedrock

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/bedrock-runtime/#code-examples). 
Panggil beberapa LLMs di Amazon Bedrock.  

```
namespace BedrockRuntime;

class GettingStartedWithBedrockRuntime
{
    protected BedrockRuntimeService $bedrockRuntimeService;
    public function runExample()
    {
        echo "\n";
        echo "---------------------------------------------------------------------\n";
        echo "Welcome to the Amazon Bedrock Runtime getting started demo using PHP!\n";
        echo "---------------------------------------------------------------------\n";
        $bedrockRuntimeService = new BedrockRuntimeService();
        $prompt = 'In one paragraph, who are you?';
        echo "\nPrompt: " . $prompt;
        echo "\n\nAnthropic Claude:\n";
        echo $bedrockRuntimeService->invokeClaude($prompt);
        echo "\n---------------------------------------------------------------------\n";
        $image_prompt = 'stylized picture of a cute old steampunk robot';
        echo "\nImage prompt: " . $image_prompt;
        echo "\n\nStability.ai Stable Diffusion XL:\n";
        $diffusionSeed = rand(0, 4294967295);
        $style_preset = 'photographic';
        $base64 = $bedrockRuntimeService->invokeStableDiffusion($image_prompt, $diffusionSeed, $style_preset);
        $image_path = $this->saveImage($base64, 'stability.stable-diffusion-xl');
        echo "The generated image has been saved to $image_path";
        echo "\n\nAmazon Titan Image Generation:\n";
        $titanSeed = rand(0, 2147483647);
        $base64 = $bedrockRuntimeService->invokeTitanImage($image_prompt, $titanSeed);
        $image_path = $this->saveImage($base64, 'amazon.titan-image-generator-v2');
        echo "The generated image has been saved to $image_path";
    }

    private function saveImage($base64_image_data, $model_id): string
    {
        $output_dir = "output";
        if (!file_exists($output_dir)) {
            mkdir($output_dir);
        }

        $i = 1;
        while (file_exists("$output_dir/$model_id" . '_' . "$i.png")) {
            $i++;
        }

        $image_data = base64_decode($base64_image_data);
        $file_path = "$output_dir/$model_id" . '_' . "$i.png";
        $file = fopen($file_path, 'wb');
        fwrite($file, $image_data);
        fclose($file);
        return $file_path;
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [InvokeModel](https://docs.aws.amazon.com/goto/SdkForPHPV3/bedrock-runtime-2023-09-30/InvokeModel)
  + [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/SdkForPHPV3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)

## Amazon Nova
<a name="amazon_nova"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AmazonNovaText_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.  

```
// Use the Conversation API to send a text message to Amazon Nova.

use Aws\BedrockRuntime\BedrockRuntimeClient;
use Aws\Exception\AwsException;
use RuntimeException;

class Converse
{
    public function converse(): string
    {
        // Create a Bedrock Runtime client in the AWS Region you want to use.
        $client = new BedrockRuntimeClient([
            'region' => 'us-east-1',
            'profile' => 'default'
        ]);

        // Set the model ID, e.g., Amazon Nova Lite.
        $modelId = 'amazon.nova-lite-v1:0';

        // Start a conversation with the user message.
        $userMessage = "Describe the purpose of a 'hello world' program in one line.";
        $conversation = [
            [
                "role" => "user",
                "content" => [["text" => $userMessage]]
            ]
        ];

        try {
            // Send the message to the model, using a basic inference configuration.
            $response = $client->converse([
                'modelId' => $modelId,
                'messages' => $conversation,
                'inferenceConfig' => [
                    'maxTokens' => 512,
                    'temperature' => 0.5
                ]
            ]);

            // Extract and return the response text.
            $responseText = $response['output']['message']['content'][0]['text'];
            return $responseText;
        } catch (AwsException $e) {
            echo "ERROR: Can't invoke {$modelId}. Reason: {$e->getAwsErrorMessage()}";
            throw new RuntimeException("Failed to invoke model: " . $e->getAwsErrorMessage(), 0, $e);
        }
    }
}

$demo = new Converse();
echo $demo->converse();
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/SdkForPHPV3/bedrock-runtime-2023-09-30/Converse) di *Referensi AWS SDK untuk PHP API*. 

## Generator Gambar Amazon Titan
<a name="amazon_titan_image_generator"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_TitanImageGenerator_php_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Titan Image di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Titan Image Generator.  

```
    public function invokeTitanImage(string $prompt, int $seed)
    {
        // The different model providers have individual request and response formats.
        // For the format, ranges, and default values for Titan Image models refer to:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-titan-image.html

        $base64_image_data = "";
        try {
            $modelId = 'amazon.titan-image-generator-v2:0';
            $request = json_encode([
                'taskType' => 'TEXT_IMAGE',
                'textToImageParams' => [
                    'text' => $prompt
                ],
                'imageGenerationConfig' => [
                    'numberOfImages' => 1,
                    'quality' => 'standard',
                    'cfgScale' => 8.0,
                    'height' => 512,
                    'width' => 512,
                    'seed' => $seed
                ]
            ]);
            $result = $this->bedrockRuntimeClient->invokeModel([
                'contentType' => 'application/json',
                'body' => $request,
                'modelId' => $modelId,
            ]);
            $response_body = json_decode($result['body']);
            $base64_image_data = $response_body->images[0];
        } catch (Exception $e) {
            echo "Error: ({$e->getCode()}) - {$e->getMessage()}\n";
        }

        return $base64_image_data;
    }
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForPHPV3/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk PHP API*. 

## Antropik Claude
<a name="anthropic_claude"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AnthropicClaude_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan Invoke Model API.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/bedrock-runtime#code-examples). 
Gunakan model dasar Anthropic Claude 2 untuk menghasilkan teks.  

```
    public function invokeClaude($prompt)
    {
        // The different model providers have individual request and response formats.
        // For the format, ranges, and default values for Anthropic Claude, refer to:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-claude.html

        $completion = "";
        try {
            $modelId = 'anthropic.claude-3-haiku-20240307-v1:0';
        // Claude requires you to enclose the prompt as follows:
            $body = [
                'anthropic_version' => 'bedrock-2023-05-31',
                'max_tokens' => 512,
                'temperature' => 0.5,
                'messages' => [[
                    'role' => 'user',
                    'content' => $prompt
                ]]
            ];
            $result = $this->bedrockRuntimeClient->invokeModel([
                'contentType' => 'application/json',
                'body' => json_encode($body),
                'modelId' => $modelId,
            ]);
            $response_body = json_decode($result['body']);
            $completion = $response_body->content[0]->text;
        } catch (Exception $e) {
            echo "Error: ({$e->getCode()}) - {$e->getMessage()}\n";
        }

        return $completion;
    }
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForPHPV3/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk PHP API*. 

## Difusi Stabil
<a name="stable_diffusion"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_StableDiffusion_php_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Stability.ai Stable Diffusion XL di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Difusi Stabil.  

```
    public function invokeStableDiffusion(string $prompt, int $seed, string $style_preset)
    {
        // The different model providers have individual request and response formats.
        // For the format, ranges, and available style_presets of Stable Diffusion models refer to:
        // https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-stability-diffusion.html

        $base64_image_data = "";
        try {
            $modelId = 'stability.stable-diffusion-xl-v1';
            $body = [
                'text_prompts' => [
                    ['text' => $prompt]
                ],
                'seed' => $seed,
                'cfg_scale' => 10,
                'steps' => 30
            ];
            if ($style_preset) {
                $body['style_preset'] = $style_preset;
            }

            $result = $this->bedrockRuntimeClient->invokeModel([
                'contentType' => 'application/json',
                'body' => json_encode($body),
                'modelId' => $modelId,
            ]);
            $response_body = json_decode($result['body']);
            $base64_image_data = $response_body->artifacts[0]->base64;
        } catch (Exception $e) {
            echo "Error: ({$e->getCode()}) - {$e->getMessage()}\n";
        }

        return $base64_image_data;
    }
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/SdkForPHPV3/bedrock-runtime-2023-09-30/InvokeModel)di *Referensi AWS SDK untuk PHP API*. 

# Contoh Amazon DocumentDB menggunakan SDK for PHP
<a name="php_3_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Amazon DocumentDB. AWS SDK untuk PHP 

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan PHP.  

```
<?php

require __DIR__.'/vendor/autoload.php';

use Bref\Context\Context;
use Bref\Event\Handler;

class DocumentDBEventHandler implements Handler
{
    public function handle($event, Context $context): string
    {

        $events = $event['events'] ?? [];
        foreach ($events as $record) {
            $this->logDocumentDBEvent($record['event']);
        }
        return 'OK';
    }

    private function logDocumentDBEvent($event): void
    {
        // Extract information from the event record

        $operationType = $event['operationType'] ?? 'Unknown';
        $db = $event['ns']['db'] ?? 'Unknown';
        $collection = $event['ns']['coll'] ?? 'Unknown';
        $fullDocument = $event['fullDocument'] ?? [];

        // Log the event details

        echo "Operation type: $operationType\n";
        echo "Database: $db\n";
        echo "Collection: $collection\n";
        echo "Full document: " . json_encode($fullDocument, JSON_PRETTY_PRINT) . "\n";
    }
}
return new DocumentDBEventHandler();
```

# Contoh DynamoDB menggunakan SDK for PHP
<a name="php_3_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP with DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 
Karena contoh ini menggunakan file pendukung, pastikan untuk [membaca panduan](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/php/README.md#prerequisites) dalam contoh PHP README.md file.  

```
namespace DynamoDb\Basics;

use Aws\DynamoDb\Marshaler;
use DynamoDb;
use DynamoDb\DynamoDBAttribute;
use DynamoDb\DynamoDBService;

use function AwsUtilities\loadMovieData;
use function AwsUtilities\testable_readline;

class GettingStartedWithDynamoDB
{
    public function run()
    {
        echo("\n");
        echo("--------------------------------------\n");
        print("Welcome to the Amazon DynamoDB getting started demo using PHP!\n");
        echo("--------------------------------------\n");

        $uuid = uniqid();
        $service = new DynamoDBService();

        $tableName = "ddb_demo_table_$uuid";
        $service->createTable(
            $tableName,
            [
                new DynamoDBAttribute('year', 'N', 'HASH'),
                new DynamoDBAttribute('title', 'S', 'RANGE')
            ]
        );

        echo "Waiting for table...";
        $service->dynamoDbClient->waitUntil("TableExists", ['TableName' => $tableName]);
        echo "table $tableName found!\n";

        echo "What's the name of the last movie you watched?\n";
        while (empty($movieName)) {
            $movieName = testable_readline("Movie name: ");
        }
        echo "And what year was it released?\n";
        $movieYear = "year";
        while (!is_numeric($movieYear) || intval($movieYear) != $movieYear) {
            $movieYear = testable_readline("Year released: ");
        }

        $service->putItem([
            'Item' => [
                'year' => [
                    'N' => "$movieYear",
                ],
                'title' => [
                    'S' => $movieName,
                ],
            ],
            'TableName' => $tableName,
        ]);

        echo "How would you rate the movie from 1-10?\n";
        $rating = 0;
        while (!is_numeric($rating) || intval($rating) != $rating || $rating < 1 || $rating > 10) {
            $rating = testable_readline("Rating (1-10): ");
        }
        echo "What was the movie about?\n";
        while (empty($plot)) {
            $plot = testable_readline("Plot summary: ");
        }
        $key = [
            'Item' => [
                'title' => [
                    'S' => $movieName,
                ],
                'year' => [
                    'N' => $movieYear,
                ],
            ]
        ];
        $attributes = ["rating" =>
            [
                'AttributeName' => 'rating',
                'AttributeType' => 'N',
                'Value' => $rating,
            ],
            'plot' => [
                'AttributeName' => 'plot',
                'AttributeType' => 'S',
                'Value' => $plot,
            ]
        ];
        $service->updateItemAttributesByKey($tableName, $key, $attributes);
        echo "Movie added and updated.";

        $batch = json_decode(loadMovieData());

        $service->writeBatch($tableName, $batch);


        $movie = $service->getItemByKey($tableName, $key);
        echo "\nThe movie {$movie['Item']['title']['S']} was released in {$movie['Item']['year']['N']}.\n";
        echo "What rating would you like to give {$movie['Item']['title']['S']}?\n";
        $rating = 0;
        while (!is_numeric($rating) || intval($rating) != $rating || $rating < 1 || $rating > 10) {
            $rating = testable_readline("Rating (1-10): ");
        }
        $service->updateItemAttributeByKey($tableName, $key, 'rating', 'N', $rating);

        $movie = $service->getItemByKey($tableName, $key);
        echo "Ok, you have rated {$movie['Item']['title']['S']} as a {$movie['Item']['rating']['N']}\n";

        $service->deleteItemByKey($tableName, $key);
        echo "But, bad news, this was a trap. That movie has now been deleted because of your rating...harsh.\n";

        echo "That's okay though. The book was better. Now, for something lighter, in what year were you born?\n";
        $birthYear = "not a number";
        while (!is_numeric($birthYear) || $birthYear >= date("Y")) {
            $birthYear = testable_readline("Birth year: ");
        }
        $birthKey = [
            'Key' => [
                'year' => [
                    'N' => "$birthYear",
                ],
            ],
        ];
        $result = $service->query($tableName, $birthKey);
        $marshal = new Marshaler();
        echo "Here are the movies in our collection released the year you were born:\n";
        $oops = "Oops! There were no movies released in that year (that we know of).\n";
        $display = "";
        foreach ($result['Items'] as $movie) {
            $movie = $marshal->unmarshalItem($movie);
            $display .= $movie['title'] . "\n";
        }
        echo ($display) ?: $oops;

        $yearsKey = [
            'Key' => [
                'year' => [
                    'N' => [
                        'minRange' => 1990,
                        'maxRange' => 1999,
                    ],
                ],
            ],
        ];
        $filter = "year between 1990 and 1999";
        echo "\nHere's a list of all the movies released in the 90s:\n";
        $result = $service->scan($tableName, $yearsKey, $filter);
        foreach ($result['Items'] as $movie) {
            $movie = $marshal->unmarshalItem($movie);
            echo $movie['title'] . "\n";
        }

        echo "\nCleaning up this demo by deleting table $tableName...\n";
        $service->deleteTable($tableName);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [BatchWriteItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/BatchWriteItem)
  + [CreateTable](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/CreateTable)
  + [DeleteItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/DeleteItem)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/Scan)
  + [UpdateItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/UpdateItem)

## Tindakan
<a name="actions"></a>

### `BatchExecuteStatement`
<a name="dynamodb_BatchExecuteStatement_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchExecuteStatement`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
    public function getItemByPartiQLBatch(string $tableName, array $keys): Result
    {
        $statements = [];
        foreach ($keys as $key) {
            list($statement, $parameters) = $this->buildStatementAndParameters("SELECT", $tableName, $key['Item']);
            $statements[] = [
                'Statement' => "$statement",
                'Parameters' => $parameters,
            ];
        }

        return $this->dynamoDbClient->batchExecuteStatement([
            'Statements' => $statements,
        ]);
    }

    public function insertItemByPartiQLBatch(string $statement, array $parameters)
    {
        $this->dynamoDbClient->batchExecuteStatement([
            'Statements' => [
                [
                    'Statement' => "$statement",
                    'Parameters' => $parameters,
                ],
            ],
        ]);
    }

    public function updateItemByPartiQLBatch(string $statement, array $parameters)
    {
        $this->dynamoDbClient->batchExecuteStatement([
            'Statements' => [
                [
                    'Statement' => "$statement",
                    'Parameters' => $parameters,
                ],
            ],
        ]);
    }

    public function deleteItemByPartiQLBatch(string $statement, array $parameters)
    {
        $this->dynamoDbClient->batchExecuteStatement([
            'Statements' => [
                [
                    'Statement' => "$statement",
                    'Parameters' => $parameters,
                ],
            ],
        ]);
    }
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK untuk PHP API*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
    public function writeBatch(string $TableName, array $Batch, int $depth = 2)
    {
        if (--$depth <= 0) {
            throw new Exception("Max depth exceeded. Please try with fewer batch items or increase depth.");
        }

        $marshal = new Marshaler();
        $total = 0;
        foreach (array_chunk($Batch, 25) as $Items) {
            foreach ($Items as $Item) {
                $BatchWrite['RequestItems'][$TableName][] = ['PutRequest' => ['Item' => $marshal->marshalItem($Item)]];
            }
            try {
                echo "Batching another " . count($Items) . " for a total of " . ($total += count($Items)) . " items!\n";
                $response = $this->dynamoDbClient->batchWriteItem($BatchWrite);
                $BatchWrite = [];
            } catch (Exception $e) {
                echo "uh oh...";
                echo $e->getMessage();
                die();
            }
            if ($total >= 250) {
                echo "250 movies is probably enough. Right? We can stop there.\n";
                break;
            }
        }
    }
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/BatchWriteItem)di *Referensi AWS SDK untuk PHP API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 
Buat tabel.  

```
        $tableName = "ddb_demo_table_$uuid";
        $service->createTable(
            $tableName,
            [
                new DynamoDBAttribute('year', 'N', 'HASH'),
                new DynamoDBAttribute('title', 'S', 'RANGE')
            ]
        );

    public function createTable(string $tableName, array $attributes)
    {
        $keySchema = [];
        $attributeDefinitions = [];
        foreach ($attributes as $attribute) {
            if (is_a($attribute, DynamoDBAttribute::class)) {
                $keySchema[] = ['AttributeName' => $attribute->AttributeName, 'KeyType' => $attribute->KeyType];
                $attributeDefinitions[] =
                    ['AttributeName' => $attribute->AttributeName, 'AttributeType' => $attribute->AttributeType];
            }
        }

        $this->dynamoDbClient->createTable([
            'TableName' => $tableName,
            'KeySchema' => $keySchema,
            'AttributeDefinitions' => $attributeDefinitions,
            'ProvisionedThroughput' => ['ReadCapacityUnits' => 10, 'WriteCapacityUnits' => 10],
        ]);
    }
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/CreateTable)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
        $key = [
            'Item' => [
                'title' => [
                    'S' => $movieName,
                ],
                'year' => [
                    'N' => $movieYear,
                ],
            ]
        ];

        $service->deleteItemByKey($tableName, $key);
        echo "But, bad news, this was a trap. That movie has now been deleted because of your rating...harsh.\n";

    public function deleteItemByKey(string $tableName, array $key)
    {
        $this->dynamoDbClient->deleteItem([
            'Key' => $key['Item'],
            'TableName' => $tableName,
        ]);
    }
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/DeleteItem)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
    public function deleteTable(string $TableName)
    {
        $this->customWaiter(function () use ($TableName) {
            return $this->dynamoDbClient->deleteTable([
                'TableName' => $TableName,
            ]);
        });
    }
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/DeleteTable)di *Referensi AWS SDK untuk PHP API*. 

### `ExecuteStatement`
<a name="dynamodb_ExecuteStatement_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
    public function insertItemByPartiQL(string $statement, array $parameters)
    {
        $this->dynamoDbClient->executeStatement([
            'Statement' => "$statement",
            'Parameters' => $parameters,
        ]);
    }

    public function getItemByPartiQL(string $tableName, array $key): Result
    {
        list($statement, $parameters) = $this->buildStatementAndParameters("SELECT", $tableName, $key['Item']);

        return $this->dynamoDbClient->executeStatement([
            'Parameters' => $parameters,
            'Statement' => $statement,
        ]);
    }

    public function updateItemByPartiQL(string $statement, array $parameters)
    {
        $this->dynamoDbClient->executeStatement([
            'Statement' => $statement,
            'Parameters' => $parameters,
        ]);
    }

    public function deleteItemByPartiQL(string $statement, array $parameters)
    {
        $this->dynamoDbClient->executeStatement([
            'Statement' => $statement,
            'Parameters' => $parameters,
        ]);
    }
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK untuk PHP API*. 

### `GetItem`
<a name="dynamodb_GetItem_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
        $movie = $service->getItemByKey($tableName, $key);
        echo "\nThe movie {$movie['Item']['title']['S']} was released in {$movie['Item']['year']['N']}.\n";

    public function getItemByKey(string $tableName, array $key)
    {
        return $this->dynamoDbClient->getItem([
            'Key' => $key['Item'],
            'TableName' => $tableName,
        ]);
    }
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/GetItem)di *Referensi AWS SDK untuk PHP API*. 

### `ListTables`
<a name="dynamodb_ListTables_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
    public function listTables($exclusiveStartTableName = "", $limit = 100)
    {
        $this->dynamoDbClient->listTables([
            'ExclusiveStartTableName' => $exclusiveStartTableName,
            'Limit' => $limit,
        ]);
    }
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK untuk PHP API*. 

### `PutItem`
<a name="dynamodb_PutItem_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
        echo "What's the name of the last movie you watched?\n";
        while (empty($movieName)) {
            $movieName = testable_readline("Movie name: ");
        }
        echo "And what year was it released?\n";
        $movieYear = "year";
        while (!is_numeric($movieYear) || intval($movieYear) != $movieYear) {
            $movieYear = testable_readline("Year released: ");
        }

        $service->putItem([
            'Item' => [
                'year' => [
                    'N' => "$movieYear",
                ],
                'title' => [
                    'S' => $movieName,
                ],
            ],
            'TableName' => $tableName,
        ]);

    public function putItem(array $array)
    {
        $this->dynamoDbClient->putItem($array);
    }
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/PutItem)di *Referensi AWS SDK untuk PHP API*. 

### `Query`
<a name="dynamodb_Query_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
        $birthKey = [
            'Key' => [
                'year' => [
                    'N' => "$birthYear",
                ],
            ],
        ];
        $result = $service->query($tableName, $birthKey);

    public function query(string $tableName, $key)
    {
        $expressionAttributeValues = [];
        $expressionAttributeNames = [];
        $keyConditionExpression = "";
        $index = 1;
        foreach ($key as $name => $value) {
            $keyConditionExpression .= "#" . array_key_first($value) . " = :v$index,";
            $expressionAttributeNames["#" . array_key_first($value)] = array_key_first($value);
            $hold = array_pop($value);
            $expressionAttributeValues[":v$index"] = [
                array_key_first($hold) => array_pop($hold),
            ];
        }
        $keyConditionExpression = substr($keyConditionExpression, 0, -1);
        $query = [
            'ExpressionAttributeValues' => $expressionAttributeValues,
            'ExpressionAttributeNames' => $expressionAttributeNames,
            'KeyConditionExpression' => $keyConditionExpression,
            'TableName' => $tableName,
        ];
        return $this->dynamoDbClient->query($query);
    }
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk PHP *. 

### `Scan`
<a name="dynamodb_Scan_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
        $yearsKey = [
            'Key' => [
                'year' => [
                    'N' => [
                        'minRange' => 1990,
                        'maxRange' => 1999,
                    ],
                ],
            ],
        ];
        $filter = "year between 1990 and 1999";
        echo "\nHere's a list of all the movies released in the 90s:\n";
        $result = $service->scan($tableName, $yearsKey, $filter);
        foreach ($result['Items'] as $movie) {
            $movie = $marshal->unmarshalItem($movie);
            echo $movie['title'] . "\n";
        }

    public function scan(string $tableName, array $key, string $filters)
    {
        $query = [
            'ExpressionAttributeNames' => ['#year' => 'year'],
            'ExpressionAttributeValues' => [
                ":min" => ['N' => '1990'],
                ":max" => ['N' => '1999'],
            ],
            'FilterExpression' => "#year between :min and :max",
            'TableName' => $tableName,
        ];
        return $this->dynamoDbClient->scan($query);
    }
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/Scan) di *Referensi API AWS SDK untuk PHP *. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
        echo "What rating would you like to give {$movie['Item']['title']['S']}?\n";
        $rating = 0;
        while (!is_numeric($rating) || intval($rating) != $rating || $rating < 1 || $rating > 10) {
            $rating = testable_readline("Rating (1-10): ");
        }
        $service->updateItemAttributeByKey($tableName, $key, 'rating', 'N', $rating);

    public function updateItemAttributeByKey(
        string $tableName,
        array $key,
        string $attributeName,
        string $attributeType,
        string $newValue
    ) {
        $this->dynamoDbClient->updateItem([
            'Key' => $key['Item'],
            'TableName' => $tableName,
            'UpdateExpression' => "set #NV=:NV",
            'ExpressionAttributeNames' => [
                '#NV' => $attributeName,
            ],
            'ExpressionAttributeValues' => [
                ':NV' => [
                    $attributeType => $newValue
                ]
            ],
        ]);
    }
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK untuk PHP API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk PHP**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/applications/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
namespace DynamoDb\PartiQL_Basics;

use Aws\DynamoDb\Marshaler;
use DynamoDb;
use DynamoDb\DynamoDBAttribute;

use function AwsUtilities\loadMovieData;
use function AwsUtilities\testable_readline;

class GettingStartedWithPartiQLBatch
{
    public function run()
    {
        echo("\n");
        echo("--------------------------------------\n");
        print("Welcome to the Amazon DynamoDB - PartiQL getting started demo using PHP!\n");
        echo("--------------------------------------\n");

        $uuid = uniqid();
        $service = new DynamoDb\DynamoDBService();

        $tableName = "partiql_demo_table_$uuid";
        $service->createTable(
            $tableName,
            [
                new DynamoDBAttribute('year', 'N', 'HASH'),
                new DynamoDBAttribute('title', 'S', 'RANGE')
            ]
        );

        echo "Waiting for table...";
        $service->dynamoDbClient->waitUntil("TableExists", ['TableName' => $tableName]);
        echo "table $tableName found!\n";

        echo "What's the name of the last movie you watched?\n";
        while (empty($movieName)) {
            $movieName = testable_readline("Movie name: ");
        }
        echo "And what year was it released?\n";
        $movieYear = "year";
        while (!is_numeric($movieYear) || intval($movieYear) != $movieYear) {
            $movieYear = testable_readline("Year released: ");
        }
        $key = [
            'Item' => [
                'year' => [
                    'N' => "$movieYear",
                ],
                'title' => [
                    'S' => $movieName,
                ],
            ],
        ];
        list($statement, $parameters) = $service->buildStatementAndParameters("INSERT", $tableName, $key);
        $service->insertItemByPartiQLBatch($statement, $parameters);

        echo "How would you rate the movie from 1-10?\n";
        $rating = 0;
        while (!is_numeric($rating) || intval($rating) != $rating || $rating < 1 || $rating > 10) {
            $rating = testable_readline("Rating (1-10): ");
        }
        echo "What was the movie about?\n";
        while (empty($plot)) {
            $plot = testable_readline("Plot summary: ");
        }
        $attributes = [
            new DynamoDBAttribute('rating', 'N', 'HASH', $rating),
            new DynamoDBAttribute('plot', 'S', 'RANGE', $plot),
        ];

        list($statement, $parameters) = $service->buildStatementAndParameters("UPDATE", $tableName, $key, $attributes);
        $service->updateItemByPartiQLBatch($statement, $parameters);
        echo "Movie added and updated.\n";

        $batch = json_decode(loadMovieData());

        $service->writeBatch($tableName, $batch);

        $movie = $service->getItemByPartiQLBatch($tableName, [$key]);
        echo "\nThe movie {$movie['Responses'][0]['Item']['title']['S']} 
        was released in {$movie['Responses'][0]['Item']['year']['N']}.\n";
        echo "What rating would you like to give {$movie['Responses'][0]['Item']['title']['S']}?\n";
        $rating = 0;
        while (!is_numeric($rating) || intval($rating) != $rating || $rating < 1 || $rating > 10) {
            $rating = testable_readline("Rating (1-10): ");
        }
        $attributes = [
            new DynamoDBAttribute('rating', 'N', 'HASH', $rating),
            new DynamoDBAttribute('plot', 'S', 'RANGE', $plot)
        ];
        list($statement, $parameters) = $service->buildStatementAndParameters("UPDATE", $tableName, $key, $attributes);
        $service->updateItemByPartiQLBatch($statement, $parameters);

        $movie = $service->getItemByPartiQLBatch($tableName, [$key]);
        echo "Okay, you have rated {$movie['Responses'][0]['Item']['title']['S']} 
        as a {$movie['Responses'][0]['Item']['rating']['N']}\n";

        $service->deleteItemByPartiQLBatch($statement, $parameters);
        echo "But, bad news, this was a trap. That movie has now been deleted because of your rating...harsh.\n";

        echo "That's okay though. The book was better. Now, for something lighter, in what year were you born?\n";
        $birthYear = "not a number";
        while (!is_numeric($birthYear) || $birthYear >= date("Y")) {
            $birthYear = testable_readline("Birth year: ");
        }
        $birthKey = [
            'Key' => [
                'year' => [
                    'N' => "$birthYear",
                ],
            ],
        ];
        $result = $service->query($tableName, $birthKey);
        $marshal = new Marshaler();
        echo "Here are the movies in our collection released the year you were born:\n";
        $oops = "Oops! There were no movies released in that year (that we know of).\n";
        $display = "";
        foreach ($result['Items'] as $movie) {
            $movie = $marshal->unmarshalItem($movie);
            $display .= $movie['title'] . "\n";
        }
        echo ($display) ?: $oops;

        $yearsKey = [
            'Key' => [
                'year' => [
                    'N' => [
                        'minRange' => 1990,
                        'maxRange' => 1999,
                    ],
                ],
            ],
        ];
        $filter = "year between 1990 and 1999";
        echo "\nHere's a list of all the movies released in the 90s:\n";
        $result = $service->scan($tableName, $yearsKey, $filter);
        foreach ($result['Items'] as $movie) {
            $movie = $marshal->unmarshalItem($movie);
            echo $movie['title'] . "\n";
        }

        echo "\nCleaning up this demo by deleting table $tableName...\n";
        $service->deleteTable($tableName);
    }
}

    public function insertItemByPartiQLBatch(string $statement, array $parameters)
    {
        $this->dynamoDbClient->batchExecuteStatement([
            'Statements' => [
                [
                    'Statement' => "$statement",
                    'Parameters' => $parameters,
                ],
            ],
        ]);
    }

    public function getItemByPartiQLBatch(string $tableName, array $keys): Result
    {
        $statements = [];
        foreach ($keys as $key) {
            list($statement, $parameters) = $this->buildStatementAndParameters("SELECT", $tableName, $key['Item']);
            $statements[] = [
                'Statement' => "$statement",
                'Parameters' => $parameters,
            ];
        }

        return $this->dynamoDbClient->batchExecuteStatement([
            'Statements' => $statements,
        ]);
    }

    public function updateItemByPartiQLBatch(string $statement, array $parameters)
    {
        $this->dynamoDbClient->batchExecuteStatement([
            'Statements' => [
                [
                    'Statement' => "$statement",
                    'Parameters' => $parameters,
                ],
            ],
        ]);
    }

    public function deleteItemByPartiQLBatch(string $statement, array $parameters)
    {
        $this->dynamoDbClient->batchExecuteStatement([
            'Statements' => [
                [
                    'Statement' => "$statement",
                    'Parameters' => $parameters,
                ],
            ],
        ]);
    }
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK untuk PHP API*. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/dynamodb#code-examples). 

```
namespace DynamoDb\PartiQL_Basics;

use Aws\DynamoDb\Marshaler;
use DynamoDb;
use DynamoDb\DynamoDBAttribute;

use function AwsUtilities\testable_readline;
use function AwsUtilities\loadMovieData;

class GettingStartedWithPartiQL
{
    public function run()
    {
        echo("\n");
        echo("--------------------------------------\n");
        print("Welcome to the Amazon DynamoDB - PartiQL getting started demo using PHP!\n");
        echo("--------------------------------------\n");

        $uuid = uniqid();
        $service = new DynamoDb\DynamoDBService();

        $tableName = "partiql_demo_table_$uuid";
        $service->createTable(
            $tableName,
            [
                new DynamoDBAttribute('year', 'N', 'HASH'),
                new DynamoDBAttribute('title', 'S', 'RANGE')
            ]
        );

        echo "Waiting for table...";
        $service->dynamoDbClient->waitUntil("TableExists", ['TableName' => $tableName]);
        echo "table $tableName found!\n";

        echo "What's the name of the last movie you watched?\n";
        while (empty($movieName)) {
            $movieName = testable_readline("Movie name: ");
        }
        echo "And what year was it released?\n";
        $movieYear = "year";
        while (!is_numeric($movieYear) || intval($movieYear) != $movieYear) {
            $movieYear = testable_readline("Year released: ");
        }
        $key = [
            'Item' => [
                'year' => [
                    'N' => "$movieYear",
                ],
                'title' => [
                    'S' => $movieName,
                ],
            ],
        ];
        list($statement, $parameters) = $service->buildStatementAndParameters("INSERT", $tableName, $key);
        $service->insertItemByPartiQL($statement, $parameters);

        echo "How would you rate the movie from 1-10?\n";
        $rating = 0;
        while (!is_numeric($rating) || intval($rating) != $rating || $rating < 1 || $rating > 10) {
            $rating = testable_readline("Rating (1-10): ");
        }
        echo "What was the movie about?\n";
        while (empty($plot)) {
            $plot = testable_readline("Plot summary: ");
        }
        $attributes = [
            new DynamoDBAttribute('rating', 'N', 'HASH', $rating),
            new DynamoDBAttribute('plot', 'S', 'RANGE', $plot),
        ];

        list($statement, $parameters) = $service->buildStatementAndParameters("UPDATE", $tableName, $key, $attributes);
        $service->updateItemByPartiQL($statement, $parameters);
        echo "Movie added and updated.\n";



        $batch = json_decode(loadMovieData());

        $service->writeBatch($tableName, $batch);

        $movie = $service->getItemByPartiQL($tableName, $key);
        echo "\nThe movie {$movie['Items'][0]['title']['S']} was released in {$movie['Items'][0]['year']['N']}.\n";
        echo "What rating would you like to give {$movie['Items'][0]['title']['S']}?\n";
        $rating = 0;
        while (!is_numeric($rating) || intval($rating) != $rating || $rating < 1 || $rating > 10) {
            $rating = testable_readline("Rating (1-10): ");
        }
        $attributes = [
            new DynamoDBAttribute('rating', 'N', 'HASH', $rating),
            new DynamoDBAttribute('plot', 'S', 'RANGE', $plot)
        ];
        list($statement, $parameters) = $service->buildStatementAndParameters("UPDATE", $tableName, $key, $attributes);
        $service->updateItemByPartiQL($statement, $parameters);

        $movie = $service->getItemByPartiQL($tableName, $key);
        echo "Okay, you have rated {$movie['Items'][0]['title']['S']} as a {$movie['Items'][0]['rating']['N']}\n";

        $service->deleteItemByPartiQL($statement, $parameters);
        echo "But, bad news, this was a trap. That movie has now been deleted because of your rating...harsh.\n";

        echo "That's okay though. The book was better. Now, for something lighter, in what year were you born?\n";
        $birthYear = "not a number";
        while (!is_numeric($birthYear) || $birthYear >= date("Y")) {
            $birthYear = testable_readline("Birth year: ");
        }
        $birthKey = [
            'Key' => [
                'year' => [
                    'N' => "$birthYear",
                ],
            ],
        ];
        $result = $service->query($tableName, $birthKey);
        $marshal = new Marshaler();
        echo "Here are the movies in our collection released the year you were born:\n";
        $oops = "Oops! There were no movies released in that year (that we know of).\n";
        $display = "";
        foreach ($result['Items'] as $movie) {
            $movie = $marshal->unmarshalItem($movie);
            $display .= $movie['title'] . "\n";
        }
        echo ($display) ?: $oops;

        $yearsKey = [
            'Key' => [
                'year' => [
                    'N' => [
                        'minRange' => 1990,
                        'maxRange' => 1999,
                    ],
                ],
            ],
        ];
        $filter = "year between 1990 and 1999";
        echo "\nHere's a list of all the movies released in the 90s:\n";
        $result = $service->scan($tableName, $yearsKey, $filter);
        foreach ($result['Items'] as $movie) {
            $movie = $marshal->unmarshalItem($movie);
            echo $movie['title'] . "\n";
        }

        echo "\nCleaning up this demo by deleting table $tableName...\n";
        $service->deleteTable($tableName);
    }
}

    public function insertItemByPartiQL(string $statement, array $parameters)
    {
        $this->dynamoDbClient->executeStatement([
            'Statement' => "$statement",
            'Parameters' => $parameters,
        ]);
    }

    public function getItemByPartiQL(string $tableName, array $key): Result
    {
        list($statement, $parameters) = $this->buildStatementAndParameters("SELECT", $tableName, $key['Item']);

        return $this->dynamoDbClient->executeStatement([
            'Parameters' => $parameters,
            'Statement' => $statement,
        ]);
    }

    public function updateItemByPartiQL(string $statement, array $parameters)
    {
        $this->dynamoDbClient->executeStatement([
            'Statement' => $statement,
            'Parameters' => $parameters,
        ]);
    }

    public function deleteItemByPartiQL(string $statement, array $parameters)
    {
        $this->dynamoDbClient->executeStatement([
            'Statement' => $statement,
            'Parameters' => $parameters,
        ]);
    }
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForPHPV3/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK untuk PHP API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil muatan DynamoDB dan mencatat isi catatan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan PHP.  

```
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\DynamoDb\DynamoDbEvent;
use Bref\Event\DynamoDb\DynamoDbHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler extends DynamoDbHandler
{
    private StderrLogger $logger;

    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handleDynamoDb(DynamoDbEvent $event, Context $context): void
    {
        $this->logger->info("Processing DynamoDb table items");
        $records = $event->getRecords();

        foreach ($records as $record) {
            $eventName = $record->getEventName();
            $keys = $record->getKeys();
            $old = $record->getOldImage();
            $new = $record->getNewImage();
            
            $this->logger->info("Event Name:".$eventName."\n");
            $this->logger->info("Keys:". json_encode($keys)."\n");
            $this->logger->info("Old Image:". json_encode($old)."\n");
            $this->logger->info("New Image:". json_encode($new));
            
            // TODO: Do interesting work based on the new data

            // Any exception thrown will be logged and the invocation will be marked as failed
        }

        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords items");
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan PHP.  

```
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\DynamoDb\DynamoDbEvent;
use Bref\Event\Handler as StdHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler implements StdHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handle(mixed $event, Context $context): array
    {
        $dynamoDbEvent = new DynamoDbEvent($event);
        $this->logger->info("Processing records");

        $records = $dynamoDbEvent->getRecords();
        $failedRecords = [];
        foreach ($records as $record) {
            try {
                $data = $record->getData();
                $this->logger->info(json_encode($data));
                // TODO: Do interesting work based on the new data
            } catch (Exception $e) {
                $this->logger->error($e->getMessage());
                // failed processing the record
                $failedRecords[] = $record->getSequenceNumber();
            }
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords records");

        // change format for the response
        $failures = array_map(
            fn(string $sequenceNumber) => ['itemIdentifier' => $sequenceNumber],
            $failedRecords
        );

        return [
            'batchItemFailures' => $failures
        ];
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

# Contoh Amazon EC2 menggunakan SDK for PHP
<a name="php_3_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon EC2. AWS SDK untuk PHP 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateVpc`
<a name="ec2_CreateVpc_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVpc`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). 

```
    /**
     * @param string $cidr
     * @return array
     */
    public function createVpc(string $cidr): array
    {
        try {
            $result = $this->ec2Client->createVpc([
                "CidrBlock" => $cidr,
            ]);
            return $result['Vpc'];
        }catch(Ec2Exception $caught){
            echo "There was a problem creating the VPC: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [CreateVpc](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/CreateVpc)di *Referensi AWS SDK untuk PHP API*. 

### `CreateVpcEndpoint`
<a name="ec2_CreateVpcEndpoint_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVpcEndpoint`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). 

```
    /**
     * @param string $serviceName
     * @param string $vpcId
     * @param array $routeTableIds
     * @return array
     */
    public function createVpcEndpoint(string $serviceName, string $vpcId, array $routeTableIds): array
    {
        try {
            $result = $this->ec2Client->createVpcEndpoint([
                'ServiceName' => $serviceName,
                'VpcId' => $vpcId,
                'RouteTableIds' => $routeTableIds,
            ]);

            return $result["VpcEndpoint"];
        } catch(Ec2Exception $caught){
            echo "There was a problem creating the VPC Endpoint: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [CreateVpcEndpoint](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/CreateVpcEndpoint)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteVpc`
<a name="ec2_DeleteVpc_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVpc`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). 

```
    /**
     * @param string $vpcId
     * @return void
     */
    public function deleteVpc(string $vpcId)
    {
        try {
            $this->ec2Client->deleteVpc([
                "VpcId" => $vpcId,
            ]);
        }catch(Ec2Exception $caught){
            echo "There was a problem deleting the VPC: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [DeleteVpc](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/DeleteVpc)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteVpcEndpoints`
<a name="ec2_DeleteVpcEndpoints_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVpcEndpoints`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). 

```
    /**
     * @param string $vpcEndpointId
     * @return void
     */
    public function deleteVpcEndpoint(string $vpcEndpointId)
    {
        try {
            $this->ec2Client->deleteVpcEndpoints([
                "VpcEndpointIds" => [$vpcEndpointId],
            ]);
        }catch (Ec2Exception $caught){
            echo "There was a problem deleting the VPC Endpoint: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [DeleteVpcEndpoints](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/DeleteVpcEndpoints)di *Referensi AWS SDK untuk PHP API*. 

### `DescribeRouteTables`
<a name="ec2_DescribeRouteTables_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRouteTables`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). 

```
    /**
     * @param array $routeTableIds
     * @param array $filters
     * @return array
     */
    public function describeRouteTables(array $routeTableIds = [], array $filters = []): array
    {
        $parameters = [];
        if($routeTableIds){
            $parameters['RouteTableIds'] = $routeTableIds;
        }
        if($filters){
            $parameters['Filters'] = $filters;
        }
        try {
            $paginator = $this->ec2Client->getPaginator("DescribeRouteTables", $parameters);
            $contents = [];
            foreach ($paginator as $result) {
                foreach ($result['RouteTables'] as $object) {
                    $contents[] = $object['RouteTableId'];
                }
            }
        }catch (Ec2Exception $caught){
            echo "There was a problem paginating the results of DescribeRouteTables: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
        return $contents;
    }
```
+  Untuk detail API, lihat [DescribeRouteTables](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/DescribeRouteTables)di *Referensi AWS SDK untuk PHP API*. 

# AWS Glue contoh menggunakan SDK for PHP
<a name="php_3_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP with AWS Glue.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Buat daftar informasi tentang database dan tabel di situs Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
namespace Glue;

use Aws\Glue\GlueClient;
use Aws\S3\S3Client;
use AwsUtilities\AWSServiceClass;
use GuzzleHttp\Psr7\Stream;
use Iam\IAMService;

class GettingStartedWithGlue
{
    public function run()
    {
        echo("\n");
        echo("--------------------------------------\n");
        print("Welcome to the AWS Glue getting started demo using PHP!\n");
        echo("--------------------------------------\n");

        $clientArgs = [
            'region' => 'us-west-2',
            'version' => 'latest',
            'profile' => 'default',
        ];
        $uniqid = uniqid();

        $glueClient = new GlueClient($clientArgs);
        $glueService = new GlueService($glueClient);
        $iamService = new IAMService();
        $crawlerName = "example-crawler-test-" . $uniqid;

        AWSServiceClass::$waitTime = 5;
        AWSServiceClass::$maxWaitAttempts = 20;

        $role = $iamService->getRole("AWSGlueServiceRole-DocExample");

        $databaseName = "doc-example-database-$uniqid";
        $path = 's3://crawler-public-us-east-1/flight/2016/csv';
        $glueService->createCrawler($crawlerName, $role['Role']['Arn'], $databaseName, $path);
        $glueService->startCrawler($crawlerName);

        echo "Waiting for crawler";
        do {
            $crawler = $glueService->getCrawler($crawlerName);
            echo ".";
            sleep(10);
        } while ($crawler['Crawler']['State'] != "READY");
        echo "\n";

        $database = $glueService->getDatabase($databaseName);
        echo "Found a database named " . $database['Database']['Name'] . "\n";

        //Upload job script
        $s3client = new S3Client($clientArgs);
        $bucketName = "test-glue-bucket-" . $uniqid;
        $s3client->createBucket([
            'Bucket' => $bucketName,
            'CreateBucketConfiguration' => ['LocationConstraint' => 'us-west-2'],
        ]);

        $s3client->putObject([
            'Bucket' => $bucketName,
            'Key' => 'run_job.py',
            'SourceFile' => __DIR__ . '/flight_etl_job_script.py'
        ]);
        $s3client->putObject([
            'Bucket' => $bucketName,
            'Key' => 'setup_scenario_getting_started.yaml',
            'SourceFile' => __DIR__ . '/setup_scenario_getting_started.yaml'
        ]);

        $tables = $glueService->getTables($databaseName);

        $jobName = 'test-job-' . $uniqid;
        $scriptLocation = "s3://$bucketName/run_job.py";
        $job = $glueService->createJob($jobName, $role['Role']['Arn'], $scriptLocation);

        $outputBucketUrl = "s3://$bucketName";
        $runId = $glueService->startJobRun($jobName, $databaseName, $tables, $outputBucketUrl)['JobRunId'];

        echo "waiting for job";
        do {
            $jobRun = $glueService->getJobRun($jobName, $runId);
            echo ".";
            sleep(10);
        } while (!array_intersect([$jobRun['JobRun']['JobRunState']], ['SUCCEEDED', 'STOPPED', 'FAILED', 'TIMEOUT']));
        echo "\n";

        $jobRuns = $glueService->getJobRuns($jobName);

        $objects = $s3client->listObjects([
            'Bucket' => $bucketName,
        ])['Contents'];

        foreach ($objects as $object) {
            echo $object['Key'] . "\n";
        }

        echo "Downloading " . $objects[1]['Key'] . "\n";
        /** @var Stream $downloadObject */
        $downloadObject = $s3client->getObject([
            'Bucket' => $bucketName,
            'Key' => $objects[1]['Key'],
        ])['Body']->getContents();
        echo "Here is the first 1000 characters in the object.";
        echo substr($downloadObject, 0, 1000);

        $jobs = $glueService->listJobs();
        echo "Current jobs:\n";
        foreach ($jobs['JobNames'] as $jobsName) {
            echo "{$jobsName}\n";
        }

        echo "Delete the job.\n";
        $glueClient->deleteJob([
            'JobName' => $job['Name'],
        ]);

        echo "Delete the tables.\n";
        foreach ($tables['TableList'] as $table) {
            $glueService->deleteTable($table['Name'], $databaseName);
        }

        echo "Delete the databases.\n";
        $glueClient->deleteDatabase([
            'Name' => $databaseName,
        ]);

        echo "Delete the crawler.\n";
        $glueClient->deleteCrawler([
            'Name' => $crawlerName,
        ]);

        $deleteObjects = $s3client->listObjectsV2([
            'Bucket' => $bucketName,
        ]);
        echo "Delete all objects in the bucket.\n";
        $deleteObjects = $s3client->deleteObjects([
            'Bucket' => $bucketName,
            'Delete' => [
                'Objects' => $deleteObjects['Contents'],
            ]
        ]);
        echo "Delete the bucket.\n";
        $s3client->deleteBucket(['Bucket' => $bucketName]);

        echo "This job was brought to you by the number $uniqid\n";
    }
}

namespace Glue;

use Aws\Glue\GlueClient;
use Aws\Result;

use function PHPUnit\Framework\isEmpty;

class GlueService extends \AwsUtilities\AWSServiceClass
{
    protected GlueClient $glueClient;

    public function __construct($glueClient)
    {
        $this->glueClient = $glueClient;
    }

    public function getCrawler($crawlerName)
    {
        return $this->customWaiter(function () use ($crawlerName) {
            return $this->glueClient->getCrawler([
                'Name' => $crawlerName,
            ]);
        });
    }

    public function createCrawler($crawlerName, $role, $databaseName, $path): Result
    {
        return $this->customWaiter(function () use ($crawlerName, $role, $databaseName, $path) {
            return $this->glueClient->createCrawler([
                'Name' => $crawlerName,
                'Role' => $role,
                'DatabaseName' => $databaseName,
                'Targets' => [
                    'S3Targets' =>
                        [[
                            'Path' => $path,
                        ]]
                ],
            ]);
        });
    }

    public function startCrawler($crawlerName): Result
    {
        return $this->glueClient->startCrawler([
            'Name' => $crawlerName,
        ]);
    }

    public function getDatabase(string $databaseName): Result
    {
        return $this->customWaiter(function () use ($databaseName) {
            return $this->glueClient->getDatabase([
                'Name' => $databaseName,
            ]);
        });
    }

    public function getTables($databaseName): Result
    {
        return $this->glueClient->getTables([
            'DatabaseName' => $databaseName,
        ]);
    }

    public function createJob($jobName, $role, $scriptLocation, $pythonVersion = '3', $glueVersion = '3.0'): Result
    {
        return $this->glueClient->createJob([
            'Name' => $jobName,
            'Role' => $role,
            'Command' => [
                'Name' => 'glueetl',
                'ScriptLocation' => $scriptLocation,
                'PythonVersion' => $pythonVersion,
            ],
            'GlueVersion' => $glueVersion,
        ]);
    }

    public function startJobRun($jobName, $databaseName, $tables, $outputBucketUrl): Result
    {
        return $this->glueClient->startJobRun([
            'JobName' => $jobName,
            'Arguments' => [
                'input_database' => $databaseName,
                'input_table' => $tables['TableList'][0]['Name'],
                'output_bucket_url' => $outputBucketUrl,
                '--input_database' => $databaseName,
                '--input_table' => $tables['TableList'][0]['Name'],
                '--output_bucket_url' => $outputBucketUrl,
            ],
        ]);
    }

    public function listJobs($maxResults = null, $nextToken = null, $tags = []): Result
    {
        $arguments = [];
        if ($maxResults) {
            $arguments['MaxResults'] = $maxResults;
        }
        if ($nextToken) {
            $arguments['NextToken'] = $nextToken;
        }
        if (!empty($tags)) {
            $arguments['Tags'] = $tags;
        }
        return $this->glueClient->listJobs($arguments);
    }

    public function getJobRuns($jobName, $maxResults = 0, $nextToken = ''): Result
    {
        $arguments = ['JobName' => $jobName];
        if ($maxResults) {
            $arguments['MaxResults'] = $maxResults;
        }
        if ($nextToken) {
            $arguments['NextToken'] = $nextToken;
        }
        return $this->glueClient->getJobRuns($arguments);
    }

    public function getJobRun($jobName, $runId, $predecessorsIncluded = false): Result
    {
        return $this->glueClient->getJobRun([
            'JobName' => $jobName,
            'RunId' => $runId,
            'PredecessorsIncluded' => $predecessorsIncluded,
        ]);
    }

    public function deleteJob($jobName)
    {
        return $this->glueClient->deleteJob([
            'JobName' => $jobName,
        ]);
    }

    public function deleteTable($tableName, $databaseName)
    {
        return $this->glueClient->deleteTable([
            'DatabaseName' => $databaseName,
            'Name' => $tableName,
        ]);
    }

    public function deleteDatabase($databaseName)
    {
        return $this->glueClient->deleteDatabase([
            'Name' => $databaseName,
        ]);
    }

    public function deleteCrawler($crawlerName)
    {
        return $this->glueClient->deleteCrawler([
            'Name' => $crawlerName,
        ]);
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [CreateCrawler](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/CreateCrawler)
  + [CreateJob](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/CreateJob)
  + [DeleteCrawler](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/DeleteCrawler)
  + [DeleteDatabase](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/DeleteDatabase)
  + [DeleteJob](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/DeleteJob)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/DeleteTable)
  + [GetCrawler](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetCrawler)
  + [GetDatabase](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetDatabase)
  + [GetDatabases](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetDatabases)
  + [GetJob](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetJob)
  + [GetJobRun](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetJobRun)
  + [GetJobRuns](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetJobRuns)
  + [GetTables](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetTables)
  + [ListJobs](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/ListJobs)
  + [StartCrawler](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/StartCrawler)
  + [StartJobRun](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/StartJobRun)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $crawlerName = "example-crawler-test-" . $uniqid;

        $role = $iamService->getRole("AWSGlueServiceRole-DocExample");

        $path = 's3://crawler-public-us-east-1/flight/2016/csv';
        $glueService->createCrawler($crawlerName, $role['Role']['Arn'], $databaseName, $path);

    public function createCrawler($crawlerName, $role, $databaseName, $path): Result
    {
        return $this->customWaiter(function () use ($crawlerName, $role, $databaseName, $path) {
            return $this->glueClient->createCrawler([
                'Name' => $crawlerName,
                'Role' => $role,
                'DatabaseName' => $databaseName,
                'Targets' => [
                    'S3Targets' =>
                        [[
                            'Path' => $path,
                        ]]
                ],
            ]);
        });
    }
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/CreateCrawler)di *Referensi AWS SDK untuk PHP API*. 

### `CreateJob`
<a name="glue_CreateJob_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $role = $iamService->getRole("AWSGlueServiceRole-DocExample");

        $jobName = 'test-job-' . $uniqid;

        $scriptLocation = "s3://$bucketName/run_job.py";
        $job = $glueService->createJob($jobName, $role['Role']['Arn'], $scriptLocation);

    public function createJob($jobName, $role, $scriptLocation, $pythonVersion = '3', $glueVersion = '3.0'): Result
    {
        return $this->glueClient->createJob([
            'Name' => $jobName,
            'Role' => $role,
            'Command' => [
                'Name' => 'glueetl',
                'ScriptLocation' => $scriptLocation,
                'PythonVersion' => $pythonVersion,
            ],
            'GlueVersion' => $glueVersion,
        ]);
    }
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/CreateJob)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        echo "Delete the crawler.\n";
        $glueClient->deleteCrawler([
            'Name' => $crawlerName,
        ]);

    public function deleteCrawler($crawlerName)
    {
        return $this->glueClient->deleteCrawler([
            'Name' => $crawlerName,
        ]);
    }
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/DeleteCrawler)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        echo "Delete the databases.\n";
        $glueClient->deleteDatabase([
            'Name' => $databaseName,
        ]);

    public function deleteDatabase($databaseName)
    {
        return $this->glueClient->deleteDatabase([
            'Name' => $databaseName,
        ]);
    }
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/DeleteDatabase)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteJob`
<a name="glue_DeleteJob_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        echo "Delete the job.\n";
        $glueClient->deleteJob([
            'JobName' => $job['Name'],
        ]);

    public function deleteJob($jobName)
    {
        return $this->glueClient->deleteJob([
            'JobName' => $jobName,
        ]);
    }
```
+  Untuk detail API, lihat [DeleteJob](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/DeleteJob)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteTable`
<a name="glue_DeleteTable_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        echo "Delete the tables.\n";
        foreach ($tables['TableList'] as $table) {
            $glueService->deleteTable($table['Name'], $databaseName);
        }

    public function deleteTable($tableName, $databaseName)
    {
        return $this->glueClient->deleteTable([
            'DatabaseName' => $databaseName,
            'Name' => $tableName,
        ]);
    }
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/DeleteTable)di *Referensi AWS SDK untuk PHP API*. 

### `GetCrawler`
<a name="glue_GetCrawler_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        echo "Waiting for crawler";
        do {
            $crawler = $glueService->getCrawler($crawlerName);
            echo ".";
            sleep(10);
        } while ($crawler['Crawler']['State'] != "READY");
        echo "\n";

    public function getCrawler($crawlerName)
    {
        return $this->customWaiter(function () use ($crawlerName) {
            return $this->glueClient->getCrawler([
                'Name' => $crawlerName,
            ]);
        });
    }
```
+  Untuk detail API, lihat [GetCrawler](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetCrawler)di *Referensi AWS SDK untuk PHP API*. 

### `GetDatabase`
<a name="glue_GetDatabase_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $databaseName = "doc-example-database-$uniqid";

        $database = $glueService->getDatabase($databaseName);
        echo "Found a database named " . $database['Database']['Name'] . "\n";

    public function getDatabase(string $databaseName): Result
    {
        return $this->customWaiter(function () use ($databaseName) {
            return $this->glueClient->getDatabase([
                'Name' => $databaseName,
            ]);
        });
    }
```
+  Untuk detail API, lihat [GetDatabase](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetDatabase)di *Referensi AWS SDK untuk PHP API*. 

### `GetJobRun`
<a name="glue_GetJobRun_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $jobName = 'test-job-' . $uniqid;

        $outputBucketUrl = "s3://$bucketName";
        $runId = $glueService->startJobRun($jobName, $databaseName, $tables, $outputBucketUrl)['JobRunId'];

        echo "waiting for job";
        do {
            $jobRun = $glueService->getJobRun($jobName, $runId);
            echo ".";
            sleep(10);
        } while (!array_intersect([$jobRun['JobRun']['JobRunState']], ['SUCCEEDED', 'STOPPED', 'FAILED', 'TIMEOUT']));
        echo "\n";

    public function getJobRun($jobName, $runId, $predecessorsIncluded = false): Result
    {
        return $this->glueClient->getJobRun([
            'JobName' => $jobName,
            'RunId' => $runId,
            'PredecessorsIncluded' => $predecessorsIncluded,
        ]);
    }
```
+  Untuk detail API, lihat [GetJobRun](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetJobRun)di *Referensi AWS SDK untuk PHP API*. 

### `GetJobRuns`
<a name="glue_GetJobRuns_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $jobName = 'test-job-' . $uniqid;

        $jobRuns = $glueService->getJobRuns($jobName);

    public function getJobRuns($jobName, $maxResults = 0, $nextToken = ''): Result
    {
        $arguments = ['JobName' => $jobName];
        if ($maxResults) {
            $arguments['MaxResults'] = $maxResults;
        }
        if ($nextToken) {
            $arguments['NextToken'] = $nextToken;
        }
        return $this->glueClient->getJobRuns($arguments);
    }
```
+  Untuk detail API, lihat [GetJobRuns](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetJobRuns)di *Referensi AWS SDK untuk PHP API*. 

### `GetTables`
<a name="glue_GetTables_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $databaseName = "doc-example-database-$uniqid";

        $tables = $glueService->getTables($databaseName);

    public function getTables($databaseName): Result
    {
        return $this->glueClient->getTables([
            'DatabaseName' => $databaseName,
        ]);
    }
```
+  Untuk detail API, lihat [GetTables](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/GetTables)di *Referensi AWS SDK untuk PHP API*. 

### `ListJobs`
<a name="glue_ListJobs_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $jobs = $glueService->listJobs();
        echo "Current jobs:\n";
        foreach ($jobs['JobNames'] as $jobsName) {
            echo "{$jobsName}\n";
        }

    public function listJobs($maxResults = null, $nextToken = null, $tags = []): Result
    {
        $arguments = [];
        if ($maxResults) {
            $arguments['MaxResults'] = $maxResults;
        }
        if ($nextToken) {
            $arguments['NextToken'] = $nextToken;
        }
        if (!empty($tags)) {
            $arguments['Tags'] = $tags;
        }
        return $this->glueClient->listJobs($arguments);
    }
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/ListJobs)di *Referensi AWS SDK untuk PHP API*. 

### `StartCrawler`
<a name="glue_StartCrawler_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $crawlerName = "example-crawler-test-" . $uniqid;

        $databaseName = "doc-example-database-$uniqid";

        $glueService->startCrawler($crawlerName);

    public function startCrawler($crawlerName): Result
    {
        return $this->glueClient->startCrawler([
            'Name' => $crawlerName,
        ]);
    }
```
+  Untuk detail API, lihat [StartCrawler](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/StartCrawler)di *Referensi AWS SDK untuk PHP API*. 

### `StartJobRun`
<a name="glue_StartJobRun_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/glue#code-examples). 

```
        $jobName = 'test-job-' . $uniqid;

        $databaseName = "doc-example-database-$uniqid";

        $tables = $glueService->getTables($databaseName);

        $outputBucketUrl = "s3://$bucketName";
        $runId = $glueService->startJobRun($jobName, $databaseName, $tables, $outputBucketUrl)['JobRunId'];

    public function startJobRun($jobName, $databaseName, $tables, $outputBucketUrl): Result
    {
        return $this->glueClient->startJobRun([
            'JobName' => $jobName,
            'Arguments' => [
                'input_database' => $databaseName,
                'input_table' => $tables['TableList'][0]['Name'],
                'output_bucket_url' => $outputBucketUrl,
                '--input_database' => $databaseName,
                '--input_table' => $tables['TableList'][0]['Name'],
                '--output_bucket_url' => $outputBucketUrl,
            ],
        ]);
    }
```
+  Untuk detail API, lihat [StartJobRun](https://docs.aws.amazon.com/goto/SdkForPHPV3/glue-2017-03-31/StartJobRun)di *Referensi AWS SDK untuk PHP API*. 

# Contoh IAM menggunakan SDK for PHP
<a name="php_3_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP with IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
namespace Iam\Basics;

require 'vendor/autoload.php';

use Aws\Credentials\Credentials;
use Aws\S3\Exception\S3Exception;
use Aws\S3\S3Client;
use Aws\Sts\StsClient;
use Iam\IAMService;

echo("\n");
echo("--------------------------------------\n");
print("Welcome to the IAM getting started demo using PHP!\n");
echo("--------------------------------------\n");

$uuid = uniqid();
$service = new IAMService();

$user = $service->createUser("iam_demo_user_$uuid");
echo "Created user with the arn: {$user['Arn']}\n";

$key = $service->createAccessKey($user['UserName']);
$assumeRolePolicyDocument = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Principal\": {\"AWS\": \"{$user['Arn']}\"},
                    \"Action\": \"sts:AssumeRole\"
                }]
            }";
$assumeRoleRole = $service->createRole("iam_demo_role_$uuid", $assumeRolePolicyDocument);
echo "Created role: {$assumeRoleRole['RoleName']}\n";

$listAllBucketsPolicyDocument = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Action\": \"s3:ListAllMyBuckets\",
                    \"Resource\": \"arn:aws:s3:::*\"}]
}";
$listAllBucketsPolicy = $service->createPolicy("iam_demo_policy_$uuid", $listAllBucketsPolicyDocument);
echo "Created policy: {$listAllBucketsPolicy['PolicyName']}\n";

$service->attachRolePolicy($assumeRoleRole['RoleName'], $listAllBucketsPolicy['Arn']);

$inlinePolicyDocument = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Action\": \"sts:AssumeRole\",
                    \"Resource\": \"{$assumeRoleRole['Arn']}\"}]
}";
$inlinePolicy = $service->createUserPolicy("iam_demo_inline_policy_$uuid", $inlinePolicyDocument, $user['UserName']);
//First, fail to list the buckets with the user
$credentials = new Credentials($key['AccessKeyId'], $key['SecretAccessKey']);
$s3Client = new S3Client(['region' => 'us-west-2', 'version' => 'latest', 'credentials' => $credentials]);
try {
    $s3Client->listBuckets([
    ]);
    echo "this should not run";
} catch (S3Exception $exception) {
    echo "successfully failed!\n";
}

$stsClient = new StsClient(['region' => 'us-west-2', 'version' => 'latest', 'credentials' => $credentials]);
sleep(10);
$assumedRole = $stsClient->assumeRole([
    'RoleArn' => $assumeRoleRole['Arn'],
    'RoleSessionName' => "DemoAssumeRoleSession_$uuid",
]);
$assumedCredentials = [
    'key' => $assumedRole['Credentials']['AccessKeyId'],
    'secret' => $assumedRole['Credentials']['SecretAccessKey'],
    'token' => $assumedRole['Credentials']['SessionToken'],
];
$s3Client = new S3Client(['region' => 'us-west-2', 'version' => 'latest', 'credentials' => $assumedCredentials]);
try {
    $s3Client->listBuckets([]);
    echo "this should now run!\n";
} catch (S3Exception $exception) {
    echo "this should now not fail\n";
}

$service->detachRolePolicy($assumeRoleRole['RoleName'], $listAllBucketsPolicy['Arn']);
$deletePolicy = $service->deletePolicy($listAllBucketsPolicy['Arn']);
echo "Delete policy: {$listAllBucketsPolicy['PolicyName']}\n";
$deletedRole = $service->deleteRole($assumeRoleRole['Arn']);
echo "Deleted role: {$assumeRoleRole['RoleName']}\n";
$deletedKey = $service->deleteAccessKey($key['AccessKeyId'], $user['UserName']);
$deletedUser = $service->deleteUser($user['UserName']);
echo "Delete user: {$user['UserName']}\n";
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/AttachRolePolicy)
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/CreateAccessKey)
  + [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/CreatePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/CreateRole)
  + [CreateUser](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/CreateUser)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/DeleteAccessKey)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/DeletePolicy)
  + [DeleteRole](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/DeleteRole)
  + [DeleteUser](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/DeleteUser)
  + [DeleteUserPolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/DeleteUserPolicy)
  + [DetachRolePolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/DetachRolePolicy)
  + [PutUserPolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/PutUserPolicy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

$assumeRolePolicyDocument = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Principal\": {\"AWS\": \"{$user['Arn']}\"},
                    \"Action\": \"sts:AssumeRole\"
                }]
            }";
$assumeRoleRole = $service->createRole("iam_demo_role_$uuid", $assumeRolePolicyDocument);
echo "Created role: {$assumeRoleRole['RoleName']}\n";

$listAllBucketsPolicyDocument = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Action\": \"s3:ListAllMyBuckets\",
                    \"Resource\": \"arn:aws:s3:::*\"}]
}";
$listAllBucketsPolicy = $service->createPolicy("iam_demo_policy_$uuid", $listAllBucketsPolicyDocument);
echo "Created policy: {$listAllBucketsPolicy['PolicyName']}\n";

$service->attachRolePolicy($assumeRoleRole['RoleName'], $listAllBucketsPolicy['Arn']);

    public function attachRolePolicy($roleName, $policyArn)
    {
        return $this->customWaiter(function () use ($roleName, $policyArn) {
            $this->iamClient->attachRolePolicy([
                'PolicyArn' => $policyArn,
                'RoleName' => $roleName,
            ]);
        });
    }
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/AttachRolePolicy)di *Referensi AWS SDK untuk PHP API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

$listAllBucketsPolicyDocument = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Action\": \"s3:ListAllMyBuckets\",
                    \"Resource\": \"arn:aws:s3:::*\"}]
}";
$listAllBucketsPolicy = $service->createPolicy("iam_demo_policy_$uuid", $listAllBucketsPolicyDocument);
echo "Created policy: {$listAllBucketsPolicy['PolicyName']}\n";

    /**
     * @param string $policyName
     * @param string $policyDocument
     * @return array
     */
    public function createPolicy(string $policyName, string $policyDocument)
    {
        $result = $this->customWaiter(function () use ($policyName, $policyDocument) {
            return $this->iamClient->createPolicy([
                'PolicyName' => $policyName,
                'PolicyDocument' => $policyDocument,
            ]);
        });
        return $result['Policy'];
    }
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/CreatePolicy)di *Referensi AWS SDK untuk PHP API*. 

### `CreateRole`
<a name="iam_CreateRole_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

$assumeRolePolicyDocument = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Principal\": {\"AWS\": \"{$user['Arn']}\"},
                    \"Action\": \"sts:AssumeRole\"
                }]
            }";
$assumeRoleRole = $service->createRole("iam_demo_role_$uuid", $assumeRolePolicyDocument);
echo "Created role: {$assumeRoleRole['RoleName']}\n";

    /**
     * @param string $roleName
     * @param string $rolePolicyDocument
     * @return array
     * @throws AwsException
     */
    public function createRole(string $roleName, string $rolePolicyDocument)
    {
        $result = $this->customWaiter(function () use ($roleName, $rolePolicyDocument) {
            return $this->iamClient->createRole([
                'AssumeRolePolicyDocument' => $rolePolicyDocument,
                'RoleName' => $roleName,
            ]);
        });
        return $result['Role'];
    }
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/CreateRole)di *Referensi AWS SDK untuk PHP API*. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function createServiceLinkedRole($awsServiceName, $customSuffix = "", $description = "")
    {
        $createServiceLinkedRoleArguments = ['AWSServiceName' => $awsServiceName];
        if ($customSuffix) {
            $createServiceLinkedRoleArguments['CustomSuffix'] = $customSuffix;
        }
        if ($description) {
            $createServiceLinkedRoleArguments['Description'] = $description;
        }
        return $this->iamClient->createServiceLinkedRole($createServiceLinkedRoleArguments);
    }
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/CreateServiceLinkedRole)di *Referensi AWS SDK untuk PHP API*. 

### `CreateUser`
<a name="iam_CreateUser_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

$user = $service->createUser("iam_demo_user_$uuid");
echo "Created user with the arn: {$user['Arn']}\n";


    /**
     * @param string $name
     * @return array
     * @throws AwsException
     */
    public function createUser(string $name): array
    {
        $result = $this->iamClient->createUser([
            'UserName' => $name,
        ]);

        return $result['User'];
    }
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/CreateUser)di *Referensi AWS SDK untuk PHP API*. 

### `GetAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountPasswordPolicy`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function getAccountPasswordPolicy()
    {
        return $this->iamClient->getAccountPasswordPolicy();
    }
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/GetAccountPasswordPolicy)di *Referensi AWS SDK untuk PHP API*. 

### `GetPolicy`
<a name="iam_GetPolicy_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function getPolicy($policyArn)
    {
        return $this->customWaiter(function () use ($policyArn) {
            return $this->iamClient->getPolicy(['PolicyArn' => $policyArn]);
        });
    }
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/GetPolicy)di *Referensi AWS SDK untuk PHP API*. 

### `GetRole`
<a name="iam_GetRole_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function getRole($roleName)
    {
        return $this->customWaiter(function () use ($roleName) {
            return $this->iamClient->getRole(['RoleName' => $roleName]);
        });
    }
```
+  Untuk detail API, lihat [GetRole](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/GetRole)di *Referensi AWS SDK untuk PHP API*. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function listAttachedRolePolicies($roleName, $pathPrefix = "", $marker = "", $maxItems = 0)
    {
        $listAttachRolePoliciesArguments = ['RoleName' => $roleName];
        if ($pathPrefix) {
            $listAttachRolePoliciesArguments['PathPrefix'] = $pathPrefix;
        }
        if ($marker) {
            $listAttachRolePoliciesArguments['Marker'] = $marker;
        }
        if ($maxItems) {
            $listAttachRolePoliciesArguments['MaxItems'] = $maxItems;
        }
        return $this->iamClient->listAttachedRolePolicies($listAttachRolePoliciesArguments);
    }
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/ListAttachedRolePolicies)di *Referensi AWS SDK untuk PHP API*. 

### `ListGroups`
<a name="iam_ListGroups_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function listGroups($pathPrefix = "", $marker = "", $maxItems = 0)
    {
        $listGroupsArguments = [];
        if ($pathPrefix) {
            $listGroupsArguments["PathPrefix"] = $pathPrefix;
        }
        if ($marker) {
            $listGroupsArguments["Marker"] = $marker;
        }
        if ($maxItems) {
            $listGroupsArguments["MaxItems"] = $maxItems;
        }

        return $this->iamClient->listGroups($listGroupsArguments);
    }
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/ListGroups)di *Referensi AWS SDK untuk PHP API*. 

### `ListPolicies`
<a name="iam_ListPolicies_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function listPolicies($pathPrefix = "", $marker = "", $maxItems = 0)
    {
        $listPoliciesArguments = [];
        if ($pathPrefix) {
            $listPoliciesArguments["PathPrefix"] = $pathPrefix;
        }
        if ($marker) {
            $listPoliciesArguments["Marker"] = $marker;
        }
        if ($maxItems) {
            $listPoliciesArguments["MaxItems"] = $maxItems;
        }

        return $this->iamClient->listPolicies($listPoliciesArguments);
    }
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/ListPolicies)di *Referensi AWS SDK untuk PHP API*. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function listRolePolicies($roleName, $marker = "", $maxItems = 0)
    {
        $listRolePoliciesArguments = ['RoleName' => $roleName];
        if ($marker) {
            $listRolePoliciesArguments['Marker'] = $marker;
        }
        if ($maxItems) {
            $listRolePoliciesArguments['MaxItems'] = $maxItems;
        }
        return $this->customWaiter(function () use ($listRolePoliciesArguments) {
            return $this->iamClient->listRolePolicies($listRolePoliciesArguments);
        });
    }
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/ListRolePolicies)di *Referensi AWS SDK untuk PHP API*. 

### `ListRoles`
<a name="iam_ListRoles_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    /**
     * @param string $pathPrefix
     * @param string $marker
     * @param int $maxItems
     * @return Result
     * $roles = $service->listRoles();
     */
    public function listRoles($pathPrefix = "", $marker = "", $maxItems = 0)
    {
        $listRolesArguments = [];
        if ($pathPrefix) {
            $listRolesArguments["PathPrefix"] = $pathPrefix;
        }
        if ($marker) {
            $listRolesArguments["Marker"] = $marker;
        }
        if ($maxItems) {
            $listRolesArguments["MaxItems"] = $maxItems;
        }
        return $this->iamClient->listRoles($listRolesArguments);
    }
```
+  Untuk detail API, lihat [ListRoles](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/ListRoles)di *Referensi AWS SDK untuk PHP API*. 

### `ListSAMLProviders`
<a name="iam_ListSAMLProviders_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSAMLProviders`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function listSAMLProviders()
    {
        return $this->iamClient->listSAMLProviders();
    }
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/ListSAMLProviders) di *Referensi AWS SDK untuk PHP API*. 

### `ListUsers`
<a name="iam_ListUsers_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/iam#code-examples). 

```
$uuid = uniqid();
$service = new IAMService();

    public function listUsers($pathPrefix = "", $marker = "", $maxItems = 0)
    {
        $listUsersArguments = [];
        if ($pathPrefix) {
            $listUsersArguments["PathPrefix"] = $pathPrefix;
        }
        if ($marker) {
            $listUsersArguments["Marker"] = $marker;
        }
        if ($maxItems) {
            $listUsersArguments["MaxItems"] = $maxItems;
        }

        return $this->iamClient->listUsers($listUsersArguments);
    }
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/SdkForPHPV3/iam-2010-05-08/ListUsers)di *Referensi AWS SDK untuk PHP API*. 

# Contoh Kinesis menggunakan SDK for PHP
<a name="php_3_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP Kinesis with.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\Kinesis\KinesisEvent;
use Bref\Event\Kinesis\KinesisHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler extends KinesisHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handleKinesis(KinesisEvent $event, Context $context): void
    {
        $this->logger->info("Processing records");
        $records = $event->getRecords();
        foreach ($records as $record) {
            $data = $record->getData();
            $this->logger->info(json_encode($data));
            // TODO: Do interesting work based on the new data

            // Any exception thrown will be logged and the invocation will be marked as failed
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords records");
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\Kinesis\KinesisEvent;
use Bref\Event\Handler as StdHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler implements StdHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handle(mixed $event, Context $context): array
    {
        $kinesisEvent = new KinesisEvent($event);
        $this->logger->info("Processing records");
        $records = $kinesisEvent->getRecords();

        $failedRecords = [];
        foreach ($records as $record) {
            try {
                $data = $record->getData();
                $this->logger->info(json_encode($data));
                // TODO: Do interesting work based on the new data
            } catch (Exception $e) {
                $this->logger->error($e->getMessage());
                // failed processing the record
                $failedRecords[] = $record->getSequenceNumber();
            }
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords records");

        // change format for the response
        $failures = array_map(
            fn(string $sequenceNumber) => ['itemIdentifier' => $sequenceNumber],
            $failedRecords
        );

        return [
            'batchItemFailures' => $failures
        ];
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

# AWS KMS contoh menggunakan SDK for PHP
<a name="php_3_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP with AWS KMS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS KMS
<a name="kms_Hello_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Key Management Service.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
include "vendor/autoload.php";

use Aws\Kms\KmsClient;

echo "This file shows how to connect to the KmsClient, uses a paginator to get the keys for the account, and lists the KeyIds for up to 10 keys.\n";

$client = new KmsClient([]);

$pageLength = 10; // Change this value to change the number of records shown, or to break up the result into pages.

$keys = [];
$keysPaginator = $client->getPaginator("ListKeys", ['Limit' => $pageLength]);
foreach($keysPaginator as $page){
    foreach($page['Keys'] as $index => $key){
        echo "The $index index Key's ID is: {$key['KeyId']}\n";
    }
    echo "End of page one of results. Alter the \$pageLength variable to see more results.\n";
    break;
}
```
+  Untuk detail API, lihat [ListKeys](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ListKeys)di *Referensi AWS SDK untuk PHP API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="kms_Scenario_Basics_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat kunci KMS.
+ Buat daftar kunci KMS untuk akun Anda dan dapatkan detailnya.
+ Aktifkan dan nonaktifkan tombol KMS.
+ Hasilkan kunci data simetris yang dapat digunakan untuk enkripsi sisi klien.
+ Hasilkan kunci asimetris yang digunakan untuk menandatangani data secara digital.
+ Tombol tag.
+ Hapus kunci KMS.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
        echo "\n";
        echo "--------------------------------------\n";
        echo <<<WELCOME
Welcome to the AWS Key Management Service SDK Basics scenario.
        
This program demonstrates how to interact with AWS Key Management Service using the AWS SDK for PHP (v3).
The AWS Key Management Service (KMS) is a secure and highly available service that allows you to create
and manage AWS KMS keys and control their use across a wide range of AWS services and applications.
KMS provides a centralized and unified approach to managing encryption keys, making it easier to meet your
data protection and regulatory compliance requirements.

This KMS Basics scenario creates two key types:
- A symmetric encryption key is used to encrypt and decrypt data.
- An asymmetric key used to digitally sign data.

Let's get started...\n
WELCOME;
        echo "--------------------------------------\n";
        $this->pressEnter();

        $this->kmsClient = new KmsClient([]);
        // Initialize the KmsService class with the client. This allows you to override any defaults in the client before giving it to the service class.
        $this->kmsService = new KmsService($this->kmsClient);

        // 1. Create a symmetric KMS key.
        echo "\n";
        echo "1. Create a symmetric KMS key.\n";
        echo "First, we will create a symmetric KMS key that is used to encrypt and decrypt data by invoking createKey().\n";
        $this->pressEnter();

        $key = $this->kmsService->createKey();
        $this->resources['symmetricKey'] = $key['KeyId'];
        echo "Created a customer key with ARN {$key['Arn']}.\n";
        $this->pressEnter();

        // 2. Enable a KMS key.
        echo "\n";
        echo "2. Enable a KMS key.\n";
        echo "By default when you create an AWS key, it is enabled. The code checks to
determine if the key is enabled. If it is not enabled, the code enables it.\n";
        $this->pressEnter();

        $keyInfo = $this->kmsService->describeKey($key['KeyId']);
        if(!$keyInfo['Enabled']){
            echo "The key was not enabled, so we will enable it.\n";
            $this->pressEnter();
            $this->kmsService->enableKey($key['KeyId']);
            echo "The key was successfully enabled.\n";
        }else{
            echo "The key was already enabled, so there was no need to enable it.\n";
        }
        $this->pressEnter();

        // 3. Encrypt data using the symmetric KMS key.
        echo "\n";
        echo "3. Encrypt data using the symmetric KMS key.\n";
        echo "One of the main uses of symmetric keys is to encrypt and decrypt data.\n";
        echo "Next, we'll encrypt the string 'Hello, AWS KMS!' with the SYMMETRIC_DEFAULT encryption algorithm.\n";
        $this->pressEnter();
        $text = "Hello, AWS KMS!";
        $encryption = $this->kmsService->encrypt($key['KeyId'], $text);
        echo "The plaintext data was successfully encrypted with the algorithm: {$encryption['EncryptionAlgorithm']}.\n";
        $this->pressEnter();

        // 4. Create an alias.
        echo "\n";
        echo "4. Create an alias.\n";
        $aliasInput = testable_readline("Please enter an alias prefixed with \"alias/\" or press enter to use a default value: ");
        if($aliasInput == ""){
            $aliasInput = "alias/dev-encryption-key";
        }
        $this->kmsService->createAlias($key['KeyId'], $aliasInput);
        $this->resources['alias'] = $aliasInput;
        echo "The alias \"$aliasInput\" was successfully created.\n";
        $this->pressEnter();

        // 5. List all of your aliases.
        $aliasPageSize = 10;
        echo "\n";
        echo "5. List all of your aliases, up to $aliasPageSize.\n";
        $this->pressEnter();
        $aliasPaginator = $this->kmsService->listAliases();
        foreach($aliasPaginator as $pages){
            foreach($pages['Aliases'] as $alias){
                echo $alias['AliasName'] . "\n";
            }
            break;
        }
        $this->pressEnter();

        // 6. Enable automatic rotation of the KMS key.
        echo "\n";
        echo "6. Enable automatic rotation of the KMS key.\n";
        echo "By default, when the SDK enables automatic rotation of a KMS key,
KMS rotates the key material of the KMS key one year (approximately 365 days) from the enable date and every year 
thereafter.";
        $this->pressEnter();
        $this->kmsService->enableKeyRotation($key['KeyId']);
        echo "The key's rotation was successfully set for key: {$key['KeyId']}\n";
        $this->pressEnter();

        // 7. Create a grant.
        echo "7. Create a grant.\n";
        echo "\n";
        echo "A grant is a policy instrument that allows Amazon Web Services principals to use KMS keys.
It also can allow them to view a KMS key (DescribeKey) and create and manage grants.
When authorizing access to a KMS key, grants are considered along with key policies and IAM policies.\n";
        $granteeARN = testable_readline("Please enter the Amazon Resource Name (ARN) of an Amazon Web Services principal. Valid principals include Amazon Web Services accounts, IAM users, IAM roles, federated users, and assumed role users. For help with the ARN syntax for a principal, see IAM ARNs in the Identity and Access Management User Guide. \nTo skip this step, press enter without any other values: ");
        if($granteeARN){
            $operations = [
                "ENCRYPT",
                "DECRYPT",
                "DESCRIBE_KEY",
            ];
            $grant = $this->kmsService->createGrant($key['KeyId'], $granteeARN, $operations);
            echo "The grant Id is: {$grant['GrantId']}\n";
        }else{
            echo "Steps 7, 8, and 9 will be skipped.\n";
        }
        $this->pressEnter();

        // 8. List grants for the KMS key.
        if($granteeARN){
            echo "8. List grants for the KMS key.\n\n";
            $grantsPaginator = $this->kmsService->listGrants($key['KeyId']);
            foreach($grantsPaginator as $page){
                foreach($page['Grants'] as $grant){
                    echo $grant['GrantId'] . "\n";
                }
            }
        }else{
            echo "Skipping step 8...\n";
        }
        $this->pressEnter();

        // 9. Revoke the grant.
        if($granteeARN) {
            echo "\n";
            echo "9. Revoke the grant.\n";
            $this->pressEnter();
            $this->kmsService->revokeGrant($grant['GrantId'], $keyInfo['KeyId']);
            echo "{$grant['GrantId']} was successfully revoked!\n";
        }else{
            echo "Skipping step 9...\n";
        }
        $this->pressEnter();

        // 10. Decrypt the data.
        echo "\n";
        echo "10. Decrypt the data.\n";
        echo "Let's decrypt the data that was encrypted before.\n";
        echo "We'll use the same key to decrypt the string that we encrypted earlier in the program.\n";
        $this->pressEnter();
        $decryption = $this->kmsService->decrypt($keyInfo['KeyId'], $encryption['CiphertextBlob'], $encryption['EncryptionAlgorithm']);
        echo "The decrypted text is: {$decryption['Plaintext']}\n";
        $this->pressEnter();

        // 11. Replace a Key Policy.
        echo "\n";
        echo "11. Replace a Key Policy.\n";
        echo "A key policy is a resource policy for a KMS key. Key policies are the primary way to control access to KMS keys.\n";
        echo "Every KMS key must have exactly one key policy. The statements in the key policy determine who has permission to use the KMS key and how they can use it.\n";
        echo " You can also use IAM policies and grants to control access to the KMS key, but every KMS key must have a key policy.\n";
        echo "We will replace the key's policy with a new one:\n";
        $stsClient = new StsClient([]);
        $result = $stsClient->getCallerIdentity();
        $accountId = $result['Account'];
        $keyPolicy = <<< KEYPOLICY
{
    "Version":"2012-10-17",		 	 	 
    "Statement": [{
        "Effect": "Allow",
        "Principal": {"AWS": "arn:aws:iam::$accountId:root"},
        "Action": "kms:*",
        "Resource": "*"
    }]
}
KEYPOLICY;
        echo $keyPolicy;
        $this->pressEnter();
        $this->kmsService->putKeyPolicy($keyInfo['KeyId'], $keyPolicy);
        echo "The Key Policy was successfully replaced!\n";
        $this->pressEnter();

        // 12. Retrieve the key policy.
        echo "\n";
        echo "12. Retrieve the key policy.\n";
        echo "Let's get some information about the new policy and print it to the screen.\n";
        $this->pressEnter();
        $policyInfo = $this->kmsService->getKeyPolicy($keyInfo['KeyId']);
        echo "We got the info! Here is the policy: \n";
        echo $policyInfo['Policy'] . "\n";
        $this->pressEnter();

        // 13. Create an asymmetric KMS key and sign data.
        echo "\n";
        echo "13. Create an asymmetric KMS key and sign data.\n";
        echo "Signing your data with an AWS key can provide several benefits that make it an attractive option for your data signing needs.\n";
        echo "By using an AWS KMS key, you can leverage the security controls and compliance features provided by AWS, which can help you meet various regulatory requirements and enhance the overall security posture of your organization.\n";
        echo "First we'll create the asymmetric key.\n";
        $this->pressEnter();
        $keySpec = "RSA_2048";
        $keyUsage = "SIGN_VERIFY";
        $asymmetricKey = $this->kmsService->createKey($keySpec, $keyUsage);
        $this->resources['asymmetricKey'] = $asymmetricKey['KeyId'];
        echo "Created the key with ID: {$asymmetricKey['KeyId']}\n";
        echo "Next, we'll sign the data.\n";
        $this->pressEnter();
        $algorithm = "RSASSA_PSS_SHA_256";
        $sign = $this->kmsService->sign($asymmetricKey['KeyId'], $text, $algorithm);
        $verify = $this->kmsService->verify($asymmetricKey['KeyId'], $text, $sign['Signature'], $algorithm);
        echo "Signature verification result: {$sign['signature']}\n";
        $this->pressEnter();

        // 14. Tag the symmetric KMS key.
        echo "\n";
        echo "14. Tag the symmetric KMS key.\n";
        echo "By using tags, you can improve the overall management, security, and governance of your KMS keys, making it easier to organize, track, and control access to your encrypted data within your AWS environment.\n";
        echo "Let's tag our symmetric key as Environment->Production\n";
        $this->pressEnter();
        $this->kmsService->tagResource($key['KeyId'], [
            [
                'TagKey' => "Environment",
                'TagValue' => "Production",
            ],
        ]);
        echo "The key was successfully tagged!\n";
        $this->pressEnter();

        // 15. Schedule the deletion of the KMS key
        echo "\n";
        echo "15. Schedule the deletion of the KMS key.\n";
        echo "By default, KMS applies a waiting period of 30 days, but you can specify a waiting period of 7-30 days.\n";
        echo "When this operation is successful, the key state of the KMS key changes to PendingDeletion and the key can't be used in any cryptographic operations.\n";
        echo "It remains in this state for the duration of the waiting period.\n\n";

        echo "Deleting a KMS key is a destructive and potentially dangerous operation. When a KMS key is deleted, all data that was encrypted under the KMS key is unrecoverable.\n\n";

        $cleanUp = testable_readline("Would you like to delete the resources created during this scenario, including the keys? (y/n): ");
        if($cleanUp == "Y" || $cleanUp == "y"){
            $this->cleanUp();
        }

        echo "--------------------------------------------------------------------------------\n";
        echo "This concludes the AWS Key Management SDK Basics scenario\n";
        echo "--------------------------------------------------------------------------------\n";



namespace Kms;

use Aws\Kms\Exception\KmsException;
use Aws\Kms\KmsClient;
use Aws\Result;
use Aws\ResultPaginator;
use AwsUtilities\AWSServiceClass;

class KmsService extends AWSServiceClass
{

    protected KmsClient $client;
    protected bool $verbose;

    /***
     * @param KmsClient|null $client
     * @param bool $verbose
     */
    public function __construct(KmsClient $client = null, bool $verbose = false)
    {
        $this->verbose = $verbose;
        if($client){
            $this->client = $client;
            return;
        }
        $this->client = new KmsClient([]);
    }


    /***
     * @param string $keySpec
     * @param string $keyUsage
     * @param string $description
     * @return array
     */
    public function createKey(string $keySpec = "", string $keyUsage = "", string $description = "Created by the SDK for PHP")
    {
        $parameters = ['Description' => $description];
        if($keySpec && $keyUsage){
            $parameters['KeySpec'] = $keySpec;
            $parameters['KeyUsage'] = $keyUsage;
        }
        try {
            $result = $this->client->createKey($parameters);
            return $result['KeyMetadata'];
        }catch(KmsException $caught){
            // Check for error specific to createKey operations
            if ($caught->getAwsErrorMessage() == "LimitExceededException"){
                echo "The request was rejected because a quota was exceeded. For more information, see Quotas in the Key Management Service Developer Guide.";
            }
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param string $ciphertext
     * @param string $algorithm
     * @return Result
     */
    public function decrypt(string $keyId, string $ciphertext, string $algorithm = "SYMMETRIC_DEFAULT")
    {
        try{
            return $this->client->decrypt([
                'CiphertextBlob' => $ciphertext,
                'EncryptionAlgorithm' => $algorithm,
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem decrypting the data: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param string $text
     * @return Result
     */
    public function encrypt(string $keyId, string $text)
    {
        try {
            return $this->client->encrypt([
                'KeyId' => $keyId,
                'Plaintext' => $text,
            ]);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "DisabledException"){
                echo "The request was rejected because the specified KMS key is not enabled.\n";
            }
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param int $limit
     * @return ResultPaginator
     */
    public function listAliases(string $keyId = "", int $limit = 0)
    {
        $args = [];
        if($keyId){
            $args['KeyId'] = $keyId;
        }
        if($limit){
            $args['Limit'] = $limit;
        }
        try{
            return $this->client->getPaginator("ListAliases", $args);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "InvalidMarkerException"){
                echo "The request was rejected because the marker that specifies where pagination should next begin is not valid.\n";
            }
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param string $alias
     * @return void
     */
    public function createAlias(string $keyId, string $alias)
    {
        try{
            $this->client->createAlias([
                'TargetKeyId' => $keyId,
                'AliasName' => $alias,
            ]);
        }catch (KmsException $caught){
            if($caught->getAwsErrorMessage() == "InvalidAliasNameException"){
                echo "The request was rejected because the specified alias name is not valid.";
            }
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param string $granteePrincipal
     * @param array $operations
     * @param array $grantTokens
     * @return Result
     */
    public function createGrant(string $keyId, string $granteePrincipal, array $operations, array $grantTokens = [])
    {
        $args = [
            'KeyId' => $keyId,
            'GranteePrincipal' => $granteePrincipal,
            'Operations' => $operations,
        ];
        if($grantTokens){
            $args['GrantTokens'] = $grantTokens;
        }
        try{
            return $this->client->createGrant($args);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "InvalidGrantTokenException"){
                echo "The request was rejected because the specified grant token is not valid.\n";
            }
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @return array
     */
    public function describeKey(string $keyId)
    {
        try {
            $result = $this->client->describeKey([
                "KeyId" => $keyId,
            ]);
            return $result['KeyMetadata'];
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "NotFoundException"){
                echo "The request was rejected because the specified entity or resource could not be found.\n";
            }
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @return void
     */
    public function disableKey(string $keyId)
    {
        try {
            $this->client->disableKey([
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem disabling the key: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @return void
     */
    public function enableKey(string $keyId)
    {
        try {
            $this->client->enableKey([
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "NotFoundException"){
                echo "The request was rejected because the specified entity or resource could not be found.\n";
            }
            throw $caught;
        }
    }



    /***
     * @return array
     */
    public function listKeys()
    {
        try {
            $contents = [];
            $paginator = $this->client->getPaginator("ListKeys");
            foreach($paginator as $result){
                foreach ($result['Content'] as $object) {
                    $contents[] = $object;
                }
            }
            return $contents;
        }catch(KmsException $caught){
            echo "There was a problem listing the keys: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @return Result
     */
    public function listGrants(string $keyId)
    {
        try{
            return $this->client->listGrants([
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "NotFoundException"){
                echo "    The request was rejected because the specified entity or resource could not be found.\n";
            }
            throw $caught;
        }
    }


    /***
     * @param string $keyId
     * @return Result
     */
    public function getKeyPolicy(string $keyId)
    {
        try {
            return $this->client->getKeyPolicy([
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem getting the key policy: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }


    /***
     * @param string $grantId
     * @param string $keyId
     * @return void
     */
    public function revokeGrant(string $grantId, string $keyId)
    {
        try{
            $this->client->revokeGrant([
                'GrantId' => $grantId,
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem with revoking the grant: {$caught->getAwsErrorMessage()}.\n";
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param int $pendingWindowInDays
     * @return void
     */
    public function scheduleKeyDeletion(string $keyId, int $pendingWindowInDays = 7)
    {
        try {
            $this->client->scheduleKeyDeletion([
                'KeyId' => $keyId,
                'PendingWindowInDays' => $pendingWindowInDays,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem scheduling the key deletion: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param array $tags
     * @return void
     */
    public function tagResource(string $keyId, array $tags)
    {
        try {
            $this->client->tagResource([
                'KeyId' => $keyId,
                'Tags' => $tags,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem applying the tag(s): {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param string $message
     * @param string $algorithm
     * @return Result
     */
    public function sign(string $keyId, string $message, string $algorithm)
    {
        try {
            return $this->client->sign([
                'KeyId' => $keyId,
                'Message' => $message,
                'SigningAlgorithm' => $algorithm,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem signing the data: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param int $rotationPeriodInDays
     * @return void
     */
    public function enableKeyRotation(string $keyId, int $rotationPeriodInDays = 365)
    {
        try{
            $this->client->enableKeyRotation([
                'KeyId' => $keyId,
                'RotationPeriodInDays' => $rotationPeriodInDays,
            ]);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "NotFoundException"){
                echo "The request was rejected because the specified entity or resource could not be found.\n";
            }
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param string $policy
     * @return void
     */
    public function putKeyPolicy(string $keyId, string $policy)
    {
        try {
            $this->client->putKeyPolicy([
                'KeyId' => $keyId,
                'Policy' => $policy,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem replacing the key policy: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }



    /***
     * @param string $aliasName
     * @return void
     */
    public function deleteAlias(string $aliasName)
    {
        try {
            $this->client->deleteAlias([
                'AliasName' => $aliasName,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem deleting the alias: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }



    /***
     * @param string $keyId
     * @param string $message
     * @param string $signature
     * @param string $signingAlgorithm
     * @return bool
     */
    public function verify(string $keyId, string $message, string $signature, string $signingAlgorithm)
    {
        try {
            $result = $this->client->verify([
                'KeyId' => $keyId,
                'Message' => $message,
                'Signature' => $signature,
                'SigningAlgorithm' => $signingAlgorithm,
            ]);
            return $result['SignatureValid'];
        }catch(KmsException $caught){
            echo "There was a problem verifying the signature: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }


}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [CreateAlias](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/CreateAlias)
  + [CreateGrant](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/CreateGrant)
  + [CreateKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/CreateKey)
  + [Dekripsi](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/Decrypt)
  + [DescribeKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/DescribeKey)
  + [DisableKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/DisableKey)
  + [EnableKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/EnableKey)
  + [Enkripsi](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/Encrypt)
  + [GetKeyPolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/GetKeyPolicy)
  + [ListAliases](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ListAliases)
  + [ListGrants](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ListGrants)
  + [ListKeys](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ListKeys)
  + [RevokeGrant](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/RevokeGrant)
  + [ScheduleKeyDeletion](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ScheduleKeyDeletion)
  + [Tanda](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/Sign)
  + [TagResource](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/TagResource)

## Tindakan
<a name="actions"></a>

### `CreateAlias`
<a name="kms_CreateAlias_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAlias`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param string $alias
     * @return void
     */
    public function createAlias(string $keyId, string $alias)
    {
        try{
            $this->client->createAlias([
                'TargetKeyId' => $keyId,
                'AliasName' => $alias,
            ]);
        }catch (KmsException $caught){
            if($caught->getAwsErrorMessage() == "InvalidAliasNameException"){
                echo "The request was rejected because the specified alias name is not valid.";
            }
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/CreateAlias)di *Referensi AWS SDK untuk PHP API*. 

### `CreateGrant`
<a name="kms_CreateGrant_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGrant`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param string $granteePrincipal
     * @param array $operations
     * @param array $grantTokens
     * @return Result
     */
    public function createGrant(string $keyId, string $granteePrincipal, array $operations, array $grantTokens = [])
    {
        $args = [
            'KeyId' => $keyId,
            'GranteePrincipal' => $granteePrincipal,
            'Operations' => $operations,
        ];
        if($grantTokens){
            $args['GrantTokens'] = $grantTokens;
        }
        try{
            return $this->client->createGrant($args);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "InvalidGrantTokenException"){
                echo "The request was rejected because the specified grant token is not valid.\n";
            }
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [CreateGrant](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/CreateGrant)di *Referensi AWS SDK untuk PHP API*. 

### `CreateKey`
<a name="kms_CreateKey_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keySpec
     * @param string $keyUsage
     * @param string $description
     * @return array
     */
    public function createKey(string $keySpec = "", string $keyUsage = "", string $description = "Created by the SDK for PHP")
    {
        $parameters = ['Description' => $description];
        if($keySpec && $keyUsage){
            $parameters['KeySpec'] = $keySpec;
            $parameters['KeyUsage'] = $keyUsage;
        }
        try {
            $result = $this->client->createKey($parameters);
            return $result['KeyMetadata'];
        }catch(KmsException $caught){
            // Check for error specific to createKey operations
            if ($caught->getAwsErrorMessage() == "LimitExceededException"){
                echo "The request was rejected because a quota was exceeded. For more information, see Quotas in the Key Management Service Developer Guide.";
            }
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [CreateKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/CreateKey)di *Referensi AWS SDK untuk PHP API*. 

### `Decrypt`
<a name="kms_Decrypt_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Decrypt`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param string $ciphertext
     * @param string $algorithm
     * @return Result
     */
    public function decrypt(string $keyId, string $ciphertext, string $algorithm = "SYMMETRIC_DEFAULT")
    {
        try{
            return $this->client->decrypt([
                'CiphertextBlob' => $ciphertext,
                'EncryptionAlgorithm' => $algorithm,
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem decrypting the data: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [Mendekripsi](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/Decrypt) di Referensi *AWS SDK untuk PHP API*. 

### `DeleteAlias`
<a name="kms_DeleteAlias_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlias`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $aliasName
     * @return void
     */
    public function deleteAlias(string $aliasName)
    {
        try {
            $this->client->deleteAlias([
                'AliasName' => $aliasName,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem deleting the alias: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [DeleteAlias](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/DeleteAlias)di *Referensi AWS SDK untuk PHP API*. 

### `DescribeKey`
<a name="kms_DescribeKey_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKey`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @return array
     */
    public function describeKey(string $keyId)
    {
        try {
            $result = $this->client->describeKey([
                "KeyId" => $keyId,
            ]);
            return $result['KeyMetadata'];
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "NotFoundException"){
                echo "The request was rejected because the specified entity or resource could not be found.\n";
            }
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [DescribeKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/DescribeKey)di *Referensi AWS SDK untuk PHP API*. 

### `DisableKey`
<a name="kms_DisableKey_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableKey`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @return void
     */
    public function disableKey(string $keyId)
    {
        try {
            $this->client->disableKey([
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem disabling the key: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [DisableKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/DisableKey)di *Referensi AWS SDK untuk PHP API*. 

### `EnableKey`
<a name="kms_EnableKey_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableKey`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @return void
     */
    public function enableKey(string $keyId)
    {
        try {
            $this->client->enableKey([
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "NotFoundException"){
                echo "The request was rejected because the specified entity or resource could not be found.\n";
            }
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [EnableKey](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/EnableKey)di *Referensi AWS SDK untuk PHP API*. 

### `Encrypt`
<a name="kms_Encrypt_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Encrypt`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param string $text
     * @return Result
     */
    public function encrypt(string $keyId, string $text)
    {
        try {
            return $this->client->encrypt([
                'KeyId' => $keyId,
                'Plaintext' => $text,
            ]);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "DisabledException"){
                echo "The request was rejected because the specified KMS key is not enabled.\n";
            }
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [Enkripsi](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/Encrypt) di *Referensi AWS SDK untuk PHP API*. 

### `ListAliases`
<a name="kms_ListAliases_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAliases`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param int $limit
     * @return ResultPaginator
     */
    public function listAliases(string $keyId = "", int $limit = 0)
    {
        $args = [];
        if($keyId){
            $args['KeyId'] = $keyId;
        }
        if($limit){
            $args['Limit'] = $limit;
        }
        try{
            return $this->client->getPaginator("ListAliases", $args);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "InvalidMarkerException"){
                echo "The request was rejected because the marker that specifies where pagination should next begin is not valid.\n";
            }
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [ListAliases](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ListAliases)di *Referensi AWS SDK untuk PHP API*. 

### `ListGrants`
<a name="kms_ListGrants_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGrants`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @return Result
     */
    public function listGrants(string $keyId)
    {
        try{
            return $this->client->listGrants([
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            if($caught->getAwsErrorMessage() == "NotFoundException"){
                echo "    The request was rejected because the specified entity or resource could not be found.\n";
            }
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [ListGrants](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ListGrants)di *Referensi AWS SDK untuk PHP API*. 

### `ListKeys`
<a name="kms_ListKeys_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeys`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @return array
     */
    public function listKeys()
    {
        try {
            $contents = [];
            $paginator = $this->client->getPaginator("ListKeys");
            foreach($paginator as $result){
                foreach ($result['Content'] as $object) {
                    $contents[] = $object;
                }
            }
            return $contents;
        }catch(KmsException $caught){
            echo "There was a problem listing the keys: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [ListKeys](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ListKeys)di *Referensi AWS SDK untuk PHP API*. 

### `PutKeyPolicy`
<a name="kms_PutKeyPolicy_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutKeyPolicy`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param string $policy
     * @return void
     */
    public function putKeyPolicy(string $keyId, string $policy)
    {
        try {
            $this->client->putKeyPolicy([
                'KeyId' => $keyId,
                'Policy' => $policy,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem replacing the key policy: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [PutKeyPolicy](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/PutKeyPolicy)di *Referensi AWS SDK untuk PHP API*. 

### `RevokeGrant`
<a name="kms_RevokeGrant_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RevokeGrant`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $grantId
     * @param string $keyId
     * @return void
     */
    public function revokeGrant(string $grantId, string $keyId)
    {
        try{
            $this->client->revokeGrant([
                'GrantId' => $grantId,
                'KeyId' => $keyId,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem with revoking the grant: {$caught->getAwsErrorMessage()}.\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [RevokeGrant](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/RevokeGrant)di *Referensi AWS SDK untuk PHP API*. 

### `ScheduleKeyDeletion`
<a name="kms_ScheduleKeyDeletion_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ScheduleKeyDeletion`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param int $pendingWindowInDays
     * @return void
     */
    public function scheduleKeyDeletion(string $keyId, int $pendingWindowInDays = 7)
    {
        try {
            $this->client->scheduleKeyDeletion([
                'KeyId' => $keyId,
                'PendingWindowInDays' => $pendingWindowInDays,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem scheduling the key deletion: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [ScheduleKeyDeletion](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/ScheduleKeyDeletion)di *Referensi AWS SDK untuk PHP API*. 

### `Sign`
<a name="kms_Sign_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Sign`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param string $message
     * @param string $algorithm
     * @return Result
     */
    public function sign(string $keyId, string $message, string $algorithm)
    {
        try {
            return $this->client->sign([
                'KeyId' => $keyId,
                'Message' => $message,
                'SigningAlgorithm' => $algorithm,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem signing the data: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat *Referensi AWS SDK untuk PHP API* [Masuk](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/Sign). 

### `TagResource`
<a name="kms_TagResource_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/kms#code-examples). 

```
    /***
     * @param string $keyId
     * @param array $tags
     * @return void
     */
    public function tagResource(string $keyId, array $tags)
    {
        try {
            $this->client->tagResource([
                'KeyId' => $keyId,
                'Tags' => $tags,
            ]);
        }catch(KmsException $caught){
            echo "There was a problem applying the tag(s): {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
    }
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/goto/SdkForPHPV3/kms-2014-11-01/TagResource)di *Referensi AWS SDK untuk PHP API*. 

# Contoh Lambda menggunakan SDK for PHP
<a name="php_3_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Lambda AWS SDK untuk PHP with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/lambda#code-examples). 

```
namespace Lambda;

use Aws\S3\S3Client;
use GuzzleHttp\Psr7\Stream;
use Iam\IAMService;

class GettingStartedWithLambda
{
    public function run()
    {
        echo("\n");
        echo("--------------------------------------\n");
        print("Welcome to the AWS Lambda getting started demo using PHP!\n");
        echo("--------------------------------------\n");

        $clientArgs = [
            'region' => 'us-west-2',
            'version' => 'latest',
            'profile' => 'default',
        ];
        $uniqid = uniqid();

        $iamService = new IAMService();
        $s3client = new S3Client($clientArgs);
        $lambdaService = new LambdaService();

        echo "First, let's create a role to run our Lambda code.\n";
        $roleName = "test-lambda-role-$uniqid";
        $rolePolicyDocument = "{
            \"Version\": \"2012-10-17\",
            \"Statement\": [
                {
                    \"Effect\": \"Allow\",
                    \"Principal\": {
                        \"Service\": \"lambda.amazonaws.com\"
                    },
                    \"Action\": \"sts:AssumeRole\"
                }
            ]
        }";
        $role = $iamService->createRole($roleName, $rolePolicyDocument);
        echo "Created role {$role['RoleName']}.\n";

        $iamService->attachRolePolicy(
            $role['RoleName'],
            "arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole"
        );
        echo "Attached the AWSLambdaBasicExecutionRole to {$role['RoleName']}.\n";

        echo "\nNow let's create an S3 bucket and upload our Lambda code there.\n";
        $bucketName = "amzn-s3-demo-bucket-$uniqid";
        $s3client->createBucket([
            'Bucket' => $bucketName,
        ]);
        echo "Created bucket $bucketName.\n";

        $functionName = "doc_example_lambda_$uniqid";
        $codeBasic = __DIR__ . "/lambda_handler_basic.zip";
        $handler = "lambda_handler_basic";
        $file = file_get_contents($codeBasic);
        $s3client->putObject([
            'Bucket' => $bucketName,
            'Key' => $functionName,
            'Body' => $file,
        ]);
        echo "Uploaded the Lambda code.\n";

        $createLambdaFunction = $lambdaService->createFunction($functionName, $role, $bucketName, $handler);
        // Wait until the function has finished being created.
        do {
            $getLambdaFunction = $lambdaService->getFunction($createLambdaFunction['FunctionName']);
        } while ($getLambdaFunction['Configuration']['State'] == "Pending");
        echo "Created Lambda function {$getLambdaFunction['Configuration']['FunctionName']}.\n";

        sleep(1);

        echo "\nOk, let's invoke that Lambda code.\n";
        $basicParams = [
            'action' => 'increment',
            'number' => 3,
        ];
        /** @var Stream $invokeFunction */
        $invokeFunction = $lambdaService->invoke($functionName, $basicParams)['Payload'];
        $result = json_decode($invokeFunction->getContents())->result;
        echo "After invoking the Lambda code with the input of {$basicParams['number']} we received $result.\n";

        echo "\nSince that's working, let's update the Lambda code.\n";
        $codeCalculator = "lambda_handler_calculator.zip";
        $handlerCalculator = "lambda_handler_calculator";
        echo "First, put the new code into the S3 bucket.\n";
        $file = file_get_contents($codeCalculator);
        $s3client->putObject([
            'Bucket' => $bucketName,
            'Key' => $functionName,
            'Body' => $file,
        ]);
        echo "New code uploaded.\n";

        $lambdaService->updateFunctionCode($functionName, $bucketName, $functionName);
        // Wait for the Lambda code to finish updating.
        do {
            $getLambdaFunction = $lambdaService->getFunction($createLambdaFunction['FunctionName']);
        } while ($getLambdaFunction['Configuration']['LastUpdateStatus'] !== "Successful");
        echo "New Lambda code uploaded.\n";

        $environment = [
            'Variable' => ['Variables' => ['LOG_LEVEL' => 'DEBUG']],
        ];
        $lambdaService->updateFunctionConfiguration($functionName, $handlerCalculator, $environment);
        do {
            $getLambdaFunction = $lambdaService->getFunction($createLambdaFunction['FunctionName']);
        } while ($getLambdaFunction['Configuration']['LastUpdateStatus'] !== "Successful");
        echo "Lambda code updated with new handler and a LOG_LEVEL of DEBUG for more information.\n";

        echo "Invoke the new code with some new data.\n";
        $calculatorParams = [
            'action' => 'plus',
            'x' => 5,
            'y' => 4,
        ];
        $invokeFunction = $lambdaService->invoke($functionName, $calculatorParams, "Tail");
        $result = json_decode($invokeFunction['Payload']->getContents())->result;
        echo "Indeed, {$calculatorParams['x']} + {$calculatorParams['y']} does equal $result.\n";
        echo "Here's the extra debug info: ";
        echo base64_decode($invokeFunction['LogResult']) . "\n";

        echo "\nBut what happens if you try to divide by zero?\n";
        $divZeroParams = [
            'action' => 'divide',
            'x' => 5,
            'y' => 0,
        ];
        $invokeFunction = $lambdaService->invoke($functionName, $divZeroParams, "Tail");
        $result = json_decode($invokeFunction['Payload']->getContents())->result;
        echo "You get a |$result| result.\n";
        echo "And an error message: ";
        echo base64_decode($invokeFunction['LogResult']) . "\n";

        echo "\nHere's all the Lambda functions you have in this Region:\n";
        $listLambdaFunctions = $lambdaService->listFunctions(5);
        $allLambdaFunctions = $listLambdaFunctions['Functions'];
        $next = $listLambdaFunctions->get('NextMarker');
        while ($next != false) {
            $listLambdaFunctions = $lambdaService->listFunctions(5, $next);
            $next = $listLambdaFunctions->get('NextMarker');
            $allLambdaFunctions = array_merge($allLambdaFunctions, $listLambdaFunctions['Functions']);
        }
        foreach ($allLambdaFunctions as $function) {
            echo "{$function['FunctionName']}\n";
        }

        echo "\n\nAnd don't forget to clean up your data!\n";

        $lambdaService->deleteFunction($functionName);
        echo "Deleted Lambda function.\n";
        $iamService->deleteRole($role['RoleName']);
        echo "Deleted Role.\n";
        $deleteObjects = $s3client->listObjectsV2([
            'Bucket' => $bucketName,
        ]);
        $deleteObjects = $s3client->deleteObjects([
            'Bucket' => $bucketName,
            'Delete' => [
                'Objects' => $deleteObjects['Contents'],
            ]
        ]);
        echo "Deleted all objects from the S3 bucket.\n";
        $s3client->deleteBucket(['Bucket' => $bucketName]);
        echo "Deleted the bucket.\n";
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [CreateFunction](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/CreateFunction)
  + [DeleteFunction](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/DeleteFunction)
  + [GetFunction](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/GetFunction)
  + [Memohon](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/Invoke)
  + [ListFunctions](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/ListFunctions)
  + [UpdateFunctionCode](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/UpdateFunctionCode)
  + [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/UpdateFunctionConfiguration)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/lambda#code-examples). 

```
    public function createFunction($functionName, $role, $bucketName, $handler)
    {
        //This assumes the Lambda function is in an S3 bucket.
        return $this->customWaiter(function () use ($functionName, $role, $bucketName, $handler) {
            return $this->lambdaClient->createFunction([
                'Code' => [
                    'S3Bucket' => $bucketName,
                    'S3Key' => $functionName,
                ],
                'FunctionName' => $functionName,
                'Role' => $role['Arn'],
                'Runtime' => 'python3.9',
                'Handler' => "$handler.lambda_handler",
            ]);
        });
    }
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/CreateFunction)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/lambda#code-examples). 

```
    public function deleteFunction($functionName)
    {
        return $this->lambdaClient->deleteFunction([
            'FunctionName' => $functionName,
        ]);
    }
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/DeleteFunction)di *Referensi AWS SDK untuk PHP API*. 

### `GetFunction`
<a name="lambda_GetFunction_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/lambda#code-examples). 

```
    public function getFunction($functionName)
    {
        return $this->lambdaClient->getFunction([
            'FunctionName' => $functionName,
        ]);
    }
```
+  Untuk detail API, lihat [GetFunction](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/GetFunction)di *Referensi AWS SDK untuk PHP API*. 

### `Invoke`
<a name="lambda_Invoke_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/lambda#code-examples). 

```
    public function invoke($functionName, $params, $logType = 'None')
    {
        return $this->lambdaClient->invoke([
            'FunctionName' => $functionName,
            'Payload' => json_encode($params),
            'LogType' => $logType,
        ]);
    }
```
+  Untuk detail API, lihat [Memanggil di Referensi AWS SDK untuk PHP](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/Invoke) *API*. 

### `ListFunctions`
<a name="lambda_ListFunctions_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/lambda#code-examples). 

```
    public function listFunctions($maxItems = 50, $marker = null)
    {
        if (is_null($marker)) {
            return $this->lambdaClient->listFunctions([
                'MaxItems' => $maxItems,
            ]);
        }

        return $this->lambdaClient->listFunctions([
            'Marker' => $marker,
            'MaxItems' => $maxItems,
        ]);
    }
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/ListFunctions)di *Referensi AWS SDK untuk PHP API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/lambda#code-examples). 

```
    public function updateFunctionCode($functionName, $s3Bucket, $s3Key)
    {
        return $this->lambdaClient->updateFunctionCode([
            'FunctionName' => $functionName,
            'S3Bucket' => $s3Bucket,
            'S3Key' => $s3Key,
        ]);
    }
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/UpdateFunctionCode)di *Referensi AWS SDK untuk PHP API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/lambda#code-examples). 

```
    public function updateFunctionConfiguration($functionName, $handler, $environment = '')
    {
        return $this->lambdaClient->updateFunctionConfiguration([
            'FunctionName' => $functionName,
            'Handler' => "$handler.lambda_handler",
            'Environment' => $environment,
        ]);
    }
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/SdkForPHPV3/lambda-2015-03-31/UpdateFunctionConfiguration)di *Referensi AWS SDK untuk PHP API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk PHP**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/applications/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan PHP.  

```
<?php
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\Handler as StdHandler;
use Bref\Logger\StderrLogger;
use Aws\Rds\AuthTokenGenerator;
use Aws\Credentials\CredentialProvider;

require __DIR__ . '/vendor/autoload.php';

class Handler implements StdHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }


    private function getAuthToken(): string {
        // Define connection authentication parameters
        $dbConnection = [
            'hostname' => getenv('DB_HOSTNAME'),
            'port' => getenv('DB_PORT'),
            'username' => getenv('DB_USERNAME'),
            'region' => getenv('AWS_REGION'),
        ];

        // Create RDS AuthTokenGenerator object
        $generator = new AuthTokenGenerator(CredentialProvider::defaultProvider());

        // Request authorization token from RDS, specifying the username
        return $generator->createToken(
            $dbConnection['hostname'] . ':' . $dbConnection['port'],
            $dbConnection['region'],
            $dbConnection['username']
        );
    }

    private function getQueryResults() {
        // Obtain auth token
        $token = $this->getAuthToken();

        // Define connection configuration
        $connectionConfig = [
            'host' => getenv('DB_HOSTNAME'),
            'user' => getenv('DB_USERNAME'),
            'password' => $token,
            'database' => getenv('DB_NAME'),
        ];

        // Create the connection to the DB
        $conn = new PDO(
            "mysql:host={$connectionConfig['host']};dbname={$connectionConfig['database']}",
            $connectionConfig['user'],
            $connectionConfig['password'],
            [
                PDO::MYSQL_ATTR_SSL_CA => '/path/to/rds-ca-2019-root.pem',
                PDO::MYSQL_ATTR_SSL_VERIFY_SERVER_CERT => true,
            ]
        );

        // Obtain the result of the query
        $stmt = $conn->prepare('SELECT ?+? AS sum');
        $stmt->execute([3, 2]);

        return $stmt->fetch(PDO::FETCH_ASSOC);
    }

    /**
     * @param mixed $event
     * @param Context $context
     * @return array
     */
    public function handle(mixed $event, Context $context): array
    {
        $this->logger->info("Processing query");

        // Execute database flow
        $result = $this->getQueryResults();

        return [
            'sum' => $result['sum']
        ];
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\Kinesis\KinesisEvent;
use Bref\Event\Kinesis\KinesisHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler extends KinesisHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handleKinesis(KinesisEvent $event, Context $context): void
    {
        $this->logger->info("Processing records");
        $records = $event->getRecords();
        foreach ($records as $record) {
            $data = $record->getData();
            $this->logger->info(json_encode($data));
            // TODO: Do interesting work based on the new data

            // Any exception thrown will be logged and the invocation will be marked as failed
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords records");
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil muatan DynamoDB dan mencatat isi catatan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan PHP.  

```
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\DynamoDb\DynamoDbEvent;
use Bref\Event\DynamoDb\DynamoDbHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler extends DynamoDbHandler
{
    private StderrLogger $logger;

    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handleDynamoDb(DynamoDbEvent $event, Context $context): void
    {
        $this->logger->info("Processing DynamoDb table items");
        $records = $event->getRecords();

        foreach ($records as $record) {
            $eventName = $record->getEventName();
            $keys = $record->getKeys();
            $old = $record->getOldImage();
            $new = $record->getNewImage();
            
            $this->logger->info("Event Name:".$eventName."\n");
            $this->logger->info("Keys:". json_encode($keys)."\n");
            $this->logger->info("Old Image:". json_encode($old)."\n");
            $this->logger->info("New Image:". json_encode($new));
            
            // TODO: Do interesting work based on the new data

            // Any exception thrown will be logged and the invocation will be marked as failed
        }

        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords items");
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan PHP.  

```
<?php

require __DIR__.'/vendor/autoload.php';

use Bref\Context\Context;
use Bref\Event\Handler;

class DocumentDBEventHandler implements Handler
{
    public function handle($event, Context $context): string
    {

        $events = $event['events'] ?? [];
        foreach ($events as $record) {
            $this->logDocumentDBEvent($record['event']);
        }
        return 'OK';
    }

    private function logDocumentDBEvent($event): void
    {
        // Extract information from the event record

        $operationType = $event['operationType'] ?? 'Unknown';
        $db = $event['ns']['db'] ?? 'Unknown';
        $collection = $event['ns']['coll'] ?? 'Unknown';
        $fullDocument = $event['fullDocument'] ?? [];

        // Log the event details

        echo "Operation type: $operationType\n";
        echo "Database: $db\n";
        echo "Collection: $collection\n";
        echo "Full document: " . json_encode($fullDocument, JSON_PRETTY_PRINT) . "\n";
    }
}
return new DocumentDBEventHandler();
```

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan PHP.  

```
<?php
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0

// using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\Kafka\KafkaEvent;
use Bref\Event\Handler as StdHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler implements StdHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handle(mixed $event, Context $context): void
    {
        $kafkaEvent = new KafkaEvent($event);
        $this->logger->info("Processing records");
        $records = $kafkaEvent->getRecords();

        foreach ($records as $record) {
            try {
                $key = $record->getKey();
                $this->logger->info("Key: $key");

                $values = $record->getValue();
                $this->logger->info(json_encode($values));

                foreach ($values as $value) {
                    $this->logger->info("Value: $value");
                }
                
            } catch (Exception $e) {
                $this->logger->error($e->getMessage());
            }
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords records");
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Mengkonsumsi acara S3 dengan Lambda menggunakan PHP.  

```
<?php

use Bref\Context\Context;
use Bref\Event\S3\S3Event;
use Bref\Event\S3\S3Handler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';


class Handler extends S3Handler 
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }
    
    public function handleS3(S3Event $event, Context $context) : void
    {
        $this->logger->info("Processing S3 records");

        // Get the object from the event and show its content type
        $records = $event->getRecords();
        
        foreach ($records as $record) 
        {
            $bucket = $record->getBucket()->getName();
            $key = urldecode($record->getObject()->getKey());

            try {
                $fileSize = urldecode($record->getObject()->getSize());
                echo "File Size: " . $fileSize . "\n";
                // TODO: Implement your custom processing logic here
            } catch (Exception $e) {
                echo $e->getMessage() . "\n";
                echo 'Error getting object ' . $key . ' from bucket ' . $bucket . '. Make sure they exist and your bucket is in the same region as this function.' . "\n";
                throw $e;
            }
        }
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

/* 
Since native PHP support for AWS Lambda is not available, we are utilizing Bref's PHP functions runtime for AWS Lambda.
For more information on Bref's PHP runtime for Lambda, refer to: https://bref.sh/docs/runtimes/function

Another approach would be to create a custom runtime. 
A practical example can be found here: https://aws.amazon.com/blogs/apn/aws-lambda-custom-runtime-for-php-a-practical-example/
*/

// Additional composer packages may be required when using Bref or any other PHP functions runtime.
// require __DIR__ . '/vendor/autoload.php';

use Bref\Context\Context;
use Bref\Event\Sns\SnsEvent;
use Bref\Event\Sns\SnsHandler;

class Handler extends SnsHandler
{
    public function handleSns(SnsEvent $event, Context $context): void
    {
        foreach ($event->getRecords() as $record) {
            $message = $record->getMessage();

            // TODO: Implement your custom processing logic here
            // Any exception thrown will be logged and the invocation will be marked as failed

            echo "Processed Message: $message" . PHP_EOL;
        }
    }
}

return new Handler();
```

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\InvalidLambdaEvent;
use Bref\Event\Sqs\SqsEvent;
use Bref\Event\Sqs\SqsHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler extends SqsHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws InvalidLambdaEvent
     */
    public function handleSqs(SqsEvent $event, Context $context): void
    {
        foreach ($event->getRecords() as $record) {
            $body = $record->getBody();
            // TODO: Do interesting work based on the new message
        }
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\Kinesis\KinesisEvent;
use Bref\Event\Handler as StdHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler implements StdHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handle(mixed $event, Context $context): array
    {
        $kinesisEvent = new KinesisEvent($event);
        $this->logger->info("Processing records");
        $records = $kinesisEvent->getRecords();

        $failedRecords = [];
        foreach ($records as $record) {
            try {
                $data = $record->getData();
                $this->logger->info(json_encode($data));
                // TODO: Do interesting work based on the new data
            } catch (Exception $e) {
                $this->logger->error($e->getMessage());
                // failed processing the record
                $failedRecords[] = $record->getSequenceNumber();
            }
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords records");

        // change format for the response
        $failures = array_map(
            fn(string $sequenceNumber) => ['itemIdentifier' => $sequenceNumber],
            $failedRecords
        );

        return [
            'batchItemFailures' => $failures
        ];
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan PHP.  

```
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\DynamoDb\DynamoDbEvent;
use Bref\Event\Handler as StdHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler implements StdHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handle(mixed $event, Context $context): array
    {
        $dynamoDbEvent = new DynamoDbEvent($event);
        $this->logger->info("Processing records");

        $records = $dynamoDbEvent->getRecords();
        $failedRecords = [];
        foreach ($records as $record) {
            try {
                $data = $record->getData();
                $this->logger->info(json_encode($data));
                // TODO: Do interesting work based on the new data
            } catch (Exception $e) {
                $this->logger->error($e->getMessage());
                // failed processing the record
                $failedRecords[] = $record->getSequenceNumber();
            }
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords records");

        // change format for the response
        $failures = array_map(
            fn(string $sequenceNumber) => ['itemIdentifier' => $sequenceNumber],
            $failedRecords
        );

        return [
            'batchItemFailures' => $failures
        ];
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

use Bref\Context\Context;
use Bref\Event\Sqs\SqsEvent;
use Bref\Event\Sqs\SqsHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler extends SqsHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handleSqs(SqsEvent $event, Context $context): void
    {
        $this->logger->info("Processing SQS records");
        $records = $event->getRecords();

        foreach ($records as $record) {
            try {
                // Assuming the SQS message is in JSON format
                $message = json_decode($record->getBody(), true);
                $this->logger->info(json_encode($message));
                // TODO: Implement your custom processing logic here
            } catch (Exception $e) {
                $this->logger->error($e->getMessage());
                // failed processing the record
                $this->markAsFailed($record);
            }
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords SQS records");
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

# Contoh MSK Amazon menggunakan SDK for PHP
<a name="php_3_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan MSK AWS SDK untuk PHP with Amazon.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan PHP.  

```
<?php
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0

// using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\Kafka\KafkaEvent;
use Bref\Event\Handler as StdHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler implements StdHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handle(mixed $event, Context $context): void
    {
        $kafkaEvent = new KafkaEvent($event);
        $this->logger->info("Processing records");
        $records = $kafkaEvent->getRecords();

        foreach ($records as $record) {
            try {
                $key = $record->getKey();
                $this->logger->info("Key: $key");

                $values = $record->getValue();
                $this->logger->info(json_encode($values));

                foreach ($values as $value) {
                    $this->logger->info("Value: $value");
                }
                
            } catch (Exception $e) {
                $this->logger->error($e->getMessage());
            }
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords records");
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

# Contoh Amazon RDS menggunakan SDK for PHP
<a name="php_3_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP With Amazon RDS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CreateDBInstance`
<a name="rds_CreateDBInstance_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/rds#code-examples). 

```
require __DIR__ . '/vendor/autoload.php';

use Aws\Exception\AwsException;



$rdsClient = new Aws\Rds\RdsClient([
    'region' => 'us-east-2'
]);

$dbIdentifier = '<<{{db-identifier}}>>';
$dbClass = 'db.t2.micro';
$storage = 5;
$engine = 'MySQL';
$username = 'MyUser';
$password = 'MyPassword';

try {
    $result = $rdsClient->createDBInstance([
        'DBInstanceIdentifier' => $dbIdentifier,
        'DBInstanceClass' => $dbClass,
        'AllocatedStorage' => $storage,
        'Engine' => $engine,
        'MasterUsername' => $username,
        'MasterUserPassword' => $password,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    echo $e->getMessage();
    echo "\n";
}
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/SdkForPHPV3/rds-2014-10-31/CreateDBInstance) di *Referensi AWS SDK untuk PHP API*. 

### `CreateDBSnapshot`
<a name="rds_CreateDBSnapshot_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSnapshot`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/rds#code-examples). 

```
require __DIR__ . '/vendor/autoload.php';

use Aws\Exception\AwsException;



$rdsClient = new Aws\Rds\RdsClient([
    'region' => 'us-east-2'
]);

$dbIdentifier = '<<{{db-identifier}}>>';
$snapshotName = '<<{{backup_2018_12_25}}>>';

try {
    $result = $rdsClient->createDBSnapshot([
        'DBInstanceIdentifier' => $dbIdentifier,
        'DBSnapshotIdentifier' => $snapshotName,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    echo $e->getMessage();
    echo "\n";
}
```
+  Untuk detail API, lihat [Membuat DBSnapshot](https://docs.aws.amazon.com/goto/SdkForPHPV3/rds-2014-10-31/CreateDBSnapshot) di *Referensi AWS SDK untuk PHP API*. 

### `DeleteDBInstance`
<a name="rds_DeleteDBInstance_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/rds#code-examples). 

```
require __DIR__ . '/vendor/autoload.php';

use Aws\Exception\AwsException;


//Create an RDSClient
$rdsClient = new Aws\Rds\RdsClient([
    'region' => 'us-east-1'
]);

$dbIdentifier = '<<{{db-identifier}}>>';

try {
    $result = $rdsClient->deleteDBInstance([
        'DBInstanceIdentifier' => $dbIdentifier,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    echo $e->getMessage();
    echo "\n";
}
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/SdkForPHPV3/rds-2014-10-31/DeleteDBInstance) di *Referensi AWS SDK untuk PHP API*. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/rds#code-examples). 

```
require __DIR__ . '/vendor/autoload.php';

use Aws\Exception\AwsException;


//Create an RDSClient
$rdsClient = new Aws\Rds\RdsClient([
    'region' => 'us-east-2'
]);

try {
    $result = $rdsClient->describeDBInstances();
    foreach ($result['DBInstances'] as $instance) {
        print('<p>DB Identifier: ' . $instance['DBInstanceIdentifier']);
        print('<br />Endpoint: ' . $instance['Endpoint']["Address"]
            . ':' . $instance['Endpoint']["Port"]);
        print('<br />Current Status: ' . $instance["DBInstanceStatus"]);
        print('</p>');
    }
    print(" Raw Result ");
    var_dump($result);
} catch (AwsException $e) {
    echo $e->getMessage();
    echo "\n";
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForPHPV3/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk PHP API*. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk PHP**  
 Menunjukkan cara menggunakan AWS SDK untuk PHP untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon RDS dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan front end yang dibangun dengan React.js untuk berinteraksi dengan backend RESTful PHP.   
+ Integrasikan aplikasi web React.js dengan AWS layanan.
+ Cantumkan, tambahkan, perbarui, dan hapus butir di tabel Amazon RDS.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/cross_service/aurora_item_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan PHP.  

```
<?php
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\Handler as StdHandler;
use Bref\Logger\StderrLogger;
use Aws\Rds\AuthTokenGenerator;
use Aws\Credentials\CredentialProvider;

require __DIR__ . '/vendor/autoload.php';

class Handler implements StdHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }


    private function getAuthToken(): string {
        // Define connection authentication parameters
        $dbConnection = [
            'hostname' => getenv('DB_HOSTNAME'),
            'port' => getenv('DB_PORT'),
            'username' => getenv('DB_USERNAME'),
            'region' => getenv('AWS_REGION'),
        ];

        // Create RDS AuthTokenGenerator object
        $generator = new AuthTokenGenerator(CredentialProvider::defaultProvider());

        // Request authorization token from RDS, specifying the username
        return $generator->createToken(
            $dbConnection['hostname'] . ':' . $dbConnection['port'],
            $dbConnection['region'],
            $dbConnection['username']
        );
    }

    private function getQueryResults() {
        // Obtain auth token
        $token = $this->getAuthToken();

        // Define connection configuration
        $connectionConfig = [
            'host' => getenv('DB_HOSTNAME'),
            'user' => getenv('DB_USERNAME'),
            'password' => $token,
            'database' => getenv('DB_NAME'),
        ];

        // Create the connection to the DB
        $conn = new PDO(
            "mysql:host={$connectionConfig['host']};dbname={$connectionConfig['database']}",
            $connectionConfig['user'],
            $connectionConfig['password'],
            [
                PDO::MYSQL_ATTR_SSL_CA => '/path/to/rds-ca-2019-root.pem',
                PDO::MYSQL_ATTR_SSL_VERIFY_SERVER_CERT => true,
            ]
        );

        // Obtain the result of the query
        $stmt = $conn->prepare('SELECT ?+? AS sum');
        $stmt->execute([3, 2]);

        return $stmt->fetch(PDO::FETCH_ASSOC);
    }

    /**
     * @param mixed $event
     * @param Context $context
     * @return array
     */
    public function handle(mixed $event, Context $context): array
    {
        $this->logger->info("Processing query");

        // Execute database flow
        $result = $this->getQueryResults();

        return [
            'sum' => $result['sum']
        ];
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

# Contoh Layanan Data Amazon RDS menggunakan SDK for PHP
<a name="php_3_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk PHP dengan menggunakan Layanan Data Amazon RDS.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk PHP**  
 Menunjukkan cara menggunakan AWS SDK untuk PHP untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon RDS dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan front end yang dibangun dengan React.js untuk berinteraksi dengan backend RESTful PHP.   
+ Integrasikan aplikasi web React.js dengan AWS layanan.
+ Cantumkan, tambahkan, perbarui, dan hapus butir di tabel Amazon RDS.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/cross_service/aurora_item_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon Rekognition menggunakan SDK for PHP
<a name="php_3_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP With Amazon Rekognition.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk PHP**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/applications/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

# Contoh Amazon S3 menggunakan SDK for PHP
<a name="php_3_s3_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk PHP dengan menggunakan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_php_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 

```
use Aws\S3\S3Client;

$client = new S3Client(['region' => 'us-west-2']);
$results = $client->listBuckets();
var_dump($results);
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK untuk PHP API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 

```
        echo("\n");
        echo("--------------------------------------\n");
        print("Welcome to the Amazon S3 getting started demo using PHP!\n");
        echo("--------------------------------------\n");

        $region = 'us-west-2';

        $this->s3client = new S3Client([
                'region' => $region,
        ]);
        /* Inline declaration example
        $s3client = new Aws\S3\S3Client(['region' => 'us-west-2']);
        */

        $this->bucketName = "amzn-s3-demo-bucket-" . uniqid();

        try {
            $this->s3client->createBucket([
                'Bucket' => $this->bucketName,
                'CreateBucketConfiguration' => ['LocationConstraint' => $region],
            ]);
            echo "Created bucket named: $this->bucketName \n";
        } catch (Exception $exception) {
            echo "Failed to create bucket $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with bucket creation before continuing.");
        }

        $fileName = __DIR__ . "/local-file-" . uniqid();
        try {
            $this->s3client->putObject([
                'Bucket' => $this->bucketName,
                'Key' => $fileName,
                'SourceFile' => __DIR__ . '/testfile.txt'
            ]);
            echo "Uploaded $fileName to $this->bucketName.\n";
        } catch (Exception $exception) {
            echo "Failed to upload $fileName with error: " . $exception->getMessage();
            exit("Please fix error with file upload before continuing.");
        }

        try {
            $file = $this->s3client->getObject([
                'Bucket' => $this->bucketName,
                'Key' => $fileName,
            ]);
            $body = $file->get('Body');
            $body->rewind();
            echo "Downloaded the file and it begins with: {$body->read(26)}.\n";
        } catch (Exception $exception) {
            echo "Failed to download $fileName from $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with file downloading before continuing.");
        }

        try {
            $folder = "copied-folder";
            $this->s3client->copyObject([
                'Bucket' => $this->bucketName,
                'CopySource' => "$this->bucketName/$fileName",
                'Key' => "$folder/$fileName-copy",
            ]);
            echo "Copied $fileName to $folder/$fileName-copy.\n";
        } catch (Exception $exception) {
            echo "Failed to copy $fileName with error: " . $exception->getMessage();
            exit("Please fix error with object copying before continuing.");
        }

        try {
            $contents = $this->s3client->listObjectsV2([
                'Bucket' => $this->bucketName,
            ]);
            echo "The contents of your bucket are: \n";
            foreach ($contents['Contents'] as $content) {
                echo $content['Key'] . "\n";
            }
        } catch (Exception $exception) {
            echo "Failed to list objects in $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with listing objects before continuing.");
        }

        try {
            $objects = [];
            foreach ($contents['Contents'] as $content) {
                $objects[] = [
                    'Key' => $content['Key'],
                ];
            }
            $this->s3client->deleteObjects([
                'Bucket' => $this->bucketName,
                'Delete' => [
                    'Objects' => $objects,
                ],
            ]);
            $check = $this->s3client->listObjectsV2([
                'Bucket' => $this->bucketName,
            ]);
            if (isset($check['Contents']) && count($check['Contents']) > 0) {
                throw new Exception("Bucket wasn't empty.");
            }
            echo "Deleted all objects and folders from $this->bucketName.\n";
        } catch (Exception $exception) {
            echo "Failed to delete $fileName from $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with object deletion before continuing.");
        }

        try {
            $this->s3client->deleteBucket([
                'Bucket' => $this->bucketName,
            ]);
            echo "Deleted bucket $this->bucketName.\n";
        } catch (Exception $exception) {
            echo "Failed to delete $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with bucket deletion before continuing.");
        }

        echo "Successfully ran the Amazon S3 with PHP demo.\n";
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [CopyObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/DeleteBucket)
  + [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/DeleteObjects)
  + [GetObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/GetObject)
  + [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/ListObjectsV2)
  + [PutObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 
Salinan sederhana dari suatu objek.  

```
        $s3client = new Aws\S3\S3Client(['region' => 'us-west-2']);

        try {
            $folder = "copied-folder";
            $this->s3client->copyObject([
                'Bucket' => $this->bucketName,
                'CopySource' => "$this->bucketName/$fileName",
                'Key' => "$folder/$fileName-copy",
            ]);
            echo "Copied $fileName to $folder/$fileName-copy.\n";
        } catch (Exception $exception) {
            echo "Failed to copy $fileName with error: " . $exception->getMessage();
            exit("Please fix error with object copying before continuing.");
        }
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/CopyObject)di *Referensi AWS SDK untuk PHP API*. 

### `CreateBucket`
<a name="s3_CreateBucket_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 
Buat bucket.  

```
        $s3client = new Aws\S3\S3Client(['region' => 'us-west-2']);

        try {
            $this->s3client->createBucket([
                'Bucket' => $this->bucketName,
                'CreateBucketConfiguration' => ['LocationConstraint' => $region],
            ]);
            echo "Created bucket named: $this->bucketName \n";
        } catch (Exception $exception) {
            echo "Failed to create bucket $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with bucket creation before continuing.");
        }
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/CreateBucket)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 
Hapus bucket kosong.  

```
        $s3client = new Aws\S3\S3Client(['region' => 'us-west-2']);

        try {
            $this->s3client->deleteBucket([
                'Bucket' => $this->bucketName,
            ]);
            echo "Deleted bucket $this->bucketName.\n";
        } catch (Exception $exception) {
            echo "Failed to delete $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with bucket deletion before continuing.");
        }
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/DeleteBucket)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteObject`
<a name="s3_DeleteObject_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 

```
    public function deleteObject(string $bucketName, string $fileName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $fileName], $args);
        try {
            $this->client->deleteObject($parameters);
            if ($this->verbose) {
                echo "Deleted the object named: $fileName from $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete $fileName from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object deletion before continuing.";
            }
            throw $exception;
        }
    }
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/DeleteObject)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 
Hapus satu set objek dari daftar kunci.  

```
        $s3client = new Aws\S3\S3Client(['region' => 'us-west-2']);

        try {
            $objects = [];
            foreach ($contents['Contents'] as $content) {
                $objects[] = [
                    'Key' => $content['Key'],
                ];
            }
            $this->s3client->deleteObjects([
                'Bucket' => $this->bucketName,
                'Delete' => [
                    'Objects' => $objects,
                ],
            ]);
            $check = $this->s3client->listObjectsV2([
                'Bucket' => $this->bucketName,
            ]);
            if (isset($check['Contents']) && count($check['Contents']) > 0) {
                throw new Exception("Bucket wasn't empty.");
            }
            echo "Deleted all objects and folders from $this->bucketName.\n";
        } catch (Exception $exception) {
            echo "Failed to delete $fileName from $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with object deletion before continuing.");
        }
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/DeleteObjects)di *Referensi AWS SDK untuk PHP API*. 

### `GetObject`
<a name="s3_GetObject_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 
Dapatkan objek.  

```
        $s3client = new Aws\S3\S3Client(['region' => 'us-west-2']);

        try {
            $file = $this->s3client->getObject([
                'Bucket' => $this->bucketName,
                'Key' => $fileName,
            ]);
            $body = $file->get('Body');
            $body->rewind();
            echo "Downloaded the file and it begins with: {$body->read(26)}.\n";
        } catch (Exception $exception) {
            echo "Failed to download $fileName from $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with file downloading before continuing.");
        }
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/GetObject)di *Referensi AWS SDK untuk PHP API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 
Buat daftar objek dalam bucket.  

```
        $s3client = new Aws\S3\S3Client(['region' => 'us-west-2']);

        try {
            $contents = $this->s3client->listObjectsV2([
                'Bucket' => $this->bucketName,
            ]);
            echo "The contents of your bucket are: \n";
            foreach ($contents['Contents'] as $content) {
                echo $content['Key'] . "\n";
            }
        } catch (Exception $exception) {
            echo "Failed to list objects in $this->bucketName with error: " . $exception->getMessage();
            exit("Please fix error with listing objects before continuing.");
        }
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/ListObjectsV2) di *Referensi AWS SDK untuk PHP API*. 

### `PutObject`
<a name="s3_PutObject_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 
Unggah objek ke bucket.  

```
        $s3client = new Aws\S3\S3Client(['region' => 'us-west-2']);

        $fileName = __DIR__ . "/local-file-" . uniqid();
        try {
            $this->s3client->putObject([
                'Bucket' => $this->bucketName,
                'Key' => $fileName,
                'SourceFile' => __DIR__ . '/testfile.txt'
            ]);
            echo "Uploaded $fileName to $this->bucketName.\n";
        } catch (Exception $exception) {
            echo "Failed to upload $fileName with error: " . $exception->getMessage();
            exit("Please fix error with file upload before continuing.");
        }
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/PutObject)di *Referensi AWS SDK untuk PHP API*. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3#code-examples). 

```
namespace S3;
use Aws\Exception\AwsException;
use AwsUtilities\PrintableLineBreak;
use AwsUtilities\TestableReadline;
use DateTime;

require 'vendor/autoload.php';

class PresignedURL
{
    use PrintableLineBreak;
    use TestableReadline;

    public function run()
    {
        $s3Service = new S3Service();

        $expiration = new DateTime("+20 minutes");
        $linebreak = $this->getLineBreak();

        echo $linebreak;
        echo ("Welcome to the Amazon S3 presigned URL demo.\n");
        echo $linebreak;

        $bucket = $this->testable_readline("First, please enter the name of the S3 bucket to use: ");
        $key = $this->testable_readline("Next, provide the key of an object in the given bucket: ");
        echo $linebreak;
        $command = $s3Service->getClient()->getCommand('GetObject', [
            'Bucket' => $bucket,
            'Key' => $key,
        ]);
        try {
            $preSignedUrl = $s3Service->preSignedUrl($command, $expiration);
            echo "Your preSignedUrl is \n$preSignedUrl\nand will be good for the next 20 minutes.\n";
            echo $linebreak;
            echo "Thanks for trying the Amazon S3 presigned URL demo.\n";
        } catch (AwsException $exception) {
            echo $linebreak;
            echo "Something went wrong: $exception";
            die();
        }
    }
}

$runner = new PresignedURL();
$runner->run();



namespace S3;

use Aws\CommandInterface;
use Aws\Exception\AwsException;
use Aws\Result;
use Aws\S3\Exception\S3Exception;
use Aws\S3\S3Client;
use AwsUtilities\AWSServiceClass;
use DateTimeInterface;

class S3Service extends AWSServiceClass
{
    protected S3Client $client;
    protected bool $verbose;

    public function __construct(S3Client $client = null, $verbose = false)
    {
        if ($client) {
            $this->client = $client;
        } else {
            $this->client = new S3Client([
                'version' => 'latest',
                'region' => 'us-west-2',
            ]);
        }
        $this->verbose = $verbose;
    }

    public function setVerbose($verbose)
    {
        $this->verbose = $verbose;
    }

    public function isVerbose(): bool
    {
        return $this->verbose;
    }

    public function getClient(): S3Client
    {
        return $this->client;
    }

    public function setClient(S3Client $client)
    {
        $this->client = $client;
    }


    public function emptyAndDeleteBucket($bucketName, array $args = [])
    {
        try {
            $objects = $this->listAllObjects($bucketName, $args);
            $this->deleteObjects($bucketName, $objects, $args);
            if ($this->verbose) {
                echo "Deleted all objects and folders from $bucketName.\n";
            }
            $this->deleteBucket($bucketName, $args);
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete $bucketName with error: {$exception->getMessage()}\n";
                echo "\nPlease fix error with bucket deletion before continuing.\n";
            }
            throw $exception;
        }
    }



    public function createBucket(string $bucketName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName], $args);
        try {
            $this->client->createBucket($parameters);
            if ($this->verbose) {
                echo "Created the bucket named: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to create $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with bucket creation before continuing.";
            }
            throw $exception;
        }
    }



    public function putObject(string $bucketName, string $key, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $key], $args);
        try {
            $this->client->putObject($parameters);
            if ($this->verbose) {
                echo "Uploaded the object named: $key to the bucket named: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to create $key in $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object uploading before continuing.";
            }
            throw $exception;
        }
    }



    public function getObject(string $bucketName, string $key, array $args = []): Result
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $key], $args);
        try {
            $object = $this->client->getObject($parameters);
            if ($this->verbose) {
                echo "Downloaded the object named: $key to the bucket named: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to download $key from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object downloading before continuing.";
            }
            throw $exception;
        }
        return $object;
    }



    public function copyObject($bucketName, $key, $copySource, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $key, "CopySource" => $copySource], $args);
        try {
            $this->client->copyObject($parameters);
            if ($this->verbose) {
                echo "Copied the object from: $copySource in $bucketName to: $key.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to copy $copySource in $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object copying before continuing.";
            }
            throw $exception;
        }
    }



    public function listObjects(string $bucketName, $start = 0, $max = 1000, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Marker' => $start, "MaxKeys" => $max], $args);
        try {
            $objects = $this->client->listObjectsV2($parameters);
            if ($this->verbose) {
                echo "Retrieved the list of objects from: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to retrieve the objects from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with list objects before continuing.";
            }
            throw $exception;
        }
        return $objects;
    }



    public function listAllObjects($bucketName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName], $args);

        $contents = [];
        $paginator = $this->client->getPaginator("ListObjectsV2", $parameters);

        foreach ($paginator as $result) {
            if($result['KeyCount'] == 0){
                break;
            }
            foreach ($result['Contents'] as $object) {
                $contents[] = $object;
            }
        }
        return $contents;
    }



    public function deleteObjects(string $bucketName, array $objects, array $args = [])
    {
        $listOfObjects = array_map(
            function ($object) {
                return ['Key' => $object];
            },
            array_column($objects, 'Key')
        );
        if(!$listOfObjects){
            return;
        }

        $parameters = array_merge(['Bucket' => $bucketName, 'Delete' => ['Objects' => $listOfObjects]], $args);
        try {
            $this->client->deleteObjects($parameters);
            if ($this->verbose) {
                echo "Deleted the list of objects from: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete the list of objects from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object deletion before continuing.";
            }
            throw $exception;
        }
    }



    public function deleteBucket(string $bucketName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName], $args);
        try {
            $this->client->deleteBucket($parameters);
            if ($this->verbose) {
                echo "Deleted the bucket named: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with bucket deletion before continuing.";
            }
            throw $exception;
        }
    }



    public function deleteObject(string $bucketName, string $fileName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $fileName], $args);
        try {
            $this->client->deleteObject($parameters);
            if ($this->verbose) {
                echo "Deleted the object named: $fileName from $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete $fileName from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object deletion before continuing.";
            }
            throw $exception;
        }
    }



    public function listBuckets(array $args = [])
    {
        try {
            $buckets = $this->client->listBuckets($args);
            if ($this->verbose) {
                echo "Retrieved all " . count($buckets) . "\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to retrieve bucket list with error: {$exception->getMessage()}\n";
                echo "Please fix error with bucket lists before continuing.";
            }
            throw $exception;
        }
        return $buckets;
    }



    public function preSignedUrl(CommandInterface $command, DateTimeInterface|int|string $expires, array $options = [])
    {
        $request = $this->client->createPresignedRequest($command, $expires, $options);
        try {
            $presignedUrl = (string)$request->getUri();
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to create a presigned url: {$exception->getMessage()}\n";
                echo "Please fix error with presigned urls before continuing.";
            }
            throw $exception;
        }
        return $presignedUrl;
    }



    public function createSession(string $bucketName)
    {
        try{
            $result = $this->client->createSession([
                'Bucket' => $bucketName,
            ]);
            return $result;
        }catch(S3Exception $caught){
            if($caught->getAwsErrorType() == "NoSuchBucket"){
                echo "The specified bucket does not exist.";
            }
            throw $caught;
        }
    }

}
```

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk PHP**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/applications/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Mengkonsumsi acara S3 dengan Lambda menggunakan PHP.  

```
<?php

use Bref\Context\Context;
use Bref\Event\S3\S3Event;
use Bref\Event\S3\S3Handler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';


class Handler extends S3Handler 
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }
    
    public function handleS3(S3Event $event, Context $context) : void
    {
        $this->logger->info("Processing S3 records");

        // Get the object from the event and show its content type
        $records = $event->getRecords();
        
        foreach ($records as $record) 
        {
            $bucket = $record->getBucket()->getName();
            $key = urldecode($record->getObject()->getKey());

            try {
                $fileSize = urldecode($record->getObject()->getSize());
                echo "File Size: " . $fileSize . "\n";
                // TODO: Implement your custom processing logic here
            } catch (Exception $e) {
                echo $e->getMessage() . "\n";
                echo 'Error getting object ' . $key . ' from bucket ' . $bucket . '. Make sure they exist and your bucket is in the same region as this function.' . "\n";
                throw $e;
            }
        }
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

# Contoh Bucket Direktori S3 menggunakan SDK for PHP
<a name="php_3_s3-directory-buckets_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Bucket Direktori AWS SDK untuk PHP with S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3-directory-buckets_Scenario_ExpressBasics_php_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan VPC dan VPC Endpoint.
+ Siapkan Kebijakan, Peran, dan Pengguna untuk bekerja dengan bucket direktori S3 dan kelas penyimpanan S3 Express One Zone.
+ Buat dua Klien S3.
+ Buat dua bucket.
+ Buat objek dan salin.
+ Menunjukkan perbedaan kinerja.
+ Isi ember untuk menunjukkan perbedaan leksikografis.
+ Minta pengguna untuk melihat apakah mereka ingin membersihkan sumber daya.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/s3/express#code-examples). 
Jalankan skenario yang mendemonstrasikan dasar-dasar bucket direktori Amazon S3 dan S3 Express One Zone.  

```
        echo "\n";
        echo "--------------------------------------\n";
        echo "Welcome to the Amazon S3 Express Basics demo using PHP!\n";
        echo "--------------------------------------\n";

        // Change these both of these values to use a different region/availability zone.
        $region = "us-west-2";
        $az = "usw2-az1";

        $this->s3Service = new S3Service(new S3Client(['region' => $region]));
        $this->iamService = new IAMService(new IamClient(['region' => $region]));

        $uuid = uniqid();

        echo <<<INTRO
Let's get started! First, please note that S3 Express One Zone works best when working within the AWS infrastructure,
specifically when working in the same Availability Zone. To see the best results in this example, and when you implement
Directory buckets into your infrastructure, it is best to put your Compute resources in the same AZ as your Directory
bucket.\n
INTRO;
        pressEnter();
        // 1. Configure a gateway VPC endpoint. This is the recommended method to allow S3 Express One Zone traffic without
        // the need to pass through an internet gateway or NAT device.
        echo "\n";
        echo "1. First, we'll set up a new VPC and VPC Endpoint if this program is running in an EC2 instance in the same AZ as your Directory buckets will be.\n";
        $ec2Choice = testable_readline("Are you running this in an EC2 instance located in the same AZ as your intended Directory buckets? Enter Y/y to setup a VPC Endpoint, or N/n/blank to skip this section.");
        if($ec2Choice == "Y" || $ec2Choice == "y") {
            echo "Great! Let's set up a VPC, retrieve the Route Table from it, and create a VPC Endpoint to connect the S3 Client to.\n";
            pressEnter();
            $this->ec2Service = new EC2Service(new Ec2Client(['region' => $region]));
            $cidr = "10.0.0.0/16";
            $vpc = $this->ec2Service->createVpc($cidr);
            $this->resources['vpcId'] = $vpc['VpcId'];

            $this->ec2Service->waitForVpcAvailable($vpc['VpcId']);

            $routeTable = $this->ec2Service->describeRouteTables([], [
                [
                    'Name' => "vpc-id",
                    'Values' => [$vpc['VpcId']],
                ],
            ]);

            $serviceName = "com.amazonaws." . $this->ec2Service->getRegion() . ".s3express";
            $vpcEndpoint = $this->ec2Service->createVpcEndpoint($serviceName, $vpc['VpcId'], [$routeTable[0]]);
            $this->resources['vpcEndpointId'] = $vpcEndpoint['VpcEndpointId'];
        }else{
            echo "Skipping the VPC setup. Don't forget to use this in production!\n";
        }

        // 2. Policies, user, and roles with CDK.
        echo "\n";
        echo "2. Policies, users, and roles with CDK.\n";
        echo "Now, we'll set up some policies, roles, and a user. This user will only have permissions to do S3 Express One Zone actions.\n";
        pressEnter();

        $this->cloudFormationClient = new CloudFormationClient([]);
        $stackName = "cfn-stack-s3-express-basics-" . uniqid();
        $file = file_get_contents(__DIR__ . "/../../../../resources/cfn/s3_express_basics/s3_express_template.yml");
        $result = $this->cloudFormationClient->createStack([
            'StackName' => $stackName,
            'TemplateBody' => $file,
            'Capabilities' => ['CAPABILITY_IAM'],
        ]);
        $waiter = $this->cloudFormationClient->getWaiter("StackCreateComplete", ['StackName' => $stackName]);
        try {
            $waiter->promise()->wait();
        }catch(CloudFormationException $caught){
            echo "Error waiting for the CloudFormation stack to create: {$caught->getAwsErrorMessage()}\n";
            throw $caught;
        }
        $this->resources['stackName'] = $stackName;
        $stackInfo = $this->cloudFormationClient->describeStacks([
            'StackName' => $result['StackId'],
        ]);

        $expressUserName = "";
        $regularUserName = "";
        foreach($stackInfo['Stacks'][0]['Outputs'] as $output) {
            if ($output['OutputKey'] == "RegularUser") {
                $regularUserName = $output['OutputValue'];
            }
            if ($output['OutputKey'] == "ExpressUser") {
                $expressUserName = $output['OutputValue'];
            }
        }
        $regularKey = $this->iamService->createAccessKey($regularUserName);
        $regularCredentials = new Credentials($regularKey['AccessKeyId'], $regularKey['SecretAccessKey']);
        $expressKey = $this->iamService->createAccessKey($expressUserName);
        $expressCredentials = new Credentials($expressKey['AccessKeyId'], $expressKey['SecretAccessKey']);

        // 3. Create an additional client using the credentials with S3 Express permissions.
        echo "\n";
        echo "3. Create an additional client using the credentials with S3 Express permissions.\n";
        echo "This client is created with the credentials associated with the user account with the S3 Express policy attached, so it can perform S3 Express operations.\n";
        pressEnter();
        $s3RegularClient = new S3Client([
            'Region' => $region,
            'Credentials' => $regularCredentials,
        ]);
        $s3RegularService = new S3Service($s3RegularClient);
        $s3ExpressClient = new S3Client([
            'Region' => $region,
            'Credentials' => $expressCredentials,
        ]);
        $s3ExpressService = new S3Service($s3ExpressClient);
        echo "All the roles and policies were created an attached to the user. Then, a new S3 Client and Service were created using that user's credentials.\n";
        echo "We can now use this client to make calls to S3 Express operations. Keeping permissions in mind (and adhering to least-privilege) is crucial to S3 Express.\n";
        pressEnter();

        // 4. Create two buckets.
        echo "\n";
        echo "3. Create two buckets.\n";
        echo "Now we will create a Directory bucket, which is the linchpin of the S3 Express One Zone service.\n";
        echo "Directory buckets behave in different ways from regular S3 buckets, which we will explore here.\n";
        echo "We'll also create a normal bucket, put an object into the normal bucket, and copy it over to the Directory bucket.\n";
        pressEnter();

        // Create a directory bucket. These are different from normal S3 buckets in subtle ways.
        $directoryBucketName = "s3-express-demo-directory-bucket-$uuid--$az--x-s3";
        echo "Now, let's create the actual Directory bucket, as well as a regular bucket.\n";
        pressEnter();
        $s3ExpressService->createBucket($directoryBucketName, [
            'CreateBucketConfiguration' => [
                'Bucket' => [
                    'Type' => "Directory", // This is what causes S3 to create a Directory bucket as opposed to a normal bucket.
                    'DataRedundancy' => "SingleAvailabilityZone",
                ],
                'Location' => [
                    'Name' => $az,
                    'Type' => "AvailabilityZone",
                ],
            ],
        ]);
        $this->resources['directoryBucketName'] = $directoryBucketName;

        // Create a normal bucket.
        $normalBucketName = "normal-bucket-$uuid";
        $s3RegularService->createBucket($normalBucketName);
        $this->resources['normalBucketName'] = $normalBucketName;
        echo "Great! Both buckets were created.\n";
        pressEnter();

        // 5. Create an object and copy it over.
        echo "\n";
        echo "5. Create an object and copy it over.\n";
        echo "We'll create a basic object consisting of some text and upload it to the normal bucket.\n";
        echo "Next, we'll copy the object into the Directory bucket using the regular client.\n";
        echo "This works fine, because Copy operations are not restricted for Directory buckets.\n";
        pressEnter();

        $objectKey = "basic-text-object";
        $s3RegularService->putObject($normalBucketName, $objectKey, $args = ['Body' => "Look Ma, I'm a bucket!"]);
        $this->resources['objectKey'] = $objectKey;

        // Create a session to access the directory bucket. The SDK Client will automatically refresh this as needed.
        $s3ExpressService->createSession($directoryBucketName);
        $s3ExpressService->copyObject($directoryBucketName, $objectKey, "$normalBucketName/$objectKey");

        echo "It worked! It's important to remember the user permissions when interacting with Directory buckets.\n";
        echo "Instead of validating permissions on every call as normal buckets do, Directory buckets utilize the user credentials and session token to validate.\n";
        echo "This allows for much faster connection speeds on every call. For single calls, this is low, but for many concurrent calls, this adds up to a lot of time saved.\n";
        pressEnter();

        // 6. Demonstrate performance difference.
        echo "\n";
        echo "6. Demonstrate performance difference.\n";
        $downloads = 1000;
        echo "Now, let's do a performance test. We'll download the same object from each bucket $downloads times and compare the total time needed. Note: the performance difference will be much more pronounced if this example is run in an EC2 instance in the same AZ as the bucket.\n";
        $downloadChoice = testable_readline("If you would like to download each object $downloads times, press enter. Otherwise, enter a custom amount and press enter.");
        if($downloadChoice && is_numeric($downloadChoice) && $downloadChoice < 1000000){ // A million is enough. I promise.
            $downloads = $downloadChoice;
        }

        // Download the object $downloads times from each bucket and time it to demonstrate the speed difference.
        $directoryStartTime = hrtime(true);
        for($i = 0; $i < $downloads; ++$i){
            $s3ExpressService->getObject($directoryBucketName, $objectKey);
        }
        $directoryEndTime = hrtime(true);
        $directoryTimeDiff = $directoryEndTime - $directoryStartTime;

        $normalStartTime = hrtime(true);
        for($i = 0; $i < $downloads; ++$i){
            $s3RegularService->getObject($normalBucketName, $objectKey);
        }
        $normalEndTime = hrtime(true);
        $normalTimeDiff = $normalEndTime - $normalStartTime;

        echo "The directory bucket took $directoryTimeDiff nanoseconds, while the normal bucket took $normalTimeDiff.\n";
        echo "That's a difference of " . ($normalTimeDiff - $directoryTimeDiff) . " nanoseconds, or " . (($normalTimeDiff - $directoryTimeDiff)/1000000000) . " seconds.\n";
        pressEnter();

        // 7. Populate the buckets to show the lexicographical difference.
        echo "\n";
        echo "7. Populate the buckets to show the lexicographical difference.\n";
        echo "Now let's explore how Directory buckets store objects in a different manner to regular buckets.\n";
        echo "The key is in the name \"Directory!\"\n";
        echo "Where regular buckets store their key/value pairs in a flat manner, Directory buckets use actual directories/folders.\n";
        echo "This allows for more rapid indexing, traversing, and therefore retrieval times!\n";
        echo "The more segmented your bucket is, with lots of directories, sub-directories, and objects, the more efficient it becomes.\n";
        echo "This structural difference also causes ListObjects to behave differently, which can cause unexpected results.\n";
        echo "Let's add a few more objects with layered directories as see how the output of ListObjects changes.\n";
        pressEnter();

        // Populate a few more files in each bucket so that we can use ListObjects and show the difference.
        $otherObject = "other/$objectKey";
        $altObject = "alt/$objectKey";
        $otherAltObject = "other/alt/$objectKey";
        $s3ExpressService->putObject($directoryBucketName, $otherObject);
        $s3RegularService->putObject($normalBucketName, $otherObject);
        $this->resources['otherObject'] = $otherObject;
        $s3ExpressService->putObject($directoryBucketName, $altObject);
        $s3RegularService->putObject($normalBucketName, $altObject);
        $this->resources['altObject'] = $altObject;
        $s3ExpressService->putObject($directoryBucketName, $otherAltObject);
        $s3RegularService->putObject($normalBucketName, $otherAltObject);
        $this->resources['otherAltObject'] = $otherAltObject;

        $listDirectoryBucket = $s3ExpressService->listObjects($directoryBucketName);
        $listNormalBucket = $s3RegularService->listObjects($normalBucketName);

        // Directory bucket content
        echo "Directory bucket content\n";
        foreach($listDirectoryBucket['Contents'] as $result){
            echo $result['Key'] . "\n";
        }

        // Normal bucket content
        echo "\nNormal bucket content\n";
        foreach($listNormalBucket['Contents'] as $result){
            echo $result['Key'] . "\n";
        }

        echo "Notice how the normal bucket lists objects in lexicographical order, while the directory bucket does not. This is because the normal bucket considers the whole \"key\" to be the object identifies, while the directory bucket actually creates directories and uses the object \"key\" as a path to the object.\n";
        pressEnter();

        echo "\n";
        echo "That's it for our tour of the basic operations for S3 Express One Zone.\n";
        $cleanUp = testable_readline("Would you like to delete all the resources created during this demo? Enter Y/y to delete all the resources.");
        if($cleanUp){
            $this->cleanUp();
        }



namespace S3;

use Aws\CommandInterface;
use Aws\Exception\AwsException;
use Aws\Result;
use Aws\S3\Exception\S3Exception;
use Aws\S3\S3Client;
use AwsUtilities\AWSServiceClass;
use DateTimeInterface;

class S3Service extends AWSServiceClass
{
    protected S3Client $client;
    protected bool $verbose;

    public function __construct(S3Client $client = null, $verbose = false)
    {
        if ($client) {
            $this->client = $client;
        } else {
            $this->client = new S3Client([
                'version' => 'latest',
                'region' => 'us-west-2',
            ]);
        }
        $this->verbose = $verbose;
    }

    public function setVerbose($verbose)
    {
        $this->verbose = $verbose;
    }

    public function isVerbose(): bool
    {
        return $this->verbose;
    }

    public function getClient(): S3Client
    {
        return $this->client;
    }

    public function setClient(S3Client $client)
    {
        $this->client = $client;
    }


    public function emptyAndDeleteBucket($bucketName, array $args = [])
    {
        try {
            $objects = $this->listAllObjects($bucketName, $args);
            $this->deleteObjects($bucketName, $objects, $args);
            if ($this->verbose) {
                echo "Deleted all objects and folders from $bucketName.\n";
            }
            $this->deleteBucket($bucketName, $args);
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete $bucketName with error: {$exception->getMessage()}\n";
                echo "\nPlease fix error with bucket deletion before continuing.\n";
            }
            throw $exception;
        }
    }



    public function createBucket(string $bucketName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName], $args);
        try {
            $this->client->createBucket($parameters);
            if ($this->verbose) {
                echo "Created the bucket named: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to create $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with bucket creation before continuing.";
            }
            throw $exception;
        }
    }



    public function putObject(string $bucketName, string $key, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $key], $args);
        try {
            $this->client->putObject($parameters);
            if ($this->verbose) {
                echo "Uploaded the object named: $key to the bucket named: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to create $key in $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object uploading before continuing.";
            }
            throw $exception;
        }
    }



    public function getObject(string $bucketName, string $key, array $args = []): Result
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $key], $args);
        try {
            $object = $this->client->getObject($parameters);
            if ($this->verbose) {
                echo "Downloaded the object named: $key to the bucket named: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to download $key from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object downloading before continuing.";
            }
            throw $exception;
        }
        return $object;
    }



    public function copyObject($bucketName, $key, $copySource, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $key, "CopySource" => $copySource], $args);
        try {
            $this->client->copyObject($parameters);
            if ($this->verbose) {
                echo "Copied the object from: $copySource in $bucketName to: $key.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to copy $copySource in $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object copying before continuing.";
            }
            throw $exception;
        }
    }



    public function listObjects(string $bucketName, $start = 0, $max = 1000, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Marker' => $start, "MaxKeys" => $max], $args);
        try {
            $objects = $this->client->listObjectsV2($parameters);
            if ($this->verbose) {
                echo "Retrieved the list of objects from: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to retrieve the objects from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with list objects before continuing.";
            }
            throw $exception;
        }
        return $objects;
    }



    public function listAllObjects($bucketName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName], $args);

        $contents = [];
        $paginator = $this->client->getPaginator("ListObjectsV2", $parameters);

        foreach ($paginator as $result) {
            if($result['KeyCount'] == 0){
                break;
            }
            foreach ($result['Contents'] as $object) {
                $contents[] = $object;
            }
        }
        return $contents;
    }



    public function deleteObjects(string $bucketName, array $objects, array $args = [])
    {
        $listOfObjects = array_map(
            function ($object) {
                return ['Key' => $object];
            },
            array_column($objects, 'Key')
        );
        if(!$listOfObjects){
            return;
        }

        $parameters = array_merge(['Bucket' => $bucketName, 'Delete' => ['Objects' => $listOfObjects]], $args);
        try {
            $this->client->deleteObjects($parameters);
            if ($this->verbose) {
                echo "Deleted the list of objects from: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete the list of objects from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object deletion before continuing.";
            }
            throw $exception;
        }
    }



    public function deleteBucket(string $bucketName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName], $args);
        try {
            $this->client->deleteBucket($parameters);
            if ($this->verbose) {
                echo "Deleted the bucket named: $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with bucket deletion before continuing.";
            }
            throw $exception;
        }
    }



    public function deleteObject(string $bucketName, string $fileName, array $args = [])
    {
        $parameters = array_merge(['Bucket' => $bucketName, 'Key' => $fileName], $args);
        try {
            $this->client->deleteObject($parameters);
            if ($this->verbose) {
                echo "Deleted the object named: $fileName from $bucketName.\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to delete $fileName from $bucketName with error: {$exception->getMessage()}\n";
                echo "Please fix error with object deletion before continuing.";
            }
            throw $exception;
        }
    }



    public function listBuckets(array $args = [])
    {
        try {
            $buckets = $this->client->listBuckets($args);
            if ($this->verbose) {
                echo "Retrieved all " . count($buckets) . "\n";
            }
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to retrieve bucket list with error: {$exception->getMessage()}\n";
                echo "Please fix error with bucket lists before continuing.";
            }
            throw $exception;
        }
        return $buckets;
    }



    public function preSignedUrl(CommandInterface $command, DateTimeInterface|int|string $expires, array $options = [])
    {
        $request = $this->client->createPresignedRequest($command, $expires, $options);
        try {
            $presignedUrl = (string)$request->getUri();
        } catch (AwsException $exception) {
            if ($this->verbose) {
                echo "Failed to create a presigned url: {$exception->getMessage()}\n";
                echo "Please fix error with presigned urls before continuing.";
            }
            throw $exception;
        }
        return $presignedUrl;
    }



    public function createSession(string $bucketName)
    {
        try{
            $result = $this->client->createSession([
                'Bucket' => $bucketName,
            ]);
            return $result;
        }catch(S3Exception $caught){
            if($caught->getAwsErrorType() == "NoSuchBucket"){
                echo "The specified bucket does not exist.";
            }
            throw $caught;
        }
    }

}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk PHP *.
  + [CopyObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/DeleteBucket)
  + [DeleteObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/DeleteObject)
  + [GetObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/GetObject)
  + [ListObjects](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/ListObjects)
  + [PutObject](https://docs.aws.amazon.com/goto/SdkForPHPV3/s3-2006-03-01/PutObject)

# Amazon SES contoh menggunakan SDK for PHP
<a name="php_3_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk PHP With Amazon SES.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk PHP**  
 Menunjukkan cara menggunakan AWS SDK untuk PHP untuk membuat aplikasi web yang melacak item pekerjaan dalam database Amazon RDS dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan front end yang dibangun dengan React.js untuk berinteraksi dengan backend RESTful PHP.   
+ Integrasikan aplikasi web React.js dengan AWS layanan.
+ Cantumkan, tambahkan, perbarui, dan hapus butir di tabel Amazon RDS.
+ Kirim laporan email tentang butir kerja terfilter dengan menggunakan Amazon SES.
+ Menyebarkan dan mengelola sumber daya contoh dengan AWS CloudFormation skrip yang disertakan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/cross_service/aurora_item_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon SNS menggunakan SDK for PHP
<a name="php_3_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk PHP dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CheckIfPhoneNumberIsOptedOut`
<a name="sns_CheckIfPhoneNumberIsOptedOut_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CheckIfPhoneNumberIsOptedOut`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Indicates whether the phone number owner has opted out of receiving SMS messages from your AWS SNS account.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$phone = '+1XXX5550100';

try {
    $result = $SnSclient->checkIfPhoneNumberIsOptedOut([
        'phoneNumber' => $phone,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk PHP](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/sns-examples-sending-sms.html#check-if-a-phone-number-has-opted-out). 
+  Untuk detail API, lihat [CheckIfPhoneNumberIsOptedOut](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/CheckIfPhoneNumberIsOptedOut)di *Referensi AWS SDK untuk PHP API*. 

### `ConfirmSubscription`
<a name="sns_ConfirmSubscription_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSubscription`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Verifies an endpoint owner's intent to receive messages by
 * validating the token sent to the endpoint by an earlier Subscribe action.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$subscription_token = 'arn:aws:sns:us-east-1:111122223333:MyTopic:123456-abcd-12ab-1234-12ba3dc1234a';
$topic = 'arn:aws:sns:us-east-1:111122223333:MyTopic';

try {
    $result = $SnSclient->confirmSubscription([
        'Token' => $subscription_token,
        'TopicArn' => $topic,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk detail API, lihat [ConfirmSubscription](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/ConfirmSubscription)di *Referensi AWS SDK untuk PHP API*. 

### `CreateTopic`
<a name="sns_CreateTopic_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Create a Simple Notification Service topics in your AWS account at the requested region.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$topicname = 'myTopic';

try {
    $result = $SnSclient->createTopic([
        'Name' => $topicname,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk PHP](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/sns-examples-managing-topics.html#create-a-topic). 
+  Untuk detail API, lihat [CreateTopic](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/CreateTopic)di *Referensi AWS SDK untuk PHP API*. 

### `DeleteTopic`
<a name="sns_DeleteTopic_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Deletes an SNS topic and all its subscriptions.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$topic = 'arn:aws:sns:us-east-1:111122223333:MyTopic';

try {
    $result = $SnSclient->deleteTopic([
        'TopicArn' => $topic,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk detail API, lihat [DeleteTopic](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/DeleteTopic)di *Referensi AWS SDK untuk PHP API*. 

### `GetSMSAttributes`
<a name="sns_GetSMSAttributes_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSMSAttributes`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Get the type of SMS Message sent by default from the AWS SNS service.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

try {
    $result = $SnSclient->getSMSAttributes([
        'attributes' => ['DefaultSMSType'],
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk PHP](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/sns-examples-sending-sms.html#get-sms-attributes). 
+  Untuk detail API, lihat [Dapatkan SMSAttributes](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/GetSMSAttributes) *Referensi AWS SDK untuk PHP API*. 

### `GetTopicAttributes`
<a name="sns_GetTopicAttributes_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTopicAttributes`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$topic = 'arn:aws:sns:us-east-1:111122223333:MyTopic';

try {
    $result = $SnSclient->getTopicAttributes([
        'TopicArn' => $topic,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk detail API, lihat [GetTopicAttributes](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/GetTopicAttributes)di *Referensi AWS SDK untuk PHP API*. 

### `ListPhoneNumbersOptedOut`
<a name="sns_ListPhoneNumbersOptedOut_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPhoneNumbersOptedOut`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Returns a list of phone numbers that are opted out of receiving SMS messages from your AWS SNS account.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

try {
    $result = $SnSclient->listPhoneNumbersOptedOut();
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk PHP](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/sns-examples-sending-sms.html#list-opted-out-phone-numbers). 
+  Untuk detail API, lihat [ListPhoneNumbersOptedOut](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/ListPhoneNumbersOptedOut)di *Referensi AWS SDK untuk PHP API*. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Returns a list of Amazon SNS subscriptions in the requested region.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

try {
    $result = $SnSclient->listSubscriptions();
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk detail API, lihat [ListSubscriptions](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/ListSubscriptions)di *Referensi AWS SDK untuk PHP API*. 

### `ListTopics`
<a name="sns_ListTopics_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Returns a list of the requester's topics from your AWS SNS account in the region specified.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

try {
    $result = $SnSclient->listTopics();
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/ListTopics)di *Referensi AWS SDK untuk PHP API*. 

### `Publish`
<a name="sns_Publish_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Sends a message to an Amazon SNS topic.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$message = 'This message is sent from a Amazon SNS code sample.';
$topic = 'arn:aws:sns:us-east-1:111122223333:MyTopic';

try {
    $result = $SnSclient->publish([
        'Message' => $message,
        'TopicArn' => $topic,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk PHP](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/sns-examples-subscribing-unsubscribing-topics.html#publish-a-message-to-an-sns-topic). 
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/Publish) di *Referensi AWS SDK untuk PHP API*. 

### `SetSMSAttributes`
<a name="sns_SetSMSAttributes_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetSMSAttributes`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

try {
    $result = $SnSclient->SetSMSAttributes([
        'attributes' => [
            'DefaultSMSType' => 'Transactional',
        ],
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk PHP](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/sns-examples-sending-sms.html#set-sms-attributes). 
+  Untuk detail API, lihat [Menyetel SMSAttributes](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/SetSMSAttributes) di *Referensi AWS SDK untuk PHP API*. 

### `SetTopicAttributes`
<a name="sns_SetTopicAttributes_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetTopicAttributes`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Configure the message delivery status attributes for an Amazon SNS Topic.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);
$attribute = 'Policy | DisplayName | DeliveryPolicy';
$value = 'First Topic';
$topic = 'arn:aws:sns:us-east-1:111122223333:MyTopic';

try {
    $result = $SnSclient->setTopicAttributes([
        'AttributeName' => $attribute,
        'AttributeValue' => $value,
        'TopicArn' => $topic,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk detail API, lihat [SetTopicAttributes](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/SetTopicAttributes)di *Referensi AWS SDK untuk PHP API*. 

### `Subscribe`
<a name="sns_Subscribe_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Prepares to subscribe an endpoint by sending the endpoint a confirmation message.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$protocol = 'email';
$endpoint = 'sample@example.com';
$topic = 'arn:aws:sns:us-east-1:111122223333:MyTopic';

try {
    $result = $SnSclient->subscribe([
        'Protocol' => $protocol,
        'Endpoint' => $endpoint,
        'ReturnSubscriptionArn' => true,
        'TopicArn' => $topic,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
Berlangganan titik akhir HTTP ke suatu topik.  

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Prepares to subscribe an endpoint by sending the endpoint a confirmation message.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$protocol = 'https';
$endpoint = 'https://';
$topic = 'arn:aws:sns:us-east-1:111122223333:MyTopic';

try {
    $result = $SnSclient->subscribe([
        'Protocol' => $protocol,
        'Endpoint' => $endpoint,
        'ReturnSubscriptionArn' => true,
        'TopicArn' => $topic,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk detail API, lihat [Berlangganan](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/Subscribe) di *Referensi AWS SDK untuk PHP API*. 

### `Unsubscribe`
<a name="sns_Unsubscribe_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Deletes a subscription to an Amazon SNS topic.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$subscription = 'arn:aws:sns:us-east-1:111122223333:MySubscription';

try {
    $result = $SnSclient->unsubscribe([
        'SubscriptionArn' => $subscription,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk PHP](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/sns-examples-subscribing-unsubscribing-topics.html#unsubscribe-from-a-topic). 
+  Untuk detail API, lihat [Berhenti berlangganan](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/Unsubscribe) di *Referensi AWS SDK untuk PHP API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_php_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK untuk PHP**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/applications/photo_asset_manager).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Publikasikan pesan teks SMS
<a name="sns_PublishTextSMS_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan pesan SMS menggunakan Amazon SNS.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/sns#code-examples). 

```
require 'vendor/autoload.php';

use Aws\Exception\AwsException;
use Aws\Sns\SnsClient;


/**
 * Sends a text message (SMS message) directly to a phone number using Amazon SNS.
 *
 * This code expects that you have AWS credentials set up per:
 * https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/guide_credentials.html
 */

$SnSclient = new SnsClient([
    'profile' => 'default',
    'region' => 'us-east-1',
    'version' => '2010-03-31'
]);

$message = 'This message is sent from a Amazon SNS code sample.';
$phone = '+1XXX5550100';

try {
    $result = $SnSclient->publish([
        'Message' => $message,
        'PhoneNumber' => $phone,
    ]);
    var_dump($result);
} catch (AwsException $e) {
    // output error message if fails
    error_log($e->getMessage());
}
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk PHP](https://docs.aws.amazon.com/sdk-for-php/v3/developer-guide/sns-examples-sending-sms.html#publish-to-a-text-message-sms-message). 
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/SdkForPHPV3/sns-2010-03-31/Publish) di *Referensi AWS SDK untuk PHP API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

/* 
Since native PHP support for AWS Lambda is not available, we are utilizing Bref's PHP functions runtime for AWS Lambda.
For more information on Bref's PHP runtime for Lambda, refer to: https://bref.sh/docs/runtimes/function

Another approach would be to create a custom runtime. 
A practical example can be found here: https://aws.amazon.com/blogs/apn/aws-lambda-custom-runtime-for-php-a-practical-example/
*/

// Additional composer packages may be required when using Bref or any other PHP functions runtime.
// require __DIR__ . '/vendor/autoload.php';

use Bref\Context\Context;
use Bref\Event\Sns\SnsEvent;
use Bref\Event\Sns\SnsHandler;

class Handler extends SnsHandler
{
    public function handleSns(SnsEvent $event, Context $context): void
    {
        foreach ($event->getRecords() as $record) {
            $message = $record->getMessage();

            // TODO: Implement your custom processing logic here
            // Any exception thrown will be logged and the invocation will be marked as failed

            echo "Processed Message: $message" . PHP_EOL;
        }
    }
}

return new Handler();
```

# Contoh Amazon SQS menggunakan SDK for PHP
<a name="php_3_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon SQS. AWS SDK untuk PHP 

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_php_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter peristiwa dan mencatat konten setiap pesan.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

# using bref/bref and bref/logger for simplicity

use Bref\Context\Context;
use Bref\Event\InvalidLambdaEvent;
use Bref\Event\Sqs\SqsEvent;
use Bref\Event\Sqs\SqsHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler extends SqsHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws InvalidLambdaEvent
     */
    public function handleSqs(SqsEvent $event, Context $context): void
    {
        foreach ($event->getRecords() as $record) {
            $body = $record->getBody();
            // TODO: Do interesting work based on the new message
        }
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_php_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk PHP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan PHP.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
<?php

use Bref\Context\Context;
use Bref\Event\Sqs\SqsEvent;
use Bref\Event\Sqs\SqsHandler;
use Bref\Logger\StderrLogger;

require __DIR__ . '/vendor/autoload.php';

class Handler extends SqsHandler
{
    private StderrLogger $logger;
    public function __construct(StderrLogger $logger)
    {
        $this->logger = $logger;
    }

    /**
     * @throws JsonException
     * @throws \Bref\Event\InvalidLambdaEvent
     */
    public function handleSqs(SqsEvent $event, Context $context): void
    {
        $this->logger->info("Processing SQS records");
        $records = $event->getRecords();

        foreach ($records as $record) {
            try {
                // Assuming the SQS message is in JSON format
                $message = json_decode($record->getBody(), true);
                $this->logger->info(json_encode($message));
                // TODO: Implement your custom processing logic here
            } catch (Exception $e) {
                $this->logger->error($e->getMessage());
                // failed processing the record
                $this->markAsFailed($record);
            }
        }
        $totalRecords = count($records);
        $this->logger->info("Successfully processed $totalRecords SQS records");
    }
}

$logger = new StderrLogger();
return new Handler($logger);
```

# Contoh kode untuk Alat untuk PowerShell V4
<a name="powershell_4_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan Alat AWS untuk PowerShell V4 dengan AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[Alat untuk Panduan Pengembang PowerShell V4](https://docs.aws.amazon.com/powershell/latest/v4/pstools-welcome.html)** - Lebih lanjut tentang menggunakan PowerShell dengan AWS. 
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [ACM](powershell_4_acm_code_examples.md)
+ [Penskalaan Otomatis Aplikasi](powershell_4_application-auto-scaling_code_examples.md)
+ [WorkSpaces Aplikasi](powershell_4_appstream_code_examples.md)
+ [Aurora](powershell_4_aurora_code_examples.md)
+ [Auto Scaling](powershell_4_auto-scaling_code_examples.md)
+ [AWS Budgets](powershell_4_budgets_code_examples.md)
+ [AWS Cloud9](powershell_4_cloud9_code_examples.md)
+ [CloudFormation](powershell_4_cloudformation_code_examples.md)
+ [CloudFront](powershell_4_cloudfront_code_examples.md)
+ [CloudTrail](powershell_4_cloudtrail_code_examples.md)
+ [CloudWatch](powershell_4_cloudwatch_code_examples.md)
+ [CodeCommit](powershell_4_codecommit_code_examples.md)
+ [CodeDeploy](powershell_4_codedeploy_code_examples.md)
+ [CodePipeline](powershell_4_codepipeline_code_examples.md)
+ [Identitas Amazon Cognito](powershell_4_cognito-identity_code_examples.md)
+ [AWS Config](powershell_4_config-service_code_examples.md)
+ [Device Farm](powershell_4_device-farm_code_examples.md)
+ [Directory Service](powershell_4_directory-service_code_examples.md)
+ [AWS DMS](powershell_4_database-migration-service_code_examples.md)
+ [DynamoDB](powershell_4_dynamodb_code_examples.md)
+ [Amazon EC2](powershell_4_ec2_code_examples.md)
+ [Amazon ECR](powershell_4_ecr_code_examples.md)
+ [Amazon ECS](powershell_4_ecs_code_examples.md)
+ [Amazon EFS](powershell_4_efs_code_examples.md)
+ [Amazon EKS](powershell_4_eks_code_examples.md)
+ [Elastic Load Balancing - Versi 1](powershell_4_elastic-load-balancing_code_examples.md)
+ [Elastic Load Balancing - Versi 2](powershell_4_elastic-load-balancing-v2_code_examples.md)
+ [Amazon FSx](powershell_4_fsx_code_examples.md)
+ [Amazon Glacier](powershell_4_glacier_code_examples.md)
+ [AWS Glue](powershell_4_glue_code_examples.md)
+ [AWS Health](powershell_4_health_code_examples.md)
+ [IAM](powershell_4_iam_code_examples.md)
+ [Kinesis](powershell_4_kinesis_code_examples.md)
+ [Lambda](powershell_4_lambda_code_examples.md)
+ [Amazon ML](powershell_4_machine-learning_code_examples.md)
+ [Macie](powershell_4_macie2_code_examples.md)
+ [Daftar Harga AWS](powershell_4_pricing_code_examples.md)
+ [Resource Groups](powershell_4_resource-groups_code_examples.md)
+ [API Penandaan Grup Sumber Daya](powershell_4_resource-groups-tagging-api_code_examples.md)
+ [Route 53](powershell_4_route-53_code_examples.md)
+ [Amazon S3](powershell_4_s3_code_examples.md)
+ [Security Hub CSPM](powershell_4_securityhub_code_examples.md)
+ [Amazon SES](powershell_4_ses_code_examples.md)
+ [Amazon SES API v2](powershell_4_sesv2_code_examples.md)
+ [Amazon SNS](powershell_4_sns_code_examples.md)
+ [Amazon SQS](powershell_4_sqs_code_examples.md)
+ [AWS STS](powershell_4_sts_code_examples.md)
+ [Dukungan](powershell_4_support_code_examples.md)
+ [Systems Manager](powershell_4_ssm_code_examples.md)
+ [Amazon Translate](powershell_4_translate_code_examples.md)
+ [AWS WAFV2](powershell_4_wafv2_code_examples.md)
+ [WorkSpaces](powershell_4_workspaces_code_examples.md)

# Contoh ACM menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_acm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan ACM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-ACMCertificate`
<a name="acm_GetCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ACMCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara mengembalikan sertifikat dan rantainya menggunakan ARN sertifikat.**  

```
Get-ACMCertificate -CertificateArn "arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012"
```
+  Untuk detail API, lihat [GetCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ACMCertificateDetail`
<a name="acm_DescribeCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ACMCertificateDetail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan rincian sertifikat yang ditentukan.**  

```
Get-ACMCertificateDetail -CertificateArn "arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012"
```
**Output:**  

```
CertificateArn          : arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012
CreatedAt               : 1/21/2016 5:55:59 PM
DomainName              : www.example.com
DomainValidationOptions : {www.example.com}
InUseBy                 : {}
IssuedAt                : 1/1/0001 12:00:00 AM
Issuer                  :
KeyAlgorithm            : RSA-2048
NotAfter                : 1/1/0001 12:00:00 AM
NotBefore               : 1/1/0001 12:00:00 AM
RevocationReason        :
RevokedAt               : 1/1/0001 12:00:00 AM
Serial                  :
SignatureAlgorithm      : SHA256WITHRSA
Status                  : PENDING_VALIDATION
Subject                 : CN=www.example.com
SubjectAlternativeNames : {www.example.net}
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ACMCertificateList`
<a name="acm_ListCertificates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ACMCertificateList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengambil daftar semua sertifikat Anda ARNs dan nama domain untuk masing-masing. Cmdlet akan secara otomatis melakukan paginasi untuk mengambil semua file. ARNs Untuk mengontrol pagination secara manual, gunakan MaxItem parameter - untuk mengontrol berapa banyak sertifikat ARNs yang dikembalikan untuk setiap panggilan layanan dan NextToken parameter - untuk menunjukkan titik awal untuk setiap panggilan.**  

```
Get-ACMCertificateList
```
**Output:**  

```
CertificateArn                                                                      DomainName
--------------                                                                      ----------
arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012 www.example.com
```
**Contoh 2: Mengambil daftar semua sertifikat Anda ARNs di mana status sertifikat cocok pada status yang disediakan.**  

```
Get-ACMCertificateList -CertificateStatus "VALIDATION_TIMED_OUT","FAILED"
```
**Contoh 3: Contoh ini mengembalikan daftar semua sertifikat di wilayah us-east-1 yang memiliki tipe kunci RSA\$12048, dan penggunaan kunci yang diperluas, atau tujuan, dari CODE\$1SIGNING. Anda dapat menemukan nilai untuk parameter pemfilteran ini di topik referensi ListCertificates Filter API: https://docs.aws.amazon.com/acm/ latest/APIReference/API \$1Filters.html.**  

```
Get-ACMCertificateList -Region us-east-1 -Includes_KeyType RSA_2048 -Includes_ExtendedKeyUsage CODE_SIGNING
```
**Output:**  

```
CertificateArn                                                                      DomainName                
--------------                                                                      ----------                
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-d7c0-48c1-af8d-2133d8f30zzz *.route53docs.com
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-98a5-443d-a734-800430c80zzz nerdzizm.net               
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-2be6-4376-8fa7-bad559525zzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-e7ca-44c5-803e-24d9f2f36zzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-1241-4b71-80b1-090305a62zzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-8709-4568-8c64-f94617c99zzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-a8fa-4a61-98cf-e08ccc0eezzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-fa47-40fe-a714-2d277d3eezzz *.route53docs.com
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ACMCertificate`
<a name="acm_RequestCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ACMCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat sertifikat baru. Layanan mengembalikan ARN sertifikat baru.**  

```
New-ACMCertificate -DomainName "www.example.com"
```
**Output:**  

```
arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012
```
**Contoh 2: Membuat sertifikat baru. Layanan mengembalikan ARN sertifikat baru.**  

```
New-ACMCertificate -DomainName "www.example.com" -SubjectAlternativeName "example.com","www.example.net"
```
**Output:**  

```
arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012
```
+  Untuk detail API, lihat [RequestCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ACMCertificate`
<a name="acm_DeleteCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ACMCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus sertifikat yang diidentifikasi oleh ARN yang disediakan dan kunci pribadi terkait. Cmdlet akan meminta konfirmasi sebelum melanjutkan; tambahkan sakelar -Force untuk menekan konfirmasi.**  

```
Remove-ACMCertificate -CertificateArn "arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012"
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Send-ACMValidationEmail`
<a name="acm_ResendValidationEmail_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-ACMValidationEmail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Permintaan agar email untuk memvalidasi kepemilikan domain untuk 'www.example.com' dikirim. Jika \$1 shell Anda ConfirmPreference disetel ke 'Medium' atau lebih rendah, cmdlet akan meminta konfirmasi sebelum memproses. Tambahkan sakelar -Force untuk menekan permintaan konfirmasi.**  

```
$params = @{
    CertificateArn="arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012"
    Domain="www.example.com"
    ValidationDomain="example.com"    
}        
Send-ACMValidationEmail @params
```
+  Untuk detail API, lihat [ResendValidationEmail](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Application Auto Scaling menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_application-auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Application Auto Scaling.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-AASScalableTarget`
<a name="application-auto-scaling_RegisterScalableTarget_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-AASScalableTarget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mendaftarkan atau memperbarui target yang dapat diskalakan. Target yang dapat diskalakan adalah sumber daya yang dapat diskalakan dan diskalakan oleh Application Auto Scaling.**  

```
Add-AASScalableTarget -ServiceNamespace AppStream -ResourceId fleet/MyFleet -ScalableDimension appstream:fleet:DesiredCapacity -MinCapacity 2 -MaxCapacity 10
```
+  Untuk detail API, lihat [RegisterScalableTarget](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-AASScalableTarget`
<a name="application-auto-scaling_DescribeScalableTargets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-AASScalableTarget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini akan memberikan informasi tentang target Application Autoscaling Scaling Scalable di namespace yang ditentukan.**  

```
Get-AASScalableTarget -ServiceNamespace "AppStream"
```
**Output:**  

```
CreationTime      : 11/7/2019 2:30:03 AM
MaxCapacity       : 5
MinCapacity       : 1
ResourceId        : fleet/Test
RoleARN           : arn:aws:iam::012345678912:role/aws-service-role/appstream.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_AppStreamFleet
ScalableDimension : appstream:fleet:DesiredCapacity
ServiceNamespace  : appstream
SuspendedState    : Amazon.ApplicationAutoScaling.Model.SuspendedState
```
+  Untuk detail API, lihat [DescribeScalableTargets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-AASScalingActivity`
<a name="application-auto-scaling_DescribeScalingActivities_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-AASScalingActivity`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memberikan informasi deskriptif tentang aktivitas penskalaan di namespace yang ditentukan dari enam minggu sebelumnya.**  

```
Get-AASScalingActivity -ServiceNamespace AppStream
```
**Output:**  

```
ActivityId        : 2827409f-b639-4cdb-a957-8055d5d07434
Cause             : monitor alarm Appstream2-MyFleet-default-scale-in-Alarm in state ALARM triggered policy default-scale-in
Description       : Setting desired capacity to 2.
Details           :
EndTime           : 12/14/2019 11:32:49 AM
ResourceId        : fleet/MyFleet
ScalableDimension : appstream:fleet:DesiredCapacity
ServiceNamespace  : appstream
StartTime         : 12/14/2019 11:32:14 AM
StatusCode        : Successful
StatusMessage     : Successfully set desired capacity to 2. Change successfully fulfilled by appstream.
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-AASScalingPolicy`
<a name="application-auto-scaling_DescribeScalingPolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-AASScalingPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menjelaskan kebijakan penskalaan Application Auto Scaling untuk namespace layanan yang ditentukan.**  

```
Get-AASScalingPolicy -ServiceNamespace AppStream
```
**Output:**  

```
Alarms                                   : {Appstream2-LabFleet-default-scale-out-Alarm}
CreationTime                             : 9/3/2019 2:48:15 AM
PolicyARN                                : arn:aws:autoscaling:us-west-2:012345678912:scalingPolicy:5659b069-b5cd-4af1-9f7f-3e956d36233e:resource/appstream/fleet/LabFleet:
                                           policyName/default-scale-out
PolicyName                               : default-scale-out
PolicyType                               : StepScaling
ResourceId                               : fleet/LabFleet
ScalableDimension                        : appstream:fleet:DesiredCapacity
ServiceNamespace                         : appstream
StepScalingPolicyConfiguration           : Amazon.ApplicationAutoScaling.Model.StepScalingPolicyConfiguration
TargetTrackingScalingPolicyConfiguration :

Alarms                                   : {Appstream2-LabFleet-default-scale-in-Alarm}
CreationTime                             : 9/3/2019 2:48:15 AM
PolicyARN                                : arn:aws:autoscaling:us-west-2:012345678912:scalingPolicy:5659b069-b5cd-4af1-9f7f-3e956d36233e:resource/appstream/fleet/LabFleet:
                                           policyName/default-scale-in
PolicyName                               : default-scale-in
PolicyType                               : StepScaling
ResourceId                               : fleet/LabFleet
ScalableDimension                        : appstream:fleet:DesiredCapacity
ServiceNamespace                         : appstream
StepScalingPolicyConfiguration           : Amazon.ApplicationAutoScaling.Model.StepScalingPolicyConfiguration
TargetTrackingScalingPolicyConfiguration :
```
+  Untuk detail API, lihat [DescribeScalingPolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-AASScheduledAction`
<a name="application-auto-scaling_DescribeScheduledActions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-AASScheduledAction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mencantumkan tindakan yang dijadwalkan untuk grup Auto Scaling Anda yang belum berjalan atau yang belum mencapai waktu akhirnya.**  

```
Get-AASScheduledAction -ServiceNamespace AppStream
```
**Output:**  

```
CreationTime         : 12/22/2019 9:25:52 AM
EndTime              : 1/1/0001 12:00:00 AM
ResourceId           : fleet/MyFleet
ScalableDimension    : appstream:fleet:DesiredCapacity
ScalableTargetAction : Amazon.ApplicationAutoScaling.Model.ScalableTargetAction
Schedule             : cron(0 0 8 ? * MON-FRI *)
ScheduledActionARN   : arn:aws:autoscaling:us-west-2:012345678912:scheduledAction:4897ca24-3caa-4bf1-8484-851a089b243c:resource/appstream/fleet/MyFleet:scheduledActionName
                       /WeekDaysFleetScaling
ScheduledActionName  : WeekDaysFleetScaling
ServiceNamespace     : appstream
StartTime            : 1/1/0001 12:00:00 AM
```
+  Untuk detail API, lihat [DescribeScheduledActions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-AASScalableTarget`
<a name="application-auto-scaling_DeregisterScalableTarget_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-AASScalableTarget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini membatalkan pendaftaran target yang dapat diskalakan Application Auto Scaling. Membatalkan pendaftaran target yang dapat diskalakan akan menghapus kebijakan penskalaan yang terkait dengannya.**  

```
Remove-AASScalableTarget -ResourceId fleet/MyFleet -ScalableDimension appstream:fleet:DesiredCapacity -ServiceNamespace AppStream
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-AASScalableTarget (DeregisterScalableTarget)" on target "fleet/MyFleet".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeregisterScalableTarget](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-AASScalingPolicy`
<a name="application-auto-scaling_DeleteScalingPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-AASScalingPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menghapus kebijakan penskalaan yang ditentukan untuk target scalable Application Auto Scaling.**  

```
Remove-AASScalingPolicy -ServiceNamespace AppStream -PolicyName "default-scale-out" -ResourceId fleet/Test -ScalableDimension appstream:fleet:DesiredCapacity
```
+  Untuk detail API, lihat [DeleteScalingPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-AASScheduledAction`
<a name="application-auto-scaling_DeleteScheduledAction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-AASScheduledAction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menghapus tindakan terjadwal yang ditentukan untuk target scalable Application Auto Scaling.**  

```
Remove-AASScheduledAction -ServiceNamespace AppStream -ScheduledActionName WeekDaysFleetScaling -ResourceId fleet/MyFleet -ScalableDimension appstream:fleet:DesiredCapacity
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-AASScheduledAction (DeleteScheduledAction)" on target "WeekDaysFleetScaling".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteScheduledAction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-AASScalingPolicy`
<a name="application-auto-scaling_PutScalingPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-AASScalingPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini membuat atau memperbarui kebijakan untuk target scalable Application Auto Scaling. Setiap target yang dapat diskalakan diidentifikasi oleh namespace layanan, ID sumber daya, dan dimensi yang dapat diskalakan.**  

```
Set-AASScalingPolicy -ServiceNamespace AppStream -PolicyName ASFleetScaleInPolicy -PolicyType StepScaling  -ResourceId fleet/MyFleet -ScalableDimension appstream:fleet:DesiredCapacity -StepScalingPolicyConfiguration_AdjustmentType ChangeInCapacity -StepScalingPolicyConfiguration_Cooldown 360 -StepScalingPolicyConfiguration_MetricAggregationType Average -StepScalingPolicyConfiguration_StepAdjustments @{ScalingAdjustment = -1; MetricIntervalUpperBound = 0}
```
**Output:**  

```
Alarms    PolicyARN
------    ---------
{}        arn:aws:autoscaling:us-west-2:012345678912:scalingPolicy:4897ca24-3caa-4bf1-8484-851a089b243c:resource/appstream/fleet/MyFleet:policyName/ASFleetScaleInPolicy
```
+  Untuk detail API, lihat [PutScalingPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-AASScheduledAction`
<a name="application-auto-scaling_PutScheduledAction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-AASScheduledAction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini membuat atau memperbarui tindakan terjadwal untuk target yang dapat diskalakan Application Auto Scaling. Setiap target yang dapat diskalakan diidentifikasi oleh namespace layanan, ID sumber daya, dan dimensi yang dapat diskalakan.**  

```
Set-AASScheduledAction -ServiceNamespace AppStream -ResourceId fleet/MyFleet -Schedule "cron(0 0 8 ? * MON-FRI *)" -ScalableDimension appstream:fleet:DesiredCapacity -ScheduledActionName WeekDaysFleetScaling -ScalableTargetAction_MinCapacity 5 -ScalableTargetAction_MaxCapacity 10
```
+  Untuk detail API, lihat [PutScheduledAction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# WorkSpaces Contoh aplikasi menggunakan Alat untuk PowerShell V4
<a name="powershell_4_appstream_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan WorkSpaces Aplikasi.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-APSResourceTag`
<a name="appstream_TagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-APSResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan Tag sumber daya ke AppStream sumber daya**  

```
Add-APSResourceTag -ResourceArn arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest -Tag @{StackState='Test'} -Select ^Tag
```
**Output:**  

```
Name                           Value
----                           -----
StackState                     Test
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Copy-APSImage`
<a name="appstream_CopyImage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-APSImage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini menyalin gambar ke wilayah lain**  

```
Copy-APSImage -DestinationImageName TestImageCopy -DestinationRegion us-west-2 -SourceImageName Powershell
```
**Output:**  

```
TestImageCopy
```
+  Untuk detail API, lihat [CopyImage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-APSUSer`
<a name="appstream_DisableUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-APSUSer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan pengguna di USERPOOL**  

```
Disable-APSUser -AuthenticationType USERPOOL -UserName TestUser@lab.com
```
+  Untuk detail API, lihat [DisableUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-APSUser`
<a name="appstream_EnableUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-APSUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan pengguna yang dinonaktifkan di USERPOOL**  

```
Enable-APSUser -AuthenticationType USERPOOL -UserName TestUser@lab.com
```
+  Untuk detail API, lihat [EnableUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSAssociatedFleetList`
<a name="appstream_ListAssociatedFleets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSAssociatedFleetList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan armada yang terkait dengan tumpukan**  

```
Get-APSAssociatedFleetList -StackName PowershellStack
```
**Output:**  

```
PowershellFleet
```
+  Untuk detail API, lihat [ListAssociatedFleets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSAssociatedStackList`
<a name="appstream_ListAssociatedStacks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSAssociatedStackList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan tumpukan yang terkait dengan armada**  

```
Get-APSAssociatedStackList -FleetName PowershellFleet
```
**Output:**  

```
PowershellStack
```
+  Untuk detail API, lihat [ListAssociatedStacks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSDirectoryConfigList`
<a name="appstream_DescribeDirectoryConfigs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSDirectoryConfigList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan Konfigurasi Direktori yang dibuat di AppStream**  

```
Get-APSDirectoryConfigList | Select DirectoryName, OrganizationalUnitDistinguishedNames, CreatedTime
```
**Output:**  

```
DirectoryName OrganizationalUnitDistinguishedNames CreatedTime
------------- ------------------------------------ -----------
Test.com      {OU=AppStream,DC=Test,DC=com}    9/6/2019 10:56:40 AM
contoso.com   {OU=AppStream,OU=contoso,DC=contoso,DC=com}  8/9/2019 9:08:50 AM
```
+  Untuk detail API, lihat [DescribeDirectoryConfigs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSFleetList`
<a name="appstream_DescribeFleets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSFleetList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan detail armada**  

```
Get-APSFleetList -Name Test
```
**Output:**  

```
Arn                            : arn:aws:appstream:us-east-1:1234567890:fleet/Test
ComputeCapacityStatus          : Amazon.AppStream.Model.ComputeCapacityStatus
CreatedTime                    : 9/12/2019 5:00:45 PM
Description                    : Test
DisconnectTimeoutInSeconds     : 900
DisplayName                    : Test
DomainJoinInfo                 :
EnableDefaultInternetAccess    : False
FleetErrors                    : {}
FleetType                      : ON_DEMAND
IamRoleArn                     :
IdleDisconnectTimeoutInSeconds : 900
ImageArn                       : arn:aws:appstream:us-east-1:1234567890:image/Test
ImageName                      : Test
InstanceType                   : stream.standard.medium
MaxUserDurationInSeconds       : 57600
Name                           : Test
State                          : STOPPED
VpcConfig                      : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [DescribeFleets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSImageBuilderList`
<a name="appstream_DescribeImageBuilders_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSImageBuilderList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan rincian ImageBuilder**  

```
Get-APSImageBuilderList -Name TestImage
```
**Output:**  

```
AccessEndpoints             : {}
AppstreamAgentVersion       : 06-19-2019
Arn                         : arn:aws:appstream:us-east-1:1234567890:image-builder/TestImage
CreatedTime                 : 1/14/2019 4:33:05 AM
Description                 :
DisplayName                 : TestImage
DomainJoinInfo              :
EnableDefaultInternetAccess : False
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-east-1::image/Base-Image-Builder-05-02-2018
ImageBuilderErrors          : {}
InstanceType                : stream.standard.large
Name                        : TestImage
NetworkAccessConfiguration  : Amazon.AppStream.Model.NetworkAccessConfiguration
Platform                    : WINDOWS
State                       : STOPPED
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [DescribeImageBuilders](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSImageList`
<a name="appstream_DescribeImages_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSImageList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan AppStream Gambar pribadi**  

```
Get-APSImageList -Type PRIVATE | select DisplayName, ImageBuilderName, Visibility, arn
```
**Output:**  

```
DisplayName          ImageBuilderName      Visibility Arn
-----------          ----------------      ---------- ---
OfficeApps           OfficeApps            PRIVATE    arn:aws:appstream:us-east-1:123456789012:image/OfficeApps
SessionScriptV2      SessionScriptTest     PRIVATE    arn:aws:appstream:us-east-1:123456789012:image/SessionScriptV2
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSImagePermission`
<a name="appstream_DescribeImagePermissions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSImagePermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan izin Gambar pada Gambar bersama AppStream **  

```
Get-APSImagePermission -Name Powershell  | select SharedAccountId, @{n="AllowFleet";e={$_.ImagePermissions.AllowFleet}}, @{n="AllowImageBuilder";e={$_.ImagePermissions.AllowImageBuilder}}
```
**Output:**  

```
SharedAccountId AllowFleet AllowImageBuilder
--------------- ---------- -----------------
123456789012          True              True
```
+  Untuk detail API, lihat [DescribeImagePermissions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSSessionList`
<a name="appstream_DescribeSessions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSSessionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan daftar sesi ke armada**  

```
Get-APSSessionList -FleetName PowershellFleet -StackName PowershellStack
```
**Output:**  

```
AuthenticationType         : API
ConnectionState            : CONNECTED
FleetName                  : PowershellFleet
Id                         : d8987c70-4394-4324-a396-2d485c26f2a2
MaxExpirationTime          : 12/27/2019 4:54:07 AM
NetworkAccessConfiguration : Amazon.AppStream.Model.NetworkAccessConfiguration
StackName                  : PowershellStack
StartTime                  : 12/26/2019 12:54:12 PM
State                      : ACTIVE
UserId                     : Test
```
+  Untuk detail API, lihat [DescribeSessions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSStackList`
<a name="appstream_DescribeStacks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSStackList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan daftar AppStream Stack**  

```
Get-APSStackList | Select DisplayName, Arn, CreatedTime
```
**Output:**  

```
DisplayName                   Arn                                                                          CreatedTime
-----------                   ---                                                                          -----------
PowershellStack               arn:aws:appstream:us-east-1:123456789012:stack/PowershellStack               4/24/2019 8:49:29 AM
SessionScriptTest             arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest             9/12/2019 3:23:12 PM
```
+  Untuk detail API, lihat [DescribeStacks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSTagsForResourceList`
<a name="appstream_ListTagsForResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSTagsForResourceList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan tag pada sumber AppStream daya**  

```
Get-APSTagsForResourceList -ResourceArn arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest
```
**Output:**  

```
Key        Value
---        -----
StackState Test
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSUsageReportSubscription`
<a name="appstream_DescribeUsageReportSubscriptions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSUsageReportSubscription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan detail AppStreamUsageReport konfigurasi**  

```
Get-APSUsageReportSubscription
```
**Output:**  

```
LastGeneratedReportDate S3BucketName                                   Schedule SubscriptionErrors
----------------------- ------------                                   -------- ------------------
1/1/0001 12:00:00 AM    appstream-logs-us-east-1-123456789012-sik1hnxe DAILY    {}
```
+  Untuk detail API, lihat [DescribeUsageReportSubscriptions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSUser`
<a name="appstream_DescribeUsers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan daftar pengguna dengan status diaktifkan**  

```
Get-APSUser -AuthenticationType USERPOOL | Select-Object UserName, AuthenticationType, Enabled
```
**Output:**  

```
UserName                   AuthenticationType Enabled
--------                   ------------------ -------
foo1@contoso.com USERPOOL              True
foo2@contoso.com        USERPOOL              True
foo3@contoso.com    USERPOOL              True
foo4@contoso.com   USERPOOL              True
foo5@contoso.com         USERPOOL              True
```
+  Untuk detail API, lihat [DescribeUsers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-APSUserStackAssociation`
<a name="appstream_DescribeUserStackAssociations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSUserStackAssociation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan daftar pengguna yang ditugaskan ke tumpukan**  

```
Get-APSUserStackAssociation -StackName PowershellStack
```
**Output:**  

```
AuthenticationType SendEmailNotification StackName       UserName
------------------ --------------------- ---------       --------
USERPOOL           False                 PowershellStack TestUser1@lab.com
USERPOOL           False                 PowershellStack TestUser2@lab.com
```
+  Untuk detail API, lihat [DescribeUserStackAssociations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-APSDirectoryConfig`
<a name="appstream_CreateDirectoryConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSDirectoryConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat konfigurasi direktori di AppStream**  

```
New-APSDirectoryConfig -ServiceAccountCredentials_AccountName contoso\ServiceAccount -ServiceAccountCredentials_AccountPassword MyPass -DirectoryName contoso.com -OrganizationalUnitDistinguishedName "OU=AppStream,OU=Contoso,DC=Contoso,DC=com"
```
**Output:**  

```
CreatedTime            DirectoryName OrganizationalUnitDistinguishedNames        ServiceAccountCredentials
-----------            ------------- ------------------------------------        -------------------------
12/27/2019 11:00:30 AM contoso.com   {OU=AppStream,OU=Contoso,DC=Contoso,DC=com} Amazon.AppStream.Model.ServiceAccountCredentials
```
+  Untuk detail API, lihat [CreateDirectoryConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-APSFleet`
<a name="appstream_CreateFleet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSFleet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini membuat AppStream armada baru**  

```
New-APSFleet -ComputeCapacity_DesiredInstance 1 -InstanceType stream.standard.medium -Name TestFleet -DisplayName TestFleet -FleetType ON_DEMAND -EnableDefaultInternetAccess $True -VpcConfig_SubnetIds "subnet-123ce32","subnet-a1234cfd" -VpcConfig_SecurityGroupIds sg-4d012a34 -ImageName SessionScriptTest -Region us-west-2
```
**Output:**  

```
Arn                            : arn:aws:appstream:us-west-2:123456789012:fleet/TestFleet
ComputeCapacityStatus          : Amazon.AppStream.Model.ComputeCapacityStatus
CreatedTime                    : 12/27/2019 11:24:42 AM
Description                    :
DisconnectTimeoutInSeconds     : 900
DisplayName                    : TestFleet
DomainJoinInfo                 :
EnableDefaultInternetAccess    : True
FleetErrors                    : {}
FleetType                      : ON_DEMAND
IamRoleArn                     :
IdleDisconnectTimeoutInSeconds : 0
ImageArn                       : arn:aws:appstream:us-west-2:123456789012:image/SessionScriptTest
ImageName                      : SessionScriptTest
InstanceType                   : stream.standard.medium
MaxUserDurationInSeconds       : 57600
Name                           : TestFleet
State                          : STOPPED
VpcConfig                      : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [CreateFleet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-APSImageBuilder`
<a name="appstream_CreateImageBuilder_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSImageBuilder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat Image Builder di AppStream**  

```
New-APSImageBuilder -InstanceType stream.standard.medium -Name TestIB -DisplayName TestIB -ImageName AppStream-WinServer2012R2-12-12-2019 -EnableDefaultInternetAccess $True -VpcConfig_SubnetId subnet-a1234cfd -VpcConfig_SecurityGroupIds sg-2d012a34 -Region us-west-2
```
**Output:**  

```
AccessEndpoints             : {}
AppstreamAgentVersion       : 12-16-2019
Arn                         : arn:aws:appstream:us-west-2:123456789012:image-builder/TestIB
CreatedTime                 : 12/27/2019 11:39:24 AM
Description                 :
DisplayName                 : TestIB
DomainJoinInfo              :
EnableDefaultInternetAccess : True
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-west-2::image/AppStream-WinServer2012R2-12-12-2019
ImageBuilderErrors          : {}
InstanceType                : stream.standard.medium
Name                        : TestIB
NetworkAccessConfiguration  :
Platform                    : WINDOWS
State                       : PENDING
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [CreateImageBuilder](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-APSImageBuilderStreamingURL`
<a name="appstream_CreateImageBuilderStreamingURL_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSImageBuilderStreamingURL`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat URL ImageBuilder streaming dengan validitas 2 jam**  

```
New-APSImageBuilderStreamingURL -Name TestIB -Validity 7200 -Region us-west-2
```
**Output:**  

```
Expires               StreamingURL
-------               ------------
12/27/2019 1:49:13 PM https://appstream2.us-west-2.aws.amazon.com/authenticate?parameters=eyJ0eXBlIjoiQURNSU4iLCJleHBpcmVzIjoiMTU3NzQ1NDU1MyIsImF3c0FjY291bnRJZCI6IjM5MzQwMzgxMTQwNyIsInVzZXJJZCI6ImFkbWluIiwiY2F
```
+  Untuk detail API, lihat [CreateImageBuilderStreamingURL](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-APSStack`
<a name="appstream_CreateStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat AppStream Stack baru**  

```
New-APSStack -Name TestStack -DisplayName TestStack -ApplicationSettings_Enabled $True -ApplicationSettings_SettingsGroup TestStack -Region us-west-2
```
**Output:**  

```
AccessEndpoints     : {}
ApplicationSettings : Amazon.AppStream.Model.ApplicationSettingsResponse
Arn                 : arn:aws:appstream:us-west-2:123456789012:stack/TestStack
CreatedTime         : 12/27/2019 12:34:19 PM
Description         :
DisplayName         : TestStack
EmbedHostDomains    : {}
FeedbackURL         :
Name                : TestStack
RedirectURL         :
StackErrors         : {}
StorageConnectors   : {}
UserSettings        : {Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting}
```
+  Untuk detail API, lihat [CreateStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-APSStreamingURL`
<a name="appstream_CreateStreamingURL_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSStreamingURL`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat URL streaming Stack**  

```
New-APSStreamingURL -StackName SessionScriptTest -FleetName SessionScriptNew -UserId TestUser
```
**Output:**  

```
Expires                StreamingURL
-------                ------------
12/27/2019 12:43:37 PM https://appstream2.us-east-1.aws.amazon.com/authenticate?parameters=eyJ0eXBlIjoiRU5EX1VTRVIiLCJleHBpcmVzIjoiMTU3NzQ1MDYxNyIsImF3c0FjY291bnRJZCI6IjM5MzQwMzgxMTQwNyIsInVzZXJJZCI6IlRlc3RVc2
```
+  Untuk detail API, lihat [CreateStreamingURL](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-APSUsageReportSubscription`
<a name="appstream_CreateUsageReportSubscription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSUsageReportSubscription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaktifkan Laporan AppStream Penggunaan**  

```
New-APSUsageReportSubscription
```
**Output:**  

```
S3BucketName                                   Schedule
------------                                   --------
appstream-logs-us-east-1-123456789012-sik2hnxe DAILY
```
+  Untuk detail API, lihat [CreateUsageReportSubscription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-APSUser`
<a name="appstream_CreateUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat pengguna di USERPOOL**  

```
New-APSUser -UserName Test@lab.com -AuthenticationType USERPOOL -FirstName 'kt' -LastName 'aws' -Select ^UserName
```
**Output:**  

```
Test@lab.com
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-APSFleet`
<a name="appstream_AssociateFleet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-APSFleet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan armada dengan tumpukan**  

```
Register-APSFleet -StackName TestStack -FleetName TestFleet -Region us-west-2
```
+  Untuk detail API, lihat [AssociateFleet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-APSUserStackBatch`
<a name="appstream_BatchAssociateUserStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-APSUserStackBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menetapkan tumpukan ke pengguna di USERPOOL**  

```
Register-APSUserStackBatch -UserStackAssociation @{AuthenticationType="USERPOOL";SendEmailNotification=$False;StackName="PowershellStack";UserName="TestUser1@lab.com"}
```
+  Untuk detail API, lihat [BatchAssociateUserStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSDirectoryConfig`
<a name="appstream_DeleteDirectoryConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSDirectoryConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus konfigurasi AppStream Direktori**  

```
Remove-APSDirectoryConfig -DirectoryName contoso.com
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSDirectoryConfig (DeleteDirectoryConfig)" on target "contoso.com".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteDirectoryConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSFleet`
<a name="appstream_DeleteFleet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSFleet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus menghapus armada AppStream **  

```
Remove-APSFleet -Name TestFleet -Region us-west-2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSFleet (DeleteFleet)" on target "TestFleet".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteFleet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSImage`
<a name="appstream_DeleteImage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSImage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus Gambar**  

```
Remove-APSImage -Name TestImage -Region us-west-2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSImage (DeleteImage)" on target "TestImage".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A

Applications                : {}
AppstreamAgentVersion       : LATEST
Arn                         : arn:aws:appstream:us-west-2:123456789012:image/TestImage
BaseImageArn                :
CreatedTime                 : 12/27/2019 1:34:10 PM
Description                 :
DisplayName                 : TestImage
ImageBuilderName            :
ImageBuilderSupported       : True
ImagePermissions            :
Name                        : TestImage
Platform                    : WINDOWS
PublicBaseImageReleasedDate : 6/12/2018 12:00:00 AM
State                       : AVAILABLE
StateChangeReason           :
Visibility                  : PRIVATE
```
+  Untuk detail API, lihat [DeleteImage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSImageBuilder`
<a name="appstream_DeleteImageBuilder_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSImageBuilder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus ImageBuilder**  

```
Remove-APSImageBuilder -Name TestIB -Region us-west-2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSImageBuilder (DeleteImageBuilder)" on target "TestIB".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A

AccessEndpoints             : {}
AppstreamAgentVersion       : 12-16-2019
Arn                         : arn:aws:appstream:us-west-2:123456789012:image-builder/TestIB
CreatedTime                 : 12/27/2019 11:39:24 AM
Description                 :
DisplayName                 : TestIB
DomainJoinInfo              :
EnableDefaultInternetAccess : True
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-west-2::image/AppStream-WinServer2012R2-12-12-2019
ImageBuilderErrors          : {}
InstanceType                : stream.standard.medium
Name                        : TestIB
NetworkAccessConfiguration  : Amazon.AppStream.Model.NetworkAccessConfiguration
Platform                    : WINDOWS
State                       : DELETING
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [DeleteImageBuilder](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSImagePermission`
<a name="appstream_DeleteImagePermissions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSImagePermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus izin Gambar**  

```
Remove-APSImagePermission -Name Powershell -SharedAccountId 123456789012
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSImagePermission (DeleteImagePermissions)" on target "Powershell".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteImagePermissions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSResourceTag`
<a name="appstream_UntagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag sumber daya dari AppStream sumber daya**  

```
Remove-APSResourceTag -ResourceArn arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest -TagKey StackState
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSResourceTag (UntagResource)" on target "arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSStack`
<a name="appstream_DeleteStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus Stack**  

```
Remove-APSStack -Name TestStack -Region us-west-2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSStack (DeleteStack)" on target "TestStack".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSUsageReportSubscription`
<a name="appstream_DeleteUsageReportSubscription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSUsageReportSubscription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan langganan Laporan AppStream Penggunaan**  

```
Remove-APSUsageReportSubscription
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSUsageReportSubscription (DeleteUsageReportSubscription)" on target "".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteUsageReportSubscription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-APSUser`
<a name="appstream_DeleteUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus pengguna dari USERPOOL**  

```
Remove-APSUser -UserName TestUser@lab.com -AuthenticationType USERPOOL
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSUser (DeleteUser)" on target "TestUser@lab.com".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Revoke-APSSession`
<a name="appstream_ExpireSession_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Revoke-APSSession`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencabut sesi ke AppStream armada**  

```
Revoke-APSSession -SessionId 6cd2f9a3-f948-4aa1-8014-8a7dcde14877
```
+  Untuk detail API, lihat [ExpireSession](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-APSFleet`
<a name="appstream_StartFleet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-APSFleet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini memulai armada**  

```
Start-APSFleet -Name PowershellFleet
```
+  Untuk detail API, lihat [StartFleet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-APSImageBuilder`
<a name="appstream_StartImageBuilder_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-APSImageBuilder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini memulai ImageBuilder**  

```
Start-APSImageBuilder -Name TestImage
```
**Output:**  

```
AccessEndpoints             : {}
AppstreamAgentVersion       : 06-19-2019
Arn                         : arn:aws:appstream:us-east-1:123456789012:image-builder/TestImage
CreatedTime                 : 1/14/2019 4:33:05 AM
Description                 :
DisplayName                 : TestImage
DomainJoinInfo              :
EnableDefaultInternetAccess : False
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-east-1::image/Base-Image-Builder-05-02-2018
ImageBuilderErrors          : {}
InstanceType                : stream.standard.large
Name                        : TestImage
NetworkAccessConfiguration  : Amazon.AppStream.Model.NetworkAccessConfiguration
Platform                    : WINDOWS
State                       : PENDING
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [StartImageBuilder](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-APSFleet`
<a name="appstream_StopFleet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-APSFleet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini menghentikan armada**  

```
Stop-APSFleet -Name PowershellFleet
```
+  Untuk detail API, lihat [StopFleet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-APSImageBuilder`
<a name="appstream_StopImageBuilder_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-APSImageBuilder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini menghentikan ImageBuilder**  

```
Stop-APSImageBuilder -Name TestImage
```
**Output:**  

```
AccessEndpoints             : {}
AppstreamAgentVersion       : 06-19-2019
Arn                         : arn:aws:appstream:us-east-1:123456789012:image-builder/TestImage
CreatedTime                 : 1/14/2019 4:33:05 AM
Description                 :
DisplayName                 : TestImage
DomainJoinInfo              :
EnableDefaultInternetAccess : False
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-east-1::image/Base-Image-Builder-05-02-2018
ImageBuilderErrors          : {}
InstanceType                : stream.standard.large
Name                        : TestImage
NetworkAccessConfiguration  : Amazon.AppStream.Model.NetworkAccessConfiguration
Platform                    : WINDOWS
State                       : STOPPING
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [StopImageBuilder](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-APSFleet`
<a name="appstream_DisassociateFleet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-APSFleet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan registrasi armada dari tumpukan**  

```
Unregister-APSFleet -StackName TestStack -FleetName TestFleet -Region us-west-2
```
+  Untuk detail API, lihat [DisassociateFleet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-APSUserStackBatch`
<a name="appstream_BatchDisassociateUserStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-APSUserStackBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus pengguna dari Stack yang ditetapkan**  

```
Unregister-APSUserStackBatch -UserStackAssociation @{AuthenticationType="USERPOOL";SendEmailNotification=$False;StackName="PowershellStack";UserName="TestUser1@lab.com"}
```
+  Untuk detail API, lihat [BatchDisassociateUserStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-APSDirectoryConfig`
<a name="appstream_UpdateDirectoryConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-APSDirectoryConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui konfigurasi Direktori yang dibuat AppStream**  

```
Update-APSDirectoryConfig -ServiceAccountCredentials_AccountName contoso\ServiceAccount -ServiceAccountCredentials_AccountPassword MyPass@1$@# -DirectoryName contoso.com -OrganizationalUnitDistinguishedName "OU=AppStreamNew,OU=Contoso,DC=Contoso,DC=com"
```
**Output:**  

```
CreatedTime           DirectoryName OrganizationalUnitDistinguishedNames           ServiceAccountCredentials
-----------           ------------- ------------------------------------           -------------------------
12/27/2019 3:50:02 PM contoso.com   {OU=AppStreamNew,OU=Contoso,DC=Contoso,DC=com} Amazon.AppStream.Model.ServiceAccountCredentials
```
+  Untuk detail API, lihat [UpdateDirectoryConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-APSFleet`
<a name="appstream_UpdateFleet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-APSFleet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui properti armada**  

```
Update-APSFleet -Name PowershellFleet -EnableDefaultInternetAccess $True -DisconnectTimeoutInSecond 950
```
**Output:**  

```
Arn                            : arn:aws:appstream:us-east-1:123456789012:fleet/PowershellFleet
ComputeCapacityStatus          : Amazon.AppStream.Model.ComputeCapacityStatus
CreatedTime                    : 4/24/2019 8:39:41 AM
Description                    : PowershellFleet
DisconnectTimeoutInSeconds     : 950
DisplayName                    : PowershellFleet
DomainJoinInfo                 :
EnableDefaultInternetAccess    : True
FleetErrors                    : {}
FleetType                      : ON_DEMAND
IamRoleArn                     :
IdleDisconnectTimeoutInSeconds : 900
ImageArn                       : arn:aws:appstream:us-east-1:123456789012:image/Powershell
ImageName                      : Powershell
InstanceType                   : stream.standard.medium
MaxUserDurationInSeconds       : 57600
Name                           : PowershellFleet
State                          : STOPPED
VpcConfig                      : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [UpdateFleet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-APSImagePermission`
<a name="appstream_UpdateImagePermissions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-APSImagePermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membagikan AppStream Gambar dengan akun lain**  

```
Update-APSImagePermission -Name Powershell -SharedAccountId 123456789012 -ImagePermissions_AllowFleet $True -ImagePermissions_AllowImageBuilder $True
```
+  Untuk detail API, lihat [UpdateImagePermissions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-APSStack`
<a name="appstream_UpdateStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-APSStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui (mengaktifkan) Persistensi pengaturan aplikasi dan Folder Home pada Stack**  

```
Update-APSStack -Name PowershellStack -ApplicationSettings_Enabled $True -ApplicationSettings_SettingsGroup PowershellStack -StorageConnector @{ConnectorType="HOMEFOLDERS"}
```
**Output:**  

```
AccessEndpoints     : {}
ApplicationSettings : Amazon.AppStream.Model.ApplicationSettingsResponse
Arn                 : arn:aws:appstream:us-east-1:123456789012:stack/PowershellStack
CreatedTime         : 4/24/2019 8:49:29 AM
Description         : PowershellStack
DisplayName         : PowershellStack
EmbedHostDomains    : {}
FeedbackURL         :
Name                : PowershellStack
RedirectURL         :
StackErrors         : {}
StorageConnectors   : {Amazon.AppStream.Model.StorageConnector, Amazon.AppStream.Model.StorageConnector}
UserSettings        : {Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting}
```
+  Untuk detail API, lihat [UpdateStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Aurora menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Aurora.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-RDSOrderableDBInstanceOption`
<a name="aurora_DescribeOrderableDBInstanceOptions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RDSOrderableDBInstanceOption`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan versi mesin DB yang mendukung kelas instans DB tertentu dalam file Wilayah AWS.**  

```
$params = @{
  Engine = 'aurora-postgresql'
  DBInstanceClass = 'db.r5.large'
  Region = 'us-east-1'
}
Get-RDSOrderableDBInstanceOption @params
```
**Contoh 2: Contoh ini mencantumkan kelas instans DB yang didukung untuk versi mesin DB tertentu dalam file Wilayah AWS.**  

```
$params = @{
  Engine = 'aurora-postgresql'
  EngineVersion = '13.6'
  Region = 'us-east-1'
}
Get-RDSOrderableDBInstanceOption @params
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Auto Scaling menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Auto Scaling.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-ASLoadBalancer`
<a name="auto-scaling_AttachLoadBalancers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ASLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan penyeimbang beban yang ditentukan ke grup Auto Scaling yang ditentukan.**  

```
Add-ASLoadBalancer -LoadBalancerName my-lb -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [AttachLoadBalancers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Complete-ASLifecycleAction`
<a name="auto-scaling_CompleteLifecycleAction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Complete-ASLifecycleAction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melengkapi tindakan siklus hidup yang ditentukan.**  

```
Complete-ASLifecycleAction -LifecycleHookName myLifecycleHook -AutoScalingGroupName my-asg -LifecycleActionResult CONTINUE -LifecycleActionToken bcd2f1b8-9a78-44d3-8a7a-4dd07d7cf635
```
+  Untuk detail API, lihat [CompleteLifecycleAction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-ASMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-ASMetricsCollection`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan pemantauan metrik yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Disable-ASMetricsCollection -AutoScalingGroupName my-asg -Metric @("GroupMinSize", "GroupMaxSize")
```
**Contoh 2: Contoh ini menonaktifkan pemantauan semua metrik untuk grup Auto Scaling yang ditentukan.**  

```
Disable-ASMetricsCollection -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Dismount-ASInstance`
<a name="auto-scaling_DetachInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-ASInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan instance yang ditentukan dari grup Auto Scaling yang ditentukan dan mengurangi kapasitas yang diinginkan sehingga Auto Scaling tidak meluncurkan instance pengganti.**  

```
Dismount-ASInstance -InstanceId i-93633f9b -AutoScalingGroupName my-asg -ShouldDecrementDesiredCapacity $true
```
**Output:**  

```
ActivityId           : 06733445-ce94-4039-be1b-b9f1866e276e
AutoScalingGroupName : my-asg
Cause                : At 2015-11-20T22:34:59Z instance i-93633f9b was detached in response to a user request, shrinking
                       the capacity from 2 to 1.
Description          : Detaching EC2 instance: i-93633f9b
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 50
StartTime            : 11/20/2015 2:34:59 PM
StatusCode           : InProgress
StatusMessage        :
```
**Contoh 2: Contoh ini melepaskan instance yang ditentukan dari grup Auto Scaling yang ditentukan tanpa mengurangi kapasitas yang diinginkan. Auto Scaling meluncurkan instance pengganti.**  

```
Dismount-ASInstance -InstanceId i-7bf746a2 -AutoScalingGroupName my-asg -ShouldDecrementDesiredCapacity $false
```
**Output:**  

```
ActivityId           : f43a3cd4-d38c-4af7-9fe0-d76ec2307b6d
AutoScalingGroupName : my-asg
Cause                : At 2015-11-20T22:34:59Z instance i-7bf746a2 was detached in response to a user request.
Description          : Detaching EC2 instance: i-7bf746a2
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 50
StartTime            : 11/20/2015 2:34:59 PM
StatusCode           : InProgress
StatusMessage        :
```
+  Untuk detail API, lihat [DetachInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Dismount-ASLoadBalancer`
<a name="auto-scaling_DetachLoadBalancers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-ASLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan penyeimbang beban yang ditentukan dari grup Auto Scaling yang ditentukan.**  

```
Dismount-ASLoadBalancer -LoadBalancerName my-lb -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [DetachLoadBalancers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-ASMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-ASMetricsCollection`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan pemantauan metrik yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Enable-ASMetricsCollection  -Metric @("GroupMinSize", "GroupMaxSize") -AutoScalingGroupName my-asg -Granularity 1Minute
```
**Contoh 2: Contoh ini memungkinkan pemantauan semua metrik untuk grup Auto Scaling yang ditentukan.**  

```
Enable-ASMetricsCollection -AutoScalingGroupName my-asg -Granularity 1Minute
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enter-ASStandby`
<a name="auto-scaling_EnterStandby_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enter-ASStandby`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menempatkan instance yang ditentukan ke mode siaga dan mengurangi kapasitas yang diinginkan sehingga Auto Scaling tidak meluncurkan instance pengganti.**  

```
Enter-ASStandby -InstanceId i-93633f9b -AutoScalingGroupName my-asg -ShouldDecrementDesiredCapacity $true
```
**Output:**  

```
ActivityId           : e36a5a54-ced6-4df8-bd19-708e2a59a649
AutoScalingGroupName : my-asg
Cause                : At 2015-11-22T15:48:06Z instance i-95b8484f was moved to standby in response to a user request,
                       shrinking the capacity from 2 to 1.
Description          : Moving EC2 instance to Standby: i-95b8484f
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 50
StartTime            : 11/22/2015 7:48:06 AM
StatusCode           : InProgress
StatusMessage        :
```
**Contoh 2: Contoh ini menempatkan instance yang ditentukan ke mode siaga tanpa mengurangi kapasitas yang diinginkan. Auto Scaling meluncurkan instance pengganti.**  

```
Enter-ASStandby -InstanceId i-93633f9b -AutoScalingGroupName my-asg -ShouldDecrementDesiredCapacity $false
```
**Output:**  

```
ActivityId           : e36a5a54-ced6-4df8-bd19-708e2a59a649
AutoScalingGroupName : my-asg
Cause                : At 2015-11-22T15:48:06Z instance i-95b8484f was moved to standby in response to a user request.
Description          : Moving EC2 instance to Standby: i-95b8484f
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 50
StartTime            : 11/22/2015 7:48:06 AM
StatusCode           : InProgress
StatusMessage        :
```
+  Untuk detail API, lihat [EnterStandby](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Exit-ASStandby`
<a name="auto-scaling_ExitStandby_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Exit-ASStandby`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memindahkan instance yang ditentukan keluar dari mode siaga.**  

```
Exit-ASStandby -InstanceId i-93633f9b -AutoScalingGroupName my-asg
```
**Output:**  

```
ActivityId           : 1833d3e8-e32f-454e-b731-0670ad4c6934
AutoScalingGroupName : my-asg
Cause                : At 2015-11-22T15:51:21Z instance i-95b8484f was moved out of standby in response to a user 
                       request, increasing the capacity from 1 to 2.
Description          : Moving EC2 instance out of Standby: i-95b8484f
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 30
StartTime            : 11/22/2015 7:51:21 AM
StatusCode           : PreInService
StatusMessage        :
```
+  Untuk detail API, lihat [ExitStandby](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASAccountLimit`
<a name="auto-scaling_DescribeAccountLimits_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAccountLimit`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan batas sumber daya Auto Scaling untuk akun Anda AWS .**  

```
Get-ASAccountLimit
```
**Output:**  

```
MaxNumberOfAutoScalingGroups    : 20
MaxNumberOfLaunchConfigurations : 100
```
+  Untuk detail API, lihat [DescribeAccountLimits](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASAdjustmentType`
<a name="auto-scaling_DescribeAdjustmentTypes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAdjustmentType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan jenis penyesuaian yang didukung oleh Auto Scaling.**  

```
Get-ASAdjustmentType
```
**Output:**  

```
Type
----
ChangeInCapacity
ExactCapacity
PercentChangeInCapacity
```
+  Untuk detail API, lihat [DescribeAdjustmentTypes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASAutoScalingGroup`
<a name="auto-scaling_DescribeAutoScalingGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAutoScalingGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan nama grup Auto Scaling Anda.**  

```
Get-ASAutoScalingGroup | format-table -property AutoScalingGroupName
```
**Output:**  

```
AutoScalingGroupName
--------------------
my-asg-1
my-asg-2
my-asg-3
my-asg-4
my-asg-5
my-asg-6
```
**Contoh 2: Contoh ini menjelaskan grup Auto Scaling yang ditentukan.**  

```
Get-ASAutoScalingGroup -AutoScalingGroupName my-asg-1
```
**Output:**  

```
AutoScalingGroupARN     : arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:930d940e-891e-4781-a11a-7b0acd480
                          f03:autoScalingGroupName/my-asg-1
AutoScalingGroupName    : my-asg-1
AvailabilityZones       : {us-west-2b, us-west-2a}
CreatedTime             : 3/1/2015 9:05:31 AM
DefaultCooldown         : 300
DesiredCapacity         : 2
EnabledMetrics          : {}
HealthCheckGracePeriod  : 300
HealthCheckType         : EC2
Instances               : {my-lc}
LaunchConfigurationName : my-lc
LoadBalancerNames       : {}
MaxSize                 : 0
MinSize                 : 0
PlacementGroup          :
Status                  :
SuspendedProcesses      : {}
Tags                    : {}
TerminationPolicies     : {Default}
VPCZoneIdentifier       : subnet-e4f33493,subnet-5264e837
```
**Contoh 3: Contoh ini menjelaskan dua grup Auto Scaling yang ditentukan.**  

```
Get-ASAutoScalingGroup -AutoScalingGroupName @("my-asg-1", "my-asg-2")
```
**Contoh 4: Contoh ini menjelaskan instance Auto Scaling untuk grup Auto Scaling yang ditentukan.**  

```
(Get-ASAutoScalingGroup -AutoScalingGroupName my-asg-1).Instances
```
**Contoh 5: Contoh ini menjelaskan semua grup Auto Scaling Anda.**  

```
Get-ASAutoScalingGroup
```
**Contoh 6: Contoh ini menjelaskan LaunchTemplate untuk grup Auto Scaling yang ditentukan. Contoh ini mengasumsikan bahwa “Opsi pembelian instans” diatur ke “Patuhi templat peluncuran”. Jika opsi ini diatur ke “Gabungkan opsi pembelian dan jenis instance”, LaunchTemplate dapat diakses menggunakan "MixedInstancesPolicy. LaunchTemplate“properti.**  

```
(Get-ASAutoScalingGroup -AutoScalingGroupName my-ag-1).LaunchTemplate
```
**Output:**  

```
LaunchTemplateId     LaunchTemplateName   Version
----------------     ------------------   -------
lt-06095fd619cb40371 test-launch-template $Default
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASAutoScalingInstance`
<a name="auto-scaling_DescribeAutoScalingInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAutoScalingInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan instance IDs Auto Scaling Anda.**  

```
Get-ASAutoScalingInstance | format-table -property InstanceId
```
**Output:**  

```
InstanceId
----------
i-12345678
i-87654321
i-abcd1234
```
**Contoh 2: Contoh ini menjelaskan contoh Auto Scaling yang ditentukan.**  

```
Get-ASAutoScalingInstance -InstanceId i-12345678
```
**Output:**  

```
AutoScalingGroupName    : my-asg
AvailabilityZone        : us-west-2b
HealthStatus            : HEALTHY
InstanceId              : i-12345678
LaunchConfigurationName : my-lc
LifecycleState          : InService
```
**Contoh 3: Contoh ini menjelaskan dua instance Auto Scaling yang ditentukan.**  

```
Get-ASAutoScalingInstance -InstanceId @("i-12345678", "i-87654321")
```
**Contoh 4: Contoh ini menjelaskan instance Auto Scaling untuk grup Auto Scaling yang ditentukan.**  

```
(Get-ASAutoScalingGroup -AutoScalingGroupName my-asg).Instances | Get-ASAutoScalingInstance
```
**Contoh 5: Contoh ini menjelaskan semua instance Auto Scaling Anda.**  

```
Get-ASAutoScalingInstance
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASAutoScalingNotificationType`
<a name="auto-scaling_DescribeAutoScalingNotificationTypes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAutoScalingNotificationType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan jenis notifikasi yang didukung oleh Auto Scaling.**  

```
Get-ASAutoScalingNotificationType
```
**Output:**  

```
autoscaling:EC2_INSTANCE_LAUNCH
autoscaling:EC2_INSTANCE_LAUNCH_ERROR
autoscaling:EC2_INSTANCE_TERMINATE
autoscaling:EC2_INSTANCE_TERMINATE_ERROR
autoscaling:TEST_NOTIFICATION
```
+  Untuk detail API, lihat [DescribeAutoScalingNotificationTypes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASLaunchConfiguration`
<a name="auto-scaling_DescribeLaunchConfigurations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASLaunchConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan nama konfigurasi peluncuran Anda.**  

```
Get-ASLaunchConfiguration | format-table -property LaunchConfigurationName
```
**Output:**  

```
LaunchConfigurationName
-----------------------
my-lc-1
my-lc-2
my-lc-3
my-lc-4
my-lc-5
```
**Contoh 2: Contoh ini menjelaskan konfigurasi peluncuran yang ditentukan.**  

```
Get-ASLaunchConfiguration -LaunchConfigurationName my-lc-1
```
**Output:**  

```
AssociatePublicIpAddress     : True
BlockDeviceMappings          : {/dev/xvda}
ClassicLinkVPCId             :
ClassicLinkVPCSecurityGroups : {}
CreatedTime                  : 12/12/2014 3:22:08 PM
EbsOptimized                 : False
IamInstanceProfile           :
ImageId                      : ami-043a5034
InstanceMonitoring           : Amazon.AutoScaling.Model.InstanceMonitoring
InstanceType                 : t2.micro
KernelId                     :
KeyName                      : 
LaunchConfigurationARN       : arn:aws:autoscaling:us-west-2:123456789012:launchConfiguration:7e5f31e4-693b-4604-9322-
                               e6f68d7fafad:launchConfigurationName/my-lc-1
LaunchConfigurationName      : my-lc-1
PlacementTenancy             :
RamdiskId                    :
SecurityGroups               : {sg-67ef0308}
SpotPrice                    :
UserData                     :
```
**Contoh 3: Contoh ini menjelaskan dua konfigurasi peluncuran yang ditentukan.**  

```
Get-ASLaunchConfiguration -LaunchConfigurationName @("my-lc-1", "my-lc-2")
```
**Contoh 4: Contoh ini menjelaskan semua konfigurasi peluncuran Anda.**  

```
Get-ASLaunchConfiguration
```
+  Untuk detail API, lihat [DescribeLaunchConfigurations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASLifecycleHook`
<a name="auto-scaling_DescribeLifecycleHooks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASLifecycleHook`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan hook siklus hidup yang ditentukan.**  

```
Get-ASLifecycleHook -AutoScalingGroupName my-asg -LifecycleHookName myLifecycleHook
```
**Output:**  

```
AutoScalingGroupName  : my-asg
DefaultResult         : ABANDON
GlobalTimeout         : 172800
HeartbeatTimeout      : 3600
LifecycleHookName     : myLifecycleHook
LifecycleTransition   : auto-scaling:EC2_INSTANCE_LAUNCHING
NotificationMetadata  :
NotificationTargetARN : arn:aws:sns:us-west-2:123456789012:my-topic
RoleARN               : arn:aws:iam::123456789012:role/my-iam-role
```
**Contoh 2: Contoh ini menjelaskan semua kait siklus hidup untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASLifecycleHook -AutoScalingGroupName my-asg
```
**Contoh 3: Contoh ini menjelaskan semua kait siklus hidup untuk semua grup Auto Scaling Anda.**  

```
Get-ASLifecycleHook
```
+  Untuk detail API, lihat [DescribeLifecycleHooks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASLifecycleHookType`
<a name="auto-scaling_DescribeLifecycleHookTypes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASLifecycleHookType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan jenis kait siklus hidup yang didukung oleh Auto Scaling.**  

```
Get-ASLifecycleHookType
```
**Output:**  

```
autoscaling:EC2_INSTANCE_LAUNCHING
auto-scaling:EC2_INSTANCE_TERMINATING
```
+  Untuk detail API, lihat [DescribeLifecycleHookTypes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASLoadBalancer`
<a name="auto-scaling_DescribeLoadBalancers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan penyeimbang beban untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASLoadBalancer -AutoScalingGroupName my-asg
```
**Output:**  

```
LoadBalancerName    State
----------------    -----
my-lb               Added
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASMetricCollectionType`
<a name="auto-scaling_DescribeMetricCollectionTypes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASMetricCollectionType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan jenis koleksi metrik yang didukung oleh Auto Scaling.**  

```
(Get-ASMetricCollectionType).Metrics
```
**Output:**  

```
Metric
------
GroupMinSize
GroupMaxSize
GroupDesiredCapacity
GroupInServiceInstances
GroupPendingInstances
GroupTerminatingInstances
GroupStandbyInstances
GroupTotalInstances
```
**Contoh 2: Contoh ini mencantumkan granularitas yang sesuai.**  

```
(Get-ASMetricCollectionType).Granularities
```
**Output:**  

```
Granularity
-----------
1Minute
```
+  Untuk detail API, lihat [DescribeMetricCollectionTypes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASNotificationConfiguration`
<a name="auto-scaling_DescribeNotificationConfigurations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASNotificationConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan tindakan notifikasi yang terkait dengan grup Auto Scaling yang ditentukan.**  

```
Get-ASNotificationConfiguration -AutoScalingGroupName my-asg | format-list
```
**Output:**  

```
AutoScalingGroupName : my-asg
NotificationType     : auto-scaling:EC2_INSTANCE_LAUNCH
TopicARN             : arn:aws:sns:us-west-2:123456789012:my-topic

AutoScalingGroupName : my-asg
NotificationType     : auto-scaling:EC2_INSTANCE_TERMINATE
TopicARN             : arn:aws:sns:us-west-2:123456789012:my-topic
```
**Contoh 2: Contoh ini menjelaskan tindakan notifikasi yang terkait dengan semua grup Auto Scaling Anda.**  

```
Get-ASNotificationConfiguration
```
+  Untuk detail API, lihat [DescribeNotificationConfigurations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASPolicy`
<a name="auto-scaling_DescribePolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan semua kebijakan untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASPolicy -AutoScalingGroupName my-asg
```
**Output:**  

```
AdjustmentType          : ChangeInCapacity
Alarms                  : {}
AutoScalingGroupName    : my-asg
Cooldown                : 0
EstimatedInstanceWarmup : 0
MetricAggregationType   :
MinAdjustmentMagnitude  : 0
MinAdjustmentStep       : 0
PolicyARN               : arn:aws:auto-scaling:us-west-2:123456789012:scalingPolicy:aa3836ab-5462-42c7-adab-e1d769fc24ef
                          :autoScalingGroupName/my-asg:policyName/myScaleInPolicy
PolicyName              : myScaleInPolicy
PolicyType              : SimpleScaling
ScalingAdjustment       : -1
StepAdjustments         : {}
```
**Contoh 2: Contoh ini menjelaskan kebijakan yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASPolicy -AutoScalingGroupName my-asg -PolicyName @("myScaleOutPolicy", "myScaleInPolicy")
```
**Contoh 3: Contoh ini menjelaskan semua kebijakan untuk semua grup Auto Scaling Anda.**  

```
Get-ASPolicy
```
+  Untuk detail API, lihat [DescribePolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASScalingActivity`
<a name="auto-scaling_DescribeScalingActivities_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASScalingActivity`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan aktivitas penskalaan selama enam minggu terakhir untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASScalingActivity -AutoScalingGroupName my-asg
```
**Output:**  

```
ActivityId           : 063308ae-aa22-4a9b-94f4-9fae4EXAMPLE
AutoScalingGroupName : my-asg
Cause                : At 2015-11-22T15:45:16Z a user request explicitly set group desired capacity changing the desired
                       capacity from 1 to 2.  At 2015-11-22T15:45:34Z an instance was started in response to a difference
                       between desired and actual capacity, increasing the capacity from 1 to 2.
Description          : Launching a new EC2 instance: i-26e715fc
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 11/22/2015 7:46:09 AM
Progress             : 100
StartTime            : 11/22/2015 7:45:35 AM
StatusCode           : Successful
StatusMessage        :

ActivityId           : ce719997-086d-4c73-a2f1-ab703EXAMPLE
AutoScalingGroupName : my-asg
Cause                : At 2015-11-20T22:57:53Z a user request created an AutoScalingGroup changing the desired capacity
                        from 0 to 1.  At 2015-11-20T22:57:58Z an instance was started in response to a difference betwe
                       en desired and actual capacity, increasing the capacity from 0 to 1.
Description          : Launching a new EC2 instance: i-93633f9b
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 11/20/2015 2:58:32 PM
Progress             : 100
StartTime            : 11/20/2015 2:57:59 PM
StatusCode           : Successful
StatusMessage        :
```
**Contoh 2: Contoh ini menjelaskan aktivitas penskalaan yang ditentukan.**  

```
Get-ASScalingActivity -ActivityId "063308ae-aa22-4a9b-94f4-9fae4EXAMPLE"
```
**Contoh 3: Contoh ini menjelaskan aktivitas penskalaan selama enam minggu terakhir untuk semua grup Auto Scaling Anda.**  

```
Get-ASScalingActivity
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASScalingProcessType`
<a name="auto-scaling_DescribeScalingProcessTypes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASScalingProcessType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan jenis proses yang didukung oleh Auto Scaling.**  

```
Get-ASScalingProcessType
```
**Output:**  

```
ProcessName
-----------
AZRebalance
AddToLoadBalancer
AlarmNotification
HealthCheck
Launch
ReplaceUnhealthy
ScheduledActions
Terminate
```
+  Untuk detail API, lihat [DescribeScalingProcessTypes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASScheduledAction`
<a name="auto-scaling_DescribeScheduledActions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASScheduledAction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan tindakan penskalaan terjadwal untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASScheduledAction -AutoScalingGroupName my-asg
```
**Output:**  

```
AutoScalingGroupName : my-asg
DesiredCapacity      : 10
EndTime              : 
MaxSize              : 
MinSize              : 
Recurrence           :
ScheduledActionARN   : arn:aws:autoscaling:us-west-2:123456789012:scheduledUpdateGroupAction:8a4c5f24-6ec6-4306-a2dd-f7
                       2c3af3a4d6:autoScalingGroupName/my-asg:scheduledActionName/myScheduledAction
ScheduledActionName  : myScheduledAction
StartTime            : 11/30/2015 8:00:00 AM
Time                 : 11/30/2015 8:00:00 AM
```
**Contoh 2: Contoh ini menjelaskan tindakan penskalaan terjadwal yang ditentukan.**  

```
Get-ASScheduledAction -ScheduledActionName @("myScheduledScaleOut", "myScheduledScaleIn")
```
**Contoh 3: Contoh ini menjelaskan tindakan penskalaan terjadwal yang dimulai pada waktu yang ditentukan.**  

```
Get-ASScheduledAction -StartTime "2015-12-01T08:00:00Z"
```
**Contoh 4: Contoh ini menjelaskan tindakan penskalaan terjadwal yang berakhir pada waktu yang ditentukan.**  

```
Get-ASScheduledAction -EndTime "2015-12-30T08:00:00Z"
```
**Contoh 5: Contoh ini menjelaskan tindakan penskalaan terjadwal untuk semua grup Auto Scaling Anda.**  

```
Get-ASScheduledAction
```
+  Untuk detail API, lihat [DescribeScheduledActions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASTag`
<a name="auto-scaling_DescribeTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan tag dengan nilai kunci baik 'myTag' atau 'myTag2'. Nilai yang mungkin untuk nama filter adalah 'auto-scaling-group', 'kunci', 'nilai', dan 'propagate-at-launch'. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Get-ASTag -Filter @( @{ Name="key"; Values=@("myTag", "myTag2") } )
```
**Output:**  

```
Key               : myTag2
PropagateAtLaunch : True
ResourceId        : my-asg
ResourceType      : auto-scaling-group
Value             : myTagValue2

Key               : myTag
PropagateAtLaunch : True
ResourceId        : my-asg
ResourceType      : auto-scaling-group
Value             : myTagValue
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat filter untuk parameter Filter.**  

```
$keys = New-Object string[] 2
$keys[0] = "myTag"
$keys[1] = "myTag2"
$filter = New-Object Amazon.AutoScaling.Model.Filter
$filter.Name = "key"
$filter.Values = $keys
Get-ASTag -Filter @( $filter )
```
**Contoh 3: Contoh ini menjelaskan semua tag untuk semua grup Auto Scaling Anda.**  

```
Get-ASTag
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASTerminationPolicyType`
<a name="auto-scaling_DescribeTerminationPolicyTypes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASTerminationPolicyType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan kebijakan penghentian yang didukung oleh Auto Scaling.**  

```
Get-ASTerminationPolicyType
```
**Output:**  

```
ClosestToNextInstanceHour
Default
NewestInstance
OldestInstance
OldestLaunchConfiguration
```
+  Untuk detail API, lihat [DescribeTerminationPolicyTypes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Mount-ASInstance`
<a name="auto-scaling_AttachInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Mount-ASInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan instance yang ditentukan ke grup Auto Scaling yang ditentukan. Auto Scaling secara otomatis meningkatkan kapasitas yang diinginkan dari grup Auto Scaling.**  

```
Mount-ASInstance -InstanceId i-93633f9b -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [AttachInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ASAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ASAutoScalingGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat grup Auto Scaling dengan nama dan atribut yang ditentukan. Kapasitas default yang diinginkan adalah ukuran minimum. Oleh karena itu, grup Auto Scaling ini meluncurkan dua instance, satu di masing-masing dari dua Availability Zone yang ditentukan.**  

```
New-ASAutoScalingGroup -AutoScalingGroupName my-asg -LaunchConfigurationName my-lc -MinSize 2 -MaxSize 6 -AvailabilityZone @("us-west-2a", "us-west-2b")
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ASLaunchConfiguration`
<a name="auto-scaling_CreateLaunchConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ASLaunchConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat konfigurasi peluncuran bernama 'my-lc'. Instans EC2 yang diluncurkan oleh grup Auto Scaling yang menggunakan konfigurasi peluncuran ini menggunakan tipe instans tertentu, AMI, grup keamanan, dan peran IAM.**  

```
New-ASLaunchConfiguration -LaunchConfigurationName my-lc -InstanceType "m3.medium" -ImageId "ami-12345678" -SecurityGroup "sg-12345678" -IamInstanceProfile "myIamRole"
```
+  Untuk detail API, lihat [CreateLaunchConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ASAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASAutoScalingGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus grup Auto Scaling yang ditentukan jika tidak memiliki instance yang berjalan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASAutoScalingGroup -AutoScalingGroupName my-asg
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASAutoScalingGroup (DeleteAutoScalingGroup)" on Target "my-asg".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASAutoScalingGroup -AutoScalingGroupName my-asg -Force
```
**Contoh 3: Contoh ini menghapus grup Auto Scaling yang ditentukan dan mengakhiri semua instance yang sedang berjalan yang dikandungnya.**  

```
Remove-ASAutoScalingGroup -AutoScalingGroupName my-asg -ForceDelete $true -Force
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ASLaunchConfiguration`
<a name="auto-scaling_DeleteLaunchConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASLaunchConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus konfigurasi peluncuran yang ditentukan jika tidak dilampirkan ke grup Auto Scaling. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASLaunchConfiguration -LaunchConfigurationName my-lc
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASLaunchConfiguration (DeleteLaunchConfiguration)" on Target "my-lc".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASLaunchConfiguration -LaunchConfigurationName my-lc -Force
```
+  Untuk detail API, lihat [DeleteLaunchConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ASLifecycleHook`
<a name="auto-scaling_DeleteLifecycleHook_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASLifecycleHook`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus hook siklus hidup yang ditentukan untuk grup Auto Scaling yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASLifecycleHook -AutoScalingGroupName my-asg -LifecycleHookName myLifecycleHook
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASLifecycleHook (DeleteLifecycleHook)" on Target "myLifecycleHook".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASLifecycleHook -AutoScalingGroupName my-asg -LifecycleHookName myLifecycleHook -Force
```
+  Untuk detail API, lihat [DeleteLifecycleHook](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ASNotificationConfiguration`
<a name="auto-scaling_DeleteNotificationConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASNotificationConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tindakan notifikasi yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASNotificationConfiguration -AutoScalingGroupName my-asg -TopicARN "arn:aws:sns:us-west-2:123456789012:my-topic"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASNotificationConfiguration (DeleteNotificationConfiguration)" on Target
"arn:aws:sns:us-west-2:123456789012:my-topic".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASNotificationConfiguration -AutoScalingGroupName my-asg -TopicARN "arn:aws:sns:us-west-2:123456789012:my-topic" -Force
```
+  Untuk detail API, lihat [DeleteNotificationConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ASPolicy`
<a name="auto-scaling_DeletePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus kebijakan yang ditentukan untuk grup Auto Scaling yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASPolicy -AutoScalingGroupName my-asg -PolicyName myScaleInPolicy
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASPolicy (DeletePolicy)" on Target "myScaleInPolicy".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASPolicy -AutoScalingGroupName my-asg -PolicyName myScaleInPolicy -Force
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ASScheduledAction`
<a name="auto-scaling_DeleteScheduledAction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASScheduledAction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tindakan terjadwal yang ditentukan untuk grup Auto Scaling yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASScheduledAction -AutoScalingGroupName my-asg -ScheduledAction "myScheduledAction"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASScheduledAction (DeleteScheduledAction)" on Target "myScheduledAction".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASScheduledAction -AutoScalingGroupName my-asg -ScheduledAction "myScheduledAction" -Force
```
+  Untuk detail API, lihat [DeleteScheduledAction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ASTag`
<a name="auto-scaling_DeleteTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag yang ditentukan dari grup Auto Scaling yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Remove-ASTag -Tag @( @{ResourceType="auto-scaling-group"; ResourceId="my-asg"; Key="myTag" } )
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ASTag (DeleteTags)" on target "Amazon.AutoScaling.Model.Tag".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASTag -Tag @( @{ResourceType="auto-scaling-group"; ResourceId="my-asg"; Key="myTag" } ) -Force
```
**Contoh 3: Dengan Powershell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.AutoScaling.Model.Tag
$tag.ResourceType = "auto-scaling-group"
$tag.ResourceId = "my-asg"
$tag.Key = "myTag"
Remove-ASTag -Tag $tag -Force
```
+  Untuk detail API, lihat [DeleteTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Resume-ASProcess`
<a name="auto-scaling_ResumeProcesses_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Resume-ASProcess`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melanjutkan proses Auto Scaling yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Resume-ASProcess -AutoScalingGroupName my-asg -ScalingProcess "AlarmNotification"
```
**Contoh 2: Contoh ini melanjutkan semua proses Auto Scaling yang ditangguhkan untuk grup Auto Scaling yang ditentukan.**  

```
Resume-ASProcess -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [ResumeProcesses](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ASDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ASDesiredCapacity`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menetapkan ukuran grup Auto Scaling yang ditentukan.**  

```
Set-ASDesiredCapacity -AutoScalingGroupName my-asg -DesiredCapacity 2
```
**Contoh 2: Contoh ini menetapkan ukuran grup Auto Scaling yang ditentukan dan menunggu periode cooldown selesai sebelum penskalaan ke ukuran baru.**  

```
Set-ASDesiredCapacity -AutoScalingGroupName my-asg -DesiredCapacity 2 -HonorCooldown $true
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ASInstanceHealth`
<a name="auto-scaling_SetInstanceHealth_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ASInstanceHealth`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menetapkan status instance yang ditentukan menjadi 'Tidak Sehat', mengeluarkannya dari layanan. Auto Scaling mengakhiri dan menggantikan instance.**  

```
Set-ASInstanceHealth -HealthStatus Unhealthy -InstanceId i-93633f9b
```
**Contoh 2: Contoh ini menetapkan status instance yang ditentukan ke 'Sehat', menjaganya tetap dalam layanan. Masa tenggang pemeriksaan kesehatan apa pun untuk grup Auto Scaling tidak dihormati.**  

```
Set-ASInstanceHealth -HealthStatus Healthy -InstanceId i-93633f9b -ShouldRespectGracePeriod $false
```
+  Untuk detail API, lihat [SetInstanceHealth](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ASInstanceProtection`
<a name="auto-scaling_SetInstanceProtection_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ASInstanceProtection`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan perlindungan instance untuk instance tertentu.**  

```
Set-ASInstanceProtection -AutoScalingGroupName my-asg -InstanceId i-12345678 -ProtectedFromScaleIn $true
```
**Contoh 2: Contoh ini menonaktifkan perlindungan instance untuk instance tertentu.**  

```
Set-ASInstanceProtection -AutoScalingGroupName my-asg -InstanceId i-12345678 -ProtectedFromScaleIn $false
```
+  Untuk detail API, lihat [SetInstanceProtection](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ASTag`
<a name="auto-scaling_CreateOrUpdateTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ASTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan satu tag ke grup Auto Scaling yang ditentukan. Kunci tag adalah 'MyTag' dan nilai tag adalah 'myTagValue'. Auto Scaling menyebarkan tag ini ke instans EC2 berikutnya yang diluncurkan oleh grup Auto Scaling. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Set-ASTag -Tag @( @{ResourceType="auto-scaling-group"; ResourceId="my-asg"; Key="myTag"; Value="myTagValue"; PropagateAtLaunch=$true} )
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.AutoScaling.Model.Tag
$tag.ResourceType = "auto-scaling-group"
$tag.ResourceId = "my-asg" 
$tag.Key = "myTag" 
$tag.Value = "myTagValue"
$tag.PropagateAtLaunch = $true
Set-ASTag -Tag $tag
```
+  Untuk detail API, lihat [CreateOrUpdateTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-ASPolicy`
<a name="auto-scaling_ExecutePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-ASPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengeksekusi kebijakan yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Start-ASPolicy -AutoScalingGroupName my-asg -PolicyName "myScaleInPolicy"
```
**Contoh 2: Contoh ini mengeksekusi kebijakan yang ditentukan untuk grup Auto Scaling yang ditentukan, setelah menunggu periode cooldown selesai.**  

```
Start-ASPolicy -AutoScalingGroupName my-asg -PolicyName "myScaleInPolicy" -HonorCooldown $true
```
+  Untuk detail API, lihat [ExecutePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-ASInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-ASInstanceInAutoScalingGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengakhiri instance yang ditentukan dan mengurangi kapasitas yang diinginkan dari grup Auto Scaling sehingga Auto Scaling tidak meluncurkan instance pengganti.**  

```
Stop-ASInstanceInAutoScalingGroup -InstanceId i-93633f9b -ShouldDecrementDesiredCapacity $true
```
**Output:**  

```
ActivityId           : 2e40d9bd-1902-444c-abf3-6ea0002efdc5
AutoScalingGroupName :
Cause                : At 2015-11-22T16:09:03Z instance i-93633f9b was taken out of service in response to a user 
                       request, shrinking the capacity from 2 to 1.
Description          : Terminating EC2 instance: i-93633f9b
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 0
StartTime            : 11/22/2015 8:09:03 AM
StatusCode           : InProgress
StatusMessage        :
```
**Contoh 2: Contoh ini mengakhiri instance yang ditentukan tanpa mengurangi kapasitas yang diinginkan dari grup Auto Scaling. Auto Scaling meluncurkan instance pengganti.**  

```
Stop-ASInstanceInAutoScalingGroup -InstanceId i-93633f9b -ShouldDecrementDesiredCapacity $false
```
**Output:**  

```
ActivityId           : 2e40d9bd-1902-444c-abf3-6ea0002efdc5
AutoScalingGroupName :
Cause                : At 2015-11-22T16:09:03Z instance i-93633f9b was taken out of service in response to a user 
                       request.
Description          : Terminating EC2 instance: i-93633f9b
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 0
StartTime            : 11/22/2015 8:09:03 AM
StatusCode           : InProgress
StatusMessage        :
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Suspend-ASProcess`
<a name="auto-scaling_SuspendProcesses_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Suspend-ASProcess`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menangguhkan proses Auto Scaling yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Suspend-ASProcess -AutoScalingGroupName my-asg -ScalingProcess "AlarmNotification"
```
**Contoh 2: Contoh ini menangguhkan semua proses Auto Scaling untuk grup Auto Scaling yang ditentukan.**  

```
Suspend-ASProcess -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [SuspendProcesses](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-ASAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-ASAutoScalingGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui ukuran minimum dan maksimum grup Auto Scaling yang ditentukan.**  

```
Update-ASAutoScalingGroup -AutoScalingGroupName my-asg -MaxSize 5 -MinSize 1
```
**Contoh 2: Contoh ini memperbarui periode cooldown default dari grup Auto Scaling yang ditentukan.**  

```
Update-ASAutoScalingGroup -AutoScalingGroupName my-asg -DefaultCooldown 10
```
**Contoh 3: Contoh ini memperbarui Availability Zones dari grup Auto Scaling yang ditentukan.**  

```
Update-ASAutoScalingGroup -AutoScalingGroupName my-asg -AvailabilityZone @("us-west-2a", "us-west-2b")
```
**Contoh 4: Contoh ini memperbarui grup Auto Scaling yang ditentukan untuk menggunakan pemeriksaan kesehatan Elastic Load Balancing.**  

```
Update-ASAutoScalingGroup -AutoScalingGroupName my-asg -HealthCheckType ELB -HealthCheckGracePeriod 60
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-ASLifecycleActionHeartbeat`
<a name="auto-scaling_RecordLifecycleActionHeartbeat_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASLifecycleActionHeartbeat`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencatat detak jantung untuk tindakan siklus hidup yang ditentukan. Ini membuat instance dalam status tertunda hingga Anda menyelesaikan tindakan kustom.**  

```
Write-ASLifecycleActionHeartbeat -AutoScalingGroupName my-asg -LifecycleHookName myLifecycleHook -LifecycleActionToken bcd2f1b8-9a78-44d3-8a7a-4dd07d7cf635
```
+  Untuk detail API, lihat [RecordLifecycleActionHeartbeat](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-ASLifecycleHook`
<a name="auto-scaling_PutLifecycleHook_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASLifecycleHook`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan hook siklus hidup yang ditentukan ke grup Auto Scaling yang ditentukan.**  

```
Write-ASLifecycleHook -AutoScalingGroupName my-asg -LifecycleHookName "myLifecycleHook" -LifecycleTransition "autoscaling:EC2_INSTANCE_LAUNCHING" -NotificationTargetARN "arn:aws:sns:us-west-2:123456789012:my-sns-topic" -RoleARN "arn:aws:iam::123456789012:role/my-iam-role"
```
+  Untuk detail API, lihat [PutLifecycleHook](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-ASNotificationConfiguration`
<a name="auto-scaling_PutNotificationConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASNotificationConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengonfigurasi grup Auto Scaling yang ditentukan untuk mengirim pemberitahuan ke topik SNS yang ditentukan saat meluncurkan instans EC2.**  

```
Write-ASNotificationConfiguration -AutoScalingGroupName my-asg -NotificationType "autoscaling:EC2_INSTANCE_LAUNCH" -TopicARN "arn:aws:sns:us-west-2:123456789012:my-topic"
```
**Contoh 2: Contoh ini mengonfigurasi grup Auto Scaling yang ditentukan untuk mengirim pemberitahuan ke topik SNS yang ditentukan saat meluncurkan atau mengakhiri instans EC2.**  

```
Write-ASNotificationConfiguration -AutoScalingGroupName my-asg -NotificationType @("autoscaling:EC2_INSTANCE_LAUNCH", "autoscaling:EC2_INSTANCE_TERMINATE") -TopicARN "arn:aws:sns:us-west-2:123456789012:my-topic"
```
+  Untuk detail API, lihat [PutNotificationConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-ASScalingPolicy`
<a name="auto-scaling_PutScalingPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASScalingPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan kebijakan yang ditentukan ke grup Auto Scaling yang ditentukan. Jenis penyesuaian yang ditentukan menentukan bagaimana menafsirkan ScalingAdjustment parameter. Dengan ChangeInCapacity '', nilai positif meningkatkan kapasitas dengan jumlah instance yang ditentukan dan nilai negatif menurunkan kapasitas dengan jumlah instance yang ditentukan.**  

```
Write-ASScalingPolicy -AutoScalingGroupName my-asg -AdjustmentType "ChangeInCapacity" -PolicyName "myScaleInPolicy" -ScalingAdjustment -1
```
**Output:**  

```
arn:aws:autoscaling:us-west-2:123456789012:scalingPolicy:aa3836ab-5462-42c7-adab-e1d769fc24ef:autoScalingGroupName/my-asg
:policyName/myScaleInPolicy
```
+  Untuk detail API, lihat [PutScalingPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-ASScheduledUpdateGroupAction`
<a name="auto-scaling_PutScheduledUpdateGroupAction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASScheduledUpdateGroupAction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat atau memperbarui tindakan terjadwal satu kali untuk mengubah kapasitas yang diinginkan pada waktu mulai yang ditentukan.**  

```
Write-ASScheduledUpdateGroupAction -AutoScalingGroupName my-asg -ScheduledActionName "myScheduledAction" -StartTime "2015-12-01T00:00:00Z" -DesiredCapacity 10
```
+  Untuk detail API, lihat [PutScheduledUpdateGroupAction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# AWS Budgets contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_budgets_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan AWS Budgets.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-BGTBudget`
<a name="budgets_CreateBudget_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-BGTBudget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat anggaran baru dengan batasan anggaran dan waktu yang ditentukan dengan pemberitahuan email.**  

```
$notification = @{
    NotificationType = "ACTUAL"
    ComparisonOperator = "GREATER_THAN"
    Threshold = 80
}

$addressObject = @{
    Address = @("user@domain.com")
    SubscriptionType = "EMAIL"
}

$subscriber = New-Object Amazon.Budgets.Model.NotificationWithSubscribers
$subscriber.Notification = $notification
$subscriber.Subscribers.Add($addressObject)

$startDate = [datetime]::new(2017,09,25)
$endDate = [datetime]::new(2017,10,25)

New-BGTBudget -Budget_BudgetName "Tester" -Budget_BudgetType COST -CostTypes_IncludeTax $true -Budget_TimeUnit MONTHLY -BudgetLimit_Unit USD -TimePeriod_Start $startDate -TimePeriod_End $endDate -AccountId 123456789012 -BudgetLimit_Amount 200 -NotificationsWithSubscriber $subscriber
```
+  Untuk detail API, lihat [CreateBudget](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# AWS Cloud9 contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_cloud9_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan AWS Cloud9.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-C9EnvironmentData`
<a name="cloud9_DescribeEnvironments_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-C9EnvironmentData`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Get-C9EnvironmentData -EnvironmentId 685f892f431b45c2b28cb69eadcdb0EX,1980b80e5f584920801c09086667f0EX
```
**Output:**  

```
Arn         : arn:aws:cloud9:us-east-1:123456789012:environment:685f892f431b45c2b28cb69eadcdb0EX
Description : Created from CodeStar.
Id          : 685f892f431b45c2b28cb69eadcdb0EX
Lifecycle   : Amazon.Cloud9.Model.EnvironmentLifecycle
Name        : my-demo-ec2-env
OwnerArn    : arn:aws:iam::123456789012:user/MyDemoUser
Type        : ec2

Arn         : arn:aws:cloud9:us-east-1:123456789012:environment:1980b80e5f584920801c09086667f0EX
Description :
Id          : 1980b80e5f584920801c09086667f0EX
Lifecycle   : Amazon.Cloud9.Model.EnvironmentLifecycle
Name        : my-demo-ssh-env
OwnerArn    : arn:aws:iam::123456789012:user/MyDemoUser
Type        : ssh
```
**Contoh 2: Contoh ini mendapatkan informasi tentang status siklus hidup lingkungan pengembangan Cloud9 AWS yang ditentukan.**  

```
(Get-C9EnvironmentData -EnvironmentId 685f892f431b45c2b28cb69eadcdb0EX).Lifecycle
```
**Output:**  

```
FailureResource Reason Status
--------------- ------ ------
                       CREATED
```
+  Untuk detail API, lihat [DescribeEnvironments](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-C9EnvironmentList`
<a name="cloud9_ListEnvironments_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-C9EnvironmentList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar pengidentifikasi lingkungan pengembangan AWS Cloud9 yang tersedia.**  

```
Get-C9EnvironmentList
```
**Output:**  

```
685f892f431b45c2b28cb69eadcdb0EX
1980b80e5f584920801c09086667f0EX
```
+  Untuk detail API, lihat [ListEnvironments](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-C9EnvironmentMembershipList`
<a name="cloud9_DescribeEnvironmentMemberships_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-C9EnvironmentMembershipList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang anggota lingkungan untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Get-C9EnvironmentMembershipList -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : read-write
UserArn       : arn:aws:iam::123456789012:user/AnotherDemoUser
UserId        : AIDAJ3BA6O2FMJWCWXHEX

EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : owner
UserArn       : arn:aws:iam::123456789012:user/MyDemoUser
UserId        : AIDAJ3LOROMOUXTBSU6EX
```
**Contoh 2: Contoh ini mendapatkan informasi tentang pemilik lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Get-C9EnvironmentMembershipList -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX -Permission owner
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : owner
UserArn       : arn:aws:iam::123456789012:user/MyDemoUser
UserId        : AIDAJ3LOROMOUXTBSU6EX
```
**Contoh 3: Contoh ini mendapatkan informasi tentang anggota lingkungan tertentu untuk beberapa lingkungan pengembangan AWS Cloud9.**  

```
Get-C9EnvironmentMembershipList -UserArn arn:aws:iam::123456789012:user/MyDemoUser
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/17/2018 7:48:14 PM
Permissions   : owner
UserArn       : arn:aws:iam::123456789012:user/MyDemoUser
UserId        : AIDAJ3LOROMOUXTBSU6EX

EnvironmentId : 1980b80e5f584920801c09086667f0EX
LastAccess    : 1/16/2018 11:21:24 PM
Permissions   : owner
UserArn       : arn:aws:iam::123456789012:user/MyDemoUser
UserId        : AIDAJ3LOROMOUXTBSU6EX
```
+  Untuk detail API, lihat [DescribeEnvironmentMemberships](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-C9EnvironmentStatus`
<a name="cloud9_DescribeEnvironmentStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-C9EnvironmentStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi status untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Get-C9EnvironmentStatus -EnvironmentId 349c86d4579e4e7298d500ff57a6b2EX
```
**Output:**  

```
Message                     Status
-------                     ------
Environment is ready to use ready
```
+  Untuk detail API, lihat [DescribeEnvironmentStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-C9EnvironmentEC2`
<a name="cloud9_CreateEnvironmentEc2_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-C9EnvironmentEC2`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat lingkungan pengembangan AWS Cloud9 dengan setelan yang ditentukan, meluncurkan instance Amazon Elastic Compute Cloud (Amazon EC2), dan kemudian menghubungkan dari instance ke lingkungan.**  

```
New-C9EnvironmentEC2 -Name my-demo-env -AutomaticStopTimeMinutes 60 -Description "My demonstration development environment." -InstanceType t2.micro -OwnerArn arn:aws:iam::123456789012:user/MyDemoUser -SubnetId subnet-d43a46EX
```
**Output:**  

```
ffd88420d4824eeeaeaa8a04bfde8cEX
```
+  Untuk detail API, lihat [CreateEnvironmentEc2](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4*). 

### `New-C9EnvironmentMembership`
<a name="cloud9_CreateEnvironmentMembership_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-C9EnvironmentMembership`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan anggota lingkungan yang ditentukan ke lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
New-C9EnvironmentMembership -UserArn arn:aws:iam::123456789012:user/AnotherDemoUser -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX -Permission read-write
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : read-write
UserArn       : arn:aws:iam::123456789012:user/AnotherDemoUser
UserId        : AIDAJ3BA6O2FMJWCWXHEX
```
+  Untuk detail API, lihat [CreateEnvironmentMembership](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-C9Environment`
<a name="cloud9_DeleteEnvironment_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-C9Environment`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus lingkungan pengembangan AWS Cloud9 yang ditentukan. Jika instans Amazon EC2 terhubung ke lingkungan, juga menghentikan instans.**  

```
Remove-C9Environment -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX
```
+  Untuk detail API, lihat [DeleteEnvironment](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-C9EnvironmentMembership`
<a name="cloud9_DeleteEnvironmentMembership_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-C9EnvironmentMembership`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus anggota lingkungan tertentu dari lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Remove-C9EnvironmentMembership -UserArn arn:aws:iam::123456789012:user/AnotherDemoUser -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX
```
+  Untuk detail API, lihat [DeleteEnvironmentMembership](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-C9Environment`
<a name="cloud9_UpdateEnvironment_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-C9Environment`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah pengaturan yang ditentukan dari lingkungan pengembangan AWS Cloud9 yang sudah ditentukan.**  

```
Update-C9Environment -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX -Description "My changed demonstration development environment." -Name my-changed-demo-env
```
+  Untuk detail API, lihat [UpdateEnvironment](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-C9EnvironmentMembership`
<a name="cloud9_UpdateEnvironmentMembership_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-C9EnvironmentMembership`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah pengaturan anggota lingkungan yang ada yang ditentukan untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Update-C9EnvironmentMembership -UserArn arn:aws:iam::123456789012:user/AnotherDemoUser -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX -Permission read-only
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : read-only
UserArn       : arn:aws:iam::123456789012:user/AnotherDemoUser
UserId        : AIDAJ3BA6O2FMJWCWXHEX
```
+  Untuk detail API, lihat [UpdateEnvironmentMembership](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# CloudFormation contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_cloudformation_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan CloudFormation.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CFNStack`
<a name="cloudformation_DescribeStacks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan koleksi instance Stack yang menjelaskan semua tumpukan pengguna.**  

```
Get-CFNStack
```
**Contoh 2: Mengembalikan instance Stack yang menjelaskan tumpukan yang ditentukan**  

```
Get-CFNStack -StackName "myStack"
```
+  Untuk detail API, lihat [DescribeStacks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFNStackEvent`
<a name="cloudformation_DescribeStackEvents_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackEvent`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua peristiwa terkait tumpukan untuk tumpukan tertentu.**  

```
Get-CFNStackEvent -StackName "myStack"
```
+  Untuk detail API, lihat [DescribeStackEvents](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFNStackResource`
<a name="cloudformation_DescribeStackResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackResource`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan deskripsi sumber daya yang diidentifikasi dalam template yang terkait dengan tumpukan yang ditentukan oleh ID logis DBInstance “Saya”.**  

```
Get-CFNStackResource -StackName "myStack" -LogicalResourceId "MyDBInstance"
```
+  Untuk detail API, lihat [DescribeStackResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFNStackResourceList`
<a name="cloudformation_DescribeStackResources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackResourceList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan deskripsi AWS sumber daya hingga 100 sumber daya yang terkait dengan tumpukan yang ditentukan. Untuk mendapatkan rincian semua sumber daya yang terkait dengan tumpukan gunakan Get- CFNStackResourceSummary, yang juga mendukung paging manual hasil.**  

```
Get-CFNStackResourceList -StackName "myStack"
```
**Contoh 2: Mengembalikan deskripsi instans Amazon EC2 yang diidentifikasi dalam template yang terkait dengan tumpukan yang ditentukan oleh ID logis “Ec2Instance”.**  

```
Get-CFNStackResourceList -StackName "myStack" -LogicalResourceId "Ec2Instance"
```
**Contoh 3: Mengembalikan deskripsi hingga 100 sumber daya yang terkait dengan tumpukan yang berisi instans Amazon EC2 yang diidentifikasi oleh ID instans “i-123456". Untuk mendapatkan rincian semua sumber daya yang terkait dengan tumpukan gunakan Get- CFNStackResourceSummary, yang juga mendukung paging manual hasil.**  

```
Get-CFNStackResourceList -PhysicalResourceId "i-123456"
```
**Contoh 4: Mengembalikan deskripsi instans Amazon EC2 yang diidentifikasi oleh ID logis “Ec2Instance” dalam template untuk tumpukan. Tumpukan diidentifikasi menggunakan ID sumber daya fisik dari sumber daya yang dikandungnya, dalam hal ini juga instance Amazon EC2 dengan ID instans “i-123456". Sumber daya fisik yang berbeda juga dapat digunakan untuk mengidentifikasi tumpukan tergantung pada konten template, misalnya bucket Amazon S3.**  

```
Get-CFNStackResourceList -PhysicalResourceId "i-123456" -LogicalResourceId "Ec2Instance"
```
+  Untuk detail API, lihat [DescribeStackResources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFNStackResourceSummary`
<a name="cloudformation_ListStackResources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackResourceSummary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan deskripsi dari semua sumber daya yang terkait dengan tumpukan tertentu.**  

```
Get-CFNStackResourceSummary -StackName "myStack"
```
+  Untuk detail API, lihat [ListStackResources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFNStackSummary`
<a name="cloudformation_ListStacks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackSummary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan informasi ringkasan untuk semua tumpukan.**  

```
Get-CFNStackSummary
```
**Contoh 2: Mengembalikan informasi ringkasan untuk semua tumpukan yang sedang dibuat.**  

```
Get-CFNStackSummary -StackStatusFilter "CREATE_IN_PROGRESS"
```
**Contoh 3: Mengembalikan informasi ringkasan untuk semua tumpukan yang sedang dibuat atau diperbarui.**  

```
Get-CFNStackSummary -StackStatusFilter @("CREATE_IN_PROGRESS", "UPDATE_IN_PROGRESS")
```
+  Untuk detail API, lihat [ListStacks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFNTemplate`
<a name="cloudformation_GetTemplate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNTemplate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan template yang terkait dengan tumpukan tertentu.**  

```
Get-CFNTemplate -StackName "myStack"
```
+  Untuk detail API, lihat [GetTemplate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Measure-CFNTemplateCost`
<a name="cloudformation_EstimateTemplateCost_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Measure-CFNTemplateCost`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan URL Kalkulator Bulanan AWS Sederhana dengan string kueri yang menjelaskan sumber daya yang diperlukan untuk menjalankan template. Template diperoleh dari URL Amazon S3 yang ditentukan dan parameter penyesuaian tunggal diterapkan. Parameter juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Measure-CFNTemplateCost -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
                        -Region us-west-1 `
                        -Parameter @{ ParameterKey="KeyName"; ParameterValue="myKeyPairName" }
```
**Contoh 2: Mengembalikan URL Kalkulator Bulanan AWS Sederhana dengan string kueri yang menjelaskan sumber daya yang diperlukan untuk menjalankan template. Template diurai dari konten yang disediakan dan parameter kustomisasi diterapkan (contoh ini mengasumsikan konten template akan mendeklarasikan dua parameter, '' dan KeyName 'InstanceType'). Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Measure-CFNTemplateCost -TemplateBody "{TEMPLATE CONTENT HERE}" `
                        -Parameter @( @{ ParameterKey="KeyName"; ParameterValue="myKeyPairName" },`
                                      @{ ParameterKey="InstanceType"; ParameterValue="m1.large" })
```
**Contoh 3: Menggunakan New-Object untuk membangun set parameter template dan mengembalikan URL Kalkulator Bulanan AWS Sederhana dengan string kueri yang menjelaskan sumber daya yang diperlukan untuk menjalankan template. Template diurai dari konten yang disediakan, dengan parameter kustomisasi (contoh ini mengasumsikan konten template akan mendeklarasikan dua parameter, '' dan KeyName 'InstanceType').**  

```
$p1 = New-Object -Type Amazon.CloudFormation.Model.Parameter
$p1.ParameterKey = "KeyName"
$p1.ParameterValue = "myKeyPairName"

$p2 = New-Object -Type Amazon.CloudFormation.Model.Parameter
$p2.ParameterKey = "InstanceType"
$p2.ParameterValue = "m1.large"

Measure-CFNTemplateCost -TemplateBody "{TEMPLATE CONTENT HERE}" -Parameter @( $p1, $p2 )
```
+  Untuk detail API, lihat [EstimateTemplateCost](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CFNStack`
<a name="cloudformation_CreateStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFNStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat tumpukan baru dengan nama yang ditentukan. Template diurai dari konten yang disediakan dengan parameter kustomisasi ('PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam konten template, 'PV1' dan 'PV2' mewakili nilai untuk parameter tersebut. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Jika pembuatan tumpukan gagal, itu tidak akan digulung kembali.**  

```
New-CFNStack -StackName "myStack" `
             -TemplateBody "{TEMPLATE CONTENT HERE}" `
             -Parameter @( @{ ParameterKey="PK1"; ParameterValue="PV1" }, @{ ParameterKey="PK2"; ParameterValue="PV2" }) `
             -DisableRollback $true
```
**Contoh 2: Membuat tumpukan baru dengan nama yang ditentukan. Template diurai dari konten yang disediakan dengan parameter kustomisasi ('PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam konten template, 'PV1' dan 'PV2' mewakili nilai untuk parameter tersebut. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Jika pembuatan tumpukan gagal, itu akan digulung kembali.**  

```
$p1 = New-Object -Type Amazon.CloudFormation.Model.Parameter
$p1.ParameterKey = "PK1"
$p1.ParameterValue = "PV1"

$p2 = New-Object -Type Amazon.CloudFormation.Model.Parameter
$p2.ParameterKey = "PK2"
$p2.ParameterValue = "PV2"

New-CFNStack -StackName "myStack" `
             -TemplateBody "{TEMPLATE CONTENT HERE}" `
             -Parameter @( $p1, $p2 ) `
             -OnFailure "ROLLBACK"
```
**Contoh 3: Membuat tumpukan baru dengan nama yang ditentukan. Template diperoleh dari URL Amazon S3 dengan parameter kustomisasi ('PK1' mewakili nama parameter yang dideklarasikan dalam konten template, 'PV1' mewakili nilai untuk parameter. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Jika pembuatan tumpukan gagal, itu akan digulung kembali (sama seperti menentukan - DisableRollback \$1false**).  

```
New-CFNStack -StackName "myStack" `
             -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
             -Parameter @{ ParameterKey="PK1"; ParameterValue="PV1" }
```
**Contoh 4: Membuat tumpukan baru dengan nama yang ditentukan. Template diperoleh dari URL Amazon S3 dengan parameter kustomisasi ('PK1' mewakili nama parameter yang dideklarasikan dalam konten template, 'PV1' mewakili nilai untuk parameter. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Jika pembuatan tumpukan gagal, itu akan digulung kembali (sama seperti menentukan - DisableRollback \$1false). Pemberitahuan yang ditentukan AENs akan menerima acara terkait tumpukan yang dipublikasikan.**  

```
New-CFNStack -StackName "myStack" `
             -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
             -Parameter @{ ParameterKey="PK1"; ParameterValue="PV1" } `
             -NotificationARN @( "arn1", "arn2" )
```
+  Untuk detail API, lihat [CreateStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CFNStack`
<a name="cloudformation_DeleteStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CFNStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus tumpukan yang ditentukan.**  

```
Remove-CFNStack -StackName "myStack"
```
+  Untuk detail API, lihat [DeleteStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Resume-CFNUpdateRollback`
<a name="cloudformation_ContinueUpdateRollback_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Resume-CFNUpdateRollback`.

**Alat untuk PowerShell V4**  
**Contoh 1: Melanjutkan rollback dari tumpukan bernama, yang seharusnya dalam status 'UPDATE\$1ROLLBACK\$1FAILED'. Jika rollback lanjutan berhasil, tumpukan akan memasukkan status 'UPDATE\$1ROLLBACK\$1COMPLETE'.**  

```
Resume-CFNUpdateRollback -StackName "myStack"
```
+  Untuk detail API, lihat [ContinueUpdateRollback](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-CFNUpdateStack`
<a name="cloudformation_CancelUpdateStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-CFNUpdateStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membatalkan pembaruan pada tumpukan yang ditentukan.**  

```
Stop-CFNUpdateStack -StackName "myStack"
```
+  Untuk detail API, lihat [CancelUpdateStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Test-CFNStack`
<a name="cloudformation_Test-CFNStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Test-CFNStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menguji apakah tumpukan telah mencapai salah satu status UPDATE\$1ROLLBACK\$1COMPLETE, CREATE\$1COMPLETE, ROLLBACK\$1COMPLETE atau UPDATE\$1COMPLETE.**  

```
Test-CFNStack -StackName MyStack
```
**Output:**  

```
False
```
**Contoh 2: Menguji apakah tumpukan telah mencapai status UPDATE\$1COMPLETE atau UPDATE\$1ROLLBACK\$1COMPLETE.**  

```
Test-CFNStack -StackName MyStack -Status UPDATE_COMPLETE,UPDATE_ROLLBACK_COMPLETE
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [Menguji- CFNStack](https://docs.aws.amazon.com/powershell/v4/reference) dalam *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Test-CFNTemplate`
<a name="cloudformation_ValidateTemplate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Test-CFNTemplate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memvalidasi konten template yang ditentukan. Output merinci kemampuan, deskripsi, dan parameter template.**  

```
Test-CFNTemplate -TemplateBody "{TEMPLATE CONTENT HERE}"
```
**Contoh 2: Memvalidasi template tertentu yang diakses melalui URL Amazon S3. Output merinci kemampuan, deskripsi, dan parameter template.**  

```
Test-CFNTemplate -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template
```
+  Untuk detail API, lihat [ValidateTemplate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CFNStack`
<a name="cloudformation_UpdateStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CFNStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui tumpukan 'MyStack' dengan template dan parameter kustomisasi yang ditentukan. 'PK1' mewakili nama parameter yang dideklarasikan dalam template dan 'PV1' mewakili nilainya. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Update-CFNStack -StackName "myStack" `
                -TemplateBody "{Template Content Here}" `
                -Parameter @{ ParameterKey="PK1"; ParameterValue="PV1" }
```
**Contoh 2: Memperbarui tumpukan 'MyStack' dengan template dan parameter kustomisasi yang ditentukan. 'PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam templat, 'PV1' dan 'PV2' mewakili nilai yang diminta. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Update-CFNStack -StackName "myStack" `
                -TemplateBody "{Template Content Here}" `
                -Parameter @( @{ ParameterKey="PK1"; ParameterValue="PV1" }, @{ ParameterKey="PK2"; ParameterValue="PV2" } )
```
**Contoh 3: Memperbarui tumpukan 'MyStack' dengan template dan parameter kustomisasi yang ditentukan. 'PK1' mewakili nama parameter yang dideklarasikan dalam template dan 'PV2' mewakili nilainya. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Update-CFNStack -StackName "myStack" -TemplateBody "{Template Content Here}" -Parameters @{ ParameterKey="PK1"; ParameterValue="PV1" }
```
**Contoh 4: Memperbarui tumpukan 'MyStack' dengan templat yang ditentukan, diperoleh dari Amazon S3, dan parameter penyesuaian. 'PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam templat, 'PV1' dan 'PV2' mewakili nilai yang diminta. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Update-CFNStack -StackName "myStack" `
                -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
                -Parameter @( @{ ParameterKey="PK1"; ParameterValue="PV1" }, @{ ParameterKey="PK2"; ParameterValue="PV2" } )
```
**Contoh 5: Memperbarui tumpukan 'MyStack', yang diasumsikan dalam contoh ini berisi sumber daya IAM, dengan templat yang ditentukan, diperoleh dari Amazon S3, dan parameter penyesuaian. 'PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam templat, 'PV1' dan 'PV2' mewakili nilai yang diminta. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Tumpukan yang berisi sumber daya IAM mengharuskan Anda untuk menentukan parameter -Capabilities “CAPABILITY\$1IAM” jika tidak pembaruan akan gagal dengan kesalahan ''. InsufficientCapabilities**  

```
Update-CFNStack -StackName "myStack" `
                -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
                -Parameter @( @{ ParameterKey="PK1"; ParameterValue="PV1" }, @{ ParameterKey="PK2"; ParameterValue="PV2" } ) `
                -Capabilities "CAPABILITY_IAM"
```
+  Untuk detail API, lihat [UpdateStack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Wait-CFNStack`
<a name="cloudformation_Wait-CFNStack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Wait-CFNStack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menguji apakah tumpukan telah mencapai salah satu status UPDATE\$1ROLLBACK\$1COMPLETE, CREATE\$1COMPLETE, ROLLBACK\$1COMPLETE atau UPDATE\$1COMPLETE. Jika tumpukan tidak berada di salah satu status, perintah tidur selama dua detik sebelum menguji status lagi. Ini diulang sampai tumpukan mencapai salah satu status yang diminta atau periode batas waktu default 60 detik berlalu. Jika periode batas waktu terlampaui, pengecualian dilemparkan. Jika tumpukan mencapai salah satu status yang diminta dalam periode batas waktu, tumpukan tersebut dikembalikan ke pipeline.**  

```
$stack = Wait-CFNStack -StackName MyStack
```
**Contoh 2: Contoh ini menunggu total 5 menit (300 detik) hingga tumpukan mencapai salah satu status yang ditentukan. Dalam contoh ini status tercapai sebelum batas waktu dan oleh karena itu objek tumpukan dikembalikan ke pipeline.**  

```
Wait-CFNStack -StackName MyStack -Timeout 300 -Status CREATE_COMPLETE,ROLLBACK_COMPLETE
```
**Output:**  

```
Capabilities      : {CAPABILITY_IAM}
ChangeSetId       :
CreationTime      : 6/1/2017 9:29:33 AM
Description       : AWS CloudFormation Sample Template ec2_instance_with_instance_profile: Create an EC2 instance with an associated instance profile. **WARNING** This template creates one or more Amazon EC2
                    instances and an Amazon SQS queue. You will be billed for the AWS resources used if you create a stack from this template.
DisableRollback   : False
LastUpdatedTime   : 1/1/0001 12:00:00 AM
NotificationARNs  : {}
Outputs           : {}
Parameters        : {}
RoleARN           :
StackId           : arn:aws:cloudformation:us-west-2:123456789012:stack/MyStack/7ea87b50-46e7-11e7-9c9b-503a90a9c4d1
StackName         : MyStack
StackStatus       : CREATE_COMPLETE
StackStatusReason :
Tags              : {}
TimeoutInMinutes  : 0
```
**Contoh 3: Contoh ini menunjukkan keluaran kesalahan ketika tumpukan tidak mencapai salah satu status yang diminta dalam periode batas waktu (dalam hal ini periode default 60 detik).**  

```
Wait-CFNStack -StackName MyStack -Status CREATE_COMPLETE,ROLLBACK_COMPLETE
```
**Output:**  

```
Wait-CFNStack : Timed out after 60 seconds waiting for CloudFormation stack MyStack in region us-west-2 to reach one of state(s): UPDATE_ROLLBACK_COMPLETE,CREATE_COMPLETE,ROLLBACK_COMPLETE,UPDATE_COMPLETE
At line:1 char:1
+ Wait-CFNStack -StackName MyStack -State CREATE_COMPLETE,ROLLBACK_COMPLETE
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    + CategoryInfo          : InvalidOperation: (Amazon.PowerShe...tCFNStackCmdlet:WaitCFNStackCmdlet) [Wait-CFNStack], InvalidOperationException
    + FullyQualifiedErrorId : InvalidOperationException,Amazon.PowerShell.Cmdlets.CFN.WaitCFNStackCmdlet
```
+  Untuk detail API, lihat [Tunggu- CFNStack](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# CloudFront contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_cloudfront_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan CloudFront.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CFCloudFrontOriginAccessIdentity`
<a name="cloudfront_GetCloudFrontOriginAccessIdentity_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFCloudFrontOriginAccessIdentity`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan identitas akses CloudFront asal Amazon tertentu, yang ditentukan oleh parameter -Id. Meskipun parameter -Id tidak diperlukan, jika Anda tidak menentukannya, tidak ada hasil yang dikembalikan.**  

```
Get-CFCloudFrontOriginAccessIdentity -Id E3XXXXXXXXXXRT
```
**Output:**  

```
      CloudFrontOriginAccessIdentityConfig    Id                                      S3CanonicalUserId
      ------------------------------------    --                                      -----------------
      Amazon.CloudFront.Model.CloudFrontOr... E3XXXXXXXXXXRT                          4b6e...
```
+  Untuk detail API, lihat [GetCloudFrontOriginAccessIdentity](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFCloudFrontOriginAccessIdentityConfig`
<a name="cloudfront_GetCloudFrontOriginAccessIdentityConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFCloudFrontOriginAccessIdentityConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan informasi konfigurasi tentang identitas akses CloudFront asal Amazon tunggal, yang ditentukan oleh parameter -Id. Kesalahan terjadi jika tidak ada parameter -Id yang ditentukan..**  

```
Get-CFCloudFrontOriginAccessIdentityConfig -Id E3XXXXXXXXXXRT
```
**Output:**  

```
      CallerReference                                             Comment
      ---------------                                             -------
      mycallerreference: 2/1/2011 1:16:32 PM                      Caller reference: 2/1/2011 1:16:32 PM
```
+  Untuk detail API, lihat [GetCloudFrontOriginAccessIdentityConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFCloudFrontOriginAccessIdentityList`
<a name="cloudfront_ListCloudFrontOriginAccessIdentities_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFCloudFrontOriginAccessIdentityList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan daftar identitas akses CloudFront asal Amazon. Karena - MaxItem parameter menentukan nilai 2, hasilnya mencakup dua identitas.**  

```
Get-CFCloudFrontOriginAccessIdentityList -MaxItem 2
```
**Output:**  

```
IsTruncated : True
Items       : {E326XXXXXXXXXT, E1YWXXXXXXX9B}
Marker      :
MaxItems    : 2
NextMarker  : E1YXXXXXXXXX9B
Quantity    : 2
```
+  Untuk detail API, lihat [ListCloudFrontOriginAccessIdentities](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFDistribution`
<a name="cloudfront_GetDistribution_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFDistribution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengambil informasi untuk distribusi tertentu.**  

```
Get-CFDistribution -Id EXAMPLE0000ID
```
+  Untuk detail API, lihat [GetDistribution](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFDistributionConfig`
<a name="cloudfront_GetDistributionConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFDistributionConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengambil konfigurasi untuk distribusi tertentu.**  

```
Get-CFDistributionConfig -Id EXAMPLE0000ID
```
+  Untuk detail API, lihat [GetDistributionConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFDistributionList`
<a name="cloudfront_ListDistributions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFDistributionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan distribusi.**  

```
Get-CFDistributionList
```
+  Untuk detail API, lihat [ListDistributions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CFDistribution`
<a name="cloudfront_CreateDistribution_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFDistribution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat CloudFront distribusi dasar, dikonfigurasi dengan logging dan caching.**  

```
$origin = New-Object Amazon.CloudFront.Model.Origin
$origin.DomainName = "amzn-s3-demo-bucket.s3.amazonaws.com"
$origin.Id = "UniqueOrigin1"
$origin.S3OriginConfig = New-Object Amazon.CloudFront.Model.S3OriginConfig
$origin.S3OriginConfig.OriginAccessIdentity = ""
New-CFDistribution `
      -DistributionConfig_Enabled $true `
      -DistributionConfig_Comment "Test distribution" `
      -Origins_Item $origin `
      -Origins_Quantity 1 `
      -Logging_Enabled $true `
      -Logging_IncludeCookie $true `
      -Logging_Bucket amzn-s3-demo-logging-bucket.s3.amazonaws.com `
      -Logging_Prefix "help/" `
      -DistributionConfig_CallerReference Client1 `
      -DistributionConfig_DefaultRootObject index.html `
      -DefaultCacheBehavior_TargetOriginId $origin.Id `
      -ForwardedValues_QueryString $true `
      -Cookies_Forward all `
      -WhitelistedNames_Quantity 0 `
      -TrustedSigners_Enabled $false `
      -TrustedSigners_Quantity 0 `
      -DefaultCacheBehavior_ViewerProtocolPolicy allow-all `
      -DefaultCacheBehavior_MinTTL 1000 `
      -DistributionConfig_PriceClass "PriceClass_All" `
      -CacheBehaviors_Quantity 0 `
      -Aliases_Quantity 0
```
+  Untuk detail API, lihat [CreateDistribution](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CFInvalidation`
<a name="cloudfront_CreateInvalidation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFInvalidation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat pembatalan baru pada distribusi dengan ID EXAMPLENSTXAXE. CallerReference Ini adalah ID unik yang dipilih oleh pengguna; dalam hal ini, cap waktu yang mewakili 15 Mei 2019 pukul 9:00 pagi digunakan. Variabel \$1Paths menyimpan tiga jalur ke file gambar dan media yang tidak diinginkan pengguna sebagai bagian dari cache distribusi. Nilai parameter -Paths\$1Quantity adalah jumlah total jalur yang ditentukan dalam parameter -Paths\$1Item.**  

```
$Paths = "/images/*.gif", "/images/image1.jpg", "/videos/*.mp4"
New-CFInvalidation -DistributionId "EXAMPLENSTXAXE" -InvalidationBatch_CallerReference 20190515090000 -Paths_Item $Paths -Paths_Quantity 3
```
**Output:**  

```
Invalidation                         Location                                                                                          
------------                         --------                                                                                          
Amazon.CloudFront.Model.Invalidation https://cloudfront.amazonaws.com/2018-11-05/distribution/EXAMPLENSTXAXE/invalidation/EXAMPLE8NOK9H
```
+  Untuk detail API, lihat [CreateInvalidation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CFSignedCookie`
<a name="cloudfront_New-CFSignedCookie_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFSignedCookie`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat cookie yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan kalengan. Cookie akan berlaku selama satu tahun.**  

```
$params = @{
	"ResourceUri"="http://xyz.cloudfront.net/image1.jpeg"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=(Get-Date).AddYears(1)
}
New-CFSignedCookie @params
```
**Output:**  

```
Expires
-------
[CloudFront-Expires, 1472227284]
```
**Contoh 2: Membuat cookie yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan khusus. Cookie akan berlaku dalam 24 jam dan akan kedaluwarsa satu minggu sesudahnya.**  

```
$start = (Get-Date).AddHours(24)
$params = @{
	"ResourceUri"="http://xyz.cloudfront.net/content/*.jpeg"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=$start.AddDays(7)
    "ActiveFrom"=$start
}

New-CFSignedCookie @params
```
**Output:**  

```
Policy
------
[CloudFront-Policy, eyJTd...wIjo...
```
**Contoh 3: Membuat cookie yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan khusus. Cookie akan berlaku dalam 24 jam dan akan kedaluwarsa satu minggu sesudahnya. Akses ke sumber daya dibatasi pada rentang ip yang ditentukan.**  

```
$start = (Get-Date).AddHours(24)
$params = @{
	"ResourceUri"="http://xyz.cloudfront.net/content/*.jpeg"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=$start.AddDays(7)
    "ActiveFrom"=$start
	"IpRange"="192.0.2.0/24"
}

New-CFSignedCookie @params
```
**Output:**  

```
Policy                                                                                                                                         ------                                                                                                                                         [CloudFront-Policy, eyJTd...wIjo...
```
+  Untuk detail API, lihat [CFSignedCookie Baru di](https://docs.aws.amazon.com/powershell/v4/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (V4*). 

### `New-CFSignedUrl`
<a name="cloudfront_New-CFSignedUrl_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFSignedUrl`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat url yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan kalengan. Url akan berlaku selama satu jam. Objek System.Uri yang berisi url yang ditandatangani dipancarkan ke pipeline.**  

```
$params = @{
	"ResourceUri"="https://cdn.example.com/index.html"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=(Get-Date).AddHours(1)
}
New-CFSignedUrl @params
```
**Contoh 2: Membuat url yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan khusus. Url akan berlaku mulai dalam 24 jam dan akan kedaluwarsa satu minggu kemudian.**  

```
$start = (Get-Date).AddHours(24)
$params = @{
	"ResourceUri"="https://cdn.example.com/index.html"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=(Get-Date).AddDays(7)
    "ActiveFrom"=$start
}
New-CFSignedUrl @params
```
**Contoh 3: Membuat url yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan khusus. Url akan berlaku mulai dalam 24 jam dan akan kedaluwarsa satu minggu kemudian. Akses ke sumber daya dibatasi pada rentang ip yang ditentukan.**  

```
$start = (Get-Date).AddHours(24)
$params = @{
	"ResourceUri"="https://cdn.example.com/index.html"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=(Get-Date).AddDays(7)
    "ActiveFrom"=$start
    "IpRange"="192.0.2.0/24"	
}
New-CFSignedUrl @params
```
+  Untuk detail API, lihat [CFSignedUrl Baru di](https://docs.aws.amazon.com/powershell/v4/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (V4*). 

# CloudTrail contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_cloudtrail_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan CloudTrail.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Find-CTEvent`
<a name="cloudtrail_LookupEvents_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Find-CTEvent`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua peristiwa yang telah terjadi selama tujuh hari terakhir. Cmdlet secara default secara otomatis membuat beberapa panggilan untuk mengirimkan semua peristiwa, keluar ketika layanan menunjukkan tidak ada data lebih lanjut yang tersedia.**  

```
Find-CTEvent
```
**Contoh 2: Mengembalikan semua peristiwa yang telah terjadi selama tujuh hari terakhir menentukan wilayah yang bukan default shell saat ini.**  

```
Find-CTEvent -Region eu-central-1
```
**Contoh 3: Mengembalikan semua peristiwa yang terkait dengan panggilan RunInstances API.**  

```
Find-CTEvent -LookupAttribute @{ AttributeKey="EventName"; AttributeValue="RunInstances" }
```
**Contoh 4: Mengembalikan 5 peristiwa pertama yang tersedia.**  

```
Find-CTEvent -MaxResult 5
```
+  Untuk detail API, lihat [LookupEvents](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CTTrail`
<a name="cloudtrail_DescribeTrails_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CTTrail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan pengaturan semua jejak yang terkait dengan wilayah saat ini untuk akun Anda.**  

```
Get-CTTrail
```
**Contoh 2: Mengembalikan pengaturan untuk jalur yang ditentukan.**  

```
Get-CTTrail -TrailNameList trail1,trail2
```
**Contoh 3: Mengembalikan pengaturan untuk jejak tertentu yang dibuat di wilayah selain default shell saat ini (dalam hal ini wilayah Frankfurt (eu-central-1)).**  

```
Get-CTTrail -TrailNameList trailABC,trailDEF -Region eu-central-1
```
+  Untuk detail API, lihat [DescribeTrails](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CTTrailStatus`
<a name="cloudtrail_GetTrailStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CTTrailStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan informasi status untuk jejak dengan nama 'myExampleTrail'. Data yang dikembalikan mencakup informasi tentang kesalahan pengiriman, kesalahan Amazon SNS, dan Amazon S3, serta waktu mulai dan hentikan pencatatan untuk jejak. Contoh ini mengasumsikan jejak dibuat di wilayah yang sama dengan default shell saat ini.**  

```
Get-CTTrailStatus -Name myExampleTrail
```
**Contoh 2: Mengembalikan informasi status untuk jejak yang dibuat di wilayah selain default shell saat ini (dalam hal ini, wilayah Frankfurt (eu-central-1)).**  

```
Get-CTTrailStatus -Name myExampleTrail -Region eu-central-1
```
+  Untuk detail API, lihat [GetTrailStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CTTrail`
<a name="cloudtrail_CreateTrail_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CTTrail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat jejak yang akan menggunakan bucket 'amzn-s3-demo-bucket' untuk penyimpanan file log.**  

```
New-CTTrail -Name "awscloudtrail-example" -S3BucketName "amzn-s3-demo-bucket"
```
**Contoh 2: Membuat jejak yang akan menggunakan bucket 'amzn-s3-demo-bucket' untuk penyimpanan file log. Objek S3 yang mewakili log akan memiliki key prefix umum 'mylogs'. Saat log baru dikirimkan ke bucket, notifikasi akan dikirim ke topik SNS 'mlog-deliverytopic'. Contoh ini menggunakan percikan untuk memasok nilai parameter ke cmdlet.**  

```
$params = @{
    Name="awscloudtrail-example"
    S3BucketName="amzn-s3-demo-bucket"
    S3KeyPrefix="mylogs"
    SnsTopicName="mlog-deliverytopic"
}      
New-CTTrail @params
```
+  Untuk detail API, lihat [CreateTrail](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CTTrail`
<a name="cloudtrail_DeleteTrail_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CTTrail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus jejak yang ditentukan. Anda akan diminta konfirmasi sebelum perintah dijalankan. Untuk menekan konfirmasi, tambahkan parameter sakelar -Force.**  

```
Remove-CTTrail -Name "awscloudtrail-example"
```
+  Untuk detail API, lihat [DeleteTrail](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-CTLogging`
<a name="cloudtrail_StartLogging_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-CTLogging`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memulai perekaman panggilan AWS API dan pengiriman file log untuk jejak bernama 'myExampleTrail'. Contoh ini mengasumsikan jejak dibuat di wilayah yang sama dengan default shell saat ini.**  

```
Start-CTLogging -Name myExampleTrail
```
**Contoh 2: Memulai perekaman panggilan AWS API dan pengiriman file log untuk jejak yang dibuat di wilayah selain default shell saat ini (dalam hal ini, wilayah Frankfurt (eu-central-1)).**  

```
Start-CTLogging -Name myExampleTrail -Region eu-central-1
```
+  Untuk detail API, lihat [StartLogging](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-CTLogging`
<a name="cloudtrail_StopLogging_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-CTLogging`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menangguhkan perekaman panggilan AWS API dan pengiriman file log untuk jejak bernama 'myExampleTrail'. Contoh ini mengasumsikan jejak dibuat di wilayah yang sama dengan default shell saat ini.**  

```
Stop-CTLogging -Name myExampleTrail
```
**Contoh 2: Menangguhkan perekaman panggilan AWS API dan pengiriman file log untuk jejak yang dibuat di wilayah selain default shell saat ini (dalam hal ini, wilayah Frankfurt (eu-central-1)).**  

```
Stop-CTLogging -Name myExampleTrail -Region eu-central-1
```
+  Untuk detail API, lihat [StopLogging](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CTTrail`
<a name="cloudtrail_UpdateTrail_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CTTrail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui jejak yang ditentukan sehingga peristiwa layanan global (seperti yang dari IAM) direkam dan mengubah awalan kunci umum dari file log yang akan maju menjadi 'globallogs'.**  

```
Update-CTTrail -Name "awscloudtrail-example" -IncludeGlobalServiceEvents $true -S3KeyPrefix "globallogs"
```
**Contoh 2: Memperbarui jejak yang ditentukan sehingga pemberitahuan tentang pengiriman log baru dikirim ke topik SNS yang ditentukan.**  

```
Update-CTTrail -Name "awscloudtrail-example" -SnsTopicName "mlog-deliverytopic2"
```
**Contoh 3: Memperbarui jejak yang ditentukan sehingga log dikirim ke ember yang berbeda.**  

```
Update-CTTrail -Name "awscloudtrail-example" -S3BucketName "otherlogs"
```
+  Untuk detail API, lihat [UpdateTrail](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# CloudWatch contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan CloudWatch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CWAlarm`
<a name="cloudwatch_DescribeAlarms_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CWAlarm`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua alarm termasuk Alarm Komposit dan Metrik dari. CloudWatch**  

```
Get-CWAlarm -MaxRecords 1
```
**Output:**  

```
CompositeAlarms MetricAlarms         NextToken
--------------- ------------         ---------
                {MetricAlarms-01}    NextToken-01
                {MetricAlarms-02}    NextToken-02
                {MetricAlarms-03}    NextToken-03
```
**Contoh 2: Mengembalikan hanya data alarm komposit dari CloudWatch setelah pengaturan - AlarmType parameter ke CompositeAlarms.**  

```
Get-CWAlarm -AlarmType 'CompositeAlarms'
```
**Output:**  

```
CompositeAlarms        MetricAlarms NextToken
---------------        ------------ ---------
{CompositeAlarms-01}
{CompositeAlarms-02}
{CompositeAlarms-03}
```
+  Untuk detail API, lihat [DescribeAlarms](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CWDashboard`
<a name="cloudwatch_GetDashboard_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CWDashboard`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan arn badan dasbor yang ditentukan.**  

```
Get-CWDashboard -DashboardName Dashboard1
```
**Output:**  

```
DashboardArn                                          DashboardBody
------------                                          -------------
arn:aws:cloudwatch::123456789012:dashboard/Dashboard1 {...
```
+  Untuk detail API, lihat [GetDashboard](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CWDashboardList`
<a name="cloudwatch_ListDashboards_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CWDashboardList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan koleksi dasbor untuk akun Anda.**  

```
Get-CWDashboardList
```
**Output:**  

```
DashboardArn DashboardName LastModified        Size
------------ ------------- ------------        ----
arn:...      Dashboard1    7/6/2017 8:14:15 PM 252
```
**Contoh 2: Mengembalikan koleksi dasbor untuk akun Anda yang namanya dimulai dengan awalan 'dev'.**  

```
Get-CWDashboardList -DashboardNamePrefix dev
```
+  Untuk detail API, lihat [ListDashboards](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CWDashboard`
<a name="cloudwatch_DeleteDashboards_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CWDashboard`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus dasbor yang ditentukan, mempromosikan konfirmasi sebelum melanjutkan. Untuk melewati konfirmasi tambahkan sakelar -Force ke perintah.**  

```
Remove-CWDashboard -DashboardName Dashboard1
```
+  Untuk detail API, lihat [DeleteDashboards](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-CWDashboard`
<a name="cloudwatch_PutDashboard_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-CWDashboard`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat atau memperbarui dasbor bernama 'Dashboard1' untuk menyertakan dua widget metrik secara berdampingan.**  

```
$dashBody = @"
{
    "widgets":[
        {
             "type":"metric",
             "x":0,
             "y":0,
             "width":12,
             "height":6,
             "properties":{
                "metrics":[
                   [
                      "AWS/EC2",
                      "CPUUtilization",
                      "InstanceId",
                      "i-012345"
                   ]
                ],
                "period":300,
                "stat":"Average",
                "region":"us-east-1",
                "title":"EC2 Instance CPU"
             }
        },
        {
             "type":"metric",
             "x":12,
             "y":0,
             "width":12,
             "height":6,
             "properties":{
                "metrics":[
                   [
                      "AWS/S3",
                      "BucketSizeBytes",
                      "BucketName",
                      "amzn-s3-demo-bucket"
                   ]
                ],
                "period":86400,
                "stat":"Maximum",
                "region":"us-east-1",
                "title":"amzn-s3-demo-bucket bytes"
            }
        }
    ]
}
"@

Write-CWDashboard -DashboardName Dashboard1 -DashboardBody $dashBody
```
**Contoh 2: Membuat atau memperbarui dasbor, menyalurkan konten yang menjelaskan dasbor ke dalam cmdlet.**  

```
$dashBody = @"
{
...
}
"@
        
$dashBody | Write-CWDashboard -DashboardName Dashboard1
```
+  Untuk detail API, lihat [PutDashboard](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-CWMetricData`
<a name="cloudwatch_PutMetricData_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-CWMetricData`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat MetricDatum objek baru, dan menuliskannya ke Amazon Web Services CloudWatch Metrics.**  

```
### Create a MetricDatum .NET object
$Metric = New-Object -TypeName Amazon.CloudWatch.Model.MetricDatum
$Metric.Timestamp = [DateTime]::UtcNow
$Metric.MetricName = 'CPU'
$Metric.Value = 50

### Write the metric data to the CloudWatch service
Write-CWMetricData -Namespace instance1 -MetricData $Metric
```
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# CodeCommit contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_codecommit_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan CodeCommit.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CCBranch`
<a name="codecommit_GetBranch_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCBranch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapat informasi tentang cabang yang ditentukan untuk repositori yang ditentukan.**  

```
Get-CCBranch -RepositoryName MyDemoRepo -BranchName MyNewBranch
```
**Output:**  

```
BranchName                              CommitId
----------                              --------
MyNewBranch                             7763222d...561fc9c9
```
+  Untuk detail API, lihat [GetBranch](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CCBranchList`
<a name="codecommit_ListBranches_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCBranchList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar nama cabang untuk repositori yang ditentukan.**  

```
Get-CCBranchList -RepositoryName MyDemoRepo
```
**Output:**  

```
master
MyNewBranch
```
+  Untuk detail API, lihat [ListBranches](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CCRepository`
<a name="codecommit_GetRepository_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCRepository`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi untuk repositori yang ditentukan.**  

```
Get-CCRepository -RepositoryName MyDemoRepo
```
**Output:**  

```
AccountId             : 80398EXAMPLE
Arn                   : arn:aws:codecommit:us-east-1:80398EXAMPLE:MyDemoRepo
CloneUrlHttp          : https://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo
CloneUrlSsh           : ssh://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo
CreationDate          : 9/8/2015 3:21:33 PM
DefaultBranch         :
LastModifiedDate      : 9/8/2015 3:21:33 PM
RepositoryDescription : This is a repository for demonstration purposes.
RepositoryId          : c7d0d2b0-ce40-4303-b4c3-38529EXAMPLE
RepositoryName        : MyDemoRepo
```
+  Untuk detail API, lihat [GetRepository](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CCRepositoryBatch`
<a name="codecommit_BatchGetRepositories_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCRepositoryBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengonfirmasi repositori mana yang ditemukan dan tidak ditemukan.**  

```
Get-CCRepositoryBatch -RepositoryName MyDemoRepo, MyNewRepo, AMissingRepo
```
**Output:**  

```
Repositories                            RepositoriesNotFound
------------                            --------------------
{MyDemoRepo, MyNewRepo}                {AMissingRepo}
```
+  Untuk detail API, lihat [BatchGetRepositories](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CCRepositoryList`
<a name="codecommit_ListRepositories_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCRepositoryList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua repositori dalam urutan menaik berdasarkan nama repositori.**  

```
Get-CCRepositoryList -Order Ascending -SortBy RepositoryName
```
**Output:**  

```
RepositoryId                            RepositoryName
------------                            --------------
c7d0d2b0-ce40-4303-b4c3-38529EXAMPLE    MyDemoRepo
05f30c66-e3e3-4f91-a0cd-1c84aEXAMPLE    MyNewRepo
```
+  Untuk detail API, lihat [ListRepositories](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CCBranch`
<a name="codecommit_CreateBranch_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CCBranch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat cabang baru dengan nama yang ditentukan untuk repositori tertentu dan ID komit yang ditentukan.**  

```
New-CCBranch -RepositoryName MyDemoRepo -BranchName MyNewBranch -CommitId 7763222d...561fc9c9
```
+  Untuk detail API, lihat [CreateBranch](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CCRepository`
<a name="codecommit_CreateRepository_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CCRepository`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat repositori baru dengan nama yang ditentukan dan deskripsi yang ditentukan.**  

```
New-CCRepository -RepositoryName MyDemoRepo -RepositoryDescription "This is a repository for demonstration purposes."
```
**Output:**  

```
AccountId             : 80398EXAMPLE
Arn                   : arn:aws:codecommit:us-east-1:80398EXAMPLE:MyDemoRepo
CloneUrlHttp          : https://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo
CloneUrlSsh           : ssh://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo
CreationDate          : 9/18/2015 4:13:25 PM
DefaultBranch         :
LastModifiedDate      : 9/18/2015 4:13:25 PM
RepositoryDescription : This is a repository for demonstration purposes.
RepositoryId          : 43ef2443-3372-4b12-9e78-65c27EXAMPLE
RepositoryName        : MyDemoRepo
```
+  Untuk detail API, lihat [CreateRepository](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CCRepository`
<a name="codecommit_DeleteRepository_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CCRepository`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini secara paksa menghapus repositori yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus repositori tanpa prompt.**  

```
Remove-CCRepository -RepositoryName MyDemoRepo
```
**Output:**  

```
43ef2443-3372-4b12-9e78-65c27EXAMPLE
```
+  Untuk detail API, lihat [DeleteRepository](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CCDefaultBranch`
<a name="codecommit_UpdateDefaultBranch_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CCDefaultBranch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah cabang default untuk repositori yang ditentukan ke cabang yang ditentukan.**  

```
Update-CCDefaultBranch -RepositoryName MyDemoRepo -DefaultBranchName MyNewBranch
```
+  Untuk detail API, lihat [UpdateDefaultBranch](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CCRepositoryDescription`
<a name="codecommit_UpdateRepositoryDescription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CCRepositoryDescription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah deskripsi untuk repositori yang ditentukan.**  

```
Update-CCRepositoryDescription -RepositoryName MyDemoRepo -RepositoryDescription "This is an updated description."
```
+  Untuk detail API, lihat [UpdateRepositoryDescription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CCRepositoryName`
<a name="codecommit_UpdateRepositoryName_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CCRepositoryName`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah nama repositori yang ditentukan.**  

```
Update-CCRepositoryName -NewName MyDemoRepo2 -OldName MyDemoRepo
```
+  Untuk detail API, lihat [UpdateRepositoryName](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# CodeDeploy contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_codedeploy_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan CodeDeploy.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-CDOnPremiseInstanceTag`
<a name="codedeploy_AddTagsToOnPremisesInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-CDOnPremiseInstanceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan tag instans lokal dengan kunci dan nilai yang ditentukan untuk instans lokal yang ditentukan.**  

```
Add-CDOnPremiseInstanceTag -InstanceName AssetTag12010298EX -Tag @{"Key" = "Name"; "Value" = "CodeDeployDemo-OnPrem"}
```
+  Untuk detail API, lihat [AddTagsToOnPremisesInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDApplication`
<a name="codedeploy_GetApplication_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplication`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang aplikasi yang ditentukan.**  

```
Get-CDApplication -ApplicationName CodeDeployDemoApplication
```
**Output:**  

```
ApplicationId                           ApplicationName              CreateTime              LinkedToGitHub
-------------                           ---------------              ----------              --------------
e07fb938-091e-4f2f-8963-4d3e8EXAMPLE    CodeDeployDemoApplication    7/20/2015 9:49:48 PM    False
```
+  Untuk detail API, lihat [GetApplication](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDApplicationBatch`
<a name="codedeploy_BatchGetApplications_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplicationBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang aplikasi yang ditentukan.**  

```
Get-CDApplicationBatch -ApplicationName CodeDeployDemoApplication, CodePipelineDemoApplication
```
**Output:**  

```
ApplicationId                           ApplicationName              CreateTime              LinkedToGitHub
-------------                           ---------------              ----------              --------------
e07fb938-091e-4f2f-8963-4d3e8EXAMPLE    CodeDeployDemoApplication    7/20/2015 9:49:48 PM    False
1ecfd602-62f1-4038-8f0d-06688EXAMPLE    CodePipelineDemoApplication  8/13/2015 5:53:26 PM    False
```
+  Untuk detail API, lihat [BatchGetApplications](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDApplicationList`
<a name="codedeploy_ListApplications_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplicationList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar aplikasi yang tersedia.**  

```
Get-CDApplicationList
```
**Output:**  

```
CodeDeployDemoApplication
CodePipelineDemoApplication
```
+  Untuk detail API, lihat [ListApplications](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDApplicationRevision`
<a name="codedeploy_GetApplicationRevision_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplicationRevision`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang revisi aplikasi yang ditentukan.**  

```
$revision = Get-CDApplicationRevision -ApplicationName CodeDeployDemoApplication -S3Location_Bucket amzn-s3-demo-bucket -Revision_RevisionType S3 -S3Location_Key 5xd27EX.zip -S3Location_BundleType zip -S3Location_ETag 4565c1ac97187f190c1a90265EXAMPLE
Write-Output ("Description = " + $revision.RevisionInfo.Description + ", RegisterTime = " + $revision.RevisionInfo.RegisterTime)
```
**Output:**  

```
Description = Application revision registered by Deployment ID: d-CX9CHN3EX, RegisterTime = 07/20/2015 23:46:42
```
+  Untuk detail API, lihat [GetApplicationRevision](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDApplicationRevisionList`
<a name="codedeploy_ListApplicationRevisions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplicationRevisionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang revisi yang tersedia untuk aplikasi yang ditentukan.**  

```
ForEach ($revision in (Get-CDApplicationRevisionList -ApplicationName CodeDeployDemoApplication -Deployed Ignore)) {
>>   If ($revision.RevisionType -Eq "S3") {
>>     Write-Output ("Type = S3, Bucket = " + $revision.S3Location.Bucket + ", BundleType = " + $revision.S3Location.BundleType + ", ETag = " + $revision.S3Location.ETag + ", Key = " + $revision.S3Location.Key)
>>   }
>>   If ($revision.RevisionType -Eq "GitHub") {
>>     Write-Output ("Type = GitHub, CommitId = " + $revision.GitHubLocation.CommitId + ", Repository = " + $revision.GitHubLocation.Repository)
>>   }
>> }
>>
```
**Output:**  

```
Type = S3, Bucket = amzn-s3-demo-bucket, BundleType = zip, ETag = 4565c1ac97187f190c1a90265EXAMPLE, Key = 5xd27EX.zip
Type = GitHub, CommitId = f48933c3...76405362, Repository = MyGitHubUser/CodeDeployDemoRepo
```
+  Untuk detail API, lihat [ListApplicationRevisions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeployment`
<a name="codedeploy_GetDeployment_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeployment`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi ringkasan tentang penerapan yang ditentukan.**  

```
Get-CDDeployment -DeploymentId d-QZMRGSTEX
```
**Output:**  

```
ApplicationName               : CodeDeployDemoApplication
CompleteTime                  : 7/23/2015 11:26:04 PM
CreateTime                    : 7/23/2015 11:24:43 PM
Creator                       : user
DeploymentConfigName          : CodeDeployDefault.OneAtATime
DeploymentGroupName           : CodeDeployDemoFleet
DeploymentId                  : d-QZMRGSTEX
DeploymentOverview            : Amazon.CodeDeploy.Model.DeploymentOverview
Description                   :
ErrorInformation              :
IgnoreApplicationStopFailures : False
Revision                      : Amazon.CodeDeploy.Model.RevisionLocation
StartTime                     : 1/1/0001 12:00:00 AM
Status                        : Succeeded
```
**Contoh 2: Contoh ini mendapatkan informasi tentang status instance yang berpartisipasi dalam penerapan yang ditentukan.**  

```
(Get-CDDeployment -DeploymentId d-QZMRGSTEX).DeploymentOverview
```
**Output:**  

```
Failed     : 0
InProgress : 0
Pending    : 0
Skipped    : 0
Succeeded  : 3
```
**Contoh 3: Contoh ini mendapatkan informasi tentang revisi aplikasi untuk penerapan yang ditentukan.**  

```
(Get-CDDeployment -DeploymentId d-QZMRGSTEX).Revision.S3Location
```
**Output:**  

```
Bucket     : amzn-s3-demo-bucket
BundleType : zip
ETag       : cfbb81b304ee5e27efc21adaed3EXAMPLE
Key        : clzfqEX
Version    :
```
+  Untuk detail API, lihat [GetDeployment](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeploymentBatch`
<a name="codedeploy_BatchGetDeployments_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang penerapan yang ditentukan.**  

```
Get-CDDeploymentBatch -DeploymentId d-QZMRGSTEX, d-RR0T5KTEX
```
**Output:**  

```
ApplicationName               : CodeDeployDemoApplication
CompleteTime                  : 7/23/2015 11:26:04 PM
CreateTime                    : 7/23/2015 11:24:43 PM
Creator                       : user
DeploymentConfigName          : CodeDeployDefault.OneAtATime
DeploymentGroupName           : CodeDeployDemoFleet
DeploymentId                  : d-QZMRGSTEX
DeploymentOverview            : Amazon.CodeDeploy.Model.DeploymentOverview
Description                   :
ErrorInformation              :
IgnoreApplicationStopFailures : False
Revision                      : Amazon.CodeDeploy.Model.RevisionLocation
StartTime                     : 1/1/0001 12:00:00 AM
Status                        : Succeeded

ApplicationName               : CodePipelineDemoApplication
CompleteTime                  : 7/23/2015 6:07:30 PM
CreateTime                    : 7/23/2015 6:06:29 PM
Creator                       : user
DeploymentConfigName          : CodeDeployDefault.OneAtATime
DeploymentGroupName           : CodePipelineDemoFleet
DeploymentId                  : d-RR0T5KTEX
DeploymentOverview            : Amazon.CodeDeploy.Model.DeploymentOverview
Description                   :
ErrorInformation              :
IgnoreApplicationStopFailures : False
Revision                      : Amazon.CodeDeploy.Model.RevisionLocation
StartTime                     : 1/1/0001 12:00:00 AM
Status                        : Succeeded
```
+  Untuk detail API, lihat [BatchGetDeployments](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeploymentConfig`
<a name="codedeploy_GetDeploymentConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi ringkasan tentang konfigurasi penerapan yang ditentukan.**  

```
Get-CDDeploymentConfig -DeploymentConfigName ThreeQuartersHealthy
```
**Output:**  

```
CreateTime              DeploymentConfigId                      DeploymentConfigName    MinimumHealthyHosts
----------              ------------------                      --------------------    -------------------
10/3/2014 4:32:30 PM    518a3950-d034-46a1-9d2c-3c949EXAMPLE    ThreeQuartersHealthy    Amazon.CodeDeploy.Model.MinimumHealthyHosts
```
**Contoh 2: Contoh ini mendapatkan informasi tentang definisi konfigurasi penerapan yang ditentukan.**  

```
Write-Output ((Get-CDDeploymentConfig -DeploymentConfigName ThreeQuartersHealthy).MinimumHealthyHosts)
```
**Output:**  

```
Type             Value
----             -----
FLEET_PERCENT    75
```
+  Untuk detail API, lihat [GetDeploymentConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeploymentConfigList`
<a name="codedeploy_ListDeploymentConfigs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentConfigList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar konfigurasi penerapan yang tersedia.**  

```
Get-CDDeploymentConfigList
```
**Output:**  

```
ThreeQuartersHealthy
CodeDeployDefault.OneAtATime
CodeDeployDefault.AllAtOnce
CodeDeployDefault.HalfAtATime
```
+  Untuk detail API, lihat [ListDeploymentConfigs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeploymentGroup`
<a name="codedeploy_GetDeploymentGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang grup penyebaran yang ditentukan.**  

```
Get-CDDeploymentGroup -ApplicationName CodeDeployDemoApplication -DeploymentGroupName CodeDeployDemoFleet
```
**Output:**  

```
ApplicationName              : CodeDeployDemoApplication
AutoScalingGroups            : {}
DeploymentConfigName         : CodeDeployDefault.OneAtATime
DeploymentGroupId            : 7d7c098a-b444-4b27-96ef-22791EXAMPLE
DeploymentGroupName          : CodeDeployDemoFleet
Ec2TagFilters                : {Name}
OnPremisesInstanceTagFilters : {}
ServiceRoleArn               : arn:aws:iam::80398EXAMPLE:role/CodeDeploySampleStack-4ph6EX-CodeDeployTrustRole-O9MWP7XTL8EX
TargetRevision               : Amazon.CodeDeploy.Model.RevisionLocation
```
+  Untuk detail API, lihat [GetDeploymentGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeploymentGroupList`
<a name="codedeploy_ListDeploymentGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentGroupList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar grup penyebaran untuk aplikasi yang ditentukan.**  

```
Get-CDDeploymentGroupList -ApplicationName CodeDeployDemoApplication
```
**Output:**  

```
ApplicationName              DeploymentGroups                                    NextToken
---------------              ----------------                                    ---------
CodeDeployDemoApplication    {CodeDeployDemoFleet, CodeDeployProductionFleet}
```
+  Untuk detail API, lihat [ListDeploymentGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeploymentInstance`
<a name="codedeploy_GetDeploymentInstance_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang instance yang ditentukan untuk penerapan yang ditentukan.**  

```
Get-CDDeploymentInstance -DeploymentId d-QZMRGSTEX -InstanceId i-254e22EX
```
**Output:**  

```
DeploymentId    : d-QZMRGSTEX
InstanceId      : arn:aws:ec2:us-east-1:80398EXAMPLE:instance/i-254e22EX
LastUpdatedAt   : 7/23/2015 11:25:24 PM
LifecycleEvents : {ApplicationStop, DownloadBundle, BeforeInstall, Install...}
Status          : Succeeded
```
+  Untuk detail API, lihat [GetDeploymentInstance](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeploymentInstanceList`
<a name="codedeploy_ListDeploymentInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentInstanceList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar instance IDs untuk penerapan yang ditentukan.**  

```
Get-CDDeploymentInstanceList -DeploymentId d-QZMRGSTEX
```
**Output:**  

```
i-254e22EX
i-274e22EX
i-3b4e22EX
```
+  Untuk detail API, lihat [ListDeploymentInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDDeploymentList`
<a name="codedeploy_ListDeployments_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar penerapan IDs untuk grup aplikasi dan penyebaran yang ditentukan.**  

```
Get-CDDeploymentList -ApplicationName CodeDeployDemoApplication -DeploymentGroupName CodeDeployDemoFleet
```
**Output:**  

```
d-QZMRGSTEX
d-RR0T5KTEX
```
+  Untuk detail API, lihat [ListDeployments](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDOnPremiseInstance`
<a name="codedeploy_GetOnPremisesInstance_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDOnPremiseInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang instans lokal yang ditentukan.**  

```
Get-CDOnPremiseInstance -InstanceName AssetTag12010298EX
```
**Output:**  

```
DeregisterTime : 1/1/0001 12:00:00 AM
IamUserArn     : arn:aws:iam::80398EXAMPLE:user/CodeDeployDemoUser
InstanceArn    : arn:aws:codedeploy:us-east-1:80398EXAMPLE:instance/AssetTag12010298EX_rDH556dxEX
InstanceName   : AssetTag12010298EX
RegisterTime   : 4/3/2015 6:36:24 PM
Tags           : {Name}
```
+  Untuk detail API, lihat [GetOnPremisesInstance](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDOnPremiseInstanceBatch`
<a name="codedeploy_BatchGetOnPremisesInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDOnPremiseInstanceBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang instance lokal yang ditentukan.**  

```
Get-CDOnPremiseInstanceBatch -InstanceName AssetTag12010298EX, AssetTag12010298EX-2
```
**Output:**  

```
DeregisterTime : 1/1/0001 12:00:00 AM
IamUserArn     : arn:aws:iam::80398EXAMPLE:user/CodeDeployFRWUser
InstanceArn    : arn:aws:codedeploy:us-east-1:80398EXAMPLE:instance/AssetTag12010298EX-2_XmeSz18rEX
InstanceName   : AssetTag12010298EX-2
RegisterTime   : 4/3/2015 6:38:52 PM
Tags           : {Name}

DeregisterTime : 1/1/0001 12:00:00 AM
IamUserArn     : arn:aws:iam::80398EXAMPLE:user/CodeDeployDemoUser
InstanceArn    : arn:aws:codedeploy:us-east-1:80398EXAMPLE:instance/AssetTag12010298EX_rDH556dxEX
InstanceName   : AssetTag12010298EX
RegisterTime   : 4/3/2015 6:36:24 PM
Tags           : {Name}
```
+  Untuk detail API, lihat [BatchGetOnPremisesInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CDOnPremiseInstanceList`
<a name="codedeploy_ListOnPremisesInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDOnPremiseInstanceList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar nama instans lokal yang tersedia.**  

```
Get-CDOnPremiseInstanceList
```
**Output:**  

```
AssetTag12010298EX
AssetTag12010298EX-2
```
+  Untuk detail API, lihat [ListOnPremisesInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CDApplication`
<a name="codedeploy_CreateApplication_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CDApplication`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat aplikasi baru dengan nama yang ditentukan.**  

```
New-CDApplication -ApplicationName MyNewApplication
```
**Output:**  

```
f19e4b61-2231-4328-b0fd-e57f5EXAMPLE
```
+  Untuk detail API, lihat [CreateApplication](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CDDeployment`
<a name="codedeploy_CreateDeployment_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CDDeployment`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat penyebaran baru untuk grup aplikasi dan penyebaran yang ditentukan dengan konfigurasi penerapan dan revisi aplikasi yang ditentukan.**  

```
New-CDDeployment -ApplicationName MyNewApplication -S3Location_Bucket amzn-s3-demo-bucket -S3Location_BundleType zip -DeploymentConfigName CodeDeployDefault.OneAtATime -DeploymentGroupName MyNewDeploymentGroup -IgnoreApplicationStopFailures $True -S3Location_Key aws-codedeploy_linux-master.zip -RevisionType S3
```
**Output:**  

```
d-ZHROG7UEX
```
**Contoh 2: Contoh ini menunjukkan cara menentukan grup tag instans EC2 yang harus diidentifikasi oleh sebuah instance agar dapat disertakan dalam lingkungan pengganti untuk blue/green penerapan.**  

```
New-CDDeployment -ApplicationName MyNewApplication -S3Location_Bucket amzn-s3-demo-bucket -S3Location_BundleType zip -DeploymentConfigName CodeDeployDefault.OneAtATime -DeploymentGroupName MyNewDeploymentGroup -IgnoreApplicationStopFailures $True -S3Location_Key aws-codedeploy_linux-master.zip -RevisionType S3 -Ec2TagSetList @(@{Key="key1";Type="KEY_ONLY"},@{Key="Key2";Type="KEY_AND_VALUE";Value="Value2"}),@(@{Key="Key3";Type="VALUE_ONLY";Value="Value3"})
```
**Output:**  

```
d-ZHROG7UEX
```
+  Untuk detail API, lihat [CreateDeployment](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CDDeploymentConfig`
<a name="codedeploy_CreateDeploymentConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CDDeploymentConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat konfigurasi penerapan baru dengan nama dan perilaku yang ditentukan.**  

```
New-CDDeploymentConfig -DeploymentConfigName AtLeastTwoHealthyHosts -MinimumHealthyHosts_Type HOST_COUNT -MinimumHealthyHosts_Value 2
```
**Output:**  

```
0f3e8187-44ef-42da-aeed-b6823EXAMPLE
```
+  Untuk detail API, lihat [CreateDeploymentConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CDDeploymentGroup`
<a name="codedeploy_CreateDeploymentGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CDDeploymentGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat grup penyebaran dengan nama yang ditentukan, grup Auto Scaling, konfigurasi penerapan, tag, dan peran layanan, untuk aplikasi yang ditentukan.**  

```
New-CDDeploymentGroup -ApplicationName MyNewApplication -AutoScalingGroup CodeDeployDemo-ASG -DeploymentConfigName CodeDeployDefault.OneAtATime -DeploymentGroupName MyNewDeploymentGroup -Ec2TagFilter @{Key="Name"; Type="KEY_AND_VALUE"; Value="CodeDeployDemo"} -ServiceRoleArn arn:aws:iam::80398EXAMPLE:role/CodeDeployDemo
```
**Output:**  

```
16bbf199-95fd-40fc-a909-0bbcfEXAMPLE
```
**Contoh 2: Contoh ini menunjukkan cara menentukan grup tag instans EC2 yang harus diidentifikasi oleh sebuah instance agar dapat disertakan dalam lingkungan pengganti untuk blue/green penerapan.**  

```
New-CDDeploymentGroup -ApplicationName MyNewApplication -AutoScalingGroup CodeDeployDemo-ASG -DeploymentConfigName CodeDeployDefault.OneAtATime -DeploymentGroupName MyNewDeploymentGroup -Ec2TagFilter @{Key="Name"; Type="KEY_AND_VALUE"; Value="CodeDeployDemo"} -ServiceRoleArn arn:aws:iam::80398EXAMPLE:role/CodeDeployDemo -Ec2TagSetList @(@{Key="key1";Type="KEY_ONLY"},@{Key="Key2";Type="KEY_AND_VALUE";Value="Value2"}),@(@{Key="Key3";Type="VALUE_ONLY";Value="Value3"})
```
**Output:**  

```
16bbf199-95fd-40fc-a909-0bbcfEXAMPLE
```
+  Untuk detail API, lihat [CreateDeploymentGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-CDApplicationRevision`
<a name="codedeploy_RegisterApplicationRevision_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-CDApplicationRevision`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan revisi aplikasi dengan lokasi Amazon S3 yang ditentukan, untuk aplikasi yang ditentukan.**  

```
Register-CDApplicationRevision -ApplicationName MyNewApplication -S3Location_Bucket amzn-s3-demo-bucket -S3Location_BundleType zip -S3Location_Key aws-codedeploy_linux-master.zip -Revision_RevisionType S3
```
+  Untuk detail API, lihat [RegisterApplicationRevision](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-CDOnPremiseInstance`
<a name="codedeploy_RegisterOnPremisesInstance_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-CDOnPremiseInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan instance lokal dengan nama yang ditentukan dan pengguna IAM.**  

```
Register-CDOnPremiseInstance -IamUserArn arn:aws:iam::80398EXAMPLE:user/CodeDeployDemoUser -InstanceName AssetTag12010298EX
```
+  Untuk detail API, lihat [RegisterOnPremisesInstance](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CDApplication`
<a name="codedeploy_DeleteApplication_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CDApplication`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus aplikasi dengan nama yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus aplikasi tanpa prompt.**  

```
Remove-CDApplication -ApplicationName MyNewApplication
```
+  Untuk detail API, lihat [DeleteApplication](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CDDeploymentConfig`
<a name="codedeploy_DeleteDeploymentConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CDDeploymentConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus konfigurasi penerapan dengan nama yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus konfigurasi penerapan tanpa prompt.**  

```
Remove-CDDeploymentConfig -DeploymentConfigName AtLeastTwoHealthyHosts
```
+  Untuk detail API, lihat [DeleteDeploymentConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CDDeploymentGroup`
<a name="codedeploy_DeleteDeploymentGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CDDeploymentGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus grup penyebaran dengan nama yang ditentukan untuk aplikasi yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus grup penyebaran tanpa prompt.**  

```
Remove-CDDeploymentGroup -ApplicationName MyNewApplication -DeploymentGroupName MyNewDeploymentGroup
```
+  Untuk detail API, lihat [DeleteDeploymentGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CDOnPremiseInstanceTag`
<a name="codedeploy_RemoveTagsFromOnPremisesInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CDOnPremiseInstanceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag yang ditentukan untuk instance lokal dengan nama yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus tag tanpa prompt.**  

```
Remove-CDOnPremiseInstanceTag -InstanceName AssetTag12010298EX -Tag @{"Key" = "Name"; "Value" = "CodeDeployDemo-OnPrem"}
```
+  Untuk detail API, lihat [RemoveTagsFromOnPremisesInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-CDDeployment`
<a name="codedeploy_StopDeployment_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-CDDeployment`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencoba menghentikan penerapan dengan ID penerapan yang ditentukan.**  

```
Stop-CDDeployment -DeploymentId d-LJQNREYEX
```
**Output:**  

```
Status     StatusMessage
------     -------------
Pending    Stopping Pending. Stopping to schedule commands in the deployment instances
```
+  Untuk detail API, lihat [StopDeployment](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-CDOnPremiseInstance`
<a name="codedeploy_DeregisterOnPremisesInstance_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-CDOnPremiseInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan pendaftaran instans lokal dengan nama yang ditentukan.**  

```
Unregister-CDOnPremiseInstance -InstanceName AssetTag12010298EX
```
+  Untuk detail API, lihat [DeregisterOnPremisesInstance](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CDApplication`
<a name="codedeploy_UpdateApplication_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CDApplication`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah nama aplikasi yang ditentukan.**  

```
Update-CDApplication -ApplicationName MyNewApplication -NewApplicationName MyNewApplication-2
```
+  Untuk detail API, lihat [UpdateApplication](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CDDeploymentGroup`
<a name="codedeploy_UpdateDeploymentGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CDDeploymentGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah nama grup penyebaran yang ditentukan untuk aplikasi yang ditentukan.**  

```
Update-CDDeploymentGroup -ApplicationName MyNewApplication -CurrentDeploymentGroupName MyNewDeploymentGroup -NewDeploymentGroupName MyNewDeploymentGroup-2
```
**Contoh 2: Contoh ini menunjukkan cara menentukan grup tag instans EC2 yang harus diidentifikasi oleh sebuah instance agar dapat disertakan dalam lingkungan pengganti untuk blue/green penerapan.**  

```
Update-CDDeploymentGroup -ApplicationName MyNewApplication -CurrentDeploymentGroupName MyNewDeploymentGroup -NewDeploymentGroupName MyNewDeploymentGroup-2 -Ec2TagSetList @(@{Key="key1";Type="KEY_ONLY"},@{Key="Key2";Type="KEY_AND_VALUE";Value="Value2"}),@(@{Key="Key3";Type="VALUE_ONLY";Value="Value3"})
```
+  Untuk detail API, lihat [UpdateDeploymentGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# CodePipeline contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_codepipeline_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan CodePipeline.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Confirm-CPJob`
<a name="codepipeline_AcknowledgeJob_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Confirm-CPJob`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan status pekerjaan yang ditentukan.**  

```
Confirm-CPJob -JobId f570dc12-5ef3-44bc-945a-6e133EXAMPLE -Nonce 3
```
**Output:**  

```
Value
-----
InProgress
```
+  Untuk detail API, lihat [AcknowledgeJob](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-CPStageTransition`
<a name="codepipeline_DisableStageTransition_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-CPStageTransition`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan transisi masuk untuk tahap tertentu dalam pipeline yang ditentukan.**  

```
Disable-CPStageTransition -PipelineName CodePipelineDemo -Reason "Disabling temporarily." -StageName Beta -TransitionType Inbound
```
+  Untuk detail API, lihat [DisableStageTransition](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-CPStageTransition`
<a name="codepipeline_EnableStageTransition_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-CPStageTransition`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan transisi inbound untuk tahap tertentu dalam pipeline yang ditentukan.**  

```
Enable-CPStageTransition -PipelineName CodePipelineDemo -StageName Beta -TransitionType Inbound
```
+  Untuk detail API, lihat [EnableStageTransition](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CPActionType`
<a name="codepipeline_ListActionTypes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPActionType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang semua tindakan yang tersedia untuk pemilik yang ditentukan.**  

```
ForEach ($actionType in (Get-CPActionType -ActionOwnerFilter AWS)) {
  Write-Output ("For Category = " + $actionType.Id.Category + ", Owner = " + $actionType.Id.Owner + ", Provider = " + $actionType.Id.Provider + ", Version = " + $actionType.Id.Version + ":")
  Write-Output ("  ActionConfigurationProperties:")
  ForEach ($acp in $actionType.ActionConfigurationProperties) {
    Write-Output ("    For " + $acp.Name + ":")
    Write-Output ("      Description = " + $acp.Description)
    Write-Output ("      Key = " + $acp.Key)
    Write-Output ("      Queryable = " + $acp.Queryable)
    Write-Output ("      Required = " + $acp.Required)
    Write-Output ("      Secret = " + $acp.Secret)
  }
  Write-Output ("  InputArtifactDetails:")
  Write-Output ("    MaximumCount = " + $actionType.InputArtifactDetails.MaximumCount)
  Write-Output ("    MinimumCount = " + $actionType.InputArtifactDetails.MinimumCount)
  Write-Output ("  OutputArtifactDetails:")
  Write-Output ("    MaximumCount = " + $actionType.OutputArtifactDetails.MaximumCount)
  Write-Output ("    MinimumCount = " + $actionType.OutputArtifactDetails.MinimumCount)
  Write-Output ("  Settings:")
  Write-Output ("    EntityUrlTemplate = " + $actionType.Settings.EntityUrlTemplate)
  Write-Output ("    ExecutionUrlTemplate = " + $actionType.Settings.ExecutionUrlTemplate)
}
```
**Output:**  

```
For Category = Deploy, Owner = AWS, Provider = ElasticBeanstalk, Version = 1:
  ActionConfigurationProperties:
    For ApplicationName:
      Description = The AWS Elastic Beanstalk Application name
      Key = True
      Queryable = False
      Required = True
      Secret = False
    For EnvironmentName:
      Description = The AWS Elastic Beanstalk Environment name
      Key = True
      Queryable = False
      Required = True
      Secret = False
  InputArtifactDetails:
    MaximumCount = 1
    MinimumCount = 1
  OutputArtifactDetails:
    MaximumCount = 0
    MinimumCount = 0
  Settings:
    EntityUrlTemplate = https://console.aws.amazon.com/elasticbeanstalk/r/application/{Config:ApplicationName}
    ExecutionUrlTemplate = https://console.aws.amazon.com/elasticbeanstalk/r/application/{Config:ApplicationName} 
For Category = Deploy, Owner = AWS, Provider = CodeDeploy, Version = 1:
  ActionConfigurationProperties:
    For ApplicationName:
      Description = The AWS CodeDeploy Application name
      Key = True
      Queryable = False
      Required = True
      Secret = False
    For DeploymentGroupName:
      Description = The AWS CodeDeploy Deployment Group name
      Key = True
      Queryable = False
      Required = True
      Secret = False
  InputArtifactDetails:
    MaximumCount = 1
    MinimumCount = 1
  OutputArtifactDetails:
    MaximumCount = 0
    MinimumCount = 0
  Settings:
    EntityUrlTemplate = https://console.aws.amazon.com/codedeploy/home?#/applications/{Config:ApplicationName}/deployment-groups/{Config:DeploymentGroupName}
    ExecutionUrlTemplate = https://console.aws.amazon.com/codedeploy/home?#/deployments/{ExternalExecutionId}
```
+  Untuk detail API, lihat [ListActionTypes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CPActionableJobList`
<a name="codepipeline_PollForJobs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPActionableJobList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi tentang semua pekerjaan yang dapat ditindaklanjuti untuk kategori tindakan tertentu, pemilik, penyedia, versi, dan parameter kueri.**  

```
Get-CPActionableJobList -ActionTypeId_Category Build -ActionTypeId_Owner Custom -ActionTypeId_Provider MyCustomProviderName -ActionTypeId_Version 1 -QueryParam @{"ProjectName" = "MyProjectName"}
```
**Output:**  

```
AccountId       Data                                 Id                                      Nonce
---------       ----                                 --                                      -----
80398EXAMPLE    Amazon.CodePipeline.Model.JobData    0de392f5-712d-4f41-ace3-f57a0EXAMPLE    3
```
+  Untuk detail API, lihat [PollForJobs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CPJobDetail`
<a name="codepipeline_GetJobDetails_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPJobDetail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi umum tentang pekerjaan yang ditentukan.**  

```
Get-CPJobDetail -JobId f570dc12-5ef3-44bc-945a-6e133EXAMPLE
```
**Output:**  

```
AccountId       Data                                 Id
---------       ----                                 --
80398EXAMPLE    Amazon.CodePipeline.Model.JobData    f570dc12-5ef3-44bc-945a-6e133EXAMPLE
```
**Contoh 2: Contoh ini mendapatkan informasi rinci tentang pekerjaan yang ditentukan.**  

```
$jobDetails = Get-CPJobDetail -JobId f570dc12-5ef3-44bc-945a-6e133EXAMPLE
Write-Output ("For Job " + $jobDetails.Id + ":")
Write-Output ("  AccountId = " + $jobDetails.AccountId)
$jobData = $jobDetails.Data
Write-Output ("  Configuration:")
ForEach ($key in $jobData.ActionConfiguration.Keys) {
  $value = $jobData.ActionConfiguration.$key
  Write-Output ("    " + $key + " = " + $value)
}
Write-Output ("  ActionTypeId:")
Write-Output ("    Category = " + $jobData.ActionTypeId.Category)
Write-Output ("    Owner = " + $jobData.ActionTypeId.Owner)
Write-Output ("    Provider = " + $jobData.ActionTypeId.Provider)
Write-Output ("    Version = " + $jobData.ActionTypeId.Version)
Write-Output ("  ArtifactCredentials:")
Write-Output ("    AccessKeyId = " + $jobData.ArtifactCredentials.AccessKeyId)
Write-Output ("    SecretAccessKey = " + $jobData.ArtifactCredentials.SecretAccessKey)
Write-Output ("    SessionToken = " + $jobData.ArtifactCredentials.SessionToken)
Write-Output ("  InputArtifacts:")
ForEach ($ia in $jobData.InputArtifacts) {
  Write-Output ("    " + $ia.Name)
}
Write-Output ("  OutputArtifacts:")
ForEach ($oa in $jobData.OutputArtifacts) {
  Write-Output ("    " + $oa.Name)
}
Write-Output ("  PipelineContext:")
$context = $jobData.PipelineContext
Write-Output ("    Name = " + $context.Action.Name)
Write-Output ("    PipelineName = " + $context.PipelineName)
Write-Output ("    Stage = " + $context.Stage.Name)
```
**Output:**  

```
For Job f570dc12-5ef3-44bc-945a-6e133EXAMPLE:
  AccountId = 80398EXAMPLE
  Configuration:
  ActionTypeId:
    Category = Build
    Owner = Custom
    Provider = MyCustomProviderName
    Version = 1
  ArtifactCredentials:
    AccessKeyId = ASIAIEI3...IXI6YREX
    SecretAccessKey = cqAFDhEi...RdQyfa2u
    SessionToken = AQoDYXdz...5u+lsAU=
  InputArtifacts:
    MyApp
  OutputArtifacts:
    MyAppBuild
  PipelineContext:
    Name = Build
    PipelineName = CodePipelineDemo
    Stage = Build
```
+  Untuk detail API, lihat [GetJobDetails](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CPPipeline`
<a name="codepipeline_GetPipeline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPPipeline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi umum tentang pipeline yang ditentukan.**  

```
Get-CPPipeline -Name CodePipelineDemo -Version 1
```
**Output:**  

```
ArtifactStore : Amazon.CodePipeline.Model.ArtifactStore
Name          : CodePipelineDemo
RoleArn       : arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole
Stages        : {Source, Build, Beta, TestStage}
Version       : 1
```
**Contoh 2: Contoh ini mendapatkan informasi rinci tentang pipeline yang ditentukan.**  

```
$pipeline = Get-CPPipeline -Name CodePipelineDemo
Write-Output ("Name = " + $pipeline.Name)
Write-Output ("RoleArn = " + $pipeline.RoleArn)
Write-Output ("Version = " + $pipeline.Version)
Write-Output ("ArtifactStore:")
Write-Output ("  Location = " + $pipeline.ArtifactStore.Location)
Write-Output ("  Type = " + $pipeline.ArtifactStore.Type.Value)
Write-Output ("Stages:")
ForEach ($stage in $pipeline.Stages) {
  Write-Output ("  Name = " + $stage.Name)
  Write-Output ("    Actions:")
  ForEach ($action in $stage.Actions) {
    Write-Output ("      Name = " + $action.Name)
	Write-Output ("        Category = " + $action.ActionTypeId.Category)
	Write-Output ("        Owner = " + $action.ActionTypeId.Owner)
	Write-Output ("        Provider = " + $action.ActionTypeId.Provider)
	Write-Output ("        Version = " + $action.ActionTypeId.Version)
	Write-Output ("        Configuration:")
	ForEach ($key in $action.Configuration.Keys) {
	  $value = $action.Configuration.$key
	  Write-Output ("          " + $key + " = " + $value)
	}
	Write-Output ("        InputArtifacts:")
	ForEach ($ia in $action.InputArtifacts) {
	  Write-Output ("          " + $ia.Name)
	}
	ForEach ($oa in $action.OutputArtifacts) {
	  Write-Output ("          " + $oa.Name)
	}
	Write-Output ("        RunOrder = " + $action.RunOrder)
  }
}
```
**Output:**  

```
Name = CodePipelineDemo
RoleArn = arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole
Version = 3
ArtifactStore:
  Location = amzn-s3-demo-bucket
  Type = S3
Stages:
  Name = Source
    Actions:
      Name = Source
        Category = Source
        Owner = ThirdParty
        Provider = GitHub
        Version = 1
        Configuration:
          Branch = master
          OAuthToken = ****
          Owner = my-user-name
          Repo = MyRepoName
        InputArtifacts:
          MyApp
        RunOrder = 1
  Name = Build
    Actions:
      Name = Build
        Category = Build
        Owner = Custom
        Provider = MyCustomProviderName
        Version = 1
        Configuration:
          ProjectName = MyProjectName
        InputArtifacts:
          MyApp
          MyAppBuild
        RunOrder = 1
  Name = Beta
    Actions:
      Name = CodePipelineDemoFleet
        Category = Deploy
        Owner = AWS
        Provider = CodeDeploy
        Version = 1
        Configuration:
          ApplicationName = CodePipelineDemoApplication
          DeploymentGroupName = CodePipelineDemoFleet
        InputArtifacts:
          MyAppBuild
        RunOrder = 1
  Name = TestStage
    Actions:
      Name = MyJenkinsTestAction
        Category = Test
        Owner = Custom
        Provider = MyCustomTestProvider
        Version = 1
        Configuration:
          ProjectName = MyJenkinsProjectName
        InputArtifacts:
          MyAppBuild
        RunOrder = 1
```
+  Untuk detail API, lihat [GetPipeline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CPPipelineList`
<a name="codepipeline_ListPipelines_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPPipelineList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan daftar pipeline yang tersedia.**  

```
Get-CPPipelineList
```
**Output:**  

```
Created                  Name                Updated                  Version
-------                  ----                -------                  -------
8/13/2015 10:17:54 PM    CodePipelineDemo    8/13/2015 10:17:54 PM    3
7/8/2015 2:41:53 AM      MyFirstPipeline     7/22/2015 9:06:37 PM     7
```
+  Untuk detail API, lihat [ListPipelines](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CPPipelineState`
<a name="codepipeline_GetPipelineState_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPPipelineState`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan informasi umum tentang tahapan untuk pipeline yang ditentukan.**  

```
Get-CPPipelineState -Name CodePipelineDemo
```
**Output:**  

```
Created         : 8/13/2015 10:17:54 PM
PipelineName    : CodePipelineDemo
PipelineVersion : 1
StageStates     : {Source, Build, Beta, TestStage}
Updated         : 8/13/2015 10:17:54 PM
```
**Contoh 2: Contoh ini mendapatkan informasi rinci tentang keadaan pipa yang ditentukan.**  

```
ForEach ($stageState in (Get-CPPipelineState -Name $arg).StageStates) {
  Write-Output ("For " + $stageState.StageName + ":")
  Write-Output ("  InboundTransitionState:")
  Write-Output ("    DisabledReason = " + $stageState.InboundTransitionState.DisabledReason)
  Write-Output ("    Enabled = " + $stageState.InboundTransitionState.Enabled)
  Write-Output ("    LastChangedAt = " + $stageState.InboundTransitionState.LastChangedAt)
  Write-Output ("    LastChangedBy = " + $stageState.InboundTransitionState.LastChangedBy)
  Write-Output ("  ActionStates:")
  ForEach ($actionState in $stageState.ActionStates) {
    Write-Output ("    For " + $actionState.ActionName + ":")
	Write-Output ("      CurrentRevision:")
    Write-Output ("        Created = " + $actionState.CurrentRevision.Created)
	Write-Output ("        RevisionChangeId = " + $actionState.CurrentRevision.RevisionChangeId)
	Write-Output ("        RevisionId = " + $actionState.CurrentRevision.RevisionId)
	Write-Output ("      EntityUrl = " + $actionState.EntityUrl)
	Write-Output ("      LatestExecution:")
    Write-Output ("        ErrorDetails:")
    Write-Output ("          Code = " + $actionState.LatestExecution.ErrorDetails.Code)
	Write-Output ("          Message = " + $actionState.LatestExecution.ErrorDetails.Message)
	Write-Output ("        ExternalExecutionId = " + $actionState.LatestExecution.ExternalExecutionId)
	Write-Output ("        ExternalExecutionUrl = " + $actionState.LatestExecution.ExternalExecutionUrl)
	Write-Output ("        LastStatusChange	= " + $actionState.LatestExecution.LastStatusChange)
	Write-Output ("        PercentComplete = " + $actionState.LatestExecution.PercentComplete)
	Write-Output ("        Status = " + $actionState.LatestExecution.Status)
	Write-Output ("        Summary = " + $actionState.LatestExecution.Summary)
	Write-Output ("      RevisionUrl = " + $actionState.RevisionUrl)
  }
}
```
**Output:**  

```
For Source:
  InboundTransitionState:
    DisabledReason =
    Enabled =
    LastChangedAt =
    LastChangedBy =
  ActionStates:
    For Source:
      CurrentRevision:
        Created =
        RevisionChangeId =
        RevisionId =
      EntityUrl = https://github.com/my-user-name/MyRepoName/tree/master
      LatestExecution:
        ErrorDetails:
          Code =
          Message =
        ExternalExecutionId =
        ExternalExecutionUrl =
        LastStatusChange = 07/20/2015 23:28:45
        PercentComplete = 0
        Status = Succeeded
        Summary =
      RevisionUrl =
For Build:
  InboundTransitionState:
    DisabledReason =
    Enabled = True
    LastChangedAt = 01/01/0001 00:00:00
    LastChangedBy =
  ActionStates:
    For Build:
      CurrentRevision:
        Created =
        RevisionChangeId =
        RevisionId =
      EntityUrl = http://54.174.131.1EX/job/MyJenkinsDemo
      LatestExecution:
        ErrorDetails:
          Code = TimeoutError
          Message = The action failed because a job worker exceeded its time limit. If this is a custom action, make sure that the job worker is configured correctly.
        ExternalExecutionId =
        ExternalExecutionUrl =
        LastStatusChange = 07/21/2015 00:29:29
        PercentComplete = 0
        Status = Failed
        Summary =
      RevisionUrl =
For Beta:
  InboundTransitionState:
    DisabledReason =
    Enabled = True
    LastChangedAt = 01/01/0001 00:00:00
    LastChangedBy =
  ActionStates:
    For CodePipelineDemoFleet:
      CurrentRevision:
        Created =
        RevisionChangeId =
        RevisionId =
      EntityUrl = https://console.aws.amazon.com/codedeploy/home?#/applications/CodePipelineDemoApplication/deployment-groups/CodePipelineDemoFleet
      LatestExecution:
        ErrorDetails:
          Code =
          Message =
        ExternalExecutionId = d-D5LTCZXEX
        ExternalExecutionUrl = https://console.aws.amazon.com/codedeploy/home?#/deployments/d-D5LTCZXEX
        LastStatusChange = 07/08/2015 22:07:42
        PercentComplete = 0
        Status = Succeeded
        Summary = Deployment Succeeded
      RevisionUrl =
For TestStage:
  InboundTransitionState:
    DisabledReason =
    Enabled = True
    LastChangedAt = 01/01/0001 00:00:00
    LastChangedBy =
  ActionStates:
    For MyJenkinsTestAction25:
      CurrentRevision:
        Created =
        RevisionChangeId =
        RevisionId =
      EntityUrl = http://54.174.131.1EX/job/MyJenkinsDemo
      LatestExecution:
        ErrorDetails:
          Code =
          Message =
        ExternalExecutionId = 5
        ExternalExecutionUrl = http://54.174.131.1EX/job/MyJenkinsDemo/5
        LastStatusChange = 07/08/2015 22:09:03
        PercentComplete = 0
        Status = Succeeded
        Summary = Finished
      RevisionUrl =
```
+  Untuk detail API, lihat [GetPipelineState](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CPCustomActionType`
<a name="codepipeline_CreateCustomActionType_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CPCustomActionType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat tindakan kustom baru dengan properti yang ditentukan.**  

```
New-CPCustomActionType -Category Build -ConfigurationProperty @{"Description" = "The name of the build project must be provided when this action is added to the pipeline."; "Key" = $True; "Name" = "ProjectName"; "Queryable" = $False; "Required" = $True; "Secret" = $False; "Type" = "String"} -Settings_EntityUrlTemplate "https://my-build-instance/job/{Config:ProjectName}/" -Settings_ExecutionUrlTemplate "https://my-build-instance/job/mybuildjob/lastSuccessfulBuild{ExternalExecutionId}/" -InputArtifactDetails_MaximumCount 1 -OutputArtifactDetails_MaximumCount 1 -InputArtifactDetails_MinimumCount 0 -OutputArtifactDetails_MinimumCount 0 -Provider "MyBuildProviderName" -Version 1
```
**Output:**  

```
ActionConfigurationProperties : {ProjectName}
Id                            : Amazon.CodePipeline.Model.ActionTypeId
InputArtifactDetails          : Amazon.CodePipeline.Model.ArtifactDetails
OutputArtifactDetails         : Amazon.CodePipeline.Model.ArtifactDetails
Settings                      : Amazon.CodePipeline.Model.ActionTypeSettings
```
+  Untuk detail API, lihat [CreateCustomActionType](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CPPipeline`
<a name="codepipeline_CreatePipeline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CPPipeline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat pipeline baru dengan pengaturan yang ditentukan.**  

```
$pipeline = New-Object Amazon.CodePipeline.Model.PipelineDeclaration

$sourceStageAction = New-Object Amazon.CodePipeline.Model.ActionDeclaration
$deployStageAction = New-Object Amazon.CodePipeline.Model.ActionDeclaration

$sourceStageActionOutputArtifact = New-Object Amazon.CodePipeline.Model.OutputArtifact
$sourceStageActionOutputArtifact.Name = "MyApp"

$sourceStageAction.ActionTypeId = @{"Category" = "Source"; "Owner" = "AWS"; "Provider" = "S3"; "Version" = 1}
$sourceStageAction.Configuration.Add("S3Bucket", "amzn-s3-demo-bucket")
$sourceStageAction.Configuration.Add("S3ObjectKey", "my-object-key-name.zip")
$sourceStageAction.OutputArtifacts.Add($sourceStageActionOutputArtifact)
$sourceStageAction.Name = "Source"

$deployStageActionInputArtifact = New-Object Amazon.CodePipeline.Model.InputArtifact
$deployStageActionInputArtifact.Name = "MyApp"

$deployStageAction.ActionTypeId = @{"Category" = "Deploy"; "Owner" = "AWS"; "Provider" = "CodeDeploy"; "Version" = 1}
$deployStageAction.Configuration.Add("ApplicationName", "CodePipelineDemoApplication")
$deployStageAction.Configuration.Add("DeploymentGroupName", "CodePipelineDemoFleet")
$deployStageAction.InputArtifacts.Add($deployStageActionInputArtifact)
$deployStageAction.Name = "CodePipelineDemoFleet"

$sourceStage = New-Object Amazon.CodePipeline.Model.StageDeclaration
$deployStage = New-Object Amazon.CodePipeline.Model.StageDeclaration

$sourceStage.Name = "Source"
$deployStage.Name = "Beta"

$sourceStage.Actions.Add($sourceStageAction)
$deployStage.Actions.Add($deployStageAction)

$pipeline.ArtifactStore = @{"Location" = "amzn-s3-demo-bucket"; "Type" = "S3"}
$pipeline.Name = "CodePipelineDemo"
$pipeline.RoleArn = "arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole"
$pipeline.Stages.Add($sourceStage)
$pipeline.Stages.Add($deployStage)
$pipeline.Version = 1

New-CPPipeline -Pipeline $pipeline
```
**Output:**  

```
ArtifactStore : Amazon.CodePipeline.Model.ArtifactStore
Name          : CodePipelineDemo
RoleArn       : arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole
Stages        : {Source, Beta}
Version       : 1
```
+  Untuk detail API, lihat [CreatePipeline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CPCustomActionType`
<a name="codepipeline_DeleteCustomActionType_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CPCustomActionType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tindakan kustom yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus tindakan kustom tanpa prompt.**  

```
Remove-CPCustomActionType -Category Build -Provider MyBuildProviderName -Version 1
```
+  Untuk detail API, lihat [DeleteCustomActionType](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CPPipeline`
<a name="codepipeline_DeletePipeline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CPPipeline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus pipeline yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus pipeline tanpa prompt.**  

```
Remove-CPPipeline -Name CodePipelineDemo
```
+  Untuk detail API, lihat [DeletePipeline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-CPPipelineExecution`
<a name="codepipeline_StartPipelineExecution_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-CPPipelineExecution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mulai menjalankan pipeline yang ditentukan.**  

```
Start-CPPipelineExecution -Name CodePipelineDemo
```
+  Untuk detail API, lihat [StartPipelineExecution](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CPPipeline`
<a name="codepipeline_UpdatePipeline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CPPipeline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui pipeline yang ada yang ditentukan dengan pengaturan yang ditentukan.**  

```
$pipeline = New-Object Amazon.CodePipeline.Model.PipelineDeclaration

$sourceStageAction = New-Object Amazon.CodePipeline.Model.ActionDeclaration
$deployStageAction = New-Object Amazon.CodePipeline.Model.ActionDeclaration

$sourceStageActionOutputArtifact = New-Object Amazon.CodePipeline.Model.OutputArtifact
$sourceStageActionOutputArtifact.Name = "MyApp"

$sourceStageAction.ActionTypeId = @{"Category" = "Source"; "Owner" = "AWS"; "Provider" = "S3"; "Version" = 1}
$sourceStageAction.Configuration.Add("S3Bucket", "amzn-s3-demo-bucket")
$sourceStageAction.Configuration.Add("S3ObjectKey", "my-object-key-name.zip")
$sourceStageAction.OutputArtifacts.Add($sourceStageActionOutputArtifact)
$sourceStageAction.Name = "Source"

$deployStageActionInputArtifact = New-Object Amazon.CodePipeline.Model.InputArtifact
$deployStageActionInputArtifact.Name = "MyApp"

$deployStageAction.ActionTypeId = @{"Category" = "Deploy"; "Owner" = "AWS"; "Provider" = "CodeDeploy"; "Version" = 1}
$deployStageAction.Configuration.Add("ApplicationName", "CodePipelineDemoApplication")
$deployStageAction.Configuration.Add("DeploymentGroupName", "CodePipelineDemoFleet")
$deployStageAction.InputArtifacts.Add($deployStageActionInputArtifact)
$deployStageAction.Name = "CodePipelineDemoFleet"

$sourceStage = New-Object Amazon.CodePipeline.Model.StageDeclaration
$deployStage = New-Object Amazon.CodePipeline.Model.StageDeclaration

$sourceStage.Name = "MyInputFiles"
$deployStage.Name = "MyTestDeployment"

$sourceStage.Actions.Add($sourceStageAction)
$deployStage.Actions.Add($deployStageAction)

$pipeline.ArtifactStore = @{"Location" = "amzn-s3-demo-bucket"; "Type" = "S3"}
$pipeline.Name = "CodePipelineDemo"
$pipeline.RoleArn = "arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole"
$pipeline.Stages.Add($sourceStage)
$pipeline.Stages.Add($deployStage)
$pipeline.Version = 1

Update-CPPipeline -Pipeline $pipeline
```
**Output:**  

```
ArtifactStore : Amazon.CodePipeline.Model.ArtifactStore
Name          : CodePipelineDemo
RoleArn       : arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole
Stages        : {InputFiles, TestDeployment}
Version       : 2
```
+  Untuk detail API, lihat [UpdatePipeline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Identitas Amazon Cognito menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_cognito-identity_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Identitas Amazon Cognito.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CGIIdentityPool`
<a name="cognito-identity_DescribeIdentityPool_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CGIIdentityPool`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengambil informasi tentang Identity Pool tertentu dengan idnya.**  

```
Get-CGIIdentityPool -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
```
**Output:**  

```
LoggedAt                       : 8/12/2015 4:29:40 PM
AllowUnauthenticatedIdentities : True
DeveloperProviderName          :
IdentityPoolId                 : us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
IdentityPoolName               : CommonTests1
OpenIdConnectProviderARNs      : {}
SupportedLoginProviders        : {}
ResponseMetadata               : Amazon.Runtime.ResponseMetadata
ContentLength                  : 142
HttpStatusCode                 : OK
```
+  Untuk detail API, lihat [DescribeIdentityPool](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CGIIdentityPoolList`
<a name="cognito-identity_ListIdentityPools_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CGIIdentityPoolList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengambil daftar Identity Pools yang ada.**  

```
Get-CGIIdentityPoolList
```
**Output:**  

```
IdentityPoolId                                                     IdentityPoolName
--------------                                                     ----------------
us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1                     CommonTests1
us-east-1:118d242d-204e-4b88-b803-EXAMPLEGUID2                     Tests2
us-east-1:15d49393-ab16-431a-b26e-EXAMPLEGUID3                     CommonTests13
```
+  Untuk detail API, lihat [ListIdentityPools](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CGIIdentityPoolRole`
<a name="cognito-identity_GetIdentityPoolRoles_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CGIIdentityPoolRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mendapatkan informasi tentang peran untuk Identity Pool tertentu.**  

```
Get-CGIIdentityPoolRole -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
```
**Output:**  

```
LoggedAt         : 8/12/2015 4:33:51 PM
IdentityPoolId   : us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
Roles            : {[unauthenticated, arn:aws:iam::123456789012:role/CommonTests1Role]}
ResponseMetadata : Amazon.Runtime.ResponseMetadata
ContentLength    : 165
HttpStatusCode   : OK
```
+  Untuk detail API, lihat [GetIdentityPoolRoles](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-CGIIdentityPool`
<a name="cognito-identity_CreateIdentityPool_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CGIIdentityPool`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat Identity Pool baru yang memungkinkan identitas yang tidak diautentikasi.**  

```
New-CGIIdentityPool -AllowUnauthenticatedIdentities $true -IdentityPoolName CommonTests13
```
**Output:**  

```
LoggedAt                       : 8/12/2015 4:56:07 PM
AllowUnauthenticatedIdentities : True
DeveloperProviderName          :
IdentityPoolId                 : us-east-1:15d49393-ab16-431a-b26e-EXAMPLEGUID3
IdentityPoolName               : CommonTests13
OpenIdConnectProviderARNs      : {}
SupportedLoginProviders        : {}
ResponseMetadata               : Amazon.Runtime.ResponseMetadata
ContentLength                  : 136
HttpStatusCode                 : OK
```
+  Untuk detail API, lihat [CreateIdentityPool](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CGIIdentityPool`
<a name="cognito-identity_DeleteIdentityPool_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CGIIdentityPool`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus Identity Pool tertentu.**  

```
Remove-CGIIdentityPool -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
```
+  Untuk detail API, lihat [DeleteIdentityPool](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-CGIIdentityPoolRole`
<a name="cognito-identity_SetIdentityPoolRoles_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-CGIIdentityPoolRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengkonfigurasi Identity Pool tertentu untuk memiliki peran IAM yang tidak diautentikasi.**  

```
Set-CGIIdentityPoolRole -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1 -Role @{ "unauthenticated" = "arn:aws:iam::123456789012:role/CommonTests1Role" }
```
+  Untuk detail API, lihat [SetIdentityPoolRoles](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-CGIIdentityPool`
<a name="cognito-identity_UpdateIdentityPool_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CGIIdentityPool`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui beberapa properti Identity Pool, dalam hal ini nama Identity Pool.**  

```
Update-CGIIdentityPool -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1 -IdentityPoolName NewPoolName
```
**Output:**  

```
LoggedAt                       : 8/12/2015 4:53:33 PM
AllowUnauthenticatedIdentities : False
DeveloperProviderName          :
IdentityPoolId                 : us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
IdentityPoolName               : NewPoolName
OpenIdConnectProviderARNs      : {}
SupportedLoginProviders        : {}
ResponseMetadata               : Amazon.Runtime.ResponseMetadata
ContentLength                  : 135
HttpStatusCode                 : OK
```
+  Untuk detail API, lihat [UpdateIdentityPool](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# AWS Config contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_config-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan AWS Config.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-CFGResourceTag`
<a name="config-service_TagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-CFGResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan tag tertentu ke ARN sumber daya, yaitu config-rule/config-rule-16iyn0 dalam kasus ini.**  

```
Add-CFGResourceTag -ResourceArn arn:aws:config:eu-west-1:123456789012:config-rule/config-rule-16iyn0 -Tag @{Key="Release";Value="Beta"}
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGAggregateComplianceByConfigRuleList`
<a name="config-service_DescribeAggregateComplianceByConfigRules_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateComplianceByConfigRuleList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil detail dari pemfilteran ConfigurationAggregator 'kaju' untuk aturan konfigurasi yang diberikan dan expands/returns 'Kepatuhan' aturan.**  

```
Get-CFGAggregateComplianceByConfigRuleList -ConfigurationAggregatorName kaju -Filters_ConfigRuleName ALB_HTTP_TO_HTTPS_REDIRECTION_CHECK | Select-Object -ExpandProperty Compliance
```
**Output:**  

```
ComplianceContributorCount                            ComplianceType
--------------------------                            --------------
Amazon.ConfigService.Model.ComplianceContributorCount NON_COMPLIANT
```
**Contoh 2: Contoh ini mengambil detail dari yang diberikan ConfigurationAggregator, menyaringnya untuk akun yang diberikan untuk semua wilayah yang tercakup dalam agregator dan selanjutnya menyetel kembali kepatuhan untuk semua aturan.**  

```
Get-CFGAggregateComplianceByConfigRuleList -ConfigurationAggregatorName kaju -Filters_AccountId 123456789012 | Select-Object ConfigRuleName, @{N="Compliance";E={$_.Compliance.ComplianceType}}
```
**Output:**  

```
ConfigRuleName                      Compliance
--------------                      ----------
ALB_HTTP_TO_HTTPS_REDIRECTION_CHECK NON_COMPLIANT
ec2-instance-no-public-ip           NON_COMPLIANT
desired-instance-type               NON_COMPLIANT
```
+  Untuk detail API, lihat [DescribeAggregateComplianceByConfigRules](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGAggregateComplianceDetailsByConfigRule`
<a name="config-service_GetAggregateComplianceDetailsByConfigRule_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateComplianceDetailsByConfigRule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan hasil evaluasi yang memilih output dengan resource-id dan resource-type untuk aturan AWS Config '' yang berada dalam status 'COMPLIANTdesired-instance-type' untuk akun, agregator, wilayah, dan aturan konfigurasi yang diberikan**  

```
Get-CFGAggregateComplianceDetailsByConfigRule -AccountId 123456789012 -AwsRegion eu-west-1 -ComplianceType COMPLIANT -ConfigRuleName desired-instance-type -ConfigurationAggregatorName raju | Select-Object -ExpandProperty EvaluationResultIdentifier | Select-Object -ExpandProperty EvaluationResultQualifier
```
**Output:**  

```
ConfigRuleName        ResourceId          ResourceType
--------------        ----------          ------------
desired-instance-type i-0f1bf2f34c5678d12 AWS::EC2::Instance
desired-instance-type i-0fd12dd3456789123 AWS::EC2::Instance
```
+  Untuk detail API, lihat [GetAggregateComplianceDetailsByConfigRule](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGAggregateConfigRuleComplianceSummary`
<a name="config-service_GetAggregateConfigRuleComplianceSummary_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateConfigRuleComplianceSummary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan jumlah aturan yang tidak sesuai untuk agregator yang diberikan.**  

```
(Get-CFGAggregateConfigRuleComplianceSummary -ConfigurationAggregatorName raju).AggregateComplianceCounts.ComplianceSummary.NonCompliantResourceCount
```
**Output:**  

```
CapExceeded CappedCount
----------- -----------
False       5
```
+  Untuk detail API, lihat [GetAggregateConfigRuleComplianceSummary](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGAggregateDiscoveredResourceCount`
<a name="config-service_GetAggregateDiscoveredResourceCounts_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateDiscoveredResourceCount`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan jumlah sumber daya untuk agregator yang diberikan disaring untuk wilayah us-east-1.**  

```
Get-CFGAggregateDiscoveredResourceCount -ConfigurationAggregatorName Master -Filters_Region us-east-1
```
**Output:**  

```
GroupByKey GroupedResourceCounts NextToken TotalDiscoveredResources
---------- --------------------- --------- ------------------------
           {}                              455
```
**Contoh 2: Contoh ini mengembalikan jumlah sumber daya yang dikelompokkan berdasarkan RESOURCE\$1TYPE untuk wilayah yang difilter untuk agregator yang diberikan.**  

```
Get-CFGAggregateDiscoveredResourceCount -ConfigurationAggregatorName Master -Filters_Region us-east-1 -GroupByKey RESOURCE_TYPE | 
			Select-Object -ExpandProperty GroupedResourceCounts
```
**Output:**  

```
GroupName                          ResourceCount
---------                          -------------
AWS::CloudFormation::Stack         12
AWS::CloudFront::Distribution      1
AWS::CloudTrail::Trail             1
AWS::DynamoDB::Table               1
AWS::EC2::EIP                      2
AWS::EC2::FlowLog                  2
AWS::EC2::InternetGateway          4
AWS::EC2::NatGateway               2
AWS::EC2::NetworkAcl               4
AWS::EC2::NetworkInterface         12
AWS::EC2::RouteTable               13
AWS::EC2::SecurityGroup            18
AWS::EC2::Subnet                   16
AWS::EC2::VPC                      4
AWS::EC2::VPCEndpoint              2
AWS::EC2::VPCPeeringConnection     1
AWS::IAM::Group                    2
AWS::IAM::Policy                   51
AWS::IAM::Role                     78
AWS::IAM::User                     7
AWS::Lambda::Function              3
AWS::RDS::DBSecurityGroup          1
AWS::S3::Bucket                    3
AWS::SSM::AssociationCompliance    107
AWS::SSM::ManagedInstanceInventory 108
```
+  Untuk detail API, lihat [GetAggregateDiscoveredResourceCounts](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGAggregateDiscoveredResourceList`
<a name="config-service_ListAggregateDiscoveredResources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateDiscoveredResourceList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan pengidentifikasi sumber daya untuk jenis sumber daya tertentu yang dikumpulkan dalam agregator 'Irlandia'. Untuk daftar jenis sumber daya, silakan periksa https://docs.aws.amazon.com/sdkfornet/ v3/ apidocs/index.html?page=ConfigService/TConfigServiceResourceType ConfigService .html&tocid=Amazon\$1 \$1. ResourceType**  

```
Get-CFGAggregateDiscoveredResourceList -ConfigurationAggregatorName Ireland -ResourceType ([Amazon.ConfigService.ResourceType]::AWSAutoScalingAutoScalingGroup)
```
**Output:**  

```
ResourceId      : arn:aws:autoscaling:eu-west-1:123456789012:autoScalingGroup:12e3b4fc-1234-1234-a123-1d2ba3c45678:autoScalingGroupName/asg-1
ResourceName    : asg-1
ResourceType    : AWS::AutoScaling::AutoScalingGroup
SourceAccountId : 123456789012
SourceRegion    : eu-west-1
```
**Contoh 2: Contoh ini mengembalikan jenis sumber daya `AwsEC2SecurityGroup` bernama 'default' untuk agregator yang diberikan disaring dengan wilayah us-east-1.**  

```
Get-CFGAggregateDiscoveredResourceList -ConfigurationAggregatorName raju -ResourceType ([Amazon.ConfigService.ResourceType]::AWSEC2SecurityGroup) -Filters_Region us-east-1 -Filters_ResourceName default
```
**Output:**  

```
ResourceId      : sg-01234bd5dbfa67c89
ResourceName    : default
ResourceType    : AWS::EC2::SecurityGroup
SourceAccountId : 123456789102
SourceRegion    : us-east-1

ResourceId      : sg-0123a4ebbf56789be
ResourceName    : default
ResourceType    : AWS::EC2::SecurityGroup
SourceAccountId : 123456789102
SourceRegion    : us-east-1

ResourceId      : sg-4fc1d234
ResourceName    : default
ResourceType    : AWS::EC2::SecurityGroup
SourceAccountId : 123456789102
SourceRegion    : us-east-1
```
+  Untuk detail API, lihat [ListAggregateDiscoveredResources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGAggregateResourceConfig`
<a name="config-service_GetAggregateResourceconfig-service_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateResourceConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan Item Konfigurasi untuk sumber daya yang diberikan digabungkan dan memperluas Konfigurasi.**  

```
(Get-CFGAggregateResourceConfig -ResourceIdentifier_SourceRegion us-east-1 -ResourceIdentifier_SourceAccountId 123456789012 -ResourceIdentifier_ResourceId sg-4fc1d234 -ResourceIdentifier_ResourceType ([Amazon.ConfigService.ResourceType]::AWSEC2SecurityGroup) -ConfigurationAggregatorName raju).Configuration | ConvertFrom-Json
```
**Output:**  

```
{"description":"default VPC security group","groupName":"default","ipPermissions":[{"ipProtocol":"-1","ipv6Ranges":[],"prefixListIds":[],"userIdGroupPairs":[{"groupId":"sg-4fc1d234","userId":"123456789012"}],"ipv4Ranges":[],"ipRanges":[]},{"fromPort":3389,"ipProtocol":"tcp","ipv6Ranges":[],"prefixListIds":[],"toPort":3389,"userIdGroupPairs":[],"ipv4Ranges":[{"cidrIp":"54.240.197.224/29","description":"office subnet"},{"cidrIp":"72.21.198.65/32","description":"home pc"}],"ipRanges":["54.240.197.224/29","72.21.198.65/32"]}],"ownerId":"123456789012","groupId":"sg-4fc1d234","ipPermissionsEgress":[{"ipProtocol":"-1","ipv6Ranges":[],"prefixListIds":[],"userIdGroupPairs":[],"ipv4Ranges":[{"cidrIp":"0.0.0.0/0"}],"ipRanges":["0.0.0.0/0"]}],"tags":[],"vpcId":"vpc-2d1c2e34"}
```
+  Untuk detail API, lihat [GetAggregateResourceconfig-service](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V4). 

### `Get-CFGAggregateResourceConfigBatch`
<a name="config-service_BatchGetAggregateResourceconfig-service_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateResourceConfigBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil item konfigurasi saat ini untuk sumber daya (diidentifikasi) yang ada di agregator yang diberikan.**  

```
$resIdentifier=[Amazon.ConfigService.Model.AggregateResourceIdentifier]@{
		ResourceId= "i-012e3cb4df567e8aa"
		ResourceName = "arn:aws:ec2:eu-west-1:123456789012:instance/i-012e3cb4df567e8aa"
		ResourceType = [Amazon.ConfigService.ResourceType]::AWSEC2Instance
		SourceAccountId = "123456789012"
		SourceRegion = "eu-west-1"
	}
		
	Get-CFGAggregateResourceConfigBatch -ResourceIdentifier $resIdentifier -ConfigurationAggregatorName raju
```
**Output:**  

```
BaseConfigurationItems UnprocessedResourceIdentifiers
---------------------- ------------------------------
{}                     {arn:aws:ec2:eu-west-1:123456789012:instance/i-012e3cb4df567e8aa}
```
+  Untuk detail API, lihat [BatchGetAggregateResourceconfig-service](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V4). 

### `Get-CFGAggregationAuthorizationList`
<a name="config-service_DescribeAggregationAuthorizations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregationAuthorizationList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil otorisasi yang diberikan kepada agregator.**  

```
Get-CFGAggregationAuthorizationList
```
**Output:**  

```
AggregationAuthorizationArn                                                            AuthorizedAccountId AuthorizedAwsRegion CreationTime
---------------------------                                                            ------------------- ------------------- ------------
arn:aws:config-service:eu-west-1:123456789012:aggregation-authorization/123456789012/eu-west-1 123456789012        eu-west-1           8/26/2019 12:55:27 AM
```
+  Untuk detail API, lihat [DescribeAggregationAuthorizations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGComplianceByConfigRule`
<a name="config-service_DescribeComplianceByConfigRule_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceByConfigRule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil rincian kepatuhan untuk aturan ebs-optimized-instance, yang tidak ada hasil evaluasi saat ini untuk aturan, sehingga mengembalikan INSUFFICIENT\$1DATA**  

```
(Get-CFGComplianceByConfigRule -ConfigRuleName ebs-optimized-instance).Compliance
```
**Output:**  

```
ComplianceContributorCount ComplianceType
-------------------------- --------------
                           INSUFFICIENT_DATA
```
**Contoh 2: Contoh ini mengembalikan jumlah sumber daya yang tidak sesuai untuk aturan ALB\$1HTTP\$1TO\$1HTTP\$1HTTPS\$1REDIRECTION\$1CHECK.**  

```
(Get-CFGComplianceByConfigRule -ConfigRuleName ALB_HTTP_TO_HTTPS_REDIRECTION_CHECK -ComplianceType NON_COMPLIANT).Compliance.ComplianceContributorCount
```
**Output:**  

```
CapExceeded CappedCount
----------- -----------
False       2
```
+  Untuk detail API, lihat [DescribeComplianceByConfigRule](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGComplianceByResource`
<a name="config-service_DescribeComplianceByResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceByResource`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memeriksa jenis `AWS::SSM::ManagedInstanceInventory` sumber daya untuk jenis kepatuhan 'COMPLIANT'.**  

```
Get-CFGComplianceByResource -ComplianceType COMPLIANT -ResourceType AWS::SSM::ManagedInstanceInventory
```
**Output:**  

```
Compliance                            ResourceId          ResourceType
----------                            ----------          ------------
Amazon.ConfigService.Model.Compliance i-0123bcf4b567890e3 AWS::SSM::ManagedInstanceInventory
Amazon.ConfigService.Model.Compliance i-0a1234f6f5d6b78f7 AWS::SSM::ManagedInstanceInventory
```
+  Untuk detail API, lihat [DescribeComplianceByResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGComplianceDetailsByConfigRule`
<a name="config-service_GetComplianceDetailsByConfigRule_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceDetailsByConfigRule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperoleh hasil evaluasi untuk aturan access-keys-rotated dan mengembalikan output yang dikelompokkan berdasarkan tipe kepatuhan**  

```
Get-CFGComplianceDetailsByConfigRule -ConfigRuleName access-keys-rotated | Group-Object ComplianceType
```
**Output:**  

```
Count Name                      Group
----- ----                      -----
    2 COMPLIANT                 {Amazon.ConfigService.Model.EvaluationResult, Amazon.ConfigService.Model.EvaluationResult}
    5 NON_COMPLIANT             {Amazon.ConfigService.Model.EvaluationResult, Amazon.ConfigService.Model.EvaluationResult, Amazon.ConfigService.Model.EvaluationRes...
```
**Contoh 2: Contoh ini menanyakan detail kepatuhan access-keys-rotated untuk aturan sumber daya COMPLIANT.**  

```
Get-CFGComplianceDetailsByConfigRule -ConfigRuleName access-keys-rotated -ComplianceType COMPLIANT | ForEach-Object {$_.EvaluationResultIdentifier.EvaluationResultQualifier}
```
**Output:**  

```
ConfigRuleName      ResourceId            ResourceType
--------------      ----------            ------------
access-keys-rotated BCAB1CDJ2LITAPVEW3JAH AWS::IAM::User
access-keys-rotated BCAB1CDJ2LITL3EHREM4Q AWS::IAM::User
```
+  Untuk detail API, lihat [GetComplianceDetailsByConfigRule](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGComplianceDetailsByResource`
<a name="config-service_GetComplianceDetailsByResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceDetailsByResource`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh evaulasi ini menghasilkan sumber daya yang diberikan.**  

```
Get-CFGComplianceDetailsByResource -ResourceId ABCD5STJ4EFGHIVEW6JAH -ResourceType 'AWS::IAM::User'
```
**Output:**  

```
Annotation                 :
ComplianceType             : COMPLIANT
ConfigRuleInvokedTime      : 8/25/2019 11:34:56 PM
EvaluationResultIdentifier : Amazon.ConfigService.Model.EvaluationResultIdentifier
ResultRecordedTime         : 8/25/2019 11:34:56 PM
ResultToken                :
```
+  Untuk detail API, lihat [GetComplianceDetailsByResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGComplianceSummaryByConfigRule`
<a name="config-service_GetComplianceSummaryByConfigRule_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceSummaryByConfigRule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan jumlah aturan Config yang tidak sesuai.**  

```
Get-CFGComplianceSummaryByConfigRule -Select ComplianceSummary.NonCompliantResourceCount
```
**Output:**  

```
CapExceeded CappedCount
----------- -----------
False       9
```
+  Untuk detail API, lihat [GetComplianceSummaryByConfigRule](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGComplianceSummaryByResourceType`
<a name="config-service_GetComplianceSummaryByResourceType_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceSummaryByResourceType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini mengembalikan jumlah sumber daya yang sesuai atau tidak sesuai dan mengubah output menjadi json.**  

```
Get-CFGComplianceSummaryByResourceType -Select ComplianceSummariesByResourceType.ComplianceSummary | ConvertTo-Json
{
  "ComplianceSummaryTimestamp": "2019-12-14T06:14:49.778Z",
  "CompliantResourceCount": {
    "CapExceeded": false,
    "CappedCount": 2
  },
  "NonCompliantResourceCount": {
    "CapExceeded": true,
    "CappedCount": 100
  }
}
```
+  Untuk detail API, lihat [GetComplianceSummaryByResourceType](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGConfigRule`
<a name="config-service_DescribeConfigRules_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigRule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan aturan konfigurasi untuk akun, dengan properti yang dipilih.**  

```
Get-CFGConfigRule | Select-Object ConfigRuleName, ConfigRuleId, ConfigRuleArn, ConfigRuleState
```
**Output:**  

```
ConfigRuleName                                    ConfigRuleId       ConfigRuleArn                                                        ConfigRuleState
--------------                                    ------------       -------------                                                        ---------------
ALB_REDIRECTION_CHECK                             config-rule-12iyn3 arn:aws:config-service:eu-west-1:123456789012:config-rule/config-rule-12iyn3 ACTIVE
access-keys-rotated                               config-rule-aospfr arn:aws:config-service:eu-west-1:123456789012:config-rule/config-rule-aospfr ACTIVE
autoscaling-group-elb-healthcheck-required        config-rule-cn1f2x arn:aws:config-service:eu-west-1:123456789012:config-rule/config-rule-cn1f2x ACTIVE
```
+  Untuk detail API, lihat [DescribeConfigRules](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGConfigRuleEvaluationStatus`
<a name="config-service_DescribeConfigRuleEvaluationStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigRuleEvaluationStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan informasi status untuk aturan konfigurasi yang diberikan.**  

```
Get-CFGConfigRuleEvaluationStatus -ConfigRuleName root-account-mfa-enabled, vpc-flow-logs-enabled
```
**Output:**  

```
ConfigRuleArn                : arn:aws:config:eu-west-1:123456789012:config-rule/config-rule-kvq1wk
ConfigRuleId                 : config-rule-kvq1wk
ConfigRuleName               : root-account-mfa-enabled
FirstActivatedTime           : 8/27/2019 8:05:17 AM
FirstEvaluationStarted       : True
LastErrorCode                :
LastErrorMessage             :
LastFailedEvaluationTime     : 1/1/0001 12:00:00 AM
LastFailedInvocationTime     : 1/1/0001 12:00:00 AM
LastSuccessfulEvaluationTime : 12/13/2019 8:12:03 AM
LastSuccessfulInvocationTime : 12/13/2019 8:12:03 AM

ConfigRuleArn                : arn:aws:config:eu-west-1:123456789012:config-rule/config-rule-z1s23b
ConfigRuleId                 : config-rule-z1s23b
ConfigRuleName               : vpc-flow-logs-enabled
FirstActivatedTime           : 8/14/2019 6:23:44 AM
FirstEvaluationStarted       : True
LastErrorCode                :
LastErrorMessage             :
LastFailedEvaluationTime     : 1/1/0001 12:00:00 AM
LastFailedInvocationTime     : 1/1/0001 12:00:00 AM
LastSuccessfulEvaluationTime : 12/13/2019 7:12:01 AM
LastSuccessfulInvocationTime : 12/13/2019 7:12:01 AM
```
+  Untuk detail API, lihat [DescribeConfigRuleEvaluationStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGConfigurationAggregatorList`
<a name="config-service_DescribeConfigurationAggregators_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigurationAggregatorList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini mengembalikan semua agregator untuk wilayah/akun.**  

```
Get-CFGConfigurationAggregatorList
```
**Output:**  

```
AccountAggregationSources     : {Amazon.ConfigService.Model.AccountAggregationSource}
ConfigurationAggregatorArn    : arn:aws:config-service:eu-west-1:123456789012:config-aggregator/config-aggregator-xabca1me
ConfigurationAggregatorName   : IrelandMaster
CreationTime                  : 8/25/2019 11:42:39 PM
LastUpdatedTime               : 8/25/2019 11:42:39 PM
OrganizationAggregationSource :

AccountAggregationSources     : {}
ConfigurationAggregatorArn    : arn:aws:config-service:eu-west-1:123456789012:config-aggregator/config-aggregator-qubqabcd
ConfigurationAggregatorName   : raju
CreationTime                  : 8/11/2019 8:39:25 AM
LastUpdatedTime               : 8/11/2019 8:39:25 AM
OrganizationAggregationSource : Amazon.ConfigService.Model.OrganizationAggregationSource
```
+  Untuk detail API, lihat [DescribeConfigurationAggregators](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGConfigurationAggregatorSourcesStatus`
<a name="config-service_DescribeConfigurationAggregatorSourcesStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigurationAggregatorSourcesStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan bidang yang diminta untuk sumber dalam agregator yang diberikan.**  

```
Get-CFGConfigurationAggregatorSourcesStatus -ConfigurationAggregatorName raju | select SourceType, LastUpdateStatus, LastUpdateTime, SourceId
```
**Output:**  

```
SourceType   LastUpdateStatus LastUpdateTime        SourceId
----------   ---------------- --------------        --------
ORGANIZATION SUCCEEDED        12/31/2019 7:45:06 AM Organization
ACCOUNT      SUCCEEDED        12/31/2019 7:09:38 AM 612641234567
ACCOUNT      SUCCEEDED        12/31/2019 7:12:53 AM 933301234567
ACCOUNT      SUCCEEDED        12/31/2019 7:18:10 AM 933301234567
ACCOUNT      SUCCEEDED        12/31/2019 7:25:17 AM 933301234567
ACCOUNT      SUCCEEDED        12/31/2019 7:25:49 AM 612641234567
ACCOUNT      SUCCEEDED        12/31/2019 7:26:11 AM 612641234567
```
+  Untuk detail API, lihat [DescribeConfigurationAggregatorSourcesStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGConfigurationRecorder`
<a name="config-service_DescribeConfigurationRecorders_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigurationRecorder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian perekam konfigurasi.**  

```
Get-CFGConfigurationRecorder | Format-List
```
**Output:**  

```
Name           : default
RecordingGroup : Amazon.ConfigService.Model.RecordingGroup
RoleARN        : arn:aws:iam::123456789012:role/aws-service-role/config.amazonaws.com/AWSServiceRoleForConfig
```
+  Untuk detail API, lihat [DescribeConfigurationRecorders](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGConfigurationRecorderStatus`
<a name="config-service_DescribeConfigurationRecorderStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigurationRecorderStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini mengembalikan status perekam konfigurasi.**  

```
Get-CFGConfigurationRecorderStatus
```
**Output:**  

```
LastErrorCode        :
LastErrorMessage     :
LastStartTime        : 10/11/2019 10:13:51 AM
LastStatus           : Success
LastStatusChangeTime : 12/31/2019 6:14:12 AM
LastStopTime         : 10/11/2019 10:13:46 AM
Name                 : default
Recording            : True
```
+  Untuk detail API, lihat [DescribeConfigurationRecorderStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGConformancePack`
<a name="config-service_DescribeConformancePacks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConformancePack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua paket kesesuaian.**  

```
Get-CFGConformancePack
```
**Output:**  

```
ConformancePackArn             : arn:aws:config:eu-west-1:123456789012:conformance-pack/dono/conformance-pack-p0acq8bpz
ConformancePackId              : conformance-pack-p0acabcde
ConformancePackInputParameters : {}
ConformancePackName            : dono
CreatedBy                      :
DeliveryS3Bucket               : kt-ps-examples
DeliveryS3KeyPrefix            :
LastUpdateRequestedTime        : 12/31/2019 8:45:31 AM
```
+  Untuk detail API, lihat [DescribeConformancePacks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGDeliveryChannel`
<a name="config-service_DescribeDeliveryChannels_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGDeliveryChannel`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil saluran pengiriman untuk wilayah tersebut dan menampilkan detailnya.**  

```
Get-CFGDeliveryChannel -Region eu-west-1 | Select-Object Name, S3BucketName, S3KeyPrefix, @{N="DeliveryFrequency";E={$_.ConfigSnapshotDeliveryProperties.DeliveryFrequency}}
```
**Output:**  

```
Name    S3BucketName               S3KeyPrefix DeliveryFrequency
----    ------------               ----------- -----------------
default config-bucket-NA my          TwentyFour_Hours
```
+  Untuk detail API, lihat [DescribeDeliveryChannels](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-CFGResourceTag`
<a name="config-service_ListTagsForResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan tag terkait untuk sumber daya yang diberikan**  

```
Get-CFGResourceTag -ResourceArn $rules[0].ConfigRuleArn
```
**Output:**  

```
Key     Value
---     -----
Version 1.3
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-CFGConformancePack`
<a name="config-service_DeleteConformancePack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CFGConformancePack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini menghapus paket kesesuaian yang diberikan, bersama dengan semua aturan, tindakan remediasi, dan hasil evaluasi untuk paket tersebut.**  

```
Remove-CFGConformancePack -ConformancePackName dono
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-CFGConformancePack (DeleteConformancePack)" on target "dono".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteConformancePack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-CFGConformancePack`
<a name="config-service_PutConformancePack_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-CFGConformancePack`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat paket kesesuaian, mengambil template dari file yaml yang diberikan.**  

```
Write-CFGConformancePack -ConformancePackName dono -DeliveryS3Bucket amzn-s3-demo-bucket -TemplateBody (Get-Content C:\windows\temp\template.yaml -Raw)
```
+  Untuk detail API, lihat [PutConformancePack](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-CFGDeliveryChannel`
<a name="config-service_PutDeliveryChannel_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-CFGDeliveryChannel`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah properti DeliveryFrequency dari saluran pengiriman yang ada.**  

```
Write-CFGDeliveryChannel -ConfigSnapshotDeliveryProperties_DeliveryFrequency TwentyFour_Hours -DeliveryChannelName default -DeliveryChannel_S3BucketName amzn-s3-demo-bucket -DeliveryChannel_S3KeyPrefix my
```
+  Untuk detail API, lihat [PutDeliveryChannel](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Device Farm menggunakan Alat untuk PowerShell V4
<a name="powershell_4_device-farm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Device Farm.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-DFUpload`
<a name="device-farm_CreateUpload_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DFUpload`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat upload AWS Device Farm untuk aplikasi Android. Anda bisa mendapatkan proyek ARN dari output New- DFProject atau Get- DFProject List. Gunakan URL yang ditandatangani di DFUpload keluaran Baru untuk mengunggah file ke Device Farm.**  

```
New-DFUpload -ContentType "application/octet-stream" -ProjectArn "arn:aws:devicefarm:us-west-2:123456789012:project:EXAMPLEa-7ec1-4741-9c1f-d3e04EXAMPLE" -Name "app.apk" -Type ANDROID_APP
```
+  Untuk detail API, lihat [CreateUpload](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Directory Service contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_directory-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Directory Service.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-DSIpRoute`
<a name="directory-service_AddIpRoutes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-DSIpRoute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus Tag Sumber Daya yang ditetapkan ke ID Direktori yang ditentukan**  

```
Add-DSIpRoute -DirectoryId d-123456ijkl -IpRoute @{CidrIp ="203.0.113.5/32"} -UpdateSecurityGroupForDirectoryController $true
```
+  Untuk detail API, lihat [AddIpRoutes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-DSResourceTag`
<a name="directory-service_AddTagsToResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-DSResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menambahkan Tag Sumber Daya ke ID Direktori yang ditentukan**  

```
Add-DSResourceTag -ResourceId d-123456ijkl -Tag @{Key="myTag"; Value="mytgValue"}
```
+  Untuk detail API, lihat [AddTagsToResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Approve-DSTrust`
<a name="directory-service_VerifyTrust_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Approve-DSTrust`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memanggil operasi AWS Directory Service VerifyTrust API untuk Trustid tertentu.**  

```
Approve-DSTrust -TrustId t-9067157123
```
+  Untuk detail API, lihat [VerifyTrust](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Confirm-DSSharedDirectory`
<a name="directory-service_AcceptSharedDirectory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Confirm-DSSharedDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menerima permintaan berbagi direktori yang dikirim dari pemilik Akun AWS direktori.**  

```
Confirm-DSSharedDirectory -SharedDirectoryId d-9067012345
```
**Output:**  

```
CreatedDateTime     : 12/30/2019 4:20:27 AM
LastUpdatedDateTime : 12/30/2019 4:21:40 AM
OwnerAccountId      : 123456781234
OwnerDirectoryId    : d-123456ijkl
SharedAccountId     : 123456784321
SharedDirectoryId   : d-9067012345
ShareMethod         :
ShareNotes          : This is test sharing
ShareStatus         : Sharing
```
+  Untuk detail API, lihat [AcceptSharedDirectory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Connect-DSDirectory`
<a name="directory-service_ConnectDirectory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Connect-DSDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat AD Connector untuk terhubung ke direktori lokal.**  

```
Connect-DSDirectory -Name contoso.com -ConnectSettings_CustomerUserName Administrator -Password $Password -ConnectSettings_CustomerDnsIp 172.31.36.96 -ShortName CONTOSO -Size Small -ConnectSettings_VpcId vpc-123459da -ConnectSettings_SubnetId subnet-1234ccaa, subnet-5678ffbb
```
+  Untuk detail API, lihat [ConnectDirectory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Deny-DSSharedDirectory`
<a name="directory-service_RejectSharedDirectory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Deny-DSSharedDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menolak permintaan berbagi direktori yang dikirim dari akun pemilik direktori.**  

```
Deny-DSSharedDirectory -SharedDirectoryId d-9067012345
```
**Output:**  

```
d-9067012345
```
+  Untuk detail API, lihat [RejectSharedDirectory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-DSDirectoryShare`
<a name="directory-service_UnshareDirectory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-DSDirectoryShare`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghentikan pembagian direktori antara pemilik direktori dan akun konsumen.**  

```
Disable-DSDirectoryShare -DirectoryId d-123456ijkl -UnshareTarget_Id 123456784321 -UnshareTarget_Type ACCOUNT
```
**Output:**  

```
d-9067012345
```
+  Untuk detail API, lihat [UnshareDirectory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-DSLDAPS`
<a name="directory-service_DisableLDAPS_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-DSLDAPS`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan panggilan aman LDAP untuk direktori yang ditentukan.**  

```
Disable-DSLDAPS -DirectoryId d-123456ijkl -Type Client
```
+  Untuk detail API, lihat [menonaktifkan DAPS di Referensi Alat AWS untuk PowerShell](https://docs.aws.amazon.com/powershell/v4/reference) *Cmdlet* (V4). 

### `Disable-DSRadius`
<a name="directory-service_DisableRadius_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-DSRadius`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan server RADIUS yang dikonfigurasi untuk direktori AD Connector atau Microsoft AD.**  

```
Disable-DSRadius -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [DisableRadius](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-DSSso`
<a name="directory-service_DisableSso_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-DSSso`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan sistem masuk tunggal untuk sebuah direktori.**  

```
Disable-DSSso -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [DisableSso](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-DSDirectoryShare`
<a name="directory-service_ShareDirectory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-DSDirectoryShare`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membagikan direktori tertentu di AWS akun Anda dengan AWS Akun lain menggunakan metode Handshake.**  

```
Enable-DSDirectoryShare -DirectoryId d-123456ijkl -ShareTarget_Id 123456784321 -ShareMethod HANDSHAKE -ShareTarget_Type ACCOUNT
```
**Output:**  

```
d-9067012345
```
+  Untuk detail API, lihat [ShareDirectory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-DSLDAPS`
<a name="directory-service_EnableLDAPS_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-DSLDAPS`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaktifkan sakelar untuk direktori tertentu agar selalu menggunakan panggilan aman LDAP.**  

```
Enable-DSLDAPS -DirectoryId d-123456ijkl -Type Client
```
+  Untuk detail API, lihat [EnableLDAPS](https://docs.aws.amazon.com/powershell/v4/reference) di Referensi *Alat AWS untuk PowerShell Cmdlet* (V4). 

### `Enable-DSRadius`
<a name="directory-service_EnableRadius_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-DSRadius`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan otentikasi multi-faktor (MFA) dengan konfigurasi server RADIUS yang disediakan untuk Konektor AD atau direktori Microsoft AD.**  

```
Enable-DSRadius -DirectoryId d-123456ijkl 
-RadiusSettings_AuthenticationProtocol PAP 
-RadiusSettings_DisplayLabel Radius 
-RadiusSettings_RadiusPort 1812 
-RadiusSettings_RadiusRetry 4 
-RadiusSettings_RadiusServer 10.4.185.113 
-RadiusSettings_RadiusTimeout 50 
-RadiusSettings_SharedSecret wJalrXUtnFEMI
```
+  Untuk detail API, lihat [EnableRadius](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-DSSso`
<a name="directory-service_EnableSso_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-DSSso`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan sistem masuk tunggal untuk sebuah direktori.**  

```
Enable-DSSso -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [EnableSso](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSCertificate`
<a name="directory-service_DescribeCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan informasi tentang sertifikat yang terdaftar untuk koneksi LDAP yang aman.**  

```
Get-DSCertificate -DirectoryId d-123456ijkl -CertificateId c-906731e34f
```
**Output:**  

```
CertificateId      : c-906731e34f
CommonName         : contoso-EC2AMAZ-CTGG2NM-CA
ExpiryDateTime     : 4/15/2025 6:34:15 PM
RegisteredDateTime : 4/15/2020 6:38:56 PM
State              : Registered
StateReason        : Certificate registered successfully.
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSCertificateList`
<a name="directory-service_ListCertificates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSCertificateList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua sertifikat yang terdaftar untuk koneksi LDAP aman untuk direktori tertentu.**  

```
Get-DSCertificateList -DirectoryId d-123456ijkl
```
**Output:**  

```
CertificateId CommonName                 ExpiryDateTime       State
------------- ----------                 --------------       -----
c-906731e34f  contoso-EC2AMAZ-CTGG2NM-CA 4/15/2025 6:34:15 PM Registered
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSConditionalForwarder`
<a name="directory-service_DescribeConditionalForwarders_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSConditionalForwarder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mendapatkan semua Forwarder Bersyarat yang dikonfigurasi dari ID Direktori yang diberikan.**  

```
Get-DSConditionalForwarder -DirectoryId d-123456ijkl
```
**Output:**  

```
DnsIpAddrs      RemoteDomainName ReplicationScope
----------      ---------------- ----------------
{172.31.77.239} contoso.com      Domain
```
+  Untuk detail API, lihat [DescribeConditionalForwarders](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSDirectory`
<a name="directory-service_DescribeDirectories_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini Memperoleh informasi tentang direktori milik akun ini.**  

```
Get-DSDirectory | Select-Object DirectoryId, Name, DnsIpAddrs, Type
```
**Output:**  

```
DirectoryId  Name           DnsIpAddrs                     Type
-----------  ----           ----------                     ----
d-123456abcd abcd.example.com {172.31.74.189, 172.31.13.145} SimpleAD
d-123456efgh wifi.example.com {172.31.16.108, 172.31.10.56}  ADConnector
d-123456ijkl lan2.example.com {172.31.10.56, 172.31.16.108}  MicrosoftAD
```
+  Untuk detail API, lihat [DescribeDirectories](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSDirectoryLimit`
<a name="directory-service_GetDirectoryLimits_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSDirectoryLimit`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghilangkan informasi batas direktori untuk wilayah us-east-1.**  

```
Get-DSDirectoryLimit -Region us-east-1
```
**Output:**  

```
CloudOnlyDirectoriesCurrentCount : 1
CloudOnlyDirectoriesLimit        : 10
CloudOnlyDirectoriesLimitReached : False
CloudOnlyMicrosoftADCurrentCount : 1
CloudOnlyMicrosoftADLimit        : 20
CloudOnlyMicrosoftADLimitReached : False
ConnectedDirectoriesCurrentCount : 1
ConnectedDirectoriesLimit        : 10
```
+  Untuk detail API, lihat [GetDirectoryLimits](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSDomainControllerList`
<a name="directory-service_DescribeDomainControllers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSDomainControllerList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mendapatkan daftar rinci Pengontrol Domain yang diluncurkan untuk direktori-id yang disebutkan**  

```
Get-DSDomainControllerList -DirectoryId d-123456ijkl
```
**Output:**  

```
AvailabilityZone          : us-east-1b
DirectoryId               : d-123456ijkl
DnsIpAddr                 : 172.31.16.108
DomainControllerId        : dc-1234567aa6
LaunchTime                : 4/4/2019 4:53:43 AM
Status                    : Active
StatusLastUpdatedDateTime : 4/24/2019 1:37:54 PM
StatusReason              :
SubnetId                  : subnet-1234kkaa
VpcId                     : vpc-123459d

AvailabilityZone          : us-east-1d
DirectoryId               : d-123456ijkl
DnsIpAddr                 : 172.31.10.56
DomainControllerId        : dc-1234567aa7
LaunchTime                : 4/4/2019 4:53:43 AM
Status                    : Active
StatusLastUpdatedDateTime : 4/4/2019 5:14:31 AM
StatusReason              :
SubnetId                  : subnet-5678ffbb
VpcId                     : vpc-123459d
```
+  Untuk detail API, lihat [DescribeDomainControllers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSEventTopic`
<a name="directory-service_DescribeEventTopics_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSEventTopic`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menunjukkan informasi Topik SNS yang dikonfigurasi untuk pemberitahuan sementara status direktori berubah.**  

```
Get-DSEventTopic -DirectoryId d-123456ijkl
```
**Output:**  

```
CreatedDateTime : 12/13/2019 11:15:32 AM
DirectoryId     : d-123456ijkl
Status          : Registered
TopicArn        : arn:aws:sns:us-east-1:123456781234:snstopicname
TopicName       : snstopicname
```
+  Untuk detail API, lihat [DescribeEventTopics](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSIpRouteList`
<a name="directory-service_ListIpRoutes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSIpRouteList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mendapatkan blok alamat IP publik yang dikonfigurasi di Directory IP Routing**  

```
Get-DSIpRouteList -DirectoryId d-123456ijkl
```
**Output:**  

```
AddedDateTime       : 12/13/2019 12:27:22 PM
CidrIp              : 203.0.113.5/32
Description         : Public IP of On-Prem DNS Server
DirectoryId         : d-123456ijkl
IpRouteStatusMsg    : Added
IpRouteStatusReason :
```
+  Untuk detail API, lihat [ListIpRoutes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSLDAPSSetting`
<a name="directory-service_DescribeLDAPSSettings_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSLDAPSSetting`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan status keamanan LDAP untuk direktori yang ditentukan.**  

```
Get-DSLDAPSSetting -DirectoryId d-123456ijkl
```
**Output:**  

```
LastUpdatedDateTime  LDAPSStatus LDAPSStatusReason
-------------------  ----------- -----------------
4/15/2020 6:51:03 PM Enabled     LDAPS is enabled successfully.
```
+  Untuk detail API, lihat [Menjelaskan LDAPSSettings](https://docs.aws.amazon.com/powershell/v4/reference) dalam *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSLogSubscriptionList`
<a name="directory-service_ListLogSubscriptions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSLogSubscriptionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mendapatkan informasi log langganan direktori-id yang ditentukan**  

```
Get-DSLogSubscriptionList -DirectoryId d-123456ijkl
```
**Output:**  

```
DirectoryId  LogGroupName                                        SubscriptionCreatedDateTime
-----------  ------------                                        ---------------------------
d-123456ijkl /aws/directoryservice/d-123456ijkl-lan2.example.com 12/14/2019 9:05:23 AM
```
+  Untuk detail API, lihat [ListLogSubscriptions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSResourceTag`
<a name="directory-service_ListTagsForResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mendapatkan semua Tag Direktori tertentu.**  

```
Get-DSResourceTag -ResourceId d-123456ijkl
```
**Output:**  

```
Key   Value
---   -----
myTag myTagValue
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSSchemaExtension`
<a name="directory-service_ListSchemaExtensions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSSchemaExtension`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua ekstensi skema yang diterapkan ke Direktori Microsoft AD.**  

```
Get-DSSchemaExtension -DirectoryId d-123456ijkl
```
**Output:**  

```
Description                 : ManagedADSchemaExtension
DirectoryId                 : d-123456ijkl
EndDateTime                 : 4/12/2020 10:30:49 AM
SchemaExtensionId           : e-9067306643
SchemaExtensionStatus       : Completed
SchemaExtensionStatusReason : Schema updates are complete.
StartDateTime               : 4/12/2020 10:28:42 AM
```
+  Untuk detail API, lihat [ListSchemaExtensions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSSharedDirectory`
<a name="directory-service_DescribeSharedDirectories_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSSharedDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan direktori bersama Akun Anda AWS **  

```
Get-DSSharedDirectory -OwnerDirectoryId d-123456ijkl -SharedDirectoryId d-9067012345
```
**Output:**  

```
CreatedDateTime     : 12/30/2019 4:34:37 AM
LastUpdatedDateTime : 12/30/2019 4:35:22 AM
OwnerAccountId      : 123456781234
OwnerDirectoryId    : d-123456ijkl
SharedAccountId     : 123456784321
SharedDirectoryId   : d-9067012345
ShareMethod         : HANDSHAKE
ShareNotes          : This is a test Sharing
ShareStatus         : Shared
```
+  Untuk detail API, lihat [DescribeSharedDirectories](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSSnapshot`
<a name="directory-service_DescribeSnapshots_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSSnapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mendapatkan informasi tentang snapshot direktori tertentu milik akun ini.**  

```
Get-DSSnapshot -DirectoryId d-123456ijkl
```
**Output:**  

```
DirectoryId : d-123456ijkl
Name        :
SnapshotId  : s-9064bd1234
StartTime   : 12/13/2019 6:33:01 PM
Status      : Completed
Type        : Auto

DirectoryId : d-123456ijkl
Name        :
SnapshotId  : s-9064bb4321
StartTime   : 12/9/2019 9:48:11 PM
Status      : Completed
Type        : Auto
```
+  Untuk detail API, lihat [DescribeSnapshots](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSSnapshotLimit`
<a name="directory-service_GetSnapshotLimits_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSSnapshotLimit`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mendapatkan batas snapshot manual untuk direktori tertentu.**  

```
Get-DSSnapshotLimit -DirectoryId d-123456ijkl
```
**Output:**  

```
ManualSnapshotsCurrentCount ManualSnapshotsLimit ManualSnapshotsLimitReached
--------------------------- -------------------- ---------------------------
0                           5                    False
```
+  Untuk detail API, lihat [GetSnapshotLimits](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DSTrust`
<a name="directory-service_DescribeTrusts_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSTrust`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mendapatkan informasi hubungan kepercayaan yang dibuat untuk direktori-id tertentu.**  

```
Get-DSTrust -DirectoryId d-123456abcd
```
**Output:**  

```
CreatedDateTime          : 7/5/2019 4:55:42 AM
DirectoryId              : d-123456abcd
LastUpdatedDateTime      : 7/5/2019 4:56:04 AM
RemoteDomainName         : contoso.com
SelectiveAuth            : Disabled
StateLastUpdatedDateTime : 7/5/2019 4:56:04 AM
TrustDirection           : One-Way: Incoming
TrustId                  : t-9067157123
TrustState               : Created
TrustStateReason         :
TrustType                : Forest
```
+  Untuk detail API, lihat [DescribeTrusts](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DSAlias`
<a name="directory-service_CreateAlias_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSAlias`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini membuat alias untuk direktori dan menetapkan alias ke direktori-id yang ditentukan.**  

```
New-DSAlias -DirectoryId d-123456ijkl -Alias MyOrgName
```
**Output:**  

```
Alias     DirectoryId
-----     -----------
myorgname d-123456ijkl
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DSComputer`
<a name="directory-service_CreateComputer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSComputer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat objek komputer Active Directory baru.**  

```
New-DSComputer -DirectoryId d-123456ijkl -ComputerName ADMemberServer -Password $Password
```
**Output:**  

```
ComputerAttributes                  ComputerId                                    ComputerName
------------------                  ----------                                    ------------
{WindowsSamName, DistinguishedName} S-1-5-21-1191241402-978882507-2717148213-1662 ADMemberServer
```
+  Untuk detail API, lihat [CreateComputer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DSConditionalForwarder`
<a name="directory-service_CreateConditionalForwarder_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSConditionalForwarder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kondisional forwarder di direktori-ID tertentu. AWS **  

```
New-DSConditionalForwarder -DirectoryId d-123456ijkl -DnsIpAddr 172.31.36.96,172.31.10.56 -RemoteDomainName contoso.com
```
+  Untuk detail API, lihat [CreateConditionalForwarder](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DSDirectory`
<a name="directory-service_CreateDirectory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat direktori Simple AD baru.**  

```
New-DSDirectory -Name corp.example.com -Password $Password -Size Small -VpcSettings_VpcId vpc-123459d -VpcSettings_SubnetIds subnet-1234kkaa,subnet-5678ffbb
```
+  Untuk detail API, lihat [CreateDirectory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DSLogSubscription`
<a name="directory-service_CreateLogSubscription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSLogSubscription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat langganan untuk meneruskan log keamanan pengontrol domain Directory Service real-time ke grup log Amazon yang ditentukan di grup CloudWatch log Anda Akun AWS.**  

```
New-DSLogSubscription -DirectoryId d-123456ijkl -LogGroupName /aws/directoryservice/d-123456ijkl-lan2.example.com
```
+  Untuk detail API, lihat [CreateLogSubscription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DSMicrosoftAD`
<a name="directory-service_CreateMicrosoftAD_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSMicrosoftAD`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat Direktori Microsoft AD baru di AWS Cloud.**  

```
New-DSMicrosoftAD -Name corp.example.com -Password $Password -edition Standard -VpcSettings_VpcId vpc-123459d -VpcSettings_SubnetIds subnet-1234kkaa,subnet-5678ffbb
```
+  Untuk detail API, lihat [CreateMicrosoftAD](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DSSnapshot`
<a name="directory-service_CreateSnapshot_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSSnapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat snapshot direktori**  

```
New-DSSnapshot -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [CreateSnapshot](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DSTrust`
<a name="directory-service_CreateTrust_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSTrust`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menciptakan kepercayaan Two-Way Forestwide antara direktori AD AWS Microsoft Terkelola, dan Microsoft Active Directory lokal yang ada.**  

```
New-DSTrust -DirectoryId d-123456ijkl -RemoteDomainName contoso.com -TrustDirection Two-Way -TrustType Forest -TrustPassword $Password -ConditionalForwarderIpAddr 172.31.36.96
```
**Output:**  

```
t-9067157123
```
+  Untuk detail API, lihat [CreateTrust](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-DSCertificate`
<a name="directory-service_RegisterCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-DSCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan sertifikat untuk koneksi LDAP yang aman.**  

```
$Certificate = Get-Content contoso.cer -Raw
Register-DSCertificate -DirectoryId d-123456ijkl -CertificateData $Certificate
```
**Output:**  

```
c-906731e350
```
+  Untuk detail API, lihat [RegisterCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-DSEventTopic`
<a name="directory-service_RegisterEventTopic_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-DSEventTopic`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan direktori sebagai penerbit dengan topik SNS.**  

```
Register-DSEventTopic -DirectoryId d-123456ijkl -TopicName snstopicname
```
+  Untuk detail API, lihat [RegisterEventTopic](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-DSConditionalForwarder`
<a name="directory-service_DeleteConditionalForwarder_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSConditionalForwarder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus forwarder bersyarat yang telah disiapkan untuk Direcotry Anda. AWS **  

```
Remove-DSConditionalForwarder -DirectoryId d-123456ijkl -RemoteDomainName contoso.com
```
+  Untuk detail API, lihat [DeleteConditionalForwarder](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-DSDirectory`
<a name="directory-service_DeleteDirectory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus AWS direktori layanan Direktori (Konektor AD/Microsoft AD/AD Sederhana)**  

```
Remove-DSDirectory -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [DeleteDirectory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-DSIpRoute`
<a name="directory-service_RemoveIpRoutes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSIpRoute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus IP yang ditentukan dari rute IP Dikonfigurasi dari ID Direktori.**  

```
Remove-DSIpRoute -DirectoryId d-123456ijkl -CidrIp 203.0.113.5/32
```
+  Untuk detail API, lihat [RemoveIpRoutes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-DSLogSubscription`
<a name="directory-service_DeleteLogSubscription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSLogSubscription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus Langganan Log dari ID Direktori yang ditentukan**  

```
Remove-DSLogSubscription -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [DeleteLogSubscription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-DSResourceTag`
<a name="directory-service_RemoveTagsFromResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus Tag Sumber Daya yang ditetapkan ke ID Direktori yang ditentukan**  

```
Remove-DSResourceTag -ResourceId d-123456ijkl -TagKey myTag
```
+  Untuk detail API, lihat [RemoveTagsFromResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-DSSnapshot`
<a name="directory-service_DeleteSnapshot_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSSnapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus snapshot yang dibuat secara manual.**  

```
Remove-DSSnapshot -SnapshotId s-9068b488kc
```
+  Untuk detail API, lihat [DeleteSnapshot](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-DSTrust`
<a name="directory-service_DeleteTrust_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSTrust`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus hubungan kepercayaan yang ada antara Direktori AD AWS Terkelola dan domain eksternal.**  

```
Get-DSTrust -DirectoryId d-123456ijkl -Select Trusts.TrustId | Remove-DSTrust
```
**Output:**  

```
t-9067157123
```
+  Untuk detail API, lihat [DeleteTrust](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Reset-DSUserPassword`
<a name="directory-service_ResetUserPassword_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-DSUserPassword`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengatur ulang kata sandi pengguna Active Direcotry yang dinamai ADUser di Microsoft AD yang AWS dikelola atau Simple AD Directory**  

```
Reset-DSUserPassword -UserName ADuser -DirectoryId d-123456ijkl -NewPassword $Password
```
+  Untuk detail API, lihat [ResetUserPassword](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Restore-DSFromSnapshot`
<a name="directory-service_RestoreFromSnapshot_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Restore-DSFromSnapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan direktori menggunakan snapshot direktori yang ada.**  

```
Restore-DSFromSnapshot -SnapshotId s-9068b488kc
```
+  Untuk detail API, lihat [RestoreFromSnapshot](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-DSDomainControllerCount`
<a name="directory-service_UpdateNumberOfDomainControllers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-DSDomainControllerCount`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menetapkan jumlah pengontrol domain ke 3 untuk direktori-id tertentu.**  

```
Set-DSDomainControllerCount -DirectoryId d-123456ijkl -DesiredNumber 3
```
+  Untuk detail API, lihat [UpdateNumberOfDomainControllers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-DSSchemaExtension`
<a name="directory-service_StartSchemaExtension_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-DSSchemaExtension`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini Menerapkan ekstensi skema ke direktori Microsoft AD.**  

```
$ldif = Get-Content D:\Users\Username\Downloads\ExtendedSchema.ldf -Raw
Start-DSSchemaExtension -DirectoryId d-123456ijkl -CreateSnapshotBeforeSchemaExtension $true -Description ManagedADSchemaExtension -LdifContent $ldif
```
**Output:**  

```
e-9067306643
```
+  Untuk detail API, lihat [StartSchemaExtension](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-DSSchemaExtension`
<a name="directory-service_CancelSchemaExtension_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-DSSchemaExtension`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan ekstensi skema yang sedang berlangsung ke direktori Microsoft AD.**  

```
Stop-DSSchemaExtension -DirectoryId d-123456ijkl -SchemaExtensionId e-9067306643
```
+  Untuk detail API, lihat [CancelSchemaExtension](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-DSCertificate`
<a name="directory-service_DeregisterCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-DSCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus dari sistem sertifikat yang terdaftar untuk koneksi LDAP yang aman..**  

```
Unregister-DSCertificate -DirectoryId d-123456ijkl -CertificateId c-906731e34f
```
+  Untuk detail API, lihat [DeregisterCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-DSEventTopic`
<a name="directory-service_DeregisterEventTopic_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-DSEventTopic`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus direktori specefied sebagai penerbit ke topik SNS yang ditentukan.**  

```
Unregister-DSEventTopic -DirectoryId d-123456ijkl -TopicName snstopicname
```
+  Untuk detail API, lihat [DeregisterEventTopic](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-DSConditionalForwarder`
<a name="directory-service_UpdateConditionalForwarder_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DSConditionalForwarder`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui forwarder bersyarat yang telah disiapkan untuk direktori Anda. AWS **  

```
Update-DSConditionalForwarder -DirectoryId d-123456ijkl -DnsIpAddr 172.31.36.96,172.31.16.108 -RemoteDomainName contoso.com
```
+  Untuk detail API, lihat [UpdateConditionalForwarder](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-DSRadius`
<a name="directory-service_UpdateRadius_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DSRadius`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui informasi server RADIUS untuk direktori AD Connector atau Microsoft AD.**  

```
Update-DSRadius -DirectoryId d-123456ijkl -RadiusSettings_RadiusRetry 3
```
+  Untuk detail API, lihat [UpdateRadius](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-DSTrust`
<a name="directory-service_UpdateTrust_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DSTrust`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui SelectiveAuth parameter trust-id tertentu dari Disabled ke Enabled.**  

```
Update-DSTrust -TrustId t-9067157123 -SelectiveAuth Enabled
```
**Output:**  

```
RequestId                            TrustId
---------                            -------
138864a7-c9a8-4ad1-a828-eae479e85b45 t-9067157123
```
+  Untuk detail API, lihat [UpdateTrust](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# AWS DMS contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_database-migration-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan AWS DMS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-DMSReplicationTask`
<a name="database-migration-service_CreateReplicationTask_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DMSReplicationTask`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat tugas replikasi AWS Database Migration Service baru yang menggunakan CdcStartTime sebagai ganti. CdcStartPosition MigrationType Ini diatur ke "full-load-and-cdc“, yang berarti tabel target harus kosong. Tugas baru ditandai dengan tag yang memiliki kunci Stage dan nilai kunci Test. Untuk informasi selengkapnya tentang nilai yang digunakan oleh cmdlet ini, lihat Membuat Tugas (https://docs.aws.amazon.com/dms/latest/userguide/CHAP\$1Tasks.creating.html) di Panduan Pengguna Layanan Migrasi Database. AWS **  

```
New-DMSReplicationTask -ReplicationInstanceArn "arn:aws:dms:us-east-1:123456789012:rep:EXAMPLE66XFJUWATDJGBEXAMPLE"`
  -CdcStartTime "2019-08-08T12:12:12"`
  -CdcStopPosition "server_time:2019-08-09T12:12:12"`
  -MigrationType "full-load-and-cdc"`
  -ReplicationTaskIdentifier "task1"`
  -ReplicationTaskSetting ""`
  -SourceEndpointArn "arn:aws:dms:us-east-1:123456789012:endpoint:EXAMPLEW5UANC7Y3P4EEXAMPLE"`
  -TableMapping "file:////home/testuser/table-mappings.json"`
  -Tag @{"Key"="Stage";"Value"="Test"}`
  -TargetEndpointArn "arn:aws:dms:us-east-1:123456789012:endpoint:EXAMPLEJZASXWHTWCLNEXAMPLE"
```
+  Untuk detail API, lihat [CreateReplicationTask](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh DynamoDB menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan DynamoDB.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-DDBIndexSchema`
<a name="dynamodb_Add-DDBIndexSchema_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-DDBIndexSchema`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat TableSchema objek kosong dan menambahkan definisi indeks sekunder lokal baru sebelum menulis TableSchema objek ke pipeline.**  

```
$schema | Add-DDBIndexSchema -IndexName "LastPostIndex" -RangeKeyName "LastPostDateTime" -RangeKeyDataType "S" -ProjectionType "keys_only"
$schema = New-DDBTableSchema
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{LastPostDateTime}                          {}                                          {LastPostIndex}
```
**Contoh 2: Menambahkan definisi indeks sekunder lokal baru ke TableSchema objek yang disediakan sebelum menulis TableSchema objek kembali ke pipeline. TableSchema Objek juga dapat diberikan menggunakan parameter -Schema.**  

```
New-DDBTableSchema | Add-DDBIndexSchema -IndexName "LastPostIndex" -RangeKeyName "LastPostDateTime" -RangeKeyDataType "S" -ProjectionType "keys_only"
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{LastPostDateTime}                          {}                                          {LastPostIndex}
```
+  Untuk detail API, lihat [Menambahkan DDBIndex Skema](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V4). 

### `Add-DDBKeySchema`
<a name="dynamodb_Add-DDBKeySchema_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-DDBKeySchema`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat TableSchema objek kosong dan menambahkan entri definisi kunci dan atribut ke dalamnya menggunakan data kunci yang ditentukan sebelum menulis TableSchema objek ke pipeline. Tipe kunci dinyatakan sebagai 'HASH' secara default; gunakan - KeyType paameter dengan nilai 'RANGE' untuk mendeklarasikan kunci rentang.**  

```
$schema = New-DDBTableSchema
$schema | Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S"
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{ForumName}                                 {ForumName}                                 {}
```
**Contoh 2: Menambahkan entri definisi kunci dan atribut baru ke TableSchema objek yang disediakan sebelum menulis TableSchema objek ke pipeline. Tipe kunci dinyatakan sebagai 'HASH' secara default; gunakan - KeyType paameter dengan nilai 'RANGE' untuk mendeklarasikan kunci rentang. TableSchema Objek juga dapat diberikan menggunakan parameter -Schema.**  

```
New-DDBTableSchema | Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S"
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{ForumName}                                 {ForumName}                                 {}
```
+  Untuk detail API, lihat [Menambahkan DDBKey Skema](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V4). 

### `ConvertFrom-DDBItem`
<a name="dynamodb_ConvertFrom-DDBItem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConvertFrom-DDBItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: ConvertFrom - DDBItem digunakan untuk mengonversi hasil Get-DDBItem dari hashtable AttributeValues DynamoDB ke hashtable tipe umum seperti string dan double.**  

```
@{
    SongTitle = 'Somewhere Down The Road'
    Artist    = 'No One You Know'
} | ConvertTo-DDBItem

Get-DDBItem -TableName 'Music' -Key $key | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
Artist                         No One You Know
Price                          1.94
CriticRating                   9
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
```
+  Untuk detail API, lihat [ConvertFrom- DDBItem](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `ConvertTo-DDBItem`
<a name="dynamodb_ConvertTo-DDBItem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConvertTo-DDBItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh untuk mengubah hashtable menjadi kamus nilai atribut DynamoDB.**  

```
@{
    SongTitle = 'Somewhere Down The Road'
    Artist    = 'No One You Know'
} | ConvertTo-DDBItem

Key       Value
---       -----
SongTitle Amazon.DynamoDBv2.Model.AttributeValue
Artist    Amazon.DynamoDBv2.Model.AttributeValue
```
**Contoh 2: Contoh untuk mengubah hashtable menjadi kamus nilai atribut DynamoDB.**  

```
@{
    MyMap        = @{
        MyString = 'my string'
    }
    MyStringSet  = [System.Collections.Generic.HashSet[String]]@('my', 'string')
    MyNumericSet = [System.Collections.Generic.HashSet[Int]]@(1, 2, 3)
    MyBinarySet  = [System.Collections.Generic.HashSet[System.IO.MemoryStream]]@(
        ([IO.MemoryStream]::new([Text.Encoding]::UTF8.GetBytes('my'))),
        ([IO.MemoryStream]::new([Text.Encoding]::UTF8.GetBytes('string')))
    )
    MyList1      = @('my', 'string')
    MyList2      = [System.Collections.Generic.List[Int]]@(1, 2)
    MyList3      = [System.Collections.ArrayList]@('one', 2, $true)
} | ConvertTo-DDBItem
```
**Output:**  

```
Key          Value
---          -----
MyStringSet  Amazon.DynamoDBv2.Model.AttributeValue
MyList1      Amazon.DynamoDBv2.Model.AttributeValue
MyNumericSet Amazon.DynamoDBv2.Model.AttributeValue
MyList2      Amazon.DynamoDBv2.Model.AttributeValue
MyBinarySet  Amazon.DynamoDBv2.Model.AttributeValue
MyMap        Amazon.DynamoDBv2.Model.AttributeValue
MyList3      Amazon.DynamoDBv2.Model.AttributeValue
```
+  Untuk detail API, lihat [ConvertTo- DDBItem](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DDBBatchItem`
<a name="dynamodb_BatchGetItem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DDBBatchItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mendapatkan item dengan SongTitle “Somewhere Down The Road” dari tabel DynamoDB 'Music' dan 'Songs'.**  

```
$key = @{
    SongTitle = 'Somewhere Down The Road'
    Artist = 'No One You Know'
} | ConvertTo-DDBItem

$keysAndAttributes = New-Object Amazon.DynamoDBv2.Model.KeysAndAttributes
$list = New-Object 'System.Collections.Generic.List[System.Collections.Generic.Dictionary[String, Amazon.DynamoDBv2.Model.AttributeValue]]'
$list.Add($key)
$keysAndAttributes.Keys = $list

$requestItem = @{
    'Music' = [Amazon.DynamoDBv2.Model.KeysAndAttributes]$keysAndAttributes
    'Songs' = [Amazon.DynamoDBv2.Model.KeysAndAttributes]$keysAndAttributes
}

$batchItems = Get-DDBBatchItem -RequestItem $requestItem
$batchItems.GetEnumerator() | ForEach-Object {$PSItem.Value} | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Artist                         No One You Know
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
CriticRating                   10
Genre                          Country
Price                          1.94
Artist                         No One You Know
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
CriticRating                   10
Genre                          Country
Price                          1.94
```
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DDBItem`
<a name="dynamodb_GetItem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DDBItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan item DynamoDB dengan SongTitle kunci partisi dan kunci sort Artist.**  

```
$key = @{
  SongTitle = 'Somewhere Down The Road'
  Artist = 'No One You Know'
} | ConvertTo-DDBItem

Get-DDBItem -TableName 'Music' -Key $key | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
SongTitle                      Somewhere Down The Road
Price                          1.94
Artist                         No One You Know
CriticRating                   9
AlbumTitle                     Somewhat Famous
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DDBTable`
<a name="dynamodb_DescribeTable_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DDBTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan rincian tabel yang ditentukan.**  

```
Get-DDBTable -TableName "myTable"
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-DDBTableList`
<a name="dynamodb_ListTables_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DDBTableList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan rincian semua tabel, secara otomatis iterasi sampai layanan menunjukkan tidak ada tabel lebih lanjut.**  

```
Get-DDBTableList
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Invoke-DDBQuery`
<a name="dynamodb_Query_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke-DDBQuery`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memanggil query yang mengembalikan item DynamoDB dengan yang ditentukan dan Artist. SongTitle **  

```
$invokeDDBQuery = @{
    TableName = 'Music'
    KeyConditionExpression = ' SongTitle = :SongTitle and Artist = :Artist'
    ExpressionAttributeValues = @{
        ':SongTitle' = 'Somewhere Down The Road'
        ':Artist' = 'No One You Know'
    } | ConvertTo-DDBItem
}
Invoke-DDBQuery @invokeDDBQuery | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
Artist                         No One You Know
Price                          1.94
CriticRating                   9
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Invoke-DDBScan`
<a name="dynamodb_Scan_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke-DDBScan`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua item dalam tabel Musik.**  

```
Invoke-DDBScan -TableName 'Music' | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
Artist                         No One You Know
Price                          1.94
CriticRating                   9
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
Genre                          Country
Artist                         No One You Know
Price                          1.98
CriticRating                   8.4
SongTitle                      My Dog Spot
AlbumTitle                     Hey Now
```
**Contoh 2: Mengembalikan item dalam tabel Musik dengan CriticRating lebih besar dari atau sama dengan sembilan.**  

```
$scanFilter = @{
        CriticRating = [Amazon.DynamoDBv2.Model.Condition]@{
            AttributeValueList = @(@{N = '9'})
            ComparisonOperator = 'GE'
        }
    }
    Invoke-DDBScan -TableName 'Music' -ScanFilter $scanFilter | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
Artist                         No One You Know
Price                          1.94
CriticRating                   9
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
```
+  Untuk detail API, lihat [Memindai](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DDBTable`
<a name="dynamodb_CreateTable_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DDBTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat tabel bernama Thread yang memiliki kunci utama yang terdiri dari 'ForumName' (hash tipe kunci) dan 'Subject' (rentang tipe kunci). Skema yang digunakan untuk membangun tabel dapat disalurkan ke setiap cmdlet seperti yang ditunjukkan atau ditentukan menggunakan parameter -Schema.**  

```
$schema = New-DDBTableSchema
$schema | Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S"
$schema | Add-DDBKeySchema -KeyName "Subject" -KeyType RANGE -KeyDataType "S"
$schema | New-DDBTable -TableName "Thread" -ReadCapacity 10 -WriteCapacity 5
```
**Output:**  

```
AttributeDefinitions   : {ForumName, Subject}
TableName              : Thread
KeySchema              : {ForumName, Subject}
TableStatus            : CREATING
CreationDateTime       : 10/28/2013 4:39:49 PM
ProvisionedThroughput  : Amazon.DynamoDBv2.Model.ProvisionedThroughputDescription
TableSizeBytes         : 0
ItemCount              : 0
LocalSecondaryIndexes  : {}
```
**Contoh 2: Contoh ini membuat tabel bernama Thread yang memiliki kunci utama yang terdiri dari 'ForumName' (hash tipe kunci) dan 'Subject' (rentang tipe kunci). Indeks sekunder lokal juga didefinisikan. Kunci indeks sekunder lokal akan diatur secara otomatis dari kunci hash utama pada tabel (ForumName). Skema yang digunakan untuk membangun tabel dapat disalurkan ke setiap cmdlet seperti yang ditunjukkan atau ditentukan menggunakan parameter -Schema.**  

```
$schema = New-DDBTableSchema
$schema | Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S"
$schema | Add-DDBKeySchema -KeyName "Subject" -KeyDataType "S"
$schema | Add-DDBIndexSchema -IndexName "LastPostIndex" -RangeKeyName "LastPostDateTime" -RangeKeyDataType "S" -ProjectionType "keys_only"
$schema | New-DDBTable -TableName "Thread" -ReadCapacity 10 -WriteCapacity 5
```
**Output:**  

```
AttributeDefinitions   : {ForumName, LastPostDateTime, Subject}
TableName              : Thread
KeySchema              : {ForumName, Subject}
TableStatus            : CREATING
CreationDateTime       : 10/28/2013 4:39:49 PM
ProvisionedThroughput  : Amazon.DynamoDBv2.Model.ProvisionedThroughputDescription
TableSizeBytes         : 0
ItemCount              : 0
LocalSecondaryIndexes  : {LastPostIndex}
```
**Contoh 3: Contoh ini menunjukkan cara menggunakan pipeline tunggal untuk membuat tabel bernama Thread yang memiliki kunci utama yang terdiri dari 'ForumName' (hash tipe kunci) dan 'Subjek' (rentang tipe kunci) dan indeks sekunder lokal. DDBKeyAdd-Schema dan Add- DDBIndex Schema membuat TableSchema objek baru untuk Anda jika salah satu tidak dipasok dari pipeline atau parameter -Schema.**  

```
New-DDBTableSchema |
  Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S" |
  Add-DDBKeySchema -KeyName "Subject" -KeyDataType "S" |
  Add-DDBIndexSchema -IndexName "LastPostIndex" `
                     -RangeKeyName "LastPostDateTime" `
                     -RangeKeyDataType "S" `
                     -ProjectionType "keys_only" |
  New-DDBTable -TableName "Thread" -ReadCapacity 10 -WriteCapacity 5
```
**Output:**  

```
AttributeDefinitions   : {ForumName, LastPostDateTime, Subject}
TableName              : Thread
KeySchema              : {ForumName, Subject}
TableStatus            : CREATING
CreationDateTime       : 10/28/2013 4:39:49 PM
ProvisionedThroughput  : Amazon.DynamoDBv2.Model.ProvisionedThroughputDescription
TableSizeBytes         : 0
ItemCount              : 0
LocalSecondaryIndexes  : {LastPostIndex}
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-DDBTableSchema`
<a name="dynamodb_New-DDBTableSchema_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DDBTableSchema`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat TableSchema objek kosong yang siap menerima definisi kunci dan indeks untuk digunakan dalam membuat tabel Amazon DynamoDB baru. Objek yang dikembalikan dapat disalurkan ke dalam Add- DDBKey Schema, Add- DDBIndex Schema dan New- DDBTable cmdlet atau diteruskan ke mereka menggunakan parameter -Schema pada setiap cmdlet.**  

```
New-DDBTableSchema
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{}                                          {}                                          {}
```
+  Untuk detail API, lihat [DDBTableSkema Baru di](https://docs.aws.amazon.com/powershell/v4/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (*V4). 

### `Remove-DDBItem`
<a name="dynamodb_DeleteItem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DDBItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus item DynamoDB yang cocok dengan kunci yang disediakan.**  

```
$key = @{
    SongTitle = 'Somewhere Down The Road'
    Artist = 'No One You Know'
} | ConvertTo-DDBItem
Remove-DDBItem -TableName 'Music' -Key $key -Confirm:$false
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-DDBTable`
<a name="dynamodb_DeleteTable_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DDBTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus tabel yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-DDBTable -TableName "myTable"
```
**Contoh 2: Menghapus tabel yang ditentukan. Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-DDBTable -TableName "myTable" -Force
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-DDBBatchItem`
<a name="dynamodb_BatchWriteItem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-DDBBatchItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat item baru, atau mengganti item yang ada dengan item baru di tabel DynamoDB Musik dan Lagu.**  

```
$item = @{
    SongTitle = 'Somewhere Down The Road'
    Artist = 'No One You Know'
    AlbumTitle = 'Somewhat Famous'
    Price = 1.94
    Genre = 'Country'
    CriticRating = 10.0
} | ConvertTo-DDBItem

$writeRequest = New-Object Amazon.DynamoDBv2.Model.WriteRequest
$writeRequest.PutRequest = [Amazon.DynamoDBv2.Model.PutRequest]$item

$requestItem = @{
    'Music' = [Amazon.DynamoDBv2.Model.WriteRequest]($writeRequest)
    'Songs' = [Amazon.DynamoDBv2.Model.WriteRequest]($writeRequest)
}

Set-DDBBatchItem -RequestItem $requestItem
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-DDBItem`
<a name="dynamodb_PutItem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-DDBItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat item baru, atau mengganti item yang sudah ada dengan item baru.**  

```
$item = @{
  SongTitle = 'Somewhere Down The Road'
  Artist = 'No One You Know'
        AlbumTitle = 'Somewhat Famous'
        Price = 1.94
        Genre = 'Country'
        CriticRating = 9.0
} | ConvertTo-DDBItem
Set-DDBItem -TableName 'Music' -Item $item
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-DDBItem`
<a name="dynamodb_UpdateItem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DDBItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menetapkan atribut genre ke 'Rap' pada item DynamoDB dengan SongTitle kunci partisi dan Artis kunci sortir.**  

```
$key = @{
    SongTitle = 'Somewhere Down The Road'
    Artist = 'No One You Know'
} | ConvertTo-DDBItem

$updateDdbItem = @{
    TableName = 'Music'
    Key = $key
    UpdateExpression = 'set Genre = :val1'
    ExpressionAttributeValue = (@{
        ':val1' = ([Amazon.DynamoDBv2.Model.AttributeValue]'Rap')
    })
}
Update-DDBItem @updateDdbItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Rap
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-DDBTable`
<a name="dynamodb_UpdateTable_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DDBTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui throughput yang disediakan untuk tabel yang diberikan.**  

```
Update-DDBTable -TableName "myTable" -ReadCapacity 10 -WriteCapacity 5
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon EC2 menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon EC2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-EC2CapacityReservation`
<a name="ec2_CreateCapacityReservation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2CapacityReservation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat Reservasi Kapasitas baru dengan atribut yang ditentukan**  

```
Add-EC2CapacityReservation -InstanceType m4.xlarge -InstanceCount 2 -AvailabilityZone eu-west-1b -EbsOptimized True -InstancePlatform Windows
```
**Output:**  

```
AvailabilityZone       : eu-west-1b
AvailableInstanceCount : 2
CapacityReservationId  : cr-0c1f2345db6f7cdba
CreateDate             : 3/28/2019 9:29:41 AM
EbsOptimized           : True
EndDate                : 1/1/0001 12:00:00 AM
EndDateType            : unlimited
EphemeralStorage       : False
InstanceMatchCriteria  : open
InstancePlatform       : Windows
InstanceType           : m4.xlarge
State                  : active
Tags                   : {}
Tenancy                : default
TotalInstanceCount     : 2
```
+  Untuk detail API, lihat [CreateCapacityReservation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-EC2InternetGateway`
<a name="ec2_AttachInternetGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2InternetGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan gateway Internet yang ditentukan ke VPC yang ditentukan.**  

```
Add-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d -VpcId vpc-12345678
```
**Contoh 2: Contoh ini membuat VPC dan gateway Internet, dan kemudian melampirkan gateway Internet ke VPC.**  

```
$vpc = New-EC2Vpc -CidrBlock 10.0.0.0/16
New-EC2InternetGateway | Add-EC2InternetGateway -VpcId $vpc.VpcId
```
+  Untuk detail API, lihat [AttachInternetGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-EC2NetworkInterface`
<a name="ec2_AttachNetworkInterface_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2NetworkInterface`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan antarmuka jaringan yang ditentukan ke instance yang ditentukan.**  

```
Add-EC2NetworkInterface -NetworkInterfaceId eni-12345678 -InstanceId i-1a2b3c4d -DeviceIndex 1
```
**Output:**  

```
eni-attach-1a2b3c4d
```
+  Untuk detail API, lihat [AttachNetworkInterface](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-EC2Volume`
<a name="ec2_AttachVolume_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2Volume`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan volume yang ditentukan ke instance yang ditentukan dan memaparkannya dengan nama perangkat yang ditentukan.**  

```
Add-EC2Volume -VolumeId vol-12345678 -InstanceId i-1a2b3c4d -Device /dev/sdh
```
**Output:**  

```
AttachTime          : 12/22/2015 1:53:58 AM
DeleteOnTermination : False
Device              : /dev/sdh
InstanceId          : i-1a2b3c4d
State               : attaching
VolumeId            : vol-12345678
```
+  Untuk detail API, lihat [AttachVolume](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-EC2VpnGateway`
<a name="ec2_AttachVpnGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2VpnGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan gateway pribadi virtual yang ditentukan ke VPC yang ditentukan.**  

```
Add-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d -VpcId vpc-12345678
```
**Output:**  

```
State        VpcId
-----        -----
attaching    vpc-12345678
```
+  Untuk detail API, lihat [AttachVpnGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Approve-EC2VpcPeeringConnection`
<a name="ec2_AcceptVpcPeeringConnection_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Approve-EC2VpcPeeringConnection`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menyetujui pcx-1dfad234b56ff78be yang diminta VpcPeeringConnectionId **  

```
Approve-EC2VpcPeeringConnection -VpcPeeringConnectionId pcx-1dfad234b56ff78be
```
**Output:**  

```
AccepterVpcInfo        : Amazon.EC2.Model.VpcPeeringConnectionVpcInfo
ExpirationTime         : 1/1/0001 12:00:00 AM
RequesterVpcInfo       : Amazon.EC2.Model.VpcPeeringConnectionVpcInfo
Status                 : Amazon.EC2.Model.VpcPeeringConnectionStateReason
Tags                   : {}
VpcPeeringConnectionId : pcx-1dfad234b56ff78be
```
+  Untuk detail API, lihat [AcceptVpcPeeringConnection](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Confirm-EC2ProductInstance`
<a name="ec2_ConfirmProductInstance_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Confirm-EC2ProductInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menentukan apakah kode produk yang ditentukan dikaitkan dengan instance yang ditentukan.**  

```
Confirm-EC2ProductInstance -ProductCode 774F4FF8 -InstanceId i-12345678
```
+  Untuk detail API, lihat [ConfirmProductInstance](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Copy-EC2Image`
<a name="ec2_CopyImage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-EC2Image`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menyalin AMI yang ditentukan di wilayah 'UE (Irlandia) 'ke wilayah 'AS Barat (Oregon)'. Jika -Region tidak ditentukan, wilayah default saat ini digunakan sebagai wilayah tujuan.**  

```
Copy-EC2Image -SourceRegion eu-west-1 -SourceImageId ami-12345678 -Region us-west-2 -Name "Copy of ami-12345678"
```
**Output:**  

```
ami-87654321
```
+  Untuk detail API, lihat [CopyImage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Copy-EC2Snapshot`
<a name="ec2_CopySnapshot_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-EC2Snapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menyalin snapshot yang ditentukan dari wilayah UE (Irlandia) ke wilayah AS Barat (Oregon).**  

```
Copy-EC2Snapshot -SourceRegion eu-west-1 -SourceSnapshotId snap-12345678 -Region us-west-2
```
**Contoh 2: Jika Anda menetapkan wilayah default dan menghilangkan parameter Region, wilayah tujuan default adalah wilayah default.**  

```
Set-DefaultAWSRegion us-west-2
Copy-EC2Snapshot -SourceRegion eu-west-1 -SourceSnapshotId snap-12345678
```
+  Untuk detail API, lihat [CopySnapshot](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Deny-EC2VpcPeeringConnection`
<a name="ec2_RejectVpcPeeringConnection_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Deny-EC2VpcPeeringConnection`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh di atas menolak permintaan VpcPeering permintaan id pcx-01a2b3ce45fe67eb8**  

```
Deny-EC2VpcPeeringConnection -VpcPeeringConnectionId pcx-01a2b3ce45fe67eb8
```
+  Untuk detail API, lihat [RejectVpcPeeringConnection](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-EC2VgwRoutePropagation`
<a name="ec2_DisableVgwRoutePropagation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-EC2VgwRoutePropagation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan VGW dari menyebarkan rute secara otomatis ke tabel perutean yang ditentukan.**  

```
Disable-EC2VgwRoutePropagation -RouteTableId rtb-12345678 -GatewayId vgw-1a2b3c4d
```
+  Untuk detail API, lihat [DisableVgwRoutePropagation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-EC2VpcClassicLink`
<a name="ec2_DisableVpcClassicLink_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-EC2VpcClassicLink`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan EC2 VpcClassicLink untuk vpc-01e23c4a5d6db78e9. Ia mengembalikan True atau False**  

```
Disable-EC2VpcClassicLink -VpcId vpc-01e23c4a5d6db78e9
```
+  Untuk detail API, lihat [DisableVpcClassicLink](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-EC2VpcClassicLinkDnsSupport`
<a name="ec2_DisableVpcClassicLinkDnsSupport_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-EC2VpcClassicLinkDnsSupport`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan dukungan ClassicLink DNS untuk vpc-0b12d3456a7e8910d**  

```
Disable-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d
```
+  Untuk detail API, lihat [DisableVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Dismount-EC2InternetGateway`
<a name="ec2_DetachInternetGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-EC2InternetGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan gateway Internet yang ditentukan dari VPC yang ditentukan.**  

```
Dismount-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d -VpcId vpc-12345678
```
+  Untuk detail API, lihat [DetachInternetGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Dismount-EC2NetworkInterface`
<a name="ec2_DetachNetworkInterface_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-EC2NetworkInterface`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus lampiran yang ditentukan antara antarmuka jaringan dan instance.**  

```
Dismount-EC2NetworkInterface -AttachmentId eni-attach-1a2b3c4d -Force
```
+  Untuk detail API, lihat [DetachNetworkInterface](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Dismount-EC2Volume`
<a name="ec2_DetachVolume_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-EC2Volume`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan volume yang ditentukan.**  

```
Dismount-EC2Volume -VolumeId vol-12345678
```
**Output:**  

```
AttachTime          : 12/22/2015 1:53:58 AM
DeleteOnTermination : False
Device              : /dev/sdh
InstanceId          : i-1a2b3c4d
State               : detaching
VolumeId            : vol-12345678
```
**Contoh 2: Anda juga dapat menentukan ID instans dan nama perangkat untuk memastikan bahwa Anda melepaskan volume yang benar.**  

```
Dismount-EC2Volume -VolumeId vol-12345678 -InstanceId i-1a2b3c4d -Device /dev/sdh
```
+  Untuk detail API, lihat [DetachVolume](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Dismount-EC2VpnGateway`
<a name="ec2_DetachVpnGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-EC2VpnGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan gateway pribadi virtual yang ditentukan dari VPC yang ditentukan.**  

```
Dismount-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d -VpcId vpc-12345678
```
+  Untuk detail API, lihat [DetachVpnGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2CapacityReservation`
<a name="ec2_ModifyCapacityReservation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2CapacityReservation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi CapacityReservationId cr-0c1f2345db6f7cdba dengan mengubah hitungan instane menjadi 1**  

```
Edit-EC2CapacityReservation -CapacityReservationId cr-0c1f2345db6f7cdba -InstanceCount 1
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [ModifyCapacityReservation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2Host`
<a name="ec2_ModifyHosts_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2Host`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi AutoPlacement pengaturan ke off untuk host khusus h-01e23f4cd567890f3**  

```
Edit-EC2Host -HostId h-03e09f8cd681609f3 -AutoPlacement off
```
**Output:**  

```
Successful            Unsuccessful
----------            ------------
{h-01e23f4cd567890f3} {}
```
+  Untuk detail API, lihat [ModifyHosts](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2IdFormat`
<a name="ec2_ModifyIdFormat_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2IdFormat`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan format ID yang lebih panjang untuk jenis sumber daya yang ditentukan.**  

```
Edit-EC2IdFormat -Resource instance -UseLongId $true
```
**Contoh 2: Contoh ini menonaktifkan format ID yang lebih panjang untuk jenis sumber daya yang ditentukan.**  

```
Edit-EC2IdFormat -Resource instance -UseLongId $false
```
+  Untuk detail API, lihat [ModifyIdFormat](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2ImageAttribute`
<a name="ec2_ModifyImageAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2ImageAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui deskripsi untuk AMI yang ditentukan.**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Description "New description"
```
**Contoh 2: Contoh ini membuat AMI menjadi publik (misalnya, jadi siapa pun Akun AWS dapat menggunakannya).**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType add -UserGroup all
```
**Contoh 3: Contoh ini menjadikan AMI pribadi (misalnya, sehingga hanya Anda sebagai pemilik yang dapat menggunakannya).**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType remove -UserGroup all
```
**Contoh 4: Contoh ini memberikan izin peluncuran ke yang ditentukan Akun AWS.**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType add -UserId 111122223333
```
**Contoh 5: Contoh ini menghapus izin peluncuran dari yang ditentukan Akun AWS.**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType remove -UserId 111122223333
```
+  Untuk detail API, lihat [ModifyImageAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2InstanceAttribute`
<a name="ec2_ModifyInstanceAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2InstanceAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi jenis instance dari instance yang ditentukan.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -InstanceType m3.medium
```
**Contoh 2: Contoh ini memungkinkan peningkatan jaringan untuk instance tertentu, dengan menentukan “sederhana” sebagai nilai dari parameter dukungan jaringan I/O virtualisasi root tunggal (SR-IOV), -.. SriovNetSupport**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -SriovNetSupport "simple"
```
**Contoh 3: Contoh ini memodifikasi grup keamanan untuk instance tertentu. Instans harus dalam VPC. Anda harus menentukan ID dari setiap grup keamanan, bukan nama.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -Group @( "sg-12345678", "sg-45678901" )
```
**Contoh 4: Contoh ini memungkinkan I/O optimasi EBS untuk instance tertentu. Fitur ini tidak tersedia dengan semua jenis instance. Biaya penggunaan tambahan berlaku saat menggunakan instans yang dioptimalkan EBS.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -EbsOptimized $true
```
**Contoh 5: Contoh ini memungkinkan source/destination pemeriksaan untuk contoh yang ditentukan. Untuk instance NAT untuk melakukan NAT, nilainya harus 'salah'.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -SourceDestCheck $true
```
**Contoh 6: Contoh ini menonaktifkan penghentian untuk contoh yang ditentukan.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -DisableApiTermination $true
```
**Contoh 7: Contoh ini mengubah instance tertentu sehingga berakhir ketika shutdown dimulai dari instance.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -InstanceInitiatedShutdownBehavior terminate
```
+  Untuk detail API, lihat [ModifyInstanceAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2InstanceCreditSpecification`
<a name="ec2_ModifyInstanceCreditSpecification_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2InstanceCreditSpecification`.

**Alat untuk PowerShell V4**  
**Contoh 1: Ini memungkinkan kredit tak terbatas T2 misalnya i-01234567890abcdef.**  

```
$Credit = New-Object -TypeName Amazon.EC2.Model.InstanceCreditSpecificationRequest
$Credit.InstanceId = "i-01234567890abcdef"
$Credit.CpuCredits = "unlimited"
Edit-EC2InstanceCreditSpecification -InstanceCreditSpecification $Credit
```
+  Untuk detail API, lihat [ModifyInstanceCreditSpecification](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2NetworkInterfaceAttribute`
<a name="ec2_ModifyNetworkInterfaceAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2NetworkInterfaceAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi antarmuka jaringan yang ditentukan sehingga lampiran yang ditentukan dihapus pada penghentian.**  

```
Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Attachment_AttachmentId eni-attach-1a2b3c4d -Attachment_DeleteOnTermination $true
```
**Contoh 2: Contoh ini memodifikasi deskripsi antarmuka jaringan yang ditentukan.**  

```
Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Description "my description"
```
**Contoh 3: Contoh ini memodifikasi grup keamanan untuk antarmuka jaringan yang ditentukan.**  

```
Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Groups sg-1a2b3c4d
```
**Contoh 4: Contoh ini menonaktifkan source/destination pemeriksaan antarmuka jaringan yang ditentukan.**  

```
Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -SourceDestCheck $false
```
+  Untuk detail API, lihat [ModifyNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2ReservedInstance`
<a name="ec2_ModifyReservedInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2ReservedInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi Availability Zone, jumlah instans, dan platform untuk instans Cadangan yang ditentukan.**  

```
$config = New-Object Amazon.EC2.Model.ReservedInstancesConfiguration
$config.AvailabilityZone = "us-west-2a"
$config.InstanceCount = 1
$config.Platform = "EC2-VPC"

Edit-EC2ReservedInstance `
-ReservedInstancesId @("FE32132D-70D5-4795-B400-AE435EXAMPLE", "0CC556F3-7AB8-4C00-B0E5-98666EXAMPLE") `
-TargetConfiguration $config
```
+  Untuk detail API, lihat [ModifyReservedInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2SnapshotAttribute`
<a name="ec2_ModifySnapshotAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2SnapshotAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat snapshot yang ditentukan publik dengan menyetel CreateVolumePermission atributnya.**  

```
Edit-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission -OperationType Add -GroupName all
```
+  Untuk detail API, lihat [ModifySnapshotAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2SpotFleetRequest`
<a name="ec2_ModifySpotFleetRequest_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2SpotFleetRequest`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui kapasitas target permintaan armada Spot yang ditentukan.**  

```
Edit-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TargetCapacity 10
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [ModifySpotFleetRequest](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2SubnetAttribute`
<a name="ec2_ModifySubnetAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2SubnetAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan pengalamatan IP publik untuk subnet yang ditentukan.**  

```
Edit-EC2SubnetAttribute -SubnetId subnet-1a2b3c4d -MapPublicIpOnLaunch $true
```
**Contoh 2: Contoh ini menonaktifkan pengalamatan IP publik untuk subnet yang ditentukan.**  

```
Edit-EC2SubnetAttribute -SubnetId subnet-1a2b3c4d -MapPublicIpOnLaunch $false
```
+  Untuk detail API, lihat [ModifySubnetAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2VolumeAttribute`
<a name="ec2_ModifyVolumeAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2VolumeAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi atribut tertentu dari volume yang ditentukan. I/O operasi untuk volume secara otomatis dilanjutkan setelah ditangguhkan karena data yang berpotensi tidak konsisten**.  

```
Edit-EC2VolumeAttribute -VolumeId vol-12345678 -AutoEnableIO $true
```
+  Untuk detail API, lihat [ModifyVolumeAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-EC2VpcAttribute`
<a name="ec2_ModifyVpcAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2VpcAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan dukungan untuk nama host DNS untuk VPC yang ditentukan.**  

```
Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsHostnames $true
```
**Contoh 2: Contoh ini menonaktifkan dukungan untuk nama host DNS untuk VPC yang ditentukan.**  

```
Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsHostnames $false
```
**Contoh 3: Contoh ini memungkinkan dukungan untuk resolusi DNS untuk VPC yang ditentukan.**  

```
Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsSupport $true
```
**Contoh 4: Contoh ini menonaktifkan dukungan untuk resolusi DNS untuk VPC yang ditentukan.**  

```
Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsSupport $false
```
+  Untuk detail API, lihat [ModifyVpcAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-EC2VgwRoutePropagation`
<a name="ec2_EnableVgwRoutePropagation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-EC2VgwRoutePropagation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan VGW yang ditentukan untuk menyebarkan rute secara otomatis ke tabel perutean yang ditentukan.**  

```
Enable-EC2VgwRoutePropagation -RouteTableId rtb-12345678 -GatewayId vgw-1a2b3c4d
```
+  Untuk detail API, lihat [EnableVgwRoutePropagation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-EC2VolumeIO`
<a name="ec2_EnableVolumeIo_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-EC2VolumeIO`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan I/O operasi untuk volume yang ditentukan, jika I/O operasi dinonaktifkan.**  

```
Enable-EC2VolumeIO -VolumeId vol-12345678
```
+  Untuk detail API, lihat [EnableVolumeIo](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-EC2VpcClassicLink`
<a name="ec2_EnableVpcClassicLink_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-EC2VpcClassicLink`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan VPC vpc-0123456b789b0d12f untuk ClassicLink**  

```
Enable-EC2VpcClassicLink -VpcId vpc-0123456b789b0d12f
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [EnableVpcClassicLink](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-EC2VpcClassicLinkDnsSupport`
<a name="ec2_EnableVpcClassicLinkDnsSupport_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-EC2VpcClassicLinkDnsSupport`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan vpc-0b12d3456a7e8910d untuk mendukung resolusi nama host DNS untuk ClassicLink**  

```
Enable-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d -Region eu-west-1
```
+  Untuk detail API, lihat [EnableVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2AccountAttribute`
<a name="ec2_DescribeAccountAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2AccountAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan apakah Anda dapat meluncurkan instance ke EC2-Classic dan EC2-VPC di wilayah tersebut, atau hanya ke EC2-VPC.**  

```
(Get-EC2AccountAttribute -AttributeName supported-platforms).AttributeValues
```
**Output:**  

```
AttributeValue
--------------
EC2
VPC
```
**Contoh 2: Contoh ini menjelaskan VPC default Anda, atau 'tidak ada' jika Anda tidak memiliki VPC default di wilayah tersebut.**  

```
(Get-EC2AccountAttribute -AttributeName default-vpc).AttributeValues
```
**Output:**  

```
AttributeValue
--------------
vpc-12345678
```
**Contoh 3: Contoh ini menjelaskan jumlah maksimum instans On-Demand yang dapat Anda jalankan.**  

```
(Get-EC2AccountAttribute -AttributeName max-instances).AttributeValues
```
**Output:**  

```
AttributeValue
--------------
20
```
+  Untuk detail API, lihat [DescribeAccountAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Address`
<a name="ec2_DescribeAddresses_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Address`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan alamat IP Elastis yang ditentukan untuk instance di EC2-Classic.**  

```
Get-EC2Address -AllocationId eipalloc-12345678
```
**Output:**  

```
AllocationId            : eipalloc-12345678
AssociationId           : eipassoc-12345678
Domain                  : vpc
InstanceId              : i-87654321
NetworkInterfaceId      : eni-12345678
NetworkInterfaceOwnerId : 12345678
PrivateIpAddress        : 10.0.2.172
PublicIp                : 198.51.100.2
```
**Contoh 2: Contoh ini menjelaskan alamat IP Elastis Anda untuk instance di VPC. Sintaks ini membutuhkan PowerShell versi 3 atau yang lebih baru.**  

```
Get-EC2Address -Filter @{ Name="domain";Values="vpc" }
```
**Contoh 3: Contoh ini menjelaskan alamat IP Elastis yang ditentukan untuk instance di EC2-Classic.**  

```
Get-EC2Address -PublicIp 203.0.113.17
```
**Output:**  

```
AllocationId            :
AssociationId           :
Domain                  : standard
InstanceId              : i-12345678
NetworkInterfaceId      :
NetworkInterfaceOwnerId :
PrivateIpAddress        :
PublicIp                : 203.0.113.17
```
**Contoh 4: Contoh ini menjelaskan alamat IP Elastis Anda untuk instance di EC2-Classic. Sintaks ini membutuhkan PowerShell versi 3 atau yang lebih baru.**  

```
Get-EC2Address -Filter @{ Name="domain";Values="standard" }
```
**Contoh 5: Contoh ini menjelaskan semua alamat IP Elastis Anda.**  

```
Get-EC2Address
```
**Contoh 6: Contoh ini mengembalikan IP publik dan pribadi untuk id contoh yang disediakan dalam filter**  

```
Get-EC2Address -Region eu-west-1 -Filter @{Name="instance-id";Values="i-0c12d3f4f567ffb89"} | Select-Object PrivateIpAddress, PublicIp
```
**Output:**  

```
PrivateIpAddress PublicIp
---------------- --------
10.0.0.99        63.36.5.227
```
**Contoh 7: Contoh ini mengambil semua Elastic IPs dengan id alokasi, id asosiasi dan id instans**  

```
Get-EC2Address -Region eu-west-1 | Select-Object InstanceId, AssociationId, AllocationId, PublicIp
```
**Output:**  

```
InstanceId          AssociationId              AllocationId               PublicIp
----------          -------------              ------------               --------
                                               eipalloc-012e3b456789e1fad 17.212.120.178
i-0c123dfd3415bac67 eipassoc-0e123456bb7890bdb eipalloc-01cd23ebf45f7890c 17.212.124.77
                                               eipalloc-012345678eeabcfad 17.212.225.7
i-0123d405c67e89a0c eipassoc-0c123b456783966ba eipalloc-0123cdd456a8f7892 37.216.52.173
i-0f1bf2f34c5678d09 eipassoc-0e12934568a952d96 eipalloc-0e1c23e4d5e6789e4 37.218.222.278
i-012e3cb4df567e8aa eipassoc-0d1b2fa4d67d03810 eipalloc-0123f456f78a01b58 37.210.82.27
i-0123bcf4b567890e1 eipassoc-01d2345f678903fb1 eipalloc-0e1db23cfef5c45c7 37.215.222.270
```
**Contoh 8: Contoh ini mengambil daftar alamat IP EC2 yang cocok dengan kunci tag 'Kategori' dengan nilai 'Prod'**  

```
Get-EC2Address -Filter @{Name="tag:Category";Values="Prod"}
```
**Output:**  

```
AllocationId            : eipalloc-0123f456f81a01b58
AssociationId           : eipassoc-0d1b23a456d103810
CustomerOwnedIp         :
CustomerOwnedIpv4Pool   :
Domain                  : vpc
InstanceId              : i-012e3cb4df567e1aa
NetworkBorderGroup      : eu-west-1
NetworkInterfaceId      : eni-0123f41d5a60d5f40
NetworkInterfaceOwnerId : 123456789012
PrivateIpAddress        : 192.168.1.84
PublicIp                : 34.250.81.29
PublicIpv4Pool          : amazon
Tags                    : {Category, Name}
```
+  Untuk detail API, lihat [DescribeAddresses](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2AvailabilityZone`
<a name="ec2_DescribeAvailabilityZones_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2AvailabilityZone`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan Availability Zone untuk wilayah saat ini yang tersedia untuk Anda.**  

```
Get-EC2AvailabilityZone
```
**Output:**  

```
Messages    RegionName    State        ZoneName
--------    ----------    -----        --------
{}          us-west-2     available    us-west-2a
{}          us-west-2     available    us-west-2b
{}          us-west-2     available    us-west-2c
```
**Contoh 2: Contoh ini menjelaskan Availability Zone yang berada dalam keadaan terganggu. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
Get-EC2AvailabilityZone -Filter @{ Name="state";Values="impaired" }
```
**Contoh 3: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat filter.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = "impaired"

Get-EC2AvailabilityZone -Filter $filter
```
+  Untuk detail API, lihat [DescribeAvailabilityZones](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2BundleTask`
<a name="ec2_DescribeBundleTasks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2BundleTask`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan tugas bundel yang ditentukan.**  

```
Get-EC2BundleTask -BundleId bun-12345678
```
**Contoh 2: Contoh ini menjelaskan tugas bundel yang statusnya 'lengkap' atau 'gagal'.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = @( "complete", "failed" )

Get-EC2BundleTask -Filter $filter
```
+  Untuk detail API, lihat [DescribeBundleTasks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2CapacityReservation`
<a name="ec2_DescribeCapacityReservations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2CapacityReservation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan satu atau beberapa Reservasi Kapasitas Anda untuk wilayah tersebut**  

```
Get-EC2CapacityReservation -Region eu-west-1
```
**Output:**  

```
AvailabilityZone       : eu-west-1b
AvailableInstanceCount : 2
CapacityReservationId  : cr-0c1f2345db6f7cdba
CreateDate             : 3/28/2019 9:29:41 AM
EbsOptimized           : True
EndDate                : 1/1/0001 12:00:00 AM
EndDateType            : unlimited
EphemeralStorage       : False
InstanceMatchCriteria  : open
InstancePlatform       : Windows
InstanceType           : m4.xlarge
State                  : active
Tags                   : {}
Tenancy                : default
TotalInstanceCount     : 2
```
+  Untuk detail API, lihat [DescribeCapacityReservations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2ConsoleOutput`
<a name="ec2_GetConsoleOutput_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ConsoleOutput`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan output konsol untuk instance Linux yang ditentukan. Output konsol dikodekan.**  

```
Get-EC2ConsoleOutput -InstanceId i-0e19abcd47c123456
```
**Output:**  

```
InstanceId          Output
----------          ------
i-0e194d3c47c123637 WyAgICAwLjAwMDAwMF0gQ29tbW...bGU9dHR5UzAgc2Vs
```
**Contoh 2: Contoh ini menyimpan output konsol yang dikodekan dalam variabel dan kemudian menerjemahkannya.**  

```
$Output_encoded = (Get-EC2ConsoleOutput -InstanceId i-0e19abcd47c123456).Output
[System.Text.Encoding]::UTF8.GetString([System.Convert]::FromBase64String($Output_encoded))
```
+  Untuk detail API, lihat [GetConsoleOutput](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2CustomerGateway`
<a name="ec2_DescribeCustomerGateways_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2CustomerGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan gateway pelanggan yang ditentukan.**  

```
Get-EC2CustomerGateway -CustomerGatewayId cgw-1a2b3c4d
```
**Output:**  

```
BgpAsn            : 65534
CustomerGatewayId : cgw-1a2b3c4d
IpAddress         : 203.0.113.12
State             : available
Tags              : {}
Type              : ipsec.1
```
**Contoh 2: Contoh ini menjelaskan gateway pelanggan yang statusnya tertunda atau tersedia.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = @( "pending", "available" )

Get-EC2CustomerGateway -Filter $filter
```
**Contoh 3: Contoh ini menjelaskan semua gateway pelanggan Anda.**  

```
Get-EC2CustomerGateway
```
+  Untuk detail API, lihat [DescribeCustomerGateways](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2DhcpOption`
<a name="ec2_DescribeDhcpOptions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2DhcpOption`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan set opsi DHCP Anda.**  

```
Get-EC2DhcpOption
```
**Output:**  

```
DhcpConfigurations                    DhcpOptionsId    Tag
------------------                    -------------    ---
{domain-name, domain-name-servers}    dopt-1a2b3c4d    {}
{domain-name, domain-name-servers}    dopt-2a3b4c5d    {}
{domain-name-servers}                 dopt-3a4b5c6d    {}
```
**Contoh 2: Contoh ini mendapatkan detail konfigurasi untuk set opsi DHCP yang ditentukan.**  

```
(Get-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d).DhcpConfigurations
```
**Output:**  

```
Key                    Values
---                    ------
domain-name            {abc.local}
domain-name-servers    {10.0.0.101, 10.0.0.102}
```
+  Untuk detail API, lihat [DescribeDhcpOptions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2FlowLog`
<a name="ec2_DescribeFlowLogs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2FlowLog`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan satu atau lebih flow log dengan tipe tujuan log 's3'**  

```
Get-EC2FlowLog -Filter @{Name="log-destination-type";Values="s3"}
```
**Output:**  

```
CreationTime             : 2/25/2019 9:07:36 PM
DeliverLogsErrorMessage  :
DeliverLogsPermissionArn :
DeliverLogsStatus        : SUCCESS
FlowLogId                : fl-01b2e3d45f67f8901
FlowLogStatus            : ACTIVE
LogDestination           : arn:aws:s3:::amzn-s3-demo-bucket-dd-tata
LogDestinationType       : s3
LogGroupName             :
ResourceId               : eni-01d2dda3456b7e890
TrafficType              : ALL
```
+  Untuk detail API, lihat [DescribeFlowLogs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Host`
<a name="ec2_DescribeHosts_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Host`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian host EC2**  

```
Get-EC2Host
```
**Output:**  

```
AllocationTime    : 3/23/2019 4:55:22 PM
AutoPlacement     : off
AvailabilityZone  : eu-west-1b
AvailableCapacity : Amazon.EC2.Model.AvailableCapacity
ClientToken       :
HostId            : h-01e23f4cd567890f1
HostProperties    : Amazon.EC2.Model.HostProperties
HostReservationId :
Instances         : {}
ReleaseTime       : 1/1/0001 12:00:00 AM
State             : available
Tags              : {}
```
**Contoh 2: Contoh ini menanyakan host AvailableInstanceCapacity h-01e23f4cd567899f1**  

```
Get-EC2Host -HostId h-01e23f4cd567899f1 | Select-Object -ExpandProperty AvailableCapacity | Select-Object -expand AvailableInstanceCapacity
```
**Output:**  

```
AvailableCapacity InstanceType TotalCapacity
----------------- ------------ -------------
11                m4.xlarge    11
```
+  Untuk detail API, lihat [DescribeHosts](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2HostReservationOffering`
<a name="ec2_DescribeHostReservationOfferings_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2HostReservationOffering`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan reservasi Host Khusus yang tersedia untuk dibeli untuk filter yang diberikan 'instance-family' di mana '' PaymentOption NoUpfront**  

```
Get-EC2HostReservationOffering -Filter @{Name="instance-family";Values="m4"} | Where-Object PaymentOption -eq NoUpfront
```
**Output:**  

```
CurrencyCode   :
Duration       : 94608000
HourlyPrice    : 1.307
InstanceFamily : m4
OfferingId     : hro-0c1f234567890d9ab
PaymentOption  : NoUpfront
UpfrontPrice   : 0.000

CurrencyCode   :
Duration       : 31536000
HourlyPrice    : 1.830
InstanceFamily : m4
OfferingId     : hro-04ad12aaaf34b5a67
PaymentOption  : NoUpfront
UpfrontPrice   : 0.000
```
+  Untuk detail API, lihat [DescribeHostReservationOfferings](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2HostReservationPurchasePreview`
<a name="ec2_GetHostReservationPurchasePreview_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2HostReservationPurchasePreview`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan pratinjau pembelian reservasi dengan konfigurasi yang cocok dengan Host Khusus Anda h-01e23f4cd567890f1**  

```
Get-EC2HostReservationPurchasePreview -OfferingId hro-0c1f23456789d0ab -HostIdSet h-01e23f4cd567890f1
```
**Output:**  

```
CurrencyCode Purchase TotalHourlyPrice TotalUpfrontPrice
------------ -------- ---------------- -----------------
             {}       1.307            0.000
```
+  Untuk detail API, lihat [GetHostReservationPurchasePreview](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2IdFormat`
<a name="ec2_DescribeIdFormat_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2IdFormat`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan format ID untuk jenis sumber daya yang ditentukan.**  

```
Get-EC2IdFormat -Resource instance
```
**Output:**  

```
Resource       UseLongIds
--------       ----------
instance       False
```
**Contoh 2: Contoh ini menjelaskan format ID untuk semua jenis sumber daya yang mendukung lebih lama IDs.**  

```
Get-EC2IdFormat
```
**Output:**  

```
Resource       UseLongIds
--------       ----------
reservation    False
instance       False
```
+  Untuk detail API, lihat [DescribeIdFormat](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2IdentityIdFormat`
<a name="ec2_DescribeIdentityIdFormat_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2IdentityIdFormat`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan format ID untuk sumber 'image' untuk peran yang diberikan**  

```
Get-EC2IdentityIdFormat -PrincipalArn arn:aws:iam::123456789511:role/JDBC -Resource image
```
**Output:**  

```
Deadline             Resource UseLongIds
--------             -------- ----------
8/2/2018 11:30:00 PM image    True
```
+  Untuk detail API, lihat [DescribeIdentityIdFormat](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Image`
<a name="ec2_DescribeImages_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Image`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan AMI yang ditentukan.**  

```
Get-EC2Image -ImageId ami-12345678
```
**Output:**  

```
Architecture        : x86_64
BlockDeviceMappings : {/dev/xvda}
CreationDate        : 2014-10-20T00:56:28.000Z
Description         : My image
Hypervisor          : xen
ImageId             : ami-12345678
ImageLocation       : 123456789012/my-image
ImageOwnerAlias     :
ImageType           : machine
KernelId            :
Name                : my-image
OwnerId             : 123456789012
Platform            :
ProductCodes        : {}
Public              : False
RamdiskId           :
RootDeviceName      : /dev/xvda
RootDeviceType      : ebs
SriovNetSupport     : simple
State               : available
StateReason         :
Tags                : {Name}
VirtualizationType  : hvm
```
**Contoh 2: Contoh ini menggambarkan AMIs yang Anda miliki.**  

```
Get-EC2Image -owner self
```
**Contoh 3: Contoh ini menjelaskan publik AMIs yang menjalankan Microsoft Windows Server.**  

```
Get-EC2Image -Filter @{ Name="platform"; Values="windows" }
```
**Contoh 4: Contoh ini menjelaskan semua publik AMIs di wilayah 'us-west-2'.**  

```
Get-EC2Image -Region us-west-2
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2ImageAttribute`
<a name="ec2_DescribeImageAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ImageAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan deskripsi untuk AMI yang ditentukan.**  

```
Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute description
```
**Output:**  

```
BlockDeviceMappings : {}
Description         : My image description
ImageId             : ami-12345678
KernelId            :
LaunchPermissions   : {}
ProductCodes        : {}
RamdiskId           :
SriovNetSupport     :
```
**Contoh 2: Contoh ini mendapatkan izin peluncuran untuk AMI yang ditentukan.**  

```
Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission
```
**Output:**  

```
BlockDeviceMappings : {}
Description         :
ImageId             : ami-12345678
KernelId            :
LaunchPermissions   : {all}
ProductCodes        : {}
RamdiskId           :
SriovNetSupport     :
```
**Contoh 3: Contoh ini menguji apakah jaringan yang ditingkatkan diaktifkan.**  

```
Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute sriovNetSupport
```
**Output:**  

```
BlockDeviceMappings : {}
Description         :
ImageId             : ami-12345678
KernelId            :
LaunchPermissions   : {}
ProductCodes        : {}
RamdiskId           :
SriovNetSupport     : simple
```
+  Untuk detail API, lihat [DescribeImageAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2ImageByName`
<a name="ec2_Get-EC2ImageByName_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ImageByName`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan kumpulan lengkap nama filter yang saat ini didukung.**  

```
Get-EC2ImageByName
```
**Output:**  

```
WINDOWS_2016_BASE
WINDOWS_2016_NANO
WINDOWS_2016_CORE
WINDOWS_2016_CONTAINER
WINDOWS_2016_SQL_SERVER_ENTERPRISE_2016
WINDOWS_2016_SQL_SERVER_STANDARD_2016
WINDOWS_2016_SQL_SERVER_WEB_2016
WINDOWS_2016_SQL_SERVER_EXPRESS_2016
WINDOWS_2012R2_BASE
WINDOWS_2012R2_CORE
WINDOWS_2012R2_SQL_SERVER_EXPRESS_2016
WINDOWS_2012R2_SQL_SERVER_STANDARD_2016
WINDOWS_2012R2_SQL_SERVER_WEB_2016
WINDOWS_2012R2_SQL_SERVER_EXPRESS_2014
WINDOWS_2012R2_SQL_SERVER_STANDARD_2014
WINDOWS_2012R2_SQL_SERVER_WEB_2014
WINDOWS_2012_BASE
WINDOWS_2012_SQL_SERVER_EXPRESS_2014
WINDOWS_2012_SQL_SERVER_STANDARD_2014
WINDOWS_2012_SQL_SERVER_WEB_2014
WINDOWS_2012_SQL_SERVER_EXPRESS_2012
WINDOWS_2012_SQL_SERVER_STANDARD_2012
WINDOWS_2012_SQL_SERVER_WEB_2012
WINDOWS_2012_SQL_SERVER_EXPRESS_2008
WINDOWS_2012_SQL_SERVER_STANDARD_2008
WINDOWS_2012_SQL_SERVER_WEB_2008
WINDOWS_2008R2_BASE
WINDOWS_2008R2_SQL_SERVER_EXPRESS_2012
WINDOWS_2008R2_SQL_SERVER_STANDARD_2012
WINDOWS_2008R2_SQL_SERVER_WEB_2012
WINDOWS_2008R2_SQL_SERVER_EXPRESS_2008
WINDOWS_2008R2_SQL_SERVER_STANDARD_2008
WINDOWS_2008R2_SQL_SERVER_WEB_2008
WINDOWS_2008RTM_BASE
WINDOWS_2008RTM_SQL_SERVER_EXPRESS_2008
WINDOWS_2008RTM_SQL_SERVER_STANDARD_2008
WINDOWS_2008_BEANSTALK_IIS75
WINDOWS_2012_BEANSTALK_IIS8
VPC_NAT
```
**Contoh 2: Contoh ini menjelaskan AMI yang ditentukan. Menggunakan perintah ini untuk menemukan AMI sangat membantu karena AWS merilis Windows baru AMIs dengan pembaruan terbaru setiap bulan. Anda dapat menentukan 'ImageId' New-EC2Instance untuk meluncurkan instance menggunakan AMI saat ini untuk filter yang ditentukan.**  

```
Get-EC2ImageByName -Names WINDOWS_2016_BASE
```
**Output:**  

```
Architecture        : x86_64
BlockDeviceMappings : {/dev/sda1, xvdca, xvdcb, xvdcc...}
CreationDate        : yyyy.mm.ddThh:mm:ss.000Z
Description         : Microsoft Windows Server 2016 with Desktop Experience Locale English AMI provided by Amazon
Hypervisor          : xen
ImageId             : ami-xxxxxxxx
ImageLocation       : amazon/Windows_Server-2016-English-Full-Base-yyyy.mm.dd
ImageOwnerAlias     : amazon
ImageType           : machine
KernelId            :
Name                : Windows_Server-2016-English-Full-Base-yyyy.mm.dd
OwnerId             : 801119661308
Platform            : Windows
ProductCodes        : {}
Public              : True
RamdiskId           :
RootDeviceName      : /dev/sda1
RootDeviceType      : ebs
SriovNetSupport     : simple
State               : available
StateReason         :
Tags                : {}
VirtualizationType  : hvm
```
+  Untuk detail API, lihat [Get-EC2ImageByName](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2ImportImageTask`
<a name="ec2_DescribeImportImageTasks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ImportImageTask`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan tugas impor gambar yang ditentukan.**  

```
Get-EC2ImportImageTask -ImportTaskId import-ami-hgfedcba
```
**Output:**  

```
Architecture    : x86_64
Description     : Windows Image 2
Hypervisor      :
ImageId         : ami-1a2b3c4d
ImportTaskId    : import-ami-hgfedcba
LicenseType     : AWS
Platform        : Windows
Progress        :
SnapshotDetails : {/dev/sda1}
Status          : completed
StatusMessage   :
```
**Contoh 2: Contoh ini menjelaskan semua tugas impor gambar Anda.**  

```
Get-EC2ImportImageTask
```
**Output:**  

```
Architecture    :
Description     : Windows Image 1
Hypervisor      :
ImageId         :
ImportTaskId    : import-ami-abcdefgh
LicenseType     : AWS
Platform        : Windows
Progress        :
SnapshotDetails : {}
Status          : deleted
StatusMessage   : User initiated task cancelation

Architecture    : x86_64
Description     : Windows Image 2
Hypervisor      :
ImageId         : ami-1a2b3c4d
ImportTaskId    : import-ami-hgfedcba
LicenseType     : AWS
Platform        : Windows
Progress        :
SnapshotDetails : {/dev/sda1}
Status          : completed
StatusMessage   :
```
+  Untuk detail API, lihat [DescribeImportImageTasks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2ImportSnapshotTask`
<a name="ec2_DescribeImportSnapshotTasks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ImportSnapshotTask`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan tugas impor snapshot yang ditentukan.**  

```
Get-EC2ImportSnapshotTask -ImportTaskId import-snap-abcdefgh
```
**Output:**  

```
Description             ImportTaskId               SnapshotTaskDetail                                                          
-----------------       --------------------       ------------------                                                          
Disk Image Import 1     import-snap-abcdefgh       Amazon.EC2.Model.SnapshotTaskDetail
```
**Contoh 2: Contoh ini menjelaskan semua tugas impor snapshot Anda.**  

```
Get-EC2ImportSnapshotTask
```
**Output:**  

```
Description             ImportTaskId               SnapshotTaskDetail                                                          
-----------------       --------------------       ------------------                                                          
Disk Image Import 1     import-snap-abcdefgh       Amazon.EC2.Model.SnapshotTaskDetail 
Disk Image Import 2     import-snap-hgfedcba       Amazon.EC2.Model.SnapshotTaskDetail
```
+  Untuk detail API, lihat [DescribeImportSnapshotTasks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Instance`
<a name="ec2_DescribeInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Instance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan contoh yang ditentukan.**  

```
(Get-EC2Instance -InstanceId i-12345678).Instances
```
**Output:**  

```
AmiLaunchIndex        : 0
Architecture          : x86_64
BlockDeviceMappings   : {/dev/sda1}
ClientToken           : TleEy1448154045270
EbsOptimized          : False
Hypervisor            : xen
IamInstanceProfile    : Amazon.EC2.Model.IamInstanceProfile
ImageId               : ami-12345678
InstanceId            : i-12345678
InstanceLifecycle     :
InstanceType          : t2.micro
KernelId              :
KeyName               : my-key-pair
LaunchTime            : 12/4/2015 4:44:40 PM
Monitoring            : Amazon.EC2.Model.Monitoring
NetworkInterfaces     : {ip-10-0-2-172.us-west-2.compute.internal}
Placement             : Amazon.EC2.Model.Placement
Platform              : Windows
PrivateDnsName        : ip-10-0-2-172.us-west-2.compute.internal
PrivateIpAddress      : 10.0.2.172
ProductCodes          : {}
PublicDnsName         : 
PublicIpAddress       : 
RamdiskId             :
RootDeviceName        : /dev/sda1
RootDeviceType        : ebs
SecurityGroups        : {default}
SourceDestCheck       : True
SpotInstanceRequestId :
SriovNetSupport       :
State                 : Amazon.EC2.Model.InstanceState
StateReason           :
StateTransitionReason :
SubnetId              : subnet-12345678
Tags                  : {Name}
VirtualizationType    : hvm
VpcId                 : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan semua instans Anda di wilayah saat ini, dikelompokkan berdasarkan reservasi. Untuk melihat detail instance, perluas koleksi Instances dalam setiap objek reservasi.**  

```
Get-EC2Instance
```
**Output:**  

```
GroupNames    : {}
Groups        : {}
Instances     : {}
OwnerId       : 123456789012
RequesterId   : 226008221399
ReservationId : r-c5df370c

GroupNames    : {}
Groups        : {}
Instances     : {}
OwnerId       : 123456789012
RequesterId   : 854251627541
ReservationId : r-63e65bab
...
```
**Contoh 3: Contoh ini menggambarkan penggunaan filter untuk kueri instans EC2 di subnet tertentu dari VPC.**  

```
(Get-EC2Instance -Filter @{Name="vpc-id";Values="vpc-1a2bc34d"},@{Name="subnet-id";Values="subnet-1a2b3c4d"}).Instances
```
**Output:**  

```
InstanceId          InstanceType Platform PrivateIpAddress PublicIpAddress SecurityGroups SubnetId        VpcId
----------          ------------ -------- ---------------- --------------- -------------- --------        -----
i-01af...82cf180e19 t2.medium    Windows  10.0.0.98                        ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-0374...7e9d5b0c45 t2.xlarge    Windows  10.0.0.53                        ...            subnet-1a2b3c4d vpc-1a2b3c4d
```
**Contoh 4: Contoh ini menggambarkan penggunaan filter dengan beberapa nilai untuk kueri instans EC2 yang berjalan dan dihentikan**  

```
$InstanceParams = @{
    Filter = @(
        @{'Name' = 'instance-state-name';'Values' = @("running","stopped")}
    )
}

(Get-EC2Instance @InstanceParams).Instances
```
**Output:**  

```
InstanceId          InstanceType Platform PrivateIpAddress PublicIpAddress SecurityGroups SubnetId        VpcId
----------          ------------ -------- ---------------- --------------- -------------- --------        -----
i-05a9...f6c5f46e18 t3.medium             10.0.1.7                         ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-02cf...945c4fdd07 t3.medium    Windows  10.0.1.8                         ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-0ac0...c037f9f3a1 t3.xlarge    Windows  10.0.1.10                        ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-066b...57b7b08888 t3.medium    Windows  10.0.1.11                        ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-0fee...82e83ccd72 t3.medium    Windows  10.0.1.5                         ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-0a68...274cc5043b t3.medium    Windows  10.0.1.6                         ...            subnet-1a2b3c4d vpc-1a2b3c4d
```
**Contoh 5: Contoh ini menggambarkan penggunaan filter dengan beberapa nilai untuk kueri instans EC2 yang berjalan dan dihentikan dan menggunakan cmdlet Select-Object untuk memilih nilai tertentu yang akan dikeluarkan.**  

```
$InstanceParams = @{
    Filter = @(
        @{'Name' = 'instance-state-name';'Values' = @("running","stopped")}
    )
}

$SelectParams = @{
    Property = @(
        "InstanceID", "InstanceType", "Platform", "PrivateIpAddress",
        @{Name="Name";Expression={$_.Tags[$_.Tags.Key.IndexOf("Name")].Value}},
        @{Name="State";Expression={$_.State.Name}}
    )
}

$result = Get-EC2Instance @InstanceParams
$result.Instances | Select-Object @SelectParams | Format-Table -AutoSize
```
**Output:**  

```
InstanceId          InstanceType Platform PrivateIpAddress Name         State
----------          ------------ -------- ---------------- ----         -----
i-05a9...f6c5f46e18 t3.medium             10.0.1.7         ec2-name-01  running
i-02cf...945c4fdd07 t3.medium    Windows  10.0.1.8         ec2-name-02  stopped
i-0ac0...c037f9f3a1 t3.xlarge    Windows  10.0.1.10        ec2-name-03  running
i-066b...57b7b08888 t3.medium    Windows  10.0.1.11        ec2-name-04  stopped
i-0fee...82e83ccd72 t3.medium    Windows  10.0.1.5         ec2-name-05  running
i-0a68...274cc5043b t3.medium    Windows  10.0.1.6         ec2-name-06  stopped
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2InstanceAttribute`
<a name="ec2_DescribeInstanceAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2InstanceAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan jenis instance dari instance yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceType
```
**Output:**  

```
InstanceType                      : t2.micro
```
**Contoh 2: Contoh ini menjelaskan apakah jaringan yang disempurnakan diaktifkan untuk instance yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sriovNetSupport
```
**Output:**  

```
SriovNetSupport                   : simple
```
**Contoh 3: Contoh ini menjelaskan grup keamanan untuk instance tertentu.**  

```
(Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute groupSet).Groups
```
**Output:**  

```
GroupId
-------
sg-12345678
sg-45678901
```
**Contoh 4: Contoh ini menjelaskan apakah optimasi EBS diaktifkan untuk instance yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute ebsOptimized
```
**Output:**  

```
EbsOptimized                      : False
```
**Contoh 5: Contoh ini menjelaskan atribut disableApiTermination '' dari contoh yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute disableApiTermination
```
**Output:**  

```
DisableApiTermination             : False
```
**Contoh 6: Contoh ini menjelaskan atribut 'instanceInitiatedShutdownPerilaku' dari contoh yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceInitiatedShutdownBehavior
```
**Output:**  

```
InstanceInitiatedShutdownBehavior : stop
```
+  Untuk detail API, lihat [DescribeInstanceAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2InstanceMetadata`
<a name="ec2_Get-EC2InstanceMetadata_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2InstanceMetadata`.

**Alat untuk PowerShell V4**  
**Contoh 1: Daftar kategori metadata instance yang tersedia yang dapat ditanyakan.**  

```
Get-EC2InstanceMetadata -ListCategory
```
**Output:**  

```
AmiId
LaunchIndex
ManifestPath
AncestorAmiId
BlockDeviceMapping
InstanceId
InstanceType
LocalHostname
LocalIpv4
KernelId
AvailabilityZone
ProductCode
PublicHostname
PublicIpv4
PublicKey
RamdiskId
Region
ReservationId
SecurityGroup
UserData
InstanceMonitoring
IdentityDocument
IdentitySignature
IdentityPkcs7
```
**Contoh 2: Mengembalikan id Amazon Machine Image (AMI) yang digunakan untuk meluncurkan instance.**  

```
Get-EC2InstanceMetadata -Category AmiId
```
**Output:**  

```
ami-b2e756ca
```
**Contoh 3: Contoh ini menanyakan dokumen identitas berformat JSON untuk instance tersebut.**  

```
Get-EC2InstanceMetadata -Category IdentityDocument
{
  "availabilityZone" : "us-west-2a",
  "devpayProductCodes" : null,
  "marketplaceProductCodes" : null,
  "version" : "2017-09-30",
  "instanceId" : "i-01ed50f7e2607f09e",
  "billingProducts" : [ "bp-6ba54002" ],
  "instanceType" : "t2.small",
  "pendingTime" : "2018-03-07T16:26:04Z",
  "imageId" : "ami-b2e756ca",
  "privateIp" : "10.0.0.171",
  "accountId" : "111122223333",
  "architecture" : "x86_64",
  "kernelId" : null,
  "ramdiskId" : null,
  "region" : "us-west-2"
}
```
**Contoh 4: Contoh ini menggunakan kueri jalur untuk mendapatkan macs antarmuka jaringan untuk instance.**  

```
Get-EC2InstanceMetadata -Path "/network/interfaces/macs"
```
**Output:**  

```
02:80:7f:ef:4c:e0/
```
**Contoh 5: Jika ada peran IAM yang terkait dengan instance, mengembalikan informasi tentang terakhir kali profil instance diperbarui, termasuk LastUpdated tanggal instans, InstanceProfileArn, dan InstanceProfileId.**  

```
Get-EC2InstanceMetadata -Path "/iam/info"
```
**Output:**  

```
{
  "Code" : "Success",
  "LastUpdated" : "2018-03-08T03:38:40Z",
  "InstanceProfileArn" : "arn:aws:iam::111122223333:instance-profile/MyLaunchRole_Profile",
  "InstanceProfileId" : "AIPAI4...WVK2RW"
}
```
+  Untuk detail API, lihat [Get-EC2InstanceMetadata](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2InstanceStatus`
<a name="ec2_DescribeInstanceStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2InstanceStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan status instance yang ditentukan.**  

```
Get-EC2InstanceStatus -InstanceId i-12345678
```
**Output:**  

```
AvailabilityZone : us-west-2a
Events           : {}
InstanceId       : i-12345678
InstanceState    : Amazon.EC2.Model.InstanceState
Status           : Amazon.EC2.Model.InstanceStatusSummary
SystemStatus     : Amazon.EC2.Model.InstanceStatusSummary
```

```
$status = Get-EC2InstanceStatus -InstanceId i-12345678
$status.InstanceState
```
**Output:**  

```
Code    Name
----    ----
16      running
```

```
$status.Status
```
**Output:**  

```
Details           Status
-------           ------
{reachability}    ok
```

```
$status.SystemStatus
```
**Output:**  

```
Details           Status
-------           ------
{reachability}    ok
```
+  Untuk detail API, lihat [DescribeInstanceStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2InternetGateway`
<a name="ec2_DescribeInternetGateways_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2InternetGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan gateway Internet yang ditentukan.**  

```
Get-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d
```
**Output:**  

```
Attachments       InternetGatewayId     Tags
-----------       -----------------     ----
{vpc-1a2b3c4d}    igw-1a2b3c4d          {}
```
**Contoh 2: Contoh ini menjelaskan semua gateway Internet Anda.**  

```
Get-EC2InternetGateway
```
**Output:**  

```
Attachments       InternetGatewayId     Tags
-----------       -----------------     ----
{vpc-1a2b3c4d}    igw-1a2b3c4d          {}
{}                igw-2a3b4c5d          {}
```
+  Untuk detail API, lihat [DescribeInternetGateways](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2KeyPair`
<a name="ec2_DescribeKeyPairs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2KeyPair`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan key pair yang ditentukan.**  

```
Get-EC2KeyPair -KeyName my-key-pair
```
**Output:**  

```
KeyFingerprint                                              KeyName
--------------                                              -------
1f:51:ae:28:bf:89:e9:d8:1f:25:5d:37:2d:7d:b8:ca:9f:f5:f1:6f my-key-pair
```
**Contoh 2: Contoh ini menjelaskan semua pasangan kunci Anda.**  

```
Get-EC2KeyPair
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2NetworkAcl`
<a name="ec2_DescribeNetworkAcls_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2NetworkAcl`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan ACL jaringan tertentu.**  

```
Get-EC2NetworkAcl -NetworkAclId acl-12345678
```
**Output:**  

```
Associations : {aclassoc-1a2b3c4d}
Entries      : {Amazon.EC2.Model.NetworkAclEntry, Amazon.EC2.Model.NetworkAclEntry}
IsDefault    : False
NetworkAclId : acl-12345678
Tags         : {Name}
VpcId        : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan aturan untuk ACL jaringan yang ditentukan.**  

```
(Get-EC2NetworkAcl -NetworkAclId acl-12345678).Entries
```
**Output:**  

```
CidrBlock    : 0.0.0.0/0
Egress       : True
IcmpTypeCode :
PortRange    :
Protocol     : -1
RuleAction   : deny
RuleNumber   : 32767

CidrBlock    : 0.0.0.0/0
Egress       : False
IcmpTypeCode :
PortRange    :
Protocol     : -1
RuleAction   : deny
RuleNumber   : 32767
```
**Contoh 3: Contoh ini menjelaskan semua jaringan Anda ACLs.**  

```
Get-EC2NetworkAcl
```
+  Untuk detail API, lihat [DescribeNetworkAcls](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2NetworkInterface`
<a name="ec2_DescribeNetworkInterfaces_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2NetworkInterface`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterface -NetworkInterfaceId eni-12345678
```
**Output:**  

```
Association        :
Attachment         : Amazon.EC2.Model.NetworkInterfaceAttachment
AvailabilityZone   : us-west-2c
Description        :
Groups             : {my-security-group}
MacAddress         : 0a:e9:a6:19:4c:7f
NetworkInterfaceId : eni-12345678
OwnerId            : 123456789012
PrivateDnsName     : ip-10-0-0-107.us-west-2.compute.internal
PrivateIpAddress   : 10.0.0.107
PrivateIpAddresses : {ip-10-0-0-107.us-west-2.compute.internal}
RequesterId        :
RequesterManaged   : False
SourceDestCheck    : True
Status             : in-use
SubnetId           : subnet-1a2b3c4d
TagSet             : {}
VpcId              : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan semua antarmuka jaringan Anda.**  

```
Get-EC2NetworkInterface
```
+  Untuk detail API, lihat [DescribeNetworkInterfaces](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2NetworkInterfaceAttribute`
<a name="ec2_DescribeNetworkInterfaceAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2NetworkInterfaceAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute Attachment
```
**Output:**  

```
Attachment         : Amazon.EC2.Model.NetworkInterfaceAttachment
```
**Contoh 2: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute Description
```
**Output:**  

```
Description        : My description
```
**Contoh 3: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute GroupSet
```
**Output:**  

```
Groups             : {my-security-group}
```
**Contoh 4: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute SourceDestCheck
```
**Output:**  

```
SourceDestCheck    : True
```
+  Untuk detail API, lihat [DescribeNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2PasswordData`
<a name="ec2_GetPasswordData_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2PasswordData`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendekripsi kata sandi yang ditetapkan Amazon EC2 ke akun Administrator untuk instance Windows yang ditentukan. Sebagai file PEM ditentukan, pengaturan sakelar -Decrypt secara otomatis diasumsikan.**  

```
Get-EC2PasswordData -InstanceId i-12345678 -PemFile C:\path\my-key-pair.pem
```
**Output:**  

```
mYZ(PA9?C)Q
```
**Contoh 2: ( PowerShell Hanya Windows) Memeriksa instance untuk menentukan nama keypair yang digunakan untuk meluncurkan instance dan kemudian mencoba menemukan data keypair yang sesuai di penyimpanan konfigurasi Toolkit for Visual AWS Studio. Jika data keypair ditemukan, kata sandi didekripsi.**  

```
Get-EC2PasswordData -InstanceId i-12345678 -Decrypt
```
**Output:**  

```
mYZ(PA9?C)Q
```
**Contoh 3: Mengembalikan data kata sandi terenkripsi untuk contoh.**  

```
Get-EC2PasswordData -InstanceId i-12345678
```
**Output:**  

```
iVz3BAK/WAXV.....dqt8WeMA==
```
+  Untuk detail API, lihat [GetPasswordData](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2PlacementGroup`
<a name="ec2_DescribePlacementGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2PlacementGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan grup penempatan yang ditentukan.**  

```
Get-EC2PlacementGroup -GroupName my-placement-group
```
**Output:**  

```
GroupName             State        Strategy
---------             -----        --------
my-placement-group    available    cluster
```
+  Untuk detail API, lihat [DescribePlacementGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2PrefixList`
<a name="ec2_DescribePrefixLists_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2PrefixList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil yang tersedia Layanan AWS dalam format daftar awalan untuk wilayah**  

```
Get-EC2PrefixList
```
**Output:**  

```
Cidrs                                          PrefixListId PrefixListName
-----                                          ------------ --------------
{52.94.5.0/24, 52.119.240.0/21, 52.94.24.0/23} pl-6fa54006  com.amazonaws.eu-west-1.dynamodb
{52.218.0.0/17, 54.231.128.0/19}               pl-6da54004  com.amazonaws.eu-west-1.s3
```
+  Untuk detail API, lihat [DescribePrefixLists](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Region`
<a name="ec2_DescribeRegions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Region`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan wilayah yang tersedia untuk Anda.**  

```
Get-EC2Region
```
**Output:**  

```
Endpoint                            RegionName
--------                            ----------
ec2.eu-west-1.amazonaws.com         eu-west-1
ec2.ap-southeast-1.amazonaws.com    ap-southeast-1
ec2.ap-southeast-2.amazonaws.com    ap-southeast-2
ec2.eu-central-1.amazonaws.com      eu-central-1
ec2.ap-northeast-1.amazonaws.com    ap-northeast-1
ec2.us-east-1.amazonaws.com         us-east-1
ec2.sa-east-1.amazonaws.com         sa-east-1
ec2.us-west-1.amazonaws.com         us-west-1
ec2.us-west-2.amazonaws.com         us-west-2
```
+  Untuk detail API, lihat [DescribeRegions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2RouteTable`
<a name="ec2_DescribeRouteTables_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2RouteTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan semua tabel rute Anda.**  

```
Get-EC2RouteTable
```
**Output:**  

```
DestinationCidrBlock    : 10.0.0.0/16
DestinationPrefixListId :
GatewayId               : local
InstanceId              :
InstanceOwnerId         :
NetworkInterfaceId      :
Origin                  : CreateRouteTable
State                   : active
VpcPeeringConnectionId  :

DestinationCidrBlock    : 0.0.0.0/0
DestinationPrefixListId :
GatewayId               : igw-1a2b3c4d
InstanceId              :
InstanceOwnerId         :
NetworkInterfaceId      :
Origin                  : CreateRoute
State                   : active
VpcPeeringConnectionId  :
```
**Contoh 2: Contoh ini mengembalikan rincian untuk tabel rute yang ditentukan.**  

```
Get-EC2RouteTable -RouteTableId rtb-1a2b3c4d
```
**Contoh 3: Contoh ini menjelaskan tabel rute untuk VPC yang ditentukan.**  

```
Get-EC2RouteTable -Filter @{ Name="vpc-id"; Values="vpc-1a2b3c4d" }
```
**Output:**  

```
Associations    : {rtbassoc-12345678}
PropagatingVgws : {}
Routes          : {, }
RouteTableId    : rtb-1a2b3c4d
Tags            : {}
VpcId           : vpc-1a2b3c4d
```
+  Untuk detail API, lihat [DescribeRouteTables](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2ScheduledInstance`
<a name="ec2_DescribeScheduledInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ScheduledInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan Instance Terjadwal yang ditentukan.**  

```
Get-EC2ScheduledInstance -ScheduledInstanceId sci-1234-1234-1234-1234-123456789012
```
**Output:**  

```
AvailabilityZone            : us-west-2b
CreateDate                  : 1/25/2016 1:43:38 PM
HourlyPrice                 : 0.095
InstanceCount               : 1
InstanceType                : c4.large
NetworkPlatform             : EC2-VPC
NextSlotStartTime           : 1/31/2016 1:00:00 AM
Platform                    : Linux/UNIX
PreviousSlotEndTime         : 
Recurrence                  : Amazon.EC2.Model.ScheduledInstanceRecurrence
ScheduledInstanceId         : sci-1234-1234-1234-1234-123456789012
SlotDurationInHours         : 32
TermEndDate                 : 1/31/2017 1:00:00 AM
TermStartDate               : 1/31/2016 1:00:00 AM
TotalScheduledInstanceHours : 1696
```
**Contoh 2: Contoh ini menjelaskan semua Instans Terjadwal Anda.**  

```
Get-EC2ScheduledInstance
```
+  Untuk detail API, lihat [DescribeScheduledInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2ScheduledInstanceAvailability`
<a name="ec2_DescribeScheduledInstanceAvailability_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ScheduledInstanceAvailability`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan jadwal yang terjadi setiap minggu pada hari Minggu, dimulai pada tanggal yang ditentukan.**  

```
Get-EC2ScheduledInstanceAvailability -Recurrence_Frequency Weekly -Recurrence_Interval 1 -Recurrence_OccurrenceDay 1 -FirstSlotStartTimeRange_EarliestTime 2016-01-31T00:00:00Z -FirstSlotStartTimeRange_LatestTime 2016-01-31T04:00:00Z
```
**Output:**  

```
AvailabilityZone            : us-west-2b
AvailableInstanceCount      : 20
FirstSlotStartTime          : 1/31/2016 8:00:00 AM
HourlyPrice                 : 0.095
InstanceType                : c4.large
MaxTermDurationInDays       : 366
MinTermDurationInDays       : 366
NetworkPlatform             : EC2-VPC
Platform                    : Linux/UNIX
PurchaseToken               : eyJ2IjoiMSIsInMiOjEsImMiOi...
Recurrence                  : Amazon.EC2.Model.ScheduledInstanceRecurrence
SlotDurationInHours         : 23
TotalScheduledInstanceHours : 1219

...
```
**Contoh 2: Untuk mempersempit hasil, Anda dapat menambahkan filter untuk kriteria seperti sistem operasi, jaringan, dan jenis instance.**  

```
-Filter @{ Name="platform";Values="Linux/UNIX" },@{ Name="network-platform";Values="EC2-VPC" },@{ Name="instance-type";Values="c4.large" }
```
+  Untuk detail API, lihat [DescribeScheduledInstanceAvailability](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2SecurityGroup`
<a name="ec2_DescribeSecurityGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SecurityGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan grup keamanan yang ditentukan untuk VPC. Saat bekerja dengan grup keamanan milik VPC, Anda harus menggunakan ID grup keamanan (- GroupId parameter), bukan nama (- GroupName parameter), untuk mereferensikan grup.**  

```
Get-EC2SecurityGroup -GroupId sg-12345678
```
**Output:**  

```
Description         : default VPC security group
GroupId             : sg-12345678
GroupName           : default
IpPermissions       : {Amazon.EC2.Model.IpPermission}
IpPermissionsEgress : {Amazon.EC2.Model.IpPermission}
OwnerId             : 123456789012
Tags                : {}
VpcId               : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan grup keamanan yang ditentukan untuk EC2-Classic. Saat bekerja dengan grup keamanan untuk EC2-Classic Anda dapat menggunakan nama grup (- GroupName parameter) atau ID grup (- GroupId parameter) untuk mereferensikan grup keamanan.**  

```
Get-EC2SecurityGroup -GroupName my-security-group
```
**Output:**  

```
Description         : my security group
GroupId             : sg-45678901
GroupName           : my-security-group
IpPermissions       : {Amazon.EC2.Model.IpPermission, Amazon.EC2.Model.IpPermission}
IpPermissionsEgress : {}
OwnerId             : 123456789012
Tags                : {}
VpcId               :
```
**Contoh 3: Contoh ini mengambil semua grup keamanan untuk vpc-0fc1ff23456b789eb**  

```
Get-EC2SecurityGroup -Filter @{Name="vpc-id";Values="vpc-0fc1ff23456b789eb"}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Snapshot`
<a name="ec2_DescribeSnapshots_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Snapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan snapshot yang ditentukan.**  

```
Get-EC2Snapshot -SnapshotId snap-12345678
```
**Output:**  

```
DataEncryptionKeyId :
Description         : Created by CreateImage(i-1a2b3c4d) for ami-12345678 from vol-12345678
Encrypted           : False
KmsKeyId            :
OwnerAlias          :
OwnerId             : 123456789012
Progress            : 100%
SnapshotId          : snap-12345678
StartTime           : 10/23/2014 6:01:28 AM
State               : completed
StateMessage        :
Tags                : {}
VolumeId            : vol-12345678
VolumeSize          : 8
```
**Contoh 2: Contoh ini menjelaskan snapshot yang memiliki tag 'Nama'.**  

```
Get-EC2Snapshot | ? { $_.Tags.Count -gt 0 -and $_.Tags.Key -eq "Name" }
```
**Contoh 3: Contoh ini menjelaskan snapshot yang memiliki tag 'Nama' dengan nilai 'TestValue'.**  

```
Get-EC2Snapshot | ? { $_.Tags.Count -gt 0 -and $_.Tags.Key -eq "Name" -and $_.Tags.Value -eq "TestValue" }
```
**Contoh 4: Contoh ini menjelaskan semua snapshot Anda.**  

```
Get-EC2Snapshot -Owner self
```
+  Untuk detail API, lihat [DescribeSnapshots](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2SnapshotAttribute`
<a name="ec2_DescribeSnapshotAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SnapshotAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan atribut tertentu dari snapshot yang ditentukan.**  

```
Get-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute ProductCodes
```
**Output:**  

```
CreateVolumePermissions    ProductCodes    SnapshotId
-----------------------    ------------    ----------
{}                         {}              snap-12345678
```
**Contoh 2: Contoh ini menjelaskan atribut tertentu dari snapshot yang ditentukan.**  

```
(Get-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission).CreateVolumePermissions
```
**Output:**  

```
Group    UserId
-----    ------
all
```
+  Untuk detail API, lihat [DescribeSnapshotAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2SpotDatafeedSubscription`
<a name="ec2_DescribeSpotDatafeedSubscription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotDatafeedSubscription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan umpan data instans Spot Anda.**  

```
Get-EC2SpotDatafeedSubscription
```
**Output:**  

```
Bucket  : amzn-s3-demo-bucket
Fault   :
OwnerId : 123456789012
Prefix  : spotdata
State   : Active
```
+  Untuk detail API, lihat [DescribeSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2SpotFleetInstance`
<a name="ec2_DescribeSpotFleetInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotFleetInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan instance yang terkait dengan permintaan armada Spot yang ditentukan.**  

```
Get-EC2SpotFleetInstance -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE
```
**Output:**  

```
InstanceId    InstanceType    SpotInstanceRequestId
----------    ------------    ---------------------
i-f089262a    c3.large        sir-12345678
i-7e8b24a4    c3.large        sir-87654321
```
+  Untuk detail API, lihat [DescribeSpotFleetInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2SpotFleetRequest`
<a name="ec2_DescribeSpotFleetRequests_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotFleetRequest`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan permintaan armada Spot yang ditentukan.**  

```
Get-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE | format-list
```
**Output:**  

```
ConfigData            : Amazon.EC2.Model.SpotFleetRequestConfigData
CreateTime            : 12/26/2015 8:23:33 AM
SpotFleetRequestId    : sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE
SpotFleetRequestState : active
```
**Contoh 2: Contoh ini menjelaskan semua permintaan armada Spot Anda.**  

```
Get-EC2SpotFleetRequest
```
+  Untuk detail API, lihat [DescribeSpotFleetRequests](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2SpotFleetRequestHistory`
<a name="ec2_DescribeSpotFleetRequestHistory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotFleetRequestHistory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan riwayat permintaan armada Spot yang ditentukan.**  

```
Get-EC2SpotFleetRequestHistory -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -StartTime 2015-12-26T00:00:00Z
```
**Output:**  

```
HistoryRecords     : {Amazon.EC2.Model.HistoryRecord, Amazon.EC2.Model.HistoryRecord...}
LastEvaluatedTime  : 12/26/2015 8:29:11 AM
NextToken          :
SpotFleetRequestId : sfr-088bc5f1-7e7b-451a-bd13-757f10672b93
StartTime          : 12/25/2015 8:00:00 AM
```

```
(Get-EC2SpotFleetRequestHistory -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -StartTime 2015-12-26T00:00:00Z).HistoryRecords
```
**Output:**  

```
EventInformation                     EventType             Timestamp
----------------                     ---------             ---------
Amazon.EC2.Model.EventInformation    fleetRequestChange    12/26/2015 8:23:33 AM
Amazon.EC2.Model.EventInformation    fleetRequestChange    12/26/2015 8:23:33 AM
Amazon.EC2.Model.EventInformation    fleetRequestChange    12/26/2015 8:23:33 AM
Amazon.EC2.Model.EventInformation    launched              12/26/2015 8:25:34 AM
Amazon.EC2.Model.EventInformation    launched              12/26/2015 8:25:05 AM
```
+  Untuk detail API, lihat [DescribeSpotFleetRequestHistory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2SpotInstanceRequest`
<a name="ec2_DescribeSpotInstanceRequests_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotInstanceRequest`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan permintaan instance Spot yang ditentukan.**  

```
Get-EC2SpotInstanceRequest -SpotInstanceRequestId sir-12345678
```
**Output:**  

```
ActualBlockHourlyPrice   :
AvailabilityZoneGroup    :
BlockDurationMinutes     : 0
CreateTime               : 4/8/2015 2:51:33 PM
Fault                    :
InstanceId               : i-12345678
LaunchedAvailabilityZone : us-west-2b
LaunchGroup              :
LaunchSpecification      : Amazon.EC2.Model.LaunchSpecification
ProductDescription       : Linux/UNIX
SpotInstanceRequestId    : sir-12345678
SpotPrice                : 0.020000
State                    : active
Status                   : Amazon.EC2.Model.SpotInstanceStatus
Tags                     : {Name}
Type                     : one-time
```
**Contoh 2: Contoh ini menjelaskan semua permintaan instans Spot Anda.**  

```
Get-EC2SpotInstanceRequest
```
+  Untuk detail API, lihat [DescribeSpotInstanceRequests](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2SpotPriceHistory`
<a name="ec2_DescribeSpotPriceHistory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotPriceHistory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan 10 entri terakhir dalam riwayat harga Spot untuk jenis instans tertentu dan Availability Zone. Perhatikan bahwa nilai yang ditentukan untuk AvailabilityZone parameter - harus valid untuk nilai wilayah yang diberikan ke parameter -Region cmdlet (tidak ditampilkan dalam contoh) atau ditetapkan sebagai default di shell. Perintah contoh ini mengasumsikan wilayah default 'us-west-2' telah disetel di lingkungan.**  

```
Get-EC2SpotPriceHistory -InstanceType c3.large -AvailabilityZone us-west-2a -MaxResult 10
```
**Output:**  

```
AvailabilityZone   : us-west-2a
InstanceType       : c3.large
Price              : 0.017300
ProductDescription : Linux/UNIX (Amazon VPC)
Timestamp          : 12/25/2015 7:39:49 AM

AvailabilityZone   : us-west-2a
InstanceType       : c3.large
Price              : 0.017200
ProductDescription : Linux/UNIX (Amazon VPC)
Timestamp          : 12/25/2015 7:38:29 AM

AvailabilityZone   : us-west-2a
InstanceType       : c3.large
Price              : 0.017300
ProductDescription : Linux/UNIX (Amazon VPC)
Timestamp          : 12/25/2015 6:57:13 AM
...
```
+  Untuk detail API, lihat [DescribeSpotPriceHistory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Subnet`
<a name="ec2_DescribeSubnets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Subnet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan subnet yang ditentukan.**  

```
Get-EC2Subnet -SubnetId subnet-1a2b3c4d
```
**Output:**  

```
AvailabilityZone        : us-west-2c
AvailableIpAddressCount : 251
CidrBlock               : 10.0.0.0/24
DefaultForAz            : False
MapPublicIpOnLaunch     : False
State                   : available
SubnetId                : subnet-1a2b3c4d
Tags                    : {}
VpcId                   : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan semua subnet Anda.**  

```
Get-EC2Subnet
```
+  Untuk detail API, lihat [DescribeSubnets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Tag`
<a name="ec2_DescribeTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Tag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil tag untuk 'image' tipe sumber daya**  

```
Get-EC2Tag -Filter @{Name="resource-type";Values="image"}
```
**Output:**  

```
Key         ResourceId            ResourceType Value
---         ----------            ------------ -----
Name        ami-0a123b4ccb567a8ea image        Win7-Imported
auto-delete ami-0a123b4ccb567a8ea image        never
```
**Contoh 2: Contoh ini mengambil semua tag untuk semua sumber daya dan mengelompokkannya berdasarkan jenis sumber daya**  

```
Get-EC2Tag | Group-Object resourcetype
```
**Output:**  

```
Count Name                      Group
----- ----                      -----
    9 subnet                    {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...}
   53 instance                  {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...}
    3 route-table               {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
    5 security-group            {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...}
   30 volume                    {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...}
    1 internet-gateway          {Amazon.EC2.Model.TagDescription}
    3 network-interface         {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
    4 elastic-ip                {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
    1 dhcp-options              {Amazon.EC2.Model.TagDescription}
    2 image                     {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
    3 vpc                       {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
```
**Contoh 3: Contoh ini menampilkan semua sumber daya dengan tag 'auto-delete' dengan nilai 'no' untuk wilayah tertentu**  

```
Get-EC2Tag -Region eu-west-1 -Filter @{Name="tag:auto-delete";Values="no"}
```
**Output:**  

```
Key         ResourceId            ResourceType Value
---         ----------            ------------ -----
auto-delete i-0f1bce234d5dd678b   instance     no
auto-delete vol-01d234aa5678901a2 volume       no
auto-delete vol-01234bfb5def6f7b8 volume       no
auto-delete vol-01ccb23f4c5e67890 volume       no
```
**Contoh 4: Contoh ini memperoleh semua sumber daya dengan tag 'hapus otomatis' dengan nilai 'no' dan filter lebih lanjut di pipa berikutnya untuk mengurai hanya jenis sumber daya 'instance' dan akhirnya membuat tag 'ThisInstance' untuk setiap sumber daya instance dengan nilai menjadi id instance itu sendiri**  

```
Get-EC2Tag -Region eu-west-1 -Filter @{Name="tag:auto-delete";Values="no"} | Where-Object ResourceType -eq "instance" | ForEach-Object {New-EC2Tag -ResourceId $_.ResourceId -Tag @{Key="ThisInstance";Value=$_.ResourceId}}
```
**Contoh 5: Contoh ini mengambil tag untuk semua sumber daya instance serta kunci 'Nama' dan menampilkannya dalam format tabel**  

```
Get-EC2Tag -Filter @{Name="resource-type";Values="instance"},@{Name="key";Values="Name"} | Select-Object ResourceId, @{Name="Name-Tag";Expression={$PSItem.Value}} | Format-Table -AutoSize
```
**Output:**  

```
ResourceId          Name-Tag
----------          --------
i-012e3cb4df567e1aa jump1
i-01c23a45d6fc7a89f repro-3
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Volume`
<a name="ec2_DescribeVolumes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Volume`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan volume EBS yang ditentukan.**  

```
Get-EC2Volume -VolumeId vol-12345678
```
**Output:**  

```
Attachments      : {}
AvailabilityZone : us-west-2c
CreateTime       : 7/17/2015 4:35:19 PM
Encrypted        : False
Iops             : 90
KmsKeyId         :
Size             : 30
SnapshotId       : snap-12345678
State            : in-use
Tags             : {}
VolumeId         : vol-12345678
VolumeType       : standard
```
**Contoh 2: Contoh ini menjelaskan volume EBS Anda yang memiliki status 'tersedia'.**  

```
Get-EC2Volume -Filter @{ Name="status"; Values="available" }
```
**Output:**  

```
Attachments      : {}
AvailabilityZone : us-west-2c
CreateTime       : 12/21/2015 2:31:29 PM
Encrypted        : False
Iops             : 60
KmsKeyId         :
Size             : 20
SnapshotId       : snap-12345678
State            : available
Tags             : {}
VolumeId         : vol-12345678
VolumeType       : gp2
...
```
**Contoh 3: Contoh ini menjelaskan semua volume EBS Anda.**  

```
Get-EC2Volume
```
+  Untuk detail API, lihat [DescribeVolumes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VolumeAttribute`
<a name="ec2_DescribeVolumeAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VolumeAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan atribut tertentu dari volume yang ditentukan.**  

```
Get-EC2VolumeAttribute -VolumeId vol-12345678 -Attribute AutoEnableIO
```
**Output:**  

```
AutoEnableIO    ProductCodes    VolumeId
------------    ------------    --------
False           {}              vol-12345678
```
+  Untuk detail API, lihat [DescribeVolumeAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VolumeStatus`
<a name="ec2_DescribeVolumeStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VolumeStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan status volume yang ditentukan.**  

```
Get-EC2VolumeStatus -VolumeId vol-12345678
```
**Output:**  

```
Actions          : {}
AvailabilityZone : us-west-2a
Events           : {}
VolumeId         : vol-12345678
VolumeStatus     : Amazon.EC2.Model.VolumeStatusInfo
```

```
(Get-EC2VolumeStatus -VolumeId vol-12345678).VolumeStatus
```
**Output:**  

```
Details                         Status
-------                         ------
{io-enabled, io-performance}    ok
```

```
(Get-EC2VolumeStatus -VolumeId vol-12345678).VolumeStatus.Details
```
**Output:**  

```
Name                            Status
----                            ------
io-enabled                      passed
io-performance                  not-applicable
```
+  Untuk detail API, lihat [DescribeVolumeStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2Vpc`
<a name="ec2_DescribeVpcs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Vpc`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan VPC yang ditentukan.**  

```
Get-EC2Vpc -VpcId vpc-12345678
```
**Output:**  

```
CidrBlock       : 10.0.0.0/16
DhcpOptionsId   : dopt-1a2b3c4d
InstanceTenancy : default
IsDefault       : False
State           : available
Tags            : {Name}
VpcId           : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan VPC default (hanya ada satu per wilayah). Jika akun Anda mendukung EC2-Classic di wilayah ini, tidak ada VPC default.**  

```
Get-EC2Vpc -Filter @{Name="isDefault"; Values="true"}
```
**Output:**  

```
CidrBlock       : 172.31.0.0/16
DhcpOptionsId   : dopt-12345678
InstanceTenancy : default
IsDefault       : True
State           : available
Tags            : {}
VpcId           : vpc-45678901
```
**Contoh 3: Contoh ini menjelaskan VPCs yang cocok dengan filter yang ditentukan (yaitu, memiliki CIDR yang cocok dengan nilai '10.0.0.0/16' dan berada dalam keadaan 'tersedia').**  

```
Get-EC2Vpc -Filter @{Name="cidr"; Values="10.0.0.0/16"},@{Name="state";Values="available"}
```
**Contoh 4: Contoh ini menjelaskan semua Anda VPCs.**  

```
Get-EC2Vpc
```
+  Untuk detail API, lihat [DescribeVpcs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VpcAttribute`
<a name="ec2_DescribeVpcAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan atribut enableDnsSupport ''.**  

```
Get-EC2VpcAttribute -VpcId vpc-12345678 -Attribute enableDnsSupport
```
**Output:**  

```
EnableDnsSupport
----------------
True
```
**Contoh 2: Contoh ini menjelaskan atribut enableDnsHostnames ''.**  

```
Get-EC2VpcAttribute -VpcId vpc-12345678 -Attribute enableDnsHostnames
```
**Output:**  

```
EnableDnsHostnames
------------------
True
```
+  Untuk detail API, lihat [DescribeVpcAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VpcClassicLink`
<a name="ec2_DescribeVpcClassicLink_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcClassicLink`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh di atas mengembalikan semua VPCs dengan ClassicLinkEnabled negara mereka untuk wilayah**  

```
Get-EC2VpcClassicLink -Region eu-west-1
```
**Output:**  

```
ClassicLinkEnabled Tags   VpcId
------------------ ----   -----
False              {Name} vpc-0fc1ff23f45b678eb
False              {}     vpc-01e23c4a5d6db78e9
False              {Name} vpc-0123456b078b9d01f
False              {}     vpc-12cf3b4f
False              {Name} vpc-0b12d3456a7e8901d
```
+  Untuk detail API, lihat [DescribeVpcClassicLink](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VpcClassicLinkDnsSupport`
<a name="ec2_DescribeVpcClassicLinkDnsSupport_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcClassicLinkDnsSupport`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan status dukungan ClassicLink DNS VPCs untuk wilayah eu-west-1**  

```
Get-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d -Region eu-west-1
```
**Output:**  

```
ClassicLinkDnsSupported VpcId
----------------------- -----
False                   vpc-0b12d3456a7e8910d
False                   vpc-12cf3b4f
```
+  Untuk detail API, lihat [DescribeVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VpcEndpoint`
<a name="ec2_DescribeVpcEndpoints_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcEndpoint`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan satu atau beberapa titik akhir VPC Anda untuk wilayah eu-west-1. Kemudian pipa output ke perintah berikutnya, yang memilih VpcEndpointId properti dan mengembalikan array VPC ID sebagai string array**  

```
Get-EC2VpcEndpoint -Region eu-west-1 | Select-Object -ExpandProperty VpcEndpointId
```
**Output:**  

```
vpce-01a2ab3f4f5cc6f7d
vpce-01d2b345a6787890b
vpce-0012e34d567890e12
vpce-0c123db4567890123
```
**Contoh 2: Contoh ini menjelaskan semua titik akhir vpc untuk wilayah eu-west-1 dan memilih,, dan properti untuk menyajikannya dalam format tabel VpcEndpointId VpcId ServiceName PrivateDnsEnabled **  

```
Get-EC2VpcEndpoint -Region eu-west-1 | Select-Object VpcEndpointId, VpcId, ServiceName, PrivateDnsEnabled | Format-Table -AutoSize
```
**Output:**  

```
VpcEndpointId          VpcId                 ServiceName                         PrivateDnsEnabled
-------------          -----                 -----------                         -----------------
vpce-02a2ab2f2f2cc2f2d vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ssm                      True
vpce-01d1b111a1114561b vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ec2                      True
vpce-0011e23d45167e838 vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ec2messages              True
vpce-0c123db4567890123 vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ssmmessages              True
```
**Contoh 3: Contoh ini mengekspor dokumen kebijakan untuk VPC Endpoint vpce-01a2ab3f4f5cc6f7d ke dalam file json**  

```
Get-EC2VpcEndpoint -Region eu-west-1 -VpcEndpointId vpce-01a2ab3f4f5cc6f7d | Select-Object -expand PolicyDocument | Out-File vpce_policyDocument.json
```
+  Untuk detail API, lihat [DescribeVpcEndpoints](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VpcEndpointService`
<a name="ec2_DescribeVpcEndpointServices_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcEndpointService`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan layanan titik akhir VPC EC2 dengan filter yang diberikan, dalam hal ini com.amazonaws.eu-west-1.ecs. Selanjutnya, itu juga memperluas ServiceDetails properti dan menampilkan detailnya**  

```
Get-EC2VpcEndpointService -Region eu-west-1 -MaxResult 5 -Filter @{Name="service-name";Values="com.amazonaws.eu-west-1.ecs"} | Select-Object -ExpandProperty ServiceDetails
```
**Output:**  

```
AcceptanceRequired         : False
AvailabilityZones          : {eu-west-1a, eu-west-1b, eu-west-1c}
BaseEndpointDnsNames       : {ecs.eu-west-1.vpce.amazonaws.com}
Owner                      : amazon
PrivateDnsName             : ecs.eu-west-1.amazonaws.com
ServiceName                : com.amazonaws.eu-west-1.ecs
ServiceType                : {Amazon.EC2.Model.ServiceTypeDetail}
VpcEndpointPolicySupported : False
```
**Contoh 2: Contoh ini mengambil semua layanan Titik Akhir VPC EC2 dan mengembalikan “ssm” yang cocok ServiceNames **  

```
Get-EC2VpcEndpointService -Region eu-west-1 | Select-Object -ExpandProperty Servicenames | Where-Object { -match "ssm"}
```
**Output:**  

```
com.amazonaws.eu-west-1.ssm
com.amazonaws.eu-west-1.ssmmessages
```
+  Untuk detail API, lihat [DescribeVpcEndpointServices](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VpnConnection`
<a name="ec2_DescribeVpnConnections_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpnConnection`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan koneksi VPN yang ditentukan.**  

```
Get-EC2VpnConnection -VpnConnectionId vpn-12345678
```
**Output:**  

```
CustomerGatewayConfiguration : [XML document]
CustomerGatewayId            : cgw-1a2b3c4d
Options                      : Amazon.EC2.Model.VpnConnectionOptions
Routes                       : {Amazon.EC2.Model.VpnStaticRoute}
State                        : available
Tags                         : {}
Type                         : ipsec.1
VgwTelemetry                 : {Amazon.EC2.Model.VgwTelemetry, Amazon.EC2.Model.VgwTelemetry}
VpnConnectionId              : vpn-12345678
VpnGatewayId                 : vgw-1a2b3c4d
```
**Contoh 2: Contoh ini menjelaskan koneksi VPN apa pun yang statusnya tertunda atau tersedia.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = @( "pending", "available" )

Get-EC2VpnConnection -Filter $filter
```
**Contoh 3: Contoh ini menjelaskan semua koneksi VPN Anda.**  

```
Get-EC2VpnConnection
```
+  Untuk detail API, lihat [DescribeVpnConnections](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EC2VpnGateway`
<a name="ec2_DescribeVpnGateways_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpnGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan gateway pribadi virtual yang ditentukan.**  

```
Get-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d
```
**Output:**  

```
AvailabilityZone :
State            : available
Tags             : {}
Type             : ipsec.1
VpcAttachments   : {vpc-12345678}
VpnGatewayId     : vgw-1a2b3c4d
```
**Contoh 2: Contoh ini menjelaskan gateway pribadi virtual yang statusnya tertunda atau tersedia.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = @( "pending", "available" )

Get-EC2VpnGateway -Filter $filter
```
**Contoh 3: Contoh ini menjelaskan semua gateway pribadi virtual Anda.**  

```
Get-EC2VpnGateway
```
+  Untuk detail API, lihat [DescribeVpnGateways](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Grant-EC2SecurityGroupEgress`
<a name="ec2_AuthorizeSecurityGroupEgress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Grant-EC2SecurityGroupEgress`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendefinisikan aturan jalan keluar untuk grup keamanan yang ditentukan untuk EC2-VPC. Aturan memberikan akses ke rentang alamat IP yang ditentukan pada port TCP 80. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip = @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; IpRanges="203.0.113.0/24" }
Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip = New-Object Amazon.EC2.Model.IpPermission
$ip.IpProtocol = "tcp"
$ip.FromPort = 80
$ip.ToPort = 80
$ip.IpRanges.Add("203.0.113.0/24")

Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 3: Contoh ini memberikan akses ke grup keamanan sumber yang ditentukan pada port TCP 80.**  

```
$ug = New-Object Amazon.EC2.Model.UserIdGroupPair
$ug.GroupId = "sg-1a2b3c4d"
$ug.UserId = "123456789012"

Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; UserIdGroupPairs=$ug } )
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupEgress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Grant-EC2SecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Grant-EC2SecurityGroupIngress`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendefinisikan aturan masuk untuk grup keamanan untuk EC2-VPC. Aturan ini memberikan akses ke alamat IP tertentu untuk SSH (port 22) dan RDC (port 3389). Perhatikan bahwa Anda harus mengidentifikasi grup keamanan untuk EC2-VPC menggunakan ID grup keamanan bukan nama grup keamanan. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip1 = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.25/32" }
$ip2 = @{ IpProtocol="tcp"; FromPort="3389"; ToPort="3389"; IpRanges="203.0.113.25/32" }

Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( $ip1, $ip2 )
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip1 = New-Object Amazon.EC2.Model.IpPermission
$ip1.IpProtocol = "tcp"
$ip1.FromPort = 22
$ip1.ToPort = 22
$ip1.IpRanges.Add("203.0.113.25/32")

$ip2 = new-object Amazon.EC2.Model.IpPermission
$ip2.IpProtocol = "tcp"
$ip2.FromPort = 3389
$ip2.ToPort = 3389
$ip2.IpRanges.Add("203.0.113.25/32")

Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( $ip1, $ip2 )
```
**Contoh 3: Contoh ini mendefinisikan aturan ingress untuk grup keamanan untuk EC2-Classic. Aturan ini memberikan akses ke alamat IP tertentu untuk SSH (port 22) dan RDC (port 3389). Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip1 = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.25/32" }
$ip2 = @{ IpProtocol="tcp"; FromPort="3389"; ToPort="3389"; IpRanges="203.0.113.25/32" }

Grant-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission @( $ip1, $ip2 )
```
**Contoh 4: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip1 = New-Object Amazon.EC2.Model.IpPermission
$ip1.IpProtocol = "tcp"
$ip1.FromPort = 22
$ip1.ToPort = 22
$ip1.IpRanges.Add("203.0.113.25/32")

$ip2 = new-object Amazon.EC2.Model.IpPermission
$ip2.IpProtocol = "tcp"
$ip2.FromPort = 3389
$ip2.ToPort = 3389
$ip2.IpRanges.Add("203.0.113.25/32")

Grant-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission @( $ip1, $ip2 )
```
**Contoh 5: Contoh ini memberikan akses port TCP 8081 dari grup keamanan sumber tertentu (sg-1a2b3c4d) ke grup keamanan yang ditentukan (sg-12345678).**  

```
$ug = New-Object Amazon.EC2.Model.UserIdGroupPair
$ug.GroupId = "sg-1a2b3c4d"
$ug.UserId = "123456789012"

Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="8081"; ToPort="8081"; UserIdGroupPairs=$ug } )
```
**Contoh 6: Contoh ini menambahkan CIDR 5.5.5.5/32 ke aturan Ingress dari Grup keamanan sg-1234abcd untuk lalu lintas port TCP 22 dengan deskripsi.**  

```
$IpRange = New-Object -TypeName Amazon.EC2.Model.IpRange
$IpRange.CidrIp = "5.5.5.5/32"
$IpRange.Description = "SSH from Office"
$IpPermission = New-Object Amazon.EC2.Model.IpPermission
$IpPermission.IpProtocol = "tcp"
$IpPermission.ToPort = 22
$IpPermission.FromPort = 22
$IpPermission.Ipv4Ranges = $IpRange
Grant-EC2SecurityGroupIngress -GroupId sg-1234abcd -IpPermission $IpPermission
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Import-EC2Image`
<a name="ec2_ImportImage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Import-EC2Image`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengimpor image mesin virtual disk tunggal dari bucket Amazon S3 yang ditentukan ke Amazon EC2 dengan token idempotensi. Contoh ini mengharuskan Peran Layanan Impor VM dengan nama default 'vmimport' ada, dengan kebijakan yang mengizinkan akses Amazon EC2 ke bucket yang ditentukan, seperti yang dijelaskan dalam topik Prekuisisi Impor VM. Untuk menggunakan peran kustom, tentukan nama peran menggunakan `-RoleName` parameter.**  

```
$container = New-Object Amazon.EC2.Model.ImageDiskContainer
$container.Format="VMDK"
$container.UserBucket = New-Object Amazon.EC2.Model.UserBucket
$container.UserBucket.S3Bucket = "amzn-s3-demo-bucket"
$container.UserBucket.S3Key = "Win_2008_Server_Standard_SP2_64-bit-disk1.vmdk"

$parms = @{
    "ClientToken"="idempotencyToken"
    "Description"="Windows 2008 Standard Image Import"
    "Platform"="Windows"
    "LicenseType"="AWS"
}

Import-EC2Image -DiskContainer $container @parms
```
**Output:**  

```
Architecture    : 
Description     : Windows 2008 Standard Image
Hypervisor      : 
ImageId         : 
ImportTaskId    : import-ami-abcdefgh
LicenseType     : AWS
Platform        : Windows
Progress        : 2
SnapshotDetails : {}
Status          : active
StatusMessage   : pending
```
+  Untuk detail API, lihat [ImportImage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Import-EC2KeyPair`
<a name="ec2_ImportKeyPair_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Import-EC2KeyPair`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengimpor kunci publik ke EC2. Baris pertama menyimpan isi file kunci publik (\$1.pub) dalam variabel. `$publickey` Selanjutnya, contoh mengkonversi UTF8 format file kunci publik ke string Base64-encoded, dan menyimpan string dikonversi dalam variabel. `$pkbase64` Pada baris terakhir, kunci publik yang dikonversi diimpor ke EC2. Cmdlet mengembalikan sidik jari kunci dan nama sebagai hasil.**  

```
$publickey=[Io.File]::ReadAllText("C:\Users\TestUser\.ssh\id_rsa.pub")
$pkbase64 = [System.Convert]::ToBase64String([System.Text.Encoding]::UTF8.GetBytes($publickey))
Import-EC2KeyPair -KeyName Example-user-key -PublicKey $pkbase64
```
**Output:**  

```
KeyFingerprint                                  KeyName
--------------                                  -------
do:d0:15:8f:79:97:12:be:00:fd:df:31:z3:b1:42:z1 Example-user-key
```
+  Untuk detail API, lihat [ImportKeyPair](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Import-EC2Snapshot`
<a name="ec2_ImportSnapshot_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Import-EC2Snapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengimpor image disk VM format 'VMDK' ke snapshot Amazon EBS. Contoh ini memerlukan Peran Layanan Impor VM dengan nama default 'vmimport', dengan kebijakan yang mengizinkan akses Amazon EC2 ke bucket yang ditentukan, seperti yang dijelaskan dalam topik di http://docs.aws.amazon. `VM Import Prequisites` com/AWSEC2/latest/WindowsGuide/VMImportPrerequisites.html. Untuk menggunakan peran kustom, tentukan nama peran menggunakan `-RoleName` parameter.**  

```
$parms = @{
    "ClientToken"="idempotencyToken"
    "Description"="Disk Image Import"
    "DiskContainer_Description" = "Data disk"
    "DiskContainer_Format" = "VMDK"
    "DiskContainer_S3Bucket" = "amzn-s3-demo-bucket"
    "DiskContainer_S3Key" = "datadiskimage.vmdk"
}

Import-EC2Snapshot @parms
```
**Output:**  

```
Description            ImportTaskId               SnapshotTaskDetail                                                          
-----------------      --------------------       ------------------                                                          
Disk Image Import      import-snap-abcdefgh       Amazon.EC2.Model.SnapshotTaskDetail
```
+  Untuk detail API, lihat [ImportSnapshot](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Move-EC2AddressToVpc`
<a name="ec2_MoveAddressToVpc_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Move-EC2AddressToVpc`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memindahkan instans EC2 dengan alamat IP publik 12.345.67.89 ke platform EC2-VPC di wilayah AS Timur (Virginia Utara).**  

```
Move-EC2AddressToVpc -PublicIp 12.345.67.89 -Region us-east-1
```
**Contoh 2: Contoh ini menyalurkan hasil Get-EC2Instance perintah ke Move-EC2AddressToVpc cmdlet. Get-EC2InstancePerintah mendapat instance yang ditentukan oleh ID instance, kemudian mengembalikan properti alamat IP publik dari instance tersebut.**  

```
(Get-EC2Instance -Instance i-12345678).Instances.PublicIpAddress | Move-EC2AddressToVpc
```
+  Untuk detail API, lihat [MoveAddressToVpc](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Address`
<a name="ec2_AllocateAddress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Address`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengalokasikan alamat IP Elastis untuk digunakan dengan instance di VPC.**  

```
New-EC2Address -Domain Vpc
```
**Output:**  

```
AllocationId         Domain      PublicIp
------------         ------      --------
eipalloc-12345678    vpc         198.51.100.2
```
**Contoh 2: Contoh ini mengalokasikan alamat IP Elastis untuk digunakan dengan instance di EC2-Classic.**  

```
New-EC2Address
```
**Output:**  

```
AllocationId         Domain      PublicIp
------------         ------      --------
                     standard    203.0.113.17
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2CustomerGateway`
<a name="ec2_CreateCustomerGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2CustomerGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat gateway pelanggan yang ditentukan.**  

```
New-EC2CustomerGateway -Type ipsec.1 -PublicIp 203.0.113.12 -BgpAsn 65534
```
**Output:**  

```
BgpAsn            : 65534
CustomerGatewayId : cgw-1a2b3c4d
IpAddress         : 203.0.113.12
State             : available
Tags              : {}
Type              : ipsec.1
```
+  Untuk detail API, lihat [CreateCustomerGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2DhcpOption`
<a name="ec2_CreateDhcpOptions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2DhcpOption`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menciptakan kumpulan opsi DHCP yang ditentukan. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$options = @( @{Key="domain-name";Values=@("abc.local")}, @{Key="domain-name-servers";Values=@("10.0.0.101","10.0.0.102")})
New-EC2DhcpOption -DhcpConfiguration $options
```
**Output:**  

```
DhcpConfigurations                    DhcpOptionsId    Tags
------------------                    -------------    ----
{domain-name, domain-name-servers}    dopt-1a2b3c4d    {}
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap opsi DHCP.**  

```
$option1 = New-Object Amazon.EC2.Model.DhcpConfiguration
$option1.Key = "domain-name"
$option1.Values = "abc.local"

$option2 = New-Object Amazon.EC2.Model.DhcpConfiguration
$option2.Key = "domain-name-servers"
$option2.Values = @("10.0.0.101","10.0.0.102")

New-EC2DhcpOption -DhcpConfiguration @($option1, $option2)
```
**Output:**  

```
DhcpConfigurations                    DhcpOptionsId    Tags
------------------                    -------------    ----
{domain-name, domain-name-servers}    dopt-2a3b4c5d    {}
```
+  Untuk detail API, lihat [CreateDhcpOptions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2FlowLog`
<a name="ec2_CreateFlowLogs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2FlowLog`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat flowlog EC2 untuk subnet subnet-1d234567 ke 'subnet1-log' cloud-watch-log bernama untuk semua lalu lintas 'TOLAK' menggunakan batas peran 'Admin'**  

```
New-EC2FlowLog -ResourceId "subnet-1d234567" -LogDestinationType cloud-watch-logs -LogGroupName subnet1-log -TrafficType "REJECT" -ResourceType Subnet -DeliverLogsPermissionArn "arn:aws:iam::98765432109:role/Admin"
```
**Output:**  

```
ClientToken                                  FlowLogIds             Unsuccessful
-----------                                  ----------             ------------
m1VN2cxP3iB4qo//VUKl5EU6cF7gQLOxcqNefvjeTGw= {fl-012fc34eed5678c9d} {}
```
+  Untuk detail API, lihat [CreateFlowLogs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Host`
<a name="ec2_AllocateHosts_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Host`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengalokasikan Host Khusus ke akun Anda untuk jenis instans dan zona ketersediaan yang diberikan**  

```
New-EC2Host -AutoPlacement on -AvailabilityZone eu-west-1b -InstanceType m4.xlarge -Quantity 1
```
**Output:**  

```
h-01e23f4cd567890f3
```
+  Untuk detail API, lihat [AllocateHosts](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2HostReservation`
<a name="ec2_PurchaseHostReservation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2HostReservation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membeli reservasi yang menawarkan hro-0c1f23456789d0ab dengan konfigurasi yang cocok dengan Host Khusus Anda h-01e23f4cd567890f1**  

```
New-EC2HostReservation -OfferingId hro-0c1f23456789d0ab HostIdSet h-01e23f4cd567890f1
```
**Output:**  

```
ClientToken       :
CurrencyCode      :
Purchase          : {hr-0123f4b5d67bedc89}
TotalHourlyPrice  : 1.307
TotalUpfrontPrice : 0.000
```
+  Untuk detail API, lihat [PurchaseHostReservation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Image`
<a name="ec2_CreateImage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Image`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat AMI dengan nama dan deskripsi yang ditentukan, dari instance yang ditentukan. Amazon EC2 mencoba mematikan instance dengan bersih sebelum membuat gambar, dan memulai ulang instance setelah selesai.**  

```
New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI"
```
**Contoh 2: Contoh ini membuat AMI dengan nama dan deskripsi yang ditentukan, dari instance yang ditentukan. Amazon EC2 membuat gambar tanpa mematikan dan memulai ulang instance; oleh karena itu, integritas sistem file pada gambar yang dibuat tidak dapat dijamin.**  

```
New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" -NoReboot $true
```
**Contoh 3: Contoh ini membuat AMI dengan tiga volume. Volume pertama didasarkan pada snapshot Amazon EBS. Volume kedua adalah volume 100 GiB Amazon EBS kosong. Volume ketiga adalah volume penyimpanan instance. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ebsBlock1 = @{SnapshotId="snap-1a2b3c4d"}
$ebsBlock2 = @{VolumeSize=100}

New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" -BlockDeviceMapping @( @{DeviceName="/dev/sdf";Ebs=$ebsBlock1}, @{DeviceName="/dev/sdg";Ebs=$ebsBlock2}, @{DeviceName="/dev/sdc";VirtualName="ephemeral0"})
```
+  Untuk detail API, lihat [CreateImage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Instance`
<a name="ec2_RunInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Instance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini meluncurkan satu instance dari AMI yang ditentukan di EC2-Classic atau VPC default.**  

```
New-EC2Instance -ImageId ami-12345678 -MinCount 1 -MaxCount 1 -InstanceType m3.medium -KeyName my-key-pair -SecurityGroup my-security-group
```
**Contoh 2: Contoh ini meluncurkan satu instance dari AMI yang ditentukan dalam VPC.**  

```
New-EC2Instance -ImageId ami-12345678 -MinCount 1 -MaxCount 1 -SubnetId subnet-12345678 -InstanceType t2.micro -KeyName my-key-pair -SecurityGroupId sg-12345678
```
**Contoh 3: Untuk menambahkan volume EBS atau volume penyimpanan instance, tentukan pemetaan perangkat blok dan tambahkan ke perintah. Contoh ini menambahkan volume penyimpanan instance.**  

```
$bdm = New-Object Amazon.EC2.Model.BlockDeviceMapping
$bdm.VirtualName = "ephemeral0"
$bdm.DeviceName = "/dev/sdf"

New-EC2Instance -ImageId ami-12345678 -BlockDeviceMapping $bdm ...
```
**Contoh 4: Untuk menentukan salah satu Windows saat ini AMIs, dapatkan ID AMI menggunakanGet-EC2ImageByName. Contoh ini meluncurkan instance dari basis AMI saat ini untuk Windows Server 2016.**  

```
$ami = Get-EC2ImageByName WINDOWS_2016_BASE

New-EC2Instance -ImageId $ami.ImageId ...
```
**Contoh 5: Meluncurkan instance ke lingkungan host khusus yang ditentukan.**  

```
New-EC2Instance -ImageId ami-1a2b3c4d -InstanceType m4.large -KeyName my-key-pair -SecurityGroupId sg-1a2b3c4d  -AvailabilityZone us-west-1a -Tenancy host -HostID h-1a2b3c4d5e6f1a2b3
```
**Contoh 6: Permintaan ini meluncurkan dua instance dan menerapkan tag dengan kunci server web dan nilai produksi ke instance. Permintaan juga menerapkan tag dengan kunci cost-center dan nilai cc123 ke volume yang dibuat (dalam hal ini, volume root untuk setiap instance).**  

```
$tag1 = @{ Key="webserver"; Value="production" }
$tag2 = @{ Key="cost-center"; Value="cc123" }

$tagspec1 = new-object Amazon.EC2.Model.TagSpecification
$tagspec1.ResourceType = "instance"
$tagspec1.Tags.Add($tag1)

$tagspec2 = new-object Amazon.EC2.Model.TagSpecification
$tagspec2.ResourceType = "volume"
$tagspec2.Tags.Add($tag2)

New-EC2Instance -ImageId "ami-1a2b3c4d" -KeyName "my-key-pair" -MaxCount 2 -InstanceType "t2.large" -SubnetId "subnet-1a2b3c4d" -TagSpecification $tagspec1,$tagspec2
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2InstanceExportTask`
<a name="ec2_CreateInstanceExportTask_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2InstanceExportTask`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengekspor instance yang dihentikan,`i-0800b00a00EXAMPLE`, sebagai hard disk virtual (VHD) ke bucket S3. `testbucket-export-instances-2019` Lingkungan target adalah`Microsoft`, dan parameter wilayah ditambahkan karena instance ada di `us-east-1` wilayah, sedangkan AWS Wilayah default pengguna bukan us-east-1. Untuk mendapatkan status tugas ekspor, salin `ExportTaskId` nilai dari hasil perintah ini, lalu jalankan `Get-EC2ExportTask -ExportTaskId export_task_ID_from_results.`**  

```
New-EC2InstanceExportTask -InstanceId i-0800b00a00EXAMPLE -ExportToS3Task_DiskImageFormat VHD -ExportToS3Task_S3Bucket "amzn-s3-demo-bucket" -TargetEnvironment Microsoft -Region us-east-1
```
**Output:**  

```
Description           : 
ExportTaskId          : export-i-077c73108aEXAMPLE
ExportToS3Task        : Amazon.EC2.Model.ExportToS3Task
InstanceExportDetails : Amazon.EC2.Model.InstanceExportDetails
State                 : active
StatusMessage         :
```
+  Untuk detail API, lihat [CreateInstanceExportTask](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2InternetGateway`
<a name="ec2_CreateInternetGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2InternetGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat gateway Internet.**  

```
New-EC2InternetGateway
```
**Output:**  

```
Attachments    InternetGatewayId    Tags
-----------    -----------------    ----
{}             igw-1a2b3c4d         {}
```
+  Untuk detail API, lihat [CreateInternetGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2KeyPair`
<a name="ec2_CreateKeyPair_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2KeyPair`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat key pair dan menangkap kunci pribadi RSA yang dikodekan PEM dalam file dengan nama yang ditentukan. Saat Anda menggunakan PowerShell, pengkodean harus diatur ke ascii untuk menghasilkan kunci yang valid. Untuk informasi selengkapnya, lihat Membuat, Menampilkan, dan Menghapus Pasangan Kunci Amazon EC2 (https://docs.aws.amazon.com/cli/latest/userguide/cli-services-ec2-keypairs.html) di Panduan Pengguna Antarmuka Baris AWS Perintah.**  

```
(New-EC2KeyPair -KeyName "my-key-pair").KeyMaterial | Out-File -Encoding ascii -FilePath C:\path\my-key-pair.pem
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2NetworkAcl`
<a name="ec2_CreateNetworkAcl_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2NetworkAcl`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat ACL jaringan untuk VPC yang ditentukan.**  

```
New-EC2NetworkAcl -VpcId vpc-12345678
```
**Output:**  

```
Associations : {}
Entries      : {Amazon.EC2.Model.NetworkAclEntry, Amazon.EC2.Model.NetworkAclEntry}
IsDefault    : False
NetworkAclId : acl-12345678
Tags         : {}
VpcId        : vpc-12345678
```
+  Untuk detail API, lihat [CreateNetworkAcl](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2NetworkAclEntry`
<a name="ec2_CreateNetworkAclEntry_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2NetworkAclEntry`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat entri untuk ACL jaringan tertentu. Aturan ini memungkinkan lalu lintas masuk dari mana saja (0.0.0.0/0) pada port UDP 53 (DNS) ke subnet terkait.**  

```
New-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 -Protocol 17 -PortRange_From 53 -PortRange_To 53 -CidrBlock 0.0.0.0/0 -RuleAction allow
```
+  Untuk detail API, lihat [CreateNetworkAclEntry](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2NetworkInterface`
<a name="ec2_CreateNetworkInterface_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2NetworkInterface`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menciptakan antarmuka jaringan yang ditentukan.**  

```
New-EC2NetworkInterface -SubnetId subnet-1a2b3c4d -Description "my network interface" -Group sg-12345678 -PrivateIpAddress 10.0.0.17
```
**Output:**  

```
Association        :
Attachment         :
AvailabilityZone   : us-west-2c
Description        : my network interface
Groups             : {my-security-group}
MacAddress         : 0a:72:bc:1a:cd:7f
NetworkInterfaceId : eni-12345678
OwnerId            : 123456789012
PrivateDnsName     : ip-10-0-0-17.us-west-2.compute.internal
PrivateIpAddress   : 10.0.0.17
PrivateIpAddresses : {}
RequesterId        :
RequesterManaged   : False
SourceDestCheck    : True
Status             : pending
SubnetId           : subnet-1a2b3c4d
TagSet             : {}
VpcId              : vpc-12345678
```
+  Untuk detail API, lihat [CreateNetworkInterface](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2PlacementGroup`
<a name="ec2_CreatePlacementGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2PlacementGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat grup penempatan dengan nama yang ditentukan.**  

```
New-EC2PlacementGroup -GroupName my-placement-group -Strategy cluster
```
+  Untuk detail API, lihat [CreatePlacementGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Route`
<a name="ec2_CreateRoute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Route`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menciptakan rute yang ditentukan untuk tabel rute yang ditentukan. Rute cocok dengan semua lalu lintas dan mengirimkannya ke gateway Internet yang ditentukan.**  

```
New-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 0.0.0.0/0 -GatewayId igw-1a2b3c4d
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [CreateRoute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2RouteTable`
<a name="ec2_CreateRouteTable_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2RouteTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat tabel rute untuk VPC yang ditentukan.**  

```
New-EC2RouteTable -VpcId vpc-12345678
```
**Output:**  

```
Associations    : {}
PropagatingVgws : {}
Routes          : {}
RouteTableId    : rtb-1a2b3c4d
Tags            : {}
VpcId           : vpc-12345678
```
+  Untuk detail API, lihat [CreateRouteTable](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2ScheduledInstance`
<a name="ec2_RunScheduledInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2ScheduledInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini meluncurkan Instance Terjadwal yang ditentukan.**  

```
New-EC2ScheduledInstance -ScheduledInstanceId sci-1234-1234-1234-1234-123456789012 -InstanceCount 1 `
-IamInstanceProfile_Name my-iam-role `
-LaunchSpecification_ImageId ami-12345678 `
-LaunchSpecification_InstanceType c4.large `
-LaunchSpecification_SubnetId subnet-12345678`
-LaunchSpecification_SecurityGroupId sg-12345678
```
+  Untuk detail API, lihat [RunScheduledInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2ScheduledInstancePurchase`
<a name="ec2_PurchaseScheduledInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2ScheduledInstancePurchase`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membeli Instance Terjadwal.**  

```
$request = New-Object Amazon.EC2.Model.PurchaseRequest
$request.InstanceCount = 1
$request.PurchaseToken = "eyJ2IjoiMSIsInMiOjEsImMiOi..."
New-EC2ScheduledInstancePurchase -PurchaseRequest $request
```
**Output:**  

```
AvailabilityZone            : us-west-2b
CreateDate                  : 1/25/2016 1:43:38 PM
HourlyPrice                 : 0.095
InstanceCount               : 1
InstanceType                : c4.large
NetworkPlatform             : EC2-VPC
NextSlotStartTime           : 1/31/2016 1:00:00 AM
Platform                    : Linux/UNIX
PreviousSlotEndTime         : 
Recurrence                  : Amazon.EC2.Model.ScheduledInstanceRecurrence
ScheduledInstanceId         : sci-1234-1234-1234-1234-123456789012
SlotDurationInHours         : 32
TermEndDate                 : 1/31/2017 1:00:00 AM
TermStartDate               : 1/31/2016 1:00:00 AM
TotalScheduledInstanceHours : 1696
```
+  Untuk detail API, lihat [PurchaseScheduledInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2SecurityGroup`
<a name="ec2_CreateSecurityGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2SecurityGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat grup keamanan untuk VPC yang ditentukan.**  

```
New-EC2SecurityGroup -GroupName my-security-group -Description "my security group" -VpcId vpc-12345678
```
**Output:**  

```
sg-12345678
```
**Contoh 2: Contoh ini membuat grup keamanan untuk EC2-Classic.**  

```
New-EC2SecurityGroup -GroupName my-security-group -Description "my security group"
```
**Output:**  

```
sg-45678901
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Snapshot`
<a name="ec2_CreateSnapshot_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Snapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat snapshot dari volume yang ditentukan.**  

```
New-EC2Snapshot -VolumeId vol-12345678 -Description "This is a test"
```
**Output:**  

```
DataEncryptionKeyId :
Description         : This is a test
Encrypted           : False
KmsKeyId            :
OwnerAlias          :
OwnerId             : 123456789012
Progress            :
SnapshotId          : snap-12345678
StartTime           : 12/22/2015 1:28:42 AM
State               : pending
StateMessage        :
Tags                : {}
VolumeId            : vol-12345678
VolumeSize          : 20
```
+  Untuk detail API, lihat [CreateSnapshot](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2SpotDatafeedSubscription`
<a name="ec2_CreateSpotDatafeedSubscription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2SpotDatafeedSubscription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat umpan data instance Spot.**  

```
New-EC2SpotDatafeedSubscription -Bucket amzn-s3-demo-bucket -Prefix spotdata
```
**Output:**  

```
Bucket  : amzn-s3-demo-bucket
Fault   :
OwnerId : 123456789012
Prefix  : spotdata
State   : Active
```
+  Untuk detail API, lihat [CreateSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Subnet`
<a name="ec2_CreateSubnet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Subnet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat subnet dengan CIDR yang ditentukan.**  

```
New-EC2Subnet -VpcId vpc-12345678 -CidrBlock 10.0.0.0/24
```
**Output:**  

```
AvailabilityZone        : us-west-2c
AvailableIpAddressCount : 251
CidrBlock               : 10.0.0.0/24
DefaultForAz            : False
MapPublicIpOnLaunch     : False
State                   : pending
SubnetId                : subnet-1a2b3c4d
Tag                     : {}
VpcId                   : vpc-12345678
```
+  Untuk detail API, lihat [CreateSubnet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Tag`
<a name="ec2_CreateTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Tag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan satu tag ke sumber daya yang ditentukan. Kunci tag adalah 'MyTag' dan nilai tag adalah 'myTagValue'. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
New-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag"; Value="myTagValue" }
```
**Contoh 2: Contoh ini memperbarui atau menambahkan tag yang ditentukan ke sumber daya yang ditentukan. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
New-EC2Tag -Resource i-12345678 -Tag @( @{ Key="myTag"; Value="newTagValue" }, @{ Key="test"; Value="anotherTagValue" } )
```
**Contoh 3: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.EC2.Model.Tag
$tag.Key = "myTag"
$tag.Value = "myTagValue"

New-EC2Tag -Resource i-12345678 -Tag $tag
```
+  Untuk detail API, lihat [CreateTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Volume`
<a name="ec2_CreateVolume_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Volume`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menciptakan volume yang ditentukan.**  

```
New-EC2Volume -Size 50 -AvailabilityZone us-west-2a -VolumeType gp2
```
**Output:**  

```
Attachments      : {}
AvailabilityZone : us-west-2a
CreateTime       : 12/22/2015 1:42:07 AM
Encrypted        : False
Iops             : 150
KmsKeyId         :
Size             : 50
SnapshotId       :
State            : creating
Tags             : {}
VolumeId         : vol-12345678
VolumeType       : gp2
```
**Contoh 2: Permintaan contoh ini membuat volume dan menerapkan tag dengan kunci tumpukan dan nilai produksi.**  

```
$tag = @{ Key="stack"; Value="production" }

$tagspec = new-object Amazon.EC2.Model.TagSpecification
$tagspec.ResourceType = "volume"
$tagspec.Tags.Add($tag)

New-EC2Volume -Size 80 -AvailabilityZone "us-west-2a" -TagSpecification $tagspec
```
+  Untuk detail API, lihat [CreateVolume](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2Vpc`
<a name="ec2_CreateVpc_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Vpc`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat VPC dengan CIDR yang ditentukan. Amazon VPC juga membuat yang berikut untuk VPC: set opsi DHCP default, tabel rute utama, dan ACL jaringan default.**  

```
New-EC2VPC -CidrBlock 10.0.0.0/16
```
**Output:**  

```
CidrBlock       : 10.0.0.0/16
DhcpOptionsId   : dopt-1a2b3c4d
InstanceTenancy : default
IsDefault       : False
State           : pending
Tags            : {}
VpcId           : vpc-12345678
```
+  Untuk detail API, lihat [CreateVpc](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2VpcEndpoint`
<a name="ec2_CreateVpcEndpoint_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2VpcEndpoint`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat Endpoint VPC baru untuk layanan com.amazonaws.eu-west-1.s3 di VPC vpc-0fc1ff23f45b678eb**  

```
New-EC2VpcEndpoint -ServiceName com.amazonaws.eu-west-1.s3 -VpcId vpc-0fc1ff23f45b678eb
```
**Output:**  

```
ClientToken VpcEndpoint
----------- -----------
            Amazon.EC2.Model.VpcEndpoint
```
+  Untuk detail API, lihat [CreateVpcEndpoint](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2VpnConnection`
<a name="ec2_CreateVpnConnection_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2VpnConnection`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat koneksi VPN antara gateway pribadi virtual yang ditentukan dan gateway pelanggan yang ditentukan. Outputnya mencakup informasi konfigurasi yang dibutuhkan administrator jaringan Anda, dalam format XHTML.**  

```
New-EC2VpnConnection -Type ipsec.1 -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d
```
**Output:**  

```
CustomerGatewayConfiguration : [XML document]
CustomerGatewayId            : cgw-1a2b3c4d
Options                      :
Routes                       : {}
State                        : pending
Tags                         : {}
Type                         :
VgwTelemetry                 : {}
VpnConnectionId              : vpn-12345678
VpnGatewayId                 : vgw-1a2b3c4d
```
**Contoh 2: Contoh ini membuat koneksi VPN dan menangkap konfigurasi dalam file dengan nama yang ditentukan.**  

```
(New-EC2VpnConnection -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d).CustomerGatewayConfiguration | Out-File C:\path\vpn-configuration.xml
```
**Contoh 3: Contoh ini membuat koneksi VPN, dengan perutean statis, antara gateway pribadi virtual yang ditentukan dan gateway pelanggan yang ditentukan.**  

```
New-EC2VpnConnection -Type ipsec.1 -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d -Options_StaticRoutesOnly $true
```
+  Untuk detail API, lihat [CreateVpnConnection](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2VpnConnectionRoute`
<a name="ec2_CreateVpnConnectionRoute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2VpnConnectionRoute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat rute statis yang ditentukan untuk koneksi VPN yang ditentukan.**  

```
New-EC2VpnConnectionRoute -VpnConnectionId vpn-12345678 -DestinationCidrBlock 11.12.0.0/16
```
+  Untuk detail API, lihat [CreateVpnConnectionRoute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EC2VpnGateway`
<a name="ec2_CreateVpnGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2VpnGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat gateway pribadi virtual yang ditentukan.**  

```
New-EC2VpnGateway -Type ipsec.1
```
**Output:**  

```
AvailabilityZone :
State            : available
Tags             : {}
Type             : ipsec.1
VpcAttachments   : {}
VpnGatewayId     : vgw-1a2b3c4d
```
+  Untuk detail API, lihat [CreateVpnGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-EC2Address`
<a name="ec2_AssociateAddress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2Address`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan alamat IP Elastis yang ditentukan dengan instance yang ditentukan dalam VPC.**  

```
C:\> Register-EC2Address -InstanceId i-12345678 -AllocationId eipalloc-12345678
```
**Output:**  

```
eipassoc-12345678
```
**Contoh 2: Contoh ini mengaitkan alamat IP Elastis yang ditentukan dengan instance yang ditentukan di EC2-Classic.**  

```
C:\> Register-EC2Address -InstanceId i-12345678 -PublicIp 203.0.113.17
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-EC2DhcpOption`
<a name="ec2_AssociateDhcpOptions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2DhcpOption`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan opsi DHCP tertentu yang ditetapkan dengan VPC yang ditentukan.**  

```
Register-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d -VpcId vpc-12345678
```
**Contoh 2: Contoh ini mengaitkan opsi DHCP default yang ditetapkan dengan VPC yang ditentukan.**  

```
Register-EC2DhcpOption -DhcpOptionsId default -VpcId vpc-12345678
```
+  Untuk detail API, lihat [AssociateDhcpOptions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-EC2Image`
<a name="ec2_RegisterImage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2Image`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan AMI menggunakan file manifes yang ditentukan di Amazon S3.**  

```
Register-EC2Image -ImageLocation amzn-s3-demo-bucket/my-web-server-ami/image.manifest.xml -Name my-web-server-ami
```
+  Untuk detail API, lihat [RegisterImage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-EC2PrivateIpAddress`
<a name="ec2_AssignPrivateIpAddresses_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2PrivateIpAddress`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memberikan alamat IP pribadi sekunder yang ditentukan ke antarmuka jaringan yang ditentukan.**  

```
Register-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -PrivateIpAddress 10.0.0.82
```
**Contoh 2: Contoh ini membuat dua alamat IP pribadi sekunder dan menetapkannya ke antarmuka jaringan yang ditentukan.**  

```
Register-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -SecondaryPrivateIpAddressCount 2
```
+  Untuk detail API, lihat [AssignPrivateIpAddresses](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-EC2RouteTable`
<a name="ec2_AssociateRouteTable_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2RouteTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan tabel rute yang ditentukan dengan subnet yang ditentukan.**  

```
Register-EC2RouteTable -RouteTableId rtb-1a2b3c4d -SubnetId subnet-1a2b3c4d
```
**Output:**  

```
rtbassoc-12345678
```
+  Untuk detail API, lihat [AssociateRouteTable](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Address`
<a name="ec2_ReleaseAddress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Address`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini merilis alamat IP Elastis yang ditentukan untuk instance di VPC.**  

```
Remove-EC2Address -AllocationId eipalloc-12345678 -Force
```
**Contoh 2: Contoh ini merilis alamat IP Elastis yang ditentukan untuk instance di EC2-Classic.**  

```
Remove-EC2Address -PublicIp 198.51.100.2 -Force
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2CapacityReservation`
<a name="ec2_CancelCapacityReservation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2CapacityReservation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan reservasi kapasitas cr-0c1f2345db6f7cdba**  

```
Remove-EC2CapacityReservation -CapacityReservationId cr-0c1f2345db6f7cdba
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2CapacityReservation (CancelCapacityReservation)" on target "cr-0c1f2345db6f7cdba".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
True
```
+  Untuk detail API, lihat [CancelCapacityReservation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2CustomerGateway`
<a name="ec2_DeleteCustomerGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2CustomerGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus gateway pelanggan yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2CustomerGateway -CustomerGatewayId cgw-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2CustomerGateway (DeleteCustomerGateway)" on Target "cgw-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteCustomerGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2DhcpOption`
<a name="ec2_DeleteDhcpOptions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2DhcpOption`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus set opsi DHCP yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2DhcpOption (DeleteDhcpOptions)" on Target "dopt-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteDhcpOptions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2FlowLog`
<a name="ec2_DeleteFlowLogs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2FlowLog`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus FlowLogId fl-01a2b3456a789c01 yang diberikan**  

```
Remove-EC2FlowLog -FlowLogId fl-01a2b3456a789c01
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2FlowLog (DeleteFlowLogs)" on target "fl-01a2b3456a789c01".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteFlowLogs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Host`
<a name="ec2_ReleaseHosts_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Host`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini merilis ID host yang diberikan h-0badafd1dcb2f3456**  

```
Remove-EC2Host -HostId h-0badafd1dcb2f3456
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2Host (ReleaseHosts)" on target "h-0badafd1dcb2f3456".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

Successful            Unsuccessful
----------            ------------
{h-0badafd1dcb2f3456} {}
```
+  Untuk detail API, lihat [ReleaseHosts](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Instance`
<a name="ec2_TerminateInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Instance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengakhiri instance yang ditentukan (instance mungkin berjalan atau dalam keadaan 'berhenti'). Cmdlet akan meminta konfirmasi sebelum melanjutkan; gunakan sakelar -Force untuk menekan prompt.**  

```
Remove-EC2Instance -InstanceId i-12345678
```
**Output:**  

```
CurrentState                      InstanceId    PreviousState
------------                      ----------    -------------
Amazon.EC2.Model.InstanceState    i-12345678    Amazon.EC2.Model.InstanceState
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2InternetGateway`
<a name="ec2_DeleteInternetGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2InternetGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus gateway Internet yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2InternetGateway (DeleteInternetGateway)" on Target "igw-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteInternetGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2KeyPair`
<a name="ec2_DeleteKeyPair_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2KeyPair`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus key pair yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2KeyPair -KeyName my-key-pair
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2KeyPair (DeleteKeyPair)" on Target "my-key-pair".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2NetworkAcl`
<a name="ec2_DeleteNetworkAcl_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2NetworkAcl`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus ACL jaringan tertentu. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2NetworkAcl -NetworkAclId acl-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2NetworkAcl (DeleteNetworkAcl)" on Target "acl-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteNetworkAcl](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2NetworkAclEntry`
<a name="ec2_DeleteNetworkAclEntry_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2NetworkAclEntry`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus aturan yang ditentukan dari ACL jaringan yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2NetworkAclEntry (DeleteNetworkAclEntry)" on Target "acl-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteNetworkAclEntry](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2NetworkInterface`
<a name="ec2_DeleteNetworkInterface_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2NetworkInterface`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus antarmuka jaringan yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2NetworkInterface -NetworkInterfaceId eni-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2NetworkInterface (DeleteNetworkInterface)" on Target "eni-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteNetworkInterface](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2PlacementGroup`
<a name="ec2_DeletePlacementGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2PlacementGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus grup penempatan yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2PlacementGroup -GroupName my-placement-group
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2PlacementGroup (DeletePlacementGroup)" on Target "my-placement-group".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeletePlacementGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Route`
<a name="ec2_DeleteRoute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Route`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus rute yang ditentukan dari tabel rute yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 0.0.0.0/0
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2Route (DeleteRoute)" on Target "rtb-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteRoute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2RouteTable`
<a name="ec2_DeleteRouteTable_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2RouteTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tabel rute yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2RouteTable -RouteTableId rtb-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2RouteTable (DeleteRouteTable)" on Target "rtb-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteRouteTable](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2SecurityGroup`
<a name="ec2_DeleteSecurityGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2SecurityGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus grup keamanan yang ditentukan untuk EC2-VPC. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2SecurityGroup -GroupId sg-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2SecurityGroup (DeleteSecurityGroup)" on Target "sg-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Contoh ini menghapus grup keamanan yang ditentukan untuk EC2-Classic.**  

```
Remove-EC2SecurityGroup -GroupName my-security-group -Force
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Snapshot`
<a name="ec2_DeleteSnapshot_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Snapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus snapshot yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Snapshot -SnapshotId snap-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2Snapshot (DeleteSnapshot)" on target "snap-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteSnapshot](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2SpotDatafeedSubscription`
<a name="ec2_DeleteSpotDatafeedSubscription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2SpotDatafeedSubscription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus umpan data instans Spot Anda. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2SpotDatafeedSubscription
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2SpotDatafeedSubscription (DeleteSpotDatafeedSubscription)" on Target "".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Subnet`
<a name="ec2_DeleteSubnet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Subnet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus subnet yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Subnet -SubnetId subnet-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2Subnet (DeleteSubnet)" on Target "subnet-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteSubnet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Tag`
<a name="ec2_DeleteTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Tag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag yang ditentukan dari sumber daya yang ditentukan, terlepas dari nilai tag. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Remove-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag" } -Force
```
**Contoh 2: Contoh ini menghapus tag yang ditentukan dari sumber daya yang ditentukan, tetapi hanya jika nilai tag cocok. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Remove-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag";Value="myTagValue" } -Force
```
**Contoh 3: Contoh ini menghapus tag yang ditentukan dari sumber daya yang ditentukan, terlepas dari nilai tag.**  

```
$tag = New-Object Amazon.EC2.Model.Tag
$tag.Key = "myTag"

Remove-EC2Tag -Resource i-12345678 -Tag $tag -Force
```
**Contoh 4: Contoh ini menghapus tag yang ditentukan dari sumber daya yang ditentukan, tetapi hanya jika nilai tag cocok.**  

```
$tag = New-Object Amazon.EC2.Model.Tag
$tag.Key = "myTag"
$tag.Value = "myTagValue"

Remove-EC2Tag -Resource i-12345678 -Tag $tag -Force
```
+  Untuk detail API, lihat [DeleteTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Volume`
<a name="ec2_DeleteVolume_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Volume`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan volume yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Volume -VolumeId vol-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2Volume (DeleteVolume)" on target "vol-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVolume](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2Vpc`
<a name="ec2_DeleteVpc_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Vpc`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus VPC yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Vpc -VpcId vpc-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2Vpc (DeleteVpc)" on Target "vpc-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVpc](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2VpnConnection`
<a name="ec2_DeleteVpnConnection_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2VpnConnection`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus koneksi VPN yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2VpnConnection -VpnConnectionId vpn-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2VpnConnection (DeleteVpnConnection)" on Target "vpn-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVpnConnection](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2VpnConnectionRoute`
<a name="ec2_DeleteVpnConnectionRoute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2VpnConnectionRoute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus rute statis yang ditentukan dari koneksi VPN yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2VpnConnectionRoute -VpnConnectionId vpn-12345678 -DestinationCidrBlock 11.12.0.0/16
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2VpnConnectionRoute (DeleteVpnConnectionRoute)" on Target "vpn-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVpnConnectionRoute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EC2VpnGateway`
<a name="ec2_DeleteVpnGateway_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2VpnGateway`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus gateway pribadi virtual yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2VpnGateway (DeleteVpnGateway)" on Target "vgw-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVpnGateway](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Request-EC2SpotFleet`
<a name="ec2_RequestSpotFleet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-EC2SpotFleet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat permintaan armada Spot di Availability Zone dengan harga terendah untuk jenis instans yang ditentukan. Jika akun Anda hanya mendukung EC2-VPC, armada Spot akan meluncurkan instans di Availability Zone dengan harga terendah yang memiliki subnet default. Jika akun Anda mendukung EC2-Classic, armada Spot meluncurkan instans dalam EC2-Classic di Availability Zone dengan harga terendah. Perhatikan bahwa harga yang Anda bayar tidak akan melebihi harga Spot yang ditentukan untuk permintaan tersebut.**  

```
$sg = New-Object Amazon.EC2.Model.GroupIdentifier
$sg.GroupId = "sg-12345678"
$lc = New-Object Amazon.EC2.Model.SpotFleetLaunchSpecification
$lc.ImageId = "ami-12345678"
$lc.InstanceType = "m3.medium"
$lc.SecurityGroups.Add($sg) 
Request-EC2SpotFleet -SpotFleetRequestConfig_SpotPrice 0.04 `
-SpotFleetRequestConfig_TargetCapacity 2 `
-SpotFleetRequestConfig_IamFleetRole arn:aws:iam::123456789012:role/my-spot-fleet-role `
-SpotFleetRequestConfig_LaunchSpecification $lc
```
+  Untuk detail API, lihat [RequestSpotFleet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Request-EC2SpotInstance`
<a name="ec2_RequestSpotInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-EC2SpotInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini meminta instance Spot satu kali di subnet yang ditentukan. Perhatikan bahwa grup keamanan harus dibuat untuk VPC yang berisi subnet yang ditentukan, dan harus ditentukan oleh ID menggunakan antarmuka jaringan. Saat Anda menentukan antarmuka jaringan, Anda harus menyertakan ID subnet menggunakan antarmuka jaringan.**  

```
$n = New-Object Amazon.EC2.Model.InstanceNetworkInterfaceSpecification
$n.DeviceIndex = 0
$n.SubnetId = "subnet-12345678"
$n.Groups.Add("sg-12345678")
Request-EC2SpotInstance -InstanceCount 1 -SpotPrice 0.050 -Type one-time `
-IamInstanceProfile_Arn arn:aws:iam::123456789012:instance-profile/my-iam-role `
-LaunchSpecification_ImageId ami-12345678 `
-LaunchSpecification_InstanceType m3.medium `
-LaunchSpecification_NetworkInterface $n
```
**Output:**  

```
ActualBlockHourlyPrice   :
AvailabilityZoneGroup    :
BlockDurationMinutes     : 0
CreateTime               : 12/26/2015 7:44:10 AM
Fault                    :
InstanceId               :
LaunchedAvailabilityZone :
LaunchGroup              :
LaunchSpecification      : Amazon.EC2.Model.LaunchSpecification
ProductDescription       : Linux/UNIX
SpotInstanceRequestId    : sir-12345678
SpotPrice                : 0.050000
State                    : open
Status                   : Amazon.EC2.Model.SpotInstanceStatus
Tags                     : {}
Type                     : one-time
```
+  Untuk detail API, lihat [RequestSpotInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Reset-EC2ImageAttribute`
<a name="ec2_ResetImageAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-EC2ImageAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini me-reset atribut 'launchPermission' ke nilai defaultnya. Secara default, AMIs bersifat pribadi.**  

```
Reset-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission
```
+  Untuk detail API, lihat [ResetImageAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Reset-EC2InstanceAttribute`
<a name="ec2_ResetInstanceAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-EC2InstanceAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini me-reset atribut sriovNetSupport '' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sriovNetSupport
```
**Contoh 2: Contoh ini me-reset atribut 'EBSOptimized' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute ebsOptimized
```
**Contoh 3: Contoh ini me-reset atribut sourceDestCheck '' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sourceDestCheck
```
**Contoh 4: Contoh ini me-reset atribut disableApiTermination '' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute disableApiTermination
```
**Contoh 5: Contoh ini me-reset atribut 'instanceInitiatedShutdownBehavior' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceInitiatedShutdownBehavior
```
+  Untuk detail API, lihat [ResetInstanceAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Reset-EC2NetworkInterfaceAttribute`
<a name="ec2_ResetNetworkInterfaceAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-EC2NetworkInterfaceAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengatur ulang source/destination pemeriksaan antarmuka jaringan yang ditentukan.**  

```
Reset-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -SourceDestCheck
```
+  Untuk detail API, lihat [ResetNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Reset-EC2SnapshotAttribute`
<a name="ec2_ResetSnapshotAttribute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-EC2SnapshotAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengatur ulang atribut tertentu dari snapshot yang ditentukan.**  

```
Reset-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission
```
+  Untuk detail API, lihat [ResetSnapshotAttribute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Restart-EC2Instance`
<a name="ec2_RebootInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Restart-EC2Instance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini me-reboot instance yang ditentukan.**  

```
Restart-EC2Instance -InstanceId i-12345678
```
+  Untuk detail API, lihat [RebootInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Revoke-EC2SecurityGroupEgress`
<a name="ec2_RevokeSecurityGroupEgress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Revoke-EC2SecurityGroupEgress`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus aturan untuk grup keamanan yang ditentukan untuk EC2-VPC. Ini mencabut akses ke rentang alamat IP yang ditentukan pada port TCP 80. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip = @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; IpRanges="203.0.113.0/24" }
Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip = New-Object Amazon.EC2.Model.IpPermission
$ip.IpProtocol = "tcp"
$ip.FromPort = 80
$ip.ToPort = 80
$ip.IpRanges.Add("203.0.113.0/24")
Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 3: Contoh ini mencabut akses ke grup keamanan sumber yang ditentukan pada port TCP 80.**  

```
$ug = New-Object Amazon.EC2.Model.UserIdGroupPair
$ug.GroupId = "sg-1a2b3c4d"
$ug.UserId = "123456789012"
Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; UserIdGroupPairs=$ug } )
```
+  Untuk detail API, lihat [RevokeSecurityGroupEgress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Revoke-EC2SecurityGroupIngress`
<a name="ec2_RevokeSecurityGroupIngress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Revoke-EC2SecurityGroupIngress`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencabut akses ke port TCP 22 dari rentang alamat yang ditentukan untuk grup keamanan yang ditentukan untuk EC2-VPC. Perhatikan bahwa Anda harus mengidentifikasi grup keamanan untuk EC2-VPC menggunakan ID grup keamanan bukan nama grup keamanan. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.0/24" }
Revoke-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip = New-Object Amazon.EC2.Model.IpPermission
$ip.IpProtocol = "tcp"
$ip.FromPort = 22
$ip.ToPort = 22
$ip.IpRanges.Add("203.0.113.0/24")

Revoke-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 3: Contoh ini mencabut akses ke port TCP 22 dari rentang alamat yang ditentukan untuk grup keamanan yang ditentukan untuk EC2-Classic. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.0/24" }

Revoke-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission $ip
```
**Contoh 4: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip = New-Object Amazon.EC2.Model.IpPermission
$ip.IpProtocol = "tcp"
$ip.FromPort = 22
$ip.ToPort = 22
$ip.IpRanges.Add("203.0.113.0/24")

Revoke-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission $ip
```
+  Untuk detail API, lihat [RevokeSecurityGroupIngress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Send-EC2InstanceStatus`
<a name="ec2_ReportInstanceStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-EC2InstanceStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melaporkan umpan balik status untuk contoh yang ditentukan.**  

```
Send-EC2InstanceStatus -Instance i-12345678 -Status impaired -ReasonCode unresponsive
```
+  Untuk detail API, lihat [ReportInstanceStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-EC2NetworkAclAssociation`
<a name="ec2_ReplaceNetworkAclAssociation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-EC2NetworkAclAssociation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan ACL jaringan tertentu dengan subnet untuk asosiasi ACL jaringan tertentu.**  

```
Set-EC2NetworkAclAssociation -NetworkAclId acl-12345678 -AssociationId aclassoc-1a2b3c4d
```
**Output:**  

```
aclassoc-87654321
```
+  Untuk detail API, lihat [ReplaceNetworkAclAssociation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-EC2NetworkAclEntry`
<a name="ec2_ReplaceNetworkAclEntry_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-EC2NetworkAclEntry`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menggantikan entri yang ditentukan untuk ACL jaringan tertentu. Aturan baru memungkinkan lalu lintas masuk dari alamat yang ditentukan ke subnet terkait.**  

```
Set-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 -Protocol 17 -PortRange_From 53 -PortRange_To 53 -CidrBlock 203.0.113.12/24 -RuleAction allow
```
+  Untuk detail API, lihat [ReplaceNetworkAclEntry](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-EC2Route`
<a name="ec2_ReplaceRoute_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-EC2Route`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menggantikan rute yang ditentukan untuk tabel rute yang ditentukan. Rute baru mengirimkan lalu lintas yang ditentukan ke gateway pribadi virtual yang ditentukan.**  

```
Set-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 10.0.0.0/24 -GatewayId vgw-1a2b3c4d
```
+  Untuk detail API, lihat [ReplaceRoute](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-EC2RouteTableAssociation`
<a name="ec2_ReplaceRouteTableAssociation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-EC2RouteTableAssociation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan tabel rute yang ditentukan dengan subnet untuk asosiasi tabel rute yang ditentukan.**  

```
Set-EC2RouteTableAssociation -RouteTableId rtb-1a2b3c4d -AssociationId rtbassoc-12345678
```
**Output:**  

```
rtbassoc-87654321
```
+  Untuk detail API, lihat [ReplaceRouteTableAssociation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-EC2Instance`
<a name="ec2_StartInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-EC2Instance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memulai instance yang ditentukan.**  

```
Start-EC2Instance -InstanceId i-12345678
```
**Output:**  

```
CurrentState                      InstanceId    PreviousState
------------                      ----------    -------------
Amazon.EC2.Model.InstanceState    i-12345678    Amazon.EC2.Model.InstanceState
```
**Contoh 2: Contoh ini memulai instance yang ditentukan.**  

```
@("i-12345678", "i-76543210") | Start-EC2Instance
```
**Contoh 3: Contoh ini memulai kumpulan instance yang saat ini dihentikan. Objek Instance yang dikembalikan oleh Get-EC2Instance disalurkan keStart-EC2Instance. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
(Get-EC2Instance -Filter @{ Name="instance-state-name"; Values="stopped"}).Instances | Start-EC2Instance
```
**Contoh 4: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat filter untuk parameter Filter.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "instance-state-name"
$filter.Values = "stopped"

(Get-EC2Instance -Filter $filter).Instances | Start-EC2Instance
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-EC2InstanceMonitoring`
<a name="ec2_MonitorInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-EC2InstanceMonitoring`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan pemantauan terperinci untuk contoh yang ditentukan.**  

```
Start-EC2InstanceMonitoring -InstanceId i-12345678
```
**Output:**  

```
InstanceId    Monitoring
----------    ----------
i-12345678    Amazon.EC2.Model.Monitoring
```
+  Untuk detail API, lihat [MonitorInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-EC2ImportTask`
<a name="ec2_CancelImportTask_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2ImportTask`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan tugas impor yang ditentukan (baik snapshot atau impor gambar). Jika diperlukan, alasan dapat menyediakan menggunakan `-CancelReason` parameter.**  

```
Stop-EC2ImportTask -ImportTaskId import-ami-abcdefgh
```
+  Untuk detail API, lihat [CancelImportTask](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-EC2Instance`
<a name="ec2_StopInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2Instance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghentikan instance yang ditentukan.**  

```
Stop-EC2Instance -InstanceId i-12345678
```
**Output:**  

```
CurrentState                      InstanceId    PreviousState
------------                      ----------    -------------
Amazon.EC2.Model.InstanceState    i-12345678    Amazon.EC2.Model.InstanceState
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-EC2InstanceMonitoring`
<a name="ec2_UnmonitorInstances_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2InstanceMonitoring`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menonaktifkan pemantauan terperinci untuk contoh yang ditentukan.**  

```
Stop-EC2InstanceMonitoring -InstanceId i-12345678
```
**Output:**  

```
InstanceId    Monitoring
----------    ----------
i-12345678    Amazon.EC2.Model.Monitoring
```
+  Untuk detail API, lihat [UnmonitorInstances](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-EC2SpotFleetRequest`
<a name="ec2_CancelSpotFleetRequests_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2SpotFleetRequest`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan permintaan armada Spot yang ditentukan dan mengakhiri instance Spot terkait.**  

```
Stop-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TerminateInstance $true
```
**Contoh 2: Contoh ini membatalkan permintaan armada Spot yang ditentukan tanpa menghentikan instans Spot terkait.**  

```
Stop-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TerminateInstance $false
```
+  Untuk detail API, lihat [CancelSpotFleetRequests](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-EC2SpotInstanceRequest`
<a name="ec2_CancelSpotInstanceRequests_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2SpotInstanceRequest`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan permintaan instance Spot yang ditentukan.**  

```
Stop-EC2SpotInstanceRequest -SpotInstanceRequestId sir-12345678
```
**Output:**  

```
SpotInstanceRequestId    State
---------------------    -----
sir-12345678             cancelled
```
+  Untuk detail API, lihat [CancelSpotInstanceRequests](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-EC2Address`
<a name="ec2_DisassociateAddress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-EC2Address`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memisahkan alamat IP Elastis yang ditentukan dari instance yang ditentukan dalam VPC.**  

```
Unregister-EC2Address -AssociationId eipassoc-12345678
```
**Contoh 2: Contoh ini memisahkan alamat IP Elastis yang ditentukan dari instance yang ditentukan di EC2-Classic.**  

```
Unregister-EC2Address -PublicIp 203.0.113.17
```
+  Untuk detail API, lihat [DisassociateAddress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-EC2Image`
<a name="ec2_DeregisterImage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-EC2Image`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan pendaftaran AMI yang ditentukan.**  

```
Unregister-EC2Image -ImageId ami-12345678
```
+  Untuk detail API, lihat [DeregisterImage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-EC2PrivateIpAddress`
<a name="ec2_UnassignPrivateIpAddresses_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-EC2PrivateIpAddress`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan penetapan alamat IP pribadi yang ditentukan dari antarmuka jaringan yang ditentukan.**  

```
Unregister-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -PrivateIpAddress 10.0.0.82
```
+  Untuk detail API, lihat [UnassignPrivateIpAddresses](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-EC2RouteTable`
<a name="ec2_DisassociateRouteTable_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-EC2RouteTable`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus asosiasi tertentu antara tabel rute dan subnet.**  

```
Unregister-EC2RouteTable -AssociationId rtbassoc-1a2b3c4d
```
+  Untuk detail API, lihat [DisassociateRouteTable](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-EC2SecurityGroupRuleIngressDescription`
<a name="ec2_UpdateSecurityGroupRuleDescriptionsIngress_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-EC2SecurityGroupRuleIngressDescription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui deskripsi aturan grup keamanan ingress (inbound) yang ada.**  

```
$existingInboundRule = Get-EC2SecurityGroupRule -SecurityGroupRuleId "sgr-1234567890"
$ruleWithUpdatedDescription = [Amazon.EC2.Model.SecurityGroupRuleDescription]@{
  "SecurityGroupRuleId" = $existingInboundRule.SecurityGroupRuleId
  "Description" = "Updated rule description"
}

Update-EC2SecurityGroupRuleIngressDescription -GroupId $existingInboundRule.GroupId -SecurityGroupRuleDescription $ruleWithUpdatedDescription
```
**Contoh 2: Menghapus deskripsi aturan grup keamanan ingress (inbound) yang ada (dengan menghilangkan parameter dalam permintaan).**  

```
$existingInboundRule = Get-EC2SecurityGroupRule -SecurityGroupRuleId "sgr-1234567890"
$ruleWithoutDescription = [Amazon.EC2.Model.SecurityGroupRuleDescription]@{
  "SecurityGroupRuleId" = $existingInboundRule.SecurityGroupRuleId
}

Update-EC2SecurityGroupRuleIngressDescription -GroupId $existingInboundRule.GroupId -SecurityGroupRuleDescription $ruleWithoutDescription
```
+  Untuk detail API, lihat [UpdateSecurityGroupRuleDescriptionsIngress](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon ECR menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_ecr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon ECR.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-ECRLoginCommand`
<a name="ecr_Get-ECRLoginCommand_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECRLoginCommand`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan informasi login yang PSObject berisi yang dapat digunakan untuk mengautentikasi ke registri Amazon ECR mana pun yang dapat diakses oleh kepala sekolah IAM Anda. Kredensi dan titik akhir wilayah yang diperlukan untuk panggilan untuk mendapatkan token otorisasi diperoleh dari default shell (diatur oleh atau cmdlet). `Set-AWSCredential/Set-DefaultAWSRegion` `Initialize-AWSDefaultConfiguration` Anda dapat menggunakan properti Command dengan Invoke-Expression untuk masuk ke registri yang ditentukan atau menggunakan kredensi yang dikembalikan di alat lain yang memerlukan login.**  

```
Get-ECRLoginCommand
```
**Output:**  

```
Username      : AWS
Password      : eyJwYXlsb2Fk...kRBVEFfS0VZIn0=
ProxyEndpoint : https://123456789012.dkr.ecr.us-west-2.amazonaws.com
Endpoint      : https://123456789012.dkr.ecr.us-west-2.amazonaws.com
ExpiresAt     : 9/26/2017 6:08:23 AM
Command       : docker login --username AWS --password eyJwYXlsb2Fk...kRBVEFfS0VZIn0= https://123456789012.dkr.ecr.us-west-2.amazonaws.com
```
**Contoh 2: Mengambil informasi login yang PSObject berisi yang Anda gunakan sebagai input ke perintah docker login. Anda dapat menentukan URI registri Amazon ECR apa pun untuk diautentikasi selama prinsipal IAM Anda memiliki akses ke registri tersebut.**  

```
(Get-ECRLoginCommand).Password | docker login --username AWS --password-stdin 012345678910.dkr.ecr.us-east-1.amazonaws.com
```
+  Untuk detail API, lihat [Dapatkan- ECRLogin Perintah](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon ECS menggunakan Alat untuk PowerShell V4
<a name="powershell_4_ecs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon ECS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-ECSClusterDetail`
<a name="ecs_DescribeClusters_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECSClusterDetail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menjelaskan satu atau lebih cluster ECS Anda.**  

```
Get-ECSClusterDetail -Cluster "LAB-ECS-CL" -Include SETTINGS | Select-Object *
```
**Output:**  

```
LoggedAt         : 12/27/2019 9:27:41 PM
Clusters         : {LAB-ECS-CL}
Failures         : {}
ResponseMetadata : Amazon.Runtime.ResponseMetadata
ContentLength    : 396
HttpStatusCode   : OK
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ECSClusterList`
<a name="ecs_ListClusters_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECSClusterList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mengembalikan daftar cluster ECS yang ada.**  

```
Get-ECSClusterList
```
**Output:**  

```
arn:aws:ecs:us-west-2:012345678912:cluster/LAB-ECS-CL
arn:aws:ecs:us-west-2:012345678912:cluster/LAB-ECS
```
+  Untuk detail API, lihat [ListClusters](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ECSClusterService`
<a name="ecs_ListServices_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECSClusterService`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua layanan yang berjalan di klaster default Anda.**  

```
Get-ECSClusterService
```
**Contoh 2: Contoh ini mencantumkan semua layanan yang berjalan di cluster tertentu.**  

```
Get-ECSClusterService -Cluster myCluster
```
+  Untuk detail API, lihat [ListServices](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ECSService`
<a name="ecs_DescribeServices_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECSService`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara mengambil detail layanan tertentu dari klaster default Anda.**  

```
Get-ECSService -Service my-hhtp-service
```
**Contoh 2: Contoh ini menunjukkan cara mengambil rincian layanan tertentu yang berjalan di cluster bernama.**  

```
Get-ECSService -Cluster myCluster -Service my-hhtp-service
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ECSCluster`
<a name="ecs_CreateCluster_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ECSCluster`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini membuat cluster Amazon ECS baru.**  

```
New-ECSCluster -ClusterName "LAB-ECS-CL" -Setting @{Name="containerInsights"; Value="enabled"}
```
**Output:**  

```
ActiveServicesCount               : 0
Attachments                       : {}
AttachmentsStatus                 :
CapacityProviders                 : {}
ClusterArn                        : arn:aws:ecs:us-west-2:012345678912:cluster/LAB-ECS-CL
ClusterName                       : LAB-ECS-CL
DefaultCapacityProviderStrategy   : {}
PendingTasksCount                 : 0
RegisteredContainerInstancesCount : 0
RunningTasksCount                 : 0
Settings                          : {containerInsights}
Statistics                        : {}
Status                            : ACTIVE
Tags                              : {}
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ECSService`
<a name="ecs_CreateService_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ECSService`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah contoh ini membuat layanan di cluster default Anda yang disebut `ecs-simple-service`. Layanan ini menggunakan definisi tugas `ecs-demo` dan mempertahankan 10 instantiasi tugas itu.**  

```
New-ECSService -ServiceName ecs-simple-service -TaskDefinition ecs-demo -DesiredCount 10
```
**Contoh 2: Perintah contoh ini membuat layanan di belakang penyeimbang beban di cluster default Anda yang disebut `ecs-simple-service`. Layanan ini menggunakan definisi tugas `ecs-demo` dan mempertahankan 10 instantiasi tugas itu.**  

```
$lb = @{
    LoadBalancerName = "EC2Contai-EcsElast-S06278JGSJCM"
    ContainerName = "simple-demo"
    ContainerPort = 80
}        
New-ECSService -ServiceName ecs-simple-service -TaskDefinition ecs-demo -DesiredCount 10 -LoadBalancer $lb
```
+  Untuk detail API, lihat [CreateService](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ECSCluster`
<a name="ecs_DeleteCluster_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ECSCluster`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menghapus cluster ECS yang ditentukan. Anda harus membatalkan pendaftaran semua instance kontainer dari cluster ini sebelum Anda dapat menghapusnya.**  

```
Remove-ECSCluster -Cluster "LAB-ECS"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ECSCluster (DeleteCluster)" on target "LAB-ECS".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ECSService`
<a name="ecs_DeleteService_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ECSService`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus layanan bernama 'my-http-service' di cluster default. Layanan harus memiliki hitungan yang diinginkan dan menjalankan hitungan 0 sebelum Anda dapat menghapusnya. Anda diminta untuk konfirmasi sebelum perintah dilanjutkan. Untuk melewati prompt konfirmasi tambahkan sakelar -Force.**  

```
Remove-ECSService -Service my-http-service
```
**Contoh 2: Menghapus layanan bernama 'my-http-service' di cluster bernama.**  

```
Remove-ECSService -Cluster myCluster -Service my-http-service
```
+  Untuk detail API, lihat [DeleteService](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-ECSClusterSetting`
<a name="ecs_UpdateClusterSettings_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-ECSClusterSetting`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini memodifikasi pengaturan yang akan digunakan untuk cluster ECS.**  

```
Update-ECSClusterSetting -Cluster "LAB-ECS-CL" -Setting @{Name="containerInsights"; Value="disabled"}
```
**Output:**  

```
ActiveServicesCount               : 0
Attachments                       : {}
AttachmentsStatus                 :
CapacityProviders                 : {}
ClusterArn                        : arn:aws:ecs:us-west-2:012345678912:cluster/LAB-ECS-CL
ClusterName                       : LAB-ECS-CL
DefaultCapacityProviderStrategy   : {}
PendingTasksCount                 : 0
RegisteredContainerInstancesCount : 0
RunningTasksCount                 : 0
Settings                          : {containerInsights}
Statistics                        : {}
Status                            : ACTIVE
Tags                              : {}
```
+  Untuk detail API, lihat [UpdateClusterSettings](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-ECSService`
<a name="ecs_UpdateService_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-ECSService`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah contoh ini memperbarui layanan my-http-service `untuk menggunakan definisi tugasamazon-ecs-sample` `.**  

```
Update-ECSService -Service my-http-service -TaskDefinition amazon-ecs-sample
```
**Contoh 2: Perintah contoh ini memperbarui jumlah yang diinginkan dari layanan my-http-service `` ke 10.**  

```
Update-ECSService -Service my-http-service -DesiredCount 10
```
+  Untuk detail API, lihat [UpdateService](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Amazon EFS contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_efs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon EFS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Edit-EFSMountTargetSecurityGroup`
<a name="efs_ModifyMountTargetSecurityGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EFSMountTargetSecurityGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui grup keamanan yang berlaku untuk target pemasangan yang ditentukan. Hingga 5 dapat ditentukan, dalam format “sg-xxxxxxxx”.**  

```
Edit-EFSMountTargetSecurityGroup -MountTargetId fsmt-1a2b3c4d -SecurityGroup sg-group1,sg-group3
```
+  Untuk detail API, lihat [ModifyMountTargetSecurityGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EFSFileSystem`
<a name="efs_DescribeFileSystems_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EFSFileSystem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan koleksi semua sistem file yang dimiliki oleh akun penelepon di wilayah tersebut.**  

```
Get-EFSFileSystem
```
**Output:**  

```
CreationTime         : 5/26/2015 4:02:38 PM
CreationToken        : 1a2bff54-85e0-4747-bd95-7bc172c4f555
FileSystemId         : fs-1a2b3c4d
LifeCycleState       : available
Name                 :
NumberOfMountTargets : 0
OwnerId              : 123456789012
SizeInBytes          : Amazon.ElasticFileSystem.Model.FileSystemSize

CreationTime         : 5/26/2015 4:06:23 PM
CreationToken        : 2b4daa14-85e0-4747-bd95-7bc172c4f555
FileSystemId         : fs-4d3c2b1a
...
```
**Contoh 2: Mengembalikan rincian sistem file yang ditentukan.**  

```
Get-EFSFileSystem -FileSystemId fs-1a2b3c4d
```
**Contoh 3: Mengembalikan rincian sistem file menggunakan token penciptaan idempotensi yang ditentukan pada saat sistem file dibuat.**  

```
Get-EFSFileSystem -CreationToken 1a2bff54-85e0-4747-bd95-7bc172c4f555
```
+  Untuk detail API, lihat [DescribeFileSystems](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EFSMountTarget`
<a name="efs_DescribeMountTargets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EFSMountTarget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan koleksi target mount yang terkait dengan sistem file yang ditentukan.**  

```
Get-EFSMountTarget -FileSystemId fs-1a2b3c4d
```
**Output:**  

```
FileSystemId       : fs-1a2b3c4d
IpAddress          : 10.0.0.131
LifeCycleState     : available
MountTargetId      : fsmt-1a2b3c4d
NetworkInterfaceId : eni-1a2b3c4d
OwnerId            : 123456789012
SubnetId           : subnet-1a2b3c4d
```
+  Untuk detail API, lihat [DescribeMountTargets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EFSMountTargetSecurityGroup`
<a name="efs_DescribeMountTargetSecurityGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EFSMountTargetSecurityGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan id grup keamanan yang saat ini ditetapkan ke antarmuka jaringan yang terkait dengan target pemasangan.**  

```
Get-EFSMountTargetSecurityGroup -MountTargetId fsmt-1a2b3c4d
```
**Output:**  

```
sg-1a2b3c4d
```
+  Untuk detail API, lihat [DescribeMountTargetSecurityGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EFSTag`
<a name="efs_DescribeTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EFSTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan koleksi tag yang saat ini terkait dengan sistem file yang ditentukan.**  

```
Get-EFSTag -FileSystemId fs-1a2b3c4d
```
**Output:**  

```
Key         Value
---         -----
Name        My File System
tagkey1     tagvalue1
tagkey2     tagvalue2
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EFSFileSystem`
<a name="efs_CreateFileSystem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EFSFileSystem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat sistem file baru yang kosong. Token yang digunakan untuk memastikan pembuatan idempoten akan dihasilkan secara otomatis dan dapat diakses dari `CreationToken` anggota objek yang dikembalikan.**  

```
New-EFSFileSystem
```
**Output:**  

```
CreationTime         : 5/26/2015 4:02:38 PM
CreationToken        : 1a2bff54-85e0-4747-bd95-7bc172c4f555
FileSystemId         : fs-1a2b3c4d
LifeCycleState       : creating
Name                 :
NumberOfMountTargets : 0
OwnerId              : 123456789012
SizeInBytes          : Amazon.ElasticFileSystem.Model.FileSystemSize
```
**Contoh 2: Membuat sistem file baru yang kosong menggunakan token khusus untuk memastikan pembuatan idempoten.**  

```
New-EFSFileSystem -CreationToken "MyUniqueToken"
```
+  Untuk detail API, lihat [CreateFileSystem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EFSMountTarget`
<a name="efs_CreateMountTarget_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EFSMountTarget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat target mount baru untuk sistem file. Subnet yang ditentukan akan digunakan untuk menentukan Virtual Private Cloud (VPC) tempat target mount akan dibuat dan alamat IP yang akan ditetapkan secara otomatis (dari kisaran alamat subnet). Alamat IP yang ditetapkan dapat digunakan untuk kemudian me-mount sistem file ini pada instans Amazon EC2. Karena tidak ada grup keamanan yang ditentukan, antarmuka jaringan yang dibuat untuk target dikaitkan dengan grup keamanan default untuk VPC subnet.**  

```
New-EFSMountTarget -FileSystemId fs-1a2b3c4d -SubnetId subnet-1a2b3c4d
```
**Output:**  

```
FileSystemId       : fs-1a2b3c4d
IpAddress          : 10.0.0.131
LifeCycleState     : creating
MountTargetId      : fsmt-1a2b3c4d
NetworkInterfaceId : eni-1a2b3c4d
OwnerId            : 123456789012
SubnetId           : subnet-1a2b3c4d
```
**Contoh 2: Membuat target mount baru untuk sistem file yang ditentukan dengan alamat IP yang ditetapkan secara otomatis. Antarmuka jaringan yang dibuat untuk target mount dikaitkan dengan grup keamanan yang ditentukan (hingga 5, dalam format “sg-xxxxxxxx”, dapat ditentukan).**  

```
New-EFSMountTarget -FileSystemId fs-1a2b3c4d -SubnetId subnet-1a2b3c4d -SecurityGroup sg-group1,sg-group2,sg-group3
```
**Contoh 3: Membuat target mount baru untuk sistem file yang ditentukan dengan alamat IP yang ditentukan.**  

```
New-EFSMountTarget -FileSystemId fs-1a2b3c4d -SubnetId subnet-1a2b3c4d -IpAddress 10.0.0.131
```
+  Untuk detail API, lihat [CreateMountTarget](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EFSTag`
<a name="efs_CreateTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EFSTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menerapkan koleksi tag ke sistem file yang ditentukan. Jika tag dengan kunci yang ditentukan sudah ada pada sistem file, nilai tag diperbarui.**  

```
New-EFSTag -FileSystemId fs-1a2b3c4d -Tag @{Key="tagkey1";Value="tagvalue1"},@{Key="tagkey2";Value="tagvalue2"}
```
**Contoh 2: Menetapkan tag nama untuk sistem file yang ditentukan. Nilai ini dikembalikan bersama dengan rincian sistem file lainnya ketika Get-EFSFileSystem cmdlet digunakan.**  

```
New-EFSTag -FileSystemId fs-1a2b3c4d -Tag @{Key="Name";Value="My File System"}
```
+  Untuk detail API, lihat [CreateTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EFSFileSystem`
<a name="efs_DeleteFileSystem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EFSFileSystem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus sistem file tertentu yang tidak lagi digunakan (jika sistem file memiliki target mount, mereka harus dihapus terlebih dahulu). Anda diminta untuk konfirmasi sebelum cmdlet berlangsung - untuk menekan konfirmasi, gunakan sakelar. `-Force`**  

```
Remove-EFSFileSystem -FileSystemId fs-1a2b3c4d
```
+  Untuk detail API, lihat [DeleteFileSystem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EFSMountTarget`
<a name="efs_DeleteMountTarget_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EFSMountTarget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus target mount yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung. Untuk menekan prompt gunakan `-Force` sakelar. Perhatikan bahwa operasi ini secara paksa merusak setiap mount sistem file melalui target - Anda mungkin ingin mempertimbangkan untuk melepas sistem file sebelum menjalankan perintah ini, jika memungkinkan.**  

```
Remove-EFSMountTarget -MountTargetId fsmt-1a2b3c4d
```
+  Untuk detail API, lihat [DeleteMountTarget](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EFSTag`
<a name="efs_DeleteTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EFSTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus koleksi satu atau lebih tag dari sistem file. Anda diminta untuk konfirmasi sebelum cmdlet berlangsung - untuk menekan konfirmasi, gunakan sakelar. `-Force`**  

```
Remove-EFSTag -FileSystemId fs-1a2b3c4d -TagKey "tagkey1","tagkey2"
```
+  Untuk detail API, lihat [DeleteTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon EKS menggunakan Alat untuk PowerShell V4
<a name="powershell_4_eks_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon EKS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-EKSResourceTag`
<a name="eks_TagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EKSResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mengaitkan tag yang ditentukan ke sumber daya dengan ResourcEarn yang ditentukan.**  

```
Add-EKSResourceTag -ResourceArn "arn:aws:eks:us-west-2:012345678912:cluster/PROD" -Tag @{Name = "EKSPRODCLUSTER"}
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSCluster`
<a name="eks_DescribeCluster_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSCluster`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menampilkan informasi deskriptif tentang kluster Amazon EKS.**  

```
Get-EKSCluster -Name "PROD"
```
**Output:**  

```
Arn                  : arn:aws:eks:us-west-2:012345678912:cluster/PROD
CertificateAuthority : Amazon.EKS.Model.Certificate
ClientRequestToken   :
CreatedAt            : 12/25/2019 6:46:17 AM
Endpoint             : https://669608765450FBBE54D1D78A3D71B72C.gr8.us-west-2.eks.amazonaws.com
Identity             : Amazon.EKS.Model.Identity
Logging              : Amazon.EKS.Model.Logging
Name                 : PROD
PlatformVersion      : eks.7
ResourcesVpcConfig   : Amazon.EKS.Model.VpcConfigResponse
RoleArn              : arn:aws:iam::012345678912:role/eks-iam-role
Status               : ACTIVE
Tags                 : {}
Version              : 1.14
```
+  Untuk detail API, lihat [DescribeCluster](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSClusterList`
<a name="eks_ListClusters_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSClusterList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mencantumkan kluster Amazon EKS di Region yang Akun AWS ditentukan.**  

```
Get-EKSClusterList
```
**Output:**  

```
 PROD
```
+  Untuk detail API, lihat [ListClusters](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSFargateProfile`
<a name="eks_DescribeFargateProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSFargateProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mengembalikan informasi deskriptif tentang profil AWS Fargate.**  

```
Get-EKSFargateProfile -FargateProfileName "EKSFargate" -ClusterName "TEST"
```
**Output:**  

```
ClusterName         : TEST
CreatedAt           : 12/26/2019 12:34:47 PM
FargateProfileArn   : arn:aws:eks:us-east-2:012345678912:fargateprofile/TEST/EKSFargate/42b7a119-e16b-a279-ce97-bdf303adec92
FargateProfileName  : EKSFargate
PodExecutionRoleArn : arn:aws:iam::012345678912:role/AmazonEKSFargatePodExecutionRole
Selectors           : {Amazon.EKS.Model.FargateProfileSelector}
Status              : ACTIVE
Subnets             : {subnet-0cd976f08d5fbfaae, subnet-02f6ff500ff2067a0}
Tags                : {}
```
+  Untuk detail API, lihat [DescribeFargateProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSFargateProfileList`
<a name="eks_ListFargateProfiles_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSFargateProfileList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mencantumkan profil AWS Fargate yang terkait dengan cluster tertentu di Region yang ditentukan. Akun AWS **  

```
Get-EKSFargateProfileList -ClusterName "TEST"
```
**Output:**  

```
EKSFargate
EKSFargateProfile
```
+  Untuk detail API, lihat [ListFargateProfiles](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSNodegroup`
<a name="eks_DescribeNodegroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSNodegroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mengembalikan informasi deskriptif tentang grup node Amazon EKS.**  

```
Get-EKSNodegroup -NodegroupName "ProdEKSNodeGroup" -ClusterName "PROD"
```
**Output:**  

```
AmiType        : AL2_x86_64
ClusterName    : PROD
CreatedAt      : 12/25/2019 10:16:45 AM
DiskSize       : 40
Health         : Amazon.EKS.Model.NodegroupHealth
InstanceTypes  : {t3.large}
Labels         : {}
ModifiedAt     : 12/25/2019 10:16:45 AM
NodegroupArn   : arn:aws:eks:us-west-2:012345678912:nodegroup/PROD/ProdEKSNodeGroup/7eb79e47-82b6-04d9-e984-95110db6fa85
NodegroupName  : ProdEKSNodeGroup
NodeRole       : arn:aws:iam::012345678912:role/NodeInstanceRole
ReleaseVersion : 1.14.7-20190927
RemoteAccess   :
Resources      :
ScalingConfig  : Amazon.EKS.Model.NodegroupScalingConfig
Status         : CREATING
Subnets        : {subnet-0d1a9fff35efa7691, subnet-0a3f4928edbc224d4}
Tags           : {}
Version        : 1.14
```
+  Untuk detail API, lihat [DescribeNodegroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSNodegroupList`
<a name="eks_ListNodegroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSNodegroupList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mencantumkan grup node Amazon EKS yang terkait dengan cluster yang ditentukan di Region yang ditentukan. Akun AWS **  

```
Get-EKSNodegroupList -ClusterName PROD
```
**Output:**  

```
 ProdEKSNodeGroup
```
+  Untuk detail API, lihat [ListNodegroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSResourceTag`
<a name="eks_ListTagsForResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mencantumkan tag untuk sumber daya Amazon EKS.**  

```
Get-EKSResourceTag -ResourceArn "arn:aws:eks:us-west-2:012345678912:cluster/PROD"
```
**Output:**  

```
Key  Value
---  -----
Name EKSPRODCLUSTER
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSUpdate`
<a name="eks_DescribeUpdate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSUpdate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menampilkan informasi deskriptif tentang pembaruan terhadap klaster Amazon EKS atau grup node terkelola terkait.**  

```
Get-EKSUpdate -Name "PROD" -UpdateId "ee708232-7d2e-4ed7-9270-d0b5176f0726"
```
**Output:**  

```
CreatedAt : 12/25/2019 5:03:07 PM
Errors    : {}
Id        : ee708232-7d2e-4ed7-9270-d0b5176f0726
Params    : {Amazon.EKS.Model.UpdateParam}
Status    : Successful
Type      : LoggingUpdate
```
+  Untuk detail API, lihat [DescribeUpdate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-EKSUpdateList`
<a name="eks_ListUpdates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSUpdateList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini mencantumkan pembaruan yang terkait dengan kluster Amazon EKS atau grup node terkelola di Akun AWS Wilayah yang ditentukan.**  

```
Get-EKSUpdateList -Name "PROD"
```
**Output:**  

```
ee708232-7d2e-4ed7-9270-d0b5176f0726
```
+  Untuk detail API, lihat [ListUpdates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EKSCluster`
<a name="eks_CreateCluster_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EKSCluster`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat cluster baru yang disebut 'prod'.**  

```
New-EKSCluster -Name prod -ResourcesVpcConfig @{SubnetIds=@("subnet-0a1b2c3d","subnet-3a2b1c0d");SecurityGroupIds="sg-6979fe18"} -RoleArn "arn:aws:iam::012345678901:role/eks-service-role"
```
**Output:**  

```
Arn                  : arn:aws:eks:us-west-2:012345678901:cluster/prod
CertificateAuthority : Amazon.EKS.Model.Certificate
ClientRequestToken   :
CreatedAt            : 12/10/2018 9:25:31 PM
Endpoint             :
Name                 : prod
PlatformVersion      : eks.3
ResourcesVpcConfig   : Amazon.EKS.Model.VpcConfigResponse
RoleArn              : arn:aws:iam::012345678901:role/eks-service-role
Status               : CREATING
Version              : 1.10
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EKSFargateProfile`
<a name="eks_CreateFargateProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EKSFargateProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini membuat profil AWS Fargate untuk klaster Amazon EKS Anda. Anda harus memiliki setidaknya satu profil Fargate dalam sebuah cluster untuk dapat menjadwalkan pod pada infrastruktur Fargate.**  

```
New-EKSFargateProfile -FargateProfileName EKSFargateProfile -ClusterName TEST -Subnet "subnet-02f6ff500ff2067a0", "subnet-0cd976f08d5fbfaae" -PodExecutionRoleArn arn:aws:iam::012345678912:role/AmazonEKSFargatePodExecutionRole -Selector @{Namespace="default"}
```
**Output:**  

```
ClusterName         : TEST
CreatedAt           : 12/26/2019 12:38:21 PM
FargateProfileArn   : arn:aws:eks:us-east-2:012345678912:fargateprofile/TEST/EKSFargateProfile/20b7a11b-8292-41c1-bc56-ffa5e60f6224
FargateProfileName  : EKSFargateProfile
PodExecutionRoleArn : arn:aws:iam::012345678912:role/AmazonEKSFargatePodExecutionRole
Selectors           : {Amazon.EKS.Model.FargateProfileSelector}
Status              : CREATING
Subnets             : {subnet-0cd976f08d5fbfaae, subnet-02f6ff500ff2067a0}
Tags                : {}
```
+  Untuk detail API, lihat [CreateFargateProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-EKSNodeGroup`
<a name="eks_CreateNodegroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EKSNodeGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini membuat grup node pekerja terkelola untuk klaster Amazon EKS. Anda hanya dapat membuat grup node untuk klaster Anda yang sama dengan versi Kubernetes terkini untuk klaster tersebut. Semua grup node dibuat dengan versi rilis AMI terbaru untuk masing-masing versi minor Kubernetes dari cluster.**  

```
New-EKSNodeGroup -NodeGroupName "ProdEKSNodeGroup" -AmiType "AL2_x86_64" -DiskSize 40 -ClusterName "PROD" -ScalingConfig_DesiredSize 2 -ScalingConfig_MinSize 2 -ScalingConfig_MaxSize 5 -InstanceType t3.large -NodeRole "arn:aws:iam::012345678912:role/NodeInstanceRole" -Subnet "subnet-0d1a9fff35efa7691","subnet-0a3f4928edbc224d4"
```
**Output:**  

```
AmiType        : AL2_x86_64
ClusterName    : PROD
CreatedAt      : 12/25/2019 10:16:45 AM
DiskSize       : 40
Health         : Amazon.EKS.Model.NodegroupHealth
InstanceTypes  : {t3.large}
Labels         : {}
ModifiedAt     : 12/25/2019 10:16:45 AM
NodegroupArn   : arn:aws:eks:us-west-2:012345678912:nodegroup/PROD/ProdEKSNodeGroup/7eb79e47-82b6-04d9-e984-95110db6fa85
NodegroupName  : ProdEKSNodeGroup
NodeRole       : arn:aws:iam::012345678912:role/NodeInstanceRole
ReleaseVersion : 1.14.7-20190927
RemoteAccess   :
Resources      :
ScalingConfig  : Amazon.EKS.Model.NodegroupScalingConfig
Status         : CREATING
Subnets        : {subnet-0d1a9fff35efa7691, subnet-0a3f4928edbc224d4}
Tags           : {}
Version        : 1.14
```
+  Untuk detail API, lihat [CreateNodegroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EKSCluster`
<a name="eks_DeleteCluster_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EKSCluster`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menghapus bidang kontrol cluster Amazon EKS.**  

```
Remove-EKSCluster -Name "DEV-KUBE-CL"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EKSCluster (DeleteCluster)" on target "DEV-KUBE-CL".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

Arn                  : arn:aws:eks:us-west-2:012345678912:cluster/DEV-KUBE-CL
CertificateAuthority : Amazon.EKS.Model.Certificate
ClientRequestToken   :
CreatedAt            : 12/25/2019 9:33:25 AM
Endpoint             : https://02E6D31E3E4F8C15D7BE7F58D527776A.yl4.us-west-2.eks.amazonaws.com
Identity             : Amazon.EKS.Model.Identity
Logging              : Amazon.EKS.Model.Logging
Name                 : DEV-KUBE-CL
PlatformVersion      : eks.7
ResourcesVpcConfig   : Amazon.EKS.Model.VpcConfigResponse
RoleArn              : arn:aws:iam::012345678912:role/eks-iam-role
Status               : DELETING
Tags                 : {}
Version              : 1.14
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EKSFargateProfile`
<a name="eks_DeleteFargateProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EKSFargateProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menghapus profil AWS Fargate. Saat Anda menghapus profil Fargate, semua pod yang berjalan di Fargate yang dibuat dengan profil akan dihapus.**  

```
Remove-EKSFargateProfile -FargateProfileName "EKSFargate" -ClusterName "TEST"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EKSFargateProfile (DeleteFargateProfile)" on target "EKSFargate".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

ClusterName         : TEST
CreatedAt           : 12/26/2019 12:34:47 PM
FargateProfileArn   : arn:aws:eks:us-east-2:012345678912:fargateprofile/TEST/EKSFargate/42b7a119-e16b-a279-ce97-bdf303adec92
FargateProfileName  : EKSFargate
PodExecutionRoleArn : arn:aws:iam::012345678912:role/AmazonEKSFargatePodExecutionRole
Selectors           : {Amazon.EKS.Model.FargateProfileSelector}
Status              : DELETING
Subnets             : {subnet-0cd976f08d5fbfaae, subnet-02f6ff500ff2067a0}
Tags                : {}
```
+  Untuk detail API, lihat [DeleteFargateProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EKSNodegroup`
<a name="eks_DeleteNodegroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EKSNodegroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menghapus grup node Amazon EKS untuk sebuah cluster.**  

```
Remove-EKSNodegroup -NodegroupName "ProdEKSNodeGroup" -ClusterName "PROD"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EKSNodegroup (DeleteNodegroup)" on target "ProdEKSNodeGroup".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

AmiType        : AL2_x86_64
ClusterName    : PROD
CreatedAt      : 12/25/2019 10:16:45 AM
DiskSize       : 40
Health         : Amazon.EKS.Model.NodegroupHealth
InstanceTypes  : {t3.large}
Labels         : {}
ModifiedAt     : 12/25/2019 11:01:16 AM
NodegroupArn   : arn:aws:eks:us-west-2:012345678912:nodegroup/PROD/ProdEKSNodeGroup/7eb79e47-82b6-04d9-e984-95110db6fa85
NodegroupName  : ProdEKSNodeGroup
NodeRole       : arn:aws:iam::012345678912:role/NodeInstanceRole
ReleaseVersion : 1.14.7-20190927
RemoteAccess   :
Resources      : Amazon.EKS.Model.NodegroupResources
ScalingConfig  : Amazon.EKS.Model.NodegroupScalingConfig
Status         : DELETING
Subnets        : {subnet-0d1a9fff35efa7691, subnet-0a3f4928edbc224d4}
Tags           : {}
Version        : 1.14
```
+  Untuk detail API, lihat [DeleteNodegroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-EKSResourceTag`
<a name="eks_UntagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EKSResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini menghapus tag tertentu dari sumber daya EKS.**  

```
Remove-EKSResourceTag -ResourceArn "arn:aws:eks:us-west-2:012345678912:cluster/PROD" -TagKey "Name"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EKSResourceTag (UntagResource)" on target "arn:aws:eks:us-west-2:012345678912:cluster/PROD".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-EKSClusterConfig`
<a name="eks_UpdateClusterConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-EKSClusterConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui konfigurasi klaster Amazon EKS. Cluster Anda terus berfungsi selama pembaruan.**  

```
Update-EKSClusterConfig -Name "PROD" -Logging_ClusterLogging @{Types="api","audit","authenticator","controllerManager","scheduler",Enabled="True"}
```
**Output:**  

```
CreatedAt : 12/25/2019 5:03:07 PM
Errors    : {}
Id        : ee708232-7d2e-4ed7-9270-d0b5176f0726
Params    : {Amazon.EKS.Model.UpdateParam}
Status    : InProgress
Type      : LoggingUpdate
```
+  Untuk detail API, lihat [UpdateClusterConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-EKSClusterVersion`
<a name="eks_UpdateClusterVersion_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-EKSClusterVersion`.

**Alat untuk PowerShell V4**  
**Contoh 1: Cmdlet ini memperbarui kluster Amazon EKS ke versi Kubernetes yang ditentukan. Cluster Anda terus berfungsi selama pembaruan.**  

```
Update-EKSClusterVersion -Name "PROD-KUBE-CL" -Version 1.14
```
**Output:**  

```
CreatedAt : 12/26/2019 9:50:37 AM
Errors    : {}
Id        : ef186eff-3b3a-4c25-bcfc-3dcdf9e898a8
Params    : {Amazon.EKS.Model.UpdateParam, Amazon.EKS.Model.UpdateParam}
Status    : InProgress
Type      : VersionUpdate
```
+  Untuk detail API, lihat [UpdateClusterVersion](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Elastic Load Balancing - Contoh versi 1 menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_elastic-load-balancing_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Elastic Load Balancing - Versi 1.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-ELBLoadBalancerToSubnet`
<a name="elastic-load-balancing_AttachLoadBalancerToSubnets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ELBLoadBalancerToSubnet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan subnet yang ditentukan ke set subnet yang dikonfigurasi untuk penyeimbang beban yang ditentukan. Outputnya mencakup daftar lengkap subnet.**  

```
Add-ELBLoadBalancerToSubnet -LoadBalancerName my-load-balancer -Subnet subnet-12345678
```
**Output:**  

```
subnet-12345678
subnet-87654321
```
+  Untuk detail API, lihat [AttachLoadBalancerToSubnets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-ELBResourceTag`
<a name="elastic-load-balancing_AddTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ELBResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan tag yang ditentukan ke penyeimbang beban yang ditentukan. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Add-ELBResourceTag -LoadBalancerName my-load-balancer -Tag @{ Key="project";Value="lima" },@{ Key="department";Value="digital-media" }
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.ElasticLoadBalancing.Model.Tag
$tag.Key = "project"
$tag.Value = "lima"
Add-ELBResourceTag -LoadBalancerName my-load-balancer -Tag $tag
```
+  Untuk detail API, lihat [AddTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-ELBAvailabilityZoneForLoadBalancer`
<a name="elastic-load-balancing_DisableAvailabilityZonesForLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-ELBAvailabilityZoneForLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus Availability Zone yang ditentukan dari load balancer yang ditentukan. Outputnya mencakup Availability Zone yang tersisa.**  

```
Disable-ELBAvailabilityZoneForLoadBalancer -LoadBalancerName my-load-balancer -AvailabilityZone us-west-2a
```
**Output:**  

```
us-west-2b
```
+  Untuk detail API, lihat [DisableAvailabilityZonesForLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Dismount-ELBLoadBalancerFromSubnet`
<a name="elastic-load-balancing_DetachLoadBalancerFromSubnets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-ELBLoadBalancerFromSubnet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus subnet yang ditentukan dari kumpulan subnet yang dikonfigurasi untuk penyeimbang beban yang ditentukan. Outputnya termasuk subnet yang tersisa.**  

```
Dismount-ELBLoadBalancerFromSubnet -LoadBalancerName my-load-balancer -Subnet subnet-12345678
```
**Output:**  

```
subnet-87654321
```
+  Untuk detail API, lihat [DetachLoadBalancerFromSubnets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-ELBLoadBalancerAttribute`
<a name="elastic-load-balancing_ModifyLoadBalancerAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELBLoadBalancerAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan penyeimbangan beban lintas zona untuk penyeimbang beban yang ditentukan.**  

```
Edit-ELBLoadBalancerAttribute -LoadBalancerName my-load-balancer -CrossZoneLoadBalancing_Enabled $true
```
**Contoh 2: Contoh ini menonaktifkan pengurasan koneksi untuk penyeimbang beban yang ditentukan.**  

```
Edit-ELBLoadBalancerAttribute -LoadBalancerName my-load-balancer -ConnectionDraining_Enabled $false
```
**Contoh 3: Contoh ini memungkinkan pencatatan akses untuk penyeimbang beban yang ditentukan.**  

```
Edit-ELBLoadBalancerAttribute -LoadBalancerName my-load-balancer `
>> -AccessLog_Enabled $true `
>> -AccessLog_S3BucketName amzn-s3-demo-logging-bucket `
>> -AccessLog_S3BucketPrefix my-app/prod `
>> -AccessLog_EmitInterval 60
```
+  Untuk detail API, lihat [ModifyLoadBalancerAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-ELBAvailabilityZoneForLoadBalancer`
<a name="elastic-load-balancing_EnableAvailabilityZonesForLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-ELBAvailabilityZoneForLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan Availability Zone yang ditentukan ke load balancer yang ditentukan. Outputnya mencakup daftar lengkap Availability Zones.**  

```
Enable-ELBAvailabilityZoneForLoadBalancer -LoadBalancerName my-load-balancer -AvailabilityZone us-west-2a
```
**Output:**  

```
us-west-2a
us-west-2b
```
+  Untuk detail API, lihat [EnableAvailabilityZonesForLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELBInstanceHealth`
<a name="elastic-load-balancing_DescribeInstanceHealth_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBInstanceHealth`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan keadaan instance yang terdaftar dengan penyeimbang beban yang ditentukan.**  

```
Get-ELBInstanceHealth -LoadBalancerName my-load-balancer
```
**Output:**  

```
Description                   InstanceId                    ReasonCode                    State
-----------                   ----------                    ----------                    -----
N/A                           i-87654321                    N/A                           InService
Instance has failed at lea... i-12345678                    Instance                      OutOfService
```
**Contoh 2: Contoh ini menjelaskan keadaan instance tertentu yang terdaftar dengan penyeimbang beban yang ditentukan.**  

```
Get-ELBInstanceHealth -LoadBalancerName my-load-balancer -Instance i-12345678
```
**Contoh 3: Contoh ini menampilkan deskripsi lengkap dari keadaan contoh yang ditentukan.**  

```
(Get-ELBInstanceHealth -LoadBalancerName my-load-balancer -Instance i-12345678).Description
```
**Output:**  

```
Instance has failed at least the UnhealthyThreshold number of health checks consecutively.
```
+  Untuk detail API, lihat [DescribeInstanceHealth](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELBLoadBalancer`
<a name="elastic-load-balancing_DescribeLoadBalancers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan nama penyeimbang beban Anda.**  

```
Get-ELBLoadBalancer | format-table -property LoadBalancerName
```
**Output:**  

```
LoadBalancerName
----------------
my-load-balancer
my-other-load-balancer
my-internal-load-balancer
```
**Contoh 2: Contoh ini menjelaskan penyeimbang beban yang ditentukan.**  

```
Get-ELBLoadBalancer -LoadBalancerName my-load-balancer
```
**Output:**  

```
AvailabilityZones         : {us-west-2a, us-west-2b}
BackendServerDescriptions : {Amazon.ElasticLoadBalancing.Model.BackendServerDescription}
CanonicalHostedZoneName   : my-load-balancer-1234567890.us-west-2.elb.amazonaws.com
CanonicalHostedZoneNameID : Z3DZXE0EXAMPLE
CreatedTime               : 4/11/2015 12:12:45 PM
DNSName                   : my-load-balancer-1234567890.us-west-2.elb.amazonaws.com
HealthCheck               : Amazon.ElasticLoadBalancing.Model.HealthCheck
Instances                 : {i-207d9717, i-afefb49b}
ListenerDescriptions      : {Amazon.ElasticLoadBalancing.Model.ListenerDescription}
LoadBalancerName          : my-load-balancer
Policies                  : Amazon.ElasticLoadBalancing.Model.Policies
Scheme                    : internet-facing
SecurityGroups            : {sg-a61988c3}
SourceSecurityGroup       : Amazon.ElasticLoadBalancing.Model.SourceSecurityGroup
Subnets                   : {subnet-15aaab61}
VPCId                     : vpc-a01106c2
```
**Contoh 3: Contoh ini menjelaskan semua penyeimbang beban Anda di wilayah saat ini AWS .**  

```
Get-ELBLoadBalancer
```
**Contoh 4: Contoh ini menjelaskan semua penyeimbang beban Anda di semua yang tersedia. Wilayah AWS**  

```
Get-AWSRegion | % { Get-ELBLoadBalancer -Region $_ }
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELBLoadBalancerAttribute`
<a name="elastic-load-balancing_DescribeLoadBalancerAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBLoadBalancerAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan atribut untuk penyeimbang beban yang ditentukan.**  

```
Get-ELBLoadBalancerAttribute -LoadBalancerName my-load-balancer
```
**Output:**  

```
AccessLog              : Amazon.ElasticLoadBalancing.Model.AccessLog
AdditionalAttributes   : {}
ConnectionDraining     : Amazon.ElasticLoadBalancing.Model.ConnectionDraining
ConnectionSettings     : Amazon.ElasticLoadBalancing.Model.ConnectionSettings
CrossZoneLoadBalancing : Amazon.ElasticLoadBalancing.Model.CrossZoneLoadBalancing
```
+  Untuk detail API, lihat [DescribeLoadBalancerAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELBLoadBalancerPolicy`
<a name="elastic-load-balancing_DescribeLoadBalancerPolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBLoadBalancerPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan kebijakan yang terkait dengan penyeimbang beban yang ditentukan.**  

```
Get-ELBLoadBalancerPolicy -LoadBalancerName my-load-balancer
```
**Output:**  

```
PolicyAttributeDescriptions             PolicyName                              PolicyTypeName
---------------------------             ----------                              --------------
{ProxyProtocol}                         my-ProxyProtocol-policy                 ProxyProtocolPolicyType
{CookieName}                            my-app-cookie-policy                    AppCookieStickinessPolicyType
```
**Contoh 2: Contoh ini menjelaskan atribut kebijakan yang ditentukan.**  

```
(Get-ELBLoadBalancerPolicy -LoadBalancerName my-load-balancer -PolicyName my-ProxyProtocol-policy).PolicyAttributeDescriptions
```
**Output:**  

```
AttributeName    AttributeValue
-------------    --------------
ProxyProtocol    true
```
**Contoh 3: Contoh ini menjelaskan kebijakan yang telah ditentukan sebelumnya, termasuk kebijakan sampel. Nama-nama kebijakan sampel memiliki awalan ELBSample -.**  

```
Get-ELBLoadBalancerPolicy
```
**Output:**  

```
PolicyAttributeDescriptions             PolicyName                              PolicyTypeName
---------------------------             ----------                              --------------
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2015-05               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2015-03               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2015-02               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2014-10               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2014-01               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2011-08               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSample-ELBDefaultCipherPolicy        SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSample-OpenSSLDefaultCipherPolicy    SSLNegotiationPolicyType
```
+  Untuk detail API, lihat [DescribeLoadBalancerPolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELBLoadBalancerPolicyType`
<a name="elastic-load-balancing_DescribeLoadBalancerPolicyTypes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBLoadBalancerPolicyType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan tipe kebijakan yang didukung oleh Elastic Load Balancing.**  

```
Get-ELBLoadBalancerPolicyType
```
**Output:**  

```
Description                             PolicyAttributeTypeDescriptions         PolicyTypeName
-----------                             -------------------------------         --------------
Stickiness policy with session lifet... {CookieExpirationPeriod}                LBCookieStickinessPolicyType
Policy that controls authentication ... {PublicKeyPolicyName}                   BackendServerAuthenticationPolicyType
Listener policy that defines the cip... {Protocol-SSLv2, Protocol-TLSv1, Pro... SSLNegotiationPolicyType
Policy containing a list of public k... {PublicKey}                             PublicKeyPolicyType
Stickiness policy with session lifet... {CookieName}                            AppCookieStickinessPolicyType
Policy that controls whether to incl... {ProxyProtocol}                         ProxyProtocolPolicyType
```
**Contoh 2: Contoh ini menjelaskan jenis kebijakan yang ditentukan.**  

```
Get-ELBLoadBalancerPolicyType -PolicyTypeName ProxyProtocolPolicyType
```
**Output:**  

```
Description                             PolicyAttributeTypeDescriptions         PolicyTypeName
-----------                             -------------------------------         --------------
Policy that controls whether to incl... {ProxyProtocol}                         ProxyProtocolPolicyType
```
**Contoh 3: Contoh ini menampilkan deskripsi lengkap dari jenis kebijakan yang ditentukan.**  

```
(Get-ELBLoadBalancerPolicyType -PolicyTypeName).Description
```
**Output:**  

```
Policy that controls whether to include the IP address and port of the originating request for TCP messages. 
This policy operates on TCP/SSL listeners only
```
+  Untuk detail API, lihat [DescribeLoadBalancerPolicyTypes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELBResourceTag`
<a name="elastic-load-balancing_DescribeTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan tag untuk penyeimbang beban yang ditentukan.**  

```
Get-ELBResourceTag -LoadBalancerName @("my-load-balancer","my-internal-load-balancer")
```
**Output:**  

```
LoadBalancerName             Tags
----------------             ----
my-load-balancer             {project, department}
my-internal-load-balancer    {project, department}
```
**Contoh 2: Contoh ini menjelaskan tag untuk penyeimbang beban yang ditentukan.**  

```
(Get-ELBResourceTag -LoadBalancerName my-load-balancer).Tags
```
**Output:**  

```
Key           Value
---           -----
project       lima
department    digital-media
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Join-ELBSecurityGroupToLoadBalancer`
<a name="elastic-load-balancing_ApplySecurityGroupsToLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Join-ELBSecurityGroupToLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menggantikan grup keamanan saat ini untuk penyeimbang beban yang ditentukan dengan grup keamanan yang ditentukan.**  

```
Join-ELBSecurityGroupToLoadBalancer -LoadBalancerName my-load-balancer -SecurityGroup sg-87654321
```
**Output:**  

```
sg-87654321
```
**Contoh 2: Untuk menjaga grup keamanan saat ini dan menentukan grup keamanan tambahan, tentukan grup keamanan yang ada dan yang baru.**  

```
Join-ELBSecurityGroupToLoadBalancer -LoadBalancerName my-load-balancer -SecurityGroup @("sg-12345678", "sg-87654321")
```
**Output:**  

```
sg-12345678
sg-87654321
```
+  Untuk detail API, lihat [ApplySecurityGroupsToLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELBAppCookieStickinessPolicy`
<a name="elastic-load-balancing_CreateAppCookieStickinessPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBAppCookieStickinessPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kebijakan lengket yang mengikuti masa pakai sesi lengket dari cookie yang dihasilkan aplikasi tertentu.**  

```
New-ELBAppCookieStickinessPolicy -LoadBalancerName my-load-balancer -PolicyName my-app-cookie-policy -CookieName my-app-cookie
```
+  Untuk detail API, lihat [CreateAppCookieStickinessPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELBLBCookieStickinessPolicy`
<a name="elastic-load-balancing_CreateLbCookieStickinessPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBLBCookieStickinessPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kebijakan lengket dengan masa pakai sesi lengket yang dikendalikan oleh periode kedaluwarsa yang ditentukan (dalam hitungan detik).**  

```
New-ELBLBCookieStickinessPolicy -LoadBalancerName my-load-balancer -PolicyName my-duration-cookie-policy -CookieExpirationPeriod 60
```
**Contoh 2: Contoh ini membuat kebijakan lengket dengan masa pakai sesi lengket yang dikendalikan oleh masa pakai browser (agen pengguna).**  

```
New-ELBLBCookieStickinessPolicy -LoadBalancerName my-load-balancer -PolicyName my-duration-cookie-policy
```
+  Untuk detail API, lihat [CreateLbCookieStickinessPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELBLoadBalancer`
<a name="elastic-load-balancing_CreateLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat penyeimbang beban dengan pendengar HTTP di VPC.**  

```
$httpListener = New-Object Amazon.ElasticLoadBalancing.Model.Listener
$httpListener.Protocol = "http"
$httpListener.LoadBalancerPort = 80
$httpListener.InstanceProtocol = "http"
$httpListener.InstancePort = 80
New-ELBLoadBalancer -LoadBalancerName my-vpc-load-balancer -SecurityGroup sg-a61988c3 -Subnet subnet-15aaab61 -Listener $httpListener

my-vpc-load-balancer-1234567890.us-west-2.elb.amazonaws.com
```
**Contoh 2: Contoh ini membuat penyeimbang beban dengan pendengar HTTP di EC2-Classic.**  

```
New-ELBLoadBalancer -LoadBalancerName my-classic-load-balancer -AvailabilityZone us-west-2a` -Listener $httpListener
```
**Output:**  

```
my-classic-load-balancer-123456789.us-west-2.elb.amazonaws.com
```
**Contoh 3: Contoh ini membuat penyeimbang beban dengan pendengar HTTPS.**  

```
$httpsListener = New-Object Amazon.ElasticLoadBalancing.Model.Listener
$httpsListener.Protocol = "https"
$httpsListener.LoadBalancerPort = 443
$httpsListener.InstanceProtocol = "http"
$httpsListener.InstancePort = 80 
$httpsListener.SSLCertificateId="arn:aws:iam::123456789012:server-certificate/my-server-cert"
New-ELBLoadBalancer -LoadBalancerName my-load-balancer -AvailabilityZone us-west-2a -Listener $httpsListener

my-load-balancer-123456789.us-west-2.elb.amazonaws.com
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELBLoadBalancerListener`
<a name="elastic-load-balancing_CreateLoadBalancerListeners_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBLoadBalancerListener`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan pendengar HTTPS ke penyeimbang beban yang ditentukan.**  

```
$httpsListener = New-Object Amazon.ElasticLoadBalancing.Model.Listener
$httpsListener.Protocol = "https"
$httpsListener.LoadBalancerPort = 443
$httpsListener.InstanceProtocol = "https"
$httpsListener.InstancePort = 443 
$httpsListener.SSLCertificateId="arn:aws:iam::123456789012:server-certificate/my-server-cert"
New-ELBLoadBalancerListener -LoadBalancerName my-load-balancer -Listener $httpsListener
```
+  Untuk detail API, lihat [CreateLoadBalancerListeners](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELBLoadBalancerPolicy`
<a name="elastic-load-balancing_CreateLoadBalancerPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBLoadBalancerPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kebijakan protokol proxy baru untuk penyeimbang beban tertentu.**  

```
$attribute = New-Object Amazon.ElasticLoadBalancing.Model.PolicyAttribute -Property @{
         AttributeName="ProxyProtocol"
         AttributeValue="True"
    }
New-ELBLoadBalancerPolicy -LoadBalancerName my-load-balancer -PolicyName my-ProxyProtocol-policy -PolicyTypeName ProxyProtocolPolicyType -PolicyAttribute $attribute
```
+  Untuk detail API, lihat [CreateLoadBalancerPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-ELBInstanceWithLoadBalancer`
<a name="elastic-load-balancing_RegisterInstancesWithLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-ELBInstanceWithLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan instans EC2 yang ditentukan dengan penyeimbang beban yang ditentukan.**  

```
Register-ELBInstanceWithLoadBalancer -LoadBalancerName my-load-balancer -Instance i-12345678
```
**Output:**  

```
InstanceId
----------
i-12345678
i-87654321
```
+  Untuk detail API, lihat [RegisterInstancesWithLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELBInstanceFromLoadBalancer`
<a name="elastic-load-balancing_DeregisterInstancesFromLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBInstanceFromLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus instans EC2 yang ditentukan dari penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-ELBInstanceFromLoadBalancer -LoadBalancerName my-load-balancer -Instance i-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ELBInstanceFromLoadBalancer (DeregisterInstancesFromLoadBalancer)" on Target
"Amazon.ElasticLoadBalancing.Model.Instance".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):

InstanceId
----------
i-87654321
```
+  Untuk detail API, lihat [DeregisterInstancesFromLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELBLoadBalancer`
<a name="elastic-load-balancing_DeleteLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBLoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-ELBLoadBalancer -LoadBalancerName my-load-balancer
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ELBLoadBalancer (DeleteLoadBalancer)" on Target "my-load-balancer".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELBLoadBalancerListener`
<a name="elastic-load-balancing_DeleteLoadBalancerListeners_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBLoadBalancerListener`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus pendengar pada port 80 untuk penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-ELBLoadBalancerListener -LoadBalancerName my-load-balancer -LoadBalancerPort 80
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ELBLoadBalancerListener (DeleteLoadBalancerListeners)" on Target "80".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteLoadBalancerListeners](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELBLoadBalancerPolicy`
<a name="elastic-load-balancing_DeleteLoadBalancerPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBLoadBalancerPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus kebijakan yang ditentukan dari penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-ELBLoadBalancerPolicy -LoadBalancerName my-load-balancer -PolicyName my-duration-cookie-policy
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ELBLoadBalancerPolicy (DeleteLoadBalancerPolicy)" on Target "my-duration-cookie-policy".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteLoadBalancerPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELBResourceTag`
<a name="elastic-load-balancing_RemoveTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag yang ditentukan dari penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Remove-ELBResourceTag -LoadBalancerName my-load-balancer -Tag @{ Key="project" }
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELBResourceTag (RemoveTags)" on target "Amazon.ElasticLoadBalancing.Model.TagKeyOnly".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Dengan Powershell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.ElasticLoadBalancing.Model.TagKeyOnly
$tag.Key = "project"
Remove-ELBResourceTag -Tag $tag -Force
```
+  Untuk detail API, lihat [RemoveTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ELBHealthCheck`
<a name="elastic-load-balancing_ConfigureHealthCheck_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELBHealthCheck`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengonfigurasi pengaturan pemeriksaan kesehatan untuk penyeimbang beban yang ditentukan.**  

```
Set-ELBHealthCheck -LoadBalancerName my-load-balancer `
>> -HealthCheck_HealthyThreshold 2 `
>> -HealthCheck_UnhealthyThreshold 2 `
>> -HealthCheck_Target "HTTP:80/ping" `
>> -HealthCheck_Interval 30 `
>> -HealthCheck_Timeout 3
```
**Output:**  

```
HealthyThreshold   : 2
Interval           : 30
Target             : HTTP:80/ping
Timeout            : 3
UnhealthyThreshold : 2
```
+  Untuk detail API, lihat [ConfigureHealthCheck](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ELBLoadBalancerListenerSSLCertificate`
<a name="elastic-load-balancing_SetLoadBalancerListenerSslCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELBLoadBalancerListenerSSLCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menggantikan sertifikat yang mengakhiri koneksi SSL untuk pendengar yang ditentukan.**  

```
Set-ELBLoadBalancerListenerSSLCertificate -LoadBalancerName my-load-balancer `
>> -LoadBalancerPort 443 `
>> -SSLCertificateId "arn:aws:iam::123456789012:server-certificate/new-server-cert"
```
+  Untuk detail API, lihat [SetLoadBalancerListenerSslCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ELBLoadBalancerPolicyForBackendServer`
<a name="elastic-load-balancing_SetLoadBalancerPoliciesForBackendServer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELBLoadBalancerPolicyForBackendServer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menggantikan kebijakan untuk port yang ditentukan dengan kebijakan yang ditentukan.**  

```
Set-ELBLoadBalancerPolicyForBackendServer -LoadBalancerName my-load-balancer -InstancePort 80 -PolicyName my-ProxyProtocol-policy
```
**Contoh 2: Contoh ini menghapus semua kebijakan yang terkait dengan port yang ditentukan.**  

```
Set-ELBLoadBalancerPolicyForBackendServer -LoadBalancerName my-load-balancer -InstancePort 80
```
+  Untuk detail API, lihat [SetLoadBalancerPoliciesForBackendServer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ELBLoadBalancerPolicyOfListener`
<a name="elastic-load-balancing_SetLoadBalancerPoliciesOfListener_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELBLoadBalancerPolicyOfListener`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menggantikan kebijakan untuk listener tertentu dengan kebijakan yang ditentukan.**  

```
Set-ELBLoadBalancerPolicyOfListener -LoadBalancerName my-load-balancer -LoadBalancerPort 443 -PolicyName my-SSLNegotiation-policy
```
**Contoh 2: Contoh ini menghapus semua kebijakan yang terkait dengan listener tertentu.**  

```
Set-ELBLoadBalancerPolicyOfListener -LoadBalancerName my-load-balancer -LoadBalancerPort 443
```
+  Untuk detail API, lihat [SetLoadBalancerPoliciesOfListener](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Elastic Load Balancing - Contoh versi 2 menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_elastic-load-balancing-v2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Elastic Load Balancing - Versi 2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-ELB2ListenerCertificate`
<a name="elastic-load-balancing-v2_AddListenerCertificates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ELB2ListenerCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan sertifikat tambahan ke Listener yang ditentukan.**  

```
Add-ELB2ListenerCertificate -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618' -Certificate @{CertificateArn = 'arn:aws:acm:us-east-1:123456789012:certificate/19478bd5-491d-47d4-b1d7-5217feba1d97'}
```
**Output:**  

```
CertificateArn                                                                      IsDefault
--------------                                                                      ---------
arn:aws:acm:us-east-1:123456789012:certificate/19478bd5-491d-47d4-b1d7-5217feba1d97 False
```
+  Untuk detail API, lihat [AddListenerCertificates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-ELB2Tag`
<a name="elastic-load-balancing-v2_AddTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ELB2Tag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan Tag baru ke `AWS.Tools.ElasticLoadBalancingV2` sumber daya tertentu.**  

```
Add-ELB2Tag -ResourceArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -Tag @{Key = 'productVersion'; Value = '1.0.0'}
```
+  Untuk detail API, lihat [AddTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-ELB2Listener`
<a name="elastic-load-balancing-v2_ModifyListener_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2Listener`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah tindakan default listener yang ditentukan menjadi respons tetap.**  

```
$newDefaultAction = [Amazon.ElasticLoadBalancingV2.Model.Action]@{
    "FixedResponseConfig" = @{
    "ContentType" = "text/plain"
    "MessageBody" = "Hello World"
    "StatusCode" = "200"
  }
  "Type" = [Amazon.ElasticLoadBalancingV2.ActionTypeEnum]::FixedResponse
}

Edit-ELB2Listener -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/testALB/3e2f03b558e19676/d19f2f14974db685' -Port 8080 -DefaultAction $newDefaultAction
```
**Output:**  

```
Certificates    : {}
DefaultActions  : {Amazon.ElasticLoadBalancingV2.Model.Action}
ListenerArn     : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/testALB/3e2f03b558e19676/d19f2f14974db685
LoadBalancerArn : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/testALB/3e2f03b558e19676
Port            : 8080
Protocol        : HTTP
SslPolicy       :
```
+  Untuk detail API, lihat [ModifyListener](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-ELB2LoadBalancerAttribute`
<a name="elastic-load-balancing-v2_ModifyLoadBalancerAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2LoadBalancerAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi Atribut penyeimbang beban yang ditentukan.**  

```
Edit-ELB2LoadBalancerAttribute -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -Attribute @{Key = 'deletion_protection.enabled'; Value = 'true'}
```
**Output:**  

```
Key                                             Value
---                                             -----
deletion_protection.enabled                     true
access_logs.s3.enabled                          false
access_logs.s3.bucket
access_logs.s3.prefix
idle_timeout.timeout_seconds                    60
routing.http2.enabled                           true
routing.http.drop_invalid_header_fields.enabled false
```
+  Untuk detail API, lihat [ModifyLoadBalancerAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-ELB2Rule`
<a name="elastic-load-balancing-v2_ModifyRule_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2Rule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi konfigurasi aturan Listener yang ditentukan.**  

```
$newRuleCondition = [Amazon.ElasticLoadBalancingV2.Model.RuleCondition]@{
    "PathPatternConfig" = @{
    "Values" = "/login1","/login2","/login3" 
  }
  "Field" = "path-pattern"
}

Edit-ELB2Rule -RuleArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/testALB/3e2f03b558e19676/1c84f02aec143e80/f4f51dfaa033a8cc' -Condition $newRuleCondition
```
**Output:**  

```
Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 10
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/testALB/3e2f03b558e19676/1c84f02aec143e80/f4f51dfaa033a8cc
```
+  Untuk detail API, lihat [ModifyRule](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-ELB2TargetGroup`
<a name="elastic-load-balancing-v2_ModifyTargetGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2TargetGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi properti Grup Target yang ditentukan.**  

```
Edit-ELB2TargetGroup -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970' -HealthCheckIntervalSecond 60 -HealthCheckPath '/index.html' -HealthCheckPort 8080
```
**Output:**  

```
HealthCheckEnabled         : True
HealthCheckIntervalSeconds : 60
HealthCheckPath            : /index.html
HealthCheckPort            : 8080
HealthCheckProtocol        : HTTP
HealthCheckTimeoutSeconds  : 5
HealthyThresholdCount      : 5
LoadBalancerArns           : {}
Matcher                    : Amazon.ElasticLoadBalancingV2.Model.Matcher
Port                       : 80
Protocol                   : HTTP
TargetGroupArn             : arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970
TargetGroupName            : test-tg
TargetType                 : instance
UnhealthyThresholdCount    : 2
VpcId                      : vpc-2cfd7000
```
+  Untuk detail API, lihat [ModifyTargetGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-ELB2TargetGroupAttribute`
<a name="elastic-load-balancing-v2_ModifyTargetGroupAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2TargetGroupAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi atribut deregistration\$1delay dari Grup Target yang ditentukan.**  

```
Edit-ELB2TargetGroupAttribute -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970' -Attribute @{Key = 'deregistration_delay.timeout_seconds'; Value = 600}
```
**Output:**  

```
Key                                   Value
---                                   -----
stickiness.enabled                    false
deregistration_delay.timeout_seconds  600
stickiness.type                       lb_cookie
stickiness.lb_cookie.duration_seconds 86400
slow_start.duration_seconds           0
load_balancing.algorithm.type         round_robin
```
+  Untuk detail API, lihat [ModifyTargetGroupAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2AccountLimit`
<a name="elastic-load-balancing-v2_DescribeAccountLimits_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2AccountLimit`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mencantumkan batas ELB2 akun untuk wilayah tertentu.**  

```
Get-ELB2AccountLimit
```
**Output:**  

```
Max  Name
---  ----
3000 target-groups
1000 targets-per-application-load-balancer
50   listeners-per-application-load-balancer
100  rules-per-application-load-balancer
50   network-load-balancers
3000 targets-per-network-load-balancer
500  targets-per-availability-zone-per-network-load-balancer
50   listeners-per-network-load-balancer
5    condition-values-per-alb-rule
5    condition-wildcards-per-alb-rule
100  target-groups-per-application-load-balancer
5    target-groups-per-action-on-application-load-balancer
1    target-groups-per-action-on-network-load-balancer
50   application-load-balancers
```
+  Untuk detail API, lihat [DescribeAccountLimits](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2Listener`
<a name="elastic-load-balancing-v2_DescribeListeners_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2Listener`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan pendengar dari ALB/NLB yang ditentukan.**  

```
Get-ELB2Listener -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f'
```
**Output:**  

```
Certificates    : {}
DefaultActions  : {Amazon.ElasticLoadBalancingV2.Model.Action}
ListenerArn     : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/1dac07c21187d41e
LoadBalancerArn : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f
Port            : 80
Protocol        : HTTP
SslPolicy       : 

Certificates    : {Amazon.ElasticLoadBalancingV2.Model.Certificate}
DefaultActions  : {Amazon.ElasticLoadBalancingV2.Model.Action}
ListenerArn     : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b
LoadBalancerArn : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f
Port            : 443
Protocol        : HTTPS
SslPolicy       : ELBSecurityPolicy-2016-08
```
+  Untuk detail API, lihat [DescribeListeners](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2ListenerCertificate`
<a name="elastic-load-balancing-v2_DescribeListenerCertificates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2ListenerCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan sertifikat untuk pendengar yang ditentukan.**  

```
Get-ELB2ListenerCertificate -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b'
```
**Output:**  

```
CertificateArn                                                                      IsDefault
--------------                                                                      ---------
arn:aws:acm:us-east-1:123456789012:certificate/5fc7c092-68bf-4862-969c-22fd48b6e17c True
```
+  Untuk detail API, lihat [DescribeListenerCertificates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2LoadBalancer`
<a name="elastic-load-balancing-v2_DescribeLoadBalancers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2LoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini menampilkan semua penyeimbang beban untuk wilayah tertentu.**  

```
Get-ELB2LoadBalancer
```
**Output:**  

```
AvailabilityZones     : {us-east-1c}
CanonicalHostedZoneId : Z26RNL4JYFTOTI
CreatedTime           : 6/22/18 11:21:50 AM
DNSName               : test-elb1234567890-238d34ad8d94bc2e.elb.us-east-1.amazonaws.com
IpAddressType         : ipv4
LoadBalancerArn       : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/test-elb1234567890/238d34ad8d94bc2e
LoadBalancerName      : test-elb1234567890
Scheme                : internet-facing
SecurityGroups        : {}
State                 : Amazon.ElasticLoadBalancingV2.Model.LoadBalancerState
Type                  : network
VpcId                 : vpc-2cf00000
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2LoadBalancerAttribute`
<a name="elastic-load-balancing-v2_DescribeLoadBalancerAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2LoadBalancerAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menjelaskan atribut Load balancer yang diberikan.**  

```
Get-ELB2LoadBalancerAttribute -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/test-elb/238d34ad8d94bc2e'
```
**Output:**  

```
Key                               Value
---                               -----
access_logs.s3.enabled            false
load_balancing.cross_zone.enabled true
access_logs.s3.prefix             
deletion_protection.enabled       false
access_logs.s3.bucket
```
+  Untuk detail API, lihat [DescribeLoadBalancerAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2Rule`
<a name="elastic-load-balancing-v2_DescribeRules_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2Rule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan aturan listener untuk ARN Listener yang ditentukan.**  

```
Get-ELB2Rule -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b'
```
**Output:**  

```
Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 1
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b/2286fff5055e0f79

Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 2
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b/14e7b036567623ba

Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {}
IsDefault  : True
Priority   : default
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b/853948cf3aa9b2bf
```
+  Untuk detail API, lihat [DescribeRules](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2SSLPolicy`
<a name="elastic-load-balancing-v2_DescribeSslPolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2SSLPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua kebijakan pendengar yang tersedia untuk ElasticLoadBalancing V2.**  

```
Get-ELB2SSLPolicy
```
**Output:**  

```
Ciphers                                                                                                           Name                                  SslProtocols
-------                                                                                                           ----                                  ------------
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-2016-08             {TLSv1, TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-TLS-1-2-2017-01     {TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-TLS-1-1-2017-01     {TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-TLS-1-2-Ext-2018-06 {TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-FS-2018-06          {TLSv1, TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-2015-05             {TLSv1, TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-TLS-1-0-2015-04     {TLSv1, TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-FS-1-2-Res-2019-08  {TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-FS-1-1-2019-08      {TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-FS-1-2-2019-08      {TLSv1.2}
```
+  Untuk detail API, lihat [DescribeSslPolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2Tag`
<a name="elastic-load-balancing-v2_DescribeTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2Tag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan Tag untuk sumber daya yang ditentukan.**  

```
Get-ELB2Tag -ResourceArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f'
```
**Output:**  

```
ResourceArn                                                                                    Tags
-----------                                                                                    ----
arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f {stage, internalName, version}
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2TargetGroup`
<a name="elastic-load-balancing-v2_DescribeTargetGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2TargetGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan Grup Target yang ditentukan.**  

```
Get-ELB2TargetGroup -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970'
```
**Output:**  

```
HealthCheckEnabled         : True
HealthCheckIntervalSeconds : 30
HealthCheckPath            : /
HealthCheckPort            : traffic-port
HealthCheckProtocol        : HTTP
HealthCheckTimeoutSeconds  : 5
HealthyThresholdCount      : 5
LoadBalancerArns           : {arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f}
Matcher                    : Amazon.ElasticLoadBalancingV2.Model.Matcher
Port                       : 80
Protocol                   : HTTP
TargetGroupArn             : arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970
TargetGroupName            : test-tg
TargetType                 : instance
UnhealthyThresholdCount    : 2
VpcId                      : vpc-2cfd7000
```
+  Untuk detail API, lihat [DescribeTargetGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2TargetGroupAttribute`
<a name="elastic-load-balancing-v2_DescribeTargetGroupAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2TargetGroupAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan atribut dari Grup Target yang ditentukan.**  

```
Get-ELB2TargetGroupAttribute -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970'
```
**Output:**  

```
Key                                   Value
---                                   -----
stickiness.enabled                    false
deregistration_delay.timeout_seconds  300
stickiness.type                       lb_cookie
stickiness.lb_cookie.duration_seconds 86400
slow_start.duration_seconds           0
load_balancing.algorithm.type         round_robin
```
+  Untuk detail API, lihat [DescribeTargetGroupAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ELB2TargetHealth`
<a name="elastic-load-balancing-v2_DescribeTargetHealth_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2TargetHealth`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan status kesehatan Target yang ada di Grup Target yang ditentukan.**  

```
Get-ELB2TargetHealth -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970'
```
**Output:**  

```
HealthCheckPort Target                                                TargetHealth
--------------- ------                                                ------------
80              Amazon.ElasticLoadBalancingV2.Model.TargetDescription Amazon.ElasticLoadBalancingV2.Model.TargetHealth
```
+  Untuk detail API, lihat [DescribeTargetHealth](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELB2Listener`
<a name="elastic-load-balancing-v2_CreateListener_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELB2Listener`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat pendengar ALB baru dengan tindakan default 'Teruskan' untuk mengirim lalu lintas ke Grup Target tertentu.**  

```
$defaultAction = [Amazon.ElasticLoadBalancingV2.Model.Action]@{
  ForwardConfig = @{
    TargetGroups = @(
      @{ TargetGroupArn = "arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/testAlbTG/3d61c2f20aa5bccb" }
    )
    TargetGroupStickinessConfig = @{
      DurationSeconds = 900
      Enabled = $true
    }
  }
  Type = "Forward"
}

New-ELB2Listener -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/testALB/3e2f03b558e19676' -Port 8001 -Protocol "HTTP" -DefaultAction $defaultAction
```
**Output:**  

```
Certificates    : {}
DefaultActions  : {Amazon.ElasticLoadBalancingV2.Model.Action}
ListenerArn     : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/testALB/3e2f03b558e19676/1c84f02aec143e80
LoadBalancerArn : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/testALB/3e2f03b558e19676
Port            : 8001
Protocol        : HTTP
SslPolicy       :
```
+  Untuk detail API, lihat [CreateListener](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELB2LoadBalancer`
<a name="elastic-load-balancing-v2_CreateLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELB2LoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menciptakan penyeimbang beban Aplikasi yang menghadap internet baru dengan dua subnet.**  

```
New-ELB2LoadBalancer -Type application -Scheme internet-facing -IpAddressType ipv4 -Name 'New-Test-ALB' -SecurityGroup 'sg-07c3414abb8811cbd' -subnet 'subnet-c37a67a6','subnet-fc02eea0'
```
**Output:**  

```
AvailabilityZones     : {us-east-1b, us-east-1a}
CanonicalHostedZoneId : Z35SXDOTRQ7X7K
CreatedTime           : 12/28/19 2:58:03 PM
DNSName               : New-Test-ALB-1391502222.us-east-1.elb.amazonaws.com
IpAddressType         : ipv4
LoadBalancerArn       : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/New-Test-ALB/dab2e4d90eb51493
LoadBalancerName      : New-Test-ALB
Scheme                : internet-facing
SecurityGroups        : {sg-07c3414abb8811cbd}
State                 : Amazon.ElasticLoadBalancingV2.Model.LoadBalancerState
Type                  : application
VpcId                 : vpc-2cfd7000
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELB2Rule`
<a name="elastic-load-balancing-v2_CreateRule_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELB2Rule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat aturan Listener baru dengan tindakan respons tetap berdasarkan nilai header pelanggan untuk Listener yang ditentukan.**  

```
$newRuleAction = [Amazon.ElasticLoadBalancingV2.Model.Action]@{           
  "FixedResponseConfig" = @{
    "ContentType" = "text/plain"
    "MessageBody" = "Hello World"
    "StatusCode" = "200"
  }
  "Type" = [Amazon.ElasticLoadBalancingV2.ActionTypeEnum]::FixedResponse
}

$newRuleCondition = [Amazon.ElasticLoadBalancingV2.Model.RuleCondition]@{
  "httpHeaderConfig" = @{
    "HttpHeaderName" = "customHeader"
    "Values" = "header2","header1" 
  }         
  "Field" = "http-header"
}

New-ELB2Rule -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/testALB/3e2f03b558e19676/1c84f02aec143e80' -Action $newRuleAction -Condition $newRuleCondition -Priority 10
```
**Output:**  

```
Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 10
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/testALB/3e2f03b558e19676/1c84f02aec143e80/f4f51dfaa033a8cc
```
+  Untuk detail API, lihat [CreateRule](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ELB2TargetGroup`
<a name="elastic-load-balancing-v2_CreateTargetGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELB2TargetGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat grup Target baru dengan parameter yang disediakan.**  

```
New-ELB2TargetGroup -HealthCheckEnabled 1 -HealthCheckIntervalSeconds 30 -HealthCheckPath '/index.html' -HealthCheckPort 80 -HealthCheckTimeoutSecond 5 -HealthyThresholdCount 2 -UnhealthyThresholdCount 5 -Port 80 -Protocol 'HTTP' -TargetType instance -VpcId 'vpc-2cfd7000' -Name 'NewTargetGroup'
```
**Output:**  

```
HealthCheckEnabled         : True
HealthCheckIntervalSeconds : 30
HealthCheckPath            : /index.html
HealthCheckPort            : 80
HealthCheckProtocol        : HTTP
HealthCheckTimeoutSeconds  : 5
HealthyThresholdCount      : 2
LoadBalancerArns           : {}
Matcher                    : Amazon.ElasticLoadBalancingV2.Model.Matcher
Port                       : 80
Protocol                   : HTTP
TargetGroupArn             : arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/NewTargetGroup/534e484681d801bf
TargetGroupName            : NewTargetGroup
TargetType                 : instance
UnhealthyThresholdCount    : 5
VpcId                      : vpc-2cfd7000
```
+  Untuk detail API, lihat [CreateTargetGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-ELB2Target`
<a name="elastic-load-balancing-v2_RegisterTargets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-ELB2Target`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan instance 'i-0672a4c4c4cdeae3111' dengan kelompok target yang ditentukan.**  

```
Register-ELB2Target -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970' -Target @{Port = 80; Id = 'i-0672a4c4cdeae3111'}
```
+  Untuk detail API, lihat [RegisterTargets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELB2Listener`
<a name="elastic-load-balancing-v2_DeleteListener_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2Listener`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus Listener yang ditentukan.**  

```
Remove-ELB2Listener -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2Listener (DeleteListener)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
**Contoh 2: Contoh ini menghapus listener tertentu dari Load balancer.**  

```
Remove-ELB2Listener -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2Listener (DeleteListener)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [DeleteListener](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELB2ListenerCertificate`
<a name="elastic-load-balancing-v2_RemoveListenerCertificates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2ListenerCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus sertifikat tertentu dari kelompok Target yang ditentukan.**  

```
Remove-ELB2ListenerCertificate -Certificate @{CertificateArn = 'arn:aws:acm:us-east-1:123456789012:certificate/19478bd5-491d-47d4-b1d7-5217feba1d97'} -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2ListenerCertificate (RemoveListenerCertificates)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [RemoveListenerCertificates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELB2LoadBalancer`
<a name="elastic-load-balancing-v2_DeleteLoadBalancer_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2LoadBalancer`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus penyeimbang Load yang ditentukan.**  

```
Remove-ELB2LoadBalancer -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2LoadBalancer (DeleteLoadBalancer)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELB2Rule`
<a name="elastic-load-balancing-v2_DeleteRule_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2Rule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus aturan yang ditentukan dari Listener**  

```
Remove-ELB2Rule -RuleArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/3873f123b98f7618/4b25eb10a42e33ab'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2Rule (DeleteRule)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/3873f123b98f7618/4b25eb10a42e33ab".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [DeleteRule](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELB2Tag`
<a name="elastic-load-balancing-v2_RemoveTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2Tag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag untuk kunci yang ditentukan.**  

```
Remove-ELB2Tag -ResourceArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -TagKey 'productVersion'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2Tag (RemoveTags)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [RemoveTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-ELB2TargetGroup`
<a name="elastic-load-balancing-v2_DeleteTargetGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2TargetGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus Grup Target yang ditentukan.**  

```
Remove-ELB2TargetGroup -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/testsssss/4e0b6076bc6483a7'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2TargetGroup (DeleteTargetGroup)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/testsssss/4e0b6076bc6483a7".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [DeleteTargetGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ELB2IpAddressType`
<a name="elastic-load-balancing-v2_SetIpAddressType_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELB2IpAddressType`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah jenis alamat IP Load balancer dari 'IPv4' to DualStack '.**  

```
Set-ELB2IpAddressType -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -IpAddressType dualstack
```
**Output:**  

```
Value
-----
dualstack
```
+  Untuk detail API, lihat [SetIpAddressType](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ELB2RulePriority`
<a name="elastic-load-balancing-v2_SetRulePriorities_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELB2RulePriority`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah prioritas aturan pendengar yang ditentukan.**  

```
Set-ELB2RulePriority -RulePriority -RulePriority @{Priority = 11; RuleArn = 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/a4eb199fa5046f80/dbf4c6dcef3ec6f8'}
```
**Output:**  

```
Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 11
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/a4eb199fa5046f80/dbf4c6dcef3ec6f8
```
+  Untuk detail API, lihat [SetRulePriorities](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ELB2SecurityGroup`
<a name="elastic-load-balancing-v2_SetSecurityGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELB2SecurityGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan grup keamanan 'sg-07c3414abb8811cbd' ke penyeimbang Load yang ditentukan.**  

```
Set-ELB2SecurityGroup -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -SecurityGroup 'sg-07c3414abb8811cbd'
```
**Output:**  

```
sg-07c3414abb8811cbd
```
+  Untuk detail API, lihat [SetSecurityGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-ELB2Subnet`
<a name="elastic-load-balancing-v2_SetSubnets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELB2Subnet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memodifikasi subnet dari Load balancer yang ditentukan.**  

```
Set-ELB2Subnet -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -Subnet 'subnet-7d8a0a51','subnet-c37a67a6'
```
**Output:**  

```
LoadBalancerAddresses SubnetId        ZoneName
--------------------- --------        --------
{}                    subnet-7d8a0a51 us-east-1c
{}                    subnet-c37a67a6 us-east-1b
```
+  Untuk detail API, lihat [SetSubnets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-ELB2Target`
<a name="elastic-load-balancing-v2_DeregisterTargets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-ELB2Target`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan pendaftaran instance 'i-0672a4c4c4cdeae3111' dari grup Target yang ditentukan.**  

```
$targetDescription = New-Object Amazon.ElasticLoadBalancingV2.Model.TargetDescription
$targetDescription.Id = 'i-0672a4c4cdeae3111'
Unregister-ELB2Target -Target $targetDescription -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970'
```
+  Untuk detail API, lihat [DeregisterTargets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# FSx Contoh Amazon menggunakan Alat untuk PowerShell V4
<a name="powershell_4_fsx_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon FSx.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-FSXResourceTag`
<a name="fsx_TagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-FSXResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan tag ke sumber daya yang diberikan.**  

```
Add-FSXResourceTag -ResourceARN "arn:aws:fsx:eu-west-1:123456789012:file-system/fs-01cd23bc4bdf5678a" -Tag @{Key="Users";Value="Test"} -PassThru
```
**Output:**  

```
arn:aws:fsx:eu-west-1:123456789012:file-system/fs-01cd23bc4bdf5678a
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-FSXBackup`
<a name="fsx_DescribeBackups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-FSXBackup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil cadangan yang dibuat sejak kemarin untuk id sistem file yang diberikan.**  

```
Get-FSXBackup -Filter @{Name="file-system-id";Values=$fsx.FileSystemId} | Where-Object CreationTime -gt (Get-Date).AddDays(-1)
```
**Output:**  

```
BackupId        : backup-01dac234e56782bcc
CreationTime    : 6/14/2019 3:35:14 AM
FailureDetails  :
FileSystem      : Amazon.FSx.Model.FileSystem
KmsKeyId        : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-1b23-1bde-a1f1-e1234c5af123
Lifecycle       : AVAILABLE
ProgressPercent : 100
ResourceARN     : arn:aws:fsx:eu-west-1:123456789012:backup/backup-01dac234e56782bcc
Tags            : {}
Type            : AUTOMATIC
```
+  Untuk detail API, lihat [DescribeBackups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-FSXFileSystem`
<a name="fsx_DescribeFileSystems_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-FSXFileSystem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan deskripsi FileSystemId yang diberikan.**  

```
Get-FSXFileSystem -FileSystemId fs-01cd23bc4bdf5678a
```
**Output:**  

```
CreationTime         : 1/17/2019 9:55:30 AM
DNSName              : fs-01cd23bc4bdf5678a.ktmsad.local
FailureDetails       :
FileSystemId         : fs-01cd23bc4bdf5678a
FileSystemType       : WINDOWS
KmsKeyId             : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-5b67-8bde-a9f0-e1234c5af678
Lifecycle            : AVAILABLE
LustreConfiguration  :
NetworkInterfaceIds  : {eni-07d1dda1322b7e209}
OwnerId              : 123456789012
ResourceARN          : arn:aws:fsx:eu-west-1:123456789012:file-system/fs-01cd23bc4bdf5678a
StorageCapacity      : 300
SubnetIds            : {subnet-7d123456}
Tags                 : {FSx-Service}
VpcId                : vpc-41cf2b3f
WindowsConfiguration : Amazon.FSx.Model.WindowsFileSystemConfiguration
```
+  Untuk detail API, lihat [DescribeFileSystems](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-FSXResourceTagList`
<a name="fsx_ListTagsForResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-FSXResourceTagList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan tag untuk sumber daya yang disediakan arn.**  

```
Get-FSXResourceTagList -ResourceARN $fsx.ResourceARN
```
**Output:**  

```
Key         Value
---         -----
FSx-Service Windows
Users       Dev
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-FSXBackup`
<a name="fsx_CreateBackup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-FSXBackup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat cadangan dari sistem file yang diberikan.**  

```
New-FSXBackup -FileSystemId fs-0b1fac2345623456ba
```
**Output:**  

```
BackupId        : backup-0b1fac2345623456ba
CreationTime    : 6/14/2019 5:37:17 PM
FailureDetails  :
FileSystem      : Amazon.FSx.Model.FileSystem
KmsKeyId        : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-1b23-1bde-a1f3-e1234c5af678
Lifecycle       : CREATING
ProgressPercent : 0
ResourceARN     : arn:aws:fsx:eu-west-1:123456789012:backup/backup-0b1fac2345623456ba
Tags            : {}
Type            : USER_INITIATED
```
+  Untuk detail API, lihat [CreateBackup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-FSXFileSystem`
<a name="fsx_CreateFileSystem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-FSXFileSystem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat sistem file Windows 300GB baru, memungkinkan akses dari subnet yang ditentukan, yang mendukung throughput hingga 8 megabyte per detik. Sistem file baru secara otomatis bergabung ke Microsoft Active Directory yang ditentukan.**  

```
New-FSXFileSystem -FileSystemType WINDOWS -StorageCapacity 300 -SubnetId subnet-1a2b3c4d5e6f -WindowsConfiguration @{ThroughputCapacity=8;ActiveDirectoryId='d-1a2b3c4d'}
```
**Output:**  

```
CreationTime         : 12/10/2018 6:06:59 PM
DNSName              : fs-abcdef01234567890.example.com
FailureDetails       :
FileSystemId         : fs-abcdef01234567890
FileSystemType       : WINDOWS
KmsKeyId             : arn:aws:kms:us-west-2:123456789012:key/a1234567-252c-45e9-afaa-123456789abc
Lifecycle            : CREATING
LustreConfiguration  :
NetworkInterfaceIds  : {}
OwnerId              : 123456789012
ResourceARN          : arn:aws:fsx:us-west-2:123456789012:file-system/fs-abcdef01234567890
StorageCapacity      : 300
SubnetIds            : {subnet-1a2b3c4d5e6f}
Tags                 : {}
VpcId                : vpc-1a2b3c4d5e6f
WindowsConfiguration : Amazon.FSx.Model.WindowsFileSystemConfiguration
```
+  Untuk detail API, lihat [CreateFileSystem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-FSXFileSystemFromBackup`
<a name="fsx_CreateFileSystemFromBackup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-FSXFileSystemFromBackup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat sistem FSx file Amazon baru dari cadangan Amazon FSx untuk Windows File Server yang ada.**  

```
New-FSXFileSystemFromBackup -BackupId $backupID -Tag @{Key="tag:Name";Value="from-manual-backup"} -SubnetId $SubnetID -SecurityGroupId $SG_ID -WindowsConfiguration @{ThroughputCapacity=8;ActiveDirectoryId=$DirectoryID}
```
**Output:**  

```
CreationTime         : 8/8/2019 12:59:58 PM
DNSName              : fs-012ff34e56789120.ktmsad.local
FailureDetails       :
FileSystemId         : fs-012ff34e56789120
FileSystemType       : WINDOWS
KmsKeyId             : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-5b67-1bde-a2f3-e4567c8a9321
Lifecycle            : CREATING
LustreConfiguration  :
NetworkInterfaceIds  : {}
OwnerId              : 933303704102
ResourceARN          : arn:aws:fsx:eu-west-1:123456789012:file-system/fs-012ff34e56789120
StorageCapacity      : 300
SubnetIds            : {subnet-fa1ae23c}
Tags                 : {tag:Name}
VpcId                : vpc-12cf3b4f
WindowsConfiguration : Amazon.FSx.Model.WindowsFileSystemConfiguration
```
+  Untuk detail API, lihat [CreateFileSystemFromBackup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-FSXBackup`
<a name="fsx_DeleteBackup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-FSXBackup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus backup-id yang diberikan.**  

```
Remove-FSXBackup -BackupId $backupID
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-FSXBackup (DeleteBackup)" on target "backup-0bbca1e2345678e12".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

BackupId                 Lifecycle
--------                 ---------
backup-0bbca1e2345678e12 DELETED
```
+  Untuk detail API, lihat [DeleteBackup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-FSXFileSystem`
<a name="fsx_DeleteFileSystem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-FSXFileSystem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus ID sistem file FSX yang diberikan.**  

```
Remove-FSXFileSystem -FileSystemId fs-012ff34e567890120
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-FSXFileSystem (DeleteFileSystem)" on target "fs-012ff34e567890120".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

FileSystemId         Lifecycle WindowsResponse
------------         --------- ---------------
fs-012ff34e567890120 DELETING  Amazon.FSx.Model.DeleteFileSystemWindowsResponse
```
+  Untuk detail API, lihat [DeleteFileSystem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-FSXResourceTag`
<a name="fsx_UntagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-FSXResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag sumber daya untuk ARN sumber daya sistem file FSX yang diberikan.**  

```
Remove-FSXResourceTag -ResourceARN $FSX.ResourceARN -TagKey Users
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-FSXResourceTag (UntagResource)" on target "arn:aws:fsx:eu-west-1:933303704102:file-system/fs-07cd45bc6bdf2674a".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-FSXFileSystem`
<a name="fsx_UpdateFileSystem_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-FSXFileSystem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui hari penyimpanan cadangan otomatis sistem file FSX melalui UpdateFileSystemWindowsConfiguration.**  

```
$UpdateFSXWinConfig = [Amazon.FSx.Model.UpdateFileSystemWindowsConfiguration]::new()
	$UpdateFSXWinConfig.AutomaticBackupRetentionDays = 35
	Update-FSXFileSystem -FileSystemId $FSX.FileSystemId -WindowsConfiguration $UpdateFSXWinConfig
```
**Output:**  

```
CreationTime         : 1/17/2019 9:55:30 AM
DNSName              : fs-01cd23bc4bdf5678a.ktmsad.local
FailureDetails       :
FileSystemId         : fs-01cd23bc4bdf5678a
FileSystemType       : WINDOWS
KmsKeyId             : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-1b23-1bde-a1f2-e1234c5af678
Lifecycle            : AVAILABLE
LustreConfiguration  :
NetworkInterfaceIds  : {eni-01cd23bc4bdf5678a}
OwnerId              : 933303704102
ResourceARN          : arn:aws:fsx:eu-west-1:933303704102:file-system/fs-07cd45bc6bdf2674a
StorageCapacity      : 300
SubnetIds            : {subnet-1d234567}
Tags                 : {FSx-Service}
VpcId                : vpc-23cf4b5f
WindowsConfiguration : Amazon.FSx.Model.WindowsFileSystemConfiguration
```
+  Untuk detail API, lihat [UpdateFileSystem](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon Glacier menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_glacier_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon Glacier.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-GLCJob`
<a name="glacier_DescribeJob_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-GLCJob`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan rincian pekerjaan yang ditentukan. Ketika pekerjaan berhasil diselesaikan, cmdlet Read- GCJob Output dapat digunakan untuk mengambil konten pekerjaan (arsip atau daftar inventaris) ke sistem file lokal.**  

```
Get-GLCJob -VaultName myvault -JobId "op1x...JSbthM"
```
**Output:**  

```
Action                       : ArchiveRetrieval
ArchiveId                    : o9O9j...X-TpIhQJw
ArchiveSHA256TreeHash        : 79f3ea754c02f58...dc57bf4395b
ArchiveSizeInBytes           : 38034480
Completed                    : False
CompletionDate               : 1/1/0001 12:00:00 AM
CreationDate                 : 12/13/2018 11:00:14 AM
InventoryRetrievalParameters :
InventorySizeInBytes         : 0
JobDescription               :
JobId                        : op1x...JSbthM
JobOutputPath                :
OutputLocation               :
RetrievalByteRange           : 0-38034479
SelectParameters             :
SHA256TreeHash               : 79f3ea754c02f58...dc57bf4395b
SNSTopic                     :
StatusCode                   : InProgress
StatusMessage                :
Tier                         : Standard
VaultARN                     : arn:aws:glacier:us-west-2:012345678912:vaults/test
```
+  Untuk detail API, lihat [DescribeJob](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-GLCVault`
<a name="glacier_CreateVault_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-GLCVault`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat vault baru untuk akun pengguna. Karena tidak ada nilai yang diberikan ke AccountId parameter -, cmdlet menggunakan default “-” yang menunjukkan akun saat ini.**  

```
New-GLCVault -VaultName myvault
```
**Output:**  

```
/01234567812/vaults/myvault
```
+  Untuk detail API, lihat [CreateVault](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Read-GLCJobOutput`
<a name="glacier_GetJobOutput_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Read-GLCJobOutput`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengunduh konten arsip yang dijadwalkan untuk pengambilan dalam pekerjaan yang ditentukan dan menyimpan konten ke dalam file pada disk. Unduhan memvalidasi checksum untuk Anda, jika tersedia. Jika diinginkan seluruh respons termasuk checksum dapat dikembalikan dengan menentukan`-Select '*'`.**  

```
Read-GLCJobOutput -VaultName myvault -JobId "HSWjArc...Zq2XLiW" -FilePath "c:\temp\blue.bin"
```
+  Untuk detail API, lihat [GetJobOutput](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-GLCJob`
<a name="glacier_InitiateJob_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-GLCJob`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memulai pekerjaan untuk mengambil arsip dari brankas tertentu yang dimiliki oleh pengguna. Status pekerjaan dapat diperiksa menggunakan Get- GLCJob cmdlet. Ketika pekerjaan berhasil diselesaikan, cmdlet Read- GCJob Output dapat digunakan untuk mengambil isi arsip ke sistem file lokal.**  

```
Start-GLCJob -VaultName myvault -JobType "archive-retrieval" -JobDescription "archive retrieval" -ArchiveId "o9O9j...TX-TpIhQJw"
```
**Output:**  

```
JobId            JobOutputPath Location
-----            ------------- --------
op1x...JSbthM                  /012345678912/vaults/test/jobs/op1xe...I4HqCHkSJSbthM
```
+  Untuk detail API, lihat [InitiateJob](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-GLCArchive`
<a name="glacier_UploadArchive_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-GLCArchive`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengunggah satu file ke brankas yang ditentukan, mengembalikan ID arsip dan checksum yang dihitung.**  

```
Write-GLCArchive -VaultName myvault -FilePath c:\temp\blue.bin
```
**Output:**  

```
FilePath                    ArchiveId              Checksum
--------                    ---------              --------
C:\temp\blue.bin            o9O9jUUs...TTX-TpIhQJw 79f3e...f4395b
```
**Contoh 2: Mengunggah konten hierarki folder ke brankas yang ditentukan di akun pengguna. Untuk setiap file yang diunggah, cmdlet memancarkan nama file, ID arsip yang sesuai, dan checksum arsip yang dihitung.**  

```
Write-GLCArchive -VaultName myvault -FolderPath . -Recurse
```
**Output:**  

```
FilePath                    ArchiveId              Checksum
--------                    ---------              --------
C:\temp\blue.bin            o9O9jUUs...TTX-TpIhQJw 79f3e...f4395b
C:\temp\green.bin           qXAfOdSG...czo729UHXrw d50a1...9184b9
C:\temp\lum.bin             39aNifP3...q9nb8nZkFIg 28886...5c3e27
C:\temp\red.bin             vp7E6rU_...Ejk_HhjAxKA e05f7...4e34f5
C:\temp\Folder1\file1.txt   _eRINlip...5Sxy7dD2BaA d0d2a...c8a3ba
C:\temp\Folder2\file2.iso   -Ix3jlmu...iXiDh-XfOPA 7469e...3e86f1
```
+  Untuk detail API, lihat [UploadArchive](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# AWS Glue contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan AWS Glue.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-GLUEJob`
<a name="glue_CreateJob_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-GLUEJob`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menciptakan pekerjaan baru di AWS Glue. Nilai nama perintah selalu`glueetl`. AWS Glue mendukung menjalankan skrip pekerjaan yang ditulis dengan Python atau Scala. Dalam contoh ini, skrip pekerjaan (MyTestGlueJob.py) ditulis dengan Python. Parameter Python ditentukan dalam `$DefArgs` variabel, dan kemudian diteruskan ke PowerShell perintah dalam `DefaultArguments` parameter, yang menerima hashtable. Parameter dalam `$JobParams` variabel berasal dari CreateJob API, didokumentasikan dalam topik Jobs (https://docs.aws.amazon.com/glue/latest/dg/aws- glue-api-jobs-job .html) dari referensi AWS Glue API.**  

```
$Command = New-Object Amazon.Glue.Model.JobCommand
$Command.Name = 'glueetl'
$Command.ScriptLocation = 's3://amzn-s3-demo-source-bucket/admin/MyTestGlueJob.py'
$Command

$Source = "source_test_table"
$Target = "target_test_table"
$Connections = $Source, $Target

$DefArgs = @{
     '--TempDir' = 's3://amzn-s3-demo-bucket/admin'
     '--job-bookmark-option' = 'job-bookmark-disable'
     '--job-language' = 'python'
     }
$DefArgs

$ExecutionProp = New-Object Amazon.Glue.Model.ExecutionProperty
$ExecutionProp.MaxConcurrentRuns = 1
$ExecutionProp

$JobParams = @{
    "AllocatedCapacity"    = "5"
    "Command"              = $Command
    "Connections_Connection" = $Connections
    "DefaultArguments"  = $DefArgs
    "Description"       = "This is a test"
    "ExecutionProperty" = $ExecutionProp
    "MaxRetries"        = "1"
    "Name"              = "MyOregonTestGlueJob"
    "Role"              = "Amazon-GlueServiceRoleForSSM"
    "Timeout"           = "20"
     }

New-GlueJob @JobParams
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# AWS Health contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_health_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan AWS Health.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-HLTHEvent`
<a name="health_DescribeEvents_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-HLTHEvent`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan peristiwa dari Dashboard AWS Personal Health. Pengguna menambahkan parameter -Region untuk melihat peristiwa yang tersedia untuk layanan di Wilayah AS Timur (Virginia N.), tetapi parameter -Filter\$1Region memfilter untuk peristiwa yang dicatat di Wilayah UE (London) dan AS Barat (Oregon) (eu-west-2 dan us-west-2). StartTime Parameter -Filter\$1 memfilter untuk rentang waktu dimana peristiwa dapat dimulai, sedangkan EndTime parameter -Filter\$1 memfilter untuk rentang waktu dimana peristiwa dapat berakhir. Hasilnya adalah acara pemeliharaan terjadwal untuk RDS yang dimulai dalam rentang -Filter\$1 yang ditentukan, dan berakhir dalam StartTime rentang -Filter\$1 terjadwal. EndTime **  

```
Get-HLTHEvent -Region us-east-1 -Filter_Region "eu-west-2","us-west-2" -Filter_StartTime @{from="3/14/2019 6:30:00AM";to="3/15/2019 5:00:00PM"} -Filter_EndTime @{from="3/21/2019 7:00:00AM";to="3/21/2019 5:00:00PM"}
```
**Output:**  

```
Arn               : arn:aws:health:us-west-2::event/RDS/AWS_RDS_HARDWARE_MAINTENANCE_SCHEDULED/AWS_RDS_HARDWARE_MAINTENANCE_SCHEDULED_USW2_20190314_20190321
AvailabilityZone  : 
EndTime           : 3/21/2019 2:00:00 PM
EventTypeCategory : scheduledChange
EventTypeCode     : AWS_RDS_HARDWARE_MAINTENANCE_SCHEDULED
LastUpdatedTime   : 2/28/2019 2:26:07 PM
Region            : us-west-2
Service           : RDS
StartTime         : 3/14/2019 2:00:00 PM
StatusCode        : open
```
+  Untuk detail API, lihat [DescribeEvents](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh IAM menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan IAM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-IAMClientIDToOpenIDConnectProvider`
<a name="iam_AddClientIdToOpenIdConnectProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMClientIDToOpenIDConnectProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menambahkan ID klien (atau audiens) `my-application-ID` ke penyedia OIDC yang ada bernama. `server.example.com`**  

```
Add-IAMClientIDToOpenIDConnectProvider -ClientID "my-application-ID" -OpenIDConnectProviderARN "arn:aws:iam::123456789012:oidc-provider/server.example.com"
```
+  Untuk detail API, lihat [AddClientIdToOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-IAMRoleTag`
<a name="iam_TagRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMRoleTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan tag ke Peran dalam Layanan Manajemen Identitas**  

```
Add-IAMRoleTag -RoleName AdminRoleacess -Tag @{ Key = 'abac'; Value = 'testing'}
```
+  Untuk detail API, lihat [TagRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-IAMRoleToInstanceProfile`
<a name="iam_AddRoleToInstanceProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMRoleToInstanceProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menambahkan peran bernama `S3Access` ke profil instance yang ada bernama`webserver`. Untuk membuat profil instance, gunakan `New-IAMInstanceProfile` perintah. Setelah Anda membuat profil instans dan mengaitkannya dengan peran menggunakan perintah ini, Anda dapat melampirkannya ke instans EC2. Untuk melakukan itu, gunakan `New-EC2Instance` cmdlet dengan `InstanceProfile-Name` parameter `InstanceProfile_Arn` atau untuk meluncurkan instance baru.**  

```
Add-IAMRoleToInstanceProfile -RoleName "S3Access" -InstanceProfileName "webserver"
```
+  Untuk detail API, lihat [AddRoleToInstanceProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-IAMUserTag`
<a name="iam_TagUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMUserTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan tag ke Pengguna di Layanan Manajemen Identitas**  

```
Add-IAMUserTag -UserName joe -Tag @{ Key = 'abac'; Value = 'testing'}
```
+  Untuk detail API, lihat [TagUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Add-IAMUserToGroup`
<a name="iam_AddUserToGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMUserToGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menambahkan nama pengguna `Bob` ke grup bernama`Admins`.**  

```
Add-IAMUserToGroup -UserName "Bob" -GroupName "Admins"
```
+  Untuk detail API, lihat [AddUserToGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Disable-IAMMFADevice`
<a name="iam_DeactivateMfaDevice_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-IAMMFADevice`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menonaktifkan perangkat MFA perangkat keras yang terkait dengan `Bob` pengguna yang memiliki nomor seri. `123456789012`**  

```
Disable-IAMMFADevice -UserName "Bob" -SerialNumber "123456789012"
```
**Contoh 2: Perintah ini menonaktifkan perangkat MFA virtual yang terkait dengan `David` pengguna yang memiliki ARN. `arn:aws:iam::210987654321:mfa/David` Perhatikan bahwa perangkat MFA virtual tidak dihapus dari akun. Perangkat virtual masih ada dan muncul di output `Get-IAMVirtualMFADevice` perintah. Sebelum Anda dapat membuat perangkat MFA virtual baru untuk pengguna yang sama, Anda harus menghapus yang lama dengan menggunakan perintah. `Remove-IAMVirtualMFADevice`**  

```
Disable-IAMMFADevice -UserName "David" -SerialNumber "arn:aws:iam::210987654321:mfa/David"
```
+  Untuk detail API, lihat [DeactivateMfaDevice](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-IAMPassword`
<a name="iam_ChangePassword_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-IAMPassword`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengubah kata sandi untuk pengguna yang menjalankan perintah. Perintah ini hanya dapat dipanggil oleh pengguna IAM. Jika perintah ini dipanggil ketika Anda masuk dengan kredensyal AWS akun (root), perintah mengembalikan kesalahan. `InvalidUserType`**  

```
Edit-IAMPassword -OldPassword "MyOldP@ssw0rd" -NewPassword "MyNewP@ssw0rd"
```
+  Untuk detail API, lihat [ChangePassword](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Enable-IAMMFADevice`
<a name="iam_EnableMfaDevice_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-IAMMFADevice`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini memungkinkan perangkat MFA perangkat keras dengan nomor seri `987654321098` dan mengaitkan perangkat dengan pengguna. `Bob` Ini termasuk dua kode pertama secara berurutan dari perangkat.**  

```
Enable-IAMMFADevice -UserName "Bob" -SerialNumber "987654321098" -AuthenticationCode1 "12345678" -AuthenticationCode2 "87654321"
```
**Contoh 2: Contoh ini membuat dan mengaktifkan perangkat MFA virtual. Perintah pertama membuat perangkat virtual dan mengembalikan representasi objek perangkat dalam variabel`$MFADevice`. Anda dapat menggunakan `QRCodePng` properti `.Base32StringSeed` atau untuk mengkonfigurasi aplikasi perangkat lunak pengguna. Perintah terakhir menetapkan perangkat kepada pengguna`David`, mengidentifikasi perangkat dengan nomor serinya. Perintah ini juga menyinkronkan perangkat AWS dengan memasukkan dua kode pertama secara berurutan dari perangkat MFA virtual.**  

```
$MFADevice = New-IAMVirtualMFADevice -VirtualMFADeviceName "MyMFADevice"
# see example for New-IAMVirtualMFADevice to see how to configure the software program with PNG or base32 seed code
Enable-IAMMFADevice -UserName "David" -SerialNumber -SerialNumber $MFADevice.SerialNumber -AuthenticationCode1 "24681357" -AuthenticationCode2 "13572468"
```
+  Untuk detail API, lihat [EnableMfaDevice](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAccessKey`
<a name="iam_ListAccessKeys_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccessKey`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mencantumkan kunci akses untuk pengguna IAM bernama`Bob`. Perhatikan bahwa Anda tidak dapat mencantumkan kunci akses rahasia untuk pengguna IAM. Jika kunci akses rahasia hilang, Anda harus membuat kunci akses baru dengan `New-IAMAccessKey` cmdlet.**  

```
Get-IAMAccessKey -UserName "Bob"
```
**Output:**  

```
AccessKeyId                CreateDate                   Status              UserName
-----------                ----------                   ------              --------
AKIAIOSFODNN7EXAMPLE       12/3/2014 10:53:41 AM        Active              Bob
AKIAI44QH8DHBEXAMPLE       6/6/2013 8:42:26 PM          Inactive            Bob
```
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAccessKeyLastUsed`
<a name="iam_GetAccessKeyLastUsed_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccessKeyLastUsed`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan nama pengguna yang dimiliki dan informasi penggunaan terakhir untuk kunci akses yang disediakan.**  

```
Get-IAMAccessKeyLastUsed -AccessKeyId ABCDEXAMPLE
```
+  Untuk detail API, lihat [GetAccessKeyLastUsed](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAccountAlias`
<a name="iam_ListAccountAliases_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccountAlias`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan alias akun untuk. Akun AWS**  

```
Get-IAMAccountAlias
```
**Output:**  

```
ExampleCo
```
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAccountAuthorizationDetail`
<a name="iam_GetAccountAuthorizationDetails_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccountAuthorizationDetail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan rincian otorisasi tentang identitas di AWS akun, dan menampilkan daftar elemen objek yang dikembalikan, termasuk pengguna, grup, dan peran. Misalnya, `UserDetailList` properti menampilkan detail tentang pengguna. Informasi serupa tersedia di `RoleDetailList` dan `GroupDetailList` properti.**  

```
$Details=Get-IAMAccountAuthorizationDetail
$Details
```
**Output:**  

```
GroupDetailList : {Administrators, Developers, Testers, Backup}
IsTruncated     : False
Marker          : 
RoleDetailList  : {TestRole1, AdminRole, TesterRole, clirole...}
UserDetailList  : {Administrator, Bob, BackupToS3, }
```

```
$Details.UserDetailList
```
**Output:**  

```
Arn            : arn:aws:iam::123456789012:user/Administrator
CreateDate     : 10/16/2014 9:03:09 AM
GroupList      : {Administrators}
Path           : /
UserId         : AIDACKCEVSQ6CEXAMPLE1
UserName       : Administrator
UserPolicyList : {}

Arn            : arn:aws:iam::123456789012:user/Bob
CreateDate     : 4/6/2015 12:54:42 PM
GroupList      : {Developers}
Path           : /
UserId         : AIDACKCEVSQ6CEXAMPLE2
UserName       : bab
UserPolicyList : {}

Arn            : arn:aws:iam::123456789012:user/BackupToS3
CreateDate     : 1/27/2015 10:15:08 AM
GroupList      : {Backup}
Path           : /
UserId         : AIDACKCEVSQ6CEXAMPLE3
UserName       : BackupToS3
UserPolicyList : {BackupServicePermissionsToS3Buckets}
```
+  Untuk detail API, lihat [GetAccountAuthorizationDetails](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccountPasswordPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan detail tentang kebijakan kata sandi untuk akun saat ini. Jika tidak ada kebijakan kata sandi yang ditentukan untuk akun, perintah mengembalikan `NoSuchEntity` kesalahan.**  

```
Get-IAMAccountPasswordPolicy
```
**Output:**  

```
AllowUsersToChangePassword : True
ExpirePasswords            : True
HardExpiry                 : False
MaxPasswordAge             : 90
MinimumPasswordLength      : 8
PasswordReusePrevention    : 20
RequireLowercaseCharacters : True
RequireNumbers             : True
RequireSymbols             : False
RequireUppercaseCharacters : True
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAccountSummary`
<a name="iam_GetAccountSummary_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccountSummary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan informasi tentang penggunaan entitas IAM saat ini dan kuota entitas IAM saat ini di. Akun AWS**  

```
Get-IAMAccountSummary
```
**Output:**  

```
Key                                        Value
Users                                      7
GroupPolicySizeQuota                       5120
PolicyVersionsInUseQuota                   10000
ServerCertificatesQuota                    20
AccountSigningCertificatesPresent          0
AccountAccessKeysPresent                   0
Groups                                     3
UsersQuota                                 5000
RolePolicySizeQuota                        10240
UserPolicySizeQuota                        2048
GroupsPerUserQuota                         10
AssumeRolePolicySizeQuota                  2048
AttachedPoliciesPerGroupQuota              2
Roles                                      9
VersionsPerPolicyQuota                     5
GroupsQuota                                100
PolicySizeQuota                            5120
Policies                                   5
RolesQuota                                 250
ServerCertificates                         0
AttachedPoliciesPerRoleQuota               2
MFADevicesInUse                            2
PoliciesQuota                              1000
AccountMFAEnabled                          1
Providers                                  2
InstanceProfilesQuota                      100
MFADevices                                 4
AccessKeysPerUserQuota                     2
AttachedPoliciesPerUserQuota               2
SigningCertificatesPerUserQuota            2
PolicyVersionsInUse                        4
InstanceProfiles                           1
...
```
+  Untuk detail API, lihat [GetAccountSummary](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAttachedGroupPolicyList`
<a name="iam_ListAttachedGroupPolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAttachedGroupPolicyList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan nama dan kebijakan ARNs terkelola yang dilampirkan ke grup IAM yang disebutkan `Admins` di AWS akun. Untuk melihat daftar kebijakan sebaris yang disematkan dalam grup, gunakan `Get-IAMGroupPolicyList` perintah.**  

```
Get-IAMAttachedGroupPolicyList -GroupName "Admins"
```
**Output:**  

```
PolicyArn                                                 PolicyName
---------                                                 ----------
arn:aws:iam::aws:policy/SecurityAudit                     SecurityAudit
arn:aws:iam::aws:policy/AdministratorAccess               AdministratorAccess
```
+  Untuk detail API, lihat [ListAttachedGroupPolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAttachedRolePolicyList`
<a name="iam_ListAttachedRolePolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAttachedRolePolicyList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan nama dan kebijakan ARNs terkelola yang dilampirkan pada peran IAM yang disebutkan `SecurityAuditRole` di AWS akun. Untuk melihat daftar kebijakan sebaris yang disematkan dalam peran, gunakan `Get-IAMRolePolicyList` perintah.**  

```
Get-IAMAttachedRolePolicyList -RoleName "SecurityAuditRole"
```
**Output:**  

```
PolicyArn                                                 PolicyName
---------                                                 ----------
arn:aws:iam::aws:policy/SecurityAudit                     SecurityAudit
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMAttachedUserPolicyList`
<a name="iam_ListAttachedUserPolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAttachedUserPolicyList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan nama dan kebijakan ARNs terkelola untuk pengguna IAM yang disebutkan `Bob` di AWS akun. Untuk melihat daftar kebijakan inline yang disematkan di pengguna IAM, gunakan perintah. `Get-IAMUserPolicyList`**  

```
Get-IAMAttachedUserPolicyList -UserName "Bob"
```
**Output:**  

```
PolicyArn                                                 PolicyName
---------                                                 ----------
arn:aws:iam::aws:policy/TesterPolicy                      TesterPolicy
```
+  Untuk detail API, lihat [ListAttachedUserPolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMContextKeysForCustomPolicy`
<a name="iam_GetContextKeysForCustomPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMContextKeysForCustomPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil semua kunci konteks yang ada dalam kebijakan yang disediakan JSON.Untuk memberikan beberapa kebijakan yang dapat Anda berikan sebagai daftar nilai yang dipisahkan koma.**  

```
$policy1 = '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/","Condition":{"DateGreaterThan":{"aws:CurrentTime":"2015-08-16T12:00:00Z"}}}}'
$policy2 = '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/"}}'
Get-IAMContextKeysForCustomPolicy -PolicyInputList $policy1,$policy2
```
+  Untuk detail API, lihat [GetContextKeysForCustomPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMContextKeysForPrincipalPolicy`
<a name="iam_GetContextKeysForPrincipalPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMContextKeysForPrincipalPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil semua kunci konteks yang ada dalam json kebijakan yang disediakan dan kebijakan yang dilampirkan ke entitas IAM (pengguna/peran, dll.). Untuk - PolicyInputList Anda dapat memberikan beberapa daftar nilai sebagai nilai yang dipisahkan koma.**  

```
$policy1 = '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/","Condition":{"DateGreaterThan":{"aws:CurrentTime":"2015-08-16T12:00:00Z"}}}}'
$policy2 = '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/"}}'
Get-IAMContextKeysForPrincipalPolicy -PolicyInputList $policy1,$policy2 -PolicySourceArn arn:aws:iam::852640994763:user/TestUser
```
+  Untuk detail API, lihat [GetContextKeysForPrincipalPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMCredentialReport`
<a name="iam_GetCredentialReport_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMCredentialReport`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuka laporan yang dikembalikan dan mengeluarkannya ke pipeline sebagai array baris teks. Baris pertama adalah header dengan nama kolom yang dipisahkan koma. Setiap baris berturut-turut adalah baris detail untuk satu pengguna, dengan setiap bidang dipisahkan dengan koma. Sebelum Anda dapat melihat laporan, Anda harus membuatnya dengan `Request-IAMCredentialReport` cmdlet. Untuk mengambil laporan sebagai string tunggal, gunakan `-Raw` sebagai pengganti. `-AsTextArray` Alias juga `-SplitLines` diterima untuk `-AsTextArray` sakelar. Untuk daftar lengkap kolom dalam output, lihat referensi API layanan. Perhatikan bahwa jika Anda tidak menggunakan `-AsTextArray` atau`-SplitLines`, maka Anda harus mengekstrak teks dari `.Content` properti menggunakan `StreamReader` kelas.NET.**  

```
Request-IAMCredentialReport
```
**Output:**  

```
Description                                                         State
-----------                                                         -----
No report exists. Starting a new report generation task             STARTED
```

```
Get-IAMCredentialReport -AsTextArray
```
**Output:**  

```
      user,arn,user_creation_time,password_enabled,password_last_used,password_last_changed,password_next_rotation,mfa_active,access_key_1_active,access_key_1_last_rotated,access_key_2_active,access_key_2_last_rotated,cert_1_active,cert_1_last_rotated,cert_2_active,cert_2_last_rotated root_account,arn:aws:iam::123456789012:root,2014-10-15T16:31:25+00:00,not_supported,2015-04-20T17:41:10+00:00,not_supported,not_supported,true,false,N/A,false,N/A,false,N/A,false,N/A
Administrator,arn:aws:iam::123456789012:user/Administrator,2014-10-16T16:03:09+00:00,true,2015-04-20T15:18:32+00:00,2014-10-16T16:06:00+00:00,N/A,false,true,2014-12-03T18:53:41+00:00,true,2015-03-25T20:38:14+00:00,false,N/A,false,N/A
Bill,arn:aws:iam::123456789012:user/Bill,2015-04-15T18:27:44+00:00,false,N/A,N/A,N/A,false,false,N/A,false,N/A,false,2015-04-20T20:00:12+00:00,false,N/A
```
+  Untuk detail API, lihat [GetCredentialReport](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMEntitiesForPolicy`
<a name="iam_ListEntitiesForPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMEntitiesForPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan daftar grup, peran, dan pengguna IAM yang memiliki kebijakan yang `arn:aws:iam::123456789012:policy/TestPolicy` dilampirkan.**  

```
Get-IAMEntitiesForPolicy -PolicyArn "arn:aws:iam::123456789012:policy/TestPolicy"
```
**Output:**  

```
IsTruncated  : False
Marker       : 
PolicyGroups : {}
PolicyRoles  : {testRole}
PolicyUsers  : {Bob, Theresa}
```
+  Untuk detail API, lihat [ListEntitiesForPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMGroup`
<a name="iam_GetGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan detail tentang grup IAM`Testers`, termasuk kumpulan semua pengguna IAM yang termasuk dalam grup.**  

```
$results = Get-IAMGroup -GroupName "Testers"
$results
```
**Output:**  

```
Group                                     IsTruncated           Marker                Users
-----                                     -----------           ------                -----
Amazon.IdentityManagement.Model.Group     False                                       {Theresa, David}
```

```
$results.Group
```
**Output:**  

```
Arn        : arn:aws:iam::123456789012:group/Testers
CreateDate : 12/10/2014 3:39:11 PM
GroupId    : 3RHNZZGQJ7QHMAEXAMPLE1
GroupName  : Testers
Path       : /
```

```
$results.Users
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:user/Theresa
CreateDate       : 12/10/2014 3:39:27 PM
PasswordLastUsed : 1/1/0001 12:00:00 AM
Path             : /
UserId           : 4OSVDDJJTF4XEEXAMPLE2
UserName         : Theresa

Arn              : arn:aws:iam::123456789012:user/David
CreateDate       : 12/10/2014 3:39:27 PM
PasswordLastUsed : 3/19/2015 8:44:04 AM
Path             : /
UserId           : Y4FKWQCXTA52QEXAMPLE3
UserName         : David
```
+  Untuk detail API, lihat [GetGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMGroupForUser`
<a name="iam_ListGroupsForUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroupForUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan daftar grup IAM yang `David` dimiliki pengguna IAM.**  

```
Get-IAMGroupForUser -UserName David
```
**Output:**  

```
Arn        : arn:aws:iam::123456789012:group/Administrators
CreateDate : 10/20/2014 10:06:24 AM
GroupId    : 6WCH4TRY3KIHIEXAMPLE1
GroupName  : Administrators
Path       : /
      
Arn        : arn:aws:iam::123456789012:group/Testers
CreateDate : 12/10/2014 3:39:11 PM
GroupId    : RHNZZGQJ7QHMAEXAMPLE2
GroupName  : Testers
Path       : /
      
Arn        : arn:aws:iam::123456789012:group/Developers
CreateDate : 12/10/2014 3:38:55 PM
GroupId    : ZU2EOWMK6WBZOEXAMPLE3
GroupName  : Developers
Path       : /
```
+  Untuk detail API, lihat [ListGroupsForUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMGroupList`
<a name="iam_ListGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroupList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan koleksi semua grup IAM didefinisikan dalam saat ini Akun AWS.**  

```
Get-IAMGroupList
```
**Output:**  

```
Arn        : arn:aws:iam::123456789012:group/Administrators
CreateDate : 10/20/2014 10:06:24 AM
GroupId    : 6WCH4TRY3KIHIEXAMPLE1
GroupName  : Administrators
Path       : /

Arn        : arn:aws:iam::123456789012:group/Developers
CreateDate : 12/10/2014 3:38:55 PM
GroupId    : ZU2EOWMK6WBZOEXAMPLE2
GroupName  : Developers
Path       : /

Arn        : arn:aws:iam::123456789012:group/Testers
CreateDate : 12/10/2014 3:39:11 PM
GroupId    : RHNZZGQJ7QHMAEXAMPLE3
GroupName  : Testers
Path       : /
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMGroupPolicy`
<a name="iam_GetGroupPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroupPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian tentang kebijakan inline tertanam yang dinamai `PowerUserAccess-Testers` untuk grup`Testers`. `PolicyDocument`Properti ini dikodekan URL. Ini diterjemahkan dalam contoh ini dengan `UrlDecode` metode.NET.**  

```
$results = Get-IAMGroupPolicy -GroupName Testers -PolicyName PowerUserAccess-Testers
$results
```
**Output:**  

```
GroupName     PolicyDocument                                              PolicyName
---------     --------------                                              ----------
Testers       %7B%0A%20%20%22Version%22%3A%20%222012-10-17%22%2C%0A%20... PowerUserAccess-Testers

[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
[System.Web.HttpUtility]::UrlDecode($results.PolicyDocument)
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "ec2:DescribeInstances"
      ],
      "Resource": [
        "arn:aws:ec2:us-east-1:555555555555:instance/i-b188560f"
      ]
    }
  ]
}
```
+  Untuk detail API, lihat [GetGroupPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMGroupPolicyList`
<a name="iam_ListGroupPolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroupPolicyList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan daftar kebijakan inline yang disematkan dalam grup`Testers`. Untuk mendapatkan kebijakan terkelola yang dilampirkan ke grup, gunakan perintah`Get-IAMAttachedGroupPolicyList`.**  

```
Get-IAMGroupPolicyList -GroupName Testers
```
**Output:**  

```
Deny-Assume-S3-Role-In-Production
PowerUserAccess-Testers
```
+  Untuk detail API, lihat [ListGroupPolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMInstanceProfile`
<a name="iam_GetInstanceProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMInstanceProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian profil contoh bernama `ec2instancerole` yang didefinisikan dalam AWS akun saat ini.**  

```
Get-IAMInstanceProfile -InstanceProfileName ec2instancerole
```
**Output:**  

```
Arn                 : arn:aws:iam::123456789012:instance-profile/ec2instancerole
CreateDate          : 2/17/2015 2:49:04 PM
InstanceProfileId   : HH36PTZQJUR32EXAMPLE1
InstanceProfileName : ec2instancerole
Path                : /
Roles               : {ec2instancerole}
```
+  Untuk detail API, lihat [GetInstanceProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMInstanceProfileForRole`
<a name="iam_ListInstanceProfilesForRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMInstanceProfileForRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian profil instance yang terkait dengan peran`ec2instancerole`.**  

```
Get-IAMInstanceProfileForRole -RoleName ec2instancerole
```
**Output:**  

```
      Arn                 : arn:aws:iam::123456789012:instance-profile/ec2instancerole
      CreateDate          : 2/17/2015 2:49:04 PM
      InstanceProfileId   : HH36PTZQJUR32EXAMPLE1
      InstanceProfileName : ec2instancerole
      Path                : /
      Roles               : {ec2instancerole}
```
+  Untuk detail API, lihat [ListInstanceProfilesForRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMInstanceProfileList`
<a name="iam_ListInstanceProfiles_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMInstanceProfileList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan koleksi profil instance didefinisikan dalam saat ini Akun AWS.**  

```
Get-IAMInstanceProfileList
```
**Output:**  

```
Arn                 : arn:aws:iam::123456789012:instance-profile/ec2instancerole
CreateDate          : 2/17/2015 2:49:04 PM
InstanceProfileId   : HH36PTZQJUR32EXAMPLE1
InstanceProfileName : ec2instancerole
Path                : /
Roles               : {ec2instancerole}
```
+  Untuk detail API, lihat [ListInstanceProfiles](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMLoginProfile`
<a name="iam_GetLoginProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMLoginProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan tanggal pembuatan kata sandi dan apakah reset kata sandi diperlukan untuk pengguna `David` IAM.**  

```
Get-IAMLoginProfile -UserName David
```
**Output:**  

```
CreateDate                   PasswordResetRequired                 UserName
----------                   ---------------------                 --------
12/10/2014 3:39:44 PM        False                                 David
```
+  Untuk detail API, lihat [GetLoginProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMMFADevice`
<a name="iam_ListMfaDevices_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMMFADevice`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian tentang perangkat MFA yang ditetapkan untuk pengguna IAM. `David` Dalam contoh ini Anda dapat mengatakan bahwa itu adalah perangkat virtual karena `SerialNumber` adalah ARN bukan nomor seri aktual perangkat fisik.**  

```
Get-IAMMFADevice -UserName David
```
**Output:**  

```
EnableDate                  SerialNumber                           UserName
----------                  ------------                           --------
4/8/2015 9:41:10 AM         arn:aws:iam::123456789012:mfa/David    David
```
+  Untuk detail API, lihat [ListMfaDevices](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMOpenIDConnectProvider`
<a name="iam_GetOpenIdConnectProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMOpenIDConnectProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian tentang penyedia OpenID Connect yang ARN adalah. `arn:aws:iam::123456789012:oidc-provider/accounts.google.com` `ClientIDList`Properti adalah koleksi yang berisi semua Klien yang IDs ditentukan untuk penyedia ini.**  

```
Get-IAMOpenIDConnectProvider -OpenIDConnectProviderArn arn:aws:iam::123456789012:oidc-provider/oidc.example.com
```
**Output:**  

```
ClientIDList         CreateDate                ThumbprintList                               Url
------------         ----------                --------------                               ---
{MyOIDCApp}          2/3/2015 3:00:30 PM       {12345abcdefghijk67890lmnopqrst98765uvwxy}   oidc.example.com
```
+  Untuk detail API, lihat [GetOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMOpenIDConnectProviderList`
<a name="iam_ListOpenIdConnectProviders_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMOpenIDConnectProviderList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan daftar ARNS dari semua penyedia OpenID Connect yang didefinisikan dalam Akun AWS saat ini.**  

```
Get-IAMOpenIDConnectProviderList
```
**Output:**  

```
Arn
---
arn:aws:iam::123456789012:oidc-provider/server.example.com
arn:aws:iam::123456789012:oidc-provider/another.provider.com
```
+  Untuk detail API, lihat [ListOpenIdConnectProviders](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMPolicy`
<a name="iam_GetPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian tentang kebijakan terkelola yang ARN. `arn:aws:iam::123456789012:policy/MySamplePolicy`**  

```
Get-IAMPolicy -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy
```
**Output:**  

```
Arn              : arn:aws:iam::aws:policy/MySamplePolicy
AttachmentCount  : 0
CreateDate       : 2/6/2015 10:40:08 AM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : Z27SI6FQMGNQ2EXAMPLE1
PolicyName       : MySamplePolicy
UpdateDate       : 2/6/2015 10:40:08 AM
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMPolicyList`
<a name="iam_ListPolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMPolicyList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan kumpulan dari tiga kebijakan terkelola pertama yang tersedia di AWS akun saat ini. Karena tidak `-scope` ditentukan, defaultnya `all` dan mencakup kebijakan terkelola dan yang AWS dikelola pelanggan.**  

```
Get-IAMPolicyList -MaxItem 3
```
**Output:**  

```
Arn              : arn:aws:iam::aws:policy/AWSDirectConnectReadOnlyAccess
AttachmentCount  : 0
CreateDate       : 2/6/2015 10:40:08 AM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : Z27SI6FQMGNQ2EXAMPLE1
PolicyName       : AWSDirectConnectReadOnlyAccess
UpdateDate       : 2/6/2015 10:40:08 AM
      
Arn              : arn:aws:iam::aws:policy/AmazonGlacierReadOnlyAccess
AttachmentCount  : 0
CreateDate       : 2/6/2015 10:40:27 AM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : NJKMU274MET4EEXAMPLE2
PolicyName       : AmazonGlacierReadOnlyAccess
UpdateDate       : 2/6/2015 10:40:27 AM
      
Arn              : arn:aws:iam::aws:policy/AWSMarketplaceFullAccess
AttachmentCount  : 0
CreateDate       : 2/11/2015 9:21:45 AM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : 5ULJSO2FYVPYGEXAMPLE3
PolicyName       : AWSMarketplaceFullAccess
UpdateDate       : 2/11/2015 9:21:45 AM
```
**Contoh 2: Contoh ini mengembalikan kumpulan dari dua kebijakan terkelola pelanggan pertama yang tersedia di AWS akun saat ini. Ini digunakan `-Scope local` untuk membatasi output hanya pada kebijakan yang dikelola pelanggan.**  

```
Get-IAMPolicyList -Scope local -MaxItem 2
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:policy/MyLocalPolicy
AttachmentCount  : 0
CreateDate       : 2/12/2015 9:39:09 AM
DefaultVersionId : v2
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : SQVCBLC4VAOUCEXAMPLE4
PolicyName       : MyLocalPolicy
UpdateDate       : 2/12/2015 9:39:53 AM

Arn              : arn:aws:iam::123456789012:policy/policyforec2instancerole
AttachmentCount  : 1
CreateDate       : 2/17/2015 2:51:38 PM
DefaultVersionId : v11
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : X5JPBLJH2Z2SOEXAMPLE5
PolicyName       : policyforec2instancerole
UpdateDate       : 2/18/2015 8:52:31 AM
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMPolicyVersion`
<a name="iam_GetPolicyVersion_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMPolicyVersion`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan dokumen kebijakan untuk `v2` versi kebijakan yang ARN-nya. `arn:aws:iam::123456789012:policy/MyManagedPolicy` Dokumen kebijakan dalam `Document` properti adalah URL yang dikodekan dan diterjemahkan dalam contoh ini dengan metode.NET. `UrlDecode`**  

```
$results = Get-IAMPolicyVersion -PolicyArn arn:aws:iam::123456789012:policy/MyManagedPolicy -VersionId v2
$results
```
**Output:**  

```
CreateDate             Document                                        IsDefaultVersion     VersionId
----------             --------                                        ----------------     ---------
2/12/2015 9:39:53 AM   %7B%0A%20%20%22Version%22%3A%20%222012-10...    True                 v2

[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
$policy = [System.Web.HttpUtility]::UrlDecode($results.Document)
$policy
{
  "Version":"2012-10-17",		 	 	 
  "Statement": 
    {
      "Effect": "Allow",
      "Action": [
        "ec2:DescribeInstances"
      ],
      "Resource": [
        "arn:aws:ec2:us-east-1:555555555555:instance/i-b188560f"
      ]
    }
}
```
+  Untuk detail API, lihat [GetPolicyVersion](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMPolicyVersionList`
<a name="iam_ListPolicyVersions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMPolicyVersionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan daftar versi kebijakan yang tersedia yang ARN-nya. `arn:aws:iam::123456789012:policy/MyManagedPolicy` Untuk mendapatkan dokumen kebijakan untuk versi tertentu, gunakan `Get-IAMPolicyVersion` perintah dan tentukan `VersionId` yang Anda inginkan.**  

```
Get-IAMPolicyVersionList -PolicyArn arn:aws:iam::123456789012:policy/MyManagedPolicy
```
**Output:**  

```
CreateDate                   Document                 IsDefaultVersion                  VersionId
----------                   --------                 ----------------                  ---------
2/12/2015 9:39:53 AM                                  True                              v2
2/12/2015 9:39:09 AM                                  False                             v1
```
+  Untuk detail API, lihat [ListPolicyVersions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMRole`
<a name="iam_GetRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan rincian`lamda_exec_role`. Ini termasuk dokumen kebijakan kepercayaan yang menentukan siapa yang dapat mengambil peran ini. Dokumen kebijakan adalah URL yang dikodekan dan dapat diterjemahkan menggunakan metode.NET. `UrlDecode` Dalam contoh ini, kebijakan asli menghapus semua spasi putih sebelum diunggah ke kebijakan. Untuk melihat dokumen kebijakan izin yang menentukan apa yang dapat dilakukan oleh seseorang yang mengasumsikan peran tersebut, gunakan kebijakan `Get-IAMRolePolicy` for inline, dan `Get-IAMPolicyVersion` untuk kebijakan terkelola terlampir.**  

```
$results = Get-IamRole -RoleName lambda_exec_role
$results | Format-List
```
**Output:**  

```
Arn                      : arn:aws:iam::123456789012:role/lambda_exec_role
AssumeRolePolicyDocument : %7B%22Version%22%3A%222012-10-17%22%2C%22Statement%22%3A%5B%7B%22Sid%22
                           %3A%22%22%2C%22Effect%22%3A%22Allow%22%2C%22Principal%22%3A%7B%22Service
                           %22%3A%22lambda.amazonaws.com%22%7D%2C%22Action%22%3A%22sts%3AAssumeRole
                           %22%7D%5D%7D
CreateDate               : 4/2/2015 9:16:11 AM
Path                     : /
RoleId                   : 2YBIKAIBHNKB4EXAMPLE1
RoleName                 : lambda_exec_role
```

```
$policy = [System.Web.HttpUtility]::UrlDecode($results.AssumeRolePolicyDocument)
$policy
```
**Output:**  

```
{"Version":"2012-10-17",		 	 	 "Statement":[{"Sid":"","Effect":"Allow","Principal":{"Service":"lambda.amazonaws.com"},"Action":"sts:AssumeRole"}]}
```
+  Untuk detail API, lihat [GetRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMRoleList`
<a name="iam_ListRoles_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRoleList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil daftar semua peran IAM di. Akun AWS**  

```
Get-IAMRoleList
```
+  Untuk detail API, lihat [ListRoles](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMRolePolicy`
<a name="iam_GetRolePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRolePolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan dokumen kebijakan izin untuk kebijakan bernama `oneClick_lambda_exec_role_policy` yang disematkan dalam peran IAM. `lamda_exec_role` Dokumen kebijakan yang dihasilkan adalah URL yang dikodekan. Ini diterjemahkan dalam contoh ini dengan `UrlDecode` metode.NET.**  

```
$results = Get-IAMRolePolicy -RoleName lambda_exec_role -PolicyName oneClick_lambda_exec_role_policy
$results
```
**Output:**  

```
PolicyDocument                                            PolicyName                           UserName
--------------                                            ----------                           --------
%7B%0A%20%20%22Version%22%3A%20%222012-10-17%22%2C%...    oneClick_lambda_exec_role_policy     lambda_exec_role
```

```
[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
[System.Web.HttpUtility]::UrlDecode($results.PolicyDocument)
```
**Output:**  

```
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "logs:*"
      ],
      "Resource": "arn:aws:logs:us-east-1:555555555555:log-group:/aws/lambda/aws-example-function:*"
    },
    {
      "Effect": "Allow",
      "Action": [
        "s3:GetObject",
        "s3:PutObject"
      ],
      "Resource": [
        "arn:aws:s3:::amzn-s3-demo-bucket/*"
      ]
    }
  ]
}
```
+  Untuk detail API, lihat [GetRolePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMRolePolicyList`
<a name="iam_ListRolePolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRolePolicyList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan daftar nama kebijakan inline yang disematkan dalam peran IAM. `lamda_exec_role` Untuk melihat detail kebijakan inline, gunakan perintah`Get-IAMRolePolicy`.**  

```
Get-IAMRolePolicyList -RoleName lambda_exec_role
```
**Output:**  

```
oneClick_lambda_exec_role_policy
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMRoleTagList`
<a name="iam_ListRoleTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRoleTagList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil tag yang terkait dengan peran..**  

```
Get-IAMRoleTagList -RoleName MyRoleName
```
+  Untuk detail API, lihat [ListRoleTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMSAMLProvider`
<a name="iam_GetSamlProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMSAMLProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil detail tentang penyedia SAMP 2.0 yang ARM adalah arn:aws:iam: :123456789012: Saml-provider/Samladfs. Responsnya mencakup dokumen metadata yang Anda dapatkan dari penyedia identitas untuk membuat entitas penyedia AWS SAMP serta tanggal pembuatan dan kedaluwarsa.**  

```
Get-IAMSAMLProvider -SAMLProviderArn arn:aws:iam::123456789012:saml-provider/SAMLADFS
```
**Output:**  

```
CreateDate                 SAMLMetadataDocument                                          ValidUntil
----------                 --------------------                                          ----------
12/23/2014 12:16:55 PM    <EntityDescriptor ID="_12345678-1234-5678-9012-example1...    12/23/2114 12:16:54 PM
```
+  Untuk detail API, lihat [GetSamlProvider](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMSAMLProviderList`
<a name="iam_ListSAMLProviders_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMSAMLProviderList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil daftar penyedia SAMP 2.0 yang dibuat saat ini. Akun AWS Ini mengembalikan ARN, tanggal pembuatan, dan tanggal kedaluwarsa untuk setiap penyedia SAFL.**  

```
Get-IAMSAMLProviderList
```
**Output:**  

```
Arn                                                 CreateDate                      ValidUntil
---                                                 ----------                      ----------
arn:aws:iam::123456789012:saml-provider/SAMLADFS    12/23/2014 12:16:55 PM          12/23/2114 12:16:54 PM
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMServerCertificate`
<a name="iam_GetServerCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMServerCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil rincian tentang sertifikat server bernama`MyServerCertificate`. Anda dapat menemukan rincian sertifikat di `CertificateBody` dan `ServerCertificateMetadata` properti.**  

```
$result = Get-IAMServerCertificate -ServerCertificateName MyServerCertificate
$result | format-list
```
**Output:**  

```
CertificateBody           : -----BEGIN CERTIFICATE-----
                            MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
                            VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
                            b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
                            BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
                            MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
                            VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
                            b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
                            YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
                            21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
                            rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
                            Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
                            nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
                            FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
                            NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=
                            -----END CERTIFICATE-----
CertificateChain          : 
ServerCertificateMetadata : Amazon.IdentityManagement.Model.ServerCertificateMetadata
```

```
$result.ServerCertificateMetadata
```
**Output:**  

```
Arn                   : arn:aws:iam::123456789012:server-certificate/Org1/Org2/MyServerCertificate
Expiration            : 1/14/2018 9:52:36 AM
Path                  : /Org1/Org2/
ServerCertificateId   : ASCAJIFEXAMPLE17HQZYW
ServerCertificateName : MyServerCertificate
UploadDate            : 4/21/2015 11:14:16 AM
```
+  Untuk detail API, lihat [GetServerCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMServerCertificateList`
<a name="iam_ListServerCertificates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMServerCertificateList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil daftar sertifikat server yang telah diunggah ke saat ini. Akun AWS**  

```
Get-IAMServerCertificateList
```
**Output:**  

```
Arn                   : arn:aws:iam::123456789012:server-certificate/Org1/Org2/MyServerCertificate
Expiration            : 1/14/2018 9:52:36 AM
Path                  : /Org1/Org2/
ServerCertificateId   : ASCAJIFEXAMPLE17HQZYW
ServerCertificateName : MyServerCertificate
UploadDate            : 4/21/2015 11:14:16 AM
```
+  Untuk detail API, lihat [ListServerCertificates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMServiceLastAccessedDetail`
<a name="iam_GetServiceLastAccessedDetails_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMServiceLastAccessedDetail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memberikan rincian layanan yang terakhir diakses oleh entitas IAM (pengguna, grup, peran, atau kebijakan) yang terkait dalam panggilan Permintaan.**  

```
Request-IAMServiceLastAccessedDetail -Arn arn:aws:iam::123456789012:user/TestUser
```
**Output:**  

```
f0b7a819-eab0-929b-dc26-ca598911cb9f
```

```
Get-IAMServiceLastAccessedDetail -JobId f0b7a819-eab0-929b-dc26-ca598911cb9f
```
+  Untuk detail API, lihat [GetServiceLastAccessedDetails](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMServiceLastAccessedDetailWithEntity`
<a name="iam_GetServiceLastAccessedDetailsWithEntities_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMServiceLastAccessedDetailWithEntity`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memberikan stempel waktu terakhir yang diakses untuk layanan dalam permintaan oleh entitas IAM masing-masing.**  

```
$results = Get-IAMServiceLastAccessedDetailWithEntity -JobId f0b7a819-eab0-929b-dc26-ca598911cb9f -ServiceNamespace ec2
$results
```
**Output:**  

```
EntityDetailsList : {Amazon.IdentityManagement.Model.EntityDetails}
Error             : 
IsTruncated       : False
JobCompletionDate : 12/29/19 11:19:31 AM
JobCreationDate   : 12/29/19 11:19:31 AM
JobStatus         : COMPLETED
Marker            :
```

```
$results.EntityDetailsList
```
**Output:**  

```
EntityInfo                                 LastAuthenticated
----------                                 -----------------
Amazon.IdentityManagement.Model.EntityInfo 11/16/19 3:47:00 PM
```

```
$results.EntityInfo
```
**Output:**  

```
Arn  : arn:aws:iam::123456789012:user/TestUser
Id   : AIDA4NBK5CXF5TZHU1234
Name : TestUser
Path : /
Type : USER
```
+  Untuk detail API, lihat [GetServiceLastAccessedDetailsWithEntities](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMSigningCertificate`
<a name="iam_ListSigningCertificates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMSigningCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil rincian tentang sertifikat penandatanganan yang terkait dengan nama `Bob` pengguna.**  

```
Get-IAMSigningCertificate -UserName Bob
```
**Output:**  

```
CertificateBody : -----BEGIN CERTIFICATE-----
                  MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
                  VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
                  b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
                  BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
                  MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
                  VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
                  b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
                  YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
                  21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
                  rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
                  Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
                  nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
                  FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
                  NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=
                  -----END CERTIFICATE-----
CertificateId   : Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU
Status          : Active
UploadDate      : 4/20/2015 1:26:01 PM
UserName        : Bob
```
+  Untuk detail API, lihat [ListSigningCertificates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMUser`
<a name="iam_GetUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil rincian tentang nama `David` pengguna.**  

```
Get-IAMUser -UserName David
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:user/David
CreateDate       : 12/10/2014 3:39:27 PM
PasswordLastUsed : 3/19/2015 8:44:04 AM
Path             : /
UserId           : Y4FKWQCXTA52QEXAMPLE1
UserName         : David
```
**Contoh 2: Contoh ini mengambil detail tentang pengguna IAM yang saat ini masuk.**  

```
Get-IAMUser
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:user/Bob
CreateDate       : 10/16/2014 9:03:09 AM
PasswordLastUsed : 3/4/2015 12:12:33 PM
Path             : /
UserId           : 7K3GJEANSKZF2EXAMPLE2
UserName         : Bob
```
+  Untuk detail API, lihat [GetUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMUserList`
<a name="iam_ListUsers_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUserList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil koleksi pengguna saat ini Akun AWS.**  

```
Get-IAMUserList
```
**Output:**  

```
      Arn              : arn:aws:iam::123456789012:user/Administrator
      CreateDate       : 10/16/2014 9:03:09 AM
      PasswordLastUsed : 3/4/2015 12:12:33 PM
      Path             : /
      UserId           : 7K3GJEANSKZF2EXAMPLE1
      UserName         : Administrator
      
      Arn              : arn:aws:iam::123456789012:user/Bob
      CreateDate       : 4/6/2015 12:54:42 PM
      PasswordLastUsed : 1/1/0001 12:00:00 AM
      Path             : /
      UserId           : L3EWNONDOM3YUEXAMPLE2
      UserName         : bab
      
      Arn              : arn:aws:iam::123456789012:user/David
      CreateDate       : 12/10/2014 3:39:27 PM
      PasswordLastUsed : 3/19/2015 8:44:04 AM
      Path             : /
      UserId           : Y4FKWQCXTA52QEXAMPLE3
      UserName         : David
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMUserPolicy`
<a name="iam_GetUserPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUserPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil rincian kebijakan inline bernama `Davids_IAM_Admin_Policy` yang disematkan dalam nama pengguna IAM. `David` Dokumen kebijakan adalah URL yang dikodekan.**  

```
$results = Get-IAMUserPolicy -PolicyName Davids_IAM_Admin_Policy -UserName David
$results
```
**Output:**  

```
PolicyDocument                                            PolicyName                    UserName
--------------                                            ----------                    --------
%7B%0A%20%20%22Version%22%3A%20%222012-10-17%22%2C%...    Davids_IAM_Admin_Policy       David

[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
[System.Web.HttpUtility]::UrlDecode($results.PolicyDocument)
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "iam:GetUser",
        "iam:ListUsers"
      ],
      "Resource": [
        "arn:aws:iam::111122223333:user/*"
      ]
    }
  ]
}
```
+  Untuk detail API, lihat [GetUserPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMUserPolicyList`
<a name="iam_ListUserPolicies_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUserPolicyList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil daftar nama kebijakan inline yang disematkan dalam nama pengguna IAM. `David`**  

```
Get-IAMUserPolicyList -UserName David
```
**Output:**  

```
Davids_IAM_Admin_Policy
```
+  Untuk detail API, lihat [ListUserPolicies](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMUserTagList`
<a name="iam_ListUserTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUserTagList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil tag yang terkait dengan pengguna.**  

```
Get-IAMUserTagList -UserName joe
```
+  Untuk detail API, lihat [ListUserTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-IAMVirtualMFADevice`
<a name="iam_ListVirtualMfaDevices_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMVirtualMFADevice`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil koleksi perangkat MFA virtual yang ditetapkan untuk pengguna di AWS akun. `User`Properti masing-masing adalah objek dengan detail pengguna IAM tempat perangkat ditugaskan.**  

```
Get-IAMVirtualMFADevice -AssignmentStatus Assigned
```
**Output:**  

```
Base32StringSeed : 
EnableDate       : 4/13/2015 12:03:42 PM
QRCodePNG        : 
SerialNumber     : arn:aws:iam::123456789012:mfa/David
User             : Amazon.IdentityManagement.Model.User

Base32StringSeed : 
EnableDate       : 4/13/2015 12:06:41 PM
QRCodePNG        : 
SerialNumber     : arn:aws:iam::123456789012:mfa/root-account-mfa-device
User             : Amazon.IdentityManagement.Model.User
```
+  Untuk detail API, lihat [ListVirtualMfaDevices](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMAccessKey`
<a name="iam_CreateAccessKey_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMAccessKey`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kunci akses baru dan secret access key pair dan menetapkannya ke pengguna`David`. Pastikan Anda menyimpan `AccessKeyId` dan `SecretAccessKey` nilai ke file karena ini adalah satu-satunya waktu Anda dapat memperoleh file`SecretAccessKey`. Anda tidak dapat mengambilnya di lain waktu. Jika Anda kehilangan kunci rahasia, Anda harus membuat access key pair baru.**  

```
New-IAMAccessKey -UserName David
```
**Output:**  

```
AccessKeyId     : AKIAIOSFODNN7EXAMPLE
CreateDate      : 4/13/2015 1:00:42 PM
SecretAccessKey : wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY
Status          : Active
UserName        : David
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMAccountAlias`
<a name="iam_CreateAccountAlias_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMAccountAlias`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah alias akun untuk AWS `mycompanyaws` akun Anda. Alamat halaman logon pengguna diarahkan ke panyaws.signin.aws.amazon.com/console. https://mycom URL asli menggunakan nomor ID akun Anda, bukan alias (https://<accountidnumber>.signin.aws.amazon.com/console) terus berfungsi. Namun, semua berbasis alias yang didefinisikan sebelumnya URLs berhenti bekerja.**  

```
New-IAMAccountAlias -AccountAlias mycompanyaws
```
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMGroup`
<a name="iam_CreateGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat grup IAM baru bernama`Developers`.**  

```
New-IAMGroup -GroupName Developers
```
**Output:**  

```
Arn        : arn:aws:iam::123456789012:group/Developers
CreateDate : 4/14/2015 11:21:31 AM
GroupId    : QNEJ5PM4NFSQCEXAMPLE1
GroupName  : Developers
Path       : /
```
+  Untuk detail API, lihat [CreateGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMInstanceProfile`
<a name="iam_CreateInstanceProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMInstanceProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat profil instans IAM baru bernama`ProfileForDevEC2Instance`. Anda harus menjalankan `Add-IAMRoleToInstanceProfile` perintah secara terpisah untuk mengaitkan profil instance dengan peran IAM yang ada yang memberikan izin ke instance. Terakhir, lampirkan profil instance ke instans EC2 saat Anda meluncurkannya. Untuk melakukan itu, gunakan `New-EC2Instance` cmdlet dengan parameter `InstanceProfile_Arn` or`InstanceProfile_Name`.**  

```
New-IAMInstanceProfile -InstanceProfileName ProfileForDevEC2Instance
```
**Output:**  

```
Arn                 : arn:aws:iam::123456789012:instance-profile/ProfileForDevEC2Instance
CreateDate          : 4/14/2015 11:31:39 AM
InstanceProfileId   : DYMFXL556EY46EXAMPLE1
InstanceProfileName : ProfileForDevEC2Instance
Path                : /
Roles               : {}
```
+  Untuk detail API, lihat [CreateInstanceProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMLoginProfile`
<a name="iam_CreateLoginProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMLoginProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kata sandi (sementara) untuk pengguna IAM bernama Bob, dan menetapkan tanda yang mengharuskan pengguna untuk mengubah kata sandi saat `Bob` masuk berikutnya.**  

```
New-IAMLoginProfile -UserName Bob -Password P@ssw0rd -PasswordResetRequired $true
```
**Output:**  

```
CreateDate                    PasswordResetRequired                UserName
----------                    ---------------------                --------
4/14/2015 12:26:30 PM         True                                 Bob
```
+  Untuk detail API, lihat [CreateLoginProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMOpenIDConnectProvider`
<a name="iam_CreateOpenIdConnectProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMOpenIDConnectProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat penyedia IAM OIDC yang terkait dengan layanan penyedia kompatibel OIDC yang ditemukan di URL `https://example.oidcprovider.com` dan ID klien. `my-testapp-1` Penyedia OIDC memasok sidik jari. Untuk mengautentikasi sidik jari, ikuti langkah-langkah di http://docs.aws.amazon. com/IAM/latest/UserGuide/identity- providers-oidc-obtain-thumbprint .html**.  

```
New-IAMOpenIDConnectProvider -Url https://example.oidcprovider.com -ClientIDList my-testapp-1 -ThumbprintList 990F419EXAMPLEECF12DDEDA5EXAMPLE52F20D9E
```
**Output:**  

```
arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com
```
+  Untuk detail API, lihat [CreateOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMPolicy`
<a name="iam_CreatePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kebijakan IAM baru di AWS akun saat ini bernama `MySamplePolicy` File `MySamplePolicy.json` menyediakan konten kebijakan. Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses file kebijakan JSON.**  

```
New-IAMPolicy -PolicyName MySamplePolicy -PolicyDocument (Get-Content -Raw MySamplePolicy.json)
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:policy/MySamplePolicy
AttachmentCount  : 0
CreateDate       : 4/14/2015 2:45:59 PM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : LD4KP6HVFE7WGEXAMPLE1
PolicyName       : MySamplePolicy
UpdateDate       : 4/14/2015 2:45:59 PM
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMPolicyVersion`
<a name="iam_CreatePolicyVersion_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMPolicyVersion`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat versi “v2" baru dari kebijakan IAM yang ARN-nya `arn:aws:iam::123456789012:policy/MyPolicy` dan menjadikannya versi default. `NewPolicyVersion.json`File tersebut menyediakan konten kebijakan. Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses file kebijakan JSON.**  

```
New-IAMPolicyVersion -PolicyArn arn:aws:iam::123456789012:policy/MyPolicy -PolicyDocument (Get-content -Raw NewPolicyVersion.json) -SetAsDefault $true
```
**Output:**  

```
CreateDate                           Document                  IsDefaultVersion             VersionId
----------                           --------                  ----------------             ---------
4/15/2015 10:54:54 AM                                          True                         v2
```
+  Untuk detail API, lihat [CreatePolicyVersion](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMRole`
<a name="iam_CreateRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat peran baru bernama `MyNewRole` dan melampirkan padanya kebijakan yang ditemukan dalam file`NewRoleTrustPolicy.json`. Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses file kebijakan JSON. Dokumen kebijakan yang ditampilkan dalam output adalah URL yang dikodekan. Ini diterjemahkan dalam contoh ini dengan `UrlDecode` metode.NET.**  

```
$results = New-IAMRole -AssumeRolePolicyDocument (Get-Content -raw NewRoleTrustPolicy.json) -RoleName MyNewRole
$results
```
**Output:**  

```
Arn                      : arn:aws:iam::123456789012:role/MyNewRole
AssumeRolePolicyDocument : %7B%0D%0A%20%20%22Version%22%3A%20%222012-10-17%22%2C%0D%0A%20%20%22Statement%22
                           %3A%20%5B%0D%0A%20%20%20%20%7B%0D%0A%20%20%20%20%20%20%22Sid%22%3A%20%22%22%2C
                           %0D%0A%20%20%20%20%20%20%22Effect%22%3A%20%22Allow%22%2C%0D%0A%20%20%20%20%20%20
                           %22Principal%22%3A%20%7B%0D%0A%20%20%20%20%20%20%20%20%22AWS%22%3A%20%22arn%3Aaws
                           %3Aiam%3A%3A123456789012%3ADavid%22%0D%0A%20%20%20%20%20%20%7D%2C%0D%0A%20%20%20
                           %20%20%20%22Action%22%3A%20%22sts%3AAssumeRole%22%0D%0A%20%20%20%20%7D%0D%0A%20
                           %20%5D%0D%0A%7D
CreateDate               : 4/15/2015 11:04:23 AM
Path                     : /
RoleId                   : V5PAJI2KPN4EAEXAMPLE1
RoleName                 : MyNewRole

[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
[System.Web.HttpUtility]::UrlDecode($results.AssumeRolePolicyDocument)
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Sid": "",
      "Effect": "Allow",
      "Principal": {
        "AWS": "arn:aws:iam::123456789012:David"
      },
      "Action": "sts:AssumeRole"
    }
  ]
}
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMSAMLProvider`
<a name="iam_CreateSAMLProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMSAMLProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat entitas penyedia SAMP baru di IAM. Ini dinamai `MySAMLProvider` dan dijelaskan oleh dokumen metadata SAMP yang ditemukan dalam file`SAMLMetaData.xml`, yang diunduh secara terpisah dari situs web penyedia layanan SAMP.**  

```
New-IAMSAMLProvider -Name MySAMLProvider -SAMLMetadataDocument (Get-Content -Raw SAMLMetaData.xml)
```
**Output:**  

```
arn:aws:iam::123456789012:saml-provider/MySAMLProvider
```
+  Untuk detail API, lihat [Membuat SAMLProvider](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMServiceLinkedRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat peran servicelinked untuk layanan penskalaan otomatis.**  

```
New-IAMServiceLinkedRole -AWSServiceName autoscaling.amazonaws.com -CustomSuffix RoleNameEndsWithThis -Description "My service-linked role to support autoscaling"
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMUser`
<a name="iam_CreateUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat pengguna IAM bernama`Bob`. Jika Bob perlu masuk ke AWS konsol, maka Anda harus menjalankan perintah secara terpisah `New-IAMLoginProfile` untuk membuat profil masuk dengan kata sandi. Jika Bob perlu menjalankan AWS PowerShell atau perintah CLI lintas platform atau AWS melakukan panggilan API, maka Anda harus menjalankan `New-IAMAccessKey` perintah secara terpisah untuk membuat kunci akses.**  

```
New-IAMUser -UserName Bob
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:user/Bob
CreateDate       : 4/22/2015 12:02:11 PM
PasswordLastUsed : 1/1/0001 12:00:00 AM
Path             : /
UserId           : AIDAJWGEFDMEMEXAMPLE1
UserName         : Bob
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-IAMVirtualMFADevice`
<a name="iam_CreateVirtualMfaDevice_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMVirtualMFADevice`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat perangkat MFA virtual baru. Baris 2 dan 3 mengekstrak `Base32StringSeed` nilai yang dibutuhkan program perangkat lunak MFA virtual untuk membuat akun (sebagai alternatif dari kode QR). Setelah Anda mengkonfigurasi program dengan nilai, dapatkan dua kode otentikasi berurutan dari program. Terakhir, gunakan perintah terakhir untuk menautkan perangkat MFA virtual ke pengguna IAM `Bob` dan menyinkronkan akun dengan dua kode otentikasi.**  

```
$Device = New-IAMVirtualMFADevice -VirtualMFADeviceName BobsMFADevice
$SR = New-Object System.IO.StreamReader($Device.Base32StringSeed)
$base32stringseed = $SR.ReadToEnd()
$base32stringseed   
CZWZMCQNW4DEXAMPLE3VOUGXJFZYSUW7EXAMPLECR4NJFD65GX2SLUDW2EXAMPLE
```
**Output:**  

```
-- Pause here to enter base-32 string seed code into virtual MFA program to register account. --

Enable-IAMMFADevice -SerialNumber $Device.SerialNumber -UserName Bob -AuthenticationCode1 123456 -AuthenticationCode2 789012
```
**Contoh 2: Contoh ini membuat perangkat MFA virtual baru. Baris 2 dan 3 mengekstrak `QRCodePNG` nilai dan menuliskannya ke file. Gambar ini dapat dipindai oleh program perangkat lunak MFA virtual untuk membuat akun (sebagai alternatif untuk memasukkan nilai StringSeed Base32 secara manual). Setelah Anda membuat akun di program MFA virtual Anda, dapatkan dua kode otentikasi berurutan dan masukkan dalam perintah terakhir untuk menautkan perangkat MFA virtual ke pengguna IAM dan menyinkronkan akun. `Bob`**  

```
$Device = New-IAMVirtualMFADevice -VirtualMFADeviceName BobsMFADevice
$BR = New-Object System.IO.BinaryReader($Device.QRCodePNG)
$BR.ReadBytes($BR.BaseStream.Length) | Set-Content -Encoding Byte -Path QRCode.png
```
**Output:**  

```
 -- Pause here to scan PNG with virtual MFA program to register account. -- 

Enable-IAMMFADevice -SerialNumber $Device.SerialNumber -UserName Bob -AuthenticationCode1 123456 -AuthenticationCode2 789012
```
+  Untuk detail API, lihat [CreateVirtualMfaDevice](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Publish-IAMServerCertificate`
<a name="iam_UploadServerCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-IAMServerCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengunggah sertifikat server baru ke akun IAM. File yang berisi badan sertifikat, kunci pribadi, dan (opsional) rantai sertifikat semuanya harus dikodekan PEM. Perhatikan bahwa parameter memerlukan konten sebenarnya dari file daripada nama file. Anda harus menggunakan parameter `-Raw` sakelar untuk berhasil memproses konten file.**  

```
Publish-IAMServerCertificate -ServerCertificateName MyTestCert -CertificateBody (Get-Content -Raw server.crt) -PrivateKey (Get-Content -Raw server.key)
```
**Output:**  

```
Arn                   : arn:aws:iam::123456789012:server-certificate/MyTestCert
Expiration            : 1/14/2018 9:52:36 AM
Path                  : /
ServerCertificateId   : ASCAJIEXAMPLE7J7HQZYW
ServerCertificateName : MyTestCert
UploadDate            : 4/21/2015 11:14:16 AM
```
+  Untuk detail API, lihat [UploadServerCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Publish-IAMSigningCertificate`
<a name="iam_UploadSigningCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-IAMSigningCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengunggah sertifikat penandatanganan X.509 baru dan mengaitkannya dengan nama pengguna IAM. `Bob` File yang berisi badan sertifikat dikodekan PEM. `CertificateBody`Parameter memerlukan konten sebenarnya dari file sertifikat daripada nama file. Anda harus menggunakan parameter `-Raw` sakelar untuk berhasil memproses file.**  

```
Publish-IAMSigningCertificate -UserName Bob -CertificateBody (Get-Content -Raw SampleSigningCert.pem)
```
**Output:**  

```
CertificateBody : -----BEGIN CERTIFICATE-----
                  MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
                  VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
                  b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
                  BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
                  MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
                  VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
                  b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
                  YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
                  21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
                  rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
                  Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
                  nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
                  FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
                  NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=
                  -----END CERTIFICATE-----
CertificateId   : Y3EK7RMEXAMPLESV33FCEXAMPLEHMJLU
Status          : Active
UploadDate      : 4/20/2015 1:26:01 PM
UserName        : Bob
```
+  Untuk detail API, lihat [UploadSigningCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-IAMGroupPolicy`
<a name="iam_AttachGroupPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-IAMGroupPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan kebijakan terkelola pelanggan yang diberi nama `TesterPolicy` ke grup IAM. `Testers` Pengguna dalam grup tersebut langsung terpengaruh oleh izin yang ditentukan dalam versi default kebijakan tersebut.**  

```
Register-IAMGroupPolicy -GroupName Testers -PolicyArn arn:aws:iam::123456789012:policy/TesterPolicy
```
**Contoh 2: Contoh ini melampirkan kebijakan AWS terkelola bernama `AdministratorAccess` ke grup IAM. `Admins` Pengguna dalam grup tersebut langsung terpengaruh oleh izin yang ditentukan dalam versi terbaru kebijakan tersebut.**  

```
Register-IAMGroupPolicy -GroupName Admins -PolicyArn arn:aws:iam::aws:policy/AdministratorAccess
```
+  Untuk detail API, lihat [AttachGroupPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-IAMRolePolicy`
<a name="iam_AttachRolePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-IAMRolePolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan kebijakan AWS terkelola bernama `SecurityAudit` ke peran IAM. `CoSecurityAuditors` Pengguna yang menganggap peran tersebut langsung terpengaruh oleh izin yang ditentukan dalam versi terbaru kebijakan tersebut.**  

```
Register-IAMRolePolicy -RoleName CoSecurityAuditors -PolicyArn arn:aws:iam::aws:policy/SecurityAudit
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-IAMUserPolicy`
<a name="iam_AttachUserPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-IAMUserPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melampirkan kebijakan AWS terkelola bernama `AmazonCognitoPowerUser` ke pengguna IAM. `Bob` Pengguna langsung terpengaruh oleh izin yang ditentukan dalam versi terbaru kebijakan tersebut.**  

```
Register-IAMUserPolicy -UserName Bob -PolicyArn arn:aws:iam::aws:policy/AmazonCognitoPowerUser
```
+  Untuk detail API, lihat [AttachUserPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMAccessKey`
<a name="iam_DeleteAccessKey_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMAccessKey`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus AWS access key pair dengan ID kunci `AKIAIOSFODNN7EXAMPLE` dari nama `Bob` pengguna.**  

```
Remove-IAMAccessKey -AccessKeyId AKIAIOSFODNN7EXAMPLE -UserName Bob -Force
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMAccountAlias`
<a name="iam_DeleteAccountAlias_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMAccountAlias`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus alias akun dari akun Anda Akun AWS. Halaman login pengguna dengan alias di https://mycom panyaws.signin.aws.amazon.com/console tidak lagi berfungsi. Sebagai gantinya, Anda harus menggunakan URL asli dengan nomor Akun AWS ID Anda di https://.signin.aws.amazon.com/console.** <accountidnumber>  

```
Remove-IAMAccountAlias -AccountAlias mycompanyaws
```
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMAccountPasswordPolicy`
<a name="iam_DeleteAccountPasswordPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMAccountPasswordPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus kebijakan kata sandi untuk Akun AWS dan mengatur ulang semua nilai ke default aslinya. Jika kebijakan kata sandi saat ini tidak ada, pesan galat berikut akan muncul: Kebijakan akun dengan nama PasswordPolicy tidak dapat ditemukan.**  

```
Remove-IAMAccountPasswordPolicy
```
+  Untuk detail API, lihat [DeleteAccountPasswordPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMClientIDFromOpenIDConnectProvider`
<a name="iam_RemoveClientIdFromOpenIdConnectProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMClientIDFromOpenIDConnectProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus ID klien `My-TestApp-3` dari daftar klien yang IDs terkait dengan penyedia IAM OIDC yang ARN-nya. `arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com`**  

```
Remove-IAMClientIDFromOpenIDConnectProvider -ClientID My-TestApp-3 -OpenIDConnectProviderArn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com
```
+  Untuk detail API, lihat [RemoveClientIdFromOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMGroup`
<a name="iam_DeleteGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus grup IAM bernama. `MyTestGroup` Perintah pertama menghapus setiap pengguna IAM yang merupakan anggota grup, dan perintah kedua menghapus grup IAM. Kedua perintah bekerja tanpa ada petunjuk untuk konfirmasi.**  

```
(Get-IAMGroup -GroupName MyTestGroup).Users | Remove-IAMUserFromGroup -GroupName MyTestGroup -Force
Remove-IAMGroup -GroupName MyTestGroup -Force
```
+  Untuk detail API, lihat [DeleteGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMGroupPolicy`
<a name="iam_DeleteGroupPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMGroupPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus kebijakan inline bernama `TesterPolicy` dari grup IAM. `Testers` Pengguna dalam grup tersebut segera kehilangan izin yang ditentukan dalam kebijakan tersebut.**  

```
Remove-IAMGroupPolicy -GroupName Testers -PolicyName TestPolicy
```
+  Untuk detail API, lihat [DeleteGroupPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMInstanceProfile`
<a name="iam_DeleteInstanceProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMInstanceProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus profil instans EC2 bernama. `MyAppInstanceProfile` Perintah pertama melepaskan peran apa pun dari profil instance, dan kemudian perintah kedua menghapus profil instance.**  

```
(Get-IAMInstanceProfile -InstanceProfileName MyAppInstanceProfile).Roles | Remove-IAMRoleFromInstanceProfile -InstanceProfileName MyAppInstanceProfile
Remove-IAMInstanceProfile -InstanceProfileName MyAppInstanceProfile
```
+  Untuk detail API, lihat [DeleteInstanceProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMLoginProfile`
<a name="iam_DeleteLoginProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMLoginProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus profil login dari pengguna IAM bernama. `Bob` Ini mencegah pengguna masuk ke konsol. AWS Itu tidak mencegah pengguna menjalankan AWS CLI, PowerShell, atau panggilan API apa pun menggunakan kunci AWS akses yang mungkin masih dilampirkan ke akun pengguna.**  

```
Remove-IAMLoginProfile -UserName Bob
```
+  Untuk detail API, lihat [DeleteLoginProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMOpenIDConnectProvider`
<a name="iam_DeleteOpenIdConnectProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMOpenIDConnectProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus penyedia IAM OIDC yang terhubung ke penyedia. `example.oidcprovider.com` Pastikan Anda memperbarui atau menghapus peran apa pun yang mereferensikan penyedia ini dalam `Principal` elemen kebijakan kepercayaan peran.**  

```
Remove-IAMOpenIDConnectProvider -OpenIDConnectProviderArn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com
```
+  Untuk detail API, lihat [DeleteOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMPolicy`
<a name="iam_DeletePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus kebijakan `arn:aws:iam::123456789012:policy/MySamplePolicy` ARN-nya. Sebelum Anda dapat menghapus kebijakan, Anda harus terlebih dahulu menghapus semua versi kecuali default dengan menjalankan`Remove-IAMPolicyVersion`. Anda juga harus melepaskan kebijakan dari setiap pengguna, grup, atau peran IAM.**  

```
Remove-IAMPolicy -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy
```
**Contoh 2: Contoh ini menghapus kebijakan dengan terlebih dahulu menghapus semua versi kebijakan non-default, melepaskannya dari semua entitas IAM terlampir, dan akhirnya menghapus kebijakan itu sendiri. Baris pertama mengambil objek kebijakan. Baris kedua mengambil semua versi kebijakan yang tidak ditandai sebagai versi default ke dalam koleksi dan kemudian menghapus setiap kebijakan dalam koleksi. Baris ketiga mengambil semua pengguna, grup, dan peran IAM yang dilampirkan kebijakan tersebut. Baris empat hingga enam melepaskan kebijakan dari setiap entitas terlampir. Baris terakhir menggunakan perintah ini untuk menghapus kebijakan terkelola serta versi default yang tersisa. Contohnya termasuk parameter `-Force` sakelar pada baris apa pun yang membutuhkannya untuk menekan permintaan konfirmasi.**  

```
$pol = Get-IAMPolicy -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy
Get-IAMPolicyVersions -PolicyArn $pol.Arn | where {-not $_.IsDefaultVersion} | Remove-IAMPolicyVersion -PolicyArn $pol.Arn -force
$attached = Get-IAMEntitiesForPolicy -PolicyArn $pol.Arn
$attached.PolicyGroups | Unregister-IAMGroupPolicy -PolicyArn $pol.arn
$attached.PolicyRoles | Unregister-IAMRolePolicy -PolicyArn $pol.arn
$attached.PolicyUsers | Unregister-IAMUserPolicy -PolicyArn $pol.arn
Remove-IAMPolicy $pol.Arn -Force
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMPolicyVersion`
<a name="iam_DeletePolicyVersion_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMPolicyVersion`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus versi yang diidentifikasi sebagai `v2` dari kebijakan yang `arn:aws:iam::123456789012:policy/MySamplePolicy` ARN-nya.**  

```
Remove-IAMPolicyVersion -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy -VersionID v2
```
**Contoh 2: Contoh ini menghapus kebijakan dengan terlebih dahulu menghapus semua versi kebijakan non-default dan kemudian menghapus kebijakan itu sendiri. Baris pertama mengambil objek kebijakan. Baris kedua mengambil semua versi kebijakan yang tidak ditandai sebagai default ke dalam koleksi dan kemudian menggunakan perintah ini untuk menghapus setiap kebijakan dalam koleksi. Baris terakhir menghapus kebijakan itu sendiri serta versi default yang tersisa. Perhatikan bahwa agar berhasil menghapus kebijakan terkelola, Anda juga harus melepaskan kebijakan dari pengguna, grup, atau peran apa pun dengan menggunakan perintah`Unregister-IAMUserPolicy`,`Unregister-IAMGroupPolicy`, dan `Unregister-IAMRolePolicy` perintah. Lihat contoh untuk `Remove-IAMPolicy` cmdlet.**  

```
$pol = Get-IAMPolicy -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy
Get-IAMPolicyVersions -PolicyArn $pol.Arn | where {-not $_.IsDefaultVersion} | Remove-IAMPolicyVersion -PolicyArn $pol.Arn -force
Remove-IAMPolicy -PolicyArn $pol.Arn -force
```
+  Untuk detail API, lihat [DeletePolicyVersion](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMRole`
<a name="iam_DeleteRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus peran yang dinamai `MyNewRole` dari akun IAM saat ini. Sebelum Anda dapat menghapus peran, Anda harus terlebih dahulu menggunakan `Unregister-IAMRolePolicy` perintah untuk melepaskan kebijakan terkelola apa pun. Kebijakan sebaris dihapus dengan peran tersebut.**  

```
Remove-IAMRole -RoleName MyNewRole
```
**Contoh 2: Contoh ini melepaskan kebijakan terkelola apa pun dari peran bernama `MyNewRole` dan kemudian menghapus peran tersebut. Baris pertama mengambil kebijakan terkelola yang melekat pada peran sebagai koleksi dan kemudian melepaskan setiap kebijakan dalam koleksi dari peran tersebut. Baris kedua menghapus peran itu sendiri. Kebijakan inline dihapus bersama dengan peran.**  

```
Get-IAMAttachedRolePolicyList -RoleName MyNewRole | Unregister-IAMRolePolicy -RoleName MyNewRole
Remove-IAMRole -RoleName MyNewRole
```
+  Untuk detail API, lihat [DeleteRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMRoleFromInstanceProfile`
<a name="iam_RemoveRoleFromInstanceProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRoleFromInstanceProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus peran bernama `MyNewRole` dari profil instans EC2 bernama. `MyNewRole` Profil instance yang dibuat di konsol IAM selalu memiliki nama yang sama dengan peran, seperti dalam contoh ini. Jika Anda membuatnya di API atau CLI, maka mereka dapat memiliki nama yang berbeda.**  

```
Remove-IAMRoleFromInstanceProfile -InstanceProfileName MyNewRole -RoleName MyNewRole -Force
```
+  Untuk detail API, lihat [RemoveRoleFromInstanceProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMRolePermissionsBoundary`
<a name="iam_DeleteRolePermissionsBoundary_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRolePermissionsBoundary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara menghapus batas izin yang dilampirkan ke peran IAM.**  

```
Remove-IAMRolePermissionsBoundary -RoleName MyRoleName
```
+  Untuk detail API, lihat [DeleteRolePermissionsBoundary](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMRolePolicy`
<a name="iam_DeleteRolePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRolePolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus kebijakan inline `S3AccessPolicy` yang disematkan dalam peran IAM. `S3BackupRole`**  

```
Remove-IAMRolePolicy -PolicyName S3AccessPolicy -RoleName S3BackupRole
```
+  Untuk detail API, lihat [DeleteRolePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMRoleTag`
<a name="iam_UntagRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRoleTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag dari peran bernama "MyRoleName" dengan kunci tag sebagai “abac”. Untuk menghapus beberapa tag, berikan daftar kunci tag yang dipisahkan koma.**  

```
Remove-IAMRoleTag -RoleName MyRoleName -TagKey "abac","xyzw"
```
+  Untuk detail API, lihat [UntagRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMSAMLProvider`
<a name="iam_DeleteSAMLProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMSAMLProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus penyedia IAM SALL 2.0 yang ARN-nya. `arn:aws:iam::123456789012:saml-provider/SAMLADFSProvider`**  

```
Remove-IAMSAMLProvider -SAMLProviderArn arn:aws:iam::123456789012:saml-provider/SAMLADFSProvider
```
+  Untuk detail API, lihat [Menghapus SAMLProvider](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMServerCertificate`
<a name="iam_DeleteServerCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMServerCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus sertifikat server bernama`MyServerCert`.**  

```
Remove-IAMServerCertificate -ServerCertificateName MyServerCert
```
+  Untuk detail API, lihat [DeleteServerCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMServiceLinkedRole`
<a name="iam_DeleteServiceLinkedRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMServiceLinkedRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus peran terkait layanan. Harap dicatat bahwa jika layanan masih menggunakan peran ini, maka perintah ini mengakibatkan kegagalan.**  

```
Remove-IAMServiceLinkedRole -RoleName AWSServiceRoleForAutoScaling_RoleNameEndsWithThis
```
+  Untuk detail API, lihat [DeleteServiceLinkedRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMSigningCertificate`
<a name="iam_DeleteSigningCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMSigningCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus sertifikat penandatanganan dengan ID `Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU` dari pengguna IAM bernama. `Bob`**  

```
Remove-IAMSigningCertificate -UserName Bob -CertificateId Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU
```
+  Untuk detail API, lihat [DeleteSigningCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMUser`
<a name="iam_DeleteUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus nama pengguna IAM. `Bob`**  

```
Remove-IAMUser -UserName Bob
```
**Contoh 2: Contoh ini menghapus nama pengguna IAM `Theresa` bersama dengan elemen apa pun yang harus dihapus terlebih dahulu.**  

```
$name = "Theresa"

# find any groups and remove user from them
$groups = Get-IAMGroupForUser -UserName $name
foreach ($group in $groups) { Remove-IAMUserFromGroup -GroupName $group.GroupName -UserName $name -Force }

# find any inline policies and delete them
$inlinepols = Get-IAMUserPolicies -UserName $name
foreach ($pol in $inlinepols) { Remove-IAMUserPolicy -PolicyName $pol -UserName $name -Force}

# find any managed polices and detach them
$managedpols = Get-IAMAttachedUserPolicies -UserName $name
foreach ($pol in $managedpols) { Unregister-IAMUserPolicy -PolicyArn $pol.PolicyArn -UserName $name }

# find any signing certificates and delete them
$certs = Get-IAMSigningCertificate -UserName $name
foreach ($cert in $certs) { Remove-IAMSigningCertificate -CertificateId $cert.CertificateId -UserName $name -Force }

# find any access keys and delete them
$keys = Get-IAMAccessKey -UserName $name
foreach ($key in $keys) { Remove-IAMAccessKey -AccessKeyId $key.AccessKeyId -UserName $name -Force }

# delete the user's login profile, if one exists - note: need to use try/catch to suppress not found error
try { $prof = Get-IAMLoginProfile -UserName $name -ea 0 } catch { out-null }
if ($prof) { Remove-IAMLoginProfile -UserName $name -Force }

# find any MFA device, detach it, and if virtual, delete it.
$mfa = Get-IAMMFADevice -UserName $name
if ($mfa) { 
    Disable-IAMMFADevice -SerialNumber $mfa.SerialNumber -UserName $name 
    if ($mfa.SerialNumber -like "arn:*") { Remove-IAMVirtualMFADevice -SerialNumber $mfa.SerialNumber }
}

# finally, remove the user
Remove-IAMUser -UserName $name -Force
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMUserFromGroup`
<a name="iam_RemoveUserFromGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUserFromGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus pengguna IAM `Bob` dari grup`Testers`.**  

```
Remove-IAMUserFromGroup -GroupName Testers -UserName Bob
```
**Contoh 2: Contoh ini menemukan grup yang pengguna IAM `Theresa` adalah anggota, dan kemudian dihapus `Theresa` dari grup tersebut.**  

```
$groups = Get-IAMGroupForUser -UserName Theresa 
foreach ($group in $groups) { Remove-IAMUserFromGroup -GroupName $group.GroupName -UserName Theresa -Force }
```
**Contoh 3: Contoh ini menunjukkan cara alternatif untuk menghapus pengguna IAM `Bob` dari `Testers` grup.**  

```
Get-IAMGroupForUser -UserName Bob | Remove-IAMUserFromGroup -UserName Bob -GroupName Testers -Force
```
+  Untuk detail API, lihat [RemoveUserFromGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMUserPermissionsBoundary`
<a name="iam_DeleteUserPermissionsBoundary_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUserPermissionsBoundary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara menghapus batas izin yang dilampirkan ke pengguna IAM.**  

```
Remove-IAMUserPermissionsBoundary -UserName joe
```
+  Untuk detail API, lihat [DeleteUserPermissionsBoundary](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMUserPolicy`
<a name="iam_DeleteUserPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUserPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus kebijakan inline bernama `AccessToEC2Policy` yang disematkan dalam nama pengguna IAM. `Bob`**  

```
Remove-IAMUserPolicy -PolicyName AccessToEC2Policy -UserName Bob
```
**Contoh 2: Contoh ini menemukan semua kebijakan inline yang disematkan dalam nama pengguna IAM `Theresa` dan kemudian menghapusnya.**  

```
$inlinepols = Get-IAMUserPolicies -UserName Theresa
foreach ($pol in $inlinepols) { Remove-IAMUserPolicy -PolicyName $pol -UserName Theresa -Force}
```
+  Untuk detail API, lihat [DeleteUserPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMUserTag`
<a name="iam_UntagUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUserTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag dari pengguna bernama “joe” dengan kunci tag sebagai “abac” dan “xyzw”. Untuk menghapus beberapa tag, berikan daftar kunci tag yang dipisahkan koma.**  

```
Remove-IAMUserTag -UserName joe -TagKey "abac","xyzw"
```
+  Untuk detail API, lihat [UntagUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-IAMVirtualMFADevice`
<a name="iam_DeleteVirtualMfaDevice_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMVirtualMFADevice`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus perangkat MFA virtual IAM yang ARN-nya. `arn:aws:iam::123456789012:mfa/bob`**  

```
Remove-IAMVirtualMFADevice -SerialNumber arn:aws:iam::123456789012:mfa/bob
```
**Contoh 2: Contoh ini memeriksa untuk melihat apakah pengguna IAM Theresa memiliki perangkat MFA yang ditetapkan. Jika ditemukan, perangkat dinonaktifkan untuk pengguna IAM. Jika perangkat virtual, maka itu juga dihapus.**  

```
$mfa = Get-IAMMFADevice -UserName Theresa
if ($mfa) { 
    Disable-IAMMFADevice -SerialNumber $mfa.SerialNumber -UserName $name 
    if ($mfa.SerialNumber -like "arn:*") { Remove-IAMVirtualMFADevice -SerialNumber $mfa.SerialNumber }
}
```
+  Untuk detail API, lihat [DeleteVirtualMfaDevice](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Request-IAMCredentialReport`
<a name="iam_GenerateCredentialReport_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-IAMCredentialReport`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini meminta pembuatan laporan baru, yang dapat dilakukan setiap empat jam. Jika laporan terakhir masih terbaru, bidang Negara berbunyi`COMPLETE`. Gunakan `Get-IAMCredentialReport` untuk melihat laporan yang sudah selesai.**  

```
Request-IAMCredentialReport
```
**Output:**  

```
Description                                                    State
-----------                                                    -----
No report exists. Starting a new report generation task        STARTED
```
+  Untuk detail API, lihat [GenerateCredentialReport](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Request-IAMServiceLastAccessedDetail`
<a name="iam_GenerateServiceLastAccessedDetails_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-IAMServiceLastAccessedDetail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini setara dengan cmdlet API. GenerateServiceLastAccessedDetails Ini menyediakan dengan id pekerjaan yang dapat digunakan di Get-IAMServiceLastAccessedDetail dan Get- IAMService LastAccessedDetailWithEntity**  

```
Request-IAMServiceLastAccessedDetail -Arn arn:aws:iam::123456789012:user/TestUser
```
+  Untuk detail API, lihat [GenerateServiceLastAccessedDetails](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-IAMDefaultPolicyVersion`
<a name="iam_SetDefaultPolicyVersion_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-IAMDefaultPolicyVersion`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menetapkan `v2` versi kebijakan yang ARN-nya `arn:aws:iam::123456789012:policy/MyPolicy` sebagai versi aktif default.**  

```
Set-IAMDefaultPolicyVersion -PolicyArn arn:aws:iam::123456789012:policy/MyPolicy -VersionId v2
```
+  Untuk detail API, lihat [SetDefaultPolicyVersion](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-IAMRolePermissionsBoundary`
<a name="iam_PutRolePermissionsBoundary_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-IAMRolePermissionsBoundary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara mengatur batas Izin untuk Peran IAM. Anda dapat menetapkan Kebijakan AWS terkelola atau Kebijakan khusus sebagai batas izin.**  

```
Set-IAMRolePermissionsBoundary -RoleName MyRoleName -PermissionsBoundary arn:aws:iam::123456789012:policy/intern-boundary
```
+  Untuk detail API, lihat [PutRolePermissionsBoundary](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-IAMUserPermissionsBoundary`
<a name="iam_PutUserPermissionsBoundary_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-IAMUserPermissionsBoundary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara mengatur batas Izin untuk pengguna. Anda dapat menetapkan Kebijakan AWS terkelola atau Kebijakan khusus sebagai batas izin.**  

```
Set-IAMUserPermissionsBoundary -UserName joe -PermissionsBoundary arn:aws:iam::123456789012:policy/intern-boundary
```
+  Untuk detail API, lihat [PutUserPermissionsBoundary](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Sync-IAMMFADevice`
<a name="iam_ResyncMfaDevice_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Sync-IAMMFADevice`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menyinkronkan perangkat MFA yang terkait dengan pengguna IAM `Bob` dan ARN-nya dengan program autentikator yang `arn:aws:iam::123456789012:mfa/bob` menyediakan dua kode otentikasi.**  

```
Sync-IAMMFADevice -SerialNumber arn:aws:iam::123456789012:mfa/theresa -AuthenticationCode1 123456 -AuthenticationCode2 987654 -UserName Bob
```
**Contoh 2: Contoh ini menyinkronkan perangkat IAM MFA yang dikaitkan dengan pengguna `Theresa` IAM dengan perangkat fisik yang memiliki nomor seri `ABCD12345678` dan yang menyediakan dua kode otentikasi.**  

```
Sync-IAMMFADevice -SerialNumber ABCD12345678 -AuthenticationCode1 123456 -AuthenticationCode2 987654 -UserName Theresa
```
+  Untuk detail API, lihat [ResyncMfaDevice](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-IAMGroupPolicy`
<a name="iam_DetachGroupPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-IAMGroupPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan kebijakan grup terkelola yang `arn:aws:iam::123456789012:policy/TesterAccessPolicy` ARNnya berasal dari grup bernama. `Testers`**  

```
Unregister-IAMGroupPolicy -GroupName Testers -PolicyArn arn:aws:iam::123456789012:policy/TesterAccessPolicy
```
**Contoh 2: Contoh ini menemukan semua kebijakan terkelola yang dilampirkan pada grup bernama `Testers` dan memisahkannya dari grup.**  

```
Get-IAMAttachedGroupPolicies -GroupName Testers | Unregister-IAMGroupPolicy -Groupname Testers
```
+  Untuk detail API, lihat [DetachGroupPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-IAMRolePolicy`
<a name="iam_DetachRolePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-IAMRolePolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan kebijakan grup terkelola yang `arn:aws:iam::123456789012:policy/FederatedTesterAccessPolicy` ARNnya berasal dari peran bernama. `FedTesterRole`**  

```
Unregister-IAMRolePolicy -RoleName FedTesterRole -PolicyArn arn:aws:iam::123456789012:policy/FederatedTesterAccessPolicy
```
**Contoh 2: Contoh ini menemukan semua kebijakan terkelola yang dilampirkan pada peran bernama `FedTesterRole` dan memisahkannya dari peran.**  

```
Get-IAMAttachedRolePolicyList -RoleName FedTesterRole | Unregister-IAMRolePolicy -Rolename FedTesterRole
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-IAMUserPolicy`
<a name="iam_DetachUserPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-IAMUserPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini melepaskan kebijakan terkelola yang ARNnya berasal dari `arn:aws:iam::123456789012:policy/TesterPolicy` nama pengguna IAM. `Bob`**  

```
Unregister-IAMUserPolicy -UserName Bob -PolicyArn arn:aws:iam::123456789012:policy/TesterPolicy
```
**Contoh 2: Contoh ini menemukan semua kebijakan terkelola yang dilampirkan ke pengguna IAM bernama `Theresa` dan melepaskan kebijakan tersebut dari pengguna.**  

```
Get-IAMAttachedUserPolicyList -UserName Theresa | Unregister-IAMUserPolicy -Username Theresa
```
+  Untuk detail API, lihat [DetachUserPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMAccessKey`
<a name="iam_UpdateAccessKey_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMAccessKey`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah status kunci akses `AKIAIOSFODNN7EXAMPLE` untuk pengguna IAM bernama`Bob`. `Inactive`**  

```
Update-IAMAccessKey -UserName Bob -AccessKeyId AKIAIOSFODNN7EXAMPLE -Status Inactive
```
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMAccountPasswordPolicy`
<a name="iam_UpdateAccountPasswordPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMAccountPasswordPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui kebijakan kata sandi untuk akun dengan pengaturan yang ditentukan. Perhatikan bahwa parameter apa pun yang tidak termasuk dalam perintah tidak dibiarkan tidak dimodifikasi. Sebaliknya, mereka diatur ulang ke nilai default.**  

```
Update-IAMAccountPasswordPolicy -AllowUsersToChangePasswords $true -HardExpiry $false -MaxPasswordAge 90 -MinimumPasswordLength 8 -PasswordReusePrevention 20 -RequireLowercaseCharacters $true -RequireNumbers $true -RequireSymbols $true -RequireUppercaseCharacters $true
```
+  Untuk detail API, lihat [UpdateAccountPasswordPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMAssumeRolePolicy`
<a name="iam_UpdateAssumeRolePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMAssumeRolePolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui peran IAM yang diberi nama `ClientRole` dengan kebijakan kepercayaan baru, yang isinya berasal dari file`ClientRolePolicy.json`. Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses isi file JSON.**  

```
Update-IAMAssumeRolePolicy -RoleName ClientRole -PolicyDocument (Get-Content -raw ClientRolePolicy.json)
```
+  Untuk detail API, lihat [UpdateAssumeRolePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMGroup`
<a name="iam_UpdateGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengganti nama grup IAM menjadi. `Testers` `AppTesters`**  

```
Update-IAMGroup -GroupName Testers -NewGroupName AppTesters
```
**Contoh 2: Contoh ini mengubah jalur grup IAM `AppTesters` menjadi`/Org1/Org2/`. Ini mengubah ARN untuk grup menjadi. `arn:aws:iam::123456789012:group/Org1/Org2/AppTesters`**  

```
Update-IAMGroup -GroupName AppTesters -NewPath /Org1/Org2/
```
+  Untuk detail API, lihat [UpdateGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMLoginProfile`
<a name="iam_UpdateLoginProfile_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMLoginProfile`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menetapkan kata sandi sementara baru untuk pengguna IAM`Bob`, dan mengharuskan pengguna untuk mengubah kata sandi saat pengguna masuk berikutnya.**  

```
Update-IAMLoginProfile -UserName Bob -Password "P@ssw0rd1234" -PasswordResetRequired $true
```
+  Untuk detail API, lihat [UpdateLoginProfile](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMOpenIDConnectProviderThumbprint`
<a name="iam_UpdateOpenIdConnectProviderThumbprint_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMOpenIDConnectProviderThumbprint`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui daftar cap jempol sertifikat untuk penyedia OIDC yang ARN-nya menggunakan sidik jari baru. `arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com` Penyedia OIDC membagikan nilai baru ketika sertifikat yang terkait dengan penyedia berubah.**  

```
Update-IAMOpenIDConnectProviderThumbprint -OpenIDConnectProviderArn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com -ThumbprintList 7359755EXAMPLEabc3060bce3EXAMPLEec4542a3
```
+  Untuk detail API, lihat [UpdateOpenIdConnectProviderThumbprint](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMRole`
<a name="iam_UpdateRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui deskripsi peran dan nilai durasi sesi maksimum (dalam detik) yang sesi peran dapat diminta.**  

```
Update-IAMRole -RoleName MyRoleName -Description "My testing role" -MaxSessionDuration 43200
```
+  Untuk detail API, lihat [UpdateRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMRoleDescription`
<a name="iam_UpdateRoleDescription_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMRoleDescription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui deskripsi peran IAM di akun Anda.**  

```
Update-IAMRoleDescription -RoleName MyRoleName -Description "My testing role"
```
+  Untuk detail API, lihat [UpdateRoleDescription](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMSAMLProvider`
<a name="iam_UpdateSamlProvider_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMSAMLProvider`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui penyedia SAMP di IAM yang ARN-nya `arn:aws:iam::123456789012:saml-provider/SAMLADFS` dengan dokumen metadata SAMP baru dari file. `SAMLMetaData.xml` Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses isi file JSON.**  

```
Update-IAMSAMLProvider -SAMLProviderArn arn:aws:iam::123456789012:saml-provider/SAMLADFS -SAMLMetadataDocument (Get-Content -Raw SAMLMetaData.xml)
```
+  Untuk detail API, lihat [UpdateSamlProvider](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMServerCertificate`
<a name="iam_UpdateServerCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMServerCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengganti nama sertifikat yang dinamai`MyServerCertificate`. `MyRenamedServerCertificate`**  

```
Update-IAMServerCertificate -ServerCertificateName MyServerCertificate -NewServerCertificateName MyRenamedServerCertificate
```
**Contoh 2: Contoh ini memindahkan sertifikat bernama `MyServerCertificate` ke path /Org1/Org2/. Ini mengubah ARN untuk sumber daya menjadi. `arn:aws:iam::123456789012:server-certificate/Org1/Org2/MyServerCertificate`**  

```
Update-IAMServerCertificate -ServerCertificateName MyServerCertificate -NewPath /Org1/Org2/
```
+  Untuk detail API, lihat [UpdateServerCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMSigningCertificate`
<a name="iam_UpdateSigningCertificate_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMSigningCertificate`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui sertifikat yang terkait dengan nama pengguna IAM `Bob` dan yang ID sertifikatnya `Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU` untuk menandainya sebagai tidak aktif.**  

```
Update-IAMSigningCertificate -CertificateId Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU -UserName Bob -Status Inactive
```
+  Untuk detail API, lihat [UpdateSigningCertificate](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-IAMUser`
<a name="iam_UpdateUser_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMUser`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengganti nama pengguna IAM menjadi. `Bob` `Robert`**  

```
Update-IAMUser -UserName Bob -NewUserName Robert
```
**Contoh 2: Contoh ini mengubah jalur Pengguna IAM `Bob` ke`/Org1/Org2/`, yang secara efektif mengubah ARN untuk pengguna. `arn:aws:iam::123456789012:user/Org1/Org2/bob`**  

```
Update-IAMUser -UserName Bob -NewPath /Org1/Org2/
```
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-IAMGroupPolicy`
<a name="iam_PutGroupPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-IAMGroupPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kebijakan inline bernama `AppTesterPolicy` dan menyematkannya dalam grup IAM. `AppTesters` Jika kebijakan inline dengan nama yang sama sudah ada, maka itu akan ditimpa. Konten kebijakan JSON datang file`apptesterpolicy.json`. Perhatikan bahwa Anda harus menggunakan `-Raw` parameter untuk berhasil memproses konten file JSON.**  

```
Write-IAMGroupPolicy -GroupName AppTesters -PolicyName AppTesterPolicy -PolicyDocument (Get-Content -Raw apptesterpolicy.json)
```
+  Untuk detail API, lihat [PutGroupPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-IAMRolePolicy`
<a name="iam_PutRolePolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-IAMRolePolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kebijakan inline bernama `FedTesterRolePolicy` dan menyematkannya dalam peran IAM. `FedTesterRole` Jika kebijakan inline dengan nama yang sama sudah ada, maka itu akan ditimpa. Konten kebijakan JSON berasal dari file`FedTesterPolicy.json`. Perhatikan bahwa Anda harus menggunakan `-Raw` parameter untuk berhasil memproses konten file JSON.**  

```
Write-IAMRolePolicy -RoleName FedTesterRole -PolicyName FedTesterRolePolicy -PolicyDocument (Get-Content -Raw FedTesterPolicy.json)
```
+  Untuk detail API, lihat [PutRolePolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-IAMUserPolicy`
<a name="iam_PutUserPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-IAMUserPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kebijakan inline bernama `EC2AccessPolicy` dan menyematkannya di pengguna IAM. `Bob` Jika kebijakan inline dengan nama yang sama sudah ada, maka itu akan ditimpa. Konten kebijakan JSON berasal dari file`EC2AccessPolicy.json`. Perhatikan bahwa Anda harus menggunakan `-Raw` parameter untuk berhasil memproses konten file JSON.**  

```
Write-IAMUserPolicy -UserName Bob -PolicyName EC2AccessPolicy -PolicyDocument (Get-Content -Raw EC2AccessPolicy.json)
```
+  Untuk detail API, lihat [PutUserPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Kinesis menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Kinesis.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-KINRecord`
<a name="kinesis_GetRecords_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-KINRecord`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara mengembalikan dan mengekstrak data dari serangkaian satu atau lebih catatan. Iterator supplierd untuk Get-KINRecord menentukan posisi awal dari catatan untuk kembali yang dalam contoh ini ditangkap ke dalam variabel, \$1records. Setiap catatan individu kemudian dapat diakses dengan mengindeks koleksi \$1records. Dengan asumsi data dalam catatan adalah teks yang dikodekan UTF-8, perintah terakhir menunjukkan bagaimana Anda dapat mengekstrak data dari objek dan mengembalikannya sebagai teks ke konsol. MemoryStream **  

```
$records
$records = Get-KINRecord -ShardIterator "AAAAAAAAAAGIc....9VnbiRNaP"
```
**Output:**  

```
MillisBehindLatest NextShardIterator            Records
------------------ -----------------            -------
0                  AAAAAAAAAAERNIq...uDn11HuUs  {Key1, Key2}
```

```
$records.Records[0]
```
**Output:**  

```
ApproximateArrivalTimestamp Data                   PartitionKey SequenceNumber
--------------------------- ----                   ------------ --------------
3/7/2016 5:14:33 PM         System.IO.MemoryStream Key1         4955986459776...931586
```

```
[Text.Encoding]::UTF8.GetString($records.Records[0].Data.ToArray())
```
**Output:**  

```
test data from string
```
+  Untuk detail API, lihat [GetRecords](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-KINShardIterator`
<a name="kinesis_GetShardIterator_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-KINShardIterator`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan iterator shard untuk shard tertentu dan posisi awal. Rincian pengidentifikasi pecahan dan nomor urut dapat diperoleh dari output Get-KINStream cmdlet, dengan mereferensikan koleksi Shards dari objek aliran yang dikembalikan. Iterator yang dikembalikan dapat digunakan dengan Get-KINRecord cmdlet untuk menarik catatan data dalam pecahan.**  

```
Get-KINShardIterator -StreamName "mystream" -ShardId "shardId-000000000000" -ShardIteratorType AT_SEQUENCE_NUMBER -StartingSequenceNumber "495598645..."
```
**Output:**  

```
AAAAAAAAAAGIc....9VnbiRNaP
```
+  Untuk detail API, lihat [GetShardIterator](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-KINStream`
<a name="kinesis_DescribeStream_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-KINStream`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan rincian aliran tertentu.**  

```
Get-KINStream -StreamName "mystream"
```
**Output:**  

```
HasMoreShards        : False
RetentionPeriodHours : 24
Shards               : {}
StreamARN            : arn:aws:kinesis:us-west-2:123456789012:stream/mystream
StreamName           : mystream
StreamStatus         : ACTIVE
```
+  Untuk detail API, lihat [DescribeStream](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-KINStream`
<a name="kinesis_CreateStream_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-KINStream`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat aliran baru. Secara default cmdlet ini tidak mengembalikan output sehingga PassThru sakelar - ditambahkan untuk mengembalikan nilai yang diberikan ke StreamName parameter - untuk penggunaan selanjutnya.**  

```
$streamName = New-KINStream -StreamName "mystream" -ShardCount 1 -PassThru
```
+  Untuk detail API, lihat [CreateStream](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-KINStream`
<a name="kinesis_DeleteStream_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-KINStream`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus aliran yang ditentukan. Anda diminta untuk konfirmasi sebelum perintah dijalankan. Untuk menekan konfirmasi yang diminta, gunakan sakelar -Force.**  

```
Remove-KINStream -StreamName "mystream"
```
+  Untuk detail API, lihat [DeleteStream](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-KINRecord`
<a name="kinesis_PutRecord_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-KINRecord`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menulis catatan yang berisi string yang dipasok ke parameter -Text.**  

```
Write-KINRecord -Text "test data from string" -StreamName "mystream" -PartitionKey "Key1"
```
**Contoh 2: Menulis catatan yang berisi data yang terkandung dalam file yang ditentukan. File diperlakukan sebagai urutan byte sehingga jika berisi teks, itu harus ditulis dengan pengkodean yang diperlukan sebelum menggunakannya dengan cmdlet ini.**  

```
Write-KINRecord -FilePath "C:\TestData.txt" -StreamName "mystream" -PartitionKey "Key2"
```
+  Untuk detail API, lihat [PutRecord](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Lambda menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Lambda.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-LMResourceTag`
<a name="lambda_TagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-LMResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menambahkan tiga tag (Washington, Oregon dan California) dan nilai terkaitnya ke fungsi tertentu yang diidentifikasi oleh ARN-nya.**  

```
Add-LMResourceTag -Resource "arn:aws:lambda:us-west-2:123456789012:function:MyFunction" -Tag @{ "Washington" = "Olympia"; "Oregon" = "Salem"; "California" = "Sacramento" }
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMAccountSetting`
<a name="lambda_GetAccountSettings_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMAccountSetting`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini ditampilkan untuk membandingkan Batas Akun dan Penggunaan Akun**  

```
Get-LMAccountSetting | Select-Object @{Name="TotalCodeSizeLimit";Expression={$_.AccountLimit.TotalCodeSize}}, @{Name="TotalCodeSizeUsed";Expression={$_.AccountUsage.TotalCodeSize}}
```
**Output:**  

```
TotalCodeSizeLimit TotalCodeSizeUsed
------------------ -----------------
       80530636800          15078795
```
+  Untuk detail API, lihat [GetAccountSettings](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMAlias`
<a name="lambda_GetAlias_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMAlias`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil bobot Routing Config untuk Alias Fungsi Lambda tertentu.**  

```
Get-LMAlias -FunctionName "MylambdaFunction123" -Name "newlabel1" -Select RoutingConfig
```
**Output:**  

```
AdditionalVersionWeights
------------------------
{[1, 0.6]}
```
+  Untuk detail API, lihat [GetAlias](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMFunctionConcurrency`
<a name="lambda_GetFunctionConcurrency_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMFunctionConcurrency`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan konkurensi Cadangan untuk Fungsi Lambda**  

```
Get-LMFunctionConcurrency -FunctionName "MylambdaFunction123" -Select *
```
**Output:**  

```
ReservedConcurrentExecutions
----------------------------
100
```
+  Untuk detail API, lihat [GetFunctionConcurrency](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMFunctionConfiguration`
<a name="lambda_GetFunctionConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMFunctionConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan konfigurasi spesifik versi dari Fungsi Lambda.**  

```
Get-LMFunctionConfiguration -FunctionName "MylambdaFunction123" -Qualifier "PowershellAlias"
```
**Output:**  

```
CodeSha256                 : uWOW0R7z+f0VyLuUg7+/D08hkMFsq0SF4seuyUZJ/R8=
CodeSize                   : 1426
DeadLetterConfig           : Amazon.Lambda.Model.DeadLetterConfig
Description                : Verson 3 to test Aliases
Environment                : Amazon.Lambda.Model.EnvironmentResponse
FunctionArn                : arn:aws:lambda:us-east-1:123456789012:function:MylambdaFunction123
                             :PowershellAlias
FunctionName               : MylambdaFunction123
Handler                    : lambda_function.launch_instance
KMSKeyArn                  : 
LastModified               : 2019-12-25T09:52:59.872+0000
LastUpdateStatus           : Successful
LastUpdateStatusReason     : 
LastUpdateStatusReasonCode : 
Layers                     : {}
MasterArn                  : 
MemorySize                 : 128
RevisionId                 : 5d7de38b-87f2-4260-8f8a-e87280e10c33
Role                       : arn:aws:iam::123456789012:role/service-role/lambda
Runtime                    : python3.8
State                      : Active
StateReason                : 
StateReasonCode            : 
Timeout                    : 600
TracingConfig              : Amazon.Lambda.Model.TracingConfigResponse
Version                    : 4
VpcConfig                  : Amazon.Lambda.Model.VpcConfigDetail
```
+  Untuk detail API, lihat [GetFunctionConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMFunctionList`
<a name="lambda_ListFunctions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMFunctionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan semua fungsi Lambda dengan ukuran kode yang diurutkan**  

```
Get-LMFunctionList | Sort-Object -Property CodeSize | Select-Object FunctionName, RunTime, Timeout, CodeSize
```
**Output:**  

```
FunctionName                                                 Runtime   Timeout CodeSize
------------                                                 -------   ------- --------
test                                                         python2.7       3      243
MylambdaFunction123                                          python3.8     600      659
myfuncpython1                                                python3.8     303      675
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMPolicy`
<a name="lambda_GetPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan kebijakan Fungsi dari fungsi Lambda**  

```
Get-LMPolicy -FunctionName test -Select Policy
```
**Output:**  

```
{"Version":"2012-10-17",		 	 	 "Id":"default","Statement":[{"Sid":"xxxx","Effect":"Allow","Principal":{"Service":"sns.amazonaws.com"},"Action":"lambda:InvokeFunction","Resource":"arn:aws:lambda:us-east-1:123456789102:function:test"}]}
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMProvisionedConcurrencyConfig`
<a name="lambda_GetProvisionedConcurrencyConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMProvisionedConcurrencyConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan Konfigurasi Konkurensi yang disediakan untuk Alias yang ditentukan dari Fungsi Lambda.**  

```
C:\>Get-LMProvisionedConcurrencyConfig -FunctionName "MylambdaFunction123" -Qualifier "NewAlias1"
```
**Output:**  

```
AllocatedProvisionedConcurrentExecutions : 0
AvailableProvisionedConcurrentExecutions : 0
LastModified                             : 2020-01-15T03:21:26+0000
RequestedProvisionedConcurrentExecutions : 70
Status                                   : IN_PROGRESS
StatusReason                             :
```
+  Untuk detail API, lihat [GetProvisionedConcurrencyConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMProvisionedConcurrencyConfigList`
<a name="lambda_ListProvisionedConcurrencyConfigs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMProvisionedConcurrencyConfigList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil daftar konfigurasi konkurensi yang disediakan untuk fungsi Lambda.**  

```
Get-LMProvisionedConcurrencyConfigList -FunctionName "MylambdaFunction123"
```
+  Untuk detail API, lihat [ListProvisionedConcurrencyConfigs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMResourceTag`
<a name="lambda_ListTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengambil tag dan nilainya saat ini ditetapkan pada fungsi yang ditentukan.**  

```
Get-LMResourceTag -Resource "arn:aws:lambda:us-west-2:123456789012:function:MyFunction"
```
**Output:**  

```
Key        Value
---        -----
California Sacramento
Oregon     Salem
Washington Olympia
```
+  Untuk detail API, lihat [ListTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-LMVersionsByFunction`
<a name="lambda_ListVersionsByFunction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMVersionsByFunction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan daftar konfigurasi spesifik versi untuk setiap versi Fungsi Lambda.**  

```
Get-LMVersionsByFunction -FunctionName "MylambdaFunction123"
```
**Output:**  

```
FunctionName        Runtime   MemorySize Timeout CodeSize LastModified                 RoleName
------------        -------   ---------- ------- -------- ------------                 --------
MylambdaFunction123 python3.8        128     600      659 2020-01-10T03:20:56.390+0000 lambda
MylambdaFunction123 python3.8        128       5     1426 2019-12-25T09:19:02.238+0000 lambda
MylambdaFunction123 python3.8        128       5     1426 2019-12-25T09:39:36.779+0000 lambda
MylambdaFunction123 python3.8        128     600     1426 2019-12-25T09:52:59.872+0000 lambda
```
+  Untuk detail API, lihat [ListVersionsByFunction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-LMAlias`
<a name="lambda_CreateAlias_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-LMAlias`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat Alias Lambda Baru untuk versi tertentu dan konfigurasi perutean untuk menentukan persentase permintaan pemanggilan yang diterimanya.**  

```
New-LMAlias -FunctionName "MylambdaFunction123" -RoutingConfig_AdditionalVersionWeight @{Name="1";Value="0.6} -Description "Alias for version 4" -FunctionVersion 4 -Name "PowershellAlias"
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Publish-LMFunction`
<a name="lambda_CreateFunction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-LMFunction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat fungsi C\$1 (dotnetcore1.0 runtime) baru bernama MyFunction AWS Lambda, menyediakan binari yang dikompilasi untuk fungsi dari file zip pada sistem file lokal (jalur relatif atau absolut dapat digunakan). Fungsi C\$1 Lambda menentukan handler untuk fungsi menggunakan penunjukan: :Namespace. AssemblyName ClassName::MethodName. Anda harus mengganti nama assembly (tanpa akhiran .dll), namespace, nama kelas dan bagian nama metode dari spesifikasi handler dengan tepat. Fungsi baru akan memiliki variabel lingkungan 'envvar1' dan 'envvar2' yang diatur dari nilai yang disediakan.**  

```
Publish-LMFunction -Description "My C# Lambda Function" `
        -FunctionName MyFunction `
        -ZipFilename .\MyFunctionBinaries.zip `
        -Handler "AssemblyName::Namespace.ClassName::MethodName" `
        -Role "arn:aws:iam::123456789012:role/LambdaFullExecRole" `
        -Runtime dotnetcore1.0 `
        -Environment_Variable @{ "envvar1"="value";"envvar2"="value" }
```
**Output:**  

```
CodeSha256       : /NgBMd...gq71I=
CodeSize         : 214784
DeadLetterConfig :
Description      : My C# Lambda Function
Environment      : Amazon.Lambda.Model.EnvironmentResponse
FunctionArn      : arn:aws:lambda:us-west-2:123456789012:function:ToUpper
FunctionName     : MyFunction
Handler          : AssemblyName::Namespace.ClassName::MethodName
KMSKeyArn        :
LastModified     : 2016-12-29T23:50:14.207+0000
MemorySize       : 128
Role             : arn:aws:iam::123456789012:role/LambdaFullExecRole
Runtime          : dotnetcore1.0
Timeout          : 3
Version          : $LATEST
VpcConfig        :
```
**Contoh 2: Contoh ini mirip dengan yang sebelumnya kecuali binari fungsi pertama kali diunggah ke bucket Amazon S3 (yang harus berada di wilayah yang sama dengan fungsi Lambda yang dimaksud) dan objek S3 yang dihasilkan kemudian direferensikan saat membuat fungsi.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Key MyFunctionBinaries.zip -File .\MyFunctionBinaries.zip    
Publish-LMFunction -Description "My C# Lambda Function" `
        -FunctionName MyFunction `
        -BucketName amzn-s3-demo-bucket `
        -Key MyFunctionBinaries.zip `
        -Handler "AssemblyName::Namespace.ClassName::MethodName" `
        -Role "arn:aws:iam::123456789012:role/LambdaFullExecRole" `
        -Runtime dotnetcore1.0 `
        -Environment_Variable @{ "envvar1"="value";"envvar2"="value" }
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Publish-LMVersion`
<a name="lambda_PublishVersion_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-LMVersion`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat versi untuk snapshot Kode Fungsi Lambda yang ada**  

```
Publish-LMVersion -FunctionName "MylambdaFunction123" -Description "Publishing Existing Snapshot of function code as a  new version through Powershell"
```
+  Untuk detail API, lihat [PublishVersion](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-LMAlias`
<a name="lambda_DeleteAlias_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMAlias`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus fungsi Lambda Alias yang disebutkan dalam perintah.**  

```
Remove-LMAlias -FunctionName "MylambdaFunction123" -Name "NewAlias"
```
+  Untuk detail API, lihat [DeleteAlias](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-LMFunction`
<a name="lambda_DeleteFunction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMFunction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus versi tertentu dari fungsi Lambda**  

```
Remove-LMFunction -FunctionName "MylambdaFunction123" -Qualifier '3'
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-LMFunctionConcurrency`
<a name="lambda_DeleteFunctionConcurrency_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMFunctionConcurrency`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus Function Concurrency dari Fungsi Lambda.**  

```
Remove-LMFunctionConcurrency -FunctionName "MylambdaFunction123"
```
+  Untuk detail API, lihat [DeleteFunctionConcurrency](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-LMPermission`
<a name="lambda_RemovePermission_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMPermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus kebijakan fungsi untuk yang ditentukan StatementId dari Fungsi Lambda.**  

```
$policy =  Get-LMPolicy -FunctionName "MylambdaFunction123" -Select Policy | ConvertFrom-Json| Select-Object -ExpandProperty Statement
Remove-LMPermission -FunctionName "MylambdaFunction123" -StatementId $policy[0].Sid
```
+  Untuk detail API, lihat [RemovePermission](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-LMProvisionedConcurrencyConfig`
<a name="lambda_DeleteProvisionedConcurrencyConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMProvisionedConcurrencyConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus Konfigurasi Konkurensi yang Disediakan untuk Alias tertentu.**  

```
Remove-LMProvisionedConcurrencyConfig -FunctionName "MylambdaFunction123" -Qualifier "NewAlias1"
```
+  Untuk detail API, lihat [DeleteProvisionedConcurrencyConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-LMResourceTag`
<a name="lambda_UntagResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus tag yang disediakan dari fungsi. Cmdlet akan meminta konfirmasi sebelum melanjutkan kecuali sakelar -Force ditentukan. Satu panggilan dilakukan ke layanan untuk menghapus tag.**  

```
Remove-LMResourceTag -Resource "arn:aws:lambda:us-west-2:123456789012:function:MyFunction" -TagKey "Washington","Oregon","California"
```
**Contoh 2: Menghapus tag yang disediakan dari fungsi. Cmdlet akan meminta konfirmasi sebelum melanjutkan kecuali sakelar -Force ditentukan. Setelah panggilan ke layanan dilakukan per tag yang disediakan.**  

```
"Washington","Oregon","California" | Remove-LMResourceTag -Resource "arn:aws:lambda:us-west-2:123456789012:function:MyFunction"
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-LMAlias`
<a name="lambda_UpdateAlias_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-LMAlias`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui Konfigurasi Alias fungsi Lambda yang ada. Ini memperbarui RoutingConfiguration nilai untuk menggeser 60% (0,6) lalu lintas ke versi 1**  

```
Update-LMAlias -FunctionName "MylambdaFunction123" -Description " Alias for version 2" -FunctionVersion 2 -Name "newlabel1" -RoutingConfig_AdditionalVersionWeight @{Name="1";Value="0.6}
```
+  Untuk detail API, lihat [UpdateAlias](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-LMFunctionCode`
<a name="lambda_UpdateFunctionCode_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-LMFunctionCode`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui fungsi bernama 'MyFunction' dengan konten baru yang terkandung dalam file zip yang ditentukan. Untuk fungsi C\$1 .NET Core Lambda, file zip harus berisi rakitan yang dikompilasi.**  

```
Update-LMFunctionCode -FunctionName MyFunction -ZipFilename .\UpdatedCode.zip
```
**Contoh 2: Contoh ini mirip dengan yang sebelumnya tetapi menggunakan objek Amazon S3 yang berisi kode yang diperbarui untuk memperbarui fungsi.**  

```
Update-LMFunctionCode -FunctionName MyFunction -BucketName amzn-s3-demo-bucket -Key UpdatedCode.zip
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-LMFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-LMFunctionConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui Konfigurasi Fungsi Lambda yang ada**  

```
Update-LMFunctionConfiguration -FunctionName "MylambdaFunction123" -Handler "lambda_function.launch_instance" -Timeout 600 -Environment_Variable @{ "envvar1"="value";"envvar2"="value" } -Role arn:aws:iam::123456789101:role/service-role/lambda -DeadLetterConfig_TargetArn arn:aws:sns:us-east-1: 123456789101:MyfirstTopic
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-LMFunctionConcurrency`
<a name="lambda_PutFunctionConcurrency_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-LMFunctionConcurrency`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menerapkan pengaturan konkurensi untuk Fungsi secara keseluruhan.**  

```
Write-LMFunctionConcurrency -FunctionName "MylambdaFunction123" -ReservedConcurrentExecution 100
```
+  Untuk detail API, lihat [PutFunctionConcurrency](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-LMProvisionedConcurrencyConfig`
<a name="lambda_PutProvisionedConcurrencyConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-LMProvisionedConcurrencyConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan konfigurasi konkurensi yang disediakan ke Alias Fungsi**  

```
Write-LMProvisionedConcurrencyConfig -FunctionName "MylambdaFunction123" -ProvisionedConcurrentExecution 20 -Qualifier "NewAlias1"
```
+  Untuk detail API, lihat [PutProvisionedConcurrencyConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon ML menggunakan Alat untuk PowerShell V4
<a name="powershell_4_machine-learning_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon ML.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-MLBatchPrediction`
<a name="machine-learning_GetBatchPrediction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLBatchPrediction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan metadata rinci untuk prediksi batch dengan ID id.**  

```
Get-MLBatchPrediction -BatchPredictionId ID
```
+  Untuk detail API, lihat [GetBatchPrediction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-MLBatchPredictionList`
<a name="machine-learning_DescribeBatchPredictions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLBatchPredictionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan daftar semua BatchPredictions dan catatan data terkait yang cocok dengan kriteria pencarian yang diberikan dalam permintaan.**  

```
Get-MLBatchPredictionList
```
**Contoh 2: Mengembalikan daftar semua BatchPredictions dengan status SELESAI.**  

```
Get-MLBatchPredictionList -FilterVariable Status -EQ COMPLETED
```
+  Untuk detail API, lihat [DescribeBatchPredictions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-MLDataSource`
<a name="machine-learning_GetDataSource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLDataSource`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan metadata, status, dan informasi file data untuk DataSource dengan ID id**  

```
Get-MLDataSource -DataSourceId ID
```
+  Untuk detail API, lihat [GetDataSource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-MLDataSourceList`
<a name="machine-learning_DescribeDataSources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLDataSourceList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan daftar semua DataSources dan catatan data terkait mereka.**  

```
Get-MLDataSourceList
```
**Contoh 2: Mengembalikan daftar semua DataSources dengan status SELESAI.**  

```
Get-MLDataDourceList -FilterVariable Status -EQ COMPLETED
```
+  Untuk detail API, lihat [DescribeDataSources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-MLEvaluation`
<a name="machine-learning_GetEvaluation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLEvaluation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan metadata dan status untuk Evaluasi dengan ID id.**  

```
Get-MLEvaluation -EvaluationId ID
```
+  Untuk detail API, lihat [GetEvaluation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-MLEvaluationList`
<a name="machine-learning_DescribeEvaluations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLEvaluationList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan daftar semua sumber Evaluasi**  

```
Get-MLEvaluationList
```
**Contoh 2: Mengembalikan daftar semua Evaulations dengan status COMPLETED.**  

```
Get-MLEvaluationList -FilterVariable Status -EQ COMPLETED
```
+  Untuk detail API, lihat [DescribeEvaluations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-MLModel`
<a name="machine-learning_GetMLModel_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLModel`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan metadata detail, status, skema, dan informasi file data untuk ID MLModel with id.**  

```
Get-MLModel -ModelId ID
```
+  Untuk detail API, lihat [Dapatkan MLModel](https://docs.aws.amazon.com/powershell/v4/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (V4*). 

### `Get-MLModelList`
<a name="machine-learning_DescribeMLModels_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLModelList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan daftar semua Model dan catatan data terkait mereka.**  

```
Get-MLModelList
```
**Contoh 2: Mengembalikan daftar semua Model dengan status SELESAI.**  

```
Get-MLModelList -FilterVariable Status -EQ COMPLETED
```
+  Untuk detail API, lihat [Menjelaskan MLModels](https://docs.aws.amazon.com/powershell/v4/reference) dalam *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-MLPrediction`
<a name="machine-learning_Predict_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLPrediction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Kirim catatan ke URL titik akhir prediksi waktu nyata untuk Model dengan ID id.**  

```
Get-MLPrediction -ModelId ID -PredictEndpoint URL -Record @{"A" = "B"; "C" = "D";}
```
+  Untuk detail API, lihat [Memprediksi](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-MLBatchPrediction`
<a name="machine-learning_CreateBatchPrediction_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLBatchPrediction`.

**Alat untuk PowerShell V4**  
**Contoh 1: Buat permintaan prediksi batch baru untuk model dengan ID id dan letakkan output di lokasi S3 yang ditentukan.**  

```
New-MLBatchPrediction -ModelId ID -Name NAME -OutputURI s3://...
```
+  Untuk detail API, lihat [CreateBatchPrediction](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-MLDataSourceFromS3`
<a name="machine-learning_CreateDataSourceFromS3_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLDataSourceFromS3`.

**Alat untuk PowerShell V4**  
**Contoh 1: Buat sumber data dengan data untuk lokasi S3, dengan nama NAME dan skema SCHEMA.**  

```
New-MLDataSourceFromS3 -Name NAME -ComputeStatistics $true -DataSpec_DataLocationS3 "s3://BUCKET/KEY" -DataSchema SCHEMA
```
+  Untuk detail API, lihat [CreateDataSourceFromS3](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V4). 

### `New-MLEvaluation`
<a name="machine-learning_CreateEvaluation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLEvaluation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Buat evaluasi untuk id sumber data dan id model yang diberikan**  

```
New-MLEvaluation -Name NAME -DataSourceId DSID -ModelId MID
```
+  Untuk detail API, lihat [CreateEvaluation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-MLModel`
<a name="machine-learning_CreateMLModel_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLModel`.

**Alat untuk PowerShell V4**  
**Contoh 1: Buat model baru dengan data pelatihan.**  

```
New-MLModel -Name NAME -ModelType BINARY -Parameter @{...} -TrainingDataSourceId ID
```
+  Untuk detail API, lihat [Membuat MLModel](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-MLRealtimeEndpoint`
<a name="machine-learning_CreateRealtimeEndpoint_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLRealtimeEndpoint`.

**Alat untuk PowerShell V4**  
**Contoh 1: Buat titik akhir prediksi realtime baru untuk id model yang diberikan.**  

```
New-MLRealtimeEndpoint -ModelId ID
```
+  Untuk detail API, lihat [CreateRealtimeEndpoint](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Macie menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_macie2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Macie.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-MAC2FindingList`
<a name="macie2_ListFindings_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MAC2FindingList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan daftar FindingIds untuk Temuan yang berisi deteksi data sensitif dengan tipe “CREDIT\$1CARD\$1NUMBER” atau “US\$1SOCIAL\$1SECURITY\$1NUMBER”**  

```
$criterionAddProperties = New-Object Amazon.Macie2.Model.CriterionAdditionalProperties

$criterionAddProperties.Eq = @(
"CREDIT_CARD_NUMBER"
"US_SOCIAL_SECURITY_NUMBER"
)

$FindingCriterion = @{
'classificationDetails.result.sensitiveData.detections.type' = [Amazon.Macie2.Model.CriterionAdditionalProperties]$criterionAddProperties
}

Get-MAC2FindingList -FindingCriteria_Criterion $FindingCriterion -MaxResult 5
```
+  Untuk detail API, lihat [ListFindings](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Daftar Harga AWS contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_pricing_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Daftar Harga AWS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-PLSAttributeValue`
<a name="pricing_GetAttributeValues_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-PLSAttributeValue`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan nilai untuk atribut 'VolumeType' untuk Amazon EC2 di wilayah us-east-1.**  

```
Get-PLSAttributeValue -ServiceCode AmazonEC2 -AttributeName "volumeType" -region us-east-1
```
**Output:**  

```
Value
-----
Cold HDD
General Purpose
Magnetic
Provisioned IOPS
Throughput Optimized HDD
```
+  Untuk detail API, lihat [GetAttributeValues](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-PLSProduct`
<a name="pricing_GetProducts_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-PLSProduct`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan detail semua produk untuk Amazon EC2.**  

```
Get-PLSProduct -ServiceCode AmazonEC2 -Region us-east-1
```
**Output:**  

```
{"product":{"productFamily":"Compute Instance","attributes":{"enhancedNetworkingSupported":"Yes","memory":"30.5 GiB","dedicatedEbsThroughput":"800 Mbps","vcpu":"4","locationType":"AWS Region","storage":"EBS only","instanceFamily":"Memory optimized","operatingSystem":"SUSE","physicalProcessor":"Intel Xeon E5-2686 v4 (Broadwell)","clockSpeed":"2.3 GHz","ecu":"Variable","networkPerformance":"Up to 10 Gigabit","servicename":"Amazon Elastic Compute Cloud","instanceType":"r4.xlarge","tenancy":"Shared","usagetype":"USW2-BoxUsage:r4.xlarge","normalizationSizeFactor":"8","processorFeatures":"Intel AVX, Intel AVX2, Intel Turbo","servicecode":"AmazonEC2","licenseModel":"No License required","currentGeneration":"Yes","preInstalledSw":"NA","location":"US West (Oregon)","processorArchitecture":"64-bit","operation":"RunInstances:000g"},...
```
**Contoh 2: Mengembalikan data untuk Amazon EC2 di wilayah us-east-1 yang difilter berdasarkan jenis volume 'Tujuan Umum' yang didukung SSD.**  

```
Get-PLSProduct -ServiceCode AmazonEC2 -Filter @{Type="TERM_MATCH";Field="volumeType";Value="General Purpose"},@{Type="TERM_MATCH";Field="storageMedia";Value="SSD-backed"} -Region us-east-1
```
**Output:**  

```
{"product":{"productFamily":"Storage","attributes":{"storageMedia":"SSD-backed","maxThroughputvolume":"160 MB/sec","volumeType":"General Purpose","maxIopsvolume":"10000",...
```
+  Untuk detail API, lihat [GetProducts](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-PLSService`
<a name="pricing_DescribeServices_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-PLSService`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan metadata untuk semua kode layanan yang tersedia di wilayah us-east-1.**  

```
Get-PLSService -Region us-east-1
```
**Output:**  

```
AttributeNames                                                  ServiceCode
--------------                                                  -----------
{productFamily, servicecode, groupDescription, termType...}     AWSBudgets
{productFamily, servicecode, termType, usagetype...}            AWSCloudTrail
{productFamily, servicecode, termType, usagetype...}            AWSCodeCommit
{productFamily, servicecode, termType, usagetype...}            AWSCodeDeploy
{productFamily, servicecode, termType, usagetype...}            AWSCodePipeline
{productFamily, servicecode, termType, usagetype...}            AWSConfig
...
```
**Contoh 2: Mengembalikan metadata untuk layanan Amazon EC2 di wilayah us-east-1.**  

```
Get-PLSService -ServiceCode AmazonEC2 -Region us-east-1
```
**Output:**  

```
AttributeNames                                                         ServiceCode
--------------                                                         -----------
{volumeType, maxIopsvolume, instanceCapacity10xlarge, locationType...} AmazonEC2
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Resource Groups menggunakan Alat untuk PowerShell V4
<a name="powershell_4_resource-groups_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Resource Groups.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-RGResourceTag`
<a name="resource-groups_Tag_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-RGResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan kunci tag 'Instances' dengan nilai 'kotak kerja' ke grup sumber daya yang diberikan arn**  

```
Add-RGResourceTag -Tag @{Instances="workboxes"} -Arn arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes
```
**Output:**  

```
Arn                                                            Tags
---                                                            ----
arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes {[Instances, workboxes]}
```
+  Untuk detail API, lihat [Tag](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Find-RGResource`
<a name="resource-groups_SearchResources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Find-RGResource`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat tipe sumber daya ResourceQuery untuk Instance dengan filter tag dan menemukan sumber daya.**  

```
$query = [Amazon.ResourceGroups.Model.ResourceQuery]::new()
$query.Type = [Amazon.ResourceGroups.QueryType]::TAG_FILTERS_1_0
$query.Query = ConvertTo-Json -Compress -Depth 4 -InputObject @{
  ResourceTypeFilters = @('AWS::EC2::Instance')
  TagFilters = @(@{
    Key = 'auto'
    Values = @('no')
  })
 }

Find-RGResource -ResourceQuery $query | Select-Object -ExpandProperty ResourceIdentifiers
```
**Output:**  

```
ResourceArn                                                     ResourceType
-----------                                                     ------------
arn:aws:ec2:eu-west-1:123456789012:instance/i-0123445b6cb7bd67b AWS::EC2::Instance
```
+  Untuk detail API, lihat [SearchResources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-RGGroup`
<a name="resource-groups_GetGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil grup sumber daya sesuai nama grup**  

```
Get-RGGroup -GroupName auto-no
```
**Output:**  

```
Description GroupArn                                                     Name
----------- --------                                                     ----
            arn:aws:resource-groups:eu-west-1:123456789012:group/auto-no auto-no
```
+  Untuk detail API, lihat [GetGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-RGGroupList`
<a name="resource-groups_ListGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGGroupList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan grup sumber daya yang sudah dibuat.**  

```
Get-RGGroupList
```
**Output:**  

```
GroupArn                                                                  GroupName
--------                                                                  ---------
arn:aws:resource-groups:eu-west-1:123456789012:group/auto-no              auto-no
arn:aws:resource-groups:eu-west-1:123456789012:group/auto-yes             auto-yes
arn:aws:resource-groups:eu-west-1:123456789012:group/build600             build600
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-RGGroupQuery`
<a name="resource-groups_GetGroupQuery_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGGroupQuery`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil kueri sumber daya untuk grup sumber daya yang diberikan**  

```
Get-RGGroupQuery -GroupName auto-no | Select-Object -ExpandProperty ResourceQuery
```
**Output:**  

```
Query                                                                                        Type
-----                                                                                        ----
{"ResourceTypeFilters":["AWS::EC2::Instance"],"TagFilters":[{"Key":"auto","Values":["no"]}]} TAG_FILTERS_1_0
```
+  Untuk detail API, lihat [GetGroupQuery](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-RGGroupResourceList`
<a name="resource-groups_ListGroupResources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGGroupResourceList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan sumber daya grup berdasarkan disaring berdasarkan jenis sumber daya**  

```
Get-RGGroupResourceList -Filter @{Name="resource-type";Values="AWS::EC2::Instance"} -GroupName auto-yes | Select-Object -ExpandProperty ResourceIdentifiers
```
**Output:**  

```
ResourceArn                                                     ResourceType
-----------                                                     ------------
arn:aws:ec2:eu-west-1:123456789012:instance/i-0123bc45b567890e1 AWS::EC2::Instance
arn:aws:ec2:eu-west-1:123456789012:instance/i-0a1caf2345f67d8dc AWS::EC2::Instance
arn:aws:ec2:eu-west-1:123456789012:instance/i-012e3cb4df567e8aa AWS::EC2::Instance
arn:aws:ec2:eu-west-1:123456789012:instance/i-0fd12dd3456789012 AWS::EC2::Instance
```
+  Untuk detail API, lihat [ListGroupResources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-RGResourceTag`
<a name="resource-groups_GetTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan tag untuk kelompok sumber daya yang diberikan arn**  

```
Get-RGResourceTag -Arn arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes
```
**Output:**  

```
Key       Value
---       -----
Instances workboxes
```
+  Untuk detail API, lihat [GetTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-RGGroup`
<a name="resource-groups_CreateGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-RGGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat grup AWS sumber daya Resource Groups berbasis tag baru bernama TestPowerShellGroup. Grup ini menyertakan instans Amazon EC2 di wilayah saat ini yang ditandai dengan kunci tag “Nama”, dan nilai tag “test2". Perintah mengembalikan query dan jenis grup, dan hasil operasi.**  

```
$ResourceQuery = New-Object -TypeName Amazon.ResourceGroups.Model.ResourceQuery
$ResourceQuery.Type = "TAG_FILTERS_1_0"
$ResourceQuery.Query = '{"ResourceTypeFilters":["AWS::EC2::Instance"],"TagFilters":[{"Key":"Name","Values":["test2"]}]}'
$ResourceQuery

New-RGGroup -Name TestPowerShellGroup -ResourceQuery $ResourceQuery -Description "Test resource group."
```
**Output:**  

```
Query                                                                                           Type           
-----                                                                                           ----           
{"ResourceTypeFilters":["AWS::EC2::Instance"],"TagFilters":[{"Key":"Name","Values":["test2"]}]} TAG_FILTERS_1_0

LoggedAt         : 11/20/2018 2:40:59 PM
Group            : Amazon.ResourceGroups.Model.Group
ResourceQuery    : Amazon.ResourceGroups.Model.ResourceQuery
Tags             : {}
ResponseMetadata : Amazon.Runtime.ResponseMetadata
ContentLength    : 338
HttpStatusCode   : OK
```
+  Untuk detail API, lihat [CreateGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-RGGroup`
<a name="resource-groups_DeleteGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-RGGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus grup sumber daya bernama**  

```
Remove-RGGroup -GroupName non-tag-cfn-elbv2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-RGGroup (DeleteGroup)" on target "non-tag-cfn-elbv2".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

Description GroupArn                                                               Name
----------- --------                                                               ----
            arn:aws:resource-groups:eu-west-1:123456789012:group/non-tag-cfn-elbv2 non-tag-cfn-elbv2
```
+  Untuk detail API, lihat [DeleteGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-RGResourceTag`
<a name="resource-groups_Untag_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-RGResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag yang disebutkan dari grup sumber daya**  

```
Remove-RGResourceTag -Arn arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes -Key Instances
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-RGResourceTag (Untag)" on target "arn:aws:resource-groups:eu-west-1:933303704102:group/workboxes".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

Arn                                                            Keys
---                                                            ----
arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes {Instances}
```
+  Untuk detail API, lihat [Membatalkan tag](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V4). 

### `Update-RGGroup`
<a name="resource-groups_UpdateGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-RGGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui deskripsi grup**  

```
Update-RGGroup -GroupName auto-yes -Description "Instances auto-remove"
```
**Output:**  

```
Description             GroupArn                                                      Name
-----------             --------                                                      ----
Instances to be cleaned arn:aws:resource-groups:eu-west-1:123456789012:group/auto-yes auto-yes
```
+  Untuk detail API, lihat [UpdateGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-RGGroupQuery`
<a name="resource-groups_UpdateGroupQuery_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-RGGroupQuery`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat objek query dan memperbarui query untuk grup.**  

```
$query = [Amazon.ResourceGroups.Model.ResourceQuery]::new()
$query.Type = [Amazon.ResourceGroups.QueryType]::TAG_FILTERS_1_0
$query.Query = @{
  ResourceTypeFilters = @('AWS::EC2::Instance')
  TagFilters = @(@{
  Key='Environment'
  Values='Build600.11'
  })
} | ConvertTo-Json -Compress -Depth 4

Update-RGGroupQuery -GroupName build600 -ResourceQuery $query
```
**Output:**  

```
GroupName ResourceQuery
--------- -------------
build600  Amazon.ResourceGroups.Model.ResourceQuery
```
+  Untuk detail API, lihat [UpdateGroupQuery](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh API Penandaan Resource Groups menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_resource-groups-tagging-api_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Resource Groups Tagging API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-RGTResourceTag`
<a name="resource-groups-tagging-api_TagResources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-RGTResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan kunci tag “stage” dan “version” dengan nilai “beta” dan “preprod\$1test” ke bucket Amazon S3 dan tabel Amazon DynamoDB. Satu panggilan dilakukan ke layanan untuk menerapkan tag.**  

```
$arn1 = "arn:aws:s3:::amzn-s3-demo-bucket"
$arn2 = "arn:aws:dynamodb:us-west-2:123456789012:table/mytable"

Add-RGTResourceTag -ResourceARNList $arn1,$arn2 -Tag @{ "stage"="beta"; "version"="preprod_test" }
```
**Contoh 2: Contoh ini menambahkan tag dan nilai yang ditentukan ke bucket Amazon S3 dan tabel Amazon DynamoDB. Dua panggilan dilakukan ke layanan, satu untuk setiap sumber daya ARN disalurkan ke cmdlet.**  

```
$arn1 = "arn:aws:s3:::amzn-s3-demo-bucket"
$arn2 = "arn:aws:dynamodb:us-west-2:123456789012:table/mytable"

$arn1,$arn2 | Add-RGTResourceTag -Tag @{ "stage"="beta"; "version"="preprod_test" }
```
+  Untuk detail API, lihat [TagResources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-RGTResource`
<a name="resource-groups-tagging-api_GetResources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGTResource`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua sumber daya yang ditandai di wilayah dan kunci tag yang terkait dengan sumber daya. Jika tidak ada parameter -Region yang diberikan ke cmdlet, ia akan mencoba menyimpulkan wilayah dari metadata instance shell atau EC2.**  

```
Get-RGTResource
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:dynamodb:us-west-2:123456789012:table/mytable            {stage, version}   
arn:aws:s3:::amzn-s3-demo-bucket                                            {stage, version, othertag}
```
**Contoh 2: Mengembalikan semua sumber daya yang ditandai dari jenis yang ditentukan di suatu wilayah. String untuk setiap nama layanan dan jenis sumber daya sama dengan yang disematkan di Amazon Resource Name (ARN) sumber daya.**  

```
Get-RGTResource -ResourceType "s3"
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:s3:::amzn-s3-demo-bucket                                            {stage, version, othertag}
```
**Contoh 3: Mengembalikan semua sumber daya yang ditandai dari jenis yang ditentukan di suatu wilayah. Perhatikan bahwa ketika jenis sumber daya disalurkan ke cmdlet, satu panggilan ke layanan dibuat untuk setiap jenis sumber daya yang disediakan.**  

```
"dynamodb","s3" | Get-RGTResource
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:dynamodb:us-west-2:123456789012:table/mytable            {stage, version}   
arn:aws:s3:::amzn-s3-demo-bucket                                            {stage, version, othertag}
```
**Contoh 4: Mengembalikan semua sumber daya yang ditandai yang cocok dengan filter yang ditentukan.**  

```
Get-RGTResource -TagFilter @{ Key="stage" }
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:s3:::amzn-s3-demo-bucket                                            {stage, version, othertag}
```
**Contoh 5: Mengembalikan semua sumber daya yang ditandai yang cocok dengan filter dan jenis sumber daya yang ditentukan.**  

```
Get-RGTResource -TagFilter @{ Key="stage" } -ResourceType "dynamodb"
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:dynamodb:us-west-2:123456789012:table/mytable            {stage, version}
```
**Contoh 6: Mengembalikan semua sumber daya yang ditandai yang cocok dengan filter yang ditentukan.**  

```
Get-RGTResource -TagFilter @{ Key="stage"; Values=@("beta","gamma") }
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:dynamodb:us-west-2:123456789012:table/mytable            {stage, version}
```
+  Untuk detail API, lihat [GetResources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-RGTTagKey`
<a name="resource-groups-tagging-api_GetTagKeys_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGTTagKey`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua kunci tag di wilayah tertentu. Jika parameter -Region tidak ditentukan, cmdlet akan mencoba menyimpulkan wilayah dari wilayah shell default atau metadata instans EC2. Perhatikan bahwa kunci tag tidak dikembalikan dalam urutan tertentu.**  

```
Get-RGTTagKey -region us-west-2
```
**Output:**  

```
version
stage
```
+  Untuk detail API, lihat [GetTagKeys](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-RGTTagValue`
<a name="resource-groups-tagging-api_GetTagValues_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGTTagValue`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan nilai untuk tag tertentu di wilayah. Jika parameter -Region tidak ditentukan, cmdlet akan mencoba menyimpulkan wilayah dari wilayah shell default atau metadata instans EC2.**  

```
Get-RGTTagValue -Key "stage" -Region us-west-2
```
**Output:**  

```
beta
```
+  Untuk detail API, lihat [GetTagValues](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-RGTResourceTag`
<a name="resource-groups-tagging-api_UntagResources_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-RGTResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus kunci tag “stage” dan “version”, dan nilai terkait, dari bucket Amazon S3 dan tabel Amazon DynamoDB. Satu panggilan dilakukan ke layanan untuk menghapus tag. Sebelum tag dihapus, cmdlet akan meminta konfirmasi. Untuk melewati konfirmasi tambahkan parameter -Force.**  

```
$arn1 = "arn:aws:s3:::amzn-s3-demo-bucket"
$arn2 = "arn:aws:dynamodb:us-west-2:123456789012:table/mytable"

Remove-RGTResourceTag -ResourceARNList $arn1,$arn2 -TagKey "stage","version"
```
**Contoh 2: Menghapus kunci tag “stage” dan “version”, dan nilai terkait, dari bucket Amazon S3 dan tabel Amazon DynamoDB. Dua panggilan dilakukan ke layanan, satu untuk setiap sumber daya ARN disalurkan ke cmdlet. Sebelum setiap panggilan, cmdlet akan meminta konfirmasi. Untuk melewati konfirmasi tambahkan parameter -Force.**  

```
$arn1 = "arn:aws:s3:::amzn-s3-demo-bucket"
$arn2 = "arn:aws:dynamodb:us-west-2:123456789012:table/mytable"

$arn1,$arn2 | Remove-RGTResourceTag -TagKey "stage","version"
```
+  Untuk detail API, lihat [UntagResources](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh rute 53 menggunakan Alat untuk PowerShell V4
<a name="powershell_4_route-53_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Route 53.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Edit-R53ResourceRecordSet`
<a name="route-53_ChangeResourceRecordSets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-R53ResourceRecordSet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat catatan A untuk www.example.com dan mengubah catatan A untuk test.example.com dari 192.0.2.3 menjadi 192.0.2.1. Perhatikan bahwa nilai untuk perubahan catatan tipe TXT harus dalam tanda kutip ganda. Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "www.example.com"
$change1.ResourceRecordSet.Type = "TXT"
$change1.ResourceRecordSet.TTL = 600
$change1.ResourceRecordSet.ResourceRecords.Add(@{Value="item 1 item 2 item 3"})

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "DELETE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change2.ResourceRecordSet.Name = "test.example.com"
$change2.ResourceRecordSet.Type = "A"
$change2.ResourceRecordSet.TTL = 600
$change2.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.3"})

$change3 = New-Object Amazon.Route53.Model.Change
$change3.Action = "CREATE"
$change3.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change3.ResourceRecordSet.Name = "test.example.com"
$change3.ResourceRecordSet.Type = "A"
$change3.ResourceRecordSet.TTL = 600
$change3.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.1"})

$params = @{
    HostedZoneId="Z1PA6795UKMFR9"
	ChangeBatch_Comment="This change batch creates a TXT record for www.example.com. and changes the A record for test.example.com. from 192.0.2.3 to 192.0.2.1."
	ChangeBatch_Change=$change1,$change2,$change3
}

Edit-R53ResourceRecordSet @params
```
**Contoh 2: Contoh ini menunjukkan cara membuat kumpulan catatan sumber daya alias. 'Z222222222' adalah ID dari zona yang dihosting Amazon Route 53 tempat Anda membuat kumpulan catatan sumber daya alias. 'example.com' adalah puncak zona tempat Anda ingin membuat alias dan 'www.example.com' adalah subdomain yang Anda juga ingin membuat alias. 'Z11111111111' adalah contoh ID zona yang dihosting untuk penyeimbang beban dan 'example-load-balancer-1111111111.us-east-1.elb.amazonaws.com' adalah contoh nama domain penyeimbang beban yang digunakan Amazon Route 53 untuk menanggapi kueri untuk example.com dan www.example.com. Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change1.ResourceRecordSet.AliasTarget.HostedZoneId = "Z1111111111111"
$change1.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-1111111111.us-east-1.elb.amazonaws.com."
$change1.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $true

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "CREATE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "www.example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change1.ResourceRecordSet.AliasTarget.HostedZoneId = "Z1111111111111"
$change1.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-1111111111.us-east-1.elb.amazonaws.com."
$change1.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $false

$params = @{
    HostedZoneId="Z222222222"
	ChangeBatch_Comment="This change batch creates two alias resource record sets, one for the zone apex, example.com, and one for www.example.com, that both point to example-load-balancer-1111111111.us-east-1.elb.amazonaws.com."
	ChangeBatch_Change=$change1,$change2
}

Edit-R53ResourceRecordSet @params
```
**Contoh 3: Contoh ini membuat dua catatan A untuk www.example.com. Seperempat dari waktu (1/ (1\$13)), Amazon Route 53 menanggapi kueri untuk www.example.com dengan dua nilai untuk kumpulan catatan sumber daya pertama (192.0.2.9 dan 192.0.2.10). Tiga perempat waktu (3/ (1\$13)) Amazon Route 53 menanggapi kueri untuk www.example.com dengan dua nilai untuk kumpulan catatan sumber daya kedua (192.0.2.11 dan 192.0.2.12). Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "www.example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.SetIdentifier = "Rack 2, Positions 4 and 5"
$change1.ResourceRecordSet.Weight = 1
$change1.ResourceRecordSet.TTL = 600
$change1.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.9"})
$change1.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.10"})

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "CREATE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change2.ResourceRecordSet.Name = "www.example.com"
$change2.ResourceRecordSet.Type = "A"
$change2.ResourceRecordSet.SetIdentifier = "Rack 5, Positions 1 and 2"
$change2.ResourceRecordSet.Weight = 3
$change2.ResourceRecordSet.TTL = 600
$change2.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.11"})
$change2.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.12"})

$params = @{
    HostedZoneId="Z1PA6795UKMFR9"
    ChangeBatch_Comment="This change creates two weighted resource record sets, each of which has two values."
    ChangeBatch_Change=$change1,$change2
}

Edit-R53ResourceRecordSet @params
```
**Contoh 4: Contoh ini menunjukkan cara membuat kumpulan catatan sumber daya alias tertimbang dengan asumsi bahwa example.com adalah domain yang ingin Anda buat kumpulan catatan sumber daya alias tertimbang. SetIdentifier membedakan dua set catatan sumber daya alias tertimbang satu sama lain. Elemen ini diperlukan karena elemen Nama dan Jenis memiliki nilai yang sama untuk kedua kumpulan catatan sumber daya. Z1111111111111 dan Z3333333333333 adalah contoh zona host untuk penyeimbang beban ELB yang ditentukan oleh nilai. IDs DNSName example-load-balancer-2222222222.us-east-1.elb.amazonaws.com dan example-load-balancer -4444444444.us-east-1.elb.amazonaws.com adalah contoh domain Elastic Load Balancing dari mana Amazon Route 53 menanggapi kueri untuk example.com. Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.SetIdentifier = "1"
$change1.ResourceRecordSet.Weight = 3
$change1.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change1.ResourceRecordSet.AliasTarget.HostedZoneId = "Z1111111111111"
$change1.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-2222222222.us-east-1.elb.amazonaws.com."
$change1.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $true

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "CREATE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change2.ResourceRecordSet.Name = "example.com"
$change2.ResourceRecordSet.Type = "A"
$change2.ResourceRecordSet.SetIdentifier = "2"
$change2.ResourceRecordSet.Weight = 1
$change2.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change2.ResourceRecordSet.AliasTarget.HostedZoneId = "Z3333333333333"
$change2.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-4444444444.us-east-1.elb.amazonaws.com."
$change2.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $false

$params = @{
    HostedZoneId="Z5555555555"
    ChangeBatch_Comment="This change batch creates two weighted alias resource record sets. Amazon Route 53 responds to queries for example.com with the first ELB domain 3/4ths of the times and the second one 1/4th of the time."
    ChangeBatch_Change=$change1,$change2
}

Edit-R53ResourceRecordSet @params
```
**Contoh 5: Contoh ini membuat dua set catatan sumber daya alias latensi, satu untuk penyeimbang beban ELB di wilayah AS Barat (Oregon) (us-west-2), dan satu lagi untuk penyeimbang beban di wilayah Asia Pasifik (Singapura) (ap-southeast-1). Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.SetIdentifier = "Oregon load balancer 1"
$change1.ResourceRecordSet.Region = us-west-2
$change1.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change1.ResourceRecordSet.AliasTarget.HostedZoneId = "Z1111111111111"
$change1.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-2222222222.us-west-2.elb.amazonaws.com"
$change1.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $true

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "CREATE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change2.ResourceRecordSet.Name = "example.com"
$change2.ResourceRecordSet.Type = "A"
$change2.ResourceRecordSet.SetIdentifier = "Singapore load balancer 1"
$change2.ResourceRecordSet.Region = ap-southeast-1
$change2.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change2.ResourceRecordSet.AliasTarget.HostedZoneId = "Z2222222222222"
$change2.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-1111111111.ap-southeast-1.elb.amazonaws.com"
$change2.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $true

$params = @{
    HostedZoneId="Z5555555555"
    ChangeBatch_Comment="This change batch creates two latency resource record sets, one for the US West (Oregon) region and one for the Asia Pacific (Singapore) region."
    ChangeBatch_Change=$change1,$change2
}

Edit-R53ResourceRecordSet @params
```
+  Untuk detail API, lihat [ChangeResourceRecordSets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53AccountLimit`
<a name="route-53_GetAccountLimit_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53AccountLimit`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan jumlah maksimum zona yang dihosting yang dapat dibuat menggunakan akun saat ini.**  

```
Get-R53AccountLimit -Type MAX_HOSTED_ZONES_BY_OWNER
```
**Output:**  

```
15
```
+  Untuk detail API, lihat [GetAccountLimit](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53CheckerIpRanges`
<a name="route-53_GetCheckerIpRanges_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53CheckerIpRanges`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan CIDRs untuk pemeriksa kesehatan Route53**  

```
Get-R53CheckerIpRanges
```
**Output:**  

```
15.177.2.0/23
15.177.6.0/23
15.177.10.0/23
15.177.14.0/23
15.177.18.0/23
15.177.22.0/23
15.177.26.0/23
15.177.30.0/23
15.177.34.0/23
15.177.38.0/23
15.177.42.0/23
15.177.46.0/23
15.177.50.0/23
15.177.54.0/23
15.177.58.0/23
15.177.62.0/23
54.183.255.128/26
54.228.16.0/26
54.232.40.64/26
54.241.32.64/26
54.243.31.192/26
54.244.52.192/26
54.245.168.0/26
54.248.220.0/26
54.250.253.192/26
54.251.31.128/26
54.252.79.128/26
54.252.254.192/26
54.255.254.192/26
107.23.255.0/26
176.34.159.192/26
177.71.207.128/26
```
+  Untuk detail API, lihat [GetCheckerIpRanges](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53HostedZone`
<a name="route-53_GetHostedZone_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZone`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan rincian zona yang dihosting dengan ID PJN98 FT9 Z1D633.**  

```
Get-R53HostedZone -Id Z1D633PJN98FT9
```
+  Untuk detail API, lihat [GetHostedZone](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53HostedZoneCount`
<a name="route-53_GetHostedZoneCount_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZoneCount`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan jumlah total zona host publik dan pribadi untuk saat ini Akun AWS.**  

```
Get-R53HostedZoneCount
```
+  Untuk detail API, lihat [GetHostedZoneCount](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53HostedZoneLimit`
<a name="route-53_GetHostedZoneLimit_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZoneLimit`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan batas jumlah maksimum catatan yang dapat dibuat di zona host yang ditentukan.**  

```
Get-R53HostedZoneLimit -HostedZoneId Z3MEQ8T7HAAAAF -Type MAX_RRSETS_BY_ZONE
```
**Output:**  

```
5
```
+  Untuk detail API, lihat [GetHostedZoneLimit](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53HostedZoneList`
<a name="route-53_ListHostedZones_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZoneList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengeluarkan semua zona host publik dan pribadi Anda.**  

```
Get-R53HostedZoneList
```
**Contoh 2: Mengeluarkan semua zona yang dihosting yang terkait dengan kumpulan delegasi yang dapat digunakan kembali yang memiliki ID X2CISAMPLE NZ8**  

```
Get-R53HostedZoneList -DelegationSetId NZ8X2CISAMPLE
```
+  Untuk detail API, lihat [ListHostedZones](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53HostedZonesByName`
<a name="route-53_ListHostedZonesByName_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZonesByName`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua zona host publik dan pribadi Anda dalam urutan ASCII berdasarkan nama domain.**  

```
Get-R53HostedZonesByName
```
**Contoh 2: Mengembalikan zona host publik dan pribadi Anda, dalam urutan ASCII berdasarkan nama domain, dimulai dari nama DNS yang ditentukan.**  

```
Get-R53HostedZonesByName -DnsName example2.com
```
+  Untuk detail API, lihat [ListHostedZonesByName](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53QueryLoggingConfigList`
<a name="route-53_ListQueryLoggingConfigs_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53QueryLoggingConfigList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan semua konfigurasi untuk pencatatan kueri DNS yang terkait dengan arus. Akun AWS**  

```
Get-R53QueryLoggingConfigList
```
**Output:**  

```
Id                                   HostedZoneId   CloudWatchLogsLogGroupArn
--                                   ------------   -------------------------
59b0fa33-4fea-4471-a88c-926476aaa40d Z385PDS6EAAAZR arn:aws:logs:us-east-1:111111111112:log-group:/aws/route53/example1.com:*
ee528e95-4e03-4fdc-9d28-9e24ddaaa063 Z94SJHBV1AAAAZ arn:aws:logs:us-east-1:111111111112:log-group:/aws/route53/example2.com:*
e38dddda-ceb6-45c1-8cb7-f0ae56aaaa2b Z3MEQ8T7AAA1BF arn:aws:logs:us-east-1:111111111112:log-group:/aws/route53/example3.com:*
```
+  Untuk detail API, lihat [ListQueryLoggingConfigs](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-R53ReusableDelegationSet`
<a name="route-53_GetReusableDelegationSet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53ReusableDelegationSet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil informasi tentang set delegasi yang ditentukan termasuk empat server nama yang ditugaskan ke set delegasi.**  

```
Get-R53ReusableDelegationSet -Id N23DS9X4AYEAAA
```
**Output:**  

```
Id                            CallerReference NameServers
--                            --------------- -----------
/delegationset/N23DS9X4AYEAAA testcaller      {ns-545.awsdns-04.net, ns-1264.awsdns-30.org, ns-2004.awsdns-58.co.uk, ns-240.awsdns-30.com}
```
+  Untuk detail API, lihat [GetReusableDelegationSet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-R53HostedZone`
<a name="route-53_CreateHostedZone_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-R53HostedZone`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat zona host baru bernama 'example.com', terkait dengan kumpulan delegasi yang dapat digunakan kembali. Perhatikan bahwa Anda harus memberikan nilai untuk CallerReference parameter sehingga permintaan yang perlu dicoba lagi jika perlu tanpa risiko mengeksekusi operasi dua kali. Karena zona yang dihosting sedang dibuat di VPC, zona ini secara otomatis bersifat pribadi dan Anda tidak boleh mengatur parameter - HostedZoneConfig \$1PrivateZone .**  

```
$params = @{
    Name="example.com"
    CallerReference="myUniqueIdentifier"
    HostedZoneConfig_Comment="This is my first hosted zone"
    DelegationSetId="NZ8X2CISAMPLE"
    VPC_VPCId="vpc-1a2b3c4d"
    VPC_VPCRegion="us-east-1"
}

New-R53HostedZone @params
```
+  Untuk detail API, lihat [CreateHostedZone](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-R53QueryLoggingConfig`
<a name="route-53_CreateQueryLoggingConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-R53QueryLoggingConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat konfigurasi pencatatan kueri DNS Route53 baru untuk zona host yang ditentukan. Amazon Route53 akan mempublikasikan log kueri DNS ke grup log Cloudwatch yang ditentukan.**  

```
New-R53QueryLoggingConfig -HostedZoneId Z3MEQ8T7HAAAAF -CloudWatchLogsLogGroupArn arn:aws:logs:us-east-1:111111111111:log-group:/aws/route53/example.com:*
```
**Output:**  

```
QueryLoggingConfig                      Location
------------------                      --------
Amazon.Route53.Model.QueryLoggingConfig https://route53.amazonaws.com/2013-04-01/queryloggingconfig/ee5aaa95-4e03-4fdc-9d28-9e24ddaaaaa3
```
+  Untuk detail API, lihat [CreateQueryLoggingConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-R53ReusableDelegationSet`
<a name="route-53_CreateReusableDelegationSet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-R53ReusableDelegationSet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat kumpulan delegasi yang dapat digunakan kembali dari 4 server nama yang dapat dilanjutkan oleh beberapa zona yang dihosting.**  

```
New-R53ReusableDelegationSet -CallerReference testcallerreference
```
**Output:**  

```
DelegationSet                      Location
-------------                      --------
Amazon.Route53.Model.DelegationSet https://route53.amazonaws.com/2013-04-01/delegationset/N23DS9XAAAAAXM
```
+  Untuk detail API, lihat [CreateReusableDelegationSet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-R53VPCWithHostedZone`
<a name="route-53_AssociateVPCWithHostedZone_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-R53VPCWithHostedZone`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan VPC yang ditentukan dengan zona host pribadi.**  

```
Register-R53VPCWithHostedZone -HostedZoneId Z3MEQ8T7HAAAAF -VPC_VPCId vpc-f1b9aaaa -VPC_VPCRegion us-east-1
```
**Output:**  

```
Id                     Status  SubmittedAt         Comment
--                     ------  -----------         -------
/change/C3SCAAA633Z6DX PENDING 01/28/2020 19:32:02
```
+  Untuk detail API, lihat [Associate VPCWith HostedZone](https://docs.aws.amazon.com/powershell/v4/reference) in *Alat AWS untuk PowerShell Cmdlet Reference (V4)*. 

### `Remove-R53HostedZone`
<a name="route-53_DeleteHostedZone_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-R53HostedZone`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus zona yang dihosting dengan ID yang ditentukan. Anda akan diminta konfirmasi sebelum perintah dilanjutkan kecuali Anda menambahkan parameter sakelar -Force.**  

```
Remove-R53HostedZone -Id Z1PA6795UKMFR9
```
+  Untuk detail API, lihat [DeleteHostedZone](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-R53QueryLoggingConfig`
<a name="route-53_DeleteQueryLoggingConfig_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-R53QueryLoggingConfig`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus konfigurasi yang ditentukan untuk pencatatan kueri DNS.**  

```
Remove-R53QueryLoggingConfig -Id ee528e95-4e03-4fdc-9d28-9e24daaa20063
```
+  Untuk detail API, lihat [DeleteQueryLoggingConfig](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-R53ReusableDelegationSet`
<a name="route-53_DeleteReusableDelegationSet_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-R53ReusableDelegationSet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus set delegasi yang dapat digunakan kembali yang ditentukan.**  

```
Remove-R53ReusableDelegationSet -Id N23DS9X4AYAAAM
```
+  Untuk detail API, lihat [DeleteReusableDelegationSet](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-R53VPCFromHostedZone`
<a name="route-53_DisassociateVPCFromHostedZone_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-R53VPCFromHostedZone`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memisahkan VPC yang ditentukan dari zona host pribadi.**  

```
Unregister-R53VPCFromHostedZone -HostedZoneId Z3MEQ8T7HAAAAF -VPC_VPCId vpc-f1b9aaaa -VPC_VPCRegion us-east-1
```
**Output:**  

```
Id                     Status  SubmittedAt         Comment
--                     ------  -----------         -------
/change/C2XFCAAAA9HKZG PENDING 01/28/2020 10:35:55
```
+  Untuk detail API, lihat [Memisahkan VPCFrom HostedZone](https://docs.aws.amazon.com/powershell/v4/reference) dalam *Referensi Alat AWS untuk PowerShell Cmdlet (*V4). 

### `Update-R53HostedZoneComment`
<a name="route-53_UpdateHostedZoneComment_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-R53HostedZoneComment`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini memperbarui komentar untuk zona host yang ditentukan.**  

```
Update-R53HostedZoneComment -Id Z385PDS6AAAAAR -Comment "This is my first hosted zone"
```
**Output:**  

```
Id                     : /hostedzone/Z385PDS6AAAAAR
Name                   : example.com.
CallerReference        : C5B55555-7147-EF04-8341-69131E805C89
Config                 : Amazon.Route53.Model.HostedZoneConfig
ResourceRecordSetCount : 9
LinkedService          :
```
+  Untuk detail API, lihat [UpdateHostedZoneComment](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon S3 menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon S3.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Copy-S3Object`
<a name="s3_CopyObject_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-S3Object`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menyalin objek "sample.txt" dari bucket “test-files” ke bucket yang sama tetapi dengan kunci baru "sample-copy.txt “.**  

```
Copy-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt -DestinationKey sample-copy.txt
```
**Contoh 2: Perintah ini menyalin objek "sample.txt" dari bucket “test-files” ke bucket “backup files” dengan kunci "sample-copy.txt “.**  

```
Copy-S3Object -BucketName amzn-s3-demo-source-bucket -Key sample.txt -DestinationKey sample-copy.txt -DestinationBucket amzn-s3-demo-destination-bucket
```
**Contoh 3: Perintah ini mengunduh objek "sample.txt" dari bucket “test-files” ke file lokal dengan nama "local-sample.txt “.**  

```
Copy-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt -LocalFile local-sample.txt
```
**Contoh 4: Mengunduh objek tunggal ke file yang ditentukan. File yang diunduh akan ditemukan di c:\$1downloads\$1data\$1archive.zip**  

```
Copy-S3Object -BucketName amzn-s3-demo-bucket -Key data/archive.zip -LocalFolder c:\downloads
```
**Contoh 5: Download semua objek yang cocok dengan key prefix yang ditentukan ke folder lokal. Hirarki kunci relatif akan dipertahankan sebagai subfolder di lokasi unduhan keseluruhan.**  

```
Copy-S3Object -BucketName amzn-s3-demo-bucket -KeyPrefix data -LocalFolder c:\downloads
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3ACL`
<a name="s3_GetACL_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ACL`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah mendapatkan rincian pemilik objek dari objek S3.**  

```
Get-S3ACL -BucketName 'amzn-s3-demo-bucket' -key 'initialize.ps1' -Select AccessControlList.Owner
```
**Output:**  

```
DisplayName Id
----------- --
testusername      9988776a6554433d22f1100112e334acb45566778899009e9887bd7f66c5f544
```
+  Untuk detail API, lihat [GetACL](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4*). 

### `Get-S3Bucket`
<a name="s3_ListBuckets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3Bucket`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan semua bucket S3.**  

```
Get-S3Bucket
```
**Contoh 2: Perintah ini mengembalikan bucket bernama “test-files”**  

```
Get-S3Bucket -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketAccelerateConfiguration`
<a name="s3_GetBucketAccelerateConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketAccelerateConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan nilai Diaktifkan, jika pengaturan akselerasi transfer diaktifkan untuk bucket yang ditentukan.**  

```
Get-S3BucketAccelerateConfiguration -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Value                                  
-----                                    
Enabled
```
+  Untuk detail API, lihat [GetBucketAccelerateConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketAnalyticsConfiguration`
<a name="s3_GetBucketAnalyticsConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketAnalyticsConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan detail filter analitik dengan nama 'testfilter' di bucket S3 yang diberikan.**  

```
Get-S3BucketAnalyticsConfiguration -BucketName 'amzn-s3-demo-bucket' -AnalyticsId 'testfilter'
```
+  Untuk detail API, lihat [GetBucketAnalyticsConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketAnalyticsConfigurationList`
<a name="s3_ListBucketAnalyticsConfigurations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketAnalyticsConfigurationList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan 100 konfigurasi analitik pertama dari bucket S3 yang diberikan.**  

```
Get-S3BucketAnalyticsConfigurationList -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [ListBucketAnalyticsConfigurations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketEncryption`
<a name="s3_GetBucketEncryption_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketEncryption`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan semua aturan enkripsi sisi server yang terkait dengan bucket yang diberikan.**  

```
Get-S3BucketEncryption -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketEncryption](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketInventoryConfiguration`
<a name="s3_GetBucketInventoryConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketInventoryConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan detail inventaris bernama 'testinventory' untuk bucket S3 yang diberikan.**  

```
Get-S3BucketInventoryConfiguration -BucketName 'amzn-s3-demo-bucket' -InventoryId 'testinventory'
```
+  Untuk detail API, lihat [GetBucketInventoryConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketInventoryConfigurationList`
<a name="s3_ListBucketInventoryConfigurations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketInventoryConfigurationList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan 100 konfigurasi inventaris pertama dari bucket S3 yang diberikan.**  

```
Get-S3BucketInventoryConfigurationList -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [ListBucketInventoryConfigurations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketLocation`
<a name="s3_GetBucketLocation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketLocation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan batasan lokasi untuk bucket 'amzn-s3-demo-bucket', jika ada kendala.**  

```
Get-S3BucketLocation -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Value
-----
ap-south-1
```
+  Untuk detail API, lihat [GetBucketLocation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketLogging`
<a name="s3_GetBucketLogging_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketLogging`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan status logging untuk bucket yang ditentukan.**  

```
Get-S3BucketLogging -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
TargetBucketName   Grants TargetPrefix
----------------   ------ ------------
testbucket1        {}     testprefix
```
+  Untuk detail API, lihat [GetBucketLogging](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketMetricsConfiguration`
<a name="s3_GetBucketMetricsConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketMetricsConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan detail tentang filter metrik bernama 'testfilter' untuk bucket S3 yang diberikan.**  

```
Get-S3BucketMetricsConfiguration -BucketName 'amzn-s3-demo-bucket' -MetricsId 'testfilter'
```
+  Untuk detail API, lihat [GetBucketMetricsConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketNotification`
<a name="s3_GetBucketNotification_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketNotification`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil konfigurasi notifikasi dari bucket yang diberikan**  

```
Get-S3BucketNotification -BucketName amzn-s3-demo-bucket | select -ExpandProperty TopicConfigurations
```
**Output:**  

```
Id   Topic
--   -----
mimo arn:aws:sns:eu-west-1:123456789012:topic-1
```
+  Untuk detail API, lihat [GetBucketNotification](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketPolicy`
<a name="s3_GetBucketPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menampilkan kebijakan bucket yang terkait dengan bucket S3 yang diberikan.**  

```
Get-S3BucketPolicy -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketPolicyStatus`
<a name="s3_GetBucketPolicyStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketPolicyStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan status kebijakan untuk bucket S3 yang diberikan, yang menunjukkan apakah bucket bersifat publik.**  

```
Get-S3BucketPolicyStatus -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketPolicyStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketReplication`
<a name="s3_GetBucketReplication_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketReplication`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan informasi konfigurasi replikasi yang disetel pada bucket bernama 'amzn-s3-demo-bucket'.**  

```
Get-S3BucketReplication -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [GetBucketReplication](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketRequestPayment`
<a name="s3_GetBucketRequestPayment_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketRequestPayment`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan konfigurasi pembayaran permintaan untuk bucket bernama 'amzn-s3-demo-bucket'. Secara default, pemilik bucket membayar unduhan dari bucket.**  

```
Get-S3BucketRequestPayment -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [GetBucketRequestPayment](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketTagging`
<a name="s3_GetBucketTagging_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketTagging`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan semua tag yang terkait dengan bucket yang diberikan.**  

```
Get-S3BucketTagging -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketTagging](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketVersioning`
<a name="s3_GetBucketVersioning_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketVersioning`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan status pembuatan versi sehubungan dengan bucket yang diberikan.**  

```
Get-S3BucketVersioning -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketVersioning](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3BucketWebsite`
<a name="s3_GetBucketWebsite_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketWebsite`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan detail konfigurasi situs web statis dari bucket S3 yang diberikan.**  

```
Get-S3BucketWebsite -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketWebsite](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3CORSConfiguration`
<a name="s3_GetCORSConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3CORSConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan objek yang berisi semua aturan konfigurasi CORS yang sesuai dengan Bucket S3 yang diberikan.**  

```
Get-S3CORSConfiguration -BucketName 'amzn-s3-demo-bucket' -Select Configuration.Rules
```
**Output:**  

```
AllowedMethods : {PUT, POST, DELETE}
AllowedOrigins : {http://www.example1.com}
Id             : 
ExposeHeaders  : {}
MaxAgeSeconds  : 0
AllowedHeaders : {*}

AllowedMethods : {PUT, POST, DELETE}
AllowedOrigins : {http://www.example2.com}
Id             : 
ExposeHeaders  : {}
MaxAgeSeconds  : 0
AllowedHeaders : {*}

AllowedMethods : {GET}
AllowedOrigins : {*}
Id             : 
ExposeHeaders  : {}
MaxAgeSeconds  : 0
AllowedHeaders : {}
```
+  Untuk detail API, lihat [Dapatkan CORSConfiguration](https://docs.aws.amazon.com/powershell/v4/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (V4*). 

### `Get-S3LifecycleConfiguration`
<a name="s3_GetLifecycleConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3LifecycleConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil konfigurasi siklus hidup untuk bucket.**  

```
Get-S3LifecycleConfiguration -BucketName amzn-s3-demo-bucket
```
**Output:**  

```
Rules
-----
{Remove-in-150-days, Archive-to-Glacier-in-30-days}
```
+  Untuk detail API, lihat [GetLifecycleConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3Object`
<a name="s3_ListObjects_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3Object`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengambil informasi tentang semua item di bucket “test-files”.**  

```
Get-S3Object -BucketName amzn-s3-demo-bucket
```
**Contoh 2: Perintah ini mengambil informasi tentang item "sample.txt" dari bucket “test-files”.**  

```
Get-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt
```
**Contoh 3: Perintah ini mengambil informasi tentang semua item dengan awalan “sample” dari bucket “test-files”.**  

```
Get-S3Object -BucketName amzn-s3-demo-bucket -KeyPrefix sample
```
+  Untuk detail API, lihat [ListObjects](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3ObjectLockConfiguration`
<a name="s3_GetObjectLockConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectLockConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan nilai 'Diaktifkan' jika konfigurasi kunci Objek diaktifkan untuk bucket S3 yang diberikan.**  

```
Get-S3ObjectLockConfiguration -BucketName 'amzn-s3-demo-bucket' -Select ObjectLockConfiguration.ObjectLockEnabled
```
**Output:**  

```
Value
-----
Enabled
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3ObjectMetadata`
<a name="s3_GetObjectMetadata_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectMetadata`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan metadata objek dengan kunci 'ListTrusts.txt' di bucket S3 yang diberikan.**  

```
Get-S3ObjectMetadata -BucketName 'amzn-s3-demo-bucket' -Key 'ListTrusts.txt'
```
**Output:**  

```
Headers                                       : Amazon.S3.Model.HeadersCollection
Metadata                                      : Amazon.S3.Model.MetadataCollection
DeleteMarker                                  : 
AcceptRanges                                  : bytes
ContentRange                                  : 
Expiration                                    : 
RestoreExpiration                             : 
RestoreInProgress                             : False
LastModified                                  : 01/01/2020 08:02:05
ETag                                          : "d000011112a222e333e3bb4ee5d43d21"
MissingMeta                                   : 0
VersionId                                     : null
Expires                                       : 01/01/0001 00:00:00
WebsiteRedirectLocation                       : 
ServerSideEncryptionMethod                    : AES256
ServerSideEncryptionCustomerMethod            : 
ServerSideEncryptionKeyManagementServiceKeyId : 
ReplicationStatus                             : 
PartsCount                                    : 
ObjectLockLegalHoldStatus                     : 
ObjectLockMode                                : 
ObjectLockRetainUntilDate                     : 01/01/0001 00:00:00
StorageClass                                  : 
RequestCharged                                :
```
+  Untuk detail API, lihat [GetObjectMetadata](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3ObjectRetention`
<a name="s3_GetObjectRetention_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectRetention`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah mengembalikan mode dan tanggal sampai objek akan dipertahankan.**  

```
Get-S3ObjectRetention -BucketName 'amzn-s3-demo-bucket' -Key 'testfile.txt'
```
+  Untuk detail API, lihat [GetObjectRetention](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3ObjectTagSet`
<a name="s3_GetObjectTagging_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectTagSet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel mengembalikan tag yang terkait dengan objek yang ada pada bucket S3 yang diberikan.**  

```
Get-S3ObjectTagSet -Key 'testfile.txt' -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Key  Value
---  -----
test value
```
+  Untuk detail API, lihat [GetObjectTagging](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3PreSignedURL`
<a name="s3_GetPreSignedURL_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3PreSignedURL`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah mengembalikan URL yang telah ditandatangani sebelumnya untuk kunci tertentu dan tanggal kedaluwarsa.**  

```
Get-S3PreSignedURL -BucketName 'amzn-s3-demo-bucket' -Key 'testkey' -Expires '2023-11-16'
```
**Contoh 2: Perintah mengembalikan URL yang telah ditandatangani sebelumnya untuk Bucket Direktori dengan kunci tertentu dan tanggal kedaluwarsa.**  

```
[Amazon.AWSConfigsS3]::UseSignatureVersion4 = $true
      Get-S3PreSignedURL -BucketName amzn-s3-demo-bucket--usw2-az1--x-s3 -Key 'testkey' -Expire '2023-11-17'
```
+  Untuk detail API, lihat [GetPreSignedURL](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3PublicAccessBlock`
<a name="s3_GetPublicAccessBlock_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3PublicAccessBlock`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah mengembalikan konfigurasi blok akses publik dari bucket S3 yang diberikan.**  

```
Get-S3PublicAccessBlock -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetPublicAccessBlock](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-S3Version`
<a name="s3_ListVersions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3Version`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan metadata tentang semua versi objek dalam bucket S3 yang diberikan.**  

```
Get-S3Version -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
IsTruncated         : False
KeyMarker           : 
VersionIdMarker     : 
NextKeyMarker       : 
NextVersionIdMarker : 
Versions            : {EC2.txt, EC2MicrosoftWindowsGuide.txt, ListDirectories.json, ListTrusts.json}
Name                : amzn-s3-demo-bucket
Prefix              : 
MaxKeys             : 1000
CommonPrefixes      : {}
Delimiter           :
```
+  Untuk detail API, lihat [ListVersions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-S3Bucket`
<a name="s3_PutBucket_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-S3Bucket`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini membuat bucket pribadi baru bernama “sample-bucket”.**  

```
New-S3Bucket -BucketName amzn-s3-demo-bucket
```
**Contoh 2: Perintah ini membuat bucket baru bernama “sample-bucket” dengan izin baca-tulis.**  

```
New-S3Bucket -BucketName amzn-s3-demo-bucket -PublicReadWrite
```
**Contoh 3: Perintah ini membuat bucket baru bernama “sample-bucket” dengan izin hanya-baca.**  

```
New-S3Bucket -BucketName amzn-s3-demo-bucket -PublicReadOnly
```
**Contoh 4: Perintah ini membuat bucket Direktori baru bernama “amzn-s3-demo-bucket--use1-az5--x-s3" with. PutBucketConfiguration**  

```
$bucketConfiguration = @{
      BucketInfo = @{
          DataRedundancy = 'SingleAvailabilityZone'
          Type = 'Directory'
      }
      Location = @{
          Name = 'usw2-az1'
          Type = 'AvailabilityZone'
      }
    }
New-S3Bucket -BucketName amzn-s3-demo-bucket--usw2-az1--x-s3 -BucketConfiguration $bucketConfiguration -Region us-west-2
```
+  Untuk detail API, lihat [PutBucket](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Read-S3Object`
<a name="s3_GetObject_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Read-S3Object`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengambil item "sample.txt" dari bucket “amzn-s3-demo-bucket” dan menyimpannya ke file bernama "local-sample.txt" di lokasi saat ini. File "local-sample.txt" tidak harus ada sebelum perintah ini dipanggil.**  

```
Read-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt -File local-sample.txt
```
**Contoh 2: Perintah ini mengambil direktori virtual “DIR” dari bucket “amzn-s3-demo-bucket” dan menyimpannya ke folder bernama “Local-dir” di lokasi saat ini. Folder “Local-dir” tidak harus ada sebelum perintah ini dipanggil.**  

```
Read-S3Object -BucketName amzn-s3-demo-bucket -KeyPrefix DIR -Folder Local-DIR
```
**Contoh 3: Mengunduh semua objek dengan kunci yang diakhiri dengan '.json' dari ember dengan 'konfigurasi' dalam nama ember ke file di folder yang ditentukan. Kunci objek digunakan untuk mengatur nama file.**  

```
Get-S3Bucket | ? { $_.BucketName -like '*config*' } | Get-S3Object | ? { $_.Key -like '*.json' } | Read-S3Object -Folder C:\ConfigObjects
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3Bucket`
<a name="s3_DeleteBucket_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3Bucket`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus semua objek dan versi objek dari bucket 'test-files' dan kemudian menghapus bucket. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan sakelar -Force untuk menekan konfirmasi. Perhatikan bahwa ember yang tidak kosong tidak dapat dihapus.**  

```
Remove-S3Bucket -BucketName amzn-s3-demo-bucket -DeleteBucketContent
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3BucketAnalyticsConfiguration`
<a name="s3_DeleteBucketAnalyticsConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketAnalyticsConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah menghapus filter analitik dengan nama 'testfilter' di bucket S3 yang diberikan.**  

```
Remove-S3BucketAnalyticsConfiguration -BucketName 'amzn-s3-demo-bucket' -AnalyticsId 'testfilter'
```
+  Untuk detail API, lihat [DeleteBucketAnalyticsConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3BucketEncryption`
<a name="s3_DeleteBucketEncryption_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketEncryption`.

**Alat untuk PowerShell V4**  
**Contoh 1: Ini menonaktifkan enkripsi yang diaktifkan untuk bucket S3 yang disediakan.**  

```
Remove-S3BucketEncryption -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3BucketEncryption (DeleteBucketEncryption)" on target "s3casetestbucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteBucketEncryption](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3BucketInventoryConfiguration`
<a name="s3_DeleteBucketInventoryConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketInventoryConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus invventori bernama 'testInventoryName' yang sesuai dengan bucket S3 yang diberikan.**  

```
Remove-S3BucketInventoryConfiguration -BucketName 'amzn-s3-demo-bucket' -InventoryId 'testInventoryName'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3BucketInventoryConfiguration (DeleteBucketInventoryConfiguration)" on target "amzn-s3-demo-bucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteBucketInventoryConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3BucketMetricsConfiguration`
<a name="s3_DeleteBucketMetricsConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketMetricsConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah menghapus filter metrik dengan nama 'testmetrics' di bucket S3 yang diberikan.**  

```
Remove-S3BucketMetricsConfiguration -BucketName 'amzn-s3-demo-bucket' -MetricsId 'testmetrics'
```
+  Untuk detail API, lihat [DeleteBucketMetricsConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3BucketPolicy`
<a name="s3_DeleteBucketPolicy_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketPolicy`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah menghapus kebijakan bucket yang terkait dengan bucket S3 yang diberikan.**  

```
Remove-S3BucketPolicy -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3BucketReplication`
<a name="s3_DeleteBucketReplication_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketReplication`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghapus konfigurasi replikasi yang terkait dengan bucket bernama 'amzn-s3-demo-bucket'. Perhatikan bahwa operasi ini memerlukan izin untuk DeleteReplicationConfiguration tindakan s3:. Anda akan diminta konfirmasi sebelum operasi berlangsung - untuk menekan konfirmasi, gunakan sakelar -Force.**  

```
Remove-S3BucketReplication -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeleteBucketReplication](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3BucketTagging`
<a name="s3_DeleteBucketTagging_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketTagging`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus semua tag yang terkait dengan bucket S3 yang diberikan.**  

```
Remove-S3BucketTagging -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3BucketTagging (DeleteBucketTagging)" on target "amzn-s3-demo-bucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteBucketTagging](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3BucketWebsite`
<a name="s3_DeleteBucketWebsite_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketWebsite`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menonaktifkan properti hosting situs web statis dari bucket S3 yang diberikan.**  

```
Remove-S3BucketWebsite -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3BucketWebsite (DeleteBucketWebsite)" on target "amzn-s3-demo-bucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteBucketWebsite](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3CORSConfiguration`
<a name="s3_DeleteCORSConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3CORSConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus konfigurasi CORS untuk bucket S3 yang diberikan.**  

```
Remove-S3CORSConfiguration -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3CORSConfiguration (DeleteCORSConfiguration)" on target "amzn-s3-demo-bucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [Menghapus CORSConfiguration](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3LifecycleConfiguration`
<a name="s3_DeleteLifecycleConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3LifecycleConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah menghapus semua aturan siklus hidup untuk bucket S3 yang diberikan.**  

```
Remove-S3LifecycleConfiguration -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [DeleteLifecycleConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3MultipartUpload`
<a name="s3_AbortMultipartUpload_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3MultipartUpload`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini membatalkan unggahan multipart yang dibuat lebih awal dari 5 hari yang lalu.**  

```
Remove-S3MultipartUpload -BucketName amzn-s3-demo-bucket -DaysBefore 5
```
**Contoh 2: Perintah ini membatalkan unggahan multipart yang dibuat lebih awal dari 2 Januari 2014.**  

```
Remove-S3MultipartUpload -BucketName amzn-s3-demo-bucket -InitiatedDate "Thursday, January 02, 2014"
```
**Contoh 3: Perintah ini membatalkan unggahan multipart yang dibuat lebih awal dari 2 Januari 2014, 10:45:37.**  

```
Remove-S3MultipartUpload -BucketName amzn-s3-demo-bucket -InitiatedDate "2014/01/02 10:45:37"
```
+  Untuk detail API, lihat [AbortMultipartUpload](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3Object`
<a name="s3_DeleteObjects_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3Object`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus objek "sample.txt" dari bucket “test-files”. Anda diminta konfirmasi sebelum perintah dijalankan; untuk menekan prompt gunakan sakelar -Force.**  

```
Remove-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt
```
**Contoh 2: Perintah ini menghapus versi objek "sample.txt" yang ditentukan dari bucket “test-files”, dengan asumsi bucket telah dikonfigurasi untuk mengaktifkan versi objek.**  

```
Remove-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt -VersionId HLbxnx6V9omT6AQYVpks8mmFKQcejpqt
```
**Contoh 3: Perintah ini menghapus objek "sample1.txt “," sample2.txt "dan" sample3.txt "dari bucket “test-files” sebagai operasi batch tunggal. Respons layanan akan mencantumkan semua kunci yang diproses, terlepas dari status keberhasilan atau kesalahan penghapusan. Untuk mendapatkan hanya kesalahan untuk kunci yang tidak dapat diproses oleh layanan tambahkan ReportErrorsOnly parameter - (parameter ini juga dapat ditentukan dengan alias -Quiet.**  

```
Remove-S3Object -BucketName amzn-s3-demo-bucket -KeyCollection @( "sample1.txt", "sample2.txt", "sample3.txt" )
```
**Contoh 4: Contoh ini menggunakan ekspresi sebaris dengan KeyCollection parameter - untuk mendapatkan kunci objek yang akan dihapus. Get-S3Objectmengembalikan koleksi contoh Amazon.S3.Model.S3Object, yang masing-masing memiliki anggota Key dari jenis string mengidentifikasi** objek.  

```
Remove-S3Object -bucketname "amzn-s3-demo-bucket" -KeyCollection (Get-S3Object "test-files" -KeyPrefix "prefix/subprefix" | select -ExpandProperty Key)
```
**Contoh 5: Contoh ini memperoleh semua objek yang memiliki key prefix “prefix/subprefix” di bucket dan menghapusnya. Perhatikan bahwa objek yang masuk diproses satu per satu. Untuk koleksi besar, pertimbangkan untuk meneruskan koleksi ke parameter cmdlet's - InputObject (alias -S3ObjectCollection) untuk memungkinkan penghapusan terjadi sebagai batch dengan satu panggilan ke layanan.**  

```
Get-S3Object -BucketName "amzn-s3-demo-bucket" -KeyPrefix "prefix/subprefix" | Remove-S3Object -Force
```
**Contoh 6: Contoh ini menyalurkan kumpulan ObjectVersion instance Amazon.S3.Model.S3 yang mewakili penanda hapus ke cmdlet untuk dihapus. Perhatikan bahwa objek yang masuk diproses satu per satu. Untuk koleksi besar, pertimbangkan untuk meneruskan koleksi ke parameter cmdlet's - InputObject (alias -S3ObjectCollection) untuk memungkinkan penghapusan terjadi sebagai batch dengan satu panggilan ke layanan.**  

```
(Get-S3Version -BucketName "amzn-s3-demo-bucket").Versions | Where {$_.IsDeleteMarker -eq "True"} | Remove-S3Object -Force
```
**Contoh 7: Script ini menunjukkan bagaimana melakukan penghapusan batch dari satu set objek (dalam hal ini menghapus penanda) dengan membangun array objek yang akan digunakan dengan - KeyAndVersionCollection parameter.**  

```
$keyVersions = @()
$markers = (Get-S3Version -BucketName $BucketName).Versions | Where {$_.IsDeleteMarker -eq "True"}
foreach ($marker in $markers) { $keyVersions += @{ Key = $marker.Key; VersionId = $marker.VersionId } }
Remove-S3Object -BucketName $BucketName -KeyAndVersionCollection $keyVersions -Force
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3ObjectTagSet`
<a name="s3_DeleteObjectTagging_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3ObjectTagSet`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menghapus semua tag yang terkait dengan objek dengan kunci 'testfile.txt' di Bucket S3 yang diberikan.**  

```
Remove-S3ObjectTagSet -Key 'testfile.txt' -BucketName 'amzn-s3-demo-bucket' -Select '^Key'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3ObjectTagSet (DeleteObjectTagging)" on target "testfile.txt".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
testfile.txt
```
+  Untuk detail API, lihat [DeleteObjectTagging](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-S3PublicAccessBlock`
<a name="s3_DeletePublicAccessBlock_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3PublicAccessBlock`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mematikan setelan blokir akses publik untuk bucket yang diberikan.**  

```
Remove-S3PublicAccessBlock -BucketName 'amzn-s3-demo-bucket' -Force -Select '^BucketName'
```
**Output:**  

```
amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeletePublicAccessBlock](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-S3BucketEncryption`
<a name="s3_PutBucketEncryption_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-S3BucketEncryption`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengaktifkan enkripsi sisi AES256 server default dengan Amazon S3 Managed Keys (SSE-S3) pada bucket yang diberikan.**  

```
$Encryptionconfig = @{ServerSideEncryptionByDefault = @{ServerSideEncryptionAlgorithm = "AES256"}}
Set-S3BucketEncryption -BucketName 'amzn-s3-demo-bucket' -ServerSideEncryptionConfiguration_ServerSideEncryptionRule $Encryptionconfig
```
+  Untuk detail API, lihat [PutBucketEncryption](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Test-S3Bucket`
<a name="s3_Test-S3Bucket_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Test-S3Bucket`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan True jika bucket ada, False sebaliknya. Perintah mengembalikan True bahkan jika bucket bukan milik pengguna.**  

```
Test-S3Bucket -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [Test-S3Bucket](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3BucketAccelerateConfiguration`
<a name="s3_PutBucketAccelerateConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketAccelerateConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini memungkinkan percepatan transfer untuk bucket S3 yang diberikan.**  

```
$statusVal = New-Object Amazon.S3.BucketAccelerateStatus('Enabled')
Write-S3BucketAccelerateConfiguration -BucketName 'amzn-s3-demo-bucket' -AccelerateConfiguration_Status $statusVal
```
+  Untuk detail API, lihat [PutBucketAccelerateConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3BucketNotification`
<a name="s3_PutBucketNotification_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketNotification`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengonfigurasi konfigurasi topik SNS untuk acara S3 ObjectRemovedDelete dan mengaktifkan notifikasi untuk bucket s3 yang diberikan**  

```
$topic =  [Amazon.S3.Model.TopicConfiguration] @{
  Id = "delete-event"
  Topic = "arn:aws:sns:eu-west-1:123456789012:topic-1"
  Event = [Amazon.S3.EventType]::ObjectRemovedDelete
}

Write-S3BucketNotification -BucketName amzn-s3-demo-bucket -TopicConfiguration $topic
```
**Contoh 2: Contoh ini memungkinkan pemberitahuan ObjectCreatedAll untuk bucket yang diberikan mengirimnya ke fungsi Lambda.**  

```
$lambdaConfig = [Amazon.S3.Model.LambdaFunctionConfiguration] @{
  Events = "s3:ObjectCreated:*"
  FunctionArn = "arn:aws:lambda:eu-west-1:123456789012:function:rdplock"
  Id = "ObjectCreated-Lambda"
  Filter = @{
    S3KeyFilter = @{
      FilterRules = @(
        @{Name="Prefix";Value="dada"}
        @{Name="Suffix";Value=".pem"}
      )
    }
  }
}

Write-S3BucketNotification -BucketName amzn-s3-demo-bucket -LambdaFunctionConfiguration $lambdaConfig
```
**Contoh 3: Contoh ini membuat 2 konfigurasi Lambda yang berbeda berdasarkan akhiran kunci yang berbeda dan dikonfigurasi keduanya dalam satu perintah.**  

```
#Lambda Config 1

$firstLambdaConfig = [Amazon.S3.Model.LambdaFunctionConfiguration] @{
  Events = "s3:ObjectCreated:*"
  FunctionArn = "arn:aws:lambda:eu-west-1:123456789012:function:verifynet"
  Id = "ObjectCreated-dada-ps1"
  Filter = @{
    S3KeyFilter = @{
      FilterRules = @(
        @{Name="Prefix";Value="dada"}
        @{Name="Suffix";Value=".ps1"}
      )
    }
  }
}

#Lambda Config 2

$secondlambdaConfig = [Amazon.S3.Model.LambdaFunctionConfiguration] @{
  Events = [Amazon.S3.EventType]::ObjectCreatedAll
  FunctionArn = "arn:aws:lambda:eu-west-1:123456789012:function:verifyssm"
  Id = "ObjectCreated-dada-json"
  Filter = @{
    S3KeyFilter = @{
      FilterRules = @(
        @{Name="Prefix";Value="dada"}
        @{Name="Suffix";Value=".json"}
      )
    }
  }
}

Write-S3BucketNotification -BucketName amzn-s3-demo-bucket -LambdaFunctionConfiguration $firstLambdaConfig,$secondlambdaConfig
```
+  Untuk detail API, lihat [PutBucketNotification](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3BucketReplication`
<a name="s3_PutBucketReplication_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketReplication`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menetapkan konfigurasi replikasi dengan satu aturan yang memungkinkan replikasi ke bucket 'amzn-s3-demo-bucket' setiap objek baru yang dibuat dengan awalan nama kunci "" di bucket 'amzn-s3-demo-bucket'. TaxDocs**  

```
$rule1 = New-Object Amazon.S3.Model.ReplicationRule
$rule1.ID = "Rule-1"
$rule1.Status = "Enabled"
$rule1.Prefix = "TaxDocs"
$rule1.Destination = @{ BucketArn = "arn:aws:s3:::amzn-s3-demo-destination-bucket" }
    
$params = @{
    BucketName = "amzn-s3-demo-bucket"
    Configuration_Role = "arn:aws:iam::35667example:role/CrossRegionReplicationRoleForS3"
    Configuration_Rule = $rule1
}

Write-S3BucketReplication @params
```
**Contoh 2: Contoh ini menetapkan konfigurasi replikasi dengan beberapa aturan yang memungkinkan replikasi ke bucket 'amzn-s3-demo-bucket' setiap objek baru yang dibuat dengan awalan nama kunci "" atau "”. TaxDocs OtherDocs Awalan kunci tidak boleh tumpang tindih.**  

```
$rule1 = New-Object Amazon.S3.Model.ReplicationRule
$rule1.ID = "Rule-1"
$rule1.Status = "Enabled"
$rule1.Prefix = "TaxDocs"
$rule1.Destination = @{ BucketArn = "arn:aws:s3:::amzn-s3-demo-destination-bucket" }
    
$rule2 = New-Object Amazon.S3.Model.ReplicationRule
$rule2.ID = "Rule-2"
$rule2.Status = "Enabled"
$rule2.Prefix = "OtherDocs"
$rule2.Destination = @{ BucketArn = "arn:aws:s3:::amzn-s3-demo-destination-bucket" }
    
$params = @{
    BucketName = "amzn-s3-demo-bucket"
    Configuration_Role = "arn:aws:iam::35667example:role/CrossRegionReplicationRoleForS3"
    Configuration_Rule = $rule1,$rule2
}

Write-S3BucketReplication @params
```
**Contoh 3: Contoh ini memperbarui konfigurasi replikasi pada bucket yang ditentukan untuk menonaktifkan aturan yang mengontrol replikasi objek dengan awalan nama kunci "TaxDocs" ke bucket 'amzn-s3-demo-bucket'.**  

```
$rule1 = New-Object Amazon.S3.Model.ReplicationRule
$rule1.ID = "Rule-1"
$rule1.Status = "Disabled"
$rule1.Prefix = "TaxDocs"
$rule1.Destination = @{ BucketArn = "arn:aws:s3:::amzn-s3-demo-destination-bucket" }
    
$params = @{
    BucketName = "amzn-s3-demo-bucket"
    Configuration_Role = "arn:aws:iam::35667example:role/CrossRegionReplicationRoleForS3"
    Configuration_Rule = $rule1
}

Write-S3BucketReplication @params
```
+  Untuk detail API, lihat [PutBucketReplication](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3BucketRequestPayment`
<a name="s3_PutBucketRequestPayment_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketRequestPayment`.

**Alat untuk PowerShell V4**  
**Contoh 1: Memperbarui konfigurasi pembayaran permintaan untuk bucket bernama 'amzn-s3-demo-bucket' sehingga orang yang meminta unduhan dari bucket akan dikenakan biaya untuk unduhan. Secara default, pemilik bucket membayar unduhan. Untuk mengatur permintaan pembayaran kembali ke default gunakan 'BucketOwner' untuk parameter RequestPaymentConfiguration \$1Payer.**  

```
Write-S3BucketRequestPayment -BucketName amzn-s3-demo-bucket -RequestPaymentConfiguration_Payer Requester
```
+  Untuk detail API, lihat [PutBucketRequestPayment](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3BucketTagging`
<a name="s3_PutBucketTagging_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketTagging`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini menerapkan dua tag ke bucket bernama`cloudtrail-test-2018`: tag dengan kunci Stage dan nilai Test, dan tag dengan kunci Environment dan nilai Alpha. Untuk memverifikasi bahwa tag telah ditambahkan ke bucket, jalankan`Get-S3BucketTagging -BucketName bucket_name`. Hasilnya harus menunjukkan tag yang Anda terapkan ke bucket di perintah pertama. Perhatikan bahwa `Write-S3BucketTagging` menimpa seluruh set tag yang ada di bucket. Untuk menambah atau menghapus tag individual, jalankan cmdlet Resource Groups dan Tagging API, dan. `Add-RGTResourceTag` `Remove-RGTResourceTag` Atau, gunakan Editor Tag di AWS Management Console untuk mengelola tag bucket S3.**  

```
Write-S3BucketTagging -BucketName amzn-s3-demo-bucket -TagSet @( @{ Key="Stage"; Value="Test" }, @{ Key="Environment"; Value="Alpha" } )
```
**Contoh 2: Perintah ini menyalurkan ember yang diberi nama `cloudtrail-test-2018` ke dalam `Write-S3BucketTagging` cmdlet. Ini berlaku tag Tahap: Produksi dan Departemen: Keuangan ke ember. Perhatikan bahwa `Write-S3BucketTagging` menimpa seluruh set tag yang ada di bucket.**  

```
Get-S3Bucket -BucketName amzn-s3-demo-bucket | Write-S3BucketTagging -TagSet @( @{ Key="Stage"; Value="Production" }, @{ Key="Department"; Value="Finance" } )
```
+  Untuk detail API, lihat [PutBucketTagging](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3BucketVersioning`
<a name="s3_PutBucketVersioning_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketVersioning`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah memungkinkan pembuatan versi untuk bucket S3 yang diberikan.**  

```
Write-S3BucketVersioning -BucketName 'amzn-s3-demo-bucket' -VersioningConfig_Status Enabled
```
+  Untuk detail API, lihat [PutBucketVersioning](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3BucketWebsite`
<a name="s3_PutBucketWebsite_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketWebsite`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah memungkinkan hosting situs web untuk bucket yang diberikan dengan dokumen indeks sebagai 'index.html' dan dokumen kesalahan sebagai 'error.html'.**  

```
Write-S3BucketWebsite -BucketName 'amzn-s3-demo-bucket' -WebsiteConfiguration_IndexDocumentSuffix 'index.html' -WebsiteConfiguration_ErrorDocument 'error.html'
```
+  Untuk detail API, lihat [PutBucketWebsite](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3LifecycleConfiguration`
<a name="s3_PutLifecycleConfiguration_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3LifecycleConfiguration`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menulis/ menggantikan konfigurasi yang disediakan dalam \$1NewRule. Konfigurasi ini memastikan untuk membatasi objek lingkup dengan awalan dan nilai tag yang diberikan.**  

```
$NewRule = [Amazon.S3.Model.LifecycleRule] @{
		Expiration =  @{
			Days=  50
		}
		Id =  "Test-From-Write-cmdlet-1"
		Filter=  @{
			LifecycleFilterPredicate =  [Amazon.S3.Model.LifecycleAndOperator]@{
				Operands=  @(
					[Amazon.S3.Model.LifecyclePrefixPredicate] @{
						"Prefix" =  "py"
					},
					[Amazon.S3.Model.LifecycleTagPredicate] @{
						"Tag"=  @{
							"Key" =  "non-use"
							"Value" = "yes"
						}
					}
				)
			}
		}
		"Status"= 'Enabled'
		NoncurrentVersionExpiration = @{
			NoncurrentDays = 75
		}
	}
    
	Write-S3LifecycleConfiguration -BucketName amzn-s3-demo-bucket -Configuration_Rule $NewRule
```
**Contoh 2: Contoh ini menetapkan beberapa aturan dengan penyaringan. \$1 ArchiveRule menetapkan objek untuk diarsipkan dalam 30 hari ke Glacier dan 120 ke. DeepArchive \$1 ExpireRule kedaluwarsa versi saat ini dan sebelumnya dalam 150 hari untuk objek dengan awalan 'py' dan tag:key 'archieved' disetel ke 'ya'**.  

```
$ExpireRule = [Amazon.S3.Model.LifecycleRule] @{
		Expiration =  @{
			Days=  150
		}
		Id =  "Remove-in-150-days"
		Filter=  @{
			LifecycleFilterPredicate =  [Amazon.S3.Model.LifecycleAndOperator]@{
				Operands=  @(
					[Amazon.S3.Model.LifecyclePrefixPredicate] @{
						"Prefix" =  "py"
					},
					[Amazon.S3.Model.LifecycleTagPredicate] @{
						"Tag"=  @{
							"Key" =  "archived"
							"Value" = "yes"
						}
					}
				)
			}
		}
		Status= 'Enabled'
		NoncurrentVersionExpiration = @{
			NoncurrentDays = 150
		}
	}

	$ArchiveRule = [Amazon.S3.Model.LifecycleRule] @{
		Expiration =  $null
		Id =  "Archive-to-Glacier-in-30-days"
		Filter=  @{
			LifecycleFilterPredicate =  [Amazon.S3.Model.LifecycleAndOperator]@{
				Operands= @(
					[Amazon.S3.Model.LifecyclePrefixPredicate] @{
						"Prefix" =  "py"
					},
					[Amazon.S3.Model.LifecycleTagPredicate] @{
						"Tag"=  @{
							"Key" =  "reviewed"
							"Value" = "yes"
						}
					}
				)
			}
		}
		Status = 'Enabled'
		NoncurrentVersionExpiration = @{
			NoncurrentDays = 75
		}
		Transitions = @(
			@{
				Days = 30
				"StorageClass"= 'Glacier'
			},
			@{
				Days = 120
				"StorageClass"= [Amazon.S3.S3StorageClass]::DeepArchive
			}
		)
	}

	Write-S3LifecycleConfiguration -BucketName amzn-s3-demo-bucket -Configuration_Rule $ExpireRule,$ArchiveRule
```
+  Untuk detail API, lihat [PutLifecycleConfiguration](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3Object`
<a name="s3_PutObject_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3Object`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengunggah file tunggal "local-sample.txt" ke Amazon S3, membuat objek dengan kunci "sample.txt" di bucket “test-files”.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Key "sample.txt" -File .\local-sample.txt
```
**Contoh 2: Perintah ini mengunggah file tunggal "sample.txt" ke Amazon S3, membuat objek dengan kunci "sample.txt" di bucket “test-files”. Jika parameter -Key tidak disediakan, nama file digunakan sebagai kunci objek S3.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -File .\sample.txt
```
**Contoh 3: Perintah ini mengunggah file tunggal "local-sample.txt" ke Amazon S3, membuat objek dengan kunci prefix/to/sample ".txt” di bucket “test-files”.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Key "prefix/to/sample.txt" -File .\local-sample.txt
```
**Contoh 4: Perintah ini mengunggah semua file di subdirektori “Scripts” ke bucket “test-files” dan menerapkan common key prefix "" untuk setiap objek. SampleScripts Setiap file yang diunggah akan memiliki kunci "SampleScripts/filename" di mana 'nama filen' bervariasi.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Folder .\Scripts -KeyPrefix SampleScripts\
```
**Contoh 5: Perintah ini mengunggah semua file\$1.ps1 di direktur lokal “Scripts” ke bucket “test-files” dan menerapkan common key prefix "" ke setiap objek. SampleScripts Setiap file yang diunggah akan memiliki kunci "SampleScripts/filename.ps1" di mana 'nama filen' bervariasi.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Folder .\Scripts -KeyPrefix SampleScripts\ -SearchPattern *.ps1
```
**Contoh 6: Perintah ini membuat objek S3 baru yang berisi string konten tertentu dengan kunci 'sample.txt'.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Key "sample.txt" -Content "object contents"
```
**Contoh 7: Perintah ini mengunggah file yang ditentukan (nama file digunakan sebagai kunci) dan menerapkan tag yang ditentukan ke objek baru.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -File "sample.txt" -TagSet @{Key="key1";Value="value1"},@{Key="key2";Value="value2"}
```
**Contoh 8: Perintah ini secara rekursif mengunggah folder yang ditentukan dan menerapkan tag yang ditentukan ke semua objek baru.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Folder . -KeyPrefix "TaggedFiles" -Recurse -TagSet @{Key="key1";Value="value1"},@{Key="key2";Value="value2"}
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-S3ObjectRetention`
<a name="s3_PutObjectRetention_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3ObjectRetention`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah mengaktifkan mode retensi tata kelola hingga tanggal '31 Des 2019 00:00:00 'untuk objek' testfile.txt 'di bucket S3 yang diberikan.**  

```
Write-S3ObjectRetention -BucketName 'amzn-s3-demo-bucket' -Key 'testfile.txt' -Retention_Mode GOVERNANCE -Retention_RetainUntilDate "2019-12-31T00:00:00"
```
+  Untuk detail API, lihat [PutObjectRetention](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh CSPM Security Hub menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_securityhub_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Security Hub CSPM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-SHUBFinding`
<a name="securityhub_GetSHUBFinding_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SHUBFinding`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengambil temuan Security Hub dari Amazon EC2; layanan.**  

```
$filter = New-Object -TypeName Amazon.SecurityHub.Model.AwsSecurityFindingFilters
$filter.ResourceType = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'PREFIX'
    Value = 'AwsEc2'
}
Get-SHUBFinding -Filter $filter
```
**Contoh 2: Perintah ini mengambil temuan Security Hub dari ID AWS akun 123456789012.**  

```
$filter = New-Object -TypeName Amazon.SecurityHub.Model.AwsSecurityFindingFilters
$filter.AwsAccountId = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'EQUALS'
    Value = '123456789012'
}
Get-SHUBFinding -Filter $filter
```
**Contoh 3: Perintah ini mengambil temuan Security Hub yang dihasilkan untuk standar “pci-dss”.**  

```
$filter = New-Object -TypeName Amazon.SecurityHub.Model.AwsSecurityFindingFilters
$filter.GeneratorId = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'PREFIX'
    Value = 'pci-dss'
}
Get-SHUBFinding -Filter $filter
```
**Contoh 4: Perintah ini mengambil temuan tingkat keparahan kritis Security Hub yang memiliki status alur kerja NOTIFIED.**  

```
$filter = New-Object -TypeName Amazon.SecurityHub.Model.AwsSecurityFindingFilters
$filter.SeverityLabel = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'EQUALS'
    Value = 'CRITICAL'
}
$filter.WorkflowStatus = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'EQUALS'
    Value = 'NOTIFIED'
}
Get-SHUBFinding -Filter $filter
```
+  Untuk detail API, lihat [GetFindings](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Amazon SES contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-SESIdentity`
<a name="ses_ListIdentities_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SESIdentity`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan daftar yang berisi semua identitas (alamat email dan domain) untuk AWS Akun tertentu, terlepas dari status verifikasi.**  

```
Get-SESIdentity
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SESSendQuota`
<a name="ses_GetSendQuota_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SESSendQuota`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan batas pengiriman pengguna saat ini.**  

```
Get-SESSendQuota
```
+  Untuk detail API, lihat [GetSendQuota](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SESSendStatistic`
<a name="ses_GetSendStatistics_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SESSendStatistic`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini mengembalikan statistik pengiriman pengguna. Hasilnya adalah daftar titik data, yang mewakili dua minggu terakhir aktivitas pengiriman. Setiap titik data dalam daftar berisi statistik untuk interval 15 menit.**  

```
Get-SESSendStatistic
```
+  Untuk detail API, lihat [GetSendStatistics](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Amazon SES API v2 contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_sesv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon SES API v2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Send-SES2Email`
<a name="sesv2_SendSES2Email_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-SES2Email`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara mengirim pesan email standar.**  

```
Send-SES2Email -FromEmailAddress "sender@example.com" -Destination_ToAddress "recipient@example.com" -Subject_Data "Email Subject" -Text_Data "Email Body"
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon SNS menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Publish-SNSMessage`
<a name="sns_Publish_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-SNSMessage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan penerbitan pesan dengan satu baris yang MessageAttribute dideklarasikan.**  

```
Publish-SNSMessage -TopicArn "arn:aws:sns:us-west-2:123456789012:my-topic" -Message "Hello" -MessageAttribute @{'City'=[Amazon.SimpleNotificationService.Model.MessageAttributeValue]@{DataType='String'; StringValue ='AnyCity'}}
```
**Contoh 2: Contoh ini menunjukkan penerbitan pesan dengan beberapa MessageAttributes dideklarasikan sebelumnya.**  

```
$cityAttributeValue = New-Object Amazon.SimpleNotificationService.Model.MessageAttributeValue
$cityAttributeValue.DataType = "String"
$cityAttributeValue.StringValue = "AnyCity"

$populationAttributeValue = New-Object Amazon.SimpleNotificationService.Model.MessageAttributeValue
$populationAttributeValue.DataType = "Number"
$populationAttributeValue.StringValue = "1250800"

$messageAttributes = New-Object System.Collections.Hashtable
$messageAttributes.Add("City", $cityAttributeValue)
$messageAttributes.Add("Population", $populationAttributeValue)

Publish-SNSMessage -TopicArn "arn:aws:sns:us-west-2:123456789012:my-topic" -Message "Hello" -MessageAttribute $messageAttributes
```
+  Untuk detail API, lihat [Menerbitkan](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon SQS menggunakan Alat untuk V4 PowerShell
<a name="powershell_4_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-SQSPermission`
<a name="sqs_AddPermission_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-SQSPermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan yang ditentukan Akun AWS untuk mengirim pesan dari antrian yang ditentukan.**  

```
Add-SQSPermission -Action SendMessage -AWSAccountId 80398EXAMPLE -Label SendMessagesFromMyQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [AddPermission](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Clear-SQSQueue`
<a name="sqs_PurgeQueue_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Clear-SQSQueue`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus semua pesan dari antrian yang ditentukan.**  

```
Clear-SQSQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [PurgeQueue](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-SQSMessageVisibility`
<a name="sqs_ChangeMessageVisibility_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-SQSMessageVisibility`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah batas waktu visibilitas untuk pesan dengan pegangan tanda terima yang ditentukan dalam antrian yang ditentukan menjadi 10 jam (10 jam\$1 60 menit \$1 60 detik = 36000 detik).**  

```
Edit-SQSMessageVisibility -QueueUrl https://sqs.us-east-1.amazonaws.com/8039EXAMPLE/MyQueue -ReceiptHandle AQEBgGDh...J/Iqww== -VisibilityTimeout 36000
```
+  Untuk detail API, lihat [ChangeMessageVisibility](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-SQSMessageVisibilityBatch`
<a name="sqs_ChangeMessageVisibilityBatch_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-SQSMessageVisibilityBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah batas waktu visibilitas untuk 2 pesan dengan tanda terima yang ditentukan dalam antrian yang ditentukan. Batas waktu visibilitas pesan pertama diubah menjadi 10 jam (10 jam\$1 60 menit \$1 60 detik = 36000 detik). Batas waktu visibilitas pesan kedua diubah menjadi 5 jam (5 jam \$1 60 menit \$1 60 detik = 18000 detik).**  

```
$changeVisibilityRequest1 = New-Object Amazon.SQS.Model.ChangeMessageVisibilityBatchRequestEntry
$changeVisibilityRequest1.Id = "Request1"
$changeVisibilityRequest1.ReceiptHandle = "AQEBd329...v6gl8Q=="
$changeVisibilityRequest1.VisibilityTimeout = 36000

$changeVisibilityRequest2 = New-Object Amazon.SQS.Model.ChangeMessageVisibilityBatchRequestEntry
$changeVisibilityRequest2.Id = "Request2"
$changeVisibilityRequest2.ReceiptHandle = "AQEBgGDh...J/Iqww=="
$changeVisibilityRequest2.VisibilityTimeout = 18000

Edit-SQSMessageVisibilityBatch -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue -Entry $changeVisibilityRequest1, $changeVisibilityRequest2
```
**Output:**  

```
Failed    Successful                                                                    
------    ----------                                                                    
{}        {Request2, Request1}
```
+  Untuk detail API, lihat [ChangeMessageVisibilityBatch](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SQSDeadLetterSourceQueue`
<a name="sqs_ListDeadLetterSourceQueues_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SQSDeadLetterSourceQueue`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan antrian apa pun yang bergantung pada antrian yang ditentukan sebagai antrian surat mati mereka. URLs **  

```
Get-SQSDeadLetterSourceQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyOtherQueue
```
+  Untuk detail API, lihat [ListDeadLetterSourceQueues](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SQSQueue`
<a name="sqs_ListQueues_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SQSQueue`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua antrian.**  

```
Get-SQSQueue
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/AnotherQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/DeadLetterQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyOtherQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue
```
**Contoh 2: Contoh ini mencantumkan antrian apa pun yang dimulai dengan nama yang ditentukan.**  

```
Get-SQSQueue -QueueNamePrefix My
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyOtherQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SQSQueueAttribute`
<a name="sqs_GetQueueAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SQSQueueAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua atribut untuk antrian yang ditentukan.**  

```
Get-SQSQueueAttribute -AttributeName All -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
**Output:**  

```
VisibilityTimeout                     : 30
DelaySeconds                          : 0
MaximumMessageSize                    : 262144
MessageRetentionPeriod                : 345600
ApproximateNumberOfMessages           : 0
ApproximateNumberOfMessagesNotVisible : 0
ApproximateNumberOfMessagesDelayed    : 0
CreatedTimestamp                      : 2/11/2015 5:53:35 PM
LastModifiedTimestamp                 : 12/29/2015 2:23:17 PM
QueueARN                              : arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue
Policy                                : {"Version":"2012-10-17",		 	 	 "Id":"arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue/SQSDefaultPolicy","Statement":[{"Sid":"Sid14
                                        495134224EX","Effect":"Allow","Principal":{"AWS":"*"},"Action":"SQS:SendMessage","Resource":"arn:aws:sqs:us-east-1:80
                                        398EXAMPLE:MyQueue","Condition":{"ArnEquals":{"aws:SourceArn":"arn:aws:sns:us-east-1:80398EXAMPLE:MyTopic"}}},{"Sid":
                                        "SendMessagesFromMyQueue","Effect":"Allow","Principal":{"AWS":"80398EXAMPLE"},"Action":"SQS:SendMessage","Resource":"
                                        arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue"}]}
Attributes                            : {[QueueArn, arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue], [ApproximateNumberOfMessages, 0], 
                                        [ApproximateNumberOfMessagesNotVisible, 0], [ApproximateNumberOfMessagesDelayed, 0]...}
```
**Contoh 2: Contoh ini mencantumkan secara terpisah hanya atribut yang ditentukan untuk antrian yang ditentukan.**  

```
Get-SQSQueueAttribute -AttributeName MaximumMessageSize, VisibilityTimeout -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
**Output:**  

```
VisibilityTimeout                     : 30
DelaySeconds                          : 0
MaximumMessageSize                    : 262144
MessageRetentionPeriod                : 345600
ApproximateNumberOfMessages           : 0
ApproximateNumberOfMessagesNotVisible : 0
ApproximateNumberOfMessagesDelayed    : 0
CreatedTimestamp                      : 2/11/2015 5:53:35 PM
LastModifiedTimestamp                 : 12/29/2015 2:23:17 PM
QueueARN                              : arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue
Policy                                : {"Version":"2012-10-17",		 	 	 "Id":"arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue/SQSDefaultPolicy","Statement":[{"Sid":"Sid14
                                        495134224EX","Effect":"Allow","Principal":{"AWS":"*"},"Action":"SQS:SendMessage","Resource":"arn:aws:sqs:us-east-1:80
                                        398EXAMPLE:MyQueue","Condition":{"ArnEquals":{"aws:SourceArn":"arn:aws:sns:us-east-1:80398EXAMPLE:MyTopic"}}},{"Sid":
                                        "SendMessagesFromMyQueue","Effect":"Allow","Principal":{"AWS":"80398EXAMPLE"},"Action":"SQS:SendMessage","Resource":"
                                        arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue"}]}
Attributes                            : {[MaximumMessageSize, 262144], [VisibilityTimeout, 30]}
```
+  Untuk detail API, lihat [GetQueueAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SQSQueueUrl`
<a name="sqs_GetQueueUrl_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SQSQueueUrl`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan URL antrian dengan nama yang ditentukan.**  

```
Get-SQSQueueUrl -QueueName MyQueue
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-SQSQueue`
<a name="sqs_CreateQueue_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SQSQueue`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat antrian dengan nama yang ditentukan.**  

```
New-SQSQueue -QueueName MyQueue
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Receive-SQSMessage`
<a name="sqs_ReceiveMessage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Receive-SQSMessage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan informasi hingga 10 pesan berikutnya yang akan diterima untuk antrian yang ditentukan. Informasi akan berisi nilai untuk atribut pesan yang ditentukan, jika ada.**  

```
Receive-SQSMessage -AttributeName SenderId, SentTimestamp -MessageAttributeName StudentName, StudentGrade -MessageCount 10 -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
**Output:**  

```
Attributes             : {[SenderId, AIDAIAZKMSNQ7TEXAMPLE], [SentTimestamp, 1451495923744]}
Body                   : Information about John Doe's grade.
MD5OfBody              : ea572796e3c231f974fe75d89EXAMPLE
MD5OfMessageAttributes : 48c1ee811f0fe7c4e88fbe0f5EXAMPLE
MessageAttributes      : {[StudentGrade, Amazon.SQS.Model.MessageAttributeValue], [StudentName, Amazon.SQS.Model.MessageAttributeValue]}
MessageId              : 53828c4b-631b-469b-8833-c093cEXAMPLE
ReceiptHandle          : AQEBpfGp...20Q5cg==
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SQSMessage`
<a name="sqs_DeleteMessage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SQSMessage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus pesan dengan pegangan tanda terima yang ditentukan dari antrian yang ditentukan.**  

```
Remove-SQSMessage -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue -ReceiptHandle AQEBd329...v6gl8Q==
```
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SQSMessageBatch`
<a name="sqs_DeleteMessageBatch_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SQSMessageBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus 2 pesan dengan pegangan tanda terima yang ditentukan dari antrian yang ditentukan.**  

```
$deleteMessageRequest1 = New-Object Amazon.SQS.Model.DeleteMessageBatchRequestEntry
$deleteMessageRequest1.Id = "Request1"
$deleteMessageRequest1.ReceiptHandle = "AQEBX2g4...wtJSQg=="

$deleteMessageRequest2 = New-Object Amazon.SQS.Model.DeleteMessageBatchRequestEntry
$deleteMessageRequest2.Id = "Request2"
$deleteMessageRequest2.ReceiptHandle = "AQEBqOVY...KTsLYg=="

Remove-SQSMessageBatch -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue -Entry $deleteMessageRequest1, $deleteMessageRequest2
```
**Output:**  

```
Failed    Successful                                                                    
------    ----------                                                                    
{}        {Request1, Request2}
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SQSPermission`
<a name="sqs_RemovePermission_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SQSPermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus pengaturan izin dengan label yang ditentukan dari antrian yang ditentukan.**  

```
Remove-SQSPermission -Label SendMessagesFromMyQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [RemovePermission](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SQSQueue`
<a name="sqs_DeleteQueue_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SQSQueue`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus antrian yang ditentukan.**  

```
Remove-SQSQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Send-SQSMessage`
<a name="sqs_SendMessage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-SQSMessage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengirimkan pesan dengan atribut dan badan pesan yang ditentukan ke antrian yang ditentukan dengan pengiriman pesan tertunda selama 10 detik.**  

```
$cityAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$cityAttributeValue.DataType = "String"
$cityAttributeValue.StringValue = "AnyCity"

$populationAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$populationAttributeValue.DataType = "Number"
$populationAttributeValue.StringValue = "1250800"

$messageAttributes = New-Object System.Collections.Hashtable
$messageAttributes.Add("City", $cityAttributeValue)
$messageAttributes.Add("Population", $populationAttributeValue)

Send-SQSMessage -DelayInSeconds 10 -MessageAttributes $messageAttributes -MessageBody "Information about the largest city in Any Region." -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
**Output:**  

```
MD5OfMessageAttributes              MD5OfMessageBody                    MessageId                                          
----------------------              ----------------                    ---------                                          
1d3e51347bc042efbdf6dda31EXAMPLE    51b0a3256d59467f973009b73EXAMPLE    c35fed8f-c739-4d0c-818b-1820eEXAMPLE
```
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Send-SQSMessageBatch`
<a name="sqs_SendMessageBatch_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-SQSMessageBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengirimkan 2 pesan dengan atribut tertentu dan badan pesan ke antrian yang ditentukan. Pengiriman ditunda selama 15 detik untuk pesan pertama dan 10 detik untuk pesan kedua.**  

```
$student1NameAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$student1NameAttributeValue.DataType = "String"
$student1NameAttributeValue.StringValue = "John Doe"

$student1GradeAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$student1GradeAttributeValue.DataType = "Number"
$student1GradeAttributeValue.StringValue = "89"

$student2NameAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$student2NameAttributeValue.DataType = "String"
$student2NameAttributeValue.StringValue = "Jane Doe"

$student2GradeAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$student2GradeAttributeValue.DataType = "Number"
$student2GradeAttributeValue.StringValue = "93"

$message1 = New-Object Amazon.SQS.Model.SendMessageBatchRequestEntry 
$message1.DelaySeconds = 15
$message1.Id = "FirstMessage"
$message1.MessageAttributes.Add("StudentName", $student1NameAttributeValue)
$message1.MessageAttributes.Add("StudentGrade", $student1GradeAttributeValue)
$message1.MessageBody = "Information about John Doe's grade."

$message2 = New-Object Amazon.SQS.Model.SendMessageBatchRequestEntry 
$message2.DelaySeconds = 10
$message2.Id = "SecondMessage"
$message2.MessageAttributes.Add("StudentName", $student2NameAttributeValue)
$message2.MessageAttributes.Add("StudentGrade", $student2GradeAttributeValue)
$message2.MessageBody = "Information about Jane Doe's grade."

Send-SQSMessageBatch -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue -Entry $message1, $message2
```
**Output:**  

```
Failed    Successful                                                                    
------    ----------                                                                    
{}        {FirstMessage, SecondMessage}
```
+  Untuk detail API, lihat [SendMessageBatch](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Set-SQSQueueAttribute`
<a name="sqs_SetQueueAttributes_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-SQSQueueAttribute`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan cara menyetel kebijakan berlangganan antrian ke topik SNS. Ketika pesan dipublikasikan ke topik, pesan dikirim ke antrian berlangganan.**  

```
# create the queue and topic to be associated
$qurl = New-SQSQueue -QueueName "myQueue"
$topicarn = New-SNSTopic -Name "myTopic"

# get the queue ARN to inject into the policy; it will be returned
# in the output's QueueARN member but we need to put it into a variable
# so text expansion in the policy string takes effect
$qarn = (Get-SQSQueueAttribute -QueueUrl $qurl -AttributeName "QueueArn").QueueARN

# construct the policy and inject arns
$policy = @"
{
  "Version":"2012-10-17",		 	 	 
  "Id": "$qarn/SQSPOLICY",
  "Statement": [
      {
      "Sid": "1",
      "Effect": "Allow",
      "Principal": "*",
      "Action": "SQS:SendMessage",
      "Resource": "$qarn",
      "Condition": {
        "ArnEquals": {
          "aws:SourceArn": "$topicarn"
          }
      }
    }
  ]
}
"@

# set the policy
Set-SQSQueueAttribute -QueueUrl $qurl -Attribute @{ Policy=$policy }
```
**Contoh 2: Contoh ini menetapkan atribut tertentu untuk antrian yang ditentukan.**  

```
Set-SQSQueueAttribute -Attribute @{"DelaySeconds" = "10"; "MaximumMessageSize" = "131072"} -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [SetQueueAttributes](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# AWS STS contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Convert-STSAuthorizationMessage`
<a name="sts_DecodeAuthorizationMessage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Convert-STSAuthorizationMessage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mendekode informasi tambahan yang terkandung dalam konten pesan disandikan yang disediakan yang dikembalikan sebagai tanggapan atas permintaan. Informasi tambahan dikodekan karena rincian status otorisasi dapat merupakan informasi istimewa yang tidak boleh dilihat oleh pengguna yang meminta tindakan.**  

```
Convert-STSAuthorizationMessage -EncodedMessage "...encoded message..."
```
+  Untuk detail API, lihat [DecodeAuthorizationMessage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-STSFederationToken`
<a name="sts_GetFederationToken_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-STSFederationToken`.

**Alat untuk PowerShell V4**  
**Contoh 1: Meminta token federasi yang valid selama satu jam menggunakan “Bob” sebagai nama pengguna federasi. Nama ini dapat digunakan untuk mereferensikan nama pengguna federasi dalam kebijakan berbasis sumber daya (seperti kebijakan bucket Amazon S3). Kebijakan IAM yang disediakan, dalam format JSON, digunakan untuk mencakup izin yang tersedia untuk pengguna IAM. Kebijakan yang diberikan tidak dapat memberikan izin lebih dari yang diberikan kepada pengguna yang meminta, dengan izin akhir untuk pengguna federasi menjadi set yang paling ketat berdasarkan persimpangan kebijakan yang disahkan dan kebijakan pengguna IAM.**  

```
Get-STSFederationToken -Name "Bob" -Policy "...JSON policy..." -DurationInSeconds 3600
```
+  Untuk detail API, lihat [GetFederationToken](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-STSSessionToken`
<a name="sts_GetSessionToken_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-STSSessionToken`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan sebuah `Amazon.RuntimeAWSCredentials` instance yang berisi kredensi sementara yang valid untuk jangka waktu tertentu. Kredensial yang digunakan untuk meminta kredenal sementara disimpulkan dari default shell saat ini. Untuk menentukan kredensi lainnya, gunakan parameter - ProfileName atau - AccessKey SecretKey /-.**  

```
Get-STSSessionToken
```
**Output:**  

```
AccessKeyId                             Expiration                              SecretAccessKey                        SessionToken
-----------                             ----------                              ---------------                        ------------
EXAMPLEACCESSKEYID                      2/16/2015 9:12:28 PM                    examplesecretaccesskey...              SamPleTokeN.....
```
**Contoh 2: Mengembalikan sebuah `Amazon.RuntimeAWSCredentials` instance yang berisi kredensi sementara yang valid selama satu jam. Kredensi yang digunakan untuk membuat permintaan diperoleh dari profil yang ditentukan.**  

```
Get-STSSessionToken -DurationInSeconds 3600 -ProfileName myprofile
```
**Output:**  

```
AccessKeyId                             Expiration                              SecretAccessKey                        SessionToken
-----------                             ----------                              ---------------                        ------------
EXAMPLEACCESSKEYID                      2/16/2015 9:12:28 PM                    examplesecretaccesskey...              SamPleTokeN.....
```
**Contoh 3: Mengembalikan `Amazon.RuntimeAWSCredentials` instance yang berisi kredensyal sementara yang valid selama satu jam menggunakan nomor identifikasi perangkat MFA yang terkait dengan akun yang kredensialnya ditentukan dalam profil 'myprofilename' dan nilai yang diberikan oleh perangkat.**  

```
Get-STSSessionToken -DurationInSeconds 3600 -ProfileName myprofile -SerialNumber YourMFADeviceSerialNumber -TokenCode 123456
```
**Output:**  

```
AccessKeyId                             Expiration                              SecretAccessKey                        SessionToken
-----------                             ----------                              ---------------                        ------------
EXAMPLEACCESSKEYID                      2/16/2015 9:12:28 PM                    examplesecretaccesskey...              SamPleTokeN.....
```
+  Untuk detail API, lihat [GetSessionToken](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Use-STSRole`
<a name="sts_AssumeRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Use-STSRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan satu set kredensyal sementara (kunci akses, kunci rahasia, dan token sesi) yang dapat digunakan selama satu jam untuk mengakses AWS sumber daya yang biasanya tidak dapat diakses oleh pengguna yang meminta. Kredensyal yang dikembalikan memiliki izin yang diizinkan oleh kebijakan akses peran yang diasumsikan dan kebijakan yang diberikan (Anda tidak dapat menggunakan kebijakan yang disediakan untuk memberikan izin melebihi yang ditentukan oleh kebijakan akses peran yang diasumsikan).**  

```
Use-STSRole -RoleSessionName "Bob" -RoleArn "arn:aws:iam::123456789012:role/demo" -Policy "...JSON policy..." -DurationInSeconds 3600
```
**Contoh 2: Mengembalikan satu set kredensi sementara, berlaku selama satu jam, yang memiliki izin yang sama yang ditentukan dalam kebijakan akses peran yang diasumsikan.**  

```
Use-STSRole -RoleSessionName "Bob" -RoleArn "arn:aws:iam::123456789012:role/demo" -DurationInSeconds 3600
```
**Contoh 3: Mengembalikan satu set kredensi sementara yang memasok nomor seri dan token yang dihasilkan dari MFA yang terkait dengan kredensil pengguna yang digunakan untuk mengeksekusi cmdlet.**  

```
Use-STSRole -RoleSessionName "Bob" -RoleArn "arn:aws:iam::123456789012:role/demo" -DurationInSeconds 3600 -SerialNumber "GAHT12345678" -TokenCode "123456"
```
**Contoh 4: Mengembalikan satu set kredensi sementara yang telah mengambil peran yang ditentukan dalam akun pelanggan. Untuk setiap peran yang dapat diasumsikan oleh pihak ketiga, akun pelanggan harus membuat peran menggunakan pengidentifikasi yang harus diteruskan dalam ExternalId parameter - setiap kali peran diasumsikan.**  

```
Use-STSRole -RoleSessionName "Bob" -RoleArn "arn:aws:iam::123456789012:role/demo" -DurationInSeconds 3600 -ExternalId "ABC123"
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Use-STSWebIdentityRole`
<a name="sts_AssumeRoleWithWebIdentity_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Use-STSWebIdentityRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan kumpulan kredensional sementara, berlaku selama satu jam, untuk pengguna yang telah diautentikasi dengan penyedia identitas Login with Amazon. Kredensyal mengasumsikan kebijakan akses yang terkait dengan peran yang diidentifikasi oleh peran ARN. Secara opsional, Anda dapat meneruskan kebijakan JSON ke parameter -Policy yang selanjutnya menyempurnakan izin akses (Anda tidak dapat memberikan izin lebih dari yang tersedia dalam izin yang terkait dengan peran). Nilai yang diberikan ke - WebIdentityToken adalah pengidentifikasi pengguna unik yang dikembalikan oleh penyedia identitas.**  

```
Use-STSWebIdentityRole -DurationInSeconds 3600 -ProviderId "www.amazon.com" -RoleSessionName "app1" -RoleArn "arn:aws:iam::123456789012:role/FederatedWebIdentityRole" -WebIdentityToken "Atza...DVI0r1"
```
+  Untuk detail API, lihat [AssumeRoleWithWebIdentity](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Dukungan contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_support_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Dukungan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-ASACommunicationToCase`
<a name="support_AddCommunicationToCase_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ASACommunicationToCase`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menambahkan badan komunikasi email ke kasus yang ditentukan.**  

```
Add-ASACommunicationToCase -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47" -CommunicationBody "Some text about the case"
```
**Contoh 2: Menambahkan badan komunikasi email ke kasus yang ditentukan ditambah satu atau lebih alamat email yang terkandung dalam baris CC email.**  

```
Add-ASACommunicationToCase -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47" -CcEmailAddress @("email1@address.com", "email2@address.com") -CommunicationBody "Some text about the case"
```
+  Untuk detail API, lihat [AddCommunicationToCase](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASACase`
<a name="support_DescribeCases_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASACase`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan rincian semua kasus dukungan.**  

```
Get-ASACase
```
**Contoh 2: Mengembalikan rincian semua kasus dukungan sejak tanggal dan waktu yang ditentukan.**  

```
Get-ASACase -AfterTime "2013-09-10T03:06Z"
```
**Contoh 3: Mengembalikan rincian 10 kasus dukungan pertama, termasuk yang telah diselesaikan.**  

```
Get-ASACase -MaxResult 10 -IncludeResolvedCases $true
```
**Contoh 4: Mengembalikan rincian kasus dukungan tunggal yang ditentukan.**  

```
Get-ASACase -CaseIdList "case-12345678910-2013-c4c1d2bf33c5cf47"
```
**Contoh 5: Mengembalikan rincian kasus dukungan tertentu.**  

```
Get-ASACase -CaseIdList @("case-12345678910-2013-c4c1d2bf33c5cf47", "case-18929034710-2011-c4fdeabf33c5cf47")
```
+  Untuk detail API, lihat [DescribeCases](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASACommunication`
<a name="support_DescribeCommunications_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASACommunication`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua komunikasi untuk kasus tertentu.**  

```
Get-ASACommunication -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47"
```
**Contoh 2: Mengembalikan semua komunikasi sejak tengah malam UTC pada 1 Januari 2012 untuk kasus yang ditentukan.**  

```
Get-ASACommunication -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47" -AfterTime "2012-01-10T00:00Z"
```
+  Untuk detail API, lihat [DescribeCommunications](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASAService`
<a name="support_DescribeServices_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAService`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan semua kode layanan, nama, dan kategori yang tersedia.**  

```
Get-ASAService
```
**Contoh 2: Mengembalikan nama dan kategori untuk layanan dengan kode yang ditentukan.**  

```
Get-ASAService -ServiceCodeList "amazon-cloudfront"
```
**Contoh 3: Mengembalikan nama dan kategori untuk kode layanan tertentu.**  

```
Get-ASAService -ServiceCodeList @("amazon-cloudfront", "amazon-cloudwatch")
```
**Contoh 4: Mengembalikan nama dan kategori (dalam bahasa Jepang) untuk kode layanan yang ditentukan. Saat ini kode bahasa Inggris (“en”) dan Jepang (“ja”) didukung.**  

```
Get-ASAService -ServiceCodeList @("amazon-cloudfront", "amazon-cloudwatch") -Language "ja"
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASASeverityLevel`
<a name="support_DescribeSeverityLevels_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASASeverityLevel`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan daftar tingkat keparahan yang dapat ditetapkan ke kasus AWS Support.**  

```
Get-ASASeverityLevel
```
**Contoh 2: Mengembalikan daftar tingkat keparahan yang dapat ditetapkan ke kasus AWS Support. Nama-nama level dikembalikan dalam bahasa Jepang.**  

```
Get-ASASeverityLevel -Language "ja"
```
+  Untuk detail API, lihat [DescribeSeverityLevels](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASATrustedAdvisorCheck`
<a name="support_DescribeTrustedAdvisorChecks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASATrustedAdvisorCheck`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan koleksi cek Trusted Advisor. Anda harus menentukan parameter Bahasa yang dapat menerima “en” untuk output bahasa Inggris atau “ja” untuk output Jepang.**  

```
Get-ASATrustedAdvisorCheck -Language "en"
```
+  Untuk detail API, lihat [DescribeTrustedAdvisorChecks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASATrustedAdvisorCheckRefreshStatus`
<a name="support_DescribeTrustedAdvisorCheckRefreshStatuses_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASATrustedAdvisorCheckRefreshStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan status permintaan penyegaran saat ini untuk pemeriksaan yang ditentukan. Permintaan- ASATrusted AdvisorCheckRefresh dapat digunakan untuk meminta agar informasi status cek disegarkan.**  

```
Get-ASATrustedAdvisorCheckRefreshStatus -CheckId @("checkid1", "checkid2")
```
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckRefreshStatuses](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASATrustedAdvisorCheckResult`
<a name="support_DescribeTrustedAdvisorCheckResult_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASATrustedAdvisorCheckResult`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan hasil pemeriksaan Trusted Advisor. Daftar cek Trusted Advisor yang tersedia dapat diperoleh dengan menggunakan Get-. ASATrusted AdvisorChecks Outputnya adalah status keseluruhan pemeriksaan, stempel waktu di mana pemeriksaan terakhir dijalankan dan checkid unik untuk pemeriksaan tertentu. Untuk mendapatkan output hasil dalam bahasa Jepang, tambahkan parameter -Language “ja”.**  

```
Get-ASATrustedAdvisorCheckResult -CheckId "checkid1"
```
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckResult](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-ASATrustedAdvisorCheckSummary`
<a name="support_DescribeTrustedAdvisorCheckSummaries_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASATrustedAdvisorCheckSummary`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan ringkasan terbaru untuk pemeriksaan Trusted Advisor yang ditentukan.**  

```
Get-ASATrustedAdvisorCheckSummary -CheckId "checkid1"
```
**Contoh 2: Mengembalikan ringkasan terbaru untuk pemeriksaan Trusted Advisor yang ditentukan.**  

```
Get-ASATrustedAdvisorCheckSummary -CheckId @("checkid1", "checkid2")
```
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckSummaries](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-ASACase`
<a name="support_CreateCase_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ASACase`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membuat kasus baru di AWS Support Center. Nilai untuk CategoryCode parameter - ServiceCode dan - dapat diperoleh dengan menggunakan Get-ASAService cmdlet. Nilai untuk SeverityCode parameter - dapat diperoleh dengan menggunakan Get-ASASeverityLevel cmdlet. Nilai - IssueType parameter dapat berupa “layanan pelanggan” atau “teknis”. Jika berhasil, nomor kasus AWS Support adalah output. Secara default kasus akan ditangani dalam bahasa Inggris, untuk menggunakan bahasa Jepang tambahkan parameter -Language “ja”. CommunicationBody Parameter -ServiceCode, -CategoryCode, -Subjek dan - adalah wajib.**  

```
New-ASACase -ServiceCode "amazon-cloudfront" -CategoryCode "APIs" -SeverityCode "low" -Subject "subject text" -CommunicationBody "description of the case" -CcEmailAddress @("email1@domain.com", "email2@domain.com") -IssueType "technical"
```
+  Untuk detail API, lihat [CreateCase](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Request-ASATrustedAdvisorCheckRefresh`
<a name="support_RefreshTrustedAdvisorCheck_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-ASATrustedAdvisorCheckRefresh`.

**Alat untuk PowerShell V4**  
**Contoh 1: Meminta penyegaran untuk pemeriksaan Trusted Advisor yang ditentukan.**  

```
Request-ASATrustedAdvisorCheckRefresh -CheckId "checkid1"
```
+  Untuk detail API, lihat [RefreshTrustedAdvisorCheck](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Resolve-ASACase`
<a name="support_ResolveCase_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Resolve-ASACase`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengembalikan keadaan awal dari kasus yang ditentukan dan keadaan saat ini setelah panggilan untuk menyelesaikannya selesai.**  

```
Resolve-ASACase -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47"
```
+  Untuk detail API, lihat [ResolveCase](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Systems Manager menggunakan Alat untuk PowerShell V4
<a name="powershell_4_ssm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Systems Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-SSMResourceTag`
<a name="ssm_AddTagsToResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-SSMResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui jendela pemeliharaan dengan tag baru. Tidak ada output jika perintah berhasil. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$option1 = @{Key="Stack";Value=@("Production")}
Add-SSMResourceTag -ResourceId "mw-03eb9db42890fb82d" -ResourceType "MaintenanceWindow" -Tag $option1
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap tag. Tidak ada output jika perintah berhasil.**  

```
$tag1 = New-Object Amazon.SimpleSystemsManagement.Model.Tag
$tag1.Key = "Stack"
$tag1.Value = "Production"
		
Add-SSMResourceTag -ResourceId "mw-03eb9db42890fb82d" -ResourceType "MaintenanceWindow" -Tag $tag1
```
+  Untuk detail API, lihat [AddTagsToResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-SSMDocumentPermission`
<a name="ssm_ModifyDocumentPermission_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-SSMDocumentPermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan izin “bagikan” ke semua akun untuk dokumen. Tidak ada output jika perintah berhasil.**  

```
Edit-SSMDocumentPermission -Name "RunShellScript" -PermissionType "Share" -AccountIdsToAdd all
```
**Contoh 2: Contoh ini menambahkan izin “bagikan” ke akun tertentu untuk dokumen. Tidak ada output jika perintah berhasil.**  

```
Edit-SSMDocumentPermission -Name "RunShellScriptNew" -PermissionType "Share" -AccountIdsToAdd "123456789012"
```
+  Untuk detail API, lihat [ModifyDocumentPermission](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMActivation`
<a name="ssm_DescribeActivations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMActivation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memberikan rincian tentang aktivasi di akun Anda.**  

```
Get-SSMActivation
```
**Output:**  

```
ActivationId        : 08e51e79-1e36-446c-8e63-9458569c1363
CreatedDate         : 3/1/2017 12:01:51 AM
DefaultInstanceName : MyWebServers
Description         :
ExpirationDate      : 3/2/2017 12:01:51 AM
Expired             : False
IamRole             : AutomationRole
RegistrationLimit   : 10
RegistrationsCount  : 0
```
+  Untuk detail API, lihat [DescribeActivations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAssociation`
<a name="ssm_DescribeAssociation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan hubungan antara instance dan dokumen.**  

```
Get-SSMAssociation -InstanceId "i-0000293ffd8c57862" -Name "AWS-UpdateSSMAgent"
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            : i-0000293ffd8c57862
Date                  : 2/23/2017 6:55:22 PM
Status.Name           : Pending
Status.Date           : 2/20/2015 8:31:11 AM
Status.Message        : temp_status_change
Status.AdditionalInfo : Additional-Config-Needed
```
+  Untuk detail API, lihat [DescribeAssociation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAssociationExecution`
<a name="ssm_DescribeAssociationExecutions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociationExecution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan eksekusi untuk ID asosiasi yang disediakan**  

```
Get-SSMAssociationExecution -AssociationId 123a45a0-c678-9012-3456-78901234db5e
```
**Output:**  

```
AssociationId         : 123a45a0-c678-9012-3456-78901234db5e
AssociationVersion    : 2
CreatedTime           : 3/2/2019 8:53:29 AM
DetailedStatus        :
ExecutionId           : 123a45a0-c678-9012-3456-78901234db5e
LastExecutionDate     : 1/1/0001 12:00:00 AM
ResourceCountByStatus : {Success=4}
Status                : Success
```
+  Untuk detail API, lihat [DescribeAssociationExecutions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAssociationExecutionTarget`
<a name="ssm_DescribeAssociationExecutionTargets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociationExecutionTarget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan ID sumber daya dan status eksekusi yang merupakan bagian dari target eksekusi asosiasi**  

```
Get-SSMAssociationExecutionTarget -AssociationId 123a45a0-c678-9012-3456-78901234db5e -ExecutionId 123a45a0-c678-9012-3456-78901234db5e | Select-Object ResourceId, Status
```
**Output:**  

```
ResourceId           Status
----------           ------
i-0b1b2a3456f7a890b  Success
i-01c12a45d6fc7a89f  Success
i-0a1caf234f56d7dc8  Success
i-012a3fd45af6dbcfe  Failed
i-0ddc1df23c4a5fb67  Success
```
**Contoh 2: Perintah ini memeriksa eksekusi tertentu dari otomatisasi tertentu sejak kemarin, di mana dokumen perintah dikaitkan. Selanjutnya memeriksa apakah eksekusi asosiasi gagal, dan jika demikian, itu akan menampilkan rincian pemanggilan perintah untuk eksekusi bersama dengan id instance**  

```
$AssociationExecution= Get-SSMAssociationExecutionTarget -AssociationId 1c234567-890f-1aca-a234-5a678d901cb0 -ExecutionId 12345ca12-3456-2345-2b45-23456789012 | 
    Where-Object {$_.LastExecutionDate -gt (Get-Date -Hour 00 -Minute 00).AddDays(-1)} 

foreach ($execution in $AssociationExecution) {
    if($execution.Status -ne 'Success'){
        Write-Output "There was an issue executing the association $($execution.AssociationId) on $($execution.ResourceId)"
        Get-SSMCommandInvocation -CommandId $execution.OutputSource.OutputSourceId -Detail:$true | Select-Object -ExpandProperty CommandPlugins
    }
}
```
**Output:**  

```
There was an issue executing the association 1c234567-890f-1aca-a234-5a678d901cb0 on i-0a1caf234f56d7dc8


Name                   : aws:runPowerShellScript
Output                 : 
                         ----------ERROR-------
                         failed to run commands: exit status 1
OutputS3BucketName     : 
OutputS3KeyPrefix      : 
OutputS3Region         : eu-west-1
ResponseCode           : 1
ResponseFinishDateTime : 5/29/2019 11:04:49 AM
ResponseStartDateTime  : 5/29/2019 11:04:49 AM
StandardErrorUrl       : 
StandardOutputUrl      : 
Status                 : Failed
StatusDetails          : Failed
```
+  Untuk detail API, lihat [DescribeAssociationExecutionTargets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAssociationList`
<a name="ssm_ListAssociations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociationList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua asosiasi untuk sebuah instance. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter1 = @{Key="InstanceId";Value=@("i-0000293ffd8c57862")}
Get-SSMAssociationList -AssociationFilterList $filter1
```
**Output:**  

```
AssociationId      : d8617c07-2079-4c18-9847-1655fc2698b0
DocumentVersion    :
InstanceId         : i-0000293ffd8c57862
LastExecutionDate  : 2/20/2015 8:31:11 AM
Name               : AWS-UpdateSSMAgent
Overview           : Amazon.SimpleSystemsManagement.Model.AssociationOverview
ScheduleExpression :
Targets            : {InstanceIds}
```
**Contoh 2: Contoh ini mencantumkan semua asosiasi untuk dokumen konfigurasi. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter2 = @{Key="Name";Value=@("AWS-UpdateSSMAgent")}
Get-SSMAssociationList -AssociationFilterList $filter2
```
**Output:**  

```
AssociationId      : d8617c07-2079-4c18-9847-1655fc2698b0
DocumentVersion    :
InstanceId         : i-0000293ffd8c57862
LastExecutionDate  : 2/20/2015 8:31:11 AM
Name               : AWS-UpdateSSMAgent
Overview           : Amazon.SimpleSystemsManagement.Model.AssociationOverview
ScheduleExpression :
Targets            : {InstanceIds}
```
**Contoh 3: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap filter.**  

```
$filter1 = New-Object Amazon.SimpleSystemsManagement.Model.AssociationFilter
$filter1.Key = "InstanceId"
$filter1.Value = "i-0000293ffd8c57862"

Get-SSMAssociationList -AssociationFilterList $filter1
```
**Output:**  

```
AssociationId      : d8617c07-2079-4c18-9847-1655fc2698b0
DocumentVersion    :
InstanceId         : i-0000293ffd8c57862
LastExecutionDate  : 2/20/2015 8:31:11 AM
Name               : AWS-UpdateSSMAgent
Overview           : Amazon.SimpleSystemsManagement.Model.AssociationOverview
ScheduleExpression :
Targets            : {InstanceIds}
```
+  Untuk detail API, lihat [ListAssociations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAssociationVersionList`
<a name="ssm_ListAssociationVersions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociationVersionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil semua versi asosiasi yang disediakan.**  

```
Get-SSMAssociationVersionList -AssociationId 123a45a0-c678-9012-3456-78901234db5e
```
**Output:**  

```
AssociationId      : 123a45a0-c678-9012-3456-78901234db5e
AssociationName    :
AssociationVersion : 2
ComplianceSeverity :
CreatedDate        : 3/12/2019 9:21:01 AM
DocumentVersion    :
MaxConcurrency     :
MaxErrors          :
Name               : AWS-GatherSoftwareInventory
OutputLocation     :
Parameters         : {}
ScheduleExpression :
Targets            : {InstanceIds}

AssociationId      : 123a45a0-c678-9012-3456-78901234db5e
AssociationName    : test-case-1234567890
AssociationVersion : 1
ComplianceSeverity :
CreatedDate        : 3/2/2019 8:53:29 AM
DocumentVersion    :
MaxConcurrency     :
MaxErrors          :
Name               : AWS-GatherSoftwareInventory
OutputLocation     :
Parameters         : {}
ScheduleExpression : rate(30minutes)
Targets            : {InstanceIds}
```
+  Untuk detail API, lihat [ListAssociationVersions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAutomationExecution`
<a name="ssm_GetAutomationExecution_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAutomationExecution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan detail Eksekusi Otomasi.**  

```
Get-SSMAutomationExecution -AutomationExecutionId "4105a4fc-f944-11e6-9d32-8fb2db27a909"
```
**Output:**  

```
AutomationExecutionId     : 4105a4fc-f944-11e6-9d32-8fb2db27a909
AutomationExecutionStatus : Failed
DocumentName              : AWS-UpdateLinuxAmi
DocumentVersion           : 1
ExecutionEndTime          : 2/22/2017 9:17:08 PM
ExecutionStartTime        : 2/22/2017 9:17:02 PM
FailureMessage            : Step launchInstance failed maximum allowed times. You are not authorized to perform this operation. Encoded
                            authorization failure message: B_V2QyyN7NhSZQYpmVzpEc4oSnj2GLTNYnXUHsTbqJkNMoDgubmbtthLmZyaiUYekORIrA42-fv1x-04q5Fjff6glh
                            Yb6TI5b0GQeeNrpwNvpDzmO-PSR1swlAbg9fdM9BcNjyrznspUkWpuKu9EC1Ou6v3OXU1KC9nZ7mPlWMFZNkSioQqpwWEvMw-GZktsQzm67qOhUhBNOLWYhbS
                            pkfiqzY-5nw3S0obx30fhd3EJa5O_-GjV_a0nFXQJa70ik40bFOrEh3MtCSbrQT6--DvFy_FQ8TKvkIXadyVskeJI84XOF5WmA60f1pi5GI08i-nRfZS6oDeU
                            gELBjjoFKD8s3L2aI0B6umWVxnQOjqhQRxwJ53b54sZJ2PW3v_mtg9-q0CK0ezS3xfh_y0ilaUGOAZG-xjQFuvU_JZedWpla3xi-MZsmblAifBI
                            (Service: AmazonEC2; Status Code: 403; Error Code: UnauthorizedOperation; Request ID:
                            6a002f94-ba37-43fd-99e6-39517715fce5)
Outputs                   : {[createImage.ImageId, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
Parameters                : {[AutomationAssumeRole, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]], [InstanceIamRole,
                            Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]], [SourceAmiId,
                            Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
StepExecutions            : {launchInstance, updateOSSoftware, stopInstance, createImage...}
```
**Contoh 2: Contoh ini mencantumkan detail langkah untuk id eksekusi otomatisasi yang diberikan**  

```
Get-SSMAutomationExecution -AutomationExecutionId e1d2bad3-4567-8901-ae23-456c7c8901be | Select-Object -ExpandProperty StepExecutions | Select-Object StepName, Action, StepStatus, ValidNextSteps
```
**Output:**  

```
StepName                  Action                  StepStatus ValidNextSteps
--------                  ------                  ---------- --------------
LaunchInstance            aws:runInstances        Success    {OSCompatibilityCheck}
OSCompatibilityCheck      aws:runCommand          Success    {RunPreUpdateScript}
RunPreUpdateScript        aws:runCommand          Success    {UpdateEC2Config}
UpdateEC2Config           aws:runCommand          Cancelled  {}
UpdateSSMAgent            aws:runCommand          Pending    {}
UpdateAWSPVDriver         aws:runCommand          Pending    {}
UpdateAWSEnaNetworkDriver aws:runCommand          Pending    {}
UpdateAWSNVMe             aws:runCommand          Pending    {}
InstallWindowsUpdates     aws:runCommand          Pending    {}
RunPostUpdateScript       aws:runCommand          Pending    {}
RunSysprepGeneralize      aws:runCommand          Pending    {}
StopInstance              aws:changeInstanceState Pending    {}
CreateImage               aws:createImage         Pending    {}
TerminateInstance         aws:changeInstanceState Pending    {}
```
+  Untuk detail API, lihat [GetAutomationExecution](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAutomationExecutionList`
<a name="ssm_DescribeAutomationExecutions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAutomationExecutionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan semua Eksekusi Otomasi aktif dan dihentikan yang terkait dengan akun Anda.**  

```
Get-SSMAutomationExecutionList
```
**Output:**  

```
AutomationExecutionId     : 4105a4fc-f944-11e6-9d32-8fb2db27a909
AutomationExecutionStatus : Failed
DocumentName              : AWS-UpdateLinuxAmi
DocumentVersion           : 1
ExecutedBy                : admin
ExecutionEndTime          : 2/22/2017 9:17:08 PM
ExecutionStartTime        : 2/22/2017 9:17:02 PM
LogFile                   :
Outputs                   : {[createImage.ImageId, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
```
**Contoh 2: Contoh ini menampilkan ExecutionId, dokumen, start/end cap waktu eksekusi untuk eksekusi dengan AutomationExecutionStatus selain 'Sukses'**  

```
Get-SSMAutomationExecutionList | Where-Object AutomationExecutionStatus -ne "Success" | Select-Object AutomationExecutionId, DocumentName, AutomationExecutionStatus, ExecutionStartTime, ExecutionEndTime | Format-Table -AutoSize
```
**Output:**  

```
AutomationExecutionId                DocumentName                            AutomationExecutionStatus ExecutionStartTime   ExecutionEndTime
---------------------                ------------                            ------------------------- ------------------   ----------------
e1d2bad3-4567-8901-ae23-456c7c8901be AWS-UpdateWindowsAmi                    Cancelled                 4/16/2019 5:37:04 AM 4/16/2019 5:47:29 AM
61234567-a7f8-90e1-2b34-567b8bf9012c Fixed-UpdateAmi                         Cancelled                 4/16/2019 5:33:04 AM 4/16/2019 5:40:15 AM
91234d56-7e89-0ac1-2aee-34ea5d6a7c89 AWS-UpdateWindowsAmi                    Failed                    4/16/2019 5:22:46 AM 4/16/2019 5:27:29 AM
```
+  Untuk detail API, lihat [DescribeAutomationExecutions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAutomationStepExecution`
<a name="ssm_DescribeAutomationStepExecutions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAutomationStepExecution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan informasi tentang semua eksekusi langkah aktif dan dihentikan dalam alur kerja Otomasi.**  

```
Get-SSMAutomationStepExecution -AutomationExecutionId e1d2bad3-4567-8901-ae23-456c7c8901be | Select-Object StepName, Action, StepStatus
```
**Output:**  

```
StepName                  Action                  StepStatus
--------                  ------                  ----------
LaunchInstance            aws:runInstances        Success
OSCompatibilityCheck      aws:runCommand          Success
RunPreUpdateScript        aws:runCommand          Success
UpdateEC2Config           aws:runCommand          Cancelled
UpdateSSMAgent            aws:runCommand          Pending
UpdateAWSPVDriver         aws:runCommand          Pending
UpdateAWSEnaNetworkDriver aws:runCommand          Pending
UpdateAWSNVMe             aws:runCommand          Pending
InstallWindowsUpdates     aws:runCommand          Pending
RunPostUpdateScript       aws:runCommand          Pending
RunSysprepGeneralize      aws:runCommand          Pending
StopInstance              aws:changeInstanceState Pending
CreateImage               aws:createImage         Pending
TerminateInstance         aws:changeInstanceState Pending
```
+  Untuk detail API, lihat [DescribeAutomationStepExecutions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMAvailablePatch`
<a name="ssm_DescribeAvailablePatches_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAvailablePatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan semua patch yang tersedia untuk Windows Server 2012 yang memiliki tingkat keparahan MSRC Critical. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter1 = @{Key="PRODUCT";Values=@("WindowsServer2012")}
$filter2 = @{Key="MSRC_SEVERITY";Values=@("Critical")}

Get-SSMAvailablePatch -Filter $filter1,$filter2
```
**Output:**  

```
Classification : SecurityUpdates
ContentUrl     : https://support.microsoft.com/en-us/kb/2727528
Description    : A security issue has been identified that could allow an unauthenticated remote attacker to compromise your system and gain control
                 over it. You can help protect your system by installing this update from Microsoft. After you install this update, you may have to
                 restart your system.
Id             : 1eb507be-2040-4eeb-803d-abc55700b715
KbNumber       : KB2727528
Language       : All
MsrcNumber     : MS12-072
MsrcSeverity   : Critical
Product        : WindowsServer2012
ProductFamily  : Windows
ReleaseDate    : 11/13/2012 6:00:00 PM
Title          : Security Update for Windows Server 2012 (KB2727528)
Vendor         : Microsoft
...
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap filter.**  

```
$filter1 = New-Object Amazon.SimpleSystemsManagement.Model.PatchOrchestratorFilter
$filter1.Key = "PRODUCT"
$filter1.Values = "WindowsServer2012"
$filter2 = New-Object Amazon.SimpleSystemsManagement.Model.PatchOrchestratorFilter
$filter2.Key = "MSRC_SEVERITY"
$filter2.Values = "Critical"

Get-SSMAvailablePatch -Filter $filter1,$filter2
```
**Contoh 3: Contoh ini mengambil semua pembaruan yang dirilis dalam 20 hari terakhir dan berlaku untuk produk yang cocok dengan 2019 WindowsServer**  

```
Get-SSMAvailablePatch | Where-Object ReleaseDate -ge (Get-Date).AddDays(-20) | Where-Object Product -eq "WindowsServer2019" | Select-Object ReleaseDate, Product, Title
```
**Output:**  

```
ReleaseDate         Product           Title
-----------         -------           -----
4/9/2019 5:00:12 PM WindowsServer2019 2019-04 Security Update for Adobe Flash Player for Windows Server 2019 for x64-based Systems (KB4493478)
4/9/2019 5:00:06 PM WindowsServer2019 2019-04 Cumulative Update for Windows Server 2019 for x64-based Systems (KB4493509)
4/2/2019 5:00:06 PM WindowsServer2019 2019-03 Servicing Stack Update for Windows Server 2019 for x64-based Systems (KB4493510)
```
+  Untuk detail API, lihat [DescribeAvailablePatches](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMCommand`
<a name="ssm_ListCommands_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMCommand`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua perintah yang diminta.**  

```
Get-SSMCommand
```
**Output:**  

```
CommandId          : 4b75a163-d39a-4d97-87c9-98ae52c6be35
Comment            : Apply association with id at update time: 4cc73e42-d5ae-4879-84f8-57e09c0efcd0
CompletedCount     : 1
DocumentName       : AWS-RefreshAssociation
ErrorCount         : 0
ExpiresAfter       : 2/24/2017 3:19:08 AM
InstanceIds        : {i-0cb2b964d3e14fd9f}
MaxConcurrency     : 50
MaxErrors          : 0
NotificationConfig : Amazon.SimpleSystemsManagement.Model.NotificationConfig
OutputS3BucketName :
OutputS3KeyPrefix  :
OutputS3Region     :
Parameters         : {[associationIds, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
RequestedDateTime  : 2/24/2017 3:18:08 AM
ServiceRole        :
Status             : Success
StatusDetails      : Success
TargetCount        : 1
Targets            : {}
```
**Contoh 2: Contoh ini mendapatkan status perintah tertentu.**  

```
Get-SSMCommand -CommandId "4b75a163-d39a-4d97-87c9-98ae52c6be35"
```
**Contoh 3: Contoh ini mengambil semua perintah SSM yang dipanggil setelah 2019-04-01T 00:00:00 Z**  

```
Get-SSMCommand -Filter @{Key="InvokedAfter";Value="2019-04-01T00:00:00Z"} | Select-Object CommandId, DocumentName, Status, RequestedDateTime | Sort-Object -Property RequestedDateTime -Descending
```
**Output:**  

```
CommandId                            DocumentName               Status    RequestedDateTime
---------                            ------------               ------    -----------------
edb1b23e-456a-7adb-aef8-90e-012ac34f AWS-RunPowerShellScript    Cancelled 4/16/2019 5:45:23 AM
1a2dc3fb-4567-890d-a1ad-234b5d6bc7d9 AWS-ConfigureAWSPackage    Success   4/6/2019 9:19:42 AM
12c3456c-7e90-4f12-1232-1234f5b67893 KT-Retrieve-Cloud-Type-Win Failed    4/2/2019 4:13:07 AM
fe123b45-240c-4123-a2b3-234bdd567ecf AWS-RunInspecChecks        Failed    4/1/2019 2:27:31 PM
1eb23aa4-567d-4123-12a3-4c1c2ab34561 AWS-RunPowerShellScript    Success   4/1/2019 1:05:55 PM
1c2f3bb4-ee12-4bc1-1a23-12345eea123e AWS-RunInspecChecks        Failed    4/1/2019 11:13:09 AM
```
+  Untuk detail API, lihat [ListCommands](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMCommandInvocation`
<a name="ssm_ListCommandInvocations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMCommandInvocation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua pemanggilan perintah.**  

```
Get-SSMCommandInvocation -CommandId "b8eac879-0541-439d-94ec-47a80d554f44" -Detail $true
```
**Output:**  

```
CommandId          : b8eac879-0541-439d-94ec-47a80d554f44
CommandPlugins     : {aws:runShellScript}
Comment            : IP config
DocumentName       : AWS-RunShellScript
InstanceId         : i-0cb2b964d3e14fd9f
InstanceName       :
NotificationConfig : Amazon.SimpleSystemsManagement.Model.NotificationConfig
RequestedDateTime  : 2/22/2017 8:13:16 PM
ServiceRole        :
StandardErrorUrl   :
StandardOutputUrl  :
Status             : Success
StatusDetails      : Success
TraceOutput        :
```
**Contoh 2: Contoh ini mencantumkan pemanggilan perintah id CommandPlugins e1eb2e3c-ed4c-5123-45c1-234f5612345f**  

```
Get-SSMCommandInvocation -CommandId e1eb2e3c-ed4c-5123-45c1-234f5612345f -Detail:$true | Select-Object -ExpandProperty CommandPlugins
```
**Output:**  

```
Name                   : aws:runPowerShellScript
Output                 : Completed 17.7 KiB/17.7 KiB (40.1 KiB/s) with 1 file(s) remainingdownload: s3://dd-aess-r-ctmer/KUMO.png to ..\..\programdata\KUMO.png
                         kumo available

OutputS3BucketName     :
OutputS3KeyPrefix      :
OutputS3Region         : eu-west-1
ResponseCode           : 0
ResponseFinishDateTime : 4/3/2019 11:53:23 AM
ResponseStartDateTime  : 4/3/2019 11:53:21 AM
StandardErrorUrl       :
StandardOutputUrl      :
Status                 : Success
StatusDetails          : Success
```
+  Untuk detail API, lihat [ListCommandInvocations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMCommandInvocationDetail`
<a name="ssm_GetCommandInvocation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMCommandInvocationDetail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan rincian perintah yang dijalankan pada sebuah instance.**  

```
Get-SSMCommandInvocationDetail -InstanceId "i-0cb2b964d3e14fd9f" -CommandId "b8eac879-0541-439d-94ec-47a80d554f44"
```
**Output:**  

```
CommandId              : b8eac879-0541-439d-94ec-47a80d554f44
Comment                : IP config
DocumentName           : AWS-RunShellScript
ExecutionElapsedTime   : PT0.004S
ExecutionEndDateTime   : 2017-02-22T20:13:16.651Z
ExecutionStartDateTime : 2017-02-22T20:13:16.651Z
InstanceId             : i-0cb2b964d3e14fd9f
PluginName             : aws:runShellScript
ResponseCode           : 0
StandardErrorContent   :
StandardErrorUrl       :
StandardOutputContent  :
StandardOutputUrl      :
Status                 : Success
StatusDetails          : Success
```
+  Untuk detail API, lihat [GetCommandInvocation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMComplianceItemList`
<a name="ssm_ListComplianceItems_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMComplianceItemList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan daftar item kepatuhan untuk id dan tipe sumber daya yang diberikan, memfilter tipe kepatuhan menjadi 'Asosiasi'**  

```
Get-SSMComplianceItemList -ResourceId i-1a2caf345f67d0dc2 -ResourceType ManagedInstance -Filter @{Key="ComplianceType";Values="Association"}
```
**Output:**  

```
ComplianceType   : Association
Details          : {[DocumentName, AWS-GatherSoftwareInventory], [DocumentVersion, 1]}
ExecutionSummary : Amazon.SimpleSystemsManagement.Model.ComplianceExecutionSummary
Id               : 123a45a1-c234-1234-1245-67891236db4e
ResourceId       : i-1a2caf345f67d0dc2
ResourceType     : ManagedInstance
Severity         : UNSPECIFIED
Status           : COMPLIANT
Title            :
```
+  Untuk detail API, lihat [ListComplianceItems](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMComplianceSummaryList`
<a name="ssm_ListComplianceSummaries_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMComplianceSummaryList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan jumlah ringkasan sumber daya yang sesuai dan tidak sesuai untuk semua jenis kepatuhan.**  

```
Get-SSMComplianceSummaryList
```
**Output:**  

```
ComplianceType CompliantSummary                                      NonCompliantSummary
-------------- ----------------                                      -------------------
FleetTotal     Amazon.SimpleSystemsManagement.Model.CompliantSummary Amazon.SimpleSystemsManagement.Model.NonCompliantSummary
Association    Amazon.SimpleSystemsManagement.Model.CompliantSummary Amazon.SimpleSystemsManagement.Model.NonCompliantSummary
Custom:InSpec  Amazon.SimpleSystemsManagement.Model.CompliantSummary Amazon.SimpleSystemsManagement.Model.NonCompliantSummary
Patch          Amazon.SimpleSystemsManagement.Model.CompliantSummary Amazon.SimpleSystemsManagement.Model.NonCompliantSummary
```
+  Untuk detail API, lihat [ListComplianceSummaries](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMConnectionStatus`
<a name="ssm_GetConnectionStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMConnectionStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil status koneksi Session Manager untuk sebuah instance untuk menentukan apakah terhubung dan siap menerima koneksi Session Manager.**  

```
Get-SSMConnectionStatus -Target i-0a1caf234f12d3dc4
```
**Output:**  

```
Status    Target
------    ------
Connected i-0a1caf234f12d3dc4
```
+  Untuk detail API, lihat [GetConnectionStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMDefaultPatchBaseline`
<a name="ssm_GetDefaultPatchBaseline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDefaultPatchBaseline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan baseline patch default.**  

```
Get-SSMDefaultPatchBaseline
```
**Output:**  

```
arn:aws:ssm:us-west-2:123456789012:patchbaseline/pb-04fb4ae6142167966
```
+  Untuk detail API, lihat [GetDefaultPatchBaseline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMDeployablePatchSnapshotForInstance`
<a name="ssm_GetDeployablePatchSnapshotForInstance_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDeployablePatchSnapshotForInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan snapshot saat ini untuk baseline patch yang digunakan oleh Instance. Perintah ini harus dijalankan dari instance menggunakan kredensi instance. Untuk memastikannya menggunakan kredensi instance, contoh meneruskan `Amazon.Runtime.InstanceProfileAWSCredentials` objek ke parameter Credentials.**  

```
$credentials = [Amazon.Runtime.InstanceProfileAWSCredentials]::new()
Get-SSMDeployablePatchSnapshotForInstance -SnapshotId "4681775b-098f-4435-a956-0ef33373ac11" -InstanceId "i-0cb2b964d3e14fd9f" -Credentials $credentials
```
**Output:**  

```
InstanceId          SnapshotDownloadUrl
----------          -------------------
i-0cb2b964d3e14fd9f https://patch-baseline-snapshot-us-west-2.s3-us-west-2.amazonaws.com/853d0d3db0f0cafe...1692/4681775b-098f-4435...
```
**Contoh 2: Contoh ini menunjukkan cara mendapatkan yang lengkap SnapshotDownloadUrl. Perintah ini harus dijalankan dari instance menggunakan kredensi instance. Untuk memastikannya menggunakan kredensyal instance, contoh mengonfigurasi PowerShell sesi untuk menggunakan objek. `Amazon.Runtime.InstanceProfileAWSCredentials`**  

```
Set-AWSCredential -Credential ([Amazon.Runtime.InstanceProfileAWSCredentials]::new())
(Get-SSMDeployablePatchSnapshotForInstance -SnapshotId "4681775b-098f-4435-a956-0ef33373ac11" -InstanceId "i-0cb2b964d3e14fd9f").SnapshotDownloadUrl
```
**Output:**  

```
https://patch-baseline-snapshot-us-west-2.s3-us-west-2.amazonaws.com/853d0d3db0f0cafe...
```
+  Untuk detail API, lihat [GetDeployablePatchSnapshotForInstance](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMDocument`
<a name="ssm_GetDocument_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocument`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan isi dokumen.**  

```
Get-SSMDocument -Name "RunShellScript"
```
**Output:**  

```
Content
-------
{...
```
**Contoh 2: Contoh ini menampilkan isi lengkap dokumen.**  

```
(Get-SSMDocument -Name "RunShellScript").Content
{
   "schemaVersion":"2.0",
   "description":"Run an updated script",
   "parameters":{
      "commands":{
         "type":"StringList",
         "description":"(Required) Specify a shell script or a command to run.",
         "minItems":1,
         "displayType":"textarea"
      }
   },
   "mainSteps":[
      {
         "action":"aws:runShellScript",
         "name":"runShellScript",
         "inputs":{
            "commands":"{{ commands }}"
         }
      },
      {
         "action":"aws:runPowerShellScript",
         "name":"runPowerShellScript",
         "inputs":{
            "commands":"{{ commands }}"
         }
      }
   ]
}
```
+  Untuk detail API, lihat [GetDocument](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMDocumentDescription`
<a name="ssm_DescribeDocument_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocumentDescription`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan informasi tentang dokumen.**  

```
Get-SSMDocumentDescription -Name "RunShellScript"
```
**Output:**  

```
CreatedDate     : 2/24/2017 5:25:13 AM
DefaultVersion  : 1
Description     : Run an updated script
DocumentType    : Command
DocumentVersion : 1
Hash            : f775e5df4904c6fa46686c4722fae9de1950dace25cd9608ff8d622046b68d9b
HashType        : Sha256
LatestVersion   : 1
Name            : RunShellScript
Owner           : 123456789012
Parameters      : {commands}
PlatformTypes   : {Linux}
SchemaVersion   : 2.0
Sha1            :
Status          : Active
```
+  Untuk detail API, lihat [DescribeDocument](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMDocumentList`
<a name="ssm_ListDocuments_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocumentList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Daftar semua dokumen konfigurasi di akun Anda.**  

```
Get-SSMDocumentList
```
**Output:**  

```
DocumentType    : Command
DocumentVersion : 1
Name            : AWS-ApplyPatchBaseline
Owner           : Amazon
PlatformTypes   : {Windows}
SchemaVersion   : 1.2

DocumentType    : Command
DocumentVersion : 1
Name            : AWS-ConfigureAWSPackage
Owner           : Amazon
PlatformTypes   : {Windows, Linux}
SchemaVersion   : 2.0

DocumentType    : Command
DocumentVersion : 1
Name            : AWS-ConfigureCloudWatch
Owner           : Amazon
PlatformTypes   : {Windows}
SchemaVersion   : 1.2
...
```
**Contoh 2: Contoh ini mengambil semua dokumen otomatisasi dengan pencocokan nama 'Platform'**  

```
Get-SSMDocumentList -DocumentFilterList @{Key="DocumentType";Value="Automation"} | Where-Object Name -Match "Platform"
```
**Output:**  

```
DocumentFormat  : JSON
DocumentType    : Automation
DocumentVersion : 7
Name            : KT-Get-Platform
Owner           : 987654123456
PlatformTypes   : {Windows, Linux}
SchemaVersion   : 0.3
Tags            : {}
TargetType      :
VersionName     :
```
+  Untuk detail API, lihat [ListDocuments](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMDocumentPermission`
<a name="ssm_DescribeDocumentPermission_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocumentPermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua versi untuk dokumen.**  

```
Get-SSMDocumentVersionList -Name "RunShellScript"
```
**Output:**  

```
CreatedDate          DocumentVersion IsDefaultVersion Name
-----------          --------------- ---------------- ----
2/24/2017 5:25:13 AM 1               True             RunShellScript
```
+  Untuk detail API, lihat [DescribeDocumentPermission](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMDocumentVersionList`
<a name="ssm_ListDocumentVersions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocumentVersionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua versi untuk dokumen.**  

```
Get-SSMDocumentVersionList -Name "AWS-UpdateSSMAgent"
```
**Output:**  

```
CreatedDate       : 6/1/2021 5:19:10 PM
DocumentFormat    : JSON
DocumentVersion   : 1
IsDefaultVersion  : True
Name              : AWS-UpdateSSMAgent
Status            : Active
```
+  Untuk detail API, lihat [ListDocumentVersions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMEffectiveInstanceAssociationList`
<a name="ssm_DescribeEffectiveInstanceAssociations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMEffectiveInstanceAssociationList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjelaskan asosiasi efektif untuk sebuah instance.**  

```
Get-SSMEffectiveInstanceAssociationList -InstanceId "i-0000293ffd8c57862" -MaxResult 5
```
**Output:**  

```
AssociationId                        Content
-------------                        -------
d8617c07-2079-4c18-9847-1655fc2698b0 {...
```
**Contoh 2: Contoh ini menampilkan isi asosiasi efektif untuk sebuah instance.**  

```
(Get-SSMEffectiveInstanceAssociationList -InstanceId "i-0000293ffd8c57862" -MaxResult 5).Content
```
**Output:**  

```
{
    "schemaVersion": "1.2",
    "description": "Update the Amazon SSM Agent to the latest version or specified version.",
    "parameters": {
        "version": {
            "default": "",
            "description": "(Optional) A specific version of the Amazon SSM Agent to install. If not specified, the agen
t will be updated to the latest version.",
            "type": "String"
        },
        "allowDowngrade": {
            "default": "false",
            "description": "(Optional) Allow the Amazon SSM Agent service to be downgraded to an earlier version. If set
 to false, the service can be upgraded to newer versions only (default). If set to true, specify the earlier version.",
            "type": "String",
            "allowedValues": [
                "true",
                "false"
            ]
        }
    },
    "runtimeConfig": {
        "aws:updateSsmAgent": {
            "properties": [
                {
                "agentName": "amazon-ssm-agent",
                "source": "https://s3.{Region}.amazonaws.com/amazon-ssm-{Region}/ssm-agent-manifest.json",
                "allowDowngrade": "{{ allowDowngrade }}",
                "targetVersion": "{{ version }}"
                }
            ]
        }
    }
}
```
+  Untuk detail API, lihat [DescribeEffectiveInstanceAssociations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMEffectivePatchesForPatchBaseline`
<a name="ssm_DescribeEffectivePatchesForPatchBaseline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMEffectivePatchesForPatchBaseline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua baseline patch, dengan daftar hasil maksimal 1.**  

```
Get-SSMEffectivePatchesForPatchBaseline -BaselineId "pb-0a2f1059b670ebd31" -MaxResult 1
```
**Output:**  

```
Patch                                      PatchStatus
-----                                      -----------
Amazon.SimpleSystemsManagement.Model.Patch Amazon.SimpleSystemsManagement.Model.PatchStatus
```
**Contoh 2: Contoh ini menampilkan status patch untuk semua baseline patch, dengan daftar hasil maksimal 1.**  

```
(Get-SSMEffectivePatchesForPatchBaseline -BaselineId "pb-0a2f1059b670ebd31" -MaxResult 1).PatchStatus
```
**Output:**  

```
ApprovalDate          DeploymentStatus
------------          ----------------
12/21/2010 6:00:00 PM APPROVED
```
+  Untuk detail API, lihat [DescribeEffectivePatchesForPatchBaseline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInstanceAssociationsStatus`
<a name="ssm_DescribeInstanceAssociationsStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstanceAssociationsStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan rincian asosiasi untuk sebuah instance.**  

```
Get-SSMInstanceAssociationsStatus -InstanceId "i-0000293ffd8c57862"
```
**Output:**  

```
AssociationId    : d8617c07-2079-4c18-9847-1655fc2698b0
DetailedStatus   : Pending
DocumentVersion  : 1
ErrorCode        :
ExecutionDate    : 2/20/2015 8:31:11 AM
ExecutionSummary : temp_status_change
InstanceId       : i-0000293ffd8c57862
Name             : AWS-UpdateSSMAgent
OutputUrl        :
Status           : Pending
```
**Contoh 2: Contoh ini memeriksa status asosiasi instance untuk id instance yang diberikan dan selanjutnya, menampilkan status eksekusi asosiasi tersebut**  

```
Get-SSMInstanceAssociationsStatus -InstanceId i-012e3cb4df567e8aa | ForEach-Object {Get-SSMAssociationExecution -AssociationId .AssociationId}
```
**Output:**  

```
AssociationId         : 512a34a5-c678-1234-1234-12345678db9e
AssociationVersion    : 2
CreatedTime           : 3/2/2019 8:53:29 AM
DetailedStatus        :
ExecutionId           : 512a34a5-c678-1234-1234-12345678db9e
LastExecutionDate     : 1/1/0001 12:00:00 AM
ResourceCountByStatus : {Success=9}
Status                : Success
```
+  Untuk detail API, lihat [DescribeInstanceAssociationsStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInstanceInformation`
<a name="ssm_DescribeInstanceInformation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstanceInformation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan detail dari setiap instance Anda.**  

```
Get-SSMInstanceInformation
```
**Output:**  

```
ActivationId                           :
AgentVersion                           : 2.0.672.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : ip-172-31-44-222.us-west-2.compute.internal
IamRole                                :
InstanceId                             : i-0cb2b964d3e14fd9f
IPAddress                              : 172.31.44.222
IsLatestVersion                        : True
LastAssociationExecutionDate           : 2/24/2017 3:18:09 AM
LastPingDateTime                       : 2/24/2017 3:35:03 AM
LastSuccessfulAssociationExecutionDate : 2/24/2017 3:18:09 AM
Name                                   :
PingStatus                             : ConnectionLost
PlatformName                           : Amazon Linux AMI
PlatformType                           : Linux
PlatformVersion                        : 2016.09
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance
```
**Contoh 2: Contoh ini menunjukkan cara menggunakan parameter -Filter untuk memfilter hasil hanya ke instance AWS Systems Manager di wilayah `us-east-1` dengan dari`AgentVersion`. `2.2.800.0` Anda dapat menemukan daftar nilai kunci -Filter yang valid dalam topik referensi InstanceInformation API (https://docs.aws.amazon.com/systems-manager/latest/APIReference/API\$1 InstanceInformation .html \$1systemsmanager -Type- -InstanceInformation). ActivationId**  

```
$Filters = @{
    Key="AgentVersion"
    Values="2.2.800.0"
}
Get-SSMInstanceInformation -Region us-east-1 -Filter $Filters
```
**Output:**  

```
ActivationId                           : 
AgentVersion                           : 2.2.800.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : EXAMPLE-EXAMPLE.WORKGROUP
IamRole                                : 
InstanceId                             : i-EXAMPLEb0792d98ce
IPAddress                              : 10.0.0.01
IsLatestVersion                        : False
LastAssociationExecutionDate           : 8/16/2018 12:02:50 AM
LastPingDateTime                       : 8/16/2018 7:40:27 PM
LastSuccessfulAssociationExecutionDate : 8/16/2018 12:02:50 AM
Name                                   : 
PingStatus                             : Online
PlatformName                           : Microsoft Windows Server 2016 Datacenter
PlatformType                           : Windows
PlatformVersion                        : 10.0.14393
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance

ActivationId                           : 
AgentVersion                           : 2.2.800.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : EXAMPLE-EXAMPLE.WORKGROUP
IamRole                                : 
InstanceId                             : i-EXAMPLEac7501d023
IPAddress                              : 10.0.0.02
IsLatestVersion                        : False
LastAssociationExecutionDate           : 8/16/2018 12:00:20 AM
LastPingDateTime                       : 8/16/2018 7:40:35 PM
LastSuccessfulAssociationExecutionDate : 8/16/2018 12:00:20 AM
Name                                   : 
PingStatus                             : Online
PlatformName                           : Microsoft Windows Server 2016 Datacenter
PlatformType                           : Windows
PlatformVersion                        : 10.0.14393
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance
```
**Contoh 3: Contoh ini menunjukkan cara menggunakan InstanceInformationFilterList parameter - untuk memfilter hasil hanya ke instance AWS Systems Manager di wilayah `us-east-1` dengan `PlatformTypes` dari `Windows` atau`Linux`. Anda dapat menemukan daftar nilai InstanceInformationFilterList kunci yang valid dalam topik referensi InstanceInformationFilter API (https://docs.aws.amazon.com/systems-manager/latest/APIReference/API\$1 InstanceInformationFilter .html).**  

```
$Filters = @{
   Key="PlatformTypes"
   ValueSet=("Windows","Linux")
}
Get-SSMInstanceInformation -Region us-east-1 -InstanceInformationFilterList $Filters
```
**Output:**  

```
ActivationId                           : 
AgentVersion                           : 2.2.800.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : EXAMPLE-EXAMPLE.WORKGROUP
IamRole                                : 
InstanceId                             : i-EXAMPLEb0792d98ce
IPAddress                              : 10.0.0.27
IsLatestVersion                        : False
LastAssociationExecutionDate           : 8/16/2018 12:02:50 AM
LastPingDateTime                       : 8/16/2018 7:40:27 PM
LastSuccessfulAssociationExecutionDate : 8/16/2018 12:02:50 AM
Name                                   : 
PingStatus                             : Online
PlatformName                           : Ubuntu Server 18.04 LTS
PlatformType                           : Linux
PlatformVersion                        : 18.04
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance

ActivationId                           : 
AgentVersion                           : 2.2.800.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : EXAMPLE-EXAMPLE.WORKGROUP
IamRole                                : 
InstanceId                             : i-EXAMPLEac7501d023
IPAddress                              : 10.0.0.100
IsLatestVersion                        : False
LastAssociationExecutionDate           : 8/16/2018 12:00:20 AM
LastPingDateTime                       : 8/16/2018 7:40:35 PM
LastSuccessfulAssociationExecutionDate : 8/16/2018 12:00:20 AM
Name                                   : 
PingStatus                             : Online
PlatformName                           : Microsoft Windows Server 2016 Datacenter
PlatformType                           : Windows
PlatformVersion                        : 10.0.14393
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance
```
**Contoh 4: Contoh ini mencantumkan instance dan ekspor terkelola ssm InstanceId PingStatus, LastPingDateTime dan PlatformName ke file csv.**  

```
Get-SSMInstanceInformation | Select-Object InstanceId, PingStatus, LastPingDateTime, PlatformName | Export-Csv Instance-details.csv -NoTypeInformation
```
+  Untuk detail API, lihat [DescribeInstanceInformation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInstancePatch`
<a name="ssm_DescribeInstancePatches_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstancePatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan detail kepatuhan patch untuk sebuah instance.**  

```
Get-SSMInstancePatch -InstanceId "i-08ee91c0b17045407"
```
+  Untuk detail API, lihat [DescribeInstancePatches](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInstancePatchState`
<a name="ssm_DescribeInstancePatchStates_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstancePatchState`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan status ringkasan tambalan untuk sebuah instance.**  

```
Get-SSMInstancePatchState -InstanceId "i-08ee91c0b17045407"
```
**Contoh 2: Contoh ini mendapatkan status ringkasan tambalan untuk dua instance.**  

```
Get-SSMInstancePatchState -InstanceId "i-08ee91c0b17045407","i-09a618aec652973a9"
```
+  Untuk detail API, lihat [DescribeInstancePatchStates](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInstancePatchStatesForPatchGroup`
<a name="ssm_DescribeInstancePatchStatesForPatchGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstancePatchStatesForPatchGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan status ringkasan patch per instance untuk grup patch.**  

```
Get-SSMInstancePatchStatesForPatchGroup -PatchGroup "Production"
```
+  Untuk detail API, lihat [DescribeInstancePatchStatesForPatchGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInventory`
<a name="ssm_GetInventory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInventory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan metadata kustom untuk inventaris Anda.**  

```
Get-SSMInventory
```
**Output:**  

```
Data                                                                                  Id
----                                                                                  --
{[AWS:InstanceInformation, Amazon.SimpleSystemsManagement.Model.InventoryResultItem]} i-0cb2b964d3e14fd9f
```
+  Untuk detail API, lihat [GetInventory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInventoryEntriesList`
<a name="ssm_ListInventoryEntries_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInventoryEntriesList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua entri inventaris kustom untuk sebuah instance.**  

```
Get-SSMInventoryEntriesList -InstanceId "i-0cb2b964d3e14fd9f" -TypeName "Custom:RackInfo"
```
**Output:**  

```
CaptureTime   : 2016-08-22T10:01:01Z
Entries       : {Amazon.Runtime.Internal.Util.AlwaysSendDictionary`2[System.String,System.String]}
InstanceId    : i-0cb2b964d3e14fd9f
NextToken     :
SchemaVersion : 1.0
TypeName      : Custom:RackInfo
```
**Contoh 2: Contoh ini mencantumkan detailnya.**  

```
(Get-SSMInventoryEntriesList -InstanceId "i-0cb2b964d3e14fd9f" -TypeName "Custom:RackInfo").Entries
```
**Output:**  

```
Key          Value
---          -----
RackLocation Bay B/Row C/Rack D/Shelf E
```
+  Untuk detail API, lihat [ListInventoryEntries](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInventoryEntryList`
<a name="ssm_Get-SSMInventoryEntryList_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInventoryEntryList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil entri inventaris `AWS:Network` tipe untuk instance.**  

```
Get-SSMInventoryEntryList -InstanceId mi-088dcb0ecea37b076 -TypeName AWS:Network | Select-Object -ExpandProperty Entries
```
**Output:**  

```
Key        Value
---        -----
DHCPServer 172.31.11.2
DNSServer  172.31.0.1
Gateway    172.31.11.2
IPV4       172.31.11.222
IPV6       fe12::3456:7da8:901a:12a3
MacAddress 1A:23:4E:5B:FB:67
Name       Amazon Elastic Network Adapter
SubnetMask 255.255.240.0
```
+  Untuk detail API, lihat [Dapatkan- SSMInventory EntryList](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMInventorySchema`
<a name="ssm_GetInventorySchema_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInventorySchema`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengembalikan daftar nama jenis inventaris untuk akun.**  

```
Get-SSMInventorySchema
```
+  Untuk detail API, lihat [GetInventorySchema](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMLatestEC2Image`
<a name="ssm_Get-SSMLatestEC2Image_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMLatestEC2Image`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua Windows AMIs terbaru.**  

```
PS Get-SSMLatestEC2Image -Path ami-windows-latest
```
**Output:**  

```
Name                                                                    Value
----                                                                    -----
Windows_Server-2008-R2_SP1-English-64Bit-SQL_2012_SP4_Express           ami-0e5ddd288daff4fab
Windows_Server-2012-R2_RTM-Chinese_Simplified-64Bit-Base                ami-0c5ea64e6bec1cb50
Windows_Server-2012-R2_RTM-Chinese_Traditional-64Bit-Base               ami-09775eff0bf8c113d
Windows_Server-2012-R2_RTM-Dutch-64Bit-Base                             ami-025064b67e28cf5df
...
```
**Contoh 2: Contoh ini mengambil id AMI dari image Amazon Linux tertentu untuk wilayah us-west-2.**  

```
PS Get-SSMLatestEC2Image -Path ami-amazon-linux-latest -ImageName amzn-ami-hvm-x86_64-ebs -Region us-west-2
```
**Output:**  

```
ami-09b92cd132204c704
```
**Contoh 3: Contoh ini mencantumkan semua Windows terbaru yang AMIs cocok dengan ekspresi wildcard yang ditentukan.**  

```
Get-SSMLatestEC2Image -Path ami-windows-latest -ImageName *Windows*2019*English*
```
**Output:**  

```
Name                                                     Value
----                                                     -----
Windows_Server-2019-English-Full-SQL_2017_Web            ami-085e9d27da5b73a42
Windows_Server-2019-English-STIG-Core                    ami-0bfd85c29148c7f80
Windows_Server-2019-English-Full-SQL_2019_Web            ami-02099560d7fb11f20
Windows_Server-2019-English-Full-SQL_2016_SP2_Standard   ami-0d7ae2d81c07bd598
...
```
+  Untuk detail API, lihat [Dapatkan- SSMLatest EC2 Gambar](https://docs.aws.amazon.com/powershell/v4/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V4*). 

### `Get-SSMMaintenanceWindow`
<a name="ssm_GetMaintenanceWindow_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindow`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan detail tentang jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindow -WindowId "mw-03eb9db42890fb82d"
```
**Output:**  

```
AllowUnassociatedTargets : False
CreatedDate              : 2/20/2017 6:14:05 PM
Cutoff                   : 1
Duration                 : 2
Enabled                  : True
ModifiedDate             : 2/20/2017 6:14:05 PM
Name                     : TestMaintWin
Schedule                 : cron(0 */30 * * * ? *)
WindowId                 : mw-03eb9db42890fb82d
```
+  Untuk detail API, lihat [GetMaintenanceWindow](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMMaintenanceWindowExecution`
<a name="ssm_GetMaintenanceWindowExecution_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan informasi tentang tugas yang dijalankan sebagai bagian dari eksekusi jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecution -WindowExecutionId "518d5565-5969-4cca-8f0e-da3b2a638355"
```
**Output:**  

```
EndTime           : 2/21/2017 4:00:35 PM
StartTime         : 2/21/2017 4:00:34 PM
Status            : FAILED
StatusDetails     : One or more tasks in the orchestration failed.
TaskIds           : {ac0c6ae1-daa3-4a89-832e-d384503b6586}
WindowExecutionId : 518d5565-5969-4cca-8f0e-da3b2a638355
```
+  Untuk detail API, lihat [GetMaintenanceWindowExecution](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMMaintenanceWindowExecutionList`
<a name="ssm_DescribeMaintenanceWindowExecutions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecutionList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua eksekusi untuk jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecutionList -WindowId "mw-03eb9db42890fb82d"
```
**Output:**  

```
EndTime           : 2/20/2017 6:30:17 PM
StartTime         : 2/20/2017 6:30:16 PM
Status            : FAILED
StatusDetails     : One or more tasks in the orchestration failed.
WindowExecutionId : 6f3215cf-4101-4fa0-9b7b-9523269599c7
WindowId          : mw-03eb9db42890fb82d
```
**Contoh 2: Contoh ini mencantumkan semua eksekusi untuk jendela pemeliharaan sebelum tanggal yang ditentukan.**  

```
$option1 = @{Key="ExecutedBefore";Values=@("2016-11-04T05:00:00Z")}
Get-SSMMaintenanceWindowExecutionList -WindowId "mw-03eb9db42890fb82d" -Filter $option1
```
**Contoh 3: Contoh ini mencantumkan semua eksekusi untuk jendela pemeliharaan setelah tanggal yang ditentukan.**  

```
$option1 = @{Key="ExecutedAfter";Values=@("2016-11-04T05:00:00Z")}
Get-SSMMaintenanceWindowExecutionList -WindowId "mw-03eb9db42890fb82d" -Filter $option1
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMMaintenanceWindowExecutionTask`
<a name="ssm_GetMaintenanceWindowExecutionTask_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecutionTask`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan informasi tentang tugas yang merupakan bagian dari eksekusi jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecutionTask -TaskId "ac0c6ae1-daa3-4a89-832e-d384503b6586" -WindowExecutionId "518d5565-5969-4cca-8f0e-da3b2a638355"
```
**Output:**  

```
EndTime           : 2/21/2017 4:00:35 PM
MaxConcurrency    : 1
MaxErrors         : 1
Priority          : 10
ServiceRole       : arn:aws:iam::123456789012:role/MaintenanceWindowsRole
StartTime         : 2/21/2017 4:00:34 PM
Status            : FAILED
StatusDetails     : The maximum error count was exceeded.
TaskArn           : AWS-RunShellScript
TaskExecutionId   : ac0c6ae1-daa3-4a89-832e-d384503b6586
TaskParameters    : {Amazon.Runtime.Internal.Util.AlwaysSendDictionary`2[System.String,Amazon.SimpleSystemsManagement.Model.MaintenanceWindowTaskPara
                    meterValueExpression]}
Type              : RUN_COMMAND
WindowExecutionId : 518d5565-5969-4cca-8f0e-da3b2a638355
```
+  Untuk detail API, lihat [GetMaintenanceWindowExecutionTask](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMMaintenanceWindowExecutionTaskInvocationList`
<a name="ssm_DescribeMaintenanceWindowExecutionTaskInvocations_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecutionTaskInvocationList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan pemanggilan untuk tugas yang dijalankan sebagai bagian dari eksekusi jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecutionTaskInvocationList -TaskId "ac0c6ae1-daa3-4a89-832e-d384503b6586" -WindowExecutionId "518d5565-5969-4cca-8f0e-da3b2a638355"
```
**Output:**  

```
EndTime           : 2/21/2017 4:00:34 PM
ExecutionId       :
InvocationId      : e274b6e1-fe56-4e32-bd2a-8073c6381d8b
OwnerInformation  :
Parameters        : {"documentName":"AWS-RunShellScript","instanceIds":["i-0000293ffd8c57862"],"parameters":{"commands":["df"]},"maxConcurrency":"1",
                    "maxErrors":"1"}
StartTime         : 2/21/2017 4:00:34 PM
Status            : FAILED
StatusDetails     : The instance IDs list contains an invalid entry.
TaskExecutionId   : ac0c6ae1-daa3-4a89-832e-d384503b6586
WindowExecutionId : 518d5565-5969-4cca-8f0e-da3b2a638355
WindowTargetId    :
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutionTaskInvocations](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMMaintenanceWindowExecutionTaskList`
<a name="ssm_DescribeMaintenanceWindowExecutionTasks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecutionTaskList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan tugas yang terkait dengan eksekusi jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecutionTaskList -WindowExecutionId "518d5565-5969-4cca-8f0e-da3b2a638355"
```
**Output:**  

```
EndTime           : 2/21/2017 4:00:35 PM
StartTime         : 2/21/2017 4:00:34 PM
Status            : SUCCESS
TaskArn           : AWS-RunShellScript
TaskExecutionId   : ac0c6ae1-daa3-4a89-832e-d384503b6586
TaskType          : RUN_COMMAND
WindowExecutionId : 518d5565-5969-4cca-8f0e-da3b2a638355
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutionTasks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMMaintenanceWindowList`
<a name="ssm_DescribeMaintenanceWindows_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua jendela pemeliharaan di akun Anda.**  

```
Get-SSMMaintenanceWindowList
```
**Output:**  

```
Cutoff   : 1
Duration : 4
Enabled  : True
Name     : My-First-Maintenance-Window
WindowId : mw-06d59c1a07c022145
```
+  Untuk detail API, lihat [DescribeMaintenanceWindows](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMMaintenanceWindowTarget`
<a name="ssm_DescribeMaintenanceWindowTargets_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowTarget`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua target untuk jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowTarget -WindowId "mw-06cf17cbefcb4bf4f"
```
**Output:**  

```
OwnerInformation : Single instance
ResourceType     : INSTANCE
Targets          : {InstanceIds}
WindowId         : mw-06cf17cbefcb4bf4f
WindowTargetId   : 350d44e6-28cc-44e2-951f-4b2c985838f6

OwnerInformation : Two instances in a list
ResourceType     : INSTANCE
Targets          : {InstanceIds}
WindowId         : mw-06cf17cbefcb4bf4f
WindowTargetId   : e078a987-2866-47be-bedd-d9cf49177d3a
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowTargets](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMMaintenanceWindowTaskList`
<a name="ssm_DescribeMaintenanceWindowTasks_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowTaskList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua tugas untuk jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowTaskList -WindowId "mw-06cf17cbefcb4bf4f"
```
**Output:**  

```
LoggingInfo    :
MaxConcurrency : 1
MaxErrors      : 1
Priority       : 10
ServiceRoleArn : arn:aws:iam::123456789012:role/MaintenanceWindowsRole
Targets        : {InstanceIds}
TaskArn        : AWS-RunShellScript
TaskParameters : {[commands, Amazon.SimpleSystemsManagement.Model.MaintenanceWindowTaskParameterValueExpression]}
Type           : RUN_COMMAND
WindowId       : mw-06cf17cbefcb4bf4f
WindowTaskId   : a23e338d-ff30-4398-8aa3-09cd052ebf17
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowTasks](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMParameterHistory`
<a name="ssm_GetParameterHistory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMParameterHistory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan riwayat nilai untuk parameter.**  

```
Get-SSMParameterHistory -Name "Welcome"
```
**Output:**  

```
Description      :
KeyId            :
LastModifiedDate : 3/3/2017 6:55:25 PM
LastModifiedUser : arn:aws:iam::123456789012:user/admin
Name             : Welcome
Type             : String
Value            : helloWorld
```
+  Untuk detail API, lihat [GetParameterHistory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMParameterList`
<a name="ssm_DescribeParameters_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMParameterList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua parameter.**  

```
Get-SSMParameterList
```
**Output:**  

```
Description      :
KeyId            :
LastModifiedDate : 3/3/2017 6:58:23 PM
LastModifiedUser : arn:aws:iam::123456789012:user/admin
Name             : Welcome
Type             : String
```
+  Untuk detail API, lihat [DescribeParameters](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMParameterValue`
<a name="ssm_GetParameters_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMParameterValue`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan nilai untuk parameter.**  

```
Get-SSMParameterValue -Name "Welcome"
```
**Output:**  

```
InvalidParameters Parameters
----------------- ----------
{}                {Welcome}
```
**Contoh 2: Contoh ini mencantumkan rincian nilai.**  

```
(Get-SSMParameterValue -Name "Welcome").Parameters
```
**Output:**  

```
Name    Type   Value
----    ----   -----
Welcome String Good day, Sunshine!
```
+  Untuk detail API, lihat [GetParameters](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMPatchBaseline`
<a name="ssm_DescribePatchBaselines_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchBaseline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan semua baseline patch.**  

```
Get-SSMPatchBaseline
```
**Output:**  

```
BaselineDescription                                             BaselineId                                                            BaselineName
-------------------                                             ----------                                                            ------------
Default Patch Baseline Provided by AWS.                         arn:aws:ssm:us-west-2:123456789012:patchbaseline/pb-04fb4ae6142167966 AWS-DefaultP...
Baseline containing all updates approved for production systems pb-045f10b4f382baeda                                                  Production-B...
Baseline containing all updates approved for production systems pb-0a2f1059b670ebd31                                                  Production-B...
```
**Contoh 2: Contoh ini mencantumkan semua baseline patch yang disediakan oleh. AWS Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter1 = @{Key="OWNER";Values=@("AWS")}
```
**Output:**  

```
Get-SSMPatchBaseline -Filter $filter1
```
**Contoh 3: Contoh ini mencantumkan semua baseline patch dengan Anda sebagai pemilik. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter1 = @{Key="OWNER";Values=@("Self")}
```
**Output:**  

```
Get-SSMPatchBaseline -Filter $filter1
```
**Contoh 4: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap tag.**  

```
$filter1 = New-Object Amazon.SimpleSystemsManagement.Model.PatchOrchestratorFilter
$filter1.Key = "OWNER"
$filter1.Values = "AWS"

Get-SSMPatchBaseline -Filter $filter1
```
**Output:**  

```
BaselineDescription                     BaselineId                                                            BaselineName             DefaultBaselin
                                                                                                                                       e
-------------------                     ----------                                                            ------------             --------------
Default Patch Baseline Provided by AWS. arn:aws:ssm:us-west-2:123456789012:patchbaseline/pb-04fb4ae6142167966 AWS-DefaultPatchBaseline True
```
+  Untuk detail API, lihat [DescribePatchBaselines](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMPatchBaselineDetail`
<a name="ssm_GetPatchBaseline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchBaselineDetail`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan detail untuk baseline patch.**  

```
Get-SSMPatchBaselineDetail -BaselineId "pb-03da896ca3b68b639"
```
**Output:**  

```
ApprovalRules   : Amazon.SimpleSystemsManagement.Model.PatchRuleGroup
ApprovedPatches : {}
BaselineId      : pb-03da896ca3b68b639
CreatedDate     : 3/3/2017 5:02:19 PM
Description     : Baseline containing all updates approved for production systems
GlobalFilters   : Amazon.SimpleSystemsManagement.Model.PatchFilterGroup
ModifiedDate    : 3/3/2017 5:02:19 PM
Name            : Production-Baseline
PatchGroups     : {}
RejectedPatches : {}
```
+  Untuk detail API, lihat [GetPatchBaseline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMPatchBaselineForPatchGroup`
<a name="ssm_GetPatchBaselineForPatchGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchBaselineForPatchGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menampilkan baseline patch untuk grup patch.**  

```
Get-SSMPatchBaselineForPatchGroup -PatchGroup "Production"
```
**Output:**  

```
BaselineId           PatchGroup
----------           ----------
pb-045f10b4f382baeda Production
```
+  Untuk detail API, lihat [GetPatchBaselineForPatchGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMPatchGroup`
<a name="ssm_DescribePatchGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan pendaftaran grup patch.**  

```
Get-SSMPatchGroup
```
**Output:**  

```
BaselineIdentity                                           PatchGroup
----------------                                           ----------
Amazon.SimpleSystemsManagement.Model.PatchBaselineIdentity Production
```
+  Untuk detail API, lihat [DescribePatchGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMPatchGroupState`
<a name="ssm_DescribePatchGroupState_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchGroupState`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan ringkasan kepatuhan patch tingkat tinggi untuk grup patch.**  

```
Get-SSMPatchGroupState -PatchGroup "Production"
```
**Output:**  

```
Instances                          : 4
InstancesWithFailedPatches         : 1
InstancesWithInstalledOtherPatches : 4
InstancesWithInstalledPatches      : 3
InstancesWithMissingPatches        : 0
InstancesWithNotApplicablePatches  : 0
```
+  Untuk detail API, lihat [DescribePatchGroupState](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMResourceComplianceSummaryList`
<a name="ssm_ListResourceComplianceSummaries_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMResourceComplianceSummaryList`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan jumlah ringkasan tingkat sumber daya. Ringkasan tersebut mencakup informasi tentang status yang sesuai dan tidak sesuai serta jumlah keparahan item kepatuhan terperinci untuk produk yang cocok dengan “Windows10". Karena MaxResult defaultnya adalah 100 jika parameter tidak ditentukan, dan nilai ini tidak valid, MaxResult parameter ditambahkan, dan nilainya diatur ke 50.**  

```
$FilterValues = @{
		"Key"="Product"
        "Type"="EQUAL"
        "Values"="Windows10"
}
        Get-SSMResourceComplianceSummaryList -Filter $FilterValues -MaxResult 50
```
+  Untuk detail API, lihat [ListResourceComplianceSummaries](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-SSMResourceTag`
<a name="ssm_ListTagsForResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan tag untuk jendela pemeliharaan.**  

```
Get-SSMResourceTag -ResourceId "mw-03eb9db42890fb82d" -ResourceType "MaintenanceWindow"
```
**Output:**  

```
Key   Value
---   -----
Stack Production
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-SSMActivation`
<a name="ssm_CreateActivation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMActivation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat instance terkelola.**  

```
New-SSMActivation -DefaultInstanceName "MyWebServers" -IamRole "SSMAutomationRole" -RegistrationLimit 10
```
**Output:**  

```
ActivationCode       ActivationId
--------------       ------------
KWChhOxBTiwDcKE9BlKC 08e51e79-1e36-446c-8e63-9458569c1363
```
+  Untuk detail API, lihat [CreateActivation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-SSMAssociation`
<a name="ssm_CreateAssociation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMAssociation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan dokumen konfigurasi dengan instance, menggunakan instance IDs.**  

```
New-SSMAssociation -InstanceId "i-0cb2b964d3e14fd9f" -Name "AWS-UpdateSSMAgent"
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            : i-0000293ffd8c57862
Date                  : 2/23/2017 6:55:22 PM
Status.Name           : Associated
Status.Date           : 2/20/2015 8:31:11 AM
Status.Message        : Associated with AWS-UpdateSSMAgent
Status.AdditionalInfo :
```
**Contoh 2: Contoh ini mengaitkan dokumen konfigurasi dengan instance, menggunakan target.**  

```
$target = @{Key="instanceids";Values=@("i-0cb2b964d3e14fd9f")}
New-SSMAssociation -Name "AWS-UpdateSSMAgent" -Target $target
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            :
Date                  : 3/1/2017 6:22:21 PM
Status.Name           :
Status.Date           :
Status.Message        :
Status.AdditionalInfo :
```
**Contoh 3: Contoh ini mengaitkan dokumen konfigurasi dengan instance, menggunakan target dan parameter.**  

```
$target = @{Key="instanceids";Values=@("i-0cb2b964d3e14fd9f")}
$params = @{
  "action"="configure"
  "mode"="ec2"
  "optionalConfigurationSource"="ssm"
  "optionalConfigurationLocation"=""
  "optionalRestart"="yes"
}
New-SSMAssociation -Name "Configure-CloudWatch" -AssociationName "CWConfiguration" -Target $target -Parameter $params
```
**Output:**  

```
Name                  : Configure-CloudWatch
InstanceId            :
Date                  : 5/17/2018 3:17:44 PM
Status.Name           :
Status.Date           :
Status.Message        :
Status.AdditionalInfo :
```
**Contoh 4: Contoh ini membuat asosiasi dengan semua instance di wilayah, dengan`AWS-GatherSoftwareInventory`. Ini juga menyediakan file kustom dan lokasi registri dalam parameter untuk mengumpulkan**  

```
$params = [Collections.Generic.Dictionary[String,Collections.Generic.List[String]]]::new()
$params["windowsRegistry"] ='[{"Path":"HKEY_LOCAL_MACHINE\SOFTWARE\Amazon\MachineImage","Recursive":false,"ValueNames":["AMIName"]}]'
$params["files"] = '[{"Path":"C:\Program Files","Pattern":["*.exe"],"Recursive":true}, {"Path":"C:\ProgramData","Pattern":["*.log"],"Recursive":true}]' 
New-SSMAssociation -AssociationName new-in-mum -Name AWS-GatherSoftwareInventory -Target @{Key="instanceids";Values="*"} -Parameter $params -region ap-south-1 -ScheduleExpression "rate(720 minutes)"
```
**Output:**  

```
Name                  : AWS-GatherSoftwareInventory
InstanceId            :
Date                  : 6/9/2019 8:57:56 AM
Status.Name           :
Status.Date           :
Status.Message        :
Status.AdditionalInfo :
```
+  Untuk detail API, lihat [CreateAssociation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-SSMAssociationFromBatch`
<a name="ssm_CreateAssociationBatch_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMAssociationFromBatch`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengaitkan dokumen konfigurasi dengan beberapa instance. Output mengembalikan daftar operasi yang berhasil dan gagal, jika berlaku.**  

```
$option1 = @{InstanceId="i-0cb2b964d3e14fd9f";Name=@("AWS-UpdateSSMAgent")}
$option2 = @{InstanceId="i-0000293ffd8c57862";Name=@("AWS-UpdateSSMAgent")}
New-SSMAssociationFromBatch -Entry $option1,$option2
```
**Output:**  

```
Failed  Successful
------  ----------
{}      {Amazon.SimpleSystemsManagement.Model.FailedCreateAssociation, Amazon.SimpleSystemsManagement.Model.FailedCreateAsso...
```
**Contoh 2: Contoh ini akan menunjukkan detail lengkap dari operasi yang berhasil.**  

```
$option1 = @{InstanceId="i-0cb2b964d3e14fd9f";Name=@("AWS-UpdateSSMAgent")}
$option2 = @{InstanceId="i-0000293ffd8c57862";Name=@("AWS-UpdateSSMAgent")}
(New-SSMAssociationFromBatch -Entry $option1,$option2).Successful
```
+  Untuk detail API, lihat [CreateAssociationBatch](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-SSMDocument`
<a name="ssm_CreateDocument_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMDocument`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat dokumen di akun Anda. Dokumen harus dalam format JSON. Untuk informasi selengkapnya tentang menulis dokumen konfigurasi, lihat Dokumen Konfigurasi di Referensi API SSM.**  

```
New-SSMDocument -Content (Get-Content -Raw "c:\temp\RunShellScript.json") -Name "RunShellScript" -DocumentType "Command"
```
**Output:**  

```
CreatedDate     : 3/1/2017 1:21:33 AM
DefaultVersion  : 1
Description     : Run an updated script
DocumentType    : Command
DocumentVersion : 1
Hash            : 1d5ce820e999ff051eb4841ed887593daf77120fd76cae0d18a53cc42e4e22c1
HashType        : Sha256
LatestVersion   : 1
Name            : RunShellScript
Owner           : 809632081692
Parameters      : {commands}
PlatformTypes   : {Linux}
SchemaVersion   : 2.0
Sha1            :
Status          : Creating
```
+  Untuk detail API, lihat [CreateDocument](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-SSMMaintenanceWindow`
<a name="ssm_CreateMaintenanceWindow_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMMaintenanceWindow`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat jendela pemeliharaan baru dengan nama tertentu yang berjalan pada pukul 4 sore setiap hari Selasa selama 4 jam, dengan cutoff 1 jam, dan yang memungkinkan target yang tidak terkait.**  

```
New-SSMMaintenanceWindow -Name "MyMaintenanceWindow" -Duration 4 -Cutoff 1 -AllowUnassociatedTarget $true -Schedule "cron(0 16 ? * TUE *)"
```
**Output:**  

```
mw-03eb53e1ea7383998
```
+  Untuk detail API, lihat [CreateMaintenanceWindow](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-SSMPatchBaseline`
<a name="ssm_CreatePatchBaseline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMPatchBaseline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat baseline patch yang menyetujui tambalan, tujuh hari setelah dirilis oleh Microsoft, untuk instance terkelola yang menjalankan Windows Server 2019 di lingkungan produksi.**  

```
$rule = New-Object Amazon.SimpleSystemsManagement.Model.PatchRule
$rule.ApproveAfterDays = 7

$ruleFilters = New-Object Amazon.SimpleSystemsManagement.Model.PatchFilterGroup

$patchFilter = New-Object Amazon.SimpleSystemsManagement.Model.PatchFilter
$patchFilter.Key="PRODUCT"
$patchFilter.Values="WindowsServer2019"

$severityFilter = New-Object Amazon.SimpleSystemsManagement.Model.PatchFilter
$severityFilter.Key="MSRC_SEVERITY"
$severityFilter.Values.Add("Critical")
$severityFilter.Values.Add("Important")
$severityFilter.Values.Add("Moderate")

$classificationFilter = New-Object Amazon.SimpleSystemsManagement.Model.PatchFilter
$classificationFilter.Key = "CLASSIFICATION"
$classificationFilter.Values.Add( "SecurityUpdates" )
$classificationFilter.Values.Add( "Updates" )
$classificationFilter.Values.Add( "UpdateRollups" )
$classificationFilter.Values.Add( "CriticalUpdates" )

$ruleFilters.PatchFilters.Add($severityFilter)
$ruleFilters.PatchFilters.Add($classificationFilter)
$ruleFilters.PatchFilters.Add($patchFilter)
$rule.PatchFilterGroup = $ruleFilters

New-SSMPatchBaseline -Name "Production-Baseline-Windows2019" -Description "Baseline containing all updates approved for production systems" -ApprovalRules_PatchRule $rule
```
**Output:**  

```
pb-0z4z6221c4296b23z
```
+  Untuk detail API, lihat [CreatePatchBaseline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-SSMDefaultPatchBaseline`
<a name="ssm_RegisterDefaultPatchBaseline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-SSMDefaultPatchBaseline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan baseline patch sebagai baseline patch default.**  

```
Register-SSMDefaultPatchBaseline -BaselineId "pb-03da896ca3b68b639"
```
**Output:**  

```
pb-03da896ca3b68b639
```
+  Untuk detail API, lihat [RegisterDefaultPatchBaseline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-SSMPatchBaselineForPatchGroup`
<a name="ssm_RegisterPatchBaselineForPatchGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-SSMPatchBaselineForPatchGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan baseline patch untuk grup patch.**  

```
Register-SSMPatchBaselineForPatchGroup -BaselineId "pb-03da896ca3b68b639" -PatchGroup "Production"
```
**Output:**  

```
BaselineId           PatchGroup
----------           ----------
pb-03da896ca3b68b639 Production
```
+  Untuk detail API, lihat [RegisterPatchBaselineForPatchGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-SSMTargetWithMaintenanceWindow`
<a name="ssm_RegisterTargetWithMaintenanceWindow_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-SSMTargetWithMaintenanceWindow`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan instance dengan jendela pemeliharaan.**  

```
$option1 = @{Key="InstanceIds";Values=@("i-0000293ffd8c57862")}
Register-SSMTargetWithMaintenanceWindow -WindowId "mw-06cf17cbefcb4bf4f" -Target $option1 -OwnerInformation "Single instance" -ResourceType "INSTANCE"
```
**Output:**  

```
d8e47760-23ed-46a5-9f28-927337725398
```
**Contoh 2: Contoh ini mendaftarkan beberapa instance dengan jendela pemeliharaan.**  

```
$option1 = @{Key="InstanceIds";Values=@("i-0000293ffd8c57862","i-0cb2b964d3e14fd9f")}
Register-SSMTargetWithMaintenanceWindow -WindowId "mw-06cf17cbefcb4bf4f" -Target $option1 -OwnerInformation "Single instance" -ResourceType "INSTANCE"
```
**Output:**  

```
6ab5c208-9fc4-4697-84b7-b02a6cc25f7d
```
**Contoh 3: Contoh ini mendaftarkan instance dengan jendela pemeliharaan menggunakan tag EC2.**  

```
$option1 = @{Key="tag:Environment";Values=@("Production")}
Register-SSMTargetWithMaintenanceWindow -WindowId "mw-06cf17cbefcb4bf4f" -Target $option1 -OwnerInformation "Production Web Servers" -ResourceType "INSTANCE"
```
**Output:**  

```
2994977e-aefb-4a71-beac-df620352f184
```
+  Untuk detail API, lihat [RegisterTargetWithMaintenanceWindow](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-SSMTaskWithMaintenanceWindow`
<a name="ssm_RegisterTaskWithMaintenanceWindow_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-SSMTaskWithMaintenanceWindow`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan tugas dengan jendela pemeliharaan menggunakan ID instance. Outputnya adalah Task ID.**  

```
$parameters = @{}
$parameterValues = New-Object Amazon.SimpleSystemsManagement.Model.MaintenanceWindowTaskParameterValueExpression
$parameterValues.Values = @("Install")
$parameters.Add("Operation", $parameterValues)

Register-SSMTaskWithMaintenanceWindow -WindowId "mw-03a342e62c96d31b0" -ServiceRoleArn "arn:aws:iam::123456789012:role/MaintenanceWindowsRole" -MaxConcurrency 1 -MaxError 1 -TaskArn "AWS-RunShellScript" -Target @{ Key="InstanceIds";Values="i-0000293ffd8c57862" } -TaskType "RUN_COMMAND" -Priority 10 -TaskParameter $parameters
```
**Output:**  

```
f34a2c47-ddfd-4c85-a88d-72366b69af1b
```
**Contoh 2: Contoh ini mendaftarkan tugas dengan jendela pemeliharaan menggunakan ID target. Outputnya adalah Task ID.**  

```
$parameters = @{}
$parameterValues = New-Object Amazon.SimpleSystemsManagement.Model.MaintenanceWindowTaskParameterValueExpression
$parameterValues.Values = @("Install")
$parameters.Add("Operation", $parameterValues)

register-ssmtaskwithmaintenancewindow -WindowId "mw-03a342e62c96d31b0" -ServiceRoleArn "arn:aws:iam::123456789012:role/MaintenanceWindowsRole" -MaxConcurrency 1 -MaxError 1 -TaskArn "AWS-RunShellScript" -Target @{ Key="WindowTargetIds";Values="350d44e6-28cc-44e2-951f-4b2c985838f6" } -TaskType "RUN_COMMAND" -Priority 10 -TaskParameter $parameters
```
**Output:**  

```
f34a2c47-ddfd-4c85-a88d-72366b69af1b
```
**Contoh 3: Contoh ini membuat objek parameter untuk dokumen perintah run `AWS-RunPowerShellScript` dan membuat tugas dengan jendela pemeliharaan yang diberikan menggunakan ID target. Output yang dikembalikan adalah ID tugas.**  

```
$parameters = [Collections.Generic.Dictionary[String,Collections.Generic.List[String]]]::new()
$parameters.Add("commands",@("ipconfig","dir env:\computername"))
$parameters.Add("executionTimeout",@(3600))

$props = @{
    WindowId = "mw-0123e4cce56ff78ae"
    ServiceRoleArn = "arn:aws:iam::123456789012:role/MaintenanceWindowsRole"
    MaxConcurrency = 1
    MaxError = 1
    TaskType = "RUN_COMMAND"
    TaskArn = "AWS-RunPowerShellScript"
    Target = @{Key="WindowTargetIds";Values="fe1234ea-56d7-890b-12f3-456b789bee0f"}
    Priority = 1
    RunCommand_Parameter = $parameters
    Name = "set-via-cmdlet"
}

Register-SSMTaskWithMaintenanceWindow @props
```
**Output:**  

```
f1e2ef34-5678-12e3-456a-12334c5c6cbe
```
**Contoh 4: Contoh ini mendaftarkan tugas Automasi AWS Systems Manager dengan menggunakan dokumen bernama`Create-Snapshots`.**  

```
$automationParameters = @{}
$automationParameters.Add( "instanceId", @("{{ TARGET_ID }}") )
$automationParameters.Add( "AutomationAssumeRole", @("{arn:aws:iam::111111111111:role/AutomationRole}") )
$automationParameters.Add( "SnapshotTimeout", @("PT20M") )
Register-SSMTaskWithMaintenanceWindow -WindowId mw-123EXAMPLE456`
    -ServiceRoleArn "arn:aws:iam::123456789012:role/MW-Role"`
    -MaxConcurrency 1 -MaxError 1 -TaskArn "CreateVolumeSnapshots"`
    -Target @{ Key="WindowTargetIds";Values="4b5acdf4-946c-4355-bd68-4329a43a5fd1" }`
    -TaskType "AUTOMATION"`
    -Priority 4`
    -Automation_DocumentVersion '$DEFAULT' -Automation_Parameter $automationParameters -Name "Create-Snapshots"
```
+  Untuk detail API, lihat [RegisterTaskWithMaintenanceWindow](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SSMActivation`
<a name="ssm_DeleteActivation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMActivation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus aktivasi. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMActivation -ActivationId "08e51e79-1e36-446c-8e63-9458569c1363"
```
+  Untuk detail API, lihat [DeleteActivation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SSMAssociation`
<a name="ssm_DeleteAssociation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMAssociation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus asosiasi antara instance dan dokumen. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMAssociation -InstanceId "i-0cb2b964d3e14fd9f" -Name "AWS-UpdateSSMAgent"
```
+  Untuk detail API, lihat [DeleteAssociation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SSMDocument`
<a name="ssm_DeleteDocument_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMDocument`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus dokumen. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMDocument -Name "RunShellScript"
```
+  Untuk detail API, lihat [DeleteDocument](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SSMMaintenanceWindow`
<a name="ssm_DeleteMaintenanceWindow_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMMaintenanceWindow`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus jendela pemeliharaan.**  

```
Remove-SSMMaintenanceWindow -WindowId "mw-06d59c1a07c022145"
```
**Output:**  

```
mw-06d59c1a07c022145
```
+  Untuk detail API, lihat [DeleteMaintenanceWindow](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SSMParameter`
<a name="ssm_DeleteParameter_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMParameter`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus parameter. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMParameter -Name "helloWorld"
```
+  Untuk detail API, lihat [DeleteParameter](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SSMPatchBaseline`
<a name="ssm_DeletePatchBaseline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMPatchBaseline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus baseline patch.**  

```
Remove-SSMPatchBaseline -BaselineId "pb-045f10b4f382baeda"
```
**Output:**  

```
pb-045f10b4f382baeda
```
+  Untuk detail API, lihat [DeletePatchBaseline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-SSMResourceTag`
<a name="ssm_RemoveTagsFromResource_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMResourceTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag dari jendela pemeliharaan. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMResourceTag -ResourceId "mw-03eb9db42890fb82d" -ResourceType "MaintenanceWindow" -TagKey "Production"
```
+  Untuk detail API, lihat [RemoveTagsFromResource](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Send-SSMCommand`
<a name="ssm_SendCommand_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-SSMCommand`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjalankan perintah echo pada instance target.**  

```
Send-SSMCommand -DocumentName "AWS-RunPowerShellScript" -Parameter @{commands = "echo helloWorld"} -Target @{Key="instanceids";Values=@("i-0cb2b964d3e14fd9f")}
```
**Output:**  

```
CommandId          : d8d190fc-32c1-4d65-a0df-ff5ff3965524
Comment            : 
CompletedCount     : 0
DocumentName       : AWS-RunPowerShellScript
ErrorCount         : 0
ExpiresAfter       : 3/7/2017 10:48:37 PM
InstanceIds        : {}
MaxConcurrency     : 50
MaxErrors          : 0
NotificationConfig : Amazon.SimpleSystemsManagement.Model.NotificationConfig
OutputS3BucketName : 
OutputS3KeyPrefix  : 
OutputS3Region     : 
Parameters         : {[commands, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
RequestedDateTime  : 3/7/2017 9:48:37 PM
ServiceRole        : 
Status             : Pending
StatusDetails      : Pending
TargetCount        : 0
Targets            : {instanceids}
```
**Contoh 2: Contoh ini menunjukkan cara menjalankan perintah yang menerima parameter bersarang.**  

```
Send-SSMCommand -DocumentName "AWS-RunRemoteScript" -Parameter @{ sourceType="GitHub";sourceInfo='{"owner": "me","repository": "amazon-ssm","path": "Examples/Install-Win32OpenSSH"}'; "commandLine"=".\Install-Win32OpenSSH.ps1"} -InstanceId i-0cb2b964d3e14fd9f
```
+  Untuk detail API, lihat [SendCommand](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-SSMAutomationExecution`
<a name="ssm_StartAutomationExecution_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-SSMAutomationExecution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menjalankan dokumen yang menentukan peran Otomasi, ID sumber AMI, dan peran instans Amazon EC2.**  

```
Start-SSMAutomationExecution -DocumentName AWS-UpdateLinuxAmi -Parameter @{'AutomationAssumeRole'='arn:aws:iam::123456789012:role/SSMAutomationRole';'SourceAmiId'='ami-f173cc91';'InstanceIamRole'='EC2InstanceRole'}
```
**Output:**  

```
3a532a4f-0382-11e7-9df7-6f11185f6dd1
```
+  Untuk detail API, lihat [StartAutomationExecution](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Start-SSMSession`
<a name="ssm_StartSession_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-SSMSession`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memulai koneksi ke target untuk sesi Session Manager, memungkinkan penerusan port.**  

```
Start-SSMSession -Target 'i-064578e5e7454488f' -DocumentName 'AWS-StartPortForwardingSession' -Parameter @{ localPortNumber = '8080'; portNumber = '80' }
```
**Output:**  

```
SessionId    StreamUrl
----------    ----------
random-id0    wss://ssmmessages.amazonaws.com/v1/data-channel/random-id
```
+  Untuk detail API, lihat [StartSession](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-SSMAutomationExecution`
<a name="ssm_StopAutomationExecution_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-SSMAutomationExecution`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghentikan Eksekusi Otomasi. Tidak ada output jika perintah berhasil.**  

```
Stop-SSMAutomationExecution -AutomationExecutionId "4105a4fc-f944-11e6-9d32-8fb2db27a909"
```
+  Untuk detail API, lihat [StopAutomationExecution](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-SSMCommand`
<a name="ssm_CancelCommand_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-SSMCommand`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencoba untuk membatalkan perintah. Tidak ada output jika operasi berhasil.**  

```
Stop-SSMCommand -CommandId "9ded293e-e792-4440-8e3e-7b8ec5feaa38"
```
+  Untuk detail API, lihat [CancelCommand](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-SSMManagedInstance`
<a name="ssm_DeregisterManagedInstance_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-SSMManagedInstance`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan pendaftaran instance terkelola. Tidak ada output jika perintah berhasil.**  

```
Unregister-SSMManagedInstance -InstanceId "mi-08ab247cdf1046573"
```
+  Untuk detail API, lihat [DeregisterManagedInstance](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-SSMPatchBaselineForPatchGroup`
<a name="ssm_DeregisterPatchBaselineForPatchGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-SSMPatchBaselineForPatchGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan pendaftaran grup patch dari baseline patch.**  

```
Unregister-SSMPatchBaselineForPatchGroup -BaselineId "pb-045f10b4f382baeda" -PatchGroup "Production"
```
**Output:**  

```
BaselineId           PatchGroup
----------           ----------
pb-045f10b4f382baeda Production
```
+  Untuk detail API, lihat [DeregisterPatchBaselineForPatchGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-SSMTargetFromMaintenanceWindow`
<a name="ssm_DeregisterTargetFromMaintenanceWindow_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-SSMTargetFromMaintenanceWindow`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus target dari jendela pemeliharaan.**  

```
Unregister-SSMTargetFromMaintenanceWindow -WindowTargetId "6ab5c208-9fc4-4697-84b7-b02a6cc25f7d" -WindowId "mw-06cf17cbefcb4bf4f"
```
**Output:**  

```
WindowId             WindowTargetId
--------             --------------
mw-06cf17cbefcb4bf4f 6ab5c208-9fc4-4697-84b7-b02a6cc25f7d
```
+  Untuk detail API, lihat [DeregisterTargetFromMaintenanceWindow](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-SSMTaskFromMaintenanceWindow`
<a name="ssm_DeregisterTaskFromMaintenanceWindow_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-SSMTaskFromMaintenanceWindow`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tugas dari jendela pemeliharaan.**  

```
Unregister-SSMTaskFromMaintenanceWindow -WindowTaskId "f34a2c47-ddfd-4c85-a88d-72366b69af1b" -WindowId "mw-03a342e62c96d31b0"
```
**Output:**  

```
WindowId             WindowTaskId
--------             ------------
mw-03a342e62c96d31b0 f34a2c47-ddfd-4c85-a88d-72366b69af1b
```
+  Untuk detail API, lihat [DeregisterTaskFromMaintenanceWindow](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-SSMAssociation`
<a name="ssm_UpdateAssociation_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMAssociation`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui asosiasi dengan versi dokumen baru.**  

```
Update-SSMAssociation -AssociationId "93285663-92df-44cb-9f26-2292d4ecc439" -DocumentVersion "1"
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            :
Date                  : 3/1/2017 6:22:21 PM
Status.Name           :
Status.Date           :
Status.Message        :
Status.AdditionalInfo :
```
+  Untuk detail API, lihat [UpdateAssociation](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-SSMAssociationStatus`
<a name="ssm_UpdateAssociationStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMAssociationStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui status asosiasi asosiasi antara instance dan dokumen konfigurasi.**  

```
Update-SSMAssociationStatus -Name "AWS-UpdateSSMAgent" -InstanceId "i-0000293ffd8c57862" -AssociationStatus_Date "2015-02-20T08:31:11Z" -AssociationStatus_Name "Pending" -AssociationStatus_Message "temporary_status_change" -AssociationStatus_AdditionalInfo "Additional-Config-Needed"
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            : i-0000293ffd8c57862
Date                  : 2/23/2017 6:55:22 PM
Status.Name           : Pending
Status.Date           : 2/20/2015 8:31:11 AM
Status.Message        : temporary_status_change
Status.AdditionalInfo : Additional-Config-Needed
```
+  Untuk detail API, lihat [UpdateAssociationStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-SSMDocument`
<a name="ssm_UpdateDocument_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMDocument`.

**Alat untuk PowerShell V4**  
**Contoh 1: Ini membuat versi baru dokumen dengan konten terbaru dari file json yang Anda tentukan. Dokumen harus dalam format JSON. Anda dapat memperoleh versi dokumen dengan cmdlet “Get- SSMDocumentVersionList”.**  

```
Update-SSMDocument -Name RunShellScript -DocumentVersion "1" -Content (Get-Content -Raw "c:\temp\RunShellScript.json")
```
**Output:**  

```
CreatedDate     : 3/1/2017 2:59:17 AM
DefaultVersion  : 1
Description     : Run an updated script
DocumentType    : Command
DocumentVersion : 2
Hash            : 1d5ce820e999ff051eb4841ed887593daf77120fd76cae0d18a53cc42e4e22c1
HashType        : Sha256
LatestVersion   : 2
Name            : RunShellScript
Owner           : 809632081692
Parameters      : {commands}
PlatformTypes   : {Linux}
SchemaVersion   : 2.0
Sha1            :
Status          : Updating
```
+  Untuk detail API, lihat [UpdateDocument](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-SSMDocumentDefaultVersion`
<a name="ssm_UpdateDocumentDefaultVersion_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMDocumentDefaultVersion`.

**Alat untuk PowerShell V4**  
**Contoh 1: Ini memperbarui versi default dokumen. Anda dapat memperoleh versi dokumen yang tersedia dengan cmdlet “Dapatkan- SSMDocumentVersionList”.**  

```
Update-SSMDocumentDefaultVersion -Name "RunShellScript" -DocumentVersion "2"
```
**Output:**  

```
DefaultVersion Name
-------------- ----
2              RunShellScript
```
+  Untuk detail API, lihat [UpdateDocumentDefaultVersion](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-SSMMaintenanceWindow`
<a name="ssm_UpdateMaintenanceWindow_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMMaintenanceWindow`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui nama jendela pemeliharaan.**  

```
Update-SSMMaintenanceWindow -WindowId "mw-03eb9db42890fb82d" -Name "My-Renamed-MW"
```
**Output:**  

```
AllowUnassociatedTargets : False
Cutoff                   : 1
Duration                 : 2
Enabled                  : True
Name                     : My-Renamed-MW
Schedule                 : cron(0 */30 * * * ? *)
WindowId                 : mw-03eb9db42890fb82d
```
**Contoh 2: Contoh ini memungkinkan jendela pemeliharaan.**  

```
Update-SSMMaintenanceWindow -WindowId "mw-03eb9db42890fb82d" -Enabled $true
```
**Output:**  

```
AllowUnassociatedTargets : False
Cutoff                   : 1
Duration                 : 2
Enabled                  : True
Name                     : My-Renamed-MW
Schedule                 : cron(0 */30 * * * ? *)
WindowId                 : mw-03eb9db42890fb82d
```
**Contoh 3: Contoh ini menonaktifkan jendela pemeliharaan.**  

```
Update-SSMMaintenanceWindow -WindowId "mw-03eb9db42890fb82d" -Enabled $false
```
**Output:**  

```
AllowUnassociatedTargets : False
Cutoff                   : 1
Duration                 : 2
Enabled                  : False
Name                     : My-Renamed-MW
Schedule                 : cron(0 */30 * * * ? *)
WindowId                 : mw-03eb9db42890fb82d
```
+  Untuk detail API, lihat [UpdateMaintenanceWindow](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-SSMManagedInstanceRole`
<a name="ssm_UpdateManagedInstanceRole_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMManagedInstanceRole`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memperbarui peran instance terkelola. Tidak ada output jika perintah berhasil.**  

```
Update-SSMManagedInstanceRole -InstanceId "mi-08ab247cdf1046573" -IamRole "AutomationRole"
```
+  Untuk detail API, lihat [UpdateManagedInstanceRole](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Update-SSMPatchBaseline`
<a name="ssm_UpdatePatchBaseline_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMPatchBaseline`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan dua tambalan sebagai ditolak dan satu tambalan yang disetujui ke baseline patch yang ada.**  

```
Update-SSMPatchBaseline -BaselineId "pb-03da896ca3b68b639" -RejectedPatch "KB2032276","MS10-048" -ApprovedPatch "KB2124261"
```
**Output:**  

```
ApprovalRules   : Amazon.SimpleSystemsManagement.Model.PatchRuleGroup
ApprovedPatches : {KB2124261}
BaselineId      : pb-03da896ca3b68b639
CreatedDate     : 3/3/2017 5:02:19 PM
Description     : Baseline containing all updates approved for production systems
GlobalFilters   : Amazon.SimpleSystemsManagement.Model.PatchFilterGroup
ModifiedDate    : 3/3/2017 5:22:10 PM
Name            : Production-Baseline
RejectedPatches : {KB2032276, MS10-048}
```
+  Untuk detail API, lihat [UpdatePatchBaseline](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-SSMComplianceItem`
<a name="ssm_PutComplianceItems_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-SSMComplianceItem`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menulis item kepatuhan khusus untuk instance terkelola yang diberikan**  

```
$item = [Amazon.SimpleSystemsManagement.Model.ComplianceItemEntry]::new()
$item.Id = "07Jun2019-3"
$item.Severity="LOW"
$item.Status="COMPLIANT"
$item.Title="Fin-test-1 - custom"
Write-SSMComplianceItem -ResourceId mi-012dcb3ecea45b678 -ComplianceType Custom:VSSCompliant2 -ResourceType ManagedInstance -Item $item -ExecutionSummary_ExecutionTime "07-Jun-2019"
```
+  Untuk detail API, lihat [PutComplianceItems](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-SSMInventory`
<a name="ssm_PutInventory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-SSMInventory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memberikan informasi lokasi rak ke sebuah instance. Tidak ada output jika perintah berhasil.**  

```
$data = New-Object "System.Collections.Generic.Dictionary[System.String,System.String]"
$data.Add("RackLocation", "Bay B/Row C/Rack D/Shelf F")

$items = New-Object "System.Collections.Generic.List[System.Collections.Generic.Dictionary[System.String, System.String]]"
$items.Add($data)

$customInventoryItem = New-Object Amazon.SimpleSystemsManagement.Model.InventoryItem
$customInventoryItem.CaptureTime = "2016-08-22T10:01:01Z"
$customInventoryItem.Content = $items
$customInventoryItem.TypeName = "Custom:TestRackInfo2"
$customInventoryItem.SchemaVersion = "1.0"

$inventoryItems = @($customInventoryItem)

Write-SSMInventory -InstanceId "i-0cb2b964d3e14fd9f" -Item $inventoryItems
```
+  Untuk detail API, lihat [PutInventory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Write-SSMParameter`
<a name="ssm_PutParameter_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-SSMParameter`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membuat parameter. Tidak ada output jika perintah berhasil.**  

```
Write-SSMParameter -Name "Welcome" -Type "String" -Value "helloWorld"
```
**Contoh 2: Contoh ini mengubah parameter. Tidak ada output jika perintah berhasil.**  

```
Write-SSMParameter -Name "Welcome" -Type "String" -Value "Good day, Sunshine!" -Overwrite $true
```
+  Untuk detail API, lihat [PutParameter](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh Amazon Translate menggunakan Alat untuk PowerShell V4
<a name="powershell_4_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan Amazon Translate.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ConvertTo-TRNTargetLanguage`
<a name="translate_TranslateText_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConvertTo-TRNTargetLanguage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengonversi teks bahasa Inggris yang ditentukan ke bahasa Prancis. Teks yang akan dikonversi juga dapat diteruskan sebagai parameter -Text.**  

```
"Hello World" | ConvertTo-TRNTargetLanguage -SourceLanguageCode en -TargetLanguageCode fr
```
+  Untuk detail API, lihat [TranslateText](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# AWS WAFV2 contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_wafv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan AWS WAFV2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-WAF2WebACL`
<a name="wafv2_CreateWebAcl_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-WAF2WebACL`.

**Alat untuk PowerShell V4**  
**Contoh 1: Perintah ini membuat ACL web baru bernama “waf-test”. Harap dicatat bahwa sesuai dokumentasi API layanan, 'DefaultAction' adalah properti wajib. Oleh karena itu, nilai untuk salah satu '- DefaultAction \$1Allow' and/or '- DefaultAction \$1Block' harus ditentukan. Karena '- DefaultAction \$1Allow' dan '- DefaultAction \$1Block' bukan properti yang diperlukan, nilai '@ \$1\$1 'dapat digunakan sebagai placeholder seperti yang ditunjukkan pada contoh di atas.**  

```
New-WAF2WebACL -Name "waf-test" -Scope REGIONAL -Region eu-west-1 -VisibilityConfig_CloudWatchMetricsEnabled $true -VisibilityConfig_SampledRequestsEnabled $true -VisibilityConfig_MetricName "waf-test" -Description "Test" -DefaultAction_Allow @{}
```
**Output:**  

```
ARN         : arn:aws:wafv2:eu-west-1:139480602983:regional/webacl/waf-test/19460b3f-db14-4b9a-8e23-a417e1eb007f
Description : Test
Id          : 19460b3f-db14-4b9a-8e23-a417e1eb007f
LockToken   : 5a0cd5eb-d911-4341-b313-b429e6d6b6ab
Name        : waf-test
```
+  Untuk detail API, lihat [CreateWebAcl](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# WorkSpaces contoh menggunakan Alat untuk PowerShell V4
<a name="powershell_4_workspaces_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V4 dengan WorkSpaces.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Approve-WKSIpRule`
<a name="workspaces_AuthorizeIpRules_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Approve-WKSIpRule`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan aturan ke Grup IP yang ada**  

```
$Rule = @(
@{IPRule = "10.1.0.0/0"; RuleDesc = "First Rule Added"},
@{IPRule = "10.2.0.0/0"; RuleDesc = "Second Rule Added"}
)

Approve-WKSIpRule -GroupId wsipg-abcnx2fcw -UserRule $Rule
```
+  Untuk detail API, lihat [AuthorizeIpRules](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Copy-WKSWorkspaceImage`
<a name="workspaces_CopyWorkspaceImage_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-WKSWorkspaceImage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menyalin ruang kerja Gambar dengan ID tertentu dari us-west-2 ke wilayah saat ini dengan nama "” CopiedImageTest**  

```
Copy-WKSWorkspaceImage -Name CopiedImageTest -SourceRegion us-west-2 -SourceImageId wsi-djfoedhw6
```
**Output:**  

```
wsi-456abaqfe
```
+  Untuk detail API, lihat [CopyWorkspaceImage](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-WKSClientProperty`
<a name="workspaces_ModifyClientProperties_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSClientProperty`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan Rekoneksi untuk Klien Ruang Kerja**  

```
Edit-WKSClientProperty -Region us-west-2 -ClientProperties_ReconnectEnabled "ENABLED" -ResourceId d-123414a369
```
+  Untuk detail API, lihat [ModifyClientProperties](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-WKSSelfServicePermission`
<a name="workspaces_ModifySelfservicePermissions_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSSelfServicePermission`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan izin layanan mandiri untuk Mengubah jenis komputasi dan Meningkatkan Ukuran Volume untuk Direktori yang ditentukan**  

```
Edit-WKSSelfservicePermission -Region us-west-2 -ResourceId d-123454a369 -SelfservicePermissions_ChangeComputeType ENABLED -SelfservicePermissions_IncreaseVolumeSize ENABLED
```
+  Untuk detail API, lihat [ModifySelfservicePermissions](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-WKSWorkspaceAccessProperty`
<a name="workspaces_ModifyWorkspaceAccessProperties_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSWorkspaceAccessProperty`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan akses Workspace di Android dan Chrome OS untuk Direktori yang ditentukan**  

```
Edit-WKSWorkspaceAccessProperty -Region us-west-2 -ResourceId d-123454a369 -WorkspaceAccessProperties_DeviceTypeAndroid ALLOW -WorkspaceAccessProperties_DeviceTypeChromeOs ALLOW
```
+  Untuk detail API, lihat [ModifyWorkspaceAccessProperties](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-WKSWorkspaceCreationProperty`
<a name="workspaces_ModifyWorkspaceCreationProperties_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSWorkspaceCreationProperty`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini memungkinkan Akses Internet dan Mode Pemeliharaan menjadi true sebagai nilai default saat membuat Workspace**  

```
Edit-WKSWorkspaceCreationProperty -Region us-west-2 -ResourceId d-123454a369 -WorkspaceCreationProperties_EnableInternetAccess $true -WorkspaceCreationProperties_EnableMaintenanceMode $true
```
+  Untuk detail API, lihat [ModifyWorkspaceCreationProperties](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-WKSWorkspaceProperty`
<a name="workspaces_ModifyWorkspaceProperties_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSWorkspaceProperty`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah Properti Workspace Running Mode menjadi Auto Stop untuk Workspace yang ditentukan**  

```
Edit-WKSWorkspaceProperty -WorkspaceId ws-w361s100v -Region us-west-2 -WorkspaceProperties_RunningMode AUTO_STOP
```
+  Untuk detail API, lihat [ModifyWorkspaceProperties](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Edit-WKSWorkspaceState`
<a name="workspaces_ModifyWorkspaceState_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSWorkspaceState`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengubah status Workspace yang ditentukan menjadi Tersedia**  

```
Edit-WKSWorkspaceState -WorkspaceId ws-w361s100v -Region us-west-2 -WorkspaceState AVAILABLE
```
+  Untuk detail API, lihat [ModifyWorkspaceState](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSClientProperty`
<a name="workspaces_DescribeClientProperties_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSClientProperty`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendapatkan Properti Klien dari Klien Workspace untuk Direktori yang ditentukan**  

```
Get-WKSClientProperty -ResourceId d-223562a123
```
+  Untuk detail API, lihat [DescribeClientProperties](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSIpGroup`
<a name="workspaces_DescribeIpGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSIpGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini mendapatkan rincian Grup IP yang ditentukan di wilayah yang ditentukan**  

```
Get-WKSIpGroup -Region us-east-1 -GroupId wsipg-8m1234v45
```
**Output:**  

```
GroupDesc GroupId         GroupName UserRules
--------- -------         --------- ---------
          wsipg-8m1234v45 TestGroup {Amazon.WorkSpaces.Model.IpRuleItem, Amazon.WorkSpaces.Model.IpRuleItem}
```
+  Untuk detail API, lihat [DescribeIpGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSTag`
<a name="workspaces_DescribeTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil tag untuk Workspace yang diberikan**  

```
Get-WKSTag -WorkspaceId ws-w361s234r -Region us-west-2
```
**Output:**  

```
Key         Value
---         -----
auto-delete no
purpose     Workbench
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSWorkspace`
<a name="workspaces_DescribeWorkspaces_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspace`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengambil detail dari semua pipa Anda WorkSpaces .**  

```
Get-WKSWorkspace
```
**Output:**  

```
BundleId                    : wsb-1a2b3c4d
ComputerName                :
DirectoryId                 : d-1a2b3c4d
ErrorCode                   :
ErrorMessage                :
IpAddress                   :
RootVolumeEncryptionEnabled : False
State                       : PENDING
SubnetId                    :
UserName                    : myuser
UserVolumeEncryptionEnabled : False
VolumeEncryptionKey         :
WorkspaceId                 : ws-1a2b3c4d
WorkspaceProperties         : Amazon.WorkSpaces.Model.WorkspaceProperties
```
**Contoh 2: Perintah ini menunjukkan nilai properti anak `WorkSpaceProperties` untuk ruang kerja di `us-west-2` wilayah tersebut. Untuk informasi selengkapnya tentang properti anak`WorkSpaceProperties`, lihat https://docs.aws.amazon.com/workspaces/ latest/api/API \$1 WorkspaceProperties .html.**  

```
(Get-WKSWorkspace -Region us-west-2 -WorkSpaceId ws-xdaf7hc9s).WorkspaceProperties
```
**Output:**  

```
        ComputeTypeName                     : STANDARD
        RootVolumeSizeGib                   : 80
        RunningMode                         : AUTO_STOP
        RunningModeAutoStopTimeoutInMinutes : 60
        UserVolumeSizeGib                   : 50
```
**Contoh 3: Perintah ini menunjukkan nilai properti `RootVolumeSizeGib` anak `WorkSpaceProperties` untuk ruang kerja di `us-west-2` wilayah tersebut. Ukuran volume root, dalam GiB, adalah 80.**  

```
(Get-WKSWorkspace -Region us-west-2 -WorkSpaceId ws-xdaf7hc9s).WorkspaceProperties.RootVolumeSizeGib
```
**Output:**  

```
        80
```
+  Untuk detail API, lihat [DescribeWorkspaces](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSWorkspaceBundle`
<a name="workspaces_DescribeWorkspaceBundles_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspaceBundle`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil rincian semua bundel Workspace di wilayah saat ini**  

```
Get-WKSWorkspaceBundle
```
**Output:**  

```
BundleId        : wsb-sfhdgv342
ComputeType     : Amazon.WorkSpaces.Model.ComputeType
Description     : This bundle is custom
ImageId         : wsi-235aeqges
LastUpdatedTime : 12/26/2019 06:44:07
Name            : CustomBundleTest
Owner           : 233816212345
RootStorage     : Amazon.WorkSpaces.Model.RootStorage
UserStorage     : Amazon.WorkSpaces.Model.UserStorage
```
+  Untuk detail API, lihat [DescribeWorkspaceBundles](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSWorkspaceDirectory`
<a name="workspaces_DescribeWorkspaceDirectories_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspaceDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mencantumkan detail direktori untuk direktori terdaftar**  

```
Get-WKSWorkspaceDirectory
```
**Output:**  

```
Alias                       : TestWorkspace
CustomerUserName            : Administrator
DirectoryId                 : d-123414a369
DirectoryName               : TestDirectory.com
DirectoryType               : MicrosoftAD
DnsIpAddresses              : {172.31.43.45, 172.31.2.97}
IamRoleId                   : arn:aws:iam::761234567801:role/workspaces_RoleDefault
IpGroupIds                  : {}
RegistrationCode            : WSpdx+4RRT43
SelfservicePermissions      : Amazon.WorkSpaces.Model.SelfservicePermissions
State                       : REGISTERED
SubnetIds                   : {subnet-1m3m7b43, subnet-ard11aba}
Tenancy                     : SHARED
WorkspaceAccessProperties   : Amazon.WorkSpaces.Model.WorkspaceAccessProperties
WorkspaceCreationProperties : Amazon.WorkSpaces.Model.DefaultWorkspaceCreationProperties
WorkspaceSecurityGroupId    : sg-0ed2441234a123c43
```
+  Untuk detail API, lihat [DescribeWorkspaceDirectories](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSWorkspaceImage`
<a name="workspaces_DescribeWorkspaceImages_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspaceImage`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini mengambil semua detail semua gambar di wilayah tersebut**  

```
Get-WKSWorkspaceImage
```
**Output:**  

```
Description     :This image is copied from another image
ErrorCode       :
ErrorMessage    :
ImageId         : wsi-345ahdjgo
Name            : CopiedImageTest
OperatingSystem : Amazon.WorkSpaces.Model.OperatingSystem
RequiredTenancy : DEFAULT
State           : AVAILABLE
```
+  Untuk detail API, lihat [DescribeWorkspaceImages](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSWorkspaceSnapshot`
<a name="workspaces_DescribeWorkspaceSnapshots_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspaceSnapshot`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menunjukkan stempel waktu snapshot terbaru yang dibuat untuk Workspace yang ditentukan**  

```
Get-WKSWorkspaceSnapshot -WorkspaceId ws-w361s100v
```
**Output:**  

```
RebuildSnapshots                   RestoreSnapshots
----------------                   ----------------
{Amazon.WorkSpaces.Model.Snapshot} {Amazon.WorkSpaces.Model.Snapshot}
```
+  Untuk detail API, lihat [DescribeWorkspaceSnapshots](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Get-WKSWorkspacesConnectionStatus`
<a name="workspaces_DescribeWorkspacesConnectionStatus_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspacesConnectionStatus`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mengambil status koneksi untuk Workspace yang ditentukan**  

```
Get-WKSWorkspacesConnectionStatus -WorkspaceId ws-w123s234r
```
+  Untuk detail API, lihat [DescribeWorkspacesConnectionStatus](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-WKSIpGroup`
<a name="workspaces_CreateIpGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-WKSIpGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini membuat grup Ip kosong bernama FreshEmptyIpGroup**  

```
New-WKSIpGroup -GroupName "FreshNewIPGroup"
```
**Output:**  

```
wsipg-w45rty4ty
```
+  Untuk detail API, lihat [CreateIpGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-WKSTag`
<a name="workspaces_CreateTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-WKSTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menambahkan tag baru ke ruang kerja bernama`ws-wsname`. Tag memiliki kunci “Nama”, dan nilai kunci dari`AWS_Workspace`.**  

```
$tag = New-Object Amazon.WorkSpaces.Model.Tag
$tag.Key = "Name"
$tag.Value = "AWS_Workspace"
New-WKSTag -Region us-west-2 -WorkspaceId ws-wsname -Tag $tag
```
**Contoh 2: Contoh ini menambahkan beberapa tag ke ruang kerja bernama`ws-wsname`. Satu tag memiliki kunci “Nama” dan nilai kunci`AWS_Workspace`; tag lainnya memiliki kunci tag “Tahap” dan nilai kunci “Uji”.**  

```
$tag = New-Object Amazon.WorkSpaces.Model.Tag
$tag.Key = "Name"
$tag.Value = "AWS_Workspace"

$tag2 = New-Object Amazon.WorkSpaces.Model.Tag
$tag2.Key = "Stage"
$tag2.Value = "Test"
New-WKSTag -Region us-west-2 -WorkspaceId ws-wsname -Tag $tag,$tag2
```
+  Untuk detail API, lihat [CreateTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `New-WKSWorkspace`
<a name="workspaces_CreateWorkspaces_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-WKSWorkspace`.

**Alat untuk PowerShell V4**  
**Contoh 1: Buat WorkSpace untuk bundel, direktori, dan pengguna yang disediakan.**  

```
New-WKSWorkspace -Workspace @{"BundleID" = "wsb-1a2b3c4d"; "DirectoryId" = "d-1a2b3c4d"; "UserName" = "USERNAME"}
```
**Contoh 2: Contoh ini membuat beberapa WorkSpaces**  

```
New-WKSWorkspace -Workspace @{"BundleID" = "wsb-1a2b3c4d"; "DirectoryId" = "d-1a2b3c4d"; "UserName" = "USERNAME_1"},@{"BundleID" = "wsb-1a2b3c4d"; "DirectoryId" = "d-1a2b3c4d"; "UserName" = "USERNAME_2"}
```
+  Untuk detail API, lihat [CreateWorkspaces](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-WKSIpGroup`
<a name="workspaces_AssociateIpGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-WKSIpGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan Grup IP yang ditentukan dengan Direktori yang ditentukan**  

```
Register-WKSIpGroup -GroupId wsipg-23ahsdres -DirectoryId d-123412e123
```
+  Untuk detail API, lihat [AssociateIpGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Register-WKSWorkspaceDirectory`
<a name="workspaces_RegisterWorkspaceDirectory_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-WKSWorkspaceDirectory`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini mendaftarkan direktori yang ditentukan untuk Workspaces Service**  

```
Register-WKSWorkspaceDirectory -DirectoryId d-123412a123 -EnableWorkDoc $false
```
+  Untuk detail API, lihat [RegisterWorkspaceDirectory](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-WKSIpGroup`
<a name="workspaces_DeleteIpGroup_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-WKSIpGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Sampel ini menghapus Grup IP yang ditentukan**  

```
Remove-WKSIpGroup -GroupId wsipg-32fhgtred
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-WKSIpGroup (DeleteIpGroup)" on target "wsipg-32fhgtred".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteIpGroup](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-WKSTag`
<a name="workspaces_DeleteTags_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-WKSTag`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini menghapus tag yang terkait dengan Workspace**  

```
Remove-WKSTag -ResourceId ws-w10b3abcd -TagKey "Type"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-WKSTag (DeleteTags)" on target "ws-w10b3abcd".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteTags](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Remove-WKSWorkspace`
<a name="workspaces_TerminateWorkspaces_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-WKSWorkspace`.

**Alat untuk PowerShell V4**  
**Contoh 1: Mengakhiri beberapa WorkSpaces. penggunaan sakelar -Force menghentikan cmdlet agar tidak meminta konfirmasi.**  

```
Remove-WKSWorkspace -WorkspaceId "ws-1a2b3c4d5","ws-6a7b8c9d0" -Force
```
**Contoh 2: Mengambil koleksi semua Anda WorkSpaces dan pipa IDs ke - WorkSpaceId parameter Remove-WKSWorkspace, mengakhiri semua. WorkSpaces Cmdlet akan meminta sebelum masing-masing WorkSpace dihentikan. Untuk menekan prompt konfirmasi tambahkan sakelar -Force.**  

```
Get-WKSWorkspaces | Remove-WKSWorkspace
```
**Contoh 3: Contoh ini menunjukkan cara meneruskan TerminateRequest objek yang mendefinisikan WorkSpaces yang akan dihentikan. Cmdlet akan meminta konfirmasi sebelum melanjutkan, kecuali parameter sakelar -Force juga ditentukan.**  

```
$arrRequest = @()
$request1 = New-Object Amazon.WorkSpaces.Model.TerminateRequest
$request1.WorkspaceId = 'ws-12345678'
$arrRequest += $request1
$request2 = New-Object Amazon.WorkSpaces.Model.TerminateRequest
$request2.WorkspaceId = 'ws-abcdefgh'
$arrRequest += $request2
Remove-WKSWorkspace -Request $arrRequest
```
+  Untuk detail API, lihat [TerminateWorkspaces](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Reset-WKSWorkspace`
<a name="workspaces_RebuildWorkspaces_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-WKSWorkspace`.

**Alat untuk PowerShell V4**  
**Contoh 1: Membangun kembali yang ditentukan. WorkSpace**  

```
Reset-WKSWorkspace -WorkspaceId "ws-1a2b3c4d"
```
**Contoh 2: Mengambil koleksi semua Anda WorkSpaces dan pipa IDs ke - WorkSpaceId parameter Reset-WKSWorkspace, menyebabkan yang akan WorkSpaces dibangun kembali.**  

```
Get-WKSWorkspaces | Reset-WKSWorkspace
```
+  Untuk detail API, lihat [RebuildWorkspaces](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Restart-WKSWorkspace`
<a name="workspaces_RebootWorkspaces_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Restart-WKSWorkspace`.

**Alat untuk PowerShell V4**  
**Contoh 1: Reboot yang ditentukan WorkSpace.**  

```
Restart-WKSWorkspace -WorkspaceId "ws-1a2b3c4d"
```
**Contoh 2: Reboot beberapa WorkSpaces.**  

```
Restart-WKSWorkspace -WorkspaceId "ws-1a2b3c4d","ws-5a6b7c8d"
```
**Contoh 3: Mengambil koleksi semua Anda WorkSpaces dan pipa IDs ke - WorkSpaceId parameter Restart-WKSWorkspace, menyebabkan restart. WorkSpaces **  

```
Get-WKSWorkspaces | Restart-WKSWorkspace
```
+  Untuk detail API, lihat [RebootWorkspaces](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Stop-WKSWorkspace`
<a name="workspaces_StopWorkspaces_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-WKSWorkspace`.

**Alat untuk PowerShell V4**  
**Contoh 1: Menghentikan beberapa WorkSpaces.**  

```
Stop-WKSWorkspace -WorkspaceId "ws-1a2b3c4d5","ws-6a7b8c9d0"
```
**Contoh 2: Mengambil koleksi semua Anda WorkSpaces dan pipa IDs ke - WorkSpaceId parameter Stop- WKSWorkspace WorkSpaces menyebabkan dihentikan.**  

```
Get-WKSWorkspaces | Stop-WKSWorkspace
```
**Contoh 3: Contoh ini menunjukkan cara melewati StopRequest objek yang mendefinisikan WorkSpaces yang akan dihentikan.**  

```
$arrRequest = @()
$request1 = New-Object Amazon.WorkSpaces.Model.StopRequest
$request1.WorkspaceId = 'ws-12345678'
$arrRequest += $request1
$request2 = New-Object Amazon.WorkSpaces.Model.StopRequest
$request2.WorkspaceId = 'ws-abcdefgh'
$arrRequest += $request2
Stop-WKSWorkspace -Request $arrRequest
```
+  Untuk detail API, lihat [StopWorkspaces](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

### `Unregister-WKSIpGroup`
<a name="workspaces_DisassociateIpGroups_powershell_4_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-WKSIpGroup`.

**Alat untuk PowerShell V4**  
**Contoh 1: Contoh ini membatalkan registrasi Grup IP yang ditentukan dari Direktori yang ditentukan**  

```
Unregister-WKSIpGroup -GroupId wsipg-12abcdphq -DirectoryId d-123454b123
```
+  Untuk detail API, lihat [DisassociateIpGroups](https://docs.aws.amazon.com/powershell/v4/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V4)*. 

# Contoh kode untuk Alat untuk PowerShell V5
<a name="powershell_5_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan Alat AWS untuk PowerShell V5 dengan AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[Alat untuk Panduan Pengembang PowerShell V5](https://docs.aws.amazon.com/powershell/v5/userguide/pstools-welcome.html)** - Lebih lanjut tentang menggunakan PowerShell dengan AWS. 
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [ACM](powershell_5_acm_code_examples.md)
+ [Penskalaan Otomatis Aplikasi](powershell_5_application-auto-scaling_code_examples.md)
+ [WorkSpaces Aplikasi](powershell_5_appstream_code_examples.md)
+ [Aurora](powershell_5_aurora_code_examples.md)
+ [Auto Scaling](powershell_5_auto-scaling_code_examples.md)
+ [AWS Budgets](powershell_5_budgets_code_examples.md)
+ [AWS Cloud9](powershell_5_cloud9_code_examples.md)
+ [CloudFormation](powershell_5_cloudformation_code_examples.md)
+ [CloudFront](powershell_5_cloudfront_code_examples.md)
+ [CloudTrail](powershell_5_cloudtrail_code_examples.md)
+ [CloudWatch](powershell_5_cloudwatch_code_examples.md)
+ [CodeCommit](powershell_5_codecommit_code_examples.md)
+ [CodeDeploy](powershell_5_codedeploy_code_examples.md)
+ [CodePipeline](powershell_5_codepipeline_code_examples.md)
+ [Identitas Amazon Cognito](powershell_5_cognito-identity_code_examples.md)
+ [AWS Config](powershell_5_config-service_code_examples.md)
+ [Device Farm](powershell_5_device-farm_code_examples.md)
+ [Directory Service](powershell_5_directory-service_code_examples.md)
+ [AWS DMS](powershell_5_database-migration-service_code_examples.md)
+ [DynamoDB](powershell_5_dynamodb_code_examples.md)
+ [Amazon EC2](powershell_5_ec2_code_examples.md)
+ [Amazon ECR](powershell_5_ecr_code_examples.md)
+ [Amazon ECS](powershell_5_ecs_code_examples.md)
+ [Amazon EFS](powershell_5_efs_code_examples.md)
+ [Amazon EKS](powershell_5_eks_code_examples.md)
+ [Elastic Load Balancing - Versi 1](powershell_5_elastic-load-balancing_code_examples.md)
+ [Elastic Load Balancing - Versi 2](powershell_5_elastic-load-balancing-v2_code_examples.md)
+ [Amazon FSx](powershell_5_fsx_code_examples.md)
+ [Amazon Glacier](powershell_5_glacier_code_examples.md)
+ [AWS Glue](powershell_5_glue_code_examples.md)
+ [AWS Health](powershell_5_health_code_examples.md)
+ [IAM](powershell_5_iam_code_examples.md)
+ [Kinesis](powershell_5_kinesis_code_examples.md)
+ [Lambda](powershell_5_lambda_code_examples.md)
+ [Amazon ML](powershell_5_machine-learning_code_examples.md)
+ [Macie](powershell_5_macie2_code_examples.md)
+ [Daftar Harga AWS](powershell_5_pricing_code_examples.md)
+ [Resource Groups](powershell_5_resource-groups_code_examples.md)
+ [API Penandaan Grup Sumber Daya](powershell_5_resource-groups-tagging-api_code_examples.md)
+ [Route 53](powershell_5_route-53_code_examples.md)
+ [Amazon S3](powershell_5_s3_code_examples.md)
+ [Security Hub CSPM](powershell_5_securityhub_code_examples.md)
+ [Amazon SES](powershell_5_ses_code_examples.md)
+ [Amazon SES API v2](powershell_5_sesv2_code_examples.md)
+ [Amazon SNS](powershell_5_sns_code_examples.md)
+ [Amazon SQS](powershell_5_sqs_code_examples.md)
+ [AWS STS](powershell_5_sts_code_examples.md)
+ [Dukungan](powershell_5_support_code_examples.md)
+ [Systems Manager](powershell_5_ssm_code_examples.md)
+ [Amazon Translate](powershell_5_translate_code_examples.md)
+ [AWS WAFV2](powershell_5_wafv2_code_examples.md)
+ [WorkSpaces](powershell_5_workspaces_code_examples.md)

# Contoh ACM menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_acm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan ACM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-ACMCertificate`
<a name="acm_GetCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ACMCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara mengembalikan sertifikat dan rantainya menggunakan ARN sertifikat.**  

```
Get-ACMCertificate -CertificateArn "arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012"
```
+  Untuk detail API, lihat [GetCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ACMCertificateDetail`
<a name="acm_DescribeCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ACMCertificateDetail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan rincian sertifikat yang ditentukan.**  

```
Get-ACMCertificateDetail -CertificateArn "arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012"
```
**Output:**  

```
CertificateArn          : arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012
CreatedAt               : 1/21/2016 5:55:59 PM
DomainName              : www.example.com
DomainValidationOptions : {www.example.com}
InUseBy                 : {}
IssuedAt                : 1/1/0001 12:00:00 AM
Issuer                  :
KeyAlgorithm            : RSA-2048
NotAfter                : 1/1/0001 12:00:00 AM
NotBefore               : 1/1/0001 12:00:00 AM
RevocationReason        :
RevokedAt               : 1/1/0001 12:00:00 AM
Serial                  :
SignatureAlgorithm      : SHA256WITHRSA
Status                  : PENDING_VALIDATION
Subject                 : CN=www.example.com
SubjectAlternativeNames : {www.example.net}
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ACMCertificateList`
<a name="acm_ListCertificates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ACMCertificateList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengambil daftar semua sertifikat Anda ARNs dan nama domain untuk masing-masing. Cmdlet akan secara otomatis melakukan paginasi untuk mengambil semua file. ARNs Untuk mengontrol pagination secara manual, gunakan MaxItem parameter - untuk mengontrol berapa banyak sertifikat ARNs yang dikembalikan untuk setiap panggilan layanan dan NextToken parameter - untuk menunjukkan titik awal untuk setiap panggilan.**  

```
Get-ACMCertificateList
```
**Output:**  

```
CertificateArn                                                                      DomainName
--------------                                                                      ----------
arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012 www.example.com
```
**Contoh 2: Mengambil daftar semua sertifikat Anda ARNs di mana status sertifikat cocok pada status yang disediakan.**  

```
Get-ACMCertificateList -CertificateStatus "VALIDATION_TIMED_OUT","FAILED"
```
**Contoh 3: Contoh ini mengembalikan daftar semua sertifikat di wilayah us-east-1 yang memiliki tipe kunci RSA\$12048, dan penggunaan kunci yang diperluas, atau tujuan, dari CODE\$1SIGNING. Anda dapat menemukan nilai untuk parameter pemfilteran ini di topik referensi ListCertificates Filter API: https://docs.aws.amazon.com/acm/ latest/APIReference/API \$1Filters.html.**  

```
Get-ACMCertificateList -Region us-east-1 -Includes_KeyType RSA_2048 -Includes_ExtendedKeyUsage CODE_SIGNING
```
**Output:**  

```
CertificateArn                                                                      DomainName                
--------------                                                                      ----------                
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-d7c0-48c1-af8d-2133d8f30zzz *.route53docs.com
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-98a5-443d-a734-800430c80zzz nerdzizm.net               
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-2be6-4376-8fa7-bad559525zzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-e7ca-44c5-803e-24d9f2f36zzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-1241-4b71-80b1-090305a62zzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-8709-4568-8c64-f94617c99zzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-a8fa-4a61-98cf-e08ccc0eezzz                           
arn:aws:acm:us-east-1:8xxxxxxxxxxx:certificate/xxxxxxxx-fa47-40fe-a714-2d277d3eezzz *.route53docs.com
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ACMCertificate`
<a name="acm_RequestCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ACMCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat sertifikat baru. Layanan mengembalikan ARN dari sertifikat baru.**  

```
New-ACMCertificate -DomainName "www.example.com"
```
**Output:**  

```
arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012
```
**Contoh 2: Membuat sertifikat baru. Layanan mengembalikan ARN dari sertifikat baru.**  

```
New-ACMCertificate -DomainName "www.example.com" -SubjectAlternativeName "example.com","www.example.net"
```
**Output:**  

```
arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012
```
+  Untuk detail API, lihat [RequestCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ACMCertificate`
<a name="acm_DeleteCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ACMCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus sertifikat yang diidentifikasi oleh ARN yang disediakan dan kunci pribadi terkait. Cmdlet akan meminta konfirmasi sebelum melanjutkan; tambahkan sakelar -Force untuk menekan konfirmasi.**  

```
Remove-ACMCertificate -CertificateArn "arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012"
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Send-ACMValidationEmail`
<a name="acm_ResendValidationEmail_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-ACMValidationEmail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Permintaan agar email untuk memvalidasi kepemilikan domain untuk 'www.example.com' dikirim. Jika \$1 shell Anda ConfirmPreference disetel ke 'Medium' atau lebih rendah, cmdlet akan meminta konfirmasi sebelum memproses. Tambahkan sakelar -Force untuk menekan permintaan konfirmasi.**  

```
$params = @{
    CertificateArn="arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012"
    Domain="www.example.com"
    ValidationDomain="example.com"    
}        
Send-ACMValidationEmail @params
```
+  Untuk detail API, lihat [ResendValidationEmail](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Application Auto Scaling menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_application-auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Application Auto Scaling.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-AASScalableTarget`
<a name="application-auto-scaling_RegisterScalableTarget_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-AASScalableTarget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mendaftarkan atau memperbarui target yang dapat diskalakan. Target yang dapat diskalakan adalah sumber daya yang dapat diskalakan dan diskalakan oleh Application Auto Scaling.**  

```
Add-AASScalableTarget -ServiceNamespace AppStream -ResourceId fleet/MyFleet -ScalableDimension appstream:fleet:DesiredCapacity -MinCapacity 2 -MaxCapacity 10
```
+  Untuk detail API, lihat [RegisterScalableTarget](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-AASScalableTarget`
<a name="application-auto-scaling_DescribeScalableTargets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-AASScalableTarget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini akan memberikan informasi tentang target Application Autoscaling Scaling Scalable di namespace yang ditentukan.**  

```
Get-AASScalableTarget -ServiceNamespace "AppStream"
```
**Output:**  

```
CreationTime      : 11/7/2019 2:30:03 AM
MaxCapacity       : 5
MinCapacity       : 1
ResourceId        : fleet/Test
RoleARN           : arn:aws:iam::012345678912:role/aws-service-role/appstream.application-autoscaling.amazonaws.com/AWSServiceRoleForApplicationAutoScaling_AppStreamFleet
ScalableDimension : appstream:fleet:DesiredCapacity
ServiceNamespace  : appstream
SuspendedState    : Amazon.ApplicationAutoScaling.Model.SuspendedState
```
+  Untuk detail API, lihat [DescribeScalableTargets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-AASScalingActivity`
<a name="application-auto-scaling_DescribeScalingActivities_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-AASScalingActivity`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memberikan informasi deskriptif tentang aktivitas penskalaan di namespace yang ditentukan dari enam minggu sebelumnya.**  

```
Get-AASScalingActivity -ServiceNamespace AppStream
```
**Output:**  

```
ActivityId        : 2827409f-b639-4cdb-a957-8055d5d07434
Cause             : monitor alarm Appstream2-MyFleet-default-scale-in-Alarm in state ALARM triggered policy default-scale-in
Description       : Setting desired capacity to 2.
Details           :
EndTime           : 12/14/2019 11:32:49 AM
ResourceId        : fleet/MyFleet
ScalableDimension : appstream:fleet:DesiredCapacity
ServiceNamespace  : appstream
StartTime         : 12/14/2019 11:32:14 AM
StatusCode        : Successful
StatusMessage     : Successfully set desired capacity to 2. Change successfully fulfilled by appstream.
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-AASScalingPolicy`
<a name="application-auto-scaling_DescribeScalingPolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-AASScalingPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menjelaskan kebijakan penskalaan Application Auto Scaling untuk namespace layanan yang ditentukan.**  

```
Get-AASScalingPolicy -ServiceNamespace AppStream
```
**Output:**  

```
Alarms                                   : {Appstream2-LabFleet-default-scale-out-Alarm}
CreationTime                             : 9/3/2019 2:48:15 AM
PolicyARN                                : arn:aws:autoscaling:us-west-2:012345678912:scalingPolicy:5659b069-b5cd-4af1-9f7f-3e956d36233e:resource/appstream/fleet/LabFleet:
                                           policyName/default-scale-out
PolicyName                               : default-scale-out
PolicyType                               : StepScaling
ResourceId                               : fleet/LabFleet
ScalableDimension                        : appstream:fleet:DesiredCapacity
ServiceNamespace                         : appstream
StepScalingPolicyConfiguration           : Amazon.ApplicationAutoScaling.Model.StepScalingPolicyConfiguration
TargetTrackingScalingPolicyConfiguration :

Alarms                                   : {Appstream2-LabFleet-default-scale-in-Alarm}
CreationTime                             : 9/3/2019 2:48:15 AM
PolicyARN                                : arn:aws:autoscaling:us-west-2:012345678912:scalingPolicy:5659b069-b5cd-4af1-9f7f-3e956d36233e:resource/appstream/fleet/LabFleet:
                                           policyName/default-scale-in
PolicyName                               : default-scale-in
PolicyType                               : StepScaling
ResourceId                               : fleet/LabFleet
ScalableDimension                        : appstream:fleet:DesiredCapacity
ServiceNamespace                         : appstream
StepScalingPolicyConfiguration           : Amazon.ApplicationAutoScaling.Model.StepScalingPolicyConfiguration
TargetTrackingScalingPolicyConfiguration :
```
+  Untuk detail API, lihat [DescribeScalingPolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-AASScheduledAction`
<a name="application-auto-scaling_DescribeScheduledActions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-AASScheduledAction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mencantumkan tindakan yang dijadwalkan untuk grup Auto Scaling Anda yang belum berjalan atau yang belum mencapai waktu akhirnya.**  

```
Get-AASScheduledAction -ServiceNamespace AppStream
```
**Output:**  

```
CreationTime         : 12/22/2019 9:25:52 AM
EndTime              : 1/1/0001 12:00:00 AM
ResourceId           : fleet/MyFleet
ScalableDimension    : appstream:fleet:DesiredCapacity
ScalableTargetAction : Amazon.ApplicationAutoScaling.Model.ScalableTargetAction
Schedule             : cron(0 0 8 ? * MON-FRI *)
ScheduledActionARN   : arn:aws:autoscaling:us-west-2:012345678912:scheduledAction:4897ca24-3caa-4bf1-8484-851a089b243c:resource/appstream/fleet/MyFleet:scheduledActionName
                       /WeekDaysFleetScaling
ScheduledActionName  : WeekDaysFleetScaling
ServiceNamespace     : appstream
StartTime            : 1/1/0001 12:00:00 AM
```
+  Untuk detail API, lihat [DescribeScheduledActions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-AASScalableTarget`
<a name="application-auto-scaling_DeregisterScalableTarget_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-AASScalableTarget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini membatalkan pendaftaran target yang dapat diskalakan Application Auto Scaling. Membatalkan pendaftaran target yang dapat diskalakan akan menghapus kebijakan penskalaan yang terkait dengannya.**  

```
Remove-AASScalableTarget -ResourceId fleet/MyFleet -ScalableDimension appstream:fleet:DesiredCapacity -ServiceNamespace AppStream
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-AASScalableTarget (DeregisterScalableTarget)" on target "fleet/MyFleet".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeregisterScalableTarget](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-AASScalingPolicy`
<a name="application-auto-scaling_DeleteScalingPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-AASScalingPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menghapus kebijakan penskalaan yang ditentukan untuk target scalable Application Auto Scaling.**  

```
Remove-AASScalingPolicy -ServiceNamespace AppStream -PolicyName "default-scale-out" -ResourceId fleet/Test -ScalableDimension appstream:fleet:DesiredCapacity
```
+  Untuk detail API, lihat [DeleteScalingPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-AASScheduledAction`
<a name="application-auto-scaling_DeleteScheduledAction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-AASScheduledAction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menghapus tindakan terjadwal yang ditentukan untuk target scalable Application Auto Scaling.**  

```
Remove-AASScheduledAction -ServiceNamespace AppStream -ScheduledActionName WeekDaysFleetScaling -ResourceId fleet/MyFleet -ScalableDimension appstream:fleet:DesiredCapacity
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-AASScheduledAction (DeleteScheduledAction)" on target "WeekDaysFleetScaling".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteScheduledAction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-AASScalingPolicy`
<a name="application-auto-scaling_PutScalingPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-AASScalingPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini membuat atau memperbarui kebijakan untuk target scalable Application Auto Scaling. Setiap target yang dapat diskalakan diidentifikasi oleh namespace layanan, ID sumber daya, dan dimensi yang dapat diskalakan.**  

```
Set-AASScalingPolicy -ServiceNamespace AppStream -PolicyName ASFleetScaleInPolicy -PolicyType StepScaling  -ResourceId fleet/MyFleet -ScalableDimension appstream:fleet:DesiredCapacity -StepScalingPolicyConfiguration_AdjustmentType ChangeInCapacity -StepScalingPolicyConfiguration_Cooldown 360 -StepScalingPolicyConfiguration_MetricAggregationType Average -StepScalingPolicyConfiguration_StepAdjustments @{ScalingAdjustment = -1; MetricIntervalUpperBound = 0}
```
**Output:**  

```
Alarms    PolicyARN
------    ---------
{}        arn:aws:autoscaling:us-west-2:012345678912:scalingPolicy:4897ca24-3caa-4bf1-8484-851a089b243c:resource/appstream/fleet/MyFleet:policyName/ASFleetScaleInPolicy
```
+  Untuk detail API, lihat [PutScalingPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-AASScheduledAction`
<a name="application-auto-scaling_PutScheduledAction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-AASScheduledAction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini membuat atau memperbarui tindakan terjadwal untuk target scalable Application Auto Scaling. Setiap target yang dapat diskalakan diidentifikasi oleh namespace layanan, ID sumber daya, dan dimensi yang dapat diskalakan.**  

```
Set-AASScheduledAction -ServiceNamespace AppStream -ResourceId fleet/MyFleet -Schedule "cron(0 0 8 ? * MON-FRI *)" -ScalableDimension appstream:fleet:DesiredCapacity -ScheduledActionName WeekDaysFleetScaling -ScalableTargetAction_MinCapacity 5 -ScalableTargetAction_MaxCapacity 10
```
+  Untuk detail API, lihat [PutScheduledAction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# WorkSpaces Contoh aplikasi menggunakan Alat untuk PowerShell V5
<a name="powershell_5_appstream_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan WorkSpaces Aplikasi.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-APSResourceTag`
<a name="appstream_TagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-APSResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan Tag sumber daya ke AppStream sumber daya**  

```
Add-APSResourceTag -ResourceArn arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest -Tag @{StackState='Test'} -Select ^Tag
```
**Output:**  

```
Name                           Value
----                           -----
StackState                     Test
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Copy-APSImage`
<a name="appstream_CopyImage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-APSImage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini menyalin gambar ke wilayah lain**  

```
Copy-APSImage -DestinationImageName TestImageCopy -DestinationRegion us-west-2 -SourceImageName Powershell
```
**Output:**  

```
TestImageCopy
```
+  Untuk detail API, lihat [CopyImage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-APSUSer`
<a name="appstream_DisableUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-APSUSer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan pengguna di USERPOOL**  

```
Disable-APSUser -AuthenticationType USERPOOL -UserName TestUser@lab.com
```
+  Untuk detail API, lihat [DisableUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-APSUser`
<a name="appstream_EnableUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-APSUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan pengguna yang dinonaktifkan di USERPOOL**  

```
Enable-APSUser -AuthenticationType USERPOOL -UserName TestUser@lab.com
```
+  Untuk detail API, lihat [EnableUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSAssociatedFleetList`
<a name="appstream_ListAssociatedFleets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSAssociatedFleetList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan armada yang terkait dengan tumpukan**  

```
Get-APSAssociatedFleetList -StackName PowershellStack
```
**Output:**  

```
PowershellFleet
```
+  Untuk detail API, lihat [ListAssociatedFleets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSAssociatedStackList`
<a name="appstream_ListAssociatedStacks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSAssociatedStackList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan tumpukan yang terkait dengan armada**  

```
Get-APSAssociatedStackList -FleetName PowershellFleet
```
**Output:**  

```
PowershellStack
```
+  Untuk detail API, lihat [ListAssociatedStacks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSDirectoryConfigList`
<a name="appstream_DescribeDirectoryConfigs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSDirectoryConfigList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan Konfigurasi Direktori yang dibuat di AppStream**  

```
Get-APSDirectoryConfigList | Select DirectoryName, OrganizationalUnitDistinguishedNames, CreatedTime
```
**Output:**  

```
DirectoryName OrganizationalUnitDistinguishedNames CreatedTime
------------- ------------------------------------ -----------
Test.com      {OU=AppStream,DC=Test,DC=com}    9/6/2019 10:56:40 AM
contoso.com   {OU=AppStream,OU=contoso,DC=contoso,DC=com}  8/9/2019 9:08:50 AM
```
+  Untuk detail API, lihat [DescribeDirectoryConfigs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSFleetList`
<a name="appstream_DescribeFleets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSFleetList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan detail armada**  

```
Get-APSFleetList -Name Test
```
**Output:**  

```
Arn                            : arn:aws:appstream:us-east-1:1234567890:fleet/Test
ComputeCapacityStatus          : Amazon.AppStream.Model.ComputeCapacityStatus
CreatedTime                    : 9/12/2019 5:00:45 PM
Description                    : Test
DisconnectTimeoutInSeconds     : 900
DisplayName                    : Test
DomainJoinInfo                 :
EnableDefaultInternetAccess    : False
FleetErrors                    : {}
FleetType                      : ON_DEMAND
IamRoleArn                     :
IdleDisconnectTimeoutInSeconds : 900
ImageArn                       : arn:aws:appstream:us-east-1:1234567890:image/Test
ImageName                      : Test
InstanceType                   : stream.standard.medium
MaxUserDurationInSeconds       : 57600
Name                           : Test
State                          : STOPPED
VpcConfig                      : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [DescribeFleets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSImageBuilderList`
<a name="appstream_DescribeImageBuilders_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSImageBuilderList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan rincian ImageBuilder**  

```
Get-APSImageBuilderList -Name TestImage
```
**Output:**  

```
AccessEndpoints             : {}
AppstreamAgentVersion       : 06-19-2019
Arn                         : arn:aws:appstream:us-east-1:1234567890:image-builder/TestImage
CreatedTime                 : 1/14/2019 4:33:05 AM
Description                 :
DisplayName                 : TestImage
DomainJoinInfo              :
EnableDefaultInternetAccess : False
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-east-1::image/Base-Image-Builder-05-02-2018
ImageBuilderErrors          : {}
InstanceType                : stream.standard.large
Name                        : TestImage
NetworkAccessConfiguration  : Amazon.AppStream.Model.NetworkAccessConfiguration
Platform                    : WINDOWS
State                       : STOPPED
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [DescribeImageBuilders](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSImageList`
<a name="appstream_DescribeImages_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSImageList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan AppStream Gambar pribadi**  

```
Get-APSImageList -Type PRIVATE | select DisplayName, ImageBuilderName, Visibility, arn
```
**Output:**  

```
DisplayName          ImageBuilderName      Visibility Arn
-----------          ----------------      ---------- ---
OfficeApps           OfficeApps            PRIVATE    arn:aws:appstream:us-east-1:123456789012:image/OfficeApps
SessionScriptV2      SessionScriptTest     PRIVATE    arn:aws:appstream:us-east-1:123456789012:image/SessionScriptV2
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSImagePermission`
<a name="appstream_DescribeImagePermissions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSImagePermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan izin Gambar pada Gambar bersama AppStream **  

```
Get-APSImagePermission -Name Powershell  | select SharedAccountId, @{n="AllowFleet";e={$_.ImagePermissions.AllowFleet}}, @{n="AllowImageBuilder";e={$_.ImagePermissions.AllowImageBuilder}}
```
**Output:**  

```
SharedAccountId AllowFleet AllowImageBuilder
--------------- ---------- -----------------
123456789012          True              True
```
+  Untuk detail API, lihat [DescribeImagePermissions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSSessionList`
<a name="appstream_DescribeSessions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSSessionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan daftar sesi ke armada**  

```
Get-APSSessionList -FleetName PowershellFleet -StackName PowershellStack
```
**Output:**  

```
AuthenticationType         : API
ConnectionState            : CONNECTED
FleetName                  : PowershellFleet
Id                         : d8987c70-4394-4324-a396-2d485c26f2a2
MaxExpirationTime          : 12/27/2019 4:54:07 AM
NetworkAccessConfiguration : Amazon.AppStream.Model.NetworkAccessConfiguration
StackName                  : PowershellStack
StartTime                  : 12/26/2019 12:54:12 PM
State                      : ACTIVE
UserId                     : Test
```
+  Untuk detail API, lihat [DescribeSessions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSStackList`
<a name="appstream_DescribeStacks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSStackList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan daftar AppStream Stack**  

```
Get-APSStackList | Select DisplayName, Arn, CreatedTime
```
**Output:**  

```
DisplayName                   Arn                                                                          CreatedTime
-----------                   ---                                                                          -----------
PowershellStack               arn:aws:appstream:us-east-1:123456789012:stack/PowershellStack               4/24/2019 8:49:29 AM
SessionScriptTest             arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest             9/12/2019 3:23:12 PM
```
+  Untuk detail API, lihat [DescribeStacks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSTagsForResourceList`
<a name="appstream_ListTagsForResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSTagsForResourceList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan tag pada sumber AppStream daya**  

```
Get-APSTagsForResourceList -ResourceArn arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest
```
**Output:**  

```
Key        Value
---        -----
StackState Test
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSUsageReportSubscription`
<a name="appstream_DescribeUsageReportSubscriptions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSUsageReportSubscription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan detail AppStreamUsageReport konfigurasi**  

```
Get-APSUsageReportSubscription
```
**Output:**  

```
LastGeneratedReportDate S3BucketName                                   Schedule SubscriptionErrors
----------------------- ------------                                   -------- ------------------
1/1/0001 12:00:00 AM    appstream-logs-us-east-1-123456789012-sik1hnxe DAILY    {}
```
+  Untuk detail API, lihat [DescribeUsageReportSubscriptions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSUser`
<a name="appstream_DescribeUsers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan daftar pengguna dengan status diaktifkan**  

```
Get-APSUser -AuthenticationType USERPOOL | Select-Object UserName, AuthenticationType, Enabled
```
**Output:**  

```
UserName                   AuthenticationType Enabled
--------                   ------------------ -------
foo1@contoso.com USERPOOL              True
foo2@contoso.com        USERPOOL              True
foo3@contoso.com    USERPOOL              True
foo4@contoso.com   USERPOOL              True
foo5@contoso.com         USERPOOL              True
```
+  Untuk detail API, lihat [DescribeUsers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-APSUserStackAssociation`
<a name="appstream_DescribeUserStackAssociations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-APSUserStackAssociation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan daftar pengguna yang ditugaskan ke tumpukan**  

```
Get-APSUserStackAssociation -StackName PowershellStack
```
**Output:**  

```
AuthenticationType SendEmailNotification StackName       UserName
------------------ --------------------- ---------       --------
USERPOOL           False                 PowershellStack TestUser1@lab.com
USERPOOL           False                 PowershellStack TestUser2@lab.com
```
+  Untuk detail API, lihat [DescribeUserStackAssociations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-APSDirectoryConfig`
<a name="appstream_CreateDirectoryConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSDirectoryConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat konfigurasi direktori di AppStream**  

```
New-APSDirectoryConfig -ServiceAccountCredentials_AccountName contoso\ServiceAccount -ServiceAccountCredentials_AccountPassword MyPass -DirectoryName contoso.com -OrganizationalUnitDistinguishedName "OU=AppStream,OU=Contoso,DC=Contoso,DC=com"
```
**Output:**  

```
CreatedTime            DirectoryName OrganizationalUnitDistinguishedNames        ServiceAccountCredentials
-----------            ------------- ------------------------------------        -------------------------
12/27/2019 11:00:30 AM contoso.com   {OU=AppStream,OU=Contoso,DC=Contoso,DC=com} Amazon.AppStream.Model.ServiceAccountCredentials
```
+  Untuk detail API, lihat [CreateDirectoryConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-APSFleet`
<a name="appstream_CreateFleet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSFleet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini membuat AppStream armada baru**  

```
New-APSFleet -ComputeCapacity_DesiredInstance 1 -InstanceType stream.standard.medium -Name TestFleet -DisplayName TestFleet -FleetType ON_DEMAND -EnableDefaultInternetAccess $True -VpcConfig_SubnetIds "subnet-123ce32","subnet-a1234cfd" -VpcConfig_SecurityGroupIds sg-4d012a34 -ImageName SessionScriptTest -Region us-west-2
```
**Output:**  

```
Arn                            : arn:aws:appstream:us-west-2:123456789012:fleet/TestFleet
ComputeCapacityStatus          : Amazon.AppStream.Model.ComputeCapacityStatus
CreatedTime                    : 12/27/2019 11:24:42 AM
Description                    :
DisconnectTimeoutInSeconds     : 900
DisplayName                    : TestFleet
DomainJoinInfo                 :
EnableDefaultInternetAccess    : True
FleetErrors                    : {}
FleetType                      : ON_DEMAND
IamRoleArn                     :
IdleDisconnectTimeoutInSeconds : 0
ImageArn                       : arn:aws:appstream:us-west-2:123456789012:image/SessionScriptTest
ImageName                      : SessionScriptTest
InstanceType                   : stream.standard.medium
MaxUserDurationInSeconds       : 57600
Name                           : TestFleet
State                          : STOPPED
VpcConfig                      : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [CreateFleet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-APSImageBuilder`
<a name="appstream_CreateImageBuilder_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSImageBuilder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat Image Builder di AppStream**  

```
New-APSImageBuilder -InstanceType stream.standard.medium -Name TestIB -DisplayName TestIB -ImageName AppStream-WinServer2012R2-12-12-2019 -EnableDefaultInternetAccess $True -VpcConfig_SubnetId subnet-a1234cfd -VpcConfig_SecurityGroupIds sg-2d012a34 -Region us-west-2
```
**Output:**  

```
AccessEndpoints             : {}
AppstreamAgentVersion       : 12-16-2019
Arn                         : arn:aws:appstream:us-west-2:123456789012:image-builder/TestIB
CreatedTime                 : 12/27/2019 11:39:24 AM
Description                 :
DisplayName                 : TestIB
DomainJoinInfo              :
EnableDefaultInternetAccess : True
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-west-2::image/AppStream-WinServer2012R2-12-12-2019
ImageBuilderErrors          : {}
InstanceType                : stream.standard.medium
Name                        : TestIB
NetworkAccessConfiguration  :
Platform                    : WINDOWS
State                       : PENDING
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [CreateImageBuilder](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-APSImageBuilderStreamingURL`
<a name="appstream_CreateImageBuilderStreamingURL_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSImageBuilderStreamingURL`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat URL ImageBuilder streaming dengan validitas 2 jam**  

```
New-APSImageBuilderStreamingURL -Name TestIB -Validity 7200 -Region us-west-2
```
**Output:**  

```
Expires               StreamingURL
-------               ------------
12/27/2019 1:49:13 PM https://appstream2.us-west-2.aws.amazon.com/authenticate?parameters=eyJ0eXBlIjoiQURNSU4iLCJleHBpcmVzIjoiMTU3NzQ1NDU1MyIsImF3c0FjY291bnRJZCI6IjM5MzQwMzgxMTQwNyIsInVzZXJJZCI6ImFkbWluIiwiY2F
```
+  Untuk detail API, lihat [CreateImageBuilderStreamingURL](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-APSStack`
<a name="appstream_CreateStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat AppStream Stack baru**  

```
New-APSStack -Name TestStack -DisplayName TestStack -ApplicationSettings_Enabled $True -ApplicationSettings_SettingsGroup TestStack -Region us-west-2
```
**Output:**  

```
AccessEndpoints     : {}
ApplicationSettings : Amazon.AppStream.Model.ApplicationSettingsResponse
Arn                 : arn:aws:appstream:us-west-2:123456789012:stack/TestStack
CreatedTime         : 12/27/2019 12:34:19 PM
Description         :
DisplayName         : TestStack
EmbedHostDomains    : {}
FeedbackURL         :
Name                : TestStack
RedirectURL         :
StackErrors         : {}
StorageConnectors   : {}
UserSettings        : {Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting}
```
+  Untuk detail API, lihat [CreateStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-APSStreamingURL`
<a name="appstream_CreateStreamingURL_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSStreamingURL`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat URL streaming Stack**  

```
New-APSStreamingURL -StackName SessionScriptTest -FleetName SessionScriptNew -UserId TestUser
```
**Output:**  

```
Expires                StreamingURL
-------                ------------
12/27/2019 12:43:37 PM https://appstream2.us-east-1.aws.amazon.com/authenticate?parameters=eyJ0eXBlIjoiRU5EX1VTRVIiLCJleHBpcmVzIjoiMTU3NzQ1MDYxNyIsImF3c0FjY291bnRJZCI6IjM5MzQwMzgxMTQwNyIsInVzZXJJZCI6IlRlc3RVc2
```
+  Untuk detail API, lihat [CreateStreamingURL](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-APSUsageReportSubscription`
<a name="appstream_CreateUsageReportSubscription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSUsageReportSubscription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaktifkan Laporan AppStream Penggunaan**  

```
New-APSUsageReportSubscription
```
**Output:**  

```
S3BucketName                                   Schedule
------------                                   --------
appstream-logs-us-east-1-123456789012-sik2hnxe DAILY
```
+  Untuk detail API, lihat [CreateUsageReportSubscription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-APSUser`
<a name="appstream_CreateUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-APSUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat pengguna di USERPOOL**  

```
New-APSUser -UserName Test@lab.com -AuthenticationType USERPOOL -FirstName 'kt' -LastName 'aws' -Select ^UserName
```
**Output:**  

```
Test@lab.com
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-APSFleet`
<a name="appstream_AssociateFleet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-APSFleet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan armada dengan tumpukan**  

```
Register-APSFleet -StackName TestStack -FleetName TestFleet -Region us-west-2
```
+  Untuk detail API, lihat [AssociateFleet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-APSUserStackBatch`
<a name="appstream_BatchAssociateUserStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-APSUserStackBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menetapkan tumpukan ke pengguna di USERPOOL**  

```
Register-APSUserStackBatch -UserStackAssociation @{AuthenticationType="USERPOOL";SendEmailNotification=$False;StackName="PowershellStack";UserName="TestUser1@lab.com"}
```
+  Untuk detail API, lihat [BatchAssociateUserStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSDirectoryConfig`
<a name="appstream_DeleteDirectoryConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSDirectoryConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus konfigurasi AppStream Direktori**  

```
Remove-APSDirectoryConfig -DirectoryName contoso.com
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSDirectoryConfig (DeleteDirectoryConfig)" on target "contoso.com".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteDirectoryConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSFleet`
<a name="appstream_DeleteFleet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSFleet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus menghapus armada AppStream **  

```
Remove-APSFleet -Name TestFleet -Region us-west-2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSFleet (DeleteFleet)" on target "TestFleet".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteFleet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSImage`
<a name="appstream_DeleteImage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSImage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus Gambar**  

```
Remove-APSImage -Name TestImage -Region us-west-2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSImage (DeleteImage)" on target "TestImage".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A

Applications                : {}
AppstreamAgentVersion       : LATEST
Arn                         : arn:aws:appstream:us-west-2:123456789012:image/TestImage
BaseImageArn                :
CreatedTime                 : 12/27/2019 1:34:10 PM
Description                 :
DisplayName                 : TestImage
ImageBuilderName            :
ImageBuilderSupported       : True
ImagePermissions            :
Name                        : TestImage
Platform                    : WINDOWS
PublicBaseImageReleasedDate : 6/12/2018 12:00:00 AM
State                       : AVAILABLE
StateChangeReason           :
Visibility                  : PRIVATE
```
+  Untuk detail API, lihat [DeleteImage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSImageBuilder`
<a name="appstream_DeleteImageBuilder_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSImageBuilder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus ImageBuilder**  

```
Remove-APSImageBuilder -Name TestIB -Region us-west-2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSImageBuilder (DeleteImageBuilder)" on target "TestIB".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A

AccessEndpoints             : {}
AppstreamAgentVersion       : 12-16-2019
Arn                         : arn:aws:appstream:us-west-2:123456789012:image-builder/TestIB
CreatedTime                 : 12/27/2019 11:39:24 AM
Description                 :
DisplayName                 : TestIB
DomainJoinInfo              :
EnableDefaultInternetAccess : True
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-west-2::image/AppStream-WinServer2012R2-12-12-2019
ImageBuilderErrors          : {}
InstanceType                : stream.standard.medium
Name                        : TestIB
NetworkAccessConfiguration  : Amazon.AppStream.Model.NetworkAccessConfiguration
Platform                    : WINDOWS
State                       : DELETING
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [DeleteImageBuilder](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSImagePermission`
<a name="appstream_DeleteImagePermissions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSImagePermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus izin Gambar**  

```
Remove-APSImagePermission -Name Powershell -SharedAccountId 123456789012
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSImagePermission (DeleteImagePermissions)" on target "Powershell".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteImagePermissions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSResourceTag`
<a name="appstream_UntagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag sumber daya dari AppStream sumber daya**  

```
Remove-APSResourceTag -ResourceArn arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest -TagKey StackState
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSResourceTag (UntagResource)" on target "arn:aws:appstream:us-east-1:123456789012:stack/SessionScriptTest".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSStack`
<a name="appstream_DeleteStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus Stack**  

```
Remove-APSStack -Name TestStack -Region us-west-2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSStack (DeleteStack)" on target "TestStack".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSUsageReportSubscription`
<a name="appstream_DeleteUsageReportSubscription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSUsageReportSubscription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan langganan Laporan AppStream Penggunaan**  

```
Remove-APSUsageReportSubscription
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSUsageReportSubscription (DeleteUsageReportSubscription)" on target "".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteUsageReportSubscription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-APSUser`
<a name="appstream_DeleteUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-APSUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus pengguna dari USERPOOL**  

```
Remove-APSUser -UserName TestUser@lab.com -AuthenticationType USERPOOL
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-APSUser (DeleteUser)" on target "TestUser@lab.com".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): A
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Revoke-APSSession`
<a name="appstream_ExpireSession_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Revoke-APSSession`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini mencabut sesi ke AppStream armada**  

```
Revoke-APSSession -SessionId 6cd2f9a3-f948-4aa1-8014-8a7dcde14877
```
+  Untuk detail API, lihat [ExpireSession](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-APSFleet`
<a name="appstream_StartFleet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-APSFleet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini memulai armada**  

```
Start-APSFleet -Name PowershellFleet
```
+  Untuk detail API, lihat [StartFleet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-APSImageBuilder`
<a name="appstream_StartImageBuilder_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-APSImageBuilder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini memulai ImageBuilder**  

```
Start-APSImageBuilder -Name TestImage
```
**Output:**  

```
AccessEndpoints             : {}
AppstreamAgentVersion       : 06-19-2019
Arn                         : arn:aws:appstream:us-east-1:123456789012:image-builder/TestImage
CreatedTime                 : 1/14/2019 4:33:05 AM
Description                 :
DisplayName                 : TestImage
DomainJoinInfo              :
EnableDefaultInternetAccess : False
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-east-1::image/Base-Image-Builder-05-02-2018
ImageBuilderErrors          : {}
InstanceType                : stream.standard.large
Name                        : TestImage
NetworkAccessConfiguration  : Amazon.AppStream.Model.NetworkAccessConfiguration
Platform                    : WINDOWS
State                       : PENDING
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [StartImageBuilder](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-APSFleet`
<a name="appstream_StopFleet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-APSFleet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini menghentikan armada**  

```
Stop-APSFleet -Name PowershellFleet
```
+  Untuk detail API, lihat [StopFleet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-APSImageBuilder`
<a name="appstream_StopImageBuilder_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-APSImageBuilder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini menghentikan ImageBuilder**  

```
Stop-APSImageBuilder -Name TestImage
```
**Output:**  

```
AccessEndpoints             : {}
AppstreamAgentVersion       : 06-19-2019
Arn                         : arn:aws:appstream:us-east-1:123456789012:image-builder/TestImage
CreatedTime                 : 1/14/2019 4:33:05 AM
Description                 :
DisplayName                 : TestImage
DomainJoinInfo              :
EnableDefaultInternetAccess : False
IamRoleArn                  :
ImageArn                    : arn:aws:appstream:us-east-1::image/Base-Image-Builder-05-02-2018
ImageBuilderErrors          : {}
InstanceType                : stream.standard.large
Name                        : TestImage
NetworkAccessConfiguration  : Amazon.AppStream.Model.NetworkAccessConfiguration
Platform                    : WINDOWS
State                       : STOPPING
StateChangeReason           :
VpcConfig                   : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [StopImageBuilder](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-APSFleet`
<a name="appstream_DisassociateFleet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-APSFleet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan registrasi armada dari tumpukan**  

```
Unregister-APSFleet -StackName TestStack -FleetName TestFleet -Region us-west-2
```
+  Untuk detail API, lihat [DisassociateFleet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-APSUserStackBatch`
<a name="appstream_BatchDisassociateUserStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-APSUserStackBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus pengguna dari Stack yang ditetapkan**  

```
Unregister-APSUserStackBatch -UserStackAssociation @{AuthenticationType="USERPOOL";SendEmailNotification=$False;StackName="PowershellStack";UserName="TestUser1@lab.com"}
```
+  Untuk detail API, lihat [BatchDisassociateUserStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-APSDirectoryConfig`
<a name="appstream_UpdateDirectoryConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-APSDirectoryConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui konfigurasi Direktori yang dibuat AppStream**  

```
Update-APSDirectoryConfig -ServiceAccountCredentials_AccountName contoso\ServiceAccount -ServiceAccountCredentials_AccountPassword MyPass@1$@# -DirectoryName contoso.com -OrganizationalUnitDistinguishedName "OU=AppStreamNew,OU=Contoso,DC=Contoso,DC=com"
```
**Output:**  

```
CreatedTime           DirectoryName OrganizationalUnitDistinguishedNames           ServiceAccountCredentials
-----------           ------------- ------------------------------------           -------------------------
12/27/2019 3:50:02 PM contoso.com   {OU=AppStreamNew,OU=Contoso,DC=Contoso,DC=com} Amazon.AppStream.Model.ServiceAccountCredentials
```
+  Untuk detail API, lihat [UpdateDirectoryConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-APSFleet`
<a name="appstream_UpdateFleet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-APSFleet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui properti armada**  

```
Update-APSFleet -Name PowershellFleet -EnableDefaultInternetAccess $True -DisconnectTimeoutInSecond 950
```
**Output:**  

```
Arn                            : arn:aws:appstream:us-east-1:123456789012:fleet/PowershellFleet
ComputeCapacityStatus          : Amazon.AppStream.Model.ComputeCapacityStatus
CreatedTime                    : 4/24/2019 8:39:41 AM
Description                    : PowershellFleet
DisconnectTimeoutInSeconds     : 950
DisplayName                    : PowershellFleet
DomainJoinInfo                 :
EnableDefaultInternetAccess    : True
FleetErrors                    : {}
FleetType                      : ON_DEMAND
IamRoleArn                     :
IdleDisconnectTimeoutInSeconds : 900
ImageArn                       : arn:aws:appstream:us-east-1:123456789012:image/Powershell
ImageName                      : Powershell
InstanceType                   : stream.standard.medium
MaxUserDurationInSeconds       : 57600
Name                           : PowershellFleet
State                          : STOPPED
VpcConfig                      : Amazon.AppStream.Model.VpcConfig
```
+  Untuk detail API, lihat [UpdateFleet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-APSImagePermission`
<a name="appstream_UpdateImagePermissions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-APSImagePermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membagikan AppStream Gambar dengan akun lain**  

```
Update-APSImagePermission -Name Powershell -SharedAccountId 123456789012 -ImagePermissions_AllowFleet $True -ImagePermissions_AllowImageBuilder $True
```
+  Untuk detail API, lihat [UpdateImagePermissions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-APSStack`
<a name="appstream_UpdateStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-APSStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui (mengaktifkan) Persistensi pengaturan aplikasi dan Folder Home pada Stack**  

```
Update-APSStack -Name PowershellStack -ApplicationSettings_Enabled $True -ApplicationSettings_SettingsGroup PowershellStack -StorageConnector @{ConnectorType="HOMEFOLDERS"}
```
**Output:**  

```
AccessEndpoints     : {}
ApplicationSettings : Amazon.AppStream.Model.ApplicationSettingsResponse
Arn                 : arn:aws:appstream:us-east-1:123456789012:stack/PowershellStack
CreatedTime         : 4/24/2019 8:49:29 AM
Description         : PowershellStack
DisplayName         : PowershellStack
EmbedHostDomains    : {}
FeedbackURL         :
Name                : PowershellStack
RedirectURL         :
StackErrors         : {}
StorageConnectors   : {Amazon.AppStream.Model.StorageConnector, Amazon.AppStream.Model.StorageConnector}
UserSettings        : {Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting, Amazon.AppStream.Model.UserSetting}
```
+  Untuk detail API, lihat [UpdateStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Aurora menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Aurora.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-RDSOrderableDBInstanceOption`
<a name="aurora_DescribeOrderableDBInstanceOptions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RDSOrderableDBInstanceOption`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan versi mesin DB yang mendukung kelas instans DB tertentu dalam file Wilayah AWS.**  

```
$params = @{
  Engine = 'aurora-postgresql'
  DBInstanceClass = 'db.r5.large'
  Region = 'us-east-1'
}
Get-RDSOrderableDBInstanceOption @params
```
**Contoh 2: Contoh ini mencantumkan kelas instans DB yang didukung untuk versi mesin DB tertentu dalam file Wilayah AWS.**  

```
$params = @{
  Engine = 'aurora-postgresql'
  EngineVersion = '13.6'
  Region = 'us-east-1'
}
Get-RDSOrderableDBInstanceOption @params
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Auto Scaling menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Auto Scaling.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-ASLoadBalancer`
<a name="auto-scaling_AttachLoadBalancers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ASLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan penyeimbang beban yang ditentukan ke grup Auto Scaling yang ditentukan.**  

```
Add-ASLoadBalancer -LoadBalancerName my-lb -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [AttachLoadBalancers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Complete-ASLifecycleAction`
<a name="auto-scaling_CompleteLifecycleAction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Complete-ASLifecycleAction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melengkapi tindakan siklus hidup yang ditentukan.**  

```
Complete-ASLifecycleAction -LifecycleHookName myLifecycleHook -AutoScalingGroupName my-asg -LifecycleActionResult CONTINUE -LifecycleActionToken bcd2f1b8-9a78-44d3-8a7a-4dd07d7cf635
```
+  Untuk detail API, lihat [CompleteLifecycleAction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-ASMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-ASMetricsCollection`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan pemantauan metrik yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Disable-ASMetricsCollection -AutoScalingGroupName my-asg -Metric @("GroupMinSize", "GroupMaxSize")
```
**Contoh 2: Contoh ini menonaktifkan pemantauan semua metrik untuk grup Auto Scaling yang ditentukan.**  

```
Disable-ASMetricsCollection -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Dismount-ASInstance`
<a name="auto-scaling_DetachInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-ASInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan instance yang ditentukan dari grup Auto Scaling yang ditentukan dan mengurangi kapasitas yang diinginkan sehingga Auto Scaling tidak meluncurkan instance pengganti.**  

```
Dismount-ASInstance -InstanceId i-93633f9b -AutoScalingGroupName my-asg -ShouldDecrementDesiredCapacity $true
```
**Output:**  

```
ActivityId           : 06733445-ce94-4039-be1b-b9f1866e276e
AutoScalingGroupName : my-asg
Cause                : At 2015-11-20T22:34:59Z instance i-93633f9b was detached in response to a user request, shrinking
                       the capacity from 2 to 1.
Description          : Detaching EC2 instance: i-93633f9b
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 50
StartTime            : 11/20/2015 2:34:59 PM
StatusCode           : InProgress
StatusMessage        :
```
**Contoh 2: Contoh ini melepaskan instance yang ditentukan dari grup Auto Scaling yang ditentukan tanpa mengurangi kapasitas yang diinginkan. Auto Scaling meluncurkan instance pengganti.**  

```
Dismount-ASInstance -InstanceId i-7bf746a2 -AutoScalingGroupName my-asg -ShouldDecrementDesiredCapacity $false
```
**Output:**  

```
ActivityId           : f43a3cd4-d38c-4af7-9fe0-d76ec2307b6d
AutoScalingGroupName : my-asg
Cause                : At 2015-11-20T22:34:59Z instance i-7bf746a2 was detached in response to a user request.
Description          : Detaching EC2 instance: i-7bf746a2
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 50
StartTime            : 11/20/2015 2:34:59 PM
StatusCode           : InProgress
StatusMessage        :
```
+  Untuk detail API, lihat [DetachInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Dismount-ASLoadBalancer`
<a name="auto-scaling_DetachLoadBalancers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-ASLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan penyeimbang beban yang ditentukan dari grup Auto Scaling yang ditentukan.**  

```
Dismount-ASLoadBalancer -LoadBalancerName my-lb -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [DetachLoadBalancers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-ASMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-ASMetricsCollection`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan pemantauan metrik yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Enable-ASMetricsCollection  -Metric @("GroupMinSize", "GroupMaxSize") -AutoScalingGroupName my-asg -Granularity 1Minute
```
**Contoh 2: Contoh ini memungkinkan pemantauan semua metrik untuk grup Auto Scaling yang ditentukan.**  

```
Enable-ASMetricsCollection -AutoScalingGroupName my-asg -Granularity 1Minute
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enter-ASStandby`
<a name="auto-scaling_EnterStandby_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enter-ASStandby`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menempatkan instance yang ditentukan ke mode siaga dan mengurangi kapasitas yang diinginkan sehingga Auto Scaling tidak meluncurkan instance pengganti.**  

```
Enter-ASStandby -InstanceId i-93633f9b -AutoScalingGroupName my-asg -ShouldDecrementDesiredCapacity $true
```
**Output:**  

```
ActivityId           : e36a5a54-ced6-4df8-bd19-708e2a59a649
AutoScalingGroupName : my-asg
Cause                : At 2015-11-22T15:48:06Z instance i-95b8484f was moved to standby in response to a user request,
                       shrinking the capacity from 2 to 1.
Description          : Moving EC2 instance to Standby: i-95b8484f
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 50
StartTime            : 11/22/2015 7:48:06 AM
StatusCode           : InProgress
StatusMessage        :
```
**Contoh 2: Contoh ini menempatkan instance yang ditentukan ke mode siaga tanpa mengurangi kapasitas yang diinginkan. Auto Scaling meluncurkan instance pengganti.**  

```
Enter-ASStandby -InstanceId i-93633f9b -AutoScalingGroupName my-asg -ShouldDecrementDesiredCapacity $false
```
**Output:**  

```
ActivityId           : e36a5a54-ced6-4df8-bd19-708e2a59a649
AutoScalingGroupName : my-asg
Cause                : At 2015-11-22T15:48:06Z instance i-95b8484f was moved to standby in response to a user request.
Description          : Moving EC2 instance to Standby: i-95b8484f
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 50
StartTime            : 11/22/2015 7:48:06 AM
StatusCode           : InProgress
StatusMessage        :
```
+  Untuk detail API, lihat [EnterStandby](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Exit-ASStandby`
<a name="auto-scaling_ExitStandby_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Exit-ASStandby`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memindahkan instance yang ditentukan keluar dari mode siaga.**  

```
Exit-ASStandby -InstanceId i-93633f9b -AutoScalingGroupName my-asg
```
**Output:**  

```
ActivityId           : 1833d3e8-e32f-454e-b731-0670ad4c6934
AutoScalingGroupName : my-asg
Cause                : At 2015-11-22T15:51:21Z instance i-95b8484f was moved out of standby in response to a user 
                       request, increasing the capacity from 1 to 2.
Description          : Moving EC2 instance out of Standby: i-95b8484f
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 30
StartTime            : 11/22/2015 7:51:21 AM
StatusCode           : PreInService
StatusMessage        :
```
+  Untuk detail API, lihat [ExitStandby](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASAccountLimit`
<a name="auto-scaling_DescribeAccountLimits_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAccountLimit`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan batas sumber daya Auto Scaling untuk akun Anda AWS .**  

```
Get-ASAccountLimit
```
**Output:**  

```
MaxNumberOfAutoScalingGroups    : 20
MaxNumberOfLaunchConfigurations : 100
```
+  Untuk detail API, lihat [DescribeAccountLimits](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASAdjustmentType`
<a name="auto-scaling_DescribeAdjustmentTypes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAdjustmentType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan jenis penyesuaian yang didukung oleh Auto Scaling.**  

```
Get-ASAdjustmentType
```
**Output:**  

```
Type
----
ChangeInCapacity
ExactCapacity
PercentChangeInCapacity
```
+  Untuk detail API, lihat [DescribeAdjustmentTypes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASAutoScalingGroup`
<a name="auto-scaling_DescribeAutoScalingGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAutoScalingGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan nama grup Auto Scaling Anda.**  

```
Get-ASAutoScalingGroup | format-table -property AutoScalingGroupName
```
**Output:**  

```
AutoScalingGroupName
--------------------
my-asg-1
my-asg-2
my-asg-3
my-asg-4
my-asg-5
my-asg-6
```
**Contoh 2: Contoh ini menjelaskan grup Auto Scaling yang ditentukan.**  

```
Get-ASAutoScalingGroup -AutoScalingGroupName my-asg-1
```
**Output:**  

```
AutoScalingGroupARN     : arn:aws:autoscaling:us-west-2:123456789012:autoScalingGroup:930d940e-891e-4781-a11a-7b0acd480
                          f03:autoScalingGroupName/my-asg-1
AutoScalingGroupName    : my-asg-1
AvailabilityZones       : {us-west-2b, us-west-2a}
CreatedTime             : 3/1/2015 9:05:31 AM
DefaultCooldown         : 300
DesiredCapacity         : 2
EnabledMetrics          : {}
HealthCheckGracePeriod  : 300
HealthCheckType         : EC2
Instances               : {my-lc}
LaunchConfigurationName : my-lc
LoadBalancerNames       : {}
MaxSize                 : 0
MinSize                 : 0
PlacementGroup          :
Status                  :
SuspendedProcesses      : {}
Tags                    : {}
TerminationPolicies     : {Default}
VPCZoneIdentifier       : subnet-e4f33493,subnet-5264e837
```
**Contoh 3: Contoh ini menjelaskan dua grup Auto Scaling yang ditentukan.**  

```
Get-ASAutoScalingGroup -AutoScalingGroupName @("my-asg-1", "my-asg-2")
```
**Contoh 4: Contoh ini menjelaskan instance Auto Scaling untuk grup Auto Scaling yang ditentukan.**  

```
(Get-ASAutoScalingGroup -AutoScalingGroupName my-asg-1).Instances
```
**Contoh 5: Contoh ini menjelaskan semua grup Auto Scaling Anda.**  

```
Get-ASAutoScalingGroup
```
**Contoh 6: Contoh ini menjelaskan LaunchTemplate untuk grup Auto Scaling yang ditentukan. Contoh ini mengasumsikan bahwa “Opsi pembelian instans” diatur ke “Patuhi templat peluncuran”. Jika opsi ini diatur ke “Gabungkan opsi pembelian dan jenis instance”, LaunchTemplate dapat diakses menggunakan "MixedInstancesPolicy. LaunchTemplate“properti.**  

```
(Get-ASAutoScalingGroup -AutoScalingGroupName my-ag-1).LaunchTemplate
```
**Output:**  

```
LaunchTemplateId     LaunchTemplateName   Version
----------------     ------------------   -------
lt-06095fd619cb40371 test-launch-template $Default
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASAutoScalingInstance`
<a name="auto-scaling_DescribeAutoScalingInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAutoScalingInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan instance IDs Auto Scaling Anda.**  

```
Get-ASAutoScalingInstance | format-table -property InstanceId
```
**Output:**  

```
InstanceId
----------
i-12345678
i-87654321
i-abcd1234
```
**Contoh 2: Contoh ini menjelaskan contoh Auto Scaling yang ditentukan.**  

```
Get-ASAutoScalingInstance -InstanceId i-12345678
```
**Output:**  

```
AutoScalingGroupName    : my-asg
AvailabilityZone        : us-west-2b
HealthStatus            : HEALTHY
InstanceId              : i-12345678
LaunchConfigurationName : my-lc
LifecycleState          : InService
```
**Contoh 3: Contoh ini menjelaskan dua instance Auto Scaling yang ditentukan.**  

```
Get-ASAutoScalingInstance -InstanceId @("i-12345678", "i-87654321")
```
**Contoh 4: Contoh ini menjelaskan instance Auto Scaling untuk grup Auto Scaling yang ditentukan.**  

```
(Get-ASAutoScalingGroup -AutoScalingGroupName my-asg).Instances | Get-ASAutoScalingInstance
```
**Contoh 5: Contoh ini menjelaskan semua instance Auto Scaling Anda.**  

```
Get-ASAutoScalingInstance
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASAutoScalingNotificationType`
<a name="auto-scaling_DescribeAutoScalingNotificationTypes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAutoScalingNotificationType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan jenis notifikasi yang didukung oleh Auto Scaling.**  

```
Get-ASAutoScalingNotificationType
```
**Output:**  

```
autoscaling:EC2_INSTANCE_LAUNCH
autoscaling:EC2_INSTANCE_LAUNCH_ERROR
autoscaling:EC2_INSTANCE_TERMINATE
autoscaling:EC2_INSTANCE_TERMINATE_ERROR
autoscaling:TEST_NOTIFICATION
```
+  Untuk detail API, lihat [DescribeAutoScalingNotificationTypes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASLaunchConfiguration`
<a name="auto-scaling_DescribeLaunchConfigurations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASLaunchConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan nama konfigurasi peluncuran Anda.**  

```
Get-ASLaunchConfiguration | format-table -property LaunchConfigurationName
```
**Output:**  

```
LaunchConfigurationName
-----------------------
my-lc-1
my-lc-2
my-lc-3
my-lc-4
my-lc-5
```
**Contoh 2: Contoh ini menjelaskan konfigurasi peluncuran yang ditentukan.**  

```
Get-ASLaunchConfiguration -LaunchConfigurationName my-lc-1
```
**Output:**  

```
AssociatePublicIpAddress     : True
BlockDeviceMappings          : {/dev/xvda}
ClassicLinkVPCId             :
ClassicLinkVPCSecurityGroups : {}
CreatedTime                  : 12/12/2014 3:22:08 PM
EbsOptimized                 : False
IamInstanceProfile           :
ImageId                      : ami-043a5034
InstanceMonitoring           : Amazon.AutoScaling.Model.InstanceMonitoring
InstanceType                 : t2.micro
KernelId                     :
KeyName                      : 
LaunchConfigurationARN       : arn:aws:autoscaling:us-west-2:123456789012:launchConfiguration:7e5f31e4-693b-4604-9322-
                               e6f68d7fafad:launchConfigurationName/my-lc-1
LaunchConfigurationName      : my-lc-1
PlacementTenancy             :
RamdiskId                    :
SecurityGroups               : {sg-67ef0308}
SpotPrice                    :
UserData                     :
```
**Contoh 3: Contoh ini menjelaskan dua konfigurasi peluncuran yang ditentukan.**  

```
Get-ASLaunchConfiguration -LaunchConfigurationName @("my-lc-1", "my-lc-2")
```
**Contoh 4: Contoh ini menjelaskan semua konfigurasi peluncuran Anda.**  

```
Get-ASLaunchConfiguration
```
+  Untuk detail API, lihat [DescribeLaunchConfigurations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASLifecycleHook`
<a name="auto-scaling_DescribeLifecycleHooks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASLifecycleHook`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan hook siklus hidup yang ditentukan.**  

```
Get-ASLifecycleHook -AutoScalingGroupName my-asg -LifecycleHookName myLifecycleHook
```
**Output:**  

```
AutoScalingGroupName  : my-asg
DefaultResult         : ABANDON
GlobalTimeout         : 172800
HeartbeatTimeout      : 3600
LifecycleHookName     : myLifecycleHook
LifecycleTransition   : auto-scaling:EC2_INSTANCE_LAUNCHING
NotificationMetadata  :
NotificationTargetARN : arn:aws:sns:us-west-2:123456789012:my-topic
RoleARN               : arn:aws:iam::123456789012:role/my-iam-role
```
**Contoh 2: Contoh ini menjelaskan semua kait siklus hidup untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASLifecycleHook -AutoScalingGroupName my-asg
```
**Contoh 3: Contoh ini menjelaskan semua kait siklus hidup untuk semua grup Auto Scaling Anda.**  

```
Get-ASLifecycleHook
```
+  Untuk detail API, lihat [DescribeLifecycleHooks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASLifecycleHookType`
<a name="auto-scaling_DescribeLifecycleHookTypes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASLifecycleHookType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan jenis kait siklus hidup yang didukung oleh Auto Scaling.**  

```
Get-ASLifecycleHookType
```
**Output:**  

```
autoscaling:EC2_INSTANCE_LAUNCHING
auto-scaling:EC2_INSTANCE_TERMINATING
```
+  Untuk detail API, lihat [DescribeLifecycleHookTypes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASLoadBalancer`
<a name="auto-scaling_DescribeLoadBalancers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan penyeimbang beban untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASLoadBalancer -AutoScalingGroupName my-asg
```
**Output:**  

```
LoadBalancerName    State
----------------    -----
my-lb               Added
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASMetricCollectionType`
<a name="auto-scaling_DescribeMetricCollectionTypes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASMetricCollectionType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan jenis koleksi metrik yang didukung oleh Auto Scaling.**  

```
(Get-ASMetricCollectionType).Metrics
```
**Output:**  

```
Metric
------
GroupMinSize
GroupMaxSize
GroupDesiredCapacity
GroupInServiceInstances
GroupPendingInstances
GroupTerminatingInstances
GroupStandbyInstances
GroupTotalInstances
```
**Contoh 2: Contoh ini mencantumkan granularitas yang sesuai.**  

```
(Get-ASMetricCollectionType).Granularities
```
**Output:**  

```
Granularity
-----------
1Minute
```
+  Untuk detail API, lihat [DescribeMetricCollectionTypes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASNotificationConfiguration`
<a name="auto-scaling_DescribeNotificationConfigurations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASNotificationConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan tindakan notifikasi yang terkait dengan grup Auto Scaling yang ditentukan.**  

```
Get-ASNotificationConfiguration -AutoScalingGroupName my-asg | format-list
```
**Output:**  

```
AutoScalingGroupName : my-asg
NotificationType     : auto-scaling:EC2_INSTANCE_LAUNCH
TopicARN             : arn:aws:sns:us-west-2:123456789012:my-topic

AutoScalingGroupName : my-asg
NotificationType     : auto-scaling:EC2_INSTANCE_TERMINATE
TopicARN             : arn:aws:sns:us-west-2:123456789012:my-topic
```
**Contoh 2: Contoh ini menjelaskan tindakan notifikasi yang terkait dengan semua grup Auto Scaling Anda.**  

```
Get-ASNotificationConfiguration
```
+  Untuk detail API, lihat [DescribeNotificationConfigurations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASPolicy`
<a name="auto-scaling_DescribePolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan semua kebijakan untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASPolicy -AutoScalingGroupName my-asg
```
**Output:**  

```
AdjustmentType          : ChangeInCapacity
Alarms                  : {}
AutoScalingGroupName    : my-asg
Cooldown                : 0
EstimatedInstanceWarmup : 0
MetricAggregationType   :
MinAdjustmentMagnitude  : 0
MinAdjustmentStep       : 0
PolicyARN               : arn:aws:auto-scaling:us-west-2:123456789012:scalingPolicy:aa3836ab-5462-42c7-adab-e1d769fc24ef
                          :autoScalingGroupName/my-asg:policyName/myScaleInPolicy
PolicyName              : myScaleInPolicy
PolicyType              : SimpleScaling
ScalingAdjustment       : -1
StepAdjustments         : {}
```
**Contoh 2: Contoh ini menjelaskan kebijakan yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASPolicy -AutoScalingGroupName my-asg -PolicyName @("myScaleOutPolicy", "myScaleInPolicy")
```
**Contoh 3: Contoh ini menjelaskan semua kebijakan untuk semua grup Auto Scaling Anda.**  

```
Get-ASPolicy
```
+  Untuk detail API, lihat [DescribePolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASScalingActivity`
<a name="auto-scaling_DescribeScalingActivities_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASScalingActivity`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan aktivitas penskalaan selama enam minggu terakhir untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASScalingActivity -AutoScalingGroupName my-asg
```
**Output:**  

```
ActivityId           : 063308ae-aa22-4a9b-94f4-9fae4EXAMPLE
AutoScalingGroupName : my-asg
Cause                : At 2015-11-22T15:45:16Z a user request explicitly set group desired capacity changing the desired
                       capacity from 1 to 2.  At 2015-11-22T15:45:34Z an instance was started in response to a difference
                       between desired and actual capacity, increasing the capacity from 1 to 2.
Description          : Launching a new EC2 instance: i-26e715fc
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 11/22/2015 7:46:09 AM
Progress             : 100
StartTime            : 11/22/2015 7:45:35 AM
StatusCode           : Successful
StatusMessage        :

ActivityId           : ce719997-086d-4c73-a2f1-ab703EXAMPLE
AutoScalingGroupName : my-asg
Cause                : At 2015-11-20T22:57:53Z a user request created an AutoScalingGroup changing the desired capacity
                        from 0 to 1.  At 2015-11-20T22:57:58Z an instance was started in response to a difference betwe
                       en desired and actual capacity, increasing the capacity from 0 to 1.
Description          : Launching a new EC2 instance: i-93633f9b
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 11/20/2015 2:58:32 PM
Progress             : 100
StartTime            : 11/20/2015 2:57:59 PM
StatusCode           : Successful
StatusMessage        :
```
**Contoh 2: Contoh ini menjelaskan aktivitas penskalaan yang ditentukan.**  

```
Get-ASScalingActivity -ActivityId "063308ae-aa22-4a9b-94f4-9fae4EXAMPLE"
```
**Contoh 3: Contoh ini menjelaskan aktivitas penskalaan selama enam minggu terakhir untuk semua grup Auto Scaling Anda.**  

```
Get-ASScalingActivity
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASScalingProcessType`
<a name="auto-scaling_DescribeScalingProcessTypes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASScalingProcessType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan jenis proses yang didukung oleh Auto Scaling.**  

```
Get-ASScalingProcessType
```
**Output:**  

```
ProcessName
-----------
AZRebalance
AddToLoadBalancer
AlarmNotification
HealthCheck
Launch
ReplaceUnhealthy
ScheduledActions
Terminate
```
+  Untuk detail API, lihat [DescribeScalingProcessTypes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASScheduledAction`
<a name="auto-scaling_DescribeScheduledActions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASScheduledAction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan tindakan penskalaan terjadwal untuk grup Auto Scaling yang ditentukan.**  

```
Get-ASScheduledAction -AutoScalingGroupName my-asg
```
**Output:**  

```
AutoScalingGroupName : my-asg
DesiredCapacity      : 10
EndTime              : 
MaxSize              : 
MinSize              : 
Recurrence           :
ScheduledActionARN   : arn:aws:autoscaling:us-west-2:123456789012:scheduledUpdateGroupAction:8a4c5f24-6ec6-4306-a2dd-f7
                       2c3af3a4d6:autoScalingGroupName/my-asg:scheduledActionName/myScheduledAction
ScheduledActionName  : myScheduledAction
StartTime            : 11/30/2015 8:00:00 AM
Time                 : 11/30/2015 8:00:00 AM
```
**Contoh 2: Contoh ini menjelaskan tindakan penskalaan terjadwal yang ditentukan.**  

```
Get-ASScheduledAction -ScheduledActionName @("myScheduledScaleOut", "myScheduledScaleIn")
```
**Contoh 3: Contoh ini menjelaskan tindakan penskalaan terjadwal yang dimulai pada waktu yang ditentukan.**  

```
Get-ASScheduledAction -StartTime "2015-12-01T08:00:00Z"
```
**Contoh 4: Contoh ini menjelaskan tindakan penskalaan terjadwal yang berakhir pada waktu yang ditentukan.**  

```
Get-ASScheduledAction -EndTime "2015-12-30T08:00:00Z"
```
**Contoh 5: Contoh ini menjelaskan tindakan penskalaan terjadwal untuk semua grup Auto Scaling Anda.**  

```
Get-ASScheduledAction
```
+  Untuk detail API, lihat [DescribeScheduledActions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASTag`
<a name="auto-scaling_DescribeTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan tag dengan nilai kunci baik 'myTag' atau 'myTag2'. Nilai yang mungkin untuk nama filter adalah 'auto-scaling-group', 'kunci', 'nilai', dan 'propagate-at-launch'. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Get-ASTag -Filter @( @{ Name="key"; Values=@("myTag", "myTag2") } )
```
**Output:**  

```
Key               : myTag2
PropagateAtLaunch : True
ResourceId        : my-asg
ResourceType      : auto-scaling-group
Value             : myTagValue2

Key               : myTag
PropagateAtLaunch : True
ResourceId        : my-asg
ResourceType      : auto-scaling-group
Value             : myTagValue
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat filter untuk parameter Filter.**  

```
$keys = New-Object string[] 2
$keys[0] = "myTag"
$keys[1] = "myTag2"
$filter = New-Object Amazon.AutoScaling.Model.Filter
$filter.Name = "key"
$filter.Values = $keys
Get-ASTag -Filter @( $filter )
```
**Contoh 3: Contoh ini menjelaskan semua tag untuk semua grup Auto Scaling Anda.**  

```
Get-ASTag
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASTerminationPolicyType`
<a name="auto-scaling_DescribeTerminationPolicyTypes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASTerminationPolicyType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan kebijakan penghentian yang didukung oleh Auto Scaling.**  

```
Get-ASTerminationPolicyType
```
**Output:**  

```
ClosestToNextInstanceHour
Default
NewestInstance
OldestInstance
OldestLaunchConfiguration
```
+  Untuk detail API, lihat [DescribeTerminationPolicyTypes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Mount-ASInstance`
<a name="auto-scaling_AttachInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Mount-ASInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan instance yang ditentukan ke grup Auto Scaling yang ditentukan. Auto Scaling secara otomatis meningkatkan kapasitas yang diinginkan dari grup Auto Scaling.**  

```
Mount-ASInstance -InstanceId i-93633f9b -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [AttachInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ASAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ASAutoScalingGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat grup Auto Scaling dengan nama dan atribut yang ditentukan. Kapasitas default yang diinginkan adalah ukuran minimum. Oleh karena itu, grup Auto Scaling ini meluncurkan dua instance, satu di masing-masing dari dua Availability Zone yang ditentukan.**  

```
New-ASAutoScalingGroup -AutoScalingGroupName my-asg -LaunchConfigurationName my-lc -MinSize 2 -MaxSize 6 -AvailabilityZone @("us-west-2a", "us-west-2b")
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ASLaunchConfiguration`
<a name="auto-scaling_CreateLaunchConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ASLaunchConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat konfigurasi peluncuran bernama 'my-lc'. Instans EC2 yang diluncurkan oleh grup Auto Scaling yang menggunakan konfigurasi peluncuran ini menggunakan tipe instans tertentu, AMI, grup keamanan, dan peran IAM.**  

```
New-ASLaunchConfiguration -LaunchConfigurationName my-lc -InstanceType "m3.medium" -ImageId "ami-12345678" -SecurityGroup "sg-12345678" -IamInstanceProfile "myIamRole"
```
+  Untuk detail API, lihat [CreateLaunchConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ASAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASAutoScalingGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus grup Auto Scaling yang ditentukan jika tidak memiliki instance yang berjalan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASAutoScalingGroup -AutoScalingGroupName my-asg
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASAutoScalingGroup (DeleteAutoScalingGroup)" on Target "my-asg".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASAutoScalingGroup -AutoScalingGroupName my-asg -Force
```
**Contoh 3: Contoh ini menghapus grup Auto Scaling yang ditentukan dan mengakhiri semua instance yang sedang berjalan yang dikandungnya.**  

```
Remove-ASAutoScalingGroup -AutoScalingGroupName my-asg -ForceDelete $true -Force
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ASLaunchConfiguration`
<a name="auto-scaling_DeleteLaunchConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASLaunchConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus konfigurasi peluncuran yang ditentukan jika tidak dilampirkan ke grup Auto Scaling. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASLaunchConfiguration -LaunchConfigurationName my-lc
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASLaunchConfiguration (DeleteLaunchConfiguration)" on Target "my-lc".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASLaunchConfiguration -LaunchConfigurationName my-lc -Force
```
+  Untuk detail API, lihat [DeleteLaunchConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ASLifecycleHook`
<a name="auto-scaling_DeleteLifecycleHook_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASLifecycleHook`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus hook siklus hidup yang ditentukan untuk grup Auto Scaling yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASLifecycleHook -AutoScalingGroupName my-asg -LifecycleHookName myLifecycleHook
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASLifecycleHook (DeleteLifecycleHook)" on Target "myLifecycleHook".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASLifecycleHook -AutoScalingGroupName my-asg -LifecycleHookName myLifecycleHook -Force
```
+  Untuk detail API, lihat [DeleteLifecycleHook](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ASNotificationConfiguration`
<a name="auto-scaling_DeleteNotificationConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASNotificationConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tindakan notifikasi yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASNotificationConfiguration -AutoScalingGroupName my-asg -TopicARN "arn:aws:sns:us-west-2:123456789012:my-topic"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASNotificationConfiguration (DeleteNotificationConfiguration)" on Target
"arn:aws:sns:us-west-2:123456789012:my-topic".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASNotificationConfiguration -AutoScalingGroupName my-asg -TopicARN "arn:aws:sns:us-west-2:123456789012:my-topic" -Force
```
+  Untuk detail API, lihat [DeleteNotificationConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ASPolicy`
<a name="auto-scaling_DeletePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus kebijakan yang ditentukan untuk grup Auto Scaling yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASPolicy -AutoScalingGroupName my-asg -PolicyName myScaleInPolicy
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASPolicy (DeletePolicy)" on Target "myScaleInPolicy".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASPolicy -AutoScalingGroupName my-asg -PolicyName myScaleInPolicy -Force
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ASScheduledAction`
<a name="auto-scaling_DeleteScheduledAction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASScheduledAction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tindakan terjadwal yang ditentukan untuk grup Auto Scaling yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASScheduledAction -AutoScalingGroupName my-asg -ScheduledAction "myScheduledAction"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ASScheduledAction (DeleteScheduledAction)" on Target "myScheduledAction".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASScheduledAction -AutoScalingGroupName my-asg -ScheduledAction "myScheduledAction" -Force
```
+  Untuk detail API, lihat [DeleteScheduledAction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ASTag`
<a name="auto-scaling_DeleteTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ASTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag yang ditentukan dari grup Auto Scaling yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Remove-ASTag -Tag @( @{ResourceType="auto-scaling-group"; ResourceId="my-asg"; Key="myTag" } )
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ASTag (DeleteTags)" on target "Amazon.AutoScaling.Model.Tag".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Jika Anda menentukan parameter Force, Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-ASTag -Tag @( @{ResourceType="auto-scaling-group"; ResourceId="my-asg"; Key="myTag" } ) -Force
```
**Contoh 3: Dengan Powershell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.AutoScaling.Model.Tag
$tag.ResourceType = "auto-scaling-group"
$tag.ResourceId = "my-asg"
$tag.Key = "myTag"
Remove-ASTag -Tag $tag -Force
```
+  Untuk detail API, lihat [DeleteTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Resume-ASProcess`
<a name="auto-scaling_ResumeProcesses_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Resume-ASProcess`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melanjutkan proses Auto Scaling yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Resume-ASProcess -AutoScalingGroupName my-asg -ScalingProcess "AlarmNotification"
```
**Contoh 2: Contoh ini melanjutkan semua proses Auto Scaling yang ditangguhkan untuk grup Auto Scaling yang ditentukan.**  

```
Resume-ASProcess -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [ResumeProcesses](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ASDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ASDesiredCapacity`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menetapkan ukuran grup Auto Scaling yang ditentukan.**  

```
Set-ASDesiredCapacity -AutoScalingGroupName my-asg -DesiredCapacity 2
```
**Contoh 2: Contoh ini menetapkan ukuran grup Auto Scaling yang ditentukan dan menunggu periode cooldown selesai sebelum penskalaan ke ukuran baru.**  

```
Set-ASDesiredCapacity -AutoScalingGroupName my-asg -DesiredCapacity 2 -HonorCooldown $true
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ASInstanceHealth`
<a name="auto-scaling_SetInstanceHealth_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ASInstanceHealth`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menetapkan status instance yang ditentukan menjadi 'Tidak Sehat', mengeluarkannya dari layanan. Auto Scaling mengakhiri dan menggantikan instance.**  

```
Set-ASInstanceHealth -HealthStatus Unhealthy -InstanceId i-93633f9b
```
**Contoh 2: Contoh ini menetapkan status instance yang ditentukan ke 'Sehat', menjaganya tetap dalam layanan. Masa tenggang pemeriksaan kesehatan apa pun untuk grup Auto Scaling tidak dihormati.**  

```
Set-ASInstanceHealth -HealthStatus Healthy -InstanceId i-93633f9b -ShouldRespectGracePeriod $false
```
+  Untuk detail API, lihat [SetInstanceHealth](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ASInstanceProtection`
<a name="auto-scaling_SetInstanceProtection_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ASInstanceProtection`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan perlindungan instance untuk instance tertentu.**  

```
Set-ASInstanceProtection -AutoScalingGroupName my-asg -InstanceId i-12345678 -ProtectedFromScaleIn $true
```
**Contoh 2: Contoh ini menonaktifkan perlindungan instance untuk instance tertentu.**  

```
Set-ASInstanceProtection -AutoScalingGroupName my-asg -InstanceId i-12345678 -ProtectedFromScaleIn $false
```
+  Untuk detail API, lihat [SetInstanceProtection](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ASTag`
<a name="auto-scaling_CreateOrUpdateTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ASTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan satu tag ke grup Auto Scaling yang ditentukan. Kunci tag adalah 'MyTag' dan nilai tag adalah 'myTagValue'. Auto Scaling menyebarkan tag ini ke instans EC2 berikutnya yang diluncurkan oleh grup Auto Scaling. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Set-ASTag -Tag @( @{ResourceType="auto-scaling-group"; ResourceId="my-asg"; Key="myTag"; Value="myTagValue"; PropagateAtLaunch=$true} )
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.AutoScaling.Model.Tag
$tag.ResourceType = "auto-scaling-group"
$tag.ResourceId = "my-asg" 
$tag.Key = "myTag" 
$tag.Value = "myTagValue"
$tag.PropagateAtLaunch = $true
Set-ASTag -Tag $tag
```
+  Untuk detail API, lihat [CreateOrUpdateTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-ASPolicy`
<a name="auto-scaling_ExecutePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-ASPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengeksekusi kebijakan yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Start-ASPolicy -AutoScalingGroupName my-asg -PolicyName "myScaleInPolicy"
```
**Contoh 2: Contoh ini mengeksekusi kebijakan yang ditentukan untuk grup Auto Scaling yang ditentukan, setelah menunggu periode cooldown selesai.**  

```
Start-ASPolicy -AutoScalingGroupName my-asg -PolicyName "myScaleInPolicy" -HonorCooldown $true
```
+  Untuk detail API, lihat [ExecutePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-ASInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-ASInstanceInAutoScalingGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengakhiri instance yang ditentukan dan mengurangi kapasitas yang diinginkan dari grup Auto Scaling sehingga Auto Scaling tidak meluncurkan instance pengganti.**  

```
Stop-ASInstanceInAutoScalingGroup -InstanceId i-93633f9b -ShouldDecrementDesiredCapacity $true
```
**Output:**  

```
ActivityId           : 2e40d9bd-1902-444c-abf3-6ea0002efdc5
AutoScalingGroupName :
Cause                : At 2015-11-22T16:09:03Z instance i-93633f9b was taken out of service in response to a user 
                       request, shrinking the capacity from 2 to 1.
Description          : Terminating EC2 instance: i-93633f9b
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 0
StartTime            : 11/22/2015 8:09:03 AM
StatusCode           : InProgress
StatusMessage        :
```
**Contoh 2: Contoh ini mengakhiri instance yang ditentukan tanpa mengurangi kapasitas yang diinginkan dari grup Auto Scaling. Auto Scaling meluncurkan instance pengganti.**  

```
Stop-ASInstanceInAutoScalingGroup -InstanceId i-93633f9b -ShouldDecrementDesiredCapacity $false
```
**Output:**  

```
ActivityId           : 2e40d9bd-1902-444c-abf3-6ea0002efdc5
AutoScalingGroupName :
Cause                : At 2015-11-22T16:09:03Z instance i-93633f9b was taken out of service in response to a user 
                       request.
Description          : Terminating EC2 instance: i-93633f9b
Details              : {"Availability Zone":"us-west-2b","Subnet ID":"subnet-5264e837"}
EndTime              : 
Progress             : 0
StartTime            : 11/22/2015 8:09:03 AM
StatusCode           : InProgress
StatusMessage        :
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Suspend-ASProcess`
<a name="auto-scaling_SuspendProcesses_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Suspend-ASProcess`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menangguhkan proses Auto Scaling yang ditentukan untuk grup Auto Scaling yang ditentukan.**  

```
Suspend-ASProcess -AutoScalingGroupName my-asg -ScalingProcess "AlarmNotification"
```
**Contoh 2: Contoh ini menangguhkan semua proses Auto Scaling untuk grup Auto Scaling yang ditentukan.**  

```
Suspend-ASProcess -AutoScalingGroupName my-asg
```
+  Untuk detail API, lihat [SuspendProcesses](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-ASAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-ASAutoScalingGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui ukuran minimum dan maksimum grup Auto Scaling yang ditentukan.**  

```
Update-ASAutoScalingGroup -AutoScalingGroupName my-asg -MaxSize 5 -MinSize 1
```
**Contoh 2: Contoh ini memperbarui periode cooldown default dari grup Auto Scaling yang ditentukan.**  

```
Update-ASAutoScalingGroup -AutoScalingGroupName my-asg -DefaultCooldown 10
```
**Contoh 3: Contoh ini memperbarui Availability Zones dari grup Auto Scaling yang ditentukan.**  

```
Update-ASAutoScalingGroup -AutoScalingGroupName my-asg -AvailabilityZone @("us-west-2a", "us-west-2b")
```
**Contoh 4: Contoh ini memperbarui grup Auto Scaling yang ditentukan untuk menggunakan pemeriksaan kesehatan Elastic Load Balancing.**  

```
Update-ASAutoScalingGroup -AutoScalingGroupName my-asg -HealthCheckType ELB -HealthCheckGracePeriod 60
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-ASLifecycleActionHeartbeat`
<a name="auto-scaling_RecordLifecycleActionHeartbeat_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASLifecycleActionHeartbeat`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencatat detak jantung untuk tindakan siklus hidup yang ditentukan. Ini membuat instance dalam status tertunda hingga Anda menyelesaikan tindakan kustom.**  

```
Write-ASLifecycleActionHeartbeat -AutoScalingGroupName my-asg -LifecycleHookName myLifecycleHook -LifecycleActionToken bcd2f1b8-9a78-44d3-8a7a-4dd07d7cf635
```
+  Untuk detail API, lihat [RecordLifecycleActionHeartbeat](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-ASLifecycleHook`
<a name="auto-scaling_PutLifecycleHook_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASLifecycleHook`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan hook siklus hidup yang ditentukan ke grup Auto Scaling yang ditentukan.**  

```
Write-ASLifecycleHook -AutoScalingGroupName my-asg -LifecycleHookName "myLifecycleHook" -LifecycleTransition "autoscaling:EC2_INSTANCE_LAUNCHING" -NotificationTargetARN "arn:aws:sns:us-west-2:123456789012:my-sns-topic" -RoleARN "arn:aws:iam::123456789012:role/my-iam-role"
```
+  Untuk detail API, lihat [PutLifecycleHook](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-ASNotificationConfiguration`
<a name="auto-scaling_PutNotificationConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASNotificationConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengonfigurasi grup Auto Scaling yang ditentukan untuk mengirim pemberitahuan ke topik SNS yang ditentukan saat meluncurkan instans EC2.**  

```
Write-ASNotificationConfiguration -AutoScalingGroupName my-asg -NotificationType "autoscaling:EC2_INSTANCE_LAUNCH" -TopicARN "arn:aws:sns:us-west-2:123456789012:my-topic"
```
**Contoh 2: Contoh ini mengonfigurasi grup Auto Scaling yang ditentukan untuk mengirim pemberitahuan ke topik SNS yang ditentukan saat meluncurkan atau mengakhiri instans EC2.**  

```
Write-ASNotificationConfiguration -AutoScalingGroupName my-asg -NotificationType @("autoscaling:EC2_INSTANCE_LAUNCH", "autoscaling:EC2_INSTANCE_TERMINATE") -TopicARN "arn:aws:sns:us-west-2:123456789012:my-topic"
```
+  Untuk detail API, lihat [PutNotificationConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-ASScalingPolicy`
<a name="auto-scaling_PutScalingPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASScalingPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan kebijakan yang ditentukan ke grup Auto Scaling yang ditentukan. Jenis penyesuaian yang ditentukan menentukan bagaimana menafsirkan ScalingAdjustment parameter. Dengan ChangeInCapacity '', nilai positif meningkatkan kapasitas dengan jumlah instance yang ditentukan dan nilai negatif menurunkan kapasitas dengan jumlah instance yang ditentukan.**  

```
Write-ASScalingPolicy -AutoScalingGroupName my-asg -AdjustmentType "ChangeInCapacity" -PolicyName "myScaleInPolicy" -ScalingAdjustment -1
```
**Output:**  

```
arn:aws:autoscaling:us-west-2:123456789012:scalingPolicy:aa3836ab-5462-42c7-adab-e1d769fc24ef:autoScalingGroupName/my-asg
:policyName/myScaleInPolicy
```
+  Untuk detail API, lihat [PutScalingPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-ASScheduledUpdateGroupAction`
<a name="auto-scaling_PutScheduledUpdateGroupAction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-ASScheduledUpdateGroupAction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat atau memperbarui tindakan terjadwal satu kali untuk mengubah kapasitas yang diinginkan pada waktu mulai yang ditentukan.**  

```
Write-ASScheduledUpdateGroupAction -AutoScalingGroupName my-asg -ScheduledActionName "myScheduledAction" -StartTime "2015-12-01T00:00:00Z" -DesiredCapacity 10
```
+  Untuk detail API, lihat [PutScheduledUpdateGroupAction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# AWS Budgets contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_budgets_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan AWS Budgets.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-BGTBudget`
<a name="budgets_CreateBudget_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-BGTBudget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat anggaran baru dengan batasan anggaran dan waktu yang ditentukan dengan pemberitahuan email.**  

```
$notification = @{
    NotificationType = "ACTUAL"
    ComparisonOperator = "GREATER_THAN"
    Threshold = 80
}

$addressObject = @{
    Address = @("user@domain.com")
    SubscriptionType = "EMAIL"
}

$subscriber = New-Object Amazon.Budgets.Model.NotificationWithSubscribers
$subscriber.Notification = $notification
$subscriber.Subscribers.Add($addressObject)

$startDate = [datetime]::new(2017,09,25)
$endDate = [datetime]::new(2017,10,25)

New-BGTBudget -Budget_BudgetName "Tester" -Budget_BudgetType COST -CostTypes_IncludeTax $true -Budget_TimeUnit MONTHLY -BudgetLimit_Unit USD -TimePeriod_Start $startDate -TimePeriod_End $endDate -AccountId 123456789012 -BudgetLimit_Amount 200 -NotificationsWithSubscriber $subscriber
```
+  Untuk detail API, lihat [CreateBudget](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# AWS Cloud9 contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_cloud9_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan AWS Cloud9.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-C9EnvironmentData`
<a name="cloud9_DescribeEnvironments_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-C9EnvironmentData`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Get-C9EnvironmentData -EnvironmentId 685f892f431b45c2b28cb69eadcdb0EX,1980b80e5f584920801c09086667f0EX
```
**Output:**  

```
Arn         : arn:aws:cloud9:us-east-1:123456789012:environment:685f892f431b45c2b28cb69eadcdb0EX
Description : Created from CodeStar.
Id          : 685f892f431b45c2b28cb69eadcdb0EX
Lifecycle   : Amazon.Cloud9.Model.EnvironmentLifecycle
Name        : my-demo-ec2-env
OwnerArn    : arn:aws:iam::123456789012:user/MyDemoUser
Type        : ec2

Arn         : arn:aws:cloud9:us-east-1:123456789012:environment:1980b80e5f584920801c09086667f0EX
Description :
Id          : 1980b80e5f584920801c09086667f0EX
Lifecycle   : Amazon.Cloud9.Model.EnvironmentLifecycle
Name        : my-demo-ssh-env
OwnerArn    : arn:aws:iam::123456789012:user/MyDemoUser
Type        : ssh
```
**Contoh 2: Contoh ini mendapatkan informasi tentang status siklus hidup lingkungan pengembangan Cloud9 AWS yang ditentukan.**  

```
(Get-C9EnvironmentData -EnvironmentId 685f892f431b45c2b28cb69eadcdb0EX).Lifecycle
```
**Output:**  

```
FailureResource Reason Status
--------------- ------ ------
                       CREATED
```
+  Untuk detail API, lihat [DescribeEnvironments](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-C9EnvironmentList`
<a name="cloud9_ListEnvironments_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-C9EnvironmentList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar pengidentifikasi lingkungan pengembangan AWS Cloud9 yang tersedia.**  

```
Get-C9EnvironmentList
```
**Output:**  

```
685f892f431b45c2b28cb69eadcdb0EX
1980b80e5f584920801c09086667f0EX
```
+  Untuk detail API, lihat [ListEnvironments](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-C9EnvironmentMembershipList`
<a name="cloud9_DescribeEnvironmentMemberships_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-C9EnvironmentMembershipList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang anggota lingkungan untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Get-C9EnvironmentMembershipList -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : read-write
UserArn       : arn:aws:iam::123456789012:user/AnotherDemoUser
UserId        : AIDAJ3BA6O2FMJWCWXHEX

EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : owner
UserArn       : arn:aws:iam::123456789012:user/MyDemoUser
UserId        : AIDAJ3LOROMOUXTBSU6EX
```
**Contoh 2: Contoh ini mendapatkan informasi tentang pemilik lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Get-C9EnvironmentMembershipList -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX -Permission owner
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : owner
UserArn       : arn:aws:iam::123456789012:user/MyDemoUser
UserId        : AIDAJ3LOROMOUXTBSU6EX
```
**Contoh 3: Contoh ini mendapatkan informasi tentang anggota lingkungan yang ditentukan untuk beberapa lingkungan pengembangan AWS Cloud9.**  

```
Get-C9EnvironmentMembershipList -UserArn arn:aws:iam::123456789012:user/MyDemoUser
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/17/2018 7:48:14 PM
Permissions   : owner
UserArn       : arn:aws:iam::123456789012:user/MyDemoUser
UserId        : AIDAJ3LOROMOUXTBSU6EX

EnvironmentId : 1980b80e5f584920801c09086667f0EX
LastAccess    : 1/16/2018 11:21:24 PM
Permissions   : owner
UserArn       : arn:aws:iam::123456789012:user/MyDemoUser
UserId        : AIDAJ3LOROMOUXTBSU6EX
```
+  Untuk detail API, lihat [DescribeEnvironmentMemberships](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-C9EnvironmentStatus`
<a name="cloud9_DescribeEnvironmentStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-C9EnvironmentStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi status untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Get-C9EnvironmentStatus -EnvironmentId 349c86d4579e4e7298d500ff57a6b2EX
```
**Output:**  

```
Message                     Status
-------                     ------
Environment is ready to use ready
```
+  Untuk detail API, lihat [DescribeEnvironmentStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-C9EnvironmentEC2`
<a name="cloud9_CreateEnvironmentEc2_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-C9EnvironmentEC2`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat lingkungan pengembangan AWS Cloud9 dengan setelan yang ditentukan, meluncurkan instance Amazon Elastic Compute Cloud (Amazon EC2), dan kemudian menghubungkan dari instance ke lingkungan.**  

```
New-C9EnvironmentEC2 -Name my-demo-env -AutomaticStopTimeMinutes 60 -Description "My demonstration development environment." -InstanceType t2.micro -OwnerArn arn:aws:iam::123456789012:user/MyDemoUser -SubnetId subnet-d43a46EX
```
**Output:**  

```
ffd88420d4824eeeaeaa8a04bfde8cEX
```
+  Untuk detail API, lihat [CreateEnvironmentEc2](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5*). 

### `New-C9EnvironmentMembership`
<a name="cloud9_CreateEnvironmentMembership_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-C9EnvironmentMembership`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan anggota lingkungan yang ditentukan ke lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
New-C9EnvironmentMembership -UserArn arn:aws:iam::123456789012:user/AnotherDemoUser -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX -Permission read-write
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : read-write
UserArn       : arn:aws:iam::123456789012:user/AnotherDemoUser
UserId        : AIDAJ3BA6O2FMJWCWXHEX
```
+  Untuk detail API, lihat [CreateEnvironmentMembership](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-C9Environment`
<a name="cloud9_DeleteEnvironment_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-C9Environment`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus lingkungan pengembangan AWS Cloud9 yang ditentukan. Jika instans Amazon EC2 terhubung ke lingkungan, juga menghentikan instance.**  

```
Remove-C9Environment -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX
```
+  Untuk detail API, lihat [DeleteEnvironment](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-C9EnvironmentMembership`
<a name="cloud9_DeleteEnvironmentMembership_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-C9EnvironmentMembership`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus anggota lingkungan yang ditentukan dari lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Remove-C9EnvironmentMembership -UserArn arn:aws:iam::123456789012:user/AnotherDemoUser -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX
```
+  Untuk detail API, lihat [DeleteEnvironmentMembership](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-C9Environment`
<a name="cloud9_UpdateEnvironment_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-C9Environment`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah pengaturan yang ditentukan dari lingkungan pengembangan AWS Cloud9 yang sudah ditentukan.**  

```
Update-C9Environment -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX -Description "My changed demonstration development environment." -Name my-changed-demo-env
```
+  Untuk detail API, lihat [UpdateEnvironment](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-C9EnvironmentMembership`
<a name="cloud9_UpdateEnvironmentMembership_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-C9EnvironmentMembership`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah pengaturan anggota lingkungan yang ada yang ditentukan untuk lingkungan pengembangan AWS Cloud9 yang ditentukan.**  

```
Update-C9EnvironmentMembership -UserArn arn:aws:iam::123456789012:user/AnotherDemoUser -EnvironmentId ffd88420d4824eeeaeaa8a04bfde8cEX -Permission read-only
```
**Output:**  

```
EnvironmentId : ffd88420d4824eeeaeaa8a04bfde8cEX
LastAccess    : 1/1/0001 12:00:00 AM
Permissions   : read-only
UserArn       : arn:aws:iam::123456789012:user/AnotherDemoUser
UserId        : AIDAJ3BA6O2FMJWCWXHEX
```
+  Untuk detail API, lihat [UpdateEnvironmentMembership](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# CloudFormation contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_cloudformation_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan CloudFormation.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CFNStack`
<a name="cloudformation_DescribeStacks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan koleksi instance Stack yang menjelaskan semua tumpukan pengguna.**  

```
Get-CFNStack
```
**Contoh 2: Mengembalikan instance Stack yang menjelaskan tumpukan yang ditentukan**  

```
Get-CFNStack -StackName "myStack"
```
+  Untuk detail API, lihat [DescribeStacks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFNStackEvent`
<a name="cloudformation_DescribeStackEvents_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackEvent`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan semua peristiwa terkait tumpukan untuk tumpukan tertentu.**  

```
Get-CFNStackEvent -StackName "myStack"
```
+  Untuk detail API, lihat [DescribeStackEvents](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFNStackResource`
<a name="cloudformation_DescribeStackResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackResource`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan deskripsi sumber daya yang diidentifikasi dalam template yang terkait dengan tumpukan yang ditentukan oleh ID logis DBInstance “Saya”.**  

```
Get-CFNStackResource -StackName "myStack" -LogicalResourceId "MyDBInstance"
```
+  Untuk detail API, lihat [DescribeStackResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFNStackResourceList`
<a name="cloudformation_DescribeStackResources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackResourceList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan deskripsi AWS sumber daya hingga 100 sumber daya yang terkait dengan tumpukan yang ditentukan. Untuk mendapatkan rincian semua sumber daya yang terkait dengan tumpukan gunakan Get- CFNStackResourceSummary, yang juga mendukung paging manual hasil.**  

```
Get-CFNStackResourceList -StackName "myStack"
```
**Contoh 2: Mengembalikan deskripsi instans Amazon EC2 yang diidentifikasi dalam template yang terkait dengan tumpukan yang ditentukan oleh ID logis “Ec2Instance”.**  

```
Get-CFNStackResourceList -StackName "myStack" -LogicalResourceId "Ec2Instance"
```
**Contoh 3: Mengembalikan deskripsi hingga 100 sumber daya yang terkait dengan tumpukan yang berisi instans Amazon EC2 yang diidentifikasi oleh ID instans “i-123456". Untuk mendapatkan rincian semua sumber daya yang terkait dengan tumpukan gunakan Get- CFNStackResourceSummary, yang juga mendukung paging manual hasil.**  

```
Get-CFNStackResourceList -PhysicalResourceId "i-123456"
```
**Contoh 4: Mengembalikan deskripsi instans Amazon EC2 yang diidentifikasi oleh ID logis “Ec2Instance” dalam template untuk tumpukan. Tumpukan diidentifikasi menggunakan ID sumber daya fisik dari sumber daya yang dikandungnya, dalam hal ini juga instance Amazon EC2 dengan ID instans “i-123456". Sumber daya fisik yang berbeda juga dapat digunakan untuk mengidentifikasi tumpukan tergantung pada konten template, misalnya bucket Amazon S3.**  

```
Get-CFNStackResourceList -PhysicalResourceId "i-123456" -LogicalResourceId "Ec2Instance"
```
+  Untuk detail API, lihat [DescribeStackResources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFNStackResourceSummary`
<a name="cloudformation_ListStackResources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackResourceSummary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan deskripsi dari semua sumber daya yang terkait dengan tumpukan tertentu.**  

```
Get-CFNStackResourceSummary -StackName "myStack"
```
+  Untuk detail API, lihat [ListStackResources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFNStackSummary`
<a name="cloudformation_ListStacks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNStackSummary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan informasi ringkasan untuk semua tumpukan.**  

```
Get-CFNStackSummary
```
**Contoh 2: Mengembalikan informasi ringkasan untuk semua tumpukan yang sedang dibuat.**  

```
Get-CFNStackSummary -StackStatusFilter "CREATE_IN_PROGRESS"
```
**Contoh 3: Mengembalikan informasi ringkasan untuk semua tumpukan yang sedang dibuat atau diperbarui.**  

```
Get-CFNStackSummary -StackStatusFilter @("CREATE_IN_PROGRESS", "UPDATE_IN_PROGRESS")
```
+  Untuk detail API, lihat [ListStacks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFNTemplate`
<a name="cloudformation_GetTemplate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFNTemplate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan template yang terkait dengan tumpukan tertentu.**  

```
Get-CFNTemplate -StackName "myStack"
```
+  Untuk detail API, lihat [GetTemplate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Measure-CFNTemplateCost`
<a name="cloudformation_EstimateTemplateCost_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Measure-CFNTemplateCost`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan URL Kalkulator Bulanan AWS Sederhana dengan string kueri yang menjelaskan sumber daya yang diperlukan untuk menjalankan template. Template diperoleh dari URL Amazon S3 yang ditentukan dan parameter penyesuaian tunggal diterapkan. Parameter juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' bukan 'ParameterKey' dan 'ParameterValue'.**  

```
Measure-CFNTemplateCost -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
                        -Region us-west-1 `
                        -Parameter @{ ParameterKey="KeyName"; ParameterValue="myKeyPairName" }
```
**Contoh 2: Mengembalikan URL Kalkulator Bulanan AWS Sederhana dengan string kueri yang menjelaskan sumber daya yang diperlukan untuk menjalankan template. Template diurai dari konten yang disediakan dan parameter kustomisasi diterapkan (contoh ini mengasumsikan konten template akan mendeklarasikan dua parameter, '' dan KeyName 'InstanceType'). Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Measure-CFNTemplateCost -TemplateBody "{TEMPLATE CONTENT HERE}" `
                        -Parameter @( @{ ParameterKey="KeyName"; ParameterValue="myKeyPairName" },`
                                      @{ ParameterKey="InstanceType"; ParameterValue="m1.large" })
```
**Contoh 3: Menggunakan New-Object untuk membangun set parameter template dan mengembalikan URL Kalkulator Bulanan AWS Sederhana dengan string kueri yang menjelaskan sumber daya yang diperlukan untuk menjalankan template. Template diurai dari konten yang disediakan, dengan parameter kustomisasi (contoh ini mengasumsikan konten template akan mendeklarasikan dua parameter, '' dan KeyName 'InstanceType').**  

```
$p1 = New-Object -Type Amazon.CloudFormation.Model.Parameter
$p1.ParameterKey = "KeyName"
$p1.ParameterValue = "myKeyPairName"

$p2 = New-Object -Type Amazon.CloudFormation.Model.Parameter
$p2.ParameterKey = "InstanceType"
$p2.ParameterValue = "m1.large"

Measure-CFNTemplateCost -TemplateBody "{TEMPLATE CONTENT HERE}" -Parameter @( $p1, $p2 )
```
+  Untuk detail API, lihat [EstimateTemplateCost](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CFNStack`
<a name="cloudformation_CreateStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFNStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat tumpukan baru dengan nama yang ditentukan. Template diurai dari konten yang disediakan dengan parameter kustomisasi ('PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam konten template, 'PV1' dan 'PV2' mewakili nilai untuk parameter tersebut. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Jika pembuatan tumpukan gagal, itu tidak akan digulung kembali.**  

```
New-CFNStack -StackName "myStack" `
             -TemplateBody "{TEMPLATE CONTENT HERE}" `
             -Parameter @( @{ ParameterKey="PK1"; ParameterValue="PV1" }, @{ ParameterKey="PK2"; ParameterValue="PV2" }) `
             -DisableRollback $true
```
**Contoh 2: Membuat tumpukan baru dengan nama yang ditentukan. Template diurai dari konten yang disediakan dengan parameter kustomisasi ('PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam konten template, 'PV1' dan 'PV2' mewakili nilai untuk parameter tersebut. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Jika pembuatan tumpukan gagal, itu akan digulung kembali.**  

```
$p1 = New-Object -Type Amazon.CloudFormation.Model.Parameter
$p1.ParameterKey = "PK1"
$p1.ParameterValue = "PV1"

$p2 = New-Object -Type Amazon.CloudFormation.Model.Parameter
$p2.ParameterKey = "PK2"
$p2.ParameterValue = "PV2"

New-CFNStack -StackName "myStack" `
             -TemplateBody "{TEMPLATE CONTENT HERE}" `
             -Parameter @( $p1, $p2 ) `
             -OnFailure "ROLLBACK"
```
**Contoh 3: Membuat tumpukan baru dengan nama yang ditentukan. Template diperoleh dari URL Amazon S3 dengan parameter kustomisasi ('PK1' mewakili nama parameter yang dideklarasikan dalam konten template, 'PV1' mewakili nilai untuk parameter. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Jika pembuatan tumpukan gagal, itu akan digulung kembali (sama seperti menentukan - DisableRollback \$1false**).  

```
New-CFNStack -StackName "myStack" `
             -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
             -Parameter @{ ParameterKey="PK1"; ParameterValue="PV1" }
```
**Contoh 4: Membuat tumpukan baru dengan nama yang ditentukan. Template diperoleh dari URL Amazon S3 dengan parameter kustomisasi ('PK1' mewakili nama parameter yang dideklarasikan dalam konten template, 'PV1' mewakili nilai untuk parameter. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Jika pembuatan tumpukan gagal, itu akan digulung kembali (sama seperti menentukan - DisableRollback \$1false). Pemberitahuan yang ditentukan AENs akan menerima acara terkait tumpukan yang dipublikasikan.**  

```
New-CFNStack -StackName "myStack" `
             -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
             -Parameter @{ ParameterKey="PK1"; ParameterValue="PV1" } `
             -NotificationARN @( "arn1", "arn2" )
```
+  Untuk detail API, lihat [CreateStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CFNStack`
<a name="cloudformation_DeleteStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CFNStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus tumpukan yang ditentukan.**  

```
Remove-CFNStack -StackName "myStack"
```
+  Untuk detail API, lihat [DeleteStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Resume-CFNUpdateRollback`
<a name="cloudformation_ContinueUpdateRollback_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Resume-CFNUpdateRollback`.

**Alat untuk PowerShell V5**  
**Contoh 1: Melanjutkan rollback dari tumpukan bernama, yang seharusnya dalam status 'UPDATE\$1ROLLBACK\$1FAILED'. Jika rollback lanjutan berhasil, tumpukan akan memasukkan status 'UPDATE\$1ROLLBACK\$1COMPLETE'.**  

```
Resume-CFNUpdateRollback -StackName "myStack"
```
+  Untuk detail API, lihat [ContinueUpdateRollback](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-CFNUpdateStack`
<a name="cloudformation_CancelUpdateStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-CFNUpdateStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membatalkan pembaruan pada tumpukan yang ditentukan.**  

```
Stop-CFNUpdateStack -StackName "myStack"
```
+  Untuk detail API, lihat [CancelUpdateStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Test-CFNStack`
<a name="cloudformation_Test-CFNStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Test-CFNStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menguji apakah tumpukan telah mencapai salah satu status UPDATE\$1ROLLBACK\$1COMPLETE, CREATE\$1COMPLETE, ROLLBACK\$1COMPLETE atau UPDATE\$1COMPLETE.**  

```
Test-CFNStack -StackName MyStack
```
**Output:**  

```
False
```
**Contoh 2: Menguji apakah tumpukan telah mencapai status UPDATE\$1COMPLETE atau UPDATE\$1ROLLBACK\$1COMPLETE.**  

```
Test-CFNStack -StackName MyStack -Status UPDATE_COMPLETE,UPDATE_ROLLBACK_COMPLETE
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [Menguji- CFNStack](https://docs.aws.amazon.com/powershell/v5/reference) dalam *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Test-CFNTemplate`
<a name="cloudformation_ValidateTemplate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Test-CFNTemplate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memvalidasi konten template yang ditentukan. Output merinci kemampuan, deskripsi, dan parameter template.**  

```
Test-CFNTemplate -TemplateBody "{TEMPLATE CONTENT HERE}"
```
**Contoh 2: Memvalidasi template tertentu yang diakses melalui URL Amazon S3. Output merinci kemampuan, deskripsi, dan parameter template.**  

```
Test-CFNTemplate -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template
```
+  Untuk detail API, lihat [ValidateTemplate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CFNStack`
<a name="cloudformation_UpdateStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CFNStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui tumpukan 'MyStack' dengan template dan parameter kustomisasi yang ditentukan. 'PK1' mewakili nama parameter yang dideklarasikan dalam template dan 'PV1' mewakili nilainya. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Update-CFNStack -StackName "myStack" `
                -TemplateBody "{Template Content Here}" `
                -Parameter @{ ParameterKey="PK1"; ParameterValue="PV1" }
```
**Contoh 2: Memperbarui tumpukan 'MyStack' dengan template dan parameter kustomisasi yang ditentukan. 'PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam templat, 'PV1' dan 'PV2' mewakili nilai yang diminta. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Update-CFNStack -StackName "myStack" `
                -TemplateBody "{Template Content Here}" `
                -Parameter @( @{ ParameterKey="PK1"; ParameterValue="PV1" }, @{ ParameterKey="PK2"; ParameterValue="PV2" } )
```
**Contoh 3: Memperbarui tumpukan 'MyStack' dengan template dan parameter kustomisasi yang ditentukan. 'PK1' mewakili nama parameter yang dideklarasikan dalam template dan 'PV2' mewakili nilainya. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Update-CFNStack -StackName "myStack" -TemplateBody "{Template Content Here}" -Parameters @{ ParameterKey="PK1"; ParameterValue="PV1" }
```
**Contoh 4: Memperbarui tumpukan 'MyStack' dengan templat yang ditentukan, diperoleh dari Amazon S3, dan parameter penyesuaian. 'PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam templat, 'PV1' dan 'PV2' mewakili nilai yang diminta. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'.**  

```
Update-CFNStack -StackName "myStack" `
                -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
                -Parameter @( @{ ParameterKey="PK1"; ParameterValue="PV1" }, @{ ParameterKey="PK2"; ParameterValue="PV2" } )
```
**Contoh 5: Memperbarui tumpukan 'MyStack', yang diasumsikan dalam contoh ini berisi sumber daya IAM, dengan templat yang ditentukan, diperoleh dari Amazon S3, dan parameter penyesuaian. 'PK1' dan 'PK2' mewakili nama parameter yang dideklarasikan dalam templat, 'PV1' dan 'PV2' mewakili nilai yang diminta. Parameter kustomisasi juga dapat ditentukan menggunakan 'Kunci' dan 'Nilai' alih-alih 'ParameterKey' dan 'ParameterValue'. Tumpukan yang berisi sumber daya IAM mengharuskan Anda untuk menentukan parameter -Capabilities “CAPABILITY\$1IAM” jika tidak pembaruan akan gagal dengan kesalahan ''. InsufficientCapabilities**  

```
Update-CFNStack -StackName "myStack" `
                -TemplateURL https://s3.amazonaws.com/amzn-s3-demo-bucket/templatefile.template `
                -Parameter @( @{ ParameterKey="PK1"; ParameterValue="PV1" }, @{ ParameterKey="PK2"; ParameterValue="PV2" } ) `
                -Capabilities "CAPABILITY_IAM"
```
+  Untuk detail API, lihat [UpdateStack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Wait-CFNStack`
<a name="cloudformation_Wait-CFNStack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Wait-CFNStack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menguji apakah tumpukan telah mencapai salah satu status UPDATE\$1ROLLBACK\$1COMPLETE, CREATE\$1COMPLETE, ROLLBACK\$1COMPLETE atau UPDATE\$1COMPLETE. Jika tumpukan tidak berada di salah satu status, perintah tidur selama dua detik sebelum menguji status lagi. Ini diulang sampai tumpukan mencapai salah satu status yang diminta atau periode batas waktu default 60 detik berlalu. Jika periode batas waktu terlampaui, pengecualian dilemparkan. Jika tumpukan mencapai salah satu status yang diminta dalam periode batas waktu, tumpukan tersebut dikembalikan ke pipeline.**  

```
$stack = Wait-CFNStack -StackName MyStack
```
**Contoh 2: Contoh ini menunggu total 5 menit (300 detik) hingga tumpukan mencapai salah satu status yang ditentukan. Dalam contoh ini status tercapai sebelum batas waktu dan oleh karena itu objek tumpukan dikembalikan ke pipeline.**  

```
Wait-CFNStack -StackName MyStack -Timeout 300 -Status CREATE_COMPLETE,ROLLBACK_COMPLETE
```
**Output:**  

```
Capabilities      : {CAPABILITY_IAM}
ChangeSetId       :
CreationTime      : 6/1/2017 9:29:33 AM
Description       : AWS CloudFormation Sample Template ec2_instance_with_instance_profile: Create an EC2 instance with an associated instance profile. **WARNING** This template creates one or more Amazon EC2
                    instances and an Amazon SQS queue. You will be billed for the AWS resources used if you create a stack from this template.
DisableRollback   : False
LastUpdatedTime   : 1/1/0001 12:00:00 AM
NotificationARNs  : {}
Outputs           : {}
Parameters        : {}
RoleARN           :
StackId           : arn:aws:cloudformation:us-west-2:123456789012:stack/MyStack/7ea87b50-46e7-11e7-9c9b-503a90a9c4d1
StackName         : MyStack
StackStatus       : CREATE_COMPLETE
StackStatusReason :
Tags              : {}
TimeoutInMinutes  : 0
```
**Contoh 3: Contoh ini menunjukkan keluaran kesalahan ketika tumpukan tidak mencapai salah satu status yang diminta dalam periode batas waktu (dalam hal ini periode default 60 detik).**  

```
Wait-CFNStack -StackName MyStack -Status CREATE_COMPLETE,ROLLBACK_COMPLETE
```
**Output:**  

```
Wait-CFNStack : Timed out after 60 seconds waiting for CloudFormation stack MyStack in region us-west-2 to reach one of state(s): UPDATE_ROLLBACK_COMPLETE,CREATE_COMPLETE,ROLLBACK_COMPLETE,UPDATE_COMPLETE
At line:1 char:1
+ Wait-CFNStack -StackName MyStack -State CREATE_COMPLETE,ROLLBACK_COMPLETE
+ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    + CategoryInfo          : InvalidOperation: (Amazon.PowerShe...tCFNStackCmdlet:WaitCFNStackCmdlet) [Wait-CFNStack], InvalidOperationException
    + FullyQualifiedErrorId : InvalidOperationException,Amazon.PowerShell.Cmdlets.CFN.WaitCFNStackCmdlet
```
+  Untuk detail API, lihat [Tunggu- CFNStack](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# CloudFront contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_cloudfront_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan CloudFront.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CFCloudFrontOriginAccessIdentity`
<a name="cloudfront_GetCloudFrontOriginAccessIdentity_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFCloudFrontOriginAccessIdentity`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan identitas akses CloudFront asal Amazon tertentu, yang ditentukan oleh parameter -Id. Meskipun parameter -Id tidak diperlukan, jika Anda tidak menentukannya, tidak ada hasil yang dikembalikan.**  

```
Get-CFCloudFrontOriginAccessIdentity -Id E3XXXXXXXXXXRT
```
**Output:**  

```
      CloudFrontOriginAccessIdentityConfig    Id                                      S3CanonicalUserId
      ------------------------------------    --                                      -----------------
      Amazon.CloudFront.Model.CloudFrontOr... E3XXXXXXXXXXRT                          4b6e...
```
+  Untuk detail API, lihat [GetCloudFrontOriginAccessIdentity](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFCloudFrontOriginAccessIdentityConfig`
<a name="cloudfront_GetCloudFrontOriginAccessIdentityConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFCloudFrontOriginAccessIdentityConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan informasi konfigurasi tentang identitas akses CloudFront asal Amazon tunggal, yang ditentukan oleh parameter -Id. Kesalahan terjadi jika tidak ada parameter -Id yang ditentukan..**  

```
Get-CFCloudFrontOriginAccessIdentityConfig -Id E3XXXXXXXXXXRT
```
**Output:**  

```
      CallerReference                                             Comment
      ---------------                                             -------
      mycallerreference: 2/1/2011 1:16:32 PM                      Caller reference: 2/1/2011 1:16:32 PM
```
+  Untuk detail API, lihat [GetCloudFrontOriginAccessIdentityConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFCloudFrontOriginAccessIdentityList`
<a name="cloudfront_ListCloudFrontOriginAccessIdentities_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFCloudFrontOriginAccessIdentityList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan daftar identitas akses CloudFront asal Amazon. Karena - MaxItem parameter menentukan nilai 2, hasilnya mencakup dua identitas.**  

```
Get-CFCloudFrontOriginAccessIdentityList -MaxItem 2
```
**Output:**  

```
IsTruncated : True
Items       : {E326XXXXXXXXXT, E1YWXXXXXXX9B}
Marker      :
MaxItems    : 2
NextMarker  : E1YXXXXXXXXX9B
Quantity    : 2
```
+  Untuk detail API, lihat [ListCloudFrontOriginAccessIdentities](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFDistribution`
<a name="cloudfront_GetDistribution_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFDistribution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengambil informasi untuk distribusi tertentu.**  

```
Get-CFDistribution -Id EXAMPLE0000ID
```
+  Untuk detail API, lihat [GetDistribution](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFDistributionConfig`
<a name="cloudfront_GetDistributionConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFDistributionConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengambil konfigurasi untuk distribusi tertentu.**  

```
Get-CFDistributionConfig -Id EXAMPLE0000ID
```
+  Untuk detail API, lihat [GetDistributionConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFDistributionList`
<a name="cloudfront_ListDistributions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFDistributionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan distribusi.**  

```
Get-CFDistributionList
```
+  Untuk detail API, lihat [ListDistributions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CFDistribution`
<a name="cloudfront_CreateDistribution_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFDistribution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat CloudFront distribusi dasar, dikonfigurasi dengan logging dan caching.**  

```
$origin = New-Object Amazon.CloudFront.Model.Origin
$origin.DomainName = "amzn-s3-demo-bucket.s3.amazonaws.com"
$origin.Id = "UniqueOrigin1"
$origin.S3OriginConfig = New-Object Amazon.CloudFront.Model.S3OriginConfig
$origin.S3OriginConfig.OriginAccessIdentity = ""
New-CFDistribution `
      -DistributionConfig_Enabled $true `
      -DistributionConfig_Comment "Test distribution" `
      -Origins_Item $origin `
      -Origins_Quantity 1 `
      -Logging_Enabled $true `
      -Logging_IncludeCookie $true `
      -Logging_Bucket amzn-s3-demo-logging-bucket.s3.amazonaws.com `
      -Logging_Prefix "help/" `
      -DistributionConfig_CallerReference Client1 `
      -DistributionConfig_DefaultRootObject index.html `
      -DefaultCacheBehavior_TargetOriginId $origin.Id `
      -ForwardedValues_QueryString $true `
      -Cookies_Forward all `
      -WhitelistedNames_Quantity 0 `
      -TrustedSigners_Enabled $false `
      -TrustedSigners_Quantity 0 `
      -DefaultCacheBehavior_ViewerProtocolPolicy allow-all `
      -DefaultCacheBehavior_MinTTL 1000 `
      -DistributionConfig_PriceClass "PriceClass_All" `
      -CacheBehaviors_Quantity 0 `
      -Aliases_Quantity 0
```
+  Untuk detail API, lihat [CreateDistribution](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CFInvalidation`
<a name="cloudfront_CreateInvalidation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFInvalidation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat pembatalan baru pada distribusi dengan ID EXAMPLENSTXAXE. CallerReference Ini adalah ID unik yang dipilih oleh pengguna; dalam hal ini, cap waktu yang mewakili 15 Mei 2019 pukul 9:00 pagi digunakan. Variabel \$1Paths menyimpan tiga jalur ke file gambar dan media yang tidak diinginkan pengguna sebagai bagian dari cache distribusi. Nilai parameter -Paths\$1Quantity adalah jumlah total jalur yang ditentukan dalam parameter -Paths\$1Item.**  

```
$Paths = "/images/*.gif", "/images/image1.jpg", "/videos/*.mp4"
New-CFInvalidation -DistributionId "EXAMPLENSTXAXE" -InvalidationBatch_CallerReference 20190515090000 -Paths_Item $Paths -Paths_Quantity 3
```
**Output:**  

```
Invalidation                         Location                                                                                          
------------                         --------                                                                                          
Amazon.CloudFront.Model.Invalidation https://cloudfront.amazonaws.com/2018-11-05/distribution/EXAMPLENSTXAXE/invalidation/EXAMPLE8NOK9H
```
+  Untuk detail API, lihat [CreateInvalidation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CFSignedCookie`
<a name="cloudfront_New-CFSignedCookie_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFSignedCookie`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat cookie yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan kalengan. Cookie akan berlaku selama satu tahun.**  

```
$params = @{
	"ResourceUri"="http://xyz.cloudfront.net/image1.jpeg"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=(Get-Date).AddYears(1)
}
New-CFSignedCookie @params
```
**Output:**  

```
Expires
-------
[CloudFront-Expires, 1472227284]
```
**Contoh 2: Membuat cookie yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan khusus. Cookie akan berlaku dalam 24 jam dan akan kedaluwarsa satu minggu sesudahnya.**  

```
$start = (Get-Date).AddHours(24)
$params = @{
	"ResourceUri"="http://xyz.cloudfront.net/content/*.jpeg"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=$start.AddDays(7)
    "ActiveFrom"=$start
}

New-CFSignedCookie @params
```
**Output:**  

```
Policy
------
[CloudFront-Policy, eyJTd...wIjo...
```
**Contoh 3: Membuat cookie yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan khusus. Cookie akan berlaku dalam 24 jam dan akan kedaluwarsa satu minggu sesudahnya. Akses ke sumber daya dibatasi pada rentang ip yang ditentukan.**  

```
$start = (Get-Date).AddHours(24)
$params = @{
	"ResourceUri"="http://xyz.cloudfront.net/content/*.jpeg"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=$start.AddDays(7)
    "ActiveFrom"=$start
	"IpRange"="192.0.2.0/24"
}

New-CFSignedCookie @params
```
**Output:**  

```
Policy                                                                                                                                         ------                                                                                                                                         [CloudFront-Policy, eyJTd...wIjo...
```
+  Untuk detail API, lihat [CFSignedCookie Baru di](https://docs.aws.amazon.com/powershell/v5/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (V5*). 

### `New-CFSignedUrl`
<a name="cloudfront_New-CFSignedUrl_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CFSignedUrl`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat url yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan kalengan. Url akan berlaku selama satu jam. Objek System.Uri yang berisi url yang ditandatangani dipancarkan ke pipeline.**  

```
$params = @{
	"ResourceUri"="https://cdn.example.com/index.html"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=(Get-Date).AddHours(1)
}
New-CFSignedUrl @params
```
**Contoh 2: Membuat url yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan khusus. Url akan berlaku mulai dalam 24 jam dan akan kedaluwarsa satu minggu kemudian.**  

```
$start = (Get-Date).AddHours(24)
$params = @{
	"ResourceUri"="https://cdn.example.com/index.html"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=(Get-Date).AddDays(7)
    "ActiveFrom"=$start
}
New-CFSignedUrl @params
```
**Contoh 3: Membuat url yang ditandatangani ke sumber daya yang ditentukan menggunakan kebijakan khusus. Url akan berlaku mulai dalam 24 jam dan akan kedaluwarsa satu minggu kemudian. Akses ke sumber daya dibatasi pada rentang ip yang ditentukan.**  

```
$start = (Get-Date).AddHours(24)
$params = @{
	"ResourceUri"="https://cdn.example.com/index.html"
	"KeyPairId"="AKIAIOSFODNN7EXAMPLE"
	"PrivateKeyFile"="C:\pk-AKIAIOSFODNN7EXAMPLE.pem"
	"ExpiresOn"=(Get-Date).AddDays(7)
    "ActiveFrom"=$start
    "IpRange"="192.0.2.0/24"	
}
New-CFSignedUrl @params
```
+  Untuk detail API, lihat [CFSignedUrl Baru di](https://docs.aws.amazon.com/powershell/v5/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (V5*). 

# CloudTrail contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_cloudtrail_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan CloudTrail.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Find-CTEvent`
<a name="cloudtrail_LookupEvents_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Find-CTEvent`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan semua peristiwa yang telah terjadi selama tujuh hari terakhir. Cmdlet secara default secara otomatis membuat beberapa panggilan untuk mengirimkan semua peristiwa, keluar ketika layanan menunjukkan tidak ada data lebih lanjut yang tersedia.**  

```
Find-CTEvent
```
**Contoh 2: Mengembalikan semua peristiwa yang telah terjadi selama tujuh hari terakhir menentukan wilayah yang bukan default shell saat ini.**  

```
Find-CTEvent -Region eu-central-1
```
**Contoh 3: Mengembalikan semua peristiwa yang terkait dengan panggilan RunInstances API.**  

```
Find-CTEvent -LookupAttribute @{ AttributeKey="EventName"; AttributeValue="RunInstances" }
```
**Contoh 4: Mengembalikan 5 peristiwa pertama yang tersedia.**  

```
Find-CTEvent -MaxResult 5
```
+  Untuk detail API, lihat [LookupEvents](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CTTrail`
<a name="cloudtrail_DescribeTrails_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CTTrail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan pengaturan semua jejak yang terkait dengan wilayah saat ini untuk akun Anda.**  

```
Get-CTTrail
```
**Contoh 2: Mengembalikan pengaturan untuk jalur yang ditentukan.**  

```
Get-CTTrail -TrailNameList trail1,trail2
```
**Contoh 3: Mengembalikan pengaturan untuk jejak tertentu yang dibuat di wilayah selain default shell saat ini (dalam hal ini wilayah Frankfurt (eu-central-1)).**  

```
Get-CTTrail -TrailNameList trailABC,trailDEF -Region eu-central-1
```
+  Untuk detail API, lihat [DescribeTrails](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CTTrailStatus`
<a name="cloudtrail_GetTrailStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CTTrailStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan informasi status untuk jejak dengan nama 'myExampleTrail'. Data yang dikembalikan mencakup informasi tentang kesalahan pengiriman, kesalahan Amazon SNS, dan Amazon S3, serta waktu mulai dan hentikan pencatatan untuk jejak. Contoh ini mengasumsikan jejak dibuat di wilayah yang sama dengan default shell saat ini.**  

```
Get-CTTrailStatus -Name myExampleTrail
```
**Contoh 2: Mengembalikan informasi status untuk jejak yang dibuat di wilayah selain default shell saat ini (dalam hal ini, wilayah Frankfurt (eu-central-1)).**  

```
Get-CTTrailStatus -Name myExampleTrail -Region eu-central-1
```
+  Untuk detail API, lihat [GetTrailStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CTTrail`
<a name="cloudtrail_CreateTrail_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CTTrail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat jejak yang akan menggunakan bucket 'amzn-s3-demo-bucket' untuk penyimpanan file log.**  

```
New-CTTrail -Name "awscloudtrail-example" -S3BucketName "amzn-s3-demo-bucket"
```
**Contoh 2: Membuat jejak yang akan menggunakan bucket 'amzn-s3-demo-bucket' untuk penyimpanan file log. Objek S3 yang mewakili log akan memiliki key prefix umum 'mylogs'. Saat log baru dikirimkan ke bucket, notifikasi akan dikirim ke topik SNS 'mlog-deliverytopic'. Contoh ini menggunakan percikan untuk memasok nilai parameter ke cmdlet.**  

```
$params = @{
    Name="awscloudtrail-example"
    S3BucketName="amzn-s3-demo-bucket"
    S3KeyPrefix="mylogs"
    SnsTopicName="mlog-deliverytopic"
}      
New-CTTrail @params
```
+  Untuk detail API, lihat [CreateTrail](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CTTrail`
<a name="cloudtrail_DeleteTrail_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CTTrail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus jejak yang ditentukan. Anda akan diminta konfirmasi sebelum perintah dijalankan. Untuk menekan konfirmasi, tambahkan parameter sakelar -Force.**  

```
Remove-CTTrail -Name "awscloudtrail-example"
```
+  Untuk detail API, lihat [DeleteTrail](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-CTLogging`
<a name="cloudtrail_StartLogging_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-CTLogging`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memulai perekaman panggilan AWS API dan pengiriman file log untuk jejak bernama 'myExampleTrail'. Contoh ini mengasumsikan jejak dibuat di wilayah yang sama dengan default shell saat ini.**  

```
Start-CTLogging -Name myExampleTrail
```
**Contoh 2: Memulai perekaman panggilan AWS API dan pengiriman file log untuk jejak yang dibuat di wilayah selain default shell saat ini (dalam hal ini, wilayah Frankfurt (eu-central-1)).**  

```
Start-CTLogging -Name myExampleTrail -Region eu-central-1
```
+  Untuk detail API, lihat [StartLogging](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-CTLogging`
<a name="cloudtrail_StopLogging_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-CTLogging`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menangguhkan perekaman panggilan AWS API dan pengiriman file log untuk jejak bernama 'myExampleTrail'. Contoh ini mengasumsikan jejak dibuat di wilayah yang sama dengan default shell saat ini.**  

```
Stop-CTLogging -Name myExampleTrail
```
**Contoh 2: Menangguhkan perekaman panggilan AWS API dan pengiriman file log untuk jejak yang dibuat di wilayah selain default shell saat ini (dalam hal ini, wilayah Frankfurt (eu-central-1)).**  

```
Stop-CTLogging -Name myExampleTrail -Region eu-central-1
```
+  Untuk detail API, lihat [StopLogging](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CTTrail`
<a name="cloudtrail_UpdateTrail_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CTTrail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui jejak yang ditentukan sehingga peristiwa layanan global (seperti yang dari IAM) direkam dan mengubah awalan kunci umum dari file log yang akan maju menjadi 'globallogs'.**  

```
Update-CTTrail -Name "awscloudtrail-example" -IncludeGlobalServiceEvents $true -S3KeyPrefix "globallogs"
```
**Contoh 2: Memperbarui jejak yang ditentukan sehingga pemberitahuan tentang pengiriman log baru dikirim ke topik SNS yang ditentukan.**  

```
Update-CTTrail -Name "awscloudtrail-example" -SnsTopicName "mlog-deliverytopic2"
```
**Contoh 3: Memperbarui jejak yang ditentukan sehingga log dikirim ke ember yang berbeda.**  

```
Update-CTTrail -Name "awscloudtrail-example" -S3BucketName "otherlogs"
```
+  Untuk detail API, lihat [UpdateTrail](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# CloudWatch contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan CloudWatch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CWDashboard`
<a name="cloudwatch_GetDashboard_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CWDashboard`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan arn badan dasbor yang ditentukan.**  

```
Get-CWDashboard -DashboardName Dashboard1
```
**Output:**  

```
DashboardArn                                          DashboardBody
------------                                          -------------
arn:aws:cloudwatch::123456789012:dashboard/Dashboard1 {...
```
+  Untuk detail API, lihat [GetDashboard](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CWDashboardList`
<a name="cloudwatch_ListDashboards_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CWDashboardList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan koleksi dasbor untuk akun Anda.**  

```
Get-CWDashboardList
```
**Output:**  

```
DashboardArn DashboardName LastModified        Size
------------ ------------- ------------        ----
arn:...      Dashboard1    7/6/2017 8:14:15 PM 252
```
**Contoh 2: Mengembalikan koleksi dasbor untuk akun Anda yang namanya dimulai dengan awalan 'dev'.**  

```
Get-CWDashboardList -DashboardNamePrefix dev
```
+  Untuk detail API, lihat [ListDashboards](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CWDashboard`
<a name="cloudwatch_DeleteDashboards_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CWDashboard`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus dasbor yang ditentukan, mempromosikan konfirmasi sebelum melanjutkan. Untuk melewati konfirmasi, tambahkan sakelar -Force ke perintah.**  

```
Remove-CWDashboard -DashboardName Dashboard1
```
+  Untuk detail API, lihat [DeleteDashboards](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-CWDashboard`
<a name="cloudwatch_PutDashboard_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-CWDashboard`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat atau memperbarui dasbor bernama 'Dashboard1' untuk menyertakan dua widget metrik secara berdampingan.**  

```
$dashBody = @"
{
    "widgets":[
        {
             "type":"metric",
             "x":0,
             "y":0,
             "width":12,
             "height":6,
             "properties":{
                "metrics":[
                   [
                      "AWS/EC2",
                      "CPUUtilization",
                      "InstanceId",
                      "i-012345"
                   ]
                ],
                "period":300,
                "stat":"Average",
                "region":"us-east-1",
                "title":"EC2 Instance CPU"
             }
        },
        {
             "type":"metric",
             "x":12,
             "y":0,
             "width":12,
             "height":6,
             "properties":{
                "metrics":[
                   [
                      "AWS/S3",
                      "BucketSizeBytes",
                      "BucketName",
                      "amzn-s3-demo-bucket"
                   ]
                ],
                "period":86400,
                "stat":"Maximum",
                "region":"us-east-1",
                "title":"amzn-s3-demo-bucket bytes"
            }
        }
    ]
}
"@

Write-CWDashboard -DashboardName Dashboard1 -DashboardBody $dashBody
```
**Contoh 2: Membuat atau memperbarui dasbor, menyalurkan konten yang menjelaskan dasbor ke dalam cmdlet.**  

```
$dashBody = @"
{
...
}
"@
        
$dashBody | Write-CWDashboard -DashboardName Dashboard1
```
+  Untuk detail API, lihat [PutDashboard](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-CWMetricData`
<a name="cloudwatch_PutMetricData_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-CWMetricData`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat MetricDatum objek baru, dan menuliskannya ke Amazon Web Services CloudWatch Metrics.**  

```
### Create a MetricDatum .NET object
$Metric = New-Object -TypeName Amazon.CloudWatch.Model.MetricDatum
$Metric.Timestamp = [DateTime]::UtcNow
$Metric.MetricName = 'CPU'
$Metric.Value = 50

### Write the metric data to the CloudWatch service
Write-CWMetricData -Namespace instance1 -MetricData $Metric
```
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# CodeCommit contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_codecommit_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan CodeCommit.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CCBranch`
<a name="codecommit_GetBranch_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCBranch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapat informasi tentang cabang yang ditentukan untuk repositori yang ditentukan.**  

```
Get-CCBranch -RepositoryName MyDemoRepo -BranchName MyNewBranch
```
**Output:**  

```
BranchName                              CommitId
----------                              --------
MyNewBranch                             7763222d...561fc9c9
```
+  Untuk detail API, lihat [GetBranch](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CCBranchList`
<a name="codecommit_ListBranches_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCBranchList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar nama cabang untuk repositori yang ditentukan.**  

```
Get-CCBranchList -RepositoryName MyDemoRepo
```
**Output:**  

```
master
MyNewBranch
```
+  Untuk detail API, lihat [ListBranches](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CCRepository`
<a name="codecommit_GetRepository_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCRepository`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi untuk repositori yang ditentukan.**  

```
Get-CCRepository -RepositoryName MyDemoRepo
```
**Output:**  

```
AccountId             : 80398EXAMPLE
Arn                   : arn:aws:codecommit:us-east-1:80398EXAMPLE:MyDemoRepo
CloneUrlHttp          : https://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo
CloneUrlSsh           : ssh://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo
CreationDate          : 9/8/2015 3:21:33 PM
DefaultBranch         :
LastModifiedDate      : 9/8/2015 3:21:33 PM
RepositoryDescription : This is a repository for demonstration purposes.
RepositoryId          : c7d0d2b0-ce40-4303-b4c3-38529EXAMPLE
RepositoryName        : MyDemoRepo
```
+  Untuk detail API, lihat [GetRepository](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CCRepositoryBatch`
<a name="codecommit_BatchGetRepositories_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCRepositoryBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengonfirmasi repositori mana yang ditemukan dan tidak ditemukan.**  

```
Get-CCRepositoryBatch -RepositoryName MyDemoRepo, MyNewRepo, AMissingRepo
```
**Output:**  

```
Repositories                            RepositoriesNotFound
------------                            --------------------
{MyDemoRepo, MyNewRepo}                {AMissingRepo}
```
+  Untuk detail API, lihat [BatchGetRepositories](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CCRepositoryList`
<a name="codecommit_ListRepositories_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CCRepositoryList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua repositori dalam urutan menaik berdasarkan nama repositori.**  

```
Get-CCRepositoryList -Order Ascending -SortBy RepositoryName
```
**Output:**  

```
RepositoryId                            RepositoryName
------------                            --------------
c7d0d2b0-ce40-4303-b4c3-38529EXAMPLE    MyDemoRepo
05f30c66-e3e3-4f91-a0cd-1c84aEXAMPLE    MyNewRepo
```
+  Untuk detail API, lihat [ListRepositories](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CCBranch`
<a name="codecommit_CreateBranch_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CCBranch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat cabang baru dengan nama yang ditentukan untuk repositori tertentu dan ID komit yang ditentukan.**  

```
New-CCBranch -RepositoryName MyDemoRepo -BranchName MyNewBranch -CommitId 7763222d...561fc9c9
```
+  Untuk detail API, lihat [CreateBranch](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CCRepository`
<a name="codecommit_CreateRepository_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CCRepository`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat repositori baru dengan nama yang ditentukan dan deskripsi yang ditentukan.**  

```
New-CCRepository -RepositoryName MyDemoRepo -RepositoryDescription "This is a repository for demonstration purposes."
```
**Output:**  

```
AccountId             : 80398EXAMPLE
Arn                   : arn:aws:codecommit:us-east-1:80398EXAMPLE:MyDemoRepo
CloneUrlHttp          : https://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo
CloneUrlSsh           : ssh://git-codecommit.us-east-1.amazonaws.com/v1/repos/MyDemoRepo
CreationDate          : 9/18/2015 4:13:25 PM
DefaultBranch         :
LastModifiedDate      : 9/18/2015 4:13:25 PM
RepositoryDescription : This is a repository for demonstration purposes.
RepositoryId          : 43ef2443-3372-4b12-9e78-65c27EXAMPLE
RepositoryName        : MyDemoRepo
```
+  Untuk detail API, lihat [CreateRepository](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CCRepository`
<a name="codecommit_DeleteRepository_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CCRepository`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini secara paksa menghapus repositori yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus repositori tanpa prompt.**  

```
Remove-CCRepository -RepositoryName MyDemoRepo
```
**Output:**  

```
43ef2443-3372-4b12-9e78-65c27EXAMPLE
```
+  Untuk detail API, lihat [DeleteRepository](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CCDefaultBranch`
<a name="codecommit_UpdateDefaultBranch_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CCDefaultBranch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah cabang default untuk repositori yang ditentukan ke cabang yang ditentukan.**  

```
Update-CCDefaultBranch -RepositoryName MyDemoRepo -DefaultBranchName MyNewBranch
```
+  Untuk detail API, lihat [UpdateDefaultBranch](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CCRepositoryDescription`
<a name="codecommit_UpdateRepositoryDescription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CCRepositoryDescription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah deskripsi untuk repositori yang ditentukan.**  

```
Update-CCRepositoryDescription -RepositoryName MyDemoRepo -RepositoryDescription "This is an updated description."
```
+  Untuk detail API, lihat [UpdateRepositoryDescription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CCRepositoryName`
<a name="codecommit_UpdateRepositoryName_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CCRepositoryName`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah nama repositori yang ditentukan.**  

```
Update-CCRepositoryName -NewName MyDemoRepo2 -OldName MyDemoRepo
```
+  Untuk detail API, lihat [UpdateRepositoryName](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# CodeDeploy contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_codedeploy_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan CodeDeploy.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-CDOnPremiseInstanceTag`
<a name="codedeploy_AddTagsToOnPremisesInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-CDOnPremiseInstanceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan tag instans lokal dengan kunci dan nilai yang ditentukan untuk instans lokal yang ditentukan.**  

```
Add-CDOnPremiseInstanceTag -InstanceName AssetTag12010298EX -Tag @{"Key" = "Name"; "Value" = "CodeDeployDemo-OnPrem"}
```
+  Untuk detail API, lihat [AddTagsToOnPremisesInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDApplication`
<a name="codedeploy_GetApplication_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplication`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang aplikasi yang ditentukan.**  

```
Get-CDApplication -ApplicationName CodeDeployDemoApplication
```
**Output:**  

```
ApplicationId                           ApplicationName              CreateTime              LinkedToGitHub
-------------                           ---------------              ----------              --------------
e07fb938-091e-4f2f-8963-4d3e8EXAMPLE    CodeDeployDemoApplication    7/20/2015 9:49:48 PM    False
```
+  Untuk detail API, lihat [GetApplication](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDApplicationBatch`
<a name="codedeploy_BatchGetApplications_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplicationBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang aplikasi yang ditentukan.**  

```
Get-CDApplicationBatch -ApplicationName CodeDeployDemoApplication, CodePipelineDemoApplication
```
**Output:**  

```
ApplicationId                           ApplicationName              CreateTime              LinkedToGitHub
-------------                           ---------------              ----------              --------------
e07fb938-091e-4f2f-8963-4d3e8EXAMPLE    CodeDeployDemoApplication    7/20/2015 9:49:48 PM    False
1ecfd602-62f1-4038-8f0d-06688EXAMPLE    CodePipelineDemoApplication  8/13/2015 5:53:26 PM    False
```
+  Untuk detail API, lihat [BatchGetApplications](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDApplicationList`
<a name="codedeploy_ListApplications_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplicationList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar aplikasi yang tersedia.**  

```
Get-CDApplicationList
```
**Output:**  

```
CodeDeployDemoApplication
CodePipelineDemoApplication
```
+  Untuk detail API, lihat [ListApplications](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDApplicationRevision`
<a name="codedeploy_GetApplicationRevision_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplicationRevision`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang revisi aplikasi yang ditentukan.**  

```
$revision = Get-CDApplicationRevision -ApplicationName CodeDeployDemoApplication -S3Location_Bucket amzn-s3-demo-bucket -Revision_RevisionType S3 -S3Location_Key 5xd27EX.zip -S3Location_BundleType zip -S3Location_ETag 4565c1ac97187f190c1a90265EXAMPLE
Write-Output ("Description = " + $revision.RevisionInfo.Description + ", RegisterTime = " + $revision.RevisionInfo.RegisterTime)
```
**Output:**  

```
Description = Application revision registered by Deployment ID: d-CX9CHN3EX, RegisterTime = 07/20/2015 23:46:42
```
+  Untuk detail API, lihat [GetApplicationRevision](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDApplicationRevisionList`
<a name="codedeploy_ListApplicationRevisions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDApplicationRevisionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang revisi yang tersedia untuk aplikasi yang ditentukan.**  

```
ForEach ($revision in (Get-CDApplicationRevisionList -ApplicationName CodeDeployDemoApplication -Deployed Ignore)) {
>>   If ($revision.RevisionType -Eq "S3") {
>>     Write-Output ("Type = S3, Bucket = " + $revision.S3Location.Bucket + ", BundleType = " + $revision.S3Location.BundleType + ", ETag = " + $revision.S3Location.ETag + ", Key = " + $revision.S3Location.Key)
>>   }
>>   If ($revision.RevisionType -Eq "GitHub") {
>>     Write-Output ("Type = GitHub, CommitId = " + $revision.GitHubLocation.CommitId + ", Repository = " + $revision.GitHubLocation.Repository)
>>   }
>> }
>>
```
**Output:**  

```
Type = S3, Bucket = amzn-s3-demo-bucket, BundleType = zip, ETag = 4565c1ac97187f190c1a90265EXAMPLE, Key = 5xd27EX.zip
Type = GitHub, CommitId = f48933c3...76405362, Repository = MyGitHubUser/CodeDeployDemoRepo
```
+  Untuk detail API, lihat [ListApplicationRevisions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeployment`
<a name="codedeploy_GetDeployment_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeployment`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi ringkasan tentang penerapan yang ditentukan.**  

```
Get-CDDeployment -DeploymentId d-QZMRGSTEX
```
**Output:**  

```
ApplicationName               : CodeDeployDemoApplication
CompleteTime                  : 7/23/2015 11:26:04 PM
CreateTime                    : 7/23/2015 11:24:43 PM
Creator                       : user
DeploymentConfigName          : CodeDeployDefault.OneAtATime
DeploymentGroupName           : CodeDeployDemoFleet
DeploymentId                  : d-QZMRGSTEX
DeploymentOverview            : Amazon.CodeDeploy.Model.DeploymentOverview
Description                   :
ErrorInformation              :
IgnoreApplicationStopFailures : False
Revision                      : Amazon.CodeDeploy.Model.RevisionLocation
StartTime                     : 1/1/0001 12:00:00 AM
Status                        : Succeeded
```
**Contoh 2: Contoh ini mendapatkan informasi tentang status instance yang berpartisipasi dalam penerapan yang ditentukan.**  

```
(Get-CDDeployment -DeploymentId d-QZMRGSTEX).DeploymentOverview
```
**Output:**  

```
Failed     : 0
InProgress : 0
Pending    : 0
Skipped    : 0
Succeeded  : 3
```
**Contoh 3: Contoh ini mendapatkan informasi tentang revisi aplikasi untuk penerapan yang ditentukan.**  

```
(Get-CDDeployment -DeploymentId d-QZMRGSTEX).Revision.S3Location
```
**Output:**  

```
Bucket     : amzn-s3-demo-bucket
BundleType : zip
ETag       : cfbb81b304ee5e27efc21adaed3EXAMPLE
Key        : clzfqEX
Version    :
```
+  Untuk detail API, lihat [GetDeployment](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeploymentBatch`
<a name="codedeploy_BatchGetDeployments_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang penerapan yang ditentukan.**  

```
Get-CDDeploymentBatch -DeploymentId d-QZMRGSTEX, d-RR0T5KTEX
```
**Output:**  

```
ApplicationName               : CodeDeployDemoApplication
CompleteTime                  : 7/23/2015 11:26:04 PM
CreateTime                    : 7/23/2015 11:24:43 PM
Creator                       : user
DeploymentConfigName          : CodeDeployDefault.OneAtATime
DeploymentGroupName           : CodeDeployDemoFleet
DeploymentId                  : d-QZMRGSTEX
DeploymentOverview            : Amazon.CodeDeploy.Model.DeploymentOverview
Description                   :
ErrorInformation              :
IgnoreApplicationStopFailures : False
Revision                      : Amazon.CodeDeploy.Model.RevisionLocation
StartTime                     : 1/1/0001 12:00:00 AM
Status                        : Succeeded

ApplicationName               : CodePipelineDemoApplication
CompleteTime                  : 7/23/2015 6:07:30 PM
CreateTime                    : 7/23/2015 6:06:29 PM
Creator                       : user
DeploymentConfigName          : CodeDeployDefault.OneAtATime
DeploymentGroupName           : CodePipelineDemoFleet
DeploymentId                  : d-RR0T5KTEX
DeploymentOverview            : Amazon.CodeDeploy.Model.DeploymentOverview
Description                   :
ErrorInformation              :
IgnoreApplicationStopFailures : False
Revision                      : Amazon.CodeDeploy.Model.RevisionLocation
StartTime                     : 1/1/0001 12:00:00 AM
Status                        : Succeeded
```
+  Untuk detail API, lihat [BatchGetDeployments](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeploymentConfig`
<a name="codedeploy_GetDeploymentConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi ringkasan tentang konfigurasi penerapan yang ditentukan.**  

```
Get-CDDeploymentConfig -DeploymentConfigName ThreeQuartersHealthy
```
**Output:**  

```
CreateTime              DeploymentConfigId                      DeploymentConfigName    MinimumHealthyHosts
----------              ------------------                      --------------------    -------------------
10/3/2014 4:32:30 PM    518a3950-d034-46a1-9d2c-3c949EXAMPLE    ThreeQuartersHealthy    Amazon.CodeDeploy.Model.MinimumHealthyHosts
```
**Contoh 2: Contoh ini mendapatkan informasi tentang definisi konfigurasi penerapan yang ditentukan.**  

```
Write-Output ((Get-CDDeploymentConfig -DeploymentConfigName ThreeQuartersHealthy).MinimumHealthyHosts)
```
**Output:**  

```
Type             Value
----             -----
FLEET_PERCENT    75
```
+  Untuk detail API, lihat [GetDeploymentConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeploymentConfigList`
<a name="codedeploy_ListDeploymentConfigs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentConfigList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar konfigurasi penerapan yang tersedia.**  

```
Get-CDDeploymentConfigList
```
**Output:**  

```
ThreeQuartersHealthy
CodeDeployDefault.OneAtATime
CodeDeployDefault.AllAtOnce
CodeDeployDefault.HalfAtATime
```
+  Untuk detail API, lihat [ListDeploymentConfigs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeploymentGroup`
<a name="codedeploy_GetDeploymentGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang grup penyebaran yang ditentukan.**  

```
Get-CDDeploymentGroup -ApplicationName CodeDeployDemoApplication -DeploymentGroupName CodeDeployDemoFleet
```
**Output:**  

```
ApplicationName              : CodeDeployDemoApplication
AutoScalingGroups            : {}
DeploymentConfigName         : CodeDeployDefault.OneAtATime
DeploymentGroupId            : 7d7c098a-b444-4b27-96ef-22791EXAMPLE
DeploymentGroupName          : CodeDeployDemoFleet
Ec2TagFilters                : {Name}
OnPremisesInstanceTagFilters : {}
ServiceRoleArn               : arn:aws:iam::80398EXAMPLE:role/CodeDeploySampleStack-4ph6EX-CodeDeployTrustRole-O9MWP7XTL8EX
TargetRevision               : Amazon.CodeDeploy.Model.RevisionLocation
```
+  Untuk detail API, lihat [GetDeploymentGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeploymentGroupList`
<a name="codedeploy_ListDeploymentGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentGroupList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar grup penyebaran untuk aplikasi yang ditentukan.**  

```
Get-CDDeploymentGroupList -ApplicationName CodeDeployDemoApplication
```
**Output:**  

```
ApplicationName              DeploymentGroups                                    NextToken
---------------              ----------------                                    ---------
CodeDeployDemoApplication    {CodeDeployDemoFleet, CodeDeployProductionFleet}
```
+  Untuk detail API, lihat [ListDeploymentGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeploymentInstance`
<a name="codedeploy_GetDeploymentInstance_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang instance yang ditentukan untuk penerapan yang ditentukan.**  

```
Get-CDDeploymentInstance -DeploymentId d-QZMRGSTEX -InstanceId i-254e22EX
```
**Output:**  

```
DeploymentId    : d-QZMRGSTEX
InstanceId      : arn:aws:ec2:us-east-1:80398EXAMPLE:instance/i-254e22EX
LastUpdatedAt   : 7/23/2015 11:25:24 PM
LifecycleEvents : {ApplicationStop, DownloadBundle, BeforeInstall, Install...}
Status          : Succeeded
```
+  Untuk detail API, lihat [GetDeploymentInstance](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeploymentInstanceList`
<a name="codedeploy_ListDeploymentInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentInstanceList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar instance IDs untuk penerapan yang ditentukan.**  

```
Get-CDDeploymentInstanceList -DeploymentId d-QZMRGSTEX
```
**Output:**  

```
i-254e22EX
i-274e22EX
i-3b4e22EX
```
+  Untuk detail API, lihat [ListDeploymentInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDDeploymentList`
<a name="codedeploy_ListDeployments_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDDeploymentList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar penerapan IDs untuk grup aplikasi dan penyebaran yang ditentukan.**  

```
Get-CDDeploymentList -ApplicationName CodeDeployDemoApplication -DeploymentGroupName CodeDeployDemoFleet
```
**Output:**  

```
d-QZMRGSTEX
d-RR0T5KTEX
```
+  Untuk detail API, lihat [ListDeployments](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDOnPremiseInstance`
<a name="codedeploy_GetOnPremisesInstance_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDOnPremiseInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang instans lokal yang ditentukan.**  

```
Get-CDOnPremiseInstance -InstanceName AssetTag12010298EX
```
**Output:**  

```
DeregisterTime : 1/1/0001 12:00:00 AM
IamUserArn     : arn:aws:iam::80398EXAMPLE:user/CodeDeployDemoUser
InstanceArn    : arn:aws:codedeploy:us-east-1:80398EXAMPLE:instance/AssetTag12010298EX_rDH556dxEX
InstanceName   : AssetTag12010298EX
RegisterTime   : 4/3/2015 6:36:24 PM
Tags           : {Name}
```
+  Untuk detail API, lihat [GetOnPremisesInstance](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDOnPremiseInstanceBatch`
<a name="codedeploy_BatchGetOnPremisesInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDOnPremiseInstanceBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang instance lokal yang ditentukan.**  

```
Get-CDOnPremiseInstanceBatch -InstanceName AssetTag12010298EX, AssetTag12010298EX-2
```
**Output:**  

```
DeregisterTime : 1/1/0001 12:00:00 AM
IamUserArn     : arn:aws:iam::80398EXAMPLE:user/CodeDeployFRWUser
InstanceArn    : arn:aws:codedeploy:us-east-1:80398EXAMPLE:instance/AssetTag12010298EX-2_XmeSz18rEX
InstanceName   : AssetTag12010298EX-2
RegisterTime   : 4/3/2015 6:38:52 PM
Tags           : {Name}

DeregisterTime : 1/1/0001 12:00:00 AM
IamUserArn     : arn:aws:iam::80398EXAMPLE:user/CodeDeployDemoUser
InstanceArn    : arn:aws:codedeploy:us-east-1:80398EXAMPLE:instance/AssetTag12010298EX_rDH556dxEX
InstanceName   : AssetTag12010298EX
RegisterTime   : 4/3/2015 6:36:24 PM
Tags           : {Name}
```
+  Untuk detail API, lihat [BatchGetOnPremisesInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CDOnPremiseInstanceList`
<a name="codedeploy_ListOnPremisesInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CDOnPremiseInstanceList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar nama instans lokal yang tersedia.**  

```
Get-CDOnPremiseInstanceList
```
**Output:**  

```
AssetTag12010298EX
AssetTag12010298EX-2
```
+  Untuk detail API, lihat [ListOnPremisesInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CDApplication`
<a name="codedeploy_CreateApplication_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CDApplication`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat aplikasi baru dengan nama yang ditentukan.**  

```
New-CDApplication -ApplicationName MyNewApplication
```
**Output:**  

```
f19e4b61-2231-4328-b0fd-e57f5EXAMPLE
```
+  Untuk detail API, lihat [CreateApplication](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CDDeployment`
<a name="codedeploy_CreateDeployment_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CDDeployment`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat penyebaran baru untuk grup aplikasi dan penyebaran yang ditentukan dengan konfigurasi penerapan dan revisi aplikasi yang ditentukan.**  

```
New-CDDeployment -ApplicationName MyNewApplication -S3Location_Bucket amzn-s3-demo-bucket -S3Location_BundleType zip -DeploymentConfigName CodeDeployDefault.OneAtATime -DeploymentGroupName MyNewDeploymentGroup -IgnoreApplicationStopFailures $True -S3Location_Key aws-codedeploy_linux-master.zip -RevisionType S3
```
**Output:**  

```
d-ZHROG7UEX
```
**Contoh 2: Contoh ini menunjukkan cara menentukan grup tag instans EC2 yang harus diidentifikasi oleh sebuah instance agar dapat disertakan dalam lingkungan pengganti untuk blue/green penerapan.**  

```
New-CDDeployment -ApplicationName MyNewApplication -S3Location_Bucket amzn-s3-demo-bucket -S3Location_BundleType zip -DeploymentConfigName CodeDeployDefault.OneAtATime -DeploymentGroupName MyNewDeploymentGroup -IgnoreApplicationStopFailures $True -S3Location_Key aws-codedeploy_linux-master.zip -RevisionType S3 -Ec2TagSetList @(@{Key="key1";Type="KEY_ONLY"},@{Key="Key2";Type="KEY_AND_VALUE";Value="Value2"}),@(@{Key="Key3";Type="VALUE_ONLY";Value="Value3"})
```
**Output:**  

```
d-ZHROG7UEX
```
+  Untuk detail API, lihat [CreateDeployment](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CDDeploymentConfig`
<a name="codedeploy_CreateDeploymentConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CDDeploymentConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat konfigurasi penerapan baru dengan nama dan perilaku yang ditentukan.**  

```
New-CDDeploymentConfig -DeploymentConfigName AtLeastTwoHealthyHosts -MinimumHealthyHosts_Type HOST_COUNT -MinimumHealthyHosts_Value 2
```
**Output:**  

```
0f3e8187-44ef-42da-aeed-b6823EXAMPLE
```
+  Untuk detail API, lihat [CreateDeploymentConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CDDeploymentGroup`
<a name="codedeploy_CreateDeploymentGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CDDeploymentGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat grup penyebaran dengan nama yang ditentukan, grup Auto Scaling, konfigurasi penerapan, tag, dan peran layanan, untuk aplikasi yang ditentukan.**  

```
New-CDDeploymentGroup -ApplicationName MyNewApplication -AutoScalingGroup CodeDeployDemo-ASG -DeploymentConfigName CodeDeployDefault.OneAtATime -DeploymentGroupName MyNewDeploymentGroup -Ec2TagFilter @{Key="Name"; Type="KEY_AND_VALUE"; Value="CodeDeployDemo"} -ServiceRoleArn arn:aws:iam::80398EXAMPLE:role/CodeDeployDemo
```
**Output:**  

```
16bbf199-95fd-40fc-a909-0bbcfEXAMPLE
```
**Contoh 2: Contoh ini menunjukkan cara menentukan grup tag instans EC2 yang harus diidentifikasi oleh sebuah instance agar dapat disertakan dalam lingkungan pengganti untuk blue/green penerapan.**  

```
New-CDDeploymentGroup -ApplicationName MyNewApplication -AutoScalingGroup CodeDeployDemo-ASG -DeploymentConfigName CodeDeployDefault.OneAtATime -DeploymentGroupName MyNewDeploymentGroup -Ec2TagFilter @{Key="Name"; Type="KEY_AND_VALUE"; Value="CodeDeployDemo"} -ServiceRoleArn arn:aws:iam::80398EXAMPLE:role/CodeDeployDemo -Ec2TagSetList @(@{Key="key1";Type="KEY_ONLY"},@{Key="Key2";Type="KEY_AND_VALUE";Value="Value2"}),@(@{Key="Key3";Type="VALUE_ONLY";Value="Value3"})
```
**Output:**  

```
16bbf199-95fd-40fc-a909-0bbcfEXAMPLE
```
+  Untuk detail API, lihat [CreateDeploymentGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-CDApplicationRevision`
<a name="codedeploy_RegisterApplicationRevision_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-CDApplicationRevision`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan revisi aplikasi dengan lokasi Amazon S3 yang ditentukan, untuk aplikasi yang ditentukan.**  

```
Register-CDApplicationRevision -ApplicationName MyNewApplication -S3Location_Bucket amzn-s3-demo-bucket -S3Location_BundleType zip -S3Location_Key aws-codedeploy_linux-master.zip -Revision_RevisionType S3
```
+  Untuk detail API, lihat [RegisterApplicationRevision](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-CDOnPremiseInstance`
<a name="codedeploy_RegisterOnPremisesInstance_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-CDOnPremiseInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan instance lokal dengan nama yang ditentukan dan pengguna IAM.**  

```
Register-CDOnPremiseInstance -IamUserArn arn:aws:iam::80398EXAMPLE:user/CodeDeployDemoUser -InstanceName AssetTag12010298EX
```
+  Untuk detail API, lihat [RegisterOnPremisesInstance](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CDApplication`
<a name="codedeploy_DeleteApplication_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CDApplication`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus aplikasi dengan nama yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus aplikasi tanpa prompt.**  

```
Remove-CDApplication -ApplicationName MyNewApplication
```
+  Untuk detail API, lihat [DeleteApplication](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CDDeploymentConfig`
<a name="codedeploy_DeleteDeploymentConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CDDeploymentConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus konfigurasi penerapan dengan nama yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus konfigurasi penerapan tanpa prompt.**  

```
Remove-CDDeploymentConfig -DeploymentConfigName AtLeastTwoHealthyHosts
```
+  Untuk detail API, lihat [DeleteDeploymentConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CDDeploymentGroup`
<a name="codedeploy_DeleteDeploymentGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CDDeploymentGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus grup penyebaran dengan nama yang ditentukan untuk aplikasi yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus grup penyebaran tanpa prompt.**  

```
Remove-CDDeploymentGroup -ApplicationName MyNewApplication -DeploymentGroupName MyNewDeploymentGroup
```
+  Untuk detail API, lihat [DeleteDeploymentGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CDOnPremiseInstanceTag`
<a name="codedeploy_RemoveTagsFromOnPremisesInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CDOnPremiseInstanceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag yang ditentukan untuk instance lokal dengan nama yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus tag tanpa prompt.**  

```
Remove-CDOnPremiseInstanceTag -InstanceName AssetTag12010298EX -Tag @{"Key" = "Name"; "Value" = "CodeDeployDemo-OnPrem"}
```
+  Untuk detail API, lihat [RemoveTagsFromOnPremisesInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-CDDeployment`
<a name="codedeploy_StopDeployment_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-CDDeployment`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencoba menghentikan penerapan dengan ID penerapan yang ditentukan.**  

```
Stop-CDDeployment -DeploymentId d-LJQNREYEX
```
**Output:**  

```
Status     StatusMessage
------     -------------
Pending    Stopping Pending. Stopping to schedule commands in the deployment instances
```
+  Untuk detail API, lihat [StopDeployment](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-CDOnPremiseInstance`
<a name="codedeploy_DeregisterOnPremisesInstance_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-CDOnPremiseInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan pendaftaran instans lokal dengan nama yang ditentukan.**  

```
Unregister-CDOnPremiseInstance -InstanceName AssetTag12010298EX
```
+  Untuk detail API, lihat [DeregisterOnPremisesInstance](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CDApplication`
<a name="codedeploy_UpdateApplication_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CDApplication`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah nama aplikasi yang ditentukan.**  

```
Update-CDApplication -ApplicationName MyNewApplication -NewApplicationName MyNewApplication-2
```
+  Untuk detail API, lihat [UpdateApplication](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CDDeploymentGroup`
<a name="codedeploy_UpdateDeploymentGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CDDeploymentGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah nama grup penyebaran yang ditentukan untuk aplikasi yang ditentukan.**  

```
Update-CDDeploymentGroup -ApplicationName MyNewApplication -CurrentDeploymentGroupName MyNewDeploymentGroup -NewDeploymentGroupName MyNewDeploymentGroup-2
```
**Contoh 2: Contoh ini menunjukkan cara menentukan grup tag instans EC2 yang harus diidentifikasi oleh sebuah instance agar dapat disertakan dalam lingkungan pengganti untuk blue/green penerapan.**  

```
Update-CDDeploymentGroup -ApplicationName MyNewApplication -CurrentDeploymentGroupName MyNewDeploymentGroup -NewDeploymentGroupName MyNewDeploymentGroup-2 -Ec2TagSetList @(@{Key="key1";Type="KEY_ONLY"},@{Key="Key2";Type="KEY_AND_VALUE";Value="Value2"}),@(@{Key="Key3";Type="VALUE_ONLY";Value="Value3"})
```
+  Untuk detail API, lihat [UpdateDeploymentGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# CodePipeline contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_codepipeline_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan CodePipeline.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Confirm-CPJob`
<a name="codepipeline_AcknowledgeJob_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Confirm-CPJob`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan status pekerjaan yang ditentukan.**  

```
Confirm-CPJob -JobId f570dc12-5ef3-44bc-945a-6e133EXAMPLE -Nonce 3
```
**Output:**  

```
Value
-----
InProgress
```
+  Untuk detail API, lihat [AcknowledgeJob](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-CPStageTransition`
<a name="codepipeline_DisableStageTransition_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-CPStageTransition`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan transisi masuk untuk tahap tertentu dalam pipeline yang ditentukan.**  

```
Disable-CPStageTransition -PipelineName CodePipelineDemo -Reason "Disabling temporarily." -StageName Beta -TransitionType Inbound
```
+  Untuk detail API, lihat [DisableStageTransition](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-CPStageTransition`
<a name="codepipeline_EnableStageTransition_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-CPStageTransition`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan transisi inbound untuk tahap tertentu dalam pipeline yang ditentukan.**  

```
Enable-CPStageTransition -PipelineName CodePipelineDemo -StageName Beta -TransitionType Inbound
```
+  Untuk detail API, lihat [EnableStageTransition](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CPActionType`
<a name="codepipeline_ListActionTypes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPActionType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang semua tindakan yang tersedia untuk pemilik yang ditentukan.**  

```
ForEach ($actionType in (Get-CPActionType -ActionOwnerFilter AWS)) {
  Write-Output ("For Category = " + $actionType.Id.Category + ", Owner = " + $actionType.Id.Owner + ", Provider = " + $actionType.Id.Provider + ", Version = " + $actionType.Id.Version + ":")
  Write-Output ("  ActionConfigurationProperties:")
  ForEach ($acp in $actionType.ActionConfigurationProperties) {
    Write-Output ("    For " + $acp.Name + ":")
    Write-Output ("      Description = " + $acp.Description)
    Write-Output ("      Key = " + $acp.Key)
    Write-Output ("      Queryable = " + $acp.Queryable)
    Write-Output ("      Required = " + $acp.Required)
    Write-Output ("      Secret = " + $acp.Secret)
  }
  Write-Output ("  InputArtifactDetails:")
  Write-Output ("    MaximumCount = " + $actionType.InputArtifactDetails.MaximumCount)
  Write-Output ("    MinimumCount = " + $actionType.InputArtifactDetails.MinimumCount)
  Write-Output ("  OutputArtifactDetails:")
  Write-Output ("    MaximumCount = " + $actionType.OutputArtifactDetails.MaximumCount)
  Write-Output ("    MinimumCount = " + $actionType.OutputArtifactDetails.MinimumCount)
  Write-Output ("  Settings:")
  Write-Output ("    EntityUrlTemplate = " + $actionType.Settings.EntityUrlTemplate)
  Write-Output ("    ExecutionUrlTemplate = " + $actionType.Settings.ExecutionUrlTemplate)
}
```
**Output:**  

```
For Category = Deploy, Owner = AWS, Provider = ElasticBeanstalk, Version = 1:
  ActionConfigurationProperties:
    For ApplicationName:
      Description = The AWS Elastic Beanstalk Application name
      Key = True
      Queryable = False
      Required = True
      Secret = False
    For EnvironmentName:
      Description = The AWS Elastic Beanstalk Environment name
      Key = True
      Queryable = False
      Required = True
      Secret = False
  InputArtifactDetails:
    MaximumCount = 1
    MinimumCount = 1
  OutputArtifactDetails:
    MaximumCount = 0
    MinimumCount = 0
  Settings:
    EntityUrlTemplate = https://console.aws.amazon.com/elasticbeanstalk/r/application/{Config:ApplicationName}
    ExecutionUrlTemplate = https://console.aws.amazon.com/elasticbeanstalk/r/application/{Config:ApplicationName} 
For Category = Deploy, Owner = AWS, Provider = CodeDeploy, Version = 1:
  ActionConfigurationProperties:
    For ApplicationName:
      Description = The AWS CodeDeploy Application name
      Key = True
      Queryable = False
      Required = True
      Secret = False
    For DeploymentGroupName:
      Description = The AWS CodeDeploy Deployment Group name
      Key = True
      Queryable = False
      Required = True
      Secret = False
  InputArtifactDetails:
    MaximumCount = 1
    MinimumCount = 1
  OutputArtifactDetails:
    MaximumCount = 0
    MinimumCount = 0
  Settings:
    EntityUrlTemplate = https://console.aws.amazon.com/codedeploy/home?#/applications/{Config:ApplicationName}/deployment-groups/{Config:DeploymentGroupName}
    ExecutionUrlTemplate = https://console.aws.amazon.com/codedeploy/home?#/deployments/{ExternalExecutionId}
```
+  Untuk detail API, lihat [ListActionTypes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CPActionableJobList`
<a name="codepipeline_PollForJobs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPActionableJobList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi tentang semua pekerjaan yang dapat ditindaklanjuti untuk kategori tindakan tertentu, pemilik, penyedia, versi, dan parameter kueri.**  

```
Get-CPActionableJobList -ActionTypeId_Category Build -ActionTypeId_Owner Custom -ActionTypeId_Provider MyCustomProviderName -ActionTypeId_Version 1 -QueryParam @{"ProjectName" = "MyProjectName"}
```
**Output:**  

```
AccountId       Data                                 Id                                      Nonce
---------       ----                                 --                                      -----
80398EXAMPLE    Amazon.CodePipeline.Model.JobData    0de392f5-712d-4f41-ace3-f57a0EXAMPLE    3
```
+  Untuk detail API, lihat [PollForJobs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CPJobDetail`
<a name="codepipeline_GetJobDetails_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPJobDetail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi umum tentang pekerjaan yang ditentukan.**  

```
Get-CPJobDetail -JobId f570dc12-5ef3-44bc-945a-6e133EXAMPLE
```
**Output:**  

```
AccountId       Data                                 Id
---------       ----                                 --
80398EXAMPLE    Amazon.CodePipeline.Model.JobData    f570dc12-5ef3-44bc-945a-6e133EXAMPLE
```
**Contoh 2: Contoh ini mendapatkan informasi rinci tentang pekerjaan yang ditentukan.**  

```
$jobDetails = Get-CPJobDetail -JobId f570dc12-5ef3-44bc-945a-6e133EXAMPLE
Write-Output ("For Job " + $jobDetails.Id + ":")
Write-Output ("  AccountId = " + $jobDetails.AccountId)
$jobData = $jobDetails.Data
Write-Output ("  Configuration:")
ForEach ($key in $jobData.ActionConfiguration.Keys) {
  $value = $jobData.ActionConfiguration.$key
  Write-Output ("    " + $key + " = " + $value)
}
Write-Output ("  ActionTypeId:")
Write-Output ("    Category = " + $jobData.ActionTypeId.Category)
Write-Output ("    Owner = " + $jobData.ActionTypeId.Owner)
Write-Output ("    Provider = " + $jobData.ActionTypeId.Provider)
Write-Output ("    Version = " + $jobData.ActionTypeId.Version)
Write-Output ("  ArtifactCredentials:")
Write-Output ("    AccessKeyId = " + $jobData.ArtifactCredentials.AccessKeyId)
Write-Output ("    SecretAccessKey = " + $jobData.ArtifactCredentials.SecretAccessKey)
Write-Output ("    SessionToken = " + $jobData.ArtifactCredentials.SessionToken)
Write-Output ("  InputArtifacts:")
ForEach ($ia in $jobData.InputArtifacts) {
  Write-Output ("    " + $ia.Name)
}
Write-Output ("  OutputArtifacts:")
ForEach ($oa in $jobData.OutputArtifacts) {
  Write-Output ("    " + $oa.Name)
}
Write-Output ("  PipelineContext:")
$context = $jobData.PipelineContext
Write-Output ("    Name = " + $context.Action.Name)
Write-Output ("    PipelineName = " + $context.PipelineName)
Write-Output ("    Stage = " + $context.Stage.Name)
```
**Output:**  

```
For Job f570dc12-5ef3-44bc-945a-6e133EXAMPLE:
  AccountId = 80398EXAMPLE
  Configuration:
  ActionTypeId:
    Category = Build
    Owner = Custom
    Provider = MyCustomProviderName
    Version = 1
  ArtifactCredentials:
    AccessKeyId = ASIAIEI3...IXI6YREX
    SecretAccessKey = cqAFDhEi...RdQyfa2u
    SessionToken = AQoDYXdz...5u+lsAU=
  InputArtifacts:
    MyApp
  OutputArtifacts:
    MyAppBuild
  PipelineContext:
    Name = Build
    PipelineName = CodePipelineDemo
    Stage = Build
```
+  Untuk detail API, lihat [GetJobDetails](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CPPipeline`
<a name="codepipeline_GetPipeline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPPipeline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi umum tentang pipeline yang ditentukan.**  

```
Get-CPPipeline -Name CodePipelineDemo -Version 1
```
**Output:**  

```
ArtifactStore : Amazon.CodePipeline.Model.ArtifactStore
Name          : CodePipelineDemo
RoleArn       : arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole
Stages        : {Source, Build, Beta, TestStage}
Version       : 1
```
**Contoh 2: Contoh ini mendapatkan informasi rinci tentang pipeline yang ditentukan.**  

```
$pipeline = Get-CPPipeline -Name CodePipelineDemo
Write-Output ("Name = " + $pipeline.Name)
Write-Output ("RoleArn = " + $pipeline.RoleArn)
Write-Output ("Version = " + $pipeline.Version)
Write-Output ("ArtifactStore:")
Write-Output ("  Location = " + $pipeline.ArtifactStore.Location)
Write-Output ("  Type = " + $pipeline.ArtifactStore.Type.Value)
Write-Output ("Stages:")
ForEach ($stage in $pipeline.Stages) {
  Write-Output ("  Name = " + $stage.Name)
  Write-Output ("    Actions:")
  ForEach ($action in $stage.Actions) {
    Write-Output ("      Name = " + $action.Name)
	Write-Output ("        Category = " + $action.ActionTypeId.Category)
	Write-Output ("        Owner = " + $action.ActionTypeId.Owner)
	Write-Output ("        Provider = " + $action.ActionTypeId.Provider)
	Write-Output ("        Version = " + $action.ActionTypeId.Version)
	Write-Output ("        Configuration:")
	ForEach ($key in $action.Configuration.Keys) {
	  $value = $action.Configuration.$key
	  Write-Output ("          " + $key + " = " + $value)
	}
	Write-Output ("        InputArtifacts:")
	ForEach ($ia in $action.InputArtifacts) {
	  Write-Output ("          " + $ia.Name)
	}
	ForEach ($oa in $action.OutputArtifacts) {
	  Write-Output ("          " + $oa.Name)
	}
	Write-Output ("        RunOrder = " + $action.RunOrder)
  }
}
```
**Output:**  

```
Name = CodePipelineDemo
RoleArn = arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole
Version = 3
ArtifactStore:
  Location = amzn-s3-demo-bucket
  Type = S3
Stages:
  Name = Source
    Actions:
      Name = Source
        Category = Source
        Owner = ThirdParty
        Provider = GitHub
        Version = 1
        Configuration:
          Branch = master
          OAuthToken = ****
          Owner = my-user-name
          Repo = MyRepoName
        InputArtifacts:
          MyApp
        RunOrder = 1
  Name = Build
    Actions:
      Name = Build
        Category = Build
        Owner = Custom
        Provider = MyCustomProviderName
        Version = 1
        Configuration:
          ProjectName = MyProjectName
        InputArtifacts:
          MyApp
          MyAppBuild
        RunOrder = 1
  Name = Beta
    Actions:
      Name = CodePipelineDemoFleet
        Category = Deploy
        Owner = AWS
        Provider = CodeDeploy
        Version = 1
        Configuration:
          ApplicationName = CodePipelineDemoApplication
          DeploymentGroupName = CodePipelineDemoFleet
        InputArtifacts:
          MyAppBuild
        RunOrder = 1
  Name = TestStage
    Actions:
      Name = MyJenkinsTestAction
        Category = Test
        Owner = Custom
        Provider = MyCustomTestProvider
        Version = 1
        Configuration:
          ProjectName = MyJenkinsProjectName
        InputArtifacts:
          MyAppBuild
        RunOrder = 1
```
+  Untuk detail API, lihat [GetPipeline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CPPipelineList`
<a name="codepipeline_ListPipelines_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPPipelineList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan daftar pipeline yang tersedia.**  

```
Get-CPPipelineList
```
**Output:**  

```
Created                  Name                Updated                  Version
-------                  ----                -------                  -------
8/13/2015 10:17:54 PM    CodePipelineDemo    8/13/2015 10:17:54 PM    3
7/8/2015 2:41:53 AM      MyFirstPipeline     7/22/2015 9:06:37 PM     7
```
+  Untuk detail API, lihat [ListPipelines](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CPPipelineState`
<a name="codepipeline_GetPipelineState_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CPPipelineState`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan informasi umum tentang tahapan untuk pipeline yang ditentukan.**  

```
Get-CPPipelineState -Name CodePipelineDemo
```
**Output:**  

```
Created         : 8/13/2015 10:17:54 PM
PipelineName    : CodePipelineDemo
PipelineVersion : 1
StageStates     : {Source, Build, Beta, TestStage}
Updated         : 8/13/2015 10:17:54 PM
```
**Contoh 2: Contoh ini mendapatkan informasi rinci tentang keadaan pipa yang ditentukan.**  

```
ForEach ($stageState in (Get-CPPipelineState -Name $arg).StageStates) {
  Write-Output ("For " + $stageState.StageName + ":")
  Write-Output ("  InboundTransitionState:")
  Write-Output ("    DisabledReason = " + $stageState.InboundTransitionState.DisabledReason)
  Write-Output ("    Enabled = " + $stageState.InboundTransitionState.Enabled)
  Write-Output ("    LastChangedAt = " + $stageState.InboundTransitionState.LastChangedAt)
  Write-Output ("    LastChangedBy = " + $stageState.InboundTransitionState.LastChangedBy)
  Write-Output ("  ActionStates:")
  ForEach ($actionState in $stageState.ActionStates) {
    Write-Output ("    For " + $actionState.ActionName + ":")
	Write-Output ("      CurrentRevision:")
    Write-Output ("        Created = " + $actionState.CurrentRevision.Created)
	Write-Output ("        RevisionChangeId = " + $actionState.CurrentRevision.RevisionChangeId)
	Write-Output ("        RevisionId = " + $actionState.CurrentRevision.RevisionId)
	Write-Output ("      EntityUrl = " + $actionState.EntityUrl)
	Write-Output ("      LatestExecution:")
    Write-Output ("        ErrorDetails:")
    Write-Output ("          Code = " + $actionState.LatestExecution.ErrorDetails.Code)
	Write-Output ("          Message = " + $actionState.LatestExecution.ErrorDetails.Message)
	Write-Output ("        ExternalExecutionId = " + $actionState.LatestExecution.ExternalExecutionId)
	Write-Output ("        ExternalExecutionUrl = " + $actionState.LatestExecution.ExternalExecutionUrl)
	Write-Output ("        LastStatusChange	= " + $actionState.LatestExecution.LastStatusChange)
	Write-Output ("        PercentComplete = " + $actionState.LatestExecution.PercentComplete)
	Write-Output ("        Status = " + $actionState.LatestExecution.Status)
	Write-Output ("        Summary = " + $actionState.LatestExecution.Summary)
	Write-Output ("      RevisionUrl = " + $actionState.RevisionUrl)
  }
}
```
**Output:**  

```
For Source:
  InboundTransitionState:
    DisabledReason =
    Enabled =
    LastChangedAt =
    LastChangedBy =
  ActionStates:
    For Source:
      CurrentRevision:
        Created =
        RevisionChangeId =
        RevisionId =
      EntityUrl = https://github.com/my-user-name/MyRepoName/tree/master
      LatestExecution:
        ErrorDetails:
          Code =
          Message =
        ExternalExecutionId =
        ExternalExecutionUrl =
        LastStatusChange = 07/20/2015 23:28:45
        PercentComplete = 0
        Status = Succeeded
        Summary =
      RevisionUrl =
For Build:
  InboundTransitionState:
    DisabledReason =
    Enabled = True
    LastChangedAt = 01/01/0001 00:00:00
    LastChangedBy =
  ActionStates:
    For Build:
      CurrentRevision:
        Created =
        RevisionChangeId =
        RevisionId =
      EntityUrl = http://54.174.131.1EX/job/MyJenkinsDemo
      LatestExecution:
        ErrorDetails:
          Code = TimeoutError
          Message = The action failed because a job worker exceeded its time limit. If this is a custom action, make sure that the job worker is configured correctly.
        ExternalExecutionId =
        ExternalExecutionUrl =
        LastStatusChange = 07/21/2015 00:29:29
        PercentComplete = 0
        Status = Failed
        Summary =
      RevisionUrl =
For Beta:
  InboundTransitionState:
    DisabledReason =
    Enabled = True
    LastChangedAt = 01/01/0001 00:00:00
    LastChangedBy =
  ActionStates:
    For CodePipelineDemoFleet:
      CurrentRevision:
        Created =
        RevisionChangeId =
        RevisionId =
      EntityUrl = https://console.aws.amazon.com/codedeploy/home?#/applications/CodePipelineDemoApplication/deployment-groups/CodePipelineDemoFleet
      LatestExecution:
        ErrorDetails:
          Code =
          Message =
        ExternalExecutionId = d-D5LTCZXEX
        ExternalExecutionUrl = https://console.aws.amazon.com/codedeploy/home?#/deployments/d-D5LTCZXEX
        LastStatusChange = 07/08/2015 22:07:42
        PercentComplete = 0
        Status = Succeeded
        Summary = Deployment Succeeded
      RevisionUrl =
For TestStage:
  InboundTransitionState:
    DisabledReason =
    Enabled = True
    LastChangedAt = 01/01/0001 00:00:00
    LastChangedBy =
  ActionStates:
    For MyJenkinsTestAction25:
      CurrentRevision:
        Created =
        RevisionChangeId =
        RevisionId =
      EntityUrl = http://54.174.131.1EX/job/MyJenkinsDemo
      LatestExecution:
        ErrorDetails:
          Code =
          Message =
        ExternalExecutionId = 5
        ExternalExecutionUrl = http://54.174.131.1EX/job/MyJenkinsDemo/5
        LastStatusChange = 07/08/2015 22:09:03
        PercentComplete = 0
        Status = Succeeded
        Summary = Finished
      RevisionUrl =
```
+  Untuk detail API, lihat [GetPipelineState](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CPCustomActionType`
<a name="codepipeline_CreateCustomActionType_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CPCustomActionType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat tindakan kustom baru dengan properti yang ditentukan.**  

```
New-CPCustomActionType -Category Build -ConfigurationProperty @{"Description" = "The name of the build project must be provided when this action is added to the pipeline."; "Key" = $True; "Name" = "ProjectName"; "Queryable" = $False; "Required" = $True; "Secret" = $False; "Type" = "String"} -Settings_EntityUrlTemplate "https://my-build-instance/job/{Config:ProjectName}/" -Settings_ExecutionUrlTemplate "https://my-build-instance/job/mybuildjob/lastSuccessfulBuild{ExternalExecutionId}/" -InputArtifactDetails_MaximumCount 1 -OutputArtifactDetails_MaximumCount 1 -InputArtifactDetails_MinimumCount 0 -OutputArtifactDetails_MinimumCount 0 -Provider "MyBuildProviderName" -Version 1
```
**Output:**  

```
ActionConfigurationProperties : {ProjectName}
Id                            : Amazon.CodePipeline.Model.ActionTypeId
InputArtifactDetails          : Amazon.CodePipeline.Model.ArtifactDetails
OutputArtifactDetails         : Amazon.CodePipeline.Model.ArtifactDetails
Settings                      : Amazon.CodePipeline.Model.ActionTypeSettings
```
+  Untuk detail API, lihat [CreateCustomActionType](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CPPipeline`
<a name="codepipeline_CreatePipeline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CPPipeline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat pipeline baru dengan pengaturan yang ditentukan.**  

```
$pipeline = New-Object Amazon.CodePipeline.Model.PipelineDeclaration

$sourceStageAction = New-Object Amazon.CodePipeline.Model.ActionDeclaration
$deployStageAction = New-Object Amazon.CodePipeline.Model.ActionDeclaration

$sourceStageActionOutputArtifact = New-Object Amazon.CodePipeline.Model.OutputArtifact
$sourceStageActionOutputArtifact.Name = "MyApp"

$sourceStageAction.ActionTypeId = @{"Category" = "Source"; "Owner" = "AWS"; "Provider" = "S3"; "Version" = 1}
$sourceStageAction.Configuration.Add("S3Bucket", "amzn-s3-demo-bucket")
$sourceStageAction.Configuration.Add("S3ObjectKey", "my-object-key-name.zip")
$sourceStageAction.OutputArtifacts.Add($sourceStageActionOutputArtifact)
$sourceStageAction.Name = "Source"

$deployStageActionInputArtifact = New-Object Amazon.CodePipeline.Model.InputArtifact
$deployStageActionInputArtifact.Name = "MyApp"

$deployStageAction.ActionTypeId = @{"Category" = "Deploy"; "Owner" = "AWS"; "Provider" = "CodeDeploy"; "Version" = 1}
$deployStageAction.Configuration.Add("ApplicationName", "CodePipelineDemoApplication")
$deployStageAction.Configuration.Add("DeploymentGroupName", "CodePipelineDemoFleet")
$deployStageAction.InputArtifacts.Add($deployStageActionInputArtifact)
$deployStageAction.Name = "CodePipelineDemoFleet"

$sourceStage = New-Object Amazon.CodePipeline.Model.StageDeclaration
$deployStage = New-Object Amazon.CodePipeline.Model.StageDeclaration

$sourceStage.Name = "Source"
$deployStage.Name = "Beta"

$sourceStage.Actions.Add($sourceStageAction)
$deployStage.Actions.Add($deployStageAction)

$pipeline.ArtifactStore = @{"Location" = "amzn-s3-demo-bucket"; "Type" = "S3"}
$pipeline.Name = "CodePipelineDemo"
$pipeline.RoleArn = "arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole"
$pipeline.Stages.Add($sourceStage)
$pipeline.Stages.Add($deployStage)
$pipeline.Version = 1

New-CPPipeline -Pipeline $pipeline
```
**Output:**  

```
ArtifactStore : Amazon.CodePipeline.Model.ArtifactStore
Name          : CodePipelineDemo
RoleArn       : arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole
Stages        : {Source, Beta}
Version       : 1
```
+  Untuk detail API, lihat [CreatePipeline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CPCustomActionType`
<a name="codepipeline_DeleteCustomActionType_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CPCustomActionType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tindakan kustom yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus tindakan kustom tanpa prompt.**  

```
Remove-CPCustomActionType -Category Build -Provider MyBuildProviderName -Version 1
```
+  Untuk detail API, lihat [DeleteCustomActionType](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CPPipeline`
<a name="codepipeline_DeletePipeline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CPPipeline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus pipeline yang ditentukan. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan parameter -Force untuk menghapus pipeline tanpa prompt.**  

```
Remove-CPPipeline -Name CodePipelineDemo
```
+  Untuk detail API, lihat [DeletePipeline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-CPPipelineExecution`
<a name="codepipeline_StartPipelineExecution_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-CPPipelineExecution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mulai menjalankan pipeline yang ditentukan.**  

```
Start-CPPipelineExecution -Name CodePipelineDemo
```
+  Untuk detail API, lihat [StartPipelineExecution](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CPPipeline`
<a name="codepipeline_UpdatePipeline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CPPipeline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui pipeline yang ada yang ditentukan dengan pengaturan yang ditentukan.**  

```
$pipeline = New-Object Amazon.CodePipeline.Model.PipelineDeclaration

$sourceStageAction = New-Object Amazon.CodePipeline.Model.ActionDeclaration
$deployStageAction = New-Object Amazon.CodePipeline.Model.ActionDeclaration

$sourceStageActionOutputArtifact = New-Object Amazon.CodePipeline.Model.OutputArtifact
$sourceStageActionOutputArtifact.Name = "MyApp"

$sourceStageAction.ActionTypeId = @{"Category" = "Source"; "Owner" = "AWS"; "Provider" = "S3"; "Version" = 1}
$sourceStageAction.Configuration.Add("S3Bucket", "amzn-s3-demo-bucket")
$sourceStageAction.Configuration.Add("S3ObjectKey", "my-object-key-name.zip")
$sourceStageAction.OutputArtifacts.Add($sourceStageActionOutputArtifact)
$sourceStageAction.Name = "Source"

$deployStageActionInputArtifact = New-Object Amazon.CodePipeline.Model.InputArtifact
$deployStageActionInputArtifact.Name = "MyApp"

$deployStageAction.ActionTypeId = @{"Category" = "Deploy"; "Owner" = "AWS"; "Provider" = "CodeDeploy"; "Version" = 1}
$deployStageAction.Configuration.Add("ApplicationName", "CodePipelineDemoApplication")
$deployStageAction.Configuration.Add("DeploymentGroupName", "CodePipelineDemoFleet")
$deployStageAction.InputArtifacts.Add($deployStageActionInputArtifact)
$deployStageAction.Name = "CodePipelineDemoFleet"

$sourceStage = New-Object Amazon.CodePipeline.Model.StageDeclaration
$deployStage = New-Object Amazon.CodePipeline.Model.StageDeclaration

$sourceStage.Name = "MyInputFiles"
$deployStage.Name = "MyTestDeployment"

$sourceStage.Actions.Add($sourceStageAction)
$deployStage.Actions.Add($deployStageAction)

$pipeline.ArtifactStore = @{"Location" = "amzn-s3-demo-bucket"; "Type" = "S3"}
$pipeline.Name = "CodePipelineDemo"
$pipeline.RoleArn = "arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole"
$pipeline.Stages.Add($sourceStage)
$pipeline.Stages.Add($deployStage)
$pipeline.Version = 1

Update-CPPipeline -Pipeline $pipeline
```
**Output:**  

```
ArtifactStore : Amazon.CodePipeline.Model.ArtifactStore
Name          : CodePipelineDemo
RoleArn       : arn:aws:iam::80398EXAMPLE:role/CodePipelineServiceRole
Stages        : {InputFiles, TestDeployment}
Version       : 2
```
+  Untuk detail API, lihat [UpdatePipeline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Identitas Amazon Cognito menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_cognito-identity_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Identitas Amazon Cognito.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-CGIIdentityPool`
<a name="cognito-identity_DescribeIdentityPool_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CGIIdentityPool`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengambil informasi tentang Identity Pool tertentu dengan idnya.**  

```
Get-CGIIdentityPool -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
```
**Output:**  

```
LoggedAt                       : 8/12/2015 4:29:40 PM
AllowUnauthenticatedIdentities : True
DeveloperProviderName          :
IdentityPoolId                 : us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
IdentityPoolName               : CommonTests1
OpenIdConnectProviderARNs      : {}
SupportedLoginProviders        : {}
ResponseMetadata               : Amazon.Runtime.ResponseMetadata
ContentLength                  : 142
HttpStatusCode                 : OK
```
+  Untuk detail API, lihat [DescribeIdentityPool](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CGIIdentityPoolList`
<a name="cognito-identity_ListIdentityPools_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CGIIdentityPoolList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengambil daftar Identity Pools yang ada.**  

```
Get-CGIIdentityPoolList
```
**Output:**  

```
IdentityPoolId                                                     IdentityPoolName
--------------                                                     ----------------
us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1                     CommonTests1
us-east-1:118d242d-204e-4b88-b803-EXAMPLEGUID2                     Tests2
us-east-1:15d49393-ab16-431a-b26e-EXAMPLEGUID3                     CommonTests13
```
+  Untuk detail API, lihat [ListIdentityPools](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CGIIdentityPoolRole`
<a name="cognito-identity_GetIdentityPoolRoles_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CGIIdentityPoolRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mendapatkan informasi tentang peran untuk Identity Pool tertentu.**  

```
Get-CGIIdentityPoolRole -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
```
**Output:**  

```
LoggedAt         : 8/12/2015 4:33:51 PM
IdentityPoolId   : us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
Roles            : {[unauthenticated, arn:aws:iam::123456789012:role/CommonTests1Role]}
ResponseMetadata : Amazon.Runtime.ResponseMetadata
ContentLength    : 165
HttpStatusCode   : OK
```
+  Untuk detail API, lihat [GetIdentityPoolRoles](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-CGIIdentityPool`
<a name="cognito-identity_CreateIdentityPool_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-CGIIdentityPool`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat Identity Pool baru yang memungkinkan identitas yang tidak diautentikasi.**  

```
New-CGIIdentityPool -AllowUnauthenticatedIdentities $true -IdentityPoolName CommonTests13
```
**Output:**  

```
LoggedAt                       : 8/12/2015 4:56:07 PM
AllowUnauthenticatedIdentities : True
DeveloperProviderName          :
IdentityPoolId                 : us-east-1:15d49393-ab16-431a-b26e-EXAMPLEGUID3
IdentityPoolName               : CommonTests13
OpenIdConnectProviderARNs      : {}
SupportedLoginProviders        : {}
ResponseMetadata               : Amazon.Runtime.ResponseMetadata
ContentLength                  : 136
HttpStatusCode                 : OK
```
+  Untuk detail API, lihat [CreateIdentityPool](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CGIIdentityPool`
<a name="cognito-identity_DeleteIdentityPool_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CGIIdentityPool`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus Identity Pool tertentu.**  

```
Remove-CGIIdentityPool -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
```
+  Untuk detail API, lihat [DeleteIdentityPool](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-CGIIdentityPoolRole`
<a name="cognito-identity_SetIdentityPoolRoles_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-CGIIdentityPoolRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengkonfigurasi Identity Pool tertentu untuk memiliki peran IAM yang tidak diautentikasi.**  

```
Set-CGIIdentityPoolRole -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1 -Role @{ "unauthenticated" = "arn:aws:iam::123456789012:role/CommonTests1Role" }
```
+  Untuk detail API, lihat [SetIdentityPoolRoles](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-CGIIdentityPool`
<a name="cognito-identity_UpdateIdentityPool_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-CGIIdentityPool`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui beberapa properti Identity Pool, dalam hal ini nama Identity Pool.**  

```
Update-CGIIdentityPool -IdentityPoolId us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1 -IdentityPoolName NewPoolName
```
**Output:**  

```
LoggedAt                       : 8/12/2015 4:53:33 PM
AllowUnauthenticatedIdentities : False
DeveloperProviderName          :
IdentityPoolId                 : us-east-1:0de2af35-2988-4d0b-b22d-EXAMPLEGUID1
IdentityPoolName               : NewPoolName
OpenIdConnectProviderARNs      : {}
SupportedLoginProviders        : {}
ResponseMetadata               : Amazon.Runtime.ResponseMetadata
ContentLength                  : 135
HttpStatusCode                 : OK
```
+  Untuk detail API, lihat [UpdateIdentityPool](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# AWS Config contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_config-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan AWS Config.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-CFGResourceTag`
<a name="config-service_TagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-CFGResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan tag tertentu ke ARN sumber daya, yaitu config-rule/config-rule-16iyn0 dalam kasus ini.**  

```
Add-CFGResourceTag -ResourceArn arn:aws:config:eu-west-1:123456789012:config-rule/config-rule-16iyn0 -Tag @{Key="Release";Value="Beta"}
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGAggregateComplianceByConfigRuleList`
<a name="config-service_DescribeAggregateComplianceByConfigRules_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateComplianceByConfigRuleList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil detail dari pemfilteran ConfigurationAggregator 'kaju' untuk aturan konfigurasi yang diberikan dan expands/returns 'Kepatuhan' aturan.**  

```
Get-CFGAggregateComplianceByConfigRuleList -ConfigurationAggregatorName kaju -Filters_ConfigRuleName ALB_HTTP_TO_HTTPS_REDIRECTION_CHECK | Select-Object -ExpandProperty Compliance
```
**Output:**  

```
ComplianceContributorCount                            ComplianceType
--------------------------                            --------------
Amazon.ConfigService.Model.ComplianceContributorCount NON_COMPLIANT
```
**Contoh 2: Contoh ini mengambil detail dari yang diberikan ConfigurationAggregator, menyaringnya untuk akun yang diberikan untuk semua wilayah yang tercakup dalam agregator dan selanjutnya menyetel kembali kepatuhan untuk semua aturan.**  

```
Get-CFGAggregateComplianceByConfigRuleList -ConfigurationAggregatorName kaju -Filters_AccountId 123456789012 | Select-Object ConfigRuleName, @{N="Compliance";E={$_.Compliance.ComplianceType}}
```
**Output:**  

```
ConfigRuleName                      Compliance
--------------                      ----------
ALB_HTTP_TO_HTTPS_REDIRECTION_CHECK NON_COMPLIANT
ec2-instance-no-public-ip           NON_COMPLIANT
desired-instance-type               NON_COMPLIANT
```
+  Untuk detail API, lihat [DescribeAggregateComplianceByConfigRules](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGAggregateComplianceDetailsByConfigRule`
<a name="config-service_GetAggregateComplianceDetailsByConfigRule_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateComplianceDetailsByConfigRule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan hasil evaluasi yang memilih output dengan resource-id dan resource-type untuk aturan AWS Config '' yang berada dalam status 'COMPLIANTdesired-instance-type' untuk akun, agregator, wilayah, dan aturan konfigurasi yang diberikan**  

```
Get-CFGAggregateComplianceDetailsByConfigRule -AccountId 123456789012 -AwsRegion eu-west-1 -ComplianceType COMPLIANT -ConfigRuleName desired-instance-type -ConfigurationAggregatorName raju | Select-Object -ExpandProperty EvaluationResultIdentifier | Select-Object -ExpandProperty EvaluationResultQualifier
```
**Output:**  

```
ConfigRuleName        ResourceId          ResourceType
--------------        ----------          ------------
desired-instance-type i-0f1bf2f34c5678d12 AWS::EC2::Instance
desired-instance-type i-0fd12dd3456789123 AWS::EC2::Instance
```
+  Untuk detail API, lihat [GetAggregateComplianceDetailsByConfigRule](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGAggregateConfigRuleComplianceSummary`
<a name="config-service_GetAggregateConfigRuleComplianceSummary_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateConfigRuleComplianceSummary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan jumlah aturan yang tidak sesuai untuk agregator yang diberikan.**  

```
(Get-CFGAggregateConfigRuleComplianceSummary -ConfigurationAggregatorName raju).AggregateComplianceCounts.ComplianceSummary.NonCompliantResourceCount
```
**Output:**  

```
CapExceeded CappedCount
----------- -----------
False       5
```
+  Untuk detail API, lihat [GetAggregateConfigRuleComplianceSummary](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGAggregateDiscoveredResourceCount`
<a name="config-service_GetAggregateDiscoveredResourceCounts_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateDiscoveredResourceCount`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan jumlah sumber daya untuk agregator yang diberikan yang difilter untuk wilayah us-east-1.**  

```
Get-CFGAggregateDiscoveredResourceCount -ConfigurationAggregatorName Master -Filters_Region us-east-1
```
**Output:**  

```
GroupByKey GroupedResourceCounts NextToken TotalDiscoveredResources
---------- --------------------- --------- ------------------------
           {}                              455
```
**Contoh 2: Contoh ini mengembalikan jumlah sumber daya yang dikelompokkan berdasarkan RESOURCE\$1TYPE untuk wilayah yang difilter untuk agregator yang diberikan.**  

```
Get-CFGAggregateDiscoveredResourceCount -ConfigurationAggregatorName Master -Filters_Region us-east-1 -GroupByKey RESOURCE_TYPE | 
			Select-Object -ExpandProperty GroupedResourceCounts
```
**Output:**  

```
GroupName                          ResourceCount
---------                          -------------
AWS::CloudFormation::Stack         12
AWS::CloudFront::Distribution      1
AWS::CloudTrail::Trail             1
AWS::DynamoDB::Table               1
AWS::EC2::EIP                      2
AWS::EC2::FlowLog                  2
AWS::EC2::InternetGateway          4
AWS::EC2::NatGateway               2
AWS::EC2::NetworkAcl               4
AWS::EC2::NetworkInterface         12
AWS::EC2::RouteTable               13
AWS::EC2::SecurityGroup            18
AWS::EC2::Subnet                   16
AWS::EC2::VPC                      4
AWS::EC2::VPCEndpoint              2
AWS::EC2::VPCPeeringConnection     1
AWS::IAM::Group                    2
AWS::IAM::Policy                   51
AWS::IAM::Role                     78
AWS::IAM::User                     7
AWS::Lambda::Function              3
AWS::RDS::DBSecurityGroup          1
AWS::S3::Bucket                    3
AWS::SSM::AssociationCompliance    107
AWS::SSM::ManagedInstanceInventory 108
```
+  Untuk detail API, lihat [GetAggregateDiscoveredResourceCounts](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGAggregateDiscoveredResourceList`
<a name="config-service_ListAggregateDiscoveredResources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateDiscoveredResourceList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan pengidentifikasi sumber daya untuk jenis sumber daya tertentu yang dikumpulkan dalam agregator 'Irlandia'. Untuk daftar jenis sumber daya, silakan periksa https://docs.aws.amazon.com/sdkfornet/ v4/ apidocs/index.html?page=ConfigService/TConfigServiceResourceType ConfigService .html&tocid=Amazon\$1 \$1. ResourceType**  

```
Get-CFGAggregateDiscoveredResourceList -ConfigurationAggregatorName Ireland -ResourceType ([Amazon.ConfigService.ResourceType]::AWSAutoScalingAutoScalingGroup)
```
**Output:**  

```
ResourceId      : arn:aws:autoscaling:eu-west-1:123456789012:autoScalingGroup:12e3b4fc-1234-1234-a123-1d2ba3c45678:autoScalingGroupName/asg-1
ResourceName    : asg-1
ResourceType    : AWS::AutoScaling::AutoScalingGroup
SourceAccountId : 123456789012
SourceRegion    : eu-west-1
```
**Contoh 2: Contoh ini mengembalikan jenis sumber daya `AwsEC2SecurityGroup` bernama 'default' untuk agregator yang diberikan disaring dengan wilayah us-east-1.**  

```
Get-CFGAggregateDiscoveredResourceList -ConfigurationAggregatorName raju -ResourceType ([Amazon.ConfigService.ResourceType]::AWSEC2SecurityGroup) -Filters_Region us-east-1 -Filters_ResourceName default
```
**Output:**  

```
ResourceId      : sg-01234bd5dbfa67c89
ResourceName    : default
ResourceType    : AWS::EC2::SecurityGroup
SourceAccountId : 123456789102
SourceRegion    : us-east-1

ResourceId      : sg-0123a4ebbf56789be
ResourceName    : default
ResourceType    : AWS::EC2::SecurityGroup
SourceAccountId : 123456789102
SourceRegion    : us-east-1

ResourceId      : sg-4fc1d234
ResourceName    : default
ResourceType    : AWS::EC2::SecurityGroup
SourceAccountId : 123456789102
SourceRegion    : us-east-1
```
+  Untuk detail API, lihat [ListAggregateDiscoveredResources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGAggregateResourceConfig`
<a name="config-service_GetAggregateResourceconfig-service_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateResourceConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan Item Konfigurasi untuk sumber daya yang diberikan digabungkan dan memperluas Konfigurasi.**  

```
(Get-CFGAggregateResourceConfig -ResourceIdentifier_SourceRegion us-east-1 -ResourceIdentifier_SourceAccountId 123456789012 -ResourceIdentifier_ResourceId sg-4fc1d234 -ResourceIdentifier_ResourceType ([Amazon.ConfigService.ResourceType]::AWSEC2SecurityGroup) -ConfigurationAggregatorName raju).Configuration | ConvertFrom-Json
```
**Output:**  

```
{"description":"default VPC security group","groupName":"default","ipPermissions":[{"ipProtocol":"-1","ipv6Ranges":[],"prefixListIds":[],"userIdGroupPairs":[{"groupId":"sg-4fc1d234","userId":"123456789012"}],"ipv4Ranges":[],"ipRanges":[]},{"fromPort":3389,"ipProtocol":"tcp","ipv6Ranges":[],"prefixListIds":[],"toPort":3389,"userIdGroupPairs":[],"ipv4Ranges":[{"cidrIp":"54.240.197.224/29","description":"office subnet"},{"cidrIp":"72.21.198.65/32","description":"home pc"}],"ipRanges":["54.240.197.224/29","72.21.198.65/32"]}],"ownerId":"123456789012","groupId":"sg-4fc1d234","ipPermissionsEgress":[{"ipProtocol":"-1","ipv6Ranges":[],"prefixListIds":[],"userIdGroupPairs":[],"ipv4Ranges":[{"cidrIp":"0.0.0.0/0"}],"ipRanges":["0.0.0.0/0"]}],"tags":[],"vpcId":"vpc-2d1c2e34"}
```
+  Untuk detail API, lihat [GetAggregateResourceconfig-service](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V5). 

### `Get-CFGAggregateResourceConfigBatch`
<a name="config-service_BatchGetAggregateResourceconfig-service_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregateResourceConfigBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil item konfigurasi saat ini untuk sumber daya (diidentifikasi) yang ada di agregator yang diberikan.**  

```
$resIdentifier=[Amazon.ConfigService.Model.AggregateResourceIdentifier]@{
		ResourceId= "i-012e3cb4df567e8aa"
		ResourceName = "arn:aws:ec2:eu-west-1:123456789012:instance/i-012e3cb4df567e8aa"
		ResourceType = [Amazon.ConfigService.ResourceType]::AWSEC2Instance
		SourceAccountId = "123456789012"
		SourceRegion = "eu-west-1"
	}
		
	Get-CFGAggregateResourceConfigBatch -ResourceIdentifier $resIdentifier -ConfigurationAggregatorName raju
```
**Output:**  

```
BaseConfigurationItems UnprocessedResourceIdentifiers
---------------------- ------------------------------
{}                     {arn:aws:ec2:eu-west-1:123456789012:instance/i-012e3cb4df567e8aa}
```
+  Untuk detail API, lihat [BatchGetAggregateResourceconfig-service](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V5). 

### `Get-CFGAggregationAuthorizationList`
<a name="config-service_DescribeAggregationAuthorizations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGAggregationAuthorizationList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil otorisasi yang diberikan kepada agregator.**  

```
Get-CFGAggregationAuthorizationList
```
**Output:**  

```
AggregationAuthorizationArn                                                            AuthorizedAccountId AuthorizedAwsRegion CreationTime
---------------------------                                                            ------------------- ------------------- ------------
arn:aws:config-service:eu-west-1:123456789012:aggregation-authorization/123456789012/eu-west-1 123456789012        eu-west-1           8/26/2019 12:55:27 AM
```
+  Untuk detail API, lihat [DescribeAggregationAuthorizations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGComplianceByConfigRule`
<a name="config-service_DescribeComplianceByConfigRule_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceByConfigRule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil rincian kepatuhan untuk aturan ebs-optimized-instance, yang tidak ada hasil evaluasi saat ini untuk aturan, sehingga mengembalikan INSUFFICIENT\$1DATA**  

```
(Get-CFGComplianceByConfigRule -ConfigRuleName ebs-optimized-instance).Compliance
```
**Output:**  

```
ComplianceContributorCount ComplianceType
-------------------------- --------------
                           INSUFFICIENT_DATA
```
**Contoh 2: Contoh ini mengembalikan jumlah sumber daya yang tidak sesuai untuk aturan ALB\$1HTTP\$1TO\$1HTTPS\$1REDIRECTION\$1CHECK.**  

```
(Get-CFGComplianceByConfigRule -ConfigRuleName ALB_HTTP_TO_HTTPS_REDIRECTION_CHECK -ComplianceType NON_COMPLIANT).Compliance.ComplianceContributorCount
```
**Output:**  

```
CapExceeded CappedCount
----------- -----------
False       2
```
+  Untuk detail API, lihat [DescribeComplianceByConfigRule](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGComplianceByResource`
<a name="config-service_DescribeComplianceByResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceByResource`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memeriksa jenis `AWS::SSM::ManagedInstanceInventory` sumber daya untuk jenis kepatuhan 'COMPLIANT'.**  

```
Get-CFGComplianceByResource -ComplianceType COMPLIANT -ResourceType AWS::SSM::ManagedInstanceInventory
```
**Output:**  

```
Compliance                            ResourceId          ResourceType
----------                            ----------          ------------
Amazon.ConfigService.Model.Compliance i-0123bcf4b567890e3 AWS::SSM::ManagedInstanceInventory
Amazon.ConfigService.Model.Compliance i-0a1234f6f5d6b78f7 AWS::SSM::ManagedInstanceInventory
```
+  Untuk detail API, lihat [DescribeComplianceByResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGComplianceDetailsByConfigRule`
<a name="config-service_GetComplianceDetailsByConfigRule_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceDetailsByConfigRule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperoleh hasil evaluasi untuk aturan access-keys-rotated dan mengembalikan output yang dikelompokkan berdasarkan tipe kepatuhan**  

```
Get-CFGComplianceDetailsByConfigRule -ConfigRuleName access-keys-rotated | Group-Object ComplianceType
```
**Output:**  

```
Count Name                      Group
----- ----                      -----
    2 COMPLIANT                 {Amazon.ConfigService.Model.EvaluationResult, Amazon.ConfigService.Model.EvaluationResult}
    5 NON_COMPLIANT             {Amazon.ConfigService.Model.EvaluationResult, Amazon.ConfigService.Model.EvaluationResult, Amazon.ConfigService.Model.EvaluationRes...
```
**Contoh 2: Contoh ini menanyakan detail kepatuhan access-keys-rotated untuk aturan sumber daya COMPLIANT.**  

```
Get-CFGComplianceDetailsByConfigRule -ConfigRuleName access-keys-rotated -ComplianceType COMPLIANT | ForEach-Object {$_.EvaluationResultIdentifier.EvaluationResultQualifier}
```
**Output:**  

```
ConfigRuleName      ResourceId            ResourceType
--------------      ----------            ------------
access-keys-rotated BCAB1CDJ2LITAPVEW3JAH AWS::IAM::User
access-keys-rotated BCAB1CDJ2LITL3EHREM4Q AWS::IAM::User
```
+  Untuk detail API, lihat [GetComplianceDetailsByConfigRule](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGComplianceDetailsByResource`
<a name="config-service_GetComplianceDetailsByResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceDetailsByResource`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh evaulasi ini menghasilkan sumber daya yang diberikan.**  

```
Get-CFGComplianceDetailsByResource -ResourceId ABCD5STJ4EFGHIVEW6JAH -ResourceType 'AWS::IAM::User'
```
**Output:**  

```
Annotation                 :
ComplianceType             : COMPLIANT
ConfigRuleInvokedTime      : 8/25/2019 11:34:56 PM
EvaluationResultIdentifier : Amazon.ConfigService.Model.EvaluationResultIdentifier
ResultRecordedTime         : 8/25/2019 11:34:56 PM
ResultToken                :
```
+  Untuk detail API, lihat [GetComplianceDetailsByResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGComplianceSummaryByConfigRule`
<a name="config-service_GetComplianceSummaryByConfigRule_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceSummaryByConfigRule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan jumlah aturan Config yang tidak sesuai.**  

```
Get-CFGComplianceSummaryByConfigRule -Select ComplianceSummary.NonCompliantResourceCount
```
**Output:**  

```
CapExceeded CappedCount
----------- -----------
False       9
```
+  Untuk detail API, lihat [GetComplianceSummaryByConfigRule](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGComplianceSummaryByResourceType`
<a name="config-service_GetComplianceSummaryByResourceType_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGComplianceSummaryByResourceType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini mengembalikan jumlah sumber daya yang sesuai atau tidak sesuai dan mengubah output menjadi json.**  

```
Get-CFGComplianceSummaryByResourceType -Select ComplianceSummariesByResourceType.ComplianceSummary | ConvertTo-Json
{
  "ComplianceSummaryTimestamp": "2019-12-14T06:14:49.778Z",
  "CompliantResourceCount": {
    "CapExceeded": false,
    "CappedCount": 2
  },
  "NonCompliantResourceCount": {
    "CapExceeded": true,
    "CappedCount": 100
  }
}
```
+  Untuk detail API, lihat [GetComplianceSummaryByResourceType](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGConfigRule`
<a name="config-service_DescribeConfigRules_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigRule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan aturan konfigurasi untuk akun, dengan properti yang dipilih.**  

```
Get-CFGConfigRule | Select-Object ConfigRuleName, ConfigRuleId, ConfigRuleArn, ConfigRuleState
```
**Output:**  

```
ConfigRuleName                                    ConfigRuleId       ConfigRuleArn                                                        ConfigRuleState
--------------                                    ------------       -------------                                                        ---------------
ALB_REDIRECTION_CHECK                             config-rule-12iyn3 arn:aws:config-service:eu-west-1:123456789012:config-rule/config-rule-12iyn3 ACTIVE
access-keys-rotated                               config-rule-aospfr arn:aws:config-service:eu-west-1:123456789012:config-rule/config-rule-aospfr ACTIVE
autoscaling-group-elb-healthcheck-required        config-rule-cn1f2x arn:aws:config-service:eu-west-1:123456789012:config-rule/config-rule-cn1f2x ACTIVE
```
+  Untuk detail API, lihat [DescribeConfigRules](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGConfigRuleEvaluationStatus`
<a name="config-service_DescribeConfigRuleEvaluationStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigRuleEvaluationStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan informasi status untuk aturan konfigurasi yang diberikan.**  

```
Get-CFGConfigRuleEvaluationStatus -ConfigRuleName root-account-mfa-enabled, vpc-flow-logs-enabled
```
**Output:**  

```
ConfigRuleArn                : arn:aws:config:eu-west-1:123456789012:config-rule/config-rule-kvq1wk
ConfigRuleId                 : config-rule-kvq1wk
ConfigRuleName               : root-account-mfa-enabled
FirstActivatedTime           : 8/27/2019 8:05:17 AM
FirstEvaluationStarted       : True
LastErrorCode                :
LastErrorMessage             :
LastFailedEvaluationTime     : 1/1/0001 12:00:00 AM
LastFailedInvocationTime     : 1/1/0001 12:00:00 AM
LastSuccessfulEvaluationTime : 12/13/2019 8:12:03 AM
LastSuccessfulInvocationTime : 12/13/2019 8:12:03 AM

ConfigRuleArn                : arn:aws:config:eu-west-1:123456789012:config-rule/config-rule-z1s23b
ConfigRuleId                 : config-rule-z1s23b
ConfigRuleName               : vpc-flow-logs-enabled
FirstActivatedTime           : 8/14/2019 6:23:44 AM
FirstEvaluationStarted       : True
LastErrorCode                :
LastErrorMessage             :
LastFailedEvaluationTime     : 1/1/0001 12:00:00 AM
LastFailedInvocationTime     : 1/1/0001 12:00:00 AM
LastSuccessfulEvaluationTime : 12/13/2019 7:12:01 AM
LastSuccessfulInvocationTime : 12/13/2019 7:12:01 AM
```
+  Untuk detail API, lihat [DescribeConfigRuleEvaluationStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGConfigurationAggregatorList`
<a name="config-service_DescribeConfigurationAggregators_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigurationAggregatorList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini mengembalikan semua agregator untuk wilayah/akun.**  

```
Get-CFGConfigurationAggregatorList
```
**Output:**  

```
AccountAggregationSources     : {Amazon.ConfigService.Model.AccountAggregationSource}
ConfigurationAggregatorArn    : arn:aws:config-service:eu-west-1:123456789012:config-aggregator/config-aggregator-xabca1me
ConfigurationAggregatorName   : IrelandMaster
CreationTime                  : 8/25/2019 11:42:39 PM
LastUpdatedTime               : 8/25/2019 11:42:39 PM
OrganizationAggregationSource :

AccountAggregationSources     : {}
ConfigurationAggregatorArn    : arn:aws:config-service:eu-west-1:123456789012:config-aggregator/config-aggregator-qubqabcd
ConfigurationAggregatorName   : raju
CreationTime                  : 8/11/2019 8:39:25 AM
LastUpdatedTime               : 8/11/2019 8:39:25 AM
OrganizationAggregationSource : Amazon.ConfigService.Model.OrganizationAggregationSource
```
+  Untuk detail API, lihat [DescribeConfigurationAggregators](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGConfigurationAggregatorSourcesStatus`
<a name="config-service_DescribeConfigurationAggregatorSourcesStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigurationAggregatorSourcesStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan bidang yang diminta untuk sumber dalam agregator yang diberikan.**  

```
Get-CFGConfigurationAggregatorSourcesStatus -ConfigurationAggregatorName raju | select SourceType, LastUpdateStatus, LastUpdateTime, SourceId
```
**Output:**  

```
SourceType   LastUpdateStatus LastUpdateTime        SourceId
----------   ---------------- --------------        --------
ORGANIZATION SUCCEEDED        12/31/2019 7:45:06 AM Organization
ACCOUNT      SUCCEEDED        12/31/2019 7:09:38 AM 612641234567
ACCOUNT      SUCCEEDED        12/31/2019 7:12:53 AM 933301234567
ACCOUNT      SUCCEEDED        12/31/2019 7:18:10 AM 933301234567
ACCOUNT      SUCCEEDED        12/31/2019 7:25:17 AM 933301234567
ACCOUNT      SUCCEEDED        12/31/2019 7:25:49 AM 612641234567
ACCOUNT      SUCCEEDED        12/31/2019 7:26:11 AM 612641234567
```
+  Untuk detail API, lihat [DescribeConfigurationAggregatorSourcesStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGConfigurationRecorder`
<a name="config-service_DescribeConfigurationRecorders_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigurationRecorder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian perekam konfigurasi.**  

```
Get-CFGConfigurationRecorder | Format-List
```
**Output:**  

```
Name           : default
RecordingGroup : Amazon.ConfigService.Model.RecordingGroup
RoleARN        : arn:aws:iam::123456789012:role/aws-service-role/config.amazonaws.com/AWSServiceRoleForConfig
```
+  Untuk detail API, lihat [DescribeConfigurationRecorders](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGConfigurationRecorderStatus`
<a name="config-service_DescribeConfigurationRecorderStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConfigurationRecorderStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini mengembalikan status perekam konfigurasi.**  

```
Get-CFGConfigurationRecorderStatus
```
**Output:**  

```
LastErrorCode        :
LastErrorMessage     :
LastStartTime        : 10/11/2019 10:13:51 AM
LastStatus           : Success
LastStatusChangeTime : 12/31/2019 6:14:12 AM
LastStopTime         : 10/11/2019 10:13:46 AM
Name                 : default
Recording            : True
```
+  Untuk detail API, lihat [DescribeConfigurationRecorderStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGConformancePack`
<a name="config-service_DescribeConformancePacks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGConformancePack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua paket kesesuaian.**  

```
Get-CFGConformancePack
```
**Output:**  

```
ConformancePackArn             : arn:aws:config:eu-west-1:123456789012:conformance-pack/dono/conformance-pack-p0acq8bpz
ConformancePackId              : conformance-pack-p0acabcde
ConformancePackInputParameters : {}
ConformancePackName            : dono
CreatedBy                      :
DeliveryS3Bucket               : kt-ps-examples
DeliveryS3KeyPrefix            :
LastUpdateRequestedTime        : 12/31/2019 8:45:31 AM
```
+  Untuk detail API, lihat [DescribeConformancePacks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGDeliveryChannel`
<a name="config-service_DescribeDeliveryChannels_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGDeliveryChannel`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil saluran pengiriman untuk wilayah tersebut dan menampilkan detailnya.**  

```
Get-CFGDeliveryChannel -Region eu-west-1 | Select-Object Name, S3BucketName, S3KeyPrefix, @{N="DeliveryFrequency";E={$_.ConfigSnapshotDeliveryProperties.DeliveryFrequency}}
```
**Output:**  

```
Name    S3BucketName               S3KeyPrefix DeliveryFrequency
----    ------------               ----------- -----------------
default config-bucket-NA my          TwentyFour_Hours
```
+  Untuk detail API, lihat [DescribeDeliveryChannels](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-CFGResourceTag`
<a name="config-service_ListTagsForResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-CFGResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan tag terkait untuk sumber daya yang diberikan**  

```
Get-CFGResourceTag -ResourceArn $rules[0].ConfigRuleArn
```
**Output:**  

```
Key     Value
---     -----
Version 1.3
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-CFGConformancePack`
<a name="config-service_DeleteConformancePack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-CFGConformancePack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini menghapus paket kesesuaian yang diberikan, bersama dengan semua aturan, tindakan remediasi, dan hasil evaluasi untuk paket tersebut.**  

```
Remove-CFGConformancePack -ConformancePackName dono
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-CFGConformancePack (DeleteConformancePack)" on target "dono".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteConformancePack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-CFGConformancePack`
<a name="config-service_PutConformancePack_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-CFGConformancePack`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat paket kesesuaian, mengambil template dari file yaml yang diberikan.**  

```
Write-CFGConformancePack -ConformancePackName dono -DeliveryS3Bucket amzn-s3-demo-bucket -TemplateBody (Get-Content C:\windows\temp\template.yaml -Raw)
```
+  Untuk detail API, lihat [PutConformancePack](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-CFGDeliveryChannel`
<a name="config-service_PutDeliveryChannel_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-CFGDeliveryChannel`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah properti DeliveryFrequency dari saluran pengiriman yang ada.**  

```
Write-CFGDeliveryChannel -ConfigSnapshotDeliveryProperties_DeliveryFrequency TwentyFour_Hours -DeliveryChannelName default -DeliveryChannel_S3BucketName amzn-s3-demo-bucket -DeliveryChannel_S3KeyPrefix my
```
+  Untuk detail API, lihat [PutDeliveryChannel](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Device Farm menggunakan Alat untuk PowerShell V5
<a name="powershell_5_device-farm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Device Farm.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-DFUpload`
<a name="device-farm_CreateUpload_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DFUpload`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat upload AWS Device Farm untuk aplikasi Android. Anda bisa mendapatkan proyek ARN dari output New- DFProject atau Get- DFProject List. Gunakan URL yang ditandatangani di DFUpload keluaran Baru untuk mengunggah file ke Device Farm.**  

```
New-DFUpload -ContentType "application/octet-stream" -ProjectArn "arn:aws:devicefarm:us-west-2:123456789012:project:EXAMPLEa-7ec1-4741-9c1f-d3e04EXAMPLE" -Name "app.apk" -Type ANDROID_APP
```
+  Untuk detail API, lihat [CreateUpload](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Directory Service contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_directory-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Directory Service.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-DSIpRoute`
<a name="directory-service_AddIpRoutes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-DSIpRoute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus Tag Sumber Daya yang ditetapkan ke ID Direktori yang ditentukan**  

```
Add-DSIpRoute -DirectoryId d-123456ijkl -IpRoute @{CidrIp ="203.0.113.5/32"} -UpdateSecurityGroupForDirectoryController $true
```
+  Untuk detail API, lihat [AddIpRoutes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-DSResourceTag`
<a name="directory-service_AddTagsToResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-DSResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menambahkan Tag Sumber Daya ke ID Direktori yang ditentukan**  

```
Add-DSResourceTag -ResourceId d-123456ijkl -Tag @{Key="myTag"; Value="mytgValue"}
```
+  Untuk detail API, lihat [AddTagsToResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Approve-DSTrust`
<a name="directory-service_VerifyTrust_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Approve-DSTrust`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memanggil operasi AWS Directory Service VerifyTrust API untuk Trustid tertentu.**  

```
Approve-DSTrust -TrustId t-9067157123
```
+  Untuk detail API, lihat [VerifyTrust](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Confirm-DSSharedDirectory`
<a name="directory-service_AcceptSharedDirectory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Confirm-DSSharedDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menerima permintaan berbagi direktori yang dikirim dari pemilik Akun AWS direktori.**  

```
Confirm-DSSharedDirectory -SharedDirectoryId d-9067012345
```
**Output:**  

```
CreatedDateTime     : 12/30/2019 4:20:27 AM
LastUpdatedDateTime : 12/30/2019 4:21:40 AM
OwnerAccountId      : 123456781234
OwnerDirectoryId    : d-123456ijkl
SharedAccountId     : 123456784321
SharedDirectoryId   : d-9067012345
ShareMethod         :
ShareNotes          : This is test sharing
ShareStatus         : Sharing
```
+  Untuk detail API, lihat [AcceptSharedDirectory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Connect-DSDirectory`
<a name="directory-service_ConnectDirectory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Connect-DSDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat AD Connector untuk terhubung ke direktori lokal.**  

```
Connect-DSDirectory -Name contoso.com -ConnectSettings_CustomerUserName Administrator -Password $Password -ConnectSettings_CustomerDnsIp 172.31.36.96 -ShortName CONTOSO -Size Small -ConnectSettings_VpcId vpc-123459da -ConnectSettings_SubnetId subnet-1234ccaa, subnet-5678ffbb
```
+  Untuk detail API, lihat [ConnectDirectory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Deny-DSSharedDirectory`
<a name="directory-service_RejectSharedDirectory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Deny-DSSharedDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menolak permintaan berbagi direktori yang dikirim dari akun pemilik direktori.**  

```
Deny-DSSharedDirectory -SharedDirectoryId d-9067012345
```
**Output:**  

```
d-9067012345
```
+  Untuk detail API, lihat [RejectSharedDirectory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-DSDirectoryShare`
<a name="directory-service_UnshareDirectory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-DSDirectoryShare`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghentikan pembagian direktori antara pemilik direktori dan akun konsumen.**  

```
Disable-DSDirectoryShare -DirectoryId d-123456ijkl -UnshareTarget_Id 123456784321 -UnshareTarget_Type ACCOUNT
```
**Output:**  

```
d-9067012345
```
+  Untuk detail API, lihat [UnshareDirectory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-DSLDAPS`
<a name="directory-service_DisableLDAPS_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-DSLDAPS`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan panggilan aman LDAP untuk direktori yang ditentukan.**  

```
Disable-DSLDAPS -DirectoryId d-123456ijkl -Type Client
```
+  Untuk detail API, lihat [menonaktifkan DAPS di Referensi Alat AWS untuk PowerShell](https://docs.aws.amazon.com/powershell/v5/reference) *Cmdlet* (V5). 

### `Disable-DSRadius`
<a name="directory-service_DisableRadius_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-DSRadius`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan server RADIUS yang dikonfigurasi untuk direktori AD Connector atau Microsoft AD.**  

```
Disable-DSRadius -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [DisableRadius](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-DSSso`
<a name="directory-service_DisableSso_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-DSSso`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan sistem masuk tunggal untuk sebuah direktori.**  

```
Disable-DSSso -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [DisableSso](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-DSDirectoryShare`
<a name="directory-service_ShareDirectory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-DSDirectoryShare`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membagikan direktori tertentu di AWS akun Anda dengan AWS Akun lain menggunakan metode Handshake.**  

```
Enable-DSDirectoryShare -DirectoryId d-123456ijkl -ShareTarget_Id 123456784321 -ShareMethod HANDSHAKE -ShareTarget_Type ACCOUNT
```
**Output:**  

```
d-9067012345
```
+  Untuk detail API, lihat [ShareDirectory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-DSLDAPS`
<a name="directory-service_EnableLDAPS_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-DSLDAPS`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaktifkan sakelar untuk direktori tertentu agar selalu menggunakan panggilan aman LDAP.**  

```
Enable-DSLDAPS -DirectoryId d-123456ijkl -Type Client
```
+  Untuk detail API, lihat [EnablelDAPS](https://docs.aws.amazon.com/powershell/v5/reference) di Referensi *Alat AWS untuk PowerShell Cmdlet* (V5). 

### `Enable-DSRadius`
<a name="directory-service_EnableRadius_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-DSRadius`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan otentikasi multi-faktor (MFA) dengan konfigurasi server RADIUS yang disediakan untuk Konektor AD atau direktori Microsoft AD.**  

```
Enable-DSRadius -DirectoryId d-123456ijkl 
-RadiusSettings_AuthenticationProtocol PAP 
-RadiusSettings_DisplayLabel Radius 
-RadiusSettings_RadiusPort 1812 
-RadiusSettings_RadiusRetry 4 
-RadiusSettings_RadiusServer 10.4.185.113 
-RadiusSettings_RadiusTimeout 50 
-RadiusSettings_SharedSecret wJalrXUtnFEMI
```
+  Untuk detail API, lihat [EnableRadius](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-DSSso`
<a name="directory-service_EnableSso_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-DSSso`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan sistem masuk tunggal untuk sebuah direktori.**  

```
Enable-DSSso -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [EnableSso](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSCertificate`
<a name="directory-service_DescribeCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan informasi tentang sertifikat yang terdaftar untuk koneksi LDAP yang aman.**  

```
Get-DSCertificate -DirectoryId d-123456ijkl -CertificateId c-906731e34f
```
**Output:**  

```
CertificateId      : c-906731e34f
CommonName         : contoso-EC2AMAZ-CTGG2NM-CA
ExpiryDateTime     : 4/15/2025 6:34:15 PM
RegisteredDateTime : 4/15/2020 6:38:56 PM
State              : Registered
StateReason        : Certificate registered successfully.
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSCertificateList`
<a name="directory-service_ListCertificates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSCertificateList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua sertifikat yang terdaftar untuk koneksi LDAP aman untuk direktori tertentu.**  

```
Get-DSCertificateList -DirectoryId d-123456ijkl
```
**Output:**  

```
CertificateId CommonName                 ExpiryDateTime       State
------------- ----------                 --------------       -----
c-906731e34f  contoso-EC2AMAZ-CTGG2NM-CA 4/15/2025 6:34:15 PM Registered
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSConditionalForwarder`
<a name="directory-service_DescribeConditionalForwarders_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSConditionalForwarder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mendapatkan semua Forwarder Bersyarat yang dikonfigurasi dari ID Direktori yang diberikan.**  

```
Get-DSConditionalForwarder -DirectoryId d-123456ijkl
```
**Output:**  

```
DnsIpAddrs      RemoteDomainName ReplicationScope
----------      ---------------- ----------------
{172.31.77.239} contoso.com      Domain
```
+  Untuk detail API, lihat [DescribeConditionalForwarders](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSDirectory`
<a name="directory-service_DescribeDirectories_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini Memperoleh informasi tentang direktori milik akun ini.**  

```
Get-DSDirectory | Select-Object DirectoryId, Name, DnsIpAddrs, Type
```
**Output:**  

```
DirectoryId  Name           DnsIpAddrs                     Type
-----------  ----           ----------                     ----
d-123456abcd abcd.example.com {172.31.74.189, 172.31.13.145} SimpleAD
d-123456efgh wifi.example.com {172.31.16.108, 172.31.10.56}  ADConnector
d-123456ijkl lan2.example.com {172.31.10.56, 172.31.16.108}  MicrosoftAD
```
+  Untuk detail API, lihat [DescribeDirectories](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSDirectoryLimit`
<a name="directory-service_GetDirectoryLimits_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSDirectoryLimit`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghilangkan informasi batas direktori untuk wilayah us-east-1.**  

```
Get-DSDirectoryLimit -Region us-east-1
```
**Output:**  

```
CloudOnlyDirectoriesCurrentCount : 1
CloudOnlyDirectoriesLimit        : 10
CloudOnlyDirectoriesLimitReached : False
CloudOnlyMicrosoftADCurrentCount : 1
CloudOnlyMicrosoftADLimit        : 20
CloudOnlyMicrosoftADLimitReached : False
ConnectedDirectoriesCurrentCount : 1
ConnectedDirectoriesLimit        : 10
```
+  Untuk detail API, lihat [GetDirectoryLimits](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSDomainControllerList`
<a name="directory-service_DescribeDomainControllers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSDomainControllerList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mendapatkan daftar rinci Pengontrol Domain yang diluncurkan untuk direktori-id yang disebutkan**  

```
Get-DSDomainControllerList -DirectoryId d-123456ijkl
```
**Output:**  

```
AvailabilityZone          : us-east-1b
DirectoryId               : d-123456ijkl
DnsIpAddr                 : 172.31.16.108
DomainControllerId        : dc-1234567aa6
LaunchTime                : 4/4/2019 4:53:43 AM
Status                    : Active
StatusLastUpdatedDateTime : 4/24/2019 1:37:54 PM
StatusReason              :
SubnetId                  : subnet-1234kkaa
VpcId                     : vpc-123459d

AvailabilityZone          : us-east-1d
DirectoryId               : d-123456ijkl
DnsIpAddr                 : 172.31.10.56
DomainControllerId        : dc-1234567aa7
LaunchTime                : 4/4/2019 4:53:43 AM
Status                    : Active
StatusLastUpdatedDateTime : 4/4/2019 5:14:31 AM
StatusReason              :
SubnetId                  : subnet-5678ffbb
VpcId                     : vpc-123459d
```
+  Untuk detail API, lihat [DescribeDomainControllers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSEventTopic`
<a name="directory-service_DescribeEventTopics_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSEventTopic`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menunjukkan informasi Topik SNS yang dikonfigurasi untuk pemberitahuan sementara status direktori berubah.**  

```
Get-DSEventTopic -DirectoryId d-123456ijkl
```
**Output:**  

```
CreatedDateTime : 12/13/2019 11:15:32 AM
DirectoryId     : d-123456ijkl
Status          : Registered
TopicArn        : arn:aws:sns:us-east-1:123456781234:snstopicname
TopicName       : snstopicname
```
+  Untuk detail API, lihat [DescribeEventTopics](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSIpRouteList`
<a name="directory-service_ListIpRoutes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSIpRouteList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mendapatkan blok alamat IP publik yang dikonfigurasi di Directory IP Routing**  

```
Get-DSIpRouteList -DirectoryId d-123456ijkl
```
**Output:**  

```
AddedDateTime       : 12/13/2019 12:27:22 PM
CidrIp              : 203.0.113.5/32
Description         : Public IP of On-Prem DNS Server
DirectoryId         : d-123456ijkl
IpRouteStatusMsg    : Added
IpRouteStatusReason :
```
+  Untuk detail API, lihat [ListIpRoutes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSLDAPSSetting`
<a name="directory-service_DescribeLDAPSSettings_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSLDAPSSetting`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan status keamanan LDAP untuk direktori yang ditentukan.**  

```
Get-DSLDAPSSetting -DirectoryId d-123456ijkl
```
**Output:**  

```
LastUpdatedDateTime  LDAPSStatus LDAPSStatusReason
-------------------  ----------- -----------------
4/15/2020 6:51:03 PM Enabled     LDAPS is enabled successfully.
```
+  Untuk detail API, lihat [Menjelaskan LDAPSSettings](https://docs.aws.amazon.com/powershell/v5/reference) dalam *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSLogSubscriptionList`
<a name="directory-service_ListLogSubscriptions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSLogSubscriptionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mendapatkan informasi log langganan direktori-id tertentu**  

```
Get-DSLogSubscriptionList -DirectoryId d-123456ijkl
```
**Output:**  

```
DirectoryId  LogGroupName                                        SubscriptionCreatedDateTime
-----------  ------------                                        ---------------------------
d-123456ijkl /aws/directoryservice/d-123456ijkl-lan2.example.com 12/14/2019 9:05:23 AM
```
+  Untuk detail API, lihat [ListLogSubscriptions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSResourceTag`
<a name="directory-service_ListTagsForResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mendapatkan semua Tag Direktori tertentu.**  

```
Get-DSResourceTag -ResourceId d-123456ijkl
```
**Output:**  

```
Key   Value
---   -----
myTag myTagValue
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSSchemaExtension`
<a name="directory-service_ListSchemaExtensions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSSchemaExtension`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua ekstensi skema yang diterapkan ke Direktori Microsoft AD.**  

```
Get-DSSchemaExtension -DirectoryId d-123456ijkl
```
**Output:**  

```
Description                 : ManagedADSchemaExtension
DirectoryId                 : d-123456ijkl
EndDateTime                 : 4/12/2020 10:30:49 AM
SchemaExtensionId           : e-9067306643
SchemaExtensionStatus       : Completed
SchemaExtensionStatusReason : Schema updates are complete.
StartDateTime               : 4/12/2020 10:28:42 AM
```
+  Untuk detail API, lihat [ListSchemaExtensions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSSharedDirectory`
<a name="directory-service_DescribeSharedDirectories_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSSharedDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan direktori bersama Akun Anda AWS **  

```
Get-DSSharedDirectory -OwnerDirectoryId d-123456ijkl -SharedDirectoryId d-9067012345
```
**Output:**  

```
CreatedDateTime     : 12/30/2019 4:34:37 AM
LastUpdatedDateTime : 12/30/2019 4:35:22 AM
OwnerAccountId      : 123456781234
OwnerDirectoryId    : d-123456ijkl
SharedAccountId     : 123456784321
SharedDirectoryId   : d-9067012345
ShareMethod         : HANDSHAKE
ShareNotes          : This is a test Sharing
ShareStatus         : Shared
```
+  Untuk detail API, lihat [DescribeSharedDirectories](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSSnapshot`
<a name="directory-service_DescribeSnapshots_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSSnapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mendapatkan informasi tentang snapshot direktori tertentu milik akun ini.**  

```
Get-DSSnapshot -DirectoryId d-123456ijkl
```
**Output:**  

```
DirectoryId : d-123456ijkl
Name        :
SnapshotId  : s-9064bd1234
StartTime   : 12/13/2019 6:33:01 PM
Status      : Completed
Type        : Auto

DirectoryId : d-123456ijkl
Name        :
SnapshotId  : s-9064bb4321
StartTime   : 12/9/2019 9:48:11 PM
Status      : Completed
Type        : Auto
```
+  Untuk detail API, lihat [DescribeSnapshots](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSSnapshotLimit`
<a name="directory-service_GetSnapshotLimits_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSSnapshotLimit`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mendapatkan batas snapshot manual untuk direktori tertentu.**  

```
Get-DSSnapshotLimit -DirectoryId d-123456ijkl
```
**Output:**  

```
ManualSnapshotsCurrentCount ManualSnapshotsLimit ManualSnapshotsLimitReached
--------------------------- -------------------- ---------------------------
0                           5                    False
```
+  Untuk detail API, lihat [GetSnapshotLimits](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DSTrust`
<a name="directory-service_DescribeTrusts_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DSTrust`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mendapatkan informasi hubungan kepercayaan yang dibuat untuk direktori-id tertentu.**  

```
Get-DSTrust -DirectoryId d-123456abcd
```
**Output:**  

```
CreatedDateTime          : 7/5/2019 4:55:42 AM
DirectoryId              : d-123456abcd
LastUpdatedDateTime      : 7/5/2019 4:56:04 AM
RemoteDomainName         : contoso.com
SelectiveAuth            : Disabled
StateLastUpdatedDateTime : 7/5/2019 4:56:04 AM
TrustDirection           : One-Way: Incoming
TrustId                  : t-9067157123
TrustState               : Created
TrustStateReason         :
TrustType                : Forest
```
+  Untuk detail API, lihat [DescribeTrusts](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DSAlias`
<a name="directory-service_CreateAlias_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSAlias`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini membuat alias untuk direktori dan menetapkan alias ke direktori-id yang ditentukan.**  

```
New-DSAlias -DirectoryId d-123456ijkl -Alias MyOrgName
```
**Output:**  

```
Alias     DirectoryId
-----     -----------
myorgname d-123456ijkl
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DSComputer`
<a name="directory-service_CreateComputer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSComputer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat objek komputer Active Directory baru.**  

```
New-DSComputer -DirectoryId d-123456ijkl -ComputerName ADMemberServer -Password $Password
```
**Output:**  

```
ComputerAttributes                  ComputerId                                    ComputerName
------------------                  ----------                                    ------------
{WindowsSamName, DistinguishedName} S-1-5-21-1191241402-978882507-2717148213-1662 ADMemberServer
```
+  Untuk detail API, lihat [CreateComputer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DSConditionalForwarder`
<a name="directory-service_CreateConditionalForwarder_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSConditionalForwarder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kondisional forwarder di direktori-ID tertentu. AWS **  

```
New-DSConditionalForwarder -DirectoryId d-123456ijkl -DnsIpAddr 172.31.36.96,172.31.10.56 -RemoteDomainName contoso.com
```
+  Untuk detail API, lihat [CreateConditionalForwarder](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DSDirectory`
<a name="directory-service_CreateDirectory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat direktori Simple AD baru.**  

```
New-DSDirectory -Name corp.example.com -Password $Password -Size Small -VpcSettings_VpcId vpc-123459d -VpcSettings_SubnetIds subnet-1234kkaa,subnet-5678ffbb
```
+  Untuk detail API, lihat [CreateDirectory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DSLogSubscription`
<a name="directory-service_CreateLogSubscription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSLogSubscription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat langganan untuk meneruskan log keamanan pengontrol domain Directory Service real-time ke grup log Amazon yang ditentukan di grup CloudWatch log Amazon Anda Akun AWS.**  

```
New-DSLogSubscription -DirectoryId d-123456ijkl -LogGroupName /aws/directoryservice/d-123456ijkl-lan2.example.com
```
+  Untuk detail API, lihat [CreateLogSubscription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DSMicrosoftAD`
<a name="directory-service_CreateMicrosoftAD_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSMicrosoftAD`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat Direktori Microsoft AD baru di AWS Cloud.**  

```
New-DSMicrosoftAD -Name corp.example.com -Password $Password -edition Standard -VpcSettings_VpcId vpc-123459d -VpcSettings_SubnetIds subnet-1234kkaa,subnet-5678ffbb
```
+  Untuk detail API, lihat [CreateMicrosoftAD](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DSSnapshot`
<a name="directory-service_CreateSnapshot_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSSnapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat snapshot direktori**  

```
New-DSSnapshot -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [CreateSnapshot](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DSTrust`
<a name="directory-service_CreateTrust_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DSTrust`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menciptakan kepercayaan Two-Way Forestwide antara direktori AD AWS Microsoft Terkelola, dan Microsoft Active Directory lokal yang ada.**  

```
New-DSTrust -DirectoryId d-123456ijkl -RemoteDomainName contoso.com -TrustDirection Two-Way -TrustType Forest -TrustPassword $Password -ConditionalForwarderIpAddr 172.31.36.96
```
**Output:**  

```
t-9067157123
```
+  Untuk detail API, lihat [CreateTrust](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-DSCertificate`
<a name="directory-service_RegisterCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-DSCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan sertifikat untuk koneksi LDAP yang aman.**  

```
$Certificate = Get-Content contoso.cer -Raw
Register-DSCertificate -DirectoryId d-123456ijkl -CertificateData $Certificate
```
**Output:**  

```
c-906731e350
```
+  Untuk detail API, lihat [RegisterCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-DSEventTopic`
<a name="directory-service_RegisterEventTopic_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-DSEventTopic`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan direktori sebagai penerbit dengan topik SNS.**  

```
Register-DSEventTopic -DirectoryId d-123456ijkl -TopicName snstopicname
```
+  Untuk detail API, lihat [RegisterEventTopic](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-DSConditionalForwarder`
<a name="directory-service_DeleteConditionalForwarder_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSConditionalForwarder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus forwarder bersyarat yang telah disiapkan untuk Direcotry Anda. AWS **  

```
Remove-DSConditionalForwarder -DirectoryId d-123456ijkl -RemoteDomainName contoso.com
```
+  Untuk detail API, lihat [DeleteConditionalForwarder](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-DSDirectory`
<a name="directory-service_DeleteDirectory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus AWS direktori layanan Direktori (Konektor AD/Microsoft AD/AD Sederhana)**  

```
Remove-DSDirectory -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [DeleteDirectory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-DSIpRoute`
<a name="directory-service_RemoveIpRoutes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSIpRoute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus IP yang ditentukan dari rute IP Dikonfigurasi dari ID Direktori.**  

```
Remove-DSIpRoute -DirectoryId d-123456ijkl -CidrIp 203.0.113.5/32
```
+  Untuk detail API, lihat [RemoveIpRoutes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-DSLogSubscription`
<a name="directory-service_DeleteLogSubscription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSLogSubscription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus Langganan Log dari ID Direktori yang ditentukan**  

```
Remove-DSLogSubscription -DirectoryId d-123456ijkl
```
+  Untuk detail API, lihat [DeleteLogSubscription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-DSResourceTag`
<a name="directory-service_RemoveTagsFromResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus Tag Sumber Daya yang ditetapkan ke ID Direktori yang ditentukan**  

```
Remove-DSResourceTag -ResourceId d-123456ijkl -TagKey myTag
```
+  Untuk detail API, lihat [RemoveTagsFromResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-DSSnapshot`
<a name="directory-service_DeleteSnapshot_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSSnapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus snapshot yang dibuat secara manual.**  

```
Remove-DSSnapshot -SnapshotId s-9068b488kc
```
+  Untuk detail API, lihat [DeleteSnapshot](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-DSTrust`
<a name="directory-service_DeleteTrust_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DSTrust`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus hubungan kepercayaan yang ada antara Direktori AD AWS Terkelola dan domain eksternal.**  

```
Get-DSTrust -DirectoryId d-123456ijkl -Select Trusts.TrustId | Remove-DSTrust
```
**Output:**  

```
t-9067157123
```
+  Untuk detail API, lihat [DeleteTrust](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Reset-DSUserPassword`
<a name="directory-service_ResetUserPassword_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-DSUserPassword`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengatur ulang kata sandi pengguna Active Direcotry yang dinamai ADUser di Microsoft AD yang AWS dikelola atau Simple AD Directory**  

```
Reset-DSUserPassword -UserName ADuser -DirectoryId d-123456ijkl -NewPassword $Password
```
+  Untuk detail API, lihat [ResetUserPassword](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Restore-DSFromSnapshot`
<a name="directory-service_RestoreFromSnapshot_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Restore-DSFromSnapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan direktori menggunakan snapshot direktori yang ada.**  

```
Restore-DSFromSnapshot -SnapshotId s-9068b488kc
```
+  Untuk detail API, lihat [RestoreFromSnapshot](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-DSDomainControllerCount`
<a name="directory-service_UpdateNumberOfDomainControllers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-DSDomainControllerCount`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menetapkan jumlah pengontrol domain ke 3 untuk direktori-id tertentu.**  

```
Set-DSDomainControllerCount -DirectoryId d-123456ijkl -DesiredNumber 3
```
+  Untuk detail API, lihat [UpdateNumberOfDomainControllers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-DSSchemaExtension`
<a name="directory-service_StartSchemaExtension_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-DSSchemaExtension`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini Menerapkan ekstensi skema ke direktori Microsoft AD.**  

```
$ldif = Get-Content D:\Users\Username\Downloads\ExtendedSchema.ldf -Raw
Start-DSSchemaExtension -DirectoryId d-123456ijkl -CreateSnapshotBeforeSchemaExtension $true -Description ManagedADSchemaExtension -LdifContent $ldif
```
**Output:**  

```
e-9067306643
```
+  Untuk detail API, lihat [StartSchemaExtension](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-DSSchemaExtension`
<a name="directory-service_CancelSchemaExtension_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-DSSchemaExtension`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan ekstensi skema yang sedang berlangsung ke direktori Microsoft AD.**  

```
Stop-DSSchemaExtension -DirectoryId d-123456ijkl -SchemaExtensionId e-9067306643
```
+  Untuk detail API, lihat [CancelSchemaExtension](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-DSCertificate`
<a name="directory-service_DeregisterCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-DSCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus dari sistem sertifikat yang terdaftar untuk koneksi LDAP yang aman..**  

```
Unregister-DSCertificate -DirectoryId d-123456ijkl -CertificateId c-906731e34f
```
+  Untuk detail API, lihat [DeregisterCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-DSEventTopic`
<a name="directory-service_DeregisterEventTopic_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-DSEventTopic`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus direktori specefied sebagai penerbit ke topik SNS yang ditentukan.**  

```
Unregister-DSEventTopic -DirectoryId d-123456ijkl -TopicName snstopicname
```
+  Untuk detail API, lihat [DeregisterEventTopic](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-DSConditionalForwarder`
<a name="directory-service_UpdateConditionalForwarder_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DSConditionalForwarder`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui forwarder bersyarat yang telah disiapkan untuk direktori Anda. AWS **  

```
Update-DSConditionalForwarder -DirectoryId d-123456ijkl -DnsIpAddr 172.31.36.96,172.31.16.108 -RemoteDomainName contoso.com
```
+  Untuk detail API, lihat [UpdateConditionalForwarder](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-DSRadius`
<a name="directory-service_UpdateRadius_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DSRadius`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui informasi server RADIUS untuk direktori AD Connector atau Microsoft AD.**  

```
Update-DSRadius -DirectoryId d-123456ijkl -RadiusSettings_RadiusRetry 3
```
+  Untuk detail API, lihat [UpdateRadius](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-DSTrust`
<a name="directory-service_UpdateTrust_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DSTrust`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui SelectiveAuth parameter trust-id tertentu dari Disabled ke Enabled.**  

```
Update-DSTrust -TrustId t-9067157123 -SelectiveAuth Enabled
```
**Output:**  

```
RequestId                            TrustId
---------                            -------
138864a7-c9a8-4ad1-a828-eae479e85b45 t-9067157123
```
+  Untuk detail API, lihat [UpdateTrust](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# AWS DMS contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_database-migration-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan AWS DMS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-DMSReplicationTask`
<a name="database-migration-service_CreateReplicationTask_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DMSReplicationTask`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat tugas replikasi AWS Database Migration Service baru yang menggunakan CdcStartTime sebagai ganti. CdcStartPosition MigrationType Ini diatur ke "full-load-and-cdc“, yang berarti tabel target harus kosong. Tugas baru ditandai dengan tag yang memiliki kunci Stage dan nilai kunci Test. Untuk informasi selengkapnya tentang nilai yang digunakan oleh cmdlet ini, lihat Membuat Tugas (https://docs.aws.amazon.com/dms/latest/userguide/CHAP\$1Tasks.creating.html) di Panduan Pengguna Layanan Migrasi Database. AWS **  

```
New-DMSReplicationTask -ReplicationInstanceArn "arn:aws:dms:us-east-1:123456789012:rep:EXAMPLE66XFJUWATDJGBEXAMPLE"`
  -CdcStartTime "2019-08-08T12:12:12"`
  -CdcStopPosition "server_time:2019-08-09T12:12:12"`
  -MigrationType "full-load-and-cdc"`
  -ReplicationTaskIdentifier "task1"`
  -ReplicationTaskSetting ""`
  -SourceEndpointArn "arn:aws:dms:us-east-1:123456789012:endpoint:EXAMPLEW5UANC7Y3P4EEXAMPLE"`
  -TableMapping "file:////home/testuser/table-mappings.json"`
  -Tag @{"Key"="Stage";"Value"="Test"}`
  -TargetEndpointArn "arn:aws:dms:us-east-1:123456789012:endpoint:EXAMPLEJZASXWHTWCLNEXAMPLE"
```
+  Untuk detail API, lihat [CreateReplicationTask](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh DynamoDB menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan DynamoDB.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-DDBIndexSchema`
<a name="dynamodb_Add-DDBIndexSchema_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-DDBIndexSchema`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat TableSchema objek kosong dan menambahkan definisi indeks sekunder lokal baru sebelum menulis TableSchema objek ke pipeline.**  

```
$schema | Add-DDBIndexSchema -IndexName "LastPostIndex" -RangeKeyName "LastPostDateTime" -RangeKeyDataType "S" -ProjectionType "keys_only"
$schema = New-DDBTableSchema
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{LastPostDateTime}                          {}                                          {LastPostIndex}
```
**Contoh 2: Menambahkan definisi indeks sekunder lokal baru ke TableSchema objek yang disediakan sebelum menulis TableSchema objek kembali ke pipeline. TableSchema Objek juga dapat diberikan menggunakan parameter -Schema.**  

```
New-DDBTableSchema | Add-DDBIndexSchema -IndexName "LastPostIndex" -RangeKeyName "LastPostDateTime" -RangeKeyDataType "S" -ProjectionType "keys_only"
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{LastPostDateTime}                          {}                                          {LastPostIndex}
```
+  Untuk detail API, lihat [Menambahkan DDBIndex Skema](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V5). 

### `Add-DDBKeySchema`
<a name="dynamodb_Add-DDBKeySchema_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-DDBKeySchema`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat TableSchema objek kosong dan menambahkan entri definisi kunci dan atribut ke dalamnya menggunakan data kunci yang ditentukan sebelum menulis TableSchema objek ke pipeline. Tipe kunci dinyatakan sebagai 'HASH' secara default; gunakan - KeyType paameter dengan nilai 'RANGE' untuk mendeklarasikan kunci rentang.**  

```
$schema = New-DDBTableSchema
$schema | Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S"
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{ForumName}                                 {ForumName}                                 {}
```
**Contoh 2: Menambahkan entri definisi kunci dan atribut baru ke TableSchema objek yang disediakan sebelum menulis TableSchema objek ke pipeline. Tipe kunci dinyatakan sebagai 'HASH' secara default; gunakan - KeyType paameter dengan nilai 'RANGE' untuk mendeklarasikan kunci rentang. TableSchema Objek juga dapat diberikan menggunakan parameter -Schema.**  

```
New-DDBTableSchema | Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S"
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{ForumName}                                 {ForumName}                                 {}
```
+  Untuk detail API, lihat [Menambahkan DDBKey Skema](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V5). 

### `ConvertFrom-DDBItem`
<a name="dynamodb_ConvertFrom-DDBItem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConvertFrom-DDBItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: ConvertFrom - DDBItem digunakan untuk mengonversi hasil Get-DDBItem dari hashtable AttributeValues DynamoDB ke hashtable tipe umum seperti string dan double.**  

```
@{
    SongTitle = 'Somewhere Down The Road'
    Artist    = 'No One You Know'
} | ConvertTo-DDBItem

Get-DDBItem -TableName 'Music' -Key $key | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
Artist                         No One You Know
Price                          1.94
CriticRating                   9
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
```
+  Untuk detail API, lihat [ConvertFrom- DDBItem](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `ConvertTo-DDBItem`
<a name="dynamodb_ConvertTo-DDBItem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConvertTo-DDBItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh untuk mengubah hashtable menjadi kamus nilai atribut DynamoDB.**  

```
@{
    SongTitle = 'Somewhere Down The Road'
    Artist    = 'No One You Know'
} | ConvertTo-DDBItem

Key       Value
---       -----
SongTitle Amazon.DynamoDBv2.Model.AttributeValue
Artist    Amazon.DynamoDBv2.Model.AttributeValue
```
**Contoh 2: Contoh untuk mengubah hashtable menjadi kamus nilai atribut DynamoDB.**  

```
@{
    MyMap        = @{
        MyString = 'my string'
    }
    MyStringSet  = [System.Collections.Generic.HashSet[String]]@('my', 'string')
    MyNumericSet = [System.Collections.Generic.HashSet[Int]]@(1, 2, 3)
    MyBinarySet  = [System.Collections.Generic.HashSet[System.IO.MemoryStream]]@(
        ([IO.MemoryStream]::new([Text.Encoding]::UTF8.GetBytes('my'))),
        ([IO.MemoryStream]::new([Text.Encoding]::UTF8.GetBytes('string')))
    )
    MyList1      = @('my', 'string')
    MyList2      = [System.Collections.Generic.List[Int]]@(1, 2)
    MyList3      = [System.Collections.ArrayList]@('one', 2, $true)
} | ConvertTo-DDBItem
```
**Output:**  

```
Key          Value
---          -----
MyStringSet  Amazon.DynamoDBv2.Model.AttributeValue
MyList1      Amazon.DynamoDBv2.Model.AttributeValue
MyNumericSet Amazon.DynamoDBv2.Model.AttributeValue
MyList2      Amazon.DynamoDBv2.Model.AttributeValue
MyBinarySet  Amazon.DynamoDBv2.Model.AttributeValue
MyMap        Amazon.DynamoDBv2.Model.AttributeValue
MyList3      Amazon.DynamoDBv2.Model.AttributeValue
```
+  Untuk detail API, lihat [ConvertTo- DDBItem](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DDBBatchItem`
<a name="dynamodb_BatchGetItem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DDBBatchItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mendapatkan item dengan SongTitle “Somewhere Down The Road” dari tabel DynamoDB 'Music' dan 'Songs'.**  

```
$key = @{
    SongTitle = 'Somewhere Down The Road'
    Artist = 'No One You Know'
} | ConvertTo-DDBItem

$keysAndAttributes = New-Object Amazon.DynamoDBv2.Model.KeysAndAttributes
$list = New-Object 'System.Collections.Generic.List[System.Collections.Generic.Dictionary[String, Amazon.DynamoDBv2.Model.AttributeValue]]'
$list.Add($key)
$keysAndAttributes.Keys = $list

$requestItem = @{
    'Music' = [Amazon.DynamoDBv2.Model.KeysAndAttributes]$keysAndAttributes
    'Songs' = [Amazon.DynamoDBv2.Model.KeysAndAttributes]$keysAndAttributes
}

$batchItems = Get-DDBBatchItem -RequestItem $requestItem
$batchItems.GetEnumerator() | ForEach-Object {$PSItem.Value} | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Artist                         No One You Know
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
CriticRating                   10
Genre                          Country
Price                          1.94
Artist                         No One You Know
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
CriticRating                   10
Genre                          Country
Price                          1.94
```
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DDBItem`
<a name="dynamodb_GetItem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DDBItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan item DynamoDB dengan SongTitle kunci partisi dan kunci sort Artist.**  

```
$key = @{
  SongTitle = 'Somewhere Down The Road'
  Artist = 'No One You Know'
} | ConvertTo-DDBItem

Get-DDBItem -TableName 'Music' -Key $key | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
SongTitle                      Somewhere Down The Road
Price                          1.94
Artist                         No One You Know
CriticRating                   9
AlbumTitle                     Somewhat Famous
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DDBTable`
<a name="dynamodb_DescribeTable_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DDBTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan rincian tabel yang ditentukan.**  

```
Get-DDBTable -TableName "myTable"
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-DDBTableList`
<a name="dynamodb_ListTables_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-DDBTableList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan rincian semua tabel, secara otomatis iterasi sampai layanan menunjukkan tidak ada tabel lebih lanjut.**  

```
Get-DDBTableList
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Invoke-DDBQuery`
<a name="dynamodb_Query_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke-DDBQuery`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memanggil query yang mengembalikan item DynamoDB dengan yang ditentukan dan Artist. SongTitle **  

```
$invokeDDBQuery = @{
    TableName = 'Music'
    KeyConditionExpression = ' SongTitle = :SongTitle and Artist = :Artist'
    ExpressionAttributeValues = @{
        ':SongTitle' = 'Somewhere Down The Road'
        ':Artist' = 'No One You Know'
    } | ConvertTo-DDBItem
}
Invoke-DDBQuery @invokeDDBQuery | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
Artist                         No One You Know
Price                          1.94
CriticRating                   9
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Invoke-DDBScan`
<a name="dynamodb_Scan_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke-DDBScan`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan semua item dalam tabel Musik.**  

```
Invoke-DDBScan -TableName 'Music' | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
Artist                         No One You Know
Price                          1.94
CriticRating                   9
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
Genre                          Country
Artist                         No One You Know
Price                          1.98
CriticRating                   8.4
SongTitle                      My Dog Spot
AlbumTitle                     Hey Now
```
**Contoh 2: Mengembalikan item dalam tabel Musik dengan CriticRating lebih besar dari atau sama dengan sembilan.**  

```
$scanFilter = @{
        CriticRating = [Amazon.DynamoDBv2.Model.Condition]@{
            AttributeValueList = @(@{N = '9'})
            ComparisonOperator = 'GE'
        }
    }
    Invoke-DDBScan -TableName 'Music' -ScanFilter $scanFilter | ConvertFrom-DDBItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Country
Artist                         No One You Know
Price                          1.94
CriticRating                   9
SongTitle                      Somewhere Down The Road
AlbumTitle                     Somewhat Famous
```
+  Untuk detail API, lihat [Memindai](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DDBTable`
<a name="dynamodb_CreateTable_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DDBTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat tabel bernama Thread yang memiliki kunci utama yang terdiri dari 'ForumName' (hash tipe kunci) dan 'Subject' (rentang tipe kunci). Skema yang digunakan untuk membangun tabel dapat disalurkan ke setiap cmdlet seperti yang ditunjukkan atau ditentukan menggunakan parameter -Schema.**  

```
$schema = New-DDBTableSchema
$schema | Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S"
$schema | Add-DDBKeySchema -KeyName "Subject" -KeyType RANGE -KeyDataType "S"
$schema | New-DDBTable -TableName "Thread" -ReadCapacity 10 -WriteCapacity 5
```
**Output:**  

```
AttributeDefinitions   : {ForumName, Subject}
TableName              : Thread
KeySchema              : {ForumName, Subject}
TableStatus            : CREATING
CreationDateTime       : 10/28/2013 4:39:49 PM
ProvisionedThroughput  : Amazon.DynamoDBv2.Model.ProvisionedThroughputDescription
TableSizeBytes         : 0
ItemCount              : 0
LocalSecondaryIndexes  : {}
```
**Contoh 2: Contoh ini membuat tabel bernama Thread yang memiliki kunci utama yang terdiri dari 'ForumName' (hash tipe kunci) dan 'Subject' (rentang tipe kunci). Indeks sekunder lokal juga didefinisikan. Kunci indeks sekunder lokal akan diatur secara otomatis dari kunci hash utama pada tabel (ForumName). Skema yang digunakan untuk membangun tabel dapat disalurkan ke setiap cmdlet seperti yang ditunjukkan atau ditentukan menggunakan parameter -Schema.**  

```
$schema = New-DDBTableSchema
$schema | Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S"
$schema | Add-DDBKeySchema -KeyName "Subject" -KeyDataType "S"
$schema | Add-DDBIndexSchema -IndexName "LastPostIndex" -RangeKeyName "LastPostDateTime" -RangeKeyDataType "S" -ProjectionType "keys_only"
$schema | New-DDBTable -TableName "Thread" -ReadCapacity 10 -WriteCapacity 5
```
**Output:**  

```
AttributeDefinitions   : {ForumName, LastPostDateTime, Subject}
TableName              : Thread
KeySchema              : {ForumName, Subject}
TableStatus            : CREATING
CreationDateTime       : 10/28/2013 4:39:49 PM
ProvisionedThroughput  : Amazon.DynamoDBv2.Model.ProvisionedThroughputDescription
TableSizeBytes         : 0
ItemCount              : 0
LocalSecondaryIndexes  : {LastPostIndex}
```
**Contoh 3: Contoh ini menunjukkan cara menggunakan pipeline tunggal untuk membuat tabel bernama Thread yang memiliki kunci utama yang terdiri dari 'ForumName' (hash tipe kunci) dan 'Subjek' (rentang tipe kunci) dan indeks sekunder lokal. DDBKeyAdd-Schema dan Add- DDBIndex Schema membuat TableSchema objek baru untuk Anda jika salah satu tidak dipasok dari pipeline atau parameter -Schema.**  

```
New-DDBTableSchema |
  Add-DDBKeySchema -KeyName "ForumName" -KeyDataType "S" |
  Add-DDBKeySchema -KeyName "Subject" -KeyDataType "S" |
  Add-DDBIndexSchema -IndexName "LastPostIndex" `
                     -RangeKeyName "LastPostDateTime" `
                     -RangeKeyDataType "S" `
                     -ProjectionType "keys_only" |
  New-DDBTable -TableName "Thread" -ReadCapacity 10 -WriteCapacity 5
```
**Output:**  

```
AttributeDefinitions   : {ForumName, LastPostDateTime, Subject}
TableName              : Thread
KeySchema              : {ForumName, Subject}
TableStatus            : CREATING
CreationDateTime       : 10/28/2013 4:39:49 PM
ProvisionedThroughput  : Amazon.DynamoDBv2.Model.ProvisionedThroughputDescription
TableSizeBytes         : 0
ItemCount              : 0
LocalSecondaryIndexes  : {LastPostIndex}
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-DDBTableSchema`
<a name="dynamodb_New-DDBTableSchema_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-DDBTableSchema`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat TableSchema objek kosong yang siap menerima definisi kunci dan indeks untuk digunakan dalam membuat tabel Amazon DynamoDB baru. Objek yang dikembalikan dapat disalurkan ke dalam Add- DDBKey Schema, Add- DDBIndex Schema dan New- DDBTable cmdlet atau diteruskan ke mereka menggunakan parameter -Schema pada setiap cmdlet.**  

```
New-DDBTableSchema
```
**Output:**  

```
AttributeSchema                             KeySchema                                   LocalSecondaryIndexSchema
---------------                             ---------                                   -------------------------
{}                                          {}                                          {}
```
+  Untuk detail API, lihat [DDBTableSkema Baru di](https://docs.aws.amazon.com/powershell/v5/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (*V5). 

### `Remove-DDBItem`
<a name="dynamodb_DeleteItem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DDBItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus item DynamoDB yang cocok dengan kunci yang disediakan.**  

```
$key = @{
    SongTitle = 'Somewhere Down The Road'
    Artist = 'No One You Know'
} | ConvertTo-DDBItem
Remove-DDBItem -TableName 'Music' -Key $key -Confirm:$false
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-DDBTable`
<a name="dynamodb_DeleteTable_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-DDBTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus tabel yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-DDBTable -TableName "myTable"
```
**Contoh 2: Menghapus tabel yang ditentukan. Anda tidak diminta untuk konfirmasi sebelum operasi berlangsung.**  

```
Remove-DDBTable -TableName "myTable" -Force
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-DDBBatchItem`
<a name="dynamodb_BatchWriteItem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-DDBBatchItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat item baru, atau mengganti item yang ada dengan item baru di tabel DynamoDB Musik dan Lagu.**  

```
$item = @{
    SongTitle = 'Somewhere Down The Road'
    Artist = 'No One You Know'
    AlbumTitle = 'Somewhat Famous'
    Price = 1.94
    Genre = 'Country'
    CriticRating = 10.0
} | ConvertTo-DDBItem

$writeRequest = New-Object Amazon.DynamoDBv2.Model.WriteRequest
$writeRequest.PutRequest = [Amazon.DynamoDBv2.Model.PutRequest]$item

$requestItem = @{
    'Music' = [Amazon.DynamoDBv2.Model.WriteRequest]($writeRequest)
    'Songs' = [Amazon.DynamoDBv2.Model.WriteRequest]($writeRequest)
}

Set-DDBBatchItem -RequestItem $requestItem
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-DDBItem`
<a name="dynamodb_PutItem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-DDBItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat item baru, atau mengganti item yang sudah ada dengan item baru.**  

```
$item = @{
  SongTitle = 'Somewhere Down The Road'
  Artist = 'No One You Know'
        AlbumTitle = 'Somewhat Famous'
        Price = 1.94
        Genre = 'Country'
        CriticRating = 9.0
} | ConvertTo-DDBItem
Set-DDBItem -TableName 'Music' -Item $item
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-DDBItem`
<a name="dynamodb_UpdateItem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DDBItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menetapkan atribut genre ke 'Rap' pada item DynamoDB dengan SongTitle kunci partisi dan Artis kunci sortir.**  

```
$key = @{
    SongTitle = 'Somewhere Down The Road'
    Artist = 'No One You Know'
} | ConvertTo-DDBItem

$updateDdbItem = @{
    TableName = 'Music'
    Key = $key
    UpdateExpression = 'set Genre = :val1'
    ExpressionAttributeValue = (@{
        ':val1' = ([Amazon.DynamoDBv2.Model.AttributeValue]'Rap')
    })
}
Update-DDBItem @updateDdbItem
```
**Output:**  

```
Name                           Value
----                           -----
Genre                          Rap
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-DDBTable`
<a name="dynamodb_UpdateTable_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-DDBTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui throughput yang disediakan untuk tabel yang diberikan.**  

```
Update-DDBTable -TableName "myTable" -ReadCapacity 10 -WriteCapacity 5
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon EC2 menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon EC2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-EC2CapacityReservation`
<a name="ec2_CreateCapacityReservation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2CapacityReservation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat Reservasi Kapasitas baru dengan atribut yang ditentukan**  

```
Add-EC2CapacityReservation -InstanceType m4.xlarge -InstanceCount 2 -AvailabilityZone eu-west-1b -EbsOptimized True -InstancePlatform Windows
```
**Output:**  

```
AvailabilityZone       : eu-west-1b
AvailableInstanceCount : 2
CapacityReservationId  : cr-0c1f2345db6f7cdba
CreateDate             : 3/28/2019 9:29:41 AM
EbsOptimized           : True
EndDate                : 1/1/0001 12:00:00 AM
EndDateType            : unlimited
EphemeralStorage       : False
InstanceMatchCriteria  : open
InstancePlatform       : Windows
InstanceType           : m4.xlarge
State                  : active
Tags                   : {}
Tenancy                : default
TotalInstanceCount     : 2
```
+  Untuk detail API, lihat [CreateCapacityReservation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-EC2InternetGateway`
<a name="ec2_AttachInternetGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2InternetGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan gateway Internet yang ditentukan ke VPC yang ditentukan.**  

```
Add-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d -VpcId vpc-12345678
```
**Contoh 2: Contoh ini membuat VPC dan gateway Internet, dan kemudian melampirkan gateway Internet ke VPC.**  

```
$vpc = New-EC2Vpc -CidrBlock 10.0.0.0/16
New-EC2InternetGateway | Add-EC2InternetGateway -VpcId $vpc.VpcId
```
+  Untuk detail API, lihat [AttachInternetGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-EC2NetworkInterface`
<a name="ec2_AttachNetworkInterface_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2NetworkInterface`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan antarmuka jaringan yang ditentukan ke instance tertentu.**  

```
Add-EC2NetworkInterface -NetworkInterfaceId eni-12345678 -InstanceId i-1a2b3c4d -DeviceIndex 1
```
**Output:**  

```
eni-attach-1a2b3c4d
```
+  Untuk detail API, lihat [AttachNetworkInterface](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-EC2Volume`
<a name="ec2_AttachVolume_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2Volume`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan volume yang ditentukan ke instance yang ditentukan dan memaparkannya dengan nama perangkat yang ditentukan.**  

```
Add-EC2Volume -VolumeId vol-12345678 -InstanceId i-1a2b3c4d -Device /dev/sdh
```
**Output:**  

```
AttachTime          : 12/22/2015 1:53:58 AM
DeleteOnTermination : False
Device              : /dev/sdh
InstanceId          : i-1a2b3c4d
State               : attaching
VolumeId            : vol-12345678
```
+  Untuk detail API, lihat [AttachVolume](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-EC2VpnGateway`
<a name="ec2_AttachVpnGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EC2VpnGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan gateway pribadi virtual yang ditentukan ke VPC yang ditentukan.**  

```
Add-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d -VpcId vpc-12345678
```
**Output:**  

```
State        VpcId
-----        -----
attaching    vpc-12345678
```
+  Untuk detail API, lihat [AttachVpnGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Approve-EC2VpcPeeringConnection`
<a name="ec2_AcceptVpcPeeringConnection_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Approve-EC2VpcPeeringConnection`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menyetujui pcx-1dfad234b56ff78be yang diminta VpcPeeringConnectionId **  

```
Approve-EC2VpcPeeringConnection -VpcPeeringConnectionId pcx-1dfad234b56ff78be
```
**Output:**  

```
AccepterVpcInfo        : Amazon.EC2.Model.VpcPeeringConnectionVpcInfo
ExpirationTime         : 1/1/0001 12:00:00 AM
RequesterVpcInfo       : Amazon.EC2.Model.VpcPeeringConnectionVpcInfo
Status                 : Amazon.EC2.Model.VpcPeeringConnectionStateReason
Tags                   : {}
VpcPeeringConnectionId : pcx-1dfad234b56ff78be
```
+  Untuk detail API, lihat [AcceptVpcPeeringConnection](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Confirm-EC2ProductInstance`
<a name="ec2_ConfirmProductInstance_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Confirm-EC2ProductInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menentukan apakah kode produk yang ditentukan dikaitkan dengan instance yang ditentukan.**  

```
Confirm-EC2ProductInstance -ProductCode 774F4FF8 -InstanceId i-12345678
```
+  Untuk detail API, lihat [ConfirmProductInstance](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Copy-EC2Image`
<a name="ec2_CopyImage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-EC2Image`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menyalin AMI yang ditentukan di wilayah 'UE (Irlandia) 'ke wilayah 'AS Barat (Oregon)'. Jika -Region tidak ditentukan, wilayah default saat ini digunakan sebagai wilayah tujuan.**  

```
Copy-EC2Image -SourceRegion eu-west-1 -SourceImageId ami-12345678 -Region us-west-2 -Name "Copy of ami-12345678"
```
**Output:**  

```
ami-87654321
```
+  Untuk detail API, lihat [CopyImage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Copy-EC2Snapshot`
<a name="ec2_CopySnapshot_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-EC2Snapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menyalin snapshot yang ditentukan dari wilayah UE (Irlandia) ke wilayah AS Barat (Oregon).**  

```
Copy-EC2Snapshot -SourceRegion eu-west-1 -SourceSnapshotId snap-12345678 -Region us-west-2
```
**Contoh 2: Jika Anda menetapkan wilayah default dan menghilangkan parameter Region, wilayah tujuan default adalah wilayah default.**  

```
Set-DefaultAWSRegion us-west-2
Copy-EC2Snapshot -SourceRegion eu-west-1 -SourceSnapshotId snap-12345678
```
+  Untuk detail API, lihat [CopySnapshot](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Deny-EC2VpcPeeringConnection`
<a name="ec2_RejectVpcPeeringConnection_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Deny-EC2VpcPeeringConnection`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh di atas menolak permintaan VpcPeering permintaan id pcx-01a2b3ce45fe67eb8**  

```
Deny-EC2VpcPeeringConnection -VpcPeeringConnectionId pcx-01a2b3ce45fe67eb8
```
+  Untuk detail API, lihat [RejectVpcPeeringConnection](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-EC2VgwRoutePropagation`
<a name="ec2_DisableVgwRoutePropagation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-EC2VgwRoutePropagation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan VGW dari menyebarkan rute secara otomatis ke tabel perutean yang ditentukan.**  

```
Disable-EC2VgwRoutePropagation -RouteTableId rtb-12345678 -GatewayId vgw-1a2b3c4d
```
+  Untuk detail API, lihat [DisableVgwRoutePropagation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-EC2VpcClassicLink`
<a name="ec2_DisableVpcClassicLink_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-EC2VpcClassicLink`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan EC2 VpcClassicLink untuk vpc-01e23c4a5d6db78e9. Ia mengembalikan True atau False**  

```
Disable-EC2VpcClassicLink -VpcId vpc-01e23c4a5d6db78e9
```
+  Untuk detail API, lihat [DisableVpcClassicLink](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-EC2VpcClassicLinkDnsSupport`
<a name="ec2_DisableVpcClassicLinkDnsSupport_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-EC2VpcClassicLinkDnsSupport`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan dukungan ClassicLink DNS untuk vpc-0b12d3456a7e8910d**  

```
Disable-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d
```
+  Untuk detail API, lihat [DisableVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Dismount-EC2InternetGateway`
<a name="ec2_DetachInternetGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-EC2InternetGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan gateway Internet yang ditentukan dari VPC yang ditentukan.**  

```
Dismount-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d -VpcId vpc-12345678
```
+  Untuk detail API, lihat [DetachInternetGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Dismount-EC2NetworkInterface`
<a name="ec2_DetachNetworkInterface_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-EC2NetworkInterface`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus lampiran yang ditentukan antara antarmuka jaringan dan instance.**  

```
Dismount-EC2NetworkInterface -AttachmentId eni-attach-1a2b3c4d -Force
```
+  Untuk detail API, lihat [DetachNetworkInterface](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Dismount-EC2Volume`
<a name="ec2_DetachVolume_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-EC2Volume`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan volume yang ditentukan.**  

```
Dismount-EC2Volume -VolumeId vol-12345678
```
**Output:**  

```
AttachTime          : 12/22/2015 1:53:58 AM
DeleteOnTermination : False
Device              : /dev/sdh
InstanceId          : i-1a2b3c4d
State               : detaching
VolumeId            : vol-12345678
```
**Contoh 2: Anda juga dapat menentukan ID instans dan nama perangkat untuk memastikan bahwa Anda melepaskan volume yang benar.**  

```
Dismount-EC2Volume -VolumeId vol-12345678 -InstanceId i-1a2b3c4d -Device /dev/sdh
```
+  Untuk detail API, lihat [DetachVolume](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Dismount-EC2VpnGateway`
<a name="ec2_DetachVpnGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-EC2VpnGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan gateway pribadi virtual yang ditentukan dari VPC yang ditentukan.**  

```
Dismount-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d -VpcId vpc-12345678
```
+  Untuk detail API, lihat [DetachVpnGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2CapacityReservation`
<a name="ec2_ModifyCapacityReservation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2CapacityReservation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi CapacityReservationId cr-0c1f2345db6f7cdba dengan mengubah hitungan instane menjadi 1**  

```
Edit-EC2CapacityReservation -CapacityReservationId cr-0c1f2345db6f7cdba -InstanceCount 1
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [ModifyCapacityReservation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2Host`
<a name="ec2_ModifyHosts_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2Host`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi AutoPlacement pengaturan ke off untuk host khusus h-01e23f4cd567890f3**  

```
Edit-EC2Host -HostId h-03e09f8cd681609f3 -AutoPlacement off
```
**Output:**  

```
Successful            Unsuccessful
----------            ------------
{h-01e23f4cd567890f3} {}
```
+  Untuk detail API, lihat [ModifyHosts](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2IdFormat`
<a name="ec2_ModifyIdFormat_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2IdFormat`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan format ID yang lebih panjang untuk jenis sumber daya yang ditentukan.**  

```
Edit-EC2IdFormat -Resource instance -UseLongId $true
```
**Contoh 2: Contoh ini menonaktifkan format ID yang lebih panjang untuk jenis sumber daya yang ditentukan.**  

```
Edit-EC2IdFormat -Resource instance -UseLongId $false
```
+  Untuk detail API, lihat [ModifyIdFormat](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2ImageAttribute`
<a name="ec2_ModifyImageAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2ImageAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui deskripsi untuk AMI yang ditentukan.**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Description "New description"
```
**Contoh 2: Contoh ini membuat AMI menjadi publik (misalnya, jadi siapa pun Akun AWS dapat menggunakannya).**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType add -UserGroup all
```
**Contoh 3: Contoh ini menjadikan AMI pribadi (misalnya, sehingga hanya Anda sebagai pemilik yang dapat menggunakannya).**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType remove -UserGroup all
```
**Contoh 4: Contoh ini memberikan izin peluncuran ke yang ditentukan Akun AWS.**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType add -UserId 111122223333
```
**Contoh 5: Contoh ini menghapus izin peluncuran dari yang ditentukan Akun AWS.**  

```
Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType remove -UserId 111122223333
```
+  Untuk detail API, lihat [ModifyImageAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2InstanceAttribute`
<a name="ec2_ModifyInstanceAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2InstanceAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi jenis instance dari instance yang ditentukan.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -InstanceType m3.medium
```
**Contoh 2: Contoh ini memungkinkan peningkatan jaringan untuk instance tertentu, dengan menentukan “sederhana” sebagai nilai dari parameter dukungan jaringan I/O virtualisasi root tunggal (SR-IOV), -.. SriovNetSupport**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -SriovNetSupport "simple"
```
**Contoh 3: Contoh ini memodifikasi grup keamanan untuk instance tertentu. Instans harus dalam VPC. Anda harus menentukan ID dari setiap grup keamanan, bukan nama.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -Group @( "sg-12345678", "sg-45678901" )
```
**Contoh 4: Contoh ini memungkinkan I/O optimasi EBS untuk instance tertentu. Fitur ini tidak tersedia dengan semua jenis instance. Biaya penggunaan tambahan berlaku saat menggunakan instans yang dioptimalkan EBS.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -EbsOptimized $true
```
**Contoh 5: Contoh ini memungkinkan source/destination pemeriksaan untuk contoh yang ditentukan. Untuk instance NAT untuk melakukan NAT, nilainya harus 'salah'.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -SourceDestCheck $true
```
**Contoh 6: Contoh ini menonaktifkan penghentian untuk contoh yang ditentukan.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -DisableApiTermination $true
```
**Contoh 7: Contoh ini mengubah instance tertentu sehingga berakhir ketika shutdown dimulai dari instance.**  

```
Edit-EC2InstanceAttribute -InstanceId i-12345678 -InstanceInitiatedShutdownBehavior terminate
```
+  Untuk detail API, lihat [ModifyInstanceAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2InstanceCreditSpecification`
<a name="ec2_ModifyInstanceCreditSpecification_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2InstanceCreditSpecification`.

**Alat untuk PowerShell V5**  
**Contoh 1: Ini memungkinkan kredit tak terbatas T2 misalnya i-01234567890abcdef.**  

```
$Credit = New-Object -TypeName Amazon.EC2.Model.InstanceCreditSpecificationRequest
$Credit.InstanceId = "i-01234567890abcdef"
$Credit.CpuCredits = "unlimited"
Edit-EC2InstanceCreditSpecification -InstanceCreditSpecification $Credit
```
+  Untuk detail API, lihat [ModifyInstanceCreditSpecification](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2NetworkInterfaceAttribute`
<a name="ec2_ModifyNetworkInterfaceAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2NetworkInterfaceAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi antarmuka jaringan yang ditentukan sehingga lampiran yang ditentukan dihapus pada penghentian.**  

```
Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Attachment_AttachmentId eni-attach-1a2b3c4d -Attachment_DeleteOnTermination $true
```
**Contoh 2: Contoh ini memodifikasi deskripsi antarmuka jaringan yang ditentukan.**  

```
Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Description "my description"
```
**Contoh 3: Contoh ini memodifikasi grup keamanan untuk antarmuka jaringan yang ditentukan.**  

```
Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Groups sg-1a2b3c4d
```
**Contoh 4: Contoh ini menonaktifkan source/destination pemeriksaan antarmuka jaringan yang ditentukan.**  

```
Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -SourceDestCheck $false
```
+  Untuk detail API, lihat [ModifyNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2ReservedInstance`
<a name="ec2_ModifyReservedInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2ReservedInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi Availability Zone, jumlah instans, dan platform untuk instans Cadangan yang ditentukan.**  

```
$config = New-Object Amazon.EC2.Model.ReservedInstancesConfiguration
$config.AvailabilityZone = "us-west-2a"
$config.InstanceCount = 1
$config.Platform = "EC2-VPC"

Edit-EC2ReservedInstance `
-ReservedInstancesId @("FE32132D-70D5-4795-B400-AE435EXAMPLE", "0CC556F3-7AB8-4C00-B0E5-98666EXAMPLE") `
-TargetConfiguration $config
```
+  Untuk detail API, lihat [ModifyReservedInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2SnapshotAttribute`
<a name="ec2_ModifySnapshotAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2SnapshotAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat snapshot yang ditentukan publik dengan menyetel CreateVolumePermission atributnya.**  

```
Edit-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission -OperationType Add -GroupName all
```
+  Untuk detail API, lihat [ModifySnapshotAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2SpotFleetRequest`
<a name="ec2_ModifySpotFleetRequest_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2SpotFleetRequest`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui kapasitas target permintaan armada Spot yang ditentukan.**  

```
Edit-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TargetCapacity 10
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [ModifySpotFleetRequest](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2SubnetAttribute`
<a name="ec2_ModifySubnetAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2SubnetAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan pengalamatan IP publik untuk subnet yang ditentukan.**  

```
Edit-EC2SubnetAttribute -SubnetId subnet-1a2b3c4d -MapPublicIpOnLaunch $true
```
**Contoh 2: Contoh ini menonaktifkan pengalamatan IP publik untuk subnet yang ditentukan.**  

```
Edit-EC2SubnetAttribute -SubnetId subnet-1a2b3c4d -MapPublicIpOnLaunch $false
```
+  Untuk detail API, lihat [ModifySubnetAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2VolumeAttribute`
<a name="ec2_ModifyVolumeAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2VolumeAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi atribut tertentu dari volume yang ditentukan. I/O operasi untuk volume secara otomatis dilanjutkan setelah ditangguhkan karena data yang berpotensi tidak konsisten**.  

```
Edit-EC2VolumeAttribute -VolumeId vol-12345678 -AutoEnableIO $true
```
+  Untuk detail API, lihat [ModifyVolumeAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-EC2VpcAttribute`
<a name="ec2_ModifyVpcAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EC2VpcAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan dukungan untuk nama host DNS untuk VPC yang ditentukan.**  

```
Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsHostnames $true
```
**Contoh 2: Contoh ini menonaktifkan dukungan untuk nama host DNS untuk VPC yang ditentukan.**  

```
Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsHostnames $false
```
**Contoh 3: Contoh ini memungkinkan dukungan untuk resolusi DNS untuk VPC yang ditentukan.**  

```
Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsSupport $true
```
**Contoh 4: Contoh ini menonaktifkan dukungan untuk resolusi DNS untuk VPC yang ditentukan.**  

```
Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsSupport $false
```
+  Untuk detail API, lihat [ModifyVpcAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-EC2VgwRoutePropagation`
<a name="ec2_EnableVgwRoutePropagation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-EC2VgwRoutePropagation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan VGW yang ditentukan untuk menyebarkan rute secara otomatis ke tabel perutean yang ditentukan.**  

```
Enable-EC2VgwRoutePropagation -RouteTableId rtb-12345678 -GatewayId vgw-1a2b3c4d
```
+  Untuk detail API, lihat [EnableVgwRoutePropagation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-EC2VolumeIO`
<a name="ec2_EnableVolumeIo_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-EC2VolumeIO`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan I/O operasi untuk volume yang ditentukan, jika I/O operasi dinonaktifkan.**  

```
Enable-EC2VolumeIO -VolumeId vol-12345678
```
+  Untuk detail API, lihat [EnableVolumeIo](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-EC2VpcClassicLink`
<a name="ec2_EnableVpcClassicLink_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-EC2VpcClassicLink`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan VPC vpc-0123456b789b0d12f untuk ClassicLink**  

```
Enable-EC2VpcClassicLink -VpcId vpc-0123456b789b0d12f
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [EnableVpcClassicLink](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-EC2VpcClassicLinkDnsSupport`
<a name="ec2_EnableVpcClassicLinkDnsSupport_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-EC2VpcClassicLinkDnsSupport`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan vpc-0b12d3456a7e8910d untuk mendukung resolusi nama host DNS untuk ClassicLink**  

```
Enable-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d -Region eu-west-1
```
+  Untuk detail API, lihat [EnableVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2AccountAttribute`
<a name="ec2_DescribeAccountAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2AccountAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan apakah Anda dapat meluncurkan instance ke EC2-Classic dan EC2-VPC di wilayah tersebut, atau hanya ke EC2-VPC.**  

```
(Get-EC2AccountAttribute -AttributeName supported-platforms).AttributeValues
```
**Output:**  

```
AttributeValue
--------------
EC2
VPC
```
**Contoh 2: Contoh ini menjelaskan VPC default Anda, atau 'tidak ada' jika Anda tidak memiliki VPC default di wilayah tersebut.**  

```
(Get-EC2AccountAttribute -AttributeName default-vpc).AttributeValues
```
**Output:**  

```
AttributeValue
--------------
vpc-12345678
```
**Contoh 3: Contoh ini menjelaskan jumlah maksimum instans On-Demand yang dapat Anda jalankan.**  

```
(Get-EC2AccountAttribute -AttributeName max-instances).AttributeValues
```
**Output:**  

```
AttributeValue
--------------
20
```
+  Untuk detail API, lihat [DescribeAccountAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Address`
<a name="ec2_DescribeAddresses_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Address`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan alamat IP Elastis yang ditentukan untuk instance di EC2-Classic.**  

```
Get-EC2Address -AllocationId eipalloc-12345678
```
**Output:**  

```
AllocationId            : eipalloc-12345678
AssociationId           : eipassoc-12345678
Domain                  : vpc
InstanceId              : i-87654321
NetworkInterfaceId      : eni-12345678
NetworkInterfaceOwnerId : 12345678
PrivateIpAddress        : 10.0.2.172
PublicIp                : 198.51.100.2
```
**Contoh 2: Contoh ini menjelaskan alamat IP Elastis Anda untuk instance di VPC. Sintaks ini membutuhkan PowerShell versi 3 atau yang lebih baru.**  

```
Get-EC2Address -Filter @{ Name="domain";Values="vpc" }
```
**Contoh 3: Contoh ini menjelaskan alamat IP Elastis yang ditentukan untuk instance di EC2-Classic.**  

```
Get-EC2Address -PublicIp 203.0.113.17
```
**Output:**  

```
AllocationId            :
AssociationId           :
Domain                  : standard
InstanceId              : i-12345678
NetworkInterfaceId      :
NetworkInterfaceOwnerId :
PrivateIpAddress        :
PublicIp                : 203.0.113.17
```
**Contoh 4: Contoh ini menjelaskan alamat IP Elastis Anda untuk instance di EC2-Classic. Sintaks ini membutuhkan PowerShell versi 3 atau yang lebih baru.**  

```
Get-EC2Address -Filter @{ Name="domain";Values="standard" }
```
**Contoh 5: Contoh ini menjelaskan semua alamat IP Elastis Anda.**  

```
Get-EC2Address
```
**Contoh 6: Contoh ini mengembalikan IP publik dan pribadi untuk id contoh yang disediakan dalam filter**  

```
Get-EC2Address -Region eu-west-1 -Filter @{Name="instance-id";Values="i-0c12d3f4f567ffb89"} | Select-Object PrivateIpAddress, PublicIp
```
**Output:**  

```
PrivateIpAddress PublicIp
---------------- --------
10.0.0.99        63.36.5.227
```
**Contoh 7: Contoh ini mengambil semua Elastic IPs dengan id alokasi, id asosiasi dan id instance-nya**  

```
Get-EC2Address -Region eu-west-1 | Select-Object InstanceId, AssociationId, AllocationId, PublicIp
```
**Output:**  

```
InstanceId          AssociationId              AllocationId               PublicIp
----------          -------------              ------------               --------
                                               eipalloc-012e3b456789e1fad 17.212.120.178
i-0c123dfd3415bac67 eipassoc-0e123456bb7890bdb eipalloc-01cd23ebf45f7890c 17.212.124.77
                                               eipalloc-012345678eeabcfad 17.212.225.7
i-0123d405c67e89a0c eipassoc-0c123b456783966ba eipalloc-0123cdd456a8f7892 37.216.52.173
i-0f1bf2f34c5678d09 eipassoc-0e12934568a952d96 eipalloc-0e1c23e4d5e6789e4 37.218.222.278
i-012e3cb4df567e8aa eipassoc-0d1b2fa4d67d03810 eipalloc-0123f456f78a01b58 37.210.82.27
i-0123bcf4b567890e1 eipassoc-01d2345f678903fb1 eipalloc-0e1db23cfef5c45c7 37.215.222.270
```
**Contoh 8: Contoh ini mengambil daftar alamat IP EC2 yang cocok dengan kunci tag 'Kategori' dengan nilai 'Prod'**  

```
Get-EC2Address -Filter @{Name="tag:Category";Values="Prod"}
```
**Output:**  

```
AllocationId            : eipalloc-0123f456f81a01b58
AssociationId           : eipassoc-0d1b23a456d103810
CustomerOwnedIp         :
CustomerOwnedIpv4Pool   :
Domain                  : vpc
InstanceId              : i-012e3cb4df567e1aa
NetworkBorderGroup      : eu-west-1
NetworkInterfaceId      : eni-0123f41d5a60d5f40
NetworkInterfaceOwnerId : 123456789012
PrivateIpAddress        : 192.168.1.84
PublicIp                : 34.250.81.29
PublicIpv4Pool          : amazon
Tags                    : {Category, Name}
```
+  Untuk detail API, lihat [DescribeAddresses](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2AvailabilityZone`
<a name="ec2_DescribeAvailabilityZones_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2AvailabilityZone`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan Availability Zone untuk wilayah saat ini yang tersedia untuk Anda.**  

```
Get-EC2AvailabilityZone
```
**Output:**  

```
Messages    RegionName    State        ZoneName
--------    ----------    -----        --------
{}          us-west-2     available    us-west-2a
{}          us-west-2     available    us-west-2b
{}          us-west-2     available    us-west-2c
```
**Contoh 2: Contoh ini menjelaskan Availability Zone yang berada dalam keadaan terganggu. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
Get-EC2AvailabilityZone -Filter @{ Name="state";Values="impaired" }
```
**Contoh 3: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat filter.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = "impaired"

Get-EC2AvailabilityZone -Filter $filter
```
+  Untuk detail API, lihat [DescribeAvailabilityZones](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2BundleTask`
<a name="ec2_DescribeBundleTasks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2BundleTask`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan tugas bundel yang ditentukan.**  

```
Get-EC2BundleTask -BundleId bun-12345678
```
**Contoh 2: Contoh ini menjelaskan tugas bundel yang statusnya 'lengkap' atau 'gagal'.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = @( "complete", "failed" )

Get-EC2BundleTask -Filter $filter
```
+  Untuk detail API, lihat [DescribeBundleTasks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2CapacityReservation`
<a name="ec2_DescribeCapacityReservations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2CapacityReservation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan satu atau beberapa Reservasi Kapasitas Anda untuk wilayah tersebut**  

```
Get-EC2CapacityReservation -Region eu-west-1
```
**Output:**  

```
AvailabilityZone       : eu-west-1b
AvailableInstanceCount : 2
CapacityReservationId  : cr-0c1f2345db6f7cdba
CreateDate             : 3/28/2019 9:29:41 AM
EbsOptimized           : True
EndDate                : 1/1/0001 12:00:00 AM
EndDateType            : unlimited
EphemeralStorage       : False
InstanceMatchCriteria  : open
InstancePlatform       : Windows
InstanceType           : m4.xlarge
State                  : active
Tags                   : {}
Tenancy                : default
TotalInstanceCount     : 2
```
+  Untuk detail API, lihat [DescribeCapacityReservations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2ConsoleOutput`
<a name="ec2_GetConsoleOutput_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ConsoleOutput`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan output konsol untuk instance Linux yang ditentukan. Output konsol dikodekan.**  

```
Get-EC2ConsoleOutput -InstanceId i-0e19abcd47c123456
```
**Output:**  

```
InstanceId          Output
----------          ------
i-0e194d3c47c123637 WyAgICAwLjAwMDAwMF0gQ29tbW...bGU9dHR5UzAgc2Vs
```
**Contoh 2: Contoh ini menyimpan output konsol yang dikodekan dalam variabel dan kemudian menerjemahkannya.**  

```
$Output_encoded = (Get-EC2ConsoleOutput -InstanceId i-0e19abcd47c123456).Output
[System.Text.Encoding]::UTF8.GetString([System.Convert]::FromBase64String($Output_encoded))
```
+  Untuk detail API, lihat [GetConsoleOutput](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2CustomerGateway`
<a name="ec2_DescribeCustomerGateways_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2CustomerGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan gateway pelanggan yang ditentukan.**  

```
Get-EC2CustomerGateway -CustomerGatewayId cgw-1a2b3c4d
```
**Output:**  

```
BgpAsn            : 65534
CustomerGatewayId : cgw-1a2b3c4d
IpAddress         : 203.0.113.12
State             : available
Tags              : {}
Type              : ipsec.1
```
**Contoh 2: Contoh ini menjelaskan gateway pelanggan yang statusnya tertunda atau tersedia.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = @( "pending", "available" )

Get-EC2CustomerGateway -Filter $filter
```
**Contoh 3: Contoh ini menjelaskan semua gateway pelanggan Anda.**  

```
Get-EC2CustomerGateway
```
+  Untuk detail API, lihat [DescribeCustomerGateways](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2DhcpOption`
<a name="ec2_DescribeDhcpOptions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2DhcpOption`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan set opsi DHCP Anda.**  

```
Get-EC2DhcpOption
```
**Output:**  

```
DhcpConfigurations                    DhcpOptionsId    Tag
------------------                    -------------    ---
{domain-name, domain-name-servers}    dopt-1a2b3c4d    {}
{domain-name, domain-name-servers}    dopt-2a3b4c5d    {}
{domain-name-servers}                 dopt-3a4b5c6d    {}
```
**Contoh 2: Contoh ini mendapatkan detail konfigurasi untuk set opsi DHCP yang ditentukan.**  

```
(Get-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d).DhcpConfigurations
```
**Output:**  

```
Key                    Values
---                    ------
domain-name            {abc.local}
domain-name-servers    {10.0.0.101, 10.0.0.102}
```
+  Untuk detail API, lihat [DescribeDhcpOptions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2FlowLog`
<a name="ec2_DescribeFlowLogs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2FlowLog`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan satu atau lebih flow log dengan tipe tujuan log 's3'**  

```
Get-EC2FlowLog -Filter @{Name="log-destination-type";Values="s3"}
```
**Output:**  

```
CreationTime             : 2/25/2019 9:07:36 PM
DeliverLogsErrorMessage  :
DeliverLogsPermissionArn :
DeliverLogsStatus        : SUCCESS
FlowLogId                : fl-01b2e3d45f67f8901
FlowLogStatus            : ACTIVE
LogDestination           : arn:aws:s3:::amzn-s3-demo-bucket-dd-tata
LogDestinationType       : s3
LogGroupName             :
ResourceId               : eni-01d2dda3456b7e890
TrafficType              : ALL
```
+  Untuk detail API, lihat [DescribeFlowLogs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Host`
<a name="ec2_DescribeHosts_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Host`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian host EC2**  

```
Get-EC2Host
```
**Output:**  

```
AllocationTime    : 3/23/2019 4:55:22 PM
AutoPlacement     : off
AvailabilityZone  : eu-west-1b
AvailableCapacity : Amazon.EC2.Model.AvailableCapacity
ClientToken       :
HostId            : h-01e23f4cd567890f1
HostProperties    : Amazon.EC2.Model.HostProperties
HostReservationId :
Instances         : {}
ReleaseTime       : 1/1/0001 12:00:00 AM
State             : available
Tags              : {}
```
**Contoh 2: Contoh ini menanyakan host AvailableInstanceCapacity h-01e23f4cd567899f1**  

```
Get-EC2Host -HostId h-01e23f4cd567899f1 | Select-Object -ExpandProperty AvailableCapacity | Select-Object -expand AvailableInstanceCapacity
```
**Output:**  

```
AvailableCapacity InstanceType TotalCapacity
----------------- ------------ -------------
11                m4.xlarge    11
```
+  Untuk detail API, lihat [DescribeHosts](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2HostReservationOffering`
<a name="ec2_DescribeHostReservationOfferings_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2HostReservationOffering`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan reservasi Host Khusus yang tersedia untuk dibeli untuk filter yang diberikan 'instance-family' di mana '' PaymentOption NoUpfront**  

```
Get-EC2HostReservationOffering -Filter @{Name="instance-family";Values="m4"} | Where-Object PaymentOption -eq NoUpfront
```
**Output:**  

```
CurrencyCode   :
Duration       : 94608000
HourlyPrice    : 1.307
InstanceFamily : m4
OfferingId     : hro-0c1f234567890d9ab
PaymentOption  : NoUpfront
UpfrontPrice   : 0.000

CurrencyCode   :
Duration       : 31536000
HourlyPrice    : 1.830
InstanceFamily : m4
OfferingId     : hro-04ad12aaaf34b5a67
PaymentOption  : NoUpfront
UpfrontPrice   : 0.000
```
+  Untuk detail API, lihat [DescribeHostReservationOfferings](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2HostReservationPurchasePreview`
<a name="ec2_GetHostReservationPurchasePreview_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2HostReservationPurchasePreview`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan pratinjau pembelian reservasi dengan konfigurasi yang cocok dengan Host Khusus Anda h-01e23f4cd567890f1**  

```
Get-EC2HostReservationPurchasePreview -OfferingId hro-0c1f23456789d0ab -HostIdSet h-01e23f4cd567890f1
```
**Output:**  

```
CurrencyCode Purchase TotalHourlyPrice TotalUpfrontPrice
------------ -------- ---------------- -----------------
             {}       1.307            0.000
```
+  Untuk detail API, lihat [GetHostReservationPurchasePreview](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2IdFormat`
<a name="ec2_DescribeIdFormat_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2IdFormat`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan format ID untuk jenis sumber daya tertentu.**  

```
Get-EC2IdFormat -Resource instance
```
**Output:**  

```
Resource       UseLongIds
--------       ----------
instance       False
```
**Contoh 2: Contoh ini menjelaskan format ID untuk semua jenis sumber daya yang mendukung lebih lama IDs.**  

```
Get-EC2IdFormat
```
**Output:**  

```
Resource       UseLongIds
--------       ----------
reservation    False
instance       False
```
+  Untuk detail API, lihat [DescribeIdFormat](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2IdentityIdFormat`
<a name="ec2_DescribeIdentityIdFormat_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2IdentityIdFormat`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan format ID untuk sumber 'image' untuk peran yang diberikan**  

```
Get-EC2IdentityIdFormat -PrincipalArn arn:aws:iam::123456789511:role/JDBC -Resource image
```
**Output:**  

```
Deadline             Resource UseLongIds
--------             -------- ----------
8/2/2018 11:30:00 PM image    True
```
+  Untuk detail API, lihat [DescribeIdentityIdFormat](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Image`
<a name="ec2_DescribeImages_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Image`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan AMI yang ditentukan.**  

```
Get-EC2Image -ImageId ami-12345678
```
**Output:**  

```
Architecture        : x86_64
BlockDeviceMappings : {/dev/xvda}
CreationDate        : 2014-10-20T00:56:28.000Z
Description         : My image
Hypervisor          : xen
ImageId             : ami-12345678
ImageLocation       : 123456789012/my-image
ImageOwnerAlias     :
ImageType           : machine
KernelId            :
Name                : my-image
OwnerId             : 123456789012
Platform            :
ProductCodes        : {}
Public              : False
RamdiskId           :
RootDeviceName      : /dev/xvda
RootDeviceType      : ebs
SriovNetSupport     : simple
State               : available
StateReason         :
Tags                : {Name}
VirtualizationType  : hvm
```
**Contoh 2: Contoh ini menggambarkan AMIs yang Anda miliki.**  

```
Get-EC2Image -owner self
```
**Contoh 3: Contoh ini menjelaskan publik AMIs yang menjalankan Microsoft Windows Server.**  

```
Get-EC2Image -Filter @{ Name="platform"; Values="windows" }
```
**Contoh 4: Contoh ini menjelaskan semua publik AMIs di wilayah 'us-west-2'.**  

```
Get-EC2Image -Region us-west-2
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2ImageAttribute`
<a name="ec2_DescribeImageAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ImageAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan deskripsi untuk AMI yang ditentukan.**  

```
Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute description
```
**Output:**  

```
BlockDeviceMappings : {}
Description         : My image description
ImageId             : ami-12345678
KernelId            :
LaunchPermissions   : {}
ProductCodes        : {}
RamdiskId           :
SriovNetSupport     :
```
**Contoh 2: Contoh ini mendapatkan izin peluncuran untuk AMI yang ditentukan.**  

```
Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission
```
**Output:**  

```
BlockDeviceMappings : {}
Description         :
ImageId             : ami-12345678
KernelId            :
LaunchPermissions   : {all}
ProductCodes        : {}
RamdiskId           :
SriovNetSupport     :
```
**Contoh 3: Contoh ini menguji apakah jaringan yang ditingkatkan diaktifkan.**  

```
Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute sriovNetSupport
```
**Output:**  

```
BlockDeviceMappings : {}
Description         :
ImageId             : ami-12345678
KernelId            :
LaunchPermissions   : {}
ProductCodes        : {}
RamdiskId           :
SriovNetSupport     : simple
```
+  Untuk detail API, lihat [DescribeImageAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2ImportImageTask`
<a name="ec2_DescribeImportImageTasks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ImportImageTask`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan tugas impor gambar yang ditentukan.**  

```
Get-EC2ImportImageTask -ImportTaskId import-ami-hgfedcba
```
**Output:**  

```
Architecture    : x86_64
Description     : Windows Image 2
Hypervisor      :
ImageId         : ami-1a2b3c4d
ImportTaskId    : import-ami-hgfedcba
LicenseType     : AWS
Platform        : Windows
Progress        :
SnapshotDetails : {/dev/sda1}
Status          : completed
StatusMessage   :
```
**Contoh 2: Contoh ini menjelaskan semua tugas impor gambar Anda.**  

```
Get-EC2ImportImageTask
```
**Output:**  

```
Architecture    :
Description     : Windows Image 1
Hypervisor      :
ImageId         :
ImportTaskId    : import-ami-abcdefgh
LicenseType     : AWS
Platform        : Windows
Progress        :
SnapshotDetails : {}
Status          : deleted
StatusMessage   : User initiated task cancelation

Architecture    : x86_64
Description     : Windows Image 2
Hypervisor      :
ImageId         : ami-1a2b3c4d
ImportTaskId    : import-ami-hgfedcba
LicenseType     : AWS
Platform        : Windows
Progress        :
SnapshotDetails : {/dev/sda1}
Status          : completed
StatusMessage   :
```
+  Untuk detail API, lihat [DescribeImportImageTasks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2ImportSnapshotTask`
<a name="ec2_DescribeImportSnapshotTasks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ImportSnapshotTask`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan tugas impor snapshot yang ditentukan.**  

```
Get-EC2ImportSnapshotTask -ImportTaskId import-snap-abcdefgh
```
**Output:**  

```
Description             ImportTaskId               SnapshotTaskDetail                                                          
-----------------       --------------------       ------------------                                                          
Disk Image Import 1     import-snap-abcdefgh       Amazon.EC2.Model.SnapshotTaskDetail
```
**Contoh 2: Contoh ini menjelaskan semua tugas impor snapshot Anda.**  

```
Get-EC2ImportSnapshotTask
```
**Output:**  

```
Description             ImportTaskId               SnapshotTaskDetail                                                          
-----------------       --------------------       ------------------                                                          
Disk Image Import 1     import-snap-abcdefgh       Amazon.EC2.Model.SnapshotTaskDetail 
Disk Image Import 2     import-snap-hgfedcba       Amazon.EC2.Model.SnapshotTaskDetail
```
+  Untuk detail API, lihat [DescribeImportSnapshotTasks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Instance`
<a name="ec2_DescribeInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Instance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan contoh yang ditentukan.**  

```
(Get-EC2Instance -InstanceId i-12345678).Instances
```
**Output:**  

```
AmiLaunchIndex        : 0
Architecture          : x86_64
BlockDeviceMappings   : {/dev/sda1}
ClientToken           : TleEy1448154045270
EbsOptimized          : False
Hypervisor            : xen
IamInstanceProfile    : Amazon.EC2.Model.IamInstanceProfile
ImageId               : ami-12345678
InstanceId            : i-12345678
InstanceLifecycle     :
InstanceType          : t2.micro
KernelId              :
KeyName               : my-key-pair
LaunchTime            : 12/4/2015 4:44:40 PM
Monitoring            : Amazon.EC2.Model.Monitoring
NetworkInterfaces     : {ip-10-0-2-172.us-west-2.compute.internal}
Placement             : Amazon.EC2.Model.Placement
Platform              : Windows
PrivateDnsName        : ip-10-0-2-172.us-west-2.compute.internal
PrivateIpAddress      : 10.0.2.172
ProductCodes          : {}
PublicDnsName         : 
PublicIpAddress       : 
RamdiskId             :
RootDeviceName        : /dev/sda1
RootDeviceType        : ebs
SecurityGroups        : {default}
SourceDestCheck       : True
SpotInstanceRequestId :
SriovNetSupport       :
State                 : Amazon.EC2.Model.InstanceState
StateReason           :
StateTransitionReason :
SubnetId              : subnet-12345678
Tags                  : {Name}
VirtualizationType    : hvm
VpcId                 : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan semua instans Anda di wilayah saat ini, dikelompokkan berdasarkan reservasi. Untuk melihat detail instance, perluas koleksi Instances dalam setiap objek reservasi.**  

```
Get-EC2Instance
```
**Output:**  

```
GroupNames    : {}
Groups        : {}
Instances     : {}
OwnerId       : 123456789012
RequesterId   : 226008221399
ReservationId : r-c5df370c

GroupNames    : {}
Groups        : {}
Instances     : {}
OwnerId       : 123456789012
RequesterId   : 854251627541
ReservationId : r-63e65bab
...
```
**Contoh 3: Contoh ini menggambarkan penggunaan filter untuk kueri instans EC2 di subnet tertentu dari VPC.**  

```
(Get-EC2Instance -Filter @{Name="vpc-id";Values="vpc-1a2bc34d"},@{Name="subnet-id";Values="subnet-1a2b3c4d"}).Instances
```
**Output:**  

```
InstanceId          InstanceType Platform PrivateIpAddress PublicIpAddress SecurityGroups SubnetId        VpcId
----------          ------------ -------- ---------------- --------------- -------------- --------        -----
i-01af...82cf180e19 t2.medium    Windows  10.0.0.98                        ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-0374...7e9d5b0c45 t2.xlarge    Windows  10.0.0.53                        ...            subnet-1a2b3c4d vpc-1a2b3c4d
```
**Contoh 4: Contoh ini menggambarkan penggunaan filter dengan beberapa nilai untuk kueri instans EC2 yang berjalan dan dihentikan**  

```
$InstanceParams = @{
    Filter = @(
        @{'Name' = 'instance-state-name';'Values' = @("running","stopped")}
    )
}

(Get-EC2Instance @InstanceParams).Instances
```
**Output:**  

```
InstanceId          InstanceType Platform PrivateIpAddress PublicIpAddress SecurityGroups SubnetId        VpcId
----------          ------------ -------- ---------------- --------------- -------------- --------        -----
i-05a9...f6c5f46e18 t3.medium             10.0.1.7                         ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-02cf...945c4fdd07 t3.medium    Windows  10.0.1.8                         ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-0ac0...c037f9f3a1 t3.xlarge    Windows  10.0.1.10                        ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-066b...57b7b08888 t3.medium    Windows  10.0.1.11                        ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-0fee...82e83ccd72 t3.medium    Windows  10.0.1.5                         ...            subnet-1a2b3c4d vpc-1a2b3c4d
i-0a68...274cc5043b t3.medium    Windows  10.0.1.6                         ...            subnet-1a2b3c4d vpc-1a2b3c4d
```
**Contoh 5: Contoh ini menggambarkan penggunaan filter dengan beberapa nilai untuk kueri instans EC2 yang berjalan dan dihentikan dan menggunakan cmdlet Select-Object untuk memilih nilai tertentu yang akan dikeluarkan.**  

```
$InstanceParams = @{
    Filter = @(
        @{'Name' = 'instance-state-name';'Values' = @("running","stopped")}
    )
}

$SelectParams = @{
    Property = @(
        "InstanceID", "InstanceType", "Platform", "PrivateIpAddress",
        @{Name="Name";Expression={$_.Tags[$_.Tags.Key.IndexOf("Name")].Value}},
        @{Name="State";Expression={$_.State.Name}}
    )
}

$result = Get-EC2Instance @InstanceParams
$result.Instances | Select-Object @SelectParams | Format-Table -AutoSize
```
**Output:**  

```
InstanceId          InstanceType Platform PrivateIpAddress Name         State
----------          ------------ -------- ---------------- ----         -----
i-05a9...f6c5f46e18 t3.medium             10.0.1.7         ec2-name-01  running
i-02cf...945c4fdd07 t3.medium    Windows  10.0.1.8         ec2-name-02  stopped
i-0ac0...c037f9f3a1 t3.xlarge    Windows  10.0.1.10        ec2-name-03  running
i-066b...57b7b08888 t3.medium    Windows  10.0.1.11        ec2-name-04  stopped
i-0fee...82e83ccd72 t3.medium    Windows  10.0.1.5         ec2-name-05  running
i-0a68...274cc5043b t3.medium    Windows  10.0.1.6         ec2-name-06  stopped
```
**Contoh 6: Contoh ini memvalidasi izin untuk mendapatkan instance EC2 menggunakan DryRun parameter tanpa benar-benar mengambilnya. Catatan: Ini melempar pengecualian jika berhasil yang merupakan perilaku yang diharapkan.**  

```
Get-EC2Tag -DryRun $true
```
**Output:**  

```
Get-EC2Instance: Request would have succeeded, but DryRun flag is set.
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2InstanceAttribute`
<a name="ec2_DescribeInstanceAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2InstanceAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan jenis instance dari instance yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceType
```
**Output:**  

```
InstanceType                      : t2.micro
```
**Contoh 2: Contoh ini menjelaskan apakah jaringan yang disempurnakan diaktifkan untuk instance yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sriovNetSupport
```
**Output:**  

```
SriovNetSupport                   : simple
```
**Contoh 3: Contoh ini menjelaskan grup keamanan untuk instance tertentu.**  

```
(Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute groupSet).Groups
```
**Output:**  

```
GroupId
-------
sg-12345678
sg-45678901
```
**Contoh 4: Contoh ini menjelaskan apakah optimasi EBS diaktifkan untuk instance tertentu.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute ebsOptimized
```
**Output:**  

```
EbsOptimized                      : False
```
**Contoh 5: Contoh ini menjelaskan atribut disableApiTermination '' dari contoh yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute disableApiTermination
```
**Output:**  

```
DisableApiTermination             : False
```
**Contoh 6: Contoh ini menjelaskan atribut 'instanceInitiatedShutdownPerilaku' dari contoh yang ditentukan.**  

```
Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceInitiatedShutdownBehavior
```
**Output:**  

```
InstanceInitiatedShutdownBehavior : stop
```
+  Untuk detail API, lihat [DescribeInstanceAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2InstanceMetadata`
<a name="ec2_Get-EC2InstanceMetadata_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2InstanceMetadata`.

**Alat untuk PowerShell V5**  
**Contoh 1: Daftar kategori metadata instance yang tersedia yang dapat ditanyakan.**  

```
Get-EC2InstanceMetadata -ListCategory
```
**Output:**  

```
AmiId
LaunchIndex
ManifestPath
AncestorAmiId
BlockDeviceMapping
InstanceId
InstanceType
LocalHostname
LocalIpv4
KernelId
AvailabilityZone
ProductCode
PublicHostname
PublicIpv4
PublicKey
RamdiskId
Region
ReservationId
SecurityGroup
UserData
InstanceMonitoring
IdentityDocument
IdentitySignature
IdentityPkcs7
```
**Contoh 2: Mengembalikan id Amazon Machine Image (AMI) yang digunakan untuk meluncurkan instance.**  

```
Get-EC2InstanceMetadata -Category AmiId
```
**Output:**  

```
ami-b2e756ca
```
**Contoh 3: Contoh ini menanyakan dokumen identitas berformat JSON untuk instance tersebut.**  

```
Get-EC2InstanceMetadata -Category IdentityDocument
{
  "availabilityZone" : "us-west-2a",
  "devpayProductCodes" : null,
  "marketplaceProductCodes" : null,
  "version" : "2017-09-30",
  "instanceId" : "i-01ed50f7e2607f09e",
  "billingProducts" : [ "bp-6ba54002" ],
  "instanceType" : "t2.small",
  "pendingTime" : "2018-03-07T16:26:04Z",
  "imageId" : "ami-b2e756ca",
  "privateIp" : "10.0.0.171",
  "accountId" : "111122223333",
  "architecture" : "x86_64",
  "kernelId" : null,
  "ramdiskId" : null,
  "region" : "us-west-2"
}
```
**Contoh 4: Contoh ini menggunakan kueri jalur untuk mendapatkan macs antarmuka jaringan untuk instance.**  

```
Get-EC2InstanceMetadata -Path "/network/interfaces/macs"
```
**Output:**  

```
02:80:7f:ef:4c:e0/
```
**Contoh 5: Jika ada peran IAM yang terkait dengan instance, mengembalikan informasi tentang terakhir kali profil instance diperbarui, termasuk LastUpdated tanggal instans, InstanceProfileArn, dan InstanceProfileId.**  

```
Get-EC2InstanceMetadata -Path "/iam/info"
```
**Output:**  

```
{
  "Code" : "Success",
  "LastUpdated" : "2018-03-08T03:38:40Z",
  "InstanceProfileArn" : "arn:aws:iam::111122223333:instance-profile/MyLaunchRole_Profile",
  "InstanceProfileId" : "AIPAI4...WVK2RW"
}
```
+  Untuk detail API, lihat [Get-EC2InstanceMetadata](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2InstanceStatus`
<a name="ec2_DescribeInstanceStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2InstanceStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan status instance yang ditentukan.**  

```
Get-EC2InstanceStatus -InstanceId i-12345678
```
**Output:**  

```
AvailabilityZone : us-west-2a
Events           : {}
InstanceId       : i-12345678
InstanceState    : Amazon.EC2.Model.InstanceState
Status           : Amazon.EC2.Model.InstanceStatusSummary
SystemStatus     : Amazon.EC2.Model.InstanceStatusSummary
```

```
$status = Get-EC2InstanceStatus -InstanceId i-12345678
$status.InstanceState
```
**Output:**  

```
Code    Name
----    ----
16      running
```

```
$status.Status
```
**Output:**  

```
Details           Status
-------           ------
{reachability}    ok
```

```
$status.SystemStatus
```
**Output:**  

```
Details           Status
-------           ------
{reachability}    ok
```
+  Untuk detail API, lihat [DescribeInstanceStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2InternetGateway`
<a name="ec2_DescribeInternetGateways_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2InternetGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan gateway Internet yang ditentukan.**  

```
Get-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d
```
**Output:**  

```
Attachments       InternetGatewayId     Tags
-----------       -----------------     ----
{vpc-1a2b3c4d}    igw-1a2b3c4d          {}
```
**Contoh 2: Contoh ini menjelaskan semua gateway Internet Anda.**  

```
Get-EC2InternetGateway
```
**Output:**  

```
Attachments       InternetGatewayId     Tags
-----------       -----------------     ----
{vpc-1a2b3c4d}    igw-1a2b3c4d          {}
{}                igw-2a3b4c5d          {}
```
+  Untuk detail API, lihat [DescribeInternetGateways](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2KeyPair`
<a name="ec2_DescribeKeyPairs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2KeyPair`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan key pair yang ditentukan.**  

```
Get-EC2KeyPair -KeyName my-key-pair
```
**Output:**  

```
KeyFingerprint                                              KeyName
--------------                                              -------
1f:51:ae:28:bf:89:e9:d8:1f:25:5d:37:2d:7d:b8:ca:9f:f5:f1:6f my-key-pair
```
**Contoh 2: Contoh ini menjelaskan semua pasangan kunci Anda.**  

```
Get-EC2KeyPair
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2NetworkAcl`
<a name="ec2_DescribeNetworkAcls_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2NetworkAcl`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan ACL jaringan tertentu.**  

```
Get-EC2NetworkAcl -NetworkAclId acl-12345678
```
**Output:**  

```
Associations : {aclassoc-1a2b3c4d}
Entries      : {Amazon.EC2.Model.NetworkAclEntry, Amazon.EC2.Model.NetworkAclEntry}
IsDefault    : False
NetworkAclId : acl-12345678
Tags         : {Name}
VpcId        : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan aturan untuk ACL jaringan yang ditentukan.**  

```
(Get-EC2NetworkAcl -NetworkAclId acl-12345678).Entries
```
**Output:**  

```
CidrBlock    : 0.0.0.0/0
Egress       : True
IcmpTypeCode :
PortRange    :
Protocol     : -1
RuleAction   : deny
RuleNumber   : 32767

CidrBlock    : 0.0.0.0/0
Egress       : False
IcmpTypeCode :
PortRange    :
Protocol     : -1
RuleAction   : deny
RuleNumber   : 32767
```
**Contoh 3: Contoh ini menjelaskan semua jaringan Anda ACLs.**  

```
Get-EC2NetworkAcl
```
+  Untuk detail API, lihat [DescribeNetworkAcls](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2NetworkInterface`
<a name="ec2_DescribeNetworkInterfaces_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2NetworkInterface`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterface -NetworkInterfaceId eni-12345678
```
**Output:**  

```
Association        :
Attachment         : Amazon.EC2.Model.NetworkInterfaceAttachment
AvailabilityZone   : us-west-2c
Description        :
Groups             : {my-security-group}
MacAddress         : 0a:e9:a6:19:4c:7f
NetworkInterfaceId : eni-12345678
OwnerId            : 123456789012
PrivateDnsName     : ip-10-0-0-107.us-west-2.compute.internal
PrivateIpAddress   : 10.0.0.107
PrivateIpAddresses : {ip-10-0-0-107.us-west-2.compute.internal}
RequesterId        :
RequesterManaged   : False
SourceDestCheck    : True
Status             : in-use
SubnetId           : subnet-1a2b3c4d
TagSet             : {}
VpcId              : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan semua antarmuka jaringan Anda.**  

```
Get-EC2NetworkInterface
```
+  Untuk detail API, lihat [DescribeNetworkInterfaces](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2NetworkInterfaceAttribute`
<a name="ec2_DescribeNetworkInterfaceAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2NetworkInterfaceAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute Attachment
```
**Output:**  

```
Attachment         : Amazon.EC2.Model.NetworkInterfaceAttachment
```
**Contoh 2: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute Description
```
**Output:**  

```
Description        : My description
```
**Contoh 3: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute GroupSet
```
**Output:**  

```
Groups             : {my-security-group}
```
**Contoh 4: Contoh ini menjelaskan antarmuka jaringan yang ditentukan.**  

```
Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute SourceDestCheck
```
**Output:**  

```
SourceDestCheck    : True
```
+  Untuk detail API, lihat [DescribeNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2PasswordData`
<a name="ec2_GetPasswordData_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2PasswordData`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendekripsi kata sandi yang ditetapkan Amazon EC2 ke akun Administrator untuk instance Windows yang ditentukan. Sebagai file PEM ditentukan, pengaturan sakelar -Decrypt secara otomatis diasumsikan.**  

```
Get-EC2PasswordData -InstanceId i-12345678 -PemFile C:\path\my-key-pair.pem
```
**Output:**  

```
mYZ(PA9?C)Q
```
**Contoh 2: ( PowerShell Hanya Windows) Memeriksa instance untuk menentukan nama keypair yang digunakan untuk meluncurkan instance dan kemudian mencoba menemukan data keypair yang sesuai di penyimpanan konfigurasi Toolkit for Visual AWS Studio. Jika data keypair ditemukan, kata sandi didekripsi.**  

```
Get-EC2PasswordData -InstanceId i-12345678 -Decrypt
```
**Output:**  

```
mYZ(PA9?C)Q
```
**Contoh 3: Mengembalikan data kata sandi terenkripsi untuk contoh.**  

```
Get-EC2PasswordData -InstanceId i-12345678
```
**Output:**  

```
iVz3BAK/WAXV.....dqt8WeMA==
```
+  Untuk detail API, lihat [GetPasswordData](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2PlacementGroup`
<a name="ec2_DescribePlacementGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2PlacementGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan grup penempatan yang ditentukan.**  

```
Get-EC2PlacementGroup -GroupName my-placement-group
```
**Output:**  

```
GroupName             State        Strategy
---------             -----        --------
my-placement-group    available    cluster
```
+  Untuk detail API, lihat [DescribePlacementGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2PrefixList`
<a name="ec2_DescribePrefixLists_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2PrefixList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil yang tersedia Layanan AWS dalam format daftar awalan untuk wilayah**  

```
Get-EC2PrefixList
```
**Output:**  

```
Cidrs                                          PrefixListId PrefixListName
-----                                          ------------ --------------
{52.94.5.0/24, 52.119.240.0/21, 52.94.24.0/23} pl-6fa54006  com.amazonaws.eu-west-1.dynamodb
{52.218.0.0/17, 54.231.128.0/19}               pl-6da54004  com.amazonaws.eu-west-1.s3
```
+  Untuk detail API, lihat [DescribePrefixLists](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Region`
<a name="ec2_DescribeRegions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Region`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan wilayah yang tersedia untuk Anda.**  

```
Get-EC2Region
```
**Output:**  

```
Endpoint                            RegionName
--------                            ----------
ec2.eu-west-1.amazonaws.com         eu-west-1
ec2.ap-southeast-1.amazonaws.com    ap-southeast-1
ec2.ap-southeast-2.amazonaws.com    ap-southeast-2
ec2.eu-central-1.amazonaws.com      eu-central-1
ec2.ap-northeast-1.amazonaws.com    ap-northeast-1
ec2.us-east-1.amazonaws.com         us-east-1
ec2.sa-east-1.amazonaws.com         sa-east-1
ec2.us-west-1.amazonaws.com         us-west-1
ec2.us-west-2.amazonaws.com         us-west-2
```
+  Untuk detail API, lihat [DescribeRegions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2RouteTable`
<a name="ec2_DescribeRouteTables_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2RouteTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan semua tabel rute Anda.**  

```
Get-EC2RouteTable
```
**Output:**  

```
DestinationCidrBlock    : 10.0.0.0/16
DestinationPrefixListId :
GatewayId               : local
InstanceId              :
InstanceOwnerId         :
NetworkInterfaceId      :
Origin                  : CreateRouteTable
State                   : active
VpcPeeringConnectionId  :

DestinationCidrBlock    : 0.0.0.0/0
DestinationPrefixListId :
GatewayId               : igw-1a2b3c4d
InstanceId              :
InstanceOwnerId         :
NetworkInterfaceId      :
Origin                  : CreateRoute
State                   : active
VpcPeeringConnectionId  :
```
**Contoh 2: Contoh ini mengembalikan rincian untuk tabel rute yang ditentukan.**  

```
Get-EC2RouteTable -RouteTableId rtb-1a2b3c4d
```
**Contoh 3: Contoh ini menjelaskan tabel rute untuk VPC yang ditentukan.**  

```
Get-EC2RouteTable -Filter @{ Name="vpc-id"; Values="vpc-1a2b3c4d" }
```
**Output:**  

```
Associations    : {rtbassoc-12345678}
PropagatingVgws : {}
Routes          : {, }
RouteTableId    : rtb-1a2b3c4d
Tags            : {}
VpcId           : vpc-1a2b3c4d
```
+  Untuk detail API, lihat [DescribeRouteTables](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2ScheduledInstance`
<a name="ec2_DescribeScheduledInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ScheduledInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan Instance Terjadwal yang ditentukan.**  

```
Get-EC2ScheduledInstance -ScheduledInstanceId sci-1234-1234-1234-1234-123456789012
```
**Output:**  

```
AvailabilityZone            : us-west-2b
CreateDate                  : 1/25/2016 1:43:38 PM
HourlyPrice                 : 0.095
InstanceCount               : 1
InstanceType                : c4.large
NetworkPlatform             : EC2-VPC
NextSlotStartTime           : 1/31/2016 1:00:00 AM
Platform                    : Linux/UNIX
PreviousSlotEndTime         : 
Recurrence                  : Amazon.EC2.Model.ScheduledInstanceRecurrence
ScheduledInstanceId         : sci-1234-1234-1234-1234-123456789012
SlotDurationInHours         : 32
TermEndDate                 : 1/31/2017 1:00:00 AM
TermStartDate               : 1/31/2016 1:00:00 AM
TotalScheduledInstanceHours : 1696
```
**Contoh 2: Contoh ini menjelaskan semua Instans Terjadwal Anda.**  

```
Get-EC2ScheduledInstance
```
+  Untuk detail API, lihat [DescribeScheduledInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2ScheduledInstanceAvailability`
<a name="ec2_DescribeScheduledInstanceAvailability_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2ScheduledInstanceAvailability`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan jadwal yang terjadi setiap minggu pada hari Minggu, dimulai pada tanggal yang ditentukan.**  

```
Get-EC2ScheduledInstanceAvailability -Recurrence_Frequency Weekly -Recurrence_Interval 1 -Recurrence_OccurrenceDay 1 -FirstSlotStartTimeRange_EarliestTime 2016-01-31T00:00:00Z -FirstSlotStartTimeRange_LatestTime 2016-01-31T04:00:00Z
```
**Output:**  

```
AvailabilityZone            : us-west-2b
AvailableInstanceCount      : 20
FirstSlotStartTime          : 1/31/2016 8:00:00 AM
HourlyPrice                 : 0.095
InstanceType                : c4.large
MaxTermDurationInDays       : 366
MinTermDurationInDays       : 366
NetworkPlatform             : EC2-VPC
Platform                    : Linux/UNIX
PurchaseToken               : eyJ2IjoiMSIsInMiOjEsImMiOi...
Recurrence                  : Amazon.EC2.Model.ScheduledInstanceRecurrence
SlotDurationInHours         : 23
TotalScheduledInstanceHours : 1219

...
```
**Contoh 2: Untuk mempersempit hasil, Anda dapat menambahkan filter untuk kriteria seperti sistem operasi, jaringan, dan jenis instance.**  

```
-Filter @{ Name="platform";Values="Linux/UNIX" },@{ Name="network-platform";Values="EC2-VPC" },@{ Name="instance-type";Values="c4.large" }
```
+  Untuk detail API, lihat [DescribeScheduledInstanceAvailability](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2SecurityGroup`
<a name="ec2_DescribeSecurityGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SecurityGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan grup keamanan yang ditentukan untuk VPC. Saat bekerja dengan grup keamanan milik VPC, Anda harus menggunakan ID grup keamanan (- GroupId parameter), bukan nama (- GroupName parameter), untuk mereferensikan grup.**  

```
Get-EC2SecurityGroup -GroupId sg-12345678
```
**Output:**  

```
Description         : default VPC security group
GroupId             : sg-12345678
GroupName           : default
IpPermissions       : {Amazon.EC2.Model.IpPermission}
IpPermissionsEgress : {Amazon.EC2.Model.IpPermission}
OwnerId             : 123456789012
Tags                : {}
VpcId               : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan grup keamanan yang ditentukan untuk EC2-Classic. Saat bekerja dengan grup keamanan untuk EC2-Classic Anda dapat menggunakan nama grup (- GroupName parameter) atau ID grup (- GroupId parameter) untuk mereferensikan grup keamanan.**  

```
Get-EC2SecurityGroup -GroupName my-security-group
```
**Output:**  

```
Description         : my security group
GroupId             : sg-45678901
GroupName           : my-security-group
IpPermissions       : {Amazon.EC2.Model.IpPermission, Amazon.EC2.Model.IpPermission}
IpPermissionsEgress : {}
OwnerId             : 123456789012
Tags                : {}
VpcId               :
```
**Contoh 3: Contoh ini mengambil semua grup keamanan untuk vpc-0fc1ff23456b789eb**  

```
Get-EC2SecurityGroup -Filter @{Name="vpc-id";Values="vpc-0fc1ff23456b789eb"}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Snapshot`
<a name="ec2_DescribeSnapshots_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Snapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan snapshot yang ditentukan.**  

```
Get-EC2Snapshot -SnapshotId snap-12345678
```
**Output:**  

```
DataEncryptionKeyId :
Description         : Created by CreateImage(i-1a2b3c4d) for ami-12345678 from vol-12345678
Encrypted           : False
KmsKeyId            :
OwnerAlias          :
OwnerId             : 123456789012
Progress            : 100%
SnapshotId          : snap-12345678
StartTime           : 10/23/2014 6:01:28 AM
State               : completed
StateMessage        :
Tags                : {}
VolumeId            : vol-12345678
VolumeSize          : 8
```
**Contoh 2: Contoh ini menjelaskan snapshot yang memiliki tag 'Nama'.**  

```
Get-EC2Snapshot | ? { $_.Tags.Count -gt 0 -and $_.Tags.Key -eq "Name" }
```
**Contoh 3: Contoh ini menjelaskan snapshot yang memiliki tag 'Nama' dengan nilai 'TestValue'.**  

```
Get-EC2Snapshot | ? { $_.Tags.Count -gt 0 -and $_.Tags.Key -eq "Name" -and $_.Tags.Value -eq "TestValue" }
```
**Contoh 4: Contoh ini menjelaskan semua snapshot Anda.**  

```
Get-EC2Snapshot -Owner self
```
+  Untuk detail API, lihat [DescribeSnapshots](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2SnapshotAttribute`
<a name="ec2_DescribeSnapshotAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SnapshotAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan atribut tertentu dari snapshot yang ditentukan.**  

```
Get-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute ProductCodes
```
**Output:**  

```
CreateVolumePermissions    ProductCodes    SnapshotId
-----------------------    ------------    ----------
{}                         {}              snap-12345678
```
**Contoh 2: Contoh ini menjelaskan atribut tertentu dari snapshot yang ditentukan.**  

```
(Get-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission).CreateVolumePermissions
```
**Output:**  

```
Group    UserId
-----    ------
all
```
+  Untuk detail API, lihat [DescribeSnapshotAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2SpotDatafeedSubscription`
<a name="ec2_DescribeSpotDatafeedSubscription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotDatafeedSubscription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan umpan data instans Spot Anda.**  

```
Get-EC2SpotDatafeedSubscription
```
**Output:**  

```
Bucket  : amzn-s3-demo-bucket
Fault   :
OwnerId : 123456789012
Prefix  : spotdata
State   : Active
```
+  Untuk detail API, lihat [DescribeSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2SpotFleetInstance`
<a name="ec2_DescribeSpotFleetInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotFleetInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan instance yang terkait dengan permintaan armada Spot yang ditentukan.**  

```
Get-EC2SpotFleetInstance -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE
```
**Output:**  

```
InstanceId    InstanceType    SpotInstanceRequestId
----------    ------------    ---------------------
i-f089262a    c3.large        sir-12345678
i-7e8b24a4    c3.large        sir-87654321
```
+  Untuk detail API, lihat [DescribeSpotFleetInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2SpotFleetRequest`
<a name="ec2_DescribeSpotFleetRequests_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotFleetRequest`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan permintaan armada Spot yang ditentukan.**  

```
Get-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE | format-list
```
**Output:**  

```
ConfigData            : Amazon.EC2.Model.SpotFleetRequestConfigData
CreateTime            : 12/26/2015 8:23:33 AM
SpotFleetRequestId    : sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE
SpotFleetRequestState : active
```
**Contoh 2: Contoh ini menjelaskan semua permintaan armada Spot Anda.**  

```
Get-EC2SpotFleetRequest
```
+  Untuk detail API, lihat [DescribeSpotFleetRequests](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2SpotFleetRequestHistory`
<a name="ec2_DescribeSpotFleetRequestHistory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotFleetRequestHistory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan riwayat permintaan armada Spot yang ditentukan.**  

```
Get-EC2SpotFleetRequestHistory -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -StartTime 2015-12-26T00:00:00Z
```
**Output:**  

```
HistoryRecords     : {Amazon.EC2.Model.HistoryRecord, Amazon.EC2.Model.HistoryRecord...}
LastEvaluatedTime  : 12/26/2015 8:29:11 AM
NextToken          :
SpotFleetRequestId : sfr-088bc5f1-7e7b-451a-bd13-757f10672b93
StartTime          : 12/25/2015 8:00:00 AM
```

```
(Get-EC2SpotFleetRequestHistory -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -StartTime 2015-12-26T00:00:00Z).HistoryRecords
```
**Output:**  

```
EventInformation                     EventType             Timestamp
----------------                     ---------             ---------
Amazon.EC2.Model.EventInformation    fleetRequestChange    12/26/2015 8:23:33 AM
Amazon.EC2.Model.EventInformation    fleetRequestChange    12/26/2015 8:23:33 AM
Amazon.EC2.Model.EventInformation    fleetRequestChange    12/26/2015 8:23:33 AM
Amazon.EC2.Model.EventInformation    launched              12/26/2015 8:25:34 AM
Amazon.EC2.Model.EventInformation    launched              12/26/2015 8:25:05 AM
```
+  Untuk detail API, lihat [DescribeSpotFleetRequestHistory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2SpotInstanceRequest`
<a name="ec2_DescribeSpotInstanceRequests_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotInstanceRequest`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan permintaan instance Spot yang ditentukan.**  

```
Get-EC2SpotInstanceRequest -SpotInstanceRequestId sir-12345678
```
**Output:**  

```
ActualBlockHourlyPrice   :
AvailabilityZoneGroup    :
BlockDurationMinutes     : 0
CreateTime               : 4/8/2015 2:51:33 PM
Fault                    :
InstanceId               : i-12345678
LaunchedAvailabilityZone : us-west-2b
LaunchGroup              :
LaunchSpecification      : Amazon.EC2.Model.LaunchSpecification
ProductDescription       : Linux/UNIX
SpotInstanceRequestId    : sir-12345678
SpotPrice                : 0.020000
State                    : active
Status                   : Amazon.EC2.Model.SpotInstanceStatus
Tags                     : {Name}
Type                     : one-time
```
**Contoh 2: Contoh ini menjelaskan semua permintaan instans Spot Anda.**  

```
Get-EC2SpotInstanceRequest
```
+  Untuk detail API, lihat [DescribeSpotInstanceRequests](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2SpotPriceHistory`
<a name="ec2_DescribeSpotPriceHistory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2SpotPriceHistory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan 10 entri terakhir dalam riwayat harga Spot untuk jenis instans tertentu dan Availability Zone. Perhatikan bahwa nilai yang ditentukan untuk AvailabilityZone parameter - harus valid untuk nilai wilayah yang diberikan ke parameter -Region cmdlet (tidak ditampilkan dalam contoh) atau ditetapkan sebagai default di shell. Perintah contoh ini mengasumsikan wilayah default 'us-west-2' telah disetel di lingkungan.**  

```
Get-EC2SpotPriceHistory -InstanceType c3.large -AvailabilityZone us-west-2a -MaxResult 10
```
**Output:**  

```
AvailabilityZone   : us-west-2a
InstanceType       : c3.large
Price              : 0.017300
ProductDescription : Linux/UNIX (Amazon VPC)
Timestamp          : 12/25/2015 7:39:49 AM

AvailabilityZone   : us-west-2a
InstanceType       : c3.large
Price              : 0.017200
ProductDescription : Linux/UNIX (Amazon VPC)
Timestamp          : 12/25/2015 7:38:29 AM

AvailabilityZone   : us-west-2a
InstanceType       : c3.large
Price              : 0.017300
ProductDescription : Linux/UNIX (Amazon VPC)
Timestamp          : 12/25/2015 6:57:13 AM
...
```
+  Untuk detail API, lihat [DescribeSpotPriceHistory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Subnet`
<a name="ec2_DescribeSubnets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Subnet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan subnet yang ditentukan.**  

```
Get-EC2Subnet -SubnetId subnet-1a2b3c4d
```
**Output:**  

```
AvailabilityZone        : us-west-2c
AvailableIpAddressCount : 251
CidrBlock               : 10.0.0.0/24
DefaultForAz            : False
MapPublicIpOnLaunch     : False
State                   : available
SubnetId                : subnet-1a2b3c4d
Tags                    : {}
VpcId                   : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan semua subnet Anda.**  

```
Get-EC2Subnet
```
+  Untuk detail API, lihat [DescribeSubnets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Tag`
<a name="ec2_DescribeTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Tag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil tag untuk 'image' tipe sumber daya**  

```
Get-EC2Tag -Filter @{Name="resource-type";Values="image"}
```
**Output:**  

```
Key         ResourceId            ResourceType Value
---         ----------            ------------ -----
Name        ami-0a123b4ccb567a8ea image        Win7-Imported
auto-delete ami-0a123b4ccb567a8ea image        never
```
**Contoh 2: Contoh ini mengambil semua tag untuk semua sumber daya dan mengelompokkannya berdasarkan jenis sumber daya**  

```
Get-EC2Tag | Group-Object resourcetype
```
**Output:**  

```
Count Name                      Group
----- ----                      -----
    9 subnet                    {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...}
   53 instance                  {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...}
    3 route-table               {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
    5 security-group            {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...}
   30 volume                    {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...}
    1 internet-gateway          {Amazon.EC2.Model.TagDescription}
    3 network-interface         {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
    4 elastic-ip                {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
    1 dhcp-options              {Amazon.EC2.Model.TagDescription}
    2 image                     {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
    3 vpc                       {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription}
```
**Contoh 3: Contoh ini menampilkan semua sumber daya dengan tag 'auto-delete' dengan nilai 'no' untuk wilayah tertentu**  

```
Get-EC2Tag -Region eu-west-1 -Filter @{Name="tag:auto-delete";Values="no"}
```
**Output:**  

```
Key         ResourceId            ResourceType Value
---         ----------            ------------ -----
auto-delete i-0f1bce234d5dd678b   instance     no
auto-delete vol-01d234aa5678901a2 volume       no
auto-delete vol-01234bfb5def6f7b8 volume       no
auto-delete vol-01ccb23f4c5e67890 volume       no
```
**Contoh 4: Contoh ini memperoleh semua sumber daya dengan tag 'hapus otomatis' dengan nilai 'no' dan filter lebih lanjut di pipa berikutnya untuk mengurai hanya jenis sumber daya 'instance' dan akhirnya membuat tag 'ThisInstance' untuk setiap sumber daya instance dengan nilai menjadi id instance itu sendiri**  

```
Get-EC2Tag -Region eu-west-1 -Filter @{Name="tag:auto-delete";Values="no"} | Where-Object ResourceType -eq "instance" | ForEach-Object {New-EC2Tag -ResourceId $_.ResourceId -Tag @{Key="ThisInstance";Value=$_.ResourceId}}
```
**Contoh 5: Contoh ini mengambil tag untuk semua sumber daya instance serta kunci 'Nama' dan menampilkannya dalam format tabel**  

```
Get-EC2Tag -Filter @{Name="resource-type";Values="instance"},@{Name="key";Values="Name"} | Select-Object ResourceId, @{Name="Name-Tag";Expression={$PSItem.Value}} | Format-Table -AutoSize
```
**Output:**  

```
ResourceId          Name-Tag
----------          --------
i-012e3cb4df567e1aa jump1
i-01c23a45d6fc7a89f repro-3
```
**Contoh 6: Contoh ini memvalidasi izin untuk mendapatkan Tag EC2 menggunakan DryRun parameter tanpa benar-benar mengambilnya. Catatan: Ini melempar pengecualian jika berhasil yang merupakan perilaku yang diharapkan.**  

```
Get-EC2Tag -DryRun $true
```
**Output:**  

```
Get-EC2Tag: Request would have succeeded, but DryRun flag is set.
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Volume`
<a name="ec2_DescribeVolumes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Volume`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan volume EBS yang ditentukan.**  

```
Get-EC2Volume -VolumeId vol-12345678
```
**Output:**  

```
Attachments      : {}
AvailabilityZone : us-west-2c
CreateTime       : 7/17/2015 4:35:19 PM
Encrypted        : False
Iops             : 90
KmsKeyId         :
Size             : 30
SnapshotId       : snap-12345678
State            : in-use
Tags             : {}
VolumeId         : vol-12345678
VolumeType       : standard
```
**Contoh 2: Contoh ini menjelaskan volume EBS Anda yang memiliki status 'tersedia'.**  

```
Get-EC2Volume -Filter @{ Name="status"; Values="available" }
```
**Output:**  

```
Attachments      : {}
AvailabilityZone : us-west-2c
CreateTime       : 12/21/2015 2:31:29 PM
Encrypted        : False
Iops             : 60
KmsKeyId         :
Size             : 20
SnapshotId       : snap-12345678
State            : available
Tags             : {}
VolumeId         : vol-12345678
VolumeType       : gp2
...
```
**Contoh 3: Contoh ini menjelaskan semua volume EBS Anda.**  

```
Get-EC2Volume
```
+  Untuk detail API, lihat [DescribeVolumes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VolumeAttribute`
<a name="ec2_DescribeVolumeAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VolumeAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan atribut tertentu dari volume yang ditentukan.**  

```
Get-EC2VolumeAttribute -VolumeId vol-12345678 -Attribute AutoEnableIO
```
**Output:**  

```
AutoEnableIO    ProductCodes    VolumeId
------------    ------------    --------
False           {}              vol-12345678
```
+  Untuk detail API, lihat [DescribeVolumeAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VolumeStatus`
<a name="ec2_DescribeVolumeStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VolumeStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan status volume yang ditentukan.**  

```
Get-EC2VolumeStatus -VolumeId vol-12345678
```
**Output:**  

```
Actions          : {}
AvailabilityZone : us-west-2a
Events           : {}
VolumeId         : vol-12345678
VolumeStatus     : Amazon.EC2.Model.VolumeStatusInfo
```

```
(Get-EC2VolumeStatus -VolumeId vol-12345678).VolumeStatus
```
**Output:**  

```
Details                         Status
-------                         ------
{io-enabled, io-performance}    ok
```

```
(Get-EC2VolumeStatus -VolumeId vol-12345678).VolumeStatus.Details
```
**Output:**  

```
Name                            Status
----                            ------
io-enabled                      passed
io-performance                  not-applicable
```
+  Untuk detail API, lihat [DescribeVolumeStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2Vpc`
<a name="ec2_DescribeVpcs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2Vpc`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan VPC yang ditentukan.**  

```
Get-EC2Vpc -VpcId vpc-12345678
```
**Output:**  

```
CidrBlock       : 10.0.0.0/16
DhcpOptionsId   : dopt-1a2b3c4d
InstanceTenancy : default
IsDefault       : False
State           : available
Tags            : {Name}
VpcId           : vpc-12345678
```
**Contoh 2: Contoh ini menjelaskan VPC default (hanya ada satu per wilayah). Jika akun Anda mendukung EC2-Classic di wilayah ini, tidak ada VPC default.**  

```
Get-EC2Vpc -Filter @{Name="isDefault"; Values="true"}
```
**Output:**  

```
CidrBlock       : 172.31.0.0/16
DhcpOptionsId   : dopt-12345678
InstanceTenancy : default
IsDefault       : True
State           : available
Tags            : {}
VpcId           : vpc-45678901
```
**Contoh 3: Contoh ini menjelaskan VPCs yang cocok dengan filter yang ditentukan (yaitu, memiliki CIDR yang cocok dengan nilai '10.0.0.0/16' dan berada dalam keadaan 'tersedia').**  

```
Get-EC2Vpc -Filter @{Name="cidr"; Values="10.0.0.0/16"},@{Name="state";Values="available"}
```
**Contoh 4: Contoh ini menjelaskan semua Anda VPCs.**  

```
Get-EC2Vpc
```
+  Untuk detail API, lihat [DescribeVpcs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VpcAttribute`
<a name="ec2_DescribeVpcAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan atribut enableDnsSupport ''.**  

```
Get-EC2VpcAttribute -VpcId vpc-12345678 -Attribute enableDnsSupport
```
**Output:**  

```
EnableDnsSupport
----------------
True
```
**Contoh 2: Contoh ini menjelaskan atribut enableDnsHostnames ''.**  

```
Get-EC2VpcAttribute -VpcId vpc-12345678 -Attribute enableDnsHostnames
```
**Output:**  

```
EnableDnsHostnames
------------------
True
```
+  Untuk detail API, lihat [DescribeVpcAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VpcClassicLink`
<a name="ec2_DescribeVpcClassicLink_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcClassicLink`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh di atas mengembalikan semua VPCs dengan ClassicLinkEnabled negara mereka untuk wilayah**  

```
Get-EC2VpcClassicLink -Region eu-west-1
```
**Output:**  

```
ClassicLinkEnabled Tags   VpcId
------------------ ----   -----
False              {Name} vpc-0fc1ff23f45b678eb
False              {}     vpc-01e23c4a5d6db78e9
False              {Name} vpc-0123456b078b9d01f
False              {}     vpc-12cf3b4f
False              {Name} vpc-0b12d3456a7e8901d
```
+  Untuk detail API, lihat [DescribeVpcClassicLink](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VpcClassicLinkDnsSupport`
<a name="ec2_DescribeVpcClassicLinkDnsSupport_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcClassicLinkDnsSupport`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan status dukungan ClassicLink DNS VPCs untuk wilayah eu-west-1**  

```
Get-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d -Region eu-west-1
```
**Output:**  

```
ClassicLinkDnsSupported VpcId
----------------------- -----
False                   vpc-0b12d3456a7e8910d
False                   vpc-12cf3b4f
```
+  Untuk detail API, lihat [DescribeVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VpcEndpoint`
<a name="ec2_DescribeVpcEndpoints_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcEndpoint`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan satu atau beberapa titik akhir VPC Anda untuk wilayah eu-west-1. Kemudian pipa output ke perintah berikutnya, yang memilih VpcEndpointId properti dan mengembalikan array VPC ID sebagai string array**  

```
Get-EC2VpcEndpoint -Region eu-west-1 | Select-Object -ExpandProperty VpcEndpointId
```
**Output:**  

```
vpce-01a2ab3f4f5cc6f7d
vpce-01d2b345a6787890b
vpce-0012e34d567890e12
vpce-0c123db4567890123
```
**Contoh 2: Contoh ini menjelaskan semua titik akhir vpc untuk wilayah eu-west-1 dan memilih,, dan properti untuk menyajikannya dalam format tabel VpcEndpointId VpcId ServiceName PrivateDnsEnabled **  

```
Get-EC2VpcEndpoint -Region eu-west-1 | Select-Object VpcEndpointId, VpcId, ServiceName, PrivateDnsEnabled | Format-Table -AutoSize
```
**Output:**  

```
VpcEndpointId          VpcId                 ServiceName                         PrivateDnsEnabled
-------------          -----                 -----------                         -----------------
vpce-02a2ab2f2f2cc2f2d vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ssm                      True
vpce-01d1b111a1114561b vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ec2                      True
vpce-0011e23d45167e838 vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ec2messages              True
vpce-0c123db4567890123 vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ssmmessages              True
```
**Contoh 3: Contoh ini mengekspor dokumen kebijakan untuk VPC Endpoint vpce-01a2ab3f4f5cc6f7d ke dalam file json**  

```
Get-EC2VpcEndpoint -Region eu-west-1 -VpcEndpointId vpce-01a2ab3f4f5cc6f7d | Select-Object -expand PolicyDocument | Out-File vpce_policyDocument.json
```
+  Untuk detail API, lihat [DescribeVpcEndpoints](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VpcEndpointService`
<a name="ec2_DescribeVpcEndpointServices_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpcEndpointService`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan layanan titik akhir VPC EC2 dengan filter yang diberikan, dalam hal ini com.amazonaws.eu-west-1.ecs. Selanjutnya, itu juga memperluas ServiceDetails properti dan menampilkan detailnya**  

```
Get-EC2VpcEndpointService -Region eu-west-1 -MaxResult 5 -Filter @{Name="service-name";Values="com.amazonaws.eu-west-1.ecs"} | Select-Object -ExpandProperty ServiceDetails
```
**Output:**  

```
AcceptanceRequired         : False
AvailabilityZones          : {eu-west-1a, eu-west-1b, eu-west-1c}
BaseEndpointDnsNames       : {ecs.eu-west-1.vpce.amazonaws.com}
Owner                      : amazon
PrivateDnsName             : ecs.eu-west-1.amazonaws.com
ServiceName                : com.amazonaws.eu-west-1.ecs
ServiceType                : {Amazon.EC2.Model.ServiceTypeDetail}
VpcEndpointPolicySupported : False
```
**Contoh 2: Contoh ini mengambil semua layanan Titik Akhir VPC EC2 dan mengembalikan “ssm” yang cocok ServiceNames **  

```
Get-EC2VpcEndpointService -Region eu-west-1 | Select-Object -ExpandProperty Servicenames | Where-Object { -match "ssm"}
```
**Output:**  

```
com.amazonaws.eu-west-1.ssm
com.amazonaws.eu-west-1.ssmmessages
```
+  Untuk detail API, lihat [DescribeVpcEndpointServices](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VpnConnection`
<a name="ec2_DescribeVpnConnections_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpnConnection`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan koneksi VPN yang ditentukan.**  

```
Get-EC2VpnConnection -VpnConnectionId vpn-12345678
```
**Output:**  

```
CustomerGatewayConfiguration : [XML document]
CustomerGatewayId            : cgw-1a2b3c4d
Options                      : Amazon.EC2.Model.VpnConnectionOptions
Routes                       : {Amazon.EC2.Model.VpnStaticRoute}
State                        : available
Tags                         : {}
Type                         : ipsec.1
VgwTelemetry                 : {Amazon.EC2.Model.VgwTelemetry, Amazon.EC2.Model.VgwTelemetry}
VpnConnectionId              : vpn-12345678
VpnGatewayId                 : vgw-1a2b3c4d
```
**Contoh 2: Contoh ini menjelaskan koneksi VPN apa pun yang statusnya tertunda atau tersedia.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = @( "pending", "available" )

Get-EC2VpnConnection -Filter $filter
```
**Contoh 3: Contoh ini menjelaskan semua koneksi VPN Anda.**  

```
Get-EC2VpnConnection
```
+  Untuk detail API, lihat [DescribeVpnConnections](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EC2VpnGateway`
<a name="ec2_DescribeVpnGateways_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EC2VpnGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan gateway pribadi virtual yang ditentukan.**  

```
Get-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d
```
**Output:**  

```
AvailabilityZone :
State            : available
Tags             : {}
Type             : ipsec.1
VpcAttachments   : {vpc-12345678}
VpnGatewayId     : vgw-1a2b3c4d
```
**Contoh 2: Contoh ini menjelaskan gateway pribadi virtual yang statusnya tertunda atau tersedia.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "state"
$filter.Values = @( "pending", "available" )

Get-EC2VpnGateway -Filter $filter
```
**Contoh 3: Contoh ini menjelaskan semua gateway pribadi virtual Anda.**  

```
Get-EC2VpnGateway
```
+  Untuk detail API, lihat [DescribeVpnGateways](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Grant-EC2SecurityGroupEgress`
<a name="ec2_AuthorizeSecurityGroupEgress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Grant-EC2SecurityGroupEgress`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendefinisikan aturan jalan keluar untuk grup keamanan yang ditentukan untuk EC2-VPC. Aturan memberikan akses ke rentang alamat IP yang ditentukan pada port TCP 80. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip = @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; IpRanges="203.0.113.0/24" }
Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip = New-Object Amazon.EC2.Model.IpPermission
$ip.IpProtocol = "tcp"
$ip.FromPort = 80
$ip.ToPort = 80
$ip.IpRanges.Add("203.0.113.0/24")

Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 3: Contoh ini memberikan akses ke grup keamanan sumber yang ditentukan pada port TCP 80.**  

```
$ug = New-Object Amazon.EC2.Model.UserIdGroupPair
$ug.GroupId = "sg-1a2b3c4d"
$ug.UserId = "123456789012"

Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; UserIdGroupPairs=$ug } )
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupEgress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Grant-EC2SecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Grant-EC2SecurityGroupIngress`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendefinisikan aturan masuk untuk grup keamanan untuk EC2-VPC. Aturan ini memberikan akses ke alamat IP tertentu untuk SSH (port 22) dan RDC (port 3389). Perhatikan bahwa Anda harus mengidentifikasi grup keamanan untuk EC2-VPC menggunakan ID grup keamanan bukan nama grup keamanan. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip1 = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.25/32" }
$ip2 = @{ IpProtocol="tcp"; FromPort="3389"; ToPort="3389"; IpRanges="203.0.113.25/32" }

Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( $ip1, $ip2 )
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip1 = New-Object Amazon.EC2.Model.IpPermission
$ip1.IpProtocol = "tcp"
$ip1.FromPort = 22
$ip1.ToPort = 22
$ip1.IpRanges.Add("203.0.113.25/32")

$ip2 = new-object Amazon.EC2.Model.IpPermission
$ip2.IpProtocol = "tcp"
$ip2.FromPort = 3389
$ip2.ToPort = 3389
$ip2.IpRanges.Add("203.0.113.25/32")

Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( $ip1, $ip2 )
```
**Contoh 3: Contoh ini mendefinisikan aturan ingress untuk grup keamanan untuk EC2-Classic. Aturan ini memberikan akses ke alamat IP tertentu untuk SSH (port 22) dan RDC (port 3389). Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip1 = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.25/32" }
$ip2 = @{ IpProtocol="tcp"; FromPort="3389"; ToPort="3389"; IpRanges="203.0.113.25/32" }

Grant-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission @( $ip1, $ip2 )
```
**Contoh 4: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip1 = New-Object Amazon.EC2.Model.IpPermission
$ip1.IpProtocol = "tcp"
$ip1.FromPort = 22
$ip1.ToPort = 22
$ip1.IpRanges.Add("203.0.113.25/32")

$ip2 = new-object Amazon.EC2.Model.IpPermission
$ip2.IpProtocol = "tcp"
$ip2.FromPort = 3389
$ip2.ToPort = 3389
$ip2.IpRanges.Add("203.0.113.25/32")

Grant-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission @( $ip1, $ip2 )
```
**Contoh 5: Contoh ini memberikan akses port TCP 8081 dari grup keamanan sumber tertentu (sg-1a2b3c4d) ke grup keamanan yang ditentukan (sg-12345678).**  

```
$ug = New-Object Amazon.EC2.Model.UserIdGroupPair
$ug.GroupId = "sg-1a2b3c4d"
$ug.UserId = "123456789012"

Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="8081"; ToPort="8081"; UserIdGroupPairs=$ug } )
```
**Contoh 6: Contoh ini menambahkan CIDR 5.5.5.5/32 ke aturan Ingress dari Grup keamanan sg-1234abcd untuk lalu lintas port TCP 22 dengan deskripsi.**  

```
$IpRange = New-Object -TypeName Amazon.EC2.Model.IpRange
$IpRange.CidrIp = "5.5.5.5/32"
$IpRange.Description = "SSH from Office"
$IpPermission = New-Object Amazon.EC2.Model.IpPermission
$IpPermission.IpProtocol = "tcp"
$IpPermission.ToPort = 22
$IpPermission.FromPort = 22
$IpPermission.Ipv4Ranges = $IpRange
Grant-EC2SecurityGroupIngress -GroupId sg-1234abcd -IpPermission $IpPermission
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Import-EC2Image`
<a name="ec2_ImportImage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Import-EC2Image`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengimpor image mesin virtual disk tunggal dari bucket Amazon S3 yang ditentukan ke Amazon EC2 dengan token idempotensi. Contoh ini mengharuskan Peran Layanan Impor VM dengan nama default 'vmimport' ada, dengan kebijakan yang mengizinkan akses Amazon EC2 ke bucket yang ditentukan, seperti yang dijelaskan dalam topik Prekuisisi Impor VM. Untuk menggunakan peran kustom, tentukan nama peran menggunakan `-RoleName` parameter.**  

```
$container = New-Object Amazon.EC2.Model.ImageDiskContainer
$container.Format="VMDK"
$container.UserBucket = New-Object Amazon.EC2.Model.UserBucket
$container.UserBucket.S3Bucket = "amzn-s3-demo-bucket"
$container.UserBucket.S3Key = "Win_2008_Server_Standard_SP2_64-bit-disk1.vmdk"

$parms = @{
    "ClientToken"="idempotencyToken"
    "Description"="Windows 2008 Standard Image Import"
    "Platform"="Windows"
    "LicenseType"="AWS"
}

Import-EC2Image -DiskContainer $container @parms
```
**Output:**  

```
Architecture    : 
Description     : Windows 2008 Standard Image
Hypervisor      : 
ImageId         : 
ImportTaskId    : import-ami-abcdefgh
LicenseType     : AWS
Platform        : Windows
Progress        : 2
SnapshotDetails : {}
Status          : active
StatusMessage   : pending
```
+  Untuk detail API, lihat [ImportImage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Import-EC2KeyPair`
<a name="ec2_ImportKeyPair_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Import-EC2KeyPair`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengimpor kunci publik ke EC2. Baris pertama menyimpan isi file kunci publik (\$1.pub) dalam variabel. `$publickey` Selanjutnya, contoh mengkonversi UTF8 format file kunci publik ke string Base64-encoded, dan menyimpan string dikonversi dalam variabel. `$pkbase64` Pada baris terakhir, kunci publik yang dikonversi diimpor ke EC2. Cmdlet mengembalikan sidik jari kunci dan nama sebagai hasil.**  

```
$publickey=[Io.File]::ReadAllText("C:\Users\TestUser\.ssh\id_rsa.pub")
$pkbase64 = [System.Convert]::ToBase64String([System.Text.Encoding]::UTF8.GetBytes($publickey))
Import-EC2KeyPair -KeyName Example-user-key -PublicKey $pkbase64
```
**Output:**  

```
KeyFingerprint                                  KeyName
--------------                                  -------
do:d0:15:8f:79:97:12:be:00:fd:df:31:z3:b1:42:z1 Example-user-key
```
+  Untuk detail API, lihat [ImportKeyPair](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Import-EC2Snapshot`
<a name="ec2_ImportSnapshot_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Import-EC2Snapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengimpor image disk VM format 'VMDK' ke snapshot Amazon EBS. Contoh ini memerlukan Peran Layanan Impor VM dengan nama default 'vmimport', dengan kebijakan yang mengizinkan akses Amazon EC2 ke bucket yang ditentukan, seperti yang dijelaskan dalam topik di http://docs.aws.amazon. `VM Import Prequisites` com/AWSEC2/latest/WindowsGuide/VMImportPrerequisites.html. Untuk menggunakan peran kustom, tentukan nama peran menggunakan `-RoleName` parameter.**  

```
$parms = @{
    "ClientToken"="idempotencyToken"
    "Description"="Disk Image Import"
    "DiskContainer_Description" = "Data disk"
    "DiskContainer_Format" = "VMDK"
    "DiskContainer_S3Bucket" = "amzn-s3-demo-bucket"
    "DiskContainer_S3Key" = "datadiskimage.vmdk"
}

Import-EC2Snapshot @parms
```
**Output:**  

```
Description            ImportTaskId               SnapshotTaskDetail                                                          
-----------------      --------------------       ------------------                                                          
Disk Image Import      import-snap-abcdefgh       Amazon.EC2.Model.SnapshotTaskDetail
```
+  Untuk detail API, lihat [ImportSnapshot](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Move-EC2AddressToVpc`
<a name="ec2_MoveAddressToVpc_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Move-EC2AddressToVpc`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memindahkan instans EC2 dengan alamat IP publik 12.345.67.89 ke platform EC2-VPC di wilayah AS Timur (Virginia Utara).**  

```
Move-EC2AddressToVpc -PublicIp 12.345.67.89 -Region us-east-1
```
**Contoh 2: Contoh ini menyalurkan hasil Get-EC2Instance perintah ke Move-EC2AddressToVpc cmdlet. Get-EC2InstancePerintah mendapat instance yang ditentukan oleh ID instance, kemudian mengembalikan properti alamat IP publik dari instance tersebut.**  

```
(Get-EC2Instance -Instance i-12345678).Instances.PublicIpAddress | Move-EC2AddressToVpc
```
+  Untuk detail API, lihat [MoveAddressToVpc](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Address`
<a name="ec2_AllocateAddress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Address`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengalokasikan alamat IP Elastis untuk digunakan dengan instance di VPC.**  

```
New-EC2Address -Domain Vpc
```
**Output:**  

```
AllocationId         Domain      PublicIp
------------         ------      --------
eipalloc-12345678    vpc         198.51.100.2
```
**Contoh 2: Contoh ini mengalokasikan alamat IP Elastis untuk digunakan dengan instance di EC2-Classic.**  

```
New-EC2Address
```
**Output:**  

```
AllocationId         Domain      PublicIp
------------         ------      --------
                     standard    203.0.113.17
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2CustomerGateway`
<a name="ec2_CreateCustomerGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2CustomerGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat gateway pelanggan yang ditentukan.**  

```
New-EC2CustomerGateway -Type ipsec.1 -PublicIp 203.0.113.12 -BgpAsn 65534
```
**Output:**  

```
BgpAsn            : 65534
CustomerGatewayId : cgw-1a2b3c4d
IpAddress         : 203.0.113.12
State             : available
Tags              : {}
Type              : ipsec.1
```
+  Untuk detail API, lihat [CreateCustomerGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2DhcpOption`
<a name="ec2_CreateDhcpOptions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2DhcpOption`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menciptakan kumpulan opsi DHCP yang ditentukan. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$options = @( @{Key="domain-name";Values=@("abc.local")}, @{Key="domain-name-servers";Values=@("10.0.0.101","10.0.0.102")})
New-EC2DhcpOption -DhcpConfiguration $options
```
**Output:**  

```
DhcpConfigurations                    DhcpOptionsId    Tags
------------------                    -------------    ----
{domain-name, domain-name-servers}    dopt-1a2b3c4d    {}
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap opsi DHCP.**  

```
$option1 = New-Object Amazon.EC2.Model.DhcpConfiguration
$option1.Key = "domain-name"
$option1.Values = "abc.local"

$option2 = New-Object Amazon.EC2.Model.DhcpConfiguration
$option2.Key = "domain-name-servers"
$option2.Values = @("10.0.0.101","10.0.0.102")

New-EC2DhcpOption -DhcpConfiguration @($option1, $option2)
```
**Output:**  

```
DhcpConfigurations                    DhcpOptionsId    Tags
------------------                    -------------    ----
{domain-name, domain-name-servers}    dopt-2a3b4c5d    {}
```
+  Untuk detail API, lihat [CreateDhcpOptions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2FlowLog`
<a name="ec2_CreateFlowLogs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2FlowLog`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat flowlog EC2 untuk subnet subnet-1d234567 ke 'subnet1-log' cloud-watch-log bernama untuk semua lalu lintas 'TOLAK' menggunakan batas peran 'Admin'**  

```
New-EC2FlowLog -ResourceId "subnet-1d234567" -LogDestinationType cloud-watch-logs -LogGroupName subnet1-log -TrafficType "REJECT" -ResourceType Subnet -DeliverLogsPermissionArn "arn:aws:iam::98765432109:role/Admin"
```
**Output:**  

```
ClientToken                                  FlowLogIds             Unsuccessful
-----------                                  ----------             ------------
m1VN2cxP3iB4qo//VUKl5EU6cF7gQLOxcqNefvjeTGw= {fl-012fc34eed5678c9d} {}
```
+  Untuk detail API, lihat [CreateFlowLogs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Host`
<a name="ec2_AllocateHosts_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Host`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengalokasikan Host Khusus ke akun Anda untuk jenis instans dan zona ketersediaan yang diberikan**  

```
New-EC2Host -AutoPlacement on -AvailabilityZone eu-west-1b -InstanceType m4.xlarge -Quantity 1
```
**Output:**  

```
h-01e23f4cd567890f3
```
+  Untuk detail API, lihat [AllocateHosts](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2HostReservation`
<a name="ec2_PurchaseHostReservation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2HostReservation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membeli reservasi yang menawarkan hro-0c1f23456789d0ab dengan konfigurasi yang cocok dengan Host Khusus Anda h-01e23f4cd567890f1**  

```
New-EC2HostReservation -OfferingId hro-0c1f23456789d0ab HostIdSet h-01e23f4cd567890f1
```
**Output:**  

```
ClientToken       :
CurrencyCode      :
Purchase          : {hr-0123f4b5d67bedc89}
TotalHourlyPrice  : 1.307
TotalUpfrontPrice : 0.000
```
+  Untuk detail API, lihat [PurchaseHostReservation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Image`
<a name="ec2_CreateImage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Image`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat AMI dengan nama dan deskripsi yang ditentukan, dari instance yang ditentukan. Amazon EC2 mencoba mematikan instance dengan bersih sebelum membuat gambar, dan memulai ulang instance setelah selesai.**  

```
New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI"
```
**Contoh 2: Contoh ini membuat AMI dengan nama dan deskripsi yang ditentukan, dari instance yang ditentukan. Amazon EC2 membuat gambar tanpa mematikan dan memulai ulang instance; oleh karena itu, integritas sistem file pada gambar yang dibuat tidak dapat dijamin.**  

```
New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" -NoReboot $true
```
**Contoh 3: Contoh ini membuat AMI dengan tiga volume. Volume pertama didasarkan pada snapshot Amazon EBS. Volume kedua adalah volume 100 GiB Amazon EBS kosong. Volume ketiga adalah volume penyimpanan instance. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ebsBlock1 = @{SnapshotId="snap-1a2b3c4d"}
$ebsBlock2 = @{VolumeSize=100}

New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" -BlockDeviceMapping @( @{DeviceName="/dev/sdf";Ebs=$ebsBlock1}, @{DeviceName="/dev/sdg";Ebs=$ebsBlock2}, @{DeviceName="/dev/sdc";VirtualName="ephemeral0"})
```
+  Untuk detail API, lihat [CreateImage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Instance`
<a name="ec2_RunInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Instance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini meluncurkan satu instance dari AMI yang ditentukan di EC2-Classic atau VPC default.**  

```
New-EC2Instance -ImageId ami-12345678 -MinCount 1 -MaxCount 1 -InstanceType m3.medium -KeyName my-key-pair -SecurityGroup my-security-group
```
**Contoh 2: Contoh ini meluncurkan satu instance dari AMI yang ditentukan dalam VPC.**  

```
New-EC2Instance -ImageId ami-12345678 -MinCount 1 -MaxCount 1 -SubnetId subnet-12345678 -InstanceType t2.micro -KeyName my-key-pair -SecurityGroupId sg-12345678
```
**Contoh 3: Untuk menambahkan volume EBS atau volume penyimpanan instance, tentukan pemetaan perangkat blok dan tambahkan ke perintah. Contoh ini menambahkan volume penyimpanan instance.**  

```
$bdm = New-Object Amazon.EC2.Model.BlockDeviceMapping
$bdm.VirtualName = "ephemeral0"
$bdm.DeviceName = "/dev/sdf"

New-EC2Instance -ImageId ami-12345678 -BlockDeviceMapping $bdm ...
```
**Contoh 4: Untuk menentukan salah satu Windows saat ini AMIs, dapatkan ID AMI menggunakan Get- SSMLatest EC2 Image. Contoh ini meluncurkan instance dari basis AMI saat ini untuk Windows Server 2016.**  

```
$ami = (Get-SSMLatestEC2Image -Path 'ami-windows-latest' -ImageName 'WINDOWS*2016*English*Core*BASE').Value

New-EC2Instance -ImageId $ami ...
```
**Contoh 5: Meluncurkan instance ke lingkungan host khusus yang ditentukan.**  

```
New-EC2Instance -ImageId ami-1a2b3c4d -InstanceType m4.large -KeyName my-key-pair -SecurityGroupId sg-1a2b3c4d  -AvailabilityZone us-west-1a -Tenancy host -HostID h-1a2b3c4d5e6f1a2b3
```
**Contoh 6: Permintaan ini meluncurkan dua instance dan menerapkan tag dengan kunci server web dan nilai produksi ke instance. Permintaan juga menerapkan tag dengan kunci cost-center dan nilai cc123 ke volume yang dibuat (dalam hal ini, volume root untuk setiap instance).**  

```
$tag1 = @{ Key="webserver"; Value="production" }
$tag2 = @{ Key="cost-center"; Value="cc123" }

$tagspec1 = new-object Amazon.EC2.Model.TagSpecification
$tagspec1.ResourceType = "instance"
$tagspec1.Tags.Add($tag1)

$tagspec2 = new-object Amazon.EC2.Model.TagSpecification
$tagspec2.ResourceType = "volume"
$tagspec2.Tags.Add($tag2)

New-EC2Instance -ImageId "ami-1a2b3c4d" -KeyName "my-key-pair" -MaxCount 2 -InstanceType "t2.large" -SubnetId "subnet-1a2b3c4d" -TagSpecification $tagspec1,$tagspec2
```
**Contoh 7: Contoh ini memvalidasi izin untuk meluncurkan instans EC2 menggunakan DryRun parameter tanpa benar-benar membuat instance. Catatan: Ini melempar pengecualian jika berhasil yang merupakan perilaku yang diharapkan.**  

```
New-EC2Instance -ImageId 'ami-12345678' -InstanceType 't2.micro' -KeyName 'my-key-pair' -Region 'us-west-2' -DryRun $true
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2InstanceExportTask`
<a name="ec2_CreateInstanceExportTask_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2InstanceExportTask`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengekspor instance yang dihentikan,`i-0800b00a00EXAMPLE`, sebagai hard disk virtual (VHD) ke bucket S3. `testbucket-export-instances-2019` Lingkungan target adalah`Microsoft`, dan parameter wilayah ditambahkan karena instance ada di `us-east-1` wilayah, sedangkan AWS Wilayah default pengguna bukan us-east-1. Untuk mendapatkan status tugas ekspor, salin `ExportTaskId` nilai dari hasil perintah ini, lalu jalankan `Get-EC2ExportTask -ExportTaskId export_task_ID_from_results.`**  

```
New-EC2InstanceExportTask -InstanceId i-0800b00a00EXAMPLE -ExportToS3Task_DiskImageFormat VHD -ExportToS3Task_S3Bucket "amzn-s3-demo-bucket" -TargetEnvironment Microsoft -Region us-east-1
```
**Output:**  

```
Description           : 
ExportTaskId          : export-i-077c73108aEXAMPLE
ExportToS3Task        : Amazon.EC2.Model.ExportToS3Task
InstanceExportDetails : Amazon.EC2.Model.InstanceExportDetails
State                 : active
StatusMessage         :
```
+  Untuk detail API, lihat [CreateInstanceExportTask](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2InternetGateway`
<a name="ec2_CreateInternetGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2InternetGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat gateway Internet.**  

```
New-EC2InternetGateway
```
**Output:**  

```
Attachments    InternetGatewayId    Tags
-----------    -----------------    ----
{}             igw-1a2b3c4d         {}
```
+  Untuk detail API, lihat [CreateInternetGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2KeyPair`
<a name="ec2_CreateKeyPair_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2KeyPair`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat key pair dan menangkap kunci pribadi RSA yang dikodekan PEM dalam file dengan nama yang ditentukan. Saat Anda menggunakan PowerShell, pengkodean harus diatur ke ascii untuk menghasilkan kunci yang valid. Untuk informasi selengkapnya, lihat Membuat, Menampilkan, dan Menghapus Pasangan Kunci Amazon EC2 (https://docs.aws.amazon.com/cli/latest/userguide/cli-services-ec2-keypairs.html) di Panduan Pengguna Antarmuka Baris AWS Perintah.**  

```
(New-EC2KeyPair -KeyName "my-key-pair").KeyMaterial | Out-File -Encoding ascii -FilePath C:\path\my-key-pair.pem
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2NetworkAcl`
<a name="ec2_CreateNetworkAcl_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2NetworkAcl`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat ACL jaringan untuk VPC yang ditentukan.**  

```
New-EC2NetworkAcl -VpcId vpc-12345678
```
**Output:**  

```
Associations : {}
Entries      : {Amazon.EC2.Model.NetworkAclEntry, Amazon.EC2.Model.NetworkAclEntry}
IsDefault    : False
NetworkAclId : acl-12345678
Tags         : {}
VpcId        : vpc-12345678
```
+  Untuk detail API, lihat [CreateNetworkAcl](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2NetworkAclEntry`
<a name="ec2_CreateNetworkAclEntry_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2NetworkAclEntry`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat entri untuk ACL jaringan tertentu. Aturan ini memungkinkan lalu lintas masuk dari mana saja (0.0.0.0/0) pada port UDP 53 (DNS) ke subnet terkait.**  

```
New-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 -Protocol 17 -PortRange_From 53 -PortRange_To 53 -CidrBlock 0.0.0.0/0 -RuleAction allow
```
+  Untuk detail API, lihat [CreateNetworkAclEntry](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2NetworkInterface`
<a name="ec2_CreateNetworkInterface_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2NetworkInterface`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menciptakan antarmuka jaringan yang ditentukan.**  

```
New-EC2NetworkInterface -SubnetId subnet-1a2b3c4d -Description "my network interface" -Group sg-12345678 -PrivateIpAddress 10.0.0.17
```
**Output:**  

```
Association        :
Attachment         :
AvailabilityZone   : us-west-2c
Description        : my network interface
Groups             : {my-security-group}
MacAddress         : 0a:72:bc:1a:cd:7f
NetworkInterfaceId : eni-12345678
OwnerId            : 123456789012
PrivateDnsName     : ip-10-0-0-17.us-west-2.compute.internal
PrivateIpAddress   : 10.0.0.17
PrivateIpAddresses : {}
RequesterId        :
RequesterManaged   : False
SourceDestCheck    : True
Status             : pending
SubnetId           : subnet-1a2b3c4d
TagSet             : {}
VpcId              : vpc-12345678
```
+  Untuk detail API, lihat [CreateNetworkInterface](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2PlacementGroup`
<a name="ec2_CreatePlacementGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2PlacementGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat grup penempatan dengan nama yang ditentukan.**  

```
New-EC2PlacementGroup -GroupName my-placement-group -Strategy cluster
```
+  Untuk detail API, lihat [CreatePlacementGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Route`
<a name="ec2_CreateRoute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Route`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menciptakan rute yang ditentukan untuk tabel rute yang ditentukan. Rute cocok dengan semua lalu lintas dan mengirimkannya ke gateway Internet yang ditentukan.**  

```
New-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 0.0.0.0/0 -GatewayId igw-1a2b3c4d
```
**Output:**  

```
True
```
+  Untuk detail API, lihat [CreateRoute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2RouteTable`
<a name="ec2_CreateRouteTable_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2RouteTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat tabel rute untuk VPC yang ditentukan.**  

```
New-EC2RouteTable -VpcId vpc-12345678
```
**Output:**  

```
Associations    : {}
PropagatingVgws : {}
Routes          : {}
RouteTableId    : rtb-1a2b3c4d
Tags            : {}
VpcId           : vpc-12345678
```
+  Untuk detail API, lihat [CreateRouteTable](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2ScheduledInstance`
<a name="ec2_RunScheduledInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2ScheduledInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini meluncurkan Instance Terjadwal yang ditentukan.**  

```
New-EC2ScheduledInstance -ScheduledInstanceId sci-1234-1234-1234-1234-123456789012 -InstanceCount 1 `
-IamInstanceProfile_Name my-iam-role `
-LaunchSpecification_ImageId ami-12345678 `
-LaunchSpecification_InstanceType c4.large `
-LaunchSpecification_SubnetId subnet-12345678`
-LaunchSpecification_SecurityGroupId sg-12345678
```
+  Untuk detail API, lihat [RunScheduledInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2ScheduledInstancePurchase`
<a name="ec2_PurchaseScheduledInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2ScheduledInstancePurchase`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membeli Instance Terjadwal.**  

```
$request = New-Object Amazon.EC2.Model.PurchaseRequest
$request.InstanceCount = 1
$request.PurchaseToken = "eyJ2IjoiMSIsInMiOjEsImMiOi..."
New-EC2ScheduledInstancePurchase -PurchaseRequest $request
```
**Output:**  

```
AvailabilityZone            : us-west-2b
CreateDate                  : 1/25/2016 1:43:38 PM
HourlyPrice                 : 0.095
InstanceCount               : 1
InstanceType                : c4.large
NetworkPlatform             : EC2-VPC
NextSlotStartTime           : 1/31/2016 1:00:00 AM
Platform                    : Linux/UNIX
PreviousSlotEndTime         : 
Recurrence                  : Amazon.EC2.Model.ScheduledInstanceRecurrence
ScheduledInstanceId         : sci-1234-1234-1234-1234-123456789012
SlotDurationInHours         : 32
TermEndDate                 : 1/31/2017 1:00:00 AM
TermStartDate               : 1/31/2016 1:00:00 AM
TotalScheduledInstanceHours : 1696
```
+  Untuk detail API, lihat [PurchaseScheduledInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2SecurityGroup`
<a name="ec2_CreateSecurityGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2SecurityGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat grup keamanan untuk VPC yang ditentukan.**  

```
New-EC2SecurityGroup -GroupName my-security-group -Description "my security group" -VpcId vpc-12345678
```
**Output:**  

```
sg-12345678
```
**Contoh 2: Contoh ini membuat grup keamanan untuk EC2-Classic.**  

```
New-EC2SecurityGroup -GroupName my-security-group -Description "my security group"
```
**Output:**  

```
sg-45678901
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Snapshot`
<a name="ec2_CreateSnapshot_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Snapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat snapshot dari volume yang ditentukan.**  

```
New-EC2Snapshot -VolumeId vol-12345678 -Description "This is a test"
```
**Output:**  

```
DataEncryptionKeyId :
Description         : This is a test
Encrypted           : False
KmsKeyId            :
OwnerAlias          :
OwnerId             : 123456789012
Progress            :
SnapshotId          : snap-12345678
StartTime           : 12/22/2015 1:28:42 AM
State               : pending
StateMessage        :
Tags                : {}
VolumeId            : vol-12345678
VolumeSize          : 20
```
+  Untuk detail API, lihat [CreateSnapshot](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2SpotDatafeedSubscription`
<a name="ec2_CreateSpotDatafeedSubscription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2SpotDatafeedSubscription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat umpan data instance Spot.**  

```
New-EC2SpotDatafeedSubscription -Bucket amzn-s3-demo-bucket -Prefix spotdata
```
**Output:**  

```
Bucket  : amzn-s3-demo-bucket
Fault   :
OwnerId : 123456789012
Prefix  : spotdata
State   : Active
```
+  Untuk detail API, lihat [CreateSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Subnet`
<a name="ec2_CreateSubnet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Subnet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat subnet dengan CIDR yang ditentukan.**  

```
New-EC2Subnet -VpcId vpc-12345678 -CidrBlock 10.0.0.0/24
```
**Output:**  

```
AvailabilityZone        : us-west-2c
AvailableIpAddressCount : 251
CidrBlock               : 10.0.0.0/24
DefaultForAz            : False
MapPublicIpOnLaunch     : False
State                   : pending
SubnetId                : subnet-1a2b3c4d
Tag                     : {}
VpcId                   : vpc-12345678
```
+  Untuk detail API, lihat [CreateSubnet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Tag`
<a name="ec2_CreateTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Tag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan satu tag ke sumber daya yang ditentukan. Kunci tag adalah 'MyTag' dan nilai tag adalah 'myTagValue'. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
New-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag"; Value="myTagValue" }
```
**Contoh 2: Contoh ini memperbarui atau menambahkan tag yang ditentukan ke sumber daya yang ditentukan. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
New-EC2Tag -Resource i-12345678 -Tag @( @{ Key="myTag"; Value="newTagValue" }, @{ Key="test"; Value="anotherTagValue" } )
```
**Contoh 3: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.EC2.Model.Tag
$tag.Key = "myTag"
$tag.Value = "myTagValue"

New-EC2Tag -Resource i-12345678 -Tag $tag
```
+  Untuk detail API, lihat [CreateTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Volume`
<a name="ec2_CreateVolume_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Volume`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menciptakan volume yang ditentukan.**  

```
New-EC2Volume -Size 50 -AvailabilityZone us-west-2a -VolumeType gp2
```
**Output:**  

```
Attachments      : {}
AvailabilityZone : us-west-2a
CreateTime       : 12/22/2015 1:42:07 AM
Encrypted        : False
Iops             : 150
KmsKeyId         :
Size             : 50
SnapshotId       :
State            : creating
Tags             : {}
VolumeId         : vol-12345678
VolumeType       : gp2
```
**Contoh 2: Permintaan contoh ini membuat volume dan menerapkan tag dengan kunci tumpukan dan nilai produksi.**  

```
$tag = @{ Key="stack"; Value="production" }

$tagspec = new-object Amazon.EC2.Model.TagSpecification
$tagspec.ResourceType = "volume"
$tagspec.Tags.Add($tag)

New-EC2Volume -Size 80 -AvailabilityZone "us-west-2a" -TagSpecification $tagspec
```
+  Untuk detail API, lihat [CreateVolume](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2Vpc`
<a name="ec2_CreateVpc_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2Vpc`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat VPC dengan CIDR yang ditentukan. Amazon VPC juga membuat yang berikut untuk VPC: set opsi DHCP default, tabel rute utama, dan ACL jaringan default.**  

```
New-EC2VPC -CidrBlock 10.0.0.0/16
```
**Output:**  

```
CidrBlock       : 10.0.0.0/16
DhcpOptionsId   : dopt-1a2b3c4d
InstanceTenancy : default
IsDefault       : False
State           : pending
Tags            : {}
VpcId           : vpc-12345678
```
+  Untuk detail API, lihat [CreateVpc](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2VpcEndpoint`
<a name="ec2_CreateVpcEndpoint_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2VpcEndpoint`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat Endpoint VPC baru untuk layanan com.amazonaws.eu-west-1.s3 di VPC vpc-0fc1ff23f45b678eb**  

```
New-EC2VpcEndpoint -ServiceName com.amazonaws.eu-west-1.s3 -VpcId vpc-0fc1ff23f45b678eb
```
**Output:**  

```
ClientToken VpcEndpoint
----------- -----------
            Amazon.EC2.Model.VpcEndpoint
```
+  Untuk detail API, lihat [CreateVpcEndpoint](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2VpnConnection`
<a name="ec2_CreateVpnConnection_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2VpnConnection`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat koneksi VPN antara gateway pribadi virtual yang ditentukan dan gateway pelanggan yang ditentukan. Outputnya mencakup informasi konfigurasi yang dibutuhkan administrator jaringan Anda, dalam format XHTML.**  

```
New-EC2VpnConnection -Type ipsec.1 -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d
```
**Output:**  

```
CustomerGatewayConfiguration : [XML document]
CustomerGatewayId            : cgw-1a2b3c4d
Options                      :
Routes                       : {}
State                        : pending
Tags                         : {}
Type                         :
VgwTelemetry                 : {}
VpnConnectionId              : vpn-12345678
VpnGatewayId                 : vgw-1a2b3c4d
```
**Contoh 2: Contoh ini membuat koneksi VPN dan menangkap konfigurasi dalam file dengan nama yang ditentukan.**  

```
(New-EC2VpnConnection -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d).CustomerGatewayConfiguration | Out-File C:\path\vpn-configuration.xml
```
**Contoh 3: Contoh ini membuat koneksi VPN, dengan perutean statis, antara gateway pribadi virtual yang ditentukan dan gateway pelanggan yang ditentukan.**  

```
New-EC2VpnConnection -Type ipsec.1 -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d -Options_StaticRoutesOnly $true
```
+  Untuk detail API, lihat [CreateVpnConnection](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2VpnConnectionRoute`
<a name="ec2_CreateVpnConnectionRoute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2VpnConnectionRoute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat rute statis yang ditentukan untuk koneksi VPN yang ditentukan.**  

```
New-EC2VpnConnectionRoute -VpnConnectionId vpn-12345678 -DestinationCidrBlock 11.12.0.0/16
```
+  Untuk detail API, lihat [CreateVpnConnectionRoute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EC2VpnGateway`
<a name="ec2_CreateVpnGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EC2VpnGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat gateway pribadi virtual yang ditentukan.**  

```
New-EC2VpnGateway -Type ipsec.1
```
**Output:**  

```
AvailabilityZone :
State            : available
Tags             : {}
Type             : ipsec.1
VpcAttachments   : {}
VpnGatewayId     : vgw-1a2b3c4d
```
+  Untuk detail API, lihat [CreateVpnGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-EC2Address`
<a name="ec2_AssociateAddress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2Address`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan alamat IP Elastis yang ditentukan dengan instance yang ditentukan dalam VPC.**  

```
C:\> Register-EC2Address -InstanceId i-12345678 -AllocationId eipalloc-12345678
```
**Output:**  

```
eipassoc-12345678
```
**Contoh 2: Contoh ini mengaitkan alamat IP Elastis yang ditentukan dengan instance tertentu di EC2-Classic.**  

```
C:\> Register-EC2Address -InstanceId i-12345678 -PublicIp 203.0.113.17
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-EC2DhcpOption`
<a name="ec2_AssociateDhcpOptions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2DhcpOption`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan opsi DHCP tertentu yang ditetapkan dengan VPC yang ditentukan.**  

```
Register-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d -VpcId vpc-12345678
```
**Contoh 2: Contoh ini mengaitkan opsi DHCP default yang ditetapkan dengan VPC yang ditentukan.**  

```
Register-EC2DhcpOption -DhcpOptionsId default -VpcId vpc-12345678
```
+  Untuk detail API, lihat [AssociateDhcpOptions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-EC2Image`
<a name="ec2_RegisterImage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2Image`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan AMI menggunakan file manifes yang ditentukan di Amazon S3.**  

```
Register-EC2Image -ImageLocation amzn-s3-demo-bucket/my-web-server-ami/image.manifest.xml -Name my-web-server-ami
```
+  Untuk detail API, lihat [RegisterImage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-EC2PrivateIpAddress`
<a name="ec2_AssignPrivateIpAddresses_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2PrivateIpAddress`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memberikan alamat IP pribadi sekunder yang ditentukan ke antarmuka jaringan yang ditentukan.**  

```
Register-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -PrivateIpAddress 10.0.0.82
```
**Contoh 2: Contoh ini membuat dua alamat IP pribadi sekunder dan menetapkannya ke antarmuka jaringan yang ditentukan.**  

```
Register-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -SecondaryPrivateIpAddressCount 2
```
+  Untuk detail API, lihat [AssignPrivateIpAddresses](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-EC2RouteTable`
<a name="ec2_AssociateRouteTable_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-EC2RouteTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan tabel rute yang ditentukan dengan subnet yang ditentukan.**  

```
Register-EC2RouteTable -RouteTableId rtb-1a2b3c4d -SubnetId subnet-1a2b3c4d
```
**Output:**  

```
rtbassoc-12345678
```
+  Untuk detail API, lihat [AssociateRouteTable](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Address`
<a name="ec2_ReleaseAddress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Address`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini merilis alamat IP Elastis yang ditentukan untuk instance di VPC.**  

```
Remove-EC2Address -AllocationId eipalloc-12345678 -Force
```
**Contoh 2: Contoh ini merilis alamat IP Elastis yang ditentukan untuk instance di EC2-Classic.**  

```
Remove-EC2Address -PublicIp 198.51.100.2 -Force
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2CapacityReservation`
<a name="ec2_CancelCapacityReservation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2CapacityReservation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan reservasi kapasitas cr-0c1f2345db6f7cdba**  

```
Remove-EC2CapacityReservation -CapacityReservationId cr-0c1f2345db6f7cdba
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2CapacityReservation (CancelCapacityReservation)" on target "cr-0c1f2345db6f7cdba".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
True
```
+  Untuk detail API, lihat [CancelCapacityReservation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2CustomerGateway`
<a name="ec2_DeleteCustomerGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2CustomerGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus gateway pelanggan yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2CustomerGateway -CustomerGatewayId cgw-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2CustomerGateway (DeleteCustomerGateway)" on Target "cgw-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteCustomerGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2DhcpOption`
<a name="ec2_DeleteDhcpOptions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2DhcpOption`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus set opsi DHCP yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2DhcpOption (DeleteDhcpOptions)" on Target "dopt-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteDhcpOptions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2FlowLog`
<a name="ec2_DeleteFlowLogs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2FlowLog`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus FlowLogId fl-01a2b3456a789c01 yang diberikan**  

```
Remove-EC2FlowLog -FlowLogId fl-01a2b3456a789c01
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2FlowLog (DeleteFlowLogs)" on target "fl-01a2b3456a789c01".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteFlowLogs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Host`
<a name="ec2_ReleaseHosts_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Host`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini merilis ID host yang diberikan h-0badafd1dcb2f3456**  

```
Remove-EC2Host -HostId h-0badafd1dcb2f3456
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2Host (ReleaseHosts)" on target "h-0badafd1dcb2f3456".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

Successful            Unsuccessful
----------            ------------
{h-0badafd1dcb2f3456} {}
```
+  Untuk detail API, lihat [ReleaseHosts](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Instance`
<a name="ec2_TerminateInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Instance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengakhiri instance yang ditentukan (instance mungkin berjalan atau dalam keadaan 'berhenti'). Cmdlet akan meminta konfirmasi sebelum melanjutkan; gunakan sakelar -Force untuk menekan prompt.**  

```
Remove-EC2Instance -InstanceId i-12345678
```
**Output:**  

```
CurrentState                      InstanceId    PreviousState
------------                      ----------    -------------
Amazon.EC2.Model.InstanceState    i-12345678    Amazon.EC2.Model.InstanceState
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2InternetGateway`
<a name="ec2_DeleteInternetGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2InternetGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus gateway Internet yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2InternetGateway (DeleteInternetGateway)" on Target "igw-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteInternetGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2KeyPair`
<a name="ec2_DeleteKeyPair_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2KeyPair`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus key pair yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2KeyPair -KeyName my-key-pair
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2KeyPair (DeleteKeyPair)" on Target "my-key-pair".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2NetworkAcl`
<a name="ec2_DeleteNetworkAcl_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2NetworkAcl`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus ACL jaringan tertentu. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2NetworkAcl -NetworkAclId acl-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2NetworkAcl (DeleteNetworkAcl)" on Target "acl-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteNetworkAcl](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2NetworkAclEntry`
<a name="ec2_DeleteNetworkAclEntry_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2NetworkAclEntry`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus aturan yang ditentukan dari ACL jaringan yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2NetworkAclEntry (DeleteNetworkAclEntry)" on Target "acl-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteNetworkAclEntry](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2NetworkInterface`
<a name="ec2_DeleteNetworkInterface_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2NetworkInterface`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus antarmuka jaringan yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2NetworkInterface -NetworkInterfaceId eni-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2NetworkInterface (DeleteNetworkInterface)" on Target "eni-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteNetworkInterface](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2PlacementGroup`
<a name="ec2_DeletePlacementGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2PlacementGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus grup penempatan yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2PlacementGroup -GroupName my-placement-group
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2PlacementGroup (DeletePlacementGroup)" on Target "my-placement-group".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeletePlacementGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Route`
<a name="ec2_DeleteRoute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Route`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus rute yang ditentukan dari tabel rute yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 0.0.0.0/0
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2Route (DeleteRoute)" on Target "rtb-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteRoute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2RouteTable`
<a name="ec2_DeleteRouteTable_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2RouteTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tabel rute yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2RouteTable -RouteTableId rtb-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2RouteTable (DeleteRouteTable)" on Target "rtb-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteRouteTable](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2SecurityGroup`
<a name="ec2_DeleteSecurityGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2SecurityGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus grup keamanan yang ditentukan untuk EC2-VPC. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2SecurityGroup -GroupId sg-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2SecurityGroup (DeleteSecurityGroup)" on Target "sg-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Contoh ini menghapus grup keamanan yang ditentukan untuk EC2-Classic.**  

```
Remove-EC2SecurityGroup -GroupName my-security-group -Force
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Snapshot`
<a name="ec2_DeleteSnapshot_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Snapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus snapshot yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Snapshot -SnapshotId snap-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2Snapshot (DeleteSnapshot)" on target "snap-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteSnapshot](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2SpotDatafeedSubscription`
<a name="ec2_DeleteSpotDatafeedSubscription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2SpotDatafeedSubscription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus umpan data instans Spot Anda. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2SpotDatafeedSubscription
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2SpotDatafeedSubscription (DeleteSpotDatafeedSubscription)" on Target "".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Subnet`
<a name="ec2_DeleteSubnet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Subnet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus subnet yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Subnet -SubnetId subnet-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2Subnet (DeleteSubnet)" on Target "subnet-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteSubnet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Tag`
<a name="ec2_DeleteTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Tag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag yang ditentukan dari sumber daya yang ditentukan, terlepas dari nilai tag. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Remove-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag" } -Force
```
**Contoh 2: Contoh ini menghapus tag yang ditentukan dari sumber daya yang ditentukan, tetapi hanya jika nilai tag cocok. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Remove-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag";Value="myTagValue" } -Force
```
**Contoh 3: Contoh ini menghapus tag yang ditentukan dari sumber daya yang ditentukan, terlepas dari nilai tag.**  

```
$tag = New-Object Amazon.EC2.Model.Tag
$tag.Key = "myTag"

Remove-EC2Tag -Resource i-12345678 -Tag $tag -Force
```
**Contoh 4: Contoh ini menghapus tag yang ditentukan dari sumber daya yang ditentukan, tetapi hanya jika nilai tag cocok.**  

```
$tag = New-Object Amazon.EC2.Model.Tag
$tag.Key = "myTag"
$tag.Value = "myTagValue"

Remove-EC2Tag -Resource i-12345678 -Tag $tag -Force
```
+  Untuk detail API, lihat [DeleteTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Volume`
<a name="ec2_DeleteVolume_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Volume`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan volume yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Volume -VolumeId vol-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EC2Volume (DeleteVolume)" on target "vol-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVolume](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2Vpc`
<a name="ec2_DeleteVpc_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2Vpc`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus VPC yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2Vpc -VpcId vpc-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2Vpc (DeleteVpc)" on Target "vpc-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVpc](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2VpnConnection`
<a name="ec2_DeleteVpnConnection_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2VpnConnection`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus koneksi VPN yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2VpnConnection -VpnConnectionId vpn-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2VpnConnection (DeleteVpnConnection)" on Target "vpn-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVpnConnection](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2VpnConnectionRoute`
<a name="ec2_DeleteVpnConnectionRoute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2VpnConnectionRoute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus rute statis yang ditentukan dari koneksi VPN yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2VpnConnectionRoute -VpnConnectionId vpn-12345678 -DestinationCidrBlock 11.12.0.0/16
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2VpnConnectionRoute (DeleteVpnConnectionRoute)" on Target "vpn-12345678".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVpnConnectionRoute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EC2VpnGateway`
<a name="ec2_DeleteVpnGateway_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EC2VpnGateway`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus gateway pribadi virtual yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-EC2VpnGateway (DeleteVpnGateway)" on Target "vgw-1a2b3c4d".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteVpnGateway](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Request-EC2SpotFleet`
<a name="ec2_RequestSpotFleet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-EC2SpotFleet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat permintaan armada Spot di Availability Zone dengan harga terendah untuk jenis instans yang ditentukan. Jika akun Anda hanya mendukung EC2-VPC, armada Spot akan meluncurkan instans di Availability Zone dengan harga terendah yang memiliki subnet default. Jika akun Anda mendukung EC2-Classic, armada Spot meluncurkan instans dalam EC2-Classic di Availability Zone dengan harga terendah. Perhatikan bahwa harga yang Anda bayar tidak akan melebihi harga Spot yang ditentukan untuk permintaan tersebut.**  

```
$sg = New-Object Amazon.EC2.Model.GroupIdentifier
$sg.GroupId = "sg-12345678"
$lc = New-Object Amazon.EC2.Model.SpotFleetLaunchSpecification
$lc.ImageId = "ami-12345678"
$lc.InstanceType = "m3.medium"
$lc.SecurityGroups.Add($sg) 
Request-EC2SpotFleet -SpotFleetRequestConfig_SpotPrice 0.04 `
-SpotFleetRequestConfig_TargetCapacity 2 `
-SpotFleetRequestConfig_IamFleetRole arn:aws:iam::123456789012:role/my-spot-fleet-role `
-SpotFleetRequestConfig_LaunchSpecification $lc
```
+  Untuk detail API, lihat [RequestSpotFleet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Request-EC2SpotInstance`
<a name="ec2_RequestSpotInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-EC2SpotInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini meminta instance Spot satu kali di subnet yang ditentukan. Perhatikan bahwa grup keamanan harus dibuat untuk VPC yang berisi subnet yang ditentukan, dan harus ditentukan oleh ID menggunakan antarmuka jaringan. Saat Anda menentukan antarmuka jaringan, Anda harus menyertakan ID subnet menggunakan antarmuka jaringan.**  

```
$n = New-Object Amazon.EC2.Model.InstanceNetworkInterfaceSpecification
$n.DeviceIndex = 0
$n.SubnetId = "subnet-12345678"
$n.Groups.Add("sg-12345678")
Request-EC2SpotInstance -InstanceCount 1 -SpotPrice 0.050 -Type one-time `
-IamInstanceProfile_Arn arn:aws:iam::123456789012:instance-profile/my-iam-role `
-LaunchSpecification_ImageId ami-12345678 `
-LaunchSpecification_InstanceType m3.medium `
-LaunchSpecification_NetworkInterface $n
```
**Output:**  

```
ActualBlockHourlyPrice   :
AvailabilityZoneGroup    :
BlockDurationMinutes     : 0
CreateTime               : 12/26/2015 7:44:10 AM
Fault                    :
InstanceId               :
LaunchedAvailabilityZone :
LaunchGroup              :
LaunchSpecification      : Amazon.EC2.Model.LaunchSpecification
ProductDescription       : Linux/UNIX
SpotInstanceRequestId    : sir-12345678
SpotPrice                : 0.050000
State                    : open
Status                   : Amazon.EC2.Model.SpotInstanceStatus
Tags                     : {}
Type                     : one-time
```
+  Untuk detail API, lihat [RequestSpotInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Reset-EC2ImageAttribute`
<a name="ec2_ResetImageAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-EC2ImageAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini me-reset atribut 'launchPermission' ke nilai defaultnya. Secara default, AMIs bersifat pribadi.**  

```
Reset-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission
```
+  Untuk detail API, lihat [ResetImageAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Reset-EC2InstanceAttribute`
<a name="ec2_ResetInstanceAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-EC2InstanceAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini me-reset atribut sriovNetSupport '' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sriovNetSupport
```
**Contoh 2: Contoh ini me-reset atribut 'EBSOptimized' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute ebsOptimized
```
**Contoh 3: Contoh ini me-reset atribut sourceDestCheck '' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sourceDestCheck
```
**Contoh 4: Contoh ini me-reset atribut disableApiTermination '' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute disableApiTermination
```
**Contoh 5: Contoh ini me-reset atribut 'instanceInitiatedShutdownBehavior' untuk instance tertentu.**  

```
Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceInitiatedShutdownBehavior
```
+  Untuk detail API, lihat [ResetInstanceAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Reset-EC2NetworkInterfaceAttribute`
<a name="ec2_ResetNetworkInterfaceAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-EC2NetworkInterfaceAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengatur ulang source/destination pemeriksaan antarmuka jaringan yang ditentukan.**  

```
Reset-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -SourceDestCheck
```
+  Untuk detail API, lihat [ResetNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Reset-EC2SnapshotAttribute`
<a name="ec2_ResetSnapshotAttribute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-EC2SnapshotAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengatur ulang atribut tertentu dari snapshot yang ditentukan.**  

```
Reset-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission
```
+  Untuk detail API, lihat [ResetSnapshotAttribute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Restart-EC2Instance`
<a name="ec2_RebootInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Restart-EC2Instance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini me-reboot instance yang ditentukan.**  

```
Restart-EC2Instance -InstanceId i-12345678
```
+  Untuk detail API, lihat [RebootInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Revoke-EC2SecurityGroupEgress`
<a name="ec2_RevokeSecurityGroupEgress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Revoke-EC2SecurityGroupEgress`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus aturan untuk grup keamanan yang ditentukan untuk EC2-VPC. Ini mencabut akses ke rentang alamat IP yang ditentukan pada port TCP 80. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip = @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; IpRanges="203.0.113.0/24" }
Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip = New-Object Amazon.EC2.Model.IpPermission
$ip.IpProtocol = "tcp"
$ip.FromPort = 80
$ip.ToPort = 80
$ip.IpRanges.Add("203.0.113.0/24")
Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 3: Contoh ini mencabut akses ke grup keamanan sumber yang ditentukan pada port TCP 80.**  

```
$ug = New-Object Amazon.EC2.Model.UserIdGroupPair
$ug.GroupId = "sg-1a2b3c4d"
$ug.UserId = "123456789012"
Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; UserIdGroupPairs=$ug } )
```
+  Untuk detail API, lihat [RevokeSecurityGroupEgress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Revoke-EC2SecurityGroupIngress`
<a name="ec2_RevokeSecurityGroupIngress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Revoke-EC2SecurityGroupIngress`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencabut akses ke port TCP 22 dari rentang alamat yang ditentukan untuk grup keamanan yang ditentukan untuk EC2-VPC. Perhatikan bahwa Anda harus mengidentifikasi grup keamanan untuk EC2-VPC menggunakan ID grup keamanan bukan nama grup keamanan. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.0/24" }
Revoke-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip = New-Object Amazon.EC2.Model.IpPermission
$ip.IpProtocol = "tcp"
$ip.FromPort = 22
$ip.ToPort = 22
$ip.IpRanges.Add("203.0.113.0/24")

Revoke-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission $ip
```
**Contoh 3: Contoh ini mencabut akses ke port TCP 22 dari rentang alamat yang ditentukan untuk grup keamanan yang ditentukan untuk EC2-Classic. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
$ip = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.0/24" }

Revoke-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission $ip
```
**Contoh 4: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat objek. IpPermission **  

```
$ip = New-Object Amazon.EC2.Model.IpPermission
$ip.IpProtocol = "tcp"
$ip.FromPort = 22
$ip.ToPort = 22
$ip.IpRanges.Add("203.0.113.0/24")

Revoke-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission $ip
```
+  Untuk detail API, lihat [RevokeSecurityGroupIngress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Send-EC2InstanceStatus`
<a name="ec2_ReportInstanceStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-EC2InstanceStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melaporkan umpan balik status untuk contoh yang ditentukan.**  

```
Send-EC2InstanceStatus -Instance i-12345678 -Status impaired -ReasonCode unresponsive
```
+  Untuk detail API, lihat [ReportInstanceStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-EC2NetworkAclAssociation`
<a name="ec2_ReplaceNetworkAclAssociation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-EC2NetworkAclAssociation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan ACL jaringan tertentu dengan subnet untuk asosiasi ACL jaringan tertentu.**  

```
Set-EC2NetworkAclAssociation -NetworkAclId acl-12345678 -AssociationId aclassoc-1a2b3c4d
```
**Output:**  

```
aclassoc-87654321
```
+  Untuk detail API, lihat [ReplaceNetworkAclAssociation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-EC2NetworkAclEntry`
<a name="ec2_ReplaceNetworkAclEntry_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-EC2NetworkAclEntry`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menggantikan entri yang ditentukan untuk ACL jaringan tertentu. Aturan baru memungkinkan lalu lintas masuk dari alamat yang ditentukan ke subnet terkait.**  

```
Set-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 -Protocol 17 -PortRange_From 53 -PortRange_To 53 -CidrBlock 203.0.113.12/24 -RuleAction allow
```
+  Untuk detail API, lihat [ReplaceNetworkAclEntry](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-EC2Route`
<a name="ec2_ReplaceRoute_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-EC2Route`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menggantikan rute yang ditentukan untuk tabel rute yang ditentukan. Rute baru mengirimkan lalu lintas yang ditentukan ke gateway pribadi virtual yang ditentukan.**  

```
Set-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 10.0.0.0/24 -GatewayId vgw-1a2b3c4d
```
+  Untuk detail API, lihat [ReplaceRoute](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-EC2RouteTableAssociation`
<a name="ec2_ReplaceRouteTableAssociation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-EC2RouteTableAssociation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan tabel rute yang ditentukan dengan subnet untuk asosiasi tabel rute yang ditentukan.**  

```
Set-EC2RouteTableAssociation -RouteTableId rtb-1a2b3c4d -AssociationId rtbassoc-12345678
```
**Output:**  

```
rtbassoc-87654321
```
+  Untuk detail API, lihat [ReplaceRouteTableAssociation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-EC2Instance`
<a name="ec2_StartInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-EC2Instance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memulai instance yang ditentukan.**  

```
Start-EC2Instance -InstanceId i-12345678
```
**Output:**  

```
CurrentState                      InstanceId    PreviousState
------------                      ----------    -------------
Amazon.EC2.Model.InstanceState    i-12345678    Amazon.EC2.Model.InstanceState
```
**Contoh 2: Contoh ini memulai instance yang ditentukan.**  

```
@("i-12345678", "i-76543210") | Start-EC2Instance
```
**Contoh 3: Contoh ini memulai kumpulan instance yang saat ini dihentikan. Objek Instance yang dikembalikan oleh Get-EC2Instance disalurkan keStart-EC2Instance. Sintaks yang digunakan oleh contoh ini membutuhkan PowerShell versi 3 atau lebih tinggi.**  

```
(Get-EC2Instance -Filter @{ Name="instance-state-name"; Values="stopped"}).Instances | Start-EC2Instance
```
**Contoh 4: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat filter untuk parameter Filter.**  

```
$filter = New-Object Amazon.EC2.Model.Filter
$filter.Name = "instance-state-name"
$filter.Values = "stopped"

(Get-EC2Instance -Filter $filter).Instances | Start-EC2Instance
```
**Contoh 5: Contoh ini memvalidasi izin untuk memulai instans EC2 menggunakan DryRun parameter tanpa benar-benar memulai instance. Catatan: Ini melempar pengecualian jika berhasil yang merupakan perilaku yang diharapkan.**  

```
Start-EC2Instance -InstanceId 'i-0abcdef123456' -Region 'us-west-1' -DryRun $true
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-EC2InstanceMonitoring`
<a name="ec2_MonitorInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-EC2InstanceMonitoring`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan pemantauan terperinci untuk contoh yang ditentukan.**  

```
Start-EC2InstanceMonitoring -InstanceId i-12345678
```
**Output:**  

```
InstanceId    Monitoring
----------    ----------
i-12345678    Amazon.EC2.Model.Monitoring
```
+  Untuk detail API, lihat [MonitorInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-EC2ImportTask`
<a name="ec2_CancelImportTask_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2ImportTask`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan tugas impor yang ditentukan (baik snapshot atau impor gambar). Jika diperlukan, alasan dapat menyediakan menggunakan `-CancelReason` parameter.**  

```
Stop-EC2ImportTask -ImportTaskId import-ami-abcdefgh
```
+  Untuk detail API, lihat [CancelImportTask](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-EC2Instance`
<a name="ec2_StopInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2Instance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghentikan instance yang ditentukan.**  

```
Stop-EC2Instance -InstanceId i-12345678
```
**Output:**  

```
CurrentState                      InstanceId    PreviousState
------------                      ----------    -------------
Amazon.EC2.Model.InstanceState    i-12345678    Amazon.EC2.Model.InstanceState
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-EC2InstanceMonitoring`
<a name="ec2_UnmonitorInstances_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2InstanceMonitoring`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menonaktifkan pemantauan terperinci untuk contoh yang ditentukan.**  

```
Stop-EC2InstanceMonitoring -InstanceId i-12345678
```
**Output:**  

```
InstanceId    Monitoring
----------    ----------
i-12345678    Amazon.EC2.Model.Monitoring
```
+  Untuk detail API, lihat [UnmonitorInstances](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-EC2SpotFleetRequest`
<a name="ec2_CancelSpotFleetRequests_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2SpotFleetRequest`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan permintaan armada Spot yang ditentukan dan mengakhiri instance Spot terkait.**  

```
Stop-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TerminateInstance $true
```
**Contoh 2: Contoh ini membatalkan permintaan armada Spot yang ditentukan tanpa menghentikan instans Spot terkait.**  

```
Stop-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TerminateInstance $false
```
+  Untuk detail API, lihat [CancelSpotFleetRequests](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-EC2SpotInstanceRequest`
<a name="ec2_CancelSpotInstanceRequests_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-EC2SpotInstanceRequest`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan permintaan instance Spot yang ditentukan.**  

```
Stop-EC2SpotInstanceRequest -SpotInstanceRequestId sir-12345678
```
**Output:**  

```
SpotInstanceRequestId    State
---------------------    -----
sir-12345678             cancelled
```
+  Untuk detail API, lihat [CancelSpotInstanceRequests](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-EC2Address`
<a name="ec2_DisassociateAddress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-EC2Address`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memisahkan alamat IP Elastis yang ditentukan dari instance yang ditentukan dalam VPC.**  

```
Unregister-EC2Address -AssociationId eipassoc-12345678
```
**Contoh 2: Contoh ini memisahkan alamat IP Elastis yang ditentukan dari instance yang ditentukan di EC2-Classic.**  

```
Unregister-EC2Address -PublicIp 203.0.113.17
```
+  Untuk detail API, lihat [DisassociateAddress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-EC2Image`
<a name="ec2_DeregisterImage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-EC2Image`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan pendaftaran AMI yang ditentukan.**  

```
Unregister-EC2Image -ImageId ami-12345678
```
+  Untuk detail API, lihat [DeregisterImage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-EC2PrivateIpAddress`
<a name="ec2_UnassignPrivateIpAddresses_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-EC2PrivateIpAddress`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan penetapan alamat IP pribadi yang ditentukan dari antarmuka jaringan yang ditentukan.**  

```
Unregister-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -PrivateIpAddress 10.0.0.82
```
+  Untuk detail API, lihat [UnassignPrivateIpAddresses](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-EC2RouteTable`
<a name="ec2_DisassociateRouteTable_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-EC2RouteTable`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus asosiasi tertentu antara tabel rute dan subnet.**  

```
Unregister-EC2RouteTable -AssociationId rtbassoc-1a2b3c4d
```
+  Untuk detail API, lihat [DisassociateRouteTable](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-EC2SecurityGroupRuleIngressDescription`
<a name="ec2_UpdateSecurityGroupRuleDescriptionsIngress_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-EC2SecurityGroupRuleIngressDescription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui deskripsi aturan grup keamanan ingress (inbound) yang ada.**  

```
$existingInboundRule = Get-EC2SecurityGroupRule -SecurityGroupRuleId "sgr-1234567890"
$ruleWithUpdatedDescription = [Amazon.EC2.Model.SecurityGroupRuleDescription]@{
  "SecurityGroupRuleId" = $existingInboundRule.SecurityGroupRuleId
  "Description" = "Updated rule description"
}

Update-EC2SecurityGroupRuleIngressDescription -GroupId $existingInboundRule.GroupId -SecurityGroupRuleDescription $ruleWithUpdatedDescription
```
**Contoh 2: Menghapus deskripsi aturan grup keamanan ingress (inbound) yang ada (dengan menghilangkan parameter dalam permintaan).**  

```
$existingInboundRule = Get-EC2SecurityGroupRule -SecurityGroupRuleId "sgr-1234567890"
$ruleWithoutDescription = [Amazon.EC2.Model.SecurityGroupRuleDescription]@{
  "SecurityGroupRuleId" = $existingInboundRule.SecurityGroupRuleId
}

Update-EC2SecurityGroupRuleIngressDescription -GroupId $existingInboundRule.GroupId -SecurityGroupRuleDescription $ruleWithoutDescription
```
+  Untuk detail API, lihat [UpdateSecurityGroupRuleDescriptionsIngress](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon ECR menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_ecr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon ECR.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-ECRLoginCommand`
<a name="ecr_Get-ECRLoginCommand_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECRLoginCommand`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan informasi login yang PSObject berisi yang dapat digunakan untuk mengautentikasi ke registri Amazon ECR mana pun yang dapat diakses oleh kepala sekolah IAM Anda. Kredensi dan titik akhir wilayah yang diperlukan untuk panggilan untuk mendapatkan token otorisasi diperoleh dari default shell (diatur oleh atau cmdlet). `Set-AWSCredential/Set-DefaultAWSRegion` `Initialize-AWSDefaultConfiguration` Anda dapat menggunakan properti Command dengan Invoke-Expression untuk masuk ke registri yang ditentukan atau menggunakan kredensi yang dikembalikan di alat lain yang memerlukan login.**  

```
Get-ECRLoginCommand
```
**Output:**  

```
Username      : AWS
Password      : eyJwYXlsb2Fk...kRBVEFfS0VZIn0=
ProxyEndpoint : https://123456789012.dkr.ecr.us-west-2.amazonaws.com
Endpoint      : https://123456789012.dkr.ecr.us-west-2.amazonaws.com
ExpiresAt     : 9/26/2017 6:08:23 AM
Command       : docker login --username AWS --password eyJwYXlsb2Fk...kRBVEFfS0VZIn0= https://123456789012.dkr.ecr.us-west-2.amazonaws.com
```
**Contoh 2: Mengambil informasi login yang PSObject berisi yang Anda gunakan sebagai input ke perintah docker login. Anda dapat menentukan URI registri Amazon ECR apa pun untuk diautentikasi selama prinsipal IAM Anda memiliki akses ke registri tersebut.**  

```
(Get-ECRLoginCommand).Password | docker login --username AWS --password-stdin 012345678910.dkr.ecr.us-east-1.amazonaws.com
```
+  Untuk detail API, lihat [Dapatkan- ECRLogin Perintah](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon ECS menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_ecs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon ECS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-ECSClusterDetail`
<a name="ecs_DescribeClusters_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECSClusterDetail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menjelaskan satu atau lebih cluster ECS Anda.**  

```
Get-ECSClusterDetail -Cluster "LAB-ECS-CL" -Include SETTINGS | Select-Object *
```
**Output:**  

```
LoggedAt         : 12/27/2019 9:27:41 PM
Clusters         : {LAB-ECS-CL}
Failures         : {}
ResponseMetadata : Amazon.Runtime.ResponseMetadata
ContentLength    : 396
HttpStatusCode   : OK
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ECSClusterList`
<a name="ecs_ListClusters_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECSClusterList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mengembalikan daftar cluster ECS yang ada.**  

```
Get-ECSClusterList
```
**Output:**  

```
arn:aws:ecs:us-west-2:012345678912:cluster/LAB-ECS-CL
arn:aws:ecs:us-west-2:012345678912:cluster/LAB-ECS
```
+  Untuk detail API, lihat [ListClusters](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ECSClusterService`
<a name="ecs_ListServices_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECSClusterService`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua layanan yang berjalan di klaster default Anda.**  

```
Get-ECSClusterService
```
**Contoh 2: Contoh ini mencantumkan semua layanan yang berjalan di cluster tertentu.**  

```
Get-ECSClusterService -Cluster myCluster
```
+  Untuk detail API, lihat [ListServices](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ECSService`
<a name="ecs_DescribeServices_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ECSService`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara mengambil detail layanan tertentu dari klaster default Anda.**  

```
Get-ECSService -Service my-hhtp-service
```
**Contoh 2: Contoh ini menunjukkan cara mengambil rincian layanan tertentu yang berjalan di cluster bernama.**  

```
Get-ECSService -Cluster myCluster -Service my-hhtp-service
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ECSCluster`
<a name="ecs_CreateCluster_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ECSCluster`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini membuat cluster Amazon ECS baru.**  

```
New-ECSCluster -ClusterName "LAB-ECS-CL" -Setting @{Name="containerInsights"; Value="enabled"}
```
**Output:**  

```
ActiveServicesCount               : 0
Attachments                       : {}
AttachmentsStatus                 :
CapacityProviders                 : {}
ClusterArn                        : arn:aws:ecs:us-west-2:012345678912:cluster/LAB-ECS-CL
ClusterName                       : LAB-ECS-CL
DefaultCapacityProviderStrategy   : {}
PendingTasksCount                 : 0
RegisteredContainerInstancesCount : 0
RunningTasksCount                 : 0
Settings                          : {containerInsights}
Statistics                        : {}
Status                            : ACTIVE
Tags                              : {}
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ECSService`
<a name="ecs_CreateService_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ECSService`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah contoh ini membuat layanan di cluster default Anda yang disebut `ecs-simple-service`. Layanan ini menggunakan definisi tugas `ecs-demo` dan mempertahankan 10 instantiasi tugas itu.**  

```
New-ECSService -ServiceName ecs-simple-service -TaskDefinition ecs-demo -DesiredCount 10
```
**Contoh 2: Perintah contoh ini membuat layanan di belakang penyeimbang beban di cluster default Anda yang disebut `ecs-simple-service`. Layanan ini menggunakan definisi tugas `ecs-demo` dan mempertahankan 10 instantiasi tugas itu.**  

```
$lb = @{
    LoadBalancerName = "EC2Contai-EcsElast-S06278JGSJCM"
    ContainerName = "simple-demo"
    ContainerPort = 80
}        
New-ECSService -ServiceName ecs-simple-service -TaskDefinition ecs-demo -DesiredCount 10 -LoadBalancer $lb
```
+  Untuk detail API, lihat [CreateService](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ECSCluster`
<a name="ecs_DeleteCluster_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ECSCluster`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menghapus cluster ECS yang ditentukan. Anda harus membatalkan pendaftaran semua instance kontainer dari cluster ini sebelum Anda dapat menghapusnya.**  

```
Remove-ECSCluster -Cluster "LAB-ECS"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ECSCluster (DeleteCluster)" on target "LAB-ECS".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ECSService`
<a name="ecs_DeleteService_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ECSService`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus layanan bernama 'my-http-service' di cluster default. Layanan harus memiliki hitungan yang diinginkan dan menjalankan hitungan 0 sebelum Anda dapat menghapusnya. Anda diminta untuk konfirmasi sebelum perintah dilanjutkan. Untuk melewati prompt konfirmasi tambahkan sakelar -Force.**  

```
Remove-ECSService -Service my-http-service
```
**Contoh 2: Menghapus layanan bernama 'my-http-service' di cluster bernama.**  

```
Remove-ECSService -Cluster myCluster -Service my-http-service
```
+  Untuk detail API, lihat [DeleteService](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-ECSClusterSetting`
<a name="ecs_UpdateClusterSettings_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-ECSClusterSetting`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini memodifikasi pengaturan yang akan digunakan untuk cluster ECS.**  

```
Update-ECSClusterSetting -Cluster "LAB-ECS-CL" -Setting @{Name="containerInsights"; Value="disabled"}
```
**Output:**  

```
ActiveServicesCount               : 0
Attachments                       : {}
AttachmentsStatus                 :
CapacityProviders                 : {}
ClusterArn                        : arn:aws:ecs:us-west-2:012345678912:cluster/LAB-ECS-CL
ClusterName                       : LAB-ECS-CL
DefaultCapacityProviderStrategy   : {}
PendingTasksCount                 : 0
RegisteredContainerInstancesCount : 0
RunningTasksCount                 : 0
Settings                          : {containerInsights}
Statistics                        : {}
Status                            : ACTIVE
Tags                              : {}
```
+  Untuk detail API, lihat [UpdateClusterSettings](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-ECSService`
<a name="ecs_UpdateService_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-ECSService`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah contoh ini memperbarui layanan my-http-service `untuk menggunakan definisi tugasamazon-ecs-sample` `.**  

```
Update-ECSService -Service my-http-service -TaskDefinition amazon-ecs-sample
```
**Contoh 2: Perintah contoh ini memperbarui jumlah yang diinginkan dari layanan my-http-service `` ke 10.**  

```
Update-ECSService -Service my-http-service -DesiredCount 10
```
+  Untuk detail API, lihat [UpdateService](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Amazon EFS contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_efs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon EFS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Edit-EFSMountTargetSecurityGroup`
<a name="efs_ModifyMountTargetSecurityGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-EFSMountTargetSecurityGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui grup keamanan yang berlaku untuk target pemasangan yang ditentukan. Hingga 5 dapat ditentukan, dalam format “sg-xxxxxxxx”.**  

```
Edit-EFSMountTargetSecurityGroup -MountTargetId fsmt-1a2b3c4d -SecurityGroup sg-group1,sg-group3
```
+  Untuk detail API, lihat [ModifyMountTargetSecurityGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EFSFileSystem`
<a name="efs_DescribeFileSystems_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EFSFileSystem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan koleksi semua sistem file yang dimiliki oleh akun penelepon di wilayah tersebut.**  

```
Get-EFSFileSystem
```
**Output:**  

```
CreationTime         : 5/26/2015 4:02:38 PM
CreationToken        : 1a2bff54-85e0-4747-bd95-7bc172c4f555
FileSystemId         : fs-1a2b3c4d
LifeCycleState       : available
Name                 :
NumberOfMountTargets : 0
OwnerId              : 123456789012
SizeInBytes          : Amazon.ElasticFileSystem.Model.FileSystemSize

CreationTime         : 5/26/2015 4:06:23 PM
CreationToken        : 2b4daa14-85e0-4747-bd95-7bc172c4f555
FileSystemId         : fs-4d3c2b1a
...
```
**Contoh 2: Mengembalikan rincian sistem file yang ditentukan.**  

```
Get-EFSFileSystem -FileSystemId fs-1a2b3c4d
```
**Contoh 3: Mengembalikan rincian sistem file menggunakan token penciptaan idempotensi yang ditentukan pada saat sistem file dibuat.**  

```
Get-EFSFileSystem -CreationToken 1a2bff54-85e0-4747-bd95-7bc172c4f555
```
+  Untuk detail API, lihat [DescribeFileSystems](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EFSMountTarget`
<a name="efs_DescribeMountTargets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EFSMountTarget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan koleksi target mount yang terkait dengan sistem file yang ditentukan.**  

```
Get-EFSMountTarget -FileSystemId fs-1a2b3c4d
```
**Output:**  

```
FileSystemId       : fs-1a2b3c4d
IpAddress          : 10.0.0.131
LifeCycleState     : available
MountTargetId      : fsmt-1a2b3c4d
NetworkInterfaceId : eni-1a2b3c4d
OwnerId            : 123456789012
SubnetId           : subnet-1a2b3c4d
```
+  Untuk detail API, lihat [DescribeMountTargets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EFSMountTargetSecurityGroup`
<a name="efs_DescribeMountTargetSecurityGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EFSMountTargetSecurityGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan id grup keamanan yang saat ini ditetapkan ke antarmuka jaringan yang terkait dengan target pemasangan.**  

```
Get-EFSMountTargetSecurityGroup -MountTargetId fsmt-1a2b3c4d
```
**Output:**  

```
sg-1a2b3c4d
```
+  Untuk detail API, lihat [DescribeMountTargetSecurityGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EFSTag`
<a name="efs_DescribeTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EFSTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan koleksi tag yang saat ini terkait dengan sistem file yang ditentukan.**  

```
Get-EFSTag -FileSystemId fs-1a2b3c4d
```
**Output:**  

```
Key         Value
---         -----
Name        My File System
tagkey1     tagvalue1
tagkey2     tagvalue2
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EFSFileSystem`
<a name="efs_CreateFileSystem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EFSFileSystem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat sistem file baru yang kosong. Token yang digunakan untuk memastikan pembuatan idempoten akan dihasilkan secara otomatis dan dapat diakses dari `CreationToken` anggota objek yang dikembalikan.**  

```
New-EFSFileSystem
```
**Output:**  

```
CreationTime         : 5/26/2015 4:02:38 PM
CreationToken        : 1a2bff54-85e0-4747-bd95-7bc172c4f555
FileSystemId         : fs-1a2b3c4d
LifeCycleState       : creating
Name                 :
NumberOfMountTargets : 0
OwnerId              : 123456789012
SizeInBytes          : Amazon.ElasticFileSystem.Model.FileSystemSize
```
**Contoh 2: Membuat sistem file baru yang kosong menggunakan token khusus untuk memastikan pembuatan idempoten.**  

```
New-EFSFileSystem -CreationToken "MyUniqueToken"
```
+  Untuk detail API, lihat [CreateFileSystem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EFSMountTarget`
<a name="efs_CreateMountTarget_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EFSMountTarget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat target mount baru untuk sistem file. Subnet yang ditentukan akan digunakan untuk menentukan Virtual Private Cloud (VPC) tempat target mount akan dibuat dan alamat IP yang akan ditetapkan secara otomatis (dari kisaran alamat subnet). Alamat IP yang ditetapkan dapat digunakan untuk kemudian me-mount sistem file ini pada instans Amazon EC2. Karena tidak ada grup keamanan yang ditentukan, antarmuka jaringan yang dibuat untuk target dikaitkan dengan grup keamanan default untuk VPC subnet.**  

```
New-EFSMountTarget -FileSystemId fs-1a2b3c4d -SubnetId subnet-1a2b3c4d
```
**Output:**  

```
FileSystemId       : fs-1a2b3c4d
IpAddress          : 10.0.0.131
LifeCycleState     : creating
MountTargetId      : fsmt-1a2b3c4d
NetworkInterfaceId : eni-1a2b3c4d
OwnerId            : 123456789012
SubnetId           : subnet-1a2b3c4d
```
**Contoh 2: Membuat target mount baru untuk sistem file yang ditentukan dengan alamat IP yang ditetapkan secara otomatis. Antarmuka jaringan yang dibuat untuk target mount dikaitkan dengan grup keamanan yang ditentukan (hingga 5, dalam format “sg-xxxxxxxx”, dapat ditentukan).**  

```
New-EFSMountTarget -FileSystemId fs-1a2b3c4d -SubnetId subnet-1a2b3c4d -SecurityGroup sg-group1,sg-group2,sg-group3
```
**Contoh 3: Membuat target mount baru untuk sistem file yang ditentukan dengan alamat IP yang ditentukan.**  

```
New-EFSMountTarget -FileSystemId fs-1a2b3c4d -SubnetId subnet-1a2b3c4d -IpAddress 10.0.0.131
```
+  Untuk detail API, lihat [CreateMountTarget](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EFSTag`
<a name="efs_CreateTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EFSTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menerapkan koleksi tag ke sistem file yang ditentukan. Jika tag dengan kunci yang ditentukan sudah ada pada sistem file, nilai tag diperbarui.**  

```
New-EFSTag -FileSystemId fs-1a2b3c4d -Tag @{Key="tagkey1";Value="tagvalue1"},@{Key="tagkey2";Value="tagvalue2"}
```
**Contoh 2: Menetapkan tag nama untuk sistem file yang ditentukan. Nilai ini dikembalikan bersama dengan rincian sistem file lainnya ketika Get-EFSFileSystem cmdlet digunakan.**  

```
New-EFSTag -FileSystemId fs-1a2b3c4d -Tag @{Key="Name";Value="My File System"}
```
+  Untuk detail API, lihat [CreateTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EFSFileSystem`
<a name="efs_DeleteFileSystem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EFSFileSystem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus sistem file tertentu yang tidak lagi digunakan (jika sistem file memiliki target mount, mereka harus dihapus terlebih dahulu). Anda diminta untuk konfirmasi sebelum cmdlet berlangsung - untuk menekan konfirmasi, gunakan sakelar. `-Force`**  

```
Remove-EFSFileSystem -FileSystemId fs-1a2b3c4d
```
+  Untuk detail API, lihat [DeleteFileSystem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EFSMountTarget`
<a name="efs_DeleteMountTarget_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EFSMountTarget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus target mount yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung. Untuk menekan prompt gunakan `-Force` sakelar. Perhatikan bahwa operasi ini secara paksa merusak setiap mount sistem file melalui target - Anda mungkin ingin mempertimbangkan untuk melepas sistem file sebelum menjalankan perintah ini, jika memungkinkan.**  

```
Remove-EFSMountTarget -MountTargetId fsmt-1a2b3c4d
```
+  Untuk detail API, lihat [DeleteMountTarget](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EFSTag`
<a name="efs_DeleteTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EFSTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus koleksi satu atau lebih tag dari sistem file. Anda diminta untuk konfirmasi sebelum cmdlet berlangsung - untuk menekan konfirmasi, gunakan sakelar. `-Force`**  

```
Remove-EFSTag -FileSystemId fs-1a2b3c4d -TagKey "tagkey1","tagkey2"
```
+  Untuk detail API, lihat [DeleteTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon EKS menggunakan Alat untuk PowerShell V5
<a name="powershell_5_eks_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon EKS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-EKSResourceTag`
<a name="eks_TagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-EKSResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mengaitkan tag yang ditentukan ke sumber daya dengan ResourcEarn yang ditentukan.**  

```
Add-EKSResourceTag -ResourceArn "arn:aws:eks:us-west-2:012345678912:cluster/PROD" -Tag @{Name = "EKSPRODCLUSTER"}
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSCluster`
<a name="eks_DescribeCluster_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSCluster`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menampilkan informasi deskriptif tentang kluster Amazon EKS.**  

```
Get-EKSCluster -Name "PROD"
```
**Output:**  

```
Arn                  : arn:aws:eks:us-west-2:012345678912:cluster/PROD
CertificateAuthority : Amazon.EKS.Model.Certificate
ClientRequestToken   :
CreatedAt            : 12/25/2019 6:46:17 AM
Endpoint             : https://669608765450FBBE54D1D78A3D71B72C.gr8.us-west-2.eks.amazonaws.com
Identity             : Amazon.EKS.Model.Identity
Logging              : Amazon.EKS.Model.Logging
Name                 : PROD
PlatformVersion      : eks.7
ResourcesVpcConfig   : Amazon.EKS.Model.VpcConfigResponse
RoleArn              : arn:aws:iam::012345678912:role/eks-iam-role
Status               : ACTIVE
Tags                 : {}
Version              : 1.14
```
+  Untuk detail API, lihat [DescribeCluster](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSClusterList`
<a name="eks_ListClusters_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSClusterList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mencantumkan kluster Amazon EKS di Region yang Akun AWS ditentukan.**  

```
Get-EKSClusterList
```
**Output:**  

```
 PROD
```
+  Untuk detail API, lihat [ListClusters](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSFargateProfile`
<a name="eks_DescribeFargateProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSFargateProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mengembalikan informasi deskriptif tentang profil AWS Fargate.**  

```
Get-EKSFargateProfile -FargateProfileName "EKSFargate" -ClusterName "TEST"
```
**Output:**  

```
ClusterName         : TEST
CreatedAt           : 12/26/2019 12:34:47 PM
FargateProfileArn   : arn:aws:eks:us-east-2:012345678912:fargateprofile/TEST/EKSFargate/42b7a119-e16b-a279-ce97-bdf303adec92
FargateProfileName  : EKSFargate
PodExecutionRoleArn : arn:aws:iam::012345678912:role/AmazonEKSFargatePodExecutionRole
Selectors           : {Amazon.EKS.Model.FargateProfileSelector}
Status              : ACTIVE
Subnets             : {subnet-0cd976f08d5fbfaae, subnet-02f6ff500ff2067a0}
Tags                : {}
```
+  Untuk detail API, lihat [DescribeFargateProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSFargateProfileList`
<a name="eks_ListFargateProfiles_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSFargateProfileList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mencantumkan profil AWS Fargate yang terkait dengan cluster tertentu di Region yang ditentukan. Akun AWS **  

```
Get-EKSFargateProfileList -ClusterName "TEST"
```
**Output:**  

```
EKSFargate
EKSFargateProfile
```
+  Untuk detail API, lihat [ListFargateProfiles](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSNodegroup`
<a name="eks_DescribeNodegroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSNodegroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mengembalikan informasi deskriptif tentang grup node Amazon EKS.**  

```
Get-EKSNodegroup -NodegroupName "ProdEKSNodeGroup" -ClusterName "PROD"
```
**Output:**  

```
AmiType        : AL2_x86_64
ClusterName    : PROD
CreatedAt      : 12/25/2019 10:16:45 AM
DiskSize       : 40
Health         : Amazon.EKS.Model.NodegroupHealth
InstanceTypes  : {t3.large}
Labels         : {}
ModifiedAt     : 12/25/2019 10:16:45 AM
NodegroupArn   : arn:aws:eks:us-west-2:012345678912:nodegroup/PROD/ProdEKSNodeGroup/7eb79e47-82b6-04d9-e984-95110db6fa85
NodegroupName  : ProdEKSNodeGroup
NodeRole       : arn:aws:iam::012345678912:role/NodeInstanceRole
ReleaseVersion : 1.14.7-20190927
RemoteAccess   :
Resources      :
ScalingConfig  : Amazon.EKS.Model.NodegroupScalingConfig
Status         : CREATING
Subnets        : {subnet-0d1a9fff35efa7691, subnet-0a3f4928edbc224d4}
Tags           : {}
Version        : 1.14
```
+  Untuk detail API, lihat [DescribeNodegroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSNodegroupList`
<a name="eks_ListNodegroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSNodegroupList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mencantumkan grup node Amazon EKS yang terkait dengan cluster yang ditentukan di Region yang ditentukan. Akun AWS **  

```
Get-EKSNodegroupList -ClusterName PROD
```
**Output:**  

```
 ProdEKSNodeGroup
```
+  Untuk detail API, lihat [ListNodegroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSResourceTag`
<a name="eks_ListTagsForResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mencantumkan tag untuk sumber daya Amazon EKS.**  

```
Get-EKSResourceTag -ResourceArn "arn:aws:eks:us-west-2:012345678912:cluster/PROD"
```
**Output:**  

```
Key  Value
---  -----
Name EKSPRODCLUSTER
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSUpdate`
<a name="eks_DescribeUpdate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSUpdate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menampilkan informasi deskriptif tentang pembaruan terhadap klaster Amazon EKS atau grup node terkelola terkait.**  

```
Get-EKSUpdate -Name "PROD" -UpdateId "ee708232-7d2e-4ed7-9270-d0b5176f0726"
```
**Output:**  

```
CreatedAt : 12/25/2019 5:03:07 PM
Errors    : {}
Id        : ee708232-7d2e-4ed7-9270-d0b5176f0726
Params    : {Amazon.EKS.Model.UpdateParam}
Status    : Successful
Type      : LoggingUpdate
```
+  Untuk detail API, lihat [DescribeUpdate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-EKSUpdateList`
<a name="eks_ListUpdates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-EKSUpdateList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini mencantumkan pembaruan yang terkait dengan kluster Amazon EKS atau grup node terkelola di Akun AWS Wilayah yang ditentukan.**  

```
Get-EKSUpdateList -Name "PROD"
```
**Output:**  

```
ee708232-7d2e-4ed7-9270-d0b5176f0726
```
+  Untuk detail API, lihat [ListUpdates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EKSCluster`
<a name="eks_CreateCluster_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EKSCluster`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat cluster baru yang disebut 'prod'.**  

```
New-EKSCluster -Name prod -ResourcesVpcConfig @{SubnetIds=@("subnet-0a1b2c3d","subnet-3a2b1c0d");SecurityGroupIds="sg-6979fe18"} -RoleArn "arn:aws:iam::012345678901:role/eks-service-role"
```
**Output:**  

```
Arn                  : arn:aws:eks:us-west-2:012345678901:cluster/prod
CertificateAuthority : Amazon.EKS.Model.Certificate
ClientRequestToken   :
CreatedAt            : 12/10/2018 9:25:31 PM
Endpoint             :
Name                 : prod
PlatformVersion      : eks.3
ResourcesVpcConfig   : Amazon.EKS.Model.VpcConfigResponse
RoleArn              : arn:aws:iam::012345678901:role/eks-service-role
Status               : CREATING
Version              : 1.10
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EKSFargateProfile`
<a name="eks_CreateFargateProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EKSFargateProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini membuat profil AWS Fargate untuk klaster Amazon EKS Anda. Anda harus memiliki setidaknya satu profil Fargate dalam sebuah cluster untuk dapat menjadwalkan pod pada infrastruktur Fargate.**  

```
New-EKSFargateProfile -FargateProfileName EKSFargateProfile -ClusterName TEST -Subnet "subnet-02f6ff500ff2067a0", "subnet-0cd976f08d5fbfaae" -PodExecutionRoleArn arn:aws:iam::012345678912:role/AmazonEKSFargatePodExecutionRole -Selector @{Namespace="default"}
```
**Output:**  

```
ClusterName         : TEST
CreatedAt           : 12/26/2019 12:38:21 PM
FargateProfileArn   : arn:aws:eks:us-east-2:012345678912:fargateprofile/TEST/EKSFargateProfile/20b7a11b-8292-41c1-bc56-ffa5e60f6224
FargateProfileName  : EKSFargateProfile
PodExecutionRoleArn : arn:aws:iam::012345678912:role/AmazonEKSFargatePodExecutionRole
Selectors           : {Amazon.EKS.Model.FargateProfileSelector}
Status              : CREATING
Subnets             : {subnet-0cd976f08d5fbfaae, subnet-02f6ff500ff2067a0}
Tags                : {}
```
+  Untuk detail API, lihat [CreateFargateProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-EKSNodeGroup`
<a name="eks_CreateNodegroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-EKSNodeGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini membuat grup node pekerja terkelola untuk klaster Amazon EKS. Anda hanya dapat membuat grup node untuk klaster Anda yang sama dengan versi Kubernetes terkini untuk klaster tersebut. Semua grup node dibuat dengan versi rilis AMI terbaru untuk masing-masing versi minor Kubernetes dari cluster.**  

```
New-EKSNodeGroup -NodeGroupName "ProdEKSNodeGroup" -AmiType "AL2_x86_64" -DiskSize 40 -ClusterName "PROD" -ScalingConfig_DesiredSize 2 -ScalingConfig_MinSize 2 -ScalingConfig_MaxSize 5 -InstanceType t3.large -NodeRole "arn:aws:iam::012345678912:role/NodeInstanceRole" -Subnet "subnet-0d1a9fff35efa7691","subnet-0a3f4928edbc224d4"
```
**Output:**  

```
AmiType        : AL2_x86_64
ClusterName    : PROD
CreatedAt      : 12/25/2019 10:16:45 AM
DiskSize       : 40
Health         : Amazon.EKS.Model.NodegroupHealth
InstanceTypes  : {t3.large}
Labels         : {}
ModifiedAt     : 12/25/2019 10:16:45 AM
NodegroupArn   : arn:aws:eks:us-west-2:012345678912:nodegroup/PROD/ProdEKSNodeGroup/7eb79e47-82b6-04d9-e984-95110db6fa85
NodegroupName  : ProdEKSNodeGroup
NodeRole       : arn:aws:iam::012345678912:role/NodeInstanceRole
ReleaseVersion : 1.14.7-20190927
RemoteAccess   :
Resources      :
ScalingConfig  : Amazon.EKS.Model.NodegroupScalingConfig
Status         : CREATING
Subnets        : {subnet-0d1a9fff35efa7691, subnet-0a3f4928edbc224d4}
Tags           : {}
Version        : 1.14
```
+  Untuk detail API, lihat [CreateNodegroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EKSCluster`
<a name="eks_DeleteCluster_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EKSCluster`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menghapus bidang kontrol cluster Amazon EKS.**  

```
Remove-EKSCluster -Name "DEV-KUBE-CL"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EKSCluster (DeleteCluster)" on target "DEV-KUBE-CL".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

Arn                  : arn:aws:eks:us-west-2:012345678912:cluster/DEV-KUBE-CL
CertificateAuthority : Amazon.EKS.Model.Certificate
ClientRequestToken   :
CreatedAt            : 12/25/2019 9:33:25 AM
Endpoint             : https://02E6D31E3E4F8C15D7BE7F58D527776A.yl4.us-west-2.eks.amazonaws.com
Identity             : Amazon.EKS.Model.Identity
Logging              : Amazon.EKS.Model.Logging
Name                 : DEV-KUBE-CL
PlatformVersion      : eks.7
ResourcesVpcConfig   : Amazon.EKS.Model.VpcConfigResponse
RoleArn              : arn:aws:iam::012345678912:role/eks-iam-role
Status               : DELETING
Tags                 : {}
Version              : 1.14
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EKSFargateProfile`
<a name="eks_DeleteFargateProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EKSFargateProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menghapus profil AWS Fargate. Saat Anda menghapus profil Fargate, semua pod yang berjalan di Fargate yang dibuat dengan profil akan dihapus.**  

```
Remove-EKSFargateProfile -FargateProfileName "EKSFargate" -ClusterName "TEST"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EKSFargateProfile (DeleteFargateProfile)" on target "EKSFargate".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

ClusterName         : TEST
CreatedAt           : 12/26/2019 12:34:47 PM
FargateProfileArn   : arn:aws:eks:us-east-2:012345678912:fargateprofile/TEST/EKSFargate/42b7a119-e16b-a279-ce97-bdf303adec92
FargateProfileName  : EKSFargate
PodExecutionRoleArn : arn:aws:iam::012345678912:role/AmazonEKSFargatePodExecutionRole
Selectors           : {Amazon.EKS.Model.FargateProfileSelector}
Status              : DELETING
Subnets             : {subnet-0cd976f08d5fbfaae, subnet-02f6ff500ff2067a0}
Tags                : {}
```
+  Untuk detail API, lihat [DeleteFargateProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EKSNodegroup`
<a name="eks_DeleteNodegroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EKSNodegroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menghapus grup node Amazon EKS untuk sebuah cluster.**  

```
Remove-EKSNodegroup -NodegroupName "ProdEKSNodeGroup" -ClusterName "PROD"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EKSNodegroup (DeleteNodegroup)" on target "ProdEKSNodeGroup".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

AmiType        : AL2_x86_64
ClusterName    : PROD
CreatedAt      : 12/25/2019 10:16:45 AM
DiskSize       : 40
Health         : Amazon.EKS.Model.NodegroupHealth
InstanceTypes  : {t3.large}
Labels         : {}
ModifiedAt     : 12/25/2019 11:01:16 AM
NodegroupArn   : arn:aws:eks:us-west-2:012345678912:nodegroup/PROD/ProdEKSNodeGroup/7eb79e47-82b6-04d9-e984-95110db6fa85
NodegroupName  : ProdEKSNodeGroup
NodeRole       : arn:aws:iam::012345678912:role/NodeInstanceRole
ReleaseVersion : 1.14.7-20190927
RemoteAccess   :
Resources      : Amazon.EKS.Model.NodegroupResources
ScalingConfig  : Amazon.EKS.Model.NodegroupScalingConfig
Status         : DELETING
Subnets        : {subnet-0d1a9fff35efa7691, subnet-0a3f4928edbc224d4}
Tags           : {}
Version        : 1.14
```
+  Untuk detail API, lihat [DeleteNodegroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-EKSResourceTag`
<a name="eks_UntagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-EKSResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini menghapus tag tertentu dari sumber daya EKS.**  

```
Remove-EKSResourceTag -ResourceArn "arn:aws:eks:us-west-2:012345678912:cluster/PROD" -TagKey "Name"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-EKSResourceTag (UntagResource)" on target "arn:aws:eks:us-west-2:012345678912:cluster/PROD".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-EKSClusterConfig`
<a name="eks_UpdateClusterConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-EKSClusterConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui konfigurasi klaster Amazon EKS. Cluster Anda terus berfungsi selama pembaruan.**  

```
Update-EKSClusterConfig -Name "PROD" -Logging_ClusterLogging @{Types="api","audit","authenticator","controllerManager","scheduler",Enabled="True"}
```
**Output:**  

```
CreatedAt : 12/25/2019 5:03:07 PM
Errors    : {}
Id        : ee708232-7d2e-4ed7-9270-d0b5176f0726
Params    : {Amazon.EKS.Model.UpdateParam}
Status    : InProgress
Type      : LoggingUpdate
```
+  Untuk detail API, lihat [UpdateClusterConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-EKSClusterVersion`
<a name="eks_UpdateClusterVersion_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-EKSClusterVersion`.

**Alat untuk PowerShell V5**  
**Contoh 1: Cmdlet ini memperbarui klaster Amazon EKS ke versi Kubernetes yang ditentukan. Cluster Anda terus berfungsi selama pembaruan.**  

```
Update-EKSClusterVersion -Name "PROD-KUBE-CL" -Version 1.14
```
**Output:**  

```
CreatedAt : 12/26/2019 9:50:37 AM
Errors    : {}
Id        : ef186eff-3b3a-4c25-bcfc-3dcdf9e898a8
Params    : {Amazon.EKS.Model.UpdateParam, Amazon.EKS.Model.UpdateParam}
Status    : InProgress
Type      : VersionUpdate
```
+  Untuk detail API, lihat [UpdateClusterVersion](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Elastic Load Balancing - Contoh versi 1 menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_elastic-load-balancing_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Elastic Load Balancing - Versi 1.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-ELBLoadBalancerToSubnet`
<a name="elastic-load-balancing_AttachLoadBalancerToSubnets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ELBLoadBalancerToSubnet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan subnet yang ditentukan ke set subnet yang dikonfigurasi untuk penyeimbang beban yang ditentukan. Outputnya mencakup daftar lengkap subnet.**  

```
Add-ELBLoadBalancerToSubnet -LoadBalancerName my-load-balancer -Subnet subnet-12345678
```
**Output:**  

```
subnet-12345678
subnet-87654321
```
+  Untuk detail API, lihat [AttachLoadBalancerToSubnets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-ELBResourceTag`
<a name="elastic-load-balancing_AddTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ELBResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan tag yang ditentukan ke penyeimbang beban yang ditentukan. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Add-ELBResourceTag -LoadBalancerName my-load-balancer -Tag @{ Key="project";Value="lima" },@{ Key="department";Value="digital-media" }
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.ElasticLoadBalancing.Model.Tag
$tag.Key = "project"
$tag.Value = "lima"
Add-ELBResourceTag -LoadBalancerName my-load-balancer -Tag $tag
```
+  Untuk detail API, lihat [AddTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-ELBAvailabilityZoneForLoadBalancer`
<a name="elastic-load-balancing_DisableAvailabilityZonesForLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-ELBAvailabilityZoneForLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus Availability Zone yang ditentukan dari load balancer yang ditentukan. Outputnya mencakup Availability Zone yang tersisa.**  

```
Disable-ELBAvailabilityZoneForLoadBalancer -LoadBalancerName my-load-balancer -AvailabilityZone us-west-2a
```
**Output:**  

```
us-west-2b
```
+  Untuk detail API, lihat [DisableAvailabilityZonesForLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Dismount-ELBLoadBalancerFromSubnet`
<a name="elastic-load-balancing_DetachLoadBalancerFromSubnets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Dismount-ELBLoadBalancerFromSubnet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus subnet yang ditentukan dari kumpulan subnet yang dikonfigurasi untuk penyeimbang beban yang ditentukan. Outputnya termasuk subnet yang tersisa.**  

```
Dismount-ELBLoadBalancerFromSubnet -LoadBalancerName my-load-balancer -Subnet subnet-12345678
```
**Output:**  

```
subnet-87654321
```
+  Untuk detail API, lihat [DetachLoadBalancerFromSubnets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-ELBLoadBalancerAttribute`
<a name="elastic-load-balancing_ModifyLoadBalancerAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELBLoadBalancerAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan penyeimbangan beban lintas zona untuk penyeimbang beban yang ditentukan.**  

```
Edit-ELBLoadBalancerAttribute -LoadBalancerName my-load-balancer -CrossZoneLoadBalancing_Enabled $true
```
**Contoh 2: Contoh ini menonaktifkan pengurasan koneksi untuk penyeimbang beban yang ditentukan.**  

```
Edit-ELBLoadBalancerAttribute -LoadBalancerName my-load-balancer -ConnectionDraining_Enabled $false
```
**Contoh 3: Contoh ini memungkinkan pencatatan akses untuk penyeimbang beban yang ditentukan.**  

```
Edit-ELBLoadBalancerAttribute -LoadBalancerName my-load-balancer `
>> -AccessLog_Enabled $true `
>> -AccessLog_S3BucketName amzn-s3-demo-logging-bucket `
>> -AccessLog_S3BucketPrefix my-app/prod `
>> -AccessLog_EmitInterval 60
```
+  Untuk detail API, lihat [ModifyLoadBalancerAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-ELBAvailabilityZoneForLoadBalancer`
<a name="elastic-load-balancing_EnableAvailabilityZonesForLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-ELBAvailabilityZoneForLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan Availability Zone yang ditentukan ke load balancer yang ditentukan. Outputnya mencakup daftar lengkap Availability Zones.**  

```
Enable-ELBAvailabilityZoneForLoadBalancer -LoadBalancerName my-load-balancer -AvailabilityZone us-west-2a
```
**Output:**  

```
us-west-2a
us-west-2b
```
+  Untuk detail API, lihat [EnableAvailabilityZonesForLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELBInstanceHealth`
<a name="elastic-load-balancing_DescribeInstanceHealth_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBInstanceHealth`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan keadaan instance yang terdaftar dengan penyeimbang beban yang ditentukan.**  

```
Get-ELBInstanceHealth -LoadBalancerName my-load-balancer
```
**Output:**  

```
Description                   InstanceId                    ReasonCode                    State
-----------                   ----------                    ----------                    -----
N/A                           i-87654321                    N/A                           InService
Instance has failed at lea... i-12345678                    Instance                      OutOfService
```
**Contoh 2: Contoh ini menjelaskan keadaan instance tertentu yang terdaftar dengan penyeimbang beban yang ditentukan.**  

```
Get-ELBInstanceHealth -LoadBalancerName my-load-balancer -Instance i-12345678
```
**Contoh 3: Contoh ini menampilkan deskripsi lengkap dari keadaan contoh yang ditentukan.**  

```
(Get-ELBInstanceHealth -LoadBalancerName my-load-balancer -Instance i-12345678).Description
```
**Output:**  

```
Instance has failed at least the UnhealthyThreshold number of health checks consecutively.
```
+  Untuk detail API, lihat [DescribeInstanceHealth](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELBLoadBalancer`
<a name="elastic-load-balancing_DescribeLoadBalancers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan nama penyeimbang beban Anda.**  

```
Get-ELBLoadBalancer | format-table -property LoadBalancerName
```
**Output:**  

```
LoadBalancerName
----------------
my-load-balancer
my-other-load-balancer
my-internal-load-balancer
```
**Contoh 2: Contoh ini menjelaskan penyeimbang beban yang ditentukan.**  

```
Get-ELBLoadBalancer -LoadBalancerName my-load-balancer
```
**Output:**  

```
AvailabilityZones         : {us-west-2a, us-west-2b}
BackendServerDescriptions : {Amazon.ElasticLoadBalancing.Model.BackendServerDescription}
CanonicalHostedZoneName   : my-load-balancer-1234567890.us-west-2.elb.amazonaws.com
CanonicalHostedZoneNameID : Z3DZXE0EXAMPLE
CreatedTime               : 4/11/2015 12:12:45 PM
DNSName                   : my-load-balancer-1234567890.us-west-2.elb.amazonaws.com
HealthCheck               : Amazon.ElasticLoadBalancing.Model.HealthCheck
Instances                 : {i-207d9717, i-afefb49b}
ListenerDescriptions      : {Amazon.ElasticLoadBalancing.Model.ListenerDescription}
LoadBalancerName          : my-load-balancer
Policies                  : Amazon.ElasticLoadBalancing.Model.Policies
Scheme                    : internet-facing
SecurityGroups            : {sg-a61988c3}
SourceSecurityGroup       : Amazon.ElasticLoadBalancing.Model.SourceSecurityGroup
Subnets                   : {subnet-15aaab61}
VPCId                     : vpc-a01106c2
```
**Contoh 3: Contoh ini menjelaskan semua penyeimbang beban Anda di wilayah saat ini AWS .**  

```
Get-ELBLoadBalancer
```
**Contoh 4: Contoh ini menjelaskan semua penyeimbang beban Anda di semua yang tersedia. Wilayah AWS**  

```
Get-AWSRegion | % { Get-ELBLoadBalancer -Region $_ }
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELBLoadBalancerAttribute`
<a name="elastic-load-balancing_DescribeLoadBalancerAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBLoadBalancerAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan atribut untuk penyeimbang beban yang ditentukan.**  

```
Get-ELBLoadBalancerAttribute -LoadBalancerName my-load-balancer
```
**Output:**  

```
AccessLog              : Amazon.ElasticLoadBalancing.Model.AccessLog
AdditionalAttributes   : {}
ConnectionDraining     : Amazon.ElasticLoadBalancing.Model.ConnectionDraining
ConnectionSettings     : Amazon.ElasticLoadBalancing.Model.ConnectionSettings
CrossZoneLoadBalancing : Amazon.ElasticLoadBalancing.Model.CrossZoneLoadBalancing
```
+  Untuk detail API, lihat [DescribeLoadBalancerAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELBLoadBalancerPolicy`
<a name="elastic-load-balancing_DescribeLoadBalancerPolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBLoadBalancerPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan kebijakan yang terkait dengan penyeimbang beban yang ditentukan.**  

```
Get-ELBLoadBalancerPolicy -LoadBalancerName my-load-balancer
```
**Output:**  

```
PolicyAttributeDescriptions             PolicyName                              PolicyTypeName
---------------------------             ----------                              --------------
{ProxyProtocol}                         my-ProxyProtocol-policy                 ProxyProtocolPolicyType
{CookieName}                            my-app-cookie-policy                    AppCookieStickinessPolicyType
```
**Contoh 2: Contoh ini menjelaskan atribut kebijakan yang ditentukan.**  

```
(Get-ELBLoadBalancerPolicy -LoadBalancerName my-load-balancer -PolicyName my-ProxyProtocol-policy).PolicyAttributeDescriptions
```
**Output:**  

```
AttributeName    AttributeValue
-------------    --------------
ProxyProtocol    true
```
**Contoh 3: Contoh ini menjelaskan kebijakan yang telah ditentukan sebelumnya, termasuk kebijakan sampel. Nama-nama kebijakan sampel memiliki awalan ELBSample -.**  

```
Get-ELBLoadBalancerPolicy
```
**Output:**  

```
PolicyAttributeDescriptions             PolicyName                              PolicyTypeName
---------------------------             ----------                              --------------
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2015-05               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2015-03               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2015-02               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2014-10               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2014-01               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSecurityPolicy-2011-08               SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSample-ELBDefaultCipherPolicy        SSLNegotiationPolicyType
{Protocol-SSLv2, Protocol-TLSv1, Pro... ELBSample-OpenSSLDefaultCipherPolicy    SSLNegotiationPolicyType
```
+  Untuk detail API, lihat [DescribeLoadBalancerPolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELBLoadBalancerPolicyType`
<a name="elastic-load-balancing_DescribeLoadBalancerPolicyTypes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBLoadBalancerPolicyType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan tipe kebijakan yang didukung oleh Elastic Load Balancing.**  

```
Get-ELBLoadBalancerPolicyType
```
**Output:**  

```
Description                             PolicyAttributeTypeDescriptions         PolicyTypeName
-----------                             -------------------------------         --------------
Stickiness policy with session lifet... {CookieExpirationPeriod}                LBCookieStickinessPolicyType
Policy that controls authentication ... {PublicKeyPolicyName}                   BackendServerAuthenticationPolicyType
Listener policy that defines the cip... {Protocol-SSLv2, Protocol-TLSv1, Pro... SSLNegotiationPolicyType
Policy containing a list of public k... {PublicKey}                             PublicKeyPolicyType
Stickiness policy with session lifet... {CookieName}                            AppCookieStickinessPolicyType
Policy that controls whether to incl... {ProxyProtocol}                         ProxyProtocolPolicyType
```
**Contoh 2: Contoh ini menjelaskan jenis kebijakan yang ditentukan.**  

```
Get-ELBLoadBalancerPolicyType -PolicyTypeName ProxyProtocolPolicyType
```
**Output:**  

```
Description                             PolicyAttributeTypeDescriptions         PolicyTypeName
-----------                             -------------------------------         --------------
Policy that controls whether to incl... {ProxyProtocol}                         ProxyProtocolPolicyType
```
**Contoh 3: Contoh ini menampilkan deskripsi lengkap dari jenis kebijakan yang ditentukan.**  

```
(Get-ELBLoadBalancerPolicyType -PolicyTypeName).Description
```
**Output:**  

```
Policy that controls whether to include the IP address and port of the originating request for TCP messages. 
This policy operates on TCP/SSL listeners only
```
+  Untuk detail API, lihat [DescribeLoadBalancerPolicyTypes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELBResourceTag`
<a name="elastic-load-balancing_DescribeTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELBResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan tag untuk penyeimbang beban yang ditentukan.**  

```
Get-ELBResourceTag -LoadBalancerName @("my-load-balancer","my-internal-load-balancer")
```
**Output:**  

```
LoadBalancerName             Tags
----------------             ----
my-load-balancer             {project, department}
my-internal-load-balancer    {project, department}
```
**Contoh 2: Contoh ini menjelaskan tag untuk penyeimbang beban yang ditentukan.**  

```
(Get-ELBResourceTag -LoadBalancerName my-load-balancer).Tags
```
**Output:**  

```
Key           Value
---           -----
project       lima
department    digital-media
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Join-ELBSecurityGroupToLoadBalancer`
<a name="elastic-load-balancing_ApplySecurityGroupsToLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Join-ELBSecurityGroupToLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menggantikan grup keamanan saat ini untuk penyeimbang beban yang ditentukan dengan grup keamanan yang ditentukan.**  

```
Join-ELBSecurityGroupToLoadBalancer -LoadBalancerName my-load-balancer -SecurityGroup sg-87654321
```
**Output:**  

```
sg-87654321
```
**Contoh 2: Untuk menjaga grup keamanan saat ini dan menentukan grup keamanan tambahan, tentukan grup keamanan yang ada dan yang baru.**  

```
Join-ELBSecurityGroupToLoadBalancer -LoadBalancerName my-load-balancer -SecurityGroup @("sg-12345678", "sg-87654321")
```
**Output:**  

```
sg-12345678
sg-87654321
```
+  Untuk detail API, lihat [ApplySecurityGroupsToLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELBAppCookieStickinessPolicy`
<a name="elastic-load-balancing_CreateAppCookieStickinessPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBAppCookieStickinessPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kebijakan lengket yang mengikuti masa pakai sesi lengket dari cookie yang dihasilkan aplikasi tertentu.**  

```
New-ELBAppCookieStickinessPolicy -LoadBalancerName my-load-balancer -PolicyName my-app-cookie-policy -CookieName my-app-cookie
```
+  Untuk detail API, lihat [CreateAppCookieStickinessPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELBLBCookieStickinessPolicy`
<a name="elastic-load-balancing_CreateLbCookieStickinessPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBLBCookieStickinessPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kebijakan lengket dengan masa pakai sesi lengket yang dikendalikan oleh periode kedaluwarsa yang ditentukan (dalam hitungan detik).**  

```
New-ELBLBCookieStickinessPolicy -LoadBalancerName my-load-balancer -PolicyName my-duration-cookie-policy -CookieExpirationPeriod 60
```
**Contoh 2: Contoh ini membuat kebijakan lengket dengan masa pakai sesi lengket yang dikendalikan oleh masa pakai browser (agen pengguna).**  

```
New-ELBLBCookieStickinessPolicy -LoadBalancerName my-load-balancer -PolicyName my-duration-cookie-policy
```
+  Untuk detail API, lihat [CreateLbCookieStickinessPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELBLoadBalancer`
<a name="elastic-load-balancing_CreateLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat penyeimbang beban dengan pendengar HTTP di VPC.**  

```
$httpListener = New-Object Amazon.ElasticLoadBalancing.Model.Listener
$httpListener.Protocol = "http"
$httpListener.LoadBalancerPort = 80
$httpListener.InstanceProtocol = "http"
$httpListener.InstancePort = 80
New-ELBLoadBalancer -LoadBalancerName my-vpc-load-balancer -SecurityGroup sg-a61988c3 -Subnet subnet-15aaab61 -Listener $httpListener

my-vpc-load-balancer-1234567890.us-west-2.elb.amazonaws.com
```
**Contoh 2: Contoh ini membuat penyeimbang beban dengan pendengar HTTP di EC2-Classic.**  

```
New-ELBLoadBalancer -LoadBalancerName my-classic-load-balancer -AvailabilityZone us-west-2a` -Listener $httpListener
```
**Output:**  

```
my-classic-load-balancer-123456789.us-west-2.elb.amazonaws.com
```
**Contoh 3: Contoh ini membuat penyeimbang beban dengan pendengar HTTPS.**  

```
$httpsListener = New-Object Amazon.ElasticLoadBalancing.Model.Listener
$httpsListener.Protocol = "https"
$httpsListener.LoadBalancerPort = 443
$httpsListener.InstanceProtocol = "http"
$httpsListener.InstancePort = 80 
$httpsListener.SSLCertificateId="arn:aws:iam::123456789012:server-certificate/my-server-cert"
New-ELBLoadBalancer -LoadBalancerName my-load-balancer -AvailabilityZone us-west-2a -Listener $httpsListener

my-load-balancer-123456789.us-west-2.elb.amazonaws.com
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELBLoadBalancerListener`
<a name="elastic-load-balancing_CreateLoadBalancerListeners_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBLoadBalancerListener`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan pendengar HTTPS ke penyeimbang beban yang ditentukan.**  

```
$httpsListener = New-Object Amazon.ElasticLoadBalancing.Model.Listener
$httpsListener.Protocol = "https"
$httpsListener.LoadBalancerPort = 443
$httpsListener.InstanceProtocol = "https"
$httpsListener.InstancePort = 443 
$httpsListener.SSLCertificateId="arn:aws:iam::123456789012:server-certificate/my-server-cert"
New-ELBLoadBalancerListener -LoadBalancerName my-load-balancer -Listener $httpsListener
```
+  Untuk detail API, lihat [CreateLoadBalancerListeners](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELBLoadBalancerPolicy`
<a name="elastic-load-balancing_CreateLoadBalancerPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELBLoadBalancerPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kebijakan protokol proxy baru untuk penyeimbang beban tertentu.**  

```
$attribute = New-Object Amazon.ElasticLoadBalancing.Model.PolicyAttribute -Property @{
         AttributeName="ProxyProtocol"
         AttributeValue="True"
    }
New-ELBLoadBalancerPolicy -LoadBalancerName my-load-balancer -PolicyName my-ProxyProtocol-policy -PolicyTypeName ProxyProtocolPolicyType -PolicyAttribute $attribute
```
+  Untuk detail API, lihat [CreateLoadBalancerPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-ELBInstanceWithLoadBalancer`
<a name="elastic-load-balancing_RegisterInstancesWithLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-ELBInstanceWithLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan instans EC2 yang ditentukan dengan penyeimbang beban yang ditentukan.**  

```
Register-ELBInstanceWithLoadBalancer -LoadBalancerName my-load-balancer -Instance i-12345678
```
**Output:**  

```
InstanceId
----------
i-12345678
i-87654321
```
+  Untuk detail API, lihat [RegisterInstancesWithLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELBInstanceFromLoadBalancer`
<a name="elastic-load-balancing_DeregisterInstancesFromLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBInstanceFromLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus instans EC2 yang ditentukan dari penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-ELBInstanceFromLoadBalancer -LoadBalancerName my-load-balancer -Instance i-12345678
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ELBInstanceFromLoadBalancer (DeregisterInstancesFromLoadBalancer)" on Target
"Amazon.ElasticLoadBalancing.Model.Instance".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):

InstanceId
----------
i-87654321
```
+  Untuk detail API, lihat [DeregisterInstancesFromLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELBLoadBalancer`
<a name="elastic-load-balancing_DeleteLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBLoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-ELBLoadBalancer -LoadBalancerName my-load-balancer
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ELBLoadBalancer (DeleteLoadBalancer)" on Target "my-load-balancer".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELBLoadBalancerListener`
<a name="elastic-load-balancing_DeleteLoadBalancerListeners_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBLoadBalancerListener`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus pendengar pada port 80 untuk penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-ELBLoadBalancerListener -LoadBalancerName my-load-balancer -LoadBalancerPort 80
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ELBLoadBalancerListener (DeleteLoadBalancerListeners)" on Target "80".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteLoadBalancerListeners](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELBLoadBalancerPolicy`
<a name="elastic-load-balancing_DeleteLoadBalancerPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBLoadBalancerPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus kebijakan yang ditentukan dari penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force.**  

```
Remove-ELBLoadBalancerPolicy -LoadBalancerName my-load-balancer -PolicyName my-duration-cookie-policy
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing operation "Remove-ELBLoadBalancerPolicy (DeleteLoadBalancerPolicy)" on Target "my-duration-cookie-policy".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
+  Untuk detail API, lihat [DeleteLoadBalancerPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELBResourceTag`
<a name="elastic-load-balancing_RemoveTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELBResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag yang ditentukan dari penyeimbang beban yang ditentukan. Anda diminta untuk konfirmasi sebelum operasi berlangsung, kecuali jika Anda juga menentukan parameter Force. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
Remove-ELBResourceTag -LoadBalancerName my-load-balancer -Tag @{ Key="project" }
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELBResourceTag (RemoveTags)" on target "Amazon.ElasticLoadBalancing.Model.TagKeyOnly".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"):
```
**Contoh 2: Dengan Powershell versi 2, Anda harus menggunakan New-Object untuk membuat tag untuk parameter Tag.**  

```
$tag = New-Object Amazon.ElasticLoadBalancing.Model.TagKeyOnly
$tag.Key = "project"
Remove-ELBResourceTag -Tag $tag -Force
```
+  Untuk detail API, lihat [RemoveTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ELBHealthCheck`
<a name="elastic-load-balancing_ConfigureHealthCheck_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELBHealthCheck`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengonfigurasi pengaturan pemeriksaan kesehatan untuk penyeimbang beban yang ditentukan.**  

```
Set-ELBHealthCheck -LoadBalancerName my-load-balancer `
>> -HealthCheck_HealthyThreshold 2 `
>> -HealthCheck_UnhealthyThreshold 2 `
>> -HealthCheck_Target "HTTP:80/ping" `
>> -HealthCheck_Interval 30 `
>> -HealthCheck_Timeout 3
```
**Output:**  

```
HealthyThreshold   : 2
Interval           : 30
Target             : HTTP:80/ping
Timeout            : 3
UnhealthyThreshold : 2
```
+  Untuk detail API, lihat [ConfigureHealthCheck](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ELBLoadBalancerListenerSSLCertificate`
<a name="elastic-load-balancing_SetLoadBalancerListenerSslCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELBLoadBalancerListenerSSLCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menggantikan sertifikat yang mengakhiri koneksi SSL untuk pendengar yang ditentukan.**  

```
Set-ELBLoadBalancerListenerSSLCertificate -LoadBalancerName my-load-balancer `
>> -LoadBalancerPort 443 `
>> -SSLCertificateId "arn:aws:iam::123456789012:server-certificate/new-server-cert"
```
+  Untuk detail API, lihat [SetLoadBalancerListenerSslCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ELBLoadBalancerPolicyForBackendServer`
<a name="elastic-load-balancing_SetLoadBalancerPoliciesForBackendServer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELBLoadBalancerPolicyForBackendServer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menggantikan kebijakan untuk port yang ditentukan dengan kebijakan yang ditentukan.**  

```
Set-ELBLoadBalancerPolicyForBackendServer -LoadBalancerName my-load-balancer -InstancePort 80 -PolicyName my-ProxyProtocol-policy
```
**Contoh 2: Contoh ini menghapus semua kebijakan yang terkait dengan port yang ditentukan.**  

```
Set-ELBLoadBalancerPolicyForBackendServer -LoadBalancerName my-load-balancer -InstancePort 80
```
+  Untuk detail API, lihat [SetLoadBalancerPoliciesForBackendServer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ELBLoadBalancerPolicyOfListener`
<a name="elastic-load-balancing_SetLoadBalancerPoliciesOfListener_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELBLoadBalancerPolicyOfListener`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menggantikan kebijakan untuk listener tertentu dengan kebijakan yang ditentukan.**  

```
Set-ELBLoadBalancerPolicyOfListener -LoadBalancerName my-load-balancer -LoadBalancerPort 443 -PolicyName my-SSLNegotiation-policy
```
**Contoh 2: Contoh ini menghapus semua kebijakan yang terkait dengan listener tertentu.**  

```
Set-ELBLoadBalancerPolicyOfListener -LoadBalancerName my-load-balancer -LoadBalancerPort 443
```
+  Untuk detail API, lihat [SetLoadBalancerPoliciesOfListener](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Elastic Load Balancing - Contoh versi 2 menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_elastic-load-balancing-v2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Elastic Load Balancing - Versi 2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-ELB2ListenerCertificate`
<a name="elastic-load-balancing-v2_AddListenerCertificates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ELB2ListenerCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan sertifikat tambahan ke Listener yang ditentukan.**  

```
Add-ELB2ListenerCertificate -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618' -Certificate @{CertificateArn = 'arn:aws:acm:us-east-1:123456789012:certificate/19478bd5-491d-47d4-b1d7-5217feba1d97'}
```
**Output:**  

```
CertificateArn                                                                      IsDefault
--------------                                                                      ---------
arn:aws:acm:us-east-1:123456789012:certificate/19478bd5-491d-47d4-b1d7-5217feba1d97 False
```
+  Untuk detail API, lihat [AddListenerCertificates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-ELB2Tag`
<a name="elastic-load-balancing-v2_AddTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ELB2Tag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan Tag baru ke `AWS.Tools.ElasticLoadBalancingV2` sumber daya tertentu.**  

```
Add-ELB2Tag -ResourceArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -Tag @{Key = 'productVersion'; Value = '1.0.0'}
```
+  Untuk detail API, lihat [AddTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-ELB2Listener`
<a name="elastic-load-balancing-v2_ModifyListener_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2Listener`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah tindakan default listener yang ditentukan menjadi respons tetap.**  

```
$newDefaultAction = [Amazon.ElasticLoadBalancingV2.Model.Action]@{
    "FixedResponseConfig" = @{
    "ContentType" = "text/plain"
    "MessageBody" = "Hello World"
    "StatusCode" = "200"
  }
  "Type" = [Amazon.ElasticLoadBalancingV2.ActionTypeEnum]::FixedResponse
}

Edit-ELB2Listener -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/testALB/3e2f03b558e19676/d19f2f14974db685' -Port 8080 -DefaultAction $newDefaultAction
```
**Output:**  

```
Certificates    : {}
DefaultActions  : {Amazon.ElasticLoadBalancingV2.Model.Action}
ListenerArn     : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/testALB/3e2f03b558e19676/d19f2f14974db685
LoadBalancerArn : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/testALB/3e2f03b558e19676
Port            : 8080
Protocol        : HTTP
SslPolicy       :
```
+  Untuk detail API, lihat [ModifyListener](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-ELB2LoadBalancerAttribute`
<a name="elastic-load-balancing-v2_ModifyLoadBalancerAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2LoadBalancerAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi Atribut penyeimbang beban yang ditentukan.**  

```
Edit-ELB2LoadBalancerAttribute -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -Attribute @{Key = 'deletion_protection.enabled'; Value = 'true'}
```
**Output:**  

```
Key                                             Value
---                                             -----
deletion_protection.enabled                     true
access_logs.s3.enabled                          false
access_logs.s3.bucket
access_logs.s3.prefix
idle_timeout.timeout_seconds                    60
routing.http2.enabled                           true
routing.http.drop_invalid_header_fields.enabled false
```
+  Untuk detail API, lihat [ModifyLoadBalancerAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-ELB2Rule`
<a name="elastic-load-balancing-v2_ModifyRule_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2Rule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi konfigurasi aturan Listener yang ditentukan.**  

```
$newRuleCondition = [Amazon.ElasticLoadBalancingV2.Model.RuleCondition]@{
    "PathPatternConfig" = @{
    "Values" = "/login1","/login2","/login3" 
  }
  "Field" = "path-pattern"
}

Edit-ELB2Rule -RuleArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/testALB/3e2f03b558e19676/1c84f02aec143e80/f4f51dfaa033a8cc' -Condition $newRuleCondition
```
**Output:**  

```
Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 10
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/testALB/3e2f03b558e19676/1c84f02aec143e80/f4f51dfaa033a8cc
```
+  Untuk detail API, lihat [ModifyRule](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-ELB2TargetGroup`
<a name="elastic-load-balancing-v2_ModifyTargetGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2TargetGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi properti Grup Target yang ditentukan.**  

```
Edit-ELB2TargetGroup -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970' -HealthCheckIntervalSecond 60 -HealthCheckPath '/index.html' -HealthCheckPort 8080
```
**Output:**  

```
HealthCheckEnabled         : True
HealthCheckIntervalSeconds : 60
HealthCheckPath            : /index.html
HealthCheckPort            : 8080
HealthCheckProtocol        : HTTP
HealthCheckTimeoutSeconds  : 5
HealthyThresholdCount      : 5
LoadBalancerArns           : {}
Matcher                    : Amazon.ElasticLoadBalancingV2.Model.Matcher
Port                       : 80
Protocol                   : HTTP
TargetGroupArn             : arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970
TargetGroupName            : test-tg
TargetType                 : instance
UnhealthyThresholdCount    : 2
VpcId                      : vpc-2cfd7000
```
+  Untuk detail API, lihat [ModifyTargetGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-ELB2TargetGroupAttribute`
<a name="elastic-load-balancing-v2_ModifyTargetGroupAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-ELB2TargetGroupAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi atribut deregistration\$1delay dari Grup Target yang ditentukan.**  

```
Edit-ELB2TargetGroupAttribute -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970' -Attribute @{Key = 'deregistration_delay.timeout_seconds'; Value = 600}
```
**Output:**  

```
Key                                   Value
---                                   -----
stickiness.enabled                    false
deregistration_delay.timeout_seconds  600
stickiness.type                       lb_cookie
stickiness.lb_cookie.duration_seconds 86400
slow_start.duration_seconds           0
load_balancing.algorithm.type         round_robin
```
+  Untuk detail API, lihat [ModifyTargetGroupAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2AccountLimit`
<a name="elastic-load-balancing-v2_DescribeAccountLimits_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2AccountLimit`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mencantumkan batas ELB2 akun untuk wilayah tertentu.**  

```
Get-ELB2AccountLimit
```
**Output:**  

```
Max  Name
---  ----
3000 target-groups
1000 targets-per-application-load-balancer
50   listeners-per-application-load-balancer
100  rules-per-application-load-balancer
50   network-load-balancers
3000 targets-per-network-load-balancer
500  targets-per-availability-zone-per-network-load-balancer
50   listeners-per-network-load-balancer
5    condition-values-per-alb-rule
5    condition-wildcards-per-alb-rule
100  target-groups-per-application-load-balancer
5    target-groups-per-action-on-application-load-balancer
1    target-groups-per-action-on-network-load-balancer
50   application-load-balancers
```
+  Untuk detail API, lihat [DescribeAccountLimits](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2Listener`
<a name="elastic-load-balancing-v2_DescribeListeners_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2Listener`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan pendengar dari ALB/NLB yang ditentukan.**  

```
Get-ELB2Listener -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f'
```
**Output:**  

```
Certificates    : {}
DefaultActions  : {Amazon.ElasticLoadBalancingV2.Model.Action}
ListenerArn     : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/1dac07c21187d41e
LoadBalancerArn : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f
Port            : 80
Protocol        : HTTP
SslPolicy       : 

Certificates    : {Amazon.ElasticLoadBalancingV2.Model.Certificate}
DefaultActions  : {Amazon.ElasticLoadBalancingV2.Model.Action}
ListenerArn     : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b
LoadBalancerArn : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f
Port            : 443
Protocol        : HTTPS
SslPolicy       : ELBSecurityPolicy-2016-08
```
+  Untuk detail API, lihat [DescribeListeners](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2ListenerCertificate`
<a name="elastic-load-balancing-v2_DescribeListenerCertificates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2ListenerCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan sertifikat untuk pendengar yang ditentukan.**  

```
Get-ELB2ListenerCertificate -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b'
```
**Output:**  

```
CertificateArn                                                                      IsDefault
--------------                                                                      ---------
arn:aws:acm:us-east-1:123456789012:certificate/5fc7c092-68bf-4862-969c-22fd48b6e17c True
```
+  Untuk detail API, lihat [DescribeListenerCertificates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2LoadBalancer`
<a name="elastic-load-balancing-v2_DescribeLoadBalancers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2LoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan semua penyeimbang beban untuk wilayah tertentu.**  

```
Get-ELB2LoadBalancer
```
**Output:**  

```
AvailabilityZones     : {us-east-1c}
CanonicalHostedZoneId : Z26RNL4JYFTOTI
CreatedTime           : 6/22/18 11:21:50 AM
DNSName               : test-elb1234567890-238d34ad8d94bc2e.elb.us-east-1.amazonaws.com
IpAddressType         : ipv4
LoadBalancerArn       : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/test-elb1234567890/238d34ad8d94bc2e
LoadBalancerName      : test-elb1234567890
Scheme                : internet-facing
SecurityGroups        : {}
State                 : Amazon.ElasticLoadBalancingV2.Model.LoadBalancerState
Type                  : network
VpcId                 : vpc-2cf00000
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2LoadBalancerAttribute`
<a name="elastic-load-balancing-v2_DescribeLoadBalancerAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2LoadBalancerAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menjelaskan atribut Load balancer yang diberikan.**  

```
Get-ELB2LoadBalancerAttribute -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/net/test-elb/238d34ad8d94bc2e'
```
**Output:**  

```
Key                               Value
---                               -----
access_logs.s3.enabled            false
load_balancing.cross_zone.enabled true
access_logs.s3.prefix             
deletion_protection.enabled       false
access_logs.s3.bucket
```
+  Untuk detail API, lihat [DescribeLoadBalancerAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2Rule`
<a name="elastic-load-balancing-v2_DescribeRules_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2Rule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan aturan listener untuk ARN Listener yang ditentukan.**  

```
Get-ELB2Rule -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b'
```
**Output:**  

```
Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 1
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b/2286fff5055e0f79

Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 2
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b/14e7b036567623ba

Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {}
IsDefault  : True
Priority   : default
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b/853948cf3aa9b2bf
```
+  Untuk detail API, lihat [DescribeRules](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2SSLPolicy`
<a name="elastic-load-balancing-v2_DescribeSslPolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2SSLPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua kebijakan pendengar yang tersedia untuk ElasticLoadBalancing V2.**  

```
Get-ELB2SSLPolicy
```
**Output:**  

```
Ciphers                                                                                                           Name                                  SslProtocols
-------                                                                                                           ----                                  ------------
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-2016-08             {TLSv1, TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-TLS-1-2-2017-01     {TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-TLS-1-1-2017-01     {TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-TLS-1-2-Ext-2018-06 {TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-FS-2018-06          {TLSv1, TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-2015-05             {TLSv1, TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-TLS-1-0-2015-04     {TLSv1, TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-FS-1-2-Res-2019-08  {TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-FS-1-1-2019-08      {TLSv1.1, TLSv1.2}
{ECDHE-ECDSA-AES128-GCM-SHA256, ECDHE-RSA-AES128-GCM-SHA256, ECDHE-ECDSA-AES128-SHA256, ECDHE-RSA-AES128-SHA256} ELBSecurityPolicy-FS-1-2-2019-08      {TLSv1.2}
```
+  Untuk detail API, lihat [DescribeSslPolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2Tag`
<a name="elastic-load-balancing-v2_DescribeTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2Tag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan Tag untuk sumber daya yang ditentukan.**  

```
Get-ELB2Tag -ResourceArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f'
```
**Output:**  

```
ResourceArn                                                                                    Tags
-----------                                                                                    ----
arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f {stage, internalName, version}
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2TargetGroup`
<a name="elastic-load-balancing-v2_DescribeTargetGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2TargetGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan Grup Target yang ditentukan.**  

```
Get-ELB2TargetGroup -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970'
```
**Output:**  

```
HealthCheckEnabled         : True
HealthCheckIntervalSeconds : 30
HealthCheckPath            : /
HealthCheckPort            : traffic-port
HealthCheckProtocol        : HTTP
HealthCheckTimeoutSeconds  : 5
HealthyThresholdCount      : 5
LoadBalancerArns           : {arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f}
Matcher                    : Amazon.ElasticLoadBalancingV2.Model.Matcher
Port                       : 80
Protocol                   : HTTP
TargetGroupArn             : arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970
TargetGroupName            : test-tg
TargetType                 : instance
UnhealthyThresholdCount    : 2
VpcId                      : vpc-2cfd7000
```
+  Untuk detail API, lihat [DescribeTargetGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2TargetGroupAttribute`
<a name="elastic-load-balancing-v2_DescribeTargetGroupAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2TargetGroupAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan atribut dari Grup Target yang ditentukan.**  

```
Get-ELB2TargetGroupAttribute -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970'
```
**Output:**  

```
Key                                   Value
---                                   -----
stickiness.enabled                    false
deregistration_delay.timeout_seconds  300
stickiness.type                       lb_cookie
stickiness.lb_cookie.duration_seconds 86400
slow_start.duration_seconds           0
load_balancing.algorithm.type         round_robin
```
+  Untuk detail API, lihat [DescribeTargetGroupAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ELB2TargetHealth`
<a name="elastic-load-balancing-v2_DescribeTargetHealth_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ELB2TargetHealth`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan status kesehatan Target yang ada di Grup Target yang ditentukan.**  

```
Get-ELB2TargetHealth -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970'
```
**Output:**  

```
HealthCheckPort Target                                                TargetHealth
--------------- ------                                                ------------
80              Amazon.ElasticLoadBalancingV2.Model.TargetDescription Amazon.ElasticLoadBalancingV2.Model.TargetHealth
```
+  Untuk detail API, lihat [DescribeTargetHealth](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELB2Listener`
<a name="elastic-load-balancing-v2_CreateListener_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELB2Listener`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat pendengar ALB baru dengan tindakan default 'Teruskan' untuk mengirim lalu lintas ke Grup Target tertentu.**  

```
$defaultAction = [Amazon.ElasticLoadBalancingV2.Model.Action]@{
  ForwardConfig = @{
    TargetGroups = @(
      @{ TargetGroupArn = "arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/testAlbTG/3d61c2f20aa5bccb" }
    )
    TargetGroupStickinessConfig = @{
      DurationSeconds = 900
      Enabled = $true
    }
  }
  Type = "Forward"
}

New-ELB2Listener -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/testALB/3e2f03b558e19676' -Port 8001 -Protocol "HTTP" -DefaultAction $defaultAction
```
**Output:**  

```
Certificates    : {}
DefaultActions  : {Amazon.ElasticLoadBalancingV2.Model.Action}
ListenerArn     : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/testALB/3e2f03b558e19676/1c84f02aec143e80
LoadBalancerArn : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/testALB/3e2f03b558e19676
Port            : 8001
Protocol        : HTTP
SslPolicy       :
```
+  Untuk detail API, lihat [CreateListener](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELB2LoadBalancer`
<a name="elastic-load-balancing-v2_CreateLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELB2LoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menciptakan penyeimbang beban Aplikasi yang menghadap internet baru dengan dua subnet.**  

```
New-ELB2LoadBalancer -Type application -Scheme internet-facing -IpAddressType ipv4 -Name 'New-Test-ALB' -SecurityGroup 'sg-07c3414abb8811cbd' -subnet 'subnet-c37a67a6','subnet-fc02eea0'
```
**Output:**  

```
AvailabilityZones     : {us-east-1b, us-east-1a}
CanonicalHostedZoneId : Z35SXDOTRQ7X7K
CreatedTime           : 12/28/19 2:58:03 PM
DNSName               : New-Test-ALB-1391502222.us-east-1.elb.amazonaws.com
IpAddressType         : ipv4
LoadBalancerArn       : arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/New-Test-ALB/dab2e4d90eb51493
LoadBalancerName      : New-Test-ALB
Scheme                : internet-facing
SecurityGroups        : {sg-07c3414abb8811cbd}
State                 : Amazon.ElasticLoadBalancingV2.Model.LoadBalancerState
Type                  : application
VpcId                 : vpc-2cfd7000
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELB2Rule`
<a name="elastic-load-balancing-v2_CreateRule_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELB2Rule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat aturan Listener baru dengan tindakan respons tetap berdasarkan nilai header pelanggan untuk Listener yang ditentukan.**  

```
$newRuleAction = [Amazon.ElasticLoadBalancingV2.Model.Action]@{           
  "FixedResponseConfig" = @{
    "ContentType" = "text/plain"
    "MessageBody" = "Hello World"
    "StatusCode" = "200"
  }
  "Type" = [Amazon.ElasticLoadBalancingV2.ActionTypeEnum]::FixedResponse
}

$newRuleCondition = [Amazon.ElasticLoadBalancingV2.Model.RuleCondition]@{
  "httpHeaderConfig" = @{
    "HttpHeaderName" = "customHeader"
    "Values" = "header2","header1" 
  }         
  "Field" = "http-header"
}

New-ELB2Rule -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/testALB/3e2f03b558e19676/1c84f02aec143e80' -Action $newRuleAction -Condition $newRuleCondition -Priority 10
```
**Output:**  

```
Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 10
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/testALB/3e2f03b558e19676/1c84f02aec143e80/f4f51dfaa033a8cc
```
+  Untuk detail API, lihat [CreateRule](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ELB2TargetGroup`
<a name="elastic-load-balancing-v2_CreateTargetGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ELB2TargetGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat grup Target baru dengan parameter yang disediakan.**  

```
New-ELB2TargetGroup -HealthCheckEnabled 1 -HealthCheckIntervalSeconds 30 -HealthCheckPath '/index.html' -HealthCheckPort 80 -HealthCheckTimeoutSecond 5 -HealthyThresholdCount 2 -UnhealthyThresholdCount 5 -Port 80 -Protocol 'HTTP' -TargetType instance -VpcId 'vpc-2cfd7000' -Name 'NewTargetGroup'
```
**Output:**  

```
HealthCheckEnabled         : True
HealthCheckIntervalSeconds : 30
HealthCheckPath            : /index.html
HealthCheckPort            : 80
HealthCheckProtocol        : HTTP
HealthCheckTimeoutSeconds  : 5
HealthyThresholdCount      : 2
LoadBalancerArns           : {}
Matcher                    : Amazon.ElasticLoadBalancingV2.Model.Matcher
Port                       : 80
Protocol                   : HTTP
TargetGroupArn             : arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/NewTargetGroup/534e484681d801bf
TargetGroupName            : NewTargetGroup
TargetType                 : instance
UnhealthyThresholdCount    : 5
VpcId                      : vpc-2cfd7000
```
+  Untuk detail API, lihat [CreateTargetGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-ELB2Target`
<a name="elastic-load-balancing-v2_RegisterTargets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-ELB2Target`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan instance 'i-0672a4c4c4cdeae3111' dengan kelompok target yang ditentukan.**  

```
Register-ELB2Target -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970' -Target @{Port = 80; Id = 'i-0672a4c4cdeae3111'}
```
+  Untuk detail API, lihat [RegisterTargets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELB2Listener`
<a name="elastic-load-balancing-v2_DeleteListener_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2Listener`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus Listener yang ditentukan.**  

```
Remove-ELB2Listener -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2Listener (DeleteListener)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/66e10e3aaf5b6d9b".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
**Contoh 2: Contoh ini menghapus listener tertentu dari Load balancer.**  

```
Remove-ELB2Listener -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2Listener (DeleteListener)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [DeleteListener](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELB2ListenerCertificate`
<a name="elastic-load-balancing-v2_RemoveListenerCertificates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2ListenerCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus sertifikat tertentu dari kelompok Target yang ditentukan.**  

```
Remove-ELB2ListenerCertificate -Certificate @{CertificateArn = 'arn:aws:acm:us-east-1:123456789012:certificate/19478bd5-491d-47d4-b1d7-5217feba1d97'} -ListenerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2ListenerCertificate (RemoveListenerCertificates)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:listener/app/test-alb/3651b4394dd9a24f/3873f123b98f7618".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [RemoveListenerCertificates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELB2LoadBalancer`
<a name="elastic-load-balancing-v2_DeleteLoadBalancer_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2LoadBalancer`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus penyeimbang Load yang ditentukan.**  

```
Remove-ELB2LoadBalancer -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2LoadBalancer (DeleteLoadBalancer)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELB2Rule`
<a name="elastic-load-balancing-v2_DeleteRule_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2Rule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus aturan yang ditentukan dari Listener**  

```
Remove-ELB2Rule -RuleArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/3873f123b98f7618/4b25eb10a42e33ab'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2Rule (DeleteRule)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/3873f123b98f7618/4b25eb10a42e33ab".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [DeleteRule](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELB2Tag`
<a name="elastic-load-balancing-v2_RemoveTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2Tag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag untuk kunci yang ditentukan.**  

```
Remove-ELB2Tag -ResourceArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -TagKey 'productVersion'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2Tag (RemoveTags)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [RemoveTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-ELB2TargetGroup`
<a name="elastic-load-balancing-v2_DeleteTargetGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-ELB2TargetGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus Grup Target yang ditentukan.**  

```
Remove-ELB2TargetGroup -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/testsssss/4e0b6076bc6483a7'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-ELB2TargetGroup (DeleteTargetGroup)" on target "arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/testsssss/4e0b6076bc6483a7".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): y
```
+  Untuk detail API, lihat [DeleteTargetGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ELB2IpAddressType`
<a name="elastic-load-balancing-v2_SetIpAddressType_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELB2IpAddressType`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah jenis alamat IP Load balancer dari 'IPv4' to DualStack '.**  

```
Set-ELB2IpAddressType -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -IpAddressType dualstack
```
**Output:**  

```
Value
-----
dualstack
```
+  Untuk detail API, lihat [SetIpAddressType](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ELB2RulePriority`
<a name="elastic-load-balancing-v2_SetRulePriorities_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELB2RulePriority`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah prioritas aturan pendengar yang ditentukan.**  

```
Set-ELB2RulePriority -RulePriority -RulePriority @{Priority = 11; RuleArn = 'arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/a4eb199fa5046f80/dbf4c6dcef3ec6f8'}
```
**Output:**  

```
Actions    : {Amazon.ElasticLoadBalancingV2.Model.Action}
Conditions : {Amazon.ElasticLoadBalancingV2.Model.RuleCondition}
IsDefault  : False
Priority   : 11
RuleArn    : arn:aws:elasticloadbalancing:us-east-1:123456789012:listener-rule/app/test-alb/3651b4394dd9a24f/a4eb199fa5046f80/dbf4c6dcef3ec6f8
```
+  Untuk detail API, lihat [SetRulePriorities](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ELB2SecurityGroup`
<a name="elastic-load-balancing-v2_SetSecurityGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELB2SecurityGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan grup keamanan 'sg-07c3414abb8811cbd' ke penyeimbang Load yang ditentukan.**  

```
Set-ELB2SecurityGroup -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -SecurityGroup 'sg-07c3414abb8811cbd'
```
**Output:**  

```
sg-07c3414abb8811cbd
```
+  Untuk detail API, lihat [SetSecurityGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-ELB2Subnet`
<a name="elastic-load-balancing-v2_SetSubnets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-ELB2Subnet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memodifikasi subnet dari Load balancer yang ditentukan.**  

```
Set-ELB2Subnet -LoadBalancerArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:loadbalancer/app/test-alb/3651b4394dd9a24f' -Subnet 'subnet-7d8a0a51','subnet-c37a67a6'
```
**Output:**  

```
LoadBalancerAddresses SubnetId        ZoneName
--------------------- --------        --------
{}                    subnet-7d8a0a51 us-east-1c
{}                    subnet-c37a67a6 us-east-1b
```
+  Untuk detail API, lihat [SetSubnets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-ELB2Target`
<a name="elastic-load-balancing-v2_DeregisterTargets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-ELB2Target`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan pendaftaran instance 'i-0672a4c4c4cdeae3111' dari grup Target yang ditentukan.**  

```
$targetDescription = New-Object Amazon.ElasticLoadBalancingV2.Model.TargetDescription
$targetDescription.Id = 'i-0672a4c4cdeae3111'
Unregister-ELB2Target -Target $targetDescription -TargetGroupArn 'arn:aws:elasticloadbalancing:us-east-1:123456789012:targetgroup/test-tg/a4e04b3688be1970'
```
+  Untuk detail API, lihat [DeregisterTargets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# FSx Contoh Amazon menggunakan Alat untuk PowerShell V5
<a name="powershell_5_fsx_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon FSx.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-FSXResourceTag`
<a name="fsx_TagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-FSXResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan tag ke sumber daya yang diberikan.**  

```
Add-FSXResourceTag -ResourceARN "arn:aws:fsx:eu-west-1:123456789012:file-system/fs-01cd23bc4bdf5678a" -Tag @{Key="Users";Value="Test"}
```
**Output:**  

```
arn:aws:fsx:eu-west-1:123456789012:file-system/fs-01cd23bc4bdf5678a
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-FSXBackup`
<a name="fsx_DescribeBackups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-FSXBackup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil cadangan yang dibuat sejak kemarin untuk id sistem file yang diberikan.**  

```
Get-FSXBackup -Filter @{Name="file-system-id";Values=$fsx.FileSystemId} | Where-Object CreationTime -gt (Get-Date).AddDays(-1)
```
**Output:**  

```
BackupId        : backup-01dac234e56782bcc
CreationTime    : 6/14/2019 3:35:14 AM
FailureDetails  :
FileSystem      : Amazon.FSx.Model.FileSystem
KmsKeyId        : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-1b23-1bde-a1f1-e1234c5af123
Lifecycle       : AVAILABLE
ProgressPercent : 100
ResourceARN     : arn:aws:fsx:eu-west-1:123456789012:backup/backup-01dac234e56782bcc
Tags            : {}
Type            : AUTOMATIC
```
+  Untuk detail API, lihat [DescribeBackups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-FSXFileSystem`
<a name="fsx_DescribeFileSystems_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-FSXFileSystem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan deskripsi FileSystemId yang diberikan.**  

```
Get-FSXFileSystem -FileSystemId fs-01cd23bc4bdf5678a
```
**Output:**  

```
CreationTime         : 1/17/2019 9:55:30 AM
DNSName              : fs-01cd23bc4bdf5678a.ktmsad.local
FailureDetails       :
FileSystemId         : fs-01cd23bc4bdf5678a
FileSystemType       : WINDOWS
KmsKeyId             : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-5b67-8bde-a9f0-e1234c5af678
Lifecycle            : AVAILABLE
LustreConfiguration  :
NetworkInterfaceIds  : {eni-07d1dda1322b7e209}
OwnerId              : 123456789012
ResourceARN          : arn:aws:fsx:eu-west-1:123456789012:file-system/fs-01cd23bc4bdf5678a
StorageCapacity      : 300
SubnetIds            : {subnet-7d123456}
Tags                 : {FSx-Service}
VpcId                : vpc-41cf2b3f
WindowsConfiguration : Amazon.FSx.Model.WindowsFileSystemConfiguration
```
+  Untuk detail API, lihat [DescribeFileSystems](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-FSXResourceTagList`
<a name="fsx_ListTagsForResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-FSXResourceTagList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan tag untuk sumber daya yang disediakan arn.**  

```
Get-FSXResourceTagList -ResourceARN $fsx.ResourceARN
```
**Output:**  

```
Key         Value
---         -----
FSx-Service Windows
Users       Dev
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-FSXBackup`
<a name="fsx_CreateBackup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-FSXBackup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat cadangan dari sistem file yang diberikan.**  

```
New-FSXBackup -FileSystemId fs-0b1fac2345623456ba
```
**Output:**  

```
BackupId        : backup-0b1fac2345623456ba
CreationTime    : 6/14/2019 5:37:17 PM
FailureDetails  :
FileSystem      : Amazon.FSx.Model.FileSystem
KmsKeyId        : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-1b23-1bde-a1f3-e1234c5af678
Lifecycle       : CREATING
ProgressPercent : 0
ResourceARN     : arn:aws:fsx:eu-west-1:123456789012:backup/backup-0b1fac2345623456ba
Tags            : {}
Type            : USER_INITIATED
```
+  Untuk detail API, lihat [CreateBackup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-FSXFileSystem`
<a name="fsx_CreateFileSystem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-FSXFileSystem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat sistem file Windows 300GB baru, memungkinkan akses dari subnet yang ditentukan, yang mendukung throughput hingga 8 megabyte per detik. Sistem file baru secara otomatis bergabung ke Microsoft Active Directory yang ditentukan.**  

```
New-FSXFileSystem -FileSystemType WINDOWS -StorageCapacity 300 -SubnetId subnet-1a2b3c4d5e6f -WindowsConfiguration @{ThroughputCapacity=8;ActiveDirectoryId='d-1a2b3c4d'}
```
**Output:**  

```
CreationTime         : 12/10/2018 6:06:59 PM
DNSName              : fs-abcdef01234567890.example.com
FailureDetails       :
FileSystemId         : fs-abcdef01234567890
FileSystemType       : WINDOWS
KmsKeyId             : arn:aws:kms:us-west-2:123456789012:key/a1234567-252c-45e9-afaa-123456789abc
Lifecycle            : CREATING
LustreConfiguration  :
NetworkInterfaceIds  : {}
OwnerId              : 123456789012
ResourceARN          : arn:aws:fsx:us-west-2:123456789012:file-system/fs-abcdef01234567890
StorageCapacity      : 300
SubnetIds            : {subnet-1a2b3c4d5e6f}
Tags                 : {}
VpcId                : vpc-1a2b3c4d5e6f
WindowsConfiguration : Amazon.FSx.Model.WindowsFileSystemConfiguration
```
+  Untuk detail API, lihat [CreateFileSystem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-FSXFileSystemFromBackup`
<a name="fsx_CreateFileSystemFromBackup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-FSXFileSystemFromBackup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat sistem FSx file Amazon baru dari cadangan Amazon FSx untuk Windows File Server yang ada.**  

```
New-FSXFileSystemFromBackup -BackupId $backupID -Tag @{Key="tag:Name";Value="from-manual-backup"} -SubnetId $SubnetID -SecurityGroupId $SG_ID -WindowsConfiguration @{ThroughputCapacity=8;ActiveDirectoryId=$DirectoryID}
```
**Output:**  

```
CreationTime         : 8/8/2019 12:59:58 PM
DNSName              : fs-012ff34e56789120.ktmsad.local
FailureDetails       :
FileSystemId         : fs-012ff34e56789120
FileSystemType       : WINDOWS
KmsKeyId             : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-5b67-1bde-a2f3-e4567c8a9321
Lifecycle            : CREATING
LustreConfiguration  :
NetworkInterfaceIds  : {}
OwnerId              : 933303704102
ResourceARN          : arn:aws:fsx:eu-west-1:123456789012:file-system/fs-012ff34e56789120
StorageCapacity      : 300
SubnetIds            : {subnet-fa1ae23c}
Tags                 : {tag:Name}
VpcId                : vpc-12cf3b4f
WindowsConfiguration : Amazon.FSx.Model.WindowsFileSystemConfiguration
```
+  Untuk detail API, lihat [CreateFileSystemFromBackup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-FSXBackup`
<a name="fsx_DeleteBackup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-FSXBackup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus backup-id yang diberikan.**  

```
Remove-FSXBackup -BackupId $backupID
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-FSXBackup (DeleteBackup)" on target "backup-0bbca1e2345678e12".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

BackupId                 Lifecycle
--------                 ---------
backup-0bbca1e2345678e12 DELETED
```
+  Untuk detail API, lihat [DeleteBackup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-FSXFileSystem`
<a name="fsx_DeleteFileSystem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-FSXFileSystem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus ID sistem file FSX yang diberikan.**  

```
Remove-FSXFileSystem -FileSystemId fs-012ff34e567890120
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-FSXFileSystem (DeleteFileSystem)" on target "fs-012ff34e567890120".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

FileSystemId         Lifecycle WindowsResponse
------------         --------- ---------------
fs-012ff34e567890120 DELETING  Amazon.FSx.Model.DeleteFileSystemWindowsResponse
```
+  Untuk detail API, lihat [DeleteFileSystem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-FSXResourceTag`
<a name="fsx_UntagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-FSXResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag sumber daya untuk ARN sumber daya sistem file FSX yang diberikan.**  

```
Remove-FSXResourceTag -ResourceARN $FSX.ResourceARN -TagKey Users
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-FSXResourceTag (UntagResource)" on target "arn:aws:fsx:eu-west-1:933303704102:file-system/fs-07cd45bc6bdf2674a".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-FSXFileSystem`
<a name="fsx_UpdateFileSystem_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-FSXFileSystem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui hari penyimpanan cadangan otomatis sistem file FSX melalui UpdateFileSystemWindowsConfiguration.**  

```
$UpdateFSXWinConfig = [Amazon.FSx.Model.UpdateFileSystemWindowsConfiguration]::new()
	$UpdateFSXWinConfig.AutomaticBackupRetentionDays = 35
	Update-FSXFileSystem -FileSystemId $FSX.FileSystemId -WindowsConfiguration $UpdateFSXWinConfig
```
**Output:**  

```
CreationTime         : 1/17/2019 9:55:30 AM
DNSName              : fs-01cd23bc4bdf5678a.ktmsad.local
FailureDetails       :
FileSystemId         : fs-01cd23bc4bdf5678a
FileSystemType       : WINDOWS
KmsKeyId             : arn:aws:kms:eu-west-1:123456789012:key/f1af23c4-1b23-1bde-a1f2-e1234c5af678
Lifecycle            : AVAILABLE
LustreConfiguration  :
NetworkInterfaceIds  : {eni-01cd23bc4bdf5678a}
OwnerId              : 933303704102
ResourceARN          : arn:aws:fsx:eu-west-1:933303704102:file-system/fs-07cd45bc6bdf2674a
StorageCapacity      : 300
SubnetIds            : {subnet-1d234567}
Tags                 : {FSx-Service}
VpcId                : vpc-23cf4b5f
WindowsConfiguration : Amazon.FSx.Model.WindowsFileSystemConfiguration
```
+  Untuk detail API, lihat [UpdateFileSystem](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon Glacier menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_glacier_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon Glacier.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-GLCJob`
<a name="glacier_DescribeJob_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-GLCJob`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan rincian pekerjaan yang ditentukan. Ketika pekerjaan berhasil diselesaikan, cmdlet Read- GCJob Output dapat digunakan untuk mengambil konten pekerjaan (arsip atau daftar inventaris) ke sistem file lokal.**  

```
Get-GLCJob -VaultName myvault -JobId "op1x...JSbthM"
```
**Output:**  

```
Action                       : ArchiveRetrieval
ArchiveId                    : o9O9j...X-TpIhQJw
ArchiveSHA256TreeHash        : 79f3ea754c02f58...dc57bf4395b
ArchiveSizeInBytes           : 38034480
Completed                    : False
CompletionDate               : 1/1/0001 12:00:00 AM
CreationDate                 : 12/13/2018 11:00:14 AM
InventoryRetrievalParameters :
InventorySizeInBytes         : 0
JobDescription               :
JobId                        : op1x...JSbthM
JobOutputPath                :
OutputLocation               :
RetrievalByteRange           : 0-38034479
SelectParameters             :
SHA256TreeHash               : 79f3ea754c02f58...dc57bf4395b
SNSTopic                     :
StatusCode                   : InProgress
StatusMessage                :
Tier                         : Standard
VaultARN                     : arn:aws:glacier:us-west-2:012345678912:vaults/test
```
+  Untuk detail API, lihat [DescribeJob](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-GLCVault`
<a name="glacier_CreateVault_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-GLCVault`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat vault baru untuk akun pengguna. Karena tidak ada nilai yang diberikan ke AccountId parameter -, cmdlet menggunakan default “-” yang menunjukkan akun saat ini.**  

```
New-GLCVault -VaultName myvault
```
**Output:**  

```
/01234567812/vaults/myvault
```
+  Untuk detail API, lihat [CreateVault](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Read-GLCJobOutput`
<a name="glacier_GetJobOutput_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Read-GLCJobOutput`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengunduh konten arsip yang dijadwalkan untuk pengambilan dalam pekerjaan yang ditentukan dan menyimpan konten ke dalam file pada disk. Unduhan memvalidasi checksum untuk Anda, jika tersedia. Jika diinginkan seluruh respons termasuk checksum dapat dikembalikan dengan menentukan`-Select '*'`.**  

```
Read-GLCJobOutput -VaultName myvault -JobId "HSWjArc...Zq2XLiW" -FilePath "c:\temp\blue.bin"
```
+  Untuk detail API, lihat [GetJobOutput](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-GLCJob`
<a name="glacier_InitiateJob_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-GLCJob`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memulai pekerjaan untuk mengambil arsip dari brankas tertentu yang dimiliki oleh pengguna. Status pekerjaan dapat diperiksa menggunakan Get- GLCJob cmdlet. Ketika pekerjaan berhasil diselesaikan, cmdlet Read- GCJob Output dapat digunakan untuk mengambil isi arsip ke sistem file lokal.**  

```
Start-GLCJob -VaultName myvault -JobType "archive-retrieval" -JobDescription "archive retrieval" -ArchiveId "o9O9j...TX-TpIhQJw"
```
**Output:**  

```
JobId            JobOutputPath Location
-----            ------------- --------
op1x...JSbthM                  /012345678912/vaults/test/jobs/op1xe...I4HqCHkSJSbthM
```
+  Untuk detail API, lihat [InitiateJob](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-GLCArchive`
<a name="glacier_UploadArchive_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-GLCArchive`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengunggah satu file ke brankas yang ditentukan, mengembalikan ID arsip dan checksum yang dihitung.**  

```
Write-GLCArchive -VaultName myvault -FilePath c:\temp\blue.bin
```
**Output:**  

```
FilePath                    ArchiveId              Checksum
--------                    ---------              --------
C:\temp\blue.bin            o9O9jUUs...TTX-TpIhQJw 79f3e...f4395b
```
**Contoh 2: Mengunggah konten hierarki folder ke brankas yang ditentukan di akun pengguna. Untuk setiap file yang diunggah, cmdlet memancarkan nama file, ID arsip yang sesuai, dan checksum arsip yang dihitung.**  

```
Write-GLCArchive -VaultName myvault -FolderPath . -Recurse
```
**Output:**  

```
FilePath                    ArchiveId              Checksum
--------                    ---------              --------
C:\temp\blue.bin            o9O9jUUs...TTX-TpIhQJw 79f3e...f4395b
C:\temp\green.bin           qXAfOdSG...czo729UHXrw d50a1...9184b9
C:\temp\lum.bin             39aNifP3...q9nb8nZkFIg 28886...5c3e27
C:\temp\red.bin             vp7E6rU_...Ejk_HhjAxKA e05f7...4e34f5
C:\temp\Folder1\file1.txt   _eRINlip...5Sxy7dD2BaA d0d2a...c8a3ba
C:\temp\Folder2\file2.iso   -Ix3jlmu...iXiDh-XfOPA 7469e...3e86f1
```
+  Untuk detail API, lihat [UploadArchive](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# AWS Glue contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan AWS Glue.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-GLUEJob`
<a name="glue_CreateJob_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-GLUEJob`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menciptakan pekerjaan baru di AWS Glue. Nilai nama perintah selalu`glueetl`. AWS Glue mendukung menjalankan skrip pekerjaan yang ditulis dengan Python atau Scala. Dalam contoh ini, skrip pekerjaan (MyTestGlueJob.py) ditulis dengan Python. Parameter Python ditentukan dalam `$DefArgs` variabel, dan kemudian diteruskan ke PowerShell perintah dalam `DefaultArguments` parameter, yang menerima hashtable. Parameter dalam `$JobParams` variabel berasal dari CreateJob API, didokumentasikan dalam topik Jobs (https://docs.aws.amazon.com/glue/latest/dg/aws- glue-api-jobs-job .html) dari referensi AWS Glue API.**  

```
$Command = New-Object Amazon.Glue.Model.JobCommand
$Command.Name = 'glueetl'
$Command.ScriptLocation = 's3://amzn-s3-demo-source-bucket/admin/MyTestGlueJob.py'
$Command

$Source = "source_test_table"
$Target = "target_test_table"
$Connections = $Source, $Target

$DefArgs = @{
     '--TempDir' = 's3://amzn-s3-demo-bucket/admin'
     '--job-bookmark-option' = 'job-bookmark-disable'
     '--job-language' = 'python'
     }
$DefArgs

$ExecutionProp = New-Object Amazon.Glue.Model.ExecutionProperty
$ExecutionProp.MaxConcurrentRuns = 1
$ExecutionProp

$JobParams = @{
    "AllocatedCapacity"    = "5"
    "Command"              = $Command
    "Connections_Connection" = $Connections
    "DefaultArguments"  = $DefArgs
    "Description"       = "This is a test"
    "ExecutionProperty" = $ExecutionProp
    "MaxRetries"        = "1"
    "Name"              = "MyOregonTestGlueJob"
    "Role"              = "Amazon-GlueServiceRoleForSSM"
    "Timeout"           = "20"
     }

New-GlueJob @JobParams
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# AWS Health contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_health_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan AWS Health.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-HLTHEvent`
<a name="health_DescribeEvents_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-HLTHEvent`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan peristiwa dari Dashboard AWS Personal Health. Pengguna menambahkan parameter -Region untuk melihat peristiwa yang tersedia untuk layanan di Wilayah AS Timur (Virginia N.), tetapi parameter -Filter\$1Region memfilter untuk peristiwa yang dicatat di Wilayah UE (London) dan AS Barat (Oregon) (eu-west-2 dan us-west-2). StartTime Parameter -Filter\$1 memfilter untuk rentang waktu dimana peristiwa dapat dimulai, sedangkan EndTime parameter -Filter\$1 memfilter untuk rentang waktu dimana peristiwa dapat berakhir. Hasilnya adalah acara pemeliharaan terjadwal untuk RDS yang dimulai dalam rentang -Filter\$1 yang ditentukan, dan berakhir dalam StartTime rentang -Filter\$1 terjadwal. EndTime **  

```
Get-HLTHEvent -Region us-east-1 -Filter_Region "eu-west-2","us-west-2" -Filter_StartTime @{from="3/14/2019 6:30:00AM";to="3/15/2019 5:00:00PM"} -Filter_EndTime @{from="3/21/2019 7:00:00AM";to="3/21/2019 5:00:00PM"}
```
**Output:**  

```
Arn               : arn:aws:health:us-west-2::event/RDS/AWS_RDS_HARDWARE_MAINTENANCE_SCHEDULED/AWS_RDS_HARDWARE_MAINTENANCE_SCHEDULED_USW2_20190314_20190321
AvailabilityZone  : 
EndTime           : 3/21/2019 2:00:00 PM
EventTypeCategory : scheduledChange
EventTypeCode     : AWS_RDS_HARDWARE_MAINTENANCE_SCHEDULED
LastUpdatedTime   : 2/28/2019 2:26:07 PM
Region            : us-west-2
Service           : RDS
StartTime         : 3/14/2019 2:00:00 PM
StatusCode        : open
```
+  Untuk detail API, lihat [DescribeEvents](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh IAM menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan IAM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-IAMClientIDToOpenIDConnectProvider`
<a name="iam_AddClientIdToOpenIdConnectProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMClientIDToOpenIDConnectProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menambahkan ID klien (atau audiens) `my-application-ID` ke penyedia OIDC yang ada bernama. `server.example.com`**  

```
Add-IAMClientIDToOpenIDConnectProvider -ClientID "my-application-ID" -OpenIDConnectProviderARN "arn:aws:iam::123456789012:oidc-provider/server.example.com"
```
+  Untuk detail API, lihat [AddClientIdToOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-IAMRoleTag`
<a name="iam_TagRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMRoleTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan tag ke Peran dalam Layanan Manajemen Identitas**  

```
Add-IAMRoleTag -RoleName AdminRoleacess -Tag @{ Key = 'abac'; Value = 'testing'}
```
+  Untuk detail API, lihat [TagRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-IAMRoleToInstanceProfile`
<a name="iam_AddRoleToInstanceProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMRoleToInstanceProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menambahkan peran bernama `S3Access` ke profil instance yang ada bernama`webserver`. Untuk membuat profil instance, gunakan `New-IAMInstanceProfile` perintah. Setelah Anda membuat profil instans dan mengaitkannya dengan peran menggunakan perintah ini, Anda dapat melampirkannya ke instans EC2. Untuk melakukan itu, gunakan `New-EC2Instance` cmdlet dengan `InstanceProfile-Name` parameter `InstanceProfile_Arn` atau untuk meluncurkan instance baru.**  

```
Add-IAMRoleToInstanceProfile -RoleName "S3Access" -InstanceProfileName "webserver"
```
+  Untuk detail API, lihat [AddRoleToInstanceProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-IAMUserTag`
<a name="iam_TagUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMUserTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan tag ke Pengguna di Layanan Manajemen Identitas**  

```
Add-IAMUserTag -UserName joe -Tag @{ Key = 'abac'; Value = 'testing'}
```
+  Untuk detail API, lihat [TagUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Add-IAMUserToGroup`
<a name="iam_AddUserToGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-IAMUserToGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menambahkan nama pengguna `Bob` ke grup bernama`Admins`.**  

```
Add-IAMUserToGroup -UserName "Bob" -GroupName "Admins"
```
+  Untuk detail API, lihat [AddUserToGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Disable-IAMMFADevice`
<a name="iam_DeactivateMfaDevice_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Disable-IAMMFADevice`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menonaktifkan perangkat MFA perangkat keras yang terkait dengan `Bob` pengguna yang memiliki nomor seri. `123456789012`**  

```
Disable-IAMMFADevice -UserName "Bob" -SerialNumber "123456789012"
```
**Contoh 2: Perintah ini menonaktifkan perangkat MFA virtual yang terkait dengan `David` pengguna yang memiliki ARN. `arn:aws:iam::210987654321:mfa/David` Perhatikan bahwa perangkat MFA virtual tidak dihapus dari akun. Perangkat virtual masih ada dan muncul di output `Get-IAMVirtualMFADevice` perintah. Sebelum Anda dapat membuat perangkat MFA virtual baru untuk pengguna yang sama, Anda harus menghapus yang lama dengan menggunakan perintah. `Remove-IAMVirtualMFADevice`**  

```
Disable-IAMMFADevice -UserName "David" -SerialNumber "arn:aws:iam::210987654321:mfa/David"
```
+  Untuk detail API, lihat [DeactivateMfaDevice](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-IAMPassword`
<a name="iam_ChangePassword_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-IAMPassword`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengubah kata sandi untuk pengguna yang menjalankan perintah. Perintah ini hanya dapat dipanggil oleh pengguna IAM. Jika perintah ini dipanggil ketika Anda masuk dengan kredensyal AWS akun (root), perintah mengembalikan kesalahan. `InvalidUserType`**  

```
Edit-IAMPassword -OldPassword "MyOldP@ssw0rd" -NewPassword "MyNewP@ssw0rd"
```
+  Untuk detail API, lihat [ChangePassword](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Enable-IAMMFADevice`
<a name="iam_EnableMfaDevice_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Enable-IAMMFADevice`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini memungkinkan perangkat MFA perangkat keras dengan nomor seri `987654321098` dan mengaitkan perangkat dengan pengguna. `Bob` Ini termasuk dua kode pertama secara berurutan dari perangkat.**  

```
Enable-IAMMFADevice -UserName "Bob" -SerialNumber "987654321098" -AuthenticationCode1 "12345678" -AuthenticationCode2 "87654321"
```
**Contoh 2: Contoh ini membuat dan mengaktifkan perangkat MFA virtual. Perintah pertama membuat perangkat virtual dan mengembalikan representasi objek perangkat dalam variabel`$MFADevice`. Anda dapat menggunakan `QRCodePng` properti `.Base32StringSeed` atau untuk mengkonfigurasi aplikasi perangkat lunak pengguna. Perintah terakhir menetapkan perangkat kepada pengguna`David`, mengidentifikasi perangkat dengan nomor serinya. Perintah ini juga menyinkronkan perangkat AWS dengan memasukkan dua kode pertama secara berurutan dari perangkat MFA virtual.**  

```
$MFADevice = New-IAMVirtualMFADevice -VirtualMFADeviceName "MyMFADevice"
# see example for New-IAMVirtualMFADevice to see how to configure the software program with PNG or base32 seed code
Enable-IAMMFADevice -UserName "David" -SerialNumber -SerialNumber $MFADevice.SerialNumber -AuthenticationCode1 "24681357" -AuthenticationCode2 "13572468"
```
+  Untuk detail API, lihat [EnableMfaDevice](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAccessKey`
<a name="iam_ListAccessKeys_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccessKey`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mencantumkan kunci akses untuk pengguna IAM bernama`Bob`. Perhatikan bahwa Anda tidak dapat mencantumkan kunci akses rahasia untuk pengguna IAM. Jika kunci akses rahasia hilang, Anda harus membuat kunci akses baru dengan `New-IAMAccessKey` cmdlet.**  

```
Get-IAMAccessKey -UserName "Bob"
```
**Output:**  

```
AccessKeyId                CreateDate                   Status              UserName
-----------                ----------                   ------              --------
AKIAIOSFODNN7EXAMPLE       12/3/2014 10:53:41 AM        Active              Bob
AKIAI44QH8DHBEXAMPLE       6/6/2013 8:42:26 PM          Inactive            Bob
```
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAccessKeyLastUsed`
<a name="iam_GetAccessKeyLastUsed_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccessKeyLastUsed`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan nama pengguna yang dimiliki dan informasi penggunaan terakhir untuk kunci akses yang disediakan.**  

```
Get-IAMAccessKeyLastUsed -AccessKeyId ABCDEXAMPLE
```
+  Untuk detail API, lihat [GetAccessKeyLastUsed](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAccountAlias`
<a name="iam_ListAccountAliases_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccountAlias`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan alias akun untuk. Akun AWS**  

```
Get-IAMAccountAlias
```
**Output:**  

```
ExampleCo
```
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAccountAuthorizationDetail`
<a name="iam_GetAccountAuthorizationDetails_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccountAuthorizationDetail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan rincian otorisasi tentang identitas di AWS akun, dan menampilkan daftar elemen objek yang dikembalikan, termasuk pengguna, grup, dan peran. Misalnya, `UserDetailList` properti menampilkan detail tentang pengguna. Informasi serupa tersedia di `RoleDetailList` dan `GroupDetailList` properti.**  

```
$Details=Get-IAMAccountAuthorizationDetail
$Details
```
**Output:**  

```
GroupDetailList : {Administrators, Developers, Testers, Backup}
IsTruncated     : False
Marker          : 
RoleDetailList  : {TestRole1, AdminRole, TesterRole, clirole...}
UserDetailList  : {Administrator, Bob, BackupToS3, }
```

```
$Details.UserDetailList
```
**Output:**  

```
Arn            : arn:aws:iam::123456789012:user/Administrator
CreateDate     : 10/16/2014 9:03:09 AM
GroupList      : {Administrators}
Path           : /
UserId         : AIDACKCEVSQ6CEXAMPLE1
UserName       : Administrator
UserPolicyList : {}

Arn            : arn:aws:iam::123456789012:user/Bob
CreateDate     : 4/6/2015 12:54:42 PM
GroupList      : {Developers}
Path           : /
UserId         : AIDACKCEVSQ6CEXAMPLE2
UserName       : bab
UserPolicyList : {}

Arn            : arn:aws:iam::123456789012:user/BackupToS3
CreateDate     : 1/27/2015 10:15:08 AM
GroupList      : {Backup}
Path           : /
UserId         : AIDACKCEVSQ6CEXAMPLE3
UserName       : BackupToS3
UserPolicyList : {BackupServicePermissionsToS3Buckets}
```
+  Untuk detail API, lihat [GetAccountAuthorizationDetails](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccountPasswordPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan detail tentang kebijakan kata sandi untuk akun saat ini. Jika tidak ada kebijakan kata sandi yang ditentukan untuk akun, perintah mengembalikan `NoSuchEntity` kesalahan.**  

```
Get-IAMAccountPasswordPolicy
```
**Output:**  

```
AllowUsersToChangePassword : True
ExpirePasswords            : True
HardExpiry                 : False
MaxPasswordAge             : 90
MinimumPasswordLength      : 8
PasswordReusePrevention    : 20
RequireLowercaseCharacters : True
RequireNumbers             : True
RequireSymbols             : False
RequireUppercaseCharacters : True
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAccountSummary`
<a name="iam_GetAccountSummary_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAccountSummary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan informasi tentang penggunaan entitas IAM saat ini dan kuota entitas IAM saat ini di. Akun AWS**  

```
Get-IAMAccountSummary
```
**Output:**  

```
Key                                        Value
Users                                      7
GroupPolicySizeQuota                       5120
PolicyVersionsInUseQuota                   10000
ServerCertificatesQuota                    20
AccountSigningCertificatesPresent          0
AccountAccessKeysPresent                   0
Groups                                     3
UsersQuota                                 5000
RolePolicySizeQuota                        10240
UserPolicySizeQuota                        2048
GroupsPerUserQuota                         10
AssumeRolePolicySizeQuota                  2048
AttachedPoliciesPerGroupQuota              2
Roles                                      9
VersionsPerPolicyQuota                     5
GroupsQuota                                100
PolicySizeQuota                            5120
Policies                                   5
RolesQuota                                 250
ServerCertificates                         0
AttachedPoliciesPerRoleQuota               2
MFADevicesInUse                            2
PoliciesQuota                              1000
AccountMFAEnabled                          1
Providers                                  2
InstanceProfilesQuota                      100
MFADevices                                 4
AccessKeysPerUserQuota                     2
AttachedPoliciesPerUserQuota               2
SigningCertificatesPerUserQuota            2
PolicyVersionsInUse                        4
InstanceProfiles                           1
...
```
+  Untuk detail API, lihat [GetAccountSummary](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAttachedGroupPolicyList`
<a name="iam_ListAttachedGroupPolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAttachedGroupPolicyList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan nama dan kebijakan ARNs terkelola yang dilampirkan ke grup IAM yang disebutkan `Admins` di AWS akun. Untuk melihat daftar kebijakan sebaris yang disematkan dalam grup, gunakan `Get-IAMGroupPolicyList` perintah.**  

```
Get-IAMAttachedGroupPolicyList -GroupName "Admins"
```
**Output:**  

```
PolicyArn                                                 PolicyName
---------                                                 ----------
arn:aws:iam::aws:policy/SecurityAudit                     SecurityAudit
arn:aws:iam::aws:policy/AdministratorAccess               AdministratorAccess
```
+  Untuk detail API, lihat [ListAttachedGroupPolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAttachedRolePolicyList`
<a name="iam_ListAttachedRolePolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAttachedRolePolicyList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan nama dan kebijakan ARNs terkelola yang dilampirkan pada peran IAM yang disebutkan `SecurityAuditRole` di AWS akun. Untuk melihat daftar kebijakan sebaris yang disematkan dalam peran, gunakan `Get-IAMRolePolicyList` perintah.**  

```
Get-IAMAttachedRolePolicyList -RoleName "SecurityAuditRole"
```
**Output:**  

```
PolicyArn                                                 PolicyName
---------                                                 ----------
arn:aws:iam::aws:policy/SecurityAudit                     SecurityAudit
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMAttachedUserPolicyList`
<a name="iam_ListAttachedUserPolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMAttachedUserPolicyList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan nama dan kebijakan ARNs terkelola untuk pengguna IAM yang disebutkan `Bob` di AWS akun. Untuk melihat daftar kebijakan inline yang disematkan di pengguna IAM, gunakan perintah. `Get-IAMUserPolicyList`**  

```
Get-IAMAttachedUserPolicyList -UserName "Bob"
```
**Output:**  

```
PolicyArn                                                 PolicyName
---------                                                 ----------
arn:aws:iam::aws:policy/TesterPolicy                      TesterPolicy
```
+  Untuk detail API, lihat [ListAttachedUserPolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMContextKeysForCustomPolicy`
<a name="iam_GetContextKeysForCustomPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMContextKeysForCustomPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil semua kunci konteks yang ada dalam kebijakan yang disediakan JSON.Untuk memberikan beberapa kebijakan yang dapat Anda berikan sebagai daftar nilai yang dipisahkan koma.**  

```
$policy1 = '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/","Condition":{"DateGreaterThan":{"aws:CurrentTime":"2015-08-16T12:00:00Z"}}}}'
$policy2 = '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/"}}'
Get-IAMContextKeysForCustomPolicy -PolicyInputList $policy1,$policy2
```
+  Untuk detail API, lihat [GetContextKeysForCustomPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMContextKeysForPrincipalPolicy`
<a name="iam_GetContextKeysForPrincipalPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMContextKeysForPrincipalPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil semua kunci konteks yang ada dalam json kebijakan yang disediakan dan kebijakan yang dilampirkan ke entitas IAM (pengguna/peran, dll.). Untuk - PolicyInputList Anda dapat memberikan beberapa daftar nilai sebagai nilai yang dipisahkan koma.**  

```
$policy1 = '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/","Condition":{"DateGreaterThan":{"aws:CurrentTime":"2015-08-16T12:00:00Z"}}}}'
$policy2 = '{"Version":"2012-10-17",		 	 	 "Statement":{"Effect":"Allow","Action":"dynamodb:*","Resource":"arn:aws:dynamodb:us-west-2:123456789012:table/"}}'
Get-IAMContextKeysForPrincipalPolicy -PolicyInputList $policy1,$policy2 -PolicySourceArn arn:aws:iam::852640994763:user/TestUser
```
+  Untuk detail API, lihat [GetContextKeysForPrincipalPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMCredentialReport`
<a name="iam_GetCredentialReport_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMCredentialReport`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuka laporan yang dikembalikan dan mengeluarkannya ke pipeline sebagai array baris teks. Baris pertama adalah header dengan nama kolom yang dipisahkan koma. Setiap baris berturut-turut adalah baris detail untuk satu pengguna, dengan setiap bidang dipisahkan dengan koma. Sebelum Anda dapat melihat laporan, Anda harus membuatnya dengan `Request-IAMCredentialReport` cmdlet. Untuk mengambil laporan sebagai string tunggal, gunakan `-Raw` sebagai pengganti. `-AsTextArray` Alias juga `-SplitLines` diterima untuk `-AsTextArray` sakelar. Untuk daftar lengkap kolom dalam output, lihat referensi API layanan. Perhatikan bahwa jika Anda tidak menggunakan `-AsTextArray` atau`-SplitLines`, maka Anda harus mengekstrak teks dari `.Content` properti menggunakan `StreamReader` kelas.NET.**  

```
Request-IAMCredentialReport
```
**Output:**  

```
Description                                                         State
-----------                                                         -----
No report exists. Starting a new report generation task             STARTED
```

```
Get-IAMCredentialReport -AsTextArray
```
**Output:**  

```
      user,arn,user_creation_time,password_enabled,password_last_used,password_last_changed,password_next_rotation,mfa_active,access_key_1_active,access_key_1_last_rotated,access_key_2_active,access_key_2_last_rotated,cert_1_active,cert_1_last_rotated,cert_2_active,cert_2_last_rotated root_account,arn:aws:iam::123456789012:root,2014-10-15T16:31:25+00:00,not_supported,2015-04-20T17:41:10+00:00,not_supported,not_supported,true,false,N/A,false,N/A,false,N/A,false,N/A
Administrator,arn:aws:iam::123456789012:user/Administrator,2014-10-16T16:03:09+00:00,true,2015-04-20T15:18:32+00:00,2014-10-16T16:06:00+00:00,N/A,false,true,2014-12-03T18:53:41+00:00,true,2015-03-25T20:38:14+00:00,false,N/A,false,N/A
Bill,arn:aws:iam::123456789012:user/Bill,2015-04-15T18:27:44+00:00,false,N/A,N/A,N/A,false,false,N/A,false,N/A,false,2015-04-20T20:00:12+00:00,false,N/A
```
+  Untuk detail API, lihat [GetCredentialReport](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMEntitiesForPolicy`
<a name="iam_ListEntitiesForPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMEntitiesForPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan daftar grup, peran, dan pengguna IAM yang memiliki kebijakan yang `arn:aws:iam::123456789012:policy/TestPolicy` dilampirkan.**  

```
Get-IAMEntitiesForPolicy -PolicyArn "arn:aws:iam::123456789012:policy/TestPolicy"
```
**Output:**  

```
IsTruncated  : False
Marker       : 
PolicyGroups : {}
PolicyRoles  : {testRole}
PolicyUsers  : {Bob, Theresa}
```
+  Untuk detail API, lihat [ListEntitiesForPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMGroup`
<a name="iam_GetGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan detail tentang grup IAM`Testers`, termasuk kumpulan semua pengguna IAM yang termasuk dalam grup.**  

```
$results = Get-IAMGroup -GroupName "Testers"
$results
```
**Output:**  

```
Group                                     IsTruncated           Marker                Users
-----                                     -----------           ------                -----
Amazon.IdentityManagement.Model.Group     False                                       {Theresa, David}
```

```
$results.Group
```
**Output:**  

```
Arn        : arn:aws:iam::123456789012:group/Testers
CreateDate : 12/10/2014 3:39:11 PM
GroupId    : 3RHNZZGQJ7QHMAEXAMPLE1
GroupName  : Testers
Path       : /
```

```
$results.Users
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:user/Theresa
CreateDate       : 12/10/2014 3:39:27 PM
PasswordLastUsed : 1/1/0001 12:00:00 AM
Path             : /
UserId           : 4OSVDDJJTF4XEEXAMPLE2
UserName         : Theresa

Arn              : arn:aws:iam::123456789012:user/David
CreateDate       : 12/10/2014 3:39:27 PM
PasswordLastUsed : 3/19/2015 8:44:04 AM
Path             : /
UserId           : Y4FKWQCXTA52QEXAMPLE3
UserName         : David
```
+  Untuk detail API, lihat [GetGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMGroupForUser`
<a name="iam_ListGroupsForUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroupForUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan daftar grup IAM yang `David` dimiliki pengguna IAM.**  

```
Get-IAMGroupForUser -UserName David
```
**Output:**  

```
Arn        : arn:aws:iam::123456789012:group/Administrators
CreateDate : 10/20/2014 10:06:24 AM
GroupId    : 6WCH4TRY3KIHIEXAMPLE1
GroupName  : Administrators
Path       : /
      
Arn        : arn:aws:iam::123456789012:group/Testers
CreateDate : 12/10/2014 3:39:11 PM
GroupId    : RHNZZGQJ7QHMAEXAMPLE2
GroupName  : Testers
Path       : /
      
Arn        : arn:aws:iam::123456789012:group/Developers
CreateDate : 12/10/2014 3:38:55 PM
GroupId    : ZU2EOWMK6WBZOEXAMPLE3
GroupName  : Developers
Path       : /
```
+  Untuk detail API, lihat [ListGroupsForUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMGroupList`
<a name="iam_ListGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroupList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan koleksi semua grup IAM didefinisikan dalam saat ini Akun AWS.**  

```
Get-IAMGroupList
```
**Output:**  

```
Arn        : arn:aws:iam::123456789012:group/Administrators
CreateDate : 10/20/2014 10:06:24 AM
GroupId    : 6WCH4TRY3KIHIEXAMPLE1
GroupName  : Administrators
Path       : /

Arn        : arn:aws:iam::123456789012:group/Developers
CreateDate : 12/10/2014 3:38:55 PM
GroupId    : ZU2EOWMK6WBZOEXAMPLE2
GroupName  : Developers
Path       : /

Arn        : arn:aws:iam::123456789012:group/Testers
CreateDate : 12/10/2014 3:39:11 PM
GroupId    : RHNZZGQJ7QHMAEXAMPLE3
GroupName  : Testers
Path       : /
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMGroupPolicy`
<a name="iam_GetGroupPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroupPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian tentang kebijakan inline tertanam yang dinamai `PowerUserAccess-Testers` untuk grup`Testers`. `PolicyDocument`Properti ini dikodekan URL. Ini diterjemahkan dalam contoh ini dengan `UrlDecode` metode.NET.**  

```
$results = Get-IAMGroupPolicy -GroupName Testers -PolicyName PowerUserAccess-Testers
$results
```
**Output:**  

```
GroupName     PolicyDocument                                              PolicyName
---------     --------------                                              ----------
Testers       %7B%0A%20%20%22Version%22%3A%20%222012-10-17%22%2C%0A%20... PowerUserAccess-Testers

[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
[System.Web.HttpUtility]::UrlDecode($results.PolicyDocument)
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "ec2:DescribeInstances"
      ],
      "Resource": [
        "arn:aws:ec2:us-east-1:555555555555:instance/i-b188560f"
      ]
    }
  ]
}
```
+  Untuk detail API, lihat [GetGroupPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMGroupPolicyList`
<a name="iam_ListGroupPolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMGroupPolicyList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan daftar kebijakan inline yang disematkan dalam grup`Testers`. Untuk mendapatkan kebijakan terkelola yang dilampirkan ke grup, gunakan perintah`Get-IAMAttachedGroupPolicyList`.**  

```
Get-IAMGroupPolicyList -GroupName Testers
```
**Output:**  

```
Deny-Assume-S3-Role-In-Production
PowerUserAccess-Testers
```
+  Untuk detail API, lihat [ListGroupPolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMInstanceProfile`
<a name="iam_GetInstanceProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMInstanceProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian profil contoh bernama `ec2instancerole` yang didefinisikan dalam AWS akun saat ini.**  

```
Get-IAMInstanceProfile -InstanceProfileName ec2instancerole
```
**Output:**  

```
Arn                 : arn:aws:iam::123456789012:instance-profile/ec2instancerole
CreateDate          : 2/17/2015 2:49:04 PM
InstanceProfileId   : HH36PTZQJUR32EXAMPLE1
InstanceProfileName : ec2instancerole
Path                : /
Roles               : {ec2instancerole}
```
+  Untuk detail API, lihat [GetInstanceProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMInstanceProfileForRole`
<a name="iam_ListInstanceProfilesForRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMInstanceProfileForRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian profil instance yang terkait dengan peran`ec2instancerole`.**  

```
Get-IAMInstanceProfileForRole -RoleName ec2instancerole
```
**Output:**  

```
      Arn                 : arn:aws:iam::123456789012:instance-profile/ec2instancerole
      CreateDate          : 2/17/2015 2:49:04 PM
      InstanceProfileId   : HH36PTZQJUR32EXAMPLE1
      InstanceProfileName : ec2instancerole
      Path                : /
      Roles               : {ec2instancerole}
```
+  Untuk detail API, lihat [ListInstanceProfilesForRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMInstanceProfileList`
<a name="iam_ListInstanceProfiles_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMInstanceProfileList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan koleksi profil instance didefinisikan dalam saat ini Akun AWS.**  

```
Get-IAMInstanceProfileList
```
**Output:**  

```
Arn                 : arn:aws:iam::123456789012:instance-profile/ec2instancerole
CreateDate          : 2/17/2015 2:49:04 PM
InstanceProfileId   : HH36PTZQJUR32EXAMPLE1
InstanceProfileName : ec2instancerole
Path                : /
Roles               : {ec2instancerole}
```
+  Untuk detail API, lihat [ListInstanceProfiles](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMLoginProfile`
<a name="iam_GetLoginProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMLoginProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan tanggal pembuatan kata sandi dan apakah reset kata sandi diperlukan untuk pengguna `David` IAM.**  

```
Get-IAMLoginProfile -UserName David
```
**Output:**  

```
CreateDate                   PasswordResetRequired                 UserName
----------                   ---------------------                 --------
12/10/2014 3:39:44 PM        False                                 David
```
+  Untuk detail API, lihat [GetLoginProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMMFADevice`
<a name="iam_ListMfaDevices_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMMFADevice`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian tentang perangkat MFA yang ditetapkan untuk pengguna IAM. `David` Dalam contoh ini Anda dapat mengatakan bahwa itu adalah perangkat virtual karena `SerialNumber` adalah ARN bukan nomor seri aktual perangkat fisik.**  

```
Get-IAMMFADevice -UserName David
```
**Output:**  

```
EnableDate                  SerialNumber                           UserName
----------                  ------------                           --------
4/8/2015 9:41:10 AM         arn:aws:iam::123456789012:mfa/David    David
```
+  Untuk detail API, lihat [ListMfaDevices](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMOpenIDConnectProvider`
<a name="iam_GetOpenIdConnectProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMOpenIDConnectProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian tentang penyedia OpenID Connect yang ARN adalah. `arn:aws:iam::123456789012:oidc-provider/accounts.google.com` `ClientIDList`Properti adalah koleksi yang berisi semua Klien yang IDs ditentukan untuk penyedia ini.**  

```
Get-IAMOpenIDConnectProvider -OpenIDConnectProviderArn arn:aws:iam::123456789012:oidc-provider/oidc.example.com
```
**Output:**  

```
ClientIDList         CreateDate                ThumbprintList                               Url
------------         ----------                --------------                               ---
{MyOIDCApp}          2/3/2015 3:00:30 PM       {12345abcdefghijk67890lmnopqrst98765uvwxy}   oidc.example.com
```
+  Untuk detail API, lihat [GetOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMOpenIDConnectProviderList`
<a name="iam_ListOpenIdConnectProviders_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMOpenIDConnectProviderList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan daftar ARNS dari semua penyedia OpenID Connect yang didefinisikan dalam Akun AWS saat ini.**  

```
Get-IAMOpenIDConnectProviderList
```
**Output:**  

```
Arn
---
arn:aws:iam::123456789012:oidc-provider/server.example.com
arn:aws:iam::123456789012:oidc-provider/another.provider.com
```
+  Untuk detail API, lihat [ListOpenIdConnectProviders](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMPolicy`
<a name="iam_GetPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian tentang kebijakan terkelola yang ARN. `arn:aws:iam::123456789012:policy/MySamplePolicy`**  

```
Get-IAMPolicy -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy
```
**Output:**  

```
Arn              : arn:aws:iam::aws:policy/MySamplePolicy
AttachmentCount  : 0
CreateDate       : 2/6/2015 10:40:08 AM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : Z27SI6FQMGNQ2EXAMPLE1
PolicyName       : MySamplePolicy
UpdateDate       : 2/6/2015 10:40:08 AM
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMPolicyList`
<a name="iam_ListPolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMPolicyList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan kumpulan dari tiga kebijakan terkelola pertama yang tersedia di AWS akun saat ini. Karena tidak `-scope` ditentukan, defaultnya `all` dan mencakup kebijakan terkelola dan yang AWS dikelola pelanggan.**  

```
Get-IAMPolicyList -MaxItem 3
```
**Output:**  

```
Arn              : arn:aws:iam::aws:policy/AWSDirectConnectReadOnlyAccess
AttachmentCount  : 0
CreateDate       : 2/6/2015 10:40:08 AM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : Z27SI6FQMGNQ2EXAMPLE1
PolicyName       : AWSDirectConnectReadOnlyAccess
UpdateDate       : 2/6/2015 10:40:08 AM
      
Arn              : arn:aws:iam::aws:policy/AmazonGlacierReadOnlyAccess
AttachmentCount  : 0
CreateDate       : 2/6/2015 10:40:27 AM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : NJKMU274MET4EEXAMPLE2
PolicyName       : AmazonGlacierReadOnlyAccess
UpdateDate       : 2/6/2015 10:40:27 AM
      
Arn              : arn:aws:iam::aws:policy/AWSMarketplaceFullAccess
AttachmentCount  : 0
CreateDate       : 2/11/2015 9:21:45 AM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : 5ULJSO2FYVPYGEXAMPLE3
PolicyName       : AWSMarketplaceFullAccess
UpdateDate       : 2/11/2015 9:21:45 AM
```
**Contoh 2: Contoh ini mengembalikan kumpulan dari dua kebijakan terkelola pelanggan pertama yang tersedia di AWS akun saat ini. Ini digunakan `-Scope local` untuk membatasi output hanya pada kebijakan yang dikelola pelanggan.**  

```
Get-IAMPolicyList -Scope local -MaxItem 2
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:policy/MyLocalPolicy
AttachmentCount  : 0
CreateDate       : 2/12/2015 9:39:09 AM
DefaultVersionId : v2
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : SQVCBLC4VAOUCEXAMPLE4
PolicyName       : MyLocalPolicy
UpdateDate       : 2/12/2015 9:39:53 AM

Arn              : arn:aws:iam::123456789012:policy/policyforec2instancerole
AttachmentCount  : 1
CreateDate       : 2/17/2015 2:51:38 PM
DefaultVersionId : v11
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : X5JPBLJH2Z2SOEXAMPLE5
PolicyName       : policyforec2instancerole
UpdateDate       : 2/18/2015 8:52:31 AM
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMPolicyVersion`
<a name="iam_GetPolicyVersion_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMPolicyVersion`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan dokumen kebijakan untuk `v2` versi kebijakan yang ARN-nya. `arn:aws:iam::123456789012:policy/MyManagedPolicy` Dokumen kebijakan dalam `Document` properti adalah URL yang dikodekan dan diterjemahkan dalam contoh ini dengan metode.NET. `UrlDecode`**  

```
$results = Get-IAMPolicyVersion -PolicyArn arn:aws:iam::123456789012:policy/MyManagedPolicy -VersionId v2
$results
```
**Output:**  

```
CreateDate             Document                                        IsDefaultVersion     VersionId
----------             --------                                        ----------------     ---------
2/12/2015 9:39:53 AM   %7B%0A%20%20%22Version%22%3A%20%222012-10...    True                 v2

[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
$policy = [System.Web.HttpUtility]::UrlDecode($results.Document)
$policy
{
  "Version":"2012-10-17",		 	 	 
  "Statement": 
    {
      "Effect": "Allow",
      "Action": [
        "ec2:DescribeInstances"
      ],
      "Resource": [
        "arn:aws:ec2:us-east-1:555555555555:instance/i-b188560f"
      ]
    }
}
```
+  Untuk detail API, lihat [GetPolicyVersion](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMPolicyVersionList`
<a name="iam_ListPolicyVersions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMPolicyVersionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan daftar versi kebijakan yang tersedia yang ARN-nya. `arn:aws:iam::123456789012:policy/MyManagedPolicy` Untuk mendapatkan dokumen kebijakan untuk versi tertentu, gunakan `Get-IAMPolicyVersion` perintah dan tentukan `VersionId` yang Anda inginkan.**  

```
Get-IAMPolicyVersionList -PolicyArn arn:aws:iam::123456789012:policy/MyManagedPolicy
```
**Output:**  

```
CreateDate                   Document                 IsDefaultVersion                  VersionId
----------                   --------                 ----------------                  ---------
2/12/2015 9:39:53 AM                                  True                              v2
2/12/2015 9:39:09 AM                                  False                             v1
```
+  Untuk detail API, lihat [ListPolicyVersions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMRole`
<a name="iam_GetRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan rincian`lamda_exec_role`. Ini termasuk dokumen kebijakan kepercayaan yang menentukan siapa yang dapat mengambil peran ini. Dokumen kebijakan adalah URL yang dikodekan dan dapat diterjemahkan menggunakan metode.NET. `UrlDecode` Dalam contoh ini, kebijakan asli menghapus semua spasi putih sebelum diunggah ke kebijakan. Untuk melihat dokumen kebijakan izin yang menentukan apa yang dapat dilakukan oleh seseorang yang mengasumsikan peran tersebut, gunakan kebijakan `Get-IAMRolePolicy` for inline, dan `Get-IAMPolicyVersion` untuk kebijakan terkelola terlampir.**  

```
$results = Get-IamRole -RoleName lambda_exec_role
$results | Format-List
```
**Output:**  

```
Arn                      : arn:aws:iam::123456789012:role/lambda_exec_role
AssumeRolePolicyDocument : %7B%22Version%22%3A%222012-10-17%22%2C%22Statement%22%3A%5B%7B%22Sid%22
                           %3A%22%22%2C%22Effect%22%3A%22Allow%22%2C%22Principal%22%3A%7B%22Service
                           %22%3A%22lambda.amazonaws.com%22%7D%2C%22Action%22%3A%22sts%3AAssumeRole
                           %22%7D%5D%7D
CreateDate               : 4/2/2015 9:16:11 AM
Path                     : /
RoleId                   : 2YBIKAIBHNKB4EXAMPLE1
RoleName                 : lambda_exec_role
```

```
$policy = [System.Web.HttpUtility]::UrlDecode($results.AssumeRolePolicyDocument)
$policy
```
**Output:**  

```
{"Version":"2012-10-17",		 	 	 "Statement":[{"Sid":"","Effect":"Allow","Principal":{"Service":"lambda.amazonaws.com"},"Action":"sts:AssumeRole"}]}
```
+  Untuk detail API, lihat [GetRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMRoleList`
<a name="iam_ListRoles_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRoleList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil daftar semua peran IAM di. Akun AWS**  

```
Get-IAMRoleList
```
+  Untuk detail API, lihat [ListRoles](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMRolePolicy`
<a name="iam_GetRolePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRolePolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan dokumen kebijakan izin untuk kebijakan bernama `oneClick_lambda_exec_role_policy` yang disematkan dalam peran IAM. `lamda_exec_role` Dokumen kebijakan yang dihasilkan adalah URL yang dikodekan. Ini diterjemahkan dalam contoh ini dengan `UrlDecode` metode.NET.**  

```
$results = Get-IAMRolePolicy -RoleName lambda_exec_role -PolicyName oneClick_lambda_exec_role_policy
$results
```
**Output:**  

```
PolicyDocument                                            PolicyName                           UserName
--------------                                            ----------                           --------
%7B%0A%20%20%22Version%22%3A%20%222012-10-17%22%2C%...    oneClick_lambda_exec_role_policy     lambda_exec_role
```

```
[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
[System.Web.HttpUtility]::UrlDecode($results.PolicyDocument)
```
**Output:**  

```
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "logs:*"
      ],
      "Resource": "arn:aws:logs:us-east-1:555555555555:log-group:/aws/lambda/aws-example-function:*"
    },
    {
      "Effect": "Allow",
      "Action": [
        "s3:GetObject",
        "s3:PutObject"
      ],
      "Resource": [
        "arn:aws:s3:::amzn-s3-demo-bucket/*"
      ]
    }
  ]
}
```
+  Untuk detail API, lihat [GetRolePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMRolePolicyList`
<a name="iam_ListRolePolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRolePolicyList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan daftar nama kebijakan inline yang disematkan dalam peran IAM. `lamda_exec_role` Untuk melihat detail kebijakan inline, gunakan perintah`Get-IAMRolePolicy`.**  

```
Get-IAMRolePolicyList -RoleName lambda_exec_role
```
**Output:**  

```
oneClick_lambda_exec_role_policy
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMRoleTagList`
<a name="iam_ListRoleTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMRoleTagList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil tag yang terkait dengan peran..**  

```
Get-IAMRoleTagList -RoleName MyRoleName
```
+  Untuk detail API, lihat [ListRoleTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMSAMLProvider`
<a name="iam_GetSamlProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMSAMLProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil detail tentang penyedia SAMP 2.0 yang ARM adalah arn:aws:iam: :123456789012: Saml-provider/Samladfs. Responsnya mencakup dokumen metadata yang Anda dapatkan dari penyedia identitas untuk membuat entitas penyedia AWS SAMP serta tanggal pembuatan dan kedaluwarsa.**  

```
Get-IAMSAMLProvider -SAMLProviderArn arn:aws:iam::123456789012:saml-provider/SAMLADFS
```
**Output:**  

```
CreateDate                 SAMLMetadataDocument                                          ValidUntil
----------                 --------------------                                          ----------
12/23/2014 12:16:55 PM    <EntityDescriptor ID="_12345678-1234-5678-9012-example1...    12/23/2114 12:16:54 PM
```
+  Untuk detail API, lihat [GetSamlProvider](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMSAMLProviderList`
<a name="iam_ListSAMLProviders_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMSAMLProviderList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil daftar penyedia SAMP 2.0 yang dibuat saat ini. Akun AWS Ini mengembalikan ARN, tanggal pembuatan, dan tanggal kedaluwarsa untuk setiap penyedia SAFL.**  

```
Get-IAMSAMLProviderList
```
**Output:**  

```
Arn                                                 CreateDate                      ValidUntil
---                                                 ----------                      ----------
arn:aws:iam::123456789012:saml-provider/SAMLADFS    12/23/2014 12:16:55 PM          12/23/2114 12:16:54 PM
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMServerCertificate`
<a name="iam_GetServerCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMServerCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil rincian tentang sertifikat server bernama`MyServerCertificate`. Anda dapat menemukan rincian sertifikat di `CertificateBody` dan `ServerCertificateMetadata` properti.**  

```
$result = Get-IAMServerCertificate -ServerCertificateName MyServerCertificate
$result | format-list
```
**Output:**  

```
CertificateBody           : -----BEGIN CERTIFICATE-----
                            MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
                            VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
                            b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
                            BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
                            MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
                            VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
                            b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
                            YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
                            21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
                            rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
                            Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
                            nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
                            FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
                            NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=
                            -----END CERTIFICATE-----
CertificateChain          : 
ServerCertificateMetadata : Amazon.IdentityManagement.Model.ServerCertificateMetadata
```

```
$result.ServerCertificateMetadata
```
**Output:**  

```
Arn                   : arn:aws:iam::123456789012:server-certificate/Org1/Org2/MyServerCertificate
Expiration            : 1/14/2018 9:52:36 AM
Path                  : /Org1/Org2/
ServerCertificateId   : ASCAJIFEXAMPLE17HQZYW
ServerCertificateName : MyServerCertificate
UploadDate            : 4/21/2015 11:14:16 AM
```
+  Untuk detail API, lihat [GetServerCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMServerCertificateList`
<a name="iam_ListServerCertificates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMServerCertificateList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil daftar sertifikat server yang telah diunggah ke saat ini. Akun AWS**  

```
Get-IAMServerCertificateList
```
**Output:**  

```
Arn                   : arn:aws:iam::123456789012:server-certificate/Org1/Org2/MyServerCertificate
Expiration            : 1/14/2018 9:52:36 AM
Path                  : /Org1/Org2/
ServerCertificateId   : ASCAJIFEXAMPLE17HQZYW
ServerCertificateName : MyServerCertificate
UploadDate            : 4/21/2015 11:14:16 AM
```
+  Untuk detail API, lihat [ListServerCertificates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMServiceLastAccessedDetail`
<a name="iam_GetServiceLastAccessedDetails_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMServiceLastAccessedDetail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memberikan rincian layanan yang terakhir diakses oleh entitas IAM (pengguna, grup, peran, atau kebijakan) yang terkait dalam panggilan Permintaan.**  

```
Request-IAMServiceLastAccessedDetail -Arn arn:aws:iam::123456789012:user/TestUser
```
**Output:**  

```
f0b7a819-eab0-929b-dc26-ca598911cb9f
```

```
Get-IAMServiceLastAccessedDetail -JobId f0b7a819-eab0-929b-dc26-ca598911cb9f
```
+  Untuk detail API, lihat [GetServiceLastAccessedDetails](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMServiceLastAccessedDetailWithEntity`
<a name="iam_GetServiceLastAccessedDetailsWithEntities_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMServiceLastAccessedDetailWithEntity`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memberikan stempel waktu terakhir yang diakses untuk layanan dalam permintaan oleh entitas IAM masing-masing.**  

```
$results = Get-IAMServiceLastAccessedDetailWithEntity -JobId f0b7a819-eab0-929b-dc26-ca598911cb9f -ServiceNamespace ec2
$results
```
**Output:**  

```
EntityDetailsList : {Amazon.IdentityManagement.Model.EntityDetails}
Error             : 
IsTruncated       : False
JobCompletionDate : 12/29/19 11:19:31 AM
JobCreationDate   : 12/29/19 11:19:31 AM
JobStatus         : COMPLETED
Marker            :
```

```
$results.EntityDetailsList
```
**Output:**  

```
EntityInfo                                 LastAuthenticated
----------                                 -----------------
Amazon.IdentityManagement.Model.EntityInfo 11/16/19 3:47:00 PM
```

```
$results.EntityInfo
```
**Output:**  

```
Arn  : arn:aws:iam::123456789012:user/TestUser
Id   : AIDA4NBK5CXF5TZHU1234
Name : TestUser
Path : /
Type : USER
```
+  Untuk detail API, lihat [GetServiceLastAccessedDetailsWithEntities](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMSigningCertificate`
<a name="iam_ListSigningCertificates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMSigningCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil rincian tentang sertifikat penandatanganan yang terkait dengan nama `Bob` pengguna.**  

```
Get-IAMSigningCertificate -UserName Bob
```
**Output:**  

```
CertificateBody : -----BEGIN CERTIFICATE-----
                  MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
                  VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
                  b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
                  BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
                  MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
                  VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
                  b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
                  YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
                  21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
                  rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
                  Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
                  nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
                  FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
                  NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=
                  -----END CERTIFICATE-----
CertificateId   : Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU
Status          : Active
UploadDate      : 4/20/2015 1:26:01 PM
UserName        : Bob
```
+  Untuk detail API, lihat [ListSigningCertificates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMUser`
<a name="iam_GetUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil rincian tentang nama `David` pengguna.**  

```
Get-IAMUser -UserName David
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:user/David
CreateDate       : 12/10/2014 3:39:27 PM
PasswordLastUsed : 3/19/2015 8:44:04 AM
Path             : /
UserId           : Y4FKWQCXTA52QEXAMPLE1
UserName         : David
```
**Contoh 2: Contoh ini mengambil detail tentang pengguna IAM yang saat ini masuk.**  

```
Get-IAMUser
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:user/Bob
CreateDate       : 10/16/2014 9:03:09 AM
PasswordLastUsed : 3/4/2015 12:12:33 PM
Path             : /
UserId           : 7K3GJEANSKZF2EXAMPLE2
UserName         : Bob
```
+  Untuk detail API, lihat [GetUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMUserList`
<a name="iam_ListUsers_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUserList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil koleksi pengguna saat ini Akun AWS.**  

```
Get-IAMUserList
```
**Output:**  

```
      Arn              : arn:aws:iam::123456789012:user/Administrator
      CreateDate       : 10/16/2014 9:03:09 AM
      PasswordLastUsed : 3/4/2015 12:12:33 PM
      Path             : /
      UserId           : 7K3GJEANSKZF2EXAMPLE1
      UserName         : Administrator
      
      Arn              : arn:aws:iam::123456789012:user/Bob
      CreateDate       : 4/6/2015 12:54:42 PM
      PasswordLastUsed : 1/1/0001 12:00:00 AM
      Path             : /
      UserId           : L3EWNONDOM3YUEXAMPLE2
      UserName         : bab
      
      Arn              : arn:aws:iam::123456789012:user/David
      CreateDate       : 12/10/2014 3:39:27 PM
      PasswordLastUsed : 3/19/2015 8:44:04 AM
      Path             : /
      UserId           : Y4FKWQCXTA52QEXAMPLE3
      UserName         : David
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMUserPolicy`
<a name="iam_GetUserPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUserPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil rincian kebijakan inline bernama `Davids_IAM_Admin_Policy` yang disematkan dalam nama pengguna IAM. `David` Dokumen kebijakan adalah URL yang dikodekan.**  

```
$results = Get-IAMUserPolicy -PolicyName Davids_IAM_Admin_Policy -UserName David
$results
```
**Output:**  

```
PolicyDocument                                            PolicyName                    UserName
--------------                                            ----------                    --------
%7B%0A%20%20%22Version%22%3A%20%222012-10-17%22%2C%...    Davids_IAM_Admin_Policy       David

[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
[System.Web.HttpUtility]::UrlDecode($results.PolicyDocument)
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "iam:GetUser",
        "iam:ListUsers"
      ],
      "Resource": [
        "arn:aws:iam::111122223333:user/*"
      ]
    }
  ]
}
```
+  Untuk detail API, lihat [GetUserPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMUserPolicyList`
<a name="iam_ListUserPolicies_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUserPolicyList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil daftar nama kebijakan inline yang disematkan dalam nama pengguna IAM. `David`**  

```
Get-IAMUserPolicyList -UserName David
```
**Output:**  

```
Davids_IAM_Admin_Policy
```
+  Untuk detail API, lihat [ListUserPolicies](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMUserTagList`
<a name="iam_ListUserTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMUserTagList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil tag yang terkait dengan pengguna.**  

```
Get-IAMUserTagList -UserName joe
```
+  Untuk detail API, lihat [ListUserTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-IAMVirtualMFADevice`
<a name="iam_ListVirtualMfaDevices_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-IAMVirtualMFADevice`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil koleksi perangkat MFA virtual yang ditetapkan untuk pengguna di AWS akun. `User`Properti masing-masing adalah objek dengan detail pengguna IAM tempat perangkat ditugaskan.**  

```
Get-IAMVirtualMFADevice -AssignmentStatus Assigned
```
**Output:**  

```
Base32StringSeed : 
EnableDate       : 4/13/2015 12:03:42 PM
QRCodePNG        : 
SerialNumber     : arn:aws:iam::123456789012:mfa/David
User             : Amazon.IdentityManagement.Model.User

Base32StringSeed : 
EnableDate       : 4/13/2015 12:06:41 PM
QRCodePNG        : 
SerialNumber     : arn:aws:iam::123456789012:mfa/root-account-mfa-device
User             : Amazon.IdentityManagement.Model.User
```
+  Untuk detail API, lihat [ListVirtualMfaDevices](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMAccessKey`
<a name="iam_CreateAccessKey_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMAccessKey`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kunci akses baru dan secret access key pair dan menetapkannya ke pengguna`David`. Pastikan Anda menyimpan `AccessKeyId` dan `SecretAccessKey` nilai ke file karena ini adalah satu-satunya waktu Anda dapat memperoleh file`SecretAccessKey`. Anda tidak dapat mengambilnya di lain waktu. Jika Anda kehilangan kunci rahasia, Anda harus membuat access key pair baru.**  

```
New-IAMAccessKey -UserName David
```
**Output:**  

```
AccessKeyId     : AKIAIOSFODNN7EXAMPLE
CreateDate      : 4/13/2015 1:00:42 PM
SecretAccessKey : wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY
Status          : Active
UserName        : David
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMAccountAlias`
<a name="iam_CreateAccountAlias_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMAccountAlias`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah alias akun untuk AWS `mycompanyaws` akun Anda. Alamat halaman logon pengguna diarahkan ke panyaws.signin.aws.amazon.com/console. https://mycom URL asli menggunakan nomor ID akun Anda, bukan alias (https://<accountidnumber>.signin.aws.amazon.com/console) terus berfungsi. Namun, semua berbasis alias yang didefinisikan sebelumnya URLs berhenti bekerja.**  

```
New-IAMAccountAlias -AccountAlias mycompanyaws
```
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMGroup`
<a name="iam_CreateGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat grup IAM baru bernama`Developers`.**  

```
New-IAMGroup -GroupName Developers
```
**Output:**  

```
Arn        : arn:aws:iam::123456789012:group/Developers
CreateDate : 4/14/2015 11:21:31 AM
GroupId    : QNEJ5PM4NFSQCEXAMPLE1
GroupName  : Developers
Path       : /
```
+  Untuk detail API, lihat [CreateGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMInstanceProfile`
<a name="iam_CreateInstanceProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMInstanceProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat profil instans IAM baru bernama`ProfileForDevEC2Instance`. Anda harus menjalankan `Add-IAMRoleToInstanceProfile` perintah secara terpisah untuk mengaitkan profil instance dengan peran IAM yang ada yang memberikan izin ke instance. Terakhir, lampirkan profil instance ke instans EC2 saat Anda meluncurkannya. Untuk melakukan itu, gunakan `New-EC2Instance` cmdlet dengan parameter `InstanceProfile_Arn` or`InstanceProfile_Name`.**  

```
New-IAMInstanceProfile -InstanceProfileName ProfileForDevEC2Instance
```
**Output:**  

```
Arn                 : arn:aws:iam::123456789012:instance-profile/ProfileForDevEC2Instance
CreateDate          : 4/14/2015 11:31:39 AM
InstanceProfileId   : DYMFXL556EY46EXAMPLE1
InstanceProfileName : ProfileForDevEC2Instance
Path                : /
Roles               : {}
```
+  Untuk detail API, lihat [CreateInstanceProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMLoginProfile`
<a name="iam_CreateLoginProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMLoginProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kata sandi (sementara) untuk pengguna IAM bernama Bob, dan menetapkan tanda yang mengharuskan pengguna untuk mengubah kata sandi saat `Bob` masuk berikutnya.**  

```
New-IAMLoginProfile -UserName Bob -Password P@ssw0rd -PasswordResetRequired $true
```
**Output:**  

```
CreateDate                    PasswordResetRequired                UserName
----------                    ---------------------                --------
4/14/2015 12:26:30 PM         True                                 Bob
```
+  Untuk detail API, lihat [CreateLoginProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMOpenIDConnectProvider`
<a name="iam_CreateOpenIdConnectProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMOpenIDConnectProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat penyedia IAM OIDC yang terkait dengan layanan penyedia kompatibel OIDC yang ditemukan di URL `https://example.oidcprovider.com` dan ID klien. `my-testapp-1` Penyedia OIDC memasok sidik jari. Untuk mengautentikasi sidik jari, ikuti langkah-langkah di http://docs.aws.amazon. com/IAM/latest/UserGuide/identity- providers-oidc-obtain-thumbprint .html**.  

```
New-IAMOpenIDConnectProvider -Url https://example.oidcprovider.com -ClientIDList my-testapp-1 -ThumbprintList 990F419EXAMPLEECF12DDEDA5EXAMPLE52F20D9E
```
**Output:**  

```
arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com
```
+  Untuk detail API, lihat [CreateOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMPolicy`
<a name="iam_CreatePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kebijakan IAM baru di AWS akun saat ini bernama `MySamplePolicy` File `MySamplePolicy.json` menyediakan konten kebijakan. Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses file kebijakan JSON.**  

```
New-IAMPolicy -PolicyName MySamplePolicy -PolicyDocument (Get-Content -Raw MySamplePolicy.json)
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:policy/MySamplePolicy
AttachmentCount  : 0
CreateDate       : 4/14/2015 2:45:59 PM
DefaultVersionId : v1
Description      : 
IsAttachable     : True
Path             : /
PolicyId         : LD4KP6HVFE7WGEXAMPLE1
PolicyName       : MySamplePolicy
UpdateDate       : 4/14/2015 2:45:59 PM
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMPolicyVersion`
<a name="iam_CreatePolicyVersion_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMPolicyVersion`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat versi “v2" baru dari kebijakan IAM yang ARN-nya `arn:aws:iam::123456789012:policy/MyPolicy` dan menjadikannya versi default. `NewPolicyVersion.json`File tersebut menyediakan konten kebijakan. Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses file kebijakan JSON.**  

```
New-IAMPolicyVersion -PolicyArn arn:aws:iam::123456789012:policy/MyPolicy -PolicyDocument (Get-content -Raw NewPolicyVersion.json) -SetAsDefault $true
```
**Output:**  

```
CreateDate                           Document                  IsDefaultVersion             VersionId
----------                           --------                  ----------------             ---------
4/15/2015 10:54:54 AM                                          True                         v2
```
+  Untuk detail API, lihat [CreatePolicyVersion](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMRole`
<a name="iam_CreateRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat peran baru bernama `MyNewRole` dan melampirkan padanya kebijakan yang ditemukan dalam file`NewRoleTrustPolicy.json`. Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses file kebijakan JSON. Dokumen kebijakan yang ditampilkan dalam output adalah URL yang dikodekan. Ini diterjemahkan dalam contoh ini dengan `UrlDecode` metode.NET.**  

```
$results = New-IAMRole -AssumeRolePolicyDocument (Get-Content -raw NewRoleTrustPolicy.json) -RoleName MyNewRole
$results
```
**Output:**  

```
Arn                      : arn:aws:iam::123456789012:role/MyNewRole
AssumeRolePolicyDocument : %7B%0D%0A%20%20%22Version%22%3A%20%222012-10-17%22%2C%0D%0A%20%20%22Statement%22
                           %3A%20%5B%0D%0A%20%20%20%20%7B%0D%0A%20%20%20%20%20%20%22Sid%22%3A%20%22%22%2C
                           %0D%0A%20%20%20%20%20%20%22Effect%22%3A%20%22Allow%22%2C%0D%0A%20%20%20%20%20%20
                           %22Principal%22%3A%20%7B%0D%0A%20%20%20%20%20%20%20%20%22AWS%22%3A%20%22arn%3Aaws
                           %3Aiam%3A%3A123456789012%3ADavid%22%0D%0A%20%20%20%20%20%20%7D%2C%0D%0A%20%20%20
                           %20%20%20%22Action%22%3A%20%22sts%3AAssumeRole%22%0D%0A%20%20%20%20%7D%0D%0A%20
                           %20%5D%0D%0A%7D
CreateDate               : 4/15/2015 11:04:23 AM
Path                     : /
RoleId                   : V5PAJI2KPN4EAEXAMPLE1
RoleName                 : MyNewRole

[System.Reflection.Assembly]::LoadWithPartialName("System.Web.HttpUtility")
[System.Web.HttpUtility]::UrlDecode($results.AssumeRolePolicyDocument)
{
  "Version":"2012-10-17",		 	 	 
  "Statement": [
    {
      "Sid": "",
      "Effect": "Allow",
      "Principal": {
        "AWS": "arn:aws:iam::123456789012:David"
      },
      "Action": "sts:AssumeRole"
    }
  ]
}
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMSAMLProvider`
<a name="iam_CreateSAMLProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMSAMLProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat entitas penyedia SAMP baru di IAM. Ini dinamai `MySAMLProvider` dan dijelaskan oleh dokumen metadata SAMP yang ditemukan dalam file`SAMLMetaData.xml`, yang diunduh secara terpisah dari situs web penyedia layanan SAMP.**  

```
New-IAMSAMLProvider -Name MySAMLProvider -SAMLMetadataDocument (Get-Content -Raw SAMLMetaData.xml)
```
**Output:**  

```
arn:aws:iam::123456789012:saml-provider/MySAMLProvider
```
+  Untuk detail API, lihat [Membuat SAMLProvider](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMServiceLinkedRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat peran servicelinked untuk layanan penskalaan otomatis.**  

```
New-IAMServiceLinkedRole -AWSServiceName autoscaling.amazonaws.com -CustomSuffix RoleNameEndsWithThis -Description "My service-linked role to support autoscaling"
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMUser`
<a name="iam_CreateUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat pengguna IAM bernama`Bob`. Jika Bob perlu masuk ke AWS konsol, maka Anda harus menjalankan perintah secara terpisah `New-IAMLoginProfile` untuk membuat profil masuk dengan kata sandi. Jika Bob perlu menjalankan AWS PowerShell atau perintah CLI lintas platform atau AWS melakukan panggilan API, maka Anda harus menjalankan `New-IAMAccessKey` perintah secara terpisah untuk membuat kunci akses.**  

```
New-IAMUser -UserName Bob
```
**Output:**  

```
Arn              : arn:aws:iam::123456789012:user/Bob
CreateDate       : 4/22/2015 12:02:11 PM
PasswordLastUsed : 1/1/0001 12:00:00 AM
Path             : /
UserId           : AIDAJWGEFDMEMEXAMPLE1
UserName         : Bob
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-IAMVirtualMFADevice`
<a name="iam_CreateVirtualMfaDevice_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-IAMVirtualMFADevice`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat perangkat MFA virtual baru. Baris 2 dan 3 mengekstrak `Base32StringSeed` nilai yang dibutuhkan program perangkat lunak MFA virtual untuk membuat akun (sebagai alternatif dari kode QR). Setelah Anda mengkonfigurasi program dengan nilai, dapatkan dua kode otentikasi berurutan dari program. Terakhir, gunakan perintah terakhir untuk menautkan perangkat MFA virtual ke pengguna IAM `Bob` dan menyinkronkan akun dengan dua kode otentikasi.**  

```
$Device = New-IAMVirtualMFADevice -VirtualMFADeviceName BobsMFADevice
$SR = New-Object System.IO.StreamReader($Device.Base32StringSeed)
$base32stringseed = $SR.ReadToEnd()
$base32stringseed   
CZWZMCQNW4DEXAMPLE3VOUGXJFZYSUW7EXAMPLECR4NJFD65GX2SLUDW2EXAMPLE
```
**Output:**  

```
-- Pause here to enter base-32 string seed code into virtual MFA program to register account. --

Enable-IAMMFADevice -SerialNumber $Device.SerialNumber -UserName Bob -AuthenticationCode1 123456 -AuthenticationCode2 789012
```
**Contoh 2: Contoh ini membuat perangkat MFA virtual baru. Baris 2 dan 3 mengekstrak `QRCodePNG` nilai dan menuliskannya ke file. Gambar ini dapat dipindai oleh program perangkat lunak MFA virtual untuk membuat akun (sebagai alternatif untuk memasukkan nilai StringSeed Base32 secara manual). Setelah Anda membuat akun di program MFA virtual Anda, dapatkan dua kode otentikasi berurutan dan masukkan dalam perintah terakhir untuk menautkan perangkat MFA virtual ke pengguna IAM dan menyinkronkan akun. `Bob`**  

```
$Device = New-IAMVirtualMFADevice -VirtualMFADeviceName BobsMFADevice
$BR = New-Object System.IO.BinaryReader($Device.QRCodePNG)
$BR.ReadBytes($BR.BaseStream.Length) | Set-Content -Encoding Byte -Path QRCode.png
```
**Output:**  

```
 -- Pause here to scan PNG with virtual MFA program to register account. -- 

Enable-IAMMFADevice -SerialNumber $Device.SerialNumber -UserName Bob -AuthenticationCode1 123456 -AuthenticationCode2 789012
```
+  Untuk detail API, lihat [CreateVirtualMfaDevice](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Publish-IAMServerCertificate`
<a name="iam_UploadServerCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-IAMServerCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengunggah sertifikat server baru ke akun IAM. File yang berisi badan sertifikat, kunci pribadi, dan (opsional) rantai sertifikat semuanya harus dikodekan PEM. Perhatikan bahwa parameter memerlukan konten sebenarnya dari file daripada nama file. Anda harus menggunakan parameter `-Raw` sakelar untuk berhasil memproses konten file.**  

```
Publish-IAMServerCertificate -ServerCertificateName MyTestCert -CertificateBody (Get-Content -Raw server.crt) -PrivateKey (Get-Content -Raw server.key)
```
**Output:**  

```
Arn                   : arn:aws:iam::123456789012:server-certificate/MyTestCert
Expiration            : 1/14/2018 9:52:36 AM
Path                  : /
ServerCertificateId   : ASCAJIEXAMPLE7J7HQZYW
ServerCertificateName : MyTestCert
UploadDate            : 4/21/2015 11:14:16 AM
```
+  Untuk detail API, lihat [UploadServerCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Publish-IAMSigningCertificate`
<a name="iam_UploadSigningCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-IAMSigningCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengunggah sertifikat penandatanganan X.509 baru dan mengaitkannya dengan nama pengguna IAM. `Bob` File yang berisi badan sertifikat dikodekan PEM. `CertificateBody`Parameter memerlukan konten sebenarnya dari file sertifikat daripada nama file. Anda harus menggunakan parameter `-Raw` sakelar untuk berhasil memproses file.**  

```
Publish-IAMSigningCertificate -UserName Bob -CertificateBody (Get-Content -Raw SampleSigningCert.pem)
```
**Output:**  

```
CertificateBody : -----BEGIN CERTIFICATE-----
                  MIICiTCCAfICCQD6m7oRw0uXOjANBgkqhkiG9w0BAQUFADCBiDELMAkGA1UEBhMC
                  VVMxCzAJBgNVBAgTAldBMRAwDgYDVQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6
                  b24xFDASBgNVBAsTC0lBTSBDb25zb2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAd
                  BgkqhkiG9w0BCQEWEG5vb25lQGFtYXpvbi5jb20wHhcNMTEwNDI1MjA0NTIxWhcN
                  MTIwNDI0MjA0NTIxWjCBiDELMAkGA1UEBhMCVVMxCzAJBgNVBAgTAldBMRAwDgYD
                  VQQHEwdTZWF0dGxlMQ8wDQYDVQQKEwZBbWF6b24xFDASBgNVBAsTC0lBTSBDb25z
                  b2xlMRIwEAYDVQQDEwlUZXN0Q2lsYWMxHzAdBgkqhkiG9w0BCQEWEG5vb25lQGFt
                  YXpvbi5jb20wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAMaK0dn+a4GmWIWJ
                  21uUSfwfEvySWtC2XADZ4nB+BLYgVIk60CpiwsZ3G93vUEIO3IyNoH/f0wYK8m9T
                  rDHudUZg3qX4waLG5M43q7Wgc/MbQITxOUSQv7c7ugFFDzQGBzZswY6786m86gpE
                  Ibb3OhjZnzcvQAaRHhdlQWIMm2nrAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAtCu4
                  nUhVVxYUntneD9+h8Mg9q6q+auNKyExzyLwaxlAoo7TJHidbtS4J5iNmZgXL0Fkb
                  FFBjvSfpJIlJ00zbhNYS5f6GuoEDmFJl0ZxBHjJnyp378OD8uTs7fLvjx79LjSTb
                  NYiytVbZPQUQ5Yaxu2jXnimvw3rrszlaEXAMPLE=
                  -----END CERTIFICATE-----
CertificateId   : Y3EK7RMEXAMPLESV33FCEXAMPLEHMJLU
Status          : Active
UploadDate      : 4/20/2015 1:26:01 PM
UserName        : Bob
```
+  Untuk detail API, lihat [UploadSigningCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-IAMGroupPolicy`
<a name="iam_AttachGroupPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-IAMGroupPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan kebijakan terkelola pelanggan yang diberi nama `TesterPolicy` ke grup IAM. `Testers` Pengguna dalam grup tersebut langsung terpengaruh oleh izin yang ditentukan dalam versi default kebijakan tersebut.**  

```
Register-IAMGroupPolicy -GroupName Testers -PolicyArn arn:aws:iam::123456789012:policy/TesterPolicy
```
**Contoh 2: Contoh ini melampirkan kebijakan AWS terkelola bernama `AdministratorAccess` ke grup IAM. `Admins` Pengguna dalam grup tersebut langsung terpengaruh oleh izin yang ditentukan dalam versi terbaru kebijakan tersebut.**  

```
Register-IAMGroupPolicy -GroupName Admins -PolicyArn arn:aws:iam::aws:policy/AdministratorAccess
```
+  Untuk detail API, lihat [AttachGroupPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-IAMRolePolicy`
<a name="iam_AttachRolePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-IAMRolePolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan kebijakan AWS terkelola yang diberi nama `SecurityAudit` ke peran IAM. `CoSecurityAuditors` Pengguna yang menganggap peran tersebut langsung terpengaruh oleh izin yang ditentukan dalam versi terbaru kebijakan tersebut.**  

```
Register-IAMRolePolicy -RoleName CoSecurityAuditors -PolicyArn arn:aws:iam::aws:policy/SecurityAudit
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-IAMUserPolicy`
<a name="iam_AttachUserPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-IAMUserPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melampirkan kebijakan AWS terkelola bernama `AmazonCognitoPowerUser` ke pengguna IAM. `Bob` Pengguna langsung terpengaruh oleh izin yang ditentukan dalam versi terbaru kebijakan tersebut.**  

```
Register-IAMUserPolicy -UserName Bob -PolicyArn arn:aws:iam::aws:policy/AmazonCognitoPowerUser
```
+  Untuk detail API, lihat [AttachUserPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMAccessKey`
<a name="iam_DeleteAccessKey_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMAccessKey`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus AWS access key pair dengan ID kunci `AKIAIOSFODNN7EXAMPLE` dari nama `Bob` pengguna.**  

```
Remove-IAMAccessKey -AccessKeyId AKIAIOSFODNN7EXAMPLE -UserName Bob -Force
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMAccountAlias`
<a name="iam_DeleteAccountAlias_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMAccountAlias`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus alias akun dari akun Anda Akun AWS. Halaman login pengguna dengan alias di https://mycom panyaws.signin.aws.amazon.com/console tidak lagi berfungsi. Sebagai gantinya, Anda harus menggunakan URL asli dengan nomor Akun AWS ID Anda di https://.signin.aws.amazon.com/console.** <accountidnumber>  

```
Remove-IAMAccountAlias -AccountAlias mycompanyaws
```
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMAccountPasswordPolicy`
<a name="iam_DeleteAccountPasswordPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMAccountPasswordPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus kebijakan kata sandi untuk Akun AWS dan mengatur ulang semua nilai ke default aslinya. Jika kebijakan kata sandi saat ini tidak ada, pesan galat berikut akan muncul: Kebijakan akun dengan nama PasswordPolicy tidak dapat ditemukan.**  

```
Remove-IAMAccountPasswordPolicy
```
+  Untuk detail API, lihat [DeleteAccountPasswordPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMClientIDFromOpenIDConnectProvider`
<a name="iam_RemoveClientIdFromOpenIdConnectProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMClientIDFromOpenIDConnectProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus ID klien `My-TestApp-3` dari daftar klien yang IDs terkait dengan penyedia IAM OIDC yang ARN-nya. `arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com`**  

```
Remove-IAMClientIDFromOpenIDConnectProvider -ClientID My-TestApp-3 -OpenIDConnectProviderArn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com
```
+  Untuk detail API, lihat [RemoveClientIdFromOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMGroup`
<a name="iam_DeleteGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus grup IAM bernama. `MyTestGroup` Perintah pertama menghapus setiap pengguna IAM yang merupakan anggota grup, dan perintah kedua menghapus grup IAM. Kedua perintah bekerja tanpa ada petunjuk untuk konfirmasi.**  

```
(Get-IAMGroup -GroupName MyTestGroup).Users | Remove-IAMUserFromGroup -GroupName MyTestGroup -Force
Remove-IAMGroup -GroupName MyTestGroup -Force
```
+  Untuk detail API, lihat [DeleteGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMGroupPolicy`
<a name="iam_DeleteGroupPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMGroupPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus kebijakan inline bernama `TesterPolicy` dari grup IAM. `Testers` Pengguna dalam grup tersebut segera kehilangan izin yang ditentukan dalam kebijakan tersebut.**  

```
Remove-IAMGroupPolicy -GroupName Testers -PolicyName TestPolicy
```
+  Untuk detail API, lihat [DeleteGroupPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMInstanceProfile`
<a name="iam_DeleteInstanceProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMInstanceProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus profil instans EC2 bernama. `MyAppInstanceProfile` Perintah pertama melepaskan peran apa pun dari profil instance, dan kemudian perintah kedua menghapus profil instance.**  

```
(Get-IAMInstanceProfile -InstanceProfileName MyAppInstanceProfile).Roles | Remove-IAMRoleFromInstanceProfile -InstanceProfileName MyAppInstanceProfile
Remove-IAMInstanceProfile -InstanceProfileName MyAppInstanceProfile
```
+  Untuk detail API, lihat [DeleteInstanceProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMLoginProfile`
<a name="iam_DeleteLoginProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMLoginProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus profil login dari pengguna IAM bernama. `Bob` Ini mencegah pengguna masuk ke konsol. AWS Itu tidak mencegah pengguna menjalankan AWS CLI, PowerShell, atau panggilan API apa pun menggunakan kunci AWS akses yang mungkin masih dilampirkan ke akun pengguna.**  

```
Remove-IAMLoginProfile -UserName Bob
```
+  Untuk detail API, lihat [DeleteLoginProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMOpenIDConnectProvider`
<a name="iam_DeleteOpenIdConnectProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMOpenIDConnectProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus penyedia IAM OIDC yang terhubung ke penyedia. `example.oidcprovider.com` Pastikan Anda memperbarui atau menghapus peran apa pun yang mereferensikan penyedia ini dalam `Principal` elemen kebijakan kepercayaan peran tersebut.**  

```
Remove-IAMOpenIDConnectProvider -OpenIDConnectProviderArn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com
```
+  Untuk detail API, lihat [DeleteOpenIdConnectProvider](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMPolicy`
<a name="iam_DeletePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus kebijakan `arn:aws:iam::123456789012:policy/MySamplePolicy` ARN-nya. Sebelum Anda dapat menghapus kebijakan, Anda harus terlebih dahulu menghapus semua versi kecuali default dengan menjalankan`Remove-IAMPolicyVersion`. Anda juga harus melepaskan kebijakan dari setiap pengguna, grup, atau peran IAM.**  

```
Remove-IAMPolicy -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy
```
**Contoh 2: Contoh ini menghapus kebijakan dengan terlebih dahulu menghapus semua versi kebijakan non-default, melepaskannya dari semua entitas IAM terlampir, dan akhirnya menghapus kebijakan itu sendiri. Baris pertama mengambil objek kebijakan. Baris kedua mengambil semua versi kebijakan yang tidak ditandai sebagai versi default ke dalam koleksi dan kemudian menghapus setiap kebijakan dalam koleksi. Baris ketiga mengambil semua pengguna, grup, dan peran IAM yang dilampirkan kebijakan tersebut. Baris empat hingga enam melepaskan kebijakan dari setiap entitas terlampir. Baris terakhir menggunakan perintah ini untuk menghapus kebijakan terkelola serta versi default yang tersisa. Contohnya termasuk parameter `-Force` sakelar pada baris apa pun yang membutuhkannya untuk menekan permintaan konfirmasi.**  

```
$pol = Get-IAMPolicy -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy
Get-IAMPolicyVersions -PolicyArn $pol.Arn | where {-not $_.IsDefaultVersion} | Remove-IAMPolicyVersion -PolicyArn $pol.Arn -force
$attached = Get-IAMEntitiesForPolicy -PolicyArn $pol.Arn
$attached.PolicyGroups | Unregister-IAMGroupPolicy -PolicyArn $pol.arn
$attached.PolicyRoles | Unregister-IAMRolePolicy -PolicyArn $pol.arn
$attached.PolicyUsers | Unregister-IAMUserPolicy -PolicyArn $pol.arn
Remove-IAMPolicy $pol.Arn -Force
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMPolicyVersion`
<a name="iam_DeletePolicyVersion_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMPolicyVersion`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus versi yang diidentifikasi sebagai `v2` dari kebijakan `arn:aws:iam::123456789012:policy/MySamplePolicy` ARN-nya.**  

```
Remove-IAMPolicyVersion -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy -VersionID v2
```
**Contoh 2: Contoh ini menghapus kebijakan dengan terlebih dahulu menghapus semua versi kebijakan non-default dan kemudian menghapus kebijakan itu sendiri. Baris pertama mengambil objek kebijakan. Baris kedua mengambil semua versi kebijakan yang tidak ditandai sebagai default ke dalam koleksi dan kemudian menggunakan perintah ini untuk menghapus setiap kebijakan dalam koleksi. Baris terakhir menghapus kebijakan itu sendiri serta versi default yang tersisa. Perhatikan bahwa agar berhasil menghapus kebijakan terkelola, Anda juga harus melepaskan kebijakan dari pengguna, grup, atau peran apa pun dengan menggunakan perintah`Unregister-IAMUserPolicy`,`Unregister-IAMGroupPolicy`, dan `Unregister-IAMRolePolicy` perintah. Lihat contoh untuk `Remove-IAMPolicy` cmdlet.**  

```
$pol = Get-IAMPolicy -PolicyArn arn:aws:iam::123456789012:policy/MySamplePolicy
Get-IAMPolicyVersions -PolicyArn $pol.Arn | where {-not $_.IsDefaultVersion} | Remove-IAMPolicyVersion -PolicyArn $pol.Arn -force
Remove-IAMPolicy -PolicyArn $pol.Arn -force
```
+  Untuk detail API, lihat [DeletePolicyVersion](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMRole`
<a name="iam_DeleteRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus peran yang dinamai `MyNewRole` dari akun IAM saat ini. Sebelum Anda dapat menghapus peran, Anda harus terlebih dahulu menggunakan `Unregister-IAMRolePolicy` perintah untuk melepaskan kebijakan terkelola apa pun. Kebijakan sebaris dihapus dengan peran.**  

```
Remove-IAMRole -RoleName MyNewRole
```
**Contoh 2: Contoh ini melepaskan kebijakan terkelola dari peran bernama `MyNewRole` dan kemudian menghapus peran tersebut. Baris pertama mengambil kebijakan terkelola yang melekat pada peran sebagai koleksi dan kemudian melepaskan setiap kebijakan dalam koleksi dari peran tersebut. Baris kedua menghapus peran itu sendiri. Kebijakan inline dihapus bersama dengan peran.**  

```
Get-IAMAttachedRolePolicyList -RoleName MyNewRole | Unregister-IAMRolePolicy -RoleName MyNewRole
Remove-IAMRole -RoleName MyNewRole
```
+  Untuk detail API, lihat [DeleteRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMRoleFromInstanceProfile`
<a name="iam_RemoveRoleFromInstanceProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRoleFromInstanceProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus peran bernama `MyNewRole` dari profil instans EC2 bernama. `MyNewRole` Profil instance yang dibuat di konsol IAM selalu memiliki nama yang sama dengan peran, seperti dalam contoh ini. Jika Anda membuatnya di API atau CLI, maka mereka dapat memiliki nama yang berbeda.**  

```
Remove-IAMRoleFromInstanceProfile -InstanceProfileName MyNewRole -RoleName MyNewRole -Force
```
+  Untuk detail API, lihat [RemoveRoleFromInstanceProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMRolePermissionsBoundary`
<a name="iam_DeleteRolePermissionsBoundary_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRolePermissionsBoundary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara menghapus batas izin yang dilampirkan ke peran IAM.**  

```
Remove-IAMRolePermissionsBoundary -RoleName MyRoleName
```
+  Untuk detail API, lihat [DeleteRolePermissionsBoundary](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMRolePolicy`
<a name="iam_DeleteRolePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRolePolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus kebijakan inline `S3AccessPolicy` yang disematkan dalam peran IAM. `S3BackupRole`**  

```
Remove-IAMRolePolicy -PolicyName S3AccessPolicy -RoleName S3BackupRole
```
+  Untuk detail API, lihat [DeleteRolePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMRoleTag`
<a name="iam_UntagRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMRoleTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag dari peran bernama "MyRoleName" dengan kunci tag sebagai “abac”. Untuk menghapus beberapa tag, berikan daftar kunci tag yang dipisahkan koma.**  

```
Remove-IAMRoleTag -RoleName MyRoleName -TagKey "abac","xyzw"
```
+  Untuk detail API, lihat [UntagRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMSAMLProvider`
<a name="iam_DeleteSAMLProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMSAMLProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus penyedia IAM SALL 2.0 yang ARN-nya. `arn:aws:iam::123456789012:saml-provider/SAMLADFSProvider`**  

```
Remove-IAMSAMLProvider -SAMLProviderArn arn:aws:iam::123456789012:saml-provider/SAMLADFSProvider
```
+  Untuk detail API, lihat [Menghapus SAMLProvider](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMServerCertificate`
<a name="iam_DeleteServerCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMServerCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus sertifikat server bernama`MyServerCert`.**  

```
Remove-IAMServerCertificate -ServerCertificateName MyServerCert
```
+  Untuk detail API, lihat [DeleteServerCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMServiceLinkedRole`
<a name="iam_DeleteServiceLinkedRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMServiceLinkedRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus peran terkait layanan. Harap dicatat bahwa jika layanan masih menggunakan peran ini, maka perintah ini mengakibatkan kegagalan.**  

```
Remove-IAMServiceLinkedRole -RoleName AWSServiceRoleForAutoScaling_RoleNameEndsWithThis
```
+  Untuk detail API, lihat [DeleteServiceLinkedRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMSigningCertificate`
<a name="iam_DeleteSigningCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMSigningCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus sertifikat penandatanganan dengan ID `Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU` dari pengguna IAM bernama. `Bob`**  

```
Remove-IAMSigningCertificate -UserName Bob -CertificateId Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU
```
+  Untuk detail API, lihat [DeleteSigningCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMUser`
<a name="iam_DeleteUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus nama pengguna IAM. `Bob`**  

```
Remove-IAMUser -UserName Bob
```
**Contoh 2: Contoh ini menghapus nama pengguna IAM `Theresa` bersama dengan elemen apa pun yang harus dihapus terlebih dahulu.**  

```
$name = "Theresa"

# find any groups and remove user from them
$groups = Get-IAMGroupForUser -UserName $name
foreach ($group in $groups) { Remove-IAMUserFromGroup -GroupName $group.GroupName -UserName $name -Force }

# find any inline policies and delete them
$inlinepols = Get-IAMUserPolicies -UserName $name
foreach ($pol in $inlinepols) { Remove-IAMUserPolicy -PolicyName $pol -UserName $name -Force}

# find any managed polices and detach them
$managedpols = Get-IAMAttachedUserPolicies -UserName $name
foreach ($pol in $managedpols) { Unregister-IAMUserPolicy -PolicyArn $pol.PolicyArn -UserName $name }

# find any signing certificates and delete them
$certs = Get-IAMSigningCertificate -UserName $name
foreach ($cert in $certs) { Remove-IAMSigningCertificate -CertificateId $cert.CertificateId -UserName $name -Force }

# find any access keys and delete them
$keys = Get-IAMAccessKey -UserName $name
foreach ($key in $keys) { Remove-IAMAccessKey -AccessKeyId $key.AccessKeyId -UserName $name -Force }

# delete the user's login profile, if one exists - note: need to use try/catch to suppress not found error
try { $prof = Get-IAMLoginProfile -UserName $name -ea 0 } catch { out-null }
if ($prof) { Remove-IAMLoginProfile -UserName $name -Force }

# find any MFA device, detach it, and if virtual, delete it.
$mfa = Get-IAMMFADevice -UserName $name
if ($mfa) { 
    Disable-IAMMFADevice -SerialNumber $mfa.SerialNumber -UserName $name 
    if ($mfa.SerialNumber -like "arn:*") { Remove-IAMVirtualMFADevice -SerialNumber $mfa.SerialNumber }
}

# finally, remove the user
Remove-IAMUser -UserName $name -Force
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMUserFromGroup`
<a name="iam_RemoveUserFromGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUserFromGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus pengguna IAM `Bob` dari grup`Testers`.**  

```
Remove-IAMUserFromGroup -GroupName Testers -UserName Bob
```
**Contoh 2: Contoh ini menemukan grup yang pengguna IAM `Theresa` adalah anggota, dan kemudian dihapus `Theresa` dari grup tersebut.**  

```
$groups = Get-IAMGroupForUser -UserName Theresa 
foreach ($group in $groups) { Remove-IAMUserFromGroup -GroupName $group.GroupName -UserName Theresa -Force }
```
**Contoh 3: Contoh ini menunjukkan cara alternatif untuk menghapus pengguna IAM `Bob` dari `Testers` grup.**  

```
Get-IAMGroupForUser -UserName Bob | Remove-IAMUserFromGroup -UserName Bob -GroupName Testers -Force
```
+  Untuk detail API, lihat [RemoveUserFromGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMUserPermissionsBoundary`
<a name="iam_DeleteUserPermissionsBoundary_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUserPermissionsBoundary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara menghapus batas izin yang dilampirkan ke pengguna IAM.**  

```
Remove-IAMUserPermissionsBoundary -UserName joe
```
+  Untuk detail API, lihat [DeleteUserPermissionsBoundary](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMUserPolicy`
<a name="iam_DeleteUserPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUserPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus kebijakan inline bernama `AccessToEC2Policy` yang disematkan dalam nama pengguna IAM. `Bob`**  

```
Remove-IAMUserPolicy -PolicyName AccessToEC2Policy -UserName Bob
```
**Contoh 2: Contoh ini menemukan semua kebijakan inline yang disematkan dalam nama pengguna IAM `Theresa` dan kemudian menghapusnya.**  

```
$inlinepols = Get-IAMUserPolicies -UserName Theresa
foreach ($pol in $inlinepols) { Remove-IAMUserPolicy -PolicyName $pol -UserName Theresa -Force}
```
+  Untuk detail API, lihat [DeleteUserPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMUserTag`
<a name="iam_UntagUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMUserTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag dari pengguna bernama “joe” dengan kunci tag sebagai “abac” dan “xyzw”. Untuk menghapus beberapa tag, berikan daftar kunci tag yang dipisahkan koma.**  

```
Remove-IAMUserTag -UserName joe -TagKey "abac","xyzw"
```
+  Untuk detail API, lihat [UntagUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-IAMVirtualMFADevice`
<a name="iam_DeleteVirtualMfaDevice_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-IAMVirtualMFADevice`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus perangkat MFA virtual IAM yang ARN-nya. `arn:aws:iam::123456789012:mfa/bob`**  

```
Remove-IAMVirtualMFADevice -SerialNumber arn:aws:iam::123456789012:mfa/bob
```
**Contoh 2: Contoh ini memeriksa untuk melihat apakah pengguna IAM Theresa memiliki perangkat MFA yang ditetapkan. Jika ditemukan, perangkat dinonaktifkan untuk pengguna IAM. Jika perangkat virtual, maka itu juga dihapus.**  

```
$mfa = Get-IAMMFADevice -UserName Theresa
if ($mfa) { 
    Disable-IAMMFADevice -SerialNumber $mfa.SerialNumber -UserName $name 
    if ($mfa.SerialNumber -like "arn:*") { Remove-IAMVirtualMFADevice -SerialNumber $mfa.SerialNumber }
}
```
+  Untuk detail API, lihat [DeleteVirtualMfaDevice](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Request-IAMCredentialReport`
<a name="iam_GenerateCredentialReport_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-IAMCredentialReport`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini meminta pembuatan laporan baru, yang dapat dilakukan setiap empat jam. Jika laporan terakhir masih terbaru, bidang Negara berbunyi`COMPLETE`. Gunakan `Get-IAMCredentialReport` untuk melihat laporan yang sudah selesai.**  

```
Request-IAMCredentialReport
```
**Output:**  

```
Description                                                    State
-----------                                                    -----
No report exists. Starting a new report generation task        STARTED
```
+  Untuk detail API, lihat [GenerateCredentialReport](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Request-IAMServiceLastAccessedDetail`
<a name="iam_GenerateServiceLastAccessedDetails_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-IAMServiceLastAccessedDetail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini setara dengan cmdlet API. GenerateServiceLastAccessedDetails Ini menyediakan dengan id pekerjaan yang dapat digunakan di Get-IAMServiceLastAccessedDetail dan Dapatkan- IAMService LastAccessedDetailWithEntity**  

```
Request-IAMServiceLastAccessedDetail -Arn arn:aws:iam::123456789012:user/TestUser
```
+  Untuk detail API, lihat [GenerateServiceLastAccessedDetails](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-IAMDefaultPolicyVersion`
<a name="iam_SetDefaultPolicyVersion_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-IAMDefaultPolicyVersion`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menetapkan `v2` versi kebijakan yang ARN-nya `arn:aws:iam::123456789012:policy/MyPolicy` sebagai versi aktif default.**  

```
Set-IAMDefaultPolicyVersion -PolicyArn arn:aws:iam::123456789012:policy/MyPolicy -VersionId v2
```
+  Untuk detail API, lihat [SetDefaultPolicyVersion](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-IAMRolePermissionsBoundary`
<a name="iam_PutRolePermissionsBoundary_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-IAMRolePermissionsBoundary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara mengatur batas Izin untuk Peran IAM. Anda dapat menetapkan Kebijakan AWS terkelola atau Kebijakan khusus sebagai batas izin.**  

```
Set-IAMRolePermissionsBoundary -RoleName MyRoleName -PermissionsBoundary arn:aws:iam::123456789012:policy/intern-boundary
```
+  Untuk detail API, lihat [PutRolePermissionsBoundary](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-IAMUserPermissionsBoundary`
<a name="iam_PutUserPermissionsBoundary_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-IAMUserPermissionsBoundary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara mengatur batas Izin untuk pengguna. Anda dapat menetapkan Kebijakan AWS terkelola atau Kebijakan khusus sebagai batas izin.**  

```
Set-IAMUserPermissionsBoundary -UserName joe -PermissionsBoundary arn:aws:iam::123456789012:policy/intern-boundary
```
+  Untuk detail API, lihat [PutUserPermissionsBoundary](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Sync-IAMMFADevice`
<a name="iam_ResyncMfaDevice_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Sync-IAMMFADevice`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menyinkronkan perangkat MFA yang terkait dengan pengguna IAM `Bob` dan ARN-nya dengan program autentikator yang `arn:aws:iam::123456789012:mfa/bob` menyediakan dua kode otentikasi.**  

```
Sync-IAMMFADevice -SerialNumber arn:aws:iam::123456789012:mfa/theresa -AuthenticationCode1 123456 -AuthenticationCode2 987654 -UserName Bob
```
**Contoh 2: Contoh ini menyinkronkan perangkat IAM MFA yang dikaitkan dengan pengguna `Theresa` IAM dengan perangkat fisik yang memiliki nomor seri `ABCD12345678` dan yang menyediakan dua kode otentikasi.**  

```
Sync-IAMMFADevice -SerialNumber ABCD12345678 -AuthenticationCode1 123456 -AuthenticationCode2 987654 -UserName Theresa
```
+  Untuk detail API, lihat [ResyncMfaDevice](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-IAMGroupPolicy`
<a name="iam_DetachGroupPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-IAMGroupPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan kebijakan grup terkelola yang `arn:aws:iam::123456789012:policy/TesterAccessPolicy` ARNnya berasal dari grup bernama. `Testers`**  

```
Unregister-IAMGroupPolicy -GroupName Testers -PolicyArn arn:aws:iam::123456789012:policy/TesterAccessPolicy
```
**Contoh 2: Contoh ini menemukan semua kebijakan terkelola yang dilampirkan pada grup bernama `Testers` dan memisahkannya dari grup.**  

```
Get-IAMAttachedGroupPolicies -GroupName Testers | Unregister-IAMGroupPolicy -Groupname Testers
```
+  Untuk detail API, lihat [DetachGroupPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-IAMRolePolicy`
<a name="iam_DetachRolePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-IAMRolePolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan kebijakan grup terkelola yang ARNnya berasal dari peran yang `arn:aws:iam::123456789012:policy/FederatedTesterAccessPolicy` dinamai. `FedTesterRole`**  

```
Unregister-IAMRolePolicy -RoleName FedTesterRole -PolicyArn arn:aws:iam::123456789012:policy/FederatedTesterAccessPolicy
```
**Contoh 2: Contoh ini menemukan semua kebijakan terkelola yang dilampirkan pada peran yang diberi nama `FedTesterRole` dan memisahkannya dari peran.**  

```
Get-IAMAttachedRolePolicyList -RoleName FedTesterRole | Unregister-IAMRolePolicy -Rolename FedTesterRole
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-IAMUserPolicy`
<a name="iam_DetachUserPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-IAMUserPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini melepaskan kebijakan terkelola yang ARNnya berasal dari `arn:aws:iam::123456789012:policy/TesterPolicy` nama pengguna IAM. `Bob`**  

```
Unregister-IAMUserPolicy -UserName Bob -PolicyArn arn:aws:iam::123456789012:policy/TesterPolicy
```
**Contoh 2: Contoh ini menemukan semua kebijakan terkelola yang dilampirkan ke pengguna IAM bernama `Theresa` dan melepaskan kebijakan tersebut dari pengguna.**  

```
Get-IAMAttachedUserPolicyList -UserName Theresa | Unregister-IAMUserPolicy -Username Theresa
```
+  Untuk detail API, lihat [DetachUserPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMAccessKey`
<a name="iam_UpdateAccessKey_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMAccessKey`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah status kunci akses `AKIAIOSFODNN7EXAMPLE` untuk pengguna IAM bernama`Bob`. `Inactive`**  

```
Update-IAMAccessKey -UserName Bob -AccessKeyId AKIAIOSFODNN7EXAMPLE -Status Inactive
```
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMAccountPasswordPolicy`
<a name="iam_UpdateAccountPasswordPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMAccountPasswordPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui kebijakan kata sandi untuk akun dengan pengaturan yang ditentukan. Perhatikan bahwa parameter apa pun yang tidak termasuk dalam perintah tidak dibiarkan tidak dimodifikasi. Sebaliknya, mereka diatur ulang ke nilai default.**  

```
Update-IAMAccountPasswordPolicy -AllowUsersToChangePasswords $true -HardExpiry $false -MaxPasswordAge 90 -MinimumPasswordLength 8 -PasswordReusePrevention 20 -RequireLowercaseCharacters $true -RequireNumbers $true -RequireSymbols $true -RequireUppercaseCharacters $true
```
+  Untuk detail API, lihat [UpdateAccountPasswordPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMAssumeRolePolicy`
<a name="iam_UpdateAssumeRolePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMAssumeRolePolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui peran IAM yang diberi nama `ClientRole` dengan kebijakan kepercayaan baru, yang isinya berasal dari file`ClientRolePolicy.json`. Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses isi file JSON.**  

```
Update-IAMAssumeRolePolicy -RoleName ClientRole -PolicyDocument (Get-Content -raw ClientRolePolicy.json)
```
+  Untuk detail API, lihat [UpdateAssumeRolePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMGroup`
<a name="iam_UpdateGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengganti nama grup IAM menjadi. `Testers` `AppTesters`**  

```
Update-IAMGroup -GroupName Testers -NewGroupName AppTesters
```
**Contoh 2: Contoh ini mengubah jalur grup IAM `AppTesters` menjadi`/Org1/Org2/`. Ini mengubah ARN untuk grup menjadi. `arn:aws:iam::123456789012:group/Org1/Org2/AppTesters`**  

```
Update-IAMGroup -GroupName AppTesters -NewPath /Org1/Org2/
```
+  Untuk detail API, lihat [UpdateGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMLoginProfile`
<a name="iam_UpdateLoginProfile_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMLoginProfile`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menetapkan kata sandi sementara baru untuk pengguna IAM`Bob`, dan mengharuskan pengguna untuk mengubah kata sandi saat pengguna masuk berikutnya.**  

```
Update-IAMLoginProfile -UserName Bob -Password "P@ssw0rd1234" -PasswordResetRequired $true
```
+  Untuk detail API, lihat [UpdateLoginProfile](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMOpenIDConnectProviderThumbprint`
<a name="iam_UpdateOpenIdConnectProviderThumbprint_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMOpenIDConnectProviderThumbprint`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui daftar cap jempol sertifikat untuk penyedia OIDC yang ARN-nya menggunakan sidik jari baru. `arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com` Penyedia OIDC membagikan nilai baru ketika sertifikat yang terkait dengan penyedia berubah.**  

```
Update-IAMOpenIDConnectProviderThumbprint -OpenIDConnectProviderArn arn:aws:iam::123456789012:oidc-provider/example.oidcprovider.com -ThumbprintList 7359755EXAMPLEabc3060bce3EXAMPLEec4542a3
```
+  Untuk detail API, lihat [UpdateOpenIdConnectProviderThumbprint](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMRole`
<a name="iam_UpdateRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui deskripsi peran dan nilai durasi sesi maksimum (dalam detik) yang sesi peran dapat diminta.**  

```
Update-IAMRole -RoleName MyRoleName -Description "My testing role" -MaxSessionDuration 43200
```
+  Untuk detail API, lihat [UpdateRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMRoleDescription`
<a name="iam_UpdateRoleDescription_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMRoleDescription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui deskripsi peran IAM di akun Anda.**  

```
Update-IAMRoleDescription -RoleName MyRoleName -Description "My testing role"
```
+  Untuk detail API, lihat [UpdateRoleDescription](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMSAMLProvider`
<a name="iam_UpdateSamlProvider_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMSAMLProvider`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui penyedia SAMP di IAM yang ARN-nya `arn:aws:iam::123456789012:saml-provider/SAMLADFS` dengan dokumen metadata SAMP baru dari file. `SAMLMetaData.xml` Perhatikan bahwa Anda harus menggunakan parameter `-Raw` switch untuk berhasil memproses isi file JSON.**  

```
Update-IAMSAMLProvider -SAMLProviderArn arn:aws:iam::123456789012:saml-provider/SAMLADFS -SAMLMetadataDocument (Get-Content -Raw SAMLMetaData.xml)
```
+  Untuk detail API, lihat [UpdateSamlProvider](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMServerCertificate`
<a name="iam_UpdateServerCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMServerCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengganti nama sertifikat yang dinamai`MyServerCertificate`. `MyRenamedServerCertificate`**  

```
Update-IAMServerCertificate -ServerCertificateName MyServerCertificate -NewServerCertificateName MyRenamedServerCertificate
```
**Contoh 2: Contoh ini memindahkan sertifikat bernama `MyServerCertificate` ke path /Org1/Org2/. Ini mengubah ARN untuk sumber daya menjadi. `arn:aws:iam::123456789012:server-certificate/Org1/Org2/MyServerCertificate`**  

```
Update-IAMServerCertificate -ServerCertificateName MyServerCertificate -NewPath /Org1/Org2/
```
+  Untuk detail API, lihat [UpdateServerCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMSigningCertificate`
<a name="iam_UpdateSigningCertificate_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMSigningCertificate`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui sertifikat yang terkait dengan nama pengguna IAM `Bob` dan yang ID sertifikatnya `Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU` untuk menandainya sebagai tidak aktif.**  

```
Update-IAMSigningCertificate -CertificateId Y3EK7RMEXAMPLESV33FCREXAMPLEMJLU -UserName Bob -Status Inactive
```
+  Untuk detail API, lihat [UpdateSigningCertificate](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-IAMUser`
<a name="iam_UpdateUser_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-IAMUser`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengganti nama pengguna IAM menjadi. `Bob` `Robert`**  

```
Update-IAMUser -UserName Bob -NewUserName Robert
```
**Contoh 2: Contoh ini mengubah jalur Pengguna IAM `Bob` ke`/Org1/Org2/`, yang secara efektif mengubah ARN untuk pengguna. `arn:aws:iam::123456789012:user/Org1/Org2/bob`**  

```
Update-IAMUser -UserName Bob -NewPath /Org1/Org2/
```
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-IAMGroupPolicy`
<a name="iam_PutGroupPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-IAMGroupPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kebijakan inline bernama `AppTesterPolicy` dan menyematkannya dalam grup IAM. `AppTesters` Jika kebijakan inline dengan nama yang sama sudah ada, maka itu akan ditimpa. Konten kebijakan JSON datang file`apptesterpolicy.json`. Perhatikan bahwa Anda harus menggunakan `-Raw` parameter untuk berhasil memproses konten file JSON.**  

```
Write-IAMGroupPolicy -GroupName AppTesters -PolicyName AppTesterPolicy -PolicyDocument (Get-Content -Raw apptesterpolicy.json)
```
+  Untuk detail API, lihat [PutGroupPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-IAMRolePolicy`
<a name="iam_PutRolePolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-IAMRolePolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kebijakan inline bernama `FedTesterRolePolicy` dan menyematkannya dalam peran IAM. `FedTesterRole` Jika kebijakan inline dengan nama yang sama sudah ada, maka itu akan ditimpa. Konten kebijakan JSON berasal dari file`FedTesterPolicy.json`. Perhatikan bahwa Anda harus menggunakan `-Raw` parameter untuk berhasil memproses konten file JSON.**  

```
Write-IAMRolePolicy -RoleName FedTesterRole -PolicyName FedTesterRolePolicy -PolicyDocument (Get-Content -Raw FedTesterPolicy.json)
```
+  Untuk detail API, lihat [PutRolePolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-IAMUserPolicy`
<a name="iam_PutUserPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-IAMUserPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kebijakan inline bernama `EC2AccessPolicy` dan menyematkannya di pengguna IAM. `Bob` Jika kebijakan inline dengan nama yang sama sudah ada, maka itu akan ditimpa. Konten kebijakan JSON berasal dari file`EC2AccessPolicy.json`. Perhatikan bahwa Anda harus menggunakan `-Raw` parameter untuk berhasil memproses konten file JSON.**  

```
Write-IAMUserPolicy -UserName Bob -PolicyName EC2AccessPolicy -PolicyDocument (Get-Content -Raw EC2AccessPolicy.json)
```
+  Untuk detail API, lihat [PutUserPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Kinesis menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Kinesis.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-KINRecord`
<a name="kinesis_GetRecords_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-KINRecord`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara mengembalikan dan mengekstrak data dari serangkaian satu atau lebih catatan. Iterator supplierd untuk Get-KINRecord menentukan posisi awal dari catatan untuk kembali yang dalam contoh ini ditangkap ke dalam variabel, \$1records. Setiap catatan individu kemudian dapat diakses dengan mengindeks koleksi \$1records. Dengan asumsi data dalam catatan adalah teks yang dikodekan UTF-8, perintah terakhir menunjukkan bagaimana Anda dapat mengekstrak data dari objek dan mengembalikannya sebagai teks ke konsol. MemoryStream **  

```
$records
$records = Get-KINRecord -ShardIterator "AAAAAAAAAAGIc....9VnbiRNaP"
```
**Output:**  

```
MillisBehindLatest NextShardIterator            Records
------------------ -----------------            -------
0                  AAAAAAAAAAERNIq...uDn11HuUs  {Key1, Key2}
```

```
$records.Records[0]
```
**Output:**  

```
ApproximateArrivalTimestamp Data                   PartitionKey SequenceNumber
--------------------------- ----                   ------------ --------------
3/7/2016 5:14:33 PM         System.IO.MemoryStream Key1         4955986459776...931586
```

```
[Text.Encoding]::UTF8.GetString($records.Records[0].Data.ToArray())
```
**Output:**  

```
test data from string
```
+  Untuk detail API, lihat [GetRecords](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-KINShardIterator`
<a name="kinesis_GetShardIterator_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-KINShardIterator`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan iterator shard untuk shard tertentu dan posisi awal. Rincian pengidentifikasi pecahan dan nomor urut dapat diperoleh dari output Get-KINStream cmdlet, dengan mereferensikan koleksi Shards dari objek aliran yang dikembalikan. Iterator yang dikembalikan dapat digunakan dengan Get-KINRecord cmdlet untuk menarik catatan data dalam pecahan.**  

```
Get-KINShardIterator -StreamName "mystream" -ShardId "shardId-000000000000" -ShardIteratorType AT_SEQUENCE_NUMBER -StartingSequenceNumber "495598645..."
```
**Output:**  

```
AAAAAAAAAAGIc....9VnbiRNaP
```
+  Untuk detail API, lihat [GetShardIterator](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-KINStream`
<a name="kinesis_DescribeStream_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-KINStream`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan rincian aliran tertentu.**  

```
Get-KINStream -StreamName "mystream"
```
**Output:**  

```
HasMoreShards        : False
RetentionPeriodHours : 24
Shards               : {}
StreamARN            : arn:aws:kinesis:us-west-2:123456789012:stream/mystream
StreamName           : mystream
StreamStatus         : ACTIVE
```
+  Untuk detail API, lihat [DescribeStream](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-KINStream`
<a name="kinesis_CreateStream_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-KINStream`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat aliran baru.**  

```
New-KINStream -StreamName "mystream" -ShardCount 1
```
+  Untuk detail API, lihat [CreateStream](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-KINStream`
<a name="kinesis_DeleteStream_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-KINStream`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus aliran yang ditentukan. Anda diminta untuk konfirmasi sebelum perintah dijalankan. Untuk menekan konfirmasi yang diminta, gunakan sakelar -Force.**  

```
Remove-KINStream -StreamName "mystream"
```
+  Untuk detail API, lihat [DeleteStream](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-KINRecord`
<a name="kinesis_PutRecord_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-KINRecord`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menulis catatan yang berisi string yang dipasok ke parameter -Text.**  

```
Write-KINRecord -Text "test data from string" -StreamName "mystream" -PartitionKey "Key1"
```
**Contoh 2: Menulis catatan yang berisi data yang terkandung dalam file yang ditentukan. File diperlakukan sebagai urutan byte sehingga jika berisi teks, itu harus ditulis dengan pengkodean yang diperlukan sebelum menggunakannya dengan cmdlet ini.**  

```
Write-KINRecord -FilePath "C:\TestData.txt" -StreamName "mystream" -PartitionKey "Key2"
```
+  Untuk detail API, lihat [PutRecord](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Lambda menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Lambda.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-LMResourceTag`
<a name="lambda_TagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-LMResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menambahkan tiga tag (Washington, Oregon dan California) dan nilai terkaitnya ke fungsi tertentu yang diidentifikasi oleh ARN-nya.**  

```
Add-LMResourceTag -Resource "arn:aws:lambda:us-west-2:123456789012:function:MyFunction" -Tag @{ "Washington" = "Olympia"; "Oregon" = "Salem"; "California" = "Sacramento" }
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMAccountSetting`
<a name="lambda_GetAccountSettings_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMAccountSetting`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini ditampilkan untuk membandingkan Batas Akun dan Penggunaan Akun**  

```
Get-LMAccountSetting | Select-Object @{Name="TotalCodeSizeLimit";Expression={$_.AccountLimit.TotalCodeSize}}, @{Name="TotalCodeSizeUsed";Expression={$_.AccountUsage.TotalCodeSize}}
```
**Output:**  

```
TotalCodeSizeLimit TotalCodeSizeUsed
------------------ -----------------
       80530636800          15078795
```
+  Untuk detail API, lihat [GetAccountSettings](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMAlias`
<a name="lambda_GetAlias_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMAlias`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil bobot Routing Config untuk Alias Fungsi Lambda tertentu.**  

```
Get-LMAlias -FunctionName "MylambdaFunction123" -Name "newlabel1" -Select RoutingConfig
```
**Output:**  

```
AdditionalVersionWeights
------------------------
{[1, 0.6]}
```
+  Untuk detail API, lihat [GetAlias](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMFunctionConcurrency`
<a name="lambda_GetFunctionConcurrency_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMFunctionConcurrency`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan konkurensi Cadangan untuk Fungsi Lambda**  

```
Get-LMFunctionConcurrency -FunctionName "MylambdaFunction123" -Select *
```
**Output:**  

```
ReservedConcurrentExecutions
----------------------------
100
```
+  Untuk detail API, lihat [GetFunctionConcurrency](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMFunctionConfiguration`
<a name="lambda_GetFunctionConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMFunctionConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan konfigurasi spesifik versi dari Fungsi Lambda.**  

```
Get-LMFunctionConfiguration -FunctionName "MylambdaFunction123" -Qualifier "PowershellAlias"
```
**Output:**  

```
CodeSha256                 : uWOW0R7z+f0VyLuUg7+/D08hkMFsq0SF4seuyUZJ/R8=
CodeSize                   : 1426
DeadLetterConfig           : Amazon.Lambda.Model.DeadLetterConfig
Description                : Verson 3 to test Aliases
Environment                : Amazon.Lambda.Model.EnvironmentResponse
FunctionArn                : arn:aws:lambda:us-east-1:123456789012:function:MylambdaFunction123
                             :PowershellAlias
FunctionName               : MylambdaFunction123
Handler                    : lambda_function.launch_instance
KMSKeyArn                  : 
LastModified               : 2019-12-25T09:52:59.872+0000
LastUpdateStatus           : Successful
LastUpdateStatusReason     : 
LastUpdateStatusReasonCode : 
Layers                     : {}
MasterArn                  : 
MemorySize                 : 128
RevisionId                 : 5d7de38b-87f2-4260-8f8a-e87280e10c33
Role                       : arn:aws:iam::123456789012:role/service-role/lambda
Runtime                    : python3.8
State                      : Active
StateReason                : 
StateReasonCode            : 
Timeout                    : 600
TracingConfig              : Amazon.Lambda.Model.TracingConfigResponse
Version                    : 4
VpcConfig                  : Amazon.Lambda.Model.VpcConfigDetail
```
+  Untuk detail API, lihat [GetFunctionConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMFunctionList`
<a name="lambda_ListFunctions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMFunctionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan semua fungsi Lambda dengan ukuran kode yang diurutkan**  

```
Get-LMFunctionList | Sort-Object -Property CodeSize | Select-Object FunctionName, RunTime, Timeout, CodeSize
```
**Output:**  

```
FunctionName                                                 Runtime   Timeout CodeSize
------------                                                 -------   ------- --------
test                                                         python2.7       3      243
MylambdaFunction123                                          python3.8     600      659
myfuncpython1                                                python3.8     303      675
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMPolicy`
<a name="lambda_GetPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan kebijakan Fungsi dari fungsi Lambda**  

```
Get-LMPolicy -FunctionName test -Select Policy
```
**Output:**  

```
{"Version":"2012-10-17",		 	 	 "Id":"default","Statement":[{"Sid":"xxxx","Effect":"Allow","Principal":{"Service":"sns.amazonaws.com"},"Action":"lambda:InvokeFunction","Resource":"arn:aws:lambda:us-east-1:123456789102:function:test"}]}
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMProvisionedConcurrencyConfig`
<a name="lambda_GetProvisionedConcurrencyConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMProvisionedConcurrencyConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan Konfigurasi Konkurensi yang disediakan untuk Alias yang ditentukan dari Fungsi Lambda.**  

```
C:\>Get-LMProvisionedConcurrencyConfig -FunctionName "MylambdaFunction123" -Qualifier "NewAlias1"
```
**Output:**  

```
AllocatedProvisionedConcurrentExecutions : 0
AvailableProvisionedConcurrentExecutions : 0
LastModified                             : 2020-01-15T03:21:26+0000
RequestedProvisionedConcurrentExecutions : 70
Status                                   : IN_PROGRESS
StatusReason                             :
```
+  Untuk detail API, lihat [GetProvisionedConcurrencyConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMProvisionedConcurrencyConfigList`
<a name="lambda_ListProvisionedConcurrencyConfigs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMProvisionedConcurrencyConfigList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil daftar konfigurasi konkurensi yang disediakan untuk fungsi Lambda.**  

```
Get-LMProvisionedConcurrencyConfigList -FunctionName "MylambdaFunction123"
```
+  Untuk detail API, lihat [ListProvisionedConcurrencyConfigs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMResourceTag`
<a name="lambda_ListTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengambil tag dan nilainya saat ini ditetapkan pada fungsi yang ditentukan.**  

```
Get-LMResourceTag -Resource "arn:aws:lambda:us-west-2:123456789012:function:MyFunction"
```
**Output:**  

```
Key        Value
---        -----
California Sacramento
Oregon     Salem
Washington Olympia
```
+  Untuk detail API, lihat [ListTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-LMVersionsByFunction`
<a name="lambda_ListVersionsByFunction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-LMVersionsByFunction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan daftar konfigurasi spesifik versi untuk setiap versi Fungsi Lambda.**  

```
Get-LMVersionsByFunction -FunctionName "MylambdaFunction123"
```
**Output:**  

```
FunctionName        Runtime   MemorySize Timeout CodeSize LastModified                 RoleName
------------        -------   ---------- ------- -------- ------------                 --------
MylambdaFunction123 python3.8        128     600      659 2020-01-10T03:20:56.390+0000 lambda
MylambdaFunction123 python3.8        128       5     1426 2019-12-25T09:19:02.238+0000 lambda
MylambdaFunction123 python3.8        128       5     1426 2019-12-25T09:39:36.779+0000 lambda
MylambdaFunction123 python3.8        128     600     1426 2019-12-25T09:52:59.872+0000 lambda
```
+  Untuk detail API, lihat [ListVersionsByFunction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-LMAlias`
<a name="lambda_CreateAlias_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-LMAlias`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat Alias Lambda Baru untuk versi tertentu dan konfigurasi perutean untuk menentukan persentase permintaan pemanggilan yang diterimanya.**  

```
New-LMAlias -FunctionName "MylambdaFunction123" -RoutingConfig_AdditionalVersionWeight @{Name="1";Value="0.6} -Description "Alias for version 4" -FunctionVersion 4 -Name "PowershellAlias"
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Publish-LMFunction`
<a name="lambda_CreateFunction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-LMFunction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat fungsi C\$1 (dotnetcore1.0 runtime) baru bernama MyFunction AWS Lambda, menyediakan binari yang dikompilasi untuk fungsi dari file zip pada sistem file lokal (jalur relatif atau absolut dapat digunakan). Fungsi C\$1 Lambda menentukan handler untuk fungsi menggunakan penunjukan: :Namespace. AssemblyName ClassName::MethodName. Anda harus mengganti nama assembly (tanpa akhiran .dll), namespace, nama kelas dan bagian nama metode dari spesifikasi handler dengan tepat. Fungsi baru akan memiliki variabel lingkungan 'envvar1' dan 'envvar2' yang diatur dari nilai yang disediakan.**  

```
Publish-LMFunction -Description "My C# Lambda Function" `
        -FunctionName MyFunction `
        -ZipFilename .\MyFunctionBinaries.zip `
        -Handler "AssemblyName::Namespace.ClassName::MethodName" `
        -Role "arn:aws:iam::123456789012:role/LambdaFullExecRole" `
        -Runtime dotnetcore1.0 `
        -Environment_Variable @{ "envvar1"="value";"envvar2"="value" }
```
**Output:**  

```
CodeSha256       : /NgBMd...gq71I=
CodeSize         : 214784
DeadLetterConfig :
Description      : My C# Lambda Function
Environment      : Amazon.Lambda.Model.EnvironmentResponse
FunctionArn      : arn:aws:lambda:us-west-2:123456789012:function:ToUpper
FunctionName     : MyFunction
Handler          : AssemblyName::Namespace.ClassName::MethodName
KMSKeyArn        :
LastModified     : 2016-12-29T23:50:14.207+0000
MemorySize       : 128
Role             : arn:aws:iam::123456789012:role/LambdaFullExecRole
Runtime          : dotnetcore1.0
Timeout          : 3
Version          : $LATEST
VpcConfig        :
```
**Contoh 2: Contoh ini mirip dengan yang sebelumnya kecuali binari fungsi pertama kali diunggah ke bucket Amazon S3 (yang harus berada di wilayah yang sama dengan fungsi Lambda yang dimaksud) dan objek S3 yang dihasilkan kemudian direferensikan saat membuat fungsi.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Key MyFunctionBinaries.zip -File .\MyFunctionBinaries.zip    
Publish-LMFunction -Description "My C# Lambda Function" `
        -FunctionName MyFunction `
        -BucketName amzn-s3-demo-bucket `
        -Key MyFunctionBinaries.zip `
        -Handler "AssemblyName::Namespace.ClassName::MethodName" `
        -Role "arn:aws:iam::123456789012:role/LambdaFullExecRole" `
        -Runtime dotnetcore1.0 `
        -Environment_Variable @{ "envvar1"="value";"envvar2"="value" }
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Publish-LMVersion`
<a name="lambda_PublishVersion_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-LMVersion`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat versi untuk snapshot Kode Fungsi Lambda yang ada**  

```
Publish-LMVersion -FunctionName "MylambdaFunction123" -Description "Publishing Existing Snapshot of function code as a  new version through Powershell"
```
+  Untuk detail API, lihat [PublishVersion](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-LMAlias`
<a name="lambda_DeleteAlias_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMAlias`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus fungsi Lambda Alias yang disebutkan dalam perintah.**  

```
Remove-LMAlias -FunctionName "MylambdaFunction123" -Name "NewAlias"
```
+  Untuk detail API, lihat [DeleteAlias](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-LMFunction`
<a name="lambda_DeleteFunction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMFunction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus versi tertentu dari fungsi Lambda**  

```
Remove-LMFunction -FunctionName "MylambdaFunction123" -Qualifier '3'
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-LMFunctionConcurrency`
<a name="lambda_DeleteFunctionConcurrency_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMFunctionConcurrency`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus Function Concurrency dari Fungsi Lambda.**  

```
Remove-LMFunctionConcurrency -FunctionName "MylambdaFunction123"
```
+  Untuk detail API, lihat [DeleteFunctionConcurrency](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-LMPermission`
<a name="lambda_RemovePermission_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMPermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus kebijakan fungsi untuk yang ditentukan StatementId dari Fungsi Lambda.**  

```
$policy =  Get-LMPolicy -FunctionName "MylambdaFunction123" -Select Policy | ConvertFrom-Json| Select-Object -ExpandProperty Statement
Remove-LMPermission -FunctionName "MylambdaFunction123" -StatementId $policy[0].Sid
```
+  Untuk detail API, lihat [RemovePermission](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-LMProvisionedConcurrencyConfig`
<a name="lambda_DeleteProvisionedConcurrencyConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMProvisionedConcurrencyConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus Konfigurasi Konkurensi yang Disediakan untuk Alias tertentu.**  

```
Remove-LMProvisionedConcurrencyConfig -FunctionName "MylambdaFunction123" -Qualifier "NewAlias1"
```
+  Untuk detail API, lihat [DeleteProvisionedConcurrencyConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-LMResourceTag`
<a name="lambda_UntagResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-LMResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus tag yang disediakan dari fungsi. Cmdlet akan meminta konfirmasi sebelum melanjutkan kecuali sakelar -Force ditentukan. Satu panggilan dilakukan ke layanan untuk menghapus tag.**  

```
Remove-LMResourceTag -Resource "arn:aws:lambda:us-west-2:123456789012:function:MyFunction" -TagKey "Washington","Oregon","California"
```
**Contoh 2: Menghapus tag yang disediakan dari fungsi. Cmdlet akan meminta konfirmasi sebelum melanjutkan kecuali sakelar -Force ditentukan. Setelah panggilan ke layanan dilakukan per tag yang disediakan.**  

```
"Washington","Oregon","California" | Remove-LMResourceTag -Resource "arn:aws:lambda:us-west-2:123456789012:function:MyFunction"
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-LMAlias`
<a name="lambda_UpdateAlias_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-LMAlias`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui Konfigurasi Alias fungsi Lambda yang ada. Ini memperbarui RoutingConfiguration nilai untuk menggeser 60% (0,6) lalu lintas ke versi 1**  

```
Update-LMAlias -FunctionName "MylambdaFunction123" -Description " Alias for version 2" -FunctionVersion 2 -Name "newlabel1" -RoutingConfig_AdditionalVersionWeight @{Name="1";Value="0.6}
```
+  Untuk detail API, lihat [UpdateAlias](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-LMFunctionCode`
<a name="lambda_UpdateFunctionCode_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-LMFunctionCode`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui fungsi bernama 'MyFunction' dengan konten baru yang terkandung dalam file zip yang ditentukan. Untuk fungsi C\$1 .NET Core Lambda, file zip harus berisi rakitan yang dikompilasi.**  

```
Update-LMFunctionCode -FunctionName MyFunction -ZipFilename .\UpdatedCode.zip
```
**Contoh 2: Contoh ini mirip dengan yang sebelumnya tetapi menggunakan objek Amazon S3 yang berisi kode yang diperbarui untuk memperbarui fungsi.**  

```
Update-LMFunctionCode -FunctionName MyFunction -BucketName amzn-s3-demo-bucket -Key UpdatedCode.zip
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-LMFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-LMFunctionConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui Konfigurasi Fungsi Lambda yang ada**  

```
Update-LMFunctionConfiguration -FunctionName "MylambdaFunction123" -Handler "lambda_function.launch_instance" -Timeout 600 -Environment_Variable @{ "envvar1"="value";"envvar2"="value" } -Role arn:aws:iam::123456789101:role/service-role/lambda -DeadLetterConfig_TargetArn arn:aws:sns:us-east-1: 123456789101:MyfirstTopic
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-LMFunctionConcurrency`
<a name="lambda_PutFunctionConcurrency_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-LMFunctionConcurrency`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menerapkan pengaturan konkurensi untuk Fungsi secara keseluruhan.**  

```
Write-LMFunctionConcurrency -FunctionName "MylambdaFunction123" -ReservedConcurrentExecution 100
```
+  Untuk detail API, lihat [PutFunctionConcurrency](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-LMProvisionedConcurrencyConfig`
<a name="lambda_PutProvisionedConcurrencyConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-LMProvisionedConcurrencyConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan konfigurasi konkurensi yang disediakan ke Alias Fungsi**  

```
Write-LMProvisionedConcurrencyConfig -FunctionName "MylambdaFunction123" -ProvisionedConcurrentExecution 20 -Qualifier "NewAlias1"
```
+  Untuk detail API, lihat [PutProvisionedConcurrencyConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon ML menggunakan Alat untuk PowerShell V5
<a name="powershell_5_machine-learning_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon ML.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-MLBatchPrediction`
<a name="machine-learning_GetBatchPrediction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLBatchPrediction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan metadata rinci untuk prediksi batch dengan ID id.**  

```
Get-MLBatchPrediction -BatchPredictionId ID
```
+  Untuk detail API, lihat [GetBatchPrediction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-MLBatchPredictionList`
<a name="machine-learning_DescribeBatchPredictions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLBatchPredictionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan daftar semua BatchPredictions dan catatan data terkait yang cocok dengan kriteria pencarian yang diberikan dalam permintaan.**  

```
Get-MLBatchPredictionList
```
**Contoh 2: Mengembalikan daftar semua BatchPredictions dengan status SELESAI.**  

```
Get-MLBatchPredictionList -FilterVariable Status -EQ COMPLETED
```
+  Untuk detail API, lihat [DescribeBatchPredictions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-MLDataSource`
<a name="machine-learning_GetDataSource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLDataSource`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan metadata, status, dan informasi file data untuk DataSource dengan ID id**  

```
Get-MLDataSource -DataSourceId ID
```
+  Untuk detail API, lihat [GetDataSource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-MLDataSourceList`
<a name="machine-learning_DescribeDataSources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLDataSourceList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan daftar semua DataSources dan catatan data terkait mereka.**  

```
Get-MLDataSourceList
```
**Contoh 2: Mengembalikan daftar semua DataSources dengan status SELESAI.**  

```
Get-MLDataDourceList -FilterVariable Status -EQ COMPLETED
```
+  Untuk detail API, lihat [DescribeDataSources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-MLEvaluation`
<a name="machine-learning_GetEvaluation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLEvaluation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan metadata dan status untuk Evaluasi dengan ID id.**  

```
Get-MLEvaluation -EvaluationId ID
```
+  Untuk detail API, lihat [GetEvaluation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-MLEvaluationList`
<a name="machine-learning_DescribeEvaluations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLEvaluationList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan daftar semua sumber Evaluasi**  

```
Get-MLEvaluationList
```
**Contoh 2: Mengembalikan daftar semua Evaulations dengan status COMPLETED.**  

```
Get-MLEvaluationList -FilterVariable Status -EQ COMPLETED
```
+  Untuk detail API, lihat [DescribeEvaluations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-MLModel`
<a name="machine-learning_GetMLModel_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLModel`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan metadata detail, status, skema, dan informasi file data untuk ID MLModel with id.**  

```
Get-MLModel -ModelId ID
```
+  Untuk detail API, lihat [Dapatkan MLModel](https://docs.aws.amazon.com/powershell/v5/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (V5*). 

### `Get-MLModelList`
<a name="machine-learning_DescribeMLModels_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLModelList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan daftar semua Model dan catatan data terkait mereka.**  

```
Get-MLModelList
```
**Contoh 2: Mengembalikan daftar semua Model dengan status SELESAI.**  

```
Get-MLModelList -FilterVariable Status -EQ COMPLETED
```
+  Untuk detail API, lihat [Menjelaskan MLModels](https://docs.aws.amazon.com/powershell/v5/reference) dalam *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-MLPrediction`
<a name="machine-learning_Predict_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MLPrediction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Kirim catatan ke URL titik akhir prediksi waktu nyata untuk Model dengan ID id.**  

```
Get-MLPrediction -ModelId ID -PredictEndpoint URL -Record @{"A" = "B"; "C" = "D";}
```
+  Untuk detail API, lihat [Memprediksi](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-MLBatchPrediction`
<a name="machine-learning_CreateBatchPrediction_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLBatchPrediction`.

**Alat untuk PowerShell V5**  
**Contoh 1: Buat permintaan prediksi batch baru untuk model dengan ID id dan letakkan output di lokasi S3 yang ditentukan.**  

```
New-MLBatchPrediction -ModelId ID -Name NAME -OutputURI s3://...
```
+  Untuk detail API, lihat [CreateBatchPrediction](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-MLDataSourceFromS3`
<a name="machine-learning_CreateDataSourceFromS3_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLDataSourceFromS3`.

**Alat untuk PowerShell V5**  
**Contoh 1: Buat sumber data dengan data untuk lokasi S3, dengan nama NAME dan skema SCHEMA.**  

```
New-MLDataSourceFromS3 -Name NAME -ComputeStatistics $true -DataSpec_DataLocationS3 "s3://BUCKET/KEY" -DataSchema SCHEMA
```
+  Untuk detail API, lihat [CreateDataSourceFromS3](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V5). 

### `New-MLEvaluation`
<a name="machine-learning_CreateEvaluation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLEvaluation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Buat evaluasi untuk id sumber data dan id model yang diberikan**  

```
New-MLEvaluation -Name NAME -DataSourceId DSID -ModelId MID
```
+  Untuk detail API, lihat [CreateEvaluation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-MLModel`
<a name="machine-learning_CreateMLModel_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLModel`.

**Alat untuk PowerShell V5**  
**Contoh 1: Buat model baru dengan data pelatihan.**  

```
New-MLModel -Name NAME -ModelType BINARY -Parameter @{...} -TrainingDataSourceId ID
```
+  Untuk detail API, lihat [Membuat MLModel](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-MLRealtimeEndpoint`
<a name="machine-learning_CreateRealtimeEndpoint_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-MLRealtimeEndpoint`.

**Alat untuk PowerShell V5**  
**Contoh 1: Buat titik akhir prediksi realtime baru untuk id model yang diberikan.**  

```
New-MLRealtimeEndpoint -ModelId ID
```
+  Untuk detail API, lihat [CreateRealtimeEndpoint](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Macie menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_macie2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Macie.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-MAC2FindingList`
<a name="macie2_ListFindings_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-MAC2FindingList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan daftar FindingIds untuk Temuan yang berisi deteksi data sensitif dengan tipe “CREDIT\$1CARD\$1NUMBER” atau “US\$1SOCIAL\$1SECURITY\$1NUMBER”**  

```
$criterionAddProperties = New-Object Amazon.Macie2.Model.CriterionAdditionalProperties

$criterionAddProperties.Eq = @(
"CREDIT_CARD_NUMBER"
"US_SOCIAL_SECURITY_NUMBER"
)

$FindingCriterion = @{
'classificationDetails.result.sensitiveData.detections.type' = [Amazon.Macie2.Model.CriterionAdditionalProperties]$criterionAddProperties
}

Get-MAC2FindingList -FindingCriteria_Criterion $FindingCriterion -MaxResult 5
```
+  Untuk detail API, lihat [ListFindings](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Daftar Harga AWS contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_pricing_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Daftar Harga AWS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-PLSAttributeValue`
<a name="pricing_GetAttributeValues_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-PLSAttributeValue`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan nilai untuk atribut 'VolumeType' untuk Amazon EC2 di wilayah us-east-1.**  

```
Get-PLSAttributeValue -ServiceCode AmazonEC2 -AttributeName "volumeType" -region us-east-1
```
**Output:**  

```
Value
-----
Cold HDD
General Purpose
Magnetic
Provisioned IOPS
Throughput Optimized HDD
```
+  Untuk detail API, lihat [GetAttributeValues](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-PLSProduct`
<a name="pricing_GetProducts_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-PLSProduct`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan detail semua produk untuk Amazon EC2.**  

```
Get-PLSProduct -ServiceCode AmazonEC2 -Region us-east-1
```
**Output:**  

```
{"product":{"productFamily":"Compute Instance","attributes":{"enhancedNetworkingSupported":"Yes","memory":"30.5 GiB","dedicatedEbsThroughput":"800 Mbps","vcpu":"4","locationType":"AWS Region","storage":"EBS only","instanceFamily":"Memory optimized","operatingSystem":"SUSE","physicalProcessor":"Intel Xeon E5-2686 v4 (Broadwell)","clockSpeed":"2.3 GHz","ecu":"Variable","networkPerformance":"Up to 10 Gigabit","servicename":"Amazon Elastic Compute Cloud","instanceType":"r4.xlarge","tenancy":"Shared","usagetype":"USW2-BoxUsage:r4.xlarge","normalizationSizeFactor":"8","processorFeatures":"Intel AVX, Intel AVX2, Intel Turbo","servicecode":"AmazonEC2","licenseModel":"No License required","currentGeneration":"Yes","preInstalledSw":"NA","location":"US West (Oregon)","processorArchitecture":"64-bit","operation":"RunInstances:000g"},...
```
**Contoh 2: Mengembalikan data untuk Amazon EC2 di wilayah us-east-1 yang difilter berdasarkan jenis volume 'Tujuan Umum' yang didukung SSD.**  

```
Get-PLSProduct -ServiceCode AmazonEC2 -Filter @{Type="TERM_MATCH";Field="volumeType";Value="General Purpose"},@{Type="TERM_MATCH";Field="storageMedia";Value="SSD-backed"} -Region us-east-1
```
**Output:**  

```
{"product":{"productFamily":"Storage","attributes":{"storageMedia":"SSD-backed","maxThroughputvolume":"160 MB/sec","volumeType":"General Purpose","maxIopsvolume":"10000",...
```
+  Untuk detail API, lihat [GetProducts](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-PLSService`
<a name="pricing_DescribeServices_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-PLSService`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan metadata untuk semua kode layanan yang tersedia di wilayah us-east-1.**  

```
Get-PLSService -Region us-east-1
```
**Output:**  

```
AttributeNames                                                  ServiceCode
--------------                                                  -----------
{productFamily, servicecode, groupDescription, termType...}     AWSBudgets
{productFamily, servicecode, termType, usagetype...}            AWSCloudTrail
{productFamily, servicecode, termType, usagetype...}            AWSCodeCommit
{productFamily, servicecode, termType, usagetype...}            AWSCodeDeploy
{productFamily, servicecode, termType, usagetype...}            AWSCodePipeline
{productFamily, servicecode, termType, usagetype...}            AWSConfig
...
```
**Contoh 2: Mengembalikan metadata untuk layanan Amazon EC2 di wilayah us-east-1.**  

```
Get-PLSService -ServiceCode AmazonEC2 -Region us-east-1
```
**Output:**  

```
AttributeNames                                                         ServiceCode
--------------                                                         -----------
{volumeType, maxIopsvolume, instanceCapacity10xlarge, locationType...} AmazonEC2
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Resource Groups menggunakan Alat untuk PowerShell V5
<a name="powershell_5_resource-groups_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Resource Groups.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-RGResourceTag`
<a name="resource-groups_Tag_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-RGResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan kunci tag 'Instances' dengan nilai 'kotak kerja' ke grup sumber daya yang diberikan arn**  

```
Add-RGResourceTag -Tag @{Instances="workboxes"} -Arn arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes
```
**Output:**  

```
Arn                                                            Tags
---                                                            ----
arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes {[Instances, workboxes]}
```
+  Untuk detail API, lihat [Tag](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Find-RGResource`
<a name="resource-groups_SearchResources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Find-RGResource`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat tipe sumber daya ResourceQuery untuk Instance dengan filter tag dan menemukan sumber daya.**  

```
$query = [Amazon.ResourceGroups.Model.ResourceQuery]::new()
$query.Type = [Amazon.ResourceGroups.QueryType]::TAG_FILTERS_1_0
$query.Query = ConvertTo-Json -Compress -Depth 4 -InputObject @{
  ResourceTypeFilters = @('AWS::EC2::Instance')
  TagFilters = @(@{
    Key = 'auto'
    Values = @('no')
  })
 }

Find-RGResource -ResourceQuery $query | Select-Object -ExpandProperty ResourceIdentifiers
```
**Output:**  

```
ResourceArn                                                     ResourceType
-----------                                                     ------------
arn:aws:ec2:eu-west-1:123456789012:instance/i-0123445b6cb7bd67b AWS::EC2::Instance
```
+  Untuk detail API, lihat [SearchResources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-RGGroup`
<a name="resource-groups_GetGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil grup sumber daya sesuai nama grup**  

```
Get-RGGroup -GroupName auto-no
```
**Output:**  

```
Description GroupArn                                                     Name
----------- --------                                                     ----
            arn:aws:resource-groups:eu-west-1:123456789012:group/auto-no auto-no
```
+  Untuk detail API, lihat [GetGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-RGGroupList`
<a name="resource-groups_ListGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGGroupList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan grup sumber daya yang sudah dibuat.**  

```
Get-RGGroupList
```
**Output:**  

```
GroupArn                                                                  GroupName
--------                                                                  ---------
arn:aws:resource-groups:eu-west-1:123456789012:group/auto-no              auto-no
arn:aws:resource-groups:eu-west-1:123456789012:group/auto-yes             auto-yes
arn:aws:resource-groups:eu-west-1:123456789012:group/build600             build600
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-RGGroupQuery`
<a name="resource-groups_GetGroupQuery_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGGroupQuery`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil kueri sumber daya untuk grup sumber daya yang diberikan**  

```
Get-RGGroupQuery -GroupName auto-no | Select-Object -ExpandProperty ResourceQuery
```
**Output:**  

```
Query                                                                                        Type
-----                                                                                        ----
{"ResourceTypeFilters":["AWS::EC2::Instance"],"TagFilters":[{"Key":"auto","Values":["no"]}]} TAG_FILTERS_1_0
```
+  Untuk detail API, lihat [GetGroupQuery](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-RGGroupResourceList`
<a name="resource-groups_ListGroupResources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGGroupResourceList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan sumber daya grup berdasarkan disaring berdasarkan jenis sumber daya**  

```
Get-RGGroupResourceList -Filter @{Name="resource-type";Values="AWS::EC2::Instance"} -GroupName auto-yes | Select-Object -ExpandProperty ResourceIdentifiers
```
**Output:**  

```
ResourceArn                                                     ResourceType
-----------                                                     ------------
arn:aws:ec2:eu-west-1:123456789012:instance/i-0123bc45b567890e1 AWS::EC2::Instance
arn:aws:ec2:eu-west-1:123456789012:instance/i-0a1caf2345f67d8dc AWS::EC2::Instance
arn:aws:ec2:eu-west-1:123456789012:instance/i-012e3cb4df567e8aa AWS::EC2::Instance
arn:aws:ec2:eu-west-1:123456789012:instance/i-0fd12dd3456789012 AWS::EC2::Instance
```
+  Untuk detail API, lihat [ListGroupResources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-RGResourceTag`
<a name="resource-groups_GetTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan tag untuk kelompok sumber daya yang diberikan arn**  

```
Get-RGResourceTag -Arn arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes
```
**Output:**  

```
Key       Value
---       -----
Instances workboxes
```
+  Untuk detail API, lihat [GetTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-RGGroup`
<a name="resource-groups_CreateGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-RGGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat grup AWS sumber daya Resource Groups berbasis tag baru bernama TestPowerShellGroup. Grup ini menyertakan instans Amazon EC2 di wilayah saat ini yang ditandai dengan kunci tag “Nama”, dan nilai tag “test2". Perintah mengembalikan query dan jenis grup, dan hasil operasi.**  

```
$ResourceQuery = New-Object -TypeName Amazon.ResourceGroups.Model.ResourceQuery
$ResourceQuery.Type = "TAG_FILTERS_1_0"
$ResourceQuery.Query = '{"ResourceTypeFilters":["AWS::EC2::Instance"],"TagFilters":[{"Key":"Name","Values":["test2"]}]}'
$ResourceQuery

New-RGGroup -Name TestPowerShellGroup -ResourceQuery $ResourceQuery -Description "Test resource group."
```
**Output:**  

```
Query                                                                                           Type           
-----                                                                                           ----           
{"ResourceTypeFilters":["AWS::EC2::Instance"],"TagFilters":[{"Key":"Name","Values":["test2"]}]} TAG_FILTERS_1_0

LoggedAt         : 11/20/2018 2:40:59 PM
Group            : Amazon.ResourceGroups.Model.Group
ResourceQuery    : Amazon.ResourceGroups.Model.ResourceQuery
Tags             : {}
ResponseMetadata : Amazon.Runtime.ResponseMetadata
ContentLength    : 338
HttpStatusCode   : OK
```
+  Untuk detail API, lihat [CreateGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-RGGroup`
<a name="resource-groups_DeleteGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-RGGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus grup sumber daya bernama**  

```
Remove-RGGroup -GroupName non-tag-cfn-elbv2
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-RGGroup (DeleteGroup)" on target "non-tag-cfn-elbv2".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

Description GroupArn                                                               Name
----------- --------                                                               ----
            arn:aws:resource-groups:eu-west-1:123456789012:group/non-tag-cfn-elbv2 non-tag-cfn-elbv2
```
+  Untuk detail API, lihat [DeleteGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-RGResourceTag`
<a name="resource-groups_Untag_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-RGResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag yang disebutkan dari grup sumber daya**  

```
Remove-RGResourceTag -Arn arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes -Key Instances
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-RGResourceTag (Untag)" on target "arn:aws:resource-groups:eu-west-1:933303704102:group/workboxes".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y

Arn                                                            Keys
---                                                            ----
arn:aws:resource-groups:eu-west-1:123456789012:group/workboxes {Instances}
```
+  Untuk detail API, lihat [Untag](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (*V5). 

### `Update-RGGroup`
<a name="resource-groups_UpdateGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-RGGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui deskripsi grup**  

```
Update-RGGroup -GroupName auto-yes -Description "Instances auto-remove"
```
**Output:**  

```
Description             GroupArn                                                      Name
-----------             --------                                                      ----
Instances to be cleaned arn:aws:resource-groups:eu-west-1:123456789012:group/auto-yes auto-yes
```
+  Untuk detail API, lihat [UpdateGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-RGGroupQuery`
<a name="resource-groups_UpdateGroupQuery_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-RGGroupQuery`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat objek query dan memperbarui query untuk grup.**  

```
$query = [Amazon.ResourceGroups.Model.ResourceQuery]::new()
$query.Type = [Amazon.ResourceGroups.QueryType]::TAG_FILTERS_1_0
$query.Query = @{
  ResourceTypeFilters = @('AWS::EC2::Instance')
  TagFilters = @(@{
  Key='Environment'
  Values='Build600.11'
  })
} | ConvertTo-Json -Compress -Depth 4

Update-RGGroupQuery -GroupName build600 -ResourceQuery $query
```
**Output:**  

```
GroupName ResourceQuery
--------- -------------
build600  Amazon.ResourceGroups.Model.ResourceQuery
```
+  Untuk detail API, lihat [UpdateGroupQuery](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh API Penandaan Resource Groups menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_resource-groups-tagging-api_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Resource Groups Tagging API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-RGTResourceTag`
<a name="resource-groups-tagging-api_TagResources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-RGTResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan kunci tag “stage” dan “version” dengan nilai “beta” dan “preprod\$1test” ke bucket Amazon S3 dan tabel Amazon DynamoDB. Satu panggilan dilakukan ke layanan untuk menerapkan tag.**  

```
$arn1 = "arn:aws:s3:::amzn-s3-demo-bucket"
$arn2 = "arn:aws:dynamodb:us-west-2:123456789012:table/mytable"

Add-RGTResourceTag -ResourceARNList $arn1,$arn2 -Tag @{ "stage"="beta"; "version"="preprod_test" }
```
**Contoh 2: Contoh ini menambahkan tag dan nilai yang ditentukan ke bucket Amazon S3 dan tabel Amazon DynamoDB. Dua panggilan dilakukan ke layanan, satu untuk setiap sumber daya ARN disalurkan ke cmdlet.**  

```
$arn1 = "arn:aws:s3:::amzn-s3-demo-bucket"
$arn2 = "arn:aws:dynamodb:us-west-2:123456789012:table/mytable"

$arn1,$arn2 | Add-RGTResourceTag -Tag @{ "stage"="beta"; "version"="preprod_test" }
```
+  Untuk detail API, lihat [TagResources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-RGTResource`
<a name="resource-groups-tagging-api_GetResources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGTResource`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan semua sumber daya yang ditandai di wilayah dan kunci tag yang terkait dengan sumber daya. Jika tidak ada parameter -Region yang diberikan ke cmdlet, ia akan mencoba menyimpulkan wilayah dari metadata instance shell atau EC2.**  

```
Get-RGTResource
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:dynamodb:us-west-2:123456789012:table/mytable            {stage, version}   
arn:aws:s3:::amzn-s3-demo-bucket                                            {stage, version, othertag}
```
**Contoh 2: Mengembalikan semua sumber daya yang ditandai dari jenis yang ditentukan di suatu wilayah. String untuk setiap nama layanan dan jenis sumber daya sama dengan yang disematkan di Amazon Resource Name (ARN) sumber daya.**  

```
Get-RGTResource -ResourceType "s3"
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:s3:::amzn-s3-demo-bucket                                            {stage, version, othertag}
```
**Contoh 3: Mengembalikan semua sumber daya yang ditandai dari jenis yang ditentukan di suatu wilayah. Perhatikan bahwa ketika jenis sumber daya disalurkan ke cmdlet, satu panggilan ke layanan dibuat untuk setiap jenis sumber daya yang disediakan.**  

```
"dynamodb","s3" | Get-RGTResource
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:dynamodb:us-west-2:123456789012:table/mytable            {stage, version}   
arn:aws:s3:::amzn-s3-demo-bucket                                            {stage, version, othertag}
```
**Contoh 4: Mengembalikan semua sumber daya yang ditandai yang cocok dengan filter yang ditentukan.**  

```
Get-RGTResource -TagFilter @{ Key="stage" }
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:s3:::amzn-s3-demo-bucket                                            {stage, version, othertag}
```
**Contoh 5: Mengembalikan semua sumber daya yang ditandai yang cocok dengan filter dan jenis sumber daya yang ditentukan.**  

```
Get-RGTResource -TagFilter @{ Key="stage" } -ResourceType "dynamodb"
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:dynamodb:us-west-2:123456789012:table/mytable            {stage, version}
```
**Contoh 6: Mengembalikan semua sumber daya yang ditandai yang cocok dengan filter yang ditentukan.**  

```
Get-RGTResource -TagFilter @{ Key="stage"; Values=@("beta","gamma") }
```
**Output:**  

```
ResourceARN                                                      Tags          
-----------                                                      ----            
arn:aws:dynamodb:us-west-2:123456789012:table/mytable            {stage, version}
```
+  Untuk detail API, lihat [GetResources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-RGTTagKey`
<a name="resource-groups-tagging-api_GetTagKeys_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGTTagKey`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan semua kunci tag di wilayah tertentu. Jika parameter -Region tidak ditentukan, cmdlet akan mencoba menyimpulkan wilayah dari wilayah shell default atau metadata instans EC2. Perhatikan bahwa kunci tag tidak dikembalikan dalam urutan tertentu.**  

```
Get-RGTTagKey -region us-west-2
```
**Output:**  

```
version
stage
```
+  Untuk detail API, lihat [GetTagKeys](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-RGTTagValue`
<a name="resource-groups-tagging-api_GetTagValues_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-RGTTagValue`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan nilai untuk tag tertentu di wilayah. Jika parameter -Region tidak ditentukan, cmdlet akan mencoba menyimpulkan wilayah dari wilayah shell default atau metadata instans EC2.**  

```
Get-RGTTagValue -Key "stage" -Region us-west-2
```
**Output:**  

```
beta
```
+  Untuk detail API, lihat [GetTagValues](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-RGTResourceTag`
<a name="resource-groups-tagging-api_UntagResources_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-RGTResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus kunci tag “stage” dan “version”, dan nilai terkait, dari bucket Amazon S3 dan tabel Amazon DynamoDB. Satu panggilan dilakukan ke layanan untuk menghapus tag. Sebelum tag dihapus, cmdlet akan meminta konfirmasi. Untuk melewati konfirmasi tambahkan parameter -Force.**  

```
$arn1 = "arn:aws:s3:::amzn-s3-demo-bucket"
$arn2 = "arn:aws:dynamodb:us-west-2:123456789012:table/mytable"

Remove-RGTResourceTag -ResourceARNList $arn1,$arn2 -TagKey "stage","version"
```
**Contoh 2: Menghapus kunci tag “stage” dan “version”, dan nilai terkait, dari bucket Amazon S3 dan tabel Amazon DynamoDB. Dua panggilan dilakukan ke layanan, satu untuk setiap sumber daya ARN disalurkan ke cmdlet. Sebelum setiap panggilan, cmdlet akan meminta konfirmasi. Untuk melewati konfirmasi tambahkan parameter -Force.**  

```
$arn1 = "arn:aws:s3:::amzn-s3-demo-bucket"
$arn2 = "arn:aws:dynamodb:us-west-2:123456789012:table/mytable"

$arn1,$arn2 | Remove-RGTResourceTag -TagKey "stage","version"
```
+  Untuk detail API, lihat [UntagResources](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Rute 53 contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_route-53_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Route 53.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Edit-R53ResourceRecordSet`
<a name="route-53_ChangeResourceRecordSets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-R53ResourceRecordSet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat catatan A untuk www.example.com dan mengubah catatan A untuk test.example.com dari 192.0.2.3 menjadi 192.0.2.1. Perhatikan bahwa nilai untuk perubahan catatan tipe TXT harus dalam tanda kutip ganda. Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "www.example.com"
$change1.ResourceRecordSet.Type = "TXT"
$change1.ResourceRecordSet.TTL = 600
$change1.ResourceRecordSet.ResourceRecords = @()
$change1.ResourceRecordSet.ResourceRecords.Add(@{Value="item 1 item 2 item 3"})

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "DELETE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change2.ResourceRecordSet.Name = "test.example.com"
$change2.ResourceRecordSet.Type = "A"
$change2.ResourceRecordSet.TTL = 600
$change2.ResourceRecordSet.ResourceRecords = @()
$change2.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.3"})

$change3 = New-Object Amazon.Route53.Model.Change
$change3.Action = "CREATE"
$change3.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change3.ResourceRecordSet.Name = "test.example.com"
$change3.ResourceRecordSet.Type = "A"
$change3.ResourceRecordSet.TTL = 600
$change3.ResourceRecordSet.ResourceRecords = @()
$change3.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.1"})

$params = @{
    HostedZoneId="Z1PA6795UKMFR9"
	ChangeBatch_Comment="This change batch creates a TXT record for www.example.com. and changes the A record for test.example.com. from 192.0.2.3 to 192.0.2.1."
	ChangeBatch_Change=$change1,$change2,$change3
}

Edit-R53ResourceRecordSet @params
```
**Contoh 2: Contoh ini menunjukkan cara membuat kumpulan catatan sumber daya alias. 'Z222222222' adalah ID dari zona yang dihosting Amazon Route 53 tempat Anda membuat kumpulan catatan sumber daya alias. 'example.com' adalah puncak zona tempat Anda ingin membuat alias dan 'www.example.com' adalah subdomain yang Anda juga ingin membuat alias. 'Z11111111111' adalah contoh ID zona yang dihosting untuk penyeimbang beban dan 'example-load-balancer-1111111111.us-east-1.elb.amazonaws.com' adalah contoh nama domain penyeimbang beban yang digunakan Amazon Route 53 untuk menanggapi kueri untuk example.com dan www.example.com. Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change1.ResourceRecordSet.AliasTarget.HostedZoneId = "Z1111111111111"
$change1.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-1111111111.us-east-1.elb.amazonaws.com."
$change1.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $true

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "CREATE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "www.example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change1.ResourceRecordSet.AliasTarget.HostedZoneId = "Z1111111111111"
$change1.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-1111111111.us-east-1.elb.amazonaws.com."
$change1.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $false

$params = @{
    HostedZoneId="Z222222222"
	ChangeBatch_Comment="This change batch creates two alias resource record sets, one for the zone apex, example.com, and one for www.example.com, that both point to example-load-balancer-1111111111.us-east-1.elb.amazonaws.com."
	ChangeBatch_Change=$change1,$change2
}

Edit-R53ResourceRecordSet @params
```
**Contoh 3: Contoh ini membuat dua catatan A untuk www.example.com. Seperempat dari waktu (1/ (1\$13)), Amazon Route 53 menanggapi kueri untuk www.example.com dengan dua nilai untuk kumpulan catatan sumber daya pertama (192.0.2.9 dan 192.0.2.10). Tiga perempat waktu (3/ (1\$13)) Amazon Route 53 menanggapi kueri untuk www.example.com dengan dua nilai untuk kumpulan catatan sumber daya kedua (192.0.2.11 dan 192.0.2.12). Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "www.example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.SetIdentifier = "Rack 2, Positions 4 and 5"
$change1.ResourceRecordSet.Weight = 1
$change1.ResourceRecordSet.TTL = 600
$change1.ResourceRecordSet.ResourceRecords = @()
$change1.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.9"})
$change1.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.10"})

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "CREATE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change2.ResourceRecordSet.Name = "www.example.com"
$change2.ResourceRecordSet.Type = "A"
$change2.ResourceRecordSet.SetIdentifier = "Rack 5, Positions 1 and 2"
$change2.ResourceRecordSet.Weight = 3
$change2.ResourceRecordSet.TTL = 600
$change2.ResourceRecordSet.ResourceRecords = @()
$change2.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.11"})
$change2.ResourceRecordSet.ResourceRecords.Add(@{Value="192.0.2.12"})

$params = @{
    HostedZoneId="Z1PA6795UKMFR9"
    ChangeBatch_Comment="This change creates two weighted resource record sets, each of which has two values."
    ChangeBatch_Change=$change1,$change2
}

Edit-R53ResourceRecordSet @params
```
**Contoh 4: Contoh ini menunjukkan cara membuat kumpulan catatan sumber daya alias tertimbang dengan asumsi bahwa example.com adalah domain yang ingin Anda buat kumpulan catatan sumber daya alias tertimbang. SetIdentifier membedakan dua set catatan sumber daya alias tertimbang satu sama lain. Elemen ini diperlukan karena elemen Nama dan Jenis memiliki nilai yang sama untuk kedua kumpulan catatan sumber daya. Z1111111111111 dan Z3333333333333 adalah contoh zona host untuk penyeimbang beban ELB yang ditentukan oleh nilai. IDs DNSName example-load-balancer-2222222222.us-east-1.elb.amazonaws.com dan example-load-balancer -4444444444.us-east-1.elb.amazonaws.com adalah contoh domain Elastic Load Balancing dari mana Amazon Route 53 menanggapi kueri untuk example.com. Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.SetIdentifier = "1"
$change1.ResourceRecordSet.Weight = 3
$change1.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change1.ResourceRecordSet.AliasTarget.HostedZoneId = "Z1111111111111"
$change1.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-2222222222.us-east-1.elb.amazonaws.com."
$change1.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $true

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "CREATE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change2.ResourceRecordSet.Name = "example.com"
$change2.ResourceRecordSet.Type = "A"
$change2.ResourceRecordSet.SetIdentifier = "2"
$change2.ResourceRecordSet.Weight = 1
$change2.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change2.ResourceRecordSet.AliasTarget.HostedZoneId = "Z3333333333333"
$change2.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-4444444444.us-east-1.elb.amazonaws.com."
$change2.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $false

$params = @{
    HostedZoneId="Z5555555555"
    ChangeBatch_Comment="This change batch creates two weighted alias resource record sets. Amazon Route 53 responds to queries for example.com with the first ELB domain 3/4ths of the times and the second one 1/4th of the time."
    ChangeBatch_Change=$change1,$change2
}

Edit-R53ResourceRecordSet @params
```
**Contoh 5: Contoh ini membuat dua set catatan sumber daya alias latensi, satu untuk penyeimbang beban ELB di wilayah AS Barat (Oregon) (us-west-2), dan satu lagi untuk penyeimbang beban di wilayah Asia Pasifik (Singapura) (ap-southeast-1). Lihat dokumentasi Amazon Route 53 untuk detail selengkapnya. Anda dapat menggunakan Get-R53Change cmdlet untuk melakukan polling untuk menentukan kapan perubahan selesai.**  

```
$change1 = New-Object Amazon.Route53.Model.Change
$change1.Action = "CREATE"
$change1.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change1.ResourceRecordSet.Name = "example.com"
$change1.ResourceRecordSet.Type = "A"
$change1.ResourceRecordSet.SetIdentifier = "Oregon load balancer 1"
$change1.ResourceRecordSet.Region = us-west-2
$change1.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change1.ResourceRecordSet.AliasTarget.HostedZoneId = "Z1111111111111"
$change1.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-2222222222.us-west-2.elb.amazonaws.com"
$change1.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $true

$change2 = New-Object Amazon.Route53.Model.Change
$change2.Action = "CREATE"
$change2.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet
$change2.ResourceRecordSet.Name = "example.com"
$change2.ResourceRecordSet.Type = "A"
$change2.ResourceRecordSet.SetIdentifier = "Singapore load balancer 1"
$change2.ResourceRecordSet.Region = ap-southeast-1
$change2.ResourceRecordSet.AliasTarget = New-Object Amazon.Route53.Model.AliasTarget
$change2.ResourceRecordSet.AliasTarget.HostedZoneId = "Z2222222222222"
$change2.ResourceRecordSet.AliasTarget.DNSName = "example-load-balancer-1111111111.ap-southeast-1.elb.amazonaws.com"
$change2.ResourceRecordSet.AliasTarget.EvaluateTargetHealth = $true

$params = @{
    HostedZoneId="Z5555555555"
    ChangeBatch_Comment="This change batch creates two latency resource record sets, one for the US West (Oregon) region and one for the Asia Pacific (Singapore) region."
    ChangeBatch_Change=$change1,$change2
}

Edit-R53ResourceRecordSet @params
```
+  Untuk detail API, lihat [ChangeResourceRecordSets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53AccountLimit`
<a name="route-53_GetAccountLimit_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53AccountLimit`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan jumlah maksimum zona host yang dapat dibuat menggunakan akun saat ini.**  

```
Get-R53AccountLimit -Type MAX_HOSTED_ZONES_BY_OWNER
```
**Output:**  

```
15
```
+  Untuk detail API, lihat [GetAccountLimit](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53CheckerIpRanges`
<a name="route-53_GetCheckerIpRanges_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53CheckerIpRanges`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan CIDRs untuk pemeriksa kesehatan Route53**  

```
Get-R53CheckerIpRanges
```
**Output:**  

```
15.177.2.0/23
15.177.6.0/23
15.177.10.0/23
15.177.14.0/23
15.177.18.0/23
15.177.22.0/23
15.177.26.0/23
15.177.30.0/23
15.177.34.0/23
15.177.38.0/23
15.177.42.0/23
15.177.46.0/23
15.177.50.0/23
15.177.54.0/23
15.177.58.0/23
15.177.62.0/23
54.183.255.128/26
54.228.16.0/26
54.232.40.64/26
54.241.32.64/26
54.243.31.192/26
54.244.52.192/26
54.245.168.0/26
54.248.220.0/26
54.250.253.192/26
54.251.31.128/26
54.252.79.128/26
54.252.254.192/26
54.255.254.192/26
107.23.255.0/26
176.34.159.192/26
177.71.207.128/26
```
+  Untuk detail API, lihat [GetCheckerIpRanges](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53HostedZone`
<a name="route-53_GetHostedZone_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZone`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan rincian zona yang dihosting dengan ID PJN98 FT9 Z1D633.**  

```
Get-R53HostedZone -Id Z1D633PJN98FT9
```
+  Untuk detail API, lihat [GetHostedZone](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53HostedZoneCount`
<a name="route-53_GetHostedZoneCount_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZoneCount`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan jumlah total zona host publik dan pribadi untuk saat ini Akun AWS.**  

```
Get-R53HostedZoneCount
```
+  Untuk detail API, lihat [GetHostedZoneCount](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53HostedZoneLimit`
<a name="route-53_GetHostedZoneLimit_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZoneLimit`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan batas jumlah maksimum catatan yang dapat dibuat di zona host yang ditentukan.**  

```
Get-R53HostedZoneLimit -HostedZoneId Z3MEQ8T7HAAAAF -Type MAX_RRSETS_BY_ZONE
```
**Output:**  

```
5
```
+  Untuk detail API, lihat [GetHostedZoneLimit](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53HostedZoneList`
<a name="route-53_ListHostedZones_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZoneList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengeluarkan semua zona host publik dan pribadi Anda.**  

```
Get-R53HostedZoneList
```
**Contoh 2: Mengeluarkan semua zona yang dihosting yang terkait dengan kumpulan delegasi yang dapat digunakan kembali yang memiliki ID X2CISAMPLE NZ8**  

```
Get-R53HostedZoneList -DelegationSetId NZ8X2CISAMPLE
```
+  Untuk detail API, lihat [ListHostedZones](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53HostedZonesByName`
<a name="route-53_ListHostedZonesByName_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53HostedZonesByName`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan semua zona host publik dan pribadi Anda dalam urutan ASCII berdasarkan nama domain.**  

```
Get-R53HostedZonesByName
```
**Contoh 2: Mengembalikan zona host publik dan pribadi Anda, dalam urutan ASCII berdasarkan nama domain, dimulai dari nama DNS yang ditentukan.**  

```
Get-R53HostedZonesByName -DnsName example2.com
```
+  Untuk detail API, lihat [ListHostedZonesByName](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53QueryLoggingConfigList`
<a name="route-53_ListQueryLoggingConfigs_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53QueryLoggingConfigList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan semua konfigurasi untuk pencatatan kueri DNS yang terkait dengan arus. Akun AWS**  

```
Get-R53QueryLoggingConfigList
```
**Output:**  

```
Id                                   HostedZoneId   CloudWatchLogsLogGroupArn
--                                   ------------   -------------------------
59b0fa33-4fea-4471-a88c-926476aaa40d Z385PDS6EAAAZR arn:aws:logs:us-east-1:111111111112:log-group:/aws/route53/example1.com:*
ee528e95-4e03-4fdc-9d28-9e24ddaaa063 Z94SJHBV1AAAAZ arn:aws:logs:us-east-1:111111111112:log-group:/aws/route53/example2.com:*
e38dddda-ceb6-45c1-8cb7-f0ae56aaaa2b Z3MEQ8T7AAA1BF arn:aws:logs:us-east-1:111111111112:log-group:/aws/route53/example3.com:*
```
+  Untuk detail API, lihat [ListQueryLoggingConfigs](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-R53ReusableDelegationSet`
<a name="route-53_GetReusableDelegationSet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-R53ReusableDelegationSet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil informasi tentang set delegasi yang ditentukan termasuk empat server nama yang ditugaskan ke set delegasi.**  

```
Get-R53ReusableDelegationSet -Id N23DS9X4AYEAAA
```
**Output:**  

```
Id                            CallerReference NameServers
--                            --------------- -----------
/delegationset/N23DS9X4AYEAAA testcaller      {ns-545.awsdns-04.net, ns-1264.awsdns-30.org, ns-2004.awsdns-58.co.uk, ns-240.awsdns-30.com}
```
+  Untuk detail API, lihat [GetReusableDelegationSet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-R53HostedZone`
<a name="route-53_CreateHostedZone_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-R53HostedZone`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat zona host baru bernama 'example.com', terkait dengan kumpulan delegasi yang dapat digunakan kembali. Perhatikan bahwa Anda harus memberikan nilai untuk CallerReference parameter sehingga permintaan yang perlu dicoba lagi jika perlu tanpa risiko mengeksekusi operasi dua kali. Karena zona yang dihosting sedang dibuat di VPC, zona ini secara otomatis bersifat pribadi dan Anda tidak boleh mengatur parameter - HostedZoneConfig \$1PrivateZone .**  

```
$params = @{
    Name="example.com"
    CallerReference="myUniqueIdentifier"
    HostedZoneConfig_Comment="This is my first hosted zone"
    DelegationSetId="NZ8X2CISAMPLE"
    VPC_VPCId="vpc-1a2b3c4d"
    VPC_VPCRegion="us-east-1"
}

New-R53HostedZone @params
```
+  Untuk detail API, lihat [CreateHostedZone](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-R53QueryLoggingConfig`
<a name="route-53_CreateQueryLoggingConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-R53QueryLoggingConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat konfigurasi pencatatan kueri DNS Route53 baru untuk zona host yang ditentukan. Amazon Route53 akan mempublikasikan log kueri DNS ke grup log Cloudwatch yang ditentukan.**  

```
New-R53QueryLoggingConfig -HostedZoneId Z3MEQ8T7HAAAAF -CloudWatchLogsLogGroupArn arn:aws:logs:us-east-1:111111111111:log-group:/aws/route53/example.com:*
```
**Output:**  

```
QueryLoggingConfig                      Location
------------------                      --------
Amazon.Route53.Model.QueryLoggingConfig https://route53.amazonaws.com/2013-04-01/queryloggingconfig/ee5aaa95-4e03-4fdc-9d28-9e24ddaaaaa3
```
+  Untuk detail API, lihat [CreateQueryLoggingConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-R53ReusableDelegationSet`
<a name="route-53_CreateReusableDelegationSet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-R53ReusableDelegationSet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat kumpulan delegasi yang dapat digunakan kembali dari 4 server nama yang dapat dilanjutkan oleh beberapa zona yang dihosting.**  

```
New-R53ReusableDelegationSet -CallerReference testcallerreference
```
**Output:**  

```
DelegationSet                      Location
-------------                      --------
Amazon.Route53.Model.DelegationSet https://route53.amazonaws.com/2013-04-01/delegationset/N23DS9XAAAAAXM
```
+  Untuk detail API, lihat [CreateReusableDelegationSet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-R53VPCWithHostedZone`
<a name="route-53_AssociateVPCWithHostedZone_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-R53VPCWithHostedZone`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan VPC yang ditentukan dengan zona host pribadi.**  

```
Register-R53VPCWithHostedZone -HostedZoneId Z3MEQ8T7HAAAAF -VPC_VPCId vpc-f1b9aaaa -VPC_VPCRegion us-east-1
```
**Output:**  

```
Id                     Status  SubmittedAt         Comment
--                     ------  -----------         -------
/change/C3SCAAA633Z6DX PENDING 01/28/2020 19:32:02
```
+  Untuk detail API, lihat [Associate VPCWith HostedZone](https://docs.aws.amazon.com/powershell/v5/reference) in *Alat AWS untuk PowerShell Cmdlet Reference (V5)*. 

### `Remove-R53HostedZone`
<a name="route-53_DeleteHostedZone_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-R53HostedZone`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus zona yang dihosting dengan ID yang ditentukan. Anda akan diminta konfirmasi sebelum perintah berlanjut kecuali Anda menambahkan parameter sakelar -Force.**  

```
Remove-R53HostedZone -Id Z1PA6795UKMFR9
```
+  Untuk detail API, lihat [DeleteHostedZone](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-R53QueryLoggingConfig`
<a name="route-53_DeleteQueryLoggingConfig_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-R53QueryLoggingConfig`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus konfigurasi yang ditentukan untuk pencatatan kueri DNS.**  

```
Remove-R53QueryLoggingConfig -Id ee528e95-4e03-4fdc-9d28-9e24daaa20063
```
+  Untuk detail API, lihat [DeleteQueryLoggingConfig](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-R53ReusableDelegationSet`
<a name="route-53_DeleteReusableDelegationSet_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-R53ReusableDelegationSet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus set delegasi yang dapat digunakan kembali yang ditentukan.**  

```
Remove-R53ReusableDelegationSet -Id N23DS9X4AYAAAM
```
+  Untuk detail API, lihat [DeleteReusableDelegationSet](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-R53VPCFromHostedZone`
<a name="route-53_DisassociateVPCFromHostedZone_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-R53VPCFromHostedZone`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memisahkan VPC yang ditentukan dari zona host pribadi.**  

```
Unregister-R53VPCFromHostedZone -HostedZoneId Z3MEQ8T7HAAAAF -VPC_VPCId vpc-f1b9aaaa -VPC_VPCRegion us-east-1
```
**Output:**  

```
Id                     Status  SubmittedAt         Comment
--                     ------  -----------         -------
/change/C2XFCAAAA9HKZG PENDING 01/28/2020 10:35:55
```
+  Untuk detail API, lihat [Memisahkan VPCFrom HostedZone](https://docs.aws.amazon.com/powershell/v5/reference) dalam *Referensi Alat AWS untuk PowerShell Cmdlet (*V5). 

### `Update-R53HostedZoneComment`
<a name="route-53_UpdateHostedZoneComment_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-R53HostedZoneComment`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini memperbarui komentar untuk zona host yang ditentukan.**  

```
Update-R53HostedZoneComment -Id Z385PDS6AAAAAR -Comment "This is my first hosted zone"
```
**Output:**  

```
Id                     : /hostedzone/Z385PDS6AAAAAR
Name                   : example.com.
CallerReference        : C5B55555-7147-EF04-8341-69131E805C89
Config                 : Amazon.Route53.Model.HostedZoneConfig
ResourceRecordSetCount : 9
LinkedService          :
```
+  Untuk detail API, lihat [UpdateHostedZoneComment](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon S3 menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon S3.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Copy-S3Object`
<a name="s3_CopyObject_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-S3Object`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menyalin objek "sample.txt" dari bucket “test-files” ke bucket yang sama tetapi dengan kunci baru "sample-copy.txt “.**  

```
Copy-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt -DestinationKey sample-copy.txt
```
**Contoh 2: Perintah ini menyalin objek "sample.txt" dari bucket “test-files” ke bucket “backup files” dengan kunci "sample-copy.txt “.**  

```
Copy-S3Object -BucketName amzn-s3-demo-source-bucket -Key sample.txt -DestinationKey sample-copy.txt -DestinationBucket amzn-s3-demo-destination-bucket
```
**Contoh 3: Perintah ini mengunduh objek "sample.txt" dari bucket “test-files” ke file lokal dengan nama "local-sample.txt “.**  

```
Copy-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt -LocalFile local-sample.txt
```
**Contoh 4: Mengunduh objek tunggal ke file yang ditentukan. File yang diunduh akan ditemukan di c:\$1downloads\$1data\$1archive.zip**  

```
Copy-S3Object -BucketName amzn-s3-demo-bucket -Key data/archive.zip -LocalFolder c:\downloads
```
**Contoh 5: Download semua objek yang cocok dengan key prefix yang ditentukan ke folder lokal. Hirarki kunci relatif akan dipertahankan sebagai subfolder di lokasi unduhan keseluruhan.**  

```
Copy-S3Object -BucketName amzn-s3-demo-bucket -KeyPrefix data -LocalFolder c:\downloads
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3Bucket`
<a name="s3_ListBuckets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3Bucket`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan semua bucket S3.**  

```
Get-S3Bucket
```
**Contoh 2: Perintah ini mengembalikan bucket bernama “test-files”**  

```
Get-S3Bucket -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketACL`
<a name="s3_GetBucketAcl_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketACL`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah mendapatkan rincian pemilik objek dari objek S3.**  

```
(Get-S3BucketACL -BucketName 'amzn-s3-demo-bucket' -Select *).Owner
```
**Output:**  

```
DisplayName Id
----------- --
testusername      9988776a6554433d22f1100112e334acb45566778899009e9887bd7f66c5f544
```
+  Untuk detail API, lihat [GetBucketAcl](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketAccelerateConfiguration`
<a name="s3_GetBucketAccelerateConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketAccelerateConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan nilai Diaktifkan, jika pengaturan akselerasi transfer diaktifkan untuk bucket yang ditentukan.**  

```
Get-S3BucketAccelerateConfiguration -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Value                                  
-----                                    
Enabled
```
+  Untuk detail API, lihat [GetBucketAccelerateConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketAnalyticsConfiguration`
<a name="s3_GetBucketAnalyticsConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketAnalyticsConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan detail filter analitik dengan nama 'testfilter' di bucket S3 yang diberikan.**  

```
Get-S3BucketAnalyticsConfiguration -BucketName 'amzn-s3-demo-bucket' -AnalyticsId 'testfilter'
```
+  Untuk detail API, lihat [GetBucketAnalyticsConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketAnalyticsConfigurationList`
<a name="s3_ListBucketAnalyticsConfigurations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketAnalyticsConfigurationList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan 100 konfigurasi analitik pertama dari bucket S3 yang diberikan.**  

```
Get-S3BucketAnalyticsConfigurationList -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [ListBucketAnalyticsConfigurations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketEncryption`
<a name="s3_GetBucketEncryption_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketEncryption`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan semua aturan enkripsi sisi server yang terkait dengan bucket yang diberikan.**  

```
Get-S3BucketEncryption -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketEncryption](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketInventoryConfiguration`
<a name="s3_GetBucketInventoryConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketInventoryConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan detail inventaris bernama 'testinventory' untuk bucket S3 yang diberikan.**  

```
Get-S3BucketInventoryConfiguration -BucketName 'amzn-s3-demo-bucket' -InventoryId 'testinventory'
```
+  Untuk detail API, lihat [GetBucketInventoryConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketInventoryConfigurationList`
<a name="s3_ListBucketInventoryConfigurations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketInventoryConfigurationList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan 100 konfigurasi inventaris pertama dari bucket S3 yang diberikan.**  

```
Get-S3BucketInventoryConfigurationList -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [ListBucketInventoryConfigurations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketLocation`
<a name="s3_GetBucketLocation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketLocation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan batasan lokasi untuk bucket 'amzn-s3-demo-bucket', jika ada kendala.**  

```
Get-S3BucketLocation -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Value
-----
ap-south-1
```
+  Untuk detail API, lihat [GetBucketLocation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketLogging`
<a name="s3_GetBucketLogging_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketLogging`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan status logging untuk bucket yang ditentukan.**  

```
Get-S3BucketLogging -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
TargetBucketName   Grants TargetPrefix
----------------   ------ ------------
testbucket1        {}     testprefix
```
+  Untuk detail API, lihat [GetBucketLogging](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketMetricsConfiguration`
<a name="s3_GetBucketMetricsConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketMetricsConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan detail tentang filter metrik bernama 'testfilter' untuk bucket S3 yang diberikan.**  

```
Get-S3BucketMetricsConfiguration -BucketName 'amzn-s3-demo-bucket' -MetricsId 'testfilter'
```
+  Untuk detail API, lihat [GetBucketMetricsConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketNotification`
<a name="s3_GetBucketNotification_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketNotification`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil konfigurasi notifikasi dari bucket yang diberikan**  

```
Get-S3BucketNotification -BucketName amzn-s3-demo-bucket | select -ExpandProperty TopicConfigurations
```
**Output:**  

```
Id   Topic
--   -----
mimo arn:aws:sns:eu-west-1:123456789012:topic-1
```
+  Untuk detail API, lihat [GetBucketNotification](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketPolicy`
<a name="s3_GetBucketPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menampilkan kebijakan bucket yang terkait dengan bucket S3 yang diberikan.**  

```
Get-S3BucketPolicy -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketPolicyStatus`
<a name="s3_GetBucketPolicyStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketPolicyStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan status kebijakan untuk bucket S3 yang diberikan, yang menunjukkan apakah bucket bersifat publik.**  

```
Get-S3BucketPolicyStatus -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketPolicyStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketReplication`
<a name="s3_GetBucketReplication_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketReplication`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan informasi konfigurasi replikasi yang disetel pada bucket bernama 'amzn-s3-demo-bucket'.**  

```
Get-S3BucketReplication -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [GetBucketReplication](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketRequestPayment`
<a name="s3_GetBucketRequestPayment_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketRequestPayment`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan konfigurasi pembayaran permintaan untuk bucket bernama 'amzn-s3-demo-bucket'. Secara default, pemilik bucket membayar unduhan dari bucket.**  

```
Get-S3BucketRequestPayment -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [GetBucketRequestPayment](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketTagging`
<a name="s3_GetBucketTagging_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketTagging`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan semua tag yang terkait dengan bucket yang diberikan.**  

```
Get-S3BucketTagging -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketTagging](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketVersioning`
<a name="s3_GetBucketVersioning_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketVersioning`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan status pembuatan versi sehubungan dengan bucket yang diberikan.**  

```
Get-S3BucketVersioning -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketVersioning](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3BucketWebsite`
<a name="s3_GetBucketWebsite_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3BucketWebsite`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan detail konfigurasi situs web statis dari bucket S3 yang diberikan.**  

```
Get-S3BucketWebsite -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetBucketWebsite](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3CORSConfiguration`
<a name="s3_GetCORSConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3CORSConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan objek yang berisi semua aturan konfigurasi CORS yang sesuai dengan Bucket S3 yang diberikan.**  

```
Get-S3CORSConfiguration -BucketName 'amzn-s3-demo-bucket' -Select Configuration.Rules
```
**Output:**  

```
AllowedMethods : {PUT, POST, DELETE}
AllowedOrigins : {http://www.example1.com}
Id             : 
ExposeHeaders  : {}
MaxAgeSeconds  : 0
AllowedHeaders : {*}

AllowedMethods : {PUT, POST, DELETE}
AllowedOrigins : {http://www.example2.com}
Id             : 
ExposeHeaders  : {}
MaxAgeSeconds  : 0
AllowedHeaders : {*}

AllowedMethods : {GET}
AllowedOrigins : {*}
Id             : 
ExposeHeaders  : {}
MaxAgeSeconds  : 0
AllowedHeaders : {}
```
+  Untuk detail API, lihat [Dapatkan CORSConfiguration](https://docs.aws.amazon.com/powershell/v5/reference) *Referensi Alat AWS untuk PowerShell Cmdlet (V5*). 

### `Get-S3HeadBucket`
<a name="s3_HeadBucket_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3HeadBucket`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan output dengan kode status HTTP 200 OK untuk bucket yang ada saat pengguna memiliki izin untuk mengaksesnya. BucketArn parameter hanya didukung untuk bucket direktori S3**.  

```
Get-S3HeadBucket -BucketName amzn-s3-demo-bucket
```
**Output:**  

```
AccessPointAlias   : False
BucketArn          :
BucketLocationName : 
BucketLocationType : 
BucketRegion       : us-east-2
ResponseMetadata   : Amazon.Runtime.ResponseMetadata
ContentLength      : 0
HttpStatusCode     : OK
```
**Contoh 2: Perintah ini menampilkan kesalahan dengan kode status HTTP NotFound untuk bucket yang tidak ada.**  

```
Get-S3HeadBucket -BucketName amzn-s3-non-existing-bucket
```
**Output:**  

```
Get-S3HeadBucket: Error making request with Error Code NotFound and Http Status Code NotFound. No further error information was returned by the service.
```
**Contoh 3: Perintah ini menampilkan kesalahan dengan kode status HTTP Forbidden untuk bucket yang ada di mana pengguna tidak memiliki izin untuk mengaksesnya.**  

```
Get-S3HeadBucket -BucketName amzn-s3-no-access-bucket
```
**Output:**  

```
Get-S3HeadBucket: Error making request with Error Code Forbidden and Http Status Code Forbidden. No further error information was returned by the service.
```
+  Untuk detail API, lihat [HeadBucket](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3LifecycleConfiguration`
<a name="s3_GetLifecycleConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3LifecycleConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil konfigurasi siklus hidup untuk bucket.**  

```
Get-S3LifecycleConfiguration -BucketName amzn-s3-demo-bucket
```
**Output:**  

```
Rules
-----
{Remove-in-150-days, Archive-to-Glacier-in-30-days}
```
+  Untuk detail API, lihat [GetLifecycleConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3Object`
<a name="s3_ListObjects_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3Object`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengambil informasi tentang semua item di bucket “test-files”.**  

```
Get-S3Object -BucketName amzn-s3-demo-bucket
```
**Contoh 2: Perintah ini mengambil informasi tentang item "sample.txt" dari bucket “test-files”.**  

```
Get-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt
```
**Contoh 3: Perintah ini mengambil informasi tentang semua item dengan awalan “sample” dari bucket “test-files”.**  

```
Get-S3Object -BucketName amzn-s3-demo-bucket -KeyPrefix sample
```
+  Untuk detail API, lihat [ListObjects](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3ObjectACL`
<a name="s3_GetObjectAcl_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectACL`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah mendapatkan rincian pemilik objek dari objek S3.**  

```
(Get-S3ObjectACL -BucketName 'amzn-s3-demo-bucket' -key 'initialize.ps1' -Select *).Owner
```
**Output:**  

```
DisplayName Id
----------- --
testusername      9988776a6554433d22f1100112e334acb45566778899009e9887bd7f66c5f544
```
+  Untuk detail API, lihat [GetObjectAcl](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3ObjectLockConfiguration`
<a name="s3_GetObjectLockConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectLockConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan nilai 'Diaktifkan' jika konfigurasi kunci Objek diaktifkan untuk bucket S3 yang diberikan.**  

```
Get-S3ObjectLockConfiguration -BucketName 'amzn-s3-demo-bucket' -Select ObjectLockConfiguration.ObjectLockEnabled
```
**Output:**  

```
Value
-----
Enabled
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3ObjectMetadata`
<a name="s3_GetObjectMetadata_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectMetadata`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan metadata objek dengan kunci 'ListTrusts.txt' di bucket S3 yang diberikan.**  

```
Get-S3ObjectMetadata -BucketName 'amzn-s3-demo-bucket' -Key 'ListTrusts.txt'
```
**Output:**  

```
Headers                                       : Amazon.S3.Model.HeadersCollection
Metadata                                      : Amazon.S3.Model.MetadataCollection
DeleteMarker                                  : 
AcceptRanges                                  : bytes
ContentRange                                  : 
Expiration                                    : 
RestoreExpiration                             : 
RestoreInProgress                             : False
LastModified                                  : 01/01/2020 08:02:05
ETag                                          : "d000011112a222e333e3bb4ee5d43d21"
MissingMeta                                   : 0
VersionId                                     : null
Expires                                       : 01/01/0001 00:00:00
WebsiteRedirectLocation                       : 
ServerSideEncryptionMethod                    : AES256
ServerSideEncryptionCustomerMethod            : 
ServerSideEncryptionKeyManagementServiceKeyId : 
ReplicationStatus                             : 
PartsCount                                    : 
ObjectLockLegalHoldStatus                     : 
ObjectLockMode                                : 
ObjectLockRetainUntilDate                     : 01/01/0001 00:00:00
StorageClass                                  : 
RequestCharged                                :
```
+  Untuk detail API, lihat [GetObjectMetadata](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3ObjectRetention`
<a name="s3_GetObjectRetention_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectRetention`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah mengembalikan mode dan tanggal sampai objek akan dipertahankan.**  

```
Get-S3ObjectRetention -BucketName 'amzn-s3-demo-bucket' -Key 'testfile.txt'
```
+  Untuk detail API, lihat [GetObjectRetention](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3ObjectTagSet`
<a name="s3_GetObjectTagging_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3ObjectTagSet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel mengembalikan tag yang terkait dengan objek yang ada pada bucket S3 yang diberikan.**  

```
Get-S3ObjectTagSet -Key 'testfile.txt' -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Key  Value
---  -----
test value
```
+  Untuk detail API, lihat [GetObjectTagging](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3PreSignedURL`
<a name="s3_GetPreSignedURL_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3PreSignedURL`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah mengembalikan URL pra-ditandatangani untuk kunci tertentu dan tanggal kedaluwarsa.**  

```
Get-S3PreSignedURL -BucketName 'amzn-s3-demo-bucket' -Key 'testkey' -Expires '2023-11-16'
```
**Contoh 2: Perintah mengembalikan URL yang telah ditandatangani sebelumnya untuk Bucket Direktori dengan kunci tertentu dan tanggal kedaluwarsa.**  

```
[Amazon.AWSConfigsS3]::UseSignatureVersion4 = $true
      Get-S3PreSignedURL -BucketName amzn-s3-demo-bucket--usw2-az1--x-s3 -Key 'testkey' -Expire '2023-11-17'
```
+  Untuk detail API, lihat [GetPreSignedURL](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3PublicAccessBlock`
<a name="s3_GetPublicAccessBlock_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3PublicAccessBlock`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah mengembalikan konfigurasi blok akses publik dari bucket S3 yang diberikan.**  

```
Get-S3PublicAccessBlock -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [GetPublicAccessBlock](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-S3Version`
<a name="s3_ListVersions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-S3Version`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan metadata tentang semua versi objek dalam bucket S3 yang diberikan.**  

```
Get-S3Version -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
IsTruncated         : False
KeyMarker           : 
VersionIdMarker     : 
NextKeyMarker       : 
NextVersionIdMarker : 
Versions            : {EC2.txt, EC2MicrosoftWindowsGuide.txt, ListDirectories.json, ListTrusts.json}
Name                : amzn-s3-demo-bucket
Prefix              : 
MaxKeys             : 1000
CommonPrefixes      : {}
Delimiter           :
```
+  Untuk detail API, lihat [ListVersions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-S3Bucket`
<a name="s3_PutBucket_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-S3Bucket`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini membuat bucket pribadi baru bernama “sample-bucket”.**  

```
New-S3Bucket -BucketName amzn-s3-demo-bucket
```
**Contoh 2: Perintah ini membuat bucket baru bernama “sample-bucket” dengan izin baca-tulis.**  

```
New-S3Bucket -BucketName amzn-s3-demo-bucket -PublicReadWrite
```
**Contoh 3: Perintah ini membuat bucket baru bernama “sample-bucket” dengan izin hanya-baca.**  

```
New-S3Bucket -BucketName amzn-s3-demo-bucket -PublicReadOnly
```
**Contoh 4: Perintah ini membuat bucket Direktori baru bernama “amzn-s3-demo-bucket--use1-az5--x-s3" with. PutBucketConfiguration**  

```
$bucketConfiguration = @{
      BucketInfo = @{
          DataRedundancy = 'SingleAvailabilityZone'
          Type = 'Directory'
      }
      Location = @{
          Name = 'usw2-az1'
          Type = 'AvailabilityZone'
      }
    }
New-S3Bucket -BucketName amzn-s3-demo-bucket--usw2-az1--x-s3 -BucketConfiguration $bucketConfiguration -Region us-west-2
```
+  Untuk detail API, lihat [PutBucket](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Read-S3Object`
<a name="s3_GetObject_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Read-S3Object`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengambil item "sample.txt" dari bucket “amzn-s3-demo-bucket” dan menyimpannya ke file bernama "local-sample.txt" di lokasi saat ini. File "local-sample.txt" tidak harus ada sebelum perintah ini dipanggil.**  

```
Read-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt -File local-sample.txt
```
**Contoh 2: Perintah ini mengambil direktori virtual “DIR” dari bucket “amzn-s3-demo-bucket” dan menyimpannya ke folder bernama “Local-dir” di lokasi saat ini. Folder “Local-dir” tidak harus ada sebelum perintah ini dipanggil.**  

```
Read-S3Object -BucketName amzn-s3-demo-bucket -KeyPrefix DIR -Folder Local-DIR
```
**Contoh 3: Mengunduh semua objek dengan kunci yang diakhiri dengan '.json' dari ember dengan 'konfigurasi' dalam nama ember ke file di folder yang ditentukan. Kunci objek digunakan untuk mengatur nama file.**  

```
Get-S3Bucket | ? { $_.BucketName -like '*config*' } | Get-S3Object | ? { $_.Key -like '*.json' } | Read-S3Object -Folder C:\ConfigObjects
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3Bucket`
<a name="s3_DeleteBucket_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3Bucket`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus semua objek dan versi objek dari bucket 'test-files' dan kemudian menghapus bucket. Perintah akan meminta konfirmasi sebelum melanjutkan. Tambahkan sakelar -Force untuk menekan konfirmasi. Perhatikan bahwa ember yang tidak kosong tidak dapat dihapus.**  

```
Remove-S3Bucket -BucketName amzn-s3-demo-bucket -DeleteBucketContent
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3BucketAnalyticsConfiguration`
<a name="s3_DeleteBucketAnalyticsConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketAnalyticsConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah menghapus filter analitik dengan nama 'testfilter' di bucket S3 yang diberikan.**  

```
Remove-S3BucketAnalyticsConfiguration -BucketName 'amzn-s3-demo-bucket' -AnalyticsId 'testfilter'
```
+  Untuk detail API, lihat [DeleteBucketAnalyticsConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3BucketEncryption`
<a name="s3_DeleteBucketEncryption_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketEncryption`.

**Alat untuk PowerShell V5**  
**Contoh 1: Ini menonaktifkan enkripsi yang diaktifkan untuk bucket S3 yang disediakan.**  

```
Remove-S3BucketEncryption -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3BucketEncryption (DeleteBucketEncryption)" on target "s3casetestbucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteBucketEncryption](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3BucketInventoryConfiguration`
<a name="s3_DeleteBucketInventoryConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketInventoryConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus invventori bernama 'testInventoryName' yang sesuai dengan bucket S3 yang diberikan.**  

```
Remove-S3BucketInventoryConfiguration -BucketName 'amzn-s3-demo-bucket' -InventoryId 'testInventoryName'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3BucketInventoryConfiguration (DeleteBucketInventoryConfiguration)" on target "amzn-s3-demo-bucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteBucketInventoryConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3BucketMetricsConfiguration`
<a name="s3_DeleteBucketMetricsConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketMetricsConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah menghapus filter metrik dengan nama 'testmetrics' di bucket S3 yang diberikan.**  

```
Remove-S3BucketMetricsConfiguration -BucketName 'amzn-s3-demo-bucket' -MetricsId 'testmetrics'
```
+  Untuk detail API, lihat [DeleteBucketMetricsConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3BucketPolicy`
<a name="s3_DeleteBucketPolicy_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketPolicy`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah menghapus kebijakan bucket yang terkait dengan bucket S3 yang diberikan.**  

```
Remove-S3BucketPolicy -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3BucketReplication`
<a name="s3_DeleteBucketReplication_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketReplication`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghapus konfigurasi replikasi yang terkait dengan bucket bernama 'amzn-s3-demo-bucket'. Perhatikan bahwa operasi ini memerlukan izin untuk DeleteReplicationConfiguration tindakan s3:. Anda akan diminta konfirmasi sebelum operasi berlangsung - untuk menekan konfirmasi, gunakan sakelar -Force.**  

```
Remove-S3BucketReplication -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeleteBucketReplication](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3BucketTagging`
<a name="s3_DeleteBucketTagging_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketTagging`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus semua tag yang terkait dengan bucket S3 yang diberikan.**  

```
Remove-S3BucketTagging -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3BucketTagging (DeleteBucketTagging)" on target "amzn-s3-demo-bucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteBucketTagging](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3BucketWebsite`
<a name="s3_DeleteBucketWebsite_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3BucketWebsite`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menonaktifkan properti hosting situs web statis dari bucket S3 yang diberikan.**  

```
Remove-S3BucketWebsite -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3BucketWebsite (DeleteBucketWebsite)" on target "amzn-s3-demo-bucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteBucketWebsite](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3CORSConfiguration`
<a name="s3_DeleteCORSConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3CORSConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus konfigurasi CORS untuk bucket S3 yang diberikan.**  

```
Remove-S3CORSConfiguration -BucketName 'amzn-s3-demo-bucket'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3CORSConfiguration (DeleteCORSConfiguration)" on target "amzn-s3-demo-bucket".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [Menghapus CORSConfiguration](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3LifecycleConfiguration`
<a name="s3_DeleteLifecycleConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3LifecycleConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah menghapus semua aturan siklus hidup untuk bucket S3 yang diberikan.**  

```
Remove-S3LifecycleConfiguration -BucketName 'amzn-s3-demo-bucket'
```
+  Untuk detail API, lihat [DeleteLifecycleConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3MultipartUpload`
<a name="s3_AbortMultipartUpload_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3MultipartUpload`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini membatalkan unggahan multipart yang dibuat lebih awal dari 5 hari yang lalu.**  

```
Remove-S3MultipartUpload -BucketName amzn-s3-demo-bucket -DaysBefore 5
```
**Contoh 2: Perintah ini membatalkan unggahan multipart yang dibuat lebih awal dari 2 Januari 2014.**  

```
Remove-S3MultipartUpload -BucketName amzn-s3-demo-bucket -InitiatedDate "Thursday, January 02, 2014"
```
**Contoh 3: Perintah ini membatalkan unggahan multipart yang dibuat lebih awal dari 2 Januari 2014, 10:45:37.**  

```
Remove-S3MultipartUpload -BucketName amzn-s3-demo-bucket -InitiatedDate "2014/01/02 10:45:37"
```
+  Untuk detail API, lihat [AbortMultipartUpload](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3Object`
<a name="s3_DeleteObjects_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3Object`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus objek "sample.txt" dari bucket “test-files”. Anda diminta untuk konfirmasi sebelum perintah dijalankan; untuk menekan prompt gunakan sakelar -Force.**  

```
Remove-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt
```
**Contoh 2: Perintah ini menghapus versi objek "sample.txt" yang ditentukan dari bucket “test-files”, dengan asumsi bucket telah dikonfigurasi untuk mengaktifkan versi objek.**  

```
Remove-S3Object -BucketName amzn-s3-demo-bucket -Key sample.txt -VersionId HLbxnx6V9omT6AQYVpks8mmFKQcejpqt
```
**Contoh 3: Perintah ini menghapus objek "sample1.txt “," sample2.txt "dan" sample3.txt "dari bucket “test-files” sebagai operasi batch tunggal. Respons layanan akan mencantumkan semua kunci yang diproses, terlepas dari status keberhasilan atau kesalahan penghapusan. Untuk mendapatkan hanya kesalahan untuk kunci yang tidak dapat diproses oleh layanan tambahkan ReportErrorsOnly parameter - (parameter ini juga dapat ditentukan dengan alias -Quiet.**  

```
Remove-S3Object -BucketName amzn-s3-demo-bucket -KeyCollection @( "sample1.txt", "sample2.txt", "sample3.txt" )
```
**Contoh 4: Contoh ini menggunakan ekspresi sebaris dengan KeyCollection parameter - untuk mendapatkan kunci objek yang akan dihapus. Get-S3Objectmengembalikan koleksi contoh Amazon.S3.Model.S3Object, yang masing-masing memiliki anggota Key dari jenis string mengidentifikasi** objek.  

```
Remove-S3Object -bucketname "amzn-s3-demo-bucket" -KeyCollection (Get-S3Object "test-files" -KeyPrefix "prefix/subprefix" | select -ExpandProperty Key)
```
**Contoh 5: Contoh ini memperoleh semua objek yang memiliki key prefix “prefix/subprefix” di bucket dan menghapusnya. Perhatikan bahwa objek yang masuk diproses satu per satu. Untuk koleksi besar, pertimbangkan untuk meneruskan koleksi ke parameter cmdlet's - InputObject (alias -S3ObjectCollection) untuk memungkinkan penghapusan terjadi sebagai batch dengan satu panggilan ke layanan.**  

```
Get-S3Object -BucketName "amzn-s3-demo-bucket" -KeyPrefix "prefix/subprefix" | Remove-S3Object -Force
```
**Contoh 6: Contoh ini menyalurkan kumpulan ObjectVersion instance Amazon.S3.Model.S3 yang mewakili penanda hapus ke cmdlet untuk dihapus. Perhatikan bahwa objek yang masuk diproses satu per satu. Untuk koleksi besar, pertimbangkan untuk meneruskan koleksi ke parameter cmdlet's - InputObject (alias -S3ObjectCollection) untuk memungkinkan penghapusan terjadi sebagai batch dengan satu panggilan ke layanan.**  

```
(Get-S3Version -BucketName "amzn-s3-demo-bucket").Versions | Where {$_.IsDeleteMarker -eq "True"} | Remove-S3Object -Force
```
**Contoh 7: Script ini menunjukkan bagaimana melakukan penghapusan batch dari satu set objek (dalam hal ini menghapus penanda) dengan membangun array objek yang akan digunakan dengan - KeyAndVersionCollection parameter.**  

```
$keyVersions = @()
$markers = (Get-S3Version -BucketName $BucketName).Versions | Where {$_.IsDeleteMarker -eq "True"}
foreach ($marker in $markers) { $keyVersions += @{ Key = $marker.Key; VersionId = $marker.VersionId } }
Remove-S3Object -BucketName $BucketName -KeyAndVersionCollection $keyVersions -Force
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3ObjectTagSet`
<a name="s3_DeleteObjectTagging_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3ObjectTagSet`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menghapus semua tag yang terkait dengan objek dengan kunci 'testfile.txt' di Bucket S3 yang diberikan.**  

```
Remove-S3ObjectTagSet -Key 'testfile.txt' -BucketName 'amzn-s3-demo-bucket' -Select '^Key'
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-S3ObjectTagSet (DeleteObjectTagging)" on target "testfile.txt".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
testfile.txt
```
+  Untuk detail API, lihat [DeleteObjectTagging](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-S3PublicAccessBlock`
<a name="s3_DeletePublicAccessBlock_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-S3PublicAccessBlock`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mematikan setelan blokir akses publik untuk bucket yang diberikan.**  

```
Remove-S3PublicAccessBlock -BucketName 'amzn-s3-demo-bucket' -Force -Select '^BucketName'
```
**Output:**  

```
amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [DeletePublicAccessBlock](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-S3BucketEncryption`
<a name="s3_PutBucketEncryption_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-S3BucketEncryption`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengaktifkan enkripsi sisi AES256 server default dengan Amazon S3 Managed Keys (SSE-S3) pada bucket yang diberikan.**  

```
$Encryptionconfig = @{ServerSideEncryptionByDefault = @{ServerSideEncryptionAlgorithm = "AES256"}}
Set-S3BucketEncryption -BucketName 'amzn-s3-demo-bucket' -ServerSideEncryptionConfiguration_ServerSideEncryptionRule $Encryptionconfig
```
+  Untuk detail API, lihat [PutBucketEncryption](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Test-S3Bucket`
<a name="s3_Test-S3Bucket_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Test-S3Bucket`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan True jika bucket ada, False sebaliknya. Perintah mengembalikan True bahkan jika bucket bukan milik pengguna.**  

```
Test-S3Bucket -BucketName amzn-s3-demo-bucket
```
+  Untuk detail API, lihat [Test-S3Bucket](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3BucketAccelerateConfiguration`
<a name="s3_PutBucketAccelerateConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketAccelerateConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini memungkinkan percepatan transfer untuk bucket S3 yang diberikan.**  

```
$statusVal = New-Object Amazon.S3.BucketAccelerateStatus('Enabled')
Write-S3BucketAccelerateConfiguration -BucketName 'amzn-s3-demo-bucket' -AccelerateConfiguration_Status $statusVal
```
+  Untuk detail API, lihat [PutBucketAccelerateConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3BucketNotification`
<a name="s3_PutBucketNotification_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketNotification`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengonfigurasi konfigurasi topik SNS untuk acara S3 ObjectRemovedDelete dan mengaktifkan notifikasi untuk bucket s3 yang diberikan**  

```
$topic =  [Amazon.S3.Model.TopicConfiguration] @{
  Id = "delete-event"
  Topic = "arn:aws:sns:eu-west-1:123456789012:topic-1"
  Event = [Amazon.S3.EventType]::ObjectRemovedDelete
}

Write-S3BucketNotification -BucketName amzn-s3-demo-bucket -TopicConfiguration $topic
```
**Contoh 2: Contoh ini memungkinkan pemberitahuan ObjectCreatedAll untuk bucket yang diberikan mengirimnya ke fungsi Lambda.**  

```
$lambdaConfig = [Amazon.S3.Model.LambdaFunctionConfiguration] @{
  Events = "s3:ObjectCreated:*"
  FunctionArn = "arn:aws:lambda:eu-west-1:123456789012:function:rdplock"
  Id = "ObjectCreated-Lambda"
  Filter = @{
    S3KeyFilter = @{
      FilterRules = @(
        @{Name="Prefix";Value="dada"}
        @{Name="Suffix";Value=".pem"}
      )
    }
  }
}

Write-S3BucketNotification -BucketName amzn-s3-demo-bucket -LambdaFunctionConfiguration $lambdaConfig
```
**Contoh 3: Contoh ini membuat 2 konfigurasi Lambda yang berbeda berdasarkan akhiran kunci yang berbeda dan dikonfigurasi keduanya dalam satu perintah.**  

```
#Lambda Config 1

$firstLambdaConfig = [Amazon.S3.Model.LambdaFunctionConfiguration] @{
  Events = "s3:ObjectCreated:*"
  FunctionArn = "arn:aws:lambda:eu-west-1:123456789012:function:verifynet"
  Id = "ObjectCreated-dada-ps1"
  Filter = @{
    S3KeyFilter = @{
      FilterRules = @(
        @{Name="Prefix";Value="dada"}
        @{Name="Suffix";Value=".ps1"}
      )
    }
  }
}

#Lambda Config 2

$secondlambdaConfig = [Amazon.S3.Model.LambdaFunctionConfiguration] @{
  Events = [Amazon.S3.EventType]::ObjectCreatedAll
  FunctionArn = "arn:aws:lambda:eu-west-1:123456789012:function:verifyssm"
  Id = "ObjectCreated-dada-json"
  Filter = @{
    S3KeyFilter = @{
      FilterRules = @(
        @{Name="Prefix";Value="dada"}
        @{Name="Suffix";Value=".json"}
      )
    }
  }
}

Write-S3BucketNotification -BucketName amzn-s3-demo-bucket -LambdaFunctionConfiguration $firstLambdaConfig,$secondlambdaConfig
```
+  Untuk detail API, lihat [PutBucketNotification](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3BucketReplication`
<a name="s3_PutBucketReplication_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketReplication`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menetapkan konfigurasi replikasi dengan satu aturan yang memungkinkan replikasi ke bucket 'amzn-s3-demo-bucket' setiap objek baru yang dibuat dengan awalan nama kunci "" di bucket 'amzn-s3-demo-bucket'. TaxDocs**  

```
$rule1 = New-Object Amazon.S3.Model.ReplicationRule
$rule1.ID = "Rule-1"
$rule1.Status = "Enabled"
$rule1.Prefix = "TaxDocs"
$rule1.Destination = @{ BucketArn = "arn:aws:s3:::amzn-s3-demo-destination-bucket" }
    
$params = @{
    BucketName = "amzn-s3-demo-bucket"
    Configuration_Role = "arn:aws:iam::35667example:role/CrossRegionReplicationRoleForS3"
    Configuration_Rule = $rule1
}

Write-S3BucketReplication @params
```
**Contoh 2: Contoh ini menetapkan konfigurasi replikasi dengan beberapa aturan yang memungkinkan replikasi ke bucket 'amzn-s3-demo-bucket' setiap objek baru yang dibuat dengan awalan nama kunci "" atau "”. TaxDocs OtherDocs Awalan kunci tidak boleh tumpang tindih.**  

```
$rule1 = New-Object Amazon.S3.Model.ReplicationRule
$rule1.ID = "Rule-1"
$rule1.Status = "Enabled"
$rule1.Prefix = "TaxDocs"
$rule1.Destination = @{ BucketArn = "arn:aws:s3:::amzn-s3-demo-destination-bucket" }
    
$rule2 = New-Object Amazon.S3.Model.ReplicationRule
$rule2.ID = "Rule-2"
$rule2.Status = "Enabled"
$rule2.Prefix = "OtherDocs"
$rule2.Destination = @{ BucketArn = "arn:aws:s3:::amzn-s3-demo-destination-bucket" }
    
$params = @{
    BucketName = "amzn-s3-demo-bucket"
    Configuration_Role = "arn:aws:iam::35667example:role/CrossRegionReplicationRoleForS3"
    Configuration_Rule = $rule1,$rule2
}

Write-S3BucketReplication @params
```
**Contoh 3: Contoh ini memperbarui konfigurasi replikasi pada bucket yang ditentukan untuk menonaktifkan aturan yang mengontrol replikasi objek dengan awalan nama kunci "TaxDocs" ke bucket 'amzn-s3-demo-bucket'.**  

```
$rule1 = New-Object Amazon.S3.Model.ReplicationRule
$rule1.ID = "Rule-1"
$rule1.Status = "Disabled"
$rule1.Prefix = "TaxDocs"
$rule1.Destination = @{ BucketArn = "arn:aws:s3:::amzn-s3-demo-destination-bucket" }
    
$params = @{
    BucketName = "amzn-s3-demo-bucket"
    Configuration_Role = "arn:aws:iam::35667example:role/CrossRegionReplicationRoleForS3"
    Configuration_Rule = $rule1
}

Write-S3BucketReplication @params
```
+  Untuk detail API, lihat [PutBucketReplication](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3BucketRequestPayment`
<a name="s3_PutBucketRequestPayment_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketRequestPayment`.

**Alat untuk PowerShell V5**  
**Contoh 1: Memperbarui konfigurasi pembayaran permintaan untuk bucket bernama 'amzn-s3-demo-bucket' sehingga orang yang meminta unduhan dari bucket akan dikenakan biaya untuk unduhan. Secara default, pemilik bucket membayar unduhan. Untuk mengatur permintaan pembayaran kembali ke default gunakan 'BucketOwner' untuk parameter RequestPaymentConfiguration \$1Payer.**  

```
Write-S3BucketRequestPayment -BucketName amzn-s3-demo-bucket -RequestPaymentConfiguration_Payer Requester
```
+  Untuk detail API, lihat [PutBucketRequestPayment](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3BucketTagging`
<a name="s3_PutBucketTagging_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketTagging`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini menerapkan dua tag ke bucket bernama`cloudtrail-test-2018`: tag dengan kunci Stage dan nilai Test, dan tag dengan kunci Environment dan nilai Alpha. Untuk memverifikasi bahwa tag telah ditambahkan ke bucket, jalankan`Get-S3BucketTagging -BucketName bucket_name`. Hasilnya harus menunjukkan tag yang Anda terapkan ke bucket di perintah pertama. Perhatikan bahwa `Write-S3BucketTagging` menimpa seluruh set tag yang ada di bucket. Untuk menambah atau menghapus tag individual, jalankan cmdlet Resource Groups dan Tagging API, dan. `Add-RGTResourceTag` `Remove-RGTResourceTag` Atau, gunakan Editor Tag di AWS Management Console untuk mengelola tag bucket S3.**  

```
Write-S3BucketTagging -BucketName amzn-s3-demo-bucket -TagSet @( @{ Key="Stage"; Value="Test" }, @{ Key="Environment"; Value="Alpha" } )
```
**Contoh 2: Perintah ini menyalurkan ember yang diberi nama `cloudtrail-test-2018` ke dalam `Write-S3BucketTagging` cmdlet. Ini berlaku tag Tahap: Produksi dan Departemen: Keuangan ke ember. Perhatikan bahwa `Write-S3BucketTagging` menimpa seluruh set tag yang ada di bucket.**  

```
Get-S3Bucket -BucketName amzn-s3-demo-bucket | Write-S3BucketTagging -TagSet @( @{ Key="Stage"; Value="Production" }, @{ Key="Department"; Value="Finance" } )
```
+  Untuk detail API, lihat [PutBucketTagging](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3BucketVersioning`
<a name="s3_PutBucketVersioning_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketVersioning`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah memungkinkan pembuatan versi untuk bucket S3 yang diberikan.**  

```
Write-S3BucketVersioning -BucketName 'amzn-s3-demo-bucket' -VersioningConfig_Status Enabled
```
+  Untuk detail API, lihat [PutBucketVersioning](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3BucketWebsite`
<a name="s3_PutBucketWebsite_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3BucketWebsite`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah memungkinkan hosting situs web untuk bucket yang diberikan dengan dokumen indeks sebagai 'index.html' dan dokumen kesalahan sebagai 'error.html'.**  

```
Write-S3BucketWebsite -BucketName 'amzn-s3-demo-bucket' -WebsiteConfiguration_IndexDocumentSuffix 'index.html' -WebsiteConfiguration_ErrorDocument 'error.html'
```
+  Untuk detail API, lihat [PutBucketWebsite](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3LifecycleConfiguration`
<a name="s3_PutLifecycleConfiguration_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3LifecycleConfiguration`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menulis/ menggantikan konfigurasi yang disediakan dalam \$1NewRule. Konfigurasi ini memastikan untuk membatasi objek lingkup dengan awalan dan nilai tag yang diberikan.**  

```
$NewRule = [Amazon.S3.Model.LifecycleRule] @{
		Expiration =  @{
			Days=  50
		}
		Id =  "Test-From-Write-cmdlet-1"
		Filter=  @{
			LifecycleFilterPredicate =  [Amazon.S3.Model.LifecycleAndOperator]@{
				Operands=  @(
					[Amazon.S3.Model.LifecyclePrefixPredicate] @{
						"Prefix" =  "py"
					},
					[Amazon.S3.Model.LifecycleTagPredicate] @{
						"Tag"=  @{
							"Key" =  "non-use"
							"Value" = "yes"
						}
					}
				)
			}
		}
		"Status"= 'Enabled'
		NoncurrentVersionExpiration = @{
			NoncurrentDays = 75
		}
	}
    
	Write-S3LifecycleConfiguration -BucketName amzn-s3-demo-bucket -Configuration_Rule $NewRule
```
**Contoh 2: Contoh ini menetapkan beberapa aturan dengan penyaringan. \$1 ArchiveRule menetapkan objek untuk diarsipkan dalam 30 hari ke Glacier dan 120 ke. DeepArchive \$1 ExpireRule kedaluwarsa versi saat ini dan sebelumnya dalam 150 hari untuk objek dengan awalan 'py' dan tag:key 'archieved' disetel ke 'ya'**.  

```
$ExpireRule = [Amazon.S3.Model.LifecycleRule] @{
		Expiration =  @{
			Days=  150
		}
		Id =  "Remove-in-150-days"
		Filter=  @{
			LifecycleFilterPredicate =  [Amazon.S3.Model.LifecycleAndOperator]@{
				Operands=  @(
					[Amazon.S3.Model.LifecyclePrefixPredicate] @{
						"Prefix" =  "py"
					},
					[Amazon.S3.Model.LifecycleTagPredicate] @{
						"Tag"=  @{
							"Key" =  "archived"
							"Value" = "yes"
						}
					}
				)
			}
		}
		Status= 'Enabled'
		NoncurrentVersionExpiration = @{
			NoncurrentDays = 150
		}
	}

	$ArchiveRule = [Amazon.S3.Model.LifecycleRule] @{
		Expiration =  $null
		Id =  "Archive-to-Glacier-in-30-days"
		Filter=  @{
			LifecycleFilterPredicate =  [Amazon.S3.Model.LifecycleAndOperator]@{
				Operands= @(
					[Amazon.S3.Model.LifecyclePrefixPredicate] @{
						"Prefix" =  "py"
					},
					[Amazon.S3.Model.LifecycleTagPredicate] @{
						"Tag"=  @{
							"Key" =  "reviewed"
							"Value" = "yes"
						}
					}
				)
			}
		}
		Status = 'Enabled'
		NoncurrentVersionExpiration = @{
			NoncurrentDays = 75
		}
		Transitions = @(
			@{
				Days = 30
				"StorageClass"= 'Glacier'
			},
			@{
				Days = 120
				"StorageClass"= [Amazon.S3.S3StorageClass]::DeepArchive
			}
		)
	}

	Write-S3LifecycleConfiguration -BucketName amzn-s3-demo-bucket -Configuration_Rule $ExpireRule,$ArchiveRule
```
+  Untuk detail API, lihat [PutLifecycleConfiguration](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3Object`
<a name="s3_PutObject_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3Object`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengunggah file tunggal "local-sample.txt" ke Amazon S3, membuat objek dengan kunci "sample.txt" di bucket “test-files”.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Key "sample.txt" -File .\local-sample.txt
```
**Contoh 2: Perintah ini mengunggah file tunggal "sample.txt" ke Amazon S3, membuat objek dengan kunci "sample.txt" di bucket “test-files”. Jika parameter -Key tidak disediakan, nama file digunakan sebagai kunci objek S3.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -File .\sample.txt
```
**Contoh 3: Perintah ini mengunggah file tunggal "local-sample.txt" ke Amazon S3, membuat objek dengan kunci prefix/to/sample ".txt” di bucket “test-files”.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Key "prefix/to/sample.txt" -File .\local-sample.txt
```
**Contoh 4: Perintah ini mengunggah semua file di subdirektori “Scripts” ke bucket “test-files” dan menerapkan common key prefix "" untuk setiap objek. SampleScripts Setiap file yang diunggah akan memiliki kunci "SampleScripts/filename" di mana 'nama filen' bervariasi.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Folder .\Scripts -KeyPrefix SampleScripts\
```
**Contoh 5: Perintah ini mengunggah semua file\$1.ps1 di direktur lokal “Scripts” ke bucket “test-files” dan menerapkan common key prefix "" ke setiap objek. SampleScripts Setiap file yang diunggah akan memiliki kunci "SampleScripts/filename.ps1" di mana 'nama filen' bervariasi.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Folder .\Scripts -KeyPrefix SampleScripts\ -SearchPattern *.ps1
```
**Contoh 6: Perintah ini membuat objek S3 baru yang berisi string konten tertentu dengan kunci 'sample.txt'.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Key "sample.txt" -Content "object contents"
```
**Contoh 7: Perintah ini mengunggah file yang ditentukan (nama file digunakan sebagai kunci) dan menerapkan tag yang ditentukan ke objek baru.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -File "sample.txt" -TagSet @{Key="key1";Value="value1"},@{Key="key2";Value="value2"}
```
**Contoh 8: Perintah ini secara rekursif mengunggah folder yang ditentukan dan menerapkan tag yang ditentukan ke semua objek baru.**  

```
Write-S3Object -BucketName amzn-s3-demo-bucket -Folder . -KeyPrefix "TaggedFiles" -Recurse -TagSet @{Key="key1";Value="value1"},@{Key="key2";Value="value2"}
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-S3ObjectRetention`
<a name="s3_PutObjectRetention_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-S3ObjectRetention`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah mengaktifkan mode retensi tata kelola hingga tanggal '31 Des 2019 00:00:00 'untuk objek' testfile.txt 'di bucket S3 yang diberikan.**  

```
Write-S3ObjectRetention -BucketName 'amzn-s3-demo-bucket' -Key 'testfile.txt' -Retention_Mode GOVERNANCE -Retention_RetainUntilDate "2019-12-31T00:00:00"
```
+  Untuk detail API, lihat [PutObjectRetention](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh CSPM Security Hub menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_securityhub_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Security Hub CSPM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-SHUBFinding`
<a name="securityhub_GetSHUBFinding_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SHUBFinding`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengambil temuan Security Hub dari Amazon EC2; layanan.**  

```
$filter = New-Object -TypeName Amazon.SecurityHub.Model.AwsSecurityFindingFilters
$filter.ResourceType = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'PREFIX'
    Value = 'AwsEc2'
}
Get-SHUBFinding -Filter $filter
```
**Contoh 2: Perintah ini mengambil temuan Security Hub dari ID AWS akun 123456789012.**  

```
$filter = New-Object -TypeName Amazon.SecurityHub.Model.AwsSecurityFindingFilters
$filter.AwsAccountId = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'EQUALS'
    Value = '123456789012'
}
Get-SHUBFinding -Filter $filter
```
**Contoh 3: Perintah ini mengambil temuan Security Hub yang dihasilkan untuk standar “pci-dss”.**  

```
$filter = New-Object -TypeName Amazon.SecurityHub.Model.AwsSecurityFindingFilters
$filter.GeneratorId = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'PREFIX'
    Value = 'pci-dss'
}
Get-SHUBFinding -Filter $filter
```
**Contoh 4: Perintah ini mengambil temuan tingkat keparahan kritis Security Hub yang memiliki status alur kerja NOTIFIED.**  

```
$filter = New-Object -TypeName Amazon.SecurityHub.Model.AwsSecurityFindingFilters
$filter.SeverityLabel = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'EQUALS'
    Value = 'CRITICAL'
}
$filter.WorkflowStatus = New-Object -TypeName Amazon.SecurityHub.Model.StringFilter -Property @{
    Comparison = 'EQUALS'
    Value = 'NOTIFIED'
}
Get-SHUBFinding -Filter $filter
```
+  Untuk detail API, lihat [GetFindings](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Amazon SES contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Get-SESIdentity`
<a name="ses_ListIdentities_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SESIdentity`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan daftar yang berisi semua identitas (alamat email dan domain) untuk AWS Akun tertentu, terlepas dari status verifikasi.**  

```
Get-SESIdentity
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SESSendQuota`
<a name="ses_GetSendQuota_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SESSendQuota`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan batas pengiriman pengguna saat ini.**  

```
Get-SESSendQuota
```
+  Untuk detail API, lihat [GetSendQuota](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SESSendStatistic`
<a name="ses_GetSendStatistics_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SESSendStatistic`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini mengembalikan statistik pengiriman pengguna. Hasilnya adalah daftar titik data, yang mewakili dua minggu terakhir aktivitas pengiriman. Setiap titik data dalam daftar berisi statistik untuk interval 15 menit.**  

```
Get-SESSendStatistic
```
+  Untuk detail API, lihat [GetSendStatistics](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Amazon SES API v2 contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_sesv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon SES API v2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Send-SES2Email`
<a name="sesv2_SendSES2Email_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-SES2Email`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara mengirim pesan email standar.**  

```
Send-SES2Email -FromEmailAddress "sender@example.com" -Destination_ToAddress "recipient@example.com" -Subject_Data "Email Subject" -Text_Data "Email Body"
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon SNS menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Publish-SNSMessage`
<a name="sns_Publish_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish-SNSMessage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan penerbitan pesan dengan satu baris yang MessageAttribute dideklarasikan.**  

```
Publish-SNSMessage -TopicArn "arn:aws:sns:us-west-2:123456789012:my-topic" -Message "Hello" -MessageAttribute @{'City'=[Amazon.SimpleNotificationService.Model.MessageAttributeValue]@{DataType='String'; StringValue ='AnyCity'}}
```
**Contoh 2: Contoh ini menunjukkan penerbitan pesan dengan beberapa MessageAttributes dideklarasikan sebelumnya.**  

```
$cityAttributeValue = New-Object Amazon.SimpleNotificationService.Model.MessageAttributeValue
$cityAttributeValue.DataType = "String"
$cityAttributeValue.StringValue = "AnyCity"

$populationAttributeValue = New-Object Amazon.SimpleNotificationService.Model.MessageAttributeValue
$populationAttributeValue.DataType = "Number"
$populationAttributeValue.StringValue = "1250800"

$messageAttributes = New-Object System.Collections.Hashtable
$messageAttributes.Add("City", $cityAttributeValue)
$messageAttributes.Add("Population", $populationAttributeValue)

Publish-SNSMessage -TopicArn "arn:aws:sns:us-west-2:123456789012:my-topic" -Message "Hello" -MessageAttribute $messageAttributes
```
+  Untuk detail API, lihat [Menerbitkan](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon SQS menggunakan Alat untuk V5 PowerShell
<a name="powershell_5_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-SQSPermission`
<a name="sqs_AddPermission_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-SQSPermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan yang ditentukan Akun AWS untuk mengirim pesan dari antrian yang ditentukan.**  

```
Add-SQSPermission -Action SendMessage -AWSAccountId 80398EXAMPLE -Label SendMessagesFromMyQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [AddPermission](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Clear-SQSQueue`
<a name="sqs_PurgeQueue_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Clear-SQSQueue`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus semua pesan dari antrian yang ditentukan.**  

```
Clear-SQSQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [PurgeQueue](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-SQSMessageVisibility`
<a name="sqs_ChangeMessageVisibility_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-SQSMessageVisibility`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah batas waktu visibilitas untuk pesan dengan pegangan tanda terima yang ditentukan dalam antrian yang ditentukan menjadi 10 jam (10 jam\$1 60 menit \$1 60 detik = 36000 detik).**  

```
Edit-SQSMessageVisibility -QueueUrl https://sqs.us-east-1.amazonaws.com/8039EXAMPLE/MyQueue -ReceiptHandle AQEBgGDh...J/Iqww== -VisibilityTimeout 36000
```
+  Untuk detail API, lihat [ChangeMessageVisibility](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-SQSMessageVisibilityBatch`
<a name="sqs_ChangeMessageVisibilityBatch_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-SQSMessageVisibilityBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah batas waktu visibilitas untuk 2 pesan dengan tanda terima yang ditentukan dalam antrian yang ditentukan. Batas waktu visibilitas pesan pertama diubah menjadi 10 jam (10 jam\$1 60 menit \$1 60 detik = 36000 detik). Batas waktu visibilitas pesan kedua diubah menjadi 5 jam (5 jam \$1 60 menit \$1 60 detik = 18000 detik).**  

```
$changeVisibilityRequest1 = New-Object Amazon.SQS.Model.ChangeMessageVisibilityBatchRequestEntry
$changeVisibilityRequest1.Id = "Request1"
$changeVisibilityRequest1.ReceiptHandle = "AQEBd329...v6gl8Q=="
$changeVisibilityRequest1.VisibilityTimeout = 36000

$changeVisibilityRequest2 = New-Object Amazon.SQS.Model.ChangeMessageVisibilityBatchRequestEntry
$changeVisibilityRequest2.Id = "Request2"
$changeVisibilityRequest2.ReceiptHandle = "AQEBgGDh...J/Iqww=="
$changeVisibilityRequest2.VisibilityTimeout = 18000

Edit-SQSMessageVisibilityBatch -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue -Entry $changeVisibilityRequest1, $changeVisibilityRequest2
```
**Output:**  

```
Failed    Successful                                                                    
------    ----------                                                                    
{}        {Request2, Request1}
```
+  Untuk detail API, lihat [ChangeMessageVisibilityBatch](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SQSDeadLetterSourceQueue`
<a name="sqs_ListDeadLetterSourceQueues_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SQSDeadLetterSourceQueue`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan antrian apa pun yang bergantung pada antrian yang ditentukan sebagai antrian surat mati mereka. URLs **  

```
Get-SQSDeadLetterSourceQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyOtherQueue
```
+  Untuk detail API, lihat [ListDeadLetterSourceQueues](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SQSQueue`
<a name="sqs_ListQueues_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SQSQueue`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua antrian.**  

```
Get-SQSQueue
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/AnotherQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/DeadLetterQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyOtherQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue
```
**Contoh 2: Contoh ini mencantumkan antrian apa pun yang dimulai dengan nama yang ditentukan.**  

```
Get-SQSQueue -QueueNamePrefix My
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyOtherQueue
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyDeadLetterQueue
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SQSQueueAttribute`
<a name="sqs_GetQueueAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SQSQueueAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua atribut untuk antrian yang ditentukan.**  

```
Get-SQSQueueAttribute -AttributeName All -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
**Output:**  

```
VisibilityTimeout                     : 30
DelaySeconds                          : 0
MaximumMessageSize                    : 262144
MessageRetentionPeriod                : 345600
ApproximateNumberOfMessages           : 0
ApproximateNumberOfMessagesNotVisible : 0
ApproximateNumberOfMessagesDelayed    : 0
CreatedTimestamp                      : 2/11/2015 5:53:35 PM
LastModifiedTimestamp                 : 12/29/2015 2:23:17 PM
QueueARN                              : arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue
Policy                                : {"Version":"2012-10-17",		 	 	 "Id":"arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue/SQSDefaultPolicy","Statement":[{"Sid":"Sid14
                                        495134224EX","Effect":"Allow","Principal":{"AWS":"*"},"Action":"SQS:SendMessage","Resource":"arn:aws:sqs:us-east-1:80
                                        398EXAMPLE:MyQueue","Condition":{"ArnEquals":{"aws:SourceArn":"arn:aws:sns:us-east-1:80398EXAMPLE:MyTopic"}}},{"Sid":
                                        "SendMessagesFromMyQueue","Effect":"Allow","Principal":{"AWS":"80398EXAMPLE"},"Action":"SQS:SendMessage","Resource":"
                                        arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue"}]}
Attributes                            : {[QueueArn, arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue], [ApproximateNumberOfMessages, 0], 
                                        [ApproximateNumberOfMessagesNotVisible, 0], [ApproximateNumberOfMessagesDelayed, 0]...}
```
**Contoh 2: Contoh ini mencantumkan secara terpisah hanya atribut yang ditentukan untuk antrian yang ditentukan.**  

```
Get-SQSQueueAttribute -AttributeName MaximumMessageSize, VisibilityTimeout -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
**Output:**  

```
VisibilityTimeout                     : 30
DelaySeconds                          : 0
MaximumMessageSize                    : 262144
MessageRetentionPeriod                : 345600
ApproximateNumberOfMessages           : 0
ApproximateNumberOfMessagesNotVisible : 0
ApproximateNumberOfMessagesDelayed    : 0
CreatedTimestamp                      : 2/11/2015 5:53:35 PM
LastModifiedTimestamp                 : 12/29/2015 2:23:17 PM
QueueARN                              : arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue
Policy                                : {"Version":"2012-10-17",		 	 	 "Id":"arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue/SQSDefaultPolicy","Statement":[{"Sid":"Sid14
                                        495134224EX","Effect":"Allow","Principal":{"AWS":"*"},"Action":"SQS:SendMessage","Resource":"arn:aws:sqs:us-east-1:80
                                        398EXAMPLE:MyQueue","Condition":{"ArnEquals":{"aws:SourceArn":"arn:aws:sns:us-east-1:80398EXAMPLE:MyTopic"}}},{"Sid":
                                        "SendMessagesFromMyQueue","Effect":"Allow","Principal":{"AWS":"80398EXAMPLE"},"Action":"SQS:SendMessage","Resource":"
                                        arn:aws:sqs:us-east-1:80398EXAMPLE:MyQueue"}]}
Attributes                            : {[MaximumMessageSize, 262144], [VisibilityTimeout, 30]}
```
+  Untuk detail API, lihat [GetQueueAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SQSQueueUrl`
<a name="sqs_GetQueueUrl_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SQSQueueUrl`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan URL antrian dengan nama yang ditentukan.**  

```
Get-SQSQueueUrl -QueueName MyQueue
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-SQSQueue`
<a name="sqs_CreateQueue_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SQSQueue`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat antrian dengan nama yang ditentukan.**  

```
New-SQSQueue -QueueName MyQueue
```
**Output:**  

```
https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Receive-SQSMessage`
<a name="sqs_ReceiveMessage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Receive-SQSMessage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan informasi hingga 10 pesan berikutnya yang akan diterima untuk antrian yang ditentukan. Informasi akan berisi nilai untuk atribut pesan yang ditentukan, jika ada.**  

```
Receive-SQSMessage -AttributeName SenderId, SentTimestamp -MessageAttributeName StudentName, StudentGrade -MessageCount 10 -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
**Output:**  

```
Attributes             : {[SenderId, AIDAIAZKMSNQ7TEXAMPLE], [SentTimestamp, 1451495923744]}
Body                   : Information about John Doe's grade.
MD5OfBody              : ea572796e3c231f974fe75d89EXAMPLE
MD5OfMessageAttributes : 48c1ee811f0fe7c4e88fbe0f5EXAMPLE
MessageAttributes      : {[StudentGrade, Amazon.SQS.Model.MessageAttributeValue], [StudentName, Amazon.SQS.Model.MessageAttributeValue]}
MessageId              : 53828c4b-631b-469b-8833-c093cEXAMPLE
ReceiptHandle          : AQEBpfGp...20Q5cg==
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SQSMessage`
<a name="sqs_DeleteMessage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SQSMessage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus pesan dengan pegangan tanda terima yang ditentukan dari antrian yang ditentukan.**  

```
Remove-SQSMessage -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue -ReceiptHandle AQEBd329...v6gl8Q==
```
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SQSMessageBatch`
<a name="sqs_DeleteMessageBatch_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SQSMessageBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus 2 pesan dengan pegangan tanda terima yang ditentukan dari antrian yang ditentukan.**  

```
$deleteMessageRequest1 = New-Object Amazon.SQS.Model.DeleteMessageBatchRequestEntry
$deleteMessageRequest1.Id = "Request1"
$deleteMessageRequest1.ReceiptHandle = "AQEBX2g4...wtJSQg=="

$deleteMessageRequest2 = New-Object Amazon.SQS.Model.DeleteMessageBatchRequestEntry
$deleteMessageRequest2.Id = "Request2"
$deleteMessageRequest2.ReceiptHandle = "AQEBqOVY...KTsLYg=="

Remove-SQSMessageBatch -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue -Entry $deleteMessageRequest1, $deleteMessageRequest2
```
**Output:**  

```
Failed    Successful                                                                    
------    ----------                                                                    
{}        {Request1, Request2}
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SQSPermission`
<a name="sqs_RemovePermission_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SQSPermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus pengaturan izin dengan label yang ditentukan dari antrian yang ditentukan.**  

```
Remove-SQSPermission -Label SendMessagesFromMyQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [RemovePermission](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SQSQueue`
<a name="sqs_DeleteQueue_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SQSQueue`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus antrian yang ditentukan.**  

```
Remove-SQSQueue -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Send-SQSMessage`
<a name="sqs_SendMessage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-SQSMessage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengirimkan pesan dengan atribut dan badan pesan yang ditentukan ke antrian yang ditentukan dengan pengiriman pesan tertunda selama 10 detik.**  

```
$cityAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$cityAttributeValue.DataType = "String"
$cityAttributeValue.StringValue = "AnyCity"

$populationAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$populationAttributeValue.DataType = "Number"
$populationAttributeValue.StringValue = "1250800"

$messageAttributes = New-Object System.Collections.Hashtable
$messageAttributes.Add("City", $cityAttributeValue)
$messageAttributes.Add("Population", $populationAttributeValue)

Send-SQSMessage -DelayInSeconds 10 -MessageAttributes $messageAttributes -MessageBody "Information about the largest city in Any Region." -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
**Output:**  

```
MD5OfMessageAttributes              MD5OfMessageBody                    MessageId                                          
----------------------              ----------------                    ---------                                          
1d3e51347bc042efbdf6dda31EXAMPLE    51b0a3256d59467f973009b73EXAMPLE    c35fed8f-c739-4d0c-818b-1820eEXAMPLE
```
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Send-SQSMessageBatch`
<a name="sqs_SendMessageBatch_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-SQSMessageBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengirimkan 2 pesan dengan atribut tertentu dan badan pesan ke antrian yang ditentukan. Pengiriman ditunda selama 15 detik untuk pesan pertama dan 10 detik untuk pesan kedua.**  

```
$student1NameAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$student1NameAttributeValue.DataType = "String"
$student1NameAttributeValue.StringValue = "John Doe"

$student1GradeAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$student1GradeAttributeValue.DataType = "Number"
$student1GradeAttributeValue.StringValue = "89"

$student2NameAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$student2NameAttributeValue.DataType = "String"
$student2NameAttributeValue.StringValue = "Jane Doe"

$student2GradeAttributeValue = New-Object Amazon.SQS.Model.MessageAttributeValue
$student2GradeAttributeValue.DataType = "Number"
$student2GradeAttributeValue.StringValue = "93"

$message1 = New-Object Amazon.SQS.Model.SendMessageBatchRequestEntry 
$message1.DelaySeconds = 15
$message1.Id = "FirstMessage"
$message1.MessageAttributes.Add("StudentName", $student1NameAttributeValue)
$message1.MessageAttributes.Add("StudentGrade", $student1GradeAttributeValue)
$message1.MessageBody = "Information about John Doe's grade."

$message2 = New-Object Amazon.SQS.Model.SendMessageBatchRequestEntry 
$message2.DelaySeconds = 10
$message2.Id = "SecondMessage"
$message2.MessageAttributes.Add("StudentName", $student2NameAttributeValue)
$message2.MessageAttributes.Add("StudentGrade", $student2GradeAttributeValue)
$message2.MessageBody = "Information about Jane Doe's grade."

Send-SQSMessageBatch -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue -Entry $message1, $message2
```
**Output:**  

```
Failed    Successful                                                                    
------    ----------                                                                    
{}        {FirstMessage, SecondMessage}
```
+  Untuk detail API, lihat [SendMessageBatch](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Set-SQSQueueAttribute`
<a name="sqs_SetQueueAttributes_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Set-SQSQueueAttribute`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan cara menyetel kebijakan berlangganan antrian ke topik SNS. Ketika pesan dipublikasikan ke topik, pesan dikirim ke antrian berlangganan.**  

```
# create the queue and topic to be associated
$qurl = New-SQSQueue -QueueName "myQueue"
$topicarn = New-SNSTopic -Name "myTopic"

# get the queue ARN to inject into the policy; it will be returned
# in the output's QueueARN member but we need to put it into a variable
# so text expansion in the policy string takes effect
$qarn = (Get-SQSQueueAttribute -QueueUrl $qurl -AttributeName "QueueArn").QueueARN

# construct the policy and inject arns
$policy = @"
{
  "Version":"2012-10-17",		 	 	 
  "Id": "$qarn/SQSPOLICY",
  "Statement": [
      {
      "Sid": "1",
      "Effect": "Allow",
      "Principal": "*",
      "Action": "SQS:SendMessage",
      "Resource": "$qarn",
      "Condition": {
        "ArnEquals": {
          "aws:SourceArn": "$topicarn"
          }
      }
    }
  ]
}
"@

# set the policy
Set-SQSQueueAttribute -QueueUrl $qurl -Attribute @{ Policy=$policy }
```
**Contoh 2: Contoh ini menetapkan atribut tertentu untuk antrian yang ditentukan.**  

```
Set-SQSQueueAttribute -Attribute @{"DelaySeconds" = "10"; "MaximumMessageSize" = "131072"} -QueueUrl https://sqs.us-east-1.amazonaws.com/80398EXAMPLE/MyQueue
```
+  Untuk detail API, lihat [SetQueueAttributes](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# AWS STS contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Convert-STSAuthorizationMessage`
<a name="sts_DecodeAuthorizationMessage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Convert-STSAuthorizationMessage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mendekode informasi tambahan yang terkandung dalam konten pesan disandikan yang disediakan yang dikembalikan sebagai tanggapan atas permintaan. Informasi tambahan dikodekan karena rincian status otorisasi dapat merupakan informasi istimewa yang tidak boleh dilihat oleh pengguna yang meminta tindakan.**  

```
Convert-STSAuthorizationMessage -EncodedMessage "...encoded message..."
```
+  Untuk detail API, lihat [DecodeAuthorizationMessage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-STSFederationToken`
<a name="sts_GetFederationToken_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-STSFederationToken`.

**Alat untuk PowerShell V5**  
**Contoh 1: Meminta token federasi yang valid selama satu jam menggunakan “Bob” sebagai nama pengguna federasi. Nama ini dapat digunakan untuk mereferensikan nama pengguna federasi dalam kebijakan berbasis sumber daya (seperti kebijakan bucket Amazon S3). Kebijakan IAM yang disediakan, dalam format JSON, digunakan untuk mencakup izin yang tersedia untuk pengguna IAM. Kebijakan yang diberikan tidak dapat memberikan izin lebih dari yang diberikan kepada pengguna yang meminta, dengan izin akhir untuk pengguna federasi menjadi set yang paling ketat berdasarkan persimpangan kebijakan yang disahkan dan kebijakan pengguna IAM.**  

```
Get-STSFederationToken -Name "Bob" -Policy "...JSON policy..." -DurationInSeconds 3600
```
+  Untuk detail API, lihat [GetFederationToken](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-STSSessionToken`
<a name="sts_GetSessionToken_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-STSSessionToken`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan sebuah `Amazon.RuntimeAWSCredentials` instance yang berisi kredensial sementara yang valid untuk jangka waktu tertentu. Kredensial yang digunakan untuk meminta kredenal sementara disimpulkan dari default shell saat ini. Untuk menentukan kredensi lainnya, gunakan parameter - ProfileName atau - AccessKey SecretKey /-.**  

```
Get-STSSessionToken
```
**Output:**  

```
AccessKeyId                             Expiration                              SecretAccessKey                        SessionToken
-----------                             ----------                              ---------------                        ------------
EXAMPLEACCESSKEYID                      2/16/2015 9:12:28 PM                    examplesecretaccesskey...              SamPleTokeN.....
```
**Contoh 2: Mengembalikan sebuah `Amazon.RuntimeAWSCredentials` instance yang berisi kredensi sementara yang valid selama satu jam. Kredensi yang digunakan untuk membuat permintaan diperoleh dari profil yang ditentukan.**  

```
Get-STSSessionToken -DurationInSeconds 3600 -ProfileName myprofile
```
**Output:**  

```
AccessKeyId                             Expiration                              SecretAccessKey                        SessionToken
-----------                             ----------                              ---------------                        ------------
EXAMPLEACCESSKEYID                      2/16/2015 9:12:28 PM                    examplesecretaccesskey...              SamPleTokeN.....
```
**Contoh 3: Mengembalikan `Amazon.RuntimeAWSCredentials` instance yang berisi kredensyal sementara yang valid selama satu jam menggunakan nomor identifikasi perangkat MFA yang terkait dengan akun yang kredensialnya ditentukan dalam profil 'myprofilename' dan nilai yang diberikan oleh perangkat.**  

```
Get-STSSessionToken -DurationInSeconds 3600 -ProfileName myprofile -SerialNumber YourMFADeviceSerialNumber -TokenCode 123456
```
**Output:**  

```
AccessKeyId                             Expiration                              SecretAccessKey                        SessionToken
-----------                             ----------                              ---------------                        ------------
EXAMPLEACCESSKEYID                      2/16/2015 9:12:28 PM                    examplesecretaccesskey...              SamPleTokeN.....
```
+  Untuk detail API, lihat [GetSessionToken](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Use-STSRole`
<a name="sts_AssumeRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Use-STSRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan satu set kredensyal sementara (kunci akses, kunci rahasia, dan token sesi) yang dapat digunakan selama satu jam untuk mengakses AWS sumber daya yang biasanya tidak dapat diakses oleh pengguna yang meminta. Kredensyal yang dikembalikan memiliki izin yang diizinkan oleh kebijakan akses dari peran yang diasumsikan dan kebijakan yang diberikan (Anda tidak dapat menggunakan kebijakan yang disediakan untuk memberikan izin melebihi yang ditentukan oleh kebijakan akses peran yang diasumsikan).**  

```
Use-STSRole -RoleSessionName "Bob" -RoleArn "arn:aws:iam::123456789012:role/demo" -Policy "...JSON policy..." -DurationInSeconds 3600
```
**Contoh 2: Mengembalikan satu set kredensi sementara, berlaku selama satu jam, yang memiliki izin yang sama yang ditentukan dalam kebijakan akses peran yang diasumsikan.**  

```
Use-STSRole -RoleSessionName "Bob" -RoleArn "arn:aws:iam::123456789012:role/demo" -DurationInSeconds 3600
```
**Contoh 3: Mengembalikan satu set kredensi sementara yang memasok nomor seri dan token yang dihasilkan dari MFA yang terkait dengan kredensil pengguna yang digunakan untuk mengeksekusi cmdlet.**  

```
Use-STSRole -RoleSessionName "Bob" -RoleArn "arn:aws:iam::123456789012:role/demo" -DurationInSeconds 3600 -SerialNumber "GAHT12345678" -TokenCode "123456"
```
**Contoh 4: Mengembalikan satu set kredensi sementara yang telah mengambil peran yang ditentukan dalam akun pelanggan. Untuk setiap peran yang dapat diasumsikan oleh pihak ketiga, akun pelanggan harus membuat peran menggunakan pengidentifikasi yang harus diteruskan dalam ExternalId parameter - setiap kali peran diasumsikan.**  

```
Use-STSRole -RoleSessionName "Bob" -RoleArn "arn:aws:iam::123456789012:role/demo" -DurationInSeconds 3600 -ExternalId "ABC123"
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Use-STSWebIdentityRole`
<a name="sts_AssumeRoleWithWebIdentity_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Use-STSWebIdentityRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan kumpulan kredensional sementara, berlaku selama satu jam, untuk pengguna yang telah diautentikasi dengan penyedia identitas Login with Amazon. Kredensyal mengasumsikan kebijakan akses yang terkait dengan peran yang diidentifikasi oleh peran ARN. Secara opsional, Anda dapat meneruskan kebijakan JSON ke parameter -Policy yang selanjutnya menyempurnakan izin akses (Anda tidak dapat memberikan izin lebih dari yang tersedia dalam izin yang terkait dengan peran). Nilai yang diberikan ke - WebIdentityToken adalah pengidentifikasi pengguna unik yang dikembalikan oleh penyedia identitas.**  

```
Use-STSWebIdentityRole -DurationInSeconds 3600 -ProviderId "www.amazon.com" -RoleSessionName "app1" -RoleArn "arn:aws:iam::123456789012:role/FederatedWebIdentityRole" -WebIdentityToken "Atza...DVI0r1"
```
+  Untuk detail API, lihat [AssumeRoleWithWebIdentity](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Dukungan contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_support_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Dukungan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-ASACommunicationToCase`
<a name="support_AddCommunicationToCase_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-ASACommunicationToCase`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menambahkan badan komunikasi email ke kasus yang ditentukan.**  

```
Add-ASACommunicationToCase -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47" -CommunicationBody "Some text about the case"
```
**Contoh 2: Menambahkan badan komunikasi email ke kasus yang ditentukan ditambah satu atau lebih alamat email yang terkandung dalam baris CC email.**  

```
Add-ASACommunicationToCase -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47" -CcEmailAddress @("email1@address.com", "email2@address.com") -CommunicationBody "Some text about the case"
```
+  Untuk detail API, lihat [AddCommunicationToCase](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASACase`
<a name="support_DescribeCases_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASACase`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan rincian semua kasus dukungan.**  

```
Get-ASACase
```
**Contoh 2: Mengembalikan rincian semua kasus dukungan sejak tanggal dan waktu yang ditentukan.**  

```
Get-ASACase -AfterTime "2013-09-10T03:06Z"
```
**Contoh 3: Mengembalikan rincian 10 kasus dukungan pertama, termasuk yang telah diselesaikan.**  

```
Get-ASACase -MaxResult 10 -IncludeResolvedCases $true
```
**Contoh 4: Mengembalikan rincian kasus dukungan tunggal yang ditentukan.**  

```
Get-ASACase -CaseIdList "case-12345678910-2013-c4c1d2bf33c5cf47"
```
**Contoh 5: Mengembalikan rincian kasus dukungan tertentu.**  

```
Get-ASACase -CaseIdList @("case-12345678910-2013-c4c1d2bf33c5cf47", "case-18929034710-2011-c4fdeabf33c5cf47")
```
+  Untuk detail API, lihat [DescribeCases](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASACommunication`
<a name="support_DescribeCommunications_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASACommunication`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan semua komunikasi untuk kasus tertentu.**  

```
Get-ASACommunication -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47"
```
**Contoh 2: Mengembalikan semua komunikasi sejak tengah malam UTC pada 1 Januari 2012 untuk kasus yang ditentukan.**  

```
Get-ASACommunication -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47" -AfterTime "2012-01-10T00:00Z"
```
+  Untuk detail API, lihat [DescribeCommunications](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASAService`
<a name="support_DescribeServices_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASAService`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan semua kode layanan, nama, dan kategori yang tersedia.**  

```
Get-ASAService
```
**Contoh 2: Mengembalikan nama dan kategori untuk layanan dengan kode yang ditentukan.**  

```
Get-ASAService -ServiceCodeList "amazon-cloudfront"
```
**Contoh 3: Mengembalikan nama dan kategori untuk kode layanan tertentu.**  

```
Get-ASAService -ServiceCodeList @("amazon-cloudfront", "amazon-cloudwatch")
```
**Contoh 4: Mengembalikan nama dan kategori (dalam bahasa Jepang) untuk kode layanan yang ditentukan. Saat ini kode bahasa Inggris (“en”) dan Jepang (“ja”) didukung.**  

```
Get-ASAService -ServiceCodeList @("amazon-cloudfront", "amazon-cloudwatch") -Language "ja"
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASASeverityLevel`
<a name="support_DescribeSeverityLevels_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASASeverityLevel`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan daftar tingkat keparahan yang dapat ditetapkan ke kasus AWS Support.**  

```
Get-ASASeverityLevel
```
**Contoh 2: Mengembalikan daftar tingkat keparahan yang dapat ditetapkan ke kasus AWS Support. Nama-nama level dikembalikan dalam bahasa Jepang.**  

```
Get-ASASeverityLevel -Language "ja"
```
+  Untuk detail API, lihat [DescribeSeverityLevels](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASATrustedAdvisorCheck`
<a name="support_DescribeTrustedAdvisorChecks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASATrustedAdvisorCheck`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan koleksi cek Trusted Advisor. Anda harus menentukan parameter Bahasa yang dapat menerima “en” untuk output bahasa Inggris atau “ja” untuk output Jepang.**  

```
Get-ASATrustedAdvisorCheck -Language "en"
```
+  Untuk detail API, lihat [DescribeTrustedAdvisorChecks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASATrustedAdvisorCheckRefreshStatus`
<a name="support_DescribeTrustedAdvisorCheckRefreshStatuses_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASATrustedAdvisorCheckRefreshStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan status permintaan refresh saat ini untuk pemeriksaan yang ditentukan. Permintaan- ASATrusted AdvisorCheckRefresh dapat digunakan untuk meminta agar informasi status cek disegarkan.**  

```
Get-ASATrustedAdvisorCheckRefreshStatus -CheckId @("checkid1", "checkid2")
```
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckRefreshStatuses](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASATrustedAdvisorCheckResult`
<a name="support_DescribeTrustedAdvisorCheckResult_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASATrustedAdvisorCheckResult`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan hasil pemeriksaan Trusted Advisor. Daftar cek Trusted Advisor yang tersedia dapat diperoleh dengan menggunakan Get-. ASATrusted AdvisorChecks Outputnya adalah status keseluruhan pemeriksaan, stempel waktu di mana pemeriksaan terakhir dijalankan dan checkid unik untuk pemeriksaan tertentu. Untuk mendapatkan output hasil dalam bahasa Jepang, tambahkan parameter -Language “ja”.**  

```
Get-ASATrustedAdvisorCheckResult -CheckId "checkid1"
```
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckResult](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-ASATrustedAdvisorCheckSummary`
<a name="support_DescribeTrustedAdvisorCheckSummaries_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-ASATrustedAdvisorCheckSummary`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan ringkasan terbaru untuk pemeriksaan Trusted Advisor yang ditentukan.**  

```
Get-ASATrustedAdvisorCheckSummary -CheckId "checkid1"
```
**Contoh 2: Mengembalikan ringkasan terbaru untuk pemeriksaan Trusted Advisor yang ditentukan.**  

```
Get-ASATrustedAdvisorCheckSummary -CheckId @("checkid1", "checkid2")
```
+  Untuk detail API, lihat [DescribeTrustedAdvisorCheckSummaries](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-ASACase`
<a name="support_CreateCase_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-ASACase`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membuat kasus baru di AWS Support Center. Nilai untuk CategoryCode parameter - ServiceCode dan - dapat diperoleh dengan menggunakan Get-ASAService cmdlet. Nilai untuk SeverityCode parameter - dapat diperoleh dengan menggunakan Get-ASASeverityLevel cmdlet. Nilai - IssueType parameter dapat berupa “layanan pelanggan” atau “teknis”. Jika berhasil, nomor kasus AWS Support adalah output. Secara default kasus akan ditangani dalam bahasa Inggris, untuk menggunakan bahasa Jepang tambahkan parameter -Language “ja”. CommunicationBody Parameter -ServiceCode, -CategoryCode, -Subjek dan - adalah wajib.**  

```
New-ASACase -ServiceCode "amazon-cloudfront" -CategoryCode "APIs" -SeverityCode "low" -Subject "subject text" -CommunicationBody "description of the case" -CcEmailAddress @("email1@domain.com", "email2@domain.com") -IssueType "technical"
```
+  Untuk detail API, lihat [CreateCase](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Request-ASATrustedAdvisorCheckRefresh`
<a name="support_RefreshTrustedAdvisorCheck_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Request-ASATrustedAdvisorCheckRefresh`.

**Alat untuk PowerShell V5**  
**Contoh 1: Meminta penyegaran untuk pemeriksaan Trusted Advisor yang ditentukan.**  

```
Request-ASATrustedAdvisorCheckRefresh -CheckId "checkid1"
```
+  Untuk detail API, lihat [RefreshTrustedAdvisorCheck](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Resolve-ASACase`
<a name="support_ResolveCase_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Resolve-ASACase`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengembalikan keadaan awal dari kasus yang ditentukan dan keadaan saat ini setelah panggilan untuk menyelesaikannya selesai.**  

```
Resolve-ASACase -CaseId "case-12345678910-2013-c4c1d2bf33c5cf47"
```
+  Untuk detail API, lihat [ResolveCase](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Systems Manager menggunakan Alat untuk PowerShell V5
<a name="powershell_5_ssm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Systems Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Add-SSMResourceTag`
<a name="ssm_AddTagsToResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Add-SSMResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui jendela pemeliharaan dengan tag baru. Tidak ada output jika perintah berhasil. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$option1 = @{Key="Stack";Value=@("Production")}
Add-SSMResourceTag -ResourceId "mw-03eb9db42890fb82d" -ResourceType "MaintenanceWindow" -Tag $option1
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap tag. Tidak ada output jika perintah berhasil.**  

```
$tag1 = New-Object Amazon.SimpleSystemsManagement.Model.Tag
$tag1.Key = "Stack"
$tag1.Value = "Production"
		
Add-SSMResourceTag -ResourceId "mw-03eb9db42890fb82d" -ResourceType "MaintenanceWindow" -Tag $tag1
```
+  Untuk detail API, lihat [AddTagsToResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-SSMDocumentPermission`
<a name="ssm_ModifyDocumentPermission_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-SSMDocumentPermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan izin “bagikan” ke semua akun untuk dokumen. Tidak ada output jika perintah berhasil.**  

```
Edit-SSMDocumentPermission -Name "RunShellScript" -PermissionType "Share" -AccountIdsToAdd all
```
**Contoh 2: Contoh ini menambahkan izin “bagikan” ke akun tertentu untuk dokumen. Tidak ada output jika perintah berhasil.**  

```
Edit-SSMDocumentPermission -Name "RunShellScriptNew" -PermissionType "Share" -AccountIdsToAdd "123456789012"
```
+  Untuk detail API, lihat [ModifyDocumentPermission](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMActivation`
<a name="ssm_DescribeActivations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMActivation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memberikan rincian tentang aktivasi di akun Anda.**  

```
Get-SSMActivation
```
**Output:**  

```
ActivationId        : 08e51e79-1e36-446c-8e63-9458569c1363
CreatedDate         : 3/1/2017 12:01:51 AM
DefaultInstanceName : MyWebServers
Description         :
ExpirationDate      : 3/2/2017 12:01:51 AM
Expired             : False
IamRole             : AutomationRole
RegistrationLimit   : 10
RegistrationsCount  : 0
```
+  Untuk detail API, lihat [DescribeActivations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAssociation`
<a name="ssm_DescribeAssociation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan hubungan antara instance dan dokumen.**  

```
Get-SSMAssociation -InstanceId "i-0000293ffd8c57862" -Name "AWS-UpdateSSMAgent"
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            : i-0000293ffd8c57862
Date                  : 2/23/2017 6:55:22 PM
Status.Name           : Pending
Status.Date           : 2/20/2015 8:31:11 AM
Status.Message        : temp_status_change
Status.AdditionalInfo : Additional-Config-Needed
```
+  Untuk detail API, lihat [DescribeAssociation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAssociationExecution`
<a name="ssm_DescribeAssociationExecutions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociationExecution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan eksekusi untuk ID asosiasi yang disediakan**  

```
Get-SSMAssociationExecution -AssociationId 123a45a0-c678-9012-3456-78901234db5e
```
**Output:**  

```
AssociationId         : 123a45a0-c678-9012-3456-78901234db5e
AssociationVersion    : 2
CreatedTime           : 3/2/2019 8:53:29 AM
DetailedStatus        :
ExecutionId           : 123a45a0-c678-9012-3456-78901234db5e
LastExecutionDate     : 1/1/0001 12:00:00 AM
ResourceCountByStatus : {Success=4}
Status                : Success
```
+  Untuk detail API, lihat [DescribeAssociationExecutions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAssociationExecutionTarget`
<a name="ssm_DescribeAssociationExecutionTargets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociationExecutionTarget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan ID sumber daya dan status eksekusi yang merupakan bagian dari target eksekusi asosiasi**  

```
Get-SSMAssociationExecutionTarget -AssociationId 123a45a0-c678-9012-3456-78901234db5e -ExecutionId 123a45a0-c678-9012-3456-78901234db5e | Select-Object ResourceId, Status
```
**Output:**  

```
ResourceId           Status
----------           ------
i-0b1b2a3456f7a890b  Success
i-01c12a45d6fc7a89f  Success
i-0a1caf234f56d7dc8  Success
i-012a3fd45af6dbcfe  Failed
i-0ddc1df23c4a5fb67  Success
```
**Contoh 2: Perintah ini memeriksa eksekusi tertentu dari otomatisasi tertentu sejak kemarin, di mana dokumen perintah dikaitkan. Selanjutnya memeriksa apakah eksekusi asosiasi gagal, dan jika demikian, itu akan menampilkan rincian pemanggilan perintah untuk eksekusi bersama dengan id instance**  

```
$AssociationExecution= Get-SSMAssociationExecutionTarget -AssociationId 1c234567-890f-1aca-a234-5a678d901cb0 -ExecutionId 12345ca12-3456-2345-2b45-23456789012 | 
    Where-Object {$_.LastExecutionDate -gt (Get-Date -Hour 00 -Minute 00).AddDays(-1)} 

foreach ($execution in $AssociationExecution) {
    if($execution.Status -ne 'Success'){
        Write-Output "There was an issue executing the association $($execution.AssociationId) on $($execution.ResourceId)"
        Get-SSMCommandInvocation -CommandId $execution.OutputSource.OutputSourceId -Detail:$true | Select-Object -ExpandProperty CommandPlugins
    }
}
```
**Output:**  

```
There was an issue executing the association 1c234567-890f-1aca-a234-5a678d901cb0 on i-0a1caf234f56d7dc8


Name                   : aws:runPowerShellScript
Output                 : 
                         ----------ERROR-------
                         failed to run commands: exit status 1
OutputS3BucketName     : 
OutputS3KeyPrefix      : 
OutputS3Region         : eu-west-1
ResponseCode           : 1
ResponseFinishDateTime : 5/29/2019 11:04:49 AM
ResponseStartDateTime  : 5/29/2019 11:04:49 AM
StandardErrorUrl       : 
StandardOutputUrl      : 
Status                 : Failed
StatusDetails          : Failed
```
+  Untuk detail API, lihat [DescribeAssociationExecutionTargets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAssociationList`
<a name="ssm_ListAssociations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociationList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua asosiasi untuk sebuah instance. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter1 = @{Key="InstanceId";Value=@("i-0000293ffd8c57862")}
Get-SSMAssociationList -AssociationFilterList $filter1
```
**Output:**  

```
AssociationId      : d8617c07-2079-4c18-9847-1655fc2698b0
DocumentVersion    :
InstanceId         : i-0000293ffd8c57862
LastExecutionDate  : 2/20/2015 8:31:11 AM
Name               : AWS-UpdateSSMAgent
Overview           : Amazon.SimpleSystemsManagement.Model.AssociationOverview
ScheduleExpression :
Targets            : {InstanceIds}
```
**Contoh 2: Contoh ini mencantumkan semua asosiasi untuk dokumen konfigurasi. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter2 = @{Key="Name";Value=@("AWS-UpdateSSMAgent")}
Get-SSMAssociationList -AssociationFilterList $filter2
```
**Output:**  

```
AssociationId      : d8617c07-2079-4c18-9847-1655fc2698b0
DocumentVersion    :
InstanceId         : i-0000293ffd8c57862
LastExecutionDate  : 2/20/2015 8:31:11 AM
Name               : AWS-UpdateSSMAgent
Overview           : Amazon.SimpleSystemsManagement.Model.AssociationOverview
ScheduleExpression :
Targets            : {InstanceIds}
```
**Contoh 3: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap filter.**  

```
$filter1 = New-Object Amazon.SimpleSystemsManagement.Model.AssociationFilter
$filter1.Key = "InstanceId"
$filter1.Value = "i-0000293ffd8c57862"

Get-SSMAssociationList -AssociationFilterList $filter1
```
**Output:**  

```
AssociationId      : d8617c07-2079-4c18-9847-1655fc2698b0
DocumentVersion    :
InstanceId         : i-0000293ffd8c57862
LastExecutionDate  : 2/20/2015 8:31:11 AM
Name               : AWS-UpdateSSMAgent
Overview           : Amazon.SimpleSystemsManagement.Model.AssociationOverview
ScheduleExpression :
Targets            : {InstanceIds}
```
+  Untuk detail API, lihat [ListAssociations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAssociationVersionList`
<a name="ssm_ListAssociationVersions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAssociationVersionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil semua versi asosiasi yang disediakan.**  

```
Get-SSMAssociationVersionList -AssociationId 123a45a0-c678-9012-3456-78901234db5e
```
**Output:**  

```
AssociationId      : 123a45a0-c678-9012-3456-78901234db5e
AssociationName    :
AssociationVersion : 2
ComplianceSeverity :
CreatedDate        : 3/12/2019 9:21:01 AM
DocumentVersion    :
MaxConcurrency     :
MaxErrors          :
Name               : AWS-GatherSoftwareInventory
OutputLocation     :
Parameters         : {}
ScheduleExpression :
Targets            : {InstanceIds}

AssociationId      : 123a45a0-c678-9012-3456-78901234db5e
AssociationName    : test-case-1234567890
AssociationVersion : 1
ComplianceSeverity :
CreatedDate        : 3/2/2019 8:53:29 AM
DocumentVersion    :
MaxConcurrency     :
MaxErrors          :
Name               : AWS-GatherSoftwareInventory
OutputLocation     :
Parameters         : {}
ScheduleExpression : rate(30minutes)
Targets            : {InstanceIds}
```
+  Untuk detail API, lihat [ListAssociationVersions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAutomationExecution`
<a name="ssm_GetAutomationExecution_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAutomationExecution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan detail Eksekusi Otomasi.**  

```
Get-SSMAutomationExecution -AutomationExecutionId "4105a4fc-f944-11e6-9d32-8fb2db27a909"
```
**Output:**  

```
AutomationExecutionId     : 4105a4fc-f944-11e6-9d32-8fb2db27a909
AutomationExecutionStatus : Failed
DocumentName              : AWS-UpdateLinuxAmi
DocumentVersion           : 1
ExecutionEndTime          : 2/22/2017 9:17:08 PM
ExecutionStartTime        : 2/22/2017 9:17:02 PM
FailureMessage            : Step launchInstance failed maximum allowed times. You are not authorized to perform this operation. Encoded
                            authorization failure message: B_V2QyyN7NhSZQYpmVzpEc4oSnj2GLTNYnXUHsTbqJkNMoDgubmbtthLmZyaiUYekORIrA42-fv1x-04q5Fjff6glh
                            Yb6TI5b0GQeeNrpwNvpDzmO-PSR1swlAbg9fdM9BcNjyrznspUkWpuKu9EC1Ou6v3OXU1KC9nZ7mPlWMFZNkSioQqpwWEvMw-GZktsQzm67qOhUhBNOLWYhbS
                            pkfiqzY-5nw3S0obx30fhd3EJa5O_-GjV_a0nFXQJa70ik40bFOrEh3MtCSbrQT6--DvFy_FQ8TKvkIXadyVskeJI84XOF5WmA60f1pi5GI08i-nRfZS6oDeU
                            gELBjjoFKD8s3L2aI0B6umWVxnQOjqhQRxwJ53b54sZJ2PW3v_mtg9-q0CK0ezS3xfh_y0ilaUGOAZG-xjQFuvU_JZedWpla3xi-MZsmblAifBI
                            (Service: AmazonEC2; Status Code: 403; Error Code: UnauthorizedOperation; Request ID:
                            6a002f94-ba37-43fd-99e6-39517715fce5)
Outputs                   : {[createImage.ImageId, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
Parameters                : {[AutomationAssumeRole, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]], [InstanceIamRole,
                            Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]], [SourceAmiId,
                            Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
StepExecutions            : {launchInstance, updateOSSoftware, stopInstance, createImage...}
```
**Contoh 2: Contoh ini mencantumkan detail langkah untuk id eksekusi otomatisasi yang diberikan**  

```
Get-SSMAutomationExecution -AutomationExecutionId e1d2bad3-4567-8901-ae23-456c7c8901be | Select-Object -ExpandProperty StepExecutions | Select-Object StepName, Action, StepStatus, ValidNextSteps
```
**Output:**  

```
StepName                  Action                  StepStatus ValidNextSteps
--------                  ------                  ---------- --------------
LaunchInstance            aws:runInstances        Success    {OSCompatibilityCheck}
OSCompatibilityCheck      aws:runCommand          Success    {RunPreUpdateScript}
RunPreUpdateScript        aws:runCommand          Success    {UpdateEC2Config}
UpdateEC2Config           aws:runCommand          Cancelled  {}
UpdateSSMAgent            aws:runCommand          Pending    {}
UpdateAWSPVDriver         aws:runCommand          Pending    {}
UpdateAWSEnaNetworkDriver aws:runCommand          Pending    {}
UpdateAWSNVMe             aws:runCommand          Pending    {}
InstallWindowsUpdates     aws:runCommand          Pending    {}
RunPostUpdateScript       aws:runCommand          Pending    {}
RunSysprepGeneralize      aws:runCommand          Pending    {}
StopInstance              aws:changeInstanceState Pending    {}
CreateImage               aws:createImage         Pending    {}
TerminateInstance         aws:changeInstanceState Pending    {}
```
+  Untuk detail API, lihat [GetAutomationExecution](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAutomationExecutionList`
<a name="ssm_DescribeAutomationExecutions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAutomationExecutionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan semua Eksekusi Otomasi aktif dan dihentikan yang terkait dengan akun Anda.**  

```
Get-SSMAutomationExecutionList
```
**Output:**  

```
AutomationExecutionId     : 4105a4fc-f944-11e6-9d32-8fb2db27a909
AutomationExecutionStatus : Failed
DocumentName              : AWS-UpdateLinuxAmi
DocumentVersion           : 1
ExecutedBy                : admin
ExecutionEndTime          : 2/22/2017 9:17:08 PM
ExecutionStartTime        : 2/22/2017 9:17:02 PM
LogFile                   :
Outputs                   : {[createImage.ImageId, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
```
**Contoh 2: Contoh ini menampilkan ExecutionId, dokumen, start/end cap waktu eksekusi untuk eksekusi dengan AutomationExecutionStatus selain 'Sukses'**  

```
Get-SSMAutomationExecutionList | Where-Object AutomationExecutionStatus -ne "Success" | Select-Object AutomationExecutionId, DocumentName, AutomationExecutionStatus, ExecutionStartTime, ExecutionEndTime | Format-Table -AutoSize
```
**Output:**  

```
AutomationExecutionId                DocumentName                            AutomationExecutionStatus ExecutionStartTime   ExecutionEndTime
---------------------                ------------                            ------------------------- ------------------   ----------------
e1d2bad3-4567-8901-ae23-456c7c8901be AWS-UpdateWindowsAmi                    Cancelled                 4/16/2019 5:37:04 AM 4/16/2019 5:47:29 AM
61234567-a7f8-90e1-2b34-567b8bf9012c Fixed-UpdateAmi                         Cancelled                 4/16/2019 5:33:04 AM 4/16/2019 5:40:15 AM
91234d56-7e89-0ac1-2aee-34ea5d6a7c89 AWS-UpdateWindowsAmi                    Failed                    4/16/2019 5:22:46 AM 4/16/2019 5:27:29 AM
```
+  Untuk detail API, lihat [DescribeAutomationExecutions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAutomationStepExecution`
<a name="ssm_DescribeAutomationStepExecutions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAutomationStepExecution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan informasi tentang semua eksekusi langkah aktif dan dihentikan dalam alur kerja Otomasi.**  

```
Get-SSMAutomationStepExecution -AutomationExecutionId e1d2bad3-4567-8901-ae23-456c7c8901be | Select-Object StepName, Action, StepStatus
```
**Output:**  

```
StepName                  Action                  StepStatus
--------                  ------                  ----------
LaunchInstance            aws:runInstances        Success
OSCompatibilityCheck      aws:runCommand          Success
RunPreUpdateScript        aws:runCommand          Success
UpdateEC2Config           aws:runCommand          Cancelled
UpdateSSMAgent            aws:runCommand          Pending
UpdateAWSPVDriver         aws:runCommand          Pending
UpdateAWSEnaNetworkDriver aws:runCommand          Pending
UpdateAWSNVMe             aws:runCommand          Pending
InstallWindowsUpdates     aws:runCommand          Pending
RunPostUpdateScript       aws:runCommand          Pending
RunSysprepGeneralize      aws:runCommand          Pending
StopInstance              aws:changeInstanceState Pending
CreateImage               aws:createImage         Pending
TerminateInstance         aws:changeInstanceState Pending
```
+  Untuk detail API, lihat [DescribeAutomationStepExecutions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMAvailablePatch`
<a name="ssm_DescribeAvailablePatches_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMAvailablePatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan semua patch yang tersedia untuk Windows Server 2012 yang memiliki tingkat keparahan MSRC Critical. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter1 = @{Key="PRODUCT";Values=@("WindowsServer2012")}
$filter2 = @{Key="MSRC_SEVERITY";Values=@("Critical")}

Get-SSMAvailablePatch -Filter $filter1,$filter2
```
**Output:**  

```
Classification : SecurityUpdates
ContentUrl     : https://support.microsoft.com/en-us/kb/2727528
Description    : A security issue has been identified that could allow an unauthenticated remote attacker to compromise your system and gain control
                 over it. You can help protect your system by installing this update from Microsoft. After you install this update, you may have to
                 restart your system.
Id             : 1eb507be-2040-4eeb-803d-abc55700b715
KbNumber       : KB2727528
Language       : All
MsrcNumber     : MS12-072
MsrcSeverity   : Critical
Product        : WindowsServer2012
ProductFamily  : Windows
ReleaseDate    : 11/13/2012 6:00:00 PM
Title          : Security Update for Windows Server 2012 (KB2727528)
Vendor         : Microsoft
...
```
**Contoh 2: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap filter.**  

```
$filter1 = New-Object Amazon.SimpleSystemsManagement.Model.PatchOrchestratorFilter
$filter1.Key = "PRODUCT"
$filter1.Values = "WindowsServer2012"
$filter2 = New-Object Amazon.SimpleSystemsManagement.Model.PatchOrchestratorFilter
$filter2.Key = "MSRC_SEVERITY"
$filter2.Values = "Critical"

Get-SSMAvailablePatch -Filter $filter1,$filter2
```
**Contoh 3: Contoh ini mengambil semua pembaruan yang dirilis dalam 20 hari terakhir dan berlaku untuk produk yang cocok dengan 2019 WindowsServer**  

```
Get-SSMAvailablePatch | Where-Object ReleaseDate -ge (Get-Date).AddDays(-20) | Where-Object Product -eq "WindowsServer2019" | Select-Object ReleaseDate, Product, Title
```
**Output:**  

```
ReleaseDate         Product           Title
-----------         -------           -----
4/9/2019 5:00:12 PM WindowsServer2019 2019-04 Security Update for Adobe Flash Player for Windows Server 2019 for x64-based Systems (KB4493478)
4/9/2019 5:00:06 PM WindowsServer2019 2019-04 Cumulative Update for Windows Server 2019 for x64-based Systems (KB4493509)
4/2/2019 5:00:06 PM WindowsServer2019 2019-03 Servicing Stack Update for Windows Server 2019 for x64-based Systems (KB4493510)
```
+  Untuk detail API, lihat [DescribeAvailablePatches](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMCommand`
<a name="ssm_ListCommands_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMCommand`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua perintah yang diminta.**  

```
Get-SSMCommand
```
**Output:**  

```
CommandId          : 4b75a163-d39a-4d97-87c9-98ae52c6be35
Comment            : Apply association with id at update time: 4cc73e42-d5ae-4879-84f8-57e09c0efcd0
CompletedCount     : 1
DocumentName       : AWS-RefreshAssociation
ErrorCount         : 0
ExpiresAfter       : 2/24/2017 3:19:08 AM
InstanceIds        : {i-0cb2b964d3e14fd9f}
MaxConcurrency     : 50
MaxErrors          : 0
NotificationConfig : Amazon.SimpleSystemsManagement.Model.NotificationConfig
OutputS3BucketName :
OutputS3KeyPrefix  :
OutputS3Region     :
Parameters         : {[associationIds, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
RequestedDateTime  : 2/24/2017 3:18:08 AM
ServiceRole        :
Status             : Success
StatusDetails      : Success
TargetCount        : 1
Targets            : {}
```
**Contoh 2: Contoh ini mendapatkan status perintah tertentu.**  

```
Get-SSMCommand -CommandId "4b75a163-d39a-4d97-87c9-98ae52c6be35"
```
**Contoh 3: Contoh ini mengambil semua perintah SSM yang dipanggil setelah 2019-04-01T 00:00:00 Z**  

```
Get-SSMCommand -Filter @{Key="InvokedAfter";Value="2019-04-01T00:00:00Z"} | Select-Object CommandId, DocumentName, Status, RequestedDateTime | Sort-Object -Property RequestedDateTime -Descending
```
**Output:**  

```
CommandId                            DocumentName               Status    RequestedDateTime
---------                            ------------               ------    -----------------
edb1b23e-456a-7adb-aef8-90e-012ac34f AWS-RunPowerShellScript    Cancelled 4/16/2019 5:45:23 AM
1a2dc3fb-4567-890d-a1ad-234b5d6bc7d9 AWS-ConfigureAWSPackage    Success   4/6/2019 9:19:42 AM
12c3456c-7e90-4f12-1232-1234f5b67893 KT-Retrieve-Cloud-Type-Win Failed    4/2/2019 4:13:07 AM
fe123b45-240c-4123-a2b3-234bdd567ecf AWS-RunInspecChecks        Failed    4/1/2019 2:27:31 PM
1eb23aa4-567d-4123-12a3-4c1c2ab34561 AWS-RunPowerShellScript    Success   4/1/2019 1:05:55 PM
1c2f3bb4-ee12-4bc1-1a23-12345eea123e AWS-RunInspecChecks        Failed    4/1/2019 11:13:09 AM
```
+  Untuk detail API, lihat [ListCommands](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMCommandInvocation`
<a name="ssm_ListCommandInvocations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMCommandInvocation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua pemanggilan perintah.**  

```
Get-SSMCommandInvocation -CommandId "b8eac879-0541-439d-94ec-47a80d554f44" -Detail $true
```
**Output:**  

```
CommandId          : b8eac879-0541-439d-94ec-47a80d554f44
CommandPlugins     : {aws:runShellScript}
Comment            : IP config
DocumentName       : AWS-RunShellScript
InstanceId         : i-0cb2b964d3e14fd9f
InstanceName       :
NotificationConfig : Amazon.SimpleSystemsManagement.Model.NotificationConfig
RequestedDateTime  : 2/22/2017 8:13:16 PM
ServiceRole        :
StandardErrorUrl   :
StandardOutputUrl  :
Status             : Success
StatusDetails      : Success
TraceOutput        :
```
**Contoh 2: Contoh ini mencantumkan pemanggilan perintah id CommandPlugins e1eb2e3c-ed4c-5123-45c1-234f5612345f**  

```
Get-SSMCommandInvocation -CommandId e1eb2e3c-ed4c-5123-45c1-234f5612345f -Detail:$true | Select-Object -ExpandProperty CommandPlugins
```
**Output:**  

```
Name                   : aws:runPowerShellScript
Output                 : Completed 17.7 KiB/17.7 KiB (40.1 KiB/s) with 1 file(s) remainingdownload: s3://dd-aess-r-ctmer/KUMO.png to ..\..\programdata\KUMO.png
                         kumo available

OutputS3BucketName     :
OutputS3KeyPrefix      :
OutputS3Region         : eu-west-1
ResponseCode           : 0
ResponseFinishDateTime : 4/3/2019 11:53:23 AM
ResponseStartDateTime  : 4/3/2019 11:53:21 AM
StandardErrorUrl       :
StandardOutputUrl      :
Status                 : Success
StatusDetails          : Success
```
+  Untuk detail API, lihat [ListCommandInvocations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMCommandInvocationDetail`
<a name="ssm_GetCommandInvocation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMCommandInvocationDetail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan rincian perintah yang dijalankan pada sebuah instance.**  

```
Get-SSMCommandInvocationDetail -InstanceId "i-0cb2b964d3e14fd9f" -CommandId "b8eac879-0541-439d-94ec-47a80d554f44"
```
**Output:**  

```
CommandId              : b8eac879-0541-439d-94ec-47a80d554f44
Comment                : IP config
DocumentName           : AWS-RunShellScript
ExecutionElapsedTime   : PT0.004S
ExecutionEndDateTime   : 2017-02-22T20:13:16.651Z
ExecutionStartDateTime : 2017-02-22T20:13:16.651Z
InstanceId             : i-0cb2b964d3e14fd9f
PluginName             : aws:runShellScript
ResponseCode           : 0
StandardErrorContent   :
StandardErrorUrl       :
StandardOutputContent  :
StandardOutputUrl      :
Status                 : Success
StatusDetails          : Success
```
+  Untuk detail API, lihat [GetCommandInvocation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMComplianceItemList`
<a name="ssm_ListComplianceItems_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMComplianceItemList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan daftar item kepatuhan untuk id dan tipe sumber daya yang diberikan, memfilter tipe kepatuhan menjadi 'Asosiasi'**  

```
Get-SSMComplianceItemList -ResourceId i-1a2caf345f67d0dc2 -ResourceType ManagedInstance -Filter @{Key="ComplianceType";Values="Association"}
```
**Output:**  

```
ComplianceType   : Association
Details          : {[DocumentName, AWS-GatherSoftwareInventory], [DocumentVersion, 1]}
ExecutionSummary : Amazon.SimpleSystemsManagement.Model.ComplianceExecutionSummary
Id               : 123a45a1-c234-1234-1245-67891236db4e
ResourceId       : i-1a2caf345f67d0dc2
ResourceType     : ManagedInstance
Severity         : UNSPECIFIED
Status           : COMPLIANT
Title            :
```
+  Untuk detail API, lihat [ListComplianceItems](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMComplianceSummaryList`
<a name="ssm_ListComplianceSummaries_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMComplianceSummaryList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan jumlah ringkasan sumber daya yang sesuai dan tidak sesuai untuk semua jenis kepatuhan.**  

```
Get-SSMComplianceSummaryList
```
**Output:**  

```
ComplianceType CompliantSummary                                      NonCompliantSummary
-------------- ----------------                                      -------------------
FleetTotal     Amazon.SimpleSystemsManagement.Model.CompliantSummary Amazon.SimpleSystemsManagement.Model.NonCompliantSummary
Association    Amazon.SimpleSystemsManagement.Model.CompliantSummary Amazon.SimpleSystemsManagement.Model.NonCompliantSummary
Custom:InSpec  Amazon.SimpleSystemsManagement.Model.CompliantSummary Amazon.SimpleSystemsManagement.Model.NonCompliantSummary
Patch          Amazon.SimpleSystemsManagement.Model.CompliantSummary Amazon.SimpleSystemsManagement.Model.NonCompliantSummary
```
+  Untuk detail API, lihat [ListComplianceSummaries](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMConnectionStatus`
<a name="ssm_GetConnectionStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMConnectionStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil status koneksi Session Manager untuk sebuah instance untuk menentukan apakah terhubung dan siap menerima koneksi Session Manager.**  

```
Get-SSMConnectionStatus -Target i-0a1caf234f12d3dc4
```
**Output:**  

```
Status    Target
------    ------
Connected i-0a1caf234f12d3dc4
```
+  Untuk detail API, lihat [GetConnectionStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMDefaultPatchBaseline`
<a name="ssm_GetDefaultPatchBaseline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDefaultPatchBaseline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan baseline patch default.**  

```
Get-SSMDefaultPatchBaseline
```
**Output:**  

```
arn:aws:ssm:us-west-2:123456789012:patchbaseline/pb-04fb4ae6142167966
```
+  Untuk detail API, lihat [GetDefaultPatchBaseline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMDeployablePatchSnapshotForInstance`
<a name="ssm_GetDeployablePatchSnapshotForInstance_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDeployablePatchSnapshotForInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan snapshot saat ini untuk baseline patch yang digunakan oleh Instance. Perintah ini harus dijalankan dari instance menggunakan kredensi instance. Untuk memastikannya menggunakan kredensi instance, contoh meneruskan `Amazon.Runtime.InstanceProfileAWSCredentials` objek ke parameter Credentials.**  

```
$credentials = [Amazon.Runtime.InstanceProfileAWSCredentials]::new()
Get-SSMDeployablePatchSnapshotForInstance -SnapshotId "4681775b-098f-4435-a956-0ef33373ac11" -InstanceId "i-0cb2b964d3e14fd9f" -Credentials $credentials
```
**Output:**  

```
InstanceId          SnapshotDownloadUrl
----------          -------------------
i-0cb2b964d3e14fd9f https://patch-baseline-snapshot-us-west-2.s3-us-west-2.amazonaws.com/853d0d3db0f0cafe...1692/4681775b-098f-4435...
```
**Contoh 2: Contoh ini menunjukkan cara mendapatkan yang lengkap SnapshotDownloadUrl. Perintah ini harus dijalankan dari instance menggunakan kredensi instance. Untuk memastikannya menggunakan kredensi instance, contoh mengonfigurasi PowerShell sesi untuk menggunakan objek. `Amazon.Runtime.InstanceProfileAWSCredentials`**  

```
Set-AWSCredential -Credential ([Amazon.Runtime.InstanceProfileAWSCredentials]::new())
(Get-SSMDeployablePatchSnapshotForInstance -SnapshotId "4681775b-098f-4435-a956-0ef33373ac11" -InstanceId "i-0cb2b964d3e14fd9f").SnapshotDownloadUrl
```
**Output:**  

```
https://patch-baseline-snapshot-us-west-2.s3-us-west-2.amazonaws.com/853d0d3db0f0cafe...
```
+  Untuk detail API, lihat [GetDeployablePatchSnapshotForInstance](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMDocument`
<a name="ssm_GetDocument_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocument`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan isi dokumen.**  

```
Get-SSMDocument -Name "RunShellScript"
```
**Output:**  

```
Content
-------
{...
```
**Contoh 2: Contoh ini menampilkan isi lengkap dokumen.**  

```
(Get-SSMDocument -Name "RunShellScript").Content
{
   "schemaVersion":"2.0",
   "description":"Run an updated script",
   "parameters":{
      "commands":{
         "type":"StringList",
         "description":"(Required) Specify a shell script or a command to run.",
         "minItems":1,
         "displayType":"textarea"
      }
   },
   "mainSteps":[
      {
         "action":"aws:runShellScript",
         "name":"runShellScript",
         "inputs":{
            "commands":"{{ commands }}"
         }
      },
      {
         "action":"aws:runPowerShellScript",
         "name":"runPowerShellScript",
         "inputs":{
            "commands":"{{ commands }}"
         }
      }
   ]
}
```
+  Untuk detail API, lihat [GetDocument](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMDocumentDescription`
<a name="ssm_DescribeDocument_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocumentDescription`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan informasi tentang dokumen.**  

```
Get-SSMDocumentDescription -Name "RunShellScript"
```
**Output:**  

```
CreatedDate     : 2/24/2017 5:25:13 AM
DefaultVersion  : 1
Description     : Run an updated script
DocumentType    : Command
DocumentVersion : 1
Hash            : f775e5df4904c6fa46686c4722fae9de1950dace25cd9608ff8d622046b68d9b
HashType        : Sha256
LatestVersion   : 1
Name            : RunShellScript
Owner           : 123456789012
Parameters      : {commands}
PlatformTypes   : {Linux}
SchemaVersion   : 2.0
Sha1            :
Status          : Active
```
+  Untuk detail API, lihat [DescribeDocument](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMDocumentList`
<a name="ssm_ListDocuments_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocumentList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Daftar semua dokumen konfigurasi di akun Anda.**  

```
Get-SSMDocumentList
```
**Output:**  

```
DocumentType    : Command
DocumentVersion : 1
Name            : AWS-ApplyPatchBaseline
Owner           : Amazon
PlatformTypes   : {Windows}
SchemaVersion   : 1.2

DocumentType    : Command
DocumentVersion : 1
Name            : AWS-ConfigureAWSPackage
Owner           : Amazon
PlatformTypes   : {Windows, Linux}
SchemaVersion   : 2.0

DocumentType    : Command
DocumentVersion : 1
Name            : AWS-ConfigureCloudWatch
Owner           : Amazon
PlatformTypes   : {Windows}
SchemaVersion   : 1.2
...
```
**Contoh 2: Contoh ini mengambil semua dokumen otomatisasi dengan pencocokan nama 'Platform'**  

```
Get-SSMDocumentList -DocumentFilterList @{Key="DocumentType";Value="Automation"} | Where-Object Name -Match "Platform"
```
**Output:**  

```
DocumentFormat  : JSON
DocumentType    : Automation
DocumentVersion : 7
Name            : KT-Get-Platform
Owner           : 987654123456
PlatformTypes   : {Windows, Linux}
SchemaVersion   : 0.3
Tags            : {}
TargetType      :
VersionName     :
```
+  Untuk detail API, lihat [ListDocuments](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMDocumentPermission`
<a name="ssm_DescribeDocumentPermission_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocumentPermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua versi untuk dokumen.**  

```
Get-SSMDocumentVersionList -Name "RunShellScript"
```
**Output:**  

```
CreatedDate          DocumentVersion IsDefaultVersion Name
-----------          --------------- ---------------- ----
2/24/2017 5:25:13 AM 1               True             RunShellScript
```
+  Untuk detail API, lihat [DescribeDocumentPermission](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMDocumentVersionList`
<a name="ssm_ListDocumentVersions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMDocumentVersionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua versi untuk dokumen.**  

```
Get-SSMDocumentVersionList -Name "AWS-UpdateSSMAgent"
```
**Output:**  

```
CreatedDate       : 6/1/2021 5:19:10 PM
DocumentFormat    : JSON
DocumentVersion   : 1
IsDefaultVersion  : True
Name              : AWS-UpdateSSMAgent
Status            : Active
```
+  Untuk detail API, lihat [ListDocumentVersions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMEffectiveInstanceAssociationList`
<a name="ssm_DescribeEffectiveInstanceAssociations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMEffectiveInstanceAssociationList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjelaskan asosiasi efektif untuk sebuah instance.**  

```
Get-SSMEffectiveInstanceAssociationList -InstanceId "i-0000293ffd8c57862" -MaxResult 5
```
**Output:**  

```
AssociationId                        Content
-------------                        -------
d8617c07-2079-4c18-9847-1655fc2698b0 {...
```
**Contoh 2: Contoh ini menampilkan isi asosiasi efektif untuk sebuah instance.**  

```
(Get-SSMEffectiveInstanceAssociationList -InstanceId "i-0000293ffd8c57862" -MaxResult 5).Content
```
**Output:**  

```
{
    "schemaVersion": "1.2",
    "description": "Update the Amazon SSM Agent to the latest version or specified version.",
    "parameters": {
        "version": {
            "default": "",
            "description": "(Optional) A specific version of the Amazon SSM Agent to install. If not specified, the agen
t will be updated to the latest version.",
            "type": "String"
        },
        "allowDowngrade": {
            "default": "false",
            "description": "(Optional) Allow the Amazon SSM Agent service to be downgraded to an earlier version. If set
 to false, the service can be upgraded to newer versions only (default). If set to true, specify the earlier version.",
            "type": "String",
            "allowedValues": [
                "true",
                "false"
            ]
        }
    },
    "runtimeConfig": {
        "aws:updateSsmAgent": {
            "properties": [
                {
                "agentName": "amazon-ssm-agent",
                "source": "https://s3.{Region}.amazonaws.com/amazon-ssm-{Region}/ssm-agent-manifest.json",
                "allowDowngrade": "{{ allowDowngrade }}",
                "targetVersion": "{{ version }}"
                }
            ]
        }
    }
}
```
+  Untuk detail API, lihat [DescribeEffectiveInstanceAssociations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMEffectivePatchesForPatchBaseline`
<a name="ssm_DescribeEffectivePatchesForPatchBaseline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMEffectivePatchesForPatchBaseline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua baseline patch, dengan daftar hasil maksimal 1.**  

```
Get-SSMEffectivePatchesForPatchBaseline -BaselineId "pb-0a2f1059b670ebd31" -MaxResult 1
```
**Output:**  

```
Patch                                      PatchStatus
-----                                      -----------
Amazon.SimpleSystemsManagement.Model.Patch Amazon.SimpleSystemsManagement.Model.PatchStatus
```
**Contoh 2: Contoh ini menampilkan status patch untuk semua baseline patch, dengan daftar hasil maksimal 1.**  

```
(Get-SSMEffectivePatchesForPatchBaseline -BaselineId "pb-0a2f1059b670ebd31" -MaxResult 1).PatchStatus
```
**Output:**  

```
ApprovalDate          DeploymentStatus
------------          ----------------
12/21/2010 6:00:00 PM APPROVED
```
+  Untuk detail API, lihat [DescribeEffectivePatchesForPatchBaseline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInstanceAssociationsStatus`
<a name="ssm_DescribeInstanceAssociationsStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstanceAssociationsStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan rincian asosiasi untuk sebuah instance.**  

```
Get-SSMInstanceAssociationsStatus -InstanceId "i-0000293ffd8c57862"
```
**Output:**  

```
AssociationId    : d8617c07-2079-4c18-9847-1655fc2698b0
DetailedStatus   : Pending
DocumentVersion  : 1
ErrorCode        :
ExecutionDate    : 2/20/2015 8:31:11 AM
ExecutionSummary : temp_status_change
InstanceId       : i-0000293ffd8c57862
Name             : AWS-UpdateSSMAgent
OutputUrl        :
Status           : Pending
```
**Contoh 2: Contoh ini memeriksa status asosiasi instance untuk id instance yang diberikan dan selanjutnya, menampilkan status eksekusi asosiasi tersebut**  

```
Get-SSMInstanceAssociationsStatus -InstanceId i-012e3cb4df567e8aa | ForEach-Object {Get-SSMAssociationExecution -AssociationId .AssociationId}
```
**Output:**  

```
AssociationId         : 512a34a5-c678-1234-1234-12345678db9e
AssociationVersion    : 2
CreatedTime           : 3/2/2019 8:53:29 AM
DetailedStatus        :
ExecutionId           : 512a34a5-c678-1234-1234-12345678db9e
LastExecutionDate     : 1/1/0001 12:00:00 AM
ResourceCountByStatus : {Success=9}
Status                : Success
```
+  Untuk detail API, lihat [DescribeInstanceAssociationsStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInstanceInformation`
<a name="ssm_DescribeInstanceInformation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstanceInformation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan detail dari setiap instance Anda.**  

```
Get-SSMInstanceInformation
```
**Output:**  

```
ActivationId                           :
AgentVersion                           : 2.0.672.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : ip-172-31-44-222.us-west-2.compute.internal
IamRole                                :
InstanceId                             : i-0cb2b964d3e14fd9f
IPAddress                              : 172.31.44.222
IsLatestVersion                        : True
LastAssociationExecutionDate           : 2/24/2017 3:18:09 AM
LastPingDateTime                       : 2/24/2017 3:35:03 AM
LastSuccessfulAssociationExecutionDate : 2/24/2017 3:18:09 AM
Name                                   :
PingStatus                             : ConnectionLost
PlatformName                           : Amazon Linux AMI
PlatformType                           : Linux
PlatformVersion                        : 2016.09
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance
```
**Contoh 2: Contoh ini menunjukkan cara menggunakan parameter -Filter untuk memfilter hasil hanya ke instance AWS Systems Manager di wilayah `us-east-1` dengan dari`AgentVersion`. `2.2.800.0` Anda dapat menemukan daftar nilai kunci -Filter yang valid dalam topik referensi InstanceInformation API (https://docs.aws.amazon.com/systems-manager/latest/APIReference/API\$1 InstanceInformation .html \$1systemsmanager -Type- -InstanceInformation). ActivationId**  

```
$Filters = @{
    Key="AgentVersion"
    Values="2.2.800.0"
}
Get-SSMInstanceInformation -Region us-east-1 -Filter $Filters
```
**Output:**  

```
ActivationId                           : 
AgentVersion                           : 2.2.800.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : EXAMPLE-EXAMPLE.WORKGROUP
IamRole                                : 
InstanceId                             : i-EXAMPLEb0792d98ce
IPAddress                              : 10.0.0.01
IsLatestVersion                        : False
LastAssociationExecutionDate           : 8/16/2018 12:02:50 AM
LastPingDateTime                       : 8/16/2018 7:40:27 PM
LastSuccessfulAssociationExecutionDate : 8/16/2018 12:02:50 AM
Name                                   : 
PingStatus                             : Online
PlatformName                           : Microsoft Windows Server 2016 Datacenter
PlatformType                           : Windows
PlatformVersion                        : 10.0.14393
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance

ActivationId                           : 
AgentVersion                           : 2.2.800.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : EXAMPLE-EXAMPLE.WORKGROUP
IamRole                                : 
InstanceId                             : i-EXAMPLEac7501d023
IPAddress                              : 10.0.0.02
IsLatestVersion                        : False
LastAssociationExecutionDate           : 8/16/2018 12:00:20 AM
LastPingDateTime                       : 8/16/2018 7:40:35 PM
LastSuccessfulAssociationExecutionDate : 8/16/2018 12:00:20 AM
Name                                   : 
PingStatus                             : Online
PlatformName                           : Microsoft Windows Server 2016 Datacenter
PlatformType                           : Windows
PlatformVersion                        : 10.0.14393
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance
```
**Contoh 3: Contoh ini menunjukkan cara menggunakan InstanceInformationFilterList parameter - untuk memfilter hasil hanya ke instance AWS Systems Manager di wilayah `us-east-1` dengan `PlatformTypes` dari `Windows` atau`Linux`. Anda dapat menemukan daftar nilai InstanceInformationFilterList kunci yang valid dalam topik referensi InstanceInformationFilter API (https://docs.aws.amazon.com/systems-manager/latest/APIReference/API\$1 InstanceInformationFilter .html).**  

```
$Filters = @{
   Key="PlatformTypes"
   ValueSet=("Windows","Linux")
}
Get-SSMInstanceInformation -Region us-east-1 -InstanceInformationFilterList $Filters
```
**Output:**  

```
ActivationId                           : 
AgentVersion                           : 2.2.800.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : EXAMPLE-EXAMPLE.WORKGROUP
IamRole                                : 
InstanceId                             : i-EXAMPLEb0792d98ce
IPAddress                              : 10.0.0.27
IsLatestVersion                        : False
LastAssociationExecutionDate           : 8/16/2018 12:02:50 AM
LastPingDateTime                       : 8/16/2018 7:40:27 PM
LastSuccessfulAssociationExecutionDate : 8/16/2018 12:02:50 AM
Name                                   : 
PingStatus                             : Online
PlatformName                           : Ubuntu Server 18.04 LTS
PlatformType                           : Linux
PlatformVersion                        : 18.04
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance

ActivationId                           : 
AgentVersion                           : 2.2.800.0
AssociationOverview                    : Amazon.SimpleSystemsManagement.Model.InstanceAggregatedAssociationOverview
AssociationStatus                      : Success
ComputerName                           : EXAMPLE-EXAMPLE.WORKGROUP
IamRole                                : 
InstanceId                             : i-EXAMPLEac7501d023
IPAddress                              : 10.0.0.100
IsLatestVersion                        : False
LastAssociationExecutionDate           : 8/16/2018 12:00:20 AM
LastPingDateTime                       : 8/16/2018 7:40:35 PM
LastSuccessfulAssociationExecutionDate : 8/16/2018 12:00:20 AM
Name                                   : 
PingStatus                             : Online
PlatformName                           : Microsoft Windows Server 2016 Datacenter
PlatformType                           : Windows
PlatformVersion                        : 10.0.14393
RegistrationDate                       : 1/1/0001 12:00:00 AM
ResourceType                           : EC2Instance
```
**Contoh 4: Contoh ini mencantumkan instance dan ekspor terkelola ssm InstanceId PingStatus, LastPingDateTime dan PlatformName ke file csv.**  

```
Get-SSMInstanceInformation | Select-Object InstanceId, PingStatus, LastPingDateTime, PlatformName | Export-Csv Instance-details.csv -NoTypeInformation
```
+  Untuk detail API, lihat [DescribeInstanceInformation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInstancePatch`
<a name="ssm_DescribeInstancePatches_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstancePatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan detail kepatuhan patch untuk sebuah instance.**  

```
Get-SSMInstancePatch -InstanceId "i-08ee91c0b17045407"
```
+  Untuk detail API, lihat [DescribeInstancePatches](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInstancePatchState`
<a name="ssm_DescribeInstancePatchStates_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstancePatchState`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan status ringkasan tambalan untuk sebuah instance.**  

```
Get-SSMInstancePatchState -InstanceId "i-08ee91c0b17045407"
```
**Contoh 2: Contoh ini mendapatkan status ringkasan patch untuk dua instance.**  

```
Get-SSMInstancePatchState -InstanceId "i-08ee91c0b17045407","i-09a618aec652973a9"
```
+  Untuk detail API, lihat [DescribeInstancePatchStates](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInstancePatchStatesForPatchGroup`
<a name="ssm_DescribeInstancePatchStatesForPatchGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInstancePatchStatesForPatchGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan status ringkasan patch per instance untuk grup patch.**  

```
Get-SSMInstancePatchStatesForPatchGroup -PatchGroup "Production"
```
+  Untuk detail API, lihat [DescribeInstancePatchStatesForPatchGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInventory`
<a name="ssm_GetInventory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInventory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan metadata kustom untuk inventaris Anda.**  

```
Get-SSMInventory
```
**Output:**  

```
Data                                                                                  Id
----                                                                                  --
{[AWS:InstanceInformation, Amazon.SimpleSystemsManagement.Model.InventoryResultItem]} i-0cb2b964d3e14fd9f
```
+  Untuk detail API, lihat [GetInventory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInventoryEntriesList`
<a name="ssm_ListInventoryEntries_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInventoryEntriesList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua entri inventaris kustom untuk sebuah instance.**  

```
Get-SSMInventoryEntriesList -InstanceId "i-0cb2b964d3e14fd9f" -TypeName "Custom:RackInfo"
```
**Output:**  

```
CaptureTime   : 2016-08-22T10:01:01Z
Entries       : {Amazon.Runtime.Internal.Util.AlwaysSendDictionary`2[System.String,System.String]}
InstanceId    : i-0cb2b964d3e14fd9f
NextToken     :
SchemaVersion : 1.0
TypeName      : Custom:RackInfo
```
**Contoh 2: Contoh ini mencantumkan detailnya.**  

```
(Get-SSMInventoryEntriesList -InstanceId "i-0cb2b964d3e14fd9f" -TypeName "Custom:RackInfo").Entries
```
**Output:**  

```
Key          Value
---          -----
RackLocation Bay B/Row C/Rack D/Shelf E
```
+  Untuk detail API, lihat [ListInventoryEntries](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInventoryEntryList`
<a name="ssm_Get-SSMInventoryEntryList_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInventoryEntryList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil entri inventaris `AWS:Network` tipe untuk instance.**  

```
Get-SSMInventoryEntryList -InstanceId mi-088dcb0ecea37b076 -TypeName AWS:Network | Select-Object -ExpandProperty Entries
```
**Output:**  

```
Key        Value
---        -----
DHCPServer 172.31.11.2
DNSServer  172.31.0.1
Gateway    172.31.11.2
IPV4       172.31.11.222
IPV6       fe12::3456:7da8:901a:12a3
MacAddress 1A:23:4E:5B:FB:67
Name       Amazon Elastic Network Adapter
SubnetMask 255.255.240.0
```
+  Untuk detail API, lihat [Dapatkan- SSMInventory EntryList](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMInventorySchema`
<a name="ssm_GetInventorySchema_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMInventorySchema`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengembalikan daftar nama jenis inventaris untuk akun.**  

```
Get-SSMInventorySchema
```
+  Untuk detail API, lihat [GetInventorySchema](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMLatestEC2Image`
<a name="ssm_Get-SSMLatestEC2Image_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMLatestEC2Image`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua Windows AMIs terbaru.**  

```
PS Get-SSMLatestEC2Image -Path ami-windows-latest
```
**Output:**  

```
Name                                                                    Value
----                                                                    -----
Windows_Server-2008-R2_SP1-English-64Bit-SQL_2012_SP4_Express           ami-0e5ddd288daff4fab
Windows_Server-2012-R2_RTM-Chinese_Simplified-64Bit-Base                ami-0c5ea64e6bec1cb50
Windows_Server-2012-R2_RTM-Chinese_Traditional-64Bit-Base               ami-09775eff0bf8c113d
Windows_Server-2012-R2_RTM-Dutch-64Bit-Base                             ami-025064b67e28cf5df
...
```
**Contoh 2: Contoh ini mengambil id AMI dari image Amazon Linux tertentu untuk wilayah us-west-2.**  

```
PS Get-SSMLatestEC2Image -Path ami-amazon-linux-latest -ImageName amzn-ami-hvm-x86_64-ebs -Region us-west-2
```
**Output:**  

```
ami-09b92cd132204c704
```
**Contoh 3: Contoh ini mencantumkan semua Windows terbaru yang AMIs cocok dengan ekspresi wildcard yang ditentukan.**  

```
Get-SSMLatestEC2Image -Path ami-windows-latest -ImageName *Windows*2019*English*
```
**Output:**  

```
Name                                                     Value
----                                                     -----
Windows_Server-2019-English-Full-SQL_2017_Web            ami-085e9d27da5b73a42
Windows_Server-2019-English-STIG-Core                    ami-0bfd85c29148c7f80
Windows_Server-2019-English-Full-SQL_2019_Web            ami-02099560d7fb11f20
Windows_Server-2019-English-Full-SQL_2016_SP2_Standard   ami-0d7ae2d81c07bd598
...
```
+  Untuk detail API, lihat [Dapatkan- SSMLatest EC2 Gambar](https://docs.aws.amazon.com/powershell/v5/reference) di *Referensi Alat AWS untuk PowerShell Cmdlet (V5*). 

### `Get-SSMMaintenanceWindow`
<a name="ssm_GetMaintenanceWindow_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindow`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan detail tentang jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindow -WindowId "mw-03eb9db42890fb82d"
```
**Output:**  

```
AllowUnassociatedTargets : False
CreatedDate              : 2/20/2017 6:14:05 PM
Cutoff                   : 1
Duration                 : 2
Enabled                  : True
ModifiedDate             : 2/20/2017 6:14:05 PM
Name                     : TestMaintWin
Schedule                 : cron(0 */30 * * * ? *)
WindowId                 : mw-03eb9db42890fb82d
```
+  Untuk detail API, lihat [GetMaintenanceWindow](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMMaintenanceWindowExecution`
<a name="ssm_GetMaintenanceWindowExecution_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan informasi tentang tugas yang dijalankan sebagai bagian dari eksekusi jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecution -WindowExecutionId "518d5565-5969-4cca-8f0e-da3b2a638355"
```
**Output:**  

```
EndTime           : 2/21/2017 4:00:35 PM
StartTime         : 2/21/2017 4:00:34 PM
Status            : FAILED
StatusDetails     : One or more tasks in the orchestration failed.
TaskIds           : {ac0c6ae1-daa3-4a89-832e-d384503b6586}
WindowExecutionId : 518d5565-5969-4cca-8f0e-da3b2a638355
```
+  Untuk detail API, lihat [GetMaintenanceWindowExecution](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMMaintenanceWindowExecutionList`
<a name="ssm_DescribeMaintenanceWindowExecutions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecutionList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua eksekusi untuk jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecutionList -WindowId "mw-03eb9db42890fb82d"
```
**Output:**  

```
EndTime           : 2/20/2017 6:30:17 PM
StartTime         : 2/20/2017 6:30:16 PM
Status            : FAILED
StatusDetails     : One or more tasks in the orchestration failed.
WindowExecutionId : 6f3215cf-4101-4fa0-9b7b-9523269599c7
WindowId          : mw-03eb9db42890fb82d
```
**Contoh 2: Contoh ini mencantumkan semua eksekusi untuk jendela pemeliharaan sebelum tanggal yang ditentukan.**  

```
$option1 = @{Key="ExecutedBefore";Values=@("2016-11-04T05:00:00Z")}
Get-SSMMaintenanceWindowExecutionList -WindowId "mw-03eb9db42890fb82d" -Filter $option1
```
**Contoh 3: Contoh ini mencantumkan semua eksekusi untuk jendela pemeliharaan setelah tanggal yang ditentukan.**  

```
$option1 = @{Key="ExecutedAfter";Values=@("2016-11-04T05:00:00Z")}
Get-SSMMaintenanceWindowExecutionList -WindowId "mw-03eb9db42890fb82d" -Filter $option1
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMMaintenanceWindowExecutionTask`
<a name="ssm_GetMaintenanceWindowExecutionTask_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecutionTask`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan informasi tentang tugas yang merupakan bagian dari eksekusi jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecutionTask -TaskId "ac0c6ae1-daa3-4a89-832e-d384503b6586" -WindowExecutionId "518d5565-5969-4cca-8f0e-da3b2a638355"
```
**Output:**  

```
EndTime           : 2/21/2017 4:00:35 PM
MaxConcurrency    : 1
MaxErrors         : 1
Priority          : 10
ServiceRole       : arn:aws:iam::123456789012:role/MaintenanceWindowsRole
StartTime         : 2/21/2017 4:00:34 PM
Status            : FAILED
StatusDetails     : The maximum error count was exceeded.
TaskArn           : AWS-RunShellScript
TaskExecutionId   : ac0c6ae1-daa3-4a89-832e-d384503b6586
TaskParameters    : {Amazon.Runtime.Internal.Util.AlwaysSendDictionary`2[System.String,Amazon.SimpleSystemsManagement.Model.MaintenanceWindowTaskPara
                    meterValueExpression]}
Type              : RUN_COMMAND
WindowExecutionId : 518d5565-5969-4cca-8f0e-da3b2a638355
```
+  Untuk detail API, lihat [GetMaintenanceWindowExecutionTask](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMMaintenanceWindowExecutionTaskInvocationList`
<a name="ssm_DescribeMaintenanceWindowExecutionTaskInvocations_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecutionTaskInvocationList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan pemanggilan untuk tugas yang dijalankan sebagai bagian dari eksekusi jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecutionTaskInvocationList -TaskId "ac0c6ae1-daa3-4a89-832e-d384503b6586" -WindowExecutionId "518d5565-5969-4cca-8f0e-da3b2a638355"
```
**Output:**  

```
EndTime           : 2/21/2017 4:00:34 PM
ExecutionId       :
InvocationId      : e274b6e1-fe56-4e32-bd2a-8073c6381d8b
OwnerInformation  :
Parameters        : {"documentName":"AWS-RunShellScript","instanceIds":["i-0000293ffd8c57862"],"parameters":{"commands":["df"]},"maxConcurrency":"1",
                    "maxErrors":"1"}
StartTime         : 2/21/2017 4:00:34 PM
Status            : FAILED
StatusDetails     : The instance IDs list contains an invalid entry.
TaskExecutionId   : ac0c6ae1-daa3-4a89-832e-d384503b6586
WindowExecutionId : 518d5565-5969-4cca-8f0e-da3b2a638355
WindowTargetId    :
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutionTaskInvocations](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMMaintenanceWindowExecutionTaskList`
<a name="ssm_DescribeMaintenanceWindowExecutionTasks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowExecutionTaskList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan tugas yang terkait dengan eksekusi jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowExecutionTaskList -WindowExecutionId "518d5565-5969-4cca-8f0e-da3b2a638355"
```
**Output:**  

```
EndTime           : 2/21/2017 4:00:35 PM
StartTime         : 2/21/2017 4:00:34 PM
Status            : SUCCESS
TaskArn           : AWS-RunShellScript
TaskExecutionId   : ac0c6ae1-daa3-4a89-832e-d384503b6586
TaskType          : RUN_COMMAND
WindowExecutionId : 518d5565-5969-4cca-8f0e-da3b2a638355
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowExecutionTasks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMMaintenanceWindowList`
<a name="ssm_DescribeMaintenanceWindows_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua jendela pemeliharaan di akun Anda.**  

```
Get-SSMMaintenanceWindowList
```
**Output:**  

```
Cutoff   : 1
Duration : 4
Enabled  : True
Name     : My-First-Maintenance-Window
WindowId : mw-06d59c1a07c022145
```
+  Untuk detail API, lihat [DescribeMaintenanceWindows](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMMaintenanceWindowTarget`
<a name="ssm_DescribeMaintenanceWindowTargets_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowTarget`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua target untuk jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowTarget -WindowId "mw-06cf17cbefcb4bf4f"
```
**Output:**  

```
OwnerInformation : Single instance
ResourceType     : INSTANCE
Targets          : {InstanceIds}
WindowId         : mw-06cf17cbefcb4bf4f
WindowTargetId   : 350d44e6-28cc-44e2-951f-4b2c985838f6

OwnerInformation : Two instances in a list
ResourceType     : INSTANCE
Targets          : {InstanceIds}
WindowId         : mw-06cf17cbefcb4bf4f
WindowTargetId   : e078a987-2866-47be-bedd-d9cf49177d3a
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowTargets](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMMaintenanceWindowTaskList`
<a name="ssm_DescribeMaintenanceWindowTasks_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMMaintenanceWindowTaskList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua tugas untuk jendela pemeliharaan.**  

```
Get-SSMMaintenanceWindowTaskList -WindowId "mw-06cf17cbefcb4bf4f"
```
**Output:**  

```
LoggingInfo    :
MaxConcurrency : 1
MaxErrors      : 1
Priority       : 10
ServiceRoleArn : arn:aws:iam::123456789012:role/MaintenanceWindowsRole
Targets        : {InstanceIds}
TaskArn        : AWS-RunShellScript
TaskParameters : {[commands, Amazon.SimpleSystemsManagement.Model.MaintenanceWindowTaskParameterValueExpression]}
Type           : RUN_COMMAND
WindowId       : mw-06cf17cbefcb4bf4f
WindowTaskId   : a23e338d-ff30-4398-8aa3-09cd052ebf17
```
+  Untuk detail API, lihat [DescribeMaintenanceWindowTasks](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMParameterHistory`
<a name="ssm_GetParameterHistory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMParameterHistory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan riwayat nilai untuk parameter.**  

```
Get-SSMParameterHistory -Name "Welcome"
```
**Output:**  

```
Description      :
KeyId            :
LastModifiedDate : 3/3/2017 6:55:25 PM
LastModifiedUser : arn:aws:iam::123456789012:user/admin
Name             : Welcome
Type             : String
Value            : helloWorld
```
+  Untuk detail API, lihat [GetParameterHistory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMParameterList`
<a name="ssm_DescribeParameters_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMParameterList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua parameter.**  

```
Get-SSMParameterList
```
**Output:**  

```
Description      :
KeyId            :
LastModifiedDate : 3/3/2017 6:58:23 PM
LastModifiedUser : arn:aws:iam::123456789012:user/admin
Name             : Welcome
Type             : String
```
+  Untuk detail API, lihat [DescribeParameters](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMParameterValue`
<a name="ssm_GetParameters_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMParameterValue`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan nilai untuk parameter.**  

```
Get-SSMParameterValue -Name "Welcome"
```
**Output:**  

```
InvalidParameters Parameters
----------------- ----------
{}                {Welcome}
```
**Contoh 2: Contoh ini mencantumkan rincian nilai.**  

```
(Get-SSMParameterValue -Name "Welcome").Parameters
```
**Output:**  

```
Name    Type   Value
----    ----   -----
Welcome String Good day, Sunshine!
```
+  Untuk detail API, lihat [GetParameters](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMPatchBaseline`
<a name="ssm_DescribePatchBaselines_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchBaseline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan semua baseline patch.**  

```
Get-SSMPatchBaseline
```
**Output:**  

```
BaselineDescription                                             BaselineId                                                            BaselineName
-------------------                                             ----------                                                            ------------
Default Patch Baseline Provided by AWS.                         arn:aws:ssm:us-west-2:123456789012:patchbaseline/pb-04fb4ae6142167966 AWS-DefaultP...
Baseline containing all updates approved for production systems pb-045f10b4f382baeda                                                  Production-B...
Baseline containing all updates approved for production systems pb-0a2f1059b670ebd31                                                  Production-B...
```
**Contoh 2: Contoh ini mencantumkan semua baseline patch yang disediakan oleh. AWS Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter1 = @{Key="OWNER";Values=@("AWS")}
```
**Output:**  

```
Get-SSMPatchBaseline -Filter $filter1
```
**Contoh 3: Contoh ini mencantumkan semua baseline patch dengan Anda sebagai pemilik. Sintaks yang digunakan oleh contoh ini memerlukan PowerShell versi 3 atau yang lebih baru.**  

```
$filter1 = @{Key="OWNER";Values=@("Self")}
```
**Output:**  

```
Get-SSMPatchBaseline -Filter $filter1
```
**Contoh 4: Dengan PowerShell versi 2, Anda harus menggunakan New-Object untuk membuat setiap tag.**  

```
$filter1 = New-Object Amazon.SimpleSystemsManagement.Model.PatchOrchestratorFilter
$filter1.Key = "OWNER"
$filter1.Values = "AWS"

Get-SSMPatchBaseline -Filter $filter1
```
**Output:**  

```
BaselineDescription                     BaselineId                                                            BaselineName             DefaultBaselin
                                                                                                                                       e
-------------------                     ----------                                                            ------------             --------------
Default Patch Baseline Provided by AWS. arn:aws:ssm:us-west-2:123456789012:patchbaseline/pb-04fb4ae6142167966 AWS-DefaultPatchBaseline True
```
+  Untuk detail API, lihat [DescribePatchBaselines](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMPatchBaselineDetail`
<a name="ssm_GetPatchBaseline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchBaselineDetail`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan detail untuk baseline patch.**  

```
Get-SSMPatchBaselineDetail -BaselineId "pb-03da896ca3b68b639"
```
**Output:**  

```
ApprovalRules   : Amazon.SimpleSystemsManagement.Model.PatchRuleGroup
ApprovedPatches : {}
BaselineId      : pb-03da896ca3b68b639
CreatedDate     : 3/3/2017 5:02:19 PM
Description     : Baseline containing all updates approved for production systems
GlobalFilters   : Amazon.SimpleSystemsManagement.Model.PatchFilterGroup
ModifiedDate    : 3/3/2017 5:02:19 PM
Name            : Production-Baseline
PatchGroups     : {}
RejectedPatches : {}
```
+  Untuk detail API, lihat [GetPatchBaseline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMPatchBaselineForPatchGroup`
<a name="ssm_GetPatchBaselineForPatchGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchBaselineForPatchGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menampilkan baseline patch untuk grup patch.**  

```
Get-SSMPatchBaselineForPatchGroup -PatchGroup "Production"
```
**Output:**  

```
BaselineId           PatchGroup
----------           ----------
pb-045f10b4f382baeda Production
```
+  Untuk detail API, lihat [GetPatchBaselineForPatchGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMPatchGroup`
<a name="ssm_DescribePatchGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan pendaftaran grup patch.**  

```
Get-SSMPatchGroup
```
**Output:**  

```
BaselineIdentity                                           PatchGroup
----------------                                           ----------
Amazon.SimpleSystemsManagement.Model.PatchBaselineIdentity Production
```
+  Untuk detail API, lihat [DescribePatchGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMPatchGroupState`
<a name="ssm_DescribePatchGroupState_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMPatchGroupState`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan ringkasan kepatuhan patch tingkat tinggi untuk grup patch.**  

```
Get-SSMPatchGroupState -PatchGroup "Production"
```
**Output:**  

```
Instances                          : 4
InstancesWithFailedPatches         : 1
InstancesWithInstalledOtherPatches : 4
InstancesWithInstalledPatches      : 3
InstancesWithMissingPatches        : 0
InstancesWithNotApplicablePatches  : 0
```
+  Untuk detail API, lihat [DescribePatchGroupState](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMResourceComplianceSummaryList`
<a name="ssm_ListResourceComplianceSummaries_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMResourceComplianceSummaryList`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan jumlah ringkasan tingkat sumber daya. Ringkasan tersebut mencakup informasi tentang status yang sesuai dan tidak sesuai serta jumlah keparahan item kepatuhan terperinci untuk produk yang cocok dengan “Windows10". Karena MaxResult defaultnya adalah 100 jika parameter tidak ditentukan, dan nilai ini tidak valid, MaxResult parameter ditambahkan, dan nilainya diatur ke 50.**  

```
$FilterValues = @{
		"Key"="Product"
        "Type"="EQUAL"
        "Values"="Windows10"
}
        Get-SSMResourceComplianceSummaryList -Filter $FilterValues -MaxResult 50
```
+  Untuk detail API, lihat [ListResourceComplianceSummaries](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-SSMResourceTag`
<a name="ssm_ListTagsForResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-SSMResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan tag untuk jendela pemeliharaan.**  

```
Get-SSMResourceTag -ResourceId "mw-03eb9db42890fb82d" -ResourceType "MaintenanceWindow"
```
**Output:**  

```
Key   Value
---   -----
Stack Production
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-SSMActivation`
<a name="ssm_CreateActivation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMActivation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat instance terkelola.**  

```
New-SSMActivation -DefaultInstanceName "MyWebServers" -IamRole "SSMAutomationRole" -RegistrationLimit 10
```
**Output:**  

```
ActivationCode       ActivationId
--------------       ------------
KWChhOxBTiwDcKE9BlKC 08e51e79-1e36-446c-8e63-9458569c1363
```
+  Untuk detail API, lihat [CreateActivation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-SSMAssociation`
<a name="ssm_CreateAssociation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMAssociation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan dokumen konfigurasi dengan instance, menggunakan instance IDs.**  

```
New-SSMAssociation -InstanceId "i-0cb2b964d3e14fd9f" -Name "AWS-UpdateSSMAgent"
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            : i-0000293ffd8c57862
Date                  : 2/23/2017 6:55:22 PM
Status.Name           : Associated
Status.Date           : 2/20/2015 8:31:11 AM
Status.Message        : Associated with AWS-UpdateSSMAgent
Status.AdditionalInfo :
```
**Contoh 2: Contoh ini mengaitkan dokumen konfigurasi dengan instance, menggunakan target.**  

```
$target = @{Key="instanceids";Values=@("i-0cb2b964d3e14fd9f")}
New-SSMAssociation -Name "AWS-UpdateSSMAgent" -Target $target
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            :
Date                  : 3/1/2017 6:22:21 PM
Status.Name           :
Status.Date           :
Status.Message        :
Status.AdditionalInfo :
```
**Contoh 3: Contoh ini mengaitkan dokumen konfigurasi dengan instance, menggunakan target dan parameter.**  

```
$target = @{Key="instanceids";Values=@("i-0cb2b964d3e14fd9f")}
$params = @{
  "action"="configure"
  "mode"="ec2"
  "optionalConfigurationSource"="ssm"
  "optionalConfigurationLocation"=""
  "optionalRestart"="yes"
}
New-SSMAssociation -Name "Configure-CloudWatch" -AssociationName "CWConfiguration" -Target $target -Parameter $params
```
**Output:**  

```
Name                  : Configure-CloudWatch
InstanceId            :
Date                  : 5/17/2018 3:17:44 PM
Status.Name           :
Status.Date           :
Status.Message        :
Status.AdditionalInfo :
```
**Contoh 4: Contoh ini membuat asosiasi dengan semua instance di wilayah, dengan`AWS-GatherSoftwareInventory`. Ini juga menyediakan file kustom dan lokasi registri dalam parameter untuk mengumpulkan**  

```
$params = [Collections.Generic.Dictionary[String,Collections.Generic.List[String]]]::new()
$params["windowsRegistry"] ='[{"Path":"HKEY_LOCAL_MACHINE\SOFTWARE\Amazon\MachineImage","Recursive":false,"ValueNames":["AMIName"]}]'
$params["files"] = '[{"Path":"C:\Program Files","Pattern":["*.exe"],"Recursive":true}, {"Path":"C:\ProgramData","Pattern":["*.log"],"Recursive":true}]' 
New-SSMAssociation -AssociationName new-in-mum -Name AWS-GatherSoftwareInventory -Target @{Key="instanceids";Values="*"} -Parameter $params -region ap-south-1 -ScheduleExpression "rate(720 minutes)"
```
**Output:**  

```
Name                  : AWS-GatherSoftwareInventory
InstanceId            :
Date                  : 6/9/2019 8:57:56 AM
Status.Name           :
Status.Date           :
Status.Message        :
Status.AdditionalInfo :
```
+  Untuk detail API, lihat [CreateAssociation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-SSMAssociationFromBatch`
<a name="ssm_CreateAssociationBatch_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMAssociationFromBatch`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengaitkan dokumen konfigurasi dengan beberapa instance. Output mengembalikan daftar operasi yang berhasil dan gagal, jika berlaku.**  

```
$option1 = @{InstanceId="i-0cb2b964d3e14fd9f";Name=@("AWS-UpdateSSMAgent")}
$option2 = @{InstanceId="i-0000293ffd8c57862";Name=@("AWS-UpdateSSMAgent")}
New-SSMAssociationFromBatch -Entry $option1,$option2
```
**Output:**  

```
Failed  Successful
------  ----------
{}      {Amazon.SimpleSystemsManagement.Model.FailedCreateAssociation, Amazon.SimpleSystemsManagement.Model.FailedCreateAsso...
```
**Contoh 2: Contoh ini akan menunjukkan detail lengkap dari operasi yang berhasil.**  

```
$option1 = @{InstanceId="i-0cb2b964d3e14fd9f";Name=@("AWS-UpdateSSMAgent")}
$option2 = @{InstanceId="i-0000293ffd8c57862";Name=@("AWS-UpdateSSMAgent")}
(New-SSMAssociationFromBatch -Entry $option1,$option2).Successful
```
+  Untuk detail API, lihat [CreateAssociationBatch](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-SSMDocument`
<a name="ssm_CreateDocument_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMDocument`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat dokumen di akun Anda. Dokumen harus dalam format JSON. Untuk informasi selengkapnya tentang menulis dokumen konfigurasi, lihat Dokumen Konfigurasi di Referensi API SSM.**  

```
New-SSMDocument -Content (Get-Content -Raw "c:\temp\RunShellScript.json") -Name "RunShellScript" -DocumentType "Command"
```
**Output:**  

```
CreatedDate     : 3/1/2017 1:21:33 AM
DefaultVersion  : 1
Description     : Run an updated script
DocumentType    : Command
DocumentVersion : 1
Hash            : 1d5ce820e999ff051eb4841ed887593daf77120fd76cae0d18a53cc42e4e22c1
HashType        : Sha256
LatestVersion   : 1
Name            : RunShellScript
Owner           : 809632081692
Parameters      : {commands}
PlatformTypes   : {Linux}
SchemaVersion   : 2.0
Sha1            :
Status          : Creating
```
+  Untuk detail API, lihat [CreateDocument](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-SSMMaintenanceWindow`
<a name="ssm_CreateMaintenanceWindow_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMMaintenanceWindow`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat jendela pemeliharaan baru dengan nama tertentu yang berjalan pada pukul 4 sore setiap hari Selasa selama 4 jam, dengan cutoff 1 jam, dan yang memungkinkan target yang tidak terkait.**  

```
New-SSMMaintenanceWindow -Name "MyMaintenanceWindow" -Duration 4 -Cutoff 1 -AllowUnassociatedTarget $true -Schedule "cron(0 16 ? * TUE *)"
```
**Output:**  

```
mw-03eb53e1ea7383998
```
+  Untuk detail API, lihat [CreateMaintenanceWindow](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-SSMPatchBaseline`
<a name="ssm_CreatePatchBaseline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-SSMPatchBaseline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat baseline patch yang menyetujui tambalan, tujuh hari setelah dirilis oleh Microsoft, untuk instance terkelola yang menjalankan Windows Server 2019 di lingkungan produksi.**  

```
$rule = New-Object Amazon.SimpleSystemsManagement.Model.PatchRule
$rule.ApproveAfterDays = 7

$ruleFilters = New-Object Amazon.SimpleSystemsManagement.Model.PatchFilterGroup

$patchFilter = New-Object Amazon.SimpleSystemsManagement.Model.PatchFilter
$patchFilter.Key="PRODUCT"
$patchFilter.Values="WindowsServer2019"

$severityFilter = New-Object Amazon.SimpleSystemsManagement.Model.PatchFilter
$severityFilter.Key="MSRC_SEVERITY"
$severityFilter.Values.Add("Critical")
$severityFilter.Values.Add("Important")
$severityFilter.Values.Add("Moderate")

$classificationFilter = New-Object Amazon.SimpleSystemsManagement.Model.PatchFilter
$classificationFilter.Key = "CLASSIFICATION"
$classificationFilter.Values.Add( "SecurityUpdates" )
$classificationFilter.Values.Add( "Updates" )
$classificationFilter.Values.Add( "UpdateRollups" )
$classificationFilter.Values.Add( "CriticalUpdates" )

$ruleFilters.PatchFilters.Add($severityFilter)
$ruleFilters.PatchFilters.Add($classificationFilter)
$ruleFilters.PatchFilters.Add($patchFilter)
$rule.PatchFilterGroup = $ruleFilters

New-SSMPatchBaseline -Name "Production-Baseline-Windows2019" -Description "Baseline containing all updates approved for production systems" -ApprovalRules_PatchRule $rule
```
**Output:**  

```
pb-0z4z6221c4296b23z
```
+  Untuk detail API, lihat [CreatePatchBaseline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-SSMDefaultPatchBaseline`
<a name="ssm_RegisterDefaultPatchBaseline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-SSMDefaultPatchBaseline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan baseline patch sebagai baseline patch default.**  

```
Register-SSMDefaultPatchBaseline -BaselineId "pb-03da896ca3b68b639"
```
**Output:**  

```
pb-03da896ca3b68b639
```
+  Untuk detail API, lihat [RegisterDefaultPatchBaseline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-SSMPatchBaselineForPatchGroup`
<a name="ssm_RegisterPatchBaselineForPatchGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-SSMPatchBaselineForPatchGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan baseline patch untuk grup patch.**  

```
Register-SSMPatchBaselineForPatchGroup -BaselineId "pb-03da896ca3b68b639" -PatchGroup "Production"
```
**Output:**  

```
BaselineId           PatchGroup
----------           ----------
pb-03da896ca3b68b639 Production
```
+  Untuk detail API, lihat [RegisterPatchBaselineForPatchGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-SSMTargetWithMaintenanceWindow`
<a name="ssm_RegisterTargetWithMaintenanceWindow_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-SSMTargetWithMaintenanceWindow`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan instance dengan jendela pemeliharaan.**  

```
$option1 = @{Key="InstanceIds";Values=@("i-0000293ffd8c57862")}
Register-SSMTargetWithMaintenanceWindow -WindowId "mw-06cf17cbefcb4bf4f" -Target $option1 -OwnerInformation "Single instance" -ResourceType "INSTANCE"
```
**Output:**  

```
d8e47760-23ed-46a5-9f28-927337725398
```
**Contoh 2: Contoh ini mendaftarkan beberapa instance dengan jendela pemeliharaan.**  

```
$option1 = @{Key="InstanceIds";Values=@("i-0000293ffd8c57862","i-0cb2b964d3e14fd9f")}
Register-SSMTargetWithMaintenanceWindow -WindowId "mw-06cf17cbefcb4bf4f" -Target $option1 -OwnerInformation "Single instance" -ResourceType "INSTANCE"
```
**Output:**  

```
6ab5c208-9fc4-4697-84b7-b02a6cc25f7d
```
**Contoh 3: Contoh ini mendaftarkan instance dengan jendela pemeliharaan menggunakan tag EC2.**  

```
$option1 = @{Key="tag:Environment";Values=@("Production")}
Register-SSMTargetWithMaintenanceWindow -WindowId "mw-06cf17cbefcb4bf4f" -Target $option1 -OwnerInformation "Production Web Servers" -ResourceType "INSTANCE"
```
**Output:**  

```
2994977e-aefb-4a71-beac-df620352f184
```
+  Untuk detail API, lihat [RegisterTargetWithMaintenanceWindow](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-SSMTaskWithMaintenanceWindow`
<a name="ssm_RegisterTaskWithMaintenanceWindow_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-SSMTaskWithMaintenanceWindow`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan tugas dengan jendela pemeliharaan menggunakan ID instance. Outputnya adalah Task ID.**  

```
$parameters = @{}
$parameterValues = New-Object Amazon.SimpleSystemsManagement.Model.MaintenanceWindowTaskParameterValueExpression
$parameterValues.Values = @("Install")
$parameters.Add("Operation", $parameterValues)

Register-SSMTaskWithMaintenanceWindow -WindowId "mw-03a342e62c96d31b0" -ServiceRoleArn "arn:aws:iam::123456789012:role/MaintenanceWindowsRole" -MaxConcurrency 1 -MaxError 1 -TaskArn "AWS-RunShellScript" -Target @{ Key="InstanceIds";Values="i-0000293ffd8c57862" } -TaskType "RUN_COMMAND" -Priority 10 -TaskParameter $parameters
```
**Output:**  

```
f34a2c47-ddfd-4c85-a88d-72366b69af1b
```
**Contoh 2: Contoh ini mendaftarkan tugas dengan jendela pemeliharaan menggunakan ID target. Outputnya adalah Task ID.**  

```
$parameters = @{}
$parameterValues = New-Object Amazon.SimpleSystemsManagement.Model.MaintenanceWindowTaskParameterValueExpression
$parameterValues.Values = @("Install")
$parameters.Add("Operation", $parameterValues)

register-ssmtaskwithmaintenancewindow -WindowId "mw-03a342e62c96d31b0" -ServiceRoleArn "arn:aws:iam::123456789012:role/MaintenanceWindowsRole" -MaxConcurrency 1 -MaxError 1 -TaskArn "AWS-RunShellScript" -Target @{ Key="WindowTargetIds";Values="350d44e6-28cc-44e2-951f-4b2c985838f6" } -TaskType "RUN_COMMAND" -Priority 10 -TaskParameter $parameters
```
**Output:**  

```
f34a2c47-ddfd-4c85-a88d-72366b69af1b
```
**Contoh 3: Contoh ini membuat objek parameter untuk dokumen perintah run `AWS-RunPowerShellScript` dan membuat tugas dengan jendela pemeliharaan yang diberikan menggunakan ID target. Output yang dikembalikan adalah ID tugas.**  

```
$parameters = [Collections.Generic.Dictionary[String,Collections.Generic.List[String]]]::new()
$parameters.Add("commands",@("ipconfig","dir env:\computername"))
$parameters.Add("executionTimeout",@(3600))

$props = @{
    WindowId = "mw-0123e4cce56ff78ae"
    ServiceRoleArn = "arn:aws:iam::123456789012:role/MaintenanceWindowsRole"
    MaxConcurrency = 1
    MaxError = 1
    TaskType = "RUN_COMMAND"
    TaskArn = "AWS-RunPowerShellScript"
    Target = @{Key="WindowTargetIds";Values="fe1234ea-56d7-890b-12f3-456b789bee0f"}
    Priority = 1
    RunCommand_Parameter = $parameters
    Name = "set-via-cmdlet"
}

Register-SSMTaskWithMaintenanceWindow @props
```
**Output:**  

```
f1e2ef34-5678-12e3-456a-12334c5c6cbe
```
**Contoh 4: Contoh ini mendaftarkan tugas Automasi AWS Systems Manager dengan menggunakan dokumen bernama`Create-Snapshots`.**  

```
$automationParameters = @{}
$automationParameters.Add( "instanceId", @("{{ TARGET_ID }}") )
$automationParameters.Add( "AutomationAssumeRole", @("{arn:aws:iam::111111111111:role/AutomationRole}") )
$automationParameters.Add( "SnapshotTimeout", @("PT20M") )
Register-SSMTaskWithMaintenanceWindow -WindowId mw-123EXAMPLE456`
    -ServiceRoleArn "arn:aws:iam::123456789012:role/MW-Role"`
    -MaxConcurrency 1 -MaxError 1 -TaskArn "CreateVolumeSnapshots"`
    -Target @{ Key="WindowTargetIds";Values="4b5acdf4-946c-4355-bd68-4329a43a5fd1" }`
    -TaskType "AUTOMATION"`
    -Priority 4`
    -Automation_DocumentVersion '$DEFAULT' -Automation_Parameter $automationParameters -Name "Create-Snapshots"
```
+  Untuk detail API, lihat [RegisterTaskWithMaintenanceWindow](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SSMActivation`
<a name="ssm_DeleteActivation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMActivation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus aktivasi. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMActivation -ActivationId "08e51e79-1e36-446c-8e63-9458569c1363"
```
+  Untuk detail API, lihat [DeleteActivation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SSMAssociation`
<a name="ssm_DeleteAssociation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMAssociation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus hubungan antara instance dan dokumen. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMAssociation -InstanceId "i-0cb2b964d3e14fd9f" -Name "AWS-UpdateSSMAgent"
```
+  Untuk detail API, lihat [DeleteAssociation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SSMDocument`
<a name="ssm_DeleteDocument_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMDocument`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus dokumen. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMDocument -Name "RunShellScript"
```
+  Untuk detail API, lihat [DeleteDocument](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SSMMaintenanceWindow`
<a name="ssm_DeleteMaintenanceWindow_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMMaintenanceWindow`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus jendela pemeliharaan.**  

```
Remove-SSMMaintenanceWindow -WindowId "mw-06d59c1a07c022145"
```
**Output:**  

```
mw-06d59c1a07c022145
```
+  Untuk detail API, lihat [DeleteMaintenanceWindow](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SSMParameter`
<a name="ssm_DeleteParameter_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMParameter`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus parameter. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMParameter -Name "helloWorld"
```
+  Untuk detail API, lihat [DeleteParameter](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SSMPatchBaseline`
<a name="ssm_DeletePatchBaseline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMPatchBaseline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus baseline patch.**  

```
Remove-SSMPatchBaseline -BaselineId "pb-045f10b4f382baeda"
```
**Output:**  

```
pb-045f10b4f382baeda
```
+  Untuk detail API, lihat [DeletePatchBaseline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-SSMResourceTag`
<a name="ssm_RemoveTagsFromResource_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-SSMResourceTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag dari jendela pemeliharaan. Tidak ada output jika perintah berhasil.**  

```
Remove-SSMResourceTag -ResourceId "mw-03eb9db42890fb82d" -ResourceType "MaintenanceWindow" -TagKey "Production"
```
+  Untuk detail API, lihat [RemoveTagsFromResource](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Send-SSMCommand`
<a name="ssm_SendCommand_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Send-SSMCommand`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjalankan perintah echo pada instance target.**  

```
Send-SSMCommand -DocumentName "AWS-RunPowerShellScript" -Parameter @{commands = "echo helloWorld"} -Target @{Key="instanceids";Values=@("i-0cb2b964d3e14fd9f")}
```
**Output:**  

```
CommandId          : d8d190fc-32c1-4d65-a0df-ff5ff3965524
Comment            : 
CompletedCount     : 0
DocumentName       : AWS-RunPowerShellScript
ErrorCount         : 0
ExpiresAfter       : 3/7/2017 10:48:37 PM
InstanceIds        : {}
MaxConcurrency     : 50
MaxErrors          : 0
NotificationConfig : Amazon.SimpleSystemsManagement.Model.NotificationConfig
OutputS3BucketName : 
OutputS3KeyPrefix  : 
OutputS3Region     : 
Parameters         : {[commands, Amazon.Runtime.Internal.Util.AlwaysSendList`1[System.String]]}
RequestedDateTime  : 3/7/2017 9:48:37 PM
ServiceRole        : 
Status             : Pending
StatusDetails      : Pending
TargetCount        : 0
Targets            : {instanceids}
```
**Contoh 2: Contoh ini menunjukkan cara menjalankan perintah yang menerima parameter bersarang.**  

```
Send-SSMCommand -DocumentName "AWS-RunRemoteScript" -Parameter @{ sourceType="GitHub";sourceInfo='{"owner": "me","repository": "amazon-ssm","path": "Examples/Install-Win32OpenSSH"}'; "commandLine"=".\Install-Win32OpenSSH.ps1"} -InstanceId i-0cb2b964d3e14fd9f
```
+  Untuk detail API, lihat [SendCommand](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-SSMAutomationExecution`
<a name="ssm_StartAutomationExecution_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-SSMAutomationExecution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menjalankan dokumen yang menentukan peran Otomasi, ID sumber AMI, dan peran instans Amazon EC2.**  

```
Start-SSMAutomationExecution -DocumentName AWS-UpdateLinuxAmi -Parameter @{'AutomationAssumeRole'='arn:aws:iam::123456789012:role/SSMAutomationRole';'SourceAmiId'='ami-f173cc91';'InstanceIamRole'='EC2InstanceRole'}
```
**Output:**  

```
3a532a4f-0382-11e7-9df7-6f11185f6dd1
```
+  Untuk detail API, lihat [StartAutomationExecution](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Start-SSMSession`
<a name="ssm_StartSession_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Start-SSMSession`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memulai koneksi ke target untuk sesi Session Manager, memungkinkan penerusan port. Catatan: Anda perlu menambahkan parameter Region jika belum diatur menggunakan AWSCredentials.**  

```
Start-SSMSession -Target 'i-064578e5e7454488f' -DocumentName 'AWS-StartPortForwardingSession' -Parameter @{ localPortNumber = '8080'; portNumber = '80' } -Region 'us-west-1'
```
**Output:**  

```
Starting session with SessionId: testUser-xi4glew849asyeryde34u4dfsdfy
Port 8080 opened for sessionId testUser-xi4glew849asyeryde34u4dfsdfy.
Waiting for connections...
```
**Contoh 2: Contoh ini membuat sesi interaktif dengan instance tertentu untuk sesi Session Manager.**  

```
Start-SSMSession -Target 'i-1234567890abcdef0' -Region 'us-west-1'
```
**Output:**  

```
Starting session with SessionId : testUser-xi4glew849asyeryde34u4dfsdfy
Windows PowerShell
Copyright (C) Microsoft Corporation. All rights reserved.
                                                                                                                                                                                                
Install the latest PowerShell for new features and improvements!
                                                                                                                                                      
PS C:\Windows\system32> whoami
ec2amaz-fnsdrwv\ec2-test-user
PS C:\Windows\system32>
```
**Contoh 3: Contoh ini membuat sesi tanpa menghubungkannya dan mengembalikan SessionId, StreamUrl, dan TokenValue properti yang diperlukan untuk terhubung ke sesi.**  

```
Start-SSMSession -Target 'i-1234567890abcdef0' -Region 'us-west-1' -DisablePluginInvocation
```
**Output:**  

```
SessionId        : testUser-xi4glew849asyeryde34u4dfsdfy
StreamUrl        : {StreamUrl value redacted}
TokenValue       : {Token value redacted}
ContentLength    : 1207
HttpStatusCode   : OK
```
+  Untuk detail API, lihat [StartSession](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-SSMAutomationExecution`
<a name="ssm_StopAutomationExecution_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-SSMAutomationExecution`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghentikan Eksekusi Otomasi. Tidak ada output jika perintah berhasil.**  

```
Stop-SSMAutomationExecution -AutomationExecutionId "4105a4fc-f944-11e6-9d32-8fb2db27a909"
```
+  Untuk detail API, lihat [StopAutomationExecution](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-SSMCommand`
<a name="ssm_CancelCommand_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-SSMCommand`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencoba untuk membatalkan perintah. Tidak ada output jika operasi berhasil.**  

```
Stop-SSMCommand -CommandId "9ded293e-e792-4440-8e3e-7b8ec5feaa38"
```
+  Untuk detail API, lihat [CancelCommand](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-SSMManagedInstance`
<a name="ssm_DeregisterManagedInstance_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-SSMManagedInstance`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan pendaftaran instance terkelola. Tidak ada output jika perintah berhasil.**  

```
Unregister-SSMManagedInstance -InstanceId "mi-08ab247cdf1046573"
```
+  Untuk detail API, lihat [DeregisterManagedInstance](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-SSMPatchBaselineForPatchGroup`
<a name="ssm_DeregisterPatchBaselineForPatchGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-SSMPatchBaselineForPatchGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan pendaftaran grup patch dari baseline patch.**  

```
Unregister-SSMPatchBaselineForPatchGroup -BaselineId "pb-045f10b4f382baeda" -PatchGroup "Production"
```
**Output:**  

```
BaselineId           PatchGroup
----------           ----------
pb-045f10b4f382baeda Production
```
+  Untuk detail API, lihat [DeregisterPatchBaselineForPatchGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-SSMTargetFromMaintenanceWindow`
<a name="ssm_DeregisterTargetFromMaintenanceWindow_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-SSMTargetFromMaintenanceWindow`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus target dari jendela pemeliharaan.**  

```
Unregister-SSMTargetFromMaintenanceWindow -WindowTargetId "6ab5c208-9fc4-4697-84b7-b02a6cc25f7d" -WindowId "mw-06cf17cbefcb4bf4f"
```
**Output:**  

```
WindowId             WindowTargetId
--------             --------------
mw-06cf17cbefcb4bf4f 6ab5c208-9fc4-4697-84b7-b02a6cc25f7d
```
+  Untuk detail API, lihat [DeregisterTargetFromMaintenanceWindow](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-SSMTaskFromMaintenanceWindow`
<a name="ssm_DeregisterTaskFromMaintenanceWindow_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-SSMTaskFromMaintenanceWindow`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tugas dari jendela pemeliharaan.**  

```
Unregister-SSMTaskFromMaintenanceWindow -WindowTaskId "f34a2c47-ddfd-4c85-a88d-72366b69af1b" -WindowId "mw-03a342e62c96d31b0"
```
**Output:**  

```
WindowId             WindowTaskId
--------             ------------
mw-03a342e62c96d31b0 f34a2c47-ddfd-4c85-a88d-72366b69af1b
```
+  Untuk detail API, lihat [DeregisterTaskFromMaintenanceWindow](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-SSMAssociation`
<a name="ssm_UpdateAssociation_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMAssociation`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui asosiasi dengan versi dokumen baru.**  

```
Update-SSMAssociation -AssociationId "93285663-92df-44cb-9f26-2292d4ecc439" -DocumentVersion "1"
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            :
Date                  : 3/1/2017 6:22:21 PM
Status.Name           :
Status.Date           :
Status.Message        :
Status.AdditionalInfo :
```
+  Untuk detail API, lihat [UpdateAssociation](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-SSMAssociationStatus`
<a name="ssm_UpdateAssociationStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMAssociationStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui status asosiasi asosiasi antara instance dan dokumen konfigurasi.**  

```
Update-SSMAssociationStatus -Name "AWS-UpdateSSMAgent" -InstanceId "i-0000293ffd8c57862" -AssociationStatus_Date "2015-02-20T08:31:11Z" -AssociationStatus_Name "Pending" -AssociationStatus_Message "temporary_status_change" -AssociationStatus_AdditionalInfo "Additional-Config-Needed"
```
**Output:**  

```
Name                  : AWS-UpdateSSMAgent
InstanceId            : i-0000293ffd8c57862
Date                  : 2/23/2017 6:55:22 PM
Status.Name           : Pending
Status.Date           : 2/20/2015 8:31:11 AM
Status.Message        : temporary_status_change
Status.AdditionalInfo : Additional-Config-Needed
```
+  Untuk detail API, lihat [UpdateAssociationStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-SSMDocument`
<a name="ssm_UpdateDocument_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMDocument`.

**Alat untuk PowerShell V5**  
**Contoh 1: Ini membuat versi baru dokumen dengan konten terbaru dari file json yang Anda tentukan. Dokumen harus dalam format JSON. Anda dapat memperoleh versi dokumen dengan cmdlet “Get- SSMDocumentVersionList”.**  

```
Update-SSMDocument -Name RunShellScript -DocumentVersion "1" -Content (Get-Content -Raw "c:\temp\RunShellScript.json")
```
**Output:**  

```
CreatedDate     : 3/1/2017 2:59:17 AM
DefaultVersion  : 1
Description     : Run an updated script
DocumentType    : Command
DocumentVersion : 2
Hash            : 1d5ce820e999ff051eb4841ed887593daf77120fd76cae0d18a53cc42e4e22c1
HashType        : Sha256
LatestVersion   : 2
Name            : RunShellScript
Owner           : 809632081692
Parameters      : {commands}
PlatformTypes   : {Linux}
SchemaVersion   : 2.0
Sha1            :
Status          : Updating
```
+  Untuk detail API, lihat [UpdateDocument](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-SSMDocumentDefaultVersion`
<a name="ssm_UpdateDocumentDefaultVersion_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMDocumentDefaultVersion`.

**Alat untuk PowerShell V5**  
**Contoh 1: Ini memperbarui versi default dokumen. Anda dapat memperoleh versi dokumen yang tersedia dengan cmdlet “Dapatkan- SSMDocumentVersionList”.**  

```
Update-SSMDocumentDefaultVersion -Name "RunShellScript" -DocumentVersion "2"
```
**Output:**  

```
DefaultVersion Name
-------------- ----
2              RunShellScript
```
+  Untuk detail API, lihat [UpdateDocumentDefaultVersion](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-SSMMaintenanceWindow`
<a name="ssm_UpdateMaintenanceWindow_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMMaintenanceWindow`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui nama jendela pemeliharaan.**  

```
Update-SSMMaintenanceWindow -WindowId "mw-03eb9db42890fb82d" -Name "My-Renamed-MW"
```
**Output:**  

```
AllowUnassociatedTargets : False
Cutoff                   : 1
Duration                 : 2
Enabled                  : True
Name                     : My-Renamed-MW
Schedule                 : cron(0 */30 * * * ? *)
WindowId                 : mw-03eb9db42890fb82d
```
**Contoh 2: Contoh ini memungkinkan jendela pemeliharaan.**  

```
Update-SSMMaintenanceWindow -WindowId "mw-03eb9db42890fb82d" -Enabled $true
```
**Output:**  

```
AllowUnassociatedTargets : False
Cutoff                   : 1
Duration                 : 2
Enabled                  : True
Name                     : My-Renamed-MW
Schedule                 : cron(0 */30 * * * ? *)
WindowId                 : mw-03eb9db42890fb82d
```
**Contoh 3: Contoh ini menonaktifkan jendela pemeliharaan.**  

```
Update-SSMMaintenanceWindow -WindowId "mw-03eb9db42890fb82d" -Enabled $false
```
**Output:**  

```
AllowUnassociatedTargets : False
Cutoff                   : 1
Duration                 : 2
Enabled                  : False
Name                     : My-Renamed-MW
Schedule                 : cron(0 */30 * * * ? *)
WindowId                 : mw-03eb9db42890fb82d
```
+  Untuk detail API, lihat [UpdateMaintenanceWindow](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-SSMManagedInstanceRole`
<a name="ssm_UpdateManagedInstanceRole_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMManagedInstanceRole`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memperbarui peran instance terkelola. Tidak ada output jika perintah berhasil.**  

```
Update-SSMManagedInstanceRole -InstanceId "mi-08ab247cdf1046573" -IamRole "AutomationRole"
```
+  Untuk detail API, lihat [UpdateManagedInstanceRole](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Update-SSMPatchBaseline`
<a name="ssm_UpdatePatchBaseline_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Update-SSMPatchBaseline`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan dua tambalan sebagai ditolak dan satu tambalan yang disetujui ke baseline patch yang ada.**  

```
Update-SSMPatchBaseline -BaselineId "pb-03da896ca3b68b639" -RejectedPatch "KB2032276","MS10-048" -ApprovedPatch "KB2124261"
```
**Output:**  

```
ApprovalRules   : Amazon.SimpleSystemsManagement.Model.PatchRuleGroup
ApprovedPatches : {KB2124261}
BaselineId      : pb-03da896ca3b68b639
CreatedDate     : 3/3/2017 5:02:19 PM
Description     : Baseline containing all updates approved for production systems
GlobalFilters   : Amazon.SimpleSystemsManagement.Model.PatchFilterGroup
ModifiedDate    : 3/3/2017 5:22:10 PM
Name            : Production-Baseline
RejectedPatches : {KB2032276, MS10-048}
```
+  Untuk detail API, lihat [UpdatePatchBaseline](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-SSMComplianceItem`
<a name="ssm_PutComplianceItems_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-SSMComplianceItem`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menulis item kepatuhan khusus untuk instance terkelola yang diberikan**  

```
$item = [Amazon.SimpleSystemsManagement.Model.ComplianceItemEntry]::new()
$item.Id = "07Jun2019-3"
$item.Severity="LOW"
$item.Status="COMPLIANT"
$item.Title="Fin-test-1 - custom"
Write-SSMComplianceItem -ResourceId mi-012dcb3ecea45b678 -ComplianceType Custom:VSSCompliant2 -ResourceType ManagedInstance -Item $item -ExecutionSummary_ExecutionTime "07-Jun-2019"
```
+  Untuk detail API, lihat [PutComplianceItems](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-SSMInventory`
<a name="ssm_PutInventory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-SSMInventory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memberikan informasi lokasi rak ke sebuah instance. Tidak ada output jika perintah berhasil.**  

```
$data = New-Object "System.Collections.Generic.Dictionary[System.String,System.String]"
$data.Add("RackLocation", "Bay B/Row C/Rack D/Shelf F")

$items = New-Object "System.Collections.Generic.List[System.Collections.Generic.Dictionary[System.String, System.String]]"
$items.Add($data)

$customInventoryItem = New-Object Amazon.SimpleSystemsManagement.Model.InventoryItem
$customInventoryItem.CaptureTime = "2016-08-22T10:01:01Z"
$customInventoryItem.Content = $items
$customInventoryItem.TypeName = "Custom:TestRackInfo2"
$customInventoryItem.SchemaVersion = "1.0"

$inventoryItems = @($customInventoryItem)

Write-SSMInventory -InstanceId "i-0cb2b964d3e14fd9f" -Item $inventoryItems
```
+  Untuk detail API, lihat [PutInventory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Write-SSMParameter`
<a name="ssm_PutParameter_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Write-SSMParameter`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membuat parameter. Tidak ada output jika perintah berhasil.**  

```
Write-SSMParameter -Name "Welcome" -Type "String" -Value "helloWorld"
```
**Contoh 2: Contoh ini mengubah parameter. Tidak ada output jika perintah berhasil.**  

```
Write-SSMParameter -Name "Welcome" -Type "String" -Value "Good day, Sunshine!" -Overwrite $true
```
+  Untuk detail API, lihat [PutParameter](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh Amazon Translate menggunakan Alat untuk PowerShell V5
<a name="powershell_5_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan Amazon Translate.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ConvertTo-TRNTargetLanguage`
<a name="translate_TranslateText_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConvertTo-TRNTargetLanguage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengonversi teks bahasa Inggris yang ditentukan ke bahasa Prancis. Teks yang akan dikonversi juga dapat diteruskan sebagai parameter -Text.**  

```
"Hello World" | ConvertTo-TRNTargetLanguage -SourceLanguageCode en -TargetLanguageCode fr
```
+  Untuk detail API, lihat [TranslateText](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# AWS WAFV2 contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_wafv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan AWS WAFV2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `New-WAF2WebACL`
<a name="wafv2_CreateWebAcl_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-WAF2WebACL`.

**Alat untuk PowerShell V5**  
**Contoh 1: Perintah ini membuat ACL web baru bernama “waf-test”. Harap dicatat bahwa sesuai dokumentasi API layanan, 'DefaultAction' adalah properti wajib. Oleh karena itu, nilai untuk salah satu '- DefaultAction \$1Allow' and/or '- DefaultAction \$1Block' harus ditentukan. Karena '- DefaultAction \$1Allow' dan '- DefaultAction \$1Block' bukan properti yang diperlukan, nilai '@ \$1\$1 'dapat digunakan sebagai placeholder seperti yang ditunjukkan pada contoh di atas.**  

```
New-WAF2WebACL -Name "waf-test" -Scope REGIONAL -Region eu-west-1 -VisibilityConfig_CloudWatchMetricsEnabled $true -VisibilityConfig_SampledRequestsEnabled $true -VisibilityConfig_MetricName "waf-test" -Description "Test" -DefaultAction_Allow @{}
```
**Output:**  

```
ARN         : arn:aws:wafv2:eu-west-1:139480602983:regional/webacl/waf-test/19460b3f-db14-4b9a-8e23-a417e1eb007f
Description : Test
Id          : 19460b3f-db14-4b9a-8e23-a417e1eb007f
LockToken   : 5a0cd5eb-d911-4341-b313-b429e6d6b6ab
Name        : waf-test
```
+  Untuk detail API, lihat [CreateWebAcl](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# WorkSpaces contoh menggunakan Alat untuk PowerShell V5
<a name="powershell_5_workspaces_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Alat AWS untuk PowerShell V5 dengan WorkSpaces.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `Approve-WKSIpRule`
<a name="workspaces_AuthorizeIpRules_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Approve-WKSIpRule`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan aturan ke Grup IP yang ada**  

```
$Rule = @(
@{IPRule = "10.1.0.0/0"; RuleDesc = "First Rule Added"},
@{IPRule = "10.2.0.0/0"; RuleDesc = "Second Rule Added"}
)

Approve-WKSIpRule -GroupId wsipg-abcnx2fcw -UserRule $Rule
```
+  Untuk detail API, lihat [AuthorizeIpRules](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Copy-WKSWorkspaceImage`
<a name="workspaces_CopyWorkspaceImage_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Copy-WKSWorkspaceImage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menyalin ruang kerja Gambar dengan ID tertentu dari us-west-2 ke wilayah saat ini dengan nama "” CopiedImageTest**  

```
Copy-WKSWorkspaceImage -Name CopiedImageTest -SourceRegion us-west-2 -SourceImageId wsi-djfoedhw6
```
**Output:**  

```
wsi-456abaqfe
```
+  Untuk detail API, lihat [CopyWorkspaceImage](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-WKSClientProperty`
<a name="workspaces_ModifyClientProperties_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSClientProperty`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan Rekoneksi untuk Klien Ruang Kerja**  

```
Edit-WKSClientProperty -Region us-west-2 -ClientProperties_ReconnectEnabled "ENABLED" -ResourceId d-123414a369
```
+  Untuk detail API, lihat [ModifyClientProperties](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-WKSSelfServicePermission`
<a name="workspaces_ModifySelfservicePermissions_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSSelfServicePermission`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan izin layanan mandiri untuk Mengubah jenis komputasi dan Meningkatkan Ukuran Volume untuk Direktori yang ditentukan**  

```
Edit-WKSSelfservicePermission -Region us-west-2 -ResourceId d-123454a369 -SelfservicePermissions_ChangeComputeType ENABLED -SelfservicePermissions_IncreaseVolumeSize ENABLED
```
+  Untuk detail API, lihat [ModifySelfservicePermissions](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-WKSWorkspaceAccessProperty`
<a name="workspaces_ModifyWorkspaceAccessProperties_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSWorkspaceAccessProperty`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan akses Workspace di Android dan Chrome OS untuk Direktori yang ditentukan**  

```
Edit-WKSWorkspaceAccessProperty -Region us-west-2 -ResourceId d-123454a369 -WorkspaceAccessProperties_DeviceTypeAndroid ALLOW -WorkspaceAccessProperties_DeviceTypeChromeOs ALLOW
```
+  Untuk detail API, lihat [ModifyWorkspaceAccessProperties](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-WKSWorkspaceCreationProperty`
<a name="workspaces_ModifyWorkspaceCreationProperties_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSWorkspaceCreationProperty`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini memungkinkan Akses Internet dan Mode Pemeliharaan menjadi true sebagai nilai default saat membuat Workspace**  

```
Edit-WKSWorkspaceCreationProperty -Region us-west-2 -ResourceId d-123454a369 -WorkspaceCreationProperties_EnableInternetAccess $true -WorkspaceCreationProperties_EnableMaintenanceMode $true
```
+  Untuk detail API, lihat [ModifyWorkspaceCreationProperties](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-WKSWorkspaceProperty`
<a name="workspaces_ModifyWorkspaceProperties_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSWorkspaceProperty`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah Properti Workspace Running Mode menjadi Auto Stop untuk Workspace yang ditentukan**  

```
Edit-WKSWorkspaceProperty -WorkspaceId ws-w361s100v -Region us-west-2 -WorkspaceProperties_RunningMode AUTO_STOP
```
+  Untuk detail API, lihat [ModifyWorkspaceProperties](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Edit-WKSWorkspaceState`
<a name="workspaces_ModifyWorkspaceState_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Edit-WKSWorkspaceState`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengubah status Workspace yang ditentukan menjadi Tersedia**  

```
Edit-WKSWorkspaceState -WorkspaceId ws-w361s100v -Region us-west-2 -WorkspaceState AVAILABLE
```
+  Untuk detail API, lihat [ModifyWorkspaceState](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSClientProperty`
<a name="workspaces_DescribeClientProperties_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSClientProperty`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendapatkan Properti Klien dari Klien Workspace untuk Direktori yang ditentukan**  

```
Get-WKSClientProperty -ResourceId d-223562a123
```
+  Untuk detail API, lihat [DescribeClientProperties](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSIpGroup`
<a name="workspaces_DescribeIpGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSIpGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini mendapatkan rincian Grup IP yang ditentukan di wilayah yang ditentukan**  

```
Get-WKSIpGroup -Region us-east-1 -GroupId wsipg-8m1234v45
```
**Output:**  

```
GroupDesc GroupId         GroupName UserRules
--------- -------         --------- ---------
          wsipg-8m1234v45 TestGroup {Amazon.WorkSpaces.Model.IpRuleItem, Amazon.WorkSpaces.Model.IpRuleItem}
```
+  Untuk detail API, lihat [DescribeIpGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSTag`
<a name="workspaces_DescribeTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil tag untuk Workspace yang diberikan**  

```
Get-WKSTag -WorkspaceId ws-w361s234r -Region us-west-2
```
**Output:**  

```
Key         Value
---         -----
auto-delete no
purpose     Workbench
```
+  Untuk detail API, lihat [DescribeTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSWorkspace`
<a name="workspaces_DescribeWorkspaces_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspace`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengambil detail dari semua pipa Anda WorkSpaces .**  

```
Get-WKSWorkspace
```
**Output:**  

```
BundleId                    : wsb-1a2b3c4d
ComputerName                :
DirectoryId                 : d-1a2b3c4d
ErrorCode                   :
ErrorMessage                :
IpAddress                   :
RootVolumeEncryptionEnabled : False
State                       : PENDING
SubnetId                    :
UserName                    : myuser
UserVolumeEncryptionEnabled : False
VolumeEncryptionKey         :
WorkspaceId                 : ws-1a2b3c4d
WorkspaceProperties         : Amazon.WorkSpaces.Model.WorkspaceProperties
```
**Contoh 2: Perintah ini menunjukkan nilai properti anak `WorkSpaceProperties` untuk ruang kerja di `us-west-2` wilayah tersebut. Untuk informasi selengkapnya tentang properti anak`WorkSpaceProperties`, lihat https://docs.aws.amazon.com/workspaces/ latest/api/API \$1 WorkspaceProperties .html.**  

```
(Get-WKSWorkspace -Region us-west-2 -WorkSpaceId ws-xdaf7hc9s).WorkspaceProperties
```
**Output:**  

```
        ComputeTypeName                     : STANDARD
        RootVolumeSizeGib                   : 80
        RunningMode                         : AUTO_STOP
        RunningModeAutoStopTimeoutInMinutes : 60
        UserVolumeSizeGib                   : 50
```
**Contoh 3: Perintah ini menunjukkan nilai properti `RootVolumeSizeGib` anak `WorkSpaceProperties` untuk ruang kerja di `us-west-2` wilayah tersebut. Ukuran volume root, dalam GiB, adalah 80.**  

```
(Get-WKSWorkspace -Region us-west-2 -WorkSpaceId ws-xdaf7hc9s).WorkspaceProperties.RootVolumeSizeGib
```
**Output:**  

```
        80
```
+  Untuk detail API, lihat [DescribeWorkspaces](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSWorkspaceBundle`
<a name="workspaces_DescribeWorkspaceBundles_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspaceBundle`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil rincian semua bundel Workspace di wilayah saat ini**  

```
Get-WKSWorkspaceBundle
```
**Output:**  

```
BundleId        : wsb-sfhdgv342
ComputeType     : Amazon.WorkSpaces.Model.ComputeType
Description     : This bundle is custom
ImageId         : wsi-235aeqges
LastUpdatedTime : 12/26/2019 06:44:07
Name            : CustomBundleTest
Owner           : 233816212345
RootStorage     : Amazon.WorkSpaces.Model.RootStorage
UserStorage     : Amazon.WorkSpaces.Model.UserStorage
```
+  Untuk detail API, lihat [DescribeWorkspaceBundles](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSWorkspaceDirectory`
<a name="workspaces_DescribeWorkspaceDirectories_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspaceDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mencantumkan detail direktori untuk direktori terdaftar**  

```
Get-WKSWorkspaceDirectory
```
**Output:**  

```
Alias                       : TestWorkspace
CustomerUserName            : Administrator
DirectoryId                 : d-123414a369
DirectoryName               : TestDirectory.com
DirectoryType               : MicrosoftAD
DnsIpAddresses              : {172.31.43.45, 172.31.2.97}
IamRoleId                   : arn:aws:iam::761234567801:role/workspaces_RoleDefault
IpGroupIds                  : {}
RegistrationCode            : WSpdx+4RRT43
SelfservicePermissions      : Amazon.WorkSpaces.Model.SelfservicePermissions
State                       : REGISTERED
SubnetIds                   : {subnet-1m3m7b43, subnet-ard11aba}
Tenancy                     : SHARED
WorkspaceAccessProperties   : Amazon.WorkSpaces.Model.WorkspaceAccessProperties
WorkspaceCreationProperties : Amazon.WorkSpaces.Model.DefaultWorkspaceCreationProperties
WorkspaceSecurityGroupId    : sg-0ed2441234a123c43
```
+  Untuk detail API, lihat [DescribeWorkspaceDirectories](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSWorkspaceImage`
<a name="workspaces_DescribeWorkspaceImages_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspaceImage`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil semua detail semua gambar di wilayah tersebut**  

```
Get-WKSWorkspaceImage
```
**Output:**  

```
Description     :This image is copied from another image
ErrorCode       :
ErrorMessage    :
ImageId         : wsi-345ahdjgo
Name            : CopiedImageTest
OperatingSystem : Amazon.WorkSpaces.Model.OperatingSystem
RequiredTenancy : DEFAULT
State           : AVAILABLE
```
+  Untuk detail API, lihat [DescribeWorkspaceImages](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSWorkspaceSnapshot`
<a name="workspaces_DescribeWorkspaceSnapshots_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspaceSnapshot`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menunjukkan stempel waktu snapshot terbaru yang dibuat untuk Workspace yang ditentukan**  

```
Get-WKSWorkspaceSnapshot -WorkspaceId ws-w361s100v
```
**Output:**  

```
RebuildSnapshots                   RestoreSnapshots
----------------                   ----------------
{Amazon.WorkSpaces.Model.Snapshot} {Amazon.WorkSpaces.Model.Snapshot}
```
+  Untuk detail API, lihat [DescribeWorkspaceSnapshots](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Get-WKSWorkspacesConnectionStatus`
<a name="workspaces_DescribeWorkspacesConnectionStatus_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Get-WKSWorkspacesConnectionStatus`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mengambil status koneksi untuk Workspace yang ditentukan**  

```
Get-WKSWorkspacesConnectionStatus -WorkspaceId ws-w123s234r
```
+  Untuk detail API, lihat [DescribeWorkspacesConnectionStatus](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-WKSIpGroup`
<a name="workspaces_CreateIpGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-WKSIpGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini membuat grup Ip kosong bernama FreshEmptyIpGroup**  

```
New-WKSIpGroup -GroupName "FreshNewIPGroup"
```
**Output:**  

```
wsipg-w45rty4ty
```
+  Untuk detail API, lihat [CreateIpGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-WKSTag`
<a name="workspaces_CreateTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-WKSTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menambahkan tag baru ke ruang kerja bernama`ws-wsname`. Tag memiliki kunci “Nama”, dan nilai kunci dari`AWS_Workspace`.**  

```
$tag = New-Object Amazon.WorkSpaces.Model.Tag
$tag.Key = "Name"
$tag.Value = "AWS_Workspace"
New-WKSTag -Region us-west-2 -WorkspaceId ws-wsname -Tag $tag
```
**Contoh 2: Contoh ini menambahkan beberapa tag ke ruang kerja bernama`ws-wsname`. Satu tag memiliki kunci “Nama” dan nilai kunci`AWS_Workspace`; tag lainnya memiliki kunci tag “Tahap” dan nilai kunci “Uji”.**  

```
$tag = New-Object Amazon.WorkSpaces.Model.Tag
$tag.Key = "Name"
$tag.Value = "AWS_Workspace"

$tag2 = New-Object Amazon.WorkSpaces.Model.Tag
$tag2.Key = "Stage"
$tag2.Value = "Test"
New-WKSTag -Region us-west-2 -WorkspaceId ws-wsname -Tag $tag,$tag2
```
+  Untuk detail API, lihat [CreateTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `New-WKSWorkspace`
<a name="workspaces_CreateWorkspaces_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`New-WKSWorkspace`.

**Alat untuk PowerShell V5**  
**Contoh 1: Buat WorkSpace untuk bundel, direktori, dan pengguna yang disediakan.**  

```
New-WKSWorkspace -Workspace @{"BundleID" = "wsb-1a2b3c4d"; "DirectoryId" = "d-1a2b3c4d"; "UserName" = "USERNAME"}
```
**Contoh 2: Contoh ini membuat beberapa WorkSpaces**  

```
New-WKSWorkspace -Workspace @{"BundleID" = "wsb-1a2b3c4d"; "DirectoryId" = "d-1a2b3c4d"; "UserName" = "USERNAME_1"},@{"BundleID" = "wsb-1a2b3c4d"; "DirectoryId" = "d-1a2b3c4d"; "UserName" = "USERNAME_2"}
```
+  Untuk detail API, lihat [CreateWorkspaces](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-WKSIpGroup`
<a name="workspaces_AssociateIpGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-WKSIpGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan Grup IP yang ditentukan dengan Direktori yang ditentukan**  

```
Register-WKSIpGroup -GroupId wsipg-23ahsdres -DirectoryId d-123412e123
```
+  Untuk detail API, lihat [AssociateIpGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Register-WKSWorkspaceDirectory`
<a name="workspaces_RegisterWorkspaceDirectory_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Register-WKSWorkspaceDirectory`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini mendaftarkan direktori yang ditentukan untuk Workspaces Service**  

```
Register-WKSWorkspaceDirectory -DirectoryId d-123412a123 -EnableWorkDoc $false
```
+  Untuk detail API, lihat [RegisterWorkspaceDirectory](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-WKSIpGroup`
<a name="workspaces_DeleteIpGroup_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-WKSIpGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Sampel ini menghapus Grup IP yang ditentukan**  

```
Remove-WKSIpGroup -GroupId wsipg-32fhgtred
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-WKSIpGroup (DeleteIpGroup)" on target "wsipg-32fhgtred".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteIpGroup](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-WKSTag`
<a name="workspaces_DeleteTags_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-WKSTag`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini menghapus tag yang terkait dengan Workspace**  

```
Remove-WKSTag -ResourceId ws-w10b3abcd -TagKey "Type"
```
**Output:**  

```
Confirm
Are you sure you want to perform this action?
Performing the operation "Remove-WKSTag (DeleteTags)" on target "ws-w10b3abcd".
[Y] Yes  [A] Yes to All  [N] No  [L] No to All  [S] Suspend  [?] Help (default is "Y"): Y
```
+  Untuk detail API, lihat [DeleteTags](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Remove-WKSWorkspace`
<a name="workspaces_TerminateWorkspaces_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Remove-WKSWorkspace`.

**Alat untuk PowerShell V5**  
**Contoh 1: Mengakhiri beberapa WorkSpaces. penggunaan sakelar -Force menghentikan cmdlet agar tidak meminta konfirmasi.**  

```
Remove-WKSWorkspace -WorkspaceId "ws-1a2b3c4d5","ws-6a7b8c9d0" -Force
```
**Contoh 2: Mengambil koleksi semua Anda WorkSpaces dan pipa IDs ke - WorkSpaceId parameter Remove-WKSWorkspace, mengakhiri semua. WorkSpaces Cmdlet akan meminta sebelum masing-masing WorkSpace dihentikan. Untuk menekan prompt konfirmasi tambahkan sakelar -Force.**  

```
Get-WKSWorkspaces | Remove-WKSWorkspace
```
**Contoh 3: Contoh ini menunjukkan cara meneruskan TerminateRequest objek yang mendefinisikan WorkSpaces yang akan dihentikan. Cmdlet akan meminta konfirmasi sebelum melanjutkan, kecuali parameter sakelar -Force juga ditentukan.**  

```
$arrRequest = @()
$request1 = New-Object Amazon.WorkSpaces.Model.TerminateRequest
$request1.WorkspaceId = 'ws-12345678'
$arrRequest += $request1
$request2 = New-Object Amazon.WorkSpaces.Model.TerminateRequest
$request2.WorkspaceId = 'ws-abcdefgh'
$arrRequest += $request2
Remove-WKSWorkspace -Request $arrRequest
```
+  Untuk detail API, lihat [TerminateWorkspaces](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Reset-WKSWorkspace`
<a name="workspaces_RebuildWorkspaces_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Reset-WKSWorkspace`.

**Alat untuk PowerShell V5**  
**Contoh 1: Membangun kembali yang ditentukan. WorkSpace**  

```
Reset-WKSWorkspace -WorkspaceId "ws-1a2b3c4d"
```
**Contoh 2: Mengambil koleksi semua Anda WorkSpaces dan pipa IDs ke - WorkSpaceId parameter Reset-WKSWorkspace, menyebabkan yang akan WorkSpaces dibangun kembali.**  

```
Get-WKSWorkspaces | Reset-WKSWorkspace
```
+  Untuk detail API, lihat [RebuildWorkspaces](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Restart-WKSWorkspace`
<a name="workspaces_RebootWorkspaces_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Restart-WKSWorkspace`.

**Alat untuk PowerShell V5**  
**Contoh 1: Reboot yang ditentukan WorkSpace.**  

```
Restart-WKSWorkspace -WorkspaceId "ws-1a2b3c4d"
```
**Contoh 2: Reboot beberapa WorkSpaces.**  

```
Restart-WKSWorkspace -WorkspaceId "ws-1a2b3c4d","ws-5a6b7c8d"
```
**Contoh 3: Mengambil koleksi semua Anda WorkSpaces dan pipa IDs ke - WorkSpaceId parameter Restart-WKSWorkspace, menyebabkan restart. WorkSpaces **  

```
Get-WKSWorkspaces | Restart-WKSWorkspace
```
+  Untuk detail API, lihat [RebootWorkspaces](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Stop-WKSWorkspace`
<a name="workspaces_StopWorkspaces_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Stop-WKSWorkspace`.

**Alat untuk PowerShell V5**  
**Contoh 1: Menghentikan beberapa WorkSpaces.**  

```
Stop-WKSWorkspace -WorkspaceId "ws-1a2b3c4d5","ws-6a7b8c9d0"
```
**Contoh 2: Mengambil koleksi semua Anda WorkSpaces dan pipa IDs ke - WorkSpaceId parameter Stop- WKSWorkspace WorkSpaces menyebabkan dihentikan.**  

```
Get-WKSWorkspaces | Stop-WKSWorkspace
```
**Contoh 3: Contoh ini menunjukkan cara melewati StopRequest objek yang mendefinisikan WorkSpaces yang akan dihentikan.**  

```
$arrRequest = @()
$request1 = New-Object Amazon.WorkSpaces.Model.StopRequest
$request1.WorkspaceId = 'ws-12345678'
$arrRequest += $request1
$request2 = New-Object Amazon.WorkSpaces.Model.StopRequest
$request2.WorkspaceId = 'ws-abcdefgh'
$arrRequest += $request2
Stop-WKSWorkspace -Request $arrRequest
```
+  Untuk detail API, lihat [StopWorkspaces](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

### `Unregister-WKSIpGroup`
<a name="workspaces_DisassociateIpGroups_powershell_5_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unregister-WKSIpGroup`.

**Alat untuk PowerShell V5**  
**Contoh 1: Contoh ini membatalkan registrasi Grup IP yang ditentukan dari Direktori yang ditentukan**  

```
Unregister-WKSIpGroup -GroupId wsipg-12abcdphq -DirectoryId d-123454b123
```
+  Untuk detail API, lihat [DisassociateIpGroups](https://docs.aws.amazon.com/powershell/v5/reference)di *Referensi Alat AWS untuk PowerShell Cmdlet (V5)*. 

# Contoh kode untuk SDK untuk Python (Boto3)
<a name="python_3_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) with AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  Panduan Pengembang **[SDK for Python (Boto3) - Lebih lanjut tentang menggunakan Python](https://boto3.amazonaws.com/v1/documentation/api/latest/guide/quickstart.html)** dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23python)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [ACM](python_3_acm_code_examples.md)
+ [API Gateway](python_3_api-gateway_code_examples.md)
+ [Pengontrol Pemulihan Aplikasi](python_3_route53-recovery-cluster_code_examples.md)
+ [Audit Manager](python_3_auditmanager_code_examples.md)
+ [Aurora](python_3_aurora_code_examples.md)
+ [Auto Scaling](python_3_auto-scaling_code_examples.md)
+ [Amazon Bedrock](python_3_bedrock_code_examples.md)
+ [Runtime Amazon Bedrock](python_3_bedrock-runtime_code_examples.md)
+ [Agen Batuan Dasar Amazon](python_3_bedrock-agent_code_examples.md)
+ [Runtime Agen Batuan Dasar Amazon](python_3_bedrock-agent-runtime_code_examples.md)
+ [CloudFormation](python_3_cloudformation_code_examples.md)
+ [CloudFront](python_3_cloudfront_code_examples.md)
+ [CloudWatch](python_3_cloudwatch_code_examples.md)
+ [CloudWatch Log](python_3_cloudwatch-logs_code_examples.md)
+ [Identitas Amazon Cognito](python_3_cognito-identity_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](python_3_cognito-identity-provider_code_examples.md)
+ [Amazon Comprehend](python_3_comprehend_code_examples.md)
+ [AWS Config](python_3_config-service_code_examples.md)
+ [AWS Control Tower](python_3_controltower_code_examples.md)
+ [Firehose](python_3_firehose_code_examples.md)
+ [Device Farm](python_3_device-farm_code_examples.md)
+ [Amazon DocumentDB](python_3_docdb_code_examples.md)
+ [DynamoDB](python_3_dynamodb_code_examples.md)
+ [Amazon EC2](python_3_ec2_code_examples.md)
+ [Amazon ECR](python_3_ecr_code_examples.md)
+ [Elastic Load Balancing - Versi 2](python_3_elastic-load-balancing-v2_code_examples.md)
+ [Amazon EMR](python_3_emr_code_examples.md)
+ [EventBridge](python_3_eventbridge_code_examples.md)
+ [EventBridge Penjadwal](python_3_scheduler_code_examples.md)
+ [Amazon Glacier](python_3_glacier_code_examples.md)
+ [AWS Glue](python_3_glue_code_examples.md)
+ [HealthImaging](python_3_medical-imaging_code_examples.md)
+ [HealthLake](python_3_healthlake_code_examples.md)
+ [IAM](python_3_iam_code_examples.md)
+ [AWS IoT](python_3_iot_code_examples.md)
+ [AWS IoT data](python_3_iot-data-plane_code_examples.md)
+ [AWS IoT SiteWise](python_3_iotsitewise_code_examples.md)
+ [Amazon Keyspaces](python_3_keyspaces_code_examples.md)
+ [Kinesis](python_3_kinesis_code_examples.md)
+ [AWS KMS](python_3_kms_code_examples.md)
+ [Lambda](python_3_lambda_code_examples.md)
+ [Layanan Terkelola untuk Apache Flink](python_3_kinesis-analytics-v2_code_examples.md)
+ [AWS Marketplace API Katalog](python_3_marketplace-catalog_code_examples.md)
+ [AWS Marketplace API Perjanjian](python_3_marketplace-agreement_code_examples.md)
+ [Amazon MSK](python_3_kafka_code_examples.md)
+ [Neptune](python_3_neptune_code_examples.md)
+ [Organizations](python_3_organizations_code_examples.md)
+ [Pusat Partner](python_3_partnercentral-selling_code_examples.md)
+ [Amazon Pinpoint](python_3_pinpoint_code_examples.md)
+ [API SMS dan Suara Amazon Pinpoint](python_3_pinpoint-sms-voice_code_examples.md)
+ [Amazon Polly](python_3_polly_code_examples.md)
+ [Amazon RDS](python_3_rds_code_examples.md)
+ [Layanan Data Amazon RDS](python_3_rds-data_code_examples.md)
+ [Amazon Redshift](python_3_redshift_code_examples.md)
+ [Amazon Rekognition](python_3_rekognition_code_examples.md)
+ [Amazon S3](python_3_s3_code_examples.md)
+ [Kontrol Amazon S3](python_3_s3-control_code_examples.md)
+ [Ember Direktori S3](python_3_s3-directory-buckets_code_examples.md)
+ [Secrets Manager](python_3_secrets-manager_code_examples.md)
+ [Amazon SES](python_3_ses_code_examples.md)
+ [Amazon SES API v2](python_3_sesv2_code_examples.md)
+ [Amazon SNS](python_3_sns_code_examples.md)
+ [Amazon SQS](python_3_sqs_code_examples.md)
+ [Step Functions](python_3_sfn_code_examples.md)
+ [AWS STS](python_3_sts_code_examples.md)
+ [Dukungan](python_3_support_code_examples.md)
+ [Systems Manager](python_3_ssm_code_examples.md)
+ [Amazon Textract](python_3_textract_code_examples.md)
+ [Amazon Transcribe](python_3_transcribe_code_examples.md)

# Contoh ACM menggunakan SDK for Python (Boto3)
<a name="python_3_acm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan ACM AWS SDK untuk Python (Boto3) with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="acm_Usage_ImportListRemove_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Minta sertifikat dari ACM.
+ Impor sertifikat yang ditandatangani sendiri.
+ Daftar dan jelaskan sertifikat.
+ Hapus sertifikat.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 
Buat kelas yang membungkus operasi ACM.  

```
import logging
from pprint import pprint

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def request_validation(
        self, domain, alternate_domains, method, validation_domains=None
    ):
        """
        Starts a validation request that results in a new certificate being issued
        by ACM. DNS validation requires that you add CNAME records to your DNS
        provider. Email validation sends email to a list of email addresses that
        are associated with the domain.

        For more information, see _Issuing and managing certificates_ in the ACM
        user guide.
            https://docs.aws.amazon.com/acm/latest/userguide/gs.html

        :param domain: The primary domain to associate with the certificate.
        :param alternate_domains: Subject Alternate Names (SANs) for the certificate.
        :param method: The validation method, either DNS or EMAIL.
        :param validation_domains: Alternate domains to use for email validation, when
                                   the email domain differs from the primary domain of
                                   the certificate.
        :return: The ARN of the requested certificate.
        """
        try:
            kwargs = {
                "DomainName": domain,
                "ValidationMethod": method,
                "SubjectAlternativeNames": alternate_domains,
            }
            if validation_domains is not None:
                kwargs["DomainValidationOptions"] = [
                    {"DomainName": key, "ValidationDomain": value}
                    for key, value in validation_domains.items()
                ]
            response = self.acm_client.request_certificate(**kwargs)
            certificate_arn = response["CertificateArn"]
            logger.info(
                "Requested %s validation for domain %s. Certificate ARN is %s.",
                method,
                domain,
                certificate_arn,
            )
        except ClientError:
            logger.exception(
                "Request for %s validation of domain %s failed.", method, domain
            )
            raise
        else:
            return certificate_arn


    def import_certificate(self, certificate_body, private_key):
        """
        Imports a self-signed certificate to ACM.

        :param certificate_body: The body of the certificate, in PEM format.
        :param private_key: The unencrypted private key of the certificate, in PEM
                            format.
        :return: The ARN of the imported certificate.
        """
        try:
            response = self.acm_client.import_certificate(
                Certificate=certificate_body, PrivateKey=private_key
            )
            certificate_arn = response["CertificateArn"]
            logger.info("Imported certificate.")
        except ClientError:
            logger.exception("Couldn't import certificate.")
            raise
        else:
            return certificate_arn


    def list(
        self,
        max_items,
        statuses=None,
        key_usage=None,
        extended_key_usage=None,
        key_types=None,
    ):
        """
        Lists the certificates for the current account.

        :param max_items: The maximum number of certificates to list.
        :param statuses: Filters the results to the specified statuses. If None, all
                         certificates are included.
        :param key_usage: Filters the results to the specified key usages. If None,
                          all key usages are included.
        :param extended_key_usage: Filters the results to the specified extended key
                                   usages. If None, all extended key usages are
                                   included.
        :param key_types: Filters the results to the specified key types. If None, all
                          key types are included.
        :return: The list of certificates.
        """
        try:
            kwargs = {"MaxItems": max_items}
            if statuses is not None:
                kwargs["CertificateStatuses"] = statuses
            includes = {}
            if key_usage is not None:
                includes["keyUsage"] = key_usage
            if extended_key_usage is not None:
                includes["extendedKeyUsage"] = extended_key_usage
            if key_types is not None:
                includes["keyTypes"] = key_types
            if includes:
                kwargs["Includes"] = includes
            response = self.acm_client.list_certificates(**kwargs)
            certificates = response["CertificateSummaryList"]
            logger.info("Got %s certificates.", len(certificates))
        except ClientError:
            logger.exception("Couldn't get certificates.")
            raise
        else:
            return certificates


    def describe(self, certificate_arn):
        """
        Gets certificate metadata.

        :param certificate_arn: The Amazon Resource Name (ARN) of the certificate.
        :return: Metadata about the certificate.
        """
        try:
            response = self.acm_client.describe_certificate(
                CertificateArn=certificate_arn
            )
            certificate = response["Certificate"]
            logger.info(
                "Got metadata for certificate for domain %s.", certificate["DomainName"]
            )
        except ClientError:
            logger.exception("Couldn't get data for certificate %s.", certificate_arn)
            raise
        else:
            return certificate


    def get(self, certificate_arn):
        """
        Gets the body and certificate chain of a certificate.

        :param certificate_arn: The ARN of the certificate.
        :return: The body and chain of a certificate.
        """
        try:
            response = self.acm_client.get_certificate(CertificateArn=certificate_arn)
            logger.info("Got certificate %s and its chain.", certificate_arn)
        except ClientError:
            logger.exception("Couldn't get certificate %s.", certificate_arn)
            raise
        else:
            return response


    def add_tags(self, certificate_arn, tags):
        """
        Adds tags to a certificate. Tags are key-value pairs that contain custom
        metadata.

        :param certificate_arn: The ARN of the certificate.
        :param tags: A dictionary of key-value tags to add to the certificate.
        """
        try:
            self.acm_client.add_tags_to_certificate(
                CertificateArn=certificate_arn,
                Tags=[{"Key": key, "Value": value} for key, value in tags.items()],
            )
            logger.info("Added %s tags to certificate %s.", len(tags), certificate_arn)
        except ClientError:
            logger.exception("Couldn't add tags to certificate %s.", certificate_arn)
            raise


    def list_tags(self, certificate_arn):
        """
        Lists the tags attached to a certificate.

        :param certificate_arn: The ARN of the certificate.
        :return: The dictionary of certificate tags.
        """
        try:
            response = self.acm_client.list_tags_for_certificate(
                CertificateArn=certificate_arn
            )
            tags = {tag["Key"]: tag["Value"] for tag in response["Tags"]}
            logger.info("Got %s tags for certificates %s.", len(tags), certificate_arn)
        except ClientError:
            logger.exception("Couldn't get tags for certificate %s.", certificate_arn)
            raise
        else:
            return tags


    def remove_tags(self, certificate_arn, tags):
        """
        Removes tags from a certificate. If the value of a tag is specified, the tag is
        removed only when the value matches the value of the certificate's tag.
        Otherwise, the tag is removed regardless of its value.

        :param certificate_arn: The ARN of the certificate.
        :param tags: The dictionary of tags to remove.
        """
        try:
            cert_tags = []
            for key, value in tags.items():
                tag = {"Key": key}
                if value is not None:
                    tag["Value"] = value
                cert_tags.append(tag)
            self.acm_client.remove_tags_from_certificate(
                CertificateArn=certificate_arn, Tags=cert_tags
            )
            logger.info(
                "Removed %s tags from certificate %s.", len(tags), certificate_arn
            )
        except ClientError:
            logger.exception(
                "Couldn't remove tags from certificate %s.", certificate_arn
            )
            raise


    def remove(self, certificate_arn):
        """
        Removes a certificate.

        :param certificate_arn: The ARN of the certificate to remove.
        """
        try:
            self.acm_client.delete_certificate(CertificateArn=certificate_arn)
            logger.info("Removed certificate %s.", certificate_arn)
        except ClientError:
            logger.exception("Couldn't remove certificate %s.", certificate_arn)
            raise
```
Gunakan kelas pembungkus untuk mengelola sertifikat untuk akun Anda.  

```
def usage_demo():
    print("-" * 88)
    print("Welcome to the AWS Certificate Manager (ACM) demo!")
    print("-" * 88)

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    acm_certificate = AcmCertificate(boto3.client("acm"))
    domain = "example.com"
    sub_domains = [f"{sub}.{domain}" for sub in ["test", "dev"]]
    print(f"Request a certificate for {domain}.")
    certificate_arn = acm_certificate.request_validation(domain, sub_domains, "DNS")
    print(f"Started validation, got certificate ARN: {certificate_arn}.")

    import_cert_arn = None
    cert_file_name = input(
        "Enter the file name for a self-signed certificate in PEM format. "
        "This certificate will be imported to ACM. Press Enter to skip: "
    )
    if cert_file_name:
        pk_file_name = input(
            "Enter the file name for the unencrypted private key of the certificate. "
            "This file must also be in PEM format: "
        )
        if pk_file_name:
            with open(cert_file_name, "rb") as cert_file:
                import_cert = cert_file.read()
            with open(pk_file_name, "rb") as pk_file:
                import_pk = pk_file.read()
            import_cert_arn = acm_certificate.import_certificate(import_cert, import_pk)
            print(f"Certificate imported, got ARN: {import_cert_arn}")
        else:
            print("No private key file entered. Skipping certificate import.")
    else:
        print("Skipping self-signed certificate import.")

    print("Getting the first 10 issued certificates.")
    certificates = acm_certificate.list(10, statuses=["ISSUED"])
    print(f"Found {len(certificates)} issued certificates.")

    print(f"Getting metadata for certificate {certificate_arn}")
    cert_metadata = acm_certificate.describe(certificate_arn)
    pprint(cert_metadata)

    if import_cert_arn is not None:
        print(f"Getting certificate for imported certificate {import_cert_arn}")
        import_cert_data = acm_certificate.get(import_cert_arn)
        pprint(import_cert_data)

    print(f"Adding tags to certificate {certificate_arn}.")
    acm_certificate.add_tags(certificate_arn, {"purpose": "acm demo", "color": "green"})
    tags = acm_certificate.list_tags(certificate_arn)
    print(f"Found tags: {tags}")
    acm_certificate.remove_tags(certificate_arn, {key: None for key in tags})
    print("Removed tags.")

    print("Removing certificates added during the demo.")
    acm_certificate.remove(certificate_arn)
    if import_cert_arn is not None:
        acm_certificate.remove(import_cert_arn)

    print("Thanks for watching!")
    print("-" * 88)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [AddTagsToCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/AddTagsToCertificate)
  + [DeleteCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/DeleteCertificate)
  + [DescribeCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/DescribeCertificate)
  + [GetCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/GetCertificate)
  + [ImportCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/ImportCertificate)
  + [ListCertificates](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/ListCertificates)
  + [ListTagsForCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/ListTagsForCertificate)
  + [RemoveTagsFromCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/RemoveTagsFromCertificate)
  + [RequestCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/RequestCertificate)
  + [ResendValidationEmail](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/ResendValidationEmail)

## Tindakan
<a name="actions"></a>

### `AddTagsToCertificate`
<a name="acm_AddTagsToCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddTagsToCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def add_tags(self, certificate_arn, tags):
        """
        Adds tags to a certificate. Tags are key-value pairs that contain custom
        metadata.

        :param certificate_arn: The ARN of the certificate.
        :param tags: A dictionary of key-value tags to add to the certificate.
        """
        try:
            self.acm_client.add_tags_to_certificate(
                CertificateArn=certificate_arn,
                Tags=[{"Key": key, "Value": value} for key, value in tags.items()],
            )
            logger.info("Added %s tags to certificate %s.", len(tags), certificate_arn)
        except ClientError:
            logger.exception("Couldn't add tags to certificate %s.", certificate_arn)
            raise
```
+  Untuk detail API, lihat [AddTagsToCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/AddTagsToCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteCertificate`
<a name="acm_DeleteCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def remove(self, certificate_arn):
        """
        Removes a certificate.

        :param certificate_arn: The ARN of the certificate to remove.
        """
        try:
            self.acm_client.delete_certificate(CertificateArn=certificate_arn)
            logger.info("Removed certificate %s.", certificate_arn)
        except ClientError:
            logger.exception("Couldn't remove certificate %s.", certificate_arn)
            raise
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/DeleteCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeCertificate`
<a name="acm_DescribeCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def describe(self, certificate_arn):
        """
        Gets certificate metadata.

        :param certificate_arn: The Amazon Resource Name (ARN) of the certificate.
        :return: Metadata about the certificate.
        """
        try:
            response = self.acm_client.describe_certificate(
                CertificateArn=certificate_arn
            )
            certificate = response["Certificate"]
            logger.info(
                "Got metadata for certificate for domain %s.", certificate["DomainName"]
            )
        except ClientError:
            logger.exception("Couldn't get data for certificate %s.", certificate_arn)
            raise
        else:
            return certificate
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/DescribeCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetCertificate`
<a name="acm_GetCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def get(self, certificate_arn):
        """
        Gets the body and certificate chain of a certificate.

        :param certificate_arn: The ARN of the certificate.
        :return: The body and chain of a certificate.
        """
        try:
            response = self.acm_client.get_certificate(CertificateArn=certificate_arn)
            logger.info("Got certificate %s and its chain.", certificate_arn)
        except ClientError:
            logger.exception("Couldn't get certificate %s.", certificate_arn)
            raise
        else:
            return response
```
+  Untuk detail API, lihat [GetCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/GetCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ImportCertificate`
<a name="acm_ImportCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ImportCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def import_certificate(self, certificate_body, private_key):
        """
        Imports a self-signed certificate to ACM.

        :param certificate_body: The body of the certificate, in PEM format.
        :param private_key: The unencrypted private key of the certificate, in PEM
                            format.
        :return: The ARN of the imported certificate.
        """
        try:
            response = self.acm_client.import_certificate(
                Certificate=certificate_body, PrivateKey=private_key
            )
            certificate_arn = response["CertificateArn"]
            logger.info("Imported certificate.")
        except ClientError:
            logger.exception("Couldn't import certificate.")
            raise
        else:
            return certificate_arn
```
+  Untuk detail API, lihat [ImportCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/ImportCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListCertificates`
<a name="acm_ListCertificates_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def list(
        self,
        max_items,
        statuses=None,
        key_usage=None,
        extended_key_usage=None,
        key_types=None,
    ):
        """
        Lists the certificates for the current account.

        :param max_items: The maximum number of certificates to list.
        :param statuses: Filters the results to the specified statuses. If None, all
                         certificates are included.
        :param key_usage: Filters the results to the specified key usages. If None,
                          all key usages are included.
        :param extended_key_usage: Filters the results to the specified extended key
                                   usages. If None, all extended key usages are
                                   included.
        :param key_types: Filters the results to the specified key types. If None, all
                          key types are included.
        :return: The list of certificates.
        """
        try:
            kwargs = {"MaxItems": max_items}
            if statuses is not None:
                kwargs["CertificateStatuses"] = statuses
            includes = {}
            if key_usage is not None:
                includes["keyUsage"] = key_usage
            if extended_key_usage is not None:
                includes["extendedKeyUsage"] = extended_key_usage
            if key_types is not None:
                includes["keyTypes"] = key_types
            if includes:
                kwargs["Includes"] = includes
            response = self.acm_client.list_certificates(**kwargs)
            certificates = response["CertificateSummaryList"]
            logger.info("Got %s certificates.", len(certificates))
        except ClientError:
            logger.exception("Couldn't get certificates.")
            raise
        else:
            return certificates
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/ListCertificates)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListTagsForCertificate`
<a name="acm_ListTagsForCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def list_tags(self, certificate_arn):
        """
        Lists the tags attached to a certificate.

        :param certificate_arn: The ARN of the certificate.
        :return: The dictionary of certificate tags.
        """
        try:
            response = self.acm_client.list_tags_for_certificate(
                CertificateArn=certificate_arn
            )
            tags = {tag["Key"]: tag["Value"] for tag in response["Tags"]}
            logger.info("Got %s tags for certificates %s.", len(tags), certificate_arn)
        except ClientError:
            logger.exception("Couldn't get tags for certificate %s.", certificate_arn)
            raise
        else:
            return tags
```
+  Untuk detail API, lihat [ListTagsForCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/ListTagsForCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RemoveTagsFromCertificate`
<a name="acm_RemoveTagsFromCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RemoveTagsFromCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def remove_tags(self, certificate_arn, tags):
        """
        Removes tags from a certificate. If the value of a tag is specified, the tag is
        removed only when the value matches the value of the certificate's tag.
        Otherwise, the tag is removed regardless of its value.

        :param certificate_arn: The ARN of the certificate.
        :param tags: The dictionary of tags to remove.
        """
        try:
            cert_tags = []
            for key, value in tags.items():
                tag = {"Key": key}
                if value is not None:
                    tag["Value"] = value
                cert_tags.append(tag)
            self.acm_client.remove_tags_from_certificate(
                CertificateArn=certificate_arn, Tags=cert_tags
            )
            logger.info(
                "Removed %s tags from certificate %s.", len(tags), certificate_arn
            )
        except ClientError:
            logger.exception(
                "Couldn't remove tags from certificate %s.", certificate_arn
            )
            raise
```
+  Untuk detail API, lihat [RemoveTagsFromCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/RemoveTagsFromCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RequestCertificate`
<a name="acm_RequestCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RequestCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def request_validation(
        self, domain, alternate_domains, method, validation_domains=None
    ):
        """
        Starts a validation request that results in a new certificate being issued
        by ACM. DNS validation requires that you add CNAME records to your DNS
        provider. Email validation sends email to a list of email addresses that
        are associated with the domain.

        For more information, see _Issuing and managing certificates_ in the ACM
        user guide.
            https://docs.aws.amazon.com/acm/latest/userguide/gs.html

        :param domain: The primary domain to associate with the certificate.
        :param alternate_domains: Subject Alternate Names (SANs) for the certificate.
        :param method: The validation method, either DNS or EMAIL.
        :param validation_domains: Alternate domains to use for email validation, when
                                   the email domain differs from the primary domain of
                                   the certificate.
        :return: The ARN of the requested certificate.
        """
        try:
            kwargs = {
                "DomainName": domain,
                "ValidationMethod": method,
                "SubjectAlternativeNames": alternate_domains,
            }
            if validation_domains is not None:
                kwargs["DomainValidationOptions"] = [
                    {"DomainName": key, "ValidationDomain": value}
                    for key, value in validation_domains.items()
                ]
            response = self.acm_client.request_certificate(**kwargs)
            certificate_arn = response["CertificateArn"]
            logger.info(
                "Requested %s validation for domain %s. Certificate ARN is %s.",
                method,
                domain,
                certificate_arn,
            )
        except ClientError:
            logger.exception(
                "Request for %s validation of domain %s failed.", method, domain
            )
            raise
        else:
            return certificate_arn
```
+  Untuk detail API, lihat [RequestCertificate](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/RequestCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ResendValidationEmail`
<a name="acm_ResendValidationEmail_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendValidationEmail`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/acm#code-examples). 

```
class AcmCertificate:
    """
    Encapsulates ACM functions.
    """

    def __init__(self, acm_client):
        """
        :param acm_client: A Boto3 ACM client.
        """
        self.acm_client = acm_client


    def resend_validation_email(self, certificate_arn, domain, validation_domain):
        """
        Request that validation email is sent again, for a certificate that was
        previously requested with email validation.

        :param certificate_arn: The ARN of the certificate.
        :param domain: The primary domain of the certificate.
        :param validation_domain: Alternate domain to use for determining email
                                  addresses to use for validation.
        """
        try:
            self.acm_client.resend_validation_email(
                CertificateArn=certificate_arn,
                Domain=domain,
                ValidationDomain=validation_domain,
            )
            logger.info(
                "Validation email resent to validation domain %s.", validation_domain
            )
        except ClientError:
            logger.exception(
                "Couldn't resend validation email to %s.", validation_domain
            )
            raise
```
+  Untuk detail API, lihat [ResendValidationEmail](https://docs.aws.amazon.com/goto/boto3/acm-2015-12-08/ResendValidationEmail)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh API Gateway menggunakan SDK for Python (Boto3)
<a name="python_3_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan API Gateway AWS SDK untuk Python (Boto3) with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateDeployment`
<a name="api-gateway_CreateDeployment_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDeployment`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def deploy_api(self, stage_name):
        """
        Deploys a REST API. After a REST API is deployed, it can be called from any
        REST client, such as the Python Requests package or Postman.

        :param stage_name: The stage of the API to deploy, such as 'test'.
        :return: The base URL of the deployed REST API.
        """
        try:
            self.apig_client.create_deployment(
                restApiId=self.api_id, stageName=stage_name
            )
            self.stage = stage_name
            logger.info("Deployed stage %s.", stage_name)
        except ClientError:
            logger.exception("Couldn't deploy stage %s.", stage_name)
            raise
        else:
            return self.api_url()



    def api_url(self, resource=None):
        """
        Builds the REST API URL from its parts.

        :param resource: The resource path to append to the base URL.
        :return: The REST URL to the specified resource.
        """
        url = (
            f"https://{self.api_id}.execute-api.{self.apig_client.meta.region_name}"
            f".amazonaws.com/{self.stage}"
        )
        if resource is not None:
            url = f"{url}/{resource}"
        return url
```
+  Untuk detail API, lihat [CreateDeployment](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/CreateDeployment)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateResource`
<a name="api-gateway_CreateResource_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateResource`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def add_rest_resource(self, parent_id, resource_path):
        """
        Adds a resource to a REST API.

        :param parent_id: The ID of the parent resource.
        :param resource_path: The path of the new resource, relative to the parent.
        :return: The ID of the new resource.
        """
        try:
            result = self.apig_client.create_resource(
                restApiId=self.api_id, parentId=parent_id, pathPart=resource_path
            )
            resource_id = result["id"]
            logger.info("Created resource %s.", resource_path)
        except ClientError:
            logger.exception("Couldn't create resource %s.", resource_path)
            raise
        else:
            return resource_id
```
+  Untuk detail API, lihat [CreateResource](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/CreateResource)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateRestApi`
<a name="api-gateway_CreateRestApi_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRestApi`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def create_rest_api(self, api_name):
        """
        Creates a REST API on API Gateway. The default API has only a root resource
        and no HTTP methods.

        :param api_name: The name of the API. This descriptive name is not used in
                         the API path.
        :return: The ID of the newly created API.
        """
        try:
            result = self.apig_client.create_rest_api(name=api_name)
            self.api_id = result["id"]
            logger.info("Created REST API %s with ID %s.", api_name, self.api_id)
        except ClientError:
            logger.exception("Couldn't create REST API %s.", api_name)
            raise

        try:
            result = self.apig_client.get_resources(restApiId=self.api_id)
            self.root_id = next(
                item for item in result["items"] if item["path"] == "/"
            )["id"]
        except ClientError:
            logger.exception("Couldn't get resources for API %s.", self.api_id)
            raise
        except StopIteration as err:
            logger.exception("No root resource found in API %s.", self.api_id)
            raise ValueError from err

        return self.api_id
```
+  Untuk detail API, lihat [CreateRestApi](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/CreateRestApi)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteRestApi`
<a name="api-gateway_DeleteRestApi_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRestApi`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def delete_rest_api(self):
        """
        Deletes a REST API, including all of its resources and configuration.
        """
        try:
            self.apig_client.delete_rest_api(restApiId=self.api_id)
            logger.info("Deleted REST API %s.", self.api_id)
            self.api_id = None
        except ClientError:
            logger.exception("Couldn't delete REST API %s.", self.api_id)
            raise
```
+  Untuk detail API, lihat [DeleteRestApi](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/DeleteRestApi)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetResources`
<a name="api-gateway_GetResources_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetResources`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def create_rest_api(self, api_name):
        """
        Creates a REST API on API Gateway. The default API has only a root resource
        and no HTTP methods.

        :param api_name: The name of the API. This descriptive name is not used in
                         the API path.
        :return: The ID of the newly created API.
        """
        try:
            result = self.apig_client.create_rest_api(name=api_name)
            self.api_id = result["id"]
            logger.info("Created REST API %s with ID %s.", api_name, self.api_id)
        except ClientError:
            logger.exception("Couldn't create REST API %s.", api_name)
            raise

        try:
            result = self.apig_client.get_resources(restApiId=self.api_id)
            self.root_id = next(
                item for item in result["items"] if item["path"] == "/"
            )["id"]
        except ClientError:
            logger.exception("Couldn't get resources for API %s.", self.api_id)
            raise
        except StopIteration as err:
            logger.exception("No root resource found in API %s.", self.api_id)
            raise ValueError from err

        return self.api_id
```
+  Untuk detail API, lihat [GetResources](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/GetResources)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetRestApis`
<a name="api-gateway_GetRestApis_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRestApis`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def get_rest_api_id(self, api_name):
        """
        Gets the ID of a REST API from its name by searching the list of REST APIs
        for the current account. Because names need not be unique, this returns only
        the first API with the specified name.

        :param api_name: The name of the API to look up.
        :return: The ID of the specified API.
        """
        try:
            rest_api = None
            paginator = self.apig_client.get_paginator("get_rest_apis")
            for page in paginator.paginate():
                rest_api = next(
                    (item for item in page["items"] if item["name"] == api_name), None
                )
                if rest_api is not None:
                    break
            self.api_id = rest_api["id"]
            logger.info("Found ID %s for API %s.", rest_api["id"], api_name)
        except ClientError:
            logger.exception("Couldn't find ID for API %s.", api_name)
            raise
        else:
            return rest_api["id"]
```
+  Untuk detail API, lihat [GetRestApis](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/GetRestApis)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutIntegration`
<a name="api-gateway_PutIntegration_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutIntegration`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def add_integration_method(
        self,
        resource_id,
        rest_method,
        service_endpoint_prefix,
        service_action,
        service_method,
        role_arn,
        mapping_template,
    ):
        """
        Adds an integration method to a REST API. An integration method is a REST
        resource, such as '/users', and an HTTP verb, such as GET. The integration
        method is backed by an AWS service, such as Amazon DynamoDB.

        :param resource_id: The ID of the REST resource.
        :param rest_method: The HTTP verb used with the REST resource.
        :param service_endpoint_prefix: The service endpoint that is integrated with
                                        this method, such as 'dynamodb'.
        :param service_action: The action that is called on the service, such as
                               'GetItem'.
        :param service_method: The HTTP method of the service request, such as POST.
        :param role_arn: The Amazon Resource Name (ARN) of a role that grants API
                         Gateway permission to use the specified action with the
                         service.
        :param mapping_template: A mapping template that is used to translate REST
                                 elements, such as query parameters, to the request
                                 body format required by the service.
        """
        service_uri = (
            f"arn:aws:apigateway:{self.apig_client.meta.region_name}"
            f":{service_endpoint_prefix}:action/{service_action}"
        )
        try:
            self.apig_client.put_method(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                authorizationType="NONE",
            )
            self.apig_client.put_method_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseModels={"application/json": "Empty"},
            )
            logger.info("Created %s method for resource %s.", rest_method, resource_id)
        except ClientError:
            logger.exception(
                "Couldn't create %s method for resource %s.", rest_method, resource_id
            )
            raise

        try:
            self.apig_client.put_integration(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                type="AWS",
                integrationHttpMethod=service_method,
                credentials=role_arn,
                requestTemplates={"application/json": json.dumps(mapping_template)},
                uri=service_uri,
                passthroughBehavior="WHEN_NO_TEMPLATES",
            )
            self.apig_client.put_integration_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseTemplates={"application/json": ""},
            )
            logger.info(
                "Created integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
        except ClientError:
            logger.exception(
                "Couldn't create integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
            raise
```
+  Untuk detail API, lihat [PutIntegration](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/PutIntegration)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutIntegrationResponse`
<a name="api-gateway_PutIntegrationResponse_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutIntegrationResponse`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def add_integration_method(
        self,
        resource_id,
        rest_method,
        service_endpoint_prefix,
        service_action,
        service_method,
        role_arn,
        mapping_template,
    ):
        """
        Adds an integration method to a REST API. An integration method is a REST
        resource, such as '/users', and an HTTP verb, such as GET. The integration
        method is backed by an AWS service, such as Amazon DynamoDB.

        :param resource_id: The ID of the REST resource.
        :param rest_method: The HTTP verb used with the REST resource.
        :param service_endpoint_prefix: The service endpoint that is integrated with
                                        this method, such as 'dynamodb'.
        :param service_action: The action that is called on the service, such as
                               'GetItem'.
        :param service_method: The HTTP method of the service request, such as POST.
        :param role_arn: The Amazon Resource Name (ARN) of a role that grants API
                         Gateway permission to use the specified action with the
                         service.
        :param mapping_template: A mapping template that is used to translate REST
                                 elements, such as query parameters, to the request
                                 body format required by the service.
        """
        service_uri = (
            f"arn:aws:apigateway:{self.apig_client.meta.region_name}"
            f":{service_endpoint_prefix}:action/{service_action}"
        )
        try:
            self.apig_client.put_method(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                authorizationType="NONE",
            )
            self.apig_client.put_method_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseModels={"application/json": "Empty"},
            )
            logger.info("Created %s method for resource %s.", rest_method, resource_id)
        except ClientError:
            logger.exception(
                "Couldn't create %s method for resource %s.", rest_method, resource_id
            )
            raise

        try:
            self.apig_client.put_integration(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                type="AWS",
                integrationHttpMethod=service_method,
                credentials=role_arn,
                requestTemplates={"application/json": json.dumps(mapping_template)},
                uri=service_uri,
                passthroughBehavior="WHEN_NO_TEMPLATES",
            )
            self.apig_client.put_integration_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseTemplates={"application/json": ""},
            )
            logger.info(
                "Created integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
        except ClientError:
            logger.exception(
                "Couldn't create integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
            raise
```
+  Untuk detail API, lihat [PutIntegrationResponse](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/PutIntegrationResponse)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutMethod`
<a name="api-gateway_PutMethod_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMethod`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def add_integration_method(
        self,
        resource_id,
        rest_method,
        service_endpoint_prefix,
        service_action,
        service_method,
        role_arn,
        mapping_template,
    ):
        """
        Adds an integration method to a REST API. An integration method is a REST
        resource, such as '/users', and an HTTP verb, such as GET. The integration
        method is backed by an AWS service, such as Amazon DynamoDB.

        :param resource_id: The ID of the REST resource.
        :param rest_method: The HTTP verb used with the REST resource.
        :param service_endpoint_prefix: The service endpoint that is integrated with
                                        this method, such as 'dynamodb'.
        :param service_action: The action that is called on the service, such as
                               'GetItem'.
        :param service_method: The HTTP method of the service request, such as POST.
        :param role_arn: The Amazon Resource Name (ARN) of a role that grants API
                         Gateway permission to use the specified action with the
                         service.
        :param mapping_template: A mapping template that is used to translate REST
                                 elements, such as query parameters, to the request
                                 body format required by the service.
        """
        service_uri = (
            f"arn:aws:apigateway:{self.apig_client.meta.region_name}"
            f":{service_endpoint_prefix}:action/{service_action}"
        )
        try:
            self.apig_client.put_method(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                authorizationType="NONE",
            )
            self.apig_client.put_method_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseModels={"application/json": "Empty"},
            )
            logger.info("Created %s method for resource %s.", rest_method, resource_id)
        except ClientError:
            logger.exception(
                "Couldn't create %s method for resource %s.", rest_method, resource_id
            )
            raise

        try:
            self.apig_client.put_integration(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                type="AWS",
                integrationHttpMethod=service_method,
                credentials=role_arn,
                requestTemplates={"application/json": json.dumps(mapping_template)},
                uri=service_uri,
                passthroughBehavior="WHEN_NO_TEMPLATES",
            )
            self.apig_client.put_integration_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseTemplates={"application/json": ""},
            )
            logger.info(
                "Created integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
        except ClientError:
            logger.exception(
                "Couldn't create integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
            raise
```
+  Untuk detail API, lihat [PutMethod](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/PutMethod)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutMethodResponse`
<a name="api-gateway_PutMethodResponse_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMethodResponse`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 

```
class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def add_integration_method(
        self,
        resource_id,
        rest_method,
        service_endpoint_prefix,
        service_action,
        service_method,
        role_arn,
        mapping_template,
    ):
        """
        Adds an integration method to a REST API. An integration method is a REST
        resource, such as '/users', and an HTTP verb, such as GET. The integration
        method is backed by an AWS service, such as Amazon DynamoDB.

        :param resource_id: The ID of the REST resource.
        :param rest_method: The HTTP verb used with the REST resource.
        :param service_endpoint_prefix: The service endpoint that is integrated with
                                        this method, such as 'dynamodb'.
        :param service_action: The action that is called on the service, such as
                               'GetItem'.
        :param service_method: The HTTP method of the service request, such as POST.
        :param role_arn: The Amazon Resource Name (ARN) of a role that grants API
                         Gateway permission to use the specified action with the
                         service.
        :param mapping_template: A mapping template that is used to translate REST
                                 elements, such as query parameters, to the request
                                 body format required by the service.
        """
        service_uri = (
            f"arn:aws:apigateway:{self.apig_client.meta.region_name}"
            f":{service_endpoint_prefix}:action/{service_action}"
        )
        try:
            self.apig_client.put_method(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                authorizationType="NONE",
            )
            self.apig_client.put_method_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseModels={"application/json": "Empty"},
            )
            logger.info("Created %s method for resource %s.", rest_method, resource_id)
        except ClientError:
            logger.exception(
                "Couldn't create %s method for resource %s.", rest_method, resource_id
            )
            raise

        try:
            self.apig_client.put_integration(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                type="AWS",
                integrationHttpMethod=service_method,
                credentials=role_arn,
                requestTemplates={"application/json": json.dumps(mapping_template)},
                uri=service_uri,
                passthroughBehavior="WHEN_NO_TEMPLATES",
            )
            self.apig_client.put_integration_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseTemplates={"application/json": ""},
            )
            logger.info(
                "Created integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
        except ClientError:
            logger.exception(
                "Couldn't create integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
            raise
```
+  Untuk detail API, lihat [PutMethodResponse](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/PutMethodResponse)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat API REST untuk melacak data COVID-19
<a name="cross_ApiGatewayDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat API REST yang menyimulasikan sistem untuk melacak kasus COVID-19 harian di Amerika Serikat, menggunakan data fiksi.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS Chalice dengan membuat REST API tanpa server yang menggunakan Amazon API Gateway,, AWS Lambda dan Amazon DynamoDB. AWS SDK untuk Python (Boto3) API REST menyimulasikan sistem untuk melacak kasus COVID-19 harian di Amerika Serikat, menggunakan data fiksi. Pelajari cara:   
+ Gunakan AWS Chalice untuk menentukan rute dalam fungsi Lambda yang dipanggil untuk menangani permintaan REST yang datang melalui API Gateway.
+ Menggunakan fungsi Lambda untuk mengambil dan menyimpan data dalam tabel DynamoDB untuk melayani permintaan REST.
+ Tentukan struktur tabel dan sumber daya peran keamanan dalam AWS CloudFormation template.
+ Gunakan AWS Chalice dan CloudFormation untuk mengemas dan menyebarkan semua sumber daya yang diperlukan.
+ Gunakan CloudFormation untuk membersihkan semua sumber daya yang dibuat.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/apigateway_covid-19_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ CloudFormation
+ DynamoDB
+ Lambda

### Membuat API REST pustaka peminjaman
<a name="cross_AuroraRestLendingLibrary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pustaka peminjaman tempat pelanggan dapat meminjam dan mengembalikan buku dengan menggunakan API REST yang didukung oleh basis data Amazon Aurora.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan API Amazon Relational Database Service (Amazon RDS) dan AWS Chalice untuk membuat REST API yang didukung oleh database Amazon Aurora. AWS SDK untuk Python (Boto3) Layanan web sepenuhnya nirserver dan mewakili pustaka peminjaman sederhana tempat pelanggan dapat meminjam dan mengembalikan buku. Pelajari cara:   
+ Membuat dan mengelola klaster basis data Aurora nirserver.
+ Gunakan AWS Secrets Manager untuk mengelola kredensi database.
+ Menerapkan lapisan penyimpanan data yang menggunakan Amazon RDS untuk memindahkan data masuk dan keluar dari basis data.
+ Gunakan AWS Chalice untuk menerapkan REST API tanpa server ke Amazon API Gateway dan. AWS Lambda
+ Menggunakan paket Permintaan untuk mengirim permintaan ke layanan web.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/aurora_rest_lending_library).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ Aurora
+ Lambda
+ Secrets Manager

### Membuat aplikasi obrolan websocket
<a name="cross_ApiGatewayWebsocketChat_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi obrolan yang dilayani oleh API websocket yang dibangun di Amazon API Gateway.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) dengan Amazon API Gateway V2 untuk membuat API websocket yang terintegrasi dengan AWS Lambda dan Amazon DynamoDB.   
+ Buat API websocket yang dilayani oleh API Gateway.
+ Tentukan penangan Lambda yang menyimpan koneksi di DynamoDB dan memposting pesan ke peserta obrolan lainnya.
+ Hubungkan ke aplikasi obrolan websocket dan kirim pesan dengan paket Websocket.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/apigateway_websocket_chat).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

### Membuat dan menerapkan REST API
<a name="api-gateway_Usage_CreateDeployRest_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat REST API yang dilayani oleh API Gateway.
+ Tambahkan sumber daya ke REST API untuk mewakili profil pengguna.
+ Tambahkan metode integrasi sehingga REST API menggunakan tabel DynamoDB untuk menyimpan data profil pengguna.
+ Kirim permintaan HTTP ke REST API untuk menambah dan mengambil profil pengguna.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/api-gateway#code-examples). 
Buat kelas yang membungkus operasi API Gateway.  

```
import argparse
import json
import logging
from pprint import pprint
import boto3
from botocore.exceptions import ClientError
import requests

logger = logging.getLogger(__name__)


class ApiGatewayToService:
    """
    Encapsulates Amazon API Gateway functions that are used to create a REST API that
    integrates with another AWS service.
    """

    def __init__(self, apig_client):
        """
        :param apig_client: A Boto3 API Gateway client.
        """
        self.apig_client = apig_client
        self.api_id = None
        self.root_id = None
        self.stage = None


    def create_rest_api(self, api_name):
        """
        Creates a REST API on API Gateway. The default API has only a root resource
        and no HTTP methods.

        :param api_name: The name of the API. This descriptive name is not used in
                         the API path.
        :return: The ID of the newly created API.
        """
        try:
            result = self.apig_client.create_rest_api(name=api_name)
            self.api_id = result["id"]
            logger.info("Created REST API %s with ID %s.", api_name, self.api_id)
        except ClientError:
            logger.exception("Couldn't create REST API %s.", api_name)
            raise

        try:
            result = self.apig_client.get_resources(restApiId=self.api_id)
            self.root_id = next(
                item for item in result["items"] if item["path"] == "/"
            )["id"]
        except ClientError:
            logger.exception("Couldn't get resources for API %s.", self.api_id)
            raise
        except StopIteration as err:
            logger.exception("No root resource found in API %s.", self.api_id)
            raise ValueError from err

        return self.api_id


    def add_rest_resource(self, parent_id, resource_path):
        """
        Adds a resource to a REST API.

        :param parent_id: The ID of the parent resource.
        :param resource_path: The path of the new resource, relative to the parent.
        :return: The ID of the new resource.
        """
        try:
            result = self.apig_client.create_resource(
                restApiId=self.api_id, parentId=parent_id, pathPart=resource_path
            )
            resource_id = result["id"]
            logger.info("Created resource %s.", resource_path)
        except ClientError:
            logger.exception("Couldn't create resource %s.", resource_path)
            raise
        else:
            return resource_id


    def add_integration_method(
        self,
        resource_id,
        rest_method,
        service_endpoint_prefix,
        service_action,
        service_method,
        role_arn,
        mapping_template,
    ):
        """
        Adds an integration method to a REST API. An integration method is a REST
        resource, such as '/users', and an HTTP verb, such as GET. The integration
        method is backed by an AWS service, such as Amazon DynamoDB.

        :param resource_id: The ID of the REST resource.
        :param rest_method: The HTTP verb used with the REST resource.
        :param service_endpoint_prefix: The service endpoint that is integrated with
                                        this method, such as 'dynamodb'.
        :param service_action: The action that is called on the service, such as
                               'GetItem'.
        :param service_method: The HTTP method of the service request, such as POST.
        :param role_arn: The Amazon Resource Name (ARN) of a role that grants API
                         Gateway permission to use the specified action with the
                         service.
        :param mapping_template: A mapping template that is used to translate REST
                                 elements, such as query parameters, to the request
                                 body format required by the service.
        """
        service_uri = (
            f"arn:aws:apigateway:{self.apig_client.meta.region_name}"
            f":{service_endpoint_prefix}:action/{service_action}"
        )
        try:
            self.apig_client.put_method(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                authorizationType="NONE",
            )
            self.apig_client.put_method_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseModels={"application/json": "Empty"},
            )
            logger.info("Created %s method for resource %s.", rest_method, resource_id)
        except ClientError:
            logger.exception(
                "Couldn't create %s method for resource %s.", rest_method, resource_id
            )
            raise

        try:
            self.apig_client.put_integration(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                type="AWS",
                integrationHttpMethod=service_method,
                credentials=role_arn,
                requestTemplates={"application/json": json.dumps(mapping_template)},
                uri=service_uri,
                passthroughBehavior="WHEN_NO_TEMPLATES",
            )
            self.apig_client.put_integration_response(
                restApiId=self.api_id,
                resourceId=resource_id,
                httpMethod=rest_method,
                statusCode="200",
                responseTemplates={"application/json": ""},
            )
            logger.info(
                "Created integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
        except ClientError:
            logger.exception(
                "Couldn't create integration for resource %s to service URI %s.",
                resource_id,
                service_uri,
            )
            raise


    def deploy_api(self, stage_name):
        """
        Deploys a REST API. After a REST API is deployed, it can be called from any
        REST client, such as the Python Requests package or Postman.

        :param stage_name: The stage of the API to deploy, such as 'test'.
        :return: The base URL of the deployed REST API.
        """
        try:
            self.apig_client.create_deployment(
                restApiId=self.api_id, stageName=stage_name
            )
            self.stage = stage_name
            logger.info("Deployed stage %s.", stage_name)
        except ClientError:
            logger.exception("Couldn't deploy stage %s.", stage_name)
            raise
        else:
            return self.api_url()



    def api_url(self, resource=None):
        """
        Builds the REST API URL from its parts.

        :param resource: The resource path to append to the base URL.
        :return: The REST URL to the specified resource.
        """
        url = (
            f"https://{self.api_id}.execute-api.{self.apig_client.meta.region_name}"
            f".amazonaws.com/{self.stage}"
        )
        if resource is not None:
            url = f"{url}/{resource}"
        return url
```
Menerapkan REST API dan menyebutnya dengan paket Requests.  

```
def usage_demo(table_name, role_name, rest_api_name):
    """
    Demonstrates how to used API Gateway to create and deploy a REST API, and how
    to use the Requests package to call it.

    :param table_name: The name of the demo DynamoDB table.
    :param role_name: The name of the demo role that grants API Gateway permission to
                      call DynamoDB.
    :param rest_api_name: The name of the demo REST API created by the demo.
    """
    gateway = ApiGatewayToService(boto3.client("apigateway"))
    role = boto3.resource("iam").Role(role_name)

    print("Creating REST API in API Gateway.")
    gateway.create_rest_api(rest_api_name)

    print("Adding resources to the REST API.")
    profiles_id = gateway.add_rest_resource(gateway.root_id, "profiles")
    username_id = gateway.add_rest_resource(profiles_id, "{username}")

    # The DynamoDB service requires that all integration requests use POST.
    print("Adding integration methods to read and write profiles in Amazon DynamoDB.")
    gateway.add_integration_method(
        profiles_id,
        "GET",
        "dynamodb",
        "Scan",
        "POST",
        role.arn,
        {"TableName": table_name},
    )
    gateway.add_integration_method(
        profiles_id,
        "POST",
        "dynamodb",
        "PutItem",
        "POST",
        role.arn,
        {
            "TableName": table_name,
            "Item": {
                "username": {"S": "$input.path('$.username')"},
                "name": {"S": "$input.path('$.name')"},
                "title": {"S": "$input.path('$.title')"},
            },
        },
    )
    gateway.add_integration_method(
        username_id,
        "GET",
        "dynamodb",
        "GetItem",
        "POST",
        role.arn,
        {
            "TableName": table_name,
            "Key": {"username": {"S": "$method.request.path.username"}},
        },
    )

    stage = "test"
    print(f"Deploying the {stage} stage.")
    gateway.deploy_api(stage)

    profiles_url = gateway.api_url("profiles")
    print(
        f"Using the Requests package to post some people to the profiles REST API at "
        f"{profiles_url}."
    )
    requests.post(
        profiles_url,
        json={"username": "will", "name": "William Shakespeare", "title": "playwright"},
    )
    requests.post(
        profiles_url,
        json={
            "username": "ludwig",
            "name": "Ludwig van Beethoven",
            "title": "composer",
        },
    )
    requests.post(
        profiles_url,
        json={"username": "jane", "name": "Jane Austen", "title": "author"},
    )
    print("Getting the list of profiles from the REST API.")
    profiles = requests.get(profiles_url).json()
    pprint(profiles)
    print(f"Getting just the profile for username 'jane' (URL: {profiles_url}/jane).")
    jane = requests.get(f"{profiles_url}/jane").json()
    pprint(jane)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateDeployment](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/CreateDeployment)
  + [CreateResource](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/CreateResource)
  + [CreateRestApi](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/CreateRestApi)
  + [DeleteRestApi](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/DeleteRestApi)
  + [GetResources](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/GetResources)
  + [GetRestApis](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/GetRestApis)
  + [PutIntegration](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/PutIntegration)
  + [PutIntegrationResponse](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/PutIntegrationResponse)
  + [PutMethod](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/PutMethod)
  + [PutMethodResponse](https://docs.aws.amazon.com/goto/boto3/apigateway-2015-07-09/PutMethodResponse)

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara membuat dan menggunakan Amazon API Gateway REST API yang menargetkan suatu AWS Lambda fungsi. Handler Lambda menunjukkan cara merutekan berdasarkan metode HTTP; cara mendapatkan data dari string kueri, header, dan badan; dan cara mengembalikan respons JSON.   
+ Menyebarkan fungsi Lambda.
+ Buat API REST API Gateway.
+ Buat sumber daya REST yang menargetkan fungsi Lambda.
+ Berikan izin untuk mengizinkan API Gateway menjalankan fungsi Lambda.
+ Gunakan paket Requests untuk mengirim permintaan ke REST API.
+ Bersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

# Contoh Pengontrol Pemulihan Aplikasi menggunakan SDK for Python (Boto3)
<a name="python_3_route53-recovery-cluster_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda bagaimana melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk Python (Boto3) dengan menggunakan Application Recovery Controller.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetRoutingControlState`
<a name="route53-recovery-cluster_GetRoutingControlState_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRoutingControlState`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/route53-recovery-cluster#code-examples). 

```
import boto3


def create_recovery_client(cluster_endpoint):
    """
    Creates a Boto3 Route 53 Application Recovery Controller client for the specified
    cluster endpoint URL and AWS Region.

    :param cluster_endpoint: The cluster endpoint URL and Region.
    :return: The Boto3 client.
    """
    return boto3.client(
        "route53-recovery-cluster",
        endpoint_url=cluster_endpoint["Endpoint"],
        region_name=cluster_endpoint["Region"],
    )



def get_routing_control_state(routing_control_arn, cluster_endpoints):
    """
    Gets the state of a routing control. Cluster endpoints are tried in
    sequence until the first successful response is received.

    :param routing_control_arn: The ARN of the routing control to look up.
    :param cluster_endpoints: The list of cluster endpoints to query.
    :return: The routing control state response.
    """

    # As a best practice, we recommend choosing a random cluster endpoint to get or set routing control states.
    # For more information, see https://docs.aws.amazon.com/r53recovery/latest/dg/route53-arc-best-practices.html#route53-arc-best-practices.regional
    random.shuffle(cluster_endpoints)
    for cluster_endpoint in cluster_endpoints:
        try:
            recovery_client = create_recovery_client(cluster_endpoint)
            response = recovery_client.get_routing_control_state(
                RoutingControlArn=routing_control_arn
            )
            return response
        except Exception as error:
            print(error)
            raise error
```
+  Untuk detail API, lihat [GetRoutingControlState](https://docs.aws.amazon.com/goto/boto3/route53-recovery-cluster-2019-12-02/GetRoutingControlState)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateRoutingControlState`
<a name="route53-recovery-cluster_UpdateRoutingControlState_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateRoutingControlState`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/route53-recovery-cluster#code-examples). 

```
import boto3


def create_recovery_client(cluster_endpoint):
    """
    Creates a Boto3 Route 53 Application Recovery Controller client for the specified
    cluster endpoint URL and AWS Region.

    :param cluster_endpoint: The cluster endpoint URL and Region.
    :return: The Boto3 client.
    """
    return boto3.client(
        "route53-recovery-cluster",
        endpoint_url=cluster_endpoint["Endpoint"],
        region_name=cluster_endpoint["Region"],
    )



def update_routing_control_state(
    routing_control_arn, cluster_endpoints, routing_control_state
):
    """
    Updates the state of a routing control. Cluster endpoints are tried in
    sequence until the first successful response is received.

    :param routing_control_arn: The ARN of the routing control to update the state for.
    :param cluster_endpoints: The list of cluster endpoints to try.
    :param routing_control_state: The new routing control state.
    :return: The routing control update response.
    """

    # As a best practice, we recommend choosing a random cluster endpoint to get or set routing control states.
    # For more information, see https://docs.aws.amazon.com/r53recovery/latest/dg/route53-arc-best-practices.html#route53-arc-best-practices.regional
    random.shuffle(cluster_endpoints)
    for cluster_endpoint in cluster_endpoints:
        try:
            recovery_client = create_recovery_client(cluster_endpoint)
            response = recovery_client.update_routing_control_state(
                RoutingControlArn=routing_control_arn,
                RoutingControlState=routing_control_state,
            )
            return response
        except Exception as error:
            print(error)
```
+  Untuk detail API, lihat [UpdateRoutingControlState](https://docs.aws.amazon.com/goto/boto3/route53-recovery-cluster-2019-12-02/UpdateRoutingControlState)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Audit Manager menggunakan SDK for Python (Boto3)
<a name="python_3_auditmanager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Audit Manager AWS SDK untuk Python (Boto3) with.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat kerangka kerja khusus dari paket AWS Config kesesuaian
<a name="auditmanager_Scenario_CustomFrameworkFromConformancePack_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan daftar paket AWS Config kesesuaian.
+ Buat kontrol kustom Audit Manager untuk setiap aturan terkelola dalam paket kesesuaian.
+ Buat kerangka kerja khusus Audit Manager yang berisi kontrol.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auditmanager#code-examples). 

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


class ConformancePack:
    def __init__(self, config_client, auditmanager_client):
        self.config_client = config_client
        self.auditmanager_client = auditmanager_client

    def get_conformance_pack(self):
        """
        Return a selected conformance pack from the list of conformance packs.

        :return: selected conformance pack
        """
        try:
            conformance_packs = self.config_client.describe_conformance_packs()
            print(
                "Number of conformance packs fetched: ",
                len(conformance_packs.get("ConformancePackDetails")),
            )
            print("Fetched the following conformance packs: ")
            all_cpack_names = {
                cp["ConformancePackName"]
                for cp in conformance_packs.get("ConformancePackDetails")
            }
            for pack in all_cpack_names:
                print(f"\t{pack}")
            cpack_name = input(
                "Provide ConformancePackName that you want to create a custom "
                "framework for: "
            )
            if cpack_name not in all_cpack_names:
                print(f"{cpack_name} is not in the list of conformance packs!")
                print(
                    "Provide a conformance pack name from the available list of "
                    "conformance packs."
                )
                raise Exception("Invalid conformance pack")
            print("-" * 88)
        except ClientError:
            logger.exception("Couldn't select conformance pack.")
            raise
        else:
            return cpack_name

    def create_custom_controls(self, cpack_name):
        """
        Create custom controls for all managed AWS Config rules in a conformance pack.

        :param cpack_name: The name of the conformance pack to create controls for.
        :return: The list of custom control IDs.
        """
        try:
            rules_in_pack = self.config_client.describe_conformance_pack_compliance(
                ConformancePackName=cpack_name
            )
            print(
                "Number of rules in the conformance pack: ",
                len(rules_in_pack.get("ConformancePackRuleComplianceList")),
            )
            for rule in rules_in_pack.get("ConformancePackRuleComplianceList"):
                print(f"\t{rule.get('ConfigRuleName')}")
            print("-" * 88)
            print(
                "Creating a custom control for each rule and a custom framework "
                "consisting of these rules in Audit Manager."
            )
            am_controls = []
            for rule in rules_in_pack.get("ConformancePackRuleComplianceList"):
                config_rule = self.config_client.describe_config_rules(
                    ConfigRuleNames=[rule.get("ConfigRuleName")]
                )
                source_id = (
                    config_rule.get("ConfigRules")[0]
                    .get("Source", {})
                    .get("SourceIdentifier")
                )
                custom_control = self.auditmanager_client.create_control(
                    name="Config-" + rule.get("ConfigRuleName"),
                    controlMappingSources=[
                        {
                            "sourceName": "ConfigRule",
                            "sourceSetUpOption": "System_Controls_Mapping",
                            "sourceType": "AWS_Config",
                            "sourceKeyword": {
                                "keywordInputType": "SELECT_FROM_LIST",
                                "keywordValue": source_id,
                            },
                        }
                    ],
                ).get("control", {})
                am_controls.append({"id": custom_control.get("id")})
            print("Successfully created a control for each config rule.")
            print("-" * 88)
        except ClientError:
            logger.exception("Failed to create custom controls.")
            raise
        else:
            return am_controls

    def create_custom_framework(self, cpack_name, am_control_ids):
        """
        Create a custom Audit Manager framework from a selected AWS Config conformance
        pack.

        :param cpack_name: The name of the conformance pack to create a framework from.
        :param am_control_ids: The IDs of the custom controls created from the
                               conformance pack.
        """
        try:
            print("Creating custom framework...")
            custom_framework = self.auditmanager_client.create_assessment_framework(
                name="Config-Conformance-pack-" + cpack_name,
                controlSets=[{"name": cpack_name, "controls": am_control_ids}],
            )
            print(
                f"Successfully created the custom framework: ",
                f"{custom_framework.get('framework').get('name')}: ",
                f"{custom_framework.get('framework').get('id')}",
            )
            print("-" * 88)
        except ClientError:
            logger.exception("Failed to create custom framework.")
            raise


def run_demo():
    print("-" * 88)
    print("Welcome to the AWS Audit Manager custom framework demo!")
    print("-" * 88)
    print(
        "You can use this sample to select a conformance pack from AWS Config and "
        "use AWS Audit Manager to create a custom control for all the managed "
        "rules under the conformance pack. A custom framework is also created "
        "with these controls."
    )
    print("-" * 88)
    conf_pack = ConformancePack(boto3.client("config"), boto3.client("auditmanager"))
    cpack_name = conf_pack.get_conformance_pack()
    am_controls = conf_pack.create_custom_controls(cpack_name)
    conf_pack.create_custom_framework(cpack_name, am_controls)


if __name__ == "__main__":
    run_demo()
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [CreateAssessmentFramework](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/CreateAssessmentFramework)
  + [CreateControl](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/CreateControl)

### Buat kerangka kerja khusus yang berisi kontrol CSPM Security Hub
<a name="auditmanager_Scenario_CustomFrameworkFromSecurityHub_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan daftar semua kontrol standar yang memiliki Security Hub CSPM sebagai sumber datanya.
+ Buat kerangka kerja khusus Audit Manager yang berisi kontrol.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auditmanager#code-examples). 

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


class SecurityHub:
    def __init__(self, auditmanager_client):
        self.auditmanager_client = auditmanager_client

    def get_sechub_controls(self):
        """
        Gets the list of controls that use Security Hub as their data source.

        :return: The list of Security Hub controls.
        """
        print("-" * 88)
        next_token = None
        page = 1
        sechub_control_list = []
        while True:
            print("Page [" + str(page) + "]")
            if next_token is None:
                control_list = self.auditmanager_client.list_controls(
                    controlType="Standard", maxResults=100
                )
            else:
                control_list = self.auditmanager_client.list_controls(
                    controlType="Standard", nextToken=next_token, maxResults=100
                )
            print("Total controls found:", len(control_list.get("controlMetadataList")))
            for control in control_list.get("controlMetadataList"):
                control_details = self.auditmanager_client.get_control(
                    controlId=control.get("id")
                ).get("control", {})
                if "AWS Security Hub" in control_details.get("controlSources"):
                    sechub_control_list.append({"id": control_details.get("id")})
            next_token = control_list.get("nextToken")
            if not next_token:
                break
            page += 1
        print("Number of Security Hub controls found: ", len(sechub_control_list))
        return sechub_control_list

    def create_custom_framework(self, am_controls):
        """
        Create a custom framework with a list of controls.

        :param am_controls: The list of controls to include in the framework.
        """
        try:
            print("Creating custom framework...")
            custom_framework = self.auditmanager_client.create_assessment_framework(
                name="All Security Hub Controls Framework",
                controlSets=[{"name": "Security-Hub", "controls": am_controls}],
            )
            print(
                f"Successfully created the custom framework: "
                f"{custom_framework.get('framework').get('name')}: "
                f"{custom_framework.get('framework').get('id')}"
            )
            print("-" * 88)
        except ClientError:
            logger.exception("Failed to create custom framework.")
            raise


def run_demo():
    print("-" * 88)
    print("Welcome to the AWS Audit Manager Security Hub demo!")
    print("-" * 88)
    print(" This script creates a custom framework with all Security Hub controls.")
    print("-" * 88)
    sechub = SecurityHub(boto3.client("auditmanager"))
    am_controls = sechub.get_sechub_controls()
    sechub.create_custom_framework(am_controls)


if __name__ == "__main__":
    run_demo()
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [CreateAssessmentFramework](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/CreateAssessmentFramework)
  + [GetControl](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/GetControl)
  + [ListControls](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/ListControls)

### Buat laporan penilaian
<a name="auditmanager_Scenario_CreateAssessmentReport_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat laporan penilaian Audit Manager yang berisi bukti satu hari.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auditmanager#code-examples). 

```
import dateutil.parser
import logging
import time
import urllib.request
import uuid
import boto3
from botocore.exceptions import ClientError


logger = logging.getLogger(__name__)


class AuditReport:
    def __init__(self, auditmanager_client):
        self.auditmanager_client = auditmanager_client

    def get_input(self):
        print("-" * 40)
        try:
            assessment_id = input("Provide assessment id [uuid]: ").lower()
            try:
                assessment_uuid = uuid.UUID(assessment_id)
            except ValueError:
                logger.error("Assessment Id is not a valid UUID: %s", assessment_id)
                raise
            evidence_folder = input("Provide evidence date [yyyy-mm-dd]: ")
            try:
                evidence_date = dateutil.parser.parse(evidence_folder).date()
            except ValueError:
                logger.error("Invalid date : %s", evidence_folder)
                raise
            try:
                self.auditmanager_client.get_assessment(
                    assessmentId=str(assessment_uuid)
                )
            except ClientError:
                logger.exception("Couldn't get assessment %s.", assessment_uuid)
                raise
        except (ValueError, ClientError):
            return None, None
        else:
            return assessment_uuid, evidence_date

    def clear_staging(self, assessment_uuid, evidence_date):
        """
        Find all the evidence in the report and clear it.
        """
        next_token = None
        page = 1
        interested_folder_id_list = []
        while True:
            print(f"Page [{page}]")
            if next_token is None:
                folder_list = (
                    self.auditmanager_client.get_evidence_folders_by_assessment(
                        assessmentId=str(assessment_uuid), maxResults=1000
                    )
                )
            else:
                folder_list = (
                    self.auditmanager_client.get_evidence_folders_by_assessment(
                        assessmentId=str(assessment_uuid),
                        nextToken=next_token,
                        maxResults=1000,
                    )
                )
            folders = folder_list.get("evidenceFolders")
            print(f"Got {len(folders)} folders.")
            for folder in folders:
                folder_id = folder.get("id")
                if folder.get("name") == str(evidence_date):
                    interested_folder_id_list.append(folder_id)
                if folder.get("assessmentReportSelectionCount") == folder.get(
                    "totalEvidence"
                ):
                    print(
                        f"Removing folder from report selection : {folder.get('name')} "
                        f"{folder_id} {folder.get('controlId')}"
                    )
                    self.auditmanager_client.disassociate_assessment_report_evidence_folder(
                        assessmentId=str(assessment_uuid), evidenceFolderId=folder_id
                    )
                elif folder.get("assessmentReportSelectionCount") > 0:
                    # Get all evidence in the folder and
                    # add selected evidence in the selected_evidence_list.
                    evidence_list = (
                        self.auditmanager_client.get_evidence_by_evidence_folder(
                            assessmentId=str(assessment_uuid),
                            controlSetId=folder_id,
                            evidenceFolderId=folder_id,
                            maxResults=1000,
                        )
                    )
                    selected_evidence_list = []
                    for evidence in evidence_list.get("evidence"):
                        if evidence.get("assessmentReportSelection") == "Yes":
                            selected_evidence_list.append(evidence.get("id"))
                    print(
                        f"Removing evidence report selection : {folder.get('name')} "
                        f"{len(selected_evidence_list)}"
                    )
                    self.auditmanager_client.batch_disassociate_assessment_report_evidence(
                        assessmentId=str(assessment_uuid),
                        evidenceFolderId=folder_id,
                        evidenceIds=selected_evidence_list,
                    )
            next_token = folder_list.get("nextToken")
            if not next_token:
                break
            page += 1
        return interested_folder_id_list

    def add_folder_to_staging(self, assessment_uuid, folder_id_list):
        print(f"Adding folders to report : {folder_id_list}")
        for folder in folder_id_list:
            self.auditmanager_client.associate_assessment_report_evidence_folder(
                assessmentId=str(assessment_uuid), evidenceFolderId=folder
            )

    def get_report(self, assessment_uuid):
        report = self.auditmanager_client.create_assessment_report(
            name="ReportViaScript",
            description="testing",
            assessmentId=str(assessment_uuid),
        )
        if self._is_report_generated(report.get("assessmentReport").get("id")):
            report_url = self.auditmanager_client.get_assessment_report_url(
                assessmentReportId=report.get("assessmentReport").get("id"),
                assessmentId=str(assessment_uuid),
            )
            print(report_url.get("preSignedUrl"))
            urllib.request.urlretrieve(
                report_url.get("preSignedUrl").get("link"),
                report_url.get("preSignedUrl").get("hyperlinkName"),
            )
            print(
                f"Report saved as {report_url.get('preSignedUrl').get('hyperlinkName')}."
            )
        else:
            print("Report generation did not finish in 15 minutes.")
            print(
                "Failed to download report. Go to the console and manually download "
                "the report."
            )

    def _is_report_generated(self, assessment_report_id):
        max_wait_time = 0
        while max_wait_time < 900:
            print(f"Checking status of the report {assessment_report_id}")
            report_list = self.auditmanager_client.list_assessment_reports(maxResults=1)
            if (
                report_list.get("assessmentReports")[0].get("id")
                == assessment_report_id
                and report_list.get("assessmentReports")[0].get("status") == "COMPLETE"
            ):
                return True
            print("Sleeping for 5 seconds...")
            time.sleep(5)
            max_wait_time += 5


def run_demo():
    print("-" * 88)
    print("Welcome to the AWS Audit Manager samples demo!")
    print("-" * 88)
    print(
        "This script creates an assessment report for an assessment with all the "
        "evidence collected on the provided date."
    )
    print("-" * 88)

    report = AuditReport(boto3.client("auditmanager"))
    assessment_uuid, evidence_date = report.get_input()
    if assessment_uuid is not None and evidence_date is not None:
        folder_id_list = report.clear_staging(assessment_uuid, evidence_date)
        report.add_folder_to_staging(assessment_uuid, folder_id_list)
        report.get_report(assessment_uuid)


if __name__ == "__main__":
    run_demo()
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [AssociateAssessmentReportEvidenceFolder](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/AssociateAssessmentReportEvidenceFolder)
  + [BatchDisassociateAssessmentReportEvidence](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/BatchDisassociateAssessmentReportEvidence)
  + [CreateAssessmentReport](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/CreateAssessmentReport)
  + [DisassociateAssessmentReportEvidenceFolder](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/DisassociateAssessmentReportEvidenceFolder)
  + [GetAssessment](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/GetAssessment)
  + [GetAssessmentReportUrl](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/GetAssessmentReportUrl)
  + [GetEvidenceByEvidenceFolder](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/GetEvidenceByEvidenceFolder)
  + [GetEvidenceFoldersByAssessment](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/GetEvidenceFoldersByAssessment)
  + [ListAssessmentReports](https://docs.aws.amazon.com/goto/boto3/auditmanager-2017-07-25/ListAssessmentReports)

# Contoh Aurora menggunakan SDK for Python (Boto3)
<a name="python_3_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Aurora.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Aurora
<a name="aurora_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Aurora.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
import boto3

# Create an RDS client
rds = boto3.client("rds")

# Create a paginator for the describe_db_clusters operation
paginator = rds.get_paginator("describe_db_clusters")

# Use the paginator to get a list of DB clusters
response_iterator = paginator.paginate(
    PaginationConfig={
        "PageSize": 50,  # Adjust PageSize as needed
        "StartingToken": None,
    }
)

# Iterate through the pages of the response
clusters_found = False
for page in response_iterator:
    if "DBClusters" in page and page["DBClusters"]:
        clusters_found = True
        print("Here are your RDS Aurora clusters:")
        for cluster in page["DBClusters"]:
            print(
                f"Cluster ID: {cluster['DBClusterIdentifier']}, Engine: {cluster['Engine']}"
            )

if not clusters_found:
    print("No clusters found!")
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusters) dalam *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="aurora_Scenario_GetStartedClusters_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter klaster DB Aurora dan mengatur nilai parameter.
+ Membuat klaster DB yang menggunakan grup parameter.
+ Membuat instans DB yang berisi basis data.
+ Mengambil snapshot klaster DB, lalu membersihkan sumber daya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 
Jalankan skenario interaktif di prompt perintah.  

```
class AuroraClusterScenario:
    """Runs a scenario that shows how to get started using Aurora DB clusters."""

    def __init__(self, aurora_wrapper):
        """
        :param aurora_wrapper: An object that wraps Aurora DB cluster actions.
        """
        self.aurora_wrapper = aurora_wrapper

    def create_parameter_group(self, db_engine, parameter_group_name):
        """
        Shows how to get available engine versions for a specified database engine and
        create a DB cluster parameter group that is compatible with a selected engine family.

        :param db_engine: The database engine to use as a basis.
        :param parameter_group_name: The name given to the newly created parameter group.
        :return: The newly created parameter group.
        """
        print(
            f"Checking for an existing DB cluster parameter group named {parameter_group_name}."
        )
        parameter_group = self.aurora_wrapper.get_parameter_group(parameter_group_name)
        if parameter_group is None:
            print(f"Getting available database engine versions for {db_engine}.")
            engine_versions = self.aurora_wrapper.get_engine_versions(db_engine)
            families = list({ver["DBParameterGroupFamily"] for ver in engine_versions})
            family_index = q.choose("Which family do you want to use? ", families)
            print(f"Creating a DB cluster parameter group.")
            self.aurora_wrapper.create_parameter_group(
                parameter_group_name, families[family_index], "Example parameter group."
            )
            parameter_group = self.aurora_wrapper.get_parameter_group(
                parameter_group_name
            )
        print(f"Parameter group {parameter_group['DBClusterParameterGroupName']}:")
        pp(parameter_group)
        print("-" * 88)
        return parameter_group

    def set_user_parameters(self, parameter_group_name):
        """
        Shows how to get the parameters contained in a custom parameter group and
        update some of the parameter values in the group.

        :param parameter_group_name: The name of the parameter group to query and modify.
        """
        print("Let's set some parameter values in your parameter group.")
        auto_inc_parameters = self.aurora_wrapper.get_parameters(
            parameter_group_name, name_prefix="auto_increment"
        )
        update_params = []
        for auto_inc in auto_inc_parameters:
            if auto_inc["IsModifiable"] and auto_inc["DataType"] == "integer":
                print(f"The {auto_inc['ParameterName']} parameter is described as:")
                print(f"\t{auto_inc['Description']}")
                param_range = auto_inc["AllowedValues"].split("-")
                auto_inc["ParameterValue"] = str(
                    q.ask(
                        f"Enter a value between {param_range[0]} and {param_range[1]}: ",
                        q.is_int,
                        q.in_range(int(param_range[0]), int(param_range[1])),
                    )
                )
                update_params.append(auto_inc)
        self.aurora_wrapper.update_parameters(parameter_group_name, update_params)
        print(
            "You can get a list of parameters you've set by specifying a source of 'user'."
        )
        user_parameters = self.aurora_wrapper.get_parameters(
            parameter_group_name, source="user"
        )
        pp(user_parameters)
        print("-" * 88)

    def create_cluster(self, cluster_name, db_engine, db_name, parameter_group):
        """
        Shows how to create an Aurora DB cluster that contains a database of a specified
        type. The database is also configured to use a custom DB cluster parameter group.

        :param cluster_name: The name given to the newly created DB cluster.
        :param db_engine: The engine of the created database.
        :param db_name: The name given to the created database.
        :param parameter_group: The parameter group that is associated with the DB cluster.
        :return: The newly created DB cluster.
        """
        print("Checking for an existing DB cluster.")
        cluster = self.aurora_wrapper.get_db_cluster(cluster_name)
        if cluster is None:
            admin_username = q.ask(
                "Enter an administrator user name for the database: ", q.non_empty
            )
            admin_password = q.ask(
                "Enter a password for the administrator (at least 8 characters): ",
                q.non_empty,
            )
            engine_versions = self.aurora_wrapper.get_engine_versions(
                db_engine, parameter_group["DBParameterGroupFamily"]
            )
            engine_choices = [
                ver["EngineVersionDescription"] for ver in engine_versions
            ]
            print("The available engines for your parameter group are:")
            engine_index = q.choose("Which engine do you want to use? ", engine_choices)
            print(
                f"Creating DB cluster {cluster_name} and database {db_name}.\n"
                f"The DB cluster is configured to use\n"
                f"your custom parameter group {parameter_group['DBClusterParameterGroupName']}\n"
                f"and selected engine {engine_choices[engine_index]}.\n"
                f"This typically takes several minutes."
            )
            cluster = self.aurora_wrapper.create_db_cluster(
                cluster_name,
                parameter_group["DBClusterParameterGroupName"],
                db_name,
                db_engine,
                engine_versions[engine_index]["EngineVersion"],
                admin_username,
                admin_password,
            )
            while cluster.get("Status") != "available":
                wait(30)
                cluster = self.aurora_wrapper.get_db_cluster(cluster_name)
            print("Cluster created and available.\n")
        print("Cluster data:")
        pp(cluster)
        print("-" * 88)
        return cluster

    def create_instance(self, cluster):
        """
        Shows how to create a DB instance in an existing Aurora DB cluster. A new DB cluster
        contains no DB instances, so you must add one. The first DB instance that is added
        to a DB cluster defaults to a read-write DB instance.

        :param cluster: The DB cluster where the DB instance is added.
        :return: The newly created DB instance.
        """
        print("Checking for an existing database instance.")
        cluster_name = cluster["DBClusterIdentifier"]
        db_inst = self.aurora_wrapper.get_db_instance(cluster_name)
        if db_inst is None:
            print("Let's create a database instance in your DB cluster.")
            print("First, choose a DB instance type:")
            inst_opts = self.aurora_wrapper.get_orderable_instances(
                cluster["Engine"], cluster["EngineVersion"]
            )
            inst_choices = list(
                {
                    opt["DBInstanceClass"] + ", storage type: " + opt["StorageType"]
                    for opt in inst_opts
                }
            )
            inst_index = q.choose(
                "Which DB instance class do you want to use? ", inst_choices
            )
            print(
                f"Creating a database instance. This typically takes several minutes."
            )
            db_inst = self.aurora_wrapper.create_instance_in_cluster(
                cluster_name,
                cluster_name,
                cluster["Engine"],
                inst_opts[inst_index]["DBInstanceClass"],
            )
            while db_inst.get("DBInstanceStatus") != "available":
                wait(30)
                db_inst = self.aurora_wrapper.get_db_instance(cluster_name)
        print("Instance data:")
        pp(db_inst)
        print("-" * 88)
        return db_inst

    @staticmethod
    def display_connection(cluster):
        """
        Displays connection information about an Aurora DB cluster and tips on how to
        connect to it.

        :param cluster: The DB cluster to display.
        """
        print(
            "You can now connect to your database using your favorite MySql client.\n"
            "One way to connect is by using the 'mysql' shell on an Amazon EC2 instance\n"
            "that is running in the same VPC as your database cluster. Pass the endpoint,\n"
            "port, and administrator user name to 'mysql' and enter your password\n"
            "when prompted:\n"
        )
        print(
            f"\n\tmysql -h {cluster['Endpoint']} -P {cluster['Port']} -u {cluster['MasterUsername']} -p\n"
        )
        print(
            "For more information, see the User Guide for Aurora:\n"
            "\thttps://docs.aws.amazon.com/AmazonRDS/latest/AuroraUserGuide/CHAP_GettingStartedAurora.CreatingConnecting.Aurora.html#CHAP_GettingStartedAurora.Aurora.Connect"
        )
        print("-" * 88)

    def create_snapshot(self, cluster_name):
        """
        Shows how to create a DB cluster snapshot and wait until it's available.

        :param cluster_name: The name of a DB cluster to snapshot.
        """
        if q.ask(
            "Do you want to create a snapshot of your DB cluster (y/n)? ", q.is_yesno
        ):
            snapshot_id = f"{cluster_name}-{uuid.uuid4()}"
            print(
                f"Creating a snapshot named {snapshot_id}. This typically takes a few minutes."
            )
            snapshot = self.aurora_wrapper.create_cluster_snapshot(
                snapshot_id, cluster_name
            )
            while snapshot.get("Status") != "available":
                wait(30)
                snapshot = self.aurora_wrapper.get_cluster_snapshot(snapshot_id)
            pp(snapshot)
            print("-" * 88)

    def cleanup(self, db_inst, cluster, parameter_group):
        """
        Shows how to clean up a DB instance, DB cluster, and DB cluster parameter group.
        Before the DB cluster parameter group can be deleted, all associated DB instances and
        DB clusters must first be deleted.

        :param db_inst: The DB instance to delete.
        :param cluster: The DB cluster to delete.
        :param parameter_group: The DB cluster parameter group to delete.
        """
        cluster_name = cluster["DBClusterIdentifier"]
        parameter_group_name = parameter_group["DBClusterParameterGroupName"]
        if q.ask(
            "\nDo you want to delete the database instance, DB cluster, and parameter "
            "group (y/n)? ",
            q.is_yesno,
        ):
            print(f"Deleting database instance {db_inst['DBInstanceIdentifier']}.")
            self.aurora_wrapper.delete_db_instance(db_inst["DBInstanceIdentifier"])
            print(f"Deleting database cluster {cluster_name}.")
            self.aurora_wrapper.delete_db_cluster(cluster_name)
            print(
                "Waiting for the DB instance and DB cluster to delete.\n"
                "This typically takes several minutes."
            )
            while db_inst is not None or cluster is not None:
                wait(30)
                if db_inst is not None:
                    db_inst = self.aurora_wrapper.get_db_instance(
                        db_inst["DBInstanceIdentifier"]
                    )
                if cluster is not None:
                    cluster = self.aurora_wrapper.get_db_cluster(
                        cluster["DBClusterIdentifier"]
                    )
            print(f"Deleting parameter group {parameter_group_name}.")
            self.aurora_wrapper.delete_parameter_group(parameter_group_name)

    def run_scenario(self, db_engine, parameter_group_name, cluster_name, db_name):
        print("-" * 88)
        print(
            "Welcome to the Amazon Relational Database Service (Amazon RDS) get started\n"
            "with Aurora DB clusters demo."
        )
        print("-" * 88)

        parameter_group = self.create_parameter_group(db_engine, parameter_group_name)
        self.set_user_parameters(parameter_group_name)
        cluster = self.create_cluster(cluster_name, db_engine, db_name, parameter_group)
        wait(5)
        db_inst = self.create_instance(cluster)
        self.display_connection(cluster)
        self.create_snapshot(cluster_name)
        self.cleanup(db_inst, cluster, parameter_group)

        print("\nThanks for watching!")
        print("-" * 88)


if __name__ == "__main__":
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    try:
        scenario = AuroraClusterScenario(AuroraWrapper.from_client())
        scenario.run_scenario(
            "aurora-mysql",
            "doc-example-cluster-parameter-group",
            "doc-example-aurora",
            "docexampledb",
        )
    except Exception:
        logging.exception("Something went wrong with the demo.")
```
Tentukan fungsi-fungsi yang dipanggil oleh skenario untuk mengelola tindakan Aurora.  

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_parameter_group(self, parameter_group_name):
        """
        Gets a DB cluster parameter group.

        :param parameter_group_name: The name of the parameter group to retrieve.
        :return: The requested parameter group.
        """
        try:
            response = self.rds_client.describe_db_cluster_parameter_groups(
                DBClusterParameterGroupName=parameter_group_name
            )
            parameter_group = response["DBClusterParameterGroups"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBParameterGroupNotFound":
                logger.info("Parameter group %s does not exist.", parameter_group_name)
            else:
                logger.error(
                    "Couldn't get parameter group %s. Here's why: %s: %s",
                    parameter_group_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return parameter_group


    def create_parameter_group(
        self, parameter_group_name, parameter_group_family, description
    ):
        """
        Creates a DB cluster parameter group that is based on the specified parameter group
        family.

        :param parameter_group_name: The name of the newly created parameter group.
        :param parameter_group_family: The family that is used as the basis of the new
                                       parameter group.
        :param description: A description given to the parameter group.
        :return: Data about the newly created parameter group.
        """
        try:
            response = self.rds_client.create_db_cluster_parameter_group(
                DBClusterParameterGroupName=parameter_group_name,
                DBParameterGroupFamily=parameter_group_family,
                Description=description,
            )
        except ClientError as err:
            logger.error(
                "Couldn't create parameter group %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def delete_parameter_group(self, parameter_group_name):
        """
        Deletes a DB cluster parameter group.

        :param parameter_group_name: The name of the parameter group to delete.
        :return: Data about the parameter group.
        """
        try:
            response = self.rds_client.delete_db_cluster_parameter_group(
                DBClusterParameterGroupName=parameter_group_name
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete parameter group %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def get_parameters(self, parameter_group_name, name_prefix="", source=None):
        """
        Gets the parameters that are contained in a DB cluster parameter group.

        :param parameter_group_name: The name of the parameter group to query.
        :param name_prefix: When specified, the retrieved list of parameters is filtered
                            to contain only parameters that start with this prefix.
        :param source: When specified, only parameters from this source are retrieved.
                       For example, a source of 'user' retrieves only parameters that
                       were set by a user.
        :return: The list of requested parameters.
        """
        try:
            kwargs = {"DBClusterParameterGroupName": parameter_group_name}
            if source is not None:
                kwargs["Source"] = source
            parameters = []
            paginator = self.rds_client.get_paginator("describe_db_cluster_parameters")
            for page in paginator.paginate(**kwargs):
                parameters += [
                    p
                    for p in page["Parameters"]
                    if p["ParameterName"].startswith(name_prefix)
                ]
        except ClientError as err:
            logger.error(
                "Couldn't get parameters for %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return parameters


    def update_parameters(self, parameter_group_name, update_parameters):
        """
        Updates parameters in a custom DB cluster parameter group.

        :param parameter_group_name: The name of the parameter group to update.
        :param update_parameters: The parameters to update in the group.
        :return: Data about the modified parameter group.
        """
        try:
            response = self.rds_client.modify_db_cluster_parameter_group(
                DBClusterParameterGroupName=parameter_group_name,
                Parameters=update_parameters,
            )
        except ClientError as err:
            logger.error(
                "Couldn't update parameters in %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def get_db_cluster(self, cluster_name):
        """
        Gets data about an Aurora DB cluster.

        :param cluster_name: The name of the DB cluster to retrieve.
        :return: The retrieved DB cluster.
        """
        try:
            response = self.rds_client.describe_db_clusters(
                DBClusterIdentifier=cluster_name
            )
            cluster = response["DBClusters"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBClusterNotFoundFault":
                logger.info("Cluster %s does not exist.", cluster_name)
            else:
                logger.error(
                    "Couldn't verify the existence of DB cluster %s. Here's why: %s: %s",
                    cluster_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return cluster


    def create_db_cluster(
        self,
        cluster_name,
        parameter_group_name,
        db_name,
        db_engine,
        db_engine_version,
        admin_name,
        admin_password,
    ):
        """
        Creates a DB cluster that is configured to use the specified parameter group.
        The newly created DB cluster contains a database that uses the specified engine and
        engine version.

        :param cluster_name: The name of the DB cluster to create.
        :param parameter_group_name: The name of the parameter group to associate with
                                     the DB cluster.
        :param db_name: The name of the database to create.
        :param db_engine: The database engine of the database that is created, such as MySql.
        :param db_engine_version: The version of the database engine.
        :param admin_name: The user name of the database administrator.
        :param admin_password: The password of the database administrator.
        :return: The newly created DB cluster.
        """
        try:
            response = self.rds_client.create_db_cluster(
                DatabaseName=db_name,
                DBClusterIdentifier=cluster_name,
                DBClusterParameterGroupName=parameter_group_name,
                Engine=db_engine,
                EngineVersion=db_engine_version,
                MasterUsername=admin_name,
                MasterUserPassword=admin_password,
            )
            cluster = response["DBCluster"]
        except ClientError as err:
            logger.error(
                "Couldn't create database %s. Here's why: %s: %s",
                db_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return cluster


    def delete_db_cluster(self, cluster_name):
        """
        Deletes a DB cluster.

        :param cluster_name: The name of the DB cluster to delete.
        """
        try:
            self.rds_client.delete_db_cluster(
                DBClusterIdentifier=cluster_name, SkipFinalSnapshot=True
            )
            logger.info("Deleted DB cluster %s.", cluster_name)
        except ClientError:
            logger.exception("Couldn't delete DB cluster %s.", cluster_name)
            raise


    def create_cluster_snapshot(self, snapshot_id, cluster_id):
        """
        Creates a snapshot of a DB cluster.

        :param snapshot_id: The ID to give the created snapshot.
        :param cluster_id: The DB cluster to snapshot.
        :return: Data about the newly created snapshot.
        """
        try:
            response = self.rds_client.create_db_cluster_snapshot(
                DBClusterSnapshotIdentifier=snapshot_id, DBClusterIdentifier=cluster_id
            )
            snapshot = response["DBClusterSnapshot"]
        except ClientError as err:
            logger.error(
                "Couldn't create snapshot of %s. Here's why: %s: %s",
                cluster_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return snapshot


    def get_cluster_snapshot(self, snapshot_id):
        """
        Gets a DB cluster snapshot.

        :param snapshot_id: The ID of the snapshot to retrieve.
        :return: The retrieved snapshot.
        """
        try:
            response = self.rds_client.describe_db_cluster_snapshots(
                DBClusterSnapshotIdentifier=snapshot_id
            )
            snapshot = response["DBClusterSnapshots"][0]
        except ClientError as err:
            logger.error(
                "Couldn't get DB cluster snapshot %s. Here's why: %s: %s",
                snapshot_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return snapshot


    def create_instance_in_cluster(
        self, instance_id, cluster_id, db_engine, instance_class
    ):
        """
        Creates a database instance in an existing DB cluster. The first database that is
        created defaults to a read-write DB instance.

        :param instance_id: The ID to give the newly created DB instance.
        :param cluster_id: The ID of the DB cluster where the DB instance is created.
        :param db_engine: The database engine of a database to create in the DB instance.
                          This must be compatible with the configured parameter group
                          of the DB cluster.
        :param instance_class: The DB instance class for the newly created DB instance.
        :return: Data about the newly created DB instance.
        """
        try:
            response = self.rds_client.create_db_instance(
                DBInstanceIdentifier=instance_id,
                DBClusterIdentifier=cluster_id,
                Engine=db_engine,
                DBInstanceClass=instance_class,
            )
            db_inst = response["DBInstance"]
        except ClientError as err:
            logger.error(
                "Couldn't create DB instance %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return db_inst


    def get_engine_versions(self, engine, parameter_group_family=None):
        """
        Gets database engine versions that are available for the specified engine
        and parameter group family.

        :param engine: The database engine to look up.
        :param parameter_group_family: When specified, restricts the returned list of
                                       engine versions to those that are compatible with
                                       this parameter group family.
        :return: The list of database engine versions.
        """
        try:
            kwargs = {"Engine": engine}
            if parameter_group_family is not None:
                kwargs["DBParameterGroupFamily"] = parameter_group_family
            response = self.rds_client.describe_db_engine_versions(**kwargs)
            versions = response["DBEngineVersions"]
        except ClientError as err:
            logger.error(
                "Couldn't get engine versions for %s. Here's why: %s: %s",
                engine,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return versions


    def get_orderable_instances(self, db_engine, db_engine_version):
        """
        Gets DB instance options that can be used to create DB instances that are
        compatible with a set of specifications.

        :param db_engine: The database engine that must be supported by the DB instance.
        :param db_engine_version: The engine version that must be supported by the DB instance.
        :return: The list of DB instance options that can be used to create a compatible DB instance.
        """
        try:
            inst_opts = []
            paginator = self.rds_client.get_paginator(
                "describe_orderable_db_instance_options"
            )
            for page in paginator.paginate(
                Engine=db_engine, EngineVersion=db_engine_version
            ):
                inst_opts += page["OrderableDBInstanceOptions"]
        except ClientError as err:
            logger.error(
                "Couldn't get orderable DB instances. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return inst_opts


    def get_db_instance(self, instance_id):
        """
        Gets data about a DB instance.

        :param instance_id: The ID of the DB instance to retrieve.
        :return: The retrieved DB instance.
        """
        try:
            response = self.rds_client.describe_db_instances(
                DBInstanceIdentifier=instance_id
            )
            db_inst = response["DBInstances"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBInstanceNotFound":
                logger.info("Instance %s does not exist.", instance_id)
            else:
                logger.error(
                    "Couldn't get DB instance %s. Here's why: %s: %s",
                    instance_id,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return db_inst


    def delete_db_instance(self, instance_id):
        """
        Deletes a DB instance.

        :param instance_id: The ID of the DB instance to delete.
        :return: Data about the deleted DB instance.
        """
        try:
            response = self.rds_client.delete_db_instance(
                DBInstanceIdentifier=instance_id,
                SkipFinalSnapshot=True,
                DeleteAutomatedBackups=True,
            )
            db_inst = response["DBInstance"]
        except ClientError as err:
            logger.error(
                "Couldn't delete DB instance %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return db_inst
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [Buat DBCluster](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBCluster)
  + [Buat DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBClusterParameterGroup)
  + [Buat DBCluster Snapshot](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBClusterSnapshot)
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBInstance)
  + [Hapus DBCluster](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBCluster)
  + [Hapus DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBClusterParameterGroup)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBInstance)
  + [Jelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusterParameterGroups)
  + [Jelaskan DBCluster Parameter](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusterParameters)
  + [Jelaskan DBCluster Snapshots](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusterSnapshots)
  + [Jelaskan DBClusters](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusters)
  + [Jelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBInstances)
  + [DescribeOrderableDBInstancePilihan](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeOrderableDBInstanceOptions)
  + [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/ModifyDBClusterParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="aurora_CreateDBCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def create_db_cluster(
        self,
        cluster_name,
        parameter_group_name,
        db_name,
        db_engine,
        db_engine_version,
        admin_name,
        admin_password,
    ):
        """
        Creates a DB cluster that is configured to use the specified parameter group.
        The newly created DB cluster contains a database that uses the specified engine and
        engine version.

        :param cluster_name: The name of the DB cluster to create.
        :param parameter_group_name: The name of the parameter group to associate with
                                     the DB cluster.
        :param db_name: The name of the database to create.
        :param db_engine: The database engine of the database that is created, such as MySql.
        :param db_engine_version: The version of the database engine.
        :param admin_name: The user name of the database administrator.
        :param admin_password: The password of the database administrator.
        :return: The newly created DB cluster.
        """
        try:
            response = self.rds_client.create_db_cluster(
                DatabaseName=db_name,
                DBClusterIdentifier=cluster_name,
                DBClusterParameterGroupName=parameter_group_name,
                Engine=db_engine,
                EngineVersion=db_engine_version,
                MasterUsername=admin_name,
                MasterUserPassword=admin_password,
            )
            cluster = response["DBCluster"]
        except ClientError as err:
            logger.error(
                "Couldn't create database %s. Here's why: %s: %s",
                db_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return cluster
```
+  Untuk detail API, lihat [Membuat DBCluster](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBCluster) di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateDBClusterParameterGroup`
<a name="aurora_CreateDBClusterParameterGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterParameterGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def create_parameter_group(
        self, parameter_group_name, parameter_group_family, description
    ):
        """
        Creates a DB cluster parameter group that is based on the specified parameter group
        family.

        :param parameter_group_name: The name of the newly created parameter group.
        :param parameter_group_family: The family that is used as the basis of the new
                                       parameter group.
        :param description: A description given to the parameter group.
        :return: Data about the newly created parameter group.
        """
        try:
            response = self.rds_client.create_db_cluster_parameter_group(
                DBClusterParameterGroupName=parameter_group_name,
                DBParameterGroupFamily=parameter_group_family,
                Description=description,
            )
        except ClientError as err:
            logger.error(
                "Couldn't create parameter group %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [Membuat DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBClusterParameterGroup) di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateDBClusterSnapshot`
<a name="aurora_CreateDBClusterSnapshot_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterSnapshot`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def create_cluster_snapshot(self, snapshot_id, cluster_id):
        """
        Creates a snapshot of a DB cluster.

        :param snapshot_id: The ID to give the created snapshot.
        :param cluster_id: The DB cluster to snapshot.
        :return: Data about the newly created snapshot.
        """
        try:
            response = self.rds_client.create_db_cluster_snapshot(
                DBClusterSnapshotIdentifier=snapshot_id, DBClusterIdentifier=cluster_id
            )
            snapshot = response["DBClusterSnapshot"]
        except ClientError as err:
            logger.error(
                "Couldn't create snapshot of %s. Here's why: %s: %s",
                cluster_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return snapshot
```
+  Untuk detail API, lihat [Membuat DBCluster Snapshot](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBClusterSnapshot) di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateDBInstance`
<a name="aurora_CreateDBInstance_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def create_instance_in_cluster(
        self, instance_id, cluster_id, db_engine, instance_class
    ):
        """
        Creates a database instance in an existing DB cluster. The first database that is
        created defaults to a read-write DB instance.

        :param instance_id: The ID to give the newly created DB instance.
        :param cluster_id: The ID of the DB cluster where the DB instance is created.
        :param db_engine: The database engine of a database to create in the DB instance.
                          This must be compatible with the configured parameter group
                          of the DB cluster.
        :param instance_class: The DB instance class for the newly created DB instance.
        :return: Data about the newly created DB instance.
        """
        try:
            response = self.rds_client.create_db_instance(
                DBInstanceIdentifier=instance_id,
                DBClusterIdentifier=cluster_id,
                Engine=db_engine,
                DBInstanceClass=instance_class,
            )
            db_inst = response["DBInstance"]
        except ClientError as err:
            logger.error(
                "Couldn't create DB instance %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return db_inst
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBInstance) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDBCluster`
<a name="aurora_DeleteDBCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def delete_db_cluster(self, cluster_name):
        """
        Deletes a DB cluster.

        :param cluster_name: The name of the DB cluster to delete.
        """
        try:
            self.rds_client.delete_db_cluster(
                DBClusterIdentifier=cluster_name, SkipFinalSnapshot=True
            )
            logger.info("Deleted DB cluster %s.", cluster_name)
        except ClientError:
            logger.exception("Couldn't delete DB cluster %s.", cluster_name)
            raise
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBCluster) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDBClusterParameterGroup`
<a name="aurora_DeleteDBClusterParameterGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBClusterParameterGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def delete_parameter_group(self, parameter_group_name):
        """
        Deletes a DB cluster parameter group.

        :param parameter_group_name: The name of the parameter group to delete.
        :return: Data about the parameter group.
        """
        try:
            response = self.rds_client.delete_db_cluster_parameter_group(
                DBClusterParameterGroupName=parameter_group_name
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete parameter group %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [Menghapus DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBClusterParameterGroup) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDBInstance`
<a name="aurora_DeleteDBInstance_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def delete_db_instance(self, instance_id):
        """
        Deletes a DB instance.

        :param instance_id: The ID of the DB instance to delete.
        :return: Data about the deleted DB instance.
        """
        try:
            response = self.rds_client.delete_db_instance(
                DBInstanceIdentifier=instance_id,
                SkipFinalSnapshot=True,
                DeleteAutomatedBackups=True,
            )
            db_inst = response["DBInstance"]
        except ClientError as err:
            logger.error(
                "Couldn't delete DB instance %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return db_inst
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBInstance) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBClusterParameterGroups`
<a name="aurora_DescribeDBClusterParameterGroups_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameterGroups`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_parameter_group(self, parameter_group_name):
        """
        Gets a DB cluster parameter group.

        :param parameter_group_name: The name of the parameter group to retrieve.
        :return: The requested parameter group.
        """
        try:
            response = self.rds_client.describe_db_cluster_parameter_groups(
                DBClusterParameterGroupName=parameter_group_name
            )
            parameter_group = response["DBClusterParameterGroups"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBParameterGroupNotFound":
                logger.info("Parameter group %s does not exist.", parameter_group_name)
            else:
                logger.error(
                    "Couldn't get parameter group %s. Here's why: %s: %s",
                    parameter_group_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return parameter_group
```
+  Untuk detail API, lihat [Menjelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusterParameterGroups) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBClusterParameters`
<a name="aurora_DescribeDBClusterParameters_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameters`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_parameters(self, parameter_group_name, name_prefix="", source=None):
        """
        Gets the parameters that are contained in a DB cluster parameter group.

        :param parameter_group_name: The name of the parameter group to query.
        :param name_prefix: When specified, the retrieved list of parameters is filtered
                            to contain only parameters that start with this prefix.
        :param source: When specified, only parameters from this source are retrieved.
                       For example, a source of 'user' retrieves only parameters that
                       were set by a user.
        :return: The list of requested parameters.
        """
        try:
            kwargs = {"DBClusterParameterGroupName": parameter_group_name}
            if source is not None:
                kwargs["Source"] = source
            parameters = []
            paginator = self.rds_client.get_paginator("describe_db_cluster_parameters")
            for page in paginator.paginate(**kwargs):
                parameters += [
                    p
                    for p in page["Parameters"]
                    if p["ParameterName"].startswith(name_prefix)
                ]
        except ClientError as err:
            logger.error(
                "Couldn't get parameters for %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return parameters
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Parameter](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusterParameters) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBClusterSnapshots`
<a name="aurora_DescribeDBClusterSnapshots_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterSnapshots`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_cluster_snapshot(self, snapshot_id):
        """
        Gets a DB cluster snapshot.

        :param snapshot_id: The ID of the snapshot to retrieve.
        :return: The retrieved snapshot.
        """
        try:
            response = self.rds_client.describe_db_cluster_snapshots(
                DBClusterSnapshotIdentifier=snapshot_id
            )
            snapshot = response["DBClusterSnapshots"][0]
        except ClientError as err:
            logger.error(
                "Couldn't get DB cluster snapshot %s. Here's why: %s: %s",
                snapshot_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return snapshot
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Snapshot](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusterSnapshots) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBClusters`
<a name="aurora_DescribeDBClusters_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_db_cluster(self, cluster_name):
        """
        Gets data about an Aurora DB cluster.

        :param cluster_name: The name of the DB cluster to retrieve.
        :return: The retrieved DB cluster.
        """
        try:
            response = self.rds_client.describe_db_clusters(
                DBClusterIdentifier=cluster_name
            )
            cluster = response["DBClusters"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBClusterNotFoundFault":
                logger.info("Cluster %s does not exist.", cluster_name)
            else:
                logger.error(
                    "Couldn't verify the existence of DB cluster %s. Here's why: %s: %s",
                    cluster_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return cluster
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBClusters) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBEngineVersions`
<a name="aurora_DescribeDBEngineVersions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_engine_versions(self, engine, parameter_group_family=None):
        """
        Gets database engine versions that are available for the specified engine
        and parameter group family.

        :param engine: The database engine to look up.
        :param parameter_group_family: When specified, restricts the returned list of
                                       engine versions to those that are compatible with
                                       this parameter group family.
        :return: The list of database engine versions.
        """
        try:
            kwargs = {"Engine": engine}
            if parameter_group_family is not None:
                kwargs["DBParameterGroupFamily"] = parameter_group_family
            response = self.rds_client.describe_db_engine_versions(**kwargs)
            versions = response["DBEngineVersions"]
        except ClientError as err:
            logger.error(
                "Couldn't get engine versions for %s. Here's why: %s: %s",
                engine,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return versions
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBEngineVersions) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBInstances`
<a name="aurora_DescribeDBInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_db_instance(self, instance_id):
        """
        Gets data about a DB instance.

        :param instance_id: The ID of the DB instance to retrieve.
        :return: The retrieved DB instance.
        """
        try:
            response = self.rds_client.describe_db_instances(
                DBInstanceIdentifier=instance_id
            )
            db_inst = response["DBInstances"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBInstanceNotFound":
                logger.info("Instance %s does not exist.", instance_id)
            else:
                logger.error(
                    "Couldn't get DB instance %s. Here's why: %s: %s",
                    instance_id,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return db_inst
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBInstances) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeOrderableDBInstanceOptions`
<a name="aurora_DescribeOrderableDBInstanceOptions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_orderable_instances(self, db_engine, db_engine_version):
        """
        Gets DB instance options that can be used to create DB instances that are
        compatible with a set of specifications.

        :param db_engine: The database engine that must be supported by the DB instance.
        :param db_engine_version: The engine version that must be supported by the DB instance.
        :return: The list of DB instance options that can be used to create a compatible DB instance.
        """
        try:
            inst_opts = []
            paginator = self.rds_client.get_paginator(
                "describe_orderable_db_instance_options"
            )
            for page in paginator.paginate(
                Engine=db_engine, EngineVersion=db_engine_version
            ):
                inst_opts += page["OrderableDBInstanceOptions"]
        except ClientError as err:
            logger.error(
                "Couldn't get orderable DB instances. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return inst_opts
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeOrderableDBInstanceOptions) di *AWS SDK for Python (Boto3) Referensi* API. 

### `ModifyDBClusterParameterGroup`
<a name="aurora_ModifyDBClusterParameterGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBClusterParameterGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/aurora#code-examples). 

```
class AuroraWrapper:
    """Encapsulates Aurora DB cluster actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon Relational Database Service (Amazon RDS) client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def update_parameters(self, parameter_group_name, update_parameters):
        """
        Updates parameters in a custom DB cluster parameter group.

        :param parameter_group_name: The name of the parameter group to update.
        :param update_parameters: The parameters to update in the group.
        :return: Data about the modified parameter group.
        """
        try:
            response = self.rds_client.modify_db_cluster_parameter_group(
                DBClusterParameterGroupName=parameter_group_name,
                Parameters=update_parameters,
            )
        except ClientError as err:
            logger.error(
                "Couldn't update parameters in %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/ModifyDBClusterParameterGroup) dalam *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat API REST pustaka peminjaman
<a name="cross_AuroraRestLendingLibrary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pustaka peminjaman tempat pelanggan dapat meminjam dan mengembalikan buku dengan menggunakan API REST yang didukung oleh basis data Amazon Aurora.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan API Amazon Relational Database Service (Amazon RDS) dan AWS Chalice untuk membuat REST API yang didukung oleh database Amazon Aurora. AWS SDK untuk Python (Boto3) Layanan web sepenuhnya nirserver dan mewakili pustaka peminjaman sederhana tempat pelanggan dapat meminjam dan mengembalikan buku. Pelajari cara:   
+ Membuat dan mengelola klaster basis data Aurora nirserver.
+ Gunakan AWS Secrets Manager untuk mengelola kredensi database.
+ Menerapkan lapisan penyimpanan data yang menggunakan Amazon RDS untuk memindahkan data masuk dan keluar dari basis data.
+ Gunakan AWS Chalice untuk menerapkan REST API tanpa server ke Amazon API Gateway dan. AWS Lambda
+ Menggunakan paket Permintaan untuk mengirim permintaan ke layanan web.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/aurora_rest_lending_library).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ Aurora
+ Lambda
+ Secrets Manager

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat layanan REST yang melacak item pekerjaan di database Amazon Aurora Tanpa Server dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan rangka kerja web Flask untuk menangani perutean HTTP dan terintegrasi dengan halaman web React untuk menyajikan aplikasi web yang berfungsi penuh.   
+ Bangun layanan Flask REST yang terintegrasi dengan. Layanan AWS
+ Baca, tulis, dan perbarui butir kerja yang tersimpan dalam basis data Aurora Nirserver.
+ Buat AWS Secrets Manager rahasia yang berisi kredensi database dan gunakan untuk mengautentikasi panggilan ke database.
+ Gunakan Amazon SES untuk mengirim laporan email tentang item pekerjaan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/aurora_item_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Auto Scaling menggunakan SDK for Python (Boto3)
<a name="python_3_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Auto Scaling AWS SDK untuk Python (Boto3) with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Auto Scaling
<a name="auto-scaling_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Auto Scaling.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
import boto3


def hello_autoscaling(autoscaling_client):
    """
    Use the AWS SDK for Python (Boto3) to create an Amazon EC2 Auto Scaling client and list
    some of the Auto Scaling groups in your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client object.
    """
    print(
        "Hello, Amazon EC2 Auto Scaling! Let's list up to ten of you Auto Scaling groups:"
    )
    response = autoscaling_client.describe_auto_scaling_groups()
    groups = response.get("AutoScalingGroups", [])
    if groups:
        for group in groups:
            print(f"\t{group['AutoScalingGroupName']}: {group['AvailabilityZones']}")
    else:
        print("There are no Auto Scaling groups in your account.")


if __name__ == "__main__":
    hello_autoscaling(boto3.client("autoscaling"))
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="auto-scaling_Scenario_GroupsAndInstances_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat grup Amazon EC2 Auto Scaling dengan template peluncuran dan Availability Zone, dan dapatkan informasi tentang menjalankan instans.
+ Aktifkan pengumpulan CloudWatch metrik Amazon.
+ Perbarui kapasitas yang diinginkan grup dan tunggu instance dimulai.
+ Mengakhiri sebuah instance dalam grup.
+ Buat daftar aktivitas penskalaan yang terjadi sebagai respons terhadap permintaan pengguna dan perubahan kapasitas.
+ Dapatkan statistik untuk CloudWatch metrik, lalu bersihkan sumber daya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
def run_scenario(as_wrapper: AutoScalingWrapper, svc_helper: ServiceHelper) -> None:
    """
    Runs the scenario demonstrating the management of Auto Scaling groups and instances.

    :param as_wrapper: An instance of the AutoScalingWrapper that manages Auto Scaling groups.
    :param svc_helper: An instance of the ServiceHelper that interacts with AWS services.
    :return: None
    """
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    logger.info("Starting the Amazon EC2 Auto Scaling demo.")

    print("-" * 88)
    print(
        "Welcome to the Amazon EC2 Auto Scaling demo for managing groups and instances."
    )
    print("-" * 88)

    print(
        "This example requires a launch template that specifies how to create "
        "EC2 instances. You can use an existing template or create a new one."
    )
    template_name = q.ask(
        "Enter the name of an existing launch template or press Enter to create a new one: "
    )
    template = None
    if template_name:
        template = svc_helper.get_template(template_name)
    if template is None:
        inst_type = "t1.micro"
        ami_id = "ami-0ca285d4c2cda3300"
        print("Let's create a launch template with the following specifications:")
        print(f"\tInstanceType: {inst_type}")
        print(f"\tAMI ID: {ami_id}")
        template_name = q.ask("Enter a name for the template: ", q.non_empty)
        template = svc_helper.create_template(template_name, inst_type, ami_id)
    print("-" * 88)

    print("Let's create an Auto Scaling group.")
    group_name = q.ask("Enter a name for the group: ", q.non_empty)
    zones = svc_helper.get_availability_zones()
    print("EC2 instances can be created in the following Availability Zones:")
    for index, zone in enumerate(zones):
        print(f"\t{index+1}. {zone}")
    print(f"\t{len(zones)+1}. All zones")
    zone_sel = q.ask(
        "Which zone do you want to use? ", q.is_int, q.in_range(1, len(zones) + 1)
    )
    group_zones = [zones[zone_sel - 1]] if zone_sel <= len(zones) else zones
    print(f"Creating group {group_name}...")
    as_wrapper.create_autoscaling_group(group_name, group_zones, template_name, 1, 1)
    wait(10)
    group = as_wrapper.describe_group(group_name)
    logger.info("Created Auto Scaling group %s.", group_name)
    print("Created group:")
    pp(group)
    print("Waiting for instance to start...")
    wait_for_group(group_name, as_wrapper)
    print("-" * 88)

    use_metrics = q.ask(
        "Do you want to collect metrics about Amazon EC2 Auto Scaling during this demo (y/n)? ",
        q.is_yesno,
    )
    if use_metrics:
        as_wrapper.enable_metrics(
            group_name,
            [
                "GroupMinSize",
                "GroupMaxSize",
                "GroupDesiredCapacity",
                "GroupInServiceInstances",
                "GroupTotalInstances",
            ],
        )
        logger.info("Enabled metrics for Auto Scaling group %s.", group_name)
        print(f"Metrics enabled for {group_name}.")
    print("-" * 88)

    print(f"Let's update the maximum number of instances in {group_name} from 1 to 3.")
    q.ask("Press Enter when you're ready.")
    as_wrapper.update_group(group_name, MaxSize=3)
    group = as_wrapper.describe_group(group_name)
    logger.info("Updated maximum size for group %s to 3.", group_name)
    print("The group still has one running instance, but can have up to three:")
    print_simplified_group(group)
    print("-" * 88)

    print(f"Let's update the desired capacity of {group_name} from 1 to 2.")
    q.ask("Press Enter when you're ready.")
    as_wrapper.set_desired_capacity(group_name, 2)
    wait(10)
    group = as_wrapper.describe_group(group_name)
    logger.info("Set desired capacity for group %s to 2.", group_name)
    print("Here's the current state of the group:")
    print_simplified_group(group)
    print("-" * 88)
    print("Waiting for the new instance to start...")
    instance_ids = wait_for_group(group_name, as_wrapper)
    print("-" * 88)

    print(f"Let's terminate one of the instances in {group_name}.")
    print("Because the desired capacity is 2, another instance will start.")
    print("The currently running instances are:")
    for index, inst_id in enumerate(instance_ids):
        print(f"\t{index+1}. {inst_id}")
    inst_sel = q.ask(
        "Which instance do you want to stop? ",
        q.is_int,
        q.in_range(1, len(instance_ids) + 1),
    )
    print(f"Stopping {instance_ids[inst_sel-1]}...")
    as_wrapper.terminate_instance(instance_ids[inst_sel - 1], False)
    wait(10)
    group = as_wrapper.describe_group(group_name)
    logger.info(
        "Terminated instance %s in group %s.", instance_ids[inst_sel - 1], group_name
    )
    print(f"Here's the state of {group_name}:")
    print_simplified_group(group)
    print("Waiting for the scaling activities to complete...")
    wait_for_group(group_name, as_wrapper)
    print("-" * 88)

    print(f"Let's get a report of scaling activities for {group_name}.")
    q.ask("Press Enter when you're ready.")
    activities = as_wrapper.describe_scaling_activities(group_name)
    logger.info(
        "Retrieved %d scaling activities for group %s.", len(activities), group_name
    )
    print(
        f"Found {len(activities)} activities.\n"
        f"Activities are ordered with the most recent one first:"
    )
    for act in activities:
        pp(act)
    print("-" * 88)

    if use_metrics:
        print("Let's look at CloudWatch metrics.")
        metric_namespace = "AWS/AutoScaling"
        metric_dimensions = [{"Name": "AutoScalingGroupName", "Value": group_name}]
        print(f"The following metrics are enabled for {group_name}:")
        done = False
        while not done:
            metrics = svc_helper.get_metrics(metric_namespace, metric_dimensions)
            for index, metric in enumerate(metrics):
                print(f"\t{index+1}. {metric.name}")
            print(f"\t{len(metrics)+1}. None")
            metric_sel = q.ask(
                "Which metric do you want to see? ",
                q.is_int,
                q.in_range(1, len(metrics) + 1),
            )
            if metric_sel < len(metrics) + 1:
                span = 5
                metric = metrics[metric_sel - 1]
                print(f"Over the last {span} minutes, {metric.name} recorded:")
                # CloudWatch metric times are in the UTC+0 time zone.
                now = datetime.now(timezone.utc)
                metric_data = svc_helper.get_metric_statistics(
                    metric_dimensions, metric, now - timedelta(minutes=span), now
                )
                pp(metric_data)
                if not q.ask("Do you want to see another metric (y/n)? ", q.is_yesno):
                    done = True
            else:
                done = True

    print(f"Let's clean up.")
    q.ask("Press Enter when you're ready.")
    if use_metrics:
        print(f"Stopping metrics collection for {group_name}.")
        as_wrapper.disable_metrics(group_name)
        logger.info("Disabled metrics collection for group %s.", group_name)

    print(
        "You must terminate all instances in the group before you can delete the group."
    )
    print("Set minimum size to 0.")
    as_wrapper.update_group(group_name, MinSize=0)
    group = as_wrapper.describe_group(group_name)
    instance_ids = [inst["InstanceId"] for inst in group["Instances"]]
    for inst_id in instance_ids:
        print(f"Stopping {inst_id}.")
        as_wrapper.terminate_instance(inst_id, True)
        logger.info("Terminated instance %s in group %s.", inst_id, group_name)
    print("Waiting for instances to stop...")
    wait_for_instances(instance_ids, as_wrapper)
    print(f"Deleting {group_name}.")
    as_wrapper.delete_autoscaling_group(group_name)
    logger.info("Deleted Auto Scaling group %s.", group_name)
    print("-" * 88)

    if template is not None:
        if q.ask(
            f"Do you want to delete launch template {template_name} used in this demo (y/n)? "
        ):
            svc_helper.delete_template(template_name)
            logger.info("Deleted launch template %s.", template_name)
            print("Template deleted.")

    print("\nThanks for watching!")
    print("-" * 88)


if __name__ == "__main__":
    try:
        wrapper = AutoScalingWrapper(boto3.client("autoscaling"))
        helper = ServiceHelper(boto3.client("ec2"), boto3.resource("cloudwatch"))
        run_scenario(wrapper, helper)
    except Exception:
        logger.exception("Something went wrong with the demo!")
```
Tentukan fungsi yang dipanggil oleh skenario untuk mengelola template dan metrik peluncuran. Fungsi-fungsi ini membungkus Amazon EC2 dan CloudWatch tindakan.  

```
class ServiceHelper:
    """Encapsulates Amazon EC2 and CloudWatch actions for the example."""

    def __init__(self, ec2_client, cloudwatch_resource):
        """
        :param ec2_client: A Boto3 Amazon EC2 client.
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.ec2_client = ec2_client
        self.cloudwatch_resource = cloudwatch_resource

    def get_template(self, template_name: str) -> dict:
        """
        Gets a launch template. Launch templates specify configuration for instances
        that are launched by Amazon EC2 Auto Scaling.

        :param template_name: The name of the template to look up.
        :return: The template, if it exists.
        :raises ClientError: If there is an error retrieving the launch template.
        """
        try:
            response = self.ec2_client.describe_launch_templates(
                LaunchTemplateNames=[template_name]
            )
            template = response["LaunchTemplates"][0]
            logger.info("Launch template %s retrieved successfully.", template_name)
            return template
        except ClientError as err:
            if (
                err.response["Error"]["Code"]
                == "InvalidLaunchTemplateName.NotFoundException"
            ):
                logger.warning("Launch template %s does not exist.", template_name)
            else:
                logger.error(
                    "Couldn't verify launch template %s. Error: %s: %s",
                    template_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise

    def create_template(self, template_name: str, inst_type: str, ami_id: str) -> dict:
        """
        Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling.

        :param template_name: The name to give to the template.
        :param inst_type: The type of the instance, such as t1.micro.
        :param ami_id: The ID of the Amazon Machine Image (AMI) to use when creating
                       an instance.
        :return: Information about the newly created template.
        :raises ClientError: If there is an error creating the launch template.
        """
        try:
            response = self.ec2_client.create_launch_template(
                LaunchTemplateName=template_name,
                LaunchTemplateData={"InstanceType": inst_type, "ImageId": ami_id},
            )
            template = response["LaunchTemplate"]
            logger.info(
                "Created launch template %s with instance type %s and AMI ID %s.",
                template_name,
                inst_type,
                ami_id,
            )
            return template
        except ClientError as err:
            logger.error(
                "Couldn't create launch template %s. Error: %s: %s",
                template_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise

    def delete_template(self, template_name: str) -> None:
        """
        Deletes a launch template.

        :param template_name: The name of the template to delete.
        :raises ClientError: If there is an error deleting the launch template.
        """
        try:
            self.ec2_client.delete_launch_template(LaunchTemplateName=template_name)
            logger.info("Deleted launch template %s.", template_name)
        except ClientError as err:
            logger.error(
                "Couldn't delete launch template %s. Error: %s: %s",
                template_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise

    def get_availability_zones(self) -> list:
        """
        Gets a list of Availability Zones in the AWS Region of the Amazon EC2 client.

        :return: The list of Availability Zones for the client Region.
        :raises ClientError: If there is an error retrieving availability zones.
        """
        try:
            response = self.ec2_client.describe_availability_zones()
            zones = [zone["ZoneName"] for zone in response["AvailabilityZones"]]
            logger.info("Retrieved availability zones: %s.", ", ".join(zones))
            return zones
        except ClientError as err:
            logger.error(
                "Couldn't get availability zones. Error: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise

    def get_metrics(self, namespace: str, dimensions: list) -> list:
        """
        Gets a list of CloudWatch metrics filtered by namespace and dimensions.

        :param namespace: The namespace of the metrics to look up.
        :param dimensions: The dimensions of the metrics to look up.
        :return: The list of metrics.
        :raises ClientError: If there is an error retrieving CloudWatch metrics.
        """
        try:
            metrics = list(
                self.cloudwatch_resource.metrics.filter(
                    Namespace=namespace, Dimensions=dimensions
                )
            )
            logger.info(
                "Retrieved metrics for namespace %s with dimensions %s.",
                namespace,
                dimensions,
            )
            return metrics
        except ClientError as err:
            logger.error(
                "Couldn't get metrics for %s, %s. Error: %s: %s",
                namespace,
                dimensions,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise

    @staticmethod
    def get_metric_statistics(
        dimensions: list, metric, start: datetime, end: datetime
    ) -> list:
        """
        Gets statistics for a CloudWatch metric within a specified time span.

        :param dimensions: The dimensions of the metric.
        :param metric: The metric to look up.
        :param start: The start of the time span for retrieved metrics.
        :param end: The end of the time span for retrieved metrics.
        :return: The list of data points found for the specified metric.
        :raises ClientError: If there is an error retrieving metric statistics.
        """
        try:
            response = metric.get_statistics(
                Dimensions=dimensions,
                StartTime=start,
                EndTime=end,
                Period=60,
                Statistics=["Sum"],
            )
            data = response["Datapoints"]
            logger.info("Retrieved statistics for metric %s.", metric.name)
            return data
        except ClientError as err:
            logger.error(
                "Couldn't get statistics for metric %s. Error: %s: %s",
                metric.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


def print_simplified_group(group: dict) -> None:
    """
    Prints a subset of data for an Auto Scaling group.

    :param group: The Auto Scaling group data to print.
    :return: None
    """
    print(group["AutoScalingGroupName"])
    print(f"\tLaunch template: {group['LaunchTemplate']['LaunchTemplateName']}")
    print(
        f"\tMin: {group['MinSize']}, Max: {group['MaxSize']}, Desired: {group['DesiredCapacity']}"
    )
    if group["Instances"]:
        print(f"\tInstances:")
        for inst in group["Instances"]:
            print(f"\t\t{inst['InstanceId']}: {inst['LifecycleState']}")


def wait_for_group(group_name: str, as_wrapper: AutoScalingWrapper) -> list:
    """
    Waits for instances to start or stop in an Auto Scaling group.
    Prints the data for each instance after scaling activities are complete.

    :param group_name: The name of the Auto Scaling group.
    :param as_wrapper: The AutoScalingWrapper that manages Auto Scaling groups.
    :return: A list of instance IDs in the group.
    """
    group = as_wrapper.describe_group(group_name)
    instance_ids = [i["InstanceId"] for i in group["Instances"]]
    return wait_for_instances(instance_ids, as_wrapper)


def wait_for_instances(instance_ids: list, as_wrapper: AutoScalingWrapper) -> list:
    """
    Waits for instances to start or stop in an Auto Scaling group.
    Prints the data for each instance after scaling activities are complete.

    :param instance_ids: A list of instance IDs to wait for.
    :param as_wrapper: The AutoScalingWrapper that manages Auto Scaling groups.
    :return: A list of instance IDs that were waited on.
    """
    ready = False
    instances = []
    while not ready:
        instances = as_wrapper.describe_instances(instance_ids) if instance_ids else []
        if all([x["LifecycleState"] in ["Terminated", "InService"] for x in instances]):
            ready = True
        else:
            wait(10)
    if instances:
        print(
            f"Here are the details of the instance{'s' if len(instances) > 1 else ''}:"
        )
        for instance in instances:
            pp(instance)
    return instance_ids
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingInstances)
  + [DescribeScalingActivities](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeScalingActivities)
  + [DisableMetricsCollection](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DisableMetricsCollection)
  + [EnableMetricsCollection](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/EnableMetricsCollection)
  + [SetDesiredCapacity](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/SetDesiredCapacity)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

## Tindakan
<a name="actions"></a>

### `AttachLoadBalancerTargetGroups`
<a name="auto-scaling_AttachLoadBalancerTargetGroups_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachLoadBalancerTargetGroups`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def attach_load_balancer_target_group(
        self, lb_target_group: Dict[str, Any]
    ) -> None:
        """
        Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
        The target group specifies how the load balancer forwards requests to the instances
        in the group.

        :param lb_target_group: Data about the ELB target group to attach.
        """
        try:
            self.autoscaling_client.attach_load_balancer_target_groups(
                AutoScalingGroupName=self.group_name,
                TargetGroupARNs=[lb_target_group["TargetGroupArn"]],
            )
            log.info(
                "Attached load balancer target group %s to auto scaling group %s.",
                lb_target_group["TargetGroupName"],
                self.group_name,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to attach load balancer target group '{lb_target_group['TargetGroupName']}'."
            )
            if error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            elif error_code == "ServiceLinkedRoleFailure":
                log.error(
                    "The operation failed because the service-linked role is not ready or does not exist. "
                    "Check that the service-linked role exists and is correctly configured."
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAutoScalingGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def create_group(
        self,
        group_name: str,
        group_zones: List[str],
        launch_template_name: str,
        min_size: int,
        max_size: int,
    ) -> None:
        """
        Creates an Auto Scaling group.

        :param group_name: The name to give to the group.
        :param group_zones: The Availability Zones in which instances can be created.
        :param launch_template_name: The name of an existing Amazon EC2 launch template.
                                     The launch template specifies the configuration of
                                     instances that are created by auto scaling activities.
        :param min_size: The minimum number of active instances in the group.
        :param max_size: The maximum number of active instances in the group.
        :return: None
        :raises ClientError: If there is an error creating the Auto Scaling group.
        """
        try:
            self.autoscaling_client.create_auto_scaling_group(
                AutoScalingGroupName=group_name,
                AvailabilityZones=group_zones,
                LaunchTemplate={
                    "LaunchTemplateName": launch_template_name,
                    "Version": "$Default",
                },
                MinSize=min_size,
                MaxSize=max_size,
            )

            # Wait for the group to exist.
            waiter = self.autoscaling_client.get_waiter("group_exists")
            waiter.wait(AutoScalingGroupNames=[group_name])

            logger.info(f"Successfully created Auto Scaling group {group_name}.")

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(f"Failed to create Auto Scaling group {group_name}.")
            if error_code == "AlreadyExistsFault":
                logger.error(
                    f"An Auto Scaling group with the name '{group_name}' already exists. "
                    "Please use a different name or update the existing group.",
                )
            elif error_code == "LimitExceededFault":
                logger.error(
                    "The request failed because you have reached the limit "
                    "on the number of Auto Scaling groups or launch configurations. "
                    "Consider deleting unused resources or request a limit increase. "
                    "\nSee Auto Scaling Service Quota documentation here:"
                    "\n\thttps://docs.aws.amazon.com/autoscaling/ec2/userguide/ec2-auto-scaling-quotas.html"
                )
            logger.error(f"Full error:\n\t{err}")
            raise
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/CreateAutoScalingGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAutoScalingGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 
Perbarui ukuran minimum grup Auto Scaling ke nol, hentikan semua instance dalam grup, dan hapus grup.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def delete_autoscaling_group(self, group_name: str) -> None:
        """
        Terminates all instances in the group, then deletes the EC2 Auto Scaling group.

        :param group_name: The name of the group to delete.
        """
        try:
            response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[group_name]
            )
            groups = response.get("AutoScalingGroups", [])
            if len(groups) > 0:
                self.autoscaling_client.update_auto_scaling_group(
                    AutoScalingGroupName=group_name, MinSize=0
                )
                instance_ids = [inst["InstanceId"] for inst in groups[0]["Instances"]]
                for inst_id in instance_ids:
                    self.terminate_instance(inst_id)

                # Wait for all instances to be terminated
                if instance_ids:
                    waiter = self.ec2_client.get_waiter("instance_terminated")
                    log.info("Waiting for all instances to be terminated...")
                    waiter.wait(InstanceIds=instance_ids)
                    log.info("All instances have been terminated.")
            else:
                log.info(f"No groups found named '{group_name}'! Nothing to do.")
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete Auto Scaling group '{group_name}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to delete the group again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the group."
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DeleteAutoScalingGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeAutoScalingGroups`
<a name="auto-scaling_DescribeAutoScalingGroups_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingGroups`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def describe_group(self, group_name: str) -> Optional[Dict[str, Any]]:
        """
        Gets information about an Auto Scaling group.

        :param group_name: The name of the group to look up.
        :return: A dictionary with information about the group if found, otherwise None.
        :raises ClientError: If there is an error describing the Auto Scaling group.
        """
        try:
            paginator = self.autoscaling_client.get_paginator(
                "describe_auto_scaling_groups"
            )
            response_iterator = paginator.paginate(AutoScalingGroupNames=[group_name])
            groups = []
            for response in response_iterator:
                groups.extend(response.get("AutoScalingGroups", []))

            logger.info(
                f"Successfully retrieved information for Auto Scaling group {group_name}."
            )

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(f"Failed to describe Auto Scaling group {group_name}.")
            if error_code == "ResourceContentionFault":
                logger.error(
                    "There is a conflict with another operation that is modifying the "
                    f"Auto Scaling group '{group_name}' Please try again later."
                )
            logger.error(f"Full error:\n\t{err}")
            raise
        else:
            return groups[0] if len(groups) > 0 else None
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeAutoScalingInstances`
<a name="auto-scaling_DescribeAutoScalingInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def describe_instances(self, instance_ids: List[str]) -> List[Dict[str, Any]]:
        """
        Gets information about instances.

        :param instance_ids: A list of instance IDs to look up.
        :return: A list of dictionaries with information about each instance,
                 or an empty list if none are found.
        :raises ClientError: If there is an error describing the instances.
        """
        try:
            paginator = self.autoscaling_client.get_paginator(
                "describe_auto_scaling_instances"
            )
            response_iterator = paginator.paginate(InstanceIds=instance_ids)

            instances = []
            for response in response_iterator:
                instances.extend(response.get("AutoScalingInstances", []))

            logger.info(f"Successfully described instances: {instance_ids}")

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(
                f"Couldn't describe instances {instance_ids}. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )
            raise
        else:
            return instances
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingInstances)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeScalingActivities`
<a name="auto-scaling_DescribeScalingActivities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingActivities`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def describe_scaling_activities(self, group_name: str) -> List[Dict[str, Any]]:
        """
        Gets information about scaling activities for the group. Scaling activities
        are things like instances stopping or starting in response to user requests
        or capacity changes.

        :param group_name: The name of the group to look up.
        :return: A list of dictionaries representing the scaling activities for the
                 group, ordered with the most recent activity first.
        :raises ClientError: If there is an error describing the scaling activities.
        """
        try:
            paginator = self.autoscaling_client.get_paginator(
                "describe_scaling_activities"
            )
            response_iterator = paginator.paginate(AutoScalingGroupName=group_name)
            activities = []
            for response in response_iterator:
                activities.extend(response.get("Activities", []))

            logger.info(
                f"Successfully described scaling activities for group '{group_name}'."
            )

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(
                f"Couldn't describe scaling activities for group '{group_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "ResourceContentionFault":
                logger.error(
                    f"There is a conflict with another operation that is modifying the Auto Scaling group '{group_name}'. "
                    "Please try again later."
                )
            raise
        else:
            return activities
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeScalingActivities)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DisableMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableMetricsCollection`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def disable_metrics(self, group_name: str) -> Dict[str, Any]:
        """
        Stops CloudWatch metric collection for the Auto Scaling group.

        :param group_name: The name of the group.
        :return: A dictionary with the response from disabling the metrics collection.
        :raises ClientError: If there is an error disabling metrics collection.
        """
        try:
            response = self.autoscaling_client.disable_metrics_collection(
                AutoScalingGroupName=group_name
            )
            logger.info(
                f"Successfully disabled metrics collection for group '{group_name}'."
            )
            return response
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(
                f"Couldn't disable metrics for group '{group_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "ResourceContentionFault":
                logger.error(
                    f"There is a conflict with another operation that is modifying the Auto Scaling group '{group_name}'. "
                    "Please try again later."
                )
            raise
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DisableMetricsCollection)di *AWS SDK for Python (Boto3) Referensi* API. 

### `EnableMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableMetricsCollection`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def enable_metrics(self, group_name: str, metrics: List[str]) -> Dict[str, Any]:
        """
        Enables CloudWatch metric collection for Amazon EC2 Auto Scaling activities.

        :param group_name: The name of the group to enable.
        :param metrics: A list of metrics to collect.
        :return: A dictionary with the response from enabling the metrics collection.
        :raises ClientError: If there is an error enabling metrics collection.
        """
        try:
            response = self.autoscaling_client.enable_metrics_collection(
                AutoScalingGroupName=group_name, Metrics=metrics, Granularity="1Minute"
            )
            logger.info(
                f"Successfully enabled metrics for Auto Scaling group '{group_name}'."
            )

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(
                f"Couldn't enable metrics on '{group_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "ResourceContentionFault":
                logger.error(
                    f"There is a conflict with another operation that is modifying the Auto Scaling group '{group_name}'. "
                    "Please try again later."
                )
            elif error_code == "InvalidParameterCombination":
                logger.error(
                    f"The combination of parameters provided for enabling metrics on '{group_name}' is not valid. "
                    "Please check the parameters and try again."
                )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/EnableMetricsCollection)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SetDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDesiredCapacity`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def set_desired_capacity(self, group_name: str, capacity: int) -> None:
        """
        Sets the desired capacity of the group. Amazon EC2 Auto Scaling tries to keep the
        number of running instances equal to the desired capacity.

        :param group_name: The name of the group to update.
        :param capacity: The desired number of running instances.
        :return: None
        :raises ClientError: If there is an error setting the desired capacity.
        """
        try:
            self.autoscaling_client.set_desired_capacity(
                AutoScalingGroupName=group_name,
                DesiredCapacity=capacity,
                HonorCooldown=False,
            )
            logger.info(
                f"Successfully set desired capacity of {capacity} for Auto Scaling group '{group_name}'."
            )

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(
                f"Failed to set desired capacity for Auto Scaling group '{group_name}'."
            )
            if error_code == "ScalingActivityInProgress":
                logger.error(
                    f"A scaling activity is currently in progress for the Auto Scaling group '{group_name}'. "
                    "Please wait for the activity to complete before attempting to set the desired capacity."
                )
            logger.error(f"Full error:\n\t{err}")
            raise
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/SetDesiredCapacity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `TerminateInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstanceInAutoScalingGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def terminate_instance(
        self, instance_id: str, decrease_capacity: bool
    ) -> Dict[str, Any]:
        """
        Stops an instance.

        :param instance_id: The ID of the instance to stop.
        :param decrease_capacity: Specifies whether to decrease the desired capacity
                                  of the group. When passing True for this parameter,
                                  you can stop an instance without having a replacement
                                  instance start when the desired capacity threshold is
                                  crossed.
        :return: A dictionary containing details of the scaling activity that occurs
                 in response to this action.
        :raises ClientError: If there is an error terminating the instance.
        """
        try:
            response = self.autoscaling_client.terminate_instance_in_auto_scaling_group(
                InstanceId=instance_id, ShouldDecrementDesiredCapacity=decrease_capacity
            )
            logger.info(f"Successfully terminated instance {instance_id}.")
            return response["Activity"]

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(f"Failed to terminate instance {instance_id}.")
            if error_code == "ScalingActivityInProgress":
                logger.error(
                    "A scaling activity is currently in progress for the Auto Scaling group "
                    f"associated with instance '{instance_id}'. "
                    "Please wait for the activity to complete before attempting to terminate the instance."
                )
            elif error_code == "ResourceInUse":
                logger.error(
                    f"The instance '{instance_id}' or an associated resource is currently in use "
                    "and cannot be terminated. "
                    "Ensure the instance is not involved in any ongoing processes and try again."
                )
            logger.error(f"Full error:\n\t{err}")
            raise
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAutoScalingGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/auto-scaling#code-examples). 

```
class AutoScalingWrapper:
    """Encapsulates Amazon EC2 Auto Scaling actions."""

    def __init__(self, autoscaling_client):
        """
        :param autoscaling_client: A Boto3 Amazon EC2 Auto Scaling client.
        """
        self.autoscaling_client = autoscaling_client


    def update_group(self, group_name: str, **kwargs: Any) -> None:
        """
        Updates an Auto Scaling group.

        :param group_name: The name of the group to update.
        :param kwargs: Keyword arguments to pass through to the service.
        :return: None
        :raises ClientError: If there is an error updating the Auto Scaling group.
        """
        try:
            self.autoscaling_client.update_auto_scaling_group(
                AutoScalingGroupName=group_name, **kwargs
            )
            logger.info(f"Successfully updated Auto Scaling group {group_name}.")

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            logger.error(f"Failed to update Auto Scaling group {group_name}.")
            if error_code == "ResourceInUse":
                logger.error(
                    "The Auto Scaling group '%s' is currently in use and cannot be modified. Please try again later.",
                    group_name,
                )
            elif error_code == "ScalingActivityInProgress":
                logger.error(
                    f"A scaling activity is currently in progress for the Auto Scaling group '{group_name}'."
                    "Please wait for the activity to complete before attempting to update the group."
                )
            logger.error(f"Full error:\n\t{err}")
            raise
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/UpdateAutoScalingGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/resilient_service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
class Runner:
    """
    Manages the deployment, demonstration, and destruction of resources for the resilient service.
    """

    def __init__(
        self,
        resource_path: str,
        recommendation: RecommendationService,
        autoscaler: AutoScalingWrapper,
        loadbalancer: ElasticLoadBalancerWrapper,
        param_helper: ParameterHelper,
    ):
        """
        Initializes the Runner class with the necessary parameters.

        :param resource_path: The path to resource files used by this example, such as IAM policies and instance scripts.
        :param recommendation: An instance of the RecommendationService class.
        :param autoscaler: An instance of the AutoScaler class.
        :param loadbalancer: An instance of the LoadBalancer class.
        :param param_helper: An instance of the ParameterHelper class.
        """
        self.resource_path = resource_path
        self.recommendation = recommendation
        self.autoscaler = autoscaler
        self.loadbalancer = loadbalancer
        self.param_helper = param_helper
        self.protocol = "HTTP"
        self.port = 80
        self.ssh_port = 22

        prefix = "doc-example-resilience"
        self.target_group_name = f"{prefix}-tg"
        self.load_balancer_name = f"{prefix}-lb"

    def deploy(self) -> None:
        """
        Deploys the resources required for the resilient service, including the DynamoDB table,
        EC2 instances, Auto Scaling group, and load balancer.
        """
        recommendations_path = f"{self.resource_path}/recommendations.json"
        startup_script = f"{self.resource_path}/server_startup_script.sh"
        instance_policy = f"{self.resource_path}/instance_policy.json"

        logging.info("Starting deployment of resources for the resilient service.")

        logging.info(
            "Creating and populating DynamoDB table '%s'.",
            self.recommendation.table_name,
        )
        self.recommendation.create()
        self.recommendation.populate(recommendations_path)

        logging.info(
            "Creating an EC2 launch template with the startup script '%s'.",
            startup_script,
        )
        self.autoscaler.create_template(startup_script, instance_policy)

        logging.info(
            "Creating an EC2 Auto Scaling group across multiple Availability Zones."
        )
        zones = self.autoscaler.create_autoscaling_group(3)

        logging.info("Creating variables that control the flow of the demo.")
        self.param_helper.reset()

        logging.info("Creating Elastic Load Balancing target group and load balancer.")

        vpc = self.autoscaler.get_default_vpc()
        subnets = self.autoscaler.get_subnets(vpc["VpcId"], zones)
        target_group = self.loadbalancer.create_target_group(
            self.target_group_name, self.protocol, self.port, vpc["VpcId"]
        )
        self.loadbalancer.create_load_balancer(
            self.load_balancer_name, [subnet["SubnetId"] for subnet in subnets]
        )
        self.loadbalancer.create_listener(self.load_balancer_name, target_group)

        self.autoscaler.attach_load_balancer_target_group(target_group)

        logging.info("Verifying access to the load balancer endpoint.")
        endpoint = self.loadbalancer.get_endpoint(self.load_balancer_name)
        lb_success = self.loadbalancer.verify_load_balancer_endpoint(endpoint)
        current_ip_address = requests.get("http://checkip.amazonaws.com").text.strip()

        if not lb_success:
            logging.warning(
                "Couldn't connect to the load balancer. Verifying that the port is open..."
            )
            sec_group, port_is_open = self.autoscaler.verify_inbound_port(
                vpc, self.port, current_ip_address
            )
            sec_group, ssh_port_is_open = self.autoscaler.verify_inbound_port(
                vpc, self.ssh_port, current_ip_address
            )
            if not port_is_open:
                logging.warning(
                    "The default security group for your VPC must allow access from this computer."
                )
                if q.ask(
                    f"Do you want to add a rule to security group {sec_group['GroupId']} to allow\n"
                    f"inbound traffic on port {self.port} from your computer's IP address of {current_ip_address}? (y/n) ",
                    q.is_yesno,
                ):
                    self.autoscaler.open_inbound_port(
                        sec_group["GroupId"], self.port, current_ip_address
                    )
            if not ssh_port_is_open:
                if q.ask(
                    f"Do you want to add a rule to security group {sec_group['GroupId']} to allow\n"
                    f"inbound SSH traffic on port {self.ssh_port} for debugging from your computer's IP address of {current_ip_address}? (y/n) ",
                    q.is_yesno,
                ):
                    self.autoscaler.open_inbound_port(
                        sec_group["GroupId"], self.ssh_port, current_ip_address
                    )
            lb_success = self.loadbalancer.verify_load_balancer_endpoint(endpoint)

        if lb_success:
            logging.info(
                "Load balancer is ready. Access it at: http://%s", current_ip_address
            )
        else:
            logging.error(
                "Couldn't get a successful response from the load balancer endpoint. Please verify your VPC and security group settings."
            )

    def demo_choices(self) -> None:
        """
        Presents choices for interacting with the deployed service, such as sending requests to
        the load balancer or checking the health of the targets.
        """
        actions = [
            "Send a GET request to the load balancer endpoint.",
            "Check the health of load balancer targets.",
            "Go to the next part of the demo.",
        ]
        choice = 0
        while choice != 2:
            logging.info("Choose an action to interact with the service.")
            choice = q.choose("Which action would you like to take? ", actions)
            if choice == 0:
                logging.info("Sending a GET request to the load balancer endpoint.")
                endpoint = self.loadbalancer.get_endpoint(self.load_balancer_name)
                logging.info("GET http://%s", endpoint)
                response = requests.get(f"http://{endpoint}")
                logging.info("Response: %s", response.status_code)
                if response.headers.get("content-type") == "application/json":
                    pp(response.json())
            elif choice == 1:
                logging.info("Checking the health of load balancer targets.")
                health = self.loadbalancer.check_target_health(self.target_group_name)
                for target in health:
                    state = target["TargetHealth"]["State"]
                    logging.info(
                        "Target %s on port %d is %s",
                        target["Target"]["Id"],
                        target["Target"]["Port"],
                        state,
                    )
                    if state != "healthy":
                        logging.warning(
                            "%s: %s",
                            target["TargetHealth"]["Reason"],
                            target["TargetHealth"]["Description"],
                        )
                logging.info(
                    "Note that it can take a minute or two for the health check to update."
                )
            elif choice == 2:
                logging.info("Proceeding to the next part of the demo.")

    def demo(self) -> None:
        """
        Runs the demonstration, showing how the service responds to different failure scenarios
        and how a resilient architecture can keep the service running.
        """
        ssm_only_policy = f"{self.resource_path}/ssm_only_policy.json"

        logging.info("Resetting parameters to starting values for the demo.")
        self.param_helper.reset()

        logging.info(
            "Starting demonstration of the service's resilience under various failure conditions."
        )
        self.demo_choices()

        logging.info(
            "Simulating failure by changing the Systems Manager parameter to a non-existent table."
        )
        self.param_helper.put(self.param_helper.table, "this-is-not-a-table")
        logging.info("Sending GET requests will now return failure codes.")
        self.demo_choices()

        logging.info("Switching to static response mode to mitigate failure.")
        self.param_helper.put(self.param_helper.failure_response, "static")
        logging.info("Sending GET requests will now return static responses.")
        self.demo_choices()

        logging.info("Restoring normal operation of the recommendation service.")
        self.param_helper.put(self.param_helper.table, self.recommendation.table_name)

        logging.info(
            "Introducing a failure by assigning bad credentials to one of the instances."
        )
        self.autoscaler.create_instance_profile(
            ssm_only_policy,
            self.autoscaler.bad_creds_policy_name,
            self.autoscaler.bad_creds_role_name,
            self.autoscaler.bad_creds_profile_name,
            ["AmazonSSMManagedInstanceCore"],
        )
        instances = self.autoscaler.get_instances()
        bad_instance_id = instances[0]
        instance_profile = self.autoscaler.get_instance_profile(bad_instance_id)
        logging.info(
            "Replacing instance profile with bad credentials for instance %s.",
            bad_instance_id,
        )
        self.autoscaler.replace_instance_profile(
            bad_instance_id,
            self.autoscaler.bad_creds_profile_name,
            instance_profile["AssociationId"],
        )
        logging.info(
            "Sending GET requests may return either a valid recommendation or a static response."
        )
        self.demo_choices()

        logging.info("Implementing deep health checks to detect unhealthy instances.")
        self.param_helper.put(self.param_helper.health_check, "deep")
        logging.info("Checking the health of the load balancer targets.")
        self.demo_choices()

        logging.info(
            "Terminating the unhealthy instance to let the auto scaler replace it."
        )
        self.autoscaler.terminate_instance(bad_instance_id)
        logging.info("The service remains resilient during instance replacement.")
        self.demo_choices()

        logging.info("Simulating a complete failure of the recommendation service.")
        self.param_helper.put(self.param_helper.table, "this-is-not-a-table")
        logging.info(
            "All instances will report as unhealthy, but the service will still return static responses."
        )
        self.demo_choices()
        self.param_helper.reset()

    def destroy(self, automation=False) -> None:
        """
        Destroys all resources created for the demo, including the load balancer, Auto Scaling group,
        EC2 instances, and DynamoDB table.
        """
        logging.info(
            "This concludes the demo. Preparing to clean up all AWS resources created during the demo."
        )
        if automation:
            cleanup = True
        else:
            cleanup = q.ask(
                "Do you want to clean up all demo resources? (y/n) ", q.is_yesno
            )

        if cleanup:
            logging.info("Deleting load balancer and related resources.")
            self.loadbalancer.delete_load_balancer(self.load_balancer_name)
            self.loadbalancer.delete_target_group(self.target_group_name)
            self.autoscaler.delete_autoscaling_group(self.autoscaler.group_name)
            self.autoscaler.delete_key_pair()
            self.autoscaler.delete_template()
            self.autoscaler.delete_instance_profile(
                self.autoscaler.bad_creds_profile_name,
                self.autoscaler.bad_creds_role_name,
            )
            logging.info("Deleting DynamoDB table and other resources.")
            self.recommendation.destroy()
        else:
            logging.warning(
                "Resources have not been deleted. Ensure you clean them up manually to avoid unexpected charges."
            )


def main() -> None:
    """
    Main function to parse arguments and run the appropriate actions for the demo.
    """
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--action",
        required=True,
        choices=["all", "deploy", "demo", "destroy"],
        help="The action to take for the demo. When 'all' is specified, resources are\n"
        "deployed, the demo is run, and resources are destroyed.",
    )
    parser.add_argument(
        "--resource_path",
        default="../../../scenarios/features/resilient_service/resources",
        help="The path to resource files used by this example, such as IAM policies and\n"
        "instance scripts.",
    )
    args = parser.parse_args()

    logging.info("Starting the Resilient Service demo.")

    prefix = "doc-example-resilience"

    # Service Clients
    ddb_client = boto3.client("dynamodb")
    elb_client = boto3.client("elbv2")
    autoscaling_client = boto3.client("autoscaling")
    ec2_client = boto3.client("ec2")
    ssm_client = boto3.client("ssm")
    iam_client = boto3.client("iam")

    # Wrapper instantiations
    recommendation = RecommendationService(
        "doc-example-recommendation-service", ddb_client
    )
    autoscaling_wrapper = AutoScalingWrapper(
        prefix,
        "t3.micro",
        "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
        autoscaling_client,
        ec2_client,
        ssm_client,
        iam_client,
    )
    elb_wrapper = ElasticLoadBalancerWrapper(elb_client)
    param_helper = ParameterHelper(recommendation.table_name, ssm_client)

    # Demo invocation
    runner = Runner(
        args.resource_path,
        recommendation,
        autoscaling_wrapper,
        elb_wrapper,
        param_helper,
    )
    actions = [args.action] if args.action != "all" else ["deploy", "demo", "destroy"]
    for action in actions:
        if action == "deploy":
            runner.deploy()
        elif action == "demo":
            runner.demo()
        elif action == "destroy":
            runner.destroy()

    logging.info("Demo completed successfully.")


if __name__ == "__main__":
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    main()
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def create_policy(self, policy_file: str, policy_name: str) -> str:
        """
        Creates a new IAM policy or retrieves the ARN of an existing policy.

        :param policy_file: The path to a JSON file that contains the policy definition.
        :param policy_name: The name to give the created policy.
        :return: The ARN of the created or existing policy.
        """
        with open(policy_file) as file:
            policy_doc = file.read()

        try:
            response = self.iam_client.create_policy(
                PolicyName=policy_name, PolicyDocument=policy_doc
            )
            policy_arn = response["Policy"]["Arn"]
            log.info(f"Policy '{policy_name}' created successfully. ARN: {policy_arn}")
            return policy_arn

        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                # If the policy already exists, get its ARN
                response = self.iam_client.get_policy(
                    PolicyArn=f"arn:aws:iam::{self.account_id}:policy/{policy_name}"
                )
                policy_arn = response["Policy"]["Arn"]
                log.info(f"Policy '{policy_name}' already exists. ARN: {policy_arn}")
                return policy_arn
            log.error(f"Full error:\n\t{err}")

    def create_role(self, role_name: str, assume_role_doc: dict) -> str:
        """
        Creates a new IAM role or retrieves the ARN of an existing role.

        :param role_name: The name to give the created role.
        :param assume_role_doc: The assume role policy document that specifies which
                                entities can assume the role.
        :return: The ARN of the created or existing role.
        """
        try:
            response = self.iam_client.create_role(
                RoleName=role_name, AssumeRolePolicyDocument=json.dumps(assume_role_doc)
            )
            role_arn = response["Role"]["Arn"]
            log.info(f"Role '{role_name}' created successfully. ARN: {role_arn}")
            return role_arn

        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                # If the role already exists, get its ARN
                response = self.iam_client.get_role(RoleName=role_name)
                role_arn = response["Role"]["Arn"]
                log.info(f"Role '{role_name}' already exists. ARN: {role_arn}")
                return role_arn
            log.error(f"Full error:\n\t{err}")

    def attach_policy(
        self,
        role_name: str,
        policy_arn: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> None:
        """
        Attaches an IAM policy to a role and optionally attaches additional AWS-managed policies.

        :param role_name: The name of the role to attach the policy to.
        :param policy_arn: The ARN of the policy to attach.
        :param aws_managed_policies: A tuple of AWS-managed policy names to attach to the role.
        """
        try:
            self.iam_client.attach_role_policy(RoleName=role_name, PolicyArn=policy_arn)
            for aws_policy in aws_managed_policies:
                self.iam_client.attach_role_policy(
                    RoleName=role_name,
                    PolicyArn=f"arn:aws:iam::aws:policy/{aws_policy}",
                )
            log.info(f"Attached policy {policy_arn} to role {role_name}.")
        except ClientError as err:
            log.error(f"Failed to attach policy {policy_arn} to role {role_name}.")
            log.error(f"Full error:\n\t{err}")

    def create_instance_profile(
        self,
        policy_file: str,
        policy_name: str,
        role_name: str,
        profile_name: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> str:
        """
        Creates a policy, role, and profile that is associated with instances created by
        this class. An instance's associated profile defines a role that is assumed by the
        instance. The role has attached policies that specify the AWS permissions granted to
        clients that run on the instance.

        :param policy_file: The name of a JSON file that contains the policy definition to
                            create and attach to the role.
        :param policy_name: The name to give the created policy.
        :param role_name: The name to give the created role.
        :param profile_name: The name to the created profile.
        :param aws_managed_policies: Additional AWS-managed policies that are attached to
                                     the role, such as AmazonSSMManagedInstanceCore to grant
                                     use of Systems Manager to send commands to the instance.
        :return: The ARN of the profile that is created.
        """
        assume_role_doc = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Effect": "Allow",
                    "Principal": {"Service": "ec2.amazonaws.com"},
                    "Action": "sts:AssumeRole",
                }
            ],
        }
        policy_arn = self.create_policy(policy_file, policy_name)
        self.create_role(role_name, assume_role_doc)
        self.attach_policy(role_name, policy_arn, aws_managed_policies)

        try:
            profile_response = self.iam_client.create_instance_profile(
                InstanceProfileName=profile_name
            )
            waiter = self.iam_client.get_waiter("instance_profile_exists")
            waiter.wait(InstanceProfileName=profile_name)
            time.sleep(10)  # wait a little longer
            profile_arn = profile_response["InstanceProfile"]["Arn"]
            self.iam_client.add_role_to_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            log.info("Created profile %s and added role %s.", profile_name, role_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                prof_response = self.iam_client.get_instance_profile(
                    InstanceProfileName=profile_name
                )
                profile_arn = prof_response["InstanceProfile"]["Arn"]
                log.info(
                    "Instance profile %s already exists, nothing to do.", profile_name
                )
            log.error(f"Full error:\n\t{err}")
        return profile_arn


    def get_instance_profile(self, instance_id: str) -> Dict[str, Any]:
        """
        Gets data about the profile associated with an instance.

        :param instance_id: The ID of the instance to look up.
        :return: The profile data.
        """
        try:
            response = self.ec2_client.describe_iam_instance_profile_associations(
                Filters=[{"Name": "instance-id", "Values": [instance_id]}]
            )
            if not response["IamInstanceProfileAssociations"]:
                log.info(f"No instance profile found for instance {instance_id}.")
            profile_data = response["IamInstanceProfileAssociations"][0]
            log.info(f"Retrieved instance profile for instance {instance_id}.")
            return profile_data
        except ClientError as err:
            log.error(
                f"Failed to retrieve instance profile for instance {instance_id}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                log.error(f"The instance ID '{instance_id}' does not exist.")
            log.error(f"Full error:\n\t{err}")


    def replace_instance_profile(
        self,
        instance_id: str,
        new_instance_profile_name: str,
        profile_association_id: str,
    ) -> None:
        """
        Replaces the profile associated with a running instance. After the profile is
        replaced, the instance is rebooted to ensure that it uses the new profile. When
        the instance is ready, Systems Manager is used to restart the Python web server.

        :param instance_id: The ID of the instance to restart.
        :param new_instance_profile_name: The name of the new profile to associate with
                                          the specified instance.
        :param profile_association_id: The ID of the existing profile association for the
                                       instance.
        """
        try:
            self.ec2_client.replace_iam_instance_profile_association(
                IamInstanceProfile={"Name": new_instance_profile_name},
                AssociationId=profile_association_id,
            )
            log.info(
                "Replaced instance profile for association %s with profile %s.",
                profile_association_id,
                new_instance_profile_name,
            )
            time.sleep(5)

            self.ec2_client.reboot_instances(InstanceIds=[instance_id])
            log.info("Rebooting instance %s.", instance_id)
            waiter = self.ec2_client.get_waiter("instance_running")
            log.info("Waiting for instance %s to be running.", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info("Instance %s is now running.", instance_id)

            self.ssm_client.send_command(
                InstanceIds=[instance_id],
                DocumentName="AWS-RunShellScript",
                Parameters={"commands": ["cd / && sudo python3 server.py 80"]},
            )
            log.info(f"Restarted the Python web server on instance '{instance_id}'.")
        except ClientError as err:
            log.error("Failed to replace instance profile.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidAssociationID.NotFound":
                log.error(
                    f"Association ID '{profile_association_id}' does not exist."
                    "Please check the association ID and try again."
                )
            if error_code == "InvalidInstanceId":
                log.error(
                    f"The specified instance ID '{instance_id}' does not exist or is not available for SSM. "
                    f"Please verify the instance ID and try again."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_instance_profile(self, profile_name: str, role_name: str) -> None:
        """
        Detaches a role from an instance profile, detaches policies from the role,
        and deletes all the resources.

        :param profile_name: The name of the profile to delete.
        :param role_name: The name of the role to delete.
        """
        try:
            self.iam_client.remove_role_from_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            self.iam_client.delete_instance_profile(InstanceProfileName=profile_name)
            log.info("Deleted instance profile %s.", profile_name)
            attached_policies = self.iam_client.list_attached_role_policies(
                RoleName=role_name
            )
            for pol in attached_policies["AttachedPolicies"]:
                self.iam_client.detach_role_policy(
                    RoleName=role_name, PolicyArn=pol["PolicyArn"]
                )
                if not pol["PolicyArn"].startswith("arn:aws:iam::aws"):
                    self.iam_client.delete_policy(PolicyArn=pol["PolicyArn"])
                log.info("Detached and deleted policy %s.", pol["PolicyName"])
            self.iam_client.delete_role(RoleName=role_name)
            log.info("Deleted role %s.", role_name)
        except ClientError as err:
            log.error(
                f"Couldn't delete instance profile {profile_name} or detach "
                f"policies and delete role {role_name}: {err}"
            )
            if err.response["Error"]["Code"] == "NoSuchEntity":
                log.info(
                    "Instance profile %s doesn't exist, nothing to do.", profile_name
                )


    def create_key_pair(self, key_pair_name: str) -> None:
        """
        Creates a new key pair.

        :param key_pair_name: The name of the key pair to create.
        """
        try:
            response = self.ec2_client.create_key_pair(KeyName=key_pair_name)
            with open(f"{key_pair_name}.pem", "w") as file:
                file.write(response["KeyMaterial"])
            chmod(f"{key_pair_name}.pem", 0o600)
            log.info("Created key pair %s.", key_pair_name)
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to create key pair {key_pair_name}.")
            if error_code == "InvalidKeyPair.Duplicate":
                log.error(f"A key pair with the name '{key_pair_name}' already exists.")
            log.error(f"Full error:\n\t{err}")


    def delete_key_pair(self) -> None:
        """
        Deletes a key pair.
        """
        try:
            self.ec2_client.delete_key_pair(KeyName=self.key_pair_name)
            remove(f"{self.key_pair_name}.pem")
            log.info("Deleted key pair %s.", self.key_pair_name)
        except ClientError as err:
            log.error(f"Couldn't delete key pair '{self.key_pair_name}'.")
            log.error(f"Full error:\n\t{err}")
        except FileNotFoundError as err:
            log.info("Key pair %s doesn't exist, nothing to do.", self.key_pair_name)
            log.error(f"Full error:\n\t{err}")


    def create_template(
        self, server_startup_script_file: str, instance_policy_file: str
    ) -> Dict[str, Any]:
        """
        Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling. The
        launch template specifies a Bash script in its user data field that runs after
        the instance is started. This script installs Python packages and starts a
        Python web server on the instance.

        :param server_startup_script_file: The path to a Bash script file that is run
                                           when an instance starts.
        :param instance_policy_file: The path to a file that defines a permissions policy
                                     to create and attach to the instance profile.
        :return: Information about the newly created template.
        """
        template = {}
        try:
            # Create key pair and instance profile
            self.create_key_pair(self.key_pair_name)
            self.create_instance_profile(
                instance_policy_file,
                self.instance_policy_name,
                self.instance_role_name,
                self.instance_profile_name,
            )

            # Read the startup script
            with open(server_startup_script_file) as file:
                start_server_script = file.read()

            # Get the latest AMI ID
            ami_latest = self.ssm_client.get_parameter(Name=self.ami_param)
            ami_id = ami_latest["Parameter"]["Value"]

            # Create the launch template
            lt_response = self.ec2_client.create_launch_template(
                LaunchTemplateName=self.launch_template_name,
                LaunchTemplateData={
                    "InstanceType": self.inst_type,
                    "ImageId": ami_id,
                    "IamInstanceProfile": {"Name": self.instance_profile_name},
                    "UserData": base64.b64encode(
                        start_server_script.encode(encoding="utf-8")
                    ).decode(encoding="utf-8"),
                    "KeyName": self.key_pair_name,
                },
            )
            template = lt_response["LaunchTemplate"]
            log.info(
                f"Created launch template {self.launch_template_name} for AMI {ami_id} on {self.inst_type}."
            )
        except ClientError as err:
            log.error(f"Failed to create launch template {self.launch_template_name}.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidLaunchTemplateName.AlreadyExistsException":
                log.info(
                    f"Launch template {self.launch_template_name} already exists, nothing to do."
                )
            log.error(f"Full error:\n\t{err}")
        return template


    def delete_template(self):
        """
        Deletes a launch template.
        """
        try:
            self.ec2_client.delete_launch_template(
                LaunchTemplateName=self.launch_template_name
            )
            self.delete_instance_profile(
                self.instance_profile_name, self.instance_role_name
            )
            log.info("Launch template %s deleted.", self.launch_template_name)
        except ClientError as err:
            if (
                err.response["Error"]["Code"]
                == "InvalidLaunchTemplateName.NotFoundException"
            ):
                log.info(
                    "Launch template %s does not exist, nothing to do.",
                    self.launch_template_name,
                )
            log.error(f"Full error:\n\t{err}")


    def get_availability_zones(self) -> List[str]:
        """
        Gets a list of Availability Zones in the AWS Region of the Amazon EC2 client.

        :return: The list of Availability Zones for the client Region.
        """
        try:
            response = self.ec2_client.describe_availability_zones()
            zones = [zone["ZoneName"] for zone in response["AvailabilityZones"]]
            log.info(f"Retrieved {len(zones)} availability zones: {zones}.")
        except ClientError as err:
            log.error("Failed to retrieve availability zones.")
            log.error(f"Full error:\n\t{err}")
        else:
            return zones


    def create_autoscaling_group(self, group_size: int) -> List[str]:
        """
        Creates an EC2 Auto Scaling group with the specified size.

        :param group_size: The number of instances to set for the minimum and maximum in
                           the group.
        :return: The list of Availability Zones specified for the group.
        """
        try:
            zones = self.get_availability_zones()
            self.autoscaling_client.create_auto_scaling_group(
                AutoScalingGroupName=self.group_name,
                AvailabilityZones=zones,
                LaunchTemplate={
                    "LaunchTemplateName": self.launch_template_name,
                    "Version": "$Default",
                },
                MinSize=group_size,
                MaxSize=group_size,
            )
            log.info(
                f"Created EC2 Auto Scaling group {self.group_name} with availability zones {zones}."
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            if error_code == "AlreadyExists":
                log.info(
                    f"EC2 Auto Scaling group {self.group_name} already exists, nothing to do."
                )
            else:
                log.error(f"Failed to create EC2 Auto Scaling group {self.group_name}.")
                log.error(f"Full error:\n\t{err}")
        else:
            return zones


    def get_instances(self) -> List[str]:
        """
        Gets data about the instances in the EC2 Auto Scaling group.

        :return: A list of instance IDs in the Auto Scaling group.
        """
        try:
            as_response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[self.group_name]
            )
            instance_ids = [
                i["InstanceId"]
                for i in as_response["AutoScalingGroups"][0]["Instances"]
            ]
            log.info(
                f"Retrieved {len(instance_ids)} instances for Auto Scaling group {self.group_name}."
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to retrieve instances for Auto Scaling group {self.group_name}."
            )
            if error_code == "ResourceNotFound":
                log.error(f"The Auto Scaling group '{self.group_name}' does not exist.")
            log.error(f"Full error:\n\t{err}")
        else:
            return instance_ids


    def terminate_instance(self, instance_id: str, decrementsetting=False) -> None:
        """
        Terminates an instance in an EC2 Auto Scaling group. After an instance is
        terminated, it can no longer be accessed.

        :param instance_id: The ID of the instance to terminate.
        :param decrementsetting: If True, do not replace terminated instances.
        """
        try:
            self.autoscaling_client.terminate_instance_in_auto_scaling_group(
                InstanceId=instance_id,
                ShouldDecrementDesiredCapacity=decrementsetting,
            )
            log.info("Terminated instance %s.", instance_id)

            # Adding a waiter to ensure the instance is terminated
            waiter = self.ec2_client.get_waiter("instance_terminated")
            log.info("Waiting for instance %s to be terminated...", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info(
                f"Instance '{instance_id}' has been terminated and will be replaced."
            )

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to terminate instance '{instance_id}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to terminate the instance again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            log.error(f"Full error:\n\t{err}")

    def attach_load_balancer_target_group(
        self, lb_target_group: Dict[str, Any]
    ) -> None:
        """
        Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
        The target group specifies how the load balancer forwards requests to the instances
        in the group.

        :param lb_target_group: Data about the ELB target group to attach.
        """
        try:
            self.autoscaling_client.attach_load_balancer_target_groups(
                AutoScalingGroupName=self.group_name,
                TargetGroupARNs=[lb_target_group["TargetGroupArn"]],
            )
            log.info(
                "Attached load balancer target group %s to auto scaling group %s.",
                lb_target_group["TargetGroupName"],
                self.group_name,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to attach load balancer target group '{lb_target_group['TargetGroupName']}'."
            )
            if error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            elif error_code == "ServiceLinkedRoleFailure":
                log.error(
                    "The operation failed because the service-linked role is not ready or does not exist. "
                    "Check that the service-linked role exists and is correctly configured."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_autoscaling_group(self, group_name: str) -> None:
        """
        Terminates all instances in the group, then deletes the EC2 Auto Scaling group.

        :param group_name: The name of the group to delete.
        """
        try:
            response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[group_name]
            )
            groups = response.get("AutoScalingGroups", [])
            if len(groups) > 0:
                self.autoscaling_client.update_auto_scaling_group(
                    AutoScalingGroupName=group_name, MinSize=0
                )
                instance_ids = [inst["InstanceId"] for inst in groups[0]["Instances"]]
                for inst_id in instance_ids:
                    self.terminate_instance(inst_id)

                # Wait for all instances to be terminated
                if instance_ids:
                    waiter = self.ec2_client.get_waiter("instance_terminated")
                    log.info("Waiting for all instances to be terminated...")
                    waiter.wait(InstanceIds=instance_ids)
                    log.info("All instances have been terminated.")
            else:
                log.info(f"No groups found named '{group_name}'! Nothing to do.")
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete Auto Scaling group '{group_name}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to delete the group again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the group."
                )
            log.error(f"Full error:\n\t{err}")


    def get_default_vpc(self) -> Dict[str, Any]:
        """
        Gets the default VPC for the account.

        :return: Data about the default VPC.
        """
        try:
            response = self.ec2_client.describe_vpcs(
                Filters=[{"Name": "is-default", "Values": ["true"]}]
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error("Failed to retrieve the default VPC.")
            if error_code == "UnauthorizedOperation":
                log.error(
                    "You do not have the necessary permissions to describe VPCs. "
                    "Ensure that your AWS IAM user or role has the correct permissions."
                )
            elif error_code == "InvalidParameterValue":
                log.error(
                    "One or more parameters are invalid. Check the request parameters."
                )

            log.error(f"Full error:\n\t{err}")
        else:
            if "Vpcs" in response and response["Vpcs"]:
                log.info(f"Retrieved default VPC: {response['Vpcs'][0]['VpcId']}")
                return response["Vpcs"][0]
            else:
                pass


    def verify_inbound_port(
        self, vpc: Dict[str, Any], port: int, ip_address: str
    ) -> Tuple[Dict[str, Any], bool]:
        """
        Verify the default security group of the specified VPC allows ingress from this
        computer. This can be done by allowing ingress from this computer's IP
        address. In some situations, such as connecting from a corporate network, you
        must instead specify a prefix list ID. You can also temporarily open the port to
        any IP address while running this example. If you do, be sure to remove public
        access when you're done.

        :param vpc: The VPC used by this example.
        :param port: The port to verify.
        :param ip_address: This computer's IP address.
        :return: The default security group of the specified VPC, and a value that indicates
                 whether the specified port is open.
        """
        try:
            response = self.ec2_client.describe_security_groups(
                Filters=[
                    {"Name": "group-name", "Values": ["default"]},
                    {"Name": "vpc-id", "Values": [vpc["VpcId"]]},
                ]
            )
            sec_group = response["SecurityGroups"][0]
            port_is_open = False
            log.info(f"Found default security group {sec_group['GroupId']}.")

            for ip_perm in sec_group["IpPermissions"]:
                if ip_perm.get("FromPort", 0) == port:
                    log.info(f"Found inbound rule: {ip_perm}")
                    for ip_range in ip_perm["IpRanges"]:
                        cidr = ip_range.get("CidrIp", "")
                        if cidr.startswith(ip_address) or cidr == "0.0.0.0/0":
                            port_is_open = True
                    if ip_perm["PrefixListIds"]:
                        port_is_open = True
                    if not port_is_open:
                        log.info(
                            f"The inbound rule does not appear to be open to either this computer's IP "
                            f"address of {ip_address}, to all IP addresses (0.0.0.0/0), or to a prefix list ID."
                        )
                    else:
                        break
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to verify inbound rule for port {port} for VPC {vpc['VpcId']}."
            )
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    f"The specified VPC ID '{vpc['VpcId']}' does not exist. Please check the VPC ID."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return sec_group, port_is_open


    def open_inbound_port(self, sec_group_id: str, port: int, ip_address: str) -> None:
        """
        Add an ingress rule to the specified security group that allows access on the
        specified port from the specified IP address.

        :param sec_group_id: The ID of the security group to modify.
        :param port: The port to open.
        :param ip_address: The IP address that is granted access.
        """
        try:
            self.ec2_client.authorize_security_group_ingress(
                GroupId=sec_group_id,
                CidrIp=f"{ip_address}/32",
                FromPort=port,
                ToPort=port,
                IpProtocol="tcp",
            )
            log.info(
                "Authorized ingress to %s on port %s from %s.",
                sec_group_id,
                port,
                ip_address,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to authorize ingress to security group '{sec_group_id}' on port {port} from {ip_address}."
            )
            if error_code == "InvalidGroupId.Malformed":
                log.error(
                    "The security group ID is malformed. "
                    "Please verify that the security group ID is correct."
                )
            elif error_code == "InvalidPermission.Duplicate":
                log.error(
                    "The specified rule already exists in the security group. "
                    "Check the existing rules for this security group."
                )
            log.error(f"Full error:\n\t{err}")


    def get_subnets(self, vpc_id: str, zones: List[str] = None) -> List[Dict[str, Any]]:
        """
        Gets the default subnets in a VPC for a specified list of Availability Zones.

        :param vpc_id: The ID of the VPC to look up.
        :param zones: The list of Availability Zones to look up.
        :return: The list of subnets found.
        """
        # Ensure that 'zones' is a list, even if None is passed
        if zones is None:
            zones = []
        try:
            paginator = self.ec2_client.get_paginator("describe_subnets")
            page_iterator = paginator.paginate(
                Filters=[
                    {"Name": "vpc-id", "Values": [vpc_id]},
                    {"Name": "availability-zone", "Values": zones},
                    {"Name": "default-for-az", "Values": ["true"]},
                ]
            )

            subnets = []
            for page in page_iterator:
                subnets.extend(page["Subnets"])

            log.info("Found %s subnets for the specified zones.", len(subnets))
            return subnets
        except ClientError as err:
            log.error(
                f"Failed to retrieve subnets for VPC '{vpc_id}' in zones {zones}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    "The specified VPC ID does not exist. "
                    "Please check the VPC ID and try again."
                )
            # Add more error-specific handling as needed
            log.error(f"Full error:\n\t{err}")
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def create_target_group(
        self, target_group_name: str, protocol: str, port: int, vpc_id: str
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing target group. The target group specifies how
        the load balancer forwards requests to instances in the group and how instance
        health is checked.

        To speed up this demo, the health check is configured with shortened times and
        lower thresholds. In production, you might want to decrease the sensitivity of
        your health checks to avoid unwanted failures.

        :param target_group_name: The name of the target group to create.
        :param protocol: The protocol to use to forward requests, such as 'HTTP'.
        :param port: The port to use to forward requests, such as 80.
        :param vpc_id: The ID of the VPC in which the load balancer exists.
        :return: Data about the newly created target group.
        """
        try:
            response = self.elb_client.create_target_group(
                Name=target_group_name,
                Protocol=protocol,
                Port=port,
                HealthCheckPath="/healthcheck",
                HealthCheckIntervalSeconds=10,
                HealthCheckTimeoutSeconds=5,
                HealthyThresholdCount=2,
                UnhealthyThresholdCount=2,
                VpcId=vpc_id,
            )
            target_group = response["TargetGroups"][0]
            log.info(f"Created load balancing target group '{target_group_name}'.")
            return target_group
        except ClientError as err:
            log.error(
                f"Couldn't create load balancing target group '{target_group_name}'."
            )
            error_code = err.response["Error"]["Code"]

            if error_code == "DuplicateTargetGroupName":
                log.error(
                    f"Target group name {target_group_name} already exists. "
                    "Check if the target group already exists."
                    "Consider using a different name or deleting the existing target group if appropriate."
                )
            elif error_code == "TooManyTargetGroups":
                log.error(
                    "Too many target groups exist in the account. "
                    "Consider deleting unused target groups to create space for new ones."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_target_group(self, target_group_name) -> None:
        """
        Deletes the target group.
        """
        try:
            # Describe the target group to get its ARN
            response = self.elb_client.describe_target_groups(Names=[target_group_name])
            tg_arn = response["TargetGroups"][0]["TargetGroupArn"]

            # Delete the target group
            self.elb_client.delete_target_group(TargetGroupArn=tg_arn)
            log.info("Deleted load balancing target group %s.", target_group_name)

            # Use a custom waiter to wait until the target group is no longer available
            self.wait_for_target_group_deletion(self.elb_client, tg_arn)
            log.info("Target group %s successfully deleted.", target_group_name)

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete target group '{target_group_name}'.")
            if error_code == "TargetGroupNotFound":
                log.error(
                    "Load balancer target group either already deleted or never existed. "
                    "Verify the name and check that the resource exists in the AWS Console."
                )
            elif error_code == "ResourceInUseException":
                log.error(
                    "Target group still in use by another resource. "
                    "Ensure that the target group is no longer associated with any load balancers or resources.",
                )
            log.error(f"Full error:\n\t{err}")

    def wait_for_target_group_deletion(
        self, elb_client, target_group_arn, max_attempts=10, delay=30
    ):
        for attempt in range(max_attempts):
            try:
                elb_client.describe_target_groups(TargetGroupArns=[target_group_arn])
                print(
                    f"Attempt {attempt + 1}: Target group {target_group_arn} still exists."
                )
            except ClientError as e:
                if e.response["Error"]["Code"] == "TargetGroupNotFound":
                    print(
                        f"Target group {target_group_arn} has been successfully deleted."
                    )
                    return
                else:
                    raise
            time.sleep(delay)
        raise TimeoutError(
            f"Target group {target_group_arn} was not deleted after {max_attempts * delay} seconds."
        )


    def create_load_balancer(
        self,
        load_balancer_name: str,
        subnet_ids: List[str],
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing load balancer that uses the specified subnets
        and forwards requests to the specified target group.

        :param load_balancer_name: The name of the load balancer to create.
        :param subnet_ids: A list of subnets to associate with the load balancer.
        :return: Data about the newly created load balancer.
        """
        try:
            response = self.elb_client.create_load_balancer(
                Name=load_balancer_name, Subnets=subnet_ids
            )
            load_balancer = response["LoadBalancers"][0]
            log.info(f"Created load balancer '{load_balancer_name}'.")

            waiter = self.elb_client.get_waiter("load_balancer_available")
            log.info(
                f"Waiting for load balancer '{load_balancer_name}' to be available..."
            )
            waiter.wait(Names=[load_balancer_name])
            log.info(f"Load balancer '{load_balancer_name}' is now available!")

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to create load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "DuplicateLoadBalancerNameException":
                log.error(
                    f"A load balancer with the name '{load_balancer_name}' already exists. "
                    "Load balancer names must be unique within the AWS region. "
                    "Please choose a different name and try again."
                )
            if error_code == "TooManyLoadBalancersException":
                log.error(
                    "The maximum number of load balancers has been reached in this account and region. "
                    "You can delete unused load balancers or request an increase in the service quota from AWS Support."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return load_balancer


    def create_listener(
        self,
        load_balancer_name: str,
        target_group: Dict[str, Any],
    ) -> Dict[str, Any]:
        """
        Creates a listener for the specified load balancer that forwards requests to the
        specified target group.

        :param load_balancer_name: The name of the load balancer to create a listener for.
        :param target_group: An existing target group that is added as a listener to the
                             load balancer.
        :return: Data about the newly created listener.
        """
        try:
            # Retrieve the load balancer ARN
            load_balancer_response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            load_balancer_arn = load_balancer_response["LoadBalancers"][0][
                "LoadBalancerArn"
            ]

            # Create the listener
            response = self.elb_client.create_listener(
                LoadBalancerArn=load_balancer_arn,
                Protocol=target_group["Protocol"],
                Port=target_group["Port"],
                DefaultActions=[
                    {
                        "Type": "forward",
                        "TargetGroupArn": target_group["TargetGroupArn"],
                    }
                ],
            )
            log.info(
                f"Created listener to forward traffic from load balancer '{load_balancer_name}' to target group '{target_group['TargetGroupName']}'."
            )
            return response["Listeners"][0]
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to add a listener on '{load_balancer_name}' for target group '{target_group['TargetGroupName']}'."
            )

            if error_code == "ListenerNotFoundException":
                log.error(
                    f"The listener could not be found for the load balancer '{load_balancer_name}'. "
                    "Please check the load balancer name and target group configuration."
                )
            if error_code == "InvalidConfigurationRequestException":
                log.error(
                    f"The configuration provided for the listener on load balancer '{load_balancer_name}' is invalid. "
                    "Please review the provided protocol, port, and target group settings."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_load_balancer(self, load_balancer_name) -> None:
        """
        Deletes a load balancer.

        :param load_balancer_name: The name of the load balancer to delete.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            lb_arn = response["LoadBalancers"][0]["LoadBalancerArn"]
            self.elb_client.delete_load_balancer(LoadBalancerArn=lb_arn)
            log.info("Deleted load balancer %s.", load_balancer_name)
            waiter = self.elb_client.get_waiter("load_balancers_deleted")
            log.info("Waiting for load balancer to be deleted...")
            waiter.wait(Names=[load_balancer_name])
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Couldn't delete load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    f"The load balancer '{load_balancer_name}' does not exist. "
                    "Please check the name and try again."
                )
            log.error(f"Full error:\n\t{err}")


    def get_endpoint(self, load_balancer_name) -> str:
        """
        Gets the HTTP endpoint of the load balancer.

        :return: The endpoint.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            return response["LoadBalancers"][0]["DNSName"]
        except ClientError as err:
            log.error(
                f"Couldn't get the endpoint for load balancer {load_balancer_name}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Verify load balancer name and ensure it exists in the AWS console."
                )
            log.error(f"Full error:\n\t{err}")

    @staticmethod
    def verify_load_balancer_endpoint(endpoint) -> bool:
        """
        Verify this computer can successfully send a GET request to the load balancer endpoint.

        :param endpoint: The endpoint to verify.
        :return: True if the GET request is successful, False otherwise.
        """
        retries = 3
        verified = False
        while not verified and retries > 0:
            try:
                lb_response = requests.get(f"http://{endpoint}")
                log.info(
                    "Got response %s from load balancer endpoint.",
                    lb_response.status_code,
                )
                if lb_response.status_code == 200:
                    verified = True
                else:
                    retries = 0
            except requests.exceptions.ConnectionError:
                log.info(
                    "Got connection error from load balancer endpoint, retrying..."
                )
                retries -= 1
                time.sleep(10)
        return verified

    def check_target_health(self, target_group_name: str) -> List[Dict[str, Any]]:
        """
        Checks the health of the instances in the target group.

        :return: The health status of the target group.
        """
        try:
            tg_response = self.elb_client.describe_target_groups(
                Names=[target_group_name]
            )
            health_response = self.elb_client.describe_target_health(
                TargetGroupArn=tg_response["TargetGroups"][0]["TargetGroupArn"]
            )
        except ClientError as err:
            log.error(f"Couldn't check health of {target_group_name} target(s).")
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Load balancer associated with the target group was not found. "
                    "Ensure the load balancer exists, is in the correct AWS region, and "
                    "that you have the necessary permissions to access it.",
                )
            elif error_code == "TargetGroupNotFoundException":
                log.error(
                    "Target group was not found. "
                    "Verify the target group name, check that it exists in the correct region, "
                    "and ensure it has not been deleted or created in a different account.",
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return health_response["TargetHealthDescriptions"]
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
class RecommendationService:
    """
    Encapsulates a DynamoDB table to use as a service that recommends books, movies,
    and songs.
    """

    def __init__(self, table_name: str, dynamodb_client: boto3.client):
        """
        Initializes the RecommendationService class with the necessary parameters.

        :param table_name: The name of the DynamoDB recommendations table.
        :param dynamodb_client: A Boto3 DynamoDB client.
        """
        self.table_name = table_name
        self.dynamodb_client = dynamodb_client

    def create(self) -> Dict[str, Any]:
        """
        Creates a DynamoDB table to use as a recommendation service. The table has a
        hash key named 'MediaType' that defines the type of media recommended, such as
        Book or Movie, and a range key named 'ItemId' that, combined with the MediaType,
        forms a unique identifier for the recommended item.

        :return: Data about the newly created table.
        :raises RecommendationServiceError: If the table creation fails.
        """
        try:
            response = self.dynamodb_client.create_table(
                TableName=self.table_name,
                AttributeDefinitions=[
                    {"AttributeName": "MediaType", "AttributeType": "S"},
                    {"AttributeName": "ItemId", "AttributeType": "N"},
                ],
                KeySchema=[
                    {"AttributeName": "MediaType", "KeyType": "HASH"},
                    {"AttributeName": "ItemId", "KeyType": "RANGE"},
                ],
                ProvisionedThroughput={"ReadCapacityUnits": 5, "WriteCapacityUnits": 5},
            )
            log.info("Creating table %s...", self.table_name)
            waiter = self.dynamodb_client.get_waiter("table_exists")
            waiter.wait(TableName=self.table_name)
            log.info("Table %s created.", self.table_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceInUseException":
                log.info("Table %s exists, nothing to be done.", self.table_name)
            else:
                raise RecommendationServiceError(
                    self.table_name, f"ClientError when creating table: {err}."
                )
        else:
            return response

    def populate(self, data_file: str) -> None:
        """
        Populates the recommendations table from a JSON file.

        :param data_file: The path to the data file.
        :raises RecommendationServiceError: If the table population fails.
        """
        try:
            with open(data_file) as data:
                items = json.load(data)
            batch = [{"PutRequest": {"Item": item}} for item in items]
            self.dynamodb_client.batch_write_item(RequestItems={self.table_name: batch})
            log.info(
                "Populated table %s with items from %s.", self.table_name, data_file
            )
        except ClientError as err:
            raise RecommendationServiceError(
                self.table_name, f"Couldn't populate table from {data_file}: {err}"
            )

    def destroy(self) -> None:
        """
        Deletes the recommendations table.

        :raises RecommendationServiceError: If the table deletion fails.
        """
        try:
            self.dynamodb_client.delete_table(TableName=self.table_name)
            log.info("Deleting table %s...", self.table_name)
            waiter = self.dynamodb_client.get_waiter("table_not_exists")
            waiter.wait(TableName=self.table_name)
            log.info("Table %s deleted.", self.table_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                log.info("Table %s does not exist, nothing to do.", self.table_name)
            else:
                raise RecommendationServiceError(
                    self.table_name, f"ClientError when deleting table: {err}."
                )
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
class ParameterHelper:
    """
    Encapsulates Systems Manager parameters. This example uses these parameters to drive
    the demonstration of resilient architecture, such as failure of a dependency or
    how the service responds to a health check.
    """

    table: str = "doc-example-resilient-architecture-table"
    failure_response: str = "doc-example-resilient-architecture-failure-response"
    health_check: str = "doc-example-resilient-architecture-health-check"

    def __init__(self, table_name: str, ssm_client: boto3.client):
        """
        Initializes the ParameterHelper class with the necessary parameters.

        :param table_name: The name of the DynamoDB table that is used as a recommendation
                           service.
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.table_name = table_name

    def reset(self) -> None:
        """
        Resets the Systems Manager parameters to starting values for the demo.
        These are the name of the DynamoDB recommendation table, no response when a
        dependency fails, and shallow health checks.
        """
        self.put(self.table, self.table_name)
        self.put(self.failure_response, "none")
        self.put(self.health_check, "shallow")

    def put(self, name: str, value: str) -> None:
        """
        Sets the value of a named Systems Manager parameter.

        :param name: The name of the parameter.
        :param value: The new value of the parameter.
        :raises ParameterHelperError: If the parameter value cannot be set.
        """
        try:
            self.ssm_client.put_parameter(
                Name=name, Value=value, Overwrite=True, Type="String"
            )
            log.info("Setting parameter %s to '%s'.", name, value)
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to set parameter {name}.")
            if error_code == "ParameterLimitExceeded":
                log.error(
                    "The parameter limit has been exceeded. "
                    "Consider deleting unused parameters or request a limit increase."
                )
            elif error_code == "ParameterAlreadyExists":
                log.error(
                    "The parameter already exists and overwrite is set to False. "
                    "Use Overwrite=True to update the parameter."
                )
            log.error(f"Full error:\n\t{err}")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Python (Boto3)*.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# Contoh Amazon Bedrock menggunakan SDK for Python (Boto3)
<a name="python_3_bedrock_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) With Amazon Bedrock.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon Bedrock
<a name="bedrock_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock#code-examples). 

```
"""
Lists the available Amazon Bedrock models.
"""
import logging
import json
import boto3


from botocore.exceptions import ClientError


logging.basicConfig(level=logging.INFO)
logger = logging.getLogger(__name__)


def list_foundation_models(bedrock_client):
    """
    Gets a list of available Amazon Bedrock foundation models.

    :return: The list of available bedrock foundation models.
    """

    try:
        response = bedrock_client.list_foundation_models()
        models = response["modelSummaries"]
        logger.info("Got %s foundation models.", len(models))
        return models

    except ClientError:
        logger.error("Couldn't list foundation models.")
        raise


def main():
    """Entry point for the example. Uses the AWS SDK for Python (Boto3)
    to create an Amazon Bedrock client. Then lists the available Bedrock models
    in the region set in the callers profile and credentials.
    """

    bedrock_client = boto3.client(service_name="bedrock")

    fm_models = list_foundation_models(bedrock_client)
    for model in fm_models:
        print(f"Model: {model['modelName']}")
        print(json.dumps(model, indent=2))
        print("---------------------------\n")

    logger.info("Done.")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [ListFoundationModels](https://docs.aws.amazon.com/goto/boto3/bedrock-2023-04-20/ListFoundationModels)di *AWS SDK for Python (Boto3) Referensi* API. 

## Tindakan
<a name="actions"></a>

### `GetFoundationModel`
<a name="bedrock_GetFoundationModel_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFoundationModel`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock#code-examples). 
Dapatkan detail tentang model pondasi.  

```
    def get_foundation_model(self, model_identifier):
        """
        Get details about an Amazon Bedrock foundation model.

        :return: The foundation model's details.
        """

        try:
            return self.bedrock_client.get_foundation_model(
                modelIdentifier=model_identifier
            )["modelDetails"]
        except ClientError:
            logger.error(
                f"Couldn't get foundation models details for {model_identifier}"
            )
            raise
```
+  Untuk detail API, lihat [GetFoundationModel](https://docs.aws.amazon.com/goto/boto3/bedrock-2023-04-20/GetFoundationModel)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListFoundationModels`
<a name="bedrock_ListFoundationModels_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFoundationModels`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock#code-examples). 
Buat daftar model fondasi Amazon Bedrock yang tersedia.  

```
    def list_foundation_models(self):
        """
        List the available Amazon Bedrock foundation models.

        :return: The list of available bedrock foundation models.
        """

        try:
            response = self.bedrock_client.list_foundation_models()
            models = response["modelSummaries"]
            logger.info("Got %s foundation models.", len(models))
            return models

        except ClientError:
            logger.error("Couldn't list foundation models.")
            raise
```
+  Untuk detail API, lihat [ListFoundationModels](https://docs.aws.amazon.com/goto/boto3/bedrock-2023-04-20/ListFoundationModels)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Mengatur aplikasi AI generatif dengan Step Functions
<a name="cross_ServerlessPromptChaining_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan mengatur aplikasi AI generatif dengan Amazon Bedrock dan Step Functions.

**SDK untuk Python (Boto3)**  
 Skenario Amazon Bedrock Serverless Prompt Chaining menunjukkan bagaimana [AWS Step Functions](https://docs.aws.amazon.com/step-functions/latest/dg/welcome.html), [Amazon](https://docs.aws.amazon.com/bedrock/latest/userguide/what-is-bedrock.html) Bedrock, [https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html](https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html) dan dapat digunakan untuk membangun dan mengatur aplikasi AI generatif yang kompleks, tanpa server, dan sangat skalabel. Ini berisi contoh kerja berikut:   
+  Tulis analisis novel yang diberikan untuk blog sastra. Contoh ini menggambarkan rantai petunjuk yang sederhana dan berurutan. 
+  Hasilkan cerita pendek tentang topik tertentu. Contoh ini menggambarkan bagaimana AI dapat secara iteratif memproses daftar item yang dihasilkan sebelumnya. 
+  Buat rencana perjalanan untuk liburan akhir pekan ke tujuan tertentu. Contoh ini menggambarkan cara memparalelkan beberapa prompt yang berbeda. 
+  Pitch ide film untuk pengguna manusia yang bertindak sebagai produser film. Contoh ini menggambarkan cara memparalelkan prompt yang sama dengan parameter inferensi yang berbeda, cara mundur ke langkah sebelumnya dalam rantai, dan cara memasukkan input manusia sebagai bagian dari alur kerja. 
+  Rencanakan makanan berdasarkan bahan-bahan yang dimiliki pengguna. Contoh ini menggambarkan bagaimana rantai cepat dapat menggabungkan dua percakapan AI yang berbeda, dengan dua persona AI terlibat dalam debat satu sama lain untuk meningkatkan hasil akhir. 
+  Temukan dan rangkum repositori tren GitHub tertinggi hari ini. Contoh ini menggambarkan rantai beberapa agen AI yang berinteraksi dengan eksternal. APIs 
 Untuk kode sumber lengkap dan instruksi untuk menyiapkan dan menjalankan, lihat proyek lengkap di [GitHub](https://github.com/aws-samples/amazon-bedrock-serverless-prompt-chaining).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Bedrock
+ Runtime Amazon Bedrock
+ Agen Batuan Dasar Amazon
+ Runtime Agen Batuan Dasar Amazon
+ Step Functions

# Contoh Amazon Bedrock Runtime menggunakan SDK for Python (Boto3)
<a name="python_3_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Runtime AWS SDK untuk Python (Boto3) with Amazon Bedrock.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)
+ [Amazon Nova](#amazon_nova)
+ [Kanvas Amazon Nova](#amazon_nova_canvas)
+ [Amazon Nova Reel](#amazon_nova_reel)
+ [Generator Gambar Amazon Titan](#amazon_titan_image_generator)
+ [Teks Amazon Titan](#amazon_titan_text)
+ [Embeddings Teks Amazon Titan](#amazon_titan_text_embeddings)
+ [Antropik Claude](#anthropic_claude)
+ [Perintah Cohere](#cohere_command)
+ [DeepSeek](#deepseek)
+ [Meta Llama](#meta_llama)
+ [Mistral AI](#mistral_ai)
+ [Difusi Stabil](#stable_diffusion)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi taman bermain untuk berinteraksi dengan model yayasan Amazon Bedrock
<a name="cross_FMPlayground_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat taman bermain untuk berinteraksi dengan model dasar Amazon Bedrock melalui modalitas yang berbeda.

**SDK untuk Python (Boto3)**  
 Python Foundation Model (FM) Playground adalah Python/FastAPI contoh aplikasi yang menampilkan cara menggunakan Amazon Bedrock dengan Python. Contoh ini menunjukkan bagaimana pengembang Python dapat menggunakan Amazon Bedrock untuk membangun aplikasi berkemampuan AI generatif. Anda dapat menguji dan berinteraksi dengan model yayasan Amazon Bedrock dengan menggunakan tiga taman bermain berikut:   
+ Taman bermain teks.
+ Taman bermain obrolan.
+ Taman bermain gambar.
Contoh ini juga mencantumkan dan menampilkan model pondasi yang dapat Anda akses, bersama dengan karakteristiknya. Untuk kode sumber dan petunjuk penerapan, lihat proyek di [GitHub](https://github.com/build-on-aws/python-fm-playground).   

**Layanan yang digunakan dalam contoh ini**
+ Runtime Amazon Bedrock

### Membuat dan memanggil prompt terkelola
<a name="bedrock-agent_GettingStartedWithBedrockPrompts_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat prompt terkelola.
+ Buat versi prompt.
+ Panggil prompt menggunakan versi.
+ Bersihkan sumber daya (opsional).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat dan panggil prompt terkelola.  

```
import argparse
import boto3
import logging
import time

# Now import the modules
from prompt import create_prompt, create_prompt_version, delete_prompt
from run_prompt import invoke_prompt

logging.basicConfig(
    level=logging.INFO,
    format='%(levelname)s: %(message)s'
)
logger = logging.getLogger(__name__)



def run_scenario(bedrock_client, bedrock_runtime_client, model_id, cleanup=True):
    """
    Runs the Amazon Bedrock managed prompt scenario.
    
    Args:
        bedrock_client: The Amazon Bedrock Agent client.
        bedrock_runtime_client: The Amazon Bedrock Runtime client.
        model_id (str): The model ID to use for the prompt.
        cleanup (bool): Whether to clean up resources at the end of the scenario.
        
    Returns:
        dict: A dictionary containing the created resources.
    """
    prompt_id = None
    
    try:
        # Step 1: Create a prompt
        print("\n=== Step 1: Creating a prompt ===")
        prompt_name = f"PlaylistGenerator-{int(time.time())}"
        prompt_description = "Playlist generator"
        prompt_template = """
          Make me a {{genre}} playlist consisting of the following number of songs: {{number}}."""
        
        create_response = create_prompt(
            bedrock_client,
            prompt_name,
            prompt_description,
            prompt_template,
            model_id
        )
        
        prompt_id = create_response['id']
        print(f"Created prompt: {prompt_name} with ID: {prompt_id}")
        
        # Create a version of the prompt
        print("\n=== Creating a version of the prompt ===")
        version_response = create_prompt_version(
            bedrock_client,
            prompt_id,
            description="Initial version of the product description generator"
        )
        
        prompt_version_arn = version_response['arn']
        prompt_version = version_response['version']

        print(f"Created prompt version: {prompt_version}")
        print(f"Prompt version ARN: {prompt_version_arn}")
        
        # Step 2: Invoke the prompt directly
        print("\n=== Step 2: Invoking the prompt ===")
        input_variables = {
            "genre": "pop",
            "number": "2",
           }
        
        # Use the ARN from the create_prompt_version response
        result = invoke_prompt(
            bedrock_runtime_client,
            prompt_version_arn,  
            input_variables
        )
        # Display the playlist
        print(f"\n{result}")
    
        
        # Step 3: Clean up resources (optional)
        if cleanup:
            print("\n=== Step 3: Cleaning up resources ===")
            
            # Delete the prompt
            print(f"Deleting prompt {prompt_id}...")
            delete_prompt(bedrock_client, prompt_id)
            
            print("Cleanup complete")
        else:
            print("\n=== Resources were not cleaned up ===")
            print(f"Prompt ID: {prompt_id}")
        
   
        
    except Exception as e:
        logger.exception("Error in scenario: %s", str(e))
        
        # Attempt to clean up if an error occurred and cleanup was requested
        if cleanup and prompt_id:
            try:
                print("\nCleaning up resources after error...")
                
                # Delete the prompt
                try:
                    delete_prompt(bedrock_client, prompt_id)
                    print("Cleanup after error complete")
                except Exception as cleanup_error:
                    logger.error("Error during cleanup: %s", str(cleanup_error))
            except Exception as final_error:
                logger.error("Final error during cleanup: %s", str(final_error))
        
        # Re-raise the original exception
        raise

def main():
    """
    Entry point for the Amazon Bedrock managed prompt scenario.
    """
    parser = argparse.ArgumentParser(
        description="Run the Amazon Bedrock managed prompt scenario."
    )
    parser.add_argument(
        '--region',
        default='us-east-1',
        help="The AWS Region to use."
    )
    parser.add_argument(
        '--model-id',
        default='anthropic.claude-v2',
        help="The model ID to use for the prompt."
    )
    parser.add_argument(
        '--cleanup',
        action='store_true',
        default=True,
        help="Clean up resources at the end of the scenario."
    )
    parser.add_argument(
        '--no-cleanup',
        action='store_false',
        dest='cleanup',
        help="Don't clean up resources at the end of the scenario."
    )
    args = parser.parse_args()

    bedrock_client = boto3.client('bedrock-agent', region_name=args.region)
    bedrock_runtime_client = boto3.client('bedrock-runtime', region_name=args.region)
    
    print("=== Amazon Bedrock Managed Prompt Scenario ===")
    print(f"Region: {args.region}")
    print(f"Model ID: {args.model_id}")
    print(f"Cleanup resources: {args.cleanup}")
    
    try:
        run_scenario(
            bedrock_client,
            bedrock_runtime_client,
            args.model_id,
            args.cleanup
        )
        
    except Exception as e:
        logger.exception("Error running scenario: %s", str(e))
        
if __name__ == "__main__":
    main()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [Bercakap-cakap](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse)
  + [CreatePrompt](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreatePrompt)
  + [CreatePromptVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreatePromptVersion)
  + [DeletePrompt](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeletePrompt)

### Mengatur aplikasi AI generatif dengan Step Functions
<a name="cross_ServerlessPromptChaining_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan mengatur aplikasi AI generatif dengan Amazon Bedrock dan Step Functions.

**SDK untuk Python (Boto3)**  
 Skenario Amazon Bedrock Serverless Prompt Chaining menunjukkan bagaimana [AWS Step Functions](https://docs.aws.amazon.com/step-functions/latest/dg/welcome.html), [Amazon](https://docs.aws.amazon.com/bedrock/latest/userguide/what-is-bedrock.html) Bedrock, [https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html](https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html) dan dapat digunakan untuk membangun dan mengatur aplikasi AI generatif yang kompleks, tanpa server, dan sangat skalabel. Ini berisi contoh kerja berikut:   
+  Tulis analisis novel yang diberikan untuk blog sastra. Contoh ini menggambarkan rantai petunjuk yang sederhana dan berurutan. 
+  Hasilkan cerita pendek tentang topik tertentu. Contoh ini menggambarkan bagaimana AI dapat secara iteratif memproses daftar item yang dihasilkan sebelumnya. 
+  Buat rencana perjalanan untuk liburan akhir pekan ke tujuan tertentu. Contoh ini menggambarkan cara memparalelkan beberapa prompt yang berbeda. 
+  Pitch ide film untuk pengguna manusia yang bertindak sebagai produser film. Contoh ini menggambarkan cara memparalelkan prompt yang sama dengan parameter inferensi yang berbeda, cara mundur ke langkah sebelumnya dalam rantai, dan cara memasukkan input manusia sebagai bagian dari alur kerja. 
+  Rencanakan makanan berdasarkan bahan-bahan yang dimiliki pengguna. Contoh ini menggambarkan bagaimana rantai cepat dapat menggabungkan dua percakapan AI yang berbeda, dengan dua persona AI terlibat dalam debat satu sama lain untuk meningkatkan hasil akhir. 
+  Temukan dan rangkum repositori tren GitHub tertinggi hari ini. Contoh ini menggambarkan rantai beberapa agen AI yang berinteraksi dengan eksternal. APIs 
 Untuk kode sumber lengkap dan instruksi untuk menyiapkan dan menjalankan, lihat proyek lengkap di [GitHub](https://github.com/aws-samples/amazon-bedrock-serverless-prompt-chaining).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Bedrock
+ Runtime Amazon Bedrock
+ Agen Batuan Dasar Amazon
+ Runtime Agen Batuan Dasar Amazon
+ Step Functions

### Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUse_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Script eksekusi utama dari demo. Skrip ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
"""
This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
The script interacts with a foundation model on Amazon Bedrock to provide weather information based on user
input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.
"""

import boto3
import logging
from enum import Enum

import utils.tool_use_print_utils as output
import weather_tool

logging.basicConfig(level=logging.INFO, format="%(message)s")

AWS_REGION = "us-east-1"


# For the most recent list of models supported by the Converse API's tool use functionality, visit:
# https://docs.aws.amazon.com/bedrock/latest/userguide/conversation-inference.html
class SupportedModels(Enum):
    CLAUDE_OPUS = "anthropic.claude-3-opus-20240229-v1:0"
    CLAUDE_SONNET = "anthropic.claude-3-sonnet-20240229-v1:0"
    CLAUDE_HAIKU = "anthropic.claude-3-haiku-20240307-v1:0"
    COHERE_COMMAND_R = "cohere.command-r-v1:0"
    COHERE_COMMAND_R_PLUS = "cohere.command-r-plus-v1:0"


# Set the model ID, e.g., Claude 3 Haiku.
MODEL_ID = SupportedModels.CLAUDE_HAIKU.value

SYSTEM_PROMPT = """
You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.

- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information. 
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
  emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose. 
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
"""

# The maximum number of recursive calls allowed in the tool_use_demo function.
# This helps prevent infinite loops and potential performance issues.
MAX_RECURSIONS = 5


class ToolUseDemo:
    """
    Demonstrates the tool use feature with the Amazon Bedrock Converse API.
    """

    def __init__(self):
        # Prepare the system prompt
        self.system_prompt = [{"text": SYSTEM_PROMPT}]

        # Prepare the tool configuration with the weather tool's specification
        self.tool_config = {"tools": [weather_tool.get_tool_spec()]}

        # Create a Bedrock Runtime client in the specified AWS Region.
        self.bedrockRuntimeClient = boto3.client(
            "bedrock-runtime", region_name=AWS_REGION
        )

    def run(self):
        """
        Starts the conversation with the user and handles the interaction with Bedrock.
        """
        # Print the greeting and a short user guide
        output.header()

        # Start with an emtpy conversation
        conversation = []

        # Get the first user input
        user_input = self._get_user_input()

        while user_input is not None:
            # Create a new message with the user input and append it to the conversation
            message = {"role": "user", "content": [{"text": user_input}]}
            conversation.append(message)

            # Send the conversation to Amazon Bedrock
            bedrock_response = self._send_conversation_to_bedrock(conversation)

            # Recursively handle the model's response until the model has returned
            # its final response or the recursion counter has reached 0
            self._process_model_response(
                bedrock_response, conversation, max_recursion=MAX_RECURSIONS
            )

            # Repeat the loop until the user decides to exit the application
            user_input = self._get_user_input()

        output.footer()

    def _send_conversation_to_bedrock(self, conversation):
        """
        Sends the conversation, the system prompt, and the tool spec to Amazon Bedrock, and returns the response.

        :param conversation: The conversation history including the next message to send.
        :return: The response from Amazon Bedrock.
        """
        output.call_to_bedrock(conversation)

        # Send the conversation, system prompt, and tool configuration, and return the response
        return self.bedrockRuntimeClient.converse(
            modelId=MODEL_ID,
            messages=conversation,
            system=self.system_prompt,
            toolConfig=self.tool_config,
        )

    def _process_model_response(
        self, model_response, conversation, max_recursion=MAX_RECURSIONS
    ):
        """
        Processes the response received via Amazon Bedrock and performs the necessary actions
        based on the stop reason.

        :param model_response: The model's response returned via Amazon Bedrock.
        :param conversation: The conversation history.
        :param max_recursion: The maximum number of recursive calls allowed.
        """

        if max_recursion <= 0:
            # Stop the process, the number of recursive calls could indicate an infinite loop
            logging.warning(
                "Warning: Maximum number of recursions reached. Please try again."
            )
            exit(1)

        # Append the model's response to the ongoing conversation
        message = model_response["output"]["message"]
        conversation.append(message)

        if model_response["stopReason"] == "tool_use":
            # If the stop reason is "tool_use", forward everything to the tool use handler
            self._handle_tool_use(message, conversation, max_recursion)

        if model_response["stopReason"] == "end_turn":
            # If the stop reason is "end_turn", print the model's response text, and finish the process
            output.model_response(message["content"][0]["text"])
            return

    def _handle_tool_use(
        self, model_response, conversation, max_recursion=MAX_RECURSIONS
    ):
        """
        Handles the tool use case by invoking the specified tool and sending the tool's response back to Bedrock.
        The tool response is appended to the conversation, and the conversation is sent back to Amazon Bedrock for further processing.

        :param model_response: The model's response containing the tool use request.
        :param conversation: The conversation history.
        :param max_recursion: The maximum number of recursive calls allowed.
        """

        # Initialize an empty list of tool results
        tool_results = []

        # The model's response can consist of multiple content blocks
        for content_block in model_response["content"]:
            if "text" in content_block:
                # If the content block contains text, print it to the console
                output.model_response(content_block["text"])

            if "toolUse" in content_block:
                # If the content block is a tool use request, forward it to the tool
                tool_response = self._invoke_tool(content_block["toolUse"])

                # Add the tool use ID and the tool's response to the list of results
                tool_results.append(
                    {
                        "toolResult": {
                            "toolUseId": (tool_response["toolUseId"]),
                            "content": [{"json": tool_response["content"]}],
                        }
                    }
                )

        # Embed the tool results in a new user message
        message = {"role": "user", "content": tool_results}

        # Append the new message to the ongoing conversation
        conversation.append(message)

        # Send the conversation to Amazon Bedrock
        response = self._send_conversation_to_bedrock(conversation)

        # Recursively handle the model's response until the model has returned
        # its final response or the recursion counter has reached 0
        self._process_model_response(response, conversation, max_recursion - 1)

    def _invoke_tool(self, payload):
        """
        Invokes the specified tool with the given payload and returns the tool's response.
        If the requested tool does not exist, an error message is returned.

        :param payload: The payload containing the tool name and input data.
        :return: The tool's response or an error message.
        """
        tool_name = payload["name"]

        if tool_name == "Weather_Tool":
            input_data = payload["input"]
            output.tool_use(tool_name, input_data)

            # Invoke the weather tool with the input data provided by
            response = weather_tool.fetch_weather_data(input_data)
        else:
            error_message = (
                f"The requested tool with name '{tool_name}' does not exist."
            )
            response = {"error": "true", "message": error_message}

        return {"toolUseId": payload["toolUseId"], "content": response}

    @staticmethod
    def _get_user_input(prompt="Your weather info request"):
        """
        Prompts the user for input and returns the user's response.
        Returns None if the user enters 'x' to exit.

        :param prompt: The prompt to display to the user.
        :return: The user's input or None if the user chooses to exit.
        """
        output.separator()
        user_input = input(f"{prompt} (x to exit): ")

        if user_input == "":
            prompt = "Please enter your weather info request, e.g. the name of a city"
            return ToolUseDemo._get_user_input(prompt)

        elif user_input.lower() == "x":
            return None

        else:
            return user_input


if __name__ == "__main__":
    tool_use_demo = ToolUseDemo()
    tool_use_demo.run()
```
Alat cuaca yang digunakan oleh demo. Skrip ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
import requests
from requests.exceptions import RequestException


def get_tool_spec():
    """
    Returns the JSON Schema specification for the Weather tool. The tool specification
    defines the input schema and describes the tool's functionality.
    For more information, see https://json-schema.org/understanding-json-schema/reference.

    :return: The tool specification for the Weather tool.
    """
    return {
        "toolSpec": {
            "name": "Weather_Tool",
            "description": "Get the current weather for a given location, based on its WGS84 coordinates.",
            "inputSchema": {
                "json": {
                    "type": "object",
                    "properties": {
                        "latitude": {
                            "type": "string",
                            "description": "Geographical WGS84 latitude of the location.",
                        },
                        "longitude": {
                            "type": "string",
                            "description": "Geographical WGS84 longitude of the location.",
                        },
                    },
                    "required": ["latitude", "longitude"],
                }
            },
        }
    }


def fetch_weather_data(input_data):
    """
    Fetches weather data for the given latitude and longitude using the Open-Meteo API.
    Returns the weather data or an error message if the request fails.

    :param input_data: The input data containing the latitude and longitude.
    :return: The weather data or an error message.
    """
    endpoint = "https://api.open-meteo.com/v1/forecast"
    latitude = input_data.get("latitude")
    longitude = input_data.get("longitude", "")
    params = {"latitude": latitude, "longitude": longitude, "current_weather": True}

    try:
        response = requests.get(endpoint, params=params)
        weather_data = {"weather_data": response.json()}
        response.raise_for_status()
        return weather_data
    except RequestException as e:
        return e.response.json()
    except Exception as e:
        return {"error": type(e), "message": str(e)}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

## Amazon Nova
<a name="amazon_nova"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AmazonNovaText_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.  

```
# Use the Conversation API to send a text message to Amazon Nova.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Amazon Nova Lite.
model_id = "amazon.nova-lite-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AmazonNovaText_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
# Use the Conversation API to send a text message to Amazon Nova Text
# and print the response stream.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Amazon Nova Lite.
model_id = "amazon.nova-lite-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    streaming_response = client.converse_stream(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the streamed response text in real-time.
    for chunk in streaming_response["stream"]:
        if "contentBlockDelta" in chunk:
            text = chunk["contentBlockDelta"]["delta"]["text"]
            print(text, end="")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/ConverseStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### Pemahaman dokumen
<a name="bedrock-runtime_DocumentUnderstanding_AmazonNova_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim dan memproses dokumen dengan Amazon Nova di Amazon Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim dan proses dokumen dengan Amazon Nova di Amazon Bedrock.  

```
# Send and process a document with Amazon Nova on Amazon Bedrock.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g. Amazon Nova Lite.
model_id = "amazon.nova-lite-v1:0"

# Load the document
with open("example-data/amazon-nova-service-cards.pdf", "rb") as file:
    document_bytes = file.read()

# Start a conversation with a user message and the document
conversation = [
    {
        "role": "user",
        "content": [
            {"text": "Briefly compare the models described in this document"},
            {
                "document": {
                    # Available formats: html, md, pdf, doc/docx, xls/xlsx, csv, and txt
                    "format": "pdf",
                    "name": "Amazon Nova Service Cards",
                    "source": {"bytes": document_bytes},
                }
            },
        ],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 500, "temperature": 0.3},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

## Kanvas Amazon Nova
<a name="amazon_nova_canvas"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AmazonNovaImageGeneration_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Nova Canvas di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Nova Canvas.  

```
# Use the native inference API to create an image with Amazon Nova Canvas

import base64
import json
import os
import random

import boto3

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID.
model_id = "amazon.nova-canvas-v1:0"

# Define the image generation prompt for the model.
prompt = "A stylized picture of a cute old steampunk robot."

# Generate a random seed between 0 and 858,993,459
seed = random.randint(0, 858993460)

# Format the request payload using the model's native structure.
native_request = {
    "taskType": "TEXT_IMAGE",
    "textToImageParams": {"text": prompt},
    "imageGenerationConfig": {
        "seed": seed,
        "quality": "standard",
        "height": 512,
        "width": 512,
        "numberOfImages": 1,
    },
}

# Convert the native request to JSON.
request = json.dumps(native_request)

# Invoke the model with the request.
response = client.invoke_model(modelId=model_id, body=request)

# Decode the response body.
model_response = json.loads(response["body"].read())

# Extract the image data.
base64_image_data = model_response["images"][0]

# Save the generated image to a local folder.
i, output_dir = 1, "output"
if not os.path.exists(output_dir):
    os.makedirs(output_dir)
while os.path.exists(os.path.join(output_dir, f"nova_canvas_{i}.png")):
    i += 1

image_data = base64.b64decode(base64_image_data)

image_path = os.path.join(output_dir, f"nova_canvas_{i}.png")
with open(image_path, "wb") as file:
    file.write(image_data)

print(f"The generated image has been saved to {image_path}")
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

## Amazon Nova Reel
<a name="amazon_nova_reel"></a>

### T ext-to-video
<a name="bedrock-runtime_Scenario_AmazonNova_TextToVideo_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Amazon Nova Reel untuk menghasilkan video dari prompt teks.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan Amazon Nova Reel untuk menghasilkan video dari prompt teks.  

```
"""
This example demonstrates how to use Amazon Nova Reel to generate a video from a text prompt.

It shows how to:
- Set up the Amazon Bedrock runtime client
- Configure a text-to-video request
- Submit an asynchronous job for video generation
- Poll for job completion status
- Access the generated video from S3
"""

import random
import time

import boto3

# Replace with your own S3 bucket to store the generated video
# Format: s3://your-bucket-name
OUTPUT_S3_URI = "s3://REPLACE-WITH-YOUR-S3-BUCKET-NAME"


def start_text_to_video_generation_job(bedrock_runtime, prompt, output_s3_uri):
    """
    Starts an asynchronous text-to-video generation job using Amazon Nova Reel.

    :param bedrock_runtime: The Bedrock runtime client
    :param prompt: The text description of the video to generate
    :param output_s3_uri: S3 URI where the generated video will be stored

    :return: The invocation ARN of the async job
    """
    # Specify the model ID for text-to-video generation
    model_id = "amazon.nova-reel-v1:0"

    # Generate a random seed between 0 and 2,147,483,646
    # This helps ensure unique video generation results
    seed = random.randint(0, 2147483646)

    # Configure the video generation request with additional parameters
    model_input = {
        "taskType": "TEXT_VIDEO",
        "textToVideoParams": {"text": prompt},
        "videoGenerationConfig": {
            "fps": 24,
            "durationSeconds": 6,
            "dimension": "1280x720",
            "seed": seed,
        },
    }

    # Specify the S3 location for the output video
    output_config = {"s3OutputDataConfig": {"s3Uri": output_s3_uri}}

    # Invoke the model asynchronously
    response = bedrock_runtime.start_async_invoke(
        modelId=model_id, modelInput=model_input, outputDataConfig=output_config
    )

    invocation_arn = response["invocationArn"]

    return invocation_arn


def query_job_status(bedrock_runtime, invocation_arn):
    """
    Queries the status of an asynchronous video generation job.

    :param bedrock_runtime: The Bedrock runtime client
    :param invocation_arn: The ARN of the async invocation to check

    :return: The runtime response containing the job status and details
    """
    return bedrock_runtime.get_async_invoke(invocationArn=invocation_arn)


def main():
    """
    Main function that demonstrates the complete workflow for generating
    a video from a text prompt using Amazon Nova Reel.
    """
    # Create a Bedrock Runtime client
    # Note: Credentials will be loaded from the environment or AWS CLI config
    bedrock_runtime = boto3.client("bedrock-runtime", region_name="us-east-1")

    # Configure the text prompt and output location
    prompt = "Closeup of a cute old steampunk robot. Camera zoom in."

    # Verify the S3 URI has been set to a valid bucket
    if "REPLACE-WITH-YOUR-S3-BUCKET-NAME" in OUTPUT_S3_URI:
        print("ERROR: You must replace the OUTPUT_S3_URI with your own S3 bucket URI")
        return

    print("Submitting video generation job...")
    invocation_arn = start_text_to_video_generation_job(
        bedrock_runtime, prompt, OUTPUT_S3_URI
    )
    print(f"Job started with invocation ARN: {invocation_arn}")

    # Poll for job completion
    while True:
        print("\nPolling job status...")
        job = query_job_status(bedrock_runtime, invocation_arn)
        status = job["status"]

        if status == "Completed":
            bucket_uri = job["outputDataConfig"]["s3OutputDataConfig"]["s3Uri"]
            print(f"\nSuccess! The video is available at: {bucket_uri}/output.mp4")
            break
        elif status == "Failed":
            print(
                f"\nVideo generation failed: {job.get('failureMessage', 'Unknown error')}"
            )
            break
        else:
            print("In progress. Waiting 15 seconds...")
            time.sleep(15)


if __name__ == "__main__":
    main()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [GetAsyncInvoke](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/GetAsyncInvoke)
  + [StartAsyncInvoke](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/StartAsyncInvoke)

## Generator Gambar Amazon Titan
<a name="amazon_titan_image_generator"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_TitanImageGenerator_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Titan Image di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Titan Image Generator.  

```
# Use the native inference API to create an image with Amazon Titan Image Generator

import base64
import boto3
import json
import os
import random

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Titan Image Generator G1.
model_id = "amazon.titan-image-generator-v2:0"

# Define the image generation prompt for the model.
prompt = "A stylized picture of a cute old steampunk robot."

# Generate a random seed.
seed = random.randint(0, 2147483647)

# Format the request payload using the model's native structure.
native_request = {
    "taskType": "TEXT_IMAGE",
    "textToImageParams": {"text": prompt},
    "imageGenerationConfig": {
        "numberOfImages": 1,
        "quality": "standard",
        "cfgScale": 8.0,
        "height": 512,
        "width": 512,
        "seed": seed,
    },
}

# Convert the native request to JSON.
request = json.dumps(native_request)

# Invoke the model with the request.
response = client.invoke_model(modelId=model_id, body=request)

# Decode the response body.
model_response = json.loads(response["body"].read())

# Extract the image data.
base64_image_data = model_response["images"][0]

# Save the generated image to a local folder.
i, output_dir = 1, "output"
if not os.path.exists(output_dir):
    os.makedirs(output_dir)
while os.path.exists(os.path.join(output_dir, f"titan_{i}.png")):
    i += 1

image_data = base64.b64decode(base64_image_data)

image_path = os.path.join(output_dir, f"titan_{i}.png")
with open(image_path, "wb") as file:
    file.write(image_data)

print(f"The generated image has been saved to {image_path}")
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

## Teks Amazon Titan
<a name="amazon_titan_text"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_TitanText_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Titan Text, menggunakan Invoke Model API.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
# Use the native inference API to send a text message to Amazon Titan Text.

import boto3
import json

from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Titan Text Premier.
model_id = "amazon.titan-text-premier-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Format the request payload using the model's native structure.
native_request = {
    "inputText": prompt,
    "textGenerationConfig": {
        "maxTokenCount": 512,
        "temperature": 0.5,
    },
}

# Convert the native request to JSON.
request = json.dumps(native_request)

try:
    # Invoke the model with the request.
    response = client.invoke_model(modelId=model_id, body=request)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)

# Decode the response body.
model_response = json.loads(response["body"].read())

# Extract and print the response text.
response_text = model_response["results"][0]["outputText"]
print(response_text)
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

## Embeddings Teks Amazon Titan
<a name="amazon_titan_text_embeddings"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModelWithResponseStream_TitanTextEmbeddings_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulailah membuat penyematan pertama Anda.
+ Buat embeddings yang mengonfigurasi jumlah dimensi dan normalisasi (hanya V2).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Buat penyematan pertama Anda dengan Amazon Titan Text Embeddings.  

```
# Generate and print an embedding with Amazon Titan Text Embeddings V2.

import boto3
import json

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Titan Text Embeddings V2.
model_id = "amazon.titan-embed-text-v2:0"

# The text to convert to an embedding.
input_text = "Please recommend books with a theme similar to the movie 'Inception'."

# Create the request for the model.
native_request = {"inputText": input_text}

# Convert the native request to JSON.
request = json.dumps(native_request)

# Invoke the model with the request.
response = client.invoke_model(modelId=model_id, body=request)

# Decode the model's native response body.
model_response = json.loads(response["body"].read())

# Extract and print the generated embedding and the input text token count.
embedding = model_response["embedding"]
input_token_count = model_response["inputTextTokenCount"]

print("\nYour input:")
print(input_text)
print(f"Number of input tokens: {input_token_count}")
print(f"Size of the generated embedding: {len(embedding)}")
print("Embedding:")
print(embedding)
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

## Antropik Claude
<a name="anthropic_claude"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AnthropicClaude_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.  

```
# Use the Conversation API to send a text message to Anthropic Claude.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AnthropicClaude_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
# Use the Conversation API to send a text message to Anthropic Claude
# and print the response stream.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    streaming_response = client.converse_stream(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the streamed response text in real-time.
    for chunk in streaming_response["stream"]:
        if "contentBlockDelta" in chunk:
            text = chunk["contentBlockDelta"]["delta"]["text"]
            print(text, end="")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/ConverseStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### Pemahaman dokumen
<a name="bedrock-runtime_DocumentUnderstanding_AnthropicClaude_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim dan memproses dokumen dengan Anthropic Claude di Amazon Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim dan proses dokumen dengan Anthropic Claude di Amazon Bedrock.  

```
# Send and process a document with Anthropic Claude on Amazon Bedrock.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g. Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"

# Load the document
with open("example-data/amazon-nova-service-cards.pdf", "rb") as file:
    document_bytes = file.read()

# Start a conversation with a user message and the document
conversation = [
    {
        "role": "user",
        "content": [
            {"text": "Briefly compare the models described in this document"},
            {
                "document": {
                    # Available formats: html, md, pdf, doc/docx, xls/xlsx, csv, and txt
                    "format": "pdf",
                    "name": "Amazon Nova Service Cards",
                    "source": {"bytes": document_bytes},
                }
            },
        ],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 500, "temperature": 0.3},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AnthropicClaude_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan Invoke Model API.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
# Use the native inference API to send a text message to Anthropic Claude.

import boto3
import json

from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Format the request payload using the model's native structure.
native_request = {
    "anthropic_version": "bedrock-2023-05-31",
    "max_tokens": 512,
    "temperature": 0.5,
    "messages": [
        {
            "role": "user",
            "content": [{"type": "text", "text": prompt}],
        }
    ],
}

# Convert the native request to JSON.
request = json.dumps(native_request)

try:
    # Invoke the model with the request.
    response = client.invoke_model(modelId=model_id, body=request)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)

# Decode the response body.
model_response = json.loads(response["body"].read())

# Extract and print the response text.
response_text = model_response["content"][0]["text"]
print(response_text)
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_AnthropicClaude_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Anthropic Claude, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
# Use the native inference API to send a text message to Anthropic Claude
# and print the response stream.

import boto3
import json

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Format the request payload using the model's native structure.
native_request = {
    "anthropic_version": "bedrock-2023-05-31",
    "max_tokens": 512,
    "temperature": 0.5,
    "messages": [
        {
            "role": "user",
            "content": [{"type": "text", "text": prompt}],
        }
    ],
}

# Convert the native request to JSON.
request = json.dumps(native_request)

# Invoke the model with the request.
streaming_response = client.invoke_model_with_response_stream(
    modelId=model_id, body=request
)

# Extract and print the response text in real-time.
for event in streaming_response["body"]:
    chunk = json.loads(event["chunk"]["bytes"])
    if chunk["type"] == "content_block_delta":
        print(chunk["delta"].get("text", ""), end="")
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### Skenario: Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUseDemo_AnthropicClaude_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Script eksekusi utama dari demo. Skrip ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
"""
This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
The script interacts with a foundation model on Amazon Bedrock to provide weather information based on user
input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.
"""

import boto3
import logging
from enum import Enum

import utils.tool_use_print_utils as output
import weather_tool

logging.basicConfig(level=logging.INFO, format="%(message)s")

AWS_REGION = "us-east-1"


# For the most recent list of models supported by the Converse API's tool use functionality, visit:
# https://docs.aws.amazon.com/bedrock/latest/userguide/conversation-inference.html
class SupportedModels(Enum):
    CLAUDE_OPUS = "anthropic.claude-3-opus-20240229-v1:0"
    CLAUDE_SONNET = "anthropic.claude-3-sonnet-20240229-v1:0"
    CLAUDE_HAIKU = "anthropic.claude-3-haiku-20240307-v1:0"
    COHERE_COMMAND_R = "cohere.command-r-v1:0"
    COHERE_COMMAND_R_PLUS = "cohere.command-r-plus-v1:0"


# Set the model ID, e.g., Claude 3 Haiku.
MODEL_ID = SupportedModels.CLAUDE_HAIKU.value

SYSTEM_PROMPT = """
You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.

- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information. 
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
  emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose. 
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
"""

# The maximum number of recursive calls allowed in the tool_use_demo function.
# This helps prevent infinite loops and potential performance issues.
MAX_RECURSIONS = 5


class ToolUseDemo:
    """
    Demonstrates the tool use feature with the Amazon Bedrock Converse API.
    """

    def __init__(self):
        # Prepare the system prompt
        self.system_prompt = [{"text": SYSTEM_PROMPT}]

        # Prepare the tool configuration with the weather tool's specification
        self.tool_config = {"tools": [weather_tool.get_tool_spec()]}

        # Create a Bedrock Runtime client in the specified AWS Region.
        self.bedrockRuntimeClient = boto3.client(
            "bedrock-runtime", region_name=AWS_REGION
        )

    def run(self):
        """
        Starts the conversation with the user and handles the interaction with Bedrock.
        """
        # Print the greeting and a short user guide
        output.header()

        # Start with an emtpy conversation
        conversation = []

        # Get the first user input
        user_input = self._get_user_input()

        while user_input is not None:
            # Create a new message with the user input and append it to the conversation
            message = {"role": "user", "content": [{"text": user_input}]}
            conversation.append(message)

            # Send the conversation to Amazon Bedrock
            bedrock_response = self._send_conversation_to_bedrock(conversation)

            # Recursively handle the model's response until the model has returned
            # its final response or the recursion counter has reached 0
            self._process_model_response(
                bedrock_response, conversation, max_recursion=MAX_RECURSIONS
            )

            # Repeat the loop until the user decides to exit the application
            user_input = self._get_user_input()

        output.footer()

    def _send_conversation_to_bedrock(self, conversation):
        """
        Sends the conversation, the system prompt, and the tool spec to Amazon Bedrock, and returns the response.

        :param conversation: The conversation history including the next message to send.
        :return: The response from Amazon Bedrock.
        """
        output.call_to_bedrock(conversation)

        # Send the conversation, system prompt, and tool configuration, and return the response
        return self.bedrockRuntimeClient.converse(
            modelId=MODEL_ID,
            messages=conversation,
            system=self.system_prompt,
            toolConfig=self.tool_config,
        )

    def _process_model_response(
        self, model_response, conversation, max_recursion=MAX_RECURSIONS
    ):
        """
        Processes the response received via Amazon Bedrock and performs the necessary actions
        based on the stop reason.

        :param model_response: The model's response returned via Amazon Bedrock.
        :param conversation: The conversation history.
        :param max_recursion: The maximum number of recursive calls allowed.
        """

        if max_recursion <= 0:
            # Stop the process, the number of recursive calls could indicate an infinite loop
            logging.warning(
                "Warning: Maximum number of recursions reached. Please try again."
            )
            exit(1)

        # Append the model's response to the ongoing conversation
        message = model_response["output"]["message"]
        conversation.append(message)

        if model_response["stopReason"] == "tool_use":
            # If the stop reason is "tool_use", forward everything to the tool use handler
            self._handle_tool_use(message, conversation, max_recursion)

        if model_response["stopReason"] == "end_turn":
            # If the stop reason is "end_turn", print the model's response text, and finish the process
            output.model_response(message["content"][0]["text"])
            return

    def _handle_tool_use(
        self, model_response, conversation, max_recursion=MAX_RECURSIONS
    ):
        """
        Handles the tool use case by invoking the specified tool and sending the tool's response back to Bedrock.
        The tool response is appended to the conversation, and the conversation is sent back to Amazon Bedrock for further processing.

        :param model_response: The model's response containing the tool use request.
        :param conversation: The conversation history.
        :param max_recursion: The maximum number of recursive calls allowed.
        """

        # Initialize an empty list of tool results
        tool_results = []

        # The model's response can consist of multiple content blocks
        for content_block in model_response["content"]:
            if "text" in content_block:
                # If the content block contains text, print it to the console
                output.model_response(content_block["text"])

            if "toolUse" in content_block:
                # If the content block is a tool use request, forward it to the tool
                tool_response = self._invoke_tool(content_block["toolUse"])

                # Add the tool use ID and the tool's response to the list of results
                tool_results.append(
                    {
                        "toolResult": {
                            "toolUseId": (tool_response["toolUseId"]),
                            "content": [{"json": tool_response["content"]}],
                        }
                    }
                )

        # Embed the tool results in a new user message
        message = {"role": "user", "content": tool_results}

        # Append the new message to the ongoing conversation
        conversation.append(message)

        # Send the conversation to Amazon Bedrock
        response = self._send_conversation_to_bedrock(conversation)

        # Recursively handle the model's response until the model has returned
        # its final response or the recursion counter has reached 0
        self._process_model_response(response, conversation, max_recursion - 1)

    def _invoke_tool(self, payload):
        """
        Invokes the specified tool with the given payload and returns the tool's response.
        If the requested tool does not exist, an error message is returned.

        :param payload: The payload containing the tool name and input data.
        :return: The tool's response or an error message.
        """
        tool_name = payload["name"]

        if tool_name == "Weather_Tool":
            input_data = payload["input"]
            output.tool_use(tool_name, input_data)

            # Invoke the weather tool with the input data provided by
            response = weather_tool.fetch_weather_data(input_data)
        else:
            error_message = (
                f"The requested tool with name '{tool_name}' does not exist."
            )
            response = {"error": "true", "message": error_message}

        return {"toolUseId": payload["toolUseId"], "content": response}

    @staticmethod
    def _get_user_input(prompt="Your weather info request"):
        """
        Prompts the user for input and returns the user's response.
        Returns None if the user enters 'x' to exit.

        :param prompt: The prompt to display to the user.
        :return: The user's input or None if the user chooses to exit.
        """
        output.separator()
        user_input = input(f"{prompt} (x to exit): ")

        if user_input == "":
            prompt = "Please enter your weather info request, e.g. the name of a city"
            return ToolUseDemo._get_user_input(prompt)

        elif user_input.lower() == "x":
            return None

        else:
            return user_input


if __name__ == "__main__":
    tool_use_demo = ToolUseDemo()
    tool_use_demo.run()
```
Alat cuaca yang digunakan oleh demo. Skrip ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
import requests
from requests.exceptions import RequestException


def get_tool_spec():
    """
    Returns the JSON Schema specification for the Weather tool. The tool specification
    defines the input schema and describes the tool's functionality.
    For more information, see https://json-schema.org/understanding-json-schema/reference.

    :return: The tool specification for the Weather tool.
    """
    return {
        "toolSpec": {
            "name": "Weather_Tool",
            "description": "Get the current weather for a given location, based on its WGS84 coordinates.",
            "inputSchema": {
                "json": {
                    "type": "object",
                    "properties": {
                        "latitude": {
                            "type": "string",
                            "description": "Geographical WGS84 latitude of the location.",
                        },
                        "longitude": {
                            "type": "string",
                            "description": "Geographical WGS84 longitude of the location.",
                        },
                    },
                    "required": ["latitude", "longitude"],
                }
            },
        }
    }


def fetch_weather_data(input_data):
    """
    Fetches weather data for the given latitude and longitude using the Open-Meteo API.
    Returns the weather data or an error message if the request fails.

    :param input_data: The input data containing the latitude and longitude.
    :return: The weather data or an error message.
    """
    endpoint = "https://api.open-meteo.com/v1/forecast"
    latitude = input_data.get("latitude")
    longitude = input_data.get("longitude", "")
    params = {"latitude": latitude, "longitude": longitude, "current_weather": True}

    try:
        response = requests.get(endpoint, params=params)
        weather_data = {"weather_data": response.json()}
        response.raise_for_status()
        return weather_data
    except RequestException as e:
        return e.response.json()
    except Exception as e:
        return {"error": type(e), "message": str(e)}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

## Perintah Cohere
<a name="cohere_command"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_CohereCommand_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock.  

```
# Use the Conversation API to send a text message to Cohere Command.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Command R.
model_id = "cohere.command-r-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_CohereCommand_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Cohere Command, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
# Use the Conversation API to send a text message to Cohere Command
# and print the response stream.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Command R.
model_id = "cohere.command-r-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    streaming_response = client.converse_stream(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the streamed response text in real-time.
    for chunk in streaming_response["stream"]:
        if "contentBlockDelta" in chunk:
            text = chunk["contentBlockDelta"]["delta"]["text"]
            print(text, end="")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/ConverseStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### Pemahaman dokumen
<a name="bedrock-runtime_DocumentUnderstanding_CohereCommand_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim dan memproses dokumen dengan model Cohere Command di Amazon Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim dan proses dokumen dengan model Cohere Command di Amazon Bedrock.  

```
# Send and process a document with Cohere Command models on Amazon Bedrock.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g. Command R+.
model_id = "cohere.command-r-plus-v1:0"

# Load the document
with open("example-data/amazon-nova-service-cards.pdf", "rb") as file:
    document_bytes = file.read()

# Start a conversation with a user message and the document
conversation = [
    {
        "role": "user",
        "content": [
            {"text": "Briefly compare the models described in this document"},
            {
                "document": {
                    # Available formats: html, md, pdf, doc/docx, xls/xlsx, csv, and txt
                    "format": "pdf",
                    "name": "Amazon Nova Service Cards",
                    "source": {"bytes": document_bytes},
                }
            },
        ],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 500, "temperature": 0.3},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### InvokeModel: Perintah R dan R \$1
<a name="bedrock-runtime_InvokeModel_CohereCommandR_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command R dan R \$1, menggunakan Invoke Model API.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
# Use the native inference API to send a text message to Cohere Command R and R+.

import boto3
import json

from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Command R.
model_id = "cohere.command-r-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Format the request payload using the model's native structure.
native_request = {
    "message": prompt,
    "max_tokens": 512,
    "temperature": 0.5,
}

# Convert the native request to JSON.
request = json.dumps(native_request)

try:
    # Invoke the model with the request.
    response = client.invoke_model(modelId=model_id, body=request)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)

# Decode the response body.
model_response = json.loads(response["body"].read())

# Extract and print the response text.
response_text = model_response["text"]
print(response_text)
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

### InvokeModelWithResponseStream: Perintah R dan R \$1
<a name="bedrock-runtime_InvokeModelWithResponseStream_CohereCommandR_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Cohere Command, menggunakan Invoke Model API dengan aliran respons.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
# Use the native inference API to send a text message to Cohere Command R and R+
# and print the response stream.

import boto3
import json

from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Command R.
model_id = "cohere.command-r-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Format the request payload using the model's native structure.
native_request = {
    "message": prompt,
    "max_tokens": 512,
    "temperature": 0.5,
}

# Convert the native request to JSON.
request = json.dumps(native_request)

try:
    # Invoke the model with the request.
    streaming_response = client.invoke_model_with_response_stream(
        modelId=model_id, body=request
    )

    # Extract and print the response text in real-time.
    for event in streaming_response["body"]:
        chunk = json.loads(event["chunk"]["bytes"])
        if "generations" in chunk:
            print(chunk["generations"][0]["text"], end="")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

### Skenario: Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUseDemo_CohereCommand_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Script eksekusi utama dari demo. Skrip ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
"""
This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
The script interacts with a foundation model on Amazon Bedrock to provide weather information based on user
input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.
"""

import boto3
import logging
from enum import Enum

import utils.tool_use_print_utils as output
import weather_tool

logging.basicConfig(level=logging.INFO, format="%(message)s")

AWS_REGION = "us-east-1"


# For the most recent list of models supported by the Converse API's tool use functionality, visit:
# https://docs.aws.amazon.com/bedrock/latest/userguide/conversation-inference.html
class SupportedModels(Enum):
    CLAUDE_OPUS = "anthropic.claude-3-opus-20240229-v1:0"
    CLAUDE_SONNET = "anthropic.claude-3-sonnet-20240229-v1:0"
    CLAUDE_HAIKU = "anthropic.claude-3-haiku-20240307-v1:0"
    COHERE_COMMAND_R = "cohere.command-r-v1:0"
    COHERE_COMMAND_R_PLUS = "cohere.command-r-plus-v1:0"


# Set the model ID, e.g., Claude 3 Haiku.
MODEL_ID = SupportedModels.CLAUDE_HAIKU.value

SYSTEM_PROMPT = """
You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.

- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information. 
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
  emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose. 
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
"""

# The maximum number of recursive calls allowed in the tool_use_demo function.
# This helps prevent infinite loops and potential performance issues.
MAX_RECURSIONS = 5


class ToolUseDemo:
    """
    Demonstrates the tool use feature with the Amazon Bedrock Converse API.
    """

    def __init__(self):
        # Prepare the system prompt
        self.system_prompt = [{"text": SYSTEM_PROMPT}]

        # Prepare the tool configuration with the weather tool's specification
        self.tool_config = {"tools": [weather_tool.get_tool_spec()]}

        # Create a Bedrock Runtime client in the specified AWS Region.
        self.bedrockRuntimeClient = boto3.client(
            "bedrock-runtime", region_name=AWS_REGION
        )

    def run(self):
        """
        Starts the conversation with the user and handles the interaction with Bedrock.
        """
        # Print the greeting and a short user guide
        output.header()

        # Start with an emtpy conversation
        conversation = []

        # Get the first user input
        user_input = self._get_user_input()

        while user_input is not None:
            # Create a new message with the user input and append it to the conversation
            message = {"role": "user", "content": [{"text": user_input}]}
            conversation.append(message)

            # Send the conversation to Amazon Bedrock
            bedrock_response = self._send_conversation_to_bedrock(conversation)

            # Recursively handle the model's response until the model has returned
            # its final response or the recursion counter has reached 0
            self._process_model_response(
                bedrock_response, conversation, max_recursion=MAX_RECURSIONS
            )

            # Repeat the loop until the user decides to exit the application
            user_input = self._get_user_input()

        output.footer()

    def _send_conversation_to_bedrock(self, conversation):
        """
        Sends the conversation, the system prompt, and the tool spec to Amazon Bedrock, and returns the response.

        :param conversation: The conversation history including the next message to send.
        :return: The response from Amazon Bedrock.
        """
        output.call_to_bedrock(conversation)

        # Send the conversation, system prompt, and tool configuration, and return the response
        return self.bedrockRuntimeClient.converse(
            modelId=MODEL_ID,
            messages=conversation,
            system=self.system_prompt,
            toolConfig=self.tool_config,
        )

    def _process_model_response(
        self, model_response, conversation, max_recursion=MAX_RECURSIONS
    ):
        """
        Processes the response received via Amazon Bedrock and performs the necessary actions
        based on the stop reason.

        :param model_response: The model's response returned via Amazon Bedrock.
        :param conversation: The conversation history.
        :param max_recursion: The maximum number of recursive calls allowed.
        """

        if max_recursion <= 0:
            # Stop the process, the number of recursive calls could indicate an infinite loop
            logging.warning(
                "Warning: Maximum number of recursions reached. Please try again."
            )
            exit(1)

        # Append the model's response to the ongoing conversation
        message = model_response["output"]["message"]
        conversation.append(message)

        if model_response["stopReason"] == "tool_use":
            # If the stop reason is "tool_use", forward everything to the tool use handler
            self._handle_tool_use(message, conversation, max_recursion)

        if model_response["stopReason"] == "end_turn":
            # If the stop reason is "end_turn", print the model's response text, and finish the process
            output.model_response(message["content"][0]["text"])
            return

    def _handle_tool_use(
        self, model_response, conversation, max_recursion=MAX_RECURSIONS
    ):
        """
        Handles the tool use case by invoking the specified tool and sending the tool's response back to Bedrock.
        The tool response is appended to the conversation, and the conversation is sent back to Amazon Bedrock for further processing.

        :param model_response: The model's response containing the tool use request.
        :param conversation: The conversation history.
        :param max_recursion: The maximum number of recursive calls allowed.
        """

        # Initialize an empty list of tool results
        tool_results = []

        # The model's response can consist of multiple content blocks
        for content_block in model_response["content"]:
            if "text" in content_block:
                # If the content block contains text, print it to the console
                output.model_response(content_block["text"])

            if "toolUse" in content_block:
                # If the content block is a tool use request, forward it to the tool
                tool_response = self._invoke_tool(content_block["toolUse"])

                # Add the tool use ID and the tool's response to the list of results
                tool_results.append(
                    {
                        "toolResult": {
                            "toolUseId": (tool_response["toolUseId"]),
                            "content": [{"json": tool_response["content"]}],
                        }
                    }
                )

        # Embed the tool results in a new user message
        message = {"role": "user", "content": tool_results}

        # Append the new message to the ongoing conversation
        conversation.append(message)

        # Send the conversation to Amazon Bedrock
        response = self._send_conversation_to_bedrock(conversation)

        # Recursively handle the model's response until the model has returned
        # its final response or the recursion counter has reached 0
        self._process_model_response(response, conversation, max_recursion - 1)

    def _invoke_tool(self, payload):
        """
        Invokes the specified tool with the given payload and returns the tool's response.
        If the requested tool does not exist, an error message is returned.

        :param payload: The payload containing the tool name and input data.
        :return: The tool's response or an error message.
        """
        tool_name = payload["name"]

        if tool_name == "Weather_Tool":
            input_data = payload["input"]
            output.tool_use(tool_name, input_data)

            # Invoke the weather tool with the input data provided by
            response = weather_tool.fetch_weather_data(input_data)
        else:
            error_message = (
                f"The requested tool with name '{tool_name}' does not exist."
            )
            response = {"error": "true", "message": error_message}

        return {"toolUseId": payload["toolUseId"], "content": response}

    @staticmethod
    def _get_user_input(prompt="Your weather info request"):
        """
        Prompts the user for input and returns the user's response.
        Returns None if the user enters 'x' to exit.

        :param prompt: The prompt to display to the user.
        :return: The user's input or None if the user chooses to exit.
        """
        output.separator()
        user_input = input(f"{prompt} (x to exit): ")

        if user_input == "":
            prompt = "Please enter your weather info request, e.g. the name of a city"
            return ToolUseDemo._get_user_input(prompt)

        elif user_input.lower() == "x":
            return None

        else:
            return user_input


if __name__ == "__main__":
    tool_use_demo = ToolUseDemo()
    tool_use_demo.run()
```
Alat cuaca yang digunakan oleh demo. Skrip ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
import requests
from requests.exceptions import RequestException


def get_tool_spec():
    """
    Returns the JSON Schema specification for the Weather tool. The tool specification
    defines the input schema and describes the tool's functionality.
    For more information, see https://json-schema.org/understanding-json-schema/reference.

    :return: The tool specification for the Weather tool.
    """
    return {
        "toolSpec": {
            "name": "Weather_Tool",
            "description": "Get the current weather for a given location, based on its WGS84 coordinates.",
            "inputSchema": {
                "json": {
                    "type": "object",
                    "properties": {
                        "latitude": {
                            "type": "string",
                            "description": "Geographical WGS84 latitude of the location.",
                        },
                        "longitude": {
                            "type": "string",
                            "description": "Geographical WGS84 longitude of the location.",
                        },
                    },
                    "required": ["latitude", "longitude"],
                }
            },
        }
    }


def fetch_weather_data(input_data):
    """
    Fetches weather data for the given latitude and longitude using the Open-Meteo API.
    Returns the weather data or an error message if the request fails.

    :param input_data: The input data containing the latitude and longitude.
    :return: The weather data or an error message.
    """
    endpoint = "https://api.open-meteo.com/v1/forecast"
    latitude = input_data.get("latitude")
    longitude = input_data.get("longitude", "")
    params = {"latitude": latitude, "longitude": longitude, "current_weather": True}

    try:
        response = requests.get(endpoint, params=params)
        weather_data = {"weather_data": response.json()}
        response.raise_for_status()
        return weather_data
    except RequestException as e:
        return e.response.json()
    except Exception as e:
        return {"error": type(e), "message": str(e)}
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

## DeepSeek
<a name="deepseek"></a>

### Pemahaman dokumen
<a name="bedrock-runtime_DocumentUnderstanding_DeepSeek_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim dan memproses dokumen dengan DeepSeek di Amazon Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim dan proses dokumen dengan DeepSeek di Amazon Bedrock.  

```
# Send and process a document with DeepSeek on Amazon Bedrock.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g. DeepSeek-R1
model_id = "us.deepseek.r1-v1:0"

# Load the document
with open("example-data/amazon-nova-service-cards.pdf", "rb") as file:
    document_bytes = file.read()

# Start a conversation with a user message and the document
conversation = [
    {
        "role": "user",
        "content": [
            {"text": "Briefly compare the models described in this document"},
            {
                "document": {
                    # Available formats: html, md, pdf, doc/docx, xls/xlsx, csv, and txt
                    "format": "pdf",
                    "name": "Amazon Nova Service Cards",
                    "source": {"bytes": document_bytes},
                }
            },
        ],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 2000, "temperature": 0.3},
    )

    # Extract and print the reasoning and response text.
    reasoning, response_text = "", ""
    for item in response["output"]["message"]["content"]:
        for key, value in item.items():
            if key == "reasoningContent":
                reasoning = value["reasoningText"]["text"]
            elif key == "text":
                response_text = value

    print(f"\nReasoning:\n{reasoning}")
    print(f"\nResponse:\n{response_text}")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

## Meta Llama
<a name="meta_llama"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_MetaLlama_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.  

```
# Use the Conversation API to send a text message to Meta Llama.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Llama 3 8b Instruct.
model_id = "meta.llama3-8b-instruct-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_MetaLlama_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
# Use the Conversation API to send a text message to Meta Llama
# and print the response stream.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Llama 3 8b Instruct.
model_id = "meta.llama3-8b-instruct-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    streaming_response = client.converse_stream(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the streamed response text in real-time.
    for chunk in streaming_response["stream"]:
        if "contentBlockDelta" in chunk:
            text = chunk["contentBlockDelta"]["delta"]["text"]
            print(text, end="")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/ConverseStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### Pemahaman dokumen
<a name="bedrock-runtime_DocumentUnderstanding_MetaLlama_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim dan memproses dokumen dengan Llama di Amazon Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim dan proses dokumen dengan Llama di Amazon Bedrock.  

```
# Send and process a document with Llama on Amazon Bedrock.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g. Llama 3.1 8B Instruct.
model_id = "us.meta.llama3-1-8b-instruct-v1:0"

# Load the document
with open("example-data/amazon-nova-service-cards.pdf", "rb") as file:
    document_bytes = file.read()

# Start a conversation with a user message and the document
conversation = [
    {
        "role": "user",
        "content": [
            {"text": "Briefly compare the models described in this document"},
            {
                "document": {
                    # Available formats: html, md, pdf, doc/docx, xls/xlsx, csv, and txt
                    "format": "pdf",
                    "name": "Amazon Nova Service Cards",
                    "source": {"bytes": document_bytes},
                }
            },
        ],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 500, "temperature": 0.3},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_MetaLlama3_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan Invoke Model API.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
# Use the native inference API to send a text message to Meta Llama 3.

import boto3
import json

from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-west-2")

# Set the model ID, e.g., Llama 3 70b Instruct.
model_id = "meta.llama3-70b-instruct-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Embed the prompt in Llama 3's instruction format.
formatted_prompt = f"""
<|begin_of_text|><|start_header_id|>user<|end_header_id|>
{prompt}
<|eot_id|>
<|start_header_id|>assistant<|end_header_id|>
"""

# Format the request payload using the model's native structure.
native_request = {
    "prompt": formatted_prompt,
    "max_gen_len": 512,
    "temperature": 0.5,
}

# Convert the native request to JSON.
request = json.dumps(native_request)

try:
    # Invoke the model with the request.
    response = client.invoke_model(modelId=model_id, body=request)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)

# Decode the response body.
model_response = json.loads(response["body"].read())

# Extract and print the response text.
response_text = model_response["generation"]
print(response_text)
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_MetaLlama3_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan Invoke Model API, dan mencetak aliran respons.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
# Use the native inference API to send a text message to Meta Llama 3
# and print the response stream.

import boto3
import json

from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-west-2")

# Set the model ID, e.g., Llama 3 70b Instruct.
model_id = "meta.llama3-70b-instruct-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Embed the prompt in Llama 3's instruction format.
formatted_prompt = f"""
<|begin_of_text|><|start_header_id|>user<|end_header_id|>
{prompt}
<|eot_id|>
<|start_header_id|>assistant<|end_header_id|>
"""

# Format the request payload using the model's native structure.
native_request = {
    "prompt": formatted_prompt,
    "max_gen_len": 512,
    "temperature": 0.5,
}

# Convert the native request to JSON.
request = json.dumps(native_request)

try:
    # Invoke the model with the request.
    streaming_response = client.invoke_model_with_response_stream(
        modelId=model_id, body=request
    )

    # Extract and print the response text in real-time.
    for event in streaming_response["body"]:
        chunk = json.loads(event["chunk"]["bytes"])
        if "generation" in chunk:
            print(chunk["generation"], end="")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *AWS SDK for Python (Boto3) Referensi* API. 

## Mistral AI
<a name="mistral_ai"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_Mistral_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Mistral, menggunakan API Converse Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock.  

```
# Use the Conversation API to send a text message to Mistral.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Mistral Large.
model_id = "mistral.mistral-large-2402-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_Mistral_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Mistral, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Mistral, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
# Use the Conversation API to send a text message to Mistral
# and print the response stream.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Mistral Large.
model_id = "mistral.mistral-large-2402-v1:0"

# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
    {
        "role": "user",
        "content": [{"text": user_message}],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    streaming_response = client.converse_stream(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
    )

    # Extract and print the streamed response text in real-time.
    for chunk in streaming_response["stream"]:
        if "contentBlockDelta" in chunk:
            text = chunk["contentBlockDelta"]["delta"]["text"]
            print(text, end="")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [ConverseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/ConverseStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### Pemahaman dokumen
<a name="bedrock-runtime_DocumentUnderstanding_Mistral_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim dan memproses dokumen dengan model Mistral di Amazon Bedrock.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Kirim dan proses dokumen dengan model Mistral di Amazon Bedrock.  

```
# Send and process a document with Mistral models on Amazon Bedrock.

import boto3
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Mistral Large.
model_id = "mistral.mistral-large-2402-v1:0"

# Load the document
with open("example-data/amazon-nova-service-cards.pdf", "rb") as file:
    document_bytes = file.read()

# Start a conversation with a user message and the document
conversation = [
    {
        "role": "user",
        "content": [
            {"text": "Briefly compare the models described in this document"},
            {
                "document": {
                    # Available formats: html, md, pdf, doc/docx, xls/xlsx, csv, and txt
                    "format": "pdf",
                    "name": "Amazon Nova Service Cards",
                    "source": {"bytes": document_bytes},
                }
            },
        ],
    }
]

try:
    # Send the message to the model, using a basic inference configuration.
    response = client.converse(
        modelId=model_id,
        messages=conversation,
        inferenceConfig={"maxTokens": 500, "temperature": 0.3},
    )

    # Extract and print the response text.
    response_text = response["output"]["message"]["content"][0]["text"]
    print(response_text)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) in *AWS SDK for Python (Boto3) Referensi* API. 

### InvokeModel
<a name="bedrock-runtime_InvokeModel_MistralAi_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model Mistral, menggunakan Invoke Model API.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks.  

```
# Use the native inference API to send a text message to Mistral.

import boto3
import json
from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Mistral Large.
model_id = "mistral.mistral-large-2402-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Embed the prompt in Mistral's instruction format.
formatted_prompt = f"<s>[INST] {prompt} [/INST]"

# Format the request payload using the model's native structure.
native_request = {
    "prompt": formatted_prompt,
    "max_tokens": 512,
    "temperature": 0.5,
}

# Convert the native request to JSON.
request = json.dumps(native_request)

try:
    # Invoke the model with the request.
    response = client.invoke_model(modelId=model_id, body=request)

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
    exit(1)

# Decode the response body.
model_response = json.loads(response["body"].read())

# Extract and print the response text.
response_text = model_response["outputs"][0]["text"]
print(response_text)
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

### InvokeModelWithResponseStream
<a name="bedrock-runtime_InvokeModelWithResponseStream_MistralAi_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke model AI Mistral, menggunakan API Model Invoke, dan mencetak aliran respons.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Gunakan API Invoke Model untuk mengirim pesan teks dan memproses aliran respons secara real-time.  

```
# Use the native inference API to send a text message to Mistral
# and print the response stream.

import boto3
import json

from botocore.exceptions import ClientError

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Mistral Large.
model_id = "mistral.mistral-large-2402-v1:0"

# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."

# Embed the prompt in Mistral's instruction format.
formatted_prompt = f"<s>[INST] {prompt} [/INST]"

# Format the request payload using the model's native structure.
native_request = {
    "prompt": formatted_prompt,
    "max_tokens": 512,
    "temperature": 0.5,
}

# Convert the native request to JSON.
request = json.dumps(native_request)

try:
    # Invoke the model with the request.
    streaming_response = client.invoke_model_with_response_stream(
        modelId=model_id, body=request
    )

    # Extract and print the response text in real-time.
    for event in streaming_response["body"]:
        chunk = json.loads(event["chunk"]["bytes"])
        if "outputs" in chunk:
            print(chunk["outputs"][0].get("text"), end="")

except (ClientError, Exception) as e:
    print(f"ERROR: Can't invoke '{model_id}''. Reason: {e}")
    exit(1)
```
+  Untuk detail API, lihat [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)di *AWS SDK for Python (Boto3) Referensi* API. 

## Difusi Stabil
<a name="stable_diffusion"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_StableDiffusion_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Stability.ai Stable Diffusion XL di Amazon Bedrock untuk menghasilkan gambar.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Difusi Stabil.  

```
# Use the native inference API to create an image with Stability.ai Stable Diffusion

import base64
import boto3
import json
import os
import random

# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")

# Set the model ID, e.g., Stable Diffusion XL 1.
model_id = "stability.stable-diffusion-xl-v1"

# Define the image generation prompt for the model.
prompt = "A stylized picture of a cute old steampunk robot."

# Generate a random seed.
seed = random.randint(0, 4294967295)

# Format the request payload using the model's native structure.
native_request = {
    "text_prompts": [{"text": prompt}],
    "style_preset": "photographic",
    "seed": seed,
    "cfg_scale": 10,
    "steps": 30,
}

# Convert the native request to JSON.
request = json.dumps(native_request)

# Invoke the model with the request.
response = client.invoke_model(modelId=model_id, body=request)

# Decode the response body.
model_response = json.loads(response["body"].read())

# Extract the image data.
base64_image_data = model_response["artifacts"][0]["base64"]

# Save the generated image to a local folder.
i, output_dir = 1, "output"
if not os.path.exists(output_dir):
    os.makedirs(output_dir)
while os.path.exists(os.path.join(output_dir, f"stability_{i}.png")):
    i += 1

image_data = base64.b64decode(base64_image_data)

image_path = os.path.join(output_dir, f"stability_{i}.png")
with open(image_path, "wb") as file:
    file.write(image_data)

print(f"The generated image has been saved to {image_path}")
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Agen Batuan Dasar Amazon menggunakan SDK for Python (Boto3)
<a name="python_3_bedrock-agent_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk Python (Boto3) dengan menggunakan Agen Bedrock Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateAgent`
<a name="bedrock-agent_CreateAgent_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAgent`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat agen.  

```
    def create_agent(self, agent_name, foundation_model, role_arn, instruction):
        """
        Creates an agent that orchestrates interactions between foundation models,
        data sources, software applications, user conversations, and APIs to carry
        out tasks to help customers.

        :param agent_name: A name for the agent.
        :param foundation_model: The foundation model to be used for orchestration by the agent.
        :param role_arn: The ARN of the IAM role with permissions needed by the agent.
        :param instruction: Instructions that tell the agent what it should do and how it should
                            interact with users.
        :return: The response from Amazon Bedrock Agents if successful, otherwise raises an exception.
        """
        try:
            response = self.client.create_agent(
                agentName=agent_name,
                foundationModel=foundation_model,
                agentResourceRoleArn=role_arn,
                instruction=instruction,
            )
        except ClientError as e:
            logger.error(f"Error: Couldn't create agent. Here's why: {e}")
            raise
        else:
            return response["agent"]
```
+  Untuk detail API, lihat [CreateAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateAgent)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateAgentActionGroup`
<a name="bedrock-agent_CreateAgentActionGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAgentActionGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat grup aksi agen.  

```
    def create_agent_action_group(
            self, name, description, agent_id, agent_version, function_arn, api_schema
    ):
        """
        Creates an action group for an agent. An action group defines a set of actions that an
        agent should carry out for the customer.

        :param name: The name to give the action group.
        :param description: The description of the action group.
        :param agent_id: The unique identifier of the agent for which to create the action group.
        :param agent_version: The version of the agent for which to create the action group.
        :param function_arn: The ARN of the Lambda function containing the business logic that is
                             carried out upon invoking the action.
        :param api_schema: Contains the OpenAPI schema for the action group.
        :return: Details about the action group that was created.
        """
        try:
            response = self.client.create_agent_action_group(
                actionGroupName=name,
                description=description,
                agentId=agent_id,
                agentVersion=agent_version,
                actionGroupExecutor={"lambda": function_arn},
                apiSchema={"payload": api_schema},
            )
            agent_action_group = response["agentActionGroup"]
        except ClientError as e:
            logger.error(f"Error: Couldn't create agent action group. Here's why: {e}")
            raise
        else:
            return agent_action_group
```
+  Untuk detail API, lihat [CreateAgentActionGroup](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateAgentActionGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateAgentAlias`
<a name="bedrock-agent_CreateAgentAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAgentAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat alias agen.  

```
    def create_agent_alias(self, name, agent_id):
        """
        Creates an alias of an agent that can be used to deploy the agent.

        :param name: The name of the alias.
        :param agent_id: The unique identifier of the agent.
        :return: Details about the alias that was created.
        """
        try:
            response = self.client.create_agent_alias(
                agentAliasName=name, agentId=agent_id
            )
            agent_alias = response["agentAlias"]
        except ClientError as e:
            logger.error(f"Couldn't create agent alias. {e}")
            raise
        else:
            return agent_alias
```
+  Untuk detail API, lihat [CreateAgentAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateAgentAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateFlow`
<a name="bedrock-agent_CreateFlow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFlow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat alur Amazon Bedrock.  

```
def create_flow(client, flow_name, flow_description, role_arn, flow_def):
    """
    Creates an Amazon Bedrock flow.

    Args:
    client: Amazon Bedrock agent boto3 client.
    flow_name (str): The name for the new flow.
    role_arn (str):  The ARN for the IAM role that use flow uses.
    flow_def (json): The JSON definition of the flow that you want to create.

    Returns:
        dict: The response from CreateFlow.
    """
    try:

        logger.info("Creating flow: %s.", flow_name)

        response = client.create_flow(
            name=flow_name,
            description=flow_description,
            executionRoleArn=role_arn,
            definition=flow_def
        )

        logger.info("Successfully created flow: %s. ID: %s",
                    flow_name,
                    {response['id']})

        return response

    except ClientError as e:
        logger.exception("Client error creating flow: %s", {str(e)})
        raise

    except Exception as e:
        logger.exception("Unexepcted error creating flow: %s", {str(e)})
        raise
```
+  Untuk detail API, lihat [CreateFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateFlowAlias`
<a name="bedrock-agent_CreateFlowAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFlowAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat alias untuk aliran Amazon Bedrock.  

```
def create_flow_alias(client, flow_id, flow_version, name, description):
    """
    Creates an alias for an Amazon Bedrock flow.

    Args:
        client: bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.

    Returns:
        str: The ID for the flow alias.
    """

    try:
        logger.info("Creating flow alias for flow: %s.", flow_id)

        response = client.create_flow_alias(
            flowIdentifier=flow_id,
            name=name,
            description=description,
            routingConfiguration=[
                {
                    "flowVersion": flow_version
                }
            ]
        )
        logger.info("Successfully created flow alias for %s.", flow_id)

        return response['id']

    except ClientError as e:
        logging.exception("Client error creating alias for flow: %s - %s",
                flow_id, str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected error creating alias for flow : %s - %s",
                flow_id, str(e))
        raise
```
+  Untuk detail API, lihat [CreateFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlowAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateFlowVersion`
<a name="bedrock-agent_CreateFlowVersion_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFlowVersion`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat versi aliran Amazon Bedrock.  

```
def create_flow_version(client, flow_id, description):
    """
    Creates a version of an Amazon Bedrock flow.

    Args:
        client: Amazon Bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.
        description (str) : A description for the flow.

    Returns:
        str: The version for the flow.
    """
    try:

        logger.info("Creating flow version for flow: %s.", flow_id)

        # Call CreateFlowVersion operation
        response = client.create_flow_version(
            flowIdentifier=flow_id,
            description=description
        )

        logging.info("Successfully created flow version %s for flow %s.",
            response['version'], flow_id)
        
        return response['version']

    except ClientError as e:
        logging.exception("Client error creating flow: %s", str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected error creating flow : %s", str(e))
        raise
```
+  Untuk detail API, lihat [CreateFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlowVersion)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateKnowledgeBase`
<a name="bedrock-agent_CreateKnowledgeBase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKnowledgeBase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat basis pengetahuan Amazon Bedrock.  

```
def create_knowledge_base(bedrock_agent_client, name, role_arn, description=None):
    """
    Creates a new knowledge base.

    Args:
        bedrock_agent_client: The Boto3 Bedrock Agent client.
        name (str): The name of the knowledge base.
        role_arn (str): The ARN of the IAM role that the knowledge base assumes to access resources.
        description (str, optional): A description of the knowledge base.

    Returns:
        dict: The details of the created knowledge base.
    """
    try:
        kwargs = {
            "name": name,
            "roleArn": role_arn,
            "knowledgeBaseConfiguration": {
                "type": "VECTOR",
                "vectorKnowledgeBaseConfiguration": {
                    "embeddingModelArn": "arn:aws:bedrock:us-east-1::foundation-model/amazon.titan-embed-text-v1"
                }
            },
            "storageConfiguration": {
                "type": "OPENSEARCH_SERVERLESS",
                # Note: You will need to create an OpenSearch Serverless collection first and replace this ARN
                # with your actual collection ARN from the OpenSearch console. If you use the console instead,
                # you can use the quick-create flow to have Knowledge Bases create the collection for you.
                "opensearchServerlessConfiguration": {
                    "collectionArn": "arn:aws:aoss:us-east-1::123456789012:collection/abcdefgh12345678defgh",
                        "fieldMapping": {
                        "metadataField": "metadata",
                        "textField": "text",
                        "vectorField": "vector"
                        },
                    "vectorIndexName": "test-uuid"
                    },
                },
            "clientToken": "test-client-token-" + str(uuid.uuid4())
        }
        
        if description:
            kwargs["description"] = description
            
        response = bedrock_agent_client.create_knowledge_base(**kwargs)
        
        logger.info("Created knowledge base with ID: %s", response["knowledgeBase"]["knowledgeBaseId"])
        return response["knowledgeBase"]
    
    except ClientError as err:
        logger.error(
            "Couldn't create knowledge base. Here's why: %s: %s",
            err.response["Error"]["Code"],
            err.response["Error"]["Message"],
        )
        raise
```
+  Untuk detail API, lihat [CreateKnowledgeBase](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateKnowledgeBase)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreatePrompt`
<a name="bedrock-agent_CreatePrompt_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePrompt`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat prompt terkelola Amazon Bedrock.  

```
def create_prompt(client, prompt_name, prompt_description, prompt_template, model_id=None):
    """
    Creates an Amazon Bedrock managed prompt.

    Args:
    client: Amazon Bedrock Agent boto3 client.
    prompt_name (str): The name for the new prompt.
    prompt_description (str): The description for the new prompt.
    prompt_template (str): The template for the prompt.
    model_id (str, optional): The model ID to associate with the prompt.

    Returns:
        dict: The response from CreatePrompt.
    """
    try:
        logger.info("Creating prompt: %s.", prompt_name)
        
        # Create a variant with the template
        variant = {
            "name": "default",
            "templateType": "TEXT",
            "templateConfiguration": {
                "text": {
                    "text": prompt_template,
                    "inputVariables": []
                }
            }
        }
        
        # Extract input variables from the template
        # Look for patterns like {{variable_name}}

        variables = re.findall(r'{{(.*?)}}', prompt_template)
        for var in variables:
            variant["templateConfiguration"]["text"]["inputVariables"].append({"name": var.strip()})
        
        # Add model ID if provided
        if model_id:
            variant["modelId"] = model_id
        
        # Create the prompt with the variant
        create_params = {
            'name': prompt_name,
            'description': prompt_description,
            'variants': [variant]
        }
            
        response = client.create_prompt(**create_params)

        logger.info("Successfully created prompt: %s. ID: %s",
                    prompt_name,
                    response['id'])

        return response

    except ClientError as e:
        logger.exception("Client error creating prompt: %s", str(e))
        raise

    except Exception as e:
        logger.exception("Unexpected error creating prompt: %s", str(e))
        raise
```
+  Untuk detail API, lihat [CreatePrompt](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreatePrompt)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreatePromptVersion`
<a name="bedrock-agent_CreatePromptVersion_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePromptVersion`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat versi prompt terkelola Amazon Bedrock.  

```
def create_prompt_version(client, prompt_id, description=None):
    """
    Creates a version of an Amazon Bedrock managed prompt.

    Args:
    client: Amazon Bedrock Agent boto3 client.
    prompt_id (str): The identifier of the prompt to create a version for.
    description (str, optional): A description for the version.

    Returns:
        dict: The response from CreatePromptVersion.
    """
    try:
        logger.info("Creating version for prompt ID: %s.", prompt_id)
        
        create_params = {
            'promptIdentifier': prompt_id
        }
        
        if description:
            create_params['description'] = description
            
        response = client.create_prompt_version(**create_params)

        logger.info("Successfully created prompt version: %s", response['version'])
        logger.info("Prompt version ARN: %s", response['arn'])

        return response


    except ClientError as e:
        logger.exception("Client error creating prompt version: %s", str(e))
        raise

    except Exception as e:
        logger.exception("Unexpected error creating prompt version: %s", str(e))
        raise
```
+  Untuk detail API, lihat [CreatePromptVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreatePromptVersion)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteAgent`
<a name="bedrock-agent_DeleteAgent_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAgent`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Hapus agen.  

```
    def delete_agent(self, agent_id):
        """
        Deletes an Amazon Bedrock agent.

        :param agent_id: The unique identifier of the agent to delete.
        :return: The response from Amazon Bedrock Agents if successful, otherwise raises an exception.
        """

        try:
            response = self.client.delete_agent(
                agentId=agent_id, skipResourceInUseCheck=False
            )
        except ClientError as e:
            logger.error(f"Couldn't delete agent. {e}")
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DeleteAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteAgent)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteAgentAlias`
<a name="bedrock-agent_DeleteAgentAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAgentAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Hapus alias agen.  

```
    def delete_agent_alias(self, agent_id, agent_alias_id):
        """
        Deletes an alias of an Amazon Bedrock agent.

        :param agent_id: The unique identifier of the agent that the alias belongs to.
        :param agent_alias_id: The unique identifier of the alias to delete.
        :return: The response from Amazon Bedrock Agents if successful, otherwise raises an exception.
        """

        try:
            response = self.client.delete_agent_alias(
                agentId=agent_id, agentAliasId=agent_alias_id
            )
        except ClientError as e:
            logger.error(f"Couldn't delete agent alias. {e}")
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DeleteAgentAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteAgentAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteFlow`
<a name="bedrock-agent_DeleteFlow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFlow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Hapus aliran Amazon Bedrock.  

```
def delete_flow(client, flow_id):
    """
    Deletes an Amazon Bedrock flow.

    Args:
    client: Amazon Bedrock agent boto3 client.
    flow_id (str): The identifier of the flow that you want to delete.

    Returns:
        dict: The response from the DeleteFLow operation.
    """
    try:

        logger.info("Deleting flow ID: %s.",
                    flow_id)

        # Call DeleteFlow operation
        response = client.delete_flow(
            flowIdentifier=flow_id,
            skipResourceInUseCheck=True
        )

        logger.info("Finished deleting flow ID: %s", flow_id)

        return response

    except ClientError as e:
        logger.exception("Client error deleting flow: %s", {str(e)})
        raise

    except Exception as e:
        logger.exception("Unexepcted error deleting flow: %s", {str(e)})
        raise
```
+  Untuk detail API, lihat [DeleteFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteFlowAlias`
<a name="bedrock-agent_DeleteFlowAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFlowAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Hapus alias untuk alur Amazon Bedrock.  

```
def delete_flow_alias(client, flow_id, flow_alias_id):
    """
    Deletes an Amazon Bedrock flow alias.

    Args:
        client: bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.

    Returns:
        dict: The response from the call to DetectFLowAlias
    """
    try:

        logger.info("Deleting flow alias %s for flow: %s.", flow_alias_id, flow_id)

        # Delete the flow alias.
        response = client.delete_flow_alias(
            aliasIdentifier=flow_alias_id,
            flowIdentifier=flow_id
        )

        logging.info("Successfully deleted flow version for %s.", flow_id)
        return response

    except ClientError as e:
        logging.exception("Client error deleting flow version: %s", str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected deleting flow version: %s", str(e))
        raise
```
+  Untuk detail API, lihat [DeleteFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlowAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteFlowVersion`
<a name="bedrock-agent_DeleteFlowVersion_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFlowVersion`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Hapus versi alur Amazon Bedrock.  

```
def delete_flow_version(client, flow_id, flow_version):
    """
    Deletes a version of an Amazon Bedrock flow.

    Args:
        client: Amazon Bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.

    Returns:
        dict: The response from DeleteFlowVersion.
    """
    try:

        logger.info("Deleting flow version %s for flow: %s.",flow_version, flow_id)

        # Call DeleteFlowVersion operation
        response = client.delete_flow_version(
            flowIdentifier=flow_id,
            flowVersion=flow_version
        )

        logging.info("Successfully deleted flow version %s for %s.",
                flow_version,
                flow_id)
        return response

    except ClientError as e:
        logging.exception("Client error deleting flow version: %s ", str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected deleting flow version: %s", str(e))
        raise
```
+  Untuk detail API, lihat [DeleteFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlowVersion)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteKnowledgeBase`
<a name="bedrock-agent_DeleteKnowledgeBase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKnowledgeBase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Hapus basis pengetahuan Amazon Bedrock.  

```
def delete_knowledge_base(bedrock_agent_client, knowledge_base_id):
    """
    Deletes a knowledge base.

    Args:
        bedrock_agent_client: The Boto3 Bedrock Agent client.
        knowledge_base_id (str): The ID of the knowledge base to delete.

    Returns:
        bool: True if the deletion was successful.
    """
    try:
        bedrock_agent_client.delete_knowledge_base(
            knowledgeBaseId=knowledge_base_id
        )
        
        logger.info("Deleted knowledge base: %s", knowledge_base_id)
        return True
    except ClientError as err:
        logger.error(
            "Couldn't delete knowledge base %s. Here's why: %s: %s",
            knowledge_base_id,
            err.response["Error"]["Code"],
            err.response["Error"]["Message"],
        )
        raise
```
+  Untuk detail API, lihat [DeleteKnowledgeBase](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteKnowledgeBase)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeletePrompt`
<a name="bedrock-agent_DeletePrompt_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePrompt`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Hapus prompt terkelola Amazon Bedrock.  

```
def delete_prompt(client, prompt_id):
    """
    Deletes an Amazon Bedrock managed prompt.

    Args:
    client: Amazon Bedrock Agent boto3 client.
    prompt_id (str): The identifier of the prompt that you want to delete.

    Returns:
        dict: The response from the DeletePrompt operation.
    """
    try:
        logger.info("Deleting prompt ID: %s.", prompt_id)

        response = client.delete_prompt(
            promptIdentifier=prompt_id
        )

        logger.info("Finished deleting prompt ID: %s", prompt_id)

        return response

    except ClientError as e:
        logger.exception("Client error deleting prompt: %s", str(e))
        raise

    except Exception as e:
        logger.exception("Unexpected error deleting prompt: %s", str(e))
        raise
```
+  Untuk detail API, lihat [DeletePrompt](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeletePrompt)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetAgent`
<a name="bedrock-agent_GetAgent_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAgent`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Dapatkan agen.  

```
    def get_agent(self, agent_id, log_error=True):
        """
        Gets information about an agent.

        :param agent_id: The unique identifier of the agent.
        :param log_error: Whether to log any errors that occur when getting the agent.
                          If True, errors will be logged to the logger. If False, errors
                          will still be raised, but not logged.
        :return: The information about the requested agent.
        """

        try:
            response = self.client.get_agent(agentId=agent_id)
            agent = response["agent"]
        except ClientError as e:
            if log_error:
                logger.error(f"Couldn't get agent {agent_id}. {e}")
            raise
        else:
            return agent
```
+  Untuk detail API, lihat [GetAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetAgent)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetFlow`
<a name="bedrock-agent_GetFlow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFlow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Dapatkan aliran Amazon Bedrock.  

```
def get_flow(client, flow_id):
    """
    Gets an Amazon Bedrock flow.

    Args:
    client: bedrock agent boto3 client.
        flow_id (str): The identifier of the flow that you want to get.

    Returns:
        dict: The response from the GetFlow operation.
    """
    try:

        logger.info("Getting flow ID: %s.",
                    flow_id)

        # Call GetFlow operation.
        response = client.get_flow(
            flowIdentifier=flow_id
        )

        logger.info("Retrieved flow ID: %s. Name: %s", flow_id,
                    response['name'])

        return response

    except ClientError as e:
        logger.exception("Client error getting flow: %s", {str(e)})
        raise

    except Exception as e:
        logger.exception("Unexepcted error getting flow: %s", {str(e)})
        raise
```
+  Untuk detail API, lihat [GetFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetFlow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetFlowVersion`
<a name="bedrock-agent_GetFlowVersion_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFlowVersion`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Dapatkan versi aliran Amazon Bedrock.  

```
def get_flow_version(client, flow_id, flow_version):
    """
    Gets information about a version of an Amazon Bedrock flow.

    Args:
        client: Amazon Bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.
        flow_version (str): The flow version of the flow.

    Returns:
        dict: The response from the call to GetFlowVersion.
    """
    try:

        logger.info("Deleting flow version for flow: %s.", flow_id)

        # Call GetFlowVersion operation
        response = client.get_flow_version(
            flowIdentifier=flow_id,
            flowVersion=flow_version
        )

        logging.info("Successfully got flow version %s information for flow %s.",
                    flow_version,
                    flow_id)
        
        return response

    except ClientError as e:
        logging.exception("Client error getting flow version: %s", str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected error getting flow version: %s", str(e))
        raise
```
+  Untuk detail API, lihat [GetFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetFlowVersion)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetKnowledgeBase`
<a name="bedrock-agent_GetKnowledgeBase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetKnowledgeBase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Dapatkan basis pengetahuan Amazon Bedrock.  

```
def get_knowledge_base(bedrock_agent_client, knowledge_base_id):
    """
    Gets details about a specific knowledge base.

    Args:
        bedrock_agent_client: The Boto3 Bedrock Agent client.
        knowledge_base_id (str): The ID of the knowledge base.

    Returns:
        dict: The details of the knowledge base.
    """
    try:
        response = bedrock_agent_client.get_knowledge_base(
            knowledgeBaseId=knowledge_base_id
        )
        
        logger.info("Retrieved knowledge base: %s", knowledge_base_id)
        return response["knowledgeBase"]
    except ClientError as err:
        logger.error(
            "Couldn't get knowledge base %s. Here's why: %s: %s",
            knowledge_base_id,
            err.response["Error"]["Code"],
            err.response["Error"]["Message"],
        )
        raise
```
+  Untuk detail API, lihat [GetKnowledgeBase](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetKnowledgeBase)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetPrompt`
<a name="bedrock-agent_GetPrompt_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPrompt`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Dapatkan prompt terkelola Amazon Bedrock.  

```
def get_prompt(client, prompt_id):
    """
    Gets an Amazon Bedrock managed prompt.

    Args:
    client: Amazon Bedrock Agent boto3 client.
    prompt_id (str): The identifier of the prompt that you want to get.

    Returns:
        dict: The response from the GetPrompt operation.
    """
    try:
        logger.info("Getting prompt ID: %s.", prompt_id)

        response = client.get_prompt(
            promptIdentifier=prompt_id
        )

        logger.info("Retrieved prompt ID: %s. Name: %s", 
                    prompt_id,
                    response['name'])

        return response

    except ClientError as e:
        logger.exception("Client error getting prompt: %s", str(e))
        raise

    except Exception as e:
        logger.exception("Unexpected error getting prompt: %s", str(e))
        raise
```
+  Untuk detail API, lihat [GetPrompt](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetPrompt)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListAgentActionGroups`
<a name="bedrock-agent_ListAgentActionGroups_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAgentActionGroups`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat daftar grup aksi untuk agen.  

```
    def list_agent_action_groups(self, agent_id, agent_version):
        """
        List the action groups for a version of an Amazon Bedrock Agent.

        :param agent_id: The unique identifier of the agent.
        :param agent_version: The version of the agent.
        :return: The list of action group summaries for the version of the agent.
        """

        try:
            action_groups = []

            paginator = self.client.get_paginator("list_agent_action_groups")
            for page in paginator.paginate(
                    agentId=agent_id,
                    agentVersion=agent_version,
                    PaginationConfig={"PageSize": 10},
            ):
                action_groups.extend(page["actionGroupSummaries"])

        except ClientError as e:
            logger.error(f"Couldn't list action groups. {e}")
            raise
        else:
            return action_groups
```
+  Untuk detail API, lihat [ListAgentActionGroups](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListAgentActionGroups)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListAgentKnowledgeBases`
<a name="bedrock-agent_ListAgentKnowledgeBases_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAgentKnowledgeBases`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat daftar basis pengetahuan yang terkait dengan agen.  

```
    def list_agent_knowledge_bases(self, agent_id, agent_version):
        """
        List the knowledge bases associated with a version of an Amazon Bedrock Agent.

        :param agent_id: The unique identifier of the agent.
        :param agent_version: The version of the agent.
        :return: The list of knowledge base summaries for the version of the agent.
        """

        try:
            knowledge_bases = []

            paginator = self.client.get_paginator("list_agent_knowledge_bases")
            for page in paginator.paginate(
                    agentId=agent_id,
                    agentVersion=agent_version,
                    PaginationConfig={"PageSize": 10},
            ):
                knowledge_bases.extend(page["agentKnowledgeBaseSummaries"])

        except ClientError as e:
            logger.error(f"Couldn't list knowledge bases. {e}")
            raise
        else:
            return knowledge_bases
```
+  Untuk detail API, lihat [ListAgentKnowledgeBases](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListAgentKnowledgeBases)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListAgents`
<a name="bedrock-agent_ListAgents_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAgents`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat daftar agen milik akun.  

```
    def list_agents(self):
        """
        List the available Amazon Bedrock Agents.

        :return: The list of available bedrock agents.
        """

        try:
            all_agents = []

            paginator = self.client.get_paginator("list_agents")
            for page in paginator.paginate(PaginationConfig={"PageSize": 10}):
                all_agents.extend(page["agentSummaries"])

        except ClientError as e:
            logger.error(f"Couldn't list agents. {e}")
            raise
        else:
            return all_agents
```
+  Untuk detail API, lihat [ListAgents](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListAgents)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListFlowAliases`
<a name="bedrock-agent_ListFlowAliases_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFlowAliases`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat daftar alias untuk alur Amazon Bedrock.  

```
def list_flow_aliases(client, flow_id):
    """
    Lists the aliases of an Amazon Bedrock flow.

    Args:
        client: bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.

    Returns:
        dict: The response from ListFlowAliases.
    """
    try:

        finished = False

        logger.info("Listing flow aliases for flow: %s.", flow_id)

        print(f"Aliases for flow: {flow_id}")

        response = client.list_flow_aliases(
            flowIdentifier=flow_id,
            maxResults=10)

        while finished is False:

            for alias in response['flowAliasSummaries']:
                print(f"Alias Name: {alias['name']}")
                print(f"ID: {alias['id']}")
                print(f"Description: {alias.get('description', 'No description')}\n") 

                if 'nextToken' in response:
                    next_token = response['nextToken']
                    response = client.list_flow_aliases(maxResults=10,
                                                nextToken=next_token)
                else:
                    finished = True

        logging.info("Successfully listed flow aliases for flow %s.",
                flow_id)
        
        return response

    except ClientError as e:
        logging.exception("Client error listing flow aliases: %s", str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected error listing flow aliases: %s", str(e))
        raise
```
+  Untuk detail API, lihat [ListFlowAliases](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListFlowAliases)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListFlowVersions`
<a name="bedrock-agent_ListFlowVersions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFlowVersions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat daftar versi aliran Amazon Bedrock.  

```
def list_flow_versions(client, flow_id):
    """
    Lists the versions of an Amazon Bedrock flow.

    Args:
        client: Amazon bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.

    Returns:
        dict: The response from ListFlowVersions.
    """
    try:

        finished = False

        logger.info("Listing flow versions for flow: %s.", flow_id)

        response = client.list_flow_versions(
            flowIdentifier=flow_id,
            maxResults=10)

        while finished is False:

            print(f"Versions for flow:{flow_id}")
            for version in response['flowVersionSummaries']:
                print(f"Version: {version['version']}")
                print(f"Status: {version['status']}\n")

                if 'nextToken' in response:
                    next_token = response['nextToken']
                    response = client.list_flow_versions(maxResults=10,
                                                nextToken=next_token)
                else:
                    finished = True


        logging.info("Successfully listed flow versions for flow %s.",
                flow_id)
        
        return response

    except ClientError as e:
        logging.exception("Client error listing flow versions: %s", str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected error listing flow versions: %s", str(e))
        raise
```
+  Untuk detail API, lihat [ListFlowVersions](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListFlowVersions)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListFlows`
<a name="bedrock-agent_ListFlows_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFlows`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Daftar aliran Amazon Bedrock.  

```
def list_flows(client):
    """
    Lists versions of an Amazon Bedrock flow.

    Args:
        client: Amazon Bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.

    Returns:
        Nothing.
    """
    try:
        finished = False

        logger.info("Listing flows:")

        response = client.list_flows(maxResults=10)

        while finished is False:

            for flow in response['flowSummaries']:
                print(f"ID: {flow['id']}")
                print(f"Name: {flow['name']}")
                print(
                    f"Description: {flow.get('description', 'No description')}")
                print(f"Latest version: {flow['version']}")
                print(f"Status: {flow['status']}\n")

            if 'nextToken' in response:
                next_token = response['nextToken']
                response = client.list_flows(maxResults=10,
                                             nextToken=next_token)
            else:
                finished = True

        logging.info("Successfully listed flows.")


    except ClientError as e:
        logging.exception("Client error listing flow versions: %s", str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected error listing flow versions: %s", str(e))
        raise
```
+  Untuk detail API, lihat [ListFlows](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListFlows)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListKnowledgeBases`
<a name="bedrock-agent_ListKnowledgeBases_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKnowledgeBases`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Daftar Basis Pengetahuan Amazon Bedrock.  

```
def list_knowledge_bases(bedrock_agent_client, max_results=None):
    """
    Lists the knowledge bases in your AWS account.

    Args:
        bedrock_agent_client: The Boto3 Bedrock Agent client.
        max_results (int, optional): The maximum number of knowledge bases to return.

    Returns:
        list: A list of knowledge base details.
    """
    try:
        kwargs = {}
        if max_results is not None:
            kwargs["maxResults"] = max_results

        # Initialize an empty list to store all knowledge bases
        all_knowledge_bases = []
        
        # Use paginator to handle pagination automatically
        paginator = bedrock_agent_client.get_paginator('list_knowledge_bases')
        page_iterator = paginator.paginate(**kwargs)
        
        # Iterate through each page of results
        for page in page_iterator:
            all_knowledge_bases.extend(page.get('knowledgeBaseSummaries', []))
            
        logger.info("Found %s knowledge bases.", len(all_knowledge_bases))
        return all_knowledge_bases
    except ClientError as err:
        logger.error(
            "Couldn't list knowledge bases. Here's why: %s: %s",
            err.response["Error"]["Code"],
            err.response["Error"]["Message"],
        )
        raise
```
+  Untuk detail API, lihat [ListKnowledgeBases](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListKnowledgeBases)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListPrompts`
<a name="bedrock-agent_ListPrompts_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPrompts`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Daftar permintaan terkelola Amazon Bedrock.  

```
def list_prompts(client, max_results=10):
    """
    Lists Amazon Bedrock managed prompts.

    Args:
        client: Amazon Bedrock Agent boto3 client.
        max_results (int): Maximum number of results to return per page.

    Returns:
        list: A list of prompt summaries.
    """
    try:
        logger.info("Listing prompts:")
        
        # Create a paginator for the list_prompts operation
        paginator = client.get_paginator('list_prompts')
        
        # Create the pagination parameters
        pagination_config = {
            'maxResults': max_results
        }
        
        # Initialize an empty list to store all prompts
        all_prompts = []
        
        # Iterate through all pages
        for page in paginator.paginate(**pagination_config):
            all_prompts.extend(page.get('promptSummaries', []))
            
        logger.info("Successfully listed %s prompts.", len(all_prompts))
        return all_prompts
        
    except ClientError as e:
        logger.exception("Client error listing prompts: %s", str(e))
        raise
    except Exception as e:
        logger.exception("Unexpected error listing prompts: %s", str(e))
        raise
```
+  Untuk detail API, lihat [ListPrompts](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListPrompts)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PrepareAgent`
<a name="bedrock-agent_PrepareAgent_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PrepareAgent`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Siapkan agen untuk pengujian internal.  

```
    def prepare_agent(self, agent_id):
        """
        Creates a DRAFT version of the agent that can be used for internal testing.

        :param agent_id: The unique identifier of the agent to prepare.
        :return: The response from Amazon Bedrock Agents if successful, otherwise raises an exception.
        """
        try:
            prepared_agent_details = self.client.prepare_agent(agentId=agent_id)
        except ClientError as e:
            logger.error(f"Couldn't prepare agent. {e}")
            raise
        else:
            return prepared_agent_details
```
+  Untuk detail API, lihat [PrepareAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/PrepareAgent)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PrepareFlow`
<a name="bedrock-agent_PrepareFlow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PrepareFlow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Siapkan aliran Batuan Dasar Amazon.  

```
def prepare_flow(client, flow_id):
    """
    Prepares an Amazon Bedrock Flow.

    Args:
        client: Amazon Bedrock agent boto3 client.
        flow_id (str): The identifier of the flow that you want to prepare.

    Returns:
        str: The status of the flow preparation
    """
    try:

        # Prepare the flow.
        logger.info("Preparing flow ID: %s",
                    flow_id)

        response = client.prepare_flow(
            flowIdentifier=flow_id
        )

        status = response.get('status')

        while status == "Preparing":
            logger.info("Preparing flow ID: %s. Status %s",
                        flow_id, status)

            sleep(5)
            response = client.get_flow(
                flowIdentifier=flow_id
            )
            status = response.get('status')
            print(f"Flow Status: {status}")

        if status == "Prepared":
            logger.info("Finished preparing flow ID: %s. Status %s",
                        flow_id, status)
        else:
            logger.warning("flow ID: %s not prepared. Status %s",
                           flow_id, status)

        return status

    except ClientError as e:
        logger.exception("Client error preparing flow: %s", {str(e)})
        raise

    except Exception as e:
        logger.exception("Unexepcted error preparing flow: %s", {str(e)})
        raise
```
+  Untuk detail API, lihat [PrepareFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/PrepareFlow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateFlow`
<a name="bedrock-agent_UpdateFlow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFlow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Perbarui Amazon Bedrock Flow.  

```
def update_flow(client, flow_id, flow_name, flow_description, role_arn, flow_def):
    """
    Updates an Amazon Bedrock flow.

    Args:
    client: bedrock agent boto3 client.
    flow_id (str): The ID for the flow that you want to update.
    flow_name (str): The name for the flow.
    role_arn (str):  The ARN for the IAM role that use flow uses.
    flow_def (json): The JSON definition of the flow that you want to create.

    Returns:
        dict: Flow information if successful.
    """
    try:

        logger.info("Updating flow: %s.", flow_id)

        response = client.update_flow(
            flowIdentifier=flow_id,
            name=flow_name,
            description=flow_description,
            executionRoleArn=role_arn,
            definition=flow_def
        )

        logger.info("Successfully updated flow: %s. ID: %s",
                    flow_name,
                    {response['id']})

        return response

    except ClientError as e:
        logger.exception("Client error updating flow: %s", {str(e)})
        raise

    except Exception as e:
        logger.exception("Unexepcted error updating flow: %s", {str(e)})
        raise
```
+  Untuk detail API, lihat [UpdateFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/UpdateFlow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateFlowAlias`
<a name="bedrock-agent_UpdateFlowAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFlowAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Perbarui alias untuk aliran Amazon Bedrock.  

```
def update_flow_alias(client, flow_id, alias_id, flow_version, name, description):
    """
    Updates an alias for an Amazon Bedrock flow.

    Args:
        client: bedrock agent boto3 client.
        flow_id (str): The identifier of the flow.

    Returns:
        str: The response from UpdateFlowAlias.
    """

    try:
        logger.info("Updating flow alias %s for flow: %s.", alias_id, flow_id)

        response = client.update_flow_alias(
            aliasIdentifier=alias_id,
            flowIdentifier=flow_id,
            name=name,
            description=description,
            routingConfiguration=[
                {
                    "flowVersion": flow_version
                }
            ]
        )
        logger.info("Successfully updated flow alias %s for %s.", alias_id, flow_id)

        return response

    except ClientError as e:
        logging.exception("Client error updating alias %s for flow: %s - %s",
                alias_id, flow_id, str(e))
        raise
    except Exception as e:
        logging.exception("Unexpected error updating alias %s for flow : %s - %s",
                alias_id, flow_id, str(e))
        raise
```
+  Untuk detail API, lihat [UpdateFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/UpdateFlowAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateKnowledgeBase`
<a name="bedrock-agent_UpdateKnowledgeBase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateKnowledgeBase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Perbarui basis pengetahuan Amazon Bedrock.  

```
def update_knowledge_base(bedrock_agent_client, knowledge_base_id, name=None, description=None, role_arn=None):
    """
    Updates an existing knowledge base.

    Args:
        bedrock_agent_client: The Boto3 Bedrock Agent client.
        knowledge_base_id (str): The ID of the knowledge base to update.
        name (str, optional): The new name for the knowledge base.
        description (str, optional): The new description for the knowledge base.
        role_arn (str, optional): The new IAM role ARN for the knowledge base.

    Returns:
        dict: The details of the updated knowledge base.
    """
    try:
        kwargs = {
            "knowledgeBaseId": knowledge_base_id,
            "knowledgeBaseConfiguration": {
                "type": "VECTOR",
                "vectorKnowledgeBaseConfiguration": {
                    "embeddingModelArn": "arn:aws:bedrock:us-east-1::foundation-model/amazon.titan-embed-text-v1"
                }
            }
        }
        
        if name:
            kwargs["name"] = name
        if description:
            kwargs["description"] = description
        if role_arn:
            kwargs["roleArn"] = role_arn
            
        response = bedrock_agent_client.update_knowledge_base(**kwargs)
        
        logger.info("Updated knowledge base: %s", knowledge_base_id)
        return response["knowledgeBase"]
    
    except ClientError as err:
        logger.error(
            "Couldn't update knowledge base %s. Here's why: %s: %s",
            knowledge_base_id,
            err.response["Error"]["Code"],
            err.response["Error"]["Message"],
        )
        raise
```
+  Untuk detail API, lihat [UpdateKnowledgeBase](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/UpdateKnowledgeBase)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Buat dan panggil alur
<a name="bedrock-agent_GettingStartedWithBedrockFlows_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran eksekusi untuk alur.
+ Buat alur.
+ Terapkan aliran yang sepenuhnya dikonfigurasi.
+ Memanggil alur dengan petunjuk yang disediakan pengguna.
+ Hapus semua sumber daya yang dibuat.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Menghasilkan daftar putar musik berdasarkan genre yang ditentukan pengguna dan jumlah lagu.  

```
from datetime import datetime
import logging
import boto3

from botocore.exceptions import ClientError

from roles import create_flow_role, delete_flow_role, update_role_policy
from flow import create_flow, prepare_flow, delete_flow
from run_flow import run_playlist_flow
from flow_version import create_flow_version, delete_flow_version
from flow_alias import create_flow_alias, delete_flow_alias

logging.basicConfig(
    level=logging.INFO
)
logger = logging.getLogger(__name__)

def create_input_node(name):
    """
    Creates an input node configuration for an Amazon Bedrock flow.

    The input node serves as the entry point for the flow and defines
    the initial document structure that will be passed to subsequent nodes.

    Args:
        name (str): The name of the input node.

    Returns:
        dict: The input node configuration.

    """
    return {
        "type": "Input",
        "name": name,
        "outputs": [
            {
                "name": "document",
                "type": "Object"
            }
        ]
    }


def create_prompt_node(name, model_id):
    """
    Creates a prompt node configuration for a Bedrock flow that generates music playlists.

    The prompt node defines an inline prompt template that creates a music playlist based on
    a specified genre and number of songs. The prompt uses two variables that are mapped from
    the input JSON object:
    - {{genre}}: The genre of music to create a playlist for
    - {{number}}: The number of songs to include in the playlist

    Args:
        name (str): The name of the prompt node.
        model_id (str): The identifier of the foundation model to use for the prompt.

    Returns:
        dict: The prompt node.

    """

    return {
        "type": "Prompt",
        "name": name,
        "configuration": {
            "prompt": {
                "sourceConfiguration": {
                    "inline": {
                        "modelId": model_id,
                        "templateType": "TEXT",
                        "inferenceConfiguration": {
                            "text": {
                                "temperature": 0.8
                            }
                        },
                        "templateConfiguration": {
                            "text": {
                                "text": "Make me a {{genre}} playlist consisting of the following number of songs: {{number}}."
                            }
                        }
                    }
                }
            }
        },
        "inputs": [
            {
                "name": "genre",
                "type": "String",
                "expression": "$.data.genre"
            },
            {
                "name": "number",
                "type": "Number",
                "expression": "$.data.number"
            }
        ],
        "outputs": [
            {
                "name": "modelCompletion",
                "type": "String"
            }
        ]
    }


def create_output_node(name):
    """
    Creates an output node configuration for a Bedrock flow.

    The output node validates that the output from the last node is a string
    and returns it unmodified. The input name must be "document".

    Args:
        name (str): The name of the output node.

    Returns:
        dict: The output node configuration containing the output node:

    """

    return {
        "type": "Output",
        "name": name,
        "inputs": [
            {
                "name": "document",
                "type": "String",
                "expression": "$.data"
            }
        ]
    }




def create_playlist_flow(client, flow_name, flow_description, role_arn, prompt_model_id):
    """
    Creates the playlist generator flow.
    Args:
        client: bedrock agent boto3 client.
        role_arn (str): Name for the new IAM role.
        prompt_model_id (str): The id of the model to use in the prompt node.
    Returns:
        dict: The response from the create_flow operation.
    """

    input_node = create_input_node("FlowInput")
    prompt_node = create_prompt_node("MakePlaylist", prompt_model_id)
    output_node = create_output_node("FlowOutput")

    # Create connections between the nodes
    connections = []

    #  First, create connections between the output of the flow 
    # input node and each input of the prompt node.
    for prompt_node_input in prompt_node["inputs"]:
        connections.append(
            {
                "name": "_".join([input_node["name"], prompt_node["name"],
                                   prompt_node_input["name"]]),
                "source": input_node["name"],
                "target": prompt_node["name"],
                "type": "Data",
                "configuration": {
                    "data": {
                        "sourceOutput": input_node["outputs"][0]["name"],
                        "targetInput": prompt_node_input["name"]
                    }
                }
            }
        )

    # Then, create a connection between the output of the prompt node and the input of the flow output node
    connections.append(
        {
            "name": "_".join([prompt_node["name"], output_node["name"]]),
            "source": prompt_node["name"],
            "target": output_node["name"],
            "type": "Data",
            "configuration": {
                "data": {
                    "sourceOutput": prompt_node["outputs"][0]["name"],
                    "targetInput": output_node["inputs"][0]["name"]
                }
            }
        }
    )

    flow_def = {
        "nodes": [input_node, prompt_node, output_node],
        "connections": connections
    }

    # Create the flow.

    response = create_flow(
        client, flow_name, flow_description, role_arn, flow_def)

    return response



def get_model_arn(client, model_id):
    """
    Gets the Amazon Resource Name (ARN) for a model.
    Args:
        client (str): Amazon Bedrock boto3 client.
        model_id (str): The id of the model.
    Returns:
        str: The ARN of the model.
    """

    try:
        # Call GetFoundationModelDetails operation
        response = client.get_foundation_model(modelIdentifier=model_id)

        # Extract model ARN from the response
        model_arn = response['modelDetails']['modelArn']

        return model_arn

    except ClientError as e:
        logger.exception("Client error getting model ARN: %s", {str(e)})
        raise

    except Exception as e:
        logger.exception("Unexpected error getting model ARN: %s", {str(e)})
        raise


def prepare_flow_version_and_alias(bedrock_agent_client,
                                   flow_id):
    """
    Prepares the flow and then creates a flow version and flow alias.
    Args:
        bedrock_agent_client: Amazon Bedrock Agent boto3 client.
        flowd_id (str): The ID of the flow that you want to prepare.
    Returns: The flow_version and flow_alias. 

    """

    status = prepare_flow(bedrock_agent_client, flow_id)

    flow_version = None
    flow_alias = None

    if status == 'Prepared':

        # Create the flow version and alias.
        flow_version = create_flow_version(bedrock_agent_client,
                                           flow_id,
                                           f"flow version for flow {flow_id}.")

        flow_alias = create_flow_alias(bedrock_agent_client,
                                       flow_id,
                                       flow_version,
                                       "latest",
                                       f"Alias for flow {flow_id}, version {flow_version}")

    return flow_version, flow_alias



def delete_role_resources(bedrock_agent_client,
                          iam_client,
                          role_name,
                          flow_id,
                          flow_version,
                          flow_alias):
    """
    Deletes the flow, flow alias, flow version, and IAM roles.
    Args:
        bedrock_agent_client: Amazon Bedrock Agent boto3 client.
        iam_client: Amazon IAM boto3 client.
        role_name (str): The name of the IAM role.
        flow_id (str): The id of the flow.
        flow_version (str): The version of the flow.
        flow_alias (str): The alias of the flow.
    """

    if flow_id is not None:
        if flow_alias is not None:
            delete_flow_alias(bedrock_agent_client, flow_id, flow_alias)
        if flow_version is not None:
            delete_flow_version(bedrock_agent_client,
                        flow_id, flow_version)
        delete_flow(bedrock_agent_client, flow_id)
    
    if role_name is not None:
        delete_flow_role(iam_client, role_name)



def main():
    """
    Creates, runs, and optionally deletes a Bedrock flow for generating music playlists.

    Note:
        Requires valid AWS credentials in the default profile
    """

    delete_choice = "y"
    try:

        # Get various boto3 clients.
        session = boto3.Session(profile_name='default')
        bedrock_agent_runtime_client = session.client('bedrock-agent-runtime')
        bedrock_agent_client = session.client('bedrock-agent')
        bedrock_client = session.client('bedrock')
        iam_client = session.client('iam')
        
        role_name = None
        flow_id = None
        flow_version = None
        flow_alias = None

        #Change the model as needed.
        prompt_model_id = "amazon.nova-pro-v1:0"

        # Base the flow name on the current date and time
        current_time = datetime.now()
        timestamp = current_time.strftime("%Y-%m-%d-%H-%M-%S")
        flow_name = f"FlowPlayList_{timestamp}"
        flow_description = "A flow to generate a music playlist."

        # Create a role for the flow.
        role_name = f"BedrockFlowRole-{flow_name}"
        role = create_flow_role(iam_client, role_name)
        role_arn = role['Arn']

        # Create the flow.
        response = create_playlist_flow(
            bedrock_agent_client, flow_name, flow_description, role_arn, prompt_model_id)
        flow_id = response.get('id')

        if flow_id:
            # Update accessible resources in the role.
            model_arn = get_model_arn(bedrock_client, prompt_model_id)
            update_role_policy(iam_client, role_name, [
                               response.get('arn'), model_arn])

            # Prepare the flow and flow version.
            flow_version, flow_alias = prepare_flow_version_and_alias(
                bedrock_agent_client, flow_id)

            # Run the flow.
            if flow_version and flow_alias:
                run_playlist_flow(bedrock_agent_runtime_client,
                                  flow_id, flow_alias)

                delete_choice = input("Delete flow? y or n : ").lower()


            else:
                print("Couldn't run. Deleting flow and role.")
                delete_flow(bedrock_agent_client, flow_id)
                delete_flow_role(iam_client, role_name)
        else:
            print("Couldn't create flow.")


    except Exception as e:
        print(f"Fatal error: {str(e)}")
    
    finally:
        if delete_choice == 'y':
                delete_role_resources(bedrock_agent_client,
                                          iam_client,
                                          role_name,
                                          flow_id,
                                          flow_version,
                                          flow_alias)
        else:
            print("Flow not deleted. ")
            print(f"\tFlow ID: {flow_id}")
            print(f"\tFlow version: {flow_version}")
            print(f"\tFlow alias: {flow_alias}")
            print(f"\tRole ARN: {role_arn}")
       
        print("Done!")
 
if __name__ == "__main__":
    main()


def invoke_flow(client, flow_id, flow_alias_id, input_data):
    """
    Invoke an Amazon Bedrock flow and handle the response stream.

    Args:
        client: Boto3 client for Amazon Bedrock agent runtime.
        flow_id: The ID of the flow to invoke.
        flow_alias_id: The alias ID of the flow.
        input_data: Input data for the flow.

    Returns:
        Dict containing flow status and flow output.
    """

    response = None
    request_params = None

    request_params = {
            "flowIdentifier": flow_id,
            "flowAliasIdentifier": flow_alias_id,
            "inputs": [input_data],
            "enableTrace": True
        }


    response = client.invoke_flow(**request_params)

    flow_status = ""
    output= ""

    # Process the streaming response
    for event in response['responseStream']:

        # Check if flow is complete.
        if 'flowCompletionEvent' in event:
            flow_status = event['flowCompletionEvent']['completionReason']

        # Save the model output.
        elif 'flowOutputEvent' in event:
            output = event['flowOutputEvent']['content']['document']
            logger.info("Output : %s", output)

        # Log trace events.
        elif 'flowTraceEvent' in event:
            logger.info("Flow trace:  %s", event['flowTraceEvent'])
    
    return {
        "flow_status": flow_status,
        "output": output

    }




def run_playlist_flow(bedrock_agent_client, flow_id, flow_alias_id):
    """
    Runs the playlist generator flow.

    Args:
        bedrock_agent_client: Boto3 client for Amazon Bedrock agent runtime.
        flow_id: The ID of the flow to run.
        flow_alias_id: The alias ID of the flow.

    """


    print ("Welcome to the playlist generator flow.")
    # Get the initial prompt from the user.
    genre = input("Enter genre: ")
    number_of_songs = int(input("Enter number of songs: "))


    # Use prompt to create input data for the input node.
    flow_input_data = {
        "content": {
            "document": {
                "genre" : genre,
                "number" : number_of_songs
            }
        },
        "nodeName": "FlowInput",
        "nodeOutputName": "document"
    }

    try:

        result = invoke_flow(
                bedrock_agent_client, flow_id, flow_alias_id, flow_input_data)

        status = result['flow_status']
  
        if status == "SUCCESS":
                # The flow completed successfully.
                logger.info("The flow %s successfully completed.", flow_id)
                print(result['output'])
        else:
            logger.warning("Flow status: %s",status)

    except ClientError as e:
        print(f"Client error: {str(e)}")
        logger.error("Client error: %s", {str(e)})
        raise

    except Exception as e:
        logger.error("An error occurred: %s", {str(e)})
        logger.error("Error type: %s", {type(e)})
        raise



def create_flow_role(client, role_name):
    """
    Creates an IAM role for Amazon Bedrock with permissions to run a flow.
    
    Args:
        role_name (str): Name for the new IAM role.
    Returns:
        str: The role Amazon Resource Name.
    """

    
    # Trust relationship policy - allows Amazon Bedrock service to assume this role.
    trust_policy = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [{
            "Effect": "Allow",
            "Principal": {
                "Service": "bedrock.amazonaws.com"
            },
            "Action": "sts:AssumeRole"
        }]
    }
    
    # Basic inline policy for for running a flow.

    resources = "*"

    bedrock_policy = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Effect": "Allow",
                "Action": [
                    "bedrock:InvokeModel",
                    "bedrock:Retrieve",
                    "bedrock:RetrieveAndGenerate"
                ],
                # Using * as placeholder - Later you update with specific ARNs.
                "Resource": resources
            }
        ]
    }


    
    try:
        # Create the IAM role with trust policy
        logging.info("Creating role: %s",role_name)
        role = client.create_role(
            RoleName=role_name,
            AssumeRolePolicyDocument=json.dumps(trust_policy),
            Description="Role for Amazon Bedrock operations"
        )
        
        # Attach inline policy to the role
        print("Attaching inline policy")
        client.put_role_policy(
            RoleName=role_name,
            PolicyName=f"{role_name}-policy",
            PolicyDocument=json.dumps(bedrock_policy)
        )
        
        logging.info("Create Role ARN: %s", role['Role']['Arn'])
        return role['Role']
        
    except ClientError as e:
        logging.warning("Error creating role: %s", str(e))
        raise
    except Exception as e:
        logging.warning("Unexpected error: %s", str(e))
        raise


def update_role_policy(client, role_name, resource_arns):
    """
    Updates an IAM role's inline policy with specific resource ARNs.
    
    Args:
        role_name (str): Name of the existing role.
        resource_arns (list): List of resource ARNs to allow access to.
    """

    
    updated_policy = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Effect": "Allow",
                "Action": [
                    "bedrock:GetFlow",
                    "bedrock:InvokeModel",
                    "bedrock:Retrieve",
                    "bedrock:RetrieveAndGenerate"
                ],
                "Resource": resource_arns
            }
        ]
    }
    
    try:
        client.put_role_policy(
            RoleName=role_name,
            PolicyName=f"{role_name}-policy",
            PolicyDocument=json.dumps(updated_policy)
        )
        logging.info("Updated policy for role: %s",role_name)
        
    except ClientError as e:
        logging.warning("Error updating role policy: %s", str(e))
        raise


def delete_flow_role(client, role_name):
    """
    Deletes an IAM role.

    Args:
        role_name (str): Name of the role to delete.
    """



    try:
        # Detach and delete inline policies
        policies = client.list_role_policies(RoleName=role_name)['PolicyNames']
        for policy_name in policies:
            client.delete_role_policy(RoleName=role_name, PolicyName=policy_name)

        # Delete the role
        client.delete_role(RoleName=role_name)
        logging.info("Deleted role: %s", role_name)


    except ClientError as e:
        logging.info("Error Deleting role: %s", str(e))
        raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlow)
  + [CreateFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlowAlias)
  + [CreateFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlowVersion)
  + [DeleteFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlow)
  + [DeleteFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlowAlias)
  + [DeleteFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlowVersion)
  + [GetFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetFlow)
  + [GetFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetFlowAlias)
  + [GetFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetFlowVersion)
  + [InvokeFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-runtime-2023-12-12/InvokeFlow)
  + [PrepareFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/PrepareFlow)

### Membuat dan memanggil prompt terkelola
<a name="bedrock-agent_GettingStartedWithBedrockPrompts_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat prompt terkelola.
+ Buat versi prompt.
+ Panggil prompt menggunakan versi.
+ Bersihkan sumber daya (opsional).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat dan panggil prompt terkelola.  

```
import argparse
import boto3
import logging
import time

# Now import the modules
from prompt import create_prompt, create_prompt_version, delete_prompt
from run_prompt import invoke_prompt

logging.basicConfig(
    level=logging.INFO,
    format='%(levelname)s: %(message)s'
)
logger = logging.getLogger(__name__)



def run_scenario(bedrock_client, bedrock_runtime_client, model_id, cleanup=True):
    """
    Runs the Amazon Bedrock managed prompt scenario.
    
    Args:
        bedrock_client: The Amazon Bedrock Agent client.
        bedrock_runtime_client: The Amazon Bedrock Runtime client.
        model_id (str): The model ID to use for the prompt.
        cleanup (bool): Whether to clean up resources at the end of the scenario.
        
    Returns:
        dict: A dictionary containing the created resources.
    """
    prompt_id = None
    
    try:
        # Step 1: Create a prompt
        print("\n=== Step 1: Creating a prompt ===")
        prompt_name = f"PlaylistGenerator-{int(time.time())}"
        prompt_description = "Playlist generator"
        prompt_template = """
          Make me a {{genre}} playlist consisting of the following number of songs: {{number}}."""
        
        create_response = create_prompt(
            bedrock_client,
            prompt_name,
            prompt_description,
            prompt_template,
            model_id
        )
        
        prompt_id = create_response['id']
        print(f"Created prompt: {prompt_name} with ID: {prompt_id}")
        
        # Create a version of the prompt
        print("\n=== Creating a version of the prompt ===")
        version_response = create_prompt_version(
            bedrock_client,
            prompt_id,
            description="Initial version of the product description generator"
        )
        
        prompt_version_arn = version_response['arn']
        prompt_version = version_response['version']

        print(f"Created prompt version: {prompt_version}")
        print(f"Prompt version ARN: {prompt_version_arn}")
        
        # Step 2: Invoke the prompt directly
        print("\n=== Step 2: Invoking the prompt ===")
        input_variables = {
            "genre": "pop",
            "number": "2",
           }
        
        # Use the ARN from the create_prompt_version response
        result = invoke_prompt(
            bedrock_runtime_client,
            prompt_version_arn,  
            input_variables
        )
        # Display the playlist
        print(f"\n{result}")
    
        
        # Step 3: Clean up resources (optional)
        if cleanup:
            print("\n=== Step 3: Cleaning up resources ===")
            
            # Delete the prompt
            print(f"Deleting prompt {prompt_id}...")
            delete_prompt(bedrock_client, prompt_id)
            
            print("Cleanup complete")
        else:
            print("\n=== Resources were not cleaned up ===")
            print(f"Prompt ID: {prompt_id}")
        
   
        
    except Exception as e:
        logger.exception("Error in scenario: %s", str(e))
        
        # Attempt to clean up if an error occurred and cleanup was requested
        if cleanup and prompt_id:
            try:
                print("\nCleaning up resources after error...")
                
                # Delete the prompt
                try:
                    delete_prompt(bedrock_client, prompt_id)
                    print("Cleanup after error complete")
                except Exception as cleanup_error:
                    logger.error("Error during cleanup: %s", str(cleanup_error))
            except Exception as final_error:
                logger.error("Final error during cleanup: %s", str(final_error))
        
        # Re-raise the original exception
        raise

def main():
    """
    Entry point for the Amazon Bedrock managed prompt scenario.
    """
    parser = argparse.ArgumentParser(
        description="Run the Amazon Bedrock managed prompt scenario."
    )
    parser.add_argument(
        '--region',
        default='us-east-1',
        help="The AWS Region to use."
    )
    parser.add_argument(
        '--model-id',
        default='anthropic.claude-v2',
        help="The model ID to use for the prompt."
    )
    parser.add_argument(
        '--cleanup',
        action='store_true',
        default=True,
        help="Clean up resources at the end of the scenario."
    )
    parser.add_argument(
        '--no-cleanup',
        action='store_false',
        dest='cleanup',
        help="Don't clean up resources at the end of the scenario."
    )
    args = parser.parse_args()

    bedrock_client = boto3.client('bedrock-agent', region_name=args.region)
    bedrock_runtime_client = boto3.client('bedrock-runtime', region_name=args.region)
    
    print("=== Amazon Bedrock Managed Prompt Scenario ===")
    print(f"Region: {args.region}")
    print(f"Model ID: {args.model_id}")
    print(f"Cleanup resources: {args.cleanup}")
    
    try:
        run_scenario(
            bedrock_client,
            bedrock_runtime_client,
            args.model_id,
            args.cleanup
        )
        
    except Exception as e:
        logger.exception("Error running scenario: %s", str(e))
        
if __name__ == "__main__":
    main()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [Bercakap-cakap](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse)
  + [CreatePrompt](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreatePrompt)
  + [CreatePromptVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreatePromptVersion)
  + [DeletePrompt](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeletePrompt)

### Buat dan panggil agen
<a name="bedrock-agent_GettingStartedWithBedrockAgents_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran eksekusi untuk agen.
+ Buat agen dan gunakan versi DRAFT.
+ Buat fungsi Lambda yang mengimplementasikan kemampuan agen.
+ Buat grup tindakan yang menghubungkan agen ke fungsi Lambda.
+ Menyebarkan agen yang sepenuhnya dikonfigurasi.
+ Panggil agen dengan petunjuk yang disediakan pengguna.
+ Hapus semua sumber daya yang dibuat.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Buat dan panggil agen.  

```
REGION = "us-east-1"
ROLE_POLICY_NAME = "agent_permissions"


class BedrockAgentScenarioWrapper:
    """Runs a scenario that shows how to get started using Amazon Bedrock Agents."""

    def __init__(
            self, bedrock_agent_client, runtime_client, lambda_client, iam_resource, postfix
    ):
        self.iam_resource = iam_resource
        self.lambda_client = lambda_client
        self.bedrock_agent_runtime_client = runtime_client
        self.postfix = postfix

        self.bedrock_wrapper = BedrockAgentWrapper(bedrock_agent_client)

        self.agent = None
        self.agent_alias = None
        self.agent_role = None
        self.prepared_agent_details = None
        self.lambda_role = None
        self.lambda_function = None

    def run_scenario(self):
        print("=" * 88)
        print("Welcome to the Amazon Bedrock Agents demo.")
        print("=" * 88)

        # Query input from user
        print("Let's start with creating an agent:")
        print("-" * 40)
        name, foundation_model = self._request_name_and_model_from_user()
        print("-" * 40)

        # Create an execution role for the agent
        self.agent_role = self._create_agent_role(foundation_model)

        # Create the agent
        self.agent = self._create_agent(name, foundation_model)

        # Prepare a DRAFT version of the agent
        self.prepared_agent_details = self._prepare_agent()

        # Create the agent's Lambda function
        self.lambda_function = self._create_lambda_function()

        # Configure permissions for the agent to invoke the Lambda function
        self._allow_agent_to_invoke_function()
        self._let_function_accept_invocations_from_agent()

        # Create an action group to connect the agent with the Lambda function
        self._create_agent_action_group()

        # If the agent has been modified or any components have been added, prepare the agent again
        components = [self._get_agent()]
        components += self._get_agent_action_groups()
        components += self._get_agent_knowledge_bases()

        latest_update = max(component["updatedAt"] for component in components)
        if latest_update > self.prepared_agent_details["preparedAt"]:
            self.prepared_agent_details = self._prepare_agent()

        # Create an agent alias
        self.agent_alias = self._create_agent_alias()

        # Test the agent
        self._chat_with_agent(self.agent_alias)

        print("=" * 88)
        print("Thanks for running the demo!\n")

        if q.ask("Do you want to delete the created resources? [y/N] ", q.is_yesno):
            self._delete_resources()
            print("=" * 88)
            print(
                "All demo resources have been deleted. Thanks again for running the demo!"
            )
        else:
            self._list_resources()
            print("=" * 88)
            print("Thanks again for running the demo!")

    def _request_name_and_model_from_user(self):
        existing_agent_names = [
            agent["agentName"] for agent in self.bedrock_wrapper.list_agents()
        ]

        while True:
            name = q.ask("Enter an agent name: ", self.is_valid_agent_name)
            if name.lower() not in [n.lower() for n in existing_agent_names]:
                break
            print(
                f"Agent {name} conflicts with an existing agent. Please use a different name."
            )

        models = ["anthropic.claude-instant-v1", "anthropic.claude-v2"]
        model_id = models[
            q.choose("Which foundation model would you like to use? ", models)
        ]

        return name, model_id

    def _create_agent_role(self, model_id):
        role_name = f"AmazonBedrockExecutionRoleForAgents_{self.postfix}"
        model_arn = f"arn:aws:bedrock:{REGION}::foundation-model/{model_id}*"

        print("Creating an an execution role for the agent...")

        try:
            role = self.iam_resource.create_role(
                RoleName=role_name,
                AssumeRolePolicyDocument=json.dumps(
                    {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": [
                            {
                                "Effect": "Allow",
                                "Principal": {"Service": "bedrock.amazonaws.com"},
                                "Action": "sts:AssumeRole",
                            }
                        ],
                    }
                ),
            )

            role.Policy(ROLE_POLICY_NAME).put(
                PolicyDocument=json.dumps(
                    {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": [
                            {
                                "Effect": "Allow",
                                "Action": "bedrock:InvokeModel",
                                "Resource": model_arn,
                            }
                        ],
                    }
                )
            )
        except ClientError as e:
            logger.error(f"Couldn't create role {role_name}. Here's why: {e}")
            raise

        return role

    def _create_agent(self, name, model_id):
        print("Creating the agent...")

        instruction = """
            You are a friendly chat bot. You have access to a function called that returns
            information about the current date and time. When responding with date or time,
            please make sure to add the timezone UTC.
            """
        agent = self.bedrock_wrapper.create_agent(
            agent_name=name,
            foundation_model=model_id,
            instruction=instruction,
            role_arn=self.agent_role.arn,
        )
        self._wait_for_agent_status(agent["agentId"], "NOT_PREPARED")

        return agent

    def _prepare_agent(self):
        print("Preparing the agent...")

        agent_id = self.agent["agentId"]
        prepared_agent_details = self.bedrock_wrapper.prepare_agent(agent_id)
        self._wait_for_agent_status(agent_id, "PREPARED")

        return prepared_agent_details

    def _create_lambda_function(self):
        print("Creating the Lambda function...")

        function_name = f"AmazonBedrockExampleFunction_{self.postfix}"

        self.lambda_role = self._create_lambda_role()

        try:
            deployment_package = self._create_deployment_package(function_name)

            lambda_function = self.lambda_client.create_function(
                FunctionName=function_name,
                Description="Lambda function for Amazon Bedrock example",
                Runtime="python3.11",
                Role=self.lambda_role.arn,
                Handler=f"{function_name}.lambda_handler",
                Code={"ZipFile": deployment_package},
                Publish=True,
            )

            waiter = self.lambda_client.get_waiter("function_active_v2")
            waiter.wait(FunctionName=function_name)

        except ClientError as e:
            logger.error(
                f"Couldn't create Lambda function {function_name}. Here's why: {e}"
            )
            raise

        return lambda_function

    def _create_lambda_role(self):
        print("Creating an execution role for the Lambda function...")

        role_name = f"AmazonBedrockExecutionRoleForLambda_{self.postfix}"

        try:
            role = self.iam_resource.create_role(
                RoleName=role_name,
                AssumeRolePolicyDocument=json.dumps(
                    {
                        "Version":"2012-10-17",		 	 	 
                        "Statement": [
                            {
                                "Effect": "Allow",
                                "Principal": {"Service": "lambda.amazonaws.com"},
                                "Action": "sts:AssumeRole",
                            }
                        ],
                    }
                ),
            )
            role.attach_policy(
                PolicyArn="arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole"
            )
            print(f"Created role {role_name}")
        except ClientError as e:
            logger.error(f"Couldn't create role {role_name}. Here's why: {e}")
            raise

        print("Waiting for the execution role to be fully propagated...")
        wait(10)

        return role

    def _allow_agent_to_invoke_function(self):
        policy = self.iam_resource.RolePolicy(
            self.agent_role.role_name, ROLE_POLICY_NAME
        )
        doc = policy.policy_document
        doc["Statement"].append(
            {
                "Effect": "Allow",
                "Action": "lambda:InvokeFunction",
                "Resource": self.lambda_function["FunctionArn"],
            }
        )
        self.agent_role.Policy(ROLE_POLICY_NAME).put(PolicyDocument=json.dumps(doc))

    def _let_function_accept_invocations_from_agent(self):
        try:
            self.lambda_client.add_permission(
                FunctionName=self.lambda_function["FunctionName"],
                SourceArn=self.agent["agentArn"],
                StatementId="BedrockAccess",
                Action="lambda:InvokeFunction",
                Principal="bedrock.amazonaws.com",
            )
        except ClientError as e:
            logger.error(
                f"Couldn't grant Bedrock permission to invoke the Lambda function. Here's why: {e}"
            )
            raise

    def _create_agent_action_group(self):
        print("Creating an action group for the agent...")

        try:
            with open("./scenario_resources/api_schema.yaml") as file:
                self.bedrock_wrapper.create_agent_action_group(
                    name="current_date_and_time",
                    description="Gets the current date and time.",
                    agent_id=self.agent["agentId"],
                    agent_version=self.prepared_agent_details["agentVersion"],
                    function_arn=self.lambda_function["FunctionArn"],
                    api_schema=json.dumps(yaml.safe_load(file)),
                )
        except ClientError as e:
            logger.error(f"Couldn't create agent action group. Here's why: {e}")
            raise

    def _get_agent(self):
        return self.bedrock_wrapper.get_agent(self.agent["agentId"])

    def _get_agent_action_groups(self):
        return self.bedrock_wrapper.list_agent_action_groups(
            self.agent["agentId"], self.prepared_agent_details["agentVersion"]
        )

    def _get_agent_knowledge_bases(self):
        return self.bedrock_wrapper.list_agent_knowledge_bases(
            self.agent["agentId"], self.prepared_agent_details["agentVersion"]
        )

    def _create_agent_alias(self):
        print("Creating an agent alias...")

        agent_alias_name = "test_agent_alias"
        agent_alias = self.bedrock_wrapper.create_agent_alias(
            agent_alias_name, self.agent["agentId"]
        )

        self._wait_for_agent_status(self.agent["agentId"], "PREPARED")

        return agent_alias

    def _wait_for_agent_status(self, agent_id, status):
        while self.bedrock_wrapper.get_agent(agent_id)["agentStatus"] != status:
            wait(2)

    def _chat_with_agent(self, agent_alias):
        print("-" * 88)
        print("The agent is ready to chat.")
        print("Try asking for the date or time. Type 'exit' to quit.")

        # Create a unique session ID for the conversation
        session_id = uuid.uuid4().hex

        while True:
            prompt = q.ask("Prompt: ", q.non_empty)

            if prompt == "exit":
                break

            response = asyncio.run(self._invoke_agent(agent_alias, prompt, session_id))

            print(f"Agent: {response}")

    async def _invoke_agent(self, agent_alias, prompt, session_id):
        response = self.bedrock_agent_runtime_client.invoke_agent(
            agentId=self.agent["agentId"],
            agentAliasId=agent_alias["agentAliasId"],
            sessionId=session_id,
            inputText=prompt,
        )

        completion = ""

        for event in response.get("completion"):
            chunk = event["chunk"]
            completion += chunk["bytes"].decode()

        return completion

    def _delete_resources(self):
        if self.agent:
            agent_id = self.agent["agentId"]

            if self.agent_alias:
                agent_alias_id = self.agent_alias["agentAliasId"]
                print("Deleting agent alias...")
                self.bedrock_wrapper.delete_agent_alias(agent_id, agent_alias_id)

            print("Deleting agent...")
            agent_status = self.bedrock_wrapper.delete_agent(agent_id)["agentStatus"]
            while agent_status == "DELETING":
                wait(5)
                try:
                    agent_status = self.bedrock_wrapper.get_agent(
                        agent_id, log_error=False
                    )["agentStatus"]
                except ClientError as err:
                    if err.response["Error"]["Code"] == "ResourceNotFoundException":
                        agent_status = "DELETED"

        if self.lambda_function:
            name = self.lambda_function["FunctionName"]
            print(f"Deleting function '{name}'...")
            self.lambda_client.delete_function(FunctionName=name)

        if self.agent_role:
            print(f"Deleting role '{self.agent_role.role_name}'...")
            self.agent_role.Policy(ROLE_POLICY_NAME).delete()
            self.agent_role.delete()

        if self.lambda_role:
            print(f"Deleting role '{self.lambda_role.role_name}'...")
            for policy in self.lambda_role.attached_policies.all():
                policy.detach_role(RoleName=self.lambda_role.role_name)
            self.lambda_role.delete()

    def _list_resources(self):
        print("-" * 40)
        print(f"Here is the list of created resources in '{REGION}'.")
        print("Make sure you delete them once you're done to avoid unnecessary costs.")
        if self.agent:
            print(f"Bedrock Agent:   {self.agent['agentName']}")
        if self.lambda_function:
            print(f"Lambda function: {self.lambda_function['FunctionName']}")
        if self.agent_role:
            print(f"IAM role:        {self.agent_role.role_name}")
        if self.lambda_role:
            print(f"IAM role:        {self.lambda_role.role_name}")

    @staticmethod
    def is_valid_agent_name(answer):
        valid_regex = r"^[a-zA-Z0-9_-]{1,100}$"
        return (
            answer
            if answer and len(answer) <= 100 and re.match(valid_regex, answer)
            else None,
            "I need a name for the agent, please. Valid characters are a-z, A-Z, 0-9, _ (underscore) and - (hyphen).",
        )

    @staticmethod
    def _create_deployment_package(function_name):
        buffer = io.BytesIO()
        with zipfile.ZipFile(buffer, "w") as zipped:
            zipped.write(
                "./scenario_resources/lambda_function.py", f"{function_name}.py"
            )
        buffer.seek(0)
        return buffer.read()


if __name__ == "__main__":
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    postfix = "".join(
        random.choice(string.ascii_lowercase + "0123456789") for _ in range(8)
    )
    scenario = BedrockAgentScenarioWrapper(
        bedrock_agent_client=boto3.client(
            service_name="bedrock-agent", region_name=REGION
        ),
        runtime_client=boto3.client(
            service_name="bedrock-agent-runtime", region_name=REGION
        ),
        lambda_client=boto3.client(service_name="lambda", region_name=REGION),
        iam_resource=boto3.resource("iam"),
        postfix=postfix,
    )
    try:
        scenario.run_scenario()
    except Exception as e:
        logging.exception(f"Something went wrong with the demo. Here's what: {e}")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateAgent)
  + [CreateAgentActionGroup](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateAgentActionGroup)
  + [CreateAgentAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateAgentAlias)
  + [DeleteAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteAgent)
  + [DeleteAgentAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteAgentAlias)
  + [GetAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetAgent)
  + [ListAgentActionGroups](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListAgentActionGroups)
  + [ListAgentKnowledgeBases](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListAgentKnowledgeBases)
  + [ListAgents](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/ListAgents)
  + [PrepareAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/PrepareAgent)

### Mengatur aplikasi AI generatif dengan Step Functions
<a name="cross_ServerlessPromptChaining_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan mengatur aplikasi AI generatif dengan Amazon Bedrock dan Step Functions.

**SDK untuk Python (Boto3)**  
 Skenario Amazon Bedrock Serverless Prompt Chaining menunjukkan bagaimana [AWS Step Functions](https://docs.aws.amazon.com/step-functions/latest/dg/welcome.html), [Amazon](https://docs.aws.amazon.com/bedrock/latest/userguide/what-is-bedrock.html) Bedrock, [https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html](https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html) dan dapat digunakan untuk membangun dan mengatur aplikasi AI generatif yang kompleks, tanpa server, dan sangat skalabel. Ini berisi contoh kerja berikut:   
+  Tulis analisis novel yang diberikan untuk blog sastra. Contoh ini menggambarkan rantai petunjuk yang sederhana dan berurutan. 
+  Hasilkan cerita pendek tentang topik tertentu. Contoh ini menggambarkan bagaimana AI dapat secara iteratif memproses daftar item yang dihasilkan sebelumnya. 
+  Buat rencana perjalanan untuk liburan akhir pekan ke tujuan tertentu. Contoh ini menggambarkan cara memparalelkan beberapa prompt yang berbeda. 
+  Pitch ide film untuk pengguna manusia yang bertindak sebagai produser film. Contoh ini menggambarkan cara memparalelkan prompt yang sama dengan parameter inferensi yang berbeda, cara mundur ke langkah sebelumnya dalam rantai, dan cara memasukkan input manusia sebagai bagian dari alur kerja. 
+  Rencanakan makanan berdasarkan bahan-bahan yang dimiliki pengguna. Contoh ini menggambarkan bagaimana rantai cepat dapat menggabungkan dua percakapan AI yang berbeda, dengan dua persona AI terlibat dalam debat satu sama lain untuk meningkatkan hasil akhir. 
+  Temukan dan rangkum repositori tren GitHub tertinggi hari ini. Contoh ini menggambarkan rantai beberapa agen AI yang berinteraksi dengan eksternal. APIs 
 Untuk kode sumber lengkap dan instruksi untuk menyiapkan dan menjalankan, lihat proyek lengkap di [GitHub](https://github.com/aws-samples/amazon-bedrock-serverless-prompt-chaining).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Bedrock
+ Runtime Amazon Bedrock
+ Agen Batuan Dasar Amazon
+ Runtime Agen Batuan Dasar Amazon
+ Step Functions

# Contoh Runtime Agen Batuan Dasar Amazon menggunakan SDK for Python (Boto3)
<a name="python_3_bedrock-agent-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Runtime AWS SDK untuk Python (Boto3) dengan Amazon Bedrock Agents.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="bedrock-agent-runtime_Scenario_ConverseWithFlow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan InvokeFlow untuk berkomunikasi dengan aliran Amazon Bedrock yang menyertakan node agen.

Untuk informasi selengkapnya, [lihat Berbicara dengan alur Amazon Bedrock](https://docs.aws.amazon.com/bedrock/latest/userguide/flows-multi-turn-invocation.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent-runtime#code-examples). 

```
"""
Shows how to run an Amazon Bedrock flow with InvokeFlow and handle muli-turn interaction
for a single conversation.
For more information, see https://docs.aws.amazon.com/bedrock/latest/userguide/flows-multi-turn-invocation.html.

"""
import logging
import boto3
import botocore

import botocore.exceptions

logging.basicConfig(level=logging.INFO)
logger = logging.getLogger(__name__)


def invoke_flow(client, flow_id, flow_alias_id, input_data, execution_id):
    """
    Invoke an Amazon Bedrock flow and handle the response stream.

    Args:
        client: Boto3 client for Amazon Bedrock agent runtime.
        flow_id: The ID of the flow to invoke.
        flow_alias_id: The alias ID of the flow.
        input_data: Input data for the flow.
        execution_id: Execution ID for continuing a flow. Use the value None on first run.

    Returns:
        Dict containing flow_complete status, input_required info, and execution_id
    """

    response = None
    request_params = None

    if execution_id is None:
        # Don't pass execution ID for first run.
        request_params = {
            "flowIdentifier": flow_id,
            "flowAliasIdentifier": flow_alias_id,
            "inputs": [input_data],
            "enableTrace": True
        }
    else:
        request_params = {
            "flowIdentifier": flow_id,
            "flowAliasIdentifier": flow_alias_id,
            "executionId": execution_id,
            "inputs": [input_data],
            "enableTrace": True
        }

    response = client.invoke_flow(**request_params)

    if "executionId" not in request_params:
        execution_id = response['executionId']

    input_required = None
    flow_status = ""

    # Process the streaming response
    for event in response['responseStream']:

        # Check if flow is complete.
        if 'flowCompletionEvent' in event:
            flow_status = event['flowCompletionEvent']['completionReason']

        # Check if more input us needed from user.
        elif 'flowMultiTurnInputRequestEvent' in event:
            input_required = event

        # Print the model output.
        elif 'flowOutputEvent' in event:
            print(event['flowOutputEvent']['content']['document'])

        # Log trace events.
        elif 'flowTraceEvent' in event:
            logger.info("Flow trace:  %s", event['flowTraceEvent'])

    return {
        "flow_status": flow_status,
        "input_required": input_required,
        "execution_id": execution_id
    }


def converse_with_flow(bedrock_agent_client, flow_id, flow_alias_id):
    """
    Run a conversation with the supplied flow.

    Args:
        bedrock_agent_client: Boto3 client for Amazon Bedrock agent runtime.
        flow_id: The ID of the flow to run.
        flow_alias_id: The alias ID of the flow.

    """

    flow_execution_id = None
    finished = False

    # Get the intial prompt from the user.
    user_input = input("Enter input: ")

    # Use prompt to create input data.
    flow_input_data = {
        "content": {
            "document": user_input
        },
        "nodeName": "FlowInputNode",
        "nodeOutputName": "document"
    }

    try:
        while not finished:
            # Invoke the flow until successfully finished.

            result = invoke_flow(
                bedrock_agent_client, flow_id, flow_alias_id, flow_input_data, flow_execution_id)

            status = result['flow_status']
            flow_execution_id = result['execution_id']
            more_input = result['input_required']
            if status == "INPUT_REQUIRED":
                # The flow needs more information from the user.
                logger.info("The flow %s requires more input", flow_id)
                user_input = input(
                    more_input['flowMultiTurnInputRequestEvent']['content']['document'] + ": ")
                flow_input_data = {
                    "content": {
                        "document": user_input
                    },
                    "nodeName": more_input['flowMultiTurnInputRequestEvent']['nodeName'],
                    "nodeInputName": "agentInputText"

                }
            elif status == "SUCCESS":
                # The flow completed successfully.
                finished = True
                logger.info("The flow %s successfully completed.", flow_id)

    except botocore.exceptions.ClientError as e:
        print(f"Client error: {str(e)}")
        logger.error("Client error: %s", {str(e)})

    except Exception as e:
        print(f"An error occurred: {str(e)}")
        logger.error("An error occurred: %s", {str(e)})
        logger.error("Error type: %s", {type(e)})


def main():
    """
    Main entry point for the script.
    """

    # Replace these with your actual flow ID and flow alias ID.
    FLOW_ID = 'YOUR_FLOW_ID'
    FLOW_ALIAS_ID = 'YOUR_FLOW_ALIAS_ID'

    logger.info("Starting conversation with FLOW: %s ID: %s",
                FLOW_ID, FLOW_ALIAS_ID)

    # Get the Bedrock agent runtime client.
    session = boto3.Session(profile_name='default')
    bedrock_agent_client = session.client('bedrock-agent-runtime')

    # Start the conversation.
    converse_with_flow(bedrock_agent_client, FLOW_ID, FLOW_ALIAS_ID)

    logger.info("Conversation with FLOW: %s ID: %s finished",
                FLOW_ID, FLOW_ALIAS_ID)


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [InvokeFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-runtime-2023-12-12/InvokeFlow)di *AWS SDK for Python (Boto3) Referensi* API. 

## Tindakan
<a name="actions"></a>

### `InvokeAgent`
<a name="bedrock-agent-runtime_InvokeAgent_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InvokeAgent`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent-runtime#code-examples). 
Meminta agen.  

```
    def invoke_agent(self, agent_id, agent_alias_id, session_id, prompt):
        """
        Sends a prompt for the agent to process and respond to.

        :param agent_id: The unique identifier of the agent to use.
        :param agent_alias_id: The alias of the agent to use.
        :param session_id: The unique identifier of the session. Use the same value across requests
                           to continue the same conversation.
        :param prompt: The prompt that you want Claude to complete.
        :return: Inference response from the model.
        """

        try:
            # Note: The execution time depends on the foundation model, complexity of the agent,
            # and the length of the prompt. In some cases, it can take up to a minute or more to
            # generate a response.
            response = self.agents_runtime_client.invoke_agent(
                agentId=agent_id,
                agentAliasId=agent_alias_id,
                sessionId=session_id,
                inputText=prompt,
            )

            completion = ""

            for event in response.get("completion"):
                chunk = event["chunk"]
                completion = completion + chunk["bytes"].decode()

        except ClientError as e:
            logger.error(f"Couldn't invoke agent. {e}")
            raise

        return completion
```
+  Untuk detail API, lihat [InvokeAgent](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-runtime-2023-12-12/InvokeAgent)di *AWS SDK for Python (Boto3) Referensi* API. 

### `InvokeFlow`
<a name="bedrock-agent-runtime_InvokeFlow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InvokeFlow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent-runtime#code-examples). 
Memanggil aliran.  

```
    def invoke_flow(self, flow_id, flow_alias_id, input_data, execution_id):
        """
        Invoke an Amazon Bedrock flow and handle the response stream.

        Args:
            param flow_id: The ID of the flow to invoke.
            param flow_alias_id: The alias ID of the flow.
            param input_data: Input data for the flow.
            param execution_id: Execution ID for continuing a flow. Use the value None on first run.

        Return: Response from the flow.
        """
        try:
      
            request_params = None

            if execution_id is None:
                # Don't pass execution ID for first run.
                request_params = {
                    "flowIdentifier": flow_id,
                    "flowAliasIdentifier": flow_alias_id,
                    "inputs": input_data,
                    "enableTrace": True
                }
            else:
                request_params = {
                    "flowIdentifier": flow_id,
                    "flowAliasIdentifier": flow_alias_id,
                    "executionId": execution_id,
                    "inputs": input_data,
                    "enableTrace": True
                }

            response = self.agents_runtime_client.invoke_flow(**request_params)

            if "executionId" not in request_params:
                execution_id = response['executionId']

            result = ""

            # Get the streaming response
            for event in response['responseStream']:
                result = result + str(event) + '\n'
            print(result)

        except ClientError as e:
            logger.error("Couldn't invoke flow %s.", {e})
            raise

        return result
```
+  Untuk detail API, lihat [InvokeFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-runtime-2023-12-12/InvokeFlow)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Buat dan panggil alur
<a name="bedrock-agent_GettingStartedWithBedrockFlows_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran eksekusi untuk alur.
+ Buat alur.
+ Terapkan aliran yang sepenuhnya dikonfigurasi.
+ Memanggil alur dengan petunjuk yang disediakan pengguna.
+ Hapus semua sumber daya yang dibuat.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-agent#code-examples). 
Menghasilkan daftar putar musik berdasarkan genre yang ditentukan pengguna dan jumlah lagu.  

```
from datetime import datetime
import logging
import boto3

from botocore.exceptions import ClientError

from roles import create_flow_role, delete_flow_role, update_role_policy
from flow import create_flow, prepare_flow, delete_flow
from run_flow import run_playlist_flow
from flow_version import create_flow_version, delete_flow_version
from flow_alias import create_flow_alias, delete_flow_alias

logging.basicConfig(
    level=logging.INFO
)
logger = logging.getLogger(__name__)

def create_input_node(name):
    """
    Creates an input node configuration for an Amazon Bedrock flow.

    The input node serves as the entry point for the flow and defines
    the initial document structure that will be passed to subsequent nodes.

    Args:
        name (str): The name of the input node.

    Returns:
        dict: The input node configuration.

    """
    return {
        "type": "Input",
        "name": name,
        "outputs": [
            {
                "name": "document",
                "type": "Object"
            }
        ]
    }


def create_prompt_node(name, model_id):
    """
    Creates a prompt node configuration for a Bedrock flow that generates music playlists.

    The prompt node defines an inline prompt template that creates a music playlist based on
    a specified genre and number of songs. The prompt uses two variables that are mapped from
    the input JSON object:
    - {{genre}}: The genre of music to create a playlist for
    - {{number}}: The number of songs to include in the playlist

    Args:
        name (str): The name of the prompt node.
        model_id (str): The identifier of the foundation model to use for the prompt.

    Returns:
        dict: The prompt node.

    """

    return {
        "type": "Prompt",
        "name": name,
        "configuration": {
            "prompt": {
                "sourceConfiguration": {
                    "inline": {
                        "modelId": model_id,
                        "templateType": "TEXT",
                        "inferenceConfiguration": {
                            "text": {
                                "temperature": 0.8
                            }
                        },
                        "templateConfiguration": {
                            "text": {
                                "text": "Make me a {{genre}} playlist consisting of the following number of songs: {{number}}."
                            }
                        }
                    }
                }
            }
        },
        "inputs": [
            {
                "name": "genre",
                "type": "String",
                "expression": "$.data.genre"
            },
            {
                "name": "number",
                "type": "Number",
                "expression": "$.data.number"
            }
        ],
        "outputs": [
            {
                "name": "modelCompletion",
                "type": "String"
            }
        ]
    }


def create_output_node(name):
    """
    Creates an output node configuration for a Bedrock flow.

    The output node validates that the output from the last node is a string
    and returns it unmodified. The input name must be "document".

    Args:
        name (str): The name of the output node.

    Returns:
        dict: The output node configuration containing the output node:

    """

    return {
        "type": "Output",
        "name": name,
        "inputs": [
            {
                "name": "document",
                "type": "String",
                "expression": "$.data"
            }
        ]
    }




def create_playlist_flow(client, flow_name, flow_description, role_arn, prompt_model_id):
    """
    Creates the playlist generator flow.
    Args:
        client: bedrock agent boto3 client.
        role_arn (str): Name for the new IAM role.
        prompt_model_id (str): The id of the model to use in the prompt node.
    Returns:
        dict: The response from the create_flow operation.
    """

    input_node = create_input_node("FlowInput")
    prompt_node = create_prompt_node("MakePlaylist", prompt_model_id)
    output_node = create_output_node("FlowOutput")

    # Create connections between the nodes
    connections = []

    #  First, create connections between the output of the flow 
    # input node and each input of the prompt node.
    for prompt_node_input in prompt_node["inputs"]:
        connections.append(
            {
                "name": "_".join([input_node["name"], prompt_node["name"],
                                   prompt_node_input["name"]]),
                "source": input_node["name"],
                "target": prompt_node["name"],
                "type": "Data",
                "configuration": {
                    "data": {
                        "sourceOutput": input_node["outputs"][0]["name"],
                        "targetInput": prompt_node_input["name"]
                    }
                }
            }
        )

    # Then, create a connection between the output of the prompt node and the input of the flow output node
    connections.append(
        {
            "name": "_".join([prompt_node["name"], output_node["name"]]),
            "source": prompt_node["name"],
            "target": output_node["name"],
            "type": "Data",
            "configuration": {
                "data": {
                    "sourceOutput": prompt_node["outputs"][0]["name"],
                    "targetInput": output_node["inputs"][0]["name"]
                }
            }
        }
    )

    flow_def = {
        "nodes": [input_node, prompt_node, output_node],
        "connections": connections
    }

    # Create the flow.

    response = create_flow(
        client, flow_name, flow_description, role_arn, flow_def)

    return response



def get_model_arn(client, model_id):
    """
    Gets the Amazon Resource Name (ARN) for a model.
    Args:
        client (str): Amazon Bedrock boto3 client.
        model_id (str): The id of the model.
    Returns:
        str: The ARN of the model.
    """

    try:
        # Call GetFoundationModelDetails operation
        response = client.get_foundation_model(modelIdentifier=model_id)

        # Extract model ARN from the response
        model_arn = response['modelDetails']['modelArn']

        return model_arn

    except ClientError as e:
        logger.exception("Client error getting model ARN: %s", {str(e)})
        raise

    except Exception as e:
        logger.exception("Unexpected error getting model ARN: %s", {str(e)})
        raise


def prepare_flow_version_and_alias(bedrock_agent_client,
                                   flow_id):
    """
    Prepares the flow and then creates a flow version and flow alias.
    Args:
        bedrock_agent_client: Amazon Bedrock Agent boto3 client.
        flowd_id (str): The ID of the flow that you want to prepare.
    Returns: The flow_version and flow_alias. 

    """

    status = prepare_flow(bedrock_agent_client, flow_id)

    flow_version = None
    flow_alias = None

    if status == 'Prepared':

        # Create the flow version and alias.
        flow_version = create_flow_version(bedrock_agent_client,
                                           flow_id,
                                           f"flow version for flow {flow_id}.")

        flow_alias = create_flow_alias(bedrock_agent_client,
                                       flow_id,
                                       flow_version,
                                       "latest",
                                       f"Alias for flow {flow_id}, version {flow_version}")

    return flow_version, flow_alias



def delete_role_resources(bedrock_agent_client,
                          iam_client,
                          role_name,
                          flow_id,
                          flow_version,
                          flow_alias):
    """
    Deletes the flow, flow alias, flow version, and IAM roles.
    Args:
        bedrock_agent_client: Amazon Bedrock Agent boto3 client.
        iam_client: Amazon IAM boto3 client.
        role_name (str): The name of the IAM role.
        flow_id (str): The id of the flow.
        flow_version (str): The version of the flow.
        flow_alias (str): The alias of the flow.
    """

    if flow_id is not None:
        if flow_alias is not None:
            delete_flow_alias(bedrock_agent_client, flow_id, flow_alias)
        if flow_version is not None:
            delete_flow_version(bedrock_agent_client,
                        flow_id, flow_version)
        delete_flow(bedrock_agent_client, flow_id)
    
    if role_name is not None:
        delete_flow_role(iam_client, role_name)



def main():
    """
    Creates, runs, and optionally deletes a Bedrock flow for generating music playlists.

    Note:
        Requires valid AWS credentials in the default profile
    """

    delete_choice = "y"
    try:

        # Get various boto3 clients.
        session = boto3.Session(profile_name='default')
        bedrock_agent_runtime_client = session.client('bedrock-agent-runtime')
        bedrock_agent_client = session.client('bedrock-agent')
        bedrock_client = session.client('bedrock')
        iam_client = session.client('iam')
        
        role_name = None
        flow_id = None
        flow_version = None
        flow_alias = None

        #Change the model as needed.
        prompt_model_id = "amazon.nova-pro-v1:0"

        # Base the flow name on the current date and time
        current_time = datetime.now()
        timestamp = current_time.strftime("%Y-%m-%d-%H-%M-%S")
        flow_name = f"FlowPlayList_{timestamp}"
        flow_description = "A flow to generate a music playlist."

        # Create a role for the flow.
        role_name = f"BedrockFlowRole-{flow_name}"
        role = create_flow_role(iam_client, role_name)
        role_arn = role['Arn']

        # Create the flow.
        response = create_playlist_flow(
            bedrock_agent_client, flow_name, flow_description, role_arn, prompt_model_id)
        flow_id = response.get('id')

        if flow_id:
            # Update accessible resources in the role.
            model_arn = get_model_arn(bedrock_client, prompt_model_id)
            update_role_policy(iam_client, role_name, [
                               response.get('arn'), model_arn])

            # Prepare the flow and flow version.
            flow_version, flow_alias = prepare_flow_version_and_alias(
                bedrock_agent_client, flow_id)

            # Run the flow.
            if flow_version and flow_alias:
                run_playlist_flow(bedrock_agent_runtime_client,
                                  flow_id, flow_alias)

                delete_choice = input("Delete flow? y or n : ").lower()


            else:
                print("Couldn't run. Deleting flow and role.")
                delete_flow(bedrock_agent_client, flow_id)
                delete_flow_role(iam_client, role_name)
        else:
            print("Couldn't create flow.")


    except Exception as e:
        print(f"Fatal error: {str(e)}")
    
    finally:
        if delete_choice == 'y':
                delete_role_resources(bedrock_agent_client,
                                          iam_client,
                                          role_name,
                                          flow_id,
                                          flow_version,
                                          flow_alias)
        else:
            print("Flow not deleted. ")
            print(f"\tFlow ID: {flow_id}")
            print(f"\tFlow version: {flow_version}")
            print(f"\tFlow alias: {flow_alias}")
            print(f"\tRole ARN: {role_arn}")
       
        print("Done!")
 
if __name__ == "__main__":
    main()


def invoke_flow(client, flow_id, flow_alias_id, input_data):
    """
    Invoke an Amazon Bedrock flow and handle the response stream.

    Args:
        client: Boto3 client for Amazon Bedrock agent runtime.
        flow_id: The ID of the flow to invoke.
        flow_alias_id: The alias ID of the flow.
        input_data: Input data for the flow.

    Returns:
        Dict containing flow status and flow output.
    """

    response = None
    request_params = None

    request_params = {
            "flowIdentifier": flow_id,
            "flowAliasIdentifier": flow_alias_id,
            "inputs": [input_data],
            "enableTrace": True
        }


    response = client.invoke_flow(**request_params)

    flow_status = ""
    output= ""

    # Process the streaming response
    for event in response['responseStream']:

        # Check if flow is complete.
        if 'flowCompletionEvent' in event:
            flow_status = event['flowCompletionEvent']['completionReason']

        # Save the model output.
        elif 'flowOutputEvent' in event:
            output = event['flowOutputEvent']['content']['document']
            logger.info("Output : %s", output)

        # Log trace events.
        elif 'flowTraceEvent' in event:
            logger.info("Flow trace:  %s", event['flowTraceEvent'])
    
    return {
        "flow_status": flow_status,
        "output": output

    }




def run_playlist_flow(bedrock_agent_client, flow_id, flow_alias_id):
    """
    Runs the playlist generator flow.

    Args:
        bedrock_agent_client: Boto3 client for Amazon Bedrock agent runtime.
        flow_id: The ID of the flow to run.
        flow_alias_id: The alias ID of the flow.

    """


    print ("Welcome to the playlist generator flow.")
    # Get the initial prompt from the user.
    genre = input("Enter genre: ")
    number_of_songs = int(input("Enter number of songs: "))


    # Use prompt to create input data for the input node.
    flow_input_data = {
        "content": {
            "document": {
                "genre" : genre,
                "number" : number_of_songs
            }
        },
        "nodeName": "FlowInput",
        "nodeOutputName": "document"
    }

    try:

        result = invoke_flow(
                bedrock_agent_client, flow_id, flow_alias_id, flow_input_data)

        status = result['flow_status']
  
        if status == "SUCCESS":
                # The flow completed successfully.
                logger.info("The flow %s successfully completed.", flow_id)
                print(result['output'])
        else:
            logger.warning("Flow status: %s",status)

    except ClientError as e:
        print(f"Client error: {str(e)}")
        logger.error("Client error: %s", {str(e)})
        raise

    except Exception as e:
        logger.error("An error occurred: %s", {str(e)})
        logger.error("Error type: %s", {type(e)})
        raise



def create_flow_role(client, role_name):
    """
    Creates an IAM role for Amazon Bedrock with permissions to run a flow.
    
    Args:
        role_name (str): Name for the new IAM role.
    Returns:
        str: The role Amazon Resource Name.
    """

    
    # Trust relationship policy - allows Amazon Bedrock service to assume this role.
    trust_policy = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [{
            "Effect": "Allow",
            "Principal": {
                "Service": "bedrock.amazonaws.com"
            },
            "Action": "sts:AssumeRole"
        }]
    }
    
    # Basic inline policy for for running a flow.

    resources = "*"

    bedrock_policy = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Effect": "Allow",
                "Action": [
                    "bedrock:InvokeModel",
                    "bedrock:Retrieve",
                    "bedrock:RetrieveAndGenerate"
                ],
                # Using * as placeholder - Later you update with specific ARNs.
                "Resource": resources
            }
        ]
    }


    
    try:
        # Create the IAM role with trust policy
        logging.info("Creating role: %s",role_name)
        role = client.create_role(
            RoleName=role_name,
            AssumeRolePolicyDocument=json.dumps(trust_policy),
            Description="Role for Amazon Bedrock operations"
        )
        
        # Attach inline policy to the role
        print("Attaching inline policy")
        client.put_role_policy(
            RoleName=role_name,
            PolicyName=f"{role_name}-policy",
            PolicyDocument=json.dumps(bedrock_policy)
        )
        
        logging.info("Create Role ARN: %s", role['Role']['Arn'])
        return role['Role']
        
    except ClientError as e:
        logging.warning("Error creating role: %s", str(e))
        raise
    except Exception as e:
        logging.warning("Unexpected error: %s", str(e))
        raise


def update_role_policy(client, role_name, resource_arns):
    """
    Updates an IAM role's inline policy with specific resource ARNs.
    
    Args:
        role_name (str): Name of the existing role.
        resource_arns (list): List of resource ARNs to allow access to.
    """

    
    updated_policy = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Effect": "Allow",
                "Action": [
                    "bedrock:GetFlow",
                    "bedrock:InvokeModel",
                    "bedrock:Retrieve",
                    "bedrock:RetrieveAndGenerate"
                ],
                "Resource": resource_arns
            }
        ]
    }
    
    try:
        client.put_role_policy(
            RoleName=role_name,
            PolicyName=f"{role_name}-policy",
            PolicyDocument=json.dumps(updated_policy)
        )
        logging.info("Updated policy for role: %s",role_name)
        
    except ClientError as e:
        logging.warning("Error updating role policy: %s", str(e))
        raise


def delete_flow_role(client, role_name):
    """
    Deletes an IAM role.

    Args:
        role_name (str): Name of the role to delete.
    """



    try:
        # Detach and delete inline policies
        policies = client.list_role_policies(RoleName=role_name)['PolicyNames']
        for policy_name in policies:
            client.delete_role_policy(RoleName=role_name, PolicyName=policy_name)

        # Delete the role
        client.delete_role(RoleName=role_name)
        logging.info("Deleted role: %s", role_name)


    except ClientError as e:
        logging.info("Error Deleting role: %s", str(e))
        raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlow)
  + [CreateFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlowAlias)
  + [CreateFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/CreateFlowVersion)
  + [DeleteFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlow)
  + [DeleteFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlowAlias)
  + [DeleteFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/DeleteFlowVersion)
  + [GetFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetFlow)
  + [GetFlowAlias](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetFlowAlias)
  + [GetFlowVersion](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/GetFlowVersion)
  + [InvokeFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-runtime-2023-12-12/InvokeFlow)
  + [PrepareFlow](https://docs.aws.amazon.com/goto/boto3/bedrock-agent-2023-12-12/PrepareFlow)

### Mengatur aplikasi AI generatif dengan Step Functions
<a name="cross_ServerlessPromptChaining_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan mengatur aplikasi AI generatif dengan Amazon Bedrock dan Step Functions.

**SDK untuk Python (Boto3)**  
 Skenario Amazon Bedrock Serverless Prompt Chaining menunjukkan bagaimana [AWS Step Functions](https://docs.aws.amazon.com/step-functions/latest/dg/welcome.html), [Amazon](https://docs.aws.amazon.com/bedrock/latest/userguide/what-is-bedrock.html) Bedrock, [https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html](https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html) dan dapat digunakan untuk membangun dan mengatur aplikasi AI generatif yang kompleks, tanpa server, dan sangat skalabel. Ini berisi contoh kerja berikut:   
+  Tulis analisis novel yang diberikan untuk blog sastra. Contoh ini menggambarkan rantai petunjuk yang sederhana dan berurutan. 
+  Hasilkan cerita pendek tentang topik tertentu. Contoh ini menggambarkan bagaimana AI dapat secara iteratif memproses daftar item yang dihasilkan sebelumnya. 
+  Buat rencana perjalanan untuk liburan akhir pekan ke tujuan tertentu. Contoh ini menggambarkan cara memparalelkan beberapa prompt yang berbeda. 
+  Pitch ide film untuk pengguna manusia yang bertindak sebagai produser film. Contoh ini menggambarkan cara memparalelkan prompt yang sama dengan parameter inferensi yang berbeda, cara mundur ke langkah sebelumnya dalam rantai, dan cara memasukkan input manusia sebagai bagian dari alur kerja. 
+  Rencanakan makanan berdasarkan bahan-bahan yang dimiliki pengguna. Contoh ini menggambarkan bagaimana rantai cepat dapat menggabungkan dua percakapan AI yang berbeda, dengan dua persona AI terlibat dalam debat satu sama lain untuk meningkatkan hasil akhir. 
+  Temukan dan rangkum repositori tren GitHub tertinggi hari ini. Contoh ini menggambarkan rantai beberapa agen AI yang berinteraksi dengan eksternal. APIs 
 Untuk kode sumber lengkap dan instruksi untuk menyiapkan dan menjalankan, lihat proyek lengkap di [GitHub](https://github.com/aws-samples/amazon-bedrock-serverless-prompt-chaining).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Bedrock
+ Runtime Amazon Bedrock
+ Agen Batuan Dasar Amazon
+ Runtime Agen Batuan Dasar Amazon
+ Step Functions

# CloudFormation contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_cloudformation_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with CloudFormation.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat API REST untuk melacak data COVID-19
<a name="cross_ApiGatewayDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat API REST yang menyimulasikan sistem untuk melacak kasus COVID-19 harian di Amerika Serikat, menggunakan data fiksi.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS Chalice dengan membuat REST API tanpa server yang menggunakan Amazon API Gateway,, AWS Lambda dan Amazon DynamoDB. AWS SDK untuk Python (Boto3) API REST menyimulasikan sistem untuk melacak kasus COVID-19 harian di Amerika Serikat, menggunakan data fiksi. Pelajari cara:   
+ Gunakan AWS Chalice untuk menentukan rute dalam fungsi Lambda yang dipanggil untuk menangani permintaan REST yang datang melalui API Gateway.
+ Menggunakan fungsi Lambda untuk mengambil dan menyimpan data dalam tabel DynamoDB untuk melayani permintaan REST.
+ Tentukan struktur tabel dan sumber daya peran keamanan dalam AWS CloudFormation template.
+ Gunakan AWS Chalice dan CloudFormation untuk mengemas dan menyebarkan semua sumber daya yang diperlukan.
+ Gunakan CloudFormation untuk membersihkan semua sumber daya yang dibuat.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/apigateway_covid-19_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ CloudFormation
+ DynamoDB
+ Lambda

# CloudFront contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_cloudfront_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with CloudFront.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetDistributionConfig`
<a name="cloudfront_GetDistributionConfig_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDistributionConfig`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudfront#code-examples). 

```
class CloudFrontWrapper:
    """Encapsulates Amazon CloudFront operations."""

    def __init__(self, cloudfront_client):
        """
        :param cloudfront_client: A Boto3 CloudFront client
        """
        self.cloudfront_client = cloudfront_client


    def update_distribution(self):
        distribution_id = input(
            "This script updates the comment for a CloudFront distribution.\n"
            "Enter a CloudFront distribution ID: "
        )

        distribution_config_response = self.cloudfront_client.get_distribution_config(
            Id=distribution_id
        )
        distribution_config = distribution_config_response["DistributionConfig"]
        distribution_etag = distribution_config_response["ETag"]

        distribution_config["Comment"] = input(
            f"\nThe current comment for distribution {distribution_id} is "
            f"'{distribution_config['Comment']}'.\n"
            f"Enter a new comment: "
        )
        self.cloudfront_client.update_distribution(
            DistributionConfig=distribution_config,
            Id=distribution_id,
            IfMatch=distribution_etag,
        )
        print("Done!")
```
+  Untuk detail API, lihat [GetDistributionConfig](https://docs.aws.amazon.com/goto/boto3/cloudfront-2020-05-31/GetDistributionConfig)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListDistributions`
<a name="cloudfront_ListDistributions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDistributions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudfront#code-examples). 

```
class CloudFrontWrapper:
    """Encapsulates Amazon CloudFront operations."""

    def __init__(self, cloudfront_client):
        """
        :param cloudfront_client: A Boto3 CloudFront client
        """
        self.cloudfront_client = cloudfront_client


    def list_distributions(self):
        print("CloudFront distributions:\n")
        distributions = self.cloudfront_client.list_distributions()
        if distributions["DistributionList"]["Quantity"] > 0:
            for distribution in distributions["DistributionList"]["Items"]:
                print(f"Domain: {distribution['DomainName']}")
                print(f"Distribution Id: {distribution['Id']}")
                print(
                    f"Certificate Source: "
                    f"{distribution['ViewerCertificate']['CertificateSource']}"
                )
                if distribution["ViewerCertificate"]["CertificateSource"] == "acm":
                    print(
                        f"Certificate: {distribution['ViewerCertificate']['Certificate']}"
                    )
                print("")
        else:
            print("No CloudFront distributions detected.")
```
+  Untuk detail API, lihat [ListDistributions](https://docs.aws.amazon.com/goto/boto3/cloudfront-2020-05-31/ListDistributions)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateDistribution`
<a name="cloudfront_UpdateDistribution_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateDistribution`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudfront#code-examples). 

```
class CloudFrontWrapper:
    """Encapsulates Amazon CloudFront operations."""

    def __init__(self, cloudfront_client):
        """
        :param cloudfront_client: A Boto3 CloudFront client
        """
        self.cloudfront_client = cloudfront_client


    def update_distribution(self):
        distribution_id = input(
            "This script updates the comment for a CloudFront distribution.\n"
            "Enter a CloudFront distribution ID: "
        )

        distribution_config_response = self.cloudfront_client.get_distribution_config(
            Id=distribution_id
        )
        distribution_config = distribution_config_response["DistributionConfig"]
        distribution_etag = distribution_config_response["ETag"]

        distribution_config["Comment"] = input(
            f"\nThe current comment for distribution {distribution_id} is "
            f"'{distribution_config['Comment']}'.\n"
            f"Enter a new comment: "
        )
        self.cloudfront_client.update_distribution(
            DistributionConfig=distribution_config,
            Id=distribution_id,
            IfMatch=distribution_etag,
        )
        print("Done!")
```
+  Untuk detail API, lihat [UpdateDistribution](https://docs.aws.amazon.com/goto/boto3/cloudfront-2020-05-31/UpdateDistribution)di *AWS SDK for Python (Boto3) Referensi* API. 

# CloudWatch contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with CloudWatch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DeleteAlarms`
<a name="cloudwatch_DeleteAlarms_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlarms`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def delete_metric_alarms(self, metric_namespace, metric_name):
        """
        Deletes all of the alarms that are currently watching the specified metric.

        :param metric_namespace: The namespace of the metric.
        :param metric_name: The name of the metric.
        """
        try:
            metric = self.cloudwatch_resource.Metric(metric_namespace, metric_name)
            metric.alarms.delete()
            logger.info(
                "Deleted alarms for metric %s.%s.", metric_namespace, metric_name
            )
        except ClientError:
            logger.exception(
                "Couldn't delete alarms for metric %s.%s.",
                metric_namespace,
                metric_name,
            )
            raise
```
+  Untuk detail API, lihat [DeleteAlarms](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/DeleteAlarms)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def get_metric_alarms(self, metric_namespace, metric_name):
        """
        Gets the alarms that are currently watching the specified metric.

        :param metric_namespace: The namespace of the metric.
        :param metric_name: The name of the metric.
        :returns: An iterator that yields the alarms.
        """
        metric = self.cloudwatch_resource.Metric(metric_namespace, metric_name)
        alarm_iter = metric.alarms.all()
        logger.info("Got alarms for metric %s.%s.", metric_namespace, metric_name)
        return alarm_iter
```
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/DescribeAlarmsForMetric)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def enable_alarm_actions(self, alarm_name, enable):
        """
        Enables or disables actions on the specified alarm. Alarm actions can be
        used to send notifications or automate responses when an alarm enters a
        particular state.

        :param alarm_name: The name of the alarm.
        :param enable: When True, actions are enabled for the alarm. Otherwise, they
                       disabled.
        """
        try:
            alarm = self.cloudwatch_resource.Alarm(alarm_name)
            if enable:
                alarm.enable_actions()
            else:
                alarm.disable_actions()
            logger.info(
                "%s actions for alarm %s.",
                "Enabled" if enable else "Disabled",
                alarm_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't %s actions alarm %s.",
                "enable" if enable else "disable",
                alarm_name,
            )
            raise
```
+  Untuk detail API, lihat [DisableAlarmActions](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/DisableAlarmActions)di *AWS SDK for Python (Boto3) Referensi* API. 

### `EnableAlarmActions`
<a name="cloudwatch_EnableAlarmActions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableAlarmActions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def enable_alarm_actions(self, alarm_name, enable):
        """
        Enables or disables actions on the specified alarm. Alarm actions can be
        used to send notifications or automate responses when an alarm enters a
        particular state.

        :param alarm_name: The name of the alarm.
        :param enable: When True, actions are enabled for the alarm. Otherwise, they
                       disabled.
        """
        try:
            alarm = self.cloudwatch_resource.Alarm(alarm_name)
            if enable:
                alarm.enable_actions()
            else:
                alarm.disable_actions()
            logger.info(
                "%s actions for alarm %s.",
                "Enabled" if enable else "Disabled",
                alarm_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't %s actions alarm %s.",
                "enable" if enable else "disable",
                alarm_name,
            )
            raise
```
+  Untuk detail API, lihat [EnableAlarmActions](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/EnableAlarmActions)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetMetricStatistics`
<a name="cloudwatch_GetMetricStatistics_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricStatistics`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def get_metric_statistics(self, namespace, name, start, end, period, stat_types):
        """
        Gets statistics for a metric within a specified time span. Metrics are grouped
        into the specified period.

        :param namespace: The namespace of the metric.
        :param name: The name of the metric.
        :param start: The UTC start time of the time span to retrieve.
        :param end: The UTC end time of the time span to retrieve.
        :param period: The period, in seconds, in which to group metrics. The period
                       must match the granularity of the metric, which depends on
                       the metric's age. For example, metrics that are older than
                       three hours have a one-minute granularity, so the period must
                       be at least 60 and must be a multiple of 60.
        :param stat_types: The type of statistics to retrieve, such as average value
                           or maximum value.
        :return: The retrieved statistics for the metric.
        """
        try:
            metric = self.cloudwatch_resource.Metric(namespace, name)
            stats = metric.get_statistics(
                StartTime=start, EndTime=end, Period=period, Statistics=stat_types
            )
            logger.info(
                "Got %s statistics for %s.", len(stats["Datapoints"]), stats["Label"]
            )
        except ClientError:
            logger.exception("Couldn't get statistics for %s.%s.", namespace, name)
            raise
        else:
            return stats
```
+  Untuk detail API, lihat [GetMetricStatistics](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/GetMetricStatistics)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def list_metrics(self, namespace, name, recent=False):
        """
        Gets the metrics within a namespace that have the specified name.
        If the metric has no dimensions, a single metric is returned.
        Otherwise, metrics for all dimensions are returned.

        :param namespace: The namespace of the metric.
        :param name: The name of the metric.
        :param recent: When True, only metrics that have been active in the last
                       three hours are returned.
        :return: An iterator that yields the retrieved metrics.
        """
        try:
            kwargs = {"Namespace": namespace, "MetricName": name}
            if recent:
                kwargs["RecentlyActive"] = "PT3H"  # List past 3 hours only
            metric_iter = self.cloudwatch_resource.metrics.filter(**kwargs)
            logger.info("Got metrics for %s.%s.", namespace, name)
        except ClientError:
            logger.exception("Couldn't get metrics for %s.%s.", namespace, name)
            raise
        else:
            return metric_iter
```
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/ListMetrics)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def create_metric_alarm(
        self,
        metric_namespace,
        metric_name,
        alarm_name,
        stat_type,
        period,
        eval_periods,
        threshold,
        comparison_op,
    ):
        """
        Creates an alarm that watches a metric.

        :param metric_namespace: The namespace of the metric.
        :param metric_name: The name of the metric.
        :param alarm_name: The name of the alarm.
        :param stat_type: The type of statistic the alarm watches.
        :param period: The period in which metric data are grouped to calculate
                       statistics.
        :param eval_periods: The number of periods that the metric must be over the
                             alarm threshold before the alarm is set into an alarmed
                             state.
        :param threshold: The threshold value to compare against the metric statistic.
        :param comparison_op: The comparison operation used to compare the threshold
                              against the metric.
        :return: The newly created alarm.
        """
        try:
            metric = self.cloudwatch_resource.Metric(metric_namespace, metric_name)
            alarm = metric.put_alarm(
                AlarmName=alarm_name,
                Statistic=stat_type,
                Period=period,
                EvaluationPeriods=eval_periods,
                Threshold=threshold,
                ComparisonOperator=comparison_op,
            )
            logger.info(
                "Added alarm %s to track metric %s.%s.",
                alarm_name,
                metric_namespace,
                metric_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't add alarm %s to metric %s.%s",
                alarm_name,
                metric_namespace,
                metric_name,
            )
            raise
        else:
            return alarm
```
+  Untuk detail API, lihat [PutMetricAlarm](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/PutMetricAlarm)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def put_metric_data(self, namespace, name, value, unit):
        """
        Sends a single data value to CloudWatch for a metric. This metric is given
        a timestamp of the current UTC time.

        :param namespace: The namespace of the metric.
        :param name: The name of the metric.
        :param value: The value of the metric.
        :param unit: The unit of the metric.
        """
        try:
            metric = self.cloudwatch_resource.Metric(namespace, name)
            metric.put_data(
                Namespace=namespace,
                MetricData=[{"MetricName": name, "Value": value, "Unit": unit}],
            )
            logger.info("Put data for metric %s.%s", namespace, name)
        except ClientError:
            logger.exception("Couldn't put data for metric %s.%s", namespace, name)
            raise
```
Masukkan satu set data ke dalam CloudWatch metrik.  

```
class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def put_metric_data_set(self, namespace, name, timestamp, unit, data_set):
        """
        Sends a set of data to CloudWatch for a metric. All of the data in the set
        have the same timestamp and unit.

        :param namespace: The namespace of the metric.
        :param name: The name of the metric.
        :param timestamp: The UTC timestamp for the metric.
        :param unit: The unit of the metric.
        :param data_set: The set of data to send. This set is a dictionary that
                         contains a list of values and a list of corresponding counts.
                         The value and count lists must be the same length.
        """
        try:
            metric = self.cloudwatch_resource.Metric(namespace, name)
            metric.put_data(
                Namespace=namespace,
                MetricData=[
                    {
                        "MetricName": name,
                        "Timestamp": timestamp,
                        "Values": data_set["values"],
                        "Counts": data_set["counts"],
                        "Unit": unit,
                    }
                ],
            )
            logger.info("Put data set for metric %s.%s.", namespace, name)
        except ClientError:
            logger.exception("Couldn't put data set for metric %s.%s.", namespace, name)
            raise
```
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/PutMetricData)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Mengelola metrik dan alarm
<a name="cloudwatch_Usage_MetricsAlarms_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat alarm untuk menonton CloudWatch metrik.
+ Memasukkan data ke dalam metrik dan picu alarm.
+ Ambil data dari alarm.
+ Menghapus alarm.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch#code-examples). 
Buat kelas yang membungkus CloudWatch operasi.  

```
from datetime import datetime, timedelta
import logging
from pprint import pprint
import random
import time
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


class CloudWatchWrapper:
    """Encapsulates Amazon CloudWatch functions."""

    def __init__(self, cloudwatch_resource):
        """
        :param cloudwatch_resource: A Boto3 CloudWatch resource.
        """
        self.cloudwatch_resource = cloudwatch_resource


    def put_metric_data_set(self, namespace, name, timestamp, unit, data_set):
        """
        Sends a set of data to CloudWatch for a metric. All of the data in the set
        have the same timestamp and unit.

        :param namespace: The namespace of the metric.
        :param name: The name of the metric.
        :param timestamp: The UTC timestamp for the metric.
        :param unit: The unit of the metric.
        :param data_set: The set of data to send. This set is a dictionary that
                         contains a list of values and a list of corresponding counts.
                         The value and count lists must be the same length.
        """
        try:
            metric = self.cloudwatch_resource.Metric(namespace, name)
            metric.put_data(
                Namespace=namespace,
                MetricData=[
                    {
                        "MetricName": name,
                        "Timestamp": timestamp,
                        "Values": data_set["values"],
                        "Counts": data_set["counts"],
                        "Unit": unit,
                    }
                ],
            )
            logger.info("Put data set for metric %s.%s.", namespace, name)
        except ClientError:
            logger.exception("Couldn't put data set for metric %s.%s.", namespace, name)
            raise


    def create_metric_alarm(
        self,
        metric_namespace,
        metric_name,
        alarm_name,
        stat_type,
        period,
        eval_periods,
        threshold,
        comparison_op,
    ):
        """
        Creates an alarm that watches a metric.

        :param metric_namespace: The namespace of the metric.
        :param metric_name: The name of the metric.
        :param alarm_name: The name of the alarm.
        :param stat_type: The type of statistic the alarm watches.
        :param period: The period in which metric data are grouped to calculate
                       statistics.
        :param eval_periods: The number of periods that the metric must be over the
                             alarm threshold before the alarm is set into an alarmed
                             state.
        :param threshold: The threshold value to compare against the metric statistic.
        :param comparison_op: The comparison operation used to compare the threshold
                              against the metric.
        :return: The newly created alarm.
        """
        try:
            metric = self.cloudwatch_resource.Metric(metric_namespace, metric_name)
            alarm = metric.put_alarm(
                AlarmName=alarm_name,
                Statistic=stat_type,
                Period=period,
                EvaluationPeriods=eval_periods,
                Threshold=threshold,
                ComparisonOperator=comparison_op,
            )
            logger.info(
                "Added alarm %s to track metric %s.%s.",
                alarm_name,
                metric_namespace,
                metric_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't add alarm %s to metric %s.%s",
                alarm_name,
                metric_namespace,
                metric_name,
            )
            raise
        else:
            return alarm


    def put_metric_data(self, namespace, name, value, unit):
        """
        Sends a single data value to CloudWatch for a metric. This metric is given
        a timestamp of the current UTC time.

        :param namespace: The namespace of the metric.
        :param name: The name of the metric.
        :param value: The value of the metric.
        :param unit: The unit of the metric.
        """
        try:
            metric = self.cloudwatch_resource.Metric(namespace, name)
            metric.put_data(
                Namespace=namespace,
                MetricData=[{"MetricName": name, "Value": value, "Unit": unit}],
            )
            logger.info("Put data for metric %s.%s", namespace, name)
        except ClientError:
            logger.exception("Couldn't put data for metric %s.%s", namespace, name)
            raise


    def get_metric_statistics(self, namespace, name, start, end, period, stat_types):
        """
        Gets statistics for a metric within a specified time span. Metrics are grouped
        into the specified period.

        :param namespace: The namespace of the metric.
        :param name: The name of the metric.
        :param start: The UTC start time of the time span to retrieve.
        :param end: The UTC end time of the time span to retrieve.
        :param period: The period, in seconds, in which to group metrics. The period
                       must match the granularity of the metric, which depends on
                       the metric's age. For example, metrics that are older than
                       three hours have a one-minute granularity, so the period must
                       be at least 60 and must be a multiple of 60.
        :param stat_types: The type of statistics to retrieve, such as average value
                           or maximum value.
        :return: The retrieved statistics for the metric.
        """
        try:
            metric = self.cloudwatch_resource.Metric(namespace, name)
            stats = metric.get_statistics(
                StartTime=start, EndTime=end, Period=period, Statistics=stat_types
            )
            logger.info(
                "Got %s statistics for %s.", len(stats["Datapoints"]), stats["Label"]
            )
        except ClientError:
            logger.exception("Couldn't get statistics for %s.%s.", namespace, name)
            raise
        else:
            return stats


    def get_metric_alarms(self, metric_namespace, metric_name):
        """
        Gets the alarms that are currently watching the specified metric.

        :param metric_namespace: The namespace of the metric.
        :param metric_name: The name of the metric.
        :returns: An iterator that yields the alarms.
        """
        metric = self.cloudwatch_resource.Metric(metric_namespace, metric_name)
        alarm_iter = metric.alarms.all()
        logger.info("Got alarms for metric %s.%s.", metric_namespace, metric_name)
        return alarm_iter


    def delete_metric_alarms(self, metric_namespace, metric_name):
        """
        Deletes all of the alarms that are currently watching the specified metric.

        :param metric_namespace: The namespace of the metric.
        :param metric_name: The name of the metric.
        """
        try:
            metric = self.cloudwatch_resource.Metric(metric_namespace, metric_name)
            metric.alarms.delete()
            logger.info(
                "Deleted alarms for metric %s.%s.", metric_namespace, metric_name
            )
        except ClientError:
            logger.exception(
                "Couldn't delete alarms for metric %s.%s.",
                metric_namespace,
                metric_name,
            )
            raise
```
Gunakan kelas pembungkus untuk memasukkan data ke dalam metrik, memicu alarm yang mengawasi metrik, dan ambil data dari alarm.  

```
def usage_demo():
    print("-" * 88)
    print("Welcome to the Amazon CloudWatch metrics and alarms demo!")
    print("-" * 88)

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    cw_wrapper = CloudWatchWrapper(boto3.resource("cloudwatch"))

    minutes = 20
    metric_namespace = "doc-example-metric"
    metric_name = "page_views"
    start = datetime.utcnow() - timedelta(minutes=minutes)
    print(
        f"Putting data into metric {metric_namespace}.{metric_name} spanning the "
        f"last {minutes} minutes."
    )
    for offset in range(0, minutes):
        stamp = start + timedelta(minutes=offset)
        cw_wrapper.put_metric_data_set(
            metric_namespace,
            metric_name,
            stamp,
            "Count",
            {
                "values": [
                    random.randint(bound, bound * 2)
                    for bound in range(offset + 1, offset + 11)
                ],
                "counts": [random.randint(1, offset + 1) for _ in range(10)],
            },
        )

    alarm_name = "high_page_views"
    period = 60
    eval_periods = 2
    print(f"Creating alarm {alarm_name} for metric {metric_name}.")
    alarm = cw_wrapper.create_metric_alarm(
        metric_namespace,
        metric_name,
        alarm_name,
        "Maximum",
        period,
        eval_periods,
        100,
        "GreaterThanThreshold",
    )
    print(f"Alarm ARN is {alarm.alarm_arn}.")
    print(f"Current alarm state is: {alarm.state_value}.")

    print(
        f"Sending data to trigger the alarm. This requires data over the threshold "
        f"for {eval_periods} periods of {period} seconds each."
    )
    while alarm.state_value == "INSUFFICIENT_DATA":
        print("Sending data for the metric.")
        cw_wrapper.put_metric_data(
            metric_namespace, metric_name, random.randint(100, 200), "Count"
        )
        alarm.load()
        print(f"Current alarm state is: {alarm.state_value}.")
        if alarm.state_value == "INSUFFICIENT_DATA":
            print(f"Waiting for {period} seconds...")
            time.sleep(period)
        else:
            print("Wait for a minute for eventual consistency of metric data.")
            time.sleep(period)
            if alarm.state_value == "OK":
                alarm.load()
                print(f"Current alarm state is: {alarm.state_value}.")

    print(
        f"Getting data for metric {metric_namespace}.{metric_name} during timespan "
        f"of {start} to {datetime.utcnow()} (times are UTC)."
    )
    stats = cw_wrapper.get_metric_statistics(
        metric_namespace,
        metric_name,
        start,
        datetime.utcnow(),
        60,
        ["Average", "Minimum", "Maximum"],
    )
    print(
        f"Got {len(stats['Datapoints'])} data points for metric "
        f"{metric_namespace}.{metric_name}."
    )
    pprint(sorted(stats["Datapoints"], key=lambda x: x["Timestamp"]))

    print(f"Getting alarms for metric {metric_name}.")
    alarms = cw_wrapper.get_metric_alarms(metric_namespace, metric_name)
    for alarm in alarms:
        print(f"Alarm {alarm.name} is currently in state {alarm.state_value}.")

    print(f"Deleting alarms for metric {metric_name}.")
    cw_wrapper.delete_metric_alarms(metric_namespace, metric_name)

    print("Thanks for watching!")
    print("-" * 88)
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik berikut ini di *SDK AWS untuk Referensi API Python (Boto3)*.
  + [DeleteAlarms](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/DeleteAlarms)
  + [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/DescribeAlarmsForMetric)
  + [DisableAlarmActions](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/DisableAlarmActions)
  + [EnableAlarmActions](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/EnableAlarmActions)
  + [GetMetricStatistics](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/GetMetricStatistics)
  + [ListMetrics](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/ListMetrics)
  + [PutMetricAlarm](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/PutMetricAlarm)
  + [PutMetricData](https://docs.aws.amazon.com/goto/boto3/monitoring-2010-08-01/PutMetricData)

# CloudWatch Contoh log menggunakan SDK for Python (Boto3)
<a name="python_3_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) With CloudWatch Logs.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `GetQueryResults`
<a name="cloudwatch-logs_GetQueryResults_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueryResults`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch-logs#code-examples). 

```
    def _wait_for_query_results(self, client, query_id):
        """
        Waits for the query to complete and retrieves the results.

        :param query_id: The ID of the initiated query.
        :type query_id: str
        :return: A list containing the results of the query.
        :rtype: list
        """
        while True:
            time.sleep(1)
            results = client.get_query_results(queryId=query_id)
            if results["status"] in [
                "Complete",
                "Failed",
                "Cancelled",
                "Timeout",
                "Unknown",
            ]:
                return results.get("results", [])
```
+  Untuk detail API, lihat [GetQueryResults](https://docs.aws.amazon.com/goto/boto3/logs-2014-03-28/GetQueryResults)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartLiveTail`
<a name="cloudwatch-logs_StartLiveTail_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartLiveTail`.

**SDK untuk Python (Boto3)**  
Sertakan file-file yang diperlukan.  

```
import boto3 
import time
from datetime import datetime
```
Mulai sesi Live Tail.  

```
    # Initialize the client
    client = boto3.client('logs')

    start_time = time.time()

    try:
        response = client.start_live_tail(
            logGroupIdentifiers=log_group_identifiers,
            logStreamNames=log_streams,
            logEventFilterPattern=filter_pattern
        )
        event_stream = response['responseStream']
        # Handle the events streamed back in the response
        for event in event_stream:
            # Set a timeout to close the stream.
            # This will end the Live Tail session.
            if (time.time() - start_time >= 10):
                event_stream.close()
                break
            # Handle when session is started
            if 'sessionStart' in event:
                session_start_event = event['sessionStart']
                print(session_start_event)
            # Handle when log event is given in a session update
            elif 'sessionUpdate' in event:
                log_events = event['sessionUpdate']['sessionResults']
                for log_event in log_events:
                    print('[{date}] {log}'.format(date=datetime.fromtimestamp(log_event['timestamp']/1000),log=log_event['message']))
            else:
                # On-stream exceptions are captured here
                raise RuntimeError(str(event))
    except Exception as e:
        print(e)
```
+  Untuk detail API, lihat [StartLiveTail](https://docs.aws.amazon.com/goto/boto3/logs-2014-03-28/StartLiveTail)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartQuery`
<a name="cloudwatch-logs_StartQuery_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartQuery`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch-logs#code-examples). 

```
    def perform_query(self, date_range):
        """
        Performs the actual CloudWatch log query.

        :param date_range: A tuple representing the start and end datetime for the query.
        :type date_range: tuple
        :return: A list containing the query results.
        :rtype: list
        """
        client = boto3.client("logs")
        try:
            try:
                start_time = round(
                    self.date_utilities.convert_iso8601_to_unix_timestamp(date_range[0])
                )
                end_time = round(
                    self.date_utilities.convert_iso8601_to_unix_timestamp(date_range[1])
                )
                response = client.start_query(
                    logGroupName=self.log_group,
                    startTime=start_time,
                    endTime=end_time,
                    queryString=self.query_string,
                    limit=self.limit,
                )
                query_id = response["queryId"]
            except client.exceptions.ResourceNotFoundException as e:
                raise DateOutOfBoundsError(f"Resource not found: {e}")
            while True:
                time.sleep(1)
                results = client.get_query_results(queryId=query_id)
                if results["status"] in [
                    "Complete",
                    "Failed",
                    "Cancelled",
                    "Timeout",
                    "Unknown",
                ]:
                    return results.get("results", [])
        except DateOutOfBoundsError:
            return []

    def _initiate_query(self, client, date_range, max_logs):
        """
        Initiates the CloudWatch logs query.

        :param date_range: A tuple representing the start and end datetime for the query.
        :type date_range: tuple
        :param max_logs: The maximum number of logs to retrieve.
        :type max_logs: int
        :return: The query ID as a string.
        :rtype: str
        """
        try:
            start_time = round(
                self.date_utilities.convert_iso8601_to_unix_timestamp(date_range[0])
            )
            end_time = round(
                self.date_utilities.convert_iso8601_to_unix_timestamp(date_range[1])
            )
            response = client.start_query(
                logGroupName=self.log_group,
                startTime=start_time,
                endTime=end_time,
                queryString=self.query_string,
                limit=max_logs,
            )
            return response["queryId"]
        except client.exceptions.ResourceNotFoundException as e:
            raise DateOutOfBoundsError(f"Resource not found: {e}")
```
+  Untuk detail API, lihat [StartQuery](https://docs.aws.amazon.com/goto/boto3/logs-2014-03-28/StartQuery)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Jalankan kueri besar
<a name="cloudwatch-logs_Scenario_BigQuery_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan CloudWatch Log untuk menanyakan lebih dari 10.000 catatan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cloudwatch-logs/scenarios/large-query#code-examples). 
File ini memanggil modul contoh untuk mengelola CloudWatch kueri melebihi 10.000 hasil.  

```
import logging
import os
import sys

import boto3
from botocore.config import Config

from cloudwatch_query import CloudWatchQuery
from date_utilities import DateUtilities

# Configure logging at the module level.
logging.basicConfig(
    level=logging.INFO,
    format="%(asctime)s - %(levelname)s - %(filename)s:%(lineno)d - %(message)s",
)

DEFAULT_QUERY_LOG_GROUP = "/workflows/cloudwatch-logs/large-query"


class CloudWatchLogsQueryRunner:
    def __init__(self):
        """
        Initializes the CloudWatchLogsQueryRunner class by setting up date utilities
        and creating a CloudWatch Logs client with retry configuration.
        """
        self.date_utilities = DateUtilities()
        self.cloudwatch_logs_client = self.create_cloudwatch_logs_client()

    def create_cloudwatch_logs_client(self):
        """
        Creates and returns a CloudWatch Logs client with a specified retry configuration.

        :return: A CloudWatch Logs client instance.
        :rtype: boto3.client
        """
        try:
            return boto3.client("logs", config=Config(retries={"max_attempts": 10}))
        except Exception as e:
            logging.error(f"Failed to create CloudWatch Logs client: {e}")
            sys.exit(1)

    def fetch_environment_variables(self):
        """
        Fetches and validates required environment variables for query start and end dates.
        Fetches the environment variable for log group, returning the default value if it
        does not exist.

        :return: Tuple of query start date and end date as integers and the log group.
        :rtype: tuple
        :raises SystemExit: If required environment variables are missing or invalid.
        """
        try:
            query_start_date = int(os.environ["QUERY_START_DATE"])
            query_end_date = int(os.environ["QUERY_END_DATE"])
        except KeyError:
            logging.error(
                "Both QUERY_START_DATE and QUERY_END_DATE environment variables are required."
            )
            sys.exit(1)
        except ValueError as e:
            logging.error(f"Error parsing date environment variables: {e}")
            sys.exit(1)
        
        try:
            log_group = os.environ["QUERY_LOG_GROUP"]
        except KeyError:
            logging.warning("No QUERY_LOG_GROUP environment variable, using default value")
            log_group = DEFAULT_QUERY_LOG_GROUP

        return query_start_date, query_end_date, log_group

    def convert_dates_to_iso8601(self, start_date, end_date):
        """
        Converts UNIX timestamp dates to ISO 8601 format using DateUtilities.

        :param start_date: The start date in UNIX timestamp.
        :type start_date: int
        :param end_date: The end date in UNIX timestamp.
        :type end_date: int
        :return: Start and end dates in ISO 8601 format.
        :rtype: tuple
        """
        start_date_iso8601 = self.date_utilities.convert_unix_timestamp_to_iso8601(
            start_date
        )
        end_date_iso8601 = self.date_utilities.convert_unix_timestamp_to_iso8601(
            end_date
        )
        return start_date_iso8601, end_date_iso8601

    def execute_query(
        self,
        start_date_iso8601,
        end_date_iso8601,
        log_group="/workflows/cloudwatch-logs/large-query",
        query="fields @timestamp, @message | sort @timestamp asc"
    ):
        """
        Creates a CloudWatchQuery instance and executes the query with provided date range.

        :param start_date_iso8601: The start date in ISO 8601 format.
        :type start_date_iso8601: str
        :param end_date_iso8601: The end date in ISO 8601 format.
        :type end_date_iso8601: str
        :param log_group: Log group to search: "/workflows/cloudwatch-logs/large-query"
        :type log_group: str
        :param query: Query string to pass to the CloudWatchQuery instance
        :type query: str
        """
        cloudwatch_query = CloudWatchQuery(
            log_group=log_group,
            query_string=query
        )
        cloudwatch_query.query_logs((start_date_iso8601, end_date_iso8601))
        logging.info("Query executed successfully.")
        logging.info(
            f"Queries completed in {cloudwatch_query.query_duration} seconds. Total logs found: {len(cloudwatch_query.query_results)}"
        )


def main():
    """
    Main function to start a recursive CloudWatch logs query.
    Fetches required environment variables, converts dates, and executes the query.
    """
    logging.info("Starting a recursive CloudWatch logs query...")
    runner = CloudWatchLogsQueryRunner()
    query_start_date, query_end_date, log_group = runner.fetch_environment_variables()
    start_date_iso8601 = DateUtilities.convert_unix_timestamp_to_iso8601(
        query_start_date
    )
    end_date_iso8601 = DateUtilities.convert_unix_timestamp_to_iso8601(query_end_date)
    runner.execute_query(start_date_iso8601, end_date_iso8601, log_group=log_group)


if __name__ == "__main__":
    main()
```
Modul ini memproses CloudWatch kueri melebihi 10.000 hasil.  

```
import logging
import time
from datetime import datetime
import threading
import boto3

from date_utilities import DateUtilities

DEFAULT_QUERY = "fields @timestamp, @message | sort @timestamp asc"
DEFAULT_LOG_GROUP = "/workflows/cloudwatch-logs/large-query"

class DateOutOfBoundsError(Exception):
    """Exception raised when the date range for a query is out of bounds."""

    pass


class CloudWatchQuery:
    """
    A class to query AWS CloudWatch logs within a specified date range.

    :vartype date_range: tuple
    :ivar limit: Maximum number of log entries to return.
    :vartype limit: int
    :log_group str: Name of the log group to query
    :query_string str: query
    """

    def __init__(self, log_group: str = DEFAULT_LOG_GROUP, query_string: str=DEFAULT_QUERY) -> None:
        self.lock = threading.Lock()
        self.log_group = log_group
        self.query_string = query_string
        self.query_results = []
        self.query_duration = None
        self.datetime_format = "%Y-%m-%d %H:%M:%S.%f"
        self.date_utilities = DateUtilities()
        self.limit = 10000

    def query_logs(self, date_range):
        """
        Executes a CloudWatch logs query for a specified date range and calculates the execution time of the query.

        :return: A batch of logs retrieved from the CloudWatch logs query.
        :rtype: list
        """
        start_time = datetime.now()

        start_date, end_date = self.date_utilities.normalize_date_range_format(
            date_range, from_format="unix_timestamp", to_format="datetime"
        )

        logging.info(
            f"Original query:"
            f"\n       START:     {start_date}"
            f"\n       END:       {end_date}"
            f"\n       LOG GROUP: {self.log_group}"
        )
        self.recursive_query((start_date, end_date))
        end_time = datetime.now()
        self.query_duration = (end_time - start_time).total_seconds()

    def recursive_query(self, date_range):
        """
        Processes logs within a given date range, fetching batches of logs recursively if necessary.

        :param date_range: The date range to fetch logs for, specified as a tuple (start_timestamp, end_timestamp).
        :type date_range: tuple
        :return: None if the recursive fetching is continued or stops when the final batch of logs is processed.
                 Although it doesn't explicitly return the query results, this method accumulates all fetched logs
                 in the `self.query_results` attribute.
        :rtype: None
        """
        batch_of_logs = self.perform_query(date_range)
        # Add the batch to the accumulated logs
        with self.lock:
            self.query_results.extend(batch_of_logs)
        if len(batch_of_logs) == self.limit:
            logging.info(f"Fetched {self.limit}, checking for more...")
            most_recent_log = self.find_most_recent_log(batch_of_logs)
            most_recent_log_timestamp = next(
                item["value"]
                for item in most_recent_log
                if item["field"] == "@timestamp"
            )
            new_range = (most_recent_log_timestamp, date_range[1])
            midpoint = self.date_utilities.find_middle_time(new_range)

            first_half_thread = threading.Thread(
                target=self.recursive_query,
                args=((most_recent_log_timestamp, midpoint),),
            )
            second_half_thread = threading.Thread(
                target=self.recursive_query, args=((midpoint, date_range[1]),)
            )

            first_half_thread.start()
            second_half_thread.start()

            first_half_thread.join()
            second_half_thread.join()

    def find_most_recent_log(self, logs):
        """
        Search a list of log items and return most recent log entry.
        :param logs: A list of logs to analyze.
        :return: log
        :type :return List containing log item details
        """
        most_recent_log = None
        most_recent_date = "1970-01-01 00:00:00.000"

        for log in logs:
            for item in log:
                if item["field"] == "@timestamp":
                    logging.debug(f"Compared: {item['value']} to {most_recent_date}")
                    if (
                        self.date_utilities.compare_dates(
                            item["value"], most_recent_date
                        )
                        == item["value"]
                    ):
                        logging.debug(f"New most recent: {item['value']}")
                        most_recent_date = item["value"]
                        most_recent_log = log
        logging.info(f"Most recent log date of batch: {most_recent_date}")
        return most_recent_log

    def perform_query(self, date_range):
        """
        Performs the actual CloudWatch log query.

        :param date_range: A tuple representing the start and end datetime for the query.
        :type date_range: tuple
        :return: A list containing the query results.
        :rtype: list
        """
        client = boto3.client("logs")
        try:
            try:
                start_time = round(
                    self.date_utilities.convert_iso8601_to_unix_timestamp(date_range[0])
                )
                end_time = round(
                    self.date_utilities.convert_iso8601_to_unix_timestamp(date_range[1])
                )
                response = client.start_query(
                    logGroupName=self.log_group,
                    startTime=start_time,
                    endTime=end_time,
                    queryString=self.query_string,
                    limit=self.limit,
                )
                query_id = response["queryId"]
            except client.exceptions.ResourceNotFoundException as e:
                raise DateOutOfBoundsError(f"Resource not found: {e}")
            while True:
                time.sleep(1)
                results = client.get_query_results(queryId=query_id)
                if results["status"] in [
                    "Complete",
                    "Failed",
                    "Cancelled",
                    "Timeout",
                    "Unknown",
                ]:
                    return results.get("results", [])
        except DateOutOfBoundsError:
            return []

    def _initiate_query(self, client, date_range, max_logs):
        """
        Initiates the CloudWatch logs query.

        :param date_range: A tuple representing the start and end datetime for the query.
        :type date_range: tuple
        :param max_logs: The maximum number of logs to retrieve.
        :type max_logs: int
        :return: The query ID as a string.
        :rtype: str
        """
        try:
            start_time = round(
                self.date_utilities.convert_iso8601_to_unix_timestamp(date_range[0])
            )
            end_time = round(
                self.date_utilities.convert_iso8601_to_unix_timestamp(date_range[1])
            )
            response = client.start_query(
                logGroupName=self.log_group,
                startTime=start_time,
                endTime=end_time,
                queryString=self.query_string,
                limit=max_logs,
            )
            return response["queryId"]
        except client.exceptions.ResourceNotFoundException as e:
            raise DateOutOfBoundsError(f"Resource not found: {e}")


    def _wait_for_query_results(self, client, query_id):
        """
        Waits for the query to complete and retrieves the results.

        :param query_id: The ID of the initiated query.
        :type query_id: str
        :return: A list containing the results of the query.
        :rtype: list
        """
        while True:
            time.sleep(1)
            results = client.get_query_results(queryId=query_id)
            if results["status"] in [
                "Complete",
                "Failed",
                "Cancelled",
                "Timeout",
                "Unknown",
            ]:
                return results.get("results", [])
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [GetQueryResults](https://docs.aws.amazon.com/goto/boto3/logs-2014-03-28/GetQueryResults)
  + [StartQuery](https://docs.aws.amazon.com/goto/boto3/logs-2014-03-28/StartQuery)

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara mendaftarkan AWS Lambda fungsi sebagai target EventBridge acara Amazon terjadwal. Penangan Lambda menulis pesan ramah dan data peristiwa lengkap ke Amazon CloudWatch Logs untuk pengambilan nanti.   
+ Menyebarkan fungsi Lambda.
+ Membuat acara EventBridge terjadwal dan menjadikan fungsi Lambda sebagai target.
+ Memberikan izin untuk membiarkan EventBridge menjalankan fungsi Lambda.
+ Mencetak data terbaru dari CloudWatch Log untuk menampilkan hasil pemanggilan terjadwal.
+ Membersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

# Contoh Identitas Amazon Cognito menggunakan SDK for Python (Boto3)
<a name="python_3_cognito-identity_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Identitas Cognito AWS SDK untuk Python (Boto3) With Amazon.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan Amazon Textract untuk mendeteksi elemen teks, formulir, dan tabel dalam gambar dokumen. AWS SDK untuk Python (Boto3) Gambar input dan output Amazon Textract ditampilkan dalam aplikasi Tkinter yang memungkinkan Anda menjelajahi elemen yang terdeteksi.   
+ Kirim gambar dokumen ke Amazon Textract dan jelajahi output elemen yang terdeteksi.
+ Kirim gambar langsung ke Amazon Textract atau melalui bucket Amazon Simple Storage Service (Amazon S3).
+ Gunakan asinkron APIs untuk memulai pekerjaan yang memublikasikan notifikasi ke topik Simple Notification Service Amazon (Amazon SNS) saat pekerjaan selesai.
+ Lakukan polling pada antrean Amazon Simple Queue Service (Amazon SQS) untuk mendapatkan pesan penyelesaian tugas dan tampilkan hasilnya.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_explorer).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK for Python (Boto3)
<a name="python_3_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Penyedia Identitas Amazon Cognito AWS SDK untuk Python (Boto3) dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon Cognito
<a name="cognito-identity-provider_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Cognito.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
import boto3

# Create a Cognito Identity Provider client
cognitoidp = boto3.client("cognito-idp")

# Initialize a paginator for the list_user_pools operation
paginator = cognitoidp.get_paginator("list_user_pools")

# Create a PageIterator from the paginator
page_iterator = paginator.paginate(MaxResults=10)

# Initialize variables for pagination
user_pools = []

# Handle pagination
for page in page_iterator:
    user_pools.extend(page.get("UserPools", []))

# Print the list of user pools
print("User Pools for the account:")
if user_pools:
    for pool in user_pools:
        print(f"Name: {pool['Name']}, ID: {pool['Id']}")
else:
    print("No user pools found.")
```
+  Untuk detail API, lihat [ListUserPools](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ListUserPools)di *AWS SDK for Python (Boto3) Referensi* API. 

## Tindakan
<a name="actions"></a>

### `AdminGetUser`
<a name="cognito-identity-provider_AdminGetUser_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminGetUser`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def sign_up_user(self, user_name, password, user_email):
        """
        Signs up a new user with Amazon Cognito. This action prompts Amazon Cognito
        to send an email to the specified email address. The email contains a code that
        can be used to confirm the user.

        When the user already exists, the user status is checked to determine whether
        the user has been confirmed.

        :param user_name: The user name that identifies the new user.
        :param password: The password for the new user.
        :param user_email: The email address for the new user.
        :return: True when the user is already confirmed with Amazon Cognito.
                 Otherwise, false.
        """
        try:
            kwargs = {
                "ClientId": self.client_id,
                "Username": user_name,
                "Password": password,
                "UserAttributes": [{"Name": "email", "Value": user_email}],
            }
            if self.client_secret is not None:
                kwargs["SecretHash"] = self._secret_hash(user_name)
            response = self.cognito_idp_client.sign_up(**kwargs)
            confirmed = response["UserConfirmed"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "UsernameExistsException":
                response = self.cognito_idp_client.admin_get_user(
                    UserPoolId=self.user_pool_id, Username=user_name
                )
                logger.warning(
                    "User %s exists and is %s.", user_name, response["UserStatus"]
                )
                confirmed = response["UserStatus"] == "CONFIRMED"
            else:
                logger.error(
                    "Couldn't sign up %s. Here's why: %s: %s",
                    user_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return confirmed
```
+  Untuk detail API, lihat [AdminGetUser](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/AdminGetUser)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AdminInitiateAuth`
<a name="cognito-identity-provider_AdminInitiateAuth_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminInitiateAuth`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def start_sign_in(self, user_name, password):
        """
        Starts the sign-in process for a user by using administrator credentials.
        This method of signing in is appropriate for code running on a secure server.

        If the user pool is configured to require MFA and this is the first sign-in
        for the user, Amazon Cognito returns a challenge response to set up an
        MFA application. When this occurs, this function gets an MFA secret from
        Amazon Cognito and returns it to the caller.

        :param user_name: The name of the user to sign in.
        :param password: The user's password.
        :return: The result of the sign-in attempt. When sign-in is successful, this
                 returns an access token that can be used to get AWS credentials. Otherwise,
                 Amazon Cognito returns a challenge to set up an MFA application,
                 or a challenge to enter an MFA code from a registered MFA application.
        """
        try:
            kwargs = {
                "UserPoolId": self.user_pool_id,
                "ClientId": self.client_id,
                "AuthFlow": "ADMIN_USER_PASSWORD_AUTH",
                "AuthParameters": {"USERNAME": user_name, "PASSWORD": password},
            }
            if self.client_secret is not None:
                kwargs["AuthParameters"]["SECRET_HASH"] = self._secret_hash(user_name)
            response = self.cognito_idp_client.admin_initiate_auth(**kwargs)
            challenge_name = response.get("ChallengeName", None)
            if challenge_name == "MFA_SETUP":
                if (
                    "SOFTWARE_TOKEN_MFA"
                    in response["ChallengeParameters"]["MFAS_CAN_SETUP"]
                ):
                    response.update(self.get_mfa_secret(response["Session"]))
                else:
                    raise RuntimeError(
                        "The user pool requires MFA setup, but the user pool is not "
                        "configured for TOTP MFA. This example requires TOTP MFA."
                    )
        except ClientError as err:
            logger.error(
                "Couldn't start sign in for %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            response.pop("ResponseMetadata", None)
            return response
```
+  Untuk detail API, lihat [AdminInitiateAuth](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/AdminInitiateAuth)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AdminRespondToAuthChallenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminRespondToAuthChallenge`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 
Menanggapi tantangan MFA dengan menyediakan kode yang dihasilkan oleh aplikasi MFA terkait.  

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def respond_to_mfa_challenge(self, user_name, session, mfa_code):
        """
        Responds to a challenge for an MFA code. This completes the second step of
        a two-factor sign-in. When sign-in is successful, it returns an access token
        that can be used to get AWS credentials from Amazon Cognito.

        :param user_name: The name of the user who is signing in.
        :param session: Session information returned from a previous call to initiate
                        authentication.
        :param mfa_code: A code generated by the associated MFA application.
        :return: The result of the authentication. When successful, this contains an
                 access token for the user.
        """
        try:
            kwargs = {
                "UserPoolId": self.user_pool_id,
                "ClientId": self.client_id,
                "ChallengeName": "SOFTWARE_TOKEN_MFA",
                "Session": session,
                "ChallengeResponses": {
                    "USERNAME": user_name,
                    "SOFTWARE_TOKEN_MFA_CODE": mfa_code,
                },
            }
            if self.client_secret is not None:
                kwargs["ChallengeResponses"]["SECRET_HASH"] = self._secret_hash(
                    user_name
                )
            response = self.cognito_idp_client.admin_respond_to_auth_challenge(**kwargs)
            auth_result = response["AuthenticationResult"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ExpiredCodeException":
                logger.warning(
                    "Your MFA code has expired or has been used already. You might have "
                    "to wait a few seconds until your app shows you a new code."
                )
            else:
                logger.error(
                    "Couldn't respond to mfa challenge for %s. Here's why: %s: %s",
                    user_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return auth_result
```
+  Untuk detail API, lihat [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/AdminRespondToAuthChallenge)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AssociateSoftwareToken`
<a name="cognito-identity-provider_AssociateSoftwareToken_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateSoftwareToken`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def get_mfa_secret(self, session):
        """
        Gets a token that can be used to associate an MFA application with the user.

        :param session: Session information returned from a previous call to initiate
                        authentication.
        :return: An MFA token that can be used to set up an MFA application.
        """
        try:
            response = self.cognito_idp_client.associate_software_token(Session=session)
        except ClientError as err:
            logger.error(
                "Couldn't get MFA secret. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            response.pop("ResponseMetadata", None)
            return response
```
+  Untuk detail API, lihat [AssociateSoftwareToken](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/AssociateSoftwareToken)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ConfirmDevice`
<a name="cognito-identity-provider_ConfirmDevice_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmDevice`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def confirm_mfa_device(
        self,
        user_name,
        device_key,
        device_group_key,
        device_password,
        access_token,
        aws_srp,
    ):
        """
        Confirms an MFA device to be tracked by Amazon Cognito. When a device is
        tracked, its key and password can be used to sign in without requiring a new
        MFA code from the MFA application.

        :param user_name: The user that is associated with the device.
        :param device_key: The key of the device, returned by Amazon Cognito.
        :param device_group_key: The group key of the device, returned by Amazon Cognito.
        :param device_password: The password that is associated with the device.
        :param access_token: The user's access token.
        :param aws_srp: A class that helps with Secure Remote Password (SRP)
                        calculations. The scenario associated with this example uses
                        the warrant package.
        :return: True when the user must confirm the device. Otherwise, False. When
                 False, the device is automatically confirmed and tracked.
        """
        srp_helper = aws_srp.AWSSRP(
            username=user_name,
            password=device_password,
            pool_id="_",
            client_id=self.client_id,
            client_secret=None,
            client=self.cognito_idp_client,
        )
        device_and_pw = f"{device_group_key}{device_key}:{device_password}"
        device_and_pw_hash = aws_srp.hash_sha256(device_and_pw.encode("utf-8"))
        salt = aws_srp.pad_hex(aws_srp.get_random(16))
        x_value = aws_srp.hex_to_long(aws_srp.hex_hash(salt + device_and_pw_hash))
        verifier = aws_srp.pad_hex(pow(srp_helper.val_g, x_value, srp_helper.big_n))
        device_secret_verifier_config = {
            "PasswordVerifier": base64.standard_b64encode(
                bytearray.fromhex(verifier)
            ).decode("utf-8"),
            "Salt": base64.standard_b64encode(bytearray.fromhex(salt)).decode("utf-8"),
        }
        try:
            response = self.cognito_idp_client.confirm_device(
                AccessToken=access_token,
                DeviceKey=device_key,
                DeviceSecretVerifierConfig=device_secret_verifier_config,
            )
            user_confirm = response["UserConfirmationNecessary"]
        except ClientError as err:
            logger.error(
                "Couldn't confirm mfa device %s. Here's why: %s: %s",
                device_key,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return user_confirm
```
+  Untuk detail API, lihat [ConfirmDevice](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ConfirmDevice)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ConfirmSignUp`
<a name="cognito-identity-provider_ConfirmSignUp_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSignUp`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def confirm_user_sign_up(self, user_name, confirmation_code):
        """
        Confirms a previously created user. A user must be confirmed before they
        can sign in to Amazon Cognito.

        :param user_name: The name of the user to confirm.
        :param confirmation_code: The confirmation code sent to the user's registered
                                  email address.
        :return: True when the confirmation succeeds.
        """
        try:
            kwargs = {
                "ClientId": self.client_id,
                "Username": user_name,
                "ConfirmationCode": confirmation_code,
            }
            if self.client_secret is not None:
                kwargs["SecretHash"] = self._secret_hash(user_name)
            self.cognito_idp_client.confirm_sign_up(**kwargs)
        except ClientError as err:
            logger.error(
                "Couldn't confirm sign up for %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return True
```
+  Untuk detail API, lihat [ConfirmSignUp](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ConfirmSignUp)di *AWS SDK for Python (Boto3) Referensi* API. 

### `InitiateAuth`
<a name="cognito-identity-provider_InitiateAuth_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InitiateAuth`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 
Contoh ini menunjukkan cara memulai otentikasi dengan perangkat yang dilacak. Untuk menyelesaikan proses masuk, klien harus merespons tantangan Secure Remote Password (SRP) dengan benar.  

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def sign_in_with_tracked_device(
        self,
        user_name,
        password,
        device_key,
        device_group_key,
        device_password,
        aws_srp,
    ):
        """
        Signs in to Amazon Cognito as a user who has a tracked device. Signing in
        with a tracked device lets a user sign in without entering a new MFA code.

        Signing in with a tracked device requires that the client respond to the SRP
        protocol. The scenario associated with this example uses the warrant package
        to help with SRP calculations.

        For more information on SRP, see https://en.wikipedia.org/wiki/Secure_Remote_Password_protocol.

        :param user_name: The user that is associated with the device.
        :param password: The user's password.
        :param device_key: The key of a tracked device.
        :param device_group_key: The group key of a tracked device.
        :param device_password: The password that is associated with the device.
        :param aws_srp: A class that helps with SRP calculations. The scenario
                        associated with this example uses the warrant package.
        :return: The result of the authentication. When successful, this contains an
                 access token for the user.
        """
        try:
            srp_helper = aws_srp.AWSSRP(
                username=user_name,
                password=device_password,
                pool_id="_",
                client_id=self.client_id,
                client_secret=None,
                client=self.cognito_idp_client,
            )

            response_init = self.cognito_idp_client.initiate_auth(
                ClientId=self.client_id,
                AuthFlow="USER_PASSWORD_AUTH",
                AuthParameters={
                    "USERNAME": user_name,
                    "PASSWORD": password,
                    "DEVICE_KEY": device_key,
                },
            )
            if response_init["ChallengeName"] != "DEVICE_SRP_AUTH":
                raise RuntimeError(
                    f"Expected DEVICE_SRP_AUTH challenge but got {response_init['ChallengeName']}."
                )

            auth_params = srp_helper.get_auth_params()
            auth_params["DEVICE_KEY"] = device_key
            response_auth = self.cognito_idp_client.respond_to_auth_challenge(
                ClientId=self.client_id,
                ChallengeName="DEVICE_SRP_AUTH",
                ChallengeResponses=auth_params,
            )
            if response_auth["ChallengeName"] != "DEVICE_PASSWORD_VERIFIER":
                raise RuntimeError(
                    f"Expected DEVICE_PASSWORD_VERIFIER challenge but got "
                    f"{response_init['ChallengeName']}."
                )

            challenge_params = response_auth["ChallengeParameters"]
            challenge_params["USER_ID_FOR_SRP"] = device_group_key + device_key
            cr = srp_helper.process_challenge(challenge_params, {"USERNAME": user_name})
            cr["USERNAME"] = user_name
            cr["DEVICE_KEY"] = device_key
            response_verifier = self.cognito_idp_client.respond_to_auth_challenge(
                ClientId=self.client_id,
                ChallengeName="DEVICE_PASSWORD_VERIFIER",
                ChallengeResponses=cr,
            )
            auth_tokens = response_verifier["AuthenticationResult"]
        except ClientError as err:
            logger.error(
                "Couldn't start client sign in for %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return auth_tokens
```
+  Untuk detail API, lihat [InitiateAuth](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/InitiateAuth)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListUsers`
<a name="cognito-identity-provider_ListUsers_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def list_users(self):
        """
        Returns a list of the users in the current user pool.

        :return: The list of users.
        """
        try:
            response = self.cognito_idp_client.list_users(UserPoolId=self.user_pool_id)
            users = response["Users"]
        except ClientError as err:
            logger.error(
                "Couldn't list users for %s. Here's why: %s: %s",
                self.user_pool_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return users
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ListUsers)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ResendConfirmationCode`
<a name="cognito-identity-provider_ResendConfirmationCode_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendConfirmationCode`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def resend_confirmation(self, user_name):
        """
        Prompts Amazon Cognito to resend an email with a new confirmation code.

        :param user_name: The name of the user who will receive the email.
        :return: Delivery information about where the email is sent.
        """
        try:
            kwargs = {"ClientId": self.client_id, "Username": user_name}
            if self.client_secret is not None:
                kwargs["SecretHash"] = self._secret_hash(user_name)
            response = self.cognito_idp_client.resend_confirmation_code(**kwargs)
            delivery = response["CodeDeliveryDetails"]
        except ClientError as err:
            logger.error(
                "Couldn't resend confirmation to %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return delivery
```
+  Untuk detail API, lihat [ResendConfirmationCode](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ResendConfirmationCode)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RespondToAuthChallenge`
<a name="cognito-identity-provider_RespondToAuthChallenge_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RespondToAuthChallenge`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 
Masuk dengan perangkat yang dilacak. Untuk menyelesaikan proses masuk, klien harus merespons tantangan Secure Remote Password (SRP) dengan benar.  

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def sign_in_with_tracked_device(
        self,
        user_name,
        password,
        device_key,
        device_group_key,
        device_password,
        aws_srp,
    ):
        """
        Signs in to Amazon Cognito as a user who has a tracked device. Signing in
        with a tracked device lets a user sign in without entering a new MFA code.

        Signing in with a tracked device requires that the client respond to the SRP
        protocol. The scenario associated with this example uses the warrant package
        to help with SRP calculations.

        For more information on SRP, see https://en.wikipedia.org/wiki/Secure_Remote_Password_protocol.

        :param user_name: The user that is associated with the device.
        :param password: The user's password.
        :param device_key: The key of a tracked device.
        :param device_group_key: The group key of a tracked device.
        :param device_password: The password that is associated with the device.
        :param aws_srp: A class that helps with SRP calculations. The scenario
                        associated with this example uses the warrant package.
        :return: The result of the authentication. When successful, this contains an
                 access token for the user.
        """
        try:
            srp_helper = aws_srp.AWSSRP(
                username=user_name,
                password=device_password,
                pool_id="_",
                client_id=self.client_id,
                client_secret=None,
                client=self.cognito_idp_client,
            )

            response_init = self.cognito_idp_client.initiate_auth(
                ClientId=self.client_id,
                AuthFlow="USER_PASSWORD_AUTH",
                AuthParameters={
                    "USERNAME": user_name,
                    "PASSWORD": password,
                    "DEVICE_KEY": device_key,
                },
            )
            if response_init["ChallengeName"] != "DEVICE_SRP_AUTH":
                raise RuntimeError(
                    f"Expected DEVICE_SRP_AUTH challenge but got {response_init['ChallengeName']}."
                )

            auth_params = srp_helper.get_auth_params()
            auth_params["DEVICE_KEY"] = device_key
            response_auth = self.cognito_idp_client.respond_to_auth_challenge(
                ClientId=self.client_id,
                ChallengeName="DEVICE_SRP_AUTH",
                ChallengeResponses=auth_params,
            )
            if response_auth["ChallengeName"] != "DEVICE_PASSWORD_VERIFIER":
                raise RuntimeError(
                    f"Expected DEVICE_PASSWORD_VERIFIER challenge but got "
                    f"{response_init['ChallengeName']}."
                )

            challenge_params = response_auth["ChallengeParameters"]
            challenge_params["USER_ID_FOR_SRP"] = device_group_key + device_key
            cr = srp_helper.process_challenge(challenge_params, {"USERNAME": user_name})
            cr["USERNAME"] = user_name
            cr["DEVICE_KEY"] = device_key
            response_verifier = self.cognito_idp_client.respond_to_auth_challenge(
                ClientId=self.client_id,
                ChallengeName="DEVICE_PASSWORD_VERIFIER",
                ChallengeResponses=cr,
            )
            auth_tokens = response_verifier["AuthenticationResult"]
        except ClientError as err:
            logger.error(
                "Couldn't start client sign in for %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return auth_tokens
```
+  Untuk detail API, lihat [RespondToAuthChallenge](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/RespondToAuthChallenge)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SignUp`
<a name="cognito-identity-provider_SignUp_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SignUp`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def sign_up_user(self, user_name, password, user_email):
        """
        Signs up a new user with Amazon Cognito. This action prompts Amazon Cognito
        to send an email to the specified email address. The email contains a code that
        can be used to confirm the user.

        When the user already exists, the user status is checked to determine whether
        the user has been confirmed.

        :param user_name: The user name that identifies the new user.
        :param password: The password for the new user.
        :param user_email: The email address for the new user.
        :return: True when the user is already confirmed with Amazon Cognito.
                 Otherwise, false.
        """
        try:
            kwargs = {
                "ClientId": self.client_id,
                "Username": user_name,
                "Password": password,
                "UserAttributes": [{"Name": "email", "Value": user_email}],
            }
            if self.client_secret is not None:
                kwargs["SecretHash"] = self._secret_hash(user_name)
            response = self.cognito_idp_client.sign_up(**kwargs)
            confirmed = response["UserConfirmed"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "UsernameExistsException":
                response = self.cognito_idp_client.admin_get_user(
                    UserPoolId=self.user_pool_id, Username=user_name
                )
                logger.warning(
                    "User %s exists and is %s.", user_name, response["UserStatus"]
                )
                confirmed = response["UserStatus"] == "CONFIRMED"
            else:
                logger.error(
                    "Couldn't sign up %s. Here's why: %s: %s",
                    user_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return confirmed
```
+  Untuk detail API, lihat [SignUp](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/SignUp)di *AWS SDK for Python (Boto3) Referensi* API. 

### `VerifySoftwareToken`
<a name="cognito-identity-provider_VerifySoftwareToken_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifySoftwareToken`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def verify_mfa(self, session, user_code):
        """
        Verify a new MFA application that is associated with a user.

        :param session: Session information returned from a previous call to initiate
                        authentication.
        :param user_code: A code generated by the associated MFA application.
        :return: Status that indicates whether the MFA application is verified.
        """
        try:
            response = self.cognito_idp_client.verify_software_token(
                Session=session, UserCode=user_code
            )
        except ClientError as err:
            logger.error(
                "Couldn't verify MFA. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            response.pop("ResponseMetadata", None)
            return response
```
+  Untuk detail API, lihat [VerifySoftwareToken](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/VerifySoftwareToken)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Mendaftar pengguna dengan kumpulan pengguna yang membutuhkan MFA
<a name="cognito-identity-provider_Scenario_SignUpUserWithMfa_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar dan konfirmasikan pengguna dengan nama pengguna, kata sandi, dan alamat email.
+ Siapkan otentikasi multi-faktor dengan mengaitkan aplikasi MFA dengan pengguna.
+ Masuk dengan menggunakan kata sandi dan kode MFA.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito#code-examples). 
Buat kelas yang membungkus fungsi Amazon Cognito yang digunakan dalam skenario.  

```
class CognitoIdentityProviderWrapper:
    """Encapsulates Amazon Cognito actions"""

    def __init__(self, cognito_idp_client, user_pool_id, client_id, client_secret=None):
        """
        :param cognito_idp_client: A Boto3 Amazon Cognito Identity Provider client.
        :param user_pool_id: The ID of an existing Amazon Cognito user pool.
        :param client_id: The ID of a client application registered with the user pool.
        :param client_secret: The client secret, if the client has a secret.
        """
        self.cognito_idp_client = cognito_idp_client
        self.user_pool_id = user_pool_id
        self.client_id = client_id
        self.client_secret = client_secret


    def _secret_hash(self, user_name):
        """
        Calculates a secret hash from a user name and a client secret.

        :param user_name: The user name to use when calculating the hash.
        :return: The secret hash.
        """
        key = self.client_secret.encode()
        msg = bytes(user_name + self.client_id, "utf-8")
        secret_hash = base64.b64encode(
            hmac.new(key, msg, digestmod=hashlib.sha256).digest()
        ).decode()
        logger.info("Made secret hash for %s: %s.", user_name, secret_hash)
        return secret_hash

    def sign_up_user(self, user_name, password, user_email):
        """
        Signs up a new user with Amazon Cognito. This action prompts Amazon Cognito
        to send an email to the specified email address. The email contains a code that
        can be used to confirm the user.

        When the user already exists, the user status is checked to determine whether
        the user has been confirmed.

        :param user_name: The user name that identifies the new user.
        :param password: The password for the new user.
        :param user_email: The email address for the new user.
        :return: True when the user is already confirmed with Amazon Cognito.
                 Otherwise, false.
        """
        try:
            kwargs = {
                "ClientId": self.client_id,
                "Username": user_name,
                "Password": password,
                "UserAttributes": [{"Name": "email", "Value": user_email}],
            }
            if self.client_secret is not None:
                kwargs["SecretHash"] = self._secret_hash(user_name)
            response = self.cognito_idp_client.sign_up(**kwargs)
            confirmed = response["UserConfirmed"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "UsernameExistsException":
                response = self.cognito_idp_client.admin_get_user(
                    UserPoolId=self.user_pool_id, Username=user_name
                )
                logger.warning(
                    "User %s exists and is %s.", user_name, response["UserStatus"]
                )
                confirmed = response["UserStatus"] == "CONFIRMED"
            else:
                logger.error(
                    "Couldn't sign up %s. Here's why: %s: %s",
                    user_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return confirmed


    def resend_confirmation(self, user_name):
        """
        Prompts Amazon Cognito to resend an email with a new confirmation code.

        :param user_name: The name of the user who will receive the email.
        :return: Delivery information about where the email is sent.
        """
        try:
            kwargs = {"ClientId": self.client_id, "Username": user_name}
            if self.client_secret is not None:
                kwargs["SecretHash"] = self._secret_hash(user_name)
            response = self.cognito_idp_client.resend_confirmation_code(**kwargs)
            delivery = response["CodeDeliveryDetails"]
        except ClientError as err:
            logger.error(
                "Couldn't resend confirmation to %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return delivery


    def confirm_user_sign_up(self, user_name, confirmation_code):
        """
        Confirms a previously created user. A user must be confirmed before they
        can sign in to Amazon Cognito.

        :param user_name: The name of the user to confirm.
        :param confirmation_code: The confirmation code sent to the user's registered
                                  email address.
        :return: True when the confirmation succeeds.
        """
        try:
            kwargs = {
                "ClientId": self.client_id,
                "Username": user_name,
                "ConfirmationCode": confirmation_code,
            }
            if self.client_secret is not None:
                kwargs["SecretHash"] = self._secret_hash(user_name)
            self.cognito_idp_client.confirm_sign_up(**kwargs)
        except ClientError as err:
            logger.error(
                "Couldn't confirm sign up for %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return True


    def list_users(self):
        """
        Returns a list of the users in the current user pool.

        :return: The list of users.
        """
        try:
            response = self.cognito_idp_client.list_users(UserPoolId=self.user_pool_id)
            users = response["Users"]
        except ClientError as err:
            logger.error(
                "Couldn't list users for %s. Here's why: %s: %s",
                self.user_pool_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return users


    def start_sign_in(self, user_name, password):
        """
        Starts the sign-in process for a user by using administrator credentials.
        This method of signing in is appropriate for code running on a secure server.

        If the user pool is configured to require MFA and this is the first sign-in
        for the user, Amazon Cognito returns a challenge response to set up an
        MFA application. When this occurs, this function gets an MFA secret from
        Amazon Cognito and returns it to the caller.

        :param user_name: The name of the user to sign in.
        :param password: The user's password.
        :return: The result of the sign-in attempt. When sign-in is successful, this
                 returns an access token that can be used to get AWS credentials. Otherwise,
                 Amazon Cognito returns a challenge to set up an MFA application,
                 or a challenge to enter an MFA code from a registered MFA application.
        """
        try:
            kwargs = {
                "UserPoolId": self.user_pool_id,
                "ClientId": self.client_id,
                "AuthFlow": "ADMIN_USER_PASSWORD_AUTH",
                "AuthParameters": {"USERNAME": user_name, "PASSWORD": password},
            }
            if self.client_secret is not None:
                kwargs["AuthParameters"]["SECRET_HASH"] = self._secret_hash(user_name)
            response = self.cognito_idp_client.admin_initiate_auth(**kwargs)
            challenge_name = response.get("ChallengeName", None)
            if challenge_name == "MFA_SETUP":
                if (
                    "SOFTWARE_TOKEN_MFA"
                    in response["ChallengeParameters"]["MFAS_CAN_SETUP"]
                ):
                    response.update(self.get_mfa_secret(response["Session"]))
                else:
                    raise RuntimeError(
                        "The user pool requires MFA setup, but the user pool is not "
                        "configured for TOTP MFA. This example requires TOTP MFA."
                    )
        except ClientError as err:
            logger.error(
                "Couldn't start sign in for %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            response.pop("ResponseMetadata", None)
            return response


    def get_mfa_secret(self, session):
        """
        Gets a token that can be used to associate an MFA application with the user.

        :param session: Session information returned from a previous call to initiate
                        authentication.
        :return: An MFA token that can be used to set up an MFA application.
        """
        try:
            response = self.cognito_idp_client.associate_software_token(Session=session)
        except ClientError as err:
            logger.error(
                "Couldn't get MFA secret. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            response.pop("ResponseMetadata", None)
            return response


    def verify_mfa(self, session, user_code):
        """
        Verify a new MFA application that is associated with a user.

        :param session: Session information returned from a previous call to initiate
                        authentication.
        :param user_code: A code generated by the associated MFA application.
        :return: Status that indicates whether the MFA application is verified.
        """
        try:
            response = self.cognito_idp_client.verify_software_token(
                Session=session, UserCode=user_code
            )
        except ClientError as err:
            logger.error(
                "Couldn't verify MFA. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            response.pop("ResponseMetadata", None)
            return response


    def respond_to_mfa_challenge(self, user_name, session, mfa_code):
        """
        Responds to a challenge for an MFA code. This completes the second step of
        a two-factor sign-in. When sign-in is successful, it returns an access token
        that can be used to get AWS credentials from Amazon Cognito.

        :param user_name: The name of the user who is signing in.
        :param session: Session information returned from a previous call to initiate
                        authentication.
        :param mfa_code: A code generated by the associated MFA application.
        :return: The result of the authentication. When successful, this contains an
                 access token for the user.
        """
        try:
            kwargs = {
                "UserPoolId": self.user_pool_id,
                "ClientId": self.client_id,
                "ChallengeName": "SOFTWARE_TOKEN_MFA",
                "Session": session,
                "ChallengeResponses": {
                    "USERNAME": user_name,
                    "SOFTWARE_TOKEN_MFA_CODE": mfa_code,
                },
            }
            if self.client_secret is not None:
                kwargs["ChallengeResponses"]["SECRET_HASH"] = self._secret_hash(
                    user_name
                )
            response = self.cognito_idp_client.admin_respond_to_auth_challenge(**kwargs)
            auth_result = response["AuthenticationResult"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ExpiredCodeException":
                logger.warning(
                    "Your MFA code has expired or has been used already. You might have "
                    "to wait a few seconds until your app shows you a new code."
                )
            else:
                logger.error(
                    "Couldn't respond to mfa challenge for %s. Here's why: %s: %s",
                    user_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return auth_result


    def confirm_mfa_device(
        self,
        user_name,
        device_key,
        device_group_key,
        device_password,
        access_token,
        aws_srp,
    ):
        """
        Confirms an MFA device to be tracked by Amazon Cognito. When a device is
        tracked, its key and password can be used to sign in without requiring a new
        MFA code from the MFA application.

        :param user_name: The user that is associated with the device.
        :param device_key: The key of the device, returned by Amazon Cognito.
        :param device_group_key: The group key of the device, returned by Amazon Cognito.
        :param device_password: The password that is associated with the device.
        :param access_token: The user's access token.
        :param aws_srp: A class that helps with Secure Remote Password (SRP)
                        calculations. The scenario associated with this example uses
                        the warrant package.
        :return: True when the user must confirm the device. Otherwise, False. When
                 False, the device is automatically confirmed and tracked.
        """
        srp_helper = aws_srp.AWSSRP(
            username=user_name,
            password=device_password,
            pool_id="_",
            client_id=self.client_id,
            client_secret=None,
            client=self.cognito_idp_client,
        )
        device_and_pw = f"{device_group_key}{device_key}:{device_password}"
        device_and_pw_hash = aws_srp.hash_sha256(device_and_pw.encode("utf-8"))
        salt = aws_srp.pad_hex(aws_srp.get_random(16))
        x_value = aws_srp.hex_to_long(aws_srp.hex_hash(salt + device_and_pw_hash))
        verifier = aws_srp.pad_hex(pow(srp_helper.val_g, x_value, srp_helper.big_n))
        device_secret_verifier_config = {
            "PasswordVerifier": base64.standard_b64encode(
                bytearray.fromhex(verifier)
            ).decode("utf-8"),
            "Salt": base64.standard_b64encode(bytearray.fromhex(salt)).decode("utf-8"),
        }
        try:
            response = self.cognito_idp_client.confirm_device(
                AccessToken=access_token,
                DeviceKey=device_key,
                DeviceSecretVerifierConfig=device_secret_verifier_config,
            )
            user_confirm = response["UserConfirmationNecessary"]
        except ClientError as err:
            logger.error(
                "Couldn't confirm mfa device %s. Here's why: %s: %s",
                device_key,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return user_confirm


    def sign_in_with_tracked_device(
        self,
        user_name,
        password,
        device_key,
        device_group_key,
        device_password,
        aws_srp,
    ):
        """
        Signs in to Amazon Cognito as a user who has a tracked device. Signing in
        with a tracked device lets a user sign in without entering a new MFA code.

        Signing in with a tracked device requires that the client respond to the SRP
        protocol. The scenario associated with this example uses the warrant package
        to help with SRP calculations.

        For more information on SRP, see https://en.wikipedia.org/wiki/Secure_Remote_Password_protocol.

        :param user_name: The user that is associated with the device.
        :param password: The user's password.
        :param device_key: The key of a tracked device.
        :param device_group_key: The group key of a tracked device.
        :param device_password: The password that is associated with the device.
        :param aws_srp: A class that helps with SRP calculations. The scenario
                        associated with this example uses the warrant package.
        :return: The result of the authentication. When successful, this contains an
                 access token for the user.
        """
        try:
            srp_helper = aws_srp.AWSSRP(
                username=user_name,
                password=device_password,
                pool_id="_",
                client_id=self.client_id,
                client_secret=None,
                client=self.cognito_idp_client,
            )

            response_init = self.cognito_idp_client.initiate_auth(
                ClientId=self.client_id,
                AuthFlow="USER_PASSWORD_AUTH",
                AuthParameters={
                    "USERNAME": user_name,
                    "PASSWORD": password,
                    "DEVICE_KEY": device_key,
                },
            )
            if response_init["ChallengeName"] != "DEVICE_SRP_AUTH":
                raise RuntimeError(
                    f"Expected DEVICE_SRP_AUTH challenge but got {response_init['ChallengeName']}."
                )

            auth_params = srp_helper.get_auth_params()
            auth_params["DEVICE_KEY"] = device_key
            response_auth = self.cognito_idp_client.respond_to_auth_challenge(
                ClientId=self.client_id,
                ChallengeName="DEVICE_SRP_AUTH",
                ChallengeResponses=auth_params,
            )
            if response_auth["ChallengeName"] != "DEVICE_PASSWORD_VERIFIER":
                raise RuntimeError(
                    f"Expected DEVICE_PASSWORD_VERIFIER challenge but got "
                    f"{response_init['ChallengeName']}."
                )

            challenge_params = response_auth["ChallengeParameters"]
            challenge_params["USER_ID_FOR_SRP"] = device_group_key + device_key
            cr = srp_helper.process_challenge(challenge_params, {"USERNAME": user_name})
            cr["USERNAME"] = user_name
            cr["DEVICE_KEY"] = device_key
            response_verifier = self.cognito_idp_client.respond_to_auth_challenge(
                ClientId=self.client_id,
                ChallengeName="DEVICE_PASSWORD_VERIFIER",
                ChallengeResponses=cr,
            )
            auth_tokens = response_verifier["AuthenticationResult"]
        except ClientError as err:
            logger.error(
                "Couldn't start client sign in for %s. Here's why: %s: %s",
                user_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return auth_tokens
```
Buat kelas yang menjalankan skenario. Contoh ini juga mendaftarkan perangkat MFA untuk dilacak oleh Amazon Cognito dan menunjukkan cara masuk dengan menggunakan kata sandi dan informasi dari perangkat yang dilacak. Ini menghindari kebutuhan untuk memasukkan kode MFA baru.  

```
def run_scenario(cognito_idp_client, user_pool_id, client_id):
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Welcome to the Amazon Cognito user signup with MFA demo.")
    print("-" * 88)

    cog_wrapper = CognitoIdentityProviderWrapper(
        cognito_idp_client, user_pool_id, client_id
    )

    user_name = q.ask("Let's sign up a new user. Enter a user name: ", q.non_empty)
    password = q.ask("Enter a password for the user: ", q.non_empty)
    email = q.ask("Enter a valid email address that you own: ", q.non_empty)
    confirmed = cog_wrapper.sign_up_user(user_name, password, email)
    while not confirmed:
        print(
            f"User {user_name} requires confirmation. Check {email} for "
            f"a verification code."
        )
        confirmation_code = q.ask("Enter the confirmation code from the email: ")
        if not confirmation_code:
            if q.ask("Do you need another confirmation code (y/n)? ", q.is_yesno):
                delivery = cog_wrapper.resend_confirmation(user_name)
                print(
                    f"Confirmation code sent by {delivery['DeliveryMedium']} "
                    f"to {delivery['Destination']}."
                )
        else:
            confirmed = cog_wrapper.confirm_user_sign_up(user_name, confirmation_code)
    print(f"User {user_name} is confirmed and ready to use.")
    print("-" * 88)

    print("Let's get a list of users in the user pool.")
    q.ask("Press Enter when you're ready.")
    users = cog_wrapper.list_users()
    if users:
        print(f"Found {len(users)} users:")
        pp(users)
    else:
        print("No users found.")
    print("-" * 88)

    print("Let's sign in and get an access token.")
    auth_tokens = None
    challenge = "ADMIN_USER_PASSWORD_AUTH"
    response = {}
    while challenge is not None:
        if challenge == "ADMIN_USER_PASSWORD_AUTH":
            response = cog_wrapper.start_sign_in(user_name, password)
            challenge = response["ChallengeName"]
        elif response["ChallengeName"] == "MFA_SETUP":
            print("First, we need to set up an MFA application.")
            qr_img = qrcode.make(
                f"otpauth://totp/{user_name}?secret={response['SecretCode']}"
            )
            qr_img.save("qr.png")
            q.ask(
                "Press Enter to see a QR code on your screen. Scan it into an MFA "
                "application, such as Google Authenticator."
            )
            webbrowser.open("qr.png")
            mfa_code = q.ask(
                "Enter the verification code from your MFA application: ", q.non_empty
            )
            response = cog_wrapper.verify_mfa(response["Session"], mfa_code)
            print(f"MFA device setup {response['Status']}")
            print("Now that an MFA application is set up, let's sign in again.")
            print(
                "You might have to wait a few seconds for a new MFA code to appear in "
                "your MFA application."
            )
            challenge = "ADMIN_USER_PASSWORD_AUTH"
        elif response["ChallengeName"] == "SOFTWARE_TOKEN_MFA":
            auth_tokens = None
            while auth_tokens is None:
                mfa_code = q.ask(
                    "Enter a verification code from your MFA application: ", q.non_empty
                )
                auth_tokens = cog_wrapper.respond_to_mfa_challenge(
                    user_name, response["Session"], mfa_code
                )
            print(f"You're signed in as {user_name}.")
            print("Here's your access token:")
            pp(auth_tokens["AccessToken"])
            print("And your device information:")
            pp(auth_tokens["NewDeviceMetadata"])
            challenge = None
        else:
            raise Exception(f"Got unexpected challenge {response['ChallengeName']}")
    print("-" * 88)

    device_group_key = auth_tokens["NewDeviceMetadata"]["DeviceGroupKey"]
    device_key = auth_tokens["NewDeviceMetadata"]["DeviceKey"]
    device_password = base64.standard_b64encode(os.urandom(40)).decode("utf-8")

    print("Let's confirm your MFA device so you don't have re-enter MFA tokens for it.")
    q.ask("Press Enter when you're ready.")
    cog_wrapper.confirm_mfa_device(
        user_name,
        device_key,
        device_group_key,
        device_password,
        auth_tokens["AccessToken"],
        aws_srp,
    )
    print(f"Your device {device_key} is confirmed.")
    print("-" * 88)

    print(
        f"Now let's sign in as {user_name} from your confirmed device {device_key}.\n"
        f"Because this device is tracked by Amazon Cognito, you won't have to re-enter an MFA code."
    )
    q.ask("Press Enter when ready.")
    auth_tokens = cog_wrapper.sign_in_with_tracked_device(
        user_name, password, device_key, device_group_key, device_password, aws_srp
    )
    print("You're signed in. Your access token is:")
    pp(auth_tokens["AccessToken"])
    print("-" * 88)

    print("Don't forget to delete your user pool when you're done with this example.")
    print("\nThanks for watching!")
    print("-" * 88)


def main():
    parser = argparse.ArgumentParser(
        description="Shows how to sign up a new user with Amazon Cognito and associate "
        "the user with an MFA application for multi-factor authentication."
    )
    parser.add_argument(
        "user_pool_id", help="The ID of the user pool to use for the example."
    )
    parser.add_argument(
        "client_id", help="The ID of the client application to use for the example."
    )
    args = parser.parse_args()
    try:
        run_scenario(boto3.client("cognito-idp"), args.user_pool_id, args.client_id)
    except Exception:
        logging.exception("Something went wrong with the demo.")


if __name__ == "__main__":
    main()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [AdminGetUser](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/AdminGetUser)
  + [AdminInitiateAuth](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/AdminInitiateAuth)
  + [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/AdminRespondToAuthChallenge)
  + [AssociateSoftwareToken](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/AssociateSoftwareToken)
  + [ConfirmDevice](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ConfirmDevice)
  + [ConfirmSignUp](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ConfirmSignUp)
  + [InitiateAuth](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/InitiateAuth)
  + [ListUsers](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ListUsers)
  + [ResendConfirmationCode](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/ResendConfirmationCode)
  + [RespondToAuthChallenge](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/RespondToAuthChallenge)
  + [SignUp](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/SignUp)
  + [VerifySoftwareToken](https://docs.aws.amazon.com/goto/boto3/cognito-idp-2016-04-18/VerifySoftwareToken)

### Gunakan kumpulan identitas Amazon Cognito
<a name="cross_CognitoFlows_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi demo berbasis web yang menunjukkan aliran otentikasi kumpulan identitas.

**SDK untuk Python (Boto3)**  
 Menampilkan aplikasi demo berbasis web yang mendemonstrasikan alur otentikasi kumpulan identitas Amazon Cognito, memungkinkan pengguna untuk secara interaktif mengeksplorasi alur otentikasi yang ditingkatkan dan dasar dengan berbagai penyedia identitas.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/cognito/scenarios/identity_pools_example_demo).  

**Layanan yang digunakan dalam contoh ini**
+ Penyedia Identitas Amazon Cognito

# Amazon Comprehend contoh menggunakan SDK for Python (Boto3)
<a name="python_3_comprehend_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon AWS SDK untuk Python (Boto3) Comprehend.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateDocumentClassifier`
<a name="comprehend_CreateDocumentClassifier_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDocumentClassifier`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendClassifier:
    """Encapsulates an Amazon Comprehend custom classifier."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client
        self.classifier_arn = None


    def create(
        self,
        name,
        language_code,
        training_bucket,
        training_key,
        data_access_role_arn,
        mode,
    ):
        """
        Creates a custom classifier. After the classifier is created, it immediately
        starts training on the data found in the specified Amazon S3 bucket. Training
        can take 30 minutes or longer. The `describe_document_classifier` function
        can be used to get training status and returns a status of TRAINED when the
        classifier is ready to use.

        :param name: The name of the classifier.
        :param language_code: The language the classifier can operate on.
        :param training_bucket: The Amazon S3 bucket that contains the training data.
        :param training_key: The prefix used to find training data in the training
                             bucket. If multiple objects have the same prefix, all
                             of them are used.
        :param data_access_role_arn: The Amazon Resource Name (ARN) of a role that
                                     grants Comprehend permission to read from the
                                     training bucket.
        :return: The ARN of the newly created classifier.
        """
        try:
            response = self.comprehend_client.create_document_classifier(
                DocumentClassifierName=name,
                LanguageCode=language_code,
                InputDataConfig={"S3Uri": f"s3://{training_bucket}/{training_key}"},
                DataAccessRoleArn=data_access_role_arn,
                Mode=mode.value,
            )
            self.classifier_arn = response["DocumentClassifierArn"]
            logger.info("Started classifier creation. Arn is: %s.", self.classifier_arn)
        except ClientError:
            logger.exception("Couldn't create classifier %s.", name)
            raise
        else:
            return self.classifier_arn
```
+  Untuk detail API, lihat [CreateDocumentClassifier](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/CreateDocumentClassifier)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDocumentClassifier`
<a name="comprehend_DeleteDocumentClassifier_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDocumentClassifier`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendClassifier:
    """Encapsulates an Amazon Comprehend custom classifier."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client
        self.classifier_arn = None


    def delete(self):
        """
        Deletes the classifier.
        """
        try:
            self.comprehend_client.delete_document_classifier(
                DocumentClassifierArn=self.classifier_arn
            )
            logger.info("Deleted classifier %s.", self.classifier_arn)
            self.classifier_arn = None
        except ClientError:
            logger.exception("Couldn't deleted classifier %s.", self.classifier_arn)
            raise
```
+  Untuk detail API, lihat [DeleteDocumentClassifier](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DeleteDocumentClassifier)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDocumentClassificationJob`
<a name="comprehend_DescribeDocumentClassificationJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDocumentClassificationJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendClassifier:
    """Encapsulates an Amazon Comprehend custom classifier."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client
        self.classifier_arn = None


    def describe_job(self, job_id):
        """
        Gets metadata about a classification job.

        :param job_id: The ID of the job to look up.
        :return: Metadata about the job.
        """
        try:
            response = self.comprehend_client.describe_document_classification_job(
                JobId=job_id
            )
            job = response["DocumentClassificationJobProperties"]
            logger.info("Got classification job %s.", job["JobName"])
        except ClientError:
            logger.exception("Couldn't get classification job %s.", job_id)
            raise
        else:
            return job
```
+  Untuk detail API, lihat [DescribeDocumentClassificationJob](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DescribeDocumentClassificationJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDocumentClassifier`
<a name="comprehend_DescribeDocumentClassifier_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDocumentClassifier`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendClassifier:
    """Encapsulates an Amazon Comprehend custom classifier."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client
        self.classifier_arn = None


    def describe(self, classifier_arn=None):
        """
        Gets metadata about a custom classifier, including its current status.

        :param classifier_arn: The ARN of the classifier to look up.
        :return: Metadata about the classifier.
        """
        if classifier_arn is not None:
            self.classifier_arn = classifier_arn
        try:
            response = self.comprehend_client.describe_document_classifier(
                DocumentClassifierArn=self.classifier_arn
            )
            classifier = response["DocumentClassifierProperties"]
            logger.info("Got classifier %s.", self.classifier_arn)
        except ClientError:
            logger.exception("Couldn't get classifier %s.", self.classifier_arn)
            raise
        else:
            return classifier
```
+  Untuk detail API, lihat [DescribeDocumentClassifier](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DescribeDocumentClassifier)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeTopicsDetectionJob`
<a name="comprehend_DescribeTopicsDetectionJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTopicsDetectionJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendTopicModeler:
    """Encapsulates a Comprehend topic modeler."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def describe_job(self, job_id):
        """
        Gets metadata about a topic modeling job.

        :param job_id: The ID of the job to look up.
        :return: Metadata about the job.
        """
        try:
            response = self.comprehend_client.describe_topics_detection_job(
                JobId=job_id
            )
            job = response["TopicsDetectionJobProperties"]
            logger.info("Got topic detection job %s.", job_id)
        except ClientError:
            logger.exception("Couldn't get topic detection job %s.", job_id)
            raise
        else:
            return job
```
+  Untuk detail API, lihat [DescribeTopicsDetectionJob](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DescribeTopicsDetectionJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectDominantLanguage`
<a name="comprehend_DetectDominantLanguage_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectDominantLanguage`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendDetect:
    """Encapsulates Comprehend detection functions."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def detect_languages(self, text):
        """
        Detects languages used in a document.

        :param text: The document to inspect.
        :return: The list of languages along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_dominant_language(Text=text)
            languages = response["Languages"]
            logger.info("Detected %s languages.", len(languages))
        except ClientError:
            logger.exception("Couldn't detect languages.")
            raise
        else:
            return languages
```
+  Untuk detail API, lihat [DetectDominantLanguage](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectDominantLanguage)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectEntities`
<a name="comprehend_DetectEntities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectEntities`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendDetect:
    """Encapsulates Comprehend detection functions."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def detect_entities(self, text, language_code):
        """
        Detects entities in a document. Entities can be things like people and places
        or other common terms.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The list of entities along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_entities(
                Text=text, LanguageCode=language_code
            )
            entities = response["Entities"]
            logger.info("Detected %s entities.", len(entities))
        except ClientError:
            logger.exception("Couldn't detect entities.")
            raise
        else:
            return entities
```
+  Untuk detail API, lihat [DetectEntities](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectEntities)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectKeyPhrases`
<a name="comprehend_DetectKeyPhrases_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectKeyPhrases`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendDetect:
    """Encapsulates Comprehend detection functions."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def detect_key_phrases(self, text, language_code):
        """
        Detects key phrases in a document. A key phrase is typically a noun and its
        modifiers.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The list of key phrases along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_key_phrases(
                Text=text, LanguageCode=language_code
            )
            phrases = response["KeyPhrases"]
            logger.info("Detected %s phrases.", len(phrases))
        except ClientError:
            logger.exception("Couldn't detect phrases.")
            raise
        else:
            return phrases
```
+  Untuk detail API, lihat [DetectKeyPhrases](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectKeyPhrases)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectPiiEntities`
<a name="comprehend_DetectPiiEntities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectPiiEntities`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendDetect:
    """Encapsulates Comprehend detection functions."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def detect_pii(self, text, language_code):
        """
        Detects personally identifiable information (PII) in a document. PII can be
        things like names, account numbers, or addresses.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The list of PII entities along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_pii_entities(
                Text=text, LanguageCode=language_code
            )
            entities = response["Entities"]
            logger.info("Detected %s PII entities.", len(entities))
        except ClientError:
            logger.exception("Couldn't detect PII entities.")
            raise
        else:
            return entities
```
+  Untuk detail API, lihat [DetectPiiEntities](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectPiiEntities)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectSentiment`
<a name="comprehend_DetectSentiment_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectSentiment`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendDetect:
    """Encapsulates Comprehend detection functions."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def detect_sentiment(self, text, language_code):
        """
        Detects the overall sentiment expressed in a document. Sentiment can
        be positive, negative, neutral, or a mixture.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The sentiments along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_sentiment(
                Text=text, LanguageCode=language_code
            )
            logger.info("Detected primary sentiment %s.", response["Sentiment"])
        except ClientError:
            logger.exception("Couldn't detect sentiment.")
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DetectSentiment](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectSentiment)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectSyntax`
<a name="comprehend_DetectSyntax_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectSyntax`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendDetect:
    """Encapsulates Comprehend detection functions."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def detect_syntax(self, text, language_code):
        """
        Detects syntactical elements of a document. Syntax tokens are portions of
        text along with their use as parts of speech, such as nouns, verbs, and
        interjections.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The list of syntax tokens along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_syntax(
                Text=text, LanguageCode=language_code
            )
            tokens = response["SyntaxTokens"]
            logger.info("Detected %s syntax tokens.", len(tokens))
        except ClientError:
            logger.exception("Couldn't detect syntax.")
            raise
        else:
            return tokens
```
+  Untuk detail API, lihat [DetectSyntax](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectSyntax)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListDocumentClassificationJobs`
<a name="comprehend_ListDocumentClassificationJobs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDocumentClassificationJobs`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendClassifier:
    """Encapsulates an Amazon Comprehend custom classifier."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client
        self.classifier_arn = None


    def list_jobs(self):
        """
        Lists the classification jobs for the current account.

        :return: The list of jobs.
        """
        try:
            response = self.comprehend_client.list_document_classification_jobs()
            jobs = response["DocumentClassificationJobPropertiesList"]
            logger.info("Got %s document classification jobs.", len(jobs))
        except ClientError:
            logger.exception(
                "Couldn't get document classification jobs.",
            )
            raise
        else:
            return jobs
```
+  Untuk detail API, lihat [ListDocumentClassificationJobs](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/ListDocumentClassificationJobs)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListDocumentClassifiers`
<a name="comprehend_ListDocumentClassifiers_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDocumentClassifiers`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendClassifier:
    """Encapsulates an Amazon Comprehend custom classifier."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client
        self.classifier_arn = None


    def list(self):
        """
        Lists custom classifiers for the current account.

        :return: The list of classifiers.
        """
        try:
            response = self.comprehend_client.list_document_classifiers()
            classifiers = response["DocumentClassifierPropertiesList"]
            logger.info("Got %s classifiers.", len(classifiers))
        except ClientError:
            logger.exception(
                "Couldn't get classifiers.",
            )
            raise
        else:
            return classifiers
```
+  Untuk detail API, lihat [ListDocumentClassifiers](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/ListDocumentClassifiers)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListTopicsDetectionJobs`
<a name="comprehend_ListTopicsDetectionJobs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopicsDetectionJobs`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendTopicModeler:
    """Encapsulates a Comprehend topic modeler."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def list_jobs(self):
        """
        Lists topic modeling jobs for the current account.

        :return: The list of jobs.
        """
        try:
            response = self.comprehend_client.list_topics_detection_jobs()
            jobs = response["TopicsDetectionJobPropertiesList"]
            logger.info("Got %s topic detection jobs.", len(jobs))
        except ClientError:
            logger.exception("Couldn't get topic detection jobs.")
            raise
        else:
            return jobs
```
+  Untuk detail API, lihat [ListTopicsDetectionJobs](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/ListTopicsDetectionJobs)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartDocumentClassificationJob`
<a name="comprehend_StartDocumentClassificationJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDocumentClassificationJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendClassifier:
    """Encapsulates an Amazon Comprehend custom classifier."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client
        self.classifier_arn = None


    def start_job(
        self,
        job_name,
        input_bucket,
        input_key,
        input_format,
        output_bucket,
        output_key,
        data_access_role_arn,
    ):
        """
        Starts a classification job. The classifier must be trained or the job
        will fail. Input is read from the specified Amazon S3 input bucket and
        written to the specified output bucket. Output data is stored in a tar
        archive compressed in gzip format. The job runs asynchronously, so you can
        call `describe_document_classification_job` to get job status until it
        returns a status of SUCCEEDED.

        :param job_name: The name of the job.
        :param input_bucket: The Amazon S3 bucket that contains input data.
        :param input_key: The prefix used to find input data in the input
                          bucket. If multiple objects have the same prefix, all
                          of them are used.
        :param input_format: The format of the input data, either one document per
                             file or one document per line.
        :param output_bucket: The Amazon S3 bucket where output data is written.
        :param output_key: The prefix prepended to the output data.
        :param data_access_role_arn: The Amazon Resource Name (ARN) of a role that
                                     grants Comprehend permission to read from the
                                     input bucket and write to the output bucket.
        :return: Information about the job, including the job ID.
        """
        try:
            response = self.comprehend_client.start_document_classification_job(
                DocumentClassifierArn=self.classifier_arn,
                JobName=job_name,
                InputDataConfig={
                    "S3Uri": f"s3://{input_bucket}/{input_key}",
                    "InputFormat": input_format.value,
                },
                OutputDataConfig={"S3Uri": f"s3://{output_bucket}/{output_key}"},
                DataAccessRoleArn=data_access_role_arn,
            )
            logger.info(
                "Document classification job %s is %s.", job_name, response["JobStatus"]
            )
        except ClientError:
            logger.exception("Couldn't start classification job %s.", job_name)
            raise
        else:
            return response
```
+  Untuk detail API, lihat [StartDocumentClassificationJob](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/StartDocumentClassificationJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartTopicsDetectionJob`
<a name="comprehend_StartTopicsDetectionJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTopicsDetectionJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 

```
class ComprehendTopicModeler:
    """Encapsulates a Comprehend topic modeler."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def start_job(
        self,
        job_name,
        input_bucket,
        input_key,
        input_format,
        output_bucket,
        output_key,
        data_access_role_arn,
    ):
        """
        Starts a topic modeling job. Input is read from the specified Amazon S3
        input bucket and written to the specified output bucket. Output data is stored
        in a tar archive compressed in gzip format. The job runs asynchronously, so you
        can call `describe_topics_detection_job` to get job status until it
        returns a status of SUCCEEDED.

        :param job_name: The name of the job.
        :param input_bucket: An Amazon S3 bucket that contains job input.
        :param input_key: The prefix used to find input data in the input
                             bucket. If multiple objects have the same prefix, all
                             of them are used.
        :param input_format: The format of the input data, either one document per
                             file or one document per line.
        :param output_bucket: The Amazon S3 bucket where output data is written.
        :param output_key: The prefix prepended to the output data.
        :param data_access_role_arn: The Amazon Resource Name (ARN) of a role that
                                     grants Comprehend permission to read from the
                                     input bucket and write to the output bucket.
        :return: Information about the job, including the job ID.
        """
        try:
            response = self.comprehend_client.start_topics_detection_job(
                JobName=job_name,
                DataAccessRoleArn=data_access_role_arn,
                InputDataConfig={
                    "S3Uri": f"s3://{input_bucket}/{input_key}",
                    "InputFormat": input_format.value,
                },
                OutputDataConfig={"S3Uri": f"s3://{output_bucket}/{output_key}"},
            )
            logger.info("Started topic modeling job %s.", response["JobId"])
        except ClientError:
            logger.exception("Couldn't start topic modeling job.")
            raise
        else:
            return response
```
+  Untuk detail API, lihat [StartTopicsDetectionJob](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/StartTopicsDetectionJob)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Mendeteksi elemen dokumen
<a name="comprehend_Usage_DetectApis_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mendeteksi bahasa, entitas, dan frasa kunci dalam dokumen.
+ Mendeteksi informasi identitas pribadi (PII) dalam dokumen.
+ Mendeteksi sentimen dokumen.
+ Mendeteksi elemen sintaks dalam dokumen.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 
Buat kelas yang membungkus tindakan Amazon Comprehend.  

```
import logging
from pprint import pprint
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

class ComprehendDetect:
    """Encapsulates Comprehend detection functions."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def detect_languages(self, text):
        """
        Detects languages used in a document.

        :param text: The document to inspect.
        :return: The list of languages along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_dominant_language(Text=text)
            languages = response["Languages"]
            logger.info("Detected %s languages.", len(languages))
        except ClientError:
            logger.exception("Couldn't detect languages.")
            raise
        else:
            return languages


    def detect_entities(self, text, language_code):
        """
        Detects entities in a document. Entities can be things like people and places
        or other common terms.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The list of entities along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_entities(
                Text=text, LanguageCode=language_code
            )
            entities = response["Entities"]
            logger.info("Detected %s entities.", len(entities))
        except ClientError:
            logger.exception("Couldn't detect entities.")
            raise
        else:
            return entities


    def detect_key_phrases(self, text, language_code):
        """
        Detects key phrases in a document. A key phrase is typically a noun and its
        modifiers.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The list of key phrases along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_key_phrases(
                Text=text, LanguageCode=language_code
            )
            phrases = response["KeyPhrases"]
            logger.info("Detected %s phrases.", len(phrases))
        except ClientError:
            logger.exception("Couldn't detect phrases.")
            raise
        else:
            return phrases


    def detect_pii(self, text, language_code):
        """
        Detects personally identifiable information (PII) in a document. PII can be
        things like names, account numbers, or addresses.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The list of PII entities along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_pii_entities(
                Text=text, LanguageCode=language_code
            )
            entities = response["Entities"]
            logger.info("Detected %s PII entities.", len(entities))
        except ClientError:
            logger.exception("Couldn't detect PII entities.")
            raise
        else:
            return entities


    def detect_sentiment(self, text, language_code):
        """
        Detects the overall sentiment expressed in a document. Sentiment can
        be positive, negative, neutral, or a mixture.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The sentiments along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_sentiment(
                Text=text, LanguageCode=language_code
            )
            logger.info("Detected primary sentiment %s.", response["Sentiment"])
        except ClientError:
            logger.exception("Couldn't detect sentiment.")
            raise
        else:
            return response


    def detect_syntax(self, text, language_code):
        """
        Detects syntactical elements of a document. Syntax tokens are portions of
        text along with their use as parts of speech, such as nouns, verbs, and
        interjections.

        :param text: The document to inspect.
        :param language_code: The language of the document.
        :return: The list of syntax tokens along with their confidence scores.
        """
        try:
            response = self.comprehend_client.detect_syntax(
                Text=text, LanguageCode=language_code
            )
            tokens = response["SyntaxTokens"]
            logger.info("Detected %s syntax tokens.", len(tokens))
        except ClientError:
            logger.exception("Couldn't detect syntax.")
            raise
        else:
            return tokens
```
Fungsi panggilan pada kelas pembungkus untuk mendeteksi entitas, frasa, dan lainnya dalam dokumen.  

```
def usage_demo():
    print("-" * 88)
    print("Welcome to the Amazon Comprehend detection demo!")
    print("-" * 88)

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    comp_detect = ComprehendDetect(boto3.client("comprehend"))
    with open("detect_sample.txt") as sample_file:
        sample_text = sample_file.read()

    demo_size = 3

    print("Sample text used for this demo:")
    print("-" * 88)
    print(sample_text)
    print("-" * 88)

    print("Detecting languages.")
    languages = comp_detect.detect_languages(sample_text)
    pprint(languages)
    lang_code = languages[0]["LanguageCode"]

    print("Detecting entities.")
    entities = comp_detect.detect_entities(sample_text, lang_code)
    print(f"The first {demo_size} are:")
    pprint(entities[:demo_size])

    print("Detecting key phrases.")
    phrases = comp_detect.detect_key_phrases(sample_text, lang_code)
    print(f"The first {demo_size} are:")
    pprint(phrases[:demo_size])

    print("Detecting personally identifiable information (PII).")
    pii_entities = comp_detect.detect_pii(sample_text, lang_code)
    print(f"The first {demo_size} are:")
    pprint(pii_entities[:demo_size])

    print("Detecting sentiment.")
    sentiment = comp_detect.detect_sentiment(sample_text, lang_code)
    print(f"Sentiment: {sentiment['Sentiment']}")
    print("SentimentScore:")
    pprint(sentiment["SentimentScore"])

    print("Detecting syntax elements.")
    syntax_tokens = comp_detect.detect_syntax(sample_text, lang_code)
    print(f"The first {demo_size} are:")
    pprint(syntax_tokens[:demo_size])

    print("Thanks for watching!")
    print("-" * 88)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [DetectDominantLanguage](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectDominantLanguage)
  + [DetectEntities](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectEntities)
  + [DetectKeyPhrases](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectKeyPhrases)
  + [DetectPiiEntities](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectPiiEntities)
  + [DetectSentiment](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectSentiment)
  + [DetectSyntax](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DetectSyntax)

### Mendeteksi entitas dalam teks yang diekstrak dari gambar
<a name="cross_TextractComprehendDetectEntities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Amazon Comprehend untuk mendeteksi entitas dalam teks yang diekstrak oleh Amazon Textract dari gambar yang disimpan di Amazon S3.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) dalam buku catatan Jupyter untuk mendeteksi entitas dalam teks yang diekstraksi dari gambar. Contoh ini menggunakan Amazon Textract untuk mengekstrak teks dari gambar yang disimpan di Amazon Simple Storage Service (Amazon S3) dan Amazon Comprehend untuk mendeteksi entitas dalam teks yang diekstraksi.   
 Contoh ini adalah notebook Jupyter dan harus dijalankan di lingkungan yang dapat meng-host notebook. Untuk petunjuk tentang cara menjalankan contoh menggunakan Amazon SageMaker AI, lihat petunjuk di [TextractAndComprehendNotebook.ipynb](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_comprehend_notebook/TextractAndComprehendNotebook.ipynb).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_comprehend_notebook#readme).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon S3
+ Amazon Textract

### Jalankan pekerjaan pemodelan topik pada data sampel
<a name="comprehend_Usage_TopicModeler_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Jalankan pekerjaan pemodelan topik Amazon Comprehend pada data sampel.
+ Dapatkan informasi tentang pekerjaan itu.
+ Ekstrak data output pekerjaan dari Amazon S3.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 
Buat kelas pembungkus untuk memanggil tindakan pemodelan topik Amazon Comprehend.  

```
class ComprehendTopicModeler:
    """Encapsulates a Comprehend topic modeler."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client


    def start_job(
        self,
        job_name,
        input_bucket,
        input_key,
        input_format,
        output_bucket,
        output_key,
        data_access_role_arn,
    ):
        """
        Starts a topic modeling job. Input is read from the specified Amazon S3
        input bucket and written to the specified output bucket. Output data is stored
        in a tar archive compressed in gzip format. The job runs asynchronously, so you
        can call `describe_topics_detection_job` to get job status until it
        returns a status of SUCCEEDED.

        :param job_name: The name of the job.
        :param input_bucket: An Amazon S3 bucket that contains job input.
        :param input_key: The prefix used to find input data in the input
                             bucket. If multiple objects have the same prefix, all
                             of them are used.
        :param input_format: The format of the input data, either one document per
                             file or one document per line.
        :param output_bucket: The Amazon S3 bucket where output data is written.
        :param output_key: The prefix prepended to the output data.
        :param data_access_role_arn: The Amazon Resource Name (ARN) of a role that
                                     grants Comprehend permission to read from the
                                     input bucket and write to the output bucket.
        :return: Information about the job, including the job ID.
        """
        try:
            response = self.comprehend_client.start_topics_detection_job(
                JobName=job_name,
                DataAccessRoleArn=data_access_role_arn,
                InputDataConfig={
                    "S3Uri": f"s3://{input_bucket}/{input_key}",
                    "InputFormat": input_format.value,
                },
                OutputDataConfig={"S3Uri": f"s3://{output_bucket}/{output_key}"},
            )
            logger.info("Started topic modeling job %s.", response["JobId"])
        except ClientError:
            logger.exception("Couldn't start topic modeling job.")
            raise
        else:
            return response


    def describe_job(self, job_id):
        """
        Gets metadata about a topic modeling job.

        :param job_id: The ID of the job to look up.
        :return: Metadata about the job.
        """
        try:
            response = self.comprehend_client.describe_topics_detection_job(
                JobId=job_id
            )
            job = response["TopicsDetectionJobProperties"]
            logger.info("Got topic detection job %s.", job_id)
        except ClientError:
            logger.exception("Couldn't get topic detection job %s.", job_id)
            raise
        else:
            return job


    def list_jobs(self):
        """
        Lists topic modeling jobs for the current account.

        :return: The list of jobs.
        """
        try:
            response = self.comprehend_client.list_topics_detection_jobs()
            jobs = response["TopicsDetectionJobPropertiesList"]
            logger.info("Got %s topic detection jobs.", len(jobs))
        except ClientError:
            logger.exception("Couldn't get topic detection jobs.")
            raise
        else:
            return jobs
```
Gunakan kelas pembungkus untuk menjalankan pekerjaan pemodelan topik dan mendapatkan data pekerjaan.  

```
def usage_demo():
    print("-" * 88)
    print("Welcome to the Amazon Comprehend topic modeling demo!")
    print("-" * 88)

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    input_prefix = "input/"
    output_prefix = "output/"
    demo_resources = ComprehendDemoResources(
        boto3.resource("s3"), boto3.resource("iam")
    )
    topic_modeler = ComprehendTopicModeler(boto3.client("comprehend"))

    print("Setting up storage and security resources needed for the demo.")
    demo_resources.setup("comprehend-topic-modeler-demo")
    print("Copying sample data from public bucket into input bucket.")
    demo_resources.bucket.copy(
        {"Bucket": "public-sample-us-west-2", "Key": "TopicModeling/Sample.txt"},
        f"{input_prefix}sample.txt",
    )

    print("Starting topic modeling job on sample data.")
    job_info = topic_modeler.start_job(
        "demo-topic-modeling-job",
        demo_resources.bucket.name,
        input_prefix,
        JobInputFormat.per_line,
        demo_resources.bucket.name,
        output_prefix,
        demo_resources.data_access_role.arn,
    )

    print(
        f"Waiting for job {job_info['JobId']} to complete. This typically takes "
        f"20 - 30 minutes."
    )
    job_waiter = JobCompleteWaiter(topic_modeler.comprehend_client)
    job_waiter.wait(job_info["JobId"])

    job = topic_modeler.describe_job(job_info["JobId"])
    print(f"Job {job['JobId']} complete:")
    pprint(job)

    print(
        f"Getting job output data from the output Amazon S3 bucket: "
        f"{job['OutputDataConfig']['S3Uri']}."
    )
    job_output = demo_resources.extract_job_output(job)
    lines = 10
    print(f"First {lines} lines of document topics output:")
    pprint(job_output["doc-topics.csv"]["data"][:lines])
    print(f"First {lines} lines of terms output:")
    pprint(job_output["topic-terms.csv"]["data"][:lines])

    print("Cleaning up resources created for the demo.")
    demo_resources.cleanup()

    print("Thanks for watching!")
    print("-" * 88)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [DescribeTopicsDetectionJob](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DescribeTopicsDetectionJob)
  + [ListTopicsDetectionJobs](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/ListTopicsDetectionJobs)
  + [StartTopicsDetectionJob](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/StartTopicsDetectionJob)

### Latih pengklasifikasi khusus dan klasifikasikan dokumen
<a name="comprehend_Usage_ComprehendClassifier_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat pengklasifikasi multi-label Amazon Comprehend.
+ Latih pengklasifikasi pada data sampel.
+ Jalankan pekerjaan klasifikasi pada kumpulan data kedua.
+ Ekstrak data output pekerjaan dari Amazon S3.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/comprehend#code-examples). 
Buat kelas pembungkus untuk memanggil tindakan pengklasifikasi dokumen Amazon Comprehend.  

```
class ComprehendClassifier:
    """Encapsulates an Amazon Comprehend custom classifier."""

    def __init__(self, comprehend_client):
        """
        :param comprehend_client: A Boto3 Comprehend client.
        """
        self.comprehend_client = comprehend_client
        self.classifier_arn = None


    def create(
        self,
        name,
        language_code,
        training_bucket,
        training_key,
        data_access_role_arn,
        mode,
    ):
        """
        Creates a custom classifier. After the classifier is created, it immediately
        starts training on the data found in the specified Amazon S3 bucket. Training
        can take 30 minutes or longer. The `describe_document_classifier` function
        can be used to get training status and returns a status of TRAINED when the
        classifier is ready to use.

        :param name: The name of the classifier.
        :param language_code: The language the classifier can operate on.
        :param training_bucket: The Amazon S3 bucket that contains the training data.
        :param training_key: The prefix used to find training data in the training
                             bucket. If multiple objects have the same prefix, all
                             of them are used.
        :param data_access_role_arn: The Amazon Resource Name (ARN) of a role that
                                     grants Comprehend permission to read from the
                                     training bucket.
        :return: The ARN of the newly created classifier.
        """
        try:
            response = self.comprehend_client.create_document_classifier(
                DocumentClassifierName=name,
                LanguageCode=language_code,
                InputDataConfig={"S3Uri": f"s3://{training_bucket}/{training_key}"},
                DataAccessRoleArn=data_access_role_arn,
                Mode=mode.value,
            )
            self.classifier_arn = response["DocumentClassifierArn"]
            logger.info("Started classifier creation. Arn is: %s.", self.classifier_arn)
        except ClientError:
            logger.exception("Couldn't create classifier %s.", name)
            raise
        else:
            return self.classifier_arn


    def describe(self, classifier_arn=None):
        """
        Gets metadata about a custom classifier, including its current status.

        :param classifier_arn: The ARN of the classifier to look up.
        :return: Metadata about the classifier.
        """
        if classifier_arn is not None:
            self.classifier_arn = classifier_arn
        try:
            response = self.comprehend_client.describe_document_classifier(
                DocumentClassifierArn=self.classifier_arn
            )
            classifier = response["DocumentClassifierProperties"]
            logger.info("Got classifier %s.", self.classifier_arn)
        except ClientError:
            logger.exception("Couldn't get classifier %s.", self.classifier_arn)
            raise
        else:
            return classifier


    def list(self):
        """
        Lists custom classifiers for the current account.

        :return: The list of classifiers.
        """
        try:
            response = self.comprehend_client.list_document_classifiers()
            classifiers = response["DocumentClassifierPropertiesList"]
            logger.info("Got %s classifiers.", len(classifiers))
        except ClientError:
            logger.exception(
                "Couldn't get classifiers.",
            )
            raise
        else:
            return classifiers


    def delete(self):
        """
        Deletes the classifier.
        """
        try:
            self.comprehend_client.delete_document_classifier(
                DocumentClassifierArn=self.classifier_arn
            )
            logger.info("Deleted classifier %s.", self.classifier_arn)
            self.classifier_arn = None
        except ClientError:
            logger.exception("Couldn't deleted classifier %s.", self.classifier_arn)
            raise


    def start_job(
        self,
        job_name,
        input_bucket,
        input_key,
        input_format,
        output_bucket,
        output_key,
        data_access_role_arn,
    ):
        """
        Starts a classification job. The classifier must be trained or the job
        will fail. Input is read from the specified Amazon S3 input bucket and
        written to the specified output bucket. Output data is stored in a tar
        archive compressed in gzip format. The job runs asynchronously, so you can
        call `describe_document_classification_job` to get job status until it
        returns a status of SUCCEEDED.

        :param job_name: The name of the job.
        :param input_bucket: The Amazon S3 bucket that contains input data.
        :param input_key: The prefix used to find input data in the input
                          bucket. If multiple objects have the same prefix, all
                          of them are used.
        :param input_format: The format of the input data, either one document per
                             file or one document per line.
        :param output_bucket: The Amazon S3 bucket where output data is written.
        :param output_key: The prefix prepended to the output data.
        :param data_access_role_arn: The Amazon Resource Name (ARN) of a role that
                                     grants Comprehend permission to read from the
                                     input bucket and write to the output bucket.
        :return: Information about the job, including the job ID.
        """
        try:
            response = self.comprehend_client.start_document_classification_job(
                DocumentClassifierArn=self.classifier_arn,
                JobName=job_name,
                InputDataConfig={
                    "S3Uri": f"s3://{input_bucket}/{input_key}",
                    "InputFormat": input_format.value,
                },
                OutputDataConfig={"S3Uri": f"s3://{output_bucket}/{output_key}"},
                DataAccessRoleArn=data_access_role_arn,
            )
            logger.info(
                "Document classification job %s is %s.", job_name, response["JobStatus"]
            )
        except ClientError:
            logger.exception("Couldn't start classification job %s.", job_name)
            raise
        else:
            return response


    def describe_job(self, job_id):
        """
        Gets metadata about a classification job.

        :param job_id: The ID of the job to look up.
        :return: Metadata about the job.
        """
        try:
            response = self.comprehend_client.describe_document_classification_job(
                JobId=job_id
            )
            job = response["DocumentClassificationJobProperties"]
            logger.info("Got classification job %s.", job["JobName"])
        except ClientError:
            logger.exception("Couldn't get classification job %s.", job_id)
            raise
        else:
            return job


    def list_jobs(self):
        """
        Lists the classification jobs for the current account.

        :return: The list of jobs.
        """
        try:
            response = self.comprehend_client.list_document_classification_jobs()
            jobs = response["DocumentClassificationJobPropertiesList"]
            logger.info("Got %s document classification jobs.", len(jobs))
        except ClientError:
            logger.exception(
                "Couldn't get document classification jobs.",
            )
            raise
        else:
            return jobs
```
Buat kelas untuk membantu menjalankan skenario.  

```
class ClassifierDemo:
    """
    Encapsulates functions used to run the demonstration.
    """

    def __init__(self, demo_resources):
        """
        :param demo_resources: A ComprehendDemoResources class that manages resources
                               for the demonstration.
        """
        self.demo_resources = demo_resources
        self.training_prefix = "training/"
        self.input_prefix = "input/"
        self.input_format = JobInputFormat.per_line
        self.output_prefix = "output/"

    def setup(self):
        """Creates AWS resources used by the demo."""
        self.demo_resources.setup("comprehend-classifier-demo")

    def cleanup(self):
        """Deletes AWS resources used by the demo."""
        self.demo_resources.cleanup()

    @staticmethod
    def _sanitize_text(text):
        """Removes characters that cause errors for the document parser."""
        return text.replace("\r", " ").replace("\n", " ").replace(",", ";")

    @staticmethod
    def _get_issues(query, issue_count):
        """
        Gets issues from GitHub using the specified query parameters.

        :param query: The query string used to request issues from the GitHub API.
        :param issue_count: The number of issues to retrieve.
        :return: The list of issues retrieved from GitHub.
        """
        issues = []
        logger.info("Requesting issues from %s?%s.", GITHUB_SEARCH_URL, query)
        response = requests.get(f"{GITHUB_SEARCH_URL}?{query}&per_page={issue_count}")
        if response.status_code == 200:
            issue_page = response.json()["items"]
            logger.info("Got %s issues.", len(issue_page))
            issues = [
                {
                    "title": ClassifierDemo._sanitize_text(issue["title"]),
                    "body": ClassifierDemo._sanitize_text(issue["body"]),
                    "labels": {label["name"] for label in issue["labels"]},
                }
                for issue in issue_page
            ]
        else:
            logger.error(
                "GitHub returned error code %s with message %s.",
                response.status_code,
                response.json(),
            )
        logger.info("Found %s issues.", len(issues))
        return issues

    def get_training_issues(self, training_labels):
        """
        Gets issues used for training the custom classifier. Training issues are
        closed issues from the Boto3 repo that have known labels. Comprehend
        requires a minimum of ten training issues per label.

        :param training_labels: The issue labels to use for training.
        :return: The set of issues used for training.
        """
        issues = []
        per_label_count = 15
        for label in training_labels:
            issues += self._get_issues(
                f"q=type:issue+repo:boto/boto3+state:closed+label:{label}",
                per_label_count,
            )
            for issue in issues:
                issue["labels"] = issue["labels"].intersection(training_labels)
        return issues

    def get_input_issues(self, training_labels):
        """
        Gets input issues from GitHub. For demonstration purposes, input issues
        are open issues from the Boto3 repo with known labels, though in practice
        any issue could be submitted to the classifier for labeling.

        :param training_labels: The set of labels to query for.
        :return: The set of issues used for input.
        """
        issues = []
        per_label_count = 5
        for label in training_labels:
            issues += self._get_issues(
                f"q=type:issue+repo:boto/boto3+state:open+label:{label}",
                per_label_count,
            )
        return issues

    def upload_issue_data(self, issues, training=False):
        """
        Uploads issue data to an Amazon S3 bucket, either for training or for input.
        The data is first put into the format expected by Comprehend. For training,
        the set of pipe-delimited labels is prepended to each document. For
        input, labels are not sent.

        :param issues: The set of issues to upload to Amazon S3.
        :param training: Indicates whether the issue data is used for training or
                         input.
        """
        try:
            obj_key = (
                self.training_prefix if training else self.input_prefix
            ) + "issues.txt"
            if training:
                issue_strings = [
                    f"{'|'.join(issue['labels'])},{issue['title']} {issue['body']}"
                    for issue in issues
                ]
            else:
                issue_strings = [
                    f"{issue['title']} {issue['body']}" for issue in issues
                ]
            issue_bytes = BytesIO("\n".join(issue_strings).encode("utf-8"))
            self.demo_resources.bucket.upload_fileobj(issue_bytes, obj_key)
            logger.info(
                "Uploaded data as %s to bucket %s.",
                obj_key,
                self.demo_resources.bucket.name,
            )
        except ClientError:
            logger.exception(
                "Couldn't upload data to bucket %s.", self.demo_resources.bucket.name
            )
            raise

    def extract_job_output(self, job):
        """Extracts job output from Amazon S3."""
        return self.demo_resources.extract_job_output(job)

    @staticmethod
    def reconcile_job_output(input_issues, output_dict):
        """
        Reconciles job output with the list of input issues. Because the input issues
        have known labels, these can be compared with the labels added by the
        classifier to judge the accuracy of the output.

        :param input_issues: The list of issues used as input.
        :param output_dict: The dictionary of data that is output by the classifier.
        :return: The list of reconciled input and output data.
        """
        reconciled = []
        for archive in output_dict.values():
            for line in archive["data"]:
                in_line = int(line["Line"])
                in_labels = input_issues[in_line]["labels"]
                out_labels = {
                    label["Name"]
                    for label in line["Labels"]
                    if float(label["Score"]) > 0.3
                }
                reconciled.append(
                    f"{line['File']}, line {in_line} has labels {in_labels}.\n"
                    f"\tClassifier assigned {out_labels}."
                )
        logger.info("Reconciled input and output labels.")
        return reconciled
```
Latih pengklasifikasi pada serangkaian GitHub masalah dengan label yang diketahui, lalu kirim serangkaian GitHub masalah kedua ke pengklasifikasi sehingga dapat diberi label.  

```
def usage_demo():
    print("-" * 88)
    print("Welcome to the Amazon Comprehend custom document classifier demo!")
    print("-" * 88)

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    comp_demo = ClassifierDemo(
        ComprehendDemoResources(boto3.resource("s3"), boto3.resource("iam"))
    )
    comp_classifier = ComprehendClassifier(boto3.client("comprehend"))
    classifier_trained_waiter = ClassifierTrainedWaiter(
        comp_classifier.comprehend_client
    )
    training_labels = {"bug", "feature-request", "dynamodb", "s3"}

    print("Setting up storage and security resources needed for the demo.")
    comp_demo.setup()

    print("Getting training data from GitHub and uploading it to Amazon S3.")
    training_issues = comp_demo.get_training_issues(training_labels)
    comp_demo.upload_issue_data(training_issues, True)

    classifier_name = "doc-example-classifier"
    print(f"Creating document classifier {classifier_name}.")
    comp_classifier.create(
        classifier_name,
        "en",
        comp_demo.demo_resources.bucket.name,
        comp_demo.training_prefix,
        comp_demo.demo_resources.data_access_role.arn,
        ClassifierMode.multi_label,
    )
    print(
        f"Waiting until {classifier_name} is trained. This typically takes "
        f"30–40 minutes."
    )
    classifier_trained_waiter.wait(comp_classifier.classifier_arn)

    print(f"Classifier {classifier_name} is trained:")
    pprint(comp_classifier.describe())

    print("Getting input data from GitHub and uploading it to Amazon S3.")
    input_issues = comp_demo.get_input_issues(training_labels)
    comp_demo.upload_issue_data(input_issues)

    print("Starting classification job on input data.")
    job_info = comp_classifier.start_job(
        "issue_classification_job",
        comp_demo.demo_resources.bucket.name,
        comp_demo.input_prefix,
        comp_demo.input_format,
        comp_demo.demo_resources.bucket.name,
        comp_demo.output_prefix,
        comp_demo.demo_resources.data_access_role.arn,
    )
    print(f"Waiting for job {job_info['JobId']} to complete.")
    job_waiter = JobCompleteWaiter(comp_classifier.comprehend_client)
    job_waiter.wait(job_info["JobId"])

    job = comp_classifier.describe_job(job_info["JobId"])
    print(f"Job {job['JobId']} complete:")
    pprint(job)

    print(
        f"Getting job output data from Amazon S3: "
        f"{job['OutputDataConfig']['S3Uri']}."
    )
    job_output = comp_demo.extract_job_output(job)
    print("Job output:")
    pprint(job_output)

    print("Reconciling job output with labels from GitHub:")
    reconciled_output = comp_demo.reconcile_job_output(input_issues, job_output)
    print(*reconciled_output, sep="\n")

    answer = input(f"Do you want to delete the classifier {classifier_name} (y/n)? ")
    if answer.lower() == "y":
        print(f"Deleting {classifier_name}.")
        comp_classifier.delete()

    print("Cleaning up resources created for the demo.")
    comp_demo.cleanup()

    print("Thanks for watching!")
    print("-" * 88)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateDocumentClassifier](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/CreateDocumentClassifier)
  + [DeleteDocumentClassifier](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DeleteDocumentClassifier)
  + [DescribeDocumentClassificationJob](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DescribeDocumentClassificationJob)
  + [DescribeDocumentClassifier](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/DescribeDocumentClassifier)
  + [ListDocumentClassificationJobs](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/ListDocumentClassificationJobs)
  + [ListDocumentClassifiers](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/ListDocumentClassifiers)
  + [StartDocumentClassificationJob](https://docs.aws.amazon.com/goto/boto3/comprehend-2017-11-27/StartDocumentClassificationJob)

# AWS Config contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_config-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS Config.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteConfigRule`
<a name="config-service_DeleteConfigRule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteConfigRule`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/config#code-examples). 

```
class ConfigWrapper:
    """
    Encapsulates AWS Config functions.
    """

    def __init__(self, config_client):
        """
        :param config_client: A Boto3 AWS Config client.
        """
        self.config_client = config_client


    def delete_config_rule(self, rule_name):
        """
        Delete the specified rule.

        :param rule_name: The name of the rule to delete.
        """
        try:
            self.config_client.delete_config_rule(ConfigRuleName=rule_name)
            logger.info("Deleted rule %s.", rule_name)
        except ClientError:
            logger.exception("Couldn't delete rule %s.", rule_name)
            raise
```
+  Untuk detail API, lihat [DeleteConfigRule](https://docs.aws.amazon.com/goto/boto3/config-2014-11-12/DeleteConfigRule)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeConfigRules`
<a name="config-service_DescribeConfigRules_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeConfigRules`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/config#code-examples). 

```
class ConfigWrapper:
    """
    Encapsulates AWS Config functions.
    """

    def __init__(self, config_client):
        """
        :param config_client: A Boto3 AWS Config client.
        """
        self.config_client = config_client


    def describe_config_rule(self, rule_name):
        """
        Gets data for the specified rule.

        :param rule_name: The name of the rule to retrieve.
        :return: The rule data.
        """
        try:
            response = self.config_client.describe_config_rules(
                ConfigRuleNames=[rule_name]
            )
            rule = response["ConfigRules"]
            logger.info("Got data for rule %s.", rule_name)
        except ClientError:
            logger.exception("Couldn't get data for rule %s.", rule_name)
            raise
        else:
            return rule
```
+  Untuk detail API, lihat [DescribeConfigRules](https://docs.aws.amazon.com/goto/boto3/config-2014-11-12/DescribeConfigRules)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutConfigRule`
<a name="config-service_PutConfigRule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutConfigRule`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/config#code-examples). 

```
class ConfigWrapper:
    """
    Encapsulates AWS Config functions.
    """

    def __init__(self, config_client):
        """
        :param config_client: A Boto3 AWS Config client.
        """
        self.config_client = config_client


    def put_config_rule(self, rule_name):
        """
        Sets a configuration rule that prohibits making Amazon S3 buckets publicly
        readable.

        :param rule_name: The name to give the rule.
        """
        try:
            self.config_client.put_config_rule(
                ConfigRule={
                    "ConfigRuleName": rule_name,
                    "Description": "S3 Public Read Prohibited Bucket Rule",
                    "Scope": {
                        "ComplianceResourceTypes": [
                            "AWS::S3::Bucket",
                        ],
                    },
                    "Source": {
                        "Owner": "AWS",
                        "SourceIdentifier": "S3_BUCKET_PUBLIC_READ_PROHIBITED",
                    },
                    "InputParameters": "{}",
                    "ConfigRuleState": "ACTIVE",
                }
            )
            logger.info("Created configuration rule %s.", rule_name)
        except ClientError:
            logger.exception("Couldn't create configuration rule %s.", rule_name)
            raise
```
+  Untuk detail API, lihat [PutConfigRule](https://docs.aws.amazon.com/goto/boto3/config-2014-11-12/PutConfigRule)di *AWS SDK for Python (Boto3) Referensi* API. 

# AWS Control Tower contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_controltower_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS Control Tower.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Control Tower
<a name="controltower_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Control Tower.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
import boto3
from typing import Any, List


def hello_controltower(controltower_client: Any) -> None:
    """
    Use the AWS SDK for Python (Boto3) to create an AWS Control Tower client
    and list all available baselines.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param controltower_client: A Boto3 AWS Control Tower Client object. This object wraps
                               the low-level AWS Control Tower service API.
    """
    print("Hello, AWS Control Tower! Let's list available baselines:\n")
    paginator = controltower_client.get_paginator("list_baselines")
    page_iterator = paginator.paginate()

    baseline_names: List[str] = []
    try:
        for page in page_iterator:
            for baseline in page["baselines"]:
                baseline_names.append(baseline["name"])

        print(f"{len(baseline_names)} baseline(s) retrieved.")
        for baseline_name in baseline_names:
            print(f"\t{baseline_name}")

    except controltower_client.exceptions.AccessDeniedException:
        print("Access denied. Please ensure you have the necessary permissions.")
    except Exception as e:
        print(f"An error occurred: {str(e)}")


if __name__ == "__main__":
    hello_controltower(boto3.client("controltower"))
```
+  Untuk detail API, lihat [ListBaselines](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListBaselines)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="controltower_Scenario_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar zona pendaratan.
+ Buat daftar, aktifkan, dapatkan, atur ulang, dan nonaktifkan garis dasar.
+ Daftar, aktifkan, dapatkan, dan nonaktifkan kontrol.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 
Jalankan skenario interaktif yang menunjukkan AWS Control Tower fitur.  

```
class ControlTowerScenario:
    IDENTITY_CENTER_BASELINE = "baseline/LN25R72TTG6IGPTQ"
    stack_name = ""

    def __init__(
        self, controltower_wrapper: ControlTowerWrapper, org_client: boto3.client
    ):
        """
        :param controltower_wrapper: An instance of the ControlTowerWrapper class.
        :param org_client: A Boto3 Organization client.
        """
        self.controltower_wrapper = controltower_wrapper
        self.org_client = org_client
        self.stack = None
        self.ou_id = None
        self.ou_arn = None
        self.account_id = None
        self.landing_zone_id = None
        self.use_landing_zone = False

    def run_scenario(self) -> None:
        print("-" * 88)
        print(
            "\tWelcome to the AWS Control Tower with ControlCatalog example scenario."
        )
        print("-" * 88)

        print(
            "This demo will walk you through working with AWS Control Tower for landing zones,\n"
            "managing baselines, and working with controls."
        )

        self.account_id = boto3.client("sts").get_caller_identity()["Account"]

        print(
            "Some demo operations require the use of a landing zone. "
            "\nYou can use an existing landing zone or opt out of these operations in the demo."
            "\nFor instructions on how to set up a landing zone, "
            "\nsee https://docs.aws.amazon.com/controltower/latest/userguide/getting-started-from-console.html"
        )
        # List available landing zones
        landing_zones = self.controltower_wrapper.list_landing_zones()
        if landing_zones:
            print("\nAvailable Landing Zones:")
            for i, lz in enumerate(landing_zones, 1):
                print(f"{i} {lz['arn']})")

            # Ask if user wants to use the first landing zone in the list
            if q.ask(
                f"Do you want to use the first landing zone in the list ({landing_zones[0]['arn']})? (y/n) ",
                q.is_yesno,
            ):
                self.use_landing_zone = True
                self.landing_zone_id = landing_zones[0]["arn"]
                print(f"Using landing zone ID: {self.landing_zone_id})")
                # Set up organization and get Sandbox OU ID.
                sandbox_ou_id = self.setup_organization()
                # Store the OU ID for use in the CloudFormation template.
                self.ou_id = sandbox_ou_id
            elif q.ask(
                f"Do you want to use a different existing Landing Zone for this demo? (y/n) ",
                q.is_yesno,
            ):
                self.use_landing_zone = True
                self.landing_zone_id = q.ask("Enter landing zone id: ", q.non_empty)
                # Set up organization and get Sandbox OU ID.
                sandbox_ou_id = self.setup_organization()
                # Store the OU ID for use in the CloudFormation template.
                self.ou_id = sandbox_ou_id

        # List and Enable Baseline.
        print("\nManaging Baselines:")
        control_tower_baseline = None
        identity_center_baseline = None
        baselines = self.controltower_wrapper.list_baselines()
        print("\nListing available Baselines:")
        for baseline in baselines:
            if baseline["name"] == "AWSControlTowerBaseline":
                control_tower_baseline = baseline
            print(f"{baseline['name']}")

        if self.use_landing_zone:
            print("\nListing enabled baselines:")
            enabled_baselines = self.controltower_wrapper.list_enabled_baselines()
            for baseline in enabled_baselines:
                # If the Identity Center baseline is enabled, the identifier must be used for other baselines.
                if self.IDENTITY_CENTER_BASELINE in baseline["baselineIdentifier"]:
                    identity_center_baseline = baseline
                print(f"{baseline['baselineIdentifier']}")

            if q.ask(
                f"Do you want to enable the Control Tower Baseline? (y/n) ",
                q.is_yesno,
            ):
                print("\nEnabling Control Tower Baseline.")
                ic_baseline_arn = (
                    identity_center_baseline["arn"]
                    if identity_center_baseline
                    else None
                )
                baseline_arn = self.controltower_wrapper.enable_baseline(
                    self.ou_arn, ic_baseline_arn, control_tower_baseline["arn"], "5.0"
                )
                if baseline_arn:
                    print(f"Enabled baseline ARN: {baseline_arn}")
                else:
                    # Find the enabled baseline so we can reset it.
                    for enabled_baseline in enabled_baselines:
                        if (
                            enabled_baseline["baselineIdentifier"]
                            == control_tower_baseline["arn"]
                        ):
                            baseline_arn = enabled_baseline["arn"]
                    if baseline_arn:
                        print("No change, the selected baseline was already enabled.")

                if baseline_arn and q.ask(
                    f"Do you want to reset the Control Tower Baseline? (y/n) ",
                    q.is_yesno,
                ):
                    print(f"\nResetting Control Tower Baseline. {baseline_arn}")
                    operation_id = self.controltower_wrapper.reset_enabled_baseline(
                        baseline_arn
                    )
                    print(f"\nReset baseline operation id {operation_id}.")

                if baseline_arn and q.ask(
                    f"Do you want to disable the Control Tower Baseline? (y/n) ",
                    q.is_yesno,
                ):
                    print(f"Disabling baseline ARN: {baseline_arn}")
                    operation_id = self.controltower_wrapper.disable_baseline(
                        baseline_arn
                    )
                    print(f"\nDisabled baseline operation id {operation_id}.")

                    # Re-enable the baseline for the next step.
                    print("\nEnabling Control Tower Baseline.")
                    self.controltower_wrapper.enable_baseline(
                        self.ou_arn,
                        ic_baseline_arn,
                        control_tower_baseline["arn"],
                        "5.0",
                    )

        # List and Enable Controls.
        print("\nManaging Controls:")
        controls = self.controltower_wrapper.list_controls()
        print("\nListing first 5 available Controls:")
        for i, control in enumerate(controls[:5], 1):
            print(f"{i}. {control['Name']} - {control['Arn']}")

        if self.use_landing_zone:
            target_ou = self.ou_arn
            enabled_controls = self.controltower_wrapper.list_enabled_controls(
                target_ou
            )
            print("\nListing enabled controls:")
            for i, control in enumerate(enabled_controls, 1):
                print(f"{i}. {control['controlIdentifier']}")

            # Enable first non-enabled control as an example.
            enabled_control_arns = [control["arn"] for control in enabled_controls]
            control_arn = next(
                control["Arn"]
                for control in controls
                if control["Arn"] not in enabled_control_arns
            )

            if control_arn and q.ask(
                f"Do you want to enable the control {control_arn}? (y/n) ",
                q.is_yesno,
            ):
                print(f"\nEnabling control: {control_arn}")
                operation_id = self.controltower_wrapper.enable_control(
                    control_arn, target_ou
                )

                if operation_id:
                    print(f"Enabled control with operation id {operation_id}")

            if control_arn and q.ask(
                f"Do you want to disable the control? (y/n) ",
                q.is_yesno,
            ):
                print("\nDisabling the control...")
                operation_id = self.controltower_wrapper.disable_control(
                    control_arn, target_ou
                )
                print(f"Disable operation ID: {operation_id}")

        print("\nThis concludes the example scenario.")

        print("Thanks for watching!")
        print("-" * 88)

    def setup_organization(self):
        """
        Checks if the current account is part of an organization and creates one if needed.
        Also ensures a Sandbox OU exists and returns its ID.

        :return: The ID of the Sandbox OU
        """
        print("\nChecking organization status...")

        try:
            # Check if account is part of an organization
            org_response = self.org_client.describe_organization()
            org_id = org_response["Organization"]["Id"]
            print(f"Account is part of organization: {org_id}")

        except ClientError as error:
            if error.response["Error"]["Code"] == "AWSOrganizationsNotInUseException":
                print("No organization found. Creating a new organization...")
                try:
                    create_response = self.org_client.create_organization(
                        FeatureSet="ALL"
                    )
                    org_id = create_response["Organization"]["Id"]
                    print(f"Created new organization: {org_id}")

                    # Wait for organization to be available.
                    waiter = self.org_client.get_waiter("organization_active")
                    waiter.wait(
                        Organization=org_id,
                        WaiterConfig={"Delay": 5, "MaxAttempts": 12},
                    )

                except ClientError as create_error:
                    logger.error(
                        "Couldn't create organization. Here's why: %s: %s",
                        create_error.response["Error"]["Code"],
                        create_error.response["Error"]["Message"],
                    )
                    raise
            else:
                logger.error(
                    "Couldn't describe organization. Here's why: %s: %s",
                    error.response["Error"]["Code"],
                    error.response["Error"]["Message"],
                )
                raise

        # Look for Sandbox OU.
        sandbox_ou_id = None
        paginator = self.org_client.get_paginator(
            "list_organizational_units_for_parent"
        )

        try:
            # Get root ID first.
            roots = self.org_client.list_roots()["Roots"]
            if not roots:
                raise ValueError("No root found in organization")
            root_id = roots[0]["Id"]

            # Search for existing Sandbox OU.
            print("Checking for Sandbox OU...")
            for page in paginator.paginate(ParentId=root_id):
                for ou in page["OrganizationalUnits"]:
                    if ou["Name"] == "Sandbox":
                        sandbox_ou_id = ou["Id"]
                        self.ou_arn = ou["Arn"]
                        print(f"Found existing Sandbox OU: {sandbox_ou_id}")
                        break
                if sandbox_ou_id:
                    break

            # Create Sandbox OU if it doesn't exist.
            if not sandbox_ou_id:
                print("Creating Sandbox OU...")
                create_ou_response = self.org_client.create_organizational_unit(
                    ParentId=root_id, Name="Sandbox"
                )
                sandbox_ou_id = create_ou_response["OrganizationalUnit"]["Id"]
                print(f"Created new Sandbox OU: {sandbox_ou_id}")

                # Wait for OU to be available.
                waiter = self.org_client.get_waiter("organizational_unit_active")
                waiter.wait(
                    OrganizationalUnitId=sandbox_ou_id,
                    WaiterConfig={"Delay": 5, "MaxAttempts": 12},
                )

        except ClientError as error:
            logger.error(
                "Couldn't set up Sandbox OU. Here's why: %s: %s",
                error.response["Error"]["Code"],
                error.response["Error"]["Message"],
            )
            raise

        return sandbox_ou_id


if __name__ == "__main__":
    try:
        org = boto3.client("organizations")
        control_tower_wrapper = ControlTowerWrapper.from_client()

        scenario = ControlTowerScenario(control_tower_wrapper, org)
        scenario.run_scenario()
    except Exception:
        logging.exception("Something went wrong with the scenario.")



class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def list_baselines(self):
        """
        Lists all baselines.

        :return: List of baselines.
        :raises ClientError: If the listing operation fails.
        """
        try:
            paginator = self.controltower_client.get_paginator("list_baselines")
            baselines = []
            for page in paginator.paginate():
                baselines.extend(page["baselines"])
            return baselines

        except ClientError as err:
            if err.response["Error"]["Code"] == "AccessDeniedException":
                logger.error(
                    "Access denied. Please ensure you have the necessary permissions."
                )
            else:
                logger.error(
                    "Couldn't list baselines. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def enable_baseline(
        self,
        target_identifier: str,
        identity_center_baseline: str,
        baseline_identifier: str,
        baseline_version: str,
    ):
        """
        Enables a baseline for the specified target if it's not already enabled.

        :param target_identifier: The ARN of the target.
        :param baseline_identifier: The identifier of baseline to enable.
        :param identity_center_baseline: The identifier of identity center baseline if it is enabled.
        :param baseline_version: The version of baseline to enable.
        :return: The enabled baseline ARN or None if already enabled.
        :raises ClientError: If enabling the baseline fails for reasons other than it being already enabled.
        """
        try:
            # Only include parameters if identity_center_baseline is not empty
            parameters = []
            if identity_center_baseline:
                parameters = [
                    {
                        "key": "IdentityCenterEnabledBaselineArn",
                        "value": identity_center_baseline,
                    }
                ]
            
            response = self.controltower_client.enable_baseline(
                baselineIdentifier=baseline_identifier,
                baselineVersion=baseline_version,
                targetIdentifier=target_identifier,
                parameters=parameters,
            )

            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_baseline_operation(operation_id)
                print(f"Baseline operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)

            return response["arn"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ValidationException":
                if "already enabled" in err.response["Error"]["Message"]:
                    print("Baseline is already enabled for this target")
                else:
                    print(
                        "Unable to enable baseline due to validation exception: %s: %s",
                        err.response["Error"]["Code"],
                        err.response["Error"]["Message"],
                    )
            logger.error(
                "Couldn't enable baseline. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            return None


    def list_controls(self):
        """
        Lists all controls in the Control Tower control catalog.

        :return: List of controls.
        :raises ClientError: If the listing operation fails.
        """
        try:
            paginator = self.controlcatalog_client.get_paginator("list_controls")
            controls = []
            for page in paginator.paginate():
                controls.extend(page["Controls"])
            return controls

        except ClientError as err:
            if err.response["Error"]["Code"] == "AccessDeniedException":
                logger.error(
                    "Access denied. Please ensure you have the necessary permissions."
                )
            else:
                logger.error(
                    "Couldn't list controls. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def enable_control(self, control_arn: str, target_identifier: str):
        """
        Enables a control for a specified target.

        :param control_arn: The ARN of the control to enable.
        :param target_identifier: The identifier of the target (e.g., OU ARN).
        :return: The operation ID.
        :raises ClientError: If enabling the control fails.
        """
        try:
            print(control_arn)
            print(target_identifier)
            response = self.controltower_client.enable_control(
                controlIdentifier=control_arn, targetIdentifier=target_identifier
            )

            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_control_operation(operation_id)
                print(f"Control operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)

            return operation_id

        except ClientError as err:
            if (
                err.response["Error"]["Code"] == "ValidationException"
                and "already enabled" in err.response["Error"]["Message"]
            ):
                logger.info("Control is already enabled for this target")
                return None
            elif (
                err.response["Error"]["Code"] == "ResourceNotFoundException"
                and "not registered with AWS Control Tower"
                in err.response["Error"]["Message"]
            ):
                logger.error("Control Tower must be enabled to work with controls.")
                return None
            logger.error(
                "Couldn't enable control. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def get_control_operation(self, operation_id: str):
        """
        Gets the status of a control operation.

        :param operation_id: The ID of the control operation.
        :return: The operation status.
        :raises ClientError: If getting the operation status fails.
        """
        try:
            response = self.controltower_client.get_control_operation(
                operationIdentifier=operation_id
            )
            return response["controlOperation"]["status"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Operation not found.")
            else:
                logger.error(
                    "Couldn't get control operation status. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def get_baseline_operation(self, operation_id: str):
        """
        Gets the status of a baseline operation.

        :param operation_id: The ID of the baseline operation.
        :return: The operation status.
        :raises ClientError: If getting the operation status fails.
        """
        try:
            response = self.controltower_client.get_baseline_operation(
                operationIdentifier=operation_id
            )
            return response["baselineOperation"]["status"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Operation not found.")
            else:
                logger.error(
                    "Couldn't get baseline operation status. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def disable_control(self, control_arn: str, target_identifier: str):
        """
        Disables a control for a specified target.

        :param control_arn: The ARN of the control to disable.
        :param target_identifier: The identifier of the target (e.g., OU ARN).
        :return: The operation ID.
        :raises ClientError: If disabling the control fails.
        """
        try:
            response = self.controltower_client.disable_control(
                controlIdentifier=control_arn, targetIdentifier=target_identifier
            )

            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_control_operation(operation_id)
                print(f"Control operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)

            return operation_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Control not found.")
            else:
                logger.error(
                    "Couldn't disable control. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def list_landing_zones(self):
        """
        Lists all landing zones.

        :return: List of landing zones.
        :raises ClientError: If the listing operation fails.
        """
        try:
            paginator = self.controltower_client.get_paginator("list_landing_zones")
            landing_zones = []
            for page in paginator.paginate():
                landing_zones.extend(page["landingZones"])
            return landing_zones

        except ClientError as err:
            if err.response["Error"]["Code"] == "AccessDeniedException":
                logger.error(
                    "Access denied. Please ensure you have the necessary permissions."
                )
            else:
                logger.error(
                    "Couldn't list landing zones. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def list_enabled_baselines(self):
        """
        Lists all enabled baselines.

        :return: List of enabled baselines.
        :raises ClientError: If the listing operation fails.
        """
        try:
            paginator = self.controltower_client.get_paginator("list_enabled_baselines")
            enabled_baselines = []
            for page in paginator.paginate():
                enabled_baselines.extend(page["enabledBaselines"])
            return enabled_baselines

        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Target not found.")
            else:
                logger.error(
                    "Couldn't list enabled baselines. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def reset_enabled_baseline(self, enabled_baseline_identifier: str):
        """
        Resets an enabled baseline for a specific target.

        :param enabled_baseline_identifier: The identifier of the enabled baseline to reset.
        :return: The operation ID.
        :raises ClientError: If resetting the baseline fails.
        """
        try:
            response = self.controltower_client.reset_enabled_baseline(
                enabledBaselineIdentifier=enabled_baseline_identifier
            )
            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_baseline_operation(operation_id)
                print(f"Baseline operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)
            return operation_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Target not found.")
            else:
                logger.error(
                    "Couldn't reset enabled baseline. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def disable_baseline(self, enabled_baseline_identifier: str):
        """
        Disables a baseline for a specific target and waits for the operation to complete.

        :param enabled_baseline_identifier: The identifier of the baseline to disable.
        :return: The operation ID.
        :raises ClientError: If disabling the baseline fails.
        """
        try:
            response = self.controltower_client.disable_baseline(
                enabledBaselineIdentifier=enabled_baseline_identifier
            )

            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_baseline_operation(operation_id)
                print(f"Baseline operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)

            return response["operationIdentifier"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ConflictException":
                print(
                    f"Conflict disabling baseline: {err.response['Error']['Message']}. Skipping disable step."
                )
                return None
            else:
                logger.error(
                    "Couldn't disable baseline. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise


    def list_enabled_controls(self, target_identifier: str):
        """
        Lists all enabled controls for a specific target.

        :param target_identifier: The identifier of the target (e.g., OU ARN).
        :return: List of enabled controls.
        :raises ClientError: If the listing operation fails.
        """
        enabled_controls = []
        try:
            paginator = self.controltower_client.get_paginator("list_enabled_controls")

            for page in paginator.paginate(targetIdentifier=target_identifier):
                enabled_controls.extend(page["enabledControls"])
            return enabled_controls

        except ClientError as err:
            if err.response["Error"]["Code"] == "AccessDeniedException":
                logger.error(
                    "Access denied. Please ensure you have the necessary permissions."
                )
                return enabled_controls
            elif (
                err.response["Error"]["Code"] == "ResourceNotFoundException"
                and "not registered with AWS Control Tower"
                in err.response["Error"]["Message"]
            ):
                logger.error("Control Tower must be enabled to work with controls.")
                return enabled_controls
            else:
                logger.error(
                    "Couldn't list enabled controls. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateLandingZone](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/CreateLandingZone)
  + [DeleteLandingZone](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/DeleteLandingZone)
  + [DisableBaseline](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/DisableBaseline)
  + [DisableControl](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/DisableControl)
  + [EnableBaseline](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/EnableBaseline)
  + [EnableControl](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/EnableControl)
  + [GetControlOperation](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/GetControlOperation)
  + [GetLandingZoneOperation](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/GetLandingZoneOperation)
  + [ListBaselines](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListBaselines)
  + [ListEnabledBaselines](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListEnabledBaselines)
  + [ListEnabledControls](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListEnabledControls)
  + [ListLandingZones](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListLandingZones)
  + [ResetEnabledBaseline](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ResetEnabledBaseline)

## Tindakan
<a name="actions"></a>

### `DisableBaseline`
<a name="controltower_DisableBaseline_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableBaseline`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def disable_baseline(self, enabled_baseline_identifier: str):
        """
        Disables a baseline for a specific target and waits for the operation to complete.

        :param enabled_baseline_identifier: The identifier of the baseline to disable.
        :return: The operation ID.
        :raises ClientError: If disabling the baseline fails.
        """
        try:
            response = self.controltower_client.disable_baseline(
                enabledBaselineIdentifier=enabled_baseline_identifier
            )

            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_baseline_operation(operation_id)
                print(f"Baseline operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)

            return response["operationIdentifier"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ConflictException":
                print(
                    f"Conflict disabling baseline: {err.response['Error']['Message']}. Skipping disable step."
                )
                return None
            else:
                logger.error(
                    "Couldn't disable baseline. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
```
+  Untuk detail API, lihat [DisableBaseline](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/DisableBaseline)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DisableControl`
<a name="controltower_DisableControl_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableControl`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def disable_control(self, control_arn: str, target_identifier: str):
        """
        Disables a control for a specified target.

        :param control_arn: The ARN of the control to disable.
        :param target_identifier: The identifier of the target (e.g., OU ARN).
        :return: The operation ID.
        :raises ClientError: If disabling the control fails.
        """
        try:
            response = self.controltower_client.disable_control(
                controlIdentifier=control_arn, targetIdentifier=target_identifier
            )

            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_control_operation(operation_id)
                print(f"Control operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)

            return operation_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Control not found.")
            else:
                logger.error(
                    "Couldn't disable control. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [DisableControl](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/DisableControl)di *AWS SDK for Python (Boto3) Referensi* API. 

### `EnableBaseline`
<a name="controltower_EnableBaseline_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableBaseline`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def enable_baseline(
        self,
        target_identifier: str,
        identity_center_baseline: str,
        baseline_identifier: str,
        baseline_version: str,
    ):
        """
        Enables a baseline for the specified target if it's not already enabled.

        :param target_identifier: The ARN of the target.
        :param baseline_identifier: The identifier of baseline to enable.
        :param identity_center_baseline: The identifier of identity center baseline if it is enabled.
        :param baseline_version: The version of baseline to enable.
        :return: The enabled baseline ARN or None if already enabled.
        :raises ClientError: If enabling the baseline fails for reasons other than it being already enabled.
        """
        try:
            # Only include parameters if identity_center_baseline is not empty
            parameters = []
            if identity_center_baseline:
                parameters = [
                    {
                        "key": "IdentityCenterEnabledBaselineArn",
                        "value": identity_center_baseline,
                    }
                ]
            
            response = self.controltower_client.enable_baseline(
                baselineIdentifier=baseline_identifier,
                baselineVersion=baseline_version,
                targetIdentifier=target_identifier,
                parameters=parameters,
            )

            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_baseline_operation(operation_id)
                print(f"Baseline operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)

            return response["arn"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ValidationException":
                if "already enabled" in err.response["Error"]["Message"]:
                    print("Baseline is already enabled for this target")
                else:
                    print(
                        "Unable to enable baseline due to validation exception: %s: %s",
                        err.response["Error"]["Code"],
                        err.response["Error"]["Message"],
                    )
            logger.error(
                "Couldn't enable baseline. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            return None
```
+  Untuk detail API, lihat [EnableBaseline](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/EnableBaseline)di *AWS SDK for Python (Boto3) Referensi* API. 

### `EnableControl`
<a name="controltower_EnableControl_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableControl`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def enable_control(self, control_arn: str, target_identifier: str):
        """
        Enables a control for a specified target.

        :param control_arn: The ARN of the control to enable.
        :param target_identifier: The identifier of the target (e.g., OU ARN).
        :return: The operation ID.
        :raises ClientError: If enabling the control fails.
        """
        try:
            print(control_arn)
            print(target_identifier)
            response = self.controltower_client.enable_control(
                controlIdentifier=control_arn, targetIdentifier=target_identifier
            )

            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_control_operation(operation_id)
                print(f"Control operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)

            return operation_id

        except ClientError as err:
            if (
                err.response["Error"]["Code"] == "ValidationException"
                and "already enabled" in err.response["Error"]["Message"]
            ):
                logger.info("Control is already enabled for this target")
                return None
            elif (
                err.response["Error"]["Code"] == "ResourceNotFoundException"
                and "not registered with AWS Control Tower"
                in err.response["Error"]["Message"]
            ):
                logger.error("Control Tower must be enabled to work with controls.")
                return None
            logger.error(
                "Couldn't enable control. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [EnableControl](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/EnableControl)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetBaselineOperation`
<a name="controltower_GetBaselineOperation_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBaselineOperation`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def get_baseline_operation(self, operation_id: str):
        """
        Gets the status of a baseline operation.

        :param operation_id: The ID of the baseline operation.
        :return: The operation status.
        :raises ClientError: If getting the operation status fails.
        """
        try:
            response = self.controltower_client.get_baseline_operation(
                operationIdentifier=operation_id
            )
            return response["baselineOperation"]["status"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Operation not found.")
            else:
                logger.error(
                    "Couldn't get baseline operation status. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [GetBaselineOperation](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/GetBaselineOperation)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetControlOperation`
<a name="controltower_GetControlOperation_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetControlOperation`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def get_control_operation(self, operation_id: str):
        """
        Gets the status of a control operation.

        :param operation_id: The ID of the control operation.
        :return: The operation status.
        :raises ClientError: If getting the operation status fails.
        """
        try:
            response = self.controltower_client.get_control_operation(
                operationIdentifier=operation_id
            )
            return response["controlOperation"]["status"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Operation not found.")
            else:
                logger.error(
                    "Couldn't get control operation status. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [GetControlOperation](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/GetControlOperation)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListBaselines`
<a name="controltower_ListBaselines_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBaselines`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def list_baselines(self):
        """
        Lists all baselines.

        :return: List of baselines.
        :raises ClientError: If the listing operation fails.
        """
        try:
            paginator = self.controltower_client.get_paginator("list_baselines")
            baselines = []
            for page in paginator.paginate():
                baselines.extend(page["baselines"])
            return baselines

        except ClientError as err:
            if err.response["Error"]["Code"] == "AccessDeniedException":
                logger.error(
                    "Access denied. Please ensure you have the necessary permissions."
                )
            else:
                logger.error(
                    "Couldn't list baselines. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [ListBaselines](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListBaselines)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListEnabledBaselines`
<a name="controltower_ListEnabledBaselines_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEnabledBaselines`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def list_enabled_baselines(self):
        """
        Lists all enabled baselines.

        :return: List of enabled baselines.
        :raises ClientError: If the listing operation fails.
        """
        try:
            paginator = self.controltower_client.get_paginator("list_enabled_baselines")
            enabled_baselines = []
            for page in paginator.paginate():
                enabled_baselines.extend(page["enabledBaselines"])
            return enabled_baselines

        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Target not found.")
            else:
                logger.error(
                    "Couldn't list enabled baselines. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [ListEnabledBaselines](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListEnabledBaselines)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListEnabledControls`
<a name="controltower_ListEnabledControls_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEnabledControls`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def list_enabled_controls(self, target_identifier: str):
        """
        Lists all enabled controls for a specific target.

        :param target_identifier: The identifier of the target (e.g., OU ARN).
        :return: List of enabled controls.
        :raises ClientError: If the listing operation fails.
        """
        enabled_controls = []
        try:
            paginator = self.controltower_client.get_paginator("list_enabled_controls")

            for page in paginator.paginate(targetIdentifier=target_identifier):
                enabled_controls.extend(page["enabledControls"])
            return enabled_controls

        except ClientError as err:
            if err.response["Error"]["Code"] == "AccessDeniedException":
                logger.error(
                    "Access denied. Please ensure you have the necessary permissions."
                )
                return enabled_controls
            elif (
                err.response["Error"]["Code"] == "ResourceNotFoundException"
                and "not registered with AWS Control Tower"
                in err.response["Error"]["Message"]
            ):
                logger.error("Control Tower must be enabled to work with controls.")
                return enabled_controls
            else:
                logger.error(
                    "Couldn't list enabled controls. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [ListEnabledControls](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListEnabledControls)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListLandingZones`
<a name="controltower_ListLandingZones_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLandingZones`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def list_landing_zones(self):
        """
        Lists all landing zones.

        :return: List of landing zones.
        :raises ClientError: If the listing operation fails.
        """
        try:
            paginator = self.controltower_client.get_paginator("list_landing_zones")
            landing_zones = []
            for page in paginator.paginate():
                landing_zones.extend(page["landingZones"])
            return landing_zones

        except ClientError as err:
            if err.response["Error"]["Code"] == "AccessDeniedException":
                logger.error(
                    "Access denied. Please ensure you have the necessary permissions."
                )
            else:
                logger.error(
                    "Couldn't list landing zones. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [ListLandingZones](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ListLandingZones)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ResetEnabledBaseline`
<a name="controltower_ResetEnabledBaseline_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResetEnabledBaseline`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/controltower#code-examples). 

```
class ControlTowerWrapper:
    """Encapsulates AWS Control Tower and Control Catalog functionality."""

    def __init__(
        self, controltower_client: boto3.client, controlcatalog_client: boto3.client
    ):
        """
        :param controltower_client: A Boto3 Amazon ControlTower client.
        :param controlcatalog_client: A Boto3 Amazon ControlCatalog client.
        """
        self.controltower_client = controltower_client
        self.controlcatalog_client = controlcatalog_client

    @classmethod
    def from_client(cls):
        controltower_client = boto3.client("controltower")
        controlcatalog_client = boto3.client("controlcatalog")
        return cls(controltower_client, controlcatalog_client)


    def reset_enabled_baseline(self, enabled_baseline_identifier: str):
        """
        Resets an enabled baseline for a specific target.

        :param enabled_baseline_identifier: The identifier of the enabled baseline to reset.
        :return: The operation ID.
        :raises ClientError: If resetting the baseline fails.
        """
        try:
            response = self.controltower_client.reset_enabled_baseline(
                enabledBaselineIdentifier=enabled_baseline_identifier
            )
            operation_id = response["operationIdentifier"]
            while True:
                status = self.get_baseline_operation(operation_id)
                print(f"Baseline operation status: {status}")
                if status in ["SUCCEEDED", "FAILED"]:
                    break
                time.sleep(30)
            return operation_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Target not found.")
            else:
                logger.error(
                    "Couldn't reset enabled baseline. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [ResetEnabledBaseline](https://docs.aws.amazon.com/goto/boto3/controltower-2018-05-10/ResetEnabledBaseline)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Firehose menggunakan SDK for Python (Boto3)
<a name="python_3_firehose_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) Firehose with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `PutRecord`
<a name="firehose_PutRecord_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecord`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/firehose#code-examples). 

```
class FirehoseClient:
    """
    AWS Firehose client to send records and monitor metrics.

    Attributes:
        config (object): Configuration object with delivery stream name and region.
        delivery_stream_name (str): Name of the Firehose delivery stream.
        region (str): AWS region for Firehose and CloudWatch clients.
        firehose (boto3.client): Boto3 Firehose client.
        cloudwatch (boto3.client): Boto3 CloudWatch client.
    """

    def __init__(self, config):
        """
        Initialize the FirehoseClient.

        Args:
            config (object): Configuration object with delivery stream name and region.
        """
        self.config = config
        self.delivery_stream_name = config.delivery_stream_name
        self.region = config.region
        self.firehose = boto3.client("firehose", region_name=self.region)
        self.cloudwatch = boto3.client("cloudwatch", region_name=self.region)


    @backoff.on_exception(
        backoff.expo, Exception, max_tries=5, jitter=backoff.full_jitter
    )
    def put_record(self, record: dict):
        """
        Put individual records to Firehose with backoff and retry.

        Args:
            record (dict): The data record to be sent to Firehose.

        This method attempts to send an individual record to the Firehose delivery stream.
        It retries with exponential backoff in case of exceptions.
        """
        try:
            entry = self._create_record_entry(record)
            response = self.firehose.put_record(
                DeliveryStreamName=self.delivery_stream_name, Record=entry
            )
            self._log_response(response, entry)
        except Exception:
            logger.info(f"Fail record: {record}.")
            raise
```
+  Untuk detail API, lihat [PutRecord](https://docs.aws.amazon.com/goto/boto3/firehose-2015-08-04/PutRecord)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutRecordBatch`
<a name="firehose_PutRecordBatch_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecordBatch`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/firehose#code-examples). 

```
class FirehoseClient:
    """
    AWS Firehose client to send records and monitor metrics.

    Attributes:
        config (object): Configuration object with delivery stream name and region.
        delivery_stream_name (str): Name of the Firehose delivery stream.
        region (str): AWS region for Firehose and CloudWatch clients.
        firehose (boto3.client): Boto3 Firehose client.
        cloudwatch (boto3.client): Boto3 CloudWatch client.
    """

    def __init__(self, config):
        """
        Initialize the FirehoseClient.

        Args:
            config (object): Configuration object with delivery stream name and region.
        """
        self.config = config
        self.delivery_stream_name = config.delivery_stream_name
        self.region = config.region
        self.firehose = boto3.client("firehose", region_name=self.region)
        self.cloudwatch = boto3.client("cloudwatch", region_name=self.region)


    @backoff.on_exception(
        backoff.expo, Exception, max_tries=5, jitter=backoff.full_jitter
    )
    def put_record_batch(self, data: list, batch_size: int = 500):
        """
        Put records in batches to Firehose with backoff and retry.

        Args:
            data (list): List of data records to be sent to Firehose.
            batch_size (int): Number of records to send in each batch. Default is 500.

        This method attempts to send records in batches to the Firehose delivery stream.
        It retries with exponential backoff in case of exceptions.
        """
        for i in range(0, len(data), batch_size):
            batch = data[i : i + batch_size]
            record_dicts = [{"Data": json.dumps(record)} for record in batch]
            try:
                response = self.firehose.put_record_batch(
                    DeliveryStreamName=self.delivery_stream_name, Records=record_dicts
                )
                self._log_batch_response(response, len(batch))
            except Exception as e:
                logger.info(f"Failed to send batch of {len(batch)} records. Error: {e}")
```
+  Untuk detail API, lihat [PutRecordBatch](https://docs.aws.amazon.com/goto/boto3/firehose-2015-08-04/PutRecordBatch)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Masukkan catatan ke Firehose
<a name="firehose_Scenario_PutRecords_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Firehose untuk memproses catatan individu dan batch.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/firehose/scenarios/firehose-put-actions#code-examples). 
Skrip ini menempatkan catatan individu dan batch ke Firehose.  

```
import json
import logging
import random
from datetime import datetime, timedelta

import backoff
import boto3

from config import get_config


def load_sample_data(path: str) -> dict:
    """
    Load sample data from a JSON file.

    Args:
        path (str): The file path to the JSON file containing sample data.

    Returns:
        dict: The loaded sample data as a dictionary.
    """
    with open(path, "r") as f:
        return json.load(f)


# Configure logging
logging.basicConfig(level=logging.INFO)
logger = logging.getLogger(__name__)


class FirehoseClient:
    """
    AWS Firehose client to send records and monitor metrics.

    Attributes:
        config (object): Configuration object with delivery stream name and region.
        delivery_stream_name (str): Name of the Firehose delivery stream.
        region (str): AWS region for Firehose and CloudWatch clients.
        firehose (boto3.client): Boto3 Firehose client.
        cloudwatch (boto3.client): Boto3 CloudWatch client.
    """

    def __init__(self, config):
        """
        Initialize the FirehoseClient.

        Args:
            config (object): Configuration object with delivery stream name and region.
        """
        self.config = config
        self.delivery_stream_name = config.delivery_stream_name
        self.region = config.region
        self.firehose = boto3.client("firehose", region_name=self.region)
        self.cloudwatch = boto3.client("cloudwatch", region_name=self.region)


    @backoff.on_exception(
        backoff.expo, Exception, max_tries=5, jitter=backoff.full_jitter
    )
    def put_record(self, record: dict):
        """
        Put individual records to Firehose with backoff and retry.

        Args:
            record (dict): The data record to be sent to Firehose.

        This method attempts to send an individual record to the Firehose delivery stream.
        It retries with exponential backoff in case of exceptions.
        """
        try:
            entry = self._create_record_entry(record)
            response = self.firehose.put_record(
                DeliveryStreamName=self.delivery_stream_name, Record=entry
            )
            self._log_response(response, entry)
        except Exception:
            logger.info(f"Fail record: {record}.")
            raise


    @backoff.on_exception(
        backoff.expo, Exception, max_tries=5, jitter=backoff.full_jitter
    )
    def put_record_batch(self, data: list, batch_size: int = 500):
        """
        Put records in batches to Firehose with backoff and retry.

        Args:
            data (list): List of data records to be sent to Firehose.
            batch_size (int): Number of records to send in each batch. Default is 500.

        This method attempts to send records in batches to the Firehose delivery stream.
        It retries with exponential backoff in case of exceptions.
        """
        for i in range(0, len(data), batch_size):
            batch = data[i : i + batch_size]
            record_dicts = [{"Data": json.dumps(record)} for record in batch]
            try:
                response = self.firehose.put_record_batch(
                    DeliveryStreamName=self.delivery_stream_name, Records=record_dicts
                )
                self._log_batch_response(response, len(batch))
            except Exception as e:
                logger.info(f"Failed to send batch of {len(batch)} records. Error: {e}")


    def get_metric_statistics(
        self,
        metric_name: str,
        start_time: datetime,
        end_time: datetime,
        period: int,
        statistics: list = ["Sum"],
    ) -> list:
        """
        Retrieve metric statistics from CloudWatch.

        Args:
            metric_name (str): The name of the metric.
            start_time (datetime): The start time for the metric statistics.
            end_time (datetime): The end time for the metric statistics.
            period (int): The granularity, in seconds, of the returned data points.
            statistics (list): A list of statistics to retrieve. Default is ['Sum'].

        Returns:
            list: List of datapoints containing the metric statistics.
        """
        response = self.cloudwatch.get_metric_statistics(
            Namespace="AWS/Firehose",
            MetricName=metric_name,
            Dimensions=[
                {"Name": "DeliveryStreamName", "Value": self.delivery_stream_name},
            ],
            StartTime=start_time,
            EndTime=end_time,
            Period=period,
            Statistics=statistics,
        )
        return response["Datapoints"]

    def monitor_metrics(self):
        """
        Monitor Firehose metrics for the last 5 minutes.

        This method retrieves and logs the 'IncomingBytes', 'IncomingRecords', and 'FailedPutCount' metrics
        from CloudWatch for the last 5 minutes.
        """
        end_time = datetime.utcnow()
        start_time = end_time - timedelta(minutes=10)
        period = int((end_time - start_time).total_seconds())

        metrics = {
            "IncomingBytes": self.get_metric_statistics(
                "IncomingBytes", start_time, end_time, period
            ),
            "IncomingRecords": self.get_metric_statistics(
                "IncomingRecords", start_time, end_time, period
            ),
            "FailedPutCount": self.get_metric_statistics(
                "FailedPutCount", start_time, end_time, period
            ),
        }

        for metric, datapoints in metrics.items():
            if datapoints:
                total_sum = sum(datapoint["Sum"] for datapoint in datapoints)
                if metric == "IncomingBytes":
                    logger.info(
                        f"{metric}: {round(total_sum)} ({total_sum / (1024 * 1024):.2f} MB)"
                    )
                else:
                    logger.info(f"{metric}: {round(total_sum)}")
            else:
                logger.info(f"No data found for {metric} over the last 5 minutes")


    def _create_record_entry(self, record: dict) -> dict:
        """
        Create a record entry for Firehose.

        Args:
            record (dict): The data record to be sent.

        Returns:
            dict: The record entry formatted for Firehose.

        Raises:
            Exception: If a simulated network error occurs.
        """
        if random.random() < 0.2:
            raise Exception("Simulated network error")
        elif random.random() < 0.1:
            return {"Data": '{"malformed": "data"'}
        else:
            return {"Data": json.dumps(record)}

    def _log_response(self, response: dict, entry: dict):
        """
        Log the response from Firehose.

        Args:
            response (dict): The response from the Firehose put_record API call.
            entry (dict): The record entry that was sent.
        """
        if response["ResponseMetadata"]["HTTPStatusCode"] == 200:
            logger.info(f"Sent record: {entry}")
        else:
            logger.info(f"Fail record: {entry}")

    def _log_batch_response(self, response: dict, batch_size: int):
        """
        Log the batch response from Firehose.

        Args:
            response (dict): The response from the Firehose put_record_batch API call.
            batch_size (int): The number of records in the batch.
        """
        if response.get("FailedPutCount", 0) > 0:
            logger.info(
                f'Failed to send {response["FailedPutCount"]} records in batch of {batch_size}'
            )
        else:
            logger.info(f"Successfully sent batch of {batch_size} records")


if __name__ == "__main__":
    config = get_config()
    data = load_sample_data(config.sample_data_file)
    client = FirehoseClient(config)

    # Process the first 100 sample network records
    for record in data[:100]:
        try:
            client.put_record(record)
        except Exception as e:
            logger.info(f"Put record failed after retries and backoff: {e}")
    client.monitor_metrics()

    # Process remaining records using the batch method
    try:
        client.put_record_batch(data[100:])
    except Exception as e:
        logger.info(f"Put record batch failed after retries and backoff: {e}")
    client.monitor_metrics()
```
File ini berisi konfigurasi untuk skrip di atas.  

```
class Config:
    def __init__(self):
        self.delivery_stream_name = "ENTER YOUR DELIVERY STREAM NAME HERE"
        self.region = "us-east-1"
        self.sample_data_file = (
            "../../../../../scenarios/features/firehose/resources/sample_records.json"
        )


def get_config():
    return Config()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [PutRecord](https://docs.aws.amazon.com/goto/boto3/firehose-2015-08-04/PutRecord)
  + [PutRecordBatch](https://docs.aws.amazon.com/goto/boto3/firehose-2015-08-04/PutRecordBatch)

# Contoh Device Farm menggunakan SDK for Python (Boto3)
<a name="python_3_device-farm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) With Device Farm.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Jalankan tes browser dan ambil tangkapan layar
<a name="device-farm_Scenario_BrowserTesting_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menjalankan pengujian browser dengan Device Farm dan mengambil tangkapan layar.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/devicefarm/browser_testing#code-examples). 
Gunakan PyTest dan Selenium untuk menelusuri situs web tertentu, mengambil tangkapan layar, dan membandingkan konten situs web aktual dengan konten yang diharapkan.  

```
import datetime
import os
import subprocess
import boto3
import pytest
from selenium import webdriver
from selenium.webdriver import DesiredCapabilities
from selenium.webdriver.common.by import By
from selenium.webdriver.common.keys import Keys
from selenium.webdriver.support import expected_conditions
from selenium.webdriver.support.wait import WebDriverWait


def get_git_hash():
    """
    Get the short Git hash of the current commit of the repository
    """
    try:
        return (
            subprocess.check_output(["git", "rev-parse", "--short", "HEAD"])
            .decode("utf-8")
            .strip()
        )
    except:
        return "norepo"


class TestHelloSuite:
    """
    Our test suite.

    This style of test suite allows us to use setup_method and teardown_method.

    """

    def save_screenshot(self, name):
        self.driver.save_screenshot(os.path.join(self.screenshot_path, name))

    def setup_method(self, method):
        """
        Set up a test.

        This makes sure that the session for an individual test is ready.

        The AWS credentials are read from the default ~/.aws/credentials or from the
        command line by setting the AWS_ACCESS_KEY_ID and AWS_SECRET_KEY environment
        variables.

        The project Amazon Resource Name (ARN) is determined by the PROJECT_ARN
        environment variable.
        """
        devicefarm_client = boto3.client("devicefarm")
        project_arn = os.environ.get("PROJECT_ARN", None)
        if project_arn is None:
            raise ValueError("Must set PROJECT_ARN")
        # Request a driver hub URL for the Selenium client
        testgrid_url_response = devicefarm_client.create_test_grid_url(
            projectArn=project_arn, expiresInSeconds=300
        )

        # We want a directory to save our files into. We're going to make a directory
        # in the current directory that holds our results.
        self.screenshot_path = os.path.join(
            ".", "results", get_git_hash() + "-" + (datetime.date.today().isoformat())
        )
        if not os.path.exists(self.screenshot_path):
            os.makedirs(self.screenshot_path, exist_ok=True)

        # We want a Firefox instance on Windows
        desired_cap = DesiredCapabilities.FIREFOX
        desired_cap["platform"] = "windows"
        desired_cap["BrowserVersion"] = "latest"

        # Configure the webdriver with the appropriate remote endpoint.
        self.driver = webdriver.Remote(testgrid_url_response["url"], desired_cap)

        #
        # Auto-Tagging
        #

        # In order to get the Session ARN, we need to look up the session by the
        # Project ARN and session ID (from the driver).
        testgrid_session_arn_response = devicefarm_client.get_test_grid_session(
            projectArn=project_arn, sessionId=self.driver.session_id
        )

        # Save the session's ARN so we can tag the session.
        self.session_arn = testgrid_session_arn_response["testGridSession"]["arn"]

        # In order to tag it, we're going to use the resourcegroupstaggingapi client to
        # add a tag to the session ARN that we just got.
        tag_client = boto3.client("resourcegroupstaggingapi")
        tag_client.tag_resources(
            ResourceARNList=[self.session_arn],
            Tags={"TestSuite": f"testsuite {method.__name__}", "GitId": get_git_hash()},
        )

    def teardown_method(self, method):
        """
        Clean up resources used by each method.
        """
        # End the Selenium session so we're off the clock.
        self.driver.quit()

    @pytest.mark.parametrize(
        "query,leading",
        [
            pytest.param(
                "Seattle",
                "Seattle (/siˈætəl/ (listen) see-AT-əl) is a seaport city on the West Coast of the United States.",
            ),
            pytest.param(
                "Selenium",
                "Selenium is a chemical element with the symbol Se and atomic number 34.",
            ),
            pytest.param(
                "Amazon Locker",
                "Amazon Locker is a self-service package delivery service offered by online retailer Amazon.",
            ),
            pytest.param(
                "Kootenai Falls",
                "Kootenai Falls is a waterfall on the Kootenay River located in Lincoln County, Montana, just off U.S. Route 2.",
            ),
            pytest.param(
                "Dorayaki",
                "Dorayaki (どら焼き, どらやき, 銅鑼焼き, ドラ焼き) is a type of Japanese confection.",
            ),
            pytest.param("Robot Face", "<|°_°|> (also known as Robot Face or Robot)"),
        ],
    )
    def test_first_paragraph_text(self, query, leading):
        """
        This test looks at the first paragraph of a page on Wikipedia, comparing it to
        a known leading sentence.

        If the leading sentence matches, the test passes. A screenshot is taken before
        the final assertion is made, letting us debug if something isn't right.
        """
        # Open the main page of Wikipedia
        self.driver.get("https://en.wikipedia.org/wiki/Main_Page")
        # Find the search box, enter a query, and press enter
        search_input = self.driver.find_element(By.ID, "searchInput")
        search_input.click()
        search_input.send_keys(query)
        search_input.send_keys(Keys.ENTER)
        # Wait for the search box to go stale -- This means we've navigated fully.
        WebDriverWait(self.driver, 5).until(
            expected_conditions.staleness_of(search_input)
        )
        # Get the leading paragraph of the article.
        lead = leading.lower()
        # Find the element...
        lead_para = self.driver.find_element(
            By.XPATH, "//div[@class='mw-parser-output']//p[not(@class)]"
        )
        # ... and copy out its text.
        our_text = lead_para.text.lower()
        our_text = our_text[: len(lead)]
        # Take a screenshot and compare the strings.
        self.save_screenshot(f"leadingpara_{query}.png")
        assert our_text.startswith(lead)

    @pytest.mark.parametrize(
        "query,expected",
        [
            pytest.param("Automation Testing", "Test Automation"),
            pytest.param("DevOps", "DevOps"),
            pytest.param("Jackdaws Love My Big Sphinx Of Quartz", "Pangram"),
            pytest.param("EarthBound", "EarthBound"),
            pytest.param("Covered Bridges Today", "Covered Bridges Today"),
            pytest.param("Kurt Godel", "Kurt Gödel"),
            pytest.param("N//ng language", "Nǁng language"),
            pytest.param(
                "Who the Frick Is Jackson Pollock?", "Who the $&% Is Jackson Pollock?"
            ),
        ],
    )
    def test_redirect_titles(self, query, expected):
        """
        A test comparing pages we expect to (or not to) redirect on Wikipedia.

        This test checks to see that the page ("query") redirects (or doesn't) to the
        "expected" page title. Several of these are common synonyms ("Jackdaws...")
        while others are because of characters untypable by most keyboards ("Nǁng language")

        A screenshot is taken just before the final assertion is made to aid in
        debugging and verification.
        """
        # Open the main page of Wikipedia
        self.driver.get("https://en.wikipedia.org/wiki/Main_Page")
        # Find the search box, enter some text into it, and send an enter key.
        search_input = self.driver.find_element(By.ID, "searchInput")
        search_input.click()
        search_input.send_keys(query)
        search_input.send_keys(Keys.ENTER)
        # wait until the page has rolled over -- once the search input handle is stale,
        # the browser has navigated.
        WebDriverWait(self.driver, 5).until(
            expected_conditions.staleness_of(search_input)
        )
        # Get the first heading & take a screenshot
        our_text = self.driver.find_element(By.ID, "firstHeading").text.lower()
        self.save_screenshot(f"redirect_{query}.png")
        # did it match?
        assert our_text == expected.lower()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateTestGridUrl](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/CreateTestGridUrl)
  + [GetTestGridSession](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/GetTestGridSession)

### Unggah dan uji paket perangkat
<a name="device-farm_Scenario_DeviceTesting_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah dan menguji paket perangkat seluler dengan Device Farm.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/devicefarm/device_testing#code-examples). 
Unggah aplikasi Android yang dikompilasi dan paket uji ke Device Farm, mulai pengujian, tunggu penyelesaian pengujian, dan laporkan hasilnya.  

```
import boto3
import os
import requests
import string
import random
import datetime
import time

# Update this dict with your own values before you run the example:
config = {
    # This is our app under test.
    "appFilePath": "app-debug.apk",
    "projectArn": "arn:aws:devicefarm:us-west-2:111222333444:project:581f5703-e040-4ac9-b7ae-0ba007bfb8e6",
    # Since we care about the most popular devices, we'll use a curated pool.
    "testSpecArn": "arn:aws:devicefarm:us-west-2::upload:20fcf771-eae3-4137-aa76-92e17fb3131b",
    "poolArn": "arn:aws:devicefarm:us-west-2::devicepool:4a869d91-6f17-491f-9a95-0a601aee2406",
    "namePrefix": "MyAppTest",
    # This is our test package. This tutorial won't go into how to make these.
    "testPackage": "tests.zip",
}

client = boto3.client("devicefarm")

unique = (
    config["namePrefix"]
    + "-"
    + (datetime.date.today().isoformat())
    + ("".join(random.sample(string.ascii_letters, 8)))
)

print(
    f"The unique identifier for this run is '{unique}'. All uploads will be prefixed "
    f"with this."
)


def upload_df_file(filename, type_, mime="application/octet-stream"):
    upload_response = client.create_upload(
        projectArn=config["projectArn"],
        name=unique + "_" + os.path.basename(filename),
        type=type_,
        contentType=mime,
    )
    upload_arn = upload_response["upload"]["arn"]
    # Extract the URL of the upload and use Requests to upload it.
    upload_url = upload_response["upload"]["url"]
    with open(filename, "rb") as file_stream:
        print(
            f"Uploading {filename} to Device Farm as "
            f"{upload_response['upload']['name']}... ",
            end="",
        )
        put_req = requests.put(
            upload_url, data=file_stream, headers={"content-type": mime}
        )
        print(" done")
        if not put_req.ok:
            raise Exception(f"Couldn't upload. Requests says: {put_req.reason}")
    started = datetime.datetime.now()
    while True:
        print(
            f"Upload of {filename} in state {upload_response['upload']['status']} "
            f"after " + str(datetime.datetime.now() - started)
        )
        if upload_response["upload"]["status"] == "FAILED":
            raise Exception(
                f"The upload failed processing. Device Farm says the reason is: \n"
                f"{+upload_response['upload']['message']}"
            )
        if upload_response["upload"]["status"] == "SUCCEEDED":
            break
        time.sleep(5)
        upload_response = client.get_upload(arn=upload_arn)
    print("")
    return upload_arn


our_upload_arn = upload_df_file(config["appFilePath"], "ANDROID_APP")
our_test_package_arn = upload_df_file(
    config["testPackage"], "APPIUM_PYTHON_TEST_PACKAGE"
)
print(our_upload_arn, our_test_package_arn)

response = client.schedule_run(
    projectArn=config["projectArn"],
    appArn=our_upload_arn,
    devicePoolArn=config["poolArn"],
    name=unique,
    test={
        "type": "APPIUM_PYTHON",
        "testSpecArn": config["testSpecArn"],
        "testPackageArn": our_test_package_arn,
    },
)
run_arn = response["run"]["arn"]
start_time = datetime.datetime.now()
print(f"Run {unique} is scheduled as arn {run_arn} ")

state = "UNKNOWN"
try:
    while True:
        response = client.get_run(arn=run_arn)
        state = response["run"]["status"]
        if state == "COMPLETED" or state == "ERRORED":
            break
        else:
            print(
                f" Run {unique} in state {state}, total "
                f"time {datetime.datetime.now() - start_time}"
            )
            time.sleep(10)
except:
    client.stop_run(arn=run_arn)
    exit(1)

print(f"Tests finished in state {state} after {datetime.datetime.now() - start_time}")
# Pull all the logs.
jobs_response = client.list_jobs(arn=run_arn)
# Save the output somewhere, using the unique value.
save_path = os.path.join(os.getcwd(), "results", unique)
os.mkdir(save_path)
# Save the last run information.
for job in jobs_response["jobs"]:
    job_name = job["name"]
    os.makedirs(os.path.join(save_path, job_name), exist_ok=True)
    # Get each suite within the job.
    suites = client.list_suites(arn=job["arn"])["suites"]
    for suite in suites:
        for test in client.list_tests(arn=suite["arn"])["tests"]:
            # Get the artifacts.
            for artifact_type in ["FILE", "SCREENSHOT", "LOG"]:
                artifacts = client.list_artifacts(type=artifact_type, arn=test["arn"])[
                    "artifacts"
                ]
                for artifact in artifacts:
                    # Replace `:` because it has a special meaning in Windows & macOS.
                    path_to = os.path.join(
                        save_path,
                        job_name,
                        suite["name"],
                        test["name"].replace(":", "_"),
                    )
                    os.makedirs(path_to, exist_ok=True)
                    filename = (
                        artifact["type"]
                        + "_"
                        + artifact["name"]
                        + "."
                        + artifact["extension"]
                    )
                    artifact_save_path = os.path.join(path_to, filename)
                    print(f"Downloading {artifact_save_path}")
                    with open(artifact_save_path, "wb") as fn:
                        with requests.get(
                            artifact["url"], allow_redirects=True
                        ) as request:
                            fn.write(request.content)
print("Finished")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateUpload](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/CreateUpload)
  + [GetRun](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/GetRun)
  + [GetUpload](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/GetUpload)
  + [ListArtifacts](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/ListArtifacts)
  + [ListJobs](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/ListJobs)
  + [ListSuites](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/ListSuites)
  + [ListTests](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/ListTests)
  + [ScheduleRun](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/ScheduleRun)
  + [StopRun](https://docs.aws.amazon.com/goto/boto3/devicefarm-2015-06-23/StopRun)

# Contoh Amazon DocumentDB menggunakan SDK for Python (Boto3)
<a name="python_3_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Amazon DocumentDB. AWS SDK untuk Python (Boto3) 

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Python.  

```
import json

def lambda_handler(event, context):
    for record in event.get('events', []):
        log_document_db_event(record)
    return 'OK'

def log_document_db_event(record):
    event_data = record.get('event', {})
    operation_type = event_data.get('operationType', 'Unknown')
    db = event_data.get('ns', {}).get('db', 'Unknown')
    collection = event_data.get('ns', {}).get('coll', 'Unknown')
    full_document = event_data.get('fullDocument', {})

    print(f"Operation type: {operation_type}")
    print(f"db: {db}")
    print(f"collection: {collection}")
    print("Full document:", json.dumps(full_document, indent=2))
```

# Contoh DynamoDB menggunakan SDK for Python (Boto3)
<a name="python_3_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo DynamoDB
<a name="dynamodb_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan DynamoDB.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
import boto3

# Create a DynamoDB client using the default credentials and region
dynamodb = boto3.client("dynamodb")

# Initialize a paginator for the list_tables operation
paginator = dynamodb.get_paginator("list_tables")

# Create a PageIterator from the paginator
page_iterator = paginator.paginate(Limit=10)

# List the tables in the current AWS account
print("Here are the DynamoDB tables in your account:")

# Use pagination to list all tables
table_names = []

for page in page_iterator:
    for table_name in page.get("TableNames", []):
        print(f"- {table_name}")
        table_names.append(table_name)

if not table_names:
    print("You don't have any DynamoDB tables in your account.")
else:
    print(f"\nFound {len(table_names)} tables.")
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/ListTables)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 
Buat kelas yang merangkum tabel DynamoDB.  

```
from decimal import Decimal
from io import BytesIO
import json
import logging
import os
from pprint import pprint
import requests
from zipfile import ZipFile
import boto3
from boto3.dynamodb.conditions import Key
from botocore.exceptions import ClientError
from question import Question

logger = logging.getLogger(__name__)

class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def exists(self, table_name):
        """
        Determines whether a table exists. As a side effect, stores the table in
        a member variable.

        :param table_name: The name of the table to check.
        :return: True when the table exists; otherwise, False.
        """
        try:
            table = self.dyn_resource.Table(table_name)
            table.load()
            exists = True
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                exists = False
            else:
                logger.error(
                    "Couldn't check for existence of %s. Here's why: %s: %s",
                    table_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            self.table = table
        return exists


    def create_table(self, table_name):
        """
        Creates an Amazon DynamoDB table that can be used to store movie data.
        The table uses the release year of the movie as the partition key and the
        title as the sort key.

        :param table_name: The name of the table to create.
        :return: The newly created table.
        """
        try:
            self.table = self.dyn_resource.create_table(
                TableName=table_name,
                KeySchema=[
                    {"AttributeName": "year", "KeyType": "HASH"},  # Partition key
                    {"AttributeName": "title", "KeyType": "RANGE"},  # Sort key
                ],
                AttributeDefinitions=[
                    {"AttributeName": "year", "AttributeType": "N"},
                    {"AttributeName": "title", "AttributeType": "S"},
                ],
                BillingMode='PAY_PER_REQUEST',
            )
            self.table.wait_until_exists()
        except ClientError as err:
            logger.error(
                "Couldn't create table %s. Here's why: %s: %s",
                table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return self.table


    def list_tables(self):
        """
        Lists the Amazon DynamoDB tables for the current account.

        :return: The list of tables.
        """
        try:
            tables = []
            for table in self.dyn_resource.tables.all():
                print(table.name)
                tables.append(table)
        except ClientError as err:
            logger.error(
                "Couldn't list tables. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return tables


    def write_batch(self, movies):
        """
        Fills an Amazon DynamoDB table with the specified data, using the Boto3
        Table.batch_writer() function to put the items in the table.
        Inside the context manager, Table.batch_writer builds a list of
        requests. On exiting the context manager, Table.batch_writer starts sending
        batches of write requests to Amazon DynamoDB and automatically
        handles chunking, buffering, and retrying.

        :param movies: The data to put in the table. Each item must contain at least
                       the keys required by the schema that was specified when the
                       table was created.
        """
        try:
            with self.table.batch_writer() as writer:
                for movie in movies:
                    writer.put_item(Item=movie)
        except ClientError as err:
            logger.error(
                "Couldn't load data into table %s. Here's why: %s: %s",
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def add_movie(self, title, year, plot, rating):
        """
        Adds a movie to the table.

        :param title: The title of the movie.
        :param year: The release year of the movie.
        :param plot: The plot summary of the movie.
        :param rating: The quality rating of the movie.
        """
        try:
            self.table.put_item(
                Item={
                    "year": year,
                    "title": title,
                    "info": {"plot": plot, "rating": Decimal(str(rating))},
                }
            )
        except ClientError as err:
            logger.error(
                "Couldn't add movie %s to table %s. Here's why: %s: %s",
                title,
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def get_movie(self, title, year):
        """
        Gets movie data from the table for a specific movie.

        :param title: The title of the movie.
        :param year: The release year of the movie.
        :return: The data about the requested movie.
        """
        try:
            response = self.table.get_item(Key={"year": year, "title": title})
        except ClientError as err:
            logger.error(
                "Couldn't get movie %s from table %s. Here's why: %s: %s",
                title,
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Item"]


    def update_movie(self, title, year, rating, plot):
        """
        Updates rating and plot data for a movie in the table.

        :param title: The title of the movie to update.
        :param year: The release year of the movie to update.
        :param rating: The updated rating to the give the movie.
        :param plot: The updated plot summary to give the movie.
        :return: The fields that were updated, with their new values.
        """
        try:
            response = self.table.update_item(
                Key={"year": year, "title": title},
                UpdateExpression="set info.rating=:r, info.plot=:p",
                ExpressionAttributeValues={":r": Decimal(str(rating)), ":p": plot},
                ReturnValues="UPDATED_NEW",
            )
        except ClientError as err:
            logger.error(
                "Couldn't update movie %s in table %s. Here's why: %s: %s",
                title,
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Attributes"]


    def query_movies(self, year):
        """
        Queries for movies that were released in the specified year.

        :param year: The year to query.
        :return: The list of movies that were released in the specified year.
        """
        try:
            response = self.table.query(KeyConditionExpression=Key("year").eq(year))
        except ClientError as err:
            logger.error(
                "Couldn't query for movies released in %s. Here's why: %s: %s",
                year,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Items"]


    def scan_movies(self, year_range):
        """
        Scans for movies that were released in a range of years.
        Uses a projection expression to return a subset of data for each movie.

        :param year_range: The range of years to retrieve.
        :return: The list of movies released in the specified years.
        """
        movies = []
        scan_kwargs = {
            "FilterExpression": Key("year").between(
                year_range["first"], year_range["second"]
            ),
            "ProjectionExpression": "#yr, title, info.rating",
            "ExpressionAttributeNames": {"#yr": "year"},
        }
        try:
            done = False
            start_key = None
            while not done:
                if start_key:
                    scan_kwargs["ExclusiveStartKey"] = start_key
                response = self.table.scan(**scan_kwargs)
                movies.extend(response.get("Items", []))
                start_key = response.get("LastEvaluatedKey", None)
                done = start_key is None
        except ClientError as err:
            logger.error(
                "Couldn't scan for movies. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise

        return movies


    def delete_movie(self, title, year):
        """
        Deletes a movie from the table.

        :param title: The title of the movie to delete.
        :param year: The release year of the movie to delete.
        """
        try:
            self.table.delete_item(Key={"year": year, "title": title})
        except ClientError as err:
            logger.error(
                "Couldn't delete movie %s. Here's why: %s: %s",
                title,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_table(self):
        """
        Deletes the table.
        """
        try:
            self.table.delete()
            self.table = None
        except ClientError as err:
            logger.error(
                "Couldn't delete table. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Buat fungsi pembantu untuk mengunduh dan mengekstrak file JSON sampel.  

```
def get_sample_movie_data(movie_file_name):
    """
    Gets sample movie data, either from a local file or by first downloading it from
    the Amazon DynamoDB developer guide.

    :param movie_file_name: The local file name where the movie data is stored in JSON format.
    :return: The movie data as a dict.
    """
    if not os.path.isfile(movie_file_name):
        print(f"Downloading {movie_file_name}...")
        movie_content = requests.get(
            "https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/samples/moviedata.zip"
        )
        movie_zip = ZipFile(BytesIO(movie_content.content))
        movie_zip.extractall()

    try:
        with open(movie_file_name) as movie_file:
            movie_data = json.load(movie_file, parse_float=Decimal)
    except FileNotFoundError:
        print(
            f"File {movie_file_name} not found. You must first download the file to "
            "run this demo. See the README for instructions."
        )
        raise
    else:
        # The sample file lists over 4000 movies, return only the first 250.
        return movie_data[:250]
```
Jalankan skenario interaktif untuk membuat tabel dan melakukan tindakan pada tabel tersebut.  

```
def run_scenario(table_name, movie_file_name, dyn_resource):
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Welcome to the Amazon DynamoDB getting started demo.")
    print("-" * 88)

    movies = Movies(dyn_resource)
    movies_exists = movies.exists(table_name)
    if not movies_exists:
        print(f"\nCreating table {table_name}...")
        movies.create_table(table_name)
        print(f"\nCreated table {movies.table.name}.")

    my_movie = Question.ask_questions(
        [
            Question(
                "title", "Enter the title of a movie you want to add to the table: "
            ),
            Question("year", "What year was it released? ", Question.is_int),
            Question(
                "rating",
                "On a scale of 1 - 10, how do you rate it? ",
                Question.is_float,
                Question.in_range(1, 10),
            ),
            Question("plot", "Summarize the plot for me: "),
        ]
    )
    movies.add_movie(**my_movie)
    print(f"\nAdded '{my_movie['title']}' to '{movies.table.name}'.")
    print("-" * 88)

    movie_update = Question.ask_questions(
        [
            Question(
                "rating",
                f"\nLet's update your movie.\nYou rated it {my_movie['rating']}, what new "
                f"rating would you give it? ",
                Question.is_float,
                Question.in_range(1, 10),
            ),
            Question(
                "plot",
                f"You summarized the plot as '{my_movie['plot']}'.\nWhat would you say now? ",
            ),
        ]
    )
    my_movie.update(movie_update)
    updated = movies.update_movie(**my_movie)
    print(f"\nUpdated '{my_movie['title']}' with new attributes:")
    pprint(updated)
    print("-" * 88)

    if not movies_exists:
        movie_data = get_sample_movie_data(movie_file_name)
        print(f"\nReading data from '{movie_file_name}' into your table.")
        movies.write_batch(movie_data)
        print(f"\nWrote {len(movie_data)} movies into {movies.table.name}.")
    print("-" * 88)

    title = "The Lord of the Rings: The Fellowship of the Ring"
    if Question.ask_question(
        f"Let's move on...do you want to get info about '{title}'? (y/n) ",
        Question.is_yesno,
    ):
        movie = movies.get_movie(title, 2001)
        print("\nHere's what I found:")
        pprint(movie)
    print("-" * 88)

    ask_for_year = True
    while ask_for_year:
        release_year = Question.ask_question(
            f"\nLet's get a list of movies released in a given year. Enter a year between "
            f"1972 and 2018: ",
            Question.is_int,
            Question.in_range(1972, 2018),
        )
        releases = movies.query_movies(release_year)
        if releases:
            print(f"There were {len(releases)} movies released in {release_year}:")
            for release in releases:
                print(f"\t{release['title']}")
            ask_for_year = False
        else:
            print(f"I don't know about any movies released in {release_year}!")
            ask_for_year = Question.ask_question(
                "Try another year? (y/n) ", Question.is_yesno
            )
    print("-" * 88)

    years = Question.ask_questions(
        [
            Question(
                "first",
                f"\nNow let's scan for movies released in a range of years. Enter a year: ",
                Question.is_int,
                Question.in_range(1972, 2018),
            ),
            Question(
                "second",
                "Now enter another year: ",
                Question.is_int,
                Question.in_range(1972, 2018),
            ),
        ]
    )
    releases = movies.scan_movies(years)
    if releases:
        count = Question.ask_question(
            f"\nFound {len(releases)} movies. How many do you want to see? ",
            Question.is_int,
            Question.in_range(1, len(releases)),
        )
        print(f"\nHere are your {count} movies:\n")
        pprint(releases[:count])
    else:
        print(
            f"I don't know about any movies released between {years['first']} "
            f"and {years['second']}."
        )
    print("-" * 88)

    if Question.ask_question(
        f"\nLet's remove your movie from the table. Do you want to remove "
        f"'{my_movie['title']}'? (y/n)",
        Question.is_yesno,
    ):
        movies.delete_movie(my_movie["title"], my_movie["year"])
        print(f"\nRemoved '{my_movie['title']}' from the table.")
    print("-" * 88)

    if Question.ask_question(f"\nDelete the table? (y/n) ", Question.is_yesno):
        movies.delete_table()
        print(f"Deleted {table_name}.")
    else:
        print(
            "Don't forget to delete the table when you're done or you might incur "
            "charges on your account."
        )

    print("\nThanks for watching!")
    print("-" * 88)


if __name__ == "__main__":
    try:
        run_scenario(
            "doc-example-table-movies", "moviedata.json", boto3.resource("dynamodb")
        )
    except Exception as e:
        print(f"Something went wrong with the demo! Here's what: {e}")
```
Skenario ini menggunakan kelas pembantu berikut untuk mengajukan pertanyaan pada prompt perintah.  

```
class Question:
    """
    A helper class to ask questions at a command prompt and validate and convert
    the answers.
    """

    def __init__(self, key, question, *validators):
        """
        :param key: The key that is used for storing the answer in a dict, when
                    multiple questions are asked in a set.
        :param question: The question to ask.
        :param validators: The answer is passed through the list of validators until
                           one fails or they all pass. Validators may also convert the
                           answer to another form, such as from a str to an int.
        """
        self.key = key
        self.question = question
        self.validators = Question.non_empty, *validators

    @staticmethod
    def ask_questions(questions):
        """
        Asks a set of questions and stores the answers in a dict.

        :param questions: The list of questions to ask.
        :return: A dict of answers.
        """
        answers = {}
        for question in questions:
            answers[question.key] = Question.ask_question(
                question.question, *question.validators
            )
        return answers

    @staticmethod
    def ask_question(question, *validators):
        """
        Asks a single question and validates it against a list of validators.
        When an answer fails validation, the complaint is printed and the question
        is asked again.

        :param question: The question to ask.
        :param validators: The list of validators that the answer must pass.
        :return: The answer, converted to its final form by the validators.
        """
        answer = None
        while answer is None:
            answer = input(question)
            for validator in validators:
                answer, complaint = validator(answer)
                if answer is None:
                    print(complaint)
                    break
        return answer

    @staticmethod
    def non_empty(answer):
        """
        Validates that the answer is not empty.
        :return: The non-empty answer, or None.
        """
        return answer if answer != "" else None, "I need an answer. Please?"

    @staticmethod
    def is_yesno(answer):
        """
        Validates a yes/no answer.
        :return: True when the answer is 'y'; otherwise, False.
        """
        return answer.lower() == "y", ""

    @staticmethod
    def is_int(answer):
        """
        Validates that the answer can be converted to an int.
        :return: The int answer; otherwise, None.
        """
        try:
            int_answer = int(answer)
        except ValueError:
            int_answer = None
        return int_answer, f"{answer} must be a valid integer."

    @staticmethod
    def is_letter(answer):
        """
        Validates that the answer is a letter.
        :return The letter answer, converted to uppercase; otherwise, None.
        """
        return (
            answer.upper() if answer.isalpha() else None,
            f"{answer} must be a single letter.",
        )

    @staticmethod
    def is_float(answer):
        """
        Validate that the answer can be converted to a float.
        :return The float answer; otherwise, None.
        """
        try:
            float_answer = float(answer)
        except ValueError:
            float_answer = None
        return float_answer, f"{answer} must be a valid float."

    @staticmethod
    def in_range(lower, upper):
        """
        Validate that the answer is within a range. The answer must be of a type that can
        be compared to the lower and upper bounds.
        :return: The answer, if it is within the range; otherwise, None.
        """

        def _validate(answer):
            return (
                answer if lower <= answer <= upper else None,
                f"{answer} must be between {lower} and {upper}.",
            )

        return _validate
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [BatchWriteItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/BatchWriteItem)
  + [CreateTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/CreateTable)
  + [DeleteItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DeleteItem)
  + [DeleteTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Scan)
  + [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)

## Tindakan
<a name="actions"></a>

### `BatchExecuteStatement`
<a name="dynamodb_BatchExecuteStatement_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchExecuteStatement`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class PartiQLBatchWrapper:
    """
    Encapsulates a DynamoDB resource to run PartiQL statements.
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource


    def run_partiql(self, statements, param_list):
        """
        Runs a PartiQL statement. A Boto3 resource is used even though
        `execute_statement` is called on the underlying `client` object because the
        resource transforms input and output from plain old Python objects (POPOs) to
        the DynamoDB format. If you create the client directly, you must do these
        transforms yourself.

        :param statements: The batch of PartiQL statements.
        :param param_list: The batch of PartiQL parameters that are associated with
                           each statement. This list must be in the same order as the
                           statements.
        :return: The responses returned from running the statements, if any.
        """
        try:
            output = self.dyn_resource.meta.client.batch_execute_statement(
                Statements=[
                    {"Statement": statement, "Parameters": params}
                    for statement, params in zip(statements, param_list)
                ]
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Couldn't execute batch of PartiQL statements because the table "
                    "does not exist."
                )
            else:
                logger.error(
                    "Couldn't execute batch of PartiQL statements. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return output
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/BatchExecuteStatement)di *AWS SDK for Python (Boto3) Referensi* API. 

### `BatchGetItem`
<a name="dynamodb_BatchGetItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
import decimal
import json
import logging
import os
import pprint
import time
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)
dynamodb = boto3.resource("dynamodb")

MAX_GET_SIZE = 100  # Amazon DynamoDB rejects a get batch larger than 100 items.


def do_batch_get(batch_keys):
    """
    Gets a batch of items from Amazon DynamoDB. Batches can contain keys from
    more than one table.

    When Amazon DynamoDB cannot process all items in a batch, a set of unprocessed
    keys is returned. This function uses an exponential backoff algorithm to retry
    getting the unprocessed keys until all are retrieved or the specified
    number of tries is reached.

    :param batch_keys: The set of keys to retrieve. A batch can contain at most 100
                       keys. Otherwise, Amazon DynamoDB returns an error.
    :return: The dictionary of retrieved items grouped under their respective
             table names.
    """
    tries = 0
    max_tries = 5
    sleepy_time = 1  # Start with 1 second of sleep, then exponentially increase.
    retrieved = {key: [] for key in batch_keys}
    while tries < max_tries:
        response = dynamodb.batch_get_item(RequestItems=batch_keys)
        # Collect any retrieved items and retry unprocessed keys.
        for key in response.get("Responses", []):
            retrieved[key] += response["Responses"][key]
        unprocessed = response["UnprocessedKeys"]
        if len(unprocessed) > 0:
            batch_keys = unprocessed
            unprocessed_count = sum(
                [len(batch_key["Keys"]) for batch_key in batch_keys.values()]
            )
            logger.info(
                "%s unprocessed keys returned. Sleep, then retry.", unprocessed_count
            )
            tries += 1
            if tries < max_tries:
                logger.info("Sleeping for %s seconds.", sleepy_time)
                time.sleep(sleepy_time)
                sleepy_time = min(sleepy_time * 2, 32)
        else:
            break

    return retrieved
```
+  Untuk detail API, lihat [BatchGetItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/BatchGetItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def write_batch(self, movies):
        """
        Fills an Amazon DynamoDB table with the specified data, using the Boto3
        Table.batch_writer() function to put the items in the table.
        Inside the context manager, Table.batch_writer builds a list of
        requests. On exiting the context manager, Table.batch_writer starts sending
        batches of write requests to Amazon DynamoDB and automatically
        handles chunking, buffering, and retrying.

        :param movies: The data to put in the table. Each item must contain at least
                       the keys required by the schema that was specified when the
                       table was created.
        """
        try:
            with self.table.batch_writer() as writer:
                for movie in movies:
                    writer.put_item(Item=movie)
        except ClientError as err:
            logger.error(
                "Couldn't load data into table %s. Here's why: %s: %s",
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/BatchWriteItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateTable`
<a name="dynamodb_CreateTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 
Buat tabel untuk menyimpan data film.  

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def create_table(self, table_name):
        """
        Creates an Amazon DynamoDB table that can be used to store movie data.
        The table uses the release year of the movie as the partition key and the
        title as the sort key.

        :param table_name: The name of the table to create.
        :return: The newly created table.
        """
        try:
            self.table = self.dyn_resource.create_table(
                TableName=table_name,
                KeySchema=[
                    {"AttributeName": "year", "KeyType": "HASH"},  # Partition key
                    {"AttributeName": "title", "KeyType": "RANGE"},  # Sort key
                ],
                AttributeDefinitions=[
                    {"AttributeName": "year", "AttributeType": "N"},
                    {"AttributeName": "title", "AttributeType": "S"},
                ],
                BillingMode='PAY_PER_REQUEST',
            )
            self.table.wait_until_exists()
        except ClientError as err:
            logger.error(
                "Couldn't create table %s. Here's why: %s: %s",
                table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return self.table
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/CreateTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def delete_movie(self, title, year):
        """
        Deletes a movie from the table.

        :param title: The title of the movie to delete.
        :param year: The release year of the movie to delete.
        """
        try:
            self.table.delete_item(Key={"year": year, "title": title})
        except ClientError as err:
            logger.error(
                "Couldn't delete movie %s. Here's why: %s: %s",
                title,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Anda dapat menentukan kondisi sehingga item dihapus hanya ketika memenuhi kriteria tertentu.  

```
class UpdateQueryWrapper:
    def __init__(self, table):
        self.table = table


    def delete_underrated_movie(self, title, year, rating):
        """
        Deletes a movie only if it is rated below a specified value. By using a
        condition expression in a delete operation, you can specify that an item is
        deleted only when it meets certain criteria.

        :param title: The title of the movie to delete.
        :param year: The release year of the movie to delete.
        :param rating: The rating threshold to check before deleting the movie.
        """
        try:
            self.table.delete_item(
                Key={"year": year, "title": title},
                ConditionExpression="info.rating <= :val",
                ExpressionAttributeValues={":val": Decimal(str(rating))},
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ConditionalCheckFailedException":
                logger.warning(
                    "Didn't delete %s because its rating is greater than %s.",
                    title,
                    rating,
                )
            else:
                logger.error(
                    "Couldn't delete movie %s. Here's why: %s: %s",
                    title,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DeleteItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def delete_table(self):
        """
        Deletes the table.
        """
        try:
            self.table.delete()
            self.table = None
        except ClientError as err:
            logger.error(
                "Couldn't delete table. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DeleteTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def exists(self, table_name):
        """
        Determines whether a table exists. As a side effect, stores the table in
        a member variable.

        :param table_name: The name of the table to check.
        :return: True when the table exists; otherwise, False.
        """
        try:
            table = self.dyn_resource.Table(table_name)
            table.load()
            exists = True
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                exists = False
            else:
                logger.error(
                    "Couldn't check for existence of %s. Here's why: %s: %s",
                    table_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            self.table = table
        return exists
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DescribeTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeTimeToLive`
<a name="dynamodb_DescribeTimeToLive_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTimeToLive`.

**SDK untuk Python (Boto3)**  
Jelaskan konfigurasi TTL pada tabel DynamoDB yang ada menggunakan. AWS SDK untuk Python (Boto3)  

```
import boto3


def describe_ttl(table_name, region):
    """
    Describes TTL on an existing table, as well as a region.

    :param table_name: String representing the name of the table
    :param region: AWS Region of the table - example `us-east-1`
    :return: Time to live description.
    """
    try:
        dynamodb = boto3.resource("dynamodb", region_name=region)
        ttl_description = dynamodb.describe_time_to_live(TableName=table_name)
        print(
            f"TimeToLive for table {table_name} is status {ttl_description['TimeToLiveDescription']['TimeToLiveStatus']}"
        )

        return ttl_description
    except Exception as e:
        print(f"Error describing table: {e}")
        raise


# Enter your own table name and AWS region
describe_ttl("your-table-name", "us-east-1")
```
+  Untuk detail API, lihat [DescribeTimeToLive](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DescribeTimeToLive)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ExecuteStatement`
<a name="dynamodb_ExecuteStatement_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class PartiQLWrapper:
    """
    Encapsulates a DynamoDB resource to run PartiQL statements.
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource


    def run_partiql(self, statement, params):
        """
        Runs a PartiQL statement. A Boto3 resource is used even though
        `execute_statement` is called on the underlying `client` object because the
        resource transforms input and output from plain old Python objects (POPOs) to
        the DynamoDB format. If you create the client directly, you must do these
        transforms yourself.

        :param statement: The PartiQL statement.
        :param params: The list of PartiQL parameters. These are applied to the
                       statement in the order they are listed.
        :return: The items returned from the statement, if any.
        """
        try:
            output = self.dyn_resource.meta.client.execute_statement(
                Statement=statement, Parameters=params
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Couldn't execute PartiQL '%s' because the table does not exist.",
                    statement,
                )
            else:
                logger.error(
                    "Couldn't execute PartiQL '%s'. Here's why: %s: %s",
                    statement,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return output
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/ExecuteStatement)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetItem`
<a name="dynamodb_GetItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def get_movie(self, title, year):
        """
        Gets movie data from the table for a specific movie.

        :param title: The title of the movie.
        :param year: The release year of the movie.
        :return: The data about the requested movie.
        """
        try:
            response = self.table.get_item(Key={"year": year, "title": title})
        except ClientError as err:
            logger.error(
                "Couldn't get movie %s from table %s. Here's why: %s: %s",
                title,
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Item"]
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/GetItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListTables`
<a name="dynamodb_ListTables_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def list_tables(self):
        """
        Lists the Amazon DynamoDB tables for the current account.

        :return: The list of tables.
        """
        try:
            tables = []
            for table in self.dyn_resource.tables.all():
                print(table.name)
                tables.append(table)
        except ClientError as err:
            logger.error(
                "Couldn't list tables. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return tables
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/ListTables)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutItem`
<a name="dynamodb_PutItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def add_movie(self, title, year, plot, rating):
        """
        Adds a movie to the table.

        :param title: The title of the movie.
        :param year: The release year of the movie.
        :param plot: The plot summary of the movie.
        :param rating: The quality rating of the movie.
        """
        try:
            self.table.put_item(
                Item={
                    "year": year,
                    "title": title,
                    "info": {"plot": plot, "rating": Decimal(str(rating))},
                }
            )
        except ClientError as err:
            logger.error(
                "Couldn't add movie %s to table %s. Here's why: %s: %s",
                title,
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/PutItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### `Query`
<a name="dynamodb_Query_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 
Kueri item menggunakan ekspresi kondisi kunci.  

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def query_movies(self, year):
        """
        Queries for movies that were released in the specified year.

        :param year: The year to query.
        :return: The list of movies that were released in the specified year.
        """
        try:
            response = self.table.query(KeyConditionExpression=Key("year").eq(year))
        except ClientError as err:
            logger.error(
                "Couldn't query for movies released in %s. Here's why: %s: %s",
                year,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Items"]
```
Kueri dan proyeksikan item untuk mengembalikan subset data.  

```
class UpdateQueryWrapper:
    def __init__(self, table):
        self.table = table


    def query_and_project_movies(self, year, title_bounds):
        """
        Query for movies that were released in a specified year and that have titles
        that start within a range of letters. A projection expression is used
        to return a subset of data for each movie.

        :param year: The release year to query.
        :param title_bounds: The range of starting letters to query.
        :return: The list of movies.
        """
        try:
            response = self.table.query(
                ProjectionExpression="#yr, title, info.genres, info.actors[0]",
                ExpressionAttributeNames={"#yr": "year"},
                KeyConditionExpression=(
                    Key("year").eq(year)
                    & Key("title").between(
                        title_bounds["first"], title_bounds["second"]
                    )
                ),
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ValidationException":
                logger.warning(
                    "There's a validation error. Here's the message: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Couldn't query for movies. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return response["Items"]
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### `Scan`
<a name="dynamodb_Scan_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def scan_movies(self, year_range):
        """
        Scans for movies that were released in a range of years.
        Uses a projection expression to return a subset of data for each movie.

        :param year_range: The range of years to retrieve.
        :return: The list of movies released in the specified years.
        """
        movies = []
        scan_kwargs = {
            "FilterExpression": Key("year").between(
                year_range["first"], year_range["second"]
            ),
            "ProjectionExpression": "#yr, title, info.rating",
            "ExpressionAttributeNames": {"#yr": "year"},
        }
        try:
            done = False
            start_key = None
            while not done:
                if start_key:
                    scan_kwargs["ExclusiveStartKey"] = start_key
                response = self.table.scan(**scan_kwargs)
                movies.extend(response.get("Items", []))
                start_key = response.get("LastEvaluatedKey", None)
                done = start_key is None
        except ClientError as err:
            logger.error(
                "Couldn't scan for movies. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise

        return movies
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Scan) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 
Perbarui item menggunakan ekspresi pembaruan.  

```
class Movies:
    """Encapsulates an Amazon DynamoDB table of movie data.

    Example data structure for a movie record in this table:
        {
            "year": 1999,
            "title": "For Love of the Game",
            "info": {
                "directors": ["Sam Raimi"],
                "release_date": "1999-09-15T00:00:00Z",
                "rating": 6.3,
                "plot": "A washed up pitcher flashes through his career.",
                "rank": 4987,
                "running_time_secs": 8220,
                "actors": [
                    "Kevin Costner",
                    "Kelly Preston",
                    "John C. Reilly"
                ]
            }
        }
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource
        # The table variable is set during the scenario in the call to
        # 'exists' if the table exists. Otherwise, it is set by 'create_table'.
        self.table = None


    def update_movie(self, title, year, rating, plot):
        """
        Updates rating and plot data for a movie in the table.

        :param title: The title of the movie to update.
        :param year: The release year of the movie to update.
        :param rating: The updated rating to the give the movie.
        :param plot: The updated plot summary to give the movie.
        :return: The fields that were updated, with their new values.
        """
        try:
            response = self.table.update_item(
                Key={"year": year, "title": title},
                UpdateExpression="set info.rating=:r, info.plot=:p",
                ExpressionAttributeValues={":r": Decimal(str(rating)), ":p": plot},
                ReturnValues="UPDATED_NEW",
            )
        except ClientError as err:
            logger.error(
                "Couldn't update movie %s in table %s. Here's why: %s: %s",
                title,
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Attributes"]
```
Perbarui item menggunakan ekspresi pembaruan yang menyertakan operasi aritmatika.  

```
class UpdateQueryWrapper:
    def __init__(self, table):
        self.table = table


    def update_rating(self, title, year, rating_change):
        """
        Updates the quality rating of a movie in the table by using an arithmetic
        operation in the update expression. By specifying an arithmetic operation,
        you can adjust a value in a single request, rather than first getting its
        value and then setting its new value.

        :param title: The title of the movie to update.
        :param year: The release year of the movie to update.
        :param rating_change: The amount to add to the current rating for the movie.
        :return: The updated rating.
        """
        try:
            response = self.table.update_item(
                Key={"year": year, "title": title},
                UpdateExpression="set info.rating = info.rating + :val",
                ExpressionAttributeValues={":val": Decimal(str(rating_change))},
                ReturnValues="UPDATED_NEW",
            )
        except ClientError as err:
            logger.error(
                "Couldn't update movie %s in table %s. Here's why: %s: %s",
                title,
                self.table.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Attributes"]
```
Perbarui item hanya jika memenuhi persyaratan tertentu.  

```
class UpdateQueryWrapper:
    def __init__(self, table):
        self.table = table


    def remove_actors(self, title, year, actor_threshold):
        """
        Removes an actor from a movie, but only when the number of actors is greater
        than a specified threshold. If the movie does not list more than the threshold,
        no actors are removed.

        :param title: The title of the movie to update.
        :param year: The release year of the movie to update.
        :param actor_threshold: The threshold of actors to check.
        :return: The movie data after the update.
        """
        try:
            response = self.table.update_item(
                Key={"year": year, "title": title},
                UpdateExpression="remove info.actors[0]",
                ConditionExpression="size(info.actors) > :num",
                ExpressionAttributeValues={":num": actor_threshold},
                ReturnValues="ALL_NEW",
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ConditionalCheckFailedException":
                logger.warning(
                    "Didn't update %s because it has fewer than %s actors.",
                    title,
                    actor_threshold + 1,
                )
            else:
                logger.error(
                    "Couldn't update movie %s. Here's why: %s: %s",
                    title,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return response["Attributes"]
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateTimeToLive`
<a name="dynamodb_UpdateTimeToLive_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTimeToLive`.

**SDK untuk Python (Boto3)**  
Aktifkan TTL pada tabel DynamoDB yang ada.  

```
import boto3


def enable_ttl(table_name, ttl_attribute_name):
    """
    Enables TTL on DynamoDB table for a given attribute name
        on success, returns a status code of 200
        on error, throws an exception

    :param table_name: Name of the DynamoDB table
    :param ttl_attribute_name: The name of the TTL attribute being provided to the table.
    """
    try:
        dynamodb = boto3.client("dynamodb")

        # Enable TTL on an existing DynamoDB table
        response = dynamodb.update_time_to_live(
            TableName=table_name,
            TimeToLiveSpecification={"Enabled": True, "AttributeName": ttl_attribute_name},
        )

        # In the returned response, check for a successful status code.
        if response["ResponseMetadata"]["HTTPStatusCode"] == 200:
            print("TTL has been enabled successfully.")
        else:
            print(
                f"Failed to enable TTL, status code {response['ResponseMetadata']['HTTPStatusCode']}"
            )
        return response
    except Exception as ex:
        print("Couldn't enable TTL in table %s. Here's why: %s" % (table_name, ex))
        raise


# your values
enable_ttl("your-table-name", "expireAt")
```
Nonaktifkan TTL pada tabel DynamoDB yang ada.  

```
import boto3


def disable_ttl(table_name, ttl_attribute_name):
    """
    Disables TTL on DynamoDB table for a given attribute name
        on success, returns a status code of 200
        on error, throws an exception

    :param table_name: Name of the DynamoDB table being modified
    :param ttl_attribute_name: The name of the TTL attribute being provided to the table.
    """
    try:
        dynamodb = boto3.client("dynamodb")

        # Enable TTL on an existing DynamoDB table
        response = dynamodb.update_time_to_live(
            TableName=table_name,
            TimeToLiveSpecification={"Enabled": False, "AttributeName": ttl_attribute_name},
        )

        # In the returned response, check for a successful status code.
        if response["ResponseMetadata"]["HTTPStatusCode"] == 200:
            print("TTL has been disabled successfully.")
        else:
            print(
                f"Failed to disable TTL, status code {response['ResponseMetadata']['HTTPStatusCode']}"
            )
    except Exception as ex:
        print("Couldn't disable TTL in table %s. Here's why: %s" % (table_name, ex))
        raise


# your values
disable_ttl("your-table-name", "expireAt")
```
+  Untuk detail API, lihat [UpdateTimeToLive](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateTimeToLive)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Mempercepat pembacaan dengan DAX
<a name="dynamodb_Usage_DaxDemo_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat dan tulis data ke tabel dengan klien DAX dan SDK.
+ Dapatkan, kueri, dan pindai tabel dengan kedua klien tersebut dan bandingkan performanya.

Untuk informasi selengkapnya, lihat [Melakukan pengembangan dengan Klien DynamoDB Accelerator](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DAX.client.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb/TryDax#code-examples). 
Buat tabel dengan klien DAX atau Boto3.  

```
import boto3


def create_dax_table(dyn_resource=None):
    """
    Creates a DynamoDB table.

    :param dyn_resource: Either a Boto3 or DAX resource.
    :return: The newly created table.
    """
    if dyn_resource is None:
        dyn_resource = boto3.resource("dynamodb")

    table_name = "TryDaxTable"
    params = {
        "TableName": table_name,
        "KeySchema": [
            {"AttributeName": "partition_key", "KeyType": "HASH"},
            {"AttributeName": "sort_key", "KeyType": "RANGE"},
        ],
        "AttributeDefinitions": [
            {"AttributeName": "partition_key", "AttributeType": "N"},
            {"AttributeName": "sort_key", "AttributeType": "N"},
        ],
        "BillingMode": "PAY_PER_REQUEST",
    }
    table = dyn_resource.create_table(**params)
    print(f"Creating {table_name}...")
    table.wait_until_exists()
    return table


if __name__ == "__main__":
    dax_table = create_dax_table()
    print(f"Created table.")
```
Tulis data uji ke tabel tersebut.  

```
import boto3


def write_data_to_dax_table(key_count, item_size, dyn_resource=None):
    """
    Writes test data to the demonstration table.

    :param key_count: The number of partition and sort keys to use to populate the
                      table. The total number of items is key_count * key_count.
    :param item_size: The size of non-key data for each test item.
    :param dyn_resource: Either a Boto3 or DAX resource.
    """
    if dyn_resource is None:
        dyn_resource = boto3.resource("dynamodb")

    table = dyn_resource.Table("TryDaxTable")
    some_data = "X" * item_size

    for partition_key in range(1, key_count + 1):
        for sort_key in range(1, key_count + 1):
            table.put_item(
                Item={
                    "partition_key": partition_key,
                    "sort_key": sort_key,
                    "some_data": some_data,
                }
            )
            print(f"Put item ({partition_key}, {sort_key}) succeeded.")


if __name__ == "__main__":
    write_key_count = 10
    write_item_size = 1000
    print(
        f"Writing {write_key_count*write_key_count} items to the table. "
        f"Each item is {write_item_size} characters."
    )
    write_data_to_dax_table(write_key_count, write_item_size)
```
Dapatkan item untuk sejumlah iterasi untuk klien DAX maupun klien Boto3 dan laporkan waktu yang dihabiskan untuk setiap klien.  

```
import argparse
import sys
import time
import amazondax
import boto3


def get_item_test(key_count, iterations, dyn_resource=None):
    """
    Gets items from the table a specified number of times. The time before the
    first iteration and the time after the last iteration are both captured
    and reported.

    :param key_count: The number of items to get from the table in each iteration.
    :param iterations: The number of iterations to run.
    :param dyn_resource: Either a Boto3 or DAX resource.
    :return: The start and end times of the test.
    """
    if dyn_resource is None:
        dyn_resource = boto3.resource("dynamodb")

    table = dyn_resource.Table("TryDaxTable")
    start = time.perf_counter()
    for _ in range(iterations):
        for partition_key in range(1, key_count + 1):
            for sort_key in range(1, key_count + 1):
                table.get_item(
                    Key={"partition_key": partition_key, "sort_key": sort_key}
                )
                print(".", end="")
                sys.stdout.flush()
    print()
    end = time.perf_counter()
    return start, end


if __name__ == "__main__":
    # pylint: disable=not-context-manager
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "endpoint_url",
        nargs="?",
        help="When specified, the DAX cluster endpoint. Otherwise, DAX is not used.",
    )
    args = parser.parse_args()

    test_key_count = 10
    test_iterations = 50
    if args.endpoint_url:
        print(
            f"Getting each item from the table {test_iterations} times, "
            f"using the DAX client."
        )
        # Use a with statement so the DAX client closes the cluster after completion.
        with amazondax.AmazonDaxClient.resource(endpoint_url=args.endpoint_url) as dax:
            test_start, test_end = get_item_test(
                test_key_count, test_iterations, dyn_resource=dax
            )
    else:
        print(
            f"Getting each item from the table {test_iterations} times, "
            f"using the Boto3 client."
        )
        test_start, test_end = get_item_test(test_key_count, test_iterations)
    print(
        f"Total time: {test_end - test_start:.4f} sec. Average time: "
        f"{(test_end - test_start)/ test_iterations}."
    )
```
Kueri tabel untuk sejumlah iterasi untuk klien DAX maupun klien Boto3 dan laporkan waktu yang dihabiskan untuk setiap klien.  

```
import argparse
import time
import sys
import amazondax
import boto3
from boto3.dynamodb.conditions import Key


def query_test(partition_key, sort_keys, iterations, dyn_resource=None):
    """
    Queries the table a specified number of times. The time before the
    first iteration and the time after the last iteration are both captured
    and reported.

    :param partition_key: The partition key value to use in the query. The query
                          returns items that have partition keys equal to this value.
    :param sort_keys: The range of sort key values for the query. The query returns
                      items that have sort key values between these two values.
    :param iterations: The number of iterations to run.
    :param dyn_resource: Either a Boto3 or DAX resource.
    :return: The start and end times of the test.
    """
    if dyn_resource is None:
        dyn_resource = boto3.resource("dynamodb")

    table = dyn_resource.Table("TryDaxTable")
    key_condition_expression = Key("partition_key").eq(partition_key) & Key(
        "sort_key"
    ).between(*sort_keys)

    start = time.perf_counter()
    for _ in range(iterations):
        table.query(KeyConditionExpression=key_condition_expression)
        print(".", end="")
        sys.stdout.flush()
    print()
    end = time.perf_counter()
    return start, end


if __name__ == "__main__":
    # pylint: disable=not-context-manager
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "endpoint_url",
        nargs="?",
        help="When specified, the DAX cluster endpoint. Otherwise, DAX is not used.",
    )
    args = parser.parse_args()

    test_partition_key = 5
    test_sort_keys = (2, 9)
    test_iterations = 100
    if args.endpoint_url:
        print(f"Querying the table {test_iterations} times, using the DAX client.")
        # Use a with statement so the DAX client closes the cluster after completion.
        with amazondax.AmazonDaxClient.resource(endpoint_url=args.endpoint_url) as dax:
            test_start, test_end = query_test(
                test_partition_key, test_sort_keys, test_iterations, dyn_resource=dax
            )
    else:
        print(f"Querying the table {test_iterations} times, using the Boto3 client.")
        test_start, test_end = query_test(
            test_partition_key, test_sort_keys, test_iterations
        )

    print(
        f"Total time: {test_end - test_start:.4f} sec. Average time: "
        f"{(test_end - test_start)/test_iterations}."
    )
```
Pindai tabel untuk sejumlah iterasi untuk klien DAX maupun klien Boto3 dan laporkan waktu yang dihabiskan untuk setiap klien.  

```
import argparse
import time
import sys
import amazondax
import boto3


def scan_test(iterations, dyn_resource=None):
    """
    Scans the table a specified number of times. The time before the
    first iteration and the time after the last iteration are both captured
    and reported.

    :param iterations: The number of iterations to run.
    :param dyn_resource: Either a Boto3 or DAX resource.
    :return: The start and end times of the test.
    """
    if dyn_resource is None:
        dyn_resource = boto3.resource("dynamodb")

    table = dyn_resource.Table("TryDaxTable")
    start = time.perf_counter()
    for _ in range(iterations):
        table.scan()
        print(".", end="")
        sys.stdout.flush()
    print()
    end = time.perf_counter()
    return start, end


if __name__ == "__main__":
    # pylint: disable=not-context-manager
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "endpoint_url",
        nargs="?",
        help="When specified, the DAX cluster endpoint. Otherwise, DAX is not used.",
    )
    args = parser.parse_args()

    test_iterations = 100
    if args.endpoint_url:
        print(f"Scanning the table {test_iterations} times, using the DAX client.")
        # Use a with statement so the DAX client closes the cluster after completion.
        with amazondax.AmazonDaxClient.resource(endpoint_url=args.endpoint_url) as dax:
            test_start, test_end = scan_test(test_iterations, dyn_resource=dax)
    else:
        print(f"Scanning the table {test_iterations} times, using the Boto3 client.")
        test_start, test_end = scan_test(test_iterations)
    print(
        f"Total time: {test_end - test_start:.4f} sec. Average time: "
        f"{(test_end - test_start)/test_iterations}."
    )
```
Hapus tabel tersebut.  

```
import boto3


def delete_dax_table(dyn_resource=None):
    """
    Deletes the demonstration table.

    :param dyn_resource: Either a Boto3 or DAX resource.
    """
    if dyn_resource is None:
        dyn_resource = boto3.resource("dynamodb")

    table = dyn_resource.Table("TryDaxTable")
    table.delete()

    print(f"Deleting {table.name}...")
    table.wait_until_not_exists()


if __name__ == "__main__":
    delete_dax_table()
    print("Table deleted!")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/CreateTable)
  + [DeleteTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DeleteTable)
  + [GetItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Scan)

### Bandingkan beberapa nilai dengan satu atribut
<a name="dynamodb_Scenario_CompareMultipleValues_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana membandingkan beberapa nilai dengan atribut tunggal di DynamoDB.
+ Gunakan operator IN untuk membandingkan beberapa nilai dengan satu atribut.
+ Bandingkan operator IN dengan beberapa kondisi OR.
+ Memahami manfaat kompleksitas kinerja dan ekspresi menggunakan IN.

**SDK untuk Python (Boto3)**  
Bandingkan beberapa nilai dengan satu atribut menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from boto3.dynamodb.conditions import Attr, Key
from typing import Any, Dict, List, Optional


def compare_multiple_values(
    table_name: str,
    attribute_name: str,
    values_list: List[Any],
    partition_key_name: Optional[str] = None,
    partition_key_value: Optional[str] = None,
) -> Dict[str, Any]:
    """
    Query or scan a DynamoDB table to find items where an attribute matches any value from a list.

    This function demonstrates the use of the IN operator to compare a single attribute
    against multiple possible values, which is more efficient than using multiple OR conditions.

    Args:
        table_name (str): The name of the DynamoDB table.
        attribute_name (str): The name of the attribute to compare against the values list.
        values_list (List[Any]): List of values to compare the attribute against.
        partition_key_name (Optional[str]): The name of the partition key attribute for query operations.
        partition_key_value (Optional[str]): The value of the partition key to query.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the matching items.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Create the filter expression using the is_in method
    filter_expression = Attr(attribute_name).is_in(values_list)

    # If partition key is provided, perform a query operation
    if partition_key_name and partition_key_value:
        key_condition = Key(partition_key_name).eq(partition_key_value)
        response = table.query(
            KeyConditionExpression=key_condition, FilterExpression=filter_expression
        )
    else:
        # Otherwise, perform a scan operation
        response = table.scan(FilterExpression=filter_expression)

    # Handle pagination if there are more results
    items = response.get("Items", [])
    while "LastEvaluatedKey" in response:
        if partition_key_name and partition_key_value:
            response = table.query(
                KeyConditionExpression=key_condition,
                FilterExpression=filter_expression,
                ExclusiveStartKey=response["LastEvaluatedKey"],
            )
        else:
            response = table.scan(
                FilterExpression=filter_expression, ExclusiveStartKey=response["LastEvaluatedKey"]
            )
        items.extend(response.get("Items", []))

    # Return the complete result
    return {"Items": items, "Count": len(items)}


def compare_with_or_conditions(
    table_name: str,
    attribute_name: str,
    values_list: List[Any],
    partition_key_name: Optional[str] = None,
    partition_key_value: Optional[str] = None,
) -> Dict[str, Any]:
    """
    Alternative implementation using multiple OR conditions instead of the IN operator.

    This function is provided for comparison to show why using the IN operator is preferable.
    With many values, this approach becomes verbose and less efficient.

    Args:
        table_name (str): The name of the DynamoDB table.
        attribute_name (str): The name of the attribute to compare against the values list.
        values_list (List[Any]): List of values to compare the attribute against.
        partition_key_name (Optional[str]): The name of the partition key attribute for query operations.
        partition_key_value (Optional[str]): The value of the partition key to query.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the matching items.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Create a filter expression with multiple OR conditions
    filter_expression = None
    for value in values_list:
        condition = Attr(attribute_name).eq(value)
        if filter_expression is None:
            filter_expression = condition
        else:
            filter_expression = filter_expression | condition

    # If partition key is provided, perform a query operation
    if partition_key_name and partition_key_value and filter_expression:
        key_condition = Key(partition_key_name).eq(partition_key_value)
        response = table.query(
            KeyConditionExpression=key_condition, FilterExpression=filter_expression
        )
    elif filter_expression:
        # Otherwise, perform a scan operation
        response = table.scan(FilterExpression=filter_expression)
    else:
        # Return empty response if no values provided
        return {"Items": [], "Count": 0}

    # Handle pagination if there are more results
    items = response.get("Items", [])
    while "LastEvaluatedKey" in response:
        if partition_key_name and partition_key_value:
            response = table.query(
                KeyConditionExpression=key_condition,
                FilterExpression=filter_expression,
                ExclusiveStartKey=response["LastEvaluatedKey"],
            )
        else:
            response = table.scan(
                FilterExpression=filter_expression, ExclusiveStartKey=response["LastEvaluatedKey"]
            )
        items.extend(response.get("Items", []))

    # Return the complete result
    return {"Items": items, "Count": len(items)}
```
Contoh penggunaan membandingkan beberapa nilai dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use the compare_multiple_values function."""
    # Example parameters
    table_name = "Products"
    attribute_name = "Category"
    values_list = ["Electronics", "Computers", "Accessories"]

    print(f"Searching for products in any of these categories: {values_list}")

    # Using the IN operator (recommended approach)
    print("\nApproach 1: Using the IN operator")
    response = compare_multiple_values(
        table_name=table_name, attribute_name=attribute_name, values_list=values_list
    )

    print(f"Found {response['Count']} products in the specified categories")

    # Using multiple OR conditions (alternative approach)
    print("\nApproach 2: Using multiple OR conditions")
    response2 = compare_with_or_conditions(
        table_name=table_name, attribute_name=attribute_name, values_list=values_list
    )

    print(f"Found {response2['Count']} products in the specified categories")

    # Example with a query operation
    print("\nQuerying a specific manufacturer's products in multiple categories")
    partition_key_name = "Manufacturer"
    partition_key_value = "Acme"

    response3 = compare_multiple_values(
        table_name=table_name,
        attribute_name=attribute_name,
        values_list=values_list,
        partition_key_name=partition_key_name,
        partition_key_value=partition_key_value,
    )

    print(f"Found {response3['Count']} Acme products in the specified categories")

    # Explain the benefits of using the IN operator
    print("\nBenefits of using the IN operator:")
    print("1. More concise expression compared to multiple OR conditions")
    print("2. Better readability and maintainability")
    print("3. Potentially better performance with large value lists")
    print("4. Simpler code that's less prone to errors")
    print("5. Easier to modify when adding or removing values")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Scan)

### Perbarui TTL item secara kondisional
<a name="dynamodb_UpdateItemConditionalTTL_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui TTL item secara kondisional.

**SDK untuk Python (Boto3)**  
Perbarui TTL pada Item DynamoDB yang ada dalam tabel, dengan kondisi.  

```
from datetime import datetime, timedelta

import boto3
from botocore.exceptions import ClientError


def update_dynamodb_item_ttl(table_name, region, primary_key, sort_key, ttl_attribute):
    """
    Updates an existing record in a DynamoDB table with a new or updated TTL attribute.

    :param table_name: Name of the DynamoDB table
    :param region: AWS Region of the table - example `us-east-1`
    :param primary_key: one attribute known as the partition key.
    :param sort_key: Also known as a range attribute.
    :param ttl_attribute: name of the TTL attribute in the target DynamoDB table
    :return:
    """
    try:
        dynamodb = boto3.resource("dynamodb", region_name=region)
        table = dynamodb.Table(table_name)

        # Generate updated TTL in epoch second format
        updated_expiration_time = int((datetime.now() + timedelta(days=90)).timestamp())

        # Define the update expression for adding/updating a new attribute
        update_expression = "SET newAttribute = :val1"

        # Define the condition expression for checking if 'expireAt' is not expired
        condition_expression = "expireAt > :val2"

        # Define the expression attribute values
        expression_attribute_values = {":val1": ttl_attribute, ":val2": updated_expiration_time}

        response = table.update_item(
            Key={"primaryKey": primary_key, "sortKey": sort_key},
            UpdateExpression=update_expression,
            ConditionExpression=condition_expression,
            ExpressionAttributeValues=expression_attribute_values,
        )

        print("Item updated successfully.")
        return response["ResponseMetadata"]["HTTPStatusCode"]  # Ideally a 200 OK
    except ClientError as e:
        if e.response["Error"]["Code"] == "ConditionalCheckFailedException":
            print("Condition check failed: Item's 'expireAt' is expired.")
        else:
            print(f"Error updating item: {e}")
    except Exception as e:
        print(f"Error updating item: {e}")


# replace with your values
update_dynamodb_item_ttl(
    "your-table-name",
    "us-east-1",
    "your-partition-key-value",
    "your-sort-key-value",
    "your-ttl-attribute-value",
)
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Hitung operator ekspresi
<a name="dynamodb_Scenario_ExpressionOperatorCounting_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menghitung operator ekspresi di DynamoDB.
+ Memahami batas 300 operator DynamoDB.
+ Hitung operator dalam ekspresi kompleks.
+ Optimalkan ekspresi agar tetap dalam batas.

**SDK untuk Python (Boto3)**  
Menunjukkan penghitungan operator ekspresi menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from botocore.exceptions import ClientError
from typing import Any, Dict, List, Optional, Tuple



def create_complex_filter_expression(
    attribute_name: str, values: List[Any], use_or: bool = True
) -> Tuple[str, Dict[str, Any], Dict[str, str], int]:
    """
    Create a complex filter expression with multiple conditions.

    This function demonstrates how to build a complex filter expression
    and count the number of operators used.

    Args:
        attribute_name (str): The name of the attribute to filter on.
        values (List[Any]): List of values to compare against.
        use_or (bool, optional): Whether to use OR between conditions. Defaults to True.

    Returns:
        Tuple[str, Dict[str, Any], Dict[str, str], int]: A tuple containing:
            - The filter expression string
            - Expression attribute values
            - Expression attribute names
            - The number of operators used
    """
    if not values:
        return "", {}, {}, 0

    # Initialize expression components
    filter_expression = ""
    expression_attribute_values = {}
    expression_attribute_names = {"#attr": attribute_name}
    operator_count = 0

    # Build the filter expression
    for i, value in enumerate(values):
        value_placeholder = f":val{i}"
        expression_attribute_values[value_placeholder] = value

        if i > 0:
            # Add OR or AND operator between conditions
            filter_expression += " OR " if use_or else " AND "
            operator_count += 1  # Count the OR/AND operator

        # Add the condition
        filter_expression += f"#attr = {value_placeholder}"
        operator_count += 1  # Count the = operator

    return (
        filter_expression,
        expression_attribute_values,
        expression_attribute_names,
        operator_count,
    )


def create_nested_filter_expression(
    depth: int, conditions_per_level: int
) -> Tuple[str, Dict[str, Any], Dict[str, str], int]:
    """
    Create a deeply nested filter expression with multiple conditions.

    This function demonstrates how to build a complex nested filter expression
    and count the number of operators used.

    Args:
        depth (int): The depth of nesting.
        conditions_per_level (int): Number of conditions at each level.

    Returns:
        Tuple[str, Dict[str, Any], Dict[str, str], int]: A tuple containing:
            - The filter expression string
            - Expression attribute values
            - Expression attribute names
            - The number of operators used
    """
    if depth <= 0 or conditions_per_level <= 0:
        return "", {}, {}, 0

    # Initialize expression components
    expression_attribute_values = {}
    expression_attribute_names = {}
    operator_count = 0

    def build_nested_expression(current_depth: int, prefix: str) -> str:
        nonlocal operator_count

        if current_depth <= 0:
            return ""

        # Build conditions at this level
        conditions = []
        for i in range(conditions_per_level):
            attr_name = f"attr{prefix}_{i}"
            attr_placeholder = f"#attr{prefix}_{i}"
            val_placeholder = f":val{prefix}_{i}"

            expression_attribute_names[attr_placeholder] = attr_name
            expression_attribute_values[val_placeholder] = i

            conditions.append(f"{attr_placeholder} = {val_placeholder}")
            operator_count += 1  # Count the = operator

        # Join conditions with AND
        level_expression = " AND ".join(conditions)
        operator_count += max(0, len(conditions) - 1)  # Count the AND operators

        # If not at the deepest level, add nested expressions
        if current_depth > 1:
            nested_expr = build_nested_expression(current_depth - 1, f"{prefix}_{current_depth}")
            if nested_expr:
                level_expression = f"({level_expression}) OR ({nested_expr})"
                operator_count += 1  # Count the OR operator

        return level_expression

    # Build the expression starting from the top level
    filter_expression = build_nested_expression(depth, "1")

    return (
        filter_expression,
        expression_attribute_values,
        expression_attribute_names,
        operator_count,
    )


def count_operators_in_update_expression(update_expression: str) -> int:
    """
    Count the number of operators in an update expression.

    This function demonstrates how to count operators in an update expression
    based on DynamoDB's rules.

    Args:
        update_expression (str): The update expression to analyze.

    Returns:
        int: The number of operators in the expression.
    """
    operator_count = 0

    # Count SET operations
    if "SET" in update_expression:
        set_section = (
            update_expression.split("SET")[1].split("REMOVE")[0].split("ADD")[0].split("DELETE")[0]
        )

        # Count assignment operators (=)
        operator_count += set_section.count("=")

        # Count arithmetic operators (+, -)
        operator_count += set_section.count("+")
        operator_count += set_section.count("-")

        # Count list_append function calls (each counts as 1 operator)
        operator_count += set_section.lower().count("list_append")

        # Count if_not_exists function calls (each counts as 1 operator)
        operator_count += set_section.lower().count("if_not_exists")

    # Count REMOVE operations (no additional operators)

    # Count ADD operations (each ADD counts as 1 operator)
    if "ADD" in update_expression:
        add_section = (
            update_expression.split("ADD")[1].split("DELETE")[0].split("SET")[0].split("REMOVE")[0]
        )
        operator_count += add_section.count(",") + 1

    # Count DELETE operations (each DELETE counts as 1 operator)
    if "DELETE" in update_expression:
        delete_section = (
            update_expression.split("DELETE")[1].split("SET")[0].split("ADD")[0].split("REMOVE")[0]
        )
        operator_count += delete_section.count(",") + 1

    return operator_count


def count_operators_in_condition_expression(condition_expression: str) -> int:
    """
    Count the number of operators in a condition expression.

    This function demonstrates how to count operators in a condition expression
    based on DynamoDB's rules.

    Args:
        condition_expression (str): The condition expression to analyze.

    Returns:
        int: The number of operators in the expression.
    """
    operator_count = 0

    # Count comparison operators
    comparison_operators = ["=", "<>", "<", "<=", ">", ">="]
    for op in comparison_operators:
        operator_count += condition_expression.count(op)

    # Count logical operators
    operator_count += condition_expression.upper().count(" AND ")
    operator_count += condition_expression.upper().count(" OR ")
    operator_count += condition_expression.upper().count("NOT ")

    # Count BETWEEN operator (counts as 2: BETWEEN + AND)
    between_count = condition_expression.upper().count(" BETWEEN ")
    operator_count += between_count * 2

    # Count IN operator (counts as 1 regardless of number of values)
    operator_count += condition_expression.upper().count(" IN ")

    # Count functions (each counts as 1 operator)
    functions = [
        "attribute_exists",
        "attribute_not_exists",
        "attribute_type",
        "begins_with",
        "contains",
        "size",
    ]
    for func in functions:
        operator_count += condition_expression.lower().count(func)

    return operator_count


# Note: This function is for demonstration purposes only and should be called from example_usage()
# It's not meant to be used directly as a test function
def _test_expression_limit(
    table_name: str, key: Dict[str, Any], operator_count: int, attribute_name: str = "TestAttribute"
) -> Tuple[bool, Optional[str]]:
    """
    Test if an expression with a specific number of operators exceeds the limit.

    This function demonstrates how to test the 300 operator limit by creating
    an expression with a specified number of operators.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        operator_count (int): The number of operators to include in the expression.
        attribute_name (str, optional): The name of the attribute to update. Defaults to "TestAttribute".

    Returns:
        Tuple[bool, Optional[str]]: A tuple containing:
            - A boolean indicating if the operation succeeded
            - The error message if it failed, None otherwise
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Create an update expression with the specified number of operators
    update_expression = f"SET #{attribute_name} = :val0"
    expression_attribute_names = {f"#{attribute_name}": attribute_name}
    expression_attribute_values = {":val0": 0}

    # Add additional SET operations to reach the desired operator count
    # Each assignment adds 1 operator
    for i in range(1, operator_count):
        attr_name = f"{attribute_name}{i}"
        attr_placeholder = f"#attr{i}"
        val_placeholder = f":val{i}"

        update_expression += f", {attr_placeholder} = {val_placeholder}"
        expression_attribute_names[attr_placeholder] = attr_name
        expression_attribute_values[val_placeholder] = i

    try:
        # Attempt the update operation
        table.update_item(
            Key=key,
            UpdateExpression=update_expression,
            ExpressionAttributeNames=expression_attribute_names,
            ExpressionAttributeValues=expression_attribute_values,
        )
        return True, None
    except ClientError as e:
        error_message = e.response["Error"]["Message"]

        if "expression contains too many operators" in error_message.lower():
            return False, error_message
        else:
            # Other error occurred
            raise
```
Contoh penggunaan operator ekspresi menghitung dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use the expression operator counting functions."""

    print("Example 1: Creating a complex filter expression with multiple conditions")
    attribute_name = "Status"
    values = ["Active", "Pending", "Processing", "Shipped", "Delivered"]

    filter_expr, expr_attr_vals, expr_attr_names, op_count = create_complex_filter_expression(
        attribute_name=attribute_name, values=values, use_or=True
    )

    print(f"Filter Expression: {filter_expr}")
    print(f"Expression Attribute Values: {expr_attr_vals}")
    print(f"Expression Attribute Names: {expr_attr_names}")
    print(f"Operator Count: {op_count}")

    print("\nExample 2: Creating a nested filter expression")
    nested_expr, nested_vals, nested_names, nested_count = create_nested_filter_expression(
        depth=3, conditions_per_level=2
    )

    print(f"Nested Filter Expression: {nested_expr}")
    print(f"Operator Count: {nested_count}")

    print("\nExample 3: Counting operators in an update expression")
    update_expression = "SET #name = :name, #age = :age + :increment, #address.#city = :city, #status = if_not_exists(#status, :default_status) REMOVE #old_field ADD #counter :value DELETE #set_attr :set_val"
    update_op_count = count_operators_in_update_expression(update_expression)

    print(f"Update Expression: {update_expression}")
    print(f"Operator Count: {update_op_count}")

    print("\nExample 4: Counting operators in a condition expression")
    condition_expression = "(#status = :active OR #status = :pending) AND #price BETWEEN :min_price AND :max_price AND attribute_exists(#category) AND NOT (#stock <= :min_stock)"
    condition_op_count = count_operators_in_condition_expression(condition_expression)

    print(f"Condition Expression: {condition_expression}")
    print(f"Operator Count: {condition_op_count}")

    print("\nExample 5: Testing the 300 operator limit")

    # This is just for demonstration - in a real application, you would use your actual table
    # Note: This function is renamed to _test_expression_limit to avoid pytest trying to run it
    print("In a real application, you would test with _test_expression_limit function")
    print("Expression with 250 operators would be under the limit")
    print("Expression with 350 operators would exceed the 300 operator limit")

    print("\nOperator Counting Rules in DynamoDB:")
    print("1. Comparison Operators (=, <>, <, <=, >, >=): 1 operator each")
    print("2. Logical Operators (AND, OR, NOT): 1 operator each")
    print("3. BETWEEN: 2 operators (BETWEEN + AND)")
    print("4. IN: 1 operator (regardless of number of values)")
    print("5. Functions (attribute_exists, begins_with, etc.): 1 operator each")
    print("6. Arithmetic Operators (+, -): 1 operator each")
    print("7. SET assignments (=): 1 operator each")
    print("8. ADD and DELETE operations: 1 operator each")

    print("\nStrategies for Working Within the 300 Operator Limit:")
    print("1. Break operations into multiple requests")
    print("2. Use DynamoDB Transactions for complex operations")
    print("3. Optimize data model to reduce query complexity")
    print("4. Use application-side filtering for less critical filters")
    print("5. Consider using IN operator instead of multiple OR conditions")
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Membuat API REST untuk melacak data COVID-19
<a name="cross_ApiGatewayDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat API REST yang menyimulasikan sistem untuk melacak kasus COVID-19 harian di Amerika Serikat, menggunakan data fiksi.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS Chalice dengan membuat REST API tanpa server yang menggunakan Amazon API Gateway,, AWS Lambda dan Amazon DynamoDB. AWS SDK untuk Python (Boto3) API REST menyimulasikan sistem untuk melacak kasus COVID-19 harian di Amerika Serikat, menggunakan data fiksi. Pelajari cara:   
+ Gunakan AWS Chalice untuk menentukan rute dalam fungsi Lambda yang dipanggil untuk menangani permintaan REST yang datang melalui API Gateway.
+ Menggunakan fungsi Lambda untuk mengambil dan menyimpan data dalam tabel DynamoDB untuk melayani permintaan REST.
+ Tentukan struktur tabel dan sumber daya peran keamanan dalam AWS CloudFormation template.
+ Gunakan AWS Chalice dan CloudFormation untuk mengemas dan menyebarkan semua sumber daya yang diperlukan.
+ Gunakan CloudFormation untuk membersihkan semua sumber daya yang dibuat.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/apigateway_covid-19_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ CloudFormation
+ DynamoDB
+ Lambda

### Membuat aplikasi messenger
<a name="cross_StepFunctionsMessenger_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi AWS Step Functions messenger yang mengambil catatan pesan dari tabel database.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) with AWS Step Functions untuk membuat aplikasi messenger yang mengambil catatan pesan dari tabel Amazon DynamoDB dan mengirimkannya dengan Amazon Simple Queue Service (Amazon SQS). Mesin state terintegrasi dengan AWS Lambda fungsi untuk memindai database untuk pesan yang tidak terkirim.   
+ Buat mesin status yang mengambil dan memperbarui catatan pesan dari tabel Amazon DynamoDB.
+ Perbarui definisi mesin status untuk mengirim pesan ke Amazon Simple Queue Service (Amazon SQS).
+ Mulai dan hentikan berjalannya mesin status.
+ Terhubung ke Lambda, DynamoDB, dan Amazon SQS dari mesin status menggunakan integrasi layanan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/stepfunctions_messenger).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda
+ Amazon SQS
+ Step Functions

### Buat tabel dengan throughput hangat diaktifkan
<a name="dynamodb_CreateTableWarmThroughput_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat tabel dengan throughput hangat diaktifkan.

**SDK untuk Python (Boto3)**  
Buat tabel DynamoDB dengan pengaturan throughput hangat menggunakan. AWS SDK untuk Python (Boto3)  

```
from boto3 import client
from botocore.exceptions import ClientError


def create_dynamodb_table_warm_throughput(
    table_name,
    partition_key,
    sort_key,
    misc_key_attr,
    non_key_attr,
    table_provisioned_read_units,
    table_provisioned_write_units,
    table_warm_reads,
    table_warm_writes,
    gsi_name,
    gsi_provisioned_read_units,
    gsi_provisioned_write_units,
    gsi_warm_reads,
    gsi_warm_writes,
    region_name="us-east-1",
):
    """
    Creates a DynamoDB table with a warm throughput setting configured.

    :param table_name: The name of the table to be created.
    :param partition_key: The partition key for the table being created.
    :param sort_key: The sort key for the table being created.
    :param misc_key_attr: A miscellaneous key attribute for the table being created.
    :param non_key_attr: A non-key attribute for the table being created.
    :param table_provisioned_read_units: The newly created table's provisioned read capacity units.
    :param table_provisioned_write_units: The newly created table's provisioned write capacity units.
    :param table_warm_reads: The read units per second setting for the table's warm throughput.
    :param table_warm_writes: The write units per second setting for the table's warm throughput.
    :param gsi_name: The name of the Global Secondary Index (GSI) to be created on the table.
    :param gsi_provisioned_read_units: The configured Global Secondary Index (GSI) provisioned read capacity units.
    :param gsi_provisioned_write_units: The configured Global Secondary Index (GSI) provisioned write capacity units.
    :param gsi_warm_reads: The read units per second setting for the Global Secondary Index (GSI)'s warm throughput.
    :param gsi_warm_writes: The write units per second setting for the Global Secondary Index (GSI)'s warm throughput.
    :param region_name: The AWS Region name to target. defaults to us-east-1
    """
    try:
        ddb = client("dynamodb", region_name=region_name)

        # Define the table attributes
        attribute_definitions = [
            {"AttributeName": partition_key, "AttributeType": "S"},
            {"AttributeName": sort_key, "AttributeType": "S"},
            {"AttributeName": misc_key_attr, "AttributeType": "N"},
        ]

        # Define the table key schema
        key_schema = [
            {"AttributeName": partition_key, "KeyType": "HASH"},
            {"AttributeName": sort_key, "KeyType": "RANGE"},
        ]

        # Define the provisioned throughput for the table
        provisioned_throughput = {
            "ReadCapacityUnits": table_provisioned_read_units,
            "WriteCapacityUnits": table_provisioned_write_units,
        }

        # Define the global secondary index
        gsi_key_schema = [
            {"AttributeName": sort_key, "KeyType": "HASH"},
            {"AttributeName": misc_key_attr, "KeyType": "RANGE"},
        ]
        gsi_projection = {"ProjectionType": "INCLUDE", "NonKeyAttributes": [non_key_attr]}
        gsi_provisioned_throughput = {
            "ReadCapacityUnits": gsi_provisioned_read_units,
            "WriteCapacityUnits": gsi_provisioned_write_units,
        }
        gsi_warm_throughput = {
            "ReadUnitsPerSecond": gsi_warm_reads,
            "WriteUnitsPerSecond": gsi_warm_writes,
        }
        global_secondary_indexes = [
            {
                "IndexName": gsi_name,
                "KeySchema": gsi_key_schema,
                "Projection": gsi_projection,
                "ProvisionedThroughput": gsi_provisioned_throughput,
                "WarmThroughput": gsi_warm_throughput,
            }
        ]

        # Define the warm throughput for the table
        warm_throughput = {
            "ReadUnitsPerSecond": table_warm_reads,
            "WriteUnitsPerSecond": table_warm_writes,
        }

        # Create the DynamoDB client and create the table
        response = ddb.create_table(
            TableName=table_name,
            AttributeDefinitions=attribute_definitions,
            KeySchema=key_schema,
            ProvisionedThroughput=provisioned_throughput,
            GlobalSecondaryIndexes=global_secondary_indexes,
            WarmThroughput=warm_throughput,
        )

        print(response)
        return response
    except ClientError as e:
        print(f"Error creating table: {e}")
        raise e
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/CreateTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### Membuat aplikasi web untuk melacak data DynamoDB
<a name="cross_DynamoDBDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item kerja dalam tabel Amazon DynamoDB dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat layanan REST yang melacak item kerja di Amazon DynamoDB dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan rangka kerja web Flask untuk menangani perutean HTTP dan terintegrasi dengan halaman web React untuk menyajikan aplikasi web yang berfungsi penuh.   
+ Bangun layanan Flask REST yang terintegrasi dengan. Layanan AWS
+ Baca, tulis, dan perbarui item kerja yang disimpan dalam tabel DynamoDB.
+ Gunakan Amazon SES untuk mengirim laporan email tentang item pekerjaan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkap di [Repositori Contoh AWS Kode](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/dynamodb_item_tracker) di. GitHub   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SES

### Membuat aplikasi obrolan websocket
<a name="cross_ApiGatewayWebsocketChat_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi obrolan yang dilayani oleh API websocket yang dibangun di Amazon API Gateway.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) dengan Amazon API Gateway V2 untuk membuat API websocket yang terintegrasi dengan AWS Lambda dan Amazon DynamoDB.   
+ Buat API websocket yang dilayani oleh API Gateway.
+ Tentukan penangan Lambda yang menyimpan koneksi di DynamoDB dan memposting pesan ke peserta obrolan lainnya.
+ Hubungkan ke aplikasi obrolan websocket dan kirim pesan dengan paket Websocket.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/apigateway_websocket_chat).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

### Buat item dengan TTL
<a name="dynamodb_PutItemTTL_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat item dengan TTL.

**SDK untuk Python (Boto3)**  

```
from datetime import datetime, timedelta

import boto3


def create_dynamodb_item(table_name, region, primary_key, sort_key):
    """
    Creates a DynamoDB item with an attached expiry attribute.

    :param table_name: Table name for the boto3 resource to target when creating an item
    :param region: string representing the AWS region. Example: `us-east-1`
    :param primary_key: one attribute known as the partition key.
    :param sort_key: Also known as a range attribute.
    :return: Void (nothing)
    """
    try:
        dynamodb = boto3.resource("dynamodb", region_name=region)
        table = dynamodb.Table(table_name)

        # Get the current time in epoch second format
        current_time = int(datetime.now().timestamp())

        # Calculate the expiration time (90 days from now) in epoch second format
        expiration_time = int((datetime.now() + timedelta(days=90)).timestamp())

        item = {
            "primaryKey": primary_key,
            "sortKey": sort_key,
            "creationDate": current_time,
            "expireAt": expiration_time,
        }
        response = table.put_item(Item=item)

        print("Item created successfully.")
        return response
    except Exception as e:
        print(f"Error creating item: {e}")
        raise e


# Use your own values
create_dynamodb_item(
    "your-table-name", "us-west-2", "your-partition-key-value", "your-sort-key-value"
)
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/PutItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Lakukan operasi kueri lanjutan
<a name="dynamodb_Scenario_AdvancedQueryTechniques_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi query lanjutan di DynamoDB.
+ Tabel kueri menggunakan berbagai teknik penyaringan dan kondisi.
+ Menerapkan pagination untuk set hasil besar.
+ Gunakan Global Secondary Indexes untuk pola akses alternatif.
+ Menerapkan kontrol konsistensi berdasarkan persyaratan aplikasi.

**SDK untuk Python (Boto3)**  
Kueri dengan pembacaan yang sangat konsisten menggunakan AWS SDK untuk Python (Boto3).  

```
import time

import boto3
from boto3.dynamodb.conditions import Key


def query_with_consistent_read(
    table_name,
    partition_key_name,
    partition_key_value,
    sort_key_name=None,
    sort_key_value=None,
    consistent_read=True,
):
    """
    Query a DynamoDB table with the option for strongly consistent reads.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        sort_key_name (str, optional): The name of the sort key attribute.
        sort_key_value (str, optional): The value of the sort key to query.
        consistent_read (bool, optional): Whether to use strongly consistent reads. Defaults to True.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Build the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    if sort_key_name and sort_key_value:
        key_condition = key_condition & Key(sort_key_name).eq(sort_key_value)

    # Perform the query with the consistent read option
    response = table.query(KeyConditionExpression=key_condition, ConsistentRead=consistent_read)

    return response
```
Kueri menggunakan Indeks Sekunder Global dengan AWS SDK untuk Python (Boto3).  

```
import boto3
from boto3.dynamodb.conditions import Key


def query_table(table_name, partition_key_name, partition_key_value):
    """
    Query a DynamoDB table using its primary key.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Perform the query on the table's primary key
    response = table.query(KeyConditionExpression=Key(partition_key_name).eq(partition_key_value))

    return response


def query_gsi(table_name, index_name, partition_key_name, partition_key_value):
    """
    Query a Global Secondary Index (GSI) on a DynamoDB table.

    Args:
        table_name (str): The name of the DynamoDB table.
        index_name (str): The name of the Global Secondary Index.
        partition_key_name (str): The name of the GSI's partition key attribute.
        partition_key_value (str): The value of the GSI's partition key to query.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Perform the query on the GSI
    response = table.query(
        IndexName=index_name, KeyConditionExpression=Key(partition_key_name).eq(partition_key_value)
    )

    return response
```
Kueri dengan pagination menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from boto3.dynamodb.conditions import Key


def query_with_pagination(
    table_name, partition_key_name, partition_key_value, page_size=25, max_pages=None
):
    """
    Query a DynamoDB table with pagination to handle large result sets.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        page_size (int, optional): The number of items to return per page. Defaults to 25.
        max_pages (int, optional): The maximum number of pages to retrieve. If None, retrieves all pages.

    Returns:
        list: All items retrieved from the query across all pages.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Initialize variables for pagination
    last_evaluated_key = None
    page_count = 0
    all_items = []

    # Paginate through the results
    while True:
        # Check if we've reached the maximum number of pages
        if max_pages is not None and page_count >= max_pages:
            break

        # Prepare the query parameters
        query_params = {
            "KeyConditionExpression": Key(partition_key_name).eq(partition_key_value),
            "Limit": page_size,
        }

        # Add the ExclusiveStartKey if we have a LastEvaluatedKey from a previous query
        if last_evaluated_key:
            query_params["ExclusiveStartKey"] = last_evaluated_key

        # Execute the query
        response = table.query(**query_params)

        # Process the current page of results
        items = response.get("Items", [])
        all_items.extend(items)

        # Update pagination tracking
        page_count += 1

        # Get the LastEvaluatedKey for the next page, if any
        last_evaluated_key = response.get("LastEvaluatedKey")

        # If there's no LastEvaluatedKey, we've reached the end of the results
        if not last_evaluated_key:
            break

    return all_items


def query_with_pagination_generator(
    table_name, partition_key_name, partition_key_value, page_size=25
):
    """
    Query a DynamoDB table with pagination using a generator to handle large result sets.
    This approach is memory-efficient as it yields one page at a time.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        page_size (int, optional): The number of items to return per page. Defaults to 25.

    Yields:
        tuple: A tuple containing (items, page_number, last_page) where:
            - items is a list of items for the current page
            - page_number is the current page number (starting from 1)
            - last_page is a boolean indicating if this is the last page
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Initialize variables for pagination
    last_evaluated_key = None
    page_number = 0

    # Paginate through the results
    while True:
        # Prepare the query parameters
        query_params = {
            "KeyConditionExpression": Key(partition_key_name).eq(partition_key_value),
            "Limit": page_size,
        }

        # Add the ExclusiveStartKey if we have a LastEvaluatedKey from a previous query
        if last_evaluated_key:
            query_params["ExclusiveStartKey"] = last_evaluated_key

        # Execute the query
        response = table.query(**query_params)

        # Get the current page of results
        items = response.get("Items", [])
        page_number += 1

        # Get the LastEvaluatedKey for the next page, if any
        last_evaluated_key = response.get("LastEvaluatedKey")

        # Determine if this is the last page
        is_last_page = last_evaluated_key is None

        # Yield the current page of results
        yield (items, page_number, is_last_page)

        # If there's no LastEvaluatedKey, we've reached the end of the results
        if is_last_page:
            break
```
Kueri dengan filter kompleks menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from boto3.dynamodb.conditions import Attr, Key


def query_with_complex_filter(
    table_name,
    partition_key_name,
    partition_key_value,
    min_rating=None,
    status_list=None,
    max_price=None,
):
    """
    Query a DynamoDB table with a complex filter expression.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        min_rating (float, optional): Minimum rating value for filtering.
        status_list (list, optional): List of status values to include.
        max_price (float, optional): Maximum price value for filtering.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Start with the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Initialize the filter expression and expression attribute values
    filter_expression = None
    expression_attribute_values = {}

    # Build the filter expression based on provided parameters
    if min_rating is not None:
        filter_expression = Attr("rating").gte(min_rating)
        expression_attribute_values[":min_rating"] = min_rating

    if status_list and len(status_list) > 0:
        status_condition = None
        for i, status in enumerate(status_list):
            status_value_name = f":status{i}"
            expression_attribute_values[status_value_name] = status

            if status_condition is None:
                status_condition = Attr("status").eq(status)
            else:
                status_condition = status_condition | Attr("status").eq(status)

        if filter_expression is None:
            filter_expression = status_condition
        else:
            filter_expression = filter_expression & status_condition

    if max_price is not None:
        price_condition = Attr("price").lte(max_price)
        expression_attribute_values[":max_price"] = max_price

        if filter_expression is None:
            filter_expression = price_condition
        else:
            filter_expression = filter_expression & price_condition

    # Prepare the query parameters
    query_params = {"KeyConditionExpression": key_condition}

    if filter_expression:
        query_params["FilterExpression"] = filter_expression
        if expression_attribute_values:
            query_params["ExpressionAttributeValues"] = expression_attribute_values

    # Execute the query
    response = table.query(**query_params)
    return response


def query_with_complex_filter_and_or(
    table_name,
    partition_key_name,
    partition_key_value,
    category=None,
    min_rating=None,
    max_price=None,
):
    """
    Query a DynamoDB table with a complex filter expression using AND and OR operators.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        category (str, optional): Category value for filtering.
        min_rating (float, optional): Minimum rating value for filtering.
        max_price (float, optional): Maximum price value for filtering.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Start with the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Build a complex filter expression with AND and OR operators
    filter_expression = None
    expression_attribute_values = {}

    # Build the category condition
    if category:
        filter_expression = Attr("category").eq(category)
        expression_attribute_values[":category"] = category

    # Build the rating and price condition (rating >= min_rating OR price <= max_price)
    rating_price_condition = None

    if min_rating is not None:
        rating_price_condition = Attr("rating").gte(min_rating)
        expression_attribute_values[":min_rating"] = min_rating

    if max_price is not None:
        price_condition = Attr("price").lte(max_price)
        expression_attribute_values[":max_price"] = max_price

        if rating_price_condition is None:
            rating_price_condition = price_condition
        else:
            rating_price_condition = rating_price_condition | price_condition

    # Combine the conditions
    if rating_price_condition:
        if filter_expression is None:
            filter_expression = rating_price_condition
        else:
            filter_expression = filter_expression & rating_price_condition

    # Prepare the query parameters
    query_params = {"KeyConditionExpression": key_condition}

    if filter_expression:
        query_params["FilterExpression"] = filter_expression
        if expression_attribute_values:
            query_params["ExpressionAttributeValues"] = expression_attribute_values

    # Execute the query
    response = table.query(**query_params)
    return response
```
Kueri dengan ekspresi filter yang dibangun secara dinamis menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from boto3.dynamodb.conditions import Attr, Key


def query_with_dynamic_filter(
    table_name, partition_key_name, partition_key_value, filter_conditions=None
):
    """
    Query a DynamoDB table with a dynamically constructed filter expression.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        filter_conditions (dict, optional): A dictionary of filter conditions where
            keys are attribute names and values are dictionaries with 'operator' and 'value'.
            Example: {'rating': {'operator': '>=', 'value': 4}, 'status': {'operator': '=', 'value': 'active'}}

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Start with the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Initialize variables for the filter expression and attribute values
    filter_expression = None
    expression_attribute_values = {":pk_val": partition_key_value}

    # Dynamically build the filter expression if filter conditions are provided
    if filter_conditions:
        for attr_name, condition in filter_conditions.items():
            operator = condition.get("operator")
            value = condition.get("value")
            attr_value_name = f":{attr_name}"
            expression_attribute_values[attr_value_name] = value

            # Create the appropriate filter expression based on the operator
            current_condition = None
            if operator == "=":
                current_condition = Attr(attr_name).eq(value)
            elif operator == "!=":
                current_condition = Attr(attr_name).ne(value)
            elif operator == ">":
                current_condition = Attr(attr_name).gt(value)
            elif operator == ">=":
                current_condition = Attr(attr_name).gte(value)
            elif operator == "<":
                current_condition = Attr(attr_name).lt(value)
            elif operator == "<=":
                current_condition = Attr(attr_name).lte(value)
            elif operator == "contains":
                current_condition = Attr(attr_name).contains(value)
            elif operator == "begins_with":
                current_condition = Attr(attr_name).begins_with(value)

            # Combine with existing filter expression using AND
            if current_condition:
                if filter_expression is None:
                    filter_expression = current_condition
                else:
                    filter_expression = filter_expression & current_condition

    # Perform the query with the dynamically built filter expression
    query_params = {"KeyConditionExpression": key_condition}

    if filter_expression:
        query_params["FilterExpression"] = filter_expression

    response = table.query(**query_params)
    return response
```
Kueri dengan ekspresi filter dan batas penggunaan AWS SDK untuk Python (Boto3).  

```
import boto3
from boto3.dynamodb.conditions import Attr, Key


def query_with_filter_and_limit(
    table_name,
    partition_key_name,
    partition_key_value,
    filter_attribute=None,
    filter_value=None,
    limit=10,
):
    """
    Query a DynamoDB table with a filter expression and limit the number of results.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        filter_attribute (str, optional): The attribute name to filter on.
        filter_value (any, optional): The value to compare against in the filter.
        limit (int, optional): The maximum number of items to evaluate. Defaults to 10.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Build the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Prepare the query parameters
    query_params = {"KeyConditionExpression": key_condition, "Limit": limit}

    # Add the filter expression if filter attributes are provided
    if filter_attribute and filter_value is not None:
        query_params["FilterExpression"] = Attr(filter_attribute).gt(filter_value)
        query_params["ExpressionAttributeValues"] = {":filter_value": filter_value}

    # Execute the query
    response = table.query(**query_params)
    return response
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Lakukan operasi daftar
<a name="dynamodb_Scenario_ListOperations_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi daftar di DynamoDB.
+ Tambahkan elemen ke atribut daftar.
+ Hapus elemen dari atribut daftar.
+ Perbarui elemen tertentu dalam daftar berdasarkan indeks.
+ Gunakan fungsi daftar append dan daftar indeks.

**SDK untuk Python (Boto3)**  
Menunjukkan operasi daftar menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
import json
from typing import Any, Dict, List, Optional, Union


def create_list_attribute(
    table_name: str, key: Dict[str, Any], list_name: str, list_values: List[Any]
) -> Dict[str, Any]:
    """
    Create a new list attribute or replace an existing one.

    This function demonstrates how to create a new list attribute or replace
    an existing list with new values.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        list_name (str): The name of the list attribute.
        list_values (List[Any]): The values to set in the list.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use the SET operation to create or replace the list
    response = table.update_item(
        Key=key,
        UpdateExpression=f"SET {list_name} = :list_values",
        ExpressionAttributeValues={":list_values": list_values},
        ReturnValues="UPDATED_NEW",
    )

    return response


def append_to_list(
    table_name: str, key: Dict[str, Any], list_name: str, values_to_append: List[Any]
) -> Dict[str, Any]:
    """
    Append values to the end of a list attribute.

    This function demonstrates how to use the list_append function to add elements
    to the end of a list attribute.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        list_name (str): The name of the list attribute.
        values_to_append (List[Any]): The values to append to the list.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use list_append to add values to the end of the list
    response = table.update_item(
        Key=key,
        UpdateExpression=f"SET {list_name} = list_append({list_name}, :values)",
        ExpressionAttributeValues={":values": values_to_append},
        ReturnValues="UPDATED_NEW",
    )

    return response


def prepend_to_list(
    table_name: str, key: Dict[str, Any], list_name: str, values_to_prepend: List[Any]
) -> Dict[str, Any]:
    """
    Prepend values to the beginning of a list attribute.

    This function demonstrates how to use the list_append function to add elements
    to the beginning of a list attribute.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        list_name (str): The name of the list attribute.
        values_to_prepend (List[Any]): The values to prepend to the list.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use list_append with reversed order to add values to the beginning of the list
    response = table.update_item(
        Key=key,
        UpdateExpression=f"SET {list_name} = list_append(:values, {list_name})",
        ExpressionAttributeValues={":values": values_to_prepend},
        ReturnValues="UPDATED_NEW",
    )

    return response


def update_list_element(
    table_name: str, key: Dict[str, Any], list_name: str, index: int, new_value: Any
) -> Dict[str, Any]:
    """
    Update a specific element in a list attribute.

    This function demonstrates how to update a specific element in a list attribute
    using the index notation.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        list_name (str): The name of the list attribute.
        index (int): The zero-based index of the element to update.
        new_value (Any): The new value for the element.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use the index notation to update a specific element
    response = table.update_item(
        Key=key,
        UpdateExpression=f"SET {list_name}[{index}] = :value",
        ExpressionAttributeValues={":value": new_value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def remove_list_element(
    table_name: str, key: Dict[str, Any], list_name: str, index: int
) -> Dict[str, Any]:
    """
    Remove a specific element from a list attribute.

    This function demonstrates how to remove a specific element from a list attribute
    using the REMOVE action with index notation.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        list_name (str): The name of the list attribute.
        index (int): The zero-based index of the element to remove.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use the REMOVE action with index notation to remove a specific element
    response = table.update_item(
        Key=key, UpdateExpression=f"REMOVE {list_name}[{index}]", ReturnValues="UPDATED_NEW"
    )

    return response


def update_nested_list_element(
    table_name: str, key: Dict[str, Any], path: str, new_value: Any
) -> Dict[str, Any]:
    """
    Update an element in a nested list structure.

    This function demonstrates how to update an element in a nested list structure
    using expression attribute names for the path components.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        path (str): The path to the nested element (e.g., "parent[0].child[1]").
        new_value (Any): The new value for the element.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Define a type for path parts
    path_part = Dict[str, Union[str, int]]
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Parse the path to extract attribute names and indices
    path_parts: List[path_part] = []
    current_part = ""
    in_bracket = False

    for char in path:
        if char == "[":
            if current_part:
                path_parts.append({"type": "attribute", "value": current_part})
                current_part = ""
            in_bracket = True
        elif char == "]":
            if current_part:
                # Fix for mypy: Use a properly typed dictionary with Union type
                path_parts.append({"type": "index", "value": int(current_part)})
                current_part = ""
            in_bracket = False
        elif char == "." and not in_bracket:
            if current_part:
                path_parts.append({"type": "attribute", "value": current_part})
                current_part = ""
        else:
            current_part += char

    if current_part:
        path_parts.append({"type": "attribute", "value": current_part})

    # Build the update expression and attribute names
    update_expression = "SET "
    expression_attribute_names = {}

    # Build the path expression
    path_expression = ""
    for i, part in enumerate(path_parts):
        if part["type"] == "attribute":
            name_placeholder = f"#attr{i}"
            expression_attribute_names[name_placeholder] = part["value"]

            if path_expression:
                path_expression += "."
            path_expression += name_placeholder
        elif part["type"] == "index":
            path_expression += f"[{part['value']}]"

    # Complete the update expression
    update_expression += f"{path_expression} = :value"

    # Execute the update
    response = table.update_item(
        Key=key,
        UpdateExpression=update_expression,
        ExpressionAttributeNames=expression_attribute_names,
        ExpressionAttributeValues={":value": new_value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def create_list_if_not_exists(
    table_name: str, key: Dict[str, Any], list_name: str, default_values: List[Any]
) -> Dict[str, Any]:
    """
    Create a list attribute if it doesn't exist.

    This function demonstrates how to use if_not_exists to create a list attribute
    with default values if it doesn't already exist.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        list_name (str): The name of the list attribute.
        default_values (List[Any]): The default values for the list.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use if_not_exists to create the list if it doesn't exist
    response = table.update_item(
        Key=key,
        UpdateExpression=f"SET {list_name} = if_not_exists({list_name}, :default)",
        ExpressionAttributeValues={":default": default_values},
        ReturnValues="UPDATED_NEW",
    )

    return response


def append_to_list_safely(
    table_name: str,
    key: Dict[str, Any],
    list_name: str,
    values_to_append: List[Any],
    default_values: Optional[List[Any]] = None,
) -> Dict[str, Any]:
    """
    Append values to a list, creating it if it doesn't exist.

    This function demonstrates how to safely append values to a list attribute,
    creating the list with default values if it doesn't exist.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        list_name (str): The name of the list attribute.
        values_to_append (List[Any]): The values to append to the list.
        default_values (Optional[List[Any]]): The default values if the list doesn't exist.
            If not provided, values_to_append will be used as the default.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # If default_values is not provided, use values_to_append
    if default_values is None:
        default_values = values_to_append

    # Use if_not_exists with list_append to safely append to the list
    response = table.update_item(
        Key=key,
        UpdateExpression=f"SET {list_name} = list_append(if_not_exists({list_name}, :default), :values)",
        ExpressionAttributeValues={
            ":default": default_values if default_values else [],
            ":values": values_to_append,
        },
        ReturnValues="UPDATED_NEW",
    )

    return response
```
Contoh penggunaan operasi daftar dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use list operations in DynamoDB."""
    # Example parameters
    table_name = "UserData"
    key = {"UserId": "user123"}

    print("Example 1: Creating a list attribute")
    try:
        response = create_list_attribute(
            table_name=table_name,
            key=key,
            list_name="Interests",
            list_values=["Reading", "Hiking", "Photography"],
        )
        print(
            f"List attribute created successfully: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error creating list attribute: {e}")

    print("\nExample 2: Appending values to a list")
    try:
        response = append_to_list(
            table_name=table_name,
            key=key,
            list_name="Interests",
            values_to_append=["Cooking", "Gardening"],
        )
        print(
            f"Values appended to list successfully: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error appending to list: {e}")

    print("\nExample 3: Prepending values to a list")
    try:
        response = prepend_to_list(
            table_name=table_name,
            key=key,
            list_name="Interests",
            values_to_prepend=["Travel", "Music"],
        )
        print(
            f"Values prepended to list successfully: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error prepending to list: {e}")

    print("\nExample 4: Updating a specific list element")
    try:
        response = update_list_element(
            table_name=table_name,
            key=key,
            list_name="Interests",
            index=2,
            new_value="Mountain Hiking",
        )
        print(
            f"List element updated successfully: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error updating list element: {e}")

    print("\nExample 5: Removing a list element")
    try:
        response = remove_list_element(
            table_name=table_name, key=key, list_name="Interests", index=0
        )
        print(
            f"List element removed successfully: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error removing list element: {e}")

    print("\nExample 6: Working with nested lists")
    try:
        # First, create an item with a nested structure
        dynamodb = boto3.resource("dynamodb")
        table = dynamodb.Table(table_name)

        table.update_item(
            Key={"UserId": "user456"},
            UpdateExpression="SET #skills = :skills",
            ExpressionAttributeNames={"#skills": "Skills"},
            ExpressionAttributeValues={
                ":skills": [
                    {"Category": "Programming", "Languages": ["Python", "Java", "JavaScript"]},
                    {"Category": "Database", "Systems": ["DynamoDB", "MongoDB", "PostgreSQL"]},
                ]
            },
        )

        # Now update a nested element
        response = update_nested_list_element(
            table_name=table_name,
            key={"UserId": "user456"},
            path="Skills[0].Languages[1]",
            new_value="TypeScript",
        )
        print(
            f"Nested list element updated successfully: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error working with nested lists: {e}")

    print("\nExample 7: Creating a list if it doesn't exist")
    try:
        response = create_list_if_not_exists(
            table_name=table_name,
            key={"UserId": "user789"},
            list_name="Preferences",
            default_values=["Default1", "Default2", "Default3"],
        )
        print(
            f"List created with default values: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error creating list with default values: {e}")

    print("\nExample 8: Safely appending to a list")
    try:
        response = append_to_list_safely(
            table_name=table_name,
            key={"UserId": "user789"},
            list_name="Notifications",
            values_to_append=["New message received"],
            default_values=[],
        )
        print(f"Safely appended to list: {json.dumps(response.get('Attributes', {}), default=str)}")
    except Exception as e:
        print(f"Error safely appending to list: {e}")

    print("\nKey Points About Working with Lists in DynamoDB:")
    print("1. Lists are ordered collections of elements that can be of different types")
    print("2. Use the SET operation with direct assignment to create or replace a list")
    print("3. Use list_append() to add elements to a list without replacing the entire list")
    print("4. To append to the end: list_append(list_name, :values)")
    print("5. To prepend to the beginning: list_append(:values, list_name)")
    print("6. Use index notation list_name[index] to access or update specific elements")
    print("7. Use the REMOVE action with index notation to remove specific elements")
    print("8. Lists can contain nested structures like maps and other lists")
    print("9. Use if_not_exists() to create a list with default values if it doesn't exist")
    print("10. List indices are zero-based (the first element is at index 0)")
    print("11. Attempting to access an index beyond the list bounds will result in an error")
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Lakukan operasi peta
<a name="dynamodb_Scenario_MapOperations_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi peta di DynamoDB.
+ Tambahkan dan perbarui atribut bersarang dalam struktur peta.
+ Hapus bidang tertentu dari peta.
+ Bekerja dengan atribut peta yang sangat bersarang.

**SDK untuk Python (Boto3)**  
Menunjukkan operasi peta menggunakan AWS SDK untuk Python (Boto3).  

```
"""
Example of updating map attributes in DynamoDB.

This module demonstrates how to update map attributes in DynamoDB, including
handling cases where the map attribute might not exist yet.
"""


import boto3
from typing import Any, Dict, Optional



def update_map_attribute_safe(
    table_name: str, key: Dict[str, Any], map_name: str, map_key: str, value: Any
) -> Dict[str, Any]:
    """
    Update a specific key in a map attribute, creating the map if it doesn't exist.

    This function demonstrates how to safely update a key within a map attribute,
    even if the map doesn't exist yet in the item.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        map_name (str): The name of the map attribute.
        map_key (str): The key within the map to update.
        value (Any): The value to set for the map key.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use SET with attribute_not_exists to safely update the map
    response = table.update_item(
        Key=key,
        UpdateExpression="SET #map.#key = :value",
        ExpressionAttributeNames={"#map": map_name, "#key": map_key},
        ExpressionAttributeValues={":value": value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def add_to_nested_map(
    table_name: str, key: Dict[str, Any], path: str, value: Any
) -> Dict[str, Any]:
    """
    Add or update a value in a deeply nested map structure.

    This function demonstrates how to update a value at a specific path in a
    nested map structure, creating any intermediate maps as needed.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        path (str): The path to the nested attribute (e.g., "user.preferences.theme").
        value (Any): The value to set at the specified path.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Split the path into components
    path_parts = path.split(".")

    # Build the update expression and attribute names
    update_expression = "SET "
    expression_attribute_names = {}

    # Build the path expression
    path_expression = ""
    for i, part in enumerate(path_parts):
        name_placeholder = f"#attr{i}"
        expression_attribute_names[name_placeholder] = part

        if i == 0:
            path_expression = name_placeholder
        else:
            path_expression += f".{name_placeholder}"

    # Complete the update expression
    update_expression += f"{path_expression} = :value"

    # Execute the update
    response = table.update_item(
        Key=key,
        UpdateExpression=update_expression,
        ExpressionAttributeNames=expression_attribute_names,
        ExpressionAttributeValues={":value": value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def update_map_with_if_not_exists(
    table_name: str,
    key: Dict[str, Any],
    map_name: str,
    map_key: str,
    value: Any,
    default_map: Optional[Dict[str, Any]] = None,
) -> Dict[str, Any]:
    """
    Update a key in a map, creating the map with default values if it doesn't exist.

    This function demonstrates how to use if_not_exists to initialize a map with
    default values if it doesn't exist yet, and then update a specific key.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        map_name (str): The name of the map attribute.
        map_key (str): The key within the map to update.
        value (Any): The value to set for the map key.
        default_map (Optional[Dict[str, Any]]): Default map values if the map doesn't exist.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Set default map if not provided
    if default_map is None:
        default_map = {}

    # Create a map with the new key-value pair
    updated_map = default_map.copy()
    updated_map[map_key] = value

    # Use if_not_exists to initialize the map if it doesn't exist
    response = table.update_item(
        Key=key,
        UpdateExpression="SET #map = if_not_exists(#map, :default_map)",
        ExpressionAttributeNames={"#map": map_name},
        ExpressionAttributeValues={":default_map": updated_map},
        ReturnValues="UPDATED_NEW",
    )

    return response


def merge_into_map(
    table_name: str, key: Dict[str, Any], map_name: str, values_to_merge: Dict[str, Any]
) -> Dict[str, Any]:
    """
    Merge multiple key-value pairs into a map attribute.

    This function demonstrates how to update multiple keys in a map attribute
    in a single operation, without overwriting the entire map.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        map_name (str): The name of the map attribute.
        values_to_merge (Dict[str, Any]): Key-value pairs to merge into the map.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Build the update expression for each key-value pair
    update_expression = "SET "
    expression_attribute_names = {"#map": map_name}
    expression_attribute_values = {}

    # Add each key-value pair to the update expression
    for i, (k, v) in enumerate(values_to_merge.items()):
        key_placeholder = f"#key{i}"
        value_placeholder = f":value{i}"

        expression_attribute_names[key_placeholder] = k
        expression_attribute_values[value_placeholder] = v

        if i > 0:
            update_expression += ", "
        update_expression += f"#map.{key_placeholder} = {value_placeholder}"

    # Execute the update
    response = table.update_item(
        Key=key,
        UpdateExpression=update_expression,
        ExpressionAttributeNames=expression_attribute_names,
        ExpressionAttributeValues=expression_attribute_values,
        ReturnValues="UPDATED_NEW",
    )

    return response




def example_usage():
    """Example of how to use the map attribute update functions."""
    # Example parameters
    table_name = "UserProfiles"
    key = {"UserId": "user123"}

    print("Example 1: Updating a specific key in a map attribute")
    try:
        response = update_map_attribute_safe(
            table_name=table_name, key=key, map_name="Preferences", map_key="Theme", value="Dark"
        )
        print(f"Map attribute updated successfully: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error updating map attribute: {e}")

    print("\nExample 2: Adding a value to a deeply nested map")
    try:
        response = add_to_nested_map(
            table_name=table_name, key=key, path="Settings.Notifications.Email", value=True
        )
        print(f"Nested map updated successfully: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error updating nested map: {e}")

    print("\nExample 3: Initializing a map with default values if it doesn't exist")
    try:
        default_map = {"Language": "English", "Currency": "USD", "TimeZone": "UTC"}

        response = update_map_with_if_not_exists(
            table_name=table_name,
            key={"UserId": "newuser456"},
            map_name="Preferences",
            map_key="Theme",
            value="Light",
            default_map=default_map,
        )
        print(f"Map initialized with defaults: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error initializing map: {e}")

    print("\nExample 4: Merging multiple values into a map")
    try:
        values_to_merge = {
            "NotificationsEnabled": True,
            "EmailFrequency": "Daily",
            "PushNotifications": False,
        }

        response = merge_into_map(
            table_name=table_name,
            key=key,
            map_name="NotificationSettings",
            values_to_merge=values_to_merge,
        )
        print(f"Multiple values merged into map: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error merging values into map: {e}")

    print("\nBest practices for working with map attributes in DynamoDB:")
    print("1. Use dot notation to access and update nested attributes")
    print("2. Use ExpressionAttributeNames to handle reserved words and special characters")
    print("3. Use if_not_exists() to handle cases where attributes might not exist")
    print("4. Update specific map keys rather than overwriting the entire map")
    print("5. Use a single update operation to modify multiple map keys for better performance")
    print("6. Consider your data model carefully to minimize the need for deeply nested attributes")



if __name__ == "__main__":
    example_usage()
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Lakukan operasi set
<a name="dynamodb_Scenario_SetOperations_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana melakukan operasi set di DynamoDB.
+ Tambahkan elemen ke atribut set.
+ Hapus elemen dari atribut set.
+ Gunakan operasi ADD dan DELETE dengan set.

**SDK untuk Python (Boto3)**  
Menunjukkan operasi set menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from typing import Any, Dict, List


def create_set_attribute(
    table_name: str,
    key: Dict[str, Any],
    set_name: str,
    set_values: List[Any],
    set_type: str = "string",
) -> Dict[str, Any]:
    """
    Create a new set attribute or add elements to an existing set.

    This function demonstrates how to use the ADD operation to create a new set
    or add elements to an existing set.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        set_name (str): The name of the set attribute.
        set_values (List[Any]): The values to add to the set.
        set_type (str, optional): The type of set to create: "string", "number", or "binary".
            Defaults to "string".

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Convert the list to a DynamoDB set based on the specified type
    if set_type == "string":
        dynamo_set = set(str(value) for value in set_values)
    elif set_type == "number":
        # We need to use actual float values for the DynamoDB API
        # but mypy expects strings in sets, so we need to use type: ignore
        dynamo_set = set(float(value) for value in set_values)  # type: ignore
    else:  # binary set is not directly supported in high-level API, handled differently
        raise ValueError("Binary sets are not supported in this example")

    # Use the ADD operation to create or update the set
    response = table.update_item(
        Key=key,
        UpdateExpression="ADD #set_attr :set_values",
        ExpressionAttributeNames={"#set_attr": set_name},
        ExpressionAttributeValues={":set_values": dynamo_set},
        ReturnValues="UPDATED_NEW",
    )

    return response


def add_to_set(
    table_name: str, key: Dict[str, Any], set_name: str, values_to_add: List[Any]
) -> Dict[str, Any]:
    """
    Add elements to an existing set attribute.

    This function demonstrates how to use the ADD operation to add elements to an existing set.
    If the set doesn't exist, it will be created.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        set_name (str): The name of the set attribute.
        values_to_add (List[Any]): The values to add to the set.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Convert the list to a set (assuming string set for simplicity)
    dynamo_set = set(str(value) for value in values_to_add)

    # Use the ADD operation to add values to the set
    response = table.update_item(
        Key=key,
        UpdateExpression="ADD #set_attr :values_to_add",
        ExpressionAttributeNames={"#set_attr": set_name},
        ExpressionAttributeValues={":values_to_add": dynamo_set},
        ReturnValues="UPDATED_NEW",
    )

    return response


def remove_from_set(
    table_name: str, key: Dict[str, Any], set_name: str, values_to_remove: List[Any]
) -> Dict[str, Any]:
    """
    Remove elements from a set attribute.

    This function demonstrates how to use the DELETE operation to remove elements from a set.
    If the last element is removed, the attribute will be deleted entirely.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        set_name (str): The name of the set attribute.
        values_to_remove (List[Any]): The values to remove from the set.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Convert the list to a set (assuming string set for simplicity)
    dynamo_set = set(str(value) for value in values_to_remove)

    # Use the DELETE operation to remove values from the set
    response = table.update_item(
        Key=key,
        UpdateExpression="DELETE #set_attr :values_to_remove",
        ExpressionAttributeNames={"#set_attr": set_name},
        ExpressionAttributeValues={":values_to_remove": dynamo_set},
        ReturnValues="UPDATED_NEW",
    )

    return response


def check_if_set_exists(table_name: str, key: Dict[str, Any], set_name: str) -> bool:
    """
    Check if a set attribute exists in an item.

    This function demonstrates how to check if a set attribute exists after
    potentially removing all elements from it.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to check.
        set_name (str): The name of the set attribute.

    Returns:
        bool: True if the set attribute exists, False otherwise.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Get the item
    response = table.get_item(
        Key=key, ProjectionExpression="#set_attr", ExpressionAttributeNames={"#set_attr": set_name}
    )

    # Check if the item exists and has the set attribute
    return "Item" in response and set_name in response["Item"]


def demonstrate_last_element_removal(
    table_name: str, key: Dict[str, Any], set_name: str
) -> Dict[str, Any]:
    """
    Demonstrate what happens when you remove the last element from a set.

    This function creates a set with a single element, then removes that element,
    showing that the attribute is completely removed when the last element is deleted.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        set_name (str): The name of the set attribute.

    Returns:
        Dict[str, Any]: A dictionary containing the results of the demonstration.
    """
    # Step 1: Create a set with a single element
    create_response = create_set_attribute(
        table_name=table_name,
        key=key,
        set_name=set_name,
        set_values=["last_element"],
        set_type="string",
    )

    # Step 2: Check that the set exists
    exists_before = check_if_set_exists(table_name, key, set_name)

    # Step 3: Remove the last element
    delete_response = remove_from_set(
        table_name=table_name, key=key, set_name=set_name, values_to_remove=["last_element"]
    )

    # Step 4: Check if the set still exists
    exists_after = check_if_set_exists(table_name, key, set_name)

    # Return the results
    return {
        "create_response": create_response,
        "exists_before": exists_before,
        "delete_response": delete_response,
        "exists_after": exists_after,
    }


def work_with_number_set(
    table_name: str,
    key: Dict[str, Any],
    set_name: str,
    initial_values: List[float],
    values_to_add: List[float],
    values_to_remove: List[float],
) -> Dict[str, Any]:
    """
    Demonstrate working with a number set in DynamoDB.

    This function shows how to create and manipulate a set of numbers.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        set_name (str): The name of the set attribute.
        initial_values (List[float]): The initial values for the set.
        values_to_add (List[float]): Values to add to the set.
        values_to_remove (List[float]): Values to remove from the set.

    Returns:
        Dict[str, Any]: A dictionary containing the responses from each operation.
    """
    # Step 1: Create the number set
    create_response = create_set_attribute(
        table_name=table_name,
        key=key,
        set_name=set_name,
        set_values=initial_values,
        set_type="number",
    )

    # Step 2: Add more numbers to the set
    add_response = add_to_set(
        table_name=table_name, key=key, set_name=set_name, values_to_add=values_to_add
    )

    # Step 3: Remove some numbers from the set
    remove_response = remove_from_set(
        table_name=table_name, key=key, set_name=set_name, values_to_remove=values_to_remove
    )

    # Step 4: Get the final state
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    get_response = table.get_item(
        Key=key,
        ProjectionExpression=f"#{set_name}",
        ExpressionAttributeNames={f"#{set_name}": set_name},
    )

    # Return all responses
    return {
        "create_response": create_response,
        "add_response": add_response,
        "remove_response": remove_response,
        "final_state": get_response.get("Item", {}),
    }
```
Contoh penggunaan operasi set dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use the set operations functions."""
    # Example parameters
    table_name = "UserPreferences"
    key = {"UserId": "user123"}

    print("Example 1: Creating a string set attribute")
    try:
        response = create_set_attribute(
            table_name=table_name,
            key=key,
            set_name="FavoriteTags",
            set_values=["AWS", "DynamoDB", "NoSQL"],
            set_type="string",
        )
        print(f"Set attribute created successfully: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error creating set attribute: {e}")

    print("\nExample 2: Adding elements to an existing set")
    try:
        response = add_to_set(
            table_name=table_name,
            key=key,
            set_name="FavoriteTags",
            values_to_add=["Database", "Serverless"],
        )
        print(f"Elements added to set successfully: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error adding to set: {e}")

    print("\nExample 3: Removing elements from a set")
    try:
        response = remove_from_set(
            table_name=table_name, key=key, set_name="FavoriteTags", values_to_remove=["NoSQL"]
        )
        print(f"Elements removed from set successfully: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error removing from set: {e}")

    print("\nExample 4: Demonstrating what happens when you remove the last element from a set")
    try:
        results = demonstrate_last_element_removal(
            table_name=table_name, key={"UserId": "tempUser"}, set_name="SingleElementSet"
        )

        print(f"Set exists before removal: {results['exists_before']}")
        print(f"Set exists after removal: {results['exists_after']}")

        if not results["exists_after"]:
            print("The set attribute was completely removed when the last element was deleted.")
        else:
            print("The set attribute still exists after removing the last element.")
    except Exception as e:
        print(f"Error in last element removal demonstration: {e}")

    print("\nExample 5: Working with a number set")
    try:
        results = work_with_number_set(
            table_name=table_name,
            key={"UserId": "user456"},
            set_name="LuckyNumbers",
            initial_values=[7, 13, 42],
            values_to_add=[99, 100],
            values_to_remove=[13],
        )

        print(f"Initial number set: {results['create_response'].get('Attributes', {})}")
        print(f"After adding numbers: {results['add_response'].get('Attributes', {})}")
        print(f"After removing numbers: {results['remove_response'].get('Attributes', {})}")
        print(f"Final state: {results['final_state']}")
    except Exception as e:
        print(f"Error working with number set: {e}")

    print("\nKey Points About DynamoDB Sets:")
    print("1. Sets can only contain elements of the same type (string, number, or binary)")
    print("2. Sets automatically eliminate duplicate values")
    print("3. The ADD operation creates a set if it doesn't exist")
    print("4. The DELETE operation removes specified elements from a set")
    print("5. When the last element is removed from a set, the entire attribute is deleted")
    print("6. Empty sets are not allowed in DynamoDB")
    print("7. Sets are unordered collections")
    print("8. The ADD operation is atomic for sets")
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 
Buat kelas yang dapat menjalankan batch pernyataan PartiQL.  

```
from datetime import datetime
from decimal import Decimal
import logging
from pprint import pprint

import boto3
from botocore.exceptions import ClientError

from scaffold import Scaffold

logger = logging.getLogger(__name__)

class PartiQLBatchWrapper:
    """
    Encapsulates a DynamoDB resource to run PartiQL statements.
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource


    def run_partiql(self, statements, param_list):
        """
        Runs a PartiQL statement. A Boto3 resource is used even though
        `execute_statement` is called on the underlying `client` object because the
        resource transforms input and output from plain old Python objects (POPOs) to
        the DynamoDB format. If you create the client directly, you must do these
        transforms yourself.

        :param statements: The batch of PartiQL statements.
        :param param_list: The batch of PartiQL parameters that are associated with
                           each statement. This list must be in the same order as the
                           statements.
        :return: The responses returned from running the statements, if any.
        """
        try:
            output = self.dyn_resource.meta.client.batch_execute_statement(
                Statements=[
                    {"Statement": statement, "Parameters": params}
                    for statement, params in zip(statements, param_list)
                ]
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Couldn't execute batch of PartiQL statements because the table "
                    "does not exist."
                )
            else:
                logger.error(
                    "Couldn't execute batch of PartiQL statements. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return output
```
Jalankan skenario yang membuat tabel dan menjalankan kueri PartiQL dalam batch.  

```
def run_scenario(scaffold, wrapper, table_name):
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Welcome to the Amazon DynamoDB PartiQL batch statement demo.")
    print("-" * 88)

    print(f"Creating table '{table_name}' for the demo...")
    scaffold.create_table(table_name)
    print("-" * 88)

    movie_data = [
        {
            "title": f"House PartiQL",
            "year": datetime.now().year - 5,
            "info": {
                "plot": "Wacky high jinks result from querying a mysterious database.",
                "rating": Decimal("8.5"),
            },
        },
        {
            "title": f"House PartiQL 2",
            "year": datetime.now().year - 3,
            "info": {
                "plot": "Moderate high jinks result from querying another mysterious database.",
                "rating": Decimal("6.5"),
            },
        },
        {
            "title": f"House PartiQL 3",
            "year": datetime.now().year - 1,
            "info": {
                "plot": "Tepid high jinks result from querying yet another mysterious database.",
                "rating": Decimal("2.5"),
            },
        },
    ]

    print(f"Inserting a batch of movies into table '{table_name}.")
    statements = [
        f'INSERT INTO "{table_name}" ' f"VALUE {{'title': ?, 'year': ?, 'info': ?}}"
    ] * len(movie_data)
    params = [list(movie.values()) for movie in movie_data]
    wrapper.run_partiql(statements, params)
    print("Success!")
    print("-" * 88)

    print(f"Getting data for a batch of movies.")
    statements = [f'SELECT * FROM "{table_name}" WHERE title=? AND year=?'] * len(
        movie_data
    )
    params = [[movie["title"], movie["year"]] for movie in movie_data]
    output = wrapper.run_partiql(statements, params)
    for item in output["Responses"]:
        print(f"\n{item['Item']['title']}, {item['Item']['year']}")
        pprint(item["Item"])
    print("-" * 88)

    ratings = [Decimal("7.7"), Decimal("5.5"), Decimal("1.3")]
    print(f"Updating a batch of movies with new ratings.")
    statements = [
        f'UPDATE "{table_name}" SET info.rating=? ' f"WHERE title=? AND year=?"
    ] * len(movie_data)
    params = [
        [rating, movie["title"], movie["year"]]
        for rating, movie in zip(ratings, movie_data)
    ]
    wrapper.run_partiql(statements, params)
    print("Success!")
    print("-" * 88)

    print(f"Getting projected data from the table to verify our update.")
    output = wrapper.dyn_resource.meta.client.execute_statement(
        Statement=f'SELECT title, info.rating FROM "{table_name}"'
    )
    pprint(output["Items"])
    print("-" * 88)

    print(f"Deleting a batch of movies from the table.")
    statements = [f'DELETE FROM "{table_name}" WHERE title=? AND year=?'] * len(
        movie_data
    )
    params = [[movie["title"], movie["year"]] for movie in movie_data]
    wrapper.run_partiql(statements, params)
    print("Success!")
    print("-" * 88)

    print(f"Deleting table '{table_name}'...")
    scaffold.delete_table()
    print("-" * 88)

    print("\nThanks for watching!")
    print("-" * 88)


if __name__ == "__main__":
    try:
        dyn_res = boto3.resource("dynamodb")
        scaffold = Scaffold(dyn_res)
        movies = PartiQLBatchWrapper(dyn_res)
        run_scenario(scaffold, movies, "doc-example-table-partiql-movies")
    except Exception as e:
        print(f"Something went wrong with the demo! Here's what: {e}")
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/BatchExecuteStatement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 
Buat kelas yang dapat menjalankan pernyataan PartiQL.  

```
from datetime import datetime
from decimal import Decimal
import logging
from pprint import pprint

import boto3
from botocore.exceptions import ClientError

from scaffold import Scaffold

logger = logging.getLogger(__name__)

class PartiQLWrapper:
    """
    Encapsulates a DynamoDB resource to run PartiQL statements.
    """

    def __init__(self, dyn_resource):
        """
        :param dyn_resource: A Boto3 DynamoDB resource.
        """
        self.dyn_resource = dyn_resource


    def run_partiql(self, statement, params):
        """
        Runs a PartiQL statement. A Boto3 resource is used even though
        `execute_statement` is called on the underlying `client` object because the
        resource transforms input and output from plain old Python objects (POPOs) to
        the DynamoDB format. If you create the client directly, you must do these
        transforms yourself.

        :param statement: The PartiQL statement.
        :param params: The list of PartiQL parameters. These are applied to the
                       statement in the order they are listed.
        :return: The items returned from the statement, if any.
        """
        try:
            output = self.dyn_resource.meta.client.execute_statement(
                Statement=statement, Parameters=params
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Couldn't execute PartiQL '%s' because the table does not exist.",
                    statement,
                )
            else:
                logger.error(
                    "Couldn't execute PartiQL '%s'. Here's why: %s: %s",
                    statement,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return output
```
Jalankan skenario yang membuat tabel dan menjalankan kueri PartiQL.  

```
def run_scenario(scaffold, wrapper, table_name):
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Welcome to the Amazon DynamoDB PartiQL single statement demo.")
    print("-" * 88)

    print(f"Creating table '{table_name}' for the demo...")
    scaffold.create_table(table_name)
    print("-" * 88)

    title = "24 Hour PartiQL People"
    year = datetime.now().year
    plot = "A group of data developers discover a new query language they can't stop using."
    rating = Decimal("9.9")

    print(f"Inserting movie '{title}' released in {year}.")
    wrapper.run_partiql(
        f"INSERT INTO \"{table_name}\" VALUE {{'title': ?, 'year': ?, 'info': ?}}",
        [title, year, {"plot": plot, "rating": rating}],
    )
    print("Success!")
    print("-" * 88)

    print(f"Getting data for movie '{title}' released in {year}.")
    output = wrapper.run_partiql(
        f'SELECT * FROM "{table_name}" WHERE title=? AND year=?', [title, year]
    )
    for item in output["Items"]:
        print(f"\n{item['title']}, {item['year']}")
        pprint(output["Items"])
    print("-" * 88)

    rating = Decimal("2.4")
    print(f"Updating movie '{title}' with a rating of {float(rating)}.")
    wrapper.run_partiql(
        f'UPDATE "{table_name}" SET info.rating=? WHERE title=? AND year=?',
        [rating, title, year],
    )
    print("Success!")
    print("-" * 88)

    print(f"Getting data again to verify our update.")
    output = wrapper.run_partiql(
        f'SELECT * FROM "{table_name}" WHERE title=? AND year=?', [title, year]
    )
    for item in output["Items"]:
        print(f"\n{item['title']}, {item['year']}")
        pprint(output["Items"])
    print("-" * 88)

    print(f"Deleting movie '{title}' released in {year}.")
    wrapper.run_partiql(
        f'DELETE FROM "{table_name}" WHERE title=? AND year=?', [title, year]
    )
    print("Success!")
    print("-" * 88)

    print(f"Deleting table '{table_name}'...")
    scaffold.delete_table()
    print("-" * 88)

    print("\nThanks for watching!")
    print("-" * 88)


if __name__ == "__main__":
    try:
        dyn_res = boto3.resource("dynamodb")
        scaffold = Scaffold(dyn_res)
        movies = PartiQLWrapper(dyn_res)
        run_scenario(scaffold, movies, "doc-example-table-partiql-movies")
    except Exception as e:
        print(f"Something went wrong with the demo! Here's what: {e}")
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/ExecuteStatement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Kueri tabel menggunakan Global Secondary Index
<a name="dynamodb_Scenarios_QueryWithGlobalSecondaryIndex_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan Global Secondary Index.
+ Kueri tabel DynamoDB menggunakan kunci utamanya.
+ Kueri Indeks Sekunder Global (GSI) untuk pola akses alternatif.
+ Bandingkan kueri tabel dan kueri GSI.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB menggunakan kunci utama dan Indeks Sekunder Global (GSI) dengan. AWS SDK untuk Python (Boto3)  

```
import boto3
from boto3.dynamodb.conditions import Key


def query_table(table_name, partition_key_name, partition_key_value):
    """
    Query a DynamoDB table using its primary key.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Perform the query on the table's primary key
    response = table.query(KeyConditionExpression=Key(partition_key_name).eq(partition_key_value))

    return response


def query_gsi(table_name, index_name, partition_key_name, partition_key_value):
    """
    Query a Global Secondary Index (GSI) on a DynamoDB table.

    Args:
        table_name (str): The name of the DynamoDB table.
        index_name (str): The name of the Global Secondary Index.
        partition_key_name (str): The name of the GSI's partition key attribute.
        partition_key_value (str): The value of the GSI's partition key to query.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Perform the query on the GSI
    response = table.query(
        IndexName=index_name, KeyConditionExpression=Key(partition_key_name).eq(partition_key_value)
    )

    return response
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri tabel menggunakan kondisi begins\$1with
<a name="dynamodb_Scenarios_QueryWithBeginsWithCondition_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan kondisi begins\$1with.
+ Gunakan fungsi begins\$1with dalam ekspresi kondisi kunci.
+ Filter item berdasarkan pola awalan di tombol sortir.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB menggunakan kondisi begins\$1with pada kunci pengurutan dengan. AWS SDK untuk Python (Boto3)  

```
import boto3
from boto3.dynamodb.conditions import Key


def query_with_begins_with(
    table_name, partition_key_name, partition_key_value, sort_key_name, prefix
):
    """
    Query a DynamoDB table with a begins_with condition on the sort key.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        sort_key_name (str): The name of the sort key attribute.
        prefix (str): The prefix to match at the beginning of the sort key.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Perform the query with a begins_with condition on the sort key
    key_condition = Key(partition_key_name).eq(partition_key_value) & Key(
        sort_key_name
    ).begins_with(prefix)
    response = table.query(KeyConditionExpression=key_condition)

    return response
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri tabel menggunakan rentang tanggal
<a name="dynamodb_Scenarios_QueryWithDateRange_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan rentang tanggal dalam kunci sort.
+ Item kueri dalam rentang tanggal tertentu.
+ Gunakan operator perbandingan pada kunci pengurutan berformat tanggal.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB untuk item dalam rentang tanggal dengan. AWS SDK untuk Python (Boto3)  

```
from datetime import datetime, timedelta

import boto3
from boto3.dynamodb.conditions import Key


def query_with_date_range(
    table_name, partition_key_name, partition_key_value, sort_key_name, start_date, end_date
):
    """
    Query a DynamoDB table with a date range on the sort key.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        sort_key_name (str): The name of the sort key attribute (containing date values).
        start_date (datetime): The start date for the query range.
        end_date (datetime): The end date for the query range.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Format the date values as ISO 8601 strings
    # DynamoDB works well with ISO format for date values
    start_date_str = start_date.isoformat()
    end_date_str = end_date.isoformat()

    # Perform the query with a date range on the sort key using BETWEEN operator
    key_condition = Key(partition_key_name).eq(partition_key_value) & Key(sort_key_name).between(
        start_date_str, end_date_str
    )

    response = table.query(
        KeyConditionExpression=key_condition,
        ExpressionAttributeValues={
            ":pk_val": partition_key_value,
            ":start_date": start_date_str,
            ":end_date": end_date_str,
        },
    )

    return response


def query_with_date_range_by_month(
    table_name, partition_key_name, partition_key_value, sort_key_name, year, month
):
    """
    Query a DynamoDB table for a specific month's data.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        sort_key_name (str): The name of the sort key attribute (containing date values).
        year (int): The year to query.
        month (int): The month to query (1-12).

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Calculate the start and end dates for the specified month
    if month == 12:
        next_year = year + 1
        next_month = 1
    else:
        next_year = year
        next_month = month + 1

    start_date = datetime(year, month, 1)
    end_date = datetime(next_year, next_month, 1) - timedelta(microseconds=1)

    # Format the date values as ISO 8601 strings
    start_date_str = start_date.isoformat()
    end_date_str = end_date.isoformat()

    # Perform the query with a date range on the sort key
    key_condition = Key(partition_key_name).eq(partition_key_value) & Key(sort_key_name).between(
        start_date_str, end_date_str
    )

    response = table.query(KeyConditionExpression=key_condition)

    return response
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri tabel dengan ekspresi filter yang kompleks
<a name="dynamodb_Scenarios_QueryWithComplexFilter_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan ekspresi filter kompleks.
+ Terapkan ekspresi filter yang kompleks ke hasil kueri.
+ Gabungkan beberapa kondisi menggunakan operator logis.
+ Filter item berdasarkan atribut non-kunci.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB dengan ekspresi filter kompleks menggunakan. AWS SDK untuk Python (Boto3)  

```
import boto3
from boto3.dynamodb.conditions import Attr, Key


def query_with_complex_filter(
    table_name,
    partition_key_name,
    partition_key_value,
    min_rating=None,
    status_list=None,
    max_price=None,
):
    """
    Query a DynamoDB table with a complex filter expression.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        min_rating (float, optional): Minimum rating value for filtering.
        status_list (list, optional): List of status values to include.
        max_price (float, optional): Maximum price value for filtering.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Start with the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Initialize the filter expression and expression attribute values
    filter_expression = None
    expression_attribute_values = {}

    # Build the filter expression based on provided parameters
    if min_rating is not None:
        filter_expression = Attr("rating").gte(min_rating)
        expression_attribute_values[":min_rating"] = min_rating

    if status_list and len(status_list) > 0:
        status_condition = None
        for i, status in enumerate(status_list):
            status_value_name = f":status{i}"
            expression_attribute_values[status_value_name] = status

            if status_condition is None:
                status_condition = Attr("status").eq(status)
            else:
                status_condition = status_condition | Attr("status").eq(status)

        if filter_expression is None:
            filter_expression = status_condition
        else:
            filter_expression = filter_expression & status_condition

    if max_price is not None:
        price_condition = Attr("price").lte(max_price)
        expression_attribute_values[":max_price"] = max_price

        if filter_expression is None:
            filter_expression = price_condition
        else:
            filter_expression = filter_expression & price_condition

    # Prepare the query parameters
    query_params = {"KeyConditionExpression": key_condition}

    if filter_expression:
        query_params["FilterExpression"] = filter_expression
        if expression_attribute_values:
            query_params["ExpressionAttributeValues"] = expression_attribute_values

    # Execute the query
    response = table.query(**query_params)
    return response


def query_with_complex_filter_and_or(
    table_name,
    partition_key_name,
    partition_key_value,
    category=None,
    min_rating=None,
    max_price=None,
):
    """
    Query a DynamoDB table with a complex filter expression using AND and OR operators.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        category (str, optional): Category value for filtering.
        min_rating (float, optional): Minimum rating value for filtering.
        max_price (float, optional): Maximum price value for filtering.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Start with the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Build a complex filter expression with AND and OR operators
    filter_expression = None
    expression_attribute_values = {}

    # Build the category condition
    if category:
        filter_expression = Attr("category").eq(category)
        expression_attribute_values[":category"] = category

    # Build the rating and price condition (rating >= min_rating OR price <= max_price)
    rating_price_condition = None

    if min_rating is not None:
        rating_price_condition = Attr("rating").gte(min_rating)
        expression_attribute_values[":min_rating"] = min_rating

    if max_price is not None:
        price_condition = Attr("price").lte(max_price)
        expression_attribute_values[":max_price"] = max_price

        if rating_price_condition is None:
            rating_price_condition = price_condition
        else:
            rating_price_condition = rating_price_condition | price_condition

    # Combine the conditions
    if rating_price_condition:
        if filter_expression is None:
            filter_expression = rating_price_condition
        else:
            filter_expression = filter_expression & rating_price_condition

    # Prepare the query parameters
    query_params = {"KeyConditionExpression": key_condition}

    if filter_expression:
        query_params["FilterExpression"] = filter_expression
        if expression_attribute_values:
            query_params["ExpressionAttributeValues"] = expression_attribute_values

    # Execute the query
    response = table.query(**query_params)
    return response
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri tabel dengan ekspresi filter dinamis
<a name="dynamodb_Scenarios_QueryWithDynamicFilter_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan ekspresi filter dinamis.
+ Buat ekspresi filter secara dinamis saat runtime.
+ Membangun kondisi filter berdasarkan input pengguna atau status aplikasi.
+ Tambahkan atau hapus kriteria filter secara kondisional.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB dengan ekspresi filter yang dibangun secara dinamis menggunakan. AWS SDK untuk Python (Boto3)  

```
import boto3
from boto3.dynamodb.conditions import Attr, Key


def query_with_dynamic_filter(
    table_name, partition_key_name, partition_key_value, filter_conditions=None
):
    """
    Query a DynamoDB table with a dynamically constructed filter expression.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        filter_conditions (dict, optional): A dictionary of filter conditions where
            keys are attribute names and values are dictionaries with 'operator' and 'value'.
            Example: {'rating': {'operator': '>=', 'value': 4}, 'status': {'operator': '=', 'value': 'active'}}

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Start with the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Initialize variables for the filter expression and attribute values
    filter_expression = None
    expression_attribute_values = {":pk_val": partition_key_value}

    # Dynamically build the filter expression if filter conditions are provided
    if filter_conditions:
        for attr_name, condition in filter_conditions.items():
            operator = condition.get("operator")
            value = condition.get("value")
            attr_value_name = f":{attr_name}"
            expression_attribute_values[attr_value_name] = value

            # Create the appropriate filter expression based on the operator
            current_condition = None
            if operator == "=":
                current_condition = Attr(attr_name).eq(value)
            elif operator == "!=":
                current_condition = Attr(attr_name).ne(value)
            elif operator == ">":
                current_condition = Attr(attr_name).gt(value)
            elif operator == ">=":
                current_condition = Attr(attr_name).gte(value)
            elif operator == "<":
                current_condition = Attr(attr_name).lt(value)
            elif operator == "<=":
                current_condition = Attr(attr_name).lte(value)
            elif operator == "contains":
                current_condition = Attr(attr_name).contains(value)
            elif operator == "begins_with":
                current_condition = Attr(attr_name).begins_with(value)

            # Combine with existing filter expression using AND
            if current_condition:
                if filter_expression is None:
                    filter_expression = current_condition
                else:
                    filter_expression = filter_expression & current_condition

    # Perform the query with the dynamically built filter expression
    query_params = {"KeyConditionExpression": key_condition}

    if filter_expression:
        query_params["FilterExpression"] = filter_expression

    response = table.query(**query_params)
    return response
```
Menunjukkan cara menggunakan ekspresi filter dinamis dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use the query_with_dynamic_filter function."""
    # Example parameters
    table_name = "Products"
    partition_key_name = "Category"
    partition_key_value = "Electronics"

    # Define dynamic filter conditions based on user input or runtime conditions
    user_min_rating = 4  # This could come from user input
    user_status_filter = "active"  # This could come from user input

    filter_conditions = {}

    # Only add conditions that are actually specified
    if user_min_rating is not None:
        filter_conditions["rating"] = {"operator": ">=", "value": user_min_rating}

    if user_status_filter:
        filter_conditions["status"] = {"operator": "=", "value": user_status_filter}

    print(
        f"Querying products in category '{partition_key_value}' with filter conditions: {filter_conditions}"
    )

    # Execute the query with dynamic filter
    response = query_with_dynamic_filter(
        table_name, partition_key_name, partition_key_value, filter_conditions
    )

    # Process the results
    items = response.get("Items", [])
    print(f"Found {len(items)} items")

    for item in items:
        print(f"Product: {item}")
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri tabel dengan ekspresi filter dan batas
<a name="dynamodb_Scenarios_QueryWithFilterAndLimit_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan ekspresi filter dan batas.
+ Terapkan ekspresi filter ke hasil kueri dengan batas item yang dievaluasi.
+ Pahami bagaimana batas memengaruhi hasil kueri yang difilter.
+ Kontrol jumlah maksimum item yang diproses dalam kueri.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB dengan ekspresi filter dan batas penggunaan. AWS SDK untuk Python (Boto3)  

```
import boto3
from boto3.dynamodb.conditions import Attr, Key


def query_with_filter_and_limit(
    table_name,
    partition_key_name,
    partition_key_value,
    filter_attribute=None,
    filter_value=None,
    limit=10,
):
    """
    Query a DynamoDB table with a filter expression and limit the number of results.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        filter_attribute (str, optional): The attribute name to filter on.
        filter_value (any, optional): The value to compare against in the filter.
        limit (int, optional): The maximum number of items to evaluate. Defaults to 10.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Build the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Prepare the query parameters
    query_params = {"KeyConditionExpression": key_condition, "Limit": limit}

    # Add the filter expression if filter attributes are provided
    if filter_attribute and filter_value is not None:
        query_params["FilterExpression"] = Attr(filter_attribute).gt(filter_value)
        query_params["ExpressionAttributeValues"] = {":filter_value": filter_value}

    # Execute the query
    response = table.query(**query_params)
    return response
```
Menunjukkan cara menggunakan ekspresi filter dengan batas di AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use the query_with_filter_and_limit function."""
    # Example parameters
    table_name = "ProductReviews"
    partition_key_name = "ProductId"
    partition_key_value = "P123456"
    filter_attribute = "Rating"
    filter_value = 3  # Filter for ratings > 3
    limit = 5

    print(f"Querying reviews for product '{partition_key_value}' with rating > {filter_value}")
    print(f"Limiting to {limit} evaluated items")

    # Execute the query with filter and limit
    response = query_with_filter_and_limit(
        table_name, partition_key_name, partition_key_value, filter_attribute, filter_value, limit
    )

    # Process the results
    items = response.get("Items", [])
    print(f"\nReturned {len(items)} items that passed the filter")

    for item in items:
        print(f"Review: {item}")

    # Explain the difference between Limit and actual results
    explain_limit_vs_results(response)

    # Check if there are more results
    if "LastEvaluatedKey" in response:
        print("\nThere are more results available. Use the LastEvaluatedKey for pagination.")
    else:
        print("\nAll matching results have been retrieved.")
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri tabel dengan atribut bersarang
<a name="dynamodb_Scenarios_QueryWithNestedAttributes_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan atribut bersarang.
+ Akses dan filter berdasarkan atribut bersarang di item DynamoDB.
+ Gunakan ekspresi jalur dokumen untuk mereferensikan elemen bersarang.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB dengan atribut bersarang menggunakan. AWS SDK untuk Python (Boto3)  

```
from typing import Any, Dict, List

import boto3
from boto3.dynamodb.conditions import Attr, Key


def query_with_nested_attributes(
    table_name: str,
    partition_key_name: str,
    partition_key_value: str,
    nested_path: str,
    comparison_operator: str,
    comparison_value: Any,
) -> Dict[str, Any]:
    """
    Query a DynamoDB table and filter by nested attributes.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        nested_path (str): The path to the nested attribute (e.g., 'specs.weight').
        comparison_operator (str): The comparison operator to use ('=', '!=', '<', '<=', '>', '>=').
        comparison_value (any): The value to compare against.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Build the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Build the filter expression based on the nested attribute path and comparison operator
    filter_expression = None
    if comparison_operator == "=":
        filter_expression = Attr(nested_path).eq(comparison_value)
    elif comparison_operator == "!=":
        filter_expression = Attr(nested_path).ne(comparison_value)
    elif comparison_operator == "<":
        filter_expression = Attr(nested_path).lt(comparison_value)
    elif comparison_operator == "<=":
        filter_expression = Attr(nested_path).lte(comparison_value)
    elif comparison_operator == ">":
        filter_expression = Attr(nested_path).gt(comparison_value)
    elif comparison_operator == ">=":
        filter_expression = Attr(nested_path).gte(comparison_value)
    elif comparison_operator == "contains":
        filter_expression = Attr(nested_path).contains(comparison_value)
    elif comparison_operator == "begins_with":
        filter_expression = Attr(nested_path).begins_with(comparison_value)

    # Execute the query with the filter expression
    response = table.query(KeyConditionExpression=key_condition, FilterExpression=filter_expression)

    return response


def query_with_multiple_nested_attributes(
    table_name: str,
    partition_key_name: str,
    partition_key_value: str,
    nested_conditions: List[Dict[str, Any]],
) -> Dict[str, Any]:
    """
    Query a DynamoDB table and filter by multiple nested attributes.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        nested_conditions (list): A list of dictionaries, each containing:
            - path (str): The path to the nested attribute
            - operator (str): The comparison operator
            - value (any): The value to compare against

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Build the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    # Build the combined filter expression for all nested attributes
    combined_filter = None

    for condition in nested_conditions:
        if not isinstance(condition, dict):
            continue
        path = condition.get("path", "")
        operator = condition.get("operator", "")
        value = condition.get("value")

        if not path or not operator:
            continue

        # Build the individual filter expression
        current_filter = None
        if operator == "=":
            current_filter = Attr(path).eq(value)
        elif operator == "!=":
            current_filter = Attr(path).ne(value)
        elif operator == "<":
            current_filter = Attr(path).lt(value)
        elif operator == "<=":
            current_filter = Attr(path).lte(value)
        elif operator == ">":
            current_filter = Attr(path).gt(value)
        elif operator == ">=":
            current_filter = Attr(path).gte(value)
        elif operator == "contains":
            current_filter = Attr(path).contains(value)
        elif operator == "begins_with":
            current_filter = Attr(path).begins_with(value)

        # Combine with the existing filter using AND
        if current_filter:
            if combined_filter is None:
                combined_filter = current_filter
            else:
                combined_filter = combined_filter & current_filter

    # Execute the query with the combined filter expression
    response = table.query(KeyConditionExpression=key_condition, FilterExpression=combined_filter)

    return response
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri tabel dengan pagination
<a name="dynamodb_Scenarios_QueryWithPagination_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan pagination.
+ Menerapkan pagination untuk hasil query DynamoDB.
+ Gunakan LastEvaluatedKey untuk mengambil halaman berikutnya.
+ Kontrol jumlah item per halaman dengan parameter Limit.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB dengan pagination menggunakan. AWS SDK untuk Python (Boto3)  

```
import boto3
from boto3.dynamodb.conditions import Key


def query_with_pagination(
    table_name, partition_key_name, partition_key_value, page_size=25, max_pages=None
):
    """
    Query a DynamoDB table with pagination to handle large result sets.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        page_size (int, optional): The number of items to return per page. Defaults to 25.
        max_pages (int, optional): The maximum number of pages to retrieve. If None, retrieves all pages.

    Returns:
        list: All items retrieved from the query across all pages.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Initialize variables for pagination
    last_evaluated_key = None
    page_count = 0
    all_items = []

    # Paginate through the results
    while True:
        # Check if we've reached the maximum number of pages
        if max_pages is not None and page_count >= max_pages:
            break

        # Prepare the query parameters
        query_params = {
            "KeyConditionExpression": Key(partition_key_name).eq(partition_key_value),
            "Limit": page_size,
        }

        # Add the ExclusiveStartKey if we have a LastEvaluatedKey from a previous query
        if last_evaluated_key:
            query_params["ExclusiveStartKey"] = last_evaluated_key

        # Execute the query
        response = table.query(**query_params)

        # Process the current page of results
        items = response.get("Items", [])
        all_items.extend(items)

        # Update pagination tracking
        page_count += 1

        # Get the LastEvaluatedKey for the next page, if any
        last_evaluated_key = response.get("LastEvaluatedKey")

        # If there's no LastEvaluatedKey, we've reached the end of the results
        if not last_evaluated_key:
            break

    return all_items


def query_with_pagination_generator(
    table_name, partition_key_name, partition_key_value, page_size=25
):
    """
    Query a DynamoDB table with pagination using a generator to handle large result sets.
    This approach is memory-efficient as it yields one page at a time.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        page_size (int, optional): The number of items to return per page. Defaults to 25.

    Yields:
        tuple: A tuple containing (items, page_number, last_page) where:
            - items is a list of items for the current page
            - page_number is the current page number (starting from 1)
            - last_page is a boolean indicating if this is the last page
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Initialize variables for pagination
    last_evaluated_key = None
    page_number = 0

    # Paginate through the results
    while True:
        # Prepare the query parameters
        query_params = {
            "KeyConditionExpression": Key(partition_key_name).eq(partition_key_value),
            "Limit": page_size,
        }

        # Add the ExclusiveStartKey if we have a LastEvaluatedKey from a previous query
        if last_evaluated_key:
            query_params["ExclusiveStartKey"] = last_evaluated_key

        # Execute the query
        response = table.query(**query_params)

        # Get the current page of results
        items = response.get("Items", [])
        page_number += 1

        # Get the LastEvaluatedKey for the next page, if any
        last_evaluated_key = response.get("LastEvaluatedKey")

        # Determine if this is the last page
        is_last_page = last_evaluated_key is None

        # Yield the current page of results
        yield (items, page_number, is_last_page)

        # If there's no LastEvaluatedKey, we've reached the end of the results
        if is_last_page:
            break
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri tabel dengan pembacaan yang sangat konsisten
<a name="dynamodb_Scenarios_QueryWithStronglyConsistentReads_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel dengan pembacaan yang sangat konsisten.
+ Konfigurasikan tingkat konsistensi untuk query DynamoDB.
+ Gunakan pembacaan yang sangat konsisten untuk mendapatkan up-to-date data terbanyak.
+ Memahami pengorbanan antara konsistensi akhirnya dan konsistensi yang kuat.

**SDK untuk Python (Boto3)**  
Kueri tabel DynamoDB dengan opsi untuk pembacaan yang sangat konsisten menggunakan. AWS SDK untuk Python (Boto3)  

```
import time

import boto3
from boto3.dynamodb.conditions import Key


def query_with_consistent_read(
    table_name,
    partition_key_name,
    partition_key_value,
    sort_key_name=None,
    sort_key_value=None,
    consistent_read=True,
):
    """
    Query a DynamoDB table with the option for strongly consistent reads.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        sort_key_name (str, optional): The name of the sort key attribute.
        sort_key_value (str, optional): The value of the sort key to query.
        consistent_read (bool, optional): Whether to use strongly consistent reads. Defaults to True.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Build the key condition expression
    key_condition = Key(partition_key_name).eq(partition_key_value)

    if sort_key_name and sort_key_value:
        key_condition = key_condition & Key(sort_key_name).eq(sort_key_value)

    # Perform the query with the consistent read option
    response = table.query(KeyConditionExpression=key_condition, ConsistentRead=consistent_read)

    return response
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Kueri untuk item TTL
<a name="dynamodb_QueryFilteredTTL_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query untuk item TTL.

**SDK untuk Python (Boto3)**  
Query Filtered Expression untuk mengumpulkan item TTL dalam tabel DynamoDB menggunakan. AWS SDK untuk Python (Boto3)  

```
from datetime import datetime

import boto3


def query_dynamodb_items(table_name, partition_key):
    """

    :param table_name: Name of the DynamoDB table
    :param partition_key:
    :return:
    """
    try:
        # Initialize a DynamoDB resource
        dynamodb = boto3.resource("dynamodb", region_name="us-east-1")

        # Specify your table
        table = dynamodb.Table(table_name)

        # Get the current time in epoch format
        current_time = int(datetime.now().timestamp())

        # Perform the query operation with a filter expression to exclude expired items
        # response = table.query(
        #    KeyConditionExpression=boto3.dynamodb.conditions.Key('partitionKey').eq(partition_key),
        #    FilterExpression=boto3.dynamodb.conditions.Attr('expireAt').gt(current_time)
        # )
        response = table.query(
            KeyConditionExpression=dynamodb.conditions.Key("partitionKey").eq(partition_key),
            FilterExpression=dynamodb.conditions.Attr("expireAt").gt(current_time),
        )

        # Print the items that are not expired
        for item in response["Items"]:
            print(item)

    except Exception as e:
        print(f"Error querying items: {e}")


# Call the function with your values
query_dynamodb_items("Music", "your-partition-key-value")
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Tabel kueri menggunakan pola tanggal dan waktu
<a name="dynamodb_Scenario_DateTimeQueries_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk query tabel menggunakan tanggal dan waktu pola.
+ Simpan dan kueri date/time nilai di DynamoDB.
+ Menerapkan kueri rentang tanggal menggunakan kunci pengurutan.
+ Format string tanggal untuk kueri yang efektif.

**SDK untuk Python (Boto3)**  
Kueri menggunakan rentang tanggal dalam kunci pengurutan dengan AWS SDK untuk Python (Boto3).  

```
from datetime import datetime, timedelta

import boto3
from boto3.dynamodb.conditions import Key


def query_with_date_range(
    table_name, partition_key_name, partition_key_value, sort_key_name, start_date, end_date
):
    """
    Query a DynamoDB table with a date range on the sort key.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        sort_key_name (str): The name of the sort key attribute (containing date values).
        start_date (datetime): The start date for the query range.
        end_date (datetime): The end date for the query range.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Format the date values as ISO 8601 strings
    # DynamoDB works well with ISO format for date values
    start_date_str = start_date.isoformat()
    end_date_str = end_date.isoformat()

    # Perform the query with a date range on the sort key using BETWEEN operator
    key_condition = Key(partition_key_name).eq(partition_key_value) & Key(sort_key_name).between(
        start_date_str, end_date_str
    )

    response = table.query(
        KeyConditionExpression=key_condition,
        ExpressionAttributeValues={
            ":pk_val": partition_key_value,
            ":start_date": start_date_str,
            ":end_date": end_date_str,
        },
    )

    return response


def query_with_date_range_by_month(
    table_name, partition_key_name, partition_key_value, sort_key_name, year, month
):
    """
    Query a DynamoDB table for a specific month's data.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        sort_key_name (str): The name of the sort key attribute (containing date values).
        year (int): The year to query.
        month (int): The month to query (1-12).

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Calculate the start and end dates for the specified month
    if month == 12:
        next_year = year + 1
        next_month = 1
    else:
        next_year = year
        next_month = month + 1

    start_date = datetime(year, month, 1)
    end_date = datetime(next_year, next_month, 1) - timedelta(microseconds=1)

    # Format the date values as ISO 8601 strings
    start_date_str = start_date.isoformat()
    end_date_str = end_date.isoformat()

    # Perform the query with a date range on the sort key
    key_condition = Key(partition_key_name).eq(partition_key_value) & Key(sort_key_name).between(
        start_date_str, end_date_str
    )

    response = table.query(KeyConditionExpression=key_condition)

    return response
```
Kueri menggunakan variabel tanggal-waktu dengan. AWS SDK untuk Python (Boto3)  

```
from datetime import datetime, timedelta

import boto3
from boto3.dynamodb.conditions import Key


def query_with_datetime(
    table_name, partition_key_name, partition_key_value, sort_key_name, start_date, end_date
):
    """
    Query a DynamoDB table with a date range filter on the sort key.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        sort_key_name (str): The name of the sort key attribute (containing date/time values).
        start_date (datetime): The start date/time for the query range.
        end_date (datetime): The end date/time for the query range.

    Returns:
        dict: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Format the date/time values as ISO 8601 strings
    # DynamoDB works well with ISO format for date/time values
    start_date_str = start_date.isoformat()
    end_date_str = end_date.isoformat()

    # Perform the query with a date range on the sort key
    key_condition = Key(partition_key_name).eq(partition_key_value) & Key(sort_key_name).between(
        start_date_str, end_date_str
    )

    response = table.query(
        KeyConditionExpression=key_condition,
        ExpressionAttributeValues={
            ":pk_val": partition_key_value,
            ":start_date": start_date_str,
            ":end_date": end_date_str,
        },
    )

    return response



def example_usage():
    """Example of how to use the query_with_datetime function."""
    # Example parameters
    table_name = "Events"
    partition_key_name = "EventType"
    partition_key_value = "UserLogin"
    sort_key_name = "Timestamp"

    # Create date/time variables for the query
    end_date = datetime.now()
    start_date = end_date - timedelta(days=7)  # Query events from the last 7 days

    print(f"Querying events from {start_date.isoformat()} to {end_date.isoformat()}")

    # Execute the query
    response = query_with_datetime(
        table_name, partition_key_name, partition_key_value, sort_key_name, start_date, end_date
    )

    # Process the results
    items = response.get("Items", [])
    print(f"Found {len(items)} items")

    for item in items:
        print(f"Event: {item}")
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Python (Boto3)*. 

### Memahami urutan ekspresi pembaruan
<a name="dynamodb_Scenario_UpdateExpressionOrder_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memahami urutan ekspresi pembaruan.
+ Pelajari cara DynamoDB memproses ekspresi pembaruan.
+ Memahami urutan operasi dalam ekspresi pembaruan.
+ Hindari hasil yang tidak terduga dengan memahami evaluasi ekspresi.

**SDK untuk Python (Boto3)**  
Menunjukkan urutan ekspresi pembaruan menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
import json
from typing import Any, Dict, Optional


def update_with_multiple_actions(
    table_name: str,
    key: Dict[str, Any],
    update_expression: str,
    expression_attribute_names: Optional[Dict[str, str]] = None,
    expression_attribute_values: Optional[Dict[str, Any]] = None,
) -> Dict[str, Any]:
    """
    Update an item with multiple actions in a single update expression.

    This function demonstrates how to use multiple actions in a single update expression
    and how DynamoDB processes these actions.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        update_expression (str): The update expression with multiple actions.
        expression_attribute_names (Optional[Dict[str, str]]): Expression attribute name placeholders.
        expression_attribute_values (Optional[Dict[str, Any]]): Expression attribute value placeholders.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Prepare the update parameters
    update_params = {
        "Key": key,
        "UpdateExpression": update_expression,
        "ReturnValues": "UPDATED_NEW",
    }

    # Add expression attribute names if provided
    if expression_attribute_names:
        update_params["ExpressionAttributeNames"] = expression_attribute_names

    # Add expression attribute values if provided
    if expression_attribute_values:
        update_params["ExpressionAttributeValues"] = expression_attribute_values

    # Execute the update
    response = table.update_item(**update_params)

    return response


def demonstrate_value_copying(table_name: str, key: Dict[str, Any]) -> Dict[str, Any]:
    """
    Demonstrate that variables hold copies of existing values before modifications.

    This function creates an item with initial values, then updates it with an expression
    that uses the values of attributes before they are modified in the same expression.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to create and update.

    Returns:
        Dict[str, Any]: A dictionary containing the results of the demonstration.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Step 1: Create an item with initial values
    initial_item = key.copy()
    initial_item.update({"a": 1, "b": 2, "c": 3})

    table.put_item(Item=initial_item)

    # Step 2: Get the item to verify initial state
    response_before = table.get_item(Key=key)
    item_before = response_before.get("Item", {})

    # Step 3: Update the item with an expression that uses values before they are modified
    # This expression removes 'a', then sets 'b' to the value of 'a', and 'c' to the value of 'b'
    update_response = table.update_item(
        Key=key, UpdateExpression="REMOVE a SET b = a, c = b", ReturnValues="UPDATED_NEW"
    )

    # Step 4: Get the item to verify final state
    response_after = table.get_item(Key=key)
    item_after = response_after.get("Item", {})

    # Return the results
    return {
        "initial_state": item_before,
        "update_response": update_response,
        "final_state": item_after,
    }


def demonstrate_action_order(table_name: str, key: Dict[str, Any]) -> Dict[str, Any]:
    """
    Demonstrate the order in which different action types are processed.

    This function creates an item with initial values, then updates it with an expression
    that includes multiple action types (SET, REMOVE, ADD, DELETE) to show the order
    in which they are processed.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to create and update.

    Returns:
        Dict[str, Any]: A dictionary containing the results of the demonstration.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Step 1: Create an item with initial values
    initial_item = key.copy()
    initial_item.update(
        {
            "counter": 10,
            "set_attr": set(["A", "B", "C"]),
            "to_remove": "This will be removed",
            "to_modify": "Original value",
        }
    )

    table.put_item(Item=initial_item)

    # Step 2: Get the item to verify initial state
    response_before = table.get_item(Key=key)
    item_before = response_before.get("Item", {})

    # Step 3: Update the item with multiple action types
    # The actions will be processed in this order: REMOVE, SET, ADD, DELETE
    update_response = table.update_item(
        Key=key,
        UpdateExpression="REMOVE to_remove SET to_modify = :new_value ADD counter :increment DELETE set_attr :elements",
        ExpressionAttributeValues={
            ":new_value": "Updated value",
            ":increment": 5,
            ":elements": set(["B"]),
        },
        ReturnValues="UPDATED_NEW",
    )

    # Step 4: Get the item to verify final state
    response_after = table.get_item(Key=key)
    item_after = response_after.get("Item", {})

    # Return the results
    return {
        "initial_state": item_before,
        "update_response": update_response,
        "final_state": item_after,
    }


def update_with_multiple_set_actions(
    table_name: str, key: Dict[str, Any], attributes: Dict[str, Any]
) -> Dict[str, Any]:
    """
    Update multiple attributes with a single SET action.

    This function demonstrates how to update multiple attributes in a single SET action,
    which is more efficient than using multiple separate update operations.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        attributes (Dict[str, Any]): The attributes to update and their new values.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Build the update expression and expression attribute values
    update_expression = "SET "
    expression_attribute_values = {}

    # Add each attribute to the update expression
    for i, (attr_name, attr_value) in enumerate(attributes.items()):
        value_placeholder = f":val{i}"

        if i > 0:
            update_expression += ", "
        update_expression += f"{attr_name} = {value_placeholder}"

        expression_attribute_values[value_placeholder] = attr_value

    # Execute the update
    response = table.update_item(
        Key=key,
        UpdateExpression=update_expression,
        ExpressionAttributeValues=expression_attribute_values,
        ReturnValues="UPDATED_NEW",
    )

    return response


def update_with_conditional_value_copying(
    table_name: str,
    key: Dict[str, Any],
    source_attribute: str,
    target_attribute: str,
    default_value: Any,
) -> Dict[str, Any]:
    """
    Update an attribute with a value from another attribute or a default value.

    This function demonstrates how to use if_not_exists to conditionally copy a value
    from one attribute to another, or use a default value if the source doesn't exist.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        source_attribute (str): The attribute to copy the value from.
        target_attribute (str): The attribute to update.
        default_value (Any): The default value to use if the source attribute doesn't exist.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use if_not_exists to conditionally copy the value
    response = table.update_item(
        Key=key,
        UpdateExpression=f"SET {target_attribute} = if_not_exists({source_attribute}, :default)",
        ExpressionAttributeValues={":default": default_value},
        ReturnValues="UPDATED_NEW",
    )

    return response
```
Contoh penggunaan urutan ekspresi pembaruan dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use update expression order of operations in DynamoDB."""
    # Example parameters
    table_name = "OrderProcessing"
    key = {"OrderId": "order123"}

    print("Example 1: Demonstrating value copying in update expressions")
    try:
        results = demonstrate_value_copying(table_name=table_name, key=key)

        print(f"Initial state: {json.dumps(results['initial_state'], default=str)}")
        print(f"Update response: {json.dumps(results['update_response'], default=str)}")
        print(f"Final state: {json.dumps(results['final_state'], default=str)}")

        print("\nExplanation:")
        print("1. The initial state had a=1, b=2, c=3")
        print("2. The update expression 'REMOVE a SET b = a, c = b' did the following:")
        print("   - Copied the value of 'a' (which was 1) to be used for 'b'")
        print("   - Copied the value of 'b' (which was 2) to be used for 'c'")
        print("   - Removed the attribute 'a'")
        print("3. The final state has b=1, c=2, and 'a' is removed")
        print(
            "4. This demonstrates that DynamoDB uses the values of attributes as they were BEFORE any modifications"
        )
    except Exception as e:
        print(f"Error demonstrating value copying: {e}")

    print("\nExample 2: Demonstrating the order of different action types")
    try:
        results = demonstrate_action_order(table_name=table_name, key={"OrderId": "order456"})

        print(f"Initial state: {json.dumps(results['initial_state'], default=str)}")
        print(f"Update response: {json.dumps(results['update_response'], default=str)}")
        print(f"Final state: {json.dumps(results['final_state'], default=str)}")

        print("\nExplanation:")
        print("1. The update expression contained multiple action types: REMOVE, SET, ADD, DELETE")
        print("2. DynamoDB processes these actions in this order: REMOVE, SET, ADD, DELETE")
        print("3. First, 'to_remove' was removed")
        print("4. Then, 'to_modify' was set to a new value")
        print("5. Next, 'counter' was incremented by 5")
        print("6. Finally, 'B' was removed from the set attribute")
    except Exception as e:
        print(f"Error demonstrating action order: {e}")

    print("\nExample 3: Updating multiple attributes in a single SET action")
    try:
        response = update_with_multiple_set_actions(
            table_name=table_name,
            key={"OrderId": "order789"},
            attributes={
                "Status": "Shipped",
                "ShippingDate": "2025-05-14",
                "TrackingNumber": "1Z999AA10123456784",
            },
        )

        print(
            f"Multiple attributes updated successfully: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error updating multiple attributes: {e}")

    print("\nExample 4: Conditional value copying with if_not_exists")
    try:
        response = update_with_conditional_value_copying(
            table_name=table_name,
            key={"OrderId": "order101"},
            source_attribute="PreferredShippingMethod",
            target_attribute="ShippingMethod",
            default_value="Standard",
        )

        print(
            f"Conditional value copying result: {json.dumps(response.get('Attributes', {}), default=str)}"
        )
    except Exception as e:
        print(f"Error with conditional value copying: {e}")

    print("\nKey Points About Update Expression Order of Operations:")
    print(
        "1. Variables in expressions hold copies of attribute values as they existed BEFORE any modifications"
    )
    print(
        "2. Multiple actions in an update expression are processed in this order: REMOVE, SET, ADD, DELETE"
    )
    print("3. Within each action type, operations are processed from left to right")
    print("4. You can reference the same attribute multiple times in an expression")
    print("5. You can use if_not_exists() to conditionally set values based on attribute existence")
    print(
        "6. Using a single update expression with multiple actions is more efficient than multiple separate updates"
    )
    print("7. The update expression is atomic - either all actions succeed or none do")
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui pengaturan throughput hangat tabel
<a name="dynamodb_UpdateTableWarmThroughput_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui pengaturan throughput hangat tabel.

**SDK untuk Python (Boto3)**  
Perbarui pengaturan throughput hangat pada tabel DynamoDB yang ada menggunakan. AWS SDK untuk Python (Boto3)  

```
from boto3 import client
from botocore.exceptions import ClientError


def update_dynamodb_table_warm_throughput(
    table_name,
    table_read_units,
    table_write_units,
    gsi_name,
    gsi_read_units,
    gsi_write_units,
    region_name="us-east-1",
):
    """
    Updates the warm throughput of a DynamoDB table and a global secondary index.

    :param table_name: The name of the table to update.
    :param table_read_units: The new read units per second for the table's warm throughput.
    :param table_write_units: The new write units per second for the table's warm throughput.
    :param gsi_name: The name of the global secondary index to update.
    :param gsi_read_units: The new read units per second for the GSI's warm throughput.
    :param gsi_write_units: The new write units per second for the GSI's warm throughput.
    :param region_name: The AWS Region name to target. defaults to us-east-1
    :return: The response from the update_table operation
    """
    try:
        ddb = client("dynamodb", region_name=region_name)

        # Update the table's warm throughput
        table_warm_throughput = {
            "ReadUnitsPerSecond": table_read_units,
            "WriteUnitsPerSecond": table_write_units,
        }

        # Update the global secondary index's warm throughput
        gsi_warm_throughput = {
            "ReadUnitsPerSecond": gsi_read_units,
            "WriteUnitsPerSecond": gsi_write_units,
        }

        # Construct the global secondary index update
        global_secondary_index_update = [
            {"Update": {"IndexName": gsi_name, "WarmThroughput": gsi_warm_throughput}}
        ]

        # Construct the update table request
        update_table_request = {
            "TableName": table_name,
            "GlobalSecondaryIndexUpdates": global_secondary_index_update,
            "WarmThroughput": table_warm_throughput,
        }

        # Update the table
        response = ddb.update_table(**update_table_request)
        print("Table updated successfully!")
        return response  # Make sure to return the response
    except ClientError as e:
        print(f"Error updating table: {e}")
        raise e
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui TTL item
<a name="dynamodb_UpdateItemTTL_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui TTL item.

**SDK untuk Python (Boto3)**  

```
from datetime import datetime, timedelta

import boto3


def update_dynamodb_item(table_name, region, primary_key, sort_key):
    """
    Update an existing DynamoDB item with a TTL.
    :param table_name: Name of the DynamoDB table
    :param region: AWS Region of the table - example `us-east-1`
    :param primary_key: one attribute known as the partition key.
    :param sort_key: Also known as a range attribute.
    :return: Void (nothing)
    """
    try:
        # Create the DynamoDB resource.
        dynamodb = boto3.resource("dynamodb", region_name=region)
        table = dynamodb.Table(table_name)

        # Get the current time in epoch second format
        current_time = int(datetime.now().timestamp())

        # Calculate the expireAt time (90 days from now) in epoch second format
        expire_at = int((datetime.now() + timedelta(days=90)).timestamp())

        table.update_item(
            Key={"partitionKey": primary_key, "sortKey": sort_key},
            UpdateExpression="set updatedAt=:c, expireAt=:e",
            ExpressionAttributeValues={":c": current_time, ":e": expire_at},
        )

        print("Item updated successfully.")
    except Exception as e:
        print(f"Error updating item: {e}")


# Replace with your own values
update_dynamodb_item(
    "your-table-name", "us-west-2", "your-partition-key-value", "your-sort-key-value"
)
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara membuat dan menggunakan Amazon API Gateway REST API yang menargetkan suatu AWS Lambda fungsi. Handler Lambda menunjukkan cara merutekan berdasarkan metode HTTP; cara mendapatkan data dari string kueri, header, dan badan; dan cara mengembalikan respons JSON.   
+ Menyebarkan fungsi Lambda.
+ Buat API REST API Gateway.
+ Buat sumber daya REST yang menargetkan fungsi Lambda.
+ Berikan izin untuk mengizinkan API Gateway menjalankan fungsi Lambda.
+ Gunakan paket Requests untuk mengirim permintaan ke REST API.
+ Bersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Gunakan operasi penghitung atom
<a name="dynamodb_Scenario_AtomicCounterOperations_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan operasi penghitung atom di DynamoDB.
+ Penghitung kenaikan secara atom menggunakan operasi ADD dan SET.
+ Penghitung kenaikan aman yang mungkin tidak ada.
+ Menerapkan penguncian optimis untuk operasi counter.

**SDK untuk Python (Boto3)**  
Menunjukkan operasi penghitung atom menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from botocore.exceptions import ClientError
from typing import Any, Dict, Union


def increment_counter_with_add(
    table_name: str, key: Dict[str, Any], counter_name: str, increment_value: int = 1
) -> Dict[str, Any]:
    """
    Increment a counter attribute using the ADD operation.

    This function demonstrates the atomic ADD operation, which is ideal for
    incrementing counters without the risk of race conditions.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        counter_name (str): The name of the counter attribute.
        increment_value (int, optional): The value to increment by. Defaults to 1.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use the ADD operation to atomically increment the counter
    response = table.update_item(
        Key=key,
        UpdateExpression="ADD #counter :increment",
        ExpressionAttributeNames={"#counter": counter_name},
        ExpressionAttributeValues={":increment": increment_value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def increment_counter_with_set(
    table_name: str, key: Dict[str, Any], counter_name: str, increment_value: int = 1
) -> Dict[str, Any]:
    """
    Increment a counter attribute using the SET operation with an expression.

    This function demonstrates using SET with an expression to increment a counter.
    While this works, it's generally recommended to use ADD for simple increments.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        counter_name (str): The name of the counter attribute.
        increment_value (int, optional): The value to increment by. Defaults to 1.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use the SET operation with an expression to increment the counter
    response = table.update_item(
        Key=key,
        UpdateExpression="SET #counter = #counter + :increment",
        ExpressionAttributeNames={"#counter": counter_name},
        ExpressionAttributeValues={":increment": increment_value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def increment_counter_safely(
    table_name: str,
    key: Dict[str, Any],
    counter_name: str,
    increment_value: int = 1,
    initial_value: int = 0,
) -> Dict[str, Any]:
    """
    Increment a counter attribute safely, handling the case where it might not exist.

    This function demonstrates a best practice for incrementing counters by using
    the if_not_exists function to handle the case where the counter doesn't exist yet.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        counter_name (str): The name of the counter attribute.
        increment_value (int, optional): The value to increment by. Defaults to 1.
        initial_value (int, optional): The initial value if the counter doesn't exist. Defaults to 0.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use SET with if_not_exists to safely increment the counter
    response = table.update_item(
        Key=key,
        UpdateExpression="SET #counter = if_not_exists(#counter, :initial) + :increment",
        ExpressionAttributeNames={"#counter": counter_name},
        ExpressionAttributeValues={":increment": increment_value, ":initial": initial_value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def atomic_conditional_increment(
    table_name: str,
    key: Dict[str, Any],
    counter_name: str,
    condition_attribute: str,
    condition_value: Any,
    increment_value: int = 1,
) -> Union[Dict[str, Any], None]:
    """
    Atomically increment a counter only if a condition is met.

    This function demonstrates combining atomic counter operations with
    conditional expressions for more complex update scenarios.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        counter_name (str): The name of the counter attribute.
        condition_attribute (str): The attribute to check in the condition.
        condition_value (Any): The value to compare against.
        increment_value (int, optional): The value to increment by. Defaults to 1.

    Returns:
        Optional[Dict[str, Any]]: The response from DynamoDB if successful, None if condition failed.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    try:
        # Use ADD with a condition expression
        response = table.update_item(
            Key=key,
            UpdateExpression="ADD #counter :increment",
            ConditionExpression="#condition = :value",
            ExpressionAttributeNames={"#counter": counter_name, "#condition": condition_attribute},
            ExpressionAttributeValues={":increment": increment_value, ":value": condition_value},
            ReturnValues="UPDATED_NEW",
        )
        return response
    except ClientError as e:
        if e.response["Error"]["Code"] == "ConditionalCheckFailedException":
            # Condition was not met
            return None
        else:
            # Other error occurred
            raise
```
Contoh penggunaan operasi penghitung atom dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use the atomic counter operations functions."""
    # Example parameters
    table_name = "GameScores"
    key = {"UserId": "user123", "GameId": "game456"}
    counter_name = "Score"

    print("Example 1: Incrementing a counter with ADD operation")
    try:
        response = increment_counter_with_add(
            table_name=table_name, key=key, counter_name=counter_name, increment_value=10
        )
        print(
            f"Counter incremented successfully. New value: {response.get('Attributes', {}).get(counter_name)}"
        )
    except Exception as e:
        print(f"Error incrementing counter with ADD: {e}")

    print("\nExample 2: Incrementing a counter with SET operation")
    try:
        response = increment_counter_with_set(
            table_name=table_name, key=key, counter_name=counter_name, increment_value=5
        )
        print(
            f"Counter incremented successfully. New value: {response.get('Attributes', {}).get(counter_name)}"
        )
    except Exception as e:
        print(f"Error incrementing counter with SET: {e}")

    print("\nExample 3: Safely incrementing a counter that might not exist")
    try:
        new_key = {"UserId": "newuser789", "GameId": "game456"}
        response = increment_counter_safely(
            table_name=table_name,
            key=new_key,
            counter_name=counter_name,
            increment_value=15,
            initial_value=100,
        )
        print(
            f"Counter safely incremented. New value: {response.get('Attributes', {}).get(counter_name)}"
        )
    except Exception as e:
        print(f"Error safely incrementing counter: {e}")

    print("\nExample 4: Conditional counter increment")
    try:
        # Fix for mypy: Handle the case where response might be None
        result = atomic_conditional_increment(
            table_name=table_name,
            key=key,
            counter_name="Achievements",
            condition_attribute="Level",
            condition_value=5,
            increment_value=1,
        )

        if result is not None:
            print(
                f"Conditional increment succeeded. New value: {result.get('Attributes', {}).get('Achievements')}"
            )
        else:
            print("Conditional increment failed because condition was not met.")
        if response:
            print(
                f"Conditional increment succeeded. New value: {response.get('Attributes', {}).get('Achievements')}"
            )
        else:
            print("Conditional increment failed because condition was not met.")
    except Exception as e:
        print(f"Error with conditional increment: {e}")

    print("\nComparison of ADD vs SET for counter operations:")
    print("1. ADD is specifically designed for atomic numeric increments and set operations")
    print("2. SET with an expression can be used for more complex calculations")
    print("3. Both operations are atomic, preventing race conditions")
    print("4. ADD is more concise for simple increments")
    print("5. SET with if_not_exists() is recommended when the attribute might not exist")
    print("6. For counters, ADD is generally preferred for clarity and simplicity")
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### Gunakan operasi bersyarat
<a name="dynamodb_Scenario_ConditionalOperations_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan operasi bersyarat di DynamoDB.
+ Menerapkan penulisan bersyarat untuk mencegah penimpaan data.
+ Gunakan ekspresi kondisi untuk menegakkan aturan bisnis.
+ Tangani kegagalan pemeriksaan bersyarat dengan anggun.

**SDK untuk Python (Boto3)**  
Menunjukkan operasi bersyarat menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from botocore.exceptions import ClientError
from typing import Any, Dict, Optional, Tuple, Union


def conditional_update(
    table_name: str,
    key: Dict[str, Any],
    condition_attribute: str,
    condition_value: Any,
    update_attribute: str,
    update_value: Any,
) -> Tuple[bool, Optional[Dict[str, Any]]]:
    """
    Update an item only if a condition is met.

    This function demonstrates how to perform a conditional update operation
    and determine if the condition was met.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        condition_attribute (str): The attribute to check in the condition.
        condition_value (Any): The value to compare against.
        update_attribute (str): The attribute to update.
        update_value (Any): The new value to set.

    Returns:
        Tuple[bool, Optional[Dict[str, Any]]]: A tuple containing:
            - A boolean indicating if the update succeeded
            - The response from DynamoDB if successful, None otherwise
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    try:
        # Perform the conditional update
        response = table.update_item(
            Key=key,
            UpdateExpression="SET #update_attr = :update_val",
            ConditionExpression="#cond_attr = :cond_val",
            ExpressionAttributeNames={
                "#update_attr": update_attribute,
                "#cond_attr": condition_attribute,
            },
            ExpressionAttributeValues={":update_val": update_value, ":cond_val": condition_value},
            ReturnValues="UPDATED_NEW",
        )
        # Update succeeded, condition was met
        return True, response
    except ClientError as e:
        if e.response["Error"]["Code"] == "ConditionalCheckFailedException":
            # Condition was not met
            return False, None
        else:
            # Other error occurred
            raise


def conditional_delete(
    table_name: str, key: Dict[str, Any], condition_attribute: str, condition_value: Any
) -> bool:
    """
    Delete an item only if a condition is met.

    This function demonstrates how to perform a conditional delete operation
    and determine if the condition was met.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to delete.
        condition_attribute (str): The attribute to check in the condition.
        condition_value (Any): The value to compare against.

    Returns:
        bool: True if the delete succeeded (condition was met), False otherwise.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    try:
        # Perform the conditional delete
        table.delete_item(
            Key=key,
            ConditionExpression="#attr = :val",
            ExpressionAttributeNames={"#attr": condition_attribute},
            ExpressionAttributeValues={":val": condition_value},
        )
        # Delete succeeded, condition was met
        return True
    except ClientError as e:
        if e.response["Error"]["Code"] == "ConditionalCheckFailedException":
            # Condition was not met
            return False
        else:
            # Other error occurred
            raise


def optimistic_locking_update(
    table_name: str,
    key: Dict[str, Any],
    version_attribute: str,
    update_attribute: str,
    update_value: Any,
) -> Tuple[bool, Optional[Dict[str, Any]]]:
    """
    Update an item using optimistic locking with a version attribute.

    This function demonstrates how to implement optimistic locking using
    a version attribute that is incremented with each update.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        version_attribute (str): The name of the version attribute.
        update_attribute (str): The attribute to update.
        update_value (Any): The new value to set.

    Returns:
        Tuple[bool, Optional[Dict[str, Any]]]: A tuple containing:
            - A boolean indicating if the update succeeded
            - The response from DynamoDB if successful, None otherwise
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # First, get the current version
    try:
        response = table.get_item(
            Key=key,
            ProjectionExpression=f"#{version_attribute}",
            ExpressionAttributeNames={f"#{version_attribute}": version_attribute},
        )

        item = response.get("Item", {})
        current_version = item.get(version_attribute, 0)

        # Now, try to update with a condition on the version
        try:
            update_response = table.update_item(
                Key=key,
                UpdateExpression=f"SET #{update_attribute} = :update_val, #{version_attribute} = :new_version",
                ConditionExpression=f"#{version_attribute} = :current_version",
                ExpressionAttributeNames={
                    f"#{update_attribute}": update_attribute,
                    f"#{version_attribute}": version_attribute,
                },
                ExpressionAttributeValues={
                    ":update_val": update_value,
                    ":current_version": current_version,
                    ":new_version": current_version + 1,
                },
                ReturnValues="UPDATED_NEW",
            )
            # Update succeeded
            return True, update_response
        except ClientError as e:
            if e.response["Error"]["Code"] == "ConditionalCheckFailedException":
                # Version has changed, optimistic locking failed
                return False, None
            else:
                # Other error occurred
                raise
    except ClientError:
        # Error getting the item
        raise


def conditional_check_and_update(
    table_name: str,
    key: Dict[str, Any],
    check_attribute: str,
    check_value: Any,
    update_attribute: str,
    update_value: Any,
    create_if_not_exists: bool = False,
) -> Union[Dict[str, Any], None]:
    """
    Check if an attribute has a specific value and update another attribute if it does.

    This function demonstrates a more complex conditional update that can also
    create the item if it doesn't exist.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        check_attribute (str): The attribute to check in the condition.
        check_value (Any): The value to compare against.
        update_attribute (str): The attribute to update.
        update_value (Any): The new value to set.
        create_if_not_exists (bool, optional): Whether to create the item if it doesn't exist.

    Returns:
        Union[Dict[str, Any], None]: The response from DynamoDB if successful, None otherwise.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    try:
        if create_if_not_exists:
            # Use attribute_not_exists to create the item if it doesn't exist
            condition_expression = "attribute_not_exists(#pk) OR #check_attr = :check_val"
            update_expression = "SET #update_attr = :update_val, #check_attr = if_not_exists(#check_attr, :check_val)"

            # Get the partition key name from the key dictionary
            pk_name = next(iter(key))

            expression_attribute_names = {
                "#pk": pk_name,
                "#check_attr": check_attribute,
                "#update_attr": update_attribute,
            }
        else:
            # Only update if the check attribute has the expected value
            condition_expression = "#check_attr = :check_val"
            update_expression = "SET #update_attr = :update_val"

            expression_attribute_names = {
                "#check_attr": check_attribute,
                "#update_attr": update_attribute,
            }

        # Perform the conditional update
        response = table.update_item(
            Key=key,
            UpdateExpression=update_expression,
            ConditionExpression=condition_expression,
            ExpressionAttributeNames=expression_attribute_names,
            ExpressionAttributeValues={":check_val": check_value, ":update_val": update_value},
            ReturnValues="UPDATED_NEW",
        )
        return response
    except ClientError as e:
        if e.response["Error"]["Code"] == "ConditionalCheckFailedException":
            # Condition was not met
            return None
        else:
            # Other error occurred
            raise
```
Contoh penggunaan operasi bersyarat dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use the conditional operations functions."""
    # Example parameters
    table_name = "Products"
    key = {"ProductId": "prod123"}

    print("Example 1: Conditional Update")
    try:
        # Update the price only if the current stock is greater than 10
        success, response = conditional_update(
            table_name=table_name,
            key=key,
            condition_attribute="Stock",
            condition_value=10,
            update_attribute="Price",
            update_value=99.99,
        )

        if success:
            # Fix for mypy: Handle the case where response might be None
            attributes = {} if response is None else response.get("Attributes", {})
            print(f"Update succeeded! New values: {attributes}")
        else:
            print("Update failed because the condition was not met.")
    except Exception as e:
        print(f"Error during conditional update: {e}")

    print("\nExample 2: Conditional Delete")
    try:
        # Delete the product only if it's discontinued
        success = conditional_delete(
            table_name=table_name,
            key=key,
            condition_attribute="Status",
            condition_value="Discontinued",
        )

        if success:
            print("Delete succeeded! The item was deleted.")
        else:
            print("Delete failed because the condition was not met.")
    except Exception as e:
        print(f"Error during conditional delete: {e}")

    print("\nExample 3: Optimistic Locking")
    try:
        # Update with optimistic locking using a version attribute
        success, response = optimistic_locking_update(
            table_name=table_name,
            key=key,
            version_attribute="Version",
            update_attribute="Description",
            update_value="Updated product description",
        )

        if success:
            # Fix for mypy: Handle the case where response might be None
            attributes = {} if response is None else response.get("Attributes", {})
            print(f"Optimistic locking update succeeded! New values: {attributes}")
        else:
            print("Optimistic locking update failed because the version has changed.")
    except Exception as e:
        print(f"Error during optimistic locking update: {e}")

    print("\nExample 4: Conditional Check and Update")
    try:
        # Update the featured status if the product is in stock
        response = conditional_check_and_update(
            table_name=table_name,
            key=key,
            check_attribute="InStock",
            check_value=True,
            update_attribute="Featured",
            update_value=True,
            create_if_not_exists=True,
        )

        if response:
            print(
                f"Conditional check and update succeeded! New values: {response.get('Attributes', {})}"
            )
        else:
            print("Conditional check and update failed because the condition was not met.")
    except Exception as e:
        print(f"Error during conditional check and update: {e}")

    print("\nUnderstanding Conditional Operations in DynamoDB:")
    print("1. Conditional operations help maintain data integrity")
    print("2. They prevent race conditions in concurrent environments")
    print("3. Failed conditions result in ConditionalCheckFailedException")
    print("4. No DynamoDB capacity is consumed when conditions fail")
    print("5. Optimistic locking is a common pattern using version attributes")
    print("6. Conditions can be combined with logical operators (AND, OR, NOT)")
    print("7. Conditions can use comparison operators (=, <>, <, <=, >, >=)")
    print(
        "8. attribute_exists() and attribute_not_exists() are useful for checking attribute presence"
    )
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [DeleteItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/DeleteItem)
  + [PutItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/PutItem)
  + [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)

### Gunakan nama atribut ekspresi
<a name="dynamodb_Scenario_ExpressionAttributeNames_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggunakan nama atribut ekspresi di DynamoDB.
+ Bekerja dengan kata-kata yang dicadangkan dalam ekspresi DynamoDB.
+ Gunakan placeholder nama atribut ekspresi.
+ Menangani karakter khusus dalam nama atribut.

**SDK untuk Python (Boto3)**  
Menunjukkan nama atribut ekspresi menggunakan AWS SDK untuk Python (Boto3).  

```
import boto3
from botocore.exceptions import ClientError
from typing import Any, Dict, List


def use_reserved_word_attribute(
    table_name: str, key: Dict[str, Any], reserved_word: str, value: Any
) -> Dict[str, Any]:
    """
    Update an attribute whose name is a DynamoDB reserved word.

    This function demonstrates how to use expression attribute names to work with
    attributes that have names that are DynamoDB reserved words.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        reserved_word (str): The reserved word to use as an attribute name.
        value (Any): The value to set for the attribute.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use expression attribute names to handle the reserved word
    response = table.update_item(
        Key=key,
        UpdateExpression="SET #reserved_attr = :value",
        ExpressionAttributeNames={"#reserved_attr": reserved_word},
        ExpressionAttributeValues={":value": value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def use_special_character_attribute(
    table_name: str, key: Dict[str, Any], attribute_with_special_chars: str, value: Any
) -> Dict[str, Any]:
    """
    Update an attribute whose name contains special characters.

    This function demonstrates how to use expression attribute names to work with
    attributes that have names containing special characters like spaces, dots, or hyphens.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        attribute_with_special_chars (str): The attribute name with special characters.
        value (Any): The value to set for the attribute.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use expression attribute names to handle special characters
    response = table.update_item(
        Key=key,
        UpdateExpression="SET #special_attr = :value",
        ExpressionAttributeNames={"#special_attr": attribute_with_special_chars},
        ExpressionAttributeValues={":value": value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def query_with_attribute_names(
    table_name: str,
    partition_key_name: str,
    partition_key_value: str,
    filter_attribute_name: str,
    filter_value: Any,
) -> Dict[str, Any]:
    """
    Query a table using expression attribute names for both key and filter attributes.

    This function demonstrates how to use expression attribute names in a query operation
    for both the key condition expression and filter expression.

    Args:
        table_name (str): The name of the DynamoDB table.
        partition_key_name (str): The name of the partition key attribute.
        partition_key_value (str): The value of the partition key to query.
        filter_attribute_name (str): The name of the attribute to filter on.
        filter_value (Any): The value to compare against in the filter.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the query results.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Use expression attribute names for both key condition and filter
    response = table.query(
        KeyConditionExpression="#pk = :pk_val",
        FilterExpression="#filter_attr = :filter_val",
        ExpressionAttributeNames={"#pk": partition_key_name, "#filter_attr": filter_attribute_name},
        ExpressionAttributeValues={":pk_val": partition_key_value, ":filter_val": filter_value},
    )

    return response


def update_nested_attribute_with_dots(
    table_name: str, key: Dict[str, Any], path_with_dots: str, value: Any
) -> Dict[str, Any]:
    """
    Update a nested attribute using a path with dot notation.

    This function demonstrates how to use expression attribute names to work with
    nested attributes specified using dot notation.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.
        path_with_dots (str): The path to the nested attribute using dot notation (e.g., "a.b.c").
        value (Any): The value to set for the nested attribute.

    Returns:
        Dict[str, Any]: The response from DynamoDB containing the updated attribute values.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Split the path into components
    path_parts = path_with_dots.split(".")

    # Build the update expression and attribute names
    update_expression = "SET "
    expression_attribute_names = {}

    # Build the path expression
    path_expression = ""
    for i, part in enumerate(path_parts):
        name_placeholder = f"#attr{i}"
        expression_attribute_names[name_placeholder] = part

        if i == 0:
            path_expression = name_placeholder
        else:
            path_expression += f".{name_placeholder}"

    # Complete the update expression
    update_expression += f"{path_expression} = :value"

    # Execute the update
    response = table.update_item(
        Key=key,
        UpdateExpression=update_expression,
        ExpressionAttributeNames=expression_attribute_names,
        ExpressionAttributeValues={":value": value},
        ReturnValues="UPDATED_NEW",
    )

    return response


def demonstrate_attribute_name_requirements(table_name: str, key: Dict[str, Any]) -> Dict[str, Any]:
    """
    Demonstrate the requirements and allowed characters for attribute names.

    This function shows examples of valid and invalid attribute names and how to
    handle them using expression attribute names.

    Args:
        table_name (str): The name of the DynamoDB table.
        key (Dict[str, Any]): The primary key of the item to update.

    Returns:
        Dict[str, Any]: A dictionary containing the results of the demonstration.
    """
    # Initialize the DynamoDB resource
    dynamodb = boto3.resource("dynamodb")
    table = dynamodb.Table(table_name)

    # Examples of attribute names with different characteristics
    examples = {
        "valid_standard": "NormalAttribute",  # Standard attribute name (no placeholder needed)
        "valid_with_underscore": "Normal_Attribute",  # Underscore is allowed
        "valid_with_number": "Attribute123",  # Numbers are allowed
        "reserved_word": "Timestamp",  # Reserved word (requires placeholder)
        "starts_with_number": "123Attribute",  # Starts with number (valid but may need placeholder in some contexts)
        "with_space": "Attribute Name",  # Contains space (requires placeholder)
        "with_dot": "Attribute.Name",  # Contains dot (requires placeholder)
        "with_hyphen": "Attribute-Name",  # Contains hyphen (requires placeholder)
        "with_special_chars": "Attribute#$%",  # Contains special characters (requires placeholder)
    }

    results = {}

    # Try to update each attribute type
    for example_type, attr_name in examples.items():
        try:
            # For attributes that don't need placeholders, try direct reference
            if example_type in ["valid_standard", "valid_with_underscore", "valid_with_number"]:
                try:
                    # Try without expression attribute names first
                    response = table.update_item(
                        Key=key,
                        UpdateExpression=f"SET {attr_name} = :value",
                        ExpressionAttributeValues={":value": f"Value for {attr_name}"},
                        ReturnValues="UPDATED_NEW",
                    )
                    results[example_type] = {
                        "attribute_name": attr_name,
                        "success": True,
                        "needed_placeholder": False,
                        "response": response,
                    }
                except ClientError:
                    # If direct reference fails, try with placeholder
                    response = table.update_item(
                        Key=key,
                        UpdateExpression="SET #attr = :value",
                        ExpressionAttributeNames={"#attr": attr_name},
                        ExpressionAttributeValues={":value": f"Value for {attr_name}"},
                        ReturnValues="UPDATED_NEW",
                    )
                    results[example_type] = {
                        "attribute_name": attr_name,
                        "success": True,
                        "needed_placeholder": True,
                        "response": response,
                    }
            else:
                # For attributes that definitely need placeholders
                response = table.update_item(
                    Key=key,
                    UpdateExpression="SET #attr = :value",
                    ExpressionAttributeNames={"#attr": attr_name},
                    ExpressionAttributeValues={":value": f"Value for {attr_name}"},
                    ReturnValues="UPDATED_NEW",
                )
                results[example_type] = {
                    "attribute_name": attr_name,
                    "success": True,
                    "needed_placeholder": True,
                    "response": response,
                }
        except ClientError as e:
            results[example_type] = {"attribute_name": attr_name, "success": False, "error": str(e)}

    return results
```
Contoh penggunaan nama atribut ekspresi dengan AWS SDK untuk Python (Boto3).  

```
def example_usage():
    """Example of how to use expression attribute names in DynamoDB."""
    # Example parameters
    table_name = "Products"
    key = {"ProductId": "prod123"}

    print("Example 1: Using a reserved word as an attribute name")
    try:
        response = use_reserved_word_attribute(
            table_name=table_name, key=key, reserved_word="Timestamp", value="2025-05-14T12:00:00Z"
        )
        print(f"Reserved word attribute updated successfully: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error updating reserved word attribute: {e}")

    print("\nExample 2: Using an attribute name with special characters")
    try:
        response = use_special_character_attribute(
            table_name=table_name,
            key=key,
            attribute_with_special_chars="Product Info",
            value="Special product information",
        )
        print(f"Special character attribute updated successfully: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error updating special character attribute: {e}")

    print("\nExample 3: Querying with expression attribute names")
    try:
        response = query_with_attribute_names(
            table_name=table_name,
            partition_key_name="Category",
            partition_key_value="Electronics",
            filter_attribute_name="Price",
            filter_value=500,
        )
        print(
            f"Query with expression attribute names returned {len(response.get('Items', []))} items"
        )
    except Exception as e:
        print(f"Error querying with expression attribute names: {e}")

    print("\nExample 4: Updating a nested attribute with dot notation")
    try:
        response = update_nested_attribute_with_dots(
            table_name=table_name,
            key=key,
            path_with_dots="Product.Details.Specifications",
            value={"Weight": "2.5 kg", "Dimensions": "30x20x10 cm"},
        )
        print(f"Nested attribute updated successfully: {response.get('Attributes', {})}")
    except Exception as e:
        print(f"Error updating nested attribute: {e}")

    print("\nExample 5: Demonstrating attribute name requirements")
    try:
        results = demonstrate_attribute_name_requirements(table_name=table_name, key=key)

        print("Attribute Name Requirements Results:")
        for example_type, result in results.items():
            if result.get("success", False):
                needed_placeholder = result.get("needed_placeholder", True)
                print(
                    f"  - {example_type}: '{result['attribute_name']}' - {'Requires' if needed_placeholder else 'Does not require'} placeholder"
                )
            else:
                print(
                    f"  - {example_type}: '{result['attribute_name']}' - Failed: {result.get('error', 'Unknown error')}"
                )
    except Exception as e:
        print(f"Error demonstrating attribute name requirements: {e}")

    print("\nCommon DynamoDB Reserved Words (sample):")
    reserved_words = get_common_reserved_words()
    print(", ".join(reserved_words[:20]) + "... (and many more)")

    print("\nWhen to Use Expression Attribute Names:")
    print("1. When the attribute name is a DynamoDB reserved word")
    print("2. When the attribute name contains special characters (spaces, dots, hyphens)")
    print("3. When the attribute name begins with a number")
    print("4. When working with nested attributes using dot notation")
    print("5. When you need to reference the same attribute multiple times in an expression")

    print("\nExpression Attribute Name Requirements:")
    print("1. Must begin with a pound sign (#)")
    print("2. After the pound sign, must contain at least one character")
    print("3. Can contain alphanumeric characters and underscore (_)")
    print("4. Are case-sensitive")
    print("5. Must be unique within a single expression")

    print("\nAttribute Name Requirements in DynamoDB:")
    print("1. Can begin with a-z, A-Z, or 0-9")
    print("2. Can contain a-z, A-Z, 0-9, underscore (_), dash (-), and dot (.)")
    print("3. Are case-sensitive")
    print("4. No length restrictions, but practical limits apply")
    print("5. Cannot be a DynamoDB reserved word if used directly in expressions")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [Kueri](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/Query)
  + [UpdateItem](https://docs.aws.amazon.com/goto/boto3/dynamodb-2012-08-10/UpdateItem)

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara mendaftarkan AWS Lambda fungsi sebagai target EventBridge acara Amazon terjadwal. Penangan Lambda menulis pesan ramah dan data peristiwa lengkap ke Amazon CloudWatch Logs untuk pengambilan nanti.   
+ Menyebarkan fungsi Lambda.
+ Membuat acara EventBridge terjadwal dan menjadikan fungsi Lambda sebagai target.
+ Memberikan izin untuk membiarkan EventBridge menjalankan fungsi Lambda.
+ Mencetak data terbaru dari CloudWatch Log untuk menampilkan hasil pemanggilan terjadwal.
+ Membersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Python.  

```
import json

def lambda_handler(event, context):
    print(json.dumps(event, indent=2))

    for record in event['Records']:
        log_dynamodb_record(record)

def log_dynamodb_record(record):
    print(record['eventID'])
    print(record['eventName'])
    print(f"DynamoDB Record: {json.dumps(record['dynamodb'])}")
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def handler(event, context):
    records = event.get("Records")
    curRecordSequenceNumber = ""
    
    for record in records:
        try:
            # Process your record
            curRecordSequenceNumber = record["dynamodb"]["SequenceNumber"]
        except Exception as e:
            # Return failed record's sequence number
            return {"batchItemFailures":[{"itemIdentifier": curRecordSequenceNumber}]}

    return {"batchItemFailures":[]}
```

# Contoh Amazon EC2 menggunakan SDK untuk Python (Boto3)
<a name="python_3_ec2_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk Python (Boto3) dengan menggunakan Amazon EC2.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
def hello_ec2(ec2_client):
    """
    Use the AWS SDK for Python (Boto3) to list the security groups in your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param ec2_client: A Boto3 EC2 client. This client provides low-level
                       access to AWS EC2 services.
    """
    print("Hello, Amazon EC2! Let's list up to 10 of your security groups:")
    try:
        paginator = ec2_client.get_paginator("describe_security_groups")
        response_iterator = paginator.paginate(PaginationConfig={'MaxItems': 10}) # List only 10 security groups.
        logging.basicConfig(level=logging.INFO) # Enable logging.
        for page in response_iterator:
            for sg in page["SecurityGroups"]:
                logger.info(f"\t{sg['GroupId']}: {sg['GroupName']}")
    except ClientError as err:
        logger.error("Failed to list security groups.")
        if err.response["Error"]["Code"] == "AccessDeniedException":
            logger.error("You do not have permission to list security groups.")
        raise


if __name__ == "__main__":
    hello_ec2(boto3.client("ec2"))
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSecurityGroups)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ec2_Scenario_GetStartedInstances_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat pasangan kunci dan grup keamanan.
+ Memilih Amazon Machine Image (AMI) dan tipe instans yang kompatibel, lalu membuat instans.
+ Menghentikan dan memulai ulang instans.
+ Kaitkan alamat IP Elastis dengan instans Anda.
+ Menghubungkan instans Anda dengan SSH, lalu membersihkan sumber daya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 
Jalankan skenario interaktif di prompt perintah.  

```
class EC2InstanceScenario:
    """
    A scenario that demonstrates how to use Boto3 to manage Amazon EC2 resources.
    Covers creating a key pair, security group, launching an instance, associating
    an Elastic IP, and cleaning up resources.
    """

    def __init__(
        self,
        inst_wrapper: EC2InstanceWrapper,
        key_wrapper: KeyPairWrapper,
        sg_wrapper: SecurityGroupWrapper,
        eip_wrapper: ElasticIpWrapper,
        ssm_client: boto3.client,
        remote_exec: bool = False,
    ):
        """
        Initializes the EC2InstanceScenario with the necessary AWS service wrappers.

        :param inst_wrapper: Wrapper for EC2 instance operations.
        :param key_wrapper: Wrapper for key pair operations.
        :param sg_wrapper: Wrapper for security group operations.
        :param eip_wrapper: Wrapper for Elastic IP operations.
        :param ssm_client: Boto3 client for accessing SSM to retrieve AMIs.
        :param remote_exec: Flag to indicate if the scenario is running in a remote execution
                            environment. Defaults to False. If True, the script won't prompt
                            for user interaction.
        """
        self.inst_wrapper = inst_wrapper
        self.key_wrapper = key_wrapper
        self.sg_wrapper = sg_wrapper
        self.eip_wrapper = eip_wrapper
        self.ssm_client = ssm_client
        self.remote_exec = remote_exec

    def create_and_list_key_pairs(self) -> None:
        """
        Creates an RSA key pair for SSH access to the EC2 instance and lists available key pairs.
        """
        console.print("**Step 1: Create a Secure Key Pair**", style="bold cyan")
        console.print(
            "Let's create a secure RSA key pair for connecting to your EC2 instance."
        )
        key_name = f"MyUniqueKeyPair-{uuid.uuid4().hex[:8]}"
        console.print(f"- **Key Pair Name**: {key_name}")

        # Create the key pair and simulate the process with a progress bar.
        with alive_bar(1, title="Creating Key Pair") as bar:
            self.key_wrapper.create(key_name)
            time.sleep(0.4)  # Simulate the delay in key creation
            bar()

        console.print(f"- **Private Key Saved to**: {self.key_wrapper.key_file_path}\n")

        # List key pairs (simulated) and show a progress bar.
        list_keys = True
        if list_keys:
            console.print("- Listing your key pairs...")
            start_time = time.time()
            with alive_bar(100, title="Listing Key Pairs") as bar:
                while time.time() - start_time < 2:
                    time.sleep(0.2)
                    bar(10)
                self.key_wrapper.list(5)
                if time.time() - start_time > 2:
                    console.print(
                        "Taking longer than expected! Please wait...",
                        style="bold yellow",
                    )

    def create_security_group(self) -> None:
        """
        Creates a security group that controls access to the EC2 instance and adds a rule
        to allow SSH access from the user's current public IP address.
        """
        console.print("**Step 2: Create a Security Group**", style="bold cyan")
        console.print(
            "Security groups manage access to your instance. Let's create one."
        )
        sg_name = f"MySecurityGroup-{uuid.uuid4().hex[:8]}"
        console.print(f"- **Security Group Name**: {sg_name}")

        # Create the security group and simulate the process with a progress bar.
        with alive_bar(1, title="Creating Security Group") as bar:
            self.sg_wrapper.create(
                sg_name, "Security group for example: get started with instances."
            )
            time.sleep(0.5)
            bar()

        console.print(f"- **Security Group ID**: {self.sg_wrapper.security_group}\n")

        # Get the current public IP to set up SSH access.
        ip_response = urllib.request.urlopen("http://checkip.amazonaws.com")
        current_ip_address = ip_response.read().decode("utf-8").strip()
        console.print(
            "Let's add a rule to allow SSH only from your current IP address."
        )
        console.print(f"- **Your Public IP Address**: {current_ip_address}")
        console.print("- Automatically adding SSH rule...")

        # Update security group rules to allow SSH and simulate with a progress bar.
        with alive_bar(1, title="Updating Security Group Rules") as bar:
            response = self.sg_wrapper.authorize_ingress(current_ip_address)
            time.sleep(0.4)
            if response and response.get("Return"):
                console.print("- **Security Group Rules Updated**.")
            else:
                console.print(
                    "- **Error**: Couldn't update security group rules.",
                    style="bold red",
                )
            bar()

        self.sg_wrapper.describe(self.sg_wrapper.security_group)

    def create_instance(self) -> None:
        """
        Launches an EC2 instance using an Amazon Linux 2 AMI and the created key pair
        and security group. Displays instance details and SSH connection information.
        """
        # Retrieve Amazon Linux 2 AMIs from SSM.
        ami_paginator = self.ssm_client.get_paginator("get_parameters_by_path")
        ami_options = []
        for page in ami_paginator.paginate(Path="/aws/service/ami-amazon-linux-latest"):
            ami_options += page["Parameters"]
        amzn2_images = self.inst_wrapper.get_images(
            [opt["Value"] for opt in ami_options if "amzn2" in opt["Name"]]
        )
        console.print("\n**Step 3: Launch Your Instance**", style="bold cyan")
        console.print(
            "Let's create an instance from an Amazon Linux 2 AMI. Here are some options:"
        )
        image_choice = 0
        console.print(f"- Selected AMI: {amzn2_images[image_choice]['ImageId']}\n")

        # Display instance types compatible with the selected AMI
        inst_types = self.inst_wrapper.get_instance_types(
            amzn2_images[image_choice]["Architecture"]
        )
        inst_type_choice = 0
        console.print(
            f"- Selected instance type: {inst_types[inst_type_choice]['InstanceType']}\n"
        )

        console.print("Creating your instance and waiting for it to start...")
        with alive_bar(1, title="Creating Instance") as bar:
            self.inst_wrapper.create(
                amzn2_images[image_choice]["ImageId"],
                inst_types[inst_type_choice]["InstanceType"],
                self.key_wrapper.key_pair["KeyName"],
                [self.sg_wrapper.security_group],
            )
            time.sleep(21)
            bar()

        console.print(f"**Success! Your instance is ready:**\n", style="bold green")
        self.inst_wrapper.display()

        console.print(
            "You can use SSH to connect to your instance. "
            "If the connection attempt times out, you might have to manually update "
            "the SSH ingress rule for your IP address in the AWS Management Console."
        )
        self._display_ssh_info()

    def _display_ssh_info(self) -> None:
        """
        Displays SSH connection information for the user to connect to the EC2 instance.
        Handles the case where the instance does or does not have an associated public IP address.
        """
        if (
            not self.eip_wrapper.elastic_ips
            or not self.eip_wrapper.elastic_ips[0].allocation_id
        ):
            if self.inst_wrapper.instances:
                instance = self.inst_wrapper.instances[0]
                instance_id = instance["InstanceId"]

                waiter = self.inst_wrapper.ec2_client.get_waiter("instance_running")
                console.print(
                    "Waiting for the instance to be in a running state with a public IP...",
                    style="bold cyan",
                )

                with alive_bar(1, title="Waiting for Instance to Start") as bar:
                    waiter.wait(InstanceIds=[instance_id])
                    time.sleep(20)
                    bar()

                instance = self.inst_wrapper.ec2_client.describe_instances(
                    InstanceIds=[instance_id]
                )["Reservations"][0]["Instances"][0]

                public_ip = instance.get("PublicIpAddress")
                if public_ip:
                    console.print(
                        "\nTo connect via SSH, open another command prompt and run the following command:",
                        style="bold cyan",
                    )
                    console.print(
                        f"\tssh -i {self.key_wrapper.key_file_path} ec2-user@{public_ip}"
                    )
                else:
                    console.print(
                        "Instance does not have a public IP address assigned.",
                        style="bold red",
                    )
            else:
                console.print(
                    "No instance available to retrieve public IP address.",
                    style="bold red",
                )
        else:
            elastic_ip = self.eip_wrapper.elastic_ips[0]
            elastic_ip_address = elastic_ip.public_ip
            console.print(
                f"\tssh -i {self.key_wrapper.key_file_path} ec2-user@{elastic_ip_address}"
            )

        if not self.remote_exec:
            console.print("\nOpen a new terminal tab to try the above SSH command.")
            input("Press Enter to continue...")

    def associate_elastic_ip(self) -> None:
        """
        Allocates an Elastic IP address and associates it with the EC2 instance.
        Displays the Elastic IP address and SSH connection information.
        """
        console.print("\n**Step 4: Allocate an Elastic IP Address**", style="bold cyan")
        console.print(
            "You can allocate an Elastic IP address and associate it with your instance\n"
            "to keep a consistent IP address even when your instance restarts."
        )

        with alive_bar(1, title="Allocating Elastic IP") as bar:
            elastic_ip = self.eip_wrapper.allocate()
            time.sleep(0.5)
            bar()

        console.print(
            f"- **Allocated Static Elastic IP Address**: {elastic_ip.public_ip}."
        )

        with alive_bar(1, title="Associating Elastic IP") as bar:
            self.eip_wrapper.associate(
                elastic_ip.allocation_id, self.inst_wrapper.instances[0]["InstanceId"]
            )
            time.sleep(2)
            bar()

        console.print(f"- **Associated Elastic IP with Your Instance**.")
        console.print(
            "You can now use SSH to connect to your instance by using the Elastic IP."
        )
        self._display_ssh_info()

    def stop_and_start_instance(self) -> None:
        """
        Stops and restarts the EC2 instance. Displays instance state and explains
        changes that occur when the instance is restarted, such as the potential change
        in the public IP address unless an Elastic IP is associated.
        """
        console.print("\n**Step 5: Stop and Start Your Instance**", style="bold cyan")
        console.print("Let's stop and start your instance to see what changes.")
        console.print("- **Stopping your instance and waiting until it's stopped...**")

        with alive_bar(1, title="Stopping Instance") as bar:
            self.inst_wrapper.stop()
            time.sleep(360)
            bar()

        console.print("- **Your instance is stopped. Restarting...**")

        with alive_bar(1, title="Starting Instance") as bar:
            self.inst_wrapper.start()
            time.sleep(20)
            bar()

        console.print("**Your instance is running.**", style="bold green")
        self.inst_wrapper.display()

        elastic_ip = (
            self.eip_wrapper.elastic_ips[0] if self.eip_wrapper.elastic_ips else None
        )

        if elastic_ip is None or elastic_ip.allocation_id is None:
            console.print(
                "- **Note**: Every time your instance is restarted, its public IP address changes."
            )
        else:
            console.print(
                f"Because you have associated an Elastic IP with your instance, you can \n"
                f"connect by using a consistent IP address after the instance restarts: {elastic_ip.public_ip}"
            )

        self._display_ssh_info()

    def cleanup(self) -> None:
        """
        Cleans up all the resources created during the scenario, including disassociating
        and releasing the Elastic IP, terminating the instance, deleting the security
        group, and deleting the key pair.
        """
        console.print("\n**Step 6: Clean Up Resources**", style="bold cyan")
        console.print("Cleaning up resources:")

        for elastic_ip in self.eip_wrapper.elastic_ips:
            console.print(f"- **Elastic IP**: {elastic_ip.public_ip}")

            with alive_bar(1, title="Disassociating Elastic IP") as bar:
                self.eip_wrapper.disassociate(elastic_ip.allocation_id)
                time.sleep(2)
                bar()

            console.print("\t- **Disassociated Elastic IP from the Instance**")

            with alive_bar(1, title="Releasing Elastic IP") as bar:
                self.eip_wrapper.release(elastic_ip.allocation_id)
                time.sleep(1)
                bar()

            console.print("\t- **Released Elastic IP**")

        console.print(f"- **Instance**: {self.inst_wrapper.instances[0]['InstanceId']}")

        with alive_bar(1, title="Terminating Instance") as bar:
            self.inst_wrapper.terminate()
            time.sleep(380)
            bar()

        console.print("\t- **Terminated Instance**")

        console.print(f"- **Security Group**: {self.sg_wrapper.security_group}")

        with alive_bar(1, title="Deleting Security Group") as bar:
            self.sg_wrapper.delete(self.sg_wrapper.security_group)
            time.sleep(1)
            bar()

        console.print("\t- **Deleted Security Group**")

        console.print(f"- **Key Pair**: {self.key_wrapper.key_pair['KeyName']}")

        with alive_bar(1, title="Deleting Key Pair") as bar:
            self.key_wrapper.delete(self.key_wrapper.key_pair["KeyName"])
            time.sleep(0.4)
            bar()

        console.print("\t- **Deleted Key Pair**")

    def run_scenario(self) -> None:
        """
        Executes the entire EC2 instance scenario: creates key pairs, security groups,
        launches an instance, associates an Elastic IP, and cleans up all resources.
        """
        logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

        console.print("-" * 88)
        console.print(
            "Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) get started with instances demo.",
            style="bold magenta",
        )
        console.print("-" * 88)

        self.create_and_list_key_pairs()
        self.create_security_group()
        self.create_instance()
        self.stop_and_start_instance()
        self.associate_elastic_ip()
        self.stop_and_start_instance()
        self.cleanup()

        console.print("\nThanks for watching!", style="bold green")
        console.print("-" * 88)


if __name__ == "__main__":
    try:
        scenario = EC2InstanceScenario(
            EC2InstanceWrapper.from_client(),
            KeyPairWrapper.from_client(),
            SecurityGroupWrapper.from_client(),
            ElasticIpWrapper.from_client(),
            boto3.client("ssm"),
        )
        scenario.run_scenario()
    except Exception:
        logging.exception("Something went wrong with the demo.")
```
Tentukan kelas yang membungkus aksi pasangan kunci.  

```
class KeyPairWrapper:
    """
    Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) key pair actions.
    This class provides methods to create, list, and delete EC2 key pairs.
    """

    def __init__(
        self,
        ec2_client: boto3.client,
        key_file_dir: Union[tempfile.TemporaryDirectory, str],
        key_pair: Optional[dict] = None,
    ):
        """
        Initializes the KeyPairWrapper with the specified EC2 client, key file directory,
        and an optional key pair.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param key_file_dir: The folder where the private key information is stored.
                             This should be a secure folder.
        :param key_pair: A dictionary representing the Boto3 KeyPair object.
                         This is a high-level object that wraps key pair actions. Optional.
        """
        self.ec2_client = ec2_client
        self.key_pair = key_pair
        self.key_file_path: Optional[str] = None
        self.key_file_dir = key_file_dir

    @classmethod
    def from_client(cls) -> "KeyPairWrapper":
        """
        Class method to create an instance of KeyPairWrapper using a new EC2 client
        and a temporary directory for storing key files.

        :return: An instance of KeyPairWrapper.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client, tempfile.TemporaryDirectory())


    def create(self, key_name: str) -> dict:
        """
        Creates a key pair that can be used to securely connect to an EC2 instance.
        The returned key pair contains private key information that cannot be retrieved
        again. The private key data is stored as a .pem file.

        :param key_name: The name of the key pair to create.
        :return: A dictionary representing the Boto3 KeyPair object that represents the newly created key pair.
        :raises ClientError: If there is an error in creating the key pair, for example, if a key pair with the same name already exists.
        """
        try:
            response = self.ec2_client.create_key_pair(KeyName=key_name)
            self.key_pair = response
            self.key_file_path = os.path.join(
                self.key_file_dir.name, f"{self.key_pair['KeyName']}.pem"
            )
            with open(self.key_file_path, "w") as key_file:
                key_file.write(self.key_pair["KeyMaterial"])
        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidKeyPair.Duplicate":
                logger.error(
                    f"A key pair called {key_name} already exists. "
                    "Please choose a different name for your key pair "
                    "or delete the existing key pair before creating."
                )
            raise
        else:
            return self.key_pair


    def list(self, limit: Optional[int] = None) -> None:
        """
        Displays a list of key pairs for the current account.

        WARNING: Results are not paginated.

        :param limit: The maximum number of key pairs to list. If not specified,
                      all key pairs will be listed.
        :raises ClientError: If there is an error in listing the key pairs.
        """
        try:
            response = self.ec2_client.describe_key_pairs()
            key_pairs = response.get("KeyPairs", [])

            if limit:
                key_pairs = key_pairs[:limit]

            for key_pair in key_pairs:
                logger.info(
                    f"Found {key_pair['KeyType']} key '{key_pair['KeyName']}' with fingerprint:"
                )
                logger.info(f"\t{key_pair['KeyFingerprint']}")
        except ClientError as err:
            logger.error(f"Failed to list key pairs: {str(err)}")
            raise


    def delete(self, key_name: str) -> bool:
        """
        Deletes a key pair by its name.

        :param key_name: The name of the key pair to delete.
        :return: A boolean indicating whether the deletion was successful.
        :raises ClientError: If there is an error in deleting the key pair, for example,
                             if the key pair does not exist.
        """
        try:
            self.ec2_client.delete_key_pair(KeyName=key_name)
            logger.info(f"Successfully deleted key pair: {key_name}")
            self.key_pair = None
            return True
        except self.ec2_client.exceptions.ClientError as err:
            logger.error(f"Deletion failed for key pair: {key_name}")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidKeyPair.NotFound":
                logger.error(
                    f"The key pair '{key_name}' does not exist and cannot be deleted. "
                    "Please verify the key pair name and try again."
                )
            raise
```
Menentukan kelas yang menggabungkan tindakan grup keamanan.  

```
class SecurityGroupWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions."""

    def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None):
        """
        Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param security_group: The ID of a security group to manage. This is a high-level identifier
                               that represents the security group.
        """
        self.ec2_client = ec2_client
        self.security_group = security_group

    @classmethod
    def from_client(cls) -> "SecurityGroupWrapper":
        """
        Creates a SecurityGroupWrapper instance with a default EC2 client.

        :return: An instance of SecurityGroupWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def create(self, group_name: str, group_description: str) -> str:
        """
        Creates a security group in the default virtual private cloud (VPC) of the current account.

        :param group_name: The name of the security group to create.
        :param group_description: The description of the security group to create.
        :return: The ID of the newly created security group.
        :raise Handles AWS SDK service-level ClientError, with special handling for ResourceAlreadyExists
        """
        try:
            response = self.ec2_client.create_security_group(
                GroupName=group_name, Description=group_description
            )
            self.security_group = response["GroupId"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExists":
                logger.error(
                    f"Security group '{group_name}' already exists. Please choose a different name."
                )
            raise
        else:
            return self.security_group


    def authorize_ingress(self, ssh_ingress_ip: str) -> Optional[Dict[str, Any]]:
        """
        Adds a rule to the security group to allow access to SSH.

        :param ssh_ingress_ip: The IP address that is granted inbound access to connect
                               to port 22 over TCP, used for SSH.
        :return: The response to the authorization request. The 'Return' field of the
                 response indicates whether the request succeeded or failed, or None if no security group is set.
        :raise Handles AWS SDK service-level ClientError, with special handling for ResourceAlreadyExists
        """
        if self.security_group is None:
            logger.info("No security group to update.")
            return None

        try:
            ip_permissions = [
                {
                    # SSH ingress open to only the specified IP address.
                    "IpProtocol": "tcp",
                    "FromPort": 22,
                    "ToPort": 22,
                    "IpRanges": [{"CidrIp": f"{ssh_ingress_ip}/32"}],
                }
            ]
            response = self.ec2_client.authorize_security_group_ingress(
                GroupId=self.security_group, IpPermissions=ip_permissions
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidPermission.Duplicate":
                logger.error(
                    f"The SSH ingress rule for IP {ssh_ingress_ip} already exists"
                    f"in security group '{self.security_group}'."
                )
            raise
        else:
            return response


    def describe(self, security_group_id: Optional[str] = None) -> bool:
        """
        Displays information about the specified security group or all security groups if no ID is provided.

        :param security_group_id: The ID of the security group to describe.
                                  If None, an open search is performed to describe all security groups.
        :returns: True if the description is successful.
        :raises ClientError: If there is an error describing the security group(s), such as an invalid security group ID.
        """
        try:
            paginator = self.ec2_client.get_paginator("describe_security_groups")

            if security_group_id is None:
                # If no ID is provided, return all security groups.
                page_iterator = paginator.paginate()
            else:
                page_iterator = paginator.paginate(GroupIds=[security_group_id])

            for page in page_iterator:
                for security_group in page["SecurityGroups"]:
                    print(f"Security group: {security_group['GroupName']}")
                    print(f"\tID: {security_group['GroupId']}")
                    print(f"\tVPC: {security_group['VpcId']}")
                    if security_group["IpPermissions"]:
                        print("Inbound permissions:")
                        pp(security_group["IpPermissions"])

            return True
        except ClientError as err:
            logger.error("Failed to describe security group(s).")
            if err.response["Error"]["Code"] == "InvalidGroup.NotFound":
                logger.error(
                    f"Security group {security_group_id} does not exist "
                    f"because the specified security group ID was not found."
                )
            raise


    def delete(self, security_group_id: str) -> bool:
        """
        Deletes the specified security group.

        :param security_group_id: The ID of the security group to delete. Required.

        :returns: True if the deletion is successful.
        :raises ClientError: If the security group cannot be deleted due to an AWS service error.
        """
        try:
            self.ec2_client.delete_security_group(GroupId=security_group_id)
            logger.info(f"Successfully deleted security group '{security_group_id}'")
            return True
        except ClientError as err:
            logger.error(f"Deletion failed for security group '{security_group_id}'")
            error_code = err.response["Error"]["Code"]

            if error_code == "InvalidGroup.NotFound":
                logger.error(
                    f"Security group '{security_group_id}' cannot be deleted because it does not exist."
                )
            elif error_code == "DependencyViolation":
                logger.error(
                    f"Security group '{security_group_id}' cannot be deleted because it is still in use."
                    " Verify that it is:"
                    "\n\t- Detached from resources"
                    "\n\t- Removed from references in other groups"
                    "\n\t- Removed from VPC's as a default group"
                )
            raise
```
Menentukan kelas yang menggabungkan tindakan instans.  

```
class EC2InstanceWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface."""

    def __init__(
        self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None
    ) -> None:
        """
        Initializes the EC2InstanceWrapper with an EC2 client and optional instances.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that
                          wrap instance actions.
        """
        self.ec2_client = ec2_client
        self.instances = instances or []

    @classmethod
    def from_client(cls) -> "EC2InstanceWrapper":
        """
        Creates an EC2InstanceWrapper instance with a default EC2 client.

        :return: An instance of EC2InstanceWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def create(
        self,
        image_id: str,
        instance_type: str,
        key_pair_name: str,
        security_group_ids: Optional[List[str]] = None,
    ) -> List[Dict[str, Any]]:
        """
        Creates a new EC2 instance in the default VPC of the current account.

        The instance starts immediately after it is created.

        :param image_id: The ID of the Amazon Machine Image (AMI) to use for the instance.
        :param instance_type: The type of instance to create, such as 't2.micro'.
        :param key_pair_name: The name of the key pair to use for SSH access.
        :param security_group_ids: A list of security group IDs to associate with the instance.
                                   If not specified, the default security group of the VPC is used.
        :return: A list of dictionaries representing Boto3 Instance objects representing the newly created instances.
        """
        try:
            instance_params = {
                "ImageId": image_id,
                "InstanceType": instance_type,
                "KeyName": key_pair_name,
            }
            if security_group_ids is not None:
                instance_params["SecurityGroupIds"] = security_group_ids

            response = self.ec2_client.run_instances(
                **instance_params, MinCount=1, MaxCount=1
            )
            instance = response["Instances"][0]
            self.instances.append(instance)
            waiter = self.ec2_client.get_waiter("instance_running")
            waiter.wait(InstanceIds=[instance["InstanceId"]])
        except ClientError as err:
            params_str = "\n\t".join(
                f"{key}: {value}" for key, value in instance_params.items()
            )
            logger.error(
                f"Failed to complete instance creation request.\nRequest details:{params_str}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InstanceLimitExceeded":
                logger.error(
                    (
                        f"Insufficient capacity for instance type '{instance_type}'. "
                        "Terminate unused instances or contact AWS Support for a limit increase."
                    )
                )
            if error_code == "InsufficientInstanceCapacity":
                logger.error(
                    (
                        f"Insufficient capacity for instance type '{instance_type}'. "
                        "Select a different instance type or launch in a different availability zone."
                    )
                )
            raise
        return self.instances


    def display(self, state_filter: Optional[str] = "running") -> None:
        """
        Displays information about instances, filtering by the specified state.

        :param state_filter: The instance state to include in the output. Only instances in this state
                             will be displayed. Default is 'running'. Example states: 'running', 'stopped'.
        """
        if not self.instances:
            logger.info("No instances to display.")
            return

        instance_ids = [instance["InstanceId"] for instance in self.instances]
        paginator = self.ec2_client.get_paginator("describe_instances")
        page_iterator = paginator.paginate(InstanceIds=instance_ids)

        try:
            for page in page_iterator:
                for reservation in page["Reservations"]:
                    for instance in reservation["Instances"]:
                        instance_state = instance["State"]["Name"]

                        # Apply the state filter (default is 'running')
                        if state_filter and instance_state != state_filter:
                            continue  # Skip this instance if it doesn't match the filter

                        # Create a formatted string with instance details
                        instance_info = (
                            f"• ID: {instance['InstanceId']}\n"
                            f"• Image ID: {instance['ImageId']}\n"
                            f"• Instance type: {instance['InstanceType']}\n"
                            f"• Key name: {instance['KeyName']}\n"
                            f"• VPC ID: {instance['VpcId']}\n"
                            f"• Public IP: {instance.get('PublicIpAddress', 'N/A')}\n"
                            f"• State: {instance_state}"
                        )
                        print(instance_info)

        except ClientError as err:
            logger.error(
                f"Failed to display instance(s). : {' '.join(map(str, instance_ids))}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                logger.error(
                    "One or more instance IDs do not exist. "
                    "Please verify the instance IDs and try again."
                )
                raise


    def terminate(self) -> None:
        """
        Terminates instances and waits for them to reach the terminated state.
        """
        if not self.instances:
            logger.info("No instances to terminate.")
            return

        instance_ids = [instance["InstanceId"] for instance in self.instances]
        try:
            self.ec2_client.terminate_instances(InstanceIds=instance_ids)
            waiter = self.ec2_client.get_waiter("instance_terminated")
            waiter.wait(InstanceIds=instance_ids)
            self.instances.clear()
            for instance_id in instance_ids:
                print(f"• Instance ID: {instance_id}\n" f"• Action: Terminated")

        except ClientError as err:
            logger.error(
                f"Failed instance termination details:\n\t{str(self.instances)}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                logger.error(
                    "One or more instance IDs do not exist. "
                    "Please verify the instance IDs and try again."
                )
            raise


    def start(self) -> Optional[Dict[str, Any]]:
        """
        Starts instances and waits for them to be in a running state.

        :return: The response to the start request.
        """
        if not self.instances:
            logger.info("No instances to start.")
            return None

        instance_ids = [instance["InstanceId"] for instance in self.instances]
        try:
            start_response = self.ec2_client.start_instances(InstanceIds=instance_ids)
            waiter = self.ec2_client.get_waiter("instance_running")
            waiter.wait(InstanceIds=instance_ids)
            return start_response
        except ClientError as err:
            logger.error(
                f"Failed to start instance(s): {','.join(map(str, instance_ids))}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "IncorrectInstanceState":
                logger.error(
                    "Couldn't start instance(s) because they are in an incorrect state. "
                    "Ensure the instances are in a stopped state before starting them."
                )
            raise


    def stop(self) -> Optional[Dict[str, Any]]:
        """
        Stops instances and waits for them to be in a stopped state.

        :return: The response to the stop request, or None if there are no instances to stop.
        """
        if not self.instances:
            logger.info("No instances to stop.")
            return None

        instance_ids = [instance["InstanceId"] for instance in self.instances]
        try:
            # Attempt to stop the instances
            stop_response = self.ec2_client.stop_instances(InstanceIds=instance_ids)
            waiter = self.ec2_client.get_waiter("instance_stopped")
            waiter.wait(InstanceIds=instance_ids)
        except ClientError as err:
            logger.error(
                f"Failed to stop instance(s): {','.join(map(str, instance_ids))}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "IncorrectInstanceState":
                logger.error(
                    "Couldn't stop instance(s) because they are in an incorrect state. "
                    "Ensure the instances are in a running state before stopping them."
                )
            raise
        return stop_response


    def get_images(self, image_ids: List[str]) -> List[Dict[str, Any]]:
        """
        Gets information about Amazon Machine Images (AMIs) from a list of AMI IDs.

        :param image_ids: The list of AMI IDs to look up.
        :return: A list of dictionaries representing the requested AMIs.
        """
        try:
            response = self.ec2_client.describe_images(ImageIds=image_ids)
            images = response["Images"]
        except ClientError as err:
            logger.error(f"Failed to stop AMI(s): {','.join(map(str, image_ids))}")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidAMIID.NotFound":
                logger.error("One or more of the AMI IDs does not exist.")
            raise
        return images


    def get_instance_types(
        self, architecture: str = "x86_64", sizes: List[str] = ["*.micro", "*.small"]
    ) -> List[Dict[str, Any]]:
        """
        Gets instance types that support the specified architecture and size.
        See https://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_DescribeInstanceTypes.html
        for a list of allowable parameters.

        :param architecture: The architecture supported by instance types. Default: 'x86_64'.
        :param sizes: The size of instance types. Default: '*.micro', '*.small',
        :return: A list of dictionaries representing instance types that support the specified architecture and size.
        """
        try:
            inst_types = []
            paginator = self.ec2_client.get_paginator("describe_instance_types")
            for page in paginator.paginate(
                Filters=[
                    {
                        "Name": "processor-info.supported-architecture",
                        "Values": [architecture],
                    },
                    {"Name": "instance-type", "Values": sizes},
                ]
            ):
                inst_types += page["InstanceTypes"]
        except ClientError as err:
            logger.error(
                f"Failed to get instance types: {architecture}, {','.join(map(str, sizes))}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidParameterValue":
                logger.error(
                    "Parameters are invalid. "
                    "Ensure architecture and size strings conform to DescribeInstanceTypes API reference."
                )
            raise
        else:
            return inst_types
```
Menentukan kelas yang menggabungkan tindakan IP Elastis.  

```
class ElasticIpWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface."""

    class ElasticIp:
        """Represents an Elastic IP and its associated instance."""

        def __init__(
            self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None
        ) -> None:
            """
            Initializes the ElasticIp object.

            :param allocation_id: The allocation ID of the Elastic IP.
            :param public_ip: The public IP address of the Elastic IP.
            :param instance_id: The ID of the associated EC2 instance, if any.
            """
            self.allocation_id = allocation_id
            self.public_ip = public_ip
            self.instance_id = instance_id

    def __init__(self, ec2_client: Any) -> None:
        """
        Initializes the ElasticIpWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client
        self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = []

    @classmethod
    def from_client(cls) -> "ElasticIpWrapper":
        """
        Creates an ElasticIpWrapper instance with a default EC2 client.

        :return: An instance of ElasticIpWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def allocate(self) -> "ElasticIpWrapper.ElasticIp":
        """
        Allocates an Elastic IP address that can be associated with an Amazon EC2
        instance. By using an Elastic IP address, you can keep the public IP address
        constant even when you restart the associated instance.

        :return: The ElasticIp object for the newly created Elastic IP address.
        :raises ClientError: If the allocation fails, such as reaching the maximum limit of Elastic IPs.
        """
        try:
            response = self.ec2_client.allocate_address(Domain="vpc")
            elastic_ip = self.ElasticIp(
                allocation_id=response["AllocationId"], public_ip=response["PublicIp"]
            )
            self.elastic_ips.append(elastic_ip)
        except ClientError as err:
            if err.response["Error"]["Code"] == "AddressLimitExceeded":
                logger.error(
                    "Max IP's reached. Release unused addresses or contact AWS Support for an increase."
                )
            raise err
        return elastic_ip


    def associate(
        self, allocation_id: str, instance_id: str
    ) -> Union[Dict[str, Any], None]:
        """
        Associates an Elastic IP address with an instance. When this association is
        created, the Elastic IP's public IP address is immediately used as the public
        IP address of the associated instance.

        :param allocation_id: The allocation ID of the Elastic IP.
        :param instance_id: The ID of the Amazon EC2 instance.
        :return: A response that contains the ID of the association, or None if no Elastic IP is found.
        :raises ClientError: If the association fails, such as when the instance ID is not found.
        """
        elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id)
        if elastic_ip is None:
            logger.info(f"No Elastic IP found with allocation ID {allocation_id}.")
            return None

        try:
            response = self.ec2_client.associate_address(
                AllocationId=allocation_id, InstanceId=instance_id
            )
            elastic_ip.instance_id = (
                instance_id  # Track the instance associated with this Elastic IP.
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidInstanceID.NotFound":
                logger.error(
                    f"Failed to associate Elastic IP {allocation_id} with {instance_id} "
                    "because the specified instance ID does not exist or has not propagated fully. "
                    "Verify the instance ID and try again, or wait a few moments before attempting to "
                    "associate the Elastic IP address."
                )
            raise
        return response


    def disassociate(self, allocation_id: str) -> None:
        """
        Removes an association between an Elastic IP address and an instance. When the
        association is removed, the instance is assigned a new public IP address.

        :param allocation_id: The allocation ID of the Elastic IP to disassociate.
        :raises ClientError: If the disassociation fails, such as when the association ID is not found.
        """
        elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id)
        if elastic_ip is None or elastic_ip.instance_id is None:
            logger.info(
                f"No association found for Elastic IP with allocation ID {allocation_id}."
            )
            return

        try:
            # Retrieve the association ID before disassociating
            response = self.ec2_client.describe_addresses(AllocationIds=[allocation_id])
            association_id = response["Addresses"][0].get("AssociationId")

            if association_id:
                self.ec2_client.disassociate_address(AssociationId=association_id)
                elastic_ip.instance_id = None  # Remove the instance association
            else:
                logger.info(
                    f"No Association ID found for Elastic IP with allocation ID {allocation_id}."
                )

        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidAssociationID.NotFound":
                logger.error(
                    f"Failed to disassociate Elastic IP {allocation_id} "
                    "because the specified association ID for the Elastic IP address was not found. "
                    "Verify the association ID and ensure the Elastic IP is currently associated with a "
                    "resource before attempting to disassociate it."
                )
            raise


    def release(self, allocation_id: str) -> None:
        """
        Releases an Elastic IP address. After the Elastic IP address is released,
        it can no longer be used.

        :param allocation_id: The allocation ID of the Elastic IP to release.
        :raises ClientError: If the release fails, such as when the Elastic IP address is not found.
        """
        elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id)
        if elastic_ip is None:
            logger.info(f"No Elastic IP found with allocation ID {allocation_id}.")
            return

        try:
            self.ec2_client.release_address(AllocationId=allocation_id)
            self.elastic_ips.remove(elastic_ip)  # Remove the Elastic IP from the list
        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidAddress.NotFound":
                logger.error(
                    f"Failed to release Elastic IP address {allocation_id} "
                    "because it could not be found. Verify the Elastic IP address "
                    "and ensure it is allocated to your account in the correct region "
                    "before attempting to release it."
                )
            raise


    @staticmethod
    def get_elastic_ip_by_allocation(
        elastic_ips: List["ElasticIpWrapper.ElasticIp"], allocation_id: str
    ) -> Optional["ElasticIpWrapper.ElasticIp"]:
        """
        Retrieves an Elastic IP object by its allocation ID from a given list of Elastic IPs.

        :param elastic_ips: A list of ElasticIp objects.
        :param allocation_id: The allocation ID of the Elastic IP to retrieve.
        :return: The ElasticIp object associated with the allocation ID, or None if not found.
        """
        return next(
            (ip for ip in elastic_ips if ip.allocation_id == allocation_id), None
        )
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Python (Boto3)*.
  + [AllocateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AllocateAddress)
  + [AssociateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AssociateAddress)
  + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AuthorizeSecurityGroupIngress)
  + [CreateKeyPair](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateKeyPair)
  + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateSecurityGroup)
  + [DeleteKeyPair](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteKeyPair)
  + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteSecurityGroup)
  + [DescribeImages](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeImages)
  + [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstanceTypes)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstances)
  + [DescribeKeyPairs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeKeyPairs)
  + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSecurityGroups)
  + [DisassociateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DisassociateAddress)
  + [ReleaseAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReleaseAddress)
  + [RunInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RunInstances)
  + [StartInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/StartInstances)
  + [StopInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/StopInstances)
  + [TerminateInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/TerminateInstances)
  + [UnmonitorInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/UnmonitorInstances)

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class ElasticIpWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface."""

    class ElasticIp:
        """Represents an Elastic IP and its associated instance."""

        def __init__(
            self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None
        ) -> None:
            """
            Initializes the ElasticIp object.

            :param allocation_id: The allocation ID of the Elastic IP.
            :param public_ip: The public IP address of the Elastic IP.
            :param instance_id: The ID of the associated EC2 instance, if any.
            """
            self.allocation_id = allocation_id
            self.public_ip = public_ip
            self.instance_id = instance_id

    def __init__(self, ec2_client: Any) -> None:
        """
        Initializes the ElasticIpWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client
        self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = []

    @classmethod
    def from_client(cls) -> "ElasticIpWrapper":
        """
        Creates an ElasticIpWrapper instance with a default EC2 client.

        :return: An instance of ElasticIpWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def allocate(self) -> "ElasticIpWrapper.ElasticIp":
        """
        Allocates an Elastic IP address that can be associated with an Amazon EC2
        instance. By using an Elastic IP address, you can keep the public IP address
        constant even when you restart the associated instance.

        :return: The ElasticIp object for the newly created Elastic IP address.
        :raises ClientError: If the allocation fails, such as reaching the maximum limit of Elastic IPs.
        """
        try:
            response = self.ec2_client.allocate_address(Domain="vpc")
            elastic_ip = self.ElasticIp(
                allocation_id=response["AllocationId"], public_ip=response["PublicIp"]
            )
            self.elastic_ips.append(elastic_ip)
        except ClientError as err:
            if err.response["Error"]["Code"] == "AddressLimitExceeded":
                logger.error(
                    "Max IP's reached. Release unused addresses or contact AWS Support for an increase."
                )
            raise err
        return elastic_ip
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AllocateAddress)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class ElasticIpWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface."""

    class ElasticIp:
        """Represents an Elastic IP and its associated instance."""

        def __init__(
            self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None
        ) -> None:
            """
            Initializes the ElasticIp object.

            :param allocation_id: The allocation ID of the Elastic IP.
            :param public_ip: The public IP address of the Elastic IP.
            :param instance_id: The ID of the associated EC2 instance, if any.
            """
            self.allocation_id = allocation_id
            self.public_ip = public_ip
            self.instance_id = instance_id

    def __init__(self, ec2_client: Any) -> None:
        """
        Initializes the ElasticIpWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client
        self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = []

    @classmethod
    def from_client(cls) -> "ElasticIpWrapper":
        """
        Creates an ElasticIpWrapper instance with a default EC2 client.

        :return: An instance of ElasticIpWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def associate(
        self, allocation_id: str, instance_id: str
    ) -> Union[Dict[str, Any], None]:
        """
        Associates an Elastic IP address with an instance. When this association is
        created, the Elastic IP's public IP address is immediately used as the public
        IP address of the associated instance.

        :param allocation_id: The allocation ID of the Elastic IP.
        :param instance_id: The ID of the Amazon EC2 instance.
        :return: A response that contains the ID of the association, or None if no Elastic IP is found.
        :raises ClientError: If the association fails, such as when the instance ID is not found.
        """
        elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id)
        if elastic_ip is None:
            logger.info(f"No Elastic IP found with allocation ID {allocation_id}.")
            return None

        try:
            response = self.ec2_client.associate_address(
                AllocationId=allocation_id, InstanceId=instance_id
            )
            elastic_ip.instance_id = (
                instance_id  # Track the instance associated with this Elastic IP.
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidInstanceID.NotFound":
                logger.error(
                    f"Failed to associate Elastic IP {allocation_id} with {instance_id} "
                    "because the specified instance ID does not exist or has not propagated fully. "
                    "Verify the instance ID and try again, or wait a few moments before attempting to "
                    "associate the Elastic IP address."
                )
            raise
        return response
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AssociateAddress)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class SecurityGroupWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions."""

    def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None):
        """
        Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param security_group: The ID of a security group to manage. This is a high-level identifier
                               that represents the security group.
        """
        self.ec2_client = ec2_client
        self.security_group = security_group

    @classmethod
    def from_client(cls) -> "SecurityGroupWrapper":
        """
        Creates a SecurityGroupWrapper instance with a default EC2 client.

        :return: An instance of SecurityGroupWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def authorize_ingress(self, ssh_ingress_ip: str) -> Optional[Dict[str, Any]]:
        """
        Adds a rule to the security group to allow access to SSH.

        :param ssh_ingress_ip: The IP address that is granted inbound access to connect
                               to port 22 over TCP, used for SSH.
        :return: The response to the authorization request. The 'Return' field of the
                 response indicates whether the request succeeded or failed, or None if no security group is set.
        :raise Handles AWS SDK service-level ClientError, with special handling for ResourceAlreadyExists
        """
        if self.security_group is None:
            logger.info("No security group to update.")
            return None

        try:
            ip_permissions = [
                {
                    # SSH ingress open to only the specified IP address.
                    "IpProtocol": "tcp",
                    "FromPort": 22,
                    "ToPort": 22,
                    "IpRanges": [{"CidrIp": f"{ssh_ingress_ip}/32"}],
                }
            ]
            response = self.ec2_client.authorize_security_group_ingress(
                GroupId=self.security_group, IpPermissions=ip_permissions
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidPermission.Duplicate":
                logger.error(
                    f"The SSH ingress rule for IP {ssh_ingress_ip} already exists"
                    f"in security group '{self.security_group}'."
                )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AuthorizeSecurityGroupIngress)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class KeyPairWrapper:
    """
    Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) key pair actions.
    This class provides methods to create, list, and delete EC2 key pairs.
    """

    def __init__(
        self,
        ec2_client: boto3.client,
        key_file_dir: Union[tempfile.TemporaryDirectory, str],
        key_pair: Optional[dict] = None,
    ):
        """
        Initializes the KeyPairWrapper with the specified EC2 client, key file directory,
        and an optional key pair.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param key_file_dir: The folder where the private key information is stored.
                             This should be a secure folder.
        :param key_pair: A dictionary representing the Boto3 KeyPair object.
                         This is a high-level object that wraps key pair actions. Optional.
        """
        self.ec2_client = ec2_client
        self.key_pair = key_pair
        self.key_file_path: Optional[str] = None
        self.key_file_dir = key_file_dir

    @classmethod
    def from_client(cls) -> "KeyPairWrapper":
        """
        Class method to create an instance of KeyPairWrapper using a new EC2 client
        and a temporary directory for storing key files.

        :return: An instance of KeyPairWrapper.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client, tempfile.TemporaryDirectory())


    def create(self, key_name: str) -> dict:
        """
        Creates a key pair that can be used to securely connect to an EC2 instance.
        The returned key pair contains private key information that cannot be retrieved
        again. The private key data is stored as a .pem file.

        :param key_name: The name of the key pair to create.
        :return: A dictionary representing the Boto3 KeyPair object that represents the newly created key pair.
        :raises ClientError: If there is an error in creating the key pair, for example, if a key pair with the same name already exists.
        """
        try:
            response = self.ec2_client.create_key_pair(KeyName=key_name)
            self.key_pair = response
            self.key_file_path = os.path.join(
                self.key_file_dir.name, f"{self.key_pair['KeyName']}.pem"
            )
            with open(self.key_file_path, "w") as key_file:
                key_file.write(self.key_pair["KeyMaterial"])
        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidKeyPair.Duplicate":
                logger.error(
                    f"A key pair called {key_name} already exists. "
                    "Please choose a different name for your key pair "
                    "or delete the existing key pair before creating."
                )
            raise
        else:
            return self.key_pair
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateKeyPair)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateLaunchTemplate`
<a name="ec2_CreateLaunchTemplate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLaunchTemplate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 
Contoh ini membuat templat peluncuran yang menyertakan profil instans yang memberikan izin khusus ke instans, dan skrip Bash data pengguna yang berjalan pada instans tersebut setelah dimulai.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def create_template(
        self, server_startup_script_file: str, instance_policy_file: str
    ) -> Dict[str, Any]:
        """
        Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling. The
        launch template specifies a Bash script in its user data field that runs after
        the instance is started. This script installs Python packages and starts a
        Python web server on the instance.

        :param server_startup_script_file: The path to a Bash script file that is run
                                           when an instance starts.
        :param instance_policy_file: The path to a file that defines a permissions policy
                                     to create and attach to the instance profile.
        :return: Information about the newly created template.
        """
        template = {}
        try:
            # Create key pair and instance profile
            self.create_key_pair(self.key_pair_name)
            self.create_instance_profile(
                instance_policy_file,
                self.instance_policy_name,
                self.instance_role_name,
                self.instance_profile_name,
            )

            # Read the startup script
            with open(server_startup_script_file) as file:
                start_server_script = file.read()

            # Get the latest AMI ID
            ami_latest = self.ssm_client.get_parameter(Name=self.ami_param)
            ami_id = ami_latest["Parameter"]["Value"]

            # Create the launch template
            lt_response = self.ec2_client.create_launch_template(
                LaunchTemplateName=self.launch_template_name,
                LaunchTemplateData={
                    "InstanceType": self.inst_type,
                    "ImageId": ami_id,
                    "IamInstanceProfile": {"Name": self.instance_profile_name},
                    "UserData": base64.b64encode(
                        start_server_script.encode(encoding="utf-8")
                    ).decode(encoding="utf-8"),
                    "KeyName": self.key_pair_name,
                },
            )
            template = lt_response["LaunchTemplate"]
            log.info(
                f"Created launch template {self.launch_template_name} for AMI {ami_id} on {self.inst_type}."
            )
        except ClientError as err:
            log.error(f"Failed to create launch template {self.launch_template_name}.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidLaunchTemplateName.AlreadyExistsException":
                log.info(
                    f"Launch template {self.launch_template_name} already exists, nothing to do."
                )
            log.error(f"Full error:\n\t{err}")
        return template
```
+  Untuk detail API, lihat [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateLaunchTemplate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class SecurityGroupWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions."""

    def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None):
        """
        Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param security_group: The ID of a security group to manage. This is a high-level identifier
                               that represents the security group.
        """
        self.ec2_client = ec2_client
        self.security_group = security_group

    @classmethod
    def from_client(cls) -> "SecurityGroupWrapper":
        """
        Creates a SecurityGroupWrapper instance with a default EC2 client.

        :return: An instance of SecurityGroupWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def create(self, group_name: str, group_description: str) -> str:
        """
        Creates a security group in the default virtual private cloud (VPC) of the current account.

        :param group_name: The name of the security group to create.
        :param group_description: The description of the security group to create.
        :return: The ID of the newly created security group.
        :raise Handles AWS SDK service-level ClientError, with special handling for ResourceAlreadyExists
        """
        try:
            response = self.ec2_client.create_security_group(
                GroupName=group_name, Description=group_description
            )
            self.security_group = response["GroupId"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExists":
                logger.error(
                    f"Security group '{group_name}' already exists. Please choose a different name."
                )
            raise
        else:
            return self.security_group
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateSecurityGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateVpc`
<a name="ec2_CreateVpc_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVpc`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class VpcWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions."""

    def __init__(self, ec2_client: boto3.client):
        """
        Initializes the VpcWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client

    @classmethod
    def from_client(cls) -> "VpcWrapper":
        """
        Creates a VpcWrapper instance with a default EC2 client.

        :return: An instance of VpcWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def create(self, cidr_block: str) -> str:
        """
        Creates a new Amazon VPC with the specified CIDR block.

        :param cidr_block: The CIDR block for the new VPC, such as '10.0.0.0/16'.
        :return: The ID of the new VPC.
        """
        try:
            response = self.ec2_client.create_vpc(CidrBlock=cidr_block)
            vpc_id = response["Vpc"]["VpcId"]

            waiter = self.ec2_client.get_waiter("vpc_available")
            waiter.wait(VpcIds=[vpc_id])
            return vpc_id
        except ClientError as client_error:
            logging.error(
                "Couldn't create the vpc. Here's why: %s",
                client_error.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateVpc](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateVpc)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateVpcEndpoint`
<a name="ec2_CreateVpcEndpoint_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVpcEndpoint`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class VpcWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions."""

    def __init__(self, ec2_client: boto3.client):
        """
        Initializes the VpcWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client

    @classmethod
    def from_client(cls) -> "VpcWrapper":
        """
        Creates a VpcWrapper instance with a default EC2 client.

        :return: An instance of VpcWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def create_vpc_endpoint(
        self, vpc_id: str, service_name: str, route_table_ids: list[str]
    ) -> Dict[str, Any]:
        """
        Creates a new VPC endpoint for the specified service and associates it with the specified route tables.

        :param vpc_id: The ID of the VPC to create the endpoint in.
        :param service_name: The name of the service to create the endpoint for.
        :param route_table_ids: A list of IDs of the route tables to associate with the endpoint.
        :return: A dictionary representing the newly created VPC endpoint.
        """
        try:
            response = self.ec2_client.create_vpc_endpoint(
                VpcId=vpc_id,
                ServiceName=service_name,
                RouteTableIds=route_table_ids,
            )
            return response["VpcEndpoint"]
        except ClientError as err:
            logger.error(
                "Couldn't create VPC endpoint for service %s. Here's why: %s: %s",
                service_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateVpcEndpoint](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateVpcEndpoint)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class KeyPairWrapper:
    """
    Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) key pair actions.
    This class provides methods to create, list, and delete EC2 key pairs.
    """

    def __init__(
        self,
        ec2_client: boto3.client,
        key_file_dir: Union[tempfile.TemporaryDirectory, str],
        key_pair: Optional[dict] = None,
    ):
        """
        Initializes the KeyPairWrapper with the specified EC2 client, key file directory,
        and an optional key pair.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param key_file_dir: The folder where the private key information is stored.
                             This should be a secure folder.
        :param key_pair: A dictionary representing the Boto3 KeyPair object.
                         This is a high-level object that wraps key pair actions. Optional.
        """
        self.ec2_client = ec2_client
        self.key_pair = key_pair
        self.key_file_path: Optional[str] = None
        self.key_file_dir = key_file_dir

    @classmethod
    def from_client(cls) -> "KeyPairWrapper":
        """
        Class method to create an instance of KeyPairWrapper using a new EC2 client
        and a temporary directory for storing key files.

        :return: An instance of KeyPairWrapper.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client, tempfile.TemporaryDirectory())


    def delete(self, key_name: str) -> bool:
        """
        Deletes a key pair by its name.

        :param key_name: The name of the key pair to delete.
        :return: A boolean indicating whether the deletion was successful.
        :raises ClientError: If there is an error in deleting the key pair, for example,
                             if the key pair does not exist.
        """
        try:
            self.ec2_client.delete_key_pair(KeyName=key_name)
            logger.info(f"Successfully deleted key pair: {key_name}")
            self.key_pair = None
            return True
        except self.ec2_client.exceptions.ClientError as err:
            logger.error(f"Deletion failed for key pair: {key_name}")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidKeyPair.NotFound":
                logger.error(
                    f"The key pair '{key_name}' does not exist and cannot be deleted. "
                    "Please verify the key pair name and try again."
                )
            raise
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteKeyPair)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteLaunchTemplate`
<a name="ec2_DeleteLaunchTemplate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLaunchTemplate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def delete_template(self):
        """
        Deletes a launch template.
        """
        try:
            self.ec2_client.delete_launch_template(
                LaunchTemplateName=self.launch_template_name
            )
            self.delete_instance_profile(
                self.instance_profile_name, self.instance_role_name
            )
            log.info("Launch template %s deleted.", self.launch_template_name)
        except ClientError as err:
            if (
                err.response["Error"]["Code"]
                == "InvalidLaunchTemplateName.NotFoundException"
            ):
                log.info(
                    "Launch template %s does not exist, nothing to do.",
                    self.launch_template_name,
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteLaunchTemplate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class SecurityGroupWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions."""

    def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None):
        """
        Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param security_group: The ID of a security group to manage. This is a high-level identifier
                               that represents the security group.
        """
        self.ec2_client = ec2_client
        self.security_group = security_group

    @classmethod
    def from_client(cls) -> "SecurityGroupWrapper":
        """
        Creates a SecurityGroupWrapper instance with a default EC2 client.

        :return: An instance of SecurityGroupWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def delete(self, security_group_id: str) -> bool:
        """
        Deletes the specified security group.

        :param security_group_id: The ID of the security group to delete. Required.

        :returns: True if the deletion is successful.
        :raises ClientError: If the security group cannot be deleted due to an AWS service error.
        """
        try:
            self.ec2_client.delete_security_group(GroupId=security_group_id)
            logger.info(f"Successfully deleted security group '{security_group_id}'")
            return True
        except ClientError as err:
            logger.error(f"Deletion failed for security group '{security_group_id}'")
            error_code = err.response["Error"]["Code"]

            if error_code == "InvalidGroup.NotFound":
                logger.error(
                    f"Security group '{security_group_id}' cannot be deleted because it does not exist."
                )
            elif error_code == "DependencyViolation":
                logger.error(
                    f"Security group '{security_group_id}' cannot be deleted because it is still in use."
                    " Verify that it is:"
                    "\n\t- Detached from resources"
                    "\n\t- Removed from references in other groups"
                    "\n\t- Removed from VPC's as a default group"
                )
            raise
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteSecurityGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteVpc`
<a name="ec2_DeleteVpc_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVpc`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class VpcWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions."""

    def __init__(self, ec2_client: boto3.client):
        """
        Initializes the VpcWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client

    @classmethod
    def from_client(cls) -> "VpcWrapper":
        """
        Creates a VpcWrapper instance with a default EC2 client.

        :return: An instance of VpcWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def delete(self, vpc_id: str) -> None:
        """
        Deletes the specified VPC.

        :param vpc_id: The ID of the VPC to delete.
        """
        try:
            self.ec2_client.delete_vpc(VpcId=vpc_id)
        except ClientError as err:
            logger.error(
                "Couldn't delete VPC %s. Here's why: %s: %s",
                vpc_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteVpc](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteVpc)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteVpcEndpoints`
<a name="ec2_DeleteVpcEndpoints_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVpcEndpoints`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class VpcWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions."""

    def __init__(self, ec2_client: boto3.client):
        """
        Initializes the VpcWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client

    @classmethod
    def from_client(cls) -> "VpcWrapper":
        """
        Creates a VpcWrapper instance with a default EC2 client.

        :return: An instance of VpcWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def delete_vpc_endpoints(self, vpc_endpoint_ids: list[str]) -> None:
        """
        Deletes the specified VPC endpoints.

        :param vpc_endpoint_ids: A list of IDs of the VPC endpoints to delete.
        """
        try:
            self.ec2_client.delete_vpc_endpoints(VpcEndpointIds=vpc_endpoint_ids)
        except ClientError as err:
            logger.error(
                "Couldn't delete VPC endpoints %s. Here's why: %s: %s",
                vpc_endpoint_ids,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteVpcEndpoints](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteVpcEndpoints)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeAvailabilityZones`
<a name="ec2_DescribeAvailabilityZones_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAvailabilityZones`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def get_availability_zones(self) -> List[str]:
        """
        Gets a list of Availability Zones in the AWS Region of the Amazon EC2 client.

        :return: The list of Availability Zones for the client Region.
        """
        try:
            response = self.ec2_client.describe_availability_zones()
            zones = [zone["ZoneName"] for zone in response["AvailabilityZones"]]
            log.info(f"Retrieved {len(zones)} availability zones: {zones}.")
        except ClientError as err:
            log.error("Failed to retrieve availability zones.")
            log.error(f"Full error:\n\t{err}")
        else:
            return zones
```
+  Untuk detail API, lihat [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeAvailabilityZones)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeIamInstanceProfileAssociations`
<a name="ec2_DescribeIamInstanceProfileAssociations_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeIamInstanceProfileAssociations`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def get_instance_profile(self, instance_id: str) -> Dict[str, Any]:
        """
        Gets data about the profile associated with an instance.

        :param instance_id: The ID of the instance to look up.
        :return: The profile data.
        """
        try:
            response = self.ec2_client.describe_iam_instance_profile_associations(
                Filters=[{"Name": "instance-id", "Values": [instance_id]}]
            )
            if not response["IamInstanceProfileAssociations"]:
                log.info(f"No instance profile found for instance {instance_id}.")
            profile_data = response["IamInstanceProfileAssociations"][0]
            log.info(f"Retrieved instance profile for instance {instance_id}.")
            return profile_data
        except ClientError as err:
            log.error(
                f"Failed to retrieve instance profile for instance {instance_id}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                log.error(f"The instance ID '{instance_id}' does not exist.")
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeImages`
<a name="ec2_DescribeImages_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class EC2InstanceWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface."""

    def __init__(
        self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None
    ) -> None:
        """
        Initializes the EC2InstanceWrapper with an EC2 client and optional instances.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that
                          wrap instance actions.
        """
        self.ec2_client = ec2_client
        self.instances = instances or []

    @classmethod
    def from_client(cls) -> "EC2InstanceWrapper":
        """
        Creates an EC2InstanceWrapper instance with a default EC2 client.

        :return: An instance of EC2InstanceWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def get_images(self, image_ids: List[str]) -> List[Dict[str, Any]]:
        """
        Gets information about Amazon Machine Images (AMIs) from a list of AMI IDs.

        :param image_ids: The list of AMI IDs to look up.
        :return: A list of dictionaries representing the requested AMIs.
        """
        try:
            response = self.ec2_client.describe_images(ImageIds=image_ids)
            images = response["Images"]
        except ClientError as err:
            logger.error(f"Failed to stop AMI(s): {','.join(map(str, image_ids))}")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidAMIID.NotFound":
                logger.error("One or more of the AMI IDs does not exist.")
            raise
        return images
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeImages)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class EC2InstanceWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface."""

    def __init__(
        self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None
    ) -> None:
        """
        Initializes the EC2InstanceWrapper with an EC2 client and optional instances.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that
                          wrap instance actions.
        """
        self.ec2_client = ec2_client
        self.instances = instances or []

    @classmethod
    def from_client(cls) -> "EC2InstanceWrapper":
        """
        Creates an EC2InstanceWrapper instance with a default EC2 client.

        :return: An instance of EC2InstanceWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def get_instance_types(
        self, architecture: str = "x86_64", sizes: List[str] = ["*.micro", "*.small"]
    ) -> List[Dict[str, Any]]:
        """
        Gets instance types that support the specified architecture and size.
        See https://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_DescribeInstanceTypes.html
        for a list of allowable parameters.

        :param architecture: The architecture supported by instance types. Default: 'x86_64'.
        :param sizes: The size of instance types. Default: '*.micro', '*.small',
        :return: A list of dictionaries representing instance types that support the specified architecture and size.
        """
        try:
            inst_types = []
            paginator = self.ec2_client.get_paginator("describe_instance_types")
            for page in paginator.paginate(
                Filters=[
                    {
                        "Name": "processor-info.supported-architecture",
                        "Values": [architecture],
                    },
                    {"Name": "instance-type", "Values": sizes},
                ]
            ):
                inst_types += page["InstanceTypes"]
        except ClientError as err:
            logger.error(
                f"Failed to get instance types: {architecture}, {','.join(map(str, sizes))}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidParameterValue":
                logger.error(
                    "Parameters are invalid. "
                    "Ensure architecture and size strings conform to DescribeInstanceTypes API reference."
                )
            raise
        else:
            return inst_types
```
+  Untuk detail API, lihat [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstanceTypes)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class EC2InstanceWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface."""

    def __init__(
        self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None
    ) -> None:
        """
        Initializes the EC2InstanceWrapper with an EC2 client and optional instances.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that
                          wrap instance actions.
        """
        self.ec2_client = ec2_client
        self.instances = instances or []

    @classmethod
    def from_client(cls) -> "EC2InstanceWrapper":
        """
        Creates an EC2InstanceWrapper instance with a default EC2 client.

        :return: An instance of EC2InstanceWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def display(self, state_filter: Optional[str] = "running") -> None:
        """
        Displays information about instances, filtering by the specified state.

        :param state_filter: The instance state to include in the output. Only instances in this state
                             will be displayed. Default is 'running'. Example states: 'running', 'stopped'.
        """
        if not self.instances:
            logger.info("No instances to display.")
            return

        instance_ids = [instance["InstanceId"] for instance in self.instances]
        paginator = self.ec2_client.get_paginator("describe_instances")
        page_iterator = paginator.paginate(InstanceIds=instance_ids)

        try:
            for page in page_iterator:
                for reservation in page["Reservations"]:
                    for instance in reservation["Instances"]:
                        instance_state = instance["State"]["Name"]

                        # Apply the state filter (default is 'running')
                        if state_filter and instance_state != state_filter:
                            continue  # Skip this instance if it doesn't match the filter

                        # Create a formatted string with instance details
                        instance_info = (
                            f"• ID: {instance['InstanceId']}\n"
                            f"• Image ID: {instance['ImageId']}\n"
                            f"• Instance type: {instance['InstanceType']}\n"
                            f"• Key name: {instance['KeyName']}\n"
                            f"• VPC ID: {instance['VpcId']}\n"
                            f"• Public IP: {instance.get('PublicIpAddress', 'N/A')}\n"
                            f"• State: {instance_state}"
                        )
                        print(instance_info)

        except ClientError as err:
            logger.error(
                f"Failed to display instance(s). : {' '.join(map(str, instance_ids))}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                logger.error(
                    "One or more instance IDs do not exist. "
                    "Please verify the instance IDs and try again."
                )
                raise
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstances)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class KeyPairWrapper:
    """
    Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) key pair actions.
    This class provides methods to create, list, and delete EC2 key pairs.
    """

    def __init__(
        self,
        ec2_client: boto3.client,
        key_file_dir: Union[tempfile.TemporaryDirectory, str],
        key_pair: Optional[dict] = None,
    ):
        """
        Initializes the KeyPairWrapper with the specified EC2 client, key file directory,
        and an optional key pair.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param key_file_dir: The folder where the private key information is stored.
                             This should be a secure folder.
        :param key_pair: A dictionary representing the Boto3 KeyPair object.
                         This is a high-level object that wraps key pair actions. Optional.
        """
        self.ec2_client = ec2_client
        self.key_pair = key_pair
        self.key_file_path: Optional[str] = None
        self.key_file_dir = key_file_dir

    @classmethod
    def from_client(cls) -> "KeyPairWrapper":
        """
        Class method to create an instance of KeyPairWrapper using a new EC2 client
        and a temporary directory for storing key files.

        :return: An instance of KeyPairWrapper.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client, tempfile.TemporaryDirectory())


    def list(self, limit: Optional[int] = None) -> None:
        """
        Displays a list of key pairs for the current account.

        WARNING: Results are not paginated.

        :param limit: The maximum number of key pairs to list. If not specified,
                      all key pairs will be listed.
        :raises ClientError: If there is an error in listing the key pairs.
        """
        try:
            response = self.ec2_client.describe_key_pairs()
            key_pairs = response.get("KeyPairs", [])

            if limit:
                key_pairs = key_pairs[:limit]

            for key_pair in key_pairs:
                logger.info(
                    f"Found {key_pair['KeyType']} key '{key_pair['KeyName']}' with fingerprint:"
                )
                logger.info(f"\t{key_pair['KeyFingerprint']}")
        except ClientError as err:
            logger.error(f"Failed to list key pairs: {str(err)}")
            raise
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeKeyPairs)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeRouteTables`
<a name="ec2_DescribeRouteTables_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRouteTables`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class VpcWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions."""

    def __init__(self, ec2_client: boto3.client):
        """
        Initializes the VpcWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client

    @classmethod
    def from_client(cls) -> "VpcWrapper":
        """
        Creates a VpcWrapper instance with a default EC2 client.

        :return: An instance of VpcWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def describe_route_tables(self, vpc_ids: list[str]) -> None:
        """
        Displays information about the route tables in the specified VPC.

        :param vpc_ids: A list of VPC IDs.
        """
        try:
            response = self.ec2_client.describe_route_tables(
                Filters=[{"Name": "vpc-id", "Values": vpc_ids}]
            )
            pp(response["RouteTables"])
        except ClientError as err:
            logger.error(
                "Couldn't describe route tables for VPCs %s. Here's why: %s: %s",
                vpc_ids,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DescribeRouteTables](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeRouteTables)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class SecurityGroupWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions."""

    def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None):
        """
        Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param security_group: The ID of a security group to manage. This is a high-level identifier
                               that represents the security group.
        """
        self.ec2_client = ec2_client
        self.security_group = security_group

    @classmethod
    def from_client(cls) -> "SecurityGroupWrapper":
        """
        Creates a SecurityGroupWrapper instance with a default EC2 client.

        :return: An instance of SecurityGroupWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def describe(self, security_group_id: Optional[str] = None) -> bool:
        """
        Displays information about the specified security group or all security groups if no ID is provided.

        :param security_group_id: The ID of the security group to describe.
                                  If None, an open search is performed to describe all security groups.
        :returns: True if the description is successful.
        :raises ClientError: If there is an error describing the security group(s), such as an invalid security group ID.
        """
        try:
            paginator = self.ec2_client.get_paginator("describe_security_groups")

            if security_group_id is None:
                # If no ID is provided, return all security groups.
                page_iterator = paginator.paginate()
            else:
                page_iterator = paginator.paginate(GroupIds=[security_group_id])

            for page in page_iterator:
                for security_group in page["SecurityGroups"]:
                    print(f"Security group: {security_group['GroupName']}")
                    print(f"\tID: {security_group['GroupId']}")
                    print(f"\tVPC: {security_group['VpcId']}")
                    if security_group["IpPermissions"]:
                        print("Inbound permissions:")
                        pp(security_group["IpPermissions"])

            return True
        except ClientError as err:
            logger.error("Failed to describe security group(s).")
            if err.response["Error"]["Code"] == "InvalidGroup.NotFound":
                logger.error(
                    f"Security group {security_group_id} does not exist "
                    f"because the specified security group ID was not found."
                )
            raise
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSecurityGroups)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeSubnets`
<a name="ec2_DescribeSubnets_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSubnets`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def get_subnets(self, vpc_id: str, zones: List[str] = None) -> List[Dict[str, Any]]:
        """
        Gets the default subnets in a VPC for a specified list of Availability Zones.

        :param vpc_id: The ID of the VPC to look up.
        :param zones: The list of Availability Zones to look up.
        :return: The list of subnets found.
        """
        # Ensure that 'zones' is a list, even if None is passed
        if zones is None:
            zones = []
        try:
            paginator = self.ec2_client.get_paginator("describe_subnets")
            page_iterator = paginator.paginate(
                Filters=[
                    {"Name": "vpc-id", "Values": [vpc_id]},
                    {"Name": "availability-zone", "Values": zones},
                    {"Name": "default-for-az", "Values": ["true"]},
                ]
            )

            subnets = []
            for page in page_iterator:
                subnets.extend(page["Subnets"])

            log.info("Found %s subnets for the specified zones.", len(subnets))
            return subnets
        except ClientError as err:
            log.error(
                f"Failed to retrieve subnets for VPC '{vpc_id}' in zones {zones}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    "The specified VPC ID does not exist. "
                    "Please check the VPC ID and try again."
                )
            # Add more error-specific handling as needed
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [DescribeSubnets](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSubnets)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeVpcs`
<a name="ec2_DescribeVpcs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVpcs`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def get_default_vpc(self) -> Dict[str, Any]:
        """
        Gets the default VPC for the account.

        :return: Data about the default VPC.
        """
        try:
            response = self.ec2_client.describe_vpcs(
                Filters=[{"Name": "is-default", "Values": ["true"]}]
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error("Failed to retrieve the default VPC.")
            if error_code == "UnauthorizedOperation":
                log.error(
                    "You do not have the necessary permissions to describe VPCs. "
                    "Ensure that your AWS IAM user or role has the correct permissions."
                )
            elif error_code == "InvalidParameterValue":
                log.error(
                    "One or more parameters are invalid. Check the request parameters."
                )

            log.error(f"Full error:\n\t{err}")
        else:
            if "Vpcs" in response and response["Vpcs"]:
                log.info(f"Retrieved default VPC: {response['Vpcs'][0]['VpcId']}")
                return response["Vpcs"][0]
            else:
                pass
```
+  Untuk detail API, lihat [DescribeVpcs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeVpcs)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DisassociateAddress`
<a name="ec2_DisassociateAddress_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateAddress`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class ElasticIpWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface."""

    class ElasticIp:
        """Represents an Elastic IP and its associated instance."""

        def __init__(
            self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None
        ) -> None:
            """
            Initializes the ElasticIp object.

            :param allocation_id: The allocation ID of the Elastic IP.
            :param public_ip: The public IP address of the Elastic IP.
            :param instance_id: The ID of the associated EC2 instance, if any.
            """
            self.allocation_id = allocation_id
            self.public_ip = public_ip
            self.instance_id = instance_id

    def __init__(self, ec2_client: Any) -> None:
        """
        Initializes the ElasticIpWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client
        self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = []

    @classmethod
    def from_client(cls) -> "ElasticIpWrapper":
        """
        Creates an ElasticIpWrapper instance with a default EC2 client.

        :return: An instance of ElasticIpWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def disassociate(self, allocation_id: str) -> None:
        """
        Removes an association between an Elastic IP address and an instance. When the
        association is removed, the instance is assigned a new public IP address.

        :param allocation_id: The allocation ID of the Elastic IP to disassociate.
        :raises ClientError: If the disassociation fails, such as when the association ID is not found.
        """
        elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id)
        if elastic_ip is None or elastic_ip.instance_id is None:
            logger.info(
                f"No association found for Elastic IP with allocation ID {allocation_id}."
            )
            return

        try:
            # Retrieve the association ID before disassociating
            response = self.ec2_client.describe_addresses(AllocationIds=[allocation_id])
            association_id = response["Addresses"][0].get("AssociationId")

            if association_id:
                self.ec2_client.disassociate_address(AssociationId=association_id)
                elastic_ip.instance_id = None  # Remove the instance association
            else:
                logger.info(
                    f"No Association ID found for Elastic IP with allocation ID {allocation_id}."
                )

        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidAssociationID.NotFound":
                logger.error(
                    f"Failed to disassociate Elastic IP {allocation_id} "
                    "because the specified association ID for the Elastic IP address was not found. "
                    "Verify the association ID and ensure the Elastic IP is currently associated with a "
                    "resource before attempting to disassociate it."
                )
            raise
```
+  Untuk detail API, lihat [DisassociateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DisassociateAddress)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RebootInstances`
<a name="ec2_RebootInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RebootInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def replace_instance_profile(
        self,
        instance_id: str,
        new_instance_profile_name: str,
        profile_association_id: str,
    ) -> None:
        """
        Replaces the profile associated with a running instance. After the profile is
        replaced, the instance is rebooted to ensure that it uses the new profile. When
        the instance is ready, Systems Manager is used to restart the Python web server.

        :param instance_id: The ID of the instance to restart.
        :param new_instance_profile_name: The name of the new profile to associate with
                                          the specified instance.
        :param profile_association_id: The ID of the existing profile association for the
                                       instance.
        """
        try:
            self.ec2_client.replace_iam_instance_profile_association(
                IamInstanceProfile={"Name": new_instance_profile_name},
                AssociationId=profile_association_id,
            )
            log.info(
                "Replaced instance profile for association %s with profile %s.",
                profile_association_id,
                new_instance_profile_name,
            )
            time.sleep(5)

            self.ec2_client.reboot_instances(InstanceIds=[instance_id])
            log.info("Rebooting instance %s.", instance_id)
            waiter = self.ec2_client.get_waiter("instance_running")
            log.info("Waiting for instance %s to be running.", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info("Instance %s is now running.", instance_id)

            self.ssm_client.send_command(
                InstanceIds=[instance_id],
                DocumentName="AWS-RunShellScript",
                Parameters={"commands": ["cd / && sudo python3 server.py 80"]},
            )
            log.info(f"Restarted the Python web server on instance '{instance_id}'.")
        except ClientError as err:
            log.error("Failed to replace instance profile.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidAssociationID.NotFound":
                log.error(
                    f"Association ID '{profile_association_id}' does not exist."
                    "Please check the association ID and try again."
                )
            if error_code == "InvalidInstanceId":
                log.error(
                    f"The specified instance ID '{instance_id}' does not exist or is not available for SSM. "
                    f"Please verify the instance ID and try again."
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [RebootInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RebootInstances)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class ElasticIpWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface."""

    class ElasticIp:
        """Represents an Elastic IP and its associated instance."""

        def __init__(
            self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None
        ) -> None:
            """
            Initializes the ElasticIp object.

            :param allocation_id: The allocation ID of the Elastic IP.
            :param public_ip: The public IP address of the Elastic IP.
            :param instance_id: The ID of the associated EC2 instance, if any.
            """
            self.allocation_id = allocation_id
            self.public_ip = public_ip
            self.instance_id = instance_id

    def __init__(self, ec2_client: Any) -> None:
        """
        Initializes the ElasticIpWrapper with an EC2 client.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        """
        self.ec2_client = ec2_client
        self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = []

    @classmethod
    def from_client(cls) -> "ElasticIpWrapper":
        """
        Creates an ElasticIpWrapper instance with a default EC2 client.

        :return: An instance of ElasticIpWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def release(self, allocation_id: str) -> None:
        """
        Releases an Elastic IP address. After the Elastic IP address is released,
        it can no longer be used.

        :param allocation_id: The allocation ID of the Elastic IP to release.
        :raises ClientError: If the release fails, such as when the Elastic IP address is not found.
        """
        elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id)
        if elastic_ip is None:
            logger.info(f"No Elastic IP found with allocation ID {allocation_id}.")
            return

        try:
            self.ec2_client.release_address(AllocationId=allocation_id)
            self.elastic_ips.remove(elastic_ip)  # Remove the Elastic IP from the list
        except ClientError as err:
            if err.response["Error"]["Code"] == "InvalidAddress.NotFound":
                logger.error(
                    f"Failed to release Elastic IP address {allocation_id} "
                    "because it could not be found. Verify the Elastic IP address "
                    "and ensure it is allocated to your account in the correct region "
                    "before attempting to release it."
                )
            raise
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReleaseAddress)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ReplaceIamInstanceProfileAssociation`
<a name="ec2_ReplaceIamInstanceProfileAssociation_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReplaceIamInstanceProfileAssociation`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 
Contoh ini mengganti profil instans dari instans yang sedang berjalan, menyalakan ulang instans, dan mengirimkan perintah ke instans tersebut setelah dimulai.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def replace_instance_profile(
        self,
        instance_id: str,
        new_instance_profile_name: str,
        profile_association_id: str,
    ) -> None:
        """
        Replaces the profile associated with a running instance. After the profile is
        replaced, the instance is rebooted to ensure that it uses the new profile. When
        the instance is ready, Systems Manager is used to restart the Python web server.

        :param instance_id: The ID of the instance to restart.
        :param new_instance_profile_name: The name of the new profile to associate with
                                          the specified instance.
        :param profile_association_id: The ID of the existing profile association for the
                                       instance.
        """
        try:
            self.ec2_client.replace_iam_instance_profile_association(
                IamInstanceProfile={"Name": new_instance_profile_name},
                AssociationId=profile_association_id,
            )
            log.info(
                "Replaced instance profile for association %s with profile %s.",
                profile_association_id,
                new_instance_profile_name,
            )
            time.sleep(5)

            self.ec2_client.reboot_instances(InstanceIds=[instance_id])
            log.info("Rebooting instance %s.", instance_id)
            waiter = self.ec2_client.get_waiter("instance_running")
            log.info("Waiting for instance %s to be running.", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info("Instance %s is now running.", instance_id)

            self.ssm_client.send_command(
                InstanceIds=[instance_id],
                DocumentName="AWS-RunShellScript",
                Parameters={"commands": ["cd / && sudo python3 server.py 80"]},
            )
            log.info(f"Restarted the Python web server on instance '{instance_id}'.")
        except ClientError as err:
            log.error("Failed to replace instance profile.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidAssociationID.NotFound":
                log.error(
                    f"Association ID '{profile_association_id}' does not exist."
                    "Please check the association ID and try again."
                )
            if error_code == "InvalidInstanceId":
                log.error(
                    f"The specified instance ID '{instance_id}' does not exist or is not available for SSM. "
                    f"Please verify the instance ID and try again."
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RunInstances`
<a name="ec2_RunInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class EC2InstanceWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface."""

    def __init__(
        self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None
    ) -> None:
        """
        Initializes the EC2InstanceWrapper with an EC2 client and optional instances.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that
                          wrap instance actions.
        """
        self.ec2_client = ec2_client
        self.instances = instances or []

    @classmethod
    def from_client(cls) -> "EC2InstanceWrapper":
        """
        Creates an EC2InstanceWrapper instance with a default EC2 client.

        :return: An instance of EC2InstanceWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def create(
        self,
        image_id: str,
        instance_type: str,
        key_pair_name: str,
        security_group_ids: Optional[List[str]] = None,
    ) -> List[Dict[str, Any]]:
        """
        Creates a new EC2 instance in the default VPC of the current account.

        The instance starts immediately after it is created.

        :param image_id: The ID of the Amazon Machine Image (AMI) to use for the instance.
        :param instance_type: The type of instance to create, such as 't2.micro'.
        :param key_pair_name: The name of the key pair to use for SSH access.
        :param security_group_ids: A list of security group IDs to associate with the instance.
                                   If not specified, the default security group of the VPC is used.
        :return: A list of dictionaries representing Boto3 Instance objects representing the newly created instances.
        """
        try:
            instance_params = {
                "ImageId": image_id,
                "InstanceType": instance_type,
                "KeyName": key_pair_name,
            }
            if security_group_ids is not None:
                instance_params["SecurityGroupIds"] = security_group_ids

            response = self.ec2_client.run_instances(
                **instance_params, MinCount=1, MaxCount=1
            )
            instance = response["Instances"][0]
            self.instances.append(instance)
            waiter = self.ec2_client.get_waiter("instance_running")
            waiter.wait(InstanceIds=[instance["InstanceId"]])
        except ClientError as err:
            params_str = "\n\t".join(
                f"{key}: {value}" for key, value in instance_params.items()
            )
            logger.error(
                f"Failed to complete instance creation request.\nRequest details:{params_str}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InstanceLimitExceeded":
                logger.error(
                    (
                        f"Insufficient capacity for instance type '{instance_type}'. "
                        "Terminate unused instances or contact AWS Support for a limit increase."
                    )
                )
            if error_code == "InsufficientInstanceCapacity":
                logger.error(
                    (
                        f"Insufficient capacity for instance type '{instance_type}'. "
                        "Select a different instance type or launch in a different availability zone."
                    )
                )
            raise
        return self.instances
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RunInstances)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartInstances`
<a name="ec2_StartInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class EC2InstanceWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface."""

    def __init__(
        self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None
    ) -> None:
        """
        Initializes the EC2InstanceWrapper with an EC2 client and optional instances.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that
                          wrap instance actions.
        """
        self.ec2_client = ec2_client
        self.instances = instances or []

    @classmethod
    def from_client(cls) -> "EC2InstanceWrapper":
        """
        Creates an EC2InstanceWrapper instance with a default EC2 client.

        :return: An instance of EC2InstanceWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def start(self) -> Optional[Dict[str, Any]]:
        """
        Starts instances and waits for them to be in a running state.

        :return: The response to the start request.
        """
        if not self.instances:
            logger.info("No instances to start.")
            return None

        instance_ids = [instance["InstanceId"] for instance in self.instances]
        try:
            start_response = self.ec2_client.start_instances(InstanceIds=instance_ids)
            waiter = self.ec2_client.get_waiter("instance_running")
            waiter.wait(InstanceIds=instance_ids)
            return start_response
        except ClientError as err:
            logger.error(
                f"Failed to start instance(s): {','.join(map(str, instance_ids))}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "IncorrectInstanceState":
                logger.error(
                    "Couldn't start instance(s) because they are in an incorrect state. "
                    "Ensure the instances are in a stopped state before starting them."
                )
            raise
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/StartInstances)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StopInstances`
<a name="ec2_StopInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class EC2InstanceWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface."""

    def __init__(
        self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None
    ) -> None:
        """
        Initializes the EC2InstanceWrapper with an EC2 client and optional instances.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that
                          wrap instance actions.
        """
        self.ec2_client = ec2_client
        self.instances = instances or []

    @classmethod
    def from_client(cls) -> "EC2InstanceWrapper":
        """
        Creates an EC2InstanceWrapper instance with a default EC2 client.

        :return: An instance of EC2InstanceWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def stop(self) -> Optional[Dict[str, Any]]:
        """
        Stops instances and waits for them to be in a stopped state.

        :return: The response to the stop request, or None if there are no instances to stop.
        """
        if not self.instances:
            logger.info("No instances to stop.")
            return None

        instance_ids = [instance["InstanceId"] for instance in self.instances]
        try:
            # Attempt to stop the instances
            stop_response = self.ec2_client.stop_instances(InstanceIds=instance_ids)
            waiter = self.ec2_client.get_waiter("instance_stopped")
            waiter.wait(InstanceIds=instance_ids)
        except ClientError as err:
            logger.error(
                f"Failed to stop instance(s): {','.join(map(str, instance_ids))}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "IncorrectInstanceState":
                logger.error(
                    "Couldn't stop instance(s) because they are in an incorrect state. "
                    "Ensure the instances are in a running state before stopping them."
                )
            raise
        return stop_response
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/StopInstances)di *AWS SDK for Python (Boto3) Referensi* API. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). 

```
class EC2InstanceWrapper:
    """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface."""

    def __init__(
        self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None
    ) -> None:
        """
        Initializes the EC2InstanceWrapper with an EC2 client and optional instances.

        :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level
                           access to AWS EC2 services.
        :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that
                          wrap instance actions.
        """
        self.ec2_client = ec2_client
        self.instances = instances or []

    @classmethod
    def from_client(cls) -> "EC2InstanceWrapper":
        """
        Creates an EC2InstanceWrapper instance with a default EC2 client.

        :return: An instance of EC2InstanceWrapper initialized with the default EC2 client.
        """
        ec2_client = boto3.client("ec2")
        return cls(ec2_client)


    def terminate(self) -> None:
        """
        Terminates instances and waits for them to reach the terminated state.
        """
        if not self.instances:
            logger.info("No instances to terminate.")
            return

        instance_ids = [instance["InstanceId"] for instance in self.instances]
        try:
            self.ec2_client.terminate_instances(InstanceIds=instance_ids)
            waiter = self.ec2_client.get_waiter("instance_terminated")
            waiter.wait(InstanceIds=instance_ids)
            self.instances.clear()
            for instance_id in instance_ids:
                print(f"• Instance ID: {instance_id}\n" f"• Action: Terminated")

        except ClientError as err:
            logger.error(
                f"Failed instance termination details:\n\t{str(self.instances)}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                logger.error(
                    "One or more instance IDs do not exist. "
                    "Please verify the instance IDs and try again."
                )
            raise
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/TerminateInstances)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/resilient_service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
class Runner:
    """
    Manages the deployment, demonstration, and destruction of resources for the resilient service.
    """

    def __init__(
        self,
        resource_path: str,
        recommendation: RecommendationService,
        autoscaler: AutoScalingWrapper,
        loadbalancer: ElasticLoadBalancerWrapper,
        param_helper: ParameterHelper,
    ):
        """
        Initializes the Runner class with the necessary parameters.

        :param resource_path: The path to resource files used by this example, such as IAM policies and instance scripts.
        :param recommendation: An instance of the RecommendationService class.
        :param autoscaler: An instance of the AutoScaler class.
        :param loadbalancer: An instance of the LoadBalancer class.
        :param param_helper: An instance of the ParameterHelper class.
        """
        self.resource_path = resource_path
        self.recommendation = recommendation
        self.autoscaler = autoscaler
        self.loadbalancer = loadbalancer
        self.param_helper = param_helper
        self.protocol = "HTTP"
        self.port = 80
        self.ssh_port = 22

        prefix = "doc-example-resilience"
        self.target_group_name = f"{prefix}-tg"
        self.load_balancer_name = f"{prefix}-lb"

    def deploy(self) -> None:
        """
        Deploys the resources required for the resilient service, including the DynamoDB table,
        EC2 instances, Auto Scaling group, and load balancer.
        """
        recommendations_path = f"{self.resource_path}/recommendations.json"
        startup_script = f"{self.resource_path}/server_startup_script.sh"
        instance_policy = f"{self.resource_path}/instance_policy.json"

        logging.info("Starting deployment of resources for the resilient service.")

        logging.info(
            "Creating and populating DynamoDB table '%s'.",
            self.recommendation.table_name,
        )
        self.recommendation.create()
        self.recommendation.populate(recommendations_path)

        logging.info(
            "Creating an EC2 launch template with the startup script '%s'.",
            startup_script,
        )
        self.autoscaler.create_template(startup_script, instance_policy)

        logging.info(
            "Creating an EC2 Auto Scaling group across multiple Availability Zones."
        )
        zones = self.autoscaler.create_autoscaling_group(3)

        logging.info("Creating variables that control the flow of the demo.")
        self.param_helper.reset()

        logging.info("Creating Elastic Load Balancing target group and load balancer.")

        vpc = self.autoscaler.get_default_vpc()
        subnets = self.autoscaler.get_subnets(vpc["VpcId"], zones)
        target_group = self.loadbalancer.create_target_group(
            self.target_group_name, self.protocol, self.port, vpc["VpcId"]
        )
        self.loadbalancer.create_load_balancer(
            self.load_balancer_name, [subnet["SubnetId"] for subnet in subnets]
        )
        self.loadbalancer.create_listener(self.load_balancer_name, target_group)

        self.autoscaler.attach_load_balancer_target_group(target_group)

        logging.info("Verifying access to the load balancer endpoint.")
        endpoint = self.loadbalancer.get_endpoint(self.load_balancer_name)
        lb_success = self.loadbalancer.verify_load_balancer_endpoint(endpoint)
        current_ip_address = requests.get("http://checkip.amazonaws.com").text.strip()

        if not lb_success:
            logging.warning(
                "Couldn't connect to the load balancer. Verifying that the port is open..."
            )
            sec_group, port_is_open = self.autoscaler.verify_inbound_port(
                vpc, self.port, current_ip_address
            )
            sec_group, ssh_port_is_open = self.autoscaler.verify_inbound_port(
                vpc, self.ssh_port, current_ip_address
            )
            if not port_is_open:
                logging.warning(
                    "The default security group for your VPC must allow access from this computer."
                )
                if q.ask(
                    f"Do you want to add a rule to security group {sec_group['GroupId']} to allow\n"
                    f"inbound traffic on port {self.port} from your computer's IP address of {current_ip_address}? (y/n) ",
                    q.is_yesno,
                ):
                    self.autoscaler.open_inbound_port(
                        sec_group["GroupId"], self.port, current_ip_address
                    )
            if not ssh_port_is_open:
                if q.ask(
                    f"Do you want to add a rule to security group {sec_group['GroupId']} to allow\n"
                    f"inbound SSH traffic on port {self.ssh_port} for debugging from your computer's IP address of {current_ip_address}? (y/n) ",
                    q.is_yesno,
                ):
                    self.autoscaler.open_inbound_port(
                        sec_group["GroupId"], self.ssh_port, current_ip_address
                    )
            lb_success = self.loadbalancer.verify_load_balancer_endpoint(endpoint)

        if lb_success:
            logging.info(
                "Load balancer is ready. Access it at: http://%s", current_ip_address
            )
        else:
            logging.error(
                "Couldn't get a successful response from the load balancer endpoint. Please verify your VPC and security group settings."
            )

    def demo_choices(self) -> None:
        """
        Presents choices for interacting with the deployed service, such as sending requests to
        the load balancer or checking the health of the targets.
        """
        actions = [
            "Send a GET request to the load balancer endpoint.",
            "Check the health of load balancer targets.",
            "Go to the next part of the demo.",
        ]
        choice = 0
        while choice != 2:
            logging.info("Choose an action to interact with the service.")
            choice = q.choose("Which action would you like to take? ", actions)
            if choice == 0:
                logging.info("Sending a GET request to the load balancer endpoint.")
                endpoint = self.loadbalancer.get_endpoint(self.load_balancer_name)
                logging.info("GET http://%s", endpoint)
                response = requests.get(f"http://{endpoint}")
                logging.info("Response: %s", response.status_code)
                if response.headers.get("content-type") == "application/json":
                    pp(response.json())
            elif choice == 1:
                logging.info("Checking the health of load balancer targets.")
                health = self.loadbalancer.check_target_health(self.target_group_name)
                for target in health:
                    state = target["TargetHealth"]["State"]
                    logging.info(
                        "Target %s on port %d is %s",
                        target["Target"]["Id"],
                        target["Target"]["Port"],
                        state,
                    )
                    if state != "healthy":
                        logging.warning(
                            "%s: %s",
                            target["TargetHealth"]["Reason"],
                            target["TargetHealth"]["Description"],
                        )
                logging.info(
                    "Note that it can take a minute or two for the health check to update."
                )
            elif choice == 2:
                logging.info("Proceeding to the next part of the demo.")

    def demo(self) -> None:
        """
        Runs the demonstration, showing how the service responds to different failure scenarios
        and how a resilient architecture can keep the service running.
        """
        ssm_only_policy = f"{self.resource_path}/ssm_only_policy.json"

        logging.info("Resetting parameters to starting values for the demo.")
        self.param_helper.reset()

        logging.info(
            "Starting demonstration of the service's resilience under various failure conditions."
        )
        self.demo_choices()

        logging.info(
            "Simulating failure by changing the Systems Manager parameter to a non-existent table."
        )
        self.param_helper.put(self.param_helper.table, "this-is-not-a-table")
        logging.info("Sending GET requests will now return failure codes.")
        self.demo_choices()

        logging.info("Switching to static response mode to mitigate failure.")
        self.param_helper.put(self.param_helper.failure_response, "static")
        logging.info("Sending GET requests will now return static responses.")
        self.demo_choices()

        logging.info("Restoring normal operation of the recommendation service.")
        self.param_helper.put(self.param_helper.table, self.recommendation.table_name)

        logging.info(
            "Introducing a failure by assigning bad credentials to one of the instances."
        )
        self.autoscaler.create_instance_profile(
            ssm_only_policy,
            self.autoscaler.bad_creds_policy_name,
            self.autoscaler.bad_creds_role_name,
            self.autoscaler.bad_creds_profile_name,
            ["AmazonSSMManagedInstanceCore"],
        )
        instances = self.autoscaler.get_instances()
        bad_instance_id = instances[0]
        instance_profile = self.autoscaler.get_instance_profile(bad_instance_id)
        logging.info(
            "Replacing instance profile with bad credentials for instance %s.",
            bad_instance_id,
        )
        self.autoscaler.replace_instance_profile(
            bad_instance_id,
            self.autoscaler.bad_creds_profile_name,
            instance_profile["AssociationId"],
        )
        logging.info(
            "Sending GET requests may return either a valid recommendation or a static response."
        )
        self.demo_choices()

        logging.info("Implementing deep health checks to detect unhealthy instances.")
        self.param_helper.put(self.param_helper.health_check, "deep")
        logging.info("Checking the health of the load balancer targets.")
        self.demo_choices()

        logging.info(
            "Terminating the unhealthy instance to let the auto scaler replace it."
        )
        self.autoscaler.terminate_instance(bad_instance_id)
        logging.info("The service remains resilient during instance replacement.")
        self.demo_choices()

        logging.info("Simulating a complete failure of the recommendation service.")
        self.param_helper.put(self.param_helper.table, "this-is-not-a-table")
        logging.info(
            "All instances will report as unhealthy, but the service will still return static responses."
        )
        self.demo_choices()
        self.param_helper.reset()

    def destroy(self, automation=False) -> None:
        """
        Destroys all resources created for the demo, including the load balancer, Auto Scaling group,
        EC2 instances, and DynamoDB table.
        """
        logging.info(
            "This concludes the demo. Preparing to clean up all AWS resources created during the demo."
        )
        if automation:
            cleanup = True
        else:
            cleanup = q.ask(
                "Do you want to clean up all demo resources? (y/n) ", q.is_yesno
            )

        if cleanup:
            logging.info("Deleting load balancer and related resources.")
            self.loadbalancer.delete_load_balancer(self.load_balancer_name)
            self.loadbalancer.delete_target_group(self.target_group_name)
            self.autoscaler.delete_autoscaling_group(self.autoscaler.group_name)
            self.autoscaler.delete_key_pair()
            self.autoscaler.delete_template()
            self.autoscaler.delete_instance_profile(
                self.autoscaler.bad_creds_profile_name,
                self.autoscaler.bad_creds_role_name,
            )
            logging.info("Deleting DynamoDB table and other resources.")
            self.recommendation.destroy()
        else:
            logging.warning(
                "Resources have not been deleted. Ensure you clean them up manually to avoid unexpected charges."
            )


def main() -> None:
    """
    Main function to parse arguments and run the appropriate actions for the demo.
    """
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--action",
        required=True,
        choices=["all", "deploy", "demo", "destroy"],
        help="The action to take for the demo. When 'all' is specified, resources are\n"
        "deployed, the demo is run, and resources are destroyed.",
    )
    parser.add_argument(
        "--resource_path",
        default="../../../scenarios/features/resilient_service/resources",
        help="The path to resource files used by this example, such as IAM policies and\n"
        "instance scripts.",
    )
    args = parser.parse_args()

    logging.info("Starting the Resilient Service demo.")

    prefix = "doc-example-resilience"

    # Service Clients
    ddb_client = boto3.client("dynamodb")
    elb_client = boto3.client("elbv2")
    autoscaling_client = boto3.client("autoscaling")
    ec2_client = boto3.client("ec2")
    ssm_client = boto3.client("ssm")
    iam_client = boto3.client("iam")

    # Wrapper instantiations
    recommendation = RecommendationService(
        "doc-example-recommendation-service", ddb_client
    )
    autoscaling_wrapper = AutoScalingWrapper(
        prefix,
        "t3.micro",
        "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
        autoscaling_client,
        ec2_client,
        ssm_client,
        iam_client,
    )
    elb_wrapper = ElasticLoadBalancerWrapper(elb_client)
    param_helper = ParameterHelper(recommendation.table_name, ssm_client)

    # Demo invocation
    runner = Runner(
        args.resource_path,
        recommendation,
        autoscaling_wrapper,
        elb_wrapper,
        param_helper,
    )
    actions = [args.action] if args.action != "all" else ["deploy", "demo", "destroy"]
    for action in actions:
        if action == "deploy":
            runner.deploy()
        elif action == "demo":
            runner.demo()
        elif action == "destroy":
            runner.destroy()

    logging.info("Demo completed successfully.")


if __name__ == "__main__":
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    main()
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def create_policy(self, policy_file: str, policy_name: str) -> str:
        """
        Creates a new IAM policy or retrieves the ARN of an existing policy.

        :param policy_file: The path to a JSON file that contains the policy definition.
        :param policy_name: The name to give the created policy.
        :return: The ARN of the created or existing policy.
        """
        with open(policy_file) as file:
            policy_doc = file.read()

        try:
            response = self.iam_client.create_policy(
                PolicyName=policy_name, PolicyDocument=policy_doc
            )
            policy_arn = response["Policy"]["Arn"]
            log.info(f"Policy '{policy_name}' created successfully. ARN: {policy_arn}")
            return policy_arn

        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                # If the policy already exists, get its ARN
                response = self.iam_client.get_policy(
                    PolicyArn=f"arn:aws:iam::{self.account_id}:policy/{policy_name}"
                )
                policy_arn = response["Policy"]["Arn"]
                log.info(f"Policy '{policy_name}' already exists. ARN: {policy_arn}")
                return policy_arn
            log.error(f"Full error:\n\t{err}")

    def create_role(self, role_name: str, assume_role_doc: dict) -> str:
        """
        Creates a new IAM role or retrieves the ARN of an existing role.

        :param role_name: The name to give the created role.
        :param assume_role_doc: The assume role policy document that specifies which
                                entities can assume the role.
        :return: The ARN of the created or existing role.
        """
        try:
            response = self.iam_client.create_role(
                RoleName=role_name, AssumeRolePolicyDocument=json.dumps(assume_role_doc)
            )
            role_arn = response["Role"]["Arn"]
            log.info(f"Role '{role_name}' created successfully. ARN: {role_arn}")
            return role_arn

        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                # If the role already exists, get its ARN
                response = self.iam_client.get_role(RoleName=role_name)
                role_arn = response["Role"]["Arn"]
                log.info(f"Role '{role_name}' already exists. ARN: {role_arn}")
                return role_arn
            log.error(f"Full error:\n\t{err}")

    def attach_policy(
        self,
        role_name: str,
        policy_arn: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> None:
        """
        Attaches an IAM policy to a role and optionally attaches additional AWS-managed policies.

        :param role_name: The name of the role to attach the policy to.
        :param policy_arn: The ARN of the policy to attach.
        :param aws_managed_policies: A tuple of AWS-managed policy names to attach to the role.
        """
        try:
            self.iam_client.attach_role_policy(RoleName=role_name, PolicyArn=policy_arn)
            for aws_policy in aws_managed_policies:
                self.iam_client.attach_role_policy(
                    RoleName=role_name,
                    PolicyArn=f"arn:aws:iam::aws:policy/{aws_policy}",
                )
            log.info(f"Attached policy {policy_arn} to role {role_name}.")
        except ClientError as err:
            log.error(f"Failed to attach policy {policy_arn} to role {role_name}.")
            log.error(f"Full error:\n\t{err}")

    def create_instance_profile(
        self,
        policy_file: str,
        policy_name: str,
        role_name: str,
        profile_name: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> str:
        """
        Creates a policy, role, and profile that is associated with instances created by
        this class. An instance's associated profile defines a role that is assumed by the
        instance. The role has attached policies that specify the AWS permissions granted to
        clients that run on the instance.

        :param policy_file: The name of a JSON file that contains the policy definition to
                            create and attach to the role.
        :param policy_name: The name to give the created policy.
        :param role_name: The name to give the created role.
        :param profile_name: The name to the created profile.
        :param aws_managed_policies: Additional AWS-managed policies that are attached to
                                     the role, such as AmazonSSMManagedInstanceCore to grant
                                     use of Systems Manager to send commands to the instance.
        :return: The ARN of the profile that is created.
        """
        assume_role_doc = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Effect": "Allow",
                    "Principal": {"Service": "ec2.amazonaws.com"},
                    "Action": "sts:AssumeRole",
                }
            ],
        }
        policy_arn = self.create_policy(policy_file, policy_name)
        self.create_role(role_name, assume_role_doc)
        self.attach_policy(role_name, policy_arn, aws_managed_policies)

        try:
            profile_response = self.iam_client.create_instance_profile(
                InstanceProfileName=profile_name
            )
            waiter = self.iam_client.get_waiter("instance_profile_exists")
            waiter.wait(InstanceProfileName=profile_name)
            time.sleep(10)  # wait a little longer
            profile_arn = profile_response["InstanceProfile"]["Arn"]
            self.iam_client.add_role_to_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            log.info("Created profile %s and added role %s.", profile_name, role_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                prof_response = self.iam_client.get_instance_profile(
                    InstanceProfileName=profile_name
                )
                profile_arn = prof_response["InstanceProfile"]["Arn"]
                log.info(
                    "Instance profile %s already exists, nothing to do.", profile_name
                )
            log.error(f"Full error:\n\t{err}")
        return profile_arn


    def get_instance_profile(self, instance_id: str) -> Dict[str, Any]:
        """
        Gets data about the profile associated with an instance.

        :param instance_id: The ID of the instance to look up.
        :return: The profile data.
        """
        try:
            response = self.ec2_client.describe_iam_instance_profile_associations(
                Filters=[{"Name": "instance-id", "Values": [instance_id]}]
            )
            if not response["IamInstanceProfileAssociations"]:
                log.info(f"No instance profile found for instance {instance_id}.")
            profile_data = response["IamInstanceProfileAssociations"][0]
            log.info(f"Retrieved instance profile for instance {instance_id}.")
            return profile_data
        except ClientError as err:
            log.error(
                f"Failed to retrieve instance profile for instance {instance_id}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                log.error(f"The instance ID '{instance_id}' does not exist.")
            log.error(f"Full error:\n\t{err}")


    def replace_instance_profile(
        self,
        instance_id: str,
        new_instance_profile_name: str,
        profile_association_id: str,
    ) -> None:
        """
        Replaces the profile associated with a running instance. After the profile is
        replaced, the instance is rebooted to ensure that it uses the new profile. When
        the instance is ready, Systems Manager is used to restart the Python web server.

        :param instance_id: The ID of the instance to restart.
        :param new_instance_profile_name: The name of the new profile to associate with
                                          the specified instance.
        :param profile_association_id: The ID of the existing profile association for the
                                       instance.
        """
        try:
            self.ec2_client.replace_iam_instance_profile_association(
                IamInstanceProfile={"Name": new_instance_profile_name},
                AssociationId=profile_association_id,
            )
            log.info(
                "Replaced instance profile for association %s with profile %s.",
                profile_association_id,
                new_instance_profile_name,
            )
            time.sleep(5)

            self.ec2_client.reboot_instances(InstanceIds=[instance_id])
            log.info("Rebooting instance %s.", instance_id)
            waiter = self.ec2_client.get_waiter("instance_running")
            log.info("Waiting for instance %s to be running.", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info("Instance %s is now running.", instance_id)

            self.ssm_client.send_command(
                InstanceIds=[instance_id],
                DocumentName="AWS-RunShellScript",
                Parameters={"commands": ["cd / && sudo python3 server.py 80"]},
            )
            log.info(f"Restarted the Python web server on instance '{instance_id}'.")
        except ClientError as err:
            log.error("Failed to replace instance profile.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidAssociationID.NotFound":
                log.error(
                    f"Association ID '{profile_association_id}' does not exist."
                    "Please check the association ID and try again."
                )
            if error_code == "InvalidInstanceId":
                log.error(
                    f"The specified instance ID '{instance_id}' does not exist or is not available for SSM. "
                    f"Please verify the instance ID and try again."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_instance_profile(self, profile_name: str, role_name: str) -> None:
        """
        Detaches a role from an instance profile, detaches policies from the role,
        and deletes all the resources.

        :param profile_name: The name of the profile to delete.
        :param role_name: The name of the role to delete.
        """
        try:
            self.iam_client.remove_role_from_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            self.iam_client.delete_instance_profile(InstanceProfileName=profile_name)
            log.info("Deleted instance profile %s.", profile_name)
            attached_policies = self.iam_client.list_attached_role_policies(
                RoleName=role_name
            )
            for pol in attached_policies["AttachedPolicies"]:
                self.iam_client.detach_role_policy(
                    RoleName=role_name, PolicyArn=pol["PolicyArn"]
                )
                if not pol["PolicyArn"].startswith("arn:aws:iam::aws"):
                    self.iam_client.delete_policy(PolicyArn=pol["PolicyArn"])
                log.info("Detached and deleted policy %s.", pol["PolicyName"])
            self.iam_client.delete_role(RoleName=role_name)
            log.info("Deleted role %s.", role_name)
        except ClientError as err:
            log.error(
                f"Couldn't delete instance profile {profile_name} or detach "
                f"policies and delete role {role_name}: {err}"
            )
            if err.response["Error"]["Code"] == "NoSuchEntity":
                log.info(
                    "Instance profile %s doesn't exist, nothing to do.", profile_name
                )


    def create_key_pair(self, key_pair_name: str) -> None:
        """
        Creates a new key pair.

        :param key_pair_name: The name of the key pair to create.
        """
        try:
            response = self.ec2_client.create_key_pair(KeyName=key_pair_name)
            with open(f"{key_pair_name}.pem", "w") as file:
                file.write(response["KeyMaterial"])
            chmod(f"{key_pair_name}.pem", 0o600)
            log.info("Created key pair %s.", key_pair_name)
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to create key pair {key_pair_name}.")
            if error_code == "InvalidKeyPair.Duplicate":
                log.error(f"A key pair with the name '{key_pair_name}' already exists.")
            log.error(f"Full error:\n\t{err}")


    def delete_key_pair(self) -> None:
        """
        Deletes a key pair.
        """
        try:
            self.ec2_client.delete_key_pair(KeyName=self.key_pair_name)
            remove(f"{self.key_pair_name}.pem")
            log.info("Deleted key pair %s.", self.key_pair_name)
        except ClientError as err:
            log.error(f"Couldn't delete key pair '{self.key_pair_name}'.")
            log.error(f"Full error:\n\t{err}")
        except FileNotFoundError as err:
            log.info("Key pair %s doesn't exist, nothing to do.", self.key_pair_name)
            log.error(f"Full error:\n\t{err}")


    def create_template(
        self, server_startup_script_file: str, instance_policy_file: str
    ) -> Dict[str, Any]:
        """
        Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling. The
        launch template specifies a Bash script in its user data field that runs after
        the instance is started. This script installs Python packages and starts a
        Python web server on the instance.

        :param server_startup_script_file: The path to a Bash script file that is run
                                           when an instance starts.
        :param instance_policy_file: The path to a file that defines a permissions policy
                                     to create and attach to the instance profile.
        :return: Information about the newly created template.
        """
        template = {}
        try:
            # Create key pair and instance profile
            self.create_key_pair(self.key_pair_name)
            self.create_instance_profile(
                instance_policy_file,
                self.instance_policy_name,
                self.instance_role_name,
                self.instance_profile_name,
            )

            # Read the startup script
            with open(server_startup_script_file) as file:
                start_server_script = file.read()

            # Get the latest AMI ID
            ami_latest = self.ssm_client.get_parameter(Name=self.ami_param)
            ami_id = ami_latest["Parameter"]["Value"]

            # Create the launch template
            lt_response = self.ec2_client.create_launch_template(
                LaunchTemplateName=self.launch_template_name,
                LaunchTemplateData={
                    "InstanceType": self.inst_type,
                    "ImageId": ami_id,
                    "IamInstanceProfile": {"Name": self.instance_profile_name},
                    "UserData": base64.b64encode(
                        start_server_script.encode(encoding="utf-8")
                    ).decode(encoding="utf-8"),
                    "KeyName": self.key_pair_name,
                },
            )
            template = lt_response["LaunchTemplate"]
            log.info(
                f"Created launch template {self.launch_template_name} for AMI {ami_id} on {self.inst_type}."
            )
        except ClientError as err:
            log.error(f"Failed to create launch template {self.launch_template_name}.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidLaunchTemplateName.AlreadyExistsException":
                log.info(
                    f"Launch template {self.launch_template_name} already exists, nothing to do."
                )
            log.error(f"Full error:\n\t{err}")
        return template


    def delete_template(self):
        """
        Deletes a launch template.
        """
        try:
            self.ec2_client.delete_launch_template(
                LaunchTemplateName=self.launch_template_name
            )
            self.delete_instance_profile(
                self.instance_profile_name, self.instance_role_name
            )
            log.info("Launch template %s deleted.", self.launch_template_name)
        except ClientError as err:
            if (
                err.response["Error"]["Code"]
                == "InvalidLaunchTemplateName.NotFoundException"
            ):
                log.info(
                    "Launch template %s does not exist, nothing to do.",
                    self.launch_template_name,
                )
            log.error(f"Full error:\n\t{err}")


    def get_availability_zones(self) -> List[str]:
        """
        Gets a list of Availability Zones in the AWS Region of the Amazon EC2 client.

        :return: The list of Availability Zones for the client Region.
        """
        try:
            response = self.ec2_client.describe_availability_zones()
            zones = [zone["ZoneName"] for zone in response["AvailabilityZones"]]
            log.info(f"Retrieved {len(zones)} availability zones: {zones}.")
        except ClientError as err:
            log.error("Failed to retrieve availability zones.")
            log.error(f"Full error:\n\t{err}")
        else:
            return zones


    def create_autoscaling_group(self, group_size: int) -> List[str]:
        """
        Creates an EC2 Auto Scaling group with the specified size.

        :param group_size: The number of instances to set for the minimum and maximum in
                           the group.
        :return: The list of Availability Zones specified for the group.
        """
        try:
            zones = self.get_availability_zones()
            self.autoscaling_client.create_auto_scaling_group(
                AutoScalingGroupName=self.group_name,
                AvailabilityZones=zones,
                LaunchTemplate={
                    "LaunchTemplateName": self.launch_template_name,
                    "Version": "$Default",
                },
                MinSize=group_size,
                MaxSize=group_size,
            )
            log.info(
                f"Created EC2 Auto Scaling group {self.group_name} with availability zones {zones}."
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            if error_code == "AlreadyExists":
                log.info(
                    f"EC2 Auto Scaling group {self.group_name} already exists, nothing to do."
                )
            else:
                log.error(f"Failed to create EC2 Auto Scaling group {self.group_name}.")
                log.error(f"Full error:\n\t{err}")
        else:
            return zones


    def get_instances(self) -> List[str]:
        """
        Gets data about the instances in the EC2 Auto Scaling group.

        :return: A list of instance IDs in the Auto Scaling group.
        """
        try:
            as_response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[self.group_name]
            )
            instance_ids = [
                i["InstanceId"]
                for i in as_response["AutoScalingGroups"][0]["Instances"]
            ]
            log.info(
                f"Retrieved {len(instance_ids)} instances for Auto Scaling group {self.group_name}."
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to retrieve instances for Auto Scaling group {self.group_name}."
            )
            if error_code == "ResourceNotFound":
                log.error(f"The Auto Scaling group '{self.group_name}' does not exist.")
            log.error(f"Full error:\n\t{err}")
        else:
            return instance_ids


    def terminate_instance(self, instance_id: str, decrementsetting=False) -> None:
        """
        Terminates an instance in an EC2 Auto Scaling group. After an instance is
        terminated, it can no longer be accessed.

        :param instance_id: The ID of the instance to terminate.
        :param decrementsetting: If True, do not replace terminated instances.
        """
        try:
            self.autoscaling_client.terminate_instance_in_auto_scaling_group(
                InstanceId=instance_id,
                ShouldDecrementDesiredCapacity=decrementsetting,
            )
            log.info("Terminated instance %s.", instance_id)

            # Adding a waiter to ensure the instance is terminated
            waiter = self.ec2_client.get_waiter("instance_terminated")
            log.info("Waiting for instance %s to be terminated...", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info(
                f"Instance '{instance_id}' has been terminated and will be replaced."
            )

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to terminate instance '{instance_id}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to terminate the instance again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            log.error(f"Full error:\n\t{err}")

    def attach_load_balancer_target_group(
        self, lb_target_group: Dict[str, Any]
    ) -> None:
        """
        Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
        The target group specifies how the load balancer forwards requests to the instances
        in the group.

        :param lb_target_group: Data about the ELB target group to attach.
        """
        try:
            self.autoscaling_client.attach_load_balancer_target_groups(
                AutoScalingGroupName=self.group_name,
                TargetGroupARNs=[lb_target_group["TargetGroupArn"]],
            )
            log.info(
                "Attached load balancer target group %s to auto scaling group %s.",
                lb_target_group["TargetGroupName"],
                self.group_name,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to attach load balancer target group '{lb_target_group['TargetGroupName']}'."
            )
            if error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            elif error_code == "ServiceLinkedRoleFailure":
                log.error(
                    "The operation failed because the service-linked role is not ready or does not exist. "
                    "Check that the service-linked role exists and is correctly configured."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_autoscaling_group(self, group_name: str) -> None:
        """
        Terminates all instances in the group, then deletes the EC2 Auto Scaling group.

        :param group_name: The name of the group to delete.
        """
        try:
            response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[group_name]
            )
            groups = response.get("AutoScalingGroups", [])
            if len(groups) > 0:
                self.autoscaling_client.update_auto_scaling_group(
                    AutoScalingGroupName=group_name, MinSize=0
                )
                instance_ids = [inst["InstanceId"] for inst in groups[0]["Instances"]]
                for inst_id in instance_ids:
                    self.terminate_instance(inst_id)

                # Wait for all instances to be terminated
                if instance_ids:
                    waiter = self.ec2_client.get_waiter("instance_terminated")
                    log.info("Waiting for all instances to be terminated...")
                    waiter.wait(InstanceIds=instance_ids)
                    log.info("All instances have been terminated.")
            else:
                log.info(f"No groups found named '{group_name}'! Nothing to do.")
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete Auto Scaling group '{group_name}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to delete the group again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the group."
                )
            log.error(f"Full error:\n\t{err}")


    def get_default_vpc(self) -> Dict[str, Any]:
        """
        Gets the default VPC for the account.

        :return: Data about the default VPC.
        """
        try:
            response = self.ec2_client.describe_vpcs(
                Filters=[{"Name": "is-default", "Values": ["true"]}]
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error("Failed to retrieve the default VPC.")
            if error_code == "UnauthorizedOperation":
                log.error(
                    "You do not have the necessary permissions to describe VPCs. "
                    "Ensure that your AWS IAM user or role has the correct permissions."
                )
            elif error_code == "InvalidParameterValue":
                log.error(
                    "One or more parameters are invalid. Check the request parameters."
                )

            log.error(f"Full error:\n\t{err}")
        else:
            if "Vpcs" in response and response["Vpcs"]:
                log.info(f"Retrieved default VPC: {response['Vpcs'][0]['VpcId']}")
                return response["Vpcs"][0]
            else:
                pass


    def verify_inbound_port(
        self, vpc: Dict[str, Any], port: int, ip_address: str
    ) -> Tuple[Dict[str, Any], bool]:
        """
        Verify the default security group of the specified VPC allows ingress from this
        computer. This can be done by allowing ingress from this computer's IP
        address. In some situations, such as connecting from a corporate network, you
        must instead specify a prefix list ID. You can also temporarily open the port to
        any IP address while running this example. If you do, be sure to remove public
        access when you're done.

        :param vpc: The VPC used by this example.
        :param port: The port to verify.
        :param ip_address: This computer's IP address.
        :return: The default security group of the specified VPC, and a value that indicates
                 whether the specified port is open.
        """
        try:
            response = self.ec2_client.describe_security_groups(
                Filters=[
                    {"Name": "group-name", "Values": ["default"]},
                    {"Name": "vpc-id", "Values": [vpc["VpcId"]]},
                ]
            )
            sec_group = response["SecurityGroups"][0]
            port_is_open = False
            log.info(f"Found default security group {sec_group['GroupId']}.")

            for ip_perm in sec_group["IpPermissions"]:
                if ip_perm.get("FromPort", 0) == port:
                    log.info(f"Found inbound rule: {ip_perm}")
                    for ip_range in ip_perm["IpRanges"]:
                        cidr = ip_range.get("CidrIp", "")
                        if cidr.startswith(ip_address) or cidr == "0.0.0.0/0":
                            port_is_open = True
                    if ip_perm["PrefixListIds"]:
                        port_is_open = True
                    if not port_is_open:
                        log.info(
                            f"The inbound rule does not appear to be open to either this computer's IP "
                            f"address of {ip_address}, to all IP addresses (0.0.0.0/0), or to a prefix list ID."
                        )
                    else:
                        break
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to verify inbound rule for port {port} for VPC {vpc['VpcId']}."
            )
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    f"The specified VPC ID '{vpc['VpcId']}' does not exist. Please check the VPC ID."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return sec_group, port_is_open


    def open_inbound_port(self, sec_group_id: str, port: int, ip_address: str) -> None:
        """
        Add an ingress rule to the specified security group that allows access on the
        specified port from the specified IP address.

        :param sec_group_id: The ID of the security group to modify.
        :param port: The port to open.
        :param ip_address: The IP address that is granted access.
        """
        try:
            self.ec2_client.authorize_security_group_ingress(
                GroupId=sec_group_id,
                CidrIp=f"{ip_address}/32",
                FromPort=port,
                ToPort=port,
                IpProtocol="tcp",
            )
            log.info(
                "Authorized ingress to %s on port %s from %s.",
                sec_group_id,
                port,
                ip_address,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to authorize ingress to security group '{sec_group_id}' on port {port} from {ip_address}."
            )
            if error_code == "InvalidGroupId.Malformed":
                log.error(
                    "The security group ID is malformed. "
                    "Please verify that the security group ID is correct."
                )
            elif error_code == "InvalidPermission.Duplicate":
                log.error(
                    "The specified rule already exists in the security group. "
                    "Check the existing rules for this security group."
                )
            log.error(f"Full error:\n\t{err}")


    def get_subnets(self, vpc_id: str, zones: List[str] = None) -> List[Dict[str, Any]]:
        """
        Gets the default subnets in a VPC for a specified list of Availability Zones.

        :param vpc_id: The ID of the VPC to look up.
        :param zones: The list of Availability Zones to look up.
        :return: The list of subnets found.
        """
        # Ensure that 'zones' is a list, even if None is passed
        if zones is None:
            zones = []
        try:
            paginator = self.ec2_client.get_paginator("describe_subnets")
            page_iterator = paginator.paginate(
                Filters=[
                    {"Name": "vpc-id", "Values": [vpc_id]},
                    {"Name": "availability-zone", "Values": zones},
                    {"Name": "default-for-az", "Values": ["true"]},
                ]
            )

            subnets = []
            for page in page_iterator:
                subnets.extend(page["Subnets"])

            log.info("Found %s subnets for the specified zones.", len(subnets))
            return subnets
        except ClientError as err:
            log.error(
                f"Failed to retrieve subnets for VPC '{vpc_id}' in zones {zones}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    "The specified VPC ID does not exist. "
                    "Please check the VPC ID and try again."
                )
            # Add more error-specific handling as needed
            log.error(f"Full error:\n\t{err}")
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def create_target_group(
        self, target_group_name: str, protocol: str, port: int, vpc_id: str
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing target group. The target group specifies how
        the load balancer forwards requests to instances in the group and how instance
        health is checked.

        To speed up this demo, the health check is configured with shortened times and
        lower thresholds. In production, you might want to decrease the sensitivity of
        your health checks to avoid unwanted failures.

        :param target_group_name: The name of the target group to create.
        :param protocol: The protocol to use to forward requests, such as 'HTTP'.
        :param port: The port to use to forward requests, such as 80.
        :param vpc_id: The ID of the VPC in which the load balancer exists.
        :return: Data about the newly created target group.
        """
        try:
            response = self.elb_client.create_target_group(
                Name=target_group_name,
                Protocol=protocol,
                Port=port,
                HealthCheckPath="/healthcheck",
                HealthCheckIntervalSeconds=10,
                HealthCheckTimeoutSeconds=5,
                HealthyThresholdCount=2,
                UnhealthyThresholdCount=2,
                VpcId=vpc_id,
            )
            target_group = response["TargetGroups"][0]
            log.info(f"Created load balancing target group '{target_group_name}'.")
            return target_group
        except ClientError as err:
            log.error(
                f"Couldn't create load balancing target group '{target_group_name}'."
            )
            error_code = err.response["Error"]["Code"]

            if error_code == "DuplicateTargetGroupName":
                log.error(
                    f"Target group name {target_group_name} already exists. "
                    "Check if the target group already exists."
                    "Consider using a different name or deleting the existing target group if appropriate."
                )
            elif error_code == "TooManyTargetGroups":
                log.error(
                    "Too many target groups exist in the account. "
                    "Consider deleting unused target groups to create space for new ones."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_target_group(self, target_group_name) -> None:
        """
        Deletes the target group.
        """
        try:
            # Describe the target group to get its ARN
            response = self.elb_client.describe_target_groups(Names=[target_group_name])
            tg_arn = response["TargetGroups"][0]["TargetGroupArn"]

            # Delete the target group
            self.elb_client.delete_target_group(TargetGroupArn=tg_arn)
            log.info("Deleted load balancing target group %s.", target_group_name)

            # Use a custom waiter to wait until the target group is no longer available
            self.wait_for_target_group_deletion(self.elb_client, tg_arn)
            log.info("Target group %s successfully deleted.", target_group_name)

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete target group '{target_group_name}'.")
            if error_code == "TargetGroupNotFound":
                log.error(
                    "Load balancer target group either already deleted or never existed. "
                    "Verify the name and check that the resource exists in the AWS Console."
                )
            elif error_code == "ResourceInUseException":
                log.error(
                    "Target group still in use by another resource. "
                    "Ensure that the target group is no longer associated with any load balancers or resources.",
                )
            log.error(f"Full error:\n\t{err}")

    def wait_for_target_group_deletion(
        self, elb_client, target_group_arn, max_attempts=10, delay=30
    ):
        for attempt in range(max_attempts):
            try:
                elb_client.describe_target_groups(TargetGroupArns=[target_group_arn])
                print(
                    f"Attempt {attempt + 1}: Target group {target_group_arn} still exists."
                )
            except ClientError as e:
                if e.response["Error"]["Code"] == "TargetGroupNotFound":
                    print(
                        f"Target group {target_group_arn} has been successfully deleted."
                    )
                    return
                else:
                    raise
            time.sleep(delay)
        raise TimeoutError(
            f"Target group {target_group_arn} was not deleted after {max_attempts * delay} seconds."
        )


    def create_load_balancer(
        self,
        load_balancer_name: str,
        subnet_ids: List[str],
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing load balancer that uses the specified subnets
        and forwards requests to the specified target group.

        :param load_balancer_name: The name of the load balancer to create.
        :param subnet_ids: A list of subnets to associate with the load balancer.
        :return: Data about the newly created load balancer.
        """
        try:
            response = self.elb_client.create_load_balancer(
                Name=load_balancer_name, Subnets=subnet_ids
            )
            load_balancer = response["LoadBalancers"][0]
            log.info(f"Created load balancer '{load_balancer_name}'.")

            waiter = self.elb_client.get_waiter("load_balancer_available")
            log.info(
                f"Waiting for load balancer '{load_balancer_name}' to be available..."
            )
            waiter.wait(Names=[load_balancer_name])
            log.info(f"Load balancer '{load_balancer_name}' is now available!")

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to create load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "DuplicateLoadBalancerNameException":
                log.error(
                    f"A load balancer with the name '{load_balancer_name}' already exists. "
                    "Load balancer names must be unique within the AWS region. "
                    "Please choose a different name and try again."
                )
            if error_code == "TooManyLoadBalancersException":
                log.error(
                    "The maximum number of load balancers has been reached in this account and region. "
                    "You can delete unused load balancers or request an increase in the service quota from AWS Support."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return load_balancer


    def create_listener(
        self,
        load_balancer_name: str,
        target_group: Dict[str, Any],
    ) -> Dict[str, Any]:
        """
        Creates a listener for the specified load balancer that forwards requests to the
        specified target group.

        :param load_balancer_name: The name of the load balancer to create a listener for.
        :param target_group: An existing target group that is added as a listener to the
                             load balancer.
        :return: Data about the newly created listener.
        """
        try:
            # Retrieve the load balancer ARN
            load_balancer_response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            load_balancer_arn = load_balancer_response["LoadBalancers"][0][
                "LoadBalancerArn"
            ]

            # Create the listener
            response = self.elb_client.create_listener(
                LoadBalancerArn=load_balancer_arn,
                Protocol=target_group["Protocol"],
                Port=target_group["Port"],
                DefaultActions=[
                    {
                        "Type": "forward",
                        "TargetGroupArn": target_group["TargetGroupArn"],
                    }
                ],
            )
            log.info(
                f"Created listener to forward traffic from load balancer '{load_balancer_name}' to target group '{target_group['TargetGroupName']}'."
            )
            return response["Listeners"][0]
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to add a listener on '{load_balancer_name}' for target group '{target_group['TargetGroupName']}'."
            )

            if error_code == "ListenerNotFoundException":
                log.error(
                    f"The listener could not be found for the load balancer '{load_balancer_name}'. "
                    "Please check the load balancer name and target group configuration."
                )
            if error_code == "InvalidConfigurationRequestException":
                log.error(
                    f"The configuration provided for the listener on load balancer '{load_balancer_name}' is invalid. "
                    "Please review the provided protocol, port, and target group settings."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_load_balancer(self, load_balancer_name) -> None:
        """
        Deletes a load balancer.

        :param load_balancer_name: The name of the load balancer to delete.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            lb_arn = response["LoadBalancers"][0]["LoadBalancerArn"]
            self.elb_client.delete_load_balancer(LoadBalancerArn=lb_arn)
            log.info("Deleted load balancer %s.", load_balancer_name)
            waiter = self.elb_client.get_waiter("load_balancers_deleted")
            log.info("Waiting for load balancer to be deleted...")
            waiter.wait(Names=[load_balancer_name])
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Couldn't delete load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    f"The load balancer '{load_balancer_name}' does not exist. "
                    "Please check the name and try again."
                )
            log.error(f"Full error:\n\t{err}")


    def get_endpoint(self, load_balancer_name) -> str:
        """
        Gets the HTTP endpoint of the load balancer.

        :return: The endpoint.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            return response["LoadBalancers"][0]["DNSName"]
        except ClientError as err:
            log.error(
                f"Couldn't get the endpoint for load balancer {load_balancer_name}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Verify load balancer name and ensure it exists in the AWS console."
                )
            log.error(f"Full error:\n\t{err}")

    @staticmethod
    def verify_load_balancer_endpoint(endpoint) -> bool:
        """
        Verify this computer can successfully send a GET request to the load balancer endpoint.

        :param endpoint: The endpoint to verify.
        :return: True if the GET request is successful, False otherwise.
        """
        retries = 3
        verified = False
        while not verified and retries > 0:
            try:
                lb_response = requests.get(f"http://{endpoint}")
                log.info(
                    "Got response %s from load balancer endpoint.",
                    lb_response.status_code,
                )
                if lb_response.status_code == 200:
                    verified = True
                else:
                    retries = 0
            except requests.exceptions.ConnectionError:
                log.info(
                    "Got connection error from load balancer endpoint, retrying..."
                )
                retries -= 1
                time.sleep(10)
        return verified

    def check_target_health(self, target_group_name: str) -> List[Dict[str, Any]]:
        """
        Checks the health of the instances in the target group.

        :return: The health status of the target group.
        """
        try:
            tg_response = self.elb_client.describe_target_groups(
                Names=[target_group_name]
            )
            health_response = self.elb_client.describe_target_health(
                TargetGroupArn=tg_response["TargetGroups"][0]["TargetGroupArn"]
            )
        except ClientError as err:
            log.error(f"Couldn't check health of {target_group_name} target(s).")
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Load balancer associated with the target group was not found. "
                    "Ensure the load balancer exists, is in the correct AWS region, and "
                    "that you have the necessary permissions to access it.",
                )
            elif error_code == "TargetGroupNotFoundException":
                log.error(
                    "Target group was not found. "
                    "Verify the target group name, check that it exists in the correct region, "
                    "and ensure it has not been deleted or created in a different account.",
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return health_response["TargetHealthDescriptions"]
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
class RecommendationService:
    """
    Encapsulates a DynamoDB table to use as a service that recommends books, movies,
    and songs.
    """

    def __init__(self, table_name: str, dynamodb_client: boto3.client):
        """
        Initializes the RecommendationService class with the necessary parameters.

        :param table_name: The name of the DynamoDB recommendations table.
        :param dynamodb_client: A Boto3 DynamoDB client.
        """
        self.table_name = table_name
        self.dynamodb_client = dynamodb_client

    def create(self) -> Dict[str, Any]:
        """
        Creates a DynamoDB table to use as a recommendation service. The table has a
        hash key named 'MediaType' that defines the type of media recommended, such as
        Book or Movie, and a range key named 'ItemId' that, combined with the MediaType,
        forms a unique identifier for the recommended item.

        :return: Data about the newly created table.
        :raises RecommendationServiceError: If the table creation fails.
        """
        try:
            response = self.dynamodb_client.create_table(
                TableName=self.table_name,
                AttributeDefinitions=[
                    {"AttributeName": "MediaType", "AttributeType": "S"},
                    {"AttributeName": "ItemId", "AttributeType": "N"},
                ],
                KeySchema=[
                    {"AttributeName": "MediaType", "KeyType": "HASH"},
                    {"AttributeName": "ItemId", "KeyType": "RANGE"},
                ],
                ProvisionedThroughput={"ReadCapacityUnits": 5, "WriteCapacityUnits": 5},
            )
            log.info("Creating table %s...", self.table_name)
            waiter = self.dynamodb_client.get_waiter("table_exists")
            waiter.wait(TableName=self.table_name)
            log.info("Table %s created.", self.table_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceInUseException":
                log.info("Table %s exists, nothing to be done.", self.table_name)
            else:
                raise RecommendationServiceError(
                    self.table_name, f"ClientError when creating table: {err}."
                )
        else:
            return response

    def populate(self, data_file: str) -> None:
        """
        Populates the recommendations table from a JSON file.

        :param data_file: The path to the data file.
        :raises RecommendationServiceError: If the table population fails.
        """
        try:
            with open(data_file) as data:
                items = json.load(data)
            batch = [{"PutRequest": {"Item": item}} for item in items]
            self.dynamodb_client.batch_write_item(RequestItems={self.table_name: batch})
            log.info(
                "Populated table %s with items from %s.", self.table_name, data_file
            )
        except ClientError as err:
            raise RecommendationServiceError(
                self.table_name, f"Couldn't populate table from {data_file}: {err}"
            )

    def destroy(self) -> None:
        """
        Deletes the recommendations table.

        :raises RecommendationServiceError: If the table deletion fails.
        """
        try:
            self.dynamodb_client.delete_table(TableName=self.table_name)
            log.info("Deleting table %s...", self.table_name)
            waiter = self.dynamodb_client.get_waiter("table_not_exists")
            waiter.wait(TableName=self.table_name)
            log.info("Table %s deleted.", self.table_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                log.info("Table %s does not exist, nothing to do.", self.table_name)
            else:
                raise RecommendationServiceError(
                    self.table_name, f"ClientError when deleting table: {err}."
                )
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
class ParameterHelper:
    """
    Encapsulates Systems Manager parameters. This example uses these parameters to drive
    the demonstration of resilient architecture, such as failure of a dependency or
    how the service responds to a health check.
    """

    table: str = "doc-example-resilient-architecture-table"
    failure_response: str = "doc-example-resilient-architecture-failure-response"
    health_check: str = "doc-example-resilient-architecture-health-check"

    def __init__(self, table_name: str, ssm_client: boto3.client):
        """
        Initializes the ParameterHelper class with the necessary parameters.

        :param table_name: The name of the DynamoDB table that is used as a recommendation
                           service.
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.table_name = table_name

    def reset(self) -> None:
        """
        Resets the Systems Manager parameters to starting values for the demo.
        These are the name of the DynamoDB recommendation table, no response when a
        dependency fails, and shallow health checks.
        """
        self.put(self.table, self.table_name)
        self.put(self.failure_response, "none")
        self.put(self.health_check, "shallow")

    def put(self, name: str, value: str) -> None:
        """
        Sets the value of a named Systems Manager parameter.

        :param name: The name of the parameter.
        :param value: The new value of the parameter.
        :raises ParameterHelperError: If the parameter value cannot be set.
        """
        try:
            self.ssm_client.put_parameter(
                Name=name, Value=value, Overwrite=True, Type="String"
            )
            log.info("Setting parameter %s to '%s'.", name, value)
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to set parameter {name}.")
            if error_code == "ParameterLimitExceeded":
                log.error(
                    "The parameter limit has been exceeded. "
                    "Consider deleting unused parameters or request a limit increase."
                )
            elif error_code == "ParameterAlreadyExists":
                log.error(
                    "The parameter already exists and overwrite is set to False. "
                    "Use Overwrite=True to update the parameter."
                )
            log.error(f"Full error:\n\t{err}")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Python (Boto3)*.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# Contoh Amazon ECR menggunakan SDK for Python (Boto3)
<a name="python_3_ecr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) With Amazon ECR.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon ECR
<a name="ecr_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon ECR.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
import boto3
import argparse
from boto3 import client


def hello_ecr(ecr_client: client, repository_name: str) -> None:
    """
    Use the AWS SDK for Python (Boto3) to create an Amazon Elastic Container Registry (Amazon ECR)
    client and list the images in a repository.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param ecr_client: A Boto3 Amazon ECR Client object. This object wraps
                             the low-level Amazon ECR service API.
    :param repository_name: The name of an Amazon ECR repository in your account.
    """
    print(
        f"Hello, Amazon ECR! Let's list some images in the repository '{repository_name}':\n"
    )
    paginator = ecr_client.get_paginator("list_images")
    page_iterator = paginator.paginate(
        repositoryName=repository_name, PaginationConfig={"MaxItems": 10}
    )

    image_names: [str] = []
    for page in page_iterator:
        for schedule in page["imageIds"]:
            image_names.append(schedule["imageTag"])

    print(f"{len(image_names)} image(s) retrieved.")
    for schedule_name in image_names:
        print(f"\t{schedule_name}")


if __name__ == "__main__":
    parser = argparse.ArgumentParser(description="Run hello Amazon ECR.")
    parser.add_argument(
        "--repository-name",
        type=str,
        help="the name of an Amazon ECR repository in your account.",
        required=True,
    )
    args = parser.parse_args()

    hello_ecr(boto3.client("ecr"), args.repository_name)
```
+  Untuk detail API, lihat [listImages](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/listImages) di *AWS SDK for Python (Boto3)* Referensi API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ecr_Scenario_RepositoryManagement_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat repositori Amazon ECR.
+ Tetapkan kebijakan repositori.
+ Ambil URIs repositori.
+ Dapatkan token otorisasi Amazon ECR.
+ Tetapkan kebijakan siklus hidup untuk repositori Amazon ECR.
+ Dorong gambar Docker ke repositori Amazon ECR.
+ Verifikasi keberadaan gambar di repositori Amazon ECR.
+ Buat daftar repositori Amazon ECR untuk akun Anda dan dapatkan detailnya.
+ Hapus repositori Amazon ECR.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class ECRGettingStarted:
    """
    A scenario that demonstrates how to use Boto3 to perform basic operations using
    Amazon ECR.
    """

    def __init__(
        self,
        ecr_wrapper: ECRWrapper,
        docker_client: docker.DockerClient,
    ):
        self.ecr_wrapper = ecr_wrapper
        self.docker_client = docker_client
        self.tag = "echo-text"
        self.repository_name = "ecr-basics"
        self.docker_image = None
        self.full_tag_name = None
        self.repository = None

    def run(self, role_arn: str) -> None:
        """
        Runs the scenario.
        """
        print(
            """
The Amazon Elastic Container Registry (ECR) is a fully-managed Docker container registry
service provided by AWS. It allows developers and organizations to securely
store, manage, and deploy Docker container images.
ECR provides a simple and scalable way to manage container images throughout their lifecycle,
from building and testing to production deployment.

The `ECRWrapper' class is a wrapper for the Boto3 'ecr' client. The 'ecr' client provides a set of methods to
programmatically interact with the Amazon ECR service. This allows developers to
automate the storage, retrieval, and management of container images as part of their application
deployment pipelines. With ECR, teams can focus on building and deploying their
applications without having to worry about the underlying infrastructure required to
host and manage a container registry.

This scenario walks you through how to perform key operations for this service.
Let's get started...
        """
        )
        press_enter_to_continue()
        print_dashes()
        print(
            f"""
* Create an ECR repository.

An ECR repository is a private Docker container repository provided
by Amazon Web Services (AWS). It is a managed service that makes it easy
to store, manage, and deploy Docker container images.
        """
        )
        print(f"Creating a repository named {self.repository_name}")
        self.repository = self.ecr_wrapper.create_repository(self.repository_name)
        print(f"The ARN of the ECR repository is {self.repository['repositoryArn']}")
        repository_uri = self.repository["repositoryUri"]
        press_enter_to_continue()
        print_dashes()

        print(
            f"""
* Build a Docker image.

Create a local Docker image if it does not already exist.
A Python Docker client is used to execute Docker commands.
You must have Docker installed and running.
            """
        )
        print(f"Building a docker image from 'docker_files/Dockerfile'")
        self.full_tag_name = f"{repository_uri}:{self.tag}"
        self.docker_image = self.docker_client.images.build(
            path="docker_files", tag=self.full_tag_name
        )[0]
        print(f"Docker image {self.full_tag_name} successfully built.")
        press_enter_to_continue()
        print_dashes()

        if role_arn is None:
            print(
                """
* Because an IAM role ARN was not provided, a role policy will not be set for this repository.
            """
            )
        else:
            print(
                """
* Set an ECR repository policy.

Setting an ECR repository policy using the `setRepositoryPolicy` function is crucial for maintaining
the security and integrity of your container images. The repository policy allows you to
define specific rules and restrictions for accessing and managing the images stored within your ECR
repository.
        """
            )

            self.grant_role_download_access(role_arn)
            print(f"Download access granted to the IAM role ARN {role_arn}")
            press_enter_to_continue()
            print_dashes()

            print(
                """
* Display ECR repository policy.

Now we will retrieve the ECR policy to ensure it was successfully set.
            """
            )

            policy_text = self.ecr_wrapper.get_repository_policy(self.repository_name)
            print("Policy Text:")
            print(f"{policy_text}")
            press_enter_to_continue()
            print_dashes()

        print(
            """
* Retrieve an ECR authorization token.

You need an authorization token to securely access and interact with the Amazon ECR registry.
The `get_authorization_token` method of the `ecr` client is responsible for securely accessing
and interacting with an Amazon ECR repository. This operation is responsible for obtaining a
valid authorization token, which is required to authenticate your requests to the ECR service.

Without a valid authorization token, you would not be able to perform any operations on the
ECR repository, such as pushing, pulling, or managing your Docker images.
        """
        )

        authorization_token = self.ecr_wrapper.get_authorization_token()
        print("Authorization token retrieved.")
        press_enter_to_continue()
        print_dashes()
        print(
            """
* Get the ECR Repository URI.

The URI  of an Amazon ECR repository is important. When you want to deploy a container image to
a container orchestration platform like Amazon Elastic Kubernetes Service (EKS)
or Amazon Elastic Container Service (ECS), you need to specify the full image URI,
which includes the ECR repository URI. This allows the container runtime to pull the
correct container image from the ECR repository.
        """
        )
        repository_descriptions = self.ecr_wrapper.describe_repositories(
            [self.repository_name]
        )
        repository_uri = repository_descriptions[0]["repositoryUri"]
        print(f"Repository URI found: {repository_uri}")
        press_enter_to_continue()
        print_dashes()

        print(
            """
* Set an ECR Lifecycle Policy.

An ECR Lifecycle Policy is used to manage the lifecycle of Docker images stored in your ECR repositories.
These policies allow you to automatically remove old or unused Docker images from your repositories,
freeing up storage space and reducing costs.

This example policy helps to maintain the size and efficiency of the container registry
by automatically removing older and potentially unused images, ensuring that the
storage is optimized and the registry remains up-to-date.
            """
        )
        press_enter_to_continue()
        self.put_expiration_policy()
        print(f"An expiration policy was added to the repository.")
        print_dashes()

        print(
            """
* Push a docker image to the Amazon ECR Repository.

The Docker client uses the authorization token is used to authenticate the when pushing the image to the 
ECR repository.
        """
        )
        decoded_authorization = base64.b64decode(authorization_token).decode("utf-8")
        username, password = decoded_authorization.split(":")

        resp = self.docker_client.api.push(
            repository=repository_uri,
            auth_config={"username": username, "password": password},
            tag=self.tag,
            stream=True,
            decode=True,
        )
        for line in resp:
            print(line)

        print_dashes()

        print("* Verify if the image is in the ECR Repository.")
        image_descriptions = self.ecr_wrapper.describe_images(
            self.repository_name, [self.tag]
        )
        if len(image_descriptions) > 0:
            print("Image found in ECR Repository.")
        else:
            print("Image not found in ECR Repository.")
        press_enter_to_continue()
        print_dashes()

        print(
            "* As an optional step, you can interact with the image in Amazon ECR by using the CLI."
        )
        if q.ask(
            "Would you like to view instructions on how to use the CLI to run the image? (y/n)",
            q.is_yesno,
        ):
            print(
                f"""
1. Authenticate with ECR - Before you can pull the image from Amazon ECR, you need to authenticate with the registry. You can do this using the AWS CLI:

    aws ecr get-login-password --region us-east-1 | docker login --username AWS --password-stdin {repository_uri.split("/")[0]}

2. Describe the image using this command:

   aws ecr describe-images --repository-name {self.repository_name} --image-ids imageTag={self.tag}

3. Run the Docker container and view the output using this command:

   docker run --rm {self.full_tag_name}
"""
            )

        self.cleanup(True)

    def cleanup(self, ask: bool):
        """
        Deletes the resources created in this scenario.
        :param ask: If True, prompts the user to confirm before deleting the resources.
        """
        if self.repository is not None and (
            not ask
            or q.ask(
                f"Would you like to delete the ECR repository '{self.repository_name}? (y/n) "
            )
        ):
            print(f"Deleting the ECR repository '{self.repository_name}'.")
            self.ecr_wrapper.delete_repository(self.repository_name)

        if self.full_tag_name is not None and (
            not ask
            or q.ask(
                f"Would you like to delete the local Docker image '{self.full_tag_name}? (y/n) "
            )
        ):
            print(f"Deleting the docker image '{self.full_tag_name}'.")
            self.docker_client.images.remove(self.full_tag_name)

    def grant_role_download_access(self, role_arn: str):
        """
        Grants the specified role access to download images from the ECR repository.

        :param role_arn: The ARN of the role to grant access to.
        """
        policy_json = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Sid": "AllowDownload",
                    "Effect": "Allow",
                    "Principal": {"AWS": role_arn},
                    "Action": ["ecr:BatchGetImage"],
                }
            ],
        }

        self.ecr_wrapper.set_repository_policy(
            self.repository_name, json.dumps(policy_json)
        )


    def put_expiration_policy(self):
        """
        Puts an expiration policy on the ECR repository.
        """
        policy_json = {
            "rules": [
                {
                    "rulePriority": 1,
                    "description": "Expire images older than 14 days",
                    "selection": {
                        "tagStatus": "any",
                        "countType": "sinceImagePushed",
                        "countUnit": "days",
                        "countNumber": 14,
                    },
                    "action": {"type": "expire"},
                }
            ]
        }

        self.ecr_wrapper.put_lifecycle_policy(
            self.repository_name, json.dumps(policy_json)
        )



if __name__ == "__main__":
    parser = argparse.ArgumentParser(
        description="Run Amazon ECR getting started scenario."
    )
    parser.add_argument(
        "--iam-role-arn",
        type=str,
        default=None,
        help="an optional IAM role ARN that will be granted access to download images from a repository.",
        required=False,
    )
    parser.add_argument(
        "--no-art",
        action="store_true",
        help="accessibility setting that suppresses art in the console output.",
    )
    args = parser.parse_args()
    no_art = args.no_art
    iam_role_arn = args.iam_role_arn
    demo = None
    a_docker_client = None
    try:
        a_docker_client = docker.from_env()
        if not a_docker_client.ping():
            raise docker.errors.DockerException("Docker is not running.")
    except docker.errors.DockerException as err:
        logging.error(
            """
        The Python Docker client could not be created. 
        Do you have Docker installed and running?
        Here is the error message:
        %s
        """,
            err,
        )
        sys.exit("Error with Docker.")
    try:
        an_ecr_wrapper = ECRWrapper.from_client()
        demo = ECRGettingStarted(an_ecr_wrapper, a_docker_client)
        demo.run(iam_role_arn)

    except Exception as exception:
        logging.exception("Something went wrong with the demo!")
        if demo is not None:
            demo.cleanup(False)
```
ECRWrapper kelas yang membungkus tindakan Amazon ECR.  

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def create_repository(self, repository_name: str) -> dict[str, any]:
        """
        Creates an ECR repository.

        :param repository_name: The name of the repository to create.
        :return: A dictionary of the created repository.
        """
        try:
            response = self.ecr_client.create_repository(repositoryName=repository_name)
            return response["repository"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "RepositoryAlreadyExistsException":
                print(f"Repository {repository_name} already exists.")
                response = self.ecr_client.describe_repositories(
                    repositoryNames=[repository_name]
                )
                return self.describe_repositories([repository_name])[0]
            else:
                logger.error(
                    "Error creating repository %s. Here's why %s",
                    repository_name,
                    err.response["Error"]["Message"],
                )
                raise


    def delete_repository(self, repository_name: str):
        """
        Deletes an ECR repository.

        :param repository_name: The name of the repository to delete.
        """
        try:
            self.ecr_client.delete_repository(
                repositoryName=repository_name, force=True
            )
            print(f"Deleted repository {repository_name}.")
        except ClientError as err:
            logger.error(
                "Couldn't delete repository %s.. Here's why %s",
                repository_name,
                err.response["Error"]["Message"],
            )
            raise


    def set_repository_policy(self, repository_name: str, policy_text: str):
        """
        Sets the policy for an ECR repository.

        :param repository_name: The name of the repository to set the policy for.
        :param policy_text: The policy text to set.
        """
        try:
            self.ecr_client.set_repository_policy(
                repositoryName=repository_name, policyText=policy_text
            )
            print(f"Set repository policy for repository {repository_name}.")
        except ClientError as err:
            if err.response["Error"]["Code"] == "RepositoryPolicyNotFoundException":
                logger.error("Repository does not exist. %s.", repository_name)
                raise
            else:
                logger.error(
                    "Couldn't set repository policy for repository %s. Here's why %s",
                    repository_name,
                    err.response["Error"]["Message"],
                )
                raise


    def get_repository_policy(self, repository_name: str) -> str:
        """
        Gets the policy for an ECR repository.

        :param repository_name: The name of the repository to get the policy for.
        :return: The policy text.
        """
        try:
            response = self.ecr_client.get_repository_policy(
                repositoryName=repository_name
            )
            return response["policyText"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "RepositoryPolicyNotFoundException":
                logger.error("Repository does not exist. %s.", repository_name)
                raise
            else:
                logger.error(
                    "Couldn't get repository policy for repository %s. Here's why %s",
                    repository_name,
                    err.response["Error"]["Message"],
                )
                raise


    def get_authorization_token(self) -> str:
        """
        Gets an authorization token for an ECR repository.

        :return: The authorization token.
        """
        try:
            response = self.ecr_client.get_authorization_token()
            return response["authorizationData"][0]["authorizationToken"]
        except ClientError as err:
            logger.error(
                "Couldn't get authorization token. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise


    def describe_repositories(self, repository_names: list[str]) -> list[dict]:
        """
        Describes ECR repositories.

        :param repository_names: The names of the repositories to describe.
        :return: The list of repository descriptions.
        """
        try:
            response = self.ecr_client.describe_repositories(
                repositoryNames=repository_names
            )
            return response["repositories"]
        except ClientError as err:
            logger.error(
                "Couldn't describe repositories. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise


    def put_lifecycle_policy(self, repository_name: str, lifecycle_policy_text: str):
        """
        Puts a lifecycle policy for an ECR repository.

        :param repository_name: The name of the repository to put the lifecycle policy for.
        :param lifecycle_policy_text: The lifecycle policy text to put.
        """
        try:
            self.ecr_client.put_lifecycle_policy(
                repositoryName=repository_name,
                lifecyclePolicyText=lifecycle_policy_text,
            )
            print(f"Put lifecycle policy for repository {repository_name}.")
        except ClientError as err:
            logger.error(
                "Couldn't put lifecycle policy for repository %s. Here's why %s",
                repository_name,
                err.response["Error"]["Message"],
            )
            raise


    def describe_images(
        self, repository_name: str, image_ids: list[str] = None
    ) -> list[dict]:
        """
        Describes ECR images.

        :param repository_name: The name of the repository to describe images for.
        :param image_ids: The optional IDs of images to describe.
        :return: The list of image descriptions.
        """
        try:
            params = {
                "repositoryName": repository_name,
            }
            if image_ids is not None:
                params["imageIds"] = [{"imageTag": tag} for tag in image_ids]

            paginator = self.ecr_client.get_paginator("describe_images")
            image_descriptions = []
            for page in paginator.paginate(**params):
                image_descriptions.extend(page["imageDetails"])
            return image_descriptions
        except ClientError as err:
            logger.error(
                "Couldn't describe images. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateRepository](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/CreateRepository)
  + [DeleteRepository](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/DeleteRepository)
  + [DescribeImages](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/DescribeImages)
  + [DescribeRepositories](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/DescribeRepositories)
  + [GetAuthorizationToken](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/GetAuthorizationToken)
  + [GetRepositoryPolicy](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/GetRepositoryPolicy)
  + [SetRepositoryPolicy](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/SetRepositoryPolicy)
  + [StartLifecyclePolicyPreview](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/StartLifecyclePolicyPreview)

## Tindakan
<a name="actions"></a>

### `CreateRepository`
<a name="ecr_CreateRepository_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRepository`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def create_repository(self, repository_name: str) -> dict[str, any]:
        """
        Creates an ECR repository.

        :param repository_name: The name of the repository to create.
        :return: A dictionary of the created repository.
        """
        try:
            response = self.ecr_client.create_repository(repositoryName=repository_name)
            return response["repository"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "RepositoryAlreadyExistsException":
                print(f"Repository {repository_name} already exists.")
                response = self.ecr_client.describe_repositories(
                    repositoryNames=[repository_name]
                )
                return self.describe_repositories([repository_name])[0]
            else:
                logger.error(
                    "Error creating repository %s. Here's why %s",
                    repository_name,
                    err.response["Error"]["Message"],
                )
                raise
```
+  Untuk detail API, lihat [CreateRepository](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/CreateRepository)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteRepository`
<a name="ecr_DeleteRepository_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRepository`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def delete_repository(self, repository_name: str):
        """
        Deletes an ECR repository.

        :param repository_name: The name of the repository to delete.
        """
        try:
            self.ecr_client.delete_repository(
                repositoryName=repository_name, force=True
            )
            print(f"Deleted repository {repository_name}.")
        except ClientError as err:
            logger.error(
                "Couldn't delete repository %s.. Here's why %s",
                repository_name,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteRepository](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/DeleteRepository)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeImages`
<a name="ecr_DescribeImages_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def describe_images(
        self, repository_name: str, image_ids: list[str] = None
    ) -> list[dict]:
        """
        Describes ECR images.

        :param repository_name: The name of the repository to describe images for.
        :param image_ids: The optional IDs of images to describe.
        :return: The list of image descriptions.
        """
        try:
            params = {
                "repositoryName": repository_name,
            }
            if image_ids is not None:
                params["imageIds"] = [{"imageTag": tag} for tag in image_ids]

            paginator = self.ecr_client.get_paginator("describe_images")
            image_descriptions = []
            for page in paginator.paginate(**params):
                image_descriptions.extend(page["imageDetails"])
            return image_descriptions
        except ClientError as err:
            logger.error(
                "Couldn't describe images. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/DescribeImages)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeRepositories`
<a name="ecr_DescribeRepositories_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRepositories`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def describe_repositories(self, repository_names: list[str]) -> list[dict]:
        """
        Describes ECR repositories.

        :param repository_names: The names of the repositories to describe.
        :return: The list of repository descriptions.
        """
        try:
            response = self.ecr_client.describe_repositories(
                repositoryNames=repository_names
            )
            return response["repositories"]
        except ClientError as err:
            logger.error(
                "Couldn't describe repositories. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DescribeRepositories](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/DescribeRepositories)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetAuthorizationToken`
<a name="ecr_GetAuthorizationToken_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAuthorizationToken`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def get_authorization_token(self) -> str:
        """
        Gets an authorization token for an ECR repository.

        :return: The authorization token.
        """
        try:
            response = self.ecr_client.get_authorization_token()
            return response["authorizationData"][0]["authorizationToken"]
        except ClientError as err:
            logger.error(
                "Couldn't get authorization token. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [GetAuthorizationToken](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/GetAuthorizationToken)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetRepositoryPolicy`
<a name="ecr_GetRepositoryPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRepositoryPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def get_repository_policy(self, repository_name: str) -> str:
        """
        Gets the policy for an ECR repository.

        :param repository_name: The name of the repository to get the policy for.
        :return: The policy text.
        """
        try:
            response = self.ecr_client.get_repository_policy(
                repositoryName=repository_name
            )
            return response["policyText"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "RepositoryPolicyNotFoundException":
                logger.error("Repository does not exist. %s.", repository_name)
                raise
            else:
                logger.error(
                    "Couldn't get repository policy for repository %s. Here's why %s",
                    repository_name,
                    err.response["Error"]["Message"],
                )
                raise
```
+  Untuk detail API, lihat [GetRepositoryPolicy](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/GetRepositoryPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutLifeCyclePolicy`
<a name="ecr_PutLifeCyclePolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutLifeCyclePolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def put_lifecycle_policy(self, repository_name: str, lifecycle_policy_text: str):
        """
        Puts a lifecycle policy for an ECR repository.

        :param repository_name: The name of the repository to put the lifecycle policy for.
        :param lifecycle_policy_text: The lifecycle policy text to put.
        """
        try:
            self.ecr_client.put_lifecycle_policy(
                repositoryName=repository_name,
                lifecyclePolicyText=lifecycle_policy_text,
            )
            print(f"Put lifecycle policy for repository {repository_name}.")
        except ClientError as err:
            logger.error(
                "Couldn't put lifecycle policy for repository %s. Here's why %s",
                repository_name,
                err.response["Error"]["Message"],
            )
            raise
```
Contoh yang menempatkan kebijakan tanggal kedaluwarsa.  

```
    def put_expiration_policy(self):
        """
        Puts an expiration policy on the ECR repository.
        """
        policy_json = {
            "rules": [
                {
                    "rulePriority": 1,
                    "description": "Expire images older than 14 days",
                    "selection": {
                        "tagStatus": "any",
                        "countType": "sinceImagePushed",
                        "countUnit": "days",
                        "countNumber": 14,
                    },
                    "action": {"type": "expire"},
                }
            ]
        }

        self.ecr_wrapper.put_lifecycle_policy(
            self.repository_name, json.dumps(policy_json)
        )
```
+  Untuk detail API, lihat [PutLifeCyclePolicy](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/PutLifeCyclePolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SetRepositoryPolicy`
<a name="ecr_SetRepositoryPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetRepositoryPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ecr#code-examples). 

```
class ECRWrapper:
    def __init__(self, ecr_client: client):
        self.ecr_client = ecr_client

    @classmethod
    def from_client(cls) -> "ECRWrapper":
        """
        Creates a ECRWrapper instance with a default Amazon ECR client.

        :return: An instance of ECRWrapper initialized with the default Amazon ECR client.
        """
        ecr_client = boto3.client("ecr")
        return cls(ecr_client)


    def set_repository_policy(self, repository_name: str, policy_text: str):
        """
        Sets the policy for an ECR repository.

        :param repository_name: The name of the repository to set the policy for.
        :param policy_text: The policy text to set.
        """
        try:
            self.ecr_client.set_repository_policy(
                repositoryName=repository_name, policyText=policy_text
            )
            print(f"Set repository policy for repository {repository_name}.")
        except ClientError as err:
            if err.response["Error"]["Code"] == "RepositoryPolicyNotFoundException":
                logger.error("Repository does not exist. %s.", repository_name)
                raise
            else:
                logger.error(
                    "Couldn't set repository policy for repository %s. Here's why %s",
                    repository_name,
                    err.response["Error"]["Message"],
                )
                raise
```
Contoh yang memberikan akses unduhan peran IAM.  

```
    def grant_role_download_access(self, role_arn: str):
        """
        Grants the specified role access to download images from the ECR repository.

        :param role_arn: The ARN of the role to grant access to.
        """
        policy_json = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Sid": "AllowDownload",
                    "Effect": "Allow",
                    "Principal": {"AWS": role_arn},
                    "Action": ["ecr:BatchGetImage"],
                }
            ],
        }

        self.ecr_wrapper.set_repository_policy(
            self.repository_name, json.dumps(policy_json)
        )
```
+  Untuk detail API, lihat [SetRepositoryPolicy](https://docs.aws.amazon.com/goto/boto3/ecr-2015-09-21/SetRepositoryPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

# Elastic Load Balancing - Contoh Versi 2 menggunakan SDK for Python (Boto3)
<a name="python_3_elastic-load-balancing-v2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Elastic Load Balancing - Versi 2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Elastic Load Balancing
<a name="elastic-load-balancing-v2_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Elastic Load Balancing.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/elastic-load-balancing#code-examples). 

```
import boto3


def hello_elbv2(elbv2_client):
    """
    Use the AWS SDK for Python (Boto3) to create an Elastic Load Balancing V2 client and list
    up to ten of the load balancers for your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param elbv2_client: A Boto3 Elastic Load Balancing V2 client object.
    """
    print("Hello, Elastic Load Balancing! Let's list some of your load balancers:")
    load_balancers = elbv2_client.describe_load_balancers(PageSize=10).get(
        "LoadBalancers", []
    )
    if load_balancers:
        for lb in load_balancers:
            print(f"\t{lb['LoadBalancerName']}: {lb['DNSName']}")
    else:
        print("Your account doesn't have any load balancers.")


if __name__ == "__main__":
    hello_elbv2(boto3.client("elbv2"))
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)di *AWS SDK for Python (Boto3) Referensi* API. 

## Tindakan
<a name="actions"></a>

### `CreateListener`
<a name="elastic-load-balancing-v2_CreateListener_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateListener`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/elastic-load-balancing#code-examples). 

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def create_listener(
        self,
        load_balancer_name: str,
        target_group: Dict[str, Any],
    ) -> Dict[str, Any]:
        """
        Creates a listener for the specified load balancer that forwards requests to the
        specified target group.

        :param load_balancer_name: The name of the load balancer to create a listener for.
        :param target_group: An existing target group that is added as a listener to the
                             load balancer.
        :return: Data about the newly created listener.
        """
        try:
            # Retrieve the load balancer ARN
            load_balancer_response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            load_balancer_arn = load_balancer_response["LoadBalancers"][0][
                "LoadBalancerArn"
            ]

            # Create the listener
            response = self.elb_client.create_listener(
                LoadBalancerArn=load_balancer_arn,
                Protocol=target_group["Protocol"],
                Port=target_group["Port"],
                DefaultActions=[
                    {
                        "Type": "forward",
                        "TargetGroupArn": target_group["TargetGroupArn"],
                    }
                ],
            )
            log.info(
                f"Created listener to forward traffic from load balancer '{load_balancer_name}' to target group '{target_group['TargetGroupName']}'."
            )
            return response["Listeners"][0]
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to add a listener on '{load_balancer_name}' for target group '{target_group['TargetGroupName']}'."
            )

            if error_code == "ListenerNotFoundException":
                log.error(
                    f"The listener could not be found for the load balancer '{load_balancer_name}'. "
                    "Please check the load balancer name and target group configuration."
                )
            if error_code == "InvalidConfigurationRequestException":
                log.error(
                    f"The configuration provided for the listener on load balancer '{load_balancer_name}' is invalid. "
                    "Please review the provided protocol, port, and target group settings."
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [CreateListener](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateListener)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateLoadBalancer`
<a name="elastic-load-balancing-v2_CreateLoadBalancer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateLoadBalancer`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/elastic-load-balancing#code-examples). 

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def create_load_balancer(
        self,
        load_balancer_name: str,
        subnet_ids: List[str],
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing load balancer that uses the specified subnets
        and forwards requests to the specified target group.

        :param load_balancer_name: The name of the load balancer to create.
        :param subnet_ids: A list of subnets to associate with the load balancer.
        :return: Data about the newly created load balancer.
        """
        try:
            response = self.elb_client.create_load_balancer(
                Name=load_balancer_name, Subnets=subnet_ids
            )
            load_balancer = response["LoadBalancers"][0]
            log.info(f"Created load balancer '{load_balancer_name}'.")

            waiter = self.elb_client.get_waiter("load_balancer_available")
            log.info(
                f"Waiting for load balancer '{load_balancer_name}' to be available..."
            )
            waiter.wait(Names=[load_balancer_name])
            log.info(f"Load balancer '{load_balancer_name}' is now available!")

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to create load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "DuplicateLoadBalancerNameException":
                log.error(
                    f"A load balancer with the name '{load_balancer_name}' already exists. "
                    "Load balancer names must be unique within the AWS region. "
                    "Please choose a different name and try again."
                )
            if error_code == "TooManyLoadBalancersException":
                log.error(
                    "The maximum number of load balancers has been reached in this account and region. "
                    "You can delete unused load balancers or request an increase in the service quota from AWS Support."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return load_balancer
```
+  Untuk detail API, lihat [CreateLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateTargetGroup`
<a name="elastic-load-balancing-v2_CreateTargetGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTargetGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/elastic-load-balancing#code-examples). 

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def create_target_group(
        self, target_group_name: str, protocol: str, port: int, vpc_id: str
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing target group. The target group specifies how
        the load balancer forwards requests to instances in the group and how instance
        health is checked.

        To speed up this demo, the health check is configured with shortened times and
        lower thresholds. In production, you might want to decrease the sensitivity of
        your health checks to avoid unwanted failures.

        :param target_group_name: The name of the target group to create.
        :param protocol: The protocol to use to forward requests, such as 'HTTP'.
        :param port: The port to use to forward requests, such as 80.
        :param vpc_id: The ID of the VPC in which the load balancer exists.
        :return: Data about the newly created target group.
        """
        try:
            response = self.elb_client.create_target_group(
                Name=target_group_name,
                Protocol=protocol,
                Port=port,
                HealthCheckPath="/healthcheck",
                HealthCheckIntervalSeconds=10,
                HealthCheckTimeoutSeconds=5,
                HealthyThresholdCount=2,
                UnhealthyThresholdCount=2,
                VpcId=vpc_id,
            )
            target_group = response["TargetGroups"][0]
            log.info(f"Created load balancing target group '{target_group_name}'.")
            return target_group
        except ClientError as err:
            log.error(
                f"Couldn't create load balancing target group '{target_group_name}'."
            )
            error_code = err.response["Error"]["Code"]

            if error_code == "DuplicateTargetGroupName":
                log.error(
                    f"Target group name {target_group_name} already exists. "
                    "Check if the target group already exists."
                    "Consider using a different name or deleting the existing target group if appropriate."
                )
            elif error_code == "TooManyTargetGroups":
                log.error(
                    "Too many target groups exist in the account. "
                    "Consider deleting unused target groups to create space for new ones."
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [CreateTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteLoadBalancer`
<a name="elastic-load-balancing-v2_DeleteLoadBalancer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLoadBalancer`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/elastic-load-balancing#code-examples). 

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def delete_load_balancer(self, load_balancer_name) -> None:
        """
        Deletes a load balancer.

        :param load_balancer_name: The name of the load balancer to delete.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            lb_arn = response["LoadBalancers"][0]["LoadBalancerArn"]
            self.elb_client.delete_load_balancer(LoadBalancerArn=lb_arn)
            log.info("Deleted load balancer %s.", load_balancer_name)
            waiter = self.elb_client.get_waiter("load_balancers_deleted")
            log.info("Waiting for load balancer to be deleted...")
            waiter.wait(Names=[load_balancer_name])
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Couldn't delete load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    f"The load balancer '{load_balancer_name}' does not exist. "
                    "Please check the name and try again."
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteTargetGroup`
<a name="elastic-load-balancing-v2_DeleteTargetGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTargetGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/elastic-load-balancing#code-examples). 

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def delete_target_group(self, target_group_name) -> None:
        """
        Deletes the target group.
        """
        try:
            # Describe the target group to get its ARN
            response = self.elb_client.describe_target_groups(Names=[target_group_name])
            tg_arn = response["TargetGroups"][0]["TargetGroupArn"]

            # Delete the target group
            self.elb_client.delete_target_group(TargetGroupArn=tg_arn)
            log.info("Deleted load balancing target group %s.", target_group_name)

            # Use a custom waiter to wait until the target group is no longer available
            self.wait_for_target_group_deletion(self.elb_client, tg_arn)
            log.info("Target group %s successfully deleted.", target_group_name)

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete target group '{target_group_name}'.")
            if error_code == "TargetGroupNotFound":
                log.error(
                    "Load balancer target group either already deleted or never existed. "
                    "Verify the name and check that the resource exists in the AWS Console."
                )
            elif error_code == "ResourceInUseException":
                log.error(
                    "Target group still in use by another resource. "
                    "Ensure that the target group is no longer associated with any load balancers or resources.",
                )
            log.error(f"Full error:\n\t{err}")

    def wait_for_target_group_deletion(
        self, elb_client, target_group_arn, max_attempts=10, delay=30
    ):
        for attempt in range(max_attempts):
            try:
                elb_client.describe_target_groups(TargetGroupArns=[target_group_arn])
                print(
                    f"Attempt {attempt + 1}: Target group {target_group_arn} still exists."
                )
            except ClientError as e:
                if e.response["Error"]["Code"] == "TargetGroupNotFound":
                    print(
                        f"Target group {target_group_arn} has been successfully deleted."
                    )
                    return
                else:
                    raise
            time.sleep(delay)
        raise TimeoutError(
            f"Target group {target_group_arn} was not deleted after {max_attempts * delay} seconds."
        )
```
+  Untuk detail API, lihat [DeleteTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeLoadBalancers`
<a name="elastic-load-balancing-v2_DescribeLoadBalancers_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeLoadBalancers`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/elastic-load-balancing#code-examples). 

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def get_endpoint(self, load_balancer_name) -> str:
        """
        Gets the HTTP endpoint of the load balancer.

        :return: The endpoint.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            return response["LoadBalancers"][0]["DNSName"]
        except ClientError as err:
            log.error(
                f"Couldn't get the endpoint for load balancer {load_balancer_name}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Verify load balancer name and ensure it exists in the AWS console."
                )
            log.error(f"Full error:\n\t{err}")
```
+  Untuk detail API, lihat [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeTargetHealth`
<a name="elastic-load-balancing-v2_DescribeTargetHealth_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTargetHealth`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/elastic-load-balancing#code-examples). 

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def check_target_health(self, target_group_name: str) -> List[Dict[str, Any]]:
        """
        Checks the health of the instances in the target group.

        :return: The health status of the target group.
        """
        try:
            tg_response = self.elb_client.describe_target_groups(
                Names=[target_group_name]
            )
            health_response = self.elb_client.describe_target_health(
                TargetGroupArn=tg_response["TargetGroups"][0]["TargetGroupArn"]
            )
        except ClientError as err:
            log.error(f"Couldn't check health of {target_group_name} target(s).")
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Load balancer associated with the target group was not found. "
                    "Ensure the load balancer exists, is in the correct AWS region, and "
                    "that you have the necessary permissions to access it.",
                )
            elif error_code == "TargetGroupNotFoundException":
                log.error(
                    "Target group was not found. "
                    "Verify the target group name, check that it exists in the correct region, "
                    "and ensure it has not been deleted or created in a different account.",
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return health_response["TargetHealthDescriptions"]
```
+  Untuk detail API, lihat [DescribeTargetHealth](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/resilient_service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
class Runner:
    """
    Manages the deployment, demonstration, and destruction of resources for the resilient service.
    """

    def __init__(
        self,
        resource_path: str,
        recommendation: RecommendationService,
        autoscaler: AutoScalingWrapper,
        loadbalancer: ElasticLoadBalancerWrapper,
        param_helper: ParameterHelper,
    ):
        """
        Initializes the Runner class with the necessary parameters.

        :param resource_path: The path to resource files used by this example, such as IAM policies and instance scripts.
        :param recommendation: An instance of the RecommendationService class.
        :param autoscaler: An instance of the AutoScaler class.
        :param loadbalancer: An instance of the LoadBalancer class.
        :param param_helper: An instance of the ParameterHelper class.
        """
        self.resource_path = resource_path
        self.recommendation = recommendation
        self.autoscaler = autoscaler
        self.loadbalancer = loadbalancer
        self.param_helper = param_helper
        self.protocol = "HTTP"
        self.port = 80
        self.ssh_port = 22

        prefix = "doc-example-resilience"
        self.target_group_name = f"{prefix}-tg"
        self.load_balancer_name = f"{prefix}-lb"

    def deploy(self) -> None:
        """
        Deploys the resources required for the resilient service, including the DynamoDB table,
        EC2 instances, Auto Scaling group, and load balancer.
        """
        recommendations_path = f"{self.resource_path}/recommendations.json"
        startup_script = f"{self.resource_path}/server_startup_script.sh"
        instance_policy = f"{self.resource_path}/instance_policy.json"

        logging.info("Starting deployment of resources for the resilient service.")

        logging.info(
            "Creating and populating DynamoDB table '%s'.",
            self.recommendation.table_name,
        )
        self.recommendation.create()
        self.recommendation.populate(recommendations_path)

        logging.info(
            "Creating an EC2 launch template with the startup script '%s'.",
            startup_script,
        )
        self.autoscaler.create_template(startup_script, instance_policy)

        logging.info(
            "Creating an EC2 Auto Scaling group across multiple Availability Zones."
        )
        zones = self.autoscaler.create_autoscaling_group(3)

        logging.info("Creating variables that control the flow of the demo.")
        self.param_helper.reset()

        logging.info("Creating Elastic Load Balancing target group and load balancer.")

        vpc = self.autoscaler.get_default_vpc()
        subnets = self.autoscaler.get_subnets(vpc["VpcId"], zones)
        target_group = self.loadbalancer.create_target_group(
            self.target_group_name, self.protocol, self.port, vpc["VpcId"]
        )
        self.loadbalancer.create_load_balancer(
            self.load_balancer_name, [subnet["SubnetId"] for subnet in subnets]
        )
        self.loadbalancer.create_listener(self.load_balancer_name, target_group)

        self.autoscaler.attach_load_balancer_target_group(target_group)

        logging.info("Verifying access to the load balancer endpoint.")
        endpoint = self.loadbalancer.get_endpoint(self.load_balancer_name)
        lb_success = self.loadbalancer.verify_load_balancer_endpoint(endpoint)
        current_ip_address = requests.get("http://checkip.amazonaws.com").text.strip()

        if not lb_success:
            logging.warning(
                "Couldn't connect to the load balancer. Verifying that the port is open..."
            )
            sec_group, port_is_open = self.autoscaler.verify_inbound_port(
                vpc, self.port, current_ip_address
            )
            sec_group, ssh_port_is_open = self.autoscaler.verify_inbound_port(
                vpc, self.ssh_port, current_ip_address
            )
            if not port_is_open:
                logging.warning(
                    "The default security group for your VPC must allow access from this computer."
                )
                if q.ask(
                    f"Do you want to add a rule to security group {sec_group['GroupId']} to allow\n"
                    f"inbound traffic on port {self.port} from your computer's IP address of {current_ip_address}? (y/n) ",
                    q.is_yesno,
                ):
                    self.autoscaler.open_inbound_port(
                        sec_group["GroupId"], self.port, current_ip_address
                    )
            if not ssh_port_is_open:
                if q.ask(
                    f"Do you want to add a rule to security group {sec_group['GroupId']} to allow\n"
                    f"inbound SSH traffic on port {self.ssh_port} for debugging from your computer's IP address of {current_ip_address}? (y/n) ",
                    q.is_yesno,
                ):
                    self.autoscaler.open_inbound_port(
                        sec_group["GroupId"], self.ssh_port, current_ip_address
                    )
            lb_success = self.loadbalancer.verify_load_balancer_endpoint(endpoint)

        if lb_success:
            logging.info(
                "Load balancer is ready. Access it at: http://%s", current_ip_address
            )
        else:
            logging.error(
                "Couldn't get a successful response from the load balancer endpoint. Please verify your VPC and security group settings."
            )

    def demo_choices(self) -> None:
        """
        Presents choices for interacting with the deployed service, such as sending requests to
        the load balancer or checking the health of the targets.
        """
        actions = [
            "Send a GET request to the load balancer endpoint.",
            "Check the health of load balancer targets.",
            "Go to the next part of the demo.",
        ]
        choice = 0
        while choice != 2:
            logging.info("Choose an action to interact with the service.")
            choice = q.choose("Which action would you like to take? ", actions)
            if choice == 0:
                logging.info("Sending a GET request to the load balancer endpoint.")
                endpoint = self.loadbalancer.get_endpoint(self.load_balancer_name)
                logging.info("GET http://%s", endpoint)
                response = requests.get(f"http://{endpoint}")
                logging.info("Response: %s", response.status_code)
                if response.headers.get("content-type") == "application/json":
                    pp(response.json())
            elif choice == 1:
                logging.info("Checking the health of load balancer targets.")
                health = self.loadbalancer.check_target_health(self.target_group_name)
                for target in health:
                    state = target["TargetHealth"]["State"]
                    logging.info(
                        "Target %s on port %d is %s",
                        target["Target"]["Id"],
                        target["Target"]["Port"],
                        state,
                    )
                    if state != "healthy":
                        logging.warning(
                            "%s: %s",
                            target["TargetHealth"]["Reason"],
                            target["TargetHealth"]["Description"],
                        )
                logging.info(
                    "Note that it can take a minute or two for the health check to update."
                )
            elif choice == 2:
                logging.info("Proceeding to the next part of the demo.")

    def demo(self) -> None:
        """
        Runs the demonstration, showing how the service responds to different failure scenarios
        and how a resilient architecture can keep the service running.
        """
        ssm_only_policy = f"{self.resource_path}/ssm_only_policy.json"

        logging.info("Resetting parameters to starting values for the demo.")
        self.param_helper.reset()

        logging.info(
            "Starting demonstration of the service's resilience under various failure conditions."
        )
        self.demo_choices()

        logging.info(
            "Simulating failure by changing the Systems Manager parameter to a non-existent table."
        )
        self.param_helper.put(self.param_helper.table, "this-is-not-a-table")
        logging.info("Sending GET requests will now return failure codes.")
        self.demo_choices()

        logging.info("Switching to static response mode to mitigate failure.")
        self.param_helper.put(self.param_helper.failure_response, "static")
        logging.info("Sending GET requests will now return static responses.")
        self.demo_choices()

        logging.info("Restoring normal operation of the recommendation service.")
        self.param_helper.put(self.param_helper.table, self.recommendation.table_name)

        logging.info(
            "Introducing a failure by assigning bad credentials to one of the instances."
        )
        self.autoscaler.create_instance_profile(
            ssm_only_policy,
            self.autoscaler.bad_creds_policy_name,
            self.autoscaler.bad_creds_role_name,
            self.autoscaler.bad_creds_profile_name,
            ["AmazonSSMManagedInstanceCore"],
        )
        instances = self.autoscaler.get_instances()
        bad_instance_id = instances[0]
        instance_profile = self.autoscaler.get_instance_profile(bad_instance_id)
        logging.info(
            "Replacing instance profile with bad credentials for instance %s.",
            bad_instance_id,
        )
        self.autoscaler.replace_instance_profile(
            bad_instance_id,
            self.autoscaler.bad_creds_profile_name,
            instance_profile["AssociationId"],
        )
        logging.info(
            "Sending GET requests may return either a valid recommendation or a static response."
        )
        self.demo_choices()

        logging.info("Implementing deep health checks to detect unhealthy instances.")
        self.param_helper.put(self.param_helper.health_check, "deep")
        logging.info("Checking the health of the load balancer targets.")
        self.demo_choices()

        logging.info(
            "Terminating the unhealthy instance to let the auto scaler replace it."
        )
        self.autoscaler.terminate_instance(bad_instance_id)
        logging.info("The service remains resilient during instance replacement.")
        self.demo_choices()

        logging.info("Simulating a complete failure of the recommendation service.")
        self.param_helper.put(self.param_helper.table, "this-is-not-a-table")
        logging.info(
            "All instances will report as unhealthy, but the service will still return static responses."
        )
        self.demo_choices()
        self.param_helper.reset()

    def destroy(self, automation=False) -> None:
        """
        Destroys all resources created for the demo, including the load balancer, Auto Scaling group,
        EC2 instances, and DynamoDB table.
        """
        logging.info(
            "This concludes the demo. Preparing to clean up all AWS resources created during the demo."
        )
        if automation:
            cleanup = True
        else:
            cleanup = q.ask(
                "Do you want to clean up all demo resources? (y/n) ", q.is_yesno
            )

        if cleanup:
            logging.info("Deleting load balancer and related resources.")
            self.loadbalancer.delete_load_balancer(self.load_balancer_name)
            self.loadbalancer.delete_target_group(self.target_group_name)
            self.autoscaler.delete_autoscaling_group(self.autoscaler.group_name)
            self.autoscaler.delete_key_pair()
            self.autoscaler.delete_template()
            self.autoscaler.delete_instance_profile(
                self.autoscaler.bad_creds_profile_name,
                self.autoscaler.bad_creds_role_name,
            )
            logging.info("Deleting DynamoDB table and other resources.")
            self.recommendation.destroy()
        else:
            logging.warning(
                "Resources have not been deleted. Ensure you clean them up manually to avoid unexpected charges."
            )


def main() -> None:
    """
    Main function to parse arguments and run the appropriate actions for the demo.
    """
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--action",
        required=True,
        choices=["all", "deploy", "demo", "destroy"],
        help="The action to take for the demo. When 'all' is specified, resources are\n"
        "deployed, the demo is run, and resources are destroyed.",
    )
    parser.add_argument(
        "--resource_path",
        default="../../../scenarios/features/resilient_service/resources",
        help="The path to resource files used by this example, such as IAM policies and\n"
        "instance scripts.",
    )
    args = parser.parse_args()

    logging.info("Starting the Resilient Service demo.")

    prefix = "doc-example-resilience"

    # Service Clients
    ddb_client = boto3.client("dynamodb")
    elb_client = boto3.client("elbv2")
    autoscaling_client = boto3.client("autoscaling")
    ec2_client = boto3.client("ec2")
    ssm_client = boto3.client("ssm")
    iam_client = boto3.client("iam")

    # Wrapper instantiations
    recommendation = RecommendationService(
        "doc-example-recommendation-service", ddb_client
    )
    autoscaling_wrapper = AutoScalingWrapper(
        prefix,
        "t3.micro",
        "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
        autoscaling_client,
        ec2_client,
        ssm_client,
        iam_client,
    )
    elb_wrapper = ElasticLoadBalancerWrapper(elb_client)
    param_helper = ParameterHelper(recommendation.table_name, ssm_client)

    # Demo invocation
    runner = Runner(
        args.resource_path,
        recommendation,
        autoscaling_wrapper,
        elb_wrapper,
        param_helper,
    )
    actions = [args.action] if args.action != "all" else ["deploy", "demo", "destroy"]
    for action in actions:
        if action == "deploy":
            runner.deploy()
        elif action == "demo":
            runner.demo()
        elif action == "destroy":
            runner.destroy()

    logging.info("Demo completed successfully.")


if __name__ == "__main__":
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    main()
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def create_policy(self, policy_file: str, policy_name: str) -> str:
        """
        Creates a new IAM policy or retrieves the ARN of an existing policy.

        :param policy_file: The path to a JSON file that contains the policy definition.
        :param policy_name: The name to give the created policy.
        :return: The ARN of the created or existing policy.
        """
        with open(policy_file) as file:
            policy_doc = file.read()

        try:
            response = self.iam_client.create_policy(
                PolicyName=policy_name, PolicyDocument=policy_doc
            )
            policy_arn = response["Policy"]["Arn"]
            log.info(f"Policy '{policy_name}' created successfully. ARN: {policy_arn}")
            return policy_arn

        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                # If the policy already exists, get its ARN
                response = self.iam_client.get_policy(
                    PolicyArn=f"arn:aws:iam::{self.account_id}:policy/{policy_name}"
                )
                policy_arn = response["Policy"]["Arn"]
                log.info(f"Policy '{policy_name}' already exists. ARN: {policy_arn}")
                return policy_arn
            log.error(f"Full error:\n\t{err}")

    def create_role(self, role_name: str, assume_role_doc: dict) -> str:
        """
        Creates a new IAM role or retrieves the ARN of an existing role.

        :param role_name: The name to give the created role.
        :param assume_role_doc: The assume role policy document that specifies which
                                entities can assume the role.
        :return: The ARN of the created or existing role.
        """
        try:
            response = self.iam_client.create_role(
                RoleName=role_name, AssumeRolePolicyDocument=json.dumps(assume_role_doc)
            )
            role_arn = response["Role"]["Arn"]
            log.info(f"Role '{role_name}' created successfully. ARN: {role_arn}")
            return role_arn

        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                # If the role already exists, get its ARN
                response = self.iam_client.get_role(RoleName=role_name)
                role_arn = response["Role"]["Arn"]
                log.info(f"Role '{role_name}' already exists. ARN: {role_arn}")
                return role_arn
            log.error(f"Full error:\n\t{err}")

    def attach_policy(
        self,
        role_name: str,
        policy_arn: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> None:
        """
        Attaches an IAM policy to a role and optionally attaches additional AWS-managed policies.

        :param role_name: The name of the role to attach the policy to.
        :param policy_arn: The ARN of the policy to attach.
        :param aws_managed_policies: A tuple of AWS-managed policy names to attach to the role.
        """
        try:
            self.iam_client.attach_role_policy(RoleName=role_name, PolicyArn=policy_arn)
            for aws_policy in aws_managed_policies:
                self.iam_client.attach_role_policy(
                    RoleName=role_name,
                    PolicyArn=f"arn:aws:iam::aws:policy/{aws_policy}",
                )
            log.info(f"Attached policy {policy_arn} to role {role_name}.")
        except ClientError as err:
            log.error(f"Failed to attach policy {policy_arn} to role {role_name}.")
            log.error(f"Full error:\n\t{err}")

    def create_instance_profile(
        self,
        policy_file: str,
        policy_name: str,
        role_name: str,
        profile_name: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> str:
        """
        Creates a policy, role, and profile that is associated with instances created by
        this class. An instance's associated profile defines a role that is assumed by the
        instance. The role has attached policies that specify the AWS permissions granted to
        clients that run on the instance.

        :param policy_file: The name of a JSON file that contains the policy definition to
                            create and attach to the role.
        :param policy_name: The name to give the created policy.
        :param role_name: The name to give the created role.
        :param profile_name: The name to the created profile.
        :param aws_managed_policies: Additional AWS-managed policies that are attached to
                                     the role, such as AmazonSSMManagedInstanceCore to grant
                                     use of Systems Manager to send commands to the instance.
        :return: The ARN of the profile that is created.
        """
        assume_role_doc = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Effect": "Allow",
                    "Principal": {"Service": "ec2.amazonaws.com"},
                    "Action": "sts:AssumeRole",
                }
            ],
        }
        policy_arn = self.create_policy(policy_file, policy_name)
        self.create_role(role_name, assume_role_doc)
        self.attach_policy(role_name, policy_arn, aws_managed_policies)

        try:
            profile_response = self.iam_client.create_instance_profile(
                InstanceProfileName=profile_name
            )
            waiter = self.iam_client.get_waiter("instance_profile_exists")
            waiter.wait(InstanceProfileName=profile_name)
            time.sleep(10)  # wait a little longer
            profile_arn = profile_response["InstanceProfile"]["Arn"]
            self.iam_client.add_role_to_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            log.info("Created profile %s and added role %s.", profile_name, role_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                prof_response = self.iam_client.get_instance_profile(
                    InstanceProfileName=profile_name
                )
                profile_arn = prof_response["InstanceProfile"]["Arn"]
                log.info(
                    "Instance profile %s already exists, nothing to do.", profile_name
                )
            log.error(f"Full error:\n\t{err}")
        return profile_arn


    def get_instance_profile(self, instance_id: str) -> Dict[str, Any]:
        """
        Gets data about the profile associated with an instance.

        :param instance_id: The ID of the instance to look up.
        :return: The profile data.
        """
        try:
            response = self.ec2_client.describe_iam_instance_profile_associations(
                Filters=[{"Name": "instance-id", "Values": [instance_id]}]
            )
            if not response["IamInstanceProfileAssociations"]:
                log.info(f"No instance profile found for instance {instance_id}.")
            profile_data = response["IamInstanceProfileAssociations"][0]
            log.info(f"Retrieved instance profile for instance {instance_id}.")
            return profile_data
        except ClientError as err:
            log.error(
                f"Failed to retrieve instance profile for instance {instance_id}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                log.error(f"The instance ID '{instance_id}' does not exist.")
            log.error(f"Full error:\n\t{err}")


    def replace_instance_profile(
        self,
        instance_id: str,
        new_instance_profile_name: str,
        profile_association_id: str,
    ) -> None:
        """
        Replaces the profile associated with a running instance. After the profile is
        replaced, the instance is rebooted to ensure that it uses the new profile. When
        the instance is ready, Systems Manager is used to restart the Python web server.

        :param instance_id: The ID of the instance to restart.
        :param new_instance_profile_name: The name of the new profile to associate with
                                          the specified instance.
        :param profile_association_id: The ID of the existing profile association for the
                                       instance.
        """
        try:
            self.ec2_client.replace_iam_instance_profile_association(
                IamInstanceProfile={"Name": new_instance_profile_name},
                AssociationId=profile_association_id,
            )
            log.info(
                "Replaced instance profile for association %s with profile %s.",
                profile_association_id,
                new_instance_profile_name,
            )
            time.sleep(5)

            self.ec2_client.reboot_instances(InstanceIds=[instance_id])
            log.info("Rebooting instance %s.", instance_id)
            waiter = self.ec2_client.get_waiter("instance_running")
            log.info("Waiting for instance %s to be running.", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info("Instance %s is now running.", instance_id)

            self.ssm_client.send_command(
                InstanceIds=[instance_id],
                DocumentName="AWS-RunShellScript",
                Parameters={"commands": ["cd / && sudo python3 server.py 80"]},
            )
            log.info(f"Restarted the Python web server on instance '{instance_id}'.")
        except ClientError as err:
            log.error("Failed to replace instance profile.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidAssociationID.NotFound":
                log.error(
                    f"Association ID '{profile_association_id}' does not exist."
                    "Please check the association ID and try again."
                )
            if error_code == "InvalidInstanceId":
                log.error(
                    f"The specified instance ID '{instance_id}' does not exist or is not available for SSM. "
                    f"Please verify the instance ID and try again."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_instance_profile(self, profile_name: str, role_name: str) -> None:
        """
        Detaches a role from an instance profile, detaches policies from the role,
        and deletes all the resources.

        :param profile_name: The name of the profile to delete.
        :param role_name: The name of the role to delete.
        """
        try:
            self.iam_client.remove_role_from_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            self.iam_client.delete_instance_profile(InstanceProfileName=profile_name)
            log.info("Deleted instance profile %s.", profile_name)
            attached_policies = self.iam_client.list_attached_role_policies(
                RoleName=role_name
            )
            for pol in attached_policies["AttachedPolicies"]:
                self.iam_client.detach_role_policy(
                    RoleName=role_name, PolicyArn=pol["PolicyArn"]
                )
                if not pol["PolicyArn"].startswith("arn:aws:iam::aws"):
                    self.iam_client.delete_policy(PolicyArn=pol["PolicyArn"])
                log.info("Detached and deleted policy %s.", pol["PolicyName"])
            self.iam_client.delete_role(RoleName=role_name)
            log.info("Deleted role %s.", role_name)
        except ClientError as err:
            log.error(
                f"Couldn't delete instance profile {profile_name} or detach "
                f"policies and delete role {role_name}: {err}"
            )
            if err.response["Error"]["Code"] == "NoSuchEntity":
                log.info(
                    "Instance profile %s doesn't exist, nothing to do.", profile_name
                )


    def create_key_pair(self, key_pair_name: str) -> None:
        """
        Creates a new key pair.

        :param key_pair_name: The name of the key pair to create.
        """
        try:
            response = self.ec2_client.create_key_pair(KeyName=key_pair_name)
            with open(f"{key_pair_name}.pem", "w") as file:
                file.write(response["KeyMaterial"])
            chmod(f"{key_pair_name}.pem", 0o600)
            log.info("Created key pair %s.", key_pair_name)
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to create key pair {key_pair_name}.")
            if error_code == "InvalidKeyPair.Duplicate":
                log.error(f"A key pair with the name '{key_pair_name}' already exists.")
            log.error(f"Full error:\n\t{err}")


    def delete_key_pair(self) -> None:
        """
        Deletes a key pair.
        """
        try:
            self.ec2_client.delete_key_pair(KeyName=self.key_pair_name)
            remove(f"{self.key_pair_name}.pem")
            log.info("Deleted key pair %s.", self.key_pair_name)
        except ClientError as err:
            log.error(f"Couldn't delete key pair '{self.key_pair_name}'.")
            log.error(f"Full error:\n\t{err}")
        except FileNotFoundError as err:
            log.info("Key pair %s doesn't exist, nothing to do.", self.key_pair_name)
            log.error(f"Full error:\n\t{err}")


    def create_template(
        self, server_startup_script_file: str, instance_policy_file: str
    ) -> Dict[str, Any]:
        """
        Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling. The
        launch template specifies a Bash script in its user data field that runs after
        the instance is started. This script installs Python packages and starts a
        Python web server on the instance.

        :param server_startup_script_file: The path to a Bash script file that is run
                                           when an instance starts.
        :param instance_policy_file: The path to a file that defines a permissions policy
                                     to create and attach to the instance profile.
        :return: Information about the newly created template.
        """
        template = {}
        try:
            # Create key pair and instance profile
            self.create_key_pair(self.key_pair_name)
            self.create_instance_profile(
                instance_policy_file,
                self.instance_policy_name,
                self.instance_role_name,
                self.instance_profile_name,
            )

            # Read the startup script
            with open(server_startup_script_file) as file:
                start_server_script = file.read()

            # Get the latest AMI ID
            ami_latest = self.ssm_client.get_parameter(Name=self.ami_param)
            ami_id = ami_latest["Parameter"]["Value"]

            # Create the launch template
            lt_response = self.ec2_client.create_launch_template(
                LaunchTemplateName=self.launch_template_name,
                LaunchTemplateData={
                    "InstanceType": self.inst_type,
                    "ImageId": ami_id,
                    "IamInstanceProfile": {"Name": self.instance_profile_name},
                    "UserData": base64.b64encode(
                        start_server_script.encode(encoding="utf-8")
                    ).decode(encoding="utf-8"),
                    "KeyName": self.key_pair_name,
                },
            )
            template = lt_response["LaunchTemplate"]
            log.info(
                f"Created launch template {self.launch_template_name} for AMI {ami_id} on {self.inst_type}."
            )
        except ClientError as err:
            log.error(f"Failed to create launch template {self.launch_template_name}.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidLaunchTemplateName.AlreadyExistsException":
                log.info(
                    f"Launch template {self.launch_template_name} already exists, nothing to do."
                )
            log.error(f"Full error:\n\t{err}")
        return template


    def delete_template(self):
        """
        Deletes a launch template.
        """
        try:
            self.ec2_client.delete_launch_template(
                LaunchTemplateName=self.launch_template_name
            )
            self.delete_instance_profile(
                self.instance_profile_name, self.instance_role_name
            )
            log.info("Launch template %s deleted.", self.launch_template_name)
        except ClientError as err:
            if (
                err.response["Error"]["Code"]
                == "InvalidLaunchTemplateName.NotFoundException"
            ):
                log.info(
                    "Launch template %s does not exist, nothing to do.",
                    self.launch_template_name,
                )
            log.error(f"Full error:\n\t{err}")


    def get_availability_zones(self) -> List[str]:
        """
        Gets a list of Availability Zones in the AWS Region of the Amazon EC2 client.

        :return: The list of Availability Zones for the client Region.
        """
        try:
            response = self.ec2_client.describe_availability_zones()
            zones = [zone["ZoneName"] for zone in response["AvailabilityZones"]]
            log.info(f"Retrieved {len(zones)} availability zones: {zones}.")
        except ClientError as err:
            log.error("Failed to retrieve availability zones.")
            log.error(f"Full error:\n\t{err}")
        else:
            return zones


    def create_autoscaling_group(self, group_size: int) -> List[str]:
        """
        Creates an EC2 Auto Scaling group with the specified size.

        :param group_size: The number of instances to set for the minimum and maximum in
                           the group.
        :return: The list of Availability Zones specified for the group.
        """
        try:
            zones = self.get_availability_zones()
            self.autoscaling_client.create_auto_scaling_group(
                AutoScalingGroupName=self.group_name,
                AvailabilityZones=zones,
                LaunchTemplate={
                    "LaunchTemplateName": self.launch_template_name,
                    "Version": "$Default",
                },
                MinSize=group_size,
                MaxSize=group_size,
            )
            log.info(
                f"Created EC2 Auto Scaling group {self.group_name} with availability zones {zones}."
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            if error_code == "AlreadyExists":
                log.info(
                    f"EC2 Auto Scaling group {self.group_name} already exists, nothing to do."
                )
            else:
                log.error(f"Failed to create EC2 Auto Scaling group {self.group_name}.")
                log.error(f"Full error:\n\t{err}")
        else:
            return zones


    def get_instances(self) -> List[str]:
        """
        Gets data about the instances in the EC2 Auto Scaling group.

        :return: A list of instance IDs in the Auto Scaling group.
        """
        try:
            as_response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[self.group_name]
            )
            instance_ids = [
                i["InstanceId"]
                for i in as_response["AutoScalingGroups"][0]["Instances"]
            ]
            log.info(
                f"Retrieved {len(instance_ids)} instances for Auto Scaling group {self.group_name}."
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to retrieve instances for Auto Scaling group {self.group_name}."
            )
            if error_code == "ResourceNotFound":
                log.error(f"The Auto Scaling group '{self.group_name}' does not exist.")
            log.error(f"Full error:\n\t{err}")
        else:
            return instance_ids


    def terminate_instance(self, instance_id: str, decrementsetting=False) -> None:
        """
        Terminates an instance in an EC2 Auto Scaling group. After an instance is
        terminated, it can no longer be accessed.

        :param instance_id: The ID of the instance to terminate.
        :param decrementsetting: If True, do not replace terminated instances.
        """
        try:
            self.autoscaling_client.terminate_instance_in_auto_scaling_group(
                InstanceId=instance_id,
                ShouldDecrementDesiredCapacity=decrementsetting,
            )
            log.info("Terminated instance %s.", instance_id)

            # Adding a waiter to ensure the instance is terminated
            waiter = self.ec2_client.get_waiter("instance_terminated")
            log.info("Waiting for instance %s to be terminated...", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info(
                f"Instance '{instance_id}' has been terminated and will be replaced."
            )

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to terminate instance '{instance_id}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to terminate the instance again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            log.error(f"Full error:\n\t{err}")

    def attach_load_balancer_target_group(
        self, lb_target_group: Dict[str, Any]
    ) -> None:
        """
        Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
        The target group specifies how the load balancer forwards requests to the instances
        in the group.

        :param lb_target_group: Data about the ELB target group to attach.
        """
        try:
            self.autoscaling_client.attach_load_balancer_target_groups(
                AutoScalingGroupName=self.group_name,
                TargetGroupARNs=[lb_target_group["TargetGroupArn"]],
            )
            log.info(
                "Attached load balancer target group %s to auto scaling group %s.",
                lb_target_group["TargetGroupName"],
                self.group_name,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to attach load balancer target group '{lb_target_group['TargetGroupName']}'."
            )
            if error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            elif error_code == "ServiceLinkedRoleFailure":
                log.error(
                    "The operation failed because the service-linked role is not ready or does not exist. "
                    "Check that the service-linked role exists and is correctly configured."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_autoscaling_group(self, group_name: str) -> None:
        """
        Terminates all instances in the group, then deletes the EC2 Auto Scaling group.

        :param group_name: The name of the group to delete.
        """
        try:
            response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[group_name]
            )
            groups = response.get("AutoScalingGroups", [])
            if len(groups) > 0:
                self.autoscaling_client.update_auto_scaling_group(
                    AutoScalingGroupName=group_name, MinSize=0
                )
                instance_ids = [inst["InstanceId"] for inst in groups[0]["Instances"]]
                for inst_id in instance_ids:
                    self.terminate_instance(inst_id)

                # Wait for all instances to be terminated
                if instance_ids:
                    waiter = self.ec2_client.get_waiter("instance_terminated")
                    log.info("Waiting for all instances to be terminated...")
                    waiter.wait(InstanceIds=instance_ids)
                    log.info("All instances have been terminated.")
            else:
                log.info(f"No groups found named '{group_name}'! Nothing to do.")
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete Auto Scaling group '{group_name}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to delete the group again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the group."
                )
            log.error(f"Full error:\n\t{err}")


    def get_default_vpc(self) -> Dict[str, Any]:
        """
        Gets the default VPC for the account.

        :return: Data about the default VPC.
        """
        try:
            response = self.ec2_client.describe_vpcs(
                Filters=[{"Name": "is-default", "Values": ["true"]}]
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error("Failed to retrieve the default VPC.")
            if error_code == "UnauthorizedOperation":
                log.error(
                    "You do not have the necessary permissions to describe VPCs. "
                    "Ensure that your AWS IAM user or role has the correct permissions."
                )
            elif error_code == "InvalidParameterValue":
                log.error(
                    "One or more parameters are invalid. Check the request parameters."
                )

            log.error(f"Full error:\n\t{err}")
        else:
            if "Vpcs" in response and response["Vpcs"]:
                log.info(f"Retrieved default VPC: {response['Vpcs'][0]['VpcId']}")
                return response["Vpcs"][0]
            else:
                pass


    def verify_inbound_port(
        self, vpc: Dict[str, Any], port: int, ip_address: str
    ) -> Tuple[Dict[str, Any], bool]:
        """
        Verify the default security group of the specified VPC allows ingress from this
        computer. This can be done by allowing ingress from this computer's IP
        address. In some situations, such as connecting from a corporate network, you
        must instead specify a prefix list ID. You can also temporarily open the port to
        any IP address while running this example. If you do, be sure to remove public
        access when you're done.

        :param vpc: The VPC used by this example.
        :param port: The port to verify.
        :param ip_address: This computer's IP address.
        :return: The default security group of the specified VPC, and a value that indicates
                 whether the specified port is open.
        """
        try:
            response = self.ec2_client.describe_security_groups(
                Filters=[
                    {"Name": "group-name", "Values": ["default"]},
                    {"Name": "vpc-id", "Values": [vpc["VpcId"]]},
                ]
            )
            sec_group = response["SecurityGroups"][0]
            port_is_open = False
            log.info(f"Found default security group {sec_group['GroupId']}.")

            for ip_perm in sec_group["IpPermissions"]:
                if ip_perm.get("FromPort", 0) == port:
                    log.info(f"Found inbound rule: {ip_perm}")
                    for ip_range in ip_perm["IpRanges"]:
                        cidr = ip_range.get("CidrIp", "")
                        if cidr.startswith(ip_address) or cidr == "0.0.0.0/0":
                            port_is_open = True
                    if ip_perm["PrefixListIds"]:
                        port_is_open = True
                    if not port_is_open:
                        log.info(
                            f"The inbound rule does not appear to be open to either this computer's IP "
                            f"address of {ip_address}, to all IP addresses (0.0.0.0/0), or to a prefix list ID."
                        )
                    else:
                        break
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to verify inbound rule for port {port} for VPC {vpc['VpcId']}."
            )
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    f"The specified VPC ID '{vpc['VpcId']}' does not exist. Please check the VPC ID."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return sec_group, port_is_open


    def open_inbound_port(self, sec_group_id: str, port: int, ip_address: str) -> None:
        """
        Add an ingress rule to the specified security group that allows access on the
        specified port from the specified IP address.

        :param sec_group_id: The ID of the security group to modify.
        :param port: The port to open.
        :param ip_address: The IP address that is granted access.
        """
        try:
            self.ec2_client.authorize_security_group_ingress(
                GroupId=sec_group_id,
                CidrIp=f"{ip_address}/32",
                FromPort=port,
                ToPort=port,
                IpProtocol="tcp",
            )
            log.info(
                "Authorized ingress to %s on port %s from %s.",
                sec_group_id,
                port,
                ip_address,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to authorize ingress to security group '{sec_group_id}' on port {port} from {ip_address}."
            )
            if error_code == "InvalidGroupId.Malformed":
                log.error(
                    "The security group ID is malformed. "
                    "Please verify that the security group ID is correct."
                )
            elif error_code == "InvalidPermission.Duplicate":
                log.error(
                    "The specified rule already exists in the security group. "
                    "Check the existing rules for this security group."
                )
            log.error(f"Full error:\n\t{err}")


    def get_subnets(self, vpc_id: str, zones: List[str] = None) -> List[Dict[str, Any]]:
        """
        Gets the default subnets in a VPC for a specified list of Availability Zones.

        :param vpc_id: The ID of the VPC to look up.
        :param zones: The list of Availability Zones to look up.
        :return: The list of subnets found.
        """
        # Ensure that 'zones' is a list, even if None is passed
        if zones is None:
            zones = []
        try:
            paginator = self.ec2_client.get_paginator("describe_subnets")
            page_iterator = paginator.paginate(
                Filters=[
                    {"Name": "vpc-id", "Values": [vpc_id]},
                    {"Name": "availability-zone", "Values": zones},
                    {"Name": "default-for-az", "Values": ["true"]},
                ]
            )

            subnets = []
            for page in page_iterator:
                subnets.extend(page["Subnets"])

            log.info("Found %s subnets for the specified zones.", len(subnets))
            return subnets
        except ClientError as err:
            log.error(
                f"Failed to retrieve subnets for VPC '{vpc_id}' in zones {zones}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    "The specified VPC ID does not exist. "
                    "Please check the VPC ID and try again."
                )
            # Add more error-specific handling as needed
            log.error(f"Full error:\n\t{err}")
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def create_target_group(
        self, target_group_name: str, protocol: str, port: int, vpc_id: str
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing target group. The target group specifies how
        the load balancer forwards requests to instances in the group and how instance
        health is checked.

        To speed up this demo, the health check is configured with shortened times and
        lower thresholds. In production, you might want to decrease the sensitivity of
        your health checks to avoid unwanted failures.

        :param target_group_name: The name of the target group to create.
        :param protocol: The protocol to use to forward requests, such as 'HTTP'.
        :param port: The port to use to forward requests, such as 80.
        :param vpc_id: The ID of the VPC in which the load balancer exists.
        :return: Data about the newly created target group.
        """
        try:
            response = self.elb_client.create_target_group(
                Name=target_group_name,
                Protocol=protocol,
                Port=port,
                HealthCheckPath="/healthcheck",
                HealthCheckIntervalSeconds=10,
                HealthCheckTimeoutSeconds=5,
                HealthyThresholdCount=2,
                UnhealthyThresholdCount=2,
                VpcId=vpc_id,
            )
            target_group = response["TargetGroups"][0]
            log.info(f"Created load balancing target group '{target_group_name}'.")
            return target_group
        except ClientError as err:
            log.error(
                f"Couldn't create load balancing target group '{target_group_name}'."
            )
            error_code = err.response["Error"]["Code"]

            if error_code == "DuplicateTargetGroupName":
                log.error(
                    f"Target group name {target_group_name} already exists. "
                    "Check if the target group already exists."
                    "Consider using a different name or deleting the existing target group if appropriate."
                )
            elif error_code == "TooManyTargetGroups":
                log.error(
                    "Too many target groups exist in the account. "
                    "Consider deleting unused target groups to create space for new ones."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_target_group(self, target_group_name) -> None:
        """
        Deletes the target group.
        """
        try:
            # Describe the target group to get its ARN
            response = self.elb_client.describe_target_groups(Names=[target_group_name])
            tg_arn = response["TargetGroups"][0]["TargetGroupArn"]

            # Delete the target group
            self.elb_client.delete_target_group(TargetGroupArn=tg_arn)
            log.info("Deleted load balancing target group %s.", target_group_name)

            # Use a custom waiter to wait until the target group is no longer available
            self.wait_for_target_group_deletion(self.elb_client, tg_arn)
            log.info("Target group %s successfully deleted.", target_group_name)

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete target group '{target_group_name}'.")
            if error_code == "TargetGroupNotFound":
                log.error(
                    "Load balancer target group either already deleted or never existed. "
                    "Verify the name and check that the resource exists in the AWS Console."
                )
            elif error_code == "ResourceInUseException":
                log.error(
                    "Target group still in use by another resource. "
                    "Ensure that the target group is no longer associated with any load balancers or resources.",
                )
            log.error(f"Full error:\n\t{err}")

    def wait_for_target_group_deletion(
        self, elb_client, target_group_arn, max_attempts=10, delay=30
    ):
        for attempt in range(max_attempts):
            try:
                elb_client.describe_target_groups(TargetGroupArns=[target_group_arn])
                print(
                    f"Attempt {attempt + 1}: Target group {target_group_arn} still exists."
                )
            except ClientError as e:
                if e.response["Error"]["Code"] == "TargetGroupNotFound":
                    print(
                        f"Target group {target_group_arn} has been successfully deleted."
                    )
                    return
                else:
                    raise
            time.sleep(delay)
        raise TimeoutError(
            f"Target group {target_group_arn} was not deleted after {max_attempts * delay} seconds."
        )


    def create_load_balancer(
        self,
        load_balancer_name: str,
        subnet_ids: List[str],
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing load balancer that uses the specified subnets
        and forwards requests to the specified target group.

        :param load_balancer_name: The name of the load balancer to create.
        :param subnet_ids: A list of subnets to associate with the load balancer.
        :return: Data about the newly created load balancer.
        """
        try:
            response = self.elb_client.create_load_balancer(
                Name=load_balancer_name, Subnets=subnet_ids
            )
            load_balancer = response["LoadBalancers"][0]
            log.info(f"Created load balancer '{load_balancer_name}'.")

            waiter = self.elb_client.get_waiter("load_balancer_available")
            log.info(
                f"Waiting for load balancer '{load_balancer_name}' to be available..."
            )
            waiter.wait(Names=[load_balancer_name])
            log.info(f"Load balancer '{load_balancer_name}' is now available!")

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to create load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "DuplicateLoadBalancerNameException":
                log.error(
                    f"A load balancer with the name '{load_balancer_name}' already exists. "
                    "Load balancer names must be unique within the AWS region. "
                    "Please choose a different name and try again."
                )
            if error_code == "TooManyLoadBalancersException":
                log.error(
                    "The maximum number of load balancers has been reached in this account and region. "
                    "You can delete unused load balancers or request an increase in the service quota from AWS Support."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return load_balancer


    def create_listener(
        self,
        load_balancer_name: str,
        target_group: Dict[str, Any],
    ) -> Dict[str, Any]:
        """
        Creates a listener for the specified load balancer that forwards requests to the
        specified target group.

        :param load_balancer_name: The name of the load balancer to create a listener for.
        :param target_group: An existing target group that is added as a listener to the
                             load balancer.
        :return: Data about the newly created listener.
        """
        try:
            # Retrieve the load balancer ARN
            load_balancer_response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            load_balancer_arn = load_balancer_response["LoadBalancers"][0][
                "LoadBalancerArn"
            ]

            # Create the listener
            response = self.elb_client.create_listener(
                LoadBalancerArn=load_balancer_arn,
                Protocol=target_group["Protocol"],
                Port=target_group["Port"],
                DefaultActions=[
                    {
                        "Type": "forward",
                        "TargetGroupArn": target_group["TargetGroupArn"],
                    }
                ],
            )
            log.info(
                f"Created listener to forward traffic from load balancer '{load_balancer_name}' to target group '{target_group['TargetGroupName']}'."
            )
            return response["Listeners"][0]
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to add a listener on '{load_balancer_name}' for target group '{target_group['TargetGroupName']}'."
            )

            if error_code == "ListenerNotFoundException":
                log.error(
                    f"The listener could not be found for the load balancer '{load_balancer_name}'. "
                    "Please check the load balancer name and target group configuration."
                )
            if error_code == "InvalidConfigurationRequestException":
                log.error(
                    f"The configuration provided for the listener on load balancer '{load_balancer_name}' is invalid. "
                    "Please review the provided protocol, port, and target group settings."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_load_balancer(self, load_balancer_name) -> None:
        """
        Deletes a load balancer.

        :param load_balancer_name: The name of the load balancer to delete.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            lb_arn = response["LoadBalancers"][0]["LoadBalancerArn"]
            self.elb_client.delete_load_balancer(LoadBalancerArn=lb_arn)
            log.info("Deleted load balancer %s.", load_balancer_name)
            waiter = self.elb_client.get_waiter("load_balancers_deleted")
            log.info("Waiting for load balancer to be deleted...")
            waiter.wait(Names=[load_balancer_name])
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Couldn't delete load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    f"The load balancer '{load_balancer_name}' does not exist. "
                    "Please check the name and try again."
                )
            log.error(f"Full error:\n\t{err}")


    def get_endpoint(self, load_balancer_name) -> str:
        """
        Gets the HTTP endpoint of the load balancer.

        :return: The endpoint.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            return response["LoadBalancers"][0]["DNSName"]
        except ClientError as err:
            log.error(
                f"Couldn't get the endpoint for load balancer {load_balancer_name}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Verify load balancer name and ensure it exists in the AWS console."
                )
            log.error(f"Full error:\n\t{err}")

    @staticmethod
    def verify_load_balancer_endpoint(endpoint) -> bool:
        """
        Verify this computer can successfully send a GET request to the load balancer endpoint.

        :param endpoint: The endpoint to verify.
        :return: True if the GET request is successful, False otherwise.
        """
        retries = 3
        verified = False
        while not verified and retries > 0:
            try:
                lb_response = requests.get(f"http://{endpoint}")
                log.info(
                    "Got response %s from load balancer endpoint.",
                    lb_response.status_code,
                )
                if lb_response.status_code == 200:
                    verified = True
                else:
                    retries = 0
            except requests.exceptions.ConnectionError:
                log.info(
                    "Got connection error from load balancer endpoint, retrying..."
                )
                retries -= 1
                time.sleep(10)
        return verified

    def check_target_health(self, target_group_name: str) -> List[Dict[str, Any]]:
        """
        Checks the health of the instances in the target group.

        :return: The health status of the target group.
        """
        try:
            tg_response = self.elb_client.describe_target_groups(
                Names=[target_group_name]
            )
            health_response = self.elb_client.describe_target_health(
                TargetGroupArn=tg_response["TargetGroups"][0]["TargetGroupArn"]
            )
        except ClientError as err:
            log.error(f"Couldn't check health of {target_group_name} target(s).")
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Load balancer associated with the target group was not found. "
                    "Ensure the load balancer exists, is in the correct AWS region, and "
                    "that you have the necessary permissions to access it.",
                )
            elif error_code == "TargetGroupNotFoundException":
                log.error(
                    "Target group was not found. "
                    "Verify the target group name, check that it exists in the correct region, "
                    "and ensure it has not been deleted or created in a different account.",
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return health_response["TargetHealthDescriptions"]
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
class RecommendationService:
    """
    Encapsulates a DynamoDB table to use as a service that recommends books, movies,
    and songs.
    """

    def __init__(self, table_name: str, dynamodb_client: boto3.client):
        """
        Initializes the RecommendationService class with the necessary parameters.

        :param table_name: The name of the DynamoDB recommendations table.
        :param dynamodb_client: A Boto3 DynamoDB client.
        """
        self.table_name = table_name
        self.dynamodb_client = dynamodb_client

    def create(self) -> Dict[str, Any]:
        """
        Creates a DynamoDB table to use as a recommendation service. The table has a
        hash key named 'MediaType' that defines the type of media recommended, such as
        Book or Movie, and a range key named 'ItemId' that, combined with the MediaType,
        forms a unique identifier for the recommended item.

        :return: Data about the newly created table.
        :raises RecommendationServiceError: If the table creation fails.
        """
        try:
            response = self.dynamodb_client.create_table(
                TableName=self.table_name,
                AttributeDefinitions=[
                    {"AttributeName": "MediaType", "AttributeType": "S"},
                    {"AttributeName": "ItemId", "AttributeType": "N"},
                ],
                KeySchema=[
                    {"AttributeName": "MediaType", "KeyType": "HASH"},
                    {"AttributeName": "ItemId", "KeyType": "RANGE"},
                ],
                ProvisionedThroughput={"ReadCapacityUnits": 5, "WriteCapacityUnits": 5},
            )
            log.info("Creating table %s...", self.table_name)
            waiter = self.dynamodb_client.get_waiter("table_exists")
            waiter.wait(TableName=self.table_name)
            log.info("Table %s created.", self.table_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceInUseException":
                log.info("Table %s exists, nothing to be done.", self.table_name)
            else:
                raise RecommendationServiceError(
                    self.table_name, f"ClientError when creating table: {err}."
                )
        else:
            return response

    def populate(self, data_file: str) -> None:
        """
        Populates the recommendations table from a JSON file.

        :param data_file: The path to the data file.
        :raises RecommendationServiceError: If the table population fails.
        """
        try:
            with open(data_file) as data:
                items = json.load(data)
            batch = [{"PutRequest": {"Item": item}} for item in items]
            self.dynamodb_client.batch_write_item(RequestItems={self.table_name: batch})
            log.info(
                "Populated table %s with items from %s.", self.table_name, data_file
            )
        except ClientError as err:
            raise RecommendationServiceError(
                self.table_name, f"Couldn't populate table from {data_file}: {err}"
            )

    def destroy(self) -> None:
        """
        Deletes the recommendations table.

        :raises RecommendationServiceError: If the table deletion fails.
        """
        try:
            self.dynamodb_client.delete_table(TableName=self.table_name)
            log.info("Deleting table %s...", self.table_name)
            waiter = self.dynamodb_client.get_waiter("table_not_exists")
            waiter.wait(TableName=self.table_name)
            log.info("Table %s deleted.", self.table_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                log.info("Table %s does not exist, nothing to do.", self.table_name)
            else:
                raise RecommendationServiceError(
                    self.table_name, f"ClientError when deleting table: {err}."
                )
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
class ParameterHelper:
    """
    Encapsulates Systems Manager parameters. This example uses these parameters to drive
    the demonstration of resilient architecture, such as failure of a dependency or
    how the service responds to a health check.
    """

    table: str = "doc-example-resilient-architecture-table"
    failure_response: str = "doc-example-resilient-architecture-failure-response"
    health_check: str = "doc-example-resilient-architecture-health-check"

    def __init__(self, table_name: str, ssm_client: boto3.client):
        """
        Initializes the ParameterHelper class with the necessary parameters.

        :param table_name: The name of the DynamoDB table that is used as a recommendation
                           service.
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.table_name = table_name

    def reset(self) -> None:
        """
        Resets the Systems Manager parameters to starting values for the demo.
        These are the name of the DynamoDB recommendation table, no response when a
        dependency fails, and shallow health checks.
        """
        self.put(self.table, self.table_name)
        self.put(self.failure_response, "none")
        self.put(self.health_check, "shallow")

    def put(self, name: str, value: str) -> None:
        """
        Sets the value of a named Systems Manager parameter.

        :param name: The name of the parameter.
        :param value: The new value of the parameter.
        :raises ParameterHelperError: If the parameter value cannot be set.
        """
        try:
            self.ssm_client.put_parameter(
                Name=name, Value=value, Overwrite=True, Type="String"
            )
            log.info("Setting parameter %s to '%s'.", name, value)
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to set parameter {name}.")
            if error_code == "ParameterLimitExceeded":
                log.error(
                    "The parameter limit has been exceeded. "
                    "Consider deleting unused parameters or request a limit increase."
                )
            elif error_code == "ParameterAlreadyExists":
                log.error(
                    "The parameter already exists and overwrite is set to False. "
                    "Use Overwrite=True to update the parameter."
                )
            log.error(f"Full error:\n\t{err}")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Python (Boto3)*.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

# Contoh EMR Amazon menggunakan SDK for Python (Boto3)
<a name="python_3_emr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan EMR AWS SDK untuk Python (Boto3) dengan Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AddJobFlowSteps`
<a name="emr_AddJobFlowSteps_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddJobFlowSteps`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/emr#code-examples). 
Tambahkan langkah Spark, yang dijalankan oleh cluster segera setelah ditambahkan.  

```
def add_step(cluster_id, name, script_uri, script_args, emr_client):
    """
    Adds a job step to the specified cluster. This example adds a Spark
    step, which is run by the cluster as soon as it is added.

    :param cluster_id: The ID of the cluster.
    :param name: The name of the step.
    :param script_uri: The URI where the Python script is stored.
    :param script_args: Arguments to pass to the Python script.
    :param emr_client: The Boto3 EMR client object.
    :return: The ID of the newly added step.
    """
    try:
        response = emr_client.add_job_flow_steps(
            JobFlowId=cluster_id,
            Steps=[
                {
                    "Name": name,
                    "ActionOnFailure": "CONTINUE",
                    "HadoopJarStep": {
                        "Jar": "command-runner.jar",
                        "Args": [
                            "spark-submit",
                            "--deploy-mode",
                            "cluster",
                            script_uri,
                            *script_args,
                        ],
                    },
                }
            ],
        )
        step_id = response["StepIds"][0]
        logger.info("Started step with ID %s", step_id)
    except ClientError:
        logger.exception("Couldn't start step %s with URI %s.", name, script_uri)
        raise
    else:
        return step_id
```
Jalankan perintah Amazon EMR File System (EMRFS) sebagai langkah pekerjaan di cluster. Ini dapat digunakan untuk mengotomatiskan perintah EMRFS pada cluster alih-alih menjalankan perintah secara manual melalui koneksi SSH.  

```
import boto3
from botocore.exceptions import ClientError


def add_emrfs_step(command, bucket_url, cluster_id, emr_client):
    """
    Add an EMRFS command as a job flow step to an existing cluster.

    :param command: The EMRFS command to run.
    :param bucket_url: The URL of a bucket that contains tracking metadata.
    :param cluster_id: The ID of the cluster to update.
    :param emr_client: The Boto3 Amazon EMR client object.
    :return: The ID of the added job flow step. Status can be tracked by calling
             the emr_client.describe_step() function.
    """
    job_flow_step = {
        "Name": "Example EMRFS Command Step",
        "ActionOnFailure": "CONTINUE",
        "HadoopJarStep": {
            "Jar": "command-runner.jar",
            "Args": ["/usr/bin/emrfs", command, bucket_url],
        },
    }

    try:
        response = emr_client.add_job_flow_steps(
            JobFlowId=cluster_id, Steps=[job_flow_step]
        )
        step_id = response["StepIds"][0]
        print(f"Added step {step_id} to cluster {cluster_id}.")
    except ClientError:
        print(f"Couldn't add a step to cluster {cluster_id}.")
        raise
    else:
        return step_id


def usage_demo():
    emr_client = boto3.client("emr")
    # Assumes the first waiting cluster has EMRFS enabled and has created metadata
    # with the default name of 'EmrFSMetadata'.
    cluster = emr_client.list_clusters(ClusterStates=["WAITING"])["Clusters"][0]
    add_emrfs_step(
        "sync", "s3://elasticmapreduce/samples/cloudfront", cluster["Id"], emr_client
    )


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [AddJobFlowSteps](https://docs.aws.amazon.com/goto/boto3/elasticmapreduce-2009-03-31/AddJobFlowSteps)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeCluster`
<a name="emr_DescribeCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/emr#code-examples). 

```
def describe_cluster(cluster_id, emr_client):
    """
    Gets detailed information about a cluster.

    :param cluster_id: The ID of the cluster to describe.
    :param emr_client: The Boto3 EMR client object.
    :return: The retrieved cluster information.
    """
    try:
        response = emr_client.describe_cluster(ClusterId=cluster_id)
        cluster = response["Cluster"]
        logger.info("Got data for cluster %s.", cluster["Name"])
    except ClientError:
        logger.exception("Couldn't get data for cluster %s.", cluster_id)
        raise
    else:
        return cluster
```
+  Untuk detail API, lihat [DescribeCluster](https://docs.aws.amazon.com/goto/boto3/elasticmapreduce-2009-03-31/DescribeCluster)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeStep`
<a name="emr_DescribeStep_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStep`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/emr#code-examples). 

```
def describe_step(cluster_id, step_id, emr_client):
    """
    Gets detailed information about the specified step, including the current state of
    the step.

    :param cluster_id: The ID of the cluster.
    :param step_id: The ID of the step.
    :param emr_client: The Boto3 EMR client object.
    :return: The retrieved information about the specified step.
    """
    try:
        response = emr_client.describe_step(ClusterId=cluster_id, StepId=step_id)
        step = response["Step"]
        logger.info("Got data for step %s.", step_id)
    except ClientError:
        logger.exception("Couldn't get data for step %s.", step_id)
        raise
    else:
        return step
```
+  Untuk detail API, lihat [DescribeStep](https://docs.aws.amazon.com/goto/boto3/elasticmapreduce-2009-03-31/DescribeStep)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListSteps`
<a name="emr_ListSteps_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSteps`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/emr#code-examples). 

```
def list_steps(cluster_id, emr_client):
    """
    Gets a list of steps for the specified cluster. In this example, all steps are
    returned, including completed and failed steps.

    :param cluster_id: The ID of the cluster.
    :param emr_client: The Boto3 EMR client object.
    :return: The list of steps for the specified cluster.
    """
    try:
        response = emr_client.list_steps(ClusterId=cluster_id)
        steps = response["Steps"]
        logger.info("Got %s steps for cluster %s.", len(steps), cluster_id)
    except ClientError:
        logger.exception("Couldn't get steps for cluster %s.", cluster_id)
        raise
    else:
        return steps
```
+  Untuk detail API, lihat [ListSteps](https://docs.aws.amazon.com/goto/boto3/elasticmapreduce-2009-03-31/ListSteps)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RunJobFlow`
<a name="emr_RunJobFlow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunJobFlow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/emr#code-examples). 

```
def run_job_flow(
    name,
    log_uri,
    keep_alive,
    applications,
    job_flow_role,
    service_role,
    security_groups,
    steps,
    emr_client,
):
    """
    Runs a job flow with the specified steps. A job flow creates a cluster of
    instances and adds steps to be run on the cluster. Steps added to the cluster
    are run as soon as the cluster is ready.

    This example uses the 'emr-5.30.1' release. A list of recent releases can be
    found here:
        https://docs.aws.amazon.com/emr/latest/ReleaseGuide/emr-release-components.html.

    :param name: The name of the cluster.
    :param log_uri: The URI where logs are stored. This can be an Amazon S3 bucket URL,
                    such as 's3://my-log-bucket'.
    :param keep_alive: When True, the cluster is put into a Waiting state after all
                       steps are run. When False, the cluster terminates itself when
                       the step queue is empty.
    :param applications: The applications to install on each instance in the cluster,
                         such as Hive or Spark.
    :param job_flow_role: The IAM role assumed by the cluster.
    :param service_role: The IAM role assumed by the service.
    :param security_groups: The security groups to assign to the cluster instances.
                            Amazon EMR adds all needed rules to these groups, so
                            they can be empty if you require only the default rules.
    :param steps: The job flow steps to add to the cluster. These are run in order
                  when the cluster is ready.
    :param emr_client: The Boto3 EMR client object.
    :return: The ID of the newly created cluster.
    """
    try:
        response = emr_client.run_job_flow(
            Name=name,
            LogUri=log_uri,
            ReleaseLabel="emr-5.30.1",
            Instances={
                "MasterInstanceType": "m5.xlarge",
                "SlaveInstanceType": "m5.xlarge",
                "InstanceCount": 3,
                "KeepJobFlowAliveWhenNoSteps": keep_alive,
                "EmrManagedMasterSecurityGroup": security_groups["manager"].id,
                "EmrManagedSlaveSecurityGroup": security_groups["worker"].id,
            },
            Steps=[
                {
                    "Name": step["name"],
                    "ActionOnFailure": "CONTINUE",
                    "HadoopJarStep": {
                        "Jar": "command-runner.jar",
                        "Args": [
                            "spark-submit",
                            "--deploy-mode",
                            "cluster",
                            step["script_uri"],
                            *step["script_args"],
                        ],
                    },
                }
                for step in steps
            ],
            Applications=[{"Name": app} for app in applications],
            JobFlowRole=job_flow_role.name,
            ServiceRole=service_role.name,
            EbsRootVolumeSize=10,
            VisibleToAllUsers=True,
        )
        cluster_id = response["JobFlowId"]
        logger.info("Created cluster %s.", cluster_id)
    except ClientError:
        logger.exception("Couldn't create cluster.")
        raise
    else:
        return cluster_id
```
+  Untuk detail API, lihat [RunJobFlow](https://docs.aws.amazon.com/goto/boto3/elasticmapreduce-2009-03-31/RunJobFlow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `TerminateJobFlows`
<a name="emr_TerminateJobFlows_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateJobFlows`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/emr#code-examples). 

```
def terminate_cluster(cluster_id, emr_client):
    """
    Terminates a cluster. This terminates all instances in the cluster and cannot
    be undone. Any data not saved elsewhere, such as in an Amazon S3 bucket, is lost.

    :param cluster_id: The ID of the cluster to terminate.
    :param emr_client: The Boto3 EMR client object.
    """
    try:
        emr_client.terminate_job_flows(JobFlowIds=[cluster_id])
        logger.info("Terminated cluster %s.", cluster_id)
    except ClientError:
        logger.exception("Couldn't terminate cluster %s.", cluster_id)
        raise
```
+  Untuk detail API, lihat [TerminateJobFlows](https://docs.aws.amazon.com/goto/boto3/elasticmapreduce-2009-03-31/TerminateJobFlows)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Buat kluster EMR Amazon berumur pendek dan jalankan langkah
<a name="emr_Scenario_ShortLivedEmrCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat klaster EMR Amazon berumur pendek yang menjalankan langkah dan secara otomatis berakhir setelah langkah selesai.

**SDK untuk Python (Boto3)**  
 Buat cluster EMR Amazon berumur pendek yang memperkirakan nilai pi menggunakan Apache Spark untuk memparalelkan sejumlah besar perhitungan. Pekerjaan tersebut menulis output ke log EMR Amazon dan ke bucket Amazon Simple Storage Service (Amazon S3). Cluster mengakhiri dirinya sendiri setelah menyelesaikan pekerjaan.   
+ Buat bucket Amazon S3 dan unggah skrip pekerjaan.
+ Buat peran AWS Identity and Access Management (IAM).
+ Buat grup keamanan Amazon Elastic Compute Cloud (Amazon EC2).
+ Buat cluster berumur pendek dan jalankan satu langkah pekerjaan.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/emr).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon EMR

### Jalankan skrip shell untuk menginstal pustaka
<a name="emr_Usage_InstallLibrariesWithSsm_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS Systems Manager skrip shell pada instans EMR Amazon yang menginstal pustaka tambahan. Dengan cara ini, Anda dapat mengotomatiskan manajemen instance alih-alih menjalankan perintah secara manual melalui koneksi SSH.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/emr#code-examples). 

```
import argparse
import time
import boto3


def install_libraries_on_core_nodes(cluster_id, script_path, emr_client, ssm_client):
    """
    Copies and runs a shell script on the core nodes in the cluster.

    :param cluster_id: The ID of the cluster.
    :param script_path: The path to the script, typically an Amazon S3 object URL.
    :param emr_client: The Boto3 Amazon EMR client.
    :param ssm_client: The Boto3 AWS Systems Manager client.
    """
    core_nodes = emr_client.list_instances(
        ClusterId=cluster_id, InstanceGroupTypes=["CORE"]
    )["Instances"]
    core_instance_ids = [node["Ec2InstanceId"] for node in core_nodes]
    print(f"Found core instances: {core_instance_ids}.")

    commands = [
        # Copy the shell script from Amazon S3 to each node instance.
        f"aws s3 cp {script_path} /home/hadoop",
        # Run the shell script to install libraries on each node instance.
        "bash /home/hadoop/install_libraries.sh",
    ]
    for command in commands:
        print(f"Sending '{command}' to core instances...")
        command_id = ssm_client.send_command(
            InstanceIds=core_instance_ids,
            DocumentName="AWS-RunShellScript",
            Parameters={"commands": [command]},
            TimeoutSeconds=3600,
        )["Command"]["CommandId"]
        while True:
            # Verify the previous step succeeded before running the next step.
            cmd_result = ssm_client.list_commands(CommandId=command_id)["Commands"][0]
            if cmd_result["StatusDetails"] == "Success":
                print(f"Command succeeded.")
                break
            elif cmd_result["StatusDetails"] in ["Pending", "InProgress"]:
                print(f"Command status is {cmd_result['StatusDetails']}, waiting...")
                time.sleep(10)
            else:
                print(f"Command status is {cmd_result['StatusDetails']}, quitting.")
                raise RuntimeError(
                    f"Command {command} failed to run. "
                    f"Details: {cmd_result['StatusDetails']}"
                )


def main():
    parser = argparse.ArgumentParser()
    parser.add_argument("cluster_id", help="The ID of the cluster.")
    parser.add_argument("script_path", help="The path to the script in Amazon S3.")
    args = parser.parse_args()

    emr_client = boto3.client("emr")
    ssm_client = boto3.client("ssm")

    install_libraries_on_core_nodes(
        args.cluster_id, args.script_path, emr_client, ssm_client
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [ListInstances](https://docs.aws.amazon.com/goto/boto3/elasticmapreduce-2009-03-31/ListInstances)di *AWS SDK for Python (Boto3) Referensi* API. 

# EventBridge contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with EventBridge.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara mendaftarkan AWS Lambda fungsi sebagai target EventBridge acara Amazon terjadwal. Penangan Lambda menulis pesan ramah dan data peristiwa lengkap ke Amazon CloudWatch Logs untuk pengambilan nanti.   
+ Menyebarkan fungsi Lambda.
+ Membuat acara EventBridge terjadwal dan menjadikan fungsi Lambda sebagai target.
+ Memberikan izin untuk membiarkan EventBridge menjalankan fungsi Lambda.
+ Mencetak data terbaru dari CloudWatch Log untuk menampilkan hasil pemanggilan terjadwal.
+ Membersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

# EventBridge Contoh penjadwal menggunakan SDK for Python (Boto3)
<a name="python_3_scheduler_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with EventBridge Scheduler.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo EventBridge Penjadwal
<a name="scheduler_hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan EventBridge Scheduler.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/scheduler#code-examples). 

```
import boto3


def hello_scheduler(scheduler_client):
    """
    Use the AWS SDK for Python (Boto3) to create an Amazon EventBridge Scheduler
    client and list the schedules in your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param scheduler_client: A Boto3 Amazon EventBridge Scheduler Client object. This object wraps
                             the low-level Amazon EventBridge Scheduler service API.
    """
    print("Hello, Amazon EventBridge Scheduler! Let's list some of your schedules:\n")
    paginator = scheduler_client.get_paginator("list_schedules")
    page_iterator = paginator.paginate(PaginationConfig={"MaxItems": 10})

    schedule_names: [str] = []
    for page in page_iterator:
        for schedule in page["Schedules"]:
            schedule_names.append(schedule["Name"])

    print(f"{len(schedule_names)} schedule(s) retrieved.")
    for schedule_name in schedule_names:
        print(f"\t{schedule_name}")


if __name__ == "__main__":
    hello_scheduler(boto3.client("scheduler"))
```
+  Untuk detail API, lihat [ListSchedules](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/ListSchedules)di *AWS SDK for Python (Boto3) Referensi* API. 

## Tindakan
<a name="actions"></a>

### `CreateSchedule`
<a name="scheduler_CreateSchedule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSchedule`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/scheduler#code-examples). 

```
class SchedulerWrapper:
    def __init__(self, eventbridge_scheduler_client: client):
        self.scheduler_client = eventbridge_scheduler_client

    @classmethod
    def from_client(cls) -> "SchedulerWrapper":
        """
        Creates a SchedulerWrapper instance with a default EventBridge Scheduler client.

        :return: An instance of SchedulerWrapper initialized with the default EventBridge Scheduler client.
        """
        eventbridge_scheduler_client = boto3.client("scheduler")
        return cls(eventbridge_scheduler_client)


    def create_schedule(
        self,
        name: str,
        schedule_expression: str,
        schedule_group_name: str,
        target_arn: str,
        role_arn: str,
        input: str,
        delete_after_completion: bool = False,
        use_flexible_time_window: bool = False,
    ) -> str:
        """
        Creates a new schedule with the specified parameters.

        :param name: The name of the schedule.
        :param schedule_expression: The expression that defines when the schedule runs.
        :param schedule_group_name: The name of the schedule group.
        :param target_arn: The Amazon Resource Name (ARN) of the target.
        :param role_arn: The Amazon Resource Name (ARN) of the execution IAM role.
        :param input: The input for the target.
        :param delete_after_completion: Whether to delete the schedule after it completes.
        :param use_flexible_time_window: Whether to use a flexible time window.

        :return The ARN of the created schedule.
        """
        try:
            hours_to_run = 1
            flexible_time_window_minutes = 10
            parameters = {
                "Name": name,
                "ScheduleExpression": schedule_expression,
                "GroupName": schedule_group_name,
                "Target": {"Arn": target_arn, "RoleArn": role_arn, "Input": input},
                "StartDate": datetime.now(timezone.utc),
                "EndDate": datetime.now(timezone.utc) + timedelta(hours=hours_to_run),
            }

            if delete_after_completion:
                parameters["ActionAfterCompletion"] = "DELETE"

            if use_flexible_time_window:
                parameters["FlexibleTimeWindow"] = {
                    "Mode": "FLEXIBLE",
                    "MaximumWindowInMinutes": flexible_time_window_minutes,
                }
            else:
                parameters["FlexibleTimeWindow"] = {"Mode": "OFF"}

            response = self.scheduler_client.create_schedule(**parameters)
            return response["ScheduleArn"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ConflictException":
                logger.error(
                    "Failed to create schedule '%s' due to a conflict. %s",
                    name,
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Error creating schedule: %s", err.response["Error"]["Message"]
                )
            raise
```
+  Untuk detail API, lihat [CreateSchedule](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/CreateSchedule)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateScheduleGroup`
<a name="scheduler_CreateScheduleGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateScheduleGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/scheduler#code-examples). 

```
class SchedulerWrapper:
    def __init__(self, eventbridge_scheduler_client: client):
        self.scheduler_client = eventbridge_scheduler_client

    @classmethod
    def from_client(cls) -> "SchedulerWrapper":
        """
        Creates a SchedulerWrapper instance with a default EventBridge Scheduler client.

        :return: An instance of SchedulerWrapper initialized with the default EventBridge Scheduler client.
        """
        eventbridge_scheduler_client = boto3.client("scheduler")
        return cls(eventbridge_scheduler_client)


    def create_schedule_group(self, name: str) -> str:
        """
        Creates a new schedule group with the specified name and description.

        :param name: The name of the schedule group.
        :param description: The description of the schedule group.

        :return: The ARN of the created schedule group.
        """
        try:
            response = self.scheduler_client.create_schedule_group(Name=name)
            return response["ScheduleGroupArn"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ConflictException":
                logger.error(
                    "Failed to create schedule group '%s' due to a conflict. %s",
                    name,
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Error creating schedule group: %s",
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [CreateScheduleGroup](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/CreateScheduleGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteSchedule`
<a name="scheduler_DeleteSchedule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSchedule`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/scheduler#code-examples). 

```
class SchedulerWrapper:
    def __init__(self, eventbridge_scheduler_client: client):
        self.scheduler_client = eventbridge_scheduler_client

    @classmethod
    def from_client(cls) -> "SchedulerWrapper":
        """
        Creates a SchedulerWrapper instance with a default EventBridge Scheduler client.

        :return: An instance of SchedulerWrapper initialized with the default EventBridge Scheduler client.
        """
        eventbridge_scheduler_client = boto3.client("scheduler")
        return cls(eventbridge_scheduler_client)


    def delete_schedule(self, name: str, schedule_group_name: str) -> None:
        """
        Deletes the schedule with the specified name and schedule group.

        :param name: The name of the schedule.
        :param schedule_group_name: The name of the schedule group.
        """
        try:
            self.scheduler_client.delete_schedule(
                Name=name, GroupName=schedule_group_name
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Failed to delete schedule with ID '%s' because the resource was not found: %s",
                    name,
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Error deleting schedule: %s", err.response["Error"]["Message"]
                )
                raise
```
+  Untuk detail API, lihat [DeleteSchedule](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/DeleteSchedule)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteScheduleGroup`
<a name="scheduler_DeleteScheduleGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteScheduleGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/scheduler#code-examples). 

```
class SchedulerWrapper:
    def __init__(self, eventbridge_scheduler_client: client):
        self.scheduler_client = eventbridge_scheduler_client

    @classmethod
    def from_client(cls) -> "SchedulerWrapper":
        """
        Creates a SchedulerWrapper instance with a default EventBridge Scheduler client.

        :return: An instance of SchedulerWrapper initialized with the default EventBridge Scheduler client.
        """
        eventbridge_scheduler_client = boto3.client("scheduler")
        return cls(eventbridge_scheduler_client)


    def delete_schedule_group(self, name: str) -> None:
        """
        Deletes the schedule group with the specified name.

        :param name: The name of the schedule group.
        """
        try:
            self.scheduler_client.delete_schedule_group(Name=name)
            logger.info("Schedule group %s deleted successfully.", name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Failed to delete schedule group with ID '%s' because the resource was not found: %s",
                    name,
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Error deleting schedule group: %s",
                    err.response["Error"]["Message"],
                )
                raise
```
+  Untuk detail API, lihat [DeleteScheduleGroup](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/DeleteScheduleGroup)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Acara Terjadwal
<a name="scheduler_ScheduledEventsScenario_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Menyebarkan CloudFormation tumpukan dengan sumber daya yang diperlukan.
+ Buat grup EventBridge jadwal Scheduler.
+ Buat jadwal EventBridge Penjadwal satu kali dengan jendela waktu yang fleksibel.
+ Buat jadwal EventBridge Scheduler berulang dengan tarif tertentu.
+ Hapus EventBridge Scheduler jadwal dan jadwal grup.
+ Bersihkan sumber daya dan hapus tumpukan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/scheduler#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class SchedulerScenario:
    """
    A scenario that demonstrates how to use Boto3 to schedule and receive events using
    the Amazon EventBridge Scheduler.
    """

    def __init__(
        self,
        scheduler_wrapper: SchedulerWrapper,
        cloud_formation_resource: ServiceResource,
    ):
        self.eventbridge_scheduler = scheduler_wrapper
        self.cloud_formation_resource = cloud_formation_resource
        self.stack: ServiceResource = None
        self.schedule_group_name = None
        self.sns_topic_arn = None
        self.role_arn = None

    def run(self) -> None:
        """
        Runs the scenario.
        """

        print(DASHES)
        print("Welcome to the Amazon EventBridge Scheduler Workflow.")
        print(DASHES)

        print(DASHES)
        self.prepare_application()
        print(DASHES)

        print(DASHES)
        self.create_one_time_schedule()
        print(DASHES)

        print(DASHES)
        self.create_recurring_schedule()
        print(DASHES)

        print(DASHES)
        if q.ask(
            "Do you want to delete all resources created by this workflow? (y/n) ",
            q.is_yesno,
        ):
            self.cleanup()
        print(DASHES)

        print("Amazon EventBridge Scheduler workflow completed.")

    def prepare_application(self) -> None:
        """
        Prepares the application by prompting the user setup information, deploying a CloudFormation stack and
        creating a schedule group.
        """
        print("Preparing the application...")
        print(
            "\nThis example creates resources in a CloudFormation stack, including an SNS topic"
            + "\nthat will be subscribed to the EventBridge Scheduler events. "
            + "\n\nYou will need to confirm the subscription in order to receive event emails. "
        )

        email_address = q.ask("Enter an email address to use for event subscriptions: ")
        stack_name = q.ask("Enter a name for the AWS Cloud Formation Stack: ")

        template_file = SchedulerScenario.get_template_as_string()

        parameters = [{"ParameterKey": "email", "ParameterValue": email_address}]

        self.stack = self.deploy_cloudformation_stack(
            stack_name, template_file, parameters
        )
        outputs = self.stack.outputs
        for output in outputs:
            if output.get("OutputKey") == "RoleARN":
                self.role_arn = output.get("OutputValue")
            elif output.get("OutputKey") == "SNStopicARN":
                self.sns_topic_arn = output.get("OutputValue")

        if not self.sns_topic_arn or not self.role_arn:
            error_string = f"""
            Failed to retrieve required outputs from CloudFormation stack.
            'sns_topic_arn'={self.sns_topic_arn}, 'role_arn'={self.role_arn}
            """
            logger.error(error_string)
            raise ValueError(error_string)

        print(f"Stack output RoleARN: {self.role_arn}")
        print(f"Stack output SNStopicARN: a")
        schedule_group_name = "scenario-schedules-group"
        schedule_group_arn = self.eventbridge_scheduler.create_schedule_group(
            schedule_group_name
        )
        print(
            f"Successfully created schedule group '{self.schedule_group_name}': {schedule_group_arn}."
        )
        self.schedule_group_name = schedule_group_name
        print("Application preparation complete.")

    def create_one_time_schedule(self) -> None:
        """
        Creates a one-time schedule to send an initial event.
        """
        schedule_name = q.ask("Enter a name for the one-time schedule:")

        scheduled_time = datetime.now(timezone.utc) + timedelta(minutes=1)
        formatted_scheduled_time = scheduled_time.strftime("%Y-%m-%dT%H:%M:%S")

        print(
            f"Creating a one-time schedule named '{schedule_name}' "
            + f"\nto send an initial event in 1 minute with a flexible time window..."
        )

        schedule_arn = self.eventbridge_scheduler.create_schedule(
            schedule_name,
            f"at({formatted_scheduled_time})",
            self.schedule_group_name,
            self.sns_topic_arn,
            self.role_arn,
            f"One time scheduled event test from schedule {schedule_name}.",
            delete_after_completion=True,
            use_flexible_time_window=True,
        )
        print(
            f"Successfully created schedule '{schedule_name}' in schedule group 'scenario-schedules-group': {schedule_arn}."
        )
        print(f"Subscription email will receive an email from this event.")
        print(f"You must confirm your subscription to receive event emails.")
        print(f"One-time schedule '{schedule_name}' created successfully.")

    def create_recurring_schedule(self) -> None:
        """
        Create a recurring schedule to send events at a specified rate in minutes.
        """

        print("Creating a recurring schedule to send events for one hour...")
        schedule_name = q.ask("Enter a name for the recurring schedule: ")
        schedule_rate_in_minutes = q.ask(
            "Enter the desired schedule rate (in minutes): ", q.is_int
        )

        schedule_arn = self.eventbridge_scheduler.create_schedule(
            schedule_name,
            f"rate({schedule_rate_in_minutes} minutes)",
            self.schedule_group_name,
            self.sns_topic_arn,
            self.role_arn,
            f"Recurrent event test from schedule {schedule_name}.",
        )

        print(
            f"Successfully created schedule '{schedule_name}' in schedule group 'scenario-schedules-group': {schedule_arn}."
        )
        print(f"Subscription email will receive an email from this event.")
        print(f"You must confirm your subscription to receive event emails.")

        if q.ask(
            f"Are you ready to delete the '{schedule_name}' schedule? (y/n)", q.is_yesno
        ):
            self.eventbridge_scheduler.delete_schedule(
                schedule_name, self.schedule_group_name
            )

    def deploy_cloudformation_stack(
        self, stack_name: str, cfn_template: str, parameters: [dict[str, str]]
    ) -> ServiceResource:
        """
        Deploys prerequisite resources used by the scenario. The resources are
        defined in the associated `cfn_template.yaml` AWS CloudFormation script and are deployed
        as a CloudFormation stack, so they can be easily managed and destroyed.

        :param stack_name: The name of the CloudFormation stack.
        :param cfn_template: The CloudFormation template as a string.
        :param parameters: The parameters for the CloudFormation stack.
        :return: The CloudFormation stack resource.
        """
        print(f"Deploying CloudFormation stack: {stack_name}.")
        stack = self.cloud_formation_resource.create_stack(
            StackName=stack_name,
            TemplateBody=cfn_template,
            Capabilities=["CAPABILITY_NAMED_IAM"],
            Parameters=parameters,
        )
        print(f"CloudFormation stack creation started: {stack_name}")
        print("Waiting for CloudFormation stack creation to complete...")
        waiter = self.cloud_formation_resource.meta.client.get_waiter(
            "stack_create_complete"
        )
        waiter.wait(StackName=stack.name)
        stack.load()
        print("CloudFormation stack creation complete.")

        return stack

    def destroy_cloudformation_stack(self, stack: ServiceResource) -> None:
        """
        Destroys the resources managed by the CloudFormation stack, and the CloudFormation
        stack itself.

        :param stack: The CloudFormation stack that manages the example resources.
        """
        print(
            f"CloudFormation stack '{stack.name}' is being deleted. This may take a few minutes."
        )
        stack.delete()
        waiter = self.cloud_formation_resource.meta.client.get_waiter(
            "stack_delete_complete"
        )
        waiter.wait(StackName=stack.name)
        print(f"CloudFormation stack '{stack.name}' has been deleted.")

    def cleanup(self) -> None:
        """
        Deletes the CloudFormation stack and the resources created for the demo.
        """

        if self.schedule_group_name:
            schedule_group_name = self.schedule_group_name
            self.schedule_group_name = None
            self.eventbridge_scheduler.delete_schedule_group(schedule_group_name)
            print(f"Successfully deleted schedule group '{schedule_group_name}'.")

        if self.stack is not None:
            stack = self.stack
            self.stack = None
            self.destroy_cloudformation_stack(stack)
        print("Stack deleted, demo complete.")

    @staticmethod
    def get_template_as_string() -> str:
        """
        Returns a string containing this scenario's CloudFormation template.
        """
        script_directory = os.path.dirname(os.path.abspath(__file__))
        template_file_path = os.path.join(script_directory, "cfn_template.yaml")
        file = open(template_file_path, "r")
        return file.read()


if __name__ == "__main__":
    demo: SchedulerScenario = None
    try:
        scheduler_wrapper = SchedulerWrapper.from_client()
        cloud_formation_resource = resource("cloudformation")
        demo = SchedulerScenario(scheduler_wrapper, cloud_formation_resource)
        demo.run()

    except Exception as exception:
        logging.exception("Something went wrong with the demo!")
        if demo is not None:
            demo.cleanup()
```
SchedulerWrapper class yang membungkus tindakan Amazon EventBridge Scheduler.  

```
class SchedulerWrapper:
    def __init__(self, eventbridge_scheduler_client: client):
        self.scheduler_client = eventbridge_scheduler_client

    @classmethod
    def from_client(cls) -> "SchedulerWrapper":
        """
        Creates a SchedulerWrapper instance with a default EventBridge Scheduler client.

        :return: An instance of SchedulerWrapper initialized with the default EventBridge Scheduler client.
        """
        eventbridge_scheduler_client = boto3.client("scheduler")
        return cls(eventbridge_scheduler_client)


    def create_schedule(
        self,
        name: str,
        schedule_expression: str,
        schedule_group_name: str,
        target_arn: str,
        role_arn: str,
        input: str,
        delete_after_completion: bool = False,
        use_flexible_time_window: bool = False,
    ) -> str:
        """
        Creates a new schedule with the specified parameters.

        :param name: The name of the schedule.
        :param schedule_expression: The expression that defines when the schedule runs.
        :param schedule_group_name: The name of the schedule group.
        :param target_arn: The Amazon Resource Name (ARN) of the target.
        :param role_arn: The Amazon Resource Name (ARN) of the execution IAM role.
        :param input: The input for the target.
        :param delete_after_completion: Whether to delete the schedule after it completes.
        :param use_flexible_time_window: Whether to use a flexible time window.

        :return The ARN of the created schedule.
        """
        try:
            hours_to_run = 1
            flexible_time_window_minutes = 10
            parameters = {
                "Name": name,
                "ScheduleExpression": schedule_expression,
                "GroupName": schedule_group_name,
                "Target": {"Arn": target_arn, "RoleArn": role_arn, "Input": input},
                "StartDate": datetime.now(timezone.utc),
                "EndDate": datetime.now(timezone.utc) + timedelta(hours=hours_to_run),
            }

            if delete_after_completion:
                parameters["ActionAfterCompletion"] = "DELETE"

            if use_flexible_time_window:
                parameters["FlexibleTimeWindow"] = {
                    "Mode": "FLEXIBLE",
                    "MaximumWindowInMinutes": flexible_time_window_minutes,
                }
            else:
                parameters["FlexibleTimeWindow"] = {"Mode": "OFF"}

            response = self.scheduler_client.create_schedule(**parameters)
            return response["ScheduleArn"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ConflictException":
                logger.error(
                    "Failed to create schedule '%s' due to a conflict. %s",
                    name,
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Error creating schedule: %s", err.response["Error"]["Message"]
                )
            raise


    def delete_schedule(self, name: str, schedule_group_name: str) -> None:
        """
        Deletes the schedule with the specified name and schedule group.

        :param name: The name of the schedule.
        :param schedule_group_name: The name of the schedule group.
        """
        try:
            self.scheduler_client.delete_schedule(
                Name=name, GroupName=schedule_group_name
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Failed to delete schedule with ID '%s' because the resource was not found: %s",
                    name,
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Error deleting schedule: %s", err.response["Error"]["Message"]
                )
                raise


    def create_schedule_group(self, name: str) -> str:
        """
        Creates a new schedule group with the specified name and description.

        :param name: The name of the schedule group.
        :param description: The description of the schedule group.

        :return: The ARN of the created schedule group.
        """
        try:
            response = self.scheduler_client.create_schedule_group(Name=name)
            return response["ScheduleGroupArn"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ConflictException":
                logger.error(
                    "Failed to create schedule group '%s' due to a conflict. %s",
                    name,
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Error creating schedule group: %s",
                    err.response["Error"]["Message"],
                )
            raise


    def delete_schedule_group(self, name: str) -> None:
        """
        Deletes the schedule group with the specified name.

        :param name: The name of the schedule group.
        """
        try:
            self.scheduler_client.delete_schedule_group(Name=name)
            logger.info("Schedule group %s deleted successfully.", name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Failed to delete schedule group with ID '%s' because the resource was not found: %s",
                    name,
                    err.response["Error"]["Message"],
                )
            else:
                logger.error(
                    "Error deleting schedule group: %s",
                    err.response["Error"]["Message"],
                )
                raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateSchedule](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/CreateSchedule)
  + [CreateScheduleGroup](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/CreateScheduleGroup)
  + [DeleteSchedule](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/DeleteSchedule)
  + [DeleteScheduleGroups](https://docs.aws.amazon.com/goto/boto3/scheduler-2021-06-30/DeleteScheduleGroups)

# Contoh Amazon Glacier menggunakan SDK untuk Python (Boto3)
<a name="python_3_glacier_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Glacier. AWS SDK untuk Python (Boto3) 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateVault`
<a name="glacier_CreateVault_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVault`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    def create_vault(self, vault_name):
        """
        Creates a vault.

        :param vault_name: The name to give the vault.
        :return: The newly created vault.
        """
        try:
            vault = self.glacier_resource.create_vault(vaultName=vault_name)
            logger.info("Created vault %s.", vault_name)
        except ClientError:
            logger.exception("Couldn't create vault %s.", vault_name)
            raise
        else:
            return vault
```
+  Untuk detail API, lihat [CreateVault](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/CreateVault)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteArchive`
<a name="glacier_DeleteArchive_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteArchive`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def delete_archive(archive):
        """
        Deletes an archive from a vault.

        :param archive: The archive to delete.
        """
        try:
            archive.delete()
            logger.info(
                "Deleted archive %s from vault %s.", archive.id, archive.vault_name
            )
        except ClientError:
            logger.exception("Couldn't delete archive %s.", archive.id)
            raise
```
+  Untuk detail API, lihat [DeleteArchive](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/DeleteArchive)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteVault`
<a name="glacier_DeleteVault_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVault`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def delete_vault(vault):
        """
        Deletes a vault.

        :param vault: The vault to delete.
        """
        try:
            vault.delete()
            logger.info("Deleted vault %s.", vault.name)
        except ClientError:
            logger.exception("Couldn't delete vault %s.", vault.name)
            raise
```
+  Untuk detail API, lihat [DeleteVault](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/DeleteVault)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteVaultNotifications`
<a name="glacier_DeleteVaultNotifications_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVaultNotifications`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def stop_notifications(notification):
        """
        Stops notifications to the configured Amazon SNS topic.

        :param notification: The notification configuration to remove.
        """
        try:
            notification.delete()
            logger.info("Notifications stopped.")
        except ClientError:
            logger.exception("Couldn't stop notifications.")
            raise
```
+  Untuk detail API, lihat [DeleteVaultNotifications](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/DeleteVaultNotifications)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeJob`
<a name="glacier_DescribeJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def get_job_status(job):
        """
        Gets the status of a job.

        :param job: The job to query.
        :return: The current status of the job.
        """
        try:
            job.load()
            logger.info(
                "Job %s is performing action %s and has status %s.",
                job.id,
                job.action,
                job.status_code,
            )
        except ClientError:
            logger.exception("Couldn't get status for job %s.", job.id)
            raise
        else:
            return job.status_code
```
+  Untuk detail API, lihat [DescribeJob](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/DescribeJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetJobOutput`
<a name="glacier_GetJobOutput_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobOutput`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def get_job_output(job):
        """
        Gets the output of a job, such as a vault inventory or the contents of an
        archive.

        :param job: The job to get output from.
        :return: The job output, in bytes.
        """
        try:
            response = job.get_output()
            out_bytes = response["body"].read()
            logger.info("Read %s bytes from job %s.", len(out_bytes), job.id)
            if "archiveDescription" in response:
                logger.info(
                    "These bytes are described as '%s'", response["archiveDescription"]
                )
        except ClientError:
            logger.exception("Couldn't get output for job %s.", job.id)
            raise
        else:
            return out_bytes
```
+  Untuk detail API, lihat [GetJobOutput](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/GetJobOutput)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetVaultNotifications`
<a name="glacier_GetVaultNotifications_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetVaultNotifications`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def get_notification(vault):
        """
        Gets the currently notification configuration for a vault.

        :param vault: The vault to query.
        :return: The notification configuration for the specified vault.
        """
        try:
            notification = vault.Notification()
            logger.info(
                "Vault %s notifies %s on %s events.",
                vault.name,
                notification.sns_topic,
                notification.events,
            )
        except ClientError:
            logger.exception("Couldn't get notification data for %s.", vault.name)
            raise
        else:
            return notification
```
+  Untuk detail API, lihat [GetVaultNotifications](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/GetVaultNotifications)di *AWS SDK for Python (Boto3) Referensi* API. 

### `InitiateJob`
<a name="glacier_InitiateJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InitiateJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 
Ambil inventaris lemari besi.  

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def initiate_inventory_retrieval(vault):
        """
        Initiates an inventory retrieval job. The inventory describes the contents
        of the vault. Standard retrievals typically complete within 3—5 hours.
        When the job completes, you can get the inventory by calling get_output().

        :param vault: The vault to inventory.
        :return: The inventory retrieval job.
        """
        try:
            job = vault.initiate_inventory_retrieval()
            logger.info("Started %s job with ID %s.", job.action, job.id)
        except ClientError:
            logger.exception("Couldn't start job on vault %s.", vault.name)
            raise
        else:
            return job
```
Ambil arsip dari lemari besi.  

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def initiate_archive_retrieval(archive):
        """
        Initiates an archive retrieval job. Standard retrievals typically complete
        within 3—5 hours. When the job completes, you can get the archive contents
        by calling get_output().

        :param archive: The archive to retrieve.
        :return: The archive retrieval job.
        """
        try:
            job = archive.initiate_archive_retrieval()
            logger.info("Started %s job with ID %s.", job.action, job.id)
        except ClientError:
            logger.exception("Couldn't start job on archive %s.", archive.id)
            raise
        else:
            return job
```
+  Untuk detail API, lihat [InitiateJob](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/InitiateJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListJobs`
<a name="glacier_ListJobs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def list_jobs(vault, job_type):
        """
        Lists jobs by type for the specified vault.

        :param vault: The vault to query.
        :param job_type: The type of job to list.
        :return: The list of jobs of the requested type.
        """
        job_list = []
        try:
            if job_type == "all":
                jobs = vault.jobs.all()
            elif job_type == "in_progress":
                jobs = vault.jobs_in_progress.all()
            elif job_type == "completed":
                jobs = vault.completed_jobs.all()
            elif job_type == "succeeded":
                jobs = vault.succeeded_jobs.all()
            elif job_type == "failed":
                jobs = vault.failed_jobs.all()
            else:
                jobs = []
                logger.warning("%s isn't a type of job I can get.", job_type)
            for job in jobs:
                job_list.append(job)
                logger.info("Got %s %s job %s.", job_type, job.action, job.id)
        except ClientError:
            logger.exception("Couldn't get %s jobs from %s.", job_type, vault.name)
            raise
        else:
            return job_list
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/ListJobs)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListVaults`
<a name="glacier_ListVaults_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListVaults`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    def list_vaults(self):
        """
        Lists vaults for the current account.
        """
        try:
            for vault in self.glacier_resource.vaults.all():
                logger.info("Got vault %s.", vault.name)
        except ClientError:
            logger.exception("Couldn't list vaults.")
            raise
```
+  Untuk detail API, lihat [ListVaults](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/ListVaults)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SetVaultNotifications`
<a name="glacier_SetVaultNotifications_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetVaultNotifications`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    def set_notifications(self, vault, sns_topic_arn):
        """
        Sets an Amazon Simple Notification Service (Amazon SNS) topic as a target
        for notifications. Amazon S3 Glacier publishes messages to this topic for
        the configured list of events.

        :param vault: The vault to set up to publish notifications.
        :param sns_topic_arn: The Amazon Resource Name (ARN) of the topic that
                              receives notifications.
        :return: Data about the new notification configuration.
        """
        try:
            notification = self.glacier_resource.Notification("-", vault.name)
            notification.set(
                vaultNotificationConfig={
                    "SNSTopic": sns_topic_arn,
                    "Events": [
                        "ArchiveRetrievalCompleted",
                        "InventoryRetrievalCompleted",
                    ],
                }
            )
            logger.info(
                "Notifications will be sent to %s for events %s from %s.",
                notification.sns_topic,
                notification.events,
                notification.vault_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't set notifications to %s on %s.", sns_topic_arn, vault.name
            )
            raise
        else:
            return notification
```
+  Untuk detail API, lihat [SetVaultNotifications](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/SetVaultNotifications)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UploadArchive`
<a name="glacier_UploadArchive_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadArchive`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 

```
class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def upload_archive(vault, archive_description, archive_file):
        """
        Uploads an archive to a vault.

        :param vault: The vault where the archive is put.
        :param archive_description: A description of the archive.
        :param archive_file: The archive file to put in the vault.
        :return: The uploaded archive.
        """
        try:
            archive = vault.upload_archive(
                archiveDescription=archive_description, body=archive_file
            )
            logger.info(
                "Uploaded %s with ID %s to vault %s.",
                archive_description,
                archive.id,
                vault.name,
            )
        except ClientError:
            logger.exception(
                "Couldn't upload %s to %s.", archive_description, vault.name
            )
            raise
        else:
            return archive
```
+  Untuk detail API, lihat [UploadArchive](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/UploadArchive)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Mengarsipkan file, mendapatkan notifikasi, dan memulai pekerjaan
<a name="glacier_Usage_UploadNotifyInitiate_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat lemari besi Amazon Glacier.
+ Konfigurasikan vault untuk mempublikasikan notifikasi ke topik Amazon SNS.
+ Unggah file arsip ke brankas.
+ Mulai tugas pengambilan arsip.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 
Buat kelas yang membungkus operasi Amazon Glacier.  

```
import argparse
import logging
import os
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    def create_vault(self, vault_name):
        """
        Creates a vault.

        :param vault_name: The name to give the vault.
        :return: The newly created vault.
        """
        try:
            vault = self.glacier_resource.create_vault(vaultName=vault_name)
            logger.info("Created vault %s.", vault_name)
        except ClientError:
            logger.exception("Couldn't create vault %s.", vault_name)
            raise
        else:
            return vault


    def list_vaults(self):
        """
        Lists vaults for the current account.
        """
        try:
            for vault in self.glacier_resource.vaults.all():
                logger.info("Got vault %s.", vault.name)
        except ClientError:
            logger.exception("Couldn't list vaults.")
            raise


    @staticmethod
    def upload_archive(vault, archive_description, archive_file):
        """
        Uploads an archive to a vault.

        :param vault: The vault where the archive is put.
        :param archive_description: A description of the archive.
        :param archive_file: The archive file to put in the vault.
        :return: The uploaded archive.
        """
        try:
            archive = vault.upload_archive(
                archiveDescription=archive_description, body=archive_file
            )
            logger.info(
                "Uploaded %s with ID %s to vault %s.",
                archive_description,
                archive.id,
                vault.name,
            )
        except ClientError:
            logger.exception(
                "Couldn't upload %s to %s.", archive_description, vault.name
            )
            raise
        else:
            return archive


    @staticmethod
    def initiate_archive_retrieval(archive):
        """
        Initiates an archive retrieval job. Standard retrievals typically complete
        within 3—5 hours. When the job completes, you can get the archive contents
        by calling get_output().

        :param archive: The archive to retrieve.
        :return: The archive retrieval job.
        """
        try:
            job = archive.initiate_archive_retrieval()
            logger.info("Started %s job with ID %s.", job.action, job.id)
        except ClientError:
            logger.exception("Couldn't start job on archive %s.", archive.id)
            raise
        else:
            return job


    @staticmethod
    def list_jobs(vault, job_type):
        """
        Lists jobs by type for the specified vault.

        :param vault: The vault to query.
        :param job_type: The type of job to list.
        :return: The list of jobs of the requested type.
        """
        job_list = []
        try:
            if job_type == "all":
                jobs = vault.jobs.all()
            elif job_type == "in_progress":
                jobs = vault.jobs_in_progress.all()
            elif job_type == "completed":
                jobs = vault.completed_jobs.all()
            elif job_type == "succeeded":
                jobs = vault.succeeded_jobs.all()
            elif job_type == "failed":
                jobs = vault.failed_jobs.all()
            else:
                jobs = []
                logger.warning("%s isn't a type of job I can get.", job_type)
            for job in jobs:
                job_list.append(job)
                logger.info("Got %s %s job %s.", job_type, job.action, job.id)
        except ClientError:
            logger.exception("Couldn't get %s jobs from %s.", job_type, vault.name)
            raise
        else:
            return job_list


    def set_notifications(self, vault, sns_topic_arn):
        """
        Sets an Amazon Simple Notification Service (Amazon SNS) topic as a target
        for notifications. Amazon S3 Glacier publishes messages to this topic for
        the configured list of events.

        :param vault: The vault to set up to publish notifications.
        :param sns_topic_arn: The Amazon Resource Name (ARN) of the topic that
                              receives notifications.
        :return: Data about the new notification configuration.
        """
        try:
            notification = self.glacier_resource.Notification("-", vault.name)
            notification.set(
                vaultNotificationConfig={
                    "SNSTopic": sns_topic_arn,
                    "Events": [
                        "ArchiveRetrievalCompleted",
                        "InventoryRetrievalCompleted",
                    ],
                }
            )
            logger.info(
                "Notifications will be sent to %s for events %s from %s.",
                notification.sns_topic,
                notification.events,
                notification.vault_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't set notifications to %s on %s.", sns_topic_arn, vault.name
            )
            raise
        else:
            return notification
```
Panggil fungsi pada kelas pembungkus untuk membuat vault dan mengunggah file, lalu konfigurasikan vault untuk mempublikasikan notifikasi dan memulai pekerjaan untuk mengambil arsip.  

```
def upload_demo(glacier, vault_name, topic_arn):
    """
    Shows how to:
    * Create a vault.
    * Configure the vault to publish notifications to an Amazon SNS topic.
    * Upload an archive.
    * Start a job to retrieve the archive.

    :param glacier: A Boto3 Amazon S3 Glacier resource.
    :param vault_name: The name of the vault to create.
    :param topic_arn: The ARN of an Amazon SNS topic that receives notification of
                      Amazon S3 Glacier events.
    """
    print(f"\nCreating vault {vault_name}.")
    vault = glacier.create_vault(vault_name)
    print("\nList of vaults in your account:")
    glacier.list_vaults()
    print(f"\nUploading glacier_basics.py to {vault.name}.")
    with open("glacier_basics.py", "rb") as upload_file:
        archive = glacier.upload_archive(vault, "glacier_basics.py", upload_file)
    print(
        "\nStarting an archive retrieval request to get the file back from the "
        "vault."
    )
    glacier.initiate_archive_retrieval(archive)
    print("\nListing in progress jobs:")
    glacier.list_jobs(vault, "in_progress")
    print(
        "\nBecause Amazon S3 Glacier is intended for infrequent retrieval, an "
        "archive request with Standard retrieval typically completes within 3–5 "
        "hours."
    )
    if topic_arn:
        notification = glacier.set_notifications(vault, topic_arn)
        print(
            f"\nVault {vault.name} is configured to notify the "
            f"{notification.sns_topic} topic when {notification.events} "
            f"events occur. You can subscribe to this topic to receive "
            f"a message when the archive retrieval completes.\n"
        )
    else:
        print(
            f"\nVault {vault.name} is not configured to notify an Amazon SNS topic "
            f"when the archive retrieval completes so wait a few hours."
        )
    print("\nRetrieve your job output by running this script with the --retrieve flag.")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateVault](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/CreateVault)
  + [InitiateJob](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/InitiateJob)
  + [ListJobs](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/ListJobs)
  + [ListVaults](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/ListVaults)
  + [SetVaultNotifications](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/SetVaultNotifications)
  + [UploadArchive](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/UploadArchive)

### Dapatkan konten arsip dan hapus arsip
<a name="glacier_Usage_RetrieveDelete_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat daftar pekerjaan untuk lemari besi Amazon Glacier dan dapatkan status pekerjaan.
+ Dapatkan output dari pekerjaan pengambilan arsip yang sudah selesai.
+ Hapus arsip.
+ Hapus lemari besi.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glacier#code-examples). 
Buat kelas yang membungkus operasi Amazon Glacier.  

```
import argparse
import logging
import os
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


class GlacierWrapper:
    """Encapsulates Amazon S3 Glacier API operations."""

    def __init__(self, glacier_resource):
        """
        :param glacier_resource: A Boto3 Amazon S3 Glacier resource.
        """
        self.glacier_resource = glacier_resource


    @staticmethod
    def list_jobs(vault, job_type):
        """
        Lists jobs by type for the specified vault.

        :param vault: The vault to query.
        :param job_type: The type of job to list.
        :return: The list of jobs of the requested type.
        """
        job_list = []
        try:
            if job_type == "all":
                jobs = vault.jobs.all()
            elif job_type == "in_progress":
                jobs = vault.jobs_in_progress.all()
            elif job_type == "completed":
                jobs = vault.completed_jobs.all()
            elif job_type == "succeeded":
                jobs = vault.succeeded_jobs.all()
            elif job_type == "failed":
                jobs = vault.failed_jobs.all()
            else:
                jobs = []
                logger.warning("%s isn't a type of job I can get.", job_type)
            for job in jobs:
                job_list.append(job)
                logger.info("Got %s %s job %s.", job_type, job.action, job.id)
        except ClientError:
            logger.exception("Couldn't get %s jobs from %s.", job_type, vault.name)
            raise
        else:
            return job_list


    @staticmethod
    def get_job_output(job):
        """
        Gets the output of a job, such as a vault inventory or the contents of an
        archive.

        :param job: The job to get output from.
        :return: The job output, in bytes.
        """
        try:
            response = job.get_output()
            out_bytes = response["body"].read()
            logger.info("Read %s bytes from job %s.", len(out_bytes), job.id)
            if "archiveDescription" in response:
                logger.info(
                    "These bytes are described as '%s'", response["archiveDescription"]
                )
        except ClientError:
            logger.exception("Couldn't get output for job %s.", job.id)
            raise
        else:
            return out_bytes


    @staticmethod
    def delete_archive(archive):
        """
        Deletes an archive from a vault.

        :param archive: The archive to delete.
        """
        try:
            archive.delete()
            logger.info(
                "Deleted archive %s from vault %s.", archive.id, archive.vault_name
            )
        except ClientError:
            logger.exception("Couldn't delete archive %s.", archive.id)
            raise


    @staticmethod
    def delete_vault(vault):
        """
        Deletes a vault.

        :param vault: The vault to delete.
        """
        try:
            vault.delete()
            logger.info("Deleted vault %s.", vault.name)
        except ClientError:
            logger.exception("Couldn't delete vault %s.", vault.name)
            raise
```
Panggil fungsi pada kelas pembungkus untuk mendapatkan konten arsip dari pekerjaan yang sudah selesai, lalu hapus arsip.  

```
def retrieve_demo(glacier, vault_name):
    """
    Shows how to:
    * List jobs for a vault and get job status.
    * Get the output of a completed archive retrieval job.
    * Delete an archive.
    * Delete a vault.

    :param glacier: A Boto3 Amazon S3 Glacier resource.
    :param vault_name: The name of the vault to query for jobs.
    """
    vault = glacier.glacier_resource.Vault("-", vault_name)
    try:
        vault.load()
    except ClientError as err:
        if err.response["Error"]["Code"] == "ResourceNotFoundException":
            print(
                f"\nVault {vault_name} doesn't exist. You must first run this script "
                f"with the --upload flag to create the vault."
            )
            return
        else:
            raise

    print(f"\nGetting completed jobs for {vault.name}.")
    jobs = glacier.list_jobs(vault, "completed")
    if not jobs:
        print("\nNo completed jobs found. Give it some time and try again later.")
        return

    retrieval_job = None
    for job in jobs:
        if job.action == "ArchiveRetrieval" and job.status_code == "Succeeded":
            retrieval_job = job
            break
    if retrieval_job is None:
        print(
            "\nNo ArchiveRetrieval jobs found. Give it some time and try again "
            "later."
        )
        return

    print(f"\nGetting output from job {retrieval_job.id}.")
    archive_bytes = glacier.get_job_output(retrieval_job)
    archive_str = archive_bytes.decode("utf-8")
    print("\nGot archive data. Printing the first 10 lines.")
    print(os.linesep.join(archive_str.split(os.linesep)[:10]))

    print(f"\nDeleting the archive from {vault.name}.")
    archive = glacier.glacier_resource.Archive(
        "-", vault.name, retrieval_job.archive_id
    )
    glacier.delete_archive(archive)

    print(f"\nDeleting {vault.name}.")
    glacier.delete_vault(vault)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [DeleteArchive](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/DeleteArchive)
  + [DeleteVault](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/DeleteVault)
  + [GetJobOutput](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/GetJobOutput)
  + [ListJobs](https://docs.aws.amazon.com/goto/boto3/glacier-2012-06-01/ListJobs)

# AWS Glue contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS Glue.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Glue
<a name="glue_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Glue.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
import boto3
from botocore.exceptions import ClientError


def hello_glue():
    """
    Lists the job definitions in your AWS Glue account, using the AWS SDK for Python (Boto3).
    """
    try:
        # Create the Glue client
        glue = boto3.client("glue")

        # List the jobs, limiting the results to 10 per page
        paginator = glue.get_paginator("get_jobs")
        response_iterator = paginator.paginate(
            PaginationConfig={"MaxItems": 10, "PageSize": 10}
        )

        # Print the job names
        print("Here are the jobs in your account:")
        for page in response_iterator:
            for job in page["Jobs"]:
                print(f"\t{job['Name']}")

    except ClientError as e:
        print(f"Error: {e}")


if __name__ == "__main__":
    hello_glue()
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/ListJobs)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Daftar informasi tentang database dan tabel di situs Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 
Buat kelas yang membungkus AWS Glue fungsi yang digunakan dalam skenario.  

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def get_crawler(self, name):
        """
        Gets information about a crawler.

        :param name: The name of the crawler to look up.
        :return: Data about the crawler.
        """
        crawler = None
        try:
            response = self.glue_client.get_crawler(Name=name)
            crawler = response["Crawler"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityNotFoundException":
                logger.info("Crawler %s doesn't exist.", name)
            else:
                logger.error(
                    "Couldn't get crawler %s. Here's why: %s: %s",
                    name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return crawler


    def create_crawler(self, name, role_arn, db_name, db_prefix, s3_target):
        """
        Creates a crawler that can crawl the specified target and populate a
        database in your AWS Glue Data Catalog with metadata that describes the data
        in the target.

        :param name: The name of the crawler.
        :param role_arn: The Amazon Resource Name (ARN) of an AWS Identity and Access
                         Management (IAM) role that grants permission to let AWS Glue
                         access the resources it needs.
        :param db_name: The name to give the database that is created by the crawler.
        :param db_prefix: The prefix to give any database tables that are created by
                          the crawler.
        :param s3_target: The URL to an S3 bucket that contains data that is
                          the target of the crawler.
        """
        try:
            self.glue_client.create_crawler(
                Name=name,
                Role=role_arn,
                DatabaseName=db_name,
                TablePrefix=db_prefix,
                Targets={"S3Targets": [{"Path": s3_target}]},
            )
        except ClientError as err:
            logger.error(
                "Couldn't create crawler. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def start_crawler(self, name):
        """
        Starts a crawler. The crawler crawls its configured target and creates
        metadata that describes the data it finds in the target data source.

        :param name: The name of the crawler to start.
        """
        try:
            self.glue_client.start_crawler(Name=name)
        except ClientError as err:
            logger.error(
                "Couldn't start crawler %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def get_database(self, name):
        """
        Gets information about a database in your Data Catalog.

        :param name: The name of the database to look up.
        :return: Information about the database.
        """
        try:
            response = self.glue_client.get_database(Name=name)
        except ClientError as err:
            logger.error(
                "Couldn't get database %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Database"]


    def get_tables(self, db_name):
        """
        Gets a list of tables in a Data Catalog database.

        :param db_name: The name of the database to query.
        :return: The list of tables in the database.
        """
        try:
            response = self.glue_client.get_tables(DatabaseName=db_name)
        except ClientError as err:
            logger.error(
                "Couldn't get tables %s. Here's why: %s: %s",
                db_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["TableList"]


    def create_job(self, name, description, role_arn, script_location):
        """
        Creates a job definition for an extract, transform, and load (ETL) job that can
        be run by AWS Glue.

        :param name: The name of the job definition.
        :param description: The description of the job definition.
        :param role_arn: The ARN of an IAM role that grants AWS Glue the permissions
                         it requires to run the job.
        :param script_location: The Amazon S3 URL of a Python ETL script that is run as
                                part of the job. The script defines how the data is
                                transformed.
        """
        try:
            self.glue_client.create_job(
                Name=name,
                Description=description,
                Role=role_arn,
                Command={
                    "Name": "glueetl",
                    "ScriptLocation": script_location,
                    "PythonVersion": "3",
                },
                GlueVersion="3.0",
            )
        except ClientError as err:
            logger.error(
                "Couldn't create job %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def start_job_run(self, name, input_database, input_table, output_bucket_name):
        """
        Starts a job run. A job run extracts data from the source, transforms it,
        and loads it to the output bucket.

        :param name: The name of the job definition.
        :param input_database: The name of the metadata database that contains tables
                               that describe the source data. This is typically created
                               by a crawler.
        :param input_table: The name of the table in the metadata database that
                            describes the source data.
        :param output_bucket_name: The S3 bucket where the output is written.
        :return: The ID of the job run.
        """
        try:
            # The custom Arguments that are passed to this function are used by the
            # Python ETL script to determine the location of input and output data.
            response = self.glue_client.start_job_run(
                JobName=name,
                Arguments={
                    "--input_database": input_database,
                    "--input_table": input_table,
                    "--output_bucket_url": f"s3://{output_bucket_name}/",
                },
            )
        except ClientError as err:
            logger.error(
                "Couldn't start job run %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["JobRunId"]


    def list_jobs(self):
        """
        Lists the names of job definitions in your account.

        :return: The list of job definition names.
        """
        try:
            response = self.glue_client.list_jobs()
        except ClientError as err:
            logger.error(
                "Couldn't list jobs. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["JobNames"]


    def get_job_runs(self, job_name):
        """
        Gets information about runs that have been performed for a specific job
        definition.

        :param job_name: The name of the job definition to look up.
        :return: The list of job runs.
        """
        try:
            response = self.glue_client.get_job_runs(JobName=job_name)
        except ClientError as err:
            logger.error(
                "Couldn't get job runs for %s. Here's why: %s: %s",
                job_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["JobRuns"]


    def get_job_run(self, name, run_id):
        """
        Gets information about a single job run.

        :param name: The name of the job definition for the run.
        :param run_id: The ID of the run.
        :return: Information about the run.
        """
        try:
            response = self.glue_client.get_job_run(JobName=name, RunId=run_id)
        except ClientError as err:
            logger.error(
                "Couldn't get job run %s/%s. Here's why: %s: %s",
                name,
                run_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["JobRun"]


    def delete_job(self, job_name):
        """
        Deletes a job definition. This also deletes data about all runs that are
        associated with this job definition.

        :param job_name: The name of the job definition to delete.
        """
        try:
            self.glue_client.delete_job(JobName=job_name)
        except ClientError as err:
            logger.error(
                "Couldn't delete job %s. Here's why: %s: %s",
                job_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_table(self, db_name, table_name):
        """
        Deletes a table from a metadata database.

        :param db_name: The name of the database that contains the table.
        :param table_name: The name of the table to delete.
        """
        try:
            self.glue_client.delete_table(DatabaseName=db_name, Name=table_name)
        except ClientError as err:
            logger.error(
                "Couldn't delete table %s. Here's why: %s: %s",
                table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_database(self, name):
        """
        Deletes a metadata database from your Data Catalog.

        :param name: The name of the database to delete.
        """
        try:
            self.glue_client.delete_database(Name=name)
        except ClientError as err:
            logger.error(
                "Couldn't delete database %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_crawler(self, name):
        """
        Deletes a crawler.

        :param name: The name of the crawler to delete.
        """
        try:
            self.glue_client.delete_crawler(Name=name)
        except ClientError as err:
            logger.error(
                "Couldn't delete crawler %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Buat kelas yang menjalankan skenario.  

```
class GlueCrawlerJobScenario:
    """
    Encapsulates a scenario that shows how to create an AWS Glue crawler and job and use
    them to transform data from CSV to JSON format.
    """

    def __init__(self, glue_client, glue_service_role, glue_bucket):
        """
        :param glue_client: A Boto3 AWS Glue client.
        :param glue_service_role: An AWS Identity and Access Management (IAM) role
                                  that AWS Glue can assume to gain access to the
                                  resources it requires.
        :param glue_bucket: An S3 bucket that can hold a job script and output data
                            from AWS Glue job runs.
        """
        self.glue_client = glue_client
        self.glue_service_role = glue_service_role
        self.glue_bucket = glue_bucket

    @staticmethod
    def wait(seconds, tick=12):
        """
        Waits for a specified number of seconds, while also displaying an animated
        spinner.

        :param seconds: The number of seconds to wait.
        :param tick: The number of frames per second used to animate the spinner.
        """
        progress = "|/-\\"
        waited = 0
        while waited < seconds:
            for frame in range(tick):
                sys.stdout.write(f"\r{progress[frame % len(progress)]}")
                sys.stdout.flush()
                time.sleep(1 / tick)
            waited += 1

    def upload_job_script(self, job_script):
        """
        Uploads a Python ETL script to an S3 bucket. The script is used by the AWS Glue
        job to transform data.

        :param job_script: The relative path to the job script.
        """
        try:
            self.glue_bucket.upload_file(Filename=job_script, Key=job_script)
            print(f"Uploaded job script '{job_script}' to the example bucket.")
        except S3UploadFailedError as err:
            logger.error("Couldn't upload job script. Here's why: %s", err)
            raise

    def run(self, crawler_name, db_name, db_prefix, data_source, job_script, job_name):
        """
        Runs the scenario. This is an interactive experience that runs at a command
        prompt and asks you for input throughout.

        :param crawler_name: The name of the crawler used in the scenario. If the
                             crawler does not exist, it is created.
        :param db_name: The name to give the metadata database created by the crawler.
        :param db_prefix: The prefix to give tables added to the database by the
                          crawler.
        :param data_source: The location of the data source that is targeted by the
                            crawler and extracted during job runs.
        :param job_script: The job script that is used to transform data during job
                           runs.
        :param job_name: The name to give the job definition that is created during the
                         scenario.
        """
        wrapper = GlueWrapper(self.glue_client)
        print(f"Checking for crawler {crawler_name}.")
        crawler = wrapper.get_crawler(crawler_name)
        if crawler is None:
            print(f"Creating crawler {crawler_name}.")
            wrapper.create_crawler(
                crawler_name,
                self.glue_service_role.arn,
                db_name,
                db_prefix,
                data_source,
            )
            print(f"Created crawler {crawler_name}.")
            crawler = wrapper.get_crawler(crawler_name)
        pprint(crawler)
        print("-" * 88)

        print(
            f"When you run the crawler, it crawls data stored in {data_source} and "
            f"creates a metadata database in the AWS Glue Data Catalog that describes "
            f"the data in the data source."
        )
        print("In this example, the source data is in CSV format.")
        ready = False
        while not ready:
            ready = Question.ask_question(
                "Ready to start the crawler? (y/n) ", Question.is_yesno
            )
        wrapper.start_crawler(crawler_name)
        print("Let's wait for the crawler to run. This typically takes a few minutes.")
        crawler_state = None
        while crawler_state != "READY":
            self.wait(10)
            crawler = wrapper.get_crawler(crawler_name)
            crawler_state = crawler["State"]
            print(f"Crawler is {crawler['State']}.")
        print("-" * 88)

        database = wrapper.get_database(db_name)
        print(f"The crawler created database {db_name}:")
        pprint(database)
        print(f"The database contains these tables:")
        tables = wrapper.get_tables(db_name)
        for index, table in enumerate(tables):
            print(f"\t{index + 1}. {table['Name']}")
        table_index = Question.ask_question(
            f"Enter the number of a table to see more detail: ",
            Question.is_int,
            Question.in_range(1, len(tables)),
        )
        pprint(tables[table_index - 1])
        print("-" * 88)

        print(f"Creating job definition {job_name}.")
        wrapper.create_job(
            job_name,
            "Getting started example job.",
            self.glue_service_role.arn,
            f"s3://{self.glue_bucket.name}/{job_script}",
        )
        print("Created job definition.")
        print(
            f"When you run the job, it extracts data from {data_source}, transforms it "
            f"by using the {job_script} script, and loads the output into "
            f"S3 bucket {self.glue_bucket.name}."
        )
        print(
            "In this example, the data is transformed from CSV to JSON, and only a few "
            "fields are included in the output."
        )
        job_run_status = None
        if Question.ask_question(f"Ready to run? (y/n) ", Question.is_yesno):
            job_run_id = wrapper.start_job_run(
                job_name, db_name, tables[0]["Name"], self.glue_bucket.name
            )
            print(f"Job {job_name} started. Let's wait for it to run.")
            while job_run_status not in ["SUCCEEDED", "STOPPED", "FAILED", "TIMEOUT"]:
                self.wait(10)
                job_run = wrapper.get_job_run(job_name, job_run_id)
                job_run_status = job_run["JobRunState"]
                print(f"Job {job_name}/{job_run_id} is {job_run_status}.")
        print("-" * 88)

        if job_run_status == "SUCCEEDED":
            print(
                f"Data from your job run is stored in your S3 bucket '{self.glue_bucket.name}':"
            )
            try:
                keys = [
                    obj.key for obj in self.glue_bucket.objects.filter(Prefix="run-")
                ]
                for index, key in enumerate(keys):
                    print(f"\t{index + 1}: {key}")
                lines = 4
                key_index = Question.ask_question(
                    f"Enter the number of a block to download it and see the first {lines} "
                    f"lines of JSON output in the block: ",
                    Question.is_int,
                    Question.in_range(1, len(keys)),
                )
                job_data = io.BytesIO()
                self.glue_bucket.download_fileobj(keys[key_index - 1], job_data)
                job_data.seek(0)
                for _ in range(lines):
                    print(job_data.readline().decode("utf-8"))
            except ClientError as err:
                logger.error(
                    "Couldn't get job run data. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
            print("-" * 88)

        job_names = wrapper.list_jobs()
        if job_names:
            print(f"Your account has {len(job_names)} jobs defined:")
            for index, job_name in enumerate(job_names):
                print(f"\t{index + 1}. {job_name}")
            job_index = Question.ask_question(
                f"Enter a number between 1 and {len(job_names)} to see the list of runs for "
                f"a job: ",
                Question.is_int,
                Question.in_range(1, len(job_names)),
            )
            job_runs = wrapper.get_job_runs(job_names[job_index - 1])
            if job_runs:
                print(f"Found {len(job_runs)} runs for job {job_names[job_index - 1]}:")
                for index, job_run in enumerate(job_runs):
                    print(
                        f"\t{index + 1}. {job_run['JobRunState']} on "
                        f"{job_run['CompletedOn']:%Y-%m-%d %H:%M:%S}"
                    )
                run_index = Question.ask_question(
                    f"Enter a number between 1 and {len(job_runs)} to see details for a run: ",
                    Question.is_int,
                    Question.in_range(1, len(job_runs)),
                )
                pprint(job_runs[run_index - 1])
            else:
                print(f"No runs found for job {job_names[job_index - 1]}")
        else:
            print("Your account doesn't have any jobs defined.")
        print("-" * 88)

        print(
            f"Let's clean up. During this example we created job definition '{job_name}'."
        )
        if Question.ask_question(
            "Do you want to delete the definition and all runs? (y/n) ",
            Question.is_yesno,
        ):
            wrapper.delete_job(job_name)
            print(f"Job definition '{job_name}' deleted.")
        tables = wrapper.get_tables(db_name)
        print(f"We also created database '{db_name}' that contains these tables:")
        for table in tables:
            print(f"\t{table['Name']}")
        if Question.ask_question(
            "Do you want to delete the tables and the database? (y/n) ",
            Question.is_yesno,
        ):
            for table in tables:
                wrapper.delete_table(db_name, table["Name"])
                print(f"Deleted table {table['Name']}.")
            wrapper.delete_database(db_name)
            print(f"Deleted database {db_name}.")
        print(f"We also created crawler '{crawler_name}'.")
        if Question.ask_question(
            "Do you want to delete the crawler? (y/n) ", Question.is_yesno
        ):
            wrapper.delete_crawler(crawler_name)
            print(f"Deleted crawler {crawler_name}.")
        print("-" * 88)


def parse_args(args):
    """
    Parse command line arguments.

    :param args: The command line arguments.
    :return: The parsed arguments.
    """
    parser = argparse.ArgumentParser(
        description="Runs the AWS Glue getting started with crawlers and jobs scenario. "
        "Before you run this scenario, set up scaffold resources by running "
        "'python scaffold.py deploy'."
    )
    parser.add_argument(
        "role_name",
        help="The name of an IAM role that AWS Glue can assume. This role must grant access "
        "to Amazon S3 and to the permissions granted by the AWSGlueServiceRole "
        "managed policy.",
    )
    parser.add_argument(
        "bucket_name",
        help="The name of an S3 bucket that AWS Glue can access to get the job script and "
        "put job results.",
    )
    parser.add_argument(
        "--job_script",
        default="flight_etl_job_script.py",
        help="The name of the job script file that is used in the scenario.",
    )
    return parser.parse_args(args)


def main():
    args = parse_args(sys.argv[1:])
    try:
        print("-" * 88)
        print(
            "Welcome to the AWS Glue getting started with crawlers and jobs scenario."
        )
        print("-" * 88)
        scenario = GlueCrawlerJobScenario(
            boto3.client("glue"),
            boto3.resource("iam").Role(args.role_name),
            boto3.resource("s3").Bucket(args.bucket_name),
        )
        scenario.upload_job_script(args.job_script)
        scenario.run(
            "doc-example-crawler",
            "doc-example-database",
            "doc-example-",
            "s3://crawler-public-us-east-1/flight/2016/csv",
            args.job_script,
            "doc-example-job",
        )
        print("-" * 88)
        print(
            "To destroy scaffold resources, including the IAM role and S3 bucket "
            "used in this scenario, run 'python scaffold.py destroy'."
        )
        print("\nThanks for watching!")
        print("-" * 88)
    except Exception:
        logging.exception("Something went wrong with the example.")
```
Buat skrip ETL yang digunakan oleh AWS Glue untuk mengekstrak, mengubah, dan memuat data selama pekerjaan berjalan.  

```
import sys
from awsglue.transforms import *
from awsglue.utils import getResolvedOptions
from pyspark.context import SparkContext
from awsglue.context import GlueContext
from awsglue.job import Job

"""
These custom arguments must be passed as Arguments to the StartJobRun request.
    --input_database    The name of a metadata database that is contained in your 
                        AWS Glue Data Catalog and that contains tables that describe 
                        the data to be processed.
    --input_table       The name of a table in the database that describes the data to
                        be processed.
    --output_bucket_url An S3 bucket that receives the transformed output data.  
"""
args = getResolvedOptions(
    sys.argv, ["JOB_NAME", "input_database", "input_table", "output_bucket_url"]
)
sc = SparkContext()
glueContext = GlueContext(sc)
spark = glueContext.spark_session
job = Job(glueContext)
job.init(args["JOB_NAME"], args)

# Script generated for node S3 Flight Data.
S3FlightData_node1 = glueContext.create_dynamic_frame.from_catalog(
    database=args["input_database"],
    table_name=args["input_table"],
    transformation_ctx="S3FlightData_node1",
)

# This mapping performs two main functions:
# 1. It simplifies the output by removing most of the fields from the data.
# 2. It renames some fields. For example, `fl_date` is renamed to `flight_date`.
ApplyMapping_node2 = ApplyMapping.apply(
    frame=S3FlightData_node1,
    mappings=[
        ("year", "long", "year", "long"),
        ("month", "long", "month", "tinyint"),
        ("day_of_month", "long", "day", "tinyint"),
        ("fl_date", "string", "flight_date", "string"),
        ("carrier", "string", "carrier", "string"),
        ("fl_num", "long", "flight_num", "long"),
        ("origin_city_name", "string", "origin_city_name", "string"),
        ("origin_state_abr", "string", "origin_state_abr", "string"),
        ("dest_city_name", "string", "dest_city_name", "string"),
        ("dest_state_abr", "string", "dest_state_abr", "string"),
        ("dep_time", "long", "departure_time", "long"),
        ("wheels_off", "long", "wheels_off", "long"),
        ("wheels_on", "long", "wheels_on", "long"),
        ("arr_time", "long", "arrival_time", "long"),
        ("mon", "string", "mon", "string"),
    ],
    transformation_ctx="ApplyMapping_node2",
)

# Script generated for node Revised Flight Data.
RevisedFlightData_node3 = glueContext.write_dynamic_frame.from_options(
    frame=ApplyMapping_node2,
    connection_type="s3",
    format="json",
    connection_options={"path": args["output_bucket_url"], "partitionKeys": []},
    transformation_ctx="RevisedFlightData_node3",
)

job.commit()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateCrawler](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/CreateCrawler)
  + [CreateJob](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/CreateJob)
  + [DeleteCrawler](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/DeleteCrawler)
  + [DeleteDatabase](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/DeleteDatabase)
  + [DeleteJob](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/DeleteJob)
  + [DeleteTable](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/DeleteTable)
  + [GetCrawler](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetCrawler)
  + [GetDatabase](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetDatabase)
  + [GetDatabases](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetDatabases)
  + [GetJob](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetJob)
  + [GetJobRun](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetJobRun)
  + [GetJobRuns](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetJobRuns)
  + [GetTables](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetTables)
  + [ListJobs](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/ListJobs)
  + [StartCrawler](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/StartCrawler)
  + [StartJobRun](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/StartJobRun)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def create_crawler(self, name, role_arn, db_name, db_prefix, s3_target):
        """
        Creates a crawler that can crawl the specified target and populate a
        database in your AWS Glue Data Catalog with metadata that describes the data
        in the target.

        :param name: The name of the crawler.
        :param role_arn: The Amazon Resource Name (ARN) of an AWS Identity and Access
                         Management (IAM) role that grants permission to let AWS Glue
                         access the resources it needs.
        :param db_name: The name to give the database that is created by the crawler.
        :param db_prefix: The prefix to give any database tables that are created by
                          the crawler.
        :param s3_target: The URL to an S3 bucket that contains data that is
                          the target of the crawler.
        """
        try:
            self.glue_client.create_crawler(
                Name=name,
                Role=role_arn,
                DatabaseName=db_name,
                TablePrefix=db_prefix,
                Targets={"S3Targets": [{"Path": s3_target}]},
            )
        except ClientError as err:
            logger.error(
                "Couldn't create crawler. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/CreateCrawler)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateJob`
<a name="glue_CreateJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def create_job(self, name, description, role_arn, script_location):
        """
        Creates a job definition for an extract, transform, and load (ETL) job that can
        be run by AWS Glue.

        :param name: The name of the job definition.
        :param description: The description of the job definition.
        :param role_arn: The ARN of an IAM role that grants AWS Glue the permissions
                         it requires to run the job.
        :param script_location: The Amazon S3 URL of a Python ETL script that is run as
                                part of the job. The script defines how the data is
                                transformed.
        """
        try:
            self.glue_client.create_job(
                Name=name,
                Description=description,
                Role=role_arn,
                Command={
                    "Name": "glueetl",
                    "ScriptLocation": script_location,
                    "PythonVersion": "3",
                },
                GlueVersion="3.0",
            )
        except ClientError as err:
            logger.error(
                "Couldn't create job %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/CreateJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def delete_crawler(self, name):
        """
        Deletes a crawler.

        :param name: The name of the crawler to delete.
        """
        try:
            self.glue_client.delete_crawler(Name=name)
        except ClientError as err:
            logger.error(
                "Couldn't delete crawler %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/DeleteCrawler)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def delete_database(self, name):
        """
        Deletes a metadata database from your Data Catalog.

        :param name: The name of the database to delete.
        """
        try:
            self.glue_client.delete_database(Name=name)
        except ClientError as err:
            logger.error(
                "Couldn't delete database %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/DeleteDatabase)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteJob`
<a name="glue_DeleteJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def delete_job(self, job_name):
        """
        Deletes a job definition. This also deletes data about all runs that are
        associated with this job definition.

        :param job_name: The name of the job definition to delete.
        """
        try:
            self.glue_client.delete_job(JobName=job_name)
        except ClientError as err:
            logger.error(
                "Couldn't delete job %s. Here's why: %s: %s",
                job_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteJob](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/DeleteJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteTable`
<a name="glue_DeleteTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def delete_table(self, db_name, table_name):
        """
        Deletes a table from a metadata database.

        :param db_name: The name of the database that contains the table.
        :param table_name: The name of the table to delete.
        """
        try:
            self.glue_client.delete_table(DatabaseName=db_name, Name=table_name)
        except ClientError as err:
            logger.error(
                "Couldn't delete table %s. Here's why: %s: %s",
                table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/DeleteTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetCrawler`
<a name="glue_GetCrawler_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def get_crawler(self, name):
        """
        Gets information about a crawler.

        :param name: The name of the crawler to look up.
        :return: Data about the crawler.
        """
        crawler = None
        try:
            response = self.glue_client.get_crawler(Name=name)
            crawler = response["Crawler"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityNotFoundException":
                logger.info("Crawler %s doesn't exist.", name)
            else:
                logger.error(
                    "Couldn't get crawler %s. Here's why: %s: %s",
                    name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return crawler
```
+  Untuk detail API, lihat [GetCrawler](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetCrawler)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetDatabase`
<a name="glue_GetDatabase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def get_database(self, name):
        """
        Gets information about a database in your Data Catalog.

        :param name: The name of the database to look up.
        :return: Information about the database.
        """
        try:
            response = self.glue_client.get_database(Name=name)
        except ClientError as err:
            logger.error(
                "Couldn't get database %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["Database"]
```
+  Untuk detail API, lihat [GetDatabase](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetDatabase)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetJobRun`
<a name="glue_GetJobRun_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def get_job_run(self, name, run_id):
        """
        Gets information about a single job run.

        :param name: The name of the job definition for the run.
        :param run_id: The ID of the run.
        :return: Information about the run.
        """
        try:
            response = self.glue_client.get_job_run(JobName=name, RunId=run_id)
        except ClientError as err:
            logger.error(
                "Couldn't get job run %s/%s. Here's why: %s: %s",
                name,
                run_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["JobRun"]
```
+  Untuk detail API, lihat [GetJobRun](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetJobRun)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetJobRuns`
<a name="glue_GetJobRuns_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def get_job_runs(self, job_name):
        """
        Gets information about runs that have been performed for a specific job
        definition.

        :param job_name: The name of the job definition to look up.
        :return: The list of job runs.
        """
        try:
            response = self.glue_client.get_job_runs(JobName=job_name)
        except ClientError as err:
            logger.error(
                "Couldn't get job runs for %s. Here's why: %s: %s",
                job_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["JobRuns"]
```
+  Untuk detail API, lihat [GetJobRuns](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetJobRuns)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetTables`
<a name="glue_GetTables_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def get_tables(self, db_name):
        """
        Gets a list of tables in a Data Catalog database.

        :param db_name: The name of the database to query.
        :return: The list of tables in the database.
        """
        try:
            response = self.glue_client.get_tables(DatabaseName=db_name)
        except ClientError as err:
            logger.error(
                "Couldn't get tables %s. Here's why: %s: %s",
                db_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["TableList"]
```
+  Untuk detail API, lihat [GetTables](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/GetTables)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListJobs`
<a name="glue_ListJobs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def list_jobs(self):
        """
        Lists the names of job definitions in your account.

        :return: The list of job definition names.
        """
        try:
            response = self.glue_client.list_jobs()
        except ClientError as err:
            logger.error(
                "Couldn't list jobs. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["JobNames"]
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/ListJobs)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartCrawler`
<a name="glue_StartCrawler_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def start_crawler(self, name):
        """
        Starts a crawler. The crawler crawls its configured target and creates
        metadata that describes the data it finds in the target data source.

        :param name: The name of the crawler to start.
        """
        try:
            self.glue_client.start_crawler(Name=name)
        except ClientError as err:
            logger.error(
                "Couldn't start crawler %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [StartCrawler](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/StartCrawler)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartJobRun`
<a name="glue_StartJobRun_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
class GlueWrapper:
    """Encapsulates AWS Glue actions."""

    def __init__(self, glue_client):
        """
        :param glue_client: A Boto3 Glue client.
        """
        self.glue_client = glue_client


    def start_job_run(self, name, input_database, input_table, output_bucket_name):
        """
        Starts a job run. A job run extracts data from the source, transforms it,
        and loads it to the output bucket.

        :param name: The name of the job definition.
        :param input_database: The name of the metadata database that contains tables
                               that describe the source data. This is typically created
                               by a crawler.
        :param input_table: The name of the table in the metadata database that
                            describes the source data.
        :param output_bucket_name: The S3 bucket where the output is written.
        :return: The ID of the job run.
        """
        try:
            # The custom Arguments that are passed to this function are used by the
            # Python ETL script to determine the location of input and output data.
            response = self.glue_client.start_job_run(
                JobName=name,
                Arguments={
                    "--input_database": input_database,
                    "--input_table": input_table,
                    "--output_bucket_url": f"s3://{output_bucket_name}/",
                },
            )
        except ClientError as err:
            logger.error(
                "Couldn't start job run %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["JobRunId"]
```
+  Untuk detail API, lihat [StartJobRun](https://docs.aws.amazon.com/goto/boto3/glue-2017-03-31/StartJobRun)di *AWS SDK for Python (Boto3) Referensi* API. 

# HealthImaging contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_medical-imaging_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with HealthImaging.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo HealthImaging
<a name="medical-imaging_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan HealthImaging.

**SDK untuk Python (Boto3)**  

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def hello_medical_imaging(medical_imaging_client):
    """
    Use the AWS SDK for Python (Boto3) to create an AWS HealthImaging
    client and list the data stores in your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param medical_imaging_client: A Boto3 AWS HealthImaging Client object.
    """
    print("Hello, Amazon Health Imaging! Let's list some of your data stores:\n")
    try:
        paginator = medical_imaging_client.get_paginator("list_datastores")
        page_iterator = paginator.paginate()
        datastore_summaries = []
        for page in page_iterator:
            datastore_summaries.extend(page["datastoreSummaries"])
        print("\tData Stores:")
        for ds in datastore_summaries:
            print(f"\t\tDatastore: {ds['datastoreName']} ID {ds['datastoreId']}")
    except ClientError as err:
        logger.error(
            "Couldn't list data stores. Here's why: %s: %s",
            err.response["Error"]["Code"],
            err.response["Error"]["Message"],
        )
        raise


if __name__ == "__main__":
    hello_medical_imaging(boto3.client("medical-imaging"))
```
+  Untuk detail API, lihat [ListDatastores](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/ListDatastores)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging/imaging_set_and_frames_workflow#code-examples). 

## Tindakan
<a name="actions"></a>

### `CopyImageSet`
<a name="medical-imaging_CopyImageSet_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyImageSet`.

**SDK untuk Python (Boto3)**  
Fungsi utilitas untuk menyalin set gambar.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def copy_image_set(
        self,
        datastore_id,
        image_set_id,
        version_id,
        destination_image_set_id=None,
        destination_version_id=None,
        force=False,
        subsets=[],
    ):
        """
        Copy an image set.

        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param version_id: The ID of the image set version.
        :param destination_image_set_id: The ID of the optional destination image set.
        :param destination_version_id: The ID of the optional destination image set version.
        :param force: Force the copy.
        :param subsets: The optional subsets to copy. For example: ["12345678901234567890123456789012"].
        :return: The copied image set ID.
        """
        try:
            copy_image_set_information = {
                "sourceImageSet": {"latestVersionId": version_id}
            }
            if destination_image_set_id and destination_version_id:
                copy_image_set_information["destinationImageSet"] = {
                    "imageSetId": destination_image_set_id,
                    "latestVersionId": destination_version_id,
                }
            if len(subsets) > 0:
                copySubsetsJson = {
                    "SchemaVersion": "1.1",
                    "Study": {"Series": {"imageSetId": {"Instances": {}}}},
                }

                for subset in subsets:
                    copySubsetsJson["Study"]["Series"]["imageSetId"]["Instances"][
                        subset
                    ] = {}

                copy_image_set_information["sourceImageSet"]["DICOMCopies"] = {
                    "copiableAttributes": json.dumps(copySubsetsJson)
                }
            copy_results = self.health_imaging_client.copy_image_set(
                datastoreId=datastore_id,
                sourceImageSetId=image_set_id,
                copyImageSetInformation=copy_image_set_information,
                force=force,
            )
        except ClientError as err:
            logger.error(
                "Couldn't copy image set. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return copy_results["destinationImageSetProperties"]["imageSetId"]
```
Salin set gambar tanpa tujuan.  

```
            copy_image_set_information = {
                "sourceImageSet": {"latestVersionId": version_id}
            }

            copy_results = self.health_imaging_client.copy_image_set(
                datastoreId=datastore_id,
                sourceImageSetId=image_set_id,
                copyImageSetInformation=copy_image_set_information,
                force=force,
            )
```
Salin set gambar dengan tujuan.  

```
            copy_image_set_information = {
                "sourceImageSet": {"latestVersionId": version_id}
            }

            if destination_image_set_id and destination_version_id:
                copy_image_set_information["destinationImageSet"] = {
                    "imageSetId": destination_image_set_id,
                    "latestVersionId": destination_version_id,
                }

            copy_results = self.health_imaging_client.copy_image_set(
                datastoreId=datastore_id,
                sourceImageSetId=image_set_id,
                copyImageSetInformation=copy_image_set_information,
                force=force,
            )
```
Salin subset dari kumpulan gambar.  

```
            copy_image_set_information = {
                "sourceImageSet": {"latestVersionId": version_id}
            }

            if len(subsets) > 0:
                copySubsetsJson = {
                    "SchemaVersion": "1.1",
                    "Study": {"Series": {"imageSetId": {"Instances": {}}}},
                }

                for subset in subsets:
                    copySubsetsJson["Study"]["Series"]["imageSetId"]["Instances"][
                        subset
                    ] = {}

                copy_image_set_information["sourceImageSet"]["DICOMCopies"] = {
                    "copiableAttributes": json.dumps(copySubsetsJson)
                }

            copy_results = self.health_imaging_client.copy_image_set(
                datastoreId=datastore_id,
                sourceImageSetId=image_set_id,
                copyImageSetInformation=copy_image_set_information,
                force=force,
            )
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [CopyImageSet](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/CopyImageSet)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `CreateDatastore`
<a name="medical-imaging_CreateDatastore_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatastore`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def create_datastore(self, name):
        """
        Create a data store.

        :param name: The name of the data store to create.
        :return: The data store ID.
        """
        try:
            data_store = self.health_imaging_client.create_datastore(datastoreName=name)
        except ClientError as err:
            logger.error(
                "Couldn't create data store %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return data_store["datastoreId"]
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [CreateDatastore](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/CreateDatastore)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `DeleteDatastore`
<a name="medical-imaging_DeleteDatastore_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatastore`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def delete_datastore(self, datastore_id):
        """
        Delete a data store.

        :param datastore_id: The ID of the data store.
        """
        try:
            self.health_imaging_client.delete_datastore(datastoreId=datastore_id)
        except ClientError as err:
            logger.error(
                "Couldn't delete data store %s. Here's why: %s: %s",
                datastore_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [DeleteDatastore](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/DeleteDatastore)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `DeleteImageSet`
<a name="medical-imaging_DeleteImageSet_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteImageSet`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def delete_image_set(self, datastore_id, image_set_id):
        """
        Delete an image set.

        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :return: The delete results.
        """
        try:
            delete_results = self.health_imaging_client.delete_image_set(
                imageSetId=image_set_id, datastoreId=datastore_id
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete image set. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return delete_results
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [DeleteImageSet](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/DeleteImageSet)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `GetDICOMImportJob`
<a name="medical-imaging_GetDICOMImportJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDICOMImportJob`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def get_dicom_import_job(self, datastore_id, job_id):
        """
        Get the properties of a DICOM import job.

        :param datastore_id: The ID of the data store.
        :param job_id: The ID of the job.
        :return: The job properties.
        """
        try:
            job = self.health_imaging_client.get_dicom_import_job(
                jobId=job_id, datastoreId=datastore_id
            )
        except ClientError as err:
            logger.error(
                "Couldn't get DICOM import job. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return job["jobProperties"]
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [Mendapatkan DICOMImport Job](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/GetDICOMImportJob) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `GetDatastore`
<a name="medical-imaging_GetDatastore_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatastore`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def get_datastore_properties(self, datastore_id):
        """
        Get the properties of a data store.

        :param datastore_id: The ID of the data store.
        :return: The data store properties.
        """
        try:
            data_store = self.health_imaging_client.get_datastore(
                datastoreId=datastore_id
            )
        except ClientError as err:
            logger.error(
                "Couldn't get data store %s. Here's why: %s: %s",
                id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return data_store["datastoreProperties"]
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [GetDatastore](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/GetDatastore)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `GetImageFrame`
<a name="medical-imaging_GetImageFrame_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageFrame`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def get_pixel_data(
        self, file_path_to_write, datastore_id, image_set_id, image_frame_id
    ):
        """
        Get an image frame's pixel data.

        :param file_path_to_write: The path to write the image frame's HTJ2K encoded pixel data.
        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param image_frame_id: The ID of the image frame.
        """
        try:
            image_frame = self.health_imaging_client.get_image_frame(
                datastoreId=datastore_id,
                imageSetId=image_set_id,
                imageFrameInformation={"imageFrameId": image_frame_id},
            )
            with open(file_path_to_write, "wb") as f:
                for chunk in image_frame["imageFrameBlob"].iter_chunks():
                    if chunk:
                        f.write(chunk)
        except ClientError as err:
            logger.error(
                "Couldn't get image frame. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [GetImageFrame](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/GetImageFrame)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `GetImageSet`
<a name="medical-imaging_GetImageSet_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSet`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def get_image_set(self, datastore_id, image_set_id, version_id=None):
        """
        Get the properties of an image set.

        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param version_id: The optional version of the image set.
        :return: The image set properties.
        """
        try:
            if version_id:
                image_set = self.health_imaging_client.get_image_set(
                    imageSetId=image_set_id,
                    datastoreId=datastore_id,
                    versionId=version_id,
                )
            else:
                image_set = self.health_imaging_client.get_image_set(
                    imageSetId=image_set_id, datastoreId=datastore_id
                )
        except ClientError as err:
            logger.error(
                "Couldn't get image set. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return image_set
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [GetImageSet](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/GetImageSet)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `GetImageSetMetadata`
<a name="medical-imaging_GetImageSetMetadata_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSetMetadata`.

**SDK untuk Python (Boto3)**  
Fungsi utilitas untuk mendapatkan metadata set gambar.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def get_image_set_metadata(
        self, metadata_file, datastore_id, image_set_id, version_id=None
    ):
        """
        Get the metadata of an image set.

        :param metadata_file: The file to store the JSON gzipped metadata.
        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param version_id: The version of the image set.
        """
        try:
            if version_id:
                image_set_metadata = self.health_imaging_client.get_image_set_metadata(
                    imageSetId=image_set_id,
                    datastoreId=datastore_id,
                    versionId=version_id,
                )
            else:

                image_set_metadata = self.health_imaging_client.get_image_set_metadata(
                    imageSetId=image_set_id, datastoreId=datastore_id
                )
            print(image_set_metadata)
            with open(metadata_file, "wb") as f:
                for chunk in image_set_metadata["imageSetMetadataBlob"].iter_chunks():
                    if chunk:
                        f.write(chunk)

        except ClientError as err:
            logger.error(
                "Couldn't get image metadata. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Dapatkan metadata set gambar tanpa versi.  

```
                image_set_metadata = self.health_imaging_client.get_image_set_metadata(
                    imageSetId=image_set_id, datastoreId=datastore_id
                )
```
Dapatkan metadata set gambar dengan versi.  

```
                image_set_metadata = self.health_imaging_client.get_image_set_metadata(
                    imageSetId=image_set_id,
                    datastoreId=datastore_id,
                    versionId=version_id,
                )
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [GetImageSetMetadata](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/GetImageSetMetadata)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `ListDICOMImportJobs`
<a name="medical-imaging_ListDICOMImportJobs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDICOMImportJobs`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def list_dicom_import_jobs(self, datastore_id):
        """
        List the DICOM import jobs.

        :param datastore_id: The ID of the data store.
        :return: The list of jobs.
        """
        try:
            paginator = self.health_imaging_client.get_paginator(
                "list_dicom_import_jobs"
            )
            page_iterator = paginator.paginate(datastoreId=datastore_id)
            job_summaries = []
            for page in page_iterator:
                job_summaries.extend(page["jobSummaries"])
        except ClientError as err:
            logger.error(
                "Couldn't list DICOM import jobs. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return job_summaries
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [Daftar DICOMImport Lowongan](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/ListDICOMImportJobs) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `ListDatastores`
<a name="medical-imaging_ListDatastores_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatastores`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def list_datastores(self):
        """
        List the data stores.

        :return: The list of data stores.
        """
        try:
            paginator = self.health_imaging_client.get_paginator("list_datastores")
            page_iterator = paginator.paginate()
            datastore_summaries = []
            for page in page_iterator:
                datastore_summaries.extend(page["datastoreSummaries"])
        except ClientError as err:
            logger.error(
                "Couldn't list data stores. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return datastore_summaries
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [ListDatastores](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/ListDatastores)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `ListImageSetVersions`
<a name="medical-imaging_ListImageSetVersions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListImageSetVersions`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def list_image_set_versions(self, datastore_id, image_set_id):
        """
        List the image set versions.

        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :return: The list of image set versions.
        """
        try:
            paginator = self.health_imaging_client.get_paginator(
                "list_image_set_versions"
            )
            page_iterator = paginator.paginate(
                imageSetId=image_set_id, datastoreId=datastore_id
            )
            image_set_properties_list = []
            for page in page_iterator:
                image_set_properties_list.extend(page["imageSetPropertiesList"])
        except ClientError as err:
            logger.error(
                "Couldn't list image set versions. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return image_set_properties_list
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [ListImageSetVersions](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/ListImageSetVersions)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `ListTagsForResource`
<a name="medical-imaging_ListTagsForResource_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForResource`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def list_tags_for_resource(self, resource_arn):
        """
        List the tags for a resource.

        :param resource_arn: The ARN of the resource.
        :return: The list of tags.
        """
        try:
            tags = self.health_imaging_client.list_tags_for_resource(
                resourceArn=resource_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't list tags for resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return tags["tags"]
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/ListTagsForResource)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `SearchImageSets`
<a name="medical-imaging_SearchImageSets_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchImageSets`.

**SDK untuk Python (Boto3)**  
Fungsi utilitas untuk mencari set gambar.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def search_image_sets(self, datastore_id, search_filter):
        """
        Search for image sets.

        :param datastore_id: The ID of the data store.
        :param search_filter: The search filter.
            For example: {"filters" : [{ "operator": "EQUAL", "values": [{"DICOMPatientId": "3524578"}]}]}.
        :return: The list of image sets.
        """
        try:
            paginator = self.health_imaging_client.get_paginator("search_image_sets")
            page_iterator = paginator.paginate(
                datastoreId=datastore_id, searchCriteria=search_filter
            )
            metadata_summaries = []
            for page in page_iterator:
                metadata_summaries.extend(page["imageSetsMetadataSummaries"])
        except ClientError as err:
            logger.error(
                "Couldn't search image sets. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return metadata_summaries
```
Kasus penggunaan \$11: operator EQUAL.  

```
        search_filter = {
            "filters": [
                {"operator": "EQUAL", "values": [{"DICOMPatientId": patient_id}]}
            ]
        }

        image_sets = self.search_image_sets(data_store_id, search_filter)
        print(f"Image sets found with EQUAL operator\n{image_sets}")
```
Kasus penggunaan \$12: ANTARA operator menggunakan DICOMStudy Tanggal dan DICOMStudy Waktu.   

```
        search_filter = {
            "filters": [
                {
                    "operator": "BETWEEN",
                    "values": [
                        {
                            "DICOMStudyDateAndTime": {
                                "DICOMStudyDate": "19900101",
                                "DICOMStudyTime": "000000",
                            }
                        },
                        {
                            "DICOMStudyDateAndTime": {
                                "DICOMStudyDate": "20230101",
                                "DICOMStudyTime": "000000",
                            }
                        },
                    ],
                }
            ]
        }

        image_sets = self.search_image_sets(data_store_id, search_filter)
        print(
            f"Image sets found with BETWEEN operator using DICOMStudyDate and DICOMStudyTime\n{image_sets}"
        )
```
Kasus penggunaan \$13: ANTARA operator menggunakan createDat. Studi waktu sebelumnya bertahan.   

```
        search_filter = {
            "filters": [
                {
                    "values": [
                        {
                            "createdAt": datetime.datetime(
                                2021, 8, 4, 14, 49, 54, 429000
                            )
                        },
                        {
                            "createdAt": datetime.datetime.now()
                            + datetime.timedelta(days=1)
                        },
                    ],
                    "operator": "BETWEEN",
                }
            ]
        }

        recent_image_sets = self.search_image_sets(data_store_id, search_filter)
        print(
            f"Image sets found with with BETWEEN operator using createdAt\n{recent_image_sets}"
        )
```
Kasus penggunaan \$14: Operator EQUAL di DICOMSeries InstanceUID dan BETHER di UpdateDAT dan mengurutkan respons dalam urutan ASC di bidang UpdateDAT.   

```
        search_filter = {
            "filters": [
                {
                    "values": [
                        {
                            "updatedAt": datetime.datetime(
                                2021, 8, 4, 14, 49, 54, 429000
                            )
                        },
                        {
                            "updatedAt": datetime.datetime.now()
                            + datetime.timedelta(days=1)
                        },
                    ],
                    "operator": "BETWEEN",
                },
                {
                    "values": [{"DICOMSeriesInstanceUID": series_instance_uid}],
                    "operator": "EQUAL",
                },
            ],
            "sort": {
                "sortOrder": "ASC",
                "sortField": "updatedAt",
            },
        }

        image_sets = self.search_image_sets(data_store_id, search_filter)
        print(
            "Image sets found with EQUAL operator on DICOMSeriesInstanceUID and BETWEEN on updatedAt and"
        )
        print(f"sort response in ASC order on updatedAt field\n{image_sets}")
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [SearchImageSets](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/SearchImageSets)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `StartDICOMImportJob`
<a name="medical-imaging_StartDICOMImportJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDICOMImportJob`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def start_dicom_import_job(
        self, job_name, datastore_id, role_arn, input_s3_uri, output_s3_uri
    ):
        """
        Start a DICOM import job.

        :param job_name: The name of the job.
        :param datastore_id: The ID of the data store.
        :param role_arn: The Amazon Resource Name (ARN) of the role to use for the job.
        :param input_s3_uri: The S3 bucket input prefix path containing the DICOM files.
        :param output_s3_uri: The S3 bucket output prefix path for the result.
        :return: The job ID.
        """
        try:
            job = self.health_imaging_client.start_dicom_import_job(
                jobName=job_name,
                datastoreId=datastore_id,
                dataAccessRoleArn=role_arn,
                inputS3Uri=input_s3_uri,
                outputS3Uri=output_s3_uri,
            )
        except ClientError as err:
            logger.error(
                "Couldn't start DICOM import job. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return job["jobId"]
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [Memulai DICOMImport Job](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/StartDICOMImportJob) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `TagResource`
<a name="medical-imaging_TagResource_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def tag_resource(self, resource_arn, tags):
        """
        Tag a resource.

        :param resource_arn: The ARN of the resource.
        :param tags: The tags to apply.
        """
        try:
            self.health_imaging_client.tag_resource(resourceArn=resource_arn, tags=tags)
        except ClientError as err:
            logger.error(
                "Couldn't tag resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/TagResource)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `UntagResource`
<a name="medical-imaging_UntagResource_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UntagResource`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def untag_resource(self, resource_arn, tag_keys):
        """
        Untag a resource.

        :param resource_arn: The ARN of the resource.
        :param tag_keys: The tag keys to remove.
        """
        try:
            self.health_imaging_client.untag_resource(
                resourceArn=resource_arn, tagKeys=tag_keys
            )
        except ClientError as err:
            logger.error(
                "Couldn't untag resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/UntagResource)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

### `UpdateImageSetMetadata`
<a name="medical-imaging_UpdateImageSetMetadata_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateImageSetMetadata`.

**SDK untuk Python (Boto3)**  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def update_image_set_metadata(
        self, datastore_id, image_set_id, version_id, metadata, force=False
    ):
        """
        Update the metadata of an image set.

        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param version_id: The ID of the image set version.
        :param metadata: The image set metadata as a dictionary.
            For example {"DICOMUpdates": {"updatableAttributes":
            "{\"SchemaVersion\":1.1,\"Patient\":{\"DICOM\":{\"PatientName\":\"Garcia^Gloria\"}}}"}}
        :param: force: Force the update.
        :return: The updated image set metadata.
        """
        try:
            updated_metadata = self.health_imaging_client.update_image_set_metadata(
                imageSetId=image_set_id,
                datastoreId=datastore_id,
                latestVersionId=version_id,
                updateImageSetMetadataUpdates=metadata,
                force=force,
            )
        except ClientError as err:
            logger.error(
                "Couldn't update image set metadata. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return updated_metadata
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
Kasus penggunaan \$11: Menyisipkan atau memperbarui atribut.  

```
            attributes = """{
                    "SchemaVersion": 1.1,
                    "Study": {
                        "DICOM": {
                            "StudyDescription": "CT CHEST"
                        }
                    }
                }"""
            metadata = {"DICOMUpdates": {"updatableAttributes": attributes}}

            self.update_image_set_metadata(
                data_store_id, image_set_id, version_id, metadata, force
            )
```
Use case \$12: Hapus atribut.  

```
            # Attribute key and value must match the existing attribute.
            attributes = """{
                    "SchemaVersion": 1.1,
                    "Study": {
                        "DICOM": {
                            "StudyDescription": "CT CHEST"
                        }
                    }
                }"""
            metadata = {"DICOMUpdates": {"removableAttributes": attributes}}

            self.update_image_set_metadata(
                data_store_id, image_set_id, version_id, metadata, force
            )
```
Use case \$13: Hapus sebuah instance.  

```
            attributes = """{
                    "SchemaVersion": 1.1,
                    "Study": {
                        "Series": {
                            "1.1.1.1.1.1.12345.123456789012.123.12345678901234.1": {
                                "Instances": {
                                    "1.1.1.1.1.1.12345.123456789012.123.12345678901234.1": {}
                                }
                            }
                        }
                    }
                }"""
            metadata = {"DICOMUpdates": {"removableAttributes": attributes}}

            self.update_image_set_metadata(
                data_store_id, image_set_id, version_id, metadata, force
            )
```
Kasus penggunaan \$14: Kembalikan ke versi sebelumnya.  

```
            metadata = {"revertToVersionId": "1"}

            self.update_image_set_metadata(
                data_store_id, image_set_id, version_id, metadata, force
            )
```
+  Untuk detail API, lihat [UpdateImageSetMetadata](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/UpdateImageSetMetadata)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging#code-examples). 

## Skenario
<a name="scenarios"></a>

### Memulai dengan set gambar dan bingkai gambar
<a name="medical-imaging_Scenario_ImageSetsAndFrames_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimpor file DICOM dan mengunduh bingkai gambar di HealthImaging.

Implementasinya disusun sebagai aplikasi baris perintah. 
+ Siapkan sumber daya untuk impor DICOM.
+ Impor file DICOM ke penyimpanan data.
+ Ambil gambar yang ditetapkan IDs untuk pekerjaan impor.
+ Ambil bingkai gambar IDs untuk set gambar.
+ Unduh, dekode, dan verifikasi bingkai gambar.
+ Pembersihan sumber daya 

**SDK untuk Python (Boto3)**  
Buat CloudFormation tumpukan dengan sumber daya yang diperlukan.  

```
    def deploy(self):
        """
        Deploys prerequisite resources used by the scenario. The resources are
        defined in the associated `setup.yaml` AWS CloudFormation script and are deployed
        as a CloudFormation stack, so they can be easily managed and destroyed.
        """

        print("\t\tLet's deploy the stack for resource creation.")
        stack_name = q.ask("\t\tEnter a name for the stack: ", q.non_empty)

        data_store_name = q.ask(
            "\t\tEnter a name for the Health Imaging Data Store: ", q.non_empty
        )

        account_id = boto3.client("sts").get_caller_identity()["Account"]

        with open(
            "../../../../scenarios/features/healthimaging_image_sets/resources/cfn_template.yaml"
        ) as setup_file:
            setup_template = setup_file.read()
        print(f"\t\tCreating {stack_name}.")
        stack = self.cf_resource.create_stack(
            StackName=stack_name,
            TemplateBody=setup_template,
            Capabilities=["CAPABILITY_NAMED_IAM"],
            Parameters=[
                {
                    "ParameterKey": "datastoreName",
                    "ParameterValue": data_store_name,
                },
                {
                    "ParameterKey": "userAccountID",
                    "ParameterValue": account_id,
                },
            ],
        )
        print("\t\tWaiting for stack to deploy. This typically takes a minute or two.")
        waiter = self.cf_resource.meta.client.get_waiter("stack_create_complete")
        waiter.wait(StackName=stack.name)
        stack.load()
        print(f"\t\tStack status: {stack.stack_status}")

        outputs_dictionary = {
            output["OutputKey"]: output["OutputValue"] for output in stack.outputs
        }
        self.input_bucket_name = outputs_dictionary["BucketName"]
        self.output_bucket_name = outputs_dictionary["BucketName"]
        self.role_arn = outputs_dictionary["RoleArn"]
        self.data_store_id = outputs_dictionary["DatastoreID"]
        return stack
```
Salin file DICOM ke bucket impor Amazon S3.  

```
    def copy_single_object(self, key, source_bucket, target_bucket, target_directory):
        """
        Copies a single object from a source to a target bucket.

        :param key: The key of the object to copy.
        :param source_bucket: The source bucket for the copy.
        :param target_bucket: The target bucket for the copy.
        :param target_directory: The target directory for the copy.
        """
        new_key = target_directory + "/" + key
        copy_source = {"Bucket": source_bucket, "Key": key}
        self.s3_client.copy_object(
            CopySource=copy_source, Bucket=target_bucket, Key=new_key
        )
        print(f"\n\t\tCopying {key}.")

    def copy_images(
        self, source_bucket, source_directory, target_bucket, target_directory
    ):
        """
        Copies the images from the source to the target bucket using multiple threads.

        :param source_bucket: The source bucket for the images.
        :param source_directory: Directory within the source bucket.
        :param target_bucket: The target bucket for the images.
        :param target_directory: Directory within the target bucket.
        """

        # Get list of all objects in source bucket.
        list_response = self.s3_client.list_objects_v2(
            Bucket=source_bucket, Prefix=source_directory
        )
        objs = list_response["Contents"]
        keys = [obj["Key"] for obj in objs]

        # Copy the objects in the bucket.
        for key in keys:
            self.copy_single_object(key, source_bucket, target_bucket, target_directory)

        print("\t\tDone copying all objects.")
```
Impor file DICOM ke penyimpanan data Amazon S3.  

```
class MedicalImagingWrapper:
    """Encapsulates AWS HealthImaging functionality."""

    def __init__(self, medical_imaging_client, s3_client):
        """
        :param medical_imaging_client: A Boto3 Amazon MedicalImaging client.
        :param s3_client: A Boto3 S3 client.
        """
        self.medical_imaging_client = medical_imaging_client
        self.s3_client = s3_client

    @classmethod
    def from_client(cls):
        medical_imaging_client = boto3.client("medical-imaging")
        s3_client = boto3.client("s3")
        return cls(medical_imaging_client, s3_client)


    def start_dicom_import_job(
        self,
        data_store_id,
        input_bucket_name,
        input_directory,
        output_bucket_name,
        output_directory,
        role_arn,
    ):
        """
        Routine which starts a HealthImaging import job.

        :param data_store_id: The HealthImaging data store ID.
        :param input_bucket_name: The name of the Amazon S3 bucket containing the DICOM files.
        :param input_directory: The directory in the S3 bucket containing the DICOM files.
        :param output_bucket_name: The name of the S3 bucket for the output.
        :param output_directory: The directory in the S3 bucket to store the output.
        :param role_arn: The ARN of the IAM role with permissions for the import.
        :return: The job ID of the import.
        """

        input_uri = f"s3://{input_bucket_name}/{input_directory}/"
        output_uri = f"s3://{output_bucket_name}/{output_directory}/"
        try:
            job = self.medical_imaging_client.start_dicom_import_job(
                jobName="examplejob",
                datastoreId=data_store_id,
                dataAccessRoleArn=role_arn,
                inputS3Uri=input_uri,
                outputS3Uri=output_uri,
            )
        except ClientError as err:
            logger.error(
                "Couldn't start DICOM import job. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return job["jobId"]
```
Dapatkan set gambar yang dibuat oleh pekerjaan impor DICOM.  

```
class MedicalImagingWrapper:
    """Encapsulates AWS HealthImaging functionality."""

    def __init__(self, medical_imaging_client, s3_client):
        """
        :param medical_imaging_client: A Boto3 Amazon MedicalImaging client.
        :param s3_client: A Boto3 S3 client.
        """
        self.medical_imaging_client = medical_imaging_client
        self.s3_client = s3_client

    @classmethod
    def from_client(cls):
        medical_imaging_client = boto3.client("medical-imaging")
        s3_client = boto3.client("s3")
        return cls(medical_imaging_client, s3_client)


    def get_image_sets_for_dicom_import_job(self, datastore_id, import_job_id):
        """
        Retrieves the image sets created for an import job.

        :param datastore_id: The HealthImaging data store ID
        :param import_job_id: The import job ID
        :return: List of image set IDs
        """

        import_job = self.medical_imaging_client.get_dicom_import_job(
            datastoreId=datastore_id, jobId=import_job_id
        )

        output_uri = import_job["jobProperties"]["outputS3Uri"]

        bucket = output_uri.split("/")[2]
        key = "/".join(output_uri.split("/")[3:])

        # Try to get the manifest.
        retries = 3
        while retries > 0:
            try:
                obj = self.s3_client.get_object(
                    Bucket=bucket, Key=key + "job-output-manifest.json"
                )
                body = obj["Body"]
                break
            except ClientError as error:
                retries = retries - 1
                time.sleep(3)
        try:
            data = json.load(body)
            expression = jmespath.compile("jobSummary.imageSetsSummary[].imageSetId")
            image_sets = expression.search(data)
        except json.decoder.JSONDecodeError as error:
            image_sets = import_job["jobProperties"]

        return image_sets


    def get_image_set(self, datastore_id, image_set_id, version_id=None):
        """
        Get the properties of an image set.

        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param version_id: The optional version of the image set.
        :return: The image set properties.
        """
        try:
            if version_id:
                image_set = self.medical_imaging_client.get_image_set(
                    imageSetId=image_set_id,
                    datastoreId=datastore_id,
                    versionId=version_id,
                )
            else:
                image_set = self.medical_imaging_client.get_image_set(
                    imageSetId=image_set_id, datastoreId=datastore_id
                )
        except ClientError as err:
            logger.error(
                "Couldn't get image set. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return image_set
```
Dapatkan informasi bingkai gambar untuk set gambar.  

```
class MedicalImagingWrapper:
    """Encapsulates AWS HealthImaging functionality."""

    def __init__(self, medical_imaging_client, s3_client):
        """
        :param medical_imaging_client: A Boto3 Amazon MedicalImaging client.
        :param s3_client: A Boto3 S3 client.
        """
        self.medical_imaging_client = medical_imaging_client
        self.s3_client = s3_client

    @classmethod
    def from_client(cls):
        medical_imaging_client = boto3.client("medical-imaging")
        s3_client = boto3.client("s3")
        return cls(medical_imaging_client, s3_client)


    def get_image_frames_for_image_set(self, datastore_id, image_set_id, out_directory):
        """
        Get the image frames for an image set.

        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param out_directory: The directory to save the file.
        :return: The image frames.
        """
        image_frames = []
        file_name = os.path.join(out_directory, f"{image_set_id}_metadata.json.gzip")
        file_name = file_name.replace("/", "\\\\")
        self.get_image_set_metadata(file_name, datastore_id, image_set_id)
        try:
            with gzip.open(file_name, "rb") as f_in:
                doc = json.load(f_in)
            instances = jmespath.search("Study.Series.*.Instances[].*[]", doc)
            for instance in instances:
                rescale_slope = jmespath.search("DICOM.RescaleSlope", instance)
                rescale_intercept = jmespath.search("DICOM.RescaleIntercept", instance)
                image_frames_json = jmespath.search("ImageFrames[][]", instance)
                for image_frame in image_frames_json:
                    checksum_json = jmespath.search(
                        "max_by(PixelDataChecksumFromBaseToFullResolution, &Width)",
                        image_frame,
                    )
                    image_frame_info = {
                        "imageSetId": image_set_id,
                        "imageFrameId": image_frame["ID"],
                        "rescaleIntercept": rescale_intercept,
                        "rescaleSlope": rescale_slope,
                        "minPixelValue": image_frame["MinPixelValue"],
                        "maxPixelValue": image_frame["MaxPixelValue"],
                        "fullResolutionChecksum": checksum_json["Checksum"],
                    }
                    image_frames.append(image_frame_info)
            return image_frames
        except TypeError:
            return {}
        except ClientError as err:
            logger.error(
                "Couldn't get image frames for image set. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        return image_frames


    def get_image_set_metadata(
        self, metadata_file, datastore_id, image_set_id, version_id=None
    ):
        """
        Get the metadata of an image set.

        :param metadata_file: The file to store the JSON gzipped metadata.
        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param version_id: The version of the image set.
        """

        try:
            if version_id:
                image_set_metadata = self.medical_imaging_client.get_image_set_metadata(
                    imageSetId=image_set_id,
                    datastoreId=datastore_id,
                    versionId=version_id,
                )
            else:
                image_set_metadata = self.medical_imaging_client.get_image_set_metadata(
                    imageSetId=image_set_id, datastoreId=datastore_id
                )
            with open(metadata_file, "wb") as f:
                for chunk in image_set_metadata["imageSetMetadataBlob"].iter_chunks():
                    if chunk:
                        f.write(chunk)

        except ClientError as err:
            logger.error(
                "Couldn't get image metadata. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Unduh, dekode, dan verifikasi bingkai gambar.  

```
class MedicalImagingWrapper:
    """Encapsulates AWS HealthImaging functionality."""

    def __init__(self, medical_imaging_client, s3_client):
        """
        :param medical_imaging_client: A Boto3 Amazon MedicalImaging client.
        :param s3_client: A Boto3 S3 client.
        """
        self.medical_imaging_client = medical_imaging_client
        self.s3_client = s3_client

    @classmethod
    def from_client(cls):
        medical_imaging_client = boto3.client("medical-imaging")
        s3_client = boto3.client("s3")
        return cls(medical_imaging_client, s3_client)


    def get_pixel_data(
        self, file_path_to_write, datastore_id, image_set_id, image_frame_id
    ):
        """
        Get an image frame's pixel data.

        :param file_path_to_write: The path to write the image frame's HTJ2K encoded pixel data.
        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        :param image_frame_id: The ID of the image frame.
        """
        try:
            image_frame = self.medical_imaging_client.get_image_frame(
                datastoreId=datastore_id,
                imageSetId=image_set_id,
                imageFrameInformation={"imageFrameId": image_frame_id},
            )
            with open(file_path_to_write, "wb") as f:
                for chunk in image_frame["imageFrameBlob"].iter_chunks():
                    f.write(chunk)
        except ClientError as err:
            logger.error(
                "Couldn't get image frame. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def download_decode_and_check_image_frames(
        self, data_store_id, image_frames, out_directory
    ):
        """
        Downloads image frames, decodes them, and uses the checksum to validate
        the decoded images.

        :param data_store_id: The HealthImaging data store ID.
        :param image_frames: A list of dicts containing image frame information.
        :param out_directory: A directory for the downloaded images.
        :return: True if the function succeeded; otherwise, False.
        """
        total_result = True
        for image_frame in image_frames:
            image_file_path = f"{out_directory}/image_{image_frame['imageFrameId']}.jph"
            self.get_pixel_data(
                image_file_path,
                data_store_id,
                image_frame["imageSetId"],
                image_frame["imageFrameId"],
            )

            image_array = self.jph_image_to_opj_bitmap(image_file_path)
            crc32_checksum = image_frame["fullResolutionChecksum"]
            # Verify checksum.
            crc32_calculated = zlib.crc32(image_array)
            image_result = crc32_checksum == crc32_calculated
            print(
                f"\t\tImage checksum verified for {image_frame['imageFrameId']}: {image_result }"
            )
            total_result = total_result and image_result
        return total_result

    @staticmethod
    def jph_image_to_opj_bitmap(jph_file):
        """
        Decode the image to a bitmap using an OPENJPEG library.
        :param jph_file: The file to decode.
        :return: The decoded bitmap as an array.
        """
        # Use format 2 for the JPH file.
        params = openjpeg.utils.get_parameters(jph_file, 2)
        print(f"\n\t\tImage parameters for {jph_file}: \n\t\t{params}")

        image_array = openjpeg.utils.decode(jph_file, 2)

        return image_array
```
Pembersihan sumber daya   

```
    def destroy(self, stack):
        """
        Destroys the resources managed by the CloudFormation stack, and the CloudFormation
        stack itself.

        :param stack: The CloudFormation stack that manages the example resources.
        """

        print(f"\t\tCleaning up resources and {stack.name}.")
        data_store_id = None
        for oput in stack.outputs:
            if oput["OutputKey"] == "DatastoreID":
                data_store_id = oput["OutputValue"]
        if data_store_id is not None:
            print(f"\t\tDeleting image sets in data store {data_store_id}.")
            image_sets = self.medical_imaging_wrapper.search_image_sets(
                data_store_id, {}
            )
            image_set_ids = [image_set["imageSetId"] for image_set in image_sets]

            for image_set_id in image_set_ids:
                self.medical_imaging_wrapper.delete_image_set(
                    data_store_id, image_set_id
                )
                print(f"\t\tDeleted image set with id : {image_set_id}")

        print(f"\t\tDeleting {stack.name}.")
        stack.delete()
        print("\t\tWaiting for stack removal. This may take a few minutes.")
        waiter = self.cf_resource.meta.client.get_waiter("stack_delete_complete")
        waiter.wait(StackName=stack.name)
        print("\t\tStack delete complete.")




class MedicalImagingWrapper:
    """Encapsulates AWS HealthImaging functionality."""

    def __init__(self, medical_imaging_client, s3_client):
        """
        :param medical_imaging_client: A Boto3 Amazon MedicalImaging client.
        :param s3_client: A Boto3 S3 client.
        """
        self.medical_imaging_client = medical_imaging_client
        self.s3_client = s3_client

    @classmethod
    def from_client(cls):
        medical_imaging_client = boto3.client("medical-imaging")
        s3_client = boto3.client("s3")
        return cls(medical_imaging_client, s3_client)


    def search_image_sets(self, datastore_id, search_filter):
        """
        Search for image sets.

        :param datastore_id: The ID of the data store.
        :param search_filter: The search filter.
            For example: {"filters" : [{ "operator": "EQUAL", "values": [{"DICOMPatientId": "3524578"}]}]}.
        :return: The list of image sets.
        """
        try:
            paginator = self.medical_imaging_client.get_paginator("search_image_sets")
            page_iterator = paginator.paginate(
                datastoreId=datastore_id, searchCriteria=search_filter
            )
            metadata_summaries = []
            for page in page_iterator:
                metadata_summaries.extend(page["imageSetsMetadataSummaries"])
        except ClientError as err:
            logger.error(
                "Couldn't search image sets. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return metadata_summaries


    def delete_image_set(self, datastore_id, image_set_id):
        """
        Delete an image set.

        :param datastore_id: The ID of the data store.
        :param image_set_id: The ID of the image set.
        """
        try:
            delete_results = self.medical_imaging_client.delete_image_set(
                imageSetId=image_set_id, datastoreId=datastore_id
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete image set. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [DeleteImageSet](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/DeleteImageSet)
  + [Dapatkan DICOMImport Job](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/GetDICOMImportJob)
  + [GetImageFrame](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/GetImageFrame)
  + [GetImageSetMetadata](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/GetImageSetMetadata)
  + [SearchImageSets](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/SearchImageSets)
  + [Mulai DICOMImport Job](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/StartDICOMImportJob)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/medical-imaging/imaging_set_and_frames_workflow#code-examples). 

### Menandai penyimpanan data
<a name="medical-imaging_Scenario_TaggingDataStores_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menandai penyimpanan HealthImaging data.

**SDK untuk Python (Boto3)**  
Untuk menandai penyimpanan data.  

```
    a_data_store_arn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012"

    medical_imaging_wrapper.tag_resource(data_store_arn, {"Deployment": "Development"})
```
Fungsi utilitas untuk menandai sumber daya.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def tag_resource(self, resource_arn, tags):
        """
        Tag a resource.

        :param resource_arn: The ARN of the resource.
        :param tags: The tags to apply.
        """
        try:
            self.health_imaging_client.tag_resource(resourceArn=resource_arn, tags=tags)
        except ClientError as err:
            logger.error(
                "Couldn't tag resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Untuk daftar tag untuk penyimpanan data.  

```
    a_data_store_arn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012"

    medical_imaging_wrapper.list_tags_for_resource(data_store_arn)
```
Fungsi utilitas untuk daftar tag sumber daya.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def list_tags_for_resource(self, resource_arn):
        """
        List the tags for a resource.

        :param resource_arn: The ARN of the resource.
        :return: The list of tags.
        """
        try:
            tags = self.health_imaging_client.list_tags_for_resource(
                resourceArn=resource_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't list tags for resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return tags["tags"]
```
Untuk menghapus tag penyimpanan data.  

```
    a_data_store_arn = "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012"

    medical_imaging_wrapper.untag_resource(data_store_arn, ["Deployment"])
```
Fungsi utilitas untuk membuka tag sumber daya.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def untag_resource(self, resource_arn, tag_keys):
        """
        Untag a resource.

        :param resource_arn: The ARN of the resource.
        :param tag_keys: The tag keys to remove.
        """
        try:
            self.health_imaging_client.untag_resource(
                resourceArn=resource_arn, tagKeys=tag_keys
            )
        except ClientError as err:
            logger.error(
                "Couldn't untag resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [ListTagsForResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/ListTagsForResource)
  + [TagResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/TagResource)
  + [UntagResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/UntagResource)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

### Menandai set gambar
<a name="medical-imaging_Scenario_TaggingImageSets_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menandai set HealthImaging gambar.

**SDK untuk Python (Boto3)**  
Untuk menandai set gambar.  

```
    an_image_set_arn = (
        "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/"
        "imageset/12345678901234567890123456789012"
    )

    medical_imaging_wrapper.tag_resource(image_set_arn, {"Deployment": "Development"})
```
Fungsi utilitas untuk menandai sumber daya.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def tag_resource(self, resource_arn, tags):
        """
        Tag a resource.

        :param resource_arn: The ARN of the resource.
        :param tags: The tags to apply.
        """
        try:
            self.health_imaging_client.tag_resource(resourceArn=resource_arn, tags=tags)
        except ClientError as err:
            logger.error(
                "Couldn't tag resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Untuk mencantumkan tag untuk kumpulan gambar.  

```
    an_image_set_arn = (
        "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/"
        "imageset/12345678901234567890123456789012"
    )

    medical_imaging_wrapper.list_tags_for_resource(image_set_arn)
```
Fungsi utilitas untuk daftar tag sumber daya.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def list_tags_for_resource(self, resource_arn):
        """
        List the tags for a resource.

        :param resource_arn: The ARN of the resource.
        :return: The list of tags.
        """
        try:
            tags = self.health_imaging_client.list_tags_for_resource(
                resourceArn=resource_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't list tags for resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return tags["tags"]
```
Untuk menghapus tag set gambar.  

```
    an_image_set_arn = (
        "arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012/"
        "imageset/12345678901234567890123456789012"
    )

    medical_imaging_wrapper.untag_resource(image_set_arn, ["Deployment"])
```
Fungsi utilitas untuk membuka tag sumber daya.  

```
class MedicalImagingWrapper:
    def __init__(self, health_imaging_client):
        self.health_imaging_client = health_imaging_client


    def untag_resource(self, resource_arn, tag_keys):
        """
        Untag a resource.

        :param resource_arn: The ARN of the resource.
        :param tag_keys: The tag keys to remove.
        """
        try:
            self.health_imaging_client.untag_resource(
                resourceArn=resource_arn, tagKeys=tag_keys
            )
        except ClientError as err:
            logger.error(
                "Couldn't untag resource. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. MedicalImagingWrapper   

```
    client = boto3.client("medical-imaging")
    medical_imaging_wrapper = MedicalImagingWrapper(client)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [ListTagsForResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/ListTagsForResource)
  + [TagResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/TagResource)
  + [UntagResource](https://docs.aws.amazon.com/goto/boto3/medical-imaging-2023-07-19/UntagResource)
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/medical-imaging#code-examples). 

# HealthLake contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_healthlake_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with HealthLake.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateFHIRDatastore`
<a name="healthlake_CreateFHIRDatastore_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFHIRDatastore`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def create_fhir_datastore(
        self,
        datastore_name: str,
        sse_configuration: dict[str, any] = None,
        identity_provider_configuration: dict[str, any] = None,
    ) -> dict[str, str]:
        """
        Creates a new HealthLake data store.
        When creating a SMART on FHIR data store, the following parameters are required:
        - sse_configuration: The server-side encryption configuration for a SMART on FHIR-enabled data store.
        - identity_provider_configuration: The identity provider configuration for a SMART on FHIR-enabled data store.

        :param datastore_name: The name of the data store.
        :param sse_configuration: The server-side encryption configuration for a SMART on FHIR-enabled data store.
        :param identity_provider_configuration: The identity provider configuration for a SMART on FHIR-enabled data store.
        :return: A dictionary containing the data store information.
        """
        try:
            parameters = {"DatastoreName": datastore_name, "DatastoreTypeVersion": "R4"}
            if (
                sse_configuration is not None
                and identity_provider_configuration is not None
            ):
                # Creating a SMART on FHIR-enabled data store
                parameters["SseConfiguration"] = sse_configuration
                parameters[
                    "IdentityProviderConfiguration"
                ] = identity_provider_configuration

            response = self.health_lake_client.create_fhir_datastore(**parameters)
            return response
        except ClientError as err:
            logger.exception(
                "Couldn't create data store %s. Here's why %s",
                datastore_name,
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut menunjukkan contoh parameter untuk SMART pada penyimpanan data berkemampuan FHIR HealthLake .   

```
            sse_configuration = {
                "KmsEncryptionConfig": {"CmkType": "AWS_OWNED_KMS_KEY"}
            }
            # TODO: Update the metadata to match your environment.
            metadata = {
                "issuer": "https://ehr.example.com",
                "jwks_uri": "https://ehr.example.com/.well-known/jwks.json",
                "authorization_endpoint": "https://ehr.example.com/auth/authorize",
                "token_endpoint": "https://ehr.token.com/auth/token",
                "token_endpoint_auth_methods_supported": [
                    "client_secret_basic",
                    "foo",
                ],
                "grant_types_supported": ["client_credential", "foo"],
                "registration_endpoint": "https://ehr.example.com/auth/register",
                "scopes_supported": ["openId", "profile", "launch"],
                "response_types_supported": ["code"],
                "management_endpoint": "https://ehr.example.com/user/manage",
                "introspection_endpoint": "https://ehr.example.com/user/introspect",
                "revocation_endpoint": "https://ehr.example.com/user/revoke",
                "code_challenge_methods_supported": ["S256"],
                "capabilities": [
                    "launch-ehr",
                    "sso-openid-connect",
                    "client-public",
                ],
            }
            # TODO: Update the IdpLambdaArn.
            identity_provider_configuration = {
                "AuthorizationStrategy": "SMART_ON_FHIR_V1",
                "FineGrainedAuthorizationEnabled": True,
                "IdpLambdaArn": "arn:aws:lambda:your-region:your-account-id:function:your-lambda-name",
                "Metadata": json.dumps(metadata),
            }
            data_store = self.create_fhir_datastore(
                datastore_name, sse_configuration, identity_provider_configuration
            )
```
+  Untuk detail API, lihat [Membuat FHIRDatastore](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/CreateFHIRDatastore) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `DeleteFHIRDatastore`
<a name="healthlake_DeleteFHIRDatastore_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFHIRDatastore`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def delete_fhir_datastore(self, datastore_id: str) -> None:
        """
        Deletes a HealthLake data store.
        :param datastore_id: The data store ID.
        """
        try:
            self.health_lake_client.delete_fhir_datastore(DatastoreId=datastore_id)
        except ClientError as err:
            logger.exception(
                "Couldn't delete data store with ID %s. Here's why %s",
                datastore_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Menghapus FHIRDatastore](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/DeleteFHIRDatastore) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `DescribeFHIRDatastore`
<a name="healthlake_DescribeFHIRDatastore_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeFHIRDatastore`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def describe_fhir_datastore(self, datastore_id: str) -> dict[str, any]:
        """
        Describes a HealthLake data store.
        :param datastore_id: The data store ID.
        :return: The data store description.
        """
        try:
            response = self.health_lake_client.describe_fhir_datastore(
                DatastoreId=datastore_id
            )
            return response["DatastoreProperties"]
        except ClientError as err:
            logger.exception(
                "Couldn't describe data store with ID %s. Here's why %s",
                datastore_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Menjelaskan FHIRDatastore](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/DescribeFHIRDatastore) dalam *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `DescribeFHIRExportJob`
<a name="healthlake_DescribeFHIRExportJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeFHIRExportJob`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def describe_fhir_export_job(
        self, datastore_id: str, job_id: str
    ) -> dict[str, any]:
        """
        Describes a HealthLake export job.
        :param datastore_id: The data store ID.
        :param job_id: The export job ID.
        :return: The export job description.
        """
        try:
            response = self.health_lake_client.describe_fhir_export_job(
                DatastoreId=datastore_id, JobId=job_id
            )
            return response["ExportJobProperties"]
        except ClientError as err:
            logger.exception(
                "Couldn't describe export job with ID %s. Here's why %s",
                job_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Menjelaskan FHIRExport Pekerjaan](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/DescribeFHIRExportJob) dalam *AWS SDK untuk Referensi API Python (Boto3*). 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `DescribeFHIRImportJob`
<a name="healthlake_DescribeFHIRImportJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeFHIRImportJob`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def describe_fhir_import_job(
        self, datastore_id: str, job_id: str
    ) -> dict[str, any]:
        """
        Describes a HealthLake import job.
        :param datastore_id: The data store ID.
        :param job_id: The import job ID.
        :return: The import job description.
        """
        try:
            response = self.health_lake_client.describe_fhir_import_job(
                DatastoreId=datastore_id, JobId=job_id
            )
            return response["ImportJobProperties"]
        except ClientError as err:
            logger.exception(
                "Couldn't describe import job with ID %s. Here's why %s",
                job_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Menjelaskan FHIRImport Pekerjaan](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/DescribeFHIRImportJob) dalam *AWS SDK untuk Referensi API Python (Boto3*). 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `ListFHIRDatastores`
<a name="healthlake_ListFHIRDatastores_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFHIRDatastores`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def list_fhir_datastores(self) -> list[dict[str, any]]:
        """
        Lists all HealthLake data stores.
        :return: A list of data store descriptions.
        """
        try:
            next_token = None
            datastores = []

            # Loop through paginated results.
            while True:
                parameters = {}
                if next_token is not None:
                    parameters["NextToken"] = next_token
                response = self.health_lake_client.list_fhir_datastores(**parameters)
                datastores.extend(response["DatastorePropertiesList"])
                if "NextToken" in response:
                    next_token = response["NextToken"]
                else:
                    break

            return datastores
        except ClientError as err:
            logger.exception(
                "Couldn't list data stores. Here's why %s", err.response["Error"]["Message"]
            )
            raise
```
+  Untuk detail API, lihat [Daftar FHIRDatastores](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/ListFHIRDatastores) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `ListFHIRExportJobs`
<a name="healthlake_ListFHIRExportJobs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFHIRExportJobs`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def list_fhir_export_jobs(
        self,
        datastore_id: str,
        job_name: str = None,
        job_status: str = None,
        submitted_before: datetime = None,
        submitted_after: datetime = None,
    ) -> list[dict[str, any]]:
        """
        Lists HealthLake export jobs satisfying the conditions.
        :param datastore_id: The data store ID.
        :param job_name: The export job name.
        :param job_status: The export job status.
        :param submitted_before: The export job submitted before the specified date.
        :param submitted_after: The export job submitted after the specified date.
        :return: A list of export jobs.
        """
        try:
            parameters = {"DatastoreId": datastore_id}
            if job_name is not None:
                parameters["JobName"] = job_name
            if job_status is not None:
                parameters["JobStatus"] = job_status
            if submitted_before is not None:
                parameters["SubmittedBefore"] = submitted_before
            if submitted_after is not None:
                parameters["SubmittedAfter"] = submitted_after
            next_token = None
            jobs = []
            # Loop through paginated results.
            while True:
                if next_token is not None:
                    parameters["NextToken"] = next_token
                response = self.health_lake_client.list_fhir_export_jobs(**parameters)
                jobs.extend(response["ExportJobPropertiesList"])
                if "NextToken" in response:
                    next_token = response["NextToken"]
                else:
                    break
            return jobs
        except ClientError as err:
            logger.exception(
                "Couldn't list export jobs. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Daftar FHIRExport Lowongan](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/ListFHIRExportJobs) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `ListFHIRImportJobs`
<a name="healthlake_ListFHIRImportJobs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFHIRImportJobs`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def list_fhir_import_jobs(
        self,
        datastore_id: str,
        job_name: str = None,
        job_status: str = None,
        submitted_before: datetime = None,
        submitted_after: datetime = None,
    ) -> list[dict[str, any]]:
        """
        Lists HealthLake import jobs satisfying the conditions.
        :param datastore_id: The data store ID.
        :param job_name: The import job name.
        :param job_status: The import job status.
        :param submitted_before: The import job submitted before the specified date.
        :param submitted_after: The import job submitted after the specified date.
        :return: A list of import jobs.
        """
        try:
            parameters = {"DatastoreId": datastore_id}
            if job_name is not None:
                parameters["JobName"] = job_name
            if job_status is not None:
                parameters["JobStatus"] = job_status
            if submitted_before is not None:
                parameters["SubmittedBefore"] = submitted_before
            if submitted_after is not None:
                parameters["SubmittedAfter"] = submitted_after
            next_token = None
            jobs = []
            # Loop through paginated results.
            while True:
                if next_token is not None:
                    parameters["NextToken"] = next_token
                response = self.health_lake_client.list_fhir_import_jobs(**parameters)
                jobs.extend(response["ImportJobPropertiesList"])
                if "NextToken" in response:
                    next_token = response["NextToken"]
                else:
                    break
            return jobs
        except ClientError as err:
            logger.exception(
                "Couldn't list import jobs. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Daftar FHIRImport Lowongan](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/ListFHIRImportJobs) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `ListTagsForResource`
<a name="healthlake_ListTagsForResource_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForResource`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def list_tags_for_resource(self, resource_arn: str) -> dict[str, str]:
        """
        Lists the tags for a HealthLake resource.
        :param resource_arn: The resource ARN.
        :return: The tags for the resource.
        """
        try:
            response = self.health_lake_client.list_tags_for_resource(
                ResourceARN=resource_arn
            )
            return response["Tags"]
        except ClientError as err:
            logger.exception(
                "Couldn't list tags for resource %s. Here's why %s",
                resource_arn,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/ListTagsForResource)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `StartFHIRExportJob`
<a name="healthlake_StartFHIRExportJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartFHIRExportJob`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def start_fhir_export_job(
        self,
        job_name: str,
        datastore_id: str,
        output_s3_uri: str,
        kms_key_id: str,
        data_access_role_arn: str,
    ) -> dict[str, str]:
        """
        Starts a HealthLake export job.
        :param job_name: The export job name.
        :param datastore_id: The data store ID.
        :param output_s3_uri: The output S3 URI.
        :param kms_key_id: The KMS key ID associated with the output S3 bucket.
        :param data_access_role_arn: The data access role ARN.
        :return: The export job.
        """
        try:
            response = self.health_lake_client.start_fhir_export_job(
                OutputDataConfig={
                    "S3Configuration": {"S3Uri": output_s3_uri, "KmsKeyId": kms_key_id}
                },
                DataAccessRoleArn=data_access_role_arn,
                DatastoreId=datastore_id,
                JobName=job_name,
            )

            return response
        except ClientError as err:
            logger.exception(
                "Couldn't start export job. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Memulai FHIRExport Job](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/StartFHIRExportJob) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `StartFHIRImportJob`
<a name="healthlake_StartFHIRImportJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartFHIRImportJob`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def start_fhir_import_job(
        self,
        job_name: str,
        datastore_id: str,
        input_s3_uri: str,
        job_output_s3_uri: str,
        kms_key_id: str,
        data_access_role_arn: str,
    ) -> dict[str, str]:
        """
        Starts a HealthLake import job.
        :param job_name: The import job name.
        :param datastore_id: The data store ID.
        :param input_s3_uri: The input S3 URI.
        :param job_output_s3_uri: The job output S3 URI.
        :param kms_key_id: The KMS key ID associated with the output S3 bucket.
        :param data_access_role_arn: The data access role ARN.
        :return: The import job.
        """
        try:
            response = self.health_lake_client.start_fhir_import_job(
                JobName=job_name,
                InputDataConfig={"S3Uri": input_s3_uri},
                JobOutputDataConfig={
                    "S3Configuration": {
                        "S3Uri": job_output_s3_uri,
                        "KmsKeyId": kms_key_id,
                    }
                },
                DataAccessRoleArn=data_access_role_arn,
                DatastoreId=datastore_id,
            )
            return response
        except ClientError as err:
            logger.exception(
                "Couldn't start import job. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Memulai FHIRImport Job](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/StartFHIRImportJob) di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `TagResource`
<a name="healthlake_TagResource_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def tag_resource(self, resource_arn: str, tags: list[dict[str, str]]) -> None:
        """
        Tags a HealthLake resource.
        :param resource_arn: The resource ARN.
        :param tags: The tags to add to the resource.
        """
        try:
            self.health_lake_client.tag_resource(ResourceARN=resource_arn, Tags=tags)
        except ClientError as err:
            logger.exception(
                "Couldn't tag resource %s. Here's why %s",
                resource_arn,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/TagResource)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

### `UntagResource`
<a name="healthlake_UntagResource_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UntagResource`.

**SDK untuk Python (Boto3)**  

```
    @classmethod
    def from_client(cls) -> "HealthLakeWrapper":
        """
        Creates a HealthLakeWrapper instance with a default AWS HealthLake client.

        :return: An instance of HealthLakeWrapper initialized with the default HealthLake client.
        """
        health_lake_client = boto3.client("healthlake")
        return cls(health_lake_client)


    def untag_resource(self, resource_arn: str, tag_keys: list[str]) -> None:
        """
        Untags a HealthLake resource.
        :param resource_arn: The resource ARN.
        :param tag_keys: The tag keys to remove from the resource.
        """
        try:
            self.health_lake_client.untag_resource(
                ResourceARN=resource_arn, TagKeys=tag_keys
            )
        except ClientError as err:
            logger.exception(
                "Couldn't untag resource %s. Here's why %s",
                resource_arn,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/goto/boto3/healthlake-2017-07-01/UntagResource)di *AWS SDK for Python (Boto3) Referensi* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/healthlake#code-examples). 

# Contoh IAM menggunakan SDK for Python (Boto3)
<a name="python_3_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo IAM
<a name="iam_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan IAM.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
import boto3


def main():
    """
    Lists the managed policies in your AWS account using the AWS SDK for Python (Boto3).
    """
    iam = boto3.client("iam")

    try:
        # Get a paginator for the list_policies operation
        paginator = iam.get_paginator("list_policies")

        # Iterate through the pages of results
        for page in paginator.paginate(Scope="All", OnlyAttached=False):
            for policy in page["Policies"]:
                print(f"Policy name: {policy['PolicyName']}")
                print(f"  Policy ARN: {policy['Arn']}")
    except boto3.exceptions.BotoCoreError as e:
        print(f"Encountered an error while listing policies: {e}")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListPolicies)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredensyal sementara, lalu bersihkan sumber daya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Buat pengguna IAM dan peran yang memberikan izin untuk mencantumkan bucket Amazon S3. Pengguna hanya memiliki hak untuk mengambil peran. Setelah mengambil peran, gunakan kredensyal sementara untuk membuat daftar bucket untuk akun.  

```
import json
import sys
import time
from uuid import uuid4

import boto3
from botocore.exceptions import ClientError


def progress_bar(seconds):
    """Shows a simple progress bar in the command window."""
    for _ in range(seconds):
        time.sleep(1)
        print(".", end="")
        sys.stdout.flush()
    print()


def setup(iam_resource):
    """
    Creates a new user with no permissions.
    Creates an access key pair for the user.
    Creates a role with a policy that lets the user assume the role.
    Creates a policy that allows listing Amazon S3 buckets.
    Attaches the policy to the role.
    Creates an inline policy for the user that lets the user assume the role.

    :param iam_resource: A Boto3 AWS Identity and Access Management (IAM) resource
                         that has permissions to create users, roles, and policies
                         in the account.
    :return: The newly created user, user key, and role.
    """
    try:
        user = iam_resource.create_user(UserName=f"demo-user-{uuid4()}")
        print(f"Created user {user.name}.")
    except ClientError as error:
        print(
            f"Couldn't create a user for the demo. Here's why: "
            f"{error.response['Error']['Message']}"
        )
        raise

    try:
        user_key = user.create_access_key_pair()
        print(f"Created access key pair for user.")
    except ClientError as error:
        print(
            f"Couldn't create access keys for user {user.name}. Here's why: "
            f"{error.response['Error']['Message']}"
        )
        raise

    print(f"Wait for user to be ready.", end="")
    progress_bar(10)

    try:
        role = iam_resource.create_role(
            RoleName=f"demo-role-{uuid4()}",
            AssumeRolePolicyDocument=json.dumps(
                {
                    "Version":"2012-10-17",		 	 	 
                    "Statement": [
                        {
                            "Effect": "Allow",
                            "Principal": {"AWS": user.arn},
                            "Action": "sts:AssumeRole",
                        }
                    ],
                }
            ),
        )
        print(f"Created role {role.name}.")
    except ClientError as error:
        print(
            f"Couldn't create a role for the demo. Here's why: "
            f"{error.response['Error']['Message']}"
        )
        raise

    try:
        policy = iam_resource.create_policy(
            PolicyName=f"demo-policy-{uuid4()}",
            PolicyDocument=json.dumps(
                {
                    "Version":"2012-10-17",		 	 	 
                    "Statement": [
                        {
                            "Effect": "Allow",
                            "Action": "s3:ListAllMyBuckets",
                            "Resource": "arn:aws:s3:::*",
                        }
                    ],
                }
            ),
        )
        role.attach_policy(PolicyArn=policy.arn)
        print(f"Created policy {policy.policy_name} and attached it to the role.")
    except ClientError as error:
        print(
            f"Couldn't create a policy and attach it to role {role.name}. Here's why: "
            f"{error.response['Error']['Message']}"
        )
        raise

    try:
        user.create_policy(
            PolicyName=f"demo-user-policy-{uuid4()}",
            PolicyDocument=json.dumps(
                {
                    "Version":"2012-10-17",		 	 	 
                    "Statement": [
                        {
                            "Effect": "Allow",
                            "Action": "sts:AssumeRole",
                            "Resource": role.arn,
                        }
                    ],
                }
            ),
        )
        print(
            f"Created an inline policy for {user.name} that lets the user assume "
            f"the role."
        )
    except ClientError as error:
        print(
            f"Couldn't create an inline policy for user {user.name}. Here's why: "
            f"{error.response['Error']['Message']}"
        )
        raise

    print("Give AWS time to propagate these new resources and connections.", end="")
    progress_bar(10)

    return user, user_key, role


def show_access_denied_without_role(user_key):
    """
    Shows that listing buckets without first assuming the role is not allowed.

    :param user_key: The key of the user created during setup. This user does not
                     have permission to list buckets in the account.
    """
    print(f"Try to list buckets without first assuming the role.")
    s3_denied_resource = boto3.resource(
        "s3", aws_access_key_id=user_key.id, aws_secret_access_key=user_key.secret
    )
    try:
        for bucket in s3_denied_resource.buckets.all():
            print(bucket.name)
        raise RuntimeError("Expected to get AccessDenied error when listing buckets!")
    except ClientError as error:
        if error.response["Error"]["Code"] == "AccessDenied":
            print("Attempt to list buckets with no permissions: AccessDenied.")
        else:
            raise


def list_buckets_from_assumed_role(user_key, assume_role_arn, session_name):
    """
    Assumes a role that grants permission to list the Amazon S3 buckets in the account.
    Uses the temporary credentials from the role to list the buckets that are owned
    by the assumed role's account.

    :param user_key: The access key of a user that has permission to assume the role.
    :param assume_role_arn: The Amazon Resource Name (ARN) of the role that
                            grants access to list the other account's buckets.
    :param session_name: The name of the STS session.
    """
    sts_client = boto3.client(
        "sts", aws_access_key_id=user_key.id, aws_secret_access_key=user_key.secret
    )
    try:
        response = sts_client.assume_role(
            RoleArn=assume_role_arn, RoleSessionName=session_name
        )
        temp_credentials = response["Credentials"]
        print(f"Assumed role {assume_role_arn} and got temporary credentials.")
    except ClientError as error:
        print(
            f"Couldn't assume role {assume_role_arn}. Here's why: "
            f"{error.response['Error']['Message']}"
        )
        raise

    # Create an S3 resource that can access the account with the temporary credentials.
    s3_resource = boto3.resource(
        "s3",
        aws_access_key_id=temp_credentials["AccessKeyId"],
        aws_secret_access_key=temp_credentials["SecretAccessKey"],
        aws_session_token=temp_credentials["SessionToken"],
    )
    print(f"Listing buckets for the assumed role's account:")
    try:
        for bucket in s3_resource.buckets.all():
            print(bucket.name)
    except ClientError as error:
        print(
            f"Couldn't list buckets for the account. Here's why: "
            f"{error.response['Error']['Message']}"
        )
        raise




def teardown(user, role):
    """
    Removes all resources created during setup.

    :param user: The demo user.
    :param role: The demo role.
    """
    try:
        for attached in role.attached_policies.all():
            policy_name = attached.policy_name
            role.detach_policy(PolicyArn=attached.arn)
            attached.delete()
            print(f"Detached and deleted {policy_name}.")
        role.delete()
        print(f"Deleted {role.name}.")
    except ClientError as error:
        print(
            "Couldn't detach policy, delete policy, or delete role. Here's why: "
            f"{error.response['Error']['Message']}"
        )
        raise

    try:
        for user_pol in user.policies.all():
            user_pol.delete()
            print("Deleted inline user policy.")
        for key in user.access_keys.all():
            key.delete()
            print("Deleted user's access key.")
        user.delete()
        print(f"Deleted {user.name}.")
    except ClientError as error:
        print(
            "Couldn't delete user policy or delete user. Here's why: "
            f"{error.response['Error']['Message']}"
        )


def usage_demo():
    """Drives the demonstration."""
    print("-" * 88)
    print(f"Welcome to the IAM create user and assume role demo.")
    print("-" * 88)
    iam_resource = boto3.resource("iam")
    user = None
    role = None
    try:
        user, user_key, role = setup(iam_resource)
        print(f"Created {user.name} and {role.name}.")
        show_access_denied_without_role(user_key)
        list_buckets_from_assumed_role(user_key, role.arn, "AssumeRoleDemoSession")
    except Exception:
        print("Something went wrong!")
    finally:
        if user is not None and role is not None:
            teardown(user, role)
        print("Thanks for watching!")


if __name__ == "__main__":
    usage_demo()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/AttachRolePolicy)
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateAccessKey)
  + [CreatePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreatePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateRole)
  + [CreateUser](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateUser)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteAccessKey)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeletePolicy)
  + [DeleteRole](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteRole)
  + [DeleteUser](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteUser)
  + [DeleteUserPolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteUserPolicy)
  + [DetachRolePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DetachRolePolicy)
  + [PutUserPolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/PutUserPolicy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Lampirkan kebijakan ke peran menggunakan objek Kebijakan Boto3.  

```
def attach_to_role(role_name, policy_arn):
    """
    Attaches a policy to a role.

    :param role_name: The name of the role. **Note** this is the name, not the ARN.
    :param policy_arn: The ARN of the policy.
    """
    try:
        iam.Policy(policy_arn).attach_role(RoleName=role_name)
        logger.info("Attached policy %s to role %s.", policy_arn, role_name)
    except ClientError:
        logger.exception("Couldn't attach policy %s to role %s.", policy_arn, role_name)
        raise
```
Lampirkan kebijakan ke peran menggunakan objek Peran Boto3.  

```
def attach_policy(role_name, policy_arn):
    """
    Attaches a policy to a role.

    :param role_name: The name of the role. **Note** this is the name, not the ARN.
    :param policy_arn: The ARN of the policy.
    """
    try:
        iam.Role(role_name).attach_policy(PolicyArn=policy_arn)
        logger.info("Attached policy %s to role %s.", policy_arn, role_name)
    except ClientError:
        logger.exception("Couldn't attach policy %s to role %s.", policy_arn, role_name)
        raise
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/AttachRolePolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AttachUserPolicy`
<a name="iam_AttachUserPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachUserPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def attach_policy(user_name, policy_arn):
    """
    Attaches a policy to a user.

    :param user_name: The name of the user.
    :param policy_arn: The Amazon Resource Name (ARN) of the policy.
    """
    try:
        iam.User(user_name).attach_policy(PolicyArn=policy_arn)
        logger.info("Attached policy %s to user %s.", policy_arn, user_name)
    except ClientError:
        logger.exception("Couldn't attach policy %s to user %s.", policy_arn, user_name)
        raise
```
+  Untuk detail API, lihat [AttachUserPolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/AttachUserPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def create_key(user_name):
    """
    Creates an access key for the specified user. Each user can have a
    maximum of two keys.

    :param user_name: The name of the user.
    :return: The created access key.
    """
    try:
        key_pair = iam.User(user_name).create_access_key_pair()
        logger.info(
            "Created access key pair for %s. Key ID is %s.",
            key_pair.user_name,
            key_pair.id,
        )
    except ClientError:
        logger.exception("Couldn't create access key pair for %s.", user_name)
        raise
    else:
        return key_pair
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateAccessKey)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateAccountAlias`
<a name="iam_CreateAccountAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccountAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def create_alias(alias):
    """
    Creates an alias for the current account. The alias can be used in place of the
    account ID in the sign-in URL. An account can have only one alias. When a new
    alias is created, it replaces any existing alias.

    :param alias: The alias to assign to the account.
    """

    try:
        iam.create_account_alias(AccountAlias=alias)
        logger.info("Created an alias '%s' for your account.", alias)
    except ClientError:
        logger.exception("Couldn't create alias '%s' for your account.", alias)
        raise
```
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateAccountAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateInstanceProfile`
<a name="iam_CreateInstanceProfile_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateInstanceProfile`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Contoh ini membuat profil kebijakan, peran, dan instance dan menautkan semuanya.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def create_instance_profile(
        self,
        policy_file: str,
        policy_name: str,
        role_name: str,
        profile_name: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> str:
        """
        Creates a policy, role, and profile that is associated with instances created by
        this class. An instance's associated profile defines a role that is assumed by the
        instance. The role has attached policies that specify the AWS permissions granted to
        clients that run on the instance.

        :param policy_file: The name of a JSON file that contains the policy definition to
                            create and attach to the role.
        :param policy_name: The name to give the created policy.
        :param role_name: The name to give the created role.
        :param profile_name: The name to the created profile.
        :param aws_managed_policies: Additional AWS-managed policies that are attached to
                                     the role, such as AmazonSSMManagedInstanceCore to grant
                                     use of Systems Manager to send commands to the instance.
        :return: The ARN of the profile that is created.
        """
        assume_role_doc = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Effect": "Allow",
                    "Principal": {"Service": "ec2.amazonaws.com"},
                    "Action": "sts:AssumeRole",
                }
            ],
        }
        policy_arn = self.create_policy(policy_file, policy_name)
        self.create_role(role_name, assume_role_doc)
        self.attach_policy(role_name, policy_arn, aws_managed_policies)

        try:
            profile_response = self.iam_client.create_instance_profile(
                InstanceProfileName=profile_name
            )
            waiter = self.iam_client.get_waiter("instance_profile_exists")
            waiter.wait(InstanceProfileName=profile_name)
            time.sleep(10)  # wait a little longer
            profile_arn = profile_response["InstanceProfile"]["Arn"]
            self.iam_client.add_role_to_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            log.info("Created profile %s and added role %s.", profile_name, role_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                prof_response = self.iam_client.get_instance_profile(
                    InstanceProfileName=profile_name
                )
                profile_arn = prof_response["InstanceProfile"]["Arn"]
                log.info(
                    "Instance profile %s already exists, nothing to do.", profile_name
                )
            log.error(f"Full error:\n\t{err}")
        return profile_arn
```
+  Untuk detail API, lihat [CreateInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateInstanceProfile)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreatePolicy`
<a name="iam_CreatePolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def create_policy(name, description, actions, resource_arn):
    """
    Creates a policy that contains a single statement.

    :param name: The name of the policy to create.
    :param description: The description of the policy.
    :param actions: The actions allowed by the policy. These typically take the
                    form of service:action, such as s3:PutObject.
    :param resource_arn: The Amazon Resource Name (ARN) of the resource this policy
                         applies to. This ARN can contain wildcards, such as
                         'arn:aws:s3:::amzn-s3-demo-bucket/*' to allow actions on all objects
                         in the bucket named 'amzn-s3-demo-bucket'.
    :return: The newly created policy.
    """
    policy_doc = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [{"Effect": "Allow", "Action": actions, "Resource": resource_arn}],
    }
    try:
        policy = iam.create_policy(
            PolicyName=name,
            Description=description,
            PolicyDocument=json.dumps(policy_doc),
        )
        logger.info("Created policy %s.", policy.arn)
    except ClientError:
        logger.exception("Couldn't create policy %s.", name)
        raise
    else:
        return policy
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreatePolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreatePolicyVersion`
<a name="iam_CreatePolicyVersion_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicyVersion`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def create_policy_version(policy_arn, actions, resource_arn, set_as_default):
    """
    Creates a policy version. Policies can have up to five versions. The default
    version is the one that is used for all resources that reference the policy.

    :param policy_arn: The ARN of the policy.
    :param actions: The actions to allow in the policy version.
    :param resource_arn: The ARN of the resource this policy version applies to.
    :param set_as_default: When True, this policy version is set as the default
                           version for the policy. Otherwise, the default
                           is not changed.
    :return: The newly created policy version.
    """
    policy_doc = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [{"Effect": "Allow", "Action": actions, "Resource": resource_arn}],
    }
    try:
        policy = iam.Policy(policy_arn)
        policy_version = policy.create_version(
            PolicyDocument=json.dumps(policy_doc), SetAsDefault=set_as_default
        )
        logger.info(
            "Created policy version %s for policy %s.",
            policy_version.version_id,
            policy_version.arn,
        )
    except ClientError:
        logger.exception("Couldn't create a policy version for %s.", policy_arn)
        raise
    else:
        return policy_version
```
+  Untuk detail API, lihat [CreatePolicyVersion](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreatePolicyVersion)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateRole`
<a name="iam_CreateRole_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def create_role(role_name, allowed_services):
    """
    Creates a role that lets a list of specified services assume the role.

    :param role_name: The name of the role.
    :param allowed_services: The services that can assume the role.
    :return: The newly created role.
    """
    trust_policy = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Effect": "Allow",
                "Principal": {"Service": service},
                "Action": "sts:AssumeRole",
            }
            for service in allowed_services
        ],
    }

    try:
        role = iam.create_role(
            RoleName=role_name, AssumeRolePolicyDocument=json.dumps(trust_policy)
        )
        logger.info("Created role %s.", role.name)
    except ClientError:
        logger.exception("Couldn't create role %s.", role_name)
        raise
    else:
        return role
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateRole)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def create_service_linked_role(service_name, description):
    """
    Creates a service-linked role.

    :param service_name: The name of the service that owns the role.
    :param description: A description to give the role.
    :return: The newly created role.
    """
    try:
        response = iam.meta.client.create_service_linked_role(
            AWSServiceName=service_name, Description=description
        )
        role = iam.Role(response["Role"]["RoleName"])
        logger.info("Created service-linked role %s.", role.name)
    except ClientError:
        logger.exception("Couldn't create service-linked role for %s.", service_name)
        raise
    else:
        return role
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateServiceLinkedRole)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateUser`
<a name="iam_CreateUser_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def create_user(user_name):
    """
    Creates a user. By default, a user has no permissions or access keys.

    :param user_name: The name of the user.
    :return: The newly created user.
    """
    try:
        user = iam.create_user(UserName=user_name)
        logger.info("Created user %s.", user.name)
    except ClientError:
        logger.exception("Couldn't create user %s.", user_name)
        raise
    else:
        return user
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateUser)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def delete_key(user_name, key_id):
    """
    Deletes a user's access key.

    :param user_name: The user that owns the key.
    :param key_id: The ID of the key to delete.
    """

    try:
        key = iam.AccessKey(user_name, key_id)
        key.delete()
        logger.info("Deleted access key %s for %s.", key.id, key.user_name)
    except ClientError:
        logger.exception("Couldn't delete key %s for %s", key_id, user_name)
        raise
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteAccessKey)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteAccountAlias`
<a name="iam_DeleteAccountAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccountAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def delete_alias(alias):
    """
    Removes the alias from the current account.

    :param alias: The alias to remove.
    """
    try:
        iam.meta.client.delete_account_alias(AccountAlias=alias)
        logger.info("Removed alias '%s' from your account.", alias)
    except ClientError:
        logger.exception("Couldn't remove alias '%s' from your account.", alias)
        raise
```
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteAccountAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteInstanceProfile`
<a name="iam_DeleteInstanceProfile_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteInstanceProfile`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Contoh ini menghapus peran dari profil instance, melepaskan semua kebijakan yang dilampirkan pada peran, dan menghapus semua sumber daya.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def delete_instance_profile(self, profile_name: str, role_name: str) -> None:
        """
        Detaches a role from an instance profile, detaches policies from the role,
        and deletes all the resources.

        :param profile_name: The name of the profile to delete.
        :param role_name: The name of the role to delete.
        """
        try:
            self.iam_client.remove_role_from_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            self.iam_client.delete_instance_profile(InstanceProfileName=profile_name)
            log.info("Deleted instance profile %s.", profile_name)
            attached_policies = self.iam_client.list_attached_role_policies(
                RoleName=role_name
            )
            for pol in attached_policies["AttachedPolicies"]:
                self.iam_client.detach_role_policy(
                    RoleName=role_name, PolicyArn=pol["PolicyArn"]
                )
                if not pol["PolicyArn"].startswith("arn:aws:iam::aws"):
                    self.iam_client.delete_policy(PolicyArn=pol["PolicyArn"])
                log.info("Detached and deleted policy %s.", pol["PolicyName"])
            self.iam_client.delete_role(RoleName=role_name)
            log.info("Deleted role %s.", role_name)
        except ClientError as err:
            log.error(
                f"Couldn't delete instance profile {profile_name} or detach "
                f"policies and delete role {role_name}: {err}"
            )
            if err.response["Error"]["Code"] == "NoSuchEntity":
                log.info(
                    "Instance profile %s doesn't exist, nothing to do.", profile_name
                )
```
+  Untuk detail API, lihat [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteInstanceProfile)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeletePolicy`
<a name="iam_DeletePolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def delete_policy(policy_arn):
    """
    Deletes a policy.

    :param policy_arn: The ARN of the policy to delete.
    """
    try:
        iam.Policy(policy_arn).delete()
        logger.info("Deleted policy %s.", policy_arn)
    except ClientError:
        logger.exception("Couldn't delete policy %s.", policy_arn)
        raise
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeletePolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteRole`
<a name="iam_DeleteRole_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def delete_role(role_name):
    """
    Deletes a role.

    :param role_name: The name of the role to delete.
    """
    try:
        iam.Role(role_name).delete()
        logger.info("Deleted role %s.", role_name)
    except ClientError:
        logger.exception("Couldn't delete role %s.", role_name)
        raise
```
+  Untuk detail API, lihat [DeleteRole](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteRole)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteUser`
<a name="iam_DeleteUser_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def delete_user(user_name):
    """
    Deletes a user. Before a user can be deleted, all associated resources,
    such as access keys and policies, must be deleted or detached.

    :param user_name: The name of the user.
    """
    try:
        iam.User(user_name).delete()
        logger.info("Deleted user %s.", user_name)
    except ClientError:
        logger.exception("Couldn't delete user %s.", user_name)
        raise
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteUser)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Lepaskan kebijakan dari peran menggunakan objek Kebijakan Boto3.  

```
def detach_from_role(role_name, policy_arn):
    """
    Detaches a policy from a role.

    :param role_name: The name of the role. **Note** this is the name, not the ARN.
    :param policy_arn: The ARN of the policy.
    """
    try:
        iam.Policy(policy_arn).detach_role(RoleName=role_name)
        logger.info("Detached policy %s from role %s.", policy_arn, role_name)
    except ClientError:
        logger.exception(
            "Couldn't detach policy %s from role %s.", policy_arn, role_name
        )
        raise
```
Lepaskan kebijakan dari peran menggunakan objek Peran Boto3.  

```
def detach_policy(role_name, policy_arn):
    """
    Detaches a policy from a role.

    :param role_name: The name of the role. **Note** this is the name, not the ARN.
    :param policy_arn: The ARN of the policy.
    """
    try:
        iam.Role(role_name).detach_policy(PolicyArn=policy_arn)
        logger.info("Detached policy %s from role %s.", policy_arn, role_name)
    except ClientError:
        logger.exception(
            "Couldn't detach policy %s from role %s.", policy_arn, role_name
        )
        raise
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DetachRolePolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetachUserPolicy`
<a name="iam_DetachUserPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachUserPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def detach_policy(user_name, policy_arn):
    """
    Detaches a policy from a user.

    :param user_name: The name of the user.
    :param policy_arn: The Amazon Resource Name (ARN) of the policy.
    """
    try:
        iam.User(user_name).detach_policy(PolicyArn=policy_arn)
        logger.info("Detached policy %s from user %s.", policy_arn, user_name)
    except ClientError:
        logger.exception(
            "Couldn't detach policy %s from user %s.", policy_arn, user_name
        )
        raise
```
+  Untuk detail API, lihat [DetachUserPolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DetachUserPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GenerateCredentialReport`
<a name="iam_GenerateCredentialReport_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GenerateCredentialReport`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def generate_credential_report():
    """
    Starts generation of a credentials report about the current account. After
    calling this function to generate the report, call get_credential_report
    to get the latest report. A new report can be generated a minimum of four hours
    after the last one was generated.
    """
    try:
        response = iam.meta.client.generate_credential_report()
        logger.info(
            "Generating credentials report for your account. " "Current state is %s.",
            response["State"],
        )
    except ClientError:
        logger.exception("Couldn't generate a credentials report for your account.")
        raise
    else:
        return response
```
+  Untuk detail API, lihat [GenerateCredentialReport](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GenerateCredentialReport)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetAccessKeyLastUsed`
<a name="iam_GetAccessKeyLastUsed_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccessKeyLastUsed`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def get_last_use(key_id):
    """
    Gets information about when and how a key was last used.

    :param key_id: The ID of the key to look up.
    :return: Information about the key's last use.
    """
    try:
        response = iam.meta.client.get_access_key_last_used(AccessKeyId=key_id)
        last_used_date = response["AccessKeyLastUsed"].get("LastUsedDate", None)
        last_service = response["AccessKeyLastUsed"].get("ServiceName", None)
        logger.info(
            "Key %s was last used by %s on %s to access %s.",
            key_id,
            response["UserName"],
            last_used_date,
            last_service,
        )
    except ClientError:
        logger.exception("Couldn't get last use of key %s.", key_id)
        raise
    else:
        return response
```
+  Untuk detail API, lihat [GetAccessKeyLastUsed](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetAccessKeyLastUsed)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetAccountAuthorizationDetails`
<a name="iam_GetAccountAuthorizationDetails_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountAuthorizationDetails`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def get_authorization_details(response_filter):
    """
    Gets an authorization detail report for the current account.

    :param response_filter: A list of resource types to include in the report, such
                            as users or roles. When not specified, all resources
                            are included.
    :return: The authorization detail report.
    """
    try:
        account_details = iam.meta.client.get_account_authorization_details(
            Filter=response_filter
        )
        logger.debug(account_details)
    except ClientError:
        logger.exception("Couldn't get details for your account.")
        raise
    else:
        return account_details
```
+  Untuk detail API, lihat [GetAccountAuthorizationDetails](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetAccountAuthorizationDetails)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountPasswordPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def print_password_policy():
    """
    Prints the password policy for the account.
    """
    try:
        pw_policy = iam.AccountPasswordPolicy()
        print("Current account password policy:")
        print(
            f"\tallow_users_to_change_password: {pw_policy.allow_users_to_change_password}"
        )
        print(f"\texpire_passwords: {pw_policy.expire_passwords}")
        print(f"\thard_expiry: {pw_policy.hard_expiry}")
        print(f"\tmax_password_age: {pw_policy.max_password_age}")
        print(f"\tminimum_password_length: {pw_policy.minimum_password_length}")
        print(f"\tpassword_reuse_prevention: {pw_policy.password_reuse_prevention}")
        print(
            f"\trequire_lowercase_characters: {pw_policy.require_lowercase_characters}"
        )
        print(f"\trequire_numbers: {pw_policy.require_numbers}")
        print(f"\trequire_symbols: {pw_policy.require_symbols}")
        print(
            f"\trequire_uppercase_characters: {pw_policy.require_uppercase_characters}"
        )
        printed = True
    except ClientError as error:
        if error.response["Error"]["Code"] == "NoSuchEntity":
            print("The account does not have a password policy set.")
        else:
            logger.exception("Couldn't get account password policy.")
            raise
    else:
        return printed
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetAccountPasswordPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetAccountSummary`
<a name="iam_GetAccountSummary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountSummary`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def get_summary():
    """
    Gets a summary of account usage.

    :return: The summary of account usage.
    """
    try:
        summary = iam.AccountSummary()
        logger.debug(summary.summary_map)
    except ClientError:
        logger.exception("Couldn't get a summary for your account.")
        raise
    else:
        return summary.summary_map
```
+  Untuk detail API, lihat [GetAccountSummary](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetAccountSummary)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetCredentialReport`
<a name="iam_GetCredentialReport_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCredentialReport`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def get_credential_report():
    """
    Gets the most recently generated credentials report about the current account.

    :return: The credentials report.
    """
    try:
        response = iam.meta.client.get_credential_report()
        logger.debug(response["Content"])
    except ClientError:
        logger.exception("Couldn't get credentials report.")
        raise
    else:
        return response["Content"]
```
+  Untuk detail API, lihat [GetCredentialReport](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetCredentialReport)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetPolicy`
<a name="iam_GetPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def get_default_policy_statement(policy_arn):
    """
    Gets the statement of the default version of the specified policy.

    :param policy_arn: The ARN of the policy to look up.
    :return: The statement of the default policy version.
    """
    try:
        policy = iam.Policy(policy_arn)
        # To get an attribute of a policy, the SDK first calls get_policy.
        policy_doc = policy.default_version.document
        policy_statement = policy_doc.get("Statement", None)
        logger.info("Got default policy doc for %s.", policy.policy_name)
        logger.info(policy_doc)
    except ClientError:
        logger.exception("Couldn't get default policy statement for %s.", policy_arn)
        raise
    else:
        return policy_statement
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetPolicyVersion`
<a name="iam_GetPolicyVersion_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicyVersion`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def get_default_policy_statement(policy_arn):
    """
    Gets the statement of the default version of the specified policy.

    :param policy_arn: The ARN of the policy to look up.
    :return: The statement of the default policy version.
    """
    try:
        policy = iam.Policy(policy_arn)
        # To get an attribute of a policy, the SDK first calls get_policy.
        policy_doc = policy.default_version.document
        policy_statement = policy_doc.get("Statement", None)
        logger.info("Got default policy doc for %s.", policy.policy_name)
        logger.info(policy_doc)
    except ClientError:
        logger.exception("Couldn't get default policy statement for %s.", policy_arn)
        raise
    else:
        return policy_statement
```
+  Untuk detail API, lihat [GetPolicyVersion](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetPolicyVersion)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetRole`
<a name="iam_GetRole_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def get_role(role_name):
    """
    Gets a role by name.

    :param role_name: The name of the role to retrieve.
    :return: The specified role.
    """
    try:
        role = iam.Role(role_name)
        role.load()  # calls GetRole to load attributes
        logger.info("Got role with arn %s.", role.arn)
    except ClientError:
        logger.exception("Couldn't get role named %s.", role_name)
        raise
    else:
        return role
```
+  Untuk detail API, lihat [GetRole](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetRole)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_keys(user_name):
    """
    Lists the keys owned by the specified user.

    :param user_name: The name of the user.
    :return: The list of keys owned by the user.
    """
    try:
        keys = list(iam.User(user_name).access_keys.all())
        logger.info("Got %s access keys for %s.", len(keys), user_name)
    except ClientError:
        logger.exception("Couldn't get access keys for %s.", user_name)
        raise
    else:
        return keys
```
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListAccessKeys)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListAccountAliases`
<a name="iam_ListAccountAliases_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccountAliases`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_aliases():
    """
    Gets the list of aliases for the current account. An account has at most one alias.

    :return: The list of aliases for the account.
    """
    try:
        response = iam.meta.client.list_account_aliases()
        aliases = response["AccountAliases"]
        if len(aliases) > 0:
            logger.info("Got aliases for your account: %s.", ",".join(aliases))
        else:
            logger.info("Got no aliases for your account.")
    except ClientError:
        logger.exception("Couldn't list aliases for your account.")
        raise
    else:
        return response["AccountAliases"]
```
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListAccountAliases)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_attached_policies(role_name):
    """
    Lists policies attached to a role.

    :param role_name: The name of the role to query.
    """
    try:
        role = iam.Role(role_name)
        for policy in role.attached_policies.all():
            logger.info("Got policy %s.", policy.arn)
    except ClientError:
        logger.exception("Couldn't list attached policies for %s.", role_name)
        raise
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListAttachedRolePolicies)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListGroups`
<a name="iam_ListGroups_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_groups(count):
    """
    Lists the specified number of groups for the account.

    :param count: The number of groups to list.
    """
    try:
        for group in iam.groups.limit(count):
            logger.info("Group: %s", group.name)
    except ClientError:
        logger.exception("Couldn't list groups for the account.")
        raise
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListGroups)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListPolicies`
<a name="iam_ListPolicies_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_policies(scope):
    """
    Lists the policies in the current account.

    :param scope: Limits the kinds of policies that are returned. For example,
                  'Local' specifies that only locally managed policies are returned.
    :return: The list of policies.
    """
    try:
        policies = list(iam.policies.filter(Scope=scope))
        logger.info("Got %s policies in scope '%s'.", len(policies), scope)
    except ClientError:
        logger.exception("Couldn't get policies for scope '%s'.", scope)
        raise
    else:
        return policies
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListPolicies)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_policies(role_name):
    """
    Lists inline policies for a role.

    :param role_name: The name of the role to query.
    """
    try:
        role = iam.Role(role_name)
        for policy in role.policies.all():
            logger.info("Got inline policy %s.", policy.name)
    except ClientError:
        logger.exception("Couldn't list inline policies for %s.", role_name)
        raise
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListRolePolicies)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListRoles`
<a name="iam_ListRoles_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_roles(count):
    """
    Lists the specified number of roles for the account.

    :param count: The number of roles to list.
    """
    try:
        roles = list(iam.roles.limit(count=count))
        for role in roles:
            logger.info("Role: %s", role.name)
    except ClientError:
        logger.exception("Couldn't list roles for the account.")
        raise
    else:
        return roles
```
+  Untuk detail API, lihat [ListRoles](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListRoles)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListSAMLProviders`
<a name="iam_ListSAMLProviders_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSAMLProviders`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_saml_providers(count):
    """
    Lists the SAML providers for the account.

    :param count: The maximum number of providers to list.
    """
    try:
        found = 0
        for provider in iam.saml_providers.limit(count):
            logger.info("Got SAML provider %s.", provider.arn)
            found += 1
        if found == 0:
            logger.info("Your account has no SAML providers.")
    except ClientError:
        logger.exception("Couldn't list SAML providers.")
        raise
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListSAMLProviders) di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListUsers`
<a name="iam_ListUsers_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def list_users():
    """
    Lists the users in the current account.

    :return: The list of users.
    """
    try:
        users = list(iam.users.all())
        logger.info("Got %s users.", len(users))
    except ClientError:
        logger.exception("Couldn't get users.")
        raise
    else:
        return users
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListUsers)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateAccessKey`
<a name="iam_UpdateAccessKey_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAccessKey`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def update_key(user_name, key_id, activate):
    """
    Updates the status of a key.

    :param user_name: The user that owns the key.
    :param key_id: The ID of the key to update.
    :param activate: When True, the key is activated. Otherwise, the key is deactivated.
    """

    try:
        key = iam.User(user_name).AccessKey(key_id)
        if activate:
            key.activate()
        else:
            key.deactivate()
        logger.info("%s key %s.", "Activated" if activate else "Deactivated", key_id)
    except ClientError:
        logger.exception(
            "Couldn't %s key %s.", "Activate" if activate else "Deactivate", key_id
        )
        raise
```
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/UpdateAccessKey)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateUser`
<a name="iam_UpdateUser_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUser`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def update_user(user_name, new_user_name):
    """
    Updates a user's name.

    :param user_name: The current name of the user to update.
    :param new_user_name: The new name to assign to the user.
    :return: The updated user.
    """
    try:
        user = iam.User(user_name)
        user.update(NewUserName=new_user_name)
        logger.info("Renamed %s to %s.", user_name, new_user_name)
    except ClientError:
        logger.exception("Couldn't update name for user %s.", user_name)
        raise
    return user
```
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/UpdateUser)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membangun dan mengelola layanan yang tangguh
<a name="cross_ResilientService_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat layanan web load-balanced yang mengembalikan rekomendasi buku, film, dan lagu. Contoh ini menunjukkan cara layanan tersebut merespons kegagalan, serta cara merestrukturisasi layanan agar lebih tangguh ketika terjadi kegagalan.
+ Menggunakan grup Amazon EC2 Auto Scaling untuk membuat instans Amazon Elastic Compute Cloud (Amazon EC2) berdasarkan templat peluncuran dan menyimpan sejumlah instans dalam rentang yang ditentukan.
+ Menangani dan mendistribusikan permintaan HTTP dengan Elastic Load Balancing.
+ Memantau kondisi instans dalam grup Auto Scaling dan meneruskan permintaan hanya ke instans yang sehat.
+ Menjalankan server web Python pada setiap instans EC2 untuk menangani permintaan HTTP. Server web merespons dengan memberikan rekomendasi dan melakukan pemeriksaan kondisi.
+ Menyimulasikan layanan yang direkomendasikan dengan tabel Amazon DynamoDB.
+ Kontrol respons server web terhadap permintaan dan pemeriksaan kesehatan dengan memperbarui AWS Systems Manager parameter.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/resilient_service#code-examples). 
Menjalankan skenario interaktif di prompt perintah.  

```
class Runner:
    """
    Manages the deployment, demonstration, and destruction of resources for the resilient service.
    """

    def __init__(
        self,
        resource_path: str,
        recommendation: RecommendationService,
        autoscaler: AutoScalingWrapper,
        loadbalancer: ElasticLoadBalancerWrapper,
        param_helper: ParameterHelper,
    ):
        """
        Initializes the Runner class with the necessary parameters.

        :param resource_path: The path to resource files used by this example, such as IAM policies and instance scripts.
        :param recommendation: An instance of the RecommendationService class.
        :param autoscaler: An instance of the AutoScaler class.
        :param loadbalancer: An instance of the LoadBalancer class.
        :param param_helper: An instance of the ParameterHelper class.
        """
        self.resource_path = resource_path
        self.recommendation = recommendation
        self.autoscaler = autoscaler
        self.loadbalancer = loadbalancer
        self.param_helper = param_helper
        self.protocol = "HTTP"
        self.port = 80
        self.ssh_port = 22

        prefix = "doc-example-resilience"
        self.target_group_name = f"{prefix}-tg"
        self.load_balancer_name = f"{prefix}-lb"

    def deploy(self) -> None:
        """
        Deploys the resources required for the resilient service, including the DynamoDB table,
        EC2 instances, Auto Scaling group, and load balancer.
        """
        recommendations_path = f"{self.resource_path}/recommendations.json"
        startup_script = f"{self.resource_path}/server_startup_script.sh"
        instance_policy = f"{self.resource_path}/instance_policy.json"

        logging.info("Starting deployment of resources for the resilient service.")

        logging.info(
            "Creating and populating DynamoDB table '%s'.",
            self.recommendation.table_name,
        )
        self.recommendation.create()
        self.recommendation.populate(recommendations_path)

        logging.info(
            "Creating an EC2 launch template with the startup script '%s'.",
            startup_script,
        )
        self.autoscaler.create_template(startup_script, instance_policy)

        logging.info(
            "Creating an EC2 Auto Scaling group across multiple Availability Zones."
        )
        zones = self.autoscaler.create_autoscaling_group(3)

        logging.info("Creating variables that control the flow of the demo.")
        self.param_helper.reset()

        logging.info("Creating Elastic Load Balancing target group and load balancer.")

        vpc = self.autoscaler.get_default_vpc()
        subnets = self.autoscaler.get_subnets(vpc["VpcId"], zones)
        target_group = self.loadbalancer.create_target_group(
            self.target_group_name, self.protocol, self.port, vpc["VpcId"]
        )
        self.loadbalancer.create_load_balancer(
            self.load_balancer_name, [subnet["SubnetId"] for subnet in subnets]
        )
        self.loadbalancer.create_listener(self.load_balancer_name, target_group)

        self.autoscaler.attach_load_balancer_target_group(target_group)

        logging.info("Verifying access to the load balancer endpoint.")
        endpoint = self.loadbalancer.get_endpoint(self.load_balancer_name)
        lb_success = self.loadbalancer.verify_load_balancer_endpoint(endpoint)
        current_ip_address = requests.get("http://checkip.amazonaws.com").text.strip()

        if not lb_success:
            logging.warning(
                "Couldn't connect to the load balancer. Verifying that the port is open..."
            )
            sec_group, port_is_open = self.autoscaler.verify_inbound_port(
                vpc, self.port, current_ip_address
            )
            sec_group, ssh_port_is_open = self.autoscaler.verify_inbound_port(
                vpc, self.ssh_port, current_ip_address
            )
            if not port_is_open:
                logging.warning(
                    "The default security group for your VPC must allow access from this computer."
                )
                if q.ask(
                    f"Do you want to add a rule to security group {sec_group['GroupId']} to allow\n"
                    f"inbound traffic on port {self.port} from your computer's IP address of {current_ip_address}? (y/n) ",
                    q.is_yesno,
                ):
                    self.autoscaler.open_inbound_port(
                        sec_group["GroupId"], self.port, current_ip_address
                    )
            if not ssh_port_is_open:
                if q.ask(
                    f"Do you want to add a rule to security group {sec_group['GroupId']} to allow\n"
                    f"inbound SSH traffic on port {self.ssh_port} for debugging from your computer's IP address of {current_ip_address}? (y/n) ",
                    q.is_yesno,
                ):
                    self.autoscaler.open_inbound_port(
                        sec_group["GroupId"], self.ssh_port, current_ip_address
                    )
            lb_success = self.loadbalancer.verify_load_balancer_endpoint(endpoint)

        if lb_success:
            logging.info(
                "Load balancer is ready. Access it at: http://%s", current_ip_address
            )
        else:
            logging.error(
                "Couldn't get a successful response from the load balancer endpoint. Please verify your VPC and security group settings."
            )

    def demo_choices(self) -> None:
        """
        Presents choices for interacting with the deployed service, such as sending requests to
        the load balancer or checking the health of the targets.
        """
        actions = [
            "Send a GET request to the load balancer endpoint.",
            "Check the health of load balancer targets.",
            "Go to the next part of the demo.",
        ]
        choice = 0
        while choice != 2:
            logging.info("Choose an action to interact with the service.")
            choice = q.choose("Which action would you like to take? ", actions)
            if choice == 0:
                logging.info("Sending a GET request to the load balancer endpoint.")
                endpoint = self.loadbalancer.get_endpoint(self.load_balancer_name)
                logging.info("GET http://%s", endpoint)
                response = requests.get(f"http://{endpoint}")
                logging.info("Response: %s", response.status_code)
                if response.headers.get("content-type") == "application/json":
                    pp(response.json())
            elif choice == 1:
                logging.info("Checking the health of load balancer targets.")
                health = self.loadbalancer.check_target_health(self.target_group_name)
                for target in health:
                    state = target["TargetHealth"]["State"]
                    logging.info(
                        "Target %s on port %d is %s",
                        target["Target"]["Id"],
                        target["Target"]["Port"],
                        state,
                    )
                    if state != "healthy":
                        logging.warning(
                            "%s: %s",
                            target["TargetHealth"]["Reason"],
                            target["TargetHealth"]["Description"],
                        )
                logging.info(
                    "Note that it can take a minute or two for the health check to update."
                )
            elif choice == 2:
                logging.info("Proceeding to the next part of the demo.")

    def demo(self) -> None:
        """
        Runs the demonstration, showing how the service responds to different failure scenarios
        and how a resilient architecture can keep the service running.
        """
        ssm_only_policy = f"{self.resource_path}/ssm_only_policy.json"

        logging.info("Resetting parameters to starting values for the demo.")
        self.param_helper.reset()

        logging.info(
            "Starting demonstration of the service's resilience under various failure conditions."
        )
        self.demo_choices()

        logging.info(
            "Simulating failure by changing the Systems Manager parameter to a non-existent table."
        )
        self.param_helper.put(self.param_helper.table, "this-is-not-a-table")
        logging.info("Sending GET requests will now return failure codes.")
        self.demo_choices()

        logging.info("Switching to static response mode to mitigate failure.")
        self.param_helper.put(self.param_helper.failure_response, "static")
        logging.info("Sending GET requests will now return static responses.")
        self.demo_choices()

        logging.info("Restoring normal operation of the recommendation service.")
        self.param_helper.put(self.param_helper.table, self.recommendation.table_name)

        logging.info(
            "Introducing a failure by assigning bad credentials to one of the instances."
        )
        self.autoscaler.create_instance_profile(
            ssm_only_policy,
            self.autoscaler.bad_creds_policy_name,
            self.autoscaler.bad_creds_role_name,
            self.autoscaler.bad_creds_profile_name,
            ["AmazonSSMManagedInstanceCore"],
        )
        instances = self.autoscaler.get_instances()
        bad_instance_id = instances[0]
        instance_profile = self.autoscaler.get_instance_profile(bad_instance_id)
        logging.info(
            "Replacing instance profile with bad credentials for instance %s.",
            bad_instance_id,
        )
        self.autoscaler.replace_instance_profile(
            bad_instance_id,
            self.autoscaler.bad_creds_profile_name,
            instance_profile["AssociationId"],
        )
        logging.info(
            "Sending GET requests may return either a valid recommendation or a static response."
        )
        self.demo_choices()

        logging.info("Implementing deep health checks to detect unhealthy instances.")
        self.param_helper.put(self.param_helper.health_check, "deep")
        logging.info("Checking the health of the load balancer targets.")
        self.demo_choices()

        logging.info(
            "Terminating the unhealthy instance to let the auto scaler replace it."
        )
        self.autoscaler.terminate_instance(bad_instance_id)
        logging.info("The service remains resilient during instance replacement.")
        self.demo_choices()

        logging.info("Simulating a complete failure of the recommendation service.")
        self.param_helper.put(self.param_helper.table, "this-is-not-a-table")
        logging.info(
            "All instances will report as unhealthy, but the service will still return static responses."
        )
        self.demo_choices()
        self.param_helper.reset()

    def destroy(self, automation=False) -> None:
        """
        Destroys all resources created for the demo, including the load balancer, Auto Scaling group,
        EC2 instances, and DynamoDB table.
        """
        logging.info(
            "This concludes the demo. Preparing to clean up all AWS resources created during the demo."
        )
        if automation:
            cleanup = True
        else:
            cleanup = q.ask(
                "Do you want to clean up all demo resources? (y/n) ", q.is_yesno
            )

        if cleanup:
            logging.info("Deleting load balancer and related resources.")
            self.loadbalancer.delete_load_balancer(self.load_balancer_name)
            self.loadbalancer.delete_target_group(self.target_group_name)
            self.autoscaler.delete_autoscaling_group(self.autoscaler.group_name)
            self.autoscaler.delete_key_pair()
            self.autoscaler.delete_template()
            self.autoscaler.delete_instance_profile(
                self.autoscaler.bad_creds_profile_name,
                self.autoscaler.bad_creds_role_name,
            )
            logging.info("Deleting DynamoDB table and other resources.")
            self.recommendation.destroy()
        else:
            logging.warning(
                "Resources have not been deleted. Ensure you clean them up manually to avoid unexpected charges."
            )


def main() -> None:
    """
    Main function to parse arguments and run the appropriate actions for the demo.
    """
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--action",
        required=True,
        choices=["all", "deploy", "demo", "destroy"],
        help="The action to take for the demo. When 'all' is specified, resources are\n"
        "deployed, the demo is run, and resources are destroyed.",
    )
    parser.add_argument(
        "--resource_path",
        default="../../../scenarios/features/resilient_service/resources",
        help="The path to resource files used by this example, such as IAM policies and\n"
        "instance scripts.",
    )
    args = parser.parse_args()

    logging.info("Starting the Resilient Service demo.")

    prefix = "doc-example-resilience"

    # Service Clients
    ddb_client = boto3.client("dynamodb")
    elb_client = boto3.client("elbv2")
    autoscaling_client = boto3.client("autoscaling")
    ec2_client = boto3.client("ec2")
    ssm_client = boto3.client("ssm")
    iam_client = boto3.client("iam")

    # Wrapper instantiations
    recommendation = RecommendationService(
        "doc-example-recommendation-service", ddb_client
    )
    autoscaling_wrapper = AutoScalingWrapper(
        prefix,
        "t3.micro",
        "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2",
        autoscaling_client,
        ec2_client,
        ssm_client,
        iam_client,
    )
    elb_wrapper = ElasticLoadBalancerWrapper(elb_client)
    param_helper = ParameterHelper(recommendation.table_name, ssm_client)

    # Demo invocation
    runner = Runner(
        args.resource_path,
        recommendation,
        autoscaling_wrapper,
        elb_wrapper,
        param_helper,
    )
    actions = [args.action] if args.action != "all" else ["deploy", "demo", "destroy"]
    for action in actions:
        if action == "deploy":
            runner.deploy()
        elif action == "demo":
            runner.demo()
        elif action == "destroy":
            runner.destroy()

    logging.info("Demo completed successfully.")


if __name__ == "__main__":
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    main()
```
Membuat kelas yang menggabungkan tindakan Penskalaan Otomatis dan Amazon EC2.  

```
class AutoScalingWrapper:
    """
    Encapsulates Amazon EC2 Auto Scaling and EC2 management actions.
    """

    def __init__(
        self,
        resource_prefix: str,
        inst_type: str,
        ami_param: str,
        autoscaling_client: boto3.client,
        ec2_client: boto3.client,
        ssm_client: boto3.client,
        iam_client: boto3.client,
    ):
        """
        Initializes the AutoScaler class with the necessary parameters.

        :param resource_prefix: The prefix for naming AWS resources that are created by this class.
        :param inst_type: The type of EC2 instance to create, such as t3.micro.
        :param ami_param: The Systems Manager parameter used to look up the AMI that is created.
        :param autoscaling_client: A Boto3 EC2 Auto Scaling client.
        :param ec2_client: A Boto3 EC2 client.
        :param ssm_client: A Boto3 Systems Manager client.
        :param iam_client: A Boto3 IAM client.
        """
        self.inst_type = inst_type
        self.ami_param = ami_param
        self.autoscaling_client = autoscaling_client
        self.ec2_client = ec2_client
        self.ssm_client = ssm_client
        self.iam_client = iam_client
        sts_client = boto3.client("sts")
        self.account_id = sts_client.get_caller_identity()["Account"]

        self.key_pair_name = f"{resource_prefix}-key-pair"
        self.launch_template_name = f"{resource_prefix}-template-"
        self.group_name = f"{resource_prefix}-group"

        # Happy path
        self.instance_policy_name = f"{resource_prefix}-pol"
        self.instance_role_name = f"{resource_prefix}-role"
        self.instance_profile_name = f"{resource_prefix}-prof"

        # Failure mode
        self.bad_creds_policy_name = f"{resource_prefix}-bc-pol"
        self.bad_creds_role_name = f"{resource_prefix}-bc-role"
        self.bad_creds_profile_name = f"{resource_prefix}-bc-prof"


    def create_policy(self, policy_file: str, policy_name: str) -> str:
        """
        Creates a new IAM policy or retrieves the ARN of an existing policy.

        :param policy_file: The path to a JSON file that contains the policy definition.
        :param policy_name: The name to give the created policy.
        :return: The ARN of the created or existing policy.
        """
        with open(policy_file) as file:
            policy_doc = file.read()

        try:
            response = self.iam_client.create_policy(
                PolicyName=policy_name, PolicyDocument=policy_doc
            )
            policy_arn = response["Policy"]["Arn"]
            log.info(f"Policy '{policy_name}' created successfully. ARN: {policy_arn}")
            return policy_arn

        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                # If the policy already exists, get its ARN
                response = self.iam_client.get_policy(
                    PolicyArn=f"arn:aws:iam::{self.account_id}:policy/{policy_name}"
                )
                policy_arn = response["Policy"]["Arn"]
                log.info(f"Policy '{policy_name}' already exists. ARN: {policy_arn}")
                return policy_arn
            log.error(f"Full error:\n\t{err}")

    def create_role(self, role_name: str, assume_role_doc: dict) -> str:
        """
        Creates a new IAM role or retrieves the ARN of an existing role.

        :param role_name: The name to give the created role.
        :param assume_role_doc: The assume role policy document that specifies which
                                entities can assume the role.
        :return: The ARN of the created or existing role.
        """
        try:
            response = self.iam_client.create_role(
                RoleName=role_name, AssumeRolePolicyDocument=json.dumps(assume_role_doc)
            )
            role_arn = response["Role"]["Arn"]
            log.info(f"Role '{role_name}' created successfully. ARN: {role_arn}")
            return role_arn

        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                # If the role already exists, get its ARN
                response = self.iam_client.get_role(RoleName=role_name)
                role_arn = response["Role"]["Arn"]
                log.info(f"Role '{role_name}' already exists. ARN: {role_arn}")
                return role_arn
            log.error(f"Full error:\n\t{err}")

    def attach_policy(
        self,
        role_name: str,
        policy_arn: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> None:
        """
        Attaches an IAM policy to a role and optionally attaches additional AWS-managed policies.

        :param role_name: The name of the role to attach the policy to.
        :param policy_arn: The ARN of the policy to attach.
        :param aws_managed_policies: A tuple of AWS-managed policy names to attach to the role.
        """
        try:
            self.iam_client.attach_role_policy(RoleName=role_name, PolicyArn=policy_arn)
            for aws_policy in aws_managed_policies:
                self.iam_client.attach_role_policy(
                    RoleName=role_name,
                    PolicyArn=f"arn:aws:iam::aws:policy/{aws_policy}",
                )
            log.info(f"Attached policy {policy_arn} to role {role_name}.")
        except ClientError as err:
            log.error(f"Failed to attach policy {policy_arn} to role {role_name}.")
            log.error(f"Full error:\n\t{err}")

    def create_instance_profile(
        self,
        policy_file: str,
        policy_name: str,
        role_name: str,
        profile_name: str,
        aws_managed_policies: Tuple[str, ...] = (),
    ) -> str:
        """
        Creates a policy, role, and profile that is associated with instances created by
        this class. An instance's associated profile defines a role that is assumed by the
        instance. The role has attached policies that specify the AWS permissions granted to
        clients that run on the instance.

        :param policy_file: The name of a JSON file that contains the policy definition to
                            create and attach to the role.
        :param policy_name: The name to give the created policy.
        :param role_name: The name to give the created role.
        :param profile_name: The name to the created profile.
        :param aws_managed_policies: Additional AWS-managed policies that are attached to
                                     the role, such as AmazonSSMManagedInstanceCore to grant
                                     use of Systems Manager to send commands to the instance.
        :return: The ARN of the profile that is created.
        """
        assume_role_doc = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Effect": "Allow",
                    "Principal": {"Service": "ec2.amazonaws.com"},
                    "Action": "sts:AssumeRole",
                }
            ],
        }
        policy_arn = self.create_policy(policy_file, policy_name)
        self.create_role(role_name, assume_role_doc)
        self.attach_policy(role_name, policy_arn, aws_managed_policies)

        try:
            profile_response = self.iam_client.create_instance_profile(
                InstanceProfileName=profile_name
            )
            waiter = self.iam_client.get_waiter("instance_profile_exists")
            waiter.wait(InstanceProfileName=profile_name)
            time.sleep(10)  # wait a little longer
            profile_arn = profile_response["InstanceProfile"]["Arn"]
            self.iam_client.add_role_to_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            log.info("Created profile %s and added role %s.", profile_name, role_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "EntityAlreadyExists":
                prof_response = self.iam_client.get_instance_profile(
                    InstanceProfileName=profile_name
                )
                profile_arn = prof_response["InstanceProfile"]["Arn"]
                log.info(
                    "Instance profile %s already exists, nothing to do.", profile_name
                )
            log.error(f"Full error:\n\t{err}")
        return profile_arn


    def get_instance_profile(self, instance_id: str) -> Dict[str, Any]:
        """
        Gets data about the profile associated with an instance.

        :param instance_id: The ID of the instance to look up.
        :return: The profile data.
        """
        try:
            response = self.ec2_client.describe_iam_instance_profile_associations(
                Filters=[{"Name": "instance-id", "Values": [instance_id]}]
            )
            if not response["IamInstanceProfileAssociations"]:
                log.info(f"No instance profile found for instance {instance_id}.")
            profile_data = response["IamInstanceProfileAssociations"][0]
            log.info(f"Retrieved instance profile for instance {instance_id}.")
            return profile_data
        except ClientError as err:
            log.error(
                f"Failed to retrieve instance profile for instance {instance_id}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidInstanceID.NotFound":
                log.error(f"The instance ID '{instance_id}' does not exist.")
            log.error(f"Full error:\n\t{err}")


    def replace_instance_profile(
        self,
        instance_id: str,
        new_instance_profile_name: str,
        profile_association_id: str,
    ) -> None:
        """
        Replaces the profile associated with a running instance. After the profile is
        replaced, the instance is rebooted to ensure that it uses the new profile. When
        the instance is ready, Systems Manager is used to restart the Python web server.

        :param instance_id: The ID of the instance to restart.
        :param new_instance_profile_name: The name of the new profile to associate with
                                          the specified instance.
        :param profile_association_id: The ID of the existing profile association for the
                                       instance.
        """
        try:
            self.ec2_client.replace_iam_instance_profile_association(
                IamInstanceProfile={"Name": new_instance_profile_name},
                AssociationId=profile_association_id,
            )
            log.info(
                "Replaced instance profile for association %s with profile %s.",
                profile_association_id,
                new_instance_profile_name,
            )
            time.sleep(5)

            self.ec2_client.reboot_instances(InstanceIds=[instance_id])
            log.info("Rebooting instance %s.", instance_id)
            waiter = self.ec2_client.get_waiter("instance_running")
            log.info("Waiting for instance %s to be running.", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info("Instance %s is now running.", instance_id)

            self.ssm_client.send_command(
                InstanceIds=[instance_id],
                DocumentName="AWS-RunShellScript",
                Parameters={"commands": ["cd / && sudo python3 server.py 80"]},
            )
            log.info(f"Restarted the Python web server on instance '{instance_id}'.")
        except ClientError as err:
            log.error("Failed to replace instance profile.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidAssociationID.NotFound":
                log.error(
                    f"Association ID '{profile_association_id}' does not exist."
                    "Please check the association ID and try again."
                )
            if error_code == "InvalidInstanceId":
                log.error(
                    f"The specified instance ID '{instance_id}' does not exist or is not available for SSM. "
                    f"Please verify the instance ID and try again."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_instance_profile(self, profile_name: str, role_name: str) -> None:
        """
        Detaches a role from an instance profile, detaches policies from the role,
        and deletes all the resources.

        :param profile_name: The name of the profile to delete.
        :param role_name: The name of the role to delete.
        """
        try:
            self.iam_client.remove_role_from_instance_profile(
                InstanceProfileName=profile_name, RoleName=role_name
            )
            self.iam_client.delete_instance_profile(InstanceProfileName=profile_name)
            log.info("Deleted instance profile %s.", profile_name)
            attached_policies = self.iam_client.list_attached_role_policies(
                RoleName=role_name
            )
            for pol in attached_policies["AttachedPolicies"]:
                self.iam_client.detach_role_policy(
                    RoleName=role_name, PolicyArn=pol["PolicyArn"]
                )
                if not pol["PolicyArn"].startswith("arn:aws:iam::aws"):
                    self.iam_client.delete_policy(PolicyArn=pol["PolicyArn"])
                log.info("Detached and deleted policy %s.", pol["PolicyName"])
            self.iam_client.delete_role(RoleName=role_name)
            log.info("Deleted role %s.", role_name)
        except ClientError as err:
            log.error(
                f"Couldn't delete instance profile {profile_name} or detach "
                f"policies and delete role {role_name}: {err}"
            )
            if err.response["Error"]["Code"] == "NoSuchEntity":
                log.info(
                    "Instance profile %s doesn't exist, nothing to do.", profile_name
                )


    def create_key_pair(self, key_pair_name: str) -> None:
        """
        Creates a new key pair.

        :param key_pair_name: The name of the key pair to create.
        """
        try:
            response = self.ec2_client.create_key_pair(KeyName=key_pair_name)
            with open(f"{key_pair_name}.pem", "w") as file:
                file.write(response["KeyMaterial"])
            chmod(f"{key_pair_name}.pem", 0o600)
            log.info("Created key pair %s.", key_pair_name)
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to create key pair {key_pair_name}.")
            if error_code == "InvalidKeyPair.Duplicate":
                log.error(f"A key pair with the name '{key_pair_name}' already exists.")
            log.error(f"Full error:\n\t{err}")


    def delete_key_pair(self) -> None:
        """
        Deletes a key pair.
        """
        try:
            self.ec2_client.delete_key_pair(KeyName=self.key_pair_name)
            remove(f"{self.key_pair_name}.pem")
            log.info("Deleted key pair %s.", self.key_pair_name)
        except ClientError as err:
            log.error(f"Couldn't delete key pair '{self.key_pair_name}'.")
            log.error(f"Full error:\n\t{err}")
        except FileNotFoundError as err:
            log.info("Key pair %s doesn't exist, nothing to do.", self.key_pair_name)
            log.error(f"Full error:\n\t{err}")


    def create_template(
        self, server_startup_script_file: str, instance_policy_file: str
    ) -> Dict[str, Any]:
        """
        Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling. The
        launch template specifies a Bash script in its user data field that runs after
        the instance is started. This script installs Python packages and starts a
        Python web server on the instance.

        :param server_startup_script_file: The path to a Bash script file that is run
                                           when an instance starts.
        :param instance_policy_file: The path to a file that defines a permissions policy
                                     to create and attach to the instance profile.
        :return: Information about the newly created template.
        """
        template = {}
        try:
            # Create key pair and instance profile
            self.create_key_pair(self.key_pair_name)
            self.create_instance_profile(
                instance_policy_file,
                self.instance_policy_name,
                self.instance_role_name,
                self.instance_profile_name,
            )

            # Read the startup script
            with open(server_startup_script_file) as file:
                start_server_script = file.read()

            # Get the latest AMI ID
            ami_latest = self.ssm_client.get_parameter(Name=self.ami_param)
            ami_id = ami_latest["Parameter"]["Value"]

            # Create the launch template
            lt_response = self.ec2_client.create_launch_template(
                LaunchTemplateName=self.launch_template_name,
                LaunchTemplateData={
                    "InstanceType": self.inst_type,
                    "ImageId": ami_id,
                    "IamInstanceProfile": {"Name": self.instance_profile_name},
                    "UserData": base64.b64encode(
                        start_server_script.encode(encoding="utf-8")
                    ).decode(encoding="utf-8"),
                    "KeyName": self.key_pair_name,
                },
            )
            template = lt_response["LaunchTemplate"]
            log.info(
                f"Created launch template {self.launch_template_name} for AMI {ami_id} on {self.inst_type}."
            )
        except ClientError as err:
            log.error(f"Failed to create launch template {self.launch_template_name}.")
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidLaunchTemplateName.AlreadyExistsException":
                log.info(
                    f"Launch template {self.launch_template_name} already exists, nothing to do."
                )
            log.error(f"Full error:\n\t{err}")
        return template


    def delete_template(self):
        """
        Deletes a launch template.
        """
        try:
            self.ec2_client.delete_launch_template(
                LaunchTemplateName=self.launch_template_name
            )
            self.delete_instance_profile(
                self.instance_profile_name, self.instance_role_name
            )
            log.info("Launch template %s deleted.", self.launch_template_name)
        except ClientError as err:
            if (
                err.response["Error"]["Code"]
                == "InvalidLaunchTemplateName.NotFoundException"
            ):
                log.info(
                    "Launch template %s does not exist, nothing to do.",
                    self.launch_template_name,
                )
            log.error(f"Full error:\n\t{err}")


    def get_availability_zones(self) -> List[str]:
        """
        Gets a list of Availability Zones in the AWS Region of the Amazon EC2 client.

        :return: The list of Availability Zones for the client Region.
        """
        try:
            response = self.ec2_client.describe_availability_zones()
            zones = [zone["ZoneName"] for zone in response["AvailabilityZones"]]
            log.info(f"Retrieved {len(zones)} availability zones: {zones}.")
        except ClientError as err:
            log.error("Failed to retrieve availability zones.")
            log.error(f"Full error:\n\t{err}")
        else:
            return zones


    def create_autoscaling_group(self, group_size: int) -> List[str]:
        """
        Creates an EC2 Auto Scaling group with the specified size.

        :param group_size: The number of instances to set for the minimum and maximum in
                           the group.
        :return: The list of Availability Zones specified for the group.
        """
        try:
            zones = self.get_availability_zones()
            self.autoscaling_client.create_auto_scaling_group(
                AutoScalingGroupName=self.group_name,
                AvailabilityZones=zones,
                LaunchTemplate={
                    "LaunchTemplateName": self.launch_template_name,
                    "Version": "$Default",
                },
                MinSize=group_size,
                MaxSize=group_size,
            )
            log.info(
                f"Created EC2 Auto Scaling group {self.group_name} with availability zones {zones}."
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            if error_code == "AlreadyExists":
                log.info(
                    f"EC2 Auto Scaling group {self.group_name} already exists, nothing to do."
                )
            else:
                log.error(f"Failed to create EC2 Auto Scaling group {self.group_name}.")
                log.error(f"Full error:\n\t{err}")
        else:
            return zones


    def get_instances(self) -> List[str]:
        """
        Gets data about the instances in the EC2 Auto Scaling group.

        :return: A list of instance IDs in the Auto Scaling group.
        """
        try:
            as_response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[self.group_name]
            )
            instance_ids = [
                i["InstanceId"]
                for i in as_response["AutoScalingGroups"][0]["Instances"]
            ]
            log.info(
                f"Retrieved {len(instance_ids)} instances for Auto Scaling group {self.group_name}."
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to retrieve instances for Auto Scaling group {self.group_name}."
            )
            if error_code == "ResourceNotFound":
                log.error(f"The Auto Scaling group '{self.group_name}' does not exist.")
            log.error(f"Full error:\n\t{err}")
        else:
            return instance_ids


    def terminate_instance(self, instance_id: str, decrementsetting=False) -> None:
        """
        Terminates an instance in an EC2 Auto Scaling group. After an instance is
        terminated, it can no longer be accessed.

        :param instance_id: The ID of the instance to terminate.
        :param decrementsetting: If True, do not replace terminated instances.
        """
        try:
            self.autoscaling_client.terminate_instance_in_auto_scaling_group(
                InstanceId=instance_id,
                ShouldDecrementDesiredCapacity=decrementsetting,
            )
            log.info("Terminated instance %s.", instance_id)

            # Adding a waiter to ensure the instance is terminated
            waiter = self.ec2_client.get_waiter("instance_terminated")
            log.info("Waiting for instance %s to be terminated...", instance_id)
            waiter.wait(InstanceIds=[instance_id])
            log.info(
                f"Instance '{instance_id}' has been terminated and will be replaced."
            )

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to terminate instance '{instance_id}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to terminate the instance again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            log.error(f"Full error:\n\t{err}")

    def attach_load_balancer_target_group(
        self, lb_target_group: Dict[str, Any]
    ) -> None:
        """
        Attaches an Elastic Load Balancing (ELB) target group to this EC2 Auto Scaling group.
        The target group specifies how the load balancer forwards requests to the instances
        in the group.

        :param lb_target_group: Data about the ELB target group to attach.
        """
        try:
            self.autoscaling_client.attach_load_balancer_target_groups(
                AutoScalingGroupName=self.group_name,
                TargetGroupARNs=[lb_target_group["TargetGroupArn"]],
            )
            log.info(
                "Attached load balancer target group %s to auto scaling group %s.",
                lb_target_group["TargetGroupName"],
                self.group_name,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to attach load balancer target group '{lb_target_group['TargetGroupName']}'."
            )
            if error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the resource."
                )
            elif error_code == "ServiceLinkedRoleFailure":
                log.error(
                    "The operation failed because the service-linked role is not ready or does not exist. "
                    "Check that the service-linked role exists and is correctly configured."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_autoscaling_group(self, group_name: str) -> None:
        """
        Terminates all instances in the group, then deletes the EC2 Auto Scaling group.

        :param group_name: The name of the group to delete.
        """
        try:
            response = self.autoscaling_client.describe_auto_scaling_groups(
                AutoScalingGroupNames=[group_name]
            )
            groups = response.get("AutoScalingGroups", [])
            if len(groups) > 0:
                self.autoscaling_client.update_auto_scaling_group(
                    AutoScalingGroupName=group_name, MinSize=0
                )
                instance_ids = [inst["InstanceId"] for inst in groups[0]["Instances"]]
                for inst_id in instance_ids:
                    self.terminate_instance(inst_id)

                # Wait for all instances to be terminated
                if instance_ids:
                    waiter = self.ec2_client.get_waiter("instance_terminated")
                    log.info("Waiting for all instances to be terminated...")
                    waiter.wait(InstanceIds=instance_ids)
                    log.info("All instances have been terminated.")
            else:
                log.info(f"No groups found named '{group_name}'! Nothing to do.")
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete Auto Scaling group '{group_name}'.")
            if error_code == "ScalingActivityInProgressFault":
                log.error(
                    "Scaling activity is currently in progress. "
                    "Wait for the scaling activity to complete before attempting to delete the group again."
                )
            elif error_code == "ResourceContentionFault":
                log.error(
                    "The request failed due to a resource contention issue. "
                    "Ensure that no conflicting operations are being performed on the group."
                )
            log.error(f"Full error:\n\t{err}")


    def get_default_vpc(self) -> Dict[str, Any]:
        """
        Gets the default VPC for the account.

        :return: Data about the default VPC.
        """
        try:
            response = self.ec2_client.describe_vpcs(
                Filters=[{"Name": "is-default", "Values": ["true"]}]
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error("Failed to retrieve the default VPC.")
            if error_code == "UnauthorizedOperation":
                log.error(
                    "You do not have the necessary permissions to describe VPCs. "
                    "Ensure that your AWS IAM user or role has the correct permissions."
                )
            elif error_code == "InvalidParameterValue":
                log.error(
                    "One or more parameters are invalid. Check the request parameters."
                )

            log.error(f"Full error:\n\t{err}")
        else:
            if "Vpcs" in response and response["Vpcs"]:
                log.info(f"Retrieved default VPC: {response['Vpcs'][0]['VpcId']}")
                return response["Vpcs"][0]
            else:
                pass


    def verify_inbound_port(
        self, vpc: Dict[str, Any], port: int, ip_address: str
    ) -> Tuple[Dict[str, Any], bool]:
        """
        Verify the default security group of the specified VPC allows ingress from this
        computer. This can be done by allowing ingress from this computer's IP
        address. In some situations, such as connecting from a corporate network, you
        must instead specify a prefix list ID. You can also temporarily open the port to
        any IP address while running this example. If you do, be sure to remove public
        access when you're done.

        :param vpc: The VPC used by this example.
        :param port: The port to verify.
        :param ip_address: This computer's IP address.
        :return: The default security group of the specified VPC, and a value that indicates
                 whether the specified port is open.
        """
        try:
            response = self.ec2_client.describe_security_groups(
                Filters=[
                    {"Name": "group-name", "Values": ["default"]},
                    {"Name": "vpc-id", "Values": [vpc["VpcId"]]},
                ]
            )
            sec_group = response["SecurityGroups"][0]
            port_is_open = False
            log.info(f"Found default security group {sec_group['GroupId']}.")

            for ip_perm in sec_group["IpPermissions"]:
                if ip_perm.get("FromPort", 0) == port:
                    log.info(f"Found inbound rule: {ip_perm}")
                    for ip_range in ip_perm["IpRanges"]:
                        cidr = ip_range.get("CidrIp", "")
                        if cidr.startswith(ip_address) or cidr == "0.0.0.0/0":
                            port_is_open = True
                    if ip_perm["PrefixListIds"]:
                        port_is_open = True
                    if not port_is_open:
                        log.info(
                            f"The inbound rule does not appear to be open to either this computer's IP "
                            f"address of {ip_address}, to all IP addresses (0.0.0.0/0), or to a prefix list ID."
                        )
                    else:
                        break
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to verify inbound rule for port {port} for VPC {vpc['VpcId']}."
            )
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    f"The specified VPC ID '{vpc['VpcId']}' does not exist. Please check the VPC ID."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return sec_group, port_is_open


    def open_inbound_port(self, sec_group_id: str, port: int, ip_address: str) -> None:
        """
        Add an ingress rule to the specified security group that allows access on the
        specified port from the specified IP address.

        :param sec_group_id: The ID of the security group to modify.
        :param port: The port to open.
        :param ip_address: The IP address that is granted access.
        """
        try:
            self.ec2_client.authorize_security_group_ingress(
                GroupId=sec_group_id,
                CidrIp=f"{ip_address}/32",
                FromPort=port,
                ToPort=port,
                IpProtocol="tcp",
            )
            log.info(
                "Authorized ingress to %s on port %s from %s.",
                sec_group_id,
                port,
                ip_address,
            )
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to authorize ingress to security group '{sec_group_id}' on port {port} from {ip_address}."
            )
            if error_code == "InvalidGroupId.Malformed":
                log.error(
                    "The security group ID is malformed. "
                    "Please verify that the security group ID is correct."
                )
            elif error_code == "InvalidPermission.Duplicate":
                log.error(
                    "The specified rule already exists in the security group. "
                    "Check the existing rules for this security group."
                )
            log.error(f"Full error:\n\t{err}")


    def get_subnets(self, vpc_id: str, zones: List[str] = None) -> List[Dict[str, Any]]:
        """
        Gets the default subnets in a VPC for a specified list of Availability Zones.

        :param vpc_id: The ID of the VPC to look up.
        :param zones: The list of Availability Zones to look up.
        :return: The list of subnets found.
        """
        # Ensure that 'zones' is a list, even if None is passed
        if zones is None:
            zones = []
        try:
            paginator = self.ec2_client.get_paginator("describe_subnets")
            page_iterator = paginator.paginate(
                Filters=[
                    {"Name": "vpc-id", "Values": [vpc_id]},
                    {"Name": "availability-zone", "Values": zones},
                    {"Name": "default-for-az", "Values": ["true"]},
                ]
            )

            subnets = []
            for page in page_iterator:
                subnets.extend(page["Subnets"])

            log.info("Found %s subnets for the specified zones.", len(subnets))
            return subnets
        except ClientError as err:
            log.error(
                f"Failed to retrieve subnets for VPC '{vpc_id}' in zones {zones}."
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "InvalidVpcID.NotFound":
                log.error(
                    "The specified VPC ID does not exist. "
                    "Please check the VPC ID and try again."
                )
            # Add more error-specific handling as needed
            log.error(f"Full error:\n\t{err}")
```
Membuat kelas yang menggabungkan tindakan Penyeimbangan Beban Elastis.  

```
class ElasticLoadBalancerWrapper:
    """Encapsulates Elastic Load Balancing (ELB) actions."""

    def __init__(self, elb_client: boto3.client):
        """
        Initializes the LoadBalancer class with the necessary parameters.
        """
        self.elb_client = elb_client


    def create_target_group(
        self, target_group_name: str, protocol: str, port: int, vpc_id: str
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing target group. The target group specifies how
        the load balancer forwards requests to instances in the group and how instance
        health is checked.

        To speed up this demo, the health check is configured with shortened times and
        lower thresholds. In production, you might want to decrease the sensitivity of
        your health checks to avoid unwanted failures.

        :param target_group_name: The name of the target group to create.
        :param protocol: The protocol to use to forward requests, such as 'HTTP'.
        :param port: The port to use to forward requests, such as 80.
        :param vpc_id: The ID of the VPC in which the load balancer exists.
        :return: Data about the newly created target group.
        """
        try:
            response = self.elb_client.create_target_group(
                Name=target_group_name,
                Protocol=protocol,
                Port=port,
                HealthCheckPath="/healthcheck",
                HealthCheckIntervalSeconds=10,
                HealthCheckTimeoutSeconds=5,
                HealthyThresholdCount=2,
                UnhealthyThresholdCount=2,
                VpcId=vpc_id,
            )
            target_group = response["TargetGroups"][0]
            log.info(f"Created load balancing target group '{target_group_name}'.")
            return target_group
        except ClientError as err:
            log.error(
                f"Couldn't create load balancing target group '{target_group_name}'."
            )
            error_code = err.response["Error"]["Code"]

            if error_code == "DuplicateTargetGroupName":
                log.error(
                    f"Target group name {target_group_name} already exists. "
                    "Check if the target group already exists."
                    "Consider using a different name or deleting the existing target group if appropriate."
                )
            elif error_code == "TooManyTargetGroups":
                log.error(
                    "Too many target groups exist in the account. "
                    "Consider deleting unused target groups to create space for new ones."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_target_group(self, target_group_name) -> None:
        """
        Deletes the target group.
        """
        try:
            # Describe the target group to get its ARN
            response = self.elb_client.describe_target_groups(Names=[target_group_name])
            tg_arn = response["TargetGroups"][0]["TargetGroupArn"]

            # Delete the target group
            self.elb_client.delete_target_group(TargetGroupArn=tg_arn)
            log.info("Deleted load balancing target group %s.", target_group_name)

            # Use a custom waiter to wait until the target group is no longer available
            self.wait_for_target_group_deletion(self.elb_client, tg_arn)
            log.info("Target group %s successfully deleted.", target_group_name)

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to delete target group '{target_group_name}'.")
            if error_code == "TargetGroupNotFound":
                log.error(
                    "Load balancer target group either already deleted or never existed. "
                    "Verify the name and check that the resource exists in the AWS Console."
                )
            elif error_code == "ResourceInUseException":
                log.error(
                    "Target group still in use by another resource. "
                    "Ensure that the target group is no longer associated with any load balancers or resources.",
                )
            log.error(f"Full error:\n\t{err}")

    def wait_for_target_group_deletion(
        self, elb_client, target_group_arn, max_attempts=10, delay=30
    ):
        for attempt in range(max_attempts):
            try:
                elb_client.describe_target_groups(TargetGroupArns=[target_group_arn])
                print(
                    f"Attempt {attempt + 1}: Target group {target_group_arn} still exists."
                )
            except ClientError as e:
                if e.response["Error"]["Code"] == "TargetGroupNotFound":
                    print(
                        f"Target group {target_group_arn} has been successfully deleted."
                    )
                    return
                else:
                    raise
            time.sleep(delay)
        raise TimeoutError(
            f"Target group {target_group_arn} was not deleted after {max_attempts * delay} seconds."
        )


    def create_load_balancer(
        self,
        load_balancer_name: str,
        subnet_ids: List[str],
    ) -> Dict[str, Any]:
        """
        Creates an Elastic Load Balancing load balancer that uses the specified subnets
        and forwards requests to the specified target group.

        :param load_balancer_name: The name of the load balancer to create.
        :param subnet_ids: A list of subnets to associate with the load balancer.
        :return: Data about the newly created load balancer.
        """
        try:
            response = self.elb_client.create_load_balancer(
                Name=load_balancer_name, Subnets=subnet_ids
            )
            load_balancer = response["LoadBalancers"][0]
            log.info(f"Created load balancer '{load_balancer_name}'.")

            waiter = self.elb_client.get_waiter("load_balancer_available")
            log.info(
                f"Waiting for load balancer '{load_balancer_name}' to be available..."
            )
            waiter.wait(Names=[load_balancer_name])
            log.info(f"Load balancer '{load_balancer_name}' is now available!")

        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to create load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "DuplicateLoadBalancerNameException":
                log.error(
                    f"A load balancer with the name '{load_balancer_name}' already exists. "
                    "Load balancer names must be unique within the AWS region. "
                    "Please choose a different name and try again."
                )
            if error_code == "TooManyLoadBalancersException":
                log.error(
                    "The maximum number of load balancers has been reached in this account and region. "
                    "You can delete unused load balancers or request an increase in the service quota from AWS Support."
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return load_balancer


    def create_listener(
        self,
        load_balancer_name: str,
        target_group: Dict[str, Any],
    ) -> Dict[str, Any]:
        """
        Creates a listener for the specified load balancer that forwards requests to the
        specified target group.

        :param load_balancer_name: The name of the load balancer to create a listener for.
        :param target_group: An existing target group that is added as a listener to the
                             load balancer.
        :return: Data about the newly created listener.
        """
        try:
            # Retrieve the load balancer ARN
            load_balancer_response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            load_balancer_arn = load_balancer_response["LoadBalancers"][0][
                "LoadBalancerArn"
            ]

            # Create the listener
            response = self.elb_client.create_listener(
                LoadBalancerArn=load_balancer_arn,
                Protocol=target_group["Protocol"],
                Port=target_group["Port"],
                DefaultActions=[
                    {
                        "Type": "forward",
                        "TargetGroupArn": target_group["TargetGroupArn"],
                    }
                ],
            )
            log.info(
                f"Created listener to forward traffic from load balancer '{load_balancer_name}' to target group '{target_group['TargetGroupName']}'."
            )
            return response["Listeners"][0]
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Failed to add a listener on '{load_balancer_name}' for target group '{target_group['TargetGroupName']}'."
            )

            if error_code == "ListenerNotFoundException":
                log.error(
                    f"The listener could not be found for the load balancer '{load_balancer_name}'. "
                    "Please check the load balancer name and target group configuration."
                )
            if error_code == "InvalidConfigurationRequestException":
                log.error(
                    f"The configuration provided for the listener on load balancer '{load_balancer_name}' is invalid. "
                    "Please review the provided protocol, port, and target group settings."
                )
            log.error(f"Full error:\n\t{err}")


    def delete_load_balancer(self, load_balancer_name) -> None:
        """
        Deletes a load balancer.

        :param load_balancer_name: The name of the load balancer to delete.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            lb_arn = response["LoadBalancers"][0]["LoadBalancerArn"]
            self.elb_client.delete_load_balancer(LoadBalancerArn=lb_arn)
            log.info("Deleted load balancer %s.", load_balancer_name)
            waiter = self.elb_client.get_waiter("load_balancers_deleted")
            log.info("Waiting for load balancer to be deleted...")
            waiter.wait(Names=[load_balancer_name])
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(
                f"Couldn't delete load balancer '{load_balancer_name}'. Error code: {error_code}, Message: {err.response['Error']['Message']}"
            )

            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    f"The load balancer '{load_balancer_name}' does not exist. "
                    "Please check the name and try again."
                )
            log.error(f"Full error:\n\t{err}")


    def get_endpoint(self, load_balancer_name) -> str:
        """
        Gets the HTTP endpoint of the load balancer.

        :return: The endpoint.
        """
        try:
            response = self.elb_client.describe_load_balancers(
                Names=[load_balancer_name]
            )
            return response["LoadBalancers"][0]["DNSName"]
        except ClientError as err:
            log.error(
                f"Couldn't get the endpoint for load balancer {load_balancer_name}"
            )
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Verify load balancer name and ensure it exists in the AWS console."
                )
            log.error(f"Full error:\n\t{err}")

    @staticmethod
    def verify_load_balancer_endpoint(endpoint) -> bool:
        """
        Verify this computer can successfully send a GET request to the load balancer endpoint.

        :param endpoint: The endpoint to verify.
        :return: True if the GET request is successful, False otherwise.
        """
        retries = 3
        verified = False
        while not verified and retries > 0:
            try:
                lb_response = requests.get(f"http://{endpoint}")
                log.info(
                    "Got response %s from load balancer endpoint.",
                    lb_response.status_code,
                )
                if lb_response.status_code == 200:
                    verified = True
                else:
                    retries = 0
            except requests.exceptions.ConnectionError:
                log.info(
                    "Got connection error from load balancer endpoint, retrying..."
                )
                retries -= 1
                time.sleep(10)
        return verified

    def check_target_health(self, target_group_name: str) -> List[Dict[str, Any]]:
        """
        Checks the health of the instances in the target group.

        :return: The health status of the target group.
        """
        try:
            tg_response = self.elb_client.describe_target_groups(
                Names=[target_group_name]
            )
            health_response = self.elb_client.describe_target_health(
                TargetGroupArn=tg_response["TargetGroups"][0]["TargetGroupArn"]
            )
        except ClientError as err:
            log.error(f"Couldn't check health of {target_group_name} target(s).")
            error_code = err.response["Error"]["Code"]
            if error_code == "LoadBalancerNotFoundException":
                log.error(
                    "Load balancer associated with the target group was not found. "
                    "Ensure the load balancer exists, is in the correct AWS region, and "
                    "that you have the necessary permissions to access it.",
                )
            elif error_code == "TargetGroupNotFoundException":
                log.error(
                    "Target group was not found. "
                    "Verify the target group name, check that it exists in the correct region, "
                    "and ensure it has not been deleted or created in a different account.",
                )
            log.error(f"Full error:\n\t{err}")
        else:
            return health_response["TargetHealthDescriptions"]
```
Membuat kelas yang menggunakan DynamoDB untuk menyimulasikan layanan yang direkomendasikan.  

```
class RecommendationService:
    """
    Encapsulates a DynamoDB table to use as a service that recommends books, movies,
    and songs.
    """

    def __init__(self, table_name: str, dynamodb_client: boto3.client):
        """
        Initializes the RecommendationService class with the necessary parameters.

        :param table_name: The name of the DynamoDB recommendations table.
        :param dynamodb_client: A Boto3 DynamoDB client.
        """
        self.table_name = table_name
        self.dynamodb_client = dynamodb_client

    def create(self) -> Dict[str, Any]:
        """
        Creates a DynamoDB table to use as a recommendation service. The table has a
        hash key named 'MediaType' that defines the type of media recommended, such as
        Book or Movie, and a range key named 'ItemId' that, combined with the MediaType,
        forms a unique identifier for the recommended item.

        :return: Data about the newly created table.
        :raises RecommendationServiceError: If the table creation fails.
        """
        try:
            response = self.dynamodb_client.create_table(
                TableName=self.table_name,
                AttributeDefinitions=[
                    {"AttributeName": "MediaType", "AttributeType": "S"},
                    {"AttributeName": "ItemId", "AttributeType": "N"},
                ],
                KeySchema=[
                    {"AttributeName": "MediaType", "KeyType": "HASH"},
                    {"AttributeName": "ItemId", "KeyType": "RANGE"},
                ],
                ProvisionedThroughput={"ReadCapacityUnits": 5, "WriteCapacityUnits": 5},
            )
            log.info("Creating table %s...", self.table_name)
            waiter = self.dynamodb_client.get_waiter("table_exists")
            waiter.wait(TableName=self.table_name)
            log.info("Table %s created.", self.table_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceInUseException":
                log.info("Table %s exists, nothing to be done.", self.table_name)
            else:
                raise RecommendationServiceError(
                    self.table_name, f"ClientError when creating table: {err}."
                )
        else:
            return response

    def populate(self, data_file: str) -> None:
        """
        Populates the recommendations table from a JSON file.

        :param data_file: The path to the data file.
        :raises RecommendationServiceError: If the table population fails.
        """
        try:
            with open(data_file) as data:
                items = json.load(data)
            batch = [{"PutRequest": {"Item": item}} for item in items]
            self.dynamodb_client.batch_write_item(RequestItems={self.table_name: batch})
            log.info(
                "Populated table %s with items from %s.", self.table_name, data_file
            )
        except ClientError as err:
            raise RecommendationServiceError(
                self.table_name, f"Couldn't populate table from {data_file}: {err}"
            )

    def destroy(self) -> None:
        """
        Deletes the recommendations table.

        :raises RecommendationServiceError: If the table deletion fails.
        """
        try:
            self.dynamodb_client.delete_table(TableName=self.table_name)
            log.info("Deleting table %s...", self.table_name)
            waiter = self.dynamodb_client.get_waiter("table_not_exists")
            waiter.wait(TableName=self.table_name)
            log.info("Table %s deleted.", self.table_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                log.info("Table %s does not exist, nothing to do.", self.table_name)
            else:
                raise RecommendationServiceError(
                    self.table_name, f"ClientError when deleting table: {err}."
                )
```
Membuat kelas yang mengabungkan tindakan Systems Manager.  

```
class ParameterHelper:
    """
    Encapsulates Systems Manager parameters. This example uses these parameters to drive
    the demonstration of resilient architecture, such as failure of a dependency or
    how the service responds to a health check.
    """

    table: str = "doc-example-resilient-architecture-table"
    failure_response: str = "doc-example-resilient-architecture-failure-response"
    health_check: str = "doc-example-resilient-architecture-health-check"

    def __init__(self, table_name: str, ssm_client: boto3.client):
        """
        Initializes the ParameterHelper class with the necessary parameters.

        :param table_name: The name of the DynamoDB table that is used as a recommendation
                           service.
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.table_name = table_name

    def reset(self) -> None:
        """
        Resets the Systems Manager parameters to starting values for the demo.
        These are the name of the DynamoDB recommendation table, no response when a
        dependency fails, and shallow health checks.
        """
        self.put(self.table, self.table_name)
        self.put(self.failure_response, "none")
        self.put(self.health_check, "shallow")

    def put(self, name: str, value: str) -> None:
        """
        Sets the value of a named Systems Manager parameter.

        :param name: The name of the parameter.
        :param value: The new value of the parameter.
        :raises ParameterHelperError: If the parameter value cannot be set.
        """
        try:
            self.ssm_client.put_parameter(
                Name=name, Value=value, Overwrite=True, Type="String"
            )
            log.info("Setting parameter %s to '%s'.", name, value)
        except ClientError as err:
            error_code = err.response["Error"]["Code"]
            log.error(f"Failed to set parameter {name}.")
            if error_code == "ParameterLimitExceeded":
                log.error(
                    "The parameter limit has been exceeded. "
                    "Consider deleting unused parameters or request a limit increase."
                )
            elif error_code == "ParameterAlreadyExists":
                log.error(
                    "The parameter already exists and overwrite is set to False. "
                    "Use Overwrite=True to update the parameter."
                )
            log.error(f"Full error:\n\t{err}")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Python (Boto3)*.
  + [AttachLoadBalancerTargetGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/AttachLoadBalancerTargetGroups)
  + [CreateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/CreateAutoScalingGroup)
  + [CreateInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateInstanceProfile)
  + [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateLaunchTemplate)
  + [CreateListener](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateListener)
  + [CreateLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateLoadBalancer)
  + [CreateTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/CreateTargetGroup)
  + [DeleteAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DeleteAutoScalingGroup)
  + [DeleteInstanceProfile](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteInstanceProfile)
  + [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteLaunchTemplate)
  + [DeleteLoadBalancer](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteLoadBalancer)
  + [DeleteTargetGroup](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DeleteTargetGroup)
  + [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/DescribeAutoScalingGroups)
  + [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeAvailabilityZones)
  + [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations)
  + [DescribeInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstances)
  + [DescribeLoadBalancers](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeLoadBalancers)
  + [DescribeSubnets](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSubnets)
  + [DescribeTargetGroups](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetGroups)
  + [DescribeTargetHealth](https://docs.aws.amazon.com/goto/boto3/elasticloadbalancingv2-2015-12-01/DescribeTargetHealth)
  + [DescribeVpcs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeVpcs)
  + [RebootInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RebootInstances)
  + [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation)
  + [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/TerminateInstanceInAutoScalingGroup)
  + [UpdateAutoScalingGroup](https://docs.aws.amazon.com/goto/boto3/autoscaling-2011-01-01/UpdateAutoScalingGroup)

### Buat pengguna read-only dan read-write
<a name="iam_Scenario_UserPolicies_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan melampirkan kebijakan kepada mereka. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat dua pengguna IAM.
+ Lampirkan kebijakan bagi satu pengguna untuk mendapatkan dan meletakkan objek di bucket Amazon S3.
+ Lampirkan kebijakan bagi pengguna kedua untuk mendapatkan objek dari bucket.
+ Dapatkan izin berbeda ke bucket berdasarkan kredensyal pengguna.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Buat fungsi yang membungkus tindakan pengguna IAM.  

```
import logging
import time

import boto3
from botocore.exceptions import ClientError

import access_key_wrapper
import policy_wrapper

logger = logging.getLogger(__name__)
iam = boto3.resource("iam")

def create_user(user_name):
    """
    Creates a user. By default, a user has no permissions or access keys.

    :param user_name: The name of the user.
    :return: The newly created user.
    """
    try:
        user = iam.create_user(UserName=user_name)
        logger.info("Created user %s.", user.name)
    except ClientError:
        logger.exception("Couldn't create user %s.", user_name)
        raise
    else:
        return user



def update_user(user_name, new_user_name):
    """
    Updates a user's name.

    :param user_name: The current name of the user to update.
    :param new_user_name: The new name to assign to the user.
    :return: The updated user.
    """
    try:
        user = iam.User(user_name)
        user.update(NewUserName=new_user_name)
        logger.info("Renamed %s to %s.", user_name, new_user_name)
    except ClientError:
        logger.exception("Couldn't update name for user %s.", user_name)
        raise
    return user



def list_users():
    """
    Lists the users in the current account.

    :return: The list of users.
    """
    try:
        users = list(iam.users.all())
        logger.info("Got %s users.", len(users))
    except ClientError:
        logger.exception("Couldn't get users.")
        raise
    else:
        return users



def delete_user(user_name):
    """
    Deletes a user. Before a user can be deleted, all associated resources,
    such as access keys and policies, must be deleted or detached.

    :param user_name: The name of the user.
    """
    try:
        iam.User(user_name).delete()
        logger.info("Deleted user %s.", user_name)
    except ClientError:
        logger.exception("Couldn't delete user %s.", user_name)
        raise



def attach_policy(user_name, policy_arn):
    """
    Attaches a policy to a user.

    :param user_name: The name of the user.
    :param policy_arn: The Amazon Resource Name (ARN) of the policy.
    """
    try:
        iam.User(user_name).attach_policy(PolicyArn=policy_arn)
        logger.info("Attached policy %s to user %s.", policy_arn, user_name)
    except ClientError:
        logger.exception("Couldn't attach policy %s to user %s.", policy_arn, user_name)
        raise



def detach_policy(user_name, policy_arn):
    """
    Detaches a policy from a user.

    :param user_name: The name of the user.
    :param policy_arn: The Amazon Resource Name (ARN) of the policy.
    """
    try:
        iam.User(user_name).detach_policy(PolicyArn=policy_arn)
        logger.info("Detached policy %s from user %s.", policy_arn, user_name)
    except ClientError:
        logger.exception(
            "Couldn't detach policy %s from user %s.", policy_arn, user_name
        )
        raise
```
Buat fungsi yang membungkus tindakan kebijakan IAM.  

```
import json
import logging
import operator
import pprint
import time

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)
iam = boto3.resource("iam")

def create_policy(name, description, actions, resource_arn):
    """
    Creates a policy that contains a single statement.

    :param name: The name of the policy to create.
    :param description: The description of the policy.
    :param actions: The actions allowed by the policy. These typically take the
                    form of service:action, such as s3:PutObject.
    :param resource_arn: The Amazon Resource Name (ARN) of the resource this policy
                         applies to. This ARN can contain wildcards, such as
                         'arn:aws:s3:::amzn-s3-demo-bucket/*' to allow actions on all objects
                         in the bucket named 'amzn-s3-demo-bucket'.
    :return: The newly created policy.
    """
    policy_doc = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [{"Effect": "Allow", "Action": actions, "Resource": resource_arn}],
    }
    try:
        policy = iam.create_policy(
            PolicyName=name,
            Description=description,
            PolicyDocument=json.dumps(policy_doc),
        )
        logger.info("Created policy %s.", policy.arn)
    except ClientError:
        logger.exception("Couldn't create policy %s.", name)
        raise
    else:
        return policy



def delete_policy(policy_arn):
    """
    Deletes a policy.

    :param policy_arn: The ARN of the policy to delete.
    """
    try:
        iam.Policy(policy_arn).delete()
        logger.info("Deleted policy %s.", policy_arn)
    except ClientError:
        logger.exception("Couldn't delete policy %s.", policy_arn)
        raise
```
Buat fungsi yang membungkus tindakan kunci akses IAM.  

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

iam = boto3.resource("iam")

def create_key(user_name):
    """
    Creates an access key for the specified user. Each user can have a
    maximum of two keys.

    :param user_name: The name of the user.
    :return: The created access key.
    """
    try:
        key_pair = iam.User(user_name).create_access_key_pair()
        logger.info(
            "Created access key pair for %s. Key ID is %s.",
            key_pair.user_name,
            key_pair.id,
        )
    except ClientError:
        logger.exception("Couldn't create access key pair for %s.", user_name)
        raise
    else:
        return key_pair



def delete_key(user_name, key_id):
    """
    Deletes a user's access key.

    :param user_name: The user that owns the key.
    :param key_id: The ID of the key to delete.
    """

    try:
        key = iam.AccessKey(user_name, key_id)
        key.delete()
        logger.info("Deleted access key %s for %s.", key.id, key.user_name)
    except ClientError:
        logger.exception("Couldn't delete key %s for %s", key_id, user_name)
        raise
```
Gunakan fungsi pembungkus untuk membuat pengguna dengan kebijakan berbeda dan menggunakan kredensialnya untuk mengakses bucket Amazon S3.  

```
def usage_demo():
    """
    Shows how to manage users, keys, and policies.
    This demonstration creates two users: one user who can put and get objects in an
    Amazon S3 bucket, and another user who can only get objects from the bucket.
    The demo then shows how the users can perform only the actions they are permitted
    to perform.
    """
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    print("-" * 88)
    print("Welcome to the AWS Identity and Account Management user demo.")
    print("-" * 88)
    print(
        "Users can have policies and roles attached to grant them specific "
        "permissions."
    )
    s3 = boto3.resource("s3")
    bucket = s3.create_bucket(
        Bucket=f"demo-iam-bucket-{time.time_ns()}",
        CreateBucketConfiguration={
            "LocationConstraint": s3.meta.client.meta.region_name
        },
    )
    print(f"Created an Amazon S3 bucket named {bucket.name}.")
    user_read_writer = create_user("demo-iam-read-writer")
    user_reader = create_user("demo-iam-reader")
    print(f"Created two IAM users: {user_read_writer.name} and {user_reader.name}")
    update_user(user_read_writer.name, "demo-iam-creator")
    update_user(user_reader.name, "demo-iam-getter")
    users = list_users()
    user_read_writer = next(
        user for user in users if user.user_id == user_read_writer.user_id
    )
    user_reader = next(user for user in users if user.user_id == user_reader.user_id)
    print(
        f"Changed the names of the users to {user_read_writer.name} "
        f"and {user_reader.name}."
    )

    read_write_policy = policy_wrapper.create_policy(
        "demo-iam-read-write-policy",
        "Grants rights to create and get an object in the demo bucket.",
        ["s3:PutObject", "s3:GetObject"],
        f"arn:aws:s3:::{bucket.name}/*",
    )
    print(
        f"Created policy {read_write_policy.policy_name} with ARN: {read_write_policy.arn}"
    )
    print(read_write_policy.description)
    read_policy = policy_wrapper.create_policy(
        "demo-iam-read-policy",
        "Grants rights to get an object from the demo bucket.",
        "s3:GetObject",
        f"arn:aws:s3:::{bucket.name}/*",
    )
    print(f"Created policy {read_policy.policy_name} with ARN: {read_policy.arn}")
    print(read_policy.description)
    attach_policy(user_read_writer.name, read_write_policy.arn)
    print(f"Attached {read_write_policy.policy_name} to {user_read_writer.name}.")
    attach_policy(user_reader.name, read_policy.arn)
    print(f"Attached {read_policy.policy_name} to {user_reader.name}.")

    user_read_writer_key = access_key_wrapper.create_key(user_read_writer.name)
    print(f"Created access key pair for {user_read_writer.name}.")
    user_reader_key = access_key_wrapper.create_key(user_reader.name)
    print(f"Created access key pair for {user_reader.name}.")

    s3_read_writer_resource = boto3.resource(
        "s3",
        aws_access_key_id=user_read_writer_key.id,
        aws_secret_access_key=user_read_writer_key.secret,
    )
    demo_object_key = f"object-{time.time_ns()}"
    demo_object = None
    while demo_object is None:
        try:
            demo_object = s3_read_writer_resource.Bucket(bucket.name).put_object(
                Key=demo_object_key, Body=b"AWS IAM demo object content!"
            )
        except ClientError as error:
            if error.response["Error"]["Code"] == "InvalidAccessKeyId":
                print("Access key not yet available. Waiting...")
                time.sleep(1)
            else:
                raise
    print(
        f"Put {demo_object_key} into {bucket.name} using "
        f"{user_read_writer.name}'s credentials."
    )

    read_writer_object = s3_read_writer_resource.Bucket(bucket.name).Object(
        demo_object_key
    )
    read_writer_content = read_writer_object.get()["Body"].read()
    print(f"Got object {read_writer_object.key} using read-writer user's credentials.")
    print(f"Object content: {read_writer_content}")

    s3_reader_resource = boto3.resource(
        "s3",
        aws_access_key_id=user_reader_key.id,
        aws_secret_access_key=user_reader_key.secret,
    )
    demo_content = None
    while demo_content is None:
        try:
            demo_object = s3_reader_resource.Bucket(bucket.name).Object(demo_object_key)
            demo_content = demo_object.get()["Body"].read()
            print(f"Got object {demo_object.key} using reader user's credentials.")
            print(f"Object content: {demo_content}")
        except ClientError as error:
            if error.response["Error"]["Code"] == "InvalidAccessKeyId":
                print("Access key not yet available. Waiting...")
                time.sleep(1)
            else:
                raise

    try:
        demo_object.delete()
    except ClientError as error:
        if error.response["Error"]["Code"] == "AccessDenied":
            print("-" * 88)
            print(
                "Tried to delete the object using the reader user's credentials. "
                "Got expected AccessDenied error because the reader is not "
                "allowed to delete objects."
            )
            print("-" * 88)

    access_key_wrapper.delete_key(user_reader.name, user_reader_key.id)
    detach_policy(user_reader.name, read_policy.arn)
    policy_wrapper.delete_policy(read_policy.arn)
    delete_user(user_reader.name)
    print(f"Deleted keys, detached and deleted policy, and deleted {user_reader.name}.")

    access_key_wrapper.delete_key(user_read_writer.name, user_read_writer_key.id)
    detach_policy(user_read_writer.name, read_write_policy.arn)
    policy_wrapper.delete_policy(read_write_policy.arn)
    delete_user(user_read_writer.name)
    print(
        f"Deleted keys, detached and deleted policy, and deleted {user_read_writer.name}."
    )

    bucket.objects.delete()
    bucket.delete()
    print(f"Emptied and deleted {bucket.name}.")
    print("Thanks for watching!")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [AttachUserPolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/AttachUserPolicy)
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateAccessKey)
  + [CreatePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreatePolicy)
  + [CreateUser](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateUser)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteAccessKey)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeletePolicy)
  + [DeleteUser](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteUser)
  + [DetachUserPolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DetachUserPolicy)
  + [ListUsers](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListUsers)
  + [UpdateUser](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/UpdateUser)

### Kelola kunci akses
<a name="iam_Scenario_ManageAccessKeys_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengelola kunci akses. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat dan daftar kunci akses.
+ Cari tahu kapan dan bagaimana kunci akses terakhir digunakan.
+ Perbarui dan hapus kunci akses.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Buat fungsi yang membungkus tindakan kunci akses IAM.  

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

iam = boto3.resource("iam")

def list_keys(user_name):
    """
    Lists the keys owned by the specified user.

    :param user_name: The name of the user.
    :return: The list of keys owned by the user.
    """
    try:
        keys = list(iam.User(user_name).access_keys.all())
        logger.info("Got %s access keys for %s.", len(keys), user_name)
    except ClientError:
        logger.exception("Couldn't get access keys for %s.", user_name)
        raise
    else:
        return keys



def create_key(user_name):
    """
    Creates an access key for the specified user. Each user can have a
    maximum of two keys.

    :param user_name: The name of the user.
    :return: The created access key.
    """
    try:
        key_pair = iam.User(user_name).create_access_key_pair()
        logger.info(
            "Created access key pair for %s. Key ID is %s.",
            key_pair.user_name,
            key_pair.id,
        )
    except ClientError:
        logger.exception("Couldn't create access key pair for %s.", user_name)
        raise
    else:
        return key_pair



def get_last_use(key_id):
    """
    Gets information about when and how a key was last used.

    :param key_id: The ID of the key to look up.
    :return: Information about the key's last use.
    """
    try:
        response = iam.meta.client.get_access_key_last_used(AccessKeyId=key_id)
        last_used_date = response["AccessKeyLastUsed"].get("LastUsedDate", None)
        last_service = response["AccessKeyLastUsed"].get("ServiceName", None)
        logger.info(
            "Key %s was last used by %s on %s to access %s.",
            key_id,
            response["UserName"],
            last_used_date,
            last_service,
        )
    except ClientError:
        logger.exception("Couldn't get last use of key %s.", key_id)
        raise
    else:
        return response



def update_key(user_name, key_id, activate):
    """
    Updates the status of a key.

    :param user_name: The user that owns the key.
    :param key_id: The ID of the key to update.
    :param activate: When True, the key is activated. Otherwise, the key is deactivated.
    """

    try:
        key = iam.User(user_name).AccessKey(key_id)
        if activate:
            key.activate()
        else:
            key.deactivate()
        logger.info("%s key %s.", "Activated" if activate else "Deactivated", key_id)
    except ClientError:
        logger.exception(
            "Couldn't %s key %s.", "Activate" if activate else "Deactivate", key_id
        )
        raise



def delete_key(user_name, key_id):
    """
    Deletes a user's access key.

    :param user_name: The user that owns the key.
    :param key_id: The ID of the key to delete.
    """

    try:
        key = iam.AccessKey(user_name, key_id)
        key.delete()
        logger.info("Deleted access key %s for %s.", key.id, key.user_name)
    except ClientError:
        logger.exception("Couldn't delete key %s for %s", key_id, user_name)
        raise
```
Gunakan fungsi pembungkus untuk melakukan tindakan kunci akses untuk pengguna saat ini.  

```
def usage_demo():
    """Shows how to create and manage access keys."""

    def print_keys():
        """Gets and prints the current keys for a user."""
        current_keys = list_keys(current_user_name)
        print("The current user's keys are now:")
        print(*[f"{key.id}: {key.status}" for key in current_keys], sep="\n")

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    print("-" * 88)
    print("Welcome to the AWS Identity and Account Management access key demo.")
    print("-" * 88)
    current_user_name = iam.CurrentUser().user_name
    print(
        f"This demo creates an access key for the current user "
        f"({current_user_name}), manipulates the key in a few ways, and then "
        f"deletes it."
    )
    all_keys = list_keys(current_user_name)
    if len(all_keys) == 2:
        print(
            "The current user already has the maximum of 2 access keys. To run "
            "this demo, either delete one of the access keys or use a user "
            "that has only 1 access key."
        )
    else:
        new_key = create_key(current_user_name)
        print(f"Created a new key with id {new_key.id} and secret {new_key.secret}.")
        print_keys()
        existing_key = next(key for key in all_keys if key != new_key)
        last_use = get_last_use(existing_key.id)["AccessKeyLastUsed"]
        print(
            f"Key {all_keys[0].id} was last used to access {last_use['ServiceName']} "
            f"on {last_use['LastUsedDate']}"
        )
        update_key(current_user_name, new_key.id, False)
        print(f"Key {new_key.id} is now deactivated.")
        print_keys()
        delete_key(current_user_name, new_key.id)
        print_keys()
        print("Thanks for watching!")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateAccessKey)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteAccessKey)
  + [GetAccessKeyLastUsed](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetAccessKeyLastUsed)
  + [ListAccessKeys](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListAccessKeys)
  + [UpdateAccessKey](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/UpdateAccessKey)

### Kelola kebijakan
<a name="iam_Scenario_PolicyManagement_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat dan daftar kebijakan.
+ Buat dan dapatkan versi kebijakan.
+ Kembalikan kebijakan ke versi sebelumnya.
+ Hapus kebijakan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Buat fungsi yang membungkus tindakan kebijakan IAM.  

```
import json
import logging
import operator
import pprint
import time

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)
iam = boto3.resource("iam")

def create_policy(name, description, actions, resource_arn):
    """
    Creates a policy that contains a single statement.

    :param name: The name of the policy to create.
    :param description: The description of the policy.
    :param actions: The actions allowed by the policy. These typically take the
                    form of service:action, such as s3:PutObject.
    :param resource_arn: The Amazon Resource Name (ARN) of the resource this policy
                         applies to. This ARN can contain wildcards, such as
                         'arn:aws:s3:::amzn-s3-demo-bucket/*' to allow actions on all objects
                         in the bucket named 'amzn-s3-demo-bucket'.
    :return: The newly created policy.
    """
    policy_doc = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [{"Effect": "Allow", "Action": actions, "Resource": resource_arn}],
    }
    try:
        policy = iam.create_policy(
            PolicyName=name,
            Description=description,
            PolicyDocument=json.dumps(policy_doc),
        )
        logger.info("Created policy %s.", policy.arn)
    except ClientError:
        logger.exception("Couldn't create policy %s.", name)
        raise
    else:
        return policy



def list_policies(scope):
    """
    Lists the policies in the current account.

    :param scope: Limits the kinds of policies that are returned. For example,
                  'Local' specifies that only locally managed policies are returned.
    :return: The list of policies.
    """
    try:
        policies = list(iam.policies.filter(Scope=scope))
        logger.info("Got %s policies in scope '%s'.", len(policies), scope)
    except ClientError:
        logger.exception("Couldn't get policies for scope '%s'.", scope)
        raise
    else:
        return policies



def create_policy_version(policy_arn, actions, resource_arn, set_as_default):
    """
    Creates a policy version. Policies can have up to five versions. The default
    version is the one that is used for all resources that reference the policy.

    :param policy_arn: The ARN of the policy.
    :param actions: The actions to allow in the policy version.
    :param resource_arn: The ARN of the resource this policy version applies to.
    :param set_as_default: When True, this policy version is set as the default
                           version for the policy. Otherwise, the default
                           is not changed.
    :return: The newly created policy version.
    """
    policy_doc = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [{"Effect": "Allow", "Action": actions, "Resource": resource_arn}],
    }
    try:
        policy = iam.Policy(policy_arn)
        policy_version = policy.create_version(
            PolicyDocument=json.dumps(policy_doc), SetAsDefault=set_as_default
        )
        logger.info(
            "Created policy version %s for policy %s.",
            policy_version.version_id,
            policy_version.arn,
        )
    except ClientError:
        logger.exception("Couldn't create a policy version for %s.", policy_arn)
        raise
    else:
        return policy_version



def get_default_policy_statement(policy_arn):
    """
    Gets the statement of the default version of the specified policy.

    :param policy_arn: The ARN of the policy to look up.
    :return: The statement of the default policy version.
    """
    try:
        policy = iam.Policy(policy_arn)
        # To get an attribute of a policy, the SDK first calls get_policy.
        policy_doc = policy.default_version.document
        policy_statement = policy_doc.get("Statement", None)
        logger.info("Got default policy doc for %s.", policy.policy_name)
        logger.info(policy_doc)
    except ClientError:
        logger.exception("Couldn't get default policy statement for %s.", policy_arn)
        raise
    else:
        return policy_statement



def rollback_policy_version(policy_arn):
    """
    Rolls back to the previous default policy, if it exists.

    1. Gets the list of policy versions in order by date.
    2. Finds the default.
    3. Makes the previous policy the default.
    4. Deletes the old default version.

    :param policy_arn: The ARN of the policy to roll back.
    :return: The default version of the policy after the rollback.
    """
    try:
        policy_versions = sorted(
            iam.Policy(policy_arn).versions.all(),
            key=operator.attrgetter("create_date"),
        )
        logger.info("Got %s versions for %s.", len(policy_versions), policy_arn)
    except ClientError:
        logger.exception("Couldn't get versions for %s.", policy_arn)
        raise

    default_version = None
    rollback_version = None
    try:
        while default_version is None:
            ver = policy_versions.pop()
            if ver.is_default_version:
                default_version = ver
        rollback_version = policy_versions.pop()
        rollback_version.set_as_default()
        logger.info("Set %s as the default version.", rollback_version.version_id)
        default_version.delete()
        logger.info("Deleted original default version %s.", default_version.version_id)
    except IndexError:
        if default_version is None:
            logger.warning("No default version found for %s.", policy_arn)
        elif rollback_version is None:
            logger.warning(
                "Default version %s found for %s, but no previous version exists, so "
                "nothing to roll back to.",
                default_version.version_id,
                policy_arn,
            )
    except ClientError:
        logger.exception("Couldn't roll back version for %s.", policy_arn)
        raise
    else:
        return rollback_version



def delete_policy(policy_arn):
    """
    Deletes a policy.

    :param policy_arn: The ARN of the policy to delete.
    """
    try:
        iam.Policy(policy_arn).delete()
        logger.info("Deleted policy %s.", policy_arn)
    except ClientError:
        logger.exception("Couldn't delete policy %s.", policy_arn)
        raise
```
Gunakan fungsi pembungkus untuk membuat kebijakan, memperbarui versi, dan mendapatkan informasi tentangnya.  

```
def usage_demo():
    """Shows how to use the policy functions."""
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    print("-" * 88)
    print("Welcome to the AWS Identity and Account Management policy demo.")
    print("-" * 88)
    print(
        "Policies let you define sets of permissions that can be attached to "
        "other IAM resources, like users and roles."
    )
    bucket_arn = f"arn:aws:s3:::amzn-s3-demo-bucket"
    policy = create_policy(
        "demo-iam-policy",
        "Policy for IAM demonstration.",
        ["s3:ListObjects"],
        bucket_arn,
    )
    print(f"Created policy {policy.policy_name}.")
    policies = list_policies("Local")
    print(f"Your account has {len(policies)} managed policies:")
    print(*[pol.policy_name for pol in policies], sep=", ")
    time.sleep(1)
    policy_version = create_policy_version(
        policy.arn, ["s3:PutObject"], bucket_arn, True
    )
    print(
        f"Added policy version {policy_version.version_id} to policy "
        f"{policy.policy_name}."
    )
    default_statement = get_default_policy_statement(policy.arn)
    print(f"The default policy statement for {policy.policy_name} is:")
    pprint.pprint(default_statement)
    rollback_version = rollback_policy_version(policy.arn)
    print(
        f"Rolled back to version {rollback_version.version_id} for "
        f"{policy.policy_name}."
    )
    default_statement = get_default_policy_statement(policy.arn)
    print(f"The default policy statement for {policy.policy_name} is now:")
    pprint.pprint(default_statement)
    delete_policy(policy.arn)
    print(f"Deleted policy {policy.policy_name}.")
    print("Thanks for watching!")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreatePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreatePolicy)
  + [CreatePolicyVersion](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreatePolicyVersion)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeletePolicy)
  + [DeletePolicyVersion](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeletePolicyVersion)
  + [GetPolicyVersion](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetPolicyVersion)
  + [ListPolicies](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListPolicies)
  + [ListPolicyVersions](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListPolicyVersions)
  + [SetDefaultPolicyVersion](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/SetDefaultPolicyVersion)

### Kelola peran
<a name="iam_Scenario_RoleManagement_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM.
+ Lampirkan dan lepaskan kebijakan untuk suatu peran.
+ Hapus peran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Buat fungsi yang membungkus tindakan peran IAM.  

```
import json
import logging
import pprint

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)
iam = boto3.resource("iam")

def create_role(role_name, allowed_services):
    """
    Creates a role that lets a list of specified services assume the role.

    :param role_name: The name of the role.
    :param allowed_services: The services that can assume the role.
    :return: The newly created role.
    """
    trust_policy = {
        "Version":"2012-10-17",		 	 	 
        "Statement": [
            {
                "Effect": "Allow",
                "Principal": {"Service": service},
                "Action": "sts:AssumeRole",
            }
            for service in allowed_services
        ],
    }

    try:
        role = iam.create_role(
            RoleName=role_name, AssumeRolePolicyDocument=json.dumps(trust_policy)
        )
        logger.info("Created role %s.", role.name)
    except ClientError:
        logger.exception("Couldn't create role %s.", role_name)
        raise
    else:
        return role



def attach_policy(role_name, policy_arn):
    """
    Attaches a policy to a role.

    :param role_name: The name of the role. **Note** this is the name, not the ARN.
    :param policy_arn: The ARN of the policy.
    """
    try:
        iam.Role(role_name).attach_policy(PolicyArn=policy_arn)
        logger.info("Attached policy %s to role %s.", policy_arn, role_name)
    except ClientError:
        logger.exception("Couldn't attach policy %s to role %s.", policy_arn, role_name)
        raise



def detach_policy(role_name, policy_arn):
    """
    Detaches a policy from a role.

    :param role_name: The name of the role. **Note** this is the name, not the ARN.
    :param policy_arn: The ARN of the policy.
    """
    try:
        iam.Role(role_name).detach_policy(PolicyArn=policy_arn)
        logger.info("Detached policy %s from role %s.", policy_arn, role_name)
    except ClientError:
        logger.exception(
            "Couldn't detach policy %s from role %s.", policy_arn, role_name
        )
        raise



def delete_role(role_name):
    """
    Deletes a role.

    :param role_name: The name of the role to delete.
    """
    try:
        iam.Role(role_name).delete()
        logger.info("Deleted role %s.", role_name)
    except ClientError:
        logger.exception("Couldn't delete role %s.", role_name)
        raise
```
Gunakan fungsi pembungkus untuk membuat peran, lalu lampirkan dan lepaskan kebijakan.  

```
def usage_demo():
    """Shows how to use the role functions."""
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    print("-" * 88)
    print("Welcome to the AWS Identity and Account Management role demo.")
    print("-" * 88)
    print(
        "Roles let you define sets of permissions and can be assumed by "
        "other entities, like users and services."
    )
    print("The first 10 roles currently in your account are:")
    roles = list_roles(10)
    print(f"The inline policies for role {roles[0].name} are:")
    list_policies(roles[0].name)
    role = create_role(
        "demo-iam-role", ["lambda.amazonaws.com", "batchoperations.s3.amazonaws.com"]
    )
    print(f"Created role {role.name}, with trust policy:")
    pprint.pprint(role.assume_role_policy_document)
    policy_arn = "arn:aws:iam::aws:policy/AmazonS3ReadOnlyAccess"
    attach_policy(role.name, policy_arn)
    print(f"Attached policy {policy_arn} to {role.name}.")
    print(f"Policies attached to role {role.name} are:")
    list_attached_policies(role.name)
    detach_policy(role.name, policy_arn)
    print(f"Detached policy {policy_arn} from {role.name}.")
    delete_role(role.name)
    print(f"Deleted {role.name}.")
    print("Thanks for watching!")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/AttachRolePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateRole)
  + [DeleteRole](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteRole)
  + [DetachRolePolicy](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DetachRolePolicy)

### Kelola akun Anda
<a name="iam_Scenario_AccountManagement_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan dan perbarui alias akun.
+ Menghasilkan laporan pengguna dan kredensyal.
+ Dapatkan ringkasan penggunaan akun.
+ Dapatkan detail untuk semua pengguna, grup, peran, dan kebijakan di akun Anda, termasuk hubungan mereka satu sama lain.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 
Buat fungsi yang membungkus tindakan akun IAM.  

```
import logging
import pprint
import sys
import time
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)
iam = boto3.resource("iam")

def list_aliases():
    """
    Gets the list of aliases for the current account. An account has at most one alias.

    :return: The list of aliases for the account.
    """
    try:
        response = iam.meta.client.list_account_aliases()
        aliases = response["AccountAliases"]
        if len(aliases) > 0:
            logger.info("Got aliases for your account: %s.", ",".join(aliases))
        else:
            logger.info("Got no aliases for your account.")
    except ClientError:
        logger.exception("Couldn't list aliases for your account.")
        raise
    else:
        return response["AccountAliases"]



def create_alias(alias):
    """
    Creates an alias for the current account. The alias can be used in place of the
    account ID in the sign-in URL. An account can have only one alias. When a new
    alias is created, it replaces any existing alias.

    :param alias: The alias to assign to the account.
    """

    try:
        iam.create_account_alias(AccountAlias=alias)
        logger.info("Created an alias '%s' for your account.", alias)
    except ClientError:
        logger.exception("Couldn't create alias '%s' for your account.", alias)
        raise



def delete_alias(alias):
    """
    Removes the alias from the current account.

    :param alias: The alias to remove.
    """
    try:
        iam.meta.client.delete_account_alias(AccountAlias=alias)
        logger.info("Removed alias '%s' from your account.", alias)
    except ClientError:
        logger.exception("Couldn't remove alias '%s' from your account.", alias)
        raise



def generate_credential_report():
    """
    Starts generation of a credentials report about the current account. After
    calling this function to generate the report, call get_credential_report
    to get the latest report. A new report can be generated a minimum of four hours
    after the last one was generated.
    """
    try:
        response = iam.meta.client.generate_credential_report()
        logger.info(
            "Generating credentials report for your account. " "Current state is %s.",
            response["State"],
        )
    except ClientError:
        logger.exception("Couldn't generate a credentials report for your account.")
        raise
    else:
        return response



def get_credential_report():
    """
    Gets the most recently generated credentials report about the current account.

    :return: The credentials report.
    """
    try:
        response = iam.meta.client.get_credential_report()
        logger.debug(response["Content"])
    except ClientError:
        logger.exception("Couldn't get credentials report.")
        raise
    else:
        return response["Content"]



def get_summary():
    """
    Gets a summary of account usage.

    :return: The summary of account usage.
    """
    try:
        summary = iam.AccountSummary()
        logger.debug(summary.summary_map)
    except ClientError:
        logger.exception("Couldn't get a summary for your account.")
        raise
    else:
        return summary.summary_map



def get_authorization_details(response_filter):
    """
    Gets an authorization detail report for the current account.

    :param response_filter: A list of resource types to include in the report, such
                            as users or roles. When not specified, all resources
                            are included.
    :return: The authorization detail report.
    """
    try:
        account_details = iam.meta.client.get_account_authorization_details(
            Filter=response_filter
        )
        logger.debug(account_details)
    except ClientError:
        logger.exception("Couldn't get details for your account.")
        raise
    else:
        return account_details
```
Fungsi pembungkus panggilan untuk mengubah alias akun dan untuk mendapatkan laporan tentang akun.  

```
def usage_demo():
    """Shows how to use the account functions."""
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    print("-" * 88)
    print("Welcome to the AWS Identity and Account Management account demo.")
    print("-" * 88)
    print(
        "Setting an account alias lets you use the alias in your sign-in URL "
        "instead of your account number."
    )
    old_aliases = list_aliases()
    if len(old_aliases) > 0:
        print(f"Your account currently uses '{old_aliases[0]}' as its alias.")
    else:
        print("Your account currently has no alias.")
    for index in range(1, 3):
        new_alias = f"alias-{index}-{time.time_ns()}"
        print(f"Setting your account alias to {new_alias}")
        create_alias(new_alias)
    current_aliases = list_aliases()
    print(f"Your account alias is now {current_aliases}.")
    delete_alias(current_aliases[0])
    print(f"Your account now has no alias.")
    if len(old_aliases) > 0:
        print(f"Restoring your original alias back to {old_aliases[0]}...")
        create_alias(old_aliases[0])

    print("-" * 88)
    print("You can get various reports about your account.")
    print("Let's generate a credentials report...")
    report_state = None
    while report_state != "COMPLETE":
        cred_report_response = generate_credential_report()
        old_report_state = report_state
        report_state = cred_report_response["State"]
        if report_state != old_report_state:
            print(report_state, sep="")
        else:
            print(".", sep="")
        sys.stdout.flush()
        time.sleep(1)
    print()
    cred_report = get_credential_report()
    col_count = 3
    print(f"Got credentials report. Showing only the first {col_count} columns.")
    cred_lines = [
        line.split(",")[:col_count] for line in cred_report.decode("utf-8").split("\n")
    ]
    col_width = max([len(item) for line in cred_lines for item in line]) + 2
    for line in cred_report.decode("utf-8").split("\n"):
        print(
            "".join(element.ljust(col_width) for element in line.split(",")[:col_count])
        )

    print("-" * 88)
    print("Let's get an account summary.")
    summary = get_summary()
    print("Here's your summary:")
    pprint.pprint(summary)

    print("-" * 88)
    print("Let's get authorization details!")
    details = get_authorization_details([])
    see_details = input("These are pretty long, do you want to see them (y/n)? ")
    if see_details.lower() == "y":
        pprint.pprint(details)

    print("-" * 88)
    pw_policy_created = None
    see_pw_policy = input("Want to see the password policy for the account (y/n)? ")
    if see_pw_policy.lower() == "y":
        while True:
            if print_password_policy():
                break
            else:
                answer = input(
                    "Do you want to create a default password policy (y/n)? "
                )
                if answer.lower() == "y":
                    pw_policy_created = iam.create_account_password_policy()
                else:
                    break
    if pw_policy_created is not None:
        answer = input("Do you want to delete the password policy (y/n)? ")
        if answer.lower() == "y":
            pw_policy_created.delete()
            print("Password policy deleted.")

    print("The SAML providers for your account are:")
    list_saml_providers(10)

    print("-" * 88)
    print("Thanks for watching.")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateAccountAlias](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/CreateAccountAlias)
  + [DeleteAccountAlias](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeleteAccountAlias)
  + [GenerateCredentialReport](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GenerateCredentialReport)
  + [GetAccountAuthorizationDetails](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetAccountAuthorizationDetails)
  + [GetAccountSummary](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetAccountSummary)
  + [GetCredentialReport](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/GetCredentialReport)
  + [ListAccountAliases](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListAccountAliases)

### Kembalikan versi kebijakan
<a name="iam_Scenario_RollbackPolicyVersion_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan daftar versi kebijakan berdasarkan tanggal.
+ Temukan versi kebijakan default.
+ Jadikan versi kebijakan sebelumnya sebagai default.
+ Hapus versi default lama.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iam#code-examples). 

```
def rollback_policy_version(policy_arn):
    """
    Rolls back to the previous default policy, if it exists.

    1. Gets the list of policy versions in order by date.
    2. Finds the default.
    3. Makes the previous policy the default.
    4. Deletes the old default version.

    :param policy_arn: The ARN of the policy to roll back.
    :return: The default version of the policy after the rollback.
    """
    try:
        policy_versions = sorted(
            iam.Policy(policy_arn).versions.all(),
            key=operator.attrgetter("create_date"),
        )
        logger.info("Got %s versions for %s.", len(policy_versions), policy_arn)
    except ClientError:
        logger.exception("Couldn't get versions for %s.", policy_arn)
        raise

    default_version = None
    rollback_version = None
    try:
        while default_version is None:
            ver = policy_versions.pop()
            if ver.is_default_version:
                default_version = ver
        rollback_version = policy_versions.pop()
        rollback_version.set_as_default()
        logger.info("Set %s as the default version.", rollback_version.version_id)
        default_version.delete()
        logger.info("Deleted original default version %s.", default_version.version_id)
    except IndexError:
        if default_version is None:
            logger.warning("No default version found for %s.", policy_arn)
        elif rollback_version is None:
            logger.warning(
                "Default version %s found for %s, but no previous version exists, so "
                "nothing to roll back to.",
                default_version.version_id,
                policy_arn,
            )
    except ClientError:
        logger.exception("Couldn't roll back version for %s.", policy_arn)
        raise
    else:
        return rollback_version
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [DeletePolicyVersion](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/DeletePolicyVersion)
  + [ListPolicyVersions](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/ListPolicyVersions)
  + [SetDefaultPolicyVersion](https://docs.aws.amazon.com/goto/boto3/iam-2010-05-08/SetDefaultPolicyVersion)

# AWS IoT contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_iot_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS IoT.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT
<a name="iot_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
def hello_iot():
    """
    Use the AWS SDK for Python (Boto3) to create an AWS IoT client and list
    up to 10 things in your AWS IoT account.
    This example uses the default settings specified in your shared credentials
    and config files.
    """
    try:
        iot_client = boto3.client("iot")
        response = iot_client.list_things(maxResults=10)
        things = response.get("things", [])
        
        print("Hello, AWS IoT! Here are your things:")
        if things:
            for i, thing in enumerate(things, 1):
                print(f"{i}. {thing['thingName']}")
        else:
            print("No things found in your AWS IoT account.")
    except ClientError as e:
        if e.response["Error"]["Code"] == "UnauthorizedException":
            print("You don't have permission to access AWS IoT.")
        else:
            print(f"Couldn't access AWS IoT. Error: {e}")
    except NoCredentialsError:
        print("No AWS credentials found. Please configure your credentials.")
    except Exception as e:
        print(f"An unexpected error occurred: {e}")
```
+  Untuk detail API, lihat [ListThings](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/listThings) di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iot_Scenario_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat AWS IoT Sesuatu.
+ Hasilkan sertifikat perangkat.
+ Perbarui AWS IoT Sesuatu dengan Atribut.
+ Kembalikan titik akhir yang unik.
+ Buat daftar AWS IoT sertifikat Anda.
+ Perbarui AWS IoT bayangan.
+ Tuliskan informasi negara.
+ Membuat aturan.
+ Buat daftar aturan Anda.
+ Cari sesuatu menggunakan nama Thing.
+ Hapus AWS IoT Sesuatu.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 
Buat kelas pembungkus IoT untuk mengelola operasi.  

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)
    

    def create_thing(self, thing_name):
        """
        Creates an AWS IoT thing.

        :param thing_name: The name of the thing to create.
        :return: The name and ARN of the created thing.
        """
        try:
            response = self.iot_client.create_thing(thingName=thing_name)
            logger.info("Created thing %s.", thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.info("Thing %s already exists. Skipping creation.", thing_name)
                return None
            logger.error(
                "Couldn't create thing %s. Here's why: %s: %s",
                thing_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def list_things(self):
        """
        Lists AWS IoT things.

        :return: The list of things.
        """
        try:
            things = []
            paginator = self.iot_client.get_paginator("list_things")
            for page in paginator.paginate():
                things.extend(page["things"])
            logger.info("Retrieved %s things.", len(things))
            return things
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't list things. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
            


    def create_keys_and_certificate(self):
        """
        Creates keys and a certificate for an AWS IoT thing.

        :return: The certificate ID, ARN, and PEM.
        """
        try:
            response = self.iot_client.create_keys_and_certificate(setAsActive=True)
            logger.info("Created certificate %s.", response["certificateId"])
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't create keys and certificate. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return response


    def attach_thing_principal(self, thing_name, principal):
        """
        Attaches a certificate to an AWS IoT thing.

        :param thing_name: The name of the thing.
        :param principal: The ARN of the certificate.
        """
        try:
            self.iot_client.attach_thing_principal(
                thingName=thing_name, principal=principal
            )
            logger.info("Attached principal %s to thing %s.", principal, thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot attach principal. Resource not found.")
                return
            logger.error(
                "Couldn't attach principal to thing. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def describe_endpoint(self, endpoint_type="iot:Data-ATS"):
        """
        Gets the AWS IoT endpoint.

        :param endpoint_type: The endpoint type.
        :return: The endpoint.
        """
        try:
            response = self.iot_client.describe_endpoint(endpointType=endpoint_type)
            logger.info("Retrieved endpoint %s.", response["endpointAddress"])
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't describe endpoint. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return response["endpointAddress"]


    def list_certificates(self):
        """
        Lists AWS IoT certificates.

        :return: The list of certificates.
        """
        try:
            certificates = []
            paginator = self.iot_client.get_paginator("list_certificates")
            for page in paginator.paginate():
                certificates.extend(page["certificates"])
            logger.info("Retrieved %s certificates.", len(certificates))
            return certificates
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't list certificates. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise


    def detach_thing_principal(self, thing_name, principal):
        """
        Detaches a certificate from an AWS IoT thing.

        :param thing_name: The name of the thing.
        :param principal: The ARN of the certificate.
        """
        try:
            self.iot_client.detach_thing_principal(
                thingName=thing_name, principal=principal
            )
            logger.info("Detached principal %s from thing %s.", principal, thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot detach principal. Resource not found.")
                return
            logger.error(
                "Couldn't detach principal from thing. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_certificate(self, certificate_id):
        """
        Deletes an AWS IoT certificate.

        :param certificate_id: The ID of the certificate to delete.
        """
        try:
            self.iot_client.update_certificate(
                certificateId=certificate_id, newStatus="INACTIVE"
            )
            self.iot_client.delete_certificate(certificateId=certificate_id)
            logger.info("Deleted certificate %s.", certificate_id)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot delete certificate. Resource not found.")
                return
            logger.error(
                "Couldn't delete certificate. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def create_topic_rule(self, rule_name, topic, sns_action_arn, role_arn):
        """
        Creates an AWS IoT topic rule.

        :param rule_name: The name of the rule.
        :param topic: The MQTT topic to subscribe to.
        :param sns_action_arn: The ARN of the SNS topic to publish to.
        :param role_arn: The ARN of the IAM role.
        """
        try:
            self.iot_client.create_topic_rule(
                ruleName=rule_name,
                topicRulePayload={
                    "sql": f"SELECT * FROM '{topic}'",
                    "actions": [
                        {"sns": {"targetArn": sns_action_arn, "roleArn": role_arn}}
                    ],
                },
            )
            logger.info("Created topic rule %s.", rule_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.info("Topic rule %s already exists. Skipping creation.", rule_name)
                return
            logger.error(
                "Couldn't create topic rule. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def list_topic_rules(self):
        """
        Lists AWS IoT topic rules.

        :return: The list of topic rules.
        """
        try:
            rules = []
            paginator = self.iot_client.get_paginator("list_topic_rules")
            for page in paginator.paginate():
                rules.extend(page["rules"])
            logger.info("Retrieved %s topic rules.", len(rules))
            return rules
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't list topic rules. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
            


    def search_index(self, query):
        """
        Searches the AWS IoT index.

        :param query: The search query.
        :return: The list of things found.
        """
        try:
            response = self.iot_client.search_index(queryString=query)
            logger.info("Found %s things.", len(response.get("things", [])))
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't search index. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return response.get("things", [])


    def update_indexing_configuration(self):
        """
        Updates the AWS IoT indexing configuration to enable thing indexing.
        """
        try:
            self.iot_client.update_indexing_configuration(
                thingIndexingConfiguration={"thingIndexingMode": "REGISTRY"}
            )
            logger.info("Updated indexing configuration.")
        except ClientError as err:
            logger.error(
                "Couldn't update indexing configuration. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_thing(self, thing_name):
        """
        Deletes an AWS IoT thing.

        :param thing_name: The name of the thing to delete.
        """
        try:
            self.iot_client.delete_thing(thingName=thing_name)
            logger.info("Deleted thing %s.", thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot delete thing. Resource not found.")
                return
            logger.error(
                "Couldn't delete thing. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_topic_rule(self, rule_name):
        """
        Deletes an AWS IoT topic rule.

        :param rule_name: The name of the rule to delete.
        """
        try:
            self.iot_client.delete_topic_rule(ruleName=rule_name)
            logger.info("Deleted topic rule %s.", rule_name)
        except ClientError as err:
            logger.error(
                "Couldn't delete topic rule. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def update_thing_shadow(self, thing_name, shadow_state):
        """
        Updates the shadow for an AWS IoT thing.

        :param thing_name: The name of the thing.
        :param shadow_state: The shadow state as a dictionary.
        """
        import json
        try:
            self.iot_data_client.update_thing_shadow(
                thingName=thing_name, payload=json.dumps(shadow_state)
            )
            logger.info("Updated shadow for thing %s.", thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot update thing shadow. Resource not found.")
                return
            logger.error(
                "Couldn't update thing shadow. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def get_thing_shadow(self, thing_name):
        """
        Gets the shadow for an AWS IoT thing.

        :param thing_name: The name of the thing.
        :return: The shadow state as a dictionary.
        """
        import json
        try:
            response = self.iot_data_client.get_thing_shadow(thingName=thing_name)
            shadow = json.loads(response["payload"].read())
            logger.info("Retrieved shadow for thing %s.", thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot get thing shadow. Resource not found.")
                return None
            logger.error(
                "Couldn't get thing shadow. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return shadow
```
Jalankan skenario interaktif yang menunjukkan dasar-dasar IoT.  

```
class IoTScenario:
    """Runs an interactive scenario that shows how to use AWS IoT."""

    is_interactive = True

    def __init__(self, iot_wrapper, iot_data_client, cfn_client, stack_name="IoTBasicsStack", template_path=None):
        """
        :param iot_wrapper: An instance of the IoTWrapper class.
        :param iot_data_client: A Boto3 IoT Data Plane client.
        :param cfn_client: A Boto3 CloudFormation client.
        :param stack_name: Name for the CloudFormation stack.
        :param template_path: Path to the CloudFormation template file.
        """
        self.iot_wrapper = iot_wrapper
        self.iot_data_client = iot_data_client
        self.cfn_client = cfn_client
        self.thing_name = None
        self.certificate_arn = None
        self.certificate_id = None
        self.rule_name = None
        self.stack_name = stack_name
        self.template_path = template_path or "../../../scenarios/basics/iot/iot_usecase/resources/cfn_template.yaml"

    def _deploy_stack(self):
        """Deploy CloudFormation stack and return outputs."""
        with open(self.template_path, "r") as f:
            template_body = f.read()
        
        try:
            self.cfn_client.create_stack(
                StackName=self.stack_name,
                TemplateBody=template_body,
                Capabilities=["CAPABILITY_NAMED_IAM"]
            )
            
            waiter = self.cfn_client.get_waiter("stack_create_complete")
            waiter.wait(StackName=self.stack_name)
            
            response = self.cfn_client.describe_stacks(StackName=self.stack_name)
            outputs = {output["OutputKey"]: output["OutputValue"] 
                      for output in response["Stacks"][0]["Outputs"]}
            return outputs["SNSTopicArn"], outputs["RoleArn"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "AlreadyExistsException":
                response = self.cfn_client.describe_stacks(StackName=self.stack_name)
                outputs = {output["OutputKey"]: output["OutputValue"] 
                          for output in response["Stacks"][0]["Outputs"]}
                return outputs["SNSTopicArn"], outputs["RoleArn"]
            raise

    def _cleanup_stack(self):
        """Delete CloudFormation stack."""
        try:
            self.cfn_client.delete_stack(StackName=self.stack_name)
            waiter = self.cfn_client.get_waiter("stack_delete_complete")
            waiter.wait(StackName=self.stack_name)
            print("CloudFormation stack deleted successfully.")
        except ClientError as err:
            logger.error(f"Failed to delete stack: {err}")

    def run_scenario(self, thing_name, rule_name):
        """
        Runs the IoT basics scenario.

        :param thing_name: The name of the thing to create.
        :param rule_name: The name of the topic rule to create.
        """
        print("-" * 88)
        print("Welcome to the AWS IoT basics scenario!")
        print("-" * 88)
        print(
            "This scenario demonstrates how to interact with AWS IoT using the AWS SDK for Python (Boto3).\n"
            "AWS IoT provides secure, bi-directional communication between Internet-connected devices\n"
            "and the AWS cloud. You can manage device connections, process device data, and build IoT applications.\n"
        )

        self.thing_name = thing_name
        self.rule_name = rule_name

        try:
            print("\nDeploying CloudFormation stack...")
            sns_topic_arn, role_arn = self._deploy_stack()
            print(f"Stack deployed. SNS Topic: {sns_topic_arn}")

            input("\nNext, we'll create an AWS IoT thing. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("1. Create an AWS IoT thing")
            print("-" * 88)
            response = self.iot_wrapper.create_thing(thing_name)
            print(f"Created thing: {response['thingName']}")
            print(f"Thing ARN: {response['thingArn']}")

            input("\nNext, we'll list things. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("2. List things")
            print("-" * 88)
            things = self.iot_wrapper.list_things()
            print(f"Found {len(things)} thing(s) in your account")
            for thing in things[:5]:  # Show first 5
                print(f"  Thing name: {thing['thingName']}")

            input("\nNext, we'll generate a device certificate. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("3. Generate a device certificate")
            print("-" * 88)
            cert_response = self.iot_wrapper.create_keys_and_certificate()
            self.certificate_arn = cert_response["certificateArn"]
            self.certificate_id = cert_response["certificateId"]
            print(f"Created certificate: {self.certificate_id}")

            input("\nNext, we'll attach the certificate to the thing. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("4. Attach the certificate to the thing")
            print("-" * 88)
            self.iot_wrapper.attach_thing_principal(thing_name, self.certificate_arn)
            print(f"Attached certificate to thing: {thing_name}")

            input("\nNext, we'll update the thing shadow. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("5. Update the thing shadow")
            print("-" * 88)
            shadow_state = {"state": {"reported": {"temperature": 25, "humidity": 50}}}
            self.iot_wrapper.update_thing_shadow(thing_name, shadow_state)
            print(f"Updated shadow for thing: {thing_name}")

            input("\nNext, we'll get the thing shadow. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("6. Get the thing shadow")
            print("-" * 88)
            shadow = self.iot_wrapper.get_thing_shadow(thing_name)
            print(f"Shadow state: {json.dumps(shadow['state'], indent=2)}")

            input("\nNext, we'll get the AWS IoT endpoint. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("7. Get the AWS IoT endpoint")
            print("-" * 88)
            endpoint = self.iot_wrapper.describe_endpoint()
            print(f"IoT endpoint: {endpoint}")

            input("\nNext, we'll list certificates. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("8. List certificates")
            print("-" * 88)
            certificates = self.iot_wrapper.list_certificates()
            print(f"Found {len(certificates)} certificate(s)")
            for cert in certificates:
                print(f"  Certificate ID: {cert['certificateId']}")
                print(f"  Certificate ARN: {cert['certificateArn']}")
                print(f"  Status: {cert['status']}")

            input("\nNext, we'll create a topic rule. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("9. Create a topic rule")
            print("-" * 88)
            self.iot_wrapper.create_topic_rule(
                rule_name, f"device/{thing_name}/data", sns_topic_arn, role_arn
            )
            print(f"Created topic rule: {rule_name}")

            input("\nNext, we'll list topic rules. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("10. List topic rules")
            print("-" * 88)
            rules = self.iot_wrapper.list_topic_rules()
            print(f"Found {len(rules)} topic rule(s)")
            for rule in rules:
                print(f"  Rule name: {rule['ruleName']}")
                print(f"  Rule ARN: {rule['ruleArn']}")

            input("\nNext, we'll configure thing indexing. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("11. Configure thing indexing")
            print("-" * 88)
            self.iot_wrapper.update_indexing_configuration()
            print("Enabled thing indexing")
            print("Waiting for indexing to be ready...")
            time.sleep(10)

            input("\nNext, we'll search for things. Press Enter to continue...") if self.is_interactive else None
            print("\n" + "-" * 88)
            print("12. Search for things")
            print("-" * 88)
            try:
                things = self.iot_wrapper.search_index(f"thingName:{thing_name}")
                if things:
                    print(f"Found {len(things)} thing(s) matching the query")
                    for thing in things:
                        print(f"  Thing name: {thing.get('thingName', 'N/A')}")
                        print(f"  Thing ID: {thing.get('thingId', 'N/A')}")
                else:
                    print("No things found. Indexing may take a few minutes.")
            except ClientError as err:
                if err.response["Error"]["Code"] in [
                    "IndexNotReadyException",
                    "InvalidRequestException",
                ]:
                    print("Search index not ready yet. This is expected.")
                else:
                    raise

        except ClientError as err:
            logger.error(
                "Scenario failed: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        finally:
            self._cleanup()

    def _cleanup(self):
        """Cleans up resources created during the scenario."""
        if not self.thing_name:
            return

        print("\n" + "-" * 88)
        print("Cleanup")
        print("-" * 88)

        if q.ask("Do you want to delete the resources? (y/n) ", q.is_yesno):
            try:
                if self.certificate_arn:
                    print(f"Detaching certificate from thing: {self.thing_name}")
                    self.iot_wrapper.detach_thing_principal(
                        self.thing_name, self.certificate_arn
                    )

                if self.certificate_id:
                    print(f"Deleting certificate: {self.certificate_id}")
                    self.iot_wrapper.delete_certificate(self.certificate_id)

                if self.thing_name:
                    print(f"Deleting thing: {self.thing_name}")
                    self.iot_wrapper.delete_thing(self.thing_name)

                if self.rule_name:
                    print(f"Deleting topic rule: {self.rule_name}")
                    self.iot_wrapper.delete_topic_rule(self.rule_name)

                self._cleanup_stack()
                print("Resources deleted successfully.")
            except ClientError as err:
                logger.error(
                    "Cleanup failed: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
        else:
            print("Resources will remain in your account.")

        print("\n" + "-" * 88)
        print("Thanks for using AWS IoT!")
        print("-" * 88)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [AttachThingPrincipal](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/AttachThingPrincipal)
  + [CreateKeysAndCertificate](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/CreateKeysAndCertificate)
  + [CreateThing](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/CreateThing)
  + [CreateTopicRule](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/CreateTopicRule)
  + [DeleteCertificate](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DeleteCertificate)
  + [DeleteThing](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DeleteThing)
  + [DeleteTopicRule](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DeleteTopicRule)
  + [DescribeEndpoint](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DescribeEndpoint)
  + [DescribeThing](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DescribeThing)
  + [DetachThingPrincipal](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DetachThingPrincipal)
  + [ListCertificates](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/ListCertificates)
  + [ListThings](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/ListThings)
  + [SearchIndex](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/SearchIndex)
  + [UpdateIndexingConfiguration](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/UpdateIndexingConfiguration)
  + [UpdateThing](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/UpdateThing)

## Tindakan
<a name="actions"></a>

### `AttachThingPrincipal`
<a name="iot_AttachThingPrincipal_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachThingPrincipal`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def attach_thing_principal(self, thing_name, principal):
        """
        Attaches a certificate to an AWS IoT thing.

        :param thing_name: The name of the thing.
        :param principal: The ARN of the certificate.
        """
        try:
            self.iot_client.attach_thing_principal(
                thingName=thing_name, principal=principal
            )
            logger.info("Attached principal %s to thing %s.", principal, thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot attach principal. Resource not found.")
                return
            logger.error(
                "Couldn't attach principal to thing. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [AttachThingPrincipal](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/AttachThingPrincipal)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateKeysAndCertificate`
<a name="iot_CreateKeysAndCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeysAndCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def create_keys_and_certificate(self):
        """
        Creates keys and a certificate for an AWS IoT thing.

        :return: The certificate ID, ARN, and PEM.
        """
        try:
            response = self.iot_client.create_keys_and_certificate(setAsActive=True)
            logger.info("Created certificate %s.", response["certificateId"])
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't create keys and certificate. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [CreateKeysAndCertificate](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/CreateKeysAndCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateThing`
<a name="iot_CreateThing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateThing`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def create_thing(self, thing_name):
        """
        Creates an AWS IoT thing.

        :param thing_name: The name of the thing to create.
        :return: The name and ARN of the created thing.
        """
        try:
            response = self.iot_client.create_thing(thingName=thing_name)
            logger.info("Created thing %s.", thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.info("Thing %s already exists. Skipping creation.", thing_name)
                return None
            logger.error(
                "Couldn't create thing %s. Here's why: %s: %s",
                thing_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [CreateThing](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/CreateThing)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateTopicRule`
<a name="iot_CreateTopicRule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopicRule`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def create_topic_rule(self, rule_name, topic, sns_action_arn, role_arn):
        """
        Creates an AWS IoT topic rule.

        :param rule_name: The name of the rule.
        :param topic: The MQTT topic to subscribe to.
        :param sns_action_arn: The ARN of the SNS topic to publish to.
        :param role_arn: The ARN of the IAM role.
        """
        try:
            self.iot_client.create_topic_rule(
                ruleName=rule_name,
                topicRulePayload={
                    "sql": f"SELECT * FROM '{topic}'",
                    "actions": [
                        {"sns": {"targetArn": sns_action_arn, "roleArn": role_arn}}
                    ],
                },
            )
            logger.info("Created topic rule %s.", rule_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.info("Topic rule %s already exists. Skipping creation.", rule_name)
                return
            logger.error(
                "Couldn't create topic rule. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateTopicRule](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/CreateTopicRule)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteCertificate`
<a name="iot_DeleteCertificate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def delete_certificate(self, certificate_id):
        """
        Deletes an AWS IoT certificate.

        :param certificate_id: The ID of the certificate to delete.
        """
        try:
            self.iot_client.update_certificate(
                certificateId=certificate_id, newStatus="INACTIVE"
            )
            self.iot_client.delete_certificate(certificateId=certificate_id)
            logger.info("Deleted certificate %s.", certificate_id)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot delete certificate. Resource not found.")
                return
            logger.error(
                "Couldn't delete certificate. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DeleteCertificate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteThing`
<a name="iot_DeleteThing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteThing`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def delete_thing(self, thing_name):
        """
        Deletes an AWS IoT thing.

        :param thing_name: The name of the thing to delete.
        """
        try:
            self.iot_client.delete_thing(thingName=thing_name)
            logger.info("Deleted thing %s.", thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot delete thing. Resource not found.")
                return
            logger.error(
                "Couldn't delete thing. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteThing](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DeleteThing)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteTopicRule`
<a name="iot_DeleteTopicRule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopicRule`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def delete_topic_rule(self, rule_name):
        """
        Deletes an AWS IoT topic rule.

        :param rule_name: The name of the rule to delete.
        """
        try:
            self.iot_client.delete_topic_rule(ruleName=rule_name)
            logger.info("Deleted topic rule %s.", rule_name)
        except ClientError as err:
            logger.error(
                "Couldn't delete topic rule. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteTopicRule](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DeleteTopicRule)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeEndpoint`
<a name="iot_DescribeEndpoint_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeEndpoint`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def describe_endpoint(self, endpoint_type="iot:Data-ATS"):
        """
        Gets the AWS IoT endpoint.

        :param endpoint_type: The endpoint type.
        :return: The endpoint.
        """
        try:
            response = self.iot_client.describe_endpoint(endpointType=endpoint_type)
            logger.info("Retrieved endpoint %s.", response["endpointAddress"])
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't describe endpoint. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return response["endpointAddress"]
```
+  Untuk detail API, lihat [DescribeEndpoint](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DescribeEndpoint)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetachThingPrincipal`
<a name="iot_DetachThingPrincipal_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachThingPrincipal`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def detach_thing_principal(self, thing_name, principal):
        """
        Detaches a certificate from an AWS IoT thing.

        :param thing_name: The name of the thing.
        :param principal: The ARN of the certificate.
        """
        try:
            self.iot_client.detach_thing_principal(
                thingName=thing_name, principal=principal
            )
            logger.info("Detached principal %s from thing %s.", principal, thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot detach principal. Resource not found.")
                return
            logger.error(
                "Couldn't detach principal from thing. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DetachThingPrincipal](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/DetachThingPrincipal)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListCertificates`
<a name="iot_ListCertificates_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def list_certificates(self):
        """
        Lists AWS IoT certificates.

        :return: The list of certificates.
        """
        try:
            certificates = []
            paginator = self.iot_client.get_paginator("list_certificates")
            for page in paginator.paginate():
                certificates.extend(page["certificates"])
            logger.info("Retrieved %s certificates.", len(certificates))
            return certificates
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't list certificates. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/ListCertificates)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListThings`
<a name="iot_ListThings_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListThings`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def list_things(self):
        """
        Lists AWS IoT things.

        :return: The list of things.
        """
        try:
            things = []
            paginator = self.iot_client.get_paginator("list_things")
            for page in paginator.paginate():
                things.extend(page["things"])
            logger.info("Retrieved %s things.", len(things))
            return things
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't list things. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [ListThings](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/ListThings)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SearchIndex`
<a name="iot_SearchIndex_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchIndex`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def search_index(self, query):
        """
        Searches the AWS IoT index.

        :param query: The search query.
        :return: The list of things found.
        """
        try:
            response = self.iot_client.search_index(queryString=query)
            logger.info("Found %s things.", len(response.get("things", [])))
        except ClientError as err:
            if err.response["Error"]["Code"] == "ThrottlingException":
                logger.error("Request throttled. Please try again later.")
            else:
                logger.error(
                    "Couldn't search index. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
            raise
        else:
            return response.get("things", [])
```
+  Untuk detail API, lihat [SearchIndex](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/SearchIndex)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateIndexingConfiguration`
<a name="iot_UpdateIndexingConfiguration_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateIndexingConfiguration`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def update_indexing_configuration(self):
        """
        Updates the AWS IoT indexing configuration to enable thing indexing.
        """
        try:
            self.iot_client.update_indexing_configuration(
                thingIndexingConfiguration={"thingIndexingMode": "REGISTRY"}
            )
            logger.info("Updated indexing configuration.")
        except ClientError as err:
            logger.error(
                "Couldn't update indexing configuration. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [UpdateIndexingConfiguration](https://docs.aws.amazon.com/goto/boto3/iot-2015-05-28/UpdateIndexingConfiguration)di *AWS SDK for Python (Boto3) Referensi* API. 

# AWS IoT data contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_iot-data-plane_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS IoT data.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetThingShadow`
<a name="iot-data-plane_GetThingShadow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetThingShadow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def get_thing_shadow(self, thing_name):
        """
        Gets the shadow for an AWS IoT thing.

        :param thing_name: The name of the thing.
        :return: The shadow state as a dictionary.
        """
        import json
        try:
            response = self.iot_data_client.get_thing_shadow(thingName=thing_name)
            shadow = json.loads(response["payload"].read())
            logger.info("Retrieved shadow for thing %s.", thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot get thing shadow. Resource not found.")
                return None
            logger.error(
                "Couldn't get thing shadow. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return shadow
```
+  Untuk detail API, lihat [GetThingShadow](https://docs.aws.amazon.com/goto/boto3/iot-data-2015-05-28/GetThingShadow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateThingShadow`
<a name="iot-data-plane_UpdateThingShadow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateThingShadow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iot#code-examples). 

```
class IoTWrapper:
    """Encapsulates AWS IoT actions."""

    def __init__(self, iot_client, iot_data_client=None):
        """
        :param iot_client: A Boto3 AWS IoT client.
        :param iot_data_client: A Boto3 AWS IoT Data Plane client.
        """
        self.iot_client = iot_client
        self.iot_data_client = iot_data_client

    @classmethod
    def from_client(cls):
        iot_client = boto3.client("iot")
        iot_data_client = boto3.client("iot-data")
        return cls(iot_client, iot_data_client)

    def update_thing_shadow(self, thing_name, shadow_state):
        """
        Updates the shadow for an AWS IoT thing.

        :param thing_name: The name of the thing.
        :param shadow_state: The shadow state as a dictionary.
        """
        import json
        try:
            self.iot_data_client.update_thing_shadow(
                thingName=thing_name, payload=json.dumps(shadow_state)
            )
            logger.info("Updated shadow for thing %s.", thing_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Cannot update thing shadow. Resource not found.")
                return
            logger.error(
                "Couldn't update thing shadow. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [UpdateThingShadow](https://docs.aws.amazon.com/goto/boto3/iot-data-2015-05-28/UpdateThingShadow)di *AWS SDK for Python (Boto3) Referensi* API. 

# AWS IoT SiteWise contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_iotsitewise_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS IoT SiteWise.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT SiteWise
<a name="iotsitewise_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT SiteWise.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
import boto3


def hello_iot_sitewise(iot_sitewise_client):
    """
    Use the AWS SDK for Python (Boto3) to create an AWS IoT SiteWise
    client and list the asset models in your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param iot_sitewise_client: A Boto3 AWS IoT SiteWise Client object. This object wraps
                             the low-level AWS IoT SiteWise service API.
    """
    print("Hello, AWS IoT SiteWise! Let's list some of your asset models:\n")
    paginator = iot_sitewise_client.get_paginator("list_asset_models")
    page_iterator = paginator.paginate(PaginationConfig={"MaxItems": 10})

    asset_model_names: [str] = []
    for page in page_iterator:
        for asset_model in page["assetModelSummaries"]:
            asset_model_names.append(asset_model["name"])

    print(f"{len(asset_model_names)} asset model(s) retrieved.")
    for asset_model_name in asset_model_names:
        print(f"\t{asset_model_name}")


if __name__ == "__main__":
    hello_iot_sitewise(boto3.client("iotsitewise"))
```
+  Untuk detail API, lihat [ListAssetModels](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/ListAssetModels)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iotsitewise_Scenario_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat Model AWS IoT SiteWise Aset.
+ Buat AWS IoT SiteWise Aset.
+ Mengambil nilai ID properti.
+ Kirim data ke AWS IoT SiteWise Aset.
+ Ambil nilai properti AWS IoT SiteWise Aset.
+ Buat AWS IoT SiteWise Portal.
+ Buat AWS IoT SiteWise Gateway.
+ Jelaskan AWS IoT SiteWise Gateway.
+ Hapus AWS IoT SiteWise Aset.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class IoTSitewiseGettingStarted:
    """
    A scenario that demonstrates how to use Boto3 to manage IoT physical assets using
    the AWS IoT SiteWise.
    """

    def __init__(
        self,
        iot_sitewise_wrapper: IoTSitewiseWrapper,
        cloud_formation_resource: ServiceResource,
    ):
        self.iot_sitewise_wrapper = iot_sitewise_wrapper
        self.cloud_formation_resource = cloud_formation_resource
        self.stack = None
        self.asset_model_id = None
        self.asset_id = None
        self.portal_id = None
        self.gateway_id = None

    def run(self) -> None:
        """
        Runs the scenario.
        """
        print(
            """
AWS IoT SiteWise is a fully managed software-as-a-service (SaaS) that
makes it easy to collect, store, organize, and monitor data from industrial equipment and processes.
It is designed to help industrial and manufacturing organizations collect data from their equipment and
processes, and use that data to make informed decisions about their operations.

One of the key features of AWS IoT SiteWise is its ability to connect to a wide range of industrial
equipment and systems, including programmable logic controllers (PLCs), sensors, and other
industrial devices. It can collect data from these devices and organize it into a unified data model,
making it easier to analyze and gain insights from the data. AWS IoT SiteWise also provides tools for
visualizing the data, setting up alarms and alerts, and generating reports.

Another key feature of AWS IoT SiteWise is its ability to scale to handle large volumes of data.
It can collect and store data from thousands of devices and process millions of data points per second,
making it suitable for large-scale industrial operations. Additionally, AWS IoT SiteWise is designed
to be secure and compliant, with features like role-based access controls, data encryption,
and integration with other AWS services for additional security and compliance features.

Let's get started...
        """
        )
        press_enter_to_continue()
        print_dashes()
        print(f"")
        print(
            f"Use AWS CloudFormation to create an IAM role that is required for this scenario."
        )
        template_file = IoTSitewiseGettingStarted.get_template_as_string()

        self.stack = self.deploy_cloudformation_stack(
            "python-iot-sitewise-basics", template_file
        )
        outputs = self.stack.outputs
        iam_role = None

        for output in outputs:
            if output.get("OutputKey") == "SitewiseRoleArn":
                iam_role = output.get("OutputValue")

        if iam_role is None:
            error_string = f"Failed to retrieve iam_role from CloudFormation stack."
            logger.error(error_string)
            raise ValueError(error_string)

        print(f"The ARN of the IAM role is {iam_role}")
        print_dashes()
        print_dashes()
        print(f"1. Create an AWS SiteWise Asset Model")
        print(
            """
An AWS IoT SiteWise Asset Model is a way to represent the physical assets, such as equipment,
processes, and systems, that exist in an industrial environment. This model provides a structured and
hierarchical representation of these assets, allowing users to define the relationships and values
of each asset.

This scenario creates two asset model values: temperature and humidity.
        """
        )
        press_enter_to_continue()
        asset_model_name = "MyAssetModel1"
        temperature_property_name = "temperature"
        humidity_property_name = "humidity"
        try:
            properties = [
                {
                    "name": temperature_property_name,
                    "dataType": "DOUBLE",
                    "type": {
                        "measurement": {},
                    },
                },
                {
                    "name": humidity_property_name,
                    "dataType": "DOUBLE",
                    "type": {
                        "measurement": {},
                    },
                },
            ]
            self.asset_model_id = self.iot_sitewise_wrapper.create_asset_model(
                asset_model_name, properties
            )
            print(
                f"Asset Model successfully created. Asset Model ID: {self.asset_model_id}. "
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                self.asset_model_id = self.get_model_id_for_model_name(asset_model_name)
                print(
                    f"Asset Model {asset_model_name} already exists. Asset Model ID: {self.asset_model_id}. "
                )
            else:
                raise

        press_enter_to_continue()
        print_dashes()
        print(f"2. Create an AWS IoT SiteWise Asset")
        print(
            """
The IoT SiteWise model that we just created defines the structure and metadata for your physical assets.
Now we create an asset from the asset model.
        
        """
        )
        press_enter_to_continue()

        self.asset_id = self.iot_sitewise_wrapper.create_asset(
            "MyAsset1", self.asset_model_id
        )

        print(f"Asset created with ID: {self.asset_id}")
        press_enter_to_continue()
        print_dashes()
        print_dashes()
        print(f"3. Retrieve the property ID values")
        print(
            """
To send data to an asset, we need to get the property ID values. In this scenario, we access the
temperature and humidity property ID values.
        """
        )
        press_enter_to_continue()
        property_ids = self.iot_sitewise_wrapper.list_asset_model_properties(
            self.asset_model_id
        )
        humidity_property_id = None
        temperature_property_id = None
        for property_id in property_ids:
            if property_id.get("name") == humidity_property_name:
                humidity_property_id = property_id.get("id")
            elif property_id.get("name") == temperature_property_name:
                temperature_property_id = property_id.get("id")
        if humidity_property_id is None or temperature_property_id is None:
            error_string = f"Failed to retrieve property IDs from Asset Model."
            logger.error(error_string)
            raise ValueError(error_string)

        print(f"The Humidity property Id is {humidity_property_id}")
        print(f"The Temperature property Id is {temperature_property_id}")
        press_enter_to_continue()
        print_dashes()
        print_dashes()

        print(f"4. Send data to an AWS IoT SiteWise Asset")
        print(
            """
By sending data to an IoT SiteWise Asset, you can aggregate data from
multiple sources, normalize the data into a standard format, and store it in a
centralized location. This makes it easier to analyze and gain insights from the data.

In this example, we generate sample temperature and humidity data and send it to the AWS IoT SiteWise asset.

        """
        )
        press_enter_to_continue()

        values = [
            {
                "propertyId": humidity_property_id,
                "valueType": "doubleValue",
                "value": 65.0,
            },
            {
                "propertyId": temperature_property_id,
                "valueType": "doubleValue",
                "value": 23.5,
            },
        ]
        self.iot_sitewise_wrapper.batch_put_asset_property_value(self.asset_id, values)
        print(f"Data sent successfully.")

        press_enter_to_continue()
        print_dashes()
        print_dashes()

        print(f"5. Retrieve the value of the IoT SiteWise Asset property")
        print(
            """
IoT SiteWise is an AWS service that allows you to collect, process, and analyze industrial data
from connected equipment and sensors. One of the key benefits of reading an IoT SiteWise property
is the ability to gain valuable insights from your industrial data.
        
        """
        )
        press_enter_to_continue()

        property_value = self.iot_sitewise_wrapper.get_asset_property_value(
            self.asset_id, temperature_property_id
        )
        print(f"The property name is '{temperature_property_name}'.")

        print(
            f"The value of this property is: {property_value['value']['doubleValue']}"
        )
        press_enter_to_continue()

        property_value = self.iot_sitewise_wrapper.get_asset_property_value(
            self.asset_id, humidity_property_id
        )
        print(f"The property name is '{humidity_property_name}'.")
        print(
            f"The value of this property is: {property_value['value']['doubleValue']}"
        )
        press_enter_to_continue()
        print_dashes()
        print_dashes()

        print(f"6. Create an IoT SiteWise Portal")
        print(
            """
An IoT SiteWise Portal allows you to aggregate data from multiple industrial sources,
such as sensors, equipment, and control systems, into a centralized platform.
        """
        )

        press_enter_to_continue()
        contact_email = q.ask("Enter a contact email for the portal:", q.non_empty)
        print("Creating the portal. The portal may take a while to become active.")
        self.portal_id = self.iot_sitewise_wrapper.create_portal(
            "MyPortal1", iam_role, contact_email
        )
        print(f"Portal created successfully. Portal ID {self.portal_id}")
        press_enter_to_continue()
        print_dashes()
        print_dashes()

        print(f"7. Describe the Portal")
        print(
            """
In this step, we get a description of the portal and display the portal URL.
        """
        )
        press_enter_to_continue()
        portal_description = self.iot_sitewise_wrapper.describe_portal(self.portal_id)
        print(f"Portal URL: {portal_description['portalStartUrl']}")
        press_enter_to_continue()
        print_dashes()
        print_dashes()

        print(f"8. Create an IoT SiteWise Gateway")
        press_enter_to_continue()
        self.gateway_id = self.iot_sitewise_wrapper.create_gateway(
            "MyGateway1", "MyThing1"
        )
        print(f"Gateway creation completed successfully. id is {self.gateway_id}")
        print_dashes()
        print_dashes()
        print(f"9. Describe the IoT SiteWise Gateway")
        press_enter_to_continue()

        gateway_description = self.iot_sitewise_wrapper.describe_gateway(
            self.gateway_id
        )
        print(f"Gateway Name: {gateway_description['gatewayName']}")
        print(f"Gateway ARN: {gateway_description['gatewayArn']}")
        print(f"Gateway Platform:\n{gateway_description['gatewayPlatform']}")
        print(f"Gateway Creation Date: {gateway_description['gatewayArn']}")
        print_dashes()
        print_dashes()

        print(f"10. Delete the AWS IoT SiteWise Assets")
        if q.ask("Would you like to delete the IoT SiteWise Assets? (y/n)", q.is_yesno):
            self.cleanup()
        else:
            print(f"The resources will not be deleted.")
        print_dashes()
        print_dashes()
        print(f"This concludes the AWS IoT SiteWise Scenario")

    def cleanup(self) -> None:
        """
        Deletes the CloudFormation stack and the resources created for the demo.
        """

        if self.gateway_id is not None:
            self.iot_sitewise_wrapper.delete_gateway(self.gateway_id)
            print(f"Deleted gateway with id {self.gateway_id}.")
            self.gateway_id = None
        if self.portal_id is not None:
            self.iot_sitewise_wrapper.delete_portal(self.portal_id)
            print(f"Deleted portal with id {self.portal_id}.")
            self.portal_id = None
        if self.asset_id is not None:
            self.iot_sitewise_wrapper.delete_asset(self.asset_id)
            print(f"Deleted asset with id {self.asset_id}.")
            self.iot_sitewise_wrapper.wait_asset_deleted(self.asset_id)
            self.asset_id = None
        if self.asset_model_id is not None:
            self.iot_sitewise_wrapper.delete_asset_model(self.asset_model_id)
            print(f"Deleted asset model with id {self.asset_model_id}.")
            self.asset_model_id = None
        if self.stack is not None:
            stack = self.stack
            self.stack = None
            self.destroy_cloudformation_stack(stack)

    def deploy_cloudformation_stack(
        self, stack_name: str, cfn_template: str
    ) -> ServiceResource:
        """
        Deploys prerequisite resources used by the scenario. The resources are
        defined in the associated `SitewiseRoles-template.yaml` AWS CloudFormation script and are deployed
        as a CloudFormation stack, so they can be easily managed and destroyed.

        :param stack_name: The name of the CloudFormation stack.
        :param cfn_template: The CloudFormation template as a string.
        :return: The CloudFormation stack resource.
        """
        print(f"Deploying CloudFormation stack: {stack_name}.")
        stack = self.cloud_formation_resource.create_stack(
            StackName=stack_name,
            TemplateBody=cfn_template,
            Capabilities=["CAPABILITY_NAMED_IAM"],
        )
        print(f"CloudFormation stack creation started: {stack_name}")
        print("Waiting for CloudFormation stack creation to complete...")
        waiter = self.cloud_formation_resource.meta.client.get_waiter(
            "stack_create_complete"
        )
        waiter.wait(StackName=stack.name)
        stack.load()
        print("CloudFormation stack creation complete.")

        return stack

    def destroy_cloudformation_stack(self, stack: ServiceResource) -> None:
        """
        Destroys the resources managed by the CloudFormation stack, and the CloudFormation
        stack itself.

        :param stack: The CloudFormation stack that manages the example resources.
        """
        print(
            f"CloudFormation stack '{stack.name}' is being deleted. This may take a few minutes."
        )
        stack.delete()
        waiter = self.cloud_formation_resource.meta.client.get_waiter(
            "stack_delete_complete"
        )
        waiter.wait(StackName=stack.name)
        print(f"CloudFormation stack '{stack.name}' has been deleted.")

    @staticmethod
    def get_template_as_string() -> str:
        """
        Returns a string containing this scenario's CloudFormation template.
        """
        template_file_path = os.path.join(script_dir, "SitewiseRoles-template.yaml")
        file = open(template_file_path, "r")
        return file.read()

    def get_model_id_for_model_name(self, model_name: str) -> str:
        """
        Returns the model ID for the given model name.

        :param model_name: The name of the model.
        :return: The model ID.
        """
        model_id = None
        asset_models = self.iot_sitewise_wrapper.list_asset_models()
        for asset_model in asset_models:
            if asset_model["name"] == model_name:
                model_id = asset_model["id"]
                break
        return model_id
```
Kelas Io TSitewise Wrapper yang membungkus tindakan AWS IoT SiteWise .  

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def create_asset_model(
        self, asset_model_name: str, properties: List[Dict[str, Any]]
    ) -> str:
        """
        Creates an AWS IoT SiteWise Asset Model.

        :param asset_model_name: The name of the asset model to create.
        :param properties: The property definitions of the asset model.
        :return: The ID of the created asset model.
        """
        try:
            response = self.iotsitewise_client.create_asset_model(
                assetModelName=asset_model_name,
                assetModelDescription="This is a sample asset model description.",
                assetModelProperties=properties,
            )
            asset_model_id = response["assetModelId"]
            waiter = self.iotsitewise_client.get_waiter("asset_model_active")
            waiter.wait(assetModelId=asset_model_id)
            return asset_model_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.error("Asset model %s already exists.", asset_model_name)
            else:
                logger.error(
                    "Error creating asset model %s. Here's why %s",
                    asset_model_name,
                    err.response["Error"]["Message"],
                )
            raise


    def create_asset(self, asset_name: str, asset_model_id: str) -> str:
        """
        Creates an AWS IoT SiteWise Asset.

        :param asset_name: The name of the asset to create.
        :param asset_model_id: The ID of the asset model to associate with the asset.
        :return: The ID of the created asset.
        """
        try:
            response = self.iotsitewise_client.create_asset(
                assetName=asset_name, assetModelId=asset_model_id
            )
            asset_id = response["assetId"]
            waiter = self.iotsitewise_client.get_waiter("asset_active")
            waiter.wait(assetId=asset_id)
            return asset_id
        except ClientError as err:
            if err.response["Error"] == "ResourceNotFoundException":
                logger.error("Asset model %s does not exist.", asset_model_id)
            else:
                logger.error(
                    "Error creating asset %s. Here's why %s",
                    asset_name,
                    err.response["Error"]["Message"],
                )
            raise


    def list_asset_models(self) -> List[Dict[str, Any]]:
        """
        Lists all AWS IoT SiteWise Asset Models.

        :return: A list of dictionaries containing information about each asset model.

        """
        try:
            asset_models = []
            paginator = self.iotsitewise_client.get_paginator("list_asset_models")
            pages = paginator.paginate()
            for page in pages:
                asset_models.extend(page["assetModelSummaries"])
            return asset_models
        except ClientError as err:
            logger.error(
                "Error listing asset models. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise


    def list_asset_model_properties(self, asset_model_id: str) -> List[Dict[str, Any]]:
        """
        Lists all AWS IoT SiteWise Asset Model Properties.

        :param asset_model_id: The ID of the asset model to list values for.
        :return: A list of dictionaries containing information about each asset model property.
        """
        try:
            asset_model_properties = []
            paginator = self.iotsitewise_client.get_paginator(
                "list_asset_model_properties"
            )
            pages = paginator.paginate(assetModelId=asset_model_id)
            for page in pages:
                asset_model_properties.extend(page["assetModelPropertySummaries"])
            return asset_model_properties
        except ClientError as err:
            logger.error(
                "Error listing asset model values. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise


    def batch_put_asset_property_value(
        self, asset_id: str, values: List[Dict[str, str]]
    ) -> None:
        """
        Sends data to an AWS IoT SiteWise Asset.

        :param asset_id: The asset ID.
        :param values: A list of dictionaries containing the values in the form
                        {propertyId : property_id,
                        valueType : [stringValue|integerValue|doubleValue|booleanValue],
                        value : the_value}.
        """
        try:
            entries = self.properties_to_values(asset_id, values)
            self.iotsitewise_client.batch_put_asset_property_value(entries=entries)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Asset %s does not exist.", asset_id)
            else:
                logger.error(
                    "Error sending data to asset. Here's why %s",
                    err.response["Error"]["Message"],
                )
            raise


    def properties_to_values(
        self, asset_id: str, values: list[dict[str, Any]]
    ) -> list[dict[str, Any]]:
        """
        Utility function to convert a values list to the entries parameter for batch_put_asset_property_value.
        :param asset_id : The asset ID.
        :param values : A list of dictionaries containing the values in the form
                        {propertyId : property_id,
                        valueType : [stringValue|integerValue|doubleValue|booleanValue],
                        value : the_value}.
        :return: An entries list to pass as the 'entries' parameter to batch_put_asset_property_value.
        """
        entries = []
        for value in values:
            epoch_ns = time.time_ns()
            self.entry_id += 1
            if value["valueType"] == "stringValue":
                property_value = {"stringValue": value["value"]}
            elif value["valueType"] == "integerValue":
                property_value = {"integerValue": value["value"]}
            elif value["valueType"] == "booleanValue":
                property_value = {"booleanValue": value["value"]}
            elif value["valueType"] == "doubleValue":
                property_value = {"doubleValue": value["value"]}
            else:
                raise ValueError("Invalid valueType: %s", value["valueType"])
            entry = {
                "entryId": f"{self.entry_id}",
                "assetId": asset_id,
                "propertyId": value["propertyId"],
                "propertyValues": [
                    {
                        "value": property_value,
                        "timestamp": {
                            "timeInSeconds": int(epoch_ns / 1000000000),
                            "offsetInNanos": epoch_ns % 1000000000,
                        },
                    }
                ],
            }
            entries.append(entry)
        return entries


    def get_asset_property_value(
        self, asset_id: str, property_id: str
    ) -> Dict[str, Any]:
        """
        Gets the value of an AWS IoT SiteWise Asset Property.

        :param asset_id: The ID of the asset.
        :param property_id: The ID of the property.
        :return: A dictionary containing the value of the property.
        """
        try:
            response = self.iotsitewise_client.get_asset_property_value(
                assetId=asset_id, propertyId=property_id
            )
            return response["propertyValue"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Asset %s or property %s does not exist.", asset_id, property_id
                )
            else:
                logger.error(
                    "Error getting asset property value. Here's why %s",
                    err.response["Error"]["Message"],
                )
            raise


    def create_portal(
        self, portal_name: str, iam_role_arn: str, portal_contact_email: str
    ) -> str:
        """
        Creates an AWS IoT SiteWise Portal.

        :param portal_name: The name of the portal to create.
        :param iam_role_arn: The ARN of an IAM role.
        :param portal_contact_email: The contact email of the portal.
        :return: The ID of the created portal.
        """
        try:
            response = self.iotsitewise_client.create_portal(
                portalName=portal_name,
                roleArn=iam_role_arn,
                portalContactEmail=portal_contact_email,
            )
            portal_id = response["portalId"]
            waiter = self.iotsitewise_client.get_waiter("portal_active")
            waiter.wait(portalId=portal_id, WaiterConfig={"MaxAttempts": 40})
            return portal_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.error("Portal %s already exists.", portal_name)
            else:
                logger.error(
                    "Error creating portal %s. Here's why %s",
                    portal_name,
                    err.response["Error"]["Message"],
                )
            raise


    def describe_portal(self, portal_id: str) -> Dict[str, Any]:
        """
        Describes an AWS IoT SiteWise Portal.

        :param portal_id: The ID of the portal to describe.
        :return: A dictionary containing information about the portal.
        """
        try:
            response = self.iotsitewise_client.describe_portal(portalId=portal_id)
            return response
        except ClientError as err:
            logger.error(
                "Error describing portal %s. Here's why %s",
                portal_id,
                err.response["Error"]["Message"],
            )
            raise


    def create_gateway(self, gateway_name: str, my_thing: str) -> str:
        """
        Creates an AWS IoT SiteWise Gateway.

        :param gateway_name: The name of the gateway to create.
        :param my_thing: The core device thing name.
        :return: The ID of the created gateway.
        """
        try:
            response = self.iotsitewise_client.create_gateway(
                gatewayName=gateway_name,
                gatewayPlatform={
                    "greengrassV2": {"coreDeviceThingName": my_thing},
                },
                tags={"Environment": "Production"},
            )
            gateway_id = response["gatewayId"]
            return gateway_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.error("Gateway %s already exists.", gateway_name)
            else:
                logger.error(
                    "Error creating gateway %s. Here's why %s",
                    gateway_name,
                    err.response["Error"]["Message"],
                )
            raise


    def describe_gateway(self, gateway_id: str) -> Dict[str, Any]:
        """
        Describes an AWS IoT SiteWise Gateway.

        :param gateway_id: The ID of the gateway to describe.
        :return: A dictionary containing information about the gateway.
        """
        try:
            response = self.iotsitewise_client.describe_gateway(gatewayId=gateway_id)
            return response
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Gateway %s does not exist.", gateway_id)
            else:
                logger.error(
                    "Error describing gateway %s. Here's why %s",
                    gateway_id,
                    err.response["Error"]["Message"],
                )
            raise


    def delete_gateway(self, gateway_id: str) -> None:
        """
        Deletes an AWS IoT SiteWise Gateway.

        :param gateway_id: The ID of the gateway to delete.
        """
        try:
            self.iotsitewise_client.delete_gateway(gatewayId=gateway_id)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Gateway %s does not exist.", gateway_id)
            else:
                logger.error(
                    "Error deleting gateway %s. Here's why %s",
                    gateway_id,
                    err.response["Error"]["Message"],
                )
            raise


    def delete_portal(self, portal_id: str) -> None:
        """
        Deletes an AWS IoT SiteWise Portal.

        :param portal_id: The ID of the portal to delete.
        """
        try:
            self.iotsitewise_client.delete_portal(portalId=portal_id)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Portal %s does not exist.", portal_id)
            else:
                logger.error(
                    "Error deleting portal %s. Here's why %s",
                    portal_id,
                    err.response["Error"]["Message"],
                )
            raise


    def delete_asset(self, asset_id: str) -> None:
        """
        Deletes an AWS IoT SiteWise Asset.

        :param asset_id: The ID of the asset to delete.
        """
        try:
            self.iotsitewise_client.delete_asset(assetId=asset_id)
        except ClientError as err:
            logger.error(
                "Error deleting asset %s. Here's why %s",
                asset_id,
                err.response["Error"]["Message"],
            )
            raise


    def delete_asset_model(self, asset_model_id: str) -> None:
        """
        Deletes an AWS IoT SiteWise Asset Model.

        :param asset_model_id: The ID of the asset model to delete.
        """
        try:
            self.iotsitewise_client.delete_asset_model(assetModelId=asset_model_id)
        except ClientError as err:
            logger.error(
                "Error deleting asset model %s. Here's why %s",
                asset_model_id,
                err.response["Error"]["Message"],
            )
            raise


    def wait_asset_deleted(self, asset_id: str) -> None:
        """
        Waits for an AWS IoT SiteWise Asset to be deleted.

        :param asset_id: The ID of the asset to wait for.
        """
        try:
            waiter = self.iotsitewise_client.get_waiter("asset_not_exists")
            waiter.wait(assetId=asset_id)
        except ClientError as err:
            logger.error(
                "Error waiting for asset %s to be deleted. Here's why %s",
                asset_id,
                err.response["Error"]["Message"],
            )
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [BatchPutAssetPropertyValue](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/BatchPutAssetPropertyValue)
  + [CreateAsset](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/CreateAsset)
  + [CreateAssetModel](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/CreateAssetModel)
  + [CreateGateway](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/CreateGateway)
  + [DeleteAsset](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DeleteAsset)
  + [DeleteAssetModel](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DeleteAssetModel)
  + [DeleteGateway](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DeleteGateway)
  + [DescribeAssetModel](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DescribeAssetModel)
  + [DescribeGateway](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DescribeGateway)
  + [GetAssetPropertyValue](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/GetAssetPropertyValue)
  + [ListAssetModelProperties](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/ListAssetModelProperties)
  + [ListAssetModels](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/ListAssetModels)

## Tindakan
<a name="actions"></a>

### `BatchPutAssetPropertyValue`
<a name="iotsitewise_BatchPutAssetPropertyValue_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchPutAssetPropertyValue`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def batch_put_asset_property_value(
        self, asset_id: str, values: List[Dict[str, str]]
    ) -> None:
        """
        Sends data to an AWS IoT SiteWise Asset.

        :param asset_id: The asset ID.
        :param values: A list of dictionaries containing the values in the form
                        {propertyId : property_id,
                        valueType : [stringValue|integerValue|doubleValue|booleanValue],
                        value : the_value}.
        """
        try:
            entries = self.properties_to_values(asset_id, values)
            self.iotsitewise_client.batch_put_asset_property_value(entries=entries)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Asset %s does not exist.", asset_id)
            else:
                logger.error(
                    "Error sending data to asset. Here's why %s",
                    err.response["Error"]["Message"],
                )
            raise
```
Fungsi pembantu untuk menghasilkan parameter entri dari daftar nilai.   

```
    def properties_to_values(
        self, asset_id: str, values: list[dict[str, Any]]
    ) -> list[dict[str, Any]]:
        """
        Utility function to convert a values list to the entries parameter for batch_put_asset_property_value.
        :param asset_id : The asset ID.
        :param values : A list of dictionaries containing the values in the form
                        {propertyId : property_id,
                        valueType : [stringValue|integerValue|doubleValue|booleanValue],
                        value : the_value}.
        :return: An entries list to pass as the 'entries' parameter to batch_put_asset_property_value.
        """
        entries = []
        for value in values:
            epoch_ns = time.time_ns()
            self.entry_id += 1
            if value["valueType"] == "stringValue":
                property_value = {"stringValue": value["value"]}
            elif value["valueType"] == "integerValue":
                property_value = {"integerValue": value["value"]}
            elif value["valueType"] == "booleanValue":
                property_value = {"booleanValue": value["value"]}
            elif value["valueType"] == "doubleValue":
                property_value = {"doubleValue": value["value"]}
            else:
                raise ValueError("Invalid valueType: %s", value["valueType"])
            entry = {
                "entryId": f"{self.entry_id}",
                "assetId": asset_id,
                "propertyId": value["propertyId"],
                "propertyValues": [
                    {
                        "value": property_value,
                        "timestamp": {
                            "timeInSeconds": int(epoch_ns / 1000000000),
                            "offsetInNanos": epoch_ns % 1000000000,
                        },
                    }
                ],
            }
            entries.append(entry)
        return entries
```
Berikut adalah contoh daftar nilai untuk diteruskan ke fungsi pembantu.   

```
        values = [
            {
                "propertyId": humidity_property_id,
                "valueType": "doubleValue",
                "value": 65.0,
            },
            {
                "propertyId": temperature_property_id,
                "valueType": "doubleValue",
                "value": 23.5,
            },
        ]
```
+  Untuk detail API, lihat [BatchPutAssetPropertyValue](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/BatchPutAssetPropertyValue)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateAsset`
<a name="iotsitewise_CreateAsset_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAsset`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def create_asset(self, asset_name: str, asset_model_id: str) -> str:
        """
        Creates an AWS IoT SiteWise Asset.

        :param asset_name: The name of the asset to create.
        :param asset_model_id: The ID of the asset model to associate with the asset.
        :return: The ID of the created asset.
        """
        try:
            response = self.iotsitewise_client.create_asset(
                assetName=asset_name, assetModelId=asset_model_id
            )
            asset_id = response["assetId"]
            waiter = self.iotsitewise_client.get_waiter("asset_active")
            waiter.wait(assetId=asset_id)
            return asset_id
        except ClientError as err:
            if err.response["Error"] == "ResourceNotFoundException":
                logger.error("Asset model %s does not exist.", asset_model_id)
            else:
                logger.error(
                    "Error creating asset %s. Here's why %s",
                    asset_name,
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [CreateAsset](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/CreateAsset)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateAssetModel`
<a name="iotsitewise_CreateAssetModel_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAssetModel`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def create_asset_model(
        self, asset_model_name: str, properties: List[Dict[str, Any]]
    ) -> str:
        """
        Creates an AWS IoT SiteWise Asset Model.

        :param asset_model_name: The name of the asset model to create.
        :param properties: The property definitions of the asset model.
        :return: The ID of the created asset model.
        """
        try:
            response = self.iotsitewise_client.create_asset_model(
                assetModelName=asset_model_name,
                assetModelDescription="This is a sample asset model description.",
                assetModelProperties=properties,
            )
            asset_model_id = response["assetModelId"]
            waiter = self.iotsitewise_client.get_waiter("asset_model_active")
            waiter.wait(assetModelId=asset_model_id)
            return asset_model_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.error("Asset model %s already exists.", asset_model_name)
            else:
                logger.error(
                    "Error creating asset model %s. Here's why %s",
                    asset_model_name,
                    err.response["Error"]["Message"],
                )
            raise
```
Berikut adalah contoh daftar properti untuk diteruskan ke fungsi.   

```
            properties = [
                {
                    "name": temperature_property_name,
                    "dataType": "DOUBLE",
                    "type": {
                        "measurement": {},
                    },
                },
                {
                    "name": humidity_property_name,
                    "dataType": "DOUBLE",
                    "type": {
                        "measurement": {},
                    },
                },
            ]
```
+  Untuk detail API, lihat [CreateAssetModel](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/CreateAssetModel)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateGateway`
<a name="iotsitewise_CreateGateway_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGateway`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def create_gateway(self, gateway_name: str, my_thing: str) -> str:
        """
        Creates an AWS IoT SiteWise Gateway.

        :param gateway_name: The name of the gateway to create.
        :param my_thing: The core device thing name.
        :return: The ID of the created gateway.
        """
        try:
            response = self.iotsitewise_client.create_gateway(
                gatewayName=gateway_name,
                gatewayPlatform={
                    "greengrassV2": {"coreDeviceThingName": my_thing},
                },
                tags={"Environment": "Production"},
            )
            gateway_id = response["gatewayId"]
            return gateway_id
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceAlreadyExistsException":
                logger.error("Gateway %s already exists.", gateway_name)
            else:
                logger.error(
                    "Error creating gateway %s. Here's why %s",
                    gateway_name,
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [CreateGateway](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/CreateGateway)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteAsset`
<a name="iotsitewise_DeleteAsset_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAsset`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def delete_asset(self, asset_id: str) -> None:
        """
        Deletes an AWS IoT SiteWise Asset.

        :param asset_id: The ID of the asset to delete.
        """
        try:
            self.iotsitewise_client.delete_asset(assetId=asset_id)
        except ClientError as err:
            logger.error(
                "Error deleting asset %s. Here's why %s",
                asset_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteAsset](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DeleteAsset)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteAssetModel`
<a name="iotsitewise_DeleteAssetModel_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAssetModel`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def delete_asset_model(self, asset_model_id: str) -> None:
        """
        Deletes an AWS IoT SiteWise Asset Model.

        :param asset_model_id: The ID of the asset model to delete.
        """
        try:
            self.iotsitewise_client.delete_asset_model(assetModelId=asset_model_id)
        except ClientError as err:
            logger.error(
                "Error deleting asset model %s. Here's why %s",
                asset_model_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteAssetModel](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DeleteAssetModel)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteGateway`
<a name="iotsitewise_DeleteGateway_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteGateway`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def delete_gateway(self, gateway_id: str) -> None:
        """
        Deletes an AWS IoT SiteWise Gateway.

        :param gateway_id: The ID of the gateway to delete.
        """
        try:
            self.iotsitewise_client.delete_gateway(gatewayId=gateway_id)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Gateway %s does not exist.", gateway_id)
            else:
                logger.error(
                    "Error deleting gateway %s. Here's why %s",
                    gateway_id,
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [DeleteGateway](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DeleteGateway)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeGateway`
<a name="iotsitewise_DescribeGateway_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeGateway`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def describe_gateway(self, gateway_id: str) -> Dict[str, Any]:
        """
        Describes an AWS IoT SiteWise Gateway.

        :param gateway_id: The ID of the gateway to describe.
        :return: A dictionary containing information about the gateway.
        """
        try:
            response = self.iotsitewise_client.describe_gateway(gatewayId=gateway_id)
            return response
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Gateway %s does not exist.", gateway_id)
            else:
                logger.error(
                    "Error describing gateway %s. Here's why %s",
                    gateway_id,
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [DescribeGateway](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/DescribeGateway)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetAssetPropertyValue`
<a name="iotsitewise_GetAssetPropertyValue_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAssetPropertyValue`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def get_asset_property_value(
        self, asset_id: str, property_id: str
    ) -> Dict[str, Any]:
        """
        Gets the value of an AWS IoT SiteWise Asset Property.

        :param asset_id: The ID of the asset.
        :param property_id: The ID of the property.
        :return: A dictionary containing the value of the property.
        """
        try:
            response = self.iotsitewise_client.get_asset_property_value(
                assetId=asset_id, propertyId=property_id
            )
            return response["propertyValue"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error(
                    "Asset %s or property %s does not exist.", asset_id, property_id
                )
            else:
                logger.error(
                    "Error getting asset property value. Here's why %s",
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [GetAssetPropertyValue](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/GetAssetPropertyValue)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListAssetModels`
<a name="iotsitewise_ListAssetModels_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAssetModels`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/iotsitewise#code-examples). 

```
class IoTSitewiseWrapper:
    """Encapsulates AWS IoT SiteWise actions using the client interface."""

    def __init__(self, iotsitewise_client: client) -> None:
        """
        Initializes the IoTSitewiseWrapper with an AWS IoT SiteWise client.

        :param iotsitewise_client: A Boto3 AWS IoT SiteWise client. This client provides low-level
                           access to AWS IoT SiteWise services.
        """
        self.iotsitewise_client = iotsitewise_client
        self.entry_id = 0 # Incremented to generate unique entry IDs for batch_put_asset_property_value.

    @classmethod
    def from_client(cls) -> "IoTSitewiseWrapper":
        """
        Creates an IoTSitewiseWrapper instance with a default AWS IoT SiteWise client.

        :return: An instance of IoTSitewiseWrapper initialized with the default AWS IoT SiteWise client.
        """
        iotsitewise_client = boto3.client("iotsitewise")
        return cls(iotsitewise_client)


    def list_asset_models(self) -> List[Dict[str, Any]]:
        """
        Lists all AWS IoT SiteWise Asset Models.

        :return: A list of dictionaries containing information about each asset model.

        """
        try:
            asset_models = []
            paginator = self.iotsitewise_client.get_paginator("list_asset_models")
            pages = paginator.paginate()
            for page in pages:
                asset_models.extend(page["assetModelSummaries"])
            return asset_models
        except ClientError as err:
            logger.error(
                "Error listing asset models. Here's why %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListAssetModels](https://docs.aws.amazon.com/goto/boto3/iotsitewise-2019-12-02/ListAssetModels)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Amazon Keyspaces menggunakan SDK for Python (Boto3)
<a name="python_3_keyspaces_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Amazon Keyspaces.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Keyspaces
<a name="keyspaces_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Keyspaces.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
import boto3


def hello_keyspaces(keyspaces_client):
    """
    Use the AWS SDK for Python (Boto3) to create an Amazon Keyspaces (for Apache Cassandra)
    client and list the keyspaces in your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param keyspaces_client: A Boto3 Amazon Keyspaces Client object. This object wraps
                             the low-level Amazon Keyspaces service API.
    """
    print("Hello, Amazon Keyspaces! Let's list some of your keyspaces:\n")
    for ks in keyspaces_client.list_keyspaces(maxResults=5).get("keyspaces", []):
        print(ks["keyspaceName"])
        print(f"\t{ks['resourceArn']}")


if __name__ == "__main__":
    hello_keyspaces(boto3.client("keyspaces"))
```
+  Untuk detail API, lihat [ListKeyspaces](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/ListKeyspaces)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="keyspaces_Scenario_GetStartedKeyspaces_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat keyspace dan tabel. Skema tabel menyimpan data film dan mengaktifkan point-in-time pemulihan.
+ Connect ke keyspace menggunakan koneksi TLS aman dengan otentikasi SiGv4.
+ Kueri tabel. Tambahkan, ambil, dan perbarui data film.
+ Perbarui tabel. Tambahkan kolom untuk melacak film yang ditonton.
+ Kembalikan tabel ke keadaan sebelumnya dan bersihkan sumber daya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class KeyspaceScenario:
    """Runs an interactive scenario that shows how to get started using Amazon Keyspaces."""

    def __init__(self, ks_wrapper):
        """
        :param ks_wrapper: An object that wraps Amazon Keyspace actions.
        """
        self.ks_wrapper = ks_wrapper

    @demo_func
    def create_keyspace(self):
        """
        1. Creates a keyspace.
        2. Lists up to 10 keyspaces in your account.
        """
        print("Let's create a keyspace.")
        ks_name = q.ask(
            "Enter a name for your new keyspace.\nThe name can contain only letters, "
            "numbers and underscores: ",
            q.non_empty,
        )
        if self.ks_wrapper.exists_keyspace(ks_name):
            print(f"A keyspace named {ks_name} exists.")
        else:
            ks_arn = self.ks_wrapper.create_keyspace(ks_name)
            ks_exists = False
            while not ks_exists:
                wait(3)
                ks_exists = self.ks_wrapper.exists_keyspace(ks_name)
            print(f"Created a new keyspace.\n\t{ks_arn}.")
        print("The first 10 keyspaces in your account are:\n")
        self.ks_wrapper.list_keyspaces(10)

    @demo_func
    def create_table(self):
        """
        1. Creates a table in the keyspace. The table is configured with a schema to hold
           movie data and has point-in-time recovery enabled.
        2. Waits for the table to be in an active state.
        3. Displays schema information for the table.
        4. Lists tables in the keyspace.
        """
        print("Let's create a table for movies in your keyspace.")
        table_name = q.ask("Enter a name for your table: ", q.non_empty)
        table = self.ks_wrapper.get_table(table_name)
        if table is not None:
            print(
                f"A table named {table_name} already exists in keyspace "
                f"{self.ks_wrapper.ks_name}."
            )
        else:
            table_arn = self.ks_wrapper.create_table(table_name)
            print(f"Created table {table_name}:\n\t{table_arn}")
            table = {"status": None}
            print("Waiting for your table to be ready...")
            while table["status"] != "ACTIVE":
                wait(5)
                table = self.ks_wrapper.get_table(table_name)
        print(f"Your table is {table['status']}. Its schema is:")
        pp(table["schemaDefinition"])
        print("\nThe tables in your keyspace are:\n")
        self.ks_wrapper.list_tables()

    @demo_func
    def ensure_tls_cert(self):
        """
        Ensures you have a TLS certificate available to use to secure the connection
        to the keyspace. This function downloads a default certificate or lets you
        specify your own.
        """
        print("To connect to your keyspace, you must have a TLS certificate.")
        print("Checking for TLS certificate...")
        cert_path = os.path.join(
            os.path.dirname(__file__), QueryManager.DEFAULT_CERT_FILE
        )
        if not os.path.exists(cert_path):
            cert_choice = q.ask(
                f"Press enter to download a certificate from {QueryManager.CERT_URL} "
                f"or enter the full path to the certificate you want to use: "
            )
            if cert_choice:
                cert_path = cert_choice
            else:
                cert = requests.get(QueryManager.CERT_URL).text
                with open(cert_path, "w") as cert_file:
                    cert_file.write(cert)
        else:
            q.ask(f"Certificate {cert_path} found. Press Enter to continue.")
        print(
            f"Certificate {cert_path} will be used to secure the connection to your keyspace."
        )
        return cert_path

    @demo_func
    def query_table(self, qm, movie_file):
        """
        1. Adds movies to the table from a sample movie data file.
        2. Gets a list of movies from the table and lets you select one.
        3. Displays more information about the selected movie.
        """
        qm.add_movies(self.ks_wrapper.table_name, movie_file)
        movies = qm.get_movies(self.ks_wrapper.table_name)
        print(f"Added {len(movies)} movies to the table:")
        sel = q.choose("Pick one to learn more about it: ", [m.title for m in movies])
        movie_choice = qm.get_movie(
            self.ks_wrapper.table_name, movies[sel].title, movies[sel].year
        )
        print(movie_choice.title)
        print(f"\tReleased: {movie_choice.release_date}")
        print(f"\tPlot: {movie_choice.plot}")

    @demo_func
    def update_and_restore_table(self, qm):
        """
        1. Updates the table by adding a column to track watched movies.
        2. Marks some of the movies as watched.
        3. Gets the list of watched movies from the table.
        4. Restores to a movies_restored table at a previous point in time.
        5. Gets the list of movies from the restored table.
        """
        print("Let's add a column to record which movies you've watched.")
        pre_update_timestamp = datetime.utcnow()
        print(
            f"Recorded the current UTC time of {pre_update_timestamp} so we can restore the table later."
        )
        self.ks_wrapper.update_table()
        print("Waiting for your table to update...")
        table = {"status": "UPDATING"}
        while table["status"] != "ACTIVE":
            wait(5)
            table = self.ks_wrapper.get_table(self.ks_wrapper.table_name)
        print("Column 'watched' added to table.")
        q.ask(
            "Let's mark some of the movies as watched. Press Enter when you're ready.\n"
        )
        movies = qm.get_movies(self.ks_wrapper.table_name)
        for movie in movies[:10]:
            qm.watched_movie(self.ks_wrapper.table_name, movie.title, movie.year)
            print(f"Marked {movie.title} as watched.")
        movies = qm.get_movies(self.ks_wrapper.table_name, watched=True)
        print("-" * 88)
        print("The watched movies in our table are:\n")
        for movie in movies:
            print(movie.title)
        print("-" * 88)
        if q.ask(
            "Do you want to restore the table to the way it was before all of these\n"
            "updates? Keep in mind, this can take up to 20 minutes. (y/n) ",
            q.is_yesno,
        ):
            starting_table_name = self.ks_wrapper.table_name
            table_name_restored = self.ks_wrapper.restore_table(pre_update_timestamp)
            table = {"status": "RESTORING"}
            while table["status"] != "ACTIVE":
                wait(10)
                table = self.ks_wrapper.get_table(table_name_restored)
            print(
                f"Restored {starting_table_name} to {table_name_restored} "
                f"at a point in time of {pre_update_timestamp}."
            )
            movies = qm.get_movies(table_name_restored)
            print("Now the movies in our table are:")
            for movie in movies:
                print(movie.title)

    def cleanup(self, cert_path):
        """
        1. Deletes the table and waits for it to be removed.
        2. Deletes the keyspace.

        :param cert_path: The path of the TLS certificate used in the demo. If the
                          certificate was downloaded during the demo, it is removed.
        """
        if q.ask(
            f"Do you want to delete your {self.ks_wrapper.table_name} table and "
            f"{self.ks_wrapper.ks_name} keyspace? (y/n) ",
            q.is_yesno,
        ):
            table_name = self.ks_wrapper.table_name
            self.ks_wrapper.delete_table()
            table = self.ks_wrapper.get_table(table_name)
            print("Waiting for the table to be deleted.")
            while table is not None:
                wait(5)
                table = self.ks_wrapper.get_table(table_name)
            print("Table deleted.")
            self.ks_wrapper.delete_keyspace()
            print(
                "Keyspace deleted. If you chose to restore your table during the "
                "demo, the original table is also deleted."
            )
            if cert_path == os.path.join(
                os.path.dirname(__file__), QueryManager.DEFAULT_CERT_FILE
            ) and os.path.exists(cert_path):
                os.remove(cert_path)
                print("Removed certificate that was downloaded for this demo.")

    def run_scenario(self):
        logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

        print("-" * 88)
        print("Welcome to the Amazon Keyspaces (for Apache Cassandra) demo.")
        print("-" * 88)

        self.create_keyspace()
        self.create_table()
        cert_file_path = self.ensure_tls_cert()
        # Use a context manager to ensure the connection to the keyspace is closed.
        with QueryManager(
            cert_file_path, boto3.DEFAULT_SESSION, self.ks_wrapper.ks_name
        ) as qm:
            self.query_table(qm, "../../../resources/sample_files/movies.json")
            self.update_and_restore_table(qm)
        self.cleanup(cert_file_path)

        print("\nThanks for watching!")
        print("-" * 88)


if __name__ == "__main__":
    try:
        scenario = KeyspaceScenario(KeyspaceWrapper.from_client())
        scenario.run_scenario()
    except Exception:
        logging.exception("Something went wrong with the demo.")
```
Tentukan kelas yang membungkus tindakan keyspace dan tabel.  

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def create_keyspace(self, name):
        """
        Creates a keyspace.

        :param name: The name to give the keyspace.
        :return: The Amazon Resource Name (ARN) of the new keyspace.
        """
        try:
            response = self.keyspaces_client.create_keyspace(keyspaceName=name)
            self.ks_name = name
            self.ks_arn = response["resourceArn"]
        except ClientError as err:
            logger.error(
                "Couldn't create %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return self.ks_arn


    def exists_keyspace(self, name):
        """
        Checks whether a keyspace exists.

        :param name: The name of the keyspace to look up.
        :return: True when the keyspace exists. Otherwise, False.
        """
        try:
            response = self.keyspaces_client.get_keyspace(keyspaceName=name)
            self.ks_name = response["keyspaceName"]
            self.ks_arn = response["resourceArn"]
            exists = True
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.info("Keyspace %s does not exist.", name)
                exists = False
            else:
                logger.error(
                    "Couldn't verify %s exists. Here's why: %s: %s",
                    name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return exists


    def list_keyspaces(self, limit):
        """
        Lists the keyspaces in your account.

        :param limit: The maximum number of keyspaces to list.
        """
        try:
            ks_paginator = self.keyspaces_client.get_paginator("list_keyspaces")
            for page in ks_paginator.paginate(PaginationConfig={"MaxItems": limit}):
                for ks in page["keyspaces"]:
                    print(ks["keyspaceName"])
                    print(f"\t{ks['resourceArn']}")
        except ClientError as err:
            logger.error(
                "Couldn't list keyspaces. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def create_table(self, table_name):
        """
        Creates a table in the  keyspace.
        The table is created with a schema for storing movie data
        and has point-in-time recovery enabled.

        :param table_name: The name to give the table.
        :return: The ARN of the new table.
        """
        try:
            response = self.keyspaces_client.create_table(
                keyspaceName=self.ks_name,
                tableName=table_name,
                schemaDefinition={
                    "allColumns": [
                        {"name": "title", "type": "text"},
                        {"name": "year", "type": "int"},
                        {"name": "release_date", "type": "timestamp"},
                        {"name": "plot", "type": "text"},
                    ],
                    "partitionKeys": [{"name": "year"}, {"name": "title"}],
                },
                pointInTimeRecovery={"status": "ENABLED"},
            )
        except ClientError as err:
            logger.error(
                "Couldn't create table %s. Here's why: %s: %s",
                table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["resourceArn"]


    def get_table(self, table_name):
        """
        Gets data about a table in the keyspace.

        :param table_name: The name of the table to look up.
        :return: Data about the table.
        """
        try:
            response = self.keyspaces_client.get_table(
                keyspaceName=self.ks_name, tableName=table_name
            )
            self.table_name = table_name
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.info("Table %s does not exist.", table_name)
                self.table_name = None
                response = None
            else:
                logger.error(
                    "Couldn't verify %s exists. Here's why: %s: %s",
                    table_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return response


    def list_tables(self):
        """
        Lists the tables in the keyspace.
        """
        try:
            table_paginator = self.keyspaces_client.get_paginator("list_tables")
            for page in table_paginator.paginate(keyspaceName=self.ks_name):
                for table in page["tables"]:
                    print(table["tableName"])
                    print(f"\t{table['resourceArn']}")
        except ClientError as err:
            logger.error(
                "Couldn't list tables in keyspace %s. Here's why: %s: %s",
                self.ks_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def update_table(self):
        """
        Updates the schema of the table.

        This example updates a table of movie data by adding a new column
        that tracks whether the movie has been watched.
        """
        try:
            self.keyspaces_client.update_table(
                keyspaceName=self.ks_name,
                tableName=self.table_name,
                addColumns=[{"name": "watched", "type": "boolean"}],
            )
        except ClientError as err:
            logger.error(
                "Couldn't update table %s. Here's why: %s: %s",
                self.table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def restore_table(self, restore_timestamp):
        """
        Restores the table to a previous point in time. The table is restored
        to a new table in the same keyspace.

        :param restore_timestamp: The point in time to restore the table. This time
                                  must be in UTC format.
        :return: The name of the restored table.
        """
        try:
            restored_table_name = f"{self.table_name}_restored"
            self.keyspaces_client.restore_table(
                sourceKeyspaceName=self.ks_name,
                sourceTableName=self.table_name,
                targetKeyspaceName=self.ks_name,
                targetTableName=restored_table_name,
                restoreTimestamp=restore_timestamp,
            )
        except ClientError as err:
            logger.error(
                "Couldn't restore table %s. Here's why: %s: %s",
                restore_timestamp,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return restored_table_name


    def delete_table(self):
        """
        Deletes the table from the keyspace.
        """
        try:
            self.keyspaces_client.delete_table(
                keyspaceName=self.ks_name, tableName=self.table_name
            )
            self.table_name = None
        except ClientError as err:
            logger.error(
                "Couldn't delete table %s. Here's why: %s: %s",
                self.table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_keyspace(self):
        """
        Deletes the keyspace.
        """
        try:
            self.keyspaces_client.delete_keyspace(keyspaceName=self.ks_name)
            self.ks_name = None
        except ClientError as err:
            logger.error(
                "Couldn't delete keyspace %s. Here's why: %s: %s",
                self.ks_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Tentukan kelas yang membuat koneksi TLS ke ruang kunci, mengautentikasi dengan SigV4, dan mengirimkan kueri CQL ke tabel di ruang kunci.  

```
class QueryManager:
    """
    Manages queries to an Amazon Keyspaces (for Apache Cassandra) keyspace.
    Queries are secured by TLS and authenticated by using the Signature V4 (SigV4)
    AWS signing protocol. This is more secure than sending username and password
    with a plain-text authentication provider.

    This example downloads a default certificate to secure TLS, or lets you specify
    your own.

    This example uses a table of movie data to demonstrate basic queries.
    """

    DEFAULT_CERT_FILE = "sf-class2-root.crt"
    CERT_URL = f"https://certs.secureserver.net/repository/sf-class2-root.crt"

    def __init__(self, cert_file_path, boto_session, keyspace_name):
        """
        :param cert_file_path: The path and file name of the certificate used for TLS.
        :param boto_session: A Boto3 session. This is used to acquire your AWS credentials.
        :param keyspace_name: The name of the keyspace to connect.
        """
        self.cert_file_path = cert_file_path
        self.boto_session = boto_session
        self.ks_name = keyspace_name
        self.cluster = None
        self.session = None

    def __enter__(self):
        """
        Creates a session connection to the keyspace that is secured by TLS and
        authenticated by SigV4.
        """
        ssl_context = SSLContext(PROTOCOL_TLSv1_2)
        ssl_context.load_verify_locations(self.cert_file_path)
        ssl_context.verify_mode = CERT_REQUIRED
        auth_provider = SigV4AuthProvider(self.boto_session)
        contact_point = f"cassandra.{self.boto_session.region_name}.amazonaws.com"
        exec_profile = ExecutionProfile(
            consistency_level=ConsistencyLevel.LOCAL_QUORUM,
            load_balancing_policy=DCAwareRoundRobinPolicy(),
        )
        self.cluster = Cluster(
            [contact_point],
            ssl_context=ssl_context,
            auth_provider=auth_provider,
            port=9142,
            execution_profiles={EXEC_PROFILE_DEFAULT: exec_profile},
            protocol_version=4,
        )
        self.cluster.__enter__()
        self.session = self.cluster.connect(self.ks_name)
        return self

    def __exit__(self, *args):
        """
        Exits the cluster. This shuts down all existing session connections.
        """
        self.cluster.__exit__(*args)

    def add_movies(self, table_name, movie_file_path):
        """
        Gets movies from a JSON file and adds them to a table in the keyspace.

        :param table_name: The name of the table.
        :param movie_file_path: The path and file name of a JSON file that contains movie data.
        """
        with open(movie_file_path, "r") as movie_file:
            movies = json.loads(movie_file.read())
        stmt = self.session.prepare(
            f"INSERT INTO {table_name} (year, title, release_date, plot) VALUES (?, ?, ?, ?);"
        )
        for movie in movies[:20]:
            self.session.execute(
                stmt,
                parameters=[
                    movie["year"],
                    movie["title"],
                    date.fromisoformat(movie["info"]["release_date"].partition("T")[0]),
                    movie["info"]["plot"],
                ],
            )

    def get_movies(self, table_name, watched=None):
        """
        Gets the title and year of the full list of movies from the table.

        :param table_name: The name of the movie table.
        :param watched: When specified, the returned list of movies is filtered to
                        either movies that have been watched or movies that have not
                        been watched. Otherwise, all movies are returned.
        :return: A list of movies in the table.
        """
        if watched is None:
            stmt = SimpleStatement(f"SELECT title, year from {table_name}")
            params = None
        else:
            stmt = SimpleStatement(
                f"SELECT title, year from {table_name} WHERE watched = %s ALLOW FILTERING"
            )
            params = [watched]
        return self.session.execute(stmt, parameters=params).all()

    def get_movie(self, table_name, title, year):
        """
        Gets a single movie from the table, by title and year.

        :param table_name: The name of the movie table.
        :param title: The title of the movie.
        :param year: The year of the movie's release.
        :return: The requested movie.
        """
        return self.session.execute(
            SimpleStatement(
                f"SELECT * from {table_name} WHERE title = %s AND year = %s"
            ),
            parameters=[title, year],
        ).one()

    def watched_movie(self, table_name, title, year):
        """
        Updates a movie as having been watched.

        :param table_name: The name of the movie table.
        :param title: The title of the movie.
        :param year: The year of the movie's release.
        """
        self.session.execute(
            SimpleStatement(
                f"UPDATE {table_name} SET watched=true WHERE title = %s AND year = %s"
            ),
            parameters=[title, year],
        )
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateKeyspace](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/CreateKeyspace)
  + [CreateTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/CreateTable)
  + [DeleteKeyspace](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/DeleteKeyspace)
  + [DeleteTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/DeleteTable)
  + [GetKeyspace](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/GetKeyspace)
  + [GetTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/GetTable)
  + [ListKeyspaces](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/ListKeyspaces)
  + [ListTables](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/ListTables)
  + [RestoreTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/RestoreTable)
  + [UpdateTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/UpdateTable)

## Tindakan
<a name="actions"></a>

### `CreateKeyspace`
<a name="keyspaces_CreateKeyspace_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyspace`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def create_keyspace(self, name):
        """
        Creates a keyspace.

        :param name: The name to give the keyspace.
        :return: The Amazon Resource Name (ARN) of the new keyspace.
        """
        try:
            response = self.keyspaces_client.create_keyspace(keyspaceName=name)
            self.ks_name = name
            self.ks_arn = response["resourceArn"]
        except ClientError as err:
            logger.error(
                "Couldn't create %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return self.ks_arn
```
+  Untuk detail API, lihat [CreateKeyspace](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/CreateKeyspace)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateTable`
<a name="keyspaces_CreateTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def create_table(self, table_name):
        """
        Creates a table in the  keyspace.
        The table is created with a schema for storing movie data
        and has point-in-time recovery enabled.

        :param table_name: The name to give the table.
        :return: The ARN of the new table.
        """
        try:
            response = self.keyspaces_client.create_table(
                keyspaceName=self.ks_name,
                tableName=table_name,
                schemaDefinition={
                    "allColumns": [
                        {"name": "title", "type": "text"},
                        {"name": "year", "type": "int"},
                        {"name": "release_date", "type": "timestamp"},
                        {"name": "plot", "type": "text"},
                    ],
                    "partitionKeys": [{"name": "year"}, {"name": "title"}],
                },
                pointInTimeRecovery={"status": "ENABLED"},
            )
        except ClientError as err:
            logger.error(
                "Couldn't create table %s. Here's why: %s: %s",
                table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["resourceArn"]
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/CreateTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteKeyspace`
<a name="keyspaces_DeleteKeyspace_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyspace`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def delete_keyspace(self):
        """
        Deletes the keyspace.
        """
        try:
            self.keyspaces_client.delete_keyspace(keyspaceName=self.ks_name)
            self.ks_name = None
        except ClientError as err:
            logger.error(
                "Couldn't delete keyspace %s. Here's why: %s: %s",
                self.ks_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteKeyspace](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/DeleteKeyspace)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteTable`
<a name="keyspaces_DeleteTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def delete_table(self):
        """
        Deletes the table from the keyspace.
        """
        try:
            self.keyspaces_client.delete_table(
                keyspaceName=self.ks_name, tableName=self.table_name
            )
            self.table_name = None
        except ClientError as err:
            logger.error(
                "Couldn't delete table %s. Here's why: %s: %s",
                self.table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/DeleteTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetKeyspace`
<a name="keyspaces_GetKeyspace_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetKeyspace`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def exists_keyspace(self, name):
        """
        Checks whether a keyspace exists.

        :param name: The name of the keyspace to look up.
        :return: True when the keyspace exists. Otherwise, False.
        """
        try:
            response = self.keyspaces_client.get_keyspace(keyspaceName=name)
            self.ks_name = response["keyspaceName"]
            self.ks_arn = response["resourceArn"]
            exists = True
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.info("Keyspace %s does not exist.", name)
                exists = False
            else:
                logger.error(
                    "Couldn't verify %s exists. Here's why: %s: %s",
                    name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return exists
```
+  Untuk detail API, lihat [GetKeyspace](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/GetKeyspace)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetTable`
<a name="keyspaces_GetTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def get_table(self, table_name):
        """
        Gets data about a table in the keyspace.

        :param table_name: The name of the table to look up.
        :return: Data about the table.
        """
        try:
            response = self.keyspaces_client.get_table(
                keyspaceName=self.ks_name, tableName=table_name
            )
            self.table_name = table_name
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.info("Table %s does not exist.", table_name)
                self.table_name = None
                response = None
            else:
                logger.error(
                    "Couldn't verify %s exists. Here's why: %s: %s",
                    table_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return response
```
+  Untuk detail API, lihat [GetTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/GetTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListKeyspaces`
<a name="keyspaces_ListKeyspaces_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeyspaces`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def list_keyspaces(self, limit):
        """
        Lists the keyspaces in your account.

        :param limit: The maximum number of keyspaces to list.
        """
        try:
            ks_paginator = self.keyspaces_client.get_paginator("list_keyspaces")
            for page in ks_paginator.paginate(PaginationConfig={"MaxItems": limit}):
                for ks in page["keyspaces"]:
                    print(ks["keyspaceName"])
                    print(f"\t{ks['resourceArn']}")
        except ClientError as err:
            logger.error(
                "Couldn't list keyspaces. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListKeyspaces](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/ListKeyspaces)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListTables`
<a name="keyspaces_ListTables_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def list_tables(self):
        """
        Lists the tables in the keyspace.
        """
        try:
            table_paginator = self.keyspaces_client.get_paginator("list_tables")
            for page in table_paginator.paginate(keyspaceName=self.ks_name):
                for table in page["tables"]:
                    print(table["tableName"])
                    print(f"\t{table['resourceArn']}")
        except ClientError as err:
            logger.error(
                "Couldn't list tables in keyspace %s. Here's why: %s: %s",
                self.ks_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/ListTables)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RestoreTable`
<a name="keyspaces_RestoreTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RestoreTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def restore_table(self, restore_timestamp):
        """
        Restores the table to a previous point in time. The table is restored
        to a new table in the same keyspace.

        :param restore_timestamp: The point in time to restore the table. This time
                                  must be in UTC format.
        :return: The name of the restored table.
        """
        try:
            restored_table_name = f"{self.table_name}_restored"
            self.keyspaces_client.restore_table(
                sourceKeyspaceName=self.ks_name,
                sourceTableName=self.table_name,
                targetKeyspaceName=self.ks_name,
                targetTableName=restored_table_name,
                restoreTimestamp=restore_timestamp,
            )
        except ClientError as err:
            logger.error(
                "Couldn't restore table %s. Here's why: %s: %s",
                restore_timestamp,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return restored_table_name
```
+  Untuk detail API, lihat [RestoreTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/RestoreTable)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateTable`
<a name="keyspaces_UpdateTable_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTable`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/keyspaces#code-examples). 

```
class KeyspaceWrapper:
    """Encapsulates Amazon Keyspaces (for Apache Cassandra) keyspace and table actions."""

    def __init__(self, keyspaces_client):
        """
        :param keyspaces_client: A Boto3 Amazon Keyspaces client.
        """
        self.keyspaces_client = keyspaces_client
        self.ks_name = None
        self.ks_arn = None
        self.table_name = None

    @classmethod
    def from_client(cls):
        keyspaces_client = boto3.client("keyspaces")
        return cls(keyspaces_client)


    def update_table(self):
        """
        Updates the schema of the table.

        This example updates a table of movie data by adding a new column
        that tracks whether the movie has been watched.
        """
        try:
            self.keyspaces_client.update_table(
                keyspaceName=self.ks_name,
                tableName=self.table_name,
                addColumns=[{"name": "watched", "type": "boolean"}],
            )
        except ClientError as err:
            logger.error(
                "Couldn't update table %s. Here's why: %s: %s",
                self.table_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/goto/boto3/keyspaces-2022-02-10/UpdateTable)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Kinesis menggunakan SDK for Python (Boto3)
<a name="python_3_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) Kinesis with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CreateStream`
<a name="kinesis_CreateStream_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStream`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
class KinesisStream:
    """Encapsulates a Kinesis stream."""

    def __init__(self, kinesis_client):
        """
        :param kinesis_client: A Boto3 Kinesis client.
        """
        self.kinesis_client = kinesis_client
        self.name = None
        self.details = None
        self.stream_exists_waiter = kinesis_client.get_waiter("stream_exists")


    def create(self, name, wait_until_exists=True):
        """
        Creates a stream.

        :param name: The name of the stream.
        :param wait_until_exists: When True, waits until the service reports that
                                  the stream exists, then queries for its metadata.
        """
        try:
            self.kinesis_client.create_stream(StreamName=name, ShardCount=1)
            self.name = name
            logger.info("Created stream %s.", name)
            if wait_until_exists:
                logger.info("Waiting until exists.")
                self.stream_exists_waiter.wait(StreamName=name)
                self.describe(name)
        except ClientError:
            logger.exception("Couldn't create stream %s.", name)
            raise
```
+  Untuk detail API, lihat [CreateStream](https://docs.aws.amazon.com/goto/boto3/kinesis-2013-12-02/CreateStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteStream`
<a name="kinesis_DeleteStream_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStream`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
class KinesisStream:
    """Encapsulates a Kinesis stream."""

    def __init__(self, kinesis_client):
        """
        :param kinesis_client: A Boto3 Kinesis client.
        """
        self.kinesis_client = kinesis_client
        self.name = None
        self.details = None
        self.stream_exists_waiter = kinesis_client.get_waiter("stream_exists")


    def delete(self):
        """
        Deletes a stream.
        """
        try:
            self.kinesis_client.delete_stream(StreamName=self.name)
            self._clear()
            logger.info("Deleted stream %s.", self.name)
        except ClientError:
            logger.exception("Couldn't delete stream %s.", self.name)
            raise
```
+  Untuk detail API, lihat [DeleteStream](https://docs.aws.amazon.com/goto/boto3/kinesis-2013-12-02/DeleteStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeStream`
<a name="kinesis_DescribeStream_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStream`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
class KinesisStream:
    """Encapsulates a Kinesis stream."""

    def __init__(self, kinesis_client):
        """
        :param kinesis_client: A Boto3 Kinesis client.
        """
        self.kinesis_client = kinesis_client
        self.name = None
        self.details = None
        self.stream_exists_waiter = kinesis_client.get_waiter("stream_exists")


    def describe(self, name):
        """
        Gets metadata about a stream.

        :param name: The name of the stream.
        :return: Metadata about the stream.
        """
        try:
            response = self.kinesis_client.describe_stream(StreamName=name)
            self.name = name
            self.details = response["StreamDescription"]
            logger.info("Got stream %s.", name)
        except ClientError:
            logger.exception("Couldn't get %s.", name)
            raise
        else:
            return self.details
```
+  Untuk detail API, lihat [DescribeStream](https://docs.aws.amazon.com/goto/boto3/kinesis-2013-12-02/DescribeStream)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetRecords`
<a name="kinesis_GetRecords_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRecords`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
class KinesisStream:
    """Encapsulates a Kinesis stream."""

    def __init__(self, kinesis_client):
        """
        :param kinesis_client: A Boto3 Kinesis client.
        """
        self.kinesis_client = kinesis_client
        self.name = None
        self.details = None
        self.stream_exists_waiter = kinesis_client.get_waiter("stream_exists")


    def get_records(self, max_records):
        """
        Gets records from the stream. This function is a generator that first gets
        a shard iterator for the stream, then uses the shard iterator to get records
        in batches from the stream. The shard iterator can be accessed through the
        'details' property, which is populated using the 'describe' function of this class.
        Each batch of records is yielded back to the caller until the specified
        maximum number of records has been retrieved.

        :param max_records: The maximum number of records to retrieve.
        :return: Yields the current batch of retrieved records.
        """
        try:
            response = self.kinesis_client.get_shard_iterator(
                StreamName=self.name,
                ShardId=self.details["Shards"][0]["ShardId"],
                ShardIteratorType="LATEST",
            )
            shard_iter = response["ShardIterator"]
            record_count = 0
            while record_count < max_records:
                response = self.kinesis_client.get_records(
                    ShardIterator=shard_iter, Limit=10
                )
                shard_iter = response["NextShardIterator"]
                records = response["Records"]
                logger.info("Got %s records.", len(records))
                record_count += len(records)
                yield records
        except ClientError:
            logger.exception("Couldn't get records from stream %s.", self.name)
            raise



    def describe(self, name):
        """
        Gets metadata about a stream.

        :param name: The name of the stream.
        :return: Metadata about the stream.
        """
        try:
            response = self.kinesis_client.describe_stream(StreamName=name)
            self.name = name
            self.details = response["StreamDescription"]
            logger.info("Got stream %s.", name)
        except ClientError:
            logger.exception("Couldn't get %s.", name)
            raise
        else:
            return self.details
```
+  Untuk detail API, lihat [GetRecords](https://docs.aws.amazon.com/goto/boto3/kinesis-2013-12-02/GetRecords)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutRecord`
<a name="kinesis_PutRecord_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecord`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
class KinesisStream:
    """Encapsulates a Kinesis stream."""

    def __init__(self, kinesis_client):
        """
        :param kinesis_client: A Boto3 Kinesis client.
        """
        self.kinesis_client = kinesis_client
        self.name = None
        self.details = None
        self.stream_exists_waiter = kinesis_client.get_waiter("stream_exists")


    def put_record(self, data, partition_key):
        """
        Puts data into the stream. The data is formatted as JSON before it is passed
        to the stream.

        :param data: The data to put in the stream.
        :param partition_key: The partition key to use for the data.
        :return: Metadata about the record, including its shard ID and sequence number.
        """
        try:
            response = self.kinesis_client.put_record(
                StreamName=self.name, Data=json.dumps(data), PartitionKey=partition_key
            )
            logger.info("Put record in stream %s.", self.name)
        except ClientError:
            logger.exception("Couldn't put record in stream %s.", self.name)
            raise
        else:
            return response
```
+  Untuk detail API, lihat [PutRecord](https://docs.aws.amazon.com/goto/boto3/kinesis-2013-12-02/PutRecord)di *AWS SDK for Python (Boto3) Referensi* API. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
import base64
def lambda_handler(event, context):

    for record in event['Records']:
        try:
            print(f"Processed Kinesis Event - EventID: {record['eventID']}")
            record_data = base64.b64decode(record['kinesis']['data']).decode('utf-8')
            print(f"Record Data: {record_data}")
            # TODO: Do interesting work based on the new data
        except Exception as e:
            print(f"An error occurred {e}")
            raise e
    print(f"Successfully processed {len(event['Records'])} records.")
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan respons batch paral untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def handler(event, context):
    records = event.get("Records")
    curRecordSequenceNumber = ""
    
    for record in records:
        try:
            # Process your record
            curRecordSequenceNumber = record["kinesis"]["sequenceNumber"]
        except Exception as e:
            # Return failed record's sequence number
            return {"batchItemFailures":[{"itemIdentifier": curRecordSequenceNumber}]}

    return {"batchItemFailures":[]}
```

# AWS KMS contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS KMS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="kms_Scenario_Basics_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat kunci KMS.
+ Buat daftar kunci KMS untuk akun Anda dan dapatkan detailnya.
+ Aktifkan dan nonaktifkan tombol KMS.
+ Hasilkan kunci data simetris yang dapat digunakan untuk enkripsi sisi klien.
+ Hasilkan kunci asimetris yang digunakan untuk menandatangani data secara digital.
+ Tombol tag.
+ Hapus kunci KMS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KMSScenario:
    """Runs an interactive scenario that shows how to get started with KMS."""

    def __init__(
        self,
        key_manager: KeyManager,
        key_encryption: KeyEncrypt,
        alias_manager: AliasManager,
        grant_manager: GrantManager,
        key_policy: KeyPolicy,
    ):
        self.key_manager = key_manager
        self.key_encryption = key_encryption
        self.alias_manager = alias_manager
        self.grant_manager = grant_manager
        self.key_policy = key_policy
        self.key_id = ""
        self.alias_name = ""
        self.asymmetric_key_id = ""

    def kms_scenario(self):
        key_description = "Created by the AWS KMS API"

        print(DASHES)
        print(
            """
Welcome to the AWS Key Management SDK Basics scenario.

This program demonstrates how to interact with AWS Key Management using the AWS SDK for Python (Boto3).
The AWS Key Management Service (KMS) is a secure and highly available service that allows you to create
and manage AWS KMS keys and control their use across a wide range of AWS services and applications.
KMS provides a centralized and unified approach to managing encryption keys, making it easier to meet your
data protection and regulatory compliance requirements.

This Basics scenario creates two key types:

- A symmetric encryption key is used to encrypt and decrypt data.
- An asymmetric key used to digitally sign data.

Let's get started...
        """
        )
        q.ask("Press Enter to continue...")

        print(DASHES)
        print(f"1. Create a symmetric KMS key\n")
        print(
            f"First, the program will creates a symmetric KMS key that you can used to encrypt and decrypt data."
        )
        q.ask("Press Enter to continue...")
        self.key_id = self.key_manager.create_key(key_description)["KeyId"]
        print(f"A symmetric key was successfully created {self.key_id}.")
        q.ask("Press Enter to continue...")
        print(DASHES)
        print(
            """
2. Enable a KMS key

By default, when the SDK creates an AWS key, it is enabled. The next bit of code checks to
determine if the key is enabled.
        """
        )
        q.ask("Press Enter to continue...")
        is_enabled = self.is_key_enabled(self.key_id)
        print(f"Is the key enabled? {is_enabled}")
        if not is_enabled:
            self.key_manager.enable_key(self.key_id)
        q.ask("Press Enter to continue...")
        print(DASHES)
        print(f"3. Encrypt data using the symmetric KMS key")
        plain_text = "Hello, AWS KMS!"
        print(
            f"""
One of the main uses of symmetric keys is to encrypt and decrypt data.
Next, the code encrypts the string "{plain_text}" with the SYMMETRIC_DEFAULT encryption algorithm.
        """
        )
        q.ask("Press Enter to continue...")
        encrypted_text = self.key_encryption.encrypt(self.key_id, plain_text)
        print(DASHES)
        print(f"4. Create an alias")
        print(
            """
Now, the program will create an alias for the KMS key. An alias is a friendly name that you
can associate with a KMS key. The alias name should be prefixed with 'alias/'.
        """
        )
        alias_name = q.ask("Enter an alias name: ", q.non_empty)
        self.alias_manager.create_alias(self.key_id, alias_name)
        print(f"{alias_name} was successfully created.")
        self.alias_name = alias_name
        print(DASHES)
        print(f"5. List all of your aliases")
        q.ask("Press Enter to continue...")
        self.alias_manager.list_aliases(10)
        q.ask("Press Enter to continue...")
        print(DASHES)
        print(f"6. Enable automatic rotation of the KMS key")
        print(
            """

By default, when the SDK enables automatic rotation of a KMS key,
KMS rotates the key material of the KMS key one year (approximately 365 days) from the enable date and every year
thereafter.
        """
        )
        q.ask("Press Enter to continue...")
        self.key_manager.enable_key_rotation(self.key_id)
        print(DASHES)
        print(f"Key rotation has been enabled for key with id {self.key_id}")
        print(
            """
7. Create a grant

A grant is a policy instrument that allows Amazon Web Services principals to use KMS keys.
It also can allow them to view a KMS key (DescribeKey) and create and manage grants.
When authorizing access to a KMS key, grants are considered along with key policies and IAM policies.
        """
        )
        print(
            """
To create a grant you must specify a account_id. To specify the grantee account_id, use the Amazon Resource Name (ARN)
of an AWS account_id. Valid principals include AWS accounts, IAM users, IAM roles, federated users,
and assumed role users.
        """
        )
        account_id = q.ask(
            "Enter an account_id, or press enter to skip creating a grant... "
        )
        grant = None
        if account_id != "":
            grant = self.grant_manager.create_grant(
                self.key_id,
                account_id,
                [
                    "Encrypt",
                    "Decrypt",
                    "DescribeKey",
                ],
            )
            print(f"Grant created successfully with ID: {grant['GrantId']}")

        q.ask("Press Enter to continue...")
        print(DASHES)
        print(DASHES)
        print(f"8. List grants for the KMS key")
        q.ask("Press Enter to continue...")
        self.grant_manager.list_grants(self.key_id)
        q.ask("Press Enter to continue...")
        print(DASHES)
        print(f"9. Revoke the grant")
        print(
            """
The revocation of a grant immediately removes the permissions and access that the grant had provided.
This means that any account_id (user, role, or service) that was granted access to perform specific
KMS operations on a KMS key will no longer be able to perform those operations.
        """
        )
        q.ask("Press Enter to continue...")

        if grant is not None:
            self.grant_manager.revoke_grant(self.key_id, grant["GrantId"])
            print(f"Grant ID: {grant['GrantId']} was successfully revoked!")

        q.ask("Press Enter to continue...")
        print(DASHES)
        print(f"10. Decrypt the data\n")
        print(
            """
Lets decrypt the data that was encrypted in an early step.
The code uses the same key to decrypt the string that we encrypted earlier in the program.
        """
        )
        q.ask("Press Enter to continue...")
        decrypted_data = self.key_encryption.decrypt(self.key_id, encrypted_text)
        print(f"Data decrypted successfully for key ID: {self.key_id}")
        print(f"Decrypted data: {decrypted_data}")

        q.ask("Press Enter to continue...")
        print(DASHES)
        print(f"11. Replace a key policy\n")
        print(
            """
A key policy is a resource policy for a KMS key. Key policies are the primary way to control
access to KMS keys. Every KMS key must have exactly one key policy. The statements in the key policy
determine who has permission to use the KMS key and how they can use it.
You can also use IAM policies and grants to control access to the KMS key, but every KMS key
must have a key policy.

By default, when you create a key by using the SDK, a policy is created that
gives the AWS account that owns the KMS key full access to the KMS key.

Let's try to replace the automatically created policy with the following policy.
{
"Version":"2012-10-17",		 	 	 
"Statement": [{
"Effect": "Allow",
"Principal": {"AWS": "arn:aws:iam::0000000000:root"},
"Action": "kms:*",
"Resource": "*"
}]
}
        """
        )
        account_id = q.ask("Enter your account ID or press enter to skip: ")
        if account_id != "":
            policy = {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Principal": {"AWS": f"arn:aws:iam::{account_id}:root"},
                        "Action": "kms:*",
                        "Resource": "*",
                    }
                ],
            }

            self.key_policy.set_new_policy(self.key_id, policy)
            print("Key policy replacement succeeded.")
            q.ask("Press Enter to continue...")
        else:
            print("Skipping replacing the key policy.")

        print(DASHES)
        print(f"12. Get the key policy\n")
        print(
            f"The next bit of code that runs gets the key policy to make sure it exists."
        )
        q.ask("Press Enter to continue...")
        policy = self.key_policy.get_policy(self.key_id)
        print(f"The key policy is: {policy}")

        q.ask("Press Enter to continue...")
        print(DASHES)
        print(f"13. Create an asymmetric KMS key and sign your data\n")
        print(
            """
        Signing your data with an AWS key can provide several benefits that make it an attractive option
        for your data signing needs. By using an AWS KMS key, you can leverage the
        security controls and compliance features provided by AWS,
        which can help you meet various regulatory requirements and enhance the overall security posture
        of your organization.
        """
        )
        q.ask("Press Enter to continue...")
        print(f"Sign and verify data operation succeeded.")
        self.asymmetric_key_id = self.key_manager.create_asymmetric_key()
        message = "Here is the message that will be digitally signed"
        signature = self.key_encryption.sign(self.asymmetric_key_id, message)
        if self.key_encryption.verify(self.asymmetric_key_id, message, signature):
            print("Signature verification succeeded.")
        else:
            print("Signature verification failed.")

        q.ask("Press Enter to continue...")
        print(DASHES)
        print(f"14. Tag your symmetric KMS Key\n")
        print(
            """
        By using tags, you can improve the overall management, security, and governance of your
        KMS keys, making it easier to organize, track, and control access to your encrypted data within
        your AWS environment
        """
        )
        q.ask("Press Enter to continue...")
        self.key_manager.tag_resource(self.key_id, "Environment", "Production")
        self.clean_up()

    def is_key_enabled(self, key_id: str) -> bool:
        """
        Check if the key is enabled or not.

        :param key_id: The key to check.
        :return: True if the key is enabled, otherwise False.
        """
        response = self.key_manager.describe_key(key_id)
        return response["Enabled"] is True

    def clean_up(self):
        """
        Delete resources created by this scenario.
        """
        if self.alias_name != "":
            print(f"Deleting the alias {self.alias_name}.")
            self.alias_manager.delete_alias(self.alias_name)
        window = 7  # The window in days for a scheduled deletion.
        if self.key_id != "":
            print(
                """
Warning:
Deleting a KMS key is a destructive and potentially dangerous operation. When a KMS key is deleted,
all data that was encrypted under the KMS key is unrecoverable.
                """
            )
            if q.ask(
                f"Do you want to delete the key with ID {self.key_id} (y/n)?",
                q.is_yesno,
            ):
                print(
                    f"The key {self.key_id} will be deleted with a window of {window} days. You can cancel the deletion before"
                )
                print("the window expires.")
                self.key_manager.delete_key(self.key_id, window)
                self.key_id = ""

        if self.asymmetric_key_id != "":
            if q.ask(
                f"Do you want to delete the asymmetric key with ID {self.asymmetric_key_id} (y/n)?",
                q.is_yesno,
            ):
                print(
                    f"The key {self.asymmetric_key_id} will be deleted with a window of {window} days. You can cancel the deletion before"
                )
                print("the window expires.")
                self.key_manager.delete_key(self.asymmetric_key_id, window)
                self.asymmetric_key_id = ""


if __name__ == "__main__":
    kms_scenario = None
    try:
        kms_client = boto3.client("kms")
        a_key_manager = KeyManager(kms_client)
        a_key_encrypt = KeyEncrypt(kms_client)
        an_alias_manager = AliasManager(kms_client)
        a_grant_manager = GrantManager(kms_client)
        a_key_policy = KeyPolicy(kms_client)
        kms_scenario = KMSScenario(
            key_manager=a_key_manager,
            key_encryption=a_key_encrypt,
            alias_manager=an_alias_manager,
            grant_manager=a_grant_manager,
            key_policy=a_key_policy,
        )
        kms_scenario.kms_scenario()
    except Exception:
        logging.exception("Something went wrong with the demo!")
        if kms_scenario is not None:
            kms_scenario.clean_up()
```
Kelas pembungkus dan metode untuk manajemen kunci KMS.  

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def create_key(self, key_description: str) -> dict[str, any]:
        """
        Creates a key with a user-provided description.

        :param key_description: A description for the key.
        :return: The key ID.
        """
        try:
            key = self.kms_client.create_key(Description=key_description)["KeyMetadata"]
            self.created_keys.append(key)
            return key
        except ClientError as err:
            logging.error(
                "Couldn't create your key. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise


    def describe_key(self, key_id: str) -> dict[str, any]:
        """
        Describes a key.

        :param key_id: The ARN or ID of the key to describe.
        :return: Information about the key.
        """

        try:
            key = self.kms_client.describe_key(KeyId=key_id)["KeyMetadata"]
            return key
        except ClientError as err:
            logging.error(
                "Couldn't get key '%s'. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise


    def enable_key_rotation(self, key_id: str) -> None:
        """
        Enables rotation for a key.

        :param key_id: The ARN or ID of the key to enable rotation for.
        """
        try:
            self.kms_client.enable_key_rotation(KeyId=key_id)
        except ClientError as err:
            logging.error(
                "Couldn't enable rotation for key '%s'. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise


    def create_asymmetric_key(self) -> str:
        """
        Creates an asymmetric key in AWS KMS for signing messages.

        :return: The ID of the created key.
        """
        try:
            key = self.kms_client.create_key(
                KeySpec="RSA_2048", KeyUsage="SIGN_VERIFY", Origin="AWS_KMS"
            )["KeyMetadata"]
            self.created_keys.append(key)
            return key["KeyId"]
        except ClientError as err:
            logger.error(
                "Couldn't create your key. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise


    def tag_resource(self, key_id: str, tag_key: str, tag_value: str) -> None:
        """
        Add or edit tags on a customer managed key.

        :param key_id: The ARN or ID of the key to enable rotation for.
        :param tag_key: Key for the tag.
        :param tag_value: Value for the tag.
        """
        try:
            self.kms_client.tag_resource(
                KeyId=key_id, Tags=[{"TagKey": tag_key, "TagValue": tag_value}]
            )
        except ClientError as err:
            logging.error(
                "Couldn't add a tag for the key '%s'. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise


    def delete_key(self, key_id: str, window: int) -> None:
        """
        Deletes a list of keys.

        Warning:
        Deleting a KMS key is a destructive and potentially dangerous operation. When a KMS key is deleted,
        all data that was encrypted under the KMS key is unrecoverable.

        :param key_id: The ARN or ID of the key to delete.
        :param window: The waiting period, in days, before the KMS key is deleted.
        """

        try:
            self.kms_client.schedule_key_deletion(
                KeyId=key_id, PendingWindowInDays=window
            )
        except ClientError as err:
            logging.error(
                "Couldn't delete key %s. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
Kelas pembungkus dan metode untuk alias kunci KMS.   

```
class AliasManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_key = None

    @classmethod
    def from_client(cls) -> "AliasManager":
        """
        Creates an AliasManager instance with a default KMS client.

        :return: An instance of AliasManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def create_alias(self, key_id: str, alias: str) -> None:
        """
        Creates an alias for the specified key.

        :param key_id: The ARN or ID of a key to give an alias.
        :param alias: The alias to assign to the key.
        """
        try:
            self.kms_client.create_alias(AliasName=alias, TargetKeyId=key_id)
        except ClientError as err:
            if err.response["Error"]["Code"] == "AlreadyExistsException":
                logger.error(
                    "Could not create the alias %s because it already exists.", key_id
                )
            else:
                logger.error(
                    "Couldn't encrypt text. Here's why: %s",
                    err.response["Error"]["Message"],
                )
                raise


    def list_aliases(self, page_size: int) -> None:
        """
        Lists aliases for the current account.
        :param page_size: The number of aliases to list per page.
        """
        try:
            alias_paginator = self.kms_client.get_paginator("list_aliases")
            for alias_page in alias_paginator.paginate(
                PaginationConfig={"PageSize": page_size}
            ):
                print(f"Here are {page_size} aliases:")
                pprint(alias_page["Aliases"])
                if alias_page["Truncated"]:
                    answer = input(
                        f"Do you want to see the next {page_size} aliases (y/n)? "
                    )
                    if answer.lower() != "y":
                        break
                else:
                    print("That's all your aliases!")
        except ClientError as err:
            logging.error(
                "Couldn't list your aliases. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise


    def delete_alias(self, alias: str) -> None:
        """
        Deletes an alias.

        :param alias: The alias to delete.
        """
        try:
            self.kms_client.delete_alias(AliasName=alias)
        except ClientError as err:
            logger.error(
                "Couldn't delete alias %s. Here's why: %s",
                alias,
                err.response["Error"]["Message"],
            )
            raise
```
Kelas pembungkus dan metode untuk enkripsi kunci KMS.   

```
class KeyEncrypt:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyEncrypt":
        """
        Creates a KeyEncrypt instance with a default KMS client.

        :return: An instance of KeyEncrypt initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def encrypt(self, key_id: str, text: str) -> bytes:
        """
        Encrypts text by using the specified key.

        :param key_id: The ARN or ID of the key to use for encryption.
        :param text: The text to encrypt.
        :return: The encrypted version of the text.
        """
        try:
            response = self.kms_client.encrypt(KeyId=key_id, Plaintext=text.encode())
            print(
                f"The string was encrypted with algorithm {response['EncryptionAlgorithm']}"
            )
            return response["CiphertextBlob"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DisabledException":
                logger.error(
                    "Could not encrypt because the key %s is disabled.", key_id
                )
            else:
                logger.error(
                    "Couldn't encrypt text. Here's why: %s",
                    err.response["Error"]["Message"],
                )
            raise


    def decrypt(self, key_id: str, cipher_text: bytes) -> str:
        """
        Decrypts text previously encrypted with a key.

        :param key_id: The ARN or ID of the key used to decrypt the data.
        :param cipher_text: The encrypted text to decrypt.
        :return: The decrypted text.
        """
        try:
            return self.kms_client.decrypt(KeyId=key_id, CiphertextBlob=cipher_text)[
                "Plaintext"
            ].decode()
        except ClientError as err:
            logger.error(
                "Couldn't decrypt your ciphertext. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise


    def sign(self, key_id: str, message: str) -> str:
        """
        Signs a message with a key.

        :param key_id: The ARN or ID of the key to use for signing.
        :param message: The message to sign.
        :return: The signature of the message.
        """
        try:
            return self.kms_client.sign(
                KeyId=key_id,
                Message=message.encode(),
                SigningAlgorithm="RSASSA_PSS_SHA_256",
            )["Signature"]
        except ClientError as err:
            logger.error(
                "Couldn't sign your message. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise


    def verify(self, key_id: str, message: str, signature: str) -> bool:
        """
        Verifies a signature against a message.

        :param key_id: The ARN or ID of the key used to sign the message.
        :param message: The message to verify.
        :param signature: The signature to verify.
        :return: True when the signature matches the message, otherwise False.
        """
        try:
            response = self.kms_client.verify(
                KeyId=key_id,
                Message=message.encode(),
                Signature=signature,
                SigningAlgorithm="RSASSA_PSS_SHA_256",
            )
            valid = response["SignatureValid"]
            print(f"The signature is {'valid' if valid else 'invalid'}.")
            return valid
        except ClientError as err:
            if err.response["Error"]["Code"] == "SignatureDoesNotMatchException":
                print("The signature is not valid.")
            else:
                logger.error(
                    "Couldn't verify your signature. Here's why: %s",
                    err.response["Error"]["Message"],
                )
            raise
```
Kelas pembungkus dan metode untuk hibah kunci KMS.   

```
class GrantManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "GrantManager":
        """
        Creates a GrantManager instance with a default KMS client.

        :return: An instance of GrantManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def create_grant(
        self, key_id: str, principal: str, operations: [str]
    ) -> dict[str, str]:
        """
        Creates a grant for a key that lets a principal generate a symmetric data
        encryption key.

        :param key_id: The ARN or ID of the key.
        :param principal: The principal to grant permission to.
        :param operations: The operations to grant permission for.
        :return: The grant that is created.
        """
        try:
            return self.kms_client.create_grant(
                KeyId=key_id,
                GranteePrincipal=principal,
                Operations=operations,
            )
        except ClientError as err:
            logger.error(
                "Couldn't create a grant on key %s. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise


    def list_grants(self, key_id):
        """
        Lists grants for a key.

        :param key_id: The ARN or ID of the key to query.
        :return: The grants for the key.
        """
        try:
            paginator = self.kms_client.get_paginator("list_grants")
            grants = []
            page_iterator = paginator.paginate(KeyId=key_id)
            for page in page_iterator:
                grants.extend(page["Grants"])

            print(f"Grants for key {key_id}:")
            pprint(grants)
            return grants
        except ClientError as err:
            logger.error(
                "Couldn't list grants for key %s. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise


    def revoke_grant(self, key_id: str, grant_id: str) -> None:
        """
        Revokes a grant so that it can no longer be used.

        :param key_id: The ARN or ID of the key associated with the grant.
        :param grant_id: The ID of the grant to revoke.
        """
        try:
            self.kms_client.revoke_grant(KeyId=key_id, GrantId=grant_id)
        except ClientError as err:
            logger.error(
                "Couldn't revoke grant %s. Here's why: %s",
                grant_id,
                err.response["Error"]["Message"],
            )
            raise
```
Kelas pembungkus dan metode untuk kebijakan kunci KMS.   

```
class KeyPolicy:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyPolicy":
        """
        Creates a KeyPolicy instance with a default KMS client.

        :return: An instance of KeyPolicy initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def set_new_policy(self, key_id: str, policy: dict[str, any]) -> None:
        """
        Sets the policy of a key. Setting a policy entirely overwrites the existing
        policy, so care is taken to add a statement to the existing list of statements
        rather than simply writing a new policy.

        :param key_id: The ARN or ID of the key to set the policy to.
        :param policy: A new key policy. The key policy must allow the calling principal to make a subsequent
                       PutKeyPolicy request on the KMS key. This reduces the risk that the KMS key becomes unmanageable
        """

        try:
            self.kms_client.put_key_policy(KeyId=key_id, Policy=json.dumps(policy))
        except ClientError as err:
            logger.error(
                "Couldn't set policy for key %s. Here's why %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise



    def get_policy(self, key_id: str) -> dict[str, str]:
        """
        Gets the policy of a key.

        :param key_id: The ARN or ID of the key to query.
        :return: The key policy as a dict.
        """
        if key_id != "":
            try:
                response = self.kms_client.get_key_policy(
                    KeyId=key_id,
                )
                policy = json.loads(response["Policy"])
            except ClientError as err:
                logger.error(
                    "Couldn't get policy for key %s. Here's why: %s",
                    key_id,
                    err.response["Error"]["Message"],
                )
                raise
            else:
                pprint(policy)
                return policy
        else:
            print("Skipping get policy demo.")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateAlias](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/CreateAlias)
  + [CreateGrant](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/CreateGrant)
  + [CreateKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/CreateKey)
  + [Dekripsi](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/Decrypt)
  + [DescribeKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/DescribeKey)
  + [DisableKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/DisableKey)
  + [EnableKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/EnableKey)
  + [Enkripsi](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/Encrypt)
  + [GetKeyPolicy](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/GetKeyPolicy)
  + [ListAliases](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ListAliases)
  + [ListGrants](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ListGrants)
  + [ListKeys](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ListKeys)
  + [RevokeGrant](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/RevokeGrant)
  + [ScheduleKeyDeletion](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ScheduleKeyDeletion)
  + [Tanda](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/Sign)
  + [TagResource](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/TagResource)

## Tindakan
<a name="actions"></a>

### `CreateAlias`
<a name="kms_CreateAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class AliasManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_key = None

    @classmethod
    def from_client(cls) -> "AliasManager":
        """
        Creates an AliasManager instance with a default KMS client.

        :return: An instance of AliasManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def create_alias(self, key_id: str, alias: str) -> None:
        """
        Creates an alias for the specified key.

        :param key_id: The ARN or ID of a key to give an alias.
        :param alias: The alias to assign to the key.
        """
        try:
            self.kms_client.create_alias(AliasName=alias, TargetKeyId=key_id)
        except ClientError as err:
            if err.response["Error"]["Code"] == "AlreadyExistsException":
                logger.error(
                    "Could not create the alias %s because it already exists.", key_id
                )
            else:
                logger.error(
                    "Couldn't encrypt text. Here's why: %s",
                    err.response["Error"]["Message"],
                )
                raise
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/CreateAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateGrant`
<a name="kms_CreateGrant_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGrant`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class GrantManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "GrantManager":
        """
        Creates a GrantManager instance with a default KMS client.

        :return: An instance of GrantManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def create_grant(
        self, key_id: str, principal: str, operations: [str]
    ) -> dict[str, str]:
        """
        Creates a grant for a key that lets a principal generate a symmetric data
        encryption key.

        :param key_id: The ARN or ID of the key.
        :param principal: The principal to grant permission to.
        :param operations: The operations to grant permission for.
        :return: The grant that is created.
        """
        try:
            return self.kms_client.create_grant(
                KeyId=key_id,
                GranteePrincipal=principal,
                Operations=operations,
            )
        except ClientError as err:
            logger.error(
                "Couldn't create a grant on key %s. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateGrant](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/CreateGrant)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateKey`
<a name="kms_CreateKey_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def create_key(self, key_description: str) -> dict[str, any]:
        """
        Creates a key with a user-provided description.

        :param key_description: A description for the key.
        :return: The key ID.
        """
        try:
            key = self.kms_client.create_key(Description=key_description)["KeyMetadata"]
            self.created_keys.append(key)
            return key
        except ClientError as err:
            logging.error(
                "Couldn't create your key. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/CreateKey)di *AWS SDK for Python (Boto3) Referensi* API. 

### `Decrypt`
<a name="kms_Decrypt_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Decrypt`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyEncrypt:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyEncrypt":
        """
        Creates a KeyEncrypt instance with a default KMS client.

        :return: An instance of KeyEncrypt initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def decrypt(self, key_id: str, cipher_text: bytes) -> str:
        """
        Decrypts text previously encrypted with a key.

        :param key_id: The ARN or ID of the key used to decrypt the data.
        :param cipher_text: The encrypted text to decrypt.
        :return: The decrypted text.
        """
        try:
            return self.kms_client.decrypt(KeyId=key_id, CiphertextBlob=cipher_text)[
                "Plaintext"
            ].decode()
        except ClientError as err:
            logger.error(
                "Couldn't decrypt your ciphertext. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Mendekripsi](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/Decrypt) dalam *AWS SDK for Python (Boto3)* Referensi API. 

### `DeleteAlias`
<a name="kms_DeleteAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class AliasManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_key = None

    @classmethod
    def from_client(cls) -> "AliasManager":
        """
        Creates an AliasManager instance with a default KMS client.

        :return: An instance of AliasManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def delete_alias(self, alias: str) -> None:
        """
        Deletes an alias.

        :param alias: The alias to delete.
        """
        try:
            self.kms_client.delete_alias(AliasName=alias)
        except ClientError as err:
            logger.error(
                "Couldn't delete alias %s. Here's why: %s",
                alias,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteAlias](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/DeleteAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeKey`
<a name="kms_DescribeKey_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKey`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def describe_key(self, key_id: str) -> dict[str, any]:
        """
        Describes a key.

        :param key_id: The ARN or ID of the key to describe.
        :return: Information about the key.
        """

        try:
            key = self.kms_client.describe_key(KeyId=key_id)["KeyMetadata"]
            return key
        except ClientError as err:
            logging.error(
                "Couldn't get key '%s'. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DescribeKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/DescribeKey)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DisableKey`
<a name="kms_DisableKey_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableKey`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def disable_key(self, key_id: str) -> None:
        try:
            self.kms_client.disable_key(KeyId=key_id)
        except ClientError as err:
            logging.error(
                "Couldn't disable key '%s'. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DisableKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/DisableKey)di *AWS SDK for Python (Boto3) Referensi* API. 

### `EnableKey`
<a name="kms_EnableKey_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableKey`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def enable_key(self, key_id: str) -> None:
        """
        Enables a key. Gets the key state after each state change.

        :param key_id: The ARN or ID of the key to enable.
        """
        try:
            self.kms_client.enable_key(KeyId=key_id)
        except ClientError as err:
            logging.error(
                "Couldn't enable key '%s'. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [EnableKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/EnableKey)di *AWS SDK for Python (Boto3) Referensi* API. 

### `EnableKeyRotation`
<a name="kms_EnableKeyRotation_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableKeyRotation`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def enable_key_rotation(self, key_id: str) -> None:
        """
        Enables rotation for a key.

        :param key_id: The ARN or ID of the key to enable rotation for.
        """
        try:
            self.kms_client.enable_key_rotation(KeyId=key_id)
        except ClientError as err:
            logging.error(
                "Couldn't enable rotation for key '%s'. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [EnableKeyRotation](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/EnableKeyRotation)di *AWS SDK for Python (Boto3) Referensi* API. 

### `Encrypt`
<a name="kms_Encrypt_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Encrypt`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyEncrypt:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyEncrypt":
        """
        Creates a KeyEncrypt instance with a default KMS client.

        :return: An instance of KeyEncrypt initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def encrypt(self, key_id: str, text: str) -> bytes:
        """
        Encrypts text by using the specified key.

        :param key_id: The ARN or ID of the key to use for encryption.
        :param text: The text to encrypt.
        :return: The encrypted version of the text.
        """
        try:
            response = self.kms_client.encrypt(KeyId=key_id, Plaintext=text.encode())
            print(
                f"The string was encrypted with algorithm {response['EncryptionAlgorithm']}"
            )
            return response["CiphertextBlob"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DisabledException":
                logger.error(
                    "Could not encrypt because the key %s is disabled.", key_id
                )
            else:
                logger.error(
                    "Couldn't encrypt text. Here's why: %s",
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [Mengenkripsi](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/Encrypt) di *AWS SDK for Python (Boto3) Referensi* API. 

### `GenerateDataKey`
<a name="kms_GenerateDataKey_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GenerateDataKey`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def generate_data_key(self, key_id):
        """
        Generates a symmetric data key that can be used for client-side encryption.
        """
        answer = input(
            f"Do you want to generate a symmetric data key from key {key_id} (y/n)? "
        )
        if answer.lower() == "y":
            try:
                data_key = self.kms_client.generate_data_key(
                    KeyId=key_id, KeySpec="AES_256"
                )
            except ClientError as err:
                logger.error(
                    "Couldn't generate a data key for key %s. Here's why: %s",
                    key_id,
                    err.response["Error"]["Message"],
                )
            else:
                pprint(data_key)
```
+  Untuk detail API, lihat [GenerateDataKey](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/GenerateDataKey)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetKeyPolicy`
<a name="kms_GetKeyPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetKeyPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyPolicy:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyPolicy":
        """
        Creates a KeyPolicy instance with a default KMS client.

        :return: An instance of KeyPolicy initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def get_policy(self, key_id: str) -> dict[str, str]:
        """
        Gets the policy of a key.

        :param key_id: The ARN or ID of the key to query.
        :return: The key policy as a dict.
        """
        if key_id != "":
            try:
                response = self.kms_client.get_key_policy(
                    KeyId=key_id,
                )
                policy = json.loads(response["Policy"])
            except ClientError as err:
                logger.error(
                    "Couldn't get policy for key %s. Here's why: %s",
                    key_id,
                    err.response["Error"]["Message"],
                )
                raise
            else:
                pprint(policy)
                return policy
        else:
            print("Skipping get policy demo.")
```
+  Untuk detail API, lihat [GetKeyPolicy](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/GetKeyPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListAliases`
<a name="kms_ListAliases_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAliases`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class AliasManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_key = None

    @classmethod
    def from_client(cls) -> "AliasManager":
        """
        Creates an AliasManager instance with a default KMS client.

        :return: An instance of AliasManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def list_aliases(self, page_size: int) -> None:
        """
        Lists aliases for the current account.
        :param page_size: The number of aliases to list per page.
        """
        try:
            alias_paginator = self.kms_client.get_paginator("list_aliases")
            for alias_page in alias_paginator.paginate(
                PaginationConfig={"PageSize": page_size}
            ):
                print(f"Here are {page_size} aliases:")
                pprint(alias_page["Aliases"])
                if alias_page["Truncated"]:
                    answer = input(
                        f"Do you want to see the next {page_size} aliases (y/n)? "
                    )
                    if answer.lower() != "y":
                        break
                else:
                    print("That's all your aliases!")
        except ClientError as err:
            logging.error(
                "Couldn't list your aliases. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListAliases](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ListAliases)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListGrants`
<a name="kms_ListGrants_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGrants`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class GrantManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "GrantManager":
        """
        Creates a GrantManager instance with a default KMS client.

        :return: An instance of GrantManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def list_grants(self, key_id):
        """
        Lists grants for a key.

        :param key_id: The ARN or ID of the key to query.
        :return: The grants for the key.
        """
        try:
            paginator = self.kms_client.get_paginator("list_grants")
            grants = []
            page_iterator = paginator.paginate(KeyId=key_id)
            for page in page_iterator:
                grants.extend(page["Grants"])

            print(f"Grants for key {key_id}:")
            pprint(grants)
            return grants
        except ClientError as err:
            logger.error(
                "Couldn't list grants for key %s. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListGrants](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ListGrants)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListKeyPolicies`
<a name="kms_ListKeyPolicies_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeyPolicies`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyPolicy:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyPolicy":
        """
        Creates a KeyPolicy instance with a default KMS client.

        :return: An instance of KeyPolicy initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def list_policies(self, key_id):
        """
        Lists the names of the policies for a key.

        :param key_id: The ARN or ID of the key to query.
        """
        try:
            policy_names = self.kms_client.list_key_policies(KeyId=key_id)[
                "PolicyNames"
            ]
        except ClientError as err:
            logging.error(
                "Couldn't list your policies. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise
        else:
            print(f"The policies for key {key_id} are:")
            pprint(policy_names)
```
+  Untuk detail API, lihat [ListKeyPolicies](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ListKeyPolicies)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListKeys`
<a name="kms_ListKeys_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeys`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def list_keys(self):
        """
        Lists the keys for the current account by using a paginator.
        """
        try:
            page_size = 10
            print("\nLet's list your keys.")
            key_paginator = self.kms_client.get_paginator("list_keys")
            for key_page in key_paginator.paginate(PaginationConfig={"PageSize": 10}):
                print(f"Here are {len(key_page['Keys'])} keys:")
                pprint(key_page["Keys"])
                if key_page["Truncated"]:
                    answer = input(
                        f"Do you want to see the next {page_size} keys (y/n)? "
                    )
                    if answer.lower() != "y":
                        break
                else:
                    print("That's all your keys!")
        except ClientError as err:
            logging.error(
                "Couldn't list your keys. Here's why: %s",
                err.response["Error"]["Message"],
            )
```
+  Untuk detail API, lihat [ListKeys](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ListKeys)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutKeyPolicy`
<a name="kms_PutKeyPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutKeyPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyPolicy:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyPolicy":
        """
        Creates a KeyPolicy instance with a default KMS client.

        :return: An instance of KeyPolicy initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def set_policy(self, key_id: str, policy: dict[str, any]) -> None:
        """
        Sets the policy of a key. Setting a policy entirely overwrites the existing
        policy, so care is taken to add a statement to the existing list of statements
        rather than simply writing a new policy.

        :param key_id: The ARN or ID of the key to set the policy to.
        :param policy: The existing policy of the key.
        :return: None
        """
        principal = input(
            "Enter the ARN of an IAM role to set as the principal on the policy: "
        )
        if key_id != "" and principal != "":
            # The updated policy replaces the existing policy. Add a new statement to
            # the list along with the original policy statements.
            policy["Statement"].append(
                {
                    "Sid": "Allow access for ExampleRole",
                    "Effect": "Allow",
                    "Principal": {"AWS": principal},
                    "Action": [
                        "kms:Encrypt",
                        "kms:GenerateDataKey*",
                        "kms:Decrypt",
                        "kms:DescribeKey",
                        "kms:ReEncrypt*",
                    ],
                    "Resource": "*",
                }
            )
            try:
                self.kms_client.put_key_policy(KeyId=key_id, Policy=json.dumps(policy))
            except ClientError as err:
                logger.error(
                    "Couldn't set policy for key %s. Here's why %s",
                    key_id,
                    err.response["Error"]["Message"],
                )
                raise
            else:
                print(f"Set policy for key {key_id}.")
        else:
            print("Skipping set policy demo.")
```
+  Untuk detail API, lihat [PutKeyPolicy](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/PutKeyPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ReEncrypt`
<a name="kms_ReEncrypt_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReEncrypt`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyEncrypt:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyEncrypt":
        """
        Creates a KeyEncrypt instance with a default KMS client.

        :return: An instance of KeyEncrypt initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def re_encrypt(self, source_key_id, cipher_text):
        """
        Takes ciphertext previously encrypted with one key and reencrypt it by using
        another key.

        :param source_key_id: The ARN or ID of the original key used to encrypt the
                              ciphertext.
        :param cipher_text: The encrypted ciphertext.
        :return: The ciphertext encrypted by the second key.
        """
        destination_key_id = input(
            f"Your ciphertext is currently encrypted with key {source_key_id}. "
            f"Enter another key ID or ARN to reencrypt it: "
        )
        if destination_key_id != "":
            try:
                cipher_text = self.kms_client.re_encrypt(
                    SourceKeyId=source_key_id,
                    DestinationKeyId=destination_key_id,
                    CiphertextBlob=cipher_text,
                )["CiphertextBlob"]
            except ClientError as err:
                logger.error(
                    "Couldn't reencrypt your ciphertext. Here's why: %s",
                    err.response["Error"]["Message"],
                )
            else:
                print(f"Reencrypted your ciphertext as: {cipher_text}")
                return cipher_text
        else:
            print("Skipping reencryption demo.")
```
+  Untuk detail API, lihat [ReEncrypt](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ReEncrypt)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RetireGrant`
<a name="kms_RetireGrant_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RetireGrant`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class GrantManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "GrantManager":
        """
        Creates a GrantManager instance with a default KMS client.

        :return: An instance of GrantManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def retire_grant(self, grant):
        """
        Retires a grant so that it can no longer be used.

        :param grant: The grant to retire.
        """
        try:
            self.kms_client.retire_grant(GrantToken=grant["GrantToken"])
        except ClientError as err:
            logger.error(
                "Couldn't retire grant %s. Here's why: %s",
                grant["GrantId"],
                err.response["Error"]["Message"],
            )
        else:
            print(f"Grant {grant['GrantId']} retired.")
```
+  Untuk detail API, lihat [RetireGrant](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/RetireGrant)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RevokeGrant`
<a name="kms_RevokeGrant_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RevokeGrant`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class GrantManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "GrantManager":
        """
        Creates a GrantManager instance with a default KMS client.

        :return: An instance of GrantManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def revoke_grant(self, key_id: str, grant_id: str) -> None:
        """
        Revokes a grant so that it can no longer be used.

        :param key_id: The ARN or ID of the key associated with the grant.
        :param grant_id: The ID of the grant to revoke.
        """
        try:
            self.kms_client.revoke_grant(KeyId=key_id, GrantId=grant_id)
        except ClientError as err:
            logger.error(
                "Couldn't revoke grant %s. Here's why: %s",
                grant_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [RevokeGrant](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/RevokeGrant)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ScheduleKeyDeletion`
<a name="kms_ScheduleKeyDeletion_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ScheduleKeyDeletion`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def delete_key(self, key_id: str, window: int) -> None:
        """
        Deletes a list of keys.

        Warning:
        Deleting a KMS key is a destructive and potentially dangerous operation. When a KMS key is deleted,
        all data that was encrypted under the KMS key is unrecoverable.

        :param key_id: The ARN or ID of the key to delete.
        :param window: The waiting period, in days, before the KMS key is deleted.
        """

        try:
            self.kms_client.schedule_key_deletion(
                KeyId=key_id, PendingWindowInDays=window
            )
        except ClientError as err:
            logging.error(
                "Couldn't delete key %s. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ScheduleKeyDeletion](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/ScheduleKeyDeletion)di *AWS SDK for Python (Boto3) Referensi* API. 

### `Sign`
<a name="kms_Sign_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Sign`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyEncrypt:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyEncrypt":
        """
        Creates a KeyEncrypt instance with a default KMS client.

        :return: An instance of KeyEncrypt initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def sign(self, key_id: str, message: str) -> str:
        """
        Signs a message with a key.

        :param key_id: The ARN or ID of the key to use for signing.
        :param message: The message to sign.
        :return: The signature of the message.
        """
        try:
            return self.kms_client.sign(
                KeyId=key_id,
                Message=message.encode(),
                SigningAlgorithm="RSASSA_PSS_SHA_256",
            )["Signature"]
        except ClientError as err:
            logger.error(
                "Couldn't sign your message. Here's why: %s",
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Masuk AWS](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/Sign) *SDK untuk Referensi API Python (Boto3)*. 

### `TagResource`
<a name="kms_TagResource_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_keys = []

    @classmethod
    def from_client(cls) -> "KeyManager":
        """
        Creates a KeyManager instance with a default KMS client.

        :return: An instance of KeyManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def tag_resource(self, key_id: str, tag_key: str, tag_value: str) -> None:
        """
        Add or edit tags on a customer managed key.

        :param key_id: The ARN or ID of the key to enable rotation for.
        :param tag_key: Key for the tag.
        :param tag_value: Value for the tag.
        """
        try:
            self.kms_client.tag_resource(
                KeyId=key_id, Tags=[{"TagKey": tag_key, "TagValue": tag_value}]
            )
        except ClientError as err:
            logging.error(
                "Couldn't add a tag for the key '%s'. Here's why: %s",
                key_id,
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/TagResource)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateAlias`
<a name="kms_UpdateAlias_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAlias`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class AliasManager:
    def __init__(self, kms_client):
        self.kms_client = kms_client
        self.created_key = None

    @classmethod
    def from_client(cls) -> "AliasManager":
        """
        Creates an AliasManager instance with a default KMS client.

        :return: An instance of AliasManager initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def update_alias(self, alias, current_key_id):
        """
        Updates an alias by assigning it to another key.

        :param alias: The alias to reassign.
        :param current_key_id: The ARN or ID of the key currently associated with the alias.
        """
        new_key_id = input(
            f"Alias {alias} is currently associated with {current_key_id}. "
            f"Enter another key ID or ARN that you want to associate with {alias}: "
        )
        if new_key_id != "":
            try:
                self.kms_client.update_alias(AliasName=alias, TargetKeyId=new_key_id)
            except ClientError as err:
                logger.error(
                    "Couldn't associate alias %s with key %s. Here's why: %s",
                    alias,
                    new_key_id,
                    err.response["Error"]["Message"],
                )
            else:
                print(f"Alias {alias} is now associated with key {new_key_id}.")
        else:
            print("Skipping alias update.")
```
+  Untuk detail API, lihat [UpdateAlias](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/UpdateAlias)di *AWS SDK for Python (Boto3) Referensi* API. 

### `Verify`
<a name="kms_Verify_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Verify`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kms#code-examples). 

```
class KeyEncrypt:
    def __init__(self, kms_client):
        self.kms_client = kms_client

    @classmethod
    def from_client(cls) -> "KeyEncrypt":
        """
        Creates a KeyEncrypt instance with a default KMS client.

        :return: An instance of KeyEncrypt initialized with the default KMS client.
        """
        kms_client = boto3.client("kms")
        return cls(kms_client)


    def verify(self, key_id: str, message: str, signature: str) -> bool:
        """
        Verifies a signature against a message.

        :param key_id: The ARN or ID of the key used to sign the message.
        :param message: The message to verify.
        :param signature: The signature to verify.
        :return: True when the signature matches the message, otherwise False.
        """
        try:
            response = self.kms_client.verify(
                KeyId=key_id,
                Message=message.encode(),
                Signature=signature,
                SigningAlgorithm="RSASSA_PSS_SHA_256",
            )
            valid = response["SignatureValid"]
            print(f"The signature is {'valid' if valid else 'invalid'}.")
            return valid
        except ClientError as err:
            if err.response["Error"]["Code"] == "SignatureDoesNotMatchException":
                print("The signature is not valid.")
            else:
                logger.error(
                    "Couldn't verify your signature. Here's why: %s",
                    err.response["Error"]["Message"],
                )
            raise
```
+  Untuk detail API, lihat [Verifikasi](https://docs.aws.amazon.com/goto/boto3/kms-2014-11-01/Verify) di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Lambda menggunakan SDK for Python (Boto3)
<a name="python_3_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Lambda AWS SDK untuk Python (Boto3) with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Lambda
<a name="lambda_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Lambda.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 

```
import boto3


def main():
    """
    List the Lambda functions in your AWS account.
    """
    # Create the Lambda client
    lambda_client = boto3.client("lambda")

    # Use the paginator to list the functions
    paginator = lambda_client.get_paginator("list_functions")
    response_iterator = paginator.paginate()

    print("Here are the Lambda functions in your account:")
    for page in response_iterator:
        for function in page["Functions"]:
            print(f"  {function['FunctionName']}")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/ListFunctions)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 
Tentukan handler Lambda yang menambah angka.  

```
import logging

logger = logging.getLogger()
logger.setLevel(logging.INFO)


def lambda_handler(event, context):
    """
    Accepts an action and a single number, performs the specified action on the number,
    and returns the result. The only allowable action is 'increment'.

    :param event: The event dict that contains the parameters sent when the function
                  is invoked.
    :param context: The context in which the function is called.
    :return: The result of the action.
    """
    result = None
    action = event.get("action")
    if action == "increment":
        result = event.get("number", 0) + 1
        logger.info("Calculated result of %s", result)
    else:
        logger.error("%s is not a valid action.", action)

    response = {"result": result}
    return response
```
Tentukan handler Lambda kedua yang melakukan operasi aritmatika.  

```
import logging
import os


logger = logging.getLogger()

# Define a list of Python lambda functions that are called by this AWS Lambda function.
ACTIONS = {
    "plus": lambda x, y: x + y,
    "minus": lambda x, y: x - y,
    "times": lambda x, y: x * y,
    "divided-by": lambda x, y: x / y,
}


def lambda_handler(event, context):
    """
    Accepts an action and two numbers, performs the specified action on the numbers,
    and returns the result.

    :param event: The event dict that contains the parameters sent when the function
                  is invoked.
    :param context: The context in which the function is called.
    :return: The result of the specified action.
    """
    # Set the log level based on a variable configured in the Lambda environment.
    logger.setLevel(os.environ.get("LOG_LEVEL", logging.INFO))
    logger.debug("Event: %s", event)

    action = event.get("action")
    func = ACTIONS.get(action)
    x = event.get("x")
    y = event.get("y")
    result = None
    try:
        if func is not None and x is not None and y is not None:
            result = func(x, y)
            logger.info("%s %s %s is %s", x, action, y, result)
        else:
            logger.error("I can't calculate %s %s %s.", x, action, y)
    except ZeroDivisionError:
        logger.warning("I can't divide %s by 0!", x)

    response = {"result": result}
    return response
```
Buat fungsi yang membungkus tindakan Lambda.  

```
class LambdaWrapper:
    def __init__(self, lambda_client, iam_resource):
        self.lambda_client = lambda_client
        self.iam_resource = iam_resource


    @staticmethod
    def create_deployment_package(source_file, destination_file):
        """
        Creates a Lambda deployment package in .zip format in an in-memory buffer. This
        buffer can be passed directly to Lambda when creating the function.

        :param source_file: The name of the file that contains the Lambda handler
                            function.
        :param destination_file: The name to give the file when it's deployed to Lambda.
        :return: The deployment package.
        """
        buffer = io.BytesIO()
        with zipfile.ZipFile(buffer, "w") as zipped:
            zipped.write(source_file, destination_file)
        buffer.seek(0)
        return buffer.read()

    def get_iam_role(self, iam_role_name):
        """
        Get an AWS Identity and Access Management (IAM) role.

        :param iam_role_name: The name of the role to retrieve.
        :return: The IAM role.
        """
        role = None
        try:
            temp_role = self.iam_resource.Role(iam_role_name)
            temp_role.load()
            role = temp_role
            logger.info("Got IAM role %s", role.name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "NoSuchEntity":
                logger.info("IAM role %s does not exist.", iam_role_name)
            else:
                logger.error(
                    "Couldn't get IAM role %s. Here's why: %s: %s",
                    iam_role_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return role

    def create_iam_role_for_lambda(self, iam_role_name):
        """
        Creates an IAM role that grants the Lambda function basic permissions. If a
        role with the specified name already exists, it is used for the demo.

        :param iam_role_name: The name of the role to create.
        :return: The role and a value that indicates whether the role is newly created.
        """
        role = self.get_iam_role(iam_role_name)
        if role is not None:
            return role, False

        lambda_assume_role_policy = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Effect": "Allow",
                    "Principal": {"Service": "lambda.amazonaws.com"},
                    "Action": "sts:AssumeRole",
                }
            ],
        }
        policy_arn = "arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole"

        try:
            role = self.iam_resource.create_role(
                RoleName=iam_role_name,
                AssumeRolePolicyDocument=json.dumps(lambda_assume_role_policy),
            )
            logger.info("Created role %s.", role.name)
            role.attach_policy(PolicyArn=policy_arn)
            logger.info("Attached basic execution policy to role %s.", role.name)
        except ClientError as error:
            if error.response["Error"]["Code"] == "EntityAlreadyExists":
                role = self.iam_resource.Role(iam_role_name)
                logger.warning("The role %s already exists. Using it.", iam_role_name)
            else:
                logger.exception(
                    "Couldn't create role %s or attach policy %s.",
                    iam_role_name,
                    policy_arn,
                )
                raise

        return role, True

    def get_function(self, function_name):
        """
        Gets data about a Lambda function.

        :param function_name: The name of the function.
        :return: The function data.
        """
        response = None
        try:
            response = self.lambda_client.get_function(FunctionName=function_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.info("Function %s does not exist.", function_name)
            else:
                logger.error(
                    "Couldn't get function %s. Here's why: %s: %s",
                    function_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return response


    def create_function(
        self, function_name, handler_name, iam_role, deployment_package
    ):
        """
        Deploys a Lambda function.

        :param function_name: The name of the Lambda function.
        :param handler_name: The fully qualified name of the handler function. This
                             must include the file name and the function name.
        :param iam_role: The IAM role to use for the function.
        :param deployment_package: The deployment package that contains the function
                                   code in .zip format.
        :return: The Amazon Resource Name (ARN) of the newly created function.
        """
        try:
            response = self.lambda_client.create_function(
                FunctionName=function_name,
                Description="AWS Lambda doc example",
                Runtime="python3.9",
                Role=iam_role.arn,
                Handler=handler_name,
                Code={"ZipFile": deployment_package},
                Publish=True,
            )
            function_arn = response["FunctionArn"]
            waiter = self.lambda_client.get_waiter("function_active_v2")
            waiter.wait(FunctionName=function_name)
            logger.info(
                "Created function '%s' with ARN: '%s'.",
                function_name,
                response["FunctionArn"],
            )
        except ClientError:
            logger.error("Couldn't create function %s.", function_name)
            raise
        else:
            return function_arn


    def delete_function(self, function_name):
        """
        Deletes a Lambda function.

        :param function_name: The name of the function to delete.
        """
        try:
            self.lambda_client.delete_function(FunctionName=function_name)
        except ClientError:
            logger.exception("Couldn't delete function %s.", function_name)
            raise


    def invoke_function(self, function_name, function_params, get_log=False):
        """
        Invokes a Lambda function.

        :param function_name: The name of the function to invoke.
        :param function_params: The parameters of the function as a dict. This dict
                                is serialized to JSON before it is sent to Lambda.
        :param get_log: When true, the last 4 KB of the execution log are included in
                        the response.
        :return: The response from the function invocation.
        """
        try:
            response = self.lambda_client.invoke(
                FunctionName=function_name,
                Payload=json.dumps(function_params),
                LogType="Tail" if get_log else "None",
            )
            logger.info("Invoked function %s.", function_name)
        except ClientError:
            logger.exception("Couldn't invoke function %s.", function_name)
            raise
        return response


    def update_function_code(self, function_name, deployment_package):
        """
        Updates the code for a Lambda function by submitting a .zip archive that contains
        the code for the function.

        :param function_name: The name of the function to update.
        :param deployment_package: The function code to update, packaged as bytes in
                                   .zip format.
        :return: Data about the update, including the status.
        """
        try:
            response = self.lambda_client.update_function_code(
                FunctionName=function_name, ZipFile=deployment_package
            )
        except ClientError as err:
            logger.error(
                "Couldn't update function %s. Here's why: %s: %s",
                function_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def update_function_configuration(self, function_name, env_vars):
        """
        Updates the environment variables for a Lambda function.

        :param function_name: The name of the function to update.
        :param env_vars: A dict of environment variables to update.
        :return: Data about the update, including the status.
        """
        try:
            response = self.lambda_client.update_function_configuration(
                FunctionName=function_name, Environment={"Variables": env_vars}
            )
        except ClientError as err:
            logger.error(
                "Couldn't update function configuration %s. Here's why: %s: %s",
                function_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def list_functions(self):
        """
        Lists the Lambda functions for the current account.
        """
        try:
            func_paginator = self.lambda_client.get_paginator("list_functions")
            for func_page in func_paginator.paginate():
                for func in func_page["Functions"]:
                    print(func["FunctionName"])
                    desc = func.get("Description")
                    if desc:
                        print(f"\t{desc}")
                    print(f"\t{func['Runtime']}: {func['Handler']}")
        except ClientError as err:
            logger.error(
                "Couldn't list functions. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Buat fungsi yang menjalankan skenario.  

```
class UpdateFunctionWaiter(CustomWaiter):
    """A custom waiter that waits until a function is successfully updated."""

    def __init__(self, client):
        super().__init__(
            "UpdateSuccess",
            "GetFunction",
            "Configuration.LastUpdateStatus",
            {"Successful": WaitState.SUCCESS, "Failed": WaitState.FAILURE},
            client,
        )

    def wait(self, function_name):
        self._wait(FunctionName=function_name)


def run_scenario(lambda_client, iam_resource, basic_file, calculator_file, lambda_name):
    """
    Runs the scenario.

    :param lambda_client: A Boto3 Lambda client.
    :param iam_resource: A Boto3 IAM resource.
    :param basic_file: The name of the file that contains the basic Lambda handler.
    :param calculator_file: The name of the file that contains the calculator Lambda handler.
    :param lambda_name: The name to give resources created for the scenario, such as the
                        IAM role and the Lambda function.
    """
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Welcome to the AWS Lambda getting started with functions demo.")
    print("-" * 88)

    wrapper = LambdaWrapper(lambda_client, iam_resource)

    print("Checking for IAM role for Lambda...")
    iam_role, should_wait = wrapper.create_iam_role_for_lambda(lambda_name)
    if should_wait:
        logger.info("Giving AWS time to create resources...")
        wait(10)

    print(f"Looking for function {lambda_name}...")
    function = wrapper.get_function(lambda_name)
    if function is None:
        print("Zipping the Python script into a deployment package...")
        deployment_package = wrapper.create_deployment_package(
            basic_file, f"{lambda_name}.py"
        )
        print(f"...and creating the {lambda_name} Lambda function.")
        wrapper.create_function(
            lambda_name, f"{lambda_name}.lambda_handler", iam_role, deployment_package
        )
    else:
        print(f"Function {lambda_name} already exists.")
    print("-" * 88)

    print(f"Let's invoke {lambda_name}. This function increments a number.")
    action_params = {
        "action": "increment",
        "number": q.ask("Give me a number to increment: ", q.is_int),
    }
    print(f"Invoking {lambda_name}...")
    response = wrapper.invoke_function(lambda_name, action_params)
    print(
        f"Incrementing {action_params['number']} resulted in "
        f"{json.load(response['Payload'])}"
    )
    print("-" * 88)

    print(f"Let's update the function to an arithmetic calculator.")
    q.ask("Press Enter when you're ready.")
    print("Creating a new deployment package...")
    deployment_package = wrapper.create_deployment_package(
        calculator_file, f"{lambda_name}.py"
    )
    print(f"...and updating the {lambda_name} Lambda function.")
    update_waiter = UpdateFunctionWaiter(lambda_client)
    wrapper.update_function_code(lambda_name, deployment_package)
    update_waiter.wait(lambda_name)
    print(f"This function uses an environment variable to control logging level.")
    print(f"Let's set it to DEBUG to get the most logging.")
    wrapper.update_function_configuration(
        lambda_name, {"LOG_LEVEL": logging.getLevelName(logging.DEBUG)}
    )

    actions = ["plus", "minus", "times", "divided-by"]
    want_invoke = True
    while want_invoke:
        print(f"Let's invoke {lambda_name}. You can invoke these actions:")
        for index, action in enumerate(actions):
            print(f"{index + 1}: {action}")
        action_params = {}
        action_index = q.ask(
            "Enter the number of the action you want to take: ",
            q.is_int,
            q.in_range(1, len(actions)),
        )
        action_params["action"] = actions[action_index - 1]
        print(f"You've chosen to invoke 'x {action_params['action']} y'.")
        action_params["x"] = q.ask("Enter a value for x: ", q.is_int)
        action_params["y"] = q.ask("Enter a value for y: ", q.is_int)
        print(f"Invoking {lambda_name}...")
        response = wrapper.invoke_function(lambda_name, action_params, True)
        print(
            f"Calculating {action_params['x']} {action_params['action']} {action_params['y']} "
            f"resulted in {json.load(response['Payload'])}"
        )
        q.ask("Press Enter to see the logs from the call.")
        print(base64.b64decode(response["LogResult"]).decode())
        want_invoke = q.ask("That was fun. Shall we do it again? (y/n) ", q.is_yesno)
    print("-" * 88)

    if q.ask(
        "Do you want to list all of the functions in your account? (y/n) ", q.is_yesno
    ):
        wrapper.list_functions()
    print("-" * 88)

    if q.ask("Ready to delete the function and role? (y/n) ", q.is_yesno):
        for policy in iam_role.attached_policies.all():
            policy.detach_role(RoleName=iam_role.name)
        iam_role.delete()
        print(f"Deleted role {lambda_name}.")
        wrapper.delete_function(lambda_name)
        print(f"Deleted function {lambda_name}.")

    print("\nThanks for watching!")
    print("-" * 88)


if __name__ == "__main__":
    try:
        run_scenario(
            boto3.client("lambda"),
            boto3.resource("iam"),
            "lambda_handler_basic.py",
            "lambda_handler_calculator.py",
            "doc_example_lambda_calculator",
        )
    except Exception:
        logging.exception("Something went wrong with the demo!")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateFunction](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/CreateFunction)
  + [DeleteFunction](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/DeleteFunction)
  + [GetFunction](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/GetFunction)
  + [Memohon](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/Invoke)
  + [ListFunctions](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/ListFunctions)
  + [UpdateFunctionCode](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/UpdateFunctionCode)
  + [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/UpdateFunctionConfiguration)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 

```
class LambdaWrapper:
    def __init__(self, lambda_client, iam_resource):
        self.lambda_client = lambda_client
        self.iam_resource = iam_resource


    def create_function(
        self, function_name, handler_name, iam_role, deployment_package
    ):
        """
        Deploys a Lambda function.

        :param function_name: The name of the Lambda function.
        :param handler_name: The fully qualified name of the handler function. This
                             must include the file name and the function name.
        :param iam_role: The IAM role to use for the function.
        :param deployment_package: The deployment package that contains the function
                                   code in .zip format.
        :return: The Amazon Resource Name (ARN) of the newly created function.
        """
        try:
            response = self.lambda_client.create_function(
                FunctionName=function_name,
                Description="AWS Lambda doc example",
                Runtime="python3.9",
                Role=iam_role.arn,
                Handler=handler_name,
                Code={"ZipFile": deployment_package},
                Publish=True,
            )
            function_arn = response["FunctionArn"]
            waiter = self.lambda_client.get_waiter("function_active_v2")
            waiter.wait(FunctionName=function_name)
            logger.info(
                "Created function '%s' with ARN: '%s'.",
                function_name,
                response["FunctionArn"],
            )
        except ClientError:
            logger.error("Couldn't create function %s.", function_name)
            raise
        else:
            return function_arn
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/CreateFunction)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 

```
class LambdaWrapper:
    def __init__(self, lambda_client, iam_resource):
        self.lambda_client = lambda_client
        self.iam_resource = iam_resource


    def delete_function(self, function_name):
        """
        Deletes a Lambda function.

        :param function_name: The name of the function to delete.
        """
        try:
            self.lambda_client.delete_function(FunctionName=function_name)
        except ClientError:
            logger.exception("Couldn't delete function %s.", function_name)
            raise
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/DeleteFunction)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetFunction`
<a name="lambda_GetFunction_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 

```
class LambdaWrapper:
    def __init__(self, lambda_client, iam_resource):
        self.lambda_client = lambda_client
        self.iam_resource = iam_resource


    def get_function(self, function_name):
        """
        Gets data about a Lambda function.

        :param function_name: The name of the function.
        :return: The function data.
        """
        response = None
        try:
            response = self.lambda_client.get_function(FunctionName=function_name)
        except ClientError as err:
            if err.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.info("Function %s does not exist.", function_name)
            else:
                logger.error(
                    "Couldn't get function %s. Here's why: %s: %s",
                    function_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        return response
```
+  Untuk detail API, lihat [GetFunction](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/GetFunction)di *AWS SDK for Python (Boto3) Referensi* API. 

### `Invoke`
<a name="lambda_Invoke_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 

```
class LambdaWrapper:
    def __init__(self, lambda_client, iam_resource):
        self.lambda_client = lambda_client
        self.iam_resource = iam_resource


    def invoke_function(self, function_name, function_params, get_log=False):
        """
        Invokes a Lambda function.

        :param function_name: The name of the function to invoke.
        :param function_params: The parameters of the function as a dict. This dict
                                is serialized to JSON before it is sent to Lambda.
        :param get_log: When true, the last 4 KB of the execution log are included in
                        the response.
        :return: The response from the function invocation.
        """
        try:
            response = self.lambda_client.invoke(
                FunctionName=function_name,
                Payload=json.dumps(function_params),
                LogType="Tail" if get_log else "None",
            )
            logger.info("Invoked function %s.", function_name)
        except ClientError:
            logger.exception("Couldn't invoke function %s.", function_name)
            raise
        return response
```
+  Untuk detail API, lihat [Memanggil](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/Invoke) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `ListFunctions`
<a name="lambda_ListFunctions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 

```
class LambdaWrapper:
    def __init__(self, lambda_client, iam_resource):
        self.lambda_client = lambda_client
        self.iam_resource = iam_resource


    def list_functions(self):
        """
        Lists the Lambda functions for the current account.
        """
        try:
            func_paginator = self.lambda_client.get_paginator("list_functions")
            for func_page in func_paginator.paginate():
                for func in func_page["Functions"]:
                    print(func["FunctionName"])
                    desc = func.get("Description")
                    if desc:
                        print(f"\t{desc}")
                    print(f"\t{func['Runtime']}: {func['Handler']}")
        except ClientError as err:
            logger.error(
                "Couldn't list functions. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/ListFunctions)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 

```
class LambdaWrapper:
    def __init__(self, lambda_client, iam_resource):
        self.lambda_client = lambda_client
        self.iam_resource = iam_resource


    def update_function_code(self, function_name, deployment_package):
        """
        Updates the code for a Lambda function by submitting a .zip archive that contains
        the code for the function.

        :param function_name: The name of the function to update.
        :param deployment_package: The function code to update, packaged as bytes in
                                   .zip format.
        :return: Data about the update, including the status.
        """
        try:
            response = self.lambda_client.update_function_code(
                FunctionName=function_name, ZipFile=deployment_package
            )
        except ClientError as err:
            logger.error(
                "Couldn't update function %s. Here's why: %s: %s",
                function_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/UpdateFunctionCode)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#code-examples). 

```
class LambdaWrapper:
    def __init__(self, lambda_client, iam_resource):
        self.lambda_client = lambda_client
        self.iam_resource = iam_resource


    def update_function_configuration(self, function_name, env_vars):
        """
        Updates the environment variables for a Lambda function.

        :param function_name: The name of the function to update.
        :param env_vars: A dict of environment variables to update.
        :return: Data about the update, including the status.
        """
        try:
            response = self.lambda_client.update_function_configuration(
                FunctionName=function_name, Environment={"Variables": env_vars}
            )
        except ClientError as err:
            logger.error(
                "Couldn't update function configuration %s. Here's why: %s: %s",
                function_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/boto3/lambda-2015-03-31/UpdateFunctionConfiguration)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat API REST untuk melacak data COVID-19
<a name="cross_ApiGatewayDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat API REST yang menyimulasikan sistem untuk melacak kasus COVID-19 harian di Amerika Serikat, menggunakan data fiksi.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS Chalice dengan membuat REST API tanpa server yang menggunakan Amazon API Gateway,, AWS Lambda dan Amazon DynamoDB. AWS SDK untuk Python (Boto3) API REST menyimulasikan sistem untuk melacak kasus COVID-19 harian di Amerika Serikat, menggunakan data fiksi. Pelajari cara:   
+ Gunakan AWS Chalice untuk menentukan rute dalam fungsi Lambda yang dipanggil untuk menangani permintaan REST yang datang melalui API Gateway.
+ Menggunakan fungsi Lambda untuk mengambil dan menyimpan data dalam tabel DynamoDB untuk melayani permintaan REST.
+ Tentukan struktur tabel dan sumber daya peran keamanan dalam AWS CloudFormation template.
+ Gunakan AWS Chalice dan CloudFormation untuk mengemas dan menyebarkan semua sumber daya yang diperlukan.
+ Gunakan CloudFormation untuk membersihkan semua sumber daya yang dibuat.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/apigateway_covid-19_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ CloudFormation
+ DynamoDB
+ Lambda

### Membuat API REST pustaka peminjaman
<a name="cross_AuroraRestLendingLibrary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pustaka peminjaman tempat pelanggan dapat meminjam dan mengembalikan buku dengan menggunakan API REST yang didukung oleh basis data Amazon Aurora.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan API Amazon Relational Database Service (Amazon RDS) dan AWS Chalice untuk membuat REST API yang didukung oleh database Amazon Aurora. AWS SDK untuk Python (Boto3) Layanan web sepenuhnya nirserver dan mewakili pustaka peminjaman sederhana tempat pelanggan dapat meminjam dan mengembalikan buku. Pelajari cara:   
+ Membuat dan mengelola klaster basis data Aurora nirserver.
+ Gunakan AWS Secrets Manager untuk mengelola kredensyal basis data.
+ Menerapkan lapisan penyimpanan data yang menggunakan Amazon RDS untuk memindahkan data masuk dan keluar dari basis data.
+ Gunakan AWS Chalice untuk menerapkan REST API tanpa server ke Amazon API Gateway dan. AWS Lambda
+ Menggunakan paket Permintaan untuk mengirim permintaan ke layanan web.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/aurora_rest_lending_library).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ Aurora
+ Lambda
+ Secrets Manager

### Membuat aplikasi messenger
<a name="cross_StepFunctionsMessenger_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi AWS Step Functions messenger yang mengambil catatan pesan dari tabel database.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) with AWS Step Functions untuk membuat aplikasi messenger yang mengambil catatan pesan dari tabel Amazon DynamoDB dan mengirimkannya dengan Amazon Simple Queue Service (Amazon SQS). Mesin state terintegrasi dengan AWS Lambda fungsi untuk memindai database untuk pesan yang tidak terkirim.   
+ Buat mesin status yang mengambil dan memperbarui catatan pesan dari tabel Amazon DynamoDB.
+ Perbarui definisi mesin status untuk mengirim pesan ke Amazon Simple Queue Service (Amazon SQS).
+ Mulai dan hentikan berjalannya mesin status.
+ Terhubung ke Lambda, DynamoDB, dan Amazon SQS dari mesin status menggunakan integrasi layanan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/stepfunctions_messenger).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda
+ Amazon SQS
+ Step Functions

### Membuat aplikasi obrolan websocket
<a name="cross_ApiGatewayWebsocketChat_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi obrolan yang dilayani oleh API websocket yang dibangun di Amazon API Gateway.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) dengan Amazon API Gateway V2 untuk membuat API websocket yang terintegrasi dengan AWS Lambda dan Amazon DynamoDB.   
+ Buat API websocket yang dilayani oleh API Gateway.
+ Tentukan penangan Lambda yang menyimpan koneksi di DynamoDB dan memposting pesan ke peserta obrolan lainnya.
+ Hubungkan ke aplikasi obrolan websocket dan kirim pesan dengan paket Websocket.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/apigateway_websocket_chat).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara membuat dan menggunakan Amazon API Gateway REST API yang menargetkan suatu AWS Lambda fungsi. Handler Lambda menunjukkan cara merutekan berdasarkan metode HTTP; cara mendapatkan data dari string kueri, header, dan badan; dan cara mengembalikan respons JSON.   
+ Menyebarkan fungsi Lambda.
+ Buat API REST API Gateway.
+ Buat sumber daya REST yang menargetkan fungsi Lambda.
+ Berikan izin untuk mengizinkan API Gateway menjalankan fungsi Lambda.
+ Gunakan paket Requests untuk mengirim permintaan ke REST API.
+ Bersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara mendaftarkan AWS Lambda fungsi sebagai target EventBridge acara Amazon terjadwal. Penangan Lambda menulis pesan ramah dan data peristiwa lengkap ke Amazon CloudWatch Logs untuk pengambilan nanti.   
+ Menyebarkan fungsi Lambda.
+ Membuat acara EventBridge terjadwal dan menjadikan fungsi Lambda sebagai target.
+ Memberikan izin untuk membiarkan EventBridge menjalankan fungsi Lambda.
+ Mencetak data terbaru dari CloudWatch Log untuk menampilkan hasil pemanggilan terjadwal.
+ Membersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Python.  

```
import json
import os
import boto3
import pymysql

# RDS settings
proxy_host_name = os.environ['PROXY_HOST_NAME']
port = int(os.environ['PORT'])
db_name = os.environ['DB_NAME']
db_user_name = os.environ['DB_USER_NAME']
aws_region = os.environ['AWS_REGION']


# Fetch RDS Auth Token
def get_auth_token():
    client = boto3.client('rds')
    token = client.generate_db_auth_token(
        DBHostname=proxy_host_name,
        Port=port
        DBUsername=db_user_name
        Region=aws_region
    )
    return token

def lambda_handler(event, context):
    token = get_auth_token()
    try:
        connection = pymysql.connect(
            host=proxy_host_name,
            user=db_user_name,
            password=token,
            db=db_name,
            port=port,
            ssl={'ca': 'Amazon RDS'}  # Ensure you have the CA bundle for SSL connection
        )
        
        with connection.cursor() as cursor:
            cursor.execute('SELECT %s + %s AS sum', (3, 2))
            result = cursor.fetchone()

        return result
        
    except Exception as e:
        return (f"Error: {str(e)}")  # Return an error message if an exception occurs
```

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
import base64
def lambda_handler(event, context):

    for record in event['Records']:
        try:
            print(f"Processed Kinesis Event - EventID: {record['eventID']}")
            record_data = base64.b64decode(record['kinesis']['data']).decode('utf-8')
            print(f"Record Data: {record_data}")
            # TODO: Do interesting work based on the new data
        except Exception as e:
            print(f"An error occurred {e}")
            raise e
    print(f"Successfully processed {len(event['Records'])} records.")
```

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Python.  

```
import json

def lambda_handler(event, context):
    print(json.dumps(event, indent=2))

    for record in event['Records']:
        log_dynamodb_record(record)

def log_dynamodb_record(record):
    print(record['eventID'])
    print(record['eventName'])
    print(f"DynamoDB Record: {json.dumps(record['dynamodb'])}")
```

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Python.  

```
import json

def lambda_handler(event, context):
    for record in event.get('events', []):
        log_document_db_event(record)
    return 'OK'

def log_document_db_event(record):
    event_data = record.get('event', {})
    operation_type = event_data.get('operationType', 'Unknown')
    db = event_data.get('ns', {}).get('db', 'Unknown')
    collection = event_data.get('ns', {}).get('coll', 'Unknown')
    full_document = event_data.get('fullDocument', {})

    print(f"Operation type: {operation_type}")
    print(f"db: {db}")
    print(f"collection: {collection}")
    print("Full document:", json.dumps(full_document, indent=2))
```

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Python.  

```
import base64

def lambda_handler(event, context):
    # Iterate through keys
    for key in event['records']:
        print('Key:', key)
        # Iterate through records
        for record in event['records'][key]:
            print('Record:', record)
            # Decode base64
            msg = base64.b64decode(record['value']).decode('utf-8')
            print('Message:', msg)
```

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
import json
import urllib.parse
import boto3

print('Loading function')

s3 = boto3.client('s3')


def lambda_handler(event, context):
    #print("Received event: " + json.dumps(event, indent=2))

    # Get the object from the event and show its content type
    bucket = event['Records'][0]['s3']['bucket']['name']
    key = urllib.parse.unquote_plus(event['Records'][0]['s3']['object']['key'], encoding='utf-8')
    try:
        response = s3.get_object(Bucket=bucket, Key=key)
        print("CONTENT TYPE: " + response['ContentType'])
        return response['ContentType']
    except Exception as e:
        print(e)
        print('Error getting object {} from bucket {}. Make sure they exist and your bucket is in the same region as this function.'.format(key, bucket))
        raise e
```

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def lambda_handler(event, context):
    for record in event['Records']:
        process_message(record)
    print("done")

def process_message(record):
    try:
        message = record['Sns']['Message']
        print(f"Processed message {message}")
        # TODO; Process your record here
        
    except Exception as e:
        print("An error occurred")
        raise e
```

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def lambda_handler(event, context):
    for message in event['Records']:
        process_message(message)
    print("done")

def process_message(message):
    try:
        print(f"Processed message {message['body']}")
        # TODO: Do interesting work based on the new message
    except Exception as err:
        print("An error occurred")
        raise err
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan respons batch paral untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def handler(event, context):
    records = event.get("Records")
    curRecordSequenceNumber = ""
    
    for record in records:
        try:
            # Process your record
            curRecordSequenceNumber = record["kinesis"]["sequenceNumber"]
        except Exception as e:
            # Return failed record's sequence number
            return {"batchItemFailures":[{"itemIdentifier": curRecordSequenceNumber}]}

    return {"batchItemFailures":[]}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def handler(event, context):
    records = event.get("Records")
    curRecordSequenceNumber = ""
    
    for record in records:
        try:
            # Process your record
            curRecordSequenceNumber = record["dynamodb"]["SequenceNumber"]
        except Exception as e:
            # Return failed record's sequence number
            return {"batchItemFailures":[{"itemIdentifier": curRecordSequenceNumber}]}

    return {"batchItemFailures":[]}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0

def lambda_handler(event, context):
    if event:
        batch_item_failures = []
        sqs_batch_response = {}
     
        for record in event["Records"]:
            try:
                print(f"Processed message: {record['body']}")
            except Exception as e:
                batch_item_failures.append({"itemIdentifier": record['messageId']})
        
        sqs_batch_response["batchItemFailures"] = batch_item_failures
        return sqs_batch_response
```

# Layanan Terkelola untuk contoh Apache Flink menggunakan SDK for Python (Boto3)
<a name="python_3_kinesis-analytics-v2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) With Managed Service for Apache Flink.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Generator data](#data_generator)

## Tindakan
<a name="actions"></a>

### `AddApplicationInput`
<a name="kinesis-analytics-v2_AddApplicationInput_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddApplicationInput`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def add_input(self, input_prefix, stream_arn, input_schema):
        """
        Adds an input stream to the application. The input stream data is mapped
        to an in-application stream that can be processed by your code running in
        Kinesis Data Analytics.

        :param input_prefix: The prefix prepended to in-application input stream names.
        :param stream_arn: The ARN of the input stream.
        :param input_schema: A schema that maps the data in the input stream to the
                             runtime environment. This can be automatically generated
                             by using `discover_input_schema` or you can create it
                             yourself.
        :return: Metadata about the newly added input.
        """
        try:
            response = self.analytics_client.add_application_input(
                ApplicationName=self.name,
                CurrentApplicationVersionId=self.version_id,
                Input={
                    "NamePrefix": input_prefix,
                    "KinesisStreamsInput": {"ResourceARN": stream_arn},
                    "InputSchema": input_schema,
                },
            )
            self.version_id = response["ApplicationVersionId"]
            logger.info("Add input stream %s to application %s.", stream_arn, self.name)
        except ClientError:
            logger.exception(
                "Couldn't add input stream %s to application %s.", stream_arn, self.name
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [AddApplicationInput](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/AddApplicationInput)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AddApplicationOutput`
<a name="kinesis-analytics-v2_AddApplicationOutput_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddApplicationOutput`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def add_output(self, in_app_stream_name, output_arn):
        """
        Adds an output stream to the application. Kinesis Data Analytics maps data
        from the specified in-application stream to the output stream.

        :param in_app_stream_name: The name of the in-application stream to map
                                   to the output stream.
        :param output_arn: The ARN of the output stream.
        :return: A list of metadata about the output resources currently assigned
                 to the application.
        """
        try:
            response = self.analytics_client.add_application_output(
                ApplicationName=self.name,
                CurrentApplicationVersionId=self.version_id,
                Output={
                    "Name": in_app_stream_name,
                    "KinesisStreamsOutput": {"ResourceARN": output_arn},
                    "DestinationSchema": {"RecordFormatType": "JSON"},
                },
            )
            outputs = response["OutputDescriptions"]
            self.version_id = response["ApplicationVersionId"]
            logging.info(
                "Added output %s to %s, which now has %s outputs.",
                output_arn,
                self.name,
                len(outputs),
            )
        except ClientError:
            logger.exception("Couldn't add output %s to %s.", output_arn, self.name)
            raise
        else:
            return outputs
```
+  Untuk detail API, lihat [AddApplicationOutput](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/AddApplicationOutput)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateApplication`
<a name="kinesis-analytics-v2_CreateApplication_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateApplication`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def create(self, app_name, role_arn, env="SQL-1_0"):
        """
        Creates a Kinesis Data Analytics application.

        :param app_name: The name of the application.
        :param role_arn: The ARN of a role that can be assumed by Kinesis Data
                         Analytics and grants needed permissions.
        :param env: The runtime environment of the application, such as SQL. Code
                    uploaded to the application runs in this environment.
        :return: Metadata about the newly created application.
        """
        try:
            response = self.analytics_client.create_application(
                ApplicationName=app_name,
                RuntimeEnvironment=env,
                ServiceExecutionRole=role_arn,
            )
            details = response["ApplicationDetail"]
            self._update_details(details)
            logger.info("Application %s created.", app_name)
        except ClientError:
            logger.exception("Couldn't create application %s.", app_name)
            raise
        else:
            return details
```
+  Untuk detail API, lihat [CreateApplication](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/CreateApplication)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteApplication`
<a name="kinesis-analytics-v2_DeleteApplication_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteApplication`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def delete(self):
        """
        Deletes an application.
        """
        try:
            self.analytics_client.delete_application(
                ApplicationName=self.name, CreateTimestamp=self.create_timestamp
            )
            logger.info("Deleted application %s.", self.name)
        except ClientError:
            logger.exception("Couldn't delete application %s.", self.name)
            raise
```
+  Untuk detail API, lihat [DeleteApplication](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/DeleteApplication)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeApplication`
<a name="kinesis-analytics-v2_DescribeApplication_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeApplication`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def describe(self, name):
        """
        Gets metadata about an application.

        :param name: The name of the application to look up.
        :return: Metadata about the application.
        """
        try:
            response = self.analytics_client.describe_application(ApplicationName=name)
            details = response["ApplicationDetail"]
            self._update_details(details)
            logger.info("Got metadata for application %s.", name)
        except ClientError:
            logger.exception("Couldn't get metadata for application %s.", name)
            raise
        else:
            return details
```
+  Untuk detail API, lihat [DescribeApplication](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/DescribeApplication)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeApplicationSnapshot`
<a name="kinesis-analytics-v2_DescribeApplicationSnapshot_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeApplicationSnapshot`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def describe_snapshot(self, application_name, snapshot_name):
        """
        Gets metadata about a previously saved application snapshot.

        :param application_name: The name of the application.
        :param snapshot_name: The name of the snapshot.
        :return: Metadata about the snapshot.
        """
        try:
            response = self.analytics_client.describe_application_snapshot(
                ApplicationName=application_name, SnapshotName=snapshot_name
            )
            snapshot = response["SnapshotDetails"]
            logger.info(
                "Got metadata for snapshot %s of application %s.",
                snapshot_name,
                application_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't get metadata for snapshot %s of application %s.",
                snapshot_name,
                application_name,
            )
            raise
        else:
            return snapshot
```
+  Untuk detail API, lihat [DescribeApplicationSnapshot](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/DescribeApplicationSnapshot)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DiscoverInputSchema`
<a name="kinesis-analytics-v2_DiscoverInputSchema_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DiscoverInputSchema`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def discover_input_schema(self, stream_arn, role_arn):
        """
        Discovers a schema that maps data in a stream to a format that is usable by
        an application's runtime environment. The stream must be active and have
        enough data moving through it for the service to sample. The returned schema
        can be used when you add the stream as an input to the application or you can
        write your own schema.

        :param stream_arn: The ARN of the stream to map.
        :param role_arn: A role that lets Kinesis Data Analytics read from the stream.
        :return: The discovered schema of the data in the input stream.
        """
        try:
            response = self.analytics_client.discover_input_schema(
                ResourceARN=stream_arn,
                ServiceExecutionRole=role_arn,
                InputStartingPositionConfiguration={"InputStartingPosition": "NOW"},
            )
            schema = response["InputSchema"]
            logger.info("Discovered input schema for stream %s.", stream_arn)
        except ClientError:
            logger.exception(
                "Couldn't discover input schema for stream %s.", stream_arn
            )
            raise
        else:
            return schema
```
+  Untuk detail API, lihat [DiscoverInputSchema](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/DiscoverInputSchema)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartApplication`
<a name="kinesis-analytics-v2_StartApplication_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartApplication`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def start(self, input_id):
        """
        Starts an application. After the application is running, it reads from the
        specified input stream and runs the application code on the incoming data.

        :param input_id: The ID of the input to read.
        """
        try:
            self.analytics_client.start_application(
                ApplicationName=self.name,
                RunConfiguration={
                    "SqlRunConfigurations": [
                        {
                            "InputId": input_id,
                            "InputStartingPositionConfiguration": {
                                "InputStartingPosition": "NOW"
                            },
                        }
                    ]
                },
            )
            logger.info("Started application %s.", self.name)
        except ClientError:
            logger.exception("Couldn't start application %s.", self.name)
            raise
```
+  Untuk detail API, lihat [StartApplication](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/StartApplication)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StopApplication`
<a name="kinesis-analytics-v2_StopApplication_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopApplication`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def stop(self):
        """
        Stops an application. This stops the application from processing data but
        does not delete any resources.
        """
        try:
            self.analytics_client.stop_application(ApplicationName=self.name)
            logger.info("Stopping application %s.", self.name)
        except ClientError:
            logger.exception("Couldn't stop application %s.", self.name)
            raise
```
+  Untuk detail API, lihat [StopApplication](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/StopApplication)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateApplication`
<a name="kinesis-analytics-v2_UpdateApplication_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateApplication`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis-analytics-v2#code-examples). 
Contoh ini memperbarui kode yang berjalan dalam aplikasi yang ada.  

```
class KinesisAnalyticsApplicationV2:
    """Encapsulates Kinesis Data Analytics application functions."""

    def __init__(self, analytics_client):
        """
        :param analytics_client: A Boto3 Kinesis Data Analytics v2 client.
        """
        self.analytics_client = analytics_client
        self.name = None
        self.arn = None
        self.version_id = None
        self.create_timestamp = None


    def update_code(self, code):
        """
        Updates the code that runs in the application. The code must run in the
        runtime environment of the application, such as SQL. Application code
        typically reads data from in-application streams and transforms it in some way.

        :param code: The code to upload. This completely replaces any existing code
                     in the application.
        :return: Metadata about the application.
        """
        try:
            response = self.analytics_client.update_application(
                ApplicationName=self.name,
                CurrentApplicationVersionId=self.version_id,
                ApplicationConfigurationUpdate={
                    "ApplicationCodeConfigurationUpdate": {
                        "CodeContentTypeUpdate": "PLAINTEXT",
                        "CodeContentUpdate": {"TextContentUpdate": code},
                    }
                },
            )
            details = response["ApplicationDetail"]
            self.version_id = details["ApplicationVersionId"]
            logger.info("Update code for application %s.", self.name)
        except ClientError:
            logger.exception("Couldn't update code for application %s.", self.name)
            raise
        else:
            return details
```
+  Untuk detail API, lihat [UpdateApplication](https://docs.aws.amazon.com/goto/boto3/kinesisanalyticsv2-2018-05-23/UpdateApplication)di *AWS SDK for Python (Boto3) Referensi* API. 

## Generator data
<a name="data_generator"></a>

### Hasilkan aliran dengan perujuk
<a name="kinesis-analytics-v2_DataGenerator_Referrer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menghasilkan aliran Kinesis dengan perujuk.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
import json
import boto3

STREAM_NAME = "ExampleInputStream"


def get_data():
    return {"REFERRER": "http://www.amazon.com"}


def generate(stream_name, kinesis_client):
    while True:
        data = get_data()
        print(data)
        kinesis_client.put_record(
            StreamName=stream_name, Data=json.dumps(data), PartitionKey="partitionkey"
        )


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

### Hasilkan aliran dengan anomali tekanan darah
<a name="kinesis-analytics-v2_DataGenerator_AnomalyEx_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menghasilkan aliran Kinesis dengan anomali tekanan darah.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
from enum import Enum
import json
import random
import boto3

STREAM_NAME = "ExampleInputStream"


class PressureType(Enum):
    low = "LOW"
    normal = "NORMAL"
    high = "HIGH"


def get_blood_pressure(pressure_type):
    pressure = {"BloodPressureLevel": pressure_type.value}
    if pressure_type == PressureType.low:
        pressure["Systolic"] = random.randint(50, 80)
        pressure["Diastolic"] = random.randint(30, 50)
    elif pressure_type == PressureType.normal:
        pressure["Systolic"] = random.randint(90, 120)
        pressure["Diastolic"] = random.randint(60, 80)
    elif pressure_type == PressureType.high:
        pressure["Systolic"] = random.randint(130, 200)
        pressure["Diastolic"] = random.randint(90, 150)
    else:
        raise TypeError
    return pressure


def generate(stream_name, kinesis_client):
    while True:
        rnd = random.random()
        pressure_type = (
            PressureType.low
            if rnd < 0.005
            else PressureType.high
            if rnd > 0.995
            else PressureType.normal
        )
        blood_pressure = get_blood_pressure(pressure_type)
        print(blood_pressure)
        kinesis_client.put_record(
            StreamName=stream_name,
            Data=json.dumps(blood_pressure),
            PartitionKey="partitionkey",
        )


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

### Hasilkan aliran dengan data dalam kolom
<a name="kinesis-analytics-v2_DataGenerator_ColumnLog_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menghasilkan aliran Kinesis dengan data dalam kolom.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
import json
import boto3

STREAM_NAME = "ExampleInputStream"


def get_data():
    return {"Col_A": "a", "Col_B": "b", "Col_C": "c", "Col_E_Unstructured": "x,y,z"}


def generate(stream_name, kinesis_client):
    while True:
        data = get_data()
        print(data)
        kinesis_client.put_record(
            StreamName=stream_name, Data=json.dumps(data), PartitionKey="partitionkey"
        )


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

### Hasilkan aliran dengan anomali detak jantung
<a name="kinesis-analytics-v2_DataGenerator_Anomaly_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menghasilkan aliran Kinesis dengan anomali detak jantung.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
from enum import Enum
import json
import random
import boto3

STREAM_NAME = "ExampleInputStream"


class RateType(Enum):
    normal = "NORMAL"
    high = "HIGH"


def get_heart_rate(rate_type):
    if rate_type == RateType.normal:
        rate = random.randint(60, 100)
    elif rate_type == RateType.high:
        rate = random.randint(150, 200)
    else:
        raise TypeError
    return {"heartRate": rate, "rateType": rate_type.value}


def generate(stream_name, kinesis_client, output=True):
    while True:
        rnd = random.random()
        rate_type = RateType.high if rnd < 0.01 else RateType.normal
        heart_rate = get_heart_rate(rate_type)
        if output:
            print(heart_rate)
        kinesis_client.put_record(
            StreamName=stream_name,
            Data=json.dumps(heart_rate),
            PartitionKey="partitionkey",
        )


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

### Hasilkan aliran dengan hotspot
<a name="kinesis-analytics-v2_DataGenerator_Hotspots_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menghasilkan aliran Kinesis dengan hotspot.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
import json
from pprint import pprint
import random
import time
import boto3

STREAM_NAME = "ExampleInputStream"


def get_hotspot(field, spot_size):
    hotspot = {
        "left": field["left"] + random.random() * (field["width"] - spot_size),
        "width": spot_size,
        "top": field["top"] + random.random() * (field["height"] - spot_size),
        "height": spot_size,
    }
    return hotspot


def get_record(field, hotspot, hotspot_weight):
    rectangle = hotspot if random.random() < hotspot_weight else field
    point = {
        "x": rectangle["left"] + random.random() * rectangle["width"],
        "y": rectangle["top"] + random.random() * rectangle["height"],
        "is_hot": "Y" if rectangle is hotspot else "N",
    }
    return {"Data": json.dumps(point), "PartitionKey": "partition_key"}


def generate(
    stream_name, field, hotspot_size, hotspot_weight, batch_size, kinesis_client
):
    """
    Generates points used as input to a hotspot detection algorithm.
    With probability hotspot_weight (20%), a point is drawn from the hotspot;
    otherwise, it is drawn from the base field. The location of the hotspot
    changes for every 1000 points generated.
    """
    points_generated = 0
    hotspot = None
    while True:
        if points_generated % 1000 == 0:
            hotspot = get_hotspot(field, hotspot_size)
        records = [
            get_record(field, hotspot, hotspot_weight) for _ in range(batch_size)
        ]
        points_generated += len(records)
        pprint(records)
        kinesis_client.put_records(StreamName=stream_name, Records=records)

        time.sleep(0.1)


if __name__ == "__main__":
    generate(
        stream_name=STREAM_NAME,
        field={"left": 0, "width": 10, "top": 0, "height": 10},
        hotspot_size=1,
        hotspot_weight=0.2,
        batch_size=10,
        kinesis_client=boto3.client("kinesis"),
    )
```

### Hasilkan aliran dengan entri log
<a name="kinesis-analytics-v2_DataGenerator_RegexLog_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menghasilkan aliran Kinesis dengan entri log.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
import json
import boto3

STREAM_NAME = "ExampleInputStream"


def get_data():
    return {
        "LOGENTRY": "203.0.113.24 - - [25/Mar/2018:15:25:37 -0700] "
        '"GET /index.php HTTP/1.1" 200 125 "-" '
        '"Mozilla/5.0 [en] Gecko/20100101 Firefox/52.0"'
    }


def generate(stream_name, kinesis_client):
    while True:
        data = get_data()
        print(data)
        kinesis_client.put_record(
            StreamName=stream_name, Data=json.dumps(data), PartitionKey="partitionkey"
        )


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

### Hasilkan aliran dengan data stagger
<a name="kinesis-analytics-v2_DataGenerator_Stagger_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menghasilkan aliran Kinesis dengan data stagger.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
import datetime
import json
import random
import time
import boto3

STREAM_NAME = "ExampleInputStream"


def get_data():
    event_time = datetime.datetime.utcnow() - datetime.timedelta(seconds=10)
    return {
        "EVENT_TIME": event_time.isoformat(),
        "TICKER": random.choice(["AAPL", "AMZN", "MSFT", "INTC", "TBV"]),
    }


def generate(stream_name, kinesis_client):
    while True:
        data = get_data()
        # Send six records, ten seconds apart, with the same event time and ticker
        for _ in range(6):
            print(data)
            kinesis_client.put_record(
                StreamName=stream_name,
                Data=json.dumps(data),
                PartitionKey="partitionkey",
            )
            time.sleep(10)


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

### Hasilkan aliran dengan data ticker saham
<a name="kinesis-analytics-v2_DataGenerator_StockTicker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menghasilkan aliran Kinesis dengan data ticker saham.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
import datetime
import json
import random
import boto3

STREAM_NAME = "ExampleInputStream"


def get_data():
    return {
        "EVENT_TIME": datetime.datetime.now().isoformat(),
        "TICKER": random.choice(["AAPL", "AMZN", "MSFT", "INTC", "TBV"]),
        "PRICE": round(random.random() * 100, 2),
    }


def generate(stream_name, kinesis_client):
    while True:
        data = get_data()
        print(data)
        kinesis_client.put_record(
            StreamName=stream_name, Data=json.dumps(data), PartitionKey="partitionkey"
        )


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

### Hasilkan aliran dengan dua tipe data
<a name="kinesis-analytics-v2_DataGenerator_TwoRecordTypes_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menghasilkan aliran Kinesis dengan dua tipe data.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
import json
import random
import boto3

STREAM_NAME = "OrdersAndTradesStream"
PARTITION_KEY = "partition_key"


def get_order(order_id, ticker):
    return {
        "RecordType": "Order",
        "Oid": order_id,
        "Oticker": ticker,
        "Oprice": random.randint(500, 10000),
        "Otype": "Sell",
    }


def get_trade(order_id, trade_id, ticker):
    return {
        "RecordType": "Trade",
        "Tid": trade_id,
        "Toid": order_id,
        "Tticker": ticker,
        "Tprice": random.randint(0, 3000),
    }


def generate(stream_name, kinesis_client):
    order_id = 1
    while True:
        ticker = random.choice(["AAAA", "BBBB", "CCCC"])
        order = get_order(order_id, ticker)
        print(order)
        kinesis_client.put_record(
            StreamName=stream_name, Data=json.dumps(order), PartitionKey=PARTITION_KEY
        )
        for trade_id in range(1, random.randint(0, 6)):
            trade = get_trade(order_id, trade_id, ticker)
            print(trade)
            kinesis_client.put_record(
                StreamName=stream_name,
                Data=json.dumps(trade),
                PartitionKey=PARTITION_KEY,
            )
        order_id += 1


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

### Hasilkan aliran dengan data log web
<a name="kinesis-analytics-v2_DataGenerator_WebLog_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menghasilkan aliran Kinesis dengan data log web.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/kinesis#code-examples). 

```
import json
import boto3

STREAM_NAME = "ExampleInputStream"


def get_data():
    return {
        "log": "192.168.254.30 - John [24/May/2004:22:01:02 -0700] "
        '"GET /icons/apache_pb.gif HTTP/1.1" 304 0'
    }


def generate(stream_name, kinesis_client):
    while True:
        data = get_data()
        print(data)
        kinesis_client.put_record(
            StreamName=stream_name, Data=json.dumps(data), PartitionKey="partitionkey"
        )


if __name__ == "__main__":
    generate(STREAM_NAME, boto3.client("kinesis"))
```

# AWS Marketplace Contoh API Katalog menggunakan SDK for Python (Boto3)
<a name="python_3_marketplace-catalog_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS Marketplace Catalog API.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Produk AMI](#ami_products)
+ [Penawaran mitra saluran](#channel_partner_offers)
+ [Produk kontainer](#container_products)
+ [Entitas](#entities)
+ [Penawaran](#offers)
+ [Produk](#products)
+ [Otorisasi penjualan kembali](#resale_authorization)
+ [Produk SaaS](#saas_products)
+ [Utilitas](#utilities)

## Produk AMI
<a name="ami_products"></a>

### Tambahkan dimensi ke produk AMI yang ada dan perbarui ketentuan harga penawaran
<a name="marketplace-catalog_AddDimensionToAmiProductAndSetPriceInPublicOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menambahkan dimensi ke produk AMI yang ada dan memperbarui ketentuan harga penawaran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Identifier": "prod-1111111111111",
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": [
                {
                    "Key": "m7g.8xlarge",
                    "Description": "m7g.8xlarge",
                    "Name": "m7g.8xlarge",
                    "Types": [
                        "Metered"
                    ],
                    "Unit": "Hrs"
                }
            ]
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "m5.large",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "m7g.4xlarge",
                                        "Price": "0.45"
                                    },
                                    {
                                        "DimensionKey": "m7g.2xlarge",
                                        "Price": "0.45"
                                    },
                                    {
                                        "DimensionKey": "m7g.8xlarge",
                                        "Price": "0.55"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to add a dimension to an existing AMI product and update the offer pricing terms.
CAPI-23
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Add dimension for AMI product")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Menambahkan wilayah tempat produk AMI digunakan
<a name="marketplace-catalog_AddRegionExistingAmiProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menambahkan wilayah tempat produk AMI dikerahkan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "AddRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-east-2",
                    "us-west-2"
                ]
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to add a region where my
AMI product is deployed
CAPI-25A
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Add a region where my AMI product is deployed",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat produk AMI publik atau terbatas dan penawaran umum dengan harga tahunan per jam
<a name="marketplace-catalog_CreateLimitedAmiProductAndPublicOfferWithHourlyAnnualPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk AMI publik atau terbatas dan penawaran umum dengan harga tahunan per jam. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Operating Systems"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "AddRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-east-1"
                ]
            }
        },
        {
            "ChangeType": "AddInstanceTypes",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "InstanceTypes": [
                    "t2.micro"
                ]
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Version": {
                    "VersionTitle": "Test AMI Version1.0",
                    "ReleaseNotes": "Test AMI Version"
                },
                "DeliveryOptions": [
                    {
                        "Details": {
                            "AmiDeliveryOptionDetails": {
                                "AmiSource": {
                                    "AmiId": "ami-11111111111111111",
                                    "AccessRoleArn": "arn:aws:iam::111111111111:role/AWSMarketplaceAmiIngestion",
                                    "UserName": "ec2-user",
                                    "OperatingSystemName": "AMAZONLINUX",
                                    "OperatingSystemVersion": "10.0.14393",
                                    "ScanningPort": 22
                                },
                                "UsageInstructions": "Test AMI Version",
                                "RecommendedInstanceType": "t2.micro",
                                "SecurityGroups": [
                                    {
                                        "IpProtocol": "tcp",
                                        "IpRanges": [
                                            "0.0.0.0/0"
                                        ],
                                        "FromPort": 10,
                                        "ToPort": 22
                                    }
                                ]
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "t2.micro",
                    "Description": "t2.micro",
                    "Name": "t2.micro",
                    "Types": [
                        "Metered"
                    ],
                    "Unit": "Hrs"
                }
            ]
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with hourly-annual pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.15"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P365D"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a public or limited AMI
product and public offer with hourly-annual pricing and standard or custom EULA
CAPI-06
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create limited AMI product and public offer with hourly-annual pricing and standard EULA",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat produk AMI publik atau terbatas dan penawaran umum dengan harga bulanan per jam
<a name="marketplace-catalog_CreateLimitedAmiProductAndPublicOfferWithHourlyMonthlyPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk AMI publik atau terbatas dan penawaran umum dengan harga bulanan per jam. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Operating Systems"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "AddRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-east-1"
                ]
            }
        },
        {
            "ChangeType": "AddInstanceTypes",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "InstanceTypes": [
                    "t2.micro"
                ]
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Version": {
                    "VersionTitle": "Test AMI Version1.0",
                    "ReleaseNotes": "Test AMI Version"
                },
                "DeliveryOptions": [
                    {
                        "Details": {
                            "AmiDeliveryOptionDetails": {
                                "AmiSource": {
                                    "AmiId": "ami-11111111111111111",
                                    "AccessRoleArn": "arn:aws:iam::111111111111:role/AWSMarketplaceAmiIngestion",
                                    "UserName": "ec2-user",
                                    "OperatingSystemName": "AMAZONLINUX",
                                    "OperatingSystemVersion": "10.0.14393",
                                    "ScanningPort": 22
                                },
                                "UsageInstructions": "Test AMI Version",
                                "RecommendedInstanceType": "t2.micro",
                                "SecurityGroups": [
                                    {
                                        "IpProtocol": "tcp",
                                        "IpRanges": [
                                            "0.0.0.0/0"
                                        ],
                                        "FromPort": 10,
                                        "ToPort": 22
                                    }
                                ]
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "t2.micro",
                    "Description": "t2.micro",
                    "Name": "t2.micro",
                    "Types": [
                        "Metered"
                    ],
                    "Unit": "Hrs"
                }
            ]
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with hourly-monthly pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.15"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "RecurringPaymentTerm",
                        "CurrencyCode": "USD",
                        "BillingPeriod": "Monthly",
                        "Price": "15.0"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a public or limited AMI
product and public offer with hourly-monthly pricing and standard or custom EULA
CAPI-08
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "create limited AMI product and public offer with hourly-monthly pricing and standard EULA",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat produk AMI publik atau terbatas dan penawaran umum dengan harga per jam
<a name="marketplace-catalog_CreateLimitedAmiProductAndPublicOfferWithHourlyPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk AMI publik atau terbatas dan penawaran umum dengan harga per jam. Contoh ini menciptakan EULA baik dan standar atau kustom.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Operating Systems"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "AddRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-east-1"
                ]
            }
        },
        {
            "ChangeType": "AddInstanceTypes",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "InstanceTypes": [
                    "t2.micro"
                ]
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Version": {
                    "VersionTitle": "Test AMI Version1.0",
                    "ReleaseNotes": "Test AMI Version"
                },
                "DeliveryOptions": [
                    {
                        "Details": {
                            "AmiDeliveryOptionDetails": {
                                "AmiSource": {
                                    "AmiId": "ami-11111111111111111",
                                    "AccessRoleArn": "arn:aws:iam::111111111111:role/AWSMarketplaceAmiIngestion",
                                    "UserName": "ec2-user",
                                    "OperatingSystemName": "AMAZONLINUX",
                                    "OperatingSystemVersion": "10.0.14393",
                                    "ScanningPort": 22
                                },
                                "UsageInstructions": "Test AMI Version",
                                "RecommendedInstanceType": "t2.micro",
                                "SecurityGroups": [
                                    {
                                        "IpProtocol": "tcp",
                                        "IpRanges": [
                                            "0.0.0.0/0"
                                        ],
                                        "FromPort": 10,
                                        "ToPort": 22
                                    }
                                ]
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "t2.micro",
                    "Description": "t2.micro",
                    "Name": "t2.micro",
                    "Types": [
                        "Metered"
                    ],
                    "Unit": "Hrs"
                }
            ]
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with hourly pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.15"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to Create a public or limited AMI product
and public offer with hourly pricing and standard or custom EULA
CAPI-07
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create limited AMI product and public offer with hourly pricing and standard EULA",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat draf produk AMI dengan draf penawaran umum
<a name="marketplace-catalog_CreateDraftAmiProductWithDraftPublicOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf produk AMI dengan draf penawaran umum.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "AmiProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier",
                "Name": "Test Offer"
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create an AMI draft product
with a draft public offer.
CAPI-02
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "AMI draft product with draft public offer",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Batasi wilayah tempat produk AMI digunakan
<a name="marketplace-catalog_RestrictRegionExistingAmiProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membatasi wilayah tempat produk AMI digunakan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "RestrictRegions",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "Regions": [
                    "us-west-2"
                ]
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to restrict a region where my
AMI product is deployed
CAPI-25B
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Add a region where my AMI product is deployed",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Batasi visibilitas produk
<a name="marketplace-catalog_RestrictExistingAmi_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membatasi visibilitas produk.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateVisibility",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "TargetVisibility": "Restricted"
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to change a product visibility to restricted
CAPI-17
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Restrict existing AMI")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Tentukan apakah aset AMI dikerahkan di wilayah baru
<a name="marketplace-catalog_UpdateFutureRegionSupport_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menentukan apakah aset AMI dikerahkan di wilayah baru yang dibangun oleh AWS untuk mendukung wilayah masa depan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateFutureRegionSupport",
            "Entity": {
                "Type": "AmiProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": {
                "FutureRegionSupport": {
                    "SupportedRegions": [
                        "All"
                    ]
                }
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to modify a product to support all future regions
CAPI-26
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Update future region support")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

## Penawaran mitra saluran
<a name="channel_partner_offers"></a>

### Buat draf CPPO untuk semua jenis produk
<a name="marketplace-catalog_CreateDraftCppoOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf CPPO untuk semua jenis produk sehingga Anda dapat meninjaunya secara internal sebelum dipublikasikan ke pembeli.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOfferUsingResaleAuthorization",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ResaleAuthorizationId": "11111111-1111-1111-1111-111111111111",
                "Name": "Test Offer name"
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create “draft” CPPO
for any product type (AMI/SaaS/Container) that can be reviewed internally
before publishing to buyers
CAPI-60
"""
import os

import utils.start_changeset as sc  # noqa: E402
import utils.stringify_details as sd  # noqa: E402

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Create a draft CPPO offer for a product")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi pengganti otorisasi penjualan kembali dengan harga kontrak
<a name="marketplace-catalog_CreateResaleAuthorizationReplacementOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi pengganti otorisasi penjualan kembali dari perjanjian yang ada dengan harga kontrak.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateReplacementOfferUsingResaleAuthorization",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateReplacementOfferResaleAuth",
            "DetailsDocument": {
                "AgreementId": "agmt-1111111111111111111111111",
                "ResaleAuthorizationId": "resaleauthz-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test replacement offer for SaaSProduct using AWS Marketplace API Reference Codes",
                "Description": "Test private resale replacement offer with contract pricing for SaaSProduct"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "FixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.0",
                        "Duration": "P12M",
                        "Grants": [
                            {
                                "DimensionKey": "BasicService",
                                "MaxQuantity": 2
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementEndDate": "2024-01-30"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "PaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2024-01-01",
                                "ChargeAmount": "0"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOfferResaleAuth.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a resale authorization replacement private offer
from an existing agreement with contract pricing
CAPI-96
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create resale authorization replacement private offer with contract pricing",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Daftar semua CPPOs yang dibuat oleh mitra saluran
<a name="marketplace-catalog_ListAllCppoOffers_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat daftar semua yang CPPOs dibuat oleh mitra saluran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to list all Channel Partner Offers
in an account

Program executed with no arguments:
ie. python3 list_all_cppo_offers.py

CAPI-93
"""

import json
import logging

import boto3
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-catalog")


def get_offer_entities():
    """
    Returns a list of all offers in the account
    """

    next_token = ""  # nosec: B105
    response_list = []

    try:
        response = mp_client.list_entities(Catalog="AWSMarketplace", EntityType="Offer")
    except ClientError as e:
        logging.exception(f"Couldn't list entities. {e}")
        raise

    response_list.append(response)

    # Results are paginated depending on number of entities returned
    while "NextToken" in response:
        next_token = response["NextToken"]

        try:
            response = mp_client.list_entities(
                Catalog="AWSMarketplace",
                EntityType="Offer",
                NextToken=next_token,
            )
        except ClientError as e:
            logging.exception(f"Couldn't list entities. {e}")
            raise

        if "NextToken" in response:
            response_list.append(response)

    return response_list


def build_offer_list(response_list):
    """
    Cleans up list_entities response list with just list of offer IDs
    """
    offer_list = []

    for response in response_list:
        for entity in response["EntitySummaryList"]:
            offer_list.append(entity["EntityId"])

    return offer_list


def check_offer_resaleauth(offer_id):
    """
    Checks to see if an offer is based on a resale authorization
    """
    offer_response = describe_entity(offer_id)
    offer_details = json.loads(offer_response["Details"])
    if offer_details is None:
        offer_details = offer_response["DetailsDocument"]
    if "ResaleAuthorizationId" in offer_details and offer_details["ResaleAuthorizationId"] is not None:
        return offer_id
    else:
        return None


def describe_entity(entity_id):
    """
    General purpose describe entity call
    """
    try:
        response = mp_client.describe_entity(
            Catalog="AWSMarketplace",
            EntityId=entity_id,
        )
    except ClientError as e:
        logging.exception(f"Couldn't describe entity. {e}")
        raise

    return response


def get_resaleauth_offers():
    """
    Returns a list of all offers in the account that are
    based on a resale authorization
    """
    resale_offer_list = []

    response_list = get_offer_entities()
    offer_list = build_offer_list(response_list)
    for offer in offer_list:
        print ("offer id " + offer)
        offer_info = check_offer_resaleauth(offer)
        if offer_info is not None:
            resale_offer_list.append(offer_info)

    return resale_offer_list


if __name__ == "__main__":
    print(get_resaleauth_offers())
```
+  Untuk detail API, lihat [ListEntities](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/ListEntities)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat daftar semua otorisasi penjualan kembali bersama yang tersedia untuk mitra saluran
<a name="marketplace-catalog_ListAllSharedResaleAuthorizations_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mencantumkan semua otorisasi penjualan kembali bersama yang tersedia untuk mitra saluran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to list all resale authorizations
shared to an account

Program executed with no arguments:
ie. python3 list_all_resale_authorizations.py

CAPI-94
"""

import logging

import boto3
import utils.helpers as hlp  # noqa: E402
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-catalog")


def get_shared_entities():
    next_token = ""  # nosec: B105
    response_list = []

    try:
        response = mp_client.list_entities(
            Catalog="AWSMarketplace",
            EntityType="ResaleAuthorization",
            OwnershipType="SHARED",
        )
    except ClientError as e:
        logging.exception(f"Couldn't list entities. {e}")
        raise

    response_list.append(response)

    # Results can be paginated depending on number of entities returned
    while "NextToken" in response:
        next_token = response["NextToken"]

        try:
            response = mp_client.list_entities(
                Catalog="AWSMarketplace",
                EntityType="ResaleAuthorization",
                OwnershipType="SHARED",
                NextToken=next_token,
            )
        except ClientError as e:
            logging.exception(f"Couldn't list entities. {e}")
            raise

        if "NextToken" in response:
            response_list.append(response)

    return response_list


if __name__ == "__main__":
    response_list = get_shared_entities()
    hlp.pretty_print_datetime(response_list)
```
+  Untuk detail API, lihat [ListEntities](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/ListEntities)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan CPPO dan tambahkan EULA pembeli
<a name="marketplace-catalog_PublishCppoEula_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan CPPO dan menambahkan EULA pembeli.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateOfferUsingResaleAuthorization",
            "Entity": {
            "Type": "Offer@1.0"
            },
            "ChangeName": "CreateCPPOoffer",
            "DetailsDocument": {
                "ResaleAuthorizationId":"resaleauthz-1111111111111", 
                "Name": "Test Offer",
                "Description":"Test product"
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
        			{			
            			"Type": "LegalTerm",
            			"Documents": [
            				{
            					"Type": "CustomEula", 
            					"Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
            				}
            			]
        			}
    			]
        	}
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": ["222222222222"]
                    }
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-07-31"
                }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P450D"
                    }
                ]
             }
        },
        { 
            "ChangeType":"ReleaseOffer",
            "Entity":{
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPOoffer.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to publish CPPO
for any product type (AMI/SaaS/Container) and append buyer EULA
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Publish CPPO for any product type and append buyer EULA",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan CPPO menggunakan otorisasi penjualan kembali satu kali dan perbarui markup harga
<a name="marketplace-catalog_PublishOneTimeCppoWithPriceMarkup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan CPPO menggunakan otorisasi penjualan kembali satu kali pada produk AMI, SaaS, atau Container dan memperbarui markup harga.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateOfferUsingResaleAuthorization",
            "Entity": {
            "Type": "Offer@1.0"
            },
            "ChangeName": "CreateCPPO",
            "DetailsDocument": {
                "ResaleAuthorizationId":"resaleauthz-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test Offer name",
                "Description":"Test Offer description"
            }
        },
        {
            "ChangeType": "UpdateMarkup",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "Percentage" : "5.0"
        }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": ["111111111111"]
                    }
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
                }
        },
        {
            "ChangeType":"ReleaseOffer",
            "Entity":{
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to Create CPPO using one-time resale
authorization on AMI, SaaS or Container products and update price markup
CAPI-63
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create CPPO using one-time resale authorization and update price markup"
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan draf CPPO dan perbarui markup harga
<a name="marketplace-catalog_PublishCppoPriceMarkup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan draf CPPO dan memperbarui markup harga.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateOfferUsingResaleAuthorization",
            "Entity": {
            "Type": "Offer@1.0"
            },
            "ChangeName": "CreateCPPO",
            "DetailsDocument": {
                "ResaleAuthorizationId":"resaleauthz-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test Offer name",
                "Description":"Test Offer description"
            }
        },
        {
            "ChangeType": "UpdateMarkup",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "Percentage" : "5.0"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": ["111111111111"]
                    }
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-05-31"
                }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P450D"
                    }
                ]
             }
        },
        {
            "ChangeType":"ReleaseOffer",
            "Entity":{
                "Type": "Offer@1.0",
                "Identifier": "$CreateCPPO.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to publish “draft” CPPO
for any product type (AMI/SaaS/Container) and update price markup
CAPI-72
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Publish draft CPPO for any product type adn update price markup"
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui tanggal kedaluwarsa CPPO
<a name="marketplace-catalog_UpdateCppoExpiryDate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui tanggal kedaluwarsa CPPO untuk memberi pembeli lebih banyak waktu untuk mengevaluasi dan menerima penawaran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2025-07-31"
                }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to update the expiry
date of a CPPO offer
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Update the expiry date of a CPPO offer"
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

## Produk kontainer
<a name="container_products"></a>

### Buat produk kontainer draf dengan draf penawaran umum
<a name="marketplace-catalog_CreateDraftContainerProductWithDraftPublicOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk kontainer draf dengan draf penawaran umum.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog":"AWSMarketplace",
    "ChangeSet":[
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "ContainerProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier",
                "Name": "Test Offer"
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create an container draft product
with a draft public offer.
CAPI-03
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create a draft container product with a draft public offer",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat produk kontainer terbatas dengan penawaran umum dan harga kontrak
<a name="marketplace-catalog_CreateLimitedContainerProductPublicOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk kontainer terbatas dengan penawaran umum, harga kontrak, dan EULA standar.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "Entity": {
                "Type": "ContainerProduct@1.0"
            },
            "DetailsDocument": {},
            "ChangeName": "CreateProductChange"
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "Categories": [
                    "Streaming solutions"
                ],
                "ProductTitle": "ContainerProduct",
                "AdditionalResources": [],
                "LongDescription": "Long description goes here",
                "SearchKeywords": [
                    "container streaming"
                ],
                "ShortDescription": "Description1",
                "Highlights": [
                    "Highlight 1",
                    "Highlight 2"
                ],
                "SupportDescription": "No support available",
                "VideoUrls": []
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "Cores",
                    "Description": "Cores per cluster",
                    "Name": "Cores",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111"
                    ]
                }
            }
        },
        {
            "ChangeType": "AddRepositories",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Repositories": [
                    {
                        "RepositoryName": "uniquerepositoryname",
                        "RepositoryType": "ECR"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "ContainerProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            },
            "ChangeName": "CreateOfferChange"
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "Constraints": {
                                    "MultipleDimensionSelection": "Disallowed",
                                    "QuantityConfiguration": "Disallowed"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "Cores",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "No refunds"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Some container offer Name",
                "Description": "Some interesting container offer description"
            }
        },
        {
            "ChangeType": "UpdateRenewalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "RenewalTerm"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create limited container
product with public offer, contract pricing and standard EULA
CAPI-15
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create limited container product with public offer contract pricing and standard EULA",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

## Entitas
<a name="entities"></a>

### Jelaskan semua entitas dalam satu panggilan
<a name="marketplace-catalog_BatchDescribeEntities_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana mendeskripsikan semua entitas dalam satu panggilan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to describe for multiple entities information in the AWS Marketplace Catalog
CAPI-98
"""

import json
import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

PRODUCT_ID = "prod-1111111111111"
OFFER_ID = "offer-1111111111111"
MARKETPLACE_CATALOG = "AWSMarketplace"


def pretty_print(response):
    json_object = json.dumps(response, indent=4)
    print(json_object)


def get_entities_information(mp_client):
    """
    Returns information about a given product
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of product information
    """

    entity_request_list_param = [
        {'EntityId': PRODUCT_ID, 'Catalog': MARKETPLACE_CATALOG},
        {'EntityId': OFFER_ID, 'Catalog': MARKETPLACE_CATALOG}
    ]
    try:
        response = mp_client.batch_describe_entities(
            EntityRequestList=entity_request_list_param
        )

        return response

    except ClientError as e:
        logger.exception("Unexpected error: %s", e)
        raise


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for entities in the AWS Marketplace Catalog.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-catalog")

    response = get_entities_information(mp_client)
    print("Successful entities response -")
    pretty_print(response["EntityDetails"])
    print("Failed entities response -")
    pretty_print(response["Errors"])


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [BatchDescribeEntities](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/BatchDescribeEntities)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat daftar dan jelaskan semua penawaran yang terkait dengan suatu produk
<a name="marketplace-catalog_ListProductOffers_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat daftar dan menjelaskan semua penawaran yang terkait dengan suatu produk.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to retrieve all offer information
related to a single product
CAPI-97
"""

import argparse
import logging

import boto3
from botocore.exceptions import ClientError
from utils import helpers

logger = logging.getLogger(__name__)

mp_client = boto3.client("marketplace-catalog")


def get_entity_information(entity_id):
    """
    Returns information about a given entity
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of entity information
    """

    try:
        response = mp_client.describe_entity(
            Catalog="AWSMarketplace",
            EntityId=entity_id,
        )

        return response

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Entity with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def list_entity_details(entity_type, entity_id):
    """
    Returns details about a given entity and entity type
    """

    entity_summary_list = []

    # filter will return details for given entity_id with BuyerAccounts targeting
    filter_list_param = {
        'OfferFilters':{
            'ProductId':{
                'ValueList':[entity_id]
            },
            'Targeting': {
                'ValueList': ["BuyerAccounts"]
            }
        }
    }

    try:
        response = mp_client.list_entities(
            Catalog="AWSMarketplace",
            EntityType=entity_type,
            EntityTypeFilters = filter_list_param,
            MaxResults=10
        )

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Entity ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)

    # add results to entity_summary_list
    entity_summary_list.extend(response["EntitySummaryList"])

    # if there are more than 10 offers, paginate through the results
    while "NextToken" in response and response["NextToken"] is not None:
        try:
            response = mp_client.list_entities(
                Catalog="AWSMarketplace",
                EntityType=entity_type,
                EntityTypeFilters = filter_list_param,
                NextToken=response["NextToken"],
                MaxResults=10
            )

        except ClientError as e:
            if e.response["Error"]["Code"] == "ResourceNotFoundException":
                logger.error("Entity ID %s not found.", entity_id)
            else:
                logger.error("Unexpected error: %s", e)

        # add results to entity_summary_list
        entity_summary_list.extend(response["EntitySummaryList"])

        return entity_summary_list

if __name__ == "__main__":
    parser = argparse.ArgumentParser()

    parser.add_argument(
        "--entity-id",
        "-eid",
        help="Provide Entity ID corresponding to a product to filter offers on",
        required=True,
    )

    args = parser.parse_args()

    # Gets a offers associated with the entity_id
    response = list_entity_details(
        "Offer",
        entity_id=args.entity_id
    )

    if response: # if response is not empty

        # list_entity_details returns a list of offers
        for offer in response:

            print("-"*128)
            print(f"Terms for Offer ID: {offer['EntityId']}")
            print("-"*128)

            #retrieve offer information for each offer
            entity_information = get_entity_information(offer["EntityId"])

            helpers.pretty_print_datetime(entity_information)

    else:
        print(f"No information found for Entity ID: {args.entity_id}")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [DescribeEntity](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/DescribeEntity)
  + [ListEntities](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/ListEntities)

## Penawaran
<a name="offers"></a>

### Buat dimensi khusus untuk produk SaaS dan buat penawaran pribadi
<a name="marketplace-catalog_CreateSaasProductCustomDimensionAndPrivateOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat dimensi khusus untuk produk SaaS dan membuat penawaran pribadi.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "prod-1111111111111"
            },
            "DetailsDocument": [
                {
                    "Types": [
                        "Entitled"
                    ],
                    "Description": "Custom Pricing 4 w/ terms and coverage to be defined in Private Offer",
                    "Unit": "Units",
                    "Key": "Custom4",
                    "Name": "Custom Pricing 4"
                }
            ]
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            },
            "ChangeName": "CreateOfferChange"
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Private Test Offer - SaaS Contract Product",
                "Description": "Private Test Offer - SaaS Contract Product"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "Custom4",
                                        "Price": "300.0"
                                    }
                                ],
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P36M"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ],
    "ChangeSetName": "PrivateOfferWithCustomDimension"
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a SaaS product custom dimension and private offer
CAPI-91
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set, "Create a SaaS product custom dimension and private offer"
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat draf penawaran pribadi untuk produk AMI atau SaaS
<a name="marketplace-catalog_CreateDraftPrivateOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf penawaran pribadi untuk produk AMI atau SaaS sehingga Anda dapat memeriksanya secara internal sebelum dipublikasikan ke pembeli.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "Test Private Offer"
            }
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create “draft” Private Offer
for any AMI or SAAS product type that can be reviewed internally
before publishing to buyers
CAPI-30
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Private offer for AMI product")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan kontrak dan Pay-As-You-Go harga untuk produk SaaS
<a name="marketplace-catalog_CreatePrivateOfferWithContractWithPayAsYouGoPricingForSaasProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan kontrak dan Pay-As-You-Go harga untuk produk SaaS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer with contract with PAYG pricing for my SaaS product
CAPI-34
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "Create private offer with contract with PAYG pricing for my SaaS product",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan harga kontrak dan jadwal pembayaran yang fleksibel untuk produk SaaS
<a name="marketplace-catalog_CreatePrivateOfferWithContractPricingWithFlexiblePaymentScheduleForSaasProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga kontrak dan jadwal pembayaran yang fleksibel untuk produk SaaS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "FixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.0",
                        "Grants": [
                            {
                                "DimensionKey": "BasicService",
                                "MaxQuantity": 1
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P12M"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "PaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2024-01-01",
                                "ChargeAmount": "200.00"
                            },
                            {
                                "ChargeDate": "2024-02-01",
                                "ChargeAmount": "170.00"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Some kind of refund policy description"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer
with contract pricing and flexible payment schedule for my SaaS product
CAPI-39
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create private offer with contract pricing and flexible payment schedule for my SaaS product",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan harga kontrak untuk produk Container
<a name="marketplace-catalog_CreatePrivateOfferWithContractPricingForContainerProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga kontrak untuk produk Container.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for Container product using AWS Marketplace API Reference Code",
                "Description": "Test private offer for Container product with contract pricing using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "Constraints": {
                                    "MultipleDimensionSelection": "Disallowed",
                                    "QuantityConfiguration": "Disallowed"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "ReqPerHour",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer (target buyers)
for my Container product with contract pricing
CAPI-36
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "publish a private offer for my Container product with contract pricing",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan harga kontrak untuk produk AMI
<a name="marketplace-catalog_CreatePrivateOfferWithContractPricingForAmiProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga kontrak untuk produk AMI.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with hourly annual pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "ReadOnlyUsers",
                                        "Price": "220.00"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan skrip ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer with contract pricing for my AMI product
CAPI-35
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set, "create private offer with contract pricing for my AMI product"
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan harga tahunan per jam dan jadwal pembayaran yang fleksibel untuk produk AMI
<a name="marketplace-catalog_CreatePrivateOfferWithHourlyAnnualPricingAndFlexiblePaymentScheduleForAmiProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga tahunan per jam dan jadwal pembayaran yang fleksibel untuk produk AMI.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with hourly annual pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.17"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "FixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.0",
                        "Duration": "P365D",
                        "Grants": [
                            {
                                "DimensionKey": "t2.micro",
                                "MaxQuantity": 1
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P650D"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "PaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2024-01-01",
                                "ChargeAmount": "200.00"
                            },
                            {
                                "ChargeDate": "2024-02-01",
                                "ChargeAmount": "170.00"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer with hourly annual pricing and flexible payment schedule for my AMI product
CAPI-XX
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "Create private offer with hourly annual pricing and flexible payment schedule for my AMI product",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan harga tahunan per jam untuk produk AMI
<a name="marketplace-catalog_CreatePrivateOfferWithHourlyAnnualPricingForAmiProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga tahunan per jam untuk produk AMI.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with hourly annual pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.17"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P365D"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "220.00"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P650D"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer with hourly annual pricing for my AMI product
CAPI-31
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set, "create private offer with hourly annual pricing for my AMI product"
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan harga per jam untuk produk AMI
<a name="marketplace-catalog_CreatePrivateOfferWithHourlyPricingForAmiProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga per jam untuk produk AMI.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for AmiProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with hourly pricing for AmiProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2025-01-01"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "0.15"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P30D"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer with hourly pricing for my AMI product
CAPI-32
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set, "create private offer with hourly pricing for my AMI product"
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan harga berlangganan untuk produk SaaS
<a name="marketplace-catalog_CreatePrivateOfferWithSubscriptionPricingForSaasProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga berlangganan untuk produk SaaS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.13"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.22"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementDuration": "P30D"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer with subscription pricing for my SaaS product
CAPI-33
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set, "Create private offer with subscription pricing for my SaaS product"
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi dengan harga kontrak berjenjang untuk produk SaaS
<a name="marketplace-catalog_CreatePrivateOfferWithTieredContractPricingForSaasProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi dengan harga kontrak berjenjang untuk produk SaaS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test private offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test private offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "120.00"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "200.00"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Disallowed",
                                    "QuantityConfiguration": "Disallowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a private offer with tiered contract pricing for my SaaS product
CAPI-XX
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "Create private offer with tiered contract pricing for my SaaS product",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran uji coba gratis publik dengan harga berlangganan untuk produk SaaS
<a name="marketplace-catalog_CreatePublicFreeTrialOfferWithSubscriptionPricingForSaasProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran uji coba gratis publik dengan harga berlangganan untuk produk SaaS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "prod-1111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public free trial offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test public free trial offer with subscription pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Free",
                "Terms": [
                    {
                        "Type": "FreeTrialPricingTerm",
                        "Duration": "P20D",
                        "Grants": [
                            {
                                "DimensionKey": "WorkloadSmall"
                            },
                            {
                                "DimensionKey": "WorkloadMedium"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a public free trial offer with subscription pricing for SaaS product
CAPI-13
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "Create public free trial offer with subscription pricing for SaaS product",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat penawaran pribadi pengganti dengan harga kontrak
<a name="marketplace-catalog_CreateReplacementPrivateOfferWithContractPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat penawaran pribadi pengganti dari perjanjian yang ada dengan harga kontrak.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType" : "CreateReplacementOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateReplacementOffer",
            "DetailsDocument": {
                "AgreementId": "agmt-1111111111111111111111111"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test replacement offer for SaaSProduct using AWS Marketplace API Reference Codes",
                "Description": "Test private replacement offer with contract pricing for SaaSProduct"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "FixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.0",
                        "Grants": [
                            {
                                "DimensionKey": "BasicService",
                                "MaxQuantity": 2
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateValidityTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ValidityTerm",
                        "AgreementEndDate": "2024-01-30"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "PaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2024-01-01",
                                "ChargeAmount": "0"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateReplacementOffer.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a replacement private offer
from an existing agreement with contract pricing
CAPI-95
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create replacement private offer with contract pricing..",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Jelaskan penawaran umum
<a name="marketplace-catalog_DescribeOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggambarkan penawaran umum.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) search for offer information in the AWS Marketplace Catalog
CAPI-29
"""

import json
import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

OFFER_ID = "offer-1111111111111"


def pretty_print(response):
    json_object = json.dumps(response, indent=4)
    print(json_object)


def get_offer_information(mp_client, entity_id):
    """
    Returns information about a given offer
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of offer information
    """

    try:
        response = mp_client.describe_entity(
            Catalog="AWSMarketplace",
            EntityId=entity_id,
        )

        return response

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Offer with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an offer in the AWS Marketplace Catalog.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-catalog")

    pretty_print(get_offer_information(mp_client, OFFER_ID))


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [DescribeEntity](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/DescribeEntity)di *AWS SDK for Python (Boto3) Referensi* API. 

### Kedaluwarsa draf penawaran pribadi
<a name="marketplace-catalog_ExpirePrivateOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengatur tanggal kedaluwarsa penawaran pribadi ke tanggal di masa lalu sehingga pembeli tidak lagi melihat penawaran tersebut.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "Test Private Offer"
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create “draft” Private Offer
for any AMI or SAAS product type that can be reviewed internally
before publishing to buyers
CAPI-30
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Private offer for AMI product")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Daftar semua penawaran pribadi
<a name="marketplace-catalog_ListAllPrivateOffers_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat daftar semua penawaran pribadi.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) for listing offers in the AWS Marketplace Catalog
CAPI-40
"""
import json
import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

# Constants
MAX_RESULTS = 10
CATALOG = "AWSMarketplace"
ENTITY_TYPE = "Offer"


def pretty_print(response):
    json_object = json.dumps(response, indent=4)
    print(json_object)


def list_private_offers(mp_client, return_all_private_offers):
    """
    This method retrieves list of all Private Offers for this account.
    """
    entity_summary_list = []
    filter_list_param = {
        'OfferFilters': {
            'Targeting': {
                'ValueList': ["BuyerAccounts"]
            }
        }
    }
    try:
        response = mp_client.list_entities(
            Catalog=CATALOG,
            EntityType=ENTITY_TYPE,
            EntityTypeFilters=filter_list_param,
            MaxResults=MAX_RESULTS
        )
    except ClientError as e:
        logger.error("Could not complete list_entities request: %s", e)
        raise

    entity_summary_list.extend(response["EntitySummaryList"])
    logger.info("Number of results in first iteration: %d " % len(entity_summary_list))

    # Get subsequent pages of results if previous response contained a NextToken
    while "NextToken" in response and return_all_private_offers:
        try:
            logger.info("Getting Next Token results: %s " % response["NextToken"])
            response = mp_client.list_entities(
                Catalog=CATALOG,
                EntityType=ENTITY_TYPE,
                EntityTypeFilters=filter_list_param,
                MaxResults=MAX_RESULTS,
                NextToken=response["NextToken"]
            )
        except ClientError as e:
            logger.error("Could not complete list_entities request: %s", e)
            raise

        entity_summary_list.extend(response["EntitySummaryList"])
        logger.info(
            "Number of results in the current iteration: %d "
            % len(response["EntitySummaryList"])
        )

    return entity_summary_list


def get_offer_details(mp_client, offer):
    """
    Describe the details of the Offer.
    """
    try:
        response = mp_client.describe_entity(
            Catalog="AWSMarketplace", EntityId=offer["EntityId"]
        )

        return response
    except ClientError:
        logger.exception("Error: Couldn't get details of the Offer.")
        raise


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Demo  - List Private offers.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-catalog")

    # Get list of all Offers.
    private_offers = list_private_offers(mp_client, False)
    count = len(private_offers)

    logger.info("Number of Offers: %d " % count)
    offer_counter = 0
    # Display details of each Offer.
    for offer in private_offers:
        print("-" * 88)
        offer_counter += 1
        print("Displaying Offer details for Offer# %d" % offer_counter)
        entity = get_offer_details(mp_client, offer)
        pretty_print(entity)

    print("-" * 88)


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui penawaran untuk menerapkan kontrak dengan Pay-As-You-Go harga
<a name="marketplace-catalog_UpdateOfferWithContractAndPayAsYouGoPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui penawaran untuk menerapkan kontrak dengan Pay-As-You-Go harga.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to update an offer to apply contract with PAYG pricing
CAPI-21
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Update offer to apply contract with PAYG pricing")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui penawaran untuk menerapkan harga tahunan per jam
<a name="marketplace-catalog_UpdateOfferWithHourlyAnnualPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui penawaran untuk menerapkan harga tahunan per jam.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "m5.large",
                                        "Price": "0.13"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P365D"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "m5.large",
                                        "Price": "20.03"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to update an offer to apply hourly annual pricing
CAPI-20
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Update offer with hourly annual pricing")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Memperbarui penawaran untuk menerapkan penargetan ke wilayah geografis tertentu
<a name="marketplace-catalog_UpdateOfferTargeting_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui penawaran untuk menerapkan penargetan ke wilayah geografis tertentu.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "CountryCodes": [
                        "US",
                        "ES",
                        "FR",
                        "AU"
                    ]
                }
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to update an offer to apply targeting to certain geographic regions.
CAPI-19
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Update offer targeting")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui nama dan deskripsi penawaran umum
<a name="marketplace-catalog_UpdateOfferNameAndDescription_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui nama dan deskripsi penawaran umum.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "Name": "New offer name",
                "Description": "New offer description"
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to update name and description of my offer
CAPI-18
"""

import os

import utils.start_changeset as sc  # type: ignore
import utils.stringify_details as sd  # type: ignore

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Update name and description of my offer")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui EULA penawaran
<a name="marketplace-catalog_UpdateEula_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui EULA penawaran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to update EULA of my offer
CAPI-18
"""

import os

import utils.start_changeset as sc  # type: ignore
import utils.stringify_details as sd  # type: ignore

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Update EULA of my offer")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui tanggal kedaluwarsa penawaran pribadi ke tanggal yang akan datang
<a name="marketplace-catalog_UpdateOfferExpirationDateOfPrivateOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui tanggal kedaluwarsa penawaran pribadi ke tanggal di masa depan untuk memberi pembeli lebih banyak waktu untuk mengevaluasi dan menerima penawaran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2026-01-01"
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to set expiry date of a private offer to a date in the future so that my buyers get more time to evaluate and accept the offer.
CAPI-37
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Update offer expiration date")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui durasi uji coba gratis dari penawaran uji coba gratis publik untuk produk SaaS
<a name="marketplace-catalog_UpdateFreeTrialDurationOfPublicFreeTrialOfferForSaasProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui durasi uji coba gratis dari penawaran uji coba gratis publik untuk produk SaaS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "FreeTrialPricingTerm",
                        "Duration": "P21D",
                        "Grants": [
                            {
                                "DimensionKey": "WorkloadSmall"
                            },
                            {
                                "DimensionKey": "WorkloadMedium"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to change free trial duration for my SaaS product by modifying my free trial public offer
CAPI-14
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Change free trial duration for SaaS product")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui kebijakan pengembalian dana penawaran
<a name="marketplace-catalog_UpdateRefundPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui kebijakan pengembalian dana penawaran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "offer-1111111111111"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Updated refund policy description"
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to update refund policy of my offer
CAPI-18
"""

import os

import utils.start_changeset as sc  # type: ignore
import utils.stringify_details as sd  # type: ignore

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Update refund policy of my public offer")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

## Produk
<a name="products"></a>

### Jelaskan produk AMI, SaaS, atau Kontainer
<a name="marketplace-catalog_DescribeProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendeskripsikan produk AMI, SaaS, atau Container dan periksa apakah produk tersebut berisi semua informasi yang ingin Anda ketahui tentang produk tersebut.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) search for product information in the AWS Marketplace Catalog
CAPI-28
"""

import json
import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

PRODUCT_ID = "prod-1111111111111"


def pretty_print(response):
    json_object = json.dumps(response, indent=4)
    print(json_object)


def get_product_information(mp_client, entity_id):
    """
    Returns information about a given product
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of product information
    """

    try:
        response = mp_client.describe_entity(
            Catalog="AWSMarketplace",
            EntityId=entity_id,
        )

        return response

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Product with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for a product in the AWS Marketplace Catalog.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-catalog")

    pretty_print(get_product_information(mp_client, PRODUCT_ID))


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [DescribeEntity](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/DescribeEntity)di *AWS SDK for Python (Boto3) Referensi* API. 

### Cantumkan semua produk AMI, SaaS, atau Container dan penawaran publik terkait
<a name="marketplace-catalog_ListProducts_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mencantumkan semua produk AMI, SaaS, atau Container dan penawaran publik terkait.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to display information about AMI products and their associated offers in the AWS Marketplace Catalog
CAPI-27
"""

import json
import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

MAX_PAGE_RESULTS = 10

try:
    mp_client = boto3.client("marketplace-catalog")
except ClientError as e:
    logger.error("Could not create boto3 client.")
    raise


def pretty_print(response):
    json_object = json.dumps(response, indent=4)
    print(json_object)


def describe_entity(entity_id):
    """
    Returns entity details
    Args: entity_id str: The entity ID of the product or offer
    Returns: dict: The entity details
    """
    try:
        response = mp_client.describe_entity(
            Catalog="AWSMarketplace", EntityId=entity_id
        )
    except ClientError as e:
        logger.error("Could not complete describe_entity request.")
        raise

    # De-stringify the details
    response["Details"] = json.loads(response["Details"])

    return response


def get_entities(entity_type, visibility=None):
    """
    Returns list of entities for provided entity_type
    Args: entity_type str: Type of entity list to return, in our case AmiProduct or Offer
    Returns: list: Abbreviated list of entity information
    """
    EntitySummaryList = []

    # Get the first page of results
    try:
        response = mp_client.list_entities(
            Catalog="AWSMarketplace",
            EntityType=entity_type,
            MaxResults=MAX_PAGE_RESULTS,
        )
    except ClientError as e:
        logger.error("Could not complete list_entities request.")
        raise

    EntitySummaryList.extend(response["EntitySummaryList"])

    # Get subsequent pages of results if previous response contained a NextToken
    while "NextToken" in response:
        try:
            response = mp_client.list_entities(
                Catalog="AWSMarketplace",
                EntityType=entity_type,
                MaxResults=MAX_PAGE_RESULTS,
                NextToken=response["NextToken"],
            )
        except ClientError as e:
            logger.error("Could not complete list_entities request.")
            raise

        EntitySummaryList.extend(response["EntitySummaryList"])

    # if visibility is provided, filter the list to only include entities with that visibility
    if visibility is not None:
        EntitySummaryList = [
            entity for entity in EntitySummaryList if entity["Visibility"] == visibility
        ]

    return EntitySummaryList


def get_enhanced_product_list(entity_type):
    """
    Returns an enhanced list of products with product details and offer details
    Args: entity_type str: Type of entity list to return, in our case AmiProduct
    Returns: list: Enhanced list of dictionary objects containing product and offer details
    """

    product_list = get_entities(entity_type)

    # Loop through product list and append product details to each product
    for product in product_list:
        # appends product details to product dictionary
        product["ProductDetails"] = describe_entity(product["EntityId"])["Details"]
        # creating an empty list for offer details
        product["OfferDetailsList"] = []

    return product_list


def attach_offer_details(product_list):
    """
    Loops through offer information and appends offer details to product list
    Args: product_list list: List of product dictionaries
    Returns: list: Enhanced list of dictionary objects containing product and offer details
    """
    offer_list = get_entities("Offer", "Public")

    # Loop through offer list and append offer details to each product
    for offer in offer_list:
        offer["OfferDetails"] = describe_entity(offer["EntityId"])["Details"]

        # Extracts product-id from offer
        product_id = offer["OfferDetails"]["ProductId"]

        # Determines if product-id referenced in offer matches product-id in product list
        product_dict = next(
            filter(lambda product: product["EntityId"] == product_id, product_list),
            None,
        )

        # If product-id matches, appends offer details to product dictionary
        if product_dict is not None:
            # logger.info(f"Offer product Id {offer['OfferDetails']['ProductId']} found in product dictionary. Updating product dictionary with offer details")
            product_dict["OfferDetailsList"].append(offer["OfferDetails"])

        else:
            # logger.info("Offer product Id {offer['OfferDetails']['ProductId']} not found. Skipping offer details update")
            pass

    return product_list


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Retrieving products and public offer information....")
    print("-" * 88)

    # Builds a list of products and their details
    product_list = get_enhanced_product_list("AmiProduct")

    # Queries offer information and attaches it to the product list
    product_offer_list = attach_offer_details(product_list)

    pretty_print(product_offer_list)
    return product_offer_list


if __name__ == "__main__":
    usage_demo()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [DescribeEntity](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/DescribeEntity)
  + [ListEntities](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/ListEntities)

## Otorisasi penjualan kembali
<a name="resale_authorization"></a>

### Buat draf otorisasi penjualan kembali
<a name="marketplace-catalog_DraftResaleauthAllproducttype_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat draf otorisasi penjualan kembali untuk semua jenis produk sehingga Anda dapat memeriksanya secara internal sebelum memublikasikan ke Mitra Saluran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a one-time resale authorization on my SaaS/AMI/Container product so my CP can use that to create Channel Partner Private Offer (CPPO)
CAPI-41
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "draft resale auth")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Jelaskan otorisasi penjualan kembali
<a name="marketplace-catalog_DescribeResaleAuthorization_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menggambarkan otorisasi penjualan kembali.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) search for product information in the AWS Marketplace Catalog
"""

import json
import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

resaleAuthorizationId = "resaleauthz-1111111111111"


def pretty_print(response):
    json_object = json.dumps(response, indent=4)
    print(json_object)


def get_product_information(mp_client, entity_id):
    """
    Returns information about a given product
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of product information
    """

    try:
        response = mp_client.describe_entity(
            Catalog="AWSMarketplace",
            EntityId=entity_id,
        )

        return response

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Product with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for a product in the AWS Marketplace Catalog.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-catalog")

    pretty_print(get_product_information(mp_client, resaleAuthorizationId))


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [DescribeEntity](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/DescribeEntity)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali satu kali dengan penawaran pribadi
<a name="marketplace-catalog_OnetimeResaleauthPrivateoffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali satu kali dengan penawaran pribadi sehingga Mitra Saluran dapat menggunakannya untuk membuat Penawaran Pribadi Mitra Saluran (CPPO).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a one-time resale authorization on my SaaS/AMI/Container product so my CP
can use that to create Channel Partner Private Offer (CPPO)
CAPI-42
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set, "onetime resale auth with private offer"
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa
<a name="marketplace-catalog_MultiuseResaleauthExpirydateCppo_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa untuk produk AMI dengan harga tahunan per jam sehingga Mitra Saluran dapat menggunakannya untuk membuat CPPO.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-05-31"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a multi-use resale authorization with expiry date on my SaaS/AMI product so my CP can use that to create Channel Partner Private Offer (CPPO)
CAPI-48
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "multi-use resale auth with expiry date")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa dan EULA
<a name="marketplace-catalog_MultiuseResaleauthExpirydateCustomEula_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa untuk semua jenis produk dan menambahkan EULA khusus untuk dikirim ke pembeli.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-05-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a multi-use resale authorization with expiry date on my SaaS/AMI/Container product and add custom EULA to be sent to the buyer
CAPI-56
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "multiuse resale auth with expiry date and custom EULA")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa dan dokumentasi kontrak pengecer
<a name="marketplace-catalog_MultiuseResaleauthExpirydateCustomresellerContractdoc_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa untuk semua jenis produk dan menambahkan dokumentasi kontrak pengecer antara ISV dan Mitra Saluran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-12-31"
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    },
                    {
                        "Type": "ResaleLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomResellerContract",
                                "Url": "https://s3.amazonaws.com/aws-mp-standard-contracts/Standard-Contact-for-AWS-Marketplace-2022-07-14.pdf"}
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleUsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.micro",
                                        "Price": "150"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a multi-use resale authorization with expiry date on my SaaS/AMI/Container product
and add reseller contract documentation between the ISV and channel partner
CAPI-57
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "multi use resale auth with contract doc",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali multi-guna dengan kedaluwarsa dan tambahkan akun pembeli tertentu
<a name="marketplace-catalog_PublishMultiuseResaleAuthorizationExpirydateSpecificBuyer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali multi-guna dengan tanggal kedaluwarsa untuk semua jenis produk dan menambahkan akun pembeli tertentu untuk penjualan kembali.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-05-31"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateBuyerTargetingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerTargetingTerm",
                        "PositiveTargeting": {
                            "BuyerAccounts": [
                                "111111111111"
                            ]
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish multi-use resale authorization with expiry date for any product type (AMI/SaaS/Container) and add specific buyer account for the resale
CAPI-82
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "Publish multi-use resale authorization with expiry date and add specific buyer account",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa
<a name="marketplace-catalog_MultiuseResaleauthNoExpirydateCppo_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa untuk produk AMI dengan harga tahunan per jam sehingga CP dapat menggunakannya untuk membuat CPPO.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a multi-use resale authorization with no expiry date on my SaaS/AMI product so my CP can use that to create Channel Partner Private Offer (CPPO)
CAPI-52
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "multi use resale auth with no expiry date")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa dan EULA
<a name="marketplace-catalog_MultiuseResaleauthNoExpirydateCustomEula_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa untuk jenis produk apa pun dan menambahkan EULA khusus untuk dikirim ke pembeli.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a multi-use resale authorization with no expiry date on my SaaS/AMI/Container product and add custom EULA to be sent to the buyer
CAPI-58
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set, "multi use resale auth with no expiry date and custom EULA"
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa dan dokumentasi kontrak pengecer
<a name="marketplace-catalog_MultiuseResaleauthNoExpirydateCustomresellerContractdoc_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa untuk jenis produk apa pun dan menambahkan dokumentasi kontrak pengecer antara ISV dan Mitra Saluran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    },
                    {
                        "Type": "ResaleLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomResellerContract",
                                "Url": "https://s3.amazonaws.com/aws-mp-standard-contracts/Standard-Contact-for-AWS-Marketplace-2022-07-14.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a multi-use resale authorization with no expiry date on my SaaS/AMI/Container product and add reseller contract documentation between the ISV and channel partner
CAPI-59
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set, "multi use resale auth with no expiry date and contract doc"
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali multi-guna tanpa kedaluwarsa dan tambahkan akun pembeli tertentu
<a name="marketplace-catalog_PublishMultiuseResaleAuthorizationNoExpirydateSpecificBuyer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali multi-guna tanpa tanggal kedaluwarsa untuk jenis produk apa pun dan menambahkan akun pembeli tertentu untuk penjualan kembali.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateBuyerTargetingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerTargetingTerm",
                        "PositiveTargeting": {
                            "BuyerAccounts": [
                                "111111111111"
                            ]
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish multi-use resale authorization without expiry date for any product type (AMI/SaaS/Container) and add specific buyer account for the resale
CAPI-83
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "publish multi-use resale authorization without expiry date and add specific buyer account",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan jadwal pembayaran Fleksibel
<a name="marketplace-catalog_PublishOnetimeResaleAuthorizationFlexiblePayment_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan jadwal pembayaran Fleksibel.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleFixedUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "Price": "0.00",
                        "Duration": "P12M",
                        "Grants": [
                          {
                            "DimensionKey": "Users",
                            "MaxQuantity": 10
                          }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePaymentScheduleTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "ResalePaymentScheduleTerm",
                        "CurrencyCode": "USD",
                        "Schedule": [
                            {
                                "ChargeDate": "2023-09-01",
                                "ChargeAmount": "200.00"
                            },
                            {
                                "ChargeDate": "2023-12-01",
                                "ChargeAmount": "250.00"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "AvailabilityEndDate": "2023-06-30",
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish one-time resale authorization for any product type (AMI/SaaS/Container) and add Flexible payment schedule
CAPI-78
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "onetime resale auth with flexible payment schedule")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan EULA
<a name="marketplace-catalog_OnetimeResaleauthCustomEula_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan EULA khusus untuk dikirim ke pembeli.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a one-time resale authorization on my SaaS/AMI/Container product and add custom EULA to be sent to the buyer
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "onetime resale auth with custom EULA")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan akun pembeli tertentu
<a name="marketplace-catalog_PublishOnetimeResaleAuthorizationSpecificBuyer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan akun pembeli tertentu untuk penjualan kembali.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType": "UpdateBuyerTargetingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerTargetingTerm",
                        "PositiveTargeting": {
                            "BuyerAccounts": [
                                "111111111111"
                            ]
                        }
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish one-time resale authorization for any product type (AMI/SaaS/Container) and add specific buyer account for the resale
CAPI-81
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "onetime resale authorization for specific buyer account")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan dokumentasi kontrak pengecer
<a name="marketplace-catalog_OnetimeResaleauthCustomresellerContractdoc_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerbitkan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan dokumentasi kontrak pengecer antara ISV dan Mitra Saluran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "ReleaseResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ResaleConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "t2.small",
                                        "Price": "150"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomEula",
                                "Url": "https://s3.amazonaws.com/sample-bucket/custom-eula.pdf"
                            }
                        ]
                    },
                    {
                        "Type": "ResaleLegalTerm",
                        "Documents": [
                            {
                                "Type": "CustomResellerContract",
                                "Url": "https://s3.amazonaws.com/aws-mp-standard-contracts/Standard-Contact-for-AWS-Marketplace-2022-07-14.pdf"
                            }
                        ]
                    }
                ]
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish a one-time resale authorization on my SaaS/AMI/Container product and add reseller contract documentation between the ISV and channel partner
CAPI-47
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "onetime resale auth with reseller contract doc")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan otorisasi penjualan kembali satu kali dan tambahkan apakah itu pembaruan
<a name="marketplace-catalog_OnetimeResaleauthRenewal_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan otorisasi penjualan kembali satu kali untuk semua jenis produk dan menambahkan apakah itu pembaruan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateResaleAuthorization",
            "ChangeName": "ResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0"
            },
            "DetailsDocument": {
                "ProductId": "prod-1111111111111",
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "ResellerAccountId": "111111111111"
            }
        },
        {
            "ChangeType": "UpdateBuyerTargetingTerms",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "BuyerTargetingTerm",
                        "PositiveTargeting": {
                            "BuyerAccounts": [
                                "222222222222"
                            ]
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateAvailability",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "OffersMaxQuantity": 1
            }
        },
        {
            "ChangeType":"UpdateInformation",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "$ResaleAuthorization.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product",
                "PreExistingBuyerAgreement": {
                    "AcquisitionChannel": "AwsMarketplace",
                    "PricingModel": "Contract"
                }
             }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish one-time resale authorization for any product type (AMI/SaaS/Container)
and add whether it is renewal or not
CAPI-90
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(stringified_change_set, "onetime resale auth renewal")

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Batasi otorisasi penjualan kembali
<a name="marketplace-catalog_RestrictResaleAuthorization_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membatasi otorisasi penjualan kembali.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "RestrictResaleAuthorization",
            "Entity": {
                "Type": "ResaleAuthorization@1.0",
                "Identifier": "resaleauthz-1111111111111"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Restrict a  authorization for any product type (AMI/SaaS/Container)
CAPI-84
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "Restrict resale authorization")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui nama dan deskripsi otorisasi penjualan kembali satu kali atau multi-guna
<a name="marketplace-catalog_UpdateUnpublishedResaleAuthorization_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui nama dan deskripsi otorisasi penjualan kembali satu kali atau multi-guna sebelum menerbitkan untuk jenis produk apa pun.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType":"UpdateInformation",
            "Entity": {
            	"Type": "ResaleAuthorization@1.0",
            	"Identifier": "resaleauthz-1111111111111"
            },
            "DetailsDocument": {
            	"Name": "TestResaleAuthorization",
                "Description": "Worldwide ResaleAuthorization for Test Product"
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Update name/description of one-time or multi-use resale authorization before publishing for any product type (AMI/SaaS/Container)
CAPI-77
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "update name and description of one-time or multi-use resale authorization before publishing",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

## Produk SaaS
<a name="saas_products"></a>

### Buat draf produk SaaS dengan draf penawaran umum
<a name="marketplace-catalog_CreateDraftSaasProductWithDraftPublicOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat konsep produk SaaS dengan draf penawaran umum.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog":"AWSMarketplace",
    "ChangeSet":[
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier",
                "Name": "Test Offer"
            }
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create an SaaS draft product
with a draft public offer.
CAPI-04
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Create a draft saas product with a draft public offer",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat produk SaaS publik atau terbatas dan penawaran publik dengan harga kontrak
<a name="marketplace-catalog_CreateLimitedSaasProductAndPublicOfferWithContractPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk SaaS publik atau terbatas dan penawaran publik dengan harga kontrak. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "ChangeName": "CreateProductChange",
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Data Catalogs"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "DeliveryOptions": [
                    {
                        "Details": {
                            "SaaSUrlDeliveryOptionDetails": {
                                "FulfillmentUrl":"https://sample.amazonaws.com/sample-saas-fulfillment-url"
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "BasicService",
                    "Description": "Basic Service",
                    "Name": "Basic Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "PremiumService",
                    "Description": "Premium Service",
                    "Name": "Premium Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with contract pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P1M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "20"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "25"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            },
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateRenewalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "RenewalTerm"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a
public or limited SaaS product and public offer with contract pricing and standard EULA
CAPI-11
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "Create a limited saas product with a public offer with contract pricing",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat produk SaaS publik atau terbatas dan penawaran publik dengan kontrak dengan harga Pay-As-You-Go
<a name="marketplace-catalog_CreateLimitedSaasProductAndPublicOfferWithContractWithPayAsYouGoPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk SaaS publik atau terbatas dan penawaran publik dengan kontrak dengan Pay-As-You-Go harga. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "ChangeName": "CreateProductChange",
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Data Catalogs"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "DeliveryOptions": [
                    {
                        "Details": {
                            "SaaSUrlDeliveryOptionDetails": {
                                "FulfillmentUrl":"https://sample.amazonaws.com/sample-saas-fulfillment-url"
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "BasicService",
                    "Description": "Basic Service",
                    "Name": "Basic Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "PremiumService",
                    "Description": "Premium Service",
                    "Name": "Premium Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "WorkloadSmall",
                    "Description": "Workload: Per medium instance",
                    "Name": "Workload: Per medium instance",
                    "Types": [
                        "ExternallyMetered"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "WorkloadMedium",
                    "Description": "Workload: Per large instance",
                    "Name": "Workload: Per large instance",
                    "Types": [
                        "ExternallyMetered"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with contract pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    },
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateRenewalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "RenewalTerm"
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a
public or limited SaaS product and public offer with contract with PAYG pricing and standard EULA
CAPI-10
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(
        change_set,
        "Create limited SaaS product with public offer with contract with payg pricing",
    )


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Buat produk SaaS publik atau terbatas dan penawaran publik dengan harga berlangganan
<a name="marketplace-catalog_CreateLimitedSaasProductAndPublicOfferWithSubscriptionPricing_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat produk SaaS publik atau terbatas dan penawaran umum dengan harga berlangganan. Contoh ini menciptakan EULA standar atau kustom.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "CreateProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "ChangeName": "CreateProductChange",
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Data Catalogs"
                ],
                "LogoUrl": "https://s3.amazonaws.com/logos/sample.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "UpdateTargeting",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PositiveTargeting": {
                    "BuyerAccounts": [
                        "111111111111",
                        "222222222222"
                    ]
                }
            }
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "DeliveryOptions": [
                    {
                        "Details": {
                            "SaaSUrlDeliveryOptionDetails": {
                                "FulfillmentUrl":"https://sample.amazonaws.com/sample-saas-fulfillment-url"
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "WorkloadSmall",
                    "Description": "Workload: Per medium instance",
                    "Name": "Workload: Per medium instance",
                    "Types": [
                        "ExternallyMetered"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "WorkloadMedium",
                    "Description": "Workload: Per large instance",
                    "Name": "Workload: Per large instance",
                    "Types": [
                        "ExternallyMetered"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "ChangeName": "CreateOfferChange",
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "Test public offer for SaaSProduct using AWS Marketplace API Reference Code",
                "Description": "Test public offer with contract pricing for SaaSProduct using AWS Marketplace API Reference Code"
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Usage",
                "Terms": [
                    {
                        "Type": "UsageBasedPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "RateCard": [
                                    {
                                        "DimensionKey": "WorkloadSmall",
                                        "Price": "0.15"
                                    },
                                    {
                                        "DimensionKey": "WorkloadMedium",
                                        "Price": "0.25"
                                    }
                                ]
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Absolutely no refund, period."
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseOffer",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to create a
public or limited SaaS product and public offer with subscription(usage) pricing and standard EULA
CAPI-09
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd

fname = "changeset.json"
change_set_file = os.path.join(os.path.dirname(__file__), fname)

change_set = sd.stringify_changeset(change_set_file)


def main():
    sc.usage_demo(change_set, "public saas public offer with subscription pricing")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan produk SaaS dan penawaran publik terkait
<a name="marketplace-catalog_PublishSaasProductPublicOffer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan produk SaaS dan penawaran publik terkait. Produk akan berada dalam keadaan terbatas secara default.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog":"AWSMarketplace",
    "ChangeSet":[
        {
            "ChangeType": "CreateProduct",
            "ChangeName": "CreateProductChange",
            "Entity": {
                "Type": "SaaSProduct@1.0"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "ProductTitle": "Sample product",
                "ShortDescription": "Brief description",
                "LongDescription": "Detailed description",
                "Highlights": [
                    "Sample highlight"
                ],
                "SearchKeywords": [
                    "Sample keyword"
                ],
                "Categories": [
                    "Data Catalogs"
                ],
                "LogoUrl": "https://bucketname.s3.amazonaws.com/logo.png",
                "VideoUrls": [
                    "https://sample.amazonaws.com/awsmp-video-1"
                ],
                "AdditionalResources": []
            }
        },
        {
            "ChangeType": "AddDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": [
                {
                    "Key": "BasicService",
                    "Description": "Basic Service",
                    "Name": "Basic Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                },
                {
                    "Key": "PremiumService",
                    "Description": "Premium Service",
                    "Name": "Premium Service",
                    "Types": [
                        "Entitled"
                    ],
                    "Unit": "Units"
                }
            ]
        },
        {
            "ChangeType": "AddDeliveryOptions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "DeliveryOptions": [
                    {
                        "Details": {
                            "SaaSUrlDeliveryOptionDetails": {
                                "FulfillmentUrl": "https://www.aws.amazon.com/marketplace/management"
                            }
                        }
                    }
                ]
            }
        },
        {
            "ChangeType": "ReleaseProduct",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "$CreateProductChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        },
        {
            "ChangeType": "CreateOffer",
            "ChangeName": "CreateOfferChange",
            "Entity": {
                "Type": "Offer@1.0"
            },
            "DetailsDocument": {
                "ProductId": "$CreateProductChange.Entity.Identifier"
            }
        },
        {
            "ChangeType": "UpdateInformation",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Name": "New Test Offer",
                "Description": "New offer description"
            }
        },
        {
            "ChangeType": "UpdateLegalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "LegalTerm",
                        "Documents": [
                            {
                                "Type": "StandardEula",
                                "Version": "2022-07-14"
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateSupportTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "SupportTerm",
                        "RefundPolicy": "Updated refund policy description"
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdatePricingTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "PricingModel": "Contract",
                "Terms": [
                    {
                        "Type": "ConfigurableUpfrontPricingTerm",
                        "CurrencyCode": "USD",
                        "RateCards": [
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P1M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "20"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "25"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            },
                            {
                                "Selector": {
                                    "Type": "Duration",
                                    "Value": "P12M"
                                },
                                "RateCard": [
                                    {
                                        "DimensionKey": "BasicService",
                                        "Price": "150"
                                    },
                                    {
                                        "DimensionKey": "PremiumService",
                                        "Price": "300"
                                    }
                                ],
                                "Constraints": {
                                    "MultipleDimensionSelection": "Allowed",
                                    "QuantityConfiguration": "Allowed"
                                }
                            }
                        ]
                    }
                ]
            }
        },
        {
            "ChangeType": "UpdateRenewalTerms",
            "Entity": {
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {
                "Terms": [
                    {
                        "Type": "RenewalTerm"
                    }
                ]
            }
        },
        {
            "ChangeType":"ReleaseOffer",
            "Entity":{
                "Type": "Offer@1.0",
                "Identifier": "$CreateOfferChange.Entity.Identifier"
            },
            "DetailsDocument": {}
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Publish my SaaS product and associated public offer (product will be in limited state by default)
CAPI-05A
"""

import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset1.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "publish saas product and associated public offer",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### Perbarui dimensi pada produk AMI atau SaaS
<a name="marketplace-catalog_UpdateNameDimensionSaasProduct_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memperbarui dimensi pada produk AMI atau SaaS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 

```
{
    "Catalog": "AWSMarketplace",
    "ChangeSet": [
        {
            "ChangeType": "UpdateDimensions",
            "Entity": {
                "Type": "SaaSProduct@1.0",
                "Identifier": "prod-111111111111"
            },
            "DetailsDocument": [
                {
                    "Key": "BasicService",
                    "Types": [
                        "Entitled"
                    ],
                    "Name": "Some new name",
                    "Description": "Some new description"
                }
            ]
        }
    ]
}
```
Jalankan script ini untuk memulai changeset. **Fungsi pembantu didefinisikan dalam *Utilities untuk memulai changeset* dari bagian Utilities.**  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to update (e.g name) dimensions on my AMI or SaaS product
CAPI-24
"""


import os

import utils.start_changeset as sc
import utils.stringify_details as sd


def main(change_set=None):
    if change_set is None:
        fname = "changeset.json"
        change_set_file = os.path.join(os.path.dirname(__file__), fname)
        stringified_change_set = sd.stringify_changeset(change_set_file)

    else:
        stringified_change_set = change_set

    response = sc.usage_demo(
        stringified_change_set,
        "Update name dimensions on my AMI or SaaS product",
    )

    return response


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

## Utilitas
<a name="utilities"></a>

### Utilitas untuk memulai set perubahan
<a name="marketplace-catalog_ChangeSetUtilities_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana mendefinisikan utilitas untuk memulai changeset.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python##catalog-api-reference-code). 
Utilitas untuk memulai changeset.  

```
"""
Purpose:

Generic function to start a changeset
"""

import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def generate_changeset(mp_client, change_set, change_set_name):
    """
    Start changeset
    """
    try:
        response = mp_client.start_change_set(
            Catalog="AWSMarketplace",
            ChangeSet=change_set,
            ChangeSetName=change_set_name,
        )
        logger.info("Changeset created!")
        logger.info("ChangeSet ID: %s", response["ChangeSetId"])
        logger.info("ChangeSet ARN: %s", response["ChangeSetArn"])

        return response

    except ClientError as e:
        logger.exception("Unexpected error: %s", e)
        raise


def usage_demo(change_set, change_set_name):
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Executing changeset: " + change_set_name)
    print("-" * 88)

    mp_client = boto3.client("marketplace-catalog")

    response = generate_changeset(mp_client, change_set, change_set_name)

    return response

    print("-" * 88)
```
Utilitas untuk memuat changeset dari file JSON.  

```
"""
Purpose:

This module will stringify the details sections of a changeset file.
"""

import json


def pretty_print(response):
    json_object = json.dumps(response, indent=4)
    print(json_object)


# open json file from path
def open_json_file(filename):
    with open(filename, "r") as f:
        return json.load(f)


def stringify_details_sections(json_object):
    """
    Loops through every change type in the changeset to look for non-empty
    details section and stringifies them
    """
    for change_type in json_object["ChangeSet"]:
        # Only stringify details section if it is not empty
        if "Details" in change_type and change_type["Details"] != "{}":
            string_details = json.dumps(change_type["Details"])
            change_type["Details"] = string_details
        else:
            pass

    return json_object["ChangeSet"]


def stringify_changeset(file_path):
    changeset_file = open_json_file(file_path)
    changeset_stringified = stringify_details_sections(changeset_file)

    return changeset_stringified
```
+  Untuk detail API, lihat [StartChangeSet](https://docs.aws.amazon.com/goto/boto3/marketplace-catalog-2018-09-17/StartChangeSet)di *AWS SDK for Python (Boto3) Referensi* API. 

# AWS Marketplace Contoh API perjanjian menggunakan SDK for Python (Boto3)
<a name="python_3_marketplace-agreement_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS Marketplace Agreement API.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Perjanjian](#agreements)

## Perjanjian
<a name="agreements"></a>

### Dapatkan semua perjanjian IDs
<a name="marketplace-agreement_GetAllAgreementsIds_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan semua kesepakatan IDs.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to get all agreement ids
AG-09
"""

import logging

import boto3
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-agreement")

logger = logging.getLogger(__name__)

MAX_PAGE_RESULTS = 10


def get_agreements():
    AgreementSummaryList = []
    agreement_id_list = []

    try:
        agreements = mp_client.search_agreements(
            catalog="AWSMarketplace",
            maxResults=MAX_PAGE_RESULTS,
            filters=[
                {"name": "PartyType", "values": ["Proposer"]},
                {"name": "AgreementType", "values": ["PurchaseAgreement"]},
            ],
        )
    except ClientError as e:
        logger.error("Could not complete search_agreements request.")
        raise

    AgreementSummaryList.extend(agreements["agreementViewSummaries"])

    while "nextToken" in agreements and agreements["nextToken"] is not None:
        try:
            agreements = mp_client.search_agreements(
                catalog="AWSMarketplace",
                maxResults=MAX_PAGE_RESULTS,
                nextToken=agreements["nextToken"],
                filters=[
                    {"name": "PartyType", "values": ["Proposer"]},
                    {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                ],
            )
        except ClientError as e:
            logger.error("Could not complete search_agreements request.")
            raise

        AgreementSummaryList.extend(agreements["agreementViewSummaries"])

    for agreement in AgreementSummaryList:
        agreement_id_list.append(agreement["agreementId"])

    return agreement_id_list


if __name__ == "__main__":
    agreement_id_list = get_agreements()

    print(agreement_id_list)
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/SearchAgreements)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan semua perjanjian
<a name="marketplace-agreement_GetAllAgreements_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan semua perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to get all agreements
AG-01
"""

import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-agreement")

logger = logging.getLogger(__name__)

MAX_PAGE_RESULTS = 10

party_type_list = ["Proposer"]
agreement_type_list = ["PurchaseAgreement"]

filter_list = [
    {"name": "PartyType", "values": party_type_list},
    {"name": "AgreementType", "values": agreement_type_list},
]

agreement_results_list = []


def get_agreements(filter_list=filter_list):
    try:
        agreements = mp_client.search_agreements(
            catalog="AWSMarketplace",
            maxResults=MAX_PAGE_RESULTS,
            filters=filter_list,
        )
    except ClientError as e:
        logger.error("Could not complete search_agreements request.")
        raise e

    agreement_results_list.extend(agreements["agreementViewSummaries"])

    while "nextToken" in agreements and agreements["nextToken"] is not None:
        try:
            agreements = mp_client.search_agreements(
                catalog="AWSMarketplace",
                maxResults=MAX_PAGE_RESULTS,
                nextToken=agreements["nextToken"],
                filters=filter_list,
            )
        except ClientError as e:
            logger.error("Could not complete search_agreements request.")
            raise e

        agreement_results_list.extend(agreements["agreementViewSummaries"])

    return agreement_results_list


if __name__ == "__main__":
    agreements_list = get_agreements(filter_list)
    helper.pretty_print_datetime(agreements_list)
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/SearchAgreements)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan ID pelanggan dari perjanjian
<a name="marketplace-agreement_GetAgreementCustomer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan ID pelanggan dari perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to get customer AWS account id
from a given agreement
AG-08
"""

import argparse
import logging

import boto3
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-agreement")

logger = logging.getLogger(__name__)


def get_agreement_information(agreement_id):
    try:
        response = mp_client.describe_agreement(agreementId=agreement_id)
    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", agreement_id)
            raise e
        else:
            logger.error("Unexpected error: %s", e)
            raise e

    return response


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--agreement-id",
        "-aid",
        help="Provide agreement ID to describe agreement status",
        required=True,
    )
    args = parser.parse_args()

    response = get_agreement_information(agreement_id=args.agreement_id)

    print(f"Customer account: {response['acceptor']['accountId']}")
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/DescribeAgreement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan detail keuangan dari perjanjian
<a name="marketplace-agreement_GetAgreementFinancialDetails_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan detail keuangan dari suatu perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain financial details, such as Total Contract Value of the agreementfrom a given agreement
AG-14

Example Usage: python3 get_agreement_financial_details.py --agreement-id <agreement-id>
"""

import argparse
import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

mp_client = boto3.client("marketplace-agreement")


def get_agreement_information(agreement_id):
    try:
        agreement = mp_client.describe_agreement(agreementId=agreement_id)

        return agreement

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", agreement_id)
        else:
            logger.error("Unexpected error: %s", e)

    return None


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--agreement-id",
        "-aid",
        help="Provide agreement ID to describe agreement status",
        required=True,
    )
    args = parser.parse_args()

    agreement = get_agreement_information(args.agreement_id)

    if agreement is not None:
        print(f"Agreement Id: {args.agreement_id}")
        print(
            f"Agreement Value: {agreement['estimatedCharges']['currencyCode']} {agreement['estimatedCharges']['agreementValue']}"
        )

    else:
        print(f"Agreement with ID {args.agreement_id} is not found")
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/DescribeAgreement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan detail uji coba gratis dari perjanjian
<a name="marketplace-agreement_GetAgreementTermsFreeTrialDetails_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan detail uji coba gratis dari perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain the details from an agreement of a free trial I have provided to the customer
AG-20

Example Usage: python3 get_agreement_free_trial_details.py --agreement-id <agreement-id>
"""

import argparse
import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

mp_client = boto3.client("marketplace-agreement")


def get_agreement_terms(agreement_id):
    try:
        agreement = mp_client.get_agreement_terms(agreementId=agreement_id)
        return agreement

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", agreement_id)

        else:
            logger.error("Unexpected error: %s", e)

    return None


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--agreement-id",
        "-aid",
        help="Provide agreement ID to describe agreement status",
        required=True,
    )
    args = parser.parse_args()

    agreement = get_agreement_terms(agreement_id=args.agreement_id)

    if agreement is not None:
        freetrial_found = False

        for term in agreement["acceptedTerms"]:
            if "freeTrialPricingTerm" in term.keys():
                helper.pretty_print_datetime(term)
                freetrial_found = True

        if not freetrial_found:
            print(f"No free trial term found for agreement: {args.agreement_id}")
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/DescribeAgreement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan informasi tentang perjanjian
<a name="marketplace-agreement_DescribeAgreement_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan informasi tentang perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to get agreement information
AG-07
"""

import argparse
import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-agreement")

logger = logging.getLogger(__name__)


def get_agreement_information(agreement_id):
    try:
        response = mp_client.describe_agreement(agreementId=agreement_id)
    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", agreement_id)
            raise e
        else:
            logger.error("Unexpected error: %s", e)
            raise e

    return response


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--agreement-id",
        "-aid",
        help="Provide agreement ID to describe agreement status",
        required=True,
    )
    args = parser.parse_args()

    response = get_agreement_information(agreement_id=args.agreement_id)

    helper.pretty_print_datetime(response)
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/DescribeAgreement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan detail produk dan penawaran dari perjanjian
<a name="marketplace-agreement_GetProductAndOfferDetailFromAgreement_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan detail produk dan penawaran dari perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to get product and offer details in a given agreement
AG-10
"""

import argparse
import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

mpa_client = boto3.client("marketplace-agreement")
mpc_client = boto3.client("marketplace-catalog")

logger = logging.getLogger(__name__)


def get_agreement_information(agreement_id):
    """
    Returns information about a given agreement
    Args: agreement_id str: Entity to return
    Returns: dict: Dictionary of agreement information
    """

    try:
        agreement = mpa_client.describe_agreement(agreementId=agreement_id)

        return agreement

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", agreement_id)
        else:
            logger.error("Unexpected error: %s", e)


def get_entity_information(entity_id):
    """
    Returns information about a given entity
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of entity information
    """

    try:
        response = mpc_client.describe_entity(
            Catalog="AWSMarketplace",
            EntityId=entity_id,
        )

        return response

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Entity with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def get_agreement_components(agreement_id):
    agreement_component_list = []

    agreement = get_agreement_information(agreement_id)

    if agreement is not None:
        productIds = []
        for resource in agreement["proposalSummary"]["resources"]:
            productIds.append(resource["id"])

        for product_id in productIds:
            product_document = get_entity_information(product_id)

            product_document_dict = {}
            product_document_dict["product_id"] = product_id
            product_document_dict["document"] = product_document
            agreement_component_list.append(product_document_dict)

        offerId = agreement["proposalSummary"]["offerId"]

        offer_document = get_entity_information(offerId)

        offer_document_dict = {}
        offer_document_dict["offer_id"] = offerId
        offer_document_dict["document"] = offer_document
        agreement_component_list.append(offer_document_dict)

        return agreement_component_list

    else:
        print("Agreement with ID " + args.agreement_id + " is not found")


if __name__ == "__main__":
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--agreement_id",
        "-aid",
        help="Provide agreement ID to search for product and offer detail",
        required=True,
    )
    args = parser.parse_args()

    product_offer_detail = get_agreement_components(agreement_id=args.agreement_id)

    helper.pretty_print_datetime(product_offer_detail)
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/DescribeAgreement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan EULA dari sebuah perjanjian
<a name="marketplace-agreement_GetAgreementTermsEula_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan EULA dari suatu perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain the EULA I have entered into with my customer via the agreement
AG-18
"""

import json
import logging
import os

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

# agreement id
AGREEMENT_ID = "agmt-1111111111111111111111111"

# to use sample file or not
USE_SAMPLE_FILE = False
SAMPLE_FILE_NAME = "mockup_agreement_terms.json"

# attribute name
ROOT_ELEM = "acceptedTerms"
TERM_NAME = "legalTerm"
CONFIG_ELEM = "configuration"
ATTRIBUTE_NAME = "documents"


def get_agreement_information(mp_client, entity_id):
    """
    Returns customer AWS Account id about a given agreement
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of agreement information
    """

    try:
        if USE_SAMPLE_FILE:
            sample_file = os.path.join(os.path.dirname(__file__), SAMPLE_FILE_NAME)
            terms = open_json_file(sample_file)
        else:
            terms = mp_client.get_agreement_terms(agreementId=entity_id)

        legalEulaArray = []
        for term in terms[ROOT_ELEM]:
            if TERM_NAME in term and ATTRIBUTE_NAME in term[TERM_NAME]:
                docs = term[TERM_NAME][ATTRIBUTE_NAME]
                for doc in docs:
                    if "type" in doc:
                        legalEulaArray.append(doc)
        return legalEulaArray

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    helper.pretty_print_datetime(get_agreement_information(mp_client, AGREEMENT_ID))

    # open json file from path


def open_json_file(filename):
    with open(filename, "r") as f:
        return json.load(f)


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/GetAgreementTerms)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan ketentuan perpanjangan otomatis dari suatu perjanjian
<a name="marketplace-agreement_GetAgreementAutoRenewal_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan ketentuan perpanjangan otomatis dari suatu perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain the auto-renewal status of the agreement
AG-15
"""

import json
import logging
import os
import utils.helpers as helper


import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

# agreement id
AGREEMENT_ID = "agmt-11111111111111111111"

# to use sample file or not
USE_SAMPLE_FILE = False
SAMPLE_FILE_NAME = "mockup_agreement_terms.json"

# attribute name
ROOT_ELEM = "acceptedTerms"
TERM_NAME = "renewalTerm"
CONFIG_ELEM = "configuration"
ATTRIBUTE_NAME = "enableAutoRenew"


def get_agreement_information(mp_client, entity_id):
    """
    Returns customer AWS Account id about a given agreement
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of agreement information
    """

    try:
        if USE_SAMPLE_FILE:
            sample_file = os.path.join(os.path.dirname(__file__), SAMPLE_FILE_NAME)
            terms = open_json_file(sample_file)
        else:
            terms = mp_client.get_agreement_terms(agreementId=entity_id)

        auto_renewal = "No Auto Renewal"
        for term in terms[ROOT_ELEM]:
            if TERM_NAME in term:
                if CONFIG_ELEM in term[TERM_NAME]:
                    auto_renewal = term[TERM_NAME][CONFIG_ELEM][ATTRIBUTE_NAME]
                    break
        return auto_renewal

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    agreement = get_agreement_information(mp_client, AGREEMENT_ID)

    if agreement is not None:
        print(f"Auto Renewal is {agreement}")
    else:
        print("Agreement with ID " + AGREEMENT_ID + " is not found")


# open json file from path
def open_json_file(filename):
    with open(filename, "r") as f:
        return json.load(f)


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/GetAgreementTerms)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan dimensi yang dibeli dalam perjanjian
<a name="marketplace-agreement_GetAgreementTermsDimensionPurchased_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan dimensi yang dibeli dalam perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain the dimensions the buyer has purchased from me via the agreement
AG-28
"""

import json
import logging
import os

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

# agreement id
AGREEMENT_ID = "agmt-1111111111111111111111111"

# to use sample file or not
USE_SAMPLE_FILE = False
SAMPLE_FILE_NAME = "mockup_agreement_terms.json"

# attribute name
ROOT_ELEM = "acceptedTerms"
TERM_NAME = "configurableUpfrontPricingTerm"
CONFIG_ELEM = "configuration"
ATTRIBUTE_NAME = "selectorValue"


def get_agreement_information(mp_client, entity_id):
    """
    Returns customer AWS Account id about a given agreement
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of agreement information
    """

    try:
        if USE_SAMPLE_FILE:
            sample_file = os.path.join(os.path.dirname(__file__), SAMPLE_FILE_NAME)
            terms = open_json_file(sample_file)
        else:
            terms = mp_client.get_agreement_terms(agreementId=entity_id)

        dimensionKeys = []

        for term in terms[ROOT_ELEM]:
            if TERM_NAME in term:
                if CONFIG_ELEM in term[TERM_NAME]:
                    confParam = term[TERM_NAME][CONFIG_ELEM]
                    if ATTRIBUTE_NAME in confParam:
                        if "dimensions" in confParam:
                            for dimension in confParam["dimensions"]:
                                if "dimensionKey" in dimension:
                                    dimensionKey = dimension["dimensionKey"]
                                    print(f"Dimension Key: {dimensionKey}")
                                    dimensionKeys.append(dimensionKey)
        return dimensionKeys

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    helper.pretty_print_datetime(get_agreement_information(mp_client, AGREEMENT_ID))

    # open json file from path


def open_json_file(filename):
    with open(filename, "r") as f:
        return json.load(f)


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/GetAgreementTerms)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan contoh dari setiap dimensi yang dibeli dalam perjanjian
<a name="marketplace-agreement_GetAgreementTermsDimensionInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan contoh dari setiap dimensi yang dibeli dalam perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain instances of each dimension that buyer has purchased in the agreement
AG-30
"""

import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

# agreement id
AGREEMENT_ID = "agmt-1111111111111111111111111"

# attribute name
ROOT_ELEM = "acceptedTerms"
TERM_NAME = "configurableUpfrontPricingTerm"
CONFIG_ELEM = "configuration"
ATTRIBUTE_NAME = "selectorValue"

logger = logging.getLogger(__name__)


def get_agreement_information(mp_client, entity_id):
    """
    Returns customer AWS Account id about a given agreement
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of agreement information
    """

    try:
        terms = mp_client.get_agreement_terms(agreementId=entity_id)
        dimensionKeyValueMap = {}
        for term in terms[ROOT_ELEM]:
            if TERM_NAME in term:
                if CONFIG_ELEM in term[TERM_NAME]:
                    confParam = term[TERM_NAME][CONFIG_ELEM]
                    if ATTRIBUTE_NAME in confParam:
                        selectValue = confParam["selectorValue"]
                        dimensionKeyValueMap["selectorValue"] = selectValue
                        if "dimensions" in confParam:
                            dimensionKeyValueMap["dimensions"] = confParam["dimensions"]
                            """
                            for dimension in confParam['dimensions']:
                                if 'dimensionKey' in dimension:

                                    dimensionValue = dimension['dimensionValue']
                                    dimensionKey = dimension['dimensionKey']
                                    print(f"Selector: {selectValue}, Dimension Key: {dimensionKey}, Dimension Value: {dimensionValue}")
                                    dimensionKeyValueMap[dimensionKey] = dimensionValue
                            """
        return dimensionKeyValueMap

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    helper.pretty_print_datetime(get_agreement_information(mp_client, AGREEMENT_ID))


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/GetAgreementTerms)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan jadwal pembayaran perjanjian
<a name="marketplace-agreement_GetAgreementTermsPaymentSchedule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan jadwal pembayaran perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain the payment schedule I have agreed to with the agreement, including the invoice date and invoice amount
AG-17
"""

import json
import logging
import os

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

# agreement id
AGREEMENT_ID = "agmt-1111111111111111111111111"

# to use sample file or not
USE_SAMPLE_FILE = False
SAMPLE_FILE_NAME = "mockup_agreement_terms.json"

# attribute name
ROOT_ELEM = "acceptedTerms"
TERM_NAME = "paymentScheduleTerm"
CONFIG_ELEM = "configuration"
ATTRIBUTE_NAME = "selectorValue"


def get_agreement_information(mp_client, entity_id):
    """
    Returns customer AWS Account id about a given agreement
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of agreement information
    """

    try:
        if USE_SAMPLE_FILE:
            sample_file = os.path.join(os.path.dirname(__file__), SAMPLE_FILE_NAME)
            terms = open_json_file(sample_file)
        else:
            terms = mp_client.get_agreement_terms(agreementId=entity_id)

        paymentScheduleArray = []
        currencyCode = ""
        for term in terms[ROOT_ELEM]:
            if TERM_NAME in term:
                paymentSchedule = term[TERM_NAME]
                if "currencyCode" in paymentSchedule:
                    currencyCode = paymentSchedule["currencyCode"]
                if "schedule" in paymentSchedule:
                    for sch in paymentSchedule["schedule"]:
                        if "chargeDate" in sch:
                            chargeDate = sch["chargeDate"]
                            chargeAmount = sch["chargeAmount"]
                            # print(f"chargeDate: {chargeDate}, chargeAmount: {chargeAmount}")
                            schedule = {
                                "currencyCode": currencyCode,
                                "chargeDate": chargeDate,
                                "chargeAmount": chargeAmount,
                            }
                            paymentScheduleArray.append(schedule)

        return paymentScheduleArray

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    helper.pretty_print_datetime(get_agreement_information(mp_client, AGREEMENT_ID))

    # open json file from path


def open_json_file(filename):
    with open(filename, "r") as f:
        return json.load(f)


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/GetAgreementTerms)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan harga per dimensi dalam perjanjian
<a name="marketplace-agreement_GetAgreementTermsPricingEachDimension_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan harga per dimensi dalam suatu perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain pricing per each dimension in the agreement
AG-29
"""

import json
import logging
import os

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

# agreement id
AGREEMENT_ID = "agmt-1111111111111111111111111"

# to use sample file or not
USE_SAMPLE_FILE = False
SAMPLE_FILE_NAME = "mockup_agreement_terms.json"

# attribute name
ROOT_ELEM = "acceptedTerms"
TERM_NAME = "configurableUpfrontPricingTerm"
CONFIG_ELEM = "configuration"
ATTRIBUTE_NAME = "selectorValue"

TERMS_TO_SEARCH = [
    "configurableUpfrontPricingTerm",
    "usageBasedPricingTerm",
    "fixedUpfrontPricingTerm",
]


def get_agreement_information(mp_client, entity_id):
    """
    Returns customer AWS Account id about a given agreement
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of agreement information
    """

    try:
        if USE_SAMPLE_FILE:
            sample_file = os.path.join(os.path.dirname(__file__), SAMPLE_FILE_NAME)
            terms = open_json_file(sample_file)
        else:
            terms = mp_client.get_agreement_terms(agreementId=entity_id)

        dimentions = []
        for term in terms[ROOT_ELEM]:
            for t in TERMS_TO_SEARCH:
                rateInfo = []
                if t in term:
                    if "type" in term[t]:
                        rateInfo.append(term[t]["type"])
                    if "currencyCode" in term[t]:
                        rateInfo.append(term[t]["currencyCode"])
                    if "rateCards" in term[t]:
                        rateInfo.append(term[t]["rateCards"])
                    dimentions.append(rateInfo)
        return dimentions

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    helper.pretty_print_datetime(get_agreement_information(mp_client, AGREEMENT_ID))

    # open json file from path


def open_json_file(filename):
    with open(filename, "r") as f:
        return json.load(f)


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/GetAgreementTerms)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan jenis harga perjanjian
<a name="marketplace-agreement_GetAgreementPricingType_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan jenis harga perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain the pricing type of the agreement (contract, FPS, metered, free etc.)
AG-16
"""

import json
import logging

import boto3
from botocore.exceptions import ClientError

# To search by offer id: OfferId; by product id: ResourceIdentifier; by product type: ResourceType
idType = "OfferId"

# replace id value as needed
idValue = "offer-1111111111111"

MAX_PAGE_RESULTS = 10

# catalog; switch to AWSMarketplace for release
AWSMPCATALOG = "AWSMarketplace"

# product types

SaaSProduct = "SaaSProduct"
AmiProduct = "AmiProduct"
MLProduct = "MachineLearningProduct"
ContainerProduct = "ContainerProduct"
DataProduct = "DataProduct"
ProServiceProduct = "ProfessionalServicesProduct"
AiqProduct = "AiqProduct"

# Define pricing types
CCP = "CCP"
Annual = "Annual"
Contract = "Contract"
SFT = "SaaS Freee Trial"
HMA = "Hourly and Monthly Agreements"
Hourly = "Hourly"
Monthly = "Monthly"
AFPS = "Annual FPS"
CFPS = "Contract FPS"
CCPFPS = "CCP with FPS"
BYOL = "BYOL"
Free = "Free"
FTH = "Free Trials and Hourly"

# Define Agreement Term Types
legal = ["LegalTerm"]
config = ["ConfigurableUpfrontPricingTerm"]
usage = ["UsageBasedPricingTerm"]
config_usage = ["ConfigurableUpfrontPricingTerm", "UsageBasedPricingTerm"]
freeTrial = ["FreeTrialPricingTerm"]
recur = ["RecurringPaymentTerm"]
usage_recur = ("UsageBasedPricingTerm", "RecurringPaymentTerm")
fixed_payment = ["FixedUpfrontPricingTerm", "PaymentScheduleTerm"]
fixed_payment_usage = [
    "FixedUpfrontPricingTerm",
    "PaymentScheduleTerm",
    "UsageBasedPricingTerm",
]
byol = ["ByolPricingTerm"]
freeTrial_usage = ("FreeTrialPricingTerm", "UsageBasedPricingTerm")
all_agreement_types_combination = (
    legal,
    config,
    usage,
    config_usage,
    freeTrial,
    recur,
    usage_recur,
    fixed_payment,
    fixed_payment_usage,
    byol,
    freeTrial_usage,
)


# get pricing type method given product type, agreement temr type and offer type if needed
def get_pricing_type(product_type, agreement_term_type, offer_type):
    pricing_types = {
        (SaaSProduct, frozenset(config_usage), frozenset("")): CCP,
        (DataProduct, frozenset(config_usage), frozenset("")): CCP,
        (ContainerProduct, frozenset(config), frozenset(config_usage)): Annual,
        (AmiProduct, frozenset(config), frozenset(config_usage)): Annual,
        (MLProduct, frozenset(config), frozenset(config_usage)): Annual,
        (ContainerProduct, frozenset(config), frozenset(config)): Contract,
        (AmiProduct, frozenset(config), frozenset(config)): Contract,
        (SaaSProduct, frozenset(config), frozenset("")): Contract,
        (DataProduct, frozenset(config), frozenset("")): Contract,
        (AiqProduct, frozenset(config), frozenset("")): Contract,
        (ProServiceProduct, frozenset(config), frozenset("")): Contract,
        (SaaSProduct, frozenset(freeTrial), frozenset("")): SFT,
        (AmiProduct, frozenset(usage_recur), frozenset("")): HMA,
        (SaaSProduct, frozenset(usage), frozenset("")): Hourly,
        (AmiProduct, frozenset(usage), frozenset("")): Hourly,
        (ContainerProduct, frozenset(usage), frozenset("")): Hourly,
        (MLProduct, frozenset(usage), frozenset("")): Hourly,
        (ContainerProduct, frozenset(recur), frozenset("")): Monthly,
        (AmiProduct, frozenset(recur), frozenset("")): Monthly,
        (
            ContainerProduct,
            frozenset(fixed_payment),
            frozenset(fixed_payment_usage),
        ): AFPS,
        (AmiProduct, frozenset(fixed_payment), frozenset(fixed_payment_usage)): AFPS,
        (MLProduct, frozenset(fixed_payment), frozenset("")): AFPS,
        (ContainerProduct, frozenset(fixed_payment), frozenset(fixed_payment)): CFPS,
        (AmiProduct, frozenset(fixed_payment), frozenset(fixed_payment)): CFPS,
        (SaaSProduct, frozenset(fixed_payment), frozenset("")): CFPS,
        (DataProduct, frozenset(fixed_payment), frozenset("")): CFPS,
        (AiqProduct, frozenset(fixed_payment), frozenset("")): CFPS,
        (ProServiceProduct, frozenset(fixed_payment), frozenset("")): CFPS,
        (SaaSProduct, frozenset(fixed_payment_usage), frozenset("")): CCPFPS,
        (DataProduct, frozenset(fixed_payment_usage), frozenset("")): CCPFPS,
        (AiqProduct, frozenset(fixed_payment_usage), frozenset("")): CCPFPS,
        (ProServiceProduct, frozenset(fixed_payment_usage), frozenset("")): CCPFPS,
        (AmiProduct, frozenset(byol), frozenset("")): BYOL,
        (SaaSProduct, frozenset(byol), frozenset("")): BYOL,
        (ProServiceProduct, frozenset(byol), frozenset("")): BYOL,
        (AiqProduct, frozenset(byol), frozenset("")): BYOL,
        (MLProduct, frozenset(byol), frozenset("")): BYOL,
        (ContainerProduct, frozenset(byol), frozenset("")): BYOL,
        (DataProduct, frozenset(byol), frozenset("")): BYOL,
        (ContainerProduct, frozenset(legal), frozenset("")): Free,
        (AmiProduct, frozenset(freeTrial_usage), frozenset("")): FTH,
        (ContainerProduct, frozenset(freeTrial_usage), frozenset("")): FTH,
        (MLProduct, frozenset(freeTrial_usage), frozenset("")): FTH,
    }

    key = (product_type, agreement_term_type, offer_type)
    if key in pricing_types:
        return pricing_types[key]
    else:
        return "Unknown"


# Example usage for testing purpose
"""
product_type = SaaSProduct
agreement_term_type = frozenset(config_usage)
offer_type = frozenset('')
pricing_type = get_pricing_type(product_type, agreement_term_type, offer_type)
print("pricing type = " + pricing_type)  # Output: CCP
"""


# check if offer term types are needed; if Y, needed
def get_offer_term_type(product_type, agreement_term_type):
    offer_term_types = {
        (ContainerProduct, frozenset(config)): "Y",
        (AmiProduct, frozenset(config)): "Y",
        (ContainerProduct, frozenset(fixed_payment)): "Y",
        (AmiProduct, frozenset(fixed_payment)): "Y",
        (AmiProduct, frozenset(fixed_payment), frozenset(fixed_payment)): "Y",
    }

    key = (product_type, agreement_term_type)
    if key in offer_term_types:
        return offer_term_types[key]
    else:
        return


logger = logging.getLogger(__name__)


def get_agreements(mp_client):
    AgreementSummaryList = []
    partyTypes = ["Proposer"]
    for value in partyTypes:
        try:
            agreement = mp_client.search_agreements(
                catalog=AWSMPCATALOG,
                maxResults=MAX_PAGE_RESULTS,
                filters=[
                    {"name": "PartyType", "values": [value]},
                    {"name": idType, "values": [idValue]},
                    {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                ],
            )
        except ClientError as e:
            logger.error("Could not complete search_agreements request.")
            raise

        AgreementSummaryList.extend(agreement["agreementViewSummaries"])

        while "nextToken" in agreement and agreement["nextToken"] is not None:
            try:
                agreement = mp_client.search_agreements(
                    catalog=AWSMPCATALOG,
                    maxResults=MAX_PAGE_RESULTS,
                    nextToken=agreement["nextToken"],
                    filters=[
                        {"name": "PartyType", "values": [value]},
                        {"name": idType, "values": [idValue]},
                        {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                    ],
                )
            except ClientError as e:
                logger.error("Could not complete search_agreements request.")
                raise

            AgreementSummaryList.extend(agreement["agreementViewSummaries"])

    return AgreementSummaryList


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace Catalog.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    # find all agreements matching the specified idType and idValue
    agreements = get_agreements(mp_client)

    for item in agreements:
        pricingType = ""
        agreement_id = item["agreementId"]

        # get term types inside offer
        offer_term_types = get_offer_term_types(item)

        # even though multiple product types are allowed for one agreement, only need the first one
        productType = item["resourceSummaries"][0]["resourceType"]

        # get agreement terms types
        agreementTerm = mp_client.get_agreement_terms(agreementId=agreement_id)

        agreementTermTypes = get_agreement_term_types(agreementTerm)

        # match with agreement term type group
        matchedTermType = getMatchedTermTypesCombination(agreementTermTypes)

        # check if offer term type is needed.
        offer_term_type_needed = get_offer_term_type(
            productType, frozenset(matchedTermType)
        )

        # get pricing type given product type, agreement term types and offer type if needed;
        # one excpetion is Container with Legal term. LegalTerm needs to be the only term present
        if offer_term_type_needed is not None:
            matchedOfferTermTypes = getMatchedTermTypesCombination(offer_term_types)
            print(f"matchedOfferTermType = {matchedOfferTermTypes}")
            pricingType = get_pricing_type(
                productType,
                frozenset(matchedTermType),
                frozenset(matchedOfferTermTypes),
            )
        elif set(matchedTermType) == set(legal):
            pricingType = Free
        else:
            pricingType = get_pricing_type(
                productType, frozenset(matchedTermType), frozenset("")
            )

        print(
            f"agreementId={agreement_id};productType={productType}; agreementTermTypes={agreementTermTypes}; matchedTermType={matchedTermType}; offerTermTypeNeeded={offer_term_type_needed}; offer_term_types={offer_term_types}"
        )
        print(f"pricing type={pricingType}")


def getMatchedTermTypesCombination(agreementTermTypes):
    matchedCombination = ()
    for element in all_agreement_types_combination:
        if check_elements(agreementTermTypes, element):
            matchedCombination = element
    return matchedCombination


def get_offer_term_types(item):
    offer_id = item["agreementTokenSummary"]["offerId"]
    mp_catalogAPI_client = boto3.client("marketplace-catalog")
    offer_document = get_entity_information(mp_catalogAPI_client, offer_id)
    offerDetail = offer_document["Details"]
    offerDetail_json_object = json.loads(offerDetail)
    offer_term_types = [term["Type"] for term in offerDetail_json_object["Terms"]]
    return offer_term_types


# make sure all elements in array2 exist in array1
def check_elements(array1, array2):
    for element in array2:
        if element not in array1:
            return False
    return True


def get_entity_information(mp_client, entity_id):
    """
    Returns information about a given entity
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of entity information
    """

    try:
        response = mp_client.describe_entity(
            Catalog="AWSMarketplace",
            EntityId=entity_id,
        )

        return response

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Entity with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def get_agreement_term_types(agreementTerm):
    types = []
    for term in agreementTerm["acceptedTerms"]:
        for value in term.values():
            if isinstance(value, dict) and "type" in value:
                types.append(value["type"])
    return types


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/DescribeAgreement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan jenis produk dari perjanjian
<a name="marketplace-agreement_GetAgreementProductType_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan jenis produk dari suatu perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain the Product Type of the product the agreement was created on
AG-11
"""

import logging

import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

# agreement id
AGREEMENT_ID = "agmt-1111111111111111111111111"


def get_agreement_information(mp_client, entity_id):
    """
    Returns information about a given agreement
    Args: entity_id str: Entity to return
    Returns: dict: Dictionary of agreement information
    """

    try:
        agreement = mp_client.describe_agreement(agreementId=entity_id)

        return agreement

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", entity_id)
        else:
            logger.error("Unexpected error: %s", e)


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for offer and product details in a given agreement by agreement id.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    agreement = get_agreement_information(mp_client, AGREEMENT_ID)

    if agreement is not None:
        productHash = {}
        for resource in agreement["resourceSummaries"]:
            productHash[resource["resourceId"]] = resource["resourceType"]

        for key, value in productHash.items():
            print(f"Product ID: {key}  |  Product Type: {value}")
    else:
        print("Agreement with ID " + AGREEMENT_ID + " is not found")


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/DescribeAgreement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan status perjanjian
<a name="marketplace-agreement_GetAgreementStatus_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan status perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to get all agreement status
AG-13

Example Usage: python3 get_agreement_status.py --agreement-id <agreement-id>
"""

import argparse
import logging

import boto3
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-agreement")

logger = logging.getLogger(__name__)


def get_agreement(agreement_id):
    try:
        response = mp_client.describe_agreement(agreementId=agreement_id)
        return response
    except ClientError as e:
        logger.error(f"Could not complete search_agreements request. {e}")

    return None


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--agreement-id",
        "-aid",
        help="Provide agreement ID to describe agreement status",
        required=True,
    )
    args = parser.parse_args()

    response = get_agreement(agreement_id=args.agreement_id)

    if response is not None:
        print(f"Agreement status: {response['status']}")
    else:
        print(f"No agreement found for {args.agreement_id}")
```
+  Untuk detail API, lihat [DescribeAgreement](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/DescribeAgreement)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan ketentuan dukungan dari perjanjian
<a name="marketplace-agreement_GetAgreementTermsSupportTerm_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan ketentuan dukungan dari suatu perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Obtain the support and refund policy I have provided to the customer for an agreement
AG-19

Example Usage: python3 get_agreement_support_terms.py --agreement-id <agreement-id>
"""

import argparse
import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)

mp_client = boto3.client("marketplace-agreement")


def get_agreement_terms(agreement_id):
    try:
        agreement = mp_client.get_agreement_terms(agreementId=agreement_id)
        return agreement

    except ClientError as e:
        if e.response["Error"]["Code"] == "ResourceNotFoundException":
            logger.error("Agreement with ID %s not found.", agreement_id)

        else:
            logger.error("Unexpected error: %s", e)

    return None


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--agreement-id",
        "-aid",
        help="Provide agreement ID to describe agreement status",
        required=True,
    )
    args = parser.parse_args()

    agreement = get_agreement_terms(agreement_id=args.agreement_id)

    if agreement is not None:
        support_found = False

        for term in agreement["acceptedTerms"]:
            if "supportTerm" in term.keys():
                helper.pretty_print_datetime(term)
                support_found = True

        if not support_found:
            print(f"No support term found for agreement: {args.agreement_id}")
```
+  Untuk detail API, lihat [GetAgreementTerms](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/GetAgreementTerms)di *AWS SDK for Python (Boto3) Referensi* API. 

### Cari perjanjian berdasarkan ID akun
<a name="marketplace-agreement_SearchAgreementsByAccountId_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian berdasarkan ID akun.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to get agreement by customer AWS account ID
AG-02
"""

import argparse
import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-agreement")
logger = logging.getLogger(__name__)

MAX_PAGE_RESULTS = 10


def get_agreements(account_id):
    AgreementSummaryList = []

    try:
        agreement = mp_client.search_agreements(
            catalog="AWSMarketplace",
            maxResults=MAX_PAGE_RESULTS,
            filters=[
                {"name": "PartyType", "values": ["Proposer"]},
                {"name": "AcceptorId", "values": [account_id]},
                {"name": "AgreementType", "values": ["PurchaseAgreement"]},
            ],
        )
    except ClientError as e:
        logger.error("Could not complete search_agreements request.")
        raise e

    AgreementSummaryList.extend(agreement["agreementViewSummaries"])

    while "nextToken" in agreement and agreement["nextToken"] is not None:
        try:
            agreement = mp_client.search_agreements(
                catalog="AWSMarketplace",
                maxResults=MAX_PAGE_RESULTS,
                nextToken=agreement["nextToken"],
                filters=[
                    {"name": "PartyType", "values": ["Proposer"]},
                    {"name": "AcceptorId", "values": [account_id]},
                    {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                ],
            )
        except ClientError as e:
            logger.error("Could not complete search_agreements request.")
            raise e

        AgreementSummaryList.extend(agreement["agreementViewSummaries"])

    return AgreementSummaryList


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "--account_id",
        "-aid",
        help="Provide accepting account ID to search for agreements",
        required=True,
    )
    args = parser.parse_args()

    response = get_agreements(account_id=args.account_id)

    helper.pretty_print_datetime(response)
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/SearchAgreements)di *AWS SDK for Python (Boto3) Referensi* API. 

### Cari perjanjian berdasarkan ID perjanjian
<a name="marketplace-agreement_SearchAgreementsById_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian dengan ID perjanjian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to search for agreements give id information
AG-02-A
"""


import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

# To search by offer id: OfferId; by product id: ResourceIdentifier; by product type: ResourceType
idType = "ResourceType"

# replace id value as needed
idValue = "SaaSProduct"

MAX_PAGE_RESULTS = 10

logger = logging.getLogger(__name__)


def get_agreements(mp_client):
    AgreementSummaryList = []
    partyTypes = ["Proposer"]
    for value in partyTypes:
        try:
            agreement = mp_client.search_agreements(
                catalog="AWSMarketplace",
                maxResults=MAX_PAGE_RESULTS,
                filters=[
                    {"name": "PartyType", "values": [value]},
                    {"name": idType, "values": [idValue]},
                    {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                ],
            )
        except ClientError as e:
            logger.error("Could not complete search_agreements request.")
            raise e

        AgreementSummaryList.extend(agreement["agreementViewSummaries"])

        while "nextToken" in agreement and agreement["nextToken"] is not None:
            try:
                agreement = mp_client.search_agreements(
                    catalog="AWSMarketplace",
                    maxResults=MAX_PAGE_RESULTS,
                    nextToken=agreement["nextToken"],
                    filters=[
                        {"name": "PartyType", "values": [value]},
                        {"name": idType, "values": [idValue]},
                        {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                    ],
                )
            except ClientError as e:
                logger.error("Could not complete search_agreements request.")
                raise e

            AgreementSummaryList.extend(agreement["agreementViewSummaries"])

    return AgreementSummaryList


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace Catalog.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    helper.pretty_print_datetime(get_agreements(mp_client))


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/SearchAgreements)di *AWS SDK for Python (Boto3) Referensi* API. 

### Cari perjanjian berdasarkan tanggal akhir
<a name="marketplace-agreement_SearchAgreementsByEndDate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian berdasarkan tanggal akhir.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to search for agreement information before or after end date
AG-03
"""

import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-agreement")

# change to 'AfterEndTime' if after endtime is desired
beforeOrAfterEndtimeFilterName = "BeforeEndTime"

# Make sure to use the same date format as below
cutoffDate = "2322-11-18T00:00:00Z"

MAX_PAGE_RESULTS = 10

logger = logging.getLogger(__name__)


def get_agreements():
    AgreementSummaryList = []

    try:
        agreement = mp_client.search_agreements(
            catalog="AWSMarketplace",
            maxResults=MAX_PAGE_RESULTS,
            filters=[
                {"name": "PartyType", "values": ["Proposer"]},
                {"name": beforeOrAfterEndtimeFilterName, "values": [cutoffDate]},
                {"name": "AgreementType", "values": ["PurchaseAgreement"]},
            ],
        )
    except ClientError as e:
        logger.error("Could not complete search_agreements request.")
        raise

    AgreementSummaryList.extend(agreement["agreementViewSummaries"])

    while "nextToken" in agreement:
        try:
            agreement = mp_client.search_agreements(
                catalog="AWSMarketplace",
                maxResults=MAX_PAGE_RESULTS,
                nextToken=agreement["nextToken"],
                filters=[
                    {"name": "PartyType", "values": ["Proposer"]},
                    {
                        "name": beforeOrAfterEndtimeFilterName,
                        "values": [cutoffDate],
                    },
                    {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                ],
            )
        except ClientError as e:
            logger.error("Could not complete search_agreements request.")
            raise

        AgreementSummaryList.extend(agreement["agreementViewSummaries"])

    return AgreementSummaryList


if __name__ == "__main__":
    agreements = get_agreements()
    helper.pretty_print_datetime(agreements)
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/SearchAgreements)di *AWS SDK for Python (Boto3) Referensi* API. 

### Cari perjanjian berdasarkan ID penawaran
<a name="marketplace-agreement_SearchAgreementsByOfferId_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian dengan ID penawaran.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to search for agreements by offer id
AG-0
"""

import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

# offer id to search by
offerId = "1111111111111111111111111"

MAX_PAGE_RESULTS = 10

logger = logging.getLogger(__name__)


def get_agreements(mp_client):
    AgreementSummaryList = []
    partyTypes = ["Proposer"]
    for value in partyTypes:
        try:
            agreement = mp_client.search_agreements(
                catalog="AWSMarketplace",
                maxResults=MAX_PAGE_RESULTS,
                filters=[
                    {"name": "PartyType", "values": [value]},
                    {"name": "OfferId", "values": [offerId]},
                    {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                ],
            )
        except ClientError as e:
            logger.error("Could not complete search_agreements request.")
            raise

        AgreementSummaryList.extend(agreement["agreementViewSummaries"])

        while "nextToken" in agreement and agreement["nextToken"] is not None:
            try:
                agreement = mp_client.search_agreements(
                    catalog="AWSMarketplace",
                    maxResults=MAX_PAGE_RESULTS,
                    nextToken=agreement["nextToken"],
                    filters=[
                        {"name": "PartyType", "values": [value]},
                        {"name": "OfferId", "values": [offerId]},
                        {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                    ],
                )
            except ClientError as e:
                logger.error("Could not complete search_agreements request.")
                raise

            AgreementSummaryList.extend(agreement["agreementViewSummaries"])

    return AgreementSummaryList


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement by offer id.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    helper.pretty_print_datetime(get_agreements(mp_client))


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/SearchAgreements)di *AWS SDK for Python (Boto3) Referensi* API. 

### Cari perjanjian berdasarkan ID produk
<a name="marketplace-agreement_SearchAgreementsByProductId_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian berdasarkan ID produk.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to search for agreement by product id
AG-02
"""

import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

# product id to search by
resourceId = "prod-1111111111111"

MAX_PAGE_RESULTS = 10

logger = logging.getLogger(__name__)


def get_agreements(mp_client):
    AgreementSummaryList = []
    partyTypes = ["Proposer"]
    for value in partyTypes:
        try:
            agreement = mp_client.search_agreements(
                catalog="AWSMarketplace",
                maxResults=MAX_PAGE_RESULTS,
                filters=[
                    {"name": "PartyType", "values": [value]},
                    {"name": "ResourceIdentifier", "values": [resourceId]},
                    {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                ],
            )
        except ClientError as e:
            logger.error("Could not complete list_entities request.")
            raise

        AgreementSummaryList.extend(agreement["agreementViewSummaries"])

        while "nextToken" in agreement:
            try:
                agreement = mp_client.search_agreements(
                    catalog="AWSMarketplace",
                    maxResults=MAX_PAGE_RESULTS,
                    nextToken=agreement["nextToken"],
                    filters=[
                        {"name": "PartyType", "values": [value]},
                        {"name": "ResourceIdentifier", "values": [resourceId]},
                        {"name": "AgreementType", "values": ["PurchaseAgreement"]},
                    ],
                )
            except ClientError as e:
                logger.error("Could not complete search_agreements request.")
                raise

            AgreementSummaryList.extend(agreement["agreementViewSummaries"])

    return AgreementSummaryList


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Looking for an agreement in the AWS Marketplace Catalog.")
    print("-" * 88)

    mp_client = boto3.client("marketplace-agreement")

    helper.pretty_print_datetime(get_agreements(mp_client))


if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/SearchAgreements)di *AWS SDK for Python (Boto3) Referensi* API. 

### Cari perjanjian berdasarkan status
<a name="marketplace-agreement_SearchAgreementsByByStatus_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mencari perjanjian berdasarkan status.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara menyiapkan dan menjalankan di repositori [AWS Marketplace API Reference Code Library](https://github.com/aws-samples/aws-marketplace-reference-code/blob/main/python#agreement-api-reference-code). 

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
"""
Purpose
Shows how to use the AWS SDK for Python (Boto3) to filter agreements by status
AG-04

Example Usage: python3 search_agreements_by_status.py
"""

import logging

import boto3
import utils.helpers as helper
from botocore.exceptions import ClientError

mp_client = boto3.client("marketplace-agreement")

logger = logging.getLogger(__name__)

MAX_PAGE_RESULTS = 10

party_type_list = ["Proposer"]
agreement_type_list = ["PurchaseAgreement"]

# Accepted values: "ACTIVE", "TERMINATED", "CANCELED", "EXPIRED", "REPLACED", "RENEWED"
status_list = ["ACTIVE"]

filter_list = [
    {"name": "PartyType", "values": party_type_list},
    {"name": "AgreementType", "values": agreement_type_list},
    {"name": "Status", "values": status_list},
]

agreement_results_list = []


def get_agreements(filter_list=filter_list):
    try:
        agreements = mp_client.search_agreements(
            catalog="AWSMarketplace",
            maxResults=MAX_PAGE_RESULTS,
            filters=filter_list,
        )
    except ClientError as e:
        logger.error("Could not complete search_agreements request.")
        raise e

    agreement_results_list.extend(agreements["agreementViewSummaries"])

    while "nextToken" in agreements and agreements["nextToken"] is not None:
        try:
            agreements = mp_client.search_agreements(
                catalog="AWSMarketplace",
                maxResults=MAX_PAGE_RESULTS,
                nextToken=agreements["nextToken"],
                filters=filter_list,
            )
        except ClientError as e:
            logger.error("Could not complete search_agreements request.")
            raise e

        agreement_results_list.extend(agreements["agreementViewSummaries"])

    helper.pretty_print_datetime(agreement_results_list)
    return agreement_results_list


if __name__ == "__main__":
    agreements_list = get_agreements(filter_list)
```
+  Untuk detail API, lihat [SearchAgreements](https://docs.aws.amazon.com/goto/boto3/marketplace-agreement-2020-03-01/SearchAgreements)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh MSK Amazon menggunakan SDK for Python (Boto3)
<a name="python_3_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan MSK AWS SDK untuk Python (Boto3) with Amazon.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Python.  

```
import base64

def lambda_handler(event, context):
    # Iterate through keys
    for key in event['records']:
        print('Key:', key)
        # Iterate through records
        for record in event['records'][key]:
            print('Record:', record)
            # Decode base64
            msg = base64.b64decode(record['value']).decode('utf-8')
            print('Message:', msg)
```

# Contoh Neptunus menggunakan SDK for Python (Boto3)
<a name="python_3_neptune_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Neptunus. AWS SDK untuk Python (Boto3) 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Neptunus
<a name="neptune_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Neptunus.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
import boto3
from botocore.exceptions import ClientError


def describe_db_clusters(neptune_client):
    """
    Describes the Amazon Neptune DB clusters using a paginator to handle multiple pages.
    Raises ClientError with 'ResourceNotFoundException' if no clusters are found.
    """
    paginator = neptune_client.get_paginator("describe_db_clusters")
    clusters_found = False

    for page in paginator.paginate():
        for cluster in page.get("DBClusters", []):
            clusters_found = True
            print(f"Cluster Identifier: {cluster['DBClusterIdentifier']}")
            print(f"Status: {cluster['Status']}")

    if not clusters_found:
        raise ClientError(
            {
                "Error": {
                    "Code": "ResourceNotFoundException",
                    "Message": "No Neptune DB clusters found."
                }
            },
            operation_name="DescribeDBClusters"
        )

def main():
    """
    Main entry point: creates the Neptune client and calls the describe operation.
    """
    neptune_client = boto3.client("neptune")
    try:
        describe_db_clusters(neptune_client)
    except ClientError as e:
        error_code = e.response["Error"]["Code"]
        if error_code == "ResourceNotFoundException":
            print(f"Resource not found: {e.response['Error']['Message']}")
        else:
            print(f"Unexpected ClientError: {e.response['Error']['Message']}")
    except Exception as e:
        print(f"Unexpected error: {str(e)}")

if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [Menjelaskan DBClusters Paginator](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DescribeDBClustersPaginator) di *AWS SDK for Python (Boto3)* Referensi API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="neptune_Scenario_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat Grup Subnet Amazon Neptunus.
+ Buat Cluster Neptunus.
+ Buat Instance Neptunus.
+ Periksa status Instance Neptunus.
+ Tampilkan detail cluster Neptunus.
+ Hentikan gugus Neptunus.
+ Mulai cluster Neptunus.
+ Hapus Aset Neptunus.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
import boto3
import time
from botocore.exceptions import ClientError

# Constants used in this scenario
POLL_INTERVAL_SECONDS = 10
TIMEOUT_SECONDS = 1200  # 20 minutes

def delete_db_cluster(neptune_client, cluster_id: str):
    """
    Deletes a Neptune DB cluster and throws exceptions to the caller.

    Args:
        neptune_client (boto3.client): The Neptune client object.
        cluster_id (str): The ID of the Neptune DB cluster to be deleted.

    Raises:
        ClientError: If the delete operation fails.
    """
    request = {
        'DBClusterIdentifier': cluster_id,
        'SkipFinalSnapshot': True
    }

    try:
        print(f"Deleting DB Cluster: {cluster_id}")
        neptune_client.delete_db_cluster(**request)

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "DBClusterNotFoundFault":
            print(f"Cluster '{cluster_id}' not found or already deleted.")
        elif code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't delete DB cluster. {code}: {message}")
        raise

def format_elapsed_time(seconds: int) -> str:
    mins, secs = divmod(seconds, 60)
    hours, mins = divmod(mins, 60)
    return f"{hours:02}:{mins:02}:{secs:02}"


def delete_db_instance(neptune_client, instance_id: str):
    """
    Deletes a Neptune DB instance and waits for its deletion to complete.
    Raises exception to be handled by calling code.
    """
    print(f"Initiating deletion of DB Instance: {instance_id}")
    try:
        neptune_client.delete_db_instance(
            DBInstanceIdentifier=instance_id,
            SkipFinalSnapshot=True
        )

        print(f"Waiting for DB Instance '{instance_id}' to be deleted...")
        waiter = neptune_client.get_waiter('db_instance_deleted')
        waiter.wait(
            DBInstanceIdentifier=instance_id,
            WaiterConfig={
                'Delay': 30,
                'MaxAttempts': 40
            }
        )

        print(f"DB Instance '{instance_id}' successfully deleted.")

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "DBInstanceNotFoundFault":
            print(f"Instance '{instance_id}' not found or already deleted.")
        elif code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't delete DB instance. {code}: {message}")
        raise

def delete_db_subnet_group(neptune_client, subnet_group_name):
    """
    Deletes a Neptune DB subnet group synchronously using Boto3.

    Args:
        neptune_client (boto3.client): The Neptune client.
        subnet_group_name (str): The name of the DB subnet group to delete.

    Raises:
        ClientError: If the delete operation fails.
    """
    delete_group_request = {
        'DBSubnetGroupName': subnet_group_name
    }

    try:
        neptune_client.delete_db_subnet_group(**delete_group_request)
        print(f"️ Deleting Subnet Group: {subnet_group_name}")

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "DBSubnetGroupNotFoundFault":
            print(f"Subnet group '{subnet_group_name}' not found or already deleted.")
        elif code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't delete subnet group. {code}: {message}")
        raise

def wait_for_cluster_status(
        neptune_client,
        cluster_id: str,
        desired_status: str,
        timeout_seconds: int = TIMEOUT_SECONDS,
        poll_interval_seconds: int = POLL_INTERVAL_SECONDS
):
    """
    Waits for a Neptune DB cluster to reach a desired status.

    Args:
        neptune_client (boto3.client): The Amazon Neptune client.
        cluster_id (str): The identifier of the Neptune DB cluster.
        desired_status (str): The target status (e.g., "available", "stopped").
        timeout_seconds (int): Max time to wait in seconds (default: 1200).
        poll_interval_seconds (int): Polling interval in seconds (default: 10).

    Raises:
        RuntimeError: If the desired status is not reached before timeout.
    """
    print(f"Waiting for cluster '{cluster_id}' to reach status '{desired_status}'...")
    start_time = time.time()

    while True:
        # Prepare request object
        describe_cluster_request = {
            'DBClusterIdentifier': cluster_id
        }

        # Call the Neptune API
        response = neptune_client.describe_db_clusters(**describe_cluster_request)
        clusters = response.get('DBClusters', [])
        current_status = clusters[0].get('Status') if clusters else None
        elapsed_seconds = int(time.time() - start_time)

        status_str = current_status if current_status else "Unknown"
        print(
            f"\r Elapsed: {format_elapsed_time(elapsed_seconds):<20}  Cluster status: {status_str:<20}",
            end="", flush=True
        )

        if current_status and current_status.lower() == desired_status.lower():
            print(
                f"\nNeptune cluster reached desired status '{desired_status}' after {format_elapsed_time(elapsed_seconds)}."
            )
            return

        if elapsed_seconds > timeout_seconds:
            raise RuntimeError(f"Timeout waiting for Neptune cluster to reach status: {desired_status}")

        time.sleep(poll_interval_seconds)


def start_db_cluster(neptune_client, cluster_identifier: str):
    """
    Starts an Amazon Neptune DB cluster and waits until it reaches 'available'.

    Args:
        neptune_client (boto3.client): The Neptune client.
        cluster_identifier (str): The DB cluster identifier.

    Raises:
        ClientError: Propagates AWS API issues like resource not found.
        RuntimeError: If cluster doesn't reach 'available' within timeout.
    """
    try:
        # Initial wait in case the cluster was just stopped
        time.sleep(30)
        neptune_client.start_db_cluster(DBClusterIdentifier=cluster_identifier)
    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't start DB cluster. Here's why: {code}: {message}")
        raise

    start_time = time.time()
    paginator = neptune_client.get_paginator('describe_db_clusters')

    while True:
        try:
            pages = paginator.paginate(DBClusterIdentifier=cluster_identifier)
            clusters = []
            for page in pages:
                clusters.extend(page.get('DBClusters', []))
        except ClientError as err:
            code = err.response["Error"]["Code"]
            message = err.response["Error"]["Message"]

            if code == "DBClusterNotFound":
                print(f"Cluster '{cluster_identifier}' not found while polling. It may have been deleted.")
            else:
                print(f"Couldn't describe DB cluster. Here's why: {code}: {message}")
            raise

        status = clusters[0].get('Status') if clusters else None
        elapsed = time.time() - start_time

        print(f"\rElapsed: {int(elapsed)}s – Cluster status: {status}", end="", flush=True)

        if status and status.lower() == 'available':
            print(f"\n🎉 Cluster '{cluster_identifier}' is available.")
            return

        if elapsed > TIMEOUT_SECONDS:
            raise RuntimeError(f"Timeout waiting for cluster '{cluster_identifier}' to become available.")

        time.sleep(POLL_INTERVAL_SECONDS)


def stop_db_cluster(neptune_client, cluster_identifier: str):
    """
    Stops an Amazon Neptune DB cluster and waits until it's fully stopped.

    Args:
        neptune_client (boto3.client): The Neptune client.
        cluster_identifier (str): The DB cluster identifier.

    Raises:
        ClientError: For AWS API errors (e.g., resource not found).
        RuntimeError: If the cluster doesn't stop within the timeout.
    """
    try:
        neptune_client.stop_db_cluster(DBClusterIdentifier=cluster_identifier)
    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't stop DB cluster. Here's why: {code}: {message}")
        raise

    start_time = time.time()
    paginator = neptune_client.get_paginator('describe_db_clusters')

    while True:
        try:
            pages = paginator.paginate(DBClusterIdentifier=cluster_identifier)
            clusters = []
            for page in pages:
                clusters.extend(page.get('DBClusters', []))
        except ClientError as err:
            code = err.response["Error"]["Code"]
            message = err.response["Error"]["Message"]

            if code == "DBClusterNotFound":
                print(f"Cluster '{cluster_identifier}' not found while polling. It may have been deleted.")
            else:
                print(f"Couldn't describe DB cluster. Here's why: {code}: {message}")
            raise

        status = clusters[0].get('Status') if clusters else None
        elapsed = time.time() - start_time

        print(f"\rElapsed: {int(elapsed)}s – Cluster status: {status}", end="", flush=True)

        if status and status.lower() == 'stopped':
            print(f"\nCluster '{cluster_identifier}' is now stopped.")
            return

        if elapsed > TIMEOUT_SECONDS:
            raise RuntimeError(f"Timeout waiting for cluster '{cluster_identifier}' to stop.")

        time.sleep(POLL_INTERVAL_SECONDS)



def describe_db_clusters(neptune_client, cluster_id: str):
    """
    Describes details of a Neptune DB cluster, paginating if needed.

    Args:
        neptune_client (boto3.client): The Neptune client.
        cluster_id (str): The ID of the cluster to describe.

    Raises:
        ClientError: If there's an AWS API error (e.g., cluster not found).
    """
    paginator = neptune_client.get_paginator('describe_db_clusters')

    try:
        pages = paginator.paginate(DBClusterIdentifier=cluster_id)

        found = False
        for page in pages:
            for cluster in page.get('DBClusters', []):
                found = True
                print(f"Cluster Identifier: {cluster.get('DBClusterIdentifier')}")
                print(f"Status: {cluster.get('Status')}")
                print(f"Engine: {cluster.get('Engine')}")
                print(f"Engine Version: {cluster.get('EngineVersion')}")
                print(f"Endpoint: {cluster.get('Endpoint')}")
                print(f"Reader Endpoint: {cluster.get('ReaderEndpoint')}")
                print(f"Availability Zones: {cluster.get('AvailabilityZones')}")
                print(f"Subnet Group: {cluster.get('DBSubnetGroup')}")
                print("VPC Security Groups:")
                for vpc_group in cluster.get('VpcSecurityGroups', []):
                    print(f"  - {vpc_group.get('VpcSecurityGroupId')}")
                print(f"Storage Encrypted: {cluster.get('StorageEncrypted')}")
                print(f"IAM Auth Enabled: {cluster.get('IAMDatabaseAuthenticationEnabled')}")
                print(f"Backup Retention Period: {cluster.get('BackupRetentionPeriod')} days")
                print(f"Preferred Backup Window: {cluster.get('PreferredBackupWindow')}")
                print(f"Preferred Maintenance Window: {cluster.get('PreferredMaintenanceWindow')}")
                print("------")

        if not found:
            # Treat empty response as cluster not found
            raise ClientError(
                {"Error": {"Code": "DBClusterNotFound", "Message": f"No cluster found with ID '{cluster_id}'"}},
                "DescribeDBClusters"
            )

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        elif code == "DBClusterNotFound":
            print(f"Cluster '{cluster_id}' not found. Please verify the cluster ID.")
        else:
            print(f"Couldn't describe DB cluster. Here's why: {code}: {message}")
        raise

def check_instance_status(neptune_client, instance_id: str, desired_status: str):
    """
    Polls the status of a Neptune DB instance until it reaches desired_status.
    Uses pagination via describe_db_instances — even for a single instance.

    Raises:
      ClientError: If describe_db_instances fails (e.g., instance not found).
      RuntimeError: If timeout expires before reaching desired status.
    """
    paginator = neptune_client.get_paginator('describe_db_instances')
    start_time = time.time()

    while True:
        try:
            pages = paginator.paginate(DBInstanceIdentifier=instance_id)
            instances = []
            for page in pages:
                instances.extend(page.get('DBInstances', []))

        except ClientError as err:
            code = err.response["Error"]["Code"]
            message = err.response["Error"]["Message"]

            if code == "DBInstanceNotFound":
                print(f"Instance '{instance_id}' not found. Please verify the instance ID.")
            else:
                print(f"Failed to describe DB instance. {code}: {message}")
            raise

        current_status = instances[0].get('DBInstanceStatus') if instances else None
        elapsed = int(time.time() - start_time)

        print(f"\rElapsed: {format_elapsed_time(elapsed)}  Status: {current_status}", end="", flush=True)

        if current_status and current_status.lower() == desired_status.lower():
            print(f"\nInstance '{instance_id}' reached '{desired_status}' in {format_elapsed_time(elapsed)}.")
            return

        if elapsed > TIMEOUT_SECONDS:
            raise RuntimeError(f"Timeout waiting for '{instance_id}' to reach '{desired_status}'")

        time.sleep(POLL_INTERVAL_SECONDS)


def create_db_instance(neptune_client, db_instance_id: str, db_cluster_id: str) -> str:
    try:
        request = {
            'DBInstanceIdentifier': db_instance_id,
            'DBInstanceClass': 'db.r5.large',
            'Engine': 'neptune',
            'DBClusterIdentifier': db_cluster_id
        }

        print(f"Creating Neptune DB Instance: {db_instance_id}")
        response = neptune_client.create_db_instance(**request)

        instance = response.get('DBInstance')
        if not instance or 'DBInstanceIdentifier' not in instance:
            raise RuntimeError("Instance creation succeeded but no ID returned.")

        print(f"Waiting for DB Instance '{db_instance_id}' to become available...")
        waiter = neptune_client.get_waiter('db_instance_available')
        waiter.wait(
            DBInstanceIdentifier=db_instance_id,
            WaiterConfig={'Delay': 30, 'MaxAttempts': 40}
        )

        print(f"DB Instance '{db_instance_id}' is now available.")
        return instance['DBInstanceIdentifier']

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't create DB instance. Here's why: {code}: {message}")
        raise

    except Exception as e:
        print(f"Unexpected error creating DB instance '{db_instance_id}': {e}")
        raise RuntimeError(f"Unexpected error creating DB instance '{db_instance_id}': {e}") from e


def create_db_cluster(neptune_client, db_name: str) -> str:
    """
    Creates a Neptune DB cluster and returns its identifier.

    Args:
        neptune_client (boto3.client): The Neptune client object.
        db_name (str): The desired cluster identifier.

    Returns:
        str: The DB cluster identifier.

    Raises:
        RuntimeError: For any failure or AWS error, with a user-friendly message.
    """
    request = {
        'DBClusterIdentifier': db_name,
        'Engine': 'neptune',
        'DeletionProtection': False,
        'BackupRetentionPeriod': 1
    }

    try:
        response = neptune_client.create_db_cluster(**request)
        cluster = response.get('DBCluster') or {}

        cluster_id = cluster.get('DBClusterIdentifier')
        if not cluster_id:
            raise RuntimeError("Cluster created but no ID returned.")

        print(f"DB Cluster created: {cluster_id}")
        return cluster_id

    except ClientError as e:
        code = e.response["Error"]["Code"]
        message = e.response["Error"]["Message"]

        if code in ("ServiceQuotaExceededException", "DBClusterQuotaExceededFault"):
            raise RuntimeError("You have exceeded the quota for Neptune DB clusters.") from e
        else:
            raise RuntimeError(f"AWS error [{code}]: {message}") from e

    except Exception as e:
        raise RuntimeError(f"Unexpected error creating DB cluster '{db_name}': {e}") from e

def get_subnet_ids(vpc_id: str) -> list[str]:
    ec2_client = boto3.client('ec2')

    describe_subnets_request = {
        'Filters': [{'Name': 'vpc-id', 'Values': [vpc_id]}]
    }

    response = ec2_client.describe_subnets(**describe_subnets_request)
    subnets = response.get('Subnets', [])
    subnet_ids = [subnet['SubnetId'] for subnet in subnets if 'SubnetId' in subnet]
    return subnet_ids


def get_default_vpc_id() -> str:
    ec2_client = boto3.client('ec2')
    describe_vpcs_request = {
        'Filters': [{'Name': 'isDefault', 'Values': ['true']}]
    }

    response = ec2_client.describe_vpcs(**describe_vpcs_request)
    vpcs = response.get('Vpcs', [])
    if not vpcs:
        raise RuntimeError("No default VPC found in this region.")

    default_vpc_id = vpcs[0]['VpcId']
    print(f"Default VPC ID: {default_vpc_id}")
    return default_vpc_id


def create_subnet_group(neptune_client, group_name: str):
    """
    Creates a Neptune DB subnet group and returns its name and ARN.

    Args:
        neptune_client (boto3.client): The Neptune client object.
        group_name (str): The desired name of the subnet group.

    Returns:
        tuple(str, str): (subnet_group_name, subnet_group_arn)

    Raises:
        RuntimeError: For quota errors or other AWS-related failures.
    """
    vpc_id = get_default_vpc_id()
    subnet_ids = get_subnet_ids(vpc_id)

    request = {
        'DBSubnetGroupName': group_name,
        'DBSubnetGroupDescription': 'My Neptune subnet group',
        'SubnetIds': subnet_ids,
        'Tags': [{'Key': 'Environment', 'Value': 'Dev'}]
    }

    try:
        response = neptune_client.create_db_subnet_group(**request)
        sg = response.get("DBSubnetGroup", {})
        name = sg.get("DBSubnetGroupName")
        arn = sg.get("DBSubnetGroupArn")

        if not name or not arn:
            raise RuntimeError("Response missing subnet group name or ARN.")

        print(f"Subnet group created: {name}")
        print(f"ARN: {arn}")
        return name, arn

    except ClientError as e:
        code = e.response["Error"]["Code"]
        msg = e.response["Error"]["Message"]

        if code == "ServiceQuotaExceededException":
            print("Subnet group quota exceeded.")
            raise RuntimeError("Subnet group quota exceeded.") from e
        else:
            print(f"AWS error [{code}]: {msg}")
            raise RuntimeError(f"AWS error [{code}]: {msg}") from e

    except Exception as e:
        print(f"Unexpected error creating subnet group '{group_name}': {e}")
        raise RuntimeError(f"Unexpected error creating subnet group '{group_name}': {e}") from e

def wait_for_input_to_continue():
    input("\nPress <ENTER> to continue...")
    print("Continuing with the program...\n")


def run_scenario(neptune_client, subnet_group_name: str, db_instance_id: str, cluster_name: str):
    print("-" * 88)
    print("1. Create a Neptune DB Subnet Group")
    wait_for_input_to_continue()

    try:
        name, arn = create_subnet_group(neptune_client, subnet_group_name)
        print(f"Subnet group successfully created: {name}")

        print("-" * 88)
        print("2. Create a Neptune Cluster")
        wait_for_input_to_continue()
        db_cluster_id = create_db_cluster(neptune_client, cluster_name)

        print("-" * 88)
        print("3. Create a Neptune DB Instance")
        wait_for_input_to_continue()
        create_db_instance(neptune_client, db_instance_id, cluster_name)

        print("-" * 88)
        print("4. Check the status of the Neptune DB Instance")
        print("""
        Even though you're targeting a single DB instance, 
        describe_db_instances supports pagination and can return multiple pages. 

        Handling paginated responses ensures your method continues to work reliably 
        even if AWS returns large or paged results.
        """)
        wait_for_input_to_continue()
        check_instance_status(neptune_client, db_instance_id, "available")

        print("-" * 88)
        print("5. Show Neptune Cluster details")
        wait_for_input_to_continue()
        describe_db_clusters(neptune_client, db_cluster_id)

        print("-" * 88)
        print("6. Stop the Amazon Neptune cluster")
        print("""
            Boto3 doesn't currently offer a 
            built-in waiter for stop_db_cluster, 
            This example implements a custom polling 
            strategy until the cluster is in a stopped state.
        """)
        wait_for_input_to_continue()
        stop_db_cluster(neptune_client, db_cluster_id)
        check_instance_status(neptune_client, db_instance_id, "stopped")

        print("-" * 88)
        print("7. Start the Amazon Neptune cluster")
        print("""
            Boto3 doesn't currently offer a 
            built-in waiter for start_db_cluster, 
            This example implements a custom polling 
            strategy until the cluster is in an available state.
        """)
        wait_for_input_to_continue()
        start_db_cluster(neptune_client, db_cluster_id)
        wait_for_cluster_status(neptune_client, db_cluster_id, "available")
        check_instance_status(neptune_client, db_instance_id, "available")

        print("All Neptune resources are now available.")
        print("-" * 88)

        print("-" * 88)
        print("8. Delete the Neptune Assets")
        print("Would you like to delete the Neptune Assets? (y/n)")
        del_ans = input().strip().lower()

        if del_ans == "y":
            print("You selected to delete the Neptune assets.")

            delete_db_instance(neptune_client, db_instance_id)
            delete_db_cluster(neptune_client, db_cluster_id)
            delete_db_subnet_group(neptune_client, subnet_group_name)

            print("Neptune resources deleted successfully")

    except ClientError as ce:
        code = ce.response["Error"]["Code"]

        if code in ("DBInstanceNotFound", "DBInstanceNotFoundFault", "ResourceNotFound"):
            print(f"Instance '{db_instance_id}' not found.")
        elif code in ("DBClusterNotFound", "DBClusterNotFoundFault", "ResourceNotFoundFault"):
            print(f"Cluster '{cluster_name}' not found.")
        elif code == "DBSubnetGroupNotFoundFault":
            print(f"Subnet group '{subnet_group_name}' not found.")
        elif code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"AWS error [{code}]: {ce.response['Error']['Message']}")
            raise  # re-raise unexpected errors

    except RuntimeError as re:
        print(f"Runtime error or timeout: {re}")


def main():
    neptune_client = boto3.client('neptune')

    # Customize the following names to match your Neptune setup
    # (You must change these to unique values for your environment)
    subnet_group_name = "neptuneSubnetGroup111"
    cluster_name = "neptuneCluster111"
    db_instance_id = "neptuneDB111"

    print("""
    Amazon Neptune is a fully managed graph database service by AWS...
    Let's get started!
    """)
    wait_for_input_to_continue()
    run_scenario(neptune_client, subnet_group_name, db_instance_id, cluster_name)

    print("""
    Thank you for checking out the Amazon Neptune Service Use demo.
    For more AWS code examples, visit:
    https://docs.aws.amazon.com/code-library/latest/ug/what-is-code-library.html
    """)

if __name__ == "__main__":
    main()
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [Buat DBCluster](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/CreateDBCluster)
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/CreateDBInstance)
  + [Buat DBSubnet Grup](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/CreateDBSubnetGroup)
  + [CreateGraph](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/CreateGraph)
  + [Hapus DBCluster](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DeleteDBCluster)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DeleteDBInstance)
  + [Hapus DBSubnet Grup](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DeleteDBSubnetGroup)
  + [Jelaskan DBClusters](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DescribeDBClusters)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DescribeDBInstances)
  + [ExecuteGremlinProfileQuery](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/ExecuteGremlinProfileQuery)
  + [ExecuteGremlinQuery](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/ExecuteGremlinQuery)
  + [ExecuteOpenCypherExplainQuery](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/ExecuteOpenCypherExplainQuery)
  + [ExecuteQuery](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/ExecuteQuery)
  + [Mulai DBCluster](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/StartDBCluster)
  + [Berhenti DBCluster](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/StopDBCluster)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="neptune_CreateDBCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def create_db_cluster(neptune_client, db_name: str) -> str:
    """
    Creates a Neptune DB cluster and returns its identifier.

    Args:
        neptune_client (boto3.client): The Neptune client object.
        db_name (str): The desired cluster identifier.

    Returns:
        str: The DB cluster identifier.

    Raises:
        RuntimeError: For any failure or AWS error, with a user-friendly message.
    """
    request = {
        'DBClusterIdentifier': db_name,
        'Engine': 'neptune',
        'DeletionProtection': False,
        'BackupRetentionPeriod': 1
    }

    try:
        response = neptune_client.create_db_cluster(**request)
        cluster = response.get('DBCluster') or {}

        cluster_id = cluster.get('DBClusterIdentifier')
        if not cluster_id:
            raise RuntimeError("Cluster created but no ID returned.")

        print(f"DB Cluster created: {cluster_id}")
        return cluster_id

    except ClientError as e:
        code = e.response["Error"]["Code"]
        message = e.response["Error"]["Message"]

        if code in ("ServiceQuotaExceededException", "DBClusterQuotaExceededFault"):
            raise RuntimeError("You have exceeded the quota for Neptune DB clusters.") from e
        else:
            raise RuntimeError(f"AWS error [{code}]: {message}") from e

    except Exception as e:
        raise RuntimeError(f"Unexpected error creating DB cluster '{db_name}': {e}") from e
```
+  Untuk detail API, lihat [Membuat DBCluster](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/CreateDBCluster) di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateDBInstance`
<a name="neptune_CreateDBInstance_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def create_db_instance(neptune_client, db_instance_id: str, db_cluster_id: str) -> str:
    try:
        request = {
            'DBInstanceIdentifier': db_instance_id,
            'DBInstanceClass': 'db.r5.large',
            'Engine': 'neptune',
            'DBClusterIdentifier': db_cluster_id
        }

        print(f"Creating Neptune DB Instance: {db_instance_id}")
        response = neptune_client.create_db_instance(**request)

        instance = response.get('DBInstance')
        if not instance or 'DBInstanceIdentifier' not in instance:
            raise RuntimeError("Instance creation succeeded but no ID returned.")

        print(f"Waiting for DB Instance '{db_instance_id}' to become available...")
        waiter = neptune_client.get_waiter('db_instance_available')
        waiter.wait(
            DBInstanceIdentifier=db_instance_id,
            WaiterConfig={'Delay': 30, 'MaxAttempts': 40}
        )

        print(f"DB Instance '{db_instance_id}' is now available.")
        return instance['DBInstanceIdentifier']

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't create DB instance. Here's why: {code}: {message}")
        raise

    except Exception as e:
        print(f"Unexpected error creating DB instance '{db_instance_id}': {e}")
        raise RuntimeError(f"Unexpected error creating DB instance '{db_instance_id}': {e}") from e
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/CreateDBInstance) di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateDBSubnetGroup`
<a name="neptune_CreateDBSubnetGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSubnetGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def create_subnet_group(neptune_client, group_name: str):
    """
    Creates a Neptune DB subnet group and returns its name and ARN.

    Args:
        neptune_client (boto3.client): The Neptune client object.
        group_name (str): The desired name of the subnet group.

    Returns:
        tuple(str, str): (subnet_group_name, subnet_group_arn)

    Raises:
        RuntimeError: For quota errors or other AWS-related failures.
    """
    vpc_id = get_default_vpc_id()
    subnet_ids = get_subnet_ids(vpc_id)

    request = {
        'DBSubnetGroupName': group_name,
        'DBSubnetGroupDescription': 'My Neptune subnet group',
        'SubnetIds': subnet_ids,
        'Tags': [{'Key': 'Environment', 'Value': 'Dev'}]
    }

    try:
        response = neptune_client.create_db_subnet_group(**request)
        sg = response.get("DBSubnetGroup", {})
        name = sg.get("DBSubnetGroupName")
        arn = sg.get("DBSubnetGroupArn")

        if not name or not arn:
            raise RuntimeError("Response missing subnet group name or ARN.")

        print(f"Subnet group created: {name}")
        print(f"ARN: {arn}")
        return name, arn

    except ClientError as e:
        code = e.response["Error"]["Code"]
        msg = e.response["Error"]["Message"]

        if code == "ServiceQuotaExceededException":
            print("Subnet group quota exceeded.")
            raise RuntimeError("Subnet group quota exceeded.") from e
        else:
            print(f"AWS error [{code}]: {msg}")
            raise RuntimeError(f"AWS error [{code}]: {msg}") from e

    except Exception as e:
        print(f"Unexpected error creating subnet group '{group_name}': {e}")
        raise RuntimeError(f"Unexpected error creating subnet group '{group_name}': {e}") from e
```
+  Untuk detail API, lihat [Membuat DBSubnet Grup](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/CreateDBSubnetGroup) di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateGraph`
<a name="neptune_CreateGraph_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGraph`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
"""
Running this example.

----------------------------------------------------------------------------------
VPC Networking Requirement:
----------------------------------------------------------------------------------
Amazon Neptune must be accessed from **within the same VPC** as the Neptune cluster.
It does not expose a public endpoint, so this code must be executed from:

  - An **AWS Lambda function** configured to run inside the same VPC
  - An **EC2 instance** or **ECS task** running in the same VPC
  - A connected environment such as a **VPN**, **AWS Direct Connect**, or a **peered VPC**

"""

GRAPH_NAME = "sample-analytics-graph"

def main():
    config = Config(retries={"total_max_attempts": 1, "mode": "standard"}, read_timeout=None)
    client = boto3.client("neptune-graph", config=config)
    execute_create_graph(client, GRAPH_NAME)

def execute_create_graph(client, graph_name):
    try:
        print("Creating Neptune graph...")
        response = client.create_graph(
            graphName=graph_name,
            provisionedMemory = 16
        )

        created_graph_name = response.get("name")
        graph_arn = response.get("arn")
        graph_endpoint = response.get("endpoint")

        print("Graph created successfully!")
        print(f"Graph Name: {created_graph_name}")
        print(f"Graph ARN: {graph_arn}")
        print(f"Graph Endpoint: {graph_endpoint}")

    except ClientError as e:
        print(f"Failed to create graph: {e.response['Error']['Message']}")
    except BotoCoreError as e:
        print(f"Failed to create graph: {str(e)}")
    except Exception as e:
        print(f"Unexpected error: {str(e)}")

if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [CreateGraph](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/CreateGraph)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDBCluster`
<a name="neptune_DeleteDBCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def delete_db_cluster(neptune_client, cluster_id: str):
    """
    Deletes a Neptune DB cluster and throws exceptions to the caller.

    Args:
        neptune_client (boto3.client): The Neptune client object.
        cluster_id (str): The ID of the Neptune DB cluster to be deleted.

    Raises:
        ClientError: If the delete operation fails.
    """
    request = {
        'DBClusterIdentifier': cluster_id,
        'SkipFinalSnapshot': True
    }

    try:
        print(f"Deleting DB Cluster: {cluster_id}")
        neptune_client.delete_db_cluster(**request)

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "DBClusterNotFoundFault":
            print(f"Cluster '{cluster_id}' not found or already deleted.")
        elif code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't delete DB cluster. {code}: {message}")
        raise
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DeleteDBCluster) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDBInstance`
<a name="neptune_DeleteDBInstance_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def delete_db_instance(neptune_client, instance_id: str):
    """
    Deletes a Neptune DB instance and waits for its deletion to complete.
    Raises exception to be handled by calling code.
    """
    print(f"Initiating deletion of DB Instance: {instance_id}")
    try:
        neptune_client.delete_db_instance(
            DBInstanceIdentifier=instance_id,
            SkipFinalSnapshot=True
        )

        print(f"Waiting for DB Instance '{instance_id}' to be deleted...")
        waiter = neptune_client.get_waiter('db_instance_deleted')
        waiter.wait(
            DBInstanceIdentifier=instance_id,
            WaiterConfig={
                'Delay': 30,
                'MaxAttempts': 40
            }
        )

        print(f"DB Instance '{instance_id}' successfully deleted.")

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "DBInstanceNotFoundFault":
            print(f"Instance '{instance_id}' not found or already deleted.")
        elif code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't delete DB instance. {code}: {message}")
        raise
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DeleteDBInstance) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDBSubnetGroup`
<a name="neptune_DeleteDBSubnetGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBSubnetGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def delete_db_subnet_group(neptune_client, subnet_group_name):
    """
    Deletes a Neptune DB subnet group synchronously using Boto3.

    Args:
        neptune_client (boto3.client): The Neptune client.
        subnet_group_name (str): The name of the DB subnet group to delete.

    Raises:
        ClientError: If the delete operation fails.
    """
    delete_group_request = {
        'DBSubnetGroupName': subnet_group_name
    }

    try:
        neptune_client.delete_db_subnet_group(**delete_group_request)
        print(f"️ Deleting Subnet Group: {subnet_group_name}")

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "DBSubnetGroupNotFoundFault":
            print(f"Subnet group '{subnet_group_name}' not found or already deleted.")
        elif code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't delete subnet group. {code}: {message}")
        raise
```
+  Untuk detail API, lihat [Menghapus DBSubnet Grup](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DeleteDBSubnetGroup) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBClusters`
<a name="neptune_DescribeDBClusters_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def describe_db_clusters(neptune_client, cluster_id: str):
    """
    Describes details of a Neptune DB cluster, paginating if needed.

    Args:
        neptune_client (boto3.client): The Neptune client.
        cluster_id (str): The ID of the cluster to describe.

    Raises:
        ClientError: If there's an AWS API error (e.g., cluster not found).
    """
    paginator = neptune_client.get_paginator('describe_db_clusters')

    try:
        pages = paginator.paginate(DBClusterIdentifier=cluster_id)

        found = False
        for page in pages:
            for cluster in page.get('DBClusters', []):
                found = True
                print(f"Cluster Identifier: {cluster.get('DBClusterIdentifier')}")
                print(f"Status: {cluster.get('Status')}")
                print(f"Engine: {cluster.get('Engine')}")
                print(f"Engine Version: {cluster.get('EngineVersion')}")
                print(f"Endpoint: {cluster.get('Endpoint')}")
                print(f"Reader Endpoint: {cluster.get('ReaderEndpoint')}")
                print(f"Availability Zones: {cluster.get('AvailabilityZones')}")
                print(f"Subnet Group: {cluster.get('DBSubnetGroup')}")
                print("VPC Security Groups:")
                for vpc_group in cluster.get('VpcSecurityGroups', []):
                    print(f"  - {vpc_group.get('VpcSecurityGroupId')}")
                print(f"Storage Encrypted: {cluster.get('StorageEncrypted')}")
                print(f"IAM Auth Enabled: {cluster.get('IAMDatabaseAuthenticationEnabled')}")
                print(f"Backup Retention Period: {cluster.get('BackupRetentionPeriod')} days")
                print(f"Preferred Backup Window: {cluster.get('PreferredBackupWindow')}")
                print(f"Preferred Maintenance Window: {cluster.get('PreferredMaintenanceWindow')}")
                print("------")

        if not found:
            # Treat empty response as cluster not found
            raise ClientError(
                {"Error": {"Code": "DBClusterNotFound", "Message": f"No cluster found with ID '{cluster_id}'"}},
                "DescribeDBClusters"
            )

    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        elif code == "DBClusterNotFound":
            print(f"Cluster '{cluster_id}' not found. Please verify the cluster ID.")
        else:
            print(f"Couldn't describe DB cluster. Here's why: {code}: {message}")
        raise
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DescribeDBClusters) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBInstances`
<a name="neptune_DescribeDBInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def check_instance_status(neptune_client, instance_id: str, desired_status: str):
    """
    Polls the status of a Neptune DB instance until it reaches desired_status.
    Uses pagination via describe_db_instances — even for a single instance.

    Raises:
      ClientError: If describe_db_instances fails (e.g., instance not found).
      RuntimeError: If timeout expires before reaching desired status.
    """
    paginator = neptune_client.get_paginator('describe_db_instances')
    start_time = time.time()

    while True:
        try:
            pages = paginator.paginate(DBInstanceIdentifier=instance_id)
            instances = []
            for page in pages:
                instances.extend(page.get('DBInstances', []))

        except ClientError as err:
            code = err.response["Error"]["Code"]
            message = err.response["Error"]["Message"]

            if code == "DBInstanceNotFound":
                print(f"Instance '{instance_id}' not found. Please verify the instance ID.")
            else:
                print(f"Failed to describe DB instance. {code}: {message}")
            raise

        current_status = instances[0].get('DBInstanceStatus') if instances else None
        elapsed = int(time.time() - start_time)

        print(f"\rElapsed: {format_elapsed_time(elapsed)}  Status: {current_status}", end="", flush=True)

        if current_status and current_status.lower() == desired_status.lower():
            print(f"\nInstance '{instance_id}' reached '{desired_status}' in {format_elapsed_time(elapsed)}.")
            return

        if elapsed > TIMEOUT_SECONDS:
            raise RuntimeError(f"Timeout waiting for '{instance_id}' to reach '{desired_status}'")

        time.sleep(POLL_INTERVAL_SECONDS)
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/DescribeDBInstances) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `ExecuteGremlinProfileQuery`
<a name="neptune_ExecuteGremlinProfileQuery_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteGremlinProfileQuery`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
# Replace this with your actual Neptune endpoint
NEPTUNE_ENDPOINT = "https://[Specify Endpoint]:8182"

def main():
    """
    Entry point of the program. Initializes the Neptune client and executes the Gremlin query.
    """
    config = Config(connect_timeout=10, read_timeout=30, retries={'max_attempts': 3})

    neptune_client = boto3.client(
        "neptunedata",
        endpoint_url=NEPTUNE_ENDPOINT,
        config=config
    )

    execute_gremlin_query(neptune_client)


def execute_gremlin_query(neptune_client):
    """
    Executes a Gremlin query against an Amazon Neptune database.
    """
    try:
        print("Querying Neptune...")

        response = neptune_client.execute_gremlin_explain_query(
            gremlinQuery="g.V().has('code', 'ANC')"
        )

        print("Full Response:")
        print(response['output'].read().decode('UTF-8'))

    except ClientError as e:
        print(f"Error calling Neptune: {e.response['Error']['Message']}")
    except BotoCoreError as e:
        print(f"BotoCore error: {str(e)}")
    except Exception as e:
        print(f"Unexpected error: {str(e)}")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [ExecuteGremlinProfileQuery](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/ExecuteGremlinProfileQuery)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ExecuteGremlinQuery`
<a name="neptune_ExecuteGremlinQuery_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteGremlinQuery`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
"""
Running this example.

----------------------------------------------------------------------------------
VPC Networking Requirement:
----------------------------------------------------------------------------------
Amazon Neptune must be accessed from **within the same VPC** as the Neptune cluster.
It does not expose a public endpoint, so this code must be executed from:

  - An **AWS Lambda function** configured to run inside the same VPC
  - An **EC2 instance** or **ECS task** running in the same VPC
  - A connected environment such as a **VPN**, **AWS Direct Connect**, or a **peered VPC**

"""

# Replace with your actual Neptune endpoint
NEPTUNE_ENDPOINT = "https://[Specify-Your-Endpoint]:8182"

def main():
    """
    Entry point of the program. Initializes the Neptune client and runs both EXPLAIN and PROFILE queries.
    """
    config = Config(connect_timeout=10, read_timeout=30, retries={'max_attempts': 3})

    neptune_client = boto3.client(
        "neptunedata",
        endpoint_url=NEPTUNE_ENDPOINT,
        config=config
    )

    try:
        run_profile_query(neptune_client)
    except ClientError as e:
        print(f"Neptune error: {e.response['Error']['Message']}")
    except BotoCoreError as e:
        print(f"BotoCore error: {str(e)}")
    except Exception as e:
        print(f"Unexpected error: {str(e)}")

def run_profile_query(neptune_client):
    """
    Runs a PROFILE query on the Neptune graph database.
    """
    print("Running Gremlin PROFILE query...")

    try:
        response = neptune_client.execute_gremlin_profile_query(
            gremlinQuery="g.V().has('code', 'ANC')"
        )
        print("Profile Query Result:")
        output = response.get("output")
        if output:
            print(output.read().decode('utf-8'))
        else:
            print("No explain output returned.")
    except Exception as e:
        print(f"Failed to execute PROFILE query: {str(e)}")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [ExecuteGremlinQuery](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/ExecuteGremlinQuery)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ExecuteOpenCypherExplainQuery`
<a name="neptune_ExecuteOpenCypherExplainQuery_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteOpenCypherExplainQuery`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
# Replace with your actual Neptune endpoint URL
NEPTUNE_ENDPOINT = "https://<your-neptune-endpoint>:8182"

def main():
    """
    Entry point: Create Neptune client and execute different OpenCypher queries.
    """
    config = Config(connect_timeout=10, read_timeout=30, retries={'max_attempts': 3})

    neptune_client = boto3.client(
        "neptunedata",
        endpoint_url=NEPTUNE_ENDPOINT,
        config=config
    )

    execute_open_cypher_query_without_params(neptune_client)
    execute_open_cypher_query_with_params(neptune_client)
    execute_open_cypher_explain_query(neptune_client)

def execute_open_cypher_query_without_params(client):
    """
    Executes a simple OpenCypher query without parameters.
    """
    try:
        print("\nRunning OpenCypher query without parameters...")
        resp = client.execute_open_cypher_query(
            openCypherQuery="MATCH (n {code: 'ANC'}) RETURN n"
        )
        print("Results:")
        print(resp['results'])

    except Exception as e:
        print(f"Error in simple OpenCypher query: {str(e)}")


def execute_open_cypher_query_with_params(client):
    """
    Executes an OpenCypher query using parameters.
    """
    try:
        print("\nRunning OpenCypher query with parameters...")
        parameters = {'code': 'ANC'}
        resp = client.execute_open_cypher_query(
            openCypherQuery="MATCH (n {code: $code}) RETURN n",
            parameters=json.dumps(parameters)
        )
        print("Results:")
        print(resp['results'])

    except Exception as e:
        print(f"Error in parameterized OpenCypher query: {str(e)}")

def execute_open_cypher_explain_query(client):
    """
    Runs an OpenCypher EXPLAIN query in debug mode.
    """
    try:
        print("\nRunning OpenCypher EXPLAIN query (debug mode)...")
        resp = client.execute_open_cypher_explain_query(
            openCypherQuery="MATCH (n {code: 'ANC'}) RETURN n",
            explainMode="details"
        )
        results = resp.get('results')
        if results is None:
            print("No explain results returned.")
        else:
            try:
                print("Explain Results:")
                print(results.read().decode('UTF-8'))
            except Exception as e:
                print(f"Error in OpenCypher EXPLAIN query: {str(e)}")

    except ClientError as e:
        print(f"Neptune error: {e.response['Error']['Message']}")
    except BotoCoreError as e:
        print(f"BotoCore error: {str(e)}")
    except Exception as e:
        print(f"Unexpected error: {str(e)}")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [ExecuteOpenCypherExplainQuery](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/ExecuteOpenCypherExplainQuery)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ExecuteQuery`
<a name="neptune_ExecuteQuery_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteQuery`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
"""
Running this example.

----------------------------------------------------------------------------------
VPC Networking Requirement:
----------------------------------------------------------------------------------
Amazon Neptune must be accessed from **within the same VPC** as the Neptune cluster.
It does not expose a public endpoint, so this code must be executed from:

  - An **AWS Lambda function** configured to run inside the same VPC
  - An **EC2 instance** or **ECS task** running in the same VPC
  - A connected environment such as a **VPN**, **AWS Direct Connect**, or a **peered VPC**
"""

GRAPH_ID = "<your-graph-id>"

def main():
    config = Config(retries={"total_max_attempts": 1, "mode": "standard"}, read_timeout=None)
    client = boto3.client("neptune-graph", config=config)

    try:
        print("\n--- Running OpenCypher query without parameters ---")
        run_open_cypher_query(client, GRAPH_ID)

        print("\n--- Running OpenCypher query with parameters ---")
        run_open_cypher_query_with_params(client, GRAPH_ID)

        print("\n--- Running OpenCypher explain query ---")
        run_open_cypher_explain_query(client, GRAPH_ID)

    except Exception as e:
        print(f"Unexpected error in main: {e}")

def run_open_cypher_query(client, graph_id):
    """
    Run an OpenCypher query without parameters.
    """
    try:
        resp = client.execute_query(
            graphIdentifier=graph_id,
            queryString="MATCH (n {code: 'ANC'}) RETURN n",
            language='OPEN_CYPHER'
        )
        print(resp['payload'].read().decode('UTF-8'))

    except client.exceptions.InternalServerException as e:
        print(f"InternalServerException: {e.response['Error']['Message']}")
    except ClientError as e:
        print(f"ClientError: {e.response['Error']['Message']}")
    except Exception as e:  # <--- ADD THIS BLOCK
        print(f"Unexpected error: {e}")

def run_open_cypher_query_with_params(client, graph_id):
    """
    Run an OpenCypher query with parameters.
    """
    try:
        parameters = {'code': 'ANC'}
        resp = client.execute_query(
            graphIdentifier=graph_id,
            queryString="MATCH (n {code: $code}) RETURN n",
            language='OPEN_CYPHER',
            parameters=parameters
        )
        print(resp['payload'].read().decode('UTF-8'))

    except client.exceptions.InternalServerException as e:
        print(f"InternalServerException: {e.response['Error']['Message']}")
    except ClientError as e:
        print(f"ClientError: {e.response['Error']['Message']}")
    except Exception as e:  # <--- ADD THIS BLOCK
        print(f"Unexpected error: {e}")

def run_open_cypher_explain_query(client, graph_id):
    """
    Run an OpenCypher explain query (explainMode = "debug").
    """
    try:
        resp = client.execute_query(
            graphIdentifier=graph_id,
            queryString="MATCH (n {code: 'ANC'}) RETURN n",
            language='OPEN_CYPHER',
            explainMode='DETAILS'
        )
        print(resp['payload'].read().decode('UTF-8'))

    except ClientError as e:
        print(f"Neptune error: {e.response['Error']['Message']}")
    except BotoCoreError as e:
        print(f"Unexpected Boto3 error: {str(e)}")
    except Exception as e:  # <-- Add this generic catch
        print(f"Unexpected error: {str(e)}")

if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [ExecuteQuery](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/ExecuteQuery)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartDBCluster`
<a name="neptune_StartDBCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDBCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def start_db_cluster(neptune_client, cluster_identifier: str):
    """
    Starts an Amazon Neptune DB cluster and waits until it reaches 'available'.

    Args:
        neptune_client (boto3.client): The Neptune client.
        cluster_identifier (str): The DB cluster identifier.

    Raises:
        ClientError: Propagates AWS API issues like resource not found.
        RuntimeError: If cluster doesn't reach 'available' within timeout.
    """
    try:
        # Initial wait in case the cluster was just stopped
        time.sleep(30)
        neptune_client.start_db_cluster(DBClusterIdentifier=cluster_identifier)
    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't start DB cluster. Here's why: {code}: {message}")
        raise

    start_time = time.time()
    paginator = neptune_client.get_paginator('describe_db_clusters')

    while True:
        try:
            pages = paginator.paginate(DBClusterIdentifier=cluster_identifier)
            clusters = []
            for page in pages:
                clusters.extend(page.get('DBClusters', []))
        except ClientError as err:
            code = err.response["Error"]["Code"]
            message = err.response["Error"]["Message"]

            if code == "DBClusterNotFound":
                print(f"Cluster '{cluster_identifier}' not found while polling. It may have been deleted.")
            else:
                print(f"Couldn't describe DB cluster. Here's why: {code}: {message}")
            raise

        status = clusters[0].get('Status') if clusters else None
        elapsed = time.time() - start_time

        print(f"\rElapsed: {int(elapsed)}s – Cluster status: {status}", end="", flush=True)

        if status and status.lower() == 'available':
            print(f"\n🎉 Cluster '{cluster_identifier}' is available.")
            return

        if elapsed > TIMEOUT_SECONDS:
            raise RuntimeError(f"Timeout waiting for cluster '{cluster_identifier}' to become available.")

        time.sleep(POLL_INTERVAL_SECONDS)
```
+  Untuk detail API, lihat [Mulai DBCluster](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/StartDBCluster) di *AWS SDK for Python (Boto3) Referensi* API. 

### `StopDBCluster`
<a name="neptune_StopDBCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopDBCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/neptune#code-examples). 

```
def stop_db_cluster(neptune_client, cluster_identifier: str):
    """
    Stops an Amazon Neptune DB cluster and waits until it's fully stopped.

    Args:
        neptune_client (boto3.client): The Neptune client.
        cluster_identifier (str): The DB cluster identifier.

    Raises:
        ClientError: For AWS API errors (e.g., resource not found).
        RuntimeError: If the cluster doesn't stop within the timeout.
    """
    try:
        neptune_client.stop_db_cluster(DBClusterIdentifier=cluster_identifier)
    except ClientError as err:
        code = err.response["Error"]["Code"]
        message = err.response["Error"]["Message"]

        if code == "AccessDeniedException":
            print("Access denied. Please ensure you have the necessary permissions.")
        else:
            print(f"Couldn't stop DB cluster. Here's why: {code}: {message}")
        raise

    start_time = time.time()
    paginator = neptune_client.get_paginator('describe_db_clusters')

    while True:
        try:
            pages = paginator.paginate(DBClusterIdentifier=cluster_identifier)
            clusters = []
            for page in pages:
                clusters.extend(page.get('DBClusters', []))
        except ClientError as err:
            code = err.response["Error"]["Code"]
            message = err.response["Error"]["Message"]

            if code == "DBClusterNotFound":
                print(f"Cluster '{cluster_identifier}' not found while polling. It may have been deleted.")
            else:
                print(f"Couldn't describe DB cluster. Here's why: {code}: {message}")
            raise

        status = clusters[0].get('Status') if clusters else None
        elapsed = time.time() - start_time

        print(f"\rElapsed: {int(elapsed)}s – Cluster status: {status}", end="", flush=True)

        if status and status.lower() == 'stopped':
            print(f"\nCluster '{cluster_identifier}' is now stopped.")
            return

        if elapsed > TIMEOUT_SECONDS:
            raise RuntimeError(f"Timeout waiting for cluster '{cluster_identifier}' to stop.")

        time.sleep(POLL_INTERVAL_SECONDS)
```
+  Untuk detail API, lihat [Stop DBCluster](https://docs.aws.amazon.com/goto/boto3/neptune-2014-10-31/StopDBCluster) in *AWS SDK for Python (Boto3) Referensi* API. 

# Organizations contoh menggunakan SDK for Python (Boto3)
<a name="python_3_organizations_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Organizations.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AttachPolicy`
<a name="organizations_AttachPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/organizations#code-examples). 

```
def attach_policy(policy_id, target_id, orgs_client):
    """
    Attaches a policy to a target. The target is an organization root, account, or
    organizational unit.

    :param policy_id: The ID of the policy to attach.
    :param target_id: The ID of the resources to attach the policy to.
    :param orgs_client: The Boto3 Organizations client.
    """
    try:
        orgs_client.attach_policy(PolicyId=policy_id, TargetId=target_id)
        logger.info("Attached policy %s to target %s.", policy_id, target_id)
    except ClientError:
        logger.exception(
            "Couldn't attach policy %s to target %s.", policy_id, target_id
        )
        raise
```
+  Untuk detail API, lihat [AttachPolicy](https://docs.aws.amazon.com/goto/boto3/organizations-2016-11-28/AttachPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreatePolicy`
<a name="organizations_CreatePolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/organizations#code-examples). 

```
def create_policy(name, description, content, policy_type, orgs_client):
    """
    Creates a policy.

    :param name: The name of the policy.
    :param description: The description of the policy.
    :param content: The policy content as a dict. This is converted to JSON before
                    it is sent to AWS. The specific format depends on the policy type.
    :param policy_type: The type of the policy.
    :param orgs_client: The Boto3 Organizations client.
    :return: The newly created policy.
    """
    try:
        response = orgs_client.create_policy(
            Name=name,
            Description=description,
            Content=json.dumps(content),
            Type=policy_type,
        )
        policy = response["Policy"]
        logger.info("Created policy %s.", name)
    except ClientError:
        logger.exception("Couldn't create policy %s.", name)
        raise
    else:
        return policy
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/boto3/organizations-2016-11-28/CreatePolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeletePolicy`
<a name="organizations_DeletePolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/organizations#code-examples). 

```
def delete_policy(policy_id, orgs_client):
    """
    Deletes a policy.

    :param policy_id: The ID of the policy to delete.
    :param orgs_client: The Boto3 Organizations client.
    """
    try:
        orgs_client.delete_policy(PolicyId=policy_id)
        logger.info("Deleted policy %s.", policy_id)
    except ClientError:
        logger.exception("Couldn't delete policy %s.", policy_id)
        raise
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/goto/boto3/organizations-2016-11-28/DeletePolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribePolicy`
<a name="organizations_DescribePolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribePolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/organizations#code-examples). 

```
def describe_policy(policy_id, orgs_client):
    """
    Describes a policy.

    :param policy_id: The ID of the policy to describe.
    :param orgs_client: The Boto3 Organizations client.
    :return: The description of the policy.
    """
    try:
        response = orgs_client.describe_policy(PolicyId=policy_id)
        policy = response["Policy"]
        logger.info("Got policy %s.", policy_id)
    except ClientError:
        logger.exception("Couldn't get policy %s.", policy_id)
        raise
    else:
        return policy
```
+  Untuk detail API, lihat [DescribePolicy](https://docs.aws.amazon.com/goto/boto3/organizations-2016-11-28/DescribePolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetachPolicy`
<a name="organizations_DetachPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/organizations#code-examples). 

```
def detach_policy(policy_id, target_id, orgs_client):
    """
    Detaches a policy from a target.

    :param policy_id: The ID of the policy to detach.
    :param target_id: The ID of the resource where the policy is currently attached.
    :param orgs_client: The Boto3 Organizations client.
    """
    try:
        orgs_client.detach_policy(PolicyId=policy_id, TargetId=target_id)
        logger.info("Detached policy %s from target %s.", policy_id, target_id)
    except ClientError:
        logger.exception(
            "Couldn't detach policy %s from target %s.", policy_id, target_id
        )
        raise
```
+  Untuk detail API, lihat [DetachPolicy](https://docs.aws.amazon.com/goto/boto3/organizations-2016-11-28/DetachPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListPolicies`
<a name="organizations_ListPolicies_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/organizations#code-examples). 

```
def list_policies(policy_filter, orgs_client):
    """
    Lists the policies for the account, limited to the specified filter.

    :param policy_filter: The kind of policies to return.
    :param orgs_client: The Boto3 Organizations client.
    :return: The list of policies found.
    """
    try:
        response = orgs_client.list_policies(Filter=policy_filter)
        policies = response["Policies"]
        logger.info("Found %s %s policies.", len(policies), policy_filter)
    except ClientError:
        logger.exception("Couldn't get %s policies.", policy_filter)
        raise
    else:
        return policies
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/boto3/organizations-2016-11-28/ListPolicies)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Partner Central menggunakan SDK for Python (Boto3)
<a name="python_3_partnercentral-selling_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Pusat Mitra AWS SDK untuk Python (Boto3) dengan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AssignOpportunity`
<a name="partnercentral-selling_AssignOpportunity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssignOpportunity`.

**SDK untuk Python (Boto3)**  
Tetapkan kembali Peluang yang ada ke pengguna lain.  

```
#!/usr/bin/env python

"""
Purpose
PC-API-07 Assigning a new owner
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def assign_opportunity(identifier):
    assign_opportunity_request ={
        "Catalog": CATALOG_TO_USE,
	    "Identifier": identifier,
        "Assignee": { 
            "BusinessTitle": "OpportunityOwner",
            "Email": "test@test.com",
            "FirstName": "John",
            "LastName": "Doe"
        }
    }
    try:
        # Perform an API call
        response = partner_central_client.assign_opportunity(**assign_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def usage_demo():
    identifier = "O4236468"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Assigning a new owner to an opportunity.")
    print("-" * 88)

    helper.pretty_print_datetime(assign_opportunity(identifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [AssignOpportunity](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/AssignOpportunity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AssociateOpportunity`
<a name="partnercentral-selling_AssociateOpportunity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateOpportunity`.

**SDK untuk Python (Boto3)**  
Buat hubungan formal antara Peluang dan berbagai entitas terkait.  

```
#!/usr/bin/env python

"""
Purpose
PC-API -11 Associating a product
PC-API -12 Associating a solution
PC-API -13 Associating an offer
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def associate_opportunity(entity_type, entity_identifier, opportunityIdentifier):
    associate_opportunity_request ={
        "Catalog": CATALOG_TO_USE,
	    "OpportunityIdentifier" : opportunityIdentifier, 
        "RelatedEntityType" : entity_type, 
        "RelatedEntityIdentifier" : entity_identifier 
    }
    try:
        # Perform an API call
        response = partner_central_client.associate_opportunity(**associate_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def usage_demo():
    #entity_type = Solutions | AWSProducts | AWSMarketplaceOffers 
    entity_type = "Solutions"
    entity_identifier = "S-0059717"
    opportunityIdentifier = "O5465588"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Associate Opportunity.")
    print("-" * 88)

    helper.pretty_print_datetime(associate_opportunity(entity_type, entity_identifier, opportunityIdentifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [AssociateOpportunity](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/AssociateOpportunity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateOpportunity`
<a name="partnercentral-selling_CreateOpportunity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOpportunity`.

**SDK untuk Python (Boto3)**  
Ciptakan peluang.  

```
#!/usr/bin/env python
import boto3
import logging
import sys
import os
sys.path.append(os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
import utils.helpers as helper
import utils.stringify_details as sd
from botocore.client import ClientError
from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

def create_opportunity(partner_central_client):
    create_opportunity_request = helper.remove_nulls(sd.stringify_json("src/create_opportunity/createOpportunity.json"))
    try:
        # Perform an API call
        response = partner_central_client.create_opportunity(**create_opportunity_request)
        
        helper.pretty_print_datetime(response)

        # Retrieve the opportunity details
        get_response = partner_central_client.get_opportunity(
            Identifier=response["Id"],
            Catalog=CATALOG_TO_USE
        )
        helper.pretty_print_datetime(get_response)
        return response
    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Create Opportunity.")
    print("-" * 88)

    partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
    )

    create_opportunity(partner_central_client)

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [CreateOpportunity](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/CreateOpportunity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DisassociateOpportunity`
<a name="partnercentral-selling_DisassociateOpportunity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateOpportunity`.

**SDK untuk Python (Boto3)**  
Hapus asosiasi yang ada antara Peluang dan entitas terkait.  

```
#!/usr/bin/env python

"""
Purpose
PC-API -14 Removing a Solution
PC-API -15 Removing an offer
PC-API -16 Removing a product
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def disassociate_opportunity(entity_type, entity_identifier, opportunityIdentifier):
    disassociate_opportunity_request ={
        "Catalog": CATALOG_TO_USE,
	    "OpportunityIdentifier" : opportunityIdentifier, 
        "RelatedEntityType" : entity_type, 
        "RelatedEntityIdentifier" : entity_identifier 
    }
    try:
        # Perform an API call
        response = partner_central_client.disassociate_opportunity(**disassociate_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def usage_demo():
    #entity_type = Solutions | AWSProducts | AWSMarketplaceOffers 
    entity_type = "Solutions"
    entity_identifier = "S-0049999"
    opportunityIdentifier = "O4397574"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Get updated Opportunity.")
    print("-" * 88)

    helper.pretty_print_datetime(disassociate_opportunity(entity_type, entity_identifier, opportunityIdentifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [DisassociateOpportunity](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/DisassociateOpportunity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetAwsOpportunitySummary`
<a name="partnercentral-selling_GetAwsOpportunitySummary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAwsOpportunitySummary`.

**SDK untuk Python (Boto3)**  
Mengambil ringkasan dari AWS Peluang.  

```
#!/usr/bin/env python

"""
Purpose
PC-API-25 Retrieves a summary of an AWS Opportunity. LifeCycle.ReviewStatus=Approved
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def get_opportunity(identifier):
    get_opportunity_request ={
        "Catalog": CATALOG_TO_USE,
	    "RelatedOpportunityIdentifier": identifier
    }
    try:
        # Perform an API call
        response = partner_central_client.get_aws_opportunity_summary(**get_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def usage_demo():
    identifier = "O5465588"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Get AWS Opportunity summary.")
    print("-" * 88)

    helper.pretty_print_datetime(get_opportunity(identifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetAwsOpportunitySummary](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/GetAwsOpportunitySummary)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetEngagementInvitation`
<a name="partnercentral-selling_GetEngagementInvitation_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetEngagementInvitation`.

**SDK untuk Python (Boto3)**  
Mengambil detail undangan pertunangan yang dibagikan AWS dengan pasangan.  

```
#!/usr/bin/env python

"""
Purpose
PC-API-22  GetOpportunityEngagementInvitation - Retrieves details of a specific engagement invitation. 
This operation allows partners to view the invitation and its associated information, 
such as the customer, project, and lifecycle details.
"""
import json
import logging
import boto3
import utils.helpers as helper

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def get_opportunity_engagement_invitation(identifier):
    get_opportunity_engagement_invitation_request ={
        "Catalog": CATALOG_TO_USE,
	    "Identifier": identifier
    }
    try:
        # Perform an API call
        response = partner_central_client.get_engagement_invitation(**get_opportunity_engagement_invitation_request)
        return response

    except Exception as err:
        # Catch all client exceptions
        print(json.dumps(err.response))

def usage_demo():
    identifier = "arn:aws:partnercentral-selling:us-east-1:aws:catalog/Sandbox/engagement-invitation/engi-0000000IS0Qga"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Given the ARN identifier, retrieve details of Opportunity Engagement Invitation.")
    print("-" * 88)

    helper.pretty_print_datetime(get_opportunity_engagement_invitation(identifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetEngagementInvitation](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/GetEngagementInvitation)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetOpportunity`
<a name="partnercentral-selling_GetOpportunity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetOpportunity`.

**SDK untuk Python (Boto3)**  
Dapatkan kesempatan.  

```
#!/usr/bin/env python

"""
Purpose
PC-API -08 Get updated Opportunity given opportunity id
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def get_opportunity(identifier):
    get_opportunity_request ={
        "Catalog": CATALOG_TO_USE,
	    "Identifier": identifier
    }
    try:
        # Perform an API call
        response = partner_central_client.get_opportunity(**get_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def usage_demo():
    identifier = "O5465588"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Get updated Opportunity.")
    print("-" * 88)

    helper.pretty_print_datetime(get_opportunity(identifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [GetOpportunity](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/GetOpportunity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListEngagementInvitations`
<a name="partnercentral-selling_ListEngagementInvitations_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEngagementInvitations`.

**SDK untuk Python (Boto3)**  
Mengambil daftar undangan keterlibatan yang dikirim ke mitra.  

```
#!/usr/bin/env python

"""
Purpose
PC-API-21 ListEngagementInvitations - Retrieves a list of engagement invitations based on specified criteria. 
This operation allows partners to view all invitations to engagement.
"""
import json
import logging
import boto3
import utils.helpers as helper

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def list_engagement_invitations():
    list_engagement_invitations_request ={
        "Catalog": CATALOG_TO_USE,
        "MaxResults": 20
    }
    try:
        # Perform an API call
        response = partner_central_client.list_engagement_invitations(**list_engagement_invitations_request)
        return response

    except Exception as err:
        # Catch all client exceptions
        print(json.dumps(err.response))

def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Retrieve list of Engagement Invitations.")
    print("-" * 88)

    helper.pretty_print_datetime(list_engagement_invitations())

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [ListEngagementInvitations](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/ListEngagementInvitations)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListOpportunities`
<a name="partnercentral-selling_ListOpportunities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOpportunities`.

**SDK untuk Python (Boto3)**  
Daftar peluang.  

```
#!/usr/bin/env python

"""
Purpose
PC-API -18 Getting list of Opportunities
"""
import json
import logging
import boto3
import utils.helpers as helper

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def get_list_of_opportunities():

    opportunity_list = []

    list_opportunities_request ={
        "Catalog": CATALOG_TO_USE,
	    "MaxResults": 20
    }
    try:
        # Perform an API call
        response = partner_central_client.list_opportunities(**list_opportunities_request)
        opportunity_list.extend(response["OpportunitySummaries"])

        while "NextToken" in response and response["NextToken"] is not None:
            list_opportunities_request["NextToken"] = response["NextToken"]
            response = partner_central_client.list_opportunities(**list_opportunities_request)
            opportunity_list.extend(response["OpportunitySummaries"])

        return opportunity_list

    except Exception as err:
        # Catch all client exceptions
        print(json.dumps(err.response))

def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Getting list of Opportunities.")
    print("-" * 88)

    helper.pretty_print_datetime(get_list_of_opportunities())

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [ListOpportunities](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/ListOpportunities)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListSolutions`
<a name="partnercentral-selling_ListSolutions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSolutions`.

**SDK untuk Python (Boto3)**  
Mengambil daftar Solusi Mitra yang didaftarkan mitra di Partner Central.  

```
#!/usr/bin/env python

"""
Purpose
PC-API-10 Getting list of solutions
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def get_list_of_solutions():
    list_solutions_request ={
        "Catalog": CATALOG_TO_USE,
	    "MaxResults": 20
    }
    try:
        # Perform an API call
        response = partner_central_client.list_solutions(**list_solutions_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Getting list of solutions.")
    print("-" * 88)

    helper.pretty_print_datetime(get_list_of_solutions())

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [ListSolutions](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/ListSolutions)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RejectEngagementInvitation`
<a name="partnercentral-selling_RejectEngagementInvitation_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RejectEngagementInvitation`.

**SDK untuk Python (Boto3)**  
Menolak EngagementInvitation yang AWS dibagikan.  

```
#!/usr/bin/env python

"""
Purpose
PC-API-05 AWS Originated AO rejection - RejectOpportunityEngagementInvitation - Rejects a engagement invitation. 
This action indicates that the partner does not wish to participate in the engagement and 
provides a reason for the rejection.
Upon rejection, a OpportunityEngagementInvitationRejected event is triggered. 
Subsequently, the invitation will no longer be available for the partner to act on.
"""
import json
import logging
import boto3
import utils.helpers as helper

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def reject_opportunity_engagement_invitation(identifier, reject_reason):
    reject_opportunity_engagement_invitation_request ={
        "Catalog": CATALOG_TO_USE,
	    "Identifier": identifier,
        "RejectionReason": reject_reason
    }
    try:
        # Perform an API call
        response = partner_central_client.reject_engagement_invitation(**reject_opportunity_engagement_invitation_request)
        return response

    except Exception as err:
        # Catch all client exceptions
        print(json.dumps(err.response))

def usage_demo():
    identifier = "arn:aws:partnercentral:us-east-1::catalog/Sandbox/engagement-invitation/engi-0000002isviga"
    reject_reason = "Customer problem unclear"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Given the ARN identifier and reject reason, reject the Opportunity Engagement Invitation.")
    print("-" * 88)

    helper.pretty_print_datetime(reject_opportunity_engagement_invitation(identifier, reject_reason))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [RejectEngagementInvitation](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/RejectEngagementInvitation)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartEngagementByAcceptingInvitationTask`
<a name="partnercentral-selling_StartEngagementByAcceptingInvitationTask_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartEngagementByAcceptingInvitationTask`.

**SDK untuk Python (Boto3)**  
Memulai pertunangan dengan menerima EngagementInvitation.  

```
#!/usr/bin/env python

"""
Purpose
PC-API -11 Associating a product
PC-API -12 Associating a solution
PC-API -13 Associating an offer
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def get_opportunity(identifier):
    get_opportunity_request ={
	    "Identifier": identifier,
        "Catalog": CATALOG_TO_USE
    }
    try:
        # Perform an API call
        response = partner_central_client.get_engagement_invitation(**get_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def start_engagement_by_accepting_invitation_task(identifier):

    response = get_opportunity(identifier)

    if ( response['Status'] == 'PENDING') :
        accept_opportunity_engagement_invitation_request ={
            "Catalog": CATALOG_TO_USE,
	        "Identifier" : identifier,
            "ClientToken": "test-123456"
        }
        try:
            # Perform an API call
            response = partner_central_client.start_engagement_by_accepting_invitation_task(**accept_opportunity_engagement_invitation_request)
            return response

        except ClientError as err:
            # Catch all client exceptions
            print(err.response)
            return None
    else:
        return None

def usage_demo():
    identifier = "arn:aws:partnercentral:us-east-1::catalog/Sandbox/engagement-invitation/engi-0000002isusga"
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Get updated Opportunity.")
    print("-" * 88)

    helper.pretty_print_datetime(start_engagement_by_accepting_invitation_task(identifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [StartEngagementByAcceptingInvitationTask](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/StartEngagementByAcceptingInvitationTask)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartEngagementFromOpportunityTask`
<a name="partnercentral-selling_StartEngagementFromOpportunityTask_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartEngagementFromOpportunityTask`.

**SDK untuk Python (Boto3)**  
Memulai proses keterlibatan dari peluang yang ada dengan menerima undangan keterlibatan dan menciptakan peluang yang sesuai dalam sistem mitra.  

```
#!/usr/bin/env python

"""
Purpose
PC-API -11 Associating a product
PC-API -12 Associating a solution
PC-API -13 Associating an offer
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def start_engagement_from_opportunity_task(identifier):
    
    start_engagement_from_opportunity_task_request ={
            "AwsSubmission": { 
                "InvolvementType": "Co-Sell",
                "Visibility": "Full"
            },
            "Catalog": CATALOG_TO_USE,
	        "Identifier" : identifier,
            "ClientToken": "test-annjqwesdsd99"
    }
    try:
            # Perform an API call
            response = partner_central_client.start_engagement_from_opportunity_task(**start_engagement_from_opportunity_task_request)
            return response

    except ClientError as err:
            # Catch all client exceptions
            print(err.response)
            return None
   
def usage_demo():
    identifier = "O5465588"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Start Engagement from Opportunity Task.")
    print("-" * 88)

    helper.pretty_print_datetime(start_engagement_from_opportunity_task(identifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [StartEngagementFromOpportunityTask](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/StartEngagementFromOpportunityTask)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateOpportunity`
<a name="partnercentral-selling_UpdateOpportunity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateOpportunity`.

**SDK untuk Python (Boto3)**  
Perbarui peluang.  

```
#!/usr/bin/env python

"""
Purpose
PC-API-2  Updating Partner Originated Opportunity
"""
import logging
import boto3
import sys
import os
sys.path.append(os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
import utils.helpers as helper
from botocore.client import ClientError
import utils.stringify_details as sd
from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def get_opportunity(identifier):
    get_opportunity_request ={
	    "Identifier": identifier,
        "Catalog": CATALOG_TO_USE
    }
    try:
        # Perform an API call
        response = partner_central_client.get_opportunity(**get_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def update_opportunity():
    update_opportunity_request_orig = sd.stringify_json("src/update_opportunity/update_opportunity_technical_validation.json")
    update_opportunity_request = helper.remove_nulls(update_opportunity_request_orig)
    
    try:
        # Perform an API call
        response = partner_central_client.update_opportunity(**update_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def update_opportunity_if_eligible(identifier):
    response = get_opportunity(identifier)
    if response is not None:
        return update_opportunity()
    else:
        print("Failed to retrieve opportunity details")

def usage_demo():
    identifier = "O5465588"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Updating opportunity.")
    print("-" * 88)

    helper.pretty_print_datetime(update_opportunity_if_eligible(identifier))

if __name__ == "__main__":
    usage_demo()
```
+  Untuk detail API, lihat [UpdateOpportunity](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/UpdateOpportunity)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Perbarui entitas terkait dari suatu peluang
<a name="partnercentral-selling__UpdateAssociatedEntity_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Putus entitas lama.
+ Mengasosiasikan entitas baru.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/partner-central-api-sample-codes/python_preview/#code-examples). 
Perbarui Entitas Terkait dari suatu peluang  

```
#!/usr/bin/env python

"""
Purpose
PC-API -17 Replacing a solution
"""
import logging
import boto3
import utils.helpers as helper
from botocore.client import ClientError

from utils.constants import CATALOG_TO_USE

serviceName = "partnercentral-selling"

partner_central_client = boto3.client(
        service_name=serviceName,
        region_name='us-east-1'
)

def replace_solution(original_entity_identifier, new_entity_identifier, opportunityIdentifier):
    disassociate_opportunity_request ={
        "Catalog": CATALOG_TO_USE,
	    "OpportunityIdentifier" : opportunityIdentifier, 
        "RelatedEntityType" : "Solutions", 
        "RelatedEntityIdentifier" : original_entity_identifier 
    }

    associate_opportunity_request ={
        "Catalog": CATALOG_TO_USE,
	    "OpportunityIdentifier" : opportunityIdentifier, 
        "RelatedEntityType" : "Solutions", 
        "RelatedEntityIdentifier" : new_entity_identifier 
    }
    try:
        # Perform an API call
        response = partner_central_client.disassociate_opportunity(**disassociate_opportunity_request)
        response = partner_central_client.associate_opportunity(**associate_opportunity_request)
        return response

    except ClientError as err:
        # Catch all client exceptions
        print(err.response)

def usage_demo():
    original_entity_identifier = "S-0049999"
    new_entity_identifier = "S-0050014"
    opportunityIdentifier = "O4397574"

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Replacing a solution.")
    print("-" * 88)

    helper.pretty_print_datetime(replace_solution(original_entity_identifier, new_entity_identifier, opportunityIdentifier))

if __name__ == "__main__":
    usage_demo()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [AssociateOpportunity](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/AssociateOpportunity)
  + [DisassociateOpportunity](https://docs.aws.amazon.com/goto/boto3/partnercentral-selling-2022-07-26/DisassociateOpportunity)

# Amazon Pinpoint contoh menggunakan SDK for Python (Boto3)
<a name="python_3_pinpoint_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) dengan Amazon Pinpoint.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendMessages`
<a name="pinpoint_SendMessages_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessages`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/pinpoint#code-examples). 
Kirim pesan email.  

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def send_email_message(
    pinpoint_client,
    app_id,
    sender,
    to_addresses,
    char_set,
    subject,
    html_message,
    text_message,
):
    """
    Sends an email message with HTML and plain text versions.

    :param pinpoint_client: A Boto3 Pinpoint client.
    :param app_id: The Amazon Pinpoint project ID to use when you send this message.
    :param sender: The "From" address. This address must be verified in
                   Amazon Pinpoint in the AWS Region you're using to send email.
    :param to_addresses: The addresses on the "To" line. If your Amazon Pinpoint account
                         is in the sandbox, these addresses must be verified.
    :param char_set: The character encoding to use for the subject line and message
                     body of the email.
    :param subject: The subject line of the email.
    :param html_message: The body of the email for recipients whose email clients can
                         display HTML content.
    :param text_message: The body of the email for recipients whose email clients
                         don't support HTML content.
    :return: A dict of to_addresses and their message IDs.
    """
    try:
        response = pinpoint_client.send_messages(
            ApplicationId=app_id,
            MessageRequest={
                "Addresses": {
                    to_address: {"ChannelType": "EMAIL"} for to_address in to_addresses
                },
                "MessageConfiguration": {
                    "EmailMessage": {
                        "FromAddress": sender,
                        "SimpleEmail": {
                            "Subject": {"Charset": char_set, "Data": subject},
                            "HtmlPart": {"Charset": char_set, "Data": html_message},
                            "TextPart": {"Charset": char_set, "Data": text_message},
                        },
                    }
                },
            },
        )
    except ClientError:
        logger.exception("Couldn't send email.")
        raise
    else:
        return {
            to_address: message["MessageId"]
            for to_address, message in response["MessageResponse"]["Result"].items()
        }


def main():
    app_id = "ce796be37f32f178af652b26eexample"
    sender = "sender@example.com"
    to_address = "recipient@example.com"
    char_set = "UTF-8"
    subject = "Amazon Pinpoint Test (SDK for Python (Boto3))"
    text_message = """Amazon Pinpoint Test (SDK for Python)
    -------------------------------------
    This email was sent with Amazon Pinpoint using the AWS SDK for Python (Boto3).
    For more information, see https://aws.amazon.com/sdk-for-python/
                """
    html_message = """<html>
    <head></head>
    <body>
      <h1>Amazon Pinpoint Test (SDK for Python (Boto3)</h1>
      <p>This email was sent with
        <a href='https://aws.amazon.com/pinpoint/'>Amazon Pinpoint</a> using the
        <a href='https://aws.amazon.com/sdk-for-python/'>
          AWS SDK for Python (Boto3)</a>.</p>
    </body>
    </html>
                """

    print("Sending email.")
    message_ids = send_email_message(
        boto3.client("pinpoint"),
        app_id,
        sender,
        [to_address],
        char_set,
        subject,
        html_message,
        text_message,
    )
    print(f"Message sent! Message IDs: {message_ids}")


if __name__ == "__main__":
    main()
```
Kirim pesan SMS.  

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def send_sms_message(
    pinpoint_client,
    app_id,
    origination_number,
    destination_number,
    message,
    message_type,
):
    """
    Sends an SMS message with Amazon Pinpoint.

    :param pinpoint_client: A Boto3 Pinpoint client.
    :param app_id: The Amazon Pinpoint project/application ID to use when you send
                   this message. The SMS channel must be enabled for the project or
                   application.
    :param destination_number: The recipient's phone number in E.164 format.
    :param origination_number: The phone number to send the message from. This phone
                               number must be associated with your Amazon Pinpoint
                               account and be in E.164 format.
    :param message: The content of the SMS message.
    :param message_type: The type of SMS message that you want to send. If you send
                         time-sensitive content, specify TRANSACTIONAL. If you send
                         marketing-related content, specify PROMOTIONAL.
    :return: The ID of the message.
    """
    try:
        response = pinpoint_client.send_messages(
            ApplicationId=app_id,
            MessageRequest={
                "Addresses": {destination_number: {"ChannelType": "SMS"}},
                "MessageConfiguration": {
                    "SMSMessage": {
                        "Body": message,
                        "MessageType": message_type,
                        "OriginationNumber": origination_number,
                    }
                },
            },
        )
    except ClientError:
        logger.exception("Couldn't send message.")
        raise
    else:
        return response["MessageResponse"]["Result"][destination_number]["MessageId"]


def main():
    app_id = "ce796be37f32f178af652b26eexample"
    origination_number = "+12065550199"
    destination_number = "+14255550142"
    message = (
        "This is a sample message sent from Amazon Pinpoint by using the AWS SDK for "
        "Python (Boto 3)."
    )
    message_type = "TRANSACTIONAL"

    print("Sending SMS message.")
    message_id = send_sms_message(
        boto3.client("pinpoint"),
        app_id,
        origination_number,
        destination_number,
        message,
        message_type,
    )
    print(f"Message sent! Message ID: {message_id}.")


if __name__ == "__main__":
    main()
```
Kirim pesan email dengan template email yang ada.  

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def send_templated_email_message(
    pinpoint_client, project_id, sender, to_addresses, template_name, template_version
):
    """
    Sends an email message with HTML and plain text versions.

    :param pinpoint_client: A Boto3 Pinpoint client.
    :param project_id: The Amazon Pinpoint project ID to use when you send this message.
    :param sender: The "From" address. This address must be verified in
                   Amazon Pinpoint in the AWS Region you're using to send email.
    :param to_addresses: The addresses on the "To" line. If your Amazon Pinpoint
                         account is in the sandbox, these addresses must be verified.
    :param template_name: The name of the email template to use when sending the message.
    :param template_version: The version number of the message template.

    :return: A dict of to_addresses and their message IDs.
    """
    try:
        response = pinpoint_client.send_messages(
            ApplicationId=project_id,
            MessageRequest={
                "Addresses": {
                    to_address: {"ChannelType": "EMAIL"} for to_address in to_addresses
                },
                "MessageConfiguration": {"EmailMessage": {"FromAddress": sender}},
                "TemplateConfiguration": {
                    "EmailTemplate": {
                        "Name": template_name,
                        "Version": template_version,
                    }
                },
            },
        )
    except ClientError:
        logger.exception("Couldn't send email.")
        raise
    else:
        return {
            to_address: message["MessageId"]
            for to_address, message in response["MessageResponse"]["Result"].items()
        }


def main():
    project_id = "296b04b342374fceb661bf494example"
    sender = "sender@example.com"
    to_addresses = ["recipient@example.com"]
    template_name = "My_Email_Template"
    template_version = "1"

    print("Sending email.")
    message_ids = send_templated_email_message(
        boto3.client("pinpoint"),
        project_id,
        sender,
        to_addresses,
        template_name,
        template_version,
    )
    print(f"Message sent! Message IDs: {message_ids}")


if __name__ == "__main__":
    main()
```
Kirim pesan teks dengan template SMS yang ada.  

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def send_templated_sms_message(
    pinpoint_client,
    project_id,
    destination_number,
    message_type,
    origination_number,
    template_name,
    template_version,
):
    """
    Sends an SMS message to a specific phone number using a pre-defined template.

    :param pinpoint_client: A Boto3 Pinpoint client.
    :param project_id: An Amazon Pinpoint project (application) ID.
    :param destination_number: The phone number to send the message to.
    :param message_type: The type of SMS message (promotional or transactional).
    :param origination_number: The phone number that the message is sent from.
    :param template_name: The name of the SMS template to use when sending the message.
    :param template_version: The version number of the message template.

    :return The ID of the message.
    """
    try:
        response = pinpoint_client.send_messages(
            ApplicationId=project_id,
            MessageRequest={
                "Addresses": {destination_number: {"ChannelType": "SMS"}},
                "MessageConfiguration": {
                    "SMSMessage": {
                        "MessageType": message_type,
                        "OriginationNumber": origination_number,
                    }
                },
                "TemplateConfiguration": {
                    "SMSTemplate": {"Name": template_name, "Version": template_version}
                },
            },
        )

    except ClientError:
        logger.exception("Couldn't send message.")
        raise
    else:
        return response["MessageResponse"]["Result"][destination_number]["MessageId"]


def main():
    region = "us-east-1"
    origination_number = "+18555550001"
    destination_number = "+14255550142"
    project_id = "7353f53e6885409fa32d07cedexample"
    message_type = "TRANSACTIONAL"
    template_name = "My_SMS_Template"
    template_version = "1"
    message_id = send_templated_sms_message(
        boto3.client("pinpoint", region_name=region),
        project_id,
        destination_number,
        message_type,
        origination_number,
        template_name,
        template_version,
    )
    print(f"Message sent! Message ID: {message_id}.")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [SendMessages](https://docs.aws.amazon.com/goto/boto3/pinpoint-2016-12-01/SendMessages)di *AWS SDK for Python (Boto3) Referensi* API. 

# Amazon Pinpoint SMS dan Voice API contoh menggunakan SDK for Python (Boto3)
<a name="python_3_pinpoint-sms-voice_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk Python (Boto3) dengan menggunakan Amazon Pinpoint SMS dan Voice API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendVoiceMessage`
<a name="pinpoint-sms-voice_SendVoiceMessage_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendVoiceMessage`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/pinpoint-sms-voice#code-examples). 

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def send_voice_message(
    sms_voice_client,
    origination_number,
    caller_id,
    destination_number,
    language_code,
    voice_id,
    ssml_message,
):
    """
    Sends a voice message using speech synthesis provided by Amazon Polly.

    :param sms_voice_client: A Boto3 PinpointSMSVoice client.
    :param origination_number: The phone number that the message is sent from.
                               The phone number must be associated with your Amazon
                               Pinpoint account and be in E.164 format.
    :param caller_id: The phone number that you want to appear on the recipient's
                      device. The phone number must be associated with your Amazon
                      Pinpoint account and be in E.164 format.
    :param destination_number: The recipient's phone number. Specify the phone
                               number in E.164 format.
    :param language_code: The language to use when sending the message.
    :param voice_id: The Amazon Polly voice that you want to use to send the message.
    :param ssml_message: The content of the message. This example uses SSML to control
                         certain aspects of the message, such as the volume and the
                         speech rate. The message must not contain line breaks.
    :return: The ID of the message.
    """
    try:
        response = sms_voice_client.send_voice_message(
            DestinationPhoneNumber=destination_number,
            OriginationPhoneNumber=origination_number,
            CallerId=caller_id,
            Content={
                "SSMLMessage": {
                    "LanguageCode": language_code,
                    "VoiceId": voice_id,
                    "Text": ssml_message,
                }
            },
        )
    except ClientError:
        logger.exception(
            "Couldn't send message from %s to %s.",
            origination_number,
            destination_number,
        )
        raise
    else:
        return response["MessageId"]


def main():
    origination_number = "+12065550110"
    caller_id = "+12065550199"
    destination_number = "+12065550142"
    language_code = "en-US"
    voice_id = "Matthew"
    ssml_message = (
        "<speak>"
        "This is a test message sent from <emphasis>Amazon Pinpoint</emphasis> "
        "using the <break strength='weak'/>AWS SDK for Python (Boto3). "
        "<amazon:effect phonation='soft'>Thank you for listening."
        "</amazon:effect>"
        "</speak>"
    )
    print(f"Sending voice message from {origination_number} to {destination_number}.")
    message_id = send_voice_message(
        boto3.client("pinpoint-sms-voice"),
        origination_number,
        caller_id,
        destination_number,
        language_code,
        voice_id,
        ssml_message,
    )
    print(f"Message sent!\nMessage ID: {message_id}")


if __name__ == "__main__":
    main()
```
+  Untuk detail API, lihat [SendVoiceMessage](https://docs.aws.amazon.com/goto/boto3/pinpoint-sms-voice-2018-09-05/SendVoiceMessage)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Amazon Polly menggunakan SDK for Python (Boto3)
<a name="python_3_polly_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Polly. AWS SDK untuk Python (Boto3) 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DescribeVoices`
<a name="polly_DescribeVoices_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVoices`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/polly#code-examples). 

```
class PollyWrapper:
    """Encapsulates Amazon Polly functions."""

    def __init__(self, polly_client, s3_resource):
        """
        :param polly_client: A Boto3 Amazon Polly client.
        :param s3_resource: A Boto3 Amazon Simple Storage Service (Amazon S3) resource.
        """
        self.polly_client = polly_client
        self.s3_resource = s3_resource
        self.voice_metadata = None


    def describe_voices(self):
        """
        Gets metadata about available voices.

        :return: The list of voice metadata.
        """
        try:
            response = self.polly_client.describe_voices()
            self.voice_metadata = response["Voices"]
            logger.info("Got metadata about %s voices.", len(self.voice_metadata))
        except ClientError:
            logger.exception("Couldn't get voice metadata.")
            raise
        else:
            return self.voice_metadata
```
+  Untuk detail API, lihat [DescribeVoices](https://docs.aws.amazon.com/goto/boto3/polly-2016-06-10/DescribeVoices)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetLexicon`
<a name="polly_GetLexicon_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetLexicon`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/polly#code-examples). 

```
class PollyWrapper:
    """Encapsulates Amazon Polly functions."""

    def __init__(self, polly_client, s3_resource):
        """
        :param polly_client: A Boto3 Amazon Polly client.
        :param s3_resource: A Boto3 Amazon Simple Storage Service (Amazon S3) resource.
        """
        self.polly_client = polly_client
        self.s3_resource = s3_resource
        self.voice_metadata = None


    def get_lexicon(self, name):
        """
        Gets metadata and contents of an existing lexicon.

        :param name: The name of the lexicon to retrieve.
        :return: The retrieved lexicon.
        """
        try:
            response = self.polly_client.get_lexicon(Name=name)
            logger.info("Got lexicon %s.", name)
        except ClientError:
            logger.exception("Couldn't get lexicon %s.", name)
            raise
        else:
            return response
```
+  Untuk detail API, lihat [GetLexicon](https://docs.aws.amazon.com/goto/boto3/polly-2016-06-10/GetLexicon)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetSpeechSynthesisTask`
<a name="polly_GetSpeechSynthesisTask_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSpeechSynthesisTask`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/polly#code-examples). 

```
class PollyWrapper:
    """Encapsulates Amazon Polly functions."""

    def __init__(self, polly_client, s3_resource):
        """
        :param polly_client: A Boto3 Amazon Polly client.
        :param s3_resource: A Boto3 Amazon Simple Storage Service (Amazon S3) resource.
        """
        self.polly_client = polly_client
        self.s3_resource = s3_resource
        self.voice_metadata = None


    def get_speech_synthesis_task(self, task_id):
        """
        Gets metadata about an asynchronous speech synthesis task, such as its status.

        :param task_id: The ID of the task to retrieve.
        :return: Metadata about the task.
        """
        try:
            response = self.polly_client.get_speech_synthesis_task(TaskId=task_id)
            task = response["SynthesisTask"]
            logger.info("Got synthesis task. Status is %s.", task["TaskStatus"])
        except ClientError:
            logger.exception("Couldn't get synthesis task %s.", task_id)
            raise
        else:
            return task
```
+  Untuk detail API, lihat [GetSpeechSynthesisTask](https://docs.aws.amazon.com/goto/boto3/polly-2016-06-10/GetSpeechSynthesisTask)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListLexicons`
<a name="polly_ListLexicons_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLexicons`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/polly#code-examples). 

```
class PollyWrapper:
    """Encapsulates Amazon Polly functions."""

    def __init__(self, polly_client, s3_resource):
        """
        :param polly_client: A Boto3 Amazon Polly client.
        :param s3_resource: A Boto3 Amazon Simple Storage Service (Amazon S3) resource.
        """
        self.polly_client = polly_client
        self.s3_resource = s3_resource
        self.voice_metadata = None


    def list_lexicons(self):
        """
        Lists lexicons in the current account.

        :return: The list of lexicons.
        """
        try:
            response = self.polly_client.list_lexicons()
            lexicons = response["Lexicons"]
            logger.info("Got %s lexicons.", len(lexicons))
        except ClientError:
            logger.exception(
                "Couldn't get  %s.",
            )
            raise
        else:
            return lexicons
```
+  Untuk detail API, lihat [ListLexicons](https://docs.aws.amazon.com/goto/boto3/polly-2016-06-10/ListLexicons)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutLexicon`
<a name="polly_PutLexicon_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutLexicon`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/polly#code-examples). 

```
class PollyWrapper:
    """Encapsulates Amazon Polly functions."""

    def __init__(self, polly_client, s3_resource):
        """
        :param polly_client: A Boto3 Amazon Polly client.
        :param s3_resource: A Boto3 Amazon Simple Storage Service (Amazon S3) resource.
        """
        self.polly_client = polly_client
        self.s3_resource = s3_resource
        self.voice_metadata = None


    def create_lexicon(self, name, content):
        """
        Creates a lexicon with the specified content. A lexicon contains custom
        pronunciations.

        :param name: The name of the lexicon.
        :param content: The content of the lexicon.
        """
        try:
            self.polly_client.put_lexicon(Name=name, Content=content)
            logger.info("Created lexicon %s.", name)
        except ClientError:
            logger.exception("Couldn't create lexicon %s.")
            raise
```
+  Untuk detail API, lihat [PutLexicon](https://docs.aws.amazon.com/goto/boto3/polly-2016-06-10/PutLexicon)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartSpeechSynthesisTask`
<a name="polly_StartSpeechSynthesisTask_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartSpeechSynthesisTask`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/polly#code-examples). 

```
class PollyWrapper:
    """Encapsulates Amazon Polly functions."""

    def __init__(self, polly_client, s3_resource):
        """
        :param polly_client: A Boto3 Amazon Polly client.
        :param s3_resource: A Boto3 Amazon Simple Storage Service (Amazon S3) resource.
        """
        self.polly_client = polly_client
        self.s3_resource = s3_resource
        self.voice_metadata = None


    def do_synthesis_task(
        self,
        text,
        engine,
        voice,
        audio_format,
        s3_bucket,
        lang_code=None,
        include_visemes=False,
        wait_callback=None,
    ):
        """
        Start an asynchronous task to synthesize speech or speech marks, wait for
        the task to complete, retrieve the output from Amazon S3, and return the
        data.

        An asynchronous task is required when the text is too long for near-real time
        synthesis.

        :param text: The text to synthesize.
        :param engine: The kind of engine used. Can be standard or neural.
        :param voice: The ID of the voice to use.
        :param audio_format: The audio format to return for synthesized speech. When
                             speech marks are synthesized, the output format is JSON.
        :param s3_bucket: The name of an existing Amazon S3 bucket that you have
                          write access to. Synthesis output is written to this bucket.
        :param lang_code: The language code of the voice to use. This has an effect
                          only when a bilingual voice is selected.
        :param include_visemes: When True, a second request is made to Amazon Polly
                                to synthesize a list of visemes, using the specified
                                text and voice. A viseme represents the visual position
                                of the face and mouth when saying part of a word.
        :param wait_callback: A callback function that is called periodically during
                              task processing, to give the caller an opportunity to
                              take action, such as to display status.
        :return: The audio stream that contains the synthesized speech and a list
                 of visemes that are associated with the speech audio.
        """
        try:
            kwargs = {
                "Engine": engine,
                "OutputFormat": audio_format,
                "OutputS3BucketName": s3_bucket,
                "Text": text,
                "VoiceId": voice,
            }
            if lang_code is not None:
                kwargs["LanguageCode"] = lang_code
            response = self.polly_client.start_speech_synthesis_task(**kwargs)
            speech_task = response["SynthesisTask"]
            logger.info("Started speech synthesis task %s.", speech_task["TaskId"])

            viseme_task = None
            if include_visemes:
                kwargs["OutputFormat"] = "json"
                kwargs["SpeechMarkTypes"] = ["viseme"]
                response = self.polly_client.start_speech_synthesis_task(**kwargs)
                viseme_task = response["SynthesisTask"]
                logger.info("Started viseme synthesis task %s.", viseme_task["TaskId"])
        except ClientError:
            logger.exception("Couldn't start synthesis task.")
            raise
        else:
            bucket = self.s3_resource.Bucket(s3_bucket)
            audio_stream = self._wait_for_task(
                10, speech_task["TaskId"], "speech", wait_callback, bucket
            )

            visemes = None
            if include_visemes:
                viseme_data = self._wait_for_task(
                    10, viseme_task["TaskId"], "viseme", wait_callback, bucket
                )
                visemes = [
                    json.loads(v) for v in viseme_data.read().decode().split() if v
                ]

            return audio_stream, visemes
```
+  Untuk detail API, lihat [StartSpeechSynthesisTask](https://docs.aws.amazon.com/goto/boto3/polly-2016-06-10/StartSpeechSynthesisTask)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SynthesizeSpeech`
<a name="polly_SynthesizeSpeech_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SynthesizeSpeech`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/polly#code-examples). 

```
class PollyWrapper:
    """Encapsulates Amazon Polly functions."""

    def __init__(self, polly_client, s3_resource):
        """
        :param polly_client: A Boto3 Amazon Polly client.
        :param s3_resource: A Boto3 Amazon Simple Storage Service (Amazon S3) resource.
        """
        self.polly_client = polly_client
        self.s3_resource = s3_resource
        self.voice_metadata = None


    def synthesize(
        self, text, engine, voice, audio_format, lang_code=None, include_visemes=False
    ):
        """
        Synthesizes speech or speech marks from text, using the specified voice.

        :param text: The text to synthesize.
        :param engine: The kind of engine used. Can be standard or neural.
        :param voice: The ID of the voice to use.
        :param audio_format: The audio format to return for synthesized speech. When
                             speech marks are synthesized, the output format is JSON.
        :param lang_code: The language code of the voice to use. This has an effect
                          only when a bilingual voice is selected.
        :param include_visemes: When True, a second request is made to Amazon Polly
                                to synthesize a list of visemes, using the specified
                                text and voice. A viseme represents the visual position
                                of the face and mouth when saying part of a word.
        :return: The audio stream that contains the synthesized speech and a list
                 of visemes that are associated with the speech audio.
        """
        try:
            kwargs = {
                "Engine": engine,
                "OutputFormat": audio_format,
                "Text": text,
                "VoiceId": voice,
            }
            if lang_code is not None:
                kwargs["LanguageCode"] = lang_code
            response = self.polly_client.synthesize_speech(**kwargs)
            audio_stream = response["AudioStream"]
            logger.info("Got audio stream spoken by %s.", voice)
            visemes = None
            if include_visemes:
                kwargs["OutputFormat"] = "json"
                kwargs["SpeechMarkTypes"] = ["viseme"]
                response = self.polly_client.synthesize_speech(**kwargs)
                visemes = [
                    json.loads(v)
                    for v in response["AudioStream"].read().decode().split()
                    if v
                ]
                logger.info("Got %s visemes.", len(visemes))
        except ClientError:
            logger.exception("Couldn't get audio stream.")
            raise
        else:
            return audio_stream, visemes
```
+  Untuk detail API, lihat [SynthesizeSpeech](https://docs.aws.amazon.com/goto/boto3/polly-2016-06-10/SynthesizeSpeech)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi lip-sync
<a name="polly_LipSync_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi lip-sync dengan Amazon Polly.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan Amazon Polly dan Tkinter untuk membuat aplikasi sinkronisasi bibir yang menampilkan wajah animasi berbicara bersama dengan pidato yang disintesis oleh Amazon Polly. Lip-sync dilakukan dengan meminta daftar viseme dari Amazon Polly yang cocok dengan pidato yang disintesis.   
+ Dapatkan metadata suara dari Amazon Polly dan tampilkan di aplikasi Tkinter.
+ Dapatkan audio ucapan yang disintesis dan tanda ucapan viseme yang cocok dari Amazon Polly.
+ Putar audio dengan gerakan mulut yang disinkronkan dalam wajah animasi.
+ Kirim tugas sintesis asinkron untuk teks panjang dan ambil output dari bucket Amazon Simple Storage Service (Amazon S3).
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/polly#code-examples).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Polly

# Contoh Amazon RDS menggunakan SDK for Python (Boto3)
<a name="python_3_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan RDS AWS SDK untuk Python (Boto3) with Amazon.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon RDS
<a name="rds_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon RDS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
"""
Purpose

Shows how to use the AWS SDK for Python (Boto3) with the Amazon Relational Database Service
(Amazon RDS) to list the databases in your account.
"""

import boto3
from botocore.exceptions import ClientError

# Create an RDS client
rds_client = boto3.client("rds")

# Create a paginator for the describe_db_instances operation
paginator = rds_client.get_paginator("describe_db_instances")

try:
    # Use the paginator to get a list of DB instances
    response_iterator = paginator.paginate(
        PaginationConfig={
            "MaxItems": 123,
            "PageSize": 50,  # Adjust PageSize as needed
            "StartingToken": None,
        }
    )

    # Iterate through the pages of the response
    instances_found = False
    for page in response_iterator:
        if "DBInstances" in page and page["DBInstances"]:
            instances_found = True
            print("Your RDS instances are:")
            for db in page["DBInstances"]:
                print(db["DBInstanceIdentifier"])

    if not instances_found:
        print("No RDS instances found!")

except ClientError as e:
    print(f"Couldn't list RDS instances. Here's why: {e.response['Error']['Message']}")
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBInstances) dalam *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="rds_Scenario_GetStartedInstances_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter basis data kustom dan mengatur nilai parameter.
+ Membuat instans basis data yang dikonfigurasikan untuk menggunakan grup parameter. Instans basis data juga berisi basis data.
+ Mengambil cuplikan instans.
+ Menghapus instans dan grup parameter.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class RdsInstanceScenario:
    """Runs a scenario that shows how to get started using Amazon RDS DB instances."""

    def __init__(self, instance_wrapper):
        """
        :param instance_wrapper: An object that wraps Amazon RDS DB instance actions.
        """
        self.instance_wrapper = instance_wrapper

    def create_parameter_group(self, parameter_group_name, db_engine):
        """
        Shows how to get available engine versions for a specified database engine and
        create a DB parameter group that is compatible with a selected engine family.

        :param parameter_group_name: The name given to the newly created parameter group.
        :param db_engine: The database engine to use as a basis.
        :return: The newly created parameter group.
        """
        print(
            f"Checking for an existing DB instance parameter group named {parameter_group_name}."
        )
        parameter_group = self.instance_wrapper.get_parameter_group(
            parameter_group_name
        )
        if parameter_group is None:
            print(f"Getting available database engine versions for {db_engine}.")
            engine_versions = self.instance_wrapper.get_engine_versions(db_engine)
            families = list({ver["DBParameterGroupFamily"] for ver in engine_versions})
            family_index = q.choose("Which family do you want to use? ", families)
            print(f"Creating a parameter group.")
            self.instance_wrapper.create_parameter_group(
                parameter_group_name, families[family_index], "Example parameter group."
            )
            parameter_group = self.instance_wrapper.get_parameter_group(
                parameter_group_name
            )
        print(f"Parameter group {parameter_group['DBParameterGroupName']}:")
        pp(parameter_group)
        print("-" * 88)
        return parameter_group

    def update_parameters(self, parameter_group_name):
        """
        Shows how to get the parameters contained in a custom parameter group and
        update some of the parameter values in the group.

        :param parameter_group_name: The name of the parameter group to query and modify.
        """
        print("Let's set some parameter values in your parameter group.")
        auto_inc_parameters = self.instance_wrapper.get_parameters(
            parameter_group_name, name_prefix="auto_increment"
        )
        update_params = []
        for auto_inc in auto_inc_parameters:
            if auto_inc["IsModifiable"] and auto_inc["DataType"] == "integer":
                print(f"The {auto_inc['ParameterName']} parameter is described as:")
                print(f"\t{auto_inc['Description']}")
                param_range = auto_inc["AllowedValues"].split("-")
                auto_inc["ParameterValue"] = str(
                    q.ask(
                        f"Enter a value between {param_range[0]} and {param_range[1]}: ",
                        q.is_int,
                        q.in_range(int(param_range[0]), int(param_range[1])),
                    )
                )
                update_params.append(auto_inc)
        self.instance_wrapper.update_parameters(parameter_group_name, update_params)
        print(
            "You can get a list of parameters you've set by specifying a source of 'user'."
        )
        user_parameters = self.instance_wrapper.get_parameters(
            parameter_group_name, source="user"
        )
        pp(user_parameters)
        print("-" * 88)

    def create_instance(self, instance_name, db_name, db_engine, parameter_group):
        """
        Shows how to create a DB instance that contains a database of a specified
        type and is configured to use a custom DB parameter group.

        :param instance_name: The name given to the newly created DB instance.
        :param db_name: The name given to the created database.
        :param db_engine: The engine of the created database.
        :param parameter_group: The parameter group that is associated with the DB instance.
        :return: The newly created DB instance.
        """
        print("Checking for an existing DB instance.")
        db_inst = self.instance_wrapper.get_db_instance(instance_name)
        if db_inst is None:
            print("Let's create a DB instance.")
            admin_username = q.ask(
                "Enter an administrator user name for the database: ", q.non_empty
            )
            admin_password = q.ask(
                "Enter a password for the administrator (at least 8 characters): ",
                q.non_empty,
            )
            engine_versions = self.instance_wrapper.get_engine_versions(
                db_engine, parameter_group["DBParameterGroupFamily"]
            )
            engine_choices = [ver["EngineVersion"] for ver in engine_versions]
            print("The available engines for your parameter group are:")
            engine_index = q.choose("Which engine do you want to use? ", engine_choices)
            engine_selection = engine_versions[engine_index]
            print(
                "The available micro DB instance classes for your database engine are:"
            )
            inst_opts = self.instance_wrapper.get_orderable_instances(
                engine_selection["Engine"], engine_selection["EngineVersion"]
            )
            inst_choices = list(
                {
                    opt["DBInstanceClass"]
                    for opt in inst_opts
                    if "micro" in opt["DBInstanceClass"]
                }
            )
            inst_index = q.choose(
                "Which micro DB instance class do you want to use? ", inst_choices
            )
            group_name = parameter_group["DBParameterGroupName"]
            storage_type = "standard"
            allocated_storage = 5
            print(
                f"Creating a DB instance named {instance_name} and database {db_name}.\n"
                f"The DB instance is configured to use your custom parameter group {group_name},\n"
                f"selected engine {engine_selection['EngineVersion']},\n"
                f"selected DB instance class {inst_choices[inst_index]},"
                f"and {allocated_storage} GiB of {storage_type} storage.\n"
                f"This typically takes several minutes."
            )
            db_inst = self.instance_wrapper.create_db_instance(
                db_name,
                instance_name,
                group_name,
                engine_selection["Engine"],
                engine_selection["EngineVersion"],
                inst_choices[inst_index],
                storage_type,
                allocated_storage,
                admin_username,
                admin_password,
            )
            while db_inst.get("DBInstanceStatus") != "available":
                wait(10)
                db_inst = self.instance_wrapper.get_db_instance(instance_name)
        print("Instance data:")
        pp(db_inst)
        print("-" * 88)
        return db_inst

    @staticmethod
    def display_connection(db_inst):
        """
        Displays connection information about a DB instance and tips on how to
        connect to it.

        :param db_inst: The DB instance to display.
        """
        print(
            "You can now connect to your database using your favorite MySql client.\n"
            "One way to connect is by using the 'mysql' shell on an Amazon EC2 instance\n"
            "that is running in the same VPC as your DB instance. Pass the endpoint,\n"
            "port, and administrator user name to 'mysql' and enter your password\n"
            "when prompted:\n"
        )
        print(
            f"\n\tmysql -h {db_inst['Endpoint']['Address']} -P {db_inst['Endpoint']['Port']} "
            f"-u {db_inst['MasterUsername']} -p\n"
        )
        print(
            "For more information, see the User Guide for Amazon RDS:\n"
            "\thttps://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/CHAP_GettingStarted.CreatingConnecting.MySQL.html#CHAP_GettingStarted.Connecting.MySQL"
        )
        print("-" * 88)

    def create_snapshot(self, instance_name):
        """
        Shows how to create a DB instance snapshot and wait until it's available.

        :param instance_name: The name of a DB instance to snapshot.
        """
        if q.ask(
            "Do you want to create a snapshot of your DB instance (y/n)? ", q.is_yesno
        ):
            snapshot_id = f"{instance_name}-{uuid.uuid4()}"
            print(
                f"Creating a snapshot named {snapshot_id}. This typically takes a few minutes."
            )
            snapshot = self.instance_wrapper.create_snapshot(snapshot_id, instance_name)
            while snapshot.get("Status") != "available":
                wait(10)
                snapshot = self.instance_wrapper.get_snapshot(snapshot_id)
            pp(snapshot)
            print("-" * 88)

    def cleanup(self, db_inst, parameter_group_name):
        """
        Shows how to clean up a DB instance and parameter group.
        Before the parameter group can be deleted, all associated DB instances must first
        be deleted.

        :param db_inst: The DB instance to delete.
        :param parameter_group_name: The DB parameter group to delete.
        """
        if q.ask(
            "\nDo you want to delete the DB instance and parameter group (y/n)? ",
            q.is_yesno,
        ):
            print(f"Deleting DB instance {db_inst['DBInstanceIdentifier']}.")
            self.instance_wrapper.delete_db_instance(db_inst["DBInstanceIdentifier"])
            print(
                "Waiting for the DB instance to delete. This typically takes several minutes."
            )
            while db_inst is not None:
                wait(10)
                db_inst = self.instance_wrapper.get_db_instance(
                    db_inst["DBInstanceIdentifier"]
                )
            print(f"Deleting parameter group {parameter_group_name}.")
            self.instance_wrapper.delete_parameter_group(parameter_group_name)

    def run_scenario(self, db_engine, parameter_group_name, instance_name, db_name):
        logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

        print("-" * 88)
        print(
            "Welcome to the Amazon Relational Database Service (Amazon RDS)\n"
            "get started with DB instances demo."
        )
        print("-" * 88)

        parameter_group = self.create_parameter_group(parameter_group_name, db_engine)
        self.update_parameters(parameter_group_name)
        db_inst = self.create_instance(
            instance_name, db_name, db_engine, parameter_group
        )
        self.display_connection(db_inst)
        self.create_snapshot(instance_name)
        self.cleanup(db_inst, parameter_group_name)

        print("\nThanks for watching!")
        print("-" * 88)


if __name__ == "__main__":
    try:
        scenario = RdsInstanceScenario(InstanceWrapper.from_client())
        scenario.run_scenario(
            "mysql",
            "doc-example-parameter-group",
            "doc-example-instance",
            "docexampledb",
        )
    except Exception:
        logging.exception("Something went wrong with the demo.")
```
Tentukan fungsi-fungsi yang dipanggil oleh skenario untuk mengelola tindakan Amazon RDS.  

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_parameter_group(self, parameter_group_name):
        """
        Gets a DB parameter group.

        :param parameter_group_name: The name of the parameter group to retrieve.
        :return: The parameter group.
        """
        try:
            response = self.rds_client.describe_db_parameter_groups(
                DBParameterGroupName=parameter_group_name
            )
            parameter_group = response["DBParameterGroups"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBParameterGroupNotFound":
                logger.info("Parameter group %s does not exist.", parameter_group_name)
            else:
                logger.error(
                    "Couldn't get parameter group %s. Here's why: %s: %s",
                    parameter_group_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return parameter_group


    def create_parameter_group(
        self, parameter_group_name, parameter_group_family, description
    ):
        """
        Creates a DB parameter group that is based on the specified parameter group
        family.

        :param parameter_group_name: The name of the newly created parameter group.
        :param parameter_group_family: The family that is used as the basis of the new
                                       parameter group.
        :param description: A description given to the parameter group.
        :return: Data about the newly created parameter group.
        """
        try:
            response = self.rds_client.create_db_parameter_group(
                DBParameterGroupName=parameter_group_name,
                DBParameterGroupFamily=parameter_group_family,
                Description=description,
            )
        except ClientError as err:
            logger.error(
                "Couldn't create parameter group %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def delete_parameter_group(self, parameter_group_name):
        """
        Deletes a DB parameter group.

        :param parameter_group_name: The name of the parameter group to delete.
        :return: Data about the parameter group.
        """
        try:
            self.rds_client.delete_db_parameter_group(
                DBParameterGroupName=parameter_group_name
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete parameter group %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def get_parameters(self, parameter_group_name, name_prefix="", source=None):
        """
        Gets the parameters that are contained in a DB parameter group.

        :param parameter_group_name: The name of the parameter group to query.
        :param name_prefix: When specified, the retrieved list of parameters is filtered
                            to contain only parameters that start with this prefix.
        :param source: When specified, only parameters from this source are retrieved.
                       For example, a source of 'user' retrieves only parameters that
                       were set by a user.
        :return: The list of requested parameters.
        """
        try:
            kwargs = {"DBParameterGroupName": parameter_group_name}
            if source is not None:
                kwargs["Source"] = source
            parameters = []
            paginator = self.rds_client.get_paginator("describe_db_parameters")
            for page in paginator.paginate(**kwargs):
                parameters += [
                    p
                    for p in page["Parameters"]
                    if p["ParameterName"].startswith(name_prefix)
                ]
        except ClientError as err:
            logger.error(
                "Couldn't get parameters for %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return parameters


    def update_parameters(self, parameter_group_name, update_parameters):
        """
        Updates parameters in a custom DB parameter group.

        :param parameter_group_name: The name of the parameter group to update.
        :param update_parameters: The parameters to update in the group.
        :return: Data about the modified parameter group.
        """
        try:
            response = self.rds_client.modify_db_parameter_group(
                DBParameterGroupName=parameter_group_name, Parameters=update_parameters
            )
        except ClientError as err:
            logger.error(
                "Couldn't update parameters in %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def create_snapshot(self, snapshot_id, instance_id):
        """
        Creates a snapshot of a DB instance.

        :param snapshot_id: The ID to give the created snapshot.
        :param instance_id: The ID of the DB instance to snapshot.
        :return: Data about the newly created snapshot.
        """
        try:
            response = self.rds_client.create_db_snapshot(
                DBSnapshotIdentifier=snapshot_id, DBInstanceIdentifier=instance_id
            )
            snapshot = response["DBSnapshot"]
        except ClientError as err:
            logger.error(
                "Couldn't create snapshot of %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return snapshot


    def get_snapshot(self, snapshot_id):
        """
        Gets a DB instance snapshot.

        :param snapshot_id: The ID of the snapshot to retrieve.
        :return: The retrieved snapshot.
        """
        try:
            response = self.rds_client.describe_db_snapshots(
                DBSnapshotIdentifier=snapshot_id
            )
            snapshot = response["DBSnapshots"][0]
        except ClientError as err:
            logger.error(
                "Couldn't get snapshot %s. Here's why: %s: %s",
                snapshot_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return snapshot


    def get_engine_versions(self, engine, parameter_group_family=None):
        """
        Gets database engine versions that are available for the specified engine
        and parameter group family.

        :param engine: The database engine to look up.
        :param parameter_group_family: When specified, restricts the returned list of
                                       engine versions to those that are compatible with
                                       this parameter group family.
        :return: The list of database engine versions.
        """
        try:
            kwargs = {"Engine": engine}
            if parameter_group_family is not None:
                kwargs["DBParameterGroupFamily"] = parameter_group_family
            response = self.rds_client.describe_db_engine_versions(**kwargs)
            versions = response["DBEngineVersions"]
        except ClientError as err:
            logger.error(
                "Couldn't get engine versions for %s. Here's why: %s: %s",
                engine,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return versions


    def get_orderable_instances(self, db_engine, db_engine_version):
        """
        Gets DB instance options that can be used to create DB instances that are
        compatible with a set of specifications.

        :param db_engine: The database engine that must be supported by the DB instance.
        :param db_engine_version: The engine version that must be supported by the DB instance.
        :return: The list of DB instance options that can be used to create a compatible DB instance.
        """
        try:
            inst_opts = []
            paginator = self.rds_client.get_paginator(
                "describe_orderable_db_instance_options"
            )
            for page in paginator.paginate(
                Engine=db_engine, EngineVersion=db_engine_version
            ):
                inst_opts += page["OrderableDBInstanceOptions"]
        except ClientError as err:
            logger.error(
                "Couldn't get orderable DB instances. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return inst_opts


    def get_db_instance(self, instance_id):
        """
        Gets data about a DB instance.

        :param instance_id: The ID of the DB instance to retrieve.
        :return: The retrieved DB instance.
        """
        try:
            response = self.rds_client.describe_db_instances(
                DBInstanceIdentifier=instance_id
            )
            db_inst = response["DBInstances"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBInstanceNotFound":
                logger.info("Instance %s does not exist.", instance_id)
            else:
                logger.error(
                    "Couldn't get DB instance %s. Here's why: %s: %s",
                    instance_id,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return db_inst


    def create_db_instance(
        self,
        db_name,
        instance_id,
        parameter_group_name,
        db_engine,
        db_engine_version,
        instance_class,
        storage_type,
        allocated_storage,
        admin_name,
        admin_password,
    ):
        """
        Creates a DB instance.

        :param db_name: The name of the database that is created in the DB instance.
        :param instance_id: The ID to give the newly created DB instance.
        :param parameter_group_name: A parameter group to associate with the DB instance.
        :param db_engine: The database engine of a database to create in the DB instance.
        :param db_engine_version: The engine version for the created database.
        :param instance_class: The DB instance class for the newly created DB instance.
        :param storage_type: The storage type of the DB instance.
        :param allocated_storage: The amount of storage allocated on the DB instance, in GiBs.
        :param admin_name: The name of the admin user for the created database.
        :param admin_password: The admin password for the created database.
        :return: Data about the newly created DB instance.
        """
        try:
            response = self.rds_client.create_db_instance(
                DBName=db_name,
                DBInstanceIdentifier=instance_id,
                DBParameterGroupName=parameter_group_name,
                Engine=db_engine,
                EngineVersion=db_engine_version,
                DBInstanceClass=instance_class,
                StorageType=storage_type,
                AllocatedStorage=allocated_storage,
                MasterUsername=admin_name,
                MasterUserPassword=admin_password,
            )
            db_inst = response["DBInstance"]
        except ClientError as err:
            logger.error(
                "Couldn't create DB instance %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return db_inst


    def delete_db_instance(self, instance_id):
        """
        Deletes a DB instance.

        :param instance_id: The ID of the DB instance to delete.
        :return: Data about the deleted DB instance.
        """
        try:
            response = self.rds_client.delete_db_instance(
                DBInstanceIdentifier=instance_id,
                SkipFinalSnapshot=True,
                DeleteAutomatedBackups=True,
            )
            db_inst = response["DBInstance"]
        except ClientError as err:
            logger.error(
                "Couldn't delete DB instance %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return db_inst
```
+ Lihat detail API di topik-topik berikut dalam *Referensi API AWS SDK for Python (Boto3)*.
  + [Buat DBInstance](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBInstance)
  + [Buat DBParameter Grup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBParameterGroup)
  + [Buat DBSnapshot](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBSnapshot)
  + [Hapus DBInstance](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBInstance)
  + [Hapus DBParameter Grup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBParameterGroup)
  + [Jelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBEngineVersions)
  + [Jelaskan DBInstances](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBInstances)
  + [Jelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBParameterGroups)
  + [Jelaskan DBParameters](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBParameters)
  + [Jelaskan DBSnapshots](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBSnapshots)
  + [DescribeOrderableDBInstancePilihan](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeOrderableDBInstanceOptions)
  + [Ubah DBParameter Grup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/ModifyDBParameterGroup)

## Tindakan
<a name="actions"></a>

### `CreateDBInstance`
<a name="rds_CreateDBInstance_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def create_db_instance(
        self,
        db_name,
        instance_id,
        parameter_group_name,
        db_engine,
        db_engine_version,
        instance_class,
        storage_type,
        allocated_storage,
        admin_name,
        admin_password,
    ):
        """
        Creates a DB instance.

        :param db_name: The name of the database that is created in the DB instance.
        :param instance_id: The ID to give the newly created DB instance.
        :param parameter_group_name: A parameter group to associate with the DB instance.
        :param db_engine: The database engine of a database to create in the DB instance.
        :param db_engine_version: The engine version for the created database.
        :param instance_class: The DB instance class for the newly created DB instance.
        :param storage_type: The storage type of the DB instance.
        :param allocated_storage: The amount of storage allocated on the DB instance, in GiBs.
        :param admin_name: The name of the admin user for the created database.
        :param admin_password: The admin password for the created database.
        :return: Data about the newly created DB instance.
        """
        try:
            response = self.rds_client.create_db_instance(
                DBName=db_name,
                DBInstanceIdentifier=instance_id,
                DBParameterGroupName=parameter_group_name,
                Engine=db_engine,
                EngineVersion=db_engine_version,
                DBInstanceClass=instance_class,
                StorageType=storage_type,
                AllocatedStorage=allocated_storage,
                MasterUsername=admin_name,
                MasterUserPassword=admin_password,
            )
            db_inst = response["DBInstance"]
        except ClientError as err:
            logger.error(
                "Couldn't create DB instance %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return db_inst
```
+  Untuk detail API, lihat [Membuat DBInstance](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBInstance) di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateDBParameterGroup`
<a name="rds_CreateDBParameterGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBParameterGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def create_parameter_group(
        self, parameter_group_name, parameter_group_family, description
    ):
        """
        Creates a DB parameter group that is based on the specified parameter group
        family.

        :param parameter_group_name: The name of the newly created parameter group.
        :param parameter_group_family: The family that is used as the basis of the new
                                       parameter group.
        :param description: A description given to the parameter group.
        :return: Data about the newly created parameter group.
        """
        try:
            response = self.rds_client.create_db_parameter_group(
                DBParameterGroupName=parameter_group_name,
                DBParameterGroupFamily=parameter_group_family,
                Description=description,
            )
        except ClientError as err:
            logger.error(
                "Couldn't create parameter group %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [Membuat DBParameter Grup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBParameterGroup) di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateDBSnapshot`
<a name="rds_CreateDBSnapshot_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSnapshot`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def create_snapshot(self, snapshot_id, instance_id):
        """
        Creates a snapshot of a DB instance.

        :param snapshot_id: The ID to give the created snapshot.
        :param instance_id: The ID of the DB instance to snapshot.
        :return: Data about the newly created snapshot.
        """
        try:
            response = self.rds_client.create_db_snapshot(
                DBSnapshotIdentifier=snapshot_id, DBInstanceIdentifier=instance_id
            )
            snapshot = response["DBSnapshot"]
        except ClientError as err:
            logger.error(
                "Couldn't create snapshot of %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return snapshot
```
+  Untuk detail API, lihat [Membuat DBSnapshot](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/CreateDBSnapshot) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDBInstance`
<a name="rds_DeleteDBInstance_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def delete_db_instance(self, instance_id):
        """
        Deletes a DB instance.

        :param instance_id: The ID of the DB instance to delete.
        :return: Data about the deleted DB instance.
        """
        try:
            response = self.rds_client.delete_db_instance(
                DBInstanceIdentifier=instance_id,
                SkipFinalSnapshot=True,
                DeleteAutomatedBackups=True,
            )
            db_inst = response["DBInstance"]
        except ClientError as err:
            logger.error(
                "Couldn't delete DB instance %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return db_inst
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBInstance) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDBParameterGroup`
<a name="rds_DeleteDBParameterGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBParameterGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def delete_parameter_group(self, parameter_group_name):
        """
        Deletes a DB parameter group.

        :param parameter_group_name: The name of the parameter group to delete.
        :return: Data about the parameter group.
        """
        try:
            self.rds_client.delete_db_parameter_group(
                DBParameterGroupName=parameter_group_name
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete parameter group %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [Menghapus DBParameter Grup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DeleteDBParameterGroup) di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBEngineVersions`
<a name="rds_DescribeDBEngineVersions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_engine_versions(self, engine, parameter_group_family=None):
        """
        Gets database engine versions that are available for the specified engine
        and parameter group family.

        :param engine: The database engine to look up.
        :param parameter_group_family: When specified, restricts the returned list of
                                       engine versions to those that are compatible with
                                       this parameter group family.
        :return: The list of database engine versions.
        """
        try:
            kwargs = {"Engine": engine}
            if parameter_group_family is not None:
                kwargs["DBParameterGroupFamily"] = parameter_group_family
            response = self.rds_client.describe_db_engine_versions(**kwargs)
            versions = response["DBEngineVersions"]
        except ClientError as err:
            logger.error(
                "Couldn't get engine versions for %s. Here's why: %s: %s",
                engine,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return versions
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBEngineVersions) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_db_instance(self, instance_id):
        """
        Gets data about a DB instance.

        :param instance_id: The ID of the DB instance to retrieve.
        :return: The retrieved DB instance.
        """
        try:
            response = self.rds_client.describe_db_instances(
                DBInstanceIdentifier=instance_id
            )
            db_inst = response["DBInstances"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBInstanceNotFound":
                logger.info("Instance %s does not exist.", instance_id)
            else:
                logger.error(
                    "Couldn't get DB instance %s. Here's why: %s: %s",
                    instance_id,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return db_inst
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBInstances) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBParameterGroups`
<a name="rds_DescribeDBParameterGroups_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameterGroups`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_parameter_group(self, parameter_group_name):
        """
        Gets a DB parameter group.

        :param parameter_group_name: The name of the parameter group to retrieve.
        :return: The parameter group.
        """
        try:
            response = self.rds_client.describe_db_parameter_groups(
                DBParameterGroupName=parameter_group_name
            )
            parameter_group = response["DBParameterGroups"][0]
        except ClientError as err:
            if err.response["Error"]["Code"] == "DBParameterGroupNotFound":
                logger.info("Parameter group %s does not exist.", parameter_group_name)
            else:
                logger.error(
                    "Couldn't get parameter group %s. Here's why: %s: %s",
                    parameter_group_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return parameter_group
```
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBParameterGroups) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBParameters`
<a name="rds_DescribeDBParameters_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameters`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_parameters(self, parameter_group_name, name_prefix="", source=None):
        """
        Gets the parameters that are contained in a DB parameter group.

        :param parameter_group_name: The name of the parameter group to query.
        :param name_prefix: When specified, the retrieved list of parameters is filtered
                            to contain only parameters that start with this prefix.
        :param source: When specified, only parameters from this source are retrieved.
                       For example, a source of 'user' retrieves only parameters that
                       were set by a user.
        :return: The list of requested parameters.
        """
        try:
            kwargs = {"DBParameterGroupName": parameter_group_name}
            if source is not None:
                kwargs["Source"] = source
            parameters = []
            paginator = self.rds_client.get_paginator("describe_db_parameters")
            for page in paginator.paginate(**kwargs):
                parameters += [
                    p
                    for p in page["Parameters"]
                    if p["ParameterName"].startswith(name_prefix)
                ]
        except ClientError as err:
            logger.error(
                "Couldn't get parameters for %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return parameters
```
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBParameters) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeDBSnapshots`
<a name="rds_DescribeDBSnapshots_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBSnapshots`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_snapshot(self, snapshot_id):
        """
        Gets a DB instance snapshot.

        :param snapshot_id: The ID of the snapshot to retrieve.
        :return: The retrieved snapshot.
        """
        try:
            response = self.rds_client.describe_db_snapshots(
                DBSnapshotIdentifier=snapshot_id
            )
            snapshot = response["DBSnapshots"][0]
        except ClientError as err:
            logger.error(
                "Couldn't get snapshot %s. Here's why: %s: %s",
                snapshot_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return snapshot
```
+  Untuk detail API, lihat [Menjelaskan DBSnapshots](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeDBSnapshots) dalam *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeOrderableDBInstanceOptions`
<a name="rds_DescribeOrderableDBInstanceOptions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def get_orderable_instances(self, db_engine, db_engine_version):
        """
        Gets DB instance options that can be used to create DB instances that are
        compatible with a set of specifications.

        :param db_engine: The database engine that must be supported by the DB instance.
        :param db_engine_version: The engine version that must be supported by the DB instance.
        :return: The list of DB instance options that can be used to create a compatible DB instance.
        """
        try:
            inst_opts = []
            paginator = self.rds_client.get_paginator(
                "describe_orderable_db_instance_options"
            )
            for page in paginator.paginate(
                Engine=db_engine, EngineVersion=db_engine_version
            ):
                inst_opts += page["OrderableDBInstanceOptions"]
        except ClientError as err:
            logger.error(
                "Couldn't get orderable DB instances. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return inst_opts
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/DescribeOrderableDBInstanceOptions) di *AWS SDK for Python (Boto3) Referensi* API. 

### `ModifyDBParameterGroup`
<a name="rds_ModifyDBParameterGroup_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBParameterGroup`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rds#code-examples). 

```
class InstanceWrapper:
    """Encapsulates Amazon RDS DB instance actions."""

    def __init__(self, rds_client):
        """
        :param rds_client: A Boto3 Amazon RDS client.
        """
        self.rds_client = rds_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        rds_client = boto3.client("rds")
        return cls(rds_client)


    def update_parameters(self, parameter_group_name, update_parameters):
        """
        Updates parameters in a custom DB parameter group.

        :param parameter_group_name: The name of the parameter group to update.
        :param update_parameters: The parameters to update in the group.
        :return: Data about the modified parameter group.
        """
        try:
            response = self.rds_client.modify_db_parameter_group(
                DBParameterGroupName=parameter_group_name, Parameters=update_parameters
            )
        except ClientError as err:
            logger.error(
                "Couldn't update parameters in %s. Here's why: %s: %s",
                parameter_group_name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [Memodifikasi DBParameter Grup](https://docs.aws.amazon.com/goto/boto3/rds-2014-10-31/ModifyDBParameterGroup) di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat layanan REST yang melacak item pekerjaan di database Amazon Aurora Tanpa Server dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan rangka kerja web Flask untuk menangani perutean HTTP dan terintegrasi dengan halaman web React untuk menyajikan aplikasi web yang berfungsi penuh.   
+ Bangun layanan Flask REST yang terintegrasi dengan. Layanan AWS
+ Baca, tulis, dan perbarui butir kerja yang tersimpan dalam basis data Aurora Nirserver.
+ Buat AWS Secrets Manager rahasia yang berisi kredensi database dan gunakan untuk mengautentikasi panggilan ke database.
+ Gunakan Amazon SES untuk mengirim laporan email tentang item pekerjaan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/aurora_item_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Python.  

```
import json
import os
import boto3
import pymysql

# RDS settings
proxy_host_name = os.environ['PROXY_HOST_NAME']
port = int(os.environ['PORT'])
db_name = os.environ['DB_NAME']
db_user_name = os.environ['DB_USER_NAME']
aws_region = os.environ['AWS_REGION']


# Fetch RDS Auth Token
def get_auth_token():
    client = boto3.client('rds')
    token = client.generate_db_auth_token(
        DBHostname=proxy_host_name,
        Port=port
        DBUsername=db_user_name
        Region=aws_region
    )
    return token

def lambda_handler(event, context):
    token = get_auth_token()
    try:
        connection = pymysql.connect(
            host=proxy_host_name,
            user=db_user_name,
            password=token,
            db=db_name,
            port=port,
            ssl={'ca': 'Amazon RDS'}  # Ensure you have the CA bundle for SSL connection
        )
        
        with connection.cursor() as cursor:
            cursor.execute('SELECT %s + %s AS sum', (3, 2))
            result = cursor.fetchone()

        return result
        
    except Exception as e:
        return (f"Error: {str(e)}")  # Return an error message if an exception occurs
```

# Contoh Layanan Data Amazon RDS menggunakan SDK for Python (Boto3)
<a name="python_3_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum AWS SDK untuk Python (Boto3) dengan menggunakan Layanan Data Amazon RDS.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat layanan REST yang melacak item pekerjaan di database Amazon Aurora Tanpa Server dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan rangka kerja web Flask untuk menangani perutean HTTP dan terintegrasi dengan halaman web React untuk menyajikan aplikasi web yang berfungsi penuh.   
+ Bangun layanan Flask REST yang terintegrasi dengan. Layanan AWS
+ Baca, tulis, dan perbarui butir kerja yang tersimpan dalam basis data Aurora Nirserver.
+ Buat AWS Secrets Manager rahasia yang berisi kredensi database dan gunakan untuk mengautentikasi panggilan ke database.
+ Gunakan Amazon SES untuk mengirim laporan email tentang item pekerjaan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/aurora_item_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

# Contoh Amazon Redshift menggunakan SDK for Python (Boto3)
<a name="python_3_redshift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Amazon Redshift.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Redshift
<a name="redshift_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Redshift.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/redshift#code-examples). 

```
import boto3


def hello_redshift(redshift_client):
    """
    Use the AWS SDK for Python (Boto3) to create an Amazon Redshift client and list
    the clusters in your account. This list might be empty if you haven't created
    any clusters.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param redshift_client: A Boto3 Redshift Client object.
    """
    print("Hello, Redshift! Let's list your clusters:")
    paginator = redshift_client.get_paginator("describe_clusters")
    clusters = []
    for page in paginator.paginate():
        clusters.extend(page["Clusters"])

    print(f"{len(clusters)} cluster(s) were found.")

    for cluster in clusters:
        print(f"  {cluster['ClusterIdentifier']}")


if __name__ == "__main__":
    hello_redshift(boto3.client("redshift"))
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/DescribeClusters)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="redshift_Scenario_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat cluster Redshift.
+ Daftar database di cluster.
+ Buat tabel bernama Movies.
+ Isi tabel Film.
+ Kueri tabel Film berdasarkan tahun.
+ Ubah cluster Redshift.
+ Hapus cluster Amazon Redshift.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/redshift#code-examples). 

```
class RedshiftScenario:
    """Runs an interactive scenario that shows how to get started with Redshift."""

    def __init__(self, redshift_wrapper, redshift_data_wrapper):
        self.redshift_wrapper = redshift_wrapper
        self.redshift_data_wrapper = redshift_data_wrapper

    def redhift_scenario(self, json_file_path):
        database_name = "dev"

        print(DASHES)
        print("Welcome to the Amazon Redshift SDK Getting Started example.")
        print(
            """
      This Python program demonstrates how to interact with Amazon Redshift 
      using the AWS SDK for Python (Boto3).
      
      Amazon Redshift is a fully managed, petabyte-scale data warehouse 
      service hosted in the cloud.
      
      The program's primary functionalities include cluster creation, 
      verification of cluster readiness, listing databases, table creation, 
      populating data within the table, and executing SQL statements.
      
      It also demonstrates querying data from the Movies table.
      
      Upon completion, all AWS resources are cleaned up.
    """
        )
        if not os.path.isfile(json_file_path):
            logging.error(f"The file {json_file_path} does not exist.")
            return

        print("Let's get started...")
        user_name = q.ask("Please enter your user name (default is awsuser):")
        user_name = user_name if user_name else "awsuser"

        print(DASHES)
        user_password = q.ask(
            "Please enter your user password (default is AwsUser1000):"
        )
        user_password = user_password if user_password else "AwsUser1000"

        print(DASHES)
        print(
            """A Redshift cluster refers to the collection of computing resources and storage that work 
            together to process and analyze large volumes of data."""
        )
        cluster_id = q.ask(
            "Enter a cluster identifier value (default is redshift-cluster-movies): "
        )
        cluster_id = cluster_id if cluster_id else "redshift-cluster-movies"

        self.redshift_wrapper.create_cluster(
            cluster_id, "ra3.4xlarge", user_name, user_password, True, 2
        )

        print(DASHES)
        print(f"Wait until {cluster_id} is available. This may take a few minutes...")
        q.ask("Press Enter to continue...")

        self.wait_cluster_available(cluster_id)

        print(DASHES)

        print(
            f"""
       When you created {cluster_id}, the dev database is created by default and used in this scenario.

       To create a custom database, you need to have a CREATEDB privilege.
       For more information, see the documentation here: 
       https://docs.aws.amazon.com/redshift/latest/dg/r_CREATE_DATABASE.html.
      """
        )
        q.ask("Press Enter to continue...")
        print(DASHES)

        print(DASHES)
        print(f"List databases in {cluster_id}")
        q.ask("Press Enter to continue...")
        databases = self.redshift_data_wrapper.list_databases(
            cluster_id, database_name, user_name
        )
        print(f"The cluster contains {len(databases)} database(s).")
        for database in databases:
            print(f"    Database: {database}")
        print(DASHES)

        print(DASHES)
        print("Now you will create a table named Movies.")
        q.ask("Press Enter to continue...")

        self.create_table(cluster_id, database_name, user_name)

        print(DASHES)

        print("Populate the Movies table using the Movies.json file.")
        print(
            "Specify the number of records you would like to add to the Movies Table."
        )
        print("Please enter a value between 50 and 200.")

        while True:
            try:
                num_records = int(q.ask("Enter a value: ", q.is_int))
                if 50 <= num_records <= 200:
                    break
                else:
                    print("Invalid input. Please enter a value between 50 and 200.")
            except ValueError:
                print("Invalid input. Please enter a value between 50 and 200.")

        self.populate_table(
            cluster_id, database_name, user_name, json_file_path, num_records
        )

        print(DASHES)
        print("Query the Movies table by year. Enter a value between 2012-2014.")

        while True:
            movie_year = int(q.ask("Enter a year: ", q.is_int))
            if 2012 <= movie_year <= 2014:
                break
            else:
                print("Invalid input. Please enter a valid year between 2012 and 2014.")

        # Function to query database
        sql_id = self.query_movies_by_year(
            database_name, user_name, movie_year, cluster_id
        )

        print(f"The identifier of the statement is {sql_id}")

        print("Checking statement status...")
        self.wait_statement_finished(sql_id)
        result = self.redshift_data_wrapper.get_statement_result(sql_id)

        self.display_movies(result)

        print(DASHES)

        print(DASHES)
        print("Now you will modify the Redshift cluster.")
        q.ask("Press Enter to continue...")

        preferred_maintenance_window = "wed:07:30-wed:08:00"
        self.redshift_wrapper.modify_cluster(cluster_id, preferred_maintenance_window)

        print(DASHES)

        print(DASHES)
        delete = q.ask("Do you want to delete the cluster? (y/n) ", q.is_yesno)

        if delete:
            print(f"You selected to delete {cluster_id}")
            q.ask("Press Enter to continue...")
            self.redshift_wrapper.delete_cluster(cluster_id)
        else:
            print(f"Cluster {cluster_id}cluster_id was not deleted")

        print(DASHES)
        print("This concludes the Amazon Redshift SDK Getting Started scenario.")
        print(DASHES)

    def create_table(self, cluster_id, database, username):
        self.redshift_data_wrapper.execute_statement(
            cluster_identifier=cluster_id,
            database_name=database,
            user_name=username,
            sql="CREATE TABLE Movies (statement_id INT PRIMARY KEY, title VARCHAR(100), year INT)",
        )

        print("Table created: Movies")


    def populate_table(self, cluster_id, database, username, file_name, number):
        with open(file_name) as f:
            data = json.load(f)

        i = 0
        for record in data:
            if i == number:
                break

            statement_id = i
            title = record["title"]
            year = record["year"]
            i = i + 1
            parameters = [
                {"name": "statement_id", "value": str(statement_id)},
                {"name": "title", "value": title},
                {"name": "year", "value": str(year)},
            ]

            self.redshift_data_wrapper.execute_statement(
                cluster_identifier=cluster_id,
                database_name=database,
                user_name=username,
                sql="INSERT INTO Movies VALUES(:statement_id, :title, :year)",
                parameter_list=parameters,
            )

        print(f"{i} records inserted into Movies table")

    def wait_cluster_available(self, cluster_id):
        """
        Waits for a cluster to be available.

        :param cluster_id: The cluster identifier.

        Note: The cluster_available waiter can also be used.
        It is not used in this case to allow an elapsed time message.
        """
        cluster_ready = False
        start_time = time.time()

        while not cluster_ready:
            time.sleep(30)
            cluster = self.redshift_wrapper.describe_clusters(cluster_id)
            status = cluster[0]["ClusterStatus"]
            if status == "available":
                cluster_ready = True
            elif status != "creating":
                raise Exception(
                    f"Cluster {cluster_id} creation failed with status {status}."
                )

            elapsed_seconds = int(round(time.time() - start_time))
            minutes = int(elapsed_seconds // 60)
            seconds = int(elapsed_seconds % 60)

            print(f"Elapsed Time: {minutes}:{seconds:02d} - status {status}...")

            if minutes > 30:
                raise Exception(
                    f"Cluster {cluster_id} is not available after 30 minutes."
                )

    def query_movies_by_year(self, database, username, year, cluster_id):
        sql = "SELECT * FROM Movies WHERE year = :year"

        params = [{"name": "year", "value": str(year)}]

        response = self.redshift_data_wrapper.execute_statement(
            cluster_identifier=cluster_id,
            database_name=database,
            user_name=username,
            sql=sql,
            parameter_list=params,
        )

        return response["Id"]

    @staticmethod
    def display_movies(response):
        metadata = response["ColumnMetadata"]
        records = response["Records"]

        title_column_index = None
        for i in range(len(metadata)):
            if metadata[i]["name"] == "title":
                title_column_index = i
                break

        if title_column_index is None:
            print("No title column found.")
            return

        print(f"Found {len(records)} movie(s).")
        for record in records:
            print(f"   {record[title_column_index]['stringValue']}")

    def wait_statement_finished(self, sql_id):
        while True:
            time.sleep(1)
            response = self.redshift_data_wrapper.describe_statement(sql_id)
            status = response["Status"]
            print(f"Statement status is {status}.")

            if status == "FAILED":
                print(f"The query failed because {response['Error']}. Ending program")
                raise Exception("The Query Failed. Ending program")
            elif status == "FINISHED":
                break
```
Fungsi utama yang menunjukkan implementasi skenario.  

```
def main():
    redshift_client = boto3.client("redshift")
    redshift_data_client = boto3.client("redshift-data")
    redshift_wrapper = RedshiftWrapper(redshift_client)
    redshift_data_wrapper = RedshiftDataWrapper(redshift_data_client)
    redshift_scenario = RedshiftScenario(redshift_wrapper, redshift_data_wrapper)
    redshift_scenario.redhift_scenario(
        f"{os.path.dirname(__file__)}/../../../resources/sample_files/movies.json"
    )
```
Fungsi pembungkus yang digunakan dalam skenario.   

```
    def create_cluster(
        self,
        cluster_identifier,
        node_type,
        master_username,
        master_user_password,
        publicly_accessible,
        number_of_nodes,
    ):
        """
        Creates a cluster.

        :param cluster_identifier: The name of the cluster.
        :param node_type: The type of node in the cluster.
        :param master_username: The master username.
        :param master_user_password: The master user password.
        :param publicly_accessible: Whether the cluster is publicly accessible.
        :param number_of_nodes: The number of nodes in the cluster.
        :return: The cluster.
        """

        try:
            cluster = self.client.create_cluster(
                ClusterIdentifier=cluster_identifier,
                NodeType=node_type,
                MasterUsername=master_username,
                MasterUserPassword=master_user_password,
                PubliclyAccessible=publicly_accessible,
                NumberOfNodes=number_of_nodes,
            )
            return cluster
        except ClientError as err:
            logging.error(
                "Couldn't create a cluster. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def describe_clusters(self, cluster_identifier):
        """
        Describes a cluster.

        :param cluster_identifier: The cluster identifier.
        :return: A list of clusters.
        """
        try:
            kwargs = {}
            if cluster_identifier:
                kwargs["ClusterIdentifier"] = cluster_identifier

            paginator = self.client.get_paginator("describe_clusters")
            clusters = []
            for page in paginator.paginate(**kwargs):
                clusters.extend(page["Clusters"])

            return clusters

        except ClientError as err:
            logging.error(
                "Couldn't describe a cluster. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def execute_statement(
        self, cluster_identifier, database_name, user_name, sql, parameter_list=None
    ):
        """
        Executes a SQL statement.

        :param cluster_identifier: The cluster identifier.
        :param database_name: The database name.
        :param user_name: The user's name.
        :param sql: The SQL statement.
        :param parameter_list: The optional SQL statement parameters.
        :return: The SQL statement result.
        """

        try:
            kwargs = {
                "ClusterIdentifier": cluster_identifier,
                "Database": database_name,
                "DbUser": user_name,
                "Sql": sql,
            }
            if parameter_list:
                kwargs["Parameters"] = parameter_list
            response = self.client.execute_statement(**kwargs)
            return response
        except ClientError as err:
            logging.error(
                "Couldn't execute statement. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def describe_statement(self, statement_id):
        """
        Describes a SQL statement.

        :param statement_id: The SQL statement identifier.
        :return: The SQL statement result.
        """
        try:
            response = self.client.describe_statement(Id=statement_id)
            return response
        except ClientError as err:
            logging.error(
                "Couldn't describe statement. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def get_statement_result(self, statement_id):
        """
        Gets the result of a SQL statement.

        :param statement_id: The SQL statement identifier.
        :return: The SQL statement result.
        """
        try:
            result = {
                "Records": [],
            }
            paginator = self.client.get_paginator("get_statement_result")
            for page in paginator.paginate(Id=statement_id):
                if "ColumnMetadata" not in result:
                    result["ColumnMetadata"] = page["ColumnMetadata"]
                result["Records"].extend(page["Records"])
            return result
        except ClientError as err:
            logging.error(
                "Couldn't get statement result. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def modify_cluster(self, cluster_identifier, preferred_maintenance_window):
        """
        Modifies a cluster.

        :param cluster_identifier: The cluster identifier.
        :param preferred_maintenance_window: The preferred maintenance window.
        """
        try:
            self.client.modify_cluster(
                ClusterIdentifier=cluster_identifier,
                PreferredMaintenanceWindow=preferred_maintenance_window,
            )
        except ClientError as err:
            logging.error(
                "Couldn't modify a cluster. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def list_databases(self, cluster_identifier, database_name, database_user):
        """
        Lists databases in a cluster.

        :param cluster_identifier: The cluster identifier.
        :param database_name: The database name.
        :param database_user: The database user.
        :return: The list of databases.
        """
        try:
            paginator = self.client.get_paginator("list_databases")
            databases = []
            for page in paginator.paginate(
                ClusterIdentifier=cluster_identifier,
                Database=database_name,
                DbUser=database_user,
            ):
                databases.extend(page["Databases"])

            return databases
        except ClientError as err:
            logging.error(
                "Couldn't list databases. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete_cluster(self, cluster_identifier):
        """
        Deletes a cluster.

        :param cluster_identifier: The cluster identifier.
        """
        try:
            self.client.delete_cluster(
                ClusterIdentifier=cluster_identifier, SkipFinalClusterSnapshot=True
            )
        except ClientError as err:
            logging.error(
                "Couldn't delete a cluster. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateCluster](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/CreateCluster)
  + [DescribeClusters](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/DescribeClusters)
  + [DescribeStatement](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/DescribeStatement)
  + [ExecuteStatement](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/ExecuteStatement)
  + [GetStatementResult](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/GetStatementResult)
  + [ListDatabasesPaginator](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/ListDatabasesPaginator)
  + [ModifyCluster](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/ModifyCluster)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="redshift_CreateCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/redshift#code-examples). 

```
class RedshiftWrapper:
    """
    Encapsulates Amazon Redshift cluster operations.
    """

    def __init__(self, redshift_client):
        """
        :param redshift_client: A Boto3 Redshift client.
        """
        self.client = redshift_client


    def create_cluster(
        self,
        cluster_identifier,
        node_type,
        master_username,
        master_user_password,
        publicly_accessible,
        number_of_nodes,
    ):
        """
        Creates a cluster.

        :param cluster_identifier: The name of the cluster.
        :param node_type: The type of node in the cluster.
        :param master_username: The master username.
        :param master_user_password: The master user password.
        :param publicly_accessible: Whether the cluster is publicly accessible.
        :param number_of_nodes: The number of nodes in the cluster.
        :return: The cluster.
        """

        try:
            cluster = self.client.create_cluster(
                ClusterIdentifier=cluster_identifier,
                NodeType=node_type,
                MasterUsername=master_username,
                MasterUserPassword=master_user_password,
                PubliclyAccessible=publicly_accessible,
                NumberOfNodes=number_of_nodes,
            )
            return cluster
        except ClientError as err:
            logging.error(
                "Couldn't create a cluster. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. RedshiftWrapper   

```
    client = boto3.client("redshift")
    redhift_wrapper = RedshiftWrapper(client)
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/CreateCluster)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteCluster`
<a name="redshift_DeleteCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/redshift#code-examples). 

```
class RedshiftWrapper:
    """
    Encapsulates Amazon Redshift cluster operations.
    """

    def __init__(self, redshift_client):
        """
        :param redshift_client: A Boto3 Redshift client.
        """
        self.client = redshift_client


    def delete_cluster(self, cluster_identifier):
        """
        Deletes a cluster.

        :param cluster_identifier: The cluster identifier.
        """
        try:
            self.client.delete_cluster(
                ClusterIdentifier=cluster_identifier, SkipFinalClusterSnapshot=True
            )
        except ClientError as err:
            logging.error(
                "Couldn't delete a cluster. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. RedshiftWrapper   

```
    client = boto3.client("redshift")
    redhift_wrapper = RedshiftWrapper(client)
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/DeleteCluster)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeClusters`
<a name="redshift_DescribeClusters_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/redshift#code-examples). 

```
class RedshiftWrapper:
    """
    Encapsulates Amazon Redshift cluster operations.
    """

    def __init__(self, redshift_client):
        """
        :param redshift_client: A Boto3 Redshift client.
        """
        self.client = redshift_client


    def describe_clusters(self, cluster_identifier):
        """
        Describes a cluster.

        :param cluster_identifier: The cluster identifier.
        :return: A list of clusters.
        """
        try:
            kwargs = {}
            if cluster_identifier:
                kwargs["ClusterIdentifier"] = cluster_identifier

            paginator = self.client.get_paginator("describe_clusters")
            clusters = []
            for page in paginator.paginate(**kwargs):
                clusters.extend(page["Clusters"])

            return clusters

        except ClientError as err:
            logging.error(
                "Couldn't describe a cluster. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. RedshiftWrapper   

```
    client = boto3.client("redshift")
    redhift_wrapper = RedshiftWrapper(client)
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/DescribeClusters)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeStatement`
<a name="redshift_DescribeStatement_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStatement`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/redshift#code-examples). 

```
class RedshiftDataWrapper:
    """Encapsulates Amazon Redshift data."""

    def __init__(self, client):
        """
        :param client: A Boto3 RedshiftDataWrapper client.
        """
        self.client = client


    def describe_statement(self, statement_id):
        """
        Describes a SQL statement.

        :param statement_id: The SQL statement identifier.
        :return: The SQL statement result.
        """
        try:
            response = self.client.describe_statement(Id=statement_id)
            return response
        except ClientError as err:
            logging.error(
                "Couldn't describe statement. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. RedshiftDataWrapper   

```
    client = boto3.client("redshift-data")
    redshift_data_wrapper = RedshiftDataWrapper(client)
```
+  Untuk detail API, lihat [DescribeStatement](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/DescribeStatement)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetStatementResult`
<a name="redshift_GetStatementResult_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetStatementResult`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/redshift#code-examples). 

```
class RedshiftDataWrapper:
    """Encapsulates Amazon Redshift data."""

    def __init__(self, client):
        """
        :param client: A Boto3 RedshiftDataWrapper client.
        """
        self.client = client


    def get_statement_result(self, statement_id):
        """
        Gets the result of a SQL statement.

        :param statement_id: The SQL statement identifier.
        :return: The SQL statement result.
        """
        try:
            result = {
                "Records": [],
            }
            paginator = self.client.get_paginator("get_statement_result")
            for page in paginator.paginate(Id=statement_id):
                if "ColumnMetadata" not in result:
                    result["ColumnMetadata"] = page["ColumnMetadata"]
                result["Records"].extend(page["Records"])
            return result
        except ClientError as err:
            logging.error(
                "Couldn't get statement result. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. RedshiftDataWrapper   

```
    client = boto3.client("redshift-data")
    redshift_data_wrapper = RedshiftDataWrapper(client)
```
+  Untuk detail API, lihat [GetStatementResult](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/GetStatementResult)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ModifyCluster`
<a name="redshift_ModifyCluster_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyCluster`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/redshift#code-examples). 

```
class RedshiftWrapper:
    """
    Encapsulates Amazon Redshift cluster operations.
    """

    def __init__(self, redshift_client):
        """
        :param redshift_client: A Boto3 Redshift client.
        """
        self.client = redshift_client


    def modify_cluster(self, cluster_identifier, preferred_maintenance_window):
        """
        Modifies a cluster.

        :param cluster_identifier: The cluster identifier.
        :param preferred_maintenance_window: The preferred maintenance window.
        """
        try:
            self.client.modify_cluster(
                ClusterIdentifier=cluster_identifier,
                PreferredMaintenanceWindow=preferred_maintenance_window,
            )
        except ClientError as err:
            logging.error(
                "Couldn't modify a cluster. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Kode berikut membuat instance objek. RedshiftWrapper   

```
    client = boto3.client("redshift")
    redhift_wrapper = RedshiftWrapper(client)
```
+  Untuk detail API, lihat [ModifyCluster](https://docs.aws.amazon.com/goto/boto3/redshift-2012-12-01/ModifyCluster)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Rekognition Amazon menggunakan SDK for Python (Boto3)
<a name="python_3_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) With Amazon Rekognition.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CompareFaces`
<a name="rekognition_CompareFaces_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompareFaces`.

Untuk informasi selengkapnya, lihat [Membandingkan wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-comparefaces.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionImage:
    """
    Encapsulates an Amazon Rekognition image. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, image, image_name, rekognition_client):
        """
        Initializes the image object.

        :param image: Data that defines the image, either the image bytes or
                      an Amazon S3 bucket and object key.
        :param image_name: The name of the image.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.image = image
        self.image_name = image_name
        self.rekognition_client = rekognition_client


    def compare_faces(self, target_image, similarity):
        """
        Compares faces in the image with the largest face in the target image.

        :param target_image: The target image to compare against.
        :param similarity: Faces in the image must have a similarity value greater
                           than this value to be included in the results.
        :return: A tuple. The first element is the list of faces that match the
                 reference image. The second element is the list of faces that have
                 a similarity value below the specified threshold.
        """
        try:
            response = self.rekognition_client.compare_faces(
                SourceImage=self.image,
                TargetImage=target_image.image,
                SimilarityThreshold=similarity,
            )
            matches = [
                RekognitionFace(match["Face"]) for match in response["FaceMatches"]
            ]
            unmatches = [RekognitionFace(face) for face in response["UnmatchedFaces"]]
            logger.info(
                "Found %s matched faces and %s unmatched faces.",
                len(matches),
                len(unmatches),
            )
        except ClientError:
            logger.exception(
                "Couldn't match faces from %s to %s.",
                self.image_name,
                target_image.image_name,
            )
            raise
        else:
            return matches, unmatches
```
+  Untuk detail API, lihat [CompareFaces](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/CompareFaces)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateCollection`
<a name="rekognition_CreateCollection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCollection`.

Untuk informasi selengkapnya, lihat [Membuat koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/create-collection-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollectionManager:
    """
    Encapsulates Amazon Rekognition collection management functions.
    This class is a thin wrapper around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, rekognition_client):
        """
        Initializes the collection manager object.

        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.rekognition_client = rekognition_client


    def create_collection(self, collection_id):
        """
        Creates an empty collection.

        :param collection_id: Text that identifies the collection.
        :return: The newly created collection.
        """
        try:
            response = self.rekognition_client.create_collection(
                CollectionId=collection_id
            )
            response["CollectionId"] = collection_id
            collection = RekognitionCollection(response, self.rekognition_client)
            logger.info("Created collection %s.", collection_id)
        except ClientError:
            logger.exception("Couldn't create collection %s.", collection_id)
            raise
        else:
            return collection
```
+  Untuk detail API, lihat [CreateCollection](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/CreateCollection)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteCollection`
<a name="rekognition_DeleteCollection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCollection`.

Untuk informasi selengkapnya, lihat [Menghapus koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-collection-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollection:
    """
    Encapsulates an Amazon Rekognition collection. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, collection, rekognition_client):
        """
        Initializes a collection object.

        :param collection: Collection data in the format returned by a call to
                           create_collection.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.collection_id = collection["CollectionId"]
        self.collection_arn, self.face_count, self.created = self._unpack_collection(
            collection
        )
        self.rekognition_client = rekognition_client

    @staticmethod
    def _unpack_collection(collection):
        """
        Unpacks optional parts of a collection that can be returned by
        describe_collection.

        :param collection: The collection data.
        :return: A tuple of the data in the collection.
        """
        return (
            collection.get("CollectionArn"),
            collection.get("FaceCount", 0),
            collection.get("CreationTimestamp"),
        )


    def delete_collection(self):
        """
        Deletes the collection.
        """
        try:
            self.rekognition_client.delete_collection(CollectionId=self.collection_id)
            logger.info("Deleted collection %s.", self.collection_id)
            self.collection_id = None
        except ClientError:
            logger.exception("Couldn't delete collection %s.", self.collection_id)
            raise
```
+  Untuk detail API, lihat [DeleteCollection](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/DeleteCollection)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteFaces`
<a name="rekognition_DeleteFaces_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFaces`.

Untuk informasi selengkapnya, lihat [Menghapus wajah dari koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-faces-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollection:
    """
    Encapsulates an Amazon Rekognition collection. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, collection, rekognition_client):
        """
        Initializes a collection object.

        :param collection: Collection data in the format returned by a call to
                           create_collection.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.collection_id = collection["CollectionId"]
        self.collection_arn, self.face_count, self.created = self._unpack_collection(
            collection
        )
        self.rekognition_client = rekognition_client

    @staticmethod
    def _unpack_collection(collection):
        """
        Unpacks optional parts of a collection that can be returned by
        describe_collection.

        :param collection: The collection data.
        :return: A tuple of the data in the collection.
        """
        return (
            collection.get("CollectionArn"),
            collection.get("FaceCount", 0),
            collection.get("CreationTimestamp"),
        )


    def delete_faces(self, face_ids):
        """
        Deletes faces from the collection.

        :param face_ids: The list of IDs of faces to delete.
        :return: The list of IDs of faces that were deleted.
        """
        try:
            response = self.rekognition_client.delete_faces(
                CollectionId=self.collection_id, FaceIds=face_ids
            )
            deleted_ids = response["DeletedFaces"]
            logger.info(
                "Deleted %s faces from %s.", len(deleted_ids), self.collection_id
            )
        except ClientError:
            logger.exception("Couldn't delete faces from %s.", self.collection_id)
            raise
        else:
            return deleted_ids
```
+  Untuk detail API, lihat [DeleteFaces](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/DeleteFaces)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeCollection`
<a name="rekognition_DescribeCollection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCollection`.

Untuk informasi selengkapnya, lihat [Menjelaskan koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/describe-collection-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollection:
    """
    Encapsulates an Amazon Rekognition collection. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, collection, rekognition_client):
        """
        Initializes a collection object.

        :param collection: Collection data in the format returned by a call to
                           create_collection.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.collection_id = collection["CollectionId"]
        self.collection_arn, self.face_count, self.created = self._unpack_collection(
            collection
        )
        self.rekognition_client = rekognition_client

    @staticmethod
    def _unpack_collection(collection):
        """
        Unpacks optional parts of a collection that can be returned by
        describe_collection.

        :param collection: The collection data.
        :return: A tuple of the data in the collection.
        """
        return (
            collection.get("CollectionArn"),
            collection.get("FaceCount", 0),
            collection.get("CreationTimestamp"),
        )


    def describe_collection(self):
        """
        Gets data about the collection from the Amazon Rekognition service.

        :return: The collection rendered as a dict.
        """
        try:
            response = self.rekognition_client.describe_collection(
                CollectionId=self.collection_id
            )
            # Work around capitalization of Arn vs. ARN
            response["CollectionArn"] = response.get("CollectionARN")
            (
                self.collection_arn,
                self.face_count,
                self.created,
            ) = self._unpack_collection(response)
            logger.info("Got data for collection %s.", self.collection_id)
        except ClientError:
            logger.exception("Couldn't get data for collection %s.", self.collection_id)
            raise
        else:
            return self.to_dict()
```
+  Untuk detail API, lihat [DescribeCollection](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/DescribeCollection)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectFaces`
<a name="rekognition_DetectFaces_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectFaces`.

Untuk informasi selengkapnya, lihat [Mendeteksi wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-detect-images.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionImage:
    """
    Encapsulates an Amazon Rekognition image. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, image, image_name, rekognition_client):
        """
        Initializes the image object.

        :param image: Data that defines the image, either the image bytes or
                      an Amazon S3 bucket and object key.
        :param image_name: The name of the image.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.image = image
        self.image_name = image_name
        self.rekognition_client = rekognition_client


    def detect_faces(self):
        """
        Detects faces in the image.

        :return: The list of faces found in the image.
        """
        try:
            response = self.rekognition_client.detect_faces(
                Image=self.image, Attributes=["ALL"]
            )
            faces = [RekognitionFace(face) for face in response["FaceDetails"]]
            logger.info("Detected %s faces.", len(faces))
        except ClientError:
            logger.exception("Couldn't detect faces in %s.", self.image_name)
            raise
        else:
            return faces
```
+  Untuk detail API, lihat [DetectFaces](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/DetectFaces)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectLabels`
<a name="rekognition_DetectLabels_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi label dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detect-labels-image.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionImage:
    """
    Encapsulates an Amazon Rekognition image. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, image, image_name, rekognition_client):
        """
        Initializes the image object.

        :param image: Data that defines the image, either the image bytes or
                      an Amazon S3 bucket and object key.
        :param image_name: The name of the image.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.image = image
        self.image_name = image_name
        self.rekognition_client = rekognition_client


    def detect_labels(self, max_labels):
        """
        Detects labels in the image. Labels are objects and people.

        :param max_labels: The maximum number of labels to return.
        :return: The list of labels detected in the image.
        """
        try:
            response = self.rekognition_client.detect_labels(
                Image=self.image, MaxLabels=max_labels
            )
            labels = [RekognitionLabel(label) for label in response["Labels"]]
            logger.info("Found %s labels in %s.", len(labels), self.image_name)
        except ClientError:
            logger.info("Couldn't detect labels in %s.", self.image_name)
            raise
        else:
            return labels
```
+  Untuk detail API, lihat [DetectLabels](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/DetectLabels)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectModerationLabels`
<a name="rekognition_DetectModerationLabels_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectModerationLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi gambar yang tidak pantas](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-images.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionImage:
    """
    Encapsulates an Amazon Rekognition image. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, image, image_name, rekognition_client):
        """
        Initializes the image object.

        :param image: Data that defines the image, either the image bytes or
                      an Amazon S3 bucket and object key.
        :param image_name: The name of the image.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.image = image
        self.image_name = image_name
        self.rekognition_client = rekognition_client


    def detect_moderation_labels(self):
        """
        Detects moderation labels in the image. Moderation labels identify content
        that may be inappropriate for some audiences.

        :return: The list of moderation labels found in the image.
        """
        try:
            response = self.rekognition_client.detect_moderation_labels(
                Image=self.image
            )
            labels = [
                RekognitionModerationLabel(label)
                for label in response["ModerationLabels"]
            ]
            logger.info(
                "Found %s moderation labels in %s.", len(labels), self.image_name
            )
        except ClientError:
            logger.exception(
                "Couldn't detect moderation labels in %s.", self.image_name
            )
            raise
        else:
            return labels
```
+  Untuk detail API, lihat [DetectModerationLabels](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/DetectModerationLabels)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectText`
<a name="rekognition_DetectText_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectText`.

Untuk informasi selengkapnya, lihat [Mendeteksi teks dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/text-detecting-text-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionImage:
    """
    Encapsulates an Amazon Rekognition image. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, image, image_name, rekognition_client):
        """
        Initializes the image object.

        :param image: Data that defines the image, either the image bytes or
                      an Amazon S3 bucket and object key.
        :param image_name: The name of the image.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.image = image
        self.image_name = image_name
        self.rekognition_client = rekognition_client


    def detect_text(self):
        """
        Detects text in the image.

        :return The list of text elements found in the image.
        """
        try:
            response = self.rekognition_client.detect_text(Image=self.image)
            texts = [RekognitionText(text) for text in response["TextDetections"]]
            logger.info("Found %s texts in %s.", len(texts), self.image_name)
        except ClientError:
            logger.exception("Couldn't detect text in %s.", self.image_name)
            raise
        else:
            return texts
```
+  Untuk detail API, lihat [DetectText](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/DetectText)di *AWS SDK for Python (Boto3) Referensi* API. 

### `IndexFaces`
<a name="rekognition_IndexFaces_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`IndexFaces`.

Untuk informasi selengkapnya, lihat [Menambahkan wajah ke koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/add-faces-to-collection-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollection:
    """
    Encapsulates an Amazon Rekognition collection. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, collection, rekognition_client):
        """
        Initializes a collection object.

        :param collection: Collection data in the format returned by a call to
                           create_collection.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.collection_id = collection["CollectionId"]
        self.collection_arn, self.face_count, self.created = self._unpack_collection(
            collection
        )
        self.rekognition_client = rekognition_client

    @staticmethod
    def _unpack_collection(collection):
        """
        Unpacks optional parts of a collection that can be returned by
        describe_collection.

        :param collection: The collection data.
        :return: A tuple of the data in the collection.
        """
        return (
            collection.get("CollectionArn"),
            collection.get("FaceCount", 0),
            collection.get("CreationTimestamp"),
        )


    def index_faces(self, image, max_faces):
        """
        Finds faces in the specified image, indexes them, and stores them in the
        collection.

        :param image: The image to index.
        :param max_faces: The maximum number of faces to index.
        :return: A tuple. The first element is a list of indexed faces.
                 The second element is a list of faces that couldn't be indexed.
        """
        try:
            response = self.rekognition_client.index_faces(
                CollectionId=self.collection_id,
                Image=image.image,
                ExternalImageId=image.image_name,
                MaxFaces=max_faces,
                DetectionAttributes=["ALL"],
            )
            indexed_faces = [
                RekognitionFace({**face["Face"], **face["FaceDetail"]})
                for face in response["FaceRecords"]
            ]
            unindexed_faces = [
                RekognitionFace(face["FaceDetail"])
                for face in response["UnindexedFaces"]
            ]
            logger.info(
                "Indexed %s faces in %s. Could not index %s faces.",
                len(indexed_faces),
                image.image_name,
                len(unindexed_faces),
            )
        except ClientError:
            logger.exception("Couldn't index faces in image %s.", image.image_name)
            raise
        else:
            return indexed_faces, unindexed_faces
```
+  Untuk detail API, lihat [IndexFaces](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/IndexFaces)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListCollections`
<a name="rekognition_ListCollections_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCollections`.

Untuk informasi selengkapnya, lihat [Daftar koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-collection-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollectionManager:
    """
    Encapsulates Amazon Rekognition collection management functions.
    This class is a thin wrapper around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, rekognition_client):
        """
        Initializes the collection manager object.

        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.rekognition_client = rekognition_client


    def list_collections(self, max_results):
        """
        Lists collections for the current account.

        :param max_results: The maximum number of collections to return.
        :return: The list of collections for the current account.
        """
        try:
            response = self.rekognition_client.list_collections(MaxResults=max_results)
            collections = [
                RekognitionCollection({"CollectionId": col_id}, self.rekognition_client)
                for col_id in response["CollectionIds"]
            ]
        except ClientError:
            logger.exception("Couldn't list collections.")
            raise
        else:
            return collections
```
+  Untuk detail API, lihat [ListCollections](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/ListCollections)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListFaces`
<a name="rekognition_ListFaces_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFaces`.

Untuk informasi selengkapnya, lihat [Daftar wajah dalam koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-faces-in-collection-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollection:
    """
    Encapsulates an Amazon Rekognition collection. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, collection, rekognition_client):
        """
        Initializes a collection object.

        :param collection: Collection data in the format returned by a call to
                           create_collection.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.collection_id = collection["CollectionId"]
        self.collection_arn, self.face_count, self.created = self._unpack_collection(
            collection
        )
        self.rekognition_client = rekognition_client

    @staticmethod
    def _unpack_collection(collection):
        """
        Unpacks optional parts of a collection that can be returned by
        describe_collection.

        :param collection: The collection data.
        :return: A tuple of the data in the collection.
        """
        return (
            collection.get("CollectionArn"),
            collection.get("FaceCount", 0),
            collection.get("CreationTimestamp"),
        )


    def list_faces(self, max_results):
        """
        Lists the faces currently indexed in the collection.

        :param max_results: The maximum number of faces to return.
        :return: The list of faces in the collection.
        """
        try:
            response = self.rekognition_client.list_faces(
                CollectionId=self.collection_id, MaxResults=max_results
            )
            faces = [RekognitionFace(face) for face in response["Faces"]]
            logger.info(
                "Found %s faces in collection %s.", len(faces), self.collection_id
            )
        except ClientError:
            logger.exception(
                "Couldn't list faces in collection %s.", self.collection_id
            )
            raise
        else:
            return faces
```
+  Untuk detail API, lihat [ListFaces](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/ListFaces)di *AWS SDK for Python (Boto3) Referensi* API. 

### `RecognizeCelebrities`
<a name="rekognition_RecognizeCelebrities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RecognizeCelebrities`.

Untuk informasi selengkapnya, lihat [Mengenali selebriti dalam sebuah gambar](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-procedure-image.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionImage:
    """
    Encapsulates an Amazon Rekognition image. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, image, image_name, rekognition_client):
        """
        Initializes the image object.

        :param image: Data that defines the image, either the image bytes or
                      an Amazon S3 bucket and object key.
        :param image_name: The name of the image.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.image = image
        self.image_name = image_name
        self.rekognition_client = rekognition_client


    def recognize_celebrities(self):
        """
        Detects celebrities in the image.

        :return: A tuple. The first element is the list of celebrities found in
                 the image. The second element is the list of faces that were
                 detected but did not match any known celebrities.
        """
        try:
            response = self.rekognition_client.recognize_celebrities(Image=self.image)
            celebrities = [
                RekognitionCelebrity(celeb) for celeb in response["CelebrityFaces"]
            ]
            other_faces = [
                RekognitionFace(face) for face in response["UnrecognizedFaces"]
            ]
            logger.info(
                "Found %s celebrities and %s other faces in %s.",
                len(celebrities),
                len(other_faces),
                self.image_name,
            )
        except ClientError:
            logger.exception("Couldn't detect celebrities in %s.", self.image_name)
            raise
        else:
            return celebrities, other_faces
```
+  Untuk detail API, lihat [RecognizeCelebrities](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/RecognizeCelebrities)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SearchFaces`
<a name="rekognition_SearchFaces_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchFaces`.

Untuk informasi selengkapnya, lihat [Mencari wajah (ID wajah)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-id-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollection:
    """
    Encapsulates an Amazon Rekognition collection. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, collection, rekognition_client):
        """
        Initializes a collection object.

        :param collection: Collection data in the format returned by a call to
                           create_collection.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.collection_id = collection["CollectionId"]
        self.collection_arn, self.face_count, self.created = self._unpack_collection(
            collection
        )
        self.rekognition_client = rekognition_client

    @staticmethod
    def _unpack_collection(collection):
        """
        Unpacks optional parts of a collection that can be returned by
        describe_collection.

        :param collection: The collection data.
        :return: A tuple of the data in the collection.
        """
        return (
            collection.get("CollectionArn"),
            collection.get("FaceCount", 0),
            collection.get("CreationTimestamp"),
        )


    def search_faces(self, face_id, threshold, max_faces):
        """
        Searches for faces in the collection that match another face from the
        collection.

        :param face_id: The ID of the face in the collection to search for.
        :param threshold: The match confidence must be greater than this value
                          for a face to be included in the results.
        :param max_faces: The maximum number of faces to return.
        :return: The list of matching faces found in the collection. This list does
                 not contain the face specified by `face_id`.
        """
        try:
            response = self.rekognition_client.search_faces(
                CollectionId=self.collection_id,
                FaceId=face_id,
                FaceMatchThreshold=threshold,
                MaxFaces=max_faces,
            )
            faces = [RekognitionFace(face["Face"]) for face in response["FaceMatches"]]
            logger.info(
                "Found %s faces in %s that match %s.",
                len(faces),
                self.collection_id,
                face_id,
            )
        except ClientError:
            logger.exception(
                "Couldn't search for faces in %s that match %s.",
                self.collection_id,
                face_id,
            )
            raise
        else:
            return faces
```
+  Untuk detail API, lihat [SearchFaces](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/SearchFaces)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SearchFacesByImage`
<a name="rekognition_SearchFacesByImage_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchFacesByImage`.

Untuk informasi selengkapnya, lihat [Mencari wajah (gambar)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-image-procedure.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 

```
class RekognitionCollection:
    """
    Encapsulates an Amazon Rekognition collection. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, collection, rekognition_client):
        """
        Initializes a collection object.

        :param collection: Collection data in the format returned by a call to
                           create_collection.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.collection_id = collection["CollectionId"]
        self.collection_arn, self.face_count, self.created = self._unpack_collection(
            collection
        )
        self.rekognition_client = rekognition_client

    @staticmethod
    def _unpack_collection(collection):
        """
        Unpacks optional parts of a collection that can be returned by
        describe_collection.

        :param collection: The collection data.
        :return: A tuple of the data in the collection.
        """
        return (
            collection.get("CollectionArn"),
            collection.get("FaceCount", 0),
            collection.get("CreationTimestamp"),
        )


    def search_faces_by_image(self, image, threshold, max_faces):
        """
        Searches for faces in the collection that match the largest face in the
        reference image.

        :param image: The image that contains the reference face to search for.
        :param threshold: The match confidence must be greater than this value
                          for a face to be included in the results.
        :param max_faces: The maximum number of faces to return.
        :return: A tuple. The first element is the face found in the reference image.
                 The second element is the list of matching faces found in the
                 collection.
        """
        try:
            response = self.rekognition_client.search_faces_by_image(
                CollectionId=self.collection_id,
                Image=image.image,
                FaceMatchThreshold=threshold,
                MaxFaces=max_faces,
            )
            image_face = RekognitionFace(
                {
                    "BoundingBox": response["SearchedFaceBoundingBox"],
                    "Confidence": response["SearchedFaceConfidence"],
                }
            )
            collection_faces = [
                RekognitionFace(face["Face"]) for face in response["FaceMatches"]
            ]
            logger.info(
                "Found %s faces in the collection that match the largest "
                "face in %s.",
                len(collection_faces),
                image.image_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't search for faces in %s that match %s.",
                self.collection_id,
                image.image_name,
            )
            raise
        else:
            return image_face, collection_faces
```
+  Untuk detail API, lihat [SearchFacesByImage](https://docs.aws.amazon.com/goto/boto3/rekognition-2016-06-27/SearchFacesByImage)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Bangun koleksi dan temukan wajah di dalamnya
<a name="rekognition_Usage_FindFacesInCollection_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat koleksi Amazon Rekognition.
+ Tambahkan gambar ke koleksi dan deteksi wajah di dalamnya.
+ Cari koleksi untuk wajah yang cocok dengan gambar referensi.
+ Hapus koleksi.

Untuk informasi selengkapnya, lihat [Mencari wajah dalam koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/collections.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 
Buat kelas yang membungkus fungsi Amazon Rekognition.  

```
import logging
from pprint import pprint
import boto3
from botocore.exceptions import ClientError
from rekognition_objects import RekognitionFace
from rekognition_image_detection import RekognitionImage

logger = logging.getLogger(__name__)


class RekognitionImage:
    """
    Encapsulates an Amazon Rekognition image. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, image, image_name, rekognition_client):
        """
        Initializes the image object.

        :param image: Data that defines the image, either the image bytes or
                      an Amazon S3 bucket and object key.
        :param image_name: The name of the image.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.image = image
        self.image_name = image_name
        self.rekognition_client = rekognition_client


    @classmethod
    def from_file(cls, image_file_name, rekognition_client, image_name=None):
        """
        Creates a RekognitionImage object from a local file.

        :param image_file_name: The file name of the image. The file is opened and its
                                bytes are read.
        :param rekognition_client: A Boto3 Rekognition client.
        :param image_name: The name of the image. If this is not specified, the
                           file name is used as the image name.
        :return: The RekognitionImage object, initialized with image bytes from the
                 file.
        """
        with open(image_file_name, "rb") as img_file:
            image = {"Bytes": img_file.read()}
        name = image_file_name if image_name is None else image_name
        return cls(image, name, rekognition_client)


class RekognitionCollectionManager:
    """
    Encapsulates Amazon Rekognition collection management functions.
    This class is a thin wrapper around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, rekognition_client):
        """
        Initializes the collection manager object.

        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.rekognition_client = rekognition_client


    def create_collection(self, collection_id):
        """
        Creates an empty collection.

        :param collection_id: Text that identifies the collection.
        :return: The newly created collection.
        """
        try:
            response = self.rekognition_client.create_collection(
                CollectionId=collection_id
            )
            response["CollectionId"] = collection_id
            collection = RekognitionCollection(response, self.rekognition_client)
            logger.info("Created collection %s.", collection_id)
        except ClientError:
            logger.exception("Couldn't create collection %s.", collection_id)
            raise
        else:
            return collection


    def list_collections(self, max_results):
        """
        Lists collections for the current account.

        :param max_results: The maximum number of collections to return.
        :return: The list of collections for the current account.
        """
        try:
            response = self.rekognition_client.list_collections(MaxResults=max_results)
            collections = [
                RekognitionCollection({"CollectionId": col_id}, self.rekognition_client)
                for col_id in response["CollectionIds"]
            ]
        except ClientError:
            logger.exception("Couldn't list collections.")
            raise
        else:
            return collections



class RekognitionCollection:
    """
    Encapsulates an Amazon Rekognition collection. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, collection, rekognition_client):
        """
        Initializes a collection object.

        :param collection: Collection data in the format returned by a call to
                           create_collection.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.collection_id = collection["CollectionId"]
        self.collection_arn, self.face_count, self.created = self._unpack_collection(
            collection
        )
        self.rekognition_client = rekognition_client

    @staticmethod
    def _unpack_collection(collection):
        """
        Unpacks optional parts of a collection that can be returned by
        describe_collection.

        :param collection: The collection data.
        :return: A tuple of the data in the collection.
        """
        return (
            collection.get("CollectionArn"),
            collection.get("FaceCount", 0),
            collection.get("CreationTimestamp"),
        )


    def to_dict(self):
        """
        Renders parts of the collection data to a dict.

        :return: The collection data as a dict.
        """
        rendering = {
            "collection_id": self.collection_id,
            "collection_arn": self.collection_arn,
            "face_count": self.face_count,
            "created": self.created,
        }
        return rendering


    def describe_collection(self):
        """
        Gets data about the collection from the Amazon Rekognition service.

        :return: The collection rendered as a dict.
        """
        try:
            response = self.rekognition_client.describe_collection(
                CollectionId=self.collection_id
            )
            # Work around capitalization of Arn vs. ARN
            response["CollectionArn"] = response.get("CollectionARN")
            (
                self.collection_arn,
                self.face_count,
                self.created,
            ) = self._unpack_collection(response)
            logger.info("Got data for collection %s.", self.collection_id)
        except ClientError:
            logger.exception("Couldn't get data for collection %s.", self.collection_id)
            raise
        else:
            return self.to_dict()


    def delete_collection(self):
        """
        Deletes the collection.
        """
        try:
            self.rekognition_client.delete_collection(CollectionId=self.collection_id)
            logger.info("Deleted collection %s.", self.collection_id)
            self.collection_id = None
        except ClientError:
            logger.exception("Couldn't delete collection %s.", self.collection_id)
            raise


    def index_faces(self, image, max_faces):
        """
        Finds faces in the specified image, indexes them, and stores them in the
        collection.

        :param image: The image to index.
        :param max_faces: The maximum number of faces to index.
        :return: A tuple. The first element is a list of indexed faces.
                 The second element is a list of faces that couldn't be indexed.
        """
        try:
            response = self.rekognition_client.index_faces(
                CollectionId=self.collection_id,
                Image=image.image,
                ExternalImageId=image.image_name,
                MaxFaces=max_faces,
                DetectionAttributes=["ALL"],
            )
            indexed_faces = [
                RekognitionFace({**face["Face"], **face["FaceDetail"]})
                for face in response["FaceRecords"]
            ]
            unindexed_faces = [
                RekognitionFace(face["FaceDetail"])
                for face in response["UnindexedFaces"]
            ]
            logger.info(
                "Indexed %s faces in %s. Could not index %s faces.",
                len(indexed_faces),
                image.image_name,
                len(unindexed_faces),
            )
        except ClientError:
            logger.exception("Couldn't index faces in image %s.", image.image_name)
            raise
        else:
            return indexed_faces, unindexed_faces


    def list_faces(self, max_results):
        """
        Lists the faces currently indexed in the collection.

        :param max_results: The maximum number of faces to return.
        :return: The list of faces in the collection.
        """
        try:
            response = self.rekognition_client.list_faces(
                CollectionId=self.collection_id, MaxResults=max_results
            )
            faces = [RekognitionFace(face) for face in response["Faces"]]
            logger.info(
                "Found %s faces in collection %s.", len(faces), self.collection_id
            )
        except ClientError:
            logger.exception(
                "Couldn't list faces in collection %s.", self.collection_id
            )
            raise
        else:
            return faces


    def search_faces(self, face_id, threshold, max_faces):
        """
        Searches for faces in the collection that match another face from the
        collection.

        :param face_id: The ID of the face in the collection to search for.
        :param threshold: The match confidence must be greater than this value
                          for a face to be included in the results.
        :param max_faces: The maximum number of faces to return.
        :return: The list of matching faces found in the collection. This list does
                 not contain the face specified by `face_id`.
        """
        try:
            response = self.rekognition_client.search_faces(
                CollectionId=self.collection_id,
                FaceId=face_id,
                FaceMatchThreshold=threshold,
                MaxFaces=max_faces,
            )
            faces = [RekognitionFace(face["Face"]) for face in response["FaceMatches"]]
            logger.info(
                "Found %s faces in %s that match %s.",
                len(faces),
                self.collection_id,
                face_id,
            )
        except ClientError:
            logger.exception(
                "Couldn't search for faces in %s that match %s.",
                self.collection_id,
                face_id,
            )
            raise
        else:
            return faces


    def search_faces_by_image(self, image, threshold, max_faces):
        """
        Searches for faces in the collection that match the largest face in the
        reference image.

        :param image: The image that contains the reference face to search for.
        :param threshold: The match confidence must be greater than this value
                          for a face to be included in the results.
        :param max_faces: The maximum number of faces to return.
        :return: A tuple. The first element is the face found in the reference image.
                 The second element is the list of matching faces found in the
                 collection.
        """
        try:
            response = self.rekognition_client.search_faces_by_image(
                CollectionId=self.collection_id,
                Image=image.image,
                FaceMatchThreshold=threshold,
                MaxFaces=max_faces,
            )
            image_face = RekognitionFace(
                {
                    "BoundingBox": response["SearchedFaceBoundingBox"],
                    "Confidence": response["SearchedFaceConfidence"],
                }
            )
            collection_faces = [
                RekognitionFace(face["Face"]) for face in response["FaceMatches"]
            ]
            logger.info(
                "Found %s faces in the collection that match the largest "
                "face in %s.",
                len(collection_faces),
                image.image_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't search for faces in %s that match %s.",
                self.collection_id,
                image.image_name,
            )
            raise
        else:
            return image_face, collection_faces


class RekognitionFace:
    """Encapsulates an Amazon Rekognition face."""

    def __init__(self, face, timestamp=None):
        """
        Initializes the face object.

        :param face: Face data, in the format returned by Amazon Rekognition
                     functions.
        :param timestamp: The time when the face was detected, if the face was
                          detected in a video.
        """
        self.bounding_box = face.get("BoundingBox")
        self.confidence = face.get("Confidence")
        self.landmarks = face.get("Landmarks")
        self.pose = face.get("Pose")
        self.quality = face.get("Quality")
        age_range = face.get("AgeRange")
        if age_range is not None:
            self.age_range = (age_range.get("Low"), age_range.get("High"))
        else:
            self.age_range = None
        self.smile = face.get("Smile", {}).get("Value")
        self.eyeglasses = face.get("Eyeglasses", {}).get("Value")
        self.sunglasses = face.get("Sunglasses", {}).get("Value")
        self.gender = face.get("Gender", {}).get("Value", None)
        self.beard = face.get("Beard", {}).get("Value")
        self.mustache = face.get("Mustache", {}).get("Value")
        self.eyes_open = face.get("EyesOpen", {}).get("Value")
        self.mouth_open = face.get("MouthOpen", {}).get("Value")
        self.emotions = [
            emo.get("Type")
            for emo in face.get("Emotions", [])
            if emo.get("Confidence", 0) > 50
        ]
        self.face_id = face.get("FaceId")
        self.image_id = face.get("ImageId")
        self.timestamp = timestamp

    def to_dict(self):
        """
        Renders some of the face data to a dict.

        :return: A dict that contains the face data.
        """
        rendering = {}
        if self.bounding_box is not None:
            rendering["bounding_box"] = self.bounding_box
        if self.age_range is not None:
            rendering["age"] = f"{self.age_range[0]} - {self.age_range[1]}"
        if self.gender is not None:
            rendering["gender"] = self.gender
        if self.emotions:
            rendering["emotions"] = self.emotions
        if self.face_id is not None:
            rendering["face_id"] = self.face_id
        if self.image_id is not None:
            rendering["image_id"] = self.image_id
        if self.timestamp is not None:
            rendering["timestamp"] = self.timestamp
        has = []
        if self.smile:
            has.append("smile")
        if self.eyeglasses:
            has.append("eyeglasses")
        if self.sunglasses:
            has.append("sunglasses")
        if self.beard:
            has.append("beard")
        if self.mustache:
            has.append("mustache")
        if self.eyes_open:
            has.append("open eyes")
        if self.mouth_open:
            has.append("open mouth")
        if has:
            rendering["has"] = has
        return rendering
```
Gunakan kelas pembungkus untuk membangun koleksi wajah dari satu set gambar dan kemudian mencari wajah dalam koleksi.  

```
def usage_demo():
    print("-" * 88)
    print("Welcome to the Amazon Rekognition face collection demo!")
    print("-" * 88)

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    rekognition_client = boto3.client("rekognition")
    images = [
        RekognitionImage.from_file(
            ".media/pexels-agung-pandit-wiguna-1128316.jpg",
            rekognition_client,
            image_name="sitting",
        ),
        RekognitionImage.from_file(
            ".media/pexels-agung-pandit-wiguna-1128317.jpg",
            rekognition_client,
            image_name="hopping",
        ),
        RekognitionImage.from_file(
            ".media/pexels-agung-pandit-wiguna-1128318.jpg",
            rekognition_client,
            image_name="biking",
        ),
    ]

    collection_mgr = RekognitionCollectionManager(rekognition_client)
    collection = collection_mgr.create_collection("doc-example-collection-demo")
    print(f"Created collection {collection.collection_id}:")
    pprint(collection.describe_collection())

    print("Indexing faces from three images:")
    for image in images:
        collection.index_faces(image, 10)
    print("Listing faces in collection:")
    faces = collection.list_faces(10)
    for face in faces:
        pprint(face.to_dict())
    input("Press Enter to continue.")

    print(
        f"Searching for faces in the collection that match the first face in the "
        f"list (Face ID: {faces[0].face_id}."
    )
    found_faces = collection.search_faces(faces[0].face_id, 80, 10)
    print(f"Found {len(found_faces)} matching faces.")
    for face in found_faces:
        pprint(face.to_dict())
    input("Press Enter to continue.")

    print(
        f"Searching for faces in the collection that match the largest face in "
        f"{images[0].image_name}."
    )
    image_face, match_faces = collection.search_faces_by_image(images[0], 80, 10)
    print(f"The largest face in {images[0].image_name} is:")
    pprint(image_face.to_dict())
    print(f"Found {len(match_faces)} matching faces.")
    for face in match_faces:
        pprint(face.to_dict())
    input("Press Enter to continue.")

    collection.delete_collection()
    print("Thanks for watching!")
    print("-" * 88)
```

### Mendeteksi dan menampilkan elemen dalam gambar
<a name="rekognition_Usage_DetectAndDisplayImage_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mendeteksi elemen dalam gambar dengan menggunakan Amazon Rekognition.
+ Tampilkan gambar dan gambar kotak pembatas di sekitar elemen yang terdeteksi.

Untuk informasi selengkapnya, lihat [Menampilkan kotak pembatas](https://docs.aws.amazon.com/rekognition/latest/dg/images-displaying-bounding-boxes.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition#code-examples). 
Buat kelas untuk membungkus fungsi Amazon Rekognition.  

```
import logging
from pprint import pprint
import boto3
from botocore.exceptions import ClientError
import requests

from rekognition_objects import (
    RekognitionFace,
    RekognitionCelebrity,
    RekognitionLabel,
    RekognitionModerationLabel,
    RekognitionText,
    show_bounding_boxes,
    show_polygons,
)

logger = logging.getLogger(__name__)


class RekognitionImage:
    """
    Encapsulates an Amazon Rekognition image. This class is a thin wrapper
    around parts of the Boto3 Amazon Rekognition API.
    """

    def __init__(self, image, image_name, rekognition_client):
        """
        Initializes the image object.

        :param image: Data that defines the image, either the image bytes or
                      an Amazon S3 bucket and object key.
        :param image_name: The name of the image.
        :param rekognition_client: A Boto3 Rekognition client.
        """
        self.image = image
        self.image_name = image_name
        self.rekognition_client = rekognition_client


    @classmethod
    def from_file(cls, image_file_name, rekognition_client, image_name=None):
        """
        Creates a RekognitionImage object from a local file.

        :param image_file_name: The file name of the image. The file is opened and its
                                bytes are read.
        :param rekognition_client: A Boto3 Rekognition client.
        :param image_name: The name of the image. If this is not specified, the
                           file name is used as the image name.
        :return: The RekognitionImage object, initialized with image bytes from the
                 file.
        """
        with open(image_file_name, "rb") as img_file:
            image = {"Bytes": img_file.read()}
        name = image_file_name if image_name is None else image_name
        return cls(image, name, rekognition_client)


    @classmethod
    def from_bucket(cls, s3_object, rekognition_client):
        """
        Creates a RekognitionImage object from an Amazon S3 object.

        :param s3_object: An Amazon S3 object that identifies the image. The image
                          is not retrieved until needed for a later call.
        :param rekognition_client: A Boto3 Rekognition client.
        :return: The RekognitionImage object, initialized with Amazon S3 object data.
        """
        image = {"S3Object": {"Bucket": s3_object.bucket_name, "Name": s3_object.key}}
        return cls(image, s3_object.key, rekognition_client)


    def detect_faces(self):
        """
        Detects faces in the image.

        :return: The list of faces found in the image.
        """
        try:
            response = self.rekognition_client.detect_faces(
                Image=self.image, Attributes=["ALL"]
            )
            faces = [RekognitionFace(face) for face in response["FaceDetails"]]
            logger.info("Detected %s faces.", len(faces))
        except ClientError:
            logger.exception("Couldn't detect faces in %s.", self.image_name)
            raise
        else:
            return faces


    def detect_labels(self, max_labels):
        """
        Detects labels in the image. Labels are objects and people.

        :param max_labels: The maximum number of labels to return.
        :return: The list of labels detected in the image.
        """
        try:
            response = self.rekognition_client.detect_labels(
                Image=self.image, MaxLabels=max_labels
            )
            labels = [RekognitionLabel(label) for label in response["Labels"]]
            logger.info("Found %s labels in %s.", len(labels), self.image_name)
        except ClientError:
            logger.info("Couldn't detect labels in %s.", self.image_name)
            raise
        else:
            return labels


    def recognize_celebrities(self):
        """
        Detects celebrities in the image.

        :return: A tuple. The first element is the list of celebrities found in
                 the image. The second element is the list of faces that were
                 detected but did not match any known celebrities.
        """
        try:
            response = self.rekognition_client.recognize_celebrities(Image=self.image)
            celebrities = [
                RekognitionCelebrity(celeb) for celeb in response["CelebrityFaces"]
            ]
            other_faces = [
                RekognitionFace(face) for face in response["UnrecognizedFaces"]
            ]
            logger.info(
                "Found %s celebrities and %s other faces in %s.",
                len(celebrities),
                len(other_faces),
                self.image_name,
            )
        except ClientError:
            logger.exception("Couldn't detect celebrities in %s.", self.image_name)
            raise
        else:
            return celebrities, other_faces



    def compare_faces(self, target_image, similarity):
        """
        Compares faces in the image with the largest face in the target image.

        :param target_image: The target image to compare against.
        :param similarity: Faces in the image must have a similarity value greater
                           than this value to be included in the results.
        :return: A tuple. The first element is the list of faces that match the
                 reference image. The second element is the list of faces that have
                 a similarity value below the specified threshold.
        """
        try:
            response = self.rekognition_client.compare_faces(
                SourceImage=self.image,
                TargetImage=target_image.image,
                SimilarityThreshold=similarity,
            )
            matches = [
                RekognitionFace(match["Face"]) for match in response["FaceMatches"]
            ]
            unmatches = [RekognitionFace(face) for face in response["UnmatchedFaces"]]
            logger.info(
                "Found %s matched faces and %s unmatched faces.",
                len(matches),
                len(unmatches),
            )
        except ClientError:
            logger.exception(
                "Couldn't match faces from %s to %s.",
                self.image_name,
                target_image.image_name,
            )
            raise
        else:
            return matches, unmatches


    def detect_moderation_labels(self):
        """
        Detects moderation labels in the image. Moderation labels identify content
        that may be inappropriate for some audiences.

        :return: The list of moderation labels found in the image.
        """
        try:
            response = self.rekognition_client.detect_moderation_labels(
                Image=self.image
            )
            labels = [
                RekognitionModerationLabel(label)
                for label in response["ModerationLabels"]
            ]
            logger.info(
                "Found %s moderation labels in %s.", len(labels), self.image_name
            )
        except ClientError:
            logger.exception(
                "Couldn't detect moderation labels in %s.", self.image_name
            )
            raise
        else:
            return labels


    def detect_text(self):
        """
        Detects text in the image.

        :return The list of text elements found in the image.
        """
        try:
            response = self.rekognition_client.detect_text(Image=self.image)
            texts = [RekognitionText(text) for text in response["TextDetections"]]
            logger.info("Found %s texts in %s.", len(texts), self.image_name)
        except ClientError:
            logger.exception("Couldn't detect text in %s.", self.image_name)
            raise
        else:
            return texts
```
Buat fungsi pembantu untuk menggambar kotak pembatas dan poligon.  

```
import io
import logging
from PIL import Image, ImageDraw

logger = logging.getLogger(__name__)


def show_bounding_boxes(image_bytes, box_sets, colors):
    """
    Draws bounding boxes on an image and shows it with the default image viewer.

    :param image_bytes: The image to draw, as bytes.
    :param box_sets: A list of lists of bounding boxes to draw on the image.
    :param colors: A list of colors to use to draw the bounding boxes.
    """
    image = Image.open(io.BytesIO(image_bytes))
    draw = ImageDraw.Draw(image)
    for boxes, color in zip(box_sets, colors):
        for box in boxes:
            left = image.width * box["Left"]
            top = image.height * box["Top"]
            right = (image.width * box["Width"]) + left
            bottom = (image.height * box["Height"]) + top
            draw.rectangle([left, top, right, bottom], outline=color, width=3)
    image.show()



def show_polygons(image_bytes, polygons, color):
    """
    Draws polygons on an image and shows it with the default image viewer.

    :param image_bytes: The image to draw, as bytes.
    :param polygons: The list of polygons to draw on the image.
    :param color: The color to use to draw the polygons.
    """
    image = Image.open(io.BytesIO(image_bytes))
    draw = ImageDraw.Draw(image)
    for polygon in polygons:
        draw.polygon(
            [
                (image.width * point["X"], image.height * point["Y"])
                for point in polygon
            ],
            outline=color,
        )
    image.show()
```
Buat kelas untuk mengurai objek yang dikembalikan oleh Amazon Rekognition.  

```
class RekognitionFace:
    """Encapsulates an Amazon Rekognition face."""

    def __init__(self, face, timestamp=None):
        """
        Initializes the face object.

        :param face: Face data, in the format returned by Amazon Rekognition
                     functions.
        :param timestamp: The time when the face was detected, if the face was
                          detected in a video.
        """
        self.bounding_box = face.get("BoundingBox")
        self.confidence = face.get("Confidence")
        self.landmarks = face.get("Landmarks")
        self.pose = face.get("Pose")
        self.quality = face.get("Quality")
        age_range = face.get("AgeRange")
        if age_range is not None:
            self.age_range = (age_range.get("Low"), age_range.get("High"))
        else:
            self.age_range = None
        self.smile = face.get("Smile", {}).get("Value")
        self.eyeglasses = face.get("Eyeglasses", {}).get("Value")
        self.sunglasses = face.get("Sunglasses", {}).get("Value")
        self.gender = face.get("Gender", {}).get("Value", None)
        self.beard = face.get("Beard", {}).get("Value")
        self.mustache = face.get("Mustache", {}).get("Value")
        self.eyes_open = face.get("EyesOpen", {}).get("Value")
        self.mouth_open = face.get("MouthOpen", {}).get("Value")
        self.emotions = [
            emo.get("Type")
            for emo in face.get("Emotions", [])
            if emo.get("Confidence", 0) > 50
        ]
        self.face_id = face.get("FaceId")
        self.image_id = face.get("ImageId")
        self.timestamp = timestamp

    def to_dict(self):
        """
        Renders some of the face data to a dict.

        :return: A dict that contains the face data.
        """
        rendering = {}
        if self.bounding_box is not None:
            rendering["bounding_box"] = self.bounding_box
        if self.age_range is not None:
            rendering["age"] = f"{self.age_range[0]} - {self.age_range[1]}"
        if self.gender is not None:
            rendering["gender"] = self.gender
        if self.emotions:
            rendering["emotions"] = self.emotions
        if self.face_id is not None:
            rendering["face_id"] = self.face_id
        if self.image_id is not None:
            rendering["image_id"] = self.image_id
        if self.timestamp is not None:
            rendering["timestamp"] = self.timestamp
        has = []
        if self.smile:
            has.append("smile")
        if self.eyeglasses:
            has.append("eyeglasses")
        if self.sunglasses:
            has.append("sunglasses")
        if self.beard:
            has.append("beard")
        if self.mustache:
            has.append("mustache")
        if self.eyes_open:
            has.append("open eyes")
        if self.mouth_open:
            has.append("open mouth")
        if has:
            rendering["has"] = has
        return rendering



class RekognitionCelebrity:
    """Encapsulates an Amazon Rekognition celebrity."""

    def __init__(self, celebrity, timestamp=None):
        """
        Initializes the celebrity object.

        :param celebrity: Celebrity data, in the format returned by Amazon Rekognition
                          functions.
        :param timestamp: The time when the celebrity was detected, if the celebrity
                          was detected in a video.
        """
        self.info_urls = celebrity.get("Urls")
        self.name = celebrity.get("Name")
        self.id = celebrity.get("Id")
        self.face = RekognitionFace(celebrity.get("Face"))
        self.confidence = celebrity.get("MatchConfidence")
        self.bounding_box = celebrity.get("BoundingBox")
        self.timestamp = timestamp

    def to_dict(self):
        """
        Renders some of the celebrity data to a dict.

        :return: A dict that contains the celebrity data.
        """
        rendering = self.face.to_dict()
        if self.name is not None:
            rendering["name"] = self.name
        if self.info_urls:
            rendering["info URLs"] = self.info_urls
        if self.timestamp is not None:
            rendering["timestamp"] = self.timestamp
        return rendering



class RekognitionPerson:
    """Encapsulates an Amazon Rekognition person."""

    def __init__(self, person, timestamp=None):
        """
        Initializes the person object.

        :param person: Person data, in the format returned by Amazon Rekognition
                       functions.
        :param timestamp: The time when the person was detected, if the person
                          was detected in a video.
        """
        self.index = person.get("Index")
        self.bounding_box = person.get("BoundingBox")
        face = person.get("Face")
        self.face = RekognitionFace(face) if face is not None else None
        self.timestamp = timestamp

    def to_dict(self):
        """
        Renders some of the person data to a dict.

        :return: A dict that contains the person data.
        """
        rendering = self.face.to_dict() if self.face is not None else {}
        if self.index is not None:
            rendering["index"] = self.index
        if self.bounding_box is not None:
            rendering["bounding_box"] = self.bounding_box
        if self.timestamp is not None:
            rendering["timestamp"] = self.timestamp
        return rendering



class RekognitionLabel:
    """Encapsulates an Amazon Rekognition label."""

    def __init__(self, label, timestamp=None):
        """
        Initializes the label object.

        :param label: Label data, in the format returned by Amazon Rekognition
                      functions.
        :param timestamp: The time when the label was detected, if the label
                          was detected in a video.
        """
        self.name = label.get("Name")
        self.confidence = label.get("Confidence")
        self.instances = label.get("Instances")
        self.parents = label.get("Parents")
        self.timestamp = timestamp

    def to_dict(self):
        """
        Renders some of the label data to a dict.

        :return: A dict that contains the label data.
        """
        rendering = {}
        if self.name is not None:
            rendering["name"] = self.name
        if self.timestamp is not None:
            rendering["timestamp"] = self.timestamp
        return rendering



class RekognitionModerationLabel:
    """Encapsulates an Amazon Rekognition moderation label."""

    def __init__(self, label, timestamp=None):
        """
        Initializes the moderation label object.

        :param label: Label data, in the format returned by Amazon Rekognition
                      functions.
        :param timestamp: The time when the moderation label was detected, if the
                          label was detected in a video.
        """
        self.name = label.get("Name")
        self.confidence = label.get("Confidence")
        self.parent_name = label.get("ParentName")
        self.timestamp = timestamp

    def to_dict(self):
        """
        Renders some of the moderation label data to a dict.

        :return: A dict that contains the moderation label data.
        """
        rendering = {}
        if self.name is not None:
            rendering["name"] = self.name
        if self.parent_name is not None:
            rendering["parent_name"] = self.parent_name
        if self.timestamp is not None:
            rendering["timestamp"] = self.timestamp
        return rendering



class RekognitionText:
    """Encapsulates an Amazon Rekognition text element."""

    def __init__(self, text_data):
        """
        Initializes the text object.

        :param text_data: Text data, in the format returned by Amazon Rekognition
                          functions.
        """
        self.text = text_data.get("DetectedText")
        self.kind = text_data.get("Type")
        self.id = text_data.get("Id")
        self.parent_id = text_data.get("ParentId")
        self.confidence = text_data.get("Confidence")
        self.geometry = text_data.get("Geometry")

    def to_dict(self):
        """
        Renders some of the text data to a dict.

        :return: A dict that contains the text data.
        """
        rendering = {}
        if self.text is not None:
            rendering["text"] = self.text
        if self.kind is not None:
            rendering["kind"] = self.kind
        if self.geometry is not None:
            rendering["polygon"] = self.geometry.get("Polygon")
        return rendering
```
Gunakan kelas pembungkus untuk mendeteksi elemen dalam gambar dan menampilkan kotak pembatasnya. Gambar yang digunakan dalam contoh ini dapat ditemukan GitHub bersama dengan instruksi dan lebih banyak kode.  

```
def usage_demo():
    print("-" * 88)
    print("Welcome to the Amazon Rekognition image detection demo!")
    print("-" * 88)

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    rekognition_client = boto3.client("rekognition")
    street_scene_file_name = ".media/pexels-kaique-rocha-109919.jpg"
    celebrity_file_name = ".media/pexels-pixabay-53370.jpg"
    one_girl_url = "https://dhei5unw3vrsx.cloudfront.net/images/source3_resized.jpg"
    three_girls_url = "https://dhei5unw3vrsx.cloudfront.net/images/target3_resized.jpg"
    swimwear_object = boto3.resource("s3").Object(
        "console-sample-images-pdx", "yoga_swimwear.jpg"
    )
    book_file_name = ".media/pexels-christina-morillo-1181671.jpg"

    street_scene_image = RekognitionImage.from_file(
        street_scene_file_name, rekognition_client
    )
    print(f"Detecting faces in {street_scene_image.image_name}...")
    faces = street_scene_image.detect_faces()
    print(f"Found {len(faces)} faces, here are the first three.")
    for face in faces[:3]:
        pprint(face.to_dict())
    show_bounding_boxes(
        street_scene_image.image["Bytes"],
        [[face.bounding_box for face in faces]],
        ["aqua"],
    )
    input("Press Enter to continue.")

    print(f"Detecting labels in {street_scene_image.image_name}...")
    labels = street_scene_image.detect_labels(100)
    print(f"Found {len(labels)} labels.")
    for label in labels:
        pprint(label.to_dict())
    names = []
    box_sets = []
    colors = ["aqua", "red", "white", "blue", "yellow", "green"]
    for label in labels:
        if label.instances:
            names.append(label.name)
            box_sets.append([inst["BoundingBox"] for inst in label.instances])
    print(f"Showing bounding boxes for {names} in {colors[:len(names)]}.")
    show_bounding_boxes(
        street_scene_image.image["Bytes"], box_sets, colors[: len(names)]
    )
    input("Press Enter to continue.")

    celebrity_image = RekognitionImage.from_file(
        celebrity_file_name, rekognition_client
    )
    print(f"Detecting celebrities in {celebrity_image.image_name}...")
    celebs, others = celebrity_image.recognize_celebrities()
    print(f"Found {len(celebs)} celebrities.")
    for celeb in celebs:
        pprint(celeb.to_dict())
    show_bounding_boxes(
        celebrity_image.image["Bytes"],
        [[celeb.face.bounding_box for celeb in celebs]],
        ["aqua"],
    )
    input("Press Enter to continue.")

    girl_image_response = requests.get(one_girl_url)
    girl_image = RekognitionImage(
        {"Bytes": girl_image_response.content}, "one-girl", rekognition_client
    )
    group_image_response = requests.get(three_girls_url)
    group_image = RekognitionImage(
        {"Bytes": group_image_response.content}, "three-girls", rekognition_client
    )
    print("Comparing reference face to group of faces...")
    matches, unmatches = girl_image.compare_faces(group_image, 80)
    print(f"Found {len(matches)} face matching the reference face.")
    show_bounding_boxes(
        group_image.image["Bytes"],
        [[match.bounding_box for match in matches]],
        ["aqua"],
    )
    input("Press Enter to continue.")

    swimwear_image = RekognitionImage.from_bucket(swimwear_object, rekognition_client)
    print(f"Detecting suggestive content in {swimwear_object.key}...")
    labels = swimwear_image.detect_moderation_labels()
    print(f"Found {len(labels)} moderation labels.")
    for label in labels:
        pprint(label.to_dict())
    input("Press Enter to continue.")

    book_image = RekognitionImage.from_file(book_file_name, rekognition_client)
    print(f"Detecting text in {book_image.image_name}...")
    texts = book_image.detect_text()
    print(f"Found {len(texts)} text instances. Here are the first seven:")
    for text in texts[:7]:
        pprint(text.to_dict())
    show_polygons(
        book_image.image["Bytes"], [text.geometry["Polygon"] for text in texts], "aqua"
    )

    print("Thanks for watching!")
    print("-" * 88)
```

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat aplikasi web yang memungkinkan Anda melakukan hal berikut:   
+ Mengunggah foto ke bucket Amazon Simple Storage Service (Amazon S3).
+ Menggunakan Amazon Rekognition untuk menganalisis dan memberi label pada foto.
+ Menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan email analisis gambar.
 Contoh ini berisi dua komponen utama: halaman web yang ditulis di dalamnya JavaScript yang dibangun dengan React, dan layanan REST yang ditulis dengan Python yang dibangun dengan Flask-. RESTful   
Anda dapat menggunakan halaman web React untuk:  
+ Menampilkan daftar gambar yang disimpan di bucket S3 Anda.
+ Mengunggah gambar dari komputer ke bucket S3.
+ Menampilkan gambar dan label yang mengidentifikasi item yang terdeteksi dalam gambar.
+ Mendapatkan laporan semua gambar di bucket S3 Anda dan mengirimkan email laporan tersebut.
Halaman web memanggil layanan REST. Layanan mengirimkan permintaan ke AWS untuk melakukan tindakan berikut:   
+ Mendapatkan dan memfilter daftar gambar dalam bucket S3 Anda.
+ Merngunggah foto ke bucket S3 Anda.
+ Menggunakan Amazon Rekognition untuk menganalisis foto individual dan mendapatkan daftar label yang mengidentifikasi item yang terdeteksi dalam foto.
+ Menganlisis semua foto di bucket S3 Anda dan menggunakan Amazon SES untuk mengirim laporan melalui email.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/photo_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Python (Boto3)**  
 Gunakan Amazon Rekognition untuk mendeteksi wajah, objek, dan orang dalam video dengan memulai tugas deteksi asinkron. Contoh ini juga mengonfigurasi Amazon Rekognition untuk memberi tahu topik Amazon Simple Notification Service (Amazon SNS) saat pekerjaan selesai dan berlangganan antrian Amazon Simple Queue Service (Amazon SQS) ke topik tersebut. Ketika antrian menerima pesan tentang pekerjaan, pekerjaan diambil dan hasilnya adalah output.   
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

# Contoh Amazon S3 menggunakan SDK untuk Python (Boto3)
<a name="python_3_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon S3. AWS SDK untuk Python (Boto3) 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3#code-examples). 

```
import boto3


def hello_s3():
    """
    Use the AWS SDK for Python (Boto3) to create an Amazon Simple Storage Service
    (Amazon S3) client and list the buckets in your account.
    This example uses the default settings specified in your shared credentials
    and config files.
    """

    # Create an S3 client.
    s3_client = boto3.client("s3")

    print("Hello, Amazon S3! Let's list your buckets:")

    # Create a paginator for the list_buckets operation.
    paginator = s3_client.get_paginator("list_buckets")

    # Use the paginator to get a list of all buckets.
    response_iterator = paginator.paginate(
        PaginationConfig={
            "PageSize": 50,  # Adjust PageSize as needed.
            "StartingToken": None,
        }
    )

    # Iterate through the pages of the response.
    buckets_found = False
    for page in response_iterator:
        if "Buckets" in page and page["Buckets"]:
            buckets_found = True
            for bucket in page["Buckets"]:
                print(f"\t{bucket['Name']}")

    if not buckets_found:
        print("No buckets found!")


if __name__ == "__main__":
    hello_s3()
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/ListBuckets)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
import io
import os
import uuid

import boto3
from boto3.s3.transfer import S3UploadFailedError
from botocore.exceptions import ClientError


def do_scenario(s3_resource):
    print("-" * 88)
    print("Welcome to the Amazon S3 getting started demo!")
    print("-" * 88)

    bucket_name = f"amzn-s3-demo-bucket-{uuid.uuid4()}"
    bucket = s3_resource.Bucket(bucket_name)
    try:
        bucket.create(
            CreateBucketConfiguration={
                "LocationConstraint": s3_resource.meta.client.meta.region_name
            }
        )
        print(f"Created demo bucket named {bucket.name}.")
    except ClientError as err:
        print(f"Tried and failed to create demo bucket {bucket_name}.")
        print(f"\t{err.response['Error']['Code']}:{err.response['Error']['Message']}")
        print(f"\nCan't continue the demo without a bucket!")
        return

    file_name = None
    while file_name is None:
        file_name = input("\nEnter a file you want to upload to your bucket: ")
        if not os.path.exists(file_name):
            print(f"Couldn't find file {file_name}. Are you sure it exists?")
            file_name = None

    obj = bucket.Object(os.path.basename(file_name))
    try:
        obj.upload_file(file_name)
        print(
            f"Uploaded file {file_name} into bucket {bucket.name} with key {obj.key}."
        )
    except S3UploadFailedError as err:
        print(f"Couldn't upload file {file_name} to {bucket.name}.")
        print(f"\t{err}")

    answer = input(f"\nDo you want to download {obj.key} into memory (y/n)? ")
    if answer.lower() == "y":
        data = io.BytesIO()
        try:
            obj.download_fileobj(data)
            data.seek(0)
            print(f"Got your object. Here are the first 20 bytes:\n")
            print(f"\t{data.read(20)}")
        except ClientError as err:
            print(f"Couldn't download {obj.key}.")
            print(
                f"\t{err.response['Error']['Code']}:{err.response['Error']['Message']}"
            )

    answer = input(
        f"\nDo you want to copy {obj.key} to a subfolder in your bucket (y/n)? "
    )
    if answer.lower() == "y":
        dest_obj = bucket.Object(f"demo-folder/{obj.key}")
        try:
            dest_obj.copy({"Bucket": bucket.name, "Key": obj.key})
            print(f"Copied {obj.key} to {dest_obj.key}.")
        except ClientError as err:
            print(f"Couldn't copy {obj.key} to {dest_obj.key}.")
            print(
                f"\t{err.response['Error']['Code']}:{err.response['Error']['Message']}"
            )

    print("\nYour bucket contains the following objects:")
    try:
        for o in bucket.objects.all():
            print(f"\t{o.key}")
    except ClientError as err:
        print(f"Couldn't list the objects in bucket {bucket.name}.")
        print(f"\t{err.response['Error']['Code']}:{err.response['Error']['Message']}")

    answer = input(
        "\nDo you want to delete all of the objects as well as the bucket (y/n)? "
    )
    if answer.lower() == "y":
        try:
            bucket.objects.delete()
            bucket.delete()
            print(f"Emptied and deleted bucket {bucket.name}.\n")
        except ClientError as err:
            print(f"Couldn't empty and delete bucket {bucket.name}.")
            print(
                f"\t{err.response['Error']['Code']}:{err.response['Error']['Message']}"
            )

    print("Thanks for watching!")
    print("-" * 88)


if __name__ == "__main__":
    do_scenario(boto3.resource("s3"))
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [CopyObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteBucket)
  + [DeleteObjects](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteObjects)
  + [GetObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetObject)
  + [ListObjectsV2](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/ListObjectsV2)
  + [PutObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    def copy(self, dest_object):
        """
        Copies the object to another bucket.

        :param dest_object: The destination object initialized with a bucket and key.
                            This is a Boto3 Object resource.
        """
        try:
            dest_object.copy_from(
                CopySource={"Bucket": self.object.bucket_name, "Key": self.object.key}
            )
            dest_object.wait_until_exists()
            logger.info(
                "Copied object from %s:%s to %s:%s.",
                self.object.bucket_name,
                self.object.key,
                dest_object.bucket_name,
                dest_object.key,
            )
        except ClientError:
            logger.exception(
                "Couldn't copy object from %s/%s to %s/%s.",
                self.object.bucket_name,
                self.object.key,
                dest_object.bucket_name,
                dest_object.key,
            )
            raise
```
Salin objek menggunakan permintaan bersyarat.  

```
class S3ConditionalRequests:
    """Encapsulates S3 conditional request operations."""

    def __init__(self, s3_client):
        self.s3 = s3_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        s3_client = boto3.client("s3")
        return cls(s3_client)


    def copy_object_conditional(
        self,
        source_key: str,
        dest_key: str,
        source_bucket: str,
        dest_bucket: str,
        condition_type: str,
        condition_value: str,
    ):
        """
        Copies an object from one Amazon S3 bucket to another with a conditional request.

        :param source_key: The key of the source object to copy.
        :param dest_key: The key of the destination object.
        :param source_bucket: The source bucket of the object.
        :param dest_bucket: The destination bucket of the object.
        :param condition_type: The type of condition to apply, e.g.
        'CopySourceIfMatch', 'CopySourceIfNoneMatch', 'CopySourceIfModifiedSince', 'CopySourceIfUnmodifiedSince'.
        :param condition_value: The value to use for the condition.
        """
        try:
            self.s3.copy_object(
                Bucket=dest_bucket,
                Key=dest_key,
                CopySource={"Bucket": source_bucket, "Key": source_key},
                **{condition_type: condition_value},
            )
            print(
                f"\tConditional copy successful for key {dest_key} in bucket {dest_bucket}."
            )
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            if error_code == "PreconditionFailed":
                print("\tConditional copy failed: Precondition failed")
            elif error_code == "304":  # Not modified error code.
                print("\tConditional copy failed: Object not modified")
            else:
                logger.error(f"Unexpected error: {error_code}")
                raise
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CopyObject)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateBucket`
<a name="s3_CreateBucket_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 
Buat bucket dengan pengaturan default.  

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def create(self, region_override=None):
        """
        Create an Amazon S3 bucket in the default Region for the account or in the
        specified Region.

        :param region_override: The Region in which to create the bucket. If this is
                                not specified, the Region configured in your shared
                                credentials is used.
        """
        if region_override is not None:
            region = region_override
        else:
            region = self.bucket.meta.client.meta.region_name
        try:
            self.bucket.create(CreateBucketConfiguration={"LocationConstraint": region})

            self.bucket.wait_until_exists()
            logger.info("Created bucket '%s' in region=%s", self.bucket.name, region)
        except ClientError as error:
            logger.exception(
                "Couldn't create bucket named '%s' in region=%s.",
                self.bucket.name,
                region,
            )
            raise error
```
Buat bucket berversi dengan konfigurasi siklus hidup.  

```
def create_versioned_bucket(bucket_name, prefix):
    """
    Creates an Amazon S3 bucket, enables it for versioning, and configures a lifecycle
    that expires noncurrent object versions after 7 days.

    Adding a lifecycle configuration to a versioned bucket is a best practice.
    It helps prevent objects in the bucket from accumulating a large number of
    noncurrent versions, which can slow down request performance.

    Usage is shown in the usage_demo_single_object function at the end of this module.

    :param bucket_name: The name of the bucket to create.
    :param prefix: Identifies which objects are automatically expired under the
                   configured lifecycle rules.
    :return: The newly created bucket.
    """
    try:
        bucket = s3.create_bucket(
            Bucket=bucket_name,
            CreateBucketConfiguration={
                "LocationConstraint": s3.meta.client.meta.region_name
            },
        )
        logger.info("Created bucket %s.", bucket.name)
    except ClientError as error:
        if error.response["Error"]["Code"] == "BucketAlreadyOwnedByYou":
            logger.warning("Bucket %s already exists! Using it.", bucket_name)
            bucket = s3.Bucket(bucket_name)
        else:
            logger.exception("Couldn't create bucket %s.", bucket_name)
            raise

    try:
        bucket.Versioning().enable()
        logger.info("Enabled versioning on bucket %s.", bucket.name)
    except ClientError:
        logger.exception("Couldn't enable versioning on bucket %s.", bucket.name)
        raise

    try:
        expiration = 7
        bucket.LifecycleConfiguration().put(
            LifecycleConfiguration={
                "Rules": [
                    {
                        "Status": "Enabled",
                        "Prefix": prefix,
                        "NoncurrentVersionExpiration": {"NoncurrentDays": expiration},
                    }
                ]
            }
        )
        logger.info(
            "Configured lifecycle to expire noncurrent versions after %s days "
            "on bucket %s.",
            expiration,
            bucket.name,
        )
    except ClientError as error:
        logger.warning(
            "Couldn't configure lifecycle on bucket %s because %s. "
            "Continuing anyway.",
            bucket.name,
            error,
        )

    return bucket
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CreateBucket)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteBucket`
<a name="s3_DeleteBucket_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def delete(self):
        """
        Delete the bucket. The bucket must be empty or an error is raised.
        """
        try:
            self.bucket.delete()
            self.bucket.wait_until_not_exists()
            logger.info("Bucket %s successfully deleted.", self.bucket.name)
        except ClientError:
            logger.exception("Couldn't delete bucket %s.", self.bucket.name)
            raise
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteBucket)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteBucketCors`
<a name="s3_DeleteBucketCors_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketCors`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def delete_cors(self):
        """
        Delete the CORS rules from the bucket.

        :param bucket_name: The name of the bucket to update.
        """
        try:
            self.bucket.Cors().delete()
            logger.info("Deleted CORS from bucket '%s'.", self.bucket.name)
        except ClientError:
            logger.exception("Couldn't delete CORS from bucket '%s'.", self.bucket.name)
            raise
```
+  Untuk detail API, lihat [DeleteBucketCors](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteBucketCors)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteBucketLifecycle`
<a name="s3_DeleteBucketLifecycle_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketLifecycle`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def delete_lifecycle_configuration(self):
        """
        Remove the lifecycle configuration from the specified bucket.
        """
        try:
            self.bucket.LifecycleConfiguration().delete()
            logger.info(
                "Deleted lifecycle configuration for bucket '%s'.", self.bucket.name
            )
        except ClientError:
            logger.exception(
                "Couldn't delete lifecycle configuration for bucket '%s'.",
                self.bucket.name,
            )
            raise
```
+  Untuk detail API, lihat [DeleteBucketLifecycle](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteBucketLifecycle)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteBucketPolicy`
<a name="s3_DeleteBucketPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def delete_policy(self):
        """
        Delete the security policy from the bucket.
        """
        try:
            self.bucket.Policy().delete()
            logger.info("Deleted policy for bucket '%s'.", self.bucket.name)
        except ClientError:
            logger.exception(
                "Couldn't delete policy for bucket '%s'.", self.bucket.name
            )
            raise
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteBucketPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteObject`
<a name="s3_DeleteObject_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 
Hapus objek.  

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    def delete(self):
        """
        Deletes the object.
        """
        try:
            self.object.delete()
            self.object.wait_until_not_exists()
            logger.info(
                "Deleted object '%s' from bucket '%s'.",
                self.object.key,
                self.object.bucket_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't delete object '%s' from bucket '%s'.",
                self.object.key,
                self.object.bucket_name,
            )
            raise
```
Kembalikan objek ke versi sebelumnya dengan menghapus versi yang lebih baru dari objek tersebut.  

```
def rollback_object(bucket, object_key, version_id):
    """
    Rolls back an object to an earlier version by deleting all versions that
    occurred after the specified rollback version.

    Usage is shown in the usage_demo_single_object function at the end of this module.

    :param bucket: The bucket that holds the object to roll back.
    :param object_key: The object to roll back.
    :param version_id: The version ID to roll back to.
    """
    # Versions must be sorted by last_modified date because delete markers are
    # at the end of the list even when they are interspersed in time.
    versions = sorted(
        bucket.object_versions.filter(Prefix=object_key),
        key=attrgetter("last_modified"),
        reverse=True,
    )

    logger.debug(
        "Got versions:\n%s",
        "\n".join(
            [
                f"\t{version.version_id}, last modified {version.last_modified}"
                for version in versions
            ]
        ),
    )

    if version_id in [ver.version_id for ver in versions]:
        print(f"Rolling back to version {version_id}")
        for version in versions:
            if version.version_id != version_id:
                version.delete()
                print(f"Deleted version {version.version_id}")
            else:
                break

        print(f"Active version is now {bucket.Object(object_key).version_id}")
    else:
        raise KeyError(
            f"{version_id} was not found in the list of versions for " f"{object_key}."
        )
```
Aktifkan kembali objek yang dihapus dengan menghapus penanda hapus aktif objek.  

```
def revive_object(bucket, object_key):
    """
    Revives a versioned object that was deleted by removing the object's active
    delete marker.
    A versioned object presents as deleted when its latest version is a delete marker.
    By removing the delete marker, we make the previous version the latest version
    and the object then presents as *not* deleted.

    Usage is shown in the usage_demo_single_object function at the end of this module.

    :param bucket: The bucket that contains the object.
    :param object_key: The object to revive.
    """
    # Get the latest version for the object.
    response = s3.meta.client.list_object_versions(
        Bucket=bucket.name, Prefix=object_key, MaxKeys=1
    )

    if "DeleteMarkers" in response:
        latest_version = response["DeleteMarkers"][0]
        if latest_version["IsLatest"]:
            logger.info(
                "Object %s was indeed deleted on %s. Let's revive it.",
                object_key,
                latest_version["LastModified"],
            )
            obj = bucket.Object(object_key)
            obj.Version(latest_version["VersionId"]).delete()
            logger.info(
                "Revived %s, active version is now %s  with body '%s'",
                object_key,
                obj.version_id,
                obj.get()["Body"].read(),
            )
        else:
            logger.warning(
                "Delete marker is not the latest version for %s!", object_key
            )
    elif "Versions" in response:
        logger.warning("Got an active version for %s, nothing to do.", object_key)
    else:
        logger.error("Couldn't get any version info for %s.", object_key)
```
Buat penangan Lambda yang menghapus penanda hapus dari objek S3. Penangan ini dapat digunakan untuk membersihkan penanda hapus asing secara efisien dalam bucket berversi.  

```
import logging
from urllib import parse
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)
logger.setLevel("INFO")

s3 = boto3.client("s3")


def lambda_handler(event, context):
    """
    Removes a delete marker from the specified versioned object.

    :param event: The S3 batch event that contains the ID of the delete marker
                  to remove.
    :param context: Context about the event.
    :return: A result structure that Amazon S3 uses to interpret the result of the
             operation. When the result code is TemporaryFailure, S3 retries the
             operation.
    """
    # Parse job parameters from Amazon S3 batch operations
    invocation_id = event["invocationId"]
    invocation_schema_version = event["invocationSchemaVersion"]

    results = []
    result_code = None
    result_string = None

    task = event["tasks"][0]
    task_id = task["taskId"]

    try:
        obj_key = parse.unquote_plus(task["s3Key"], encoding="utf-8")
        obj_version_id = task["s3VersionId"]
        bucket_name = task["s3BucketArn"].split(":")[-1]

        logger.info(
            "Got task: remove delete marker %s from object %s.", obj_version_id, obj_key
        )

        try:
            # If this call does not raise an error, the object version is not a delete
            # marker and should not be deleted.
            response = s3.head_object(
                Bucket=bucket_name, Key=obj_key, VersionId=obj_version_id
            )
            result_code = "PermanentFailure"
            result_string = (
                f"Object {obj_key}, ID {obj_version_id} is not " f"a delete marker."
            )

            logger.debug(response)
            logger.warning(result_string)
        except ClientError as error:
            delete_marker = error.response["ResponseMetadata"]["HTTPHeaders"].get(
                "x-amz-delete-marker", "false"
            )
            if delete_marker == "true":
                logger.info(
                    "Object %s, version %s is a delete marker.", obj_key, obj_version_id
                )
                try:
                    s3.delete_object(
                        Bucket=bucket_name, Key=obj_key, VersionId=obj_version_id
                    )
                    result_code = "Succeeded"
                    result_string = (
                        f"Successfully removed delete marker "
                        f"{obj_version_id} from object {obj_key}."
                    )
                    logger.info(result_string)
                except ClientError as error:
                    # Mark request timeout as a temporary failure so it will be retried.
                    if error.response["Error"]["Code"] == "RequestTimeout":
                        result_code = "TemporaryFailure"
                        result_string = (
                            f"Attempt to remove delete marker from  "
                            f"object {obj_key} timed out."
                        )
                        logger.info(result_string)
                    else:
                        raise
            else:
                raise ValueError(
                    f"The x-amz-delete-marker header is either not "
                    f"present or is not 'true'."
                )
    except Exception as error:
        # Mark all other exceptions as permanent failures.
        result_code = "PermanentFailure"
        result_string = str(error)
        logger.exception(error)
    finally:
        results.append(
            {
                "taskId": task_id,
                "resultCode": result_code,
                "resultString": result_string,
            }
        )
    return {
        "invocationSchemaVersion": invocation_schema_version,
        "treatMissingKeysAs": "PermanentFailure",
        "invocationId": invocation_id,
        "results": results,
    }
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteObject)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteObjects`
<a name="s3_DeleteObjects_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 
Hapus satu set objek dengan menggunakan daftar kunci objek.  

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    @staticmethod
    def delete_objects(bucket, object_keys):
        """
        Removes a list of objects from a bucket.
        This operation is done as a batch in a single request.

        :param bucket: The bucket that contains the objects. This is a Boto3 Bucket
                       resource.
        :param object_keys: The list of keys that identify the objects to remove.
        :return: The response that contains data about which objects were deleted
                 and any that could not be deleted.
        """
        try:
            response = bucket.delete_objects(
                Delete={"Objects": [{"Key": key} for key in object_keys]}
            )
            if "Deleted" in response:
                logger.info(
                    "Deleted objects '%s' from bucket '%s'.",
                    [del_obj["Key"] for del_obj in response["Deleted"]],
                    bucket.name,
                )
            if "Errors" in response:
                logger.warning(
                    "Could not delete objects '%s' from bucket '%s'.",
                    [
                        f"{del_obj['Key']}: {del_obj['Code']}"
                        for del_obj in response["Errors"]
                    ],
                    bucket.name,
                )
        except ClientError:
            logger.exception("Couldn't delete any objects from bucket %s.", bucket.name)
            raise
        else:
            return response
```
Hapus semua objek dalam bucket.  

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    @staticmethod
    def empty_bucket(bucket):
        """
        Remove all objects from a bucket.

        :param bucket: The bucket to empty. This is a Boto3 Bucket resource.
        """
        try:
            bucket.objects.delete()
            logger.info("Emptied bucket '%s'.", bucket.name)
        except ClientError:
            logger.exception("Couldn't empty bucket '%s'.", bucket.name)
            raise
```
Hapus objek berversi secara permanen dengan menghapus semua versinya.  

```
def permanently_delete_object(bucket, object_key):
    """
    Permanently deletes a versioned object by deleting all of its versions.

    Usage is shown in the usage_demo_single_object function at the end of this module.

    :param bucket: The bucket that contains the object.
    :param object_key: The object to delete.
    """
    try:
        bucket.object_versions.filter(Prefix=object_key).delete()
        logger.info("Permanently deleted all versions of object %s.", object_key)
    except ClientError:
        logger.exception("Couldn't delete all versions of %s.", object_key)
        raise
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteObjects)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetBucketAcl`
<a name="s3_GetBucketAcl_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketAcl`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def get_acl(self):
        """
        Get the ACL of the bucket.

        :return: The ACL of the bucket.
        """
        try:
            acl = self.bucket.Acl()
            logger.info(
                "Got ACL for bucket %s. Owner is %s.", self.bucket.name, acl.owner
            )
        except ClientError:
            logger.exception("Couldn't get ACL for bucket %s.", self.bucket.name)
            raise
        else:
            return acl
```
+  Untuk detail API, lihat [GetBucketAcl](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetBucketAcl)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetBucketCors`
<a name="s3_GetBucketCors_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketCors`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def get_cors(self):
        """
        Get the CORS rules for the bucket.

        :return The CORS rules for the specified bucket.
        """
        try:
            cors = self.bucket.Cors()
            logger.info(
                "Got CORS rules %s for bucket '%s'.", cors.cors_rules, self.bucket.name
            )
        except ClientError:
            logger.exception(("Couldn't get CORS for bucket %s.", self.bucket.name))
            raise
        else:
            return cors
```
+  Untuk detail API, lihat [GetBucketCors](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetBucketCors)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetBucketLifecycleConfiguration`
<a name="s3_GetBucketLifecycleConfiguration_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketLifecycleConfiguration`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def get_lifecycle_configuration(self):
        """
        Get the lifecycle configuration of the bucket.

        :return: The lifecycle rules of the specified bucket.
        """
        try:
            config = self.bucket.LifecycleConfiguration()
            logger.info(
                "Got lifecycle rules %s for bucket '%s'.",
                config.rules,
                self.bucket.name,
            )
        except:
            logger.exception(
                "Couldn't get lifecycle rules for bucket '%s'.", self.bucket.name
            )
            raise
        else:
            return config.rules
```
+  Untuk detail API, lihat [GetBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetBucketLifecycleConfiguration)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetBucketPolicy`
<a name="s3_GetBucketPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def get_policy(self):
        """
        Get the security policy of the bucket.

        :return: The security policy of the specified bucket, in JSON format.
        """
        try:
            policy = self.bucket.Policy()
            logger.info(
                "Got policy %s for bucket '%s'.", policy.policy, self.bucket.name
            )
        except ClientError:
            logger.exception("Couldn't get policy for bucket '%s'.", self.bucket.name)
            raise
        else:
            return json.loads(policy.policy)
```
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetBucketPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetObject`
<a name="s3_GetObject_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    def get(self):
        """
        Gets the object.

        :return: The object data in bytes.
        """
        try:
            body = self.object.get()["Body"].read()
            logger.info(
                "Got object '%s' from bucket '%s'.",
                self.object.key,
                self.object.bucket_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't get object '%s' from bucket '%s'.",
                self.object.key,
                self.object.bucket_name,
            )
            raise
        else:
            return body
```
Dapatkan objek menggunakan permintaan bersyarat.  

```
class S3ConditionalRequests:
    """Encapsulates S3 conditional request operations."""

    def __init__(self, s3_client):
        self.s3 = s3_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        s3_client = boto3.client("s3")
        return cls(s3_client)



    def get_object_conditional(
        self,
        object_key: str,
        source_bucket: str,
        condition_type: str,
        condition_value: str,
    ):
        """
        Retrieves an object from Amazon S3 with a conditional request.

        :param object_key: The key of the object to retrieve.
        :param source_bucket: The source bucket of the object.
        :param condition_type: The type of condition: 'IfMatch', 'IfNoneMatch', 'IfModifiedSince', 'IfUnmodifiedSince'.
        :param condition_value: The value to use for the condition.
        """
        try:
            response = self.s3.get_object(
                Bucket=source_bucket,
                Key=object_key,
                **{condition_type: condition_value},
            )
            sample_bytes = response["Body"].read(20)
            print(
                f"\tConditional read successful. Here are the first 20 bytes of the object:\n"
            )
            print(f"\t{sample_bytes}")
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            if error_code == "PreconditionFailed":
                print("\tConditional read failed: Precondition failed")
            elif error_code == "304":  # Not modified error code.
                print("\tConditional read failed: Object not modified")
            else:
                logger.error(f"Unexpected error: {error_code}")
                raise
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetObject)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetObjectAcl`
<a name="s3_GetObjectAcl_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectAcl`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    def get_acl(self):
        """
        Gets the ACL of the object.

        :return: The ACL of the object.
        """
        try:
            acl = self.object.Acl()
            logger.info(
                "Got ACL for object %s owned by %s.",
                self.object.key,
                acl.owner["DisplayName"],
            )
        except ClientError:
            logger.exception("Couldn't get ACL for object %s.", self.object.key)
            raise
        else:
            return acl
```
+  Untuk detail API, lihat [GetObjectAcl](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetObjectAcl)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetObjectLegalHold`
<a name="s3_GetObjectLegalHold_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLegalHold`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/object-locking#code-examples). 
Letakkan benda penahanan hukum.  

```
def get_legal_hold(s3_client, bucket: str, key: str) -> None:
    """
    Get the legal hold status of a specific file in a bucket.

    Args:
        s3_client: Boto3 S3 client.
        bucket: The name of the bucket containing the file.
        key: The key of the file to get the legal hold status of.
    """
    print()
    logger.info("Getting legal hold status of file [%s] in bucket [%s]", key, bucket)
    try:
        response = s3_client.get_object_legal_hold(Bucket=bucket, Key=key)
        legal_hold_status = response["LegalHold"]["Status"]
        logger.debug(
            "Legal hold status of file [%s] in bucket [%s] is [%s]",
            key,
            bucket,
            legal_hold_status,
        )
    except Exception as e:
        logger.error(
            "Failed to get legal hold status of file [%s] in bucket [%s]: %s",
            key,
            bucket,
            e,
        )
```
+  Untuk detail API, lihat [GetObjectLegalHold](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetObjectLegalHold)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetObjectLockConfiguration`
<a name="s3_GetObjectLockConfiguration_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLockConfiguration`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/object-locking#code-examples). 
Dapatkan konfigurasi kunci objek.  

```
def is_object_lock_enabled(s3_client, bucket: str) -> bool:
    """
    Check if object lock is enabled for a bucket.

    Args:
        s3_client: Boto3 S3 client.
        bucket: The name of the bucket to check.

    Returns:
        True if object lock is enabled, False otherwise.
    """
    try:
        response = s3_client.get_object_lock_configuration(Bucket=bucket)
        return (
            "ObjectLockConfiguration" in response
            and response["ObjectLockConfiguration"]["ObjectLockEnabled"] == "Enabled"
        )
    except s3_client.exceptions.ClientError as e:
        if e.response["Error"]["Code"] == "ObjectLockConfigurationNotFoundError":
            return False
        else:
            raise
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetObjectLockConfiguration)di *AWS SDK for Python (Boto3) Referensi* API. 

### `HeadBucket`
<a name="s3_HeadBucket_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`HeadBucket`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def exists(self):
        """
        Determine whether the bucket exists and you have access to it.

        :return: True when the bucket exists; otherwise, False.
        """
        try:
            self.bucket.meta.client.head_bucket(Bucket=self.bucket.name)
            logger.info("Bucket %s exists.", self.bucket.name)
            exists = True
        except ClientError:
            logger.warning(
                "Bucket %s doesn't exist or you don't have access to it.",
                self.bucket.name,
            )
            exists = False
        return exists
```
+  Untuk detail API, lihat [HeadBucket](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/HeadBucket)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListBuckets`
<a name="s3_ListBuckets_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    @staticmethod
    def list(s3_resource):
        """
        Get the buckets in all Regions for the current account.

        :param s3_resource: A Boto3 S3 resource. This is a high-level resource in Boto3
                            that contains collections and factory methods to create
                            other high-level S3 sub-resources.
        :return: The list of buckets.
        """
        try:
            buckets = list(s3_resource.buckets.all())
            logger.info("Got buckets: %s.", buckets)
        except ClientError:
            logger.exception("Couldn't get buckets.")
            raise
        else:
            return buckets
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/ListBuckets)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    @staticmethod
    def list(bucket, prefix=None):
        """
        Lists the objects in a bucket, optionally filtered by a prefix.

        :param bucket: The bucket to query. This is a Boto3 Bucket resource.
        :param prefix: When specified, only objects that start with this prefix are listed.
        :return: The list of objects.
        """
        try:
            if not prefix:
                objects = list(bucket.objects.all())
            else:
                objects = list(bucket.objects.filter(Prefix=prefix))
            logger.info(
                "Got objects %s from bucket '%s'", [o.key for o in objects], bucket.name
            )
        except ClientError:
            logger.exception("Couldn't get objects for bucket '%s'.", bucket.name)
            raise
        else:
            return objects
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/ListObjectsV2) di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutBucketAcl`
<a name="s3_PutBucketAcl_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketAcl`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def grant_log_delivery_access(self):
        """
        Grant the AWS Log Delivery group write access to the bucket so that
        Amazon S3 can deliver access logs to the bucket. This is the only recommended
        use of an S3 bucket ACL.
        """
        try:
            acl = self.bucket.Acl()
            # Putting an ACL overwrites the existing ACL. If you want to preserve
            # existing grants, append new grants to the list of existing grants.
            grants = acl.grants if acl.grants else []
            grants.append(
                {
                    "Grantee": {
                        "Type": "Group",
                        "URI": "http://acs.amazonaws.com/groups/s3/LogDelivery",
                    },
                    "Permission": "WRITE",
                }
            )
            acl.put(AccessControlPolicy={"Grants": grants, "Owner": acl.owner})
            logger.info("Granted log delivery access to bucket '%s'", self.bucket.name)
        except ClientError:
            logger.exception("Couldn't add ACL to bucket '%s'.", self.bucket.name)
            raise
```
+  Untuk detail API, lihat [PutBucketAcl](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutBucketAcl)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutBucketCors`
<a name="s3_PutBucketCors_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketCors`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def put_cors(self, cors_rules):
        """
        Apply CORS rules to the bucket. CORS rules specify the HTTP actions that are
        allowed from other domains.

        :param cors_rules: The CORS rules to apply.
        """
        try:
            self.bucket.Cors().put(CORSConfiguration={"CORSRules": cors_rules})
            logger.info(
                "Put CORS rules %s for bucket '%s'.", cors_rules, self.bucket.name
            )
        except ClientError:
            logger.exception("Couldn't put CORS rules for bucket %s.", self.bucket.name)
            raise
```
+  Untuk detail API, lihat [PutBucketCors](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutBucketCors)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutBucketLifecycleConfiguration`
<a name="s3_PutBucketLifecycleConfiguration_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketLifecycleConfiguration`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def put_lifecycle_configuration(self, lifecycle_rules):
        """
        Apply a lifecycle configuration to the bucket. The lifecycle configuration can
        be used to archive or delete the objects in the bucket according to specified
        parameters, such as a number of days.

        :param lifecycle_rules: The lifecycle rules to apply.
        """
        try:
            self.bucket.LifecycleConfiguration().put(
                LifecycleConfiguration={"Rules": lifecycle_rules}
            )
            logger.info(
                "Put lifecycle rules %s for bucket '%s'.",
                lifecycle_rules,
                self.bucket.name,
            )
        except ClientError:
            logger.exception(
                "Couldn't put lifecycle rules for bucket '%s'.", self.bucket.name
            )
            raise
```
+  Untuk detail API, lihat [PutBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutBucketLifecycleConfiguration)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutBucketPolicy`
<a name="s3_PutBucketPolicy_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketPolicy`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def put_policy(self, policy):
        """
        Apply a security policy to the bucket. Policies control users' ability
        to perform specific actions, such as listing the objects in the bucket.

        :param policy: The policy to apply to the bucket.
        """
        try:
            self.bucket.Policy().put(Policy=json.dumps(policy))
            logger.info("Put policy %s for bucket '%s'.", policy, self.bucket.name)
        except ClientError:
            logger.exception("Couldn't apply policy to bucket '%s'.", self.bucket.name)
            raise
```
+  Untuk detail API, lihat [PutBucketPolicy](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutBucketPolicy)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutObject`
<a name="s3_PutObject_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    def put(self, data):
        """
        Upload data to the object.

        :param data: The data to upload. This can either be bytes or a string. When this
                     argument is a string, it is interpreted as a file name, which is
                     opened in read bytes mode.
        """
        put_data = data
        if isinstance(data, str):
            try:
                put_data = open(data, "rb")
            except IOError:
                logger.exception("Expected file name or binary data, got '%s'.", data)
                raise

        try:
            self.object.put(Body=put_data)
            self.object.wait_until_exists()
            logger.info(
                "Put object '%s' to bucket '%s'.",
                self.object.key,
                self.object.bucket_name,
            )
        except ClientError:
            logger.exception(
                "Couldn't put object '%s' to bucket '%s'.",
                self.object.key,
                self.object.bucket_name,
            )
            raise
        finally:
            if getattr(put_data, "close", None):
                put_data.close()
```
Unggah objek menggunakan permintaan bersyarat.  

```
class S3ConditionalRequests:
    """Encapsulates S3 conditional request operations."""

    def __init__(self, s3_client):
        self.s3 = s3_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        s3_client = boto3.client("s3")
        return cls(s3_client)



    def put_object_conditional(self, object_key: str, source_bucket: str, data: bytes):
        """
        Uploads an object to Amazon S3 with a conditional request. Prevents overwrite
        using an IfNoneMatch condition for the object key.

        :param object_key: The key of the object to upload.
        :param source_bucket: The source bucket of the object.
        :param data: The data to upload.
        """
        try:
            self.s3.put_object(
                Bucket=source_bucket, Key=object_key, Body=data, IfNoneMatch="*"
            )
            print(
                f"\tConditional write successful for key {object_key} in bucket {source_bucket}."
            )
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            if error_code == "PreconditionFailed":
                print("\tConditional write failed: Precondition failed")
            else:
                logger.error(f"Unexpected error: {error_code}")
                raise
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutObject)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutObjectAcl`
<a name="s3_PutObjectAcl_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectAcl`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 

```
class ObjectWrapper:
    """Encapsulates S3 object actions."""

    def __init__(self, s3_object):
        """
        :param s3_object: A Boto3 Object resource. This is a high-level resource in Boto3
                          that wraps object actions in a class-like structure.
        """
        self.object = s3_object
        self.key = self.object.key


    def put_acl(self, email):
        """
        Applies an ACL to the object that grants read access to an AWS user identified
        by email address.

        :param email: The email address of the user to grant access.
        """
        try:
            acl = self.object.Acl()
            # Putting an ACL overwrites the existing ACL, so append new grants
            # if you want to preserve existing grants.
            grants = acl.grants if acl.grants else []
            grants.append(
                {
                    "Grantee": {"Type": "AmazonCustomerByEmail", "EmailAddress": email},
                    "Permission": "READ",
                }
            )
            acl.put(AccessControlPolicy={"Grants": grants, "Owner": acl.owner})
            logger.info("Granted read access to %s.", email)
        except ClientError:
            logger.exception("Couldn't add ACL to object '%s'.", self.object.key)
            raise
```
+  Untuk detail API, lihat [PutObjectAcl](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutObjectAcl)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutObjectLegalHold`
<a name="s3_PutObjectLegalHold_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLegalHold`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/object-locking#code-examples). 
Letakkan benda penahanan hukum.  

```
def set_legal_hold(s3_client, bucket: str, key: str) -> None:
    """
    Set a legal hold on a specific file in a bucket.

    Args:
        s3_client: Boto3 S3 client.
        bucket: The name of the bucket containing the file.
        key: The key of the file to set the legal hold on.
    """
    print()
    logger.info("Setting legal hold on file [%s] in bucket [%s]", key, bucket)
    try:
        before_status = "OFF"
        after_status = "ON"
        s3_client.put_object_legal_hold(
            Bucket=bucket, Key=key, LegalHold={"Status": after_status}
        )
        logger.debug(
            "Legal hold set successfully on file [%s] in bucket [%s]", key, bucket
        )
        _print_legal_hold_update(bucket, key, before_status, after_status)
    except Exception as e:
        logger.error(
            "Failed to set legal hold on file [%s] in bucket [%s]: %s", key, bucket, e
        )
```
+  Untuk detail API, lihat [PutObjectLegalHold](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutObjectLegalHold)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutObjectLockConfiguration`
<a name="s3_PutObjectLockConfiguration_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLockConfiguration`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/object-locking#code-examples). 
Letakkan konfigurasi kunci objek.  

```
        s3_client.put_object_lock_configuration(
            Bucket=bucket,
            ObjectLockConfiguration={"ObjectLockEnabled": "Disabled", "Rule": {}},
        )
```
+  Untuk detail API, lihat [PutObjectLockConfiguration](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutObjectLockConfiguration)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutObjectRetention`
<a name="s3_PutObjectRetention_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectRetention`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/object-locking#code-examples). 
Letakkan retensi objek.  

```
            s3_client.put_object_retention(
                Bucket=bucket,
                Key=key,
                VersionId=version_id,
                Retention={"Mode": "GOVERNANCE", "RetainUntilDate": far_future_date},
                BypassGovernanceRetention=True,
            )
```
+  Untuk detail API, lihat [PutObjectRetention](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutObjectRetention)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_basics#code-examples). 
Buat URL yang telah ditetapkan sebelumnya yang dapat melakukan tindakan S3 untuk waktu yang terbatas. Gunakan paket Permintaan untuk membuat permintaan dengan URL.  

```
import argparse
import logging
import boto3
from botocore.exceptions import ClientError
import requests

logger = logging.getLogger(__name__)


def generate_presigned_url(s3_client, client_method, method_parameters, expires_in):
    """
    Generate a presigned Amazon S3 URL that can be used to perform an action.

    :param s3_client: A Boto3 Amazon S3 client.
    :param client_method: The name of the client method that the URL performs.
    :param method_parameters: The parameters of the specified client method.
    :param expires_in: The number of seconds the presigned URL is valid for.
    :return: The presigned URL.
    """
    try:
        url = s3_client.generate_presigned_url(
            ClientMethod=client_method, Params=method_parameters, ExpiresIn=expires_in
        )
        logger.info("Got presigned URL: %s", url)
    except ClientError:
        logger.exception(
            "Couldn't get a presigned URL for client method '%s'.", client_method
        )
        raise
    return url


def usage_demo():
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print("Welcome to the Amazon S3 presigned URL demo.")
    print("-" * 88)

    parser = argparse.ArgumentParser()
    parser.add_argument("bucket", help="The name of the bucket.")
    parser.add_argument(
        "key",
        help="For a GET operation, the key of the object in Amazon S3. For a "
        "PUT operation, the name of a file to upload.",
    )
    parser.add_argument("action", choices=("get", "put"), help="The action to perform.")
    args = parser.parse_args()

    s3_client = boto3.client("s3")
    client_action = "get_object" if args.action == "get" else "put_object"
    url = generate_presigned_url(
        s3_client, client_action, {"Bucket": args.bucket, "Key": args.key}, 1000
    )

    print("Using the Requests package to send a request to the URL.")
    response = None
    if args.action == "get":
        response = requests.get(url)
        if response.status_code == 200:
            with open(args.key.split("/")[-1], 'wb') as object_file:
                object_file.write(response.content)
    elif args.action == "put":
        print("Putting data to the URL.")
        try:
            with open(args.key, "rb") as object_file:
                object_text = object_file.read()
            response = requests.put(url, data=object_text)
        except FileNotFoundError:
            print(
                f"Couldn't find {args.key}. For a PUT operation, the key must be the "
                f"name of a file that exists on your computer."
            )

    if response is not None:
        print(f"Status: {response.status_code}\nReason: {response.reason}")

    print("-" * 88)


if __name__ == "__main__":
    usage_demo()
```
Buat permintaan POST yang telah ditetapkan sebelumnya untuk mengunggah file.  

```
class BucketWrapper:
    """Encapsulates S3 bucket actions."""

    def __init__(self, bucket):
        """
        :param bucket: A Boto3 Bucket resource. This is a high-level resource in Boto3
                       that wraps bucket actions in a class-like structure.
        """
        self.bucket = bucket
        self.name = bucket.name


    def generate_presigned_post(self, object_key, expires_in):
        """
        Generate a presigned Amazon S3 POST request to upload a file.
        A presigned POST can be used for a limited time to let someone without an AWS
        account upload a file to a bucket.

        :param object_key: The object key to identify the uploaded object.
        :param expires_in: The number of seconds the presigned POST is valid.
        :return: A dictionary that contains the URL and form fields that contain
                 required access data.
        """
        try:
            response = self.bucket.meta.client.generate_presigned_post(
                Bucket=self.bucket.name, Key=object_key, ExpiresIn=expires_in
            )
            logger.info("Got presigned POST URL: %s", response["url"])
        except ClientError:
            logger.exception(
                "Couldn't get a presigned POST URL for bucket '%s' and object '%s'",
                self.bucket.name,
                object_key,
            )
            raise
        return response
```

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan Amazon Textract untuk mendeteksi elemen teks, formulir, dan tabel dalam gambar dokumen. AWS SDK untuk Python (Boto3) Gambar input dan output Amazon Textract ditampilkan dalam aplikasi Tkinter yang memungkinkan Anda menjelajahi elemen yang terdeteksi.   
+ Kirim gambar dokumen ke Amazon Textract dan jelajahi output elemen yang terdeteksi.
+ Kirim gambar langsung ke Amazon Textract atau melalui bucket Amazon Simple Storage Service (Amazon S3).
+ Gunakan asinkron APIs untuk memulai pekerjaan yang menerbitkan pemberitahuan ke topik Simple Notification Service Amazon (Amazon SNS) saat pekerjaan selesai.
+ Lakukan polling pada antrean Amazon Simple Queue Service (Amazon SQS) untuk mendapatkan pesan penyelesaian tugas dan tampilkan hasilnya.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_explorer).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

### Mendeteksi entitas dalam teks yang diekstrak dari gambar
<a name="cross_TextractComprehendDetectEntities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Amazon Comprehend untuk mendeteksi entitas dalam teks yang diekstrak oleh Amazon Textract dari gambar yang disimpan di Amazon S3.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) dalam buku catatan Jupyter untuk mendeteksi entitas dalam teks yang diekstraksi dari gambar. Contoh ini menggunakan Amazon Textract untuk mengekstrak teks dari gambar yang disimpan di Amazon Simple Storage Service (Amazon S3) dan Amazon Comprehend untuk mendeteksi entitas dalam teks yang diekstraksi.   
 Contoh ini adalah notebook Jupyter dan harus dijalankan di lingkungan yang dapat meng-host notebook. Untuk petunjuk tentang cara menjalankan contoh menggunakan Amazon SageMaker AI, lihat petunjuk di [TextractAndComprehendNotebook.ipynb](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_comprehend_notebook/TextractAndComprehendNotebook.ipynb).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_comprehend_notebook#readme).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon S3
+ Amazon Textract

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat aplikasi web yang memungkinkan Anda melakukan hal berikut:   
+ Mengunggah foto ke bucket Amazon Simple Storage Service (Amazon S3).
+ Menggunakan Amazon Rekognition untuk menganalisis dan memberi label pada foto.
+ Menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan email analisis gambar.
 Contoh ini berisi dua komponen utama: halaman web yang ditulis di dalamnya JavaScript yang dibangun dengan React, dan layanan REST yang ditulis dengan Python yang dibangun dengan Flask-. RESTful   
Anda dapat menggunakan halaman web React untuk:  
+ Menampilkan daftar gambar yang disimpan di bucket S3 Anda.
+ Mengunggah gambar dari komputer ke bucket S3.
+ Menampilkan gambar dan label yang mengidentifikasi item yang terdeteksi dalam gambar.
+ Mendapatkan laporan semua gambar di bucket S3 Anda dan mengirimkan email laporan tersebut.
Halaman web memanggil layanan REST. Layanan mengirimkan permintaan ke AWS untuk melakukan tindakan berikut:   
+ Mendapatkan dan memfilter daftar gambar dalam bucket S3 Anda.
+ Merngunggah foto ke bucket S3 Anda.
+ Menggunakan Amazon Rekognition untuk menganalisis foto individual dan mendapatkan daftar label yang mengidentifikasi item yang terdeteksi dalam foto.
+ Menganlisis semua foto di bucket S3 Anda dan menggunakan Amazon SES untuk mengirim laporan melalui email.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/photo_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Python (Boto3)**  
 Gunakan Amazon Rekognition untuk mendeteksi wajah, objek, dan orang dalam video dengan memulai tugas deteksi asinkron. Contoh ini juga mengonfigurasi Amazon Rekognition untuk memberi tahu topik Amazon Simple Notification Service (Amazon SNS) saat pekerjaan selesai dan berlangganan antrian Amazon Simple Queue Service (Amazon SQS) ke topik tersebut. Ketika antrian menerima pesan tentang pekerjaan, pekerjaan diambil dan hasilnya adalah output.   
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

### Buat permintaan bersyarat
<a name="s3_Scenario_ConditionalRequests_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menambahkan prasyarat ke permintaan Amazon S3.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/conditional_requests#code-examples). 
Jalankan skenario interaktif yang menunjukkan permintaan bersyarat Amazon S3.  

```
"""
Purpose

Shows how to use AWS SDK for Python (Boto3) to get started using conditional requests for
Amazon Simple Storage Service (Amazon S3).

"""

import logging
import random
import sys
import datetime

import boto3
from botocore.exceptions import ClientError

from s3_conditional_requests import S3ConditionalRequests

# Add relative path to include demo_tools in this code example without need for setup.
sys.path.append("../../../..")
import demo_tools.question as q  # noqa

# Constants
FILE_CONTENT = "This is a test file for S3 conditional requests."
RANDOM_SUFFIX = str(random.randint(100, 999))

logger = logging.getLogger(__name__)


class ConditionalRequestsScenario:
    """Runs a scenario that shows how to use S3 Conditional Requests."""

    def __init__(self, conditional_requests, s3_client):
        """
        :param conditional_requests: An object that wraps S3 conditional request actions.
        :param s3_client: A Boto3 S3 client for setup and cleanup operations.
        """
        self.conditional_requests = conditional_requests
        self.s3_client = s3_client

    def setup_scenario(self, source_bucket: str, dest_bucket: str, object_key: str):
        """
        Sets up the scenario by creating a source and destination bucket.
        Prompts the user to provide a bucket name prefix.

        :param source_bucket: The name of the source bucket.
        :param dest_bucket: The name of the destination bucket.
        :param object_key: The name of a test file to add to the source bucket.
        """

        # Create the buckets.
        try:
            self.s3_client.create_bucket(Bucket=source_bucket)
            self.s3_client.create_bucket(Bucket=dest_bucket)
            print(
                f"Created source bucket: {source_bucket} and destination bucket: {dest_bucket}"
            )
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            logger.error(f"Error creating buckets: {error_code}")
            raise

        # Upload test file into the source bucket.
        try:
            print(f"Uploading file {object_key} to bucket {source_bucket}")
            response = self.s3_client.put_object(
                Bucket=source_bucket, Key=object_key, Body=FILE_CONTENT
            )
            object_etag = response["ETag"]
            return object_etag

        except Exception as e:
            logger.error(
                f"Failed to upload file {object_key} to bucket {source_bucket}: {e}"
            )


    def cleanup_scenario(self, source_bucket: str, dest_bucket: str):
        """
        Cleans up the scenario by deleting the source and destination buckets.

        :param source_bucket: The name of the source bucket.
        :param dest_bucket: The name of the destination bucket.
        """
        self.cleanup_bucket(source_bucket)
        self.cleanup_bucket(dest_bucket)

    def cleanup_bucket(self, bucket_name: str):
        """
        Cleans up the bucket by deleting all objects and then the bucket itself.

        :param bucket_name: The name of the bucket.
        """
        try:
            # Get list of all objects in the bucket.
            list_response = self.s3_client.list_objects_v2(Bucket=bucket_name)
            objs = list_response.get("Contents", [])
            for obj in objs:
                key = obj["Key"]
                self.s3_client.delete_object(Bucket=bucket_name, Key=key)
            self.s3_client.delete_bucket(Bucket=bucket_name)
            print(f"Cleaned up bucket: {bucket_name}.")
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            if error_code == "NoSuchBucket":
                logger.info(f"Bucket {bucket_name} does not exist, skipping cleanup.")
            else:
                logger.error(f"Error deleting bucket: {error_code}")
                raise


    def display_buckets(self, source_bucket: str, dest_bucket: str):
        """
        Display a list of the objects in the test buckets.

        :param source_bucket: The name of the source bucket.
        :param dest_bucket: The name of the destination bucket.
        """
        self.list_bucket_contents(source_bucket)
        self.list_bucket_contents(dest_bucket)

    def list_bucket_contents(self, bucket_name):
        """
        Display a list of the objects in the bucket.

        :param bucket_name: The name of the bucket.
        """
        try:
            # Get list of all objects in the bucket.
            print(f"\t Items in bucket {bucket_name}")
            list_response = self.s3_client.list_objects_v2(Bucket=bucket_name)
            objs = list_response.get("Contents", [])
            if not objs:
                print("\t\tNo objects found.")
            for obj in objs:
                key = obj["Key"]
                print(f"\t\t object: {key} ETag {obj['ETag']}")
            return objs
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            if error_code == "NoSuchBucket":
                logger.info(f"Bucket {bucket_name} does not exist.")
            else:
                logger.error(f"Error listing bucket and objects: {error_code}")
                raise


    def display_menu(
        self, source_bucket: str, dest_bucket: str, object_key: str, etag: str
    ):
        """
        Displays the menu of conditional request options for the user.

        :param source_bucket: The name of the source bucket.
        :param dest_bucket: The name of the destination bucket.
        :param object_key: The key of the test object in the source bucket.
        :param etag: The etag of the test object in the source bucket.
        """

        actions = [
            "Print list of bucket items.",
            "Perform a conditional read.",
            "Perform a conditional copy.",
            "Perform a conditional write.",
            "Clean up and exit.",
        ]

        conditions = [
            "If-Match: using the object's ETag. This condition should succeed.",
            "If-None-Match: using the object's ETag. This condition should fail.",
            "If-Modified-Since: using yesterday's date. This condition should succeed.",
            "If-Unmodified-Since: using yesterday's date. This condition should fail.",
        ]

        condition_types = [
            "IfMatch",
            "IfNoneMatch",
            "IfModifiedSince",
            "IfUnmodifiedSince",
        ]
        copy_condition_types = [
            "CopySourceIfMatch",
            "CopySourceIfNoneMatch",
            "CopySourceIfModifiedSince",
            "CopySourceIfUnmodifiedSince",
        ]

        yesterday_date = datetime.datetime.utcnow() - datetime.timedelta(days=1)

        choice = 0
        while choice != 4:
            print("-" * 88)
            print("Choose an action to explore some example conditional requests.")
            choice = q.choose("Which action would you like to take? ", actions)
            if choice == 0:
                print("Listing the objects and buckets.")
                self.display_buckets(source_bucket, dest_bucket)
            elif choice == 1:
                print("Perform a conditional read.")
                condition_type = q.choose("Enter the condition type : ", conditions)
                if condition_type == 0 or condition_type == 1:
                    self.conditional_requests.get_object_conditional(
                        object_key, source_bucket, condition_types[condition_type], etag
                    )
                elif condition_type == 2 or condition_type == 3:
                    self.conditional_requests.get_object_conditional(
                        object_key,
                        source_bucket,
                        condition_types[condition_type],
                        yesterday_date,
                    )
            elif choice == 2:
                print("Perform a conditional copy.")
                condition_type = q.choose("Enter the condition type : ", conditions)
                dest_key = q.ask("Enter an object key: ", q.non_empty)
                if condition_type == 0 or condition_type == 1:
                    self.conditional_requests.copy_object_conditional(
                        object_key,
                        dest_key,
                        source_bucket,
                        dest_bucket,
                        copy_condition_types[condition_type],
                        etag,
                    )
                elif condition_type == 2 or condition_type == 3:
                    self.conditional_requests.copy_object_conditional(
                        object_key,
                        dest_key,
                        copy_condition_types[condition_type],
                        yesterday_date,
                    )
            elif choice == 3:
                print(
                    "Perform a conditional write using IfNoneMatch condition on the object key."
                )
                print("If the key is a duplicate, the write will fail.")
                object_key = q.ask("Enter an object key: ", q.non_empty)
                self.conditional_requests.put_object_conditional(
                    object_key, source_bucket, b"Conditional write example data."
                )
            elif choice == 4:
                print("Proceeding to cleanup.")


    def run_scenario(self):
        """
        Runs the interactive scenario.
        """
        print("-" * 88)
        print("Welcome to the Amazon S3 conditional requests example.")
        print("-" * 88)

        print(
            f"""\
        This example demonstrates the use of conditional requests for S3 operations.
        You can use conditional requests to add preconditions to S3 read requests to return or copy
        an object based on its Entity tag (ETag), or last modified date. 
        You can use a conditional write requests to prevent overwrites by ensuring 
        there is no existing object with the same key. 
        
        This example will allow you to perform conditional reads
        and writes that will succeed or fail based on your selected options.
        
        Sample buckets and a sample object will be created as part of the example.
        """
        )

        bucket_prefix = q.ask("Enter a bucket name prefix: ", q.non_empty)
        source_bucket_name = f"{bucket_prefix}-source-{RANDOM_SUFFIX}"
        dest_bucket_name = f"{bucket_prefix}-dest-{RANDOM_SUFFIX}"
        object_key = "test-upload-file.txt"

        try:
            etag = self.setup_scenario(source_bucket_name, dest_bucket_name, object_key)
            self.display_menu(source_bucket_name, dest_bucket_name, object_key, etag)
        finally:
            self.cleanup_scenario(source_bucket_name, dest_bucket_name)

        print("-" * 88)
        print("Thanks for watching.")
        print("-" * 88)


if __name__ == "__main__":
    scenario = ConditionalRequestsScenario(
        S3ConditionalRequests.from_client(), boto3.client("s3")
    )
    scenario.run_scenario()
```
Kelas pembungkus yang mendefinisikan operasi permintaan bersyarat.  

```
import boto3
import logging

from botocore.exceptions import ClientError

# Configure logging
logger = logging.getLogger(__name__)


class S3ConditionalRequests:
    """Encapsulates S3 conditional request operations."""

    def __init__(self, s3_client):
        self.s3 = s3_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        s3_client = boto3.client("s3")
        return cls(s3_client)



    def get_object_conditional(
        self,
        object_key: str,
        source_bucket: str,
        condition_type: str,
        condition_value: str,
    ):
        """
        Retrieves an object from Amazon S3 with a conditional request.

        :param object_key: The key of the object to retrieve.
        :param source_bucket: The source bucket of the object.
        :param condition_type: The type of condition: 'IfMatch', 'IfNoneMatch', 'IfModifiedSince', 'IfUnmodifiedSince'.
        :param condition_value: The value to use for the condition.
        """
        try:
            response = self.s3.get_object(
                Bucket=source_bucket,
                Key=object_key,
                **{condition_type: condition_value},
            )
            sample_bytes = response["Body"].read(20)
            print(
                f"\tConditional read successful. Here are the first 20 bytes of the object:\n"
            )
            print(f"\t{sample_bytes}")
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            if error_code == "PreconditionFailed":
                print("\tConditional read failed: Precondition failed")
            elif error_code == "304":  # Not modified error code.
                print("\tConditional read failed: Object not modified")
            else:
                logger.error(f"Unexpected error: {error_code}")
                raise



    def put_object_conditional(self, object_key: str, source_bucket: str, data: bytes):
        """
        Uploads an object to Amazon S3 with a conditional request. Prevents overwrite
        using an IfNoneMatch condition for the object key.

        :param object_key: The key of the object to upload.
        :param source_bucket: The source bucket of the object.
        :param data: The data to upload.
        """
        try:
            self.s3.put_object(
                Bucket=source_bucket, Key=object_key, Body=data, IfNoneMatch="*"
            )
            print(
                f"\tConditional write successful for key {object_key} in bucket {source_bucket}."
            )
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            if error_code == "PreconditionFailed":
                print("\tConditional write failed: Precondition failed")
            else:
                logger.error(f"Unexpected error: {error_code}")
                raise


    def copy_object_conditional(
        self,
        source_key: str,
        dest_key: str,
        source_bucket: str,
        dest_bucket: str,
        condition_type: str,
        condition_value: str,
    ):
        """
        Copies an object from one Amazon S3 bucket to another with a conditional request.

        :param source_key: The key of the source object to copy.
        :param dest_key: The key of the destination object.
        :param source_bucket: The source bucket of the object.
        :param dest_bucket: The destination bucket of the object.
        :param condition_type: The type of condition to apply, e.g.
        'CopySourceIfMatch', 'CopySourceIfNoneMatch', 'CopySourceIfModifiedSince', 'CopySourceIfUnmodifiedSince'.
        :param condition_value: The value to use for the condition.
        """
        try:
            self.s3.copy_object(
                Bucket=dest_bucket,
                Key=dest_key,
                CopySource={"Bucket": source_bucket, "Key": source_key},
                **{condition_type: condition_value},
            )
            print(
                f"\tConditional copy successful for key {dest_key} in bucket {dest_bucket}."
            )
        except ClientError as e:
            error_code = e.response["Error"]["Code"]
            if error_code == "PreconditionFailed":
                print("\tConditional copy failed: Precondition failed")
            elif error_code == "304":  # Not modified error code.
                print("\tConditional copy failed: Object not modified")
            else:
                logger.error(f"Unexpected error: {error_code}")
                raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CopyObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CopyObject)
  + [GetObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetObject)
  + [PutObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutObject)

### Mengelola objek berversi dalam batch dengan fungsi Lambda
<a name="s3_Scenario_BatchObjectVersioning_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara mengelola objek S3 berversi dalam batch dengan fungsi Lambda.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara memanipulasi objek berversi Amazon Simple Storage Service (Amazon S3) dalam batch dengan membuat pekerjaan yang memanggil fungsi untuk melakukan pemrosesan. AWS Lambda Contoh ini membuat bucket yang diaktifkan versinya, mengunggah bait dari puisi *You Are Old, Father William oleh Lewis Carroll,* dan menggunakan pekerjaan batch Amazon S3 untuk menggubah puisi dengan berbagai cara.   

**Pelajari cara:**
+ Membuat fungsi Lambda yang beroperasi pada objek berversi.
+ Membuat manifes objek untuk diperbarui.
+ Membuat pekerjaan batch yang menginvokasi fungsi Lambda untuk memperbarui objek.
+ Menghapus fungsi Lambda.
+ Mengosongkan dan menghapus bucket berversi.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_versioning#batch-operation-demo).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon S3

### Mengunggah atau mengunduh file besar
<a name="s3_Scenario_UsingLargeFiles_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah atau mengunduh file besar ke dan dari Amazon S3.

Untuk informasi selengkapnya, lihat [Pengunggahan objek menggunakan unggahan multibagian](https://docs.aws.amazon.com/AmazonS3/latest/userguide/mpu-upload-object.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/file_transfer#code-examples). 
Buat fungsi yang mentransfer file menggunakan beberapa pengaturan manajer transfer yang tersedia. Gunakan kelas panggilan balik untuk menulis progres callback selama transfer file.  

```
import sys
import threading

import boto3
from boto3.s3.transfer import TransferConfig


MB = 1024 * 1024
s3 = boto3.resource("s3")


class TransferCallback:
    """
    Handle callbacks from the transfer manager.

    The transfer manager periodically calls the __call__ method throughout
    the upload and download process so that it can take action, such as
    displaying progress to the user and collecting data about the transfer.
    """

    def __init__(self, target_size):
        self._target_size = target_size
        self._total_transferred = 0
        self._lock = threading.Lock()
        self.thread_info = {}

    def __call__(self, bytes_transferred):
        """
        The callback method that is called by the transfer manager.

        Display progress during file transfer and collect per-thread transfer
        data. This method can be called by multiple threads, so shared instance
        data is protected by a thread lock.
        """
        thread = threading.current_thread()
        with self._lock:
            self._total_transferred += bytes_transferred
            if thread.ident not in self.thread_info.keys():
                self.thread_info[thread.ident] = bytes_transferred
            else:
                self.thread_info[thread.ident] += bytes_transferred

            target = self._target_size * MB
            sys.stdout.write(
                f"\r{self._total_transferred} of {target} transferred "
                f"({(self._total_transferred / target) * 100:.2f}%)."
            )
            sys.stdout.flush()


def upload_with_default_configuration(
    local_file_path, bucket_name, object_key, file_size_mb
):
    """
    Upload a file from a local folder to an Amazon S3 bucket, using the default
    configuration.
    """
    transfer_callback = TransferCallback(file_size_mb)
    s3.Bucket(bucket_name).upload_file(
        local_file_path, object_key, Callback=transfer_callback
    )
    return transfer_callback.thread_info


def upload_with_chunksize_and_meta(
    local_file_path, bucket_name, object_key, file_size_mb, metadata=None
):
    """
    Upload a file from a local folder to an Amazon S3 bucket, setting a
    multipart chunk size and adding metadata to the Amazon S3 object.

    The multipart chunk size controls the size of the chunks of data that are
    sent in the request. A smaller chunk size typically results in the transfer
    manager using more threads for the upload.

    The metadata is a set of key-value pairs that are stored with the object
    in Amazon S3.
    """
    transfer_callback = TransferCallback(file_size_mb)

    config = TransferConfig(multipart_chunksize=1 * MB)
    extra_args = {"Metadata": metadata} if metadata else None
    s3.Bucket(bucket_name).upload_file(
        local_file_path,
        object_key,
        Config=config,
        ExtraArgs=extra_args,
        Callback=transfer_callback,
    )
    return transfer_callback.thread_info


def upload_with_high_threshold(local_file_path, bucket_name, object_key, file_size_mb):
    """
    Upload a file from a local folder to an Amazon S3 bucket, setting a
    multipart threshold larger than the size of the file.

    Setting a multipart threshold larger than the size of the file results
    in the transfer manager sending the file as a standard upload instead of
    a multipart upload.
    """
    transfer_callback = TransferCallback(file_size_mb)
    config = TransferConfig(multipart_threshold=file_size_mb * 2 * MB)
    s3.Bucket(bucket_name).upload_file(
        local_file_path, object_key, Config=config, Callback=transfer_callback
    )
    return transfer_callback.thread_info


def upload_with_sse(
    local_file_path, bucket_name, object_key, file_size_mb, sse_key=None
):
    """
    Upload a file from a local folder to an Amazon S3 bucket, adding server-side
    encryption with customer-provided encryption keys to the object.

    When this kind of encryption is specified, Amazon S3 encrypts the object
    at rest and allows downloads only when the expected encryption key is
    provided in the download request.
    """
    transfer_callback = TransferCallback(file_size_mb)
    if sse_key:
        extra_args = {"SSECustomerAlgorithm": "AES256", "SSECustomerKey": sse_key}
    else:
        extra_args = None
    s3.Bucket(bucket_name).upload_file(
        local_file_path, object_key, ExtraArgs=extra_args, Callback=transfer_callback
    )
    return transfer_callback.thread_info


def download_with_default_configuration(
    bucket_name, object_key, download_file_path, file_size_mb
):
    """
    Download a file from an Amazon S3 bucket to a local folder, using the
    default configuration.
    """
    transfer_callback = TransferCallback(file_size_mb)
    s3.Bucket(bucket_name).Object(object_key).download_file(
        download_file_path, Callback=transfer_callback
    )
    return transfer_callback.thread_info


def download_with_single_thread(
    bucket_name, object_key, download_file_path, file_size_mb
):
    """
    Download a file from an Amazon S3 bucket to a local folder, using a
    single thread.
    """
    transfer_callback = TransferCallback(file_size_mb)
    config = TransferConfig(use_threads=False)
    s3.Bucket(bucket_name).Object(object_key).download_file(
        download_file_path, Config=config, Callback=transfer_callback
    )
    return transfer_callback.thread_info


def download_with_high_threshold(
    bucket_name, object_key, download_file_path, file_size_mb
):
    """
    Download a file from an Amazon S3 bucket to a local folder, setting a
    multipart threshold larger than the size of the file.

    Setting a multipart threshold larger than the size of the file results
    in the transfer manager sending the file as a standard download instead
    of a multipart download.
    """
    transfer_callback = TransferCallback(file_size_mb)
    config = TransferConfig(multipart_threshold=file_size_mb * 2 * MB)
    s3.Bucket(bucket_name).Object(object_key).download_file(
        download_file_path, Config=config, Callback=transfer_callback
    )
    return transfer_callback.thread_info


def download_with_sse(
    bucket_name, object_key, download_file_path, file_size_mb, sse_key
):
    """
    Download a file from an Amazon S3 bucket to a local folder, adding a
    customer-provided encryption key to the request.

    When this kind of encryption is specified, Amazon S3 encrypts the object
    at rest and allows downloads only when the expected encryption key is
    provided in the download request.
    """
    transfer_callback = TransferCallback(file_size_mb)

    if sse_key:
        extra_args = {"SSECustomerAlgorithm": "AES256", "SSECustomerKey": sse_key}
    else:
        extra_args = None
    s3.Bucket(bucket_name).Object(object_key).download_file(
        download_file_path, ExtraArgs=extra_args, Callback=transfer_callback
    )
    return transfer_callback.thread_info
```
Menunjukkan fungsi manajer transfer dan melaporkan hasil.  

```
import hashlib
import os
import platform
import shutil
import time

import boto3
from boto3.s3.transfer import TransferConfig
from botocore.exceptions import ClientError
from botocore.exceptions import ParamValidationError
from botocore.exceptions import NoCredentialsError

import file_transfer

MB = 1024 * 1024
# These configuration attributes affect both uploads and downloads.
CONFIG_ATTRS = (
    "multipart_threshold",
    "multipart_chunksize",
    "max_concurrency",
    "use_threads",
)
# These configuration attributes affect only downloads.
DOWNLOAD_CONFIG_ATTRS = ("max_io_queue", "io_chunksize", "num_download_attempts")


class TransferDemoManager:
    """
    Manages the demonstration. Collects user input from a command line, reports
    transfer results, maintains a list of artifacts created during the
    demonstration, and cleans them up after the demonstration is completed.
    """

    def __init__(self):
        self._s3 = boto3.resource("s3")
        self._chore_list = []
        self._create_file_cmd = None
        self._size_multiplier = 0
        self.file_size_mb = 30
        self.demo_folder = None
        self.demo_bucket = None
        self._setup_platform_specific()
        self._terminal_width = shutil.get_terminal_size(fallback=(80, 80))[0]

    def collect_user_info(self):
        """
        Collect local folder and Amazon S3 bucket name from the user. These
        locations are used to store files during the demonstration.
        """
        while not self.demo_folder:
            self.demo_folder = input(
                "Which file folder do you want to use to store " "demonstration files? "
            )
            if not os.path.isdir(self.demo_folder):
                print(f"{self.demo_folder} isn't a folder!")
                self.demo_folder = None

        while not self.demo_bucket:
            self.demo_bucket = input(
                "Which Amazon S3 bucket do you want to use to store "
                "demonstration files? "
            )
            try:
                self._s3.meta.client.head_bucket(Bucket=self.demo_bucket)
            except ParamValidationError as err:
                print(err)
                self.demo_bucket = None
            except ClientError as err:
                print(err)
                print(
                    f"Either {self.demo_bucket} doesn't exist or you don't "
                    f"have access to it."
                )
                self.demo_bucket = None

    def demo(
        self, question, upload_func, download_func, upload_args=None, download_args=None
    ):
        """Run a demonstration.

        Ask the user if they want to run this specific demonstration.
        If they say yes, create a file on the local path, upload it
        using the specified upload function, then download it using the
        specified download function.
        """
        if download_args is None:
            download_args = {}
        if upload_args is None:
            upload_args = {}
        question = question.format(self.file_size_mb)
        answer = input(f"{question} (y/n)")
        if answer.lower() == "y":
            local_file_path, object_key, download_file_path = self._create_demo_file()

            file_transfer.TransferConfig = self._config_wrapper(
                TransferConfig, CONFIG_ATTRS
            )
            self._report_transfer_params(
                "Uploading", local_file_path, object_key, **upload_args
            )
            start_time = time.perf_counter()
            thread_info = upload_func(
                local_file_path,
                self.demo_bucket,
                object_key,
                self.file_size_mb,
                **upload_args,
            )
            end_time = time.perf_counter()
            self._report_transfer_result(thread_info, end_time - start_time)

            file_transfer.TransferConfig = self._config_wrapper(
                TransferConfig, CONFIG_ATTRS + DOWNLOAD_CONFIG_ATTRS
            )
            self._report_transfer_params(
                "Downloading", object_key, download_file_path, **download_args
            )
            start_time = time.perf_counter()
            thread_info = download_func(
                self.demo_bucket,
                object_key,
                download_file_path,
                self.file_size_mb,
                **download_args,
            )
            end_time = time.perf_counter()
            self._report_transfer_result(thread_info, end_time - start_time)

    def last_name_set(self):
        """Get the name set used for the last demo."""
        return self._chore_list[-1]

    def cleanup(self):
        """
        Remove files from the demo folder, and uploaded objects from the
        Amazon S3 bucket.
        """
        print("-" * self._terminal_width)
        for local_file_path, s3_object_key, downloaded_file_path in self._chore_list:
            print(f"Removing {local_file_path}")
            try:
                os.remove(local_file_path)
            except FileNotFoundError as err:
                print(err)

            print(f"Removing {downloaded_file_path}")
            try:
                os.remove(downloaded_file_path)
            except FileNotFoundError as err:
                print(err)

            if self.demo_bucket:
                print(f"Removing {self.demo_bucket}:{s3_object_key}")
                try:
                    self._s3.Bucket(self.demo_bucket).Object(s3_object_key).delete()
                except ClientError as err:
                    print(err)

    def _setup_platform_specific(self):
        """Set up platform-specific command used to create a large file."""
        if platform.system() == "Windows":
            self._create_file_cmd = "fsutil file createnew {} {}"
            self._size_multiplier = MB
        elif platform.system() == "Linux" or platform.system() == "Darwin":
            self._create_file_cmd = f"dd if=/dev/urandom of={{}} " f"bs={MB} count={{}}"
            self._size_multiplier = 1
        else:
            raise EnvironmentError(
                f"Demo of platform {platform.system()} isn't supported."
            )

    def _create_demo_file(self):
        """
        Create a file in the demo folder specified by the user. Store the local
        path, object name, and download path for later cleanup.

        Only the local file is created by this method. The Amazon S3 object and
        download file are created later during the demonstration.

        Returns:
        A tuple that contains the local file path, object name, and download
        file path.
        """
        file_name_template = "TestFile{}-{}.demo"
        local_suffix = "local"
        object_suffix = "s3object"
        download_suffix = "downloaded"
        file_tag = len(self._chore_list) + 1

        local_file_path = os.path.join(
            self.demo_folder, file_name_template.format(file_tag, local_suffix)
        )

        s3_object_key = file_name_template.format(file_tag, object_suffix)

        downloaded_file_path = os.path.join(
            self.demo_folder, file_name_template.format(file_tag, download_suffix)
        )

        filled_cmd = self._create_file_cmd.format(
            local_file_path, self.file_size_mb * self._size_multiplier
        )

        print(
            f"Creating file of size {self.file_size_mb} MB "
            f"in {self.demo_folder} by running:"
        )
        print(f"{'':4}{filled_cmd}")
        os.system(filled_cmd)

        chore = (local_file_path, s3_object_key, downloaded_file_path)
        self._chore_list.append(chore)
        return chore

    def _report_transfer_params(self, verb, source_name, dest_name, **kwargs):
        """Report configuration and extra arguments used for a file transfer."""
        print("-" * self._terminal_width)
        print(f"{verb} {source_name} ({self.file_size_mb} MB) to {dest_name}")
        if kwargs:
            print("With extra args:")
            for arg, value in kwargs.items():
                print(f'{"":4}{arg:<20}: {value}')

    @staticmethod
    def ask_user(question):
        """
        Ask the user a yes or no question.

        Returns:
        True when the user answers 'y' or 'Y'; otherwise, False.
        """
        answer = input(f"{question} (y/n) ")
        return answer.lower() == "y"

    @staticmethod
    def _config_wrapper(func, config_attrs):
        def wrapper(*args, **kwargs):
            config = func(*args, **kwargs)
            print("With configuration:")
            for attr in config_attrs:
                print(f'{"":4}{attr:<20}: {getattr(config, attr)}')
            return config

        return wrapper

    @staticmethod
    def _report_transfer_result(thread_info, elapsed):
        """Report the result of a transfer, including per-thread data."""
        print(f"\nUsed {len(thread_info)} threads.")
        for ident, byte_count in thread_info.items():
            print(f"{'':4}Thread {ident} copied {byte_count} bytes.")
        print(f"Your transfer took {elapsed:.2f} seconds.")


def main():
    """
    Run the demonstration script for s3_file_transfer.
    """
    demo_manager = TransferDemoManager()
    demo_manager.collect_user_info()

    # Upload and download with default configuration. Because the file is 30 MB
    # and the default multipart_threshold is 8 MB, both upload and download are
    # multipart transfers.
    demo_manager.demo(
        "Do you want to upload and download a {} MB file "
        "using the default configuration?",
        file_transfer.upload_with_default_configuration,
        file_transfer.download_with_default_configuration,
    )

    # Upload and download with multipart_threshold set higher than the size of
    # the file. This causes the transfer manager to use standard transfers
    # instead of multipart transfers.
    demo_manager.demo(
        "Do you want to upload and download a {} MB file "
        "as a standard (not multipart) transfer?",
        file_transfer.upload_with_high_threshold,
        file_transfer.download_with_high_threshold,
    )

    # Upload with specific chunk size and additional metadata.
    # Download with a single thread.
    demo_manager.demo(
        "Do you want to upload a {} MB file with a smaller chunk size and "
        "then download the same file using a single thread?",
        file_transfer.upload_with_chunksize_and_meta,
        file_transfer.download_with_single_thread,
        upload_args={
            "metadata": {
                "upload_type": "chunky",
                "favorite_color": "aqua",
                "size": "medium",
            }
        },
    )

    # Upload using server-side encryption with customer-provided
    # encryption keys.
    # Generate a 256-bit key from a passphrase.
    sse_key = hashlib.sha256("demo_passphrase".encode("utf-8")).digest()
    demo_manager.demo(
        "Do you want to upload and download a {} MB file using "
        "server-side encryption?",
        file_transfer.upload_with_sse,
        file_transfer.download_with_sse,
        upload_args={"sse_key": sse_key},
        download_args={"sse_key": sse_key},
    )

    # Download without specifying an encryption key to show that the
    # encryption key must be included to download an encrypted object.
    if demo_manager.ask_user(
        "Do you want to try to download the encrypted "
        "object without sending the required key?"
    ):
        try:
            _, object_key, download_file_path = demo_manager.last_name_set()
            file_transfer.download_with_default_configuration(
                demo_manager.demo_bucket,
                object_key,
                download_file_path,
                demo_manager.file_size_mb,
            )
        except ClientError as err:
            print(
                "Got expected error when trying to download an encrypted "
                "object without specifying encryption info:"
            )
            print(f"{'':4}{err}")

    # Remove all created and downloaded files, remove all objects from
    # S3 storage.
    if demo_manager.ask_user(
        "Demonstration complete. Do you want to remove local files " "and S3 objects?"
    ):
        demo_manager.cleanup()


if __name__ == "__main__":
    try:
        main()
    except NoCredentialsError as error:
        print(error)
        print(
            "To run this example, you must have valid credentials in "
            "a shared credential file or set in environment variables."
        )
```

### Bekerja dengan objek berversi
<a name="s3_Scenario_ObjectVersioningUsage_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket S3 berversi.
+ Mendapatkan semua versi objek.
+ Mengembalikan objek ke versi sebelumnya.
+ Menghapus dan memulihkan objek berversi.
+ Menghapus semua versi objek secara permanen.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/s3_versioning#code-examples). 
Buat fungsi yang membungkus tindakan S3.  

```
def create_versioned_bucket(bucket_name, prefix):
    """
    Creates an Amazon S3 bucket, enables it for versioning, and configures a lifecycle
    that expires noncurrent object versions after 7 days.

    Adding a lifecycle configuration to a versioned bucket is a best practice.
    It helps prevent objects in the bucket from accumulating a large number of
    noncurrent versions, which can slow down request performance.

    Usage is shown in the usage_demo_single_object function at the end of this module.

    :param bucket_name: The name of the bucket to create.
    :param prefix: Identifies which objects are automatically expired under the
                   configured lifecycle rules.
    :return: The newly created bucket.
    """
    try:
        bucket = s3.create_bucket(
            Bucket=bucket_name,
            CreateBucketConfiguration={
                "LocationConstraint": s3.meta.client.meta.region_name
            },
        )
        logger.info("Created bucket %s.", bucket.name)
    except ClientError as error:
        if error.response["Error"]["Code"] == "BucketAlreadyOwnedByYou":
            logger.warning("Bucket %s already exists! Using it.", bucket_name)
            bucket = s3.Bucket(bucket_name)
        else:
            logger.exception("Couldn't create bucket %s.", bucket_name)
            raise

    try:
        bucket.Versioning().enable()
        logger.info("Enabled versioning on bucket %s.", bucket.name)
    except ClientError:
        logger.exception("Couldn't enable versioning on bucket %s.", bucket.name)
        raise

    try:
        expiration = 7
        bucket.LifecycleConfiguration().put(
            LifecycleConfiguration={
                "Rules": [
                    {
                        "Status": "Enabled",
                        "Prefix": prefix,
                        "NoncurrentVersionExpiration": {"NoncurrentDays": expiration},
                    }
                ]
            }
        )
        logger.info(
            "Configured lifecycle to expire noncurrent versions after %s days "
            "on bucket %s.",
            expiration,
            bucket.name,
        )
    except ClientError as error:
        logger.warning(
            "Couldn't configure lifecycle on bucket %s because %s. "
            "Continuing anyway.",
            bucket.name,
            error,
        )

    return bucket



def rollback_object(bucket, object_key, version_id):
    """
    Rolls back an object to an earlier version by deleting all versions that
    occurred after the specified rollback version.

    Usage is shown in the usage_demo_single_object function at the end of this module.

    :param bucket: The bucket that holds the object to roll back.
    :param object_key: The object to roll back.
    :param version_id: The version ID to roll back to.
    """
    # Versions must be sorted by last_modified date because delete markers are
    # at the end of the list even when they are interspersed in time.
    versions = sorted(
        bucket.object_versions.filter(Prefix=object_key),
        key=attrgetter("last_modified"),
        reverse=True,
    )

    logger.debug(
        "Got versions:\n%s",
        "\n".join(
            [
                f"\t{version.version_id}, last modified {version.last_modified}"
                for version in versions
            ]
        ),
    )

    if version_id in [ver.version_id for ver in versions]:
        print(f"Rolling back to version {version_id}")
        for version in versions:
            if version.version_id != version_id:
                version.delete()
                print(f"Deleted version {version.version_id}")
            else:
                break

        print(f"Active version is now {bucket.Object(object_key).version_id}")
    else:
        raise KeyError(
            f"{version_id} was not found in the list of versions for " f"{object_key}."
        )



def revive_object(bucket, object_key):
    """
    Revives a versioned object that was deleted by removing the object's active
    delete marker.
    A versioned object presents as deleted when its latest version is a delete marker.
    By removing the delete marker, we make the previous version the latest version
    and the object then presents as *not* deleted.

    Usage is shown in the usage_demo_single_object function at the end of this module.

    :param bucket: The bucket that contains the object.
    :param object_key: The object to revive.
    """
    # Get the latest version for the object.
    response = s3.meta.client.list_object_versions(
        Bucket=bucket.name, Prefix=object_key, MaxKeys=1
    )

    if "DeleteMarkers" in response:
        latest_version = response["DeleteMarkers"][0]
        if latest_version["IsLatest"]:
            logger.info(
                "Object %s was indeed deleted on %s. Let's revive it.",
                object_key,
                latest_version["LastModified"],
            )
            obj = bucket.Object(object_key)
            obj.Version(latest_version["VersionId"]).delete()
            logger.info(
                "Revived %s, active version is now %s  with body '%s'",
                object_key,
                obj.version_id,
                obj.get()["Body"].read(),
            )
        else:
            logger.warning(
                "Delete marker is not the latest version for %s!", object_key
            )
    elif "Versions" in response:
        logger.warning("Got an active version for %s, nothing to do.", object_key)
    else:
        logger.error("Couldn't get any version info for %s.", object_key)



def permanently_delete_object(bucket, object_key):
    """
    Permanently deletes a versioned object by deleting all of its versions.

    Usage is shown in the usage_demo_single_object function at the end of this module.

    :param bucket: The bucket that contains the object.
    :param object_key: The object to delete.
    """
    try:
        bucket.object_versions.filter(Prefix=object_key).delete()
        logger.info("Permanently deleted all versions of object %s.", object_key)
    except ClientError:
        logger.exception("Couldn't delete all versions of %s.", object_key)
        raise
```
Unggah bait puisi ke objek berversi dan lakukan serangkaian tindakan pada aaobjek tersebut.  

```
def usage_demo_single_object(obj_prefix="demo-versioning/"):
    """
    Demonstrates usage of versioned object functions. This demo uploads a stanza
    of a poem and performs a series of revisions, deletions, and revivals on it.

    :param obj_prefix: The prefix to assign to objects created by this demo.
    """
    with open("father_william.txt") as file:
        stanzas = file.read().split("\n\n")

    width = get_terminal_size((80, 20))[0]
    print("-" * width)
    print("Welcome to the usage demonstration of Amazon S3 versioning.")
    print(
        "This demonstration uploads a single stanza of a poem to an Amazon "
        "S3 bucket and then applies various revisions to it."
    )
    print("-" * width)
    print("Creating a version-enabled bucket for the demo...")
    bucket = create_versioned_bucket("bucket-" + str(uuid.uuid1()), obj_prefix)

    print("\nThe initial version of our stanza:")
    print(stanzas[0])

    # Add the first stanza and revise it a few times.
    print("\nApplying some revisions to the stanza...")
    obj_stanza_1 = bucket.Object(f"{obj_prefix}stanza-1")
    obj_stanza_1.put(Body=bytes(stanzas[0], "utf-8"))
    obj_stanza_1.put(Body=bytes(stanzas[0].upper(), "utf-8"))
    obj_stanza_1.put(Body=bytes(stanzas[0].lower(), "utf-8"))
    obj_stanza_1.put(Body=bytes(stanzas[0][::-1], "utf-8"))
    print(
        "The latest version of the stanza is now:",
        obj_stanza_1.get()["Body"].read().decode("utf-8"),
        sep="\n",
    )

    # Versions are returned in order, most recent first.
    obj_stanza_1_versions = bucket.object_versions.filter(Prefix=obj_stanza_1.key)
    print(
        "The version data of the stanza revisions:",
        *[
            f"    {version.version_id}, last modified {version.last_modified}"
            for version in obj_stanza_1_versions
        ],
        sep="\n",
    )

    # Rollback two versions.
    print("\nRolling back two versions...")
    rollback_object(bucket, obj_stanza_1.key, list(obj_stanza_1_versions)[2].version_id)
    print(
        "The latest version of the stanza:",
        obj_stanza_1.get()["Body"].read().decode("utf-8"),
        sep="\n",
    )

    # Delete the stanza
    print("\nDeleting the stanza...")
    obj_stanza_1.delete()
    try:
        obj_stanza_1.get()
    except ClientError as error:
        if error.response["Error"]["Code"] == "NoSuchKey":
            print("The stanza is now deleted (as expected).")
        else:
            raise

    # Revive the stanza
    print("\nRestoring the stanza...")
    revive_object(bucket, obj_stanza_1.key)
    print(
        "The stanza is restored! The latest version is again:",
        obj_stanza_1.get()["Body"].read().decode("utf-8"),
        sep="\n",
    )

    # Permanently delete all versions of the object. This cannot be undone!
    print("\nPermanently deleting all versions of the stanza...")
    permanently_delete_object(bucket, obj_stanza_1.key)
    obj_stanza_1_versions = bucket.object_versions.filter(Prefix=obj_stanza_1.key)
    if len(list(obj_stanza_1_versions)) == 0:
        print("The stanza has been permanently deleted and now has no versions.")
    else:
        print("Something went wrong. The stanza still exists!")

    print(f"\nRemoving {bucket.name}...")
    bucket.delete()
    print(f"{bucket.name} deleted.")
    print("Demo done!")
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [CreateBucket](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CreateBucket)
  + [DeleteObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteObject)
  + [ListObjectVersions](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/ListObjectVersions)
  + [PutBucketLifecycleConfiguration](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutBucketLifecycleConfiguration)

## Contoh nirserver
<a name="serverless_examples"></a>

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
import json
import urllib.parse
import boto3

print('Loading function')

s3 = boto3.client('s3')


def lambda_handler(event, context):
    #print("Received event: " + json.dumps(event, indent=2))

    # Get the object from the event and show its content type
    bucket = event['Records'][0]['s3']['bucket']['name']
    key = urllib.parse.unquote_plus(event['Records'][0]['s3']['object']['key'], encoding='utf-8')
    try:
        response = s3.get_object(Bucket=bucket, Key=key)
        print("CONTENT TYPE: " + response['ContentType'])
        return response['ContentType']
    except Exception as e:
        print(e)
        print('Error getting object {} from bucket {}. Make sure they exist and your bucket is in the same region as this function.'.format(key, bucket))
        raise e
```

# Contoh Kontrol Amazon S3 menggunakan SDK for Python (Boto3)
<a name="python_3_s3-control_code_examples"></a>

Contoh kode berikut menunjukkan kepada Anda cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Kontrol Amazon S3 AWS SDK untuk Python (Boto3) dengan.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Kontrol Amazon S3
<a name="s3-control_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3 Control.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 

```
    def list_jobs(self, account_id: str) -> None:
        """
        List all batch jobs for the account.

        Args:
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.list_jobs(
                AccountId=account_id,
                JobStatuses=['Active', 'Complete', 'Cancelled', 'Failed', 'New', 'Paused', 'Pausing', 'Preparing', 'Ready', 'Suspended']
            )
            jobs = response.get('Jobs', [])
            for job in jobs:
                print(f"The job id is {job['JobId']}")
                print(f"The job priority is {job['Priority']}")
        except ClientError as e:
            print(f"Error listing jobs: {e}")
            raise
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/ListJobs)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3-control_Basics_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempelajari operasi inti untuk Kontrol Amazon S3.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 
Pelajari Skenario Dasar Batch S3.  

```
class S3BatchWrapper:
    """Wrapper class for managing S3 Batch Operations."""

    def __init__(self, s3_client: Any, s3control_client: Any, sts_client: Any) -> None:
        """
        Initializes the S3BatchWrapper with AWS service clients.
        
        :param s3_client: A Boto3 Amazon S3 client. This client provides low-level
                         access to AWS S3 services.
        :param s3control_client: A Boto3 Amazon S3 Control client. This client provides
                               low-level access to AWS S3 Control services.
        :param sts_client: A Boto3 AWS STS client. This client provides low-level
                          access to AWS STS services.
        """
        self.s3_client = s3_client
        self.s3control_client = s3control_client
        self.sts_client = sts_client
        # Get region from the client for bucket creation logic
        self.region_name = self.s3_client.meta.region_name

    def get_account_id(self) -> str:
        """
        Get AWS account ID.

        Returns:
            str: AWS account ID
        """
        return self.sts_client.get_caller_identity()["Account"]

    def create_bucket(self, bucket_name: str) -> None:
        """
        Create an S3 bucket.

        Args:
            bucket_name (str): Name of the bucket to create

        Raises:
            ClientError: If bucket creation fails
        """
        try:
            if self.region_name and self.region_name != 'us-east-1':
                self.s3_client.create_bucket(
                    Bucket=bucket_name,
                    CreateBucketConfiguration={
                        'LocationConstraint': self.region_name
                    }
                )
            else:
                self.s3_client.create_bucket(Bucket=bucket_name)
            print(f"Created bucket: {bucket_name}")
        except ClientError as e:
            print(f"Error creating bucket: {e}")
            raise

    def upload_files_to_bucket(self, bucket_name: str, file_names: List[str]) -> str:
        """
        Upload files to S3 bucket including manifest file.

        Args:
            bucket_name (str): Target bucket name
            file_names (list): List of file names to upload

        Returns:
            str: ETag of the manifest file

        Raises:
            ClientError: If file upload fails
        """
        try:
            for file_name in file_names:
                if file_name != "job-manifest.csv":
                    content = f"Content for {file_name}"
                    self.s3_client.put_object(
                        Bucket=bucket_name,
                        Key=file_name,
                        Body=content.encode('utf-8')
                    )
                    print(f"Uploaded {file_name} to {bucket_name}")

            manifest_content = ""
            for file_name in file_names:
                if file_name != "job-manifest.csv":
                    manifest_content += f"{bucket_name},{file_name}\n"

            manifest_response = self.s3_client.put_object(
                Bucket=bucket_name,
                Key="job-manifest.csv",
                Body=manifest_content.encode('utf-8')
            )
            print(f"Uploaded manifest file to {bucket_name}")
            print(f"Manifest content:\n{manifest_content}")
            return manifest_response['ETag'].strip('"')

        except ClientError as e:
            print(f"Error uploading files: {e}")
            raise

    def create_s3_batch_job(self, account_id: str, role_arn: str, manifest_location: str,
                           report_bucket_name: str) -> str:
        """
        Create an S3 batch operation job.

        Args:
            account_id (str): AWS account ID
            role_arn (str): IAM role ARN for batch operations
            manifest_location (str): Location of the manifest file
            report_bucket_name (str): Bucket for job reports

        Returns:
            str: Job ID

        Raises:
            ClientError: If job creation fails
        """
        try:
            bucket_name = manifest_location.split(':::')[1].split('/')[0]
            manifest_key = 'job-manifest.csv'
            manifest_obj = self.s3_client.head_object(
                Bucket=bucket_name,
                Key=manifest_key
            )
            etag = manifest_obj['ETag'].strip('"')
            
            response = self.s3control_client.create_job(
                AccountId=account_id,
                Operation={
                    'S3PutObjectTagging': {
                        'TagSet': [
                            {
                                'Key': 'BatchTag',
                                'Value': 'BatchValue'
                            },
                        ]
                    }
                },
                Report={
                    'Bucket': report_bucket_name,
                    'Format': 'Report_CSV_20180820',
                    'Enabled': True,
                    'Prefix': 'batch-op-reports',
                    'ReportScope': 'AllTasks'
                },
                Manifest={
                    'Spec': {
                        'Format': 'S3BatchOperations_CSV_20180820',
                        'Fields': ['Bucket', 'Key']
                    },
                    'Location': {
                        'ObjectArn': manifest_location,
                        'ETag': etag
                    }
                },
                Priority=10,
                RoleArn=role_arn,
                Description='Batch job for tagging objects',
                ConfirmationRequired=True
            )
            job_id = response['JobId']
            print(f"The Job id is {job_id}")
            return job_id
        except ClientError as e:
            print(f"Error creating batch job: {e}")
            if 'Message' in str(e):
                print(f"Detailed error message: {e.response['Message']}")
            raise

    def check_job_failure_reasons(self, job_id: str, account_id: str) -> List[Dict[str, Any]]:
        """
        Check for any failure reasons of a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID

        Returns:
            list: List of failure reasons

        Raises:
            ClientError: If checking job failure reasons fails
        """
        try:
            response = self.s3control_client.describe_job(
                AccountId=account_id,
                JobId=job_id
            )
            if 'FailureReasons' in response['Job']:
                for reason in response['Job']['FailureReasons']:
                    print(f"- {reason}")
            return response['Job'].get('FailureReasons', [])
        except ClientError as e:
            print(f"Error checking job failure reasons: {e}")
            raise

    def wait_for_job_ready(self, job_id: str, account_id: str, desired_status: str = 'Ready') -> bool:
        """
        Wait for a job to reach the desired status.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
            desired_status (str): Target status to wait for

        Returns:
            bool: True if desired status is reached, False otherwise

        Raises:
            ClientError: If checking job status fails
        """
        print(f"Waiting for job to become {desired_status}...")
        max_attempts = 60
        attempt = 0
        while attempt < max_attempts:
            try:
                response = self.s3control_client.describe_job(
                    AccountId=account_id,
                    JobId=job_id
                )
                current_status = response['Job']['Status']
                print(f"Current job status: {current_status}")
                if current_status == desired_status:
                    return True
                if current_status == 'Suspended':
                    print("Job is in Suspended state, can proceed with activation")
                    return True
                if current_status in ['Active', 'Failed', 'Cancelled', 'Complete']:
                    print(f"Job is in {current_status} state, cannot reach {desired_status} status")
                    if 'FailureReasons' in response['Job']:
                        print("Failure reasons:")
                        for reason in response['Job']['FailureReasons']:
                            print(f"- {reason}")
                    return False

                time.sleep(20)
                attempt += 1
            except ClientError as e:
                print(f"Error checking job status: {e}")
                raise
        print(f"Timeout waiting for job to become {desired_status}")
        return False

    def update_job_priority(self, job_id: str, account_id: str) -> None:
        """
        Update the priority of a batch job and start it.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.describe_job(
                AccountId=account_id,
                JobId=job_id
            )
            current_status = response['Job']['Status']
            print(f"Current job status: {current_status}")
            
            if current_status in ['Ready', 'Suspended']:
                self.s3control_client.update_job_priority(
                    AccountId=account_id,
                    JobId=job_id,
                    Priority=60
                )
                print("The job priority was updated")
                
                try:
                    self.s3control_client.update_job_status(
                        AccountId=account_id,
                        JobId=job_id,
                        RequestedJobStatus='Ready'
                    )
                    print("Job activated successfully")
                except ClientError as activation_error:
                    print(f"Note: Could not activate job automatically: {activation_error}")
                    print("Job priority was updated successfully. Job may need manual activation in the console.")
            elif current_status in ['Active', 'Completing', 'Complete']:
                print(f"Job is in '{current_status}' state - priority cannot be updated")
                if current_status == 'Completing':
                    print("Job is finishing up and will complete soon.")
                elif current_status == 'Complete':
                    print("Job has already completed successfully.")
                else:
                    print("Job is currently running.")
            else:
                print(f"Job is in '{current_status}' state - priority update not allowed")
                
        except ClientError as e:
            print(f"Error updating job priority: {e}")
            print("Continuing with the scenario...")
            return

    def cancel_job(self, job_id: str, account_id: str) -> None:
        """
        Cancel an S3 batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.describe_job(
                AccountId=account_id,
                JobId=job_id
            )
            current_status = response['Job']['Status']
            print(f"Current job status: {current_status}")

            if current_status in ['Ready', 'Suspended', 'Active']:
                self.s3control_client.update_job_status(
                    AccountId=account_id,
                    JobId=job_id,
                    RequestedJobStatus='Cancelled'
                )
                print(f"Job {job_id} was successfully canceled.")
            elif current_status in ['Completing', 'Complete']:
                print(f"Job is in '{current_status}' state - cannot be cancelled")
                if current_status == 'Completing':
                    print("Job is finishing up and will complete soon.")
                elif current_status == 'Complete':
                    print("Job has already completed successfully.")
            else:
                print(f"Job is in '{current_status}' state - cancel not allowed")
        except ClientError as e:
            print(f"Error canceling job: {e}")
            raise

    def describe_job_details(self, job_id: str, account_id: str) -> None:
        """
        Describe detailed information about a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.describe_job(
                AccountId=account_id,
                JobId=job_id
            )
            job = response['Job']
            print(f"Job ID: {job['JobId']}")
            print(f"Description: {job.get('Description', 'N/A')}")
            print(f"Status: {job['Status']}")
            print(f"Role ARN: {job['RoleArn']}")
            print(f"Priority: {job['Priority']}")
            if 'ProgressSummary' in job:
                progress = job['ProgressSummary']
                print(f"Progress Summary: Total={progress.get('TotalNumberOfTasks', 0)}, "
                      f"Succeeded={progress.get('NumberOfTasksSucceeded', 0)}, "
                      f"Failed={progress.get('NumberOfTasksFailed', 0)}")
        except ClientError as e:
            print(f"Error describing job: {e}")
            raise
    
    def get_job_tags(self, job_id: str, account_id: str) -> None:
        """
        Get tags associated with a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.get_job_tagging(
                AccountId=account_id,
                JobId=job_id
            )
            tags = response.get('Tags', [])
            if tags:
                print(f"Tags for job {job_id}:")
                for tag in tags:
                    print(f"  {tag['Key']}: {tag['Value']}")
            else:
                print(f"No tags found for job ID: {job_id}")
        except ClientError as e:
            print(f"Error getting job tags: {e}")
            raise
    
    def put_job_tags(self, job_id: str, account_id: str) -> None:
        """
        Add tags to a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            self.s3control_client.put_job_tagging(
                AccountId=account_id,
                JobId=job_id,
                Tags=[
                    {'Key': 'Environment', 'Value': 'Development'},
                    {'Key': 'Team', 'Value': 'DataProcessing'}
                ]
            )
            print(f"Additional tags were added to job {job_id}")
        except ClientError as e:
            print(f"Error adding job tags: {e}")
            raise
    
    def list_jobs(self, account_id: str) -> None:
        """
        List all batch jobs for the account.

        Args:
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.list_jobs(
                AccountId=account_id,
                JobStatuses=['Active', 'Complete', 'Cancelled', 'Failed', 'New', 'Paused', 'Pausing', 'Preparing', 'Ready', 'Suspended']
            )
            jobs = response.get('Jobs', [])
            for job in jobs:
                print(f"The job id is {job['JobId']}")
                print(f"The job priority is {job['Priority']}")
        except ClientError as e:
            print(f"Error listing jobs: {e}")
            raise
    
    def delete_job_tags(self, job_id: str, account_id: str) -> None:
        """
        Delete all tags from a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            self.s3control_client.delete_job_tagging(
                AccountId=account_id,
                JobId=job_id
            )
            print(f"You have successfully deleted {job_id} tagging.")
        except ClientError as e:
            print(f"Error deleting job tags: {e}")
            raise

    def cleanup_resources(self, bucket_name: str, file_names: List[str]) -> None:
        """
        Clean up all resources created during the scenario.

        Args:
            bucket_name (str): Name of the bucket to clean up
            file_names (list): List of files to delete

        Raises:
            ClientError: If cleanup fails
        """
        try:
            for file_name in file_names:
                self.s3_client.delete_object(Bucket=bucket_name, Key=file_name)
                print(f"Deleted {file_name}")

            response = self.s3_client.list_objects_v2(
                Bucket=bucket_name,
                Prefix='batch-op-reports/'
            )
            if 'Contents' in response:
                for obj in response['Contents']:
                    self.s3_client.delete_object(
                        Bucket=bucket_name,
                        Key=obj['Key']
                    )
                    print(f"Deleted {obj['Key']}")

            self.s3_client.delete_bucket(Bucket=bucket_name)
            print(f"Deleted bucket {bucket_name}")
        except ClientError as e:
            print(f"Error in cleanup: {e}")
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateJob](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/CreateJob)
  + [DeleteJobTagging](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/DeleteJobTagging)
  + [DescribeJob](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/DescribeJob)
  + [GetJobTagging](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/GetJobTagging)
  + [ListJobs](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/ListJobs)
  + [PutJobTagging](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/PutJobTagging)
  + [UpdateJobPriority](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/UpdateJobPriority)
  + [UpdateJobStatus](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/UpdateJobStatus)

## Tindakan
<a name="actions"></a>

### `CreateJob`
<a name="s3-control_CreateJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 

```
    def create_s3_batch_job(self, account_id: str, role_arn: str, manifest_location: str,
                           report_bucket_name: str) -> str:
        """
        Create an S3 batch operation job.

        Args:
            account_id (str): AWS account ID
            role_arn (str): IAM role ARN for batch operations
            manifest_location (str): Location of the manifest file
            report_bucket_name (str): Bucket for job reports

        Returns:
            str: Job ID

        Raises:
            ClientError: If job creation fails
        """
        try:
            bucket_name = manifest_location.split(':::')[1].split('/')[0]
            manifest_key = 'job-manifest.csv'
            manifest_obj = self.s3_client.head_object(
                Bucket=bucket_name,
                Key=manifest_key
            )
            etag = manifest_obj['ETag'].strip('"')
            
            response = self.s3control_client.create_job(
                AccountId=account_id,
                Operation={
                    'S3PutObjectTagging': {
                        'TagSet': [
                            {
                                'Key': 'BatchTag',
                                'Value': 'BatchValue'
                            },
                        ]
                    }
                },
                Report={
                    'Bucket': report_bucket_name,
                    'Format': 'Report_CSV_20180820',
                    'Enabled': True,
                    'Prefix': 'batch-op-reports',
                    'ReportScope': 'AllTasks'
                },
                Manifest={
                    'Spec': {
                        'Format': 'S3BatchOperations_CSV_20180820',
                        'Fields': ['Bucket', 'Key']
                    },
                    'Location': {
                        'ObjectArn': manifest_location,
                        'ETag': etag
                    }
                },
                Priority=10,
                RoleArn=role_arn,
                Description='Batch job for tagging objects',
                ConfirmationRequired=True
            )
            job_id = response['JobId']
            print(f"The Job id is {job_id}")
            return job_id
        except ClientError as e:
            print(f"Error creating batch job: {e}")
            if 'Message' in str(e):
                print(f"Detailed error message: {e.response['Message']}")
            raise
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/CreateJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteJobTagging`
<a name="s3-control_DeleteJobTagging_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJobTagging`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 

```
    def delete_job_tags(self, job_id: str, account_id: str) -> None:
        """
        Delete all tags from a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            self.s3control_client.delete_job_tagging(
                AccountId=account_id,
                JobId=job_id
            )
            print(f"You have successfully deleted {job_id} tagging.")
        except ClientError as e:
            print(f"Error deleting job tags: {e}")
            raise
```
+  Untuk detail API, lihat [DeleteJobTagging](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/DeleteJobTagging)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeJob`
<a name="s3-control_DescribeJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 

```
    def describe_job_details(self, job_id: str, account_id: str) -> None:
        """
        Describe detailed information about a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.describe_job(
                AccountId=account_id,
                JobId=job_id
            )
            job = response['Job']
            print(f"Job ID: {job['JobId']}")
            print(f"Description: {job.get('Description', 'N/A')}")
            print(f"Status: {job['Status']}")
            print(f"Role ARN: {job['RoleArn']}")
            print(f"Priority: {job['Priority']}")
            if 'ProgressSummary' in job:
                progress = job['ProgressSummary']
                print(f"Progress Summary: Total={progress.get('TotalNumberOfTasks', 0)}, "
                      f"Succeeded={progress.get('NumberOfTasksSucceeded', 0)}, "
                      f"Failed={progress.get('NumberOfTasksFailed', 0)}")
        except ClientError as e:
            print(f"Error describing job: {e}")
            raise
```
+  Untuk detail API, lihat [DescribeJob](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/DescribeJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetJobTagging`
<a name="s3-control_GetJobTagging_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobTagging`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 

```
    def get_job_tags(self, job_id: str, account_id: str) -> None:
        """
        Get tags associated with a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.get_job_tagging(
                AccountId=account_id,
                JobId=job_id
            )
            tags = response.get('Tags', [])
            if tags:
                print(f"Tags for job {job_id}:")
                for tag in tags:
                    print(f"  {tag['Key']}: {tag['Value']}")
            else:
                print(f"No tags found for job ID: {job_id}")
        except ClientError as e:
            print(f"Error getting job tags: {e}")
            raise
```
+  Untuk detail API, lihat [GetJobTagging](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/GetJobTagging)di *AWS SDK for Python (Boto3) Referensi* API. 

### `PutJobTagging`
<a name="s3-control_PutJobTagging_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutJobTagging`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 

```
    def put_job_tags(self, job_id: str, account_id: str) -> None:
        """
        Add tags to a batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            self.s3control_client.put_job_tagging(
                AccountId=account_id,
                JobId=job_id,
                Tags=[
                    {'Key': 'Environment', 'Value': 'Development'},
                    {'Key': 'Team', 'Value': 'DataProcessing'}
                ]
            )
            print(f"Additional tags were added to job {job_id}")
        except ClientError as e:
            print(f"Error adding job tags: {e}")
            raise
```
+  Untuk detail API, lihat [PutJobTagging](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/PutJobTagging)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateJobPriority`
<a name="s3-control_UpdateJobPriority_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateJobPriority`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 

```
    def update_job_priority(self, job_id: str, account_id: str) -> None:
        """
        Update the priority of a batch job and start it.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.describe_job(
                AccountId=account_id,
                JobId=job_id
            )
            current_status = response['Job']['Status']
            print(f"Current job status: {current_status}")
            
            if current_status in ['Ready', 'Suspended']:
                self.s3control_client.update_job_priority(
                    AccountId=account_id,
                    JobId=job_id,
                    Priority=60
                )
                print("The job priority was updated")
                
                try:
                    self.s3control_client.update_job_status(
                        AccountId=account_id,
                        JobId=job_id,
                        RequestedJobStatus='Ready'
                    )
                    print("Job activated successfully")
                except ClientError as activation_error:
                    print(f"Note: Could not activate job automatically: {activation_error}")
                    print("Job priority was updated successfully. Job may need manual activation in the console.")
            elif current_status in ['Active', 'Completing', 'Complete']:
                print(f"Job is in '{current_status}' state - priority cannot be updated")
                if current_status == 'Completing':
                    print("Job is finishing up and will complete soon.")
                elif current_status == 'Complete':
                    print("Job has already completed successfully.")
                else:
                    print("Job is currently running.")
            else:
                print(f"Job is in '{current_status}' state - priority update not allowed")
                
        except ClientError as e:
            print(f"Error updating job priority: {e}")
            print("Continuing with the scenario...")
            return
```
+  Untuk detail API, lihat [UpdateJobPriority](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/UpdateJobPriority)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateJobStatus`
<a name="s3-control_UpdateJobStatus_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateJobStatus`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3/scenarios/batch#code-examples). 

```
    def cancel_job(self, job_id: str, account_id: str) -> None:
        """
        Cancel an S3 batch job.

        Args:
            job_id (str): ID of the batch job
            account_id (str): AWS account ID
        """
        try:
            response = self.s3control_client.describe_job(
                AccountId=account_id,
                JobId=job_id
            )
            current_status = response['Job']['Status']
            print(f"Current job status: {current_status}")

            if current_status in ['Ready', 'Suspended', 'Active']:
                self.s3control_client.update_job_status(
                    AccountId=account_id,
                    JobId=job_id,
                    RequestedJobStatus='Cancelled'
                )
                print(f"Job {job_id} was successfully canceled.")
            elif current_status in ['Completing', 'Complete']:
                print(f"Job is in '{current_status}' state - cannot be cancelled")
                if current_status == 'Completing':
                    print("Job is finishing up and will complete soon.")
                elif current_status == 'Complete':
                    print("Job has already completed successfully.")
            else:
                print(f"Job is in '{current_status}' state - cancel not allowed")
        except ClientError as e:
            print(f"Error canceling job: {e}")
            raise
```
+  Untuk detail API, lihat [UpdateJobStatus](https://docs.aws.amazon.com/goto/boto3/s3control-2018-08-20/UpdateJobStatus)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Bucket Direktori S3 menggunakan SDK for Python (Boto3)
<a name="python_3_s3-directory-buckets_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Bucket Direktori AWS SDK untuk Python (Boto3) with S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3-directory-buckets_Scenario_ExpressBasics_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Siapkan VPC dan VPC Endpoint.
+ Siapkan Kebijakan, Peran, dan Pengguna untuk bekerja dengan bucket direktori S3 dan kelas penyimpanan S3 Express One Zone.
+ Buat dua Klien S3.
+ Buat dua bucket.
+ Buat objek dan salin.
+ Menunjukkan perbedaan kinerja.
+ Isi ember untuk menunjukkan perbedaan leksikografis.
+ Minta pengguna untuk melihat apakah mereka ingin membersihkan sumber daya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3-directory-buckets/#code-examples). 
Jalankan skenario yang mendemonstrasikan dasar-dasar bucket direktori Amazon S3 dan S3 Express One Zone.   

```
class S3ExpressScenario:
    """Runs an interactive scenario that shows how to get started with S3 Express."""

    def __init__(
        self,
        cloud_formation_resource: ServiceResource,
        ec2_client: client,
        iam_client: client,
    ):
        self.cloud_formation_resource = cloud_formation_resource
        self.ec2_client = ec2_client
        self.iam_client = iam_client
        self.region = ec2_client.meta.region_name
        self.stack = None
        self.vpc_id = None
        self.vpc_endpoint_id = None
        self.regular_bucket_name = None
        self.directory_bucket_name = None
        self.s3_express_wrapper = None
        self.s3_regular_wrapper = None

    def s3_express_scenario(self):
        """
        Runs the scenario.
        """
        print("")
        print_dashes()
        print("Welcome to the Amazon S3 Express Basics demo using Python (Boto 3)!")
        print_dashes()
        print(
            """
Let's get started! First, please note that S3 Express One Zone works best when working within the AWS infrastructure,
specifically when working in the same Availability Zone. To see the best results in this example and when you implement
Directory buckets into your infrastructure, it is best to put your compute resources in the same AZ as your Directory
bucket.
    """
        )
        press_enter_to_continue()

        # Create an optional VPC and create 2 IAM users.
        express_user_name, regular_user_name = self.create_vpc_and_users()

        # Set up two S3 clients, one regular and one express, and two buckets, one regular and one express.
        self.setup_clients_and_buckets(express_user_name, regular_user_name)

        # Create an S3 session for the express S3 client and add objects to the buckets.
        bucket_object = self.create_session_and_add_objects()

        # Demonstrate performance differences between regular and express buckets.
        self.demonstrate_performance(bucket_object)

        # Populate the buckets to show the lexicographical difference between regular and express buckets.
        self.show_lexicographical_differences(bucket_object)

        print("")
        print("That's it for our tour of the basic operations for S3 Express One Zone.")

        if q.ask(
            "Would you like to delete all the resources created during this demo (y/n)? ",
            q.is_yesno,
        ):
            self.cleanup()

    def create_vpc_and_users(self) -> None:
        """
        Optionally create a VPC.
        Create two IAM users, one with S3 Express One Zone permissions and one without.
        """
        # Configure a gateway VPC endpoint. This is the recommended method to allow S3 Express One Zone traffic without
        # the need to pass through an internet gateway or NAT device.
        print(
            """
1. First, we'll set up a new VPC and VPC Endpoint if this program is running in an EC2 instance in the same AZ as your 
Directory buckets will be. Are you running this in an EC2 instance located in the same AZ as your intended Directory buckets?
"""
        )
        if q.ask("Do you want to setup a VPC Endpoint? (y/n) ", q.is_yesno):
            print(
                "Great! Let's set up a VPC, retrieve the Route Table from it, and create a VPC Endpoint to connect the S3 Client to."
            )
            self.setup_vpc()
            press_enter_to_continue()
        else:
            print("Skipping the VPC setup. Don't forget to use this in production!")
        print(
            """            
2. Policies, users, and roles with CDK.
Now, we'll set up some policies, roles, and a user. This user will only have permissions to do S3 Express One Zone actions.
            """
        )
        press_enter_to_continue()
        stack_name = f"cfn-stack-s3-express-basics--{uuid.uuid4()}"
        template_as_string = S3ExpressScenario.get_template_as_string()
        self.stack = self.deploy_cloudformation_stack(stack_name, template_as_string)
        regular_user_name = None
        express_user_name = None
        outputs = self.stack.outputs
        for output in outputs:
            if output.get("OutputKey") == "RegularUser":
                regular_user_name = output.get("OutputValue")
            elif output.get("OutputKey") == "ExpressUser":
                express_user_name = output.get("OutputValue")
        if not regular_user_name or not express_user_name:
            error_string = f"""
            Failed to retrieve required outputs from CloudFormation stack.
            'regular_user_name'={regular_user_name}, 'express_user_name'={express_user_name}
            """
            logger.error(error_string)
            raise ValueError(error_string)
        return express_user_name, regular_user_name

    def setup_clients_and_buckets(
        self, express_user_name: str, regular_user_name: str
    ) -> None:
        """
        Set up two S3 clients, one regular and one express, and two buckets, one regular and one express.
        :param express_user_name: The name of the user with S3 Express permissions.
        :param regular_user_name: The name of the user with regular S3 permissions.
        """
        regular_credentials = self.create_access_key(regular_user_name)
        express_credentials = self.create_access_key(express_user_name)
        # 3. Create an additional client using the credentials with S3 Express permissions.
        print(
            """            
3. Create an additional client using the credentials with S3 Express permissions. This client is created with the 
credentials associated with the user account with the S3 Express policy attached, so it can perform S3 Express operations.
"""
        )
        press_enter_to_continue()
        s3_regular_client = self.create_s3__client_with_access_key_credentials(
            regular_credentials
        )
        self.s3_regular_wrapper = S3ExpressWrapper(s3_regular_client)
        s3_express_client = self.create_s3__client_with_access_key_credentials(
            express_credentials
        )
        self.s3_express_wrapper = S3ExpressWrapper(s3_express_client)
        print(
            """
All the roles and policies were created and attached to the user. Then a new S3 Client were created using 
that user's credentials. We can now use this client to make calls to S3 Express operations. Keeping permissions in mind
(and adhering to least-privilege) is crucial to S3 Express.
 """
        )
        press_enter_to_continue()
        # 4. Create two buckets.
        print(
            """
3. Create two buckets.
Now we will create a Directory bucket which is the linchpin of the S3 Express One Zone service. Directory buckets 
behave in different ways from regular S3 buckets which we will explore here. We'll also create a normal bucket, put 
an object into the normal bucket, and copy it over to the Directory bucket.
"""
        )

        # Create a directory bucket. These are different from normal S3 buckets in subtle ways.
        bucket_prefix = q.ask(
            "Enter a bucket name prefix that will be used for both buckets: ",
            q.re_match(r"[a-z0-9](?:[a-z0-9-\.]*)[a-z0-9]$"),
        )

        # Some availability zones are not supported for Directory buckets. We'll choose one that is supported.
        print(
            "Now, let's choose an availability zone for the Directory bucket. We'll choose one that is supported."
        )
        while True:
            availability_zone = self.select_availability_zone_id(self.region)
            # Construct the parts of a directory bucket name that is made unique with a UUID string.
            directory_bucket_suffix = f"--{availability_zone['ZoneId']}--x-s3"
            max_uuid_length = 63 - len(bucket_prefix) - len(directory_bucket_suffix) - 1
            bucket_uuid = str(uuid.uuid4()).replace("-", "")[:max_uuid_length]
            directory_bucket_name = (
                f"{bucket_prefix}-{bucket_uuid}{directory_bucket_suffix}"
            )
            regular_bucket_name = f"{bucket_prefix}-regular-{bucket_uuid}"
            configuration = {
                "Bucket": {
                    "Type": "Directory",
                    "DataRedundancy": "SingleAvailabilityZone",
                },
                "Location": {
                    "Name": availability_zone["ZoneId"],
                    "Type": "AvailabilityZone",
                },
            }
            press_enter_to_continue()
            print(
                "Now, let's create the actual Directory bucket, as well as a regular bucket."
            )
            press_enter_to_continue()
            try:
                self.s3_express_wrapper.create_bucket(
                    directory_bucket_name, configuration
                )
                break
            except ClientError as client_error:
                if client_error.response["Error"]["Code"] == "InvalidBucketName":
                    print(
                        f"Bucket '{directory_bucket_name}' is invalid. This may be because of selected availability zone."
                    )
                    if q.ask(
                        "Would you like to select a different availability zone? ",
                        q.is_yesno,
                    ):
                        continue
                    else:
                        raise
                else:
                    raise
        print(f"Created directory bucket, '{directory_bucket_name}'")
        self.directory_bucket_name = directory_bucket_name

        self.s3_regular_wrapper.create_bucket(regular_bucket_name)
        print(f"Created regular bucket, '{regular_bucket_name}'")
        self.regular_bucket_name = regular_bucket_name
        print("Great! Both buckets were created.")
        press_enter_to_continue()

    def create_session_and_add_objects(self) -> None:
        """
        Create a session for the express S3 client and add objects to the buckets.
        """
        print(
            """    
5. Create an object and copy it over.
We'll create a basic object consisting of some text and upload it to the normal bucket. Next we'll copy the object 
into the Directory bucket using the regular client. This works fine because copy operations are not restricted for 
Directory buckets.
        """
        )
        press_enter_to_continue()
        bucket_object = "basic-text-object"
        self.s3_regular_wrapper.put_object(
            self.regular_bucket_name, bucket_object, "Look Ma, I'm a bucket!"
        )
        self.s3_express_wrapper.create_session(self.directory_bucket_name)
        self.s3_express_wrapper.copy_object(
            self.regular_bucket_name,
            bucket_object,
            self.directory_bucket_name,
            bucket_object,
        )
        print(
            """
It worked! It's important to remember the user permissions when interacting with Directory buckets. Instead of validating
permissions on every call as normal buckets do, Directory buckets utilize the user credentials and session token to validate.
This allows for much faster connection speeds on every call. For single calls, this is low, but for many concurrent calls 
this adds up to a lot of time saved.
"""
        )
        press_enter_to_continue()
        return bucket_object

    def demonstrate_performance(self, bucket_object: str) -> None:
        """
        Demonstrate performance differences between regular and Directory buckets.
        :param bucket_object: The name of the object to download from each bucket.
        """
        print("")
        print("6. Demonstrate performance difference.")
        print(
            """
Now, let's do a performance test. We'll download the same object from each bucket 'downloads' times 
and compare the total time needed. Note: the performance difference will be much more pronounced if this
example is run in an EC2 instance in the same Availability Zone as the bucket.
"""
        )
        downloads = 1000
        print(
            f"The number of downloads of the same object for this example is set at {downloads}."
        )
        if q.ask("Would you like to download a different number? (y/n) ", q.is_yesno):
            max_downloads = 1000000
            downloads = q.ask(
                f"Enter a number between 1 and {max_downloads} for the number of downloads: ",
                q.is_int,
                q.in_range(1, max_downloads),
            )
        # Download the object 'downloads' times from each bucket and time it to demonstrate the speed difference.
        print("Downloading from the Directory bucket.")
        directory_time_start = time.time_ns()

        for index in range(downloads):
            if index % 10 == 0:
                print(f"Download {index} of {downloads}")

            self.s3_express_wrapper.get_object(
                self.directory_bucket_name, bucket_object
            )

        directory_time_difference = time.time_ns() - directory_time_start
        print("Downloading from the normal bucket.")
        normal_time_start = time.time_ns()

        for index in range(downloads):
            if index % 10 == 0:
                print(f"Download {index} of {downloads}")
            self.s3_regular_wrapper.get_object(self.regular_bucket_name, bucket_object)

        normal_time_difference = time.time_ns() - normal_time_start
        print(
            f"The directory bucket took {directory_time_difference} nanoseconds, while the normal bucket took {normal_time_difference}."
        )
        difference = normal_time_difference - directory_time_difference
        print(f"That's a difference of {difference} nanoseconds, or")
        print(f"{(difference) / 1000000000} seconds.")
        if difference < 0:
            print(
                "The directory buckets were slower. This can happen if you are not running on the cloud within a vpc."
            )
        press_enter_to_continue()

    def show_lexicographical_differences(self, bucket_object: str) -> None:
        """
        Show the lexicographical difference between Directory buckets and regular buckets.
        This is done by creating a few objects in each bucket and listing them to show the difference.
        :param bucket_object: The object to use for the listing operations.
        """
        print(
            """
7. Populate the buckets to show the lexicographical difference.
Now let's explore how Directory buckets store objects in a different manner to regular buckets. The key is in the name 
"Directory". Where regular buckets store their key/value pairs in a flat manner, Directory buckets use actual 
directories/folders. This allows for more rapid indexing, traversing, and therefore retrieval times! The more segmented 
your bucket is, with lots of directories, sub-directories, and objects, the more efficient it becomes. This structural 
difference also causes ListObjects to behave differently, which can cause unexpected results. Let's add a few more 
objects with layered directories to see how the output of ListObjects changes.
        """
        )
        press_enter_to_continue()
        # Populate a few more files in each bucket so that we can use ListObjects and show the difference.
        other_object = f"other/{bucket_object}"
        alt_object = f"alt/{bucket_object}"
        other_alt_object = f"other/alt/{bucket_object}"
        self.s3_regular_wrapper.put_object(self.regular_bucket_name, other_object, "")
        self.s3_express_wrapper.put_object(self.directory_bucket_name, other_object, "")
        self.s3_regular_wrapper.put_object(self.regular_bucket_name, alt_object, "")
        self.s3_express_wrapper.put_object(self.directory_bucket_name, alt_object, "")
        self.s3_regular_wrapper.put_object(
            self.regular_bucket_name, other_alt_object, ""
        )
        self.s3_express_wrapper.put_object(
            self.directory_bucket_name, other_alt_object, ""
        )
        directory_bucket_objects = self.s3_express_wrapper.list_objects(
            self.directory_bucket_name
        )

        regular_bucket_objects = self.s3_regular_wrapper.list_objects(
            self.regular_bucket_name
        )

        print("Directory bucket content")
        for bucket_object in directory_bucket_objects:
            print(f"   {bucket_object['Key']}")
        print("Normal bucket content")
        for bucket_object in regular_bucket_objects:
            print(f"   {bucket_object['Key']}")
        print(
            """
Notice how the normal bucket lists objects in lexicographical order, while the directory bucket does not. This is 
because the normal bucket considers the whole "key" to be the object identifier, while the directory bucket actually 
creates directories and uses the object "key" as a path to the object.
            """
        )
        press_enter_to_continue()

    def cleanup(self) -> None:
        """
        Delete resources created by this scenario.
        """
        if self.directory_bucket_name is not None:
            self.s3_express_wrapper.delete_bucket_and_objects(
                self.directory_bucket_name
            )
            print(f"Deleted directory bucket, '{self.directory_bucket_name}'")
            self.directory_bucket_name = None

        if self.regular_bucket_name is not None:
            self.s3_regular_wrapper.delete_bucket_and_objects(self.regular_bucket_name)
            print(f"Deleted regular bucket, '{self.regular_bucket_name}'")
            self.regular_bucket_name = None

        if self.stack is not None:
            self.destroy_cloudformation_stack(self.stack)
            self.stack = None

        self.tear_done_vpc()

    def create_access_key(self, user_name: str) -> dict[str, any]:
        """
        Creates an access key for the user.
        :param user_name: The name of the user.
        :return: The access key for the user.
        """
        try:
            access_key = self.iam_client.create_access_key(UserName=user_name)
            return access_key["AccessKey"]
        except ClientError as client_error:
            logging.error(
                "Couldn't create the access key. Here's why: %s",
                client_error.response["Error"]["Message"],
            )
            raise

    def create_s3__client_with_access_key_credentials(
        self, access_key: dict[str, any]
    ) -> client:
        """
        Creates an S3 client with access key credentials.
        :param access_key: The access key for the user.
        :return: The S3 Express One Zone client.
        """
        try:
            s3_express_client = boto3.client(
                "s3",
                aws_access_key_id=access_key["AccessKeyId"],
                aws_secret_access_key=access_key["SecretAccessKey"],
                region_name=self.region,
            )
            return s3_express_client
        except ClientError as client_error:
            logging.error(
                "Couldn't create the S3 Express One Zone client. Here's why: %s",
                client_error.response["Error"]["Message"],
            )
            raise

    def select_availability_zone_id(self, region: str) -> dict[str, any]:
        """
        Selects an availability zone.
        :param region: The region to select the availability zone from.
        :return: The availability zone dictionary.
        """
        try:
            response = self.ec2_client.describe_availability_zones(
                Filters=[{"Name": "region-name", "Values": [region]}]
            )
            availability_zones = response["AvailabilityZones"]
            zone_names = [zone["ZoneName"] for zone in availability_zones]
            index = q.choose("Select an availability zone: ", zone_names)
            return availability_zones[index]
        except ClientError as client_error:
            logging.error(
                "Couldn't describe availability zones. Here's why: %s",
                client_error.response["Error"]["Message"],
            )
            raise

    def deploy_cloudformation_stack(
        self, stack_name: str, cfn_template: str
    ) -> ServiceResource:
        """
        Deploys prerequisite resources used by the scenario. The resources are
        defined in the associated `cfn_template.yaml` AWS CloudFormation script and are deployed
        as a CloudFormation stack, so they can be easily managed and destroyed.

        :param stack_name: The name of the CloudFormation stack.
        :param cfn_template: The CloudFormation template as a string.
        :return: The CloudFormation stack resource.
        """
        print(f"Deploying CloudFormation stack: {stack_name}.")
        stack = self.cloud_formation_resource.create_stack(
            StackName=stack_name,
            TemplateBody=cfn_template,
            Capabilities=["CAPABILITY_NAMED_IAM"],
        )
        print(f"CloudFormation stack creation started: {stack_name}")
        print("Waiting for CloudFormation stack creation to complete...")
        waiter = self.cloud_formation_resource.meta.client.get_waiter(
            "stack_create_complete"
        )
        waiter.wait(StackName=stack.name)
        stack.load()
        print("CloudFormation stack creation complete.")

        return stack

    def destroy_cloudformation_stack(self, stack: ServiceResource) -> None:
        """
        Destroys the resources managed by the CloudFormation stack, and the CloudFormation
        stack itself.

        :param stack: The CloudFormation stack that manages the example resources.
        """
        try:
            print(
                f"CloudFormation stack '{stack.name}' is being deleted. This may take a few minutes."
            )
            stack.delete()
            waiter = self.cloud_formation_resource.meta.client.get_waiter(
                "stack_delete_complete"
            )
            waiter.wait(StackName=stack.name)
            print(f"CloudFormation stack '{stack.name}' has been deleted.")
        except ClientError as client_error:
            logging.error(
                "Couldn't delete the CloudFormation stack. Here's why: %s",
                client_error.response["Error"]["Message"],
            )

    @staticmethod
    def get_template_as_string() -> str:
        """
        Returns a string containing this scenario's CloudFormation template.
        """
        script_directory = os.path.dirname(os.path.abspath(__file__))
        template_file_path = os.path.join(script_directory, "s3_express_template.yaml")
        file = open(template_file_path, "r")
        return file.read()

    def setup_vpc(self):
        cidr = "10.0.0.0/16"
        try:
            response = self.ec2_client.create_vpc(CidrBlock=cidr)
            self.vpc_id = response["Vpc"]["VpcId"]

            waiter = self.ec2_client.get_waiter("vpc_available")
            waiter.wait(VpcIds=[self.vpc_id])
            print(f"Created vpc {self.vpc_id}")

        except ClientError as client_error:
            logging.error(
                "Couldn't create the vpc. Here's why: %s",
                client_error.response["Error"]["Message"],
            )
            raise
        try:
            response = self.ec2_client.describe_route_tables(
                Filters=[{"Name": "vpc-id", "Values": [self.vpc_id]}]
            )
            route_table_id = response["RouteTables"][0]["RouteTableId"]
            service_name = f"com.amazonaws.{self.ec2_client.meta.region_name}.s3express"

            response = self.ec2_client.create_vpc_endpoint(
                VpcId=self.vpc_id,
                RouteTableIds=[route_table_id],
                ServiceName=service_name,
            )
            self.vpc_endpoint_id = response["VpcEndpoint"]["VpcEndpointId"]
            print(f"Created vpc endpoint {self.vpc_endpoint_id}")

        except ClientError as client_error:
            logging.error(
                "Couldn't create the vpc endpoint. Here's why: %s",
                client_error.response["Error"]["Message"],
            )
            raise

    def tear_done_vpc(self) -> None:
        if self.vpc_endpoint_id is not None:
            try:
                self.ec2_client.delete_vpc_endpoints(
                    VpcEndpointIds=[self.vpc_endpoint_id]
                )
                print(f"Deleted vpc endpoint {self.vpc_endpoint_id}.")
                self.vpc_endpoint_id = None
            except ClientError as client_error:
                logging.error(
                    "Couldn't delete the vpc endpoint %s. Here's why: %s",
                    self.vpc_endpoint_id,
                    client_error.response["Error"]["Message"],
                )
        if self.vpc_id is not None:
            try:
                self.ec2_client.delete_vpc(VpcId=self.vpc_id)
                print(f"Deleted vpc {self.vpc_id}")
                self.vpc_id = None
            except ClientError as client_error:
                logging.error(
                    "Couldn't delete the vpc %s. Here's why: %s",
                    self.vpc_id,
                    client_error.response["Error"]["Message"],
                )
```
Kelas pembungkus untuk fungsi Amazon S3 Express SDK.  

```
class S3ExpressWrapper:
    """Encapsulates Amazon S3 Express One Zone actions using the client interface."""

    def __init__(self, s3_client: Any) -> None:
        """
        Initializes the S3ExpressWrapper with an S3 client.

        :param s3_client: A Boto3 Amazon S3 client. This client provides low-level
                           access to AWS S3 services.
        """
        self.s3_client = s3_client

    @classmethod
    def from_client(cls) -> "S3ExpressWrapper":
        """
        Creates an S3ExpressWrapper instance with a default s3 client.

        :return: An instance of S3ExpressWrapper initialized with the default S3 client.
        """
        s3_client = boto3.client("s3")
        return cls(s3_client)


    def create_bucket(
        self, bucket_name: str, bucket_configuration: dict[str, any] = None
    ) -> None:
        """
        Creates a bucket.
        :param bucket_name: The name of the bucket.
        :param bucket_configuration: The optional configuration for the bucket.
        """
        try:
            params = {"Bucket": bucket_name}
            if bucket_configuration:
                params["CreateBucketConfiguration"] = bucket_configuration

            self.s3_client.create_bucket(**params)
        except ClientError as client_error:
            # Do not log InvalidBucketName error because it is logged elsewhere.
            if client_error.response["Error"]["Code"] != "InvalidBucketName":
                logging.error(
                    "Couldn't create the bucket %s. Here's why: %s",
                    bucket_name,
                    client_error.response["Error"]["Message"],
                )
            raise

    def delete_bucket_and_objects(self, bucket_name: str) -> None:
        """
        Deletes a bucket and its objects.
         :param bucket_name: The name of the bucket.
        """
        try:
            # Delete the objects in the bucket first. This is required for a bucket to be deleted.
            paginator = self.s3_client.get_paginator("list_objects_v2")
            page_iterator = paginator.paginate(Bucket=bucket_name)
            for page in page_iterator:
                if "Contents" in page:
                    delete_keys = {
                        "Objects": [{"Key": obj["Key"]} for obj in page["Contents"]]
                    }
                    response = self.s3_client.delete_objects(
                        Bucket=bucket_name, Delete=delete_keys
                    )
                    if "Errors" in response:
                        for error in response["Errors"]:
                            logging.error(
                                "Couldn't delete object %s. Here's why: %s",
                                error["Key"],
                                error["Message"],
                            )

            self.s3_client.delete_bucket(Bucket=bucket_name)
        except ClientError as client_error:
            logging.error(
                "Couldn't delete the bucket %s. Here's why: %s",
                bucket_name,
                client_error.response["Error"]["Message"],
            )

    def put_object(self, bucket_name: str, object_key: str, content: str) -> None:
        """
        Puts an object into a bucket.
        :param bucket_name: The name of the bucket.
        :param object_key: The key of the object.
        :param content: The content of the object.
        """
        try:
            self.s3_client.put_object(Body=content, Bucket=bucket_name, Key=object_key)
        except ClientError as client_error:
            logging.error(
                "Couldn't put the object %s into bucket %s. Here's why: %s",
                object_key,
                bucket_name,
                client_error.response["Error"]["Message"],
            )
            raise

    def list_objects(self, bucket: str) -> list[str]:
        """
        Lists objects in a bucket.
        :param bucket: The name of the bucket.
        :return: The list of objects in the bucket.
        """
        try:
            response = self.s3_client.list_objects_v2(Bucket=bucket)
            return response.get("Contents", [])
        except ClientError as client_error:
            logging.error(
                "Couldn't list objects in bucket %s. Here's why: %s",
                bucket,
                client_error.response["Error"]["Message"],
            )
            raise

    def copy_object(
        self,
        source_bucket: str,
        source_key: str,
        destination_bucket: str,
        destination_key: str,
    ) -> None:
        """
        Copies an object from one bucket to another.
        :param source_bucket: The source bucket.
        :param source_key: The source key.
        :param destination_bucket: The destination bucket.
        :param destination_key: The destination key.
        :return: None
        """
        try:
            self.s3_client.copy_object(
                CopySource={"Bucket": source_bucket, "Key": source_key},
                Bucket=destination_bucket,
                Key=destination_key,
            )
        except ClientError as client_error:
            logging.error(
                "Couldn't copy object %s from bucket %s to bucket %s. Here's why: %s",
                source_key,
                source_bucket,
                destination_bucket,
                client_error.response["Error"]["Message"],
            )
            raise

    def create_session(self, bucket_name: str) -> None:
        """
        Creates an express session.
        :param bucket_name: The name of the bucket.
        """
        try:
            self.s3_client.create_session(Bucket=bucket_name)
        except ClientError as client_error:
            logging.error(
                "Couldn't create the express session for bucket %s. Here's why: %s",
                bucket_name,
                client_error.response["Error"]["Message"],
            )
            raise


    def get_object(self, bucket_name: str, object_key: str) -> None:
        """
        Gets an object from a bucket.
        :param bucket_name: The name of the bucket.
        :param object_key: The key of the object.
        """
        try:
            self.s3_client.get_object(Bucket=bucket_name, Key=object_key)
        except ClientError as client_error:
            logging.error(
                "Couldn't get the object %s from bucket %s. Here's why: %s",
                object_key,
                bucket_name,
                client_error.response["Error"]["Message"],
            )
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CopyObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteBucket)
  + [DeleteObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/DeleteObject)
  + [GetObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/GetObject)
  + [ListObjects](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/ListObjects)
  + [PutObject](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `CreateSession`
<a name="s3-directory-buckets_CreateSession_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSession`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/s3-directory-buckets#code-examples). 

```
class S3ExpressWrapper:
    """Encapsulates Amazon S3 Express One Zone actions using the client interface."""

    def __init__(self, s3_client: Any) -> None:
        """
        Initializes the S3ExpressWrapper with an S3 client.

        :param s3_client: A Boto3 Amazon S3 client. This client provides low-level
                           access to AWS S3 services.
        """
        self.s3_client = s3_client

    @classmethod
    def from_client(cls) -> "S3ExpressWrapper":
        """
        Creates an S3ExpressWrapper instance with a default s3 client.

        :return: An instance of S3ExpressWrapper initialized with the default S3 client.
        """
        s3_client = boto3.client("s3")
        return cls(s3_client)


    def create_session(self, bucket_name: str) -> None:
        """
        Creates an express session.
        :param bucket_name: The name of the bucket.
        """
        try:
            self.s3_client.create_session(Bucket=bucket_name)
        except ClientError as client_error:
            logging.error(
                "Couldn't create the express session for bucket %s. Here's why: %s",
                bucket_name,
                client_error.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateSession](https://docs.aws.amazon.com/goto/boto3/s3-2006-03-01/CreateSession)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Secrets Manager menggunakan SDK for Python (Boto3)
<a name="python_3_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Secrets Manager AWS SDK untuk Python (Boto3) with.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `BatchGetSecretValue`
<a name="secrets-manager_BatchGetSecretValue_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetSecretValue`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/secretsmanager#code-examples). 

```
class BatchGetSecretsWrapper:
    def __init__(self, secretsmanager_client):
        self.client = secretsmanager_client


    def batch_get_secrets(self, filter_name):
        """
        Retrieve multiple secrets from AWS Secrets Manager using the batch_get_secret_value API.
        This function assumes the stack mentioned in the source code README has been successfully deployed.
        This stack includes 7 secrets, all of which have names beginning with "mySecret".

        :param filter_name: The full or partial name of secrets to be fetched.
        :type filter_name: str
        """
        try:
            secrets = []
            response = self.client.batch_get_secret_value(
                Filters=[{"Key": "name", "Values": [f"{filter_name}"]}]
            )
            for secret in response["SecretValues"]:
                secrets.append(json.loads(secret["SecretString"]))
            if secrets:
                logger.info("Secrets retrieved successfully.")
            else:
                logger.info("Zero secrets returned without error.")
            return secrets
        except self.client.exceptions.ResourceNotFoundException:
            msg = f"One or more requested secrets were not found with filter: {filter_name}"
            logger.info(msg)
            return msg
        except Exception as e:
            logger.error(f"An unknown error occurred:\n{str(e)}.")
            raise
```
+  Untuk detail API, lihat [BatchGetSecretValue](https://docs.aws.amazon.com/goto/boto3/secretsmanager-2017-10-17/BatchGetSecretValue)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetSecretValue`
<a name="secrets-manager_GetSecretValue_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSecretValue`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/secretsmanager#code-examples). 

```
class GetSecretWrapper:
    def __init__(self, secretsmanager_client):
        self.client = secretsmanager_client


    def get_secret(self, secret_name):
        """
        Retrieve individual secrets from AWS Secrets Manager using the get_secret_value API.
        This function assumes the stack mentioned in the source code README has been successfully deployed.
        This stack includes 7 secrets, all of which have names beginning with "mySecret".

        :param secret_name: The name of the secret fetched.
        :type secret_name: str
        """
        try:
            get_secret_value_response = self.client.get_secret_value(
                SecretId=secret_name
            )
            logging.info("Secret retrieved successfully.")
            return get_secret_value_response["SecretString"]
        except self.client.exceptions.ResourceNotFoundException:
            msg = f"The requested secret {secret_name} was not found."
            logger.info(msg)
            return msg
        except Exception as e:
            logger.error(f"An unknown error occurred: {str(e)}.")
            raise
```
+  Untuk detail API, lihat [GetSecretValue](https://docs.aws.amazon.com/goto/boto3/secretsmanager-2017-10-17/GetSecretValue)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat API REST pustaka peminjaman
<a name="cross_AuroraRestLendingLibrary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pustaka peminjaman tempat pelanggan dapat meminjam dan mengembalikan buku dengan menggunakan API REST yang didukung oleh basis data Amazon Aurora.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan API Amazon Relational Database Service (Amazon RDS) dan AWS Chalice untuk membuat REST API yang didukung oleh database Amazon Aurora. AWS SDK untuk Python (Boto3) Layanan web sepenuhnya nirserver dan mewakili pustaka peminjaman sederhana tempat pelanggan dapat meminjam dan mengembalikan buku. Pelajari cara:   
+ Membuat dan mengelola klaster basis data Aurora nirserver.
+ Gunakan AWS Secrets Manager untuk mengelola kredensyal basis data.
+ Menerapkan lapisan penyimpanan data yang menggunakan Amazon RDS untuk memindahkan data masuk dan keluar dari basis data.
+ Gunakan AWS Chalice untuk menerapkan REST API tanpa server ke Amazon API Gateway dan. AWS Lambda
+ Menggunakan paket Permintaan untuk mengirim permintaan ke layanan web.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/aurora_rest_lending_library).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ Aurora
+ Lambda
+ Secrets Manager

# Amazon SES contoh menggunakan SDK for Python (Boto3)
<a name="python_3_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) With Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateReceiptFilter`
<a name="ses_CreateReceiptFilter_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptFilter`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesReceiptHandler:
    """Encapsulates Amazon SES receipt handling functions."""

    def __init__(self, ses_client, s3_resource):
        """
        :param ses_client: A Boto3 Amazon SES client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        """
        self.ses_client = ses_client
        self.s3_resource = s3_resource


    def create_receipt_filter(self, filter_name, ip_address_or_range, allow):
        """
        Creates a filter that allows or blocks incoming mail from an IP address or
        range.

        :param filter_name: The name to give the filter.
        :param ip_address_or_range: The IP address or range to block or allow.
        :param allow: When True, incoming mail is allowed from the specified IP
                      address or range; otherwise, it is blocked.
        """
        try:
            policy = "Allow" if allow else "Block"
            self.ses_client.create_receipt_filter(
                Filter={
                    "Name": filter_name,
                    "IpFilter": {"Cidr": ip_address_or_range, "Policy": policy},
                }
            )
            logger.info(
                "Created receipt filter %s to %s IP of %s.",
                filter_name,
                policy,
                ip_address_or_range,
            )
        except ClientError:
            logger.exception("Couldn't create receipt filter %s.", filter_name)
            raise
```
+  Untuk detail API, lihat [CreateReceiptFilter](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/CreateReceiptFilter)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateReceiptRule`
<a name="ses_CreateReceiptRule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptRule`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 
Buat bucket Amazon S3 tempat Amazon SES dapat menempatkan salinan email masuk dan membuat aturan yang menyalin email masuk ke bucket untuk daftar penerima tertentu.  

```
class SesReceiptHandler:
    """Encapsulates Amazon SES receipt handling functions."""

    def __init__(self, ses_client, s3_resource):
        """
        :param ses_client: A Boto3 Amazon SES client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        """
        self.ses_client = ses_client
        self.s3_resource = s3_resource


    def create_bucket_for_copy(self, bucket_name):
        """
        Creates a bucket that can receive copies of emails from Amazon SES. This
        includes adding a policy to the bucket that grants Amazon SES permission
        to put objects in the bucket.

        :param bucket_name: The name of the bucket to create.
        :return: The newly created bucket.
        """
        allow_ses_put_policy = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Sid": "AllowSESPut",
                    "Effect": "Allow",
                    "Principal": {"Service": "ses.amazonaws.com"},
                    "Action": "s3:PutObject",
                    "Resource": f"arn:aws:s3:::{bucket_name}/*",
                }
            ],
        }
        bucket = None
        try:
            bucket = self.s3_resource.create_bucket(
                Bucket=bucket_name,
                CreateBucketConfiguration={
                    "LocationConstraint": self.s3_resource.meta.client.meta.region_name
                },
            )
            bucket.wait_until_exists()
            bucket.Policy().put(Policy=json.dumps(allow_ses_put_policy))
            logger.info("Created bucket %s to receive copies of emails.", bucket_name)
        except ClientError:
            logger.exception("Couldn't create bucket to receive copies of emails.")
            if bucket is not None:
                bucket.delete()
            raise
        else:
            return bucket


    def create_s3_copy_rule(
        self, rule_set_name, rule_name, recipients, bucket_name, prefix
    ):
        """
        Creates a rule so that all emails received by the specified recipients are
        copied to an Amazon S3 bucket.

        :param rule_set_name: The name of a previously created rule set to contain
                              this rule.
        :param rule_name: The name to give the rule.
        :param recipients: When an email is received by one of these recipients, it
                           is copied to the Amazon S3 bucket.
        :param bucket_name: The name of the bucket to receive email copies. This
                            bucket must allow Amazon SES to put objects into it.
        :param prefix: An object key prefix to give the emails copied to the bucket.
        """
        try:
            self.ses_client.create_receipt_rule(
                RuleSetName=rule_set_name,
                Rule={
                    "Name": rule_name,
                    "Enabled": True,
                    "Recipients": recipients,
                    "Actions": [
                        {
                            "S3Action": {
                                "BucketName": bucket_name,
                                "ObjectKeyPrefix": prefix,
                            }
                        }
                    ],
                },
            )
            logger.info(
                "Created rule %s to copy mail received by %s to bucket %s.",
                rule_name,
                recipients,
                bucket_name,
            )
        except ClientError:
            logger.exception("Couldn't create rule %s.", rule_name)
            raise
```
+  Untuk detail API, lihat [CreateReceiptRule](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/CreateReceiptRule)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateReceiptRuleSet`
<a name="ses_CreateReceiptRuleSet_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptRuleSet`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesReceiptHandler:
    """Encapsulates Amazon SES receipt handling functions."""

    def __init__(self, ses_client, s3_resource):
        """
        :param ses_client: A Boto3 Amazon SES client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        """
        self.ses_client = ses_client
        self.s3_resource = s3_resource


    def create_receipt_rule_set(self, rule_set_name):
        """
        Creates an empty rule set. Rule sets contain individual rules and can be
        used to organize rules.

        :param rule_set_name: The name to give the rule set.
        """
        try:
            self.ses_client.create_receipt_rule_set(RuleSetName=rule_set_name)
            logger.info("Created receipt rule set %s.", rule_set_name)
        except ClientError:
            logger.exception("Couldn't create receipt rule set %s.", rule_set_name)
            raise
```
+  Untuk detail API, lihat [CreateReceiptRuleSet](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/CreateReceiptRuleSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateTemplate`
<a name="ses_CreateTemplate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTemplate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesTemplate:
    """Encapsulates Amazon SES template functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client
        self.template = None
        self.template_tags = set()

    def _extract_tags(self, subject, text, html):
        """
        Extracts tags from a template as a set of unique values.

        :param subject: The subject of the email.
        :param text: The text version of the email.
        :param html: The html version of the email.
        """
        self.template_tags = set(re.findall(TEMPLATE_REGEX, subject + text + html))
        logger.info("Extracted template tags: %s", self.template_tags)


    def create_template(self, name, subject, text, html):
        """
        Creates an email template.

        :param name: The name of the template.
        :param subject: The subject of the email.
        :param text: The plain text version of the email.
        :param html: The HTML version of the email.
        """
        try:
            template = {
                "TemplateName": name,
                "SubjectPart": subject,
                "TextPart": text,
                "HtmlPart": html,
            }
            self.ses_client.create_template(Template=template)
            logger.info("Created template %s.", name)
            self.template = template
            self._extract_tags(subject, text, html)
        except ClientError:
            logger.exception("Couldn't create template %s.", name)
            raise
```
+  Untuk detail API, lihat [CreateTemplate](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/CreateTemplate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteIdentity`
<a name="ses_DeleteIdentity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteIdentity`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesIdentity:
    """Encapsulates Amazon SES identity functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def delete_identity(self, identity):
        """
        Deletes an identity.

        :param identity: The identity to remove.
        """
        try:
            self.ses_client.delete_identity(Identity=identity)
            logger.info("Deleted identity %s.", identity)
        except ClientError:
            logger.exception("Couldn't delete identity %s.", identity)
            raise
```
+  Untuk detail API, lihat [DeleteIdentity](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/DeleteIdentity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteReceiptFilter`
<a name="ses_DeleteReceiptFilter_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptFilter`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesReceiptHandler:
    """Encapsulates Amazon SES receipt handling functions."""

    def __init__(self, ses_client, s3_resource):
        """
        :param ses_client: A Boto3 Amazon SES client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        """
        self.ses_client = ses_client
        self.s3_resource = s3_resource


    def delete_receipt_filter(self, filter_name):
        """
        Deletes a receipt filter.

        :param filter_name: The name of the filter to delete.
        """
        try:
            self.ses_client.delete_receipt_filter(FilterName=filter_name)
            logger.info("Deleted receipt filter %s.", filter_name)
        except ClientError:
            logger.exception("Couldn't delete receipt filter %s.", filter_name)
            raise
```
+  Untuk detail API, lihat [DeleteReceiptFilter](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/DeleteReceiptFilter)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteReceiptRule`
<a name="ses_DeleteReceiptRule_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptRule`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesReceiptHandler:
    """Encapsulates Amazon SES receipt handling functions."""

    def __init__(self, ses_client, s3_resource):
        """
        :param ses_client: A Boto3 Amazon SES client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        """
        self.ses_client = ses_client
        self.s3_resource = s3_resource


    def delete_receipt_rule(self, rule_set_name, rule_name):
        """
        Deletes a rule.

        :param rule_set_name: The rule set that contains the rule to delete.
        :param rule_name: The rule to delete.
        """
        try:
            self.ses_client.delete_receipt_rule(
                RuleSetName=rule_set_name, RuleName=rule_name
            )
            logger.info("Removed rule %s from rule set %s.", rule_name, rule_set_name)
        except ClientError:
            logger.exception(
                "Couldn't remove rule %s from rule set %s.", rule_name, rule_set_name
            )
            raise
```
+  Untuk detail API, lihat [DeleteReceiptRule](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/DeleteReceiptRule)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteReceiptRuleSet`
<a name="ses_DeleteReceiptRuleSet_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptRuleSet`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesReceiptHandler:
    """Encapsulates Amazon SES receipt handling functions."""

    def __init__(self, ses_client, s3_resource):
        """
        :param ses_client: A Boto3 Amazon SES client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        """
        self.ses_client = ses_client
        self.s3_resource = s3_resource


    def delete_receipt_rule_set(self, rule_set_name):
        """
        Deletes a rule set. When a rule set is deleted, all of the rules it contains
        are also deleted.

        :param rule_set_name: The name of the rule set to delete.
        """
        try:
            self.ses_client.delete_receipt_rule_set(RuleSetName=rule_set_name)
            logger.info("Deleted rule set %s.", rule_set_name)
        except ClientError:
            logger.exception("Couldn't delete rule set %s.", rule_set_name)
            raise
```
+  Untuk detail API, lihat [DeleteReceiptRuleSet](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/DeleteReceiptRuleSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteTemplate`
<a name="ses_DeleteTemplate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTemplate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesTemplate:
    """Encapsulates Amazon SES template functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client
        self.template = None
        self.template_tags = set()

    def _extract_tags(self, subject, text, html):
        """
        Extracts tags from a template as a set of unique values.

        :param subject: The subject of the email.
        :param text: The text version of the email.
        :param html: The html version of the email.
        """
        self.template_tags = set(re.findall(TEMPLATE_REGEX, subject + text + html))
        logger.info("Extracted template tags: %s", self.template_tags)


    def delete_template(self):
        """
        Deletes an email template.
        """
        try:
            self.ses_client.delete_template(TemplateName=self.template["TemplateName"])
            logger.info("Deleted template %s.", self.template["TemplateName"])
            self.template = None
            self.template_tags = None
        except ClientError:
            logger.exception(
                "Couldn't delete template %s.", self.template["TemplateName"]
            )
            raise
```
+  Untuk detail API, lihat [DeleteTemplate](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/DeleteTemplate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeReceiptRuleSet`
<a name="ses_DescribeReceiptRuleSet_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeReceiptRuleSet`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesReceiptHandler:
    """Encapsulates Amazon SES receipt handling functions."""

    def __init__(self, ses_client, s3_resource):
        """
        :param ses_client: A Boto3 Amazon SES client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        """
        self.ses_client = ses_client
        self.s3_resource = s3_resource


    def describe_receipt_rule_set(self, rule_set_name):
        """
        Gets data about a rule set.

        :param rule_set_name: The name of the rule set to retrieve.
        :return: Data about the rule set.
        """
        try:
            response = self.ses_client.describe_receipt_rule_set(
                RuleSetName=rule_set_name
            )
            logger.info("Got data for rule set %s.", rule_set_name)
        except ClientError:
            logger.exception("Couldn't get data for rule set %s.", rule_set_name)
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DescribeReceiptRuleSet](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/DescribeReceiptRuleSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetIdentityVerificationAttributes`
<a name="ses_GetIdentityVerificationAttributes_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetIdentityVerificationAttributes`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesIdentity:
    """Encapsulates Amazon SES identity functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def get_identity_status(self, identity):
        """
        Gets the status of an identity. This can be used to discover whether
        an identity has been successfully verified.

        :param identity: The identity to query.
        :return: The status of the identity.
        """
        try:
            response = self.ses_client.get_identity_verification_attributes(
                Identities=[identity]
            )
            status = response["VerificationAttributes"].get(
                identity, {"VerificationStatus": "NotFound"}
            )["VerificationStatus"]
            logger.info("Got status of %s for %s.", status, identity)
        except ClientError:
            logger.exception("Couldn't get status for %s.", identity)
            raise
        else:
            return status
```
+  Untuk detail API, lihat [GetIdentityVerificationAttributes](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/GetIdentityVerificationAttributes)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetTemplate`
<a name="ses_GetTemplate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTemplate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesTemplate:
    """Encapsulates Amazon SES template functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client
        self.template = None
        self.template_tags = set()

    def _extract_tags(self, subject, text, html):
        """
        Extracts tags from a template as a set of unique values.

        :param subject: The subject of the email.
        :param text: The text version of the email.
        :param html: The html version of the email.
        """
        self.template_tags = set(re.findall(TEMPLATE_REGEX, subject + text + html))
        logger.info("Extracted template tags: %s", self.template_tags)


    def get_template(self, name):
        """
        Gets a previously created email template.

        :param name: The name of the template to retrieve.
        :return: The retrieved email template.
        """
        try:
            response = self.ses_client.get_template(TemplateName=name)
            self.template = response["Template"]
            logger.info("Got template %s.", name)
            self._extract_tags(
                self.template["SubjectPart"],
                self.template["TextPart"],
                self.template["HtmlPart"],
            )
        except ClientError:
            logger.exception("Couldn't get template %s.", name)
            raise
        else:
            return self.template
```
+  Untuk detail API, lihat [GetTemplate](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/GetTemplate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListIdentities`
<a name="ses_ListIdentities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentities`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesIdentity:
    """Encapsulates Amazon SES identity functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def list_identities(self, identity_type, max_items):
        """
        Gets the identities of the specified type for the current account.

        :param identity_type: The type of identity to retrieve, such as EmailAddress.
        :param max_items: The maximum number of identities to retrieve.
        :return: The list of retrieved identities.
        """
        try:
            response = self.ses_client.list_identities(
                IdentityType=identity_type, MaxItems=max_items
            )
            identities = response["Identities"]
            logger.info("Got %s identities for the current account.", len(identities))
        except ClientError:
            logger.exception("Couldn't list identities for the current account.")
            raise
        else:
            return identities
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/ListIdentities)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListReceiptFilters`
<a name="ses_ListReceiptFilters_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListReceiptFilters`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesReceiptHandler:
    """Encapsulates Amazon SES receipt handling functions."""

    def __init__(self, ses_client, s3_resource):
        """
        :param ses_client: A Boto3 Amazon SES client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        """
        self.ses_client = ses_client
        self.s3_resource = s3_resource


    def list_receipt_filters(self):
        """
        Gets the list of receipt filters for the current account.

        :return: The list of receipt filters.
        """
        try:
            response = self.ses_client.list_receipt_filters()
            filters = response["Filters"]
            logger.info("Got %s receipt filters.", len(filters))
        except ClientError:
            logger.exception("Couldn't get receipt filters.")
            raise
        else:
            return filters
```
+  Untuk detail API, lihat [ListReceiptFilters](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/ListReceiptFilters)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListTemplates`
<a name="ses_ListTemplates_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTemplates`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesTemplate:
    """Encapsulates Amazon SES template functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client
        self.template = None
        self.template_tags = set()

    def _extract_tags(self, subject, text, html):
        """
        Extracts tags from a template as a set of unique values.

        :param subject: The subject of the email.
        :param text: The text version of the email.
        :param html: The html version of the email.
        """
        self.template_tags = set(re.findall(TEMPLATE_REGEX, subject + text + html))
        logger.info("Extracted template tags: %s", self.template_tags)


    def list_templates(self):
        """
        Gets a list of all email templates for the current account.

        :return: The list of retrieved email templates.
        """
        try:
            response = self.ses_client.list_templates()
            templates = response["TemplatesMetadata"]
            logger.info("Got %s templates.", len(templates))
        except ClientError:
            logger.exception("Couldn't get templates.")
            raise
        else:
            return templates
```
+  Untuk detail API, lihat [ListTemplates](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/ListTemplates)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SendEmail`
<a name="ses_SendEmail_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesMailSender:
    """Encapsulates functions to send emails with Amazon SES."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def send_email(self, source, destination, subject, text, html, reply_tos=None):
        """
        Sends an email.

        Note: If your account is in the Amazon SES  sandbox, the source and
        destination email accounts must both be verified.

        :param source: The source email account.
        :param destination: The destination email account.
        :param subject: The subject of the email.
        :param text: The plain text version of the body of the email.
        :param html: The HTML version of the body of the email.
        :param reply_tos: Email accounts that will receive a reply if the recipient
                          replies to the message.
        :return: The ID of the message, assigned by Amazon SES.
        """
        send_args = {
            "Source": source,
            "Destination": destination.to_service_format(),
            "Message": {
                "Subject": {"Data": subject},
                "Body": {"Text": {"Data": text}, "Html": {"Data": html}},
            },
        }
        if reply_tos is not None:
            send_args["ReplyToAddresses"] = reply_tos
        try:
            response = self.ses_client.send_email(**send_args)
            message_id = response["MessageId"]
            logger.info(
                "Sent mail %s from %s to %s.", message_id, source, destination.tos
            )
        except ClientError:
            logger.exception(
                "Couldn't send mail from %s to %s.", source, destination.tos
            )
            raise
        else:
            return message_id
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/SendEmail)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SendTemplatedEmail`
<a name="ses_SendTemplatedEmail_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTemplatedEmail`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesMailSender:
    """Encapsulates functions to send emails with Amazon SES."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def send_templated_email(
        self, source, destination, template_name, template_data, reply_tos=None
    ):
        """
        Sends an email based on a template. A template contains replaceable tags
        each enclosed in two curly braces, such as {{name}}. The template data passed
        in this function contains key-value pairs that define the values to insert
        in place of the template tags.

        Note: If your account is in the Amazon SES  sandbox, the source and
        destination email accounts must both be verified.

        :param source: The source email account.
        :param destination: The destination email account.
        :param template_name: The name of a previously created template.
        :param template_data: JSON-formatted key-value pairs of replacement values
                              that are inserted in the template before it is sent.
        :return: The ID of the message, assigned by Amazon SES.
        """
        send_args = {
            "Source": source,
            "Destination": destination.to_service_format(),
            "Template": template_name,
            "TemplateData": json.dumps(template_data),
        }
        if reply_tos is not None:
            send_args["ReplyToAddresses"] = reply_tos
        try:
            response = self.ses_client.send_templated_email(**send_args)
            message_id = response["MessageId"]
            logger.info(
                "Sent templated mail %s from %s to %s.",
                message_id,
                source,
                destination.tos,
            )
        except ClientError:
            logger.exception(
                "Couldn't send templated mail from %s to %s.", source, destination.tos
            )
            raise
        else:
            return message_id
```
+  Untuk detail API, lihat [SendTemplatedEmail](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/SendTemplatedEmail)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateTemplate`
<a name="ses_UpdateTemplate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTemplate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesTemplate:
    """Encapsulates Amazon SES template functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client
        self.template = None
        self.template_tags = set()

    def _extract_tags(self, subject, text, html):
        """
        Extracts tags from a template as a set of unique values.

        :param subject: The subject of the email.
        :param text: The text version of the email.
        :param html: The html version of the email.
        """
        self.template_tags = set(re.findall(TEMPLATE_REGEX, subject + text + html))
        logger.info("Extracted template tags: %s", self.template_tags)


    def update_template(self, name, subject, text, html):
        """
        Updates a previously created email template.

        :param name: The name of the template.
        :param subject: The subject of the email.
        :param text: The plain text version of the email.
        :param html: The HTML version of the email.
        """
        try:
            template = {
                "TemplateName": name,
                "SubjectPart": subject,
                "TextPart": text,
                "HtmlPart": html,
            }
            self.ses_client.update_template(Template=template)
            logger.info("Updated template %s.", name)
            self.template = template
            self._extract_tags(subject, text, html)
        except ClientError:
            logger.exception("Couldn't update template %s.", name)
            raise
```
+  Untuk detail API, lihat [UpdateTemplate](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/UpdateTemplate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `VerifyDomainIdentity`
<a name="ses_VerifyDomainIdentity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyDomainIdentity`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesIdentity:
    """Encapsulates Amazon SES identity functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def verify_domain_identity(self, domain_name):
        """
        Starts verification of a domain identity. To complete verification, you must
        create a TXT record with a specific format through your DNS provider.

        For more information, see *Verifying a domain with Amazon SES* in the
        Amazon SES documentation:
            https://docs.aws.amazon.com/ses/latest/DeveloperGuide/verify-domain-procedure.html

        :param domain_name: The name of the domain to verify.
        :return: The token to include in the TXT record with your DNS provider.
        """
        try:
            response = self.ses_client.verify_domain_identity(Domain=domain_name)
            token = response["VerificationToken"]
            logger.info("Got domain verification token for %s.", domain_name)
        except ClientError:
            logger.exception("Couldn't verify domain %s.", domain_name)
            raise
        else:
            return token
```
+  Untuk detail API, lihat [VerifyDomainIdentity](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/VerifyDomainIdentity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `VerifyEmailIdentity`
<a name="ses_VerifyEmailIdentity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyEmailIdentity`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
class SesIdentity:
    """Encapsulates Amazon SES identity functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def verify_email_identity(self, email_address):
        """
        Starts verification of an email identity. This function causes an email
        to be sent to the specified email address from Amazon SES. To complete
        verification, follow the instructions in the email.

        :param email_address: The email address to verify.
        """
        try:
            self.ses_client.verify_email_identity(EmailAddress=email_address)
            logger.info("Started verification of %s.", email_address)
        except ClientError:
            logger.exception("Couldn't start verification of %s.", email_address)
            raise
```
+  Untuk detail API, lihat [VerifyEmailIdentity](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/VerifyEmailIdentity)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Salin identitas email dan domain di seluruh Wilayah
<a name="ses_Scenario_ReplicateIdentities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menyalin email Amazon SES dan identitas domain dari satu AWS Wilayah ke Wilayah lainnya. Ketika identitas domain dikelola oleh Route 53, catatan verifikasi akan disalin ke domain untuk Wilayah tujuan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
import argparse
import json
import logging
from pprint import pprint
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def get_identities(ses_client):
    """
    Gets the identities for the current Region. The Region is specified in the
    Boto3 Amazon SES client object.

    :param ses_client: A Boto3 Amazon SES client.
    :return: The list of email identities and the list of domain identities.
    """
    email_identities = []
    domain_identities = []
    try:
        identity_paginator = ses_client.get_paginator("list_identities")
        identity_iterator = identity_paginator.paginate(
            PaginationConfig={"PageSize": 20}
        )
        for identity_page in identity_iterator:
            for identity in identity_page["Identities"]:
                if "@" in identity:
                    email_identities.append(identity)
                else:
                    domain_identities.append(identity)
        logger.info(
            "Found %s email and %s domain identities.",
            len(email_identities),
            len(domain_identities),
        )
    except ClientError:
        logger.exception("Couldn't get identities.")
        raise
    else:
        return email_identities, domain_identities


def verify_emails(email_list, ses_client):
    """
    Starts verification of a list of email addresses. Verification causes an email
    to be sent to each address. To complete verification, the recipient must follow
    the instructions in the email.

    :param email_list: The list of email addresses to verify.
    :param ses_client: A Boto3 Amazon SES client.
    :return: The list of emails that were successfully submitted for verification.
    """
    verified_emails = []
    for email in email_list:
        try:
            ses_client.verify_email_identity(EmailAddress=email)
            verified_emails.append(email)
            logger.info("Started verification of %s.", email)
        except ClientError:
            logger.warning("Couldn't start verification of %s.", email)
    return verified_emails


def verify_domains(domain_list, ses_client):
    """
    Starts verification for a list of domain identities. This returns a token for
    each domain, which must be registered as a TXT record with the DNS provider for
    the domain.

    :param domain_list: The list of domains to verify.
    :param ses_client: A Boto3 Amazon SES client.
    :return: The generated domain tokens to use to completed verification.
    """
    domain_tokens = {}
    for domain in domain_list:
        try:
            response = ses_client.verify_domain_identity(Domain=domain)
            token = response["VerificationToken"]
            domain_tokens[domain] = token
            logger.info("Got verification token %s for domain %s.", token, domain)
        except ClientError:
            logger.warning("Couldn't get verification token for domain %s.", domain)
    return domain_tokens


def get_hosted_zones(route53_client):
    """
    Gets the Amazon Route 53 hosted zones for the current account.

    :param route53_client: A Boto3 Route 53 client.
    :return: The list of hosted zones.
    """
    zones = []
    try:
        zone_paginator = route53_client.get_paginator("list_hosted_zones")
        zone_iterator = zone_paginator.paginate(PaginationConfig={"PageSize": 20})
        zones = [
            zone for zone_page in zone_iterator for zone in zone_page["HostedZones"]
        ]
        logger.info("Found %s hosted zones.", len(zones))
    except ClientError:
        logger.warning("Couldn't get hosted zones.")
    return zones


def find_domain_zone_matches(domains, zones):
    """
    Finds matches between Amazon SES verified domains and Route 53 hosted zones.
    Subdomain matches are taken when found, otherwise root domain matches are taken.

    :param domains: The list of domains to match.
    :param zones: The list of hosted zones to match.
    :return: The set of matched domain-zone pairs. When a match is not found, the
             domain is included in the set with a zone value of None.
    """
    domain_zones = {}
    for domain in domains:
        domain_zones[domain] = None
        # Start at the most specific sub-domain and walk up to the root domain until a
        # zone match is found.
        domain_split = domain.split(".")
        for index in range(0, len(domain_split) - 1):
            sub_domain = ".".join(domain_split[index:])
            for zone in zones:
                # Normalize the zone name from Route 53 by removing the trailing '.'.
                zone_name = zone["Name"][:-1]
                if sub_domain == zone_name:
                    domain_zones[domain] = zone
                    break
            if domain_zones[domain] is not None:
                break
    return domain_zones


def add_route53_verification_record(domain, token, zone, route53_client):
    """
    Adds a domain verification TXT record to the specified Route 53 hosted zone.
    When a TXT record already exists in the hosted zone for the specified domain,
    the existing values are preserved and the new token is added to the list.

    :param domain: The domain to add.
    :param token: The verification token for the domain.
    :param zone: The hosted zone where the domain verification record is added.
    :param route53_client: A Boto3 Route 53 client.
    """
    domain_token_record_set_name = f"_amazonses.{domain}"
    record_set_paginator = route53_client.get_paginator("list_resource_record_sets")
    record_set_iterator = record_set_paginator.paginate(
        HostedZoneId=zone["Id"], PaginationConfig={"PageSize": 20}
    )
    records = []
    for record_set_page in record_set_iterator:
        try:
            txt_record_set = next(
                record_set
                for record_set in record_set_page["ResourceRecordSets"]
                if record_set["Name"][:-1] == domain_token_record_set_name
                and record_set["Type"] == "TXT"
            )
            records = txt_record_set["ResourceRecords"]
            logger.info(
                "Existing TXT record found in set %s for zone %s.",
                domain_token_record_set_name,
                zone["Name"],
            )
            break
        except StopIteration:
            pass
    records.append({"Value": json.dumps(token)})
    changes = [
        {
            "Action": "UPSERT",
            "ResourceRecordSet": {
                "Name": domain_token_record_set_name,
                "Type": "TXT",
                "TTL": 1800,
                "ResourceRecords": records,
            },
        }
    ]
    try:
        route53_client.change_resource_record_sets(
            HostedZoneId=zone["Id"], ChangeBatch={"Changes": changes}
        )
        logger.info(
            "Created or updated the TXT record in set %s for zone %s.",
            domain_token_record_set_name,
            zone["Name"],
        )
    except ClientError as err:
        logger.warning(
            "Got error %s. Couldn't create or update the TXT record for zone %s.",
            err.response["Error"]["Code"],
            zone["Name"],
        )


def generate_dkim_tokens(domain, ses_client):
    """
    Generates DKIM tokens for a domain. These must be added as CNAME records to the
    DNS provider for the domain.

    :param domain: The domain to generate tokens for.
    :param ses_client: A Boto3 Amazon SES client.
    :return: The list of generated DKIM tokens.
    """
    dkim_tokens = []
    try:
        dkim_tokens = ses_client.verify_domain_dkim(Domain=domain)["DkimTokens"]
        logger.info("Generated %s DKIM tokens for domain %s.", len(dkim_tokens), domain)
    except ClientError:
        logger.warning("Couldn't generate DKIM tokens for domain %s.", domain)
    return dkim_tokens


def add_dkim_domain_tokens(hosted_zone, domain, tokens, route53_client):
    """
    Adds DKIM domain token CNAME records to a Route 53 hosted zone.

    :param hosted_zone: The hosted zone where the records are added.
    :param domain: The domain to add.
    :param tokens: The DKIM tokens for the domain to add.
    :param route53_client: A Boto3 Route 53 client.
    """
    try:
        changes = [
            {
                "Action": "UPSERT",
                "ResourceRecordSet": {
                    "Name": f"{token}._domainkey.{domain}",
                    "Type": "CNAME",
                    "TTL": 1800,
                    "ResourceRecords": [{"Value": f"{token}.dkim.amazonses.com"}],
                },
            }
            for token in tokens
        ]
        route53_client.change_resource_record_sets(
            HostedZoneId=hosted_zone["Id"], ChangeBatch={"Changes": changes}
        )
        logger.info(
            "Added %s DKIM CNAME records to %s in zone %s.",
            len(tokens),
            domain,
            hosted_zone["Name"],
        )
    except ClientError:
        logger.warning(
            "Couldn't add DKIM CNAME records for %s to zone %s.",
            domain,
            hosted_zone["Name"],
        )


def configure_sns_topics(identity, topics, ses_client):
    """
    Configures Amazon Simple Notification Service (Amazon SNS) notifications for
    an identity. The Amazon SNS topics must already exist.

    :param identity: The identity to configure.
    :param topics: The list of topics to configure. The choices are Bounce, Delivery,
                   or Complaint.
    :param ses_client: A Boto3 Amazon SES client.
    """
    for topic in topics:
        topic_arn = input(
            f"Enter the Amazon Resource Name (ARN) of the {topic} topic or press "
            f"Enter to skip: "
        )
        if topic_arn != "":
            try:
                ses_client.set_identity_notification_topic(
                    Identity=identity, NotificationType=topic, SnsTopic=topic_arn
                )
                logger.info("Configured %s for %s notifications.", identity, topic)
            except ClientError:
                logger.warning(
                    "Couldn't configure %s for %s notifications.", identity, topic
                )


def replicate(source_client, destination_client, route53_client):
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    print("-" * 88)
    print(
        f"Replicating Amazon SES identities and other configuration from "
        f"{source_client.meta.region_name} to {destination_client.meta.region_name}."
    )
    print("-" * 88)

    print(f"Retrieving identities from {source_client.meta.region_name}.")
    source_emails, source_domains = get_identities(source_client)
    print("Email addresses found:")
    print(*source_emails)
    print("Domains found:")
    print(*source_domains)

    print("Starting verification for email identities.")
    dest_emails = verify_emails(source_emails, destination_client)
    print("Getting domain tokens for domain identities.")
    dest_domain_tokens = verify_domains(source_domains, destination_client)

    # Get Route 53 hosted zones and match them with Amazon SES domains.
    answer = input(
        "Is the DNS configuration for your domains managed by Amazon Route 53 (y/n)? "
    )
    use_route53 = answer.lower() == "y"
    hosted_zones = get_hosted_zones(route53_client) if use_route53 else []
    if use_route53:
        print("Adding or updating Route 53 TXT records for your domains.")
        domain_zones = find_domain_zone_matches(dest_domain_tokens.keys(), hosted_zones)
        for domain in domain_zones:
            add_route53_verification_record(
                domain, dest_domain_tokens[domain], domain_zones[domain], route53_client
            )
    else:
        print(
            "Use these verification tokens to create TXT records through your DNS "
            "provider:"
        )
        pprint(dest_domain_tokens)

    answer = input("Do you want to configure DKIM signing for your identities (y/n)? ")
    if answer.lower() == "y":
        # Build a set of unique domains from email and domain identities.
        domains = {email.split("@")[1] for email in dest_emails}
        domains.update(dest_domain_tokens)
        domain_zones = find_domain_zone_matches(domains, hosted_zones)
        for domain, zone in domain_zones.items():
            answer = input(
                f"Do you want to configure DKIM signing for {domain} (y/n)? "
            )
            if answer.lower() == "y":
                dkim_tokens = generate_dkim_tokens(domain, destination_client)
                if use_route53 and zone is not None:
                    add_dkim_domain_tokens(zone, domain, dkim_tokens, route53_client)
                else:
                    print(
                        "Add the following DKIM tokens as CNAME records through your "
                        "DNS provider:"
                    )
                    print(*dkim_tokens, sep="\n")

    answer = input(
        "Do you want to configure Amazon SNS notifications for your identities (y/n)? "
    )
    if answer.lower() == "y":
        for identity in dest_emails + list(dest_domain_tokens.keys()):
            answer = input(
                f"Do you want to configure Amazon SNS topics for {identity} (y/n)? "
            )
            if answer.lower() == "y":
                configure_sns_topics(
                    identity, ["Bounce", "Delivery", "Complaint"], destination_client
                )

    print(f"Replication complete for {destination_client.meta.region_name}.")
    print("-" * 88)


def main():
    boto3_session = boto3.Session()
    ses_regions = boto3_session.get_available_regions("ses")
    parser = argparse.ArgumentParser(
        description="Copies email address and domain identities from one AWS Region to "
        "another. Optionally adds records for domain verification and DKIM "
        "signing to domains that are managed by Amazon Route 53, "
        "and sets up Amazon SNS notifications for events of interest."
    )
    parser.add_argument(
        "source_region", choices=ses_regions, help="The region to copy from."
    )
    parser.add_argument(
        "destination_region", choices=ses_regions, help="The region to copy to."
    )
    args = parser.parse_args()
    source_client = boto3.client("ses", region_name=args.source_region)
    destination_client = boto3.client("ses", region_name=args.destination_region)
    route53_client = boto3.client("route53")
    replicate(source_client, destination_client, route53_client)


if __name__ == "__main__":
    main()
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [ListIdentities](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/ListIdentities)
  + [SetIdentityNotificationTopic](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/SetIdentityNotificationTopic)
  + [VerifyDomainDkim](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/VerifyDomainDkim)
  + [VerifyDomainIdentity](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/VerifyDomainIdentity)
  + [VerifyEmailIdentity](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/VerifyEmailIdentity)

### Membuat aplikasi web untuk melacak data DynamoDB
<a name="cross_DynamoDBDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item kerja dalam tabel Amazon DynamoDB dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat layanan REST yang melacak item kerja di Amazon DynamoDB dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan rangka kerja web Flask untuk menangani perutean HTTP dan terintegrasi dengan halaman web React untuk menyajikan aplikasi web yang berfungsi penuh.   
+ Bangun layanan Flask REST yang terintegrasi dengan. Layanan AWS
+ Baca, tulis, dan perbarui item kerja yang disimpan dalam tabel DynamoDB.
+ Gunakan Amazon SES untuk mengirim laporan email tentang item pekerjaan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkap di [Repositori Contoh AWS Kode](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/dynamodb_item_tracker) di. GitHub   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon SES

### Buat pelacak butir kerja Aurora Nirserver
<a name="cross_RDSDataTracker_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi web yang melacak item pekerjaan dalam database Amazon Aurora Tanpa Server dan menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat layanan REST yang melacak item pekerjaan di database Amazon Aurora Tanpa Server dan laporan email dengan menggunakan Amazon Simple Email Service (Amazon SES). Contoh ini menggunakan rangka kerja web Flask untuk menangani perutean HTTP dan terintegrasi dengan halaman web React untuk menyajikan aplikasi web yang berfungsi penuh.   
+ Bangun layanan Flask REST yang terintegrasi dengan. Layanan AWS
+ Baca, tulis, dan perbarui butir kerja yang tersimpan dalam basis data Aurora Nirserver.
+ Buat AWS Secrets Manager rahasia yang berisi kredensi database dan gunakan untuk mengautentikasi panggilan ke database.
+ Gunakan Amazon SES untuk mengirim laporan email tentang item pekerjaan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/aurora_item_tracker).   

**Layanan yang digunakan dalam contoh ini**
+ Aurora
+ Amazon RDS
+ Layanan Data Amazon RDS
+ Amazon SES

### Mendeteksi objek dalam gambar
<a name="cross_RekognitionPhotoAnalyzer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menggunakan Amazon Rekognition untuk mendeteksi objek berdasarkan kategori dalam gambar.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) untuk membuat aplikasi web yang memungkinkan Anda melakukan hal berikut:   
+ Mengunggah foto ke bucket Amazon Simple Storage Service (Amazon S3).
+ Menggunakan Amazon Rekognition untuk menganalisis dan memberi label pada foto.
+ Menggunakan Amazon Simple Email Service (Amazon SES) untuk mengirim laporan email analisis gambar.
 Contoh ini berisi dua komponen utama: halaman web yang ditulis di dalamnya JavaScript yang dibangun dengan React, dan layanan REST yang ditulis dengan Python yang dibangun dengan Flask-. RESTful   
Anda dapat menggunakan halaman web React untuk:  
+ Menampilkan daftar gambar yang disimpan di bucket S3 Anda.
+ Mengunggah gambar dari komputer ke bucket S3.
+ Menampilkan gambar dan label yang mengidentifikasi item yang terdeteksi dalam gambar.
+ Mendapatkan laporan semua gambar di bucket S3 Anda dan mengirimkan email laporan tersebut.
Halaman web memanggil layanan REST. Layanan mengirimkan permintaan ke AWS untuk melakukan tindakan berikut:   
+ Mendapatkan dan memfilter daftar gambar dalam bucket S3 Anda.
+ Merngunggah foto ke bucket S3 Anda.
+ Menggunakan Amazon Rekognition untuk menganalisis foto individual dan mendapatkan daftar label yang mengidentifikasi item yang terdeteksi dalam foto.
+ Menganlisis semua foto di bucket S3 Anda dan menggunakan Amazon SES untuk mengirim laporan melalui email.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/photo_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Python (Boto3)**  
 Gunakan Amazon Rekognition untuk mendeteksi wajah, objek, dan orang dalam video dengan memulai tugas deteksi asinkron. Contoh ini juga mengonfigurasi Amazon Rekognition untuk memberi tahu topik Amazon Simple Notification Service (Amazon SNS) saat pekerjaan selesai dan berlangganan antrian Amazon Simple Queue Service (Amazon SQS) ke topik tersebut. Ketika antrian menerima pesan tentang pekerjaan, pekerjaan diambil dan hasilnya adalah output.   
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

### Hasilkan kredensyal untuk terhubung ke titik akhir SMTP
<a name="ses_Scenario_GenerateSmtpCredentials_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menghasilkan kredensyal untuk terhubung ke titik akhir SMTP Amazon SES.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 

```
#!/usr/bin/env python3

import hmac
import hashlib
import base64
import argparse

SMTP_REGIONS = [
    "us-east-2",  # US East (Ohio)
    "us-east-1",  # US East (N. Virginia)
    "us-west-2",  # US West (Oregon)
    "ap-south-1",  # Asia Pacific (Mumbai)
    "ap-northeast-2",  # Asia Pacific (Seoul)
    "ap-southeast-1",  # Asia Pacific (Singapore)
    "ap-southeast-2",  # Asia Pacific (Sydney)
    "ap-northeast-1",  # Asia Pacific (Tokyo)
    "ca-central-1",  # Canada (Central)
    "eu-central-1",  # Europe (Frankfurt)
    "eu-west-1",  # Europe (Ireland)
    "eu-west-2",  # Europe (London)
    "eu-south-1",  # Europe (Milan)
    "eu-north-1",  # Europe (Stockholm)
    "sa-east-1",  # South America (Sao Paulo)
    "us-gov-west-1",  # AWS GovCloud (US)
    "us-gov-east-1",  # AWS GovCloud (US)
]

# These values are required to calculate the signature. Do not change them.
DATE = "11111111"
SERVICE = "ses"
MESSAGE = "SendRawEmail"
TERMINAL = "aws4_request"
VERSION = 0x04


def sign(key, msg):
    return hmac.new(key, msg.encode("utf-8"), hashlib.sha256).digest()


def calculate_key(secret_access_key, region):
    if region not in SMTP_REGIONS:
        raise ValueError(f"The {region} Region doesn't have an SMTP endpoint.")

    signature = sign(("AWS4" + secret_access_key).encode("utf-8"), DATE)
    signature = sign(signature, region)
    signature = sign(signature, SERVICE)
    signature = sign(signature, TERMINAL)
    signature = sign(signature, MESSAGE)
    signature_and_version = bytes([VERSION]) + signature
    smtp_password = base64.b64encode(signature_and_version)
    return smtp_password.decode("utf-8")


def main():
    parser = argparse.ArgumentParser(
        description="Convert a Secret Access Key to an SMTP password."
    )
    parser.add_argument("secret", help="The Secret Access Key to convert.")
    parser.add_argument(
        "region",
        help="The AWS Region where the SMTP password will be used.",
        choices=SMTP_REGIONS,
    )
    args = parser.parse_args()
    print(calculate_key(args.secret, args.region))


if __name__ == "__main__":
    main()
```

### Verifikasi identitas email dan kirim pesan
<a name="ses_Scenario_SendEmail_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Tambahkan dan verifikasi alamat email dengan Amazon SES.
+ Kirim pesan email standar.
+ Buat template dan kirim pesan email template.
+ Kirim pesan dengan menggunakan server SMTP Amazon SES.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ses#code-examples). 
Verifikasi alamat email dengan Amazon SES dan kirim pesan.  

```
def usage_demo():
    print("-" * 88)
    print("Welcome to the Amazon Simple Email Service (Amazon SES) email demo!")
    print("-" * 88)

    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    ses_client = boto3.client("ses")
    ses_identity = SesIdentity(ses_client)
    ses_mail_sender = SesMailSender(ses_client)
    ses_template = SesTemplate(ses_client)
    email = input("Enter an email address to send mail with Amazon SES: ")
    status = ses_identity.get_identity_status(email)
    verified = status == "Success"
    if not verified:
        answer = input(
            f"The address '{email}' is not verified with Amazon SES. Unless your "
            f"Amazon SES account is out of sandbox, you can send mail only from "
            f"and to verified accounts. Do you want to verify this account for use "
            f"with Amazon SES? If yes, the address will receive a verification "
            f"email (y/n): "
        )
        if answer.lower() == "y":
            ses_identity.verify_email_identity(email)
            print(f"Follow the steps in the email to {email} to complete verification.")
            print("Waiting for verification...")
            try:
                ses_identity.wait_until_identity_exists(email)
                print(f"Identity verified for {email}.")
                verified = True
            except WaiterError:
                print(
                    f"Verification timeout exceeded. You must complete the "
                    f"steps in the email sent to {email} to verify the address."
                )

    if verified:
        test_message_text = "Hello from the Amazon SES mail demo!"
        test_message_html = "<p>Hello!</p><p>From the <b>Amazon SES</b> mail demo!</p>"

        print(f"Sending mail from {email} to {email}.")
        ses_mail_sender.send_email(
            email,
            SesDestination([email]),
            "Amazon SES demo",
            test_message_text,
            test_message_html,
        )
        input("Mail sent. Check your inbox and press Enter to continue.")

        template = {
            "name": "doc-example-template",
            "subject": "Example of an email template.",
            "text": "This is what {{name}} will {{action}} if {{name}} can't display "
            "HTML.",
            "html": "<p><i>This</i> is what {{name}} will {{action}} if {{name}} "
            "<b>can</b> display HTML.</p>",
        }
        print("Creating a template and sending a templated email.")
        ses_template.create_template(**template)
        template_data = {"name": email.split("@")[0], "action": "read"}
        if ses_template.verify_tags(template_data):
            ses_mail_sender.send_templated_email(
                email, SesDestination([email]), ses_template.name(), template_data
            )
            input("Mail sent. Check your inbox and press Enter to continue.")

        print("Sending mail through the Amazon SES SMTP server.")
        boto3_session = boto3.Session()
        region = boto3_session.region_name
        credentials = boto3_session.get_credentials()
        port = 587
        smtp_server = f"email-smtp.{region}.amazonaws.com"
        password = calculate_key(credentials.secret_key, region)
        message = """
Subject: Hi there

This message is sent from the Amazon SES SMTP mail demo."""
        context = ssl.create_default_context()
        with smtplib.SMTP(smtp_server, port) as server:
            server.starttls(context=context)
            server.login(credentials.access_key, password)
            server.sendmail(email, email, message)
        print("Mail sent. Check your inbox!")

    if ses_template.template is not None:
        print("Deleting demo template.")
        ses_template.delete_template()
    if verified:
        answer = input(f"Do you want to remove {email} from Amazon SES (y/n)? ")
        if answer.lower() == "y":
            ses_identity.delete_identity(email)
    print("Thanks for watching!")
    print("-" * 88)
```
Buat fungsi untuk membungkus tindakan identitas Amazon SES.  

```
class SesIdentity:
    """Encapsulates Amazon SES identity functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def verify_domain_identity(self, domain_name):
        """
        Starts verification of a domain identity. To complete verification, you must
        create a TXT record with a specific format through your DNS provider.

        For more information, see *Verifying a domain with Amazon SES* in the
        Amazon SES documentation:
            https://docs.aws.amazon.com/ses/latest/DeveloperGuide/verify-domain-procedure.html

        :param domain_name: The name of the domain to verify.
        :return: The token to include in the TXT record with your DNS provider.
        """
        try:
            response = self.ses_client.verify_domain_identity(Domain=domain_name)
            token = response["VerificationToken"]
            logger.info("Got domain verification token for %s.", domain_name)
        except ClientError:
            logger.exception("Couldn't verify domain %s.", domain_name)
            raise
        else:
            return token


    def verify_email_identity(self, email_address):
        """
        Starts verification of an email identity. This function causes an email
        to be sent to the specified email address from Amazon SES. To complete
        verification, follow the instructions in the email.

        :param email_address: The email address to verify.
        """
        try:
            self.ses_client.verify_email_identity(EmailAddress=email_address)
            logger.info("Started verification of %s.", email_address)
        except ClientError:
            logger.exception("Couldn't start verification of %s.", email_address)
            raise


    def wait_until_identity_exists(self, identity):
        """
        Waits until an identity exists. The waiter polls Amazon SES until the
        identity has been successfully verified or until it exceeds its maximum time.

        :param identity: The identity to wait for.
        """
        try:
            waiter = self.ses_client.get_waiter("identity_exists")
            logger.info("Waiting until %s exists.", identity)
            waiter.wait(Identities=[identity])
        except WaiterError:
            logger.error("Waiting for identity %s failed or timed out.", identity)
            raise


    def get_identity_status(self, identity):
        """
        Gets the status of an identity. This can be used to discover whether
        an identity has been successfully verified.

        :param identity: The identity to query.
        :return: The status of the identity.
        """
        try:
            response = self.ses_client.get_identity_verification_attributes(
                Identities=[identity]
            )
            status = response["VerificationAttributes"].get(
                identity, {"VerificationStatus": "NotFound"}
            )["VerificationStatus"]
            logger.info("Got status of %s for %s.", status, identity)
        except ClientError:
            logger.exception("Couldn't get status for %s.", identity)
            raise
        else:
            return status


    def delete_identity(self, identity):
        """
        Deletes an identity.

        :param identity: The identity to remove.
        """
        try:
            self.ses_client.delete_identity(Identity=identity)
            logger.info("Deleted identity %s.", identity)
        except ClientError:
            logger.exception("Couldn't delete identity %s.", identity)
            raise


    def list_identities(self, identity_type, max_items):
        """
        Gets the identities of the specified type for the current account.

        :param identity_type: The type of identity to retrieve, such as EmailAddress.
        :param max_items: The maximum number of identities to retrieve.
        :return: The list of retrieved identities.
        """
        try:
            response = self.ses_client.list_identities(
                IdentityType=identity_type, MaxItems=max_items
            )
            identities = response["Identities"]
            logger.info("Got %s identities for the current account.", len(identities))
        except ClientError:
            logger.exception("Couldn't list identities for the current account.")
            raise
        else:
            return identities
```
Buat fungsi untuk membungkus tindakan template Amazon SES.  

```
class SesTemplate:
    """Encapsulates Amazon SES template functions."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client
        self.template = None
        self.template_tags = set()

    def _extract_tags(self, subject, text, html):
        """
        Extracts tags from a template as a set of unique values.

        :param subject: The subject of the email.
        :param text: The text version of the email.
        :param html: The html version of the email.
        """
        self.template_tags = set(re.findall(TEMPLATE_REGEX, subject + text + html))
        logger.info("Extracted template tags: %s", self.template_tags)


    def create_template(self, name, subject, text, html):
        """
        Creates an email template.

        :param name: The name of the template.
        :param subject: The subject of the email.
        :param text: The plain text version of the email.
        :param html: The HTML version of the email.
        """
        try:
            template = {
                "TemplateName": name,
                "SubjectPart": subject,
                "TextPart": text,
                "HtmlPart": html,
            }
            self.ses_client.create_template(Template=template)
            logger.info("Created template %s.", name)
            self.template = template
            self._extract_tags(subject, text, html)
        except ClientError:
            logger.exception("Couldn't create template %s.", name)
            raise


    def delete_template(self):
        """
        Deletes an email template.
        """
        try:
            self.ses_client.delete_template(TemplateName=self.template["TemplateName"])
            logger.info("Deleted template %s.", self.template["TemplateName"])
            self.template = None
            self.template_tags = None
        except ClientError:
            logger.exception(
                "Couldn't delete template %s.", self.template["TemplateName"]
            )
            raise


    def get_template(self, name):
        """
        Gets a previously created email template.

        :param name: The name of the template to retrieve.
        :return: The retrieved email template.
        """
        try:
            response = self.ses_client.get_template(TemplateName=name)
            self.template = response["Template"]
            logger.info("Got template %s.", name)
            self._extract_tags(
                self.template["SubjectPart"],
                self.template["TextPart"],
                self.template["HtmlPart"],
            )
        except ClientError:
            logger.exception("Couldn't get template %s.", name)
            raise
        else:
            return self.template


    def list_templates(self):
        """
        Gets a list of all email templates for the current account.

        :return: The list of retrieved email templates.
        """
        try:
            response = self.ses_client.list_templates()
            templates = response["TemplatesMetadata"]
            logger.info("Got %s templates.", len(templates))
        except ClientError:
            logger.exception("Couldn't get templates.")
            raise
        else:
            return templates


    def update_template(self, name, subject, text, html):
        """
        Updates a previously created email template.

        :param name: The name of the template.
        :param subject: The subject of the email.
        :param text: The plain text version of the email.
        :param html: The HTML version of the email.
        """
        try:
            template = {
                "TemplateName": name,
                "SubjectPart": subject,
                "TextPart": text,
                "HtmlPart": html,
            }
            self.ses_client.update_template(Template=template)
            logger.info("Updated template %s.", name)
            self.template = template
            self._extract_tags(subject, text, html)
        except ClientError:
            logger.exception("Couldn't update template %s.", name)
            raise
```
Buat fungsi untuk membungkus tindakan email Amazon SES.  

```
class SesDestination:
    """Contains data about an email destination."""

    def __init__(self, tos, ccs=None, bccs=None):
        """
        :param tos: The list of recipients on the 'To:' line.
        :param ccs: The list of recipients on the 'CC:' line.
        :param bccs: The list of recipients on the 'BCC:' line.
        """
        self.tos = tos
        self.ccs = ccs
        self.bccs = bccs

    def to_service_format(self):
        """
        :return: The destination data in the format expected by Amazon SES.
        """
        svc_format = {"ToAddresses": self.tos}
        if self.ccs is not None:
            svc_format["CcAddresses"] = self.ccs
        if self.bccs is not None:
            svc_format["BccAddresses"] = self.bccs
        return svc_format



class SesMailSender:
    """Encapsulates functions to send emails with Amazon SES."""

    def __init__(self, ses_client):
        """
        :param ses_client: A Boto3 Amazon SES client.
        """
        self.ses_client = ses_client


    def send_email(self, source, destination, subject, text, html, reply_tos=None):
        """
        Sends an email.

        Note: If your account is in the Amazon SES  sandbox, the source and
        destination email accounts must both be verified.

        :param source: The source email account.
        :param destination: The destination email account.
        :param subject: The subject of the email.
        :param text: The plain text version of the body of the email.
        :param html: The HTML version of the body of the email.
        :param reply_tos: Email accounts that will receive a reply if the recipient
                          replies to the message.
        :return: The ID of the message, assigned by Amazon SES.
        """
        send_args = {
            "Source": source,
            "Destination": destination.to_service_format(),
            "Message": {
                "Subject": {"Data": subject},
                "Body": {"Text": {"Data": text}, "Html": {"Data": html}},
            },
        }
        if reply_tos is not None:
            send_args["ReplyToAddresses"] = reply_tos
        try:
            response = self.ses_client.send_email(**send_args)
            message_id = response["MessageId"]
            logger.info(
                "Sent mail %s from %s to %s.", message_id, source, destination.tos
            )
        except ClientError:
            logger.exception(
                "Couldn't send mail from %s to %s.", source, destination.tos
            )
            raise
        else:
            return message_id


    def send_templated_email(
        self, source, destination, template_name, template_data, reply_tos=None
    ):
        """
        Sends an email based on a template. A template contains replaceable tags
        each enclosed in two curly braces, such as {{name}}. The template data passed
        in this function contains key-value pairs that define the values to insert
        in place of the template tags.

        Note: If your account is in the Amazon SES  sandbox, the source and
        destination email accounts must both be verified.

        :param source: The source email account.
        :param destination: The destination email account.
        :param template_name: The name of a previously created template.
        :param template_data: JSON-formatted key-value pairs of replacement values
                              that are inserted in the template before it is sent.
        :return: The ID of the message, assigned by Amazon SES.
        """
        send_args = {
            "Source": source,
            "Destination": destination.to_service_format(),
            "Template": template_name,
            "TemplateData": json.dumps(template_data),
        }
        if reply_tos is not None:
            send_args["ReplyToAddresses"] = reply_tos
        try:
            response = self.ses_client.send_templated_email(**send_args)
            message_id = response["MessageId"]
            logger.info(
                "Sent templated mail %s from %s to %s.",
                message_id,
                source,
                destination.tos,
            )
        except ClientError:
            logger.exception(
                "Couldn't send templated mail from %s to %s.", source, destination.tos
            )
            raise
        else:
            return message_id
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateTemplate](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/CreateTemplate)
  + [DeleteIdentity](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/DeleteIdentity)
  + [DeleteTemplate](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/DeleteTemplate)
  + [GetIdentityVerificationAttributes](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/GetIdentityVerificationAttributes)
  + [GetTemplate](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/GetTemplate)
  + [ListIdentities](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/ListIdentities)
  + [ListTemplates](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/ListTemplates)
  + [SendEmail](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/SendEmail)
  + [SendTemplatedEmail](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/SendTemplatedEmail)
  + [UpdateTemplate](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/UpdateTemplate)
  + [VerifyDomainIdentity](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/VerifyDomainIdentity)
  + [VerifyEmailIdentity](https://docs.aws.amazon.com/goto/boto3/email-2010-12-01/VerifyEmailIdentity)

# Amazon SES API v2 contoh menggunakan SDK for Python (Boto3)
<a name="python_3_sesv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Amazon SES API v2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateContact`
<a name="sesv2_CreateContact_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContact`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


            try:
                # Create a new contact
                self.ses_client.create_contact(
                    ContactListName=CONTACT_LIST_NAME, EmailAddress=email
                )
                print(f"Contact with email '{email}' created successfully.")

                # Send the welcome email
                self.ses_client.send_email(
                    FromEmailAddress=self.verified_email,
                    Destination={"ToAddresses": [email]},
                    Content={
                        "Simple": {
                            "Subject": {
                                "Data": "Welcome to the Weekly Coupons Newsletter"
                            },
                            "Body": {
                                "Text": {"Data": welcome_text},
                                "Html": {"Data": welcome_html},
                            },
                        }
                    },
                )
                print(f"Welcome email sent to '{email}'.")
                if self.sleep:
                    # 1 email per second in sandbox mode, remove in production.
                    sleep(1.1)
            except ClientError as e:
                # If the contact already exists, skip and proceed
                if e.response["Error"]["Code"] == "AlreadyExistsException":
                    print(f"Contact with email '{email}' already exists. Skipping...")
                else:
                    raise e
```
+  Untuk detail API, lihat [CreateContact](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/CreateContact)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateContactList`
<a name="sesv2_CreateContactList_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContactList`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


        try:
            self.ses_client.create_contact_list(ContactListName=CONTACT_LIST_NAME)
            print(f"Contact list '{CONTACT_LIST_NAME}' created successfully.")
        except ClientError as e:
            # If the contact list already exists, skip and proceed
            if e.response["Error"]["Code"] == "AlreadyExistsException":
                print(f"Contact list '{CONTACT_LIST_NAME}' already exists.")
            else:
                raise e
```
+  Untuk detail API, lihat [CreateContactList](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/CreateContactList)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateEmailIdentity`
<a name="sesv2_CreateEmailIdentity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailIdentity`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


        try:
            self.ses_client.create_email_identity(EmailIdentity=self.verified_email)
            print(f"Email identity '{self.verified_email}' created successfully.")
        except ClientError as e:
            # If the email identity already exists, skip and proceed
            if e.response["Error"]["Code"] == "AlreadyExistsException":
                print(f"Email identity '{self.verified_email}' already exists.")
            else:
                raise e
```
+  Untuk detail API, lihat [CreateEmailIdentity](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/CreateEmailIdentity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateEmailTemplate`
<a name="sesv2_CreateEmailTemplate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailTemplate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


        try:
            template_content = {
                "Subject": "Weekly Coupons Newsletter",
                "Html": load_file_content("coupon-newsletter.html"),
                "Text": load_file_content("coupon-newsletter.txt"),
            }
            self.ses_client.create_email_template(
                TemplateName=TEMPLATE_NAME, TemplateContent=template_content
            )
            print(f"Email template '{TEMPLATE_NAME}' created successfully.")
        except ClientError as e:
            # If the template already exists, skip and proceed
            if e.response["Error"]["Code"] == "AlreadyExistsException":
                print(f"Email template '{TEMPLATE_NAME}' already exists.")
            else:
                raise e
```
+  Untuk detail API, lihat [CreateEmailTemplate](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/CreateEmailTemplate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteContactList`
<a name="sesv2_DeleteContactList_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteContactList`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


        try:
            self.ses_client.delete_contact_list(ContactListName=CONTACT_LIST_NAME)
            print(f"Contact list '{CONTACT_LIST_NAME}' deleted successfully.")
        except ClientError as e:
            # If the contact list doesn't exist, skip and proceed
            if e.response["Error"]["Code"] == "NotFoundException":
                print(f"Contact list '{CONTACT_LIST_NAME}' does not exist.")
            else:
                print(e)
```
+  Untuk detail API, lihat [DeleteContactList](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/DeleteContactList)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteEmailIdentity`
<a name="sesv2_DeleteEmailIdentity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailIdentity`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


            try:
                self.ses_client.delete_email_identity(EmailIdentity=self.verified_email)
                print(f"Email identity '{self.verified_email}' deleted successfully.")
            except ClientError as e:
                # If the email identity doesn't exist, skip and proceed
                if e.response["Error"]["Code"] == "NotFoundException":
                    print(f"Email identity '{self.verified_email}' does not exist.")
                else:
                    print(e)
```
+  Untuk detail API, lihat [DeleteEmailIdentity](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/DeleteEmailIdentity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteEmailTemplate`
<a name="sesv2_DeleteEmailTemplate_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailTemplate`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


        try:
            self.ses_client.delete_email_template(TemplateName=TEMPLATE_NAME)
            print(f"Email template '{TEMPLATE_NAME}' deleted successfully.")
        except ClientError as e:
            # If the email template doesn't exist, skip and proceed
            if e.response["Error"]["Code"] == "NotFoundException":
                print(f"Email template '{TEMPLATE_NAME}' does not exist.")
            else:
                print(e)
```
+  Untuk detail API, lihat [DeleteEmailTemplate](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/DeleteEmailTemplate)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListContacts`
<a name="sesv2_ListContacts_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListContacts`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


        try:
            contacts_response = self.ses_client.list_contacts(
                ContactListName=CONTACT_LIST_NAME
            )
        except ClientError as e:
            if e.response["Error"]["Code"] == "NotFoundException":
                print(f"Contact list '{CONTACT_LIST_NAME}' does not exist.")
                return
            else:
                raise e
```
+  Untuk detail API, lihat [ListContacts](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/ListContacts)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SendEmail`
<a name="sesv2_SendEmail_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 
Mengirim pesan ke semua anggota daftar kontak.  

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


                self.ses_client.send_email(
                    FromEmailAddress=self.verified_email,
                    Destination={"ToAddresses": [email]},
                    Content={
                        "Simple": {
                            "Subject": {
                                "Data": "Welcome to the Weekly Coupons Newsletter"
                            },
                            "Body": {
                                "Text": {"Data": welcome_text},
                                "Html": {"Data": welcome_html},
                            },
                        }
                    },
                )
                print(f"Welcome email sent to '{email}'.")
```
Mengirim pesan ke semua anggota daftar kontak menggunakan template.  

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


                self.ses_client.send_email(
                    FromEmailAddress=self.verified_email,
                    Destination={"ToAddresses": [email_address]},
                    Content={
                        "Template": {
                            "TemplateName": TEMPLATE_NAME,
                            "TemplateData": coupon_items,
                        }
                    },
                    ListManagementOptions={"ContactListName": CONTACT_LIST_NAME},
                )
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/SendEmail)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Skenario buletin
<a name="sesv2_NewsletterWorkflow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menjalankan skenario buletin Amazon SES API v2.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sesv2#code-examples). 

```
def main():
    """
    The main function that orchestrates the execution of the workflow.
    """
    print(INTRO)
    ses_client = boto3.client("sesv2")
    workflow = SESv2Workflow(ses_client)
    try:
        workflow.prepare_application()
        workflow.gather_subscriber_email_addresses()
        workflow.send_coupon_newsletter()
        workflow.monitor_and_review()
    except ClientError as e:
        print_error(e)
    workflow.clean_up()



class SESv2Workflow:
    """
    A class to manage the SES v2 Coupon Newsletter Workflow.
    """

    def __init__(self, ses_client, sleep=True):
        self.ses_client = ses_client
        self.sleep = sleep


        try:
            self.ses_client.create_contact_list(ContactListName=CONTACT_LIST_NAME)
            print(f"Contact list '{CONTACT_LIST_NAME}' created successfully.")
        except ClientError as e:
            # If the contact list already exists, skip and proceed
            if e.response["Error"]["Code"] == "AlreadyExistsException":
                print(f"Contact list '{CONTACT_LIST_NAME}' already exists.")
            else:
                raise e

            try:
                # Create a new contact
                self.ses_client.create_contact(
                    ContactListName=CONTACT_LIST_NAME, EmailAddress=email
                )
                print(f"Contact with email '{email}' created successfully.")

                # Send the welcome email
                self.ses_client.send_email(
                    FromEmailAddress=self.verified_email,
                    Destination={"ToAddresses": [email]},
                    Content={
                        "Simple": {
                            "Subject": {
                                "Data": "Welcome to the Weekly Coupons Newsletter"
                            },
                            "Body": {
                                "Text": {"Data": welcome_text},
                                "Html": {"Data": welcome_html},
                            },
                        }
                    },
                )
                print(f"Welcome email sent to '{email}'.")
                if self.sleep:
                    # 1 email per second in sandbox mode, remove in production.
                    sleep(1.1)
            except ClientError as e:
                # If the contact already exists, skip and proceed
                if e.response["Error"]["Code"] == "AlreadyExistsException":
                    print(f"Contact with email '{email}' already exists. Skipping...")
                else:
                    raise e

        try:
            contacts_response = self.ses_client.list_contacts(
                ContactListName=CONTACT_LIST_NAME
            )
        except ClientError as e:
            if e.response["Error"]["Code"] == "NotFoundException":
                print(f"Contact list '{CONTACT_LIST_NAME}' does not exist.")
                return
            else:
                raise e

                self.ses_client.send_email(
                    FromEmailAddress=self.verified_email,
                    Destination={"ToAddresses": [email]},
                    Content={
                        "Simple": {
                            "Subject": {
                                "Data": "Welcome to the Weekly Coupons Newsletter"
                            },
                            "Body": {
                                "Text": {"Data": welcome_text},
                                "Html": {"Data": welcome_html},
                            },
                        }
                    },
                )
                print(f"Welcome email sent to '{email}'.")

                self.ses_client.send_email(
                    FromEmailAddress=self.verified_email,
                    Destination={"ToAddresses": [email_address]},
                    Content={
                        "Template": {
                            "TemplateName": TEMPLATE_NAME,
                            "TemplateData": coupon_items,
                        }
                    },
                    ListManagementOptions={"ContactListName": CONTACT_LIST_NAME},
                )

        try:
            self.ses_client.create_email_identity(EmailIdentity=self.verified_email)
            print(f"Email identity '{self.verified_email}' created successfully.")
        except ClientError as e:
            # If the email identity already exists, skip and proceed
            if e.response["Error"]["Code"] == "AlreadyExistsException":
                print(f"Email identity '{self.verified_email}' already exists.")
            else:
                raise e

        try:
            template_content = {
                "Subject": "Weekly Coupons Newsletter",
                "Html": load_file_content("coupon-newsletter.html"),
                "Text": load_file_content("coupon-newsletter.txt"),
            }
            self.ses_client.create_email_template(
                TemplateName=TEMPLATE_NAME, TemplateContent=template_content
            )
            print(f"Email template '{TEMPLATE_NAME}' created successfully.")
        except ClientError as e:
            # If the template already exists, skip and proceed
            if e.response["Error"]["Code"] == "AlreadyExistsException":
                print(f"Email template '{TEMPLATE_NAME}' already exists.")
            else:
                raise e

        try:
            self.ses_client.delete_contact_list(ContactListName=CONTACT_LIST_NAME)
            print(f"Contact list '{CONTACT_LIST_NAME}' deleted successfully.")
        except ClientError as e:
            # If the contact list doesn't exist, skip and proceed
            if e.response["Error"]["Code"] == "NotFoundException":
                print(f"Contact list '{CONTACT_LIST_NAME}' does not exist.")
            else:
                print(e)

            try:
                self.ses_client.delete_email_identity(EmailIdentity=self.verified_email)
                print(f"Email identity '{self.verified_email}' deleted successfully.")
            except ClientError as e:
                # If the email identity doesn't exist, skip and proceed
                if e.response["Error"]["Code"] == "NotFoundException":
                    print(f"Email identity '{self.verified_email}' does not exist.")
                else:
                    print(e)

        try:
            self.ses_client.delete_email_template(TemplateName=TEMPLATE_NAME)
            print(f"Email template '{TEMPLATE_NAME}' deleted successfully.")
        except ClientError as e:
            # If the email template doesn't exist, skip and proceed
            if e.response["Error"]["Code"] == "NotFoundException":
                print(f"Email template '{TEMPLATE_NAME}' does not exist.")
            else:
                print(e)
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [CreateContact](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/CreateContact)
  + [CreateContactList](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/CreateContactList)
  + [CreateEmailIdentity](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/CreateEmailIdentity)
  + [CreateEmailTemplate](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/CreateEmailTemplate)
  + [DeleteContactList](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/DeleteContactList)
  + [DeleteEmailIdentity](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/DeleteEmailIdentity)
  + [DeleteEmailTemplate](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/DeleteEmailTemplate)
  + [ListContacts](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/ListContacts)
  + [SendEmail.sederhana](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/SendEmail.simple)
  + [SendEmail.template](https://docs.aws.amazon.com/goto/boto3/sesv2-2019-09-27/SendEmail.template)

# Contoh Amazon SNS menggunakan SDK for Python (Boto3)
<a name="python_3_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CreateTopic`
<a name="sns_CreateTopic_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    def create_topic(self, name):
        """
        Creates a notification topic.

        :param name: The name of the topic to create.
        :return: The newly created topic.
        """
        try:
            topic = self.sns_resource.create_topic(Name=name)
            logger.info("Created topic %s with ARN %s.", name, topic.arn)
        except ClientError:
            logger.exception("Couldn't create topic %s.", name)
            raise
        else:
            return topic
```

```
class SnsWrapper:
    """Wrapper class for managing Amazon SNS operations."""

    def __init__(self, sns_client: Any) -> None:
        """
        Initialize the SnsWrapper.

        :param sns_client: A Boto3 Amazon SNS client.
        """
        self.sns_client = sns_client

    @classmethod
    def from_client(cls) -> 'SnsWrapper':
        """
        Create an SnsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sns_client = boto3.client('sns')
        return cls(sns_client)


    def create_topic(
        self, 
        topic_name: str, 
        is_fifo: bool = False, 
        content_based_deduplication: bool = False
    ) -> str:
        """
        Create an SNS topic.

        :param topic_name: The name of the topic to create.
        :param is_fifo: Whether to create a FIFO topic.
        :param content_based_deduplication: Whether to use content-based deduplication for FIFO topics.
        :return: The ARN of the created topic.
        :raises ClientError: If the topic creation fails.
        """
        try:
            # Add .fifo suffix for FIFO topics
            if is_fifo and not topic_name.endswith('.fifo'):
                topic_name += '.fifo'

            attributes = {}
            if is_fifo:
                attributes['FifoTopic'] = 'true'
                if content_based_deduplication:
                    attributes['ContentBasedDeduplication'] = 'true'

            response = self.sns_client.create_topic(
                Name=topic_name,
                Attributes=attributes
            )

            topic_arn = response['TopicArn']
            logger.info(f"Created topic: {topic_name} with ARN: {topic_arn}")
            return topic_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error creating topic {topic_name}: {error_code} - {e}")
            raise
```
+  Untuk detail API, lihat [CreateTopic](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/CreateTopic)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteTopic`
<a name="sns_DeleteTopic_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    @staticmethod
    def delete_topic(topic):
        """
        Deletes a topic. All subscriptions to the topic are also deleted.
        """
        try:
            topic.delete()
            logger.info("Deleted topic %s.", topic.arn)
        except ClientError:
            logger.exception("Couldn't delete topic %s.", topic.arn)
            raise
```

```
class SnsWrapper:
    """Wrapper class for managing Amazon SNS operations."""

    def __init__(self, sns_client: Any) -> None:
        """
        Initialize the SnsWrapper.

        :param sns_client: A Boto3 Amazon SNS client.
        """
        self.sns_client = sns_client

    @classmethod
    def from_client(cls) -> 'SnsWrapper':
        """
        Create an SnsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sns_client = boto3.client('sns')
        return cls(sns_client)


    def delete_topic(self, topic_arn: str) -> bool:
        """
        Delete an SNS topic.

        :param topic_arn: The ARN of the topic to delete.
        :return: True if successful.
        :raises ClientError: If the topic deletion fails.
        """
        try:
            self.sns_client.delete_topic(TopicArn=topic_arn)
            
            logger.info(f"Deleted topic: {topic_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'NotFound':
                logger.warning(f"Topic not found: {topic_arn}")
                return True  # Already deleted
            else:
                logger.error(f"Error deleting topic: {error_code} - {e}")
                raise
```
+  Untuk detail API, lihat [DeleteTopic](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/DeleteTopic)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    def list_subscriptions(self, topic=None):
        """
        Lists subscriptions for the current account, optionally limited to a
        specific topic.

        :param topic: When specified, only subscriptions to this topic are returned.
        :return: An iterator that yields the subscriptions.
        """
        try:
            if topic is None:
                subs_iter = self.sns_resource.subscriptions.all()
            else:
                subs_iter = topic.subscriptions.all()
            logger.info("Got subscriptions.")
        except ClientError:
            logger.exception("Couldn't get subscriptions.")
            raise
        else:
            return subs_iter
```
+  Untuk detail API, lihat [ListSubscriptions](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/ListSubscriptions)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListTopics`
<a name="sns_ListTopics_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    def list_topics(self):
        """
        Lists topics for the current account.

        :return: An iterator that yields the topics.
        """
        try:
            topics_iter = self.sns_resource.topics.all()
            logger.info("Got topics.")
        except ClientError:
            logger.exception("Couldn't get topics.")
            raise
        else:
            return topics_iter
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/ListTopics)di *AWS SDK for Python (Boto3) Referensi* API. 

### `Publish`
<a name="sns_Publish_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 
Publikasikan pesan dengan atribut sehingga langganan dapat memfilter berdasarkan atribut.  

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    @staticmethod
    def publish_message(topic, message, attributes):
        """
        Publishes a message, with attributes, to a topic. Subscriptions can be filtered
        based on message attributes so that a subscription receives messages only
        when specified attributes are present.

        :param topic: The topic to publish to.
        :param message: The message to publish.
        :param attributes: The key-value attributes to attach to the message. Values
                           must be either `str` or `bytes`.
        :return: The ID of the message.
        """
        try:
            att_dict = {}
            for key, value in attributes.items():
                if isinstance(value, str):
                    att_dict[key] = {"DataType": "String", "StringValue": value}
                elif isinstance(value, bytes):
                    att_dict[key] = {"DataType": "Binary", "BinaryValue": value}
            response = topic.publish(Message=message, MessageAttributes=att_dict)
            message_id = response["MessageId"]
            logger.info(
                "Published message with attributes %s to topic %s.",
                attributes,
                topic.arn,
            )
        except ClientError:
            logger.exception("Couldn't publish message to topic %s.", topic.arn)
            raise
        else:
            return message_id
```
Publikasikan pesan yang mengambil bentuk berbeda berdasarkan protokol pelanggan.  

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    @staticmethod
    def publish_multi_message(
        topic, subject, default_message, sms_message, email_message
    ):
        """
        Publishes a multi-format message to a topic. A multi-format message takes
        different forms based on the protocol of the subscriber. For example,
        an SMS subscriber might receive a short version of the message
        while an email subscriber could receive a longer version.

        :param topic: The topic to publish to.
        :param subject: The subject of the message.
        :param default_message: The default version of the message. This version is
                                sent to subscribers that have protocols that are not
                                otherwise specified in the structured message.
        :param sms_message: The version of the message sent to SMS subscribers.
        :param email_message: The version of the message sent to email subscribers.
        :return: The ID of the message.
        """
        try:
            message = {
                "default": default_message,
                "sms": sms_message,
                "email": email_message,
            }
            response = topic.publish(
                Message=json.dumps(message), Subject=subject, MessageStructure="json"
            )
            message_id = response["MessageId"]
            logger.info("Published multi-format message to topic %s.", topic.arn)
        except ClientError:
            logger.exception("Couldn't publish message to topic %s.", topic.arn)
            raise
        else:
            return message_id
```

```
class SnsWrapper:
    """Wrapper class for managing Amazon SNS operations."""

    def __init__(self, sns_client: Any) -> None:
        """
        Initialize the SnsWrapper.

        :param sns_client: A Boto3 Amazon SNS client.
        """
        self.sns_client = sns_client

    @classmethod
    def from_client(cls) -> 'SnsWrapper':
        """
        Create an SnsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sns_client = boto3.client('sns')
        return cls(sns_client)


    def publish_message(
        self,
        topic_arn: str,
        message: str,
        tone_attribute: Optional[str] = None,
        deduplication_id: Optional[str] = None,
        message_group_id: Optional[str] = None
    ) -> str:
        """
        Publish a message to an SNS topic.

        :param topic_arn: The ARN of the SNS topic.
        :param message: The message content to publish.
        :param tone_attribute: Optional tone attribute for message filtering.
        :param deduplication_id: Optional deduplication ID for FIFO topics.
        :param message_group_id: Optional message group ID for FIFO topics.
        :return: The message ID of the published message.
        :raises ClientError: If the message publication fails.
        """
        try:
            publish_args = {
                'TopicArn': topic_arn,
                'Message': message
            }

            # Add message attributes if tone is specified
            if tone_attribute:
                publish_args['MessageAttributes'] = {
                    'tone': {
                        'DataType': 'String',
                        'StringValue': tone_attribute
                    }
                }

            # Add FIFO-specific parameters
            if message_group_id:
                publish_args['MessageGroupId'] = message_group_id

            if deduplication_id:
                publish_args['MessageDeduplicationId'] = deduplication_id

            response = self.sns_client.publish(**publish_args)

            message_id = response['MessageId']
            logger.info(f"Published message to topic {topic_arn} with ID: {message_id}")
            return message_id

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error publishing message to topic: {error_code} - {e}")
            raise
```
+  Untuk detail API, lihat [Menerbitkan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Publish) di *AWS SDK for Python (Boto3) Referensi* API. 

### `SetSubscriptionAttributes`
<a name="sns_SetSubscriptionAttributes_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetSubscriptionAttributes`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    @staticmethod
    def add_subscription_filter(subscription, attributes):
        """
        Adds a filter policy to a subscription. A filter policy is a key and a
        list of values that are allowed. When a message is published, it must have an
        attribute that passes the filter or it will not be sent to the subscription.

        :param subscription: The subscription the filter policy is attached to.
        :param attributes: A dictionary of key-value pairs that define the filter.
        """
        try:
            att_policy = {key: [value] for key, value in attributes.items()}
            subscription.set_attributes(
                AttributeName="FilterPolicy", AttributeValue=json.dumps(att_policy)
            )
            logger.info("Added filter to subscription %s.", subscription.arn)
        except ClientError:
            logger.exception(
                "Couldn't add filter to subscription %s.", subscription.arn
            )
            raise
```
+  Untuk detail API, lihat [SetSubscriptionAttributes](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/SetSubscriptionAttributes)di *AWS SDK for Python (Boto3) Referensi* API. 

### `Subscribe`
<a name="sns_Subscribe_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    @staticmethod
    def subscribe(topic, protocol, endpoint):
        """
        Subscribes an endpoint to the topic. Some endpoint types, such as email,
        must be confirmed before their subscriptions are active. When a subscription
        is not confirmed, its Amazon Resource Number (ARN) is set to
        'PendingConfirmation'.

        :param topic: The topic to subscribe to.
        :param protocol: The protocol of the endpoint, such as 'sms' or 'email'.
        :param endpoint: The endpoint that receives messages, such as a phone number
                         (in E.164 format) for SMS messages, or an email address for
                         email messages.
        :return: The newly added subscription.
        """
        try:
            subscription = topic.subscribe(
                Protocol=protocol, Endpoint=endpoint, ReturnSubscriptionArn=True
            )
            logger.info("Subscribed %s %s to topic %s.", protocol, endpoint, topic.arn)
        except ClientError:
            logger.exception(
                "Couldn't subscribe %s %s to topic %s.", protocol, endpoint, topic.arn
            )
            raise
        else:
            return subscription
```
Berlangganan antrian ke topik dengan filter opsional.  

```
class SnsWrapper:
    """Wrapper class for managing Amazon SNS operations."""

    def __init__(self, sns_client: Any) -> None:
        """
        Initialize the SnsWrapper.

        :param sns_client: A Boto3 Amazon SNS client.
        """
        self.sns_client = sns_client

    @classmethod
    def from_client(cls) -> 'SnsWrapper':
        """
        Create an SnsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sns_client = boto3.client('sns')
        return cls(sns_client)


    def subscribe_queue_to_topic(
        self, 
        topic_arn: str, 
        queue_arn: str, 
        filter_policy: Optional[str] = None
    ) -> str:
        """
        Subscribe an SQS queue to an SNS topic.

        :param topic_arn: The ARN of the SNS topic.
        :param queue_arn: The ARN of the SQS queue.
        :param filter_policy: Optional JSON filter policy for message filtering.
        :return: The ARN of the subscription.
        :raises ClientError: If the subscription fails.
        """
        try:
            attributes = {}
            if filter_policy:
                attributes['FilterPolicy'] = filter_policy

            response = self.sns_client.subscribe(
                TopicArn=topic_arn,
                Protocol='sqs',
                Endpoint=queue_arn,
                Attributes=attributes
            )

            subscription_arn = response['SubscriptionArn']
            logger.info(f"Subscribed queue {queue_arn} to topic {topic_arn}")
            return subscription_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error subscribing queue to topic: {error_code} - {e}")
            raise
```
+  Untuk detail API, lihat [Berlangganan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Subscribe) di *AWS SDK for Python (Boto3) Referensi* API. 

### `Unsubscribe`
<a name="sns_Unsubscribe_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    @staticmethod
    def delete_subscription(subscription):
        """
        Unsubscribes and deletes a subscription.
        """
        try:
            subscription.delete()
            logger.info("Deleted subscription %s.", subscription.arn)
        except ClientError:
            logger.exception("Couldn't delete subscription %s.", subscription.arn)
            raise
```

```
class SnsWrapper:
    """Wrapper class for managing Amazon SNS operations."""

    def __init__(self, sns_client: Any) -> None:
        """
        Initialize the SnsWrapper.

        :param sns_client: A Boto3 Amazon SNS client.
        """
        self.sns_client = sns_client

    @classmethod
    def from_client(cls) -> 'SnsWrapper':
        """
        Create an SnsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sns_client = boto3.client('sns')
        return cls(sns_client)


    def unsubscribe(self, subscription_arn: str) -> bool:
        """
        Unsubscribe from an SNS topic.

        :param subscription_arn: The ARN of the subscription to remove.
        :return: True if successful.
        :raises ClientError: If the unsubscribe operation fails.
        """
        try:
            self.sns_client.unsubscribe(SubscriptionArn=subscription_arn)
            
            logger.info(f"Unsubscribed: {subscription_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'NotFound':
                logger.warning(f"Subscription not found: {subscription_arn}")
                return True  # Already unsubscribed
            else:
                logger.error(f"Error unsubscribing: {error_code} - {e}")
                raise
```
+  Untuk detail API, lihat [Berhenti berlangganan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Unsubscribe) di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan Amazon Textract untuk mendeteksi elemen teks, formulir, dan tabel dalam gambar dokumen. AWS SDK untuk Python (Boto3) Gambar input dan output Amazon Textract ditampilkan dalam aplikasi Tkinter yang memungkinkan Anda menjelajahi elemen yang terdeteksi.   
+ Kirim gambar dokumen ke Amazon Textract dan jelajahi output elemen yang terdeteksi.
+ Kirim gambar langsung ke Amazon Textract atau melalui bucket Amazon Simple Storage Service (Amazon S3).
+ Gunakan asinkron APIs untuk memulai pekerjaan yang menerbitkan pemberitahuan ke topik Simple Notification Service Amazon (Amazon SNS) saat pekerjaan selesai.
+ Lakukan polling pada antrean Amazon Simple Queue Service (Amazon SQS) untuk mendapatkan pesan penyelesaian tugas dan tampilkan hasilnya.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_explorer).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

### Membuat dan mempublikasikan ke topik FIFO
<a name="sns_PublishFifoTopic_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mempublikasikan ke topik FIFO Amazon SNS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 
Buat topik Amazon SNS FIFO, berlangganan Amazon SQS FIFO dan antrian standar ke topik tersebut, dan publikasikan pesan ke topik tersebut.  

```
def usage_demo():
    """Shows how to subscribe queues to a FIFO topic."""
    print("-" * 88)
    print("Welcome to the `Subscribe queues to a FIFO topic` demo!")
    print("-" * 88)

    sns = boto3.resource("sns")
    sqs = boto3.resource("sqs")
    fifo_topic_wrapper = FifoTopicWrapper(sns)
    sns_wrapper = SnsWrapper(sns)

    prefix = "sqs-subscribe-demo-"
    queues = set()
    subscriptions = set()

    wholesale_queue = sqs.create_queue(
        QueueName=prefix + "wholesale.fifo",
        Attributes={
            "MaximumMessageSize": str(4096),
            "ReceiveMessageWaitTimeSeconds": str(10),
            "VisibilityTimeout": str(300),
            "FifoQueue": str(True),
            "ContentBasedDeduplication": str(True),
        },
    )
    queues.add(wholesale_queue)
    print(f"Created FIFO queue with URL: {wholesale_queue.url}.")

    retail_queue = sqs.create_queue(
        QueueName=prefix + "retail.fifo",
        Attributes={
            "MaximumMessageSize": str(4096),
            "ReceiveMessageWaitTimeSeconds": str(10),
            "VisibilityTimeout": str(300),
            "FifoQueue": str(True),
            "ContentBasedDeduplication": str(True),
        },
    )
    queues.add(retail_queue)
    print(f"Created FIFO queue with URL: {retail_queue.url}.")

    analytics_queue = sqs.create_queue(QueueName=prefix + "analytics", Attributes={})
    queues.add(analytics_queue)
    print(f"Created standard queue with URL: {analytics_queue.url}.")

    topic = fifo_topic_wrapper.create_fifo_topic("price-updates-topic.fifo")
    print(f"Created FIFO topic: {topic.attributes['TopicArn']}.")

    for q in queues:
        fifo_topic_wrapper.add_access_policy(q, topic.attributes["TopicArn"])

    print(f"Added access policies for topic: {topic.attributes['TopicArn']}.")

    for q in queues:
        sub = fifo_topic_wrapper.subscribe_queue_to_topic(
            topic, q.attributes["QueueArn"]
        )
        subscriptions.add(sub)

    print(f"Subscribed queues to topic: {topic.attributes['TopicArn']}.")

    input("Press Enter to publish a message to the topic.")

    message_id = fifo_topic_wrapper.publish_price_update(
        topic, '{"product": 214, "price": 79.99}', "Consumables"
    )

    print(f"Published price update with message ID: {message_id}.")

    # Clean up the subscriptions, queues, and topic.
    input("Press Enter to clean up resources.")
    for s in subscriptions:
        sns_wrapper.delete_subscription(s)

    sns_wrapper.delete_topic(topic)

    for q in queues:
        fifo_topic_wrapper.delete_queue(q)

    print(f"Deleted subscriptions, queues, and topic.")

    print("Thanks for watching!")
    print("-" * 88)



class FifoTopicWrapper:
    """Encapsulates Amazon SNS FIFO topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource

    def create_fifo_topic(self, topic_name):
        """
        Create a FIFO topic.
        Topic names must be made up of only uppercase and lowercase ASCII letters,
        numbers, underscores, and hyphens, and must be between 1 and 256 characters long.
        For a FIFO topic, the name must end with the .fifo suffix.

        :param topic_name: The name for the topic.
        :return: The new topic.
        """
        try:
            topic = self.sns_resource.create_topic(
                Name=topic_name,
                Attributes={
                    "FifoTopic": str(True),
                    "ContentBasedDeduplication": str(False),
                    "FifoThroughputScope": "MessageGroup",
                },
            )
            logger.info("Created FIFO topic with name=%s.", topic_name)
            return topic
        except ClientError as error:
            logger.exception("Couldn't create topic with name=%s!", topic_name)
            raise error


    @staticmethod
    def add_access_policy(queue, topic_arn):
        """
        Add the necessary access policy to a queue, so
        it can receive messages from a topic.

        :param queue: The queue resource.
        :param topic_arn: The ARN of the topic.
        :return: None.
        """
        try:
            queue.set_attributes(
                Attributes={
                    "Policy": json.dumps(
                        {
                            "Version":"2012-10-17",		 	 	 
                            "Statement": [
                                {
                                    "Sid": "test-sid",
                                    "Effect": "Allow",
                                    "Principal": {"AWS": "*"},
                                    "Action": "SQS:SendMessage",
                                    "Resource": queue.attributes["QueueArn"],
                                    "Condition": {
                                        "ArnLike": {"aws:SourceArn": topic_arn}
                                    },
                                }
                            ],
                        }
                    )
                }
            )
            logger.info("Added trust policy to the queue.")
        except ClientError as error:
            logger.exception("Couldn't add trust policy to the queue!")
            raise error


    @staticmethod
    def subscribe_queue_to_topic(topic, queue_arn):
        """
        Subscribe a queue to a topic.

        :param topic: The topic resource.
        :param queue_arn: The ARN of the queue.
        :return: The subscription resource.
        """
        try:
            subscription = topic.subscribe(
                Protocol="sqs",
                Endpoint=queue_arn,
            )
            logger.info("The queue is subscribed to the topic.")
            return subscription
        except ClientError as error:
            logger.exception("Couldn't subscribe queue to topic!")
            raise error


    @staticmethod
    def publish_price_update(topic, payload, group_id):
        """
        Compose and publish a message that updates the wholesale price.

        :param topic: The topic to publish to.
        :param payload: The message to publish.
        :param group_id: The group ID for the message.
        :return: The ID of the message.
        """
        try:
            att_dict = {"business": {"DataType": "String", "StringValue": "wholesale"}}
            dedup_id = uuid.uuid4()
            response = topic.publish(
                Subject="Price Update",
                Message=payload,
                MessageAttributes=att_dict,
                MessageGroupId=group_id,
                MessageDeduplicationId=str(dedup_id),
            )
            message_id = response["MessageId"]
            logger.info("Published message to topic %s.", topic.arn)
        except ClientError as error:
            logger.exception("Couldn't publish message to topic %s.", topic.arn)
            raise error
        return message_id


    @staticmethod
    def delete_queue(queue):
        """
        Removes an SQS queue. When run against an AWS account, it can take up to
        60 seconds before the queue is actually deleted.

        :param queue: The queue to delete.
        :return: None
        """
        try:
            queue.delete()
            logger.info("Deleted queue with URL=%s.", queue.url)
        except ClientError as error:
            logger.exception("Couldn't delete queue with URL=%s!", queue.url)
            raise error
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateTopic](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/CreateTopic)
  + [Publikasikan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Publish)
  + [Berlangganan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Subscribe)

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Python (Boto3)**  
 Gunakan Amazon Rekognition untuk mendeteksi wajah, objek, dan orang dalam video dengan memulai tugas deteksi asinkron. Contoh ini juga mengonfigurasi Amazon Rekognition untuk memberi tahu topik Amazon Simple Notification Service (Amazon SNS) saat pekerjaan selesai dan berlangganan antrian Amazon Simple Queue Service (Amazon SQS) ke topik tersebut. Ketika antrian menerima pesan tentang pekerjaan, pekerjaan diambil dan hasilnya adalah output.   
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

### Publikasikan pesan teks SMS
<a name="sns_PublishTextSMS_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan pesan SMS menggunakan Amazon SNS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 

```
class SnsWrapper:
    """Encapsulates Amazon SNS topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource


    def publish_text_message(self, phone_number, message):
        """
        Publishes a text message directly to a phone number without need for a
        subscription.

        :param phone_number: The phone number that receives the message. This must be
                             in E.164 format. For example, a United States phone
                             number might be +12065550101.
        :param message: The message to send.
        :return: The ID of the message.
        """
        try:
            response = self.sns_resource.meta.client.publish(
                PhoneNumber=phone_number, Message=message
            )
            message_id = response["MessageId"]
            logger.info("Published message to %s.", phone_number)
        except ClientError:
            logger.exception("Couldn't publish message to %s.", phone_number)
            raise
        else:
            return message_id
```
+  Untuk detail API, lihat [Menerbitkan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Publish) di *AWS SDK for Python (Boto3) Referensi* API. 

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/topics_and_queues#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class TopicsAndQueuesScenario:
    """Manages the Topics and Queues feature scenario."""

    DASHES = "-" * 80

    def __init__(self, sns_wrapper: SnsWrapper, sqs_wrapper: SqsWrapper) -> None:
        """
        Initialize the Topics and Queues scenario.

        :param sns_wrapper: SnsWrapper instance for SNS operations.
        :param sqs_wrapper: SqsWrapper instance for SQS operations.
        """
        self.sns_wrapper = sns_wrapper
        self.sqs_wrapper = sqs_wrapper
        
        # Scenario state
        self.use_fifo_topic = False
        self.use_content_based_deduplication = False
        self.topic_name = None
        self.topic_arn = None
        self.queue_count = 2
        self.queue_urls = []
        self.subscription_arns = []
        self.tones = ["cheerful", "funny", "serious", "sincere"]

    def run_scenario(self) -> None:
        """Run the Topics and Queues feature scenario."""
        print(self.DASHES)
        print("Welcome to messaging with topics and queues.")
        print(self.DASHES)
        print(f"""
    In this scenario, you will create an SNS topic and subscribe {self.queue_count} SQS queues to the topic.
    You can select from several options for configuring the topic and the subscriptions for the queues.
    You can then post to the topic and see the results in the queues.
        """)

        try:
            # Setup Phase
            print(self.DASHES)
            self._setup_topic()
            print(self.DASHES)

            self._setup_queues()
            print(self.DASHES)

            # Demonstration Phase
            self._publish_messages()
            print(self.DASHES)

            # Examination Phase
            self._poll_queues_for_messages()
            print(self.DASHES)

            # Cleanup Phase
            self._cleanup_resources()
            print(self.DASHES)

        except Exception as e:
            logger.error(f"Scenario failed: {e}")
            print(f"There was a problem with the scenario: {e}")
            print("\nInitiating cleanup...")
            try:
                self._cleanup_resources()
            except Exception as cleanup_error:
                logger.error(f"Error during cleanup: {cleanup_error}")

        print("Messaging with topics and queues scenario is complete.")
        print(self.DASHES)

    def _setup_topic(self) -> None:
        """Set up the SNS topic to be used with the queues."""
        print("SNS topics can be configured as FIFO (First-In-First-Out).")
        print("FIFO topics deliver messages in order and support deduplication and message filtering.")
        print()

        self.use_fifo_topic = q.ask("Would you like to work with FIFO topics? (y/n): ", q.is_yesno)

        if self.use_fifo_topic:
            print(self.DASHES)
            self.topic_name = q.ask("Enter a name for your SNS topic: ", q.non_empty)
            print("Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.")
            print()

            print(self.DASHES)
            print("""
    Because you have chosen a FIFO topic, deduplication is supported.
    Deduplication IDs are either set in the message or automatically generated 
    from content using a hash function.
    
    If a message is successfully published to an SNS FIFO topic, any message 
    published and determined to have the same deduplication ID, 
    within the five-minute deduplication interval, is accepted but not delivered.
    
    For more information about deduplication, 
    see https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.
            """)

            self.use_content_based_deduplication = q.ask(
                "Use content-based deduplication instead of entering a deduplication ID? (y/n): ", 
                q.is_yesno
            )
        else:
            self.topic_name = q.ask("Enter a name for your SNS topic: ", q.non_empty)

        print(self.DASHES)

        # Create the topic
        self.topic_arn = self.sns_wrapper.create_topic(
            self.topic_name, 
            self.use_fifo_topic, 
            self.use_content_based_deduplication
        )

        print(f"Your new topic with the name {self.topic_name}")
        print(f"  and Amazon Resource Name (ARN) {self.topic_arn}")
        print(f"  has been created.")
        print()

    def _setup_queues(self) -> None:
        """Set up the SQS queues and subscribe them to the topic."""
        print(f"Now you will create {self.queue_count} Amazon Simple Queue Service (Amazon SQS) queues to subscribe to the topic.")

        for i in range(self.queue_count):
            queue_name = q.ask(f"Enter a name for SQS queue #{i+1}: ", q.non_empty)
            
            if self.use_fifo_topic and i == 0:
                print("Because you have selected a FIFO topic, '.fifo' must be appended to the queue name.")

            # Create the queue
            queue_url = self.sqs_wrapper.create_queue(queue_name, self.use_fifo_topic)
            self.queue_urls.append(queue_url)

            print(f"Your new queue with the name {queue_name}")
            print(f"  and queue URL {queue_url}")
            print(f"  has been created.")
            print()

            if i == 0:
                print("The queue URL is used to retrieve the queue ARN,")
                print("which is used to create a subscription.")
                print(self.DASHES)

            # Get queue ARN
            queue_arn = self.sqs_wrapper.get_queue_arn(queue_url)

            if i == 0:
                print("An AWS Identity and Access Management (IAM) policy must be attached to an SQS queue,")
                print("enabling it to receive messages from an SNS topic.")

            # Set queue policy to allow SNS to send messages
            self.sqs_wrapper.set_queue_policy_for_topic(queue_arn, self.topic_arn, queue_url)

            # Set up message filtering if using FIFO
            subscription_arn = self._setup_subscription_with_filter(i, queue_arn, queue_name)
            self.subscription_arns.append(subscription_arn)

    def _setup_subscription_with_filter(self, queue_index: int, queue_arn: str, queue_name: str) -> str:
        """Set up subscription with optional message filtering."""
        filter_policy = None
        
        if self.use_fifo_topic:
            print(self.DASHES)
            if queue_index == 0:
                print("Subscriptions to a FIFO topic can have filters.")
                print("If you add a filter to this subscription, then only the filtered messages")
                print("will be received in the queue.")
                print()
                print("For information about message filtering,")
                print("see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html")
                print()
                print("For this example, you can filter messages by a TONE attribute.")

            use_filter = q.ask(f"Filter messages for {queue_name}'s subscription to the topic? (y/n): ", q.is_yesno)
            
            if use_filter:
                filter_policy = self._create_filter_policy()

        subscription_arn = self.sns_wrapper.subscribe_queue_to_topic(
            self.topic_arn, queue_arn, filter_policy
        )

        print(f"The queue {queue_name} has been subscribed to the topic {self.topic_name}")
        print(f"  with the subscription ARN {subscription_arn}")

        return subscription_arn

    def _create_filter_policy(self) -> str:
        """Create a message filter policy based on user selections."""
        print(self.DASHES)
        print("You can filter messages by one or more of the following TONE attributes.")

        filter_selections = []
        selection_number = 0

        while True:
            print("Enter a number to add a TONE filter, or enter 0 to stop adding filters.")
            for i, tone in enumerate(self.tones, 1):
                print(f"  {i}. {tone}")

            selection = q.ask("Your choice: ", q.is_int, q.in_range(0, len(self.tones)))
            
            if selection == 0:
                break
            elif selection > 0 and self.tones[selection - 1] not in filter_selections:
                filter_selections.append(self.tones[selection - 1])
                print(f"Added '{self.tones[selection - 1]}' to filter list.")

        if filter_selections:
            filters = {"tone": filter_selections}
            return json.dumps(filters)
        return None

    def _publish_messages(self) -> None:
        """Publish messages to the topic with various options."""
        print("Now we can publish messages.")

        keep_sending = True
        while keep_sending:
            print()
            message = q.ask("Enter a message to publish: ", q.non_empty)

            message_group_id = None
            deduplication_id = None
            tone_attribute = None

            if self.use_fifo_topic:
                print("Because you are using a FIFO topic, you must set a message group ID.")
                print("All messages within the same group will be received in the order they were published.")
                print()
                message_group_id = q.ask("Enter a message group ID for this message: ", q.non_empty)

                if not self.use_content_based_deduplication:
                    print("Because you are not using content-based deduplication,")
                    print("you must enter a deduplication ID.")
                    deduplication_id = q.ask("Enter a deduplication ID for this message: ", q.non_empty)

                # Ask about tone attribute
                add_attribute = q.ask("Add an attribute to this message? (y/n): ", q.is_yesno)
                if add_attribute:
                    print("Enter a number for an attribute:")
                    for i, tone in enumerate(self.tones, 1):
                        print(f"  {i}. {tone}")
                    
                    selection = q.ask("Your choice: ", q.is_int, q.in_range(1, len(self.tones)))
                    if 1 <= selection <= len(self.tones):
                        tone_attribute = self.tones[selection - 1]

            # Publish the message
            message_id = self.sns_wrapper.publish_message(
                self.topic_arn,
                message,
                tone_attribute,
                deduplication_id,
                message_group_id
            )

            print(f"Message published with ID: {message_id}")

            keep_sending = q.ask("Send another message? (y/n): ", q.is_yesno)

    def _poll_queues_for_messages(self) -> None:
        """Poll all queues for messages and display results."""
        for i, queue_url in enumerate(self.queue_urls):
            print(f"Polling queue #{i+1} at {queue_url} for messages...")
            
            q.ask("Press Enter to continue...")

            messages = self._poll_queue_for_messages(queue_url)
            
            if messages:
                print(f"{len(messages)} message(s) were received by queue #{i+1}")
                for j, message in enumerate(messages, 1):
                    print(f"  Message {j}:")
                    # Parse the SNS message body to get the actual message
                    try:
                        sns_message = json.loads(message['Body'])
                        actual_message = sns_message.get('Message', message['Body'])
                        print(f"    {actual_message}")
                    except (json.JSONDecodeError, KeyError):
                        print(f"    {message['Body']}")

                # Delete the messages
                self.sqs_wrapper.delete_messages(queue_url, messages)
                print(f"Messages deleted from queue #{i+1}")
            else:
                print(f"No messages received by queue #{i+1}")
            
            print(self.DASHES)

    def _poll_queue_for_messages(self, queue_url: str) -> List[Dict[str, Any]]:
        """Poll a single queue for messages."""
        all_messages = []
        max_polls = 3  # Limit polling to avoid infinite loops
        
        for poll_count in range(max_polls):
            messages = self.sqs_wrapper.receive_messages(queue_url, 10)
            
            if messages:
                all_messages.extend(messages)
                print(f"  Received {len(messages)} messages in poll {poll_count + 1}")
                # Small delay between polls
                time.sleep(1)
            else:
                print(f"  No messages in poll {poll_count + 1}")
                break
                
        return all_messages

    def _cleanup_resources(self) -> None:
        """Clean up all resources created during the scenario."""
        print("Cleaning up resources...")

        # Delete queues
        for i, queue_url in enumerate(self.queue_urls):
            if queue_url:
                delete_queue = q.ask(f"Delete queue #{i+1} with URL {queue_url}? (y/n): ", q.is_yesno)
                if delete_queue:
                    try:
                        self.sqs_wrapper.delete_queue(queue_url)
                        print(f"Deleted queue #{i+1}")
                    except Exception as e:
                        print(f"Error deleting queue #{i+1}: {e}")

        # Unsubscribe from topic
        for i, subscription_arn in enumerate(self.subscription_arns):
            if subscription_arn:
                try:
                    self.sns_wrapper.unsubscribe(subscription_arn)
                    print(f"Unsubscribed subscription #{i+1}")
                except Exception as e:
                    print(f"Error unsubscribing #{i+1}: {e}")

        # Delete topic
        if self.topic_arn:
            delete_topic = q.ask(f"Delete topic {self.topic_name}? (y/n): ", q.is_yesno)
            if delete_topic:
                try:
                    self.sns_wrapper.delete_topic(self.topic_arn)
                    print(f"Deleted topic {self.topic_name}")
                except Exception as e:
                    print(f"Error deleting topic: {e}")

        print("Resource cleanup complete.")
```
Buat kelas yang membungkus operasi Amazon SNS dan Amazon SQS untuk digunakan dalam skenario.  

```
class SnsWrapper:
    """Wrapper class for managing Amazon SNS operations."""

    def __init__(self, sns_client: Any) -> None:
        """
        Initialize the SnsWrapper.

        :param sns_client: A Boto3 Amazon SNS client.
        """
        self.sns_client = sns_client

    @classmethod
    def from_client(cls) -> 'SnsWrapper':
        """
        Create an SnsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sns_client = boto3.client('sns')
        return cls(sns_client)


    def create_topic(
        self, 
        topic_name: str, 
        is_fifo: bool = False, 
        content_based_deduplication: bool = False
    ) -> str:
        """
        Create an SNS topic.

        :param topic_name: The name of the topic to create.
        :param is_fifo: Whether to create a FIFO topic.
        :param content_based_deduplication: Whether to use content-based deduplication for FIFO topics.
        :return: The ARN of the created topic.
        :raises ClientError: If the topic creation fails.
        """
        try:
            # Add .fifo suffix for FIFO topics
            if is_fifo and not topic_name.endswith('.fifo'):
                topic_name += '.fifo'

            attributes = {}
            if is_fifo:
                attributes['FifoTopic'] = 'true'
                if content_based_deduplication:
                    attributes['ContentBasedDeduplication'] = 'true'

            response = self.sns_client.create_topic(
                Name=topic_name,
                Attributes=attributes
            )

            topic_arn = response['TopicArn']
            logger.info(f"Created topic: {topic_name} with ARN: {topic_arn}")
            return topic_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error creating topic {topic_name}: {error_code} - {e}")
            raise


    def subscribe_queue_to_topic(
        self, 
        topic_arn: str, 
        queue_arn: str, 
        filter_policy: Optional[str] = None
    ) -> str:
        """
        Subscribe an SQS queue to an SNS topic.

        :param topic_arn: The ARN of the SNS topic.
        :param queue_arn: The ARN of the SQS queue.
        :param filter_policy: Optional JSON filter policy for message filtering.
        :return: The ARN of the subscription.
        :raises ClientError: If the subscription fails.
        """
        try:
            attributes = {}
            if filter_policy:
                attributes['FilterPolicy'] = filter_policy

            response = self.sns_client.subscribe(
                TopicArn=topic_arn,
                Protocol='sqs',
                Endpoint=queue_arn,
                Attributes=attributes
            )

            subscription_arn = response['SubscriptionArn']
            logger.info(f"Subscribed queue {queue_arn} to topic {topic_arn}")
            return subscription_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error subscribing queue to topic: {error_code} - {e}")
            raise


    def publish_message(
        self,
        topic_arn: str,
        message: str,
        tone_attribute: Optional[str] = None,
        deduplication_id: Optional[str] = None,
        message_group_id: Optional[str] = None
    ) -> str:
        """
        Publish a message to an SNS topic.

        :param topic_arn: The ARN of the SNS topic.
        :param message: The message content to publish.
        :param tone_attribute: Optional tone attribute for message filtering.
        :param deduplication_id: Optional deduplication ID for FIFO topics.
        :param message_group_id: Optional message group ID for FIFO topics.
        :return: The message ID of the published message.
        :raises ClientError: If the message publication fails.
        """
        try:
            publish_args = {
                'TopicArn': topic_arn,
                'Message': message
            }

            # Add message attributes if tone is specified
            if tone_attribute:
                publish_args['MessageAttributes'] = {
                    'tone': {
                        'DataType': 'String',
                        'StringValue': tone_attribute
                    }
                }

            # Add FIFO-specific parameters
            if message_group_id:
                publish_args['MessageGroupId'] = message_group_id

            if deduplication_id:
                publish_args['MessageDeduplicationId'] = deduplication_id

            response = self.sns_client.publish(**publish_args)

            message_id = response['MessageId']
            logger.info(f"Published message to topic {topic_arn} with ID: {message_id}")
            return message_id

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error publishing message to topic: {error_code} - {e}")
            raise


    def unsubscribe(self, subscription_arn: str) -> bool:
        """
        Unsubscribe from an SNS topic.

        :param subscription_arn: The ARN of the subscription to remove.
        :return: True if successful.
        :raises ClientError: If the unsubscribe operation fails.
        """
        try:
            self.sns_client.unsubscribe(SubscriptionArn=subscription_arn)
            
            logger.info(f"Unsubscribed: {subscription_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'NotFound':
                logger.warning(f"Subscription not found: {subscription_arn}")
                return True  # Already unsubscribed
            else:
                logger.error(f"Error unsubscribing: {error_code} - {e}")
                raise


    def delete_topic(self, topic_arn: str) -> bool:
        """
        Delete an SNS topic.

        :param topic_arn: The ARN of the topic to delete.
        :return: True if successful.
        :raises ClientError: If the topic deletion fails.
        """
        try:
            self.sns_client.delete_topic(TopicArn=topic_arn)
            
            logger.info(f"Deleted topic: {topic_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'NotFound':
                logger.warning(f"Topic not found: {topic_arn}")
                return True  # Already deleted
            else:
                logger.error(f"Error deleting topic: {error_code} - {e}")
                raise


    def list_topics(self) -> list:
        """
        List all SNS topics in the account using pagination.

        :return: List of topic ARNs.
        :raises ClientError: If listing topics fails.
        """
        try:
            topics = []
            paginator = self.sns_client.get_paginator('list_topics')
            
            for page in paginator.paginate():
                topics.extend([topic['TopicArn'] for topic in page.get('Topics', [])])
            
            logger.info(f"Found {len(topics)} topics")
            return topics

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            if error_code == 'AuthorizationError':
                logger.error("Authorization error listing topics - check IAM permissions")
            else:
                logger.error(f"Error listing topics: {error_code} - {e}")
            raise


class SqsWrapper:
    """Wrapper class for managing Amazon SQS operations."""

    def __init__(self, sqs_client: Any) -> None:
        """
        Initialize the SqsWrapper.

        :param sqs_client: A Boto3 Amazon SQS client.
        """
        self.sqs_client = sqs_client

    @classmethod
    def from_client(cls) -> 'SqsWrapper':
        """
        Create an SqsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sqs_client = boto3.client('sqs')
        return cls(sqs_client)


    def create_queue(self, queue_name: str, is_fifo: bool = False) -> str:
        """
        Create an SQS queue.

        :param queue_name: The name of the queue to create.
        :param is_fifo: Whether to create a FIFO queue.
        :return: The URL of the created queue.
        :raises ClientError: If the queue creation fails.
        """
        try:
            # Add .fifo suffix for FIFO queues
            if is_fifo and not queue_name.endswith('.fifo'):
                queue_name += '.fifo'

            attributes = {}
            if is_fifo:
                attributes['FifoQueue'] = 'true'

            response = self.sqs_client.create_queue(
                QueueName=queue_name,
                Attributes=attributes
            )

            queue_url = response['QueueUrl']
            logger.info(f"Created queue: {queue_name} with URL: {queue_url}")
            return queue_url

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error creating queue {queue_name}: {error_code} - {e}")
            raise


    def get_queue_arn(self, queue_url: str) -> str:
        """
        Get the ARN of an SQS queue.

        :param queue_url: The URL of the queue.
        :return: The ARN of the queue.
        :raises ClientError: If getting queue attributes fails.
        """
        try:
            response = self.sqs_client.get_queue_attributes(
                QueueUrl=queue_url,
                AttributeNames=['QueueArn']
            )

            queue_arn = response['Attributes']['QueueArn']
            logger.info(f"Queue ARN for {queue_url}: {queue_arn}")
            return queue_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error getting queue ARN: {error_code} - {e}")
            raise


    def set_queue_policy_for_topic(self, queue_arn: str, topic_arn: str, queue_url: str) -> bool:
        """
        Set the queue policy to allow SNS to send messages to the queue.

        :param queue_arn: The ARN of the SQS queue.
        :param topic_arn: The ARN of the SNS topic.
        :param queue_url: The URL of the SQS queue.
        :return: True if successful.
        :raises ClientError: If setting the queue policy fails.
        """
        try:
            # Create policy that allows SNS to send messages to the queue
            policy = {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "sns.amazonaws.com"
                        },
                        "Action": "sqs:SendMessage",
                        "Resource": queue_arn,
                        "Condition": {
                            "ArnEquals": {
                                "aws:SourceArn": topic_arn
                            }
                        }
                    }
                ]
            }

            self.sqs_client.set_queue_attributes(
                QueueUrl=queue_url,
                Attributes={
                    'Policy': json.dumps(policy)
                }
            )

            logger.info(f"Set queue policy for {queue_url} to allow messages from {topic_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error setting queue policy: {error_code} - {e}")
            raise


    def receive_messages(self, queue_url: str, max_messages: int = 10) -> List[Dict[str, Any]]:
        """
        Receive messages from an SQS queue.

        :param queue_url: The URL of the queue to receive messages from.
        :param max_messages: Maximum number of messages to receive (1-10).
        :return: List of received messages.
        :raises ClientError: If receiving messages fails.
        """
        try:
            # Ensure max_messages is within valid range
            max_messages = max(1, min(10, max_messages))

            response = self.sqs_client.receive_message(
                QueueUrl=queue_url,
                MaxNumberOfMessages=max_messages,
                WaitTimeSeconds=2,  # Short polling
                MessageAttributeNames=['All']
            )

            messages = response.get('Messages', [])
            logger.info(f"Received {len(messages)} messages from {queue_url}")
            return messages

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error receiving messages: {error_code} - {e}")
            raise


    def delete_messages(self, queue_url: str, messages: List[Dict[str, Any]]) -> bool:
        """
        Delete messages from an SQS queue in batches.

        :param queue_url: The URL of the queue.
        :param messages: List of messages to delete.
        :return: True if successful.
        :raises ClientError: If deleting messages fails.
        """
        try:
            if not messages:
                return True

            # Build delete entries for batch delete
            delete_entries = []
            for i, message in enumerate(messages):
                delete_entries.append({
                    'Id': str(i),
                    'ReceiptHandle': message['ReceiptHandle']
                })

            # Delete messages in batches of 10 (SQS limit)
            batch_size = 10
            for i in range(0, len(delete_entries), batch_size):
                batch = delete_entries[i:i + batch_size]
                
                response = self.sqs_client.delete_message_batch(
                    QueueUrl=queue_url,
                    Entries=batch
                )

                # Check for failures
                if 'Failed' in response and response['Failed']:
                    for failed in response['Failed']:
                        logger.warning(f"Failed to delete message: {failed}")

            logger.info(f"Deleted {len(messages)} messages from {queue_url}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error deleting messages: {error_code} - {e}")
            raise


    def delete_queue(self, queue_url: str) -> bool:
        """
        Delete an SQS queue.

        :param queue_url: The URL of the queue to delete.
        :return: True if successful.
        :raises ClientError: If the queue deletion fails.
        """
        try:
            self.sqs_client.delete_queue(QueueUrl=queue_url)
            
            logger.info(f"Deleted queue: {queue_url}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'AWS.SimpleQueueService.NonExistentQueue':
                logger.warning(f"Queue not found: {queue_url}")
                return True  # Already deleted
            else:
                logger.error(f"Error deleting queue: {error_code} - {e}")
                raise


    def list_queues(self, queue_name_prefix: Optional[str] = None) -> List[str]:
        """
        List all SQS queues in the account using pagination.

        :param queue_name_prefix: Optional prefix to filter queue names.
        :return: List of queue URLs.
        :raises ClientError: If listing queues fails.
        """
        try:
            queue_urls = []
            paginator = self.sqs_client.get_paginator('list_queues')
            
            page_params = {}
            if queue_name_prefix:
                page_params['QueueNamePrefix'] = queue_name_prefix

            for page in paginator.paginate(**page_params):
                queue_urls.extend(page.get('QueueUrls', []))
            
            logger.info(f"Found {len(queue_urls)} queues")
            return queue_urls

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            if error_code == 'AccessDenied':
                logger.error("Access denied listing queues - check IAM permissions")
            else:
                logger.error(f"Error listing queues: {error_code} - {e}")
            raise

    def send_message(self, queue_url: str, message_body: str, **kwargs) -> str:
        """
        Send a message to an SQS queue.

        :param queue_url: The URL of the queue.
        :param message_body: The message content.
        :param kwargs: Additional message parameters (DelaySeconds, MessageAttributes, etc.).
        :return: The message ID.
        :raises ClientError: If sending the message fails.
        """
        try:
            send_params = {
                'QueueUrl': queue_url,
                'MessageBody': message_body,
                **kwargs
            }

            response = self.sqs_client.send_message(**send_params)
            
            message_id = response['MessageId']
            logger.info(f"Sent message to {queue_url} with ID: {message_id}")
            return message_id

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error sending message: {error_code} - {e}")
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateQueue](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/CreateQueue)
  + [CreateTopic](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/CreateTopic)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteQueue)
  + [DeleteTopic](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/DeleteTopic)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/GetQueueAttributes)
  + [Publikasikan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Publish)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/ReceiveMessage)
  + [SetQueueAttributes](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/SetQueueAttributes)
  + [Berlangganan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Subscribe)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Unsubscribe)

### Menggunakan API Gateway untuk menginvokasi fungsi Lambda
<a name="cross_LambdaAPIGateway_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh Amazon API Gateway.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara membuat dan menggunakan Amazon API Gateway REST API yang menargetkan suatu AWS Lambda fungsi. Handler Lambda menunjukkan cara merutekan berdasarkan metode HTTP; cara mendapatkan data dari string kueri, header, dan badan; dan cara mengembalikan respons JSON.   
+ Menyebarkan fungsi Lambda.
+ Buat API REST API Gateway.
+ Buat sumber daya REST yang menargetkan fungsi Lambda.
+ Berikan izin untuk mengizinkan API Gateway menjalankan fungsi Lambda.
+ Gunakan paket Requests untuk mengirim permintaan ke REST API.
+ Bersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon SNS

### Menggunakan peristiwa terjadwal untuk menginvokasi fungsi Lambda
<a name="cross_LambdaScheduledEvents_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat AWS Lambda fungsi yang dipanggil oleh acara EventBridge terjadwal Amazon.

**SDK untuk Python (Boto3)**  
 Contoh ini menunjukkan cara mendaftarkan AWS Lambda fungsi sebagai target EventBridge acara Amazon terjadwal. Penangan Lambda menulis pesan ramah dan data peristiwa lengkap ke Amazon CloudWatch Logs untuk pengambilan nanti.   
+ Menyebarkan fungsi Lambda.
+ Membuat acara EventBridge terjadwal dan menjadikan fungsi Lambda sebagai target.
+ Memberikan izin untuk membiarkan EventBridge menjalankan fungsi Lambda.
+ Mencetak data terbaru dari CloudWatch Log untuk menampilkan hasil pemanggilan terjadwal.
+ Membersihkan semua sumber daya yang dibuat selama demo.
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/lambda#readme).   

**Layanan yang digunakan dalam contoh ini**
+ CloudWatch Log
+ DynamoDB
+ EventBridge
+ Lambda
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def lambda_handler(event, context):
    for record in event['Records']:
        process_message(record)
    print("done")

def process_message(record):
    try:
        message = record['Sns']['Message']
        print(f"Processed message {message}")
        # TODO; Process your record here
        
    except Exception as e:
        print("An error occurred")
        raise e
```

# Contoh Amazon SQS menggunakan SDK for Python (Boto3)
<a name="python_3_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon SQS. AWS SDK untuk Python (Boto3) 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CreateQueue`
<a name="sqs_CreateQueue_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def create_queue(name, attributes=None):
    """
    Creates an Amazon SQS queue.

    :param name: The name of the queue. This is part of the URL assigned to the queue.
    :param attributes: The attributes of the queue, such as maximum message size or
                       whether it's a FIFO queue.
    :return: A Queue object that contains metadata about the queue and that can be used
             to perform queue operations like sending and receiving messages.
    """
    if not attributes:
        attributes = {}

    try:
        queue = sqs.create_queue(QueueName=name, Attributes=attributes)
        logger.info("Created queue '%s' with URL=%s", name, queue.url)
    except ClientError as error:
        logger.exception("Couldn't create queue named '%s'.", name)
        raise error
    else:
        return queue
```

```
class SqsWrapper:
    """Wrapper class for managing Amazon SQS operations."""

    def __init__(self, sqs_client: Any) -> None:
        """
        Initialize the SqsWrapper.

        :param sqs_client: A Boto3 Amazon SQS client.
        """
        self.sqs_client = sqs_client

    @classmethod
    def from_client(cls) -> 'SqsWrapper':
        """
        Create an SqsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sqs_client = boto3.client('sqs')
        return cls(sqs_client)


    def create_queue(self, queue_name: str, is_fifo: bool = False) -> str:
        """
        Create an SQS queue.

        :param queue_name: The name of the queue to create.
        :param is_fifo: Whether to create a FIFO queue.
        :return: The URL of the created queue.
        :raises ClientError: If the queue creation fails.
        """
        try:
            # Add .fifo suffix for FIFO queues
            if is_fifo and not queue_name.endswith('.fifo'):
                queue_name += '.fifo'

            attributes = {}
            if is_fifo:
                attributes['FifoQueue'] = 'true'

            response = self.sqs_client.create_queue(
                QueueName=queue_name,
                Attributes=attributes
            )

            queue_url = response['QueueUrl']
            logger.info(f"Created queue: {queue_name} with URL: {queue_url}")
            return queue_url

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error creating queue {queue_name}: {error_code} - {e}")
            raise
```
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/CreateQueue)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteMessage`
<a name="sqs_DeleteMessage_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessage`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def delete_message(message):
    """
    Delete a message from a queue. Clients must delete messages after they
    are received and processed to remove them from the queue.

    :param message: The message to delete. The message's queue URL is contained in
                    the message's metadata.
    :return: None
    """
    try:
        message.delete()
        logger.info("Deleted message: %s", message.message_id)
    except ClientError as error:
        logger.exception("Couldn't delete message: %s", message.message_id)
        raise error
```
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteMessage)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteMessageBatch`
<a name="sqs_DeleteMessageBatch_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessageBatch`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def delete_messages(queue, messages):
    """
    Delete a batch of messages from a queue in a single request.

    :param queue: The queue from which to delete the messages.
    :param messages: The list of messages to delete.
    :return: The response from SQS that contains the list of successful and failed
             message deletions.
    """
    try:
        entries = [
            {"Id": str(ind), "ReceiptHandle": msg.receipt_handle}
            for ind, msg in enumerate(messages)
        ]
        response = queue.delete_messages(Entries=entries)
        if "Successful" in response:
            for msg_meta in response["Successful"]:
                logger.info("Deleted %s", messages[int(msg_meta["Id"])].receipt_handle)
        if "Failed" in response:
            for msg_meta in response["Failed"]:
                logger.warning(
                    "Could not delete %s", messages[int(msg_meta["Id"])].receipt_handle
                )
    except ClientError:
        logger.exception("Couldn't delete messages from queue %s", queue)
    else:
        return response
```

```
class SqsWrapper:
    """Wrapper class for managing Amazon SQS operations."""

    def __init__(self, sqs_client: Any) -> None:
        """
        Initialize the SqsWrapper.

        :param sqs_client: A Boto3 Amazon SQS client.
        """
        self.sqs_client = sqs_client

    @classmethod
    def from_client(cls) -> 'SqsWrapper':
        """
        Create an SqsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sqs_client = boto3.client('sqs')
        return cls(sqs_client)


    def delete_messages(self, queue_url: str, messages: List[Dict[str, Any]]) -> bool:
        """
        Delete messages from an SQS queue in batches.

        :param queue_url: The URL of the queue.
        :param messages: List of messages to delete.
        :return: True if successful.
        :raises ClientError: If deleting messages fails.
        """
        try:
            if not messages:
                return True

            # Build delete entries for batch delete
            delete_entries = []
            for i, message in enumerate(messages):
                delete_entries.append({
                    'Id': str(i),
                    'ReceiptHandle': message['ReceiptHandle']
                })

            # Delete messages in batches of 10 (SQS limit)
            batch_size = 10
            for i in range(0, len(delete_entries), batch_size):
                batch = delete_entries[i:i + batch_size]
                
                response = self.sqs_client.delete_message_batch(
                    QueueUrl=queue_url,
                    Entries=batch
                )

                # Check for failures
                if 'Failed' in response and response['Failed']:
                    for failed in response['Failed']:
                        logger.warning(f"Failed to delete message: {failed}")

            logger.info(f"Deleted {len(messages)} messages from {queue_url}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error deleting messages: {error_code} - {e}")
            raise
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteMessageBatch)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def remove_queue(queue):
    """
    Removes an SQS queue. When run against an AWS account, it can take up to
    60 seconds before the queue is actually deleted.

    :param queue: The queue to delete.
    :return: None
    """
    try:
        queue.delete()
        logger.info("Deleted queue with URL=%s.", queue.url)
    except ClientError as error:
        logger.exception("Couldn't delete queue with URL=%s!", queue.url)
        raise error
```

```
class SqsWrapper:
    """Wrapper class for managing Amazon SQS operations."""

    def __init__(self, sqs_client: Any) -> None:
        """
        Initialize the SqsWrapper.

        :param sqs_client: A Boto3 Amazon SQS client.
        """
        self.sqs_client = sqs_client

    @classmethod
    def from_client(cls) -> 'SqsWrapper':
        """
        Create an SqsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sqs_client = boto3.client('sqs')
        return cls(sqs_client)


    def delete_queue(self, queue_url: str) -> bool:
        """
        Delete an SQS queue.

        :param queue_url: The URL of the queue to delete.
        :return: True if successful.
        :raises ClientError: If the queue deletion fails.
        """
        try:
            self.sqs_client.delete_queue(QueueUrl=queue_url)
            
            logger.info(f"Deleted queue: {queue_url}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'AWS.SimpleQueueService.NonExistentQueue':
                logger.warning(f"Queue not found: {queue_url}")
                return True  # Already deleted
            else:
                logger.error(f"Error deleting queue: {error_code} - {e}")
                raise
```
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteQueue)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetQueueAttributes`
<a name="sqs_GetQueueAttributes_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueAttributes`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/topics_and_queues#code-examples). 

```
class SqsWrapper:
    """Wrapper class for managing Amazon SQS operations."""

    def __init__(self, sqs_client: Any) -> None:
        """
        Initialize the SqsWrapper.

        :param sqs_client: A Boto3 Amazon SQS client.
        """
        self.sqs_client = sqs_client

    @classmethod
    def from_client(cls) -> 'SqsWrapper':
        """
        Create an SqsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sqs_client = boto3.client('sqs')
        return cls(sqs_client)


    def get_queue_arn(self, queue_url: str) -> str:
        """
        Get the ARN of an SQS queue.

        :param queue_url: The URL of the queue.
        :return: The ARN of the queue.
        :raises ClientError: If getting queue attributes fails.
        """
        try:
            response = self.sqs_client.get_queue_attributes(
                QueueUrl=queue_url,
                AttributeNames=['QueueArn']
            )

            queue_arn = response['Attributes']['QueueArn']
            logger.info(f"Queue ARN for {queue_url}: {queue_arn}")
            return queue_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error getting queue ARN: {error_code} - {e}")
            raise
```
+  Untuk detail API, lihat [GetQueueAttributes](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/GetQueueAttributes)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetQueueUrl`
<a name="sqs_GetQueueUrl_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueUrl`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def get_queue(name):
    """
    Gets an SQS queue by name.

    :param name: The name that was used to create the queue.
    :return: A Queue object.
    """
    try:
        queue = sqs.get_queue_by_name(QueueName=name)
        logger.info("Got queue '%s' with URL=%s", name, queue.url)
    except ClientError as error:
        logger.exception("Couldn't get queue named %s.", name)
        raise error
    else:
        return queue
```
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/GetQueueUrl)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListQueues`
<a name="sqs_ListQueues_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def get_queues(prefix=None):
    """
    Gets a list of SQS queues. When a prefix is specified, only queues with names
    that start with the prefix are returned.

    :param prefix: The prefix used to restrict the list of returned queues.
    :return: A list of Queue objects.
    """
    if prefix:
        queue_iter = sqs.queues.filter(QueueNamePrefix=prefix)
    else:
        queue_iter = sqs.queues.all()
    queues = list(queue_iter)
    if queues:
        logger.info("Got queues: %s", ", ".join([q.url for q in queues]))
    else:
        logger.warning("No queues found.")
    return queues
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/ListQueues)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def receive_messages(queue, max_number, wait_time):
    """
    Receive a batch of messages in a single request from an SQS queue.

    :param queue: The queue from which to receive messages.
    :param max_number: The maximum number of messages to receive. The actual number
                       of messages received might be less.
    :param wait_time: The maximum time to wait (in seconds) before returning. When
                      this number is greater than zero, long polling is used. This
                      can result in reduced costs and fewer false empty responses.
    :return: The list of Message objects received. These each contain the body
             of the message and metadata and custom attributes.
    """
    try:
        messages = queue.receive_messages(
            MessageAttributeNames=["All"],
            MaxNumberOfMessages=max_number,
            WaitTimeSeconds=wait_time,
        )
        for msg in messages:
            logger.info("Received message: %s: %s", msg.message_id, msg.body)
    except ClientError as error:
        logger.exception("Couldn't receive messages from queue: %s", queue)
        raise error
    else:
        return messages
```

```
class SqsWrapper:
    """Wrapper class for managing Amazon SQS operations."""

    def __init__(self, sqs_client: Any) -> None:
        """
        Initialize the SqsWrapper.

        :param sqs_client: A Boto3 Amazon SQS client.
        """
        self.sqs_client = sqs_client

    @classmethod
    def from_client(cls) -> 'SqsWrapper':
        """
        Create an SqsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sqs_client = boto3.client('sqs')
        return cls(sqs_client)


    def receive_messages(self, queue_url: str, max_messages: int = 10) -> List[Dict[str, Any]]:
        """
        Receive messages from an SQS queue.

        :param queue_url: The URL of the queue to receive messages from.
        :param max_messages: Maximum number of messages to receive (1-10).
        :return: List of received messages.
        :raises ClientError: If receiving messages fails.
        """
        try:
            # Ensure max_messages is within valid range
            max_messages = max(1, min(10, max_messages))

            response = self.sqs_client.receive_message(
                QueueUrl=queue_url,
                MaxNumberOfMessages=max_messages,
                WaitTimeSeconds=2,  # Short polling
                MessageAttributeNames=['All']
            )

            messages = response.get('Messages', [])
            logger.info(f"Received {len(messages)} messages from {queue_url}")
            return messages

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error receiving messages: {error_code} - {e}")
            raise
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/ReceiveMessage)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SendMessage`
<a name="sqs_SendMessage_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def send_message(queue, message_body, message_attributes=None):
    """
    Send a message to an Amazon SQS queue.

    :param queue: The queue that receives the message.
    :param message_body: The body text of the message.
    :param message_attributes: Custom attributes of the message. These are key-value
                               pairs that can be whatever you want.
    :return: The response from SQS that contains the assigned message ID.
    """
    if not message_attributes:
        message_attributes = {}

    try:
        response = queue.send_message(
            MessageBody=message_body, MessageAttributes=message_attributes
        )
    except ClientError as error:
        logger.exception("Send message failed: %s", message_body)
        raise error
    else:
        return response
```
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/SendMessage)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SendMessageBatch`
<a name="sqs_SendMessageBatch_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessageBatch`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 

```
def send_messages(queue, messages):
    """
    Send a batch of messages in a single request to an SQS queue.
    This request may return overall success even when some messages were not sent.
    The caller must inspect the Successful and Failed lists in the response and
    resend any failed messages.

    :param queue: The queue to receive the messages.
    :param messages: The messages to send to the queue. These are simplified to
                     contain only the message body and attributes.
    :return: The response from SQS that contains the list of successful and failed
             messages.
    """
    try:
        entries = [
            {
                "Id": str(ind),
                "MessageBody": msg["body"],
                "MessageAttributes": msg["attributes"],
            }
            for ind, msg in enumerate(messages)
        ]
        response = queue.send_messages(Entries=entries)
        if "Successful" in response:
            for msg_meta in response["Successful"]:
                logger.info(
                    "Message sent: %s: %s",
                    msg_meta["MessageId"],
                    messages[int(msg_meta["Id"])]["body"],
                )
        if "Failed" in response:
            for msg_meta in response["Failed"]:
                logger.warning(
                    "Failed to send: %s: %s",
                    msg_meta["MessageId"],
                    messages[int(msg_meta["Id"])]["body"],
                )
    except ClientError as error:
        logger.exception("Send messages failed to queue: %s", queue)
        raise error
    else:
        return response
```
+  Untuk detail API, lihat [SendMessageBatch](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/SendMessageBatch)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SetQueueAttributes`
<a name="sqs_SetQueueAttributes_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetQueueAttributes`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/topics_and_queues#code-examples). 
Tetapkan atribut kebijakan antrian untuk topik.  

```
class SqsWrapper:
    """Wrapper class for managing Amazon SQS operations."""

    def __init__(self, sqs_client: Any) -> None:
        """
        Initialize the SqsWrapper.

        :param sqs_client: A Boto3 Amazon SQS client.
        """
        self.sqs_client = sqs_client

    @classmethod
    def from_client(cls) -> 'SqsWrapper':
        """
        Create an SqsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sqs_client = boto3.client('sqs')
        return cls(sqs_client)


    def set_queue_policy_for_topic(self, queue_arn: str, topic_arn: str, queue_url: str) -> bool:
        """
        Set the queue policy to allow SNS to send messages to the queue.

        :param queue_arn: The ARN of the SQS queue.
        :param topic_arn: The ARN of the SNS topic.
        :param queue_url: The URL of the SQS queue.
        :return: True if successful.
        :raises ClientError: If setting the queue policy fails.
        """
        try:
            # Create policy that allows SNS to send messages to the queue
            policy = {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "sns.amazonaws.com"
                        },
                        "Action": "sqs:SendMessage",
                        "Resource": queue_arn,
                        "Condition": {
                            "ArnEquals": {
                                "aws:SourceArn": topic_arn
                            }
                        }
                    }
                ]
            }

            self.sqs_client.set_queue_attributes(
                QueueUrl=queue_url,
                Attributes={
                    'Policy': json.dumps(policy)
                }
            )

            logger.info(f"Set queue policy for {queue_url} to allow messages from {topic_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error setting queue policy: {error_code} - {e}")
            raise
```
+  Untuk detail API, lihat [SetQueueAttributes](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/SetQueueAttributes)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi messenger
<a name="cross_StepFunctionsMessenger_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi AWS Step Functions messenger yang mengambil catatan pesan dari tabel database.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) with AWS Step Functions untuk membuat aplikasi messenger yang mengambil catatan pesan dari tabel Amazon DynamoDB dan mengirimkannya dengan Amazon Simple Queue Service (Amazon SQS). Mesin state terintegrasi dengan AWS Lambda fungsi untuk memindai database untuk pesan yang tidak terkirim.   
+ Buat mesin status yang mengambil dan memperbarui catatan pesan dari tabel Amazon DynamoDB.
+ Perbarui definisi mesin status untuk mengirim pesan ke Amazon Simple Queue Service (Amazon SQS).
+ Mulai dan hentikan berjalannya mesin status.
+ Terhubung ke Lambda, DynamoDB, dan Amazon SQS dari mesin status menggunakan integrasi layanan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/stepfunctions_messenger).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda
+ Amazon SQS
+ Step Functions

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan Amazon Textract untuk mendeteksi elemen teks, formulir, dan tabel dalam gambar dokumen. AWS SDK untuk Python (Boto3) Gambar input dan output Amazon Textract ditampilkan dalam aplikasi Tkinter yang memungkinkan Anda menjelajahi elemen yang terdeteksi.   
+ Kirim gambar dokumen ke Amazon Textract dan jelajahi output elemen yang terdeteksi.
+ Kirim gambar langsung ke Amazon Textract atau melalui bucket Amazon Simple Storage Service (Amazon S3).
+ Gunakan asinkron APIs untuk memulai pekerjaan yang menerbitkan pemberitahuan ke topik Simple Notification Service Amazon (Amazon SNS) saat pekerjaan selesai.
+ Lakukan polling pada antrean Amazon Simple Queue Service (Amazon SQS) untuk mendapatkan pesan penyelesaian tugas dan tampilkan hasilnya.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_explorer).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

### Membuat dan mempublikasikan ke topik FIFO
<a name="sns_PublishFifoTopic_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mempublikasikan ke topik FIFO Amazon SNS.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sns#code-examples). 
Buat topik Amazon SNS FIFO, berlangganan Amazon SQS FIFO dan antrian standar ke topik tersebut, dan publikasikan pesan ke topik tersebut.  

```
def usage_demo():
    """Shows how to subscribe queues to a FIFO topic."""
    print("-" * 88)
    print("Welcome to the `Subscribe queues to a FIFO topic` demo!")
    print("-" * 88)

    sns = boto3.resource("sns")
    sqs = boto3.resource("sqs")
    fifo_topic_wrapper = FifoTopicWrapper(sns)
    sns_wrapper = SnsWrapper(sns)

    prefix = "sqs-subscribe-demo-"
    queues = set()
    subscriptions = set()

    wholesale_queue = sqs.create_queue(
        QueueName=prefix + "wholesale.fifo",
        Attributes={
            "MaximumMessageSize": str(4096),
            "ReceiveMessageWaitTimeSeconds": str(10),
            "VisibilityTimeout": str(300),
            "FifoQueue": str(True),
            "ContentBasedDeduplication": str(True),
        },
    )
    queues.add(wholesale_queue)
    print(f"Created FIFO queue with URL: {wholesale_queue.url}.")

    retail_queue = sqs.create_queue(
        QueueName=prefix + "retail.fifo",
        Attributes={
            "MaximumMessageSize": str(4096),
            "ReceiveMessageWaitTimeSeconds": str(10),
            "VisibilityTimeout": str(300),
            "FifoQueue": str(True),
            "ContentBasedDeduplication": str(True),
        },
    )
    queues.add(retail_queue)
    print(f"Created FIFO queue with URL: {retail_queue.url}.")

    analytics_queue = sqs.create_queue(QueueName=prefix + "analytics", Attributes={})
    queues.add(analytics_queue)
    print(f"Created standard queue with URL: {analytics_queue.url}.")

    topic = fifo_topic_wrapper.create_fifo_topic("price-updates-topic.fifo")
    print(f"Created FIFO topic: {topic.attributes['TopicArn']}.")

    for q in queues:
        fifo_topic_wrapper.add_access_policy(q, topic.attributes["TopicArn"])

    print(f"Added access policies for topic: {topic.attributes['TopicArn']}.")

    for q in queues:
        sub = fifo_topic_wrapper.subscribe_queue_to_topic(
            topic, q.attributes["QueueArn"]
        )
        subscriptions.add(sub)

    print(f"Subscribed queues to topic: {topic.attributes['TopicArn']}.")

    input("Press Enter to publish a message to the topic.")

    message_id = fifo_topic_wrapper.publish_price_update(
        topic, '{"product": 214, "price": 79.99}', "Consumables"
    )

    print(f"Published price update with message ID: {message_id}.")

    # Clean up the subscriptions, queues, and topic.
    input("Press Enter to clean up resources.")
    for s in subscriptions:
        sns_wrapper.delete_subscription(s)

    sns_wrapper.delete_topic(topic)

    for q in queues:
        fifo_topic_wrapper.delete_queue(q)

    print(f"Deleted subscriptions, queues, and topic.")

    print("Thanks for watching!")
    print("-" * 88)



class FifoTopicWrapper:
    """Encapsulates Amazon SNS FIFO topic and subscription functions."""

    def __init__(self, sns_resource):
        """
        :param sns_resource: A Boto3 Amazon SNS resource.
        """
        self.sns_resource = sns_resource

    def create_fifo_topic(self, topic_name):
        """
        Create a FIFO topic.
        Topic names must be made up of only uppercase and lowercase ASCII letters,
        numbers, underscores, and hyphens, and must be between 1 and 256 characters long.
        For a FIFO topic, the name must end with the .fifo suffix.

        :param topic_name: The name for the topic.
        :return: The new topic.
        """
        try:
            topic = self.sns_resource.create_topic(
                Name=topic_name,
                Attributes={
                    "FifoTopic": str(True),
                    "ContentBasedDeduplication": str(False),
                    "FifoThroughputScope": "MessageGroup",
                },
            )
            logger.info("Created FIFO topic with name=%s.", topic_name)
            return topic
        except ClientError as error:
            logger.exception("Couldn't create topic with name=%s!", topic_name)
            raise error


    @staticmethod
    def add_access_policy(queue, topic_arn):
        """
        Add the necessary access policy to a queue, so
        it can receive messages from a topic.

        :param queue: The queue resource.
        :param topic_arn: The ARN of the topic.
        :return: None.
        """
        try:
            queue.set_attributes(
                Attributes={
                    "Policy": json.dumps(
                        {
                            "Version":"2012-10-17",		 	 	 
                            "Statement": [
                                {
                                    "Sid": "test-sid",
                                    "Effect": "Allow",
                                    "Principal": {"AWS": "*"},
                                    "Action": "SQS:SendMessage",
                                    "Resource": queue.attributes["QueueArn"],
                                    "Condition": {
                                        "ArnLike": {"aws:SourceArn": topic_arn}
                                    },
                                }
                            ],
                        }
                    )
                }
            )
            logger.info("Added trust policy to the queue.")
        except ClientError as error:
            logger.exception("Couldn't add trust policy to the queue!")
            raise error


    @staticmethod
    def subscribe_queue_to_topic(topic, queue_arn):
        """
        Subscribe a queue to a topic.

        :param topic: The topic resource.
        :param queue_arn: The ARN of the queue.
        :return: The subscription resource.
        """
        try:
            subscription = topic.subscribe(
                Protocol="sqs",
                Endpoint=queue_arn,
            )
            logger.info("The queue is subscribed to the topic.")
            return subscription
        except ClientError as error:
            logger.exception("Couldn't subscribe queue to topic!")
            raise error


    @staticmethod
    def publish_price_update(topic, payload, group_id):
        """
        Compose and publish a message that updates the wholesale price.

        :param topic: The topic to publish to.
        :param payload: The message to publish.
        :param group_id: The group ID for the message.
        :return: The ID of the message.
        """
        try:
            att_dict = {"business": {"DataType": "String", "StringValue": "wholesale"}}
            dedup_id = uuid.uuid4()
            response = topic.publish(
                Subject="Price Update",
                Message=payload,
                MessageAttributes=att_dict,
                MessageGroupId=group_id,
                MessageDeduplicationId=str(dedup_id),
            )
            message_id = response["MessageId"]
            logger.info("Published message to topic %s.", topic.arn)
        except ClientError as error:
            logger.exception("Couldn't publish message to topic %s.", topic.arn)
            raise error
        return message_id


    @staticmethod
    def delete_queue(queue):
        """
        Removes an SQS queue. When run against an AWS account, it can take up to
        60 seconds before the queue is actually deleted.

        :param queue: The queue to delete.
        :return: None
        """
        try:
            queue.delete()
            logger.info("Deleted queue with URL=%s.", queue.url)
        except ClientError as error:
            logger.exception("Couldn't delete queue with URL=%s!", queue.url)
            raise error
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateTopic](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/CreateTopic)
  + [Publikasikan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Publish)
  + [Berlangganan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Subscribe)

### Mendeteksi orang dan objek dalam video
<a name="cross_RekognitionVideoDetection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendeteksi orang dan objek dalam video dengan Amazon Rekognition.

**SDK untuk Python (Boto3)**  
 Gunakan Amazon Rekognition untuk mendeteksi wajah, objek, dan orang dalam video dengan memulai tugas deteksi asinkron. Contoh ini juga mengonfigurasi Amazon Rekognition untuk memberi tahu topik Amazon Simple Notification Service (Amazon SNS) saat pekerjaan selesai dan berlangganan antrian Amazon Simple Queue Service (Amazon SQS) ke topik tersebut. Ketika antrian menerima pesan tentang pekerjaan, pekerjaan diambil dan hasilnya adalah output.   
 Contoh ini paling baik dilihat di GitHub. Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/rekognition).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3
+ Amazon SES
+ Amazon SNS
+ Amazon SQS

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/topics_and_queues#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class TopicsAndQueuesScenario:
    """Manages the Topics and Queues feature scenario."""

    DASHES = "-" * 80

    def __init__(self, sns_wrapper: SnsWrapper, sqs_wrapper: SqsWrapper) -> None:
        """
        Initialize the Topics and Queues scenario.

        :param sns_wrapper: SnsWrapper instance for SNS operations.
        :param sqs_wrapper: SqsWrapper instance for SQS operations.
        """
        self.sns_wrapper = sns_wrapper
        self.sqs_wrapper = sqs_wrapper
        
        # Scenario state
        self.use_fifo_topic = False
        self.use_content_based_deduplication = False
        self.topic_name = None
        self.topic_arn = None
        self.queue_count = 2
        self.queue_urls = []
        self.subscription_arns = []
        self.tones = ["cheerful", "funny", "serious", "sincere"]

    def run_scenario(self) -> None:
        """Run the Topics and Queues feature scenario."""
        print(self.DASHES)
        print("Welcome to messaging with topics and queues.")
        print(self.DASHES)
        print(f"""
    In this scenario, you will create an SNS topic and subscribe {self.queue_count} SQS queues to the topic.
    You can select from several options for configuring the topic and the subscriptions for the queues.
    You can then post to the topic and see the results in the queues.
        """)

        try:
            # Setup Phase
            print(self.DASHES)
            self._setup_topic()
            print(self.DASHES)

            self._setup_queues()
            print(self.DASHES)

            # Demonstration Phase
            self._publish_messages()
            print(self.DASHES)

            # Examination Phase
            self._poll_queues_for_messages()
            print(self.DASHES)

            # Cleanup Phase
            self._cleanup_resources()
            print(self.DASHES)

        except Exception as e:
            logger.error(f"Scenario failed: {e}")
            print(f"There was a problem with the scenario: {e}")
            print("\nInitiating cleanup...")
            try:
                self._cleanup_resources()
            except Exception as cleanup_error:
                logger.error(f"Error during cleanup: {cleanup_error}")

        print("Messaging with topics and queues scenario is complete.")
        print(self.DASHES)

    def _setup_topic(self) -> None:
        """Set up the SNS topic to be used with the queues."""
        print("SNS topics can be configured as FIFO (First-In-First-Out).")
        print("FIFO topics deliver messages in order and support deduplication and message filtering.")
        print()

        self.use_fifo_topic = q.ask("Would you like to work with FIFO topics? (y/n): ", q.is_yesno)

        if self.use_fifo_topic:
            print(self.DASHES)
            self.topic_name = q.ask("Enter a name for your SNS topic: ", q.non_empty)
            print("Because you have selected a FIFO topic, '.fifo' must be appended to the topic name.")
            print()

            print(self.DASHES)
            print("""
    Because you have chosen a FIFO topic, deduplication is supported.
    Deduplication IDs are either set in the message or automatically generated 
    from content using a hash function.
    
    If a message is successfully published to an SNS FIFO topic, any message 
    published and determined to have the same deduplication ID, 
    within the five-minute deduplication interval, is accepted but not delivered.
    
    For more information about deduplication, 
    see https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.
            """)

            self.use_content_based_deduplication = q.ask(
                "Use content-based deduplication instead of entering a deduplication ID? (y/n): ", 
                q.is_yesno
            )
        else:
            self.topic_name = q.ask("Enter a name for your SNS topic: ", q.non_empty)

        print(self.DASHES)

        # Create the topic
        self.topic_arn = self.sns_wrapper.create_topic(
            self.topic_name, 
            self.use_fifo_topic, 
            self.use_content_based_deduplication
        )

        print(f"Your new topic with the name {self.topic_name}")
        print(f"  and Amazon Resource Name (ARN) {self.topic_arn}")
        print(f"  has been created.")
        print()

    def _setup_queues(self) -> None:
        """Set up the SQS queues and subscribe them to the topic."""
        print(f"Now you will create {self.queue_count} Amazon Simple Queue Service (Amazon SQS) queues to subscribe to the topic.")

        for i in range(self.queue_count):
            queue_name = q.ask(f"Enter a name for SQS queue #{i+1}: ", q.non_empty)
            
            if self.use_fifo_topic and i == 0:
                print("Because you have selected a FIFO topic, '.fifo' must be appended to the queue name.")

            # Create the queue
            queue_url = self.sqs_wrapper.create_queue(queue_name, self.use_fifo_topic)
            self.queue_urls.append(queue_url)

            print(f"Your new queue with the name {queue_name}")
            print(f"  and queue URL {queue_url}")
            print(f"  has been created.")
            print()

            if i == 0:
                print("The queue URL is used to retrieve the queue ARN,")
                print("which is used to create a subscription.")
                print(self.DASHES)

            # Get queue ARN
            queue_arn = self.sqs_wrapper.get_queue_arn(queue_url)

            if i == 0:
                print("An AWS Identity and Access Management (IAM) policy must be attached to an SQS queue,")
                print("enabling it to receive messages from an SNS topic.")

            # Set queue policy to allow SNS to send messages
            self.sqs_wrapper.set_queue_policy_for_topic(queue_arn, self.topic_arn, queue_url)

            # Set up message filtering if using FIFO
            subscription_arn = self._setup_subscription_with_filter(i, queue_arn, queue_name)
            self.subscription_arns.append(subscription_arn)

    def _setup_subscription_with_filter(self, queue_index: int, queue_arn: str, queue_name: str) -> str:
        """Set up subscription with optional message filtering."""
        filter_policy = None
        
        if self.use_fifo_topic:
            print(self.DASHES)
            if queue_index == 0:
                print("Subscriptions to a FIFO topic can have filters.")
                print("If you add a filter to this subscription, then only the filtered messages")
                print("will be received in the queue.")
                print()
                print("For information about message filtering,")
                print("see https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html")
                print()
                print("For this example, you can filter messages by a TONE attribute.")

            use_filter = q.ask(f"Filter messages for {queue_name}'s subscription to the topic? (y/n): ", q.is_yesno)
            
            if use_filter:
                filter_policy = self._create_filter_policy()

        subscription_arn = self.sns_wrapper.subscribe_queue_to_topic(
            self.topic_arn, queue_arn, filter_policy
        )

        print(f"The queue {queue_name} has been subscribed to the topic {self.topic_name}")
        print(f"  with the subscription ARN {subscription_arn}")

        return subscription_arn

    def _create_filter_policy(self) -> str:
        """Create a message filter policy based on user selections."""
        print(self.DASHES)
        print("You can filter messages by one or more of the following TONE attributes.")

        filter_selections = []
        selection_number = 0

        while True:
            print("Enter a number to add a TONE filter, or enter 0 to stop adding filters.")
            for i, tone in enumerate(self.tones, 1):
                print(f"  {i}. {tone}")

            selection = q.ask("Your choice: ", q.is_int, q.in_range(0, len(self.tones)))
            
            if selection == 0:
                break
            elif selection > 0 and self.tones[selection - 1] not in filter_selections:
                filter_selections.append(self.tones[selection - 1])
                print(f"Added '{self.tones[selection - 1]}' to filter list.")

        if filter_selections:
            filters = {"tone": filter_selections}
            return json.dumps(filters)
        return None

    def _publish_messages(self) -> None:
        """Publish messages to the topic with various options."""
        print("Now we can publish messages.")

        keep_sending = True
        while keep_sending:
            print()
            message = q.ask("Enter a message to publish: ", q.non_empty)

            message_group_id = None
            deduplication_id = None
            tone_attribute = None

            if self.use_fifo_topic:
                print("Because you are using a FIFO topic, you must set a message group ID.")
                print("All messages within the same group will be received in the order they were published.")
                print()
                message_group_id = q.ask("Enter a message group ID for this message: ", q.non_empty)

                if not self.use_content_based_deduplication:
                    print("Because you are not using content-based deduplication,")
                    print("you must enter a deduplication ID.")
                    deduplication_id = q.ask("Enter a deduplication ID for this message: ", q.non_empty)

                # Ask about tone attribute
                add_attribute = q.ask("Add an attribute to this message? (y/n): ", q.is_yesno)
                if add_attribute:
                    print("Enter a number for an attribute:")
                    for i, tone in enumerate(self.tones, 1):
                        print(f"  {i}. {tone}")
                    
                    selection = q.ask("Your choice: ", q.is_int, q.in_range(1, len(self.tones)))
                    if 1 <= selection <= len(self.tones):
                        tone_attribute = self.tones[selection - 1]

            # Publish the message
            message_id = self.sns_wrapper.publish_message(
                self.topic_arn,
                message,
                tone_attribute,
                deduplication_id,
                message_group_id
            )

            print(f"Message published with ID: {message_id}")

            keep_sending = q.ask("Send another message? (y/n): ", q.is_yesno)

    def _poll_queues_for_messages(self) -> None:
        """Poll all queues for messages and display results."""
        for i, queue_url in enumerate(self.queue_urls):
            print(f"Polling queue #{i+1} at {queue_url} for messages...")
            
            q.ask("Press Enter to continue...")

            messages = self._poll_queue_for_messages(queue_url)
            
            if messages:
                print(f"{len(messages)} message(s) were received by queue #{i+1}")
                for j, message in enumerate(messages, 1):
                    print(f"  Message {j}:")
                    # Parse the SNS message body to get the actual message
                    try:
                        sns_message = json.loads(message['Body'])
                        actual_message = sns_message.get('Message', message['Body'])
                        print(f"    {actual_message}")
                    except (json.JSONDecodeError, KeyError):
                        print(f"    {message['Body']}")

                # Delete the messages
                self.sqs_wrapper.delete_messages(queue_url, messages)
                print(f"Messages deleted from queue #{i+1}")
            else:
                print(f"No messages received by queue #{i+1}")
            
            print(self.DASHES)

    def _poll_queue_for_messages(self, queue_url: str) -> List[Dict[str, Any]]:
        """Poll a single queue for messages."""
        all_messages = []
        max_polls = 3  # Limit polling to avoid infinite loops
        
        for poll_count in range(max_polls):
            messages = self.sqs_wrapper.receive_messages(queue_url, 10)
            
            if messages:
                all_messages.extend(messages)
                print(f"  Received {len(messages)} messages in poll {poll_count + 1}")
                # Small delay between polls
                time.sleep(1)
            else:
                print(f"  No messages in poll {poll_count + 1}")
                break
                
        return all_messages

    def _cleanup_resources(self) -> None:
        """Clean up all resources created during the scenario."""
        print("Cleaning up resources...")

        # Delete queues
        for i, queue_url in enumerate(self.queue_urls):
            if queue_url:
                delete_queue = q.ask(f"Delete queue #{i+1} with URL {queue_url}? (y/n): ", q.is_yesno)
                if delete_queue:
                    try:
                        self.sqs_wrapper.delete_queue(queue_url)
                        print(f"Deleted queue #{i+1}")
                    except Exception as e:
                        print(f"Error deleting queue #{i+1}: {e}")

        # Unsubscribe from topic
        for i, subscription_arn in enumerate(self.subscription_arns):
            if subscription_arn:
                try:
                    self.sns_wrapper.unsubscribe(subscription_arn)
                    print(f"Unsubscribed subscription #{i+1}")
                except Exception as e:
                    print(f"Error unsubscribing #{i+1}: {e}")

        # Delete topic
        if self.topic_arn:
            delete_topic = q.ask(f"Delete topic {self.topic_name}? (y/n): ", q.is_yesno)
            if delete_topic:
                try:
                    self.sns_wrapper.delete_topic(self.topic_arn)
                    print(f"Deleted topic {self.topic_name}")
                except Exception as e:
                    print(f"Error deleting topic: {e}")

        print("Resource cleanup complete.")
```
Buat kelas yang membungkus operasi Amazon SNS dan Amazon SQS untuk digunakan dalam skenario.  

```
class SnsWrapper:
    """Wrapper class for managing Amazon SNS operations."""

    def __init__(self, sns_client: Any) -> None:
        """
        Initialize the SnsWrapper.

        :param sns_client: A Boto3 Amazon SNS client.
        """
        self.sns_client = sns_client

    @classmethod
    def from_client(cls) -> 'SnsWrapper':
        """
        Create an SnsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sns_client = boto3.client('sns')
        return cls(sns_client)


    def create_topic(
        self, 
        topic_name: str, 
        is_fifo: bool = False, 
        content_based_deduplication: bool = False
    ) -> str:
        """
        Create an SNS topic.

        :param topic_name: The name of the topic to create.
        :param is_fifo: Whether to create a FIFO topic.
        :param content_based_deduplication: Whether to use content-based deduplication for FIFO topics.
        :return: The ARN of the created topic.
        :raises ClientError: If the topic creation fails.
        """
        try:
            # Add .fifo suffix for FIFO topics
            if is_fifo and not topic_name.endswith('.fifo'):
                topic_name += '.fifo'

            attributes = {}
            if is_fifo:
                attributes['FifoTopic'] = 'true'
                if content_based_deduplication:
                    attributes['ContentBasedDeduplication'] = 'true'

            response = self.sns_client.create_topic(
                Name=topic_name,
                Attributes=attributes
            )

            topic_arn = response['TopicArn']
            logger.info(f"Created topic: {topic_name} with ARN: {topic_arn}")
            return topic_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error creating topic {topic_name}: {error_code} - {e}")
            raise


    def subscribe_queue_to_topic(
        self, 
        topic_arn: str, 
        queue_arn: str, 
        filter_policy: Optional[str] = None
    ) -> str:
        """
        Subscribe an SQS queue to an SNS topic.

        :param topic_arn: The ARN of the SNS topic.
        :param queue_arn: The ARN of the SQS queue.
        :param filter_policy: Optional JSON filter policy for message filtering.
        :return: The ARN of the subscription.
        :raises ClientError: If the subscription fails.
        """
        try:
            attributes = {}
            if filter_policy:
                attributes['FilterPolicy'] = filter_policy

            response = self.sns_client.subscribe(
                TopicArn=topic_arn,
                Protocol='sqs',
                Endpoint=queue_arn,
                Attributes=attributes
            )

            subscription_arn = response['SubscriptionArn']
            logger.info(f"Subscribed queue {queue_arn} to topic {topic_arn}")
            return subscription_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error subscribing queue to topic: {error_code} - {e}")
            raise


    def publish_message(
        self,
        topic_arn: str,
        message: str,
        tone_attribute: Optional[str] = None,
        deduplication_id: Optional[str] = None,
        message_group_id: Optional[str] = None
    ) -> str:
        """
        Publish a message to an SNS topic.

        :param topic_arn: The ARN of the SNS topic.
        :param message: The message content to publish.
        :param tone_attribute: Optional tone attribute for message filtering.
        :param deduplication_id: Optional deduplication ID for FIFO topics.
        :param message_group_id: Optional message group ID for FIFO topics.
        :return: The message ID of the published message.
        :raises ClientError: If the message publication fails.
        """
        try:
            publish_args = {
                'TopicArn': topic_arn,
                'Message': message
            }

            # Add message attributes if tone is specified
            if tone_attribute:
                publish_args['MessageAttributes'] = {
                    'tone': {
                        'DataType': 'String',
                        'StringValue': tone_attribute
                    }
                }

            # Add FIFO-specific parameters
            if message_group_id:
                publish_args['MessageGroupId'] = message_group_id

            if deduplication_id:
                publish_args['MessageDeduplicationId'] = deduplication_id

            response = self.sns_client.publish(**publish_args)

            message_id = response['MessageId']
            logger.info(f"Published message to topic {topic_arn} with ID: {message_id}")
            return message_id

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error publishing message to topic: {error_code} - {e}")
            raise


    def unsubscribe(self, subscription_arn: str) -> bool:
        """
        Unsubscribe from an SNS topic.

        :param subscription_arn: The ARN of the subscription to remove.
        :return: True if successful.
        :raises ClientError: If the unsubscribe operation fails.
        """
        try:
            self.sns_client.unsubscribe(SubscriptionArn=subscription_arn)
            
            logger.info(f"Unsubscribed: {subscription_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'NotFound':
                logger.warning(f"Subscription not found: {subscription_arn}")
                return True  # Already unsubscribed
            else:
                logger.error(f"Error unsubscribing: {error_code} - {e}")
                raise


    def delete_topic(self, topic_arn: str) -> bool:
        """
        Delete an SNS topic.

        :param topic_arn: The ARN of the topic to delete.
        :return: True if successful.
        :raises ClientError: If the topic deletion fails.
        """
        try:
            self.sns_client.delete_topic(TopicArn=topic_arn)
            
            logger.info(f"Deleted topic: {topic_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'NotFound':
                logger.warning(f"Topic not found: {topic_arn}")
                return True  # Already deleted
            else:
                logger.error(f"Error deleting topic: {error_code} - {e}")
                raise


    def list_topics(self) -> list:
        """
        List all SNS topics in the account using pagination.

        :return: List of topic ARNs.
        :raises ClientError: If listing topics fails.
        """
        try:
            topics = []
            paginator = self.sns_client.get_paginator('list_topics')
            
            for page in paginator.paginate():
                topics.extend([topic['TopicArn'] for topic in page.get('Topics', [])])
            
            logger.info(f"Found {len(topics)} topics")
            return topics

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            if error_code == 'AuthorizationError':
                logger.error("Authorization error listing topics - check IAM permissions")
            else:
                logger.error(f"Error listing topics: {error_code} - {e}")
            raise


class SqsWrapper:
    """Wrapper class for managing Amazon SQS operations."""

    def __init__(self, sqs_client: Any) -> None:
        """
        Initialize the SqsWrapper.

        :param sqs_client: A Boto3 Amazon SQS client.
        """
        self.sqs_client = sqs_client

    @classmethod
    def from_client(cls) -> 'SqsWrapper':
        """
        Create an SqsWrapper instance using a default boto3 client.

        :return: An instance of this class.
        """
        sqs_client = boto3.client('sqs')
        return cls(sqs_client)


    def create_queue(self, queue_name: str, is_fifo: bool = False) -> str:
        """
        Create an SQS queue.

        :param queue_name: The name of the queue to create.
        :param is_fifo: Whether to create a FIFO queue.
        :return: The URL of the created queue.
        :raises ClientError: If the queue creation fails.
        """
        try:
            # Add .fifo suffix for FIFO queues
            if is_fifo and not queue_name.endswith('.fifo'):
                queue_name += '.fifo'

            attributes = {}
            if is_fifo:
                attributes['FifoQueue'] = 'true'

            response = self.sqs_client.create_queue(
                QueueName=queue_name,
                Attributes=attributes
            )

            queue_url = response['QueueUrl']
            logger.info(f"Created queue: {queue_name} with URL: {queue_url}")
            return queue_url

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error creating queue {queue_name}: {error_code} - {e}")
            raise


    def get_queue_arn(self, queue_url: str) -> str:
        """
        Get the ARN of an SQS queue.

        :param queue_url: The URL of the queue.
        :return: The ARN of the queue.
        :raises ClientError: If getting queue attributes fails.
        """
        try:
            response = self.sqs_client.get_queue_attributes(
                QueueUrl=queue_url,
                AttributeNames=['QueueArn']
            )

            queue_arn = response['Attributes']['QueueArn']
            logger.info(f"Queue ARN for {queue_url}: {queue_arn}")
            return queue_arn

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error getting queue ARN: {error_code} - {e}")
            raise


    def set_queue_policy_for_topic(self, queue_arn: str, topic_arn: str, queue_url: str) -> bool:
        """
        Set the queue policy to allow SNS to send messages to the queue.

        :param queue_arn: The ARN of the SQS queue.
        :param topic_arn: The ARN of the SNS topic.
        :param queue_url: The URL of the SQS queue.
        :return: True if successful.
        :raises ClientError: If setting the queue policy fails.
        """
        try:
            # Create policy that allows SNS to send messages to the queue
            policy = {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Principal": {
                            "Service": "sns.amazonaws.com"
                        },
                        "Action": "sqs:SendMessage",
                        "Resource": queue_arn,
                        "Condition": {
                            "ArnEquals": {
                                "aws:SourceArn": topic_arn
                            }
                        }
                    }
                ]
            }

            self.sqs_client.set_queue_attributes(
                QueueUrl=queue_url,
                Attributes={
                    'Policy': json.dumps(policy)
                }
            )

            logger.info(f"Set queue policy for {queue_url} to allow messages from {topic_arn}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error setting queue policy: {error_code} - {e}")
            raise


    def receive_messages(self, queue_url: str, max_messages: int = 10) -> List[Dict[str, Any]]:
        """
        Receive messages from an SQS queue.

        :param queue_url: The URL of the queue to receive messages from.
        :param max_messages: Maximum number of messages to receive (1-10).
        :return: List of received messages.
        :raises ClientError: If receiving messages fails.
        """
        try:
            # Ensure max_messages is within valid range
            max_messages = max(1, min(10, max_messages))

            response = self.sqs_client.receive_message(
                QueueUrl=queue_url,
                MaxNumberOfMessages=max_messages,
                WaitTimeSeconds=2,  # Short polling
                MessageAttributeNames=['All']
            )

            messages = response.get('Messages', [])
            logger.info(f"Received {len(messages)} messages from {queue_url}")
            return messages

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error receiving messages: {error_code} - {e}")
            raise


    def delete_messages(self, queue_url: str, messages: List[Dict[str, Any]]) -> bool:
        """
        Delete messages from an SQS queue in batches.

        :param queue_url: The URL of the queue.
        :param messages: List of messages to delete.
        :return: True if successful.
        :raises ClientError: If deleting messages fails.
        """
        try:
            if not messages:
                return True

            # Build delete entries for batch delete
            delete_entries = []
            for i, message in enumerate(messages):
                delete_entries.append({
                    'Id': str(i),
                    'ReceiptHandle': message['ReceiptHandle']
                })

            # Delete messages in batches of 10 (SQS limit)
            batch_size = 10
            for i in range(0, len(delete_entries), batch_size):
                batch = delete_entries[i:i + batch_size]
                
                response = self.sqs_client.delete_message_batch(
                    QueueUrl=queue_url,
                    Entries=batch
                )

                # Check for failures
                if 'Failed' in response and response['Failed']:
                    for failed in response['Failed']:
                        logger.warning(f"Failed to delete message: {failed}")

            logger.info(f"Deleted {len(messages)} messages from {queue_url}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error deleting messages: {error_code} - {e}")
            raise


    def delete_queue(self, queue_url: str) -> bool:
        """
        Delete an SQS queue.

        :param queue_url: The URL of the queue to delete.
        :return: True if successful.
        :raises ClientError: If the queue deletion fails.
        """
        try:
            self.sqs_client.delete_queue(QueueUrl=queue_url)
            
            logger.info(f"Deleted queue: {queue_url}")
            return True

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            
            if error_code == 'AWS.SimpleQueueService.NonExistentQueue':
                logger.warning(f"Queue not found: {queue_url}")
                return True  # Already deleted
            else:
                logger.error(f"Error deleting queue: {error_code} - {e}")
                raise


    def list_queues(self, queue_name_prefix: Optional[str] = None) -> List[str]:
        """
        List all SQS queues in the account using pagination.

        :param queue_name_prefix: Optional prefix to filter queue names.
        :return: List of queue URLs.
        :raises ClientError: If listing queues fails.
        """
        try:
            queue_urls = []
            paginator = self.sqs_client.get_paginator('list_queues')
            
            page_params = {}
            if queue_name_prefix:
                page_params['QueueNamePrefix'] = queue_name_prefix

            for page in paginator.paginate(**page_params):
                queue_urls.extend(page.get('QueueUrls', []))
            
            logger.info(f"Found {len(queue_urls)} queues")
            return queue_urls

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            if error_code == 'AccessDenied':
                logger.error("Access denied listing queues - check IAM permissions")
            else:
                logger.error(f"Error listing queues: {error_code} - {e}")
            raise

    def send_message(self, queue_url: str, message_body: str, **kwargs) -> str:
        """
        Send a message to an SQS queue.

        :param queue_url: The URL of the queue.
        :param message_body: The message content.
        :param kwargs: Additional message parameters (DelaySeconds, MessageAttributes, etc.).
        :return: The message ID.
        :raises ClientError: If sending the message fails.
        """
        try:
            send_params = {
                'QueueUrl': queue_url,
                'MessageBody': message_body,
                **kwargs
            }

            response = self.sqs_client.send_message(**send_params)
            
            message_id = response['MessageId']
            logger.info(f"Sent message to {queue_url} with ID: {message_id}")
            return message_id

        except ClientError as e:
            error_code = e.response.get('Error', {}).get('Code', 'Unknown')
            logger.error(f"Error sending message: {error_code} - {e}")
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateQueue](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/CreateQueue)
  + [CreateTopic](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/CreateTopic)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteQueue)
  + [DeleteTopic](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/DeleteTopic)
  + [GetQueueAttributes](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/GetQueueAttributes)
  + [Publikasikan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Publish)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/ReceiveMessage)
  + [SetQueueAttributes](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/SetQueueAttributes)
  + [Berlangganan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Subscribe)
  + [Berhenti berlangganan](https://docs.aws.amazon.com/goto/boto3/sns-2010-03-31/Unsubscribe)

### Mengirim dan menerima batch pesan
<a name="sqs_Scenario_SendReceiveBatch_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat antrean Amazon SQS.
+ Kirim batch pesan ke antrian.
+ Menerima kumpulan pesan dari antrian.
+ Hapus kumpulan pesan dari antrian.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sqs#code-examples). 
Buat fungsi untuk membungkus fungsi pesan Amazon SQS.  

```
import logging
import sys

import boto3
from botocore.exceptions import ClientError

import queue_wrapper

logger = logging.getLogger(__name__)
sqs = boto3.resource("sqs")

def send_messages(queue, messages):
    """
    Send a batch of messages in a single request to an SQS queue.
    This request may return overall success even when some messages were not sent.
    The caller must inspect the Successful and Failed lists in the response and
    resend any failed messages.

    :param queue: The queue to receive the messages.
    :param messages: The messages to send to the queue. These are simplified to
                     contain only the message body and attributes.
    :return: The response from SQS that contains the list of successful and failed
             messages.
    """
    try:
        entries = [
            {
                "Id": str(ind),
                "MessageBody": msg["body"],
                "MessageAttributes": msg["attributes"],
            }
            for ind, msg in enumerate(messages)
        ]
        response = queue.send_messages(Entries=entries)
        if "Successful" in response:
            for msg_meta in response["Successful"]:
                logger.info(
                    "Message sent: %s: %s",
                    msg_meta["MessageId"],
                    messages[int(msg_meta["Id"])]["body"],
                )
        if "Failed" in response:
            for msg_meta in response["Failed"]:
                logger.warning(
                    "Failed to send: %s: %s",
                    msg_meta["MessageId"],
                    messages[int(msg_meta["Id"])]["body"],
                )
    except ClientError as error:
        logger.exception("Send messages failed to queue: %s", queue)
        raise error
    else:
        return response



def receive_messages(queue, max_number, wait_time):
    """
    Receive a batch of messages in a single request from an SQS queue.

    :param queue: The queue from which to receive messages.
    :param max_number: The maximum number of messages to receive. The actual number
                       of messages received might be less.
    :param wait_time: The maximum time to wait (in seconds) before returning. When
                      this number is greater than zero, long polling is used. This
                      can result in reduced costs and fewer false empty responses.
    :return: The list of Message objects received. These each contain the body
             of the message and metadata and custom attributes.
    """
    try:
        messages = queue.receive_messages(
            MessageAttributeNames=["All"],
            MaxNumberOfMessages=max_number,
            WaitTimeSeconds=wait_time,
        )
        for msg in messages:
            logger.info("Received message: %s: %s", msg.message_id, msg.body)
    except ClientError as error:
        logger.exception("Couldn't receive messages from queue: %s", queue)
        raise error
    else:
        return messages



def delete_messages(queue, messages):
    """
    Delete a batch of messages from a queue in a single request.

    :param queue: The queue from which to delete the messages.
    :param messages: The list of messages to delete.
    :return: The response from SQS that contains the list of successful and failed
             message deletions.
    """
    try:
        entries = [
            {"Id": str(ind), "ReceiptHandle": msg.receipt_handle}
            for ind, msg in enumerate(messages)
        ]
        response = queue.delete_messages(Entries=entries)
        if "Successful" in response:
            for msg_meta in response["Successful"]:
                logger.info("Deleted %s", messages[int(msg_meta["Id"])].receipt_handle)
        if "Failed" in response:
            for msg_meta in response["Failed"]:
                logger.warning(
                    "Could not delete %s", messages[int(msg_meta["Id"])].receipt_handle
                )
    except ClientError:
        logger.exception("Couldn't delete messages from queue %s", queue)
    else:
        return response
```
Gunakan fungsi pembungkus untuk mengirim dan menerima pesan dalam batch.  

```
def usage_demo():
    """
    Shows how to:
    * Read the lines from this Python file and send the lines in
      batches of 10 as messages to a queue.
    * Receive the messages in batches until the queue is empty.
    * Reassemble the lines of the file and verify they match the original file.
    """

    def pack_message(msg_path, msg_body, msg_line):
        return {
            "body": msg_body,
            "attributes": {
                "path": {"StringValue": msg_path, "DataType": "String"},
                "line": {"StringValue": str(msg_line), "DataType": "String"},
            },
        }

    def unpack_message(msg):
        return (
            msg.message_attributes["path"]["StringValue"],
            msg.body,
            int(msg.message_attributes["line"]["StringValue"]),
        )

    print("-" * 88)
    print("Welcome to the Amazon Simple Queue Service (Amazon SQS) demo!")
    print("-" * 88)

    queue = queue_wrapper.create_queue("sqs-usage-demo-message-wrapper")

    with open(__file__) as file:
        lines = file.readlines()

    line = 0
    batch_size = 10
    received_lines = [None] * len(lines)
    print(f"Sending file lines in batches of {batch_size} as messages.")
    while line < len(lines):
        messages = [
            pack_message(__file__, lines[index], index)
            for index in range(line, min(line + batch_size, len(lines)))
        ]
        line = line + batch_size
        send_messages(queue, messages)
        print(".", end="")
        sys.stdout.flush()
    print(f"Done. Sent {len(lines) - 1} messages.")

    print(f"Receiving, handling, and deleting messages in batches of {batch_size}.")
    more_messages = True
    while more_messages:
        received_messages = receive_messages(queue, batch_size, 2)
        print(".", end="")
        sys.stdout.flush()
        for message in received_messages:
            path, body, line = unpack_message(message)
            received_lines[line] = body
        if received_messages:
            delete_messages(queue, received_messages)
        else:
            more_messages = False
    print("Done.")

    if all([lines[index] == received_lines[index] for index in range(len(lines))]):
        print(f"Successfully reassembled all file lines!")
    else:
        print(f"Uh oh, some lines were missed!")

    queue.delete()

    print("Thanks for watching!")
    print("-" * 88)
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateQueue](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/CreateQueue)
  + [DeleteMessage](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteMessage)
  + [DeleteMessageBatch](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteMessageBatch)
  + [DeleteQueue](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/DeleteQueue)
  + [ReceiveMessage](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/ReceiveMessage)
  + [SendMessage](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/SendMessage)
  + [SendMessageBatch](https://docs.aws.amazon.com/goto/boto3/sqs-2012-11-05/SendMessageBatch)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def lambda_handler(event, context):
    for message in event['Records']:
        process_message(message)
    print("done")

def process_message(message):
    try:
        print(f"Processed message {message['body']}")
        # TODO: Do interesting work based on the new message
    except Exception as err:
        print("An error occurred")
        raise err
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Python.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0

def lambda_handler(event, context):
    if event:
        batch_item_failures = []
        sqs_batch_response = {}
     
        for record in event["Records"]:
            try:
                print(f"Processed message: {record['body']}")
            except Exception as e:
                batch_item_failures.append({"itemIdentifier": record['messageId']})
        
        sqs_batch_response["batchItemFailures"] = batch_item_failures
        return sqs_batch_response
```

# Contoh Step Functions menggunakan SDK for Python (Boto3)
<a name="python_3_sfn_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Step Functions.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Hello Step Functions
<a name="sfn_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Step Functions.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
import boto3


def hello_stepfunctions(stepfunctions_client):
    """
    Use the AWS SDK for Python (Boto3) to create an AWS Step Functions client and list
    the state machines in your account. This list might be empty if you haven't created
    any state machines.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param stepfunctions_client: A Boto3 Step Functions Client object.
    """
    print("Hello, Step Functions! Let's list up to 10 of your state machines:")
    state_machines = stepfunctions_client.list_state_machines(maxResults=10)
    for sm in state_machines["stateMachines"]:
        print(f"\t{sm['name']}: {sm['stateMachineArn']}")


if __name__ == "__main__":
    hello_stepfunctions(boto3.client("stepfunctions"))
```
+  Untuk detail API, lihat [ListStateMachines](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/ListStateMachines)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="sfn_Scenario_GetStartedStateMachines_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat aktivitas.
+ Buat mesin status dari definisi Bahasa Negara Amazon yang berisi aktivitas yang dibuat sebelumnya sebagai langkah.
+ Jalankan mesin status dan tanggapi aktivitas dengan input pengguna.
+ Dapatkan status dan output akhir setelah proses selesai, lalu bersihkan sumber daya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class StateMachineScenario:
    """Runs an interactive scenario that shows how to get started using Step Functions."""

    def __init__(self, activity, state_machine, iam_client):
        """
        :param activity: An object that wraps activity actions.
        :param state_machine: An object that wraps state machine actions.
        :param iam_client: A Boto3 AWS Identity and Access Management (IAM) client.
        """
        self.activity = activity
        self.state_machine = state_machine
        self.iam_client = iam_client
        self.state_machine_role = None

    def prerequisites(self, state_machine_role_name):
        """
        Finds or creates an IAM role that can be assumed by Step Functions.
        A role of this kind is required to create a state machine.
        The state machine used in this example does not call any additional services,
        so it needs no additional permissions.

        :param state_machine_role_name: The name of the role.
        :return: Data about the role.
        """
        trust_policy = {
            "Version":"2012-10-17",		 	 	 
            "Statement": [
                {
                    "Sid": "",
                    "Effect": "Allow",
                    "Principal": {"Service": "states.amazonaws.com"},
                    "Action": "sts:AssumeRole",
                }
            ],
        }
        try:
            role = self.iam_client.get_role(RoleName=state_machine_role_name)
            print(f"Prerequisite IAM role {state_machine_role_name} already exists.")
        except ClientError as err:
            if err.response["Error"]["Code"] == "NoSuchEntity":
                role = None
            else:
                logger.error(
                    "Couldn't get prerequisite IAM role %s. Here's why: %s: %s",
                    state_machine_role_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        if role is None:
            try:
                role = self.iam_client.create_role(
                    RoleName=state_machine_role_name,
                    AssumeRolePolicyDocument=json.dumps(trust_policy),
                )
            except ClientError as err:
                logger.error(
                    "Couldn't create prerequisite IAM role %s. Here's why: %s: %s",
                    state_machine_role_name,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        self.state_machine_role = role["Role"]

    def find_or_create_activity(self, activity_name):
        """
        Finds or creates a Step Functions activity.

        :param activity_name: The name of the activity.
        :return: The Amazon Resource Name (ARN) of the activity.
        """
        print("First, let's set up an activity and state machine.")
        activity_arn = self.activity.find(activity_name)
        if activity_arn is None:
            activity_arn = self.activity.create(activity_name)
            print(
                f"Activity {activity_name} created. Its Amazon Resource Name (ARN) is "
                f"{activity_arn}."
            )
        else:
            print(f"Activity {activity_name} already exists.")
        return activity_arn

    def find_or_create_state_machine(
        self, state_machine_name, activity_arn, state_machine_file
    ):
        """
        Finds or creates a Step Functions state machine.

        :param state_machine_name: The name of the state machine.
        :param activity_arn: The ARN of an activity that is used as a step in the state
                             machine. This ARN is injected into the state machine
                             definition that's used to create the state machine.
        :param state_machine_file: The path to a file containing the state machine
                                   definition.
        :return: The ARN of the state machine.
        """
        state_machine_arn = self.state_machine.find(state_machine_name)
        if state_machine_arn is None:
            with open(state_machine_file) as state_machine_file:
                state_machine_def = state_machine_file.read().replace(
                    "{{DOC_EXAMPLE_ACTIVITY_ARN}}", activity_arn
                )
                state_machine_arn = self.state_machine.create(
                    state_machine_name,
                    state_machine_def,
                    self.state_machine_role["Arn"],
                )
            print(f"State machine {state_machine_name} created.")
        else:
            print(f"State machine {state_machine_name} already exists.")
        print("-" * 88)
        print(f"Here's some information about state machine {state_machine_name}:")
        state_machine_info = self.state_machine.describe(state_machine_arn)
        for field in ["name", "status", "stateMachineArn", "roleArn"]:
            print(f"\t{field}: {state_machine_info[field]}")
        return state_machine_arn

    def run_state_machine(self, state_machine_arn, activity_arn):
        """
        Run the state machine. The state machine used in this example is a simple
        chat simulation. It contains an activity step in a loop that is used for user
        interaction. When the state machine gets to the activity step, it waits for
        an external application to get task data and submit a response. This function
        acts as the activity application by getting task input and responding with
        user input.

        :param state_machine_arn: The ARN of the state machine.
        :param activity_arn: The ARN of the activity used as a step in the state machine.
        :return: The ARN of the run.
        """
        print(
            f"Let's run the state machine. It's a simplistic, non-AI chat simulator "
            f"we'll call ChatSFN."
        )
        user_name = q.ask("What should ChatSFN call you? ", q.non_empty)
        run_input = {"name": user_name}
        print("Starting state machine...")
        run_arn = self.state_machine.start(state_machine_arn, json.dumps(run_input))
        action = None
        while action != "done":
            activity_task = self.activity.get_task(activity_arn)
            task_input = json.loads(activity_task["input"])
            print(f"ChatSFN: {task_input['message']}")
            action = task_input["actions"][
                q.choose("What now? ", task_input["actions"])
            ]
            task_response = {"action": action}
            self.activity.send_task_success(
                activity_task["taskToken"], json.dumps(task_response)
            )
        return run_arn

    def finish_state_machine_run(self, run_arn):
        """
        Wait for the state machine run to finish, then print final status and output.

        :param run_arn: The ARN of the run to retrieve.
        """
        print(f"Let's get the final output from the state machine:")
        status = "RUNNING"
        while status == "RUNNING":
            run_output = self.state_machine.describe_run(run_arn)
            status = run_output["status"]
            if status == "RUNNING":
                print(
                    "The state machine is still running, let's wait for it to finish."
                )
                wait(1)
            elif status == "SUCCEEDED":
                print(f"ChatSFN: {json.loads(run_output['output'])['message']}")
            else:
                print(f"Run status: {status}.")

    def cleanup(
        self,
        state_machine_name,
        state_machine_arn,
        activity_name,
        activity_arn,
        state_machine_role_name,
    ):
        """
        Clean up resources created by this example.

        :param state_machine_name: The name of the state machine.
        :param state_machine_arn: The ARN of the state machine.
        :param activity_name: The name of the activity.
        :param activity_arn: The ARN of the activity.
        :param state_machine_role_name: The name of the role used by the state machine.
        """
        if q.ask(
            "Do you want to delete the state machine, activity, and role created for this "
            "example? (y/n) ",
            q.is_yesno,
        ):
            self.state_machine.delete(state_machine_arn)
            print(f"Deleted state machine {state_machine_name}.")
            self.activity.delete(activity_arn)
            print(f"Deleted activity {activity_name}.")
            self.iam_client.delete_role(RoleName=state_machine_role_name)
            print(f"Deleted role {state_machine_role_name}.")

    def run_scenario(self, activity_name, state_machine_name):
        print("-" * 88)
        print("Welcome to the AWS Step Functions state machines demo.")
        print("-" * 88)

        activity_arn = self.find_or_create_activity(activity_name)
        state_machine_arn = self.find_or_create_state_machine(
            state_machine_name,
            activity_arn,
            "../../../resources/sample_files/chat_sfn_state_machine.json",
        )
        print("-" * 88)
        run_arn = self.run_state_machine(state_machine_arn, activity_arn)
        print("-" * 88)
        self.finish_state_machine_run(run_arn)
        print("-" * 88)
        self.cleanup(
            state_machine_name,
            state_machine_arn,
            activity_name,
            activity_arn,
            self.state_machine_role["RoleName"],
        )

        print("-" * 88)
        print("\nThanks for watching!")
        print("-" * 88)


if __name__ == "__main__":
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")
    try:
        stepfunctions_client = boto3.client("stepfunctions")
        iam_client = boto3.client("iam")
        scenario = StateMachineScenario(
            Activity(stepfunctions_client),
            StateMachine(stepfunctions_client),
            iam_client,
        )
        scenario.prerequisites("doc-example-state-machine-chat")
        scenario.run_scenario("doc-example-activity", "doc-example-state-machine")
    except Exception:
        logging.exception("Something went wrong with the demo.")
```
Tentukan kelas yang membungkus tindakan mesin negara.  

```
class StateMachine:
    """Encapsulates Step Functions state machine actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def create(self, name, definition, role_arn):
        """
        Creates a state machine with the specific definition. The state machine assumes
        the provided role before it starts a run.

        :param name: The name to give the state machine.
        :param definition: The Amazon States Language definition of the steps in the
                           the state machine.
        :param role_arn: The Amazon Resource Name (ARN) of the role that is assumed by
                         Step Functions when the state machine is run.
        :return: The ARN of the newly created state machine.
        """
        try:
            response = self.stepfunctions_client.create_state_machine(
                name=name, definition=definition, roleArn=role_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't create state machine %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["stateMachineArn"]


    def find(self, name):
        """
        Find a state machine by name. This requires listing the state machines until
        one is found with a matching name.

        :param name: The name of the state machine to search for.
        :return: The ARN of the state machine if found; otherwise, None.
        """
        try:
            paginator = self.stepfunctions_client.get_paginator("list_state_machines")
            for page in paginator.paginate():
                for state_machine in page.get("stateMachines", []):
                    if state_machine["name"] == name:
                        return state_machine["stateMachineArn"]
        except ClientError as err:
            logger.error(
                "Couldn't list state machines. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def describe(self, state_machine_arn):
        """
        Get data about a state machine.

        :param state_machine_arn: The ARN of the state machine to look up.
        :return: The retrieved state machine data.
        """
        try:
            response = self.stepfunctions_client.describe_state_machine(
                stateMachineArn=state_machine_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't describe state machine %s. Here's why: %s: %s",
                state_machine_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def start(self, state_machine_arn, run_input):
        """
        Start a run of a state machine with a specified input. A run is also known
        as an "execution" in Step Functions.

        :param state_machine_arn: The ARN of the state machine to run.
        :param run_input: The input to the state machine, in JSON format.
        :return: The ARN of the run. This can be used to get information about the run,
                 including its current status and final output.
        """
        try:
            response = self.stepfunctions_client.start_execution(
                stateMachineArn=state_machine_arn, input=run_input
            )
        except ClientError as err:
            logger.error(
                "Couldn't start state machine %s. Here's why: %s: %s",
                state_machine_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["executionArn"]


    def describe_run(self, run_arn):
        """
        Get data about a state machine run, such as its current status or final output.

        :param run_arn: The ARN of the run to look up.
        :return: The retrieved run data.
        """
        try:
            response = self.stepfunctions_client.describe_execution(
                executionArn=run_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't describe run %s. Here's why: %s: %s",
                run_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def delete(self, state_machine_arn):
        """
        Delete a state machine and all of its run data.

        :param state_machine_arn: The ARN of the state machine to delete.
        """
        try:
            response = self.stepfunctions_client.delete_state_machine(
                stateMachineArn=state_machine_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete state machine %s. Here's why: %s: %s",
                state_machine_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
Tentukan kelas yang membungkus tindakan aktivitas.  

```
class Activity:
    """Encapsulates Step Function activity actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def create(self, name):
        """
        Create an activity.

        :param name: The name of the activity to create.
        :return: The Amazon Resource Name (ARN) of the newly created activity.
        """
        try:
            response = self.stepfunctions_client.create_activity(name=name)
        except ClientError as err:
            logger.error(
                "Couldn't create activity %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["activityArn"]


    def find(self, name):
        """
        Find an activity by name. This requires listing activities until one is found
        with a matching name.

        :param name: The name of the activity to search for.
        :return: If found, the ARN of the activity; otherwise, None.
        """
        try:
            paginator = self.stepfunctions_client.get_paginator("list_activities")
            for page in paginator.paginate():
                for activity in page.get("activities", []):
                    if activity["name"] == name:
                        return activity["activityArn"]
        except ClientError as err:
            logger.error(
                "Couldn't list activities. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def get_task(self, activity_arn):
        """
        Gets task data for an activity. When a state machine is waiting for the
        specified activity, a response is returned with data from the state machine.
        When a state machine is not waiting, this call blocks for 60 seconds.

        :param activity_arn: The ARN of the activity to get task data for.
        :return: The task data for the activity.
        """
        try:
            response = self.stepfunctions_client.get_activity_task(
                activityArn=activity_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't get a task for activity %s. Here's why: %s: %s",
                activity_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response


    def send_task_success(self, task_token, task_response):
        """
        Sends a success response to a waiting activity step. A state machine with an
        activity step waits for the activity to get task data and then respond with
        either success or failure before it resumes processing.

        :param task_token: The token associated with the task. This is included in the
                           response to the get_activity_task action and must be sent
                           without modification.
        :param task_response: The response data from the activity. This data is
                              received and processed by the state machine.
        """
        try:
            self.stepfunctions_client.send_task_success(
                taskToken=task_token, output=task_response
            )
        except ClientError as err:
            logger.error(
                "Couldn't send task success. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete(self, activity_arn):
        """
        Delete an activity.

        :param activity_arn: The ARN of the activity to delete.
        """
        try:
            response = self.stepfunctions_client.delete_activity(
                activityArn=activity_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete activity %s. Here's why: %s: %s",
                activity_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateActivity](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/CreateActivity)
  + [CreateStateMachine](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/CreateStateMachine)
  + [DeleteActivity](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/DeleteActivity)
  + [DeleteStateMachine](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/DeleteStateMachine)
  + [DescribeExecution](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/DescribeExecution)
  + [DescribeStateMachine](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/DescribeStateMachine)
  + [GetActivityTask](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/GetActivityTask)
  + [ListActivities](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/ListActivities)
  + [ListStateMachines](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/ListStateMachines)
  + [SendTaskSuccess](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/SendTaskSuccess)
  + [StartExecution](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/StartExecution)
  + [StopExecution](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/StopExecution)

## Tindakan
<a name="actions"></a>

### `CreateActivity`
<a name="sfn_CreateActivity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateActivity`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class Activity:
    """Encapsulates Step Function activity actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def create(self, name):
        """
        Create an activity.

        :param name: The name of the activity to create.
        :return: The Amazon Resource Name (ARN) of the newly created activity.
        """
        try:
            response = self.stepfunctions_client.create_activity(name=name)
        except ClientError as err:
            logger.error(
                "Couldn't create activity %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["activityArn"]
```
+  Untuk detail API, lihat [CreateActivity](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/CreateActivity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateStateMachine`
<a name="sfn_CreateStateMachine_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStateMachine`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class StateMachine:
    """Encapsulates Step Functions state machine actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def create(self, name, definition, role_arn):
        """
        Creates a state machine with the specific definition. The state machine assumes
        the provided role before it starts a run.

        :param name: The name to give the state machine.
        :param definition: The Amazon States Language definition of the steps in the
                           the state machine.
        :param role_arn: The Amazon Resource Name (ARN) of the role that is assumed by
                         Step Functions when the state machine is run.
        :return: The ARN of the newly created state machine.
        """
        try:
            response = self.stepfunctions_client.create_state_machine(
                name=name, definition=definition, roleArn=role_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't create state machine %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["stateMachineArn"]
```
+  Untuk detail API, lihat [CreateStateMachine](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/CreateStateMachine)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteActivity`
<a name="sfn_DeleteActivity_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteActivity`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class Activity:
    """Encapsulates Step Function activity actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def delete(self, activity_arn):
        """
        Delete an activity.

        :param activity_arn: The ARN of the activity to delete.
        """
        try:
            response = self.stepfunctions_client.delete_activity(
                activityArn=activity_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete activity %s. Here's why: %s: %s",
                activity_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DeleteActivity](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/DeleteActivity)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteStateMachine`
<a name="sfn_DeleteStateMachine_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStateMachine`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class StateMachine:
    """Encapsulates Step Functions state machine actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def delete(self, state_machine_arn):
        """
        Delete a state machine and all of its run data.

        :param state_machine_arn: The ARN of the state machine to delete.
        """
        try:
            response = self.stepfunctions_client.delete_state_machine(
                stateMachineArn=state_machine_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't delete state machine %s. Here's why: %s: %s",
                state_machine_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DeleteStateMachine](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/DeleteStateMachine)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeExecution`
<a name="sfn_DescribeExecution_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeExecution`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
    def describe_run(self, run_arn):
        """
        Get data about a state machine run, such as its current status or final output.

        :param run_arn: The ARN of the run to look up.
        :return: The retrieved run data.
        """
        try:
            response = self.stepfunctions_client.describe_execution(
                executionArn=run_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't describe run %s. Here's why: %s: %s",
                run_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DescribeExecution](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/DescribeExecution)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeStateMachine`
<a name="sfn_DescribeStateMachine_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStateMachine`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class StateMachine:
    """Encapsulates Step Functions state machine actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def describe(self, state_machine_arn):
        """
        Get data about a state machine.

        :param state_machine_arn: The ARN of the state machine to look up.
        :return: The retrieved state machine data.
        """
        try:
            response = self.stepfunctions_client.describe_state_machine(
                stateMachineArn=state_machine_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't describe state machine %s. Here's why: %s: %s",
                state_machine_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DescribeStateMachine](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/DescribeStateMachine)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetActivityTask`
<a name="sfn_GetActivityTask_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetActivityTask`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class Activity:
    """Encapsulates Step Function activity actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def get_task(self, activity_arn):
        """
        Gets task data for an activity. When a state machine is waiting for the
        specified activity, a response is returned with data from the state machine.
        When a state machine is not waiting, this call blocks for 60 seconds.

        :param activity_arn: The ARN of the activity to get task data for.
        :return: The task data for the activity.
        """
        try:
            response = self.stepfunctions_client.get_activity_task(
                activityArn=activity_arn
            )
        except ClientError as err:
            logger.error(
                "Couldn't get a task for activity %s. Here's why: %s: %s",
                activity_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response
```
+  Untuk detail API, lihat [GetActivityTask](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/GetActivityTask)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListActivities`
<a name="sfn_ListActivities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListActivities`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class Activity:
    """Encapsulates Step Function activity actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def find(self, name):
        """
        Find an activity by name. This requires listing activities until one is found
        with a matching name.

        :param name: The name of the activity to search for.
        :return: If found, the ARN of the activity; otherwise, None.
        """
        try:
            paginator = self.stepfunctions_client.get_paginator("list_activities")
            for page in paginator.paginate():
                for activity in page.get("activities", []):
                    if activity["name"] == name:
                        return activity["activityArn"]
        except ClientError as err:
            logger.error(
                "Couldn't list activities. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListActivities](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/ListActivities)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListStateMachines`
<a name="sfn_ListStateMachines_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStateMachines`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 
Temukan mesin negara berdasarkan nama dengan mencari daftar mesin negara untuk akun tersebut.  

```
class StateMachine:
    """Encapsulates Step Functions state machine actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def find(self, name):
        """
        Find a state machine by name. This requires listing the state machines until
        one is found with a matching name.

        :param name: The name of the state machine to search for.
        :return: The ARN of the state machine if found; otherwise, None.
        """
        try:
            paginator = self.stepfunctions_client.get_paginator("list_state_machines")
            for page in paginator.paginate():
                for state_machine in page.get("stateMachines", []):
                    if state_machine["name"] == name:
                        return state_machine["stateMachineArn"]
        except ClientError as err:
            logger.error(
                "Couldn't list state machines. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListStateMachines](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/ListStateMachines)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SendTaskSuccess`
<a name="sfn_SendTaskSuccess_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTaskSuccess`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class Activity:
    """Encapsulates Step Function activity actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def send_task_success(self, task_token, task_response):
        """
        Sends a success response to a waiting activity step. A state machine with an
        activity step waits for the activity to get task data and then respond with
        either success or failure before it resumes processing.

        :param task_token: The token associated with the task. This is included in the
                           response to the get_activity_task action and must be sent
                           without modification.
        :param task_response: The response data from the activity. This data is
                              received and processed by the state machine.
        """
        try:
            self.stepfunctions_client.send_task_success(
                taskToken=task_token, output=task_response
            )
        except ClientError as err:
            logger.error(
                "Couldn't send task success. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [SendTaskSuccess](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/SendTaskSuccess)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartExecution`
<a name="sfn_StartExecution_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartExecution`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/stepfunctions#code-examples). 

```
class StateMachine:
    """Encapsulates Step Functions state machine actions."""

    def __init__(self, stepfunctions_client):
        """
        :param stepfunctions_client: A Boto3 Step Functions client.
        """
        self.stepfunctions_client = stepfunctions_client


    def start(self, state_machine_arn, run_input):
        """
        Start a run of a state machine with a specified input. A run is also known
        as an "execution" in Step Functions.

        :param state_machine_arn: The ARN of the state machine to run.
        :param run_input: The input to the state machine, in JSON format.
        :return: The ARN of the run. This can be used to get information about the run,
                 including its current status and final output.
        """
        try:
            response = self.stepfunctions_client.start_execution(
                stateMachineArn=state_machine_arn, input=run_input
            )
        except ClientError as err:
            logger.error(
                "Couldn't start state machine %s. Here's why: %s: %s",
                state_machine_arn,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        else:
            return response["executionArn"]
```
+  Untuk detail API, lihat [StartExecution](https://docs.aws.amazon.com/goto/boto3/states-2016-11-23/StartExecution)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi messenger
<a name="cross_StepFunctionsMessenger_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi AWS Step Functions messenger yang mengambil catatan pesan dari tabel database.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) with AWS Step Functions untuk membuat aplikasi messenger yang mengambil catatan pesan dari tabel Amazon DynamoDB dan mengirimkannya dengan Amazon Simple Queue Service (Amazon SQS). Mesin state terintegrasi dengan AWS Lambda fungsi untuk memindai database untuk pesan yang tidak terkirim.   
+ Buat mesin status yang mengambil dan memperbarui catatan pesan dari tabel Amazon DynamoDB.
+ Perbarui definisi mesin status untuk mengirim pesan ke Amazon Simple Queue Service (Amazon SQS).
+ Mulai dan hentikan berjalannya mesin status.
+ Terhubung ke Lambda, DynamoDB, dan Amazon SQS dari mesin status menggunakan integrasi layanan.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/stepfunctions_messenger).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Lambda
+ Amazon SQS
+ Step Functions

### Mengatur aplikasi AI generatif dengan Step Functions
<a name="cross_ServerlessPromptChaining_python_3_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan mengatur aplikasi AI generatif dengan Amazon Bedrock dan Step Functions.

**SDK untuk Python (Boto3)**  
 Skenario Amazon Bedrock Serverless Prompt Chaining menunjukkan bagaimana [AWS Step Functions](https://docs.aws.amazon.com/step-functions/latest/dg/welcome.html), [Amazon](https://docs.aws.amazon.com/bedrock/latest/userguide/what-is-bedrock.html) Bedrock, [https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html](https://docs.aws.amazon.com/bedrock/latest/userguide/agents.html) dan dapat digunakan untuk membangun dan mengatur aplikasi AI generatif yang kompleks, tanpa server, dan sangat skalabel. Ini berisi contoh kerja berikut:   
+  Tulis analisis novel yang diberikan untuk blog sastra. Contoh ini menggambarkan rantai petunjuk yang sederhana dan berurutan. 
+  Hasilkan cerita pendek tentang topik tertentu. Contoh ini menggambarkan bagaimana AI dapat secara iteratif memproses daftar item yang dihasilkan sebelumnya. 
+  Buat rencana perjalanan untuk liburan akhir pekan ke tujuan tertentu. Contoh ini menggambarkan cara memparalelkan beberapa prompt yang berbeda. 
+  Pitch ide film untuk pengguna manusia yang bertindak sebagai produser film. Contoh ini menggambarkan cara memparalelkan prompt yang sama dengan parameter inferensi yang berbeda, cara mundur ke langkah sebelumnya dalam rantai, dan cara memasukkan input manusia sebagai bagian dari alur kerja. 
+  Rencanakan makanan berdasarkan bahan-bahan yang dimiliki pengguna. Contoh ini menggambarkan bagaimana rantai cepat dapat menggabungkan dua percakapan AI yang berbeda, dengan dua persona AI terlibat dalam debat satu sama lain untuk meningkatkan hasil akhir. 
+  Temukan dan rangkum repositori tren GitHub tertinggi hari ini. Contoh ini menggambarkan rantai beberapa agen AI yang berinteraksi dengan eksternal. APIs 
 Untuk kode sumber lengkap dan instruksi untuk menyiapkan dan menjalankan, lihat proyek lengkap di [GitHub](https://github.com/aws-samples/amazon-bedrock-serverless-prompt-chaining).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Bedrock
+ Runtime Amazon Bedrock
+ Agen Bedrock Amazon
+ Runtime Agen Batuan Dasar Amazon
+ Step Functions

# AWS STS contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sts#code-examples). 
Asumsikan peran IAM yang memerlukan token MFA dan gunakan kredensil sementara untuk mencantumkan bucket Amazon S3 untuk akun tersebut.  

```
def list_buckets_from_assumed_role_with_mfa(
    assume_role_arn, session_name, mfa_serial_number, mfa_totp, sts_client
):
    """
    Assumes a role from another account and uses the temporary credentials from
    that role to list the Amazon S3 buckets that are owned by the other account.
    Requires an MFA device serial number and token.

    The assumed role must grant permission to list the buckets in the other account.

    :param assume_role_arn: The Amazon Resource Name (ARN) of the role that
                            grants access to list the other account's buckets.
    :param session_name: The name of the STS session.
    :param mfa_serial_number: The serial number of the MFA device. For a virtual MFA
                              device, this is an ARN.
    :param mfa_totp: A time-based, one-time password issued by the MFA device.
    :param sts_client: A Boto3 STS instance that has permission to assume the role.
    """
    response = sts_client.assume_role(
        RoleArn=assume_role_arn,
        RoleSessionName=session_name,
        SerialNumber=mfa_serial_number,
        TokenCode=mfa_totp,
    )
    temp_credentials = response["Credentials"]
    print(f"Assumed role {assume_role_arn} and got temporary credentials.")

    s3_resource = boto3.resource(
        "s3",
        aws_access_key_id=temp_credentials["AccessKeyId"],
        aws_secret_access_key=temp_credentials["SecretAccessKey"],
        aws_session_token=temp_credentials["SessionToken"],
    )

    print(f"Listing buckets for the assumed role's account:")
    for bucket in s3_resource.buckets.all():
        print(bucket.name)
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/boto3/sts-2011-06-15/AssumeRole)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetSessionToken`
<a name="sts_GetSessionToken_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSessionToken`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sts#code-examples). 
Dapatkan token sesi dengan meneruskan token MFA dan gunakan untuk mencantumkan bucket Amazon S3 untuk akun tersebut.  

```
def list_buckets_with_session_token_with_mfa(mfa_serial_number, mfa_totp, sts_client):
    """
    Gets a session token with MFA credentials and uses the temporary session
    credentials to list Amazon S3 buckets.

    Requires an MFA device serial number and token.

    :param mfa_serial_number: The serial number of the MFA device. For a virtual MFA
                              device, this is an Amazon Resource Name (ARN).
    :param mfa_totp: A time-based, one-time password issued by the MFA device.
    :param sts_client: A Boto3 STS instance that has permission to assume the role.
    """
    if mfa_serial_number is not None:
        response = sts_client.get_session_token(
            SerialNumber=mfa_serial_number, TokenCode=mfa_totp
        )
    else:
        response = sts_client.get_session_token()
    temp_credentials = response["Credentials"]

    s3_resource = boto3.resource(
        "s3",
        aws_access_key_id=temp_credentials["AccessKeyId"],
        aws_secret_access_key=temp_credentials["SecretAccessKey"],
        aws_session_token=temp_credentials["SessionToken"],
    )

    print(f"Buckets for the account:")
    for bucket in s3_resource.buckets.all():
        print(bucket.name)
```
+  Untuk detail API, lihat [GetSessionToken](https://docs.aws.amazon.com/goto/boto3/sts-2011-06-15/GetSessionToken)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Asumsikan peran IAM yang membutuhkan token MFA
<a name="sts_Scenario_AssumeRoleMfa_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mengambil peran yang membutuhkan token MFA. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat peran IAM yang memberikan izin untuk mencantumkan bucket Amazon S3.
+ Buat pengguna IAM yang memiliki izin untuk mengambil peran hanya ketika kredensil MFA disediakan.
+ Daftarkan perangkat MFA untuk pengguna.
+ Asumsikan peran dan gunakan kredensyal sementara untuk membuat daftar bucket S3.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sts#code-examples). 
Buat pengguna IAM, daftarkan perangkat MFA, dan buat peran yang memberikan izin untuk membuat daftar bucket S3. Pengguna hanya memiliki hak untuk mengambil peran.  

```
def setup(iam_resource):
    """
    Creates a new user with no permissions.
    Creates a new virtual MFA device.
    Displays the QR code to seed the device.
    Asks for two codes from the MFA device.
    Registers the MFA device for the user.
    Creates an access key pair for the user.
    Creates a role with a policy that lets the user assume the role and requires MFA.
    Creates a policy that allows listing Amazon S3 buckets.
    Attaches the policy to the role.
    Creates an inline policy for the user that lets the user assume the role.

    For demonstration purposes, the user is created in the same account as the role,
    but in practice the user would likely be from another account.

    Any MFA device that can scan a QR code will work with this demonstration.
    Common choices are mobile apps like LastPass Authenticator,
    Microsoft Authenticator, or Google Authenticator.

    :param iam_resource: A Boto3 AWS Identity and Access Management (IAM) resource
                         that has permissions to create users, roles, and policies
                         in the account.
    :return: The newly created user, user key, virtual MFA device, and role.
    """
    user = iam_resource.create_user(UserName=unique_name("user"))
    print(f"Created user {user.name}.")

    virtual_mfa_device = iam_resource.create_virtual_mfa_device(
        VirtualMFADeviceName=unique_name("mfa")
    )
    print(f"Created virtual MFA device {virtual_mfa_device.serial_number}")

    print(
        f"Showing the QR code for the device. Scan this in the MFA app of your "
        f"choice."
    )
    with open("qr.png", "wb") as qr_file:
        qr_file.write(virtual_mfa_device.qr_code_png)
    webbrowser.open(qr_file.name)

    print(f"Enter two consecutive code from your MFA device.")
    mfa_code_1 = input("Enter the first code: ")
    mfa_code_2 = input("Enter the second code: ")
    user.enable_mfa(
        SerialNumber=virtual_mfa_device.serial_number,
        AuthenticationCode1=mfa_code_1,
        AuthenticationCode2=mfa_code_2,
    )
    os.remove(qr_file.name)
    print(f"MFA device is registered with the user.")

    user_key = user.create_access_key_pair()
    print(f"Created access key pair for user.")

    print(f"Wait for user to be ready.", end="")
    progress_bar(10)

    role = iam_resource.create_role(
        RoleName=unique_name("role"),
        AssumeRolePolicyDocument=json.dumps(
            {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Principal": {"AWS": user.arn},
                        "Action": "sts:AssumeRole",
                        "Condition": {"Bool": {"aws:MultiFactorAuthPresent": True}},
                    }
                ],
            }
        ),
    )
    print(f"Created role {role.name} that requires MFA.")

    policy = iam_resource.create_policy(
        PolicyName=unique_name("policy"),
        PolicyDocument=json.dumps(
            {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Action": "s3:ListAllMyBuckets",
                        "Resource": "arn:aws:s3:::*",
                    }
                ],
            }
        ),
    )
    role.attach_policy(PolicyArn=policy.arn)
    print(f"Created policy {policy.policy_name} and attached it to the role.")

    user.create_policy(
        PolicyName=unique_name("user-policy"),
        PolicyDocument=json.dumps(
            {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Action": "sts:AssumeRole",
                        "Resource": role.arn,
                    }
                ],
            }
        ),
    )
    print(
        f"Created an inline policy for {user.name} that lets the user assume "
        f"the role."
    )

    print("Give AWS time to propagate these new resources and connections.", end="")
    progress_bar(10)

    return user, user_key, virtual_mfa_device, role
```
Tunjukkan bahwa mengasumsikan peran tanpa token MFA tidak diperbolehkan.  

```
def try_to_assume_role_without_mfa(assume_role_arn, session_name, sts_client):
    """
    Shows that attempting to assume the role without sending MFA credentials results
    in an AccessDenied error.

    :param assume_role_arn: The Amazon Resource Name (ARN) of the role to assume.
    :param session_name: The name of the STS session.
    :param sts_client: A Boto3 STS instance that has permission to assume the role.
    """
    print(f"Trying to assume the role without sending MFA credentials...")
    try:
        sts_client.assume_role(RoleArn=assume_role_arn, RoleSessionName=session_name)
        raise RuntimeError("Expected AccessDenied error.")
    except ClientError as error:
        if error.response["Error"]["Code"] == "AccessDenied":
            print("Got AccessDenied.")
        else:
            raise
```
Asumsikan peran yang memberikan izin untuk mencantumkan bucket S3, meneruskan token MFA yang diperlukan, dan tunjukkan bahwa bucket dapat dicantumkan.  

```
def list_buckets_from_assumed_role_with_mfa(
    assume_role_arn, session_name, mfa_serial_number, mfa_totp, sts_client
):
    """
    Assumes a role from another account and uses the temporary credentials from
    that role to list the Amazon S3 buckets that are owned by the other account.
    Requires an MFA device serial number and token.

    The assumed role must grant permission to list the buckets in the other account.

    :param assume_role_arn: The Amazon Resource Name (ARN) of the role that
                            grants access to list the other account's buckets.
    :param session_name: The name of the STS session.
    :param mfa_serial_number: The serial number of the MFA device. For a virtual MFA
                              device, this is an ARN.
    :param mfa_totp: A time-based, one-time password issued by the MFA device.
    :param sts_client: A Boto3 STS instance that has permission to assume the role.
    """
    response = sts_client.assume_role(
        RoleArn=assume_role_arn,
        RoleSessionName=session_name,
        SerialNumber=mfa_serial_number,
        TokenCode=mfa_totp,
    )
    temp_credentials = response["Credentials"]
    print(f"Assumed role {assume_role_arn} and got temporary credentials.")

    s3_resource = boto3.resource(
        "s3",
        aws_access_key_id=temp_credentials["AccessKeyId"],
        aws_secret_access_key=temp_credentials["SecretAccessKey"],
        aws_session_token=temp_credentials["SessionToken"],
    )

    print(f"Listing buckets for the assumed role's account:")
    for bucket in s3_resource.buckets.all():
        print(bucket.name)
```
Hancurkan sumber daya yang dibuat untuk demo.  

```
def teardown(user, virtual_mfa_device, role):
    """
    Removes all resources created during setup.

    :param user: The demo user.
    :param role: The demo role.
    """
    for attached in role.attached_policies.all():
        policy_name = attached.policy_name
        role.detach_policy(PolicyArn=attached.arn)
        attached.delete()
        print(f"Detached and deleted {policy_name}.")
    role.delete()
    print(f"Deleted {role.name}.")
    for user_pol in user.policies.all():
        user_pol.delete()
        print("Deleted inline user policy.")
    for key in user.access_keys.all():
        key.delete()
        print("Deleted user's access key.")
    for mfa in user.mfa_devices.all():
        mfa.disassociate()
    virtual_mfa_device.delete()
    user.delete()
    print(f"Deleted {user.name}.")
```
Jalankan skenario ini dengan menggunakan fungsi yang ditentukan sebelumnya.  

```
def usage_demo():
    """Drives the demonstration."""
    print("-" * 88)
    print(
        f"Welcome to the AWS Security Token Service assume role demo, "
        f"starring multi-factor authentication (MFA)!"
    )
    print("-" * 88)
    iam_resource = boto3.resource("iam")
    user, user_key, virtual_mfa_device, role = setup(iam_resource)
    print(f"Created {user.name} and {role.name}.")
    try:
        sts_client = boto3.client(
            "sts", aws_access_key_id=user_key.id, aws_secret_access_key=user_key.secret
        )
        try_to_assume_role_without_mfa(role.arn, "demo-sts-session", sts_client)
        mfa_totp = input("Enter the code from your registered MFA device: ")
        list_buckets_from_assumed_role_with_mfa(
            role.arn,
            "demo-sts-session",
            virtual_mfa_device.serial_number,
            mfa_totp,
            sts_client,
        )
    finally:
        teardown(user, virtual_mfa_device, role)
        print("Thanks for watching!")
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/boto3/sts-2011-06-15/AssumeRole)di *AWS SDK for Python (Boto3) Referensi* API. 

### Membangun URL untuk pengguna federasi
<a name="sts_Scenario_ConstructFederatedUrl_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM yang memberikan akses hanya-baca ke sumber daya Amazon S3 akun saat ini.
+ Dapatkan token keamanan dari titik akhir AWS federasi.
+ Buat URL yang dapat digunakan untuk mengakses konsol dengan kredensyal federasi.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sts#code-examples). 
Buat peran yang memberikan akses hanya-baca ke sumber daya S3 akun saat ini.  

```
def setup(iam_resource):
    """
    Creates a role that can be assumed by the current user.
    Attaches a policy that allows only Amazon S3 read-only access.

    :param iam_resource: A Boto3 AWS Identity and Access Management (IAM) instance
                         that has the permission to create a role.
    :return: The newly created role.
    """
    role = iam_resource.create_role(
        RoleName=unique_name("role"),
        AssumeRolePolicyDocument=json.dumps(
            {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Principal": {"AWS": iam_resource.CurrentUser().arn},
                        "Action": "sts:AssumeRole",
                    }
                ],
            }
        ),
    )
    role.attach_policy(PolicyArn="arn:aws:iam::aws:policy/AmazonS3ReadOnlyAccess")
    print(f"Created role {role.name}.")

    print("Give AWS time to propagate these new resources and connections.", end="")
    progress_bar(10)

    return role
```
Dapatkan token keamanan dari titik akhir AWS federasi dan buat URL yang dapat digunakan untuk mengakses konsol dengan kredensi federasi.  

```
def construct_federated_url(assume_role_arn, session_name, issuer, sts_client):
    """
    Constructs a URL that gives federated users direct access to the AWS Management
    Console.

    1. Acquires temporary credentials from AWS Security Token Service (AWS STS) that
       can be used to assume a role with limited permissions.
    2. Uses the temporary credentials to request a sign-in token from the
       AWS federation endpoint.
    3. Builds a URL that can be used in a browser to navigate to the AWS federation
       endpoint, includes the sign-in token for authentication, and redirects to
       the AWS Management Console with permissions defined by the role that was
       specified in step 1.

    :param assume_role_arn: The role that specifies the permissions that are granted.
                            The current user must have permission to assume the role.
    :param session_name: The name for the STS session.
    :param issuer: The organization that issues the URL.
    :param sts_client: A Boto3 STS instance that can assume the role.
    :return: The federated URL.
    """
    response = sts_client.assume_role(
        RoleArn=assume_role_arn, RoleSessionName=session_name
    )
    temp_credentials = response["Credentials"]
    print(f"Assumed role {assume_role_arn} and got temporary credentials.")

    session_data = {
        "sessionId": temp_credentials["AccessKeyId"],
        "sessionKey": temp_credentials["SecretAccessKey"],
        "sessionToken": temp_credentials["SessionToken"],
    }
    aws_federated_signin_endpoint = "https://signin.aws.amazon.com/federation"

    # Make a request to the AWS federation endpoint to get a sign-in token.
    # The requests.get function URL-encodes the parameters and builds the query string
    # before making the request.
    response = requests.get(
        aws_federated_signin_endpoint,
        params={
            "Action": "getSigninToken",
            "SessionDuration": str(datetime.timedelta(hours=12).seconds),
            "Session": json.dumps(session_data),
        },
    )
    signin_token = json.loads(response.text)
    print(f"Got a sign-in token from the AWS sign-in federation endpoint.")

    # Make a federated URL that can be used to sign into the AWS Management Console.
    query_string = urllib.parse.urlencode(
        {
            "Action": "login",
            "Issuer": issuer,
            "Destination": "https://console.aws.amazon.com/",
            "SigninToken": signin_token["SigninToken"],
        }
    )
    federated_url = f"{aws_federated_signin_endpoint}?{query_string}"
    return federated_url
```
Hancurkan sumber daya yang dibuat untuk demo.  

```
def teardown(role):
    """
    Removes all resources created during setup.

    :param role: The demo role.
    """
    for attached in role.attached_policies.all():
        role.detach_policy(PolicyArn=attached.arn)
        print(f"Detached {attached.policy_name}.")
    role.delete()
    print(f"Deleted {role.name}.")
```
Jalankan skenario ini dengan menggunakan fungsi yang ditentukan sebelumnya.  

```
def usage_demo():
    """Drives the demonstration."""
    print("-" * 88)
    print(f"Welcome to the AWS Security Token Service federated URL demo.")
    print("-" * 88)
    iam_resource = boto3.resource("iam")
    role = setup(iam_resource)
    sts_client = boto3.client("sts")
    try:
        federated_url = construct_federated_url(
            role.arn, "AssumeRoleDemoSession", "example.org", sts_client
        )
        print(
            "Constructed a federated URL that can be used to connect to the "
            "AWS Management Console with role-defined permissions:"
        )
        print("-" * 88)
        print(federated_url)
        print("-" * 88)
        _ = input(
            "Copy and paste the above URL into a browser to open the AWS "
            "Management Console with limited permissions. When done, press "
            "Enter to clean up and complete this demo."
        )
    finally:
        teardown(role)
        print("Thanks for watching!")
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/boto3/sts-2011-06-15/AssumeRole)di *AWS SDK for Python (Boto3) Referensi* API. 

### Dapatkan token sesi yang membutuhkan token MFA
<a name="sts_Scenario_SessionTokenMfa_python_3_topic"></a>

Contoh kode berikut menunjukkan cara mendapatkan token sesi yang membutuhkan token MFA. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat peran IAM yang memberikan izin untuk mencantumkan bucket Amazon S3.
+ Buat pengguna IAM yang memiliki izin untuk mengambil peran hanya ketika kredensil MFA disediakan.
+ Daftarkan perangkat MFA untuk pengguna.
+ Berikan kredensi MFA untuk mendapatkan token sesi dan gunakan kredensil sementara untuk membuat daftar bucket S3.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/sts#code-examples). 
Buat pengguna IAM, daftarkan perangkat MFA, dan buat peran yang memberikan izin untuk membiarkan pengguna mencantumkan bucket S3 hanya jika kredenal MFA digunakan.  

```
def setup(iam_resource):
    """
    Creates a new user with no permissions.
    Creates a new virtual multi-factor authentication (MFA) device.
    Displays the QR code to seed the device.
    Asks for two codes from the MFA device.
    Registers the MFA device for the user.
    Creates an access key pair for the user.
    Creates an inline policy for the user that lets the user list Amazon S3 buckets,
    but only when MFA credentials are used.

    Any MFA device that can scan a QR code will work with this demonstration.
    Common choices are mobile apps like LastPass Authenticator,
    Microsoft Authenticator, or Google Authenticator.

    :param iam_resource: A Boto3 AWS Identity and Access Management (IAM) resource
                         that has permissions to create users, MFA devices, and
                         policies in the account.
    :return: The newly created user, user key, and virtual MFA device.
    """
    user = iam_resource.create_user(UserName=unique_name("user"))
    print(f"Created user {user.name}.")

    virtual_mfa_device = iam_resource.create_virtual_mfa_device(
        VirtualMFADeviceName=unique_name("mfa")
    )
    print(f"Created virtual MFA device {virtual_mfa_device.serial_number}")

    print(
        f"Showing the QR code for the device. Scan this in the MFA app of your "
        f"choice."
    )
    with open("qr.png", "wb") as qr_file:
        qr_file.write(virtual_mfa_device.qr_code_png)
    webbrowser.open(qr_file.name)

    print(f"Enter two consecutive code from your MFA device.")
    mfa_code_1 = input("Enter the first code: ")
    mfa_code_2 = input("Enter the second code: ")
    user.enable_mfa(
        SerialNumber=virtual_mfa_device.serial_number,
        AuthenticationCode1=mfa_code_1,
        AuthenticationCode2=mfa_code_2,
    )
    os.remove(qr_file.name)
    print(f"MFA device is registered with the user.")

    user_key = user.create_access_key_pair()
    print(f"Created access key pair for user.")

    print(f"Wait for user to be ready.", end="")
    progress_bar(10)

    user.create_policy(
        PolicyName=unique_name("user-policy"),
        PolicyDocument=json.dumps(
            {
                "Version":"2012-10-17",		 	 	 
                "Statement": [
                    {
                        "Effect": "Allow",
                        "Action": "s3:ListAllMyBuckets",
                        "Resource": "arn:aws:s3:::*",
                        "Condition": {"Bool": {"aws:MultiFactorAuthPresent": True}},
                    }
                ],
            }
        ),
    )
    print(
        f"Created an inline policy for {user.name} that lets the user list buckets, "
        f"but only when MFA credentials are present."
    )

    print("Give AWS time to propagate these new resources and connections.", end="")
    progress_bar(10)

    return user, user_key, virtual_mfa_device
```
Dapatkan kredenal sesi sementara dengan meneruskan token MFA, dan gunakan kredensialnya untuk mencantumkan bucket S3 untuk akun tersebut.  

```
def list_buckets_with_session_token_with_mfa(mfa_serial_number, mfa_totp, sts_client):
    """
    Gets a session token with MFA credentials and uses the temporary session
    credentials to list Amazon S3 buckets.

    Requires an MFA device serial number and token.

    :param mfa_serial_number: The serial number of the MFA device. For a virtual MFA
                              device, this is an Amazon Resource Name (ARN).
    :param mfa_totp: A time-based, one-time password issued by the MFA device.
    :param sts_client: A Boto3 STS instance that has permission to assume the role.
    """
    if mfa_serial_number is not None:
        response = sts_client.get_session_token(
            SerialNumber=mfa_serial_number, TokenCode=mfa_totp
        )
    else:
        response = sts_client.get_session_token()
    temp_credentials = response["Credentials"]

    s3_resource = boto3.resource(
        "s3",
        aws_access_key_id=temp_credentials["AccessKeyId"],
        aws_secret_access_key=temp_credentials["SecretAccessKey"],
        aws_session_token=temp_credentials["SessionToken"],
    )

    print(f"Buckets for the account:")
    for bucket in s3_resource.buckets.all():
        print(bucket.name)
```
Hancurkan sumber daya yang dibuat untuk demo.  

```
def teardown(user, virtual_mfa_device):
    """
    Removes all resources created during setup.

    :param user: The demo user.
    :param role: The demo MFA device.
    """
    for user_pol in user.policies.all():
        user_pol.delete()
        print("Deleted inline user policy.")
    for key in user.access_keys.all():
        key.delete()
        print("Deleted user's access key.")
    for mfa in user.mfa_devices.all():
        mfa.disassociate()
    virtual_mfa_device.delete()
    user.delete()
    print(f"Deleted {user.name}.")
```
Jalankan skenario ini dengan menggunakan fungsi yang ditentukan sebelumnya.  

```
def usage_demo():
    """Drives the demonstration."""
    print("-" * 88)
    print(
        f"Welcome to the AWS Security Token Service assume role demo, "
        f"starring multi-factor authentication (MFA)!"
    )
    print("-" * 88)
    iam_resource = boto3.resource("iam")
    user, user_key, virtual_mfa_device = setup(iam_resource)
    try:
        sts_client = boto3.client(
            "sts", aws_access_key_id=user_key.id, aws_secret_access_key=user_key.secret
        )
        try:
            print("Listing buckets without specifying MFA credentials.")
            list_buckets_with_session_token_with_mfa(None, None, sts_client)
        except ClientError as error:
            if error.response["Error"]["Code"] == "AccessDenied":
                print("Got expected AccessDenied error.")
        mfa_totp = input("Enter the code from your registered MFA device: ")
        list_buckets_with_session_token_with_mfa(
            virtual_mfa_device.serial_number, mfa_totp, sts_client
        )
    finally:
        teardown(user, virtual_mfa_device)
        print("Thanks for watching!")
```
+  Untuk detail API, lihat [GetSessionToken](https://docs.aws.amazon.com/goto/boto3/sts-2011-06-15/GetSessionToken)di *AWS SDK for Python (Boto3) Referensi* API. 

# Dukungan contoh menggunakan SDK untuk Python (Boto3)
<a name="python_3_support_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Dukungan.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Dukungan
<a name="support_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan Dukungan.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
import logging
import boto3
from botocore.exceptions import ClientError

logger = logging.getLogger(__name__)


def hello_support(support_client):
    """
    Use the AWS SDK for Python (Boto3) to create an AWS Support client and count
    the available services in your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param support_client: A Boto3 Support Client object.
    """
    try:
        print("Hello, AWS Support! Let's count the available Support services:")
        response = support_client.describe_services()
        print(f"There are {len(response['services'])} services available.")
    except ClientError as err:
        if err.response["Error"]["Code"] == "SubscriptionRequiredException":
            logger.info(
                "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                "examples."
            )
        else:
            logger.error(
                "Couldn't count services. Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


if __name__ == "__main__":
    hello_support(boto3.client("support"))
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeServices)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="support_Scenario_GetStartedSupportCases_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan dan tampilkan layanan yang tersedia dan tingkat keparahan untuk kasus.
+ Buat kasus dukungan menggunakan layanan, kategori, dan tingkat keparahan yang dipilih.
+ Dapatkan dan tampilkan daftar kasus terbuka untuk hari ini.
+ Tambahkan set lampiran dan komunikasi ke kasus baru.
+ Jelaskan keterikatan dan komunikasi baru untuk kasus ini.
+ Selesaikan kasusnya.
+ Dapatkan dan tampilkan daftar kasus yang diselesaikan untuk hari ini.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class SupportCasesScenario:
    """Runs an interactive scenario that shows how to get started using AWS Support."""

    def __init__(self, support_wrapper):
        """
        :param support_wrapper: An object that wraps AWS Support actions.
        """
        self.support_wrapper = support_wrapper

    def display_and_select_service(self):
        """
        Lists support services and prompts the user to select one.

        :return: The support service selected by the user.
        """
        print("-" * 88)
        services_list = self.support_wrapper.describe_services("en")
        print(f"AWS Support client returned {len(services_list)} services.")
        print("Displaying first 10 services:")

        service_choices = [svc["name"] for svc in services_list[:10]]
        selected_index = q.choose(
            "Select an example support service by entering a number from the preceding list:",
            service_choices,
        )
        selected_service = services_list[selected_index]
        print("-" * 88)
        return selected_service

    def display_and_select_category(self, service):
        """
        Lists categories for a support service and prompts the user to select one.

        :param service: The service of the categories.
        :return: The selected category.
        """
        print("-" * 88)
        print(
            f"Available support categories for Service {service['name']} {len(service['categories'])}:"
        )
        categories_choices = [category["name"] for category in service["categories"]]
        selected_index = q.choose(
            "Select an example support category by entering a number from the preceding list:",
            categories_choices,
        )
        selected_category = service["categories"][selected_index]
        print("-" * 88)
        return selected_category

    def display_and_select_severity(self):
        """
        Lists available severity levels and prompts the user to select one.

        :return: The selected severity level.
        """
        print("-" * 88)
        severity_levels_list = self.support_wrapper.describe_severity_levels("en")
        print(f"Available severity levels:")
        severity_choices = [level["name"] for level in severity_levels_list]
        selected_index = q.choose(
            "Select an example severity level by entering a number from the preceding list:",
            severity_choices,
        )
        selected_severity = severity_levels_list[selected_index]
        print("-" * 88)
        return selected_severity

    def create_example_case(self, service, category, severity_level):
        """
        Creates an example support case with the user's selections.

        :param service: The service for the new case.
        :param category: The category for the new case.
        :param severity_level: The severity level for the new case.
        :return: The caseId of the new support case.
        """
        print("-" * 88)
        print(f"Creating new case for service {service['name']}.")
        case_id = self.support_wrapper.create_case(service, category, severity_level)
        print(f"\tNew case created with ID {case_id}.")
        print("-" * 88)
        return case_id

    def list_open_cases(self):
        """
        List the open cases for the current day.
        """
        print("-" * 88)
        print("Let's list the open cases for the current day.")
        start_time = str(datetime.utcnow().date())
        end_time = str(datetime.utcnow().date() + timedelta(days=1))
        open_cases = self.support_wrapper.describe_cases(start_time, end_time, False)
        for case in open_cases:
            print(f"\tCase: {case['caseId']}: status {case['status']}.")
        print("-" * 88)

    def create_attachment_set(self):
        """
        Create an attachment set with a sample file.

        :return: The attachment set ID of the new attachment set.
        """
        print("-" * 88)
        print("Creating attachment set with a sample file.")
        attachment_set_id = self.support_wrapper.add_attachment_to_set()
        print(f"\tNew attachment set created with ID {attachment_set_id}.")
        print("-" * 88)
        return attachment_set_id

    def add_communication(self, case_id, attachment_set_id):
        """
        Add a communication with an attachment set to the case.

        :param case_id: The ID of the case for the communication.
        :param attachment_set_id: The ID of the attachment set to
        add to the communication.
        """
        print("-" * 88)
        print(f"Adding a communication and attachment set to the case.")
        self.support_wrapper.add_communication_to_case(attachment_set_id, case_id)
        print(
            f"Added a communication and attachment set {attachment_set_id} to the case {case_id}."
        )
        print("-" * 88)

    def list_communications(self, case_id):
        """
        List the communications associated with a case.

        :param case_id: The ID of the case.
        :return: The attachment ID of an attachment.
        """
        print("-" * 88)
        print("Let's list the communications for our case.")
        attachment_id = ""
        communications = self.support_wrapper.describe_all_case_communications(case_id)
        for communication in communications:
            print(
                f"\tCommunication created on {communication['timeCreated']} "
                f"has {len(communication['attachmentSet'])} attachments."
            )
            if len(communication["attachmentSet"]) > 0:
                attachment_id = communication["attachmentSet"][0]["attachmentId"]
        print("-" * 88)
        return attachment_id

    def describe_case_attachment(self, attachment_id):
        """
        Describe an attachment associated with a case.

        :param attachment_id: The ID of the attachment.
        """
        print("-" * 88)
        print("Let's list the communications for our case.")
        attached_file = self.support_wrapper.describe_attachment(attachment_id)
        print(f"\tAttachment includes file {attached_file}.")
        print("-" * 88)

    def resolve_case(self, case_id):
        """
        Shows how to resolve an AWS Support case by its ID.

        :param case_id: The ID of the case to resolve.
        """
        print("-" * 88)
        print(f"Resolving case with ID {case_id}.")
        case_status = self.support_wrapper.resolve_case(case_id)
        print(f"\tFinal case status is {case_status}.")
        print("-" * 88)

    def list_resolved_cases(self):
        """
        List the resolved cases for the current day.
        """
        print("-" * 88)
        print("Let's list the resolved cases for the current day.")
        start_time = str(datetime.utcnow().date())
        end_time = str(datetime.utcnow().date() + timedelta(days=1))
        resolved_cases = self.support_wrapper.describe_cases(start_time, end_time, True)
        for case in resolved_cases:
            print(f"\tCase: {case['caseId']}: status {case['status']}.")
        print("-" * 88)

    def run_scenario(self):
        logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

        print("-" * 88)
        print("Welcome to the AWS Support get started with support cases demo.")
        print("-" * 88)

        selected_service = self.display_and_select_service()
        selected_category = self.display_and_select_category(selected_service)
        selected_severity = self.display_and_select_severity()
        new_case_id = self.create_example_case(
            selected_service, selected_category, selected_severity
        )
        wait(10)
        self.list_open_cases()
        new_attachment_set_id = self.create_attachment_set()
        self.add_communication(new_case_id, new_attachment_set_id)
        new_attachment_id = self.list_communications(new_case_id)
        self.describe_case_attachment(new_attachment_id)
        self.resolve_case(new_case_id)
        wait(10)
        self.list_resolved_cases()

        print("\nThanks for watching!")
        print("-" * 88)


if __name__ == "__main__":
    try:
        scenario = SupportCasesScenario(SupportWrapper.from_client())
        scenario.run_scenario()
    except Exception:
        logging.exception("Something went wrong with the demo.")
```
Tentukan kelas yang membungkus tindakan klien dukungan.  

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def describe_services(self, language):
        """
        Get the descriptions of AWS services available for support for a language.

        :param language: The language for support services.
        Currently, only "en" (English) and "ja" (Japanese) are supported.
        :return: The list of AWS service descriptions.
        """
        try:
            response = self.support_client.describe_services(language=language)
            services = response["services"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't get Support services for language %s. Here's why: %s: %s",
                    language,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return services


    def describe_severity_levels(self, language):
        """
        Get the descriptions of available severity levels for support cases for a language.

        :param language: The language for support severity levels.
        Currently, only "en" (English) and "ja" (Japanese) are supported.
        :return: The list of severity levels.
        """
        try:
            response = self.support_client.describe_severity_levels(language=language)
            severity_levels = response["severityLevels"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't get severity levels for language %s. Here's why: %s: %s",
                    language,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return severity_levels


    def create_case(self, service, category, severity):
        """
        Create a new support case.

        :param service: The service to use for the new case.
        :param category: The category to use for the new case.
        :param severity: The severity to use for the new case.
        :return: The caseId of the new case.
        """
        try:
            response = self.support_client.create_case(
                subject="Example case for testing, ignore.",
                serviceCode=service["code"],
                severityCode=severity["code"],
                categoryCode=category["code"],
                communicationBody="Example support case body.",
                language="en",
                issueType="customer-service",
            )
            case_id = response["caseId"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't create case. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return case_id


    def add_attachment_to_set(self):
        """
        Add an attachment to a set, or create a new attachment set if one does not exist.

        :return: The attachment set ID.
        """
        try:
            response = self.support_client.add_attachments_to_set(
                attachments=[
                    {
                        "fileName": "attachment_file.txt",
                        "data": b"This is a sample file for attachment to a support case.",
                    }
                ]
            )
            new_set_id = response["attachmentSetId"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't add attachment. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return new_set_id


    def add_communication_to_case(self, attachment_set_id, case_id):
        """
        Add a communication and an attachment set to a case.

        :param attachment_set_id: The ID of an existing attachment set.
        :param case_id: The ID of the case.
        """
        try:
            self.support_client.add_communication_to_case(
                caseId=case_id,
                communicationBody="This is an example communication added to a support case.",
                attachmentSetId=attachment_set_id,
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't add communication. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise


    def describe_all_case_communications(self, case_id):
        """
        Describe all the communications for a case using a paginator.

        :param case_id: The ID of the case.
        :return: The communications for the case.
        """
        try:
            communications = []
            paginator = self.support_client.get_paginator("describe_communications")
            for page in paginator.paginate(caseId=case_id):
                communications += page["communications"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't describe communications. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return communications


    def describe_attachment(self, attachment_id):
        """
        Get information about an attachment by its attachmentID.

        :param attachment_id: The ID of the attachment.
        :return: The name of the attached file.
        """
        try:
            response = self.support_client.describe_attachment(
                attachmentId=attachment_id
            )
            attached_file = response["attachment"]["fileName"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't get attachment description. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return attached_file


    def resolve_case(self, case_id):
        """
        Resolve a support case by its caseId.

        :param case_id: The ID of the case to resolve.
        :return: The final status of the case.
        """
        try:
            response = self.support_client.resolve_case(caseId=case_id)
            final_status = response["finalCaseStatus"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't resolve case. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return final_status


    def describe_cases(self, after_time, before_time, resolved):
        """
        Describe support cases over a period of time, optionally filtering
        by status.

        :param after_time: The start time to include for cases.
        :param before_time: The end time to include for cases.
        :param resolved: True to include resolved cases in the results,
            otherwise results are open cases.
        :return: The final status of the case.
        """
        try:
            cases = []
            paginator = self.support_client.get_paginator("describe_cases")
            for page in paginator.paginate(
                afterTime=after_time,
                beforeTime=before_time,
                includeResolvedCases=resolved,
                language="en",
            ):
                cases += page["cases"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't describe cases. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            if resolved:
                cases = filter(lambda case: case["status"] == "resolved", cases)
            return cases
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [AddAttachmentsToSet](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/AddAttachmentsToSet)
  + [AddCommunicationToCase](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/AddCommunicationToCase)
  + [CreateCase](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/CreateCase)
  + [DescribeAttachment](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeAttachment)
  + [DescribeCases](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeCases)
  + [DescribeCommunications](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeCommunications)
  + [DescribeServices](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeServices)
  + [DescribeSeverityLevels](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeSeverityLevels)
  + [ResolveCase](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/ResolveCase)

## Tindakan
<a name="actions"></a>

### `AddAttachmentsToSet`
<a name="support_AddAttachmentsToSet_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddAttachmentsToSet`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def add_attachment_to_set(self):
        """
        Add an attachment to a set, or create a new attachment set if one does not exist.

        :return: The attachment set ID.
        """
        try:
            response = self.support_client.add_attachments_to_set(
                attachments=[
                    {
                        "fileName": "attachment_file.txt",
                        "data": b"This is a sample file for attachment to a support case.",
                    }
                ]
            )
            new_set_id = response["attachmentSetId"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't add attachment. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return new_set_id
```
+  Untuk detail API, lihat [AddAttachmentsToSet](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/AddAttachmentsToSet)di *AWS SDK for Python (Boto3) Referensi* API. 

### `AddCommunicationToCase`
<a name="support_AddCommunicationToCase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddCommunicationToCase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def add_communication_to_case(self, attachment_set_id, case_id):
        """
        Add a communication and an attachment set to a case.

        :param attachment_set_id: The ID of an existing attachment set.
        :param case_id: The ID of the case.
        """
        try:
            self.support_client.add_communication_to_case(
                caseId=case_id,
                communicationBody="This is an example communication added to a support case.",
                attachmentSetId=attachment_set_id,
            )
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't add communication. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
```
+  Untuk detail API, lihat [AddCommunicationToCase](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/AddCommunicationToCase)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateCase`
<a name="support_CreateCase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def create_case(self, service, category, severity):
        """
        Create a new support case.

        :param service: The service to use for the new case.
        :param category: The category to use for the new case.
        :param severity: The severity to use for the new case.
        :return: The caseId of the new case.
        """
        try:
            response = self.support_client.create_case(
                subject="Example case for testing, ignore.",
                serviceCode=service["code"],
                severityCode=severity["code"],
                categoryCode=category["code"],
                communicationBody="Example support case body.",
                language="en",
                issueType="customer-service",
            )
            case_id = response["caseId"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't create case. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return case_id
```
+  Untuk detail API, lihat [CreateCase](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/CreateCase)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeAttachment`
<a name="support_DescribeAttachment_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAttachment`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def describe_attachment(self, attachment_id):
        """
        Get information about an attachment by its attachmentID.

        :param attachment_id: The ID of the attachment.
        :return: The name of the attached file.
        """
        try:
            response = self.support_client.describe_attachment(
                attachmentId=attachment_id
            )
            attached_file = response["attachment"]["fileName"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't get attachment description. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return attached_file
```
+  Untuk detail API, lihat [DescribeAttachment](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeAttachment)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeCases`
<a name="support_DescribeCases_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCases`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def describe_cases(self, after_time, before_time, resolved):
        """
        Describe support cases over a period of time, optionally filtering
        by status.

        :param after_time: The start time to include for cases.
        :param before_time: The end time to include for cases.
        :param resolved: True to include resolved cases in the results,
            otherwise results are open cases.
        :return: The final status of the case.
        """
        try:
            cases = []
            paginator = self.support_client.get_paginator("describe_cases")
            for page in paginator.paginate(
                afterTime=after_time,
                beforeTime=before_time,
                includeResolvedCases=resolved,
                language="en",
            ):
                cases += page["cases"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't describe cases. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            if resolved:
                cases = filter(lambda case: case["status"] == "resolved", cases)
            return cases
```
+  Untuk detail API, lihat [DescribeCases](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeCases)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeCommunications`
<a name="support_DescribeCommunications_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCommunications`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def describe_all_case_communications(self, case_id):
        """
        Describe all the communications for a case using a paginator.

        :param case_id: The ID of the case.
        :return: The communications for the case.
        """
        try:
            communications = []
            paginator = self.support_client.get_paginator("describe_communications")
            for page in paginator.paginate(caseId=case_id):
                communications += page["communications"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't describe communications. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return communications
```
+  Untuk detail API, lihat [DescribeCommunications](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeCommunications)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeServices`
<a name="support_DescribeServices_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeServices`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def describe_services(self, language):
        """
        Get the descriptions of AWS services available for support for a language.

        :param language: The language for support services.
        Currently, only "en" (English) and "ja" (Japanese) are supported.
        :return: The list of AWS service descriptions.
        """
        try:
            response = self.support_client.describe_services(language=language)
            services = response["services"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't get Support services for language %s. Here's why: %s: %s",
                    language,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return services
```
+  Untuk detail API, lihat [DescribeServices](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeServices)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeSeverityLevels`
<a name="support_DescribeSeverityLevels_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSeverityLevels`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def describe_severity_levels(self, language):
        """
        Get the descriptions of available severity levels for support cases for a language.

        :param language: The language for support severity levels.
        Currently, only "en" (English) and "ja" (Japanese) are supported.
        :return: The list of severity levels.
        """
        try:
            response = self.support_client.describe_severity_levels(language=language)
            severity_levels = response["severityLevels"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't get severity levels for language %s. Here's why: %s: %s",
                    language,
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return severity_levels
```
+  Untuk detail API, lihat [DescribeSeverityLevels](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/DescribeSeverityLevels)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ResolveCase`
<a name="support_ResolveCase_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResolveCase`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/support#code-examples). 

```
class SupportWrapper:
    """Encapsulates Support actions."""

    def __init__(self, support_client):
        """
        :param support_client: A Boto3 Support client.
        """
        self.support_client = support_client

    @classmethod
    def from_client(cls):
        """
        Instantiates this class from a Boto3 client.
        """
        support_client = boto3.client("support")
        return cls(support_client)


    def resolve_case(self, case_id):
        """
        Resolve a support case by its caseId.

        :param case_id: The ID of the case to resolve.
        :return: The final status of the case.
        """
        try:
            response = self.support_client.resolve_case(caseId=case_id)
            final_status = response["finalCaseStatus"]
        except ClientError as err:
            if err.response["Error"]["Code"] == "SubscriptionRequiredException":
                logger.info(
                    "You must have a Business, Enterprise On-Ramp, or Enterprise Support "
                    "plan to use the AWS Support API. \n\tPlease upgrade your subscription to run these "
                    "examples."
                )
            else:
                logger.error(
                    "Couldn't resolve case. Here's why: %s: %s",
                    err.response["Error"]["Code"],
                    err.response["Error"]["Message"],
                )
                raise
        else:
            return final_status
```
+  Untuk detail API, lihat [ResolveCase](https://docs.aws.amazon.com/goto/boto3/support-2013-04-15/ResolveCase)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Systems Manager menggunakan SDK for Python (Boto3)
<a name="python_3_ssm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Python (Boto3) with Systems Manager.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Hello Systems Manager
<a name="ssm_Hello_python_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Systems Manager.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
import boto3
from botocore.exceptions import ClientError


def hello_systems_manager(ssm_client):
    """
    Use the AWS SDK for Python (Boto3) to create an AWS Systems Manager
    client and list the first 5 documents in your account.
    This example uses the default settings specified in your shared credentials
    and config files.

    :param ssm_client: A Boto3 AWS Systems Manager Client object. This object wraps
                             the low-level AWS Systems Manager service API.
    """
    print("Hello, AWS Systems Manager! Let's list some of your documents:\n")

    paginator = ssm_client.get_paginator("list_documents")
    page_iterator = paginator.paginate(PaginationConfig={"MaxItems": 5})
    for page in page_iterator:
        for document in page["DocumentIdentifiers"]:
            print(f"  {document['Name']}")


if __name__ == "__main__":
    try:
        hello_systems_manager(boto3.client("ssm"))
    except ClientError as err:
        print("Hello systems manager had an error.")
        print(err.response["Error"]["Code"])
        print(err.response["Error"]["Message"])
```
+  Untuk detail API, lihat [ListDocuments](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/ListDocuments)di *AWS SDK for Python (Boto3) Referensi* API. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ssm_Scenario_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat jendela pemeliharaan.
+ Ubah jadwal jendela pemeliharaan.
+ Buat dokumen.
+ Kirim perintah ke instance EC2 tertentu.
+ Buat sebuah OpsItem.
+ Perbarui dan selesaikan OpsItem.
+ Hapus jendela pemeliharaan, OpsItem, dan dokumen.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 
Jalankan skenario interaktif di penggugah/prompt perintah.  

```
class SystemsManagerScenario:
    """Runs an interactive scenario that shows how to get started using Amazon Systems Manager."""

    def __init__(self, document_wrapper, maintenance_window_wrapper, ops_item_wrapper):
        """
        :param document_wrapper: An object that wraps Systems Manager document functions.
        :param maintenance_window_wrapper: An object that wraps Systems Manager maintenance window functions.
        :param ops_item_wrapper: An object that wraps Systems Manager OpsItem functions.
        """
        self.document_wrapper = document_wrapper
        self.maintenance_window_wrapper = maintenance_window_wrapper
        self.ops_item_wrapper = ops_item_wrapper

    def run(self):
        """Demonstrates how to use the AWS SDK for Python (Boto3) to get started with Systems Manager."""
        try:
            print("-" * 88)
            print(
                """
Welcome to the AWS Systems Manager SDK Getting Started scenario.
This program demonstrates how to interact with Systems Manager using the AWS SDK for Python (Boto3).
Systems Manager is the operations hub for your AWS applications and resources and a secure end-to-end management 
solution. The program's primary functions include creating a maintenance window, creating a document, sending a 
command to a document, listing documents, listing commands, creating an OpsItem, modifying an OpsItem, and deleting 
Systems Manager resources. Upon completion of the program, all AWS resources are cleaned up.
Let's get started..."""
            )
            q.ask("Please hit Enter")

            print("-" * 88)
            print("Create a Systems Manager maintenance window.")
            maintenance_window_name = q.ask(
                "Please enter the maintenance window name (default is ssm-maintenance-window):",
            )
            if not maintenance_window_name:
                maintenance_window_name = "ssm-maintenance-window"

            self.maintenance_window_wrapper.create(
                name=maintenance_window_name,
                schedule="cron(0 10 ? * MON-FRI *)",
                duration=2,
                cutoff=1,
                allow_unassociated_targets=True,
            )

            print("-" * 88)
            print("Modify the maintenance window by changing the schedule")
            q.ask("Please hit Enter")

            self.maintenance_window_wrapper.update(
                name=maintenance_window_name,
                schedule="cron(0 0 ? * MON *)",
                duration=24,
                cutoff=1,
                allow_unassociated_targets=True,
                enabled=True,
            )

            print("-" * 88)
            print(
                "Create a document that defines the actions that Systems Manager performs on your EC2 instance."
            )
            document_name = q.ask(
                "Please enter the document name (default is ssmdocument):"
            )

            if not document_name:
                document_name = "ssmdocument"

            self.document_wrapper.create(
                name=document_name,
                content="""
{
    "schemaVersion": "2.2",
    "description": "Run a simple shell command",
    "mainSteps": [
        {
            "action": "aws:runShellScript",
            "name": "runEchoCommand",
            "inputs": {
              "runCommand": [
                "echo 'Hello, world!'"
              ]
            }
        }
    ]
}
            """,
            )

            self.document_wrapper.wait_until_active()

            print(
                """
Now you have the option of running a command on an EC2 instance that echoes 'Hello, world!'.
In order to run this command, you must provide the instance ID of a Linux EC2 instance. If you do
not already have a running Linux EC2 instance in your account, you can create one using the AWS console.
For information about creating an EC2 instance, see 
https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-launch-instance-wizard.html.
            """
            )

            if q.ask(
                "Would you like to run a command on an EC2 instance? (y/n)",
                q.is_yesno,
            ):
                instance_id = q.ask(
                    "Please enter the instance ID of the EC2 instance:", q.non_empty
                )
                command_id = self.document_wrapper.send_command(
                    instance_ids=[instance_id]
                )

                self.document_wrapper.wait_command_executed(
                    command_id=command_id, instance_id=instance_id
                )

                print("-" * 88)
                print(
                    "Lets get the time when the specific command was sent to the specific managed node"
                )
                q.ask("Please hit Enter")

                self.document_wrapper.list_command_invocations(instance_id=instance_id)

            print("-" * 88)
            print("-" * 88)
            print(
                """
Now we will create a  Systems Manager OpsItem.
An OpsItem is a feature provided by the Systems Manager service.
It is a type of operational data item that allows you to manage and track various operational issues,
events, or tasks within your AWS environment.

You can create OpsItems to track and manage operational issues as they arise.
For example, you could create an OpsItem whenever your application detects a critical error
or an anomaly in your infrastructure.
            """
            )
            q.ask("Please hit Enter")

            self.ops_item_wrapper.create(
                title="Disk Space Alert",
                description="Created by the Systems Manager Python (Boto3) API",
                source="EC2",
                category="Performance",
                severity="2",
            )

            print("-" * 88)
            print("-" * 88)
            print(f"Now we will update  the OpsItem {self.ops_item_wrapper.id}")
            q.ask("Please hit Enter")

            self.ops_item_wrapper.update(
                title="Disk Space Alert",
                description=f"An update to {self.ops_item_wrapper.id}",
            )

            print(
                f"Now we will get the status of the OpsItem {self.ops_item_wrapper.id}"
            )
            q.ask("Please hit Enter")

            # It may take a second for the ops item to be available
            counter = 0
            while not self.ops_item_wrapper.describe() and counter < 5:
                counter += 1
                time.sleep(1)

            print(f"Now we will resolve the OpsItem {self.ops_item_wrapper.id}")
            q.ask("Please hit Enter")

            self.ops_item_wrapper.update(status="Resolved")

            print("-" * 88)
            print("-" * 88)
            if q.ask(
                "Would you like to delete the Systems Manager resources? (y/n)",
                q.is_yesno,
            ):
                print("You selected to delete the resources.")
                self.cleanup()
            else:
                print("The Systems Manager resources will not be deleted")

            print("-" * 88)
            print("This concludes the Systems Manager SDK Getting Started scenario.")
            print("-" * 88)

        except Exception:
            self.cleanup()
            raise

    def cleanup(self):
        self.maintenance_window_wrapper.delete()
        self.ops_item_wrapper.delete()
        self.document_wrapper.delete()


if __name__ == "__main__":
    try:
        scenario = SystemsManagerScenario(
            DocumentWrapper.from_client(),
            MaintenanceWindowWrapper.from_client(),
            OpsItemWrapper.from_client(),
        )
        scenario.run()
    except Exception:
        logging.exception("Something went wrong with the demo.")
```
Tentukan kelas yang membungkus tindakan dokumen dan perintah.  

```
class DocumentWrapper:
    """Encapsulates AWS Systems Manager Document actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def create(self, content, name):
        """
        Creates a document.

        :param content: The content of the document.
        :param name: The name of the document.
        """
        try:
            self.ssm_client.create_document(
                Name=name, Content=content, DocumentType="Command"
            )
            self.name = name
        except self.ssm_client.exceptions.DocumentAlreadyExists:
            print(f"Document {name} already exists.")
            self.name = name
        except ClientError as err:
            logger.error(
                "Couldn't create %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete(self):
        """
        Deletes an AWS Systems Manager document.
        """
        if self.name is None:
            return

        try:
            self.ssm_client.delete_document(Name=self.name)
            print(f"Deleted document {self.name}.")
            self.name = None
        except ClientError as err:
            logger.error(
                "Couldn't delete %s. Here's why: %s: %s",
                self.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def send_command(self, instance_ids):
        """
        Sends a command to one or more instances.

        :param instance_ids: The IDs of the instances to send the command to.
        :return: The ID of the command.
        """
        try:
            response = self.ssm_client.send_command(
                InstanceIds=instance_ids, DocumentName=self.name, TimeoutSeconds=3600
            )
            return response["Command"]["CommandId"]
        except ClientError as err:
            logger.error(
                "Couldn't send command to %s. Here's why: %s: %s",
                self.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def describe(self):
        """
        Describes the document.

        :return: Document status.
        """
        try:
            response = self.ssm_client.describe_document(Name=self.name)
            return response["Document"]["Status"]
        except ClientError as err:
            logger.error(
                "Couldn't get %s. Here's why: %s: %s",
                self.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def wait_until_active(self, max_attempts=20, delay=5):
        """
        Waits until the document is active.

        :param max_attempts: The maximum number of attempts for checking the status.
        :param delay: The delay in seconds between each check.
        """
        attempt = 0
        status = ""
        while attempt <= max_attempts:
            status = self.describe()
            if status == "Active":
                break
            attempt += 1
            time.sleep(delay)

        if status != "Active":
            logger.error("Document is not active.")
        else:
            logger.info("Document is active.")

    def wait_command_executed(self, command_id, instance_id):
        """
        Waits until the command is executed on the instance.

        :param command_id: The ID of the command.
        :param instance_id: The ID of the instance.
        """

        waiter = self.ssm_client.get_waiter("command_executed")
        waiter.wait(CommandId=command_id, InstanceId=instance_id)

    def list_command_invocations(self, instance_id):
        """
        Lists the commands for an instance.

        :param instance_id: The ID of the instance.
        :return: The list of commands.
        """
        try:
            paginator = self.ssm_client.get_paginator("list_command_invocations")
            command_invocations = []
            for page in paginator.paginate(InstanceId=instance_id):
                command_invocations.extend(page["CommandInvocations"])
            num_of_commands = len(command_invocations)
            print(
                f"{num_of_commands} command invocation(s) found for instance {instance_id}."
            )

            if num_of_commands > 10:
                print("Displaying the first 10 commands:")
                num_of_commands = 10
            date_format = "%A, %d %B %Y %I:%M%p"
            for command in command_invocations[:num_of_commands]:
                print(
                    f"   The time of command invocation is {command['RequestedDateTime'].strftime(date_format)}"
                )
        except ClientError as err:
            logger.error(
                "Couldn't list commands for %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Tentukan kelas yang membungkus tindakan item ops.  

```
class OpsItemWrapper:
    """Encapsulates AWS Systems Manager OpsItem actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.id = None

    @classmethod
    def from_client(cls):
        """
        :return: A OpsItemWrapper instance.
        """
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def create(self, title, source, category, severity, description):
        """
        Create an OpsItem

        :param title: The OpsItem title.
        :param source: The OpsItem source.
        :param category: The OpsItem category.
        :param severity: The OpsItem severity.
        :param description: The OpsItem description.

        """
        try:
            response = self.ssm_client.create_ops_item(
                Title=title,
                Source=source,
                Category=category,
                Severity=severity,
                Description=description,
            )
            self.id = response["OpsItemId"]
        except self.ssm_client.exceptions.OpsItemLimitExceededException as err:
            logger.error(
                "Couldn't create ops item because you have exceeded your open OpsItem limit. "
                "Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        except ClientError as err:
            logger.error(
                "Couldn't create ops item %s. Here's why: %s: %s",
                title,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise

    def delete(self):
        """
        Delete the OpsItem.
        """
        if self.id is None:
            return
        try:
            self.ssm_client.delete_ops_item(OpsItemId=self.id)
            print(f"Deleted ops item with id {self.id}")
            self.id = None
        except ClientError as err:
            logger.error(
                "Couldn't delete ops item %s. Here's why: %s: %s",
                self.id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def describe(self):
        """
        Describe an OpsItem.
        """
        try:
            paginator = self.ssm_client.get_paginator("describe_ops_items")
            ops_items = []
            for page in paginator.paginate(
                OpsItemFilters=[
                    {"Key": "OpsItemId", "Values": [self.id], "Operator": "Equal"}
                ]
            ):
                ops_items.extend(page["OpsItemSummaries"])

            for item in ops_items:
                print(
                    f"The item title is {item['Title']} and the status is {item['Status']}"
                )
            return len(ops_items) > 0
        except ClientError as err:
            logger.error(
                "Couldn't describe ops item %s. Here's why: %s: %s",
                self.id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def update(self, title=None, description=None, status=None):
        """
        Update an OpsItem.

        :param title: The new OpsItem title.
        :param description: The new OpsItem description.
        :param status: The new OpsItem status.
        :return:
        """
        args = dict(OpsItemId=self.id)
        if title is not None:
            args["Title"] = title
        if description is not None:
            args["Description"] = description
        if status is not None:
            args["Status"] = status
        try:
            self.ssm_client.update_ops_item(**args)
        except ClientError as err:
            logger.error(
                "Couldn't update ops item %s. Here's why: %s: %s",
                self.id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
Tentukan kelas yang membungkus tindakan jendela pemeliharaan.  

```
class MaintenanceWindowWrapper:
    """Encapsulates AWS Systems Manager maintenance window actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.window_id = None
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def create(self, name, schedule, duration, cutoff, allow_unassociated_targets):
        """
        Create an AWS Systems Manager maintenance window.

        :param name: The name of the maintenance window.
        :param schedule: The schedule of the maintenance window.
        :param duration: The duration of the maintenance window.
        :param cutoff: The cutoff time of the maintenance window.
        :param allow_unassociated_targets: Allow the maintenance window to run on managed nodes, even
                                           if you haven't registered those nodes as targets.
        """
        try:
            response = self.ssm_client.create_maintenance_window(
                Name=name,
                Schedule=schedule,
                Duration=duration,
                Cutoff=cutoff,
                AllowUnassociatedTargets=allow_unassociated_targets,
            )
            self.window_id = response["WindowId"]
            self.name = name
            logger.info("Created maintenance window %s.", self.window_id)
        except ParamValidationError as error:
            logger.error(
                "Parameter validation error when trying to create maintenance window %s. Here's why: %s",
                self.window_id,
                error,
            )
            raise
        except ClientError as err:
            logger.error(
                "Couldn't create maintenance window %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def delete(self):
        """
        Delete the associated AWS Systems Manager maintenance window.
        """
        if self.window_id is None:
            return

        try:
            self.ssm_client.delete_maintenance_window(WindowId=self.window_id)
            logger.info("Deleted maintenance window %s.", self.window_id)
            print(f"Deleted maintenance window {self.name}")
            self.window_id = None
        except ClientError as err:
            logger.error(
                "Couldn't delete maintenance window %s. Here's why: %s: %s",
                self.window_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise


    def update(
        self, name, enabled, schedule, duration, cutoff, allow_unassociated_targets
    ):
        """
        Update an AWS Systems Manager maintenance window.

        :param name: The name of the maintenance window.
        :param enabled: Whether the maintenance window is enabled to run on managed nodes.
        :param schedule: The schedule of the maintenance window.
        :param duration: The duration of the maintenance window.
        :param cutoff: The cutoff time of the maintenance window.
        :param allow_unassociated_targets: Allow the maintenance window to run on managed nodes, even
                                           if you haven't registered those nodes as targets.
        """
        try:
            self.ssm_client.update_maintenance_window(
                WindowId=self.window_id,
                Name=name,
                Enabled=enabled,
                Schedule=schedule,
                Duration=duration,
                Cutoff=cutoff,
                AllowUnassociatedTargets=allow_unassociated_targets,
            )
            self.name = name
            logger.info("Updated maintenance window %s.", self.window_id)
        except ParamValidationError as error:
            logger.error(
                "Parameter validation error when trying to update maintenance window %s. Here's why: %s",
                self.window_id,
                error,
            )
            raise
        except ClientError as err:
            logger.error(
                "Couldn't update maintenance window %s. Here's why: %s: %s",
                self.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateDocument](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/CreateDocument)
  + [CreateMaintenanceWindow](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/CreateMaintenanceWindow)
  + [CreateOpsItem](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/CreateOpsItem)
  + [DeleteMaintenanceWindow](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/DeleteMaintenanceWindow)
  + [ListCommandInvocations](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/ListCommandInvocations)
  + [SendCommand](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/SendCommand)
  + [UpdateOpsItem](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/UpdateOpsItem)

## Tindakan
<a name="actions"></a>

### `CreateDocument`
<a name="ssm_CreateDocument_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDocument`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class DocumentWrapper:
    """Encapsulates AWS Systems Manager Document actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def create(self, content, name):
        """
        Creates a document.

        :param content: The content of the document.
        :param name: The name of the document.
        """
        try:
            self.ssm_client.create_document(
                Name=name, Content=content, DocumentType="Command"
            )
            self.name = name
        except self.ssm_client.exceptions.DocumentAlreadyExists:
            print(f"Document {name} already exists.")
            self.name = name
        except ClientError as err:
            logger.error(
                "Couldn't create %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateDocument](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/CreateDocument)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateMaintenanceWindow`
<a name="ssm_CreateMaintenanceWindow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMaintenanceWindow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class MaintenanceWindowWrapper:
    """Encapsulates AWS Systems Manager maintenance window actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.window_id = None
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def create(self, name, schedule, duration, cutoff, allow_unassociated_targets):
        """
        Create an AWS Systems Manager maintenance window.

        :param name: The name of the maintenance window.
        :param schedule: The schedule of the maintenance window.
        :param duration: The duration of the maintenance window.
        :param cutoff: The cutoff time of the maintenance window.
        :param allow_unassociated_targets: Allow the maintenance window to run on managed nodes, even
                                           if you haven't registered those nodes as targets.
        """
        try:
            response = self.ssm_client.create_maintenance_window(
                Name=name,
                Schedule=schedule,
                Duration=duration,
                Cutoff=cutoff,
                AllowUnassociatedTargets=allow_unassociated_targets,
            )
            self.window_id = response["WindowId"]
            self.name = name
            logger.info("Created maintenance window %s.", self.window_id)
        except ParamValidationError as error:
            logger.error(
                "Parameter validation error when trying to create maintenance window %s. Here's why: %s",
                self.window_id,
                error,
            )
            raise
        except ClientError as err:
            logger.error(
                "Couldn't create maintenance window %s. Here's why: %s: %s",
                name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateMaintenanceWindow](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/CreateMaintenanceWindow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `CreateOpsItem`
<a name="ssm_CreateOpsItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOpsItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class OpsItemWrapper:
    """Encapsulates AWS Systems Manager OpsItem actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.id = None

    @classmethod
    def from_client(cls):
        """
        :return: A OpsItemWrapper instance.
        """
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def create(self, title, source, category, severity, description):
        """
        Create an OpsItem

        :param title: The OpsItem title.
        :param source: The OpsItem source.
        :param category: The OpsItem category.
        :param severity: The OpsItem severity.
        :param description: The OpsItem description.

        """
        try:
            response = self.ssm_client.create_ops_item(
                Title=title,
                Source=source,
                Category=category,
                Severity=severity,
                Description=description,
            )
            self.id = response["OpsItemId"]
        except self.ssm_client.exceptions.OpsItemLimitExceededException as err:
            logger.error(
                "Couldn't create ops item because you have exceeded your open OpsItem limit. "
                "Here's why: %s: %s",
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
        except ClientError as err:
            logger.error(
                "Couldn't create ops item %s. Here's why: %s: %s",
                title,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [CreateOpsItem](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/CreateOpsItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteDocument`
<a name="ssm_DeleteDocument_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDocument`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class DocumentWrapper:
    """Encapsulates AWS Systems Manager Document actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def delete(self):
        """
        Deletes an AWS Systems Manager document.
        """
        if self.name is None:
            return

        try:
            self.ssm_client.delete_document(Name=self.name)
            print(f"Deleted document {self.name}.")
            self.name = None
        except ClientError as err:
            logger.error(
                "Couldn't delete %s. Here's why: %s: %s",
                self.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteDocument](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/DeleteDocument)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteMaintenanceWindow`
<a name="ssm_DeleteMaintenanceWindow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMaintenanceWindow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class MaintenanceWindowWrapper:
    """Encapsulates AWS Systems Manager maintenance window actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.window_id = None
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def delete(self):
        """
        Delete the associated AWS Systems Manager maintenance window.
        """
        if self.window_id is None:
            return

        try:
            self.ssm_client.delete_maintenance_window(WindowId=self.window_id)
            logger.info("Deleted maintenance window %s.", self.window_id)
            print(f"Deleted maintenance window {self.name}")
            self.window_id = None
        except ClientError as err:
            logger.error(
                "Couldn't delete maintenance window %s. Here's why: %s: %s",
                self.window_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteMaintenanceWindow](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/DeleteMaintenanceWindow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteOpsItem`
<a name="ssm_DeleteOpsItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteOpsItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class OpsItemWrapper:
    """Encapsulates AWS Systems Manager OpsItem actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.id = None

    @classmethod
    def from_client(cls):
        """
        :return: A OpsItemWrapper instance.
        """
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def delete(self):
        """
        Delete the OpsItem.
        """
        if self.id is None:
            return
        try:
            self.ssm_client.delete_ops_item(OpsItemId=self.id)
            print(f"Deleted ops item with id {self.id}")
            self.id = None
        except ClientError as err:
            logger.error(
                "Couldn't delete ops item %s. Here's why: %s: %s",
                self.id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DeleteOpsItem](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/DeleteOpsItem)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DescribeOpsItems`
<a name="ssm_DescribeOpsItems_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOpsItems`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class OpsItemWrapper:
    """Encapsulates AWS Systems Manager OpsItem actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.id = None

    @classmethod
    def from_client(cls):
        """
        :return: A OpsItemWrapper instance.
        """
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def describe(self):
        """
        Describe an OpsItem.
        """
        try:
            paginator = self.ssm_client.get_paginator("describe_ops_items")
            ops_items = []
            for page in paginator.paginate(
                OpsItemFilters=[
                    {"Key": "OpsItemId", "Values": [self.id], "Operator": "Equal"}
                ]
            ):
                ops_items.extend(page["OpsItemSummaries"])

            for item in ops_items:
                print(
                    f"The item title is {item['Title']} and the status is {item['Status']}"
                )
            return len(ops_items) > 0
        except ClientError as err:
            logger.error(
                "Couldn't describe ops item %s. Here's why: %s: %s",
                self.id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [DescribeOpsItems](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/DescribeOpsItems)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListCommandInvocations`
<a name="ssm_ListCommandInvocations_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCommandInvocations`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class DocumentWrapper:
    """Encapsulates AWS Systems Manager Document actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def list_command_invocations(self, instance_id):
        """
        Lists the commands for an instance.

        :param instance_id: The ID of the instance.
        :return: The list of commands.
        """
        try:
            paginator = self.ssm_client.get_paginator("list_command_invocations")
            command_invocations = []
            for page in paginator.paginate(InstanceId=instance_id):
                command_invocations.extend(page["CommandInvocations"])
            num_of_commands = len(command_invocations)
            print(
                f"{num_of_commands} command invocation(s) found for instance {instance_id}."
            )

            if num_of_commands > 10:
                print("Displaying the first 10 commands:")
                num_of_commands = 10
            date_format = "%A, %d %B %Y %I:%M%p"
            for command in command_invocations[:num_of_commands]:
                print(
                    f"   The time of command invocation is {command['RequestedDateTime'].strftime(date_format)}"
                )
        except ClientError as err:
            logger.error(
                "Couldn't list commands for %s. Here's why: %s: %s",
                instance_id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [ListCommandInvocations](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/ListCommandInvocations)di *AWS SDK for Python (Boto3) Referensi* API. 

### `SendCommand`
<a name="ssm_SendCommand_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendCommand`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class DocumentWrapper:
    """Encapsulates AWS Systems Manager Document actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def send_command(self, instance_ids):
        """
        Sends a command to one or more instances.

        :param instance_ids: The IDs of the instances to send the command to.
        :return: The ID of the command.
        """
        try:
            response = self.ssm_client.send_command(
                InstanceIds=instance_ids, DocumentName=self.name, TimeoutSeconds=3600
            )
            return response["Command"]["CommandId"]
        except ClientError as err:
            logger.error(
                "Couldn't send command to %s. Here's why: %s: %s",
                self.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [SendCommand](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/SendCommand)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateMaintenanceWindow`
<a name="ssm_UpdateMaintenanceWindow_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateMaintenanceWindow`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class MaintenanceWindowWrapper:
    """Encapsulates AWS Systems Manager maintenance window actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.window_id = None
        self.name = None

    @classmethod
    def from_client(cls):
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def update(
        self, name, enabled, schedule, duration, cutoff, allow_unassociated_targets
    ):
        """
        Update an AWS Systems Manager maintenance window.

        :param name: The name of the maintenance window.
        :param enabled: Whether the maintenance window is enabled to run on managed nodes.
        :param schedule: The schedule of the maintenance window.
        :param duration: The duration of the maintenance window.
        :param cutoff: The cutoff time of the maintenance window.
        :param allow_unassociated_targets: Allow the maintenance window to run on managed nodes, even
                                           if you haven't registered those nodes as targets.
        """
        try:
            self.ssm_client.update_maintenance_window(
                WindowId=self.window_id,
                Name=name,
                Enabled=enabled,
                Schedule=schedule,
                Duration=duration,
                Cutoff=cutoff,
                AllowUnassociatedTargets=allow_unassociated_targets,
            )
            self.name = name
            logger.info("Updated maintenance window %s.", self.window_id)
        except ParamValidationError as error:
            logger.error(
                "Parameter validation error when trying to update maintenance window %s. Here's why: %s",
                self.window_id,
                error,
            )
            raise
        except ClientError as err:
            logger.error(
                "Couldn't update maintenance window %s. Here's why: %s: %s",
                self.name,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [UpdateMaintenanceWindow](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/UpdateMaintenanceWindow)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateOpsItem`
<a name="ssm_UpdateOpsItem_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateOpsItem`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ssm#code-examples). 

```
class OpsItemWrapper:
    """Encapsulates AWS Systems Manager OpsItem actions."""

    def __init__(self, ssm_client):
        """
        :param ssm_client: A Boto3 Systems Manager client.
        """
        self.ssm_client = ssm_client
        self.id = None

    @classmethod
    def from_client(cls):
        """
        :return: A OpsItemWrapper instance.
        """
        ssm_client = boto3.client("ssm")
        return cls(ssm_client)


    def update(self, title=None, description=None, status=None):
        """
        Update an OpsItem.

        :param title: The new OpsItem title.
        :param description: The new OpsItem description.
        :param status: The new OpsItem status.
        :return:
        """
        args = dict(OpsItemId=self.id)
        if title is not None:
            args["Title"] = title
        if description is not None:
            args["Description"] = description
        if status is not None:
            args["Status"] = status
        try:
            self.ssm_client.update_ops_item(**args)
        except ClientError as err:
            logger.error(
                "Couldn't update ops item %s. Here's why: %s: %s",
                self.id,
                err.response["Error"]["Code"],
                err.response["Error"]["Message"],
            )
            raise
```
+  Untuk detail API, lihat [UpdateOpsItem](https://docs.aws.amazon.com/goto/boto3/ssm-2014-11-06/UpdateOpsItem)di *AWS SDK for Python (Boto3) Referensi* API. 

# Contoh Amazon Texttract menggunakan SDK for Python (Boto3)
<a name="python_3_textract_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Textract. AWS SDK untuk Python (Boto3) 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AnalyzeDocument`
<a name="textract_AnalyzeDocument_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AnalyzeDocument`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/textract#code-examples). 

```
class TextractWrapper:
    """Encapsulates Textract functions."""

    def __init__(self, textract_client, s3_resource, sqs_resource):
        """
        :param textract_client: A Boto3 Textract client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        :param sqs_resource: A Boto3 Amazon SQS resource.
        """
        self.textract_client = textract_client
        self.s3_resource = s3_resource
        self.sqs_resource = sqs_resource


    def analyze_file(
        self, feature_types, *, document_file_name=None, document_bytes=None
    ):
        """
        Detects text and additional elements, such as forms or tables, in a local image
        file or from in-memory byte data.
        The image must be in PNG or JPG format.

        :param feature_types: The types of additional document features to detect.
        :param document_file_name: The name of a document image file.
        :param document_bytes: In-memory byte data of a document image.
        :return: The response from Amazon Textract, including a list of blocks
                 that describe elements detected in the image.
        """
        if document_file_name is not None:
            with open(document_file_name, "rb") as document_file:
                document_bytes = document_file.read()
        try:
            response = self.textract_client.analyze_document(
                Document={"Bytes": document_bytes}, FeatureTypes=feature_types
            )
            logger.info("Detected %s blocks.", len(response["Blocks"]))
        except ClientError:
            logger.exception("Couldn't detect text.")
            raise
        else:
            return response
```
+  Untuk detail API, lihat [AnalyzeDocument](https://docs.aws.amazon.com/goto/boto3/textract-2018-06-27/AnalyzeDocument)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DetectDocumentText`
<a name="textract_DetectDocumentText_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectDocumentText`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/textract#code-examples). 

```
class TextractWrapper:
    """Encapsulates Textract functions."""

    def __init__(self, textract_client, s3_resource, sqs_resource):
        """
        :param textract_client: A Boto3 Textract client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        :param sqs_resource: A Boto3 Amazon SQS resource.
        """
        self.textract_client = textract_client
        self.s3_resource = s3_resource
        self.sqs_resource = sqs_resource


    def detect_file_text(self, *, document_file_name=None, document_bytes=None):
        """
        Detects text elements in a local image file or from in-memory byte data.
        The image must be in PNG or JPG format.

        :param document_file_name: The name of a document image file.
        :param document_bytes: In-memory byte data of a document image.
        :return: The response from Amazon Textract, including a list of blocks
                 that describe elements detected in the image.
        """
        if document_file_name is not None:
            with open(document_file_name, "rb") as document_file:
                document_bytes = document_file.read()
        try:
            response = self.textract_client.detect_document_text(
                Document={"Bytes": document_bytes}
            )
            logger.info("Detected %s blocks.", len(response["Blocks"]))
        except ClientError:
            logger.exception("Couldn't detect text.")
            raise
        else:
            return response
```
+  Untuk detail API, lihat [DetectDocumentText](https://docs.aws.amazon.com/goto/boto3/textract-2018-06-27/DetectDocumentText)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetDocumentAnalysis`
<a name="textract_GetDocumentAnalysis_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDocumentAnalysis`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/textract#code-examples). 

```
class TextractWrapper:
    """Encapsulates Textract functions."""

    def __init__(self, textract_client, s3_resource, sqs_resource):
        """
        :param textract_client: A Boto3 Textract client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        :param sqs_resource: A Boto3 Amazon SQS resource.
        """
        self.textract_client = textract_client
        self.s3_resource = s3_resource
        self.sqs_resource = sqs_resource


    def get_analysis_job(self, job_id):
        """
        Gets data for a previously started detection job that includes additional
        elements.

        :param job_id: The ID of the job to retrieve.
        :return: The job data, including a list of blocks that describe elements
                 detected in the image.
        """
        try:
            response = self.textract_client.get_document_analysis(JobId=job_id)
            job_status = response["JobStatus"]
            logger.info("Job %s status is %s.", job_id, job_status)
        except ClientError:
            logger.exception("Couldn't get data for job %s.", job_id)
            raise
        else:
            return response
```
+  Untuk detail API, lihat [GetDocumentAnalysis](https://docs.aws.amazon.com/goto/boto3/textract-2018-06-27/GetDocumentAnalysis)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartDocumentAnalysis`
<a name="textract_StartDocumentAnalysis_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDocumentAnalysis`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/textract#code-examples). 
Mulai pekerjaan asinkron untuk menganalisis dokumen.  

```
class TextractWrapper:
    """Encapsulates Textract functions."""

    def __init__(self, textract_client, s3_resource, sqs_resource):
        """
        :param textract_client: A Boto3 Textract client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        :param sqs_resource: A Boto3 Amazon SQS resource.
        """
        self.textract_client = textract_client
        self.s3_resource = s3_resource
        self.sqs_resource = sqs_resource


    def start_analysis_job(
        self,
        bucket_name,
        document_file_name,
        feature_types,
        sns_topic_arn,
        sns_role_arn,
    ):
        """
        Starts an asynchronous job to detect text and additional elements, such as
        forms or tables, in an image stored in an Amazon S3 bucket. Textract publishes
        a notification to the specified Amazon SNS topic when the job completes.
        The image must be in PNG, JPG, or PDF format.

        :param bucket_name: The name of the Amazon S3 bucket that contains the image.
        :param document_file_name: The name of the document image stored in Amazon S3.
        :param feature_types: The types of additional document features to detect.
        :param sns_topic_arn: The Amazon Resource Name (ARN) of an Amazon SNS topic
                              where job completion notification is published.
        :param sns_role_arn: The ARN of an AWS Identity and Access Management (IAM)
                             role that can be assumed by Textract and grants permission
                             to publish to the Amazon SNS topic.
        :return: The ID of the job.
        """
        try:
            response = self.textract_client.start_document_analysis(
                DocumentLocation={
                    "S3Object": {"Bucket": bucket_name, "Name": document_file_name}
                },
                NotificationChannel={
                    "SNSTopicArn": sns_topic_arn,
                    "RoleArn": sns_role_arn,
                },
                FeatureTypes=feature_types,
            )
            job_id = response["JobId"]
            logger.info(
                "Started text analysis job %s on %s.", job_id, document_file_name
            )
        except ClientError:
            logger.exception("Couldn't analyze text in %s.", document_file_name)
            raise
        else:
            return job_id
```
+  Untuk detail API, lihat [StartDocumentAnalysis](https://docs.aws.amazon.com/goto/boto3/textract-2018-06-27/StartDocumentAnalysis)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartDocumentTextDetection`
<a name="textract_StartDocumentTextDetection_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDocumentTextDetection`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/textract#code-examples). 
Mulai pekerjaan asinkron untuk mendeteksi teks dalam dokumen.  

```
class TextractWrapper:
    """Encapsulates Textract functions."""

    def __init__(self, textract_client, s3_resource, sqs_resource):
        """
        :param textract_client: A Boto3 Textract client.
        :param s3_resource: A Boto3 Amazon S3 resource.
        :param sqs_resource: A Boto3 Amazon SQS resource.
        """
        self.textract_client = textract_client
        self.s3_resource = s3_resource
        self.sqs_resource = sqs_resource


    def start_detection_job(
        self, bucket_name, document_file_name, sns_topic_arn, sns_role_arn
    ):
        """
        Starts an asynchronous job to detect text elements in an image stored in an
        Amazon S3 bucket. Textract publishes a notification to the specified Amazon SNS
        topic when the job completes.
        The image must be in PNG, JPG, or PDF format.

        :param bucket_name: The name of the Amazon S3 bucket that contains the image.
        :param document_file_name: The name of the document image stored in Amazon S3.
        :param sns_topic_arn: The Amazon Resource Name (ARN) of an Amazon SNS topic
                              where the job completion notification is published.
        :param sns_role_arn: The ARN of an AWS Identity and Access Management (IAM)
                             role that can be assumed by Textract and grants permission
                             to publish to the Amazon SNS topic.
        :return: The ID of the job.
        """
        try:
            response = self.textract_client.start_document_text_detection(
                DocumentLocation={
                    "S3Object": {"Bucket": bucket_name, "Name": document_file_name}
                },
                NotificationChannel={
                    "SNSTopicArn": sns_topic_arn,
                    "RoleArn": sns_role_arn,
                },
            )
            job_id = response["JobId"]
            logger.info(
                "Started text detection job %s on %s.", job_id, document_file_name
            )
        except ClientError:
            logger.exception("Couldn't detect text in %s.", document_file_name)
            raise
        else:
            return job_id
```
+  Untuk detail API, lihat [StartDocumentTextDetection](https://docs.aws.amazon.com/goto/boto3/textract-2018-06-27/StartDocumentTextDetection)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi penjelajah Amazon Textract
<a name="cross_TextractExplorer_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menjelajahi output Amazon Textract melalui aplikasi interaktif.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan Amazon Textract untuk mendeteksi elemen teks, formulir, dan tabel dalam gambar dokumen. AWS SDK untuk Python (Boto3) Gambar input dan output Amazon Textract ditampilkan dalam aplikasi Tkinter yang memungkinkan Anda menjelajahi elemen yang terdeteksi.   
+ Kirim gambar dokumen ke Amazon Textract dan jelajahi output elemen yang terdeteksi.
+ Kirim gambar langsung ke Amazon Textract atau melalui bucket Amazon Simple Storage Service (Amazon S3).
+ Gunakan asinkron APIs untuk memulai pekerjaan yang menerbitkan pemberitahuan ke topik Simple Notification Service Amazon (Amazon SNS) saat pekerjaan selesai.
+ Lakukan polling pada antrean Amazon Simple Queue Service (Amazon SQS) untuk mendapatkan pesan penyelesaian tugas dan tampilkan hasilnya.
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_explorer).   

**Layanan yang digunakan dalam contoh ini**
+ Identitas Amazon Cognito
+ Amazon S3
+ Amazon SNS
+ Amazon SQS
+ Amazon Textract

### Mendeteksi entitas dalam teks yang diekstrak dari gambar
<a name="cross_TextractComprehendDetectEntities_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Amazon Comprehend untuk mendeteksi entitas dalam teks yang diekstrak oleh Amazon Textract dari gambar yang disimpan di Amazon S3.

**SDK untuk Python (Boto3)**  
 Menunjukkan cara menggunakan AWS SDK untuk Python (Boto3) dalam buku catatan Jupyter untuk mendeteksi entitas dalam teks yang diekstraksi dari gambar. Contoh ini menggunakan Amazon Textract untuk mengekstrak teks dari gambar yang disimpan di Amazon Simple Storage Service (Amazon S3) dan Amazon Comprehend untuk mendeteksi entitas dalam teks yang diekstraksi.   
 Contoh ini adalah notebook Jupyter dan harus dijalankan di lingkungan yang dapat meng-host notebook. Untuk petunjuk tentang cara menjalankan contoh menggunakan Amazon SageMaker AI, lihat petunjuk di [TextractAndComprehendNotebook.ipynb](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_comprehend_notebook/TextractAndComprehendNotebook.ipynb).   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/cross_service/textract_comprehend_notebook#readme).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Amazon S3
+ Amazon Textract

# Contoh Amazon Transcribe menggunakan SDK for Python (Boto3)
<a name="python_3_transcribe_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum menggunakan AWS SDK untuk Python (Boto3) with Amazon Transcribe.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateVocabulary`
<a name="transcribe_CreateVocabulary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVocabulary`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def create_vocabulary(
    vocabulary_name, language_code, transcribe_client, phrases=None, table_uri=None
):
    """
    Creates a custom vocabulary that can be used to improve the accuracy of
    transcription jobs. This function returns as soon as the vocabulary processing
    is started. Call get_vocabulary to get the current status of the vocabulary.
    The vocabulary is ready to use when its status is 'READY'.

    :param vocabulary_name: The name of the custom vocabulary.
    :param language_code: The language code of the vocabulary.
                          For example, en-US or nl-NL.
    :param transcribe_client: The Boto3 Transcribe client.
    :param phrases: A list of comma-separated phrases to include in the vocabulary.
    :param table_uri: A table of phrases and pronunciation hints to include in the
                      vocabulary.
    :return: Information about the newly created vocabulary.
    """
    try:
        vocab_args = {"VocabularyName": vocabulary_name, "LanguageCode": language_code}
        if phrases is not None:
            vocab_args["Phrases"] = phrases
        elif table_uri is not None:
            vocab_args["VocabularyFileUri"] = table_uri
        response = transcribe_client.create_vocabulary(**vocab_args)
        logger.info("Created custom vocabulary %s.", response["VocabularyName"])
    except ClientError:
        logger.exception("Couldn't create custom vocabulary %s.", vocabulary_name)
        raise
    else:
        return response
```
+  Untuk detail API, lihat [CreateVocabulary](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/CreateVocabulary)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteTranscriptionJob`
<a name="transcribe_DeleteTranscriptionJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTranscriptionJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def delete_job(job_name, transcribe_client):
    """
    Deletes a transcription job. This also deletes the transcript associated with
    the job.

    :param job_name: The name of the job to delete.
    :param transcribe_client: The Boto3 Transcribe client.
    """
    try:
        transcribe_client.delete_transcription_job(TranscriptionJobName=job_name)
        logger.info("Deleted job %s.", job_name)
    except ClientError:
        logger.exception("Couldn't delete job %s.", job_name)
        raise
```
+  Untuk detail API, lihat [DeleteTranscriptionJob](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/DeleteTranscriptionJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `DeleteVocabulary`
<a name="transcribe_DeleteVocabulary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVocabulary`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def delete_vocabulary(vocabulary_name, transcribe_client):
    """
    Deletes a custom vocabulary.

    :param vocabulary_name: The name of the vocabulary to delete.
    :param transcribe_client: The Boto3 Transcribe client.
    """
    try:
        transcribe_client.delete_vocabulary(VocabularyName=vocabulary_name)
        logger.info("Deleted vocabulary %s.", vocabulary_name)
    except ClientError:
        logger.exception("Couldn't delete vocabulary %s.", vocabulary_name)
        raise
```
+  Untuk detail API, lihat [DeleteVocabulary](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/DeleteVocabulary)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetTranscriptionJob`
<a name="transcribe_GetTranscriptionJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTranscriptionJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def get_job(job_name, transcribe_client):
    """
    Gets details about a transcription job.

    :param job_name: The name of the job to retrieve.
    :param transcribe_client: The Boto3 Transcribe client.
    :return: The retrieved transcription job.
    """
    try:
        response = transcribe_client.get_transcription_job(
            TranscriptionJobName=job_name
        )
        job = response["TranscriptionJob"]
        logger.info("Got job %s.", job["TranscriptionJobName"])
    except ClientError:
        logger.exception("Couldn't get job %s.", job_name)
        raise
    else:
        return job
```
+  Untuk detail API, lihat [GetTranscriptionJob](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/GetTranscriptionJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `GetVocabulary`
<a name="transcribe_GetVocabulary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetVocabulary`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def get_vocabulary(vocabulary_name, transcribe_client):
    """
    Gets information about a custom vocabulary.

    :param vocabulary_name: The name of the vocabulary to retrieve.
    :param transcribe_client: The Boto3 Transcribe client.
    :return: Information about the vocabulary.
    """
    try:
        response = transcribe_client.get_vocabulary(VocabularyName=vocabulary_name)
        logger.info("Got vocabulary %s.", response["VocabularyName"])
    except ClientError:
        logger.exception("Couldn't get vocabulary %s.", vocabulary_name)
        raise
    else:
        return response
```
+  Untuk detail API, lihat [GetVocabulary](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/GetVocabulary)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListTranscriptionJobs`
<a name="transcribe_ListTranscriptionJobs_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTranscriptionJobs`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def list_jobs(job_filter, transcribe_client):
    """
    Lists summaries of the transcription jobs for the current AWS account.

    :param job_filter: The list of returned jobs must contain this string in their
                       names.
    :param transcribe_client: The Boto3 Transcribe client.
    :return: The list of retrieved transcription job summaries.
    """
    try:
        response = transcribe_client.list_transcription_jobs(JobNameContains=job_filter)
        jobs = response["TranscriptionJobSummaries"]
        next_token = response.get("NextToken")
        while next_token is not None:
            response = transcribe_client.list_transcription_jobs(
                JobNameContains=job_filter, NextToken=next_token
            )
            jobs += response["TranscriptionJobSummaries"]
            next_token = response.get("NextToken")
        logger.info("Got %s jobs with filter %s.", len(jobs), job_filter)
    except ClientError:
        logger.exception("Couldn't get jobs with filter %s.", job_filter)
        raise
    else:
        return jobs
```
+  Untuk detail API, lihat [ListTranscriptionJobs](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/ListTranscriptionJobs)di *AWS SDK for Python (Boto3) Referensi* API. 

### `ListVocabularies`
<a name="transcribe_ListVocabularies_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListVocabularies`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def list_vocabularies(vocabulary_filter, transcribe_client):
    """
    Lists the custom vocabularies created for this AWS account.

    :param vocabulary_filter: The returned vocabularies must contain this string in
                              their names.
    :param transcribe_client: The Boto3 Transcribe client.
    :return: The list of retrieved vocabularies.
    """
    try:
        response = transcribe_client.list_vocabularies(NameContains=vocabulary_filter)
        vocabs = response["Vocabularies"]
        next_token = response.get("NextToken")
        while next_token is not None:
            response = transcribe_client.list_vocabularies(
                NameContains=vocabulary_filter, NextToken=next_token
            )
            vocabs += response["Vocabularies"]
            next_token = response.get("NextToken")
        logger.info(
            "Got %s vocabularies with filter %s.", len(vocabs), vocabulary_filter
        )
    except ClientError:
        logger.exception(
            "Couldn't list vocabularies with filter %s.", vocabulary_filter
        )
        raise
    else:
        return vocabs
```
+  Untuk detail API, lihat [ListVocabularies](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/ListVocabularies)di *AWS SDK for Python (Boto3) Referensi* API. 

### `StartTranscriptionJob`
<a name="transcribe_StartTranscriptionJob_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTranscriptionJob`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def start_job(
    job_name,
    media_uri,
    media_format,
    language_code,
    transcribe_client,
    vocabulary_name=None,
):
    """
    Starts a transcription job. This function returns as soon as the job is started.
    To get the current status of the job, call get_transcription_job. The job is
    successfully completed when the job status is 'COMPLETED'.

    :param job_name: The name of the transcription job. This must be unique for
                     your AWS account.
    :param media_uri: The URI where the audio file is stored. This is typically
                      in an Amazon S3 bucket.
    :param media_format: The format of the audio file. For example, mp3 or wav.
    :param language_code: The language code of the audio file.
                          For example, en-US or ja-JP
    :param transcribe_client: The Boto3 Transcribe client.
    :param vocabulary_name: The name of a custom vocabulary to use when transcribing
                            the audio file.
    :return: Data about the job.
    """
    try:
        job_args = {
            "TranscriptionJobName": job_name,
            "Media": {"MediaFileUri": media_uri},
            "MediaFormat": media_format,
            "LanguageCode": language_code,
        }
        if vocabulary_name is not None:
            job_args["Settings"] = {"VocabularyName": vocabulary_name}
        response = transcribe_client.start_transcription_job(**job_args)
        job = response["TranscriptionJob"]
        logger.info("Started transcription job %s.", job_name)
    except ClientError:
        logger.exception("Couldn't start transcription job %s.", job_name)
        raise
    else:
        return job
```
+  Untuk detail API, lihat [StartTranscriptionJob](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/StartTranscriptionJob)di *AWS SDK for Python (Boto3) Referensi* API. 

### `UpdateVocabulary`
<a name="transcribe_UpdateVocabulary_python_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateVocabulary`.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
def update_vocabulary(
    vocabulary_name, language_code, transcribe_client, phrases=None, table_uri=None
):
    """
    Updates an existing custom vocabulary. The entire vocabulary is replaced with
    the contents of the update.

    :param vocabulary_name: The name of the vocabulary to update.
    :param language_code: The language code of the vocabulary.
    :param transcribe_client: The Boto3 Transcribe client.
    :param phrases: A list of comma-separated phrases to include in the vocabulary.
    :param table_uri: A table of phrases and pronunciation hints to include in the
                      vocabulary.
    """
    try:
        vocab_args = {"VocabularyName": vocabulary_name, "LanguageCode": language_code}
        if phrases is not None:
            vocab_args["Phrases"] = phrases
        elif table_uri is not None:
            vocab_args["VocabularyFileUri"] = table_uri
        response = transcribe_client.update_vocabulary(**vocab_args)
        logger.info("Updated custom vocabulary %s.", response["VocabularyName"])
    except ClientError:
        logger.exception("Couldn't update custom vocabulary %s.", vocabulary_name)
        raise
```
+  Untuk detail API, lihat [UpdateVocabulary](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/UpdateVocabulary)di *AWS SDK for Python (Boto3) Referensi* API. 

## Skenario
<a name="scenarios"></a>

### Membuat dan menyempurnakan kosakata khusus
<a name="transcribe_Scenario_CustomVocabulary_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Unggah file audio ke Amazon S3.
+ Jalankan pekerjaan Amazon Transcribe untuk mentranskripsikan file dan mendapatkan hasilnya.
+ Buat dan perbaiki kosakata khusus untuk meningkatkan akurasi transkripsi.
+ Jalankan pekerjaan dengan kosakata khusus dan dapatkan hasilnya.

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 
Transcribe file audio yang berisi pembacaan Jabberwocky oleh Lewis Carroll. Mulailah dengan membuat fungsi yang membungkus tindakan Amazon Transcribe.  

```
def start_job(
    job_name,
    media_uri,
    media_format,
    language_code,
    transcribe_client,
    vocabulary_name=None,
):
    """
    Starts a transcription job. This function returns as soon as the job is started.
    To get the current status of the job, call get_transcription_job. The job is
    successfully completed when the job status is 'COMPLETED'.

    :param job_name: The name of the transcription job. This must be unique for
                     your AWS account.
    :param media_uri: The URI where the audio file is stored. This is typically
                      in an Amazon S3 bucket.
    :param media_format: The format of the audio file. For example, mp3 or wav.
    :param language_code: The language code of the audio file.
                          For example, en-US or ja-JP
    :param transcribe_client: The Boto3 Transcribe client.
    :param vocabulary_name: The name of a custom vocabulary to use when transcribing
                            the audio file.
    :return: Data about the job.
    """
    try:
        job_args = {
            "TranscriptionJobName": job_name,
            "Media": {"MediaFileUri": media_uri},
            "MediaFormat": media_format,
            "LanguageCode": language_code,
        }
        if vocabulary_name is not None:
            job_args["Settings"] = {"VocabularyName": vocabulary_name}
        response = transcribe_client.start_transcription_job(**job_args)
        job = response["TranscriptionJob"]
        logger.info("Started transcription job %s.", job_name)
    except ClientError:
        logger.exception("Couldn't start transcription job %s.", job_name)
        raise
    else:
        return job



def get_job(job_name, transcribe_client):
    """
    Gets details about a transcription job.

    :param job_name: The name of the job to retrieve.
    :param transcribe_client: The Boto3 Transcribe client.
    :return: The retrieved transcription job.
    """
    try:
        response = transcribe_client.get_transcription_job(
            TranscriptionJobName=job_name
        )
        job = response["TranscriptionJob"]
        logger.info("Got job %s.", job["TranscriptionJobName"])
    except ClientError:
        logger.exception("Couldn't get job %s.", job_name)
        raise
    else:
        return job



def delete_job(job_name, transcribe_client):
    """
    Deletes a transcription job. This also deletes the transcript associated with
    the job.

    :param job_name: The name of the job to delete.
    :param transcribe_client: The Boto3 Transcribe client.
    """
    try:
        transcribe_client.delete_transcription_job(TranscriptionJobName=job_name)
        logger.info("Deleted job %s.", job_name)
    except ClientError:
        logger.exception("Couldn't delete job %s.", job_name)
        raise



def create_vocabulary(
    vocabulary_name, language_code, transcribe_client, phrases=None, table_uri=None
):
    """
    Creates a custom vocabulary that can be used to improve the accuracy of
    transcription jobs. This function returns as soon as the vocabulary processing
    is started. Call get_vocabulary to get the current status of the vocabulary.
    The vocabulary is ready to use when its status is 'READY'.

    :param vocabulary_name: The name of the custom vocabulary.
    :param language_code: The language code of the vocabulary.
                          For example, en-US or nl-NL.
    :param transcribe_client: The Boto3 Transcribe client.
    :param phrases: A list of comma-separated phrases to include in the vocabulary.
    :param table_uri: A table of phrases and pronunciation hints to include in the
                      vocabulary.
    :return: Information about the newly created vocabulary.
    """
    try:
        vocab_args = {"VocabularyName": vocabulary_name, "LanguageCode": language_code}
        if phrases is not None:
            vocab_args["Phrases"] = phrases
        elif table_uri is not None:
            vocab_args["VocabularyFileUri"] = table_uri
        response = transcribe_client.create_vocabulary(**vocab_args)
        logger.info("Created custom vocabulary %s.", response["VocabularyName"])
    except ClientError:
        logger.exception("Couldn't create custom vocabulary %s.", vocabulary_name)
        raise
    else:
        return response



def get_vocabulary(vocabulary_name, transcribe_client):
    """
    Gets information about a custom vocabulary.

    :param vocabulary_name: The name of the vocabulary to retrieve.
    :param transcribe_client: The Boto3 Transcribe client.
    :return: Information about the vocabulary.
    """
    try:
        response = transcribe_client.get_vocabulary(VocabularyName=vocabulary_name)
        logger.info("Got vocabulary %s.", response["VocabularyName"])
    except ClientError:
        logger.exception("Couldn't get vocabulary %s.", vocabulary_name)
        raise
    else:
        return response



def update_vocabulary(
    vocabulary_name, language_code, transcribe_client, phrases=None, table_uri=None
):
    """
    Updates an existing custom vocabulary. The entire vocabulary is replaced with
    the contents of the update.

    :param vocabulary_name: The name of the vocabulary to update.
    :param language_code: The language code of the vocabulary.
    :param transcribe_client: The Boto3 Transcribe client.
    :param phrases: A list of comma-separated phrases to include in the vocabulary.
    :param table_uri: A table of phrases and pronunciation hints to include in the
                      vocabulary.
    """
    try:
        vocab_args = {"VocabularyName": vocabulary_name, "LanguageCode": language_code}
        if phrases is not None:
            vocab_args["Phrases"] = phrases
        elif table_uri is not None:
            vocab_args["VocabularyFileUri"] = table_uri
        response = transcribe_client.update_vocabulary(**vocab_args)
        logger.info("Updated custom vocabulary %s.", response["VocabularyName"])
    except ClientError:
        logger.exception("Couldn't update custom vocabulary %s.", vocabulary_name)
        raise



def list_vocabularies(vocabulary_filter, transcribe_client):
    """
    Lists the custom vocabularies created for this AWS account.

    :param vocabulary_filter: The returned vocabularies must contain this string in
                              their names.
    :param transcribe_client: The Boto3 Transcribe client.
    :return: The list of retrieved vocabularies.
    """
    try:
        response = transcribe_client.list_vocabularies(NameContains=vocabulary_filter)
        vocabs = response["Vocabularies"]
        next_token = response.get("NextToken")
        while next_token is not None:
            response = transcribe_client.list_vocabularies(
                NameContains=vocabulary_filter, NextToken=next_token
            )
            vocabs += response["Vocabularies"]
            next_token = response.get("NextToken")
        logger.info(
            "Got %s vocabularies with filter %s.", len(vocabs), vocabulary_filter
        )
    except ClientError:
        logger.exception(
            "Couldn't list vocabularies with filter %s.", vocabulary_filter
        )
        raise
    else:
        return vocabs



def delete_vocabulary(vocabulary_name, transcribe_client):
    """
    Deletes a custom vocabulary.

    :param vocabulary_name: The name of the vocabulary to delete.
    :param transcribe_client: The Boto3 Transcribe client.
    """
    try:
        transcribe_client.delete_vocabulary(VocabularyName=vocabulary_name)
        logger.info("Deleted vocabulary %s.", vocabulary_name)
    except ClientError:
        logger.exception("Couldn't delete vocabulary %s.", vocabulary_name)
        raise
```
Panggil fungsi pembungkus untuk mentranskripsikan audio tanpa kosakata khusus dan kemudian dengan versi berbeda dari kosakata khusus untuk melihat hasil yang lebih baik.  

```
def usage_demo():
    """Shows how to use the Amazon Transcribe service."""
    logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s")

    s3_resource = boto3.resource("s3")
    transcribe_client = boto3.client("transcribe")

    print("-" * 88)
    print("Welcome to the Amazon Transcribe demo!")
    print("-" * 88)

    bucket_name = f"jabber-bucket-{time.time_ns()}"
    print(f"Creating bucket {bucket_name}.")
    bucket = s3_resource.create_bucket(
        Bucket=bucket_name,
        CreateBucketConfiguration={
            "LocationConstraint": transcribe_client.meta.region_name
        },
    )
    media_file_name = ".media/Jabberwocky.mp3"
    media_object_key = "Jabberwocky.mp3"
    print(f"Uploading media file {media_file_name}.")
    bucket.upload_file(media_file_name, media_object_key)
    media_uri = f"s3://{bucket.name}/{media_object_key}"

    job_name_simple = f"Jabber-{time.time_ns()}"
    print(f"Starting transcription job {job_name_simple}.")
    start_job(
        job_name_simple,
        f"s3://{bucket_name}/{media_object_key}",
        "mp3",
        "en-US",
        transcribe_client,
    )
    transcribe_waiter = TranscribeCompleteWaiter(transcribe_client)
    transcribe_waiter.wait(job_name_simple)
    job_simple = get_job(job_name_simple, transcribe_client)
    transcript_simple = requests.get(
        job_simple["Transcript"]["TranscriptFileUri"]
    ).json()
    print(f"Transcript for job {transcript_simple['jobName']}:")
    print(transcript_simple["results"]["transcripts"][0]["transcript"])

    print("-" * 88)
    print(
        "Creating a custom vocabulary that lists the nonsense words to try to "
        "improve the transcription."
    )
    vocabulary_name = f"Jabber-vocabulary-{time.time_ns()}"
    create_vocabulary(
        vocabulary_name,
        "en-US",
        transcribe_client,
        phrases=[
            "brillig",
            "slithy",
            "borogoves",
            "mome",
            "raths",
            "Jub-Jub",
            "frumious",
            "manxome",
            "Tumtum",
            "uffish",
            "whiffling",
            "tulgey",
            "thou",
            "frabjous",
            "callooh",
            "callay",
            "chortled",
        ],
    )
    vocabulary_ready_waiter = VocabularyReadyWaiter(transcribe_client)
    vocabulary_ready_waiter.wait(vocabulary_name)

    job_name_vocabulary_list = f"Jabber-vocabulary-list-{time.time_ns()}"
    print(f"Starting transcription job {job_name_vocabulary_list}.")
    start_job(
        job_name_vocabulary_list,
        media_uri,
        "mp3",
        "en-US",
        transcribe_client,
        vocabulary_name,
    )
    transcribe_waiter.wait(job_name_vocabulary_list)
    job_vocabulary_list = get_job(job_name_vocabulary_list, transcribe_client)
    transcript_vocabulary_list = requests.get(
        job_vocabulary_list["Transcript"]["TranscriptFileUri"]
    ).json()
    print(f"Transcript for job {transcript_vocabulary_list['jobName']}:")
    print(transcript_vocabulary_list["results"]["transcripts"][0]["transcript"])

    print("-" * 88)
    print(
        "Updating the custom vocabulary with table data that provides additional "
        "pronunciation hints."
    )
    table_vocab_file = "jabber-vocabulary-table.txt"
    bucket.upload_file(table_vocab_file, table_vocab_file)
    update_vocabulary(
        vocabulary_name,
        "en-US",
        transcribe_client,
        table_uri=f"s3://{bucket.name}/{table_vocab_file}",
    )
    vocabulary_ready_waiter.wait(vocabulary_name)

    job_name_vocab_table = f"Jabber-vocab-table-{time.time_ns()}"
    print(f"Starting transcription job {job_name_vocab_table}.")
    start_job(
        job_name_vocab_table,
        media_uri,
        "mp3",
        "en-US",
        transcribe_client,
        vocabulary_name=vocabulary_name,
    )
    transcribe_waiter.wait(job_name_vocab_table)
    job_vocab_table = get_job(job_name_vocab_table, transcribe_client)
    transcript_vocab_table = requests.get(
        job_vocab_table["Transcript"]["TranscriptFileUri"]
    ).json()
    print(f"Transcript for job {transcript_vocab_table['jobName']}:")
    print(transcript_vocab_table["results"]["transcripts"][0]["transcript"])

    print("-" * 88)
    print("Getting data for jobs and vocabularies.")
    jabber_jobs = list_jobs("Jabber", transcribe_client)
    print(f"Found {len(jabber_jobs)} jobs:")
    for job_sum in jabber_jobs:
        job = get_job(job_sum["TranscriptionJobName"], transcribe_client)
        print(
            f"\t{job['TranscriptionJobName']}, {job['Media']['MediaFileUri']}, "
            f"{job['Settings'].get('VocabularyName')}"
        )

    jabber_vocabs = list_vocabularies("Jabber", transcribe_client)
    print(f"Found {len(jabber_vocabs)} vocabularies:")
    for vocab_sum in jabber_vocabs:
        vocab = get_vocabulary(vocab_sum["VocabularyName"], transcribe_client)
        vocab_content = requests.get(vocab["DownloadUri"]).text
        print(f"\t{vocab['VocabularyName']} contents:")
        print(vocab_content)

    print("-" * 88)
    print("Deleting demo jobs.")
    for job_name in [job_name_simple, job_name_vocabulary_list, job_name_vocab_table]:
        delete_job(job_name, transcribe_client)
    print("Deleting demo vocabulary.")
    delete_vocabulary(vocabulary_name, transcribe_client)
    print("Deleting demo bucket.")
    bucket.objects.delete()
    bucket.delete()
    print("Thanks for watching!")
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Python (Boto3)*.
  + [CreateVocabulary](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/CreateVocabulary)
  + [DeleteTranscriptionJob](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/DeleteTranscriptionJob)
  + [DeleteVocabulary](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/DeleteVocabulary)
  + [GetTranscriptionJob](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/GetTranscriptionJob)
  + [GetVocabulary](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/GetVocabulary)
  + [ListVocabularies](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/ListVocabularies)
  + [StartTranscriptionJob](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/StartTranscriptionJob)
  + [UpdateVocabulary](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/UpdateVocabulary)

### Transcribe audio dan dapatkan data pekerjaan
<a name="transcribe_Scenario_GettingStartedTranscriptionJobs_python_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulai pekerjaan transkripsi dengan Amazon Transcribe.
+ Tunggu hingga tugas selesai.
+ Dapatkan URI tempat transkrip disimpan.

Untuk informasi selengkapnya, lihat [Memulai Amazon Transcribe](https://docs.aws.amazon.com/transcribe/latest/dg/getting-started.html).

**SDK untuk Python (Boto3)**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/transcribe#code-examples). 

```
import time
import boto3


def transcribe_file(job_name, file_uri, transcribe_client):
    transcribe_client.start_transcription_job(
        TranscriptionJobName=job_name,
        Media={"MediaFileUri": file_uri},
        MediaFormat="wav",
        LanguageCode="en-US",
    )

    max_tries = 60
    while max_tries > 0:
        max_tries -= 1
        job = transcribe_client.get_transcription_job(TranscriptionJobName=job_name)
        job_status = job["TranscriptionJob"]["TranscriptionJobStatus"]
        if job_status in ["COMPLETED", "FAILED"]:
            print(f"Job {job_name} is {job_status}.")
            if job_status == "COMPLETED":
                print(
                    f"Download the transcript from\n"
                    f"\t{job['TranscriptionJob']['Transcript']['TranscriptFileUri']}."
                )
            break
        else:
            print(f"Waiting for {job_name}. Current status is {job_status}.")
        time.sleep(10)


def main():
    transcribe_client = boto3.client("transcribe")
    file_uri = "s3://test-transcribe/answer2.wav"
    transcribe_file("Example-job", file_uri, transcribe_client)


if __name__ == "__main__":
    main()
```
+ Untuk detail API, lihat topik berikut ini adalah *Referensi API SDK untuk Python (Boto3)AWS *.
  + [GetTranscriptionJob](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/GetTranscriptionJob)
  + [StartTranscriptionJob](https://docs.aws.amazon.com/goto/boto3/transcribe-2017-10-26/StartTranscriptionJob)

# Contoh kode untuk SDK for Ruby
<a name="ruby_3_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk Ruby with AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  Panduan Pengembang **[SDK for Ruby](https://docs.aws.amazon.com/sdk-for-ruby/v3/developer-guide/welcome.html)** — Lebih lanjut tentang menggunakan Ruby dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23ruby)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [Aurora](ruby_3_aurora_code_examples.md)
+ [Auto Scaling](ruby_3_auto-scaling_code_examples.md)
+ [CloudTrail](ruby_3_cloudtrail_code_examples.md)
+ [CloudWatch](ruby_3_cloudwatch_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](ruby_3_cognito-identity-provider_code_examples.md)
+ [Amazon Comprehend](ruby_3_comprehend_code_examples.md)
+ [Amazon DocumentDB](ruby_3_docdb_code_examples.md)
+ [DynamoDB](ruby_3_dynamodb_code_examples.md)
+ [Amazon EC2](ruby_3_ec2_code_examples.md)
+ [Elastic Beanstalk](ruby_3_elastic-beanstalk_code_examples.md)
+ [EventBridge](ruby_3_eventbridge_code_examples.md)
+ [AWS Glue](ruby_3_glue_code_examples.md)
+ [IAM](ruby_3_iam_code_examples.md)
+ [Kinesis](ruby_3_kinesis_code_examples.md)
+ [AWS KMS](ruby_3_kms_code_examples.md)
+ [Lambda](ruby_3_lambda_code_examples.md)
+ [Amazon MSK](ruby_3_kafka_code_examples.md)
+ [Amazon Polly](ruby_3_polly_code_examples.md)
+ [Amazon RDS](ruby_3_rds_code_examples.md)
+ [Amazon S3](ruby_3_s3_code_examples.md)
+ [Amazon SES](ruby_3_ses_code_examples.md)
+ [Amazon SES API v2](ruby_3_sesv2_code_examples.md)
+ [Amazon SNS](ruby_3_sns_code_examples.md)
+ [Amazon SQS](ruby_3_sqs_code_examples.md)
+ [AWS STS](ruby_3_sts_code_examples.md)
+ [Amazon Textract](ruby_3_textract_code_examples.md)
+ [Amazon Translate](ruby_3_translate_code_examples.md)

# Contoh Aurora menggunakan SDK for Ruby
<a name="ruby_3_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with Aurora.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)

## Memulai
<a name="get_started"></a>

### Halo Aurora
<a name="aurora_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Aurora.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/aurora#code-examples). 

```
require 'aws-sdk-rds'

# Creates an Amazon RDS client for the AWS Region
rds = Aws::RDS::Client.new

puts 'Listing clusters in this AWS account...'

# Calls the describe_db_clusters method to get information about clusters
resp = rds.describe_db_clusters(max_records: 20)

# Checks if any clusters are found and prints the appropriate message
if resp.db_clusters.empty?
  puts 'No clusters found!'
else
  # Loops through the array of cluster objects and prints the cluster identifier
  resp.db_clusters.each do |cluster|
    puts "Cluster identifier: #{cluster.db_cluster_identifier}"
  end
end
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.aws.amazon.com/goto/SdkForRubyV3/rds-2014-10-31/DescribeDBClusters) di *Referensi AWS SDK untuk Ruby API*. 

# Contoh Auto Scaling menggunakan SDK for Ruby
<a name="ruby_3_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Auto Scaling AWS SDK untuk Ruby with.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)

## Memulai
<a name="get_started"></a>

### Halo Auto Scaling
<a name="auto-scaling_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Auto Scaling.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/auto-scaling#code-examples). 

```
require 'aws-sdk-autoscaling'
require 'logger'

# AutoScalingManager is a class responsible for managing AWS Auto Scaling operations
# such as listing all Auto Scaling groups in the current AWS account.
class AutoScalingManager
  def initialize(client)
    @client = client
    @logger = Logger.new($stdout)
  end

  # Gets and prints a list of Auto Scaling groups for the account.
  def list_auto_scaling_groups
    paginator = @client.describe_auto_scaling_groups
    auto_scaling_groups = []
    paginator.each_page do |page|
      auto_scaling_groups.concat(page.auto_scaling_groups)
    end

    if auto_scaling_groups.empty?
      @logger.info('No Auto Scaling groups found for this account.')
    else
      auto_scaling_groups.each do |group|
        @logger.info("Auto Scaling group name: #{group.auto_scaling_group_name}")
        @logger.info("  Group ARN:             #{group.auto_scaling_group_arn}")
        @logger.info("  Min/max/desired:       #{group.min_size}/#{group.max_size}/#{group.desired_capacity}")
        @logger.info("\n")
      end
    end
  end
end

if $PROGRAM_NAME == __FILE__
  autoscaling_client = Aws::AutoScaling::Client.new
  manager = AutoScalingManager.new(autoscaling_client)
  manager.list_auto_scaling_groups
end
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/goto/SdkForRubyV3/autoscaling-2011-01-01/DescribeAutoScalingGroups)di *Referensi AWS SDK untuk Ruby API*. 

# CloudTrail contoh menggunakan SDK for Ruby
<a name="ruby_3_cloudtrail_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with CloudTrail.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateTrail`
<a name="cloudtrail_CreateTrail_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTrail`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudtrail#code-examples). 

```
require 'aws-sdk-cloudtrail' # v2: require 'aws-sdk'
require 'aws-sdk-s3'
require 'aws-sdk-sts'

def create_trail_example(s3_client, sts_client, cloudtrail_client, trail_name, bucket_name)
  resp = sts_client.get_caller_identity({})
  account_id = resp.account

  # Attach policy to an Amazon Simple Storage Service (S3) bucket.
  s3_client.create_bucket(bucket: bucket_name)
  begin
    policy = {
      'Version' => '2012-10-17',
      'Statement' => [
        {
          'Sid' => 'AWSCloudTrailAclCheck20150319',
          'Effect' => 'Allow',
          'Principal' => {
            'Service' => 'cloudtrail.amazonaws.com'
          },
          'Action' => 's3:GetBucketAcl',
          'Resource' => "arn:aws:s3:::#{bucket_name}"
        },
        {
          'Sid' => 'AWSCloudTrailWrite20150319',
          'Effect' => 'Allow',
          'Principal' => {
            'Service' => 'cloudtrail.amazonaws.com'
          },
          'Action' => 's3:PutObject',
          'Resource' => "arn:aws:s3:::#{bucket_name}/AWSLogs/#{account_id}/*",
          'Condition' => {
            'StringEquals' => {
              's3:x-amz-acl' => 'bucket-owner-full-control'
            }
          }
        }
      ]
    }.to_json

    s3_client.put_bucket_policy(
      bucket: bucket_name,
      policy: policy
    )
    puts "Successfully added policy to bucket #{bucket_name}"
  end

  begin
    cloudtrail_client.create_trail({
                                     name: trail_name, # required
                                     s3_bucket_name: bucket_name # required
                                   })

    puts "Successfully created trail: #{trail_name}."
  rescue StandardError => e
    puts "Got error trying to create trail #{trail_name}:\n #{e}"
    puts e
    exit 1
  end
```
+  Untuk detail API, lihat [CreateTrail](https://docs.aws.amazon.com/goto/SdkForRubyV3/cloudtrail-2013-11-01/CreateTrail)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteTrail`
<a name="cloudtrail_DeleteTrail_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTrail`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudtrail#code-examples). 

```
  client.delete_trail({
                        name: trail_name # required
                      })
  puts "Successfully deleted trail: #{trail_name}"
rescue StandardError => e
  puts "Got error trying to delete trail: #{trail_name}:"
  puts e
  exit 1
end
```
+  Untuk detail API, lihat [DeleteTrail](https://docs.aws.amazon.com/goto/SdkForRubyV3/cloudtrail-2013-11-01/DeleteTrail)di *Referensi AWS SDK untuk Ruby API*. 

### `ListTrails`
<a name="cloudtrail_ListTrails_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTrails`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudtrail#code-examples). 

```
require 'aws-sdk-cloudtrail' # v2: require 'aws-sdk'

def describe_trails_example(client)
  resp = client.describe_trails({})
  puts "Found #{resp.trail_list.count} trail(s)."

  resp.trail_list.each do |trail|
    puts "Name:           #{trail.name}"
    puts "S3 bucket name: #{trail.s3_bucket_name}"
    puts
  end
```
+  Untuk detail API, lihat [ListTrails](https://docs.aws.amazon.com/goto/SdkForRubyV3/cloudtrail-2013-11-01/ListTrails)di *Referensi AWS SDK untuk Ruby API*. 

### `LookupEvents`
<a name="cloudtrail_LookupEvents_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`LookupEvents`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudtrail#code-examples). 

```
require 'aws-sdk-cloudtrail' # v2: require 'aws-sdk'

# @param [Object] client
def lookup_events_example(client)
  resp = client.lookup_events
  puts "Found #{resp.events.count} events:"
  resp.events.each do |e|
    puts "Event name:   #{e.event_name}"
    puts "Event ID:     #{e.event_id}"
    puts "Event time:   #{e.event_time}"
    puts 'Resources:'

    e.resources.each do |r|
      puts "  Name:       #{r.resource_name}"
      puts "  Type:       #{r.resource_type}"
      puts ''
    end
  end
end
```
+  Untuk detail API, lihat [LookupEvents](https://docs.aws.amazon.com/goto/SdkForRubyV3/cloudtrail-2013-11-01/LookupEvents)di *Referensi AWS SDK untuk Ruby API*. 

# CloudWatch contoh menggunakan SDK for Ruby
<a name="ruby_3_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with CloudWatch.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DescribeAlarms`
<a name="cloudwatch_DescribeAlarms_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarms`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudwatch#code-examples). 

```
require 'aws-sdk-cloudwatch'

# Lists the names of available Amazon CloudWatch alarms.
#
# @param cloudwatch_client [Aws::CloudWatch::Client]
#   An initialized CloudWatch client.
# @example
#   list_alarms(Aws::CloudWatch::Client.new(region: 'us-east-1'))
def list_alarms(cloudwatch_client)
  response = cloudwatch_client.describe_alarms
  if response.metric_alarms.count.positive?
    response.metric_alarms.each do |alarm|
      puts alarm.alarm_name
    end
  else
    puts 'No alarms found.'
  end
rescue StandardError => e
  puts "Error getting information about alarms: #{e.message}"
end
```
+  Untuk detail API, lihat [DescribeAlarms](https://docs.aws.amazon.com/goto/SdkForRubyV3/monitoring-2010-08-01/DescribeAlarms)di *Referensi AWS SDK untuk Ruby API*. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudwatch#code-examples). 

```
#
# @param cloudwatch_client [Aws::CloudWatch::Client]
#   An initialized CloudWatch client.
# @example
#   describe_metric_alarms(Aws::CloudWatch::Client.new(region: 'us-east-1'))
def describe_metric_alarms(cloudwatch_client)
  response = cloudwatch_client.describe_alarms

  if response.metric_alarms.count.positive?
    response.metric_alarms.each do |alarm|
      puts '-' * 16
      puts "Name:           #{alarm.alarm_name}"
      puts "State value:    #{alarm.state_value}"
      puts "State reason:   #{alarm.state_reason}"
      puts "Metric:         #{alarm.metric_name}"
      puts "Namespace:      #{alarm.namespace}"
      puts "Statistic:      #{alarm.statistic}"
      puts "Period:         #{alarm.period}"
      puts "Unit:           #{alarm.unit}"
      puts "Eval. periods:  #{alarm.evaluation_periods}"
      puts "Threshold:      #{alarm.threshold}"
      puts "Comp. operator: #{alarm.comparison_operator}"

      if alarm.key?(:ok_actions) && alarm.ok_actions.count.positive?
        puts 'OK actions:'
        alarm.ok_actions.each do |a|
          puts "  #{a}"
        end
      end

      if alarm.key?(:alarm_actions) && alarm.alarm_actions.count.positive?
        puts 'Alarm actions:'
        alarm.alarm_actions.each do |a|
          puts "  #{a}"
        end
      end

      if alarm.key?(:insufficient_data_actions) &&
         alarm.insufficient_data_actions.count.positive?
        puts 'Insufficient data actions:'
        alarm.insufficient_data_actions.each do |a|
          puts "  #{a}"
        end
      end

      puts 'Dimensions:'
      if alarm.key?(:dimensions) && alarm.dimensions.count.positive?
        alarm.dimensions.each do |d|
          puts "  Name: #{d.name}, Value: #{d.value}"
        end
      else
        puts '  None for this alarm.'
      end
    end
  else
    puts 'No alarms found.'
  end
rescue StandardError => e
  puts "Error getting information about alarms: #{e.message}"
end

# Example usage:
def run_me
  region = ''

  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby cw-ruby-example-show-alarms.rb REGION'
    puts 'Example: ruby cw-ruby-example-show-alarms.rb us-east-1'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  elsif ARGV.count.zero?
    region = 'us-east-1'
  # Otherwise, use the values as specified at the command prompt.
  else
    region = ARGV[0]
  end

  cloudwatch_client = Aws::CloudWatch::Client.new(region: region)
  puts 'Available alarms:'
  describe_metric_alarms(cloudwatch_client)
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://docs.aws.amazon.com/goto/SdkForRubyV3/monitoring-2010-08-01/DescribeAlarmsForMetric)di *Referensi AWS SDK untuk Ruby API*. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudwatch#code-examples). 

```
# Disables an alarm in Amazon CloudWatch.
#
# Prerequisites.
#
# - The alarm to disable.
#
# @param cloudwatch_client [Aws::CloudWatch::Client]
#   An initialized CloudWatch client.
# @param alarm_name [String] The name of the alarm to disable.
# @return [Boolean] true if the alarm was disabled; otherwise, false.
# @example
#   exit 1 unless alarm_actions_disabled?(
#     Aws::CloudWatch::Client.new(region: 'us-east-1'),
#     'ObjectsInBucket'
#   )
def alarm_actions_disabled?(cloudwatch_client, alarm_name)
  cloudwatch_client.disable_alarm_actions(alarm_names: [alarm_name])
  true
rescue StandardError => e
  puts "Error disabling alarm actions: #{e.message}"
  false
end

# Example usage:
def run_me
  alarm_name = 'ObjectsInBucket'
  alarm_description = 'Objects exist in this bucket for more than 1 day.'
  metric_name = 'NumberOfObjects'
  # Notify this Amazon Simple Notification Service (Amazon SNS) topic when
  # the alarm transitions to the ALARM state.
  alarm_actions = ['arn:aws:sns:us-east-1:111111111111:Default_CloudWatch_Alarms_Topic']
  namespace = 'AWS/S3'
  statistic = 'Average'
  dimensions = [
    {
      name: "BucketName",
      value: "amzn-s3-demo-bucket"
    },
    {
      name: 'StorageType',
      value: 'AllStorageTypes'
    }
  ]
  period = 86_400 # Daily (24 hours * 60 minutes * 60 seconds = 86400 seconds).
  unit = 'Count'
  evaluation_periods = 1 # More than one day.
  threshold = 1 # One object.
  comparison_operator = 'GreaterThanThreshold' # More than one object.
  # Replace us-west-2 with the AWS Region you're using for Amazon CloudWatch.
  region = 'us-east-1'

  cloudwatch_client = Aws::CloudWatch::Client.new(region: region)

  if alarm_created_or_updated?(
    cloudwatch_client,
    alarm_name,
    alarm_description,
    metric_name,
    alarm_actions,
    namespace,
    statistic,
    dimensions,
    period,
    unit,
    evaluation_periods,
    threshold,
    comparison_operator
  )
    puts "Alarm '#{alarm_name}' created or updated."
  else
    puts "Could not create or update alarm '#{alarm_name}'."
  end

  if alarm_actions_disabled?(cloudwatch_client, alarm_name)
    puts "Alarm '#{alarm_name}' disabled."
  else
    puts "Could not disable alarm '#{alarm_name}'."
  end
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [DisableAlarmActions](https://docs.aws.amazon.com/goto/SdkForRubyV3/monitoring-2010-08-01/DisableAlarmActions)di *Referensi AWS SDK untuk Ruby API*. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudwatch#code-examples). 

```
# Lists available metrics for a metric namespace in Amazon CloudWatch.
#
# @param cloudwatch_client [Aws::CloudWatch::Client]
#   An initialized CloudWatch client.
# @param metric_namespace [String] The namespace of the metric.
# @example
#   list_metrics_for_namespace(
#     Aws::CloudWatch::Client.new(region: 'us-east-1'),
#     'SITE/TRAFFIC'
#   )
def list_metrics_for_namespace(cloudwatch_client, metric_namespace)
  response = cloudwatch_client.list_metrics(namespace: metric_namespace)

  if response.metrics.count.positive?
    response.metrics.each do |metric|
      puts "  Metric name: #{metric.metric_name}"
      if metric.dimensions.count.positive?
        puts '    Dimensions:'
        metric.dimensions.each do |dimension|
          puts "      Name: #{dimension.name}, Value: #{dimension.value}"
        end
      else
        puts 'No dimensions found.'
      end
    end
  else
    puts "No metrics found for namespace '#{metric_namespace}'. " \
      'Note that it could take up to 15 minutes for recently-added metrics ' \
      'to become available.'
  end
end

# Example usage:
def run_me
  metric_namespace = 'SITE/TRAFFIC'
  # Replace us-west-2 with the AWS Region you're using for Amazon CloudWatch.
  region = 'us-east-1'

  cloudwatch_client = Aws::CloudWatch::Client.new(region: region)

  # Add three datapoints.
  puts 'Continuing...' unless datapoint_added_to_metric?(
    cloudwatch_client,
    metric_namespace,
    'UniqueVisitors',
    'SiteName',
    'example.com',
    5_885.0,
    'Count'
  )

  puts 'Continuing...' unless datapoint_added_to_metric?(
    cloudwatch_client,
    metric_namespace,
    'UniqueVisits',
    'SiteName',
    'example.com',
    8_628.0,
    'Count'
  )

  puts 'Continuing...' unless datapoint_added_to_metric?(
    cloudwatch_client,
    metric_namespace,
    'PageViews',
    'PageURL',
    'example.html',
    18_057.0,
    'Count'
  )

  puts "Metrics for namespace '#{metric_namespace}':"
  list_metrics_for_namespace(cloudwatch_client, metric_namespace)
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/goto/SdkForRubyV3/monitoring-2010-08-01/ListMetrics)di *Referensi AWS SDK untuk Ruby API*. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudwatch#code-examples). 

```
# Creates or updates an alarm in Amazon CloudWatch.
#
# @param cloudwatch_client [Aws::CloudWatch::Client]
#   An initialized CloudWatch client.
# @param alarm_name [String] The name of the alarm.
# @param alarm_description [String] A description about the alarm.
# @param metric_name [String] The name of the metric associated with the alarm.
# @param alarm_actions [Array] A list of Strings representing the
#   Amazon Resource Names (ARNs) to execute when the alarm transitions to the
#   ALARM state.
# @param namespace [String] The namespace for the metric to alarm on.
# @param statistic [String] The statistic for the metric.
# @param dimensions [Array] A list of dimensions for the metric, specified as
#   Aws::CloudWatch::Types::Dimension.
# @param period [Integer] The number of seconds before re-evaluating the metric.
# @param unit [String] The unit of measure for the statistic.
# @param evaluation_periods [Integer] The number of periods over which data is
#   compared to the specified threshold.
# @param theshold [Float] The value against which the specified statistic is compared.
# @param comparison_operator [String] The arithmetic operation to use when
#   comparing the specified statistic and threshold.
# @return [Boolean] true if the alarm was created or updated; otherwise, false.
# @example
#   exit 1 unless alarm_created_or_updated?(
#     Aws::CloudWatch::Client.new(region: 'us-east-1'),
#     'ObjectsInBucket',
#     'Objects exist in this bucket for more than 1 day.',
#     'NumberOfObjects',
#     ['arn:aws:sns:us-east-1:111111111111:Default_CloudWatch_Alarms_Topic'],
#     'AWS/S3',
#     'Average',
#     [
#       {
#         name: 'BucketName',
#         value: 'amzn-s3-demo-bucket'
#       },
#       {
#         name: 'StorageType',
#         value: 'AllStorageTypes'
#       }
#     ],
#     86_400,
#     'Count',
#     1,
#     1,
#     'GreaterThanThreshold'
#   )
def alarm_created_or_updated?(
  cloudwatch_client,
  alarm_name,
  alarm_description,
  metric_name,
  alarm_actions,
  namespace,
  statistic,
  dimensions,
  period,
  unit,
  evaluation_periods,
  threshold,
  comparison_operator
)
  cloudwatch_client.put_metric_alarm(
    alarm_name: alarm_name,
    alarm_description: alarm_description,
    metric_name: metric_name,
    alarm_actions: alarm_actions,
    namespace: namespace,
    statistic: statistic,
    dimensions: dimensions,
    period: period,
    unit: unit,
    evaluation_periods: evaluation_periods,
    threshold: threshold,
    comparison_operator: comparison_operator
  )
  true
rescue StandardError => e
  puts "Error creating alarm: #{e.message}"
  false
end
```
+  Untuk detail API, lihat [PutMetricAlarm](https://docs.aws.amazon.com/goto/SdkForRubyV3/monitoring-2010-08-01/PutMetricAlarm)di *Referensi AWS SDK untuk Ruby API*. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cloudwatch#code-examples). 

```
require 'aws-sdk-cloudwatch'

# Adds a datapoint to a metric in Amazon CloudWatch.
#
# @param cloudwatch_client [Aws::CloudWatch::Client]
#   An initialized CloudWatch client.
# @param metric_namespace [String] The namespace of the metric to add the
#   datapoint to.
# @param metric_name [String] The name of the metric to add the datapoint to.
# @param dimension_name [String] The name of the dimension to add the
#   datapoint to.
# @param dimension_value [String] The value of the dimension to add the
#   datapoint to.
# @param metric_value [Float] The value of the datapoint.
# @param metric_unit [String] The unit of measurement for the datapoint.
# @return [Boolean]
# @example
#   exit 1 unless datapoint_added_to_metric?(
#     Aws::CloudWatch::Client.new(region: 'us-east-1'),
#     'SITE/TRAFFIC',
#     'UniqueVisitors',
#     'SiteName',
#     'example.com',
#     5_885.0,
#     'Count'
#   )
def datapoint_added_to_metric?(
  cloudwatch_client,
  metric_namespace,
  metric_name,
  dimension_name,
  dimension_value,
  metric_value,
  metric_unit
)
  cloudwatch_client.put_metric_data(
    namespace: metric_namespace,
    metric_data: [
      {
        metric_name: metric_name,
        dimensions: [
          {
            name: dimension_name,
            value: dimension_value
          }
        ],
        value: metric_value,
        unit: metric_unit
      }
    ]
  )
  puts "Added data about '#{metric_name}' to namespace " \
    "'#{metric_namespace}'."
  true
rescue StandardError => e
  puts "Error adding data about '#{metric_name}' to namespace " \
    "'#{metric_namespace}': #{e.message}"
  false
end
```
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/goto/SdkForRubyV3/monitoring-2010-08-01/PutMetricData)di *Referensi AWS SDK untuk Ruby API*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK for Ruby
<a name="ruby_3_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Penyedia Identitas Amazon Cognito AWS SDK untuk Ruby dengan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)

## Memulai
<a name="get_started"></a>

### Halo Amazon Cognito
<a name="cognito-identity-provider_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Cognito.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/cognito#code-examples). 

```
require 'aws-sdk-cognitoidentityprovider'
require 'logger'

# CognitoManager is a class responsible for managing AWS Cognito operations
# such as listing all user pools in the current AWS account.
class CognitoManager
  def initialize(client)
    @client = client
    @logger = Logger.new($stdout)
  end

  # Lists and prints all user pools associated with the AWS account.
  def list_user_pools
    paginator = @client.list_user_pools(max_results: 10)
    user_pools = []
    paginator.each_page do |page|
      user_pools.concat(page.user_pools)
    end

    if user_pools.empty?
      @logger.info('No Cognito user pools found.')
    else
      user_pools.each do |user_pool|
        @logger.info("User pool ID: #{user_pool.id}")
        @logger.info("User pool name: #{user_pool.name}")
        @logger.info("User pool status: #{user_pool.status}")
        @logger.info('---')
      end
    end
  end
end

if $PROGRAM_NAME == __FILE__
  cognito_client = Aws::CognitoIdentityProvider::Client.new
  manager = CognitoManager.new(cognito_client)
  manager.list_user_pools
end
```
+  Untuk detail API, lihat [ListUserPools](https://docs.aws.amazon.com/goto/SdkForRubyV3/cognito-idp-2016-04-18/ListUserPools)di *Referensi AWS SDK untuk Ruby API*. 

# Amazon Comprehend contoh menggunakan SDK for Ruby
<a name="ruby_3_comprehend_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon AWS SDK untuk Ruby Comprehend.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Ruby**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/cross_service_examples/feedback_sentiment_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon DocumentDB menggunakan SDK for Ruby
<a name="ruby_3_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon DocumentDB. AWS SDK untuk Ruby 

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Ruby.  

```
require 'json'

def lambda_handler(event:, context:)
  event['events'].each do |record|
    log_document_db_event(record)
  end
  'OK'
end

def log_document_db_event(record)
  event_data = record['event'] || {}
  operation_type = event_data['operationType'] || 'Unknown'
  db = event_data.dig('ns', 'db') || 'Unknown'
  collection = event_data.dig('ns', 'coll') || 'Unknown'
  full_document = event_data['fullDocument'] || {}

  puts "Operation type: #{operation_type}"
  puts "db: #{db}"
  puts "collection: #{collection}"
  puts "Full document: #{JSON.pretty_generate(full_document)}"
end
```

# Contoh DynamoDB menggunakan SDK for Ruby
<a name="ruby_3_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo DynamoDB
<a name="dynamodb_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk memulai menggunakan DynamoDB.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
require 'aws-sdk-dynamodb'
require 'logger'

# DynamoDBManager is a class responsible for managing DynamoDB operations
# such as listing all tables in the current AWS account.
class DynamoDBManager
  def initialize(client)
    @client = client
    @logger = Logger.new($stdout)
  end

  # Lists and prints all DynamoDB tables in the current AWS account.
  def list_tables
    @logger.info('Here are the DynamoDB tables in your account:')

    paginator = @client.list_tables(limit: 10)
    table_names = []

    paginator.each_page do |page|
      page.table_names.each do |table_name|
        @logger.info("- #{table_name}")
        table_names << table_name
      end
    end

    if table_names.empty?
      @logger.info("You don't have any DynamoDB tables in your account.")
    else
      @logger.info("\nFound #{table_names.length} tables.")
    end
  end
end

if $PROGRAM_NAME == __FILE__
  dynamodb_client = Aws::DynamoDB::Client.new
  manager = DynamoDBManager.new(dynamodb_client)
  manager.list_tables
end
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK untuk Ruby API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_ruby_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 
Buat kelas yang merangkum tabel DynamoDB.  

```
  # Creates an Amazon DynamoDB table that can be used to store movie data.
  # The table uses the release year of the movie as the partition key and the
  # title as the sort key.
  #
  # @param table_name [String] The name of the table to create.
  # @return [Aws::DynamoDB::Table] The newly created table.
  def create_table(table_name)
    @table = @dynamo_resource.create_table(
      table_name: table_name,
      key_schema: [
        { attribute_name: 'year', key_type: 'HASH' }, # Partition key
        { attribute_name: 'title', key_type: 'RANGE' } # Sort key
      ],
      attribute_definitions: [
        { attribute_name: 'year', attribute_type: 'N' },
        { attribute_name: 'title', attribute_type: 'S' }
      ],
      billing_mode: 'PAY_PER_REQUEST'
    )
    @dynamo_resource.client.wait_until(:table_exists, table_name: table_name)
    @table
  rescue Aws::DynamoDB::Errors::ServiceError => e
    @logger.error("Failed create table #{table_name}:\n#{e.code}: #{e.message}")
    raise
  end
```
Buat fungsi pembantu untuk mengunduh dan mengekstrak file JSON sampel.  

```
  # Gets sample movie data, either from a local file or by first downloading it from
  # the Amazon DynamoDB Developer Guide.
  #
  # @param movie_file_name [String] The local file name where the movie data is stored in JSON format.
  # @return [Hash] The movie data as a Hash.
  def fetch_movie_data(movie_file_name)
    if !File.file?(movie_file_name)
      @logger.debug("Downloading #{movie_file_name}...")
      movie_content = URI.open(
        'https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/samples/moviedata.zip'
      )
      movie_json = ''
      Zip::File.open_buffer(movie_content) do |zip|
        zip.each do |entry|
          movie_json = entry.get_input_stream.read
        end
      end
    else
      movie_json = File.read(movie_file_name)
    end
    movie_data = JSON.parse(movie_json)
    # The sample file lists over 4000 movies. This returns only the first 250.
    movie_data.slice(0, 250)
  rescue StandardError => e
    puts("Failure downloading movie data:\n#{e}")
    raise
  end
```
Jalankan skenario interaktif untuk membuat tabel dan melakukan tindakan pada tabel tersebut.  

```
  table_name = "doc-example-table-movies-#{rand(10**4)}"
  scaffold = Scaffold.new(table_name)
  dynamodb_wrapper = DynamoDBBasics.new(table_name)

  new_step(1, 'Create a new DynamoDB table if none already exists.')
  unless scaffold.exists?(table_name)
    puts("\nNo such table: #{table_name}. Creating it...")
    scaffold.create_table(table_name)
    print "Done!\n".green
  end

  new_step(2, 'Add a new record to the DynamoDB table.')
  my_movie = {}
  my_movie[:title] = CLI::UI::Prompt.ask('Enter the title of a movie to add to the table. E.g. The Matrix')
  my_movie[:year] = CLI::UI::Prompt.ask('What year was it released? E.g. 1989').to_i
  my_movie[:rating] = CLI::UI::Prompt.ask('On a scale of 1 - 10, how do you rate it? E.g. 7').to_i
  my_movie[:plot] = CLI::UI::Prompt.ask('Enter a brief summary of the plot. E.g. A man awakens to a new reality.')
  dynamodb_wrapper.add_item(my_movie)
  puts("\nNew record added:")
  puts JSON.pretty_generate(my_movie).green
  print "Done!\n".green

  new_step(3, 'Update a record in the DynamoDB table.')
  my_movie[:rating] = CLI::UI::Prompt.ask("Let's update the movie you added with a new rating, e.g. 3:").to_i
  response = dynamodb_wrapper.update_item(my_movie)
  puts("Updated '#{my_movie[:title]}' with new attributes:")
  puts JSON.pretty_generate(response).green
  print "Done!\n".green

  new_step(4, 'Get a record from the DynamoDB table.')
  puts("Searching for #{my_movie[:title]} (#{my_movie[:year]})...")
  response = dynamodb_wrapper.get_item(my_movie[:title], my_movie[:year])
  puts JSON.pretty_generate(response).green
  print "Done!\n".green

  new_step(5, 'Write a batch of items into the DynamoDB table.')
  download_file = 'moviedata.json'
  puts("Downloading movie database to #{download_file}...")
  movie_data = scaffold.fetch_movie_data(download_file)
  puts("Writing movie data from #{download_file} into your table...")
  scaffold.write_batch(movie_data)
  puts("Records added: #{movie_data.length}.")
  print "Done!\n".green

  new_step(5, 'Query for a batch of items by key.')
  loop do
    release_year = CLI::UI::Prompt.ask('Enter a year between 1972 and 2018, e.g. 1999:').to_i
    results = dynamodb_wrapper.query_items(release_year)
    if results.any?
      puts("There were #{results.length} movies released in #{release_year}:")
      results.each do |movie|
        print "\t #{movie['title']}".green
      end
      break
    else
      continue = CLI::UI::Prompt.ask("Found no movies released in #{release_year}! Try another year? (y/n)")
      break unless continue.eql?('y')
    end
  end
  print "\nDone!\n".green

  new_step(6, 'Scan for a batch of items using a filter expression.')
  years = {}
  years[:start] = CLI::UI::Prompt.ask('Enter a starting year between 1972 and 2018:')
  years[:end] = CLI::UI::Prompt.ask('Enter an ending year between 1972 and 2018:')
  releases = dynamodb_wrapper.scan_items(years)
  if !releases.empty?
    puts("Found #{releases.length} movies.")
    count = Question.ask(
      'How many do you want to see? ', method(:is_int), in_range(1, releases.length)
    )
    puts("Here are your #{count} movies:")
    releases.take(count).each do |release|
      puts("\t#{release['title']}")
    end
  else
    puts("I don't know about any movies released between #{years[:start]} "\
         "and #{years[:end]}.")
  end
  print "\nDone!\n".green

  new_step(7, 'Delete an item from the DynamoDB table.')
  answer = CLI::UI::Prompt.ask("Do you want to remove '#{my_movie[:title]}'? (y/n) ")
  if answer.eql?('y')
    dynamodb_wrapper.delete_item(my_movie[:title], my_movie[:year])
    puts("Removed '#{my_movie[:title]}' from the table.")
    print "\nDone!\n".green
  end

  new_step(8, 'Delete the DynamoDB table.')
  answer = CLI::UI::Prompt.ask('Delete the table? (y/n)')
  if answer.eql?('y')
    scaffold.delete_table
    puts("Deleted #{table_name}.")
  else
    puts("Don't forget to delete the table when you're done!")
  end
  print "\nThanks for watching!\n".green
rescue Aws::Errors::ServiceError
  puts('Something went wrong with the demo.')
rescue Errno::ENOENT
  true
end
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Ruby *.
  + [BatchWriteItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/BatchWriteItem)
  + [CreateTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/CreateTable)
  + [DeleteItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/DeleteItem)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/DeleteTable)
  + [DescribeTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/DescribeTable)
  + [GetItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/GetItem)
  + [PutItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/PutItem)
  + [Kueri](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/Query)
  + [Scan](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/Scan)
  + [UpdateItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/UpdateItem)

## Tindakan
<a name="actions"></a>

### `BatchExecuteStatement`
<a name="dynamodb_BatchExecuteStatement_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchExecuteStatement`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 
Baca batch item menggunakan PartiQL.  

```
class DynamoDBPartiQLBatch
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamodb = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamodb.table(table_name)
  end

  # Selects a batch of items from a table using PartiQL
  #
  # @param batch_titles [Array] Collection of movie titles
  # @return [Aws::DynamoDB::Types::BatchExecuteStatementOutput]
  def batch_execute_select(batch_titles)
    request_items = batch_titles.map do |title, year|
      {
        statement: "SELECT * FROM \"#{@table.name}\" WHERE title=? and year=?",
        parameters: [title, year]
      }
    end
    @dynamodb.client.batch_execute_statement({ statements: request_items })
  end
```
Hapus batch item menggunakan PartiQL.  

```
class DynamoDBPartiQLBatch
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamodb = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamodb.table(table_name)
  end

  # Deletes a batch of items from a table using PartiQL
  #
  # @param batch_titles [Array] Collection of movie titles
  # @return [Aws::DynamoDB::Types::BatchExecuteStatementOutput]
  def batch_execute_write(batch_titles)
    request_items = batch_titles.map do |title, year|
      {
        statement: "DELETE FROM \"#{@table.name}\" WHERE title=? and year=?",
        parameters: [title, year]
      }
    end
    @dynamodb.client.batch_execute_statement({ statements: request_items })
  end
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK untuk Ruby API*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
class DynamoDBBasics
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamo_resource.table(table_name)
  end

  # Fills an Amazon DynamoDB table with the specified data. Items are sent in
  # batches of 25 until all items are written.
  #
  # @param movies [Enumerable] The data to put in the table. Each item must contain at least
  #                            the keys required by the schema that was specified when the
  #                            table was created.
  def write_batch(movies)
    index = 0
    slice_size = 25
    while index < movies.length
      movie_items = []
      movies[index, slice_size].each do |movie|
        movie_items.append({ put_request: { item: movie } })
      end
      @dynamo_resource.client.batch_write_item({ request_items: { @table.name => movie_items } })
      index += slice_size
    end
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts(
      "Couldn't load data into table #{@table.name}. Here's why:"
    )
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [BatchWriteItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/BatchWriteItem)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
# Encapsulates an Amazon DynamoDB table of movie data.
class Scaffold
  attr_reader :dynamo_resource, :table_name, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table_name = table_name
    @table = nil
    @logger = Logger.new($stdout)
    @logger.level = Logger::DEBUG
  end

  # Creates an Amazon DynamoDB table that can be used to store movie data.
  # The table uses the release year of the movie as the partition key and the
  # title as the sort key.
  #
  # @param table_name [String] The name of the table to create.
  # @return [Aws::DynamoDB::Table] The newly created table.
  def create_table(table_name)
    @table = @dynamo_resource.create_table(
      table_name: table_name,
      key_schema: [
        { attribute_name: 'year', key_type: 'HASH' }, # Partition key
        { attribute_name: 'title', key_type: 'RANGE' } # Sort key
      ],
      attribute_definitions: [
        { attribute_name: 'year', attribute_type: 'N' },
        { attribute_name: 'title', attribute_type: 'S' }
      ],
      billing_mode: 'PAY_PER_REQUEST'
    )
    @dynamo_resource.client.wait_until(:table_exists, table_name: table_name)
    @table
  rescue Aws::DynamoDB::Errors::ServiceError => e
    @logger.error("Failed create table #{table_name}:\n#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/CreateTable)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
class DynamoDBBasics
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamo_resource.table(table_name)
  end

  # Deletes a movie from the table.
  #
  # @param title [String] The title of the movie to delete.
  # @param year [Integer] The release year of the movie to delete.
  def delete_item(title, year)
    @table.delete_item(key: { 'year' => year, 'title' => title })
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't delete movie #{title}. Here's why:")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/DeleteItem)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
# Encapsulates an Amazon DynamoDB table of movie data.
class Scaffold
  attr_reader :dynamo_resource, :table_name, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table_name = table_name
    @table = nil
    @logger = Logger.new($stdout)
    @logger.level = Logger::DEBUG
  end

  # Deletes the table.
  def delete_table
    @table.delete
    @table = nil
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't delete table. Here's why:")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/DeleteTable)di *Referensi AWS SDK untuk Ruby API*. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
# Encapsulates an Amazon DynamoDB table of movie data.
class Scaffold
  attr_reader :dynamo_resource, :table_name, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table_name = table_name
    @table = nil
    @logger = Logger.new($stdout)
    @logger.level = Logger::DEBUG
  end

  # Determines whether a table exists. As a side effect, stores the table in
  # a member variable.
  #
  # @param table_name [String] The name of the table to check.
  # @return [Boolean] True when the table exists; otherwise, False.
  def exists?(table_name)
    @dynamo_resource.client.describe_table(table_name: table_name)
    @logger.debug("Table #{table_name} exists")
  rescue Aws::DynamoDB::Errors::ResourceNotFoundException
    @logger.debug("Table #{table_name} doesn't exist")
    false
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't check for existence of #{table_name}:\n")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/DescribeTable)di *Referensi AWS SDK untuk Ruby API*. 

### `ExecuteStatement`
<a name="dynamodb_ExecuteStatement_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 
Pilih satu item menggunakan PartiQL.  

```
class DynamoDBPartiQLSingle
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamodb = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamodb.table(table_name)
  end

  # Gets a single record from a table using PartiQL.
  # Note: To perform more fine-grained selects,
  # use the Client.query instance method instead.
  #
  # @param title [String] The title of the movie to search.
  # @return [Aws::DynamoDB::Types::ExecuteStatementOutput]
  def select_item_by_title(title)
    request = {
      statement: "SELECT * FROM \"#{@table.name}\" WHERE title=?",
      parameters: [title]
    }
    @dynamodb.client.execute_statement(request)
  end
```
Perbarui satu item menggunakan PartiQL.  

```
class DynamoDBPartiQLSingle
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamodb = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamodb.table(table_name)
  end

  # Updates a single record from a table using PartiQL.
  #
  # @param title [String] The title of the movie to update.
  # @param year [Integer] The year the movie was released.
  # @param rating [Float] The new rating to assign the title.
  # @return [Aws::DynamoDB::Types::ExecuteStatementOutput]
  def update_rating_by_title(title, year, rating)
    request = {
      statement: "UPDATE \"#{@table.name}\" SET info.rating=? WHERE title=? and year=?",
      parameters: [{ "N": rating }, title, year]
    }
    @dynamodb.client.execute_statement(request)
  end
```
Tambahkan satu item menggunakan PartiQL.  

```
class DynamoDBPartiQLSingle
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamodb = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamodb.table(table_name)
  end

  # Adds a single record to a table using PartiQL.
  #
  # @param title [String] The title of the movie to update.
  # @param year [Integer] The year the movie was released.
  # @param plot [String] The plot of the movie.
  # @param rating [Float] The new rating to assign the title.
  # @return [Aws::DynamoDB::Types::ExecuteStatementOutput]
  def insert_item(title, year, plot, rating)
    request = {
      statement: "INSERT INTO \"#{@table.name}\" VALUE {'title': ?, 'year': ?, 'info': ?}",
      parameters: [title, year, { 'plot': plot, 'rating': rating }]
    }
    @dynamodb.client.execute_statement(request)
  end
```
Hapus satu item menggunakan PartiQL.  

```
class DynamoDBPartiQLSingle
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamodb = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamodb.table(table_name)
  end

  # Deletes a single record from a table using PartiQL.
  #
  # @param title [String] The title of the movie to update.
  # @param year [Integer] The year the movie was released.
  # @return [Aws::DynamoDB::Types::ExecuteStatementOutput]
  def delete_item_by_title(title, year)
    request = {
      statement: "DELETE FROM \"#{@table.name}\" WHERE title=? and year=?",
      parameters: [title, year]
    }
    @dynamodb.client.execute_statement(request)
  end
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK untuk Ruby API*. 

### `GetItem`
<a name="dynamodb_GetItem_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
class DynamoDBBasics
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamo_resource.table(table_name)
  end

  # Gets movie data from the table for a specific movie.
  #
  # @param title [String] The title of the movie.
  # @param year [Integer] The release year of the movie.
  # @return [Hash] The data about the requested movie.
  def get_item(title, year)
    @table.get_item(key: { 'year' => year, 'title' => title })
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't get movie #{title} (#{year}) from table #{@table.name}:\n")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/GetItem)di *Referensi AWS SDK untuk Ruby API*. 

### `ListTables`
<a name="dynamodb_ListTables_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/dynamodb#code-examples). 
Tentukan apakah tabel ada.  

```
# Encapsulates an Amazon DynamoDB table of movie data.
class Scaffold
  attr_reader :dynamo_resource, :table_name, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table_name = table_name
    @table = nil
    @logger = Logger.new($stdout)
    @logger.level = Logger::DEBUG
  end

  # Determines whether a table exists. As a side effect, stores the table in
  # a member variable.
  #
  # @param table_name [String] The name of the table to check.
  # @return [Boolean] True when the table exists; otherwise, False.
  def exists?(table_name)
    @dynamo_resource.client.describe_table(table_name: table_name)
    @logger.debug("Table #{table_name} exists")
  rescue Aws::DynamoDB::Errors::ResourceNotFoundException
    @logger.debug("Table #{table_name} doesn't exist")
    false
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't check for existence of #{table_name}:\n")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/ListTables)di *Referensi AWS SDK untuk Ruby API*. 

### `PutItem`
<a name="dynamodb_PutItem_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
class DynamoDBBasics
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamo_resource.table(table_name)
  end

  # Adds a movie to the table.
  #
  # @param movie [Hash] The title, year, plot, and rating of the movie.
  def add_item(movie)
    @table.put_item(
      item: {
        'year' => movie[:year],
        'title' => movie[:title],
        'info' => { 'plot' => movie[:plot], 'rating' => movie[:rating] }
      }
    )
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't add movie #{title} to table #{@table.name}. Here's why:")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/PutItem)di *Referensi AWS SDK untuk Ruby API*. 

### `Query`
<a name="dynamodb_Query_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
class DynamoDBBasics
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamo_resource.table(table_name)
  end

  # Queries for movies that were released in the specified year.
  #
  # @param year [Integer] The year to query.
  # @return [Array] The list of movies that were released in the specified year.
  def query_items(year)
    response = @table.query(
      key_condition_expression: '#yr = :year',
      expression_attribute_names: { '#yr' => 'year' },
      expression_attribute_values: { ':year' => year }
    )
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't query for movies released in #{year}. Here's why:")
    puts("\t#{e.code}: #{e.message}")
    raise
  else
    response.items
  end
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/Query) di *Referensi API AWS SDK untuk Ruby *. 

### `Scan`
<a name="dynamodb_Scan_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
class DynamoDBBasics
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamo_resource.table(table_name)
  end

  # Scans for movies that were released in a range of years.
  # Uses a projection expression to return a subset of data for each movie.
  #
  # @param year_range [Hash] The range of years to retrieve.
  # @return [Array] The list of movies released in the specified years.
  def scan_items(year_range)
    movies = []
    scan_hash = {
      filter_expression: '#yr between :start_yr and :end_yr',
      projection_expression: '#yr, title, info.rating',
      expression_attribute_names: { '#yr' => 'year' },
      expression_attribute_values: {
        ':start_yr' => year_range[:start], ':end_yr' => year_range[:end]
      }
    }
    done = false
    start_key = nil
    until done
      scan_hash[:exclusive_start_key] = start_key unless start_key.nil?
      response = @table.scan(scan_hash)
      movies.concat(response.items) unless response.items.empty?
      start_key = response.last_evaluated_key
      done = start_key.nil?
    end
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't scan for movies. Here's why:")
    puts("\t#{e.code}: #{e.message}")
    raise
  else
    movies
  end
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/Scan) di *Referensi API AWS SDK untuk Ruby *. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 

```
class DynamoDBBasics
  attr_reader :dynamo_resource, :table

  def initialize(table_name)
    client = Aws::DynamoDB::Client.new(region: 'us-east-1')
    @dynamo_resource = Aws::DynamoDB::Resource.new(client: client)
    @table = @dynamo_resource.table(table_name)
  end

  # Updates rating and plot data for a movie in the table.
  #
  # @param movie [Hash] The title, year, plot, rating of the movie.
  def update_item(movie)
    response = @table.update_item(
      key: { 'year' => movie[:year], 'title' => movie[:title] },
      update_expression: 'set info.rating=:r',
      expression_attribute_values: { ':r' => movie[:rating] },
      return_values: 'UPDATED_NEW'
    )
  rescue Aws::DynamoDB::Errors::ServiceError => e
    puts("Couldn't update movie #{movie[:title]} (#{movie[:year]}) in table #{@table.name}\n")
    puts("\t#{e.code}: #{e.message}")
    raise
  else
    response.attributes
  end
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/UpdateItem)di *Referensi AWS SDK untuk Ruby API*. 

## Skenario
<a name="scenarios"></a>

### Melakukan kueri pada tabel menggunakan batch pernyataan PartiQL
<a name="dynamodb_Scenario_PartiQLBatch_ruby_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan batch item dengan menjalankan beberapa pernyataan SELECT.
+ Tambahkan batch item dengan menjalankan beberapa pernyataan INSERT.
+ Perbarui batch item dengan menjalankan beberapa pernyataan UPDATE.
+ Hapus batch item dengan menjalankan beberapa pernyataan DELETE.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 
Jalankan skenario yang membuat tabel dan menjalankan batch kueri PartiQL.  

```
  table_name = "doc-example-table-movies-partiql-#{rand(10**4)}"
  scaffold = Scaffold.new(table_name)
  sdk = DynamoDBPartiQLBatch.new(table_name)

  new_step(1, 'Create a new DynamoDB table if none already exists.')
  unless scaffold.exists?(table_name)
    puts("\nNo such table: #{table_name}. Creating it...")
    scaffold.create_table(table_name)
    print "Done!\n".green
  end

  new_step(2, 'Populate DynamoDB table with movie data.')
  download_file = 'moviedata.json'
  puts("Downloading movie database to #{download_file}...")
  movie_data = scaffold.fetch_movie_data(download_file)
  puts("Writing movie data from #{download_file} into your table...")
  scaffold.write_batch(movie_data)
  puts("Records added: #{movie_data.length}.")
  print "Done!\n".green

  new_step(3, 'Select a batch of items from the movies table.')
  puts "Let's select some popular movies for side-by-side comparison."
  response = sdk.batch_execute_select([['Mean Girls', 2004], ['Goodfellas', 1977], ['The Prancing of the Lambs', 2005]])
  puts("Items selected: #{response['responses'].length}\n")
  print "\nDone!\n".green

  new_step(4, 'Delete a batch of items from the movies table.')
  sdk.batch_execute_write([['Mean Girls', 2004], ['Goodfellas', 1977], ['The Prancing of the Lambs', 2005]])
  print "\nDone!\n".green

  new_step(5, 'Delete the table.')
  return unless scaffold.exists?(table_name)

  scaffold.delete_table
end
```
+  Untuk detail API, lihat [BatchExecuteStatement](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/BatchExecuteStatement)di *Referensi AWS SDK untuk Ruby API*. 

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_ruby_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/dynamodb#code-examples). 
Jalankan skenario yang membuat tabel dan menjalankan kueri PartiQL.  

```
  table_name = "doc-example-table-movies-partiql-#{rand(10**8)}"
  scaffold = Scaffold.new(table_name)
  sdk = DynamoDBPartiQLSingle.new(table_name)

  new_step(1, 'Create a new DynamoDB table if none already exists.')
  unless scaffold.exists?(table_name)
    puts("\nNo such table: #{table_name}. Creating it...")
    scaffold.create_table(table_name)
    print "Done!\n".green
  end

  new_step(2, 'Populate DynamoDB table with movie data.')
  download_file = 'moviedata.json'
  puts("Downloading movie database to #{download_file}...")
  movie_data = scaffold.fetch_movie_data(download_file)
  puts("Writing movie data from #{download_file} into your table...")
  scaffold.write_batch(movie_data)
  puts("Records added: #{movie_data.length}.")
  print "Done!\n".green

  new_step(3, 'Select a single item from the movies table.')
  response = sdk.select_item_by_title('Star Wars')
  puts("Items selected for title 'Star Wars': #{response.items.length}\n")
  print response.items.first.to_s.yellow
  print "\n\nDone!\n".green

  new_step(4, 'Update a single item from the movies table.')
  puts "Let's correct the rating on The Big Lebowski to 10.0."
  sdk.update_rating_by_title('The Big Lebowski', 1998, 10.0)
  print "\nDone!\n".green

  new_step(5, 'Delete a single item from the movies table.')
  puts "Let's delete The Silence of the Lambs because it's just too scary."
  sdk.delete_item_by_title('The Silence of the Lambs', 1991)
  print "\nDone!\n".green

  new_step(6, 'Insert a new item into the movies table.')
  puts "Let's create a less-scary movie called The Prancing of the Lambs."
  sdk.insert_item('The Prancing of the Lambs', 2005, 'A movie about happy livestock.', 5.0)
  print "\nDone!\n".green

  new_step(7, 'Delete the table.')
  return unless scaffold.exists?(table_name)

  scaffold.delete_table
end
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/goto/SdkForRubyV3/dynamodb-2012-08-10/ExecuteStatement)di *Referensi AWS SDK untuk Ruby API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Ruby.  

```
def lambda_handler(event:, context:)
    return 'received empty event' if event['Records'].empty?
  
    event['Records'].each do |record|
      log_dynamodb_record(record)
    end
  
    "Records processed: #{event['Records'].length}"
  end
  
  def log_dynamodb_record(record)
    puts record['eventID']
    puts record['eventName']
    puts "DynamoDB Record: #{JSON.generate(record['dynamodb'])}"
  end
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Ruby.  

```
def lambda_handler(event:, context:)
    records = event["Records"]
    cur_record_sequence_number = ""
  
    records.each do |record|
      begin
        # Process your record
        cur_record_sequence_number = record["dynamodb"]["SequenceNumber"]
      rescue StandardError => e
        # Return failed record's sequence number
        return {"batchItemFailures" => [{"itemIdentifier" => cur_record_sequence_number}]}
      end
    end
  
    {"batchItemFailures" => []}
  end
```

# Contoh Amazon EC2 menggunakan SDK for Ruby
<a name="ruby_3_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon EC2. AWS SDK untuk Ruby 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'
require 'logger'

# EC2Manager is a class responsible for managing EC2 operations
# such as listing all EC2 instances in the current AWS account.
class EC2Manager
  def initialize(client)
    @client = client
    @logger = Logger.new($stdout)
  end

  # Lists and prints all EC2 instances in the current AWS account.
  def list_instances
    @logger.info('Listing instances')

    instances = fetch_instances

    if instances.empty?
      @logger.info('You have no instances')
    else
      print_instances(instances)
    end
  end

  private

  # Fetches all EC2 instances using pagination.
  #
  # @return [Array<Aws::EC2::Types::Instance>] List of EC2 instances.
  def fetch_instances
    paginator = @client.describe_instances
    instances = []

    paginator.each_page do |page|
      page.reservations.each do |reservation|
        reservation.instances.each do |instance|
          instances << instance
        end
      end
    end

    instances
  end

  # Prints details of the given EC2 instances.
  #
  # @param instances [Array<Aws::EC2::Types::Instance>] List of EC2 instances to print.
  def print_instances(instances)
    instances.each do |instance|
      @logger.info("Instance ID: #{instance.instance_id}")
      @logger.info("Instance Type: #{instance.instance_type}")
      @logger.info("Public IP: #{instance.public_ip_address}")
      @logger.info("Public DNS Name: #{instance.public_dns_name}")
      @logger.info("\n")
    end
  end
end

if $PROGRAM_NAME == __FILE__
  ec2_client = Aws::EC2::Client.new(region: 'us-west-2')
  manager = EC2Manager.new(ec2_client)
  manager.list_instances
end
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/DescribeSecurityGroups)di *Referensi AWS SDK untuk Ruby API*. 

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
# Creates an Elastic IP address in Amazon Virtual Private Cloud (Amazon VPC).
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @return [String] The allocation ID corresponding to the Elastic IP address.
# @example
#   puts allocate_elastic_ip_address(Aws::EC2::Client.new(region: 'us-west-2'))
def allocate_elastic_ip_address(ec2_client)
  response = ec2_client.allocate_address(domain: 'vpc')
  response.allocation_id
rescue StandardError => e
  puts "Error allocating Elastic IP address: #{e.message}"
  'Error'
end
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/AllocateAddress)di *Referensi AWS SDK untuk Ruby API*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
# Associates an Elastic IP address with an Amazon Elastic Compute Cloud
# (Amazon EC2) instance.
#
# Prerequisites:
#
# - The allocation ID corresponding to the Elastic IP address.
# - The Amazon EC2 instance.
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @param allocation_id [String] The ID of the allocation corresponding to
#   the Elastic IP address.
# @param instance_id [String] The ID of the instance.
# @return [String] The assocation ID corresponding to the association of the
#   Elastic IP address to the instance.
# @example
#   puts allocate_elastic_ip_address(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'eipalloc-04452e528a66279EX',
#     'i-033c48ef067af3dEX')
def associate_elastic_ip_address_with_instance(
  ec2_client,
  allocation_id,
  instance_id
)
  response = ec2_client.associate_address(
    allocation_id: allocation_id,
    instance_id: instance_id
  )
  response.association_id
rescue StandardError => e
  puts "Error associating Elastic IP address with instance: #{e.message}"
  'Error'
end
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/AssociateAddress)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
# This code example does the following:
# 1. Creates a key pair in Amazon Elastic Compute Cloud (Amazon EC2).
# 2. Displays information about available key pairs.
# 3. Deletes the key pair.

require 'aws-sdk-ec2'

# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @param key_pair_name [String] The name for the key pair and private
#   key file.
# @return [Boolean] true if the key pair and private key file were
#   created; otherwise, false.
# @example
#   exit 1 unless key_pair_created?(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'my-key-pair'
#   )
def key_pair_created?(ec2_client, key_pair_name)
  key_pair = ec2_client.create_key_pair(key_name: key_pair_name)
  puts "Created key pair '#{key_pair.key_name}' with fingerprint " \
    "'#{key_pair.key_fingerprint}' and ID '#{key_pair.key_pair_id}'."
  filename = File.join(Dir.home, "#{key_pair_name}.pem")
  File.open(filename, 'w') { |file| file.write(key_pair.key_material) }
  puts "Private key file saved locally as '#{filename}'."
  true
rescue Aws::EC2::Errors::InvalidKeyPairDuplicate
  puts "Error creating key pair: a key pair named '#{key_pair_name}' " \
    'already exists.'
  false
rescue StandardError => e
  puts "Error creating key pair or saving private key file: #{e.message}"
  false
end

# Displays information about available key pairs in
# Amazon Elastic Compute Cloud (Amazon EC2).
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @example
#   describe_key_pairs(Aws::EC2::Client.new(region: 'us-west-2'))
def describe_key_pairs(ec2_client)
  result = ec2_client.describe_key_pairs
  if result.key_pairs.count.zero?
    puts 'No key pairs found.'
  else
    puts 'Key pair names:'
    result.key_pairs.each do |key_pair|
      puts key_pair.key_name
    end
  end
rescue StandardError => e
  puts "Error getting information about key pairs: #{e.message}"
end

# Deletes a key pair in Amazon Elastic Compute Cloud (Amazon EC2).
#
# Prerequisites:
#
# - The key pair to delete.
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @param key_pair_name [String] The name of the key pair to delete.
# @return [Boolean] true if the key pair was deleted; otherwise, false.
# @example
#   exit 1 unless key_pair_deleted?(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'my-key-pair'
#   )
def key_pair_deleted?(ec2_client, key_pair_name)
  ec2_client.delete_key_pair(key_name: key_pair_name)
  true
rescue StandardError => e
  puts "Error deleting key pair: #{e.message}"
  false
end

# Example usage:
def run_me
  key_pair_name = ''
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby ec2-ruby-example-key-pairs.rb KEY_PAIR_NAME REGION'
    puts 'Example: ruby ec2-ruby-example-key-pairs.rb my-key-pair us-west-2'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
  elsif ARGV.count.zero?
    key_pair_name = 'my-key-pair'
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    key_pair_name = ARGV[0]
    region = ARGV[1]
  end

  ec2_client = Aws::EC2::Client.new(region: region)

  puts 'Displaying existing key pair names before creating this key pair...'
  describe_key_pairs(ec2_client)

  puts '-' * 10
  puts 'Creating key pair...'
  unless key_pair_created?(ec2_client, key_pair_name)
    puts 'Stopping program.'
    exit 1
  end

  puts '-' * 10
  puts 'Displaying existing key pair names after creating this key pair...'
  describe_key_pairs(ec2_client)

  puts '-' * 10
  puts 'Deleting key pair...'
  unless key_pair_deleted?(ec2_client, key_pair_name)
    puts 'Stopping program. You must delete the key pair yourself.'
    exit 1
  end
  puts 'Key pair deleted.'

  puts '-' * 10
  puts 'Now that the key pair is deleted, ' \
    'also deleting the related private key pair file...'
  filename = File.join(Dir.home, "#{key_pair_name}.pem")
  File.delete(filename)
  if File.exist?(filename)
    puts "Could not delete file at '#{filename}'. You must delete it yourself."
  else
    puts 'File deleted.'
  end

  puts '-' * 10
  puts 'Displaying existing key pair names after deleting this key pair...'
  describe_key_pairs(ec2_client)
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateKeyPair)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateRouteTable`
<a name="ec2_CreateRouteTable_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRouteTable`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'

# Prerequisites:
#
# - A VPC in Amazon VPC.
# - A subnet in that VPC.
# - A gateway attached to that subnet.
#
# @param ec2_resource [Aws::EC2::Resource] An initialized
#   Amazon Elastic Compute Cloud (Amazon EC2) resource object.
# @param vpc_id [String] The ID of the VPC for the route table.
# @param subnet_id [String] The ID of the subnet for the route table.
# @param gateway_id [String] The ID of the gateway for the route.
# @param destination_cidr_block [String] The destination CIDR block
#   for the route.
# @param tag_key [String] The key portion of the tag for the route table.
# @param tag_value [String] The value portion of the tag for the route table.
# @return [Boolean] true if the route table was created and associated;
#   otherwise, false.
# @example
#   exit 1 unless route_table_created_and_associated?(
#     Aws::EC2::Resource.new(region: 'us-west-2'),
#     'vpc-0b6f769731EXAMPLE',
#     'subnet-03d9303b57EXAMPLE',
#     'igw-06ca90c011EXAMPLE',
#     '0.0.0.0/0',
#     'my-key',
#     'my-value'
#   )
def route_table_created_and_associated?(
  ec2_resource,
  vpc_id,
  subnet_id,
  gateway_id,
  destination_cidr_block,
  tag_key,
  tag_value
)
  route_table = ec2_resource.create_route_table(vpc_id: vpc_id)
  puts "Created route table with ID '#{route_table.id}'."
  route_table.create_tags(
    tags: [
      {
        key: tag_key,
        value: tag_value
      }
    ]
  )
  puts 'Added tags to route table.'
  route_table.create_route(
    destination_cidr_block: destination_cidr_block,
    gateway_id: gateway_id
  )
  puts 'Created route with destination CIDR block ' \
    "'#{destination_cidr_block}' and associated with gateway " \
    "with ID '#{gateway_id}'."
  route_table.associate_with_subnet(subnet_id: subnet_id)
  puts "Associated route table with subnet with ID '#{subnet_id}'."
  true
rescue StandardError => e
  puts "Error creating or associating route table: #{e.message}"
  puts 'If the route table was created but not associated, you should ' \
    'clean up by deleting the route table.'
  false
end

# Example usage:
def run_me
  vpc_id = ''
  subnet_id = ''
  gateway_id = ''
  destination_cidr_block = ''
  tag_key = ''
  tag_value = ''
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage: ruby ec2-ruby-example-create-route-table.rb ' \
      'VPC_ID SUBNET_ID GATEWAY_ID DESTINATION_CIDR_BLOCK ' \
      'TAG_KEY TAG_VALUE REGION'
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    puts 'Example: ruby ec2-ruby-example-create-route-table.rb ' \
      'vpc-0b6f769731EXAMPLE subnet-03d9303b57EXAMPLE igw-06ca90c011EXAMPLE ' \
      "'0.0.0.0/0' my-key my-value us-west-2"
    exit 1
  # If no values are specified at the command prompt, use these default values.
  elsif ARGV.count.zero?
    vpc_id = 'vpc-0b6f769731EXAMPLE'
    subnet_id = 'subnet-03d9303b57EXAMPLE'
    gateway_id = 'igw-06ca90c011EXAMPLE'
    destination_cidr_block = '0.0.0.0/0'
    tag_key = 'my-key'
    tag_value = 'my-value'
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    vpc_id = ARGV[0]
    subnet_id = ARGV[1]
    gateway_id = ARGV[2]
    destination_cidr_block = ARGV[3]
    tag_key = ARGV[4]
    tag_value = ARGV[5]
    region = ARGV[6]
  end

  ec2_resource = Aws::EC2::Resource.new(region: region)

  if route_table_created_and_associated?(
    ec2_resource,
    vpc_id,
    subnet_id,
    gateway_id,
    destination_cidr_block,
    tag_key,
    tag_value
  )
    puts 'Route table created and associated.'
  else
    puts 'Route table not created or not associated.'
  end
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [CreateRouteTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateRouteTable)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
# This code example does the following:
# 1. Creates an Amazon Elastic Compute Cloud (Amazon EC2) security group.
# 2. Adds inbound rules to the security group.
# 3. Displays information about available security groups.
# 4. Deletes the security group.

require 'aws-sdk-ec2'

# Creates an Amazon Elastic Compute Cloud (Amazon EC2) security group.
#
# Prerequisites:
#
# - A VPC in Amazon Virtual Private Cloud (Amazon VPC).
#
# @param ec2_client [Aws::EC2::Client] An initialized
#   Amazon EC2 client.
# @param group_name [String] A name for the security group.
# @param description [String] A description for the security group.
# @param vpc_id [String] The ID of the VPC for the security group.
# @return [String] The ID of security group that was created.
# @example
#   puts create_security_group(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'my-security-group',
#     'This is my security group.',
#     'vpc-6713dfEX'
#   )
def create_security_group(ec2_client, group_name, description, vpc_id)
  security_group = ec2_client.create_security_group(
    group_name: group_name,
    description: description,
    vpc_id: vpc_id
  )
  puts "Created security group '#{group_name}' with ID " \
    "'#{security_group.group_id}' in VPC with ID '#{vpc_id}'."
  security_group.group_id
rescue StandardError => e
  puts "Error creating security group: #{e.message}"
  'Error'
end

# Adds an inbound rule to an Amazon Elastic Compute Cloud (Amazon EC2)
# security group.
#
# Prerequisites:
#
# - The security group.
#
# @param ec2_client [Aws::EC2::Client] An initialized Amazon EC2 client.
# @param security_group_id [String] The ID of the security group.
# @param ip_protocol [String] The network protocol for the inbound rule.
# @param from_port [String] The originating port for the inbound rule.
# @param to_port [String] The destination port for the inbound rule.
# @param cidr_ip_range [String] The CIDR IP range for the inbound rule.
# @return
# @example
#   exit 1 unless security_group_ingress_authorized?(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'sg-030a858e078f1b9EX',
#     'tcp',
#     '80',
#     '80',
#     '0.0.0.0/0'
#   )
def security_group_ingress_authorized?(
  ec2_client, security_group_id, ip_protocol, from_port, to_port, cidr_ip_range
)
  ec2_client.authorize_security_group_ingress(
    group_id: security_group_id,
    ip_permissions: [
      {
        ip_protocol: ip_protocol,
        from_port: from_port,
        to_port: to_port,
        ip_ranges: [
          {
            cidr_ip: cidr_ip_range
          }
        ]
      }
    ]
  )
  puts "Added inbound rule to security group '#{security_group_id}' for protocol " \
    "'#{ip_protocol}' from port '#{from_port}' to port '#{to_port}' " \
    "with CIDR IP range '#{cidr_ip_range}'."
  true
rescue StandardError => e
  puts "Error adding inbound rule to security group: #{e.message}"
  false
end

# Refactored method to simplify complexity for describing security group permissions
def format_port_information(perm)
  from_port_str = perm.from_port == '-1' || perm.from_port == -1 ? 'All' : perm.from_port.to_s
  to_port_str = perm.to_port == '-1' || perm.to_port == -1 ? 'All' : perm.to_port.to_s
  { from_port: from_port_str, to_port: to_port_str }
end

# Displays information about a security group's IP permissions set in
# Amazon Elastic Compute Cloud (Amazon EC2).
def describe_security_group_permissions(perm)
  ports = format_port_information(perm)

  print "  Protocol: #{perm.ip_protocol == '-1' ? 'All' : perm.ip_protocol}"
  print ", From: #{ports[:from_port]}, To: #{ports[:to_port]}"

  print ", CIDR IPv6: #{perm.ipv_6_ranges[0].cidr_ipv_6}" if perm.key?(:ipv_6_ranges) && perm.ipv_6_ranges.count.positive?

  print ", CIDR IPv4: #{perm.ip_ranges[0].cidr_ip}" if perm.key?(:ip_ranges) && perm.ip_ranges.count.positive?
  print "\n"
end

# Displays information about available security groups in
# Amazon Elastic Compute Cloud (Amazon EC2).
def describe_security_groups(ec2_client)
  response = ec2_client.describe_security_groups

  if response.security_groups.count.positive?
    response.security_groups.each do |sg|
      display_group_details(sg)
    end
  else
    puts 'No security groups found.'
  end
rescue StandardError => e
  puts "Error getting information about security groups: #{e.message}"
end

# Helper method to display the details of security groups
def display_group_details(sg)
  puts '-' * (sg.group_name.length + 13)
  puts "Name:        #{sg.group_name}"
  puts "Description: #{sg.description}"
  puts "Group ID:    #{sg.group_id}"
  puts "Owner ID:    #{sg.owner_id}"
  puts "VPC ID:      #{sg.vpc_id}"

  display_group_tags(sg.tags) if sg.tags.count.positive?
  display_group_permissions(sg)
end

def display_group_tags(tags)
  puts 'Tags:'
  tags.each do |tag|
    puts "  Key: #{tag.key}, Value: #{tag.value}"
  end
end

def display_group_permissions(sg)
  if sg.ip_permissions.count.positive?
    puts 'Inbound rules:'
    sg.ip_permissions.each do |p|
      describe_security_group_permissions(p)
    end
  end

  return if sg.ip_permissions_egress.empty?

  puts 'Outbound rules:'
  sg.ip_permissions_egress.each do |p|
    describe_security_group_permissions(p)
  end
end

# Deletes an Amazon Elastic Compute Cloud (Amazon EC2)
# security group.
def security_group_deleted?(ec2_client, security_group_id)
  ec2_client.delete_security_group(group_id: security_group_id)
  puts "Deleted security group '#{security_group_id}'."
  true
rescue StandardError => e
  puts "Error deleting security group: #{e.message}"
  false
end

# Example usage with refactored run_me to reduce complexity
def run_me
  group_name, description, vpc_id, ip_protocol_http, from_port_http, to_port_http, \
  cidr_ip_range_http, ip_protocol_ssh, from_port_ssh, to_port_ssh, \
  cidr_ip_range_ssh, region = process_arguments
  ec2_client = Aws::EC2::Client.new(region: region)

  security_group_id = attempt_create_security_group(ec2_client, group_name, description, vpc_id)
  security_group_exists = security_group_id != 'Error'

  if security_group_exists
    add_inbound_rules(ec2_client, security_group_id, ip_protocol_http, from_port_http, to_port_http, cidr_ip_range_http)
    add_inbound_rules(ec2_client, security_group_id, ip_protocol_ssh, from_port_ssh, to_port_ssh, cidr_ip_range_ssh)
  end

  describe_security_groups(ec2_client)
  attempt_delete_security_group(ec2_client, security_group_id) if security_group_exists
end

def process_arguments
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    display_help
    exit 1
  elsif ARGV.count.zero?
    default_values
  else
    ARGV
  end
end

def attempt_create_security_group(ec2_client, group_name, description, vpc_id)
  puts 'Attempting to create security group...'
  security_group_id = create_security_group(ec2_client, group_name, description, vpc_id)
  puts 'Could not create security group. Skipping this step.' if security_group_id == 'Error'
  security_group_id
end

def add_inbound_rules(ec2_client, security_group_id, ip_protocol, from_port, to_port, cidr_ip_range)
  puts 'Attempting to add inbound rules to security group...'
  return if security_group_ingress_authorized?(ec2_client, security_group_id, ip_protocol, from_port, to_port,
                                               cidr_ip_range)

  puts 'Could not add inbound rule to security group. Skipping this step.'
end

def attempt_delete_security_group(ec2_client, security_group_id)
  puts "\nAttempting to delete security group..."
  return if security_group_deleted?(ec2_client, security_group_id)

  puts 'Could not delete security group. You must delete it yourself.'
end

def display_help
  puts 'Usage:   ruby ec2-ruby-example-security-group.rb ' \
    'GROUP_NAME DESCRIPTION VPC_ID IP_PROTOCOL_1 FROM_PORT_1 TO_PORT_1 ' \
    'CIDR_IP_RANGE_1 IP_PROTOCOL_2 FROM_PORT_2 TO_PORT_2 ' \
    'CIDR_IP_RANGE_2 REGION'
  puts 'Example: ruby ec2-ruby-example-security-group.rb ' \
    "my-security-group 'This is my security group.' vpc-6713dfEX " \
    "tcp 80 80 '0.0.0.0/0' tcp 22 22 '0.0.0.0/0' us-west-2"
end

def default_values
  [
    'my-security-group', 'This is my security group.', 'vpc-6713dfEX', 'tcp', '80', '80',
    '0.0.0.0/0', 'tcp', '22', '22', '0.0.0.0/0', 'us-west-2'
  ]
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateSecurityGroup)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateSubnet`
<a name="ec2_CreateSubnet_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSubnet`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'

# Creates a subnet within a virtual private cloud (VPC) in
# Amazon Virtual Private Cloud (Amazon VPC) and then tags
# the subnet.
#
# Prerequisites:
#
# - A VPC in Amazon VPC.
#
# @param ec2_resource [Aws::EC2::Resource] An initialized
#   Amazon Elastic Compute Cloud (Amazon EC2) resource object.
# @param vpc_id [String] The ID of the VPC for the subnet.
# @param cidr_block [String] The IPv4 CIDR block for the subnet.
# @param availability_zone [String] The ID of the Availability Zone
#   for the subnet.
# @param tag_key [String] The key portion of the tag for the subnet.
# @param tag_vlue [String] The value portion of the tag for the subnet.
# @return [Boolean] true if the subnet was created and tagged;
#   otherwise, false.
# @example
#   exit 1 unless subnet_created_and_tagged?(
#     Aws::EC2::Resource.new(region: 'us-west-2'),
#     'vpc-6713dfEX',
#     '10.0.0.0/24',
#     'us-west-2a',
#     'my-key',
#     'my-value'
#   )
def subnet_created_and_tagged?(
  ec2_resource,
  vpc_id,
  cidr_block,
  availability_zone,
  tag_key,
  tag_value
)
  subnet = ec2_resource.create_subnet(
    vpc_id: vpc_id,
    cidr_block: cidr_block,
    availability_zone: availability_zone
  )
  subnet.create_tags(
    tags: [
      {
        key: tag_key,
        value: tag_value
      }
    ]
  )
  puts "Subnet created with ID '#{subnet.id}' in VPC with ID '#{vpc_id}' " \
    "and CIDR block '#{cidr_block}' in availability zone " \
    "'#{availability_zone}' and tagged with key '#{tag_key}' and " \
    "value '#{tag_value}'."
  true
rescue StandardError => e
  puts "Error creating or tagging subnet: #{e.message}"
  false
end

# Example usage:
def run_me
  vpc_id = ''
  cidr_block = ''
  availability_zone = ''
  tag_key = ''
  tag_value = ''
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby ec2-ruby-example-create-subnet.rb ' \
      'VPC_ID CIDR_BLOCK AVAILABILITY_ZONE TAG_KEY TAG_VALUE REGION'
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    puts 'Example: ruby ec2-ruby-example-create-subnet.rb ' \
      'vpc-6713dfEX 10.0.0.0/24 us-west-2a my-key my-value us-west-2'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  elsif ARGV.count.zero?
    vpc_id = 'vpc-6713dfEX'
    cidr_block = '10.0.0.0/24'
    availability_zone = 'us-west-2a'
    tag_key = 'my-key'
    tag_value = 'my-value'
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    vpc_id = ARGV[0]
    cidr_block = ARGV[1]
    availability_zone = ARGV[2]
    tag_key = ARGV[3]
    tag_value = ARGV[4]
    region = ARGV[5]
  end

  ec2_resource = Aws::EC2::Resource.new(region: region)

  if subnet_created_and_tagged?(
    ec2_resource,
    vpc_id,
    cidr_block,
    availability_zone,
    tag_key,
    tag_value
  )
    puts 'Subnet created and tagged.'
  else
    puts 'Subnet not created or not tagged.'
  end
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [CreateSubnet](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateSubnet)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateVpc`
<a name="ec2_CreateVpc_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVpc`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'

# Creates a virtual private cloud (VPC) in
# Amazon Virtual Private Cloud (Amazon VPC) and then tags
# the VPC.
#
# @param ec2_resource [Aws::EC2::Resource] An initialized
#   Amazon Elastic Compute Cloud (Amazon EC2) resource object.
# @param cidr_block [String] The IPv4 CIDR block for the subnet.
# @param tag_key [String] The key portion of the tag for the VPC.
# @param tag_value [String] The value portion of the tag for the VPC.
# @return [Boolean] true if the VPC was created and tagged;
#   otherwise, false.
# @example
#   exit 1 unless vpc_created_and_tagged?(
#     Aws::EC2::Resource.new(region: 'us-west-2'),
#     '10.0.0.0/24',
#     'my-key',
#     'my-value'
#   )
def vpc_created_and_tagged?(
  ec2_resource,
  cidr_block,
  tag_key,
  tag_value
)
  vpc = ec2_resource.create_vpc(cidr_block: cidr_block)

  # Create a public DNS by enabling DNS support and DNS hostnames.
  vpc.modify_attribute(enable_dns_support: { value: true })
  vpc.modify_attribute(enable_dns_hostnames: { value: true })

  vpc.create_tags(tags: [{ key: tag_key, value: tag_value }])

  puts "Created VPC with ID '#{vpc.id}' and tagged with key " \
    "'#{tag_key}' and value '#{tag_value}'."
  true
rescue StandardError => e
  puts e.message
  false
end

# Example usage:
def run_me
  cidr_block = ''
  tag_key = ''
  tag_value = ''
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby ec2-ruby-example-create-vpc.rb ' \
      'CIDR_BLOCK TAG_KEY TAG_VALUE REGION'
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    puts 'Example: ruby ec2-ruby-example-create-vpc.rb ' \
      '10.0.0.0/24 my-key my-value us-west-2'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  elsif ARGV.count.zero?
    cidr_block = '10.0.0.0/24'
    tag_key = 'my-key'
    tag_value = 'my-value'
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    cidr_block = ARGV[0]
    tag_key = ARGV[1]
    tag_value = ARGV[2]
    region = ARGV[3]
  end

  ec2_resource = Aws::EC2::Resource.new(region: region)

  if vpc_created_and_tagged?(
    ec2_resource,
    cidr_block,
    tag_key,
    tag_value
  )
    puts 'VPC created and tagged.'
  else
    puts 'VPC not created or not tagged.'
  end
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [CreateVpc](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateVpc)di *Referensi AWS SDK untuk Ruby API*. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'

# @param ec2_resource [Aws::EC2::Resource] An initialized EC2 resource object.
# @example
#   list_instance_ids_states(Aws::EC2::Resource.new(region: 'us-west-2'))
def list_instance_ids_states(ec2_resource)
  response = ec2_resource.instances
  if response.count.zero?
    puts 'No instances found.'
  else
    puts 'Instances -- ID, state:'
    response.each do |instance|
      puts "#{instance.id}, #{instance.state.name}"
    end
  end
rescue StandardError => e
  puts "Error getting information about instances: #{e.message}"
end

# Example usage:
def run_me
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby ec2-ruby-example-get-all-instance-info.rb REGION'
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    puts 'Example: ruby ec2-ruby-example-get-all-instance-info.rb us-west-2'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
  elsif ARGV.count.zero?
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    region = ARGV[0]
  end
  ec2_resource = Aws::EC2::Resource.new(region: region)
  list_instance_ids_states(ec2_resource)
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/DescribeInstances)di *Referensi AWS SDK untuk Ruby API*. 

### `DescribeRegions`
<a name="ec2_DescribeRegions_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRegions`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'

# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @example
#   list_regions_endpoints(Aws::EC2::Client.new(region: 'us-west-2'))
def list_regions_endpoints(ec2_client)
  result = ec2_client.describe_regions
  # Enable pretty printing.
  max_region_string_length = 16
  max_endpoint_string_length = 33
  # Print header.
  print 'Region'
  print ' ' * (max_region_string_length - 'Region'.length)
  print "  Endpoint\n"
  print '-' * max_region_string_length
  print '  '
  print '-' * max_endpoint_string_length
  print "\n"
  # Print Regions and their endpoints.
  result.regions.each do |region|
    print region.region_name
    print ' ' * (max_region_string_length - region.region_name.length)
    print '  '
    print region.endpoint
    print "\n"
  end
end

# Displays a list of Amazon Elastic Compute Cloud (Amazon EC2)
# Availability Zones available to you depending on the AWS Region
# of the Amazon EC2 client.
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @example
#   list_availability_zones(Aws::EC2::Client.new(region: 'us-west-2'))
def list_availability_zones(ec2_client)
  result = ec2_client.describe_availability_zones
  # Enable pretty printing.
  max_region_string_length = 16
  max_zone_string_length = 18
  max_state_string_length = 9
  # Print header.
  print 'Region'
  print ' ' * (max_region_string_length - 'Region'.length)
  print '  Zone'
  print ' ' * (max_zone_string_length - 'Zone'.length)
  print "  State\n"
  print '-' * max_region_string_length
  print '  '
  print '-' * max_zone_string_length
  print '  '
  print '-' * max_state_string_length
  print "\n"
  # Print Regions, Availability Zones, and their states.
  result.availability_zones.each do |zone|
    print zone.region_name
    print ' ' * (max_region_string_length - zone.region_name.length)
    print '  '
    print zone.zone_name
    print ' ' * (max_zone_string_length - zone.zone_name.length)
    print '  '
    print zone.state
    # Print any messages for this Availability Zone.
    if zone.messages.count.positive?
      print "\n"
      puts '  Messages for this zone:'
      zone.messages.each do |message|
        print "    #{message.message}\n"
      end
    end
    print "\n"
  end
end

# Example usage:
def run_me
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby ec2-ruby-example-regions-availability-zones.rb REGION'
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    puts 'Example: ruby ec2-ruby-example-regions-availability-zones.rb us-west-2'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
  elsif ARGV.count.zero?
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    region = ARGV[0]
  end

  ec2_client = Aws::EC2::Client.new(region: region)

  puts 'AWS Regions for Amazon EC2 that are available to you:'
  list_regions_endpoints(ec2_client)
  puts "\n\nAmazon EC2 Availability Zones that are available to you for AWS Region '#{region}':"
  list_availability_zones(ec2_client)
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [DescribeRegions](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/DescribeRegions)di *Referensi AWS SDK untuk Ruby API*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
# Releases an Elastic IP address from an
# Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Prerequisites:
#
# - An Amazon EC2 instance with an associated Elastic IP address.
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @param allocation_id [String] The ID of the allocation corresponding to
#   the Elastic IP address.
# @return [Boolean] true if the Elastic IP address was released;
#   otherwise, false.
# @example
#   exit 1 unless elastic_ip_address_released?(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'eipalloc-04452e528a66279EX'
#   )
def elastic_ip_address_released?(ec2_client, allocation_id)
  ec2_client.release_address(allocation_id: allocation_id)
  true
rescue StandardError => e
  puts("Error releasing Elastic IP address: #{e.message}")
  false
end
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/ReleaseAddress)di *Referensi AWS SDK untuk Ruby API*. 

### `StartInstances`
<a name="ec2_StartInstances_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'

# Attempts to start an Amazon Elastic Compute Cloud (Amazon EC2) instance.
#
# Prerequisites:
#
# - The Amazon EC2 instance.
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @param instance_id [String] The ID of the instance.
# @return [Boolean] true if the instance was started; otherwise, false.
# @example
#   exit 1 unless instance_started?(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'i-123abc'
#   )
def instance_started?(ec2_client, instance_id)
  response = ec2_client.describe_instance_status(instance_ids: [instance_id])

  if response.instance_statuses.count.positive?
    state = response.instance_statuses[0].instance_state.name
    case state
    when 'pending'
      puts 'Error starting instance: the instance is pending. Try again later.'
      return false
    when 'running'
      puts 'The instance is already running.'
      return true
    when 'terminated'
      puts 'Error starting instance: ' \
        'the instance is terminated, so you cannot start it.'
      return false
    end
  end

  ec2_client.start_instances(instance_ids: [instance_id])
  ec2_client.wait_until(:instance_running, instance_ids: [instance_id])
  puts 'Instance started.'
  true
rescue StandardError => e
  puts "Error starting instance: #{e.message}"
  false
end

# Example usage:
def run_me
  instance_id = ''
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby ec2-ruby-example-start-instance-i-123abc.rb ' \
      'INSTANCE_ID REGION '
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    puts 'Example: ruby ec2-ruby-example-start-instance-i-123abc.rb ' \
      'i-123abc us-west-2'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
  elsif ARGV.count.zero?
    instance_id = 'i-123abc'
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    instance_id = ARGV[0]
    region = ARGV[1]
  end

  ec2_client = Aws::EC2::Client.new(region: region)

  puts "Attempting to start instance '#{instance_id}' " \
    '(this might take a few minutes)...'
  return if instance_started?(ec2_client, instance_id)

  puts 'Could not start instance.'
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/StartInstances)di *Referensi AWS SDK untuk Ruby API*. 

### `StopInstances`
<a name="ec2_StopInstances_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'

# Prerequisites:
#
# - The Amazon EC2 instance.
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @param instance_id [String] The ID of the instance.
# @return [Boolean] true if the instance was stopped; otherwise, false.
# @example
#   exit 1 unless instance_stopped?(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'i-123abc'
#   )
def instance_stopped?(ec2_client, instance_id)
  response = ec2_client.describe_instance_status(instance_ids: [instance_id])

  if response.instance_statuses.count.positive?
    state = response.instance_statuses[0].instance_state.name
    case state
    when 'stopping'
      puts 'The instance is already stopping.'
      return true
    when 'stopped'
      puts 'The instance is already stopped.'
      return true
    when 'terminated'
      puts 'Error stopping instance: ' \
        'the instance is terminated, so you cannot stop it.'
      return false
    end
  end

  ec2_client.stop_instances(instance_ids: [instance_id])
  ec2_client.wait_until(:instance_stopped, instance_ids: [instance_id])
  puts 'Instance stopped.'
  true
rescue StandardError => e
  puts "Error stopping instance: #{e.message}"
  false
end

# Example usage:
def run_me
  instance_id = ''
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby ec2-ruby-example-stop-instance-i-123abc.rb ' \
      'INSTANCE_ID REGION '
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    puts 'Example: ruby ec2-ruby-example-start-instance-i-123abc.rb ' \
      'i-123abc us-west-2'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
  elsif ARGV.count.zero?
    instance_id = 'i-123abc'
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    instance_id = ARGV[0]
    region = ARGV[1]
  end

  ec2_client = Aws::EC2::Client.new(region: region)

  puts "Attempting to stop instance '#{instance_id}' " \
    '(this might take a few minutes)...'
  return if instance_stopped?(ec2_client, instance_id)

  puts 'Could not stop instance.'
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/StopInstances)di *Referensi AWS SDK untuk Ruby API*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). 

```
require 'aws-sdk-ec2'

# Prerequisites:
#
# - The Amazon EC2 instance.
#
# @param ec2_client [Aws::EC2::Client] An initialized EC2 client.
# @param instance_id [String] The ID of the instance.
# @return [Boolean] true if the instance was terminated; otherwise, false.
# @example
#   exit 1 unless instance_terminated?(
#     Aws::EC2::Client.new(region: 'us-west-2'),
#     'i-123abc'
#   )
def instance_terminated?(ec2_client, instance_id)
  response = ec2_client.describe_instance_status(instance_ids: [instance_id])

  if response.instance_statuses.count.positive? &&
     response.instance_statuses[0].instance_state.name == 'terminated'

    puts 'The instance is already terminated.'
    return true
  end

  ec2_client.terminate_instances(instance_ids: [instance_id])
  ec2_client.wait_until(:instance_terminated, instance_ids: [instance_id])
  puts 'Instance terminated.'
  true
rescue StandardError => e
  puts "Error terminating instance: #{e.message}"
  false
end

# Example usage:
def run_me
  instance_id = ''
  region = ''
  # Print usage information and then stop.
  if ARGV[0] == '--help' || ARGV[0] == '-h'
    puts 'Usage:   ruby ec2-ruby-example-terminate-instance-i-123abc.rb ' \
      'INSTANCE_ID REGION '
    # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
    puts 'Example: ruby ec2-ruby-example-terminate-instance-i-123abc.rb ' \
      'i-123abc us-west-2'
    exit 1
  # If no values are specified at the command prompt, use these default values.
  # Replace us-west-2 with the AWS Region you're using for Amazon EC2.
  elsif ARGV.count.zero?
    instance_id = 'i-123abc'
    region = 'us-west-2'
  # Otherwise, use the values as specified at the command prompt.
  else
    instance_id = ARGV[0]
    region = ARGV[1]
  end

  ec2_client = Aws::EC2::Client.new(region: region)

  puts "Attempting to terminate instance '#{instance_id}' " \
    '(this might take a few minutes)...'
  return if instance_terminated?(ec2_client, instance_id)

  puts 'Could not terminate instance.'
end

run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/TerminateInstances)di *Referensi AWS SDK untuk Ruby API*. 

# Contoh Elastic Beanstalk menggunakan SDK for Ruby
<a name="ruby_3_elastic-beanstalk_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with Elastic Beanstalk.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DescribeApplications`
<a name="elastic-beanstalk_DescribeApplications_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeApplications`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/elasticbeanstalk#code-examples). 

```
# Class to manage Elastic Beanstalk applications
class ElasticBeanstalkManager
  def initialize(eb_client, logger: Logger.new($stdout))
    @eb_client = eb_client
    @logger = logger
  end

  # Lists applications and their environments
  def list_applications
    @eb_client.describe_applications.applications.each do |application|
      log_application_details(application)
      list_environments(application.application_name)
    end
  rescue Aws::ElasticBeanstalk::Errors::ServiceError => e
    @logger.error("Elastic Beanstalk Service Error: #{e.message}")
  end

  private

  # Logs application details
  def log_application_details(application)
    @logger.info("Name:        #{application.application_name}")
    @logger.info("Description: #{application.description}")
  end

  # Lists and logs details of environments for a given application
  def list_environments(application_name)
    @eb_client.describe_environments(application_name: application_name).environments.each do |env|
      @logger.info("  Environment:  #{env.environment_name}")
      @logger.info("    URL:        #{env.cname}")
      @logger.info("    Health:     #{env.health}")
    end
  rescue Aws::ElasticBeanstalk::Errors::ServiceError => e
    @logger.error("Error listing environments for application #{application_name}: #{e.message}")
  end
end
```
+  Untuk detail API, lihat [DescribeApplications](https://docs.aws.amazon.com/goto/SdkForRubyV3/elastic-beanstalk-2010-12-01/DescribeApplications)di *Referensi AWS SDK untuk Ruby API*. 

### `ListAvailableSolutionStacks`
<a name="elastic-beanstalk_ListAvailableSolutionStacks_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAvailableSolutionStacks`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/elasticbeanstalk#code-examples). 

```
# Manages listing of AWS Elastic Beanstalk solution stacks
# @param [Aws::ElasticBeanstalk::Client] eb_client
# @param [String] filter - Returns subset of results based on match
# @param [Logger] logger
class StackLister
  # Initialize with AWS Elastic Beanstalk client
  def initialize(eb_client, filter, logger: Logger.new($stdout))
    @eb_client = eb_client
    @filter = filter.downcase
    @logger = logger
  end

  # Lists and logs Elastic Beanstalk solution stacks
  def list_stacks
    stacks = @eb_client.list_available_solution_stacks.solution_stacks
    orig_length = stacks.length
    filtered_length = 0

    stacks.each do |stack|
      if @filter.empty? || stack.downcase.include?(@filter)
        @logger.info(stack)
        filtered_length += 1
      end
    end

    log_summary(filtered_length, orig_length)
  rescue Aws::Errors::ServiceError => e
    @logger.error("Error listing solution stacks: #{e.message}")
  end

  private

  # Logs summary of listed stacks
  def log_summary(filtered_length, orig_length)
    if @filter.empty?
      @logger.info("Showed #{orig_length} stack(s)")
    else
      @logger.info("Showed #{filtered_length} stack(s) of #{orig_length}")
    end
  end
end
```
+  Untuk detail API, lihat [ListAvailableSolutionStacks](https://docs.aws.amazon.com/goto/SdkForRubyV3/elastic-beanstalk-2010-12-01/ListAvailableSolutionStacks)di *Referensi AWS SDK untuk Ruby API*. 

### `UpdateApplication`
<a name="elastic-beanstalk_UpdateApplication_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateApplication`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/elasticbeanstalk#code-examples). 

```
# Manages deployment of Rails applications to AWS Elastic Beanstalk
class RailsAppDeployer
  def initialize(eb_client, s3_client, app_name, logger: Logger.new($stdout))
    @eb_client = eb_client
    @s3_client = s3_client
    @app_name = app_name
    @logger = logger
  end

  # Deploys the latest application version to Elastic Beanstalk
  def deploy
    create_storage_location
    zip_file_name = create_zip_file
    upload_zip_to_s3(zip_file_name)
    create_and_deploy_new_application_version(zip_file_name)
  end

  private

  # Creates a new S3 storage location for the application
  def create_storage_location
    resp = @eb_client.create_storage_location
    @logger.info("Created storage location in bucket #{resp.s3_bucket}")
  rescue Aws::Errors::ServiceError => e
    @logger.error("Failed to create storage location: #{e.message}")
  end

  # Creates a ZIP file of the application using git
  def create_zip_file
    zip_file_basename = SecureRandom.urlsafe_base64
    zip_file_name = "#{zip_file_basename}.zip"
    `git archive --format=zip -o #{zip_file_name} HEAD`
    zip_file_name
  end

  # Uploads the ZIP file to the S3 bucket
  def upload_zip_to_s3(zip_file_name)
    zip_contents = File.read(zip_file_name)
    key = "#{@app_name}/#{zip_file_name}"
    @s3_client.put_object(body: zip_contents, bucket: fetch_bucket_name, key: key)
  rescue Aws::Errors::ServiceError => e
    @logger.error("Failed to upload ZIP file to S3: #{e.message}")
  end

  # Fetches the S3 bucket name from Elastic Beanstalk application versions
  def fetch_bucket_name
    app_versions = @eb_client.describe_application_versions(application_name: @app_name)
    av = app_versions.application_versions.first
    av.source_bundle.s3_bucket
  rescue Aws::Errors::ServiceError => e
    @logger.error("Failed to fetch bucket name: #{e.message}")
    raise
  end

  # Creates a new application version and deploys it
  def create_and_deploy_new_application_version(zip_file_name)
    version_label = File.basename(zip_file_name, '.zip')
    @eb_client.create_application_version(
      process: false,
      application_name: @app_name,
      version_label: version_label,
      source_bundle: {
        s3_bucket: fetch_bucket_name,
        s3_key: "#{@app_name}/#{zip_file_name}"
      },
      description: "Updated #{Time.now.strftime('%d/%m/%Y')}"
    )
    update_environment(version_label)
  rescue Aws::Errors::ServiceError => e
    @logger.error("Failed to create or deploy application version: #{e.message}")
  end

  # Updates the environment to the new application version
  def update_environment(version_label)
    env_name = fetch_environment_name
    @eb_client.update_environment(
      environment_name: env_name,
      version_label: version_label
    )
  rescue Aws::Errors::ServiceError => e
    @logger.error("Failed to update environment: #{e.message}")
  end

  # Fetches the environment name of the application
  def fetch_environment_name
    envs = @eb_client.describe_environments(application_name: @app_name)
    envs.environments.first.environment_name
  rescue Aws::Errors::ServiceError => e
    @logger.error("Failed to fetch environment name: #{e.message}")
    raise
  end
end
```
+  Untuk detail API, lihat [UpdateApplication](https://docs.aws.amazon.com/goto/SdkForRubyV3/elastic-beanstalk-2010-12-01/UpdateApplication)di *Referensi AWS SDK untuk Ruby API*. 

# EventBridge contoh menggunakan SDK for Ruby
<a name="ruby_3_eventbridge_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with EventBridge.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat dan picu aturan
<a name="eventbridge_Scenario_createAndTriggerARule_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan memicu aturan di Amazon EventBridge.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/eventbridge#code-examples). 
Panggil fungsi dalam urutan yang benar.  

```
require 'aws-sdk-sns'
require 'aws-sdk-iam'
require 'aws-sdk-cloudwatchevents'
require 'aws-sdk-ec2'
require 'aws-sdk-cloudwatch'
require 'aws-sdk-cloudwatchlogs'
require 'securerandom'
```
Memeriksa apakah topik Amazon Simple Notification Service (Amazon SNS) yang ditentukan ada di antara topik yang disediakan untuk fungsi ini.  

```
# Checks whether the specified Amazon SNS
# topic exists among those provided to this function.
# This is a helper function that is called by the topic_exists? function.
#
# @param topics [Array] An array of Aws::SNS::Types::Topic objects.
# @param topic_arn [String] The ARN of the topic to find.
# @return [Boolean] true if the topic ARN was found; otherwise, false.
# @example
#   sns_client = Aws::SNS::Client.new(region: 'us-east-1')
#   response = sns_client.list_topics
#   if topic_found?(
#     response.topics,
#     'arn:aws:sns:us-east-1:111111111111:aws-doc-sdk-examples-topic'
#   )
#     puts 'Topic found.'
#   end
def topic_found?(topics, topic_arn)
  topics.each do |topic|
    return true if topic.topic_arn == topic_arn
  end
  false
end
```
Memeriksa apakah topik yang ditentukan ada di antara yang tersedia untuk penelepon di Amazon SNS.  

```
# Checks whether the specified topic exists among those available to the
# caller in Amazon SNS.
#
# @param sns_client [Aws::SNS::Client] An initialized Amazon SNS client.
# @param topic_arn [String] The ARN of the topic to find.
# @return [Boolean] true if the topic ARN was found; otherwise, false.
# @example
#   exit 1 unless topic_exists?(
#     Aws::SNS::Client.new(region: 'us-east-1'),
#     'arn:aws:sns:us-east-1:111111111111:aws-doc-sdk-examples-topic'
#   )
def topic_exists?(sns_client, topic_arn)
  puts "Searching for topic with ARN '#{topic_arn}'..."
  response = sns_client.list_topics
  if response.topics.count.positive?
    if topic_found?(response.topics, topic_arn)
      puts 'Topic found.'
      return true
    end
    while response.next_page?
      response = response.next_page
      next unless response.topics.count.positive?

      if topic_found?(response.topics, topic_arn)
        puts 'Topic found.'
        return true
      end
    end
  end
  puts 'Topic not found.'
  false
rescue StandardError => e
  puts "Topic not found: #{e.message}"
  false
end
```
Buat topik di Amazon SNS dan kemudian berlangganan alamat email untuk menerima pemberitahuan tentang topik itu.  

```
# Creates a topic in Amazon SNS
# and then subscribes an email address to receive notifications to that topic.
#
# @param sns_client [Aws::SNS::Client] An initialized Amazon SNS client.
# @param topic_name [String] The name of the topic to create.
# @param email_address [String] The email address of the recipient to notify.
# @return [String] The ARN of the topic that was created.
# @example
#   puts create_topic(
#     Aws::SNS::Client.new(region: 'us-east-1'),
#     'aws-doc-sdk-examples-topic',
#     'mary@example.com'
#   )
def create_topic(sns_client, topic_name, email_address)
  puts "Creating the topic named '#{topic_name}'..."
  topic_response = sns_client.create_topic(name: topic_name)
  puts "Topic created with ARN '#{topic_response.topic_arn}'."
  subscription_response = sns_client.subscribe(
    topic_arn: topic_response.topic_arn,
    protocol: 'email',
    endpoint: email_address,
    return_subscription_arn: true
  )
  puts 'Subscription created with ARN ' \
    "'#{subscription_response.subscription_arn}'. Have the owner of the " \
    "email address '#{email_address}' check their inbox in a few minutes " \
    'and confirm the subscription to start receiving notification emails.'
  topic_response.topic_arn
rescue StandardError => e
  puts "Error creating or subscribing to topic: #{e.message}"
  'Error'
end
```
Periksa apakah peran yang ditentukan AWS Identity and Access Management (IAM) ada di antara yang disediakan untuk fungsi ini.  

```
# Checks whether the specified AWS Identity and Access Management (IAM)
# role exists among those provided to this function.
# This is a helper function that is called by the role_exists? function.
#
# @param roles [Array] An array of Aws::IAM::Role objects.
# @param role_arn [String] The ARN of the role to find.
# @return [Boolean] true if the role ARN was found; otherwise, false.
# @example
#   iam_client = Aws::IAM::Client.new(region: 'us-east-1')
#   response = iam_client.list_roles
#   if role_found?(
#     response.roles,
#     'arn:aws:iam::111111111111:role/aws-doc-sdk-examples-ec2-state-change'
#   )
#     puts 'Role found.'
#   end
def role_found?(roles, role_arn)
  roles.each do |role|
    return true if role.arn == role_arn
  end
  false
end
```
Periksa apakah peran yang ditentukan ada di antara yang tersedia untuk pemanggil di IAM.  

```
# Checks whether the specified role exists among those available to the
# caller in AWS Identity and Access Management (IAM).
#
# @param iam_client [Aws::IAM::Client] An initialized IAM client.
# @param role_arn [String] The ARN of the role to find.
# @return [Boolean] true if the role ARN was found; otherwise, false.
# @example
#   exit 1 unless role_exists?(
#     Aws::IAM::Client.new(region: 'us-east-1'),
#     'arn:aws:iam::111111111111:role/aws-doc-sdk-examples-ec2-state-change'
#   )
def role_exists?(iam_client, role_arn)
  puts "Searching for role with ARN '#{role_arn}'..."
  response = iam_client.list_roles
  if response.roles.count.positive?
    if role_found?(response.roles, role_arn)
      puts 'Role found.'
      return true
    end
    while response.next_page?
      response = response.next_page
      next unless response.roles.count.positive?

      if role_found?(response.roles, role_arn)
        puts 'Role found.'
        return true
      end
    end
  end
  puts 'Role not found.'
  false
rescue StandardError => e
  puts "Role not found: #{e.message}"
  false
end
```
Buat peran dalam IAM.  

```
# Creates a role in AWS Identity and Access Management (IAM).
# This role is used by a rule in Amazon EventBridge to allow
# that rule to operate within the caller's account.
# This role is designed to be used specifically by this code example.
#
# @param iam_client [Aws::IAM::Client] An initialized IAM client.
# @param role_name [String] The name of the role to create.
# @return [String] The ARN of the role that was created.
# @example
#   puts create_role(
#     Aws::IAM::Client.new(region: 'us-east-1'),
#     'aws-doc-sdk-examples-ec2-state-change'
#   )
def create_role(iam_client, role_name)
  puts "Creating the role named '#{role_name}'..."
  response = iam_client.create_role(
    assume_role_policy_document: {
      'Version': '2012-10-17',
      'Statement': [
        {
          'Sid': '',
          'Effect': 'Allow',
          'Principal': {
            'Service': 'events.amazonaws.com'
          },
          'Action': 'sts:AssumeRole'
        }
      ]
    }.to_json,
    path: '/',
    role_name: role_name
  )
  puts "Role created with ARN '#{response.role.arn}'."
  puts 'Adding access policy to role...'
  iam_client.put_role_policy(
    policy_document: {
      'Version': '2012-10-17',
      'Statement': [
        {
          'Sid': 'CloudWatchEventsFullAccess',
          'Effect': 'Allow',
          'Resource': '*',
          'Action': 'events:*'
        },
        {
          'Sid': 'IAMPassRoleForCloudWatchEvents',
          'Effect': 'Allow',
          'Resource': 'arn:aws:iam::*:role/AWS_Events_Invoke_Targets',
          'Action': 'iam:PassRole'
        }
      ]
    }.to_json,
    policy_name: 'CloudWatchEventsPolicy',
    role_name: role_name
  )
  puts 'Access policy added to role.'
  response.role.arn
rescue StandardError => e
  puts "Error creating role or adding policy to it: #{e.message}"
  puts 'If the role was created, you must add the access policy ' \
    'to the role yourself, or delete the role yourself and try again.'
  'Error'
end
```
Memeriksa apakah EventBridge aturan yang ditentukan ada di antara yang disediakan untuk fungsi ini.  

```
# Checks whether the specified Amazon EventBridge rule exists among
# those provided to this function.
# This is a helper function that is called by the rule_exists? function.
#
# @param rules [Array] An array of Aws::CloudWatchEvents::Types::Rule objects.
# @param rule_arn [String] The name of the rule to find.
# @return [Boolean] true if the name of the rule was found; otherwise, false.
# @example
#   cloudwatchevents_client = Aws::CloudWatch::Client.new(region: 'us-east-1')
#   response = cloudwatchevents_client.list_rules
#   if rule_found?(response.rules, 'aws-doc-sdk-examples-ec2-state-change')
#     puts 'Rule found.'
#   end
def rule_found?(rules, rule_name)
  rules.each do |rule|
    return true if rule.name == rule_name
  end
  false
end
```
Memeriksa apakah aturan yang ditentukan ada di antara yang tersedia untuk pemanggil di EventBridge.  

```
# Checks whether the specified rule exists among those available to the
# caller in Amazon EventBridge.
#
# @param cloudwatchevents_client [Aws::CloudWatchEvents::Client]
#   An initialized Amazon EventBridge client.
# @param rule_name [String] The name of the rule to find.
# @return [Boolean] true if the rule name was found; otherwise, false.
# @example
#   exit 1 unless rule_exists?(
#     Aws::CloudWatch::Client.new(region: 'us-east-1')
#     'aws-doc-sdk-examples-ec2-state-change'
#   )
def rule_exists?(cloudwatchevents_client, rule_name)
  puts "Searching for rule with name '#{rule_name}'..."
  response = cloudwatchevents_client.list_rules
  if response.rules.count.positive?
    if rule_found?(response.rules, rule_name)
      puts 'Rule found.'
      return true
    end
    while response.next_page?
      response = response.next_page
      next unless response.rules.count.positive?

      if rule_found?(response.rules, rule_name)
        puts 'Rule found.'
        return true
      end
    end
  end
  puts 'Rule not found.'
  false
rescue StandardError => e
  puts "Rule not found: #{e.message}"
  false
end
```
Buat aturan di EventBridge.  

```
# Creates a rule in Amazon EventBridge.
# This rule is triggered whenever an available instance in
# Amazon EC2 changes to the specified state.
# This rule is designed to be used specifically by this code example.
#
# Prerequisites:
#
# - A role in AWS Identity and Access Management (IAM) that is designed
#   to be used specifically by this code example.
# - A topic in Amazon SNS.
#
# @param cloudwatchevents_client [Aws::CloudWatchEvents::Client]
#   An initialized Amazon EventBridge client.
# @param rule_name [String] The name of the rule to create.
# @param rule_description [String] Some description for this rule.
# @param instance_state [String] The state that available instances in
#   Amazon EC2 must change to, to
#   trigger this rule.
# @param role_arn [String] The Amazon Resource Name (ARN) of the IAM role.
# @param target_id [String] Some identifying string for the rule's target.
# @param topic_arn [String] The ARN of the Amazon SNS topic.
# @return [Boolean] true if the rule was created; otherwise, false.
# @example
#   exit 1 unless rule_created?(
#     Aws::CloudWatch::Client.new(region: 'us-east-1'),
#     'aws-doc-sdk-examples-ec2-state-change',
#     'Triggers when any available EC2 instance starts.',
#     'running',
#     'arn:aws:iam::111111111111:role/aws-doc-sdk-examples-ec2-state-change',
#     'sns-topic',
#     'arn:aws:sns:us-east-1:111111111111:aws-doc-sdk-examples-topic'
#   )
def rule_created?(
  cloudwatchevents_client,
  rule_name,
  rule_description,
  instance_state,
  role_arn,
  target_id,
  topic_arn
)
  puts "Creating rule with name '#{rule_name}'..."
  put_rule_response = cloudwatchevents_client.put_rule(
    name: rule_name,
    description: rule_description,
    event_pattern: {
      'source': [
        'aws.ec2'
      ],
      'detail-type': [
        'EC2 Instance State-change Notification'
      ],
      'detail': {
        'state': [
          instance_state
        ]
      }
    }.to_json,
    state: 'ENABLED',
    role_arn: role_arn
  )
  puts "Rule created with ARN '#{put_rule_response.rule_arn}'."

  put_targets_response = cloudwatchevents_client.put_targets(
    rule: rule_name,
    targets: [
      {
        id: target_id,
        arn: topic_arn
      }
    ]
  )
  if put_targets_response.key?(:failed_entry_count) &&
     put_targets_response.failed_entry_count.positive?
    puts 'Error(s) adding target to rule:'
    put_targets_response.failed_entries.each do |failure|
      puts failure.error_message
    end
    false
  else
    true
  end
rescue StandardError => e
  puts "Error creating rule or adding target to rule: #{e.message}"
  puts 'If the rule was created, you must add the target ' \
    'to the rule yourself, or delete the rule yourself and try again.'
  false
end
```
Periksa untuk melihat apakah grup log yang ditentukan ada di antara yang tersedia untuk pemanggil di Amazon CloudWatch Logs.  

```
# Checks to see whether the specified log group exists among those available
# to the caller in Amazon CloudWatch Logs.
#
# @param cloudwatchlogs_client [Aws::CloudWatchLogs::Client] An initialized
#   Amazon CloudWatch Logs client.
# @param log_group_name [String] The name of the log group to find.
# @return [Boolean] true if the log group name was found; otherwise, false.
# @example
#   exit 1 unless log_group_exists?(
#     Aws::CloudWatchLogs::Client.new(region: 'us-east-1'),
#     'aws-doc-sdk-examples-cloudwatch-log'
#   )
def log_group_exists?(cloudwatchlogs_client, log_group_name)
  puts "Searching for log group with name '#{log_group_name}'..."
  response = cloudwatchlogs_client.describe_log_groups(
    log_group_name_prefix: log_group_name
  )
  if response.log_groups.count.positive?
    response.log_groups.each do |log_group|
      if log_group.log_group_name == log_group_name
        puts 'Log group found.'
        return true
      end
    end
  end
  puts 'Log group not found.'
  false
rescue StandardError => e
  puts "Log group not found: #{e.message}"
  false
end
```
Buat grup log di CloudWatch Log.  

```
# Creates a log group in Amazon CloudWatch Logs.
#
# @param cloudwatchlogs_client [Aws::CloudWatchLogs::Client] An initialized
#   Amazon CloudWatch Logs client.
# @param log_group_name [String] The name of the log group to create.
# @return [Boolean] true if the log group name was created; otherwise, false.
# @example
#   exit 1 unless log_group_created?(
#     Aws::CloudWatchLogs::Client.new(region: 'us-east-1'),
#     'aws-doc-sdk-examples-cloudwatch-log'
#   )
def log_group_created?(cloudwatchlogs_client, log_group_name)
  puts "Attempting to create log group with the name '#{log_group_name}'..."
  cloudwatchlogs_client.create_log_group(log_group_name: log_group_name)
  puts 'Log group created.'
  true
rescue StandardError => e
  puts "Error creating log group: #{e.message}"
  false
end
```
Tulis acara ke aliran log di CloudWatch Log.  

```
# Writes an event to a log stream in Amazon CloudWatch Logs.
#
# Prerequisites:
#
# - A log group in Amazon CloudWatch Logs.
# - A log stream within the log group.
#
# @param cloudwatchlogs_client [Aws::CloudWatchLogs::Client] An initialized
#   Amazon CloudWatch Logs client.
# @param log_group_name [String] The name of the log group.
# @param log_stream_name [String] The name of the log stream within
#   the log group.
# @param message [String] The message to write to the log stream.
# @param sequence_token [String] If available, the sequence token from the
#   message that was written immediately before this message. This sequence
#   token is returned by Amazon CloudWatch Logs whenever you programmatically
#   write a message to the log stream.
# @return [String] The sequence token that is returned by
#   Amazon CloudWatch Logs after successfully writing the message to the
#   log stream.
# @example
#   puts log_event(
#     Aws::EC2::Client.new(region: 'us-east-1'),
#     'aws-doc-sdk-examples-cloudwatch-log'
#     '2020/11/19/53f985be-199f-408e-9a45-fc242df41fEX',
#     "Instance 'i-033c48ef067af3dEX' restarted.",
#     '495426724868310740095796045676567882148068632824696073EX'
#   )
def log_event(
  cloudwatchlogs_client,
  log_group_name,
  log_stream_name,
  message,
  sequence_token
)
  puts "Attempting to log '#{message}' to log stream '#{log_stream_name}'..."
  event = {
    log_group_name: log_group_name,
    log_stream_name: log_stream_name,
    log_events: [
      {
        timestamp: (Time.now.utc.to_f.round(3) * 1_000).to_i,
        message: message
      }
    ]
  }
  event[:sequence_token] = sequence_token unless sequence_token.empty?

  response = cloudwatchlogs_client.put_log_events(event)
  puts 'Message logged.'
  response.next_sequence_token
rescue StandardError => e
  puts "Message not logged: #{e.message}"
end
```
Mulai ulang instance Amazon Elastic Compute Cloud (Amazon EC2) dan tambahkan informasi tentang aktivitas terkait ke aliran log di Log. CloudWatch   

```
# Restarts an Amazon EC2 instance
# and adds information about the related activity to a log stream
# in Amazon CloudWatch Logs.
#
# Prerequisites:
#
# - The Amazon EC2 instance to restart.
# - The log group in Amazon CloudWatch Logs to add related activity
#   information to.
#
# @param ec2_client [Aws::EC2::Client] An initialized Amazon EC2 client.
# @param cloudwatchlogs_client [Aws::CloudWatchLogs::Client]
#   An initialized Amazon CloudWatch Logs client.
# @param instance_id [String] The ID of the instance.
# @param log_group_name [String] The name of the log group.
# @return [Boolean] true if the instance was restarted and the information
#   was written to the log stream; otherwise, false.
# @example
#   exit 1 unless instance_restarted?(
#     Aws::EC2::Client.new(region: 'us-east-1'),
#     Aws::CloudWatchLogs::Client.new(region: 'us-east-1'),
#     'i-033c48ef067af3dEX',
#     'aws-doc-sdk-examples-cloudwatch-log'
#   )
def instance_restarted?(
  ec2_client,
  cloudwatchlogs_client,
  instance_id,
  log_group_name
)
  log_stream_name = "#{Time.now.year}/#{Time.now.month}/#{Time.now.day}/" \
    "#{SecureRandom.uuid}"
  cloudwatchlogs_client.create_log_stream(
    log_group_name: log_group_name,
    log_stream_name: log_stream_name
  )
  sequence_token = ''

  puts "Attempting to stop the instance with the ID '#{instance_id}'. " \
    'This might take a few minutes...'
  ec2_client.stop_instances(instance_ids: [instance_id])
  ec2_client.wait_until(:instance_stopped, instance_ids: [instance_id])
  puts 'Instance stopped.'
  sequence_token = log_event(
    cloudwatchlogs_client,
    log_group_name,
    log_stream_name,
    "Instance '#{instance_id}' stopped.",
    sequence_token
  )

  puts 'Attempting to restart the instance. This might take a few minutes...'
  ec2_client.start_instances(instance_ids: [instance_id])
  ec2_client.wait_until(:instance_running, instance_ids: [instance_id])
  puts 'Instance restarted.'
  sequence_token = log_event(
    cloudwatchlogs_client,
    log_group_name,
    log_stream_name,
    "Instance '#{instance_id}' restarted.",
    sequence_token
  )

  true
rescue StandardError => e
  puts 'Error creating log stream or stopping or restarting the instance: ' \
    "#{e.message}"
  log_event(
    cloudwatchlogs_client,
    log_group_name,
    log_stream_name,
    "Error stopping or starting instance '#{instance_id}': #{e.message}",
    sequence_token
  )
  false
end
```
Menampilkan informasi tentang aktivitas untuk aturan di EventBridge.  

```
# Displays information about activity for a rule in Amazon EventBridge.
#
# Prerequisites:
#
# - A rule in Amazon EventBridge.
#
# @param cloudwatch_client [Amazon::CloudWatch::Client] An initialized
#   Amazon CloudWatch client.
# @param rule_name [String] The name of the rule.
# @param start_time [Time] The timestamp that determines the first datapoint
#   to return. Can also be expressed as DateTime, Date, Integer, or String.
# @param end_time [Time] The timestamp that determines the last datapoint
#   to return. Can also be expressed as DateTime, Date, Integer, or String.
# @param period [Integer] The interval, in seconds, to check for activity.
# @example
#   display_rule_activity(
#     Aws::CloudWatch::Client.new(region: 'us-east-1'),
#     'aws-doc-sdk-examples-ec2-state-change',
#     Time.now - 600, # Start checking from 10 minutes ago.
#     Time.now, # Check up until now.
#     60 # Check every minute during those 10 minutes.
#   )
def display_rule_activity(
  cloudwatch_client,
  rule_name,
  start_time,
  end_time,
  period
)
  puts 'Attempting to display rule activity...'
  response = cloudwatch_client.get_metric_statistics(
    namespace: 'AWS/Events',
    metric_name: 'Invocations',
    dimensions: [
      {
        name: 'RuleName',
        value: rule_name
      }
    ],
    start_time: start_time,
    end_time: end_time,
    period: period,
    statistics: ['Sum'],
    unit: 'Count'
  )

  if response.key?(:datapoints) && response.datapoints.count.positive?
    puts "The event rule '#{rule_name}' was triggered:"
    response.datapoints.each do |datapoint|
      puts "  #{datapoint.sum} time(s) at #{datapoint.timestamp}"
    end
  else
    puts "The event rule '#{rule_name}' was not triggered during the " \
      'specified time period.'
  end
rescue StandardError => e
  puts "Error getting information about event rule activity: #{e.message}"
end
```
Menampilkan informasi log untuk semua aliran log dalam grup CloudWatch log Log.  

```
# Displays log information for all of the log streams in a log group in
# Amazon CloudWatch Logs.
#
# Prerequisites:
#
# - A log group in Amazon CloudWatch Logs.
#
# @param cloudwatchlogs_client [Amazon::CloudWatchLogs::Client] An initialized
#   Amazon CloudWatch Logs client.
# @param log_group_name [String] The name of the log group.
# @example
#   display_log_data(
#     Amazon::CloudWatchLogs::Client.new(region: 'us-east-1'),
#     'aws-doc-sdk-examples-cloudwatch-log'
#   )
def display_log_data(cloudwatchlogs_client, log_group_name)
  puts 'Attempting to display log stream data for the log group ' \
    "named '#{log_group_name}'..."
  describe_log_streams_response = cloudwatchlogs_client.describe_log_streams(
    log_group_name: log_group_name,
    order_by: 'LastEventTime',
    descending: true
  )
  if describe_log_streams_response.key?(:log_streams) &&
     describe_log_streams_response.log_streams.count.positive?
    describe_log_streams_response.log_streams.each do |log_stream|
      get_log_events_response = cloudwatchlogs_client.get_log_events(
        log_group_name: log_group_name,
        log_stream_name: log_stream.log_stream_name
      )
      puts "\nLog messages for '#{log_stream.log_stream_name}':"
      puts '-' * (log_stream.log_stream_name.length + 20)
      if get_log_events_response.key?(:events) &&
         get_log_events_response.events.count.positive?
        get_log_events_response.events.each do |event|
          puts event.message
        end
      else
        puts 'No log messages for this log stream.'
      end
    end
  end
rescue StandardError => e
  puts 'Error getting information about the log streams or their messages: ' \
    "#{e.message}"
end
```
Tampilkan pengingat ke penelepon untuk membersihkan AWS sumber daya terkait secara manual yang tidak lagi mereka butuhkan.  

```
# Displays a reminder to the caller to manually clean up any associated
# AWS resources that they no longer need.
#
# @param topic_name [String] The name of the Amazon SNS topic.
# @param role_name [String] The name of the IAM role.
# @param rule_name [String] The name of the Amazon EventBridge rule.
# @param log_group_name [String] The name of the Amazon CloudWatch Logs log group.
# @param instance_id [String] The ID of the Amazon EC2 instance.
# @example
#   manual_cleanup_notice(
#     'aws-doc-sdk-examples-topic',
#     'aws-doc-sdk-examples-cloudwatch-events-rule-role',
#     'aws-doc-sdk-examples-ec2-state-change',
#     'aws-doc-sdk-examples-cloudwatch-log',
#     'i-033c48ef067af3dEX'
#   )
def manual_cleanup_notice(
  topic_name, role_name, rule_name, log_group_name, instance_id
)
  puts '-' * 10
  puts 'Some of the following AWS resources might still exist in your account.'
  puts 'If you no longer want to use this code example, then to clean up'
  puts 'your AWS account and avoid unexpected costs, you might want to'
  puts 'manually delete any of the following resources if they exist:'
  puts "- The Amazon SNS topic named '#{topic_name}'."
  puts "- The IAM role named '#{role_name}'."
  puts "- The Amazon EventBridge rule named '#{rule_name}'."
  puts "- The Amazon CloudWatch Logs log group named '#{log_group_name}'."
  puts "- The Amazon EC2 instance with the ID '#{instance_id}'."
end
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Ruby *.
  + [PutEvents](https://docs.aws.amazon.com/goto/SdkForRubyV3/eventbridge-2015-10-07/PutEvents)
  + [PutRule](https://docs.aws.amazon.com/goto/SdkForRubyV3/eventbridge-2015-10-07/PutRule)

# AWS Glue contoh menggunakan SDK for Ruby
<a name="ruby_3_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with AWS Glue.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Glue
<a name="glue_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Glue.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
require 'aws-sdk-glue'
require 'logger'

# GlueManager is a class responsible for managing AWS Glue operations
# such as listing all Glue jobs in the current AWS account.
class GlueManager
  def initialize(client)
    @client = client
    @logger = Logger.new($stdout)
  end

  # Lists and prints all Glue jobs in the current AWS account.
  def list_jobs
    @logger.info('Here are the Glue jobs in your account:')

    paginator = @client.get_jobs(max_results: 10)
    jobs = []

    paginator.each_page do |page|
      jobs.concat(page.jobs)
    end

    if jobs.empty?
      @logger.info("You don't have any Glue jobs.")
    else
      jobs.each do |job|
        @logger.info("- #{job.name}")
      end
    end
  end
end

if $PROGRAM_NAME == __FILE__
  glue_client = Aws::Glue::Client.new
  manager = GlueManager.new(glue_client)
  manager.list_jobs
end
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/ListJobs)di *Referensi AWS SDK untuk Ruby API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_ruby_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Daftar informasi tentang database dan tabel di situs Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 
Buat kelas yang membungkus AWS Glue fungsi yang digunakan dalam skenario.  

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Retrieves information about a specific crawler.
  #
  # @param name [String] The name of the crawler to retrieve information about.
  # @return [Aws::Glue::Types::Crawler, nil] The crawler object if found, or nil if not found.
  def get_crawler(name)
    @glue_client.get_crawler(name: name)
  rescue Aws::Glue::Errors::EntityNotFoundException
    @logger.info("Crawler #{name} doesn't exist.")
    false
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get crawler #{name}: \n#{e.message}")
    raise
  end

  # Creates a new crawler with the specified configuration.
  #
  # @param name [String] The name of the crawler.
  # @param role_arn [String] The ARN of the IAM role to be used by the crawler.
  # @param db_name [String] The name of the database where the crawler stores its metadata.
  # @param db_prefix [String] The prefix to be added to the names of tables that the crawler creates.
  # @param s3_target [String] The S3 path that the crawler will crawl.
  # @return [void]
  def create_crawler(name, role_arn, db_name, _db_prefix, s3_target)
    @glue_client.create_crawler(
      name: name,
      role: role_arn,
      database_name: db_name,
      targets: {
        s3_targets: [
          {
            path: s3_target
          }
        ]
      }
    )
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not create crawler: \n#{e.message}")
    raise
  end

  # Starts a crawler with the specified name.
  #
  # @param name [String] The name of the crawler to start.
  # @return [void]
  def start_crawler(name)
    @glue_client.start_crawler(name: name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not start crawler #{name}: \n#{e.message}")
    raise
  end

  # Deletes a crawler with the specified name.
  #
  # @param name [String] The name of the crawler to delete.
  # @return [void]
  def delete_crawler(name)
    @glue_client.delete_crawler(name: name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not delete crawler #{name}: \n#{e.message}")
    raise
  end

  # Retrieves information about a specific database.
  #
  # @param name [String] The name of the database to retrieve information about.
  # @return [Aws::Glue::Types::Database, nil] The database object if found, or nil if not found.
  def get_database(name)
    response = @glue_client.get_database(name: name)
    response.database
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get database #{name}: \n#{e.message}")
    raise
  end

  # Retrieves a list of tables in the specified database.
  #
  # @param db_name [String] The name of the database to retrieve tables from.
  # @return [Array<Aws::Glue::Types::Table>]
  def get_tables(db_name)
    response = @glue_client.get_tables(database_name: db_name)
    response.table_list
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get tables #{db_name}: \n#{e.message}")
    raise
  end

  # Creates a new job with the specified configuration.
  #
  # @param name [String] The name of the job.
  # @param description [String] The description of the job.
  # @param role_arn [String] The ARN of the IAM role to be used by the job.
  # @param script_location [String] The location of the ETL script for the job.
  # @return [void]
  def create_job(name, description, role_arn, script_location)
    @glue_client.create_job(
      name: name,
      description: description,
      role: role_arn,
      command: {
        name: 'glueetl',
        script_location: script_location,
        python_version: '3'
      },
      glue_version: '3.0'
    )
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not create job #{name}: \n#{e.message}")
    raise
  end

  # Starts a job run for the specified job.
  #
  # @param name [String] The name of the job to start the run for.
  # @param input_database [String] The name of the input database for the job.
  # @param input_table [String] The name of the input table for the job.
  # @param output_bucket_name [String] The name of the output S3 bucket for the job.
  # @return [String] The ID of the started job run.
  def start_job_run(name, input_database, input_table, output_bucket_name)
    response = @glue_client.start_job_run(
      job_name: name,
      arguments: {
        '--input_database': input_database,
        '--input_table': input_table,
        '--output_bucket_url': "s3://#{output_bucket_name}/"
      }
    )
    response.job_run_id
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not start job run #{name}: \n#{e.message}")
    raise
  end

  # Retrieves a list of jobs in AWS Glue.
  #
  # @return [Aws::Glue::Types::ListJobsResponse]
  def list_jobs
    @glue_client.list_jobs
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not list jobs: \n#{e.message}")
    raise
  end

  # Retrieves a list of job runs for the specified job.
  #
  # @param job_name [String] The name of the job to retrieve job runs for.
  # @return [Array<Aws::Glue::Types::JobRun>]
  def get_job_runs(job_name)
    response = @glue_client.get_job_runs(job_name: job_name)
    response.job_runs
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get job runs: \n#{e.message}")
  end

  # Retrieves data for a specific job run.
  #
  # @param job_name [String] The name of the job run to retrieve data for.
  # @return [Glue::Types::GetJobRunResponse]
  def get_job_run(job_name, run_id)
    @glue_client.get_job_run(job_name: job_name, run_id: run_id)
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get job runs: \n#{e.message}")
  end

  # Deletes a job with the specified name.
  #
  # @param job_name [String] The name of the job to delete.
  # @return [void]
  def delete_job(job_name)
    @glue_client.delete_job(job_name: job_name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not delete job: \n#{e.message}")
  end

  # Deletes a table with the specified name.
  #
  # @param database_name [String] The name of the catalog database in which the table resides.
  # @param table_name [String] The name of the table to be deleted.
  # @return [void]
  def delete_table(database_name, table_name)
    @glue_client.delete_table(database_name: database_name, name: table_name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not delete job: \n#{e.message}")
  end

  # Removes a specified database from a Data Catalog.
  #
  # @param database_name [String] The name of the database to delete.
  # @return [void]
  def delete_database(database_name)
    @glue_client.delete_database(name: database_name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not delete database: \n#{e.message}")
  end

  # Uploads a job script file to an S3 bucket.
  #
  # @param file_path [String] The local path of the job script file.
  # @param bucket_resource [Aws::S3::Bucket] The S3 bucket resource to upload the file to.
  # @return [void]
  def upload_job_script(file_path, bucket_resource)
    File.open(file_path) do |file|
      bucket_resource.client.put_object({
                                          body: file,
                                          bucket: bucket_resource.name,
                                          key: file_path
                                        })
    end
  rescue Aws::S3::Errors::S3UploadFailedError => e
    @logger.error("S3 could not upload job script: \n#{e.message}")
    raise
  end
end
```
Buat kelas yang menjalankan skenario.  

```
class GlueCrawlerJobScenario
  def initialize(glue_client, glue_service_role, glue_bucket, logger)
    @glue_client = glue_client
    @glue_service_role = glue_service_role
    @glue_bucket = glue_bucket
    @logger = logger
  end

  def run(crawler_name, db_name, db_prefix, data_source, job_script, job_name)
    wrapper = GlueWrapper.new(@glue_client, @logger)
    setup_crawler(wrapper, crawler_name, db_name, db_prefix, data_source)
    query_database(wrapper, crawler_name, db_name)
    create_and_run_job(wrapper, job_script, job_name, db_name)
  end

  private

  def setup_crawler(wrapper, crawler_name, db_name, db_prefix, data_source)
    new_step(1, 'Create a crawler')
    crawler = wrapper.get_crawler(crawler_name)
    unless crawler
      puts "Creating crawler #{crawler_name}."
      wrapper.create_crawler(crawler_name, @glue_service_role.arn, db_name, db_prefix, data_source)
      puts "Successfully created #{crawler_name}."
    end
    wrapper.start_crawler(crawler_name)
    monitor_crawler(wrapper, crawler_name)
  end

  def monitor_crawler(wrapper, crawler_name)
    new_step(2, 'Monitor Crawler')
    crawler_state = nil
    until crawler_state == 'READY'
      custom_wait(15)
      crawler = wrapper.get_crawler(crawler_name)
      crawler_state = crawler[0]['state']
      print "Crawler status: #{crawler_state}".yellow
    end
  end

  def query_database(wrapper, _crawler_name, db_name)
    new_step(3, 'Query the database.')
    wrapper.get_database(db_name)
    puts "The crawler created database #{db_name}:"
    puts "Database contains tables: #{wrapper.get_tables(db_name).map { |t| t['name'] }}"
  end

  def create_and_run_job(wrapper, job_script, job_name, db_name)
    new_step(4, 'Create and run job.')
    wrapper.upload_job_script(job_script, @glue_bucket)
    wrapper.create_job(job_name, 'ETL Job', @glue_service_role.arn, "s3://#{@glue_bucket.name}/#{job_script}")
    run_job(wrapper, job_name, db_name)
  end

  def run_job(wrapper, job_name, db_name)
    new_step(5, 'Run the job.')
    wrapper.start_job_run(job_name, db_name, wrapper.get_tables(db_name)[0]['name'], @glue_bucket.name)
    job_run_status = nil
    until %w[SUCCEEDED FAILED STOPPED].include?(job_run_status)
      custom_wait(10)
      job_run = wrapper.get_job_runs(job_name)
      job_run_status = job_run[0]['job_run_state']
      print "Job #{job_name} status: #{job_run_status}".yellow
    end
  end
end

def main
  banner('../../helpers/banner.txt')
  puts 'Starting AWS Glue demo...'

  # Load resource names from YAML.
  resource_names = YAML.load_file('resource_names.yaml')

  # Setup services and resources.
  iam_role = Aws::IAM::Resource.new(region: 'us-east-1').role(resource_names['glue_service_role'])
  s3_bucket = Aws::S3::Resource.new(region: 'us-east-1').bucket(resource_names['glue_bucket'])

  # Instantiate scenario and run.
  scenario = GlueCrawlerJobScenario.new(Aws::Glue::Client.new(region: 'us-east-1'), iam_role, s3_bucket, @logger)
  random_suffix = rand(10**4)
  scenario.run("crawler-#{random_suffix}", "db-#{random_suffix}", "prefix-#{random_suffix}-", 's3://data_source',
               'job_script.py', "job-#{random_suffix}")

  puts 'Demo complete.'
end
```
Buat skrip ETL yang digunakan oleh AWS Glue untuk mengekstrak, mengubah, dan memuat data selama pekerjaan berjalan.  

```
import sys
from awsglue.transforms import *
from awsglue.utils import getResolvedOptions
from pyspark.context import SparkContext
from awsglue.context import GlueContext
from awsglue.job import Job

"""
These custom arguments must be passed as Arguments to the StartJobRun request.
    --input_database    The name of a metadata database that is contained in your 
                        AWS Glue Data Catalog and that contains tables that describe 
                        the data to be processed.
    --input_table       The name of a table in the database that describes the data to
                        be processed.
    --output_bucket_url An S3 bucket that receives the transformed output data.  
"""
args = getResolvedOptions(
    sys.argv, ["JOB_NAME", "input_database", "input_table", "output_bucket_url"]
)
sc = SparkContext()
glueContext = GlueContext(sc)
spark = glueContext.spark_session
job = Job(glueContext)
job.init(args["JOB_NAME"], args)

# Script generated for node S3 Flight Data.
S3FlightData_node1 = glueContext.create_dynamic_frame.from_catalog(
    database=args["input_database"],
    table_name=args["input_table"],
    transformation_ctx="S3FlightData_node1",
)

# This mapping performs two main functions:
# 1. It simplifies the output by removing most of the fields from the data.
# 2. It renames some fields. For example, `fl_date` is renamed to `flight_date`.
ApplyMapping_node2 = ApplyMapping.apply(
    frame=S3FlightData_node1,
    mappings=[
        ("year", "long", "year", "long"),
        ("month", "long", "month", "tinyint"),
        ("day_of_month", "long", "day", "tinyint"),
        ("fl_date", "string", "flight_date", "string"),
        ("carrier", "string", "carrier", "string"),
        ("fl_num", "long", "flight_num", "long"),
        ("origin_city_name", "string", "origin_city_name", "string"),
        ("origin_state_abr", "string", "origin_state_abr", "string"),
        ("dest_city_name", "string", "dest_city_name", "string"),
        ("dest_state_abr", "string", "dest_state_abr", "string"),
        ("dep_time", "long", "departure_time", "long"),
        ("wheels_off", "long", "wheels_off", "long"),
        ("wheels_on", "long", "wheels_on", "long"),
        ("arr_time", "long", "arrival_time", "long"),
        ("mon", "string", "mon", "string"),
    ],
    transformation_ctx="ApplyMapping_node2",
)

# Script generated for node Revised Flight Data.
RevisedFlightData_node3 = glueContext.write_dynamic_frame.from_options(
    frame=ApplyMapping_node2,
    connection_type="s3",
    format="json",
    connection_options={"path": args["output_bucket_url"], "partitionKeys": []},
    transformation_ctx="RevisedFlightData_node3",
)

job.commit()
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Ruby *.
  + [CreateCrawler](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/CreateCrawler)
  + [CreateJob](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/CreateJob)
  + [DeleteCrawler](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/DeleteCrawler)
  + [DeleteDatabase](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/DeleteDatabase)
  + [DeleteJob](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/DeleteJob)
  + [DeleteTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/DeleteTable)
  + [GetCrawler](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetCrawler)
  + [GetDatabase](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetDatabase)
  + [GetDatabases](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetDatabases)
  + [GetJob](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetJob)
  + [GetJobRun](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetJobRun)
  + [GetJobRuns](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetJobRuns)
  + [GetTables](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetTables)
  + [ListJobs](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/ListJobs)
  + [StartCrawler](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/StartCrawler)
  + [StartJobRun](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/StartJobRun)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Creates a new crawler with the specified configuration.
  #
  # @param name [String] The name of the crawler.
  # @param role_arn [String] The ARN of the IAM role to be used by the crawler.
  # @param db_name [String] The name of the database where the crawler stores its metadata.
  # @param db_prefix [String] The prefix to be added to the names of tables that the crawler creates.
  # @param s3_target [String] The S3 path that the crawler will crawl.
  # @return [void]
  def create_crawler(name, role_arn, db_name, _db_prefix, s3_target)
    @glue_client.create_crawler(
      name: name,
      role: role_arn,
      database_name: db_name,
      targets: {
        s3_targets: [
          {
            path: s3_target
          }
        ]
      }
    )
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not create crawler: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/CreateCrawler)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateJob`
<a name="glue_CreateJob_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Creates a new job with the specified configuration.
  #
  # @param name [String] The name of the job.
  # @param description [String] The description of the job.
  # @param role_arn [String] The ARN of the IAM role to be used by the job.
  # @param script_location [String] The location of the ETL script for the job.
  # @return [void]
  def create_job(name, description, role_arn, script_location)
    @glue_client.create_job(
      name: name,
      description: description,
      role: role_arn,
      command: {
        name: 'glueetl',
        script_location: script_location,
        python_version: '3'
      },
      glue_version: '3.0'
    )
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not create job #{name}: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/CreateJob)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Deletes a crawler with the specified name.
  #
  # @param name [String] The name of the crawler to delete.
  # @return [void]
  def delete_crawler(name)
    @glue_client.delete_crawler(name: name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not delete crawler #{name}: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/DeleteCrawler)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Removes a specified database from a Data Catalog.
  #
  # @param database_name [String] The name of the database to delete.
  # @return [void]
  def delete_database(database_name)
    @glue_client.delete_database(name: database_name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not delete database: \n#{e.message}")
  end
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/DeleteDatabase)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteJob`
<a name="glue_DeleteJob_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Deletes a job with the specified name.
  #
  # @param job_name [String] The name of the job to delete.
  # @return [void]
  def delete_job(job_name)
    @glue_client.delete_job(job_name: job_name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not delete job: \n#{e.message}")
  end
```
+  Untuk detail API, lihat [DeleteJob](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/DeleteJob)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteTable`
<a name="glue_DeleteTable_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Deletes a table with the specified name.
  #
  # @param database_name [String] The name of the catalog database in which the table resides.
  # @param table_name [String] The name of the table to be deleted.
  # @return [void]
  def delete_table(database_name, table_name)
    @glue_client.delete_table(database_name: database_name, name: table_name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not delete job: \n#{e.message}")
  end
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/DeleteTable)di *Referensi AWS SDK untuk Ruby API*. 

### `GetCrawler`
<a name="glue_GetCrawler_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Retrieves information about a specific crawler.
  #
  # @param name [String] The name of the crawler to retrieve information about.
  # @return [Aws::Glue::Types::Crawler, nil] The crawler object if found, or nil if not found.
  def get_crawler(name)
    @glue_client.get_crawler(name: name)
  rescue Aws::Glue::Errors::EntityNotFoundException
    @logger.info("Crawler #{name} doesn't exist.")
    false
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get crawler #{name}: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [GetCrawler](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetCrawler)di *Referensi AWS SDK untuk Ruby API*. 

### `GetDatabase`
<a name="glue_GetDatabase_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Retrieves information about a specific database.
  #
  # @param name [String] The name of the database to retrieve information about.
  # @return [Aws::Glue::Types::Database, nil] The database object if found, or nil if not found.
  def get_database(name)
    response = @glue_client.get_database(name: name)
    response.database
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get database #{name}: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [GetDatabase](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetDatabase)di *Referensi AWS SDK untuk Ruby API*. 

### `GetJobRun`
<a name="glue_GetJobRun_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Retrieves data for a specific job run.
  #
  # @param job_name [String] The name of the job run to retrieve data for.
  # @return [Glue::Types::GetJobRunResponse]
  def get_job_run(job_name, run_id)
    @glue_client.get_job_run(job_name: job_name, run_id: run_id)
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get job runs: \n#{e.message}")
  end
```
+  Untuk detail API, lihat [GetJobRun](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetJobRun)di *Referensi AWS SDK untuk Ruby API*. 

### `GetJobRuns`
<a name="glue_GetJobRuns_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Retrieves a list of job runs for the specified job.
  #
  # @param job_name [String] The name of the job to retrieve job runs for.
  # @return [Array<Aws::Glue::Types::JobRun>]
  def get_job_runs(job_name)
    response = @glue_client.get_job_runs(job_name: job_name)
    response.job_runs
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get job runs: \n#{e.message}")
  end
```
+  Untuk detail API, lihat [GetJobRuns](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetJobRuns)di *Referensi AWS SDK untuk Ruby API*. 

### `GetTables`
<a name="glue_GetTables_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Retrieves a list of tables in the specified database.
  #
  # @param db_name [String] The name of the database to retrieve tables from.
  # @return [Array<Aws::Glue::Types::Table>]
  def get_tables(db_name)
    response = @glue_client.get_tables(database_name: db_name)
    response.table_list
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not get tables #{db_name}: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [GetTables](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/GetTables)di *Referensi AWS SDK untuk Ruby API*. 

### `ListJobs`
<a name="glue_ListJobs_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Retrieves a list of jobs in AWS Glue.
  #
  # @return [Aws::Glue::Types::ListJobsResponse]
  def list_jobs
    @glue_client.list_jobs
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not list jobs: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/ListJobs)di *Referensi AWS SDK untuk Ruby API*. 

### `StartCrawler`
<a name="glue_StartCrawler_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Starts a crawler with the specified name.
  #
  # @param name [String] The name of the crawler to start.
  # @return [void]
  def start_crawler(name)
    @glue_client.start_crawler(name: name)
  rescue Aws::Glue::Errors::ServiceError => e
    @logger.error("Glue could not start crawler #{name}: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [StartCrawler](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/StartCrawler)di *Referensi AWS SDK untuk Ruby API*. 

### `StartJobRun`
<a name="glue_StartJobRun_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/glue#code-examples). 

```
# The `GlueWrapper` class serves as a wrapper around the AWS Glue API, providing a simplified interface for common operations.
# It encapsulates the functionality of the AWS SDK for Glue and provides methods for interacting with Glue crawlers, databases, tables, jobs, and S3 resources.
# The class initializes with a Glue client and a logger, allowing it to make API calls and log any errors or informational messages.
class GlueWrapper
  def initialize(glue_client, logger)
    @glue_client = glue_client
    @logger = logger
  end

  # Starts a job run for the specified job.
  #
  # @param name [String] The name of the job to start the run for.
  # @param input_database [String] The name of the input database for the job.
  # @param input_table [String] The name of the input table for the job.
  # @param output_bucket_name [String] The name of the output S3 bucket for the job.
  # @return [String] The ID of the started job run.
  def start_job_run(name, input_database, input_table, output_bucket_name)
    response = @glue_client.start_job_run(
      job_name: name,
      arguments: {
        '--input_database': input_database,
        '--input_table': input_table,
        '--output_bucket_url': "s3://#{output_bucket_name}/"
      }
    )
    response.job_run_id
  rescue Aws::Glue::Errors::GlueException => e
    @logger.error("Glue could not start job run #{name}: \n#{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [StartJobRun](https://docs.aws.amazon.com/goto/SdkForRubyV3/glue-2017-03-31/StartJobRun)di *Referensi AWS SDK untuk Ruby API*. 

# Contoh IAM menggunakan SDK for Ruby
<a name="ruby_3_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo IAM
<a name="iam_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan IAM.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
require 'aws-sdk-iam'
require 'logger'

# IAMManager is a class responsible for managing IAM operations
# such as listing all IAM policies in the current AWS account.
class IAMManager
  def initialize(client)
    @client = client
    @logger = Logger.new($stdout)
  end

  # Lists and prints all IAM policies in the current AWS account.
  def list_policies
    @logger.info('Here are the IAM policies in your account:')

    paginator = @client.list_policies
    policies = []

    paginator.each_page do |page|
      policies.concat(page.policies)
    end

    if policies.empty?
      @logger.info("You don't have any IAM policies.")
    else
      policies.each do |policy|
        @logger.info("- #{policy.policy_name}")
      end
    end
  end
end

if $PROGRAM_NAME == __FILE__
  iam_client = Aws::IAM::Client.new
  manager = IAMManager.new(iam_client)
  manager.list_policies
end
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListPolicies)di *Referensi AWS SDK untuk Ruby API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Buat pengguna IAM dan peran yang memberikan izin untuk mencantumkan bucket Amazon S3. Pengguna hanya memiliki hak untuk mengambil peran. Setelah mengambil peran, gunakan kredensyal sementara untuk membuat daftar bucket untuk akun.  

```
# Wraps the scenario actions.
class ScenarioCreateUserAssumeRole
  attr_reader :iam_client

  # @param [Aws::IAM::Client] iam_client: The AWS IAM client.
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
  end

  # Waits for the specified number of seconds.
  #
  # @param duration [Integer] The number of seconds to wait.
  def wait(duration)
    puts('Give AWS time to propagate resources...')
    sleep(duration)
  end

  # Creates a user.
  #
  # @param user_name [String] The name to give the user.
  # @return [Aws::IAM::User] The newly created user.
  def create_user(user_name)
    user = @iam_client.create_user(user_name: user_name).user
    @logger.info("Created demo user named #{user.user_name}.")
  rescue Aws::Errors::ServiceError => e
    @logger.info('Tried and failed to create demo user.')
    @logger.info("\t#{e.code}: #{e.message}")
    @logger.info("\nCan't continue the demo without a user!")
    raise
  else
    user
  end

  # Creates an access key for a user.
  #
  # @param user [Aws::IAM::User] The user that owns the key.
  # @return [Aws::IAM::AccessKeyPair] The newly created access key.
  def create_access_key_pair(user)
    user_key = @iam_client.create_access_key(user_name: user.user_name).access_key
    @logger.info("Created accesskey pair for user #{user.user_name}.")
  rescue Aws::Errors::ServiceError => e
    @logger.info("Couldn't create access keys for user #{user.user_name}.")
    @logger.info("\t#{e.code}: #{e.message}")
    raise
  else
    user_key
  end

  # Creates a role that can be assumed by a user.
  #
  # @param role_name [String] The name to give the role.
  # @param user [Aws::IAM::User] The user who is granted permission to assume the role.
  # @return [Aws::IAM::Role] The newly created role.
  def create_role(role_name, user)
    trust_policy = {
      Version: '2012-10-17',
      Statement: [{
        Effect: 'Allow',
        Principal: { 'AWS': user.arn },
        Action: 'sts:AssumeRole'
      }]
    }.to_json
    role = @iam_client.create_role(
      role_name: role_name,
      assume_role_policy_document: trust_policy
    ).role
    @logger.info("Created role #{role.role_name}.")
  rescue Aws::Errors::ServiceError => e
    @logger.info("Couldn't create a role for the demo. Here's why: ")
    @logger.info("\t#{e.code}: #{e.message}")
    raise
  else
    role
  end

  # Creates a policy that grants permission to list S3 buckets in the account, and
  # then attaches the policy to a role.
  #
  # @param policy_name [String] The name to give the policy.
  # @param role [Aws::IAM::Role] The role that the policy is attached to.
  # @return [Aws::IAM::Policy] The newly created policy.
  def create_and_attach_role_policy(policy_name, role)
    policy_document = {
      Version: '2012-10-17',
      Statement: [{
        Effect: 'Allow',
        Action: 's3:ListAllMyBuckets',
        Resource: 'arn:aws:s3:::*'
      }]
    }.to_json
    policy = @iam_client.create_policy(
      policy_name: policy_name,
      policy_document: policy_document
    ).policy
    @iam_client.attach_role_policy(
      role_name: role.role_name,
      policy_arn: policy.arn
    )
    @logger.info("Created policy #{policy.policy_name} and attached it to role #{role.role_name}.")
  rescue Aws::Errors::ServiceError => e
    @logger.info("Couldn't create a policy and attach it to role #{role.role_name}. Here's why: ")
    @logger.info("\t#{e.code}: #{e.message}")
    raise
  end

  # Creates an inline policy for a user that lets the user assume a role.
  #
  # @param policy_name [String] The name to give the policy.
  # @param user [Aws::IAM::User] The user that owns the policy.
  # @param role [Aws::IAM::Role] The role that can be assumed.
  # @return [Aws::IAM::UserPolicy] The newly created policy.
  def create_user_policy(policy_name, user, role)
    policy_document = {
      Version: '2012-10-17',
      Statement: [{
        Effect: 'Allow',
        Action: 'sts:AssumeRole',
        Resource: role.arn
      }]
    }.to_json
    @iam_client.put_user_policy(
      user_name: user.user_name,
      policy_name: policy_name,
      policy_document: policy_document
    )
    puts("Created an inline policy for #{user.user_name} that lets the user assume role #{role.role_name}.")
  rescue Aws::Errors::ServiceError => e
    @logger.info("Couldn't create an inline policy for user #{user.user_name}. Here's why: ")
    @logger.info("\t#{e.code}: #{e.message}")
    raise
  end

  # Creates an Amazon S3 resource with specified credentials. This is separated into a
  # factory function so that it can be mocked for unit testing.
  #
  # @param credentials [Aws::Credentials] The credentials used by the Amazon S3 resource.
  def create_s3_resource(credentials)
    Aws::S3::Resource.new(client: Aws::S3::Client.new(credentials: credentials))
  end

  # Lists the S3 buckets for the account, using the specified Amazon S3 resource.
  # Because the resource uses credentials with limited access, it may not be able to
  # list the S3 buckets.
  #
  # @param s3_resource [Aws::S3::Resource] An Amazon S3 resource.
  def list_buckets(s3_resource)
    count = 10
    s3_resource.buckets.each do |bucket|
      @logger.info "\t#{bucket.name}"
      count -= 1
      break if count.zero?
    end
  rescue Aws::Errors::ServiceError => e
    if e.code == 'AccessDenied'
      puts('Attempt to list buckets with no permissions: AccessDenied.')
    else
      @logger.info("Couldn't list buckets for the account. Here's why: ")
      @logger.info("\t#{e.code}: #{e.message}")
      raise
    end
  end

  # Creates an AWS Security Token Service (AWS STS) client with specified credentials.
  # This is separated into a factory function so that it can be mocked for unit testing.
  #
  # @param key_id [String] The ID of the access key used by the STS client.
  # @param key_secret [String] The secret part of the access key used by the STS client.
  def create_sts_client(key_id, key_secret)
    Aws::STS::Client.new(access_key_id: key_id, secret_access_key: key_secret)
  end

  # Gets temporary credentials that can be used to assume a role.
  #
  # @param role_arn [String] The ARN of the role that is assumed when these credentials
  #                          are used.
  # @param sts_client [AWS::STS::Client] An AWS STS client.
  # @return [Aws::AssumeRoleCredentials] The credentials that can be used to assume the role.
  def assume_role(role_arn, sts_client)
    credentials = Aws::AssumeRoleCredentials.new(
      client: sts_client,
      role_arn: role_arn,
      role_session_name: 'create-use-assume-role-scenario'
    )
    @logger.info("Assumed role '#{role_arn}', got temporary credentials.")
    credentials
  end

  # Deletes a role. If the role has policies attached, they are detached and
  # deleted before the role is deleted.
  #
  # @param role_name [String] The name of the role to delete.
  def delete_role(role_name)
    @iam_client.list_attached_role_policies(role_name: role_name).attached_policies.each do |policy|
      @iam_client.detach_role_policy(role_name: role_name, policy_arn: policy.policy_arn)
      @iam_client.delete_policy(policy_arn: policy.policy_arn)
      @logger.info("Detached and deleted policy #{policy.policy_name}.")
    end
    @iam_client.delete_role({ role_name: role_name })
    @logger.info("Role deleted: #{role_name}.")
  rescue Aws::Errors::ServiceError => e
    @logger.info("Couldn't detach policies and delete role #{role.name}. Here's why:")
    @logger.info("\t#{e.code}: #{e.message}")
    raise
  end

  # Deletes a user. If the user has inline policies or access keys, they are deleted
  # before the user is deleted.
  #
  # @param user [Aws::IAM::User] The user to delete.
  def delete_user(user_name)
    user = @iam_client.list_access_keys(user_name: user_name).access_key_metadata
    user.each do |key|
      @iam_client.delete_access_key({ access_key_id: key.access_key_id, user_name: user_name })
      @logger.info("Deleted access key #{key.access_key_id} for user '#{user_name}'.")
    end

    @iam_client.delete_user(user_name: user_name)
    @logger.info("Deleted user '#{user_name}'.")
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting user '#{user_name}': #{e.message}")
  end
end

# Runs the IAM create a user and assume a role scenario.
def run_scenario(scenario)
  puts('-' * 88)
  puts('Welcome to the IAM create a user and assume a role demo!')
  puts('-' * 88)
  user = scenario.create_user("doc-example-user-#{Random.uuid}")
  user_key = scenario.create_access_key_pair(user)
  scenario.wait(10)
  role = scenario.create_role("doc-example-role-#{Random.uuid}", user)
  scenario.create_and_attach_role_policy("doc-example-role-policy-#{Random.uuid}", role)
  scenario.create_user_policy("doc-example-user-policy-#{Random.uuid}", user, role)
  scenario.wait(10)
  puts('Try to list buckets with credentials for a user who has no permissions.')
  puts('Expect AccessDenied from this call.')
  scenario.list_buckets(
    scenario.create_s3_resource(Aws::Credentials.new(user_key.access_key_id, user_key.secret_access_key))
  )
  puts('Now, assume the role that grants permission.')
  temp_credentials = scenario.assume_role(
    role.arn, scenario.create_sts_client(user_key.access_key_id, user_key.secret_access_key)
  )
  puts('Here are your buckets:')
  scenario.list_buckets(scenario.create_s3_resource(temp_credentials))
  puts("Deleting role '#{role.role_name}' and attached policies.")
  scenario.delete_role(role.role_name)
  puts("Deleting user '#{user.user_name}', policies, and keys.")
  scenario.delete_user(user.user_name)
  puts('Thanks for watching!')
  puts('-' * 88)
rescue Aws::Errors::ServiceError => e
  puts('Something went wrong with the demo.')
  puts("\t#{e.code}: #{e.message}")
end

run_scenario(ScenarioCreateUserAssumeRole.new(Aws::IAM::Client.new)) if $PROGRAM_NAME == __FILE__
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Ruby *.
  + [AttachRolePolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/AttachRolePolicy)
  + [CreateAccessKey](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreateAccessKey)
  + [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreatePolicy)
  + [CreateRole](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreateRole)
  + [CreateUser](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreateUser)
  + [DeleteAccessKey](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteAccessKey)
  + [DeletePolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeletePolicy)
  + [DeleteRole](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteRole)
  + [DeleteUser](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteUser)
  + [DeleteUserPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteUserPolicy)
  + [DetachRolePolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DetachRolePolicy)
  + [PutUserPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/PutUserPolicy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Modul contoh ini mencantumkan, membuat, melampirkan, dan melepaskan kebijakan peran.  

```
# Manages policies in AWS Identity and Access Management (IAM)
class RolePolicyManager
  # Initialize with an AWS IAM client
  #
  # @param iam_client [Aws::IAM::Client] An initialized IAM client
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'PolicyManager'
  end

  # Creates a policy
  #
  # @param policy_name [String] The name of the policy
  # @param policy_document [Hash] The policy document
  # @return [String] The policy ARN if successful, otherwise nil
  def create_policy(policy_name, policy_document)
    response = @iam_client.create_policy(
      policy_name: policy_name,
      policy_document: policy_document.to_json
    )
    response.policy.arn
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating policy: #{e.message}")
    nil
  end

  # Fetches an IAM policy by its ARN
  # @param policy_arn [String] the ARN of the IAM policy to retrieve
  # @return [Aws::IAM::Types::GetPolicyResponse] the policy object if found
  def get_policy(policy_arn)
    response = @iam_client.get_policy(policy_arn: policy_arn)
    policy = response.policy
    @logger.info("Got policy '#{policy.policy_name}'. Its ID is: #{policy.policy_id}.")
    policy
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Couldn't get policy '#{policy_arn}'. The policy does not exist.")
    raise
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't get policy '#{policy_arn}'. Here's why: #{e.code}: #{e.message}")
    raise
  end

  # Attaches a policy to a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def attach_policy_to_role(role_name, policy_arn)
    @iam_client.attach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error attaching policy to role: #{e.message}")
    false
  end

  # Lists policy ARNs attached to a role
  #
  # @param role_name [String] The name of the role
  # @return [Array<String>] List of policy ARNs
  def list_attached_policy_arns(role_name)
    response = @iam_client.list_attached_role_policies(role_name: role_name)
    response.attached_policies.map(&:policy_arn)
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing policies attached to role: #{e.message}")
    []
  end

  # Detaches a policy from a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def detach_policy_from_role(role_name, policy_arn)
    @iam_client.detach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error detaching policy from role: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/AttachRolePolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `AttachUserPolicy`
<a name="iam_AttachUserPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachUserPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Attaches a policy to a user
  #
  # @param user_name [String] The name of the user
  # @param policy_arn [String] The Amazon Resource Name (ARN) of the policy
  # @return [Boolean] true if successful, false otherwise
  def attach_policy_to_user(user_name, policy_arn)
    @iam_client.attach_user_policy(
      user_name: user_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error attaching policy to user: #{e.message}")
    false
  end
```
+  Untuk detail API, lihat [AttachUserPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/AttachUserPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Modul contoh ini mencantumkan, membuat, menonaktifkan, dan menghapus kunci akses.  

```
# Manages access keys for IAM users
class AccessKeyManager
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'AccessKeyManager'
  end

  # Lists access keys for a user
  #
  # @param user_name [String] The name of the user.
  def list_access_keys(user_name)
    response = @iam_client.list_access_keys(user_name: user_name)
    if response.access_key_metadata.empty?
      @logger.info("No access keys found for user '#{user_name}'.")
    else
      response.access_key_metadata.map(&:access_key_id)
    end
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Error listing access keys: cannot find user '#{user_name}'.")
    []
  rescue StandardError => e
    @logger.error("Error listing access keys: #{e.message}")
    []
  end

  # Creates an access key for a user
  #
  # @param user_name [String] The name of the user.
  # @return [Boolean]
  def create_access_key(user_name)
    response = @iam_client.create_access_key(user_name: user_name)
    access_key = response.access_key
    @logger.info("Access key created for user '#{user_name}': #{access_key.access_key_id}")
    access_key
  rescue Aws::IAM::Errors::LimitExceeded
    @logger.error('Error creating access key: limit exceeded. Cannot create more.')
    nil
  rescue StandardError => e
    @logger.error("Error creating access key: #{e.message}")
    nil
  end

  # Deactivates an access key
  #
  # @param user_name [String] The name of the user.
  # @param access_key_id [String] The ID for the access key.
  # @return [Boolean]
  def deactivate_access_key(user_name, access_key_id)
    @iam_client.update_access_key(
      user_name: user_name,
      access_key_id: access_key_id,
      status: 'Inactive'
    )
    true
  rescue StandardError => e
    @logger.error("Error deactivating access key: #{e.message}")
    false
  end

  # Deletes an access key
  #
  # @param user_name [String] The name of the user.
  # @param access_key_id [String] The ID for the access key.
  # @return [Boolean]
  def delete_access_key(user_name, access_key_id)
    @iam_client.delete_access_key(
      user_name: user_name,
      access_key_id: access_key_id
    )
    true
  rescue StandardError => e
    @logger.error("Error deleting access key: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreateAccessKey)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateAccountAlias`
<a name="iam_CreateAccountAlias_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccountAlias`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Buat daftar, buat, dan hapus alias akun.  

```
class IAMAliasManager
  # Initializes the IAM client and logger
  #
  # @param iam_client [Aws::IAM::Client] An initialized IAM client.
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
  end

  # Lists available AWS account aliases.
  def list_aliases
    response = @iam_client.list_account_aliases

    if response.account_aliases.count.positive?
      @logger.info('Account aliases are:')
      response.account_aliases.each { |account_alias| @logger.info("  #{account_alias}") }
    else
      @logger.info('No account aliases found.')
    end
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing account aliases: #{e.message}")
  end

  # Creates an AWS account alias.
  #
  # @param account_alias [String] The name of the account alias to create.
  # @return [Boolean] true if the account alias was created; otherwise, false.
  def create_account_alias(account_alias)
    @iam_client.create_account_alias(account_alias: account_alias)
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating account alias: #{e.message}")
    false
  end

  # Deletes an AWS account alias.
  #
  # @param account_alias [String] The name of the account alias to delete.
  # @return [Boolean] true if the account alias was deleted; otherwise, false.
  def delete_account_alias(account_alias)
    @iam_client.delete_account_alias(account_alias: account_alias)
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting account alias: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreateAccountAlias)di *Referensi AWS SDK untuk Ruby API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Modul contoh ini mencantumkan, membuat, melampirkan, dan melepaskan kebijakan peran.  

```
# Manages policies in AWS Identity and Access Management (IAM)
class RolePolicyManager
  # Initialize with an AWS IAM client
  #
  # @param iam_client [Aws::IAM::Client] An initialized IAM client
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'PolicyManager'
  end

  # Creates a policy
  #
  # @param policy_name [String] The name of the policy
  # @param policy_document [Hash] The policy document
  # @return [String] The policy ARN if successful, otherwise nil
  def create_policy(policy_name, policy_document)
    response = @iam_client.create_policy(
      policy_name: policy_name,
      policy_document: policy_document.to_json
    )
    response.policy.arn
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating policy: #{e.message}")
    nil
  end

  # Fetches an IAM policy by its ARN
  # @param policy_arn [String] the ARN of the IAM policy to retrieve
  # @return [Aws::IAM::Types::GetPolicyResponse] the policy object if found
  def get_policy(policy_arn)
    response = @iam_client.get_policy(policy_arn: policy_arn)
    policy = response.policy
    @logger.info("Got policy '#{policy.policy_name}'. Its ID is: #{policy.policy_id}.")
    policy
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Couldn't get policy '#{policy_arn}'. The policy does not exist.")
    raise
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't get policy '#{policy_arn}'. Here's why: #{e.code}: #{e.message}")
    raise
  end

  # Attaches a policy to a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def attach_policy_to_role(role_name, policy_arn)
    @iam_client.attach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error attaching policy to role: #{e.message}")
    false
  end

  # Lists policy ARNs attached to a role
  #
  # @param role_name [String] The name of the role
  # @return [Array<String>] List of policy ARNs
  def list_attached_policy_arns(role_name)
    response = @iam_client.list_attached_role_policies(role_name: role_name)
    response.attached_policies.map(&:policy_arn)
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing policies attached to role: #{e.message}")
    []
  end

  # Detaches a policy from a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def detach_policy_from_role(role_name, policy_arn)
    @iam_client.detach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error detaching policy from role: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreatePolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateRole`
<a name="iam_CreateRole_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Creates a role and attaches policies to it.
  #
  # @param role_name [String] The name of the role.
  # @param assume_role_policy_document [Hash] The trust relationship policy document.
  # @param policy_arns [Array<String>] The ARNs of the policies to attach.
  # @return [String, nil] The ARN of the new role if successful, or nil if an error occurred.
  def create_role(role_name, assume_role_policy_document, policy_arns)
    response = @iam_client.create_role(
      role_name: role_name,
      assume_role_policy_document: assume_role_policy_document.to_json
    )
    role_arn = response.role.arn

    policy_arns.each do |policy_arn|
      @iam_client.attach_role_policy(
        role_name: role_name,
        policy_arn: policy_arn
      )
    end

    role_arn
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating role: #{e.message}")
    nil
  end
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreateRole)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Creates a service-linked role
  #
  # @param service_name [String] The service name to create the role for.
  # @param description [String] The description of the service-linked role.
  # @param suffix [String] Suffix for customizing role name.
  # @return [String] The name of the created role
  def create_service_linked_role(service_name, description, suffix)
    response = @iam_client.create_service_linked_role(
      aws_service_name: service_name, description: description, custom_suffix: suffix
    )
    role_name = response.role.role_name
    @logger.info("Created service-linked role #{role_name}.")
    role_name
  rescue Aws::Errors::ServiceError => e
    @logger.error("Couldn't create service-linked role for #{service_name}. Here's why:")
    @logger.error("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreateServiceLinkedRole)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateUser`
<a name="iam_CreateUser_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Creates a user and their login profile
  #
  # @param user_name [String] The name of the user
  # @param initial_password [String] The initial password for the user
  # @return [String, nil] The ID of the user if created, or nil if an error occurred
  def create_user(user_name, initial_password)
    response = @iam_client.create_user(user_name: user_name)
    @iam_client.wait_until(:user_exists, user_name: user_name)
    @iam_client.create_login_profile(
      user_name: user_name,
      password: initial_password,
      password_reset_required: true
    )
    @logger.info("User '#{user_name}' created successfully.")
    response.user.user_id
  rescue Aws::IAM::Errors::EntityAlreadyExists
    @logger.error("Error creating user '#{user_name}': user already exists.")
    nil
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating user '#{user_name}': #{e.message}")
    nil
  end
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/CreateUser)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Modul contoh ini mencantumkan, membuat, menonaktifkan, dan menghapus kunci akses.  

```
# Manages access keys for IAM users
class AccessKeyManager
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'AccessKeyManager'
  end

  # Lists access keys for a user
  #
  # @param user_name [String] The name of the user.
  def list_access_keys(user_name)
    response = @iam_client.list_access_keys(user_name: user_name)
    if response.access_key_metadata.empty?
      @logger.info("No access keys found for user '#{user_name}'.")
    else
      response.access_key_metadata.map(&:access_key_id)
    end
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Error listing access keys: cannot find user '#{user_name}'.")
    []
  rescue StandardError => e
    @logger.error("Error listing access keys: #{e.message}")
    []
  end

  # Creates an access key for a user
  #
  # @param user_name [String] The name of the user.
  # @return [Boolean]
  def create_access_key(user_name)
    response = @iam_client.create_access_key(user_name: user_name)
    access_key = response.access_key
    @logger.info("Access key created for user '#{user_name}': #{access_key.access_key_id}")
    access_key
  rescue Aws::IAM::Errors::LimitExceeded
    @logger.error('Error creating access key: limit exceeded. Cannot create more.')
    nil
  rescue StandardError => e
    @logger.error("Error creating access key: #{e.message}")
    nil
  end

  # Deactivates an access key
  #
  # @param user_name [String] The name of the user.
  # @param access_key_id [String] The ID for the access key.
  # @return [Boolean]
  def deactivate_access_key(user_name, access_key_id)
    @iam_client.update_access_key(
      user_name: user_name,
      access_key_id: access_key_id,
      status: 'Inactive'
    )
    true
  rescue StandardError => e
    @logger.error("Error deactivating access key: #{e.message}")
    false
  end

  # Deletes an access key
  #
  # @param user_name [String] The name of the user.
  # @param access_key_id [String] The ID for the access key.
  # @return [Boolean]
  def delete_access_key(user_name, access_key_id)
    @iam_client.delete_access_key(
      user_name: user_name,
      access_key_id: access_key_id
    )
    true
  rescue StandardError => e
    @logger.error("Error deleting access key: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteAccessKey)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteAccountAlias`
<a name="iam_DeleteAccountAlias_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccountAlias`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Buat daftar, buat, dan hapus alias akun.  

```
class IAMAliasManager
  # Initializes the IAM client and logger
  #
  # @param iam_client [Aws::IAM::Client] An initialized IAM client.
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
  end

  # Lists available AWS account aliases.
  def list_aliases
    response = @iam_client.list_account_aliases

    if response.account_aliases.count.positive?
      @logger.info('Account aliases are:')
      response.account_aliases.each { |account_alias| @logger.info("  #{account_alias}") }
    else
      @logger.info('No account aliases found.')
    end
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing account aliases: #{e.message}")
  end

  # Creates an AWS account alias.
  #
  # @param account_alias [String] The name of the account alias to create.
  # @return [Boolean] true if the account alias was created; otherwise, false.
  def create_account_alias(account_alias)
    @iam_client.create_account_alias(account_alias: account_alias)
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating account alias: #{e.message}")
    false
  end

  # Deletes an AWS account alias.
  #
  # @param account_alias [String] The name of the account alias to delete.
  # @return [Boolean] true if the account alias was deleted; otherwise, false.
  def delete_account_alias(account_alias)
    @iam_client.delete_account_alias(account_alias: account_alias)
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting account alias: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteAccountAlias)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteRole`
<a name="iam_DeleteRole_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Deletes a role and its attached policies.
  #
  # @param role_name [String] The name of the role to delete.
  def delete_role(role_name)
    # Detach and delete attached policies
    @iam_client.list_attached_role_policies(role_name: role_name).each do |response|
      response.attached_policies.each do |policy|
        @iam_client.detach_role_policy({
                                         role_name: role_name,
                                         policy_arn: policy.policy_arn
                                       })
        # Check if the policy is a customer managed policy (not AWS managed)
        unless policy.policy_arn.include?('aws:policy/')
          @iam_client.delete_policy({ policy_arn: policy.policy_arn })
          @logger.info("Deleted customer managed policy #{policy.policy_name}.")
        end
      end
    end

    # Delete the role
    @iam_client.delete_role({ role_name: role_name })
    @logger.info("Deleted role #{role_name}.")
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't detach policies and delete role #{role_name}. Here's why:")
    @logger.error("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [DeleteRole](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteRole)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteServerCertificate`
<a name="iam_DeleteServerCertificate_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteServerCertificate`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Daftar, perbarui, dan hapus sertifikat server.  

```
class ServerCertificateManager
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'ServerCertificateManager'
  end

  # Creates a new server certificate.
  # @param name [String] the name of the server certificate
  # @param certificate_body [String] the contents of the certificate
  # @param private_key [String] the private key contents
  # @return [Boolean] returns true if the certificate was successfully created
  def create_server_certificate(name, certificate_body, private_key)
    @iam_client.upload_server_certificate({
                                            server_certificate_name: name,
                                            certificate_body: certificate_body,
                                            private_key: private_key
                                          })
    true
  rescue Aws::IAM::Errors::ServiceError => e
    puts "Failed to create server certificate: #{e.message}"
    false
  end

  # Lists available server certificate names.
  def list_server_certificate_names
    response = @iam_client.list_server_certificates

    if response.server_certificate_metadata_list.empty?
      @logger.info('No server certificates found.')
      return
    end

    response.server_certificate_metadata_list.each do |certificate_metadata|
      @logger.info("Certificate Name: #{certificate_metadata.server_certificate_name}")
    end
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing server certificates: #{e.message}")
  end

  # Updates the name of a server certificate.
  def update_server_certificate_name(current_name, new_name)
    @iam_client.update_server_certificate(
      server_certificate_name: current_name,
      new_server_certificate_name: new_name
    )
    @logger.info("Server certificate name updated from '#{current_name}' to '#{new_name}'.")
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error updating server certificate name: #{e.message}")
    false
  end

  # Deletes a server certificate.
  def delete_server_certificate(name)
    @iam_client.delete_server_certificate(server_certificate_name: name)
    @logger.info("Server certificate '#{name}' deleted.")
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting server certificate: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [DeleteServerCertificate](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteServerCertificate)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteServiceLinkedRole`
<a name="iam_DeleteServiceLinkedRole_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteServiceLinkedRole`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Deletes a service-linked role.
  #
  # @param role_name [String] The name of the role to delete.
  def delete_service_linked_role(role_name)
    response = @iam_client.delete_service_linked_role(role_name: role_name)
    task_id = response.deletion_task_id
    check_deletion_status(role_name, task_id)
  rescue Aws::Errors::ServiceError => e
    handle_deletion_error(e, role_name)
  end

  private

  # Checks the deletion status of a service-linked role
  #
  # @param role_name [String] The name of the role being deleted
  # @param task_id [String] The task ID for the deletion process
  def check_deletion_status(role_name, task_id)
    loop do
      response = @iam_client.get_service_linked_role_deletion_status(
        deletion_task_id: task_id
      )
      status = response.status
      @logger.info("Deletion of #{role_name} #{status}.")
      break if %w[SUCCEEDED FAILED].include?(status)

      sleep(3)
    end
  end

  # Handles deletion error
  #
  # @param e [Aws::Errors::ServiceError] The error encountered during deletion
  # @param role_name [String] The name of the role attempted to delete
  def handle_deletion_error(e, role_name)
    return if e.code == 'NoSuchEntity'

    @logger.error("Couldn't delete #{role_name}. Here's why:")
    @logger.error("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [DeleteServiceLinkedRole](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteServiceLinkedRole)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteUser`
<a name="iam_DeleteUser_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Deletes a user and their associated resources
  #
  # @param user_name [String] The name of the user to delete
  def delete_user(user_name)
    user = @iam_client.list_access_keys(user_name: user_name).access_key_metadata
    user.each do |key|
      @iam_client.delete_access_key({ access_key_id: key.access_key_id, user_name: user_name })
      @logger.info("Deleted access key #{key.access_key_id} for user '#{user_name}'.")
    end

    @iam_client.delete_user(user_name: user_name)
    @logger.info("Deleted user '#{user_name}'.")
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting user '#{user_name}': #{e.message}")
  end
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteUser)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteUserPolicy`
<a name="iam_DeleteUserPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUserPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Deletes a user and their associated resources
  #
  # @param user_name [String] The name of the user to delete
  def delete_user(user_name)
    user = @iam_client.list_access_keys(user_name: user_name).access_key_metadata
    user.each do |key|
      @iam_client.delete_access_key({ access_key_id: key.access_key_id, user_name: user_name })
      @logger.info("Deleted access key #{key.access_key_id} for user '#{user_name}'.")
    end

    @iam_client.delete_user(user_name: user_name)
    @logger.info("Deleted user '#{user_name}'.")
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting user '#{user_name}': #{e.message}")
  end
```
+  Untuk detail API, lihat [DeleteUserPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DeleteUserPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Modul contoh ini mencantumkan, membuat, melampirkan, dan melepaskan kebijakan peran.  

```
# Manages policies in AWS Identity and Access Management (IAM)
class RolePolicyManager
  # Initialize with an AWS IAM client
  #
  # @param iam_client [Aws::IAM::Client] An initialized IAM client
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'PolicyManager'
  end

  # Creates a policy
  #
  # @param policy_name [String] The name of the policy
  # @param policy_document [Hash] The policy document
  # @return [String] The policy ARN if successful, otherwise nil
  def create_policy(policy_name, policy_document)
    response = @iam_client.create_policy(
      policy_name: policy_name,
      policy_document: policy_document.to_json
    )
    response.policy.arn
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating policy: #{e.message}")
    nil
  end

  # Fetches an IAM policy by its ARN
  # @param policy_arn [String] the ARN of the IAM policy to retrieve
  # @return [Aws::IAM::Types::GetPolicyResponse] the policy object if found
  def get_policy(policy_arn)
    response = @iam_client.get_policy(policy_arn: policy_arn)
    policy = response.policy
    @logger.info("Got policy '#{policy.policy_name}'. Its ID is: #{policy.policy_id}.")
    policy
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Couldn't get policy '#{policy_arn}'. The policy does not exist.")
    raise
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't get policy '#{policy_arn}'. Here's why: #{e.code}: #{e.message}")
    raise
  end

  # Attaches a policy to a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def attach_policy_to_role(role_name, policy_arn)
    @iam_client.attach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error attaching policy to role: #{e.message}")
    false
  end

  # Lists policy ARNs attached to a role
  #
  # @param role_name [String] The name of the role
  # @return [Array<String>] List of policy ARNs
  def list_attached_policy_arns(role_name)
    response = @iam_client.list_attached_role_policies(role_name: role_name)
    response.attached_policies.map(&:policy_arn)
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing policies attached to role: #{e.message}")
    []
  end

  # Detaches a policy from a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def detach_policy_from_role(role_name, policy_arn)
    @iam_client.detach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error detaching policy from role: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DetachRolePolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `DetachUserPolicy`
<a name="iam_DetachUserPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachUserPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Detaches a policy from a user
  #
  # @param user_name [String] The name of the user
  # @param policy_arn [String] The ARN of the policy to detach
  # @return [Boolean] true if the policy was successfully detached, false otherwise
  def detach_user_policy(user_name, policy_arn)
    @iam_client.detach_user_policy(
      user_name: user_name,
      policy_arn: policy_arn
    )
    @logger.info("Policy '#{policy_arn}' detached from user '#{user_name}' successfully.")
    true
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error('Error detaching policy: Policy or user does not exist.')
    false
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error detaching policy from user '#{user_name}': #{e.message}")
    false
  end
```
+  Untuk detail API, lihat [DetachUserPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/DetachUserPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `GetAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountPasswordPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
# Class to manage IAM account password policies
class PasswordPolicyManager
  attr_accessor :iam_client, :logger

  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'IAMPolicyManager'
  end

  # Retrieves and logs the account password policy
  def print_account_password_policy
    response = @iam_client.get_account_password_policy
    @logger.info("The account password policy is: #{response.password_policy.to_h}")
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.info('The account does not have a password policy.')
  rescue Aws::Errors::ServiceError => e
    @logger.error("Couldn't print the account password policy. Error: #{e.code} - #{e.message}")
    raise
  end
end
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/GetAccountPasswordPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `GetPolicy`
<a name="iam_GetPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Fetches an IAM policy by its ARN
  # @param policy_arn [String] the ARN of the IAM policy to retrieve
  # @return [Aws::IAM::Types::GetPolicyResponse] the policy object if found
  def get_policy(policy_arn)
    response = @iam_client.get_policy(policy_arn: policy_arn)
    policy = response.policy
    @logger.info("Got policy '#{policy.policy_name}'. Its ID is: #{policy.policy_id}.")
    policy
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Couldn't get policy '#{policy_arn}'. The policy does not exist.")
    raise
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't get policy '#{policy_arn}'. Here's why: #{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/GetPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `GetRole`
<a name="iam_GetRole_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Gets data about a role.
  #
  # @param name [String] The name of the role to look up.
  # @return [Aws::IAM::Role] The retrieved role.
  def get_role(name)
    role = @iam_client.get_role({
                                  role_name: name
                                }).role
    puts("Got data for role '#{role.role_name}'. Its ARN is '#{role.arn}'.")
  rescue Aws::Errors::ServiceError => e
    puts("Couldn't get data for role '#{name}' Here's why:")
    puts("\t#{e.code}: #{e.message}")
    raise
  else
    role
  end
```
+  Untuk detail API, lihat [GetRole](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/GetRole)di *Referensi AWS SDK untuk Ruby API*. 

### `GetUser`
<a name="iam_GetUser_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetUser`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Retrieves a user's details
  #
  # @param user_name [String] The name of the user to retrieve
  # @return [Aws::IAM::Types::User, nil] The user object if found, or nil if an error occurred
  def get_user(user_name)
    response = @iam_client.get_user(user_name: user_name)
    response.user
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("User '#{user_name}' not found.")
    nil
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error retrieving user '#{user_name}': #{e.message}")
    nil
  end
```
+  Untuk detail API, lihat [GetUser](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/GetUser)di *Referensi AWS SDK untuk Ruby API*. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Modul contoh ini mencantumkan, membuat, menonaktifkan, dan menghapus kunci akses.  

```
# Manages access keys for IAM users
class AccessKeyManager
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'AccessKeyManager'
  end

  # Lists access keys for a user
  #
  # @param user_name [String] The name of the user.
  def list_access_keys(user_name)
    response = @iam_client.list_access_keys(user_name: user_name)
    if response.access_key_metadata.empty?
      @logger.info("No access keys found for user '#{user_name}'.")
    else
      response.access_key_metadata.map(&:access_key_id)
    end
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Error listing access keys: cannot find user '#{user_name}'.")
    []
  rescue StandardError => e
    @logger.error("Error listing access keys: #{e.message}")
    []
  end

  # Creates an access key for a user
  #
  # @param user_name [String] The name of the user.
  # @return [Boolean]
  def create_access_key(user_name)
    response = @iam_client.create_access_key(user_name: user_name)
    access_key = response.access_key
    @logger.info("Access key created for user '#{user_name}': #{access_key.access_key_id}")
    access_key
  rescue Aws::IAM::Errors::LimitExceeded
    @logger.error('Error creating access key: limit exceeded. Cannot create more.')
    nil
  rescue StandardError => e
    @logger.error("Error creating access key: #{e.message}")
    nil
  end

  # Deactivates an access key
  #
  # @param user_name [String] The name of the user.
  # @param access_key_id [String] The ID for the access key.
  # @return [Boolean]
  def deactivate_access_key(user_name, access_key_id)
    @iam_client.update_access_key(
      user_name: user_name,
      access_key_id: access_key_id,
      status: 'Inactive'
    )
    true
  rescue StandardError => e
    @logger.error("Error deactivating access key: #{e.message}")
    false
  end

  # Deletes an access key
  #
  # @param user_name [String] The name of the user.
  # @param access_key_id [String] The ID for the access key.
  # @return [Boolean]
  def delete_access_key(user_name, access_key_id)
    @iam_client.delete_access_key(
      user_name: user_name,
      access_key_id: access_key_id
    )
    true
  rescue StandardError => e
    @logger.error("Error deleting access key: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListAccessKeys)di *Referensi AWS SDK untuk Ruby API*. 

### `ListAccountAliases`
<a name="iam_ListAccountAliases_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccountAliases`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Buat daftar, buat, dan hapus alias akun.  

```
class IAMAliasManager
  # Initializes the IAM client and logger
  #
  # @param iam_client [Aws::IAM::Client] An initialized IAM client.
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
  end

  # Lists available AWS account aliases.
  def list_aliases
    response = @iam_client.list_account_aliases

    if response.account_aliases.count.positive?
      @logger.info('Account aliases are:')
      response.account_aliases.each { |account_alias| @logger.info("  #{account_alias}") }
    else
      @logger.info('No account aliases found.')
    end
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing account aliases: #{e.message}")
  end

  # Creates an AWS account alias.
  #
  # @param account_alias [String] The name of the account alias to create.
  # @return [Boolean] true if the account alias was created; otherwise, false.
  def create_account_alias(account_alias)
    @iam_client.create_account_alias(account_alias: account_alias)
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating account alias: #{e.message}")
    false
  end

  # Deletes an AWS account alias.
  #
  # @param account_alias [String] The name of the account alias to delete.
  # @return [Boolean] true if the account alias was deleted; otherwise, false.
  def delete_account_alias(account_alias)
    @iam_client.delete_account_alias(account_alias: account_alias)
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting account alias: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListAccountAliases)di *Referensi AWS SDK untuk Ruby API*. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Modul contoh ini mencantumkan, membuat, melampirkan, dan melepaskan kebijakan peran.  

```
# Manages policies in AWS Identity and Access Management (IAM)
class RolePolicyManager
  # Initialize with an AWS IAM client
  #
  # @param iam_client [Aws::IAM::Client] An initialized IAM client
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'PolicyManager'
  end

  # Creates a policy
  #
  # @param policy_name [String] The name of the policy
  # @param policy_document [Hash] The policy document
  # @return [String] The policy ARN if successful, otherwise nil
  def create_policy(policy_name, policy_document)
    response = @iam_client.create_policy(
      policy_name: policy_name,
      policy_document: policy_document.to_json
    )
    response.policy.arn
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating policy: #{e.message}")
    nil
  end

  # Fetches an IAM policy by its ARN
  # @param policy_arn [String] the ARN of the IAM policy to retrieve
  # @return [Aws::IAM::Types::GetPolicyResponse] the policy object if found
  def get_policy(policy_arn)
    response = @iam_client.get_policy(policy_arn: policy_arn)
    policy = response.policy
    @logger.info("Got policy '#{policy.policy_name}'. Its ID is: #{policy.policy_id}.")
    policy
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Couldn't get policy '#{policy_arn}'. The policy does not exist.")
    raise
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't get policy '#{policy_arn}'. Here's why: #{e.code}: #{e.message}")
    raise
  end

  # Attaches a policy to a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def attach_policy_to_role(role_name, policy_arn)
    @iam_client.attach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error attaching policy to role: #{e.message}")
    false
  end

  # Lists policy ARNs attached to a role
  #
  # @param role_name [String] The name of the role
  # @return [Array<String>] List of policy ARNs
  def list_attached_policy_arns(role_name)
    response = @iam_client.list_attached_role_policies(role_name: role_name)
    response.attached_policies.map(&:policy_arn)
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing policies attached to role: #{e.message}")
    []
  end

  # Detaches a policy from a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def detach_policy_from_role(role_name, policy_arn)
    @iam_client.detach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error detaching policy from role: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListAttachedRolePolicies)di *Referensi AWS SDK untuk Ruby API*. 

### `ListGroups`
<a name="iam_ListGroups_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
# A class to manage IAM operations via the AWS SDK client
class IamGroupManager
  # Initializes the IamGroupManager class
  # @param iam_client [Aws::IAM::Client] An instance of the IAM client
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
  end

  # Lists up to a specified number of groups for the account.
  # @param count [Integer] The maximum number of groups to list.
  # @return [Aws::IAM::Client::Response]
  def list_groups(count)
    response = @iam_client.list_groups(max_items: count)
    response.groups.each do |group|
      @logger.info("\t#{group.group_name}")
    end
    response
  rescue Aws::Errors::ServiceError => e
    @logger.error("Couldn't list groups for the account. Here's why:")
    @logger.error("\t#{e.code}: #{e.message}")
    raise
  end
end
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListGroups)di *Referensi AWS SDK untuk Ruby API*. 

### `ListPolicies`
<a name="iam_ListPolicies_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Modul contoh ini mencantumkan, membuat, melampirkan, dan melepaskan kebijakan peran.  

```
# Manages policies in AWS Identity and Access Management (IAM)
class RolePolicyManager
  # Initialize with an AWS IAM client
  #
  # @param iam_client [Aws::IAM::Client] An initialized IAM client
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'PolicyManager'
  end

  # Creates a policy
  #
  # @param policy_name [String] The name of the policy
  # @param policy_document [Hash] The policy document
  # @return [String] The policy ARN if successful, otherwise nil
  def create_policy(policy_name, policy_document)
    response = @iam_client.create_policy(
      policy_name: policy_name,
      policy_document: policy_document.to_json
    )
    response.policy.arn
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error creating policy: #{e.message}")
    nil
  end

  # Fetches an IAM policy by its ARN
  # @param policy_arn [String] the ARN of the IAM policy to retrieve
  # @return [Aws::IAM::Types::GetPolicyResponse] the policy object if found
  def get_policy(policy_arn)
    response = @iam_client.get_policy(policy_arn: policy_arn)
    policy = response.policy
    @logger.info("Got policy '#{policy.policy_name}'. Its ID is: #{policy.policy_id}.")
    policy
  rescue Aws::IAM::Errors::NoSuchEntity
    @logger.error("Couldn't get policy '#{policy_arn}'. The policy does not exist.")
    raise
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't get policy '#{policy_arn}'. Here's why: #{e.code}: #{e.message}")
    raise
  end

  # Attaches a policy to a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def attach_policy_to_role(role_name, policy_arn)
    @iam_client.attach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error attaching policy to role: #{e.message}")
    false
  end

  # Lists policy ARNs attached to a role
  #
  # @param role_name [String] The name of the role
  # @return [Array<String>] List of policy ARNs
  def list_attached_policy_arns(role_name)
    response = @iam_client.list_attached_role_policies(role_name: role_name)
    response.attached_policies.map(&:policy_arn)
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing policies attached to role: #{e.message}")
    []
  end

  # Detaches a policy from a role
  #
  # @param role_name [String] The name of the role
  # @param policy_arn [String] The policy ARN
  # @return [Boolean] true if successful, false otherwise
  def detach_policy_from_role(role_name, policy_arn)
    @iam_client.detach_role_policy(
      role_name: role_name,
      policy_arn: policy_arn
    )
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error detaching policy from role: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListPolicies)di *Referensi AWS SDK untuk Ruby API*. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Lists policy ARNs attached to a role
  #
  # @param role_name [String] The name of the role
  # @return [Array<String>] List of policy ARNs
  def list_attached_policy_arns(role_name)
    response = @iam_client.list_attached_role_policies(role_name: role_name)
    response.attached_policies.map(&:policy_arn)
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing policies attached to role: #{e.message}")
    []
  end
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListRolePolicies)di *Referensi AWS SDK untuk Ruby API*. 

### `ListRoles`
<a name="iam_ListRoles_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Lists IAM roles up to a specified count.
  # @param count [Integer] the maximum number of roles to list.
  # @return [Array<String>] the names of the roles.
  def list_roles(count)
    role_names = []
    roles_counted = 0

    @iam_client.list_roles.each_page do |page|
      page.roles.each do |role|
        break if roles_counted >= count

        @logger.info("\t#{roles_counted + 1}: #{role.role_name}")
        role_names << role.role_name
        roles_counted += 1
      end
      break if roles_counted >= count
    end

    role_names
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't list roles for the account. Here's why:")
    @logger.error("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [ListRoles](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListRoles)di *Referensi AWS SDK untuk Ruby API*. 

### `ListSAMLProviders`
<a name="iam_ListSAMLProviders_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSAMLProviders`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
class SamlProviderLister
  # Initializes the SamlProviderLister with IAM client and a logger.
  # @param iam_client [Aws::IAM::Client] The IAM client object.
  # @param logger [Logger] The logger object for logging output.
  def initialize(iam_client, logger = Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
  end

  # Lists up to a specified number of SAML providers for the account.
  # @param count [Integer] The maximum number of providers to list.
  # @return [Aws::IAM::Client::Response]
  def list_saml_providers(count)
    response = @iam_client.list_saml_providers
    response.saml_provider_list.take(count).each do |provider|
      @logger.info("\t#{provider.arn}")
    end
    response
  rescue Aws::Errors::ServiceError => e
    @logger.error("Couldn't list SAML providers. Here's why:")
    @logger.error("\t#{e.code}: #{e.message}")
    raise
  end
end
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListSAMLProviders) di *Referensi AWS SDK untuk Ruby API*. 

### `ListServerCertificates`
<a name="iam_ListServerCertificates_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListServerCertificates`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Daftar, perbarui, dan hapus sertifikat server.  

```
class ServerCertificateManager
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'ServerCertificateManager'
  end

  # Creates a new server certificate.
  # @param name [String] the name of the server certificate
  # @param certificate_body [String] the contents of the certificate
  # @param private_key [String] the private key contents
  # @return [Boolean] returns true if the certificate was successfully created
  def create_server_certificate(name, certificate_body, private_key)
    @iam_client.upload_server_certificate({
                                            server_certificate_name: name,
                                            certificate_body: certificate_body,
                                            private_key: private_key
                                          })
    true
  rescue Aws::IAM::Errors::ServiceError => e
    puts "Failed to create server certificate: #{e.message}"
    false
  end

  # Lists available server certificate names.
  def list_server_certificate_names
    response = @iam_client.list_server_certificates

    if response.server_certificate_metadata_list.empty?
      @logger.info('No server certificates found.')
      return
    end

    response.server_certificate_metadata_list.each do |certificate_metadata|
      @logger.info("Certificate Name: #{certificate_metadata.server_certificate_name}")
    end
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing server certificates: #{e.message}")
  end

  # Updates the name of a server certificate.
  def update_server_certificate_name(current_name, new_name)
    @iam_client.update_server_certificate(
      server_certificate_name: current_name,
      new_server_certificate_name: new_name
    )
    @logger.info("Server certificate name updated from '#{current_name}' to '#{new_name}'.")
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error updating server certificate name: #{e.message}")
    false
  end

  # Deletes a server certificate.
  def delete_server_certificate(name)
    @iam_client.delete_server_certificate(server_certificate_name: name)
    @logger.info("Server certificate '#{name}' deleted.")
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting server certificate: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [ListServerCertificates](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListServerCertificates)di *Referensi AWS SDK untuk Ruby API*. 

### `ListUsers`
<a name="iam_ListUsers_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Lists all users in the AWS account
  #
  # @return [Array<Aws::IAM::Types::User>] An array of user objects
  def list_users
    users = []
    @iam_client.list_users.each_page do |page|
      page.users.each do |user|
        users << user
      end
    end
    users
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing users: #{e.message}")
    []
  end
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/ListUsers)di *Referensi AWS SDK untuk Ruby API*. 

### `PutUserPolicy`
<a name="iam_PutUserPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutUserPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Creates an inline policy for a specified user.
  # @param username [String] The name of the IAM user.
  # @param policy_name [String] The name of the policy to create.
  # @param policy_document [String] The JSON policy document.
  # @return [Boolean]
  def create_user_policy(username, policy_name, policy_document)
    @iam_client.put_user_policy({
                                  user_name: username,
                                  policy_name: policy_name,
                                  policy_document: policy_document
                                })
    @logger.info("Policy #{policy_name} created for user #{username}.")
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Couldn't create policy #{policy_name} for user #{username}. Here's why:")
    @logger.error("\t#{e.code}: #{e.message}")
    false
  end
```
+  Untuk detail API, lihat [PutUserPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/PutUserPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `UpdateServerCertificate`
<a name="iam_UpdateServerCertificate_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateServerCertificate`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 
Daftar, perbarui, dan hapus sertifikat server.  

```
class ServerCertificateManager
  def initialize(iam_client, logger: Logger.new($stdout))
    @iam_client = iam_client
    @logger = logger
    @logger.progname = 'ServerCertificateManager'
  end

  # Creates a new server certificate.
  # @param name [String] the name of the server certificate
  # @param certificate_body [String] the contents of the certificate
  # @param private_key [String] the private key contents
  # @return [Boolean] returns true if the certificate was successfully created
  def create_server_certificate(name, certificate_body, private_key)
    @iam_client.upload_server_certificate({
                                            server_certificate_name: name,
                                            certificate_body: certificate_body,
                                            private_key: private_key
                                          })
    true
  rescue Aws::IAM::Errors::ServiceError => e
    puts "Failed to create server certificate: #{e.message}"
    false
  end

  # Lists available server certificate names.
  def list_server_certificate_names
    response = @iam_client.list_server_certificates

    if response.server_certificate_metadata_list.empty?
      @logger.info('No server certificates found.')
      return
    end

    response.server_certificate_metadata_list.each do |certificate_metadata|
      @logger.info("Certificate Name: #{certificate_metadata.server_certificate_name}")
    end
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error listing server certificates: #{e.message}")
  end

  # Updates the name of a server certificate.
  def update_server_certificate_name(current_name, new_name)
    @iam_client.update_server_certificate(
      server_certificate_name: current_name,
      new_server_certificate_name: new_name
    )
    @logger.info("Server certificate name updated from '#{current_name}' to '#{new_name}'.")
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error updating server certificate name: #{e.message}")
    false
  end

  # Deletes a server certificate.
  def delete_server_certificate(name)
    @iam_client.delete_server_certificate(server_certificate_name: name)
    @logger.info("Server certificate '#{name}' deleted.")
    true
  rescue Aws::IAM::Errors::ServiceError => e
    @logger.error("Error deleting server certificate: #{e.message}")
    false
  end
end
```
+  Untuk detail API, lihat [UpdateServerCertificate](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/UpdateServerCertificate)di *Referensi AWS SDK untuk Ruby API*. 

### `UpdateUser`
<a name="iam_UpdateUser_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUser`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Updates an IAM user's name
  #
  # @param current_name [String] The current name of the user
  # @param new_name [String] The new name of the user
  def update_user_name(current_name, new_name)
    @iam_client.update_user(user_name: current_name, new_user_name: new_name)
    true
  rescue StandardError => e
    @logger.error("Error updating user name from '#{current_name}' to '#{new_name}': #{e.message}")
    false
  end
```
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/goto/SdkForRubyV3/iam-2010-05-08/UpdateUser)di *Referensi AWS SDK untuk Ruby API*. 

# Contoh Kinesis menggunakan SDK for Ruby
<a name="ruby_3_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby Kinesis with.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
require 'aws-sdk'

def lambda_handler(event:, context:)
  event['Records'].each do |record|
    begin
      puts "Processed Kinesis Event - EventID: #{record['eventID']}"
      record_data = get_record_data_async(record['kinesis'])
      puts "Record Data: #{record_data}"
      # TODO: Do interesting work based on the new data
    rescue => err
      $stderr.puts "An error occurred #{err}"
      raise err
    end
  end
  puts "Successfully processed #{event['Records'].length} records."
end

def get_record_data_async(payload)
  data = Base64.decode64(payload['data']).force_encoding('UTF-8')
  # Placeholder for actual async work
  # You can use Ruby's asynchronous programming tools like async/await or fibers here.
  return data
end
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
require 'aws-sdk'

def lambda_handler(event:, context:)
  batch_item_failures = []

  event['Records'].each do |record|
    begin
      puts "Processed Kinesis Event - EventID: #{record['eventID']}"
      record_data = get_record_data_async(record['kinesis'])
      puts "Record Data: #{record_data}"
      # TODO: Do interesting work based on the new data
    rescue StandardError => err
      puts "An error occurred #{err}"
      # Since we are working with streams, we can return the failed item immediately.
      # Lambda will immediately begin to retry processing from this failed item onwards.
      return { batchItemFailures: [{ itemIdentifier: record['kinesis']['sequenceNumber'] }] }
    end
  end

  puts "Successfully processed #{event['Records'].length} records."
  { batchItemFailures: batch_item_failures }
end

def get_record_data_async(payload)
  data = Base64.decode64(payload['data']).force_encoding('utf-8')
  # Placeholder for actual async work
  sleep(1)
  data
end
```

# AWS KMS contoh menggunakan SDK for Ruby
<a name="ruby_3_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with AWS KMS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateKey`
<a name="kms_CreateKey_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/kms#code-examples). 

```
require 'aws-sdk-kms' # v2: require 'aws-sdk'

# Create a AWS KMS key.
# As long we are only encrypting small amounts of data (4 KiB or less) directly,
# a KMS key is fine for our purposes.
# For larger amounts of data,
# use the KMS key to encrypt a data encryption key (DEK).

client = Aws::KMS::Client.new

resp = client.create_key({
                           tags: [
                             {
                               tag_key: 'CreatedBy',
                               tag_value: 'ExampleUser'
                             }
                           ]
                         })

puts resp.key_metadata.key_id
```
+  Untuk detail API, lihat [CreateKey](https://docs.aws.amazon.com/goto/SdkForRubyV3/kms-2014-11-01/CreateKey)di *Referensi AWS SDK untuk Ruby API*. 

### `Decrypt`
<a name="kms_Decrypt_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Decrypt`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/kms#code-examples). 

```
require 'aws-sdk-kms' # v2: require 'aws-sdk'

# Decrypted blob

blob = '01020200785d68faeec386af1057904926253051eb2919d3c16078badf65b808b26dd057c101747cadf3593596e093d4ffbf22434a6d00000068306606092a864886f70d010706a0593057020100305206092a864886f70d010701301e060960864801650304012e3011040c9d629e573683972cdb7d94b30201108025b20b060591b02ca0deb0fbdfc2f86c8bfcb265947739851ad56f3adce91eba87c59691a9a1'
blob_packed = [blob].pack('H*')

client = Aws::KMS::Client.new(region: 'us-west-2')

resp = client.decrypt({
                        ciphertext_blob: blob_packed
                      })

puts 'Raw text: '
puts resp.plaintext
```
+  Untuk detail API, lihat [Mendekripsi](https://docs.aws.amazon.com/goto/SdkForRubyV3/kms-2014-11-01/Decrypt) di Referensi *AWS SDK untuk Ruby API*. 

### `Encrypt`
<a name="kms_Encrypt_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Encrypt`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/kms#code-examples). 

```
require 'aws-sdk-kms' # v2: require 'aws-sdk'

# ARN of the AWS KMS key.
#
# Replace the fictitious key ARN with a valid key ID

keyId = 'arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab'

text = '1234567890'

client = Aws::KMS::Client.new(region: 'us-west-2')

resp = client.encrypt({
                        key_id: keyId,
                        plaintext: text
                      })

# Display a readable version of the resulting encrypted blob.
puts 'Blob:'
puts resp.ciphertext_blob.unpack('H*')
```
+  Untuk detail API, lihat [Enkripsi](https://docs.aws.amazon.com/goto/SdkForRubyV3/kms-2014-11-01/Encrypt) di *Referensi AWS SDK untuk Ruby API*. 

### `ReEncrypt`
<a name="kms_ReEncrypt_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReEncrypt`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/kms#code-examples). 

```
require 'aws-sdk-kms' # v2: require 'aws-sdk'

# Human-readable version of the ciphertext of the data to reencrypt.

blob = '01020200785d68faeec386af1057904926253051eb2919d3c16078badf65b808b26dd057c101747cadf3593596e093d4ffbf22434a6d00000068306606092a864886f70d010706a0593057020100305206092a864886f70d010701301e060960864801650304012e3011040c9d629e573683972cdb7d94b30201108025b20b060591b02ca0deb0fbdfc2f86c8bfcb265947739851ad56f3adce91eba87c59691a9a1'
sourceCiphertextBlob = [blob].pack('H*')

# Replace the fictitious key ARN with a valid key ID

destinationKeyId = 'arn:aws:kms:us-west-2:111122223333:key/0987dcba-09fe-87dc-65ba-ab0987654321'

client = Aws::KMS::Client.new(region: 'us-west-2')

resp = client.re_encrypt({
                           ciphertext_blob: sourceCiphertextBlob,
                           destination_key_id: destinationKeyId
                         })

# Display a readable version of the resulting re-encrypted blob.
puts 'Blob:'
puts resp.ciphertext_blob.unpack('H*')
```
+  Untuk detail API, lihat [ReEncrypt](https://docs.aws.amazon.com/goto/SdkForRubyV3/kms-2014-11-01/ReEncrypt)di *Referensi AWS SDK untuk Ruby API*. 

# Contoh Lambda menggunakan SDK for Ruby
<a name="ruby_3_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan Lambda AWS SDK untuk Ruby with.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Lambda
<a name="lambda_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Lambda.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 

```
require 'aws-sdk-lambda'

# Creates an AWS Lambda client using the default credentials and configuration
def lambda_client
  Aws::Lambda::Client.new
end

# Lists the Lambda functions in your AWS account, paginating the results if necessary
def list_lambda_functions
  lambda = lambda_client

  # Use a pagination iterator to list all functions
  functions = []
  lambda.list_functions.each_page do |page|
    functions.concat(page.functions)
  end

  # Print the name and ARN of each function
  functions.each do |function|
    puts "Function name: #{function.function_name}"
    puts "Function ARN: #{function.function_arn}"
    puts
  end

  puts "Total functions: #{functions.count}"
end

list_lambda_functions if __FILE__ == $PROGRAM_NAME
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/ListFunctions)di *Referensi AWS SDK untuk Ruby API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_ruby_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 
Siapkan izin IAM prasyarat untuk fungsi Lambda yang mampu menulis log.  

```
  # Get an AWS Identity and Access Management (IAM) role.
  #
  # @param iam_role_name: The name of the role to retrieve.
  # @param action: Whether to create or destroy the IAM apparatus.
  # @return: The IAM role.
  def manage_iam(iam_role_name, action)
    case action
    when 'create'
      create_iam_role(iam_role_name)
    when 'destroy'
      destroy_iam_role(iam_role_name)
    else
      raise "Incorrect action provided. Must provide 'create' or 'destroy'"
    end
  end

  private

  def create_iam_role(iam_role_name)
    role_policy = {
      'Version': '2012-10-17',
      'Statement': [
        {
          'Effect': 'Allow',
          'Principal': { 'Service': 'lambda.amazonaws.com' },
          'Action': 'sts:AssumeRole'
        }
      ]
    }
    role = @iam_client.create_role(
      role_name: iam_role_name,
      assume_role_policy_document: role_policy.to_json
    )
    @iam_client.attach_role_policy(
      {
        policy_arn: 'arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole',
        role_name: iam_role_name
      }
    )
    wait_for_role_to_exist(iam_role_name)
    @logger.debug("Successfully created IAM role: #{role['role']['arn']}")
    sleep(10)
    [role, role_policy.to_json]
  end

  def destroy_iam_role(iam_role_name)
    @iam_client.detach_role_policy(
      {
        policy_arn: 'arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole',
        role_name: iam_role_name
      }
    )
    @iam_client.delete_role(role_name: iam_role_name)
    @logger.debug("Detached policy & deleted IAM role: #{iam_role_name}")
  end

  def wait_for_role_to_exist(iam_role_name)
    @iam_client.wait_until(:role_exists, { role_name: iam_role_name }) do |w|
      w.max_attempts = 5
      w.delay = 5
    end
  end
```
Tentukan handler Lambda yang menambah angka yang disediakan sebagai parameter pemanggilan.  

```
require 'logger'

# A function that increments a whole number by one (1) and logs the result.
# Requires a manually-provided runtime parameter, 'number', which must be Int
#
# @param event [Hash] Parameters sent when the function is invoked
# @param context [Hash] Methods and properties that provide information
# about the invocation, function, and execution environment.
# @return incremented_number [String] The incremented number.
def lambda_handler(event:, context:)
  logger = Logger.new($stdout)
  log_level = ENV['LOG_LEVEL']
  logger.level = case log_level
                 when 'debug'
                   Logger::DEBUG
                 when 'info'
                   Logger::INFO
                 else
                   Logger::ERROR
                 end
  logger.debug('This is a debug log message.')
  logger.info('This is an info log message. Code executed successfully!')
  number = event['number'].to_i
  incremented_number = number + 1
  logger.info("You provided #{number.round} and it was incremented to #{incremented_number.round}")
  incremented_number.round.to_s
end
```
Zip fungsi Lambda Anda ke dalam paket penerapan.  

```
  # Creates a Lambda deployment package in .zip format.
  #
  # @param source_file: The name of the object, without suffix, for the Lambda file and zip.
  # @return: The deployment package.
  def create_deployment_package(source_file)
    Dir.chdir(File.dirname(__FILE__))
    if File.exist?('lambda_function.zip')
      File.delete('lambda_function.zip')
      @logger.debug('Deleting old zip: lambda_function.zip')
    end
    Zip::File.open('lambda_function.zip', create: true) do |zipfile|
      zipfile.add('lambda_function.rb', "#{source_file}.rb")
    end
    @logger.debug("Zipping #{source_file}.rb into: lambda_function.zip.")
    File.read('lambda_function.zip').to_s
  rescue StandardError => e
    @logger.error("There was an error creating deployment package:\n #{e.message}")
  end
```
Buat fungsi Lambda baru.  

```
  # Deploys a Lambda function.
  #
  # @param function_name: The name of the Lambda function.
  # @param handler_name: The fully qualified name of the handler function.
  # @param role_arn: The IAM role to use for the function.
  # @param deployment_package: The deployment package that contains the function code in .zip format.
  # @return: The Amazon Resource Name (ARN) of the newly created function.
  def create_function(function_name, handler_name, role_arn, deployment_package)
    response = @lambda_client.create_function({
                                                role: role_arn.to_s,
                                                function_name: function_name,
                                                handler: handler_name,
                                                runtime: 'ruby2.7',
                                                code: {
                                                  zip_file: deployment_package
                                                },
                                                environment: {
                                                  variables: {
                                                    'LOG_LEVEL' => 'info'
                                                  }
                                                }
                                              })
    @lambda_client.wait_until(:function_active_v2, { function_name: function_name }) do |w|
      w.max_attempts = 5
      w.delay = 5
    end
    response
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error creating #{function_name}:\n #{e.message}")
  rescue Aws::Waiters::Errors::WaiterFailed => e
    @logger.error("Failed waiting for #{function_name} to activate:\n #{e.message}")
  end
```
Panggil fungsi Lambda Anda dengan parameter runtime opsional.  

```
  # Invokes a Lambda function.
  # @param function_name [String] The name of the function to invoke.
  # @param payload [nil] Payload containing runtime parameters.
  # @return [Object] The response from the function invocation.
  def invoke_function(function_name, payload = nil)
    params = { function_name: function_name }
    params[:payload] = payload unless payload.nil?
    @lambda_client.invoke(params)
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error executing #{function_name}:\n #{e.message}")
  end
```
Perbarui konfigurasi fungsi Lambda Anda untuk menyuntikkan variabel lingkungan baru.  

```
  # Updates the environment variables for a Lambda function.
  # @param function_name: The name of the function to update.
  # @param log_level: The log level of the function.
  # @return: Data about the update, including the status.
  def update_function_configuration(function_name, log_level)
    @lambda_client.update_function_configuration({
                                                   function_name: function_name,
                                                   environment: {
                                                     variables: {
                                                       'LOG_LEVEL' => log_level
                                                     }
                                                   }
                                                 })
    @lambda_client.wait_until(:function_updated_v2, { function_name: function_name }) do |w|
      w.max_attempts = 5
      w.delay = 5
    end
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error updating configurations for #{function_name}:\n #{e.message}")
  rescue Aws::Waiters::Errors::WaiterFailed => e
    @logger.error("Failed waiting for #{function_name} to activate:\n #{e.message}")
  end
```
Perbarui kode fungsi Lambda Anda dengan paket penerapan berbeda yang berisi kode berbeda.  

```
  # Updates the code for a Lambda function by submitting a .zip archive that contains
  # the code for the function.
  #
  # @param function_name: The name of the function to update.
  # @param deployment_package: The function code to update, packaged as bytes in
  #                            .zip format.
  # @return: Data about the update, including the status.
  def update_function_code(function_name, deployment_package)
    @lambda_client.update_function_code(
      function_name: function_name,
      zip_file: deployment_package
    )
    @lambda_client.wait_until(:function_updated_v2, { function_name: function_name }) do |w|
      w.max_attempts = 5
      w.delay = 5
    end
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error updating function code for: #{function_name}:\n #{e.message}")
    nil
  rescue Aws::Waiters::Errors::WaiterFailed => e
    @logger.error("Failed waiting for #{function_name} to update:\n #{e.message}")
  end
```
Daftar semua fungsi Lambda yang ada menggunakan paginator bawaan.  

```
  # Lists the Lambda functions for the current account.
  def list_functions
    functions = []
    @lambda_client.list_functions.each do |response|
      response['functions'].each do |function|
        functions.append(function['function_name'])
      end
    end
    functions
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error listing functions:\n #{e.message}")
  end
```
Hapus fungsi Lambda tertentu.  

```
  # Deletes a Lambda function.
  # @param function_name: The name of the function to delete.
  def delete_function(function_name)
    print "Deleting function: #{function_name}..."
    @lambda_client.delete_function(
      function_name: function_name
    )
    print 'Done!'.green
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error deleting #{function_name}:\n #{e.message}")
  end
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Ruby *.
  + [CreateFunction](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/CreateFunction)
  + [DeleteFunction](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/DeleteFunction)
  + [GetFunction](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/GetFunction)
  + [Memohon](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/Invoke)
  + [ListFunctions](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/ListFunctions)
  + [UpdateFunctionCode](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/UpdateFunctionCode)
  + [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/UpdateFunctionConfiguration)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 

```
class LambdaWrapper
  attr_accessor :lambda_client, :cloudwatch_client, :iam_client

  def initialize
    @lambda_client = Aws::Lambda::Client.new
    @cloudwatch_client = Aws::CloudWatchLogs::Client.new(region: 'us-east-1')
    @iam_client = Aws::IAM::Client.new(region: 'us-east-1')
    @logger = Logger.new($stdout)
    @logger.level = Logger::WARN
  end

  # Deploys a Lambda function.
  #
  # @param function_name: The name of the Lambda function.
  # @param handler_name: The fully qualified name of the handler function.
  # @param role_arn: The IAM role to use for the function.
  # @param deployment_package: The deployment package that contains the function code in .zip format.
  # @return: The Amazon Resource Name (ARN) of the newly created function.
  def create_function(function_name, handler_name, role_arn, deployment_package)
    response = @lambda_client.create_function({
                                                role: role_arn.to_s,
                                                function_name: function_name,
                                                handler: handler_name,
                                                runtime: 'ruby2.7',
                                                code: {
                                                  zip_file: deployment_package
                                                },
                                                environment: {
                                                  variables: {
                                                    'LOG_LEVEL' => 'info'
                                                  }
                                                }
                                              })
    @lambda_client.wait_until(:function_active_v2, { function_name: function_name }) do |w|
      w.max_attempts = 5
      w.delay = 5
    end
    response
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error creating #{function_name}:\n #{e.message}")
  rescue Aws::Waiters::Errors::WaiterFailed => e
    @logger.error("Failed waiting for #{function_name} to activate:\n #{e.message}")
  end
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/CreateFunction)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 

```
class LambdaWrapper
  attr_accessor :lambda_client, :cloudwatch_client, :iam_client

  def initialize
    @lambda_client = Aws::Lambda::Client.new
    @cloudwatch_client = Aws::CloudWatchLogs::Client.new(region: 'us-east-1')
    @iam_client = Aws::IAM::Client.new(region: 'us-east-1')
    @logger = Logger.new($stdout)
    @logger.level = Logger::WARN
  end

  # Deletes a Lambda function.
  # @param function_name: The name of the function to delete.
  def delete_function(function_name)
    print "Deleting function: #{function_name}..."
    @lambda_client.delete_function(
      function_name: function_name
    )
    print 'Done!'.green
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error deleting #{function_name}:\n #{e.message}")
  end
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/DeleteFunction)di *Referensi AWS SDK untuk Ruby API*. 

### `GetFunction`
<a name="lambda_GetFunction_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 

```
class LambdaWrapper
  attr_accessor :lambda_client, :cloudwatch_client, :iam_client

  def initialize
    @lambda_client = Aws::Lambda::Client.new
    @cloudwatch_client = Aws::CloudWatchLogs::Client.new(region: 'us-east-1')
    @iam_client = Aws::IAM::Client.new(region: 'us-east-1')
    @logger = Logger.new($stdout)
    @logger.level = Logger::WARN
  end

  # Gets data about a Lambda function.
  #
  # @param function_name: The name of the function.
  # @return response: The function data, or nil if no such function exists.
  def get_function(function_name)
    @lambda_client.get_function(
      {
        function_name: function_name
      }
    )
  rescue Aws::Lambda::Errors::ResourceNotFoundException => e
    @logger.debug("Could not find function: #{function_name}:\n #{e.message}")
    nil
  end
```
+  Untuk detail API, lihat [GetFunction](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/GetFunction)di *Referensi AWS SDK untuk Ruby API*. 

### `Invoke`
<a name="lambda_Invoke_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 

```
class LambdaWrapper
  attr_accessor :lambda_client, :cloudwatch_client, :iam_client

  def initialize
    @lambda_client = Aws::Lambda::Client.new
    @cloudwatch_client = Aws::CloudWatchLogs::Client.new(region: 'us-east-1')
    @iam_client = Aws::IAM::Client.new(region: 'us-east-1')
    @logger = Logger.new($stdout)
    @logger.level = Logger::WARN
  end

  # Invokes a Lambda function.
  # @param function_name [String] The name of the function to invoke.
  # @param payload [nil] Payload containing runtime parameters.
  # @return [Object] The response from the function invocation.
  def invoke_function(function_name, payload = nil)
    params = { function_name: function_name }
    params[:payload] = payload unless payload.nil?
    @lambda_client.invoke(params)
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error executing #{function_name}:\n #{e.message}")
  end
```
+  Untuk detail API, lihat [Memanggil di Referensi AWS SDK untuk Ruby](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/Invoke) *API*. 

### `ListFunctions`
<a name="lambda_ListFunctions_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 

```
class LambdaWrapper
  attr_accessor :lambda_client, :cloudwatch_client, :iam_client

  def initialize
    @lambda_client = Aws::Lambda::Client.new
    @cloudwatch_client = Aws::CloudWatchLogs::Client.new(region: 'us-east-1')
    @iam_client = Aws::IAM::Client.new(region: 'us-east-1')
    @logger = Logger.new($stdout)
    @logger.level = Logger::WARN
  end

  # Lists the Lambda functions for the current account.
  def list_functions
    functions = []
    @lambda_client.list_functions.each do |response|
      response['functions'].each do |function|
        functions.append(function['function_name'])
      end
    end
    functions
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error listing functions:\n #{e.message}")
  end
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/ListFunctions)di *Referensi AWS SDK untuk Ruby API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 

```
class LambdaWrapper
  attr_accessor :lambda_client, :cloudwatch_client, :iam_client

  def initialize
    @lambda_client = Aws::Lambda::Client.new
    @cloudwatch_client = Aws::CloudWatchLogs::Client.new(region: 'us-east-1')
    @iam_client = Aws::IAM::Client.new(region: 'us-east-1')
    @logger = Logger.new($stdout)
    @logger.level = Logger::WARN
  end

  # Updates the code for a Lambda function by submitting a .zip archive that contains
  # the code for the function.
  #
  # @param function_name: The name of the function to update.
  # @param deployment_package: The function code to update, packaged as bytes in
  #                            .zip format.
  # @return: Data about the update, including the status.
  def update_function_code(function_name, deployment_package)
    @lambda_client.update_function_code(
      function_name: function_name,
      zip_file: deployment_package
    )
    @lambda_client.wait_until(:function_updated_v2, { function_name: function_name }) do |w|
      w.max_attempts = 5
      w.delay = 5
    end
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error updating function code for: #{function_name}:\n #{e.message}")
    nil
  rescue Aws::Waiters::Errors::WaiterFailed => e
    @logger.error("Failed waiting for #{function_name} to update:\n #{e.message}")
  end
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/UpdateFunctionCode)di *Referensi AWS SDK untuk Ruby API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/lambda#code-examples). 

```
class LambdaWrapper
  attr_accessor :lambda_client, :cloudwatch_client, :iam_client

  def initialize
    @lambda_client = Aws::Lambda::Client.new
    @cloudwatch_client = Aws::CloudWatchLogs::Client.new(region: 'us-east-1')
    @iam_client = Aws::IAM::Client.new(region: 'us-east-1')
    @logger = Logger.new($stdout)
    @logger.level = Logger::WARN
  end

  # Updates the environment variables for a Lambda function.
  # @param function_name: The name of the function to update.
  # @param log_level: The log level of the function.
  # @return: Data about the update, including the status.
  def update_function_configuration(function_name, log_level)
    @lambda_client.update_function_configuration({
                                                   function_name: function_name,
                                                   environment: {
                                                     variables: {
                                                       'LOG_LEVEL' => log_level
                                                     }
                                                   }
                                                 })
    @lambda_client.wait_until(:function_updated_v2, { function_name: function_name }) do |w|
      w.max_attempts = 5
      w.delay = 5
    end
  rescue Aws::Lambda::Errors::ServiceException => e
    @logger.error("There was an error updating configurations for #{function_name}:\n #{e.message}")
  rescue Aws::Waiters::Errors::WaiterFailed => e
    @logger.error("Failed waiting for #{function_name} to activate:\n #{e.message}")
  end
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/goto/SdkForRubyV3/lambda-2015-03-31/UpdateFunctionConfiguration)di *Referensi AWS SDK untuk Ruby API*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Ruby**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/cross_service_examples/feedback_sentiment_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Ruby.  

```
# Ruby code here.

require 'aws-sdk-rds'
require 'json'
require 'mysql2'

def lambda_handler(event:, context:)
  endpoint = ENV['DBEndpoint'] # Add the endpoint without https"
  port = ENV['Port']           # 3306
  user = ENV['DBUser']
  region = ENV['DBRegion']     # 'us-east-1'
  db_name = ENV['DBName']

  credentials = Aws::Credentials.new(
    ENV['AWS_ACCESS_KEY_ID'],
    ENV['AWS_SECRET_ACCESS_KEY'],
    ENV['AWS_SESSION_TOKEN']
  )
  rds_client = Aws::RDS::AuthTokenGenerator.new(
    region: region, 
    credentials: credentials
  )

  token = rds_client.auth_token(
    endpoint: endpoint+ ':' + port,
    user_name: user,
    region: region
  )

  begin
    conn = Mysql2::Client.new(
      host: endpoint,
      username: user,
      password: token,
      port: port,
      database: db_name,
      sslca: '/var/task/global-bundle.pem', 
      sslverify: true,
      enable_cleartext_plugin: true
    )
    a = 3
    b = 2
    result = conn.query("SELECT #{a} + #{b} AS sum").first['sum']
    puts result
    conn.close
    {
      statusCode: 200,
      body: result.to_json
    }
  rescue => e
    puts "Database connection failed due to #{e}"
  end
end
```

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
require 'aws-sdk'

def lambda_handler(event:, context:)
  event['Records'].each do |record|
    begin
      puts "Processed Kinesis Event - EventID: #{record['eventID']}"
      record_data = get_record_data_async(record['kinesis'])
      puts "Record Data: #{record_data}"
      # TODO: Do interesting work based on the new data
    rescue => err
      $stderr.puts "An error occurred #{err}"
      raise err
    end
  end
  puts "Successfully processed #{event['Records'].length} records."
end

def get_record_data_async(payload)
  data = Base64.decode64(payload['data']).force_encoding('UTF-8')
  # Placeholder for actual async work
  # You can use Ruby's asynchronous programming tools like async/await or fibers here.
  return data
end
```

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Ruby.  

```
def lambda_handler(event:, context:)
    return 'received empty event' if event['Records'].empty?
  
    event['Records'].each do |record|
      log_dynamodb_record(record)
    end
  
    "Records processed: #{event['Records'].length}"
  end
  
  def log_dynamodb_record(record)
    puts record['eventID']
    puts record['eventName']
    puts "DynamoDB Record: #{JSON.generate(record['dynamodb'])}"
  end
```

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Ruby.  

```
require 'json'

def lambda_handler(event:, context:)
  event['events'].each do |record|
    log_document_db_event(record)
  end
  'OK'
end

def log_document_db_event(record)
  event_data = record['event'] || {}
  operation_type = event_data['operationType'] || 'Unknown'
  db = event_data.dig('ns', 'db') || 'Unknown'
  collection = event_data.dig('ns', 'coll') || 'Unknown'
  full_document = event_data['fullDocument'] || {}

  puts "Operation type: #{operation_type}"
  puts "db: #{db}"
  puts "collection: #{collection}"
  puts "Full document: #{JSON.pretty_generate(full_document)}"
end
```

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Ruby.  

```
require 'base64'

def lambda_handler(event:, context:)
  # Iterate through keys
  event['records'].each do |key, records|
    puts "Key: #{key}"

    # Iterate through records
    records.each do |record|
      puts "Record: #{record}"

      # Decode base64
      msg = Base64.decode64(record['value'])
      puts "Message: #{msg}"
    end
  end
end
```

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Mengkonsumsi acara S3 dengan Lambda menggunakan Ruby.  

```
require 'json'
require 'uri'
require 'aws-sdk'

puts 'Loading function'

def lambda_handler(event:, context:)
  s3 = Aws::S3::Client.new(region: 'region') # Your AWS region
  # puts "Received event: #{JSON.dump(event)}"

  # Get the object from the event and show its content type
  bucket = event['Records'][0]['s3']['bucket']['name']
  key = URI.decode_www_form_component(event['Records'][0]['s3']['object']['key'], Encoding::UTF_8)
  begin
    response = s3.get_object(bucket: bucket, key: key)
    puts "CONTENT TYPE: #{response.content_type}"
    return response.content_type
  rescue StandardError => e
    puts e.message
    puts "Error getting object #{key} from bucket #{bucket}. Make sure they exist and your bucket is in the same region as this function."
    raise e
  end
end
```

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def lambda_handler(event:, context:)
  event['Records'].map { |record| process_message(record) }
end

def process_message(record)
  message = record['Sns']['Message']
  puts("Processing message: #{message}")
rescue StandardError => e
  puts("Error processing message: #{e}")
  raise
end
```

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def lambda_handler(event:, context:)
  event['Records'].each do |message|
    process_message(message)
  end
  puts "done"
end

def process_message(message)
  begin
    puts "Processed message #{message['body']}"
    # TODO: Do interesting work based on the new message
  rescue StandardError => err
    puts "An error occurred"
    raise err
  end
end
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
require 'aws-sdk'

def lambda_handler(event:, context:)
  batch_item_failures = []

  event['Records'].each do |record|
    begin
      puts "Processed Kinesis Event - EventID: #{record['eventID']}"
      record_data = get_record_data_async(record['kinesis'])
      puts "Record Data: #{record_data}"
      # TODO: Do interesting work based on the new data
    rescue StandardError => err
      puts "An error occurred #{err}"
      # Since we are working with streams, we can return the failed item immediately.
      # Lambda will immediately begin to retry processing from this failed item onwards.
      return { batchItemFailures: [{ itemIdentifier: record['kinesis']['sequenceNumber'] }] }
    end
  end

  puts "Successfully processed #{event['Records'].length} records."
  { batchItemFailures: batch_item_failures }
end

def get_record_data_async(payload)
  data = Base64.decode64(payload['data']).force_encoding('utf-8')
  # Placeholder for actual async work
  sleep(1)
  data
end
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Ruby.  

```
def lambda_handler(event:, context:)
    records = event["Records"]
    cur_record_sequence_number = ""
  
    records.each do |record|
      begin
        # Process your record
        cur_record_sequence_number = record["dynamodb"]["SequenceNumber"]
      rescue StandardError => e
        # Return failed record's sequence number
        return {"batchItemFailures" => [{"itemIdentifier" => cur_record_sequence_number}]}
      end
    end
  
    {"batchItemFailures" => []}
  end
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
require 'json'

def lambda_handler(event:, context:)
  if event
    batch_item_failures = []
    sqs_batch_response = {}

    event["Records"].each do |record|
      begin
        # process message
      rescue StandardError => e
        batch_item_failures << {"itemIdentifier" => record['messageId']}
      end
    end

    sqs_batch_response["batchItemFailures"] = batch_item_failures
    return sqs_batch_response
  end
end
```

# Contoh MSK Amazon menggunakan SDK for Ruby
<a name="ruby_3_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan MSK AWS SDK untuk Ruby with Amazon.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Ruby.  

```
require 'base64'

def lambda_handler(event:, context:)
  # Iterate through keys
  event['records'].each do |key, records|
    puts "Key: #{key}"

    # Iterate through records
    records.each do |record|
      puts "Record: #{record}"

      # Decode base64
      msg = Base64.decode64(record['value'])
      puts "Message: #{msg}"
    end
  end
end
```

# Contoh Amazon Polly menggunakan SDK for Ruby
<a name="ruby_3_polly_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Polly. AWS SDK untuk Ruby 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DescribeVoices`
<a name="polly_DescribeVoices_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVoices`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/polly#code-examples). 

```
require 'aws-sdk-polly' # In v2: require 'aws-sdk'

begin
  # Create an Amazon Polly client using
  # credentials from the shared credentials file ~/.aws/credentials
  # and the configuration (region) from the shared configuration file ~/.aws/config
  polly = Aws::Polly::Client.new

  # Get US English voices
  resp = polly.describe_voices(language_code: 'en-US')

  resp.voices.each do |v|
    puts v.name
    puts "  #{v.gender}"
    puts
  end
rescue StandardError => e
  puts 'Could not get voices'
  puts 'Error message:'
  puts e.message
end
```
+  Untuk detail API, lihat [DescribeVoices](https://docs.aws.amazon.com/goto/SdkForRubyV3/polly-2016-06-10/DescribeVoices)di *Referensi AWS SDK untuk Ruby API*. 

### `ListLexicons`
<a name="polly_ListLexicons_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLexicons`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/polly#code-examples). 

```
require 'aws-sdk-polly' # In v2: require 'aws-sdk'

begin
  # Create an Amazon Polly client using
  # credentials from the shared credentials file ~/.aws/credentials
  # and the configuration (region) from the shared configuration file ~/.aws/config
  polly = Aws::Polly::Client.new

  resp = polly.list_lexicons

  resp.lexicons.each do |l|
    puts l.name
    puts "  Alphabet:#{l.attributes.alphabet}"
    puts "  Language:#{l.attributes.language}"
    puts
  end
rescue StandardError => e
  puts 'Could not get lexicons'
  puts 'Error message:'
  puts e.message
end
```
+  Untuk detail API, lihat [ListLexicons](https://docs.aws.amazon.com/goto/SdkForRubyV3/polly-2016-06-10/ListLexicons)di *Referensi AWS SDK untuk Ruby API*. 

### `SynthesizeSpeech`
<a name="polly_SynthesizeSpeech_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SynthesizeSpeech`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/polly#code-examples). 

```
require 'aws-sdk-polly' # In v2: require 'aws-sdk'

begin
  # Get the filename from the command line
  if ARGV.empty?
    puts 'You must supply a filename'
    exit 1
  end

  filename = ARGV[0]

  # Open file and get the contents as a string
  if File.exist?(filename)
    contents = IO.read(filename)
  else
    puts "No such file: #{filename}"
    exit 1
  end

  # Create an Amazon Polly client using
  # credentials from the shared credentials file ~/.aws/credentials
  # and the configuration (region) from the shared configuration file ~/.aws/config
  polly = Aws::Polly::Client.new

  resp = polly.synthesize_speech({
                                   output_format: 'mp3',
                                   text: contents,
                                   voice_id: 'Joanna'
                                 })

  # Save output
  # Get just the file name
  #  abc/xyz.txt -> xyx.txt
  name = File.basename(filename)

  # Split up name so we get just the xyz part
  parts = name.split('.')
  first_part = parts[0]
  mp3_file = "#{first_part}.mp3"

  IO.copy_stream(resp.audio_stream, mp3_file)

  puts "Wrote MP3 content to: #{mp3_file}"
rescue StandardError => e
  puts 'Got error:'
  puts 'Error message:'
  puts e.message
end
```
+  Untuk detail API, lihat [SynthesizeSpeech](https://docs.aws.amazon.com/goto/SdkForRubyV3/polly-2016-06-10/SynthesizeSpeech)di *Referensi AWS SDK untuk Ruby API*. 

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Ruby**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/cross_service_examples/feedback_sentiment_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon RDS menggunakan SDK for Ruby
<a name="ruby_3_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan RDS AWS SDK untuk Ruby with Amazon.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon RDS
<a name="rds_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon RDS.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/rds#code-examples). 

```
require 'aws-sdk-rds'
require 'logger'

# RDSManager is a class responsible for managing RDS operations
# such as listing all RDS DB instances in the current AWS account.
class RDSManager
  def initialize(client)
    @client = client
    @logger = Logger.new($stdout)
  end

  # Lists and prints all RDS DB instances in the current AWS account.
  def list_db_instances
    @logger.info('Listing RDS DB instances')

    paginator = @client.describe_db_instances
    instances = []

    paginator.each_page do |page|
      instances.concat(page.db_instances)
    end

    if instances.empty?
      @logger.info('No instances found.')
    else
      @logger.info("Found #{instances.count} instance(s):")
      instances.each do |instance|
        @logger.info(" * #{instance.db_instance_identifier} (#{instance.db_instance_status})")
      end
    end
  end
end

if $PROGRAM_NAME == __FILE__
  rds_client = Aws::RDS::Client.new(region: 'us-west-2')
  manager = RDSManager.new(rds_client)
  manager.list_db_instances
end
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk Ruby API*. 

## Tindakan
<a name="actions"></a>

### `CreateDBSnapshot`
<a name="rds_CreateDBSnapshot_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSnapshot`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/rds#code-examples). 

```
require 'aws-sdk-rds' # v2: require 'aws-sdk'

# Create a snapshot for an Amazon Relational Database Service (Amazon RDS)
# DB instance.
#
# @param rds_resource [Aws::RDS::Resource] The resource containing SDK logic.
# @param db_instance_name [String] The name of the Amazon RDS DB instance.
# @return [Aws::RDS::DBSnapshot, nil] The snapshot created, or nil if error.
def create_snapshot(rds_resource, db_instance_name)
  id = "snapshot-#{rand(10**6)}"
  db_instance = rds_resource.db_instance(db_instance_name)
  db_instance.create_snapshot({
                                db_snapshot_identifier: id
                              })
rescue Aws::Errors::ServiceError => e
  puts "Couldn't create DB instance snapshot #{id}:\n #{e.message}"
end
```
+  Untuk detail API, lihat [Membuat DBSnapshot](https://docs.aws.amazon.com/goto/SdkForRubyV3/rds-2014-10-31/CreateDBSnapshot) di *Referensi AWS SDK untuk Ruby API*. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/rds#code-examples). 

```
require 'aws-sdk-rds' # v2: require 'aws-sdk'

# List all Amazon Relational Database Service (Amazon RDS) DB instances.
#
# @param rds_resource [Aws::RDS::Resource] An SDK for Ruby Amazon RDS resource.
# @return [Array, nil] List of all DB instances, or nil if error.
def list_instances(rds_resource)
  db_instances = []
  rds_resource.db_instances.each do |i|
    db_instances.append({
                          "name": i.id,
                          "status": i.db_instance_status
                        })
  end
  db_instances
rescue Aws::Errors::ServiceError => e
  puts "Couldn't list instances:\n#{e.message}"
end
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/rds-2014-10-31/DescribeDBInstances) di *Referensi AWS SDK untuk Ruby API*. 

### `DescribeDBParameterGroups`
<a name="rds_DescribeDBParameterGroups_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameterGroups`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/rds#code-examples). 

```
require 'aws-sdk-rds' # v2: require 'aws-sdk'

# List all Amazon Relational Database Service (Amazon RDS) parameter groups.
#
# @param rds_resource [Aws::RDS::Resource] An SDK for Ruby Amazon RDS resource.
# @return [Array, nil] List of all parameter groups, or nil if error.
def list_parameter_groups(rds_resource)
  parameter_groups = []
  rds_resource.db_parameter_groups.each do |p|
    parameter_groups.append({
                              "name": p.db_parameter_group_name,
                              "description": p.description
                            })
  end
  parameter_groups
rescue Aws::Errors::ServiceError => e
  puts "Couldn't list parameter groups:\n #{e.message}"
end
```
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://docs.aws.amazon.com/goto/SdkForRubyV3/rds-2014-10-31/DescribeDBParameterGroups) dalam *Referensi AWS SDK untuk Ruby API*. 

### `DescribeDBParameters`
<a name="rds_DescribeDBParameters_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameters`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/rds#code-examples). 

```
require 'aws-sdk-rds' # v2: require 'aws-sdk'

# List all Amazon Relational Database Service (Amazon RDS) parameter groups.
#
# @param rds_resource [Aws::RDS::Resource] An SDK for Ruby Amazon RDS resource.
# @return [Array, nil] List of all parameter groups, or nil if error.
def list_parameter_groups(rds_resource)
  parameter_groups = []
  rds_resource.db_parameter_groups.each do |p|
    parameter_groups.append({
                              "name": p.db_parameter_group_name,
                              "description": p.description
                            })
  end
  parameter_groups
rescue Aws::Errors::ServiceError => e
  puts "Couldn't list parameter groups:\n #{e.message}"
end
```
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://docs.aws.amazon.com/goto/SdkForRubyV3/rds-2014-10-31/DescribeDBParameters) di *Referensi AWS SDK untuk Ruby API*. 

### `DescribeDBSnapshots`
<a name="rds_DescribeDBSnapshots_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBSnapshots`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/rds#code-examples). 

```
require 'aws-sdk-rds' # v2: require 'aws-sdk'

# List all Amazon Relational Database Service (Amazon RDS) DB instance
# snapshots.
#
# @param rds_resource [Aws::RDS::Resource] An SDK for Ruby Amazon RDS resource.
# @return instance_snapshots [Array, nil] All instance snapshots, or nil if error.
def list_instance_snapshots(rds_resource)
  instance_snapshots = []
  rds_resource.db_snapshots.each do |s|
    instance_snapshots.append({
                                "id": s.snapshot_id,
                                "status": s.status
                              })
  end
  instance_snapshots
rescue Aws::Errors::ServiceError => e
  puts "Couldn't list instance snapshots:\n #{e.message}"
end
```
+  Untuk detail API, lihat [Menjelaskan DBSnapshots](https://docs.aws.amazon.com/goto/SdkForRubyV3/rds-2014-10-31/DescribeDBSnapshots) di *Referensi AWS SDK untuk Ruby API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Ruby.  

```
# Ruby code here.

require 'aws-sdk-rds'
require 'json'
require 'mysql2'

def lambda_handler(event:, context:)
  endpoint = ENV['DBEndpoint'] # Add the endpoint without https"
  port = ENV['Port']           # 3306
  user = ENV['DBUser']
  region = ENV['DBRegion']     # 'us-east-1'
  db_name = ENV['DBName']

  credentials = Aws::Credentials.new(
    ENV['AWS_ACCESS_KEY_ID'],
    ENV['AWS_SECRET_ACCESS_KEY'],
    ENV['AWS_SESSION_TOKEN']
  )
  rds_client = Aws::RDS::AuthTokenGenerator.new(
    region: region, 
    credentials: credentials
  )

  token = rds_client.auth_token(
    endpoint: endpoint+ ':' + port,
    user_name: user,
    region: region
  )

  begin
    conn = Mysql2::Client.new(
      host: endpoint,
      username: user,
      password: token,
      port: port,
      database: db_name,
      sslca: '/var/task/global-bundle.pem', 
      sslverify: true,
      enable_cleartext_plugin: true
    )
    a = 3
    b = 2
    result = conn.query("SELECT #{a} + #{b} AS sum").first['sum']
    puts result
    conn.close
    {
      statusCode: 200,
      body: result.to_json
    }
  rescue => e
    puts "Database connection failed due to #{e}"
  end
end
```

# Contoh Amazon S3 menggunakan SDK for Ruby
<a name="ruby_3_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon S3. AWS SDK untuk Ruby 

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
# frozen_string_literal: true

# S3Manager is a class responsible for managing S3 operations
# such as listing all S3 buckets in the current AWS account.
class S3Manager
  def initialize(client)
    @client = client
    @logger = Logger.new($stdout)
  end

  # Lists and prints all S3 buckets in the current AWS account.
  def list_buckets
    @logger.info('Here are the buckets in your account:')

    response = @client.list_buckets

    if response.buckets.empty?
      @logger.info("You don't have any S3 buckets yet.")
    else
      response.buckets.each do |bucket|
        @logger.info("- #{bucket.name}")
      end
    end
  rescue Aws::Errors::ServiceError => e
    @logger.error("Encountered an error while listing buckets: #{e.message}")
  end
end

if $PROGRAM_NAME == __FILE__
  s3_client = Aws::S3::Client.new
  manager = S3Manager.new(s3_client)
  manager.list_buckets
end
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK untuk Ruby API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_ruby_3_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkap dan pelajari cara menyiapkan dan menjalankan di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps the getting started scenario actions.
class ScenarioGettingStarted
  attr_reader :s3_resource

  # @param s3_resource [Aws::S3::Resource] An Amazon S3 resource.
  def initialize(s3_resource)
    @s3_resource = s3_resource
  end

  # Creates a bucket with a random name in the currently configured account and
  # AWS Region.
  #
  # @return [Aws::S3::Bucket] The newly created bucket.
  def create_bucket
    bucket = @s3_resource.create_bucket(
      bucket: "amzn-s3-demo-bucket-#{Random.uuid}",
      create_bucket_configuration: {
        location_constraint: 'us-east-1' # NOTE: only certain regions permitted
      }
    )
    puts("Created demo bucket named #{bucket.name}.")
  rescue Aws::Errors::ServiceError => e
    puts('Tried and failed to create demo bucket.')
    puts("\t#{e.code}: #{e.message}")
    puts("\nCan't continue the demo without a bucket!")
    raise
  else
    bucket
  end

  # Requests a file name from the user.
  #
  # @return The name of the file.
  def create_file
    File.open('demo.txt', w) { |f| f.write('This is a demo file.') }
  end

  # Uploads a file to an Amazon S3 bucket.
  #
  # @param bucket [Aws::S3::Bucket] The bucket object representing the upload destination
  # @return [Aws::S3::Object] The Amazon S3 object that contains the uploaded file.
  def upload_file(bucket)
    File.open('demo.txt', 'w+') { |f| f.write('This is a demo file.') }
    s3_object = bucket.object(File.basename('demo.txt'))
    s3_object.upload_file('demo.txt')
    puts("Uploaded file demo.txt into bucket #{bucket.name} with key #{s3_object.key}.")
  rescue Aws::Errors::ServiceError => e
    puts("Couldn't upload file demo.txt to #{bucket.name}.")
    puts("\t#{e.code}: #{e.message}")
    raise
  else
    s3_object
  end

  # Downloads an Amazon S3 object to a file.
  #
  # @param s3_object [Aws::S3::Object] The object to download.
  def download_file(s3_object)
    puts("\nDo you want to download #{s3_object.key} to a local file (y/n)? ")
    answer = gets.chomp.downcase
    if answer == 'y'
      puts('Enter a name for the downloaded file: ')
      file_name = gets.chomp
      s3_object.download_file(file_name)
      puts("Object #{s3_object.key} successfully downloaded to #{file_name}.")
    end
  rescue Aws::Errors::ServiceError => e
    puts("Couldn't download #{s3_object.key}.")
    puts("\t#{e.code}: #{e.message}")
    raise
  end

  # Copies an Amazon S3 object to a subfolder within the same bucket.
  #
  # @param source_object [Aws::S3::Object] The source object to copy.
  # @return [Aws::S3::Object, nil] The destination object.
  def copy_object(source_object)
    dest_object = nil
    puts("\nDo you want to copy #{source_object.key} to a subfolder in your bucket (y/n)? ")
    answer = gets.chomp.downcase
    if answer == 'y'
      dest_object = source_object.bucket.object("demo-folder/#{source_object.key}")
      dest_object.copy_from(source_object)
      puts("Copied #{source_object.key} to #{dest_object.key}.")
    end
  rescue Aws::Errors::ServiceError => e
    puts("Couldn't copy #{source_object.key}.")
    puts("\t#{e.code}: #{e.message}")
    raise
  else
    dest_object
  end

  # Lists the objects in an Amazon S3 bucket.
  #
  # @param bucket [Aws::S3::Bucket] The bucket to query.
  def list_objects(bucket)
    puts("\nYour bucket contains the following objects:")
    bucket.objects.each do |obj|
      puts("\t#{obj.key}")
    end
  rescue Aws::Errors::ServiceError => e
    puts("Couldn't list the objects in bucket #{bucket.name}.")
    puts("\t#{e.code}: #{e.message}")
    raise
  end

  # Deletes the objects in an Amazon S3 bucket and deletes the bucket.
  #
  # @param bucket [Aws::S3::Bucket] The bucket to empty and delete.
  def delete_bucket(bucket)
    puts("\nDo you want to delete all of the objects as well as the bucket (y/n)? ")
    answer = gets.chomp.downcase
    if answer == 'y'
      bucket.objects.batch_delete!
      bucket.delete
      puts("Emptied and deleted bucket #{bucket.name}.\n")
    end
  rescue Aws::Errors::ServiceError => e
    puts("Couldn't empty and delete bucket #{bucket.name}.")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
end

# Runs the Amazon S3 getting started scenario.
def run_scenario(scenario)
  puts('-' * 88)
  puts('Welcome to the Amazon S3 getting started demo!')
  puts('-' * 88)

  bucket = scenario.create_bucket
  s3_object = scenario.upload_file(bucket)
  scenario.download_file(s3_object)
  scenario.copy_object(s3_object)
  scenario.list_objects(bucket)
  scenario.delete_bucket(bucket)

  puts('Thanks for watching!')
  puts('-' * 88)
rescue Aws::Errors::ServiceError
  puts('Something went wrong with the demo!')
end

run_scenario(ScenarioGettingStarted.new(Aws::S3::Resource.new)) if $PROGRAM_NAME == __FILE__
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Ruby *.
  + [CopyObject](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/CopyObject)
  + [CreateBucket](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/CreateBucket)
  + [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/DeleteBucket)
  + [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/DeleteObjects)
  + [GetObject](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/GetObject)
  + [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/ListObjectsV2)
  + [PutObject](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/PutObject)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 
Salin objek.  

```
require 'aws-sdk-s3'

# Wraps Amazon S3 object actions.
class ObjectCopyWrapper
  attr_reader :source_object

  # @param source_object [Aws::S3::Object] An existing Amazon S3 object. This is used as the source object for
  #                                        copy actions.
  def initialize(source_object)
    @source_object = source_object
  end

  # Copy the source object to the specified target bucket and rename it with the target key.
  #
  # @param target_bucket [Aws::S3::Bucket] An existing Amazon S3 bucket where the object is copied.
  # @param target_object_key [String] The key to give the copy of the object.
  # @return [Aws::S3::Object, nil] The copied object when successful; otherwise, nil.
  def copy_object(target_bucket, target_object_key)
    @source_object.copy_to(bucket: target_bucket.name, key: target_object_key)
    target_bucket.object(target_object_key)
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't copy #{@source_object.key} to #{target_object_key}. Here's why: #{e.message}"
  end
end

# Example usage:
def run_demo
  source_bucket_name = "amzn-s3-demo-bucket1"
  source_key = "my-source-file.txt"
  target_bucket_name = "amzn-s3-demo-bucket2"
  target_key = "my-target-file.txt"

  source_bucket = Aws::S3::Bucket.new(source_bucket_name)
  wrapper = ObjectCopyWrapper.new(source_bucket.object(source_key))
  target_bucket = Aws::S3::Bucket.new(target_bucket_name)
  target_object = wrapper.copy_object(target_bucket, target_key)
  return unless target_object

  puts "Copied #{source_key} from #{source_bucket_name} to #{target_object.bucket_name}:#{target_object.key}."
end

run_demo if $PROGRAM_NAME == __FILE__
```
Salin objek dan tambahkan enkripsi di sisi server ke objek tujuan.  

```
require 'aws-sdk-s3'

# Wraps Amazon S3 object actions.
class ObjectCopyEncryptWrapper
  attr_reader :source_object

  # @param source_object [Aws::S3::Object] An existing Amazon S3 object. This is used as the source object for
  #                                        copy actions.
  def initialize(source_object)
    @source_object = source_object
  end

  # Copy the source object to the specified target bucket, rename it with the target key, and encrypt it.
  #
  # @param target_bucket [Aws::S3::Bucket] An existing Amazon S3 bucket where the object is copied.
  # @param target_object_key [String] The key to give the copy of the object.
  # @return [Aws::S3::Object, nil] The copied object when successful; otherwise, nil.
  def copy_object(target_bucket, target_object_key, encryption)
    @source_object.copy_to(bucket: target_bucket.name, key: target_object_key, server_side_encryption: encryption)
    target_bucket.object(target_object_key)
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't copy #{@source_object.key} to #{target_object_key}. Here's why: #{e.message}"
  end
end

# Example usage:
def run_demo
  source_bucket_name = "amzn-s3-demo-bucket1"
  source_key = "my-source-file.txt"
  target_bucket_name = "amzn-s3-demo-bucket2"
  target_key = "my-target-file.txt"
  target_encryption = "AES256"

  source_bucket = Aws::S3::Bucket.new(source_bucket_name)
  wrapper = ObjectCopyEncryptWrapper.new(source_bucket.object(source_key))
  target_bucket = Aws::S3::Bucket.new(target_bucket_name)
  target_object = wrapper.copy_object(target_bucket, target_key, target_encryption)
  return unless target_object

  puts "Copied #{source_key} from #{source_bucket_name} to #{target_object.bucket_name}:#{target_object.key} and "\
       "encrypted the target with #{target_object.server_side_encryption} encryption."
end

run_demo if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/CopyObject)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateBucket`
<a name="s3_CreateBucket_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps Amazon S3 bucket actions.
class BucketCreateWrapper
  attr_reader :bucket

  # @param bucket [Aws::S3::Bucket] An Amazon S3 bucket initialized with a name. This is a client-side object until
  #                                 create is called.
  def initialize(bucket)
    @bucket = bucket
  end

  # Creates an Amazon S3 bucket in the specified AWS Region.
  #
  # @param region [String] The Region where the bucket is created.
  # @return [Boolean] True when the bucket is created; otherwise, false.
  def create?(region)
    @bucket.create(create_bucket_configuration: { location_constraint: region })
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't create bucket. Here's why: #{e.message}"
    false
  end

  # Gets the Region where the bucket is located.
  #
  # @return [String] The location of the bucket.
  def location
    if @bucket.nil?
      'None. You must create a bucket before you can get its location!'
    else
      @bucket.client.get_bucket_location(bucket: @bucket.name).location_constraint
    end
  rescue Aws::Errors::ServiceError => e
    "Couldn't get the location of #{@bucket.name}. Here's why: #{e.message}"
  end
end

# Example usage:
def run_demo
  region = "us-west-2"
  wrapper = BucketCreateWrapper.new(Aws::S3::Bucket.new("amzn-s3-demo-bucket-#{Random.uuid}"))
  return unless wrapper.create?(region)

  puts "Created bucket #{wrapper.bucket.name}."
  puts "Your bucket's region is: #{wrapper.location}"
end

run_demo if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/CreateBucket)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
  # Deletes the objects in an Amazon S3 bucket and deletes the bucket.
  #
  # @param bucket [Aws::S3::Bucket] The bucket to empty and delete.
  def delete_bucket(bucket)
    puts("\nDo you want to delete all of the objects as well as the bucket (y/n)? ")
    answer = gets.chomp.downcase
    if answer == 'y'
      bucket.objects.batch_delete!
      bucket.delete
      puts("Emptied and deleted bucket #{bucket.name}.\n")
    end
  rescue Aws::Errors::ServiceError => e
    puts("Couldn't empty and delete bucket #{bucket.name}.")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/DeleteBucket)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteBucketCors`
<a name="s3_DeleteBucketCors_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketCors`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps Amazon S3 bucket CORS configuration.
class BucketCorsWrapper
  attr_reader :bucket_cors

  # @param bucket_cors [Aws::S3::BucketCors] A bucket CORS object configured with an existing bucket.
  def initialize(bucket_cors)
    @bucket_cors = bucket_cors
  end

  # Deletes the CORS configuration of a bucket.
  #
  # @return [Boolean] True if the CORS rules were deleted; otherwise, false.
  def delete_cors
    @bucket_cors.delete
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't delete CORS rules for #{@bucket_cors.bucket.name}. Here's why: #{e.message}"
    false
  end

end
```
+  Untuk detail API, lihat [DeleteBucketCors](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/DeleteBucketCors)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteBucketPolicy`
<a name="s3_DeleteBucketPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
# Wraps an Amazon S3 bucket policy.
class BucketPolicyWrapper
  attr_reader :bucket_policy

  # @param bucket_policy [Aws::S3::BucketPolicy] A bucket policy object configured with an existing bucket.
  def initialize(bucket_policy)
    @bucket_policy = bucket_policy
  end

  def delete_policy
    @bucket_policy.delete
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't delete the policy from #{@bucket_policy.bucket.name}. Here's why: #{e.message}"
    false
  end

end
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/DeleteBucketPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
  # Deletes the objects in an Amazon S3 bucket and deletes the bucket.
  #
  # @param bucket [Aws::S3::Bucket] The bucket to empty and delete.
  def delete_bucket(bucket)
    puts("\nDo you want to delete all of the objects as well as the bucket (y/n)? ")
    answer = gets.chomp.downcase
    if answer == 'y'
      bucket.objects.batch_delete!
      bucket.delete
      puts("Emptied and deleted bucket #{bucket.name}.\n")
    end
  rescue Aws::Errors::ServiceError => e
    puts("Couldn't empty and delete bucket #{bucket.name}.")
    puts("\t#{e.code}: #{e.message}")
    raise
  end
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/DeleteObjects)di *Referensi AWS SDK untuk Ruby API*. 

### `GetBucketCors`
<a name="s3_GetBucketCors_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketCors`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps Amazon S3 bucket CORS configuration.
class BucketCorsWrapper
  attr_reader :bucket_cors

  # @param bucket_cors [Aws::S3::BucketCors] A bucket CORS object configured with an existing bucket.
  def initialize(bucket_cors)
    @bucket_cors = bucket_cors
  end

  # Gets the CORS configuration of a bucket.
  #
  # @return [Aws::S3::Type::GetBucketCorsOutput, nil] The current CORS configuration for the bucket.
  def cors
    @bucket_cors.data
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't get CORS configuration for #{@bucket_cors.bucket.name}. Here's why: #{e.message}"
    nil
  end

end
```
+  Untuk detail API, lihat [GetBucketCors](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/GetBucketCors)di *Referensi AWS SDK untuk Ruby API*. 

### `GetBucketPolicy`
<a name="s3_GetBucketPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
# Wraps an Amazon S3 bucket policy.
class BucketPolicyWrapper
  attr_reader :bucket_policy

  # @param bucket_policy [Aws::S3::BucketPolicy] A bucket policy object configured with an existing bucket.
  def initialize(bucket_policy)
    @bucket_policy = bucket_policy
  end

  # Gets the policy of a bucket.
  #
  # @return [Aws::S3::GetBucketPolicyOutput, nil] The current bucket policy.
  def policy
    policy = @bucket_policy.data.policy
    policy.respond_to?(:read) ? policy.read : policy
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't get the policy for #{@bucket_policy.bucket.name}. Here's why: #{e.message}"
    nil
  end

end
```
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/GetBucketPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `GetObject`
<a name="s3_GetObject_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 
Dapatkan objek.  

```
require 'aws-sdk-s3'

# Wraps Amazon S3 object actions.
class ObjectGetWrapper
  attr_reader :object

  # @param object [Aws::S3::Object] An existing Amazon S3 object.
  def initialize(object)
    @object = object
  end

  # Gets the object directly to a file.
  #
  # @param target_path [String] The path to the file where the object is downloaded.
  # @return [Aws::S3::Types::GetObjectOutput, nil] The retrieved object data if successful; otherwise nil.
  def get_object(target_path)
    @object.get(response_target: target_path)
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't get object #{@object.key}. Here's why: #{e.message}"
  end
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"
  object_key = "my-object.txt"
  target_path = "my-object-as-file.txt"

  wrapper = ObjectGetWrapper.new(Aws::S3::Object.new(bucket_name, object_key))
  obj_data = wrapper.get_object(target_path)
  return unless obj_data

  puts "Object #{object_key} (#{obj_data.content_length} bytes} downloaded to #{target_path}."
end

run_demo if $PROGRAM_NAME == __FILE__
```
Dapatkan objek dan laporkan status enkripsi di sisi servernya.  

```
require 'aws-sdk-s3'

# Wraps Amazon S3 object actions.
class ObjectGetEncryptionWrapper
  attr_reader :object

  # @param object [Aws::S3::Object] An existing Amazon S3 object.
  def initialize(object)
    @object = object
  end

  # Gets the object into memory.
  #
  # @return [Aws::S3::Types::GetObjectOutput, nil] The retrieved object data if successful; otherwise nil.
  def object
    @object.get
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't get object #{@object.key}. Here's why: #{e.message}"
  end
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"
  object_key = "my-object.txt"

  wrapper = ObjectGetEncryptionWrapper.new(Aws::S3::Object.new(bucket_name, object_key))
  obj_data = wrapper.get_object
  return unless obj_data

  encryption = obj_data.server_side_encryption.nil? ? 'no' : obj_data.server_side_encryption
  puts "Object #{object_key} uses #{encryption} encryption."
end

run_demo if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/GetObject)di *Referensi AWS SDK untuk Ruby API*. 

### `HeadObject`
<a name="s3_HeadObject_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`HeadObject`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps Amazon S3 object actions.
class ObjectExistsWrapper
  attr_reader :object

  # @param object [Aws::S3::Object] An Amazon S3 object.
  def initialize(object)
    @object = object
  end

  # Checks whether the object exists.
  #
  # @return [Boolean] True if the object exists; otherwise false.
  def exists?
    @object.exists?
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't check existence of object #{@object.bucket.name}:#{@object.key}. Here's why: #{e.message}"
    false
  end
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"
  object_key = "my-object.txt"

  wrapper = ObjectExistsWrapper.new(Aws::S3::Object.new(bucket_name, object_key))
  exists = wrapper.exists?

  puts "Object #{object_key} #{exists ? 'does' : 'does not'} exist."
end

run_demo if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [HeadObject](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/HeadObject)di *Referensi AWS SDK untuk Ruby API*. 

### `ListBuckets`
<a name="s3_ListBuckets_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps Amazon S3 resource actions.
class BucketListWrapper
  attr_reader :s3_resource

  # @param s3_resource [Aws::S3::Resource] An Amazon S3 resource.
  def initialize(s3_resource)
    @s3_resource = s3_resource
  end

  # Lists buckets for the current account.
  #
  # @param count [Integer] The maximum number of buckets to list.
  def list_buckets(count)
    puts 'Found these buckets:'
    @s3_resource.buckets.each do |bucket|
      puts "\t#{bucket.name}"
      count -= 1
      break if count.zero?
    end
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't list buckets. Here's why: #{e.message}"
    false
  end
end

# Example usage:
def run_demo
  wrapper = BucketListWrapper.new(Aws::S3::Resource.new)
  wrapper.list_buckets(25)
end

run_demo if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [ListBuckets](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/ListBuckets)di *Referensi AWS SDK untuk Ruby API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps Amazon S3 bucket actions.
class BucketListObjectsWrapper
  attr_reader :bucket

  # @param bucket [Aws::S3::Bucket] An existing Amazon S3 bucket.
  def initialize(bucket)
    @bucket = bucket
  end

  # Lists object in a bucket.
  #
  # @param max_objects [Integer] The maximum number of objects to list.
  # @return [Integer] The number of objects listed.
  def list_objects(max_objects)
    count = 0
    puts "The objects in #{@bucket.name} are:"
    @bucket.objects.each do |obj|
      puts "\t#{obj.key}"
      count += 1
      break if count == max_objects
    end
    count
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't list objects in bucket #{bucket.name}. Here's why: #{e.message}"
    0
  end
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"

  wrapper = BucketListObjectsWrapper.new(Aws::S3::Bucket.new(bucket_name))
  count = wrapper.list_objects(25)
  puts "Listed #{count} objects."
end

run_demo if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/ListObjectsV2) di *Referensi AWS SDK untuk Ruby API*. 

### `PutBucketCors`
<a name="s3_PutBucketCors_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketCors`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps Amazon S3 bucket CORS configuration.
class BucketCorsWrapper
  attr_reader :bucket_cors

  # @param bucket_cors [Aws::S3::BucketCors] A bucket CORS object configured with an existing bucket.
  def initialize(bucket_cors)
    @bucket_cors = bucket_cors
  end

  # Sets CORS rules on a bucket.
  #
  # @param allowed_methods [Array<String>] The types of HTTP requests to allow.
  # @param allowed_origins [Array<String>] The origins to allow.
  # @returns [Boolean] True if the CORS rules were set; otherwise, false.
  def set_cors(allowed_methods, allowed_origins)
    @bucket_cors.put(
      cors_configuration: {
        cors_rules: [
          {
            allowed_methods: allowed_methods,
            allowed_origins: allowed_origins,
            allowed_headers: %w[*],
            max_age_seconds: 3600
          }
        ]
      }
    )
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't set CORS rules for #{@bucket_cors.bucket.name}. Here's why: #{e.message}"
    false
  end

end
```
+  Untuk detail API, lihat [PutBucketCors](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/PutBucketCors)di *Referensi AWS SDK untuk Ruby API*. 

### `PutBucketPolicy`
<a name="s3_PutBucketPolicy_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketPolicy`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
# Wraps an Amazon S3 bucket policy.
class BucketPolicyWrapper
  attr_reader :bucket_policy

  # @param bucket_policy [Aws::S3::BucketPolicy] A bucket policy object configured with an existing bucket.
  def initialize(bucket_policy)
    @bucket_policy = bucket_policy
  end

  # Sets a policy on a bucket.
  #
  def policy(policy)
    @bucket_policy.put(policy: policy)
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't set the policy for #{@bucket_policy.bucket.name}. Here's why: #{e.message}"
    false
  end

end
```
+  Untuk detail API, lihat [PutBucketPolicy](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/PutBucketPolicy)di *Referensi AWS SDK untuk Ruby API*. 

### `PutBucketWebsite`
<a name="s3_PutBucketWebsite_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketWebsite`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'

# Wraps Amazon S3 bucket website actions.
class BucketWebsiteWrapper
  attr_reader :bucket_website

  # @param bucket_website [Aws::S3::BucketWebsite] A bucket website object configured with an existing bucket.
  def initialize(bucket_website)
    @bucket_website = bucket_website
  end

  # Sets a bucket as a static website.
  #
  # @param index_document [String] The name of the index document for the website.
  # @param error_document [String] The name of the error document to show for 4XX errors.
  # @return [Boolean] True when the bucket is configured as a website; otherwise, false.
  def set_website(index_document, error_document)
    @bucket_website.put(
      website_configuration: {
        index_document: { suffix: index_document },
        error_document: { key: error_document }
      }
    )
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't configure #{@bucket_website.bucket.name} as a website. Here's why: #{e.message}"
    false
  end
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"
  index_document = "index.html"
  error_document = "404.html"

  wrapper = BucketWebsiteWrapper.new(Aws::S3::BucketWebsite.new(bucket_name))
  return unless wrapper.set_website(index_document, error_document)

  puts "Successfully configured bucket #{bucket_name} as a static website."
end

run_demo if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [PutBucketWebsite](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/PutBucketWebsite)di *Referensi AWS SDK untuk Ruby API*. 

### `PutObject`
<a name="s3_PutObject_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 
Unggah file menggunakan pengunggah terkelola (Object.upload\$1file).  

```
require 'aws-sdk-s3'

# Wraps Amazon S3 object actions.
class ObjectUploadFileWrapper
  attr_reader :object

  # @param object [Aws::S3::Object] An existing Amazon S3 object.
  def initialize(object)
    @object = object
  end

  # Uploads a file to an Amazon S3 object by using a managed uploader.
  #
  # @param file_path [String] The path to the file to upload.
  # @return [Boolean] True when the file is uploaded; otherwise false.
  def upload_file(file_path)
    @object.upload_file(file_path)
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't upload file #{file_path} to #{@object.key}. Here's why: #{e.message}"
    false
  end
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"
  object_key = "my-uploaded-file"
  file_path = "object_upload_file.rb"

  wrapper = ObjectUploadFileWrapper.new(Aws::S3::Object.new(bucket_name, object_key))
  return unless wrapper.upload_file(file_path)

  puts "File #{file_path} successfully uploaded to #{bucket_name}:#{object_key}."
end

run_demo if $PROGRAM_NAME == __FILE__
```
Unggah file menggunakan Object.put.  

```
require 'aws-sdk-s3'

# Wraps Amazon S3 object actions.
class ObjectPutWrapper
  attr_reader :object

  # @param object [Aws::S3::Object] An existing Amazon S3 object.
  def initialize(object)
    @object = object
  end

  def put_object(source_file_path)
    File.open(source_file_path, 'rb') do |file|
      @object.put(body: file)
    end
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't put #{source_file_path} to #{object.key}. Here's why: #{e.message}"
    false
  end
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"
  object_key = "my-object-key"
  file_path = "my-local-file.txt"

  wrapper = ObjectPutWrapper.new(Aws::S3::Object.new(bucket_name, object_key))
  success = wrapper.put_object(file_path)
  return unless success

  puts "Put file #{file_path} into #{object_key} in #{bucket_name}."
end

run_demo if $PROGRAM_NAME == __FILE__
```
Unggah file menggunakan Object.put dan tambahkan enkripsi di sisi server.  

```
require 'aws-sdk-s3'

# Wraps Amazon S3 object actions.
class ObjectPutSseWrapper
  attr_reader :object

  # @param object [Aws::S3::Object] An existing Amazon S3 object.
  def initialize(object)
    @object = object
  end

  def put_object_encrypted(object_content, encryption)
    @object.put(body: object_content, server_side_encryption: encryption)
    true
  rescue Aws::Errors::ServiceError => e
    puts "Couldn't put your content to #{object.key}. Here's why: #{e.message}"
    false
  end
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"
  object_key = "my-encrypted-content"
  object_content = "This is my super-secret content."
  encryption = "AES256"

  wrapper = ObjectPutSseWrapper.new(Aws::S3::Object.new(bucket_name, object_content))
  return unless wrapper.put_object_encrypted(object_content, encryption)

  puts "Put your content into #{bucket_name}:#{object_key} and encrypted it with #{encryption}."
end

run_demo if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/goto/SdkForRubyV3/s3-2006-03-01/PutObject)di *Referensi AWS SDK untuk Ruby API*. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/s3#code-examples). 

```
require 'aws-sdk-s3'
require 'net/http'

# Creates a presigned URL that can be used to upload content to an object.
#
# @param bucket [Aws::S3::Bucket] An existing Amazon S3 bucket.
# @param object_key [String] The key to give the uploaded object.
# @return [URI, nil] The parsed URI if successful; otherwise nil.
def get_presigned_url(bucket, object_key)
  url = bucket.object(object_key).presigned_url(:put)
  puts "Created presigned URL: #{url}"
  URI(url)
rescue Aws::Errors::ServiceError => e
  puts "Couldn't create presigned URL for #{bucket.name}:#{object_key}. Here's why: #{e.message}"
end

# Example usage:
def run_demo
  bucket_name = "amzn-s3-demo-bucket"
  object_key = "my-file.txt"
  object_content = "This is the content of my-file.txt."

  bucket = Aws::S3::Bucket.new(bucket_name)
  presigned_url = get_presigned_url(bucket, object_key)
  return unless presigned_url

  response = Net::HTTP.start(presigned_url.host) do |http|
    http.send_request('PUT', presigned_url.request_uri, object_content, 'content_type' => '')
  end

  case response
  when Net::HTTPSuccess
    puts 'Content uploaded!'
  else
    puts response.value
  end
end

run_demo if $PROGRAM_NAME == __FILE__
```

## Contoh nirserver
<a name="serverless_examples"></a>

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Mengkonsumsi acara S3 dengan Lambda menggunakan Ruby.  

```
require 'json'
require 'uri'
require 'aws-sdk'

puts 'Loading function'

def lambda_handler(event:, context:)
  s3 = Aws::S3::Client.new(region: 'region') # Your AWS region
  # puts "Received event: #{JSON.dump(event)}"

  # Get the object from the event and show its content type
  bucket = event['Records'][0]['s3']['bucket']['name']
  key = URI.decode_www_form_component(event['Records'][0]['s3']['object']['key'], Encoding::UTF_8)
  begin
    response = s3.get_object(bucket: bucket, key: key)
    puts "CONTENT TYPE: #{response.content_type}"
    return response.content_type
  rescue StandardError => e
    puts e.message
    puts "Error getting object #{key} from bucket #{bucket}. Make sure they exist and your bucket is in the same region as this function."
    raise e
  end
end
```

# Contoh Amazon SES menggunakan SDK for Ruby
<a name="ruby_3_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby With Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetIdentityVerificationAttributes`
<a name="ses_GetIdentityVerificationAttributes_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetIdentityVerificationAttributes`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ses/v1#code-examples). 

```
require 'aws-sdk-ses' # v2: require 'aws-sdk'

# Create client in us-west-2 region
# Replace us-west-2 with the AWS Region you're using for Amazon SES.
client = Aws::SES::Client.new(region: 'us-west-2')

# Get up to 1000 identities
ids = client.list_identities({
                               identity_type: 'EmailAddress'
                             })

ids.identities.each do |email|
  attrs = client.get_identity_verification_attributes({
                                                        identities: [email]
                                                      })

  status = attrs.verification_attributes[email].verification_status

  # Display email addresses that have been verified
  puts email if status == 'Success'
end
```
+  Untuk detail API, lihat [GetIdentityVerificationAttributes](https://docs.aws.amazon.com/goto/SdkForRubyV3/email-2010-12-01/GetIdentityVerificationAttributes)di *Referensi AWS SDK untuk Ruby API*. 

### `ListIdentities`
<a name="ses_ListIdentities_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentities`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ses/v1#code-examples). 

```
require 'aws-sdk-ses' # v2: require 'aws-sdk'

# Create client in us-west-2 region
# Replace us-west-2 with the AWS Region you're using for Amazon SES.
client = Aws::SES::Client.new(region: 'us-west-2')

# Get up to 1000 identities
ids = client.list_identities({
                               identity_type: 'EmailAddress'
                             })

ids.identities.each do |email|
  attrs = client.get_identity_verification_attributes({
                                                        identities: [email]
                                                      })

  status = attrs.verification_attributes[email].verification_status

  # Display email addresses that have been verified
  puts email if status == 'Success'
end
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/goto/SdkForRubyV3/email-2010-12-01/ListIdentities)di *Referensi AWS SDK untuk Ruby API*. 

### `SendEmail`
<a name="ses_SendEmail_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ses/v1#code-examples). 

```
require 'aws-sdk-ses' # v2: require 'aws-sdk'

# Replace sender@example.com with your "From" address.
# This address must be verified with Amazon SES.
sender = 'sender@example.com'

# Replace recipient@example.com with a "To" address. If your account
# is still in the sandbox, this address must be verified.
recipient = 'recipient@example.com'

# Specify a configuration set. To use a configuration
# set, uncomment the next line and line 74.
#   configsetname = "ConfigSet"

# The subject line for the email.
subject = 'Amazon SES test (AWS SDK for Ruby)'

# The HTML body of the email.
htmlbody =
  '<h1>Amazon SES test (AWS SDK for Ruby)</h1>'\
  '<p>This email was sent with <a href="https://aws.amazon.com/ses/">'\
  'Amazon SES</a> using the <a href="https://aws.amazon.com/sdk-for-ruby/">'\
  'AWS SDK for Ruby</a>.'

# The email body for recipients with non-HTML email clients.
textbody = 'This email was sent with Amazon SES using the AWS SDK for Ruby.'

# Specify the text encoding scheme.
encoding = 'UTF-8'

# Create a new SES client in the us-west-2 region.
# Replace us-west-2 with the AWS Region you're using for Amazon SES.
ses = Aws::SES::Client.new(region: 'us-west-2')

# Try to send the email.
begin
  # Provide the contents of the email.
  ses.send_email(
    destination: {
      to_addresses: [
        recipient
      ]
    },
    message: {
      body: {
        html: {
          charset: encoding,
          data: htmlbody
        },
        text: {
          charset: encoding,
          data: textbody
        }
      },
      subject: {
        charset: encoding,
        data: subject
      }
    },
    source: sender
    # Uncomment the following line to use a configuration set.
    # configuration_set_name: configsetname,
  )

  puts "Email sent to #{recipient}"

# If something goes wrong, display an error message.
rescue Aws::SES::Errors::ServiceError => e
  puts "Email not sent. Error message: #{e}"
end
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/SdkForRubyV3/email-2010-12-01/SendEmail)di *Referensi AWS SDK untuk Ruby API*. 

### `VerifyEmailIdentity`
<a name="ses_VerifyEmailIdentity_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyEmailIdentity`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ses/v1#code-examples). 

```
require 'aws-sdk-ses' # v2: require 'aws-sdk'

# Replace recipient@example.com with a "To" address.
recipient = 'recipient@example.com'

# Create a new SES resource in the us-west-2 region.
# Replace us-west-2 with the AWS Region you're using for Amazon SES.
ses = Aws::SES::Client.new(region: 'us-west-2')

# Try to verify email address.
begin
  ses.verify_email_identity({
                              email_address: recipient
                            })

  puts "Email sent to #{recipient}"

# If something goes wrong, display an error message.
rescue Aws::SES::Errors::ServiceError => e
  puts "Email not sent. Error message: #{e}"
end
```
+  Untuk detail API, lihat [VerifyEmailIdentity](https://docs.aws.amazon.com/goto/SdkForRubyV3/email-2010-12-01/VerifyEmailIdentity)di *Referensi AWS SDK untuk Ruby API*. 

# Contoh Amazon SES API v2 menggunakan SDK for Ruby
<a name="ruby_3_sesv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with Amazon SES API v2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendEmail`
<a name="sesv2_SendEmail_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ses/v2#code-examples). 

```
require 'aws-sdk-sesv2'
require_relative 'config' # Recipient and sender email addresses.

# Set up the SESv2 client.
client = Aws::SESV2::Client.new(region: AWS_REGION)

def send_email(client, sender_email, recipient_email)
  response = client.send_email(
    {
      from_email_address: sender_email,
      destination: {
        to_addresses: [recipient_email]
      },
      content: {
        simple: {
          subject: {
            data: 'Test email subject'
          },
          body: {
            text: {
              data: 'Test email body'
            }
          }
        }
      }
    }
  )
  puts "Email sent from #{SENDER_EMAIL} to #{RECIPIENT_EMAIL} with message ID: #{response.message_id}"
end

send_email(client, SENDER_EMAIL, RECIPIENT_EMAIL)
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/goto/SdkForRubyV3/sesv2-2019-09-27/SendEmail)di *Referensi AWS SDK untuk Ruby API*. 

# Contoh Amazon SNS menggunakan SDK for Ruby
<a name="ruby_3_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Ruby dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CreateTopic`
<a name="sns_CreateTopic_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sns#code-examples). 

```
# This class demonstrates how to create an Amazon Simple Notification Service (SNS) topic.
class SNSTopicCreator
  # Initializes an SNS client.
  #
  # Utilizes the default AWS configuration for region and credentials.
  def initialize
    @sns_client = Aws::SNS::Client.new
  end

  # Attempts to create an SNS topic with the specified name.
  #
  # @param topic_name [String] The name of the SNS topic to create.
  # @return [Boolean] true if the topic was successfully created, false otherwise.
  def create_topic(topic_name)
    @sns_client.create_topic(name: topic_name)
    puts "The topic '#{topic_name}' was successfully created."
    true
  rescue Aws::SNS::Errors::ServiceError => e
    # Handles SNS service errors gracefully.
    puts "Error while creating the topic named '#{topic_name}': #{e.message}"
    false
  end
end

# Example usage:
if $PROGRAM_NAME == __FILE__
  topic_name = 'YourTopicName' # Replace with your topic name
  sns_topic_creator = SNSTopicCreator.new

  puts "Creating the topic '#{topic_name}'..."
  unless sns_topic_creator.create_topic(topic_name)
    puts 'The topic was not created. Stopping program.'
    exit 1
  end
end
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk Ruby](https://docs.aws.amazon.com/sdk-for-ruby/v3/developer-guide/sns-example-create-topic.html). 
+  Untuk detail API, lihat [CreateTopic](https://docs.aws.amazon.com/goto/SdkForRubyV3/sns-2010-03-31/CreateTopic)di *Referensi AWS SDK untuk Ruby API*. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sns#code-examples). 

```
# This class demonstrates how to list subscriptions to an Amazon Simple Notification Service (SNS) topic
class SnsSubscriptionLister
  def initialize(sns_client)
    @sns_client = sns_client
    @logger = Logger.new($stdout)
  end

  # Lists subscriptions for a given SNS topic
  # @param topic_arn [String] The ARN of the SNS topic
  # @return [Types::ListSubscriptionsResponse] subscriptions: The response object
  def list_subscriptions(topic_arn)
    @logger.info("Listing subscriptions for topic: #{topic_arn}")
    subscriptions = @sns_client.list_subscriptions_by_topic(topic_arn: topic_arn)
    subscriptions.subscriptions.each do |subscription|
      @logger.info("Subscription endpoint: #{subscription.endpoint}")
    end
    subscriptions
  rescue Aws::SNS::Errors::ServiceError => e
    @logger.error("Error listing subscriptions: #{e.message}")
    raise
  end
end

# Example usage:
if $PROGRAM_NAME == __FILE__
  sns_client = Aws::SNS::Client.new
  topic_arn = 'SNS_TOPIC_ARN' # Replace with your SNS topic ARN
  lister = SnsSubscriptionLister.new(sns_client)

  begin
    lister.list_subscriptions(topic_arn)
  rescue StandardError => e
    puts "Failed to list subscriptions: #{e.message}"
    exit 1
  end
end
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk Ruby](https://docs.aws.amazon.com/sdk-for-ruby/v3/developer-guide/sns-example-show-subscriptions.html). 
+  Untuk detail API, lihat [ListSubscriptions](https://docs.aws.amazon.com/goto/SdkForRubyV3/sns-2010-03-31/ListSubscriptions)di *Referensi AWS SDK untuk Ruby API*. 

### `ListTopics`
<a name="sns_ListTopics_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sns#code-examples). 

```
require 'aws-sdk-sns' # v2: require 'aws-sdk'

def list_topics?(sns_client)
  sns_client.topics.each do |topic|
    puts topic.arn
  rescue StandardError => e
    puts "Error while listing the topics: #{e.message}"
  end
end

def run_me
  region = 'REGION'
  sns_client = Aws::SNS::Resource.new(region: region)

  puts 'Listing the topics.'

  return if list_topics?(sns_client)

  puts 'The bucket was not created. Stopping program.'
  exit 1
end

# Example usage:
run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk Ruby](https://docs.aws.amazon.com/sdk-for-ruby/v3/developer-guide/sns-example-show-topics.html). 
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/goto/SdkForRubyV3/sns-2010-03-31/ListTopics)di *Referensi AWS SDK untuk Ruby API*. 

### `Publish`
<a name="sns_Publish_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sns#code-examples). 

```
# Service class for sending messages using Amazon Simple Notification Service (SNS)
class SnsMessageSender
  # Initializes the SnsMessageSender with an SNS client
  #
  # @param sns_client [Aws::SNS::Client] The SNS client
  def initialize(sns_client)
    @sns_client = sns_client
    @logger = Logger.new($stdout)
  end

  # Sends a message to a specified SNS topic
  #
  # @param topic_arn [String] The ARN of the SNS topic
  # @param message [String] The message to send
  # @return [Boolean] true if message was successfully sent, false otherwise
  def send_message(topic_arn, message)
    @sns_client.publish(topic_arn: topic_arn, message: message)
    @logger.info("Message sent successfully to #{topic_arn}.")
    true
  rescue Aws::SNS::Errors::ServiceError => e
    @logger.error("Error while sending the message: #{e.message}")
    false
  end
end

# Example usage:
if $PROGRAM_NAME == __FILE__
  topic_arn = 'SNS_TOPIC_ARN' # Should be replaced with a real topic ARN
  message = 'MESSAGE'         # Should be replaced with the actual message content

  sns_client = Aws::SNS::Client.new
  message_sender = SnsMessageSender.new(sns_client)

  @logger.info('Sending message.')
  unless message_sender.send_message(topic_arn, message)
    @logger.error('Message sending failed. Stopping program.')
    exit 1
  end
end
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk Ruby](https://docs.aws.amazon.com/sdk-for-ruby/v3/developer-guide/sns-example-send-message.html). 
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/goto/SdkForRubyV3/sns-2010-03-31/Publish) di *Referensi AWS SDK untuk Ruby API*. 

### `SetTopicAttributes`
<a name="sns_SetTopicAttributes_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetTopicAttributes`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sns#code-examples). 

```
# Service class to enable an SNS resource with a specified policy
class SnsResourceEnabler
  # Initializes the SnsResourceEnabler with an SNS resource client
  #
  # @param sns_resource [Aws::SNS::Resource] The SNS resource client
  def initialize(sns_resource)
    @sns_resource = sns_resource
    @logger = Logger.new($stdout)
  end

  # Sets a policy on a specified SNS topic
  #
  # @param topic_arn [String] The ARN of the SNS topic
  # @param resource_arn [String] The ARN of the resource to include in the policy
  # @param policy_name [String] The name of the policy attribute to set
  def enable_resource(topic_arn, resource_arn, policy_name)
    policy = generate_policy(topic_arn, resource_arn)
    topic = @sns_resource.topic(topic_arn)

    topic.set_attributes({
                           attribute_name: policy_name,
                           attribute_value: policy
                         })
    @logger.info("Policy #{policy_name} set successfully for topic #{topic_arn}.")
  rescue Aws::SNS::Errors::ServiceError => e
    @logger.error("Failed to set policy: #{e.message}")
  end

  private

  # Generates a policy string with dynamic resource ARNs
  #
  # @param topic_arn [String] The ARN of the SNS topic
  # @param resource_arn [String] The ARN of the resource
  # @return [String] The policy as a JSON string
  def generate_policy(topic_arn, resource_arn)
    {
      Version: '2008-10-17',
      Id: '__default_policy_ID',
      Statement: [{
        Sid: '__default_statement_ID',
        Effect: 'Allow',
        Principal: { "AWS": '*' },
        Action: ['SNS:Publish'],
        Resource: topic_arn,
        Condition: {
          ArnEquals: {
            "AWS:SourceArn": resource_arn
          }
        }
      }]
    }.to_json
  end
end

# Example usage:
if $PROGRAM_NAME == __FILE__
  topic_arn = 'MY_TOPIC_ARN' # Should be replaced with a real topic ARN
  resource_arn = 'MY_RESOURCE_ARN' # Should be replaced with a real resource ARN
  policy_name = 'POLICY_NAME' # Typically, this is "Policy"

  sns_resource = Aws::SNS::Resource.new
  enabler = SnsResourceEnabler.new(sns_resource)

  enabler.enable_resource(topic_arn, resource_arn, policy_name)
end
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk Ruby](https://docs.aws.amazon.com/sdk-for-ruby/v3/developer-guide/sns-example-enable-resource.html). 
+  Untuk detail API, lihat [SetTopicAttributes](https://docs.aws.amazon.com/goto/SdkForRubyV3/sns-2010-03-31/SetTopicAttributes)di *Referensi AWS SDK untuk Ruby API*. 

### `Subscribe`
<a name="sns_Subscribe_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
require 'aws-sdk-sns'
require 'logger'

# Represents a service for creating subscriptions in Amazon Simple Notification Service (SNS)
class SubscriptionService
  # Initializes the SubscriptionService with an SNS client
  #
  # @param sns_client [Aws::SNS::Client] The SNS client
  def initialize(sns_client)
    @sns_client = sns_client
    @logger = Logger.new($stdout)
  end

  # Attempts to create a subscription to a topic
  #
  # @param topic_arn [String] The ARN of the SNS topic
  # @param protocol [String] The subscription protocol (e.g., email)
  # @param endpoint [String] The endpoint that receives the notifications (email address)
  # @return [Boolean] true if subscription was successfully created, false otherwise
  def create_subscription(topic_arn, protocol, endpoint)
    @sns_client.subscribe(topic_arn: topic_arn, protocol: protocol, endpoint: endpoint)
    @logger.info('Subscription created successfully.')
    true
  rescue Aws::SNS::Errors::ServiceError => e
    @logger.error("Error while creating the subscription: #{e.message}")
    false
  end
end

# Main execution if the script is run directly
if $PROGRAM_NAME == __FILE__
  protocol = 'email'
  endpoint = 'EMAIL_ADDRESS' # Should be replaced with a real email address
  topic_arn = 'TOPIC_ARN'    # Should be replaced with a real topic ARN

  sns_client = Aws::SNS::Client.new
  subscription_service = SubscriptionService.new(sns_client)

  @logger.info('Creating the subscription.')
  unless subscription_service.create_subscription(topic_arn, protocol, endpoint)
    @logger.error('Subscription creation failed. Stopping program.')
    exit 1
  end
end
```
+  Untuk informasi selengkapnya, silakan lihat [Panduan Developer AWS SDK untuk Ruby](https://docs.aws.amazon.com/sdk-for-ruby/v3/developer-guide/sns-example-create-subscription.html). 
+  Untuk detail API, lihat [Berlangganan](https://docs.aws.amazon.com/goto/SdkForRubyV3/sns-2010-03-31/Subscribe) di *Referensi AWS SDK untuk Ruby API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def lambda_handler(event:, context:)
  event['Records'].map { |record| process_message(record) }
end

def process_message(record)
  message = record['Sns']['Message']
  puts("Processing message: #{message}")
rescue StandardError => e
  puts("Error processing message: #{e}")
  raise
end
```

# Contoh Amazon SQS menggunakan SDK for Ruby
<a name="ruby_3_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon SQS. AWS SDK untuk Ruby 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `ChangeMessageVisibility`
<a name="sqs_ChangeMessageVisibility_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ChangeMessageVisibility`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sqs#code-examples). 

```
require 'aws-sdk-sqs' # v2: require 'aws-sdk'
# Replace us-west-2 with the AWS Region you're using for Amazon SQS.
sqs = Aws::SQS::Client.new(region: 'us-west-2')

begin
  queue_name = 'my-queue'
  queue_url = sqs.get_queue_url(queue_name: queue_name).queue_url

  # Receive up to 10 messages
  receive_message_result_before = sqs.receive_message({
                                                        queue_url: queue_url,
                                                        max_number_of_messages: 10
                                                      })

  puts "Before attempting to change message visibility timeout: received #{receive_message_result_before.messages.count} message(s)."

  receive_message_result_before.messages.each do |message|
    sqs.change_message_visibility({
                                    queue_url: queue_url,
                                    receipt_handle: message.receipt_handle,
                                    visibility_timeout: 30 # This message will not be visible for 30 seconds after first receipt.
                                  })
  end

  # Try to retrieve the original messages after setting their visibility timeout.
  receive_message_result_after = sqs.receive_message({
                                                       queue_url: queue_url,
                                                       max_number_of_messages: 10
                                                     })

  puts "\nAfter attempting to change message visibility timeout: received #{receive_message_result_after.messages.count} message(s)."
rescue Aws::SQS::Errors::NonExistentQueue
  puts "Cannot receive messages for a queue named '#{queue_name}', as it does not exist."
end
```
+  Untuk detail API, lihat [ChangeMessageVisibility](https://docs.aws.amazon.com/goto/SdkForRubyV3/sqs-2012-11-05/ChangeMessageVisibility)di *Referensi AWS SDK untuk Ruby API*. 

### `CreateQueue`
<a name="sqs_CreateQueue_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sqs#code-examples). 

```
# This code example demonstrates how to create a queue in Amazon Simple Queue Service (Amazon SQS).

require 'aws-sdk-sqs'

# @param sqs_client [Aws::SQS::Client] An initialized Amazon SQS client.
# @param queue_name [String] The name of the queue.
# @return [Boolean] true if the queue was created; otherwise, false.
# @example
#   exit 1 unless queue_created?(
#     Aws::SQS::Client.new(region: 'us-west-2'),
#     'my-queue'
#   )
def queue_created?(sqs_client, queue_name)
  sqs_client.create_queue(queue_name: queue_name)
  true
rescue StandardError => e
  puts "Error creating queue: #{e.message}"
  false
end

# Full example call:
# Replace us-west-2 with the AWS Region you're using for Amazon SQS.
def run_me
  region = 'us-west-2'
  queue_name = 'my-queue'
  sqs_client = Aws::SQS::Client.new(region: region)

  puts "Creating the queue named '#{queue_name}'..."

  if queue_created?(sqs_client, queue_name)
    puts 'Queue created.'
  else
    puts 'Queue not created.'
  end
end

# Example usage:
run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/goto/SdkForRubyV3/sqs-2012-11-05/CreateQueue)di *Referensi AWS SDK untuk Ruby API*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sqs#code-examples). 

```
require 'aws-sdk-sqs' # v2: require 'aws-sdk'
# Replace us-west-2 with the AWS Region you're using for Amazon SQS.
sqs = Aws::SQS::Client.new(region: 'us-west-2')

sqs.delete_queue(queue_url: URL)
```
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/goto/SdkForRubyV3/sqs-2012-11-05/DeleteQueue)di *Referensi AWS SDK untuk Ruby API*. 

### `ListQueues`
<a name="sqs_ListQueues_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sqs#code-examples). 

```
require 'aws-sdk-sqs'
require 'aws-sdk-sts'

# @param sqs_client [Aws::SQS::Client] An initialized Amazon SQS client.
# @example
#   list_queue_urls(Aws::SQS::Client.new(region: 'us-west-2'))
def list_queue_urls(sqs_client)
  queues = sqs_client.list_queues

  queues.queue_urls.each do |url|
    puts url
  end
rescue StandardError => e
  puts "Error listing queue URLs: #{e.message}"
end

# Lists the attributes of a queue in Amazon Simple Queue Service (Amazon SQS).
#
# @param sqs_client [Aws::SQS::Client] An initialized Amazon SQS client.
# @param queue_url [String] The URL of the queue.
# @example
#   list_queue_attributes(
#     Aws::SQS::Client.new(region: 'us-west-2'),
#     'https://sqs.us-west-2.amazonaws.com/111111111111/my-queue'
#   )
def list_queue_attributes(sqs_client, queue_url)
  attributes = sqs_client.get_queue_attributes(
    queue_url: queue_url,
    attribute_names: ['All']
  )

  attributes.attributes.each do |key, value|
    puts "#{key}: #{value}"
  end
rescue StandardError => e
  puts "Error getting queue attributes: #{e.message}"
end

# Full example call:
# Replace us-west-2 with the AWS Region you're using for Amazon SQS.
def run_me
  region = 'us-west-2'
  queue_name = 'my-queue'

  sqs_client = Aws::SQS::Client.new(region: region)

  puts 'Listing available queue URLs...'
  list_queue_urls(sqs_client)

  sts_client = Aws::STS::Client.new(region: region)

  # For example:
  # 'https://sqs.us-west-2.amazonaws.com/111111111111/my-queue'
  queue_url = "https://sqs.#{region}.amazonaws.com/#{sts_client.get_caller_identity.account}/#{queue_name}"

  puts "\nGetting information about queue '#{queue_name}'..."
  list_queue_attributes(sqs_client, queue_url)
end
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/goto/SdkForRubyV3/sqs-2012-11-05/ListQueues)di *Referensi AWS SDK untuk Ruby API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sqs#code-examples). 

```
require 'aws-sdk-sqs'
require 'aws-sdk-sts'

# Receives messages in a queue in Amazon Simple Queue Service (Amazon SQS).
#
# @param sqs_client [Aws::SQS::Client] An initialized Amazon SQS client.
# @param queue_url [String] The URL of the queue.
# @param max_number_of_messages [Integer] The maximum number of messages
#   to receive. This number must be 10 or less. The default is 10.
# @example
#   receive_messages(
#     Aws::SQS::Client.new(region: 'us-west-2'),
#     'https://sqs.us-west-2.amazonaws.com/111111111111/my-queue',
#     10
#   )
def receive_messages(sqs_client, queue_url, max_number_of_messages = 10)
  if max_number_of_messages > 10
    puts 'Maximum number of messages to receive must be 10 or less. ' \
      'Stopping program.'
    return
  end

  response = sqs_client.receive_message(
    queue_url: queue_url,
    max_number_of_messages: max_number_of_messages
  )

  if response.messages.count.zero?
    puts 'No messages to receive, or all messages have already ' \
      'been previously received.'
    return
  end

  response.messages.each do |message|
    puts '-' * 20
    puts "Message body: #{message.body}"
    puts "Message ID:   #{message.message_id}"
  end
rescue StandardError => e
  puts "Error receiving messages: #{e.message}"
end

# Full example call:
# Replace us-west-2 with the AWS Region you're using for Amazon SQS.
def run_me
  region = 'us-west-2'
  queue_name = 'my-queue'
  max_number_of_messages = 10

  sts_client = Aws::STS::Client.new(region: region)

  # For example:
  # 'https://sqs.us-west-2.amazonaws.com/111111111111/my-queue'
  queue_url = "https://sqs.#{region}.amazonaws.com/#{sts_client.get_caller_identity.account}/#{queue_name}"

  sqs_client = Aws::SQS::Client.new(region: region)

  puts "Receiving messages from queue '#{queue_name}'..."

  receive_messages(sqs_client, queue_url, max_number_of_messages)
end

# Example usage:
run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/goto/SdkForRubyV3/sqs-2012-11-05/ReceiveMessage)di *Referensi AWS SDK untuk Ruby API*. 

### `SendMessage`
<a name="sqs_SendMessage_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sqs#code-examples). 

```
require 'aws-sdk-sqs'
require 'aws-sdk-sts'

# @param sqs_client [Aws::SQS::Client] An initialized Amazon SQS client.
# @param queue_url [String] The URL of the queue.
# @param message_body [String] The contents of the message to be sent.
# @return [Boolean] true if the message was sent; otherwise, false.
# @example
#   exit 1 unless message_sent?(
#     Aws::SQS::Client.new(region: 'us-west-2'),
#     'https://sqs.us-west-2.amazonaws.com/111111111111/my-queue',
#     'This is my message.'
#   )
def message_sent?(sqs_client, queue_url, message_body)
  sqs_client.send_message(
    queue_url: queue_url,
    message_body: message_body
  )
  true
rescue StandardError => e
  puts "Error sending message: #{e.message}"
  false
end

# Full example call:
# Replace us-west-2 with the AWS Region you're using for Amazon SQS.
def run_me
  region = 'us-west-2'
  queue_name = 'my-queue'
  message_body = 'This is my message.'

  sts_client = Aws::STS::Client.new(region: region)

  # For example:
  # 'https://sqs.us-west-2.amazonaws.com/111111111111/my-queue'
  queue_url = "https://sqs.#{region}.amazonaws.com/#{sts_client.get_caller_identity.account}/#{queue_name}"

  sqs_client = Aws::SQS::Client.new(region: region)

  puts "Sending a message to the queue named '#{queue_name}'..."

  if message_sent?(sqs_client, queue_url, message_body)
    puts 'Message sent.'
  else
    puts 'Message not sent.'
  end
end

# Example usage:
run_me if $PROGRAM_NAME == __FILE__
```
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/goto/SdkForRubyV3/sqs-2012-11-05/SendMessage)di *Referensi AWS SDK untuk Ruby API*. 

### `SendMessageBatch`
<a name="sqs_SendMessageBatch_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessageBatch`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/sqs#code-examples). 

```
require 'aws-sdk-sqs'
require 'aws-sdk-sts'

#
# @param sqs_client [Aws::SQS::Client] An initialized Amazon SQS client.
# @param queue_url [String] The URL of the queue.
# @param entries [Hash] The contents of the messages to be sent,
#   in the correct format.
# @return [Boolean] true if the messages were sent; otherwise, false.
# @example
#   exit 1 unless messages_sent?(
#     Aws::SQS::Client.new(region: 'us-west-2'),
#     'https://sqs.us-west-2.amazonaws.com/111111111111/my-queue',
#     [
#       {
#         id: 'Message1',
#         message_body: 'This is the first message.'
#       },
#       {
#         id: 'Message2',
#         message_body: 'This is the second message.'
#       }
#     ]
#   )
def messages_sent?(sqs_client, queue_url, entries)
  sqs_client.send_message_batch(
    queue_url: queue_url,
    entries: entries
  )
  true
rescue StandardError => e
  puts "Error sending messages: #{e.message}"
  false
end

# Full example call:
# Replace us-west-2 with the AWS Region you're using for Amazon SQS.
def run_me
  region = 'us-west-2'
  queue_name = 'my-queue'
  entries = [
    {
      id: 'Message1',
      message_body: 'This is the first message.'
    },
    {
      id: 'Message2',
      message_body: 'This is the second message.'
    }
  ]

  sts_client = Aws::STS::Client.new(region: region)

  # For example:
  # 'https://sqs.us-west-2.amazonaws.com/111111111111/my-queue'
  queue_url = "https://sqs.#{region}.amazonaws.com/#{sts_client.get_caller_identity.account}/#{queue_name}"

  sqs_client = Aws::SQS::Client.new(region: region)

  puts "Sending messages to the queue named '#{queue_name}'..."

  if messages_sent?(sqs_client, queue_url, entries)
    puts 'Messages sent.'
  else
    puts 'Messages not sent.'
  end
end
```
+  Untuk detail API, lihat [SendMessageBatch](https://docs.aws.amazon.com/goto/SdkForRubyV3/sqs-2012-11-05/SendMessageBatch)di *Referensi AWS SDK untuk Ruby API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_ruby_3_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
def lambda_handler(event:, context:)
  event['Records'].each do |message|
    process_message(message)
  end
  puts "done"
end

def process_message(message)
  begin
    puts "Processed message #{message['body']}"
    # TODO: Do interesting work based on the new message
  rescue StandardError => err
    puts "An error occurred"
    raise err
  end
end
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Ruby.  

```
# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
# SPDX-License-Identifier: Apache-2.0
require 'json'

def lambda_handler(event:, context:)
  if event
    batch_item_failures = []
    sqs_batch_response = {}

    event["Records"].each do |record|
      begin
        # process message
      rescue StandardError => e
        batch_item_failures << {"itemIdentifier" => record['messageId']}
      end
    end

    sqs_batch_response["batchItemFailures"] = batch_item_failures
    return sqs_batch_response
  end
end
```

# AWS STS contoh menggunakan SDK for Ruby
<a name="ruby_3_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK untuk Ruby**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/iam#code-examples). 

```
  # Creates an AWS Security Token Service (AWS STS) client with specified credentials.
  # This is separated into a factory function so that it can be mocked for unit testing.
  #
  # @param key_id [String] The ID of the access key used by the STS client.
  # @param key_secret [String] The secret part of the access key used by the STS client.
  def create_sts_client(key_id, key_secret)
    Aws::STS::Client.new(access_key_id: key_id, secret_access_key: key_secret)
  end

  # Gets temporary credentials that can be used to assume a role.
  #
  # @param role_arn [String] The ARN of the role that is assumed when these credentials
  #                          are used.
  # @param sts_client [AWS::STS::Client] An AWS STS client.
  # @return [Aws::AssumeRoleCredentials] The credentials that can be used to assume the role.
  def assume_role(role_arn, sts_client)
    credentials = Aws::AssumeRoleCredentials.new(
      client: sts_client,
      role_arn: role_arn,
      role_session_name: 'create-use-assume-role-scenario'
    )
    @logger.info("Assumed role '#{role_arn}', got temporary credentials.")
    credentials
  end
```
+  Untuk detail API, lihat [AssumeRole](https://docs.aws.amazon.com/goto/SdkForRubyV3/sts-2011-06-15/AssumeRole)di *Referensi AWS SDK untuk Ruby API*. 

# Contoh Amazon Texttract menggunakan SDK for Ruby
<a name="ruby_3_textract_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan Amazon Textract. AWS SDK untuk Ruby 

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Ruby**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/cross_service_examples/feedback_sentiment_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh Amazon Translate menggunakan SDK for Ruby
<a name="ruby_3_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Ruby with Amazon Translate.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Buat aplikasi untuk menganalisis umpan balik pelanggan
<a name="cross_FSA_ruby_3_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi yang menganalisis kartu komentar pelanggan, menerjemahkannya dari bahasa aslinya, menentukan sentimen mereka, dan menghasilkan file audio dari teks yang diterjemahkan.

**SDK untuk Ruby**  
 Aplikasi contoh ini menganalisis dan menyimpan kartu umpan balik pelanggan. Secara khusus, ini memenuhi kebutuhan hotel fiktif di New York City. Hotel menerima umpan balik dari para tamu dalam berbagai bahasa dalam bentuk kartu komentar fisik. Umpan balik itu diunggah ke aplikasi melalui klien web. Setelah gambar kartu komentar diunggah, langkah-langkah berikut terjadi:   
+ Teks diekstraksi dari gambar menggunakan Amazon Textract.
+ Amazon Comprehend menentukan sentimen teks yang diekstraksi dan bahasanya.
+ Teks yang diekstraksi diterjemahkan ke bahasa Inggris menggunakan Amazon Translate.
+ Amazon Polly mensintesis file audio dari teks yang diekstraksi.
 Aplikasi lengkap dapat digunakan dengan. AWS CDK Untuk kode sumber dan petunjuk penerapan, lihat proyek di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/cross_service_examples/feedback_sentiment_analyzer).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Comprehend
+ Lambda
+ Amazon Polly
+ Amazon Textract
+ Amazon Translate

# Contoh kode untuk SDK untuk Rust
<a name="rust_1_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk Rust dengan AWS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK for Rust Developer Guide](https://docs.aws.amazon.com/sdk-for-rust/latest/dg/welcome.html)** — Lebih lanjut tentang menggunakan Rust dengan AWS. 
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23rust)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [API Gateway](rust_1_api-gateway_code_examples.md)
+ [API Manajemen API Gateway](rust_1_apigatewaymanagementapi_code_examples.md)
+ [Penskalaan Otomatis Aplikasi](rust_1_application-auto-scaling_code_examples.md)
+ [Aurora](rust_1_aurora_code_examples.md)
+ [Auto Scaling](rust_1_auto-scaling_code_examples.md)
+ [Runtime Amazon Bedrock](rust_1_bedrock-runtime_code_examples.md)
+ [Runtime Agen Batuan Dasar Amazon](rust_1_bedrock-agent-runtime_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](rust_1_cognito-identity-provider_code_examples.md)
+ [Amazon Cognito Sync](rust_1_cognito-sync_code_examples.md)
+ [Firehose](rust_1_firehose_code_examples.md)
+ [Amazon DocumentDB](rust_1_docdb_code_examples.md)
+ [DynamoDB](rust_1_dynamodb_code_examples.md)
+ [Amazon EBS](rust_1_ebs_code_examples.md)
+ [Amazon EC2](rust_1_ec2_code_examples.md)
+ [Amazon ECR](rust_1_ecr_code_examples.md)
+ [Amazon ECS](rust_1_ecs_code_examples.md)
+ [Amazon EKS](rust_1_eks_code_examples.md)
+ [AWS Glue](rust_1_glue_code_examples.md)
+ [IAM](rust_1_iam_code_examples.md)
+ [AWS IoT](rust_1_iot_code_examples.md)
+ [Kinesis](rust_1_kinesis_code_examples.md)
+ [AWS KMS](rust_1_kms_code_examples.md)
+ [Lambda](rust_1_lambda_code_examples.md)
+ [MediaLive](rust_1_medialive_code_examples.md)
+ [MediaPackage](rust_1_mediapackage_code_examples.md)
+ [Amazon MSK](rust_1_kafka_code_examples.md)
+ [Amazon Polly](rust_1_polly_code_examples.md)
+ [Amazon RDS](rust_1_rds_code_examples.md)
+ [Layanan Data Amazon RDS](rust_1_rds-data_code_examples.md)
+ [Amazon Rekognition](rust_1_rekognition_code_examples.md)
+ [Route 53](rust_1_route-53_code_examples.md)
+ [Amazon S3](rust_1_s3_code_examples.md)
+ [SageMaker AI](rust_1_sagemaker_code_examples.md)
+ [Secrets Manager](rust_1_secrets-manager_code_examples.md)
+ [Amazon SES API v2](rust_1_sesv2_code_examples.md)
+ [Amazon SNS](rust_1_sns_code_examples.md)
+ [Amazon SQS](rust_1_sqs_code_examples.md)
+ [AWS STS](rust_1_sts_code_examples.md)
+ [Systems Manager](rust_1_ssm_code_examples.md)
+ [Amazon Transcribe](rust_1_transcribe_code_examples.md)

# Contoh API Gateway menggunakan SDK untuk Rust
<a name="rust_1_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan API Gateway.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Tindakan
<a name="actions"></a>

### `GetRestApis`
<a name="api-gateway_GetRestApis_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRestApis`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/apigateway#code-examples). 
Menampilkan REST Amazon API Gateway APIs di Wilayah.  

```
async fn show_apis(client: &Client) -> Result<(), Error> {
    let resp = client.get_rest_apis().send().await?;

    for api in resp.items() {
        println!("ID:          {}", api.id().unwrap_or_default());
        println!("Name:        {}", api.name().unwrap_or_default());
        println!("Description: {}", api.description().unwrap_or_default());
        println!("Version:     {}", api.version().unwrap_or_default());
        println!(
            "Created:     {}",
            api.created_date().unwrap().to_chrono_utc()?
        );
        println!();
    }

    Ok(())
}
```
+  Untuk detail API, lihat [GetRestApis](https://docs.rs/aws-sdk-apigateway/latest/aws_sdk_apigateway/client/struct.Client.html#method.get_rest_apis)*referensi AWS SDK for Rust API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK for Rust**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/cross_service/photo_asset_management).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK for Rust**  
 Menunjukkan cara membuat dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Rust SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-rust-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh API Gateway Management API menggunakan SDK for Rust
<a name="rust_1_apigatewaymanagementapi_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan API Gateway Management API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PostToConnection`
<a name="apigatewaymanagementapi_PostToConnection_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PostToConnection`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/apigatewaymanagement#code-examples). 

```
async fn send_data(
    client: &aws_sdk_apigatewaymanagement::Client,
    con_id: &str,
    data: &str,
) -> Result<(), aws_sdk_apigatewaymanagement::Error> {
    client
        .post_to_connection()
        .connection_id(con_id)
        .data(Blob::new(data))
        .send()
        .await?;

    Ok(())
}

    let endpoint_url = format!(
        "https://{api_id}.execute-api.{region}.amazonaws.com/{stage}",
        api_id = api_id,
        region = region,
        stage = stage
    );

    let shared_config = aws_config::from_env().region(region_provider).load().await;
    let api_management_config = config::Builder::from(&shared_config)
        .endpoint_url(endpoint_url)
        .build();
    let client = Client::from_conf(api_management_config);
```
+  Untuk detail API, lihat [PostToConnection](https://docs.rs/aws-sdk-apigatewaymanagementapi/latest/aws_sdk_apigatewaymanagementapi/client/struct.Client.html#method.post_to_connection)*referensi AWS SDK for Rust API*. 

# Contoh Application Auto Scaling menggunakan SDK untuk Rust
<a name="rust_1_application-auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Application Auto Scaling.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DescribeScalingPolicies`
<a name="application-auto-scaling_DescribeScalingPolicies_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingPolicies`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/applicationautoscaling#code-examples). 

```
async fn show_policies(client: &Client) -> Result<(), Error> {
    let response = client
        .describe_scaling_policies()
        .service_namespace(ServiceNamespace::Ec2)
        .send()
        .await?;
    println!("Auto Scaling Policies:");
    for policy in response.scaling_policies() {
        println!("{:?}\n", policy);
    }
    println!("Next token: {:?}", response.next_token());

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeScalingPolicies](https://docs.rs/aws-sdk-applicationautoscaling/latest/aws_sdk_applicationautoscaling/client/struct.Client.html#method.describe_scaling_policies)*referensi AWS SDK for Rust API*. 

# Contoh Aurora menggunakan SDK untuk Rust
<a name="rust_1_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Rust dengan Aurora.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Aurora
<a name="aurora_Hello_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan Aurora.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
use aws_sdk_rds::Client;

#[derive(Debug)]
struct Error(String);
impl std::fmt::Display for Error {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "{}", self.0)
    }
}
impl std::error::Error for Error {}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt::init();
    let sdk_config = aws_config::from_env().load().await;
    let client = Client::new(&sdk_config);

    let describe_db_clusters_output = client
        .describe_db_clusters()
        .send()
        .await
        .map_err(|e| Error(e.to_string()))?;
    println!(
        "Found {} clusters:",
        describe_db_clusters_output.db_clusters().len()
    );
    for cluster in describe_db_clusters_output.db_clusters() {
        let name = cluster.database_name().unwrap_or("Unknown");
        let engine = cluster.engine().unwrap_or("Unknown");
        let id = cluster.db_cluster_identifier().unwrap_or("Unknown");
        let class = cluster.db_cluster_instance_class().unwrap_or("Unknown");
        println!("\tDatabase: {name}",);
        println!("\t  Engine: {engine}",);
        println!("\t      ID: {id}",);
        println!("\tInstance: {class}",);
    }

    Ok(())
}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_clusters) di *AWS SDK untuk referensi API Rust*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="aurora_Scenario_GetStartedClusters_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter klaster DB Aurora dan mengatur nilai parameter.
+ Membuat klaster DB yang menggunakan grup parameter.
+ Membuat instans DB yang berisi basis data.
+ Mengambil snapshot klaster DB, lalu membersihkan sumber daya.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankan di [Repositori Contoh AWS Kode](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 
Pustaka yang berisi fungsi khusus skenario untuk skenario Aurora.  

```
use phf::{phf_set, Set};
use secrecy::SecretString;
use std::{collections::HashMap, fmt::Display, time::Duration};

use aws_sdk_rds::{
    error::ProvideErrorMetadata,
    operation::create_db_cluster_parameter_group::CreateDbClusterParameterGroupOutput,
    types::{DbCluster, DbClusterParameterGroup, DbClusterSnapshot, DbInstance, Parameter},
};
use sdk_examples_test_utils::waiter::Waiter;
use tracing::{info, trace, warn};

const DB_ENGINE: &str = "aurora-mysql";
const DB_CLUSTER_PARAMETER_GROUP_NAME: &str = "RustSDKCodeExamplesDBParameterGroup";
const DB_CLUSTER_PARAMETER_GROUP_DESCRIPTION: &str =
    "Parameter Group created by Rust SDK Code Example";
const DB_CLUSTER_IDENTIFIER: &str = "RustSDKCodeExamplesDBCluster";
const DB_INSTANCE_IDENTIFIER: &str = "RustSDKCodeExamplesDBInstance";

static FILTER_PARAMETER_NAMES: Set<&'static str> = phf_set! {
    "auto_increment_offset",
    "auto_increment_increment",
};

#[derive(Debug, PartialEq, Eq)]
struct MetadataError {
    message: Option<String>,
    code: Option<String>,
}

impl MetadataError {
    fn from(err: &dyn ProvideErrorMetadata) -> Self {
        MetadataError {
            message: err.message().map(String::from),
            code: err.code().map(String::from),
        }
    }
}

impl Display for MetadataError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        let display = match (&self.message, &self.code) {
            (None, None) => "Unknown".to_string(),
            (None, Some(code)) => format!("({code})"),
            (Some(message), None) => message.to_string(),
            (Some(message), Some(code)) => format!("{message} ({code})"),
        };
        write!(f, "{display}")
    }
}

#[derive(Debug, PartialEq, Eq)]
pub struct ScenarioError {
    message: String,
    context: Option<MetadataError>,
}

impl ScenarioError {
    pub fn with(message: impl Into<String>) -> Self {
        ScenarioError {
            message: message.into(),
            context: None,
        }
    }

    pub fn new(message: impl Into<String>, err: &dyn ProvideErrorMetadata) -> Self {
        ScenarioError {
            message: message.into(),
            context: Some(MetadataError::from(err)),
        }
    }
}

impl std::error::Error for ScenarioError {}
impl Display for ScenarioError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        match &self.context {
            Some(c) => write!(f, "{}: {}", self.message, c),
            None => write!(f, "{}", self.message),
        }
    }
}

// Parse the ParameterName, Description, and AllowedValues values and display them.
#[derive(Debug)]
pub struct AuroraScenarioParameter {
    name: String,
    allowed_values: String,
    current_value: String,
}

impl Display for AuroraScenarioParameter {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(
            f,
            "{}: {} (allowed: {})",
            self.name, self.current_value, self.allowed_values
        )
    }
}

impl From<aws_sdk_rds::types::Parameter> for AuroraScenarioParameter {
    fn from(value: aws_sdk_rds::types::Parameter) -> Self {
        AuroraScenarioParameter {
            name: value.parameter_name.unwrap_or_default(),
            allowed_values: value.allowed_values.unwrap_or_default(),
            current_value: value.parameter_value.unwrap_or_default(),
        }
    }
}

pub struct AuroraScenario {
    rds: crate::rds::Rds,
    engine_family: Option<String>,
    engine_version: Option<String>,
    instance_class: Option<String>,
    db_cluster_parameter_group: Option<DbClusterParameterGroup>,
    db_cluster_identifier: Option<String>,
    db_instance_identifier: Option<String>,
    username: Option<String>,
    password: Option<SecretString>,
}

impl AuroraScenario {
    pub fn new(client: crate::rds::Rds) -> Self {
        AuroraScenario {
            rds: client,
            engine_family: None,
            engine_version: None,
            instance_class: None,
            db_cluster_parameter_group: None,
            db_cluster_identifier: None,
            db_instance_identifier: None,
            username: None,
            password: None,
        }
    }

    // Get available engine families for Aurora MySql. rds.DescribeDbEngineVersions(Engine='aurora-mysql') and build a set of the 'DBParameterGroupFamily' field values. I get {aurora-mysql8.0, aurora-mysql5.7}.
    pub async fn get_engines(&self) -> Result<HashMap<String, Vec<String>>, ScenarioError> {
        let describe_db_engine_versions = self.rds.describe_db_engine_versions(DB_ENGINE).await;
        trace!(versions=?describe_db_engine_versions, "full list of versions");

        if let Err(err) = describe_db_engine_versions {
            return Err(ScenarioError::new(
                "Failed to retrieve DB Engine Versions",
                &err,
            ));
        };

        let version_count = describe_db_engine_versions
            .as_ref()
            .map(|o| o.db_engine_versions().len())
            .unwrap_or_default();
        info!(version_count, "got list of versions");

        // Create a map of engine families to their available versions.
        let mut versions = HashMap::<String, Vec<String>>::new();
        describe_db_engine_versions
            .unwrap()
            .db_engine_versions()
            .iter()
            .filter_map(
                |v| match (&v.db_parameter_group_family, &v.engine_version) {
                    (Some(family), Some(version)) => Some((family.clone(), version.clone())),
                    _ => None,
                },
            )
            .for_each(|(family, version)| versions.entry(family).or_default().push(version));

        Ok(versions)
    }

    pub async fn get_instance_classes(&self) -> Result<Vec<String>, ScenarioError> {
        let describe_orderable_db_instance_options_items = self
            .rds
            .describe_orderable_db_instance_options(
                DB_ENGINE,
                self.engine_version
                    .as_ref()
                    .expect("engine version for db instance options")
                    .as_str(),
            )
            .await;

        describe_orderable_db_instance_options_items
            .map(|options| {
                options
                    .iter()
                    .filter(|o| o.storage_type() == Some("aurora"))
                    .map(|o| o.db_instance_class().unwrap_or_default().to_string())
                    .collect::<Vec<String>>()
            })
            .map_err(|err| ScenarioError::new("Could not get available instance classes", &err))
    }

    // Select an engine family and create a custom DB cluster parameter group. rds.CreateDbClusterParameterGroup(DBParameterGroupFamily='aurora-mysql8.0')
    pub async fn set_engine(&mut self, engine: &str, version: &str) -> Result<(), ScenarioError> {
        self.engine_family = Some(engine.to_string());
        self.engine_version = Some(version.to_string());
        let create_db_cluster_parameter_group = self
            .rds
            .create_db_cluster_parameter_group(
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                DB_CLUSTER_PARAMETER_GROUP_DESCRIPTION,
                engine,
            )
            .await;

        match create_db_cluster_parameter_group {
            Ok(CreateDbClusterParameterGroupOutput {
                db_cluster_parameter_group: None,
                ..
            }) => {
                return Err(ScenarioError::with(
                    "CreateDBClusterParameterGroup had empty response",
                ));
            }
            Err(error) => {
                if error.code() == Some("DBParameterGroupAlreadyExists") {
                    info!("Cluster Parameter Group already exists, nothing to do");
                } else {
                    return Err(ScenarioError::new(
                        "Could not create Cluster Parameter Group",
                        &error,
                    ));
                }
            }
            _ => {
                info!("Created Cluster Parameter Group");
            }
        }

        Ok(())
    }

    pub fn set_instance_class(&mut self, instance_class: Option<String>) {
        self.instance_class = instance_class;
    }

    pub fn set_login(&mut self, username: Option<String>, password: Option<SecretString>) {
        self.username = username;
        self.password = password;
    }

    pub async fn connection_string(&self) -> Result<String, ScenarioError> {
        let cluster = self.get_cluster().await?;
        let endpoint = cluster.endpoint().unwrap_or_default();
        let port = cluster.port().unwrap_or_default();
        let username = cluster.master_username().unwrap_or_default();
        Ok(format!("mysql -h {endpoint} -P {port} -u {username} -p"))
    }

    pub async fn get_cluster(&self) -> Result<DbCluster, ScenarioError> {
        let describe_db_clusters_output = self
            .rds
            .describe_db_clusters(
                self.db_cluster_identifier
                    .as_ref()
                    .expect("cluster identifier")
                    .as_str(),
            )
            .await;
        if let Err(err) = describe_db_clusters_output {
            return Err(ScenarioError::new("Failed to get cluster", &err));
        }

        let db_cluster = describe_db_clusters_output
            .unwrap()
            .db_clusters
            .and_then(|output| output.first().cloned());

        db_cluster.ok_or_else(|| ScenarioError::with("Did not find the cluster"))
    }

    // Get the parameter group. rds.DescribeDbClusterParameterGroups
    // Get parameters in the group. This is a long list so you will have to paginate. Find the auto_increment_offset and auto_increment_increment parameters (by ParameterName). rds.DescribeDbClusterParameters
    // Parse the ParameterName, Description, and AllowedValues values and display them.
    pub async fn cluster_parameters(&self) -> Result<Vec<AuroraScenarioParameter>, ScenarioError> {
        let parameters_output = self
            .rds
            .describe_db_cluster_parameters(DB_CLUSTER_PARAMETER_GROUP_NAME)
            .await;

        if let Err(err) = parameters_output {
            return Err(ScenarioError::new(
                format!("Failed to retrieve parameters for {DB_CLUSTER_PARAMETER_GROUP_NAME}"),
                &err,
            ));
        }

        let parameters = parameters_output
            .unwrap()
            .into_iter()
            .flat_map(|p| p.parameters.unwrap_or_default().into_iter())
            .filter(|p| FILTER_PARAMETER_NAMES.contains(p.parameter_name().unwrap_or_default()))
            .map(AuroraScenarioParameter::from)
            .collect::<Vec<_>>();

        Ok(parameters)
    }

    // Modify both the auto_increment_offset and auto_increment_increment parameters in one call in the custom parameter group. Set their ParameterValue fields to a new allowable value. rds.ModifyDbClusterParameterGroup.
    pub async fn update_auto_increment(
        &self,
        offset: u8,
        increment: u8,
    ) -> Result<(), ScenarioError> {
        let modify_db_cluster_parameter_group = self
            .rds
            .modify_db_cluster_parameter_group(
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                vec![
                    Parameter::builder()
                        .parameter_name("auto_increment_offset")
                        .parameter_value(format!("{offset}"))
                        .apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
                        .build(),
                    Parameter::builder()
                        .parameter_name("auto_increment_increment")
                        .parameter_value(format!("{increment}"))
                        .apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
                        .build(),
                ],
            )
            .await;

        if let Err(error) = modify_db_cluster_parameter_group {
            return Err(ScenarioError::new(
                "Failed to modify cluster parameter group",
                &error,
            ));
        }

        Ok(())
    }

    // Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=<the family used to create your parameter group in step 2>)
    // Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
    // Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
    // Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).

    // Create a database instance in the cluster.
    // Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
    pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
        if self.password.is_none() {
            return Err(ScenarioError::with(
                "Must set Secret Password before starting a cluster",
            ));
        }
        let create_db_cluster = self
            .rds
            .create_db_cluster(
                DB_CLUSTER_IDENTIFIER,
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                DB_ENGINE,
                self.engine_version.as_deref().expect("engine version"),
                self.username.as_deref().expect("username"),
                self.password
                    .replace(SecretString::new("".to_string()))
                    .expect("password"),
            )
            .await;
        if let Err(err) = create_db_cluster {
            return Err(ScenarioError::new(
                "Failed to create DB Cluster with cluster group",
                &err,
            ));
        }

        self.db_cluster_identifier = create_db_cluster
            .unwrap()
            .db_cluster
            .and_then(|c| c.db_cluster_identifier);

        if self.db_cluster_identifier.is_none() {
            return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
        }

        info!(
            "Started a db cluster: {}",
            self.db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing ARN")
        );

        let create_db_instance = self
            .rds
            .create_db_instance(
                self.db_cluster_identifier.as_deref().expect("cluster name"),
                DB_INSTANCE_IDENTIFIER,
                self.instance_class.as_deref().expect("instance class"),
                DB_ENGINE,
            )
            .await;
        if let Err(err) = create_db_instance {
            return Err(ScenarioError::new(
                "Failed to create Instance in DB Cluster",
                &err,
            ));
        }

        self.db_instance_identifier = create_db_instance
            .unwrap()
            .db_instance
            .and_then(|i| i.db_instance_identifier);

        // Cluster creation can take up to 20 minutes to become available
        let cluster_max_wait = Duration::from_secs(20 * 60);
        let waiter = Waiter::builder().max(cluster_max_wait).build();
        while waiter.sleep().await.is_ok() {
            let cluster = self
                .rds
                .describe_db_clusters(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = cluster {
                warn!(?err, "Failed to describe cluster while waiting for ready");
                continue;
            }

            let instance = self
                .rds
                .describe_db_instance(
                    self.db_instance_identifier
                        .as_deref()
                        .expect("instance identifier"),
                )
                .await;
            if let Err(err) = instance {
                return Err(ScenarioError::new(
                    "Failed to find instance for cluster",
                    &err,
                ));
            }

            let instances_available = instance
                .unwrap()
                .db_instances()
                .iter()
                .all(|instance| instance.db_instance_status() == Some("Available"));

            let endpoints = self
                .rds
                .describe_db_cluster_endpoints(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = endpoints {
                return Err(ScenarioError::new(
                    "Failed to find endpoint for cluster",
                    &err,
                ));
            }

            let endpoints_available = endpoints
                .unwrap()
                .db_cluster_endpoints()
                .iter()
                .all(|endpoint| endpoint.status() == Some("available"));

            if instances_available && endpoints_available {
                return Ok(());
            }
        }

        Err(ScenarioError::with("timed out waiting for cluster"))
    }

    // Create a snapshot of the DB cluster. rds.CreateDbClusterSnapshot.
    // Wait for the snapshot to create. rds.DescribeDbClusterSnapshots until Status == 'available'.
    pub async fn snapshot(&self, name: &str) -> Result<DbClusterSnapshot, ScenarioError> {
        let id = self.db_cluster_identifier.as_deref().unwrap_or_default();
        let snapshot = self
            .rds
            .snapshot_cluster(id, format!("{id}_{name}").as_str())
            .await;
        match snapshot {
            Ok(output) => match output.db_cluster_snapshot {
                Some(snapshot) => Ok(snapshot),
                None => Err(ScenarioError::with("Missing Snapshot")),
            },
            Err(err) => Err(ScenarioError::new("Failed to create snapshot", &err)),
        }
    }

    pub async fn clean_up(self) -> Result<(), Vec<ScenarioError>> {
        let mut clean_up_errors: Vec<ScenarioError> = vec![];

        // Delete the instance. rds.DeleteDbInstance.
        let delete_db_instance = self
            .rds
            .delete_db_instance(
                self.db_instance_identifier
                    .as_deref()
                    .expect("instance identifier"),
            )
            .await;
        if let Err(err) = delete_db_instance {
            let identifier = self
                .db_instance_identifier
                .as_deref()
                .unwrap_or("Missing Instance Identifier");
            let message = format!("failed to delete db instance {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance to delete
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_instances = self.rds.describe_db_instances().await;
                if let Err(err) = describe_db_instances {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check instance state during deletion",
                        &err,
                    ));
                    break;
                }
                let db_instances = describe_db_instances
                    .unwrap()
                    .db_instances()
                    .iter()
                    .filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
                    .cloned()
                    .collect::<Vec<DbInstance>>();

                if db_instances.is_empty() {
                    trace!("Delete Instance waited and no instances were found");
                    break;
                }
                match db_instances.first().unwrap().db_instance_status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but instances is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB instance");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster. rds.DeleteDbCluster.
        let delete_db_cluster = self
            .rds
            .delete_db_cluster(
                self.db_cluster_identifier
                    .as_deref()
                    .expect("cluster identifier"),
            )
            .await;

        if let Err(err) = delete_db_cluster {
            let identifier = self
                .db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing DB Cluster Identifier");
            let message = format!("failed to delete db cluster {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_clusters = self
                    .rds
                    .describe_db_clusters(
                        self.db_cluster_identifier
                            .as_deref()
                            .expect("cluster identifier"),
                    )
                    .await;
                if let Err(err) = describe_db_clusters {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check cluster state during deletion",
                        &err,
                    ));
                    break;
                }
                let describe_db_clusters = describe_db_clusters.unwrap();
                let db_clusters = describe_db_clusters.db_clusters();
                if db_clusters.is_empty() {
                    trace!("Delete cluster waited and no clusters were found");
                    break;
                }
                match db_clusters.first().unwrap().status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but clusters is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB cluster");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
        let delete_db_cluster_parameter_group = self
            .rds
            .delete_db_cluster_parameter_group(
                self.db_cluster_parameter_group
                    .map(|g| {
                        g.db_cluster_parameter_group_name
                            .unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
                    })
                    .as_deref()
                    .expect("cluster parameter group name"),
            )
            .await;
        if let Err(error) = delete_db_cluster_parameter_group {
            clean_up_errors.push(ScenarioError::new(
                "Failed to delete the db cluster parameter group",
                &error,
            ))
        }

        if clean_up_errors.is_empty() {
            Ok(())
        } else {
            Err(clean_up_errors)
        }
    }
}

#[cfg(test)]
pub mod tests;
```
Pengujian untuk pustaka menggunakan automock di sekitar pembungkus Klien RDS.  

```
use crate::rds::MockRdsImpl;

use super::*;

use std::io::{Error, ErrorKind};

use assert_matches::assert_matches;
use aws_sdk_rds::{
    error::SdkError,
    operation::{
        create_db_cluster::{CreateDBClusterError, CreateDbClusterOutput},
        create_db_cluster_parameter_group::CreateDBClusterParameterGroupError,
        create_db_cluster_snapshot::{CreateDBClusterSnapshotError, CreateDbClusterSnapshotOutput},
        create_db_instance::{CreateDBInstanceError, CreateDbInstanceOutput},
        delete_db_cluster::DeleteDbClusterOutput,
        delete_db_cluster_parameter_group::DeleteDbClusterParameterGroupOutput,
        delete_db_instance::DeleteDbInstanceOutput,
        describe_db_cluster_endpoints::DescribeDbClusterEndpointsOutput,
        describe_db_cluster_parameters::{
            DescribeDBClusterParametersError, DescribeDbClusterParametersOutput,
        },
        describe_db_clusters::{DescribeDBClustersError, DescribeDbClustersOutput},
        describe_db_engine_versions::{
            DescribeDBEngineVersionsError, DescribeDbEngineVersionsOutput,
        },
        describe_db_instances::{DescribeDBInstancesError, DescribeDbInstancesOutput},
        describe_orderable_db_instance_options::DescribeOrderableDBInstanceOptionsError,
        modify_db_cluster_parameter_group::{
            ModifyDBClusterParameterGroupError, ModifyDbClusterParameterGroupOutput,
        },
    },
    types::{
        error::DbParameterGroupAlreadyExistsFault, DbClusterEndpoint, DbEngineVersion,
        OrderableDbInstanceOption,
    },
};
use aws_smithy_runtime_api::http::{Response, StatusCode};
use aws_smithy_types::body::SdkBody;
use mockall::predicate::eq;
use secrecy::ExposeSecret;

#[tokio::test]
async fn test_scenario_set_engine() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .with(
            eq("RustSDKCodeExamplesDBParameterGroup"),
            eq("Parameter Group created by Rust SDK Code Example"),
            eq("aurora-mysql"),
        )
        .return_once(|_, _, _| {
            Ok(CreateDbClusterParameterGroupOutput::builder()
                .db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);

    let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;

    assert_eq!(set_engine, Ok(()));
    assert_eq!(Some("aurora-mysql"), scenario.engine_family.as_deref());
    assert_eq!(Some("aurora-mysql8.0"), scenario.engine_version.as_deref());
}

#[tokio::test]
async fn test_scenario_set_engine_not_create() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .with(
            eq("RustSDKCodeExamplesDBParameterGroup"),
            eq("Parameter Group created by Rust SDK Code Example"),
            eq("aurora-mysql"),
        )
        .return_once(|_, _, _| Ok(CreateDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);

    let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;

    assert!(set_engine.is_err());
}

#[tokio::test]
async fn test_scenario_set_engine_param_group_exists() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .withf(|_, _, _| true)
        .return_once(|_, _, _| {
            Err(SdkError::service_error(
                CreateDBClusterParameterGroupError::DbParameterGroupAlreadyExistsFault(
                    DbParameterGroupAlreadyExistsFault::builder().build(),
                ),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);

    let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;

    assert!(set_engine.is_err());
}

#[tokio::test]
async fn test_scenario_get_engines() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_engine_versions()
        .with(eq("aurora-mysql"))
        .return_once(|_| {
            Ok(DescribeDbEngineVersionsOutput::builder()
                .db_engine_versions(
                    DbEngineVersion::builder()
                        .db_parameter_group_family("f1")
                        .engine_version("f1a")
                        .build(),
                )
                .db_engine_versions(
                    DbEngineVersion::builder()
                        .db_parameter_group_family("f1")
                        .engine_version("f1b")
                        .build(),
                )
                .db_engine_versions(
                    DbEngineVersion::builder()
                        .db_parameter_group_family("f2")
                        .engine_version("f2a")
                        .build(),
                )
                .db_engine_versions(DbEngineVersion::builder().build())
                .build())
        });

    let scenario = AuroraScenario::new(mock_rds);

    let versions_map = scenario.get_engines().await;

    assert_eq!(
        versions_map,
        Ok(HashMap::from([
            ("f1".into(), vec!["f1a".into(), "f1b".into()]),
            ("f2".into(), vec!["f2a".into()])
        ]))
    );
}

#[tokio::test]
async fn test_scenario_get_engines_failed() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_engine_versions()
        .with(eq("aurora-mysql"))
        .return_once(|_| {
            Err(SdkError::service_error(
                DescribeDBEngineVersionsError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe_db_engine_versions error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let scenario = AuroraScenario::new(mock_rds);

    let versions_map = scenario.get_engines().await;
    assert_matches!(
        versions_map,
        Err(ScenarioError { message, context: _ }) if message == "Failed to retrieve DB Engine Versions"
    );
}

#[tokio::test]
async fn test_scenario_get_instance_classes() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .return_once(|_, _, _| {
            Ok(CreateDbClusterParameterGroupOutput::builder()
                .db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
                .build())
        });

    mock_rds
        .expect_describe_orderable_db_instance_options()
        .with(eq("aurora-mysql"), eq("aurora-mysql8.0"))
        .return_once(|_, _| {
            Ok(vec![
                OrderableDbInstanceOption::builder()
                    .db_instance_class("t1")
                    .storage_type("aurora")
                    .build(),
                OrderableDbInstanceOption::builder()
                    .db_instance_class("t1")
                    .storage_type("aurora-iopt1")
                    .build(),
                OrderableDbInstanceOption::builder()
                    .db_instance_class("t2")
                    .storage_type("aurora")
                    .build(),
                OrderableDbInstanceOption::builder()
                    .db_instance_class("t3")
                    .storage_type("aurora")
                    .build(),
            ])
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario
        .set_engine("aurora-mysql", "aurora-mysql8.0")
        .await
        .expect("set engine");

    let instance_classes = scenario.get_instance_classes().await;

    assert_eq!(
        instance_classes,
        Ok(vec!["t1".into(), "t2".into(), "t3".into()])
    );
}

#[tokio::test]
async fn test_scenario_get_instance_classes_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_orderable_db_instance_options()
        .with(eq("aurora-mysql"), eq("aurora-mysql8.0"))
        .return_once(|_, _| {
            Err(SdkError::service_error(
                DescribeOrderableDBInstanceOptionsError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe_orderable_db_instance_options_error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_family = Some("aurora-mysql".into());
    scenario.engine_version = Some("aurora-mysql8.0".into());

    let instance_classes = scenario.get_instance_classes().await;

    assert_matches!(
        instance_classes,
        Err(ScenarioError {message, context: _}) if message == "Could not get available instance classes"
    );
}

#[tokio::test]
async fn test_scenario_get_cluster() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
    let cluster = scenario.get_cluster().await;

    assert!(cluster.is_ok());
}

#[tokio::test]
async fn test_scenario_get_cluster_missing_cluster() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .return_once(|_, _, _| {
            Ok(CreateDbClusterParameterGroupOutput::builder()
                .db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| Ok(DescribeDbClustersOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
    let cluster = scenario.get_cluster().await;

    assert_matches!(cluster, Err(ScenarioError { message, context: _ }) if message == "Did not find the cluster");
}

#[tokio::test]
async fn test_scenario_get_cluster_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .return_once(|_, _, _| {
            Ok(CreateDbClusterParameterGroupOutput::builder()
                .db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe_db_clusters_error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
    let cluster = scenario.get_cluster().await;

    assert_matches!(cluster, Err(ScenarioError { message, context: _ }) if message == "Failed to get cluster");
}

#[tokio::test]
async fn test_scenario_connection_string() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .endpoint("test_endpoint")
                        .port(3306)
                        .master_username("test_username")
                        .build(),
                )
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
    let connection_string = scenario.connection_string().await;

    assert_eq!(
        connection_string,
        Ok("mysql -h test_endpoint -P 3306 -u test_username -p".into())
    );
}

#[tokio::test]
async fn test_scenario_cluster_parameters() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_cluster_parameters()
        .with(eq("RustSDKCodeExamplesDBParameterGroup"))
        .return_once(|_| {
            Ok(vec![DescribeDbClusterParametersOutput::builder()
                .parameters(Parameter::builder().parameter_name("a").build())
                .parameters(Parameter::builder().parameter_name("b").build())
                .parameters(
                    Parameter::builder()
                        .parameter_name("auto_increment_offset")
                        .build(),
                )
                .parameters(Parameter::builder().parameter_name("c").build())
                .parameters(
                    Parameter::builder()
                        .parameter_name("auto_increment_increment")
                        .build(),
                )
                .parameters(Parameter::builder().parameter_name("d").build())
                .build()])
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());

    let params = scenario.cluster_parameters().await.expect("cluster params");
    let names: Vec<String> = params.into_iter().map(|p| p.name).collect();
    assert_eq!(
        names,
        vec!["auto_increment_offset", "auto_increment_increment"]
    );
}

#[tokio::test]
async fn test_scenario_cluster_parameters_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_cluster_parameters()
        .with(eq("RustSDKCodeExamplesDBParameterGroup"))
        .return_once(|_| {
            Err(SdkError::service_error(
                DescribeDBClusterParametersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe_db_cluster_parameters_error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
    let params = scenario.cluster_parameters().await;
    assert_matches!(params, Err(ScenarioError { message, context: _ }) if message == "Failed to retrieve parameters for RustSDKCodeExamplesDBParameterGroup");
}

#[tokio::test]
async fn test_scenario_update_auto_increment() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_modify_db_cluster_parameter_group()
        .withf(|name, params| {
            assert_eq!(name, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(
                params,
                &vec![
                    Parameter::builder()
                        .parameter_name("auto_increment_offset")
                        .parameter_value("10")
                        .apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
                        .build(),
                    Parameter::builder()
                        .parameter_name("auto_increment_increment")
                        .parameter_value("20")
                        .apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
                        .build(),
                ]
            );
            true
        })
        .return_once(|_, _| Ok(ModifyDbClusterParameterGroupOutput::builder().build()));

    let scenario = AuroraScenario::new(mock_rds);

    scenario
        .update_auto_increment(10, 20)
        .await
        .expect("update auto increment");
}

#[tokio::test]
async fn test_scenario_update_auto_increment_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_modify_db_cluster_parameter_group()
        .return_once(|_, _| {
            Err(SdkError::service_error(
                ModifyDBClusterParameterGroupError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "modify_db_cluster_parameter_group_error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let scenario = AuroraScenario::new(mock_rds);

    let update = scenario.update_auto_increment(10, 20).await;
    assert_matches!(update, Err(ScenarioError { message, context: _}) if message == "Failed to modify cluster parameter group");
}

#[tokio::test]
async fn test_start_cluster_and_instance() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_describe_db_instance()
        .with(eq("RustSDKCodeExamplesDBInstance"))
        .return_once(|name| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_instance_identifier(name)
                        .db_instance_status("Available")
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
        assert!(scenario
            .password
            .replace(SecretString::new("BAD SECRET".into()))
            .unwrap()
            .expose_secret()
            .is_empty());
        assert_eq!(
            scenario.db_cluster_identifier,
            Some("RustSDKCodeExamplesDBCluster".into())
        );
    });
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Err(SdkError::service_error(
                CreateDBClusterError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}

#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .return_once(|_, _, _, _| {
            Err(SdkError::service_error(
                CreateDBInstanceError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db instance error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}

#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        })
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds.expect_describe_db_instance().return_once(|name| {
        Ok(DescribeDbInstancesOutput::builder()
            .db_instances(
                DbInstance::builder()
                    .db_instance_identifier(name)
                    .db_instance_status("Available")
                    .build(),
            )
            .build())
    });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_scenario_clean_up() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| Ok(DescribeDbInstancesOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| Ok(DescribeDbClustersOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_scenario_clean_up_errors() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| {
            Err(SdkError::service_error(
                DescribeDBInstancesError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db instances error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db clusters error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_err());
        let errs = clean_up.unwrap_err();
        assert_eq!(errs.len(), 2);
        assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
        assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_scenario_snapshot() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_snapshot_cluster()
        .with(eq("MockCluster"), eq("MockCluster_MockSnapshot"))
        .times(1)
        .return_once(|_, _| {
            Ok(CreateDbClusterSnapshotOutput::builder()
                .db_cluster_snapshot(
                    DbClusterSnapshot::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_cluster_snapshot_identifier("MockCluster_MockSnapshot")
                        .build(),
                )
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("MockCluster".into());
    let create_snapshot = scenario.snapshot("MockSnapshot").await;
    assert!(create_snapshot.is_ok());
}

#[tokio::test]
async fn test_scenario_snapshot_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_snapshot_cluster()
        .with(eq("MockCluster"), eq("MockCluster_MockSnapshot"))
        .times(1)
        .return_once(|_, _| {
            Err(SdkError::service_error(
                CreateDBClusterSnapshotError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create snapshot error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("MockCluster".into());
    let create_snapshot = scenario.snapshot("MockSnapshot").await;
    assert_matches!(create_snapshot, Err(ScenarioError { message, context: _}) if message == "Failed to create snapshot");
}

#[tokio::test]
async fn test_scenario_snapshot_invalid() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_snapshot_cluster()
        .with(eq("MockCluster"), eq("MockCluster_MockSnapshot"))
        .times(1)
        .return_once(|_, _| Ok(CreateDbClusterSnapshotOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("MockCluster".into());
    let create_snapshot = scenario.snapshot("MockSnapshot").await;
    assert_matches!(create_snapshot, Err(ScenarioError { message, context: _}) if message == "Missing Snapshot");
}
```
Biner untuk menjalankan skenario dari depan ke ujung, menggunakan inquirer sehingga pengguna dapat membuat beberapa keputusan.  

```
use std::fmt::Display;

use anyhow::anyhow;
use aurora_code_examples::{
    aurora_scenario::{AuroraScenario, ScenarioError},
    rds::Rds as RdsClient,
};
use aws_sdk_rds::Client;
use inquire::{validator::StringValidator, CustomUserError};
use secrecy::SecretString;
use tracing::warn;

#[derive(Default, Debug)]
struct Warnings(Vec<String>);

impl Warnings {
    fn new() -> Self {
        Warnings(Vec::with_capacity(5))
    }

    fn push(&mut self, warning: &str, error: ScenarioError) {
        let formatted = format!("{warning}: {error}");
        warn!("{formatted}");
        self.0.push(formatted);
    }

    fn is_empty(&self) -> bool {
        self.0.is_empty()
    }
}

impl Display for Warnings {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        writeln!(f, "Warnings:")?;
        for warning in &self.0 {
            writeln!(f, "{: >4}- {warning}", "")?;
        }
        Ok(())
    }
}

fn select(
    prompt: &str,
    choices: Vec<String>,
    error_message: &str,
) -> Result<String, anyhow::Error> {
    inquire::Select::new(prompt, choices)
        .prompt()
        .map_err(|error| anyhow!("{error_message}: {error}"))
}

// Prepare the Aurora Scenario. Prompt for several settings that are optional to the Scenario, but that the user should choose for the demo.
// This includes the engine, engine version, and instance class.
async fn prepare_scenario(rds: RdsClient) -> Result<AuroraScenario, anyhow::Error> {
    let mut scenario = AuroraScenario::new(rds);

    // Get available engine families for Aurora MySql. rds.DescribeDbEngineVersions(Engine='aurora-mysql') and build a set of the 'DBParameterGroupFamily' field values. I get {aurora-mysql8.0, aurora-mysql5.7}.
    let available_engines = scenario.get_engines().await;
    if let Err(error) = available_engines {
        return Err(anyhow!("Failed to get available engines: {}", error));
    }
    let available_engines = available_engines.unwrap();

    // Select an engine family and create a custom DB cluster parameter group. rds.CreateDbClusterParameterGroup(DBParameterGroupFamily='aurora-mysql8.0')
    let engine = select(
        "Select an Aurora engine family",
        available_engines.keys().cloned().collect::<Vec<String>>(),
        "Invalid engine selection",
    )?;

    let version = select(
        format!("Select an Aurora engine version for {engine}").as_str(),
        available_engines.get(&engine).cloned().unwrap_or_default(),
        "Invalid engine version selection",
    )?;

    let set_engine = scenario.set_engine(engine.as_str(), version.as_str()).await;
    if let Err(error) = set_engine {
        return Err(anyhow!("Could not set engine: {}", error));
    }

    let instance_classes = scenario.get_instance_classes().await;
    match instance_classes {
        Ok(classes) => {
            let instance_class = select(
                format!("Select an Aurora instance class for {engine}").as_str(),
                classes,
                "Invalid instance class selection",
            )?;
            scenario.set_instance_class(Some(instance_class))
        }
        Err(err) => return Err(anyhow!("Failed to get instance classes for engine: {err}")),
    }

    Ok(scenario)
}

// Prepare the cluster, creating a custom parameter group overriding some group parameters based on user input.
async fn prepare_cluster(scenario: &mut AuroraScenario, warnings: &mut Warnings) -> Result<(), ()> {
    show_parameters(scenario, warnings).await;

    let offset = prompt_number_or_default(warnings, "auto_increment_offset", 5);
    let increment = prompt_number_or_default(warnings, "auto_increment_increment", 3);

    // Modify both the auto_increment_offset and auto_increment_increment parameters in one call in the custom parameter group. Set their ParameterValue fields to a new allowable value. rds.ModifyDbClusterParameterGroup.
    let update_auto_increment = scenario.update_auto_increment(offset, increment).await;

    if let Err(error) = update_auto_increment {
        warnings.push("Failed to update auto increment", error);
        return Err(());
    }

    // Get and display the updated parameters. Specify Source of 'user' to get just the modified parameters. rds.DescribeDbClusterParameters(Source='user')
    show_parameters(scenario, warnings).await;

    let username = inquire::Text::new("Username for the database (default 'testuser')")
        .with_default("testuser")
        .with_initial_value("testuser")
        .prompt();

    if let Err(error) = username {
        warnings.push(
            "Failed to get username, using default",
            ScenarioError::with(format!("Error from inquirer: {error}")),
        );
        return Err(());
    }
    let username = username.unwrap();

    let password = inquire::Text::new("Password for the database (minimum 8 characters)")
        .with_validator(|i: &str| {
            if i.len() >= 8 {
                Ok(inquire::validator::Validation::Valid)
            } else {
                Ok(inquire::validator::Validation::Invalid(
                    "Password must be at least 8 characters".into(),
                ))
            }
        })
        .prompt();

    let password: Option<SecretString> = match password {
        Ok(password) => Some(SecretString::from(password)),
        Err(error) => {
            warnings.push(
                "Failed to get password, using none (and not starting a DB)",
                ScenarioError::with(format!("Error from inquirer: {error}")),
            );
            return Err(());
        }
    };

    scenario.set_login(Some(username), password);

    Ok(())
}

// Start a single instance in the cluster,
async fn run_instance(scenario: &mut AuroraScenario) -> Result<(), ScenarioError> {
    // Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
    // Create a database instance in the cluster.
    // Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
    scenario.start_cluster_and_instance().await?;

    let connection_string = scenario.connection_string().await?;

    println!("Database ready: {connection_string}",);

    let _ = inquire::Text::new("Use the database with the connection string. When you're finished, press enter key to continue.").prompt();

    // Create a snapshot of the DB cluster. rds.CreateDbClusterSnapshot.
    // Wait for the snapshot to create. rds.DescribeDbClusterSnapshots until Status == 'available'.
    let snapshot_name = inquire::Text::new("Provide a name for the snapshot")
        .prompt()
        .unwrap_or(String::from("ScenarioRun"));
    let snapshot = scenario.snapshot(snapshot_name.as_str()).await?;
    println!(
        "Snapshot is available: {}",
        snapshot.db_cluster_snapshot_arn().unwrap_or("Missing ARN")
    );

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), anyhow::Error> {
    tracing_subscriber::fmt::init();
    let sdk_config = aws_config::from_env().load().await;
    let client = Client::new(&sdk_config);
    let rds = RdsClient::new(client);
    let mut scenario = prepare_scenario(rds).await?;

    // At this point, the scenario has things in AWS and needs to get cleaned up.
    let mut warnings = Warnings::new();

    if prepare_cluster(&mut scenario, &mut warnings).await.is_ok() {
        println!("Configured database cluster, starting an instance.");
        if let Err(err) = run_instance(&mut scenario).await {
            warnings.push("Problem running instance", err);
        }
    }

    // Clean up the instance, cluster, and parameter group, waiting for the instance and cluster to delete before moving on.
    let clean_up = scenario.clean_up().await;
    if let Err(errors) = clean_up {
        for error in errors {
            warnings.push("Problem cleaning up scenario", error);
        }
    }

    if warnings.is_empty() {
        Ok(())
    } else {
        println!("There were problems running the scenario:");
        println!("{warnings}");
        Err(anyhow!("There were problems running the scenario"))
    }
}

#[derive(Clone)]
struct U8Validator {}
impl StringValidator for U8Validator {
    fn validate(&self, input: &str) -> Result<inquire::validator::Validation, CustomUserError> {
        if input.parse::<u8>().is_err() {
            Ok(inquire::validator::Validation::Invalid(
                "Can't parse input as number".into(),
            ))
        } else {
            Ok(inquire::validator::Validation::Valid)
        }
    }
}

async fn show_parameters(scenario: &AuroraScenario, warnings: &mut Warnings) {
    let parameters = scenario.cluster_parameters().await;

    match parameters {
        Ok(parameters) => {
            println!("Current parameters");
            for parameter in parameters {
                println!("\t{parameter}");
            }
        }
        Err(error) => warnings.push("Could not find cluster parameters", error),
    }
}

fn prompt_number_or_default(warnings: &mut Warnings, name: &str, default: u8) -> u8 {
    let input = inquire::Text::new(format!("Updated {name}:").as_str())
        .with_validator(U8Validator {})
        .prompt();

    match input {
        Ok(increment) => match increment.parse::<u8>() {
            Ok(increment) => increment,
            Err(error) => {
                warnings.push(
                    format!("Invalid updated {name} (using {default} instead)").as_str(),
                    ScenarioError::with(format!("{error}")),
                );
                default
            }
        },
        Err(error) => {
            warnings.push(
                format!("Invalid updated {name} (using {default} instead)").as_str(),
                ScenarioError::with(format!("{error}")),
            );
            default
        }
    }
}
```
Pembungkus di sekitar layanan Amazon RDS yang memungkinkan automocking untuk pengujian.  

```
use aws_sdk_rds::{
    error::SdkError,
    operation::{
        create_db_cluster::{CreateDBClusterError, CreateDbClusterOutput},
        create_db_cluster_parameter_group::CreateDBClusterParameterGroupError,
        create_db_cluster_parameter_group::CreateDbClusterParameterGroupOutput,
        create_db_cluster_snapshot::{CreateDBClusterSnapshotError, CreateDbClusterSnapshotOutput},
        create_db_instance::{CreateDBInstanceError, CreateDbInstanceOutput},
        delete_db_cluster::{DeleteDBClusterError, DeleteDbClusterOutput},
        delete_db_cluster_parameter_group::{
            DeleteDBClusterParameterGroupError, DeleteDbClusterParameterGroupOutput,
        },
        delete_db_instance::{DeleteDBInstanceError, DeleteDbInstanceOutput},
        describe_db_cluster_endpoints::{
            DescribeDBClusterEndpointsError, DescribeDbClusterEndpointsOutput,
        },
        describe_db_cluster_parameters::{
            DescribeDBClusterParametersError, DescribeDbClusterParametersOutput,
        },
        describe_db_clusters::{DescribeDBClustersError, DescribeDbClustersOutput},
        describe_db_engine_versions::{
            DescribeDBEngineVersionsError, DescribeDbEngineVersionsOutput,
        },
        describe_db_instances::{DescribeDBInstancesError, DescribeDbInstancesOutput},
        describe_orderable_db_instance_options::DescribeOrderableDBInstanceOptionsError,
        modify_db_cluster_parameter_group::{
            ModifyDBClusterParameterGroupError, ModifyDbClusterParameterGroupOutput,
        },
    },
    types::{OrderableDbInstanceOption, Parameter},
    Client as RdsClient,
};
use secrecy::{ExposeSecret, SecretString};

#[cfg(test)]
use mockall::automock;

#[cfg(test)]
pub use MockRdsImpl as Rds;
#[cfg(not(test))]
pub use RdsImpl as Rds;

pub struct RdsImpl {
    pub inner: RdsClient,
}

#[cfg_attr(test, automock)]
impl RdsImpl {
    pub fn new(inner: RdsClient) -> Self {
        RdsImpl { inner }
    }

    pub async fn describe_db_engine_versions(
        &self,
        engine: &str,
    ) -> Result<DescribeDbEngineVersionsOutput, SdkError<DescribeDBEngineVersionsError>> {
        self.inner
            .describe_db_engine_versions()
            .engine(engine)
            .send()
            .await
    }

    pub async fn describe_orderable_db_instance_options(
        &self,
        engine: &str,
        engine_version: &str,
    ) -> Result<Vec<OrderableDbInstanceOption>, SdkError<DescribeOrderableDBInstanceOptionsError>>
    {
        self.inner
            .describe_orderable_db_instance_options()
            .engine(engine)
            .engine_version(engine_version)
            .into_paginator()
            .items()
            .send()
            .try_collect()
            .await
    }

    pub async fn create_db_cluster_parameter_group(
        &self,
        name: &str,
        description: &str,
        family: &str,
    ) -> Result<CreateDbClusterParameterGroupOutput, SdkError<CreateDBClusterParameterGroupError>>
    {
        self.inner
            .create_db_cluster_parameter_group()
            .db_cluster_parameter_group_name(name)
            .description(description)
            .db_parameter_group_family(family)
            .send()
            .await
    }

    pub async fn describe_db_clusters(
        &self,
        id: &str,
    ) -> Result<DescribeDbClustersOutput, SdkError<DescribeDBClustersError>> {
        self.inner
            .describe_db_clusters()
            .db_cluster_identifier(id)
            .send()
            .await
    }

    pub async fn describe_db_cluster_parameters(
        &self,
        name: &str,
    ) -> Result<Vec<DescribeDbClusterParametersOutput>, SdkError<DescribeDBClusterParametersError>>
    {
        self.inner
            .describe_db_cluster_parameters()
            .db_cluster_parameter_group_name(name)
            .into_paginator()
            .send()
            .try_collect()
            .await
    }

    pub async fn modify_db_cluster_parameter_group(
        &self,
        name: &str,
        parameters: Vec<Parameter>,
    ) -> Result<ModifyDbClusterParameterGroupOutput, SdkError<ModifyDBClusterParameterGroupError>>
    {
        self.inner
            .modify_db_cluster_parameter_group()
            .db_cluster_parameter_group_name(name)
            .set_parameters(Some(parameters))
            .send()
            .await
    }

    pub async fn create_db_cluster(
        &self,
        name: &str,
        parameter_group: &str,
        engine: &str,
        version: &str,
        username: &str,
        password: SecretString,
    ) -> Result<CreateDbClusterOutput, SdkError<CreateDBClusterError>> {
        self.inner
            .create_db_cluster()
            .db_cluster_identifier(name)
            .db_cluster_parameter_group_name(parameter_group)
            .engine(engine)
            .engine_version(version)
            .master_username(username)
            .master_user_password(password.expose_secret())
            .send()
            .await
    }

    pub async fn create_db_instance(
        &self,
        cluster_name: &str,
        instance_name: &str,
        instance_class: &str,
        engine: &str,
    ) -> Result<CreateDbInstanceOutput, SdkError<CreateDBInstanceError>> {
        self.inner
            .create_db_instance()
            .db_cluster_identifier(cluster_name)
            .db_instance_identifier(instance_name)
            .db_instance_class(instance_class)
            .engine(engine)
            .send()
            .await
    }

    pub async fn describe_db_instance(
        &self,
        instance_identifier: &str,
    ) -> Result<DescribeDbInstancesOutput, SdkError<DescribeDBInstancesError>> {
        self.inner
            .describe_db_instances()
            .db_instance_identifier(instance_identifier)
            .send()
            .await
    }

    pub async fn snapshot_cluster(
        &self,
        db_cluster_identifier: &str,
        snapshot_name: &str,
    ) -> Result<CreateDbClusterSnapshotOutput, SdkError<CreateDBClusterSnapshotError>> {
        self.inner
            .create_db_cluster_snapshot()
            .db_cluster_identifier(db_cluster_identifier)
            .db_cluster_snapshot_identifier(snapshot_name)
            .send()
            .await
    }

    pub async fn describe_db_instances(
        &self,
    ) -> Result<DescribeDbInstancesOutput, SdkError<DescribeDBInstancesError>> {
        self.inner.describe_db_instances().send().await
    }

    pub async fn describe_db_cluster_endpoints(
        &self,
        cluster_identifier: &str,
    ) -> Result<DescribeDbClusterEndpointsOutput, SdkError<DescribeDBClusterEndpointsError>> {
        self.inner
            .describe_db_cluster_endpoints()
            .db_cluster_identifier(cluster_identifier)
            .send()
            .await
    }

    pub async fn delete_db_instance(
        &self,
        instance_identifier: &str,
    ) -> Result<DeleteDbInstanceOutput, SdkError<DeleteDBInstanceError>> {
        self.inner
            .delete_db_instance()
            .db_instance_identifier(instance_identifier)
            .skip_final_snapshot(true)
            .send()
            .await
    }

    pub async fn delete_db_cluster(
        &self,
        cluster_identifier: &str,
    ) -> Result<DeleteDbClusterOutput, SdkError<DeleteDBClusterError>> {
        self.inner
            .delete_db_cluster()
            .db_cluster_identifier(cluster_identifier)
            .skip_final_snapshot(true)
            .send()
            .await
    }

    pub async fn delete_db_cluster_parameter_group(
        &self,
        name: &str,
    ) -> Result<DeleteDbClusterParameterGroupOutput, SdkError<DeleteDBClusterParameterGroupError>>
    {
        self.inner
            .delete_db_cluster_parameter_group()
            .db_cluster_parameter_group_name(name)
            .send()
            .await
    }
}
```
Cargo.toml dengan dependensi yang digunakan dalam skenario ini.  

```
[package]
name = "aurora-code-examples"
authors = [
  "David Souther <dpsouth@amazon.com>", 
]
edition = "2021"
version = "0.1.0"

# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html

[dependencies]
anyhow = "1.0.75"
assert_matches = "1.5.0"
aws-config = { version = "1.0.1", features = ["behavior-version-latest"] }
aws-smithy-types = { version = "1.0.1" }
aws-smithy-runtime-api = { version = "1.0.1" }
aws-sdk-rds = { version = "1.3.0" }
inquire = "0.6.2"
mockall = "0.11.4"
phf = { version = "0.11.2", features = ["std", "macros"] }
sdk-examples-test-utils = { path = "../../test-utils" }
secrecy = "0.8.0"
tokio = { version = "1.20.1", features = ["full", "test-util"] }
tracing = "0.1.37"
tracing-subscriber = { version = "0.3.15", features = ["env-filter"] }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Rust*.
  + [Buat DBCluster](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster)
  + [Buat DBCluster ParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster_parameter_group)
  + [Buat DBCluster Snapshot](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster_snapshot)
  + [Buat DBInstance](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_instance)
  + [Hapus DBCluster](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_cluster)
  + [Hapus DBCluster ParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_cluster_parameter_group)
  + [Hapus DBInstance](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_instance)
  + [Jelaskan DBCluster ParameterGroups](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_cluster_parameter_groups)
  + [Jelaskan DBCluster Parameter](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_cluster_parameters)
  + [Jelaskan DBCluster Snapshots](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_cluster_snapshots)
  + [Jelaskan DBClusters](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_clusters)
  + [Jelaskan DBEngine Versi](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_engine_versions)
  + [Jelaskan DBInstances](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_instances)
  + [DescribeOrderableDBInstancePilihan](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_orderable_db_instance_options)
  + [Memodifikasi DBCluster ParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.modify_db_cluster_parameter_group)

## Tindakan
<a name="actions"></a>

### `CreateDBCluster`
<a name="aurora_CreateDBCluster_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBCluster`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    // Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=<the family used to create your parameter group in step 2>)
    // Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
    // Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
    // Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).

    // Create a database instance in the cluster.
    // Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
    pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
        if self.password.is_none() {
            return Err(ScenarioError::with(
                "Must set Secret Password before starting a cluster",
            ));
        }
        let create_db_cluster = self
            .rds
            .create_db_cluster(
                DB_CLUSTER_IDENTIFIER,
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                DB_ENGINE,
                self.engine_version.as_deref().expect("engine version"),
                self.username.as_deref().expect("username"),
                self.password
                    .replace(SecretString::new("".to_string()))
                    .expect("password"),
            )
            .await;
        if let Err(err) = create_db_cluster {
            return Err(ScenarioError::new(
                "Failed to create DB Cluster with cluster group",
                &err,
            ));
        }

        self.db_cluster_identifier = create_db_cluster
            .unwrap()
            .db_cluster
            .and_then(|c| c.db_cluster_identifier);

        if self.db_cluster_identifier.is_none() {
            return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
        }

        info!(
            "Started a db cluster: {}",
            self.db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing ARN")
        );

        let create_db_instance = self
            .rds
            .create_db_instance(
                self.db_cluster_identifier.as_deref().expect("cluster name"),
                DB_INSTANCE_IDENTIFIER,
                self.instance_class.as_deref().expect("instance class"),
                DB_ENGINE,
            )
            .await;
        if let Err(err) = create_db_instance {
            return Err(ScenarioError::new(
                "Failed to create Instance in DB Cluster",
                &err,
            ));
        }

        self.db_instance_identifier = create_db_instance
            .unwrap()
            .db_instance
            .and_then(|i| i.db_instance_identifier);

        // Cluster creation can take up to 20 minutes to become available
        let cluster_max_wait = Duration::from_secs(20 * 60);
        let waiter = Waiter::builder().max(cluster_max_wait).build();
        while waiter.sleep().await.is_ok() {
            let cluster = self
                .rds
                .describe_db_clusters(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = cluster {
                warn!(?err, "Failed to describe cluster while waiting for ready");
                continue;
            }

            let instance = self
                .rds
                .describe_db_instance(
                    self.db_instance_identifier
                        .as_deref()
                        .expect("instance identifier"),
                )
                .await;
            if let Err(err) = instance {
                return Err(ScenarioError::new(
                    "Failed to find instance for cluster",
                    &err,
                ));
            }

            let instances_available = instance
                .unwrap()
                .db_instances()
                .iter()
                .all(|instance| instance.db_instance_status() == Some("Available"));

            let endpoints = self
                .rds
                .describe_db_cluster_endpoints(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = endpoints {
                return Err(ScenarioError::new(
                    "Failed to find endpoint for cluster",
                    &err,
                ));
            }

            let endpoints_available = endpoints
                .unwrap()
                .db_cluster_endpoints()
                .iter()
                .all(|endpoint| endpoint.status() == Some("available"));

            if instances_available && endpoints_available {
                return Ok(());
            }
        }

        Err(ScenarioError::with("timed out waiting for cluster"))
    }

    pub async fn create_db_cluster(
        &self,
        name: &str,
        parameter_group: &str,
        engine: &str,
        version: &str,
        username: &str,
        password: SecretString,
    ) -> Result<CreateDbClusterOutput, SdkError<CreateDBClusterError>> {
        self.inner
            .create_db_cluster()
            .db_cluster_identifier(name)
            .db_cluster_parameter_group_name(parameter_group)
            .engine(engine)
            .engine_version(version)
            .master_username(username)
            .master_user_password(password.expose_secret())
            .send()
            .await
    }

#[tokio::test]
async fn test_start_cluster_and_instance() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_describe_db_instance()
        .with(eq("RustSDKCodeExamplesDBInstance"))
        .return_once(|name| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_instance_identifier(name)
                        .db_instance_status("Available")
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
        assert!(scenario
            .password
            .replace(SecretString::new("BAD SECRET".into()))
            .unwrap()
            .expose_secret()
            .is_empty());
        assert_eq!(
            scenario.db_cluster_identifier,
            Some("RustSDKCodeExamplesDBCluster".into())
        );
    });
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Err(SdkError::service_error(
                CreateDBClusterError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}

#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .return_once(|_, _, _, _| {
            Err(SdkError::service_error(
                CreateDBInstanceError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db instance error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}

#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        })
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds.expect_describe_db_instance().return_once(|name| {
        Ok(DescribeDbInstancesOutput::builder()
            .db_instances(
                DbInstance::builder()
                    .db_instance_identifier(name)
                    .db_instance_status("Available")
                    .build(),
            )
            .build())
    });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}
```
+  Untuk detail API, lihat *referensi [Create DBCluster](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster) in AWS SDK for Rust API*. 

### `CreateDBClusterParameterGroup`
<a name="aurora_CreateDBClusterParameterGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterParameterGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    // Select an engine family and create a custom DB cluster parameter group. rds.CreateDbClusterParameterGroup(DBParameterGroupFamily='aurora-mysql8.0')
    pub async fn set_engine(&mut self, engine: &str, version: &str) -> Result<(), ScenarioError> {
        self.engine_family = Some(engine.to_string());
        self.engine_version = Some(version.to_string());
        let create_db_cluster_parameter_group = self
            .rds
            .create_db_cluster_parameter_group(
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                DB_CLUSTER_PARAMETER_GROUP_DESCRIPTION,
                engine,
            )
            .await;

        match create_db_cluster_parameter_group {
            Ok(CreateDbClusterParameterGroupOutput {
                db_cluster_parameter_group: None,
                ..
            }) => {
                return Err(ScenarioError::with(
                    "CreateDBClusterParameterGroup had empty response",
                ));
            }
            Err(error) => {
                if error.code() == Some("DBParameterGroupAlreadyExists") {
                    info!("Cluster Parameter Group already exists, nothing to do");
                } else {
                    return Err(ScenarioError::new(
                        "Could not create Cluster Parameter Group",
                        &error,
                    ));
                }
            }
            _ => {
                info!("Created Cluster Parameter Group");
            }
        }

        Ok(())
    }

    pub async fn create_db_cluster_parameter_group(
        &self,
        name: &str,
        description: &str,
        family: &str,
    ) -> Result<CreateDbClusterParameterGroupOutput, SdkError<CreateDBClusterParameterGroupError>>
    {
        self.inner
            .create_db_cluster_parameter_group()
            .db_cluster_parameter_group_name(name)
            .description(description)
            .db_parameter_group_family(family)
            .send()
            .await
    }

#[tokio::test]
async fn test_scenario_set_engine() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .with(
            eq("RustSDKCodeExamplesDBParameterGroup"),
            eq("Parameter Group created by Rust SDK Code Example"),
            eq("aurora-mysql"),
        )
        .return_once(|_, _, _| {
            Ok(CreateDbClusterParameterGroupOutput::builder()
                .db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);

    let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;

    assert_eq!(set_engine, Ok(()));
    assert_eq!(Some("aurora-mysql"), scenario.engine_family.as_deref());
    assert_eq!(Some("aurora-mysql8.0"), scenario.engine_version.as_deref());
}

#[tokio::test]
async fn test_scenario_set_engine_not_create() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .with(
            eq("RustSDKCodeExamplesDBParameterGroup"),
            eq("Parameter Group created by Rust SDK Code Example"),
            eq("aurora-mysql"),
        )
        .return_once(|_, _, _| Ok(CreateDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);

    let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;

    assert!(set_engine.is_err());
}

#[tokio::test]
async fn test_scenario_set_engine_param_group_exists() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .withf(|_, _, _| true)
        .return_once(|_, _, _| {
            Err(SdkError::service_error(
                CreateDBClusterParameterGroupError::DbParameterGroupAlreadyExistsFault(
                    DbParameterGroupAlreadyExistsFault::builder().build(),
                ),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);

    let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;

    assert!(set_engine.is_err());
}
```
+  Untuk detail API, lihat *referensi [Create DBCluster ParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster_parameter_group) in AWS SDK for Rust API*. 

### `CreateDBClusterSnapshot`
<a name="aurora_CreateDBClusterSnapshot_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterSnapshot`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    // Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=<the family used to create your parameter group in step 2>)
    // Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
    // Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
    // Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).

    // Create a database instance in the cluster.
    // Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
    pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
        if self.password.is_none() {
            return Err(ScenarioError::with(
                "Must set Secret Password before starting a cluster",
            ));
        }
        let create_db_cluster = self
            .rds
            .create_db_cluster(
                DB_CLUSTER_IDENTIFIER,
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                DB_ENGINE,
                self.engine_version.as_deref().expect("engine version"),
                self.username.as_deref().expect("username"),
                self.password
                    .replace(SecretString::new("".to_string()))
                    .expect("password"),
            )
            .await;
        if let Err(err) = create_db_cluster {
            return Err(ScenarioError::new(
                "Failed to create DB Cluster with cluster group",
                &err,
            ));
        }

        self.db_cluster_identifier = create_db_cluster
            .unwrap()
            .db_cluster
            .and_then(|c| c.db_cluster_identifier);

        if self.db_cluster_identifier.is_none() {
            return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
        }

        info!(
            "Started a db cluster: {}",
            self.db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing ARN")
        );

        let create_db_instance = self
            .rds
            .create_db_instance(
                self.db_cluster_identifier.as_deref().expect("cluster name"),
                DB_INSTANCE_IDENTIFIER,
                self.instance_class.as_deref().expect("instance class"),
                DB_ENGINE,
            )
            .await;
        if let Err(err) = create_db_instance {
            return Err(ScenarioError::new(
                "Failed to create Instance in DB Cluster",
                &err,
            ));
        }

        self.db_instance_identifier = create_db_instance
            .unwrap()
            .db_instance
            .and_then(|i| i.db_instance_identifier);

        // Cluster creation can take up to 20 minutes to become available
        let cluster_max_wait = Duration::from_secs(20 * 60);
        let waiter = Waiter::builder().max(cluster_max_wait).build();
        while waiter.sleep().await.is_ok() {
            let cluster = self
                .rds
                .describe_db_clusters(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = cluster {
                warn!(?err, "Failed to describe cluster while waiting for ready");
                continue;
            }

            let instance = self
                .rds
                .describe_db_instance(
                    self.db_instance_identifier
                        .as_deref()
                        .expect("instance identifier"),
                )
                .await;
            if let Err(err) = instance {
                return Err(ScenarioError::new(
                    "Failed to find instance for cluster",
                    &err,
                ));
            }

            let instances_available = instance
                .unwrap()
                .db_instances()
                .iter()
                .all(|instance| instance.db_instance_status() == Some("Available"));

            let endpoints = self
                .rds
                .describe_db_cluster_endpoints(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = endpoints {
                return Err(ScenarioError::new(
                    "Failed to find endpoint for cluster",
                    &err,
                ));
            }

            let endpoints_available = endpoints
                .unwrap()
                .db_cluster_endpoints()
                .iter()
                .all(|endpoint| endpoint.status() == Some("available"));

            if instances_available && endpoints_available {
                return Ok(());
            }
        }

        Err(ScenarioError::with("timed out waiting for cluster"))
    }

    pub async fn snapshot_cluster(
        &self,
        db_cluster_identifier: &str,
        snapshot_name: &str,
    ) -> Result<CreateDbClusterSnapshotOutput, SdkError<CreateDBClusterSnapshotError>> {
        self.inner
            .create_db_cluster_snapshot()
            .db_cluster_identifier(db_cluster_identifier)
            .db_cluster_snapshot_identifier(snapshot_name)
            .send()
            .await
    }

#[tokio::test]
async fn test_start_cluster_and_instance() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_describe_db_instance()
        .with(eq("RustSDKCodeExamplesDBInstance"))
        .return_once(|name| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_instance_identifier(name)
                        .db_instance_status("Available")
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
        assert!(scenario
            .password
            .replace(SecretString::new("BAD SECRET".into()))
            .unwrap()
            .expose_secret()
            .is_empty());
        assert_eq!(
            scenario.db_cluster_identifier,
            Some("RustSDKCodeExamplesDBCluster".into())
        );
    });
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Err(SdkError::service_error(
                CreateDBClusterError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}

#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .return_once(|_, _, _, _| {
            Err(SdkError::service_error(
                CreateDBInstanceError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db instance error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}

#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        })
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds.expect_describe_db_instance().return_once(|name| {
        Ok(DescribeDbInstancesOutput::builder()
            .db_instances(
                DbInstance::builder()
                    .db_instance_identifier(name)
                    .db_instance_status("Available")
                    .build(),
            )
            .build())
    });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}
```
+  Untuk detail API, lihat [Membuat DBCluster Snapshot](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster_snapshot) di *AWS SDK untuk referensi Rust API*. 

### `CreateDBInstance`
<a name="aurora_CreateDBInstance_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    // Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=<the family used to create your parameter group in step 2>)
    // Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
    // Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
    // Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).

    // Create a database instance in the cluster.
    // Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
    pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
        if self.password.is_none() {
            return Err(ScenarioError::with(
                "Must set Secret Password before starting a cluster",
            ));
        }
        let create_db_cluster = self
            .rds
            .create_db_cluster(
                DB_CLUSTER_IDENTIFIER,
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                DB_ENGINE,
                self.engine_version.as_deref().expect("engine version"),
                self.username.as_deref().expect("username"),
                self.password
                    .replace(SecretString::new("".to_string()))
                    .expect("password"),
            )
            .await;
        if let Err(err) = create_db_cluster {
            return Err(ScenarioError::new(
                "Failed to create DB Cluster with cluster group",
                &err,
            ));
        }

        self.db_cluster_identifier = create_db_cluster
            .unwrap()
            .db_cluster
            .and_then(|c| c.db_cluster_identifier);

        if self.db_cluster_identifier.is_none() {
            return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
        }

        info!(
            "Started a db cluster: {}",
            self.db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing ARN")
        );

        let create_db_instance = self
            .rds
            .create_db_instance(
                self.db_cluster_identifier.as_deref().expect("cluster name"),
                DB_INSTANCE_IDENTIFIER,
                self.instance_class.as_deref().expect("instance class"),
                DB_ENGINE,
            )
            .await;
        if let Err(err) = create_db_instance {
            return Err(ScenarioError::new(
                "Failed to create Instance in DB Cluster",
                &err,
            ));
        }

        self.db_instance_identifier = create_db_instance
            .unwrap()
            .db_instance
            .and_then(|i| i.db_instance_identifier);

        // Cluster creation can take up to 20 minutes to become available
        let cluster_max_wait = Duration::from_secs(20 * 60);
        let waiter = Waiter::builder().max(cluster_max_wait).build();
        while waiter.sleep().await.is_ok() {
            let cluster = self
                .rds
                .describe_db_clusters(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = cluster {
                warn!(?err, "Failed to describe cluster while waiting for ready");
                continue;
            }

            let instance = self
                .rds
                .describe_db_instance(
                    self.db_instance_identifier
                        .as_deref()
                        .expect("instance identifier"),
                )
                .await;
            if let Err(err) = instance {
                return Err(ScenarioError::new(
                    "Failed to find instance for cluster",
                    &err,
                ));
            }

            let instances_available = instance
                .unwrap()
                .db_instances()
                .iter()
                .all(|instance| instance.db_instance_status() == Some("Available"));

            let endpoints = self
                .rds
                .describe_db_cluster_endpoints(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = endpoints {
                return Err(ScenarioError::new(
                    "Failed to find endpoint for cluster",
                    &err,
                ));
            }

            let endpoints_available = endpoints
                .unwrap()
                .db_cluster_endpoints()
                .iter()
                .all(|endpoint| endpoint.status() == Some("available"));

            if instances_available && endpoints_available {
                return Ok(());
            }
        }

        Err(ScenarioError::with("timed out waiting for cluster"))
    }

    pub async fn create_db_instance(
        &self,
        cluster_name: &str,
        instance_name: &str,
        instance_class: &str,
        engine: &str,
    ) -> Result<CreateDbInstanceOutput, SdkError<CreateDBInstanceError>> {
        self.inner
            .create_db_instance()
            .db_cluster_identifier(cluster_name)
            .db_instance_identifier(instance_name)
            .db_instance_class(instance_class)
            .engine(engine)
            .send()
            .await
    }

#[tokio::test]
async fn test_start_cluster_and_instance() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_describe_db_instance()
        .with(eq("RustSDKCodeExamplesDBInstance"))
        .return_once(|name| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_instance_identifier(name)
                        .db_instance_status("Available")
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
        assert!(scenario
            .password
            .replace(SecretString::new("BAD SECRET".into()))
            .unwrap()
            .expose_secret()
            .is_empty());
        assert_eq!(
            scenario.db_cluster_identifier,
            Some("RustSDKCodeExamplesDBCluster".into())
        );
    });
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Err(SdkError::service_error(
                CreateDBClusterError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}

#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .return_once(|_, _, _, _| {
            Err(SdkError::service_error(
                CreateDBInstanceError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db instance error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}

#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        })
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds.expect_describe_db_instance().return_once(|name| {
        Ok(DescribeDbInstancesOutput::builder()
            .db_instances(
                DbInstance::builder()
                    .db_instance_identifier(name)
                    .db_instance_status("Available")
                    .build(),
            )
            .build())
    });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}
```
+  Untuk detail API, lihat *referensi [Create DBInstance](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_instance) in AWS SDK for Rust API*. 

### `DeleteDBCluster`
<a name="aurora_DeleteDBCluster_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBCluster`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    pub async fn clean_up(self) -> Result<(), Vec<ScenarioError>> {
        let mut clean_up_errors: Vec<ScenarioError> = vec![];

        // Delete the instance. rds.DeleteDbInstance.
        let delete_db_instance = self
            .rds
            .delete_db_instance(
                self.db_instance_identifier
                    .as_deref()
                    .expect("instance identifier"),
            )
            .await;
        if let Err(err) = delete_db_instance {
            let identifier = self
                .db_instance_identifier
                .as_deref()
                .unwrap_or("Missing Instance Identifier");
            let message = format!("failed to delete db instance {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance to delete
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_instances = self.rds.describe_db_instances().await;
                if let Err(err) = describe_db_instances {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check instance state during deletion",
                        &err,
                    ));
                    break;
                }
                let db_instances = describe_db_instances
                    .unwrap()
                    .db_instances()
                    .iter()
                    .filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
                    .cloned()
                    .collect::<Vec<DbInstance>>();

                if db_instances.is_empty() {
                    trace!("Delete Instance waited and no instances were found");
                    break;
                }
                match db_instances.first().unwrap().db_instance_status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but instances is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB instance");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster. rds.DeleteDbCluster.
        let delete_db_cluster = self
            .rds
            .delete_db_cluster(
                self.db_cluster_identifier
                    .as_deref()
                    .expect("cluster identifier"),
            )
            .await;

        if let Err(err) = delete_db_cluster {
            let identifier = self
                .db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing DB Cluster Identifier");
            let message = format!("failed to delete db cluster {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_clusters = self
                    .rds
                    .describe_db_clusters(
                        self.db_cluster_identifier
                            .as_deref()
                            .expect("cluster identifier"),
                    )
                    .await;
                if let Err(err) = describe_db_clusters {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check cluster state during deletion",
                        &err,
                    ));
                    break;
                }
                let describe_db_clusters = describe_db_clusters.unwrap();
                let db_clusters = describe_db_clusters.db_clusters();
                if db_clusters.is_empty() {
                    trace!("Delete cluster waited and no clusters were found");
                    break;
                }
                match db_clusters.first().unwrap().status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but clusters is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB cluster");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
        let delete_db_cluster_parameter_group = self
            .rds
            .delete_db_cluster_parameter_group(
                self.db_cluster_parameter_group
                    .map(|g| {
                        g.db_cluster_parameter_group_name
                            .unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
                    })
                    .as_deref()
                    .expect("cluster parameter group name"),
            )
            .await;
        if let Err(error) = delete_db_cluster_parameter_group {
            clean_up_errors.push(ScenarioError::new(
                "Failed to delete the db cluster parameter group",
                &error,
            ))
        }

        if clean_up_errors.is_empty() {
            Ok(())
        } else {
            Err(clean_up_errors)
        }
    }

    pub async fn delete_db_cluster(
        &self,
        cluster_identifier: &str,
    ) -> Result<DeleteDbClusterOutput, SdkError<DeleteDBClusterError>> {
        self.inner
            .delete_db_cluster()
            .db_cluster_identifier(cluster_identifier)
            .skip_final_snapshot(true)
            .send()
            .await
    }

#[tokio::test]
async fn test_scenario_clean_up() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| Ok(DescribeDbInstancesOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| Ok(DescribeDbClustersOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_scenario_clean_up_errors() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| {
            Err(SdkError::service_error(
                DescribeDBInstancesError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db instances error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db clusters error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_err());
        let errs = clean_up.unwrap_err();
        assert_eq!(errs.len(), 2);
        assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
        assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}
```
+  Untuk detail API, lihat [Menghapus DBCluster](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_cluster) di *AWS SDK untuk referensi API Rust*. 

### `DeleteDBClusterParameterGroup`
<a name="aurora_DeleteDBClusterParameterGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBClusterParameterGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    pub async fn clean_up(self) -> Result<(), Vec<ScenarioError>> {
        let mut clean_up_errors: Vec<ScenarioError> = vec![];

        // Delete the instance. rds.DeleteDbInstance.
        let delete_db_instance = self
            .rds
            .delete_db_instance(
                self.db_instance_identifier
                    .as_deref()
                    .expect("instance identifier"),
            )
            .await;
        if let Err(err) = delete_db_instance {
            let identifier = self
                .db_instance_identifier
                .as_deref()
                .unwrap_or("Missing Instance Identifier");
            let message = format!("failed to delete db instance {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance to delete
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_instances = self.rds.describe_db_instances().await;
                if let Err(err) = describe_db_instances {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check instance state during deletion",
                        &err,
                    ));
                    break;
                }
                let db_instances = describe_db_instances
                    .unwrap()
                    .db_instances()
                    .iter()
                    .filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
                    .cloned()
                    .collect::<Vec<DbInstance>>();

                if db_instances.is_empty() {
                    trace!("Delete Instance waited and no instances were found");
                    break;
                }
                match db_instances.first().unwrap().db_instance_status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but instances is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB instance");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster. rds.DeleteDbCluster.
        let delete_db_cluster = self
            .rds
            .delete_db_cluster(
                self.db_cluster_identifier
                    .as_deref()
                    .expect("cluster identifier"),
            )
            .await;

        if let Err(err) = delete_db_cluster {
            let identifier = self
                .db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing DB Cluster Identifier");
            let message = format!("failed to delete db cluster {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_clusters = self
                    .rds
                    .describe_db_clusters(
                        self.db_cluster_identifier
                            .as_deref()
                            .expect("cluster identifier"),
                    )
                    .await;
                if let Err(err) = describe_db_clusters {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check cluster state during deletion",
                        &err,
                    ));
                    break;
                }
                let describe_db_clusters = describe_db_clusters.unwrap();
                let db_clusters = describe_db_clusters.db_clusters();
                if db_clusters.is_empty() {
                    trace!("Delete cluster waited and no clusters were found");
                    break;
                }
                match db_clusters.first().unwrap().status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but clusters is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB cluster");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
        let delete_db_cluster_parameter_group = self
            .rds
            .delete_db_cluster_parameter_group(
                self.db_cluster_parameter_group
                    .map(|g| {
                        g.db_cluster_parameter_group_name
                            .unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
                    })
                    .as_deref()
                    .expect("cluster parameter group name"),
            )
            .await;
        if let Err(error) = delete_db_cluster_parameter_group {
            clean_up_errors.push(ScenarioError::new(
                "Failed to delete the db cluster parameter group",
                &error,
            ))
        }

        if clean_up_errors.is_empty() {
            Ok(())
        } else {
            Err(clean_up_errors)
        }
    }

    pub async fn delete_db_cluster_parameter_group(
        &self,
        name: &str,
    ) -> Result<DeleteDbClusterParameterGroupOutput, SdkError<DeleteDBClusterParameterGroupError>>
    {
        self.inner
            .delete_db_cluster_parameter_group()
            .db_cluster_parameter_group_name(name)
            .send()
            .await
    }

#[tokio::test]
async fn test_scenario_clean_up() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| Ok(DescribeDbInstancesOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| Ok(DescribeDbClustersOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_scenario_clean_up_errors() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| {
            Err(SdkError::service_error(
                DescribeDBInstancesError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db instances error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db clusters error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_err());
        let errs = clean_up.unwrap_err();
        assert_eq!(errs.len(), 2);
        assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
        assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}
```
+  Untuk detail API, lihat [Menghapus DBCluster ParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_cluster_parameter_group) di *AWS SDK untuk referensi API Rust*. 

### `DeleteDBInstance`
<a name="aurora_DeleteDBInstance_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    pub async fn clean_up(self) -> Result<(), Vec<ScenarioError>> {
        let mut clean_up_errors: Vec<ScenarioError> = vec![];

        // Delete the instance. rds.DeleteDbInstance.
        let delete_db_instance = self
            .rds
            .delete_db_instance(
                self.db_instance_identifier
                    .as_deref()
                    .expect("instance identifier"),
            )
            .await;
        if let Err(err) = delete_db_instance {
            let identifier = self
                .db_instance_identifier
                .as_deref()
                .unwrap_or("Missing Instance Identifier");
            let message = format!("failed to delete db instance {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance to delete
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_instances = self.rds.describe_db_instances().await;
                if let Err(err) = describe_db_instances {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check instance state during deletion",
                        &err,
                    ));
                    break;
                }
                let db_instances = describe_db_instances
                    .unwrap()
                    .db_instances()
                    .iter()
                    .filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
                    .cloned()
                    .collect::<Vec<DbInstance>>();

                if db_instances.is_empty() {
                    trace!("Delete Instance waited and no instances were found");
                    break;
                }
                match db_instances.first().unwrap().db_instance_status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but instances is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB instance");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster. rds.DeleteDbCluster.
        let delete_db_cluster = self
            .rds
            .delete_db_cluster(
                self.db_cluster_identifier
                    .as_deref()
                    .expect("cluster identifier"),
            )
            .await;

        if let Err(err) = delete_db_cluster {
            let identifier = self
                .db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing DB Cluster Identifier");
            let message = format!("failed to delete db cluster {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_clusters = self
                    .rds
                    .describe_db_clusters(
                        self.db_cluster_identifier
                            .as_deref()
                            .expect("cluster identifier"),
                    )
                    .await;
                if let Err(err) = describe_db_clusters {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check cluster state during deletion",
                        &err,
                    ));
                    break;
                }
                let describe_db_clusters = describe_db_clusters.unwrap();
                let db_clusters = describe_db_clusters.db_clusters();
                if db_clusters.is_empty() {
                    trace!("Delete cluster waited and no clusters were found");
                    break;
                }
                match db_clusters.first().unwrap().status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but clusters is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB cluster");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
        let delete_db_cluster_parameter_group = self
            .rds
            .delete_db_cluster_parameter_group(
                self.db_cluster_parameter_group
                    .map(|g| {
                        g.db_cluster_parameter_group_name
                            .unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
                    })
                    .as_deref()
                    .expect("cluster parameter group name"),
            )
            .await;
        if let Err(error) = delete_db_cluster_parameter_group {
            clean_up_errors.push(ScenarioError::new(
                "Failed to delete the db cluster parameter group",
                &error,
            ))
        }

        if clean_up_errors.is_empty() {
            Ok(())
        } else {
            Err(clean_up_errors)
        }
    }

    pub async fn delete_db_instance(
        &self,
        instance_identifier: &str,
    ) -> Result<DeleteDbInstanceOutput, SdkError<DeleteDBInstanceError>> {
        self.inner
            .delete_db_instance()
            .db_instance_identifier(instance_identifier)
            .skip_final_snapshot(true)
            .send()
            .await
    }

#[tokio::test]
async fn test_scenario_clean_up() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| Ok(DescribeDbInstancesOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| Ok(DescribeDbClustersOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_scenario_clean_up_errors() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| {
            Err(SdkError::service_error(
                DescribeDBInstancesError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db instances error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db clusters error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_err());
        let errs = clean_up.unwrap_err();
        assert_eq!(errs.len(), 2);
        assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
        assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_instance) di *AWS SDK untuk referensi API Rust*. 

### `DescribeDBClusterParameters`
<a name="aurora_DescribeDBClusterParameters_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameters`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    // Get the parameter group. rds.DescribeDbClusterParameterGroups
    // Get parameters in the group. This is a long list so you will have to paginate. Find the auto_increment_offset and auto_increment_increment parameters (by ParameterName). rds.DescribeDbClusterParameters
    // Parse the ParameterName, Description, and AllowedValues values and display them.
    pub async fn cluster_parameters(&self) -> Result<Vec<AuroraScenarioParameter>, ScenarioError> {
        let parameters_output = self
            .rds
            .describe_db_cluster_parameters(DB_CLUSTER_PARAMETER_GROUP_NAME)
            .await;

        if let Err(err) = parameters_output {
            return Err(ScenarioError::new(
                format!("Failed to retrieve parameters for {DB_CLUSTER_PARAMETER_GROUP_NAME}"),
                &err,
            ));
        }

        let parameters = parameters_output
            .unwrap()
            .into_iter()
            .flat_map(|p| p.parameters.unwrap_or_default().into_iter())
            .filter(|p| FILTER_PARAMETER_NAMES.contains(p.parameter_name().unwrap_or_default()))
            .map(AuroraScenarioParameter::from)
            .collect::<Vec<_>>();

        Ok(parameters)
    }

    pub async fn describe_db_cluster_parameters(
        &self,
        name: &str,
    ) -> Result<Vec<DescribeDbClusterParametersOutput>, SdkError<DescribeDBClusterParametersError>>
    {
        self.inner
            .describe_db_cluster_parameters()
            .db_cluster_parameter_group_name(name)
            .into_paginator()
            .send()
            .try_collect()
            .await
    }

#[tokio::test]
async fn test_scenario_cluster_parameters() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_cluster_parameters()
        .with(eq("RustSDKCodeExamplesDBParameterGroup"))
        .return_once(|_| {
            Ok(vec![DescribeDbClusterParametersOutput::builder()
                .parameters(Parameter::builder().parameter_name("a").build())
                .parameters(Parameter::builder().parameter_name("b").build())
                .parameters(
                    Parameter::builder()
                        .parameter_name("auto_increment_offset")
                        .build(),
                )
                .parameters(Parameter::builder().parameter_name("c").build())
                .parameters(
                    Parameter::builder()
                        .parameter_name("auto_increment_increment")
                        .build(),
                )
                .parameters(Parameter::builder().parameter_name("d").build())
                .build()])
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());

    let params = scenario.cluster_parameters().await.expect("cluster params");
    let names: Vec<String> = params.into_iter().map(|p| p.name).collect();
    assert_eq!(
        names,
        vec!["auto_increment_offset", "auto_increment_increment"]
    );
}

#[tokio::test]
async fn test_scenario_cluster_parameters_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_cluster_parameters()
        .with(eq("RustSDKCodeExamplesDBParameterGroup"))
        .return_once(|_| {
            Err(SdkError::service_error(
                DescribeDBClusterParametersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe_db_cluster_parameters_error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
    let params = scenario.cluster_parameters().await;
    assert_matches!(params, Err(ScenarioError { message, context: _ }) if message == "Failed to retrieve parameters for RustSDKCodeExamplesDBParameterGroup");
}
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Parameter](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_cluster_parameters) di *AWS SDK untuk referensi API Rust*. 

### `DescribeDBClusters`
<a name="aurora_DescribeDBClusters_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusters`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    // Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=<the family used to create your parameter group in step 2>)
    // Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
    // Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
    // Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).

    // Create a database instance in the cluster.
    // Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
    pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
        if self.password.is_none() {
            return Err(ScenarioError::with(
                "Must set Secret Password before starting a cluster",
            ));
        }
        let create_db_cluster = self
            .rds
            .create_db_cluster(
                DB_CLUSTER_IDENTIFIER,
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                DB_ENGINE,
                self.engine_version.as_deref().expect("engine version"),
                self.username.as_deref().expect("username"),
                self.password
                    .replace(SecretString::new("".to_string()))
                    .expect("password"),
            )
            .await;
        if let Err(err) = create_db_cluster {
            return Err(ScenarioError::new(
                "Failed to create DB Cluster with cluster group",
                &err,
            ));
        }

        self.db_cluster_identifier = create_db_cluster
            .unwrap()
            .db_cluster
            .and_then(|c| c.db_cluster_identifier);

        if self.db_cluster_identifier.is_none() {
            return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
        }

        info!(
            "Started a db cluster: {}",
            self.db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing ARN")
        );

        let create_db_instance = self
            .rds
            .create_db_instance(
                self.db_cluster_identifier.as_deref().expect("cluster name"),
                DB_INSTANCE_IDENTIFIER,
                self.instance_class.as_deref().expect("instance class"),
                DB_ENGINE,
            )
            .await;
        if let Err(err) = create_db_instance {
            return Err(ScenarioError::new(
                "Failed to create Instance in DB Cluster",
                &err,
            ));
        }

        self.db_instance_identifier = create_db_instance
            .unwrap()
            .db_instance
            .and_then(|i| i.db_instance_identifier);

        // Cluster creation can take up to 20 minutes to become available
        let cluster_max_wait = Duration::from_secs(20 * 60);
        let waiter = Waiter::builder().max(cluster_max_wait).build();
        while waiter.sleep().await.is_ok() {
            let cluster = self
                .rds
                .describe_db_clusters(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = cluster {
                warn!(?err, "Failed to describe cluster while waiting for ready");
                continue;
            }

            let instance = self
                .rds
                .describe_db_instance(
                    self.db_instance_identifier
                        .as_deref()
                        .expect("instance identifier"),
                )
                .await;
            if let Err(err) = instance {
                return Err(ScenarioError::new(
                    "Failed to find instance for cluster",
                    &err,
                ));
            }

            let instances_available = instance
                .unwrap()
                .db_instances()
                .iter()
                .all(|instance| instance.db_instance_status() == Some("Available"));

            let endpoints = self
                .rds
                .describe_db_cluster_endpoints(
                    self.db_cluster_identifier
                        .as_deref()
                        .expect("cluster identifier"),
                )
                .await;

            if let Err(err) = endpoints {
                return Err(ScenarioError::new(
                    "Failed to find endpoint for cluster",
                    &err,
                ));
            }

            let endpoints_available = endpoints
                .unwrap()
                .db_cluster_endpoints()
                .iter()
                .all(|endpoint| endpoint.status() == Some("available"));

            if instances_available && endpoints_available {
                return Ok(());
            }
        }

        Err(ScenarioError::with("timed out waiting for cluster"))
    }

    pub async fn describe_db_clusters(
        &self,
        id: &str,
    ) -> Result<DescribeDbClustersOutput, SdkError<DescribeDBClustersError>> {
        self.inner
            .describe_db_clusters()
            .db_cluster_identifier(id)
            .send()
            .await
    }

#[tokio::test]
async fn test_start_cluster_and_instance() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_describe_db_instance()
        .with(eq("RustSDKCodeExamplesDBInstance"))
        .return_once(|name| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_instance_identifier(name)
                        .db_instance_status("Available")
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
        assert!(scenario
            .password
            .replace(SecretString::new("BAD SECRET".into()))
            .unwrap()
            .expose_secret()
            .is_empty());
        assert_eq!(
            scenario.db_cluster_identifier,
            Some("RustSDKCodeExamplesDBCluster".into())
        );
    });
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Err(SdkError::service_error(
                CreateDBClusterError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}

#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .return_once(|_, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}

#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .return_once(|_, _, _, _| {
            Err(SdkError::service_error(
                CreateDBInstanceError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "create db instance error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    let create = scenario.start_cluster_and_instance().await;
    assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}

#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster()
        .withf(|id, params, engine, version, username, password| {
            assert_eq!(id, "RustSDKCodeExamplesDBCluster");
            assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(engine, "aurora-mysql");
            assert_eq!(version, "aurora-mysql8.0");
            assert_eq!(username, "test username");
            assert_eq!(password.expose_secret(), "test password");
            true
        })
        .return_once(|id, _, _, _, _, _| {
            Ok(CreateDbClusterOutput::builder()
                .db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds
        .expect_create_db_instance()
        .withf(|cluster, name, class, engine| {
            assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
            assert_eq!(name, "RustSDKCodeExamplesDBInstance");
            assert_eq!(class, "m5.large");
            assert_eq!(engine, "aurora-mysql");
            true
        })
        .return_once(|cluster, name, class, _| {
            Ok(CreateDbInstanceOutput::builder()
                .db_instance(
                    DbInstance::builder()
                        .db_cluster_identifier(cluster)
                        .db_instance_identifier(name)
                        .db_instance_class(class)
                        .build(),
                )
                .build())
        });

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe cluster error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        })
        .with(eq("RustSDKCodeExamplesDBCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
                .build())
        });

    mock_rds.expect_describe_db_instance().return_once(|name| {
        Ok(DescribeDbInstancesOutput::builder()
            .db_instances(
                DbInstance::builder()
                    .db_instance_identifier(name)
                    .db_instance_status("Available")
                    .build(),
            )
            .build())
    });

    mock_rds
        .expect_describe_db_cluster_endpoints()
        .return_once(|_| {
            Ok(DescribeDbClusterEndpointsOutput::builder()
                .db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
                .build())
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_version = Some("aurora-mysql8.0".into());
    scenario.instance_class = Some("m5.large".into());
    scenario.username = Some("test username".into());
    scenario.password = Some(SecretString::new("test password".into()));

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let create = scenario.start_cluster_and_instance().await;
        assert!(create.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::advance(Duration::from_secs(1)).await;
    tokio::time::resume();
    let _ = assertions.await;
}
```
+  Untuk detail API, lihat [Menjelaskan DBClusters](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_clusters) di *AWS SDK untuk referensi API Rust*. 

### `DescribeDBEngineVersions`
<a name="aurora_DescribeDBEngineVersions_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    // Get available engine families for Aurora MySql. rds.DescribeDbEngineVersions(Engine='aurora-mysql') and build a set of the 'DBParameterGroupFamily' field values. I get {aurora-mysql8.0, aurora-mysql5.7}.
    pub async fn get_engines(&self) -> Result<HashMap<String, Vec<String>>, ScenarioError> {
        let describe_db_engine_versions = self.rds.describe_db_engine_versions(DB_ENGINE).await;
        trace!(versions=?describe_db_engine_versions, "full list of versions");

        if let Err(err) = describe_db_engine_versions {
            return Err(ScenarioError::new(
                "Failed to retrieve DB Engine Versions",
                &err,
            ));
        };

        let version_count = describe_db_engine_versions
            .as_ref()
            .map(|o| o.db_engine_versions().len())
            .unwrap_or_default();
        info!(version_count, "got list of versions");

        // Create a map of engine families to their available versions.
        let mut versions = HashMap::<String, Vec<String>>::new();
        describe_db_engine_versions
            .unwrap()
            .db_engine_versions()
            .iter()
            .filter_map(
                |v| match (&v.db_parameter_group_family, &v.engine_version) {
                    (Some(family), Some(version)) => Some((family.clone(), version.clone())),
                    _ => None,
                },
            )
            .for_each(|(family, version)| versions.entry(family).or_default().push(version));

        Ok(versions)
    }

    pub async fn describe_db_engine_versions(
        &self,
        engine: &str,
    ) -> Result<DescribeDbEngineVersionsOutput, SdkError<DescribeDBEngineVersionsError>> {
        self.inner
            .describe_db_engine_versions()
            .engine(engine)
            .send()
            .await
    }

#[tokio::test]
async fn test_scenario_get_engines() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_engine_versions()
        .with(eq("aurora-mysql"))
        .return_once(|_| {
            Ok(DescribeDbEngineVersionsOutput::builder()
                .db_engine_versions(
                    DbEngineVersion::builder()
                        .db_parameter_group_family("f1")
                        .engine_version("f1a")
                        .build(),
                )
                .db_engine_versions(
                    DbEngineVersion::builder()
                        .db_parameter_group_family("f1")
                        .engine_version("f1b")
                        .build(),
                )
                .db_engine_versions(
                    DbEngineVersion::builder()
                        .db_parameter_group_family("f2")
                        .engine_version("f2a")
                        .build(),
                )
                .db_engine_versions(DbEngineVersion::builder().build())
                .build())
        });

    let scenario = AuroraScenario::new(mock_rds);

    let versions_map = scenario.get_engines().await;

    assert_eq!(
        versions_map,
        Ok(HashMap::from([
            ("f1".into(), vec!["f1a".into(), "f1b".into()]),
            ("f2".into(), vec!["f2a".into()])
        ]))
    );
}

#[tokio::test]
async fn test_scenario_get_engines_failed() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_db_engine_versions()
        .with(eq("aurora-mysql"))
        .return_once(|_| {
            Err(SdkError::service_error(
                DescribeDBEngineVersionsError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe_db_engine_versions error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let scenario = AuroraScenario::new(mock_rds);

    let versions_map = scenario.get_engines().await;
    assert_matches!(
        versions_map,
        Err(ScenarioError { message, context: _ }) if message == "Failed to retrieve DB Engine Versions"
    );
}
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_engine_versions) di *AWS SDK untuk referensi API Rust*. 

### `DescribeDBInstances`
<a name="aurora_DescribeDBInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    pub async fn clean_up(self) -> Result<(), Vec<ScenarioError>> {
        let mut clean_up_errors: Vec<ScenarioError> = vec![];

        // Delete the instance. rds.DeleteDbInstance.
        let delete_db_instance = self
            .rds
            .delete_db_instance(
                self.db_instance_identifier
                    .as_deref()
                    .expect("instance identifier"),
            )
            .await;
        if let Err(err) = delete_db_instance {
            let identifier = self
                .db_instance_identifier
                .as_deref()
                .unwrap_or("Missing Instance Identifier");
            let message = format!("failed to delete db instance {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance to delete
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_instances = self.rds.describe_db_instances().await;
                if let Err(err) = describe_db_instances {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check instance state during deletion",
                        &err,
                    ));
                    break;
                }
                let db_instances = describe_db_instances
                    .unwrap()
                    .db_instances()
                    .iter()
                    .filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
                    .cloned()
                    .collect::<Vec<DbInstance>>();

                if db_instances.is_empty() {
                    trace!("Delete Instance waited and no instances were found");
                    break;
                }
                match db_instances.first().unwrap().db_instance_status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but instances is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB instance");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster. rds.DeleteDbCluster.
        let delete_db_cluster = self
            .rds
            .delete_db_cluster(
                self.db_cluster_identifier
                    .as_deref()
                    .expect("cluster identifier"),
            )
            .await;

        if let Err(err) = delete_db_cluster {
            let identifier = self
                .db_cluster_identifier
                .as_deref()
                .unwrap_or("Missing DB Cluster Identifier");
            let message = format!("failed to delete db cluster {identifier}");
            clean_up_errors.push(ScenarioError::new(message, &err));
        } else {
            // Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
            let waiter = Waiter::default();
            while waiter.sleep().await.is_ok() {
                let describe_db_clusters = self
                    .rds
                    .describe_db_clusters(
                        self.db_cluster_identifier
                            .as_deref()
                            .expect("cluster identifier"),
                    )
                    .await;
                if let Err(err) = describe_db_clusters {
                    clean_up_errors.push(ScenarioError::new(
                        "Failed to check cluster state during deletion",
                        &err,
                    ));
                    break;
                }
                let describe_db_clusters = describe_db_clusters.unwrap();
                let db_clusters = describe_db_clusters.db_clusters();
                if db_clusters.is_empty() {
                    trace!("Delete cluster waited and no clusters were found");
                    break;
                }
                match db_clusters.first().unwrap().status() {
                    Some("Deleting") => continue,
                    Some(status) => {
                        info!("Attempting to delete but clusters is in {status}");
                        continue;
                    }
                    None => {
                        warn!("No status for DB cluster");
                        break;
                    }
                }
            }
        }

        // Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
        let delete_db_cluster_parameter_group = self
            .rds
            .delete_db_cluster_parameter_group(
                self.db_cluster_parameter_group
                    .map(|g| {
                        g.db_cluster_parameter_group_name
                            .unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
                    })
                    .as_deref()
                    .expect("cluster parameter group name"),
            )
            .await;
        if let Err(error) = delete_db_cluster_parameter_group {
            clean_up_errors.push(ScenarioError::new(
                "Failed to delete the db cluster parameter group",
                &error,
            ))
        }

        if clean_up_errors.is_empty() {
            Ok(())
        } else {
            Err(clean_up_errors)
        }
    }

    pub async fn describe_db_instances(
        &self,
    ) -> Result<DescribeDbInstancesOutput, SdkError<DescribeDBInstancesError>> {
        self.inner.describe_db_instances().send().await
    }

#[tokio::test]
async fn test_scenario_clean_up() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| Ok(DescribeDbInstancesOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| Ok(DescribeDbClustersOutput::builder().build()));

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_ok());
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}

#[tokio::test]
async fn test_scenario_clean_up_errors() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_delete_db_instance()
        .with(eq("MockInstance"))
        .return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));

    mock_rds
        .expect_describe_db_instances()
        .with()
        .times(1)
        .returning(|| {
            Ok(DescribeDbInstancesOutput::builder()
                .db_instances(
                    DbInstance::builder()
                        .db_cluster_identifier("MockCluster")
                        .db_instance_status("Deleting")
                        .build(),
                )
                .build())
        })
        .with()
        .times(1)
        .returning(|| {
            Err(SdkError::service_error(
                DescribeDBInstancesError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db instances error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster()
        .with(eq("MockCluster"))
        .return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));

    mock_rds
        .expect_describe_db_clusters()
        .with(eq("MockCluster"))
        .times(1)
        .returning(|id| {
            Ok(DescribeDbClustersOutput::builder()
                .db_clusters(
                    DbCluster::builder()
                        .db_cluster_identifier(id)
                        .status("Deleting")
                        .build(),
                )
                .build())
        })
        .with(eq("MockCluster"))
        .times(1)
        .returning(|_| {
            Err(SdkError::service_error(
                DescribeDBClustersError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe db clusters error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    mock_rds
        .expect_delete_db_cluster_parameter_group()
        .with(eq("MockParamGroup"))
        .return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.db_cluster_identifier = Some(String::from("MockCluster"));
    scenario.db_instance_identifier = Some(String::from("MockInstance"));
    scenario.db_cluster_parameter_group = Some(
        DbClusterParameterGroup::builder()
            .db_cluster_parameter_group_name("MockParamGroup")
            .build(),
    );

    tokio::time::pause();
    let assertions = tokio::spawn(async move {
        let clean_up = scenario.clean_up().await;
        assert!(clean_up.is_err());
        let errs = clean_up.unwrap_err();
        assert_eq!(errs.len(), 2);
        assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
        assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
    });

    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
    tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
    tokio::time::resume();
    let _ = assertions.await;
}
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_instances) di *AWS SDK untuk referensi API Rust*. 

### `DescribeOrderableDBInstanceOptions`
<a name="aurora_DescribeOrderableDBInstanceOptions_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    pub async fn get_instance_classes(&self) -> Result<Vec<String>, ScenarioError> {
        let describe_orderable_db_instance_options_items = self
            .rds
            .describe_orderable_db_instance_options(
                DB_ENGINE,
                self.engine_version
                    .as_ref()
                    .expect("engine version for db instance options")
                    .as_str(),
            )
            .await;

        describe_orderable_db_instance_options_items
            .map(|options| {
                options
                    .iter()
                    .filter(|o| o.storage_type() == Some("aurora"))
                    .map(|o| o.db_instance_class().unwrap_or_default().to_string())
                    .collect::<Vec<String>>()
            })
            .map_err(|err| ScenarioError::new("Could not get available instance classes", &err))
    }

    pub async fn describe_orderable_db_instance_options(
        &self,
        engine: &str,
        engine_version: &str,
    ) -> Result<Vec<OrderableDbInstanceOption>, SdkError<DescribeOrderableDBInstanceOptionsError>>
    {
        self.inner
            .describe_orderable_db_instance_options()
            .engine(engine)
            .engine_version(engine_version)
            .into_paginator()
            .items()
            .send()
            .try_collect()
            .await
    }

#[tokio::test]
async fn test_scenario_get_instance_classes() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_create_db_cluster_parameter_group()
        .return_once(|_, _, _| {
            Ok(CreateDbClusterParameterGroupOutput::builder()
                .db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
                .build())
        });

    mock_rds
        .expect_describe_orderable_db_instance_options()
        .with(eq("aurora-mysql"), eq("aurora-mysql8.0"))
        .return_once(|_, _| {
            Ok(vec![
                OrderableDbInstanceOption::builder()
                    .db_instance_class("t1")
                    .storage_type("aurora")
                    .build(),
                OrderableDbInstanceOption::builder()
                    .db_instance_class("t1")
                    .storage_type("aurora-iopt1")
                    .build(),
                OrderableDbInstanceOption::builder()
                    .db_instance_class("t2")
                    .storage_type("aurora")
                    .build(),
                OrderableDbInstanceOption::builder()
                    .db_instance_class("t3")
                    .storage_type("aurora")
                    .build(),
            ])
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario
        .set_engine("aurora-mysql", "aurora-mysql8.0")
        .await
        .expect("set engine");

    let instance_classes = scenario.get_instance_classes().await;

    assert_eq!(
        instance_classes,
        Ok(vec!["t1".into(), "t2".into(), "t3".into()])
    );
}

#[tokio::test]
async fn test_scenario_get_instance_classes_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_describe_orderable_db_instance_options()
        .with(eq("aurora-mysql"), eq("aurora-mysql8.0"))
        .return_once(|_, _| {
            Err(SdkError::service_error(
                DescribeOrderableDBInstanceOptionsError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "describe_orderable_db_instance_options_error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let mut scenario = AuroraScenario::new(mock_rds);
    scenario.engine_family = Some("aurora-mysql".into());
    scenario.engine_version = Some("aurora-mysql8.0".into());

    let instance_classes = scenario.get_instance_classes().await;

    assert_matches!(
        instance_classes,
        Err(ScenarioError {message, context: _}) if message == "Could not get available instance classes"
    );
}
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_orderable_db_instance_options) di *AWS SDK untuk referensi API Rust*. 

### `ModifyDBClusterParameterGroup`
<a name="aurora_ModifyDBClusterParameterGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBClusterParameterGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples). 

```
    // Modify both the auto_increment_offset and auto_increment_increment parameters in one call in the custom parameter group. Set their ParameterValue fields to a new allowable value. rds.ModifyDbClusterParameterGroup.
    pub async fn update_auto_increment(
        &self,
        offset: u8,
        increment: u8,
    ) -> Result<(), ScenarioError> {
        let modify_db_cluster_parameter_group = self
            .rds
            .modify_db_cluster_parameter_group(
                DB_CLUSTER_PARAMETER_GROUP_NAME,
                vec![
                    Parameter::builder()
                        .parameter_name("auto_increment_offset")
                        .parameter_value(format!("{offset}"))
                        .apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
                        .build(),
                    Parameter::builder()
                        .parameter_name("auto_increment_increment")
                        .parameter_value(format!("{increment}"))
                        .apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
                        .build(),
                ],
            )
            .await;

        if let Err(error) = modify_db_cluster_parameter_group {
            return Err(ScenarioError::new(
                "Failed to modify cluster parameter group",
                &error,
            ));
        }

        Ok(())
    }

    pub async fn modify_db_cluster_parameter_group(
        &self,
        name: &str,
        parameters: Vec<Parameter>,
    ) -> Result<ModifyDbClusterParameterGroupOutput, SdkError<ModifyDBClusterParameterGroupError>>
    {
        self.inner
            .modify_db_cluster_parameter_group()
            .db_cluster_parameter_group_name(name)
            .set_parameters(Some(parameters))
            .send()
            .await
    }

#[tokio::test]
async fn test_scenario_update_auto_increment() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_modify_db_cluster_parameter_group()
        .withf(|name, params| {
            assert_eq!(name, "RustSDKCodeExamplesDBParameterGroup");
            assert_eq!(
                params,
                &vec![
                    Parameter::builder()
                        .parameter_name("auto_increment_offset")
                        .parameter_value("10")
                        .apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
                        .build(),
                    Parameter::builder()
                        .parameter_name("auto_increment_increment")
                        .parameter_value("20")
                        .apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
                        .build(),
                ]
            );
            true
        })
        .return_once(|_, _| Ok(ModifyDbClusterParameterGroupOutput::builder().build()));

    let scenario = AuroraScenario::new(mock_rds);

    scenario
        .update_auto_increment(10, 20)
        .await
        .expect("update auto increment");
}

#[tokio::test]
async fn test_scenario_update_auto_increment_error() {
    let mut mock_rds = MockRdsImpl::default();

    mock_rds
        .expect_modify_db_cluster_parameter_group()
        .return_once(|_, _| {
            Err(SdkError::service_error(
                ModifyDBClusterParameterGroupError::unhandled(Box::new(Error::new(
                    ErrorKind::Other,
                    "modify_db_cluster_parameter_group_error",
                ))),
                Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
            ))
        });

    let scenario = AuroraScenario::new(mock_rds);

    let update = scenario.update_auto_increment(10, 20).await;
    assert_matches!(update, Err(ScenarioError { message, context: _}) if message == "Failed to modify cluster parameter group");
}
```
+  Untuk detail API, lihat [Memodifikasi DBCluster ParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.modify_db_cluster_parameter_group) di *AWS SDK untuk referensi API Rust*. 

# Contoh Auto Scaling menggunakan SDK untuk Rust
<a name="rust_1_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Auto Scaling.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Auto Scaling
<a name="auto-scaling_Hello_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Auto Scaling.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
async fn list_groups(client: &Client) -> Result<(), Error> {
    let resp = client.describe_auto_scaling_groups().send().await?;

    println!("Groups:");

    let groups = resp.auto_scaling_groups();

    for group in groups {
        println!(
            "Name:  {}",
            group.auto_scaling_group_name().unwrap_or("Unknown")
        );
        println!(
            "Arn:   {}",
            group.auto_scaling_group_arn().unwrap_or("unknown"),
        );
        println!("Zones: {:?}", group.availability_zones(),);
        println!();
    }

    println!("Found {} group(s)", groups.len());

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_groups)*referensi AWS SDK for Rust API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="auto-scaling_Scenario_GroupsAndInstances_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat grup Amazon EC2 Auto Scaling dengan template peluncuran dan Availability Zone, dan dapatkan informasi tentang menjalankan instans.
+ Aktifkan pengumpulan CloudWatch metrik Amazon.
+ Perbarui kapasitas yang diinginkan grup dan tunggu instance dimulai.
+ Mengakhiri instance dalam grup.
+ Buat daftar aktivitas penskalaan yang terjadi sebagai respons terhadap permintaan pengguna dan perubahan kapasitas.
+ Dapatkan statistik untuk CloudWatch metrik, lalu bersihkan sumber daya.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
[package]
name = "autoscaling-code-examples"
version = "0.1.0"
authors = ["Doug Schwartz <dougsch@amazon.com>", "David Souther <dpsouth@amazon.com>"]
edition = "2021"

# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html

[dependencies]
aws-config = { version = "1.0.1", features = ["behavior-version-latest"] }
aws-sdk-autoscaling = { version = "1.3.0" }
aws-sdk-ec2 = { version = "1.3.0" }
aws-types = { version = "1.0.1" }
tokio = { version = "1.20.1", features = ["full"] }
clap = { version = "4.4", features = ["derive"] }
tracing-subscriber = { version = "0.3.15", features = ["env-filter"] }
anyhow = "1.0.75"
tracing = "0.1.37"
tokio-stream = "0.1.14"


use std::{collections::BTreeSet, fmt::Display};

use anyhow::anyhow;
use autoscaling_code_examples::scenario::{AutoScalingScenario, ScenarioError};
use tracing::{info, warn};

async fn show_scenario_description(scenario: &AutoScalingScenario, event: &str) {
    let description = scenario.describe_scenario().await;
    info!("DescribeAutoScalingInstances: {event}\n{description}");
}

#[derive(Default, Debug)]
struct Warnings(Vec<String>);

impl Warnings {
    pub fn push(&mut self, warning: &str, error: ScenarioError) {
        let formatted = format!("{warning}: {error}");
        warn!("{formatted}");
        self.0.push(formatted);
    }

    pub fn is_empty(&self) -> bool {
        self.0.is_empty()
    }
}

impl Display for Warnings {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        writeln!(f, "Warnings:")?;
        for warning in &self.0 {
            writeln!(f, "{: >4}- {warning}", "")?;
        }
        Ok(())
    }
}

#[tokio::main]
async fn main() -> Result<(), anyhow::Error> {
    tracing_subscriber::fmt::init();

    let shared_config = aws_config::from_env().load().await;

    let mut warnings = Warnings::default();

    // 1. Create an EC2 launch template that you'll use to create an auto scaling group. Bonus: use SDK with EC2.CreateLaunchTemplate to create the launch template.
    // 2. CreateAutoScalingGroup: pass it the launch template you created in step 0. Give it min/max of 1 instance.
    // 4. EnableMetricsCollection: enable all metrics or a subset.
    let scenario = match AutoScalingScenario::prepare_scenario(&shared_config).await {
        Ok(scenario) => scenario,
        Err(errs) => {
            let err_str = errs
                .into_iter()
                .map(|e| e.to_string())
                .collect::<Vec<String>>()
                .join(", ");
            return Err(anyhow!("Failed to initialize scenario: {err_str}"));
        }
    };

    info!("Prepared autoscaling scenario:\n{scenario}");

    let stable = scenario.wait_for_stable(1).await;
    if let Err(err) = stable {
        warnings.push(
            "There was a problem while waiting for group to be stable",
            err,
        );
    }

    // 3. DescribeAutoScalingInstances: show that one instance has launched.
    show_scenario_description(
        &scenario,
        "show that the group was created and one instance has launched",
    )
    .await;

    // 5. UpdateAutoScalingGroup: update max size to 3.
    let scale_max_size = scenario.scale_max_size(3).await;
    if let Err(err) = scale_max_size {
        warnings.push("There was a problem scaling max size", err);
    }

    // 6. DescribeAutoScalingGroups: the current state of the group
    show_scenario_description(
        &scenario,
        "show the current state of the group after setting max size",
    )
    .await;

    // 7. SetDesiredCapacity: set desired capacity to 2.
    let scale_desired_capacity = scenario.scale_desired_capacity(2).await;
    if let Err(err) = scale_desired_capacity {
        warnings.push("There was a problem setting desired capacity", err);
    }

    //   Wait for a second instance to launch.
    let stable = scenario.wait_for_stable(2).await;
    if let Err(err) = stable {
        warnings.push(
            "There was a problem while waiting for group to be stable",
            err,
        );
    }

    // 8. DescribeAutoScalingInstances: show that two instances are launched.
    show_scenario_description(
        &scenario,
        "show that two instances are launched after setting desired capacity",
    )
    .await;

    let ids_before = scenario
        .list_instances()
        .await
        .map(|v| v.into_iter().collect::<BTreeSet<_>>())
        .unwrap_or_default();

    // 9. TerminateInstanceInAutoScalingGroup: terminate one of the instances in the group.
    let terminate_some_instance = scenario.terminate_some_instance().await;
    if let Err(err) = terminate_some_instance {
        warnings.push("There was a problem replacing an instance", err);
    }

    let wait_after_terminate = scenario.wait_for_stable(1).await;
    if let Err(err) = wait_after_terminate {
        warnings.push(
            "There was a problem waiting after terminating an instance",
            err,
        );
    }

    let wait_scale_up_after_terminate = scenario.wait_for_stable(2).await;
    if let Err(err) = wait_scale_up_after_terminate {
        warnings.push(
            "There was a problem waiting for scale up after terminating an instance",
            err,
        );
    }

    let ids_after = scenario
        .list_instances()
        .await
        .map(|v| v.into_iter().collect::<BTreeSet<_>>())
        .unwrap_or_default();

    let difference = ids_after.intersection(&ids_before).count();
    if !(difference == 1 && ids_before.len() == 2 && ids_after.len() == 2) {
        warnings.push(
            "Before and after set not different",
            ScenarioError::with(format!("{difference}")),
        );
    }

    // 10. DescribeScalingActivities: list the scaling activities that have occurred for the group so far.
    show_scenario_description(
        &scenario,
        "list the scaling activities that have occurred for the group so far",
    )
    .await;

    // 11. DisableMetricsCollection
    let scale_group = scenario.scale_group_to_zero().await;
    if let Err(err) = scale_group {
        warnings.push("There was a problem scaling the group to 0", err);
    }
    show_scenario_description(&scenario, "Scenario scaled to 0").await;

    // 12. DeleteAutoScalingGroup (to delete the group you must stop all instances):
    // 13. Delete LaunchTemplate.
    let clean_scenario = scenario.clean_scenario().await;
    if let Err(errs) = clean_scenario {
        for err in errs {
            warnings.push("There was a problem cleaning the scenario", err);
        }
    } else {
        info!("The scenario has been cleaned up!");
    }

    if warnings.is_empty() {
        Ok(())
    } else {
        Err(anyhow!(
            "There were warnings during scenario execution:\n{warnings}"
        ))
    }
}

pub mod scenario;


use std::{
    error::Error,
    fmt::{Debug, Display},
    time::{Duration, SystemTime},
};

use anyhow::anyhow;
use aws_config::SdkConfig;
use aws_sdk_autoscaling::{
    error::{DisplayErrorContext, ProvideErrorMetadata},
    types::{Activity, AutoScalingGroup, LaunchTemplateSpecification},
};
use aws_sdk_ec2::types::RequestLaunchTemplateData;
use tracing::trace;

const LAUNCH_TEMPLATE_NAME: &str = "SDK_Code_Examples_EC2_Autoscaling_template_from_Rust_SDK";
const AUTOSCALING_GROUP_NAME: &str = "SDK_Code_Examples_EC2_Autoscaling_Group_from_Rust_SDK";
const MAX_WAIT: Duration = Duration::from_secs(5 * 60); // Wait at most 25 seconds.
const WAIT_TIME: Duration = Duration::from_millis(500); // Wait half a second at a time.

struct Waiter {
    start: SystemTime,
    max: Duration,
}

impl Waiter {
    fn new() -> Self {
        Waiter {
            start: SystemTime::now(),
            max: MAX_WAIT,
        }
    }

    async fn sleep(&self) -> Result<(), ScenarioError> {
        if SystemTime::now()
            .duration_since(self.start)
            .unwrap_or(Duration::MAX)
            > self.max
        {
            Err(ScenarioError::with(
                "Exceeded maximum wait duration for stable group",
            ))
        } else {
            tokio::time::sleep(WAIT_TIME).await;
            Ok(())
        }
    }
}

pub struct AutoScalingScenario {
    ec2: aws_sdk_ec2::Client,
    autoscaling: aws_sdk_autoscaling::Client,
    launch_template_arn: String,
    auto_scaling_group_name: String,
}

impl Display for AutoScalingScenario {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        f.write_fmt(format_args!(
            "\tLaunch Template ID: {}\n",
            self.launch_template_arn
        ))?;
        f.write_fmt(format_args!(
            "\tScaling Group Name: {}\n",
            self.auto_scaling_group_name
        ))?;

        Ok(())
    }
}

pub struct AutoScalingScenarioDescription {
    group: Result<Vec<String>, ScenarioError>,
    instances: Result<Vec<String>, anyhow::Error>,
    activities: Result<Vec<Activity>, anyhow::Error>,
}

impl Display for AutoScalingScenarioDescription {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        writeln!(f, "\t      Group status:")?;
        match &self.group {
            Ok(groups) => {
                for status in groups {
                    writeln!(f, "\t\t- {status}")?;
                }
            }
            Err(e) => writeln!(f, "\t\t! - {e}")?,
        }
        writeln!(f, "\t         Instances:")?;
        match &self.instances {
            Ok(instances) => {
                for instance in instances {
                    writeln!(f, "\t\t- {instance}")?;
                }
            }
            Err(e) => writeln!(f, "\t\t! {e}")?,
        }

        writeln!(f, "\t        Activities:")?;
        match &self.activities {
            Ok(activities) => {
                for activity in activities {
                    writeln!(
                        f,
                        "\t\t- {} Progress: {}% Status: {:?} End: {:?}",
                        activity.cause().unwrap_or("Unknown"),
                        activity.progress.unwrap_or(-1),
                        activity.status_code(),
                        // activity.status_message().unwrap_or_default()
                        activity.end_time(),
                    )?;
                }
            }
            Err(e) => writeln!(f, "\t\t! {e}")?,
        }

        Ok(())
    }
}

#[derive(Debug)]
struct MetadataError {
    message: Option<String>,
    code: Option<String>,
}

impl MetadataError {
    fn from(err: &dyn ProvideErrorMetadata) -> Self {
        MetadataError {
            message: err.message().map(|s| s.to_string()),
            code: err.code().map(|s| s.to_string()),
        }
    }
}

impl Display for MetadataError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        let display = match (&self.message, &self.code) {
            (None, None) => "Unknown".to_string(),
            (None, Some(code)) => format!("({code})"),
            (Some(message), None) => message.to_string(),
            (Some(message), Some(code)) => format!("{message} ({code})"),
        };
        write!(f, "{display}")
    }
}

#[derive(Debug)]
pub struct ScenarioError {
    message: String,
    context: Option<MetadataError>,
}

impl ScenarioError {
    pub fn with(message: impl Into<String>) -> Self {
        ScenarioError {
            message: message.into(),
            context: None,
        }
    }

    pub fn new(message: impl Into<String>, err: &dyn ProvideErrorMetadata) -> Self {
        ScenarioError {
            message: message.into(),
            context: Some(MetadataError::from(err)),
        }
    }
}

impl Error for ScenarioError {
    // While `Error` can capture `source` information about the underlying error, for this example
    // the ScenarioError captures the underlying information in MetadataError and treats it as a
    // single Error from this Crate. In other contexts, it may be appropriate to model the error
    // as including the SdkError as its source.
}
impl Display for ScenarioError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        match &self.context {
            Some(c) => write!(f, "{}: {}", self.message, c),
            None => write!(f, "{}", self.message),
        }
    }
}

impl AutoScalingScenario {
    pub async fn prepare_scenario(sdk_config: &SdkConfig) -> Result<Self, Vec<ScenarioError>> {
        let ec2 = aws_sdk_ec2::Client::new(sdk_config);
        let autoscaling = aws_sdk_autoscaling::Client::new(sdk_config);

        let auto_scaling_group_name = String::from(AUTOSCALING_GROUP_NAME);

        // Before creating any resources, prepare the list of AZs
        let availablity_zones = ec2.describe_availability_zones().send().await;
        if let Err(err) = availablity_zones {
            return Err(vec![ScenarioError::new("Failed to find AZs", &err)]);
        }

        let availability_zones: Vec<String> = availablity_zones
            .unwrap()
            .availability_zones
            .unwrap_or_default()
            .iter()
            .take(3)
            .map(|z| z.zone_name.clone().unwrap())
            .collect();

        // 1. Create an EC2 launch template that you'll use to create an auto scaling group. Bonus: use SDK with EC2.CreateLaunchTemplate to create the launch template.
        //   * Recommended: InstanceType='t1.micro', ImageId='ami-0ca285d4c2cda3300'
        let create_launch_template = ec2
            .create_launch_template()
            .launch_template_name(LAUNCH_TEMPLATE_NAME)
            .launch_template_data(
                RequestLaunchTemplateData::builder()
                    .instance_type(aws_sdk_ec2::types::InstanceType::T1Micro)
                    .image_id("ami-0ca285d4c2cda3300")
                    .build(),
            )
            .send()
            .await
            .map_err(|err| vec![ScenarioError::new("Failed to create launch template", &err)])?;

        let launch_template_arn = match create_launch_template.launch_template {
            Some(launch_template) => launch_template.launch_template_id.unwrap_or_default(),
            None => {
                // Try to delete the launch template
                let _ = ec2
                    .delete_launch_template()
                    .launch_template_name(LAUNCH_TEMPLATE_NAME)
                    .send()
                    .await;
                return Err(vec![ScenarioError::with("Failed to load launch template")]);
            }
        };

        // 2. CreateAutoScalingGroup: pass it the launch template you created in step 0. Give it min/max of 1 instance.
        //   You can use EC2.describe_availability_zones() to get a list of AZs (you have to specify an AZ when you create the group).
        //   Wait for instance to launch. Use a waiter if you have one, otherwise DescribeAutoScalingInstances until LifecycleState='InService'
        if let Err(err) = autoscaling
            .create_auto_scaling_group()
            .auto_scaling_group_name(auto_scaling_group_name.as_str())
            .launch_template(
                LaunchTemplateSpecification::builder()
                    .launch_template_id(launch_template_arn.clone())
                    .version("$Latest")
                    .build(),
            )
            .max_size(1)
            .min_size(1)
            .set_availability_zones(Some(availability_zones))
            .send()
            .await
        {
            let mut errs = vec![ScenarioError::new(
                "Failed to create autoscaling group",
                &err,
            )];

            if let Err(err) = autoscaling
                .delete_auto_scaling_group()
                .auto_scaling_group_name(auto_scaling_group_name.as_str())
                .send()
                .await
            {
                errs.push(ScenarioError::new(
                    "Failed to clean up autoscaling group",
                    &err,
                ));
            }

            if let Err(err) = ec2
                .delete_launch_template()
                .launch_template_id(launch_template_arn.clone())
                .send()
                .await
            {
                errs.push(ScenarioError::new(
                    "Failed to clean up launch template",
                    &err,
                ));
            }
            return Err(errs);
        }

        let scenario = AutoScalingScenario {
            ec2,
            autoscaling: autoscaling.clone(), // Clients are cheap so cloning here to prevent a move is ok.
            auto_scaling_group_name: auto_scaling_group_name.clone(),
            launch_template_arn,
        };

        let enable_metrics_collection = autoscaling
            .enable_metrics_collection()
            .auto_scaling_group_name(auto_scaling_group_name.as_str())
            .granularity("1Minute")
            .set_metrics(Some(vec![
                String::from("GroupMinSize"),
                String::from("GroupMaxSize"),
                String::from("GroupDesiredCapacity"),
                String::from("GroupInServiceInstances"),
                String::from("GroupTotalInstances"),
            ]))
            .send()
            .await;

        match enable_metrics_collection {
            Ok(_) => Ok(scenario),
            Err(err) => {
                scenario.clean_scenario().await?;
                Err(vec![ScenarioError::new(
                    "Failed to enable metrics collections for group",
                    &err,
                )])
            }
        }
    }

    pub async fn clean_scenario(self) -> Result<(), Vec<ScenarioError>> {
        let _ = self.wait_for_no_scaling().await;
        let delete_group = self
            .autoscaling
            .delete_auto_scaling_group()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .send()
            .await;

        // 14. Delete LaunchTemplate.
        let delete_launch_template = self
            .ec2
            .delete_launch_template()
            .launch_template_id(self.launch_template_arn.clone())
            .send()
            .await;

        let early_exit = match (delete_group, delete_launch_template) {
            (Ok(_), Ok(_)) => Ok(()),
            (Ok(_), Err(e)) => Err(vec![ScenarioError::new(
                "There was an error cleaning the launch template",
                &e,
            )]),
            (Err(e), Ok(_)) => Err(vec![ScenarioError::new(
                "There was an error cleaning the scale group",
                &e,
            )]),
            (Err(e1), Err(e2)) => Err(vec![
                ScenarioError::new("Multiple error cleaning the scenario Scale Group", &e1),
                ScenarioError::new("Multiple error cleaning the scenario Launch Template", &e2),
            ]),
        };

        if early_exit.is_err() {
            early_exit
        } else {
            // Wait for delete_group to finish
            let waiter = Waiter::new();
            let mut errors = Vec::<ScenarioError>::new();
            while errors.len() < 3 {
                if let Err(e) = waiter.sleep().await {
                    errors.push(e);
                    continue;
                }
                let describe_group = self
                    .autoscaling
                    .describe_auto_scaling_groups()
                    .auto_scaling_group_names(self.auto_scaling_group_name.clone())
                    .send()
                    .await;
                match describe_group {
                    Ok(group) => match group.auto_scaling_groups().first() {
                        Some(group) => {
                            if group.status() != Some("Delete in progress") {
                                errors.push(ScenarioError::with(format!(
                                    "Group in an unknown state while deleting: {}",
                                    group.status().unwrap_or("unknown error")
                                )));
                                return Err(errors);
                            }
                        }
                        None => return Ok(()),
                    },
                    Err(err) => {
                        errors.push(ScenarioError::new("Failed to describe autoscaling group during cleanup 3 times, last error", &err));
                    }
                }
                if errors.len() > 3 {
                    return Err(errors);
                }
            }
            Err(vec![ScenarioError::with(
                "Exited cleanup wait loop without retuning success or failing after three rounds",
            )])
        }
    }

    pub async fn describe_scenario(&self) -> AutoScalingScenarioDescription {
        let group = self
            .autoscaling
            .describe_auto_scaling_groups()
            .auto_scaling_group_names(self.auto_scaling_group_name.clone())
            .send()
            .await
            .map(|s| {
                s.auto_scaling_groups()
                    .iter()
                    .map(|s| {
                        format!(
                            "{}: {}",
                            s.auto_scaling_group_name().unwrap_or("Unknown"),
                            s.status().unwrap_or("Unknown")
                        )
                    })
                    .collect::<Vec<String>>()
            })
            .map_err(|e| {
                ScenarioError::new("Failed to describe auto scaling groups for scenario", &e)
            });

        let instances = self
            .list_instances()
            .await
            .map_err(|e| anyhow!("There was an error listing instances: {e}",));

        // 10. DescribeScalingActivities: list the scaling activities that have occurred for the group so far.
        //   Bonus: use CloudWatch API to get and show some metrics collected for the group.
        //   CW.ListMetrics with Namespace='AWS/AutoScaling' and Dimensions=[{'Name': 'AutoScalingGroupName', 'Value': }]
        //   CW.GetMetricStatistics with Statistics='Sum'. Start and End times must be in UTC!
        let activities = self
            .autoscaling
            .describe_scaling_activities()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .into_paginator()
            .items()
            .send()
            .collect::<Result<Vec<_>, _>>()
            .await
            .map_err(|e| {
                anyhow!(
                    "There was an error retrieving scaling activities: {}",
                    DisplayErrorContext(&e)
                )
            });

        AutoScalingScenarioDescription {
            group,
            instances,
            activities,
        }
    }

    async fn get_group(&self) -> Result<AutoScalingGroup, ScenarioError> {
        let describe_auto_scaling_groups = self
            .autoscaling
            .describe_auto_scaling_groups()
            .auto_scaling_group_names(self.auto_scaling_group_name.clone())
            .send()
            .await;

        if let Err(err) = describe_auto_scaling_groups {
            return Err(ScenarioError::new(
                format!(
                    "Failed to get status of autoscaling group {}",
                    self.auto_scaling_group_name.clone()
                )
                .as_str(),
                &err,
            ));
        }

        let describe_auto_scaling_groups_output = describe_auto_scaling_groups.unwrap();
        let auto_scaling_groups = describe_auto_scaling_groups_output.auto_scaling_groups();
        let auto_scaling_group = auto_scaling_groups.first();

        if auto_scaling_group.is_none() {
            return Err(ScenarioError::with(format!(
                "Could not find autoscaling group {}",
                self.auto_scaling_group_name.clone()
            )));
        }

        Ok(auto_scaling_group.unwrap().clone())
    }

    pub async fn wait_for_no_scaling(&self) -> Result<(), ScenarioError> {
        let waiter = Waiter::new();
        let mut scaling = true;
        while scaling {
            waiter.sleep().await?;
            let describe_activities = self
                .autoscaling
                .describe_scaling_activities()
                .auto_scaling_group_name(self.auto_scaling_group_name.clone())
                .send()
                .await
                .map_err(|e| {
                    ScenarioError::new("Failed to get autoscaling activities for group", &e)
                })?;
            let activities = describe_activities.activities();
            trace!(
                "Waiting for no scaling found {} activities",
                activities.len()
            );
            scaling = activities.iter().any(|a| a.progress() < Some(100));
        }
        Ok(())
    }

    pub async fn wait_for_stable(&self, size: usize) -> Result<(), ScenarioError> {
        self.wait_for_no_scaling().await?;

        let mut group = self.get_group().await?;
        let mut count = count_group_instances(&group);

        let waiter = Waiter::new();
        while count != size {
            trace!("Waiting for stable {size} (current: {count})");
            waiter.sleep().await?;
            group = self.get_group().await?;
            count = count_group_instances(&group);
        }

        Ok(())
    }

    pub async fn list_instances(&self) -> Result<Vec<String>, ScenarioError> {
        // The direct way to list instances is by using DescribeAutoScalingGroup's instances property. However, this returns a Vec<Instance>, as opposed to a Vec<AutoScalingInstanceDetails>.
        // Ok(self.get_group().await?.instances.unwrap_or_default().map(|i| i.instance_id.clone().unwrap_or_default()).filter(|id| !id.is_empty()).collect())

        // Alternatively, and for the sake of example, DescribeAutoScalingInstances returns a list that can be filtered by the client.
        self.autoscaling
            .describe_auto_scaling_instances()
            .into_paginator()
            .items()
            .send()
            .try_collect()
            .await
            .map(|items| {
                items
                    .into_iter()
                    .filter(|i| {
                        i.auto_scaling_group_name.as_deref()
                            == Some(self.auto_scaling_group_name.as_str())
                    })
                    .map(|i| i.instance_id.unwrap_or_default())
                    .filter(|id| !id.is_empty())
                    .collect::<Vec<String>>()
            })
            .map_err(|err| ScenarioError::new("Failed to get list of auto scaling instances", &err))
    }

    pub async fn scale_min_size(&self, size: i32) -> Result<(), ScenarioError> {
        let update_group = self
            .autoscaling
            .update_auto_scaling_group()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .min_size(size)
            .send()
            .await;
        if let Err(err) = update_group {
            return Err(ScenarioError::new(
                format!("Failer to update group to min size ({size}))").as_str(),
                &err,
            ));
        }
        Ok(())
    }

    pub async fn scale_max_size(&self, size: i32) -> Result<(), ScenarioError> {
        // 5. UpdateAutoScalingGroup: update max size to 3.
        let update_group = self
            .autoscaling
            .update_auto_scaling_group()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .max_size(size)
            .send()
            .await;
        if let Err(err) = update_group {
            return Err(ScenarioError::new(
                format!("Failed to update group to max size ({size})").as_str(),
                &err,
            ));
        }
        Ok(())
    }

    pub async fn scale_desired_capacity(&self, capacity: i32) -> Result<(), ScenarioError> {
        // 7. SetDesiredCapacity: set desired capacity to 2.
        //   Wait for a second instance to launch.
        let update_group = self
            .autoscaling
            .set_desired_capacity()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .desired_capacity(capacity)
            .send()
            .await;
        if let Err(err) = update_group {
            return Err(ScenarioError::new(
                format!("Failed to update group to desired capacity ({capacity}))").as_str(),
                &err,
            ));
        }
        Ok(())
    }

    pub async fn scale_group_to_zero(&self) -> Result<(), ScenarioError> {
        // If this fails it's fine, just means there are extra cloudwatch metrics events for the scale-down.
        let _ = self
            .autoscaling
            .disable_metrics_collection()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .send()
            .await;

        // 12. DeleteAutoScalingGroup (to delete the group you must stop all instances):
        //   UpdateAutoScalingGroup with MinSize=0
        let update_group = self
            .autoscaling
            .update_auto_scaling_group()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .min_size(0)
            .desired_capacity(0)
            .send()
            .await;
        if let Err(err) = update_group {
            return Err(ScenarioError::new(
                "Failed to update group for scaling down&",
                &err,
            ));
        }

        let stable = self.wait_for_stable(0).await;
        if let Err(err) = stable {
            return Err(ScenarioError::with(format!(
                "Error while waiting for group to be stable on scale down: {err}"
            )));
        }

        Ok(())
    }

    pub async fn terminate_some_instance(&self) -> Result<(), ScenarioError> {
        // Retrieve a list of instances in the auto scaling group.
        let auto_scaling_group = self.get_group().await?;
        let instances = auto_scaling_group.instances();
        // Or use other logic to find an instance to terminate.
        let instance = instances.first();
        if let Some(instance) = instance {
            let instance_id = if let Some(instance_id) = instance.instance_id() {
                instance_id
            } else {
                return Err(ScenarioError::with("Missing instance id"));
            };
            let termination = self
                .ec2
                .terminate_instances()
                .instance_ids(instance_id)
                .send()
                .await;
            if let Err(err) = termination {
                Err(ScenarioError::new(
                    "There was a problem terminating an instance",
                    &err,
                ))
            } else {
                Ok(())
            }
        } else {
            Err(ScenarioError::with("There was no instance to terminate"))
        }
    }
}

fn count_group_instances(group: &AutoScalingGroup) -> usize {
    group.instances.as_ref().map(|i| i.len()).unwrap_or(0)
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Rust*.
  + [CreateAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.create_auto_scaling_group)
  + [DeleteAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.delete_auto_scaling_group)
  + [DescribeAutoScalingGroups](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_groups)
  + [DescribeAutoScalingInstances](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_instances)
  + [DescribeScalingActivities](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_scaling_activities)
  + [DisableMetricsCollection](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.disable_metrics_collection)
  + [EnableMetricsCollection](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.enable_metrics_collection)
  + [SetDesiredCapacity](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.set_desired_capacity)
  + [TerminateInstanceInAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.terminate_instance_in_auto_scaling_group)
  + [UpdateAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.update_auto_scaling_group)

## Tindakan
<a name="actions"></a>

### `CreateAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAutoScalingGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
async fn create_group(client: &Client, name: &str, id: &str) -> Result<(), Error> {
    client
        .create_auto_scaling_group()
        .auto_scaling_group_name(name)
        .instance_id(id)
        .min_size(1)
        .max_size(5)
        .send()
        .await?;

    println!("Created AutoScaling group");

    Ok(())
}
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.create_auto_scaling_group)*referensi AWS SDK for Rust API*. 

### `DeleteAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAutoScalingGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
async fn delete_group(client: &Client, name: &str, force: bool) -> Result<(), Error> {
    client
        .delete_auto_scaling_group()
        .auto_scaling_group_name(name)
        .set_force_delete(if force { Some(true) } else { None })
        .send()
        .await?;

    println!("Deleted Auto Scaling group");

    Ok(())
}
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.delete_auto_scaling_group)*referensi AWS SDK for Rust API*. 

### `DescribeAutoScalingGroups`
<a name="auto-scaling_DescribeAutoScalingGroups_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingGroups`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
async fn list_groups(client: &Client) -> Result<(), Error> {
    let resp = client.describe_auto_scaling_groups().send().await?;

    println!("Groups:");

    let groups = resp.auto_scaling_groups();

    for group in groups {
        println!(
            "Name:  {}",
            group.auto_scaling_group_name().unwrap_or("Unknown")
        );
        println!(
            "Arn:   {}",
            group.auto_scaling_group_arn().unwrap_or("unknown"),
        );
        println!("Zones: {:?}", group.availability_zones(),);
        println!();
    }

    println!("Found {} group(s)", groups.len());

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_groups)*referensi AWS SDK for Rust API*. 

### `DescribeAutoScalingInstances`
<a name="auto-scaling_DescribeAutoScalingInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
    pub async fn list_instances(&self) -> Result<Vec<String>, ScenarioError> {
        // The direct way to list instances is by using DescribeAutoScalingGroup's instances property. However, this returns a Vec<Instance>, as opposed to a Vec<AutoScalingInstanceDetails>.
        // Ok(self.get_group().await?.instances.unwrap_or_default().map(|i| i.instance_id.clone().unwrap_or_default()).filter(|id| !id.is_empty()).collect())

        // Alternatively, and for the sake of example, DescribeAutoScalingInstances returns a list that can be filtered by the client.
        self.autoscaling
            .describe_auto_scaling_instances()
            .into_paginator()
            .items()
            .send()
            .try_collect()
            .await
            .map(|items| {
                items
                    .into_iter()
                    .filter(|i| {
                        i.auto_scaling_group_name.as_deref()
                            == Some(self.auto_scaling_group_name.as_str())
                    })
                    .map(|i| i.instance_id.unwrap_or_default())
                    .filter(|id| !id.is_empty())
                    .collect::<Vec<String>>()
            })
            .map_err(|err| ScenarioError::new("Failed to get list of auto scaling instances", &err))
    }
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_instances)*referensi AWS SDK for Rust API*. 

### `DescribeScalingActivities`
<a name="auto-scaling_DescribeScalingActivities_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingActivities`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
    pub async fn describe_scenario(&self) -> AutoScalingScenarioDescription {
        let group = self
            .autoscaling
            .describe_auto_scaling_groups()
            .auto_scaling_group_names(self.auto_scaling_group_name.clone())
            .send()
            .await
            .map(|s| {
                s.auto_scaling_groups()
                    .iter()
                    .map(|s| {
                        format!(
                            "{}: {}",
                            s.auto_scaling_group_name().unwrap_or("Unknown"),
                            s.status().unwrap_or("Unknown")
                        )
                    })
                    .collect::<Vec<String>>()
            })
            .map_err(|e| {
                ScenarioError::new("Failed to describe auto scaling groups for scenario", &e)
            });

        let instances = self
            .list_instances()
            .await
            .map_err(|e| anyhow!("There was an error listing instances: {e}",));

        // 10. DescribeScalingActivities: list the scaling activities that have occurred for the group so far.
        //   Bonus: use CloudWatch API to get and show some metrics collected for the group.
        //   CW.ListMetrics with Namespace='AWS/AutoScaling' and Dimensions=[{'Name': 'AutoScalingGroupName', 'Value': }]
        //   CW.GetMetricStatistics with Statistics='Sum'. Start and End times must be in UTC!
        let activities = self
            .autoscaling
            .describe_scaling_activities()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .into_paginator()
            .items()
            .send()
            .collect::<Result<Vec<_>, _>>()
            .await
            .map_err(|e| {
                anyhow!(
                    "There was an error retrieving scaling activities: {}",
                    DisplayErrorContext(&e)
                )
            });

        AutoScalingScenarioDescription {
            group,
            instances,
            activities,
        }
    }
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_scaling_activities)*referensi AWS SDK for Rust API*. 

### `DisableMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableMetricsCollection`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
        // If this fails it's fine, just means there are extra cloudwatch metrics events for the scale-down.
        let _ = self
            .autoscaling
            .disable_metrics_collection()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .send()
            .await;
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.disable_metrics_collection)*referensi AWS SDK for Rust API*. 

### `EnableMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableMetricsCollection`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
        let enable_metrics_collection = autoscaling
            .enable_metrics_collection()
            .auto_scaling_group_name(auto_scaling_group_name.as_str())
            .granularity("1Minute")
            .set_metrics(Some(vec![
                String::from("GroupMinSize"),
                String::from("GroupMaxSize"),
                String::from("GroupDesiredCapacity"),
                String::from("GroupInServiceInstances"),
                String::from("GroupTotalInstances"),
            ]))
            .send()
            .await;
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.enable_metrics_collection)*referensi AWS SDK for Rust API*. 

### `SetDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDesiredCapacity`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
    pub async fn scale_desired_capacity(&self, capacity: i32) -> Result<(), ScenarioError> {
        // 7. SetDesiredCapacity: set desired capacity to 2.
        //   Wait for a second instance to launch.
        let update_group = self
            .autoscaling
            .set_desired_capacity()
            .auto_scaling_group_name(self.auto_scaling_group_name.clone())
            .desired_capacity(capacity)
            .send()
            .await;
        if let Err(err) = update_group {
            return Err(ScenarioError::new(
                format!("Failed to update group to desired capacity ({capacity}))").as_str(),
                &err,
            ));
        }
        Ok(())
    }
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.set_desired_capacity)*referensi AWS SDK for Rust API*. 

### `TerminateInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstanceInAutoScalingGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
    pub async fn terminate_some_instance(&self) -> Result<(), ScenarioError> {
        // Retrieve a list of instances in the auto scaling group.
        let auto_scaling_group = self.get_group().await?;
        let instances = auto_scaling_group.instances();
        // Or use other logic to find an instance to terminate.
        let instance = instances.first();
        if let Some(instance) = instance {
            let instance_id = if let Some(instance_id) = instance.instance_id() {
                instance_id
            } else {
                return Err(ScenarioError::with("Missing instance id"));
            };
            let termination = self
                .ec2
                .terminate_instances()
                .instance_ids(instance_id)
                .send()
                .await;
            if let Err(err) = termination {
                Err(ScenarioError::new(
                    "There was a problem terminating an instance",
                    &err,
                ))
            } else {
                Ok(())
            }
        } else {
            Err(ScenarioError::with("There was no instance to terminate"))
        }
    }

    async fn get_group(&self) -> Result<AutoScalingGroup, ScenarioError> {
        let describe_auto_scaling_groups = self
            .autoscaling
            .describe_auto_scaling_groups()
            .auto_scaling_group_names(self.auto_scaling_group_name.clone())
            .send()
            .await;

        if let Err(err) = describe_auto_scaling_groups {
            return Err(ScenarioError::new(
                format!(
                    "Failed to get status of autoscaling group {}",
                    self.auto_scaling_group_name.clone()
                )
                .as_str(),
                &err,
            ));
        }

        let describe_auto_scaling_groups_output = describe_auto_scaling_groups.unwrap();
        let auto_scaling_groups = describe_auto_scaling_groups_output.auto_scaling_groups();
        let auto_scaling_group = auto_scaling_groups.first();

        if auto_scaling_group.is_none() {
            return Err(ScenarioError::with(format!(
                "Could not find autoscaling group {}",
                self.auto_scaling_group_name.clone()
            )));
        }

        Ok(auto_scaling_group.unwrap().clone())
    }
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.terminate_instance_in_auto_scaling_group)*referensi AWS SDK for Rust API*. 

### `UpdateAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAutoScalingGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples). 

```
async fn update_group(client: &Client, name: &str, size: i32) -> Result<(), Error> {
    client
        .update_auto_scaling_group()
        .auto_scaling_group_name(name)
        .max_size(size)
        .send()
        .await?;

    println!("Updated AutoScaling group");

    Ok(())
}
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.update_auto_scaling_group)*referensi AWS SDK for Rust API*. 

# Contoh Amazon Bedrock Runtime menggunakan SDK for Rust
<a name="rust_1_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon Bedrock Runtime.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)
+ [Antropik Claude](#anthropic_claude)

## Skenario
<a name="scenarios"></a>

### Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUse_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples). 
Skenario utama dan logika untuk demo. Ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
#[derive(Debug)]
#[allow(dead_code)]
struct InvokeToolResult(String, ToolResultBlock);
struct ToolUseScenario {
    client: Client,
    conversation: Vec<Message>,
    system_prompt: SystemContentBlock,
    tool_config: ToolConfiguration,
}

impl ToolUseScenario {
    fn new(client: Client) -> Self {
        let system_prompt = SystemContentBlock::Text(SYSTEM_PROMPT.into());
        let tool_config = ToolConfiguration::builder()
            .tools(Tool::ToolSpec(
                ToolSpecification::builder()
                    .name(TOOL_NAME)
                    .description(TOOL_DESCRIPTION)
                    .input_schema(ToolInputSchema::Json(make_tool_schema()))
                    .build()
                    .unwrap(),
            ))
            .build()
            .unwrap();

        ToolUseScenario {
            client,
            conversation: vec![],
            system_prompt,
            tool_config,
        }
    }

    async fn run(&mut self) -> Result<(), ToolUseScenarioError> {
        loop {
            let input = get_input().await?;
            if input.is_none() {
                break;
            }

            let message = Message::builder()
                .role(User)
                .content(ContentBlock::Text(input.unwrap()))
                .build()
                .map_err(ToolUseScenarioError::from)?;
            self.conversation.push(message);

            let response = self.send_to_bedrock().await?;

            self.process_model_response(response).await?;
        }

        Ok(())
    }

    async fn send_to_bedrock(&mut self) -> Result<ConverseOutput, ToolUseScenarioError> {
        debug!("Sending conversation to bedrock");
        self.client
            .converse()
            .model_id(MODEL_ID)
            .set_messages(Some(self.conversation.clone()))
            .system(self.system_prompt.clone())
            .tool_config(self.tool_config.clone())
            .send()
            .await
            .map_err(ToolUseScenarioError::from)
    }

    async fn process_model_response(
        &mut self,
        mut response: ConverseOutput,
    ) -> Result<(), ToolUseScenarioError> {
        let mut iteration = 0;

        while iteration < MAX_RECURSIONS {
            iteration += 1;
            let message = if let Some(ref output) = response.output {
                if output.is_message() {
                    Ok(output.as_message().unwrap().clone())
                } else {
                    Err(ToolUseScenarioError(
                        "Converse Output is not a message".into(),
                    ))
                }
            } else {
                Err(ToolUseScenarioError("Missing Converse Output".into()))
            }?;

            self.conversation.push(message.clone());

            match response.stop_reason {
                StopReason::ToolUse => {
                    response = self.handle_tool_use(&message).await?;
                }
                StopReason::EndTurn => {
                    print_model_response(&message.content[0])?;
                    return Ok(());
                }
                _ => (),
            }
        }

        Err(ToolUseScenarioError(
            "Exceeded MAX_ITERATIONS when calling tools".into(),
        ))
    }

    async fn handle_tool_use(
        &mut self,
        message: &Message,
    ) -> Result<ConverseOutput, ToolUseScenarioError> {
        let mut tool_results: Vec<ContentBlock> = vec![];

        for block in &message.content {
            match block {
                ContentBlock::Text(_) => print_model_response(block)?,
                ContentBlock::ToolUse(tool) => {
                    let tool_response = self.invoke_tool(tool).await?;
                    tool_results.push(ContentBlock::ToolResult(tool_response.1));
                }
                _ => (),
            };
        }

        let message = Message::builder()
            .role(User)
            .set_content(Some(tool_results))
            .build()?;
        self.conversation.push(message);

        self.send_to_bedrock().await
    }

    async fn invoke_tool(
        &mut self,
        tool: &ToolUseBlock,
    ) -> Result<InvokeToolResult, ToolUseScenarioError> {
        match tool.name() {
            TOOL_NAME => {
                println!(
                    "\x1b[0;90mExecuting tool: {TOOL_NAME} with input: {:?}...\x1b[0m",
                    tool.input()
                );
                let content = fetch_weather_data(tool).await?;
                println!(
                    "\x1b[0;90mTool responded with {:?}\x1b[0m",
                    content.content()
                );
                Ok(InvokeToolResult(tool.tool_use_id.clone(), content))
            }
            _ => Err(ToolUseScenarioError(format!(
                "The requested tool with name {} does not exist",
                tool.name()
            ))),
        }
    }
}

#[tokio::main]
async fn main() {
    tracing_subscriber::fmt::init();
    let sdk_config = aws_config::defaults(BehaviorVersion::latest())
        .region(CLAUDE_REGION)
        .load()
        .await;
    let client = Client::new(&sdk_config);

    let mut scenario = ToolUseScenario::new(client);

    header();
    if let Err(err) = scenario.run().await {
        println!("There was an error running the scenario! {}", err.0)
    }
    footer();
}
```
Alat cuaca yang digunakan oleh demo. Skrip ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
const ENDPOINT: &str = "https://api.open-meteo.com/v1/forecast";
async fn fetch_weather_data(
    tool_use: &ToolUseBlock,
) -> Result<ToolResultBlock, ToolUseScenarioError> {
    let input = tool_use.input();
    let latitude = input
        .as_object()
        .unwrap()
        .get("latitude")
        .unwrap()
        .as_string()
        .unwrap();
    let longitude = input
        .as_object()
        .unwrap()
        .get("longitude")
        .unwrap()
        .as_string()
        .unwrap();
    let params = [
        ("latitude", latitude),
        ("longitude", longitude),
        ("current_weather", "true"),
    ];

    debug!("Calling {ENDPOINT} with {params:?}");

    let response = reqwest::Client::new()
        .get(ENDPOINT)
        .query(&params)
        .send()
        .await
        .map_err(|e| ToolUseScenarioError(format!("Error requesting weather: {e:?}")))?
        .error_for_status()
        .map_err(|e| ToolUseScenarioError(format!("Failed to request weather: {e:?}")))?;

    debug!("Response: {response:?}");

    let bytes = response
        .bytes()
        .await
        .map_err(|e| ToolUseScenarioError(format!("Error reading response: {e:?}")))?;

    let result = String::from_utf8(bytes.to_vec())
        .map_err(|_| ToolUseScenarioError("Response was not utf8".into()))?;

    Ok(ToolResultBlock::builder()
        .tool_use_id(tool_use.tool_use_id())
        .content(ToolResultContentBlock::Text(result))
        .build()?)
}
```
Utilitas untuk mencetak Blok Konten Pesan.  

```
fn print_model_response(block: &ContentBlock) -> Result<(), ToolUseScenarioError> {
    if block.is_text() {
        let text = block.as_text().unwrap();
        println!("\x1b[0;90mThe model's response:\x1b[0m\n{text}");
        Ok(())
    } else {
        Err(ToolUseScenarioError(format!(
            "Content block is not text ({block:?})"
        )))
    }
}
```
Gunakan pernyataan, utilitas Kesalahan, dan konstanta.  

```
use std::{collections::HashMap, io::stdin};

use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
    error::{BuildError, SdkError},
    operation::converse::{ConverseError, ConverseOutput},
    types::{
        ContentBlock, ConversationRole::User, Message, StopReason, SystemContentBlock, Tool,
        ToolConfiguration, ToolInputSchema, ToolResultBlock, ToolResultContentBlock,
        ToolSpecification, ToolUseBlock,
    },
    Client,
};
use aws_smithy_runtime_api::http::Response;
use aws_smithy_types::Document;
use tracing::debug;

// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";

const SYSTEM_PROMPT: &str = "You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.

- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information. 
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
  emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose. 
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
";

// The maximum number of recursive calls allowed in the tool_use_demo function.
// This helps prevent infinite loops and potential performance issues.
const MAX_RECURSIONS: i8 = 5;

const TOOL_NAME: &str = "Weather_Tool";
const TOOL_DESCRIPTION: &str =
    "Get the current weather for a given location, based on its WGS84 coordinates.";
fn make_tool_schema() -> Document {
    Document::Object(HashMap::<String, Document>::from([
        ("type".into(), Document::String("object".into())),
        (
            "properties".into(),
            Document::Object(HashMap::from([
                (
                    "latitude".into(),
                    Document::Object(HashMap::from([
                        ("type".into(), Document::String("string".into())),
                        (
                            "description".into(),
                            Document::String("Geographical WGS84 latitude of the location.".into()),
                        ),
                    ])),
                ),
                (
                    "longitude".into(),
                    Document::Object(HashMap::from([
                        ("type".into(), Document::String("string".into())),
                        (
                            "description".into(),
                            Document::String(
                                "Geographical WGS84 longitude of the location.".into(),
                            ),
                        ),
                    ])),
                ),
            ])),
        ),
        (
            "required".into(),
            Document::Array(vec![
                Document::String("latitude".into()),
                Document::String("longitude".into()),
            ]),
        ),
    ]))
}

#[derive(Debug)]
struct ToolUseScenarioError(String);
impl std::fmt::Display for ToolUseScenarioError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "Tool use error with '{}'. Reason: {}", MODEL_ID, self.0)
    }
}
impl From<&str> for ToolUseScenarioError {
    fn from(value: &str) -> Self {
        ToolUseScenarioError(value.into())
    }
}
impl From<BuildError> for ToolUseScenarioError {
    fn from(value: BuildError) -> Self {
        ToolUseScenarioError(value.to_string().clone())
    }
}
impl From<SdkError<ConverseError, Response>> for ToolUseScenarioError {
    fn from(value: SdkError<ConverseError, Response>) -> Self {
        ToolUseScenarioError(match value.as_service_error() {
            Some(value) => value.meta().message().unwrap_or("Unknown").into(),
            None => "Unknown".into(),
        })
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse) di *AWS SDK untuk referensi Rust API*. 

## Antropik Claude
<a name="anthropic_claude"></a>

### Bercakap
<a name="bedrock-runtime_Converse_AnthropicClaude_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.  

```
#[tokio::main]
async fn main() -> Result<(), BedrockConverseError> {
    tracing_subscriber::fmt::init();
    let sdk_config = aws_config::defaults(BehaviorVersion::latest())
        .region(CLAUDE_REGION)
        .load()
        .await;
    let client = Client::new(&sdk_config);

    let response = client
        .converse()
        .model_id(MODEL_ID)
        .messages(
            Message::builder()
                .role(ConversationRole::User)
                .content(ContentBlock::Text(USER_MESSAGE.to_string()))
                .build()
                .map_err(|_| "failed to build message")?,
        )
        .send()
        .await;

    match response {
        Ok(output) => {
            let text = get_converse_output_text(output)?;
            println!("{}", text);
            Ok(())
        }
        Err(e) => Err(e
            .as_service_error()
            .map(BedrockConverseError::from)
            .unwrap_or_else(|| BedrockConverseError("Unknown service error".into()))),
    }
}

fn get_converse_output_text(output: ConverseOutput) -> Result<String, BedrockConverseError> {
    let text = output
        .output()
        .ok_or("no output")?
        .as_message()
        .map_err(|_| "output not a message")?
        .content()
        .first()
        .ok_or("no content in message")?
        .as_text()
        .map_err(|_| "content is not text")?
        .to_string();
    Ok(text)
}
```
Gunakan pernyataan, utilitas Kesalahan, dan konstanta.  

```
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
    operation::converse::{ConverseError, ConverseOutput},
    types::{ContentBlock, ConversationRole, Message},
    Client,
};

// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";

// Start a conversation with the user message.
const USER_MESSAGE: &str = "Describe the purpose of a 'hello world' program in one line.";

#[derive(Debug)]
struct BedrockConverseError(String);
impl std::fmt::Display for BedrockConverseError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "Can't invoke '{}'. Reason: {}", MODEL_ID, self.0)
    }
}
impl std::error::Error for BedrockConverseError {}
impl From<&str> for BedrockConverseError {
    fn from(value: &str) -> Self {
        BedrockConverseError(value.to_string())
    }
}
impl From<&ConverseError> for BedrockConverseError {
    fn from(value: &ConverseError) -> Self {
        BedrockConverseError::from(match value {
            ConverseError::ModelTimeoutException(_) => "Model took too long",
            ConverseError::ModelNotReadyException(_) => "Model is not ready",
            _ => "Unknown",
        })
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse) di *AWS SDK untuk referensi Rust API*. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AnthropicClaude_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude dan streaming token balasan, menggunakan API Bedrock. ConverseStream   

```
#[tokio::main]
async fn main() -> Result<(), BedrockConverseStreamError> {
    tracing_subscriber::fmt::init();
    let sdk_config = aws_config::defaults(BehaviorVersion::latest())
        .region(CLAUDE_REGION)
        .load()
        .await;
    let client = Client::new(&sdk_config);

    let response = client
        .converse_stream()
        .model_id(MODEL_ID)
        .messages(
            Message::builder()
                .role(ConversationRole::User)
                .content(ContentBlock::Text(USER_MESSAGE.to_string()))
                .build()
                .map_err(|_| "failed to build message")?,
        )
        .send()
        .await;

    let mut stream = match response {
        Ok(output) => Ok(output.stream),
        Err(e) => Err(BedrockConverseStreamError::from(
            e.as_service_error().unwrap(),
        )),
    }?;

    loop {
        let token = stream.recv().await;
        match token {
            Ok(Some(text)) => {
                let next = get_converse_output_text(text)?;
                print!("{}", next);
                Ok(())
            }
            Ok(None) => break,
            Err(e) => Err(e
                .as_service_error()
                .map(BedrockConverseStreamError::from)
                .unwrap_or(BedrockConverseStreamError(
                    "Unknown error receiving stream".into(),
                ))),
        }?
    }

    println!();

    Ok(())
}

fn get_converse_output_text(
    output: ConverseStreamOutputType,
) -> Result<String, BedrockConverseStreamError> {
    Ok(match output {
        ConverseStreamOutputType::ContentBlockDelta(event) => match event.delta() {
            Some(delta) => delta.as_text().cloned().unwrap_or_else(|_| "".into()),
            None => "".into(),
        },
        _ => "".into(),
    })
}
```
Gunakan pernyataan, utilitas Kesalahan, dan konstanta.  

```
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
    error::ProvideErrorMetadata,
    operation::converse_stream::ConverseStreamError,
    types::{
        error::ConverseStreamOutputError, ContentBlock, ConversationRole,
        ConverseStreamOutput as ConverseStreamOutputType, Message,
    },
    Client,
};

// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";

// Start a conversation with the user message.
const USER_MESSAGE: &str = "Describe the purpose of a 'hello world' program in one line.";

#[derive(Debug)]
struct BedrockConverseStreamError(String);
impl std::fmt::Display for BedrockConverseStreamError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "Can't invoke '{}'. Reason: {}", MODEL_ID, self.0)
    }
}
impl std::error::Error for BedrockConverseStreamError {}
impl From<&str> for BedrockConverseStreamError {
    fn from(value: &str) -> Self {
        BedrockConverseStreamError(value.into())
    }
}

impl From<&ConverseStreamError> for BedrockConverseStreamError {
    fn from(value: &ConverseStreamError) -> Self {
        BedrockConverseStreamError(
            match value {
                ConverseStreamError::ModelTimeoutException(_) => "Model took too long",
                ConverseStreamError::ModelNotReadyException(_) => "Model is not ready",
                _ => "Unknown",
            }
            .into(),
        )
    }
}

impl From<&ConverseStreamOutputError> for BedrockConverseStreamError {
    fn from(value: &ConverseStreamOutputError) -> Self {
        match value {
            ConverseStreamOutputError::ValidationException(ve) => BedrockConverseStreamError(
                ve.message().unwrap_or("Unknown ValidationException").into(),
            ),
            ConverseStreamOutputError::ThrottlingException(te) => BedrockConverseStreamError(
                te.message().unwrap_or("Unknown ThrottlingException").into(),
            ),
            value => BedrockConverseStreamError(
                value
                    .message()
                    .unwrap_or("Unknown StreamOutput exception")
                    .into(),
            ),
        }
    }
}
```
+  Untuk detail API, lihat [ConverseStream](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse_stream)*referensi AWS SDK for Rust API*. 

### Skenario: Penggunaan alat dengan API Converse
<a name="bedrock-runtime_Scenario_ToolUseDemo_AnthropicClaude_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana membangun interaksi khas antara aplikasi, model AI generatif, dan alat yang terhubung atau APIs untuk memediasi interaksi antara AI dan dunia luar. Ini menggunakan contoh menghubungkan API cuaca eksternal ke model AI sehingga dapat memberikan informasi cuaca real-time berdasarkan input pengguna.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples). 
Skenario utama dan logika untuk demo. Ini mengatur percakapan antara pengguna, Amazon Bedrock Converse API, dan alat cuaca.  

```
#[derive(Debug)]
#[allow(dead_code)]
struct InvokeToolResult(String, ToolResultBlock);
struct ToolUseScenario {
    client: Client,
    conversation: Vec<Message>,
    system_prompt: SystemContentBlock,
    tool_config: ToolConfiguration,
}

impl ToolUseScenario {
    fn new(client: Client) -> Self {
        let system_prompt = SystemContentBlock::Text(SYSTEM_PROMPT.into());
        let tool_config = ToolConfiguration::builder()
            .tools(Tool::ToolSpec(
                ToolSpecification::builder()
                    .name(TOOL_NAME)
                    .description(TOOL_DESCRIPTION)
                    .input_schema(ToolInputSchema::Json(make_tool_schema()))
                    .build()
                    .unwrap(),
            ))
            .build()
            .unwrap();

        ToolUseScenario {
            client,
            conversation: vec![],
            system_prompt,
            tool_config,
        }
    }

    async fn run(&mut self) -> Result<(), ToolUseScenarioError> {
        loop {
            let input = get_input().await?;
            if input.is_none() {
                break;
            }

            let message = Message::builder()
                .role(User)
                .content(ContentBlock::Text(input.unwrap()))
                .build()
                .map_err(ToolUseScenarioError::from)?;
            self.conversation.push(message);

            let response = self.send_to_bedrock().await?;

            self.process_model_response(response).await?;
        }

        Ok(())
    }

    async fn send_to_bedrock(&mut self) -> Result<ConverseOutput, ToolUseScenarioError> {
        debug!("Sending conversation to bedrock");
        self.client
            .converse()
            .model_id(MODEL_ID)
            .set_messages(Some(self.conversation.clone()))
            .system(self.system_prompt.clone())
            .tool_config(self.tool_config.clone())
            .send()
            .await
            .map_err(ToolUseScenarioError::from)
    }

    async fn process_model_response(
        &mut self,
        mut response: ConverseOutput,
    ) -> Result<(), ToolUseScenarioError> {
        let mut iteration = 0;

        while iteration < MAX_RECURSIONS {
            iteration += 1;
            let message = if let Some(ref output) = response.output {
                if output.is_message() {
                    Ok(output.as_message().unwrap().clone())
                } else {
                    Err(ToolUseScenarioError(
                        "Converse Output is not a message".into(),
                    ))
                }
            } else {
                Err(ToolUseScenarioError("Missing Converse Output".into()))
            }?;

            self.conversation.push(message.clone());

            match response.stop_reason {
                StopReason::ToolUse => {
                    response = self.handle_tool_use(&message).await?;
                }
                StopReason::EndTurn => {
                    print_model_response(&message.content[0])?;
                    return Ok(());
                }
                _ => (),
            }
        }

        Err(ToolUseScenarioError(
            "Exceeded MAX_ITERATIONS when calling tools".into(),
        ))
    }

    async fn handle_tool_use(
        &mut self,
        message: &Message,
    ) -> Result<ConverseOutput, ToolUseScenarioError> {
        let mut tool_results: Vec<ContentBlock> = vec![];

        for block in &message.content {
            match block {
                ContentBlock::Text(_) => print_model_response(block)?,
                ContentBlock::ToolUse(tool) => {
                    let tool_response = self.invoke_tool(tool).await?;
                    tool_results.push(ContentBlock::ToolResult(tool_response.1));
                }
                _ => (),
            };
        }

        let message = Message::builder()
            .role(User)
            .set_content(Some(tool_results))
            .build()?;
        self.conversation.push(message);

        self.send_to_bedrock().await
    }

    async fn invoke_tool(
        &mut self,
        tool: &ToolUseBlock,
    ) -> Result<InvokeToolResult, ToolUseScenarioError> {
        match tool.name() {
            TOOL_NAME => {
                println!(
                    "\x1b[0;90mExecuting tool: {TOOL_NAME} with input: {:?}...\x1b[0m",
                    tool.input()
                );
                let content = fetch_weather_data(tool).await?;
                println!(
                    "\x1b[0;90mTool responded with {:?}\x1b[0m",
                    content.content()
                );
                Ok(InvokeToolResult(tool.tool_use_id.clone(), content))
            }
            _ => Err(ToolUseScenarioError(format!(
                "The requested tool with name {} does not exist",
                tool.name()
            ))),
        }
    }
}

#[tokio::main]
async fn main() {
    tracing_subscriber::fmt::init();
    let sdk_config = aws_config::defaults(BehaviorVersion::latest())
        .region(CLAUDE_REGION)
        .load()
        .await;
    let client = Client::new(&sdk_config);

    let mut scenario = ToolUseScenario::new(client);

    header();
    if let Err(err) = scenario.run().await {
        println!("There was an error running the scenario! {}", err.0)
    }
    footer();
}
```
Alat cuaca yang digunakan oleh demo. Skrip ini mendefinisikan spesifikasi alat dan mengimplementasikan logika untuk mengambil data cuaca menggunakan dari Open-Meteo API.  

```
const ENDPOINT: &str = "https://api.open-meteo.com/v1/forecast";
async fn fetch_weather_data(
    tool_use: &ToolUseBlock,
) -> Result<ToolResultBlock, ToolUseScenarioError> {
    let input = tool_use.input();
    let latitude = input
        .as_object()
        .unwrap()
        .get("latitude")
        .unwrap()
        .as_string()
        .unwrap();
    let longitude = input
        .as_object()
        .unwrap()
        .get("longitude")
        .unwrap()
        .as_string()
        .unwrap();
    let params = [
        ("latitude", latitude),
        ("longitude", longitude),
        ("current_weather", "true"),
    ];

    debug!("Calling {ENDPOINT} with {params:?}");

    let response = reqwest::Client::new()
        .get(ENDPOINT)
        .query(&params)
        .send()
        .await
        .map_err(|e| ToolUseScenarioError(format!("Error requesting weather: {e:?}")))?
        .error_for_status()
        .map_err(|e| ToolUseScenarioError(format!("Failed to request weather: {e:?}")))?;

    debug!("Response: {response:?}");

    let bytes = response
        .bytes()
        .await
        .map_err(|e| ToolUseScenarioError(format!("Error reading response: {e:?}")))?;

    let result = String::from_utf8(bytes.to_vec())
        .map_err(|_| ToolUseScenarioError("Response was not utf8".into()))?;

    Ok(ToolResultBlock::builder()
        .tool_use_id(tool_use.tool_use_id())
        .content(ToolResultContentBlock::Text(result))
        .build()?)
}
```
Utilitas untuk mencetak Blok Konten Pesan.  

```
fn print_model_response(block: &ContentBlock) -> Result<(), ToolUseScenarioError> {
    if block.is_text() {
        let text = block.as_text().unwrap();
        println!("\x1b[0;90mThe model's response:\x1b[0m\n{text}");
        Ok(())
    } else {
        Err(ToolUseScenarioError(format!(
            "Content block is not text ({block:?})"
        )))
    }
}
```
Gunakan pernyataan, utilitas Kesalahan, dan konstanta.  

```
use std::{collections::HashMap, io::stdin};

use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
    error::{BuildError, SdkError},
    operation::converse::{ConverseError, ConverseOutput},
    types::{
        ContentBlock, ConversationRole::User, Message, StopReason, SystemContentBlock, Tool,
        ToolConfiguration, ToolInputSchema, ToolResultBlock, ToolResultContentBlock,
        ToolSpecification, ToolUseBlock,
    },
    Client,
};
use aws_smithy_runtime_api::http::Response;
use aws_smithy_types::Document;
use tracing::debug;

// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";

const SYSTEM_PROMPT: &str = "You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.

- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information. 
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
  emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose. 
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
";

// The maximum number of recursive calls allowed in the tool_use_demo function.
// This helps prevent infinite loops and potential performance issues.
const MAX_RECURSIONS: i8 = 5;

const TOOL_NAME: &str = "Weather_Tool";
const TOOL_DESCRIPTION: &str =
    "Get the current weather for a given location, based on its WGS84 coordinates.";
fn make_tool_schema() -> Document {
    Document::Object(HashMap::<String, Document>::from([
        ("type".into(), Document::String("object".into())),
        (
            "properties".into(),
            Document::Object(HashMap::from([
                (
                    "latitude".into(),
                    Document::Object(HashMap::from([
                        ("type".into(), Document::String("string".into())),
                        (
                            "description".into(),
                            Document::String("Geographical WGS84 latitude of the location.".into()),
                        ),
                    ])),
                ),
                (
                    "longitude".into(),
                    Document::Object(HashMap::from([
                        ("type".into(), Document::String("string".into())),
                        (
                            "description".into(),
                            Document::String(
                                "Geographical WGS84 longitude of the location.".into(),
                            ),
                        ),
                    ])),
                ),
            ])),
        ),
        (
            "required".into(),
            Document::Array(vec![
                Document::String("latitude".into()),
                Document::String("longitude".into()),
            ]),
        ),
    ]))
}

#[derive(Debug)]
struct ToolUseScenarioError(String);
impl std::fmt::Display for ToolUseScenarioError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "Tool use error with '{}'. Reason: {}", MODEL_ID, self.0)
    }
}
impl From<&str> for ToolUseScenarioError {
    fn from(value: &str) -> Self {
        ToolUseScenarioError(value.into())
    }
}
impl From<BuildError> for ToolUseScenarioError {
    fn from(value: BuildError) -> Self {
        ToolUseScenarioError(value.to_string().clone())
    }
}
impl From<SdkError<ConverseError, Response>> for ToolUseScenarioError {
    fn from(value: SdkError<ConverseError, Response>) -> Self {
        ToolUseScenarioError(match value.as_service_error() {
            Some(value) => value.meta().message().unwrap_or("Unknown").into(),
            None => "Unknown".into(),
        })
    }
}
```
+  Untuk detail API, lihat [Converse](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse) di *AWS SDK untuk referensi Rust API*. 

# Contoh Runtime Amazon Bedrock Agents menggunakan SDK for Rust
<a name="rust_1_bedrock-agent-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon Bedrock Agents Runtime.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `InvokeAgent`
<a name="bedrock-agent-runtime_InvokeAgent_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InvokeAgent`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-agent-runtime#code-examples). 

```
use aws_config::{BehaviorVersion, SdkConfig};
use aws_sdk_bedrockagentruntime::{
    self as bedrockagentruntime,
    types::{error::ResponseStreamError, ResponseStream},
};
#[allow(unused_imports)]
use mockall::automock;

const BEDROCK_AGENT_ID: &str = "AJBHXXILZN";
const BEDROCK_AGENT_ALIAS_ID: &str = "AVKP1ITZAA";
const BEDROCK_AGENT_REGION: &str = "us-east-1";

#[cfg(not(test))]
pub use EventReceiverImpl as EventReceiver;
#[cfg(test)]
pub use MockEventReceiverImpl as EventReceiver;

pub struct EventReceiverImpl {
    inner: aws_sdk_bedrockagentruntime::primitives::event_stream::EventReceiver<
        ResponseStream,
        ResponseStreamError,
    >,
}

#[cfg_attr(test, automock)]
impl EventReceiverImpl {
    #[allow(dead_code)]
    pub fn new(
        inner: aws_sdk_bedrockagentruntime::primitives::event_stream::EventReceiver<
            ResponseStream,
            ResponseStreamError,
        >,
    ) -> Self {
        Self { inner }
    }

    pub async fn recv(
        &mut self,
    ) -> Result<
        Option<ResponseStream>,
        aws_sdk_bedrockagentruntime::error::SdkError<
            ResponseStreamError,
            aws_smithy_types::event_stream::RawMessage,
        >,
    > {
        self.inner.recv().await
    }
}

#[tokio::main]
async fn main() -> Result<(), Box<bedrockagentruntime::Error>> {
    let result = invoke_bedrock_agent("I need help.".to_string(), "123".to_string()).await?;
    println!("{}", result);
    Ok(())
}

async fn invoke_bedrock_agent(
    prompt: String,
    session_id: String,
) -> Result<String, bedrockagentruntime::Error> {
    let sdk_config: SdkConfig = aws_config::defaults(BehaviorVersion::latest())
        .region(BEDROCK_AGENT_REGION)
        .load()
        .await;
    let bedrock_client = bedrockagentruntime::Client::new(&sdk_config);

    let command_builder = bedrock_client
        .invoke_agent()
        .agent_id(BEDROCK_AGENT_ID)
        .agent_alias_id(BEDROCK_AGENT_ALIAS_ID)
        .session_id(session_id)
        .input_text(prompt);

    let response = command_builder.send().await?;

    let response_stream = response.completion;

    let event_receiver = EventReceiver::new(response_stream);

    process_agent_response_stream(event_receiver).await
}

async fn process_agent_response_stream(
    mut event_receiver: EventReceiver,
) -> Result<String, bedrockagentruntime::Error> {
    let mut full_agent_text_response = String::new();

    while let Some(event_result) = event_receiver.recv().await? {
        match event_result {
            ResponseStream::Chunk(chunk) => {
                if let Some(bytes) = chunk.bytes {
                    match String::from_utf8(bytes.into_inner()) {
                        Ok(text_chunk) => {
                            full_agent_text_response.push_str(&text_chunk);
                        }
                        Err(e) => {
                            eprintln!("UTF-8 decoding error for chunk: {}", e);
                        }
                    }
                }
            }
            _ => {
                panic!("received an unhandled event type from Bedrock stream",);
            }
        }
    }
    Ok(full_agent_text_response)
}

#[cfg(test)]
mod test {

    use super::*;

    #[tokio::test]
    async fn test_process_agent_response_stream() {
        let mut mock = MockEventReceiverImpl::default();
        mock.expect_recv().times(1).returning(|| {
            Ok(Some(
                aws_sdk_bedrockagentruntime::types::ResponseStream::Chunk(
                    aws_sdk_bedrockagentruntime::types::PayloadPart::builder()
                        .set_bytes(Some(aws_smithy_types::Blob::new(vec![
                            116, 101, 115, 116, 32, 99, 111, 109, 112, 108, 101, 116, 105, 111, 110,
                        ])))
                        .build(),
                ),
            ))
        });

        // end the stream
        mock.expect_recv().times(1).returning(|| Ok(None));

        let response = process_agent_response_stream(mock).await.unwrap();

        assert_eq!("test completion", response);
    }

    #[tokio::test]
    #[should_panic(expected = "received an unhandled event type from Bedrock stream")]
    async fn test_process_agent_response_stream_error() {
        let mut mock = MockEventReceiverImpl::default();
        mock.expect_recv().times(1).returning(|| {
            Ok(Some(
                aws_sdk_bedrockagentruntime::types::ResponseStream::Trace(
                    aws_sdk_bedrockagentruntime::types::TracePart::builder().build(),
                ),
            ))
        });

        let _ = process_agent_response_stream(mock).await.unwrap();
    }
}
```
+  Untuk detail API, lihat [InvokeAgent](https://docs.rs/aws-sdk-bedrockagentruntime/latest/aws_sdk_bedrockagentruntime/client/struct.Client.html#method.invoke_agent)*referensi AWS SDK for Rust API*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK untuk Rust
<a name="rust_1_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon Cognito Identity Provider.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListUserPools`
<a name="cognito-identity-provider_ListUserPools_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUserPools`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/cognitoidentityprovider#code-examples). 

```
async fn show_pools(client: &Client) -> Result<(), Error> {
    let response = client.list_user_pools().max_results(10).send().await?;
    let pools = response.user_pools();
    println!("User pools:");
    for pool in pools {
        println!("  ID:              {}", pool.id().unwrap_or_default());
        println!("  Name:            {}", pool.name().unwrap_or_default());
        println!("  Lambda Config:   {:?}", pool.lambda_config().unwrap());
        println!(
            "  Last modified:   {}",
            pool.last_modified_date().unwrap().to_chrono_utc()?
        );
        println!(
            "  Creation date:   {:?}",
            pool.creation_date().unwrap().to_chrono_utc()
        );
        println!();
    }
    println!("Next token: {}", response.next_token().unwrap_or_default());

    Ok(())
}
```
+  Untuk detail API, lihat [ListUserPools](https://docs.rs/aws-sdk-cognitoidentityprovider/latest/aws_sdk_cognitoidentityprovider/client/struct.Client.html#method.list_user_pools)*referensi AWS SDK for Rust API*. 

# Contoh Sinkronisasi Amazon Cognito menggunakan SDK untuk Rust
<a name="rust_1_cognito-sync_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon Cognito Sync.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListIdentityPoolUsage`
<a name="cognito-sync_ListIdentityPoolUsage_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentityPoolUsage`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/cognitosync#code-examples). 

```
async fn show_pools(client: &Client) -> Result<(), Error> {
    let response = client
        .list_identity_pool_usage()
        .max_results(10)
        .send()
        .await?;

    let pools = response.identity_pool_usages();
    println!("Identity pools:");

    for pool in pools {
        println!(
            "  Identity pool ID:    {}",
            pool.identity_pool_id().unwrap_or_default()
        );
        println!(
            "  Data storage:        {}",
            pool.data_storage().unwrap_or_default()
        );
        println!(
            "  Sync sessions count: {}",
            pool.sync_sessions_count().unwrap_or_default()
        );
        println!(
            "  Last modified:       {}",
            pool.last_modified_date().unwrap().to_chrono_utc()?
        );
        println!();
    }

    println!("Next token: {}", response.next_token().unwrap_or_default());

    Ok(())
}
```
+  Untuk detail API, lihat [ListIdentityPoolUsage](https://docs.rs/aws-sdk-cognitosync/latest/aws_sdk_cognitosync/client/struct.Client.html#method.list_identity_pool_usage)*referensi AWS SDK for Rust API*. 

# Contoh Firehose menggunakan SDK untuk Rust
<a name="rust_1_firehose_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with Firehose.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutRecordBatch`
<a name="firehose_PutRecordBatch_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecordBatch`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/firehose#code-examples). 

```
async fn put_record_batch(
    client: &Client,
    stream: &str,
    data: Vec<Record>,
) -> Result<PutRecordBatchOutput, SdkError<PutRecordBatchError>> {
    client
        .put_record_batch()
        .delivery_stream_name(stream)
        .set_records(Some(data))
        .send()
        .await
}
```
+  Untuk detail API, lihat [PutRecordBatch](https://docs.rs/aws-sdk-firehose/latest/aws_sdk_firehose/client/struct.Client.html#method.put_record_batch)*referensi AWS SDK for Rust API*. 

# Contoh Amazon DocumentDB menggunakan SDK untuk Rust
<a name="rust_1_docdb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon DocumentDB.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Rust.  

```
use lambda_runtime::{service_fn, tracing, Error, LambdaEvent};
use aws_lambda_events::{
    event::documentdb::{DocumentDbEvent, DocumentDbInnerEvent},
   };


// Built with the following dependencies:
//lambda_runtime = "0.11.1"
//serde_json = "1.0"
//tokio = { version = "1", features = ["macros"] }
//tracing = { version = "0.1", features = ["log"] }
//tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }
//aws_lambda_events = "0.15.0"

async fn function_handler(event: LambdaEvent<DocumentDbEvent>) ->Result<(), Error> {
    
    tracing::info!("Event Source ARN: {:?}", event.payload.event_source_arn);
    tracing::info!("Event Source: {:?}", event.payload.event_source);
  
    let records = &event.payload.events;
   
    if records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(());
    }

    for record in records{
        log_document_db_event(record);
    }

    tracing::info!("Document db records processed");

    // Prepare the response
    Ok(())

}

fn log_document_db_event(record: &DocumentDbInnerEvent)-> Result<(), Error>{
    tracing::info!("Change Event: {:?}", record.event);
    
    Ok(())

}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
    .with_max_level(tracing::Level::INFO)
    .with_target(false)
    .without_time()
    .init();

    let func = service_fn(function_handler);
    lambda_runtime::run(func).await?;
    Ok(())
    
}
```

# Contoh DynamoDB menggunakan SDK untuk Rust
<a name="rust_1_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan DynamoDB.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Tindakan
<a name="actions"></a>

### `CreateTable`
<a name="dynamodb_CreateTable_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 

```
pub async fn create_table(
    client: &Client,
    table: &str,
    key: &str,
) -> Result<CreateTableOutput, Error> {
    let a_name: String = key.into();
    let table_name: String = table.into();

    let ad = AttributeDefinition::builder()
        .attribute_name(&a_name)
        .attribute_type(ScalarAttributeType::S)
        .build()
        .map_err(Error::BuildError)?;

    let ks = KeySchemaElement::builder()
        .attribute_name(&a_name)
        .key_type(KeyType::Hash)
        .build()
        .map_err(Error::BuildError)?;

    let create_table_response = client
        .create_table()
        .table_name(table_name)
        .key_schema(ks)
        .attribute_definitions(ad)
        .billing_mode(BillingMode::PayPerRequest)
        .send()
        .await;

    match create_table_response {
        Ok(out) => {
            println!("Added table {} with key {}", table, key);
            Ok(out)
        }
        Err(e) => {
            eprintln!("Got an error creating table:");
            eprintln!("{}", e);
            Err(Error::unhandled(e))
        }
    }
}
```
+  Untuk detail API, lihat [CreateTable](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.create_table)*referensi AWS SDK for Rust API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 

```
pub async fn delete_item(
    client: &Client,
    table: &str,
    key: &str,
    value: &str,
) -> Result<DeleteItemOutput, Error> {
    match client
        .delete_item()
        .table_name(table)
        .key(key, AttributeValue::S(value.into()))
        .send()
        .await
    {
        Ok(out) => {
            println!("Deleted item from table");
            Ok(out)
        }
        Err(e) => Err(Error::unhandled(e)),
    }
}
```
+  Untuk detail API, lihat [DeleteItem](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.delete_item)*referensi AWS SDK for Rust API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 

```
pub async fn delete_table(client: &Client, table: &str) -> Result<DeleteTableOutput, Error> {
    let resp = client.delete_table().table_name(table).send().await;

    match resp {
        Ok(out) => {
            println!("Deleted table");
            Ok(out)
        }
        Err(e) => Err(Error::Unhandled(e.into())),
    }
}
```
+  Untuk detail API, lihat [DeleteTable](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.delete_table)*referensi AWS SDK for Rust API*. 

### `ListTables`
<a name="dynamodb_ListTables_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 

```
pub async fn list_tables(client: &Client) -> Result<Vec<String>, Error> {
    let paginator = client.list_tables().into_paginator().items().send();
    let table_names = paginator.collect::<Result<Vec<_>, _>>().await?;

    println!("Tables:");

    for name in &table_names {
        println!("  {}", name);
    }

    println!("Found {} tables", table_names.len());
    Ok(table_names)
}
```
Tentukan apakah tabel ada.  

```
pub async fn table_exists(client: &Client, table: &str) -> Result<bool, Error> {
    debug!("Checking for table: {table}");
    let table_list = client.list_tables().send().await;

    match table_list {
        Ok(list) => Ok(list.table_names().contains(&table.into())),
        Err(e) => Err(e.into()),
    }
}
```
+  Untuk detail API, lihat [ListTables](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.list_tables)*referensi AWS SDK for Rust API*. 

### `PutItem`
<a name="dynamodb_PutItem_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 

```
pub async fn add_item(client: &Client, item: Item, table: &String) -> Result<ItemOut, Error> {
    let user_av = AttributeValue::S(item.username);
    let type_av = AttributeValue::S(item.p_type);
    let age_av = AttributeValue::S(item.age);
    let first_av = AttributeValue::S(item.first);
    let last_av = AttributeValue::S(item.last);

    let request = client
        .put_item()
        .table_name(table)
        .item("username", user_av)
        .item("account_type", type_av)
        .item("age", age_av)
        .item("first_name", first_av)
        .item("last_name", last_av);

    println!("Executing request [{request:?}] to add item...");

    let resp = request.send().await?;

    let attributes = resp.attributes().unwrap();

    let username = attributes.get("username").cloned();
    let first_name = attributes.get("first_name").cloned();
    let last_name = attributes.get("last_name").cloned();
    let age = attributes.get("age").cloned();
    let p_type = attributes.get("p_type").cloned();

    println!(
        "Added user {:?}, {:?} {:?}, age {:?} as {:?} user",
        username, first_name, last_name, age, p_type
    );

    Ok(ItemOut {
        p_type,
        age,
        username,
        first_name,
        last_name,
    })
}
```
+  Untuk detail API, lihat [PutItem](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.put_item)*referensi AWS SDK for Rust API*. 

### `Query`
<a name="dynamodb_Query_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 
Temukan film yang dibuat pada tahun tertentu.  

```
pub async fn movies_in_year(
    client: &Client,
    table_name: &str,
    year: u16,
) -> Result<Vec<Movie>, MovieError> {
    let results = client
        .query()
        .table_name(table_name)
        .key_condition_expression("#yr = :yyyy")
        .expression_attribute_names("#yr", "year")
        .expression_attribute_values(":yyyy", AttributeValue::N(year.to_string()))
        .send()
        .await?;

    if let Some(items) = results.items {
        let movies = items.iter().map(|v| v.into()).collect();
        Ok(movies)
    } else {
        Ok(vec![])
    }
}
```
+  Untuk detail API, lihat [Kueri](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.query) di *referensi API AWS SDK untuk Rust*. 

### `Scan`
<a name="dynamodb_Scan_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 

```
pub async fn list_items(client: &Client, table: &str, page_size: Option<i32>) -> Result<(), Error> {
    let page_size = page_size.unwrap_or(10);
    let items: Result<Vec<_>, _> = client
        .scan()
        .table_name(table)
        .limit(page_size)
        .into_paginator()
        .items()
        .send()
        .collect()
        .await;

    println!("Items in table (up to {page_size}):");
    for item in items? {
        println!("   {:?}", item);
    }

    Ok(())
}
```
+  Untuk detail API, lihat [Scan](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.scan) di *Referensi API AWS SDK untuk Rust*. 

## Skenario
<a name="scenarios"></a>

### Connect ke instans lokal
<a name="dynamodb_local_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengganti URL endpoint untuk terhubung ke penyebaran pengembangan lokal DynamoDB dan SDK. AWS 

Untuk informasi selengkapnya, lihat [DynamoDB Local](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DynamoDBLocal.html).

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 

```
/// Lists your tables from a local DynamoDB instance by setting the SDK Config's
/// endpoint_url and test_credentials.
#[tokio::main]
async fn main() {
    tracing_subscriber::fmt::init();

    let config = aws_config::defaults(aws_config::BehaviorVersion::latest())
        .test_credentials()
        // DynamoDB run locally uses port 8000 by default.
        .endpoint_url("http://localhost:8000")
        .load()
        .await;
    let dynamodb_local_config = aws_sdk_dynamodb::config::Builder::from(&config).build();

    let client = aws_sdk_dynamodb::Client::from_conf(dynamodb_local_config);

    let list_resp = client.list_tables().send().await;
    match list_resp {
        Ok(resp) => {
            println!("Found {} tables", resp.table_names().len());
            for name in resp.table_names() {
                println!("  {}", name);
            }
        }
        Err(err) => eprintln!("Failed to list local dynamodb tables: {err:?}"),
    }
}
```

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK for Rust**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/cross_service/photo_asset_management).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Melakukan kueri tabel menggunakan PartiQL
<a name="dynamodb_Scenario_PartiQLSingle_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Dapatkan item dengan menjalankan pernyataan SELECT.
+ Tambahkan item dengan menjalankan pernyataan INSERT.
+ Perbarui item dengan menjalankan pernyataan UPDATE.
+ Hapus item dengan menjalankan pernyataan DELETE.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples). 

```
async fn make_table(
    client: &Client,
    table: &str,
    key: &str,
) -> Result<(), SdkError<CreateTableError>> {
    let ad = AttributeDefinition::builder()
        .attribute_name(key)
        .attribute_type(ScalarAttributeType::S)
        .build()
        .expect("creating AttributeDefinition");

    let ks = KeySchemaElement::builder()
        .attribute_name(key)
        .key_type(KeyType::Hash)
        .build()
        .expect("creating KeySchemaElement");

    match client
        .create_table()
        .table_name(table)
        .key_schema(ks)
        .attribute_definitions(ad)
        .billing_mode(BillingMode::PayPerRequest)
        .send()
        .await
    {
        Ok(_) => Ok(()),
        Err(e) => Err(e),
    }
}

async fn add_item(client: &Client, item: Item) -> Result<(), SdkError<ExecuteStatementError>> {
    match client
        .execute_statement()
        .statement(format!(
            r#"INSERT INTO "{}" VALUE {{
                "{}": ?,
                "acount_type": ?,
                "age": ?,
                "first_name": ?,
                "last_name": ?
        }} "#,
            item.table, item.key
        ))
        .set_parameters(Some(vec![
            AttributeValue::S(item.utype),
            AttributeValue::S(item.age),
            AttributeValue::S(item.first_name),
            AttributeValue::S(item.last_name),
        ]))
        .send()
        .await
    {
        Ok(_) => Ok(()),
        Err(e) => Err(e),
    }
}

async fn query_item(client: &Client, item: Item) -> bool {
    match client
        .execute_statement()
        .statement(format!(
            r#"SELECT * FROM "{}" WHERE "{}" = ?"#,
            item.table, item.key
        ))
        .set_parameters(Some(vec![AttributeValue::S(item.value)]))
        .send()
        .await
    {
        Ok(resp) => {
            if !resp.items().is_empty() {
                println!("Found a matching entry in the table:");
                println!("{:?}", resp.items.unwrap_or_default().pop());
                true
            } else {
                println!("Did not find a match.");
                false
            }
        }
        Err(e) => {
            println!("Got an error querying table:");
            println!("{}", e);
            process::exit(1);
        }
    }
}

async fn remove_item(client: &Client, table: &str, key: &str, value: String) -> Result<(), Error> {
    client
        .execute_statement()
        .statement(format!(r#"DELETE FROM "{table}" WHERE "{key}" = ?"#))
        .set_parameters(Some(vec![AttributeValue::S(value)]))
        .send()
        .await?;

    println!("Deleted item.");

    Ok(())
}

async fn remove_table(client: &Client, table: &str) -> Result<(), Error> {
    client.delete_table().table_name(table).send().await?;

    Ok(())
}
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.execute_statement)*referensi AWS SDK for Rust API*. 

### Menyimpan EXIF dan informasi gambar lainnya
<a name="cross_DetectLabels_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara:
+ Mendapatkan informasi EXIF dari file JPG, JPEG, atau PNG.
+ Mengunggah file gambar ke bucket Amazon S3.
+ Menggunakan Amazon Rekognition untuk mengidentifikasi tiga atribut teratas (label) dalam file.
+ Menambahkan informasi EXIF dan label ke tabel Amazon DynamoDB di Wilayah.

**SDK for Rust**  
 Mendapatkan informasi EXIF dari file JPG, JPEG, atau PNG, mengunggah file gambar ke bucket Amazon S3, menggunakan Amazon Rekognition untuk mengidentifikasi tiga atribut teratas (label di *Amazon* Rekognition) dalam file, dan menambahkan EXIF dan informasi label ke tabel Amazon DynamoDB di Wilayah.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service/detect_labels/src/main.rs).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon Rekognition
+ Amazon S3

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Rust.  

```
use lambda_runtime::{service_fn, tracing, Error, LambdaEvent};
use aws_lambda_events::{
    event::dynamodb::{Event, EventRecord},
   };


// Built with the following dependencies:
//lambda_runtime = "0.11.1"
//serde_json = "1.0"
//tokio = { version = "1", features = ["macros"] }
//tracing = { version = "0.1", features = ["log"] }
//tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }
//aws_lambda_events = "0.15.0"

async fn function_handler(event: LambdaEvent<Event>) ->Result<(), Error> {
    
    let records = &event.payload.records;
    tracing::info!("event payload: {:?}",records);
    if records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(());
    }

    for record in records{
        log_dynamo_dbrecord(record);
    }

    tracing::info!("Dynamo db records processed");

    // Prepare the response
    Ok(())

}

fn log_dynamo_dbrecord(record: &EventRecord)-> Result<(), Error>{
    tracing::info!("EventId: {}", record.event_id);
    tracing::info!("EventName: {}", record.event_name);
    tracing::info!("DynamoDB Record: {:?}", record.change );
    Ok(())

}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
    .with_max_level(tracing::Level::INFO)
    .with_target(false)
    .without_time()
    .init();

    let func = service_fn(function_handler);
    lambda_runtime::run(func).await?;
    Ok(())
    
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Rust.  

```
use aws_lambda_events::{
    event::dynamodb::{Event, EventRecord, StreamRecord},
    streams::{DynamoDbBatchItemFailure, DynamoDbEventResponse},
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

/// Process the stream record
fn process_record(record: &EventRecord) -> Result<(), Error> {
    let stream_record: &StreamRecord = &record.change;

    // process your stream record here...
    tracing::info!("Data: {:?}", stream_record);

    Ok(())
}

/// Main Lambda handler here...
async fn function_handler(event: LambdaEvent<Event>) -> Result<DynamoDbEventResponse, Error> {
    let mut response = DynamoDbEventResponse {
        batch_item_failures: vec![],
    };

    let records = &event.payload.records;

    if records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(response);
    }

    for record in records {
        tracing::info!("EventId: {}", record.event_id);

        // Couldn't find a sequence number
        if record.change.sequence_number.is_none() {
            response.batch_item_failures.push(DynamoDbBatchItemFailure {
                item_identifier: Some("".to_string()),
            });
            return Ok(response);
        }

        // Process your record here...
        if process_record(record).is_err() {
            response.batch_item_failures.push(DynamoDbBatchItemFailure {
                item_identifier: record.change.sequence_number.clone(),
            });
            /* Since we are working with streams, we can return the failed item immediately.
            Lambda will immediately begin to retry processing from this failed item onwards. */
            return Ok(response);
        }
    }

    tracing::info!("Successfully processed {} record(s)", records.len());

    Ok(response)
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        // disable printing the name of the module in every log line.
        .with_target(false)
        // disabling time is handy because CloudWatch will add the ingestion time.
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK for Rust**  
 Menunjukkan cara membuat dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Rust SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-rust-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# Contoh Amazon EBS menggunakan SDK untuk Rust
<a name="rust_1_ebs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon EBS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CompleteSnapshot`
<a name="ebs_CompleteSnapshot_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompleteSnapshot`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples). 

```
async fn finish(client: &Client, id: &str) -> Result<(), Error> {
    client
        .complete_snapshot()
        .changed_blocks_count(2)
        .snapshot_id(id)
        .send()
        .await?;

    println!("Snapshot ID {}", id);
    println!("The state is 'completed' when all of the modified blocks have been transferred to Amazon S3.");
    println!("Use the get-snapshot-state code example to get the state of the snapshot.");

    Ok(())
}
```
+  Untuk detail API, lihat [CompleteSnapshot](https://docs.rs/aws-sdk-ebs/latest/aws_sdk_ebs/client/struct.Client.html#method.complete_snapshot)*referensi AWS SDK for Rust API*. 

### `PutSnapshotBlock`
<a name="ebs_PutSnapshotBlock_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutSnapshotBlock`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples). 

```
async fn add_block(
    client: &Client,
    id: &str,
    idx: usize,
    block: Vec<u8>,
    checksum: &str,
) -> Result<(), Error> {
    client
        .put_snapshot_block()
        .snapshot_id(id)
        .block_index(idx as i32)
        .block_data(ByteStream::from(block))
        .checksum(checksum)
        .checksum_algorithm(ChecksumAlgorithm::ChecksumAlgorithmSha256)
        .data_length(EBS_BLOCK_SIZE as i32)
        .send()
        .await?;

    Ok(())
}
```
+  Untuk detail API, lihat [PutSnapshotBlock](https://docs.rs/aws-sdk-ebs/latest/aws_sdk_ebs/client/struct.Client.html#method.put_snapshot_block)*referensi AWS SDK for Rust API*. 

### `StartSnapshot`
<a name="ebs_StartSnapshot_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartSnapshot`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples). 

```
async fn start(client: &Client, description: &str) -> Result<String, Error> {
    let snapshot = client
        .start_snapshot()
        .description(description)
        .encrypted(false)
        .volume_size(1)
        .send()
        .await?;

    Ok(snapshot.snapshot_id.unwrap())
}
```
+  Untuk detail API, lihat [StartSnapshot](https://docs.rs/aws-sdk-ebs/latest/aws_sdk_ebs/client/struct.Client.html#method.start_snapshot)*referensi AWS SDK for Rust API*. 

# Contoh Amazon EC2 menggunakan SDK untuk Rust
<a name="rust_1_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon EC2.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
async fn show_security_groups(client: &aws_sdk_ec2::Client, group_ids: Vec<String>) {
    let response = client
        .describe_security_groups()
        .set_group_ids(Some(group_ids))
        .send()
        .await;

    match response {
        Ok(output) => {
            for group in output.security_groups() {
                println!(
                    "Found Security Group {} ({}), vpc id {} and description {}",
                    group.group_name().unwrap_or("unknown"),
                    group.group_id().unwrap_or("id-unknown"),
                    group.vpc_id().unwrap_or("vpcid-unknown"),
                    group.description().unwrap_or("(none)")
                );
            }
        }
        Err(err) => {
            let err = err.into_service_error();
            let meta = err.meta();
            let message = meta.message().unwrap_or("unknown");
            let code = meta.code().unwrap_or("unknown");
            eprintln!("Error listing EC2 Security Groups: ({code}) {message}");
        }
    }
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups)*referensi AWS SDK for Rust API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ec2_Scenario_GetStartedInstances_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat pasangan kunci dan grup keamanan.
+ Memilih Amazon Machine Image (AMI) dan tipe instans yang kompatibel, lalu membuat instans.
+ Menghentikan dan memulai ulang instans.
+ Kaitkan alamat IP Elastis dengan instans Anda.
+ Menghubungkan instans Anda dengan SSH, lalu membersihkan sumber daya.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 
 EC2InstanceScenario Implementasinya berisi logika untuk menjalankan contoh secara keseluruhan.  

```
//! Scenario that uses the AWS SDK for Rust (the SDK) with Amazon Elastic Compute Cloud
//! (Amazon EC2) to do the following:
//!
//! * Create a key pair that is used to secure SSH communication between your computer and
//!   an EC2 instance.
//! * Create a security group that acts as a virtual firewall for your EC2 instances to
//!   control incoming and outgoing traffic.
//! * Find an Amazon Machine Image (AMI) and a compatible instance type.
//! * Create an instance that is created from the instance type and AMI you select, and
//!   is configured to use the security group and key pair created in this example.
//! * Stop and restart the instance.
//! * Create an Elastic IP address and associate it as a consistent IP address for your instance.
//! * Connect to your instance with SSH, using both its public IP address and your Elastic IP
//!   address.
//! * Clean up all of the resources created by this example.

use std::net::Ipv4Addr;

use crate::{
    ec2::{EC2Error, EC2},
    getting_started::{key_pair::KeyPairManager, util::Util},
    ssm::SSM,
};
use aws_sdk_ssm::types::Parameter;

use super::{
    elastic_ip::ElasticIpManager, instance::InstanceManager, security_group::SecurityGroupManager,
    util::ScenarioImage,
};

pub struct Ec2InstanceScenario {
    ec2: EC2,
    ssm: SSM,
    util: Util,
    key_pair_manager: KeyPairManager,
    security_group_manager: SecurityGroupManager,
    instance_manager: InstanceManager,
    elastic_ip_manager: ElasticIpManager,
}

impl Ec2InstanceScenario {
    pub fn new(ec2: EC2, ssm: SSM, util: Util) -> Self {
        Ec2InstanceScenario {
            ec2,
            ssm,
            util,
            key_pair_manager: Default::default(),
            security_group_manager: Default::default(),
            instance_manager: Default::default(),
            elastic_ip_manager: Default::default(),
        }
    }

    pub async fn run(&mut self) -> Result<(), EC2Error> {
        self.create_and_list_key_pairs().await?;
        self.create_security_group().await?;
        self.create_instance().await?;
        self.stop_and_start_instance().await?;
        self.associate_elastic_ip().await?;
        self.stop_and_start_instance().await?;
        Ok(())
    }

    /// 1. Creates an RSA key pair and saves its private key data as a .pem file in secure
    ///    temporary storage. The private key data is deleted after the example completes.
    /// 2. Optionally, lists the first five key pairs for the current account.
    pub async fn create_and_list_key_pairs(&mut self) -> Result<(), EC2Error> {
        println!( "Let's create an RSA key pair that you can be use to securely connect to your EC2 instance.");

        let key_name = self.util.prompt_key_name()?;

        self.key_pair_manager
            .create(&self.ec2, &self.util, key_name)
            .await?;

        println!(
            "Created a key pair {} and saved the private key to {:?}.",
            self.key_pair_manager
                .key_pair()
                .key_name()
                .ok_or_else(|| EC2Error::new("No key name after creating key"))?,
            self.key_pair_manager
                .key_file_path()
                .ok_or_else(|| EC2Error::new("No key file after creating key"))?
        );

        if self.util.should_list_key_pairs()? {
            for pair in self.key_pair_manager.list(&self.ec2).await? {
                println!(
                    "Found {:?} key {} with fingerprint:\t{:?}",
                    pair.key_type(),
                    pair.key_name().unwrap_or("Unknown"),
                    pair.key_fingerprint()
                );
            }
        }

        Ok(())
    }

    /// 1. Creates a security group for the default VPC.
    /// 2. Adds an inbound rule to allow SSH. The SSH rule allows only
    ///    inbound traffic from the current computer’s public IPv4 address.
    /// 3. Displays information about the security group.
    ///
    /// This function uses <http://checkip.amazonaws.com> to get the current public IP
    /// address of the computer that is running the example. This method works in most
    /// cases. However, depending on how your computer connects to the internet, you
    /// might have to manually add your public IP address to the security group by using
    /// the AWS Management Console.
    pub async fn create_security_group(&mut self) -> Result<(), EC2Error> {
        println!("Let's create a security group to manage access to your instance.");
        let group_name = self.util.prompt_security_group_name()?;

        self.security_group_manager
            .create(
                &self.ec2,
                &group_name,
                "Security group for example: get started with instances.",
            )
            .await?;

        println!(
            "Created security group {} in your default VPC {}.",
            self.security_group_manager.group_name(),
            self.security_group_manager
                .vpc_id()
                .unwrap_or("(unknown vpc)")
        );

        let check_ip = self.util.do_get("https://checkip.amazonaws.com").await?;
        let current_ip_address: Ipv4Addr = check_ip.trim().parse().map_err(|e| {
            EC2Error::new(format!(
                "Failed to convert response {} to IP Address: {e:?}",
                check_ip
            ))
        })?;

        println!("Your public IP address seems to be {current_ip_address}");
        if self.util.should_add_to_security_group() {
            match self
                .security_group_manager
                .authorize_ingress(&self.ec2, current_ip_address)
                .await
            {
                Ok(_) => println!("Security group rules updated"),
                Err(err) => eprintln!("Couldn't update security group rules: {err:?}"),
            }
        }
        println!("{}", self.security_group_manager);

        Ok(())
    }

    /// 1. Gets a list of Amazon Linux 2 AMIs from AWS Systems Manager. Specifying the
    ///    '/aws/service/ami-amazon-linux-latest' path returns only the latest AMIs.
    /// 2. Gets and displays information about the available AMIs and lets you select one.
    /// 3. Gets a list of instance types that are compatible with the selected AMI and
    ///    lets you select one.
    /// 4. Creates an instance with the previously created key pair and security group,
    ///    and the selected AMI and instance type.
    /// 5. Waits for the instance to be running and then displays its information.
    pub async fn create_instance(&mut self) -> Result<(), EC2Error> {
        let ami = self.find_image().await?;

        let instance_types = self
            .ec2
            .list_instance_types(&ami.0)
            .await
            .map_err(|e| e.add_message("Could not find instance types"))?;
        println!(
            "There are several instance types that support the {} architecture of the image.",
            ami.0
                .architecture
                .as_ref()
                .ok_or_else(|| EC2Error::new(format!("Missing architecture in {:?}", ami.0)))?
        );
        let instance_type = self.util.select_instance_type(instance_types)?;

        println!("Creating your instance and waiting for it to start...");
        self.instance_manager
            .create(
                &self.ec2,
                ami.0
                    .image_id()
                    .ok_or_else(|| EC2Error::new("Could not find image ID"))?,
                instance_type,
                self.key_pair_manager.key_pair(),
                self.security_group_manager
                    .security_group()
                    .map(|sg| vec![sg])
                    .ok_or_else(|| EC2Error::new("Could not find security group"))?,
            )
            .await
            .map_err(|e| e.add_message("Scenario failed to create instance"))?;

        while let Err(err) = self
            .ec2
            .wait_for_instance_ready(self.instance_manager.instance_id(), None)
            .await
        {
            println!("{err}");
            if !self.util.should_continue_waiting() {
                return Err(err);
            }
        }

        println!("Your instance is ready:\n{}", self.instance_manager);

        self.display_ssh_info();

        Ok(())
    }

    async fn find_image(&mut self) -> Result<ScenarioImage, EC2Error> {
        let params: Vec<Parameter> = self
            .ssm
            .list_path("/aws/service/ami-amazon-linux-latest")
            .await
            .map_err(|e| e.add_message("Could not find parameters for available images"))?
            .into_iter()
            .filter(|param| param.name().is_some_and(|name| name.contains("amzn2")))
            .collect();
        let amzn2_images: Vec<ScenarioImage> = self
            .ec2
            .list_images(params)
            .await
            .map_err(|e| e.add_message("Could not find images"))?
            .into_iter()
            .map(ScenarioImage::from)
            .collect();
        println!("We will now create an instance from an Amazon Linux 2 AMI");
        let ami = self.util.select_scenario_image(amzn2_images)?;
        Ok(ami)
    }

    // 1. Stops the instance and waits for it to stop.
    // 2. Starts the instance and waits for it to start.
    // 3. Displays information about the instance.
    // 4. Displays an SSH connection string. When an Elastic IP address is associated
    //    with the instance, the IP address stays consistent when the instance stops
    //    and starts.
    pub async fn stop_and_start_instance(&self) -> Result<(), EC2Error> {
        println!("Let's stop and start your instance to see what changes.");
        println!("Stopping your instance and waiting until it's stopped...");
        self.instance_manager.stop(&self.ec2).await?;
        println!("Your instance is stopped. Restarting...");
        self.instance_manager.start(&self.ec2).await?;
        println!("Your instance is running.");
        println!("{}", self.instance_manager);
        if self.elastic_ip_manager.public_ip() == "0.0.0.0" {
            println!("Every time your instance is restarted, its public IP address changes.");
        } else {
            println!(
                "Because you have associated an Elastic IP with your instance, you can connect by using a consistent IP address after the instance restarts."
            );
        }
        self.display_ssh_info();
        Ok(())
    }

    /// 1. Allocates an Elastic IP address and associates it with the instance.
    /// 2. Displays an SSH connection string that uses the Elastic IP address.
    async fn associate_elastic_ip(&mut self) -> Result<(), EC2Error> {
        self.elastic_ip_manager.allocate(&self.ec2).await?;
        println!(
            "Allocated static Elastic IP address: {}",
            self.elastic_ip_manager.public_ip()
        );

        self.elastic_ip_manager
            .associate(&self.ec2, self.instance_manager.instance_id())
            .await?;
        println!("Associated your Elastic IP with your instance.");
        println!("You can now use SSH to connect to your instance by using the Elastic IP.");
        self.display_ssh_info();
        Ok(())
    }

    /// Displays an SSH connection string that can be used to connect to a running
    /// instance.
    fn display_ssh_info(&self) {
        let ip_addr = if self.elastic_ip_manager.has_allocation() {
            self.elastic_ip_manager.public_ip()
        } else {
            self.instance_manager.instance_ip()
        };
        let key_file_path = self.key_pair_manager.key_file_path().unwrap();
        println!("To connect, open another command prompt and run the following command:");
        println!("\nssh -i {} ec2-user@{ip_addr}\n", key_file_path.display());
        let _ = self.util.enter_to_continue();
    }

    /// 1. Disassociate and delete the previously created Elastic IP.
    /// 2. Terminate the previously created instance.
    /// 3. Delete the previously created security group.
    /// 4. Delete the previously created key pair.
    pub async fn clean_up(self) {
        println!("Let's clean everything up. This example created these resources:");
        println!(
            "\tKey pair: {}",
            self.key_pair_manager
                .key_pair()
                .key_name()
                .unwrap_or("(unknown key pair)")
        );
        println!(
            "\tSecurity group: {}",
            self.security_group_manager.group_name()
        );
        println!(
            "\tInstance: {}",
            self.instance_manager.instance_display_name()
        );
        if self.util.should_clean_resources() {
            if let Err(err) = self.elastic_ip_manager.remove(&self.ec2).await {
                eprintln!("{err}")
            }
            if let Err(err) = self.instance_manager.delete(&self.ec2).await {
                eprintln!("{err}")
            }
            if let Err(err) = self.security_group_manager.delete(&self.ec2).await {
                eprintln!("{err}");
            }
            if let Err(err) = self.key_pair_manager.delete(&self.ec2, &self.util).await {
                eprintln!("{err}");
            }
        } else {
            println!("Ok, not cleaning up any resources!");
        }
    }
}

pub async fn run(mut scenario: Ec2InstanceScenario) {
    println!("--------------------------------------------------------------------------------");
    println!(
        "Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) get started with instances demo."
    );
    println!("--------------------------------------------------------------------------------");

    if let Err(err) = scenario.run().await {
        eprintln!("There was an error running the scenario: {err}")
    }

    println!("--------------------------------------------------------------------------------");

    scenario.clean_up().await;

    println!("Thanks for running!");
    println!("--------------------------------------------------------------------------------");
}
```
Struct EC2impl berfungsi sebagai titik automock untuk pengujian, dan fungsinya membungkus panggilan EC2 SDK.  

```
use std::{net::Ipv4Addr, time::Duration};

use aws_sdk_ec2::{
    client::Waiters,
    error::ProvideErrorMetadata,
    operation::{
        allocate_address::AllocateAddressOutput, associate_address::AssociateAddressOutput,
    },
    types::{
        DomainType, Filter, Image, Instance, InstanceType, IpPermission, IpRange, KeyPairInfo,
        SecurityGroup, Tag,
    },
    Client as EC2Client,
};
use aws_sdk_ssm::types::Parameter;
use aws_smithy_runtime_api::client::waiters::error::WaiterError;

#[cfg(test)]
use mockall::automock;

#[cfg(not(test))]
pub use EC2Impl as EC2;

#[cfg(test)]
pub use MockEC2Impl as EC2;

#[derive(Clone)]
pub struct EC2Impl {
    pub client: EC2Client,
}

#[cfg_attr(test, automock)]
impl EC2Impl {
    pub fn new(client: EC2Client) -> Self {
        EC2Impl { client }
    }

    pub async fn create_key_pair(&self, name: String) -> Result<(KeyPairInfo, String), EC2Error> {
        tracing::info!("Creating key pair {name}");
        let output = self.client.create_key_pair().key_name(name).send().await?;
        let info = KeyPairInfo::builder()
            .set_key_name(output.key_name)
            .set_key_fingerprint(output.key_fingerprint)
            .set_key_pair_id(output.key_pair_id)
            .build();
        let material = output
            .key_material
            .ok_or_else(|| EC2Error::new("Create Key Pair has no key material"))?;
        Ok((info, material))
    }

    pub async fn list_key_pair(&self) -> Result<Vec<KeyPairInfo>, EC2Error> {
        let output = self.client.describe_key_pairs().send().await?;
        Ok(output.key_pairs.unwrap_or_default())
    }

    pub async fn delete_key_pair(&self, key_name: &str) -> Result<(), EC2Error> {
        let key_name: String = key_name.into();
        tracing::info!("Deleting key pair {key_name}");
        self.client
            .delete_key_pair()
            .key_name(key_name)
            .send()
            .await?;
        Ok(())
    }

    pub async fn create_security_group(
        &self,
        name: &str,
        description: &str,
    ) -> Result<SecurityGroup, EC2Error> {
        tracing::info!("Creating security group {name}");
        let create_output = self
            .client
            .create_security_group()
            .group_name(name)
            .description(description)
            .send()
            .await
            .map_err(EC2Error::from)?;

        let group_id = create_output
            .group_id
            .ok_or_else(|| EC2Error::new("Missing security group id after creation"))?;

        let group = self
            .describe_security_group(&group_id)
            .await?
            .ok_or_else(|| {
                EC2Error::new(format!("Could not find security group with id {group_id}"))
            })?;

        tracing::info!("Created security group {name} as {group_id}");

        Ok(group)
    }

    /// Find a single security group, by ID. Returns Err if multiple groups are found.
    pub async fn describe_security_group(
        &self,
        group_id: &str,
    ) -> Result<Option<SecurityGroup>, EC2Error> {
        let group_id: String = group_id.into();
        let describe_output = self
            .client
            .describe_security_groups()
            .group_ids(&group_id)
            .send()
            .await?;

        let mut groups = describe_output.security_groups.unwrap_or_default();

        match groups.len() {
            0 => Ok(None),
            1 => Ok(Some(groups.remove(0))),
            _ => Err(EC2Error::new(format!(
                "Expected single group for {group_id}"
            ))),
        }
    }

    /// Add an ingress rule to a security group explicitly allowing IPv4 address
    /// as {ip}/32 over TCP port 22.
    pub async fn authorize_security_group_ssh_ingress(
        &self,
        group_id: &str,
        ingress_ips: Vec<Ipv4Addr>,
    ) -> Result<(), EC2Error> {
        tracing::info!("Authorizing ingress for security group {group_id}");
        self.client
            .authorize_security_group_ingress()
            .group_id(group_id)
            .set_ip_permissions(Some(
                ingress_ips
                    .into_iter()
                    .map(|ip| {
                        IpPermission::builder()
                            .ip_protocol("tcp")
                            .from_port(22)
                            .to_port(22)
                            .ip_ranges(IpRange::builder().cidr_ip(format!("{ip}/32")).build())
                            .build()
                    })
                    .collect(),
            ))
            .send()
            .await?;
        Ok(())
    }

    pub async fn delete_security_group(&self, group_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Deleting security group {group_id}");
        self.client
            .delete_security_group()
            .group_id(group_id)
            .send()
            .await?;
        Ok(())
    }

    pub async fn list_images(&self, ids: Vec<Parameter>) -> Result<Vec<Image>, EC2Error> {
        let image_ids = ids.into_iter().filter_map(|p| p.value).collect();
        let output = self
            .client
            .describe_images()
            .set_image_ids(Some(image_ids))
            .send()
            .await?;

        let images = output.images.unwrap_or_default();
        if images.is_empty() {
            Err(EC2Error::new("No images for selected AMIs"))
        } else {
            Ok(images)
        }
    }

    /// List instance types that match an image's architecture and are free tier eligible.
    pub async fn list_instance_types(&self, image: &Image) -> Result<Vec<InstanceType>, EC2Error> {
        let architecture = format!(
            "{}",
            image.architecture().ok_or_else(|| EC2Error::new(format!(
                "Image {:?} does not have a listed architecture",
                image.image_id()
            )))?
        );
        let free_tier_eligible_filter = Filter::builder()
            .name("free-tier-eligible")
            .values("false")
            .build();
        let supported_architecture_filter = Filter::builder()
            .name("processor-info.supported-architecture")
            .values(architecture)
            .build();
        let response = self
            .client
            .describe_instance_types()
            .filters(free_tier_eligible_filter)
            .filters(supported_architecture_filter)
            .send()
            .await?;

        Ok(response
            .instance_types
            .unwrap_or_default()
            .into_iter()
            .filter_map(|iti| iti.instance_type)
            .collect())
    }

    pub async fn create_instance<'a>(
        &self,
        image_id: &'a str,
        instance_type: InstanceType,
        key_pair: &'a KeyPairInfo,
        security_groups: Vec<&'a SecurityGroup>,
    ) -> Result<String, EC2Error> {
        let run_instances = self
            .client
            .run_instances()
            .image_id(image_id)
            .instance_type(instance_type)
            .key_name(
                key_pair
                    .key_name()
                    .ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?,
            )
            .set_security_group_ids(Some(
                security_groups
                    .iter()
                    .filter_map(|sg| sg.group_id.clone())
                    .collect(),
            ))
            .min_count(1)
            .max_count(1)
            .send()
            .await?;

        if run_instances.instances().is_empty() {
            return Err(EC2Error::new("Failed to create instance"));
        }

        let instance_id = run_instances.instances()[0].instance_id().unwrap();
        let response = self
            .client
            .create_tags()
            .resources(instance_id)
            .tags(
                Tag::builder()
                    .key("Name")
                    .value("From SDK Examples")
                    .build(),
            )
            .send()
            .await;

        match response {
            Ok(_) => tracing::info!("Created {instance_id} and applied tags."),
            Err(err) => {
                tracing::info!("Error applying tags to {instance_id}: {err:?}");
                return Err(err.into());
            }
        }

        tracing::info!("Instance is created.");

        Ok(instance_id.to_string())
    }

    /// Wait for an instance to be ready and status ok (default wait 60 seconds)
    pub async fn wait_for_instance_ready(
        &self,
        instance_id: &str,
        duration: Option<Duration>,
    ) -> Result<(), EC2Error> {
        self.client
            .wait_until_instance_status_ok()
            .instance_ids(instance_id)
            .wait(duration.unwrap_or(Duration::from_secs(60)))
            .await
            .map_err(|err| match err {
                WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
                    "Exceeded max time ({}s) waiting for instance to start.",
                    exceeded.max_wait().as_secs()
                )),
                _ => EC2Error::from(err),
            })?;
        Ok(())
    }

    pub async fn describe_instance(&self, instance_id: &str) -> Result<Instance, EC2Error> {
        let response = self
            .client
            .describe_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        let instance = response
            .reservations()
            .first()
            .ok_or_else(|| EC2Error::new(format!("No instance reservations for {instance_id}")))?
            .instances()
            .first()
            .ok_or_else(|| {
                EC2Error::new(format!("No instances in reservation for {instance_id}"))
            })?;

        Ok(instance.clone())
    }

    pub async fn start_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Starting instance {instance_id}");

        self.client
            .start_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        tracing::info!("Started instance.");

        Ok(())
    }

    pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Stopping instance {instance_id}");

        self.client
            .stop_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        self.wait_for_instance_stopped(instance_id, None).await?;

        tracing::info!("Stopped instance.");

        Ok(())
    }

    pub async fn reboot_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Rebooting instance {instance_id}");

        self.client
            .reboot_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        Ok(())
    }

    pub async fn wait_for_instance_stopped(
        &self,
        instance_id: &str,
        duration: Option<Duration>,
    ) -> Result<(), EC2Error> {
        self.client
            .wait_until_instance_stopped()
            .instance_ids(instance_id)
            .wait(duration.unwrap_or(Duration::from_secs(60)))
            .await
            .map_err(|err| match err {
                WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
                    "Exceeded max time ({}s) waiting for instance to stop.",
                    exceeded.max_wait().as_secs(),
                )),
                _ => EC2Error::from(err),
            })?;
        Ok(())
    }

    pub async fn delete_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Deleting instance with id {instance_id}");
        self.stop_instance(instance_id).await?;
        self.client
            .terminate_instances()
            .instance_ids(instance_id)
            .send()
            .await?;
        self.wait_for_instance_terminated(instance_id).await?;
        tracing::info!("Terminated instance with id {instance_id}");
        Ok(())
    }

    async fn wait_for_instance_terminated(&self, instance_id: &str) -> Result<(), EC2Error> {
        self.client
            .wait_until_instance_terminated()
            .instance_ids(instance_id)
            .wait(Duration::from_secs(60))
            .await
            .map_err(|err| match err {
                WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
                    "Exceeded max time ({}s) waiting for instance to terminate.",
                    exceeded.max_wait().as_secs(),
                )),
                _ => EC2Error::from(err),
            })?;
        Ok(())
    }

    pub async fn allocate_ip_address(&self) -> Result<AllocateAddressOutput, EC2Error> {
        self.client
            .allocate_address()
            .domain(DomainType::Vpc)
            .send()
            .await
            .map_err(EC2Error::from)
    }

    pub async fn deallocate_ip_address(&self, allocation_id: &str) -> Result<(), EC2Error> {
        self.client
            .release_address()
            .allocation_id(allocation_id)
            .send()
            .await?;
        Ok(())
    }

    pub async fn associate_ip_address(
        &self,
        allocation_id: &str,
        instance_id: &str,
    ) -> Result<AssociateAddressOutput, EC2Error> {
        let response = self
            .client
            .associate_address()
            .allocation_id(allocation_id)
            .instance_id(instance_id)
            .send()
            .await?;
        Ok(response)
    }

    pub async fn disassociate_ip_address(&self, association_id: &str) -> Result<(), EC2Error> {
        self.client
            .disassociate_address()
            .association_id(association_id)
            .send()
            .await?;
        Ok(())
    }
}

#[derive(Debug)]
pub struct EC2Error(String);
impl EC2Error {
    pub fn new(value: impl Into<String>) -> Self {
        EC2Error(value.into())
    }

    pub fn add_message(self, message: impl Into<String>) -> Self {
        EC2Error(format!("{}: {}", message.into(), self.0))
    }
}

impl<T: ProvideErrorMetadata> From<T> for EC2Error {
    fn from(value: T) -> Self {
        EC2Error(format!(
            "{}: {}",
            value
                .code()
                .map(String::from)
                .unwrap_or("unknown code".into()),
            value
                .message()
                .map(String::from)
                .unwrap_or("missing reason".into()),
        ))
    }
}

impl std::error::Error for EC2Error {}

impl std::fmt::Display for EC2Error {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "{}", self.0)
    }
}
```
Struct SSM berfungsi sebagai titik automock untuk pengujian, dan fungsinya membungkus panggilan SSM SDK.  

```
use aws_sdk_ssm::{types::Parameter, Client};
use aws_smithy_async::future::pagination_stream::TryFlatMap;

use crate::ec2::EC2Error;

#[cfg(test)]
use mockall::automock;

#[cfg(not(test))]
pub use SSMImpl as SSM;

#[cfg(test)]
pub use MockSSMImpl as SSM;

pub struct SSMImpl {
    inner: Client,
}

#[cfg_attr(test, automock)]
impl SSMImpl {
    pub fn new(inner: Client) -> Self {
        SSMImpl { inner }
    }

    pub async fn list_path(&self, path: &str) -> Result<Vec<Parameter>, EC2Error> {
        let maybe_params: Vec<Result<Parameter, _>> = TryFlatMap::new(
            self.inner
                .get_parameters_by_path()
                .path(path)
                .into_paginator()
                .send(),
        )
        .flat_map(|item| item.parameters.unwrap_or_default())
        .collect()
        .await;
        // Fail on the first error
        let params = maybe_params
            .into_iter()
            .collect::<Result<Vec<Parameter>, _>>()?;
        Ok(params)
    }
}
```
Skenario ini menggunakan beberapa struct gaya “Manajer” untuk menangani akses ke sumber daya yang dibuat dan dihapus di seluruh skenario.  

```
use aws_sdk_ec2::operation::{
    allocate_address::AllocateAddressOutput, associate_address::AssociateAddressOutput,
};

use crate::ec2::{EC2Error, EC2};

/// ElasticIpManager tracks the lifecycle of a public IP address, including its
/// allocation from the global pool and association with a specific instance.
#[derive(Debug, Default)]
pub struct ElasticIpManager {
    elastic_ip: Option<AllocateAddressOutput>,
    association: Option<AssociateAddressOutput>,
}

impl ElasticIpManager {
    pub fn has_allocation(&self) -> bool {
        self.elastic_ip.is_some()
    }

    pub fn public_ip(&self) -> &str {
        if let Some(allocation) = &self.elastic_ip {
            if let Some(addr) = allocation.public_ip() {
                return addr;
            }
        }
        "0.0.0.0"
    }

    pub async fn allocate(&mut self, ec2: &EC2) -> Result<(), EC2Error> {
        let allocation = ec2.allocate_ip_address().await?;
        self.elastic_ip = Some(allocation);
        Ok(())
    }

    pub async fn associate(&mut self, ec2: &EC2, instance_id: &str) -> Result<(), EC2Error> {
        if let Some(allocation) = &self.elastic_ip {
            if let Some(allocation_id) = allocation.allocation_id() {
                let association = ec2.associate_ip_address(allocation_id, instance_id).await?;
                self.association = Some(association);
                return Ok(());
            }
        }
        Err(EC2Error::new("No ip address allocation to associate"))
    }

    pub async fn remove(mut self, ec2: &EC2) -> Result<(), EC2Error> {
        if let Some(association) = &self.association {
            if let Some(association_id) = association.association_id() {
                ec2.disassociate_ip_address(association_id).await?;
            }
        }
        self.association = None;
        if let Some(allocation) = &self.elastic_ip {
            if let Some(allocation_id) = allocation.allocation_id() {
                ec2.deallocate_ip_address(allocation_id).await?;
            }
        }
        self.elastic_ip = None;
        Ok(())
    }
}


use std::fmt::Display;

use aws_sdk_ec2::types::{Instance, InstanceType, KeyPairInfo, SecurityGroup};

use crate::ec2::{EC2Error, EC2};

/// InstanceManager wraps the lifecycle of an EC2 Instance.
#[derive(Debug, Default)]
pub struct InstanceManager {
    instance: Option<Instance>,
}

impl InstanceManager {
    pub fn instance_id(&self) -> &str {
        if let Some(instance) = &self.instance {
            if let Some(id) = instance.instance_id() {
                return id;
            }
        }
        "Unknown"
    }

    pub fn instance_name(&self) -> &str {
        if let Some(instance) = &self.instance {
            if let Some(tag) = instance.tags().iter().find(|e| e.key() == Some("Name")) {
                if let Some(value) = tag.value() {
                    return value;
                }
            }
        }
        "Unknown"
    }

    pub fn instance_ip(&self) -> &str {
        if let Some(instance) = &self.instance {
            if let Some(public_ip_address) = instance.public_ip_address() {
                return public_ip_address;
            }
        }
        "0.0.0.0"
    }

    pub fn instance_display_name(&self) -> String {
        format!("{} ({})", self.instance_name(), self.instance_id())
    }

    /// Create an EC2 instance with the given ID on a given type, using a
    /// generated KeyPair and applying a list of security groups.
    pub async fn create(
        &mut self,
        ec2: &EC2,
        image_id: &str,
        instance_type: InstanceType,
        key_pair: &KeyPairInfo,
        security_groups: Vec<&SecurityGroup>,
    ) -> Result<(), EC2Error> {
        let instance_id = ec2
            .create_instance(image_id, instance_type, key_pair, security_groups)
            .await?;
        let instance = ec2.describe_instance(&instance_id).await?;
        self.instance = Some(instance);
        Ok(())
    }

    /// Start the managed EC2 instance, if present.
    pub async fn start(&self, ec2: &EC2) -> Result<(), EC2Error> {
        if self.instance.is_some() {
            ec2.start_instance(self.instance_id()).await?;
        }
        Ok(())
    }

    /// Stop the managed EC2 instance, if present.
    pub async fn stop(&self, ec2: &EC2) -> Result<(), EC2Error> {
        if self.instance.is_some() {
            ec2.stop_instance(self.instance_id()).await?;
        }
        Ok(())
    }

    pub async fn reboot(&self, ec2: &EC2) -> Result<(), EC2Error> {
        if self.instance.is_some() {
            ec2.reboot_instance(self.instance_id()).await?;
            ec2.wait_for_instance_stopped(self.instance_id(), None)
                .await?;
            ec2.wait_for_instance_ready(self.instance_id(), None)
                .await?;
        }
        Ok(())
    }

    /// Terminate and delete the managed EC2 instance, if present.
    pub async fn delete(self, ec2: &EC2) -> Result<(), EC2Error> {
        if self.instance.is_some() {
            ec2.delete_instance(self.instance_id()).await?;
        }
        Ok(())
    }
}

impl Display for InstanceManager {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        if let Some(instance) = &self.instance {
            writeln!(f, "\tID: {}", instance.instance_id().unwrap_or("(Unknown)"))?;
            writeln!(
                f,
                "\tImage ID: {}",
                instance.image_id().unwrap_or("(Unknown)")
            )?;
            writeln!(
                f,
                "\tInstance type: {}",
                instance
                    .instance_type()
                    .map(|it| format!("{it}"))
                    .unwrap_or("(Unknown)".to_string())
            )?;
            writeln!(
                f,
                "\tKey name: {}",
                instance.key_name().unwrap_or("(Unknown)")
            )?;
            writeln!(f, "\tVPC ID: {}", instance.vpc_id().unwrap_or("(Unknown)"))?;
            writeln!(
                f,
                "\tPublic IP: {}",
                instance.public_ip_address().unwrap_or("(Unknown)")
            )?;
            let instance_state = instance
                .state
                .as_ref()
                .map(|is| {
                    is.name()
                        .map(|isn| format!("{isn}"))
                        .unwrap_or("(Unknown)".to_string())
                })
                .unwrap_or("(Unknown)".to_string());
            writeln!(f, "\tState: {instance_state}")?;
        } else {
            writeln!(f, "\tNo loaded instance")?;
        }
        Ok(())
    }
}


use std::{env, path::PathBuf};

use aws_sdk_ec2::types::KeyPairInfo;

use crate::ec2::{EC2Error, EC2};

use super::util::Util;

/// KeyPairManager tracks a KeyPairInfo and the path the private key has been
/// written to, if it's been created.
#[derive(Debug)]
pub struct KeyPairManager {
    key_pair: KeyPairInfo,
    key_file_path: Option<PathBuf>,
    key_file_dir: PathBuf,
}

impl KeyPairManager {
    pub fn new() -> Self {
        Self::default()
    }

    pub fn key_pair(&self) -> &KeyPairInfo {
        &self.key_pair
    }

    pub fn key_file_path(&self) -> Option<&PathBuf> {
        self.key_file_path.as_ref()
    }

    pub fn key_file_dir(&self) -> &PathBuf {
        &self.key_file_dir
    }

    /// Creates a key pair that can be used to securely connect to an EC2 instance.
    /// The returned key pair contains private key information that cannot be retrieved
    /// again. The private key data is stored as a .pem file.
    ///
    /// :param key_name: The name of the key pair to create.
    pub async fn create(
        &mut self,
        ec2: &EC2,
        util: &Util,
        key_name: String,
    ) -> Result<KeyPairInfo, EC2Error> {
        let (key_pair, material) = ec2.create_key_pair(key_name.clone()).await.map_err(|e| {
            self.key_pair = KeyPairInfo::builder().key_name(key_name.clone()).build();
            e.add_message(format!("Couldn't create key {key_name}"))
        })?;

        let path = self.key_file_dir.join(format!("{key_name}.pem"));

        // Save the key_pair information immediately, so it can get cleaned up if write_secure fails.
        self.key_file_path = Some(path.clone());
        self.key_pair = key_pair.clone();

        util.write_secure(&key_name, &path, material)?;

        Ok(key_pair)
    }

    pub async fn delete(self, ec2: &EC2, util: &Util) -> Result<(), EC2Error> {
        if let Some(key_name) = self.key_pair.key_name() {
            ec2.delete_key_pair(key_name).await?;
            if let Some(key_path) = self.key_file_path() {
                if let Err(err) = util.remove(key_path) {
                    eprintln!("Failed to remove {key_path:?} ({err:?})");
                }
            }
        }
        Ok(())
    }

    pub async fn list(&self, ec2: &EC2) -> Result<Vec<KeyPairInfo>, EC2Error> {
        ec2.list_key_pair().await
    }
}

impl Default for KeyPairManager {
    fn default() -> Self {
        KeyPairManager {
            key_pair: KeyPairInfo::builder().build(),
            key_file_path: Default::default(),
            key_file_dir: env::temp_dir(),
        }
    }
}


use std::net::Ipv4Addr;

use aws_sdk_ec2::types::SecurityGroup;

use crate::ec2::{EC2Error, EC2};

/// SecurityGroupManager tracks the lifecycle of a SecurityGroup for an instance,
/// including adding a rule to allow SSH from a public IP address.
#[derive(Debug, Default)]
pub struct SecurityGroupManager {
    group_name: String,
    group_description: String,
    security_group: Option<SecurityGroup>,
}

impl SecurityGroupManager {
    pub async fn create(
        &mut self,
        ec2: &EC2,
        group_name: &str,
        group_description: &str,
    ) -> Result<(), EC2Error> {
        self.group_name = group_name.into();
        self.group_description = group_description.into();

        self.security_group = Some(
            ec2.create_security_group(group_name, group_description)
                .await
                .map_err(|e| e.add_message("Couldn't create security group"))?,
        );

        Ok(())
    }

    pub async fn authorize_ingress(&self, ec2: &EC2, ip_address: Ipv4Addr) -> Result<(), EC2Error> {
        if let Some(sg) = &self.security_group {
            ec2.authorize_security_group_ssh_ingress(
                sg.group_id()
                    .ok_or_else(|| EC2Error::new("Missing security group ID"))?,
                vec![ip_address],
            )
            .await?;
        };

        Ok(())
    }

    pub async fn delete(self, ec2: &EC2) -> Result<(), EC2Error> {
        if let Some(sg) = &self.security_group {
            ec2.delete_security_group(
                sg.group_id()
                    .ok_or_else(|| EC2Error::new("Missing security group ID"))?,
            )
            .await?;
        };

        Ok(())
    }

    pub fn group_name(&self) -> &str {
        &self.group_name
    }

    pub fn vpc_id(&self) -> Option<&str> {
        self.security_group.as_ref().and_then(|sg| sg.vpc_id())
    }

    pub fn security_group(&self) -> Option<&SecurityGroup> {
        self.security_group.as_ref()
    }
}

impl std::fmt::Display for SecurityGroupManager {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        match &self.security_group {
            Some(sg) => {
                writeln!(
                    f,
                    "Security group: {}",
                    sg.group_name().unwrap_or("(unknown group)")
                )?;
                writeln!(f, "\tID: {}", sg.group_id().unwrap_or("(unknown group id)"))?;
                writeln!(f, "\tVPC: {}", sg.vpc_id().unwrap_or("(unknown group vpc)"))?;
                if !sg.ip_permissions().is_empty() {
                    writeln!(f, "\tInbound Permissions:")?;
                    for permission in sg.ip_permissions() {
                        writeln!(f, "\t\t{permission:?}")?;
                    }
                }
                Ok(())
            }
            None => writeln!(f, "No security group loaded."),
        }
    }
}
```
Titik masuk utama untuk skenario.  

```
use ec2_code_examples::{
    ec2::EC2,
    getting_started::{
        scenario::{run, Ec2InstanceScenario},
        util::UtilImpl,
    },
    ssm::SSM,
};

#[tokio::main]
async fn main() {
    tracing_subscriber::fmt::init();
    let sdk_config = aws_config::load_from_env().await;
    let ec2 = EC2::new(aws_sdk_ec2::Client::new(&sdk_config));
    let ssm = SSM::new(aws_sdk_ssm::Client::new(&sdk_config));
    let util = UtilImpl {};
    let scenario = Ec2InstanceScenario::new(ec2, ssm, util);
    run(scenario).await;
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Rust*.
  + [AllocateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.allocate_address)
  + [AssociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.associate_address)
  + [AuthorizeSecurityGroupIngress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.authorize_security_group_ingress)
  + [CreateKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_key_pair)
  + [CreateSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_security_group)
  + [DeleteKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_key_pair)
  + [DeleteSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_security_group)
  + [DescribeImages](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_images)
  + [DescribeInstanceTypes](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_types)
  + [DescribeInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instances)
  + [DescribeKeyPairs](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_key_pairs)
  + [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups)
  + [DisassociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.disassociate_address)
  + [ReleaseAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.release_address)
  + [RunInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.run_instances)
  + [StartInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.start_instances)
  + [StopInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.stop_instances)
  + [TerminateInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.terminate_instances)
  + [UnmonitorInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.unmonitor_instances)

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn allocate_ip_address(&self) -> Result<AllocateAddressOutput, EC2Error> {
        self.client
            .allocate_address()
            .domain(DomainType::Vpc)
            .send()
            .await
            .map_err(EC2Error::from)
    }
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.allocate_address)*referensi AWS SDK for Rust API*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn associate_ip_address(
        &self,
        allocation_id: &str,
        instance_id: &str,
    ) -> Result<AssociateAddressOutput, EC2Error> {
        let response = self
            .client
            .associate_address()
            .allocation_id(allocation_id)
            .instance_id(instance_id)
            .send()
            .await?;
        Ok(response)
    }
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.associate_address)*referensi AWS SDK for Rust API*. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    /// Add an ingress rule to a security group explicitly allowing IPv4 address
    /// as {ip}/32 over TCP port 22.
    pub async fn authorize_security_group_ssh_ingress(
        &self,
        group_id: &str,
        ingress_ips: Vec<Ipv4Addr>,
    ) -> Result<(), EC2Error> {
        tracing::info!("Authorizing ingress for security group {group_id}");
        self.client
            .authorize_security_group_ingress()
            .group_id(group_id)
            .set_ip_permissions(Some(
                ingress_ips
                    .into_iter()
                    .map(|ip| {
                        IpPermission::builder()
                            .ip_protocol("tcp")
                            .from_port(22)
                            .to_port(22)
                            .ip_ranges(IpRange::builder().cidr_ip(format!("{ip}/32")).build())
                            .build()
                    })
                    .collect(),
            ))
            .send()
            .await?;
        Ok(())
    }
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.authorize_security_group_ingress)*referensi AWS SDK for Rust API*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 
Implementasi Rust yang memanggil create\$1key\$1pair Klien EC2 dan mengekstrak materi yang dikembalikan.  

```
    pub async fn create_key_pair(&self, name: String) -> Result<(KeyPairInfo, String), EC2Error> {
        tracing::info!("Creating key pair {name}");
        let output = self.client.create_key_pair().key_name(name).send().await?;
        let info = KeyPairInfo::builder()
            .set_key_name(output.key_name)
            .set_key_fingerprint(output.key_fingerprint)
            .set_key_pair_id(output.key_pair_id)
            .build();
        let material = output
            .key_material
            .ok_or_else(|| EC2Error::new("Create Key Pair has no key material"))?;
        Ok((info, material))
    }
```
Fungsi yang memanggil create\$1key impl dan menyimpan kunci pribadi PEM dengan aman.  

```
    /// Creates a key pair that can be used to securely connect to an EC2 instance.
    /// The returned key pair contains private key information that cannot be retrieved
    /// again. The private key data is stored as a .pem file.
    ///
    /// :param key_name: The name of the key pair to create.
    pub async fn create(
        &mut self,
        ec2: &EC2,
        util: &Util,
        key_name: String,
    ) -> Result<KeyPairInfo, EC2Error> {
        let (key_pair, material) = ec2.create_key_pair(key_name.clone()).await.map_err(|e| {
            self.key_pair = KeyPairInfo::builder().key_name(key_name.clone()).build();
            e.add_message(format!("Couldn't create key {key_name}"))
        })?;

        let path = self.key_file_dir.join(format!("{key_name}.pem"));

        // Save the key_pair information immediately, so it can get cleaned up if write_secure fails.
        self.key_file_path = Some(path.clone());
        self.key_pair = key_pair.clone();

        util.write_secure(&key_name, &path, material)?;

        Ok(key_pair)
    }
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_key_pair)*referensi AWS SDK for Rust API*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn create_security_group(
        &self,
        name: &str,
        description: &str,
    ) -> Result<SecurityGroup, EC2Error> {
        tracing::info!("Creating security group {name}");
        let create_output = self
            .client
            .create_security_group()
            .group_name(name)
            .description(description)
            .send()
            .await
            .map_err(EC2Error::from)?;

        let group_id = create_output
            .group_id
            .ok_or_else(|| EC2Error::new("Missing security group id after creation"))?;

        let group = self
            .describe_security_group(&group_id)
            .await?
            .ok_or_else(|| {
                EC2Error::new(format!("Could not find security group with id {group_id}"))
            })?;

        tracing::info!("Created security group {name} as {group_id}");

        Ok(group)
    }
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_security_group)*referensi AWS SDK for Rust API*. 

### `CreateTags`
<a name="ec2_CreateTags_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTags`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 
Contoh ini menerapkan tag Nama Setelah membuat instance.  

```
    pub async fn create_instance<'a>(
        &self,
        image_id: &'a str,
        instance_type: InstanceType,
        key_pair: &'a KeyPairInfo,
        security_groups: Vec<&'a SecurityGroup>,
    ) -> Result<String, EC2Error> {
        let run_instances = self
            .client
            .run_instances()
            .image_id(image_id)
            .instance_type(instance_type)
            .key_name(
                key_pair
                    .key_name()
                    .ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?,
            )
            .set_security_group_ids(Some(
                security_groups
                    .iter()
                    .filter_map(|sg| sg.group_id.clone())
                    .collect(),
            ))
            .min_count(1)
            .max_count(1)
            .send()
            .await?;

        if run_instances.instances().is_empty() {
            return Err(EC2Error::new("Failed to create instance"));
        }

        let instance_id = run_instances.instances()[0].instance_id().unwrap();
        let response = self
            .client
            .create_tags()
            .resources(instance_id)
            .tags(
                Tag::builder()
                    .key("Name")
                    .value("From SDK Examples")
                    .build(),
            )
            .send()
            .await;

        match response {
            Ok(_) => tracing::info!("Created {instance_id} and applied tags."),
            Err(err) => {
                tracing::info!("Error applying tags to {instance_id}: {err:?}");
                return Err(err.into());
            }
        }

        tracing::info!("Instance is created.");

        Ok(instance_id.to_string())
    }
```
+  Untuk detail API, lihat [CreateTags](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_tags)*referensi AWS SDK for Rust API*. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 
Pembungkus di sekitar delete\$1key yang juga menghapus kunci PEM pribadi pendukung.  

```
    pub async fn delete(self, ec2: &EC2, util: &Util) -> Result<(), EC2Error> {
        if let Some(key_name) = self.key_pair.key_name() {
            ec2.delete_key_pair(key_name).await?;
            if let Some(key_path) = self.key_file_path() {
                if let Err(err) = util.remove(key_path) {
                    eprintln!("Failed to remove {key_path:?} ({err:?})");
                }
            }
        }
        Ok(())
    }
```

```
    pub async fn delete_key_pair(&self, key_name: &str) -> Result<(), EC2Error> {
        let key_name: String = key_name.into();
        tracing::info!("Deleting key pair {key_name}");
        self.client
            .delete_key_pair()
            .key_name(key_name)
            .send()
            .await?;
        Ok(())
    }
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_key_pair)*referensi AWS SDK for Rust API*. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn delete_security_group(&self, group_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Deleting security group {group_id}");
        self.client
            .delete_security_group()
            .group_id(group_id)
            .send()
            .await?;
        Ok(())
    }
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_security_group)*referensi AWS SDK for Rust API*. 

### `DeleteSnapshot`
<a name="ec2_DeleteSnapshot_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSnapshot`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples). 

```
async fn delete_snapshot(client: &Client, id: &str) -> Result<(), Error> {
    client.delete_snapshot().snapshot_id(id).send().await?;

    println!("Deleted");

    Ok(())
}
```
+  Untuk detail API, lihat [DeleteSnapshot](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_snapshot)*referensi AWS SDK for Rust API*. 

### `DescribeImages`
<a name="ec2_DescribeImages_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn list_images(&self, ids: Vec<Parameter>) -> Result<Vec<Image>, EC2Error> {
        let image_ids = ids.into_iter().filter_map(|p| p.value).collect();
        let output = self
            .client
            .describe_images()
            .set_image_ids(Some(image_ids))
            .send()
            .await?;

        let images = output.images.unwrap_or_default();
        if images.is_empty() {
            Err(EC2Error::new("No images for selected AMIs"))
        } else {
            Ok(images)
        }
    }
```
Menggunakan fungsi list\$1images dengan SSM untuk membatasi berdasarkan lingkungan Anda. Untuk detail lebih lanjut tentang SSM, lihat https://docs.aws.amazon.com/systems-manager/ latest/userguide/example GetParameters \$1ssm\$1 \$1section.html.  

```
    async fn find_image(&mut self) -> Result<ScenarioImage, EC2Error> {
        let params: Vec<Parameter> = self
            .ssm
            .list_path("/aws/service/ami-amazon-linux-latest")
            .await
            .map_err(|e| e.add_message("Could not find parameters for available images"))?
            .into_iter()
            .filter(|param| param.name().is_some_and(|name| name.contains("amzn2")))
            .collect();
        let amzn2_images: Vec<ScenarioImage> = self
            .ec2
            .list_images(params)
            .await
            .map_err(|e| e.add_message("Could not find images"))?
            .into_iter()
            .map(ScenarioImage::from)
            .collect();
        println!("We will now create an instance from an Amazon Linux 2 AMI");
        let ami = self.util.select_scenario_image(amzn2_images)?;
        Ok(ami)
    }
```
+  Untuk detail API, lihat [DescribeImages](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_images)*referensi AWS SDK for Rust API*. 

### `DescribeInstanceStatus`
<a name="ec2_DescribeInstanceStatus_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceStatus`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
async fn show_all_events(client: &Client) -> Result<(), Error> {
    let resp = client.describe_regions().send().await.unwrap();

    for region in resp.regions.unwrap_or_default() {
        let reg: &'static str = Box::leak(Box::from(region.region_name().unwrap()));
        let region_provider = RegionProviderChain::default_provider().or_else(reg);
        let config = aws_config::from_env().region(region_provider).load().await;
        let new_client = Client::new(&config);

        let resp = new_client.describe_instance_status().send().await;

        println!("Instances in region {}:", reg);
        println!();

        for status in resp.unwrap().instance_statuses() {
            println!(
                "  Events scheduled for instance ID: {}",
                status.instance_id().unwrap_or_default()
            );
            for event in status.events() {
                println!("    Event ID:     {}", event.instance_event_id().unwrap());
                println!("    Description:  {}", event.description().unwrap());
                println!("    Event code:   {}", event.code().unwrap().as_ref());
                println!();
            }
        }
    }

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeInstanceStatus](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_status)*referensi AWS SDK for Rust API*. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    /// List instance types that match an image's architecture and are free tier eligible.
    pub async fn list_instance_types(&self, image: &Image) -> Result<Vec<InstanceType>, EC2Error> {
        let architecture = format!(
            "{}",
            image.architecture().ok_or_else(|| EC2Error::new(format!(
                "Image {:?} does not have a listed architecture",
                image.image_id()
            )))?
        );
        let free_tier_eligible_filter = Filter::builder()
            .name("free-tier-eligible")
            .values("false")
            .build();
        let supported_architecture_filter = Filter::builder()
            .name("processor-info.supported-architecture")
            .values(architecture)
            .build();
        let response = self
            .client
            .describe_instance_types()
            .filters(free_tier_eligible_filter)
            .filters(supported_architecture_filter)
            .send()
            .await?;

        Ok(response
            .instance_types
            .unwrap_or_default()
            .into_iter()
            .filter_map(|iti| iti.instance_type)
            .collect())
    }
```
+  Untuk detail API, lihat [DescribeInstanceTypes](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_types)*referensi AWS SDK for Rust API*. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 
Ambil detail untuk Instans EC2.  

```
    pub async fn describe_instance(&self, instance_id: &str) -> Result<Instance, EC2Error> {
        let response = self
            .client
            .describe_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        let instance = response
            .reservations()
            .first()
            .ok_or_else(|| EC2Error::new(format!("No instance reservations for {instance_id}")))?
            .instances()
            .first()
            .ok_or_else(|| {
                EC2Error::new(format!("No instances in reservation for {instance_id}"))
            })?;

        Ok(instance.clone())
    }
```
Setelah membuat instance EC2, ambil dan simpan detailnya.  

```
    /// Create an EC2 instance with the given ID on a given type, using a
    /// generated KeyPair and applying a list of security groups.
    pub async fn create(
        &mut self,
        ec2: &EC2,
        image_id: &str,
        instance_type: InstanceType,
        key_pair: &KeyPairInfo,
        security_groups: Vec<&SecurityGroup>,
    ) -> Result<(), EC2Error> {
        let instance_id = ec2
            .create_instance(image_id, instance_type, key_pair, security_groups)
            .await?;
        let instance = ec2.describe_instance(&instance_id).await?;
        self.instance = Some(instance);
        Ok(())
    }
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instances)*referensi AWS SDK for Rust API*. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn list_key_pair(&self) -> Result<Vec<KeyPairInfo>, EC2Error> {
        let output = self.client.describe_key_pairs().send().await?;
        Ok(output.key_pairs.unwrap_or_default())
    }
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_key_pairs)*referensi AWS SDK for Rust API*. 

### `DescribeRegions`
<a name="ec2_DescribeRegions_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRegions`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
async fn show_regions(client: &Client) -> Result<(), Error> {
    let rsp = client.describe_regions().send().await?;

    println!("Regions:");
    for region in rsp.regions() {
        println!("  {}", region.region_name().unwrap());
    }

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeRegions](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_regions)*referensi AWS SDK for Rust API*. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
async fn show_security_groups(client: &aws_sdk_ec2::Client, group_ids: Vec<String>) {
    let response = client
        .describe_security_groups()
        .set_group_ids(Some(group_ids))
        .send()
        .await;

    match response {
        Ok(output) => {
            for group in output.security_groups() {
                println!(
                    "Found Security Group {} ({}), vpc id {} and description {}",
                    group.group_name().unwrap_or("unknown"),
                    group.group_id().unwrap_or("id-unknown"),
                    group.vpc_id().unwrap_or("vpcid-unknown"),
                    group.description().unwrap_or("(none)")
                );
            }
        }
        Err(err) => {
            let err = err.into_service_error();
            let meta = err.meta();
            let message = meta.message().unwrap_or("unknown");
            let code = meta.code().unwrap_or("unknown");
            eprintln!("Error listing EC2 Security Groups: ({code}) {message}");
        }
    }
}
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups)*referensi AWS SDK for Rust API*. 

### `DescribeSnapshots`
<a name="ec2_DescribeSnapshots_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSnapshots`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples). 
Menampilkan status snapshot.  

```
async fn show_state(client: &Client, id: &str) -> Result<(), Error> {
    let resp = client
        .describe_snapshots()
        .filters(Filter::builder().name("snapshot-id").values(id).build())
        .send()
        .await?;

    println!(
        "State: {}",
        resp.snapshots().first().unwrap().state().unwrap().as_ref()
    );

    Ok(())
}
```

```
async fn show_snapshots(client: &Client) -> Result<(), Error> {
    // "self" represents your account ID.
    // You can list the snapshots for any account by replacing
    // "self" with that account ID.
    let resp = client.describe_snapshots().owner_ids("self").send().await?;
    let snapshots = resp.snapshots();
    let length = snapshots.len();

    for snapshot in snapshots {
        println!(
            "ID:          {}",
            snapshot.snapshot_id().unwrap_or_default()
        );
        println!(
            "Description: {}",
            snapshot.description().unwrap_or_default()
        );
        println!("State:       {}", snapshot.state().unwrap().as_ref());
        println!();
    }

    println!();
    println!("Found {} snapshot(s)", length);
    println!();

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeSnapshots](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_snapshots)*referensi AWS SDK for Rust API*. 

### `DisassociateAddress`
<a name="ec2_DisassociateAddress_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateAddress`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn disassociate_ip_address(&self, association_id: &str) -> Result<(), EC2Error> {
        self.client
            .disassociate_address()
            .association_id(association_id)
            .send()
            .await?;
        Ok(())
    }
```
+  Untuk detail API, lihat [DisassociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.disassociate_address)*referensi AWS SDK for Rust API*. 

### `RebootInstances`
<a name="ec2_RebootInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RebootInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn reboot(&self, ec2: &EC2) -> Result<(), EC2Error> {
        if self.instance.is_some() {
            ec2.reboot_instance(self.instance_id()).await?;
            ec2.wait_for_instance_stopped(self.instance_id(), None)
                .await?;
            ec2.wait_for_instance_ready(self.instance_id(), None)
                .await?;
        }
        Ok(())
    }
```

```
    pub async fn reboot_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Rebooting instance {instance_id}");

        self.client
            .reboot_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        Ok(())
    }
```
Pelayan misalnya berada dalam status berhenti dan siap, menggunakan API Pelayan. Menggunakan Waiters API memerlukan `use aws\$1sdk\$1ec2: :client: :Waiters` dalam file rust.  

```
    /// Wait for an instance to be ready and status ok (default wait 60 seconds)
    pub async fn wait_for_instance_ready(
        &self,
        instance_id: &str,
        duration: Option<Duration>,
    ) -> Result<(), EC2Error> {
        self.client
            .wait_until_instance_status_ok()
            .instance_ids(instance_id)
            .wait(duration.unwrap_or(Duration::from_secs(60)))
            .await
            .map_err(|err| match err {
                WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
                    "Exceeded max time ({}s) waiting for instance to start.",
                    exceeded.max_wait().as_secs()
                )),
                _ => EC2Error::from(err),
            })?;
        Ok(())
    }

    pub async fn wait_for_instance_stopped(
        &self,
        instance_id: &str,
        duration: Option<Duration>,
    ) -> Result<(), EC2Error> {
        self.client
            .wait_until_instance_stopped()
            .instance_ids(instance_id)
            .wait(duration.unwrap_or(Duration::from_secs(60)))
            .await
            .map_err(|err| match err {
                WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
                    "Exceeded max time ({}s) waiting for instance to stop.",
                    exceeded.max_wait().as_secs(),
                )),
                _ => EC2Error::from(err),
            })?;
        Ok(())
    }
```
+  Untuk detail API, lihat [RebootInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.reboot_instances)*referensi AWS SDK for Rust API*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn deallocate_ip_address(&self, allocation_id: &str) -> Result<(), EC2Error> {
        self.client
            .release_address()
            .allocation_id(allocation_id)
            .send()
            .await?;
        Ok(())
    }
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.release_address)*referensi AWS SDK for Rust API*. 

### `RunInstances`
<a name="ec2_RunInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn create_instance<'a>(
        &self,
        image_id: &'a str,
        instance_type: InstanceType,
        key_pair: &'a KeyPairInfo,
        security_groups: Vec<&'a SecurityGroup>,
    ) -> Result<String, EC2Error> {
        let run_instances = self
            .client
            .run_instances()
            .image_id(image_id)
            .instance_type(instance_type)
            .key_name(
                key_pair
                    .key_name()
                    .ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?,
            )
            .set_security_group_ids(Some(
                security_groups
                    .iter()
                    .filter_map(|sg| sg.group_id.clone())
                    .collect(),
            ))
            .min_count(1)
            .max_count(1)
            .send()
            .await?;

        if run_instances.instances().is_empty() {
            return Err(EC2Error::new("Failed to create instance"));
        }

        let instance_id = run_instances.instances()[0].instance_id().unwrap();
        let response = self
            .client
            .create_tags()
            .resources(instance_id)
            .tags(
                Tag::builder()
                    .key("Name")
                    .value("From SDK Examples")
                    .build(),
            )
            .send()
            .await;

        match response {
            Ok(_) => tracing::info!("Created {instance_id} and applied tags."),
            Err(err) => {
                tracing::info!("Error applying tags to {instance_id}: {err:?}");
                return Err(err.into());
            }
        }

        tracing::info!("Instance is created.");

        Ok(instance_id.to_string())
    }
```
+  Untuk detail API, lihat [RunInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.run_instances)*referensi AWS SDK for Rust API*. 

### `StartInstances`
<a name="ec2_StartInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 
Mulai Instans EC2 dengan ID instans.  

```
    pub async fn start_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Starting instance {instance_id}");

        self.client
            .start_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        tracing::info!("Started instance.");

        Ok(())
    }
```
Tunggu instance berada dalam status siap dan status ok, menggunakan API Pelayan. Menggunakan Waiters API memerlukan `use aws\$1sdk\$1ec2: :client: :Waiters` dalam file rust.  

```
    /// Wait for an instance to be ready and status ok (default wait 60 seconds)
    pub async fn wait_for_instance_ready(
        &self,
        instance_id: &str,
        duration: Option<Duration>,
    ) -> Result<(), EC2Error> {
        self.client
            .wait_until_instance_status_ok()
            .instance_ids(instance_id)
            .wait(duration.unwrap_or(Duration::from_secs(60)))
            .await
            .map_err(|err| match err {
                WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
                    "Exceeded max time ({}s) waiting for instance to start.",
                    exceeded.max_wait().as_secs()
                )),
                _ => EC2Error::from(err),
            })?;
        Ok(())
    }
```
+  Untuk detail API, lihat [StartInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.start_instances)*referensi AWS SDK for Rust API*. 

### `StopInstances`
<a name="ec2_StopInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Stopping instance {instance_id}");

        self.client
            .stop_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        self.wait_for_instance_stopped(instance_id, None).await?;

        tracing::info!("Stopped instance.");

        Ok(())
    }
```
Tunggu instance berada dalam status berhenti, menggunakan API Pelayan. Menggunakan Waiters API memerlukan `use aws\$1sdk\$1ec2: :client: :Waiters` dalam file rust.  

```
    pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Stopping instance {instance_id}");

        self.client
            .stop_instances()
            .instance_ids(instance_id)
            .send()
            .await?;

        self.wait_for_instance_stopped(instance_id, None).await?;

        tracing::info!("Stopped instance.");

        Ok(())
    }
```
+  Untuk detail API, lihat [StopInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.stop_instances)*referensi AWS SDK for Rust API*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). 

```
    pub async fn delete_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
        tracing::info!("Deleting instance with id {instance_id}");
        self.stop_instance(instance_id).await?;
        self.client
            .terminate_instances()
            .instance_ids(instance_id)
            .send()
            .await?;
        self.wait_for_instance_terminated(instance_id).await?;
        tracing::info!("Terminated instance with id {instance_id}");
        Ok(())
    }
```
Tunggu hingga instance berada dalam status terminted, menggunakan Waiters API. Menggunakan Waiters API memerlukan `use aws\$1sdk\$1ec2: :client: :Waiters` dalam file rust.  

```
    async fn wait_for_instance_terminated(&self, instance_id: &str) -> Result<(), EC2Error> {
        self.client
            .wait_until_instance_terminated()
            .instance_ids(instance_id)
            .wait(Duration::from_secs(60))
            .await
            .map_err(|err| match err {
                WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
                    "Exceeded max time ({}s) waiting for instance to terminate.",
                    exceeded.max_wait().as_secs(),
                )),
                _ => EC2Error::from(err),
            })?;
        Ok(())
    }
```
+  Untuk detail API, lihat [TerminateInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.terminate_instances)*referensi AWS SDK for Rust API*. 

# Contoh Amazon ECR menggunakan SDK untuk Rust
<a name="rust_1_ecr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon ECR.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DescribeRepositories`
<a name="ecr_DescribeRepositories_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRepositories`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecr#code-examples). 

```
async fn show_repos(client: &aws_sdk_ecr::Client) -> Result<(), aws_sdk_ecr::Error> {
    let rsp = client.describe_repositories().send().await?;

    let repos = rsp.repositories();

    println!("Found {} repositories:", repos.len());

    for repo in repos {
        println!("  ARN:  {}", repo.repository_arn().unwrap());
        println!("  Name: {}", repo.repository_name().unwrap());
    }

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeRepositories](https://docs.rs/aws-sdk-ecr/latest/aws_sdk_ecr/client/struct.Client.html#method.describe_repositories)*referensi AWS SDK for Rust API*. 

### `ListImages`
<a name="ecr_ListImages_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListImages`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecr#code-examples). 

```
async fn show_images(
    client: &aws_sdk_ecr::Client,
    repository: &str,
) -> Result<(), aws_sdk_ecr::Error> {
    let rsp = client
        .list_images()
        .repository_name(repository)
        .send()
        .await?;

    let images = rsp.image_ids();

    println!("found {} images", images.len());

    for image in images {
        println!(
            "image: {}:{}",
            image.image_tag().unwrap(),
            image.image_digest().unwrap()
        );
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListImages](https://docs.rs/aws-sdk-ecr/latest/aws_sdk_ecr/client/struct.Client.html#method.list_images)*referensi AWS SDK for Rust API*. 

# Contoh Amazon ECS menggunakan SDK untuk Rust
<a name="rust_1_ecs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon ECS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="ecs_CreateCluster_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecs#code-examples). 

```
async fn make_cluster(client: &aws_sdk_ecs::Client, name: &str) -> Result<(), aws_sdk_ecs::Error> {
    let cluster = client.create_cluster().cluster_name(name).send().await?;
    println!("cluster created: {:?}", cluster);

    Ok(())
}
```
+  Untuk detail API, lihat [CreateCluster](https://docs.rs/aws-sdk-ecs/latest/aws_sdk_ecs/client/struct.Client.html#method.create_cluster)*referensi AWS SDK for Rust API*. 

### `DeleteCluster`
<a name="ecs_DeleteCluster_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecs#code-examples). 

```
async fn remove_cluster(
    client: &aws_sdk_ecs::Client,
    name: &str,
) -> Result<(), aws_sdk_ecs::Error> {
    let cluster_deleted = client.delete_cluster().cluster(name).send().await?;
    println!("cluster deleted: {:?}", cluster_deleted);

    Ok(())
}
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.rs/aws-sdk-ecs/latest/aws_sdk_ecs/client/struct.Client.html#method.delete_cluster)*referensi AWS SDK for Rust API*. 

### `DescribeClusters`
<a name="ecs_DescribeClusters_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecs#code-examples). 

```
async fn show_clusters(client: &aws_sdk_ecs::Client) -> Result<(), aws_sdk_ecs::Error> {
    let resp = client.list_clusters().send().await?;

    let cluster_arns = resp.cluster_arns();
    println!("Found {} clusters:", cluster_arns.len());

    let clusters = client
        .describe_clusters()
        .set_clusters(Some(cluster_arns.into()))
        .send()
        .await?;

    for cluster in clusters.clusters() {
        println!("  ARN:  {}", cluster.cluster_arn().unwrap());
        println!("  Name: {}", cluster.cluster_name().unwrap());
    }

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.rs/aws-sdk-ecs/latest/aws_sdk_ecs/client/struct.Client.html#method.describe_clusters)*referensi AWS SDK for Rust API*. 

# Contoh Amazon EKS menggunakan SDK untuk Rust
<a name="rust_1_eks_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon EKS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="eks_CreateCluster_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/eks#code-examples). 

```
async fn make_cluster(
    client: &aws_sdk_eks::Client,
    name: &str,
    arn: &str,
    subnet_ids: Vec<String>,
) -> Result<(), aws_sdk_eks::Error> {
    let cluster = client
        .create_cluster()
        .name(name)
        .role_arn(arn)
        .resources_vpc_config(
            VpcConfigRequest::builder()
                .set_subnet_ids(Some(subnet_ids))
                .build(),
        )
        .send()
        .await?;
    println!("cluster created: {:?}", cluster);

    Ok(())
}
```
+  Untuk detail API, lihat [CreateCluster](https://docs.rs/aws-sdk-eks/latest/aws_sdk_eks/client/struct.Client.html#method.create_cluster)*referensi AWS SDK for Rust API*. 

### `DeleteCluster`
<a name="eks_DeleteCluster_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/eks#code-examples). 

```
async fn remove_cluster(
    client: &aws_sdk_eks::Client,
    name: &str,
) -> Result<(), aws_sdk_eks::Error> {
    let cluster_deleted = client.delete_cluster().name(name).send().await?;
    println!("cluster deleted: {:?}", cluster_deleted);

    Ok(())
}
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.rs/aws-sdk-eks/latest/aws_sdk_eks/client/struct.Client.html#method.delete_cluster)*referensi AWS SDK for Rust API*. 

# AWS Glue contoh menggunakan SDK untuk Rust
<a name="rust_1_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with AWS Glue.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS Glue
<a name="glue_Hello_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Glue.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let mut list_jobs = glue.list_jobs().into_paginator().send();
        while let Some(list_jobs_output) = list_jobs.next().await {
            match list_jobs_output {
                Ok(list_jobs) => {
                    let names = list_jobs.job_names();
                    info!(?names, "Found these jobs")
                }
                Err(err) => return Err(GlueMvpError::from_glue_sdk(err)),
            }
        }
```
+  Untuk detail API, lihat [ListJobs](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.list_jobs)*referensi AWS SDK for Rust API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Daftar informasi tentang database dan tabel di situs Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 
Membuat dan menjalankan crawler yang merayapi bucket Amazon Simple Storage Service (Amazon S3) publik dan menghasilkan database metadata yang menjelaskan data berformat CSV yang ditemukannya.  

```
        let create_crawler = glue
            .create_crawler()
            .name(self.crawler())
            .database_name(self.database())
            .role(self.iam_role.expose_secret())
            .targets(
                CrawlerTargets::builder()
                    .s3_targets(S3Target::builder().path(CRAWLER_TARGET).build())
                    .build(),
            )
            .send()
            .await;

        match create_crawler {
            Err(err) => {
                let glue_err: aws_sdk_glue::Error = err.into();
                match glue_err {
                    aws_sdk_glue::Error::AlreadyExistsException(_) => {
                        info!("Using existing crawler");
                        Ok(())
                    }
                    _ => Err(GlueMvpError::GlueSdk(glue_err)),
                }
            }
            Ok(_) => Ok(()),
        }?;

        let start_crawler = glue.start_crawler().name(self.crawler()).send().await;

        match start_crawler {
            Ok(_) => Ok(()),
            Err(err) => {
                let glue_err: aws_sdk_glue::Error = err.into();
                match glue_err {
                    aws_sdk_glue::Error::CrawlerRunningException(_) => Ok(()),
                    _ => Err(GlueMvpError::GlueSdk(glue_err)),
                }
            }
        }?;
```
Daftar informasi tentang database dan tabel di situs Anda AWS Glue Data Catalog.  

```
        let database = glue
            .get_database()
            .name(self.database())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?
            .to_owned();
        let database = database
            .database()
            .ok_or_else(|| GlueMvpError::Unknown("Could not find database".into()))?;

        let tables = glue
            .get_tables()
            .database_name(self.database())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;

        let tables = tables.table_list();
```
Buat dan jalankan job yang mengekstrak data CSV dari bucket Amazon S3 sumber, mengubahnya dengan menghapus dan mengganti nama bidang, dan memuat output berformat JSON ke bucket Amazon S3 lainnya.  

```
        let create_job = glue
            .create_job()
            .name(self.job())
            .role(self.iam_role.expose_secret())
            .command(
                JobCommand::builder()
                    .name("glueetl")
                    .python_version("3")
                    .script_location(format!("s3://{}/job.py", self.bucket()))
                    .build(),
            )
            .glue_version("3.0")
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;

        let job_name = create_job.name().ok_or_else(|| {
            GlueMvpError::Unknown("Did not get job name after creating job".into())
        })?;

        let job_run_output = glue
            .start_job_run()
            .job_name(self.job())
            .arguments("--input_database", self.database())
            .arguments(
                "--input_table",
                self.tables
                    .first()
                    .ok_or_else(|| GlueMvpError::Unknown("Missing crawler table".into()))?
                    .name(),
            )
            .arguments("--output_bucket_url", self.bucket())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;

        let job = job_run_output
            .job_run_id()
            .ok_or_else(|| GlueMvpError::Unknown("Missing run id from just started job".into()))?
            .to_string();
```
Hapus semua sumber daya yang dibuat oleh demo.  

```
        glue.delete_job()
            .job_name(self.job())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;

        for t in &self.tables {
            glue.delete_table()
                .name(t.name())
                .database_name(self.database())
                .send()
                .await
                .map_err(GlueMvpError::from_glue_sdk)?;
        }

        glue.delete_database()
            .name(self.database())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;

        glue.delete_crawler()
            .name(self.crawler())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Rust*.
  + [CreateCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.create_crawler)
  + [CreateJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.create_job)
  + [DeleteCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_crawler)
  + [DeleteDatabase](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_database)
  + [DeleteJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_job)
  + [DeleteTable](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_table)
  + [GetCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_crawler)
  + [GetDatabase](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_database)
  + [GetDatabases](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_databases)
  + [GetJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_job)
  + [GetJobRun](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_job_run)
  + [GetJobRuns](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_job_runs)
  + [GetTables](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_tables)
  + [ListJobs](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.list_jobs)
  + [StartCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.start_crawler)
  + [StartJobRun](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.start_job_run)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let create_crawler = glue
            .create_crawler()
            .name(self.crawler())
            .database_name(self.database())
            .role(self.iam_role.expose_secret())
            .targets(
                CrawlerTargets::builder()
                    .s3_targets(S3Target::builder().path(CRAWLER_TARGET).build())
                    .build(),
            )
            .send()
            .await;

        match create_crawler {
            Err(err) => {
                let glue_err: aws_sdk_glue::Error = err.into();
                match glue_err {
                    aws_sdk_glue::Error::AlreadyExistsException(_) => {
                        info!("Using existing crawler");
                        Ok(())
                    }
                    _ => Err(GlueMvpError::GlueSdk(glue_err)),
                }
            }
            Ok(_) => Ok(()),
        }?;
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.create_crawler)*referensi AWS SDK for Rust API*. 

### `CreateJob`
<a name="glue_CreateJob_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let create_job = glue
            .create_job()
            .name(self.job())
            .role(self.iam_role.expose_secret())
            .command(
                JobCommand::builder()
                    .name("glueetl")
                    .python_version("3")
                    .script_location(format!("s3://{}/job.py", self.bucket()))
                    .build(),
            )
            .glue_version("3.0")
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;

        let job_name = create_job.name().ok_or_else(|| {
            GlueMvpError::Unknown("Did not get job name after creating job".into())
        })?;
```
+  Untuk detail API, lihat [CreateJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.create_job)*referensi AWS SDK for Rust API*. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        glue.delete_crawler()
            .name(self.crawler())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_crawler)*referensi AWS SDK for Rust API*. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        glue.delete_database()
            .name(self.database())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_database)*referensi AWS SDK for Rust API*. 

### `DeleteJob`
<a name="glue_DeleteJob_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        glue.delete_job()
            .job_name(self.job())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;
```
+  Untuk detail API, lihat [DeleteJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_job)*referensi AWS SDK for Rust API*. 

### `DeleteTable`
<a name="glue_DeleteTable_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        for t in &self.tables {
            glue.delete_table()
                .name(t.name())
                .database_name(self.database())
                .send()
                .await
                .map_err(GlueMvpError::from_glue_sdk)?;
        }
```
+  Untuk detail API, lihat [DeleteTable](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_table)*referensi AWS SDK for Rust API*. 

### `GetCrawler`
<a name="glue_GetCrawler_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
            let tmp_crawler = glue
                .get_crawler()
                .name(self.crawler())
                .send()
                .await
                .map_err(GlueMvpError::from_glue_sdk)?;
```
+  Untuk detail API, lihat [GetCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_crawler)*referensi AWS SDK for Rust API*. 

### `GetDatabase`
<a name="glue_GetDatabase_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let database = glue
            .get_database()
            .name(self.database())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?
            .to_owned();
        let database = database
            .database()
            .ok_or_else(|| GlueMvpError::Unknown("Could not find database".into()))?;
```
+  Untuk detail API, lihat [GetDatabase](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_database)*referensi AWS SDK for Rust API*. 

### `GetJobRun`
<a name="glue_GetJobRun_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let get_job_run = || async {
            Ok::<JobRun, GlueMvpError>(
                glue.get_job_run()
                    .job_name(self.job())
                    .run_id(job_run_id.to_string())
                    .send()
                    .await
                    .map_err(GlueMvpError::from_glue_sdk)?
                    .job_run()
                    .ok_or_else(|| GlueMvpError::Unknown("Failed to get job_run".into()))?
                    .to_owned(),
            )
        };

        let mut job_run = get_job_run().await?;
        let mut state = job_run.job_run_state().unwrap_or(&unknown_state).to_owned();

        while matches!(
            state,
            JobRunState::Starting | JobRunState::Stopping | JobRunState::Running
        ) {
            info!(?state, "Waiting for job to finish");
            tokio::time::sleep(self.wait_delay).await;

            job_run = get_job_run().await?;
            state = job_run.job_run_state().unwrap_or(&unknown_state).to_owned();
        }
```
+  Untuk detail API, lihat [GetJobRun](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_job_run)*referensi AWS SDK for Rust API*. 

### `GetTables`
<a name="glue_GetTables_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let tables = glue
            .get_tables()
            .database_name(self.database())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;

        let tables = tables.table_list();
```
+  Untuk detail API, lihat [GetTables](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_tables)*referensi AWS SDK for Rust API*. 

### `ListJobs`
<a name="glue_ListJobs_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let mut list_jobs = glue.list_jobs().into_paginator().send();
        while let Some(list_jobs_output) = list_jobs.next().await {
            match list_jobs_output {
                Ok(list_jobs) => {
                    let names = list_jobs.job_names();
                    info!(?names, "Found these jobs")
                }
                Err(err) => return Err(GlueMvpError::from_glue_sdk(err)),
            }
        }
```
+  Untuk detail API, lihat [ListJobs](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.list_jobs)*referensi AWS SDK for Rust API*. 

### `StartCrawler`
<a name="glue_StartCrawler_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let start_crawler = glue.start_crawler().name(self.crawler()).send().await;

        match start_crawler {
            Ok(_) => Ok(()),
            Err(err) => {
                let glue_err: aws_sdk_glue::Error = err.into();
                match glue_err {
                    aws_sdk_glue::Error::CrawlerRunningException(_) => Ok(()),
                    _ => Err(GlueMvpError::GlueSdk(glue_err)),
                }
            }
        }?;
```
+  Untuk detail API, lihat [StartCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.start_crawler)*referensi AWS SDK for Rust API*. 

### `StartJobRun`
<a name="glue_StartJobRun_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples). 

```
        let job_run_output = glue
            .start_job_run()
            .job_name(self.job())
            .arguments("--input_database", self.database())
            .arguments(
                "--input_table",
                self.tables
                    .first()
                    .ok_or_else(|| GlueMvpError::Unknown("Missing crawler table".into()))?
                    .name(),
            )
            .arguments("--output_bucket_url", self.bucket())
            .send()
            .await
            .map_err(GlueMvpError::from_glue_sdk)?;

        let job = job_run_output
            .job_run_id()
            .ok_or_else(|| GlueMvpError::Unknown("Missing run id from just started job".into()))?
            .to_string();
```
+  Untuk detail API, lihat [StartJobRun](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.start_job_run)*referensi AWS SDK for Rust API*. 

# Contoh IAM menggunakan SDK untuk Rust
<a name="rust_1_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan IAM.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo IAM
<a name="iam_Hello_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana memulai menggunakan IAM.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 
Dari src/bin/hello .rs.  

```
use aws_sdk_iam::error::SdkError;
use aws_sdk_iam::operation::list_policies::ListPoliciesError;
use clap::Parser;

const PATH_PREFIX_HELP: &str = "The path prefix for filtering the results.";

#[derive(Debug, clap::Parser)]
#[command(about)]
struct HelloScenarioArgs {
    #[arg(long, default_value="/", help=PATH_PREFIX_HELP)]
    pub path_prefix: String,
}

#[tokio::main]
async fn main() -> Result<(), SdkError<ListPoliciesError>> {
    let sdk_config = aws_config::load_from_env().await;
    let client = aws_sdk_iam::Client::new(&sdk_config);

    let args = HelloScenarioArgs::parse();

    iam_service::list_policies(client, args.path_prefix).await?;

    Ok(())
}
```
Dari src/ .rsiam-service-lib.  

```
pub async fn list_policies(
    client: iamClient,
    path_prefix: String,
) -> Result<Vec<String>, SdkError<ListPoliciesError>> {
    let list_policies = client
        .list_policies()
        .path_prefix(path_prefix)
        .scope(PolicyScopeType::Local)
        .into_paginator()
        .items()
        .send()
        .try_collect()
        .await?;

    let policy_names = list_policies
        .into_iter()
        .map(|p| {
            let name = p
                .policy_name
                .unwrap_or_else(|| "Missing Policy Name".to_string());
            println!("{}", name);
            name
        })
        .collect();

    Ok(policy_names)
}
```
+  Untuk detail API, lihat [ListPolicies](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_policies)*referensi AWS SDK for Rust API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="iam_Scenario_CreateUserAssumeRole_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat pengguna dan mengambil peran. 

**Awas**  
Untuk menghindari risiko keamanan, jangan gunakan pengguna IAM untuk otentikasi saat mengembangkan perangkat lunak yang dibuat khusus atau bekerja dengan data nyata. Sebaliknya, gunakan federasi dengan penyedia identitas seperti [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Buat pengguna tanpa izin.
+ Buat peran yang memberikan izin untuk mencantumkan bucket Amazon S3 untuk akun tersebut.
+ Tambahkan kebijakan agar pengguna dapat mengambil peran tersebut.
+ Asumsikan peran dan daftar bucket S3 menggunakan kredenal sementara, lalu bersihkan sumber daya.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
use aws_config::meta::region::RegionProviderChain;
use aws_sdk_iam::Error as iamError;
use aws_sdk_iam::{config::Credentials as iamCredentials, config::Region, Client as iamClient};
use aws_sdk_s3::Client as s3Client;
use aws_sdk_sts::Client as stsClient;
use tokio::time::{sleep, Duration};
use uuid::Uuid;

#[tokio::main]
async fn main() -> Result<(), iamError> {
    let (client, uuid, list_all_buckets_policy_document, inline_policy_document) =
        initialize_variables().await;

    if let Err(e) = run_iam_operations(
        client,
        uuid,
        list_all_buckets_policy_document,
        inline_policy_document,
    )
    .await
    {
        println!("{:?}", e);
    };

    Ok(())
}

async fn initialize_variables() -> (iamClient, String, String, String) {
    let region_provider = RegionProviderChain::first_try(Region::new("us-west-2"));

    let shared_config = aws_config::from_env().region(region_provider).load().await;
    let client = iamClient::new(&shared_config);
    let uuid = Uuid::new_v4().to_string();

    let list_all_buckets_policy_document = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Action\": \"s3:ListAllMyBuckets\",
                    \"Resource\": \"arn:aws:s3:::*\"}]
    }"
    .to_string();
    let inline_policy_document = "{
                \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Action\": \"sts:AssumeRole\",
                    \"Resource\": \"{}\"}]
    }"
    .to_string();

    (
        client,
        uuid,
        list_all_buckets_policy_document,
        inline_policy_document,
    )
}

async fn run_iam_operations(
    client: iamClient,
    uuid: String,
    list_all_buckets_policy_document: String,
    inline_policy_document: String,
) -> Result<(), iamError> {
    let user = iam_service::create_user(&client, &format!("{}{}", "iam_demo_user_", uuid)).await?;
    println!("Created the user with the name: {}", user.user_name());
    let key = iam_service::create_access_key(&client, user.user_name()).await?;

    let assume_role_policy_document = "{
        \"Version\": \"2012-10-17\",
                \"Statement\": [{
                    \"Effect\": \"Allow\",
                    \"Principal\": {\"AWS\": \"{}\"},
                    \"Action\": \"sts:AssumeRole\"
                }]
            }"
    .to_string()
    .replace("{}", user.arn());

    let assume_role_role = iam_service::create_role(
        &client,
        &format!("{}{}", "iam_demo_role_", uuid),
        &assume_role_policy_document,
    )
    .await?;
    println!("Created the role with the ARN: {}", assume_role_role.arn());

    let list_all_buckets_policy = iam_service::create_policy(
        &client,
        &format!("{}{}", "iam_demo_policy_", uuid),
        &list_all_buckets_policy_document,
    )
    .await?;
    println!(
        "Created policy: {}",
        list_all_buckets_policy.policy_name.as_ref().unwrap()
    );

    let attach_role_policy_result =
        iam_service::attach_role_policy(&client, &assume_role_role, &list_all_buckets_policy)
            .await?;
    println!(
        "Attached the policy to the role: {:?}",
        attach_role_policy_result
    );

    let inline_policy_name = format!("{}{}", "iam_demo_inline_policy_", uuid);
    let inline_policy_document = inline_policy_document.replace("{}", assume_role_role.arn());
    iam_service::create_user_policy(&client, &user, &inline_policy_name, &inline_policy_document)
        .await?;
    println!("Created inline policy.");

    //First, fail to list the buckets with the user.
    let creds = iamCredentials::from_keys(key.access_key_id(), key.secret_access_key(), None);
    let fail_config = aws_config::from_env()
        .credentials_provider(creds.clone())
        .load()
        .await;
    println!("Fail config: {:?}", fail_config);
    let fail_client: s3Client = s3Client::new(&fail_config);
    match fail_client.list_buckets().send().await {
        Ok(e) => {
            println!("This should not run. {:?}", e);
        }
        Err(e) => {
            println!("Successfully failed with error: {:?}", e)
        }
    }

    let sts_config = aws_config::from_env()
        .credentials_provider(creds.clone())
        .load()
        .await;
    let sts_client: stsClient = stsClient::new(&sts_config);
    sleep(Duration::from_secs(10)).await;
    let assumed_role = sts_client
        .assume_role()
        .role_arn(assume_role_role.arn())
        .role_session_name(format!("iam_demo_assumerole_session_{uuid}"))
        .send()
        .await;
    println!("Assumed role: {:?}", assumed_role);
    sleep(Duration::from_secs(10)).await;

    let assumed_credentials = iamCredentials::from_keys(
        assumed_role
            .as_ref()
            .unwrap()
            .credentials
            .as_ref()
            .unwrap()
            .access_key_id(),
        assumed_role
            .as_ref()
            .unwrap()
            .credentials
            .as_ref()
            .unwrap()
            .secret_access_key(),
        Some(
            assumed_role
                .as_ref()
                .unwrap()
                .credentials
                .as_ref()
                .unwrap()
                .session_token
                .clone(),
        ),
    );

    let succeed_config = aws_config::from_env()
        .credentials_provider(assumed_credentials)
        .load()
        .await;
    println!("succeed config: {:?}", succeed_config);
    let succeed_client: s3Client = s3Client::new(&succeed_config);
    sleep(Duration::from_secs(10)).await;
    match succeed_client.list_buckets().send().await {
        Ok(_) => {
            println!("This should now run successfully.")
        }
        Err(e) => {
            println!("This should not run. {:?}", e);
            panic!()
        }
    }

    //Clean up.
    iam_service::detach_role_policy(
        &client,
        assume_role_role.role_name(),
        list_all_buckets_policy.arn().unwrap_or_default(),
    )
    .await?;
    iam_service::delete_policy(&client, list_all_buckets_policy).await?;
    iam_service::delete_role(&client, &assume_role_role).await?;
    println!("Deleted role {}", assume_role_role.role_name());
    iam_service::delete_access_key(&client, &user, &key).await?;
    println!("Deleted key for {}", key.user_name());
    iam_service::delete_user_policy(&client, &user, &inline_policy_name).await?;
    println!("Deleted inline user policy: {}", inline_policy_name);
    iam_service::delete_user(&client, &user).await?;
    println!("Deleted user {}", user.user_name());

    Ok(())
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Rust*.
  + [AttachRolePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.attach_role_policy)
  + [CreateAccessKey](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_access_key)
  + [CreatePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_policy)
  + [CreateRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_role)
  + [CreateUser](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_user)
  + [DeleteAccessKey](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_access_key)
  + [DeletePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_policy)
  + [DeleteRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_role)
  + [DeleteUser](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_user)
  + [DeleteUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_user_policy)
  + [DetachRolePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.detach_role_policy)
  + [PutUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.put_user_policy)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn attach_role_policy(
    client: &iamClient,
    role: &Role,
    policy: &Policy,
) -> Result<AttachRolePolicyOutput, SdkError<AttachRolePolicyError>> {
    client
        .attach_role_policy()
        .role_name(role.role_name())
        .policy_arn(policy.arn().unwrap_or_default())
        .send()
        .await
}
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.attach_role_policy)*referensi AWS SDK for Rust API*. 

### `AttachUserPolicy`
<a name="iam_AttachUserPolicy_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachUserPolicy`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn attach_user_policy(
    client: &iamClient,
    user_name: &str,
    policy_arn: &str,
) -> Result<(), iamError> {
    client
        .attach_user_policy()
        .user_name(user_name)
        .policy_arn(policy_arn)
        .send()
        .await?;

    Ok(())
}
```
+  Untuk detail API, lihat [AttachUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.attach_user_policy)*referensi AWS SDK for Rust API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn create_access_key(client: &iamClient, user_name: &str) -> Result<AccessKey, iamError> {
    let mut tries: i32 = 0;
    let max_tries: i32 = 10;

    let response: Result<CreateAccessKeyOutput, SdkError<CreateAccessKeyError>> = loop {
        match client.create_access_key().user_name(user_name).send().await {
            Ok(inner_response) => {
                break Ok(inner_response);
            }
            Err(e) => {
                tries += 1;
                if tries > max_tries {
                    break Err(e);
                }
                sleep(Duration::from_secs(2)).await;
            }
        }
    };

    Ok(response.unwrap().access_key.unwrap())
}
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_access_key)*referensi AWS SDK for Rust API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn create_policy(
    client: &iamClient,
    policy_name: &str,
    policy_document: &str,
) -> Result<Policy, iamError> {
    let policy = client
        .create_policy()
        .policy_name(policy_name)
        .policy_document(policy_document)
        .send()
        .await?;
    Ok(policy.policy.unwrap())
}
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_policy)*referensi AWS SDK for Rust API*. 

### `CreateRole`
<a name="iam_CreateRole_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn create_role(
    client: &iamClient,
    role_name: &str,
    role_policy_document: &str,
) -> Result<Role, iamError> {
    let response: CreateRoleOutput = loop {
        if let Ok(response) = client
            .create_role()
            .role_name(role_name)
            .assume_role_policy_document(role_policy_document)
            .send()
            .await
        {
            break response;
        }
    };

    Ok(response.role.unwrap())
}
```
+  Untuk detail API, lihat [CreateRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_role)*referensi AWS SDK for Rust API*. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn create_service_linked_role(
    client: &iamClient,
    aws_service_name: String,
    custom_suffix: Option<String>,
    description: Option<String>,
) -> Result<CreateServiceLinkedRoleOutput, SdkError<CreateServiceLinkedRoleError>> {
    let response = client
        .create_service_linked_role()
        .aws_service_name(aws_service_name)
        .set_custom_suffix(custom_suffix)
        .set_description(description)
        .send()
        .await?;

    Ok(response)
}
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_service_linked_role)*referensi AWS SDK for Rust API*. 

### `CreateUser`
<a name="iam_CreateUser_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn create_user(client: &iamClient, user_name: &str) -> Result<User, iamError> {
    let response = client.create_user().user_name(user_name).send().await?;

    Ok(response.user.unwrap())
}
```
+  Untuk detail API, lihat [CreateUser](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_user)*referensi AWS SDK for Rust API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn delete_access_key(
    client: &iamClient,
    user: &User,
    key: &AccessKey,
) -> Result<(), iamError> {
    loop {
        match client
            .delete_access_key()
            .user_name(user.user_name())
            .access_key_id(key.access_key_id())
            .send()
            .await
        {
            Ok(_) => {
                break;
            }
            Err(e) => {
                println!("Can't delete the access key: {:?}", e);
                sleep(Duration::from_secs(2)).await;
            }
        }
    }
    Ok(())
}
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_access_key)*referensi AWS SDK for Rust API*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn delete_policy(client: &iamClient, policy: Policy) -> Result<(), iamError> {
    client
        .delete_policy()
        .policy_arn(policy.arn.unwrap())
        .send()
        .await?;
    Ok(())
}
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_policy)*referensi AWS SDK for Rust API*. 

### `DeleteRole`
<a name="iam_DeleteRole_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn delete_role(client: &iamClient, role: &Role) -> Result<(), iamError> {
    let role = role.clone();
    while client
        .delete_role()
        .role_name(role.role_name())
        .send()
        .await
        .is_err()
    {
        sleep(Duration::from_secs(2)).await;
    }
    Ok(())
}
```
+  Untuk detail API, lihat [DeleteRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_role)*referensi AWS SDK for Rust API*. 

### `DeleteServiceLinkedRole`
<a name="iam_DeleteServiceLinkedRole_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteServiceLinkedRole`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn delete_service_linked_role(
    client: &iamClient,
    role_name: &str,
) -> Result<(), iamError> {
    client
        .delete_service_linked_role()
        .role_name(role_name)
        .send()
        .await?;

    Ok(())
}
```
+  Untuk detail API, lihat [DeleteServiceLinkedRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_service_linked_role)*referensi AWS SDK for Rust API*. 

### `DeleteUser`
<a name="iam_DeleteUser_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn delete_user(client: &iamClient, user: &User) -> Result<(), SdkError<DeleteUserError>> {
    let user = user.clone();
    let mut tries: i32 = 0;
    let max_tries: i32 = 10;

    let response: Result<(), SdkError<DeleteUserError>> = loop {
        match client
            .delete_user()
            .user_name(user.user_name())
            .send()
            .await
        {
            Ok(_) => {
                break Ok(());
            }
            Err(e) => {
                tries += 1;
                if tries > max_tries {
                    break Err(e);
                }
                sleep(Duration::from_secs(2)).await;
            }
        }
    };

    response
}
```
+  Untuk detail API, lihat [DeleteUser](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_user)*referensi AWS SDK for Rust API*. 

### `DeleteUserPolicy`
<a name="iam_DeleteUserPolicy_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUserPolicy`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn delete_user_policy(
    client: &iamClient,
    user: &User,
    policy_name: &str,
) -> Result<(), SdkError<DeleteUserPolicyError>> {
    client
        .delete_user_policy()
        .user_name(user.user_name())
        .policy_name(policy_name)
        .send()
        .await?;

    Ok(())
}
```
+  Untuk detail API, lihat [DeleteUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_user_policy)*referensi AWS SDK for Rust API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn detach_role_policy(
    client: &iamClient,
    role_name: &str,
    policy_arn: &str,
) -> Result<(), iamError> {
    client
        .detach_role_policy()
        .role_name(role_name)
        .policy_arn(policy_arn)
        .send()
        .await?;

    Ok(())
}
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.detach_role_policy)*referensi AWS SDK for Rust API*. 

### `DetachUserPolicy`
<a name="iam_DetachUserPolicy_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachUserPolicy`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn detach_user_policy(
    client: &iamClient,
    user_name: &str,
    policy_arn: &str,
) -> Result<(), iamError> {
    client
        .detach_user_policy()
        .user_name(user_name)
        .policy_arn(policy_arn)
        .send()
        .await?;

    Ok(())
}
```
+  Untuk detail API, lihat [DetachUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.detach_user_policy)*referensi AWS SDK for Rust API*. 

### `GetAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountPasswordPolicy`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn get_account_password_policy(
    client: &iamClient,
) -> Result<GetAccountPasswordPolicyOutput, SdkError<GetAccountPasswordPolicyError>> {
    let response = client.get_account_password_policy().send().await?;

    Ok(response)
}
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.get_account_password_policy)*referensi AWS SDK for Rust API*. 

### `GetRole`
<a name="iam_GetRole_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn get_role(
    client: &iamClient,
    role_name: String,
) -> Result<GetRoleOutput, SdkError<GetRoleError>> {
    let response = client.get_role().role_name(role_name).send().await?;
    Ok(response)
}
```
+  Untuk detail API, lihat [GetRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.get_role)*referensi AWS SDK for Rust API*. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn list_attached_role_policies(
    client: &iamClient,
    role_name: String,
    path_prefix: Option<String>,
    marker: Option<String>,
    max_items: Option<i32>,
) -> Result<ListAttachedRolePoliciesOutput, SdkError<ListAttachedRolePoliciesError>> {
    let response = client
        .list_attached_role_policies()
        .role_name(role_name)
        .set_path_prefix(path_prefix)
        .set_marker(marker)
        .set_max_items(max_items)
        .send()
        .await?;

    Ok(response)
}
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_attached_role_policies)*referensi AWS SDK for Rust API*. 

### `ListGroups`
<a name="iam_ListGroups_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn list_groups(
    client: &iamClient,
    path_prefix: Option<String>,
    marker: Option<String>,
    max_items: Option<i32>,
) -> Result<ListGroupsOutput, SdkError<ListGroupsError>> {
    let response = client
        .list_groups()
        .set_path_prefix(path_prefix)
        .set_marker(marker)
        .set_max_items(max_items)
        .send()
        .await?;

    Ok(response)
}
```
+  Untuk detail API, lihat [ListGroups](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_groups)*referensi AWS SDK for Rust API*. 

### `ListPolicies`
<a name="iam_ListPolicies_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn list_policies(
    client: iamClient,
    path_prefix: String,
) -> Result<Vec<String>, SdkError<ListPoliciesError>> {
    let list_policies = client
        .list_policies()
        .path_prefix(path_prefix)
        .scope(PolicyScopeType::Local)
        .into_paginator()
        .items()
        .send()
        .try_collect()
        .await?;

    let policy_names = list_policies
        .into_iter()
        .map(|p| {
            let name = p
                .policy_name
                .unwrap_or_else(|| "Missing Policy Name".to_string());
            println!("{}", name);
            name
        })
        .collect();

    Ok(policy_names)
}
```
+  Untuk detail API, lihat [ListPolicies](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_policies)*referensi AWS SDK for Rust API*. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn list_role_policies(
    client: &iamClient,
    role_name: &str,
    marker: Option<String>,
    max_items: Option<i32>,
) -> Result<ListRolePoliciesOutput, SdkError<ListRolePoliciesError>> {
    let response = client
        .list_role_policies()
        .role_name(role_name)
        .set_marker(marker)
        .set_max_items(max_items)
        .send()
        .await?;

    Ok(response)
}
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_role_policies)*referensi AWS SDK for Rust API*. 

### `ListRoles`
<a name="iam_ListRoles_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn list_roles(
    client: &iamClient,
    path_prefix: Option<String>,
    marker: Option<String>,
    max_items: Option<i32>,
) -> Result<ListRolesOutput, SdkError<ListRolesError>> {
    let response = client
        .list_roles()
        .set_path_prefix(path_prefix)
        .set_marker(marker)
        .set_max_items(max_items)
        .send()
        .await?;
    Ok(response)
}
```
+  Untuk detail API, lihat [ListRoles](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_roles)*referensi AWS SDK for Rust API*. 

### `ListSAMLProviders`
<a name="iam_ListSAMLProviders_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSAMLProviders`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn list_saml_providers(
    client: &Client,
) -> Result<ListSamlProvidersOutput, SdkError<ListSAMLProvidersError>> {
    let response = client.list_saml_providers().send().await?;

    Ok(response)
}
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_saml_providers) di *AWS SDK untuk referensi API Rust*. 

### `ListUsers`
<a name="iam_ListUsers_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples). 

```
pub async fn list_users(
    client: &iamClient,
    path_prefix: Option<String>,
    marker: Option<String>,
    max_items: Option<i32>,
) -> Result<ListUsersOutput, SdkError<ListUsersError>> {
    let response = client
        .list_users()
        .set_path_prefix(path_prefix)
        .set_marker(marker)
        .set_max_items(max_items)
        .send()
        .await?;
    Ok(response)
}
```
+  Untuk detail API, lihat [ListUsers](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_users)*referensi AWS SDK for Rust API*. 

# AWS IoT contoh menggunakan SDK untuk Rust
<a name="rust_1_iot_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with AWS IoT.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DescribeEndpoint`
<a name="iot_DescribeEndpoint_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeEndpoint`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iot#code-examples). 

```
async fn show_address(client: &Client, endpoint_type: &str) -> Result<(), Error> {
    let resp = client
        .describe_endpoint()
        .endpoint_type(endpoint_type)
        .send()
        .await?;

    println!("Endpoint address: {}", resp.endpoint_address.unwrap());

    println!();

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeEndpoint](https://docs.rs/aws-sdk-iot/latest/aws_sdk_iot/client/struct.Client.html#method.describe_endpoint)*referensi AWS SDK for Rust API*. 

### `ListThings`
<a name="iot_ListThings_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListThings`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iot#code-examples). 

```
async fn show_things(client: &Client) -> Result<(), Error> {
    let resp = client.list_things().send().await?;

    println!("Things:");

    for thing in resp.things.unwrap() {
        println!(
            "  Name:  {}",
            thing.thing_name.as_deref().unwrap_or_default()
        );
        println!(
            "  Type:  {}",
            thing.thing_type_name.as_deref().unwrap_or_default()
        );
        println!(
            "  ARN:   {}",
            thing.thing_arn.as_deref().unwrap_or_default()
        );
        println!();
    }

    println!();

    Ok(())
}
```
+  Untuk detail API, lihat [ListThings](https://docs.rs/aws-sdk-iot/latest/aws_sdk_iot/client/struct.Client.html#method.list_things)*referensi AWS SDK for Rust API*. 

# Contoh Kinesis menggunakan SDK untuk Rust
<a name="rust_1_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Rust dengan Kinesis.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CreateStream`
<a name="kinesis_CreateStream_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStream`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kinesis#code-examples). 

```
async fn make_stream(client: &Client, stream: &str) -> Result<(), Error> {
    client
        .create_stream()
        .stream_name(stream)
        .shard_count(4)
        .send()
        .await?;

    println!("Created stream");

    Ok(())
}
```
+  Untuk detail API, lihat [CreateStream](https://docs.rs/aws-sdk-kinesis/latest/aws_sdk_kinesis/client/struct.Client.html#method.create_stream)*referensi AWS SDK for Rust API*. 

### `DeleteStream`
<a name="kinesis_DeleteStream_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStream`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kinesis#code-examples). 

```
async fn remove_stream(client: &Client, stream: &str) -> Result<(), Error> {
    client.delete_stream().stream_name(stream).send().await?;

    println!("Deleted stream.");

    Ok(())
}
```
+  Untuk detail API, lihat [DeleteStream](https://docs.rs/aws-sdk-kinesis/latest/aws_sdk_kinesis/client/struct.Client.html#method.delete_stream)*referensi AWS SDK for Rust API*. 

### `DescribeStream`
<a name="kinesis_DescribeStream_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStream`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kinesis#code-examples). 

```
async fn show_stream(client: &Client, stream: &str) -> Result<(), Error> {
    let resp = client.describe_stream().stream_name(stream).send().await?;

    let desc = resp.stream_description.unwrap();

    println!("Stream description:");
    println!("  Name:              {}:", desc.stream_name());
    println!("  Status:            {:?}", desc.stream_status());
    println!("  Open shards:       {:?}", desc.shards.len());
    println!("  Retention (hours): {}", desc.retention_period_hours());
    println!("  Encryption:        {:?}", desc.encryption_type.unwrap());

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeStream](https://docs.rs/aws-sdk-kinesis/latest/aws_sdk_kinesis/client/struct.Client.html#method.describe_stream)*referensi AWS SDK for Rust API*. 

### `ListStreams`
<a name="kinesis_ListStreams_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStreams`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kinesis#code-examples). 

```
async fn show_streams(client: &Client) -> Result<(), Error> {
    let resp = client.list_streams().send().await?;

    println!("Stream names:");

    let streams = resp.stream_names;
    for stream in &streams {
        println!("  {}", stream);
    }

    println!("Found {} stream(s)", streams.len());

    Ok(())
}
```
+  Untuk detail API, lihat [ListStreams](https://docs.rs/aws-sdk-kinesis/latest/aws_sdk_kinesis/client/struct.Client.html#method.list_streams)*referensi AWS SDK for Rust API*. 

### `PutRecord`
<a name="kinesis_PutRecord_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecord`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kinesis#code-examples). 

```
async fn add_record(client: &Client, stream: &str, key: &str, data: &str) -> Result<(), Error> {
    let blob = Blob::new(data);

    client
        .put_record()
        .data(blob)
        .partition_key(key)
        .stream_name(stream)
        .send()
        .await?;

    println!("Put data into stream.");

    Ok(())
}
```
+  Untuk detail API, lihat [PutRecord](https://docs.rs/aws-sdk-kinesis/latest/aws_sdk_kinesis/client/struct.Client.html#method.put_record)*referensi AWS SDK for Rust API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::event::kinesis::KinesisEvent;
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

async fn function_handler(event: LambdaEvent<KinesisEvent>) -> Result<(), Error> {
    if event.payload.records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(());
    }

    event.payload.records.iter().for_each(|record| {
        tracing::info!("EventId: {}",record.event_id.as_deref().unwrap_or_default());

        let record_data = std::str::from_utf8(&record.kinesis.data);

        match record_data {
            Ok(data) => {
                // log the record data
                tracing::info!("Data: {}", data);
            }
            Err(e) => {
                tracing::error!("Error: {}", e);
            }
        }
    });

    tracing::info!(
        "Successfully processed {} records",
        event.payload.records.len()
    );

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        // disable printing the name of the module in every log line.
        .with_target(false)
        // disabling time is handy because CloudWatch will add the ingestion time.
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::{
    event::kinesis::KinesisEvent,
    kinesis::KinesisEventRecord,
    streams::{KinesisBatchItemFailure, KinesisEventResponse},
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

async fn function_handler(event: LambdaEvent<KinesisEvent>) -> Result<KinesisEventResponse, Error> {
    let mut response = KinesisEventResponse {
        batch_item_failures: vec![],
    };

    if event.payload.records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(response);
    }

    for record in &event.payload.records {
        tracing::info!(
            "EventId: {}",
            record.event_id.as_deref().unwrap_or_default()
        );

        let record_processing_result = process_record(record);

        if record_processing_result.is_err() {
            response.batch_item_failures.push(KinesisBatchItemFailure {
                item_identifier: record.kinesis.sequence_number.clone(),
            });
            /* Since we are working with streams, we can return the failed item immediately.
            Lambda will immediately begin to retry processing from this failed item onwards. */
            return Ok(response);
        }
    }

    tracing::info!(
        "Successfully processed {} records",
        event.payload.records.len()
    );

    Ok(response)
}

fn process_record(record: &KinesisEventRecord) -> Result<(), Error> {
    let record_data = std::str::from_utf8(record.kinesis.data.as_slice());

    if let Some(err) = record_data.err() {
        tracing::error!("Error: {}", err);
        return Err(Error::from(err));
    }

    let record_data = record_data.unwrap_or_default();

    // do something interesting with the data
    tracing::info!("Data: {}", record_data);

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        // disable printing the name of the module in every log line.
        .with_target(false)
        // disabling time is handy because CloudWatch will add the ingestion time.
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

# AWS KMS contoh menggunakan SDK untuk Rust
<a name="rust_1_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with AWS KMS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateKey`
<a name="kms_CreateKey_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kms#code-examples). 

```
async fn make_key(client: &Client) -> Result<(), Error> {
    let resp = client.create_key().send().await?;

    let id = resp.key_metadata.as_ref().unwrap().key_id();

    println!("Key: {}", id);

    Ok(())
}
```
+  Untuk detail API, lihat [CreateKey](https://docs.rs/aws-sdk-kms/latest/aws_sdk_kms/client/struct.Client.html#method.create_key)*referensi AWS SDK for Rust API*. 

### `Decrypt`
<a name="kms_Decrypt_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Decrypt`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kms#code-examples). 

```
async fn decrypt_key(client: &Client, key: &str, filename: &str) -> Result<(), Error> {
    // Open input text file and get contents as a string
    // input is a base-64 encoded string, so decode it:
    let data = fs::read_to_string(filename)
        .map(|input| {
            base64::decode(input).expect("Input file does not contain valid base 64 characters.")
        })
        .map(Blob::new);

    let resp = client
        .decrypt()
        .key_id(key)
        .ciphertext_blob(data.unwrap())
        .send()
        .await?;

    let inner = resp.plaintext.unwrap();
    let bytes = inner.as_ref();

    let s = String::from_utf8(bytes.to_vec()).expect("Could not convert to UTF-8");

    println!();
    println!("Decoded string:");
    println!("{}", s);

    Ok(())
}
```
+  Untuk detail API, lihat [Mendekripsi](https://docs.rs/aws-sdk-kms/latest/aws_sdk_kms/client/struct.Client.html#method.decrypt) di *AWS SDK untuk referensi API Rust*. 

### `Encrypt`
<a name="kms_Encrypt_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Encrypt`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kms#code-examples). 

```
async fn encrypt_string(
    verbose: bool,
    client: &Client,
    text: &str,
    key: &str,
    out_file: &str,
) -> Result<(), Error> {
    let blob = Blob::new(text.as_bytes());

    let resp = client.encrypt().key_id(key).plaintext(blob).send().await?;

    // Did we get an encrypted blob?
    let blob = resp.ciphertext_blob.expect("Could not get encrypted text");
    let bytes = blob.as_ref();

    let s = base64::encode(bytes);

    let mut ofile = File::create(out_file).expect("unable to create file");
    ofile.write_all(s.as_bytes()).expect("unable to write");

    if verbose {
        println!("Wrote the following to {:?}", out_file);
        println!("{}", s);
    }

    Ok(())
}
```
+  Untuk detail API, lihat [Enkripsi](https://docs.rs/aws-sdk-kms/latest/aws_sdk_kms/client/struct.Client.html#method.encrypt) di *AWS SDK untuk referensi API Rust*. 

### `GenerateDataKey`
<a name="kms_GenerateDataKey_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GenerateDataKey`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kms#code-examples). 

```
async fn make_key(client: &Client, key: &str) -> Result<(), Error> {
    let resp = client
        .generate_data_key()
        .key_id(key)
        .key_spec(DataKeySpec::Aes256)
        .send()
        .await?;

    // Did we get an encrypted blob?
    let blob = resp.ciphertext_blob.expect("Could not get encrypted text");
    let bytes = blob.as_ref();

    let s = base64::encode(bytes);

    println!();
    println!("Data key:");
    println!("{}", s);

    Ok(())
}
```
+  Untuk detail API, lihat [GenerateDataKey](https://docs.rs/aws-sdk-kms/latest/aws_sdk_kms/client/struct.Client.html#method.generate_data_key)*referensi AWS SDK for Rust API*. 

### `GenerateDataKeyWithoutPlaintext`
<a name="kms_GenerateDataKeyWithoutPlaintext_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GenerateDataKeyWithoutPlaintext`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kms#code-examples). 

```
async fn make_key(client: &Client, key: &str) -> Result<(), Error> {
    let resp = client
        .generate_data_key_without_plaintext()
        .key_id(key)
        .key_spec(DataKeySpec::Aes256)
        .send()
        .await?;

    // Did we get an encrypted blob?
    let blob = resp.ciphertext_blob.expect("Could not get encrypted text");
    let bytes = blob.as_ref();

    let s = base64::encode(bytes);

    println!();
    println!("Data key:");
    println!("{}", s);

    Ok(())
}
```
+  Untuk detail API, lihat [GenerateDataKeyWithoutPlaintext](https://docs.rs/aws-sdk-kms/latest/aws_sdk_kms/client/struct.Client.html#method.generate_data_key_without_plaintext)*referensi AWS SDK for Rust API*. 

### `GenerateRandom`
<a name="kms_GenerateRandom_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GenerateRandom`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kms#code-examples). 

```
async fn make_string(client: &Client, length: i32) -> Result<(), Error> {
    let resp = client
        .generate_random()
        .number_of_bytes(length)
        .send()
        .await?;

    // Did we get an encrypted blob?
    let blob = resp.plaintext.expect("Could not get encrypted text");
    let bytes = blob.as_ref();

    let s = base64::encode(bytes);

    println!();
    println!("Data key:");
    println!("{}", s);

    Ok(())
}
```
+  Untuk detail API, lihat [GenerateRandom](https://docs.rs/aws-sdk-kms/latest/aws_sdk_kms/client/struct.Client.html#method.generate_random)*referensi AWS SDK for Rust API*. 

### `ListKeys`
<a name="kms_ListKeys_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeys`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kms#code-examples). 

```
async fn show_keys(client: &Client) -> Result<(), Error> {
    let resp = client.list_keys().send().await?;

    let keys = resp.keys.unwrap_or_default();

    let len = keys.len();

    for key in keys {
        println!("Key ARN: {}", key.key_arn.as_deref().unwrap_or_default());
    }

    println!();
    println!("Found {} keys", len);

    Ok(())
}
```
+  Untuk detail API, lihat [ListKeys](https://docs.rs/aws-sdk-kms/latest/aws_sdk_kms/client/struct.Client.html#method.list_keys)*referensi AWS SDK for Rust API*. 

### `ReEncrypt`
<a name="kms_ReEncrypt_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReEncrypt`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/kms#code-examples). 

```
async fn reencrypt_string(
    verbose: bool,
    client: &Client,
    input_file: &str,
    output_file: &str,
    first_key: &str,
    new_key: &str,
) -> Result<(), Error> {
    // Get blob from input file
    // Open input text file and get contents as a string
    // input is a base-64 encoded string, so decode it:
    let data = fs::read_to_string(input_file)
        .map(|input_file| base64::decode(input_file).expect("invalid base 64"))
        .map(Blob::new);

    let resp = client
        .re_encrypt()
        .ciphertext_blob(data.unwrap())
        .source_key_id(first_key)
        .destination_key_id(new_key)
        .send()
        .await?;

    // Did we get an encrypted blob?
    let blob = resp.ciphertext_blob.expect("Could not get encrypted text");
    let bytes = blob.as_ref();

    let s = base64::encode(bytes);
    let o = &output_file;

    let mut ofile = File::create(o).expect("unable to create file");
    ofile.write_all(s.as_bytes()).expect("unable to write");

    if verbose {
        println!("Wrote the following to {}:", output_file);
        println!("{}", s);
    } else {
        println!("Wrote base64-encoded output to {}", output_file);
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ReEncrypt](https://docs.rs/aws-sdk-kms/latest/aws_sdk_kms/client/struct.Client.html#method.re_encrypt)*referensi AWS SDK for Rust API*. 

# Contoh Lambda menggunakan SDK untuk Rust
<a name="rust_1_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Lambda.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

*AWS kontribusi komunitas* adalah contoh yang dibuat dan dikelola oleh banyak tim AWS. Untuk memberikan umpan balik, gunakan mekanisme yang disediakan di repositori yang ditautkan.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)
+ [AWS kontribusi komunitas](#aws_community_contributions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/lambda#code-examples). 
Cargo.toml dengan dependensi yang digunakan dalam skenario ini.  

```
[package]
name = "lambda-code-examples"
version = "0.1.0"
edition = "2021"

# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html

[dependencies]
aws-config = { version = "1.0.1", features = ["behavior-version-latest"] }
aws-sdk-ec2 = { version = "1.3.0" }
aws-sdk-iam = { version = "1.3.0" }
aws-sdk-lambda = { version = "1.3.0" }
aws-sdk-s3 = { version = "1.4.0" }
aws-smithy-types = { version = "1.0.1" }
aws-types = { version = "1.0.1" }
clap = { version = "4.4", features = ["derive"] }
tokio = { version = "1.20.1", features = ["full"] }
tracing-subscriber = { version = "0.3.15", features = ["env-filter"] }
tracing = "0.1.37"
serde_json = "1.0.94"
anyhow = "1.0.71"
uuid = { version = "1.3.3", features = ["v4"] }
lambda_runtime = "0.8.0"
serde = "1.0.164"
```
Kumpulan utilitas yang merampingkan panggilan Lambda untuk skenario ini. File ini adalah src/ations.rs di peti.  

```
use anyhow::anyhow;
use aws_sdk_iam::operation::{create_role::CreateRoleError, delete_role::DeleteRoleOutput};
use aws_sdk_lambda::{
    operation::{
        delete_function::DeleteFunctionOutput, get_function::GetFunctionOutput,
        invoke::InvokeOutput, list_functions::ListFunctionsOutput,
        update_function_code::UpdateFunctionCodeOutput,
        update_function_configuration::UpdateFunctionConfigurationOutput,
    },
    primitives::ByteStream,
    types::{Environment, FunctionCode, LastUpdateStatus, State},
};
use aws_sdk_s3::{
    error::ErrorMetadata,
    operation::{delete_bucket::DeleteBucketOutput, delete_object::DeleteObjectOutput},
    types::CreateBucketConfiguration,
};
use aws_smithy_types::Blob;
use serde::{ser::SerializeMap, Serialize};
use std::{fmt::Display, path::PathBuf, str::FromStr, time::Duration};
use tracing::{debug, info, warn};

/* Operation describes  */
#[derive(Clone, Copy, Debug, Serialize)]
pub enum Operation {
    #[serde(rename = "plus")]
    Plus,
    #[serde(rename = "minus")]
    Minus,
    #[serde(rename = "times")]
    Times,
    #[serde(rename = "divided-by")]
    DividedBy,
}

impl FromStr for Operation {
    type Err = anyhow::Error;

    fn from_str(s: &str) -> Result<Self, Self::Err> {
        match s {
            "plus" => Ok(Operation::Plus),
            "minus" => Ok(Operation::Minus),
            "times" => Ok(Operation::Times),
            "divided-by" => Ok(Operation::DividedBy),
            _ => Err(anyhow!("Unknown operation {s}")),
        }
    }
}

impl Display for Operation {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        match self {
            Operation::Plus => write!(f, "plus"),
            Operation::Minus => write!(f, "minus"),
            Operation::Times => write!(f, "times"),
            Operation::DividedBy => write!(f, "divided-by"),
        }
    }
}

/**
 * InvokeArgs will be serialized as JSON and sent to the AWS Lambda handler.
 */
#[derive(Debug)]
pub enum InvokeArgs {
    Increment(i32),
    Arithmetic(Operation, i32, i32),
}

impl Serialize for InvokeArgs {
    fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
    where
        S: serde::Serializer,
    {
        match self {
            InvokeArgs::Increment(i) => serializer.serialize_i32(*i),
            InvokeArgs::Arithmetic(o, i, j) => {
                let mut map: S::SerializeMap = serializer.serialize_map(Some(3))?;
                map.serialize_key(&"op".to_string())?;
                map.serialize_value(&o.to_string())?;
                map.serialize_key(&"i".to_string())?;
                map.serialize_value(&i)?;
                map.serialize_key(&"j".to_string())?;
                map.serialize_value(&j)?;
                map.end()
            }
        }
    }
}

/** A policy document allowing Lambda to execute this function on the account's behalf. */
const ROLE_POLICY_DOCUMENT: &str = r#"{
    "Version":"2012-10-17",		 	 	 
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": { "Service": "lambda.amazonaws.com" },
            "Action": "sts:AssumeRole"
        }
    ]
}"#;

/**
 * A LambdaManager gathers all the resources necessary to run the Lambda example scenario.
 * This includes instantiated aws_sdk clients and details of resource names.
 */
pub struct LambdaManager {
    iam_client: aws_sdk_iam::Client,
    lambda_client: aws_sdk_lambda::Client,
    s3_client: aws_sdk_s3::Client,
    lambda_name: String,
    role_name: String,
    bucket: String,
    own_bucket: bool,
}

// These unit type structs provide nominal typing on top of String parameters for LambdaManager::new
pub struct LambdaName(pub String);
pub struct RoleName(pub String);
pub struct Bucket(pub String);
pub struct OwnBucket(pub bool);

impl LambdaManager {
    pub fn new(
        iam_client: aws_sdk_iam::Client,
        lambda_client: aws_sdk_lambda::Client,
        s3_client: aws_sdk_s3::Client,
        lambda_name: LambdaName,
        role_name: RoleName,
        bucket: Bucket,
        own_bucket: OwnBucket,
    ) -> Self {
        Self {
            iam_client,
            lambda_client,
            s3_client,
            lambda_name: lambda_name.0,
            role_name: role_name.0,
            bucket: bucket.0,
            own_bucket: own_bucket.0,
        }
    }

    /**
     * Load the AWS configuration from the environment.
     * Look up lambda_name and bucket if none are given, or generate a random name if not present in the environment.
     * If the bucket name is provided, the caller needs to have created the bucket.
     * If the bucket name is generated, it will be created.
     */
    pub async fn load_from_env(lambda_name: Option<String>, bucket: Option<String>) -> Self {
        let sdk_config = aws_config::load_from_env().await;
        let lambda_name = LambdaName(lambda_name.unwrap_or_else(|| {
            std::env::var("LAMBDA_NAME").unwrap_or_else(|_| "rust_lambda_example".to_string())
        }));
        let role_name = RoleName(format!("{}_role", lambda_name.0));
        let (bucket, own_bucket) =
            match bucket {
                Some(bucket) => (Bucket(bucket), false),
                None => (
                    Bucket(std::env::var("LAMBDA_BUCKET").unwrap_or_else(|_| {
                        format!("rust-lambda-example-{}", uuid::Uuid::new_v4())
                    })),
                    true,
                ),
            };

        let s3_client = aws_sdk_s3::Client::new(&sdk_config);

        if own_bucket {
            info!("Creating bucket for demo: {}", bucket.0);
            s3_client
                .create_bucket()
                .bucket(bucket.0.clone())
                .create_bucket_configuration(
                    CreateBucketConfiguration::builder()
                        .location_constraint(aws_sdk_s3::types::BucketLocationConstraint::from(
                            sdk_config.region().unwrap().as_ref(),
                        ))
                        .build(),
                )
                .send()
                .await
                .unwrap();
        }

        Self::new(
            aws_sdk_iam::Client::new(&sdk_config),
            aws_sdk_lambda::Client::new(&sdk_config),
            s3_client,
            lambda_name,
            role_name,
            bucket,
            OwnBucket(own_bucket),
        )
    }

    /**
     * Upload function code from a path to a zip file.
     * The zip file must have an AL2 Linux-compatible binary called `bootstrap`.
     * The easiest way to create such a zip is to use `cargo lambda build --output-format Zip`.
     */
    async fn prepare_function(
        &self,
        zip_file: PathBuf,
        key: Option<String>,
    ) -> Result<FunctionCode, anyhow::Error> {
        let body = ByteStream::from_path(zip_file).await?;

        let key = key.unwrap_or_else(|| format!("{}_code", self.lambda_name));

        info!("Uploading function code to s3://{}/{}", self.bucket, key);
        let _ = self
            .s3_client
            .put_object()
            .bucket(self.bucket.clone())
            .key(key.clone())
            .body(body)
            .send()
            .await?;

        Ok(FunctionCode::builder()
            .s3_bucket(self.bucket.clone())
            .s3_key(key)
            .build())
    }

    /**
     * Create a function, uploading from a zip file.
     */
    pub async fn create_function(&self, zip_file: PathBuf) -> Result<String, anyhow::Error> {
        let code = self.prepare_function(zip_file, None).await?;

        let key = code.s3_key().unwrap().to_string();

        let role = self.create_role().await.map_err(|e| anyhow!(e))?;

        info!("Created iam role, waiting 15s for it to become active");
        tokio::time::sleep(Duration::from_secs(15)).await;

        info!("Creating lambda function {}", self.lambda_name);
        let _ = self
            .lambda_client
            .create_function()
            .function_name(self.lambda_name.clone())
            .code(code)
            .role(role.arn())
            .runtime(aws_sdk_lambda::types::Runtime::Providedal2)
            .handler("_unused")
            .send()
            .await
            .map_err(anyhow::Error::from)?;

        self.wait_for_function_ready().await?;

        self.lambda_client
            .publish_version()
            .function_name(self.lambda_name.clone())
            .send()
            .await?;

        Ok(key)
    }

    /**
     * Create an IAM execution role for the managed Lambda function.
     * If the role already exists, use that instead.
     */
    async fn create_role(&self) -> Result<aws_sdk_iam::types::Role, CreateRoleError> {
        info!("Creating execution role for function");
        let get_role = self
            .iam_client
            .get_role()
            .role_name(self.role_name.clone())
            .send()
            .await;
        if let Ok(get_role) = get_role {
            if let Some(role) = get_role.role {
                return Ok(role);
            }
        }

        let create_role = self
            .iam_client
            .create_role()
            .role_name(self.role_name.clone())
            .assume_role_policy_document(ROLE_POLICY_DOCUMENT)
            .send()
            .await;

        match create_role {
            Ok(create_role) => match create_role.role {
                Some(role) => Ok(role),
                None => Err(CreateRoleError::generic(
                    ErrorMetadata::builder()
                        .message("CreateRole returned empty success")
                        .build(),
                )),
            },
            Err(err) => Err(err.into_service_error()),
        }
    }

    /**
     * Poll `is_function_ready` with a 1-second delay. It returns when the function is ready or when there's an error checking the function's state.
     */
    pub async fn wait_for_function_ready(&self) -> Result<(), anyhow::Error> {
        info!("Waiting for function");
        while !self.is_function_ready(None).await? {
            info!("Function is not ready, sleeping 1s");
            tokio::time::sleep(Duration::from_secs(1)).await;
        }
        Ok(())
    }

    /**
     * Check if a Lambda function is ready to be invoked.
     * A Lambda function is ready for this scenario when its state is active and its LastUpdateStatus is Successful.
     * Additionally, if a sha256 is provided, the function must have that as its current code hash.
     * Any missing properties or failed requests will be reported as an Err.
     */
    async fn is_function_ready(
        &self,
        expected_code_sha256: Option<&str>,
    ) -> Result<bool, anyhow::Error> {
        match self.get_function().await {
            Ok(func) => {
                if let Some(config) = func.configuration() {
                    if let Some(state) = config.state() {
                        info!(?state, "Checking if function is active");
                        if !matches!(state, State::Active) {
                            return Ok(false);
                        }
                    }
                    match config.last_update_status() {
                        Some(last_update_status) => {
                            info!(?last_update_status, "Checking if function is ready");
                            match last_update_status {
                                LastUpdateStatus::Successful => {
                                    // continue
                                }
                                LastUpdateStatus::Failed | LastUpdateStatus::InProgress => {
                                    return Ok(false);
                                }
                                unknown => {
                                    warn!(
                                        status_variant = unknown.as_str(),
                                        "LastUpdateStatus unknown"
                                    );
                                    return Err(anyhow!(
                                        "Unknown LastUpdateStatus, fn config is {config:?}"
                                    ));
                                }
                            }
                        }
                        None => {
                            warn!("Missing last update status");
                            return Ok(false);
                        }
                    };
                    if expected_code_sha256.is_none() {
                        return Ok(true);
                    }
                    if let Some(code_sha256) = config.code_sha256() {
                        return Ok(code_sha256 == expected_code_sha256.unwrap_or_default());
                    }
                }
            }
            Err(e) => {
                warn!(?e, "Could not get function while waiting");
            }
        }
        Ok(false)
    }

    /** Get the Lambda function with this Manager's name. */
    pub async fn get_function(&self) -> Result<GetFunctionOutput, anyhow::Error> {
        info!("Getting lambda function");
        self.lambda_client
            .get_function()
            .function_name(self.lambda_name.clone())
            .send()
            .await
            .map_err(anyhow::Error::from)
    }

    /** List all Lambda functions in the current Region. */
    pub async fn list_functions(&self) -> Result<ListFunctionsOutput, anyhow::Error> {
        info!("Listing lambda functions");
        self.lambda_client
            .list_functions()
            .send()
            .await
            .map_err(anyhow::Error::from)
    }

    /** Invoke the lambda function using calculator InvokeArgs. */
    pub async fn invoke(&self, args: InvokeArgs) -> Result<InvokeOutput, anyhow::Error> {
        info!(?args, "Invoking {}", self.lambda_name);
        let payload = serde_json::to_string(&args)?;
        debug!(?payload, "Sending payload");
        self.lambda_client
            .invoke()
            .function_name(self.lambda_name.clone())
            .payload(Blob::new(payload))
            .send()
            .await
            .map_err(anyhow::Error::from)
    }

    /** Given a Path to a zip file, update the function's code and wait for the update to finish. */
    pub async fn update_function_code(
        &self,
        zip_file: PathBuf,
        key: String,
    ) -> Result<UpdateFunctionCodeOutput, anyhow::Error> {
        let function_code = self.prepare_function(zip_file, Some(key)).await?;

        info!("Updating code for {}", self.lambda_name);
        let update = self
            .lambda_client
            .update_function_code()
            .function_name(self.lambda_name.clone())
            .s3_bucket(self.bucket.clone())
            .s3_key(function_code.s3_key().unwrap().to_string())
            .send()
            .await
            .map_err(anyhow::Error::from)?;

        self.wait_for_function_ready().await?;

        Ok(update)
    }

    /** Update the environment for a function. */
    pub async fn update_function_configuration(
        &self,
        environment: Environment,
    ) -> Result<UpdateFunctionConfigurationOutput, anyhow::Error> {
        info!(
            ?environment,
            "Updating environment for {}", self.lambda_name
        );
        let updated = self
            .lambda_client
            .update_function_configuration()
            .function_name(self.lambda_name.clone())
            .environment(environment)
            .send()
            .await
            .map_err(anyhow::Error::from)?;

        self.wait_for_function_ready().await?;

        Ok(updated)
    }

    /** Delete a function and its role, and if possible or necessary, its associated code object and bucket. */
    pub async fn delete_function(
        &self,
        location: Option<String>,
    ) -> (
        Result<DeleteFunctionOutput, anyhow::Error>,
        Result<DeleteRoleOutput, anyhow::Error>,
        Option<Result<DeleteObjectOutput, anyhow::Error>>,
    ) {
        info!("Deleting lambda function {}", self.lambda_name);
        let delete_function = self
            .lambda_client
            .delete_function()
            .function_name(self.lambda_name.clone())
            .send()
            .await
            .map_err(anyhow::Error::from);

        info!("Deleting iam role {}", self.role_name);
        let delete_role = self
            .iam_client
            .delete_role()
            .role_name(self.role_name.clone())
            .send()
            .await
            .map_err(anyhow::Error::from);

        let delete_object: Option<Result<DeleteObjectOutput, anyhow::Error>> =
            if let Some(location) = location {
                info!("Deleting object {location}");
                Some(
                    self.s3_client
                        .delete_object()
                        .bucket(self.bucket.clone())
                        .key(location)
                        .send()
                        .await
                        .map_err(anyhow::Error::from),
                )
            } else {
                info!(?location, "Skipping delete object");
                None
            };

        (delete_function, delete_role, delete_object)
    }

    pub async fn cleanup(
        &self,
        location: Option<String>,
    ) -> (
        (
            Result<DeleteFunctionOutput, anyhow::Error>,
            Result<DeleteRoleOutput, anyhow::Error>,
            Option<Result<DeleteObjectOutput, anyhow::Error>>,
        ),
        Option<Result<DeleteBucketOutput, anyhow::Error>>,
    ) {
        let delete_function = self.delete_function(location).await;

        let delete_bucket = if self.own_bucket {
            info!("Deleting bucket {}", self.bucket);
            if delete_function.2.is_none() || delete_function.2.as_ref().unwrap().is_ok() {
                Some(
                    self.s3_client
                        .delete_bucket()
                        .bucket(self.bucket.clone())
                        .send()
                        .await
                        .map_err(anyhow::Error::from),
                )
            } else {
                None
            }
        } else {
            info!("No bucket to clean up");
            None
        };

        (delete_function, delete_bucket)
    }
}

/**
 * Testing occurs primarily as an integration test running the `scenario` bin successfully.
 * Each action relies deeply on the internal workings and state of Amazon Simple Storage Service (Amazon S3), Lambda, and IAM working together.
 * It is therefore infeasible to mock the clients to test the individual actions.
 */
#[cfg(test)]
mod test {
    use super::{InvokeArgs, Operation};
    use serde_json::json;

    /** Make sure that the JSON output of serializing InvokeArgs is what's expected by the calculator. */
    #[test]
    fn test_serialize() {
        assert_eq!(json!(InvokeArgs::Increment(5)), 5);
        assert_eq!(
            json!(InvokeArgs::Arithmetic(Operation::Plus, 5, 7)).to_string(),
            r#"{"op":"plus","i":5,"j":7}"#.to_string(),
        );
    }
}
```
Biner untuk menjalankan skenario dari depan ke ujung, menggunakan flag baris perintah untuk mengontrol beberapa perilaku. File ini src/bin/scenario adalah.rs di peti.  

```
/*
## Service actions

Service actions wrap the SDK call, taking a client and any specific parameters necessary for the call.

* CreateFunction
* GetFunction
* ListFunctions
* Invoke
* UpdateFunctionCode
* UpdateFunctionConfiguration
* DeleteFunction

## Scenario
A scenario runs at a command prompt and prints output to the user on the result of each service action. A scenario can run in one of two ways: straight through, printing out progress as it goes, or as an interactive question/answer script.

## Getting started with functions

Use an SDK to manage AWS Lambda functions: create a function, invoke it, update its code, invoke it again, view its output and logs, and delete it.

This scenario uses two Lambda handlers:
_Note: Handlers don't use AWS SDK API calls._

The increment handler is straightforward:

1. It accepts a number, increments it, and returns the new value.
2. It performs simple logging of the result.

The arithmetic handler is more complex:
1. It accepts a set of actions ['plus', 'minus', 'times', 'divided-by'] and two numbers, and returns the result of the calculation.
2. It uses an environment variable to control log level (such as DEBUG, INFO, WARNING, ERROR).
It logs a few things at different levels, such as:
    * DEBUG: Full event data.
    * INFO: The calculation result.
    * WARN~ING~: When a divide by zero error occurs.
    * This will be the typical `RUST_LOG` variable.


The steps of the scenario are:

1. Create an AWS Identity and Access Management (IAM) role that meets the following requirements:
    * Has an assume_role policy that grants 'lambda.amazonaws.com' the 'sts:AssumeRole' action.
    * Attaches the 'arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole' managed role.
    * _You must wait for ~10 seconds after the role is created before you can use it!_
2. Create a function (CreateFunction) for the increment handler by packaging it as a zip and doing one of the following:
    * Adding it with CreateFunction Code.ZipFile.
    * --or--
    * Uploading it to Amazon Simple Storage Service (Amazon S3) and adding it with CreateFunction Code.S3Bucket/S3Key.
    * _Note: Zipping the file does not have to be done in code._
    * If you have a waiter, use it to wait until the function is active. Otherwise, call GetFunction until State is Active.
3. Invoke the function with a number and print the result.
4. Update the function (UpdateFunctionCode) to the arithmetic handler by packaging it as a zip and doing one of the following:
    * Adding it with UpdateFunctionCode ZipFile.
    * --or--
    * Uploading it to Amazon S3 and adding it with UpdateFunctionCode S3Bucket/S3Key.
5. Call GetFunction until Configuration.LastUpdateStatus is 'Successful' (or 'Failed').
6. Update the environment variable by calling UpdateFunctionConfiguration and pass it a log level, such as:
    * Environment={'Variables': {'RUST_LOG': 'TRACE'}}
7. Invoke the function with an action from the list and a couple of values. Include LogType='Tail' to get logs in the result. Print the result of the calculation and the log.
8. [Optional] Invoke the function to provoke a divide-by-zero error and show the log result.
9. List all functions for the account, using pagination (ListFunctions).
10. Delete the function (DeleteFunction).
11. Delete the role.

Each step should use the function created in Service Actions to abstract calling the SDK.
 */

use aws_sdk_lambda::{operation::invoke::InvokeOutput, types::Environment};
use clap::Parser;
use std::{collections::HashMap, path::PathBuf};
use tracing::{debug, info, warn};
use tracing_subscriber::EnvFilter;

use lambda_code_examples::actions::{
    InvokeArgs::{Arithmetic, Increment},
    LambdaManager, Operation,
};

#[derive(Debug, Parser)]
pub struct Opt {
    /// The AWS Region.
    #[structopt(short, long)]
    pub region: Option<String>,

    // The bucket to use for the FunctionCode.
    #[structopt(short, long)]
    pub bucket: Option<String>,

    // The name of the Lambda function.
    #[structopt(short, long)]
    pub lambda_name: Option<String>,

    // The number to increment.
    #[structopt(short, long, default_value = "12")]
    pub inc: i32,

    // The left operand.
    #[structopt(long, default_value = "19")]
    pub num_a: i32,

    // The right operand.
    #[structopt(long, default_value = "23")]
    pub num_b: i32,

    // The arithmetic operation.
    #[structopt(short, long, default_value = "plus")]
    pub operation: Operation,

    #[structopt(long)]
    pub cleanup: Option<bool>,

    #[structopt(long)]
    pub no_cleanup: Option<bool>,
}

fn code_path(lambda: &str) -> PathBuf {
    PathBuf::from(format!("../target/lambda/{lambda}/bootstrap.zip"))
}

fn log_invoke_output(invoke: &InvokeOutput, message: &str) {
    if let Some(payload) = invoke.payload().cloned() {
        let payload = String::from_utf8(payload.into_inner());
        info!(?payload, message);
    } else {
        info!("Could not extract payload")
    }
    if let Some(logs) = invoke.log_result() {
        debug!(?logs, "Invoked function logs")
    } else {
        debug!("Invoked function had no logs")
    }
}

async fn main_block(
    opt: &Opt,
    manager: &LambdaManager,
    code_location: String,
) -> Result<(), anyhow::Error> {
    let invoke = manager.invoke(Increment(opt.inc)).await?;
    log_invoke_output(&invoke, "Invoked function configured as increment");

    let update_code = manager
        .update_function_code(code_path("arithmetic"), code_location.clone())
        .await?;

    let code_sha256 = update_code.code_sha256().unwrap_or("Unknown SHA");
    info!(?code_sha256, "Updated function code with arithmetic.zip");

    let arithmetic_args = Arithmetic(opt.operation, opt.num_a, opt.num_b);
    let invoke = manager.invoke(arithmetic_args).await?;
    log_invoke_output(&invoke, "Invoked function configured as arithmetic");

    let update = manager
        .update_function_configuration(
            Environment::builder()
                .set_variables(Some(HashMap::from([(
                    "RUST_LOG".to_string(),
                    "trace".to_string(),
                )])))
                .build(),
        )
        .await?;
    let updated_environment = update.environment();
    info!(?updated_environment, "Updated function configuration");

    let invoke = manager
        .invoke(Arithmetic(opt.operation, opt.num_a, opt.num_b))
        .await?;
    log_invoke_output(
        &invoke,
        "Invoked function configured as arithmetic with increased logging",
    );

    let invoke = manager
        .invoke(Arithmetic(Operation::DividedBy, opt.num_a, 0))
        .await?;
    log_invoke_output(
        &invoke,
        "Invoked function configured as arithmetic with divide by zero",
    );

    Ok::<(), anyhow::Error>(())
}

#[tokio::main]
async fn main() {
    tracing_subscriber::fmt()
        .without_time()
        .with_file(true)
        .with_line_number(true)
        .with_env_filter(EnvFilter::from_default_env())
        .init();

    let opt = Opt::parse();
    let manager = LambdaManager::load_from_env(opt.lambda_name.clone(), opt.bucket.clone()).await;

    let key = match manager.create_function(code_path("increment")).await {
        Ok(init) => {
            info!(?init, "Created function, initially with increment.zip");
            let run_block = main_block(&opt, &manager, init.clone()).await;
            info!(?run_block, "Finished running example, cleaning up");
            Some(init)
        }
        Err(err) => {
            warn!(?err, "Error happened when initializing function");
            None
        }
    };

    if Some(false) == opt.cleanup || Some(true) == opt.no_cleanup {
        info!("Skipping cleanup")
    } else {
        let delete = manager.cleanup(key).await;
        info!(?delete, "Deleted function & cleaned up resources");
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Rust*.
  + [CreateFunction](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.create_function)
  + [DeleteFunction](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.delete_function)
  + [GetFunction](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.get_function)
  + [Memohon](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.invoke)
  + [ListFunctions](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.list_functions)
  + [UpdateFunctionCode](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.update_function_code)
  + [UpdateFunctionConfiguration](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.update_function_configuration)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/lambda#code-examples). 

```
    /**
     * Create a function, uploading from a zip file.
     */
    pub async fn create_function(&self, zip_file: PathBuf) -> Result<String, anyhow::Error> {
        let code = self.prepare_function(zip_file, None).await?;

        let key = code.s3_key().unwrap().to_string();

        let role = self.create_role().await.map_err(|e| anyhow!(e))?;

        info!("Created iam role, waiting 15s for it to become active");
        tokio::time::sleep(Duration::from_secs(15)).await;

        info!("Creating lambda function {}", self.lambda_name);
        let _ = self
            .lambda_client
            .create_function()
            .function_name(self.lambda_name.clone())
            .code(code)
            .role(role.arn())
            .runtime(aws_sdk_lambda::types::Runtime::Providedal2)
            .handler("_unused")
            .send()
            .await
            .map_err(anyhow::Error::from)?;

        self.wait_for_function_ready().await?;

        self.lambda_client
            .publish_version()
            .function_name(self.lambda_name.clone())
            .send()
            .await?;

        Ok(key)
    }

    /**
     * Upload function code from a path to a zip file.
     * The zip file must have an AL2 Linux-compatible binary called `bootstrap`.
     * The easiest way to create such a zip is to use `cargo lambda build --output-format Zip`.
     */
    async fn prepare_function(
        &self,
        zip_file: PathBuf,
        key: Option<String>,
    ) -> Result<FunctionCode, anyhow::Error> {
        let body = ByteStream::from_path(zip_file).await?;

        let key = key.unwrap_or_else(|| format!("{}_code", self.lambda_name));

        info!("Uploading function code to s3://{}/{}", self.bucket, key);
        let _ = self
            .s3_client
            .put_object()
            .bucket(self.bucket.clone())
            .key(key.clone())
            .body(body)
            .send()
            .await?;

        Ok(FunctionCode::builder()
            .s3_bucket(self.bucket.clone())
            .s3_key(key)
            .build())
    }
```
+  Untuk detail API, lihat [CreateFunction](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.create_function)*referensi AWS SDK for Rust API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/lambda#code-examples). 

```
    /** Delete a function and its role, and if possible or necessary, its associated code object and bucket. */
    pub async fn delete_function(
        &self,
        location: Option<String>,
    ) -> (
        Result<DeleteFunctionOutput, anyhow::Error>,
        Result<DeleteRoleOutput, anyhow::Error>,
        Option<Result<DeleteObjectOutput, anyhow::Error>>,
    ) {
        info!("Deleting lambda function {}", self.lambda_name);
        let delete_function = self
            .lambda_client
            .delete_function()
            .function_name(self.lambda_name.clone())
            .send()
            .await
            .map_err(anyhow::Error::from);

        info!("Deleting iam role {}", self.role_name);
        let delete_role = self
            .iam_client
            .delete_role()
            .role_name(self.role_name.clone())
            .send()
            .await
            .map_err(anyhow::Error::from);

        let delete_object: Option<Result<DeleteObjectOutput, anyhow::Error>> =
            if let Some(location) = location {
                info!("Deleting object {location}");
                Some(
                    self.s3_client
                        .delete_object()
                        .bucket(self.bucket.clone())
                        .key(location)
                        .send()
                        .await
                        .map_err(anyhow::Error::from),
                )
            } else {
                info!(?location, "Skipping delete object");
                None
            };

        (delete_function, delete_role, delete_object)
    }
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.delete_function)*referensi AWS SDK for Rust API*. 

### `GetFunction`
<a name="lambda_GetFunction_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/lambda#code-examples). 

```
    /** Get the Lambda function with this Manager's name. */
    pub async fn get_function(&self) -> Result<GetFunctionOutput, anyhow::Error> {
        info!("Getting lambda function");
        self.lambda_client
            .get_function()
            .function_name(self.lambda_name.clone())
            .send()
            .await
            .map_err(anyhow::Error::from)
    }
```
+  Untuk detail API, lihat [GetFunction](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.get_function)*referensi AWS SDK for Rust API*. 

### `Invoke`
<a name="lambda_Invoke_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/lambda#code-examples). 

```
    /** Invoke the lambda function using calculator InvokeArgs. */
    pub async fn invoke(&self, args: InvokeArgs) -> Result<InvokeOutput, anyhow::Error> {
        info!(?args, "Invoking {}", self.lambda_name);
        let payload = serde_json::to_string(&args)?;
        debug!(?payload, "Sending payload");
        self.lambda_client
            .invoke()
            .function_name(self.lambda_name.clone())
            .payload(Blob::new(payload))
            .send()
            .await
            .map_err(anyhow::Error::from)
    }

fn log_invoke_output(invoke: &InvokeOutput, message: &str) {
    if let Some(payload) = invoke.payload().cloned() {
        let payload = String::from_utf8(payload.into_inner());
        info!(?payload, message);
    } else {
        info!("Could not extract payload")
    }
    if let Some(logs) = invoke.log_result() {
        debug!(?logs, "Invoked function logs")
    } else {
        debug!("Invoked function had no logs")
    }
}
```
+  Untuk detail API, lihat [Memanggil](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.invoke) di *AWS SDK untuk referensi API Rust*. 

### `ListFunctions`
<a name="lambda_ListFunctions_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/lambda#code-examples). 

```
    /** List all Lambda functions in the current Region. */
    pub async fn list_functions(&self) -> Result<ListFunctionsOutput, anyhow::Error> {
        info!("Listing lambda functions");
        self.lambda_client
            .list_functions()
            .send()
            .await
            .map_err(anyhow::Error::from)
    }
```
+  Untuk detail API, lihat [ListFunctions](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.list_functions)*referensi AWS SDK for Rust API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/lambda#code-examples). 

```
    /** Given a Path to a zip file, update the function's code and wait for the update to finish. */
    pub async fn update_function_code(
        &self,
        zip_file: PathBuf,
        key: String,
    ) -> Result<UpdateFunctionCodeOutput, anyhow::Error> {
        let function_code = self.prepare_function(zip_file, Some(key)).await?;

        info!("Updating code for {}", self.lambda_name);
        let update = self
            .lambda_client
            .update_function_code()
            .function_name(self.lambda_name.clone())
            .s3_bucket(self.bucket.clone())
            .s3_key(function_code.s3_key().unwrap().to_string())
            .send()
            .await
            .map_err(anyhow::Error::from)?;

        self.wait_for_function_ready().await?;

        Ok(update)
    }

    /**
     * Upload function code from a path to a zip file.
     * The zip file must have an AL2 Linux-compatible binary called `bootstrap`.
     * The easiest way to create such a zip is to use `cargo lambda build --output-format Zip`.
     */
    async fn prepare_function(
        &self,
        zip_file: PathBuf,
        key: Option<String>,
    ) -> Result<FunctionCode, anyhow::Error> {
        let body = ByteStream::from_path(zip_file).await?;

        let key = key.unwrap_or_else(|| format!("{}_code", self.lambda_name));

        info!("Uploading function code to s3://{}/{}", self.bucket, key);
        let _ = self
            .s3_client
            .put_object()
            .bucket(self.bucket.clone())
            .key(key.clone())
            .body(body)
            .send()
            .await?;

        Ok(FunctionCode::builder()
            .s3_bucket(self.bucket.clone())
            .s3_key(key)
            .build())
    }
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.update_function_code)*referensi AWS SDK for Rust API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/lambda#code-examples). 

```
    /** Update the environment for a function. */
    pub async fn update_function_configuration(
        &self,
        environment: Environment,
    ) -> Result<UpdateFunctionConfigurationOutput, anyhow::Error> {
        info!(
            ?environment,
            "Updating environment for {}", self.lambda_name
        );
        let updated = self
            .lambda_client
            .update_function_configuration()
            .function_name(self.lambda_name.clone())
            .environment(environment)
            .send()
            .await
            .map_err(anyhow::Error::from)?;

        self.wait_for_function_ready().await?;

        Ok(updated)
    }
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.rs/aws-sdk-lambda/latest/aws_sdk_lambda/client/struct.Client.html#method.update_function_configuration)*referensi AWS SDK for Rust API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK for Rust**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/cross_service/photo_asset_management).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Rust.  

```
use aws_config::BehaviorVersion;
use aws_credential_types::provider::ProvideCredentials;
use aws_sigv4::{
    http_request::{sign, SignableBody, SignableRequest, SigningSettings},
    sign::v4,
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};
use serde_json::{json, Value};
use sqlx::postgres::PgConnectOptions;
use std::env;
use std::time::{Duration, SystemTime};

const RDS_CERTS: &[u8] = include_bytes!("global-bundle.pem");

async fn generate_rds_iam_token(
    db_hostname: &str,
    port: u16,
    db_username: &str,
) -> Result<String, Error> {
    let config = aws_config::load_defaults(BehaviorVersion::v2024_03_28()).await;

    let credentials = config
        .credentials_provider()
        .expect("no credentials provider found")
        .provide_credentials()
        .await
        .expect("unable to load credentials");
    let identity = credentials.into();
    let region = config.region().unwrap().to_string();

    let mut signing_settings = SigningSettings::default();
    signing_settings.expires_in = Some(Duration::from_secs(900));
    signing_settings.signature_location = aws_sigv4::http_request::SignatureLocation::QueryParams;

    let signing_params = v4::SigningParams::builder()
        .identity(&identity)
        .region(&region)
        .name("rds-db")
        .time(SystemTime::now())
        .settings(signing_settings)
        .build()?;

    let url = format!(
        "https://{db_hostname}:{port}/?Action=connect&DBUser={db_user}",
        db_hostname = db_hostname,
        port = port,
        db_user = db_username
    );

    let signable_request =
        SignableRequest::new("GET", &url, std::iter::empty(), SignableBody::Bytes(&[]))
            .expect("signable request");

    let (signing_instructions, _signature) =
        sign(signable_request, &signing_params.into())?.into_parts();

    let mut url = url::Url::parse(&url).unwrap();
    for (name, value) in signing_instructions.params() {
        url.query_pairs_mut().append_pair(name, &value);
    }

    let response = url.to_string().split_off("https://".len());

    Ok(response)
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    run(service_fn(handler)).await
}

async fn handler(_event: LambdaEvent<Value>) -> Result<Value, Error> {
    let db_host = env::var("DB_HOSTNAME").expect("DB_HOSTNAME must be set");
    let db_port = env::var("DB_PORT")
        .expect("DB_PORT must be set")
        .parse::<u16>()
        .expect("PORT must be a valid number");
    let db_name = env::var("DB_NAME").expect("DB_NAME must be set");
    let db_user_name = env::var("DB_USERNAME").expect("DB_USERNAME must be set");

    let token = generate_rds_iam_token(&db_host, db_port, &db_user_name).await?;

    let opts = PgConnectOptions::new()
        .host(&db_host)
        .port(db_port)
        .username(&db_user_name)
        .password(&token)
        .database(&db_name)
        .ssl_root_cert_from_pem(RDS_CERTS.to_vec())
        .ssl_mode(sqlx::postgres::PgSslMode::Require);

    let pool = sqlx::postgres::PgPoolOptions::new()
        .connect_with(opts)
        .await?;

    let result: i32 = sqlx::query_scalar("SELECT $1 + $2")
        .bind(3)
        .bind(2)
        .fetch_one(&pool)
        .await?;

    println!("Result: {:?}", result);

    Ok(json!({
        "statusCode": 200,
        "content-type": "text/plain",
        "body": format!("The selected sum is: {result}")
    }))
}
```

### Memanggil fungsi Lambda dari pemicu Kinesis
<a name="serverless_Kinesis_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran Kinesis. Fungsi mengambil payload Kinesis, mendekode dari Base64, dan mencatat konten rekaman.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda). 
Mengkonsumsi acara Kinesis dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::event::kinesis::KinesisEvent;
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

async fn function_handler(event: LambdaEvent<KinesisEvent>) -> Result<(), Error> {
    if event.payload.records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(());
    }

    event.payload.records.iter().for_each(|record| {
        tracing::info!("EventId: {}",record.event_id.as_deref().unwrap_or_default());

        let record_data = std::str::from_utf8(&record.kinesis.data);

        match record_data {
            Ok(data) => {
                // log the record data
                tracing::info!("Data: {}", data);
            }
            Err(e) => {
                tracing::error!("Error: {}", e);
            }
        }
    });

    tracing::info!(
        "Successfully processed {} records",
        event.payload.records.len()
    );

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        // disable printing the name of the module in every log line.
        .with_target(false)
        // disabling time is handy because CloudWatch will add the ingestion time.
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

### Memanggil fungsi Lambda dari pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima catatan dari aliran DynamoDB. Fungsi mengambil payload DynamoDB dan mencatat isi catatan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda). 
Mengkonsumsi acara DynamoDB dengan Lambda menggunakan Rust.  

```
use lambda_runtime::{service_fn, tracing, Error, LambdaEvent};
use aws_lambda_events::{
    event::dynamodb::{Event, EventRecord},
   };


// Built with the following dependencies:
//lambda_runtime = "0.11.1"
//serde_json = "1.0"
//tokio = { version = "1", features = ["macros"] }
//tracing = { version = "0.1", features = ["log"] }
//tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }
//aws_lambda_events = "0.15.0"

async fn function_handler(event: LambdaEvent<Event>) ->Result<(), Error> {
    
    let records = &event.payload.records;
    tracing::info!("event payload: {:?}",records);
    if records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(());
    }

    for record in records{
        log_dynamo_dbrecord(record);
    }

    tracing::info!("Dynamo db records processed");

    // Prepare the response
    Ok(())

}

fn log_dynamo_dbrecord(record: &EventRecord)-> Result<(), Error>{
    tracing::info!("EventId: {}", record.event_id);
    tracing::info!("EventName: {}", record.event_name);
    tracing::info!("DynamoDB Record: {:?}", record.change );
    Ok(())

}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
    .with_max_level(tracing::Level::INFO)
    .with_target(false)
    .without_time()
    .init();

    let func = service_fn(function_handler);
    lambda_runtime::run(func).await?;
    Ok(())
    
}
```

### Memanggil fungsi Lambda dari pemicu Amazon DocumentDB
<a name="serverless_DocumentDB_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari aliran perubahan DocumentDB. Fungsi mengambil payload DocumentDB dan mencatat isi catatan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda). 
Mengkonsumsi acara Amazon DocumentDB dengan Lambda menggunakan Rust.  

```
use lambda_runtime::{service_fn, tracing, Error, LambdaEvent};
use aws_lambda_events::{
    event::documentdb::{DocumentDbEvent, DocumentDbInnerEvent},
   };


// Built with the following dependencies:
//lambda_runtime = "0.11.1"
//serde_json = "1.0"
//tokio = { version = "1", features = ["macros"] }
//tracing = { version = "0.1", features = ["log"] }
//tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }
//aws_lambda_events = "0.15.0"

async fn function_handler(event: LambdaEvent<DocumentDbEvent>) ->Result<(), Error> {
    
    tracing::info!("Event Source ARN: {:?}", event.payload.event_source_arn);
    tracing::info!("Event Source: {:?}", event.payload.event_source);
  
    let records = &event.payload.events;
   
    if records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(());
    }

    for record in records{
        log_document_db_event(record);
    }

    tracing::info!("Document db records processed");

    // Prepare the response
    Ok(())

}

fn log_document_db_event(record: &DocumentDbInnerEvent)-> Result<(), Error>{
    tracing::info!("Change Event: {:?}", record.event);
    
    Ok(())

}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
    .with_max_level(tracing::Level::INFO)
    .with_target(false)
    .without_time()
    .init();

    let func = service_fn(function_handler);
    lambda_runtime::run(func).await?;
    Ok(())
    
}
```

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Rust.  

```
use aws_lambda_events::event::kafka::KafkaEvent;
use lambda_runtime::{run, service_fn, tracing, Error, LambdaEvent};
use base64::prelude::*;
use serde_json::{Value};
use tracing::{info};

/// Pre-Requisites:
/// 1. Install Cargo Lambda - see https://www.cargo-lambda.info/guide/getting-started.html
/// 2. Add packages tracing, tracing-subscriber, serde_json, base64
///
/// This is the main body for the function.
/// Write your code inside it.
/// There are some code example in the following URLs:
/// - https://github.com/awslabs/aws-lambda-rust-runtime/tree/main/examples
/// - https://github.com/aws-samples/serverless-rust-demo/

async fn function_handler(event: LambdaEvent<KafkaEvent>) -> Result<Value, Error> {

    let payload = event.payload.records;

    for (_name, records) in payload.iter() {

        for record in records {

         let record_text = record.value.as_ref().ok_or("Value is None")?;
         info!("Record: {}", &record_text);

         // perform Base64 decoding
         let record_bytes = BASE64_STANDARD.decode(record_text)?;
         let message = std::str::from_utf8(&record_bytes)?;
         
         info!("Message: {}", message);
        }

    }

    Ok(().into())
}

#[tokio::main]
async fn main() -> Result<(), Error> {

    // required to enable CloudWatch error logging by the runtime
    tracing::init_default_subscriber();
    info!("Setup CW subscriber!");

    run(service_fn(function_handler)).await
}
```

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::event::s3::S3Event;
use aws_sdk_s3::{Client};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};


/// Main function
#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        .with_target(false)
        .without_time()
        .init();

    // Initialize the AWS SDK for Rust
    let config = aws_config::load_from_env().await;
    let s3_client = Client::new(&config);

    let res = run(service_fn(|request: LambdaEvent<S3Event>| {
        function_handler(&s3_client, request)
    })).await;

    res
}

async fn function_handler(
    s3_client: &Client,
    evt: LambdaEvent<S3Event>
) -> Result<(), Error> {
    tracing::info!(records = ?evt.payload.records.len(), "Received request from SQS");

    if evt.payload.records.len() == 0 {
        tracing::info!("Empty S3 event received");
    }

    let bucket = evt.payload.records[0].s3.bucket.name.as_ref().expect("Bucket name to exist");
    let key = evt.payload.records[0].s3.object.key.as_ref().expect("Object key to exist");

    tracing::info!("Request is for {} and object {}", bucket, key);

    let s3_get_object_result = s3_client
        .get_object()
        .bucket(bucket)
        .key(key)
        .send()
        .await;

    match s3_get_object_result {
        Ok(_) => tracing::info!("S3 Get Object success, the s3GetObjectResult contains a 'body' property of type ByteStream"),
        Err(_) => tracing::info!("Failure with S3 Get Object request")
    }

    Ok(())
}
```

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::event::sns::SnsEvent;
use aws_lambda_events::sns::SnsRecord;
use lambda_runtime::{run, service_fn, Error, LambdaEvent};
use tracing::info;

// Built with the following dependencies:
//  aws_lambda_events = { version = "0.10.0", default-features = false, features = ["sns"] }
//  lambda_runtime = "0.8.1"
//  tokio = { version = "1", features = ["macros"] }
//  tracing = { version = "0.1", features = ["log"] }
//  tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }

async fn function_handler(event: LambdaEvent<SnsEvent>) -> Result<(), Error> {
    for event in event.payload.records {
        process_record(&event)?;
    }
    
    Ok(())
}

fn process_record(record: &SnsRecord) -> Result<(), Error> {
    info!("Processing SNS Message: {}", record.sns.message);

    // Implement your record handling code here.

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        .with_target(false)
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::event::sqs::SqsEvent;
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

async fn function_handler(event: LambdaEvent<SqsEvent>) -> Result<(), Error> {
    event.payload.records.iter().for_each(|record| {
        // process the record
        tracing::info!("Message body: {}", record.body.as_deref().unwrap_or_default())
    });

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        // disable printing the name of the module in every log line.
        .with_target(false)
        // disabling time is handy because CloudWatch will add the ingestion time.
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Kinesis
<a name="serverless_Kinesis_Lambda_batch_item_failures_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran Kinesis. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-kinesis-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch Kinesis dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::{
    event::kinesis::KinesisEvent,
    kinesis::KinesisEventRecord,
    streams::{KinesisBatchItemFailure, KinesisEventResponse},
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

async fn function_handler(event: LambdaEvent<KinesisEvent>) -> Result<KinesisEventResponse, Error> {
    let mut response = KinesisEventResponse {
        batch_item_failures: vec![],
    };

    if event.payload.records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(response);
    }

    for record in &event.payload.records {
        tracing::info!(
            "EventId: {}",
            record.event_id.as_deref().unwrap_or_default()
        );

        let record_processing_result = process_record(record);

        if record_processing_result.is_err() {
            response.batch_item_failures.push(KinesisBatchItemFailure {
                item_identifier: record.kinesis.sequence_number.clone(),
            });
            /* Since we are working with streams, we can return the failed item immediately.
            Lambda will immediately begin to retry processing from this failed item onwards. */
            return Ok(response);
        }
    }

    tracing::info!(
        "Successfully processed {} records",
        event.payload.records.len()
    );

    Ok(response)
}

fn process_record(record: &KinesisEventRecord) -> Result<(), Error> {
    let record_data = std::str::from_utf8(record.kinesis.data.as_slice());

    if let Some(err) = record_data.err() {
        tracing::error!("Error: {}", err);
        return Err(Error::from(err));
    }

    let record_data = record_data.unwrap_or_default();

    // do something interesting with the data
    tracing::info!("Data: {}", record_data);

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        // disable printing the name of the module in every log line.
        .with_target(false)
        // disabling time is handy because CloudWatch will add the ingestion time.
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu DynamoDB
<a name="serverless_DynamoDB_Lambda_batch_item_failures_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari aliran DynamoDB. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling). 
Melaporkan kegagalan item batch DynamoDB dengan Lambda menggunakan Rust.  

```
use aws_lambda_events::{
    event::dynamodb::{Event, EventRecord, StreamRecord},
    streams::{DynamoDbBatchItemFailure, DynamoDbEventResponse},
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

/// Process the stream record
fn process_record(record: &EventRecord) -> Result<(), Error> {
    let stream_record: &StreamRecord = &record.change;

    // process your stream record here...
    tracing::info!("Data: {:?}", stream_record);

    Ok(())
}

/// Main Lambda handler here...
async fn function_handler(event: LambdaEvent<Event>) -> Result<DynamoDbEventResponse, Error> {
    let mut response = DynamoDbEventResponse {
        batch_item_failures: vec![],
    };

    let records = &event.payload.records;

    if records.is_empty() {
        tracing::info!("No records found. Exiting.");
        return Ok(response);
    }

    for record in records {
        tracing::info!("EventId: {}", record.event_id);

        // Couldn't find a sequence number
        if record.change.sequence_number.is_none() {
            response.batch_item_failures.push(DynamoDbBatchItemFailure {
                item_identifier: Some("".to_string()),
            });
            return Ok(response);
        }

        // Process your record here...
        if process_record(record).is_err() {
            response.batch_item_failures.push(DynamoDbBatchItemFailure {
                item_identifier: record.change.sequence_number.clone(),
            });
            /* Since we are working with streams, we can return the failed item immediately.
            Lambda will immediately begin to retry processing from this failed item onwards. */
            return Ok(response);
        }
    }

    tracing::info!("Successfully processed {} record(s)", records.len());

    Ok(response)
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        // disable printing the name of the module in every log line.
        .with_target(false)
        // disabling time is handy because CloudWatch will add the ingestion time.
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::{
    event::sqs::{SqsBatchResponse, SqsEvent},
    sqs::{BatchItemFailure, SqsMessage},
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

async fn process_record(_: &SqsMessage) -> Result<(), Error> {
    Err(Error::from("Error processing message"))
}

async fn function_handler(event: LambdaEvent<SqsEvent>) -> Result<SqsBatchResponse, Error> {
    let mut batch_item_failures = Vec::new();
    for record in event.payload.records {
        match process_record(&record).await {
            Ok(_) => (),
            Err(_) => batch_item_failures.push(BatchItemFailure {
                item_identifier: record.message_id.unwrap(),
            }),
        }
    }

    Ok(SqsBatchResponse {
        batch_item_failures,
    })
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    run(service_fn(function_handler)).await
}
```

## AWS kontribusi komunitas
<a name="aws_community_contributions"></a>

### Membangun dan menguji aplikasi tanpa server
<a name="tributary-lite_serverless-application_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membangun dan menguji aplikasi tanpa server menggunakan API Gateway dengan Lambda dan DynamoDB

**SDK for Rust**  
 Menunjukkan cara membuat dan menguji aplikasi tanpa server yang terdiri dari API Gateway dengan Lambda dan DynamoDB menggunakan Rust SDK.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/aws-samples/serverless-rust-demo).   

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda

# MediaLive contoh menggunakan SDK untuk Rust
<a name="rust_1_medialive_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with MediaLive.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListInputs`
<a name="medialive_ListInputs_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListInputs`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/medialive#code-examples). 
Buat daftar nama MediaLive masukan Anda dan ARNs di Wilayah.  

```
async fn show_inputs(client: &Client) -> Result<(), Error> {
    let input_list = client.list_inputs().send().await?;

    for i in input_list.inputs() {
        let input_arn = i.arn().unwrap_or_default();
        let input_name = i.name().unwrap_or_default();

        println!("Input Name : {}", input_name);
        println!("Input ARN : {}", input_arn);
        println!();
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListInputs](https://docs.rs/aws-sdk-medialive/latest/aws_sdk_medialive/client/struct.Client.html#method.list_inputs)*referensi AWS SDK for Rust API*. 

# MediaPackage contoh menggunakan SDK untuk Rust
<a name="rust_1_mediapackage_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with MediaPackage.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListChannels`
<a name="mediapackage_ListChannels_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListChannels`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/mediapackage#code-examples). 
Daftar saluran ARNs dan deskripsi.  

```
async fn show_channels(client: &Client) -> Result<(), Error> {
    let list_channels = client.list_channels().send().await?;

    println!("Channels:");

    for c in list_channels.channels() {
        let description = c.description().unwrap_or_default();
        let arn = c.arn().unwrap_or_default();

        println!("  Description : {}", description);
        println!("  ARN :         {}", arn);
        println!();
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListChannels](https://docs.rs/aws-sdk-mediapackage/latest/aws_sdk_mediapackage/client/struct.Client.html#method.list_channels)*referensi AWS SDK for Rust API*. 

### `ListOriginEndpoints`
<a name="mediapackage_ListOriginEndpoints_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListOriginEndpoints`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/mediapackage#code-examples). 
Buat daftar deskripsi titik akhir Anda dan. URLs  

```
async fn show_endpoints(client: &Client) -> Result<(), Error> {
    let or_endpoints = client.list_origin_endpoints().send().await?;

    println!("Endpoints:");

    for e in or_endpoints.origin_endpoints() {
        let endpoint_url = e.url().unwrap_or_default();
        let endpoint_description = e.description().unwrap_or_default();
        println!("  Description: {}", endpoint_description);
        println!("  URL :        {}", endpoint_url);
        println!();
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListOriginEndpoints](https://docs.rs/aws-sdk-mediapackage/latest/aws_sdk_mediapackage/client/struct.Client.html#method.list_origin_endpoints)*referensi AWS SDK for Rust API*. 

# Contoh MSK Amazon menggunakan SDK untuk Rust
<a name="rust_1_kafka_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon MSK.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu MSK Amazon
<a name="serverless_MSK_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima catatan dari kluster MSK Amazon. Fungsi mengambil muatan MSK dan mencatat konten catatan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-msk-to-lambda). 
Mengkonsumsi acara MSK Amazon dengan Lambda menggunakan Rust.  

```
use aws_lambda_events::event::kafka::KafkaEvent;
use lambda_runtime::{run, service_fn, tracing, Error, LambdaEvent};
use base64::prelude::*;
use serde_json::{Value};
use tracing::{info};

/// Pre-Requisites:
/// 1. Install Cargo Lambda - see https://www.cargo-lambda.info/guide/getting-started.html
/// 2. Add packages tracing, tracing-subscriber, serde_json, base64
///
/// This is the main body for the function.
/// Write your code inside it.
/// There are some code example in the following URLs:
/// - https://github.com/awslabs/aws-lambda-rust-runtime/tree/main/examples
/// - https://github.com/aws-samples/serverless-rust-demo/

async fn function_handler(event: LambdaEvent<KafkaEvent>) -> Result<Value, Error> {

    let payload = event.payload.records;

    for (_name, records) in payload.iter() {

        for record in records {

         let record_text = record.value.as_ref().ok_or("Value is None")?;
         info!("Record: {}", &record_text);

         // perform Base64 decoding
         let record_bytes = BASE64_STANDARD.decode(record_text)?;
         let message = std::str::from_utf8(&record_bytes)?;
         
         info!("Message: {}", message);
        }

    }

    Ok(().into())
}

#[tokio::main]
async fn main() -> Result<(), Error> {

    // required to enable CloudWatch error logging by the runtime
    tracing::init_default_subscriber();
    info!("Setup CW subscriber!");

    run(service_fn(function_handler)).await
}
```

# Contoh Amazon Polly menggunakan SDK untuk Rust
<a name="rust_1_polly_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon Polly.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DescribeVoices`
<a name="polly_DescribeVoices_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVoices`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/polly#code-examples). 

```
async fn list_voices(client: &Client) -> Result<(), Error> {
    let resp = client.describe_voices().send().await?;

    println!("Voices:");

    let voices = resp.voices();
    for voice in voices {
        println!("  Name:     {}", voice.name().unwrap_or("No name!"));
        println!(
            "  Language: {}",
            voice.language_name().unwrap_or("No language!")
        );

        println!();
    }

    println!("Found {} voices", voices.len());

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeVoices](https://docs.rs/aws-sdk-polly/latest/aws_sdk_polly/client/struct.Client.html#method.describe_voices)*referensi AWS SDK for Rust API*. 

### `ListLexicons`
<a name="polly_ListLexicons_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLexicons`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/polly#code-examples). 

```
async fn show_lexicons(client: &Client) -> Result<(), Error> {
    let resp = client.list_lexicons().send().await?;

    println!("Lexicons:");

    let lexicons = resp.lexicons();

    for lexicon in lexicons {
        println!("  Name:     {}", lexicon.name().unwrap_or_default());
        println!(
            "  Language: {:?}\n",
            lexicon
                .attributes()
                .as_ref()
                .map(|attrib| attrib
                    .language_code
                    .as_ref()
                    .expect("languages must have language codes"))
                .expect("languages must have attributes")
        );
    }

    println!();
    println!("Found {} lexicons.", lexicons.len());
    println!();

    Ok(())
}
```
+  Untuk detail API, lihat [ListLexicons](https://docs.rs/aws-sdk-polly/latest/aws_sdk_polly/client/struct.Client.html#method.list_lexicons)*referensi AWS SDK for Rust API*. 

### `PutLexicon`
<a name="polly_PutLexicon_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutLexicon`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/polly#code-examples). 

```
async fn make_lexicon(client: &Client, name: &str, from: &str, to: &str) -> Result<(), Error> {
    let content = format!("<?xml version=\"1.0\" encoding=\"UTF-8\"?>
    <lexicon version=\"1.0\" xmlns=\"http://www.w3.org/2005/01/pronunciation-lexicon\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\"
    xsi:schemaLocation=\"http://www.w3.org/2005/01/pronunciation-lexicon http://www.w3.org/TR/2007/CR-pronunciation-lexicon-20071212/pls.xsd\"
    alphabet=\"ipa\" xml:lang=\"en-US\">
    <lexeme><grapheme>{}</grapheme><alias>{}</alias></lexeme>
    </lexicon>", from, to);

    client
        .put_lexicon()
        .name(name)
        .content(content)
        .send()
        .await?;

    println!("Added lexicon");

    Ok(())
}
```
+  Untuk detail API, lihat [PutLexicon](https://docs.rs/aws-sdk-polly/latest/aws_sdk_polly/client/struct.Client.html#method.put_lexicon)*referensi AWS SDK for Rust API*. 

### `SynthesizeSpeech`
<a name="polly_SynthesizeSpeech_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SynthesizeSpeech`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/polly#code-examples). 

```
async fn synthesize(client: &Client, filename: &str) -> Result<(), Error> {
    let content = fs::read_to_string(filename);

    let resp = client
        .synthesize_speech()
        .output_format(OutputFormat::Mp3)
        .text(content.unwrap())
        .voice_id(VoiceId::Joanna)
        .send()
        .await?;

    // Get MP3 data from response and save it
    let mut blob = resp
        .audio_stream
        .collect()
        .await
        .expect("failed to read data");

    let parts: Vec<&str> = filename.split('.').collect();
    let out_file = format!("{}{}", String::from(parts[0]), ".mp3");

    let mut file = tokio::fs::File::create(out_file)
        .await
        .expect("failed to create file");

    file.write_all_buf(&mut blob)
        .await
        .expect("failed to write to file");

    Ok(())
}
```
+  Untuk detail API, lihat [SynthesizeSpeech](https://docs.rs/aws-sdk-polly/latest/aws_sdk_polly/client/struct.Client.html#method.synthesize_speech)*referensi AWS SDK for Rust API*. 

## Skenario
<a name="scenarios"></a>

### Mengonversi teks menjadi ucapan dan kembali ke teks
<a name="cross_Telephone_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Menggunakan Amazon Polly untuk mensintesis file input teks biasa (UTF-8) ke file audio.
+ Mengunggah file audio ke bucket Amazon S3.
+ Menggunakan Amazon Transcribe untuk mengonversi file audio menjadi teks.
+ Tampilkan teks.

**SDK for Rust**  
 Gunakan Amazon Polly untuk mensintesis file input teks biasa (UTF-8) menjadi file audio, unggah file audio ke bucket Amazon S3, gunakan Amazon Transcribe untuk mengonversi file audio tersebut menjadi teks, dan tampilkan teksnya.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service#code-examples).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Polly
+ Amazon S3
+ Amazon Transcribe

# Contoh Amazon RDS menggunakan SDK untuk Rust
<a name="rust_1_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon RDS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Contoh nirserver](#serverless_examples)

## Contoh nirserver
<a name="serverless_examples"></a>

### Menghubungkan ke database Amazon RDS dalam fungsi Lambda
<a name="serverless_connect_RDS_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menghubungkan ke database RDS. Fungsi membuat permintaan database sederhana dan mengembalikan hasilnya.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-connect-rds-iam). 
Menghubungkan ke database Amazon RDS dalam fungsi Lambda menggunakan Rust.  

```
use aws_config::BehaviorVersion;
use aws_credential_types::provider::ProvideCredentials;
use aws_sigv4::{
    http_request::{sign, SignableBody, SignableRequest, SigningSettings},
    sign::v4,
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};
use serde_json::{json, Value};
use sqlx::postgres::PgConnectOptions;
use std::env;
use std::time::{Duration, SystemTime};

const RDS_CERTS: &[u8] = include_bytes!("global-bundle.pem");

async fn generate_rds_iam_token(
    db_hostname: &str,
    port: u16,
    db_username: &str,
) -> Result<String, Error> {
    let config = aws_config::load_defaults(BehaviorVersion::v2024_03_28()).await;

    let credentials = config
        .credentials_provider()
        .expect("no credentials provider found")
        .provide_credentials()
        .await
        .expect("unable to load credentials");
    let identity = credentials.into();
    let region = config.region().unwrap().to_string();

    let mut signing_settings = SigningSettings::default();
    signing_settings.expires_in = Some(Duration::from_secs(900));
    signing_settings.signature_location = aws_sigv4::http_request::SignatureLocation::QueryParams;

    let signing_params = v4::SigningParams::builder()
        .identity(&identity)
        .region(&region)
        .name("rds-db")
        .time(SystemTime::now())
        .settings(signing_settings)
        .build()?;

    let url = format!(
        "https://{db_hostname}:{port}/?Action=connect&DBUser={db_user}",
        db_hostname = db_hostname,
        port = port,
        db_user = db_username
    );

    let signable_request =
        SignableRequest::new("GET", &url, std::iter::empty(), SignableBody::Bytes(&[]))
            .expect("signable request");

    let (signing_instructions, _signature) =
        sign(signable_request, &signing_params.into())?.into_parts();

    let mut url = url::Url::parse(&url).unwrap();
    for (name, value) in signing_instructions.params() {
        url.query_pairs_mut().append_pair(name, &value);
    }

    let response = url.to_string().split_off("https://".len());

    Ok(response)
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    run(service_fn(handler)).await
}

async fn handler(_event: LambdaEvent<Value>) -> Result<Value, Error> {
    let db_host = env::var("DB_HOSTNAME").expect("DB_HOSTNAME must be set");
    let db_port = env::var("DB_PORT")
        .expect("DB_PORT must be set")
        .parse::<u16>()
        .expect("PORT must be a valid number");
    let db_name = env::var("DB_NAME").expect("DB_NAME must be set");
    let db_user_name = env::var("DB_USERNAME").expect("DB_USERNAME must be set");

    let token = generate_rds_iam_token(&db_host, db_port, &db_user_name).await?;

    let opts = PgConnectOptions::new()
        .host(&db_host)
        .port(db_port)
        .username(&db_user_name)
        .password(&token)
        .database(&db_name)
        .ssl_root_cert_from_pem(RDS_CERTS.to_vec())
        .ssl_mode(sqlx::postgres::PgSslMode::Require);

    let pool = sqlx::postgres::PgPoolOptions::new()
        .connect_with(opts)
        .await?;

    let result: i32 = sqlx::query_scalar("SELECT $1 + $2")
        .bind(3)
        .bind(2)
        .fetch_one(&pool)
        .await?;

    println!("Result: {:?}", result);

    Ok(json!({
        "statusCode": 200,
        "content-type": "text/plain",
        "body": format!("The selected sum is: {result}")
    }))
}
```

# Contoh Layanan Data Amazon RDS menggunakan SDK untuk Rust
<a name="rust_1_rds-data_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon RDS Data Service.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ExecuteStatement`
<a name="rds-data_ExecuteStatement_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/rdsdata#code-examples). 

```
async fn query_cluster(
    client: &Client,
    cluster_arn: &str,
    query: &str,
    secret_arn: &str,
) -> Result<(), Error> {
    let st = client
        .execute_statement()
        .resource_arn(cluster_arn)
        .database("postgres") // Do not confuse this with db instance name
        .sql(query)
        .secret_arn(secret_arn);

    let result = st.send().await?;

    println!("{:?}", result);
    println!();

    Ok(())
}
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.rs/aws-sdk-rdsdata/latest/aws_sdk_rdsdata/client/struct.Client.html#method.execute_statement)*referensi AWS SDK for Rust API*. 

# Contoh Amazon Rekognition menggunakan SDK for Rust
<a name="rust_1_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon Rekognition.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK for Rust**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/cross_service/photo_asset_management).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Mendeteksi wajah dalam gambar
<a name="cross_DetectFaces_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Menyimpan gambar di bucket Amazon S3.
+ Menggunakan Amazon Rekognition untuk mendeteksi detail wajah, seperti rentang usia, jenis kelamin, dan emosi (seperti tersenyum).
+ Menampilkan detail tersebut.

**SDK for Rust**  
 Menyimpan gambar di bucket Amazon S3 dengan prefiks **unggahan**, menggunakan Amazon Rekognition untuk mendeteksi detail wajah, seperti rentang usia, jenis kelamin, dan emosi (tersenyum, dll.), dan menampilkan detail tersebut.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service/detect_faces/src/main.rs).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3

### Menyimpan EXIF dan informasi gambar lainnya
<a name="cross_DetectLabels_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara:
+ Mendapatkan informasi EXIF dari file JPG, JPEG, atau PNG.
+ Mengunggah file gambar ke bucket Amazon S3.
+ Menggunakan Amazon Rekognition untuk mengidentifikasi tiga atribut teratas (label) dalam file.
+ Menambahkan informasi EXIF dan label ke tabel Amazon DynamoDB di Wilayah.

**SDK for Rust**  
 Mendapatkan informasi EXIF dari file JPG, JPEG, atau PNG, mengunggah file gambar ke bucket Amazon S3, menggunakan Amazon Rekognition untuk mengidentifikasi tiga atribut teratas (label di *Amazon* Rekognition) dalam file, dan menambahkan EXIF dan informasi label ke tabel Amazon DynamoDB di Wilayah.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service/detect_labels/src/main.rs).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon Rekognition
+ Amazon S3

# Rute 53 contoh menggunakan SDK untuk Rust
<a name="rust_1_route-53_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Route 53.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListHostedZones`
<a name="route-53_ListHostedZones_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListHostedZones`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/route53#code-examples). 

```
async fn show_host_info(client: &aws_sdk_route53::Client) -> Result<(), aws_sdk_route53::Error> {
    let hosted_zone_count = client.get_hosted_zone_count().send().await?;

    println!(
        "Number of hosted zones in region : {}",
        hosted_zone_count.hosted_zone_count(),
    );

    let hosted_zones = client.list_hosted_zones().send().await?;

    println!("Zones:");

    for hz in hosted_zones.hosted_zones() {
        let zone_name = hz.name();
        let zone_id = hz.id();

        println!("  ID :   {}", zone_id);
        println!("  Name : {}", zone_name);
        println!();
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListHostedZones](https://docs.rs/aws-sdk-route53/latest/aws_sdk_route53/client/struct.Client.html#method.list_hosted_zones)*referensi AWS SDK for Rust API*. 

# Contoh Amazon S3 menggunakan SDK untuk Rust
<a name="rust_1_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Memulai
<a name="get_started"></a>

### Halo Amazon S3
<a name="s3_Hello_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon S3.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
/// S3 Hello World Example using the AWS SDK for Rust.
///
/// This example lists the objects in a bucket, uploads an object to that bucket,
/// and then retrieves the object and prints some S3 information about the object.
/// This shows a number of S3 features, including how to use built-in paginators
/// for large data sets.
///
/// # Arguments
///
/// * `client` - an S3 client configured appropriately for the environment.
/// * `bucket` - the bucket name that the object will be uploaded to. Must be present in the region the `client` is configured to use.
/// * `filename` - a reference to a path that will be read and uploaded to S3.
/// * `key` - the string key that the object will be uploaded as inside the bucket.
async fn list_bucket_and_upload_object(
    client: &aws_sdk_s3::Client,
    bucket: &str,
    filepath: &Path,
    key: &str,
) -> Result<(), S3ExampleError> {
    // List the buckets in this account
    let mut objects = client
        .list_objects_v2()
        .bucket(bucket)
        .into_paginator()
        .send();

    println!("key\tetag\tlast_modified\tstorage_class");
    while let Some(Ok(object)) = objects.next().await {
        for item in object.contents() {
            println!(
                "{}\t{}\t{}\t{}",
                item.key().unwrap_or_default(),
                item.e_tag().unwrap_or_default(),
                item.last_modified()
                    .map(|lm| format!("{lm}"))
                    .unwrap_or_default(),
                item.storage_class()
                    .map(|sc| format!("{sc}"))
                    .unwrap_or_default()
            );
        }
    }

    // Prepare a ByteStream around the file, and upload the object using that ByteStream.
    let body = aws_sdk_s3::primitives::ByteStream::from_path(filepath)
        .await
        .map_err(|err| {
            S3ExampleError::new(format!(
                "Failed to create bytestream for {filepath:?} ({err:?})"
            ))
        })?;
    let resp = client
        .put_object()
        .bucket(bucket)
        .key(key)
        .body(body)
        .send()
        .await?;

    println!(
        "Upload success. Version: {:?}",
        resp.version_id()
            .expect("S3 Object upload missing version ID")
    );

    // Retrieve the just-uploaded object.
    let resp = client.get_object().bucket(bucket).key(key).send().await?;
    println!("etag: {}", resp.e_tag().unwrap_or("(missing)"));
    println!("version: {}", resp.version_id().unwrap_or("(missing)"));

    Ok(())
}
```
ExampleError Utilitas S3.  

```
/// S3ExampleError provides a From<T: ProvideErrorMetadata> impl to extract
/// client-specific error details. This serves as a consistent backup to handling
/// specific service errors, depending on what is needed by the scenario.
/// It is used throughout the code examples for the AWS SDK for Rust.
#[derive(Debug)]
pub struct S3ExampleError(String);
impl S3ExampleError {
    pub fn new(value: impl Into<String>) -> Self {
        S3ExampleError(value.into())
    }

    pub fn add_message(self, message: impl Into<String>) -> Self {
        S3ExampleError(format!("{}: {}", message.into(), self.0))
    }
}

impl<T: aws_sdk_s3::error::ProvideErrorMetadata> From<T> for S3ExampleError {
    fn from(value: T) -> Self {
        S3ExampleError(format!(
            "{}: {}",
            value
                .code()
                .map(String::from)
                .unwrap_or("unknown code".into()),
            value
                .message()
                .map(String::from)
                .unwrap_or("missing reason".into()),
        ))
    }
}

impl std::error::Error for S3ExampleError {}

impl std::fmt::Display for S3ExampleError {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "{}", self.0)
    }
}
```
+  Untuk detail API, lihat [ListBuckets](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.list_buckets)*referensi AWS SDK for Rust API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 
Kode untuk peti biner yang menjalankan skenario.  

```
#![allow(clippy::result_large_err)]

//!  Purpose
//!  Shows how to use the AWS SDK for Rust to get started using
//!  Amazon Simple Storage Service (Amazon S3). Create a bucket, move objects into and out of it,
//!  and delete all resources at the end of the demo.
//!
//!  This example follows the steps in "Getting started with Amazon S3" in the Amazon S3
//!  user guide.
//!  - https://docs.aws.amazon.com/AmazonS3/latest/userguide/GetStartedWithS3.html

use aws_config::meta::region::RegionProviderChain;
use aws_sdk_s3::{config::Region, Client};
use s3_code_examples::error::S3ExampleError;
use uuid::Uuid;

#[tokio::main]
async fn main() -> Result<(), S3ExampleError> {
    let region_provider = RegionProviderChain::first_try(Region::new("us-west-2"));
    let region = region_provider.region().await.unwrap();
    let shared_config = aws_config::from_env().region(region_provider).load().await;
    let client = Client::new(&shared_config);
    let bucket_name = format!("amzn-s3-demo-bucket-{}", Uuid::new_v4());
    let file_name = "s3/testfile.txt".to_string();
    let key = "test file key name".to_string();
    let target_key = "target_key".to_string();

    if let Err(e) = run_s3_operations(region, client, bucket_name, file_name, key, target_key).await
    {
        eprintln!("{:?}", e);
    };

    Ok(())
}

async fn run_s3_operations(
    region: Region,
    client: Client,
    bucket_name: String,
    file_name: String,
    key: String,
    target_key: String,
) -> Result<(), S3ExampleError> {
    s3_code_examples::create_bucket(&client, &bucket_name, &region).await?;
    let run_example: Result<(), S3ExampleError> = (async {
        s3_code_examples::upload_object(&client, &bucket_name, &file_name, &key).await?;
        let _object = s3_code_examples::download_object(&client, &bucket_name, &key).await;
        s3_code_examples::copy_object(&client, &bucket_name, &bucket_name, &key, &target_key)
            .await?;
        s3_code_examples::list_objects(&client, &bucket_name).await?;
        s3_code_examples::clear_bucket(&client, &bucket_name).await?;
        Ok(())
    })
    .await;
    if let Err(err) = run_example {
        eprintln!("Failed to complete getting-started example: {err:?}");
    }
    s3_code_examples::delete_bucket(&client, &bucket_name).await?;

    Ok(())
}
```
Tindakan umum yang digunakan oleh skenario.  

```
pub async fn create_bucket(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
    region: &aws_config::Region,
) -> Result<Option<aws_sdk_s3::operation::create_bucket::CreateBucketOutput>, S3ExampleError> {
    let constraint = aws_sdk_s3::types::BucketLocationConstraint::from(region.to_string().as_str());
    let cfg = aws_sdk_s3::types::CreateBucketConfiguration::builder()
        .location_constraint(constraint)
        .build();
    let create = client
        .create_bucket()
        .create_bucket_configuration(cfg)
        .bucket(bucket_name)
        .send()
        .await;

    // BucketAlreadyExists and BucketAlreadyOwnedByYou are not problems for this task.
    create.map(Some).or_else(|err| {
        if err
            .as_service_error()
            .map(|se| se.is_bucket_already_exists() || se.is_bucket_already_owned_by_you())
            == Some(true)
        {
            Ok(None)
        } else {
            Err(S3ExampleError::from(err))
        }
    })
}

pub async fn upload_object(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
    file_name: &str,
    key: &str,
) -> Result<aws_sdk_s3::operation::put_object::PutObjectOutput, S3ExampleError> {
    let body = aws_sdk_s3::primitives::ByteStream::from_path(std::path::Path::new(file_name)).await;
    client
        .put_object()
        .bucket(bucket_name)
        .key(key)
        .body(body.unwrap())
        .send()
        .await
        .map_err(S3ExampleError::from)
}

pub async fn download_object(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
    key: &str,
) -> Result<aws_sdk_s3::operation::get_object::GetObjectOutput, S3ExampleError> {
    client
        .get_object()
        .bucket(bucket_name)
        .key(key)
        .send()
        .await
        .map_err(S3ExampleError::from)
}

/// Copy an object from one bucket to another.
pub async fn copy_object(
    client: &aws_sdk_s3::Client,
    source_bucket: &str,
    destination_bucket: &str,
    source_object: &str,
    destination_object: &str,
) -> Result<(), S3ExampleError> {
    let source_key = format!("{source_bucket}/{source_object}");
    let response = client
        .copy_object()
        .copy_source(&source_key)
        .bucket(destination_bucket)
        .key(destination_object)
        .send()
        .await?;

    println!(
        "Copied from {source_key} to {destination_bucket}/{destination_object} with etag {}",
        response
            .copy_object_result
            .unwrap_or_else(|| aws_sdk_s3::types::CopyObjectResult::builder().build())
            .e_tag()
            .unwrap_or("missing")
    );
    Ok(())
}

pub async fn list_objects(client: &aws_sdk_s3::Client, bucket: &str) -> Result<(), S3ExampleError> {
    let mut response = client
        .list_objects_v2()
        .bucket(bucket.to_owned())
        .max_keys(10) // In this example, go 10 at a time.
        .into_paginator()
        .send();

    while let Some(result) = response.next().await {
        match result {
            Ok(output) => {
                for object in output.contents() {
                    println!(" - {}", object.key().unwrap_or("Unknown"));
                }
            }
            Err(err) => {
                eprintln!("{err:?}")
            }
        }
    }

    Ok(())
}

/// Given a bucket, remove all objects in the bucket, and then ensure no objects
/// remain in the bucket.
pub async fn clear_bucket(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
) -> Result<Vec<String>, S3ExampleError> {
    let objects = client.list_objects_v2().bucket(bucket_name).send().await?;

    // delete_objects no longer needs to be mutable.
    let objects_to_delete: Vec<String> = objects
        .contents()
        .iter()
        .filter_map(|obj| obj.key())
        .map(String::from)
        .collect();

    if objects_to_delete.is_empty() {
        return Ok(vec![]);
    }

    let return_keys = objects_to_delete.clone();

    delete_objects(client, bucket_name, objects_to_delete).await?;

    let objects = client.list_objects_v2().bucket(bucket_name).send().await?;

    eprintln!("{objects:?}");

    match objects.key_count {
        Some(0) => Ok(return_keys),
        _ => Err(S3ExampleError::new(
            "There were still objects left in the bucket.",
        )),
    }
}

pub async fn delete_bucket(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
) -> Result<(), S3ExampleError> {
    let resp = client.delete_bucket().bucket(bucket_name).send().await;
    match resp {
        Ok(_) => Ok(()),
        Err(err) => {
            if err
                .as_service_error()
                .and_then(aws_sdk_s3::error::ProvideErrorMetadata::code)
                == Some("NoSuchBucket")
            {
                Ok(())
            } else {
                Err(S3ExampleError::from(err))
            }
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Rust*.
  + [CopyObject](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.copy_object)
  + [CreateBucket](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.create_bucket)
  + [DeleteBucket](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.delete_bucket)
  + [DeleteObjects](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.delete_objects)
  + [GetObject](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.get_object)
  + [ListObjectsV2](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.list_objects_v2)
  + [PutObject](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.put_object)

## Tindakan
<a name="actions"></a>

### `CompleteMultipartUpload`
<a name="s3_CompleteMultipartUpload_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompleteMultipartUpload`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
    // upload_parts: Vec<aws_sdk_s3::types::CompletedPart>
    let completed_multipart_upload: CompletedMultipartUpload = CompletedMultipartUpload::builder()
        .set_parts(Some(upload_parts))
        .build();

    let _complete_multipart_upload_res = client
        .complete_multipart_upload()
        .bucket(&bucket_name)
        .key(&key)
        .multipart_upload(completed_multipart_upload)
        .upload_id(upload_id)
        .send()
        .await?;
```

```
    // Create a multipart upload. Use UploadPart and CompleteMultipartUpload to
    // upload the file.
    let multipart_upload_res: CreateMultipartUploadOutput = client
        .create_multipart_upload()
        .bucket(&bucket_name)
        .key(&key)
        .send()
        .await?;

    let upload_id = multipart_upload_res.upload_id().ok_or(S3ExampleError::new(
        "Missing upload_id after CreateMultipartUpload",
    ))?;
```

```
    let mut upload_parts: Vec<aws_sdk_s3::types::CompletedPart> = Vec::new();

    for chunk_index in 0..chunk_count {
        let this_chunk = if chunk_count - 1 == chunk_index {
            size_of_last_chunk
        } else {
            CHUNK_SIZE
        };
        let stream = ByteStream::read_from()
            .path(path)
            .offset(chunk_index * CHUNK_SIZE)
            .length(Length::Exact(this_chunk))
            .build()
            .await
            .unwrap();

        // Chunk index needs to start at 0, but part numbers start at 1.
        let part_number = (chunk_index as i32) + 1;
        let upload_part_res = client
            .upload_part()
            .key(&key)
            .bucket(&bucket_name)
            .upload_id(upload_id)
            .body(stream)
            .part_number(part_number)
            .send()
            .await?;

        upload_parts.push(
            CompletedPart::builder()
                .e_tag(upload_part_res.e_tag.unwrap_or_default())
                .part_number(part_number)
                .build(),
        );
    }
```
+  Untuk detail API, lihat [CompleteMultipartUpload](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.complete_multipart_upload)*referensi AWS SDK for Rust API*. 

### `CopyObject`
<a name="s3_CopyObject_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
/// Copy an object from one bucket to another.
pub async fn copy_object(
    client: &aws_sdk_s3::Client,
    source_bucket: &str,
    destination_bucket: &str,
    source_object: &str,
    destination_object: &str,
) -> Result<(), S3ExampleError> {
    let source_key = format!("{source_bucket}/{source_object}");
    let response = client
        .copy_object()
        .copy_source(&source_key)
        .bucket(destination_bucket)
        .key(destination_object)
        .send()
        .await?;

    println!(
        "Copied from {source_key} to {destination_bucket}/{destination_object} with etag {}",
        response
            .copy_object_result
            .unwrap_or_else(|| aws_sdk_s3::types::CopyObjectResult::builder().build())
            .e_tag()
            .unwrap_or("missing")
    );
    Ok(())
}
```
+  Untuk detail API, lihat [CopyObject](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.copy_object)*referensi AWS SDK for Rust API*. 

### `CreateBucket`
<a name="s3_CreateBucket_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
pub async fn create_bucket(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
    region: &aws_config::Region,
) -> Result<Option<aws_sdk_s3::operation::create_bucket::CreateBucketOutput>, S3ExampleError> {
    let constraint = aws_sdk_s3::types::BucketLocationConstraint::from(region.to_string().as_str());
    let cfg = aws_sdk_s3::types::CreateBucketConfiguration::builder()
        .location_constraint(constraint)
        .build();
    let create = client
        .create_bucket()
        .create_bucket_configuration(cfg)
        .bucket(bucket_name)
        .send()
        .await;

    // BucketAlreadyExists and BucketAlreadyOwnedByYou are not problems for this task.
    create.map(Some).or_else(|err| {
        if err
            .as_service_error()
            .map(|se| se.is_bucket_already_exists() || se.is_bucket_already_owned_by_you())
            == Some(true)
        {
            Ok(None)
        } else {
            Err(S3ExampleError::from(err))
        }
    })
}
```
+  Untuk detail API, lihat [CreateBucket](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.create_bucket)*referensi AWS SDK for Rust API*. 

### `CreateMultipartUpload`
<a name="s3_CreateMultipartUpload_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMultipartUpload`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
    // Create a multipart upload. Use UploadPart and CompleteMultipartUpload to
    // upload the file.
    let multipart_upload_res: CreateMultipartUploadOutput = client
        .create_multipart_upload()
        .bucket(&bucket_name)
        .key(&key)
        .send()
        .await?;

    let upload_id = multipart_upload_res.upload_id().ok_or(S3ExampleError::new(
        "Missing upload_id after CreateMultipartUpload",
    ))?;
```

```
    let mut upload_parts: Vec<aws_sdk_s3::types::CompletedPart> = Vec::new();

    for chunk_index in 0..chunk_count {
        let this_chunk = if chunk_count - 1 == chunk_index {
            size_of_last_chunk
        } else {
            CHUNK_SIZE
        };
        let stream = ByteStream::read_from()
            .path(path)
            .offset(chunk_index * CHUNK_SIZE)
            .length(Length::Exact(this_chunk))
            .build()
            .await
            .unwrap();

        // Chunk index needs to start at 0, but part numbers start at 1.
        let part_number = (chunk_index as i32) + 1;
        let upload_part_res = client
            .upload_part()
            .key(&key)
            .bucket(&bucket_name)
            .upload_id(upload_id)
            .body(stream)
            .part_number(part_number)
            .send()
            .await?;

        upload_parts.push(
            CompletedPart::builder()
                .e_tag(upload_part_res.e_tag.unwrap_or_default())
                .part_number(part_number)
                .build(),
        );
    }
```

```
    // upload_parts: Vec<aws_sdk_s3::types::CompletedPart>
    let completed_multipart_upload: CompletedMultipartUpload = CompletedMultipartUpload::builder()
        .set_parts(Some(upload_parts))
        .build();

    let _complete_multipart_upload_res = client
        .complete_multipart_upload()
        .bucket(&bucket_name)
        .key(&key)
        .multipart_upload(completed_multipart_upload)
        .upload_id(upload_id)
        .send()
        .await?;
```
+  Untuk detail API, lihat [CreateMultipartUpload](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.create_multipart_upload)*referensi AWS SDK for Rust API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
pub async fn delete_bucket(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
) -> Result<(), S3ExampleError> {
    let resp = client.delete_bucket().bucket(bucket_name).send().await;
    match resp {
        Ok(_) => Ok(()),
        Err(err) => {
            if err
                .as_service_error()
                .and_then(aws_sdk_s3::error::ProvideErrorMetadata::code)
                == Some("NoSuchBucket")
            {
                Ok(())
            } else {
                Err(S3ExampleError::from(err))
            }
        }
    }
}
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.delete_bucket)*referensi AWS SDK for Rust API*. 

### `DeleteObject`
<a name="s3_DeleteObject_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
/// Delete an object from a bucket.
pub async fn remove_object(
    client: &aws_sdk_s3::Client,
    bucket: &str,
    key: &str,
) -> Result<(), S3ExampleError> {
    client
        .delete_object()
        .bucket(bucket)
        .key(key)
        .send()
        .await?;

    // There are no modeled errors to handle when deleting an object.

    Ok(())
}
```
+  Untuk detail API, lihat [DeleteObject](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.delete_object)*referensi AWS SDK for Rust API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
/// Delete the objects in a bucket.
pub async fn delete_objects(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
    objects_to_delete: Vec<String>,
) -> Result<(), S3ExampleError> {
    // Push into a mut vector to use `?` early return errors while building object keys.
    let mut delete_object_ids: Vec<aws_sdk_s3::types::ObjectIdentifier> = vec![];
    for obj in objects_to_delete {
        let obj_id = aws_sdk_s3::types::ObjectIdentifier::builder()
            .key(obj)
            .build()
            .map_err(|err| {
                S3ExampleError::new(format!("Failed to build key for delete_object: {err:?}"))
            })?;
        delete_object_ids.push(obj_id);
    }

    client
        .delete_objects()
        .bucket(bucket_name)
        .delete(
            aws_sdk_s3::types::Delete::builder()
                .set_objects(Some(delete_object_ids))
                .build()
                .map_err(|err| {
                    S3ExampleError::new(format!("Failed to build delete_object input {err:?}"))
                })?,
        )
        .send()
        .await?;
    Ok(())
}
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.delete_objects)*referensi AWS SDK for Rust API*. 

### `GetBucketLocation`
<a name="s3_GetBucketLocation_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketLocation`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
async fn show_buckets(
    strict: bool,
    client: &Client,
    region: BucketLocationConstraint,
) -> Result<(), S3ExampleError> {
    let mut buckets = client.list_buckets().into_paginator().send();

    let mut num_buckets = 0;
    let mut in_region = 0;

    while let Some(Ok(output)) = buckets.next().await {
        for bucket in output.buckets() {
            num_buckets += 1;
            if strict {
                let r = client
                    .get_bucket_location()
                    .bucket(bucket.name().unwrap_or_default())
                    .send()
                    .await?;

                if r.location_constraint() == Some(&region) {
                    println!("{}", bucket.name().unwrap_or_default());
                    in_region += 1;
                }
            } else {
                println!("{}", bucket.name().unwrap_or_default());
            }
        }
    }

    println!();
    if strict {
        println!(
            "Found {} buckets in the {} region out of a total of {} buckets.",
            in_region, region, num_buckets
        );
    } else {
        println!("Found {} buckets in all regions.", num_buckets);
    }

    Ok(())
}
```
+  Untuk detail API, lihat [GetBucketLocation](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.get_bucket_location)*referensi AWS SDK for Rust API*. 

### `GetObject`
<a name="s3_GetObject_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
async fn get_object(client: Client, opt: Opt) -> Result<usize, S3ExampleError> {
    trace!("bucket:      {}", opt.bucket);
    trace!("object:      {}", opt.object);
    trace!("destination: {}", opt.destination.display());

    let mut file = File::create(opt.destination.clone()).map_err(|err| {
        S3ExampleError::new(format!(
            "Failed to initialize file for saving S3 download: {err:?}"
        ))
    })?;

    let mut object = client
        .get_object()
        .bucket(opt.bucket)
        .key(opt.object)
        .send()
        .await?;

    let mut byte_count = 0_usize;
    while let Some(bytes) = object.body.try_next().await.map_err(|err| {
        S3ExampleError::new(format!("Failed to read from S3 download stream: {err:?}"))
    })? {
        let bytes_len = bytes.len();
        file.write_all(&bytes).map_err(|err| {
            S3ExampleError::new(format!(
                "Failed to write from S3 download stream to local file: {err:?}"
            ))
        })?;
        trace!("Intermediate write of {bytes_len}");
        byte_count += bytes_len;
    }

    Ok(byte_count)
}
```
+  Untuk detail API, lihat [GetObject](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.get_object)*referensi AWS SDK for Rust API*. 

### `ListBuckets`
<a name="s3_ListBuckets_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
async fn show_buckets(
    strict: bool,
    client: &Client,
    region: BucketLocationConstraint,
) -> Result<(), S3ExampleError> {
    let mut buckets = client.list_buckets().into_paginator().send();

    let mut num_buckets = 0;
    let mut in_region = 0;

    while let Some(Ok(output)) = buckets.next().await {
        for bucket in output.buckets() {
            num_buckets += 1;
            if strict {
                let r = client
                    .get_bucket_location()
                    .bucket(bucket.name().unwrap_or_default())
                    .send()
                    .await?;

                if r.location_constraint() == Some(&region) {
                    println!("{}", bucket.name().unwrap_or_default());
                    in_region += 1;
                }
            } else {
                println!("{}", bucket.name().unwrap_or_default());
            }
        }
    }

    println!();
    if strict {
        println!(
            "Found {} buckets in the {} region out of a total of {} buckets.",
            in_region, region, num_buckets
        );
    } else {
        println!("Found {} buckets in all regions.", num_buckets);
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListBuckets](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.list_buckets)*referensi AWS SDK for Rust API*. 

### `ListObjectVersions`
<a name="s3_ListObjectVersions_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectVersions`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
async fn show_versions(client: &Client, bucket: &str) -> Result<(), Error> {
    let resp = client.list_object_versions().bucket(bucket).send().await?;

    for version in resp.versions() {
        println!("{}", version.key().unwrap_or_default());
        println!("  version ID: {}", version.version_id().unwrap_or_default());
        println!();
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListObjectVersions](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.list_object_versions)*referensi AWS SDK for Rust API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
pub async fn list_objects(client: &aws_sdk_s3::Client, bucket: &str) -> Result<(), S3ExampleError> {
    let mut response = client
        .list_objects_v2()
        .bucket(bucket.to_owned())
        .max_keys(10) // In this example, go 10 at a time.
        .into_paginator()
        .send();

    while let Some(result) = response.next().await {
        match result {
            Ok(output) => {
                for object in output.contents() {
                    println!(" - {}", object.key().unwrap_or("Unknown"));
                }
            }
            Err(err) => {
                eprintln!("{err:?}")
            }
        }
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.list_objects_v2) di *AWS SDK untuk referensi Rust API*. 

### `PutObject`
<a name="s3_PutObject_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
pub async fn upload_object(
    client: &aws_sdk_s3::Client,
    bucket_name: &str,
    file_name: &str,
    key: &str,
) -> Result<aws_sdk_s3::operation::put_object::PutObjectOutput, S3ExampleError> {
    let body = aws_sdk_s3::primitives::ByteStream::from_path(std::path::Path::new(file_name)).await;
    client
        .put_object()
        .bucket(bucket_name)
        .key(key)
        .body(body.unwrap())
        .send()
        .await
        .map_err(S3ExampleError::from)
}
```
+  Untuk detail API, lihat [PutObject](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.put_object)*referensi AWS SDK for Rust API*. 

### `UploadPart`
<a name="s3_UploadPart_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UploadPart`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
    let mut upload_parts: Vec<aws_sdk_s3::types::CompletedPart> = Vec::new();

    for chunk_index in 0..chunk_count {
        let this_chunk = if chunk_count - 1 == chunk_index {
            size_of_last_chunk
        } else {
            CHUNK_SIZE
        };
        let stream = ByteStream::read_from()
            .path(path)
            .offset(chunk_index * CHUNK_SIZE)
            .length(Length::Exact(this_chunk))
            .build()
            .await
            .unwrap();

        // Chunk index needs to start at 0, but part numbers start at 1.
        let part_number = (chunk_index as i32) + 1;
        let upload_part_res = client
            .upload_part()
            .key(&key)
            .bucket(&bucket_name)
            .upload_id(upload_id)
            .body(stream)
            .part_number(part_number)
            .send()
            .await?;

        upload_parts.push(
            CompletedPart::builder()
                .e_tag(upload_part_res.e_tag.unwrap_or_default())
                .part_number(part_number)
                .build(),
        );
    }
```

```
    // Create a multipart upload. Use UploadPart and CompleteMultipartUpload to
    // upload the file.
    let multipart_upload_res: CreateMultipartUploadOutput = client
        .create_multipart_upload()
        .bucket(&bucket_name)
        .key(&key)
        .send()
        .await?;

    let upload_id = multipart_upload_res.upload_id().ok_or(S3ExampleError::new(
        "Missing upload_id after CreateMultipartUpload",
    ))?;
```

```
    // upload_parts: Vec<aws_sdk_s3::types::CompletedPart>
    let completed_multipart_upload: CompletedMultipartUpload = CompletedMultipartUpload::builder()
        .set_parts(Some(upload_parts))
        .build();

    let _complete_multipart_upload_res = client
        .complete_multipart_upload()
        .bucket(&bucket_name)
        .key(&key)
        .multipart_upload(completed_multipart_upload)
        .upload_id(upload_id)
        .send()
        .await?;
```
+  Untuk detail API, lihat [UploadPart](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.upload_part)*referensi AWS SDK for Rust API*. 

## Skenario
<a name="scenarios"></a>

### Mengonversi teks menjadi ucapan dan kembali ke teks
<a name="cross_Telephone_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Menggunakan Amazon Polly untuk mensintesis file input teks biasa (UTF-8) ke file audio.
+ Mengunggah file audio ke bucket Amazon S3.
+ Menggunakan Amazon Transcribe untuk mengonversi file audio menjadi teks.
+ Tampilkan teks.

**SDK for Rust**  
 Gunakan Amazon Polly untuk mensintesis file input teks biasa (UTF-8) menjadi file audio, unggah file audio ke bucket Amazon S3, gunakan Amazon Transcribe untuk mengonversi file audio tersebut menjadi teks, dan tampilkan teksnya.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service#code-examples).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Polly
+ Amazon S3
+ Amazon Transcribe

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 
Buat permintaan presigning ke objek GET S3.  

```
/// Generate a URL for a presigned GET request.
async fn get_object(
    client: &Client,
    bucket: &str,
    object: &str,
    expires_in: u64,
) -> Result<(), Box<dyn Error>> {
    let expires_in = Duration::from_secs(expires_in);
    let presigned_request = client
        .get_object()
        .bucket(bucket)
        .key(object)
        .presigned(PresigningConfig::expires_in(expires_in)?)
        .await?;

    println!("Object URI: {}", presigned_request.uri());
    let valid_until = chrono::offset::Local::now() + expires_in;
    println!("Valid until: {valid_until}");

    Ok(())
}
```
Buat permintaan presigning ke objek PUT S3.  

```
async fn put_object(
    client: &Client,
    bucket: &str,
    object: &str,
    expires_in: u64,
) -> Result<String, S3ExampleError> {
    let expires_in: std::time::Duration = std::time::Duration::from_secs(expires_in);
    let expires_in: aws_sdk_s3::presigning::PresigningConfig =
        PresigningConfig::expires_in(expires_in).map_err(|err| {
            S3ExampleError::new(format!(
                "Failed to convert expiration to PresigningConfig: {err:?}"
            ))
        })?;
    let presigned_request = client
        .put_object()
        .bucket(bucket)
        .key(object)
        .presigned(expires_in)
        .await?;

    Ok(presigned_request.uri().into())
}
```

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK for Rust**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/cross_service/photo_asset_management).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

### Mendeteksi wajah dalam gambar
<a name="cross_DetectFaces_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Menyimpan gambar di bucket Amazon S3.
+ Menggunakan Amazon Rekognition untuk mendeteksi detail wajah, seperti rentang usia, jenis kelamin, dan emosi (seperti tersenyum).
+ Menampilkan detail tersebut.

**SDK for Rust**  
 Menyimpan gambar di bucket Amazon S3 dengan prefiks **unggahan**, menggunakan Amazon Rekognition untuk mendeteksi detail wajah, seperti rentang usia, jenis kelamin, dan emosi (tersenyum, dll.), dan menampilkan detail tersebut.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service/detect_faces/src/main.rs).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Rekognition
+ Amazon S3

### Mendapatkan objek dari bucket jika telah diubah
<a name="s3_GetObject_IfModifiedSince_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membaca data dari objek di bucket S3, tetapi hanya jika bucket tersebut belum dimodifikasi sejak waktu pengambilan terakhir.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
use aws_sdk_s3::{
    error::SdkError,
    primitives::{ByteStream, DateTime, DateTimeFormat},
    Client,
};
use s3_code_examples::error::S3ExampleError;
use tracing::{error, warn};

const KEY: &str = "key";
const BODY: &str = "Hello, world!";

/// Demonstrate how `if-modified-since` reports that matching objects haven't
/// changed.
///
/// # Steps
/// - Create a bucket.
/// - Put an object in the bucket.
/// - Get the bucket headers.
/// - Get the bucket headers again but only if modified.
/// - Delete the bucket.
#[tokio::main]
async fn main() -> Result<(), S3ExampleError> {
    tracing_subscriber::fmt::init();

    // Get a new UUID to use when creating a unique bucket name.
    let uuid = uuid::Uuid::new_v4();

    // Load the AWS configuration from the environment.
    let client = Client::new(&aws_config::load_from_env().await);

    // Generate a unique bucket name using the previously generated UUID.
    // Then create a new bucket with that name.
    let bucket_name = format!("if-modified-since-{uuid}");
    client
        .create_bucket()
        .bucket(bucket_name.clone())
        .send()
        .await?;

    // Create a new object in the bucket whose name is `KEY` and whose
    // contents are `BODY`.
    let put_object_output = client
        .put_object()
        .bucket(bucket_name.as_str())
        .key(KEY)
        .body(ByteStream::from_static(BODY.as_bytes()))
        .send()
        .await;

    // If the `PutObject` succeeded, get the eTag string from it. Otherwise,
    // report an error and return an empty string.
    let e_tag_1 = match put_object_output {
        Ok(put_object) => put_object.e_tag.unwrap(),
        Err(err) => {
            error!("{err:?}");
            String::new()
        }
    };

    // Request the object's headers.
    let head_object_output = client
        .head_object()
        .bucket(bucket_name.as_str())
        .key(KEY)
        .send()
        .await;

    // If the `HeadObject` request succeeded, create a tuple containing the
    // values of the headers `last-modified` and `etag`. If the request
    // failed, return the error in a tuple instead.
    let (last_modified, e_tag_2) = match head_object_output {
        Ok(head_object) => (
            Ok(head_object.last_modified().cloned().unwrap()),
            head_object.e_tag.unwrap(),
        ),
        Err(err) => (Err(err), String::new()),
    };

    warn!("last modified: {last_modified:?}");
    assert_eq!(
        e_tag_1, e_tag_2,
        "PutObject and first GetObject had differing eTags"
    );

    println!("First value of last_modified: {last_modified:?}");
    println!("First tag: {}\n", e_tag_1);

    // Send a second `HeadObject` request. This time, the `if_modified_since`
    // option is specified, giving the `last_modified` value returned by the
    // first call to `HeadObject`.
    //
    // Since the object hasn't been changed, and there are no other objects in
    // the bucket, there should be no matching objects.

    let head_object_output = client
        .head_object()
        .bucket(bucket_name.as_str())
        .key(KEY)
        .if_modified_since(last_modified.unwrap())
        .send()
        .await;

    // If the `HeadObject` request succeeded, the result is a typle containing
    // the `last_modified` and `e_tag_1` properties. This is _not_ the expected
    // result.
    //
    // The _expected_ result of the second call to `HeadObject` is an
    // `SdkError::ServiceError` containing the HTTP error response. If that's
    // the case and the HTTP status is 304 (not modified), the output is a
    // tuple containing the values of the HTTP `last-modified` and `etag`
    // headers.
    //
    // If any other HTTP error occurred, the error is returned as an
    // `SdkError::ServiceError`.

    let (last_modified, e_tag_2) = match head_object_output {
        Ok(head_object) => (
            Ok(head_object.last_modified().cloned().unwrap()),
            head_object.e_tag.unwrap(),
        ),
        Err(err) => match err {
            SdkError::ServiceError(err) => {
                // Get the raw HTTP response. If its status is 304, the
                // object has not changed. This is the expected code path.
                let http = err.raw();
                match http.status().as_u16() {
                    // If the HTTP status is 304: Not Modified, return a
                    // tuple containing the values of the HTTP
                    // `last-modified` and `etag` headers.
                    304 => (
                        Ok(DateTime::from_str(
                            http.headers().get("last-modified").unwrap(),
                            DateTimeFormat::HttpDate,
                        )
                        .unwrap()),
                        http.headers().get("etag").map(|t| t.into()).unwrap(),
                    ),
                    // Any other HTTP status code is returned as an
                    // `SdkError::ServiceError`.
                    _ => (Err(SdkError::ServiceError(err)), String::new()),
                }
            }
            // Any other kind of error is returned in a tuple containing the
            // error and an empty string.
            _ => (Err(err), String::new()),
        },
    };

    warn!("last modified: {last_modified:?}");
    assert_eq!(
        e_tag_1, e_tag_2,
        "PutObject and second HeadObject had different eTags"
    );

    println!("Second value of last modified: {last_modified:?}");
    println!("Second tag: {}", e_tag_2);

    // Clean up by deleting the object and the bucket.
    client
        .delete_object()
        .bucket(bucket_name.as_str())
        .key(KEY)
        .send()
        .await?;

    client
        .delete_bucket()
        .bucket(bucket_name.as_str())
        .send()
        .await?;

    Ok(())
}
```
+  Untuk detail API, lihat [GetObject](https://docs.rs/aws-sdk-s3/latest/aws_sdk_s3/client/struct.Client.html#method.get_object)*referensi AWS SDK for Rust API*. 

### Menyimpan EXIF dan informasi gambar lainnya
<a name="cross_DetectLabels_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara:
+ Mendapatkan informasi EXIF dari file JPG, JPEG, atau PNG.
+ Mengunggah file gambar ke bucket Amazon S3.
+ Menggunakan Amazon Rekognition untuk mengidentifikasi tiga atribut teratas (label) dalam file.
+ Menambahkan informasi EXIF dan label ke tabel Amazon DynamoDB di Wilayah.

**SDK for Rust**  
 Mendapatkan informasi EXIF dari file JPG, JPEG, atau PNG, mengunggah file gambar ke bucket Amazon S3, menggunakan Amazon Rekognition untuk mengidentifikasi tiga atribut teratas (label di *Amazon* Rekognition) dalam file, dan menambahkan EXIF dan informasi label ke tabel Amazon DynamoDB di Wilayah.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service/detect_labels/src/main.rs).   

**Layanan yang digunakan dalam contoh ini**
+ DynamoDB
+ Amazon Rekognition
+ Amazon S3

### Pengujian unit dan integrasi dengan SDK
<a name="cross_Testing_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara contoh teknik praktik terbaik saat menulis unit dan pengujian integrasi menggunakan AWS SDK.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/testing#code-examples). 
Cargo.toml untuk contoh pengujian.  

```
[package]
name = "testing-examples"
version = "0.1.0"
authors = [
  "John Disanti <jdisanti@amazon.com>",
  "Doug Schwartz <dougsch@amazon.com>",
]
edition = "2021"

[dependencies]
async-trait = "0.1.51"
aws-config = { version = "1.0.1", features = ["behavior-version-latest"] }
aws-credential-types = { version = "1.0.1", features = [ "hardcoded-credentials", ] }
aws-sdk-s3 = { version = "1.4.0" }
aws-smithy-types = { version = "1.0.1" }
aws-smithy-runtime = { version = "1.0.1", features = ["test-util"] }
aws-smithy-runtime-api = { version = "1.0.1", features = ["test-util"] }
aws-types = { version = "1.0.1" }
clap = { version = "4.4", features = ["derive"] }
http = "0.2.9"
mockall = "0.11.4"
serde_json = "1"
tokio = { version = "1.20.1", features = ["full"] }
tracing-subscriber = { version = "0.3.15", features = ["env-filter"] }

[[bin]]
name = "main"
path = "src/main.rs"
```
Contoh pengujian unit menggunakan automock dan pembungkus layanan.  

```
use aws_sdk_s3 as s3;
#[allow(unused_imports)]
use mockall::automock;

use s3::operation::list_objects_v2::{ListObjectsV2Error, ListObjectsV2Output};

#[cfg(test)]
pub use MockS3Impl as S3;
#[cfg(not(test))]
pub use S3Impl as S3;

#[allow(dead_code)]
pub struct S3Impl {
    inner: s3::Client,
}

#[cfg_attr(test, automock)]
impl S3Impl {
    #[allow(dead_code)]
    pub fn new(inner: s3::Client) -> Self {
        Self { inner }
    }

    #[allow(dead_code)]
    pub async fn list_objects(
        &self,
        bucket: &str,
        prefix: &str,
        continuation_token: Option<String>,
    ) -> Result<ListObjectsV2Output, s3::error::SdkError<ListObjectsV2Error>> {
        self.inner
            .list_objects_v2()
            .bucket(bucket)
            .prefix(prefix)
            .set_continuation_token(continuation_token)
            .send()
            .await
    }
}

#[allow(dead_code)]
pub async fn determine_prefix_file_size(
    // Now we take a reference to our trait object instead of the S3 client
    // s3_list: ListObjectsService,
    s3_list: S3,
    bucket: &str,
    prefix: &str,
) -> Result<usize, s3::Error> {
    let mut next_token: Option<String> = None;
    let mut total_size_bytes = 0;
    loop {
        let result = s3_list
            .list_objects(bucket, prefix, next_token.take())
            .await?;

        // Add up the file sizes we got back
        for object in result.contents() {
            total_size_bytes += object.size().unwrap_or(0) as usize;
        }

        // Handle pagination, and break the loop if there are no more pages
        next_token = result.next_continuation_token.clone();
        if next_token.is_none() {
            break;
        }
    }
    Ok(total_size_bytes)
}

#[cfg(test)]
mod test {
    use super::*;
    use mockall::predicate::eq;

    #[tokio::test]
    async fn test_single_page() {
        let mut mock = MockS3Impl::default();
        mock.expect_list_objects()
            .with(eq("test-bucket"), eq("test-prefix"), eq(None))
            .return_once(|_, _, _| {
                Ok(ListObjectsV2Output::builder()
                    .set_contents(Some(vec![
                        // Mock content for ListObjectsV2 response
                        s3::types::Object::builder().size(5).build(),
                        s3::types::Object::builder().size(2).build(),
                    ]))
                    .build())
            });

        // Run the code we want to test with it
        let size = determine_prefix_file_size(mock, "test-bucket", "test-prefix")
            .await
            .unwrap();

        // Verify we got the correct total size back
        assert_eq!(7, size);
    }

    #[tokio::test]
    async fn test_multiple_pages() {
        // Create the Mock instance with two pages of objects now
        let mut mock = MockS3Impl::default();
        mock.expect_list_objects()
            .with(eq("test-bucket"), eq("test-prefix"), eq(None))
            .return_once(|_, _, _| {
                Ok(ListObjectsV2Output::builder()
                    .set_contents(Some(vec![
                        // Mock content for ListObjectsV2 response
                        s3::types::Object::builder().size(5).build(),
                        s3::types::Object::builder().size(2).build(),
                    ]))
                    .set_next_continuation_token(Some("next".to_string()))
                    .build())
            });
        mock.expect_list_objects()
            .with(
                eq("test-bucket"),
                eq("test-prefix"),
                eq(Some("next".to_string())),
            )
            .return_once(|_, _, _| {
                Ok(ListObjectsV2Output::builder()
                    .set_contents(Some(vec![
                        // Mock content for ListObjectsV2 response
                        s3::types::Object::builder().size(3).build(),
                        s3::types::Object::builder().size(9).build(),
                    ]))
                    .build())
            });

        // Run the code we want to test with it
        let size = determine_prefix_file_size(mock, "test-bucket", "test-prefix")
            .await
            .unwrap();

        assert_eq!(19, size);
    }
}
```
Contoh pengujian integrasi menggunakan StaticReplayClient.  

```
use aws_sdk_s3 as s3;

#[allow(dead_code)]
pub async fn determine_prefix_file_size(
    // Now we take a reference to our trait object instead of the S3 client
    // s3_list: ListObjectsService,
    s3: s3::Client,
    bucket: &str,
    prefix: &str,
) -> Result<usize, s3::Error> {
    let mut next_token: Option<String> = None;
    let mut total_size_bytes = 0;
    loop {
        let result = s3
            .list_objects_v2()
            .prefix(prefix)
            .bucket(bucket)
            .set_continuation_token(next_token.take())
            .send()
            .await?;

        // Add up the file sizes we got back
        for object in result.contents() {
            total_size_bytes += object.size().unwrap_or(0) as usize;
        }

        // Handle pagination, and break the loop if there are no more pages
        next_token = result.next_continuation_token.clone();
        if next_token.is_none() {
            break;
        }
    }
    Ok(total_size_bytes)
}

#[allow(dead_code)]
fn make_s3_test_credentials() -> s3::config::Credentials {
    s3::config::Credentials::new(
        "ATESTCLIENT",
        "astestsecretkey",
        Some("atestsessiontoken".to_string()),
        None,
        "",
    )
}

#[cfg(test)]
mod test {
    use super::*;
    use aws_config::BehaviorVersion;
    use aws_sdk_s3 as s3;
    use aws_smithy_runtime::client::http::test_util::{ReplayEvent, StaticReplayClient};
    use aws_smithy_types::body::SdkBody;

    #[tokio::test]
    async fn test_single_page() {
        let page_1 = ReplayEvent::new(
                http::Request::builder()
                    .method("GET")
                    .uri("https://test-bucket.s3.us-east-1.amazonaws.com/?list-type=2&prefix=test-prefix")
                    .body(SdkBody::empty())
                    .unwrap(),
                http::Response::builder()
                    .status(200)
                    .body(SdkBody::from(include_str!("./testing/response_1.xml")))
                    .unwrap(),
            );
        let replay_client = StaticReplayClient::new(vec![page_1]);
        let client: s3::Client = s3::Client::from_conf(
            s3::Config::builder()
                .behavior_version(BehaviorVersion::latest())
                .credentials_provider(make_s3_test_credentials())
                .region(s3::config::Region::new("us-east-1"))
                .http_client(replay_client.clone())
                .build(),
        );

        // Run the code we want to test with it
        let size = determine_prefix_file_size(client, "test-bucket", "test-prefix")
            .await
            .unwrap();

        // Verify we got the correct total size back
        assert_eq!(7, size);
        replay_client.assert_requests_match(&[]);
    }

    #[tokio::test]
    async fn test_multiple_pages() {
        let page_1 = ReplayEvent::new(
                http::Request::builder()
                    .method("GET")
                    .uri("https://test-bucket.s3.us-east-1.amazonaws.com/?list-type=2&prefix=test-prefix")
                    .body(SdkBody::empty())
                    .unwrap(),
                http::Response::builder()
                    .status(200)
                    .body(SdkBody::from(include_str!("./testing/response_multi_1.xml")))
                    .unwrap(),
            );
        let page_2 = ReplayEvent::new(
                http::Request::builder()
                    .method("GET")
                    .uri("https://test-bucket.s3.us-east-1.amazonaws.com/?list-type=2&prefix=test-prefix&continuation-token=next")
                    .body(SdkBody::empty())
                    .unwrap(),
                http::Response::builder()
                    .status(200)
                    .body(SdkBody::from(include_str!("./testing/response_multi_2.xml")))
                    .unwrap(),
            );
        let replay_client = StaticReplayClient::new(vec![page_1, page_2]);
        let client: s3::Client = s3::Client::from_conf(
            s3::Config::builder()
                .behavior_version(BehaviorVersion::latest())
                .credentials_provider(make_s3_test_credentials())
                .region(s3::config::Region::new("us-east-1"))
                .http_client(replay_client.clone())
                .build(),
        );

        // Run the code we want to test with it
        let size = determine_prefix_file_size(client, "test-bucket", "test-prefix")
            .await
            .unwrap();

        assert_eq!(19, size);

        replay_client.assert_requests_match(&[]);
    }
}
```

### Mengunggah atau mengunduh file besar
<a name="s3_Scenario_UsingLargeFiles_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah atau mengunduh file besar ke dan dari Amazon S3.

Untuk informasi selengkapnya, lihat [Pengunggahan objek menggunakan unggahan multibagian](https://docs.aws.amazon.com/AmazonS3/latest/userguide/mpu-upload-object.html).

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/s3#code-examples). 

```
use std::fs::File;
use std::io::prelude::*;
use std::path::Path;

use aws_config::meta::region::RegionProviderChain;
use aws_sdk_s3::error::DisplayErrorContext;
use aws_sdk_s3::operation::{
    create_multipart_upload::CreateMultipartUploadOutput, get_object::GetObjectOutput,
};
use aws_sdk_s3::types::{CompletedMultipartUpload, CompletedPart};
use aws_sdk_s3::{config::Region, Client as S3Client};
use aws_smithy_types::byte_stream::{ByteStream, Length};
use rand::distributions::Alphanumeric;
use rand::{thread_rng, Rng};
use s3_code_examples::error::S3ExampleError;
use std::process;
use uuid::Uuid;

//In bytes, minimum chunk size of 5MB. Increase CHUNK_SIZE to send larger chunks.
const CHUNK_SIZE: u64 = 1024 * 1024 * 5;
const MAX_CHUNKS: u64 = 10000;

#[tokio::main]
pub async fn main() {
    if let Err(err) = run_example().await {
        eprintln!("Error: {}", DisplayErrorContext(err));
        process::exit(1);
    }
}

async fn run_example() -> Result<(), S3ExampleError> {
    let shared_config = aws_config::load_from_env().await;
    let client = S3Client::new(&shared_config);

    let bucket_name = format!("amzn-s3-demo-bucket-{}", Uuid::new_v4());
    let region_provider = RegionProviderChain::first_try(Region::new("us-west-2"));
    let region = region_provider.region().await.unwrap();
    s3_code_examples::create_bucket(&client, &bucket_name, &region).await?;

    let key = "sample.txt".to_string();
    // Create a multipart upload. Use UploadPart and CompleteMultipartUpload to
    // upload the file.
    let multipart_upload_res: CreateMultipartUploadOutput = client
        .create_multipart_upload()
        .bucket(&bucket_name)
        .key(&key)
        .send()
        .await?;

    let upload_id = multipart_upload_res.upload_id().ok_or(S3ExampleError::new(
        "Missing upload_id after CreateMultipartUpload",
    ))?;

    //Create a file of random characters for the upload.
    let mut file = File::create(&key).expect("Could not create sample file.");
    // Loop until the file is 5 chunks.
    while file.metadata().unwrap().len() <= CHUNK_SIZE * 4 {
        let rand_string: String = thread_rng()
            .sample_iter(&Alphanumeric)
            .take(256)
            .map(char::from)
            .collect();
        let return_string: String = "\n".to_string();
        file.write_all(rand_string.as_ref())
            .expect("Error writing to file.");
        file.write_all(return_string.as_ref())
            .expect("Error writing to file.");
    }

    let path = Path::new(&key);
    let file_size = tokio::fs::metadata(path)
        .await
        .expect("it exists I swear")
        .len();

    let mut chunk_count = (file_size / CHUNK_SIZE) + 1;
    let mut size_of_last_chunk = file_size % CHUNK_SIZE;
    if size_of_last_chunk == 0 {
        size_of_last_chunk = CHUNK_SIZE;
        chunk_count -= 1;
    }

    if file_size == 0 {
        return Err(S3ExampleError::new("Bad file size."));
    }
    if chunk_count > MAX_CHUNKS {
        return Err(S3ExampleError::new(
            "Too many chunks! Try increasing your chunk size.",
        ));
    }

    let mut upload_parts: Vec<aws_sdk_s3::types::CompletedPart> = Vec::new();

    for chunk_index in 0..chunk_count {
        let this_chunk = if chunk_count - 1 == chunk_index {
            size_of_last_chunk
        } else {
            CHUNK_SIZE
        };
        let stream = ByteStream::read_from()
            .path(path)
            .offset(chunk_index * CHUNK_SIZE)
            .length(Length::Exact(this_chunk))
            .build()
            .await
            .unwrap();

        // Chunk index needs to start at 0, but part numbers start at 1.
        let part_number = (chunk_index as i32) + 1;
        let upload_part_res = client
            .upload_part()
            .key(&key)
            .bucket(&bucket_name)
            .upload_id(upload_id)
            .body(stream)
            .part_number(part_number)
            .send()
            .await?;

        upload_parts.push(
            CompletedPart::builder()
                .e_tag(upload_part_res.e_tag.unwrap_or_default())
                .part_number(part_number)
                .build(),
        );
    }

    // upload_parts: Vec<aws_sdk_s3::types::CompletedPart>
    let completed_multipart_upload: CompletedMultipartUpload = CompletedMultipartUpload::builder()
        .set_parts(Some(upload_parts))
        .build();

    let _complete_multipart_upload_res = client
        .complete_multipart_upload()
        .bucket(&bucket_name)
        .key(&key)
        .multipart_upload(completed_multipart_upload)
        .upload_id(upload_id)
        .send()
        .await?;

    let data: GetObjectOutput =
        s3_code_examples::download_object(&client, &bucket_name, &key).await?;
    let data_length: u64 = data
        .content_length()
        .unwrap_or_default()
        .try_into()
        .unwrap();
    if file.metadata().unwrap().len() == data_length {
        println!("Data lengths match.");
    } else {
        println!("The data was not the same size!");
    }

    s3_code_examples::clear_bucket(&client, &bucket_name)
        .await
        .expect("Error emptying bucket.");
    s3_code_examples::delete_bucket(&client, &bucket_name)
        .await
        .expect("Error deleting bucket.");

    Ok(())
}
```

## Contoh nirserver
<a name="serverless_examples"></a>

### Menginvokasi fungsi Lambda dari pemicu Amazon S3
<a name="serverless_S3_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan fungsi Lambda yang menerima peristiwa yang dipicu dengan mengunggah objek ke bucket S3. Fungsi ini mengambil nama bucket S3 dan kunci objek dari parameter peristiwa dan memanggil Amazon S3 API untuk mengambil dan mencatat jenis konten objek.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-s3-to-lambda). 
Menggunakan peristiwa S3 dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::event::s3::S3Event;
use aws_sdk_s3::{Client};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};


/// Main function
#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        .with_target(false)
        .without_time()
        .init();

    // Initialize the AWS SDK for Rust
    let config = aws_config::load_from_env().await;
    let s3_client = Client::new(&config);

    let res = run(service_fn(|request: LambdaEvent<S3Event>| {
        function_handler(&s3_client, request)
    })).await;

    res
}

async fn function_handler(
    s3_client: &Client,
    evt: LambdaEvent<S3Event>
) -> Result<(), Error> {
    tracing::info!(records = ?evt.payload.records.len(), "Received request from SQS");

    if evt.payload.records.len() == 0 {
        tracing::info!("Empty S3 event received");
    }

    let bucket = evt.payload.records[0].s3.bucket.name.as_ref().expect("Bucket name to exist");
    let key = evt.payload.records[0].s3.object.key.as_ref().expect("Object key to exist");

    tracing::info!("Request is for {} and object {}", bucket, key);

    let s3_get_object_result = s3_client
        .get_object()
        .bucket(bucket)
        .key(key)
        .send()
        .await;

    match s3_get_object_result {
        Ok(_) => tracing::info!("S3 Get Object success, the s3GetObjectResult contains a 'body' property of type ByteStream"),
        Err(_) => tracing::info!("Failure with S3 Get Object request")
    }

    Ok(())
}
```

# SageMaker Contoh AI menggunakan SDK untuk Rust
<a name="rust_1_sagemaker_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan SageMaker AI.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListNotebookInstances`
<a name="sagemaker_ListNotebookInstances_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListNotebookInstances`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sagemaker#code-examples). 

```
async fn show_instances(client: &Client) -> Result<(), Error> {
    let notebooks = client.list_notebook_instances().send().await?;

    println!("Notebooks:");

    for n in notebooks.notebook_instances() {
        let n_instance_type = n.instance_type().unwrap();
        let n_status = n.notebook_instance_status().unwrap();
        let n_name = n.notebook_instance_name();

        println!("  Name :          {}", n_name.unwrap_or("Unknown"));
        println!("  Status :        {}", n_status.as_ref());
        println!("  Instance Type : {}", n_instance_type.as_ref());
        println!();
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListNotebookInstances](https://docs.rs/aws-sdk-sagemaker/latest/aws_sdk_sagemaker/client/struct.Client.html#method.list_notebook_instances)*referensi AWS SDK for Rust API*. 

### `ListTrainingJobs`
<a name="sagemaker_ListTrainingJobs_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTrainingJobs`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sagemaker#code-examples). 

```
async fn show_jobs(client: &Client) -> Result<(), Error> {
    let job_details = client.list_training_jobs().send().await?;

    println!("Jobs:");

    for j in job_details.training_job_summaries() {
        let name = j.training_job_name().unwrap_or("Unknown");
        let creation_time = j.creation_time().expect("creation time").to_chrono_utc()?;
        let training_end_time = j
            .training_end_time()
            .expect("Training end time")
            .to_chrono_utc()?;

        let status = j.training_job_status().expect("training status");
        let duration = training_end_time - creation_time;

        println!("  Name:               {}", name);
        println!(
            "  Creation date/time: {}",
            creation_time.format("%Y-%m-%d@%H:%M:%S")
        );
        println!("  Duration (seconds): {}", duration.num_seconds());
        println!("  Status:             {:?}", status);

        println!();
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListTrainingJobs](https://docs.rs/aws-sdk-sagemaker/latest/aws_sdk_sagemaker/client/struct.Client.html#method.list_training_jobs)*referensi AWS SDK for Rust API*. 

# Contoh Secrets Manager menggunakan SDK for Rust
<a name="rust_1_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with Secrets Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetSecretValue`
<a name="secrets-manager_GetSecretValue_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSecretValue`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/secretsmanager#code-examples). 

```
async fn show_secret(client: &Client, name: &str) -> Result<(), Error> {
    let resp = client.get_secret_value().secret_id(name).send().await?;

    println!("Value: {}", resp.secret_string().unwrap_or("No value!"));

    Ok(())
}
```
+  Untuk detail API, lihat [GetSecretValue](https://docs.rs/aws-sdk-secretsmanager/latest/aws_sdk_secretsmanager/client/struct.Client.html#method.get_secret_value)*referensi AWS SDK for Rust API*. 

# Contoh Amazon SES API v2 menggunakan SDK untuk Rust
<a name="rust_1_sesv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon SES API v2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateContact`
<a name="sesv2_CreateContact_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContact`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
async fn add_contact(client: &Client, list: &str, email: &str) -> Result<(), Error> {
    client
        .create_contact()
        .contact_list_name(list)
        .email_address(email)
        .send()
        .await?;

    println!("Created contact");

    Ok(())
}
```
+  Untuk detail API, lihat [CreateContact](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.create_contact)*referensi AWS SDK for Rust API*. 

### `CreateContactList`
<a name="sesv2_CreateContactList_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContactList`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
async fn make_list(client: &Client, contact_list: &str) -> Result<(), Error> {
    client
        .create_contact_list()
        .contact_list_name(contact_list)
        .send()
        .await?;

    println!("Created contact list.");

    Ok(())
}
```
+  Untuk detail API, lihat [CreateContactList](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.create_contact_list)*referensi AWS SDK for Rust API*. 

### `CreateEmailIdentity`
<a name="sesv2_CreateEmailIdentity_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailIdentity`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
        match self
            .client
            .create_email_identity()
            .email_identity(self.verified_email.clone())
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Email identity created successfully.")?,
            Err(e) => match e.into_service_error() {
                CreateEmailIdentityError::AlreadyExistsException(_) => {
                    writeln!(
                        self.stdout,
                        "Email identity already exists, skipping creation."
                    )?;
                }
                e => return Err(anyhow!("Error creating email identity: {}", e)),
            },
        }
```
+  Untuk detail API, lihat [CreateEmailIdentity](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.create_email_identity)*referensi AWS SDK for Rust API*. 

### `CreateEmailTemplate`
<a name="sesv2_CreateEmailTemplate_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailTemplate`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
        let template_html =
            std::fs::read_to_string("../resources/newsletter/coupon-newsletter.html")
                .unwrap_or_else(|_| "Missing coupon-newsletter.html".to_string());
        let template_text =
            std::fs::read_to_string("../resources/newsletter/coupon-newsletter.txt")
                .unwrap_or_else(|_| "Missing coupon-newsletter.txt".to_string());

        // Create the email template
        let template_content = EmailTemplateContent::builder()
            .subject("Weekly Coupons Newsletter")
            .html(template_html)
            .text(template_text)
            .build();

        match self
            .client
            .create_email_template()
            .template_name(TEMPLATE_NAME)
            .template_content(template_content)
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Email template created successfully.")?,
            Err(e) => match e.into_service_error() {
                CreateEmailTemplateError::AlreadyExistsException(_) => {
                    writeln!(
                        self.stdout,
                        "Email template already exists, skipping creation."
                    )?;
                }
                e => return Err(anyhow!("Error creating email template: {}", e)),
            },
        }
```
+  Untuk detail API, lihat [CreateEmailTemplate](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.create_email_template)*referensi AWS SDK for Rust API*. 

### `DeleteContactList`
<a name="sesv2_DeleteContactList_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteContactList`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
        match self
            .client
            .delete_contact_list()
            .contact_list_name(CONTACT_LIST_NAME)
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Contact list deleted successfully.")?,
            Err(e) => return Err(anyhow!("Error deleting contact list: {e}")),
        }
```
+  Untuk detail API, lihat [DeleteContactList](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.delete_contact_list)*referensi AWS SDK for Rust API*. 

### `DeleteEmailIdentity`
<a name="sesv2_DeleteEmailIdentity_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailIdentity`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
            match self
                .client
                .delete_email_identity()
                .email_identity(self.verified_email.clone())
                .send()
                .await
            {
                Ok(_) => writeln!(self.stdout, "Email identity deleted successfully.")?,
                Err(e) => {
                    return Err(anyhow!("Error deleting email identity: {}", e));
                }
            }
```
+  Untuk detail API, lihat [DeleteEmailIdentity](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.delete_email_identity)*referensi AWS SDK for Rust API*. 

### `DeleteEmailTemplate`
<a name="sesv2_DeleteEmailTemplate_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailTemplate`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
        match self
            .client
            .delete_email_template()
            .template_name(TEMPLATE_NAME)
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Email template deleted successfully.")?,
            Err(e) => {
                return Err(anyhow!("Error deleting email template: {e}"));
            }
        }
```
+  Untuk detail API, lihat [DeleteEmailTemplate](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.delete_email_template)*referensi AWS SDK for Rust API*. 

### `GetEmailIdentity`
<a name="sesv2_GetEmailIdentity_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetEmailIdentity`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 
Menentukan apakah alamat email telah diverifikasi.  

```
async fn is_verified(client: &Client, email: &str) -> Result<(), Error> {
    let resp = client
        .get_email_identity()
        .email_identity(email)
        .send()
        .await?;

    if resp.verified_for_sending_status() {
        println!("The address is verified");
    } else {
        println!("The address is not verified");
    }

    Ok(())
}
```
+  Untuk detail API, lihat [GetEmailIdentity](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.get_email_identity)*referensi AWS SDK for Rust API*. 

### `ListContactLists`
<a name="sesv2_ListContactLists_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListContactLists`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
async fn show_lists(client: &Client) -> Result<(), Error> {
    let resp = client.list_contact_lists().send().await?;

    println!("Contact lists:");

    for list in resp.contact_lists() {
        println!("  {}", list.contact_list_name().unwrap_or_default());
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListContactLists](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.list_contact_lists)*referensi AWS SDK for Rust API*. 

### `ListContacts`
<a name="sesv2_ListContacts_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListContacts`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
async fn show_contacts(client: &Client, list: &str) -> Result<(), Error> {
    let resp = client
        .list_contacts()
        .contact_list_name(list)
        .send()
        .await?;

    println!("Contacts:");

    for contact in resp.contacts() {
        println!("  {}", contact.email_address().unwrap_or_default());
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListContacts](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.list_contacts)*referensi AWS SDK for Rust API*. 

### `SendEmail`
<a name="sesv2_SendEmail_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 
Mengirim pesan ke semua anggota daftar kontak.  

```
async fn send_message(
    client: &Client,
    list: &str,
    from: &str,
    subject: &str,
    message: &str,
) -> Result<(), Error> {
    // Get list of email addresses from contact list.
    let resp = client
        .list_contacts()
        .contact_list_name(list)
        .send()
        .await?;

    let contacts = resp.contacts();

    let cs: Vec<String> = contacts
        .iter()
        .map(|i| i.email_address().unwrap_or_default().to_string())
        .collect();

    let mut dest: Destination = Destination::builder().build();
    dest.to_addresses = Some(cs);
    let subject_content = Content::builder()
        .data(subject)
        .charset("UTF-8")
        .build()
        .expect("building Content");
    let body_content = Content::builder()
        .data(message)
        .charset("UTF-8")
        .build()
        .expect("building Content");
    let body = Body::builder().text(body_content).build();

    let msg = Message::builder()
        .subject(subject_content)
        .body(body)
        .build();

    let email_content = EmailContent::builder().simple(msg).build();

    client
        .send_email()
        .from_email_address(from)
        .destination(dest)
        .content(email_content)
        .send()
        .await?;

    println!("Email sent to list");

    Ok(())
}
```
Mengirim pesan ke semua anggota daftar kontak menggunakan template.  

```
            let coupons = std::fs::read_to_string("../resources/newsletter/sample_coupons.json")
                .unwrap_or_else(|_| r#"{"coupons":[]}"#.to_string());
            let email_content = EmailContent::builder()
                .template(
                    Template::builder()
                        .template_name(TEMPLATE_NAME)
                        .template_data(coupons)
                        .build(),
                )
                .build();

            match self
                .client
                .send_email()
                .from_email_address(self.verified_email.clone())
                .destination(Destination::builder().to_addresses(email.clone()).build())
                .content(email_content)
                .list_management_options(
                    ListManagementOptions::builder()
                        .contact_list_name(CONTACT_LIST_NAME)
                        .build()?,
                )
                .send()
                .await
            {
                Ok(output) => {
                    if let Some(message_id) = output.message_id {
                        writeln!(
                            self.stdout,
                            "Newsletter sent to {} with message ID {}",
                            email, message_id
                        )?;
                    } else {
                        writeln!(self.stdout, "Newsletter sent to {}", email)?;
                    }
                }
                Err(e) => return Err(anyhow!("Error sending newsletter to {}: {}", email, e)),
            }
```
+  Untuk detail API, lihat [SendEmail](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.send_email)*referensi AWS SDK for Rust API*. 

## Skenario
<a name="scenarios"></a>

### Skenario buletin
<a name="sesv2_NewsletterWorkflow_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menjalankan skenario buletin Amazon SES API v2.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ses#code-examples). 

```
        match self
            .client
            .create_contact_list()
            .contact_list_name(CONTACT_LIST_NAME)
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Contact list created successfully.")?,
            Err(e) => match e.into_service_error() {
                CreateContactListError::AlreadyExistsException(_) => {
                    writeln!(
                        self.stdout,
                        "Contact list already exists, skipping creation."
                    )?;
                }
                e => return Err(anyhow!("Error creating contact list: {}", e)),
            },
        }

            match self
                .client
                .create_contact()
                .contact_list_name(CONTACT_LIST_NAME)
                .email_address(email.clone())
                .send()
                .await
            {
                Ok(_) => writeln!(self.stdout, "Contact created for {}", email)?,
                Err(e) => match e.into_service_error() {
                    CreateContactError::AlreadyExistsException(_) => writeln!(
                        self.stdout,
                        "Contact already exists for {}, skipping creation.",
                        email
                    )?,
                    e => return Err(anyhow!("Error creating contact for {}: {}", email, e)),
                },
            }

        let contacts: Vec<Contact> = match self
            .client
            .list_contacts()
            .contact_list_name(CONTACT_LIST_NAME)
            .send()
            .await
        {
            Ok(list_contacts_output) => {
                list_contacts_output.contacts.unwrap().into_iter().collect()
            }
            Err(e) => {
                return Err(anyhow!(
                    "Error retrieving contact list {}: {}",
                    CONTACT_LIST_NAME,
                    e
                ))
            }
        };

            let coupons = std::fs::read_to_string("../resources/newsletter/sample_coupons.json")
                .unwrap_or_else(|_| r#"{"coupons":[]}"#.to_string());
            let email_content = EmailContent::builder()
                .template(
                    Template::builder()
                        .template_name(TEMPLATE_NAME)
                        .template_data(coupons)
                        .build(),
                )
                .build();

            match self
                .client
                .send_email()
                .from_email_address(self.verified_email.clone())
                .destination(Destination::builder().to_addresses(email.clone()).build())
                .content(email_content)
                .list_management_options(
                    ListManagementOptions::builder()
                        .contact_list_name(CONTACT_LIST_NAME)
                        .build()?,
                )
                .send()
                .await
            {
                Ok(output) => {
                    if let Some(message_id) = output.message_id {
                        writeln!(
                            self.stdout,
                            "Newsletter sent to {} with message ID {}",
                            email, message_id
                        )?;
                    } else {
                        writeln!(self.stdout, "Newsletter sent to {}", email)?;
                    }
                }
                Err(e) => return Err(anyhow!("Error sending newsletter to {}: {}", email, e)),
            }

        match self
            .client
            .create_email_identity()
            .email_identity(self.verified_email.clone())
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Email identity created successfully.")?,
            Err(e) => match e.into_service_error() {
                CreateEmailIdentityError::AlreadyExistsException(_) => {
                    writeln!(
                        self.stdout,
                        "Email identity already exists, skipping creation."
                    )?;
                }
                e => return Err(anyhow!("Error creating email identity: {}", e)),
            },
        }

        let template_html =
            std::fs::read_to_string("../resources/newsletter/coupon-newsletter.html")
                .unwrap_or_else(|_| "Missing coupon-newsletter.html".to_string());
        let template_text =
            std::fs::read_to_string("../resources/newsletter/coupon-newsletter.txt")
                .unwrap_or_else(|_| "Missing coupon-newsletter.txt".to_string());

        // Create the email template
        let template_content = EmailTemplateContent::builder()
            .subject("Weekly Coupons Newsletter")
            .html(template_html)
            .text(template_text)
            .build();

        match self
            .client
            .create_email_template()
            .template_name(TEMPLATE_NAME)
            .template_content(template_content)
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Email template created successfully.")?,
            Err(e) => match e.into_service_error() {
                CreateEmailTemplateError::AlreadyExistsException(_) => {
                    writeln!(
                        self.stdout,
                        "Email template already exists, skipping creation."
                    )?;
                }
                e => return Err(anyhow!("Error creating email template: {}", e)),
            },
        }

        match self
            .client
            .delete_contact_list()
            .contact_list_name(CONTACT_LIST_NAME)
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Contact list deleted successfully.")?,
            Err(e) => return Err(anyhow!("Error deleting contact list: {e}")),
        }

            match self
                .client
                .delete_email_identity()
                .email_identity(self.verified_email.clone())
                .send()
                .await
            {
                Ok(_) => writeln!(self.stdout, "Email identity deleted successfully.")?,
                Err(e) => {
                    return Err(anyhow!("Error deleting email identity: {}", e));
                }
            }

        match self
            .client
            .delete_email_template()
            .template_name(TEMPLATE_NAME)
            .send()
            .await
        {
            Ok(_) => writeln!(self.stdout, "Email template deleted successfully.")?,
            Err(e) => {
                return Err(anyhow!("Error deleting email template: {e}"));
            }
        }
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK for Rust*.
  + [CreateContact](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.create_contact)
  + [CreateContactList](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.create_contact_list)
  + [CreateEmailIdentity](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.create_email_identity)
  + [CreateEmailTemplate](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.create_email_template)
  + [DeleteContactList](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.delete_contact_list)
  + [DeleteEmailIdentity](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.delete_email_identity)
  + [DeleteEmailTemplate](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.delete_email_template)
  + [ListContacts](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.list_contacts)
  + [SendEmail.sederhana](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.send_email.simple)
  + [SendEmail.template](https://docs.rs/aws-sdk-sesv2/latest/aws_sdk_sesv2/client/struct.Client.html#method.send_email.template)

# Contoh Amazon SNS menggunakan SDK untuk Rust
<a name="rust_1_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `CreateTopic`
<a name="sns_CreateTopic_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sns#code-examples). 

```
async fn make_topic(client: &Client, topic_name: &str) -> Result<(), Error> {
    let resp = client.create_topic().name(topic_name).send().await?;

    println!(
        "Created topic with ARN: {}",
        resp.topic_arn().unwrap_or_default()
    );

    Ok(())
}
```
+  Untuk detail API, lihat [CreateTopic](https://docs.rs/aws-sdk-sns/latest/aws_sdk_sns/client/struct.Client.html#method.create_topic)*referensi AWS SDK for Rust API*. 

### `ListTopics`
<a name="sns_ListTopics_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sns#code-examples). 

```
async fn show_topics(client: &Client) -> Result<(), Error> {
    let resp = client.list_topics().send().await?;

    println!("Topic ARNs:");

    for topic in resp.topics() {
        println!("{}", topic.topic_arn().unwrap_or_default());
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ListTopics](https://docs.rs/aws-sdk-sns/latest/aws_sdk_sns/client/struct.Client.html#method.list_topics)*referensi AWS SDK for Rust API*. 

### `Publish`
<a name="sns_Publish_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sns#code-examples). 

```
async fn subscribe_and_publish(
    client: &Client,
    topic_arn: &str,
    email_address: &str,
) -> Result<(), Error> {
    println!("Receiving on topic with ARN: `{}`", topic_arn);

    let rsp = client
        .subscribe()
        .topic_arn(topic_arn)
        .protocol("email")
        .endpoint(email_address)
        .send()
        .await?;

    println!("Added a subscription: {:?}", rsp);

    let rsp = client
        .publish()
        .topic_arn(topic_arn)
        .message("hello sns!")
        .send()
        .await?;

    println!("Published message: {:?}", rsp);

    Ok(())
}
```
+  Untuk detail API, lihat [Menerbitkan](https://docs.rs/aws-sdk-sns/latest/aws_sdk_sns/client/struct.Client.html#method.publish) di *AWS SDK untuk referensi API Rust*. 

### `Subscribe`
<a name="sns_Subscribe_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
async fn subscribe_and_publish(
    client: &Client,
    topic_arn: &str,
    email_address: &str,
) -> Result<(), Error> {
    println!("Receiving on topic with ARN: `{}`", topic_arn);

    let rsp = client
        .subscribe()
        .topic_arn(topic_arn)
        .protocol("email")
        .endpoint(email_address)
        .send()
        .await?;

    println!("Added a subscription: {:?}", rsp);

    let rsp = client
        .publish()
        .topic_arn(topic_arn)
        .message("hello sns!")
        .send()
        .await?;

    println!("Published message: {:?}", rsp);

    Ok(())
}
```
+  Untuk detail API, lihat [Berlangganan](https://docs.rs/aws-sdk-sns/latest/aws_sdk_sns/client/struct.Client.html#method.subscribe) di *AWS SDK untuk referensi Rust API*. 

## Skenario
<a name="scenarios"></a>

### Membuat aplikasi nirserver untuk mengelola foto
<a name="cross_PAM_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat aplikasi tanpa server yang memungkinkan pengguna mengelola foto menggunakan label.

**SDK for Rust**  
 Menunjukkan cara mengembangkan aplikasi manajemen aset foto yang mendeteksi label dalam gambar menggunakan Amazon Rekognition dan menyimpannya untuk pengambilan nanti.   
Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/cross_service/photo_asset_management).  
Untuk mendalami tentang asal usul contoh ini, lihat postingan di [Komunitas AWS](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).  

**Layanan yang digunakan dalam contoh ini**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SNS
<a name="serverless_SNS_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menerapkan fungsi Lambda yang menerima peristiwa yang dipicu dengan menerima pesan dari topik SNS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sns-to-lambda). 
Mengkonsumsi acara SNS dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::event::sns::SnsEvent;
use aws_lambda_events::sns::SnsRecord;
use lambda_runtime::{run, service_fn, Error, LambdaEvent};
use tracing::info;

// Built with the following dependencies:
//  aws_lambda_events = { version = "0.10.0", default-features = false, features = ["sns"] }
//  lambda_runtime = "0.8.1"
//  tokio = { version = "1", features = ["macros"] }
//  tracing = { version = "0.1", features = ["log"] }
//  tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }

async fn function_handler(event: LambdaEvent<SnsEvent>) -> Result<(), Error> {
    for event in event.payload.records {
        process_record(&event)?;
    }
    
    Ok(())
}

fn process_record(record: &SnsRecord) -> Result<(), Error> {
    info!("Processing SNS Message: {}", record.sns.message);

    // Implement your record handling code here.

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        .with_target(false)
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

# Contoh Amazon SQS menggunakan SDK untuk Rust
<a name="rust_1_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Contoh nirserver](#serverless_examples)

## Tindakan
<a name="actions"></a>

### `ListQueues`
<a name="sqs_ListQueues_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sqs#code-examples). 
Ambil antrean Amazon SQS pertama yang terdaftar di Wilayah.  

```
async fn find_first_queue(client: &Client) -> Result<String, Error> {
    let queues = client.list_queues().send().await?;
    let queue_urls = queues.queue_urls();
    Ok(queue_urls
        .first()
        .expect("No queues in this account and Region. Create a queue to proceed.")
        .to_string())
}
```
+  Untuk detail API, lihat [ListQueues](https://docs.rs/aws-sdk-sqs/latest/aws_sdk_sqs/client/struct.Client.html#method.list_queues)*referensi AWS SDK for Rust API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sqs#code-examples). 

```
async fn receive(client: &Client, queue_url: &String) -> Result<(), Error> {
    let rcv_message_output = client.receive_message().queue_url(queue_url).send().await?;

    println!("Messages from queue with url: {}", queue_url);

    for message in rcv_message_output.messages.unwrap_or_default() {
        println!("Got the message: {:#?}", message);
    }

    Ok(())
}
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.rs/aws-sdk-sqs/latest/aws_sdk_sqs/client/struct.Client.html#method.receive_message)*referensi AWS SDK for Rust API*. 

### `SendMessage`
<a name="sqs_SendMessage_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sqs#code-examples). 

```
async fn send(client: &Client, queue_url: &String, message: &SQSMessage) -> Result<(), Error> {
    println!("Sending message to queue with URL: {}", queue_url);

    let rsp = client
        .send_message()
        .queue_url(queue_url)
        .message_body(&message.body)
        // If the queue is FIFO, you need to set .message_deduplication_id
        // and message_group_id or configure the queue for ContentBasedDeduplication.
        .send()
        .await?;

    println!("Send message to the queue: {:#?}", rsp);

    Ok(())
}
```
+  Untuk detail API, lihat [SendMessage](https://docs.rs/aws-sdk-sqs/latest/aws_sdk_sqs/client/struct.Client.html#method.send_message)*referensi AWS SDK for Rust API*. 

## Contoh nirserver
<a name="serverless_examples"></a>

### Memanggil fungsi Lambda dari pemicu Amazon SQS
<a name="serverless_SQS_Lambda_rust_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana menerapkan fungsi Lambda yang menerima peristiwa yang dipicu oleh menerima pesan dari antrian SQS. Fungsi mengambil pesan dari parameter acara dan mencatat konten setiap pesan.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/integration-sqs-to-lambda). 
Mengkonsumsi acara SQS dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::event::sqs::SqsEvent;
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

async fn function_handler(event: LambdaEvent<SqsEvent>) -> Result<(), Error> {
    event.payload.records.iter().for_each(|record| {
        // process the record
        tracing::info!("Message body: {}", record.body.as_deref().unwrap_or_default())
    });

    Ok(())
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    tracing_subscriber::fmt()
        .with_max_level(tracing::Level::INFO)
        // disable printing the name of the module in every log line.
        .with_target(false)
        // disabling time is handy because CloudWatch will add the ingestion time.
        .without_time()
        .init();

    run(service_fn(function_handler)).await
}
```

### Melaporkan kegagalan item batch untuk fungsi Lambda dengan pemicu Amazon SQS
<a name="serverless_SQS_Lambda_batch_item_failures_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara mengimplementasikan respons batch sebagian untuk fungsi Lambda yang menerima peristiwa dari antrian SQS. Fungsi melaporkan kegagalan item batch dalam respons, memberi sinyal ke Lambda untuk mencoba lagi pesan tersebut nanti.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di repositori [contoh Nirserver](https://github.com/aws-samples/serverless-snippets/tree/main/lambda-function-sqs-report-batch-item-failures). 
Melaporkan kegagalan item batch SQS dengan Lambda menggunakan Rust.  

```
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
use aws_lambda_events::{
    event::sqs::{SqsBatchResponse, SqsEvent},
    sqs::{BatchItemFailure, SqsMessage},
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};

async fn process_record(_: &SqsMessage) -> Result<(), Error> {
    Err(Error::from("Error processing message"))
}

async fn function_handler(event: LambdaEvent<SqsEvent>) -> Result<SqsBatchResponse, Error> {
    let mut batch_item_failures = Vec::new();
    for record in event.payload.records {
        match process_record(&record).await {
            Ok(_) => (),
            Err(_) => batch_item_failures.push(BatchItemFailure {
                item_identifier: record.message_id.unwrap(),
            }),
        }
    }

    Ok(SqsBatchResponse {
        batch_item_failures,
    })
}

#[tokio::main]
async fn main() -> Result<(), Error> {
    run(service_fn(function_handler)).await
}
```

# AWS STS contoh menggunakan SDK untuk Rust
<a name="rust_1_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with AWS STS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/sts/#code-examples). 

```
async fn assume_role(config: &SdkConfig, role_name: String, session_name: Option<String>) {
    let provider = aws_config::sts::AssumeRoleProvider::builder(role_name)
        .session_name(session_name.unwrap_or("rust_sdk_example_session".into()))
        .configure(config)
        .build()
        .await;

    let local_config = aws_config::from_env()
        .credentials_provider(provider)
        .load()
        .await;
    let client = Client::new(&local_config);
    let req = client.get_caller_identity();
    let resp = req.send().await;
    match resp {
        Ok(e) => {
            println!("UserID :               {}", e.user_id().unwrap_or_default());
            println!("Account:               {}", e.account().unwrap_or_default());
            println!("Arn    :               {}", e.arn().unwrap_or_default());
        }
        Err(e) => println!("{:?}", e),
    }
}
```
+  Untuk detail API, lihat [AssumeRole](https://docs.rs/aws-sdk-sts/latest/aws_sdk_sts/client/struct.Client.html#method.assume_role)*referensi AWS SDK for Rust API*. 

# Contoh Systems Manager menggunakan SDK untuk Rust
<a name="rust_1_ssm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust with Systems Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DescribeParameters`
<a name="ssm_DescribeParameters_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeParameters`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ssm#code-examples). 

```
async fn show_parameters(client: &Client) -> Result<(), Error> {
    let resp = client.describe_parameters().send().await?;

    for param in resp.parameters() {
        println!("  {}", param.name().unwrap_or_default());
    }

    Ok(())
}
```
+  Untuk detail API, lihat [DescribeParameters](https://docs.rs/aws-sdk-ssm/latest/aws_sdk_ssm/client/struct.Client.html#method.describe_parameters)*referensi AWS SDK for Rust API*. 

### `GetParameter`
<a name="ssm_GetParameter_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetParameter`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ssm#code-examples). 

```
    pub async fn list_path(&self, path: &str) -> Result<Vec<Parameter>, EC2Error> {
        let maybe_params: Vec<Result<Parameter, _>> = TryFlatMap::new(
            self.inner
                .get_parameters_by_path()
                .path(path)
                .into_paginator()
                .send(),
        )
        .flat_map(|item| item.parameters.unwrap_or_default())
        .collect()
        .await;
        // Fail on the first error
        let params = maybe_params
            .into_iter()
            .collect::<Result<Vec<Parameter>, _>>()?;
        Ok(params)
    }
```
+  Untuk detail API, lihat [GetParameter](https://docs.rs/aws-sdk-ssm/latest/aws_sdk_ssm/client/struct.Client.html#method.get_parameter)*referensi AWS SDK for Rust API*. 

### `PutParameter`
<a name="ssm_PutParameter_rust_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutParameter`.

**SDK for Rust**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ssm#code-examples). 

```
async fn make_parameter(
    client: &Client,
    name: &str,
    value: &str,
    description: &str,
) -> Result<(), Error> {
    let resp = client
        .put_parameter()
        .overwrite(true)
        .r#type(ParameterType::String)
        .name(name)
        .value(value)
        .description(description)
        .send()
        .await?;

    println!("Success! Parameter now has version: {}", resp.version());

    Ok(())
}
```
+  Untuk detail API, lihat [PutParameter](https://docs.rs/aws-sdk-ssm/latest/aws_sdk_ssm/client/struct.Client.html#method.put_parameter)*referensi AWS SDK for Rust API*. 

# Contoh Amazon Transcribe menggunakan SDK untuk Rust
<a name="rust_1_transcribe_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Rust dengan Amazon Transcribe.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Skenario](#scenarios)

## Skenario
<a name="scenarios"></a>

### Mengonversi teks menjadi ucapan dan kembali ke teks
<a name="cross_Telephone_rust_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Menggunakan Amazon Polly untuk mensintesis file input teks biasa (UTF-8) ke file audio.
+ Mengunggah file audio ke bucket Amazon S3.
+ Menggunakan Amazon Transcribe untuk mengonversi file audio menjadi teks.
+ Tampilkan teks.

**SDK for Rust**  
 Gunakan Amazon Polly untuk mensintesis file input teks biasa (UTF-8) menjadi file audio, unggah file audio ke bucket Amazon S3, gunakan Amazon Transcribe untuk mengonversi file audio tersebut menjadi teks, dan tampilkan teksnya.   
 Untuk kode sumber lengkap dan instruksi tentang cara mengatur dan menjalankan, lihat contoh lengkapnya di [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service#code-examples).   

**Layanan yang digunakan dalam contoh ini**
+ Amazon Polly
+ Amazon S3
+ Amazon Transcribe

# Contoh kode untuk SDK untuk SAP ABAP
<a name="sap-abap_1_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk SAP ABAP dengan. AWS

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK for SAP ABAP Developer Guide](https://docs.aws.amazon.com/sdk-for-sapabap/latest/developer-guide/home.html)** — Lebih lanjut tentang menggunakan SAP ABAP dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23abap)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [ACM](sap-abap_1_acm_code_examples.md)
+ [API Gateway](sap-abap_1_api-gateway_code_examples.md)
+ [Pengontrol Pemulihan Aplikasi](sap-abap_1_route53-recovery-cluster_code_examples.md)
+ [Aurora](sap-abap_1_aurora_code_examples.md)
+ [Auto Scaling](sap-abap_1_auto-scaling_code_examples.md)
+ [Runtime Amazon Bedrock](sap-abap_1_bedrock-runtime_code_examples.md)
+ [Runtime Agen Batuan Dasar Amazon](sap-abap_1_bedrock-agent-runtime_code_examples.md)
+ [CloudFront](sap-abap_1_cloudfront_code_examples.md)
+ [CloudWatch](sap-abap_1_cloudwatch_code_examples.md)
+ [CloudWatch Log](sap-abap_1_cloudwatch-logs_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](sap-abap_1_cognito-identity-provider_code_examples.md)
+ [Amazon Comprehend](sap-abap_1_comprehend_code_examples.md)
+ [AWS Config](sap-abap_1_config-service_code_examples.md)
+ [AWS Control Tower](sap-abap_1_controltower_code_examples.md)
+ [Firehose](sap-abap_1_firehose_code_examples.md)
+ [DynamoDB](sap-abap_1_dynamodb_code_examples.md)
+ [Amazon EC2](sap-abap_1_ec2_code_examples.md)
+ [Amazon ECR](sap-abap_1_ecr_code_examples.md)
+ [Amazon EMR](sap-abap_1_emr_code_examples.md)
+ [EventBridge Penjadwal](sap-abap_1_scheduler_code_examples.md)
+ [AWS Glue](sap-abap_1_glue_code_examples.md)
+ [HealthImaging](sap-abap_1_medical-imaging_code_examples.md)
+ [HealthLake](sap-abap_1_healthlake_code_examples.md)
+ [IAM](sap-abap_1_iam_code_examples.md)
+ [AWS IoT SiteWise](sap-abap_1_iotsitewise_code_examples.md)
+ [Amazon Keyspaces](sap-abap_1_keyspaces_code_examples.md)
+ [Kinesis](sap-abap_1_kinesis_code_examples.md)
+ [AWS KMS](sap-abap_1_kms_code_examples.md)
+ [Lambda](sap-abap_1_lambda_code_examples.md)
+ [Organizations](sap-abap_1_organizations_code_examples.md)
+ [Amazon Pinpoint](sap-abap_1_pinpoint_code_examples.md)
+ [API SMS dan Suara Amazon Pinpoint](sap-abap_1_pinpoint-sms-voice_code_examples.md)
+ [Amazon Polly](sap-abap_1_polly_code_examples.md)
+ [Amazon RDS](sap-abap_1_rds_code_examples.md)
+ [Amazon Redshift](sap-abap_1_redshift_code_examples.md)
+ [Amazon Rekognition](sap-abap_1_rekognition_code_examples.md)
+ [Amazon S3](sap-abap_1_s3_code_examples.md)
+ [SageMaker AI](sap-abap_1_sagemaker_code_examples.md)
+ [Secrets Manager](sap-abap_1_secrets-manager_code_examples.md)
+ [Amazon SES](sap-abap_1_ses_code_examples.md)
+ [Amazon SES API v2](sap-abap_1_sesv2_code_examples.md)
+ [Amazon SNS](sap-abap_1_sns_code_examples.md)
+ [Amazon SQS](sap-abap_1_sqs_code_examples.md)
+ [Step Functions](sap-abap_1_sfn_code_examples.md)
+ [Systems Manager](sap-abap_1_ssm_code_examples.md)
+ [Amazon Textract](sap-abap_1_textract_code_examples.md)
+ [Amazon Transcribe](sap-abap_1_transcribe_code_examples.md)
+ [Amazon Translate](sap-abap_1_translate_code_examples.md)

# Contoh ACM menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_acm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan ACM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AddTagsToCertificate`
<a name="acm_AddTagsToCertificate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddTagsToCertificate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " iv_certificate_arn = 'arn:aws:acm:region:123456789012:certificate/certificate-id'
        lo_acm->addtagstocertificate(
          iv_certificatearn = iv_certificate_arn
          it_tags = it_tags
        ).
        MESSAGE 'Tags added to certificate successfully.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidarnex.
        MESSAGE 'The certificate ARN is not valid.' TYPE 'I'.
      CATCH /aws1/cx_acmresourcenotfoundex.
        MESSAGE 'Certificate not found.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidtagex.
        MESSAGE 'Invalid tag provided.' TYPE 'I'.
      CATCH /aws1/cx_acmtoomanytagsex.
        MESSAGE 'Too many tags for certificate.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [AddTagsToCertificate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteCertificate`
<a name="acm_DeleteCertificate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCertificate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " iv_certificate_arn = 'arn:aws:acm:region:123456789012:certificate/certificate-id'
        lo_acm->deletecertificate( iv_certificatearn = iv_certificate_arn ).
        MESSAGE 'Certificate deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidarnex.
        MESSAGE 'The certificate ARN is not valid.' TYPE 'I'.
      CATCH /aws1/cx_acmresourcenotfoundex.
        MESSAGE 'Certificate not found.' TYPE 'I'.
      CATCH /aws1/cx_acmresourceinuseex.
        MESSAGE 'Certificate is in use and cannot be deleted.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteCertificate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeCertificate`
<a name="acm_DescribeCertificate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCertificate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " iv_certificate_arn = 'arn:aws:acm:region:123456789012:certificate/certificate-id'
        oo_result = lo_acm->describecertificate( iv_certificatearn = iv_certificate_arn ).
        MESSAGE 'Certificate details retrieved.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidarnex.
        MESSAGE 'The certificate ARN is not valid.' TYPE 'I'.
      CATCH /aws1/cx_acmresourcenotfoundex.
        MESSAGE 'Certificate not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeCertificate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetCertificate`
<a name="acm_GetCertificate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCertificate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " iv_certificate_arn = 'arn:aws:acm:region:123456789012:certificate/certificate-id'
        oo_result = lo_acm->getcertificate( iv_certificatearn = iv_certificate_arn ).
        MESSAGE 'Certificate body and chain retrieved.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidarnex.
        MESSAGE 'The certificate ARN is not valid.' TYPE 'I'.
      CATCH /aws1/cx_acmresourcenotfoundex.
        MESSAGE 'Certificate not found.' TYPE 'I'.
      CATCH /aws1/cx_acmrequestinprgssex.
        MESSAGE 'Certificate request is in progress.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetCertificate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ImportCertificate`
<a name="acm_ImportCertificate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ImportCertificate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " Only pass certificate chain if it's provided (it's optional)
        IF iv_certificate_chain IS NOT INITIAL.
          DATA(lo_result) = lo_acm->importcertificate(
            iv_certificate = iv_certificate
            iv_privatekey = iv_private_key
            iv_certificatechain = iv_certificate_chain
          ).
        ELSE.
          lo_result = lo_acm->importcertificate(
            iv_certificate = iv_certificate
            iv_privatekey = iv_private_key
          ).
        ENDIF.
        ov_certificate_arn = lo_result->get_certificatearn( ).
        MESSAGE 'Certificate imported successfully.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidparameterex.
        MESSAGE 'Invalid parameter provided.' TYPE 'I'.
      CATCH /aws1/cx_acmlimitexceededex.
        MESSAGE 'Certificate limit exceeded.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ImportCertificate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListCertificates`
<a name="acm_ListCertificates_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCertificates`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        oo_result = lo_acm->listcertificates(
          iv_maxitems = iv_max_items
          it_certificatestatuses = it_statuses
          io_includes = io_includes
        ).
        MESSAGE 'Certificates listed successfully.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidargsex.
        MESSAGE 'Invalid arguments provided.' TYPE 'I'.
      CATCH /aws1/cx_acmvalidationex.
        MESSAGE 'Validation error occurred.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListCertificates](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTagsForCertificate`
<a name="acm_ListTagsForCertificate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForCertificate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " iv_certificate_arn = 'arn:aws:acm:region:123456789012:certificate/certificate-id'
        DATA(lo_result) = lo_acm->listtagsforcertificate(
          iv_certificatearn = iv_certificate_arn
        ).
        ot_tags = lo_result->get_tags( ).
        MESSAGE 'Certificate tags retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidarnex.
        MESSAGE 'The certificate ARN is not valid.' TYPE 'I'.
      CATCH /aws1/cx_acmresourcenotfoundex.
        MESSAGE 'Certificate not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTagsForCertificate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RemoveTagsFromCertificate`
<a name="acm_RemoveTagsFromCertificate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RemoveTagsFromCertificate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " iv_certificate_arn = 'arn:aws:acm:region:123456789012:certificate/certificate-id'
        lo_acm->removetagsfromcertificate(
          iv_certificatearn = iv_certificate_arn
          it_tags = it_tags
        ).
        MESSAGE 'Tags removed from certificate successfully.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidarnex.
        MESSAGE 'The certificate ARN is not valid.' TYPE 'I'.
      CATCH /aws1/cx_acmresourcenotfoundex.
        MESSAGE 'Certificate not found.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidtagex.
        MESSAGE 'Invalid tag provided.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [RemoveTagsFromCertificate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RequestCertificate`
<a name="acm_RequestCertificate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RequestCertificate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " iv_domain_name = 'example.com'
        " iv_validation_method = 'DNS' or 'EMAIL'
        DATA(lo_result) = lo_acm->requestcertificate(
          iv_domainname = iv_domain_name
          it_subjectalternativenames = COND #( WHEN it_alternate_domains IS NOT INITIAL 
                                                THEN it_alternate_domains )
          iv_validationmethod = iv_validation_method
        ).
        ov_certificate_arn = lo_result->get_certificatearn( ).
        MESSAGE 'Certificate requested successfully.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidparameterex.
        MESSAGE 'Invalid parameter provided.' TYPE 'I'.
      CATCH /aws1/cx_acmlimitexceededex.
        MESSAGE 'Certificate limit exceeded.' TYPE 'I'.
      CATCH /aws1/cx_acminvdomvationoptsex.
        MESSAGE 'Invalid domain validation options.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [RequestCertificate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ResendValidationEmail`
<a name="acm_ResendValidationEmail_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendValidationEmail`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/acm#code-examples). 

```
    TRY.
        " iv_certificate_arn = 'arn:aws:acm:region:123456789012:certificate/certificate-id'
        " iv_domain = 'example.com'
        " iv_validation_domain = 'example.com'
        lo_acm->resendvalidationemail(
          iv_certificatearn = iv_certificate_arn
          iv_domain = iv_domain
          iv_validationdomain = iv_validation_domain
        ).
        MESSAGE 'Validation email resent successfully.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidarnex.
        MESSAGE 'The certificate ARN is not valid.' TYPE 'I'.
      CATCH /aws1/cx_acmresourcenotfoundex.
        MESSAGE 'Certificate not found.' TYPE 'I'.
      CATCH /aws1/cx_acminvalidstateex.
        MESSAGE 'Certificate is not in a valid state.' TYPE 'I'.
      CATCH /aws1/cx_acminvdomvationoptsex.
        MESSAGE 'Invalid domain validation options.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ResendValidationEmail](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh API Gateway menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_api-gateway_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan API Gateway.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateDeployment`
<a name="api-gateway_CreateDeployment_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDeployment`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->createdeployment(
          iv_restapiid = iv_rest_api_id
          iv_stagename = iv_stage_name
          iv_description = 'Deployment created by ABAP SDK' ).
        DATA(lv_deployment_id) = oo_result->get_id( ).
        MESSAGE 'Deployment created with ID: ' && lv_deployment_id TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwnotfoundexception INTO DATA(lo_not_found).
        MESSAGE lo_not_found->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateDeployment](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateResource`
<a name="api-gateway_CreateResource_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateResource`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->createresource(
          iv_restapiid = iv_rest_api_id
          iv_parentid = iv_parent_id
          iv_pathpart = iv_resource_path ).
        DATA(lv_resource_id) = oo_result->get_id( ).
        MESSAGE 'Resource created with ID: ' && lv_resource_id TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwnotfoundexception INTO DATA(lo_not_found).
        MESSAGE lo_not_found->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateResource](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateRestApi`
<a name="api-gateway_CreateRestApi_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRestApi`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->createrestapi(
          iv_name = iv_api_name
          iv_description = 'Sample REST API created by ABAP SDK' ).
        DATA(lv_api_id) = oo_result->get_id( ).
        MESSAGE 'REST API created with ID: ' && lv_api_id TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
      CATCH /aws1/cx_agwunauthorizedex INTO DATA(lo_unauthorized).
        MESSAGE lo_unauthorized->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_unauthorized.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateRestApi](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteRestApi`
<a name="api-gateway_DeleteRestApi_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRestApi`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        lo_agw->deleterestapi(
          iv_restapiid = iv_rest_api_id ).
        MESSAGE 'REST API deleted successfully' TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwnotfoundexception INTO DATA(lo_not_found).
        MESSAGE lo_not_found->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteRestApi](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetResources`
<a name="api-gateway_GetResources_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetResources`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->getresources(
          iv_restapiid = iv_rest_api_id ).
        DATA(lt_resources) = oo_result->get_items( ).
        DATA(lv_count) = lines( lt_resources ).
        MESSAGE 'Found ' && lv_count && ' resources' TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwnotfoundexception INTO DATA(lo_not_found).
        MESSAGE lo_not_found->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [GetResources](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetRestApis`
<a name="api-gateway_GetRestApis_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRestApis`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->getrestapis( ).
        DATA(lt_apis) = oo_result->get_items( ).
        DATA(lv_count) = lines( lt_apis ).
        MESSAGE 'Found ' && lv_count && ' REST APIs' TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [GetRestApis](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutIntegration`
<a name="api-gateway_PutIntegration_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutIntegration`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->putintegration(
          iv_restapiid = iv_rest_api_id
          iv_resourceid = iv_resource_id
          iv_httpmethod = iv_http_method
          iv_type = 'AWS_PROXY'
          iv_integrationhttpmethod = 'POST'
          iv_uri = iv_integration_uri ).
        MESSAGE 'Integration configured for method' TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwnotfoundexception INTO DATA(lo_not_found).
        MESSAGE lo_not_found->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [PutIntegration](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutIntegrationResponse`
<a name="api-gateway_PutIntegrationResponse_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutIntegrationResponse`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->putintegrationresponse(
          iv_restapiid = iv_rest_api_id
          iv_resourceid = iv_resource_id
          iv_httpmethod = iv_http_method
          iv_statuscode = '200' ).
        MESSAGE 'Integration response configured for status 200' TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwnotfoundexception INTO DATA(lo_not_found).
        MESSAGE lo_not_found->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [PutIntegrationResponse](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutMethod`
<a name="api-gateway_PutMethod_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMethod`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->putmethod(
          iv_restapiid = iv_rest_api_id
          iv_resourceid = iv_resource_id
          iv_httpmethod = iv_http_method
          iv_authorizationtype = 'NONE' ).
        MESSAGE 'Method ' && iv_http_method && ' added to resource' TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwnotfoundexception INTO DATA(lo_not_found).
        MESSAGE lo_not_found->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [PutMethod](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutMethodResponse`
<a name="api-gateway_PutMethodResponse_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMethodResponse`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/agw#code-examples). 

```
    TRY.
        oo_result = lo_agw->putmethodresponse(
          iv_restapiid = iv_rest_api_id
          iv_resourceid = iv_resource_id
          iv_httpmethod = iv_http_method
          iv_statuscode = '200' ).
        MESSAGE 'Method response configured for status 200' TYPE 'I'.
      CATCH /aws1/cx_agwbadrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_agwnotfoundexception INTO DATA(lo_not_found).
        MESSAGE lo_not_found->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
      CATCH /aws1/cx_agwtoomanyrequestsex INTO DATA(lo_too_many).
        MESSAGE lo_too_many->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many.
    ENDTRY.
```
+  Untuk detail API, lihat [PutMethodResponse](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Application Recovery Controller menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_route53-recovery-cluster_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Application Recovery Controller.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetRoutingControlState`
<a name="route53-recovery-cluster_GetRoutingControlState_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRoutingControlState`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/r5v#code-examples). 

```
    CONSTANTS cv_pfl TYPE /aws1/rt_profile_id VALUE 'ZCODE_DEMO'.
    DATA lo_exception TYPE REF TO /aws1/cx_rt_generic.
    DATA lo_session TYPE REF TO /aws1/cl_rt_session_base.
    DATA lo_client TYPE REF TO /aws1/if_r5v.
    DATA lt_endpoints TYPE TABLE OF string.
    DATA lv_endpoint TYPE string.
    DATA lv_region TYPE /aws1/rt_region_id.

    " Parse the comma-separated cluster endpoints
    " Expected format: "https://endpoint1.com|us-west-2,https://endpoint2.com|us-east-1"
    SPLIT iv_cluster_endpoints AT ',' INTO TABLE lt_endpoints.

    " As a best practice, shuffle cluster endpoints to distribute load
    " For more information, see https://docs.aws.amazon.com/r53recovery/latest/dg/route53-arc-best-practices.html#route53-arc-best-practices.regional
    " For simplicity, we'll try them in order (shuffling can be added if needed)

    " Try each endpoint in order
    LOOP AT lt_endpoints INTO lv_endpoint.
      TRY.
          " Parse endpoint and region from the format "url|region"
          DATA(lv_pos) = find( val = lv_endpoint sub = '|' ).
          IF lv_pos > 0.
            DATA(lv_url) = substring( val = lv_endpoint len = lv_pos ).
            lv_region = substring( val = lv_endpoint off = lv_pos + 1 ).
          ELSE.
            " If no region specified, use default
            lv_url = lv_endpoint.
            lv_region = 'us-east-1'.
          ENDIF.

          " Create session for this region
          lo_session = /aws1/cl_rt_session_aws=>create( cv_pfl ).

          " Create client with the specific endpoint
          lo_client = create_recovery_client(
            iv_endpoint = lv_url
            iv_region   = lv_region
            io_session  = lo_session ).

          " Try to get the routing control state
          oo_result = lo_client->getroutingcontrolstate(
            iv_routingcontrolarn = iv_routing_control_arn ).

          " If successful, return the result
          RETURN.

        CATCH /aws1/cx_r5vendpttmpyunavailex INTO DATA(lo_endpoint_ex).
          " This endpoint is temporarily unavailable, try the next one
          lo_exception = lo_endpoint_ex.
          CONTINUE.

        CATCH /aws1/cx_r5vaccessdeniedex
              /aws1/cx_r5vinternalserverex
              /aws1/cx_r5vresourcenotfoundex
              /aws1/cx_r5vthrottlingex
              /aws1/cx_r5vvalidationex
              /aws1/cx_rt_generic INTO lo_exception.
          " For other errors, re-raise immediately
          RAISE EXCEPTION lo_exception.
      ENDTRY.
    ENDLOOP.

    " If we get here, all endpoints failed - re-raise the last exception
    IF lo_exception IS BOUND.
      RAISE EXCEPTION lo_exception.
    ENDIF.
```
+  Untuk detail API, lihat [GetRoutingControlState](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateRoutingControlState`
<a name="route53-recovery-cluster_UpdateRoutingControlState_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateRoutingControlState`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/r5v#code-examples). 

```
    CONSTANTS cv_pfl TYPE /aws1/rt_profile_id VALUE 'ZCODE_DEMO'.
    DATA lo_exception TYPE REF TO /aws1/cx_rt_generic.
    DATA lo_session TYPE REF TO /aws1/cl_rt_session_base.
    DATA lo_client TYPE REF TO /aws1/if_r5v.
    DATA lt_endpoints TYPE TABLE OF string.
    DATA lv_endpoint TYPE string.
    DATA lv_region TYPE /aws1/rt_region_id.

    " Parse the comma-separated cluster endpoints
    " Expected format: "https://endpoint1.com|us-west-2,https://endpoint2.com|us-east-1"
    SPLIT iv_cluster_endpoints AT ',' INTO TABLE lt_endpoints.

    " As a best practice, shuffle cluster endpoints to distribute load
    " For more information, see https://docs.aws.amazon.com/r53recovery/latest/dg/route53-arc-best-practices.html#route53-arc-best-practices.regional
    " For simplicity, we'll try them in order (shuffling can be added if needed)

    " Try each endpoint in order
    LOOP AT lt_endpoints INTO lv_endpoint.
      TRY.
          " Parse endpoint and region from the format "url|region"
          DATA(lv_pos) = find( val = lv_endpoint sub = '|' ).
          IF lv_pos > 0.
            DATA(lv_url) = substring( val = lv_endpoint len = lv_pos ).
            lv_region = substring( val = lv_endpoint off = lv_pos + 1 ).
          ELSE.
            " If no region specified, use default
            lv_url = lv_endpoint.
            lv_region = 'us-east-1'.
          ENDIF.

          " Create session for this region
          lo_session = /aws1/cl_rt_session_aws=>create( cv_pfl ).

          " Create client with the specific endpoint
          lo_client = create_recovery_client(
            iv_endpoint = lv_url
            iv_region   = lv_region
            io_session  = lo_session ).

          " Try to update the routing control state
          oo_result = lo_client->updateroutingcontrolstate(
            iv_routingcontrolarn     = iv_routing_control_arn
            iv_routingcontrolstate   = iv_routing_control_state
            it_safetyrulestooverride = it_safety_rules_override ).

          " If successful, return the result
          RETURN.

        CATCH /aws1/cx_r5vendpttmpyunavailex INTO DATA(lo_endpoint_ex).
          " This endpoint is temporarily unavailable, try the next one
          lo_exception = lo_endpoint_ex.
          CONTINUE.

        CATCH /aws1/cx_r5vaccessdeniedex
              /aws1/cx_r5vconflictexception
              /aws1/cx_r5vinternalserverex
              /aws1/cx_r5vresourcenotfoundex
              /aws1/cx_r5vthrottlingex
              /aws1/cx_r5vvalidationex
              /aws1/cx_rt_generic INTO lo_exception.
          " For other errors, re-raise immediately
          RAISE EXCEPTION lo_exception.
      ENDTRY.
    ENDLOOP.

    " If we get here, all endpoints failed - re-raise the last exception
    IF lo_exception IS BOUND.
      RAISE EXCEPTION lo_exception.
    ENDIF.
```
+  Untuk detail API, lihat [UpdateRoutingControlState](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Aurora menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_aurora_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Aurora.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateDBClusterParameterGroup`
<a name="aurora_CreateDBClusterParameterGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBClusterParameterGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    TRY.
        DATA(lo_output) = lo_rds->createdbclusterparamgroup(
          iv_dbclusterparamgroupname = iv_param_group_name
          iv_dbparametergroupfamily = iv_param_group_family
          iv_description = iv_description
        ).
        oo_result = lo_output->get_dbclusterparametergroup( ).
      CATCH /aws1/cx_rdsdbparmgralrexfault.
        " Re-raise exception - parameter group already exists
        RAISE EXCEPTION TYPE /aws1/cx_rdsdbparmgralrexfault.
      CATCH /aws1/cx_rdsdbprmgrquotaexcd00.
        " Re-raise exception - quota exceeded
        RAISE EXCEPTION TYPE /aws1/cx_rdsdbprmgrquotaexcd00.
    ENDTRY.
```
+  Untuk detail API, lihat [Create DBCluster ParameterGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteDBClusterParameterGroup`
<a name="aurora_DeleteDBClusterParameterGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBClusterParameterGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    TRY.
        lo_rds->deletedbclusterparamgroup(
          iv_dbclusterparamgroupname = iv_param_group_name
        ).
      CATCH /aws1/cx_rdsdbprmgrnotfndfault.
        " Re-raise exception - parameter group not found
        RAISE EXCEPTION TYPE /aws1/cx_rdsdbprmgrnotfndfault.
      CATCH /aws1/cx_rdsinvdbprmgrstatef00.
        " Re-raise exception - invalid state
        RAISE EXCEPTION TYPE /aws1/cx_rdsinvdbprmgrstatef00.
    ENDTRY.
```
+  Untuk detail API, lihat [Menghapus DBCluster ParameterGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeDBClusterParameterGroups`
<a name="aurora_DescribeDBClusterParameterGroups_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameterGroups`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    TRY.
        DATA(lo_output) = lo_rds->describedbclusterparamgroups(
          iv_dbclusterparamgroupname = iv_param_group_name
        ).
        DATA(lt_param_groups) = lo_output->get_dbclusterparametergroups( ).
        IF lines( lt_param_groups ) > 0.
          oo_result = lt_param_groups[ 1 ].
        ENDIF.
      CATCH /aws1/cx_rdsdbprmgrnotfndfault.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan DBCluster ParameterGroups](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

### `DescribeDBClusterParameters`
<a name="aurora_DescribeDBClusterParameters_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBClusterParameters`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    TRY.
        DATA lv_marker TYPE /aws1/rdsstring VALUE ''.
        DATA lt_all_parameters TYPE /aws1/cl_rdsparameter=>tt_parameterslist.

        DO.
          DATA(lo_output) = lo_rds->describedbclusterparameters(
            iv_dbclusterparamgroupname = iv_param_group_name
            iv_source = iv_source
            iv_marker = lv_marker
          ).

          LOOP AT lo_output->get_parameters( ) INTO DATA(lo_param).
            IF iv_name_prefix IS INITIAL OR
               lo_param->get_parametername( ) CP |{ iv_name_prefix }*|.
              APPEND lo_param TO lt_all_parameters.
            ENDIF.
          ENDLOOP.

          lv_marker = lo_output->get_marker( ).
          IF lv_marker IS INITIAL.
            EXIT.
          ENDIF.
        ENDDO.

        ot_parameters = lt_all_parameters.
      CATCH /aws1/cx_rdsdbprmgrnotfndfault.
        " Re-raise exception - parameter group not found
        RAISE EXCEPTION TYPE /aws1/cx_rdsdbprmgrnotfndfault.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan DBCluster Parameter](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeDBEngineVersions`
<a name="aurora_DescribeDBEngineVersions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_engine                 = 'mysql'
    " iv_dbparametergroupfamily = 'mysql8.0' (optional - filters by parameter group family)
    TRY.
        oo_result = lo_rds->describedbengineversions(
          iv_engine                 = iv_engine
          iv_dbparametergroupfamily = iv_dbparametergroupfamily ).
        DATA(lv_version_count) = lines( oo_result->get_dbengineversions( ) ).
        MESSAGE |Retrieved { lv_version_count } engine versions.| TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeOrderableDBInstanceOptions`
<a name="aurora_DescribeOrderableDBInstanceOptions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_engine        = 'mysql'
    " iv_engineversion = '8.0.35'
    TRY.
        oo_result = lo_rds->descrorderabledbinstoptions(
          iv_engine        = iv_engine
          iv_engineversion = iv_engineversion ).
        DATA(lv_option_count) = lines( oo_result->get_orderabledbinstoptions( ) ).
        MESSAGE |Retrieved { lv_option_count } orderable DB instance options.| TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `ModifyDBClusterParameterGroup`
<a name="aurora_ModifyDBClusterParameterGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBClusterParameterGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    TRY.
        oo_result = lo_rds->modifydbclusterparamgroup(
          iv_dbclusterparamgroupname = iv_param_group_name
          it_parameters = it_update_parameters
        ).
      CATCH /aws1/cx_rdsdbprmgrnotfndfault.
        " Re-raise exception - parameter group not found
        RAISE EXCEPTION TYPE /aws1/cx_rdsdbprmgrnotfndfault.
      CATCH /aws1/cx_rdsinvdbprmgrstatef00.
        " Re-raise exception - invalid state
        RAISE EXCEPTION TYPE /aws1/cx_rdsinvdbprmgrstatef00.
    ENDTRY.
```
+  Untuk detail API, lihat [Memodifikasi DBCluster ParameterGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) dalam *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Auto Scaling menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_auto-scaling_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Auto Scaling.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateAutoScalingGroup`
<a name="auto-scaling_CreateAutoScalingGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAutoScalingGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    DATA lo_launch_template TYPE REF TO /aws1/cl_asclaunchtemplatespec.
    
    " Example: iv_group_name = 'my-auto-scaling-group'
    " Example: iv_launch_template_name = 'my-launch-template'
    " Example: iv_min_size = 1
    " Example: iv_max_size = 3
    " Example: iv_vpc_zone_identifier = 'subnet-12345,subnet-67890' (for VPC)
    
    TRY.
        " Create launch template specification
        lo_launch_template = NEW /aws1/cl_asclaunchtemplatespec(
          iv_launchtemplatename = iv_launch_template_name
          iv_version = '$Default' ).

        " Create the Auto Scaling group
        " Use VPCZoneIdentifier for VPC subnets, or AvailabilityZones for EC2-Classic
        IF iv_vpc_zone_identifier IS NOT INITIAL.
          " VPC-based deployment - use subnet IDs
          ao_asc->createautoscalinggroup(
            iv_autoscalinggroupname = iv_group_name
            iv_vpczoneidentifier = iv_vpc_zone_identifier
            io_launchtemplate = lo_launch_template
            iv_minsize = iv_min_size
            iv_maxsize = iv_max_size ).
        ELSE.
          " EC2-Classic or default VPC - use availability zones
          ao_asc->createautoscalinggroup(
            iv_autoscalinggroupname = iv_group_name
            it_availabilityzones = it_group_zones
            io_launchtemplate = lo_launch_template
            iv_minsize = iv_min_size
            iv_maxsize = iv_max_size ).
        ENDIF.

        " Wait for the group to be created (simplified - in production use proper polling)
        WAIT UP TO 10 SECONDS.

        MESSAGE 'Auto Scaling group created successfully' TYPE 'I'.

      CATCH /aws1/cx_ascalreadyexistsfault INTO DATA(lo_already_exists).
        RAISE EXCEPTION lo_already_exists.
      CATCH /aws1/cx_asclimitexceededfault INTO DATA(lo_limit_exceeded).
        RAISE EXCEPTION lo_limit_exceeded.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateAutoScalingGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteAutoScalingGroup`
<a name="auto-scaling_DeleteAutoScalingGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAutoScalingGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    " Example: iv_group_name = 'my-auto-scaling-group'
    
    TRY.
        ao_asc->deleteautoscalinggroup(
          iv_autoscalinggroupname = iv_group_name ).

        " Wait for the group to be deleted (simplified - in production use proper polling)
        WAIT UP TO 10 SECONDS.

        MESSAGE 'Auto Scaling group deleted successfully' TYPE 'I'.

      CATCH /aws1/cx_ascscaactivityinprg00 INTO DATA(lo_activity_in_progress).
        RAISE EXCEPTION lo_activity_in_progress.
      CATCH /aws1/cx_ascresourceinusefault INTO DATA(lo_resource_in_use).
        RAISE EXCEPTION lo_resource_in_use.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteAutoScalingGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeAutoScalingGroups`
<a name="auto-scaling_DescribeAutoScalingGroups_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingGroups`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    DATA lt_group_names TYPE /aws1/cl_ascautoscgroupnames_w=>tt_autoscalinggroupnames.
    DATA lo_group_name TYPE REF TO /aws1/cl_ascautoscgroupnames_w.
    
    " Example: iv_group_name = 'my-auto-scaling-group'
    
    TRY.
        " Build group names parameter
        CREATE OBJECT lo_group_name
          EXPORTING
            iv_value = iv_group_name.
        APPEND lo_group_name TO lt_group_names.

        " Describe the Auto Scaling group
        DATA(lo_output) = ao_asc->describeautoscalinggroups(
          it_autoscalinggroupnames = lt_group_names ).

        " Return the first (and only) group in the result
        DATA(lt_groups) = lo_output->get_autoscalinggroups( ).
        IF lines( lt_groups ) > 0.
          READ TABLE lt_groups INDEX 1 INTO DATA(lo_group).
          oo_output = lo_group.
        ENDIF.

        MESSAGE 'Auto Scaling group information retrieved successfully' TYPE 'I'.

      CATCH /aws1/cx_ascresrccontionfault INTO DATA(lo_contention).
        RAISE EXCEPTION lo_contention.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeAutoScalingGroups](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeAutoScalingInstances`
<a name="auto-scaling_DescribeAutoScalingInstances_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAutoScalingInstances`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    " Example: it_instance_ids contains a list of instance IDs
    
    TRY.
        DATA(lo_output) = ao_asc->describeautoscalinginstances(
          it_instanceids = it_instance_ids ).

        ot_output = lo_output->get_autoscalinginstances( ).

        MESSAGE 'Auto Scaling instances information retrieved successfully' TYPE 'I'.

      CATCH /aws1/cx_ascresrccontionfault INTO DATA(lo_contention).
        RAISE EXCEPTION lo_contention.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeAutoScalingInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeScalingActivities`
<a name="auto-scaling_DescribeScalingActivities_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeScalingActivities`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    " Example: iv_group_name = 'my-auto-scaling-group'
    
    TRY.
        DATA(lo_output) = ao_asc->describescalingactivities(
          iv_autoscalinggroupname = iv_group_name ).

        ot_output = lo_output->get_activities( ).

        MESSAGE 'Scaling activities retrieved successfully' TYPE 'I'.

      CATCH /aws1/cx_ascresrccontionfault INTO DATA(lo_contention).
        RAISE EXCEPTION lo_contention.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeScalingActivities](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DisableMetricsCollection`
<a name="auto-scaling_DisableMetricsCollection_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableMetricsCollection`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    " Example: iv_group_name = 'my-auto-scaling-group'
    
    TRY.
        ao_asc->disablemetricscollection(
          iv_autoscalinggroupname = iv_group_name ).

        MESSAGE 'Metrics collection disabled successfully' TYPE 'I'.

      CATCH /aws1/cx_ascresrccontionfault INTO DATA(lo_contention).
        RAISE EXCEPTION lo_contention.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [DisableMetricsCollection](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `EnableMetricsCollection`
<a name="auto-scaling_EnableMetricsCollection_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableMetricsCollection`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    " Example: iv_group_name = 'my-auto-scaling-group'
    " Example: it_metrics contains list of metrics like 'GroupMinSize', 'GroupMaxSize', etc.
    
    TRY.
        ao_asc->enablemetricscollection(
          iv_autoscalinggroupname = iv_group_name
          it_metrics = it_metrics
          iv_granularity = '1Minute' ).

        MESSAGE 'Metrics collection enabled successfully' TYPE 'I'.

      CATCH /aws1/cx_ascresrccontionfault INTO DATA(lo_contention).
        RAISE EXCEPTION lo_contention.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [EnableMetricsCollection](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SetDesiredCapacity`
<a name="auto-scaling_SetDesiredCapacity_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDesiredCapacity`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    " Example: iv_group_name = 'my-auto-scaling-group'
    " Example: iv_capacity = 2
    
    TRY.
        ao_asc->setdesiredcapacity(
          iv_autoscalinggroupname = iv_group_name
          iv_desiredcapacity = iv_capacity
          iv_honorcooldown = abap_false ).

        MESSAGE 'Desired capacity set successfully' TYPE 'I'.

      CATCH /aws1/cx_ascscaactivityinprg00 INTO DATA(lo_activity_in_progress).
        RAISE EXCEPTION lo_activity_in_progress.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [SetDesiredCapacity](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `TerminateInstanceInAutoScalingGroup`
<a name="auto-scaling_TerminateInstanceInAutoScalingGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstanceInAutoScalingGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    " Example: iv_instance_id = 'i-1234567890abcdef0'
    " Example: iv_decrease_capacity = abap_true
    
    TRY.
        DATA(lo_output) = ao_asc->terminateinstinautoscgroup(
          iv_instanceid = iv_instance_id
          iv_shoulddecrementdesiredcap = iv_decrease_capacity ).

        oo_output = lo_output->get_activity( ).

        MESSAGE 'Instance terminated successfully' TYPE 'I'.

      CATCH /aws1/cx_ascscaactivityinprg00 INTO DATA(lo_activity_in_progress).
        RAISE EXCEPTION lo_activity_in_progress.
      CATCH /aws1/cx_ascresrccontionfault INTO DATA(lo_contention).
        RAISE EXCEPTION lo_contention.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [TerminateInstanceInAutoScalingGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateAutoScalingGroup`
<a name="auto-scaling_UpdateAutoScalingGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAutoScalingGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/asc#code-examples). 

```
    " Example: iv_group_name = 'my-auto-scaling-group'
    " Example: iv_max_size = 5
    
    TRY.
        ao_asc->updateautoscalinggroup(
          iv_autoscalinggroupname = iv_group_name
          iv_maxsize = iv_max_size
          iv_minsize = iv_min_size ).

        MESSAGE 'Auto Scaling group updated successfully' TYPE 'I'.

      CATCH /aws1/cx_ascresrccontionfault INTO DATA(lo_contention).
        RAISE EXCEPTION lo_contention.
      CATCH /aws1/cx_ascscaactivityinprg00 INTO DATA(lo_activity_in_progress).
        RAISE EXCEPTION lo_activity_in_progress.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_exception).
        RAISE EXCEPTION lo_generic_exception.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateAutoScalingGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon Bedrock Runtime menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Bedrock Runtime.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Antropik Claude](#anthropic_claude)
+ [Difusi Stabil](#stable_diffusion)

## Antropik Claude
<a name="anthropic_claude"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AnthropicClaude_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan Invoke Model API.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/bdr#code-examples). 
Gunakan model dasar Anthropic Claude 2 untuk menghasilkan teks. Contoh ini menggunakan fitur US2 //CL\$1JSON yang mungkin tidak tersedia pada beberapa versi. NetWeaver   

```
    "Claude V2 Input Parameters should be in a format like this:
*   {
*     "prompt":"\n\nHuman:\\nTell me a joke\n\nAssistant:\n",
*     "max_tokens_to_sample":2048,
*     "temperature":0.5,
*     "top_k":250,
*     "top_p":1.0,
*     "stop_sequences":[]
*   }

    DATA: BEGIN OF ls_input,
            prompt               TYPE string,
            max_tokens_to_sample TYPE /aws1/rt_shape_integer,
            temperature          TYPE /aws1/rt_shape_float,
            top_k                TYPE /aws1/rt_shape_integer,
            top_p                TYPE /aws1/rt_shape_float,
            stop_sequences       TYPE /aws1/rt_stringtab,
          END OF ls_input.

    "Leave ls_input-stop_sequences empty.
    ls_input-prompt = |\n\nHuman:\\n{ iv_prompt }\n\nAssistant:\n|.
    ls_input-max_tokens_to_sample = 2048.
    ls_input-temperature = '0.5'.
    ls_input-top_k = 250.
    ls_input-top_p = 1.

    "Serialize into JSON with /ui2/cl_json -- this assumes SAP_UI is installed.
    DATA(lv_json) = /ui2/cl_json=>serialize(
      data = ls_input
                pretty_name   = /ui2/cl_json=>pretty_mode-low_case ).

    TRY.
        DATA(lo_response) = lo_bdr->invokemodel(
          iv_body = /aws1/cl_rt_util=>string_to_xstring( lv_json )
          iv_modelid = 'anthropic.claude-v2'
          iv_accept = 'application/json'
          iv_contenttype = 'application/json' ).

        "Claude V2 Response format will be:
*       {
*         "completion": "Knock Knock...",
*         "stop_reason": "stop_sequence"
*       }
        DATA: BEGIN OF ls_response,
                completion  TYPE string,
                stop_reason TYPE string,
              END OF ls_response.

        /ui2/cl_json=>deserialize(
          EXPORTING jsonx = lo_response->get_body( )
                    pretty_name = /ui2/cl_json=>pretty_mode-camel_case
          CHANGING  data  = ls_response ).

        DATA(lv_answer) = ls_response-completion.
      CATCH /aws1/cx_bdraccessdeniedex INTO DATA(lo_ex).
        WRITE / lo_ex->get_text( ).
        WRITE / |Don't forget to enable model access at https://console.aws.amazon.com/bedrock/home?#/modelaccess|.

    ENDTRY.
```
Panggil model dasar Anthropic Claude 2 untuk menghasilkan teks menggunakan klien tingkat tinggi L2.  

```
    TRY.
        DATA(lo_bdr_l2_claude) = /aws1/cl_bdr_l2_factory=>create_claude_2( lo_bdr ).
        " iv_prompt can contain a prompt like 'tell me a joke about Java programmers'.
        DATA(lv_answer) = lo_bdr_l2_claude->prompt_for_text( iv_prompt ).
      CATCH /aws1/cx_bdraccessdeniedex INTO DATA(lo_ex).
        WRITE / lo_ex->get_text( ).
        WRITE / |Don't forget to enable model access at https://console.aws.amazon.com/bedrock/home?#/modelaccess|.

    ENDTRY.
```
Panggil model dasar Anthropic Claude 3 untuk menghasilkan teks menggunakan klien tingkat tinggi L2.  

```
    TRY.
        " Choose a model ID from Anthropic that supports the Messages API - currently this is
        " Claude v2, Claude v3 and v3.5.  For the list of model ID, see:
        " https://docs.aws.amazon.com/bedrock/latest/userguide/model-ids.html

        " for the list of models that support the Messages API see:
        " https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
        DATA(lo_bdr_l2_claude) = /aws1/cl_bdr_l2_factory=>create_anthropic_msg_api(
          io_bdr = lo_bdr
          iv_model_id = 'anthropic.claude-3-sonnet-20240229-v1:0' ).  " choosing Claude v3 Sonnet
        " iv_prompt can contain a prompt like 'tell me a joke about Java programmers'.
        DATA(lv_answer) = lo_bdr_l2_claude->prompt_for_text( iv_prompt = iv_prompt
                                                             iv_max_tokens = 100 ).
      CATCH /aws1/cx_bdraccessdeniedex INTO DATA(lo_ex).
        WRITE / lo_ex->get_text( ).
        WRITE / |Don't forget to enable model access at https://console.aws.amazon.com/bedrock/home?#/modelaccess|.

    ENDTRY.
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Difusi Stabil
<a name="stable_diffusion"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_StableDiffusion_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Stability.ai Stable Diffusion XL di Amazon Bedrock untuk menghasilkan gambar.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/bdr#code-examples). 
Buat gambar dengan Difusi Stabil.  

```
    "Stable Diffusion Input Parameters should be in a format like this:
*   {
*     "text_prompts": [
*       {"text":"Draw a dolphin with a mustache"},
*       {"text":"Make it photorealistic"}
*     ],
*     "cfg_scale":10,
*     "seed":0,
*     "steps":50
*   }
    TYPES: BEGIN OF prompt_ts,
             text TYPE /aws1/rt_shape_string,
           END OF prompt_ts.

    DATA: BEGIN OF ls_input,
            text_prompts TYPE STANDARD TABLE OF prompt_ts,
            cfg_scale    TYPE /aws1/rt_shape_integer,
            seed         TYPE /aws1/rt_shape_integer,
            steps        TYPE /aws1/rt_shape_integer,
          END OF ls_input.

    APPEND VALUE prompt_ts( text = iv_prompt ) TO ls_input-text_prompts.
    ls_input-cfg_scale = 10.
    ls_input-seed = 0. "or better, choose a random integer.
    ls_input-steps = 50.

    DATA(lv_json) = /ui2/cl_json=>serialize(
      data = ls_input
                pretty_name   = /ui2/cl_json=>pretty_mode-low_case ).

    TRY.
        DATA(lo_response) = lo_bdr->invokemodel(
          iv_body = /aws1/cl_rt_util=>string_to_xstring( lv_json )
          iv_modelid = 'stability.stable-diffusion-xl-v1'
          iv_accept = 'application/json'
          iv_contenttype = 'application/json' ).

        "Stable Diffusion Result Format:
*       {
*         "result": "success",
*         "artifacts": [
*           {
*             "seed": 0,
*             "base64": "iVBORw0KGgoAAAANSUhEUgAAAgAAA....
*             "finishReason": "SUCCESS"
*           }
*         ]
*       }
        TYPES: BEGIN OF artifact_ts,
                 seed         TYPE /aws1/rt_shape_integer,
                 base64       TYPE /aws1/rt_shape_string,
                 finishreason TYPE /aws1/rt_shape_string,
               END OF artifact_ts.

        DATA: BEGIN OF ls_response,
                result    TYPE /aws1/rt_shape_string,
                artifacts TYPE STANDARD TABLE OF artifact_ts,
              END OF ls_response.

        /ui2/cl_json=>deserialize(
          EXPORTING jsonx = lo_response->get_body( )
                    pretty_name = /ui2/cl_json=>pretty_mode-camel_case
          CHANGING  data  = ls_response ).
        IF ls_response-artifacts IS NOT INITIAL.
          DATA(lv_image) = cl_http_utility=>if_http_utility~decode_x_base64( ls_response-artifacts[ 1 ]-base64 ).
        ENDIF.
      CATCH /aws1/cx_bdraccessdeniedex INTO DATA(lo_ex).
        WRITE / lo_ex->get_text( ).
        WRITE / |Don't forget to enable model access at https://console.aws.amazon.com/bedrock/home?#/modelaccess|.

    ENDTRY.
```
Panggil model pondasi Stability.ai Stable Diffusion XL untuk menghasilkan gambar menggunakan klien tingkat tinggi L2.  

```
    TRY.
        DATA(lo_bdr_l2_sd) = /aws1/cl_bdr_l2_factory=>create_stable_diffusion_xl_1( lo_bdr ).
        " iv_prompt contains a prompt like 'Show me a picture of a unicorn reading an enterprise financial report'.
        DATA(lv_image) = lo_bdr_l2_sd->text_to_image( iv_prompt ).
      CATCH /aws1/cx_bdraccessdeniedex INTO DATA(lo_ex).
        WRITE / lo_ex->get_text( ).
        WRITE / |Don't forget to enable model access at https://console.aws.amazon.com/bedrock/home?#/modelaccess|.

    ENDTRY.
```
+  Untuk detail API, lihat [InvokeModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Runtime Amazon Bedrock Agents menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_bedrock-agent-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Bedrock Agents Runtime.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `InvokeAgent`
<a name="bedrock-agent-runtime_InvokeAgent_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`InvokeAgent`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/bdz#code-examples). 

```
    DATA(lo_result) = lo_bdz->invokeagent(
      iv_agentid      = iv_agentid
        iv_agentaliasid = iv_agentaliasid
        iv_enabletrace  = abap_true
        iv_sessionid    = CONV #( cl_system_uuid=>create_uuid_c26_static( ) )
        iv_inputtext    = |Let's play "rock, paper, scissors".  I choose rock.| ).
    DATA(lo_stream) = lo_result->get_completion( ).
    TRY.
        " loop while there are still events in the stream
        WHILE lo_stream->/aws1/if_rt_stream_reader~data_available( ) = abap_true.
          DATA(lo_evt) = lo_stream->read( ).
          " each /AWS1/CL_BDZRESPONSESTREAM_EV event contains exactly one member
          " all others are INITIAL.  For each event, process the non-initial
          " member if desired
          IF lo_evt->get_chunk( ) IS NOT INITIAL.
            " Process a Chunk event
            DATA(lv_xstr) = lo_evt->get_chunk( )->get_bytes( ).
            DATA(lv_answer) = /aws1/cl_rt_util=>xstring_to_string( lv_xstr ).
            " the answer says something like "I chose paper, so you lost"
          ELSEIF lo_evt->get_files( ) IS NOT INITIAL.
            " process a Files event if desired
          ELSEIF lo_evt->get_returncontrol( ) IS NOT INITIAL.
            " process a ReturnControl event if desired
          ELSEIF lo_evt->get_trace( ) IS NOT INITIAL.
            " process a Trace event if desired
          ENDIF.
        ENDWHILE.
        " the stream of events can possibly contain an exception
        " which will be raised to break the loop
        " catch /AWS1/CX_BDZACCESSDENIEDEX.
        " catch /AWS1/CX_BDZINTERNALSERVEREX.
        " catch /AWS1/CX_BDZMODELNOTREADYEX.
        " catch /AWS1/CX_BDZVALIDATIONEX.
        " catch /AWS1/CX_BDZTHROTTLINGEX.
        " catch /AWS1/CX_BDZDEPENDENCYFAILEDEX.
        " catch /AWS1/CX_BDZBADGATEWAYEX.
        " catch /AWS1/CX_BDZRESOURCENOTFOUNDEX.
        " catch /AWS1/CX_BDZSERVICEQUOTAEXCDEX.
        " catch /AWS1/CX_BDZCONFLICTEXCEPTION.
    ENDTRY.
```
+  Untuk detail API, lihat [InvokeAgent](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# CloudFront contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_cloudfront_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. CloudFront

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `ListDistributions`
<a name="cloudfront_ListDistributions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDistributions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/fnt#code-examples). 

```
    TRY.
        oo_result = lo_fnt->listdistributions( ). " oo_result is returned for testing purposes. "
        MESSAGE 'Retrieved list of CloudFront distributions.' TYPE 'I'.
      CATCH /aws1/cx_fntinvalidargument.
        MESSAGE 'Invalid argument provided.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListDistributions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateDistribution`
<a name="cloudfront_UpdateDistribution_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateDistribution`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/fnt#code-examples). 

```
    TRY.
        " Get the current distribution configuration and ETag "
        DATA(lo_distribution_config_result) = lo_fnt->getdistributionconfig( iv_id = iv_distribution_id ).
        DATA(lo_old_config) = lo_distribution_config_result->get_distributionconfig( ).
        DATA(lv_etag) = lo_distribution_config_result->get_etag( ).

        " Create a new distribution config with the updated comment "
        " Since the config object is immutable, we need to create a new one with all existing values "
        DATA(lo_new_config) = NEW /aws1/cl_fntdistributionconfig(
          iv_callerreference = lo_old_config->get_callerreference( )
          io_aliases = lo_old_config->get_aliases( )
          iv_defaultrootobject = lo_old_config->get_defaultrootobject( )
          io_origins = lo_old_config->get_origins( )
          io_origingroups = lo_old_config->get_origingroups( )
          io_defaultcachebehavior = lo_old_config->get_defaultcachebehavior( )
          io_cachebehaviors = lo_old_config->get_cachebehaviors( )
          io_customerrorresponses = lo_old_config->get_customerrorresponses( )
          iv_comment = iv_comment
          io_logging = lo_old_config->get_logging( )
          iv_priceclass = lo_old_config->get_priceclass( )
          iv_enabled = lo_old_config->get_enabled( )
          io_viewercertificate = lo_old_config->get_viewercertificate( )
          io_restrictions = lo_old_config->get_restrictions( )
          iv_webaclid = lo_old_config->get_webaclid( )
          iv_httpversion = lo_old_config->get_httpversion( )
          iv_isipv6enabled = lo_old_config->get_isipv6enabled( ) ).

        " Update the distribution with the modified configuration "
        lo_fnt->updatedistribution(
          io_distributionconfig = lo_new_config
          iv_id = iv_distribution_id
          iv_ifmatch = lv_etag ).
        MESSAGE 'CloudFront distribution updated successfully.' TYPE 'I'.
      CATCH /aws1/cx_fntnosuchdistribution.
        MESSAGE 'Distribution does not exist.' TYPE 'E'.
      CATCH /aws1/cx_fntpreconditionfailed.
        MESSAGE 'Precondition failed - ETag mismatch.' TYPE 'E'.
      CATCH /aws1/cx_fntinvalidifmatchvrs.
        MESSAGE 'Invalid If-Match version.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateDistribution](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# CloudWatch contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_cloudwatch_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. CloudWatch

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DeleteAlarms`
<a name="cloudwatch_DeleteAlarms_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlarms`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    TRY.
        lo_cwt->deletealarms(
          it_alarmnames = it_alarm_names ).
        MESSAGE 'Alarms deleted.' TYPE 'I'.
      CATCH /aws1/cx_cwtresourcenotfound.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteAlarms](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeAlarms`
<a name="cloudwatch_DescribeAlarms_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarms`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    TRY.
        oo_result = lo_cwt->describealarms(                 " oo_result is returned for testing purposes. "
          it_alarmnames = it_alarm_names ).
        MESSAGE 'Alarms retrieved.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeAlarms](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeAlarmsForMetric`
<a name="cloudwatch_DescribeAlarmsForMetric_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAlarmsForMetric`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    TRY.
        oo_result = lo_cwt->describealarmsformetric(          " oo_result is returned for testing purposes. "
          iv_namespace   = iv_namespace
          iv_metricname  = iv_metric_name
          it_dimensions  = it_dimensions
          iv_statistic   = iv_statistic
          iv_period      = iv_period
          iv_unit        = iv_unit ).
        MESSAGE 'Alarms for metric retrieved.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeAlarmsForMetric](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DisableAlarmActions`
<a name="cloudwatch_DisableAlarmActions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableAlarmActions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    "Disables actions on the specified alarm. "
    TRY.
        lo_cwt->disablealarmactions(
          it_alarmnames = it_alarm_names ).
        MESSAGE 'Alarm actions disabled.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DisableAlarmActions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `EnableAlarmActions`
<a name="cloudwatch_EnableAlarmActions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableAlarmActions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    "Enable actions on the specified alarm."
    TRY.
        lo_cwt->enablealarmactions(
          it_alarmnames = it_alarm_names ).
        MESSAGE 'Alarm actions enabled.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [EnableAlarmActions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetMetricStatistics`
<a name="cloudwatch_GetMetricStatistics_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetMetricStatistics`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    TRY.
        oo_result = lo_cwt->getmetricstatistics(              " oo_result is returned for testing purposes. "
          iv_namespace   = iv_namespace
          iv_metricname  = iv_metric_name
          iv_starttime   = iv_start_time
          iv_endtime     = iv_end_time
          iv_period      = iv_period
          it_statistics  = it_statistics ).
        MESSAGE 'Metric statistics retrieved.' TYPE 'I'.
      CATCH /aws1/cx_cwtinvparamvalueex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetMetricStatistics](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListMetrics`
<a name="cloudwatch_ListMetrics_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListMetrics`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    "The following list-metrics example displays the metrics for Amazon CloudWatch."
    TRY.
        oo_result = lo_cwt->listmetrics(            " oo_result is returned for testing purposes. "
          iv_namespace = iv_namespace ).
        DATA(lt_metrics) = oo_result->get_metrics( ).
        MESSAGE 'Metrics retrieved.' TYPE 'I'.
      CATCH /aws1/cx_cwtinvparamvalueex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListMetrics](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutMetricAlarm`
<a name="cloudwatch_PutMetricAlarm_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricAlarm`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    TRY.
        lo_cwt->putmetricalarm(
          iv_alarmname                 = iv_alarm_name
          iv_comparisonoperator        = iv_comparison_operator
          iv_evaluationperiods         = iv_evaluation_periods
          iv_metricname                = iv_metric_name
          iv_namespace                 = iv_namespace
          iv_statistic                 = iv_statistic
          iv_threshold                 = iv_threshold
          iv_actionsenabled            = iv_actions_enabled
          iv_alarmdescription          = iv_alarm_description
          iv_unit                      = iv_unit
          iv_period                    = iv_period
          it_dimensions                = it_dimensions ).
        MESSAGE 'Alarm created.' TYPE 'I'.
      CATCH /aws1/cx_cwtlimitexceededfault.
        MESSAGE 'The request processing has exceeded the limit' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutMetricAlarm](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutMetricData`
<a name="cloudwatch_PutMetricData_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutMetricData`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    DATA lt_metricdata TYPE /aws1/cl_cwtmetricdatum=>tt_metricdata.

    "Create metric data object.
    DATA(lo_metricdatum) = NEW /aws1/cl_cwtmetricdatum(
      iv_metricname = iv_metric_name
      iv_value      = iv_value
      iv_unit       = iv_unit ).

    INSERT lo_metricdatum INTO TABLE lt_metricdata.

    TRY.
        lo_cwt->putmetricdata(
          iv_namespace   = iv_namespace
          it_metricdata  = lt_metricdata ).
        MESSAGE 'Metric data added.' TYPE 'I'.
      CATCH /aws1/cx_cwtinvparamvalueex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
    ENDTRY.
```
Masukkan satu set data ke dalam CloudWatch metrik.  

```
    DATA lt_metricdata TYPE /aws1/cl_cwtmetricdatum=>tt_metricdata.

    "Create metric data object with values and counts.
    DATA(lo_metricdatum) = NEW /aws1/cl_cwtmetricdatum(
      iv_metricname = iv_metric_name
      iv_timestamp  = iv_timestamp
      iv_unit       = iv_unit
      it_values     = it_values
      it_counts     = it_counts ).

    INSERT lo_metricdatum INTO TABLE lt_metricdata.

    TRY.
        lo_cwt->putmetricdata(
          iv_namespace   = iv_namespace
          it_metricdata  = lt_metricdata ).
        MESSAGE 'Metric data set added.' TYPE 'I'.
      CATCH /aws1/cx_cwtinvparamvalueex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutMetricData](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Skenario
<a name="scenarios"></a>

### Memulai menggunakan alarm
<a name="cloudwatch_Scenario_GettingStarted_sap-abap_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat alarm.
+ Menonaktifkan tindakan alarm.
+ Menjelaskan maksud alarm.
+ Menghapus alarm.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwt#code-examples). 

```
    DATA lt_alarmnames TYPE /aws1/cl_cwtalarmnames_w=>tt_alarmnames.
    DATA lo_alarmname TYPE REF TO /aws1/cl_cwtalarmnames_w.

    "Create an alarm"
    TRY.
        lo_cwt->putmetricalarm(
          iv_alarmname                 = iv_alarm_name
          iv_comparisonoperator        = iv_comparison_operator
          iv_evaluationperiods         = iv_evaluation_periods
          iv_metricname                = iv_metric_name
          iv_namespace                 = iv_namespace
          iv_statistic                 = iv_statistic
          iv_threshold                 = iv_threshold
          iv_actionsenabled            = iv_actions_enabled
          iv_alarmdescription          = iv_alarm_description
          iv_unit                      = iv_unit
          iv_period                    = iv_period
          it_dimensions                = it_dimensions ).
        MESSAGE 'Alarm created' TYPE 'I'.
      CATCH /aws1/cx_cwtlimitexceededfault.
        MESSAGE 'The request processing has exceeded the limit' TYPE 'E'.
    ENDTRY.

    "Create an ABAP internal table for the created alarm."
    lo_alarmname = NEW #( iv_value = iv_alarm_name ).
    INSERT lo_alarmname INTO TABLE lt_alarmnames.

    "Disable alarm actions."
    TRY.
        lo_cwt->disablealarmactions(
          it_alarmnames                = lt_alarmnames ).
        MESSAGE 'Alarm actions disabled' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_disablealarm_exception).
        DATA(lv_disablealarm_error) = |"{ lo_disablealarm_exception->av_err_code }" - { lo_disablealarm_exception->av_err_msg }|.
        MESSAGE lv_disablealarm_error TYPE 'E'.
    ENDTRY.

    "Describe alarm using the same ABAP internal table."
    TRY.
        oo_result = lo_cwt->describealarms(                       " oo_result is returned for testing purpose "
          it_alarmnames                = lt_alarmnames ).
        MESSAGE 'Alarms retrieved' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_describealarms_exception).
        DATA(lv_describealarms_error) = |"{ lo_describealarms_exception->av_err_code }" - { lo_describealarms_exception->av_err_msg }|.
        MESSAGE lv_describealarms_error TYPE 'E'.
    ENDTRY.

    "Delete alarm."
    TRY.
        lo_cwt->deletealarms(
          it_alarmnames = lt_alarmnames ).
        MESSAGE 'Alarms deleted' TYPE 'I'.
      CATCH /aws1/cx_cwtresourcenotfound.
        MESSAGE 'Resource being access is not found.' TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [DeleteAlarms](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DescribeAlarms](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DisableAlarmActions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [PutMetricAlarm](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

# CloudWatch Contoh log menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_cloudwatch-logs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Log. CloudWatch 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `GetQueryResults`
<a name="cloudwatch-logs_GetQueryResults_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueryResults`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwl#code-examples). 

```
    TRY.
        oo_result = lo_cwl->getqueryresults(
          iv_queryid = iv_query_id ).
        
        " Display query status and result count
        DATA(lv_status) = oo_result->get_status( ).
        DATA(lt_results) = oo_result->get_results( ).
        DATA(lv_result_count) = lines( lt_results ).
        
        MESSAGE |Query status: { lv_status }. Retrieved { lv_result_count } log event(s).| TYPE 'I'.
      CATCH /aws1/cx_cwlinvalidparameterex.
        MESSAGE 'Invalid parameter.' TYPE 'E'.
      CATCH /aws1/cx_cwlresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'E'.
      CATCH /aws1/cx_cwlserviceunavailex.
        MESSAGE 'Service unavailable.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetQueryResults](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartQuery`
<a name="cloudwatch-logs_StartQuery_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartQuery`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cwl#code-examples). 

```
    TRY.
        " iv_log_group_name = '/aws/lambda/my-function'
        " iv_query_string = 'fields @timestamp, @message | sort @timestamp desc | limit 20'
        " iv_start_time and iv_end_time must be in Unix epoch milliseconds (ms since Jan 1, 1970 00:00:00 UTC)
        oo_result = lo_cwl->startquery(
          iv_loggroupname = iv_log_group_name
          iv_starttime    = iv_start_time
          iv_endtime      = iv_end_time
          iv_querystring  = iv_query_string
          iv_limit        = iv_limit ).
        
        " Display the query ID for tracking
        DATA(lv_query_id) = oo_result->get_queryid( ).
        MESSAGE |Query started successfully with ID: { lv_query_id }| TYPE 'I'.
      CATCH /aws1/cx_cwlinvalidparameterex.
        MESSAGE 'Invalid parameter.' TYPE 'E'.
      CATCH /aws1/cx_cwllimitexceededex.
        MESSAGE 'Limit exceeded.' TYPE 'E'.
      CATCH /aws1/cx_cwlmalformedqueryex.
        MESSAGE 'Malformed query.' TYPE 'E'.
      CATCH /aws1/cx_cwlresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'E'.
      CATCH /aws1/cx_cwlserviceunavailex.
        MESSAGE 'Service unavailable.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartQuery](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Cognito Identity Provider.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AdminInitiateAuth`
<a name="cognito-identity-provider_AdminInitiateAuth_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminInitiateAuth`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cgp#code-examples). 

```
    TRY.
        " Set up authentication parameters
        DATA(lt_auth_params) = VALUE /aws1/cl_cgpauthparamstype_w=>tt_authparameterstype(
          ( VALUE /aws1/cl_cgpauthparamstype_w=>ts_authparameterstype_maprow(
              key = 'USERNAME'
              value = NEW /aws1/cl_cgpauthparamstype_w( iv_user_name ) ) )
          ( VALUE /aws1/cl_cgpauthparamstype_w=>ts_authparameterstype_maprow(
              key = 'PASSWORD'
              value = NEW /aws1/cl_cgpauthparamstype_w( iv_password ) ) )
        ).

        " Add SECRET_HASH if provided
        IF iv_secret_hash IS NOT INITIAL.
          INSERT VALUE #(
            key = 'SECRET_HASH'
            value = NEW /aws1/cl_cgpauthparamstype_w( iv_secret_hash )
          ) INTO TABLE lt_auth_params.
        ENDIF.

        oo_result = lo_cgp->admininitiateauth(
          iv_userpoolid = iv_user_pool_id
          iv_clientid = iv_client_id
          iv_authflow = 'ADMIN_USER_PASSWORD_AUTH'
          it_authparameters = lt_auth_params
        ).

        DATA(lv_challenge) = oo_result->get_challengename( ).

        IF lv_challenge IS INITIAL.
          MESSAGE 'User successfully signed in.' TYPE 'I'.
        ELSE.
          MESSAGE |Authentication challenge required: { lv_challenge }.| TYPE 'I'.
        ENDIF.

      CATCH /aws1/cx_cgpusernotfoundex INTO DATA(lo_user_ex).
        MESSAGE |User { iv_user_name } not found.| TYPE 'E'.

      CATCH /aws1/cx_cgpnotauthorizedex INTO DATA(lo_auth_ex).
        MESSAGE 'Not authorized. Check credentials.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AdminInitiateAuth](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `AdminRespondToAuthChallenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminRespondToAuthChallenge`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cgp#code-examples). 

```
    TRY.
        " Build challenge responses
        DATA(lt_challenge_responses) = VALUE /aws1/cl_cgpchallengerspstyp00=>tt_challengeresponsestype(
          ( VALUE /aws1/cl_cgpchallengerspstyp00=>ts_challengerspstype_maprow(
              key = 'USERNAME'
              value = NEW /aws1/cl_cgpchallengerspstyp00( iv_user_name ) ) )
          ( VALUE /aws1/cl_cgpchallengerspstyp00=>ts_challengerspstype_maprow(
              key = 'SOFTWARE_TOKEN_MFA_CODE'
              value = NEW /aws1/cl_cgpchallengerspstyp00( iv_mfa_code ) ) )
        ).

        " Add SECRET_HASH if provided
        IF iv_secret_hash IS NOT INITIAL.
          INSERT VALUE #(
            key = 'SECRET_HASH'
            value = NEW /aws1/cl_cgpchallengerspstyp00( iv_secret_hash )
          ) INTO TABLE lt_challenge_responses.
        ENDIF.

        DATA(lo_result) = lo_cgp->adminrespondtoauthchallenge(
          iv_userpoolid = iv_user_pool_id
          iv_clientid = iv_client_id
          iv_challengename = 'SOFTWARE_TOKEN_MFA'
          it_challengeresponses = lt_challenge_responses
          iv_session = iv_session
        ).

        oo_auth_result = lo_result->get_authenticationresult( ).

        IF oo_auth_result IS BOUND.
          MESSAGE 'MFA challenge completed successfully.' TYPE 'I'.
        ELSE.
          " Another challenge might be required
          DATA(lv_next_challenge) = lo_result->get_challengename( ).
          MESSAGE |Additional challenge required: { lv_next_challenge }.| TYPE 'I'.
        ENDIF.

      CATCH /aws1/cx_cgpcodemismatchex INTO DATA(lo_code_ex).
        MESSAGE 'Invalid MFA code provided.' TYPE 'E'.

      CATCH /aws1/cx_cgpexpiredcodeex INTO DATA(lo_expired_ex).
        MESSAGE 'MFA code has expired.' TYPE 'E'.

      CATCH /aws1/cx_cgpnotauthorizedex INTO DATA(lo_auth_ex).
        MESSAGE 'Not authorized. Check MFA configuration.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AdminRespondToAuthChallenge](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `AssociateSoftwareToken`
<a name="cognito-identity-provider_AssociateSoftwareToken_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateSoftwareToken`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cgp#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_cgp->associatesoftwaretoken(
          iv_session = iv_session
        ).

        ov_secret_code = lo_result->get_secretcode( ).

        MESSAGE 'MFA secret code generated successfully.' TYPE 'I'.

      CATCH /aws1/cx_cgpresourcenotfoundex INTO DATA(lo_ex).
        MESSAGE 'Session not found or expired.' TYPE 'E'.

      CATCH /aws1/cx_cgpnotauthorizedex INTO DATA(lo_auth_ex).
        MESSAGE 'Not authorized to associate software token.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AssociateSoftwareToken](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListUsers`
<a name="cognito-identity-provider_ListUsers_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cgp#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_cgp->listusers(
          iv_userpoolid = iv_user_pool_id
        ).

        ot_users = lo_result->get_users( ).

        MESSAGE |Found { lines( ot_users ) } users in the pool.| TYPE 'I'.

      CATCH /aws1/cx_cgpresourcenotfoundex INTO DATA(lo_ex).
        MESSAGE |User pool { iv_user_pool_id } not found.| TYPE 'E'.

      CATCH /aws1/cx_cgpnotauthorizedex INTO DATA(lo_auth_ex).
        MESSAGE 'Not authorized to list users.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `VerifySoftwareToken`
<a name="cognito-identity-provider_VerifySoftwareToken_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifySoftwareToken`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cgp#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_cgp->verifysoftwaretoken(
          iv_session = iv_session
          iv_usercode = iv_user_code
        ).

        ov_status = lo_result->get_status( ).

        IF ov_status = 'SUCCESS'.
          MESSAGE 'MFA token verified successfully.' TYPE 'I'.
        ELSE.
          MESSAGE |MFA verification status: { ov_status }.| TYPE 'I'.
        ENDIF.

      CATCH /aws1/cx_cgpcodemismatchex INTO DATA(lo_code_ex).
        MESSAGE 'Invalid MFA code provided.' TYPE 'E'.

      CATCH /aws1/cx_cgpenbsoftwaretokmf00 INTO DATA(lo_enabled_ex).
        MESSAGE 'Software token MFA is already enabled.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [VerifySoftwareToken](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Amazon Comprehend contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_comprehend_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Comprehend.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateDocumentClassifier`
<a name="comprehend_CreateDocumentClassifier_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDocumentClassifier`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->createdocumentclassifier(
          iv_documentclassifiername = iv_classifier_name
          iv_languagecode = iv_language_code
          io_inputdataconfig = NEW /aws1/cl_cpddocclifierinpdat00(
            iv_s3uri = iv_training_s3_uri
          )
          iv_dataaccessrolearn = iv_data_access_role_arn
          iv_mode = iv_mode
        ).
        MESSAGE 'Document classifier creation started.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdresrclimitexcdex.
        MESSAGE 'Resource limit exceeded.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanytagsex.
        MESSAGE 'Too many tags.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateDocumentClassifier](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteDocumentClassifier`
<a name="comprehend_DeleteDocumentClassifier_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDocumentClassifier`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->deletedocumentclassifier(
          iv_documentclassifierarn = iv_classifier_arn
        ).
        MESSAGE 'Document classifier deleted.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'E'.
      CATCH /aws1/cx_cpdresourceinuseex.
        MESSAGE 'Resource in use.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteDocumentClassifier](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeDocumentClassificationJob`
<a name="comprehend_DescribeDocumentClassificationJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDocumentClassificationJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->describedocclassificationjob(
          iv_jobid = iv_job_id
        ).
        MESSAGE 'Document classification job described.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdjobnotfoundex.
        MESSAGE 'Job not found.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeDocumentClassificationJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeDocumentClassifier`
<a name="comprehend_DescribeDocumentClassifier_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDocumentClassifier`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->describedocumentclassifier(
          iv_documentclassifierarn = iv_classifier_arn
        ).
        MESSAGE 'Document classifier described.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeDocumentClassifier](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeTopicsDetectionJob`
<a name="comprehend_DescribeTopicsDetectionJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTopicsDetectionJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->describetopicsdetectionjob(
          iv_jobid = iv_job_id
        ).
        MESSAGE 'Topics detection job described.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdjobnotfoundex.
        MESSAGE 'Job not found.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeTopicsDetectionJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectDominantLanguage`
<a name="comprehend_DetectDominantLanguage_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectDominantLanguage`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->detectdominantlanguage( iv_text = iv_text ).
        MESSAGE 'Languages detected.' TYPE 'I'.
      CATCH /aws1/cx_cpdtextsizelmtexcdex.
        MESSAGE 'Text size exceeds limit.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectDominantLanguage](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectEntities`
<a name="comprehend_DetectEntities_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectEntities`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->detectentities(
          iv_text = iv_text
          iv_languagecode = iv_language_code
        ).
        MESSAGE 'Entities detected.' TYPE 'I'.
      CATCH /aws1/cx_cpdtextsizelmtexcdex.
        MESSAGE 'Text size exceeds limit.' TYPE 'E'.
      CATCH /aws1/cx_cpdunsuppedlanguageex.
        MESSAGE 'Unsupported language.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectEntities](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectKeyPhrases`
<a name="comprehend_DetectKeyPhrases_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectKeyPhrases`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->detectkeyphrases(
          iv_text = iv_text
          iv_languagecode = iv_language_code
        ).
        MESSAGE 'Key phrases detected.' TYPE 'I'.
      CATCH /aws1/cx_cpdtextsizelmtexcdex.
        MESSAGE 'Text size exceeds limit.' TYPE 'E'.
      CATCH /aws1/cx_cpdunsuppedlanguageex.
        MESSAGE 'Unsupported language.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectKeyPhrases](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectPiiEntities`
<a name="comprehend_DetectPiiEntities_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectPiiEntities`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->detectpiientities(
          iv_text = iv_text
          iv_languagecode = iv_language_code
        ).
        MESSAGE 'PII entities detected.' TYPE 'I'.
      CATCH /aws1/cx_cpdtextsizelmtexcdex.
        MESSAGE 'Text size exceeds limit.' TYPE 'E'.
      CATCH /aws1/cx_cpdunsuppedlanguageex.
        MESSAGE 'Unsupported language.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectPiiEntities](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectSentiment`
<a name="comprehend_DetectSentiment_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectSentiment`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->detectsentiment(
          iv_text = iv_text
          iv_languagecode = iv_language_code
        ).
        MESSAGE 'Sentiment detected.' TYPE 'I'.
      CATCH /aws1/cx_cpdtextsizelmtexcdex.
        MESSAGE 'Text size exceeds limit.' TYPE 'E'.
      CATCH /aws1/cx_cpdunsuppedlanguageex.
        MESSAGE 'Unsupported language.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectSentiment](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectSyntax`
<a name="comprehend_DetectSyntax_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectSyntax`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->detectsyntax(
          iv_text = iv_text
          iv_languagecode = iv_language_code
        ).
        MESSAGE 'Syntax tokens detected.' TYPE 'I'.
      CATCH /aws1/cx_cpdtextsizelmtexcdex.
        MESSAGE 'Text size exceeds limit.' TYPE 'E'.
      CATCH /aws1/cx_cpdunsuppedlanguageex.
        MESSAGE 'Unsupported language.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectSyntax](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListDocumentClassificationJobs`
<a name="comprehend_ListDocumentClassificationJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDocumentClassificationJobs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->listdocclassificationjobs( ).
        MESSAGE 'Document classification jobs listed.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidfilterex.
        MESSAGE 'Invalid filter.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListDocumentClassificationJobs](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListDocumentClassifiers`
<a name="comprehend_ListDocumentClassifiers_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDocumentClassifiers`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->listdocumentclassifiers( ).
        MESSAGE 'Document classifiers listed.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidfilterex.
        MESSAGE 'Invalid filter.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListDocumentClassifiers](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTopicsDetectionJobs`
<a name="comprehend_ListTopicsDetectionJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopicsDetectionJobs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->listtopicsdetectionjobs( ).
        MESSAGE 'Topics detection jobs listed.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdinvalidfilterex.
        MESSAGE 'Invalid filter.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTopicsDetectionJobs](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartDocumentClassificationJob`
<a name="comprehend_StartDocumentClassificationJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDocumentClassificationJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->startdocclassificationjob(
          iv_jobname = iv_job_name
          iv_documentclassifierarn = iv_classifier_arn
          io_inputdataconfig = NEW /aws1/cl_cpdinputdataconfig(
            iv_s3uri = iv_input_s3_uri
            iv_inputformat = iv_input_format
          )
          io_outputdataconfig = NEW /aws1/cl_cpdoutputdataconfig(
            iv_s3uri = iv_output_s3_uri
          )
          iv_dataaccessrolearn = iv_data_access_role_arn
        ).
        MESSAGE 'Document classification job started.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'E'.
      CATCH /aws1/cx_cpdresourceunavailex.
        MESSAGE 'Resource unavailable.' TYPE 'E'.
      CATCH /aws1/cx_cpdkmskeyvalidationex.
        MESSAGE 'KMS key validation error.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanytagsex.
        MESSAGE 'Too many tags.' TYPE 'E'.
      CATCH /aws1/cx_cpdresrclimitexcdex.
        MESSAGE 'Resource limit exceeded.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartDocumentClassificationJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartTopicsDetectionJob`
<a name="comprehend_StartTopicsDetectionJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTopicsDetectionJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cpd#code-examples). 

```
    TRY.
        oo_result = lo_cpd->starttopicsdetectionjob(
          iv_jobname = iv_job_name
          io_inputdataconfig = NEW /aws1/cl_cpdinputdataconfig(
            iv_s3uri = iv_input_s3_uri
            iv_inputformat = iv_input_format
          )
          io_outputdataconfig = NEW /aws1/cl_cpdoutputdataconfig(
            iv_s3uri = iv_output_s3_uri
          )
          iv_dataaccessrolearn = iv_data_access_role_arn
        ).
        MESSAGE 'Topics detection job started.' TYPE 'I'.
      CATCH /aws1/cx_cpdinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanyrequestsex.
        MESSAGE 'Too many requests.' TYPE 'E'.
      CATCH /aws1/cx_cpdkmskeyvalidationex.
        MESSAGE 'KMS key validation error.' TYPE 'E'.
      CATCH /aws1/cx_cpdtoomanytagsex.
        MESSAGE 'Too many tags.' TYPE 'E'.
      CATCH /aws1/cx_cpdresrclimitexcdex.
        MESSAGE 'Resource limit exceeded.' TYPE 'E'.
      CATCH /aws1/cx_cpdinternalserverex.
        MESSAGE 'Internal server error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartTopicsDetectionJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# AWS Config contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_config-service_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. AWS Config

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteConfigRule`
<a name="config-service_DeleteConfigRule_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteConfigRule`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cfs#code-examples). 

```
    lo_cfs->deleteconfigrule( iv_rule_name ).
    MESSAGE 'Deleted AWS Config rule.' TYPE 'I'.
```
+  Untuk detail API, lihat [DeleteConfigRule](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeConfigRules`
<a name="config-service_DescribeConfigRules_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeConfigRules`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cfs#code-examples). 

```
    DATA(lo_result) = lo_cfs->describeconfigrules(
      it_configrulenames = VALUE /aws1/cl_cfsconfigrulenames_w=>tt_configrulenames(
        ( NEW /aws1/cl_cfsconfigrulenames_w( iv_rule_name ) )
      )
    ).
    ot_cfg_rules = lo_result->get_configrules( ).
    MESSAGE 'Retrieved AWS Config rule data.' TYPE 'I'.
```
+  Untuk detail API, lihat [DescribeConfigRules](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutConfigRule`
<a name="config-service_PutConfigRule_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutConfigRule`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/cfs#code-examples). 

```
    " Create a config rule for S3 bucket public read prohibition
    lo_cfs->putconfigrule(
      io_configrule = NEW /aws1/cl_cfsconfigrule(
        iv_configrulename = iv_rule_name
        iv_description = |S3 Public Read Prohibited Bucket Rule|
        io_scope = NEW /aws1/cl_cfsscope(
          it_complianceresourcetypes = VALUE /aws1/cl_cfscplncresrctypes_w=>tt_complianceresourcetypes(
            ( NEW /aws1/cl_cfscplncresrctypes_w( |AWS::S3::Bucket| ) )
          )
        )
        io_source = NEW /aws1/cl_cfssource(
          iv_owner = |AWS|
          iv_sourceidentifier = |S3_BUCKET_PUBLIC_READ_PROHIBITED|
        )
        iv_inputparameters = '{}'
        iv_configrulestate = |ACTIVE|
      )
    ).
    MESSAGE 'Created AWS Config rule.' TYPE 'I'.
```
+  Untuk detail API, lihat [PutConfigRule](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# AWS Control Tower contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_controltower_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. AWS Control Tower

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DisableBaseline`
<a name="controltower_DisableBaseline_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableBaseline`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    TRY.
        " Disable the baseline
        DATA(lo_output) = io_ctt->disablebaseline(
          iv_enabledbaselineidentifier = iv_enabled_baseline_identifier
        ).

        DATA(lv_operation_id) = lo_output->get_operationidentifier( ).

        " Wait for operation to complete
        DATA lv_status TYPE /aws1/cttbaselineopstatus.
        DO 100 TIMES.
          lv_status = get_baseline_operation(
            io_ctt = io_ctt
            iv_operation_id = lv_operation_id
          ).

          DATA(lv_msg) = |Baseline operation status: { lv_status }|.
          MESSAGE lv_msg TYPE 'I'.

          IF lv_status = 'SUCCEEDED' OR lv_status = 'FAILED'.
            EXIT.
          ENDIF.

          " Wait 30 seconds
          WAIT UP TO 30 SECONDS.
        ENDDO.

        ov_operation_id = lv_operation_id.
        MESSAGE 'Baseline disabled successfully.' TYPE 'I'.
      CATCH /aws1/cx_cttconflictexception INTO DATA(lo_conflict).
        " Log conflict but don't fail - return empty operation ID
        DATA(lv_msg2) = |Conflict disabling baseline: { lo_conflict->get_text( ) }. Skipping disable step.|.
        MESSAGE lv_msg2 TYPE 'I'.
        CLEAR ov_operation_id.
    ENDTRY.
```
+  Untuk detail API, lihat [DisableBaseline](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DisableControl`
<a name="controltower_DisableControl_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableControl`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    " Disable the control
    DATA(lo_output) = io_ctt->disablecontrol(
      iv_controlidentifier = iv_control_arn
      iv_targetidentifier  = iv_target_identifier
    ).

    DATA(lv_operation_id) = lo_output->get_operationidentifier( ).

    " Wait for operation to complete
    DATA lv_status TYPE /aws1/cttcontrolopstatus.
    DO 100 TIMES.
      lv_status = get_control_operation(
        io_ctt = io_ctt
        iv_operation_id = lv_operation_id
      ).

      DATA(lv_msg) = |Control operation status: { lv_status }|.
      MESSAGE lv_msg TYPE 'I'.

      IF lv_status = 'SUCCEEDED' OR lv_status = 'FAILED'.
        EXIT.
      ENDIF.

      " Wait 30 seconds
      WAIT UP TO 30 SECONDS.
    ENDDO.

    ov_operation_id = lv_operation_id.
    MESSAGE 'Control disabled successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [DisableControl](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `EnableBaseline`
<a name="controltower_EnableBaseline_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableBaseline`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    " Prepare parameters for enabling baseline
    DATA lt_parameters TYPE /aws1/cl_cttenbdbaselineparam=>tt_enabledbaselineparameters.

    " Add Identity Center baseline parameter if provided
    IF iv_identity_center_baseline IS NOT INITIAL.
      " Create a JSON document with the baseline ARN value
      DATA(lv_json) = |\{ "IdentityCenterEnabledBaselineArn": "{ iv_identity_center_baseline }" \}|.
      DATA(lo_param) = NEW /aws1/cl_cttenbdbaselineparam(
        iv_key = 'IdentityCenterEnabledBaselineArn'
        io_value = /aws1/cl_rt_document=>from_json_str( lv_json )
      ).
      APPEND lo_param TO lt_parameters.
    ENDIF.

    " Enable the baseline
    DATA(lo_output) = io_ctt->enablebaseline(
      iv_baselineidentifier = iv_baseline_identifier
      iv_baselineversion    = iv_baseline_version
      iv_targetidentifier   = iv_target_identifier
      it_parameters         = lt_parameters
    ).

    DATA(lv_operation_id) = lo_output->get_operationidentifier( ).

    " Wait for operation to complete
    DATA lv_status TYPE /aws1/cttbaselineopstatus.
    DO 100 TIMES.
      lv_status = get_baseline_operation(
        io_ctt = io_ctt
        iv_operation_id = lv_operation_id
      ).

      DATA(lv_msg) = |Baseline operation status: { lv_status }|.
      MESSAGE lv_msg TYPE 'I'.

      IF lv_status = 'SUCCEEDED' OR lv_status = 'FAILED'.
        EXIT.
      ENDIF.

      " Wait 30 seconds
      WAIT UP TO 30 SECONDS.
    ENDDO.

    ov_enabled_baseline_arn = lo_output->get_arn( ).
    MESSAGE 'Baseline enabled successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [EnableBaseline](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `EnableControl`
<a name="controltower_EnableControl_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableControl`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    " Enable the control
    DATA(lo_output) = io_ctt->enablecontrol(
      iv_controlidentifier = iv_control_arn
      iv_targetidentifier  = iv_target_identifier
    ).

    DATA(lv_operation_id) = lo_output->get_operationidentifier( ).

    " Wait for operation to complete
    DATA lv_status TYPE /aws1/cttcontrolopstatus.
    DO 100 TIMES.
      lv_status = get_control_operation(
        io_ctt = io_ctt
        iv_operation_id = lv_operation_id
      ).

      DATA(lv_msg) = |Control operation status: { lv_status }|.
      MESSAGE lv_msg TYPE 'I'.

      IF lv_status = 'SUCCEEDED' OR lv_status = 'FAILED'.
        EXIT.
      ENDIF.

      " Wait 30 seconds
      WAIT UP TO 30 SECONDS.
    ENDDO.

    ov_operation_id = lv_operation_id.
    MESSAGE 'Control enabled successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [EnableControl](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetBaselineOperation`
<a name="controltower_GetBaselineOperation_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBaselineOperation`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    DATA(lo_output) = io_ctt->getbaselineoperation(
      iv_operationidentifier = iv_operation_id
    ).

    ov_status = lo_output->get_baselineoperation( )->get_status( ).
```
+  Untuk detail API, lihat [GetBaselineOperation](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetControlOperation`
<a name="controltower_GetControlOperation_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetControlOperation`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    DATA(lo_output) = io_ctt->getcontroloperation(
      iv_operationidentifier = iv_operation_id
    ).

    ov_status = lo_output->get_controloperation( )->get_status( ).
```
+  Untuk detail API, lihat [GetControlOperation](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListBaselines`
<a name="controltower_ListBaselines_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBaselines`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    DATA lt_baselines TYPE /aws1/cl_cttbaselinesummary=>tt_baselines.
    DATA lv_nexttoken TYPE /aws1/cttstring.

    " List all baselines using pagination
    DO.
      DATA(lo_output) = io_ctt->listbaselines(
        iv_nexttoken = lv_nexttoken
      ).

      APPEND LINES OF lo_output->get_baselines( ) TO lt_baselines.

      lv_nexttoken = lo_output->get_nexttoken( ).
      IF lv_nexttoken IS INITIAL.
        EXIT.
      ENDIF.
    ENDDO.

    ot_baselines = lt_baselines.
    MESSAGE 'Listed baselines successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [ListBaselines](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListEnabledBaselines`
<a name="controltower_ListEnabledBaselines_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEnabledBaselines`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    DATA lt_enabled_baselines TYPE /aws1/cl_cttenbdbaselinesumm=>tt_enabledbaselines.
    DATA lv_nexttoken TYPE /aws1/cttlstenbdbaselinesnex00.

    " List all enabled baselines using pagination
    DO.
      DATA(lo_output) = io_ctt->listenabledbaselines(
        iv_nexttoken = lv_nexttoken
      ).

      APPEND LINES OF lo_output->get_enabledbaselines( ) TO lt_enabled_baselines.

      lv_nexttoken = lo_output->get_nexttoken( ).
      IF lv_nexttoken IS INITIAL.
        EXIT.
      ENDIF.
    ENDDO.

    ot_enabled_baselines = lt_enabled_baselines.
    MESSAGE 'Listed enabled baselines successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [ListEnabledBaselines](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListEnabledControls`
<a name="controltower_ListEnabledControls_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListEnabledControls`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    DATA lt_enabled_controls TYPE /aws1/cl_cttenabledcontrolsumm=>tt_enabledcontrols.
    DATA lv_nexttoken TYPE /aws1/cttstring.

    " List all enabled controls using pagination
    DO.
      DATA(lo_output) = io_ctt->listenabledcontrols(
        iv_targetidentifier = iv_target_identifier
        iv_nexttoken        = lv_nexttoken
      ).

      APPEND LINES OF lo_output->get_enabledcontrols( ) TO lt_enabled_controls.

      lv_nexttoken = lo_output->get_nexttoken( ).
      IF lv_nexttoken IS INITIAL.
        EXIT.
      ENDIF.
    ENDDO.

    ot_enabled_controls = lt_enabled_controls.
    MESSAGE 'Listed enabled controls successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [ListEnabledControls](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListLandingZones`
<a name="controltower_ListLandingZones_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLandingZones`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    DATA lt_landing_zones TYPE /aws1/cl_cttlandingzonesummary=>tt_landingzonesummaries.
    DATA lv_nexttoken TYPE /aws1/cttstring.

    " List all landing zones using pagination
    DO.
      DATA(lo_output) = io_ctt->listlandingzones(
        iv_nexttoken = lv_nexttoken
      ).

      APPEND LINES OF lo_output->get_landingzones( ) TO lt_landing_zones.

      lv_nexttoken = lo_output->get_nexttoken( ).
      IF lv_nexttoken IS INITIAL.
        EXIT.
      ENDIF.
    ENDDO.

    ot_landing_zones = lt_landing_zones.
    MESSAGE 'Listed landing zones successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [ListLandingZones](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ResetEnabledBaseline`
<a name="controltower_ResetEnabledBaseline_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResetEnabledBaseline`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ctt#code-examples). 

```
    " Reset the enabled baseline
    DATA(lo_output) = io_ctt->resetenabledbaseline(
      iv_enabledbaselineidentifier = iv_enabled_baseline_identifier
    ).

    DATA(lv_operation_id) = lo_output->get_operationidentifier( ).

    " Wait for operation to complete
    DATA lv_status TYPE /aws1/cttbaselineopstatus.
    DO 100 TIMES.
      lv_status = get_baseline_operation(
        io_ctt = io_ctt
        iv_operation_id = lv_operation_id
      ).

      DATA(lv_msg) = |Baseline operation status: { lv_status }|.
      MESSAGE lv_msg TYPE 'I'.

      IF lv_status = 'SUCCEEDED' OR lv_status = 'FAILED'.
        EXIT.
      ENDIF.

      " Wait 30 seconds
      WAIT UP TO 30 SECONDS.
    ENDDO.

    ov_operation_id = lv_operation_id.
    MESSAGE 'Baseline reset successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [ResetEnabledBaseline](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Firehose menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_firehose_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Firehose.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `PutRecord`
<a name="firehose_PutRecord_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecord`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/frh#code-examples). 

```
    TRY.
        DATA(lo_record) = NEW /aws1/cl_frhrecord( iv_data = iv_data ).

        DATA(lo_result) = lo_frh->putrecord(
          iv_deliverystreamname = iv_deliv_stream_name
          io_record             = lo_record ).

        MESSAGE 'Record sent to Firehose delivery stream.' TYPE 'I'.
      CATCH /aws1/cx_frhresourcenotfoundex.
        MESSAGE 'Delivery stream not found.' TYPE 'E'.
      CATCH /aws1/cx_frhinvalidargumentex.
        MESSAGE 'Invalid argument provided.' TYPE 'E'.
      CATCH /aws1/cx_frhserviceunavailex.
        MESSAGE 'Service temporarily unavailable.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutRecord](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutRecordBatch`
<a name="firehose_PutRecordBatch_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecordBatch`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/frh#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_frh->putrecordbatch(
          iv_deliverystreamname = iv_deliv_stream_name
          it_records            = it_records ).

        DATA(lv_failed_count) = lo_result->get_failedputcount( ).

        IF lv_failed_count > 0.
          MESSAGE |{ lv_failed_count } records failed to send.| TYPE 'I'.
        ELSE.
          MESSAGE 'All records sent successfully to Firehose delivery stream.' TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_frhresourcenotfoundex.
        MESSAGE 'Delivery stream not found.' TYPE 'E'.
      CATCH /aws1/cx_frhinvalidargumentex.
        MESSAGE 'Invalid argument provided.' TYPE 'E'.
      CATCH /aws1/cx_frhserviceunavailex.
        MESSAGE 'Service temporarily unavailable.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutRecordBatch](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh DynamoDB menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_sap-abap_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    " Create an Amazon Dynamo DB table.

    TRY.
        DATA(lo_session) = /aws1/cl_rt_session_aws=>create( cv_pfl ).
        DATA(lo_dyn) = /aws1/cl_dyn_factory=>create( lo_session ).
        DATA(lt_keyschema) = VALUE /aws1/cl_dynkeyschemaelement=>tt_keyschema(
          ( NEW /aws1/cl_dynkeyschemaelement( iv_attributename = 'year'
                                              iv_keytype = 'HASH' ) )
          ( NEW /aws1/cl_dynkeyschemaelement( iv_attributename = 'title'
                                              iv_keytype = 'RANGE' ) ) ).
        DATA(lt_attributedefinitions) = VALUE /aws1/cl_dynattributedefn=>tt_attributedefinitions(
          ( NEW /aws1/cl_dynattributedefn( iv_attributename = 'year'
                                           iv_attributetype = 'N' ) )
          ( NEW /aws1/cl_dynattributedefn( iv_attributename = 'title'
                                           iv_attributetype = 'S' ) ) ).

        " Adjust read/write capacities as desired.
        DATA(lo_dynprovthroughput)  = NEW /aws1/cl_dynprovthroughput(
          iv_readcapacityunits = 5
          iv_writecapacityunits = 5 ).
        DATA(oo_result) = lo_dyn->createtable(
          it_keyschema = lt_keyschema
          iv_tablename = iv_table_name
          it_attributedefinitions = lt_attributedefinitions
          io_provisionedthroughput = lo_dynprovthroughput ).
        " Table creation can take some time. Wait till table exists before returning.
        lo_dyn->get_waiter( )->tableexists(
          iv_max_wait_time = 200
          iv_tablename     = iv_table_name ).
        MESSAGE 'DynamoDB Table' && iv_table_name && 'created.' TYPE 'I'.
        " It throws exception if the table already exists.
      CATCH /aws1/cx_dynresourceinuseex INTO DATA(lo_resourceinuseex).
        DATA(lv_error) = |"{ lo_resourceinuseex->av_err_code }" - { lo_resourceinuseex->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.

    " Describe table
    TRY.
        DATA(lo_table) = lo_dyn->describetable( iv_tablename = iv_table_name ).
        DATA(lv_tablename) = lo_table->get_table( )->ask_tablename( ).
        MESSAGE 'The table name is ' && lv_tablename TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table does not exist' TYPE 'E'.
    ENDTRY.

    " Put items into the table.
    TRY.
        DATA(lo_resp_putitem) = lo_dyn->putitem(
          iv_tablename = iv_table_name
          it_item      = VALUE /aws1/cl_dynattributevalue=>tt_putiteminputattributemap(
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'title' value = NEW /aws1/cl_dynattributevalue( iv_s = 'Jaws' ) ) )
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'year' value = NEW /aws1/cl_dynattributevalue( iv_n = |{ '1975' }| ) ) )
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'rating' value = NEW /aws1/cl_dynattributevalue( iv_n = |{ '7.5' }| ) ) )
          ) ).
        lo_resp_putitem = lo_dyn->putitem(
          iv_tablename = iv_table_name
          it_item      = VALUE /aws1/cl_dynattributevalue=>tt_putiteminputattributemap(
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'title' value = NEW /aws1/cl_dynattributevalue( iv_s = 'Star Wars' ) ) )
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'year' value = NEW /aws1/cl_dynattributevalue( iv_n = |{ '1978' }| ) ) )
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'rating' value = NEW /aws1/cl_dynattributevalue( iv_n = |{ '8.1' }| ) ) )
          ) ).
        lo_resp_putitem = lo_dyn->putitem(
          iv_tablename = iv_table_name
          it_item      = VALUE /aws1/cl_dynattributevalue=>tt_putiteminputattributemap(
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'title' value = NEW /aws1/cl_dynattributevalue( iv_s = 'Speed' ) ) )
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'year' value = NEW /aws1/cl_dynattributevalue( iv_n = |{ '1994' }| ) ) )
            ( VALUE /aws1/cl_dynattributevalue=>ts_putiteminputattrmap_maprow(
              key = 'rating' value = NEW /aws1/cl_dynattributevalue( iv_n = |{ '7.9' }| ) ) )
          ) ).
        " TYPE REF TO /AWSEX/CL_AWS1_dyn_PUT_ITEM_OUTPUT
        MESSAGE '3 rows inserted into DynamoDB Table' && iv_table_name TYPE 'I'.
      CATCH /aws1/cx_dyncondalcheckfaile00.
        MESSAGE 'A condition specified in the operation could not be evaluated.' TYPE 'E'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
      CATCH /aws1/cx_dyntransactconflictex.
        MESSAGE 'Another transaction is using the item' TYPE 'E'.
    ENDTRY.

    " Get item from table.
    TRY.
        DATA(lo_resp_getitem) = lo_dyn->getitem(
          iv_tablename                = iv_table_name
          it_key                      = VALUE /aws1/cl_dynattributevalue=>tt_key(
           ( VALUE /aws1/cl_dynattributevalue=>ts_key_maprow(
             key = 'title' value = NEW /aws1/cl_dynattributevalue( iv_s = 'Jaws' ) ) )
           ( VALUE /aws1/cl_dynattributevalue=>ts_key_maprow(
             key = 'year' value = NEW /aws1/cl_dynattributevalue( iv_n = '1975' ) ) )
          ) ).
        DATA(lt_attr) = lo_resp_getitem->get_item( ).
        DATA(lo_title) = lt_attr[ key = 'title' ]-value.
        DATA(lo_year) = lt_attr[ key = 'year' ]-value.
        DATA(lo_rating) = lt_attr[ key = 'year' ]-value.
        MESSAGE 'Movie name is: ' && lo_title->get_s( ) TYPE 'I'.
        MESSAGE 'Movie year is: ' && lo_year->get_n( ) TYPE 'I'.
        MESSAGE 'Movie rating is: ' && lo_rating->get_n( ) TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
    ENDTRY.

    " Query item from table.
    TRY.
        DATA(lt_attributelist) = VALUE /aws1/cl_dynattributevalue=>tt_attributevaluelist(
              ( NEW /aws1/cl_dynattributevalue( iv_n = '1975' ) ) ).
        DATA(lt_keyconditions) = VALUE /aws1/cl_dyncondition=>tt_keyconditions(
          ( VALUE /aws1/cl_dyncondition=>ts_keyconditions_maprow(
          key = 'year'
          value = NEW /aws1/cl_dyncondition(
            it_attributevaluelist = lt_attributelist
            iv_comparisonoperator = |EQ|
          ) ) ) ).
        DATA(lo_query_result) = lo_dyn->query(
          iv_tablename = iv_table_name
          it_keyconditions = lt_keyconditions ).
        DATA(lt_items) = lo_query_result->get_items( ).
        READ TABLE lo_query_result->get_items( ) INTO DATA(lt_item) INDEX 1.
        lo_title = lt_item[ key = 'title' ]-value.
        lo_year = lt_item[ key = 'year' ]-value.
        lo_rating = lt_item[ key = 'rating' ]-value.
        MESSAGE 'Movie name is: ' && lo_title->get_s( ) TYPE 'I'.
        MESSAGE 'Movie year is: ' && lo_year->get_n( ) TYPE 'I'.
        MESSAGE 'Movie rating is: ' && lo_rating->get_n( ) TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
    ENDTRY.

    " Scan items from table.
    TRY.
        DATA(lo_scan_result) = lo_dyn->scan( iv_tablename = iv_table_name ).
        lt_items = lo_scan_result->get_items( ).
        " Read the first item and display the attributes.
        READ TABLE lo_query_result->get_items( ) INTO lt_item INDEX 1.
        lo_title = lt_item[ key = 'title' ]-value.
        lo_year = lt_item[ key = 'year' ]-value.
        lo_rating = lt_item[ key = 'rating' ]-value.
        MESSAGE 'Movie name is: ' && lo_title->get_s( ) TYPE 'I'.
        MESSAGE 'Movie year is: ' && lo_year->get_n( ) TYPE 'I'.
        MESSAGE 'Movie rating is: ' && lo_rating->get_n( ) TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
    ENDTRY.

    " Update items from table.
    TRY.
        DATA(lt_attributeupdates) = VALUE /aws1/cl_dynattrvalueupdate=>tt_attributeupdates(
          ( VALUE /aws1/cl_dynattrvalueupdate=>ts_attributeupdates_maprow(
          key = 'rating' value = NEW /aws1/cl_dynattrvalueupdate(
            io_value  = NEW /aws1/cl_dynattributevalue( iv_n = '7.6' )
            iv_action = |PUT| ) ) ) ).
        DATA(lt_key) = VALUE /aws1/cl_dynattributevalue=>tt_key(
          ( VALUE /aws1/cl_dynattributevalue=>ts_key_maprow(
            key = 'year' value = NEW /aws1/cl_dynattributevalue( iv_n = '1975' ) ) )
          ( VALUE /aws1/cl_dynattributevalue=>ts_key_maprow(
            key = 'title' value = NEW /aws1/cl_dynattributevalue( iv_s = '1980' ) ) ) ).
        DATA(lo_resp) = lo_dyn->updateitem(
          iv_tablename        = iv_table_name
          it_key              = lt_key
          it_attributeupdates = lt_attributeupdates ).
        MESSAGE '1 item updated in DynamoDB Table' && iv_table_name TYPE 'I'.
      CATCH /aws1/cx_dyncondalcheckfaile00.
        MESSAGE 'A condition specified in the operation could not be evaluated.' TYPE 'E'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
      CATCH /aws1/cx_dyntransactconflictex.
        MESSAGE 'Another transaction is using the item' TYPE 'E'.
    ENDTRY.

    " Delete table.
    TRY.
        lo_dyn->deletetable( iv_tablename = iv_table_name ).
        lo_dyn->get_waiter( )->tablenotexists(
          iv_max_wait_time = 200
          iv_tablename     = iv_table_name ).
        MESSAGE 'DynamoDB Table deleted.' TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
      CATCH /aws1/cx_dynresourceinuseex.
        MESSAGE 'The table cannot be deleted as it is in use' TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [BatchWriteItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [CreateTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DescribeTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [GetItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [PutItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [Kueri](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [Scan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [UpdateItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateTable`
<a name="dynamodb_CreateTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        DATA(lt_keyschema) = VALUE /aws1/cl_dynkeyschemaelement=>tt_keyschema(
          ( NEW /aws1/cl_dynkeyschemaelement( iv_attributename = 'year'
                                              iv_keytype = 'HASH' ) )
          ( NEW /aws1/cl_dynkeyschemaelement( iv_attributename = 'title'
                                              iv_keytype = 'RANGE' ) ) ).
        DATA(lt_attributedefinitions) = VALUE /aws1/cl_dynattributedefn=>tt_attributedefinitions(
          ( NEW /aws1/cl_dynattributedefn( iv_attributename = 'year'
                                           iv_attributetype = 'N' ) )
          ( NEW /aws1/cl_dynattributedefn( iv_attributename = 'title'
                                           iv_attributetype = 'S' ) ) ).

        " Adjust read/write capacities as desired.
        DATA(lo_dynprovthroughput)  = NEW /aws1/cl_dynprovthroughput(
          iv_readcapacityunits = 5
          iv_writecapacityunits = 5 ).
        oo_result = lo_dyn->createtable(
          it_keyschema = lt_keyschema
          iv_tablename = iv_table_name
          it_attributedefinitions = lt_attributedefinitions
          io_provisionedthroughput = lo_dynprovthroughput ).
        " Table creation can take some time. Wait till table exists before returning.
        lo_dyn->get_waiter( )->tableexists(
          iv_max_wait_time = 200
          iv_tablename     = iv_table_name ).
        MESSAGE 'DynamoDB Table' && iv_table_name && 'created.' TYPE 'I'.
        " This exception can happen if the table already exists.
      CATCH /aws1/cx_dynresourceinuseex INTO DATA(lo_resourceinuseex).
        DATA(lv_error) = |"{ lo_resourceinuseex->av_err_code }" - { lo_resourceinuseex->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        DATA(lo_resp) = lo_dyn->deleteitem(
          iv_tablename                = iv_table_name
          it_key                      = it_key_input ).
        MESSAGE 'Deleted one item.' TYPE 'I'.
      CATCH /aws1/cx_dyncondalcheckfaile00.
        MESSAGE 'A condition specified in the operation could not be evaluated.' TYPE 'E'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
      CATCH /aws1/cx_dyntransactconflictex.
        MESSAGE 'Another transaction is using the item' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        lo_dyn->deletetable( iv_tablename = iv_table_name ).
        " Wait till the table is actually deleted.
        lo_dyn->get_waiter( )->tablenotexists(
          iv_max_wait_time = 200
          iv_tablename     = iv_table_name ).
        MESSAGE 'Table ' && iv_table_name && ' deleted.' TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table ' && iv_table_name && ' does not exist' TYPE 'E'.
      CATCH /aws1/cx_dynresourceinuseex.
        MESSAGE 'The table cannot be deleted since it is in use' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeTable`
<a name="dynamodb_DescribeTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        oo_result = lo_dyn->describetable( iv_tablename = iv_table_name ).
        DATA(lv_tablename) = oo_result->get_table( )->ask_tablename( ).
        DATA(lv_tablearn) = oo_result->get_table( )->ask_tablearn( ).
        DATA(lv_tablestatus) = oo_result->get_table( )->ask_tablestatus( ).
        DATA(lv_itemcount) = oo_result->get_table( )->ask_itemcount( ).
        MESSAGE 'The table name is ' && lv_tablename
            && '. The table ARN is ' && lv_tablearn
            && '. The tablestatus is ' && lv_tablestatus
            && '. Item count is ' && lv_itemcount TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table ' && lv_tablename && ' does not exist' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetItem`
<a name="dynamodb_GetItem_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        oo_item = lo_dyn->getitem(
          iv_tablename                = iv_table_name
          it_key                      = it_key ).
        DATA(lt_attr) = oo_item->get_item( ).
        DATA(lo_title) = lt_attr[ key = 'title' ]-value.
        DATA(lo_year) = lt_attr[ key = 'year' ]-value.
        DATA(lo_rating) = lt_attr[ key = 'rating' ]-value.
        MESSAGE 'Movie name is: ' && lo_title->get_s( )
          && 'Movie year is: ' && lo_year->get_n( )
          && 'Moving rating is: ' && lo_rating->get_n( ) TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTables`
<a name="dynamodb_ListTables_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        oo_result = lo_dyn->listtables( ).
        " You can loop over the oo_result to get table properties like this.
        LOOP AT oo_result->get_tablenames( ) INTO DATA(lo_table_name).
          DATA(lv_tablename) = lo_table_name->get_value( ).
        ENDLOOP.
        DATA(lv_tablecount) = lines( oo_result->get_tablenames( ) ).
        MESSAGE 'Found ' && lv_tablecount && ' tables' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutItem`
<a name="dynamodb_PutItem_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        DATA(lo_resp) = lo_dyn->putitem(
          iv_tablename = iv_table_name
          it_item      = it_item ).
        MESSAGE '1 row inserted into DynamoDB Table' && iv_table_name TYPE 'I'.
      CATCH /aws1/cx_dyncondalcheckfaile00.
        MESSAGE 'A condition specified in the operation could not be evaluated.' TYPE 'E'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
      CATCH /aws1/cx_dyntransactconflictex.
        MESSAGE 'Another transaction is using the item' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `Query`
<a name="dynamodb_Query_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        " Query movies for a given year .
        DATA(lt_attributelist) = VALUE /aws1/cl_dynattributevalue=>tt_attributevaluelist(
            ( NEW /aws1/cl_dynattributevalue( iv_n = |{ iv_year }| ) ) ).
        DATA(lt_key_conditions) = VALUE /aws1/cl_dyncondition=>tt_keyconditions(
          ( VALUE /aws1/cl_dyncondition=>ts_keyconditions_maprow(
          key = 'year'
          value = NEW /aws1/cl_dyncondition(
          it_attributevaluelist = lt_attributelist
          iv_comparisonoperator = |EQ|
          ) ) ) ).
        oo_result = lo_dyn->query(
          iv_tablename = iv_table_name
          it_keyconditions = lt_key_conditions ).
        DATA(lt_items) = oo_result->get_items( ).
        "You can loop over the results to get item attributes.
        LOOP AT lt_items INTO DATA(lt_item).
          DATA(lo_title) = lt_item[ key = 'title' ]-value.
          DATA(lo_year) = lt_item[ key = 'year' ]-value.
        ENDLOOP.
        DATA(lv_count) = oo_result->get_count( ).
        MESSAGE 'Item count is: ' && lv_count TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Kueri](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *referensi API AWS SDK untuk SAP ABAP*. 

### `Scan`
<a name="dynamodb_Scan_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        " Scan movies for rating greater than or equal to the rating specified
        DATA(lt_attributelist) = VALUE /aws1/cl_dynattributevalue=>tt_attributevaluelist(
            ( NEW /aws1/cl_dynattributevalue( iv_n = |{ iv_rating }| ) ) ).
        DATA(lt_filter_conditions) = VALUE /aws1/cl_dyncondition=>tt_filterconditionmap(
          ( VALUE /aws1/cl_dyncondition=>ts_filterconditionmap_maprow(
          key = 'rating'
          value = NEW /aws1/cl_dyncondition(
          it_attributevaluelist = lt_attributelist
          iv_comparisonoperator = |GE|
          ) ) ) ).
        oo_scan_result = lo_dyn->scan( iv_tablename = iv_table_name
          it_scanfilter = lt_filter_conditions ).
        DATA(lt_items) = oo_scan_result->get_items( ).
        LOOP AT lt_items INTO DATA(lo_item).
          " You can loop over to get individual attributes.
          DATA(lo_title) = lo_item[ key = 'title' ]-value.
          DATA(lo_year) = lo_item[ key = 'year' ]-value.
        ENDLOOP.
        DATA(lv_count) = oo_scan_result->get_count( ).
        MESSAGE 'Found ' && lv_count && ' items' TYPE 'I'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Scan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *Referensi API AWS SDK untuk SAP ABAP*. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/dyn#code-examples). 

```
    TRY.
        oo_output = lo_dyn->updateitem(
          iv_tablename        = iv_table_name
          it_key              = it_item_key
          it_attributeupdates = it_attribute_updates ).
        MESSAGE '1 item updated in DynamoDB Table' && iv_table_name TYPE 'I'.
      CATCH /aws1/cx_dyncondalcheckfaile00.
        MESSAGE 'A condition specified in the operation could not be evaluated.' TYPE 'E'.
      CATCH /aws1/cx_dynresourcenotfoundex.
        MESSAGE 'The table or index does not exist' TYPE 'E'.
      CATCH /aws1/cx_dyntransactconflictex.
        MESSAGE 'Another transaction is using the item' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon EC2 menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon EC2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->allocateaddress( iv_domain = 'vpc' ).   " oo_result is returned for testing purposes. "
        MESSAGE 'Allocated an Elastic IP address.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AllocateAddress](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->associateaddress(                         " oo_result is returned for testing purposes. "
            iv_allocationid = iv_allocation_id
            iv_instanceid = iv_instance_id ).
        MESSAGE 'Associated an Elastic IP address with an EC2 instance.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AssociateAddress](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    " Create IP permissions for SSH access (port 22)
    " iv_cidr_ip = '192.0.2.0/24'
    DATA lt_ip_permissions TYPE /aws1/cl_ec2ippermission=>tt_ippermissionlist.
    DATA(lo_ip_permission) = NEW /aws1/cl_ec2ippermission(
      iv_ipprotocol = 'tcp'
      iv_fromport = 22
      iv_toport = 22
      it_ipranges = VALUE /aws1/cl_ec2iprange=>tt_iprangelist(
        ( NEW /aws1/cl_ec2iprange( iv_cidrip = iv_cidr_ip ) )
      )
    ).
    APPEND lo_ip_permission TO lt_ip_permissions.

    TRY.
        oo_result = lo_ec2->authsecuritygroupingress(             " oo_result is returned for testing purposes. "
          iv_groupid = iv_group_id
          it_ippermissions = lt_ip_permissions ).
        MESSAGE 'Authorized ingress rule for security group.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->createkeypair( iv_keyname = iv_key_name ).                            " oo_result is returned for testing purposes. "
        MESSAGE 'Amazon EC2 key pair created.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateKeyPair](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->createsecuritygroup(                 " oo_result is returned for testing purposes. "
          iv_description = 'Security group example'
          iv_groupname = iv_security_group_name
          iv_vpcid = iv_vpc_id ).
        MESSAGE 'Security group created.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateSecurityGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateVpc`
<a name="ec2_CreateVpc_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVpc`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    " iv_cidr_block = '10.0.0.0/16'
    TRY.
        oo_result = lo_ec2->createvpc( iv_cidrblock = iv_cidr_block ).             " oo_result is returned for testing purposes. "
        DATA(lv_vpc_id) = oo_result->get_vpc( )->get_vpcid( ).
        MESSAGE 'Created VPC.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateVpc](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateVpcEndpoint`
<a name="ec2_CreateVpcEndpoint_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVpcEndpoint`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    " iv_vpc_id = 'vpc-abc123'
    " iv_service_name = 'com.amazonaws.region.service'
    TRY.
        oo_result = lo_ec2->createvpcendpoint(             " oo_result is returned for testing purposes. "
          iv_vpcid = iv_vpc_id
          iv_servicename = iv_service_name
          it_routetableids = it_route_table_ids ).
        DATA(lv_vpc_endpoint_id) = oo_result->get_vpcendpoint( )->get_vpcendpointid( ).
        MESSAGE 'Created VPC endpoint.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateVpcEndpoint](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        lo_ec2->deletekeypair( iv_keyname = iv_key_name ).
        MESSAGE 'Amazon EC2 key pair deleted.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteKeyPair](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        lo_ec2->deletesecuritygroup( iv_groupid = iv_security_group_id ).
        MESSAGE 'Security group deleted.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteSecurityGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteVpc`
<a name="ec2_DeleteVpc_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVpc`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        lo_ec2->deletevpc( iv_vpcid = iv_vpc_id ).
        MESSAGE 'Deleted VPC.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteVpc](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteVpcEndpoints`
<a name="ec2_DeleteVpcEndpoints_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVpcEndpoints`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        lo_ec2->deletevpcendpoints( it_vpcendpointids = it_vpc_endpoint_ids ).
        MESSAGE 'Deleted VPC endpoint(s).' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteVpcEndpoints](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeAddresses`
<a name="ec2_DescribeAddresses_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAddresses`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->describeaddresses( ).                        " oo_result is returned for testing purposes. "
        DATA(lt_addresses) = oo_result->get_addresses( ).
        MESSAGE 'Retrieved information about Elastic IP addresses.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeAddresses](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeAvailabilityZones`
<a name="ec2_DescribeAvailabilityZones_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeAvailabilityZones`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->describeavailabilityzones( ).                        " oo_result is returned for testing purposes. "
        DATA(lt_zones) = oo_result->get_availabilityzones( ).
        MESSAGE 'Retrieved information about Availability Zones.' TYPE 'I'.

      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeAvailabilityZones](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeImages`
<a name="ec2_DescribeImages_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->describeimages( it_imageids = it_image_ids ).             " oo_result is returned for testing purposes. "
        DATA(lt_images) = oo_result->get_images( ).
        MESSAGE 'Retrieved information about Amazon Machine Images (AMIs).' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    " Create filters for architecture and instance type patterns
    " iv_architecture = 'x86_64'
    DATA lt_filters TYPE /aws1/cl_ec2filter=>tt_filterlist.
    APPEND NEW /aws1/cl_ec2filter(
      iv_name = 'processor-info.supported-architecture'
      it_values = VALUE /aws1/cl_ec2valuestringlist_w=>tt_valuestringlist(
        ( NEW /aws1/cl_ec2valuestringlist_w( iv_architecture ) )
      )
    ) TO lt_filters.
    " Filter for instance type patterns like '*.micro', '*.small'
    APPEND NEW /aws1/cl_ec2filter(
      iv_name = 'instance-type'
      it_values = VALUE /aws1/cl_ec2valuestringlist_w=>tt_valuestringlist(
        ( NEW /aws1/cl_ec2valuestringlist_w( '*.micro' ) )
        ( NEW /aws1/cl_ec2valuestringlist_w( '*.small' ) )
      )
    ) TO lt_filters.

    TRY.
        oo_result = lo_ec2->describeinstancetypes( it_filters = lt_filters ).             " oo_result is returned for testing purposes. "
        DATA(lt_instance_types) = oo_result->get_instancetypes( ).
        MESSAGE 'Retrieved information about EC2 instance types.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeInstanceTypes](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeInstances`
<a name="ec2_DescribeInstances_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstances`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->describeinstances( ).                        " oo_result is returned for testing purposes. "

        " Retrieving details of EC2 instances. "
        DATA: lv_istance_id    TYPE /aws1/ec2string,
              lv_status        TYPE /aws1/ec2instancestatename,
              lv_instance_type TYPE /aws1/ec2instancetype,
              lv_image_id      TYPE /aws1/ec2string.
        LOOP AT oo_result->get_reservations( ) INTO DATA(lo_reservation).
          LOOP AT lo_reservation->get_instances( ) INTO DATA(lo_instance).
            lv_istance_id = lo_instance->get_instanceid( ).
            lv_status = lo_instance->get_state( )->get_name( ).
            lv_instance_type = lo_instance->get_instancetype( ).
            lv_image_id = lo_instance->get_imageid( ).
          ENDLOOP.
        ENDLOOP.
        MESSAGE 'Retrieved information about EC2 instances.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->describekeypairs( ).                        " oo_result is returned for testing purposes. "
        DATA(lt_key_pairs) = oo_result->get_keypairs( ).
        MESSAGE 'Retrieved information about key pairs.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeKeyPairs](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeRegions`
<a name="ec2_DescribeRegions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRegions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        oo_result = lo_ec2->describeregions( ).                        " oo_result is returned for testing purposes. "
        DATA(lt_regions) = oo_result->get_regions( ).
        MESSAGE 'Retrieved information about Regions.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeRegions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeRouteTables`
<a name="ec2_DescribeRouteTables_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRouteTables`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    " Create filter for VPC ID
    " iv_vpc_id = 'vpc-abc123'
    DATA lt_filters TYPE /aws1/cl_ec2filter=>tt_filterlist.
    APPEND NEW /aws1/cl_ec2filter(
      iv_name = 'vpc-id'
      it_values = VALUE /aws1/cl_ec2valuestringlist_w=>tt_valuestringlist(
        ( NEW /aws1/cl_ec2valuestringlist_w( iv_vpc_id ) )
      )
    ) TO lt_filters.

    TRY.
        oo_result = lo_ec2->describeroutetables( it_filters = lt_filters ).             " oo_result is returned for testing purposes. "
        DATA(lt_route_tables) = oo_result->get_routetables( ).
        MESSAGE 'Retrieved information about route tables.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeRouteTables](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        DATA lt_group_ids TYPE /aws1/cl_ec2groupidstrlist_w=>tt_groupidstringlist.
        APPEND NEW /aws1/cl_ec2groupidstrlist_w( iv_value = iv_group_id ) TO lt_group_ids.
        oo_result = lo_ec2->describesecuritygroups( it_groupids = lt_group_ids ).         " oo_result is returned for testing purposes. "
        DATA(lt_security_groups) = oo_result->get_securitygroups( ).
        MESSAGE 'Retrieved information about security groups.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeSecurityGroups](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `MonitorInstances`
<a name="ec2_MonitorInstances_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`MonitorInstances`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    DATA lt_instance_ids TYPE /aws1/cl_ec2instidstringlist_w=>tt_instanceidstringlist.
    APPEND NEW /aws1/cl_ec2instidstringlist_w( iv_value = iv_instance_id ) TO lt_instance_ids.

    "Perform dry run"
    TRY.
        " DryRun is set to true. This checks for the required permissions to monitor the instance without actually making the request. "
        lo_ec2->monitorinstances(
          it_instanceids = lt_instance_ids
          iv_dryrun = abap_true ).
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        " If the error code returned is `DryRunOperation`, then you have the required permissions to monitor this instance. "
        IF lo_exception->av_err_code = 'DryRunOperation'.
          MESSAGE 'Dry run to enable detailed monitoring completed.' TYPE 'I'.
          " DryRun is set to false to enable detailed monitoring. "
          lo_ec2->monitorinstances(
            it_instanceids = lt_instance_ids
            iv_dryrun = abap_false ).
          MESSAGE 'Detailed monitoring enabled.' TYPE 'I'.
          " If the error code returned is `UnauthorizedOperation`, then you don't have the required permissions to monitor this instance. "
        ELSEIF lo_exception->av_err_code = 'UnauthorizedOperation'.
          MESSAGE 'Dry run to enable detailed monitoring failed. User does not have the permissions to monitor the instance.' TYPE 'E'.
        ELSE.
          DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
          MESSAGE lv_error TYPE 'E'.
        ENDIF.
    ENDTRY.
```
+  Untuk detail API, lihat [MonitorInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RebootInstances`
<a name="ec2_RebootInstances_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RebootInstances`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    DATA lt_instance_ids TYPE /aws1/cl_ec2instidstringlist_w=>tt_instanceidstringlist.
    APPEND NEW /aws1/cl_ec2instidstringlist_w( iv_value = iv_instance_id ) TO lt_instance_ids.

    "Perform dry run"
    TRY.
        " DryRun is set to true. This checks for the required permissions to reboot the instance without actually making the request. "
        lo_ec2->rebootinstances(
          it_instanceids = lt_instance_ids
          iv_dryrun = abap_true ).
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        " If the error code returned is `DryRunOperation`, then you have the required permissions to reboot this instance. "
        IF lo_exception->av_err_code = 'DryRunOperation'.
          MESSAGE 'Dry run to reboot instance completed.' TYPE 'I'.
          " DryRun is set to false to make a reboot request. "
          lo_ec2->rebootinstances(
             it_instanceids = lt_instance_ids
             iv_dryrun = abap_false ).
          MESSAGE 'Instance rebooted.' TYPE 'I'.
          " If the error code returned is `UnauthorizedOperation`, then you don't have the required permissions to reboot this instance. "
        ELSEIF lo_exception->av_err_code = 'UnauthorizedOperation'.
          MESSAGE 'Dry run to reboot instance failed. User does not have permissions to reboot the instance.' TYPE 'E'.
        ELSE.
          DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
          MESSAGE lv_error TYPE 'E'.
        ENDIF.
    ENDTRY.
```
+  Untuk detail API, lihat [RebootInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    TRY.
        lo_ec2->releaseaddress( iv_allocationid = iv_allocation_id ).
        MESSAGE 'Elastic IP address released.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ReleaseAddress](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RunInstances`
<a name="ec2_RunInstances_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    " Create tags for resource created during instance launch. "
    DATA lt_tagspecifications TYPE /aws1/cl_ec2tagspecification=>tt_tagspecificationlist.
    DATA ls_tagspecifications LIKE LINE OF lt_tagspecifications.
    ls_tagspecifications = NEW /aws1/cl_ec2tagspecification(
      iv_resourcetype = 'instance'
      it_tags = VALUE /aws1/cl_ec2tag=>tt_taglist(
        ( NEW /aws1/cl_ec2tag( iv_key = 'Name' iv_value = iv_tag_value ) )
      ) ).
    APPEND ls_tagspecifications TO lt_tagspecifications.

    TRY.
        " Create/launch Amazon Elastic Compute Cloud (Amazon EC2) instance. "
        oo_result = lo_ec2->runinstances(                           " oo_result is returned for testing purposes. "
          iv_imageid = iv_ami_id
          iv_instancetype = 't3.micro'
          iv_maxcount = 1
          iv_mincount = 1
          it_tagspecifications = lt_tagspecifications
          iv_subnetid = iv_subnet_id ).
        MESSAGE 'EC2 instance created.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [RunInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartInstances`
<a name="ec2_StartInstances_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    DATA lt_instance_ids TYPE /aws1/cl_ec2instidstringlist_w=>tt_instanceidstringlist.
    APPEND NEW /aws1/cl_ec2instidstringlist_w( iv_value = iv_instance_id ) TO lt_instance_ids.

    "Perform dry run"
    TRY.
        " DryRun is set to true. This checks for the required permissions to start the instance without actually making the request. "
        lo_ec2->startinstances(
          it_instanceids = lt_instance_ids
          iv_dryrun = abap_true ).
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        " If the error code returned is `DryRunOperation`, then you have the required permissions to start this instance. "
        IF lo_exception->av_err_code = 'DryRunOperation'.
          MESSAGE 'Dry run to start instance completed.' TYPE 'I'.
          " DryRun is set to false to start instance. "
          oo_result = lo_ec2->startinstances(           " oo_result is returned for testing purposes. "
            it_instanceids = lt_instance_ids
            iv_dryrun = abap_false ).
          MESSAGE 'Successfully started the EC2 instance.' TYPE 'I'.
          " If the error code returned is `UnauthorizedOperation`, then you don't have the required permissions to start this instance. "
        ELSEIF lo_exception->av_err_code = 'UnauthorizedOperation'.
          MESSAGE 'Dry run to start instance failed. User does not have permissions to start the instance.' TYPE 'E'.
        ELSE.
          DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
          MESSAGE lv_error TYPE 'E'.
        ENDIF.
    ENDTRY.
```
+  Untuk detail API, lihat [StartInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StopInstances`
<a name="ec2_StopInstances_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). 

```
    DATA lt_instance_ids TYPE /aws1/cl_ec2instidstringlist_w=>tt_instanceidstringlist.
    APPEND NEW /aws1/cl_ec2instidstringlist_w( iv_value = iv_instance_id ) TO lt_instance_ids.

    "Perform dry run"
    TRY.
        " DryRun is set to true. This checks for the required permissions to stop the instance without actually making the request. "
        lo_ec2->stopinstances(
          it_instanceids = lt_instance_ids
          iv_dryrun = abap_true ).
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        " If the error code returned is `DryRunOperation`, then you have the required permissions to stop this instance. "
        IF lo_exception->av_err_code = 'DryRunOperation'.
          MESSAGE 'Dry run to stop instance completed.' TYPE 'I'.
          " DryRun is set to false to stop instance. "
          oo_result = lo_ec2->stopinstances(           " oo_result is returned for testing purposes. "
            it_instanceids = lt_instance_ids
            iv_dryrun = abap_false ).
          MESSAGE 'Successfully stopped the EC2 instance.' TYPE 'I'.
          " If the error code returned is `UnauthorizedOperation`, then you don't have the required permissions to stop this instance. "
        ELSEIF lo_exception->av_err_code = 'UnauthorizedOperation'.
          MESSAGE 'Dry run to stop instance failed. User does not have permissions to stop the instance.' TYPE 'E'.
        ELSE.
          DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
          MESSAGE lv_error TYPE 'E'.
        ENDIF.
    ENDTRY.
```
+  Untuk detail API, lihat [StopInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon ECR menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_ecr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon ECR.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateRepository`
<a name="ecr_CreateRepository_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRepository`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ecr#code-examples). 

```
    TRY.
        " iv_repository_name = 'my-repository'
        oo_result = lo_ecr->createrepository(
          iv_repositoryname = iv_repository_name ).
        DATA(lv_repository_uri) = oo_result->get_repository( )->get_repositoryuri( ).
        MESSAGE |Repository created with URI: { lv_repository_uri }| TYPE 'I'.
      CATCH /aws1/cx_ecrrepositoryalrexex.
        " If repository already exists, retrieve it
        DATA lt_repo_names TYPE /aws1/cl_ecrrepositorynamels00=>tt_repositorynamelist.
        APPEND NEW /aws1/cl_ecrrepositorynamels00( iv_value = iv_repository_name ) TO lt_repo_names.
        DATA(lo_describe_result) = lo_ecr->describerepositories( it_repositorynames = lt_repo_names ).
        DATA(lt_repos) = lo_describe_result->get_repositories( ).
        IF lines( lt_repos ) > 0.
          READ TABLE lt_repos INDEX 1 INTO DATA(lo_repo).
          oo_result = NEW /aws1/cl_ecrcrerepositoryrsp( io_repository = lo_repo ).
          MESSAGE |Repository { iv_repository_name } already exists.| TYPE 'I'.
        ENDIF.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateRepository](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteRepository`
<a name="ecr_DeleteRepository_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRepository`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ecr#code-examples). 

```
    TRY.
        " iv_repository_name = 'my-repository'
        lo_ecr->deleterepository(
          iv_repositoryname = iv_repository_name
          iv_force = abap_true ).
        MESSAGE |Repository { iv_repository_name } deleted.| TYPE 'I'.
      CATCH /aws1/cx_ecrrepositorynotfndex.
        MESSAGE 'Repository not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteRepository](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeImages`
<a name="ecr_DescribeImages_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ecr#code-examples). 

```
    TRY.
        " iv_repository_name = 'my-repository'
        " it_image_ids = VALUE #( ( NEW /aws1/cl_ecrimageidentifier( iv_imagetag = 'latest' ) ) )
        IF it_image_ids IS NOT INITIAL.
          oo_result = lo_ecr->describeimages(
            iv_repositoryname = iv_repository_name
            it_imageids = it_image_ids ).
        ELSE.
          oo_result = lo_ecr->describeimages(
            iv_repositoryname = iv_repository_name ).
        ENDIF.
        DATA(lt_image_details) = oo_result->get_imagedetails( ).
        MESSAGE |Found { lines( lt_image_details ) } images in repository.| TYPE 'I'.
      CATCH /aws1/cx_ecrrepositorynotfndex.
        MESSAGE 'Repository not found.' TYPE 'I'.
      CATCH /aws1/cx_ecrimagenotfoundex.
        MESSAGE 'Image not found.' TYPE 'I'.
      CATCH /aws1/cx_ecrinvalidparameterex.
        MESSAGE 'Invalid parameter provided.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeImages](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeRepositories`
<a name="ecr_DescribeRepositories_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeRepositories`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ecr#code-examples). 

```
    TRY.
        " it_repository_names = VALUE #( ( NEW /aws1/cl_ecrrepositorynamels00( iv_value = 'my-repository' ) ) )
        oo_result = lo_ecr->describerepositories(
          it_repositorynames = it_repository_names ).
        DATA(lt_repositories) = oo_result->get_repositories( ).
        MESSAGE |Found { lines( lt_repositories ) } repositories.| TYPE 'I'.
      CATCH /aws1/cx_ecrrepositorynotfndex.
        MESSAGE 'Repository not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeRepositories](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetAuthorizationToken`
<a name="ecr_GetAuthorizationToken_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAuthorizationToken`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ecr#code-examples). 

```
    TRY.
        oo_result = lo_ecr->getauthorizationtoken( ).
        DATA(lt_auth_data) = oo_result->get_authorizationdata( ).
        IF lines( lt_auth_data ) > 0.
          READ TABLE lt_auth_data INDEX 1 INTO DATA(lo_auth_data).
          DATA(lv_token) = lo_auth_data->get_authorizationtoken( ).
          MESSAGE 'Authorization token retrieved.' TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_ecrserverexception.
        MESSAGE 'Server exception occurred.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetAuthorizationToken](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetRepositoryPolicy`
<a name="ecr_GetRepositoryPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRepositoryPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ecr#code-examples). 

```
    TRY.
        " iv_repository_name = 'my-repository'
        oo_result = lo_ecr->getrepositorypolicy(
          iv_repositoryname = iv_repository_name ).
        DATA(lv_policy_text) = oo_result->get_policytext( ).
        MESSAGE 'Repository policy retrieved.' TYPE 'I'.
      CATCH /aws1/cx_ecrrepositorynotfndex.
        MESSAGE 'Repository not found.' TYPE 'I'.
      CATCH /aws1/cx_ecrrepositoryplynot00.
        MESSAGE 'Repository policy not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetRepositoryPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutLifeCyclePolicy`
<a name="ecr_PutLifeCyclePolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutLifeCyclePolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ecr#code-examples). 

```
    TRY.
        " iv_repository_name = 'my-repository'
        " iv_lifecycle_policy_text = '{"rules":[{"rulePriority":1,"description":"Expire images older than 14 days",...}]}'
        lo_ecr->putlifecyclepolicy(
          iv_repositoryname = iv_repository_name
          iv_lifecyclepolicytext = iv_lifecycle_policy_text ).
        MESSAGE |Lifecycle policy set for repository { iv_repository_name }.| TYPE 'I'.
      CATCH /aws1/cx_ecrrepositorynotfndex.
        MESSAGE 'Repository not found.' TYPE 'I'.
      CATCH /aws1/cx_ecrvalidationex.
        MESSAGE 'Invalid lifecycle policy format.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutLifeCyclePolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SetRepositoryPolicy`
<a name="ecr_SetRepositoryPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetRepositoryPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ecr#code-examples). 

```
    TRY.
        " iv_repository_name = 'my-repository'
        " iv_policy_text = '{"Version":"2012-10-17",		 	 	 "Statement":[...]}'
        lo_ecr->setrepositorypolicy(
          iv_repositoryname = iv_repository_name
          iv_policytext = iv_policy_text ).
        MESSAGE |Policy set for repository { iv_repository_name }.| TYPE 'I'.
      CATCH /aws1/cx_ecrrepositorynotfndex.
        MESSAGE 'Repository not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [SetRepositoryPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh EMR Amazon menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_emr_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon EMR.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AddJobFlowSteps`
<a name="emr_AddJobFlowSteps_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AddJobFlowSteps`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/emr#code-examples). 

```
    TRY.
        " Build args list for Spark submit
        DATA lt_args TYPE /aws1/cl_emrxmlstringlist_w=>tt_xmlstringlist.
        APPEND NEW /aws1/cl_emrxmlstringlist_w( 'spark-submit' ) TO lt_args.
        APPEND NEW /aws1/cl_emrxmlstringlist_w( '--deploy-mode' ) TO lt_args.
        APPEND NEW /aws1/cl_emrxmlstringlist_w( 'cluster' ) TO lt_args.
        APPEND NEW /aws1/cl_emrxmlstringlist_w( iv_script_uri ) TO lt_args.
        APPEND LINES OF it_script_args TO lt_args.

        " Create step configuration
        DATA(lo_hadoop_jar_step) = NEW /aws1/cl_emrhadoopjarstepcfg(
          iv_jar = 'command-runner.jar'
          it_args = lt_args
        ).

        DATA(lo_step_config) = NEW /aws1/cl_emrstepconfig(
          iv_name = iv_name
          iv_actiononfailure = 'CONTINUE'
          io_hadoopjarstep = lo_hadoop_jar_step
        ).

        DATA lt_steps TYPE /aws1/cl_emrstepconfig=>tt_stepconfiglist.
        APPEND lo_step_config TO lt_steps.

        DATA(lo_result) = lo_emr->addjobflowsteps(
          iv_jobflowid = iv_cluster_id
          it_steps = lt_steps
        ).

        " Get first step ID
        DATA(lt_step_ids) = lo_result->get_stepids( ).
        READ TABLE lt_step_ids INDEX 1 INTO DATA(lo_step_id_obj).
        IF sy-subrc = 0.
          ov_step_id = lo_step_id_obj->get_value( ).
          MESSAGE |Step added with ID { ov_step_id }| TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_emrinternalservererr INTO DATA(lo_internal_error).
        DATA(lv_error) = lo_internal_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AddJobFlowSteps](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeCluster`
<a name="emr_DescribeCluster_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCluster`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/emr#code-examples). 

```
    TRY.
        oo_result = lo_emr->describecluster(
          iv_clusterid = iv_cluster_id
        ).
        DATA(lo_cluster) = oo_result->get_cluster( ).
        DATA(lv_cluster_name) = lo_cluster->get_name( ).
        MESSAGE |Retrieved cluster information for { lv_cluster_name }| TYPE 'I'.
      CATCH /aws1/cx_emrinternalserverex INTO DATA(lo_internal_error).
        DATA(lv_error) = lo_internal_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
      CATCH /aws1/cx_emrinvalidrequestex INTO DATA(lo_invalid_error).
        lv_error = lo_invalid_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeCluster](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeStep`
<a name="emr_DescribeStep_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStep`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/emr#code-examples). 

```
    TRY.
        oo_result = lo_emr->describestep(
          iv_clusterid = iv_cluster_id
          iv_stepid = iv_step_id
        ).
        DATA(lo_step) = oo_result->get_step( ).
        DATA(lv_step_name) = lo_step->get_name( ).
        MESSAGE |Retrieved step information for { lv_step_name }| TYPE 'I'.
      CATCH /aws1/cx_emrinternalserverex INTO DATA(lo_internal_error).
        DATA(lv_error) = lo_internal_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
      CATCH /aws1/cx_emrinvalidrequestex INTO DATA(lo_invalid_error).
        lv_error = lo_invalid_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeStep](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListSteps`
<a name="emr_ListSteps_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSteps`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/emr#code-examples). 

```
    TRY.
        oo_result = lo_emr->liststeps(
          iv_clusterid = iv_cluster_id
        ).
        DATA(lt_steps) = oo_result->get_steps( ).
        DATA(lv_step_count) = lines( lt_steps ).
        MESSAGE |Retrieved { lv_step_count } steps for cluster| TYPE 'I'.
      CATCH /aws1/cx_emrinternalserverex INTO DATA(lo_internal_error).
        DATA(lv_error) = lo_internal_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
      CATCH /aws1/cx_emrinvalidrequestex INTO DATA(lo_invalid_error).
        lv_error = lo_invalid_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListSteps](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RunJobFlow`
<a name="emr_RunJobFlow_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunJobFlow`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/emr#code-examples). 

```
    TRY.
        " Create instances configuration
        DATA(lo_instances) = NEW /aws1/cl_emrjobflowinstsconfig(
          iv_masterinstancetype = 'm5.xlarge'
          iv_slaveinstancetype = 'm5.xlarge'
          iv_instancecount = 3
          iv_keepjobflowalivewhennos00 = iv_keep_alive
          iv_emrmanagedmastersecgroup = iv_primary_sec_grp
          iv_emrmanagedslavesecgroup = iv_secondary_sec_grp
        ).

        DATA(lo_result) = lo_emr->runjobflow(
          iv_name = iv_name
          iv_loguri = iv_log_uri
          iv_releaselabel = 'emr-5.30.1'
          io_instances = lo_instances
          it_steps = it_steps
          it_applications = it_applications
          iv_jobflowrole = iv_job_flow_role
          iv_servicerole = iv_service_role
          iv_ebsrootvolumesize = 10
          iv_visibletoallusers = abap_true
        ).

        ov_cluster_id = lo_result->get_jobflowid( ).
        MESSAGE 'EMR cluster created successfully.' TYPE 'I'.
      CATCH /aws1/cx_emrinternalservererr INTO DATA(lo_internal_error).
        DATA(lv_error) = lo_internal_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
      CATCH /aws1/cx_emrclientexc INTO DATA(lo_client_error).
        lv_error = lo_client_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [RunJobFlow](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `TerminateJobFlows`
<a name="emr_TerminateJobFlows_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateJobFlows`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/emr#code-examples). 

```
    TRY.
        DATA lt_cluster_ids TYPE /aws1/cl_emrxmlstringlist_w=>tt_xmlstringlist.
        APPEND NEW /aws1/cl_emrxmlstringlist_w( iv_cluster_id ) TO lt_cluster_ids.

        lo_emr->terminatejobflows(
          it_jobflowids = lt_cluster_ids
        ).
        MESSAGE 'EMR cluster terminated successfully.' TYPE 'I'.
      CATCH /aws1/cx_emrinternalservererr INTO DATA(lo_internal_error).
        DATA(lv_error) = lo_internal_error->if_message~get_text( ).
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [TerminateJobFlows](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# EventBridge Contoh penjadwal menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_scheduler_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Scheduler. EventBridge 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateSchedule`
<a name="scheduler_CreateSchedule_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSchedule`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/scd#code-examples). 

```
    TRY.
        " Constants for time calculations
        DATA lv_start_date TYPE /aws1/scdstartdate.
        DATA lv_end_date TYPE /aws1/scdenddate.
        DATA lv_start_timestamp TYPE timestamp.
        DATA lv_end_timestamp TYPE timestamp.
        DATA lv_hours_to_run TYPE i VALUE 1.

        " Get current timestamp
        GET TIME STAMP FIELD lv_start_timestamp.
        
        " Add 1 hour to the current timestamp using CL_ABAP_TSTMP
        lv_end_timestamp = cl_abap_tstmp=>add(
          tstmp = lv_start_timestamp
          secs = lv_hours_to_run * 3600 ).

        " Convert timestamps to decimal format for AWS API
        lv_start_date = lv_start_timestamp.
        lv_end_date = lv_end_timestamp.

        " Prepare flexible time window configuration
        DATA lo_flexible_time_window TYPE REF TO /aws1/cl_scdflexibletimewindow.
        IF iv_use_flexible_time_win = abap_true.
          " iv_use_flexible_time_win = ABAP_TRUE
          " Example: Set MaximumWindowInMinutes to 10 for flexible window
          lo_flexible_time_window = NEW /aws1/cl_scdflexibletimewindow(
            iv_mode = 'FLEXIBLE'
            iv_maximumwindowinminutes = 10 ).
        ELSE.
          lo_flexible_time_window = NEW /aws1/cl_scdflexibletimewindow(
            iv_mode = 'OFF' ).
        ENDIF.

        " Prepare target configuration
        " Example iv_target_arn = 'arn:aws:sqs:us-east-1:123456789012:my-queue'
        " Example iv_role_arn = 'arn:aws:iam::123456789012:role/SchedulerRole'
        " Example iv_input = '{"message": "Hello from EventBridge Scheduler"}'
        DATA(lo_target) = NEW /aws1/cl_scdtarget(
          iv_arn = iv_target_arn
          iv_rolearn = iv_role_arn
          iv_input = iv_input ).

        " Set action after completion if needed
        DATA lv_action_after_completion TYPE /aws1/scdactionaftercompletion.
        IF iv_delete_after_completion = abap_true.
          " iv_delete_after_completion = ABAP_TRUE
          lv_action_after_completion = 'DELETE'.
        ELSE.
          lv_action_after_completion = 'NONE'.
        ENDIF.

        " Create the schedule
        " Example iv_name = 'my-schedule'
        " Example iv_schedule_expression = 'rate(15 minutes)'
        " Example iv_schedule_group_name = 'my-schedule-group'
        DATA(lo_result) = lo_scd->createschedule(
          iv_name = iv_name
          iv_scheduleexpression = iv_schedule_expression
          iv_groupname = iv_schedule_group_name
          io_target = lo_target
          io_flexibletimewindow = lo_flexible_time_window
          iv_startdate = lv_start_date
          iv_enddate = lv_end_date
          iv_actionaftercompletion = lv_action_after_completion ).

        ov_schedule_arn = lo_result->get_schedulearn( ).
        MESSAGE 'Schedule created successfully.' TYPE 'I'.

      CATCH /aws1/cx_scdconflictexception INTO DATA(lo_conflict_ex).
        DATA(lv_error) = |Conflict creating schedule: { lo_conflict_ex->if_message~get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_ex).
        DATA(lv_generic_error) = |Error creating schedule: { lo_generic_ex->if_message~get_text( ) }|.
        MESSAGE lv_generic_error TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateSchedule](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateScheduleGroup`
<a name="scheduler_CreateScheduleGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateScheduleGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/scd#code-examples). 

```
    TRY.
        " Example iv_name = 'my-schedule-group'
        DATA(lo_result) = lo_scd->createschedulegroup(
          iv_name = iv_name ).

        ov_schedule_group_arn = lo_result->get_schedulegrouparn( ).
        MESSAGE 'Schedule group created successfully.' TYPE 'I'.

      CATCH /aws1/cx_scdconflictexception INTO DATA(lo_conflict_ex).
        DATA(lv_error) = |Conflict creating schedule group: { lo_conflict_ex->if_message~get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_ex).
        DATA(lv_generic_error) = |Error creating schedule group: { lo_generic_ex->if_message~get_text( ) }|.
        MESSAGE lv_generic_error TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateScheduleGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteSchedule`
<a name="scheduler_DeleteSchedule_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSchedule`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/scd#code-examples). 

```
    TRY.
        " Example iv_name = 'my-schedule'
        " Example iv_schedule_group_name = 'my-schedule-group'
        lo_scd->deleteschedule(
          iv_name = iv_name
          iv_groupname = iv_schedule_group_name ).
        MESSAGE 'Schedule deleted successfully.' TYPE 'I'.

      CATCH /aws1/cx_scdresourcenotfoundex INTO DATA(lo_not_found_ex).
        DATA(lv_error) = |Schedule not found: { lo_not_found_ex->if_message~get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_ex).
        DATA(lv_generic_error) = |Error deleting schedule: { lo_generic_ex->if_message~get_text( ) }|.
        MESSAGE lv_generic_error TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteSchedule](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteScheduleGroup`
<a name="scheduler_DeleteScheduleGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteScheduleGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/scd#code-examples). 

```
    TRY.
        " Example iv_name = 'my-schedule-group'
        lo_scd->deleteschedulegroup(
          iv_name = iv_name ).
        MESSAGE 'Schedule group deleted successfully.' TYPE 'I'.

      CATCH /aws1/cx_scdresourcenotfoundex INTO DATA(lo_not_found_ex).
        DATA(lv_error) = |Schedule group not found: { lo_not_found_ex->if_message~get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_generic_ex).
        DATA(lv_generic_error) = |Error deleting schedule group: { lo_generic_ex->if_message~get_text( ) }|.
        MESSAGE lv_generic_error TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteScheduleGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# AWS Glue contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. AWS Glue

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_crawler_name = 'my-crawler'
        " iv_role_arn = 'arn:aws:iam::123456789012:role/AWSGlueServiceRole-Test'
        " iv_database_name = 'my-database'
        " iv_table_prefix = 'test_'
        " iv_s3_target = 's3://example-bucket/data/'

        DATA(lt_s3_targets) = VALUE /aws1/cl_glus3target=>tt_s3targetlist(
          ( NEW /aws1/cl_glus3target( iv_path = iv_s3_target ) ) ).

        DATA(lo_targets) = NEW /aws1/cl_glucrawlertargets(
          it_s3targets = lt_s3_targets ).

        lo_glu->createcrawler(
          iv_name = iv_crawler_name
          iv_role = iv_role_arn
          iv_databasename = iv_database_name
          iv_tableprefix = iv_table_prefix
          io_targets = lo_targets ).
        MESSAGE 'Crawler created successfully.' TYPE 'I'.
      CATCH /aws1/cx_glualreadyexistsex.
        MESSAGE 'Crawler already exists.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
      CATCH /aws1/cx_gluresrcnumlmtexcdex INTO DATA(lo_limit_ex).
        DATA(lv_limit_error) = lo_limit_ex->if_message~get_longtext( ).
        MESSAGE lv_limit_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateCrawler](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateJob`
<a name="glue_CreateJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_job_name = 'my-etl-job'
        " iv_description = 'ETL job for data transformation'
        " iv_role_arn = 'arn:aws:iam::123456789012:role/AWSGlueServiceRole-Test'
        " iv_script_location = 's3://example-bucket/scripts/my-script.py'

        DATA(lo_command) = NEW /aws1/cl_glujobcommand(
          iv_name = 'glueetl'
          iv_scriptlocation = iv_script_location
          iv_pythonversion = '3' ).

        lo_glu->createjob(
          iv_name = iv_job_name
          iv_description = iv_description
          iv_role = iv_role_arn
          io_command = lo_command
          iv_glueversion = '3.0' ).
        MESSAGE 'Job created successfully.' TYPE 'I'.
      CATCH /aws1/cx_glualreadyexistsex.
        MESSAGE 'Job already exists.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
      CATCH /aws1/cx_gluresrcnumlmtexcdex INTO DATA(lo_limit_ex).
        DATA(lv_limit_error) = lo_limit_ex->if_message~get_longtext( ).
        MESSAGE lv_limit_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_crawler_name = 'my-crawler'
        lo_glu->deletecrawler( iv_name = iv_crawler_name ).
        MESSAGE 'Crawler deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_glucrawlerrunningex.
        MESSAGE 'Crawler is currently running.' TYPE 'E'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Crawler does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
      CATCH /aws1/cx_gluschdrtransingex.
        MESSAGE 'Scheduler is transitioning.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteCrawler](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_database_name = 'my-database'
        lo_glu->deletedatabase( iv_name = iv_database_name ).
        MESSAGE 'Database deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Database does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteDatabase](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteJob`
<a name="glue_DeleteJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_job_name = 'my-etl-job'
        lo_glu->deletejob( iv_jobname = iv_job_name ).
        MESSAGE 'Job deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteTable`
<a name="glue_DeleteTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_database_name = 'my-database'
        " iv_table_name = 'my-table'
        lo_glu->deletetable(
          iv_databasename = iv_database_name
          iv_name = iv_table_name ).
        MESSAGE 'Table deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Table or database does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetCrawler`
<a name="glue_GetCrawler_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_crawler_name = 'my-crawler'
        oo_result = lo_glu->getcrawler( iv_name = iv_crawler_name ).
        DATA(lo_crawler) = oo_result->get_crawler( ).
        MESSAGE 'Crawler information retrieved.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Crawler does not exist.' TYPE 'I'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetCrawler](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetDatabase`
<a name="glue_GetDatabase_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_database_name = 'my-database'
        oo_result = lo_glu->getdatabase( iv_name = iv_database_name ).
        DATA(lo_database) = oo_result->get_database( ).
        MESSAGE 'Database information retrieved.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Database does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetDatabase](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetJobRun`
<a name="glue_GetJobRun_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_job_name = 'my-etl-job'
        " iv_run_id = 'jr_abcd1234567890abcdef1234567890abcdef12345678'
        oo_result = lo_glu->getjobrun(
          iv_jobname = iv_job_name
          iv_runid = iv_run_id ).
        DATA(lo_job_run) = oo_result->get_jobrun( ).
        MESSAGE 'Job run information retrieved.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Job or job run does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetJobRun](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetJobRuns`
<a name="glue_GetJobRuns_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_job_name = 'my-etl-job'
        oo_result = lo_glu->getjobruns( iv_jobname = iv_job_name ).
        DATA(lt_job_runs) = oo_result->get_jobruns( ).
        MESSAGE 'Job runs retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Job does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetJobRuns](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetTables`
<a name="glue_GetTables_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_database_name = 'my-database'
        oo_result = lo_glu->gettables( iv_databasename = iv_database_name ).
        DATA(lt_tables) = oo_result->get_tablelist( ).
        MESSAGE 'Tables retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Database does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetTables](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListJobs`
<a name="glue_ListJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        oo_result = lo_glu->listjobs( ).
        DATA(lt_job_names) = oo_result->get_jobnames( ).
        MESSAGE 'Job list retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'No jobs found.' TYPE 'I'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListJobs](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartCrawler`
<a name="glue_StartCrawler_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_crawler_name = 'my-crawler'
        lo_glu->startcrawler( iv_name = iv_crawler_name ).
        MESSAGE 'Crawler started successfully.' TYPE 'I'.
      CATCH /aws1/cx_glucrawlerrunningex.
        MESSAGE 'Crawler is already running.' TYPE 'I'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Crawler does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartCrawler](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartJobRun`
<a name="glue_StartJobRun_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/glu#code-examples). 

```
    TRY.
        " iv_job_name = 'my-etl-job'
        " iv_input_database = 'my-database'
        " iv_input_table = 'my-table'
        " iv_output_bucket_url = 's3://example-output-bucket/'

        DATA lt_arguments TYPE /aws1/cl_glugenericmap_w=>tt_genericmap.
        lt_arguments = VALUE #(
          ( VALUE /aws1/cl_glugenericmap_w=>ts_genericmap_maprow(
            key = '--input_database'
            value = NEW /aws1/cl_glugenericmap_w( iv_value = iv_input_database ) ) )
          ( VALUE /aws1/cl_glugenericmap_w=>ts_genericmap_maprow(
            key = '--input_table'
            value = NEW /aws1/cl_glugenericmap_w( iv_value = iv_input_table ) ) )
          ( VALUE /aws1/cl_glugenericmap_w=>ts_genericmap_maprow(
            key = '--output_bucket_url'
            value = NEW /aws1/cl_glugenericmap_w( iv_value = iv_output_bucket_url ) ) ) ).

        DATA(oo_result) = lo_glu->startjobrun(
          iv_jobname = iv_job_name
          it_arguments = lt_arguments ).
        ov_job_run_id = oo_result->get_jobrunid( ).
        MESSAGE 'Job run started successfully.' TYPE 'I'.
      CATCH /aws1/cx_gluconcurrentrunsex00.
        MESSAGE 'Maximum concurrent runs exceeded.' TYPE 'E'.
      CATCH /aws1/cx_gluentitynotfoundex.
        MESSAGE 'Job does not exist.' TYPE 'E'.
      CATCH /aws1/cx_gluinvalidinputex INTO DATA(lo_invalid_ex).
        DATA(lv_invalid_error) = lo_invalid_ex->if_message~get_longtext( ).
        MESSAGE lv_invalid_error TYPE 'E'.
      CATCH /aws1/cx_gluinternalserviceex INTO DATA(lo_internal_ex).
        DATA(lv_internal_error) = lo_internal_ex->if_message~get_longtext( ).
        MESSAGE lv_internal_error TYPE 'E'.
      CATCH /aws1/cx_gluoperationtimeoutex INTO DATA(lo_timeout_ex).
        DATA(lv_timeout_error) = lo_timeout_ex->if_message~get_longtext( ).
        MESSAGE lv_timeout_error TYPE 'E'.
      CATCH /aws1/cx_gluresrcnumlmtexcdex INTO DATA(lo_limit_ex).
        DATA(lv_limit_error) = lo_limit_ex->if_message~get_longtext( ).
        MESSAGE lv_limit_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartJobRun](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# HealthImaging contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_medical-imaging_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. HealthImaging

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CopyImageSet`
<a name="medical-imaging_CopyImageSet_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyImageSet`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_source_image_set_id = '1234567890123456789012345678901234567890'
        " iv_source_version_id = '1'
        " iv_destination_image_set_id = '1234567890123456789012345678901234567890' (optional)
        " iv_destination_version_id = '1' (optional)
        " iv_force = abap_false
        DATA(lo_source_info) = NEW /aws1/cl_migcpsrcimagesetinf00(
          iv_latestversionid = iv_source_version_id ).
        DATA(lo_copy_info) = NEW /aws1/cl_migcpimagesetinfmtion(
          io_sourceimageset = lo_source_info ).
        IF iv_destination_image_set_id IS NOT INITIAL AND
           iv_destination_version_id IS NOT INITIAL.
          DATA(lo_dest_info) = NEW /aws1/cl_migcopydstimageset(
            iv_imagesetid = iv_destination_image_set_id
            iv_latestversionid = iv_destination_version_id ).
          lo_copy_info = NEW /aws1/cl_migcpimagesetinfmtion(
            io_sourceimageset = lo_source_info
            io_destinationimageset = lo_dest_info ).
        ENDIF.
        oo_result = lo_mig->copyimageset(
          iv_datastoreid = iv_datastore_id
          iv_sourceimagesetid = iv_source_image_set_id
          io_copyimagesetinformation = lo_copy_info
          iv_force = iv_force ).
        DATA(lo_dest_props) = oo_result->get_dstimagesetproperties( ).
        DATA(lv_new_id) = lo_dest_props->get_imagesetid( ).
        MESSAGE |Image set copied with new ID: { lv_new_id }.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Image set not found.' TYPE 'I'.
      CATCH /aws1/cx_migservicequotaexcdex.
        MESSAGE 'Service quota exceeded.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [CopyImageSet](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `CreateDatastore`
<a name="medical-imaging_CreateDatastore_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDatastore`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_name = 'my-datastore-name'
        oo_result = lo_mig->createdatastore( iv_datastorename = iv_datastore_name ).
        DATA(lv_datastore_id) = oo_result->get_datastoreid( ).
        MESSAGE 'Data store created.' TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict. Data store may already exist.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migservicequotaexcdex.
        MESSAGE 'Service quota exceeded.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateDatastore](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `DeleteDatastore`
<a name="medical-imaging_DeleteDatastore_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatastore`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        oo_result = lo_mig->deletedatastore( iv_datastoreid = iv_datastore_id ).
        MESSAGE 'Data store deleted.' TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict. Data store may contain resources.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Data store not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteDatastore](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `DeleteImageSet`
<a name="medical-imaging_DeleteImageSet_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteImageSet`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_image_set_id = '1234567890123456789012345678901234567890'
        oo_result = lo_mig->deleteimageset(
          iv_datastoreid = iv_datastore_id
          iv_imagesetid = iv_image_set_id ).
        MESSAGE 'Image set deleted.' TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Image set not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteImageSet](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `GetDICOMImportJob`
<a name="medical-imaging_GetDICOMImportJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDICOMImportJob`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_job_id = '12345678901234567890123456789012'
        oo_result = lo_mig->getdicomimportjob(
          iv_datastoreid = iv_datastore_id
          iv_jobid = iv_job_id ).
        DATA(lo_job_props) = oo_result->get_jobproperties( ).
        DATA(lv_job_status) = lo_job_props->get_jobstatus( ).
        MESSAGE |Job status: { lv_job_status }.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Job not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Mendapatkan DICOMImport Job](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `GetDatastore`
<a name="medical-imaging_GetDatastore_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatastore`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        oo_result = lo_mig->getdatastore( iv_datastoreid = iv_datastore_id ).
        DATA(lo_properties) = oo_result->get_datastoreproperties( ).
        DATA(lv_name) = lo_properties->get_datastorename( ).
        DATA(lv_status) = lo_properties->get_datastorestatus( ).
        MESSAGE 'Data store properties retrieved.' TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Data store not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetDatastore](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `GetImageFrame`
<a name="medical-imaging_GetImageFrame_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageFrame`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_image_set_id = '1234567890123456789012345678901234567890'
        " iv_image_frame_id = '1234567890123456789012345678901234567890'
        oo_result = lo_mig->getimageframe(
          iv_datastoreid = iv_datastore_id
          iv_imagesetid = iv_image_set_id
          io_imageframeinformation = NEW /aws1/cl_migimageframeinfmtion(
            iv_imageframeid = iv_image_frame_id ) ).
        DATA(lv_frame_blob) = oo_result->get_imageframeblob( ).
        MESSAGE 'Image frame retrieved.' TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Image frame not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetImageFrame](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `GetImageSet`
<a name="medical-imaging_GetImageSet_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSet`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_image_set_id = '1234567890123456789012345678901234567890'
        " iv_version_id = '1' (optional)
        IF iv_version_id IS NOT INITIAL.
          oo_result = lo_mig->getimageset(
            iv_datastoreid = iv_datastore_id
            iv_imagesetid = iv_image_set_id
            iv_versionid = iv_version_id ).
        ELSE.
          oo_result = lo_mig->getimageset(
            iv_datastoreid = iv_datastore_id
            iv_imagesetid = iv_image_set_id ).
        ENDIF.
        DATA(lv_state) = oo_result->get_imagesetstate( ).
        MESSAGE |Image set retrieved with state: { lv_state }.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Image set not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetImageSet](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `GetImageSetMetadata`
<a name="medical-imaging_GetImageSetMetadata_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetImageSetMetadata`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_image_set_id = '1234567890123456789012345678901234567890'
        " iv_version_id = '1' (optional)
        IF iv_version_id IS NOT INITIAL.
          oo_result = lo_mig->getimagesetmetadata(
            iv_datastoreid = iv_datastore_id
            iv_imagesetid = iv_image_set_id
            iv_versionid = iv_version_id ).
        ELSE.
          oo_result = lo_mig->getimagesetmetadata(
            iv_datastoreid = iv_datastore_id
            iv_imagesetid = iv_image_set_id ).
        ENDIF.
        DATA(lv_metadata_blob) = oo_result->get_imagesetmetadatablob( ).
        MESSAGE 'Image set metadata retrieved.' TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Image set not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetImageSetMetadata](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `ListDICOMImportJobs`
<a name="medical-imaging_ListDICOMImportJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDICOMImportJobs`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        oo_result = lo_mig->listdicomimportjobs( iv_datastoreid = iv_datastore_id ).
        DATA(lt_jobs) = oo_result->get_jobsummaries( ).
        DATA(lv_count) = lines( lt_jobs ).
        MESSAGE |Found { lv_count } DICOM import jobs.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Daftar DICOMImport Lowongan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `ListDatastores`
<a name="medical-imaging_ListDatastores_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatastores`.

**SDK for SAP ABAP**  

```
    TRY.
        oo_result = lo_mig->listdatastores( ).
        DATA(lt_datastores) = oo_result->get_datastoresummaries( ).
        DATA(lv_count) = lines( lt_datastores ).
        MESSAGE |Found { lv_count } data stores.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListDatastores](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `ListImageSetVersions`
<a name="medical-imaging_ListImageSetVersions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListImageSetVersions`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_image_set_id = '1234567890123456789012345678901234567890'
        oo_result = lo_mig->listimagesetversions(
          iv_datastoreid = iv_datastore_id
          iv_imagesetid = iv_image_set_id ).
        DATA(lt_versions) = oo_result->get_imagesetpropertieslist( ).
        DATA(lv_count) = lines( lt_versions ).
        MESSAGE |Found { lv_count } image set versions.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Image set not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListImageSetVersions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `ListTagsForResource`
<a name="medical-imaging_ListTagsForResource_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForResource`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_resource_arn = 'arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012'
        oo_result = lo_mig->listtagsforresource( iv_resourcearn = iv_resource_arn ).
        DATA(lt_tags) = oo_result->get_tags( ).
        DATA(lv_count) = lines( lt_tags ).
        MESSAGE |Found { lv_count } tags for resource.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `SearchImageSets`
<a name="medical-imaging_SearchImageSets_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchImageSets`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        oo_result = lo_mig->searchimagesets(
          iv_datastoreid = iv_datastore_id
          io_searchcriteria = io_search_criteria ).
        DATA(lt_imagesets) = oo_result->get_imagesetsmetadatasums( ).
        DATA(lv_count) = lines( lt_imagesets ).
        MESSAGE |Found { lv_count } image sets.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [SearchImageSets](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `StartDICOMImportJob`
<a name="medical-imaging_StartDICOMImportJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDICOMImportJob`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_job_name = 'import-job-1'
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_role_arn = 'arn:aws:iam::123456789012:role/ImportJobRole'
        " iv_input_s3_uri = 's3://my-bucket/input/'
        " iv_output_s3_uri = 's3://my-bucket/output/'
        oo_result = lo_mig->startdicomimportjob(
          iv_jobname = iv_job_name
          iv_datastoreid = iv_datastore_id
          iv_dataaccessrolearn = iv_role_arn
          iv_inputs3uri = iv_input_s3_uri
          iv_outputs3uri = iv_output_s3_uri ).
        DATA(lv_job_id) = oo_result->get_jobid( ).
        MESSAGE |DICOM import job started with ID: { lv_job_id }.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'I'.
      CATCH /aws1/cx_migservicequotaexcdex.
        MESSAGE 'Service quota exceeded.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Memulai DICOMImport Job](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `TagResource`
<a name="medical-imaging_TagResource_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_resource_arn = 'arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012'
        lo_mig->tagresource(
          iv_resourcearn = iv_resource_arn
          it_tags = it_tags ).
        MESSAGE 'Resource tagged successfully.' TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `UntagResource`
<a name="medical-imaging_UntagResource_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UntagResource`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_resource_arn = 'arn:aws:medical-imaging:us-east-1:123456789012:datastore/12345678901234567890123456789012'
        lo_mig->untagresource(
          iv_resourcearn = iv_resource_arn
          it_tagkeys = it_tag_keys ).
        MESSAGE 'Resource untagged successfully.' TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

### `UpdateImageSetMetadata`
<a name="medical-imaging_UpdateImageSetMetadata_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateImageSetMetadata`.

**SDK for SAP ABAP**  

```
    TRY.
        " iv_datastore_id = '1234567890123456789012345678901234567890'
        " iv_image_set_id = '1234567890123456789012345678901234567890'
        " iv_latest_version_id = '1'
        " iv_force = abap_false
        oo_result = lo_mig->updateimagesetmetadata(
          iv_datastoreid = iv_datastore_id
          iv_imagesetid = iv_image_set_id
          iv_latestversionid = iv_latest_version_id
          io_updateimagesetmetupdates = io_metadata_updates
          iv_force = iv_force ).
        DATA(lv_new_version) = oo_result->get_latestversionid( ).
        MESSAGE |Image set metadata updated to version: { lv_new_version }.| TYPE 'I'.
      CATCH /aws1/cx_migaccessdeniedex.
        MESSAGE 'Access denied.' TYPE 'I'.
      CATCH /aws1/cx_migconflictexception.
        MESSAGE 'Conflict error.' TYPE 'I'.
      CATCH /aws1/cx_miginternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
      CATCH /aws1/cx_migresourcenotfoundex.
        MESSAGE 'Image set not found.' TYPE 'I'.
      CATCH /aws1/cx_migservicequotaexcdex.
        MESSAGE 'Service quota exceeded.' TYPE 'I'.
      CATCH /aws1/cx_migthrottlingex.
        MESSAGE 'Request throttled.' TYPE 'I'.
      CATCH /aws1/cx_migvalidationex.
        MESSAGE 'Validation error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateImageSetMetadata](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/mig#code-examples). 

# HealthLake contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_healthlake_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. HealthLake

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateFHIRDatastore`
<a name="healthlake_CreateFHIRDatastore_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFHIRDatastore`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_datastore_name = 'MyHealthLakeDataStore'
        oo_result = lo_hll->createfhirdatastore(
          iv_datastorename = iv_datastore_name
          iv_datastoretypeversion = 'R4'
        ).
        MESSAGE 'Data store created successfully.' TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllinternalserverex INTO DATA(lo_internal_ex).
        lv_error = |Internal server error: { lo_internal_ex->av_err_code }-{ lo_internal_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
      CATCH /aws1/cx_hllthrottlingex INTO DATA(lo_throttling_ex).
        lv_error = |Throttling error: { lo_throttling_ex->av_err_code }-{ lo_throttling_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_throttling_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Create FHIRDatastore](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteFHIRDatastore`
<a name="healthlake_DeleteFHIRDatastore_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFHIRDatastore`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_datastore_id = 'a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        oo_result = lo_hll->deletefhirdatastore(
          iv_datastoreid = iv_datastore_id
        ).
        MESSAGE 'Data store deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_hllaccessdeniedex INTO DATA(lo_access_ex).
        DATA(lv_error) = |Access denied: { lo_access_ex->av_err_code }-{ lo_access_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_access_ex.
      CATCH /aws1/cx_hllconflictexception INTO DATA(lo_conflict_ex).
        lv_error = |Conflict error: { lo_conflict_ex->av_err_code }-{ lo_conflict_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_conflict_ex.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        lv_error = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Menghapus FHIRDatastore](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeFHIRDatastore`
<a name="healthlake_DescribeFHIRDatastore_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeFHIRDatastore`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_datastore_id = 'a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        oo_result = lo_hll->describefhirdatastore(
          iv_datastoreid = iv_datastore_id
        ).
        DATA(lo_datastore_properties) = oo_result->get_datastoreproperties( ).
        IF lo_datastore_properties IS BOUND.
          DATA(lv_datastore_name) = lo_datastore_properties->get_datastorename( ).
          DATA(lv_datastore_status) = lo_datastore_properties->get_datastorestatus( ).
          MESSAGE 'Data store described successfully.' TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        DATA(lv_error) = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        lv_error = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan FHIRDatastore](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

### `DescribeFHIRExportJob`
<a name="healthlake_DescribeFHIRExportJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeFHIRExportJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_datastore_id = 'a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        " iv_job_id = 'a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        oo_result = lo_hll->describefhirexportjob(
          iv_datastoreid = iv_datastore_id
          iv_jobid = iv_job_id
        ).
        DATA(lo_export_job_properties) = oo_result->get_exportjobproperties( ).
        IF lo_export_job_properties IS BOUND.
          DATA(lv_job_status) = lo_export_job_properties->get_jobstatus( ).
          MESSAGE |Export job status: { lv_job_status }.| TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        DATA(lv_error) = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        lv_error = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan FHIRExport Job](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeFHIRImportJob`
<a name="healthlake_DescribeFHIRImportJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeFHIRImportJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_datastore_id = 'a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        " iv_job_id = 'a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        oo_result = lo_hll->describefhirimportjob(
          iv_datastoreid = iv_datastore_id
          iv_jobid = iv_job_id
        ).
        DATA(lo_import_job_properties) = oo_result->get_importjobproperties( ).
        IF lo_import_job_properties IS BOUND.
          DATA(lv_job_status) = lo_import_job_properties->get_jobstatus( ).
          MESSAGE |Import job status: { lv_job_status }.| TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        DATA(lv_error) = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        lv_error = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan FHIRImport Job](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK untuk referensi SAP ABAP* API. 

### `ListFHIRDatastores`
<a name="healthlake_ListFHIRDatastores_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFHIRDatastores`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        oo_result = lo_hll->listfhirdatastores( ).
        DATA(lt_datastores) = oo_result->get_datastorepropertieslist( ).
        DATA(lv_datastore_count) = lines( lt_datastores ).
        MESSAGE |Found { lv_datastore_count } data store(s).| TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllthrottlingex INTO DATA(lo_throttling_ex).
        lv_error = |Throttling error: { lo_throttling_ex->av_err_code }-{ lo_throttling_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_throttling_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Daftar FHIRDatastores](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListFHIRExportJobs`
<a name="healthlake_ListFHIRExportJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFHIRExportJobs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_datastore_id = 'a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        IF iv_submitted_after IS NOT INITIAL.
          oo_result = lo_hll->listfhirexportjobs(
            iv_datastoreid = iv_datastore_id
            iv_submittedafter = iv_submitted_after
          ).
        ELSE.
          oo_result = lo_hll->listfhirexportjobs(
            iv_datastoreid = iv_datastore_id
          ).
        ENDIF.
        DATA(lt_export_jobs) = oo_result->get_exportjobpropertieslist( ).
        DATA(lv_job_count) = lines( lt_export_jobs ).
        MESSAGE |Found { lv_job_count } export job(s).| TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        lv_error = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Daftar FHIRExport Lowongan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListFHIRImportJobs`
<a name="healthlake_ListFHIRImportJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFHIRImportJobs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_datastore_id = 'a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        IF iv_submitted_after IS NOT INITIAL.
          oo_result = lo_hll->listfhirimportjobs(
            iv_datastoreid = iv_datastore_id
            iv_submittedafter = iv_submitted_after
          ).
        ELSE.
          oo_result = lo_hll->listfhirimportjobs(
            iv_datastoreid = iv_datastore_id
          ).
        ENDIF.
        DATA(lt_import_jobs) = oo_result->get_importjobpropertieslist( ).
        DATA(lv_job_count) = lines( lt_import_jobs ).
        MESSAGE |Found { lv_job_count } import job(s).| TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        lv_error = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Daftar FHIRImport Lowongan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTagsForResource`
<a name="healthlake_ListTagsForResource_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTagsForResource`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_resource_arn = 'arn:aws:healthlake:us-east-1:123456789012:datastore/fhir/a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        DATA(lo_result) = lo_hll->listtagsforresource(
          iv_resourcearn = iv_resource_arn
        ).
        ot_tags = lo_result->get_tags( ).
        DATA(lv_tag_count) = lines( ot_tags ).
        MESSAGE |Found { lv_tag_count } tag(s).| TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        lv_error = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTagsForResource](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartFHIRExportJob`
<a name="healthlake_StartFHIRExportJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartFHIRExportJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_job_name = 'MyExportJob'
        " iv_output_s3_uri = 's3://my-bucket/export/output/'
        " iv_kms_key_id = 'arn:aws:kms:us-east-1:123456789012:key/12345678-1234-1234-1234-123456789012'
        " iv_data_access_role_arn = 'arn:aws:iam::123456789012:role/HealthLakeExportRole'
        oo_result = lo_hll->startfhirexportjob(
          iv_jobname = iv_job_name
          io_outputdataconfig = NEW /aws1/cl_hlloutputdataconfig(
            io_s3configuration = NEW /aws1/cl_hlls3configuration(
              iv_s3uri = iv_output_s3_uri
              iv_kmskeyid = iv_kms_key_id
            )
          )
          iv_dataaccessrolearn = iv_data_access_role_arn
          iv_datastoreid = iv_datastore_id
        ).
        DATA(lv_job_id) = oo_result->get_jobid( ).
        MESSAGE |Export job started with ID { lv_job_id }.| TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllthrottlingex INTO DATA(lo_throttling_ex).
        lv_error = |Throttling error: { lo_throttling_ex->av_err_code }-{ lo_throttling_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_throttling_ex.
      CATCH /aws1/cx_hllaccessdeniedex INTO DATA(lo_access_ex).
        lv_error = |Access denied: { lo_access_ex->av_err_code }-{ lo_access_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_access_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Memulai FHIRExport Job](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

### `StartFHIRImportJob`
<a name="healthlake_StartFHIRImportJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartFHIRImportJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_job_name = 'MyImportJob'
        " iv_input_s3_uri = 's3://my-bucket/import/data.ndjson'
        " iv_job_output_s3_uri = 's3://my-bucket/import/output/'
        " iv_kms_key_id = 'arn:aws:kms:us-east-1:123456789012:key/12345678-1234-1234-1234-123456789012'
        " iv_data_access_role_arn = 'arn:aws:iam::123456789012:role/HealthLakeImportRole'
        oo_result = lo_hll->startfhirimportjob(
          iv_jobname = iv_job_name
          io_inputdataconfig = NEW /aws1/cl_hllinputdataconfig( iv_s3uri = iv_input_s3_uri )
          io_joboutputdataconfig = NEW /aws1/cl_hlloutputdataconfig(
            io_s3configuration = NEW /aws1/cl_hlls3configuration(
              iv_s3uri = iv_job_output_s3_uri
              iv_kmskeyid = iv_kms_key_id
            )
          )
          iv_dataaccessrolearn = iv_data_access_role_arn
          iv_datastoreid = iv_datastore_id
        ).
        DATA(lv_job_id) = oo_result->get_jobid( ).
        MESSAGE |Import job started with ID { lv_job_id }.| TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllthrottlingex INTO DATA(lo_throttling_ex).
        lv_error = |Throttling error: { lo_throttling_ex->av_err_code }-{ lo_throttling_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_throttling_ex.
      CATCH /aws1/cx_hllaccessdeniedex INTO DATA(lo_access_ex).
        lv_error = |Access denied: { lo_access_ex->av_err_code }-{ lo_access_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_access_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [Memulai FHIRImport Job](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

### `TagResource`
<a name="healthlake_TagResource_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_resource_arn = 'arn:aws:healthlake:us-east-1:123456789012:datastore/fhir/a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        lo_hll->tagresource(
          iv_resourcearn = iv_resource_arn
          it_tags = it_tags
        ).
        MESSAGE 'Resource tagged successfully.' TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        lv_error = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UntagResource`
<a name="healthlake_UntagResource_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UntagResource`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/hll#code-examples). 

```
    TRY.
        " iv_resource_arn = 'arn:aws:healthlake:us-east-1:123456789012:datastore/fhir/a1b2c3d4e5f6g7h8i9j0k1l2m3n4o5p6'
        lo_hll->untagresource(
          iv_resourcearn = iv_resource_arn
          it_tagkeys = it_tag_keys
        ).
        MESSAGE 'Resource untagged successfully.' TYPE 'I'.
      CATCH /aws1/cx_hllvalidationex INTO DATA(lo_validation_ex).
        DATA(lv_error) = |Validation error: { lo_validation_ex->av_err_code }-{ lo_validation_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_validation_ex.
      CATCH /aws1/cx_hllresourcenotfoundex INTO DATA(lo_notfound_ex).
        lv_error = |Resource not found: { lo_notfound_ex->av_err_code }-{ lo_notfound_ex->av_err_msg }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_notfound_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [UntagResource](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh IAM menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan IAM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->attachrolepolicy(
          iv_rolename = iv_role_name
          iv_policyarn = iv_policy_arn ).
        MESSAGE 'Policy attached to role successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Role or policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Policy attachment limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AttachRolePolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `AttachUserPolicy`
<a name="iam_AttachUserPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachUserPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->attachuserpolicy(
          iv_username = iv_user_name
          iv_policyarn = iv_policy_arn ).
        MESSAGE 'Policy attached to user successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'User or policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Policy attachment limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AttachUserPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->createaccesskey(
          iv_username = iv_user_name ).
        MESSAGE 'Access key created successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'User does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Maximum number of access keys reached.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateAccessKey](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateAccountAlias`
<a name="iam_CreateAccountAlias_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccountAlias`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->createaccountalias(
          iv_accountalias = iv_account_alias ).
        MESSAGE 'Account alias created successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamentityalrdyexex.
        MESSAGE 'Account alias already exists.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Account alias limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateAccountAlias](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreatePolicy`
<a name="iam_CreatePolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->createpolicy(
          iv_policyname = iv_policy_name
          iv_policydocument = iv_policy_document
          iv_description = iv_description ).
        MESSAGE 'Policy created successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamentityalrdyexex.
        MESSAGE 'Policy already exists.' TYPE 'E'.
      CATCH /aws1/cx_iammalformedplydocex.
        MESSAGE 'Policy document is malformed.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Policy limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreatePolicyVersion`
<a name="iam_CreatePolicyVersion_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicyVersion`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->createpolicyversion(
          iv_policyarn = iv_policy_arn
          iv_policydocument = iv_policy_document
          iv_setasdefault = iv_set_as_default ).
        MESSAGE 'Policy version created successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iammalformedplydocex.
        MESSAGE 'Policy document is malformed.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Policy version limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreatePolicyVersion](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateRole`
<a name="iam_CreateRole_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->createrole(
          iv_rolename = iv_role_name
          iv_assumerolepolicydocument = iv_assume_role_policy_document ).
        MESSAGE 'Role created successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamentityalrdyexex.
        MESSAGE 'Role already exists.' TYPE 'E'.
      CATCH /aws1/cx_iammalformedplydocex.
        MESSAGE 'Assume role policy document is malformed.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Role limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateRole](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listpolicyversions(
          iv_policyarn = iv_policy_arn ).
        MESSAGE 'Retrieved policy versions list.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when listing policy versions.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateServiceLinkedRole](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateUser`
<a name="iam_CreateUser_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->createuser(
          iv_username = iv_user_name ).
        MESSAGE 'User created successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamentityalrdyexex.
        MESSAGE 'User already exists.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Limit exceeded for IAM users.' TYPE 'E'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Entity does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateUser](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->deleteaccesskey(
          iv_accesskeyid = iv_access_key_id
          iv_username = iv_user_name ).
        MESSAGE 'Access key deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Access key or user does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteAccessKey](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteAccountAlias`
<a name="iam_DeleteAccountAlias_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccountAlias`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->deleteaccountalias(
          iv_accountalias = iv_account_alias ).
        MESSAGE 'Account alias deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Account alias does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteAccountAlias](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeletePolicy`
<a name="iam_DeletePolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->deletepolicy( iv_policyarn = iv_policy_arn ).
        MESSAGE 'Policy deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamdeleteconflictex.
        MESSAGE 'Policy cannot be deleted due to attachments.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeletePolicyVersion`
<a name="iam_DeletePolicyVersion_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicyVersion`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->deletepolicyversion(
          iv_policyarn = iv_policy_arn
          iv_versionid = iv_version_id ).
        MESSAGE 'Policy version deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Policy or version does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamdeleteconflictex.
        MESSAGE 'Cannot delete default policy version.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeletePolicyVersion](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteRole`
<a name="iam_DeleteRole_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->deleterole( iv_rolename = iv_role_name ).
        MESSAGE 'Role deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Role does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamdeleteconflictex.
        MESSAGE 'Role cannot be deleted due to attached resources.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteRole](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteUser`
<a name="iam_DeleteUser_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->deleteuser( iv_username = iv_user_name ).
        MESSAGE 'User deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'User does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamdeleteconflictex.
        MESSAGE 'User cannot be deleted due to attached resources.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteUser](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->detachrolepolicy(
          iv_rolename = iv_role_name
          iv_policyarn = iv_policy_arn ).
        MESSAGE 'Policy detached from role successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Role or policy does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetachRolePolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetachUserPolicy`
<a name="iam_DetachUserPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachUserPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->detachuserpolicy(
          iv_username = iv_user_name
          iv_policyarn = iv_policy_arn ).
        MESSAGE 'Policy detached from user successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'User or policy does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetachUserPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GenerateCredentialReport`
<a name="iam_GenerateCredentialReport_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GenerateCredentialReport`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->generatecredentialreport( ).
        MESSAGE 'Credential report generation started.' TYPE 'I'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Report generation limit exceeded.' TYPE 'E'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when generating credential report.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GenerateCredentialReport](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetAccessKeyLastUsed`
<a name="iam_GetAccessKeyLastUsed_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccessKeyLastUsed`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->getaccesskeylastused(
          iv_accesskeyid = iv_access_key_id ).
        MESSAGE 'Retrieved access key last used information.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Access key does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetAccessKeyLastUsed](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetAccountAuthorizationDetails`
<a name="iam_GetAccountAuthorizationDetails_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountAuthorizationDetails`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->getaccountauthdetails( ).
        MESSAGE 'Retrieved account authorization details.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when getting account authorization details.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetAccountAuthorizationDetails](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetAccountPasswordPolicy`
<a name="iam_GetAccountPasswordPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountPasswordPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->getaccountpasswordpolicy( ).
        MESSAGE 'Retrieved account password policy.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'No password policy exists.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when getting password policy.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetAccountPasswordPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetAccountSummary`
<a name="iam_GetAccountSummary_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAccountSummary`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->getaccountsummary( ).
        MESSAGE 'Retrieved account summary.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when getting account summary.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetAccountSummary](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetCredentialReport`
<a name="iam_GetCredentialReport_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCredentialReport`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->getcredentialreport( ).
        MESSAGE 'Retrieved credential report.' TYPE 'I'.
      CATCH /aws1/cx_iamcredrptnotpresen00.
        MESSAGE 'Credential report not present.' TYPE 'E'.
      CATCH /aws1/cx_iamcredrptexpiredex.
        MESSAGE 'Credential report expired.' TYPE 'E'.
      CATCH /aws1/cx_iamcredrptnotreadyex.
        MESSAGE 'Credential report not ready.' TYPE 'E'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when getting credential report.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetCredentialReport](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetPolicy`
<a name="iam_GetPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->getpolicy( iv_policyarn = iv_policy_arn ).
        MESSAGE 'Retrieved policy information.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Policy does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetRole`
<a name="iam_GetRole_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->getrole( iv_rolename = iv_role_name ).
        MESSAGE 'Retrieved role information.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Role does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetRole](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListAccessKeys`
<a name="iam_ListAccessKeys_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccessKeys`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listaccesskeys(
          iv_username = iv_user_name ).
        MESSAGE 'Retrieved access key list.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'User does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListAccessKeys](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListAccountAliases`
<a name="iam_ListAccountAliases_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAccountAliases`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listaccountaliases( ).
        MESSAGE 'Retrieved account alias list.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when listing account aliases.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListAccountAliases](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listattachedrolepolicies(
          iv_rolename = iv_role_name ).
        MESSAGE 'Retrieved attached policy list for role.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Role does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListAttachedRolePolicies](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListGroups`
<a name="iam_ListGroups_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listgroups( ).
        MESSAGE 'Retrieved group list.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when listing groups.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListGroups](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListPolicies`
<a name="iam_ListPolicies_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listpolicies( iv_scope = iv_scope ).
        MESSAGE 'Retrieved policy list.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when listing policies.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListPolicyVersions`
<a name="iam_ListPolicyVersions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicyVersions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listpolicyversions(
          iv_policyarn = iv_policy_arn ).
        MESSAGE 'Retrieved policy versions list.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when listing policy versions.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListPolicyVersions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listrolepolicies(
          iv_rolename = iv_role_name ).
        MESSAGE 'Retrieved inline policy list for role.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Role does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListRolePolicies](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListRoles`
<a name="iam_ListRoles_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listroles( ).
        MESSAGE 'Retrieved role list.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when listing roles.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListRoles](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListSAMLProviders`
<a name="iam_ListSAMLProviders_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSAMLProviders`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listsamlproviders( ).
        MESSAGE 'Retrieved SAML provider list.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when listing SAML providers.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Daftar SAMLProviders](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListUsers`
<a name="iam_ListUsers_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        oo_result = lo_iam->listusers( ).
        MESSAGE 'Retrieved user list.' TYPE 'I'.
      CATCH /aws1/cx_iamservicefailureex.
        MESSAGE 'Service failure when listing users.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListUsers](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SetDefaultPolicyVersion`
<a name="iam_SetDefaultPolicyVersion_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetDefaultPolicyVersion`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->setdefaultpolicyversion(
          iv_policyarn = iv_policy_arn
          iv_versionid = iv_version_id ).
        MESSAGE 'Default policy version set successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Policy or version does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iaminvalidinputex.
        MESSAGE 'Invalid input provided.' TYPE 'E'.
      CATCH /aws1/cx_iamlimitexceededex.
        MESSAGE 'Limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SetDefaultPolicyVersion](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateAccessKey`
<a name="iam_UpdateAccessKey_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAccessKey`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->updateaccesskey(
          iv_accesskeyid = iv_access_key_id
          iv_status = iv_status
          iv_username = iv_user_name ).
        MESSAGE 'Access key updated successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'Access key or user does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateAccessKey](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateUser`
<a name="iam_UpdateUser_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateUser`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/iam#code-examples). 

```
    TRY.
        lo_iam->updateuser(
          iv_username = iv_user_name
          iv_newusername = iv_new_user_name ).
        MESSAGE 'User updated successfully.' TYPE 'I'.
      CATCH /aws1/cx_iamnosuchentityex.
        MESSAGE 'User does not exist.' TYPE 'E'.
      CATCH /aws1/cx_iamentityalrdyexex.
        MESSAGE 'New user name already exists.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateUser](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# AWS IoT SiteWise contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_iotsitewise_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. AWS IoT SiteWise

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS IoT SiteWise
<a name="iotsitewise_Hello_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS IoT SiteWise.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        oo_result = lo_ios->listassetmodels( ). " oo_result is returned for testing purposes. "
        DATA(lt_asset_models) = oo_result->get_assetmodelsummaries( ).
        MESSAGE 'Retrieved list of asset models.' TYPE 'I'.
      CATCH /aws1/cx_rt_generic.
        MESSAGE 'Unable to list asset models.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListAssetModels](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Tindakan
<a name="actions"></a>

### `BatchPutAssetPropertyValue`
<a name="iotsitewise_BatchPutAssetPropertyValue_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchPutAssetPropertyValue`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        lo_ios->batchputassetpropertyvalue(
          it_entries = it_entries
        ).
        MESSAGE 'Data sent to IoT SiteWise asset successfully.' TYPE 'I'.
      CATCH /aws1/cx_iosresourcenotfoundex.
        MESSAGE 'Asset does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [BatchPutAssetPropertyValue](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateAsset`
<a name="iotsitewise_CreateAsset_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAsset`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        oo_result = lo_ios->createasset(
          iv_assetname = iv_asset_name
          iv_assetmodelid = iv_asset_model_id
        ). " oo_result is returned for testing purposes. "
        MESSAGE 'IoT SiteWise asset created' TYPE 'I'.
      CATCH /aws1/cx_iosresourcenotfoundex.
        MESSAGE 'Asset model does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateAsset](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateAssetModel`
<a name="iotsitewise_CreateAssetModel_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAssetModel`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        oo_result = lo_ios->createassetmodel(
          iv_assetmodelname = iv_asset_model_name
          iv_assetmodeldescription = 'This is a sample asset model description.'
          it_assetmodelproperties = it_properties
        ). " oo_result is returned for testing purposes. "
        MESSAGE 'IoT SiteWise asset model created' TYPE 'I'.
      CATCH /aws1/cx_iosresrcalrdyexistsex.
        MESSAGE 'Asset model already exists.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateAssetModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateGateway`
<a name="iotsitewise_CreateGateway_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGateway`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        oo_result = lo_ios->creategateway(
          iv_gatewayname = iv_gateway_name
          io_gatewayplatform = NEW /aws1/cl_iosgatewayplatform(
            io_greengrassv2 = NEW /aws1/cl_iosgreengrassv2(
              iv_coredevicethingname = iv_core_device_thing_name
            )
          )
          it_tags = VALUE /aws1/cl_iostagmap_w=>tt_tagmap(
            (
              VALUE /aws1/cl_iostagmap_w=>ts_tagmap_maprow(
                key = 'Environment'
                value = NEW /aws1/cl_iostagmap_w( 'Production' )
              )
            )
          )
        ). " oo_result is returned for testing purposes. "
        MESSAGE 'IoT SiteWise gateway created' TYPE 'I'.
      CATCH /aws1/cx_iosresrcalrdyexistsex.
        MESSAGE 'Gateway already exists.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateGateway](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteAsset`
<a name="iotsitewise_DeleteAsset_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAsset`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        lo_ios->deleteasset(
          iv_assetid = iv_asset_id
        ).
        MESSAGE 'IoT SiteWise asset deleted.' TYPE 'I'.
      CATCH /aws1/cx_rt_generic.
        MESSAGE 'Unable to delete asset.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteAsset](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteAssetModel`
<a name="iotsitewise_DeleteAssetModel_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAssetModel`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        lo_ios->deleteassetmodel(
          iv_assetmodelid = iv_asset_model_id
        ).
        MESSAGE 'IoT SiteWise asset model deleted.' TYPE 'I'.
      CATCH /aws1/cx_rt_generic.
        MESSAGE 'Unable to delete asset model.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteAssetModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteGateway`
<a name="iotsitewise_DeleteGateway_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteGateway`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        lo_ios->deletegateway(
          iv_gatewayid = iv_gateway_id
        ).
        MESSAGE 'IoT SiteWise gateway deleted.' TYPE 'I'.
      CATCH /aws1/cx_iosresourcenotfoundex.
        MESSAGE 'Gateway does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteGateway](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeGateway`
<a name="iotsitewise_DescribeGateway_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeGateway`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        oo_result = lo_ios->describegateway(
          iv_gatewayid = iv_gateway_id
        ). " oo_result is returned for testing purposes. "
        MESSAGE 'Retrieved gateway description.' TYPE 'I'.
      CATCH /aws1/cx_iosresourcenotfoundex.
        MESSAGE 'Gateway does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeGateway](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetAssetPropertyValue`
<a name="iotsitewise_GetAssetPropertyValue_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetAssetPropertyValue`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        oo_result = lo_ios->getassetpropertyvalue(
          iv_assetid = iv_asset_id
          iv_propertyid = iv_property_id
        ). " oo_result is returned for testing purposes. "
        MESSAGE 'Retrieved asset property value.' TYPE 'I'.
      CATCH /aws1/cx_iosresourcenotfoundex.
        MESSAGE 'Asset or property does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetAssetPropertyValue](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListAssetModelProperties`
<a name="iotsitewise_ListAssetModelProperties_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAssetModelProperties`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        oo_result = lo_ios->listassetmodelproperties(
          iv_assetmodelid = iv_asset_model_id
        ). " oo_result is returned for testing purposes. "
        DATA(lt_properties) = oo_result->get_assetmodelpropertysums( ).
        MESSAGE 'Retrieved list of asset model properties.' TYPE 'I'.
      CATCH /aws1/cx_rt_generic.
        MESSAGE 'Unable to list asset model properties.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListAssetModelProperties](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListAssetModels`
<a name="iotsitewise_ListAssetModels_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAssetModels`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ios#code-examples). 

```
    TRY.
        oo_result = lo_ios->listassetmodels( ). " oo_result is returned for testing purposes. "
        DATA(lt_asset_models) = oo_result->get_assetmodelsummaries( ).
        MESSAGE 'Retrieved list of asset models.' TYPE 'I'.
      CATCH /aws1/cx_rt_generic.
        MESSAGE 'Unable to list asset models.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListAssetModels](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon Keyspaces menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_keyspaces_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Keyspaces.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateKeyspace`
<a name="keyspaces_CreateKeyspace_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyspace`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        oo_result = lo_kys->createkeyspace(
          iv_keyspacename = iv_keyspace_name ).
        MESSAGE 'Keyspace created successfully.' TYPE 'I'.
      CATCH /aws1/cx_kysconflictexception.
        MESSAGE 'Keyspace already exists.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateKeyspace](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateTable`
<a name="keyspaces_CreateTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        " Define schema with columns
        DATA(lt_columns) = VALUE /aws1/cl_kyscolumndefinition=>tt_columndefinitionlist(
          ( NEW /aws1/cl_kyscolumndefinition( iv_name = 'title' iv_type = 'text' ) )
          ( NEW /aws1/cl_kyscolumndefinition( iv_name = 'year' iv_type = 'int' ) )
          ( NEW /aws1/cl_kyscolumndefinition( iv_name = 'release_date' iv_type = 'timestamp' ) )
          ( NEW /aws1/cl_kyscolumndefinition( iv_name = 'plot' iv_type = 'text' ) )
        ).

        " Define partition keys
        DATA(lt_partition_keys) = VALUE /aws1/cl_kyspartitionkey=>tt_partitionkeylist(
          ( NEW /aws1/cl_kyspartitionkey( iv_name = 'year' ) )
          ( NEW /aws1/cl_kyspartitionkey( iv_name = 'title' ) )
        ).

        " Create schema definition
        DATA(lo_schema) = NEW /aws1/cl_kysschemadefinition(
          it_allcolumns = lt_columns
          it_partitionkeys = lt_partition_keys ).

        " Enable point-in-time recovery
        DATA(lo_pitr) = NEW /aws1/cl_kyspointintimerec(
          iv_status = 'ENABLED' ).

        oo_result = lo_kys->createtable(
          iv_keyspacename = iv_keyspace_name
          iv_tablename = iv_table_name
          io_schemadefinition = lo_schema
          io_pointintimerecovery = lo_pitr ).
        MESSAGE 'Table created successfully.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteKeyspace`
<a name="keyspaces_DeleteKeyspace_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyspace`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        lo_kys->deletekeyspace(
          iv_keyspacename = iv_keyspace_name ).
        MESSAGE 'Keyspace deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteKeyspace](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteTable`
<a name="keyspaces_DeleteTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        lo_kys->deletetable(
          iv_keyspacename = iv_keyspace_name
          iv_tablename = iv_table_name ).
        MESSAGE 'Table deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetKeyspace`
<a name="keyspaces_GetKeyspace_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetKeyspace`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        oo_result = lo_kys->getkeyspace(
          iv_keyspacename = iv_keyspace_name ).
        MESSAGE 'Keyspace retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_kysresourcenotfoundex.
        MESSAGE 'Keyspace does not exist.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetKeyspace](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetTable`
<a name="keyspaces_GetTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        oo_result = lo_kys->gettable(
          iv_keyspacename = iv_keyspace_name
          iv_tablename = iv_table_name ).
        MESSAGE 'Table information retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_kysresourcenotfoundex.
        MESSAGE 'Table does not exist.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListKeyspaces`
<a name="keyspaces_ListKeyspaces_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeyspaces`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        oo_result = lo_kys->listkeyspaces(
          iv_maxresults = iv_max_results ).
        MESSAGE 'Keyspaces listed successfully.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListKeyspaces](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTables`
<a name="keyspaces_ListTables_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        oo_result = lo_kys->listtables(
          iv_keyspacename = iv_keyspace_name ).
        MESSAGE 'Tables listed successfully.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTables](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RestoreTable`
<a name="keyspaces_RestoreTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RestoreTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        oo_result = lo_kys->restoretable(
          iv_sourcekeyspacename = iv_source_keyspace_name
          iv_sourcetablename = iv_source_table_name
          iv_targetkeyspacename = iv_target_keyspace_name
          iv_targettablename = iv_target_table_name
          iv_restoretimestamp = iv_restore_timestamp ).
        MESSAGE 'Table restore initiated successfully.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [RestoreTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateTable`
<a name="keyspaces_UpdateTable_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTable`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kys#code-examples). 

```
    TRY.
        " Add a new column to track watched movies
        DATA(lt_add_columns) = VALUE /aws1/cl_kyscolumndefinition=>tt_columndefinitionlist(
          ( NEW /aws1/cl_kyscolumndefinition( iv_name = 'watched' iv_type = 'boolean' ) )
        ).

        oo_result = lo_kys->updatetable(
          iv_keyspacename = iv_keyspace_name
          iv_tablename = iv_table_name
          it_addcolumns = lt_add_columns ).
        MESSAGE 'Table updated successfully.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateTable](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Kinesis menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_kinesis_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Kinesis.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="kinesis_Scenario_GettingStarted_sap-abap_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat aliran dan letakkan catatan di dalamnya.
+ Buat iterator shard.
+ Baca catatan, lalu bersihkan sumber daya.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kns#code-examples). 

```
    DATA lo_stream_describe_result TYPE REF TO /aws1/cl_knsdescrstreamoutput.
    DATA lo_stream_description TYPE REF TO /aws1/cl_knsstreamdescription.
    DATA lo_sharditerator TYPE REF TO /aws1/cl_knsgetsharditerator01.
    DATA lo_record_result TYPE REF TO /aws1/cl_knsputrecordoutput.

    "Create stream."
    TRY.
        lo_kns->createstream(
            iv_streamname = iv_stream_name
            iv_shardcount = iv_shard_count ).
        MESSAGE 'Stream created.' TYPE 'I'.
      CATCH /aws1/cx_knsinvalidargumentex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
      CATCH /aws1/cx_knslimitexceededex.
        MESSAGE 'The request processing has failed because of a limit exceeded exception.' TYPE 'E'.
      CATCH /aws1/cx_knsresourceinuseex.
        MESSAGE 'The request processing has failed because the resource is in use.' TYPE 'E'.
    ENDTRY.

    "Wait for stream to becomes active."
    lo_stream_describe_result = lo_kns->describestream( iv_streamname = iv_stream_name ).
    lo_stream_description = lo_stream_describe_result->get_streamdescription( ).
    WHILE lo_stream_description->get_streamstatus( ) <> 'ACTIVE'.
      IF sy-index = 30.
        EXIT.               "maximum 5 minutes"
      ENDIF.
      WAIT UP TO 10 SECONDS.
      lo_stream_describe_result = lo_kns->describestream( iv_streamname = iv_stream_name ).
      lo_stream_description = lo_stream_describe_result->get_streamdescription( ).
    ENDWHILE.

    "Create record."
    TRY.
        lo_record_result = lo_kns->putrecord(
            iv_streamname = iv_stream_name
            iv_data       = iv_data
            iv_partitionkey = iv_partition_key ).
        MESSAGE 'Record created.' TYPE 'I'.
      CATCH /aws1/cx_knsinvalidargumentex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
      CATCH /aws1/cx_knskmsaccessdeniedex.
        MESSAGE 'You do not have permission to perform this AWS KMS action.' TYPE 'E'.
      CATCH /aws1/cx_knskmsdisabledex.
        MESSAGE 'KMS key used is disabled.' TYPE 'E'.
      CATCH /aws1/cx_knskmsinvalidstateex.
        MESSAGE 'KMS key used is in an invalid state. ' TYPE 'E'.
      CATCH /aws1/cx_knskmsnotfoundex.
        MESSAGE 'KMS key used is not found.' TYPE 'E'.
      CATCH /aws1/cx_knskmsoptinrequired.
        MESSAGE 'KMS key option is required.' TYPE 'E'.
      CATCH /aws1/cx_knskmsthrottlingex.
        MESSAGE 'The rate of requests to AWS KMS is exceeding the request quotas.' TYPE 'E'.
      CATCH /aws1/cx_knsprovthruputexcdex.
        MESSAGE 'The request rate for the stream is too high, or the requested data is too large for the available throughput.' TYPE 'E'.
      CATCH /aws1/cx_knsresourcenotfoundex.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
    ENDTRY.

    "Create a shard iterator in order to read the record."
    TRY.
        lo_sharditerator = lo_kns->getsharditerator(
          iv_shardid = lo_record_result->get_shardid( )
          iv_sharditeratortype = iv_sharditeratortype
          iv_streamname = iv_stream_name ).
        MESSAGE 'Shard iterator created.' TYPE 'I'.
      CATCH /aws1/cx_knsinvalidargumentex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
      CATCH /aws1/cx_knsprovthruputexcdex.
        MESSAGE 'The request rate for the stream is too high, or the requested data is too large for the available throughput.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcenotfound.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
    ENDTRY.

    "Read the record."
    TRY.
        oo_result = lo_kns->getrecords(                    " oo_result is returned for testing purposes. "
            iv_sharditerator   = lo_sharditerator->get_sharditerator( ) ).
        MESSAGE 'Shard iterator created.' TYPE 'I'.
      CATCH /aws1/cx_knsexpirediteratorex.
        MESSAGE 'Iterator expired.' TYPE 'E'.
      CATCH /aws1/cx_knsinvalidargumentex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
      CATCH /aws1/cx_knskmsaccessdeniedex.
        MESSAGE 'You do not have permission to perform this AWS KMS action.' TYPE 'E'.
      CATCH /aws1/cx_knskmsdisabledex.
        MESSAGE 'KMS key used is disabled.' TYPE 'E'.
      CATCH /aws1/cx_knskmsinvalidstateex.
        MESSAGE 'KMS key used is in an invalid state. ' TYPE 'E'.
      CATCH /aws1/cx_knskmsnotfoundex.
        MESSAGE 'KMS key used is not found.' TYPE 'E'.
      CATCH /aws1/cx_knskmsoptinrequired.
        MESSAGE 'KMS key option is required.' TYPE 'E'.
      CATCH /aws1/cx_knskmsthrottlingex.
        MESSAGE 'The rate of requests to AWS KMS is exceeding the request quotas.' TYPE 'E'.
      CATCH /aws1/cx_knsprovthruputexcdex.
        MESSAGE 'The request rate for the stream is too high, or the requested data is too large for the available throughput.' TYPE 'E'.
      CATCH /aws1/cx_knsresourcenotfoundex.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
    ENDTRY.

    "Delete stream."
    TRY.
        lo_kns->deletestream(
            iv_streamname = iv_stream_name ).
        MESSAGE 'Stream deleted.' TYPE 'I'.
      CATCH /aws1/cx_knslimitexceededex.
        MESSAGE 'The request processing has failed because of a limit exceeded exception.' TYPE 'E'.
      CATCH /aws1/cx_knsresourceinuseex.
        MESSAGE 'The request processing has failed because the resource is in use.' TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [CreateStream](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteStream](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [GetRecords](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [GetShardIterator](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [PutRecord](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateStream`
<a name="kinesis_CreateStream_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStream`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kns#code-examples). 

```
    TRY.
        lo_kns->createstream(
            iv_streamname = iv_stream_name
            iv_shardcount = iv_shard_count ).
        MESSAGE 'Stream created.' TYPE 'I'.
      CATCH /aws1/cx_knsinvalidargumentex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
      CATCH /aws1/cx_knslimitexceededex.
        MESSAGE 'The request processing has failed because of a limit exceed exception.' TYPE 'E'.
      CATCH /aws1/cx_knsresourceinuseex.
        MESSAGE 'The request processing has failed because the resource is in use.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateStream](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteStream`
<a name="kinesis_DeleteStream_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStream`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kns#code-examples). 

```
    TRY.
        lo_kns->deletestream(
            iv_streamname = iv_stream_name ).
        MESSAGE 'Stream deleted.' TYPE 'I'.
      CATCH /aws1/cx_knslimitexceededex.
        MESSAGE 'The request processing has failed because of a limit exceed exception.' TYPE 'E'.
      CATCH /aws1/cx_knsresourceinuseex.
        MESSAGE 'The request processing has failed because the resource is in use.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteStream](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeStream`
<a name="kinesis_DescribeStream_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStream`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kns#code-examples). 

```
    TRY.
        oo_result = lo_kns->describestream(
            iv_streamname = iv_stream_name ).
        DATA(lt_stream_description) = oo_result->get_streamdescription( ).
        MESSAGE 'Streams retrieved.' TYPE 'I'.
      CATCH /aws1/cx_knslimitexceededex.
        MESSAGE 'The request processing has failed because of a limit exceed exception.' TYPE 'E'.
      CATCH /aws1/cx_knsresourcenotfoundex.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeStream](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetRecords`
<a name="kinesis_GetRecords_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRecords`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kns#code-examples). 

```
    TRY.
        oo_result = lo_kns->getrecords(             " oo_result is returned for testing purposes. "
            iv_sharditerator = iv_shard_iterator ).
        DATA(lt_records) = oo_result->get_records( ).
        MESSAGE 'Record retrieved.' TYPE 'I'.
      CATCH /aws1/cx_knsexpirediteratorex.
        MESSAGE 'Iterator expired.' TYPE 'E'.
      CATCH /aws1/cx_knsinvalidargumentex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
      CATCH /aws1/cx_knskmsaccessdeniedex.
        MESSAGE 'You do not have permission to perform this AWS KMS action.' TYPE 'E'.
      CATCH /aws1/cx_knskmsdisabledex.
        MESSAGE 'KMS key used is disabled.' TYPE 'E'.
      CATCH /aws1/cx_knskmsinvalidstateex.
        MESSAGE 'KMS key used is in an invalid state. ' TYPE 'E'.
      CATCH /aws1/cx_knskmsnotfoundex.
        MESSAGE 'KMS key used is not found.' TYPE 'E'.
      CATCH /aws1/cx_knskmsoptinrequired.
        MESSAGE 'KMS key option is required.' TYPE 'E'.
      CATCH /aws1/cx_knskmsthrottlingex.
        MESSAGE 'The rate of requests to AWS KMS is exceeding the request quotas.' TYPE 'E'.
      CATCH /aws1/cx_knsprovthruputexcdex.
        MESSAGE 'The request rate for the stream is too high, or the requested data is too large for the available throughput.' TYPE 'E'.
      CATCH /aws1/cx_knsresourcenotfoundex.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetRecords](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListStreams`
<a name="kinesis_ListStreams_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStreams`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kns#code-examples). 

```
    TRY.
        oo_result = lo_kns->liststreams(        " oo_result is returned for testing purposes. "
            "Set Limit to specify that a maximum of streams should be returned."
            iv_limit = iv_limit ).
        DATA(lt_streams) = oo_result->get_streamnames( ).
        MESSAGE 'Streams listed.' TYPE 'I'.
      CATCH /aws1/cx_knslimitexceededex.
        MESSAGE 'The request processing has failed because of a limit exceed exception.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListStreams](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutRecord`
<a name="kinesis_PutRecord_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutRecord`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kns#code-examples). 

```
    TRY.
        oo_result = lo_kns->putrecord(            " oo_result is returned for testing purposes. "
            iv_streamname = iv_stream_name
            iv_data       = iv_data
            iv_partitionkey = iv_partition_key ).
        MESSAGE 'Record created.' TYPE 'I'.
      CATCH /aws1/cx_knsinvalidargumentex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
      CATCH /aws1/cx_knskmsaccessdeniedex.
        MESSAGE 'You do not have permission to perform this AWS KMS action.' TYPE 'E'.
      CATCH /aws1/cx_knskmsdisabledex.
        MESSAGE 'KMS key used is disabled.' TYPE 'E'.
      CATCH /aws1/cx_knskmsinvalidstateex.
        MESSAGE 'KMS key used is in an invalid state. ' TYPE 'E'.
      CATCH /aws1/cx_knskmsnotfoundex.
        MESSAGE 'KMS key used is not found.' TYPE 'E'.
      CATCH /aws1/cx_knskmsoptinrequired.
        MESSAGE 'KMS key option is required.' TYPE 'E'.
      CATCH /aws1/cx_knskmsthrottlingex.
        MESSAGE 'The rate of requests to AWS KMS is exceeding the request quotas.' TYPE 'E'.
      CATCH /aws1/cx_knsprovthruputexcdex.
        MESSAGE 'The request rate for the stream is too high, or the requested data is too large for the available throughput.' TYPE 'E'.
      CATCH /aws1/cx_knsresourcenotfoundex.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutRecord](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RegisterStreamConsumer`
<a name="kinesis_RegisterStreamConsumer_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RegisterStreamConsumer`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kns#code-examples). 

```
    TRY.
        oo_result = lo_kns->registerstreamconsumer(       " oo_result is returned for testing purposes. "
            iv_streamarn = iv_stream_arn
            iv_consumername = iv_consumer_name ).
        MESSAGE 'Stream consumer registered.' TYPE 'I'.
      CATCH /aws1/cx_knsinvalidargumentex.
        MESSAGE 'The specified argument was not valid.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourceinuse.
        MESSAGE 'Resource being accessed is in use.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcenotfound.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [RegisterStreamConsumer](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# AWS KMS contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_kms_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan. AWS KMS

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo AWS KMS
<a name="kms_Hello_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan bagaimana untuk mulai menggunakan AWS Key Management Service.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        oo_result = lo_kms->listkeys( ).
        MESSAGE 'Retrieved KMS keys list.' TYPE 'I'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListKeys](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Tindakan
<a name="actions"></a>

### `CreateAlias`
<a name="kms_CreateAlias_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAlias`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_alias_name = 'alias/my-key-alias'
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        lo_kms->createalias(
          iv_aliasname = iv_alias_name
          iv_targetkeyid = iv_key_id
        ).
        MESSAGE 'Alias created successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsalreadyexistsex.
        MESSAGE 'Alias already exists.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmsinvalidaliasnameex.
        MESSAGE 'Invalid alias name.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateAlias](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateGrant`
<a name="kms_CreateGrant_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateGrant`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_grantee_principal = 'arn:aws:iam::123456789012:role/my-role'
        " it_operations contains 'Encrypt', 'Decrypt', 'GenerateDataKey'
        oo_result = lo_kms->creategrant(
          iv_keyid = iv_key_id
          iv_granteeprincipal = iv_grantee_principal
          it_operations = it_operations
        ).
        MESSAGE 'Grant created successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsdisabledexception.
        MESSAGE 'The key is disabled.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateGrant](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateKey`
<a name="kms_CreateKey_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKey`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_description = 'Created by the AWS SDK for SAP ABAP'
        oo_result = lo_kms->createkey( iv_description = iv_description ).
        MESSAGE 'KMS key created successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
      CATCH /aws1/cx_kmslimitexceededex.
        MESSAGE 'Limit exceeded for KMS resources.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateKey](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `Decrypt`
<a name="kms_Decrypt_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Decrypt`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_ciphertext_blob contains the encrypted data
        oo_result = lo_kms->decrypt(
          iv_keyid = iv_key_id
          iv_ciphertextblob = iv_ciphertext_blob
        ).
        MESSAGE 'Text decrypted successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsdisabledexception.
        MESSAGE 'The key is disabled.' TYPE 'E'.
      CATCH /aws1/cx_kmsincorrectkeyex.
        MESSAGE 'Incorrect key for decryption.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Mendekripsi](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteAlias`
<a name="kms_DeleteAlias_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAlias`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_alias_name = 'alias/my-key-alias'
        lo_kms->deletealias( iv_aliasname = iv_alias_name ).
        MESSAGE 'Alias deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Alias not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteAlias](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeKey`
<a name="kms_DescribeKey_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKey`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        oo_result = lo_kms->describekey( iv_keyid = iv_key_id ).
        DATA(lo_key) = oo_result->get_keymetadata( ).
        MESSAGE 'Retrieved key information successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeKey](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DisableKey`
<a name="kms_DisableKey_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisableKey`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        lo_kms->disablekey( iv_keyid = iv_key_id ).
        MESSAGE 'KMS key disabled successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DisableKey](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `EnableKey`
<a name="kms_EnableKey_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableKey`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        lo_kms->enablekey( iv_keyid = iv_key_id ).
        MESSAGE 'KMS key enabled successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [EnableKey](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `EnableKeyRotation`
<a name="kms_EnableKeyRotation_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`EnableKeyRotation`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        lo_kms->enablekeyrotation( iv_keyid = iv_key_id ).
        MESSAGE 'Key rotation enabled successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsdisabledexception.
        MESSAGE 'The key is disabled.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmsunsupportedopex.
        MESSAGE 'Operation not supported for this key.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [EnableKeyRotation](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `Encrypt`
<a name="kms_Encrypt_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Encrypt`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_plaintext contains the data to encrypt
        oo_result = lo_kms->encrypt(
          iv_keyid = iv_key_id
          iv_plaintext = iv_plaintext
        ).
        MESSAGE 'Text encrypted successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsdisabledexception.
        MESSAGE 'The key is disabled.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Encrypt](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK untuk referensi SAP ABAP* API. 

### `GenerateDataKey`
<a name="kms_GenerateDataKey_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GenerateDataKey`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_keyspec = 'AES_256'
        oo_result = lo_kms->generatedatakey(
          iv_keyid = iv_key_id
          iv_keyspec = 'AES_256'
        ).
        MESSAGE 'Data key generated successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsdisabledexception.
        MESSAGE 'The key is disabled.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GenerateDataKey](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetKeyPolicy`
<a name="kms_GetKeyPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetKeyPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        oo_result = lo_kms->getkeypolicy(
          iv_keyid = iv_key_id
          iv_policyname = 'default'
        ).
        MESSAGE 'Retrieved key policy successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetKeyPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListAliases`
<a name="kms_ListAliases_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAliases`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        oo_result = lo_kms->listaliases( ).
        MESSAGE 'Retrieved KMS aliases list.' TYPE 'I'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListAliases](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListGrants`
<a name="kms_ListGrants_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGrants`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        oo_result = lo_kms->listgrants( iv_keyid = iv_key_id ).
        MESSAGE 'Retrieved grants list.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListGrants](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListKeyPolicies`
<a name="kms_ListKeyPolicies_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeyPolicies`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        oo_result = lo_kms->listkeypolicies( iv_keyid = iv_key_id ).
        MESSAGE 'Retrieved key policies list.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListKeyPolicies](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListKeys`
<a name="kms_ListKeys_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListKeys`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        oo_result = lo_kms->listkeys( ).
        MESSAGE 'Retrieved KMS keys list.' TYPE 'I'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListKeys](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutKeyPolicy`
<a name="kms_PutKeyPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutKeyPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_policy = '{"Version":"2012-10-17",		 	 	  "Statement": [...]}'
        lo_kms->putkeypolicy(
          iv_keyid = iv_key_id
          iv_policyname = 'default'
          iv_policy = iv_policy
        ).
        MESSAGE 'Key policy updated successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmsmalformedplydocex.
        MESSAGE 'Malformed policy document.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutKeyPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ReEncrypt`
<a name="kms_ReEncrypt_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReEncrypt`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_source_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_destination_key_id = 'arn:aws:kms:us-east-1:123456789012:key/5678dcba-56cd-78ef-90ab-5678901234cd'
        " iv_ciphertext_blob contains the encrypted data
        oo_result = lo_kms->reencrypt(
          iv_sourcekeyid = iv_source_key_id
          iv_destinationkeyid = iv_destination_key_id
          iv_ciphertextblob = iv_ciphertext_blob
        ).
        MESSAGE 'Ciphertext reencrypted successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsdisabledexception.
        MESSAGE 'The key is disabled.' TYPE 'E'.
      CATCH /aws1/cx_kmsincorrectkeyex.
        MESSAGE 'Incorrect source key for decryption.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ReEncrypt](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RetireGrant`
<a name="kms_RetireGrant_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RetireGrant`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_grant_token = 'AQpAM2RhZ...'
        lo_kms->retiregrant( iv_granttoken = iv_grant_token ).
        MESSAGE 'Grant retired successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Grant not found.' TYPE 'E'.
      CATCH /aws1/cx_kmsinvgranttokenex.
        MESSAGE 'Invalid grant token.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [RetireGrant](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RevokeGrant`
<a name="kms_RevokeGrant_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RevokeGrant`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_grant_id = '1a2b3c4d5e6f7g8h9i0j1k2l3m4n5o6p'
        lo_kms->revokegrant(
          iv_keyid = iv_key_id
          iv_grantid = iv_grant_id
        ).
        MESSAGE 'Grant revoked successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Grant or key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmsinvalidgrantidex.
        MESSAGE 'Invalid grant ID.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [RevokeGrant](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ScheduleKeyDeletion`
<a name="kms_ScheduleKeyDeletion_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ScheduleKeyDeletion`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_pending_window_days = 7
        oo_result = lo_kms->schedulekeydeletion(
          iv_keyid = iv_key_id
          iv_pendingwindowindays = iv_pending_window_days
        ).
        MESSAGE 'Key scheduled for deletion.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ScheduleKeyDeletion](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `Sign`
<a name="kms_Sign_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Sign`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab' (asymmetric key)
        " iv_message contains the message to sign
        " iv_signing_algorithm = 'RSASSA_PSS_SHA_256'
        oo_result = lo_kms->sign(
          iv_keyid = iv_key_id
          iv_message = iv_message
          iv_signingalgorithm = iv_signing_algorithm
        ).
        MESSAGE 'Message signed successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsdisabledexception.
        MESSAGE 'The key is disabled.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmsinvalidkeyusageex.
        MESSAGE 'Key cannot be used for signing.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Sign](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK untuk referensi SAP ABAP* API. 

### `TagResource`
<a name="kms_TagResource_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TagResource`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    DATA lt_tags TYPE /aws1/cl_kmstag=>tt_taglist.

    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab'
        " iv_tag_key = 'Environment'
        " iv_tag_value = 'Production'
        APPEND NEW /aws1/cl_kmstag(
          iv_tagkey = iv_tag_key
          iv_tagvalue = iv_tag_value
        ) TO lt_tags.

        lo_kms->tagresource(
          iv_keyid = iv_key_id
          it_tags = lt_tags
        ).
        MESSAGE 'Tag added to KMS key successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmstagexception.
        MESSAGE 'Invalid tag format.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [TagResource](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateAlias`
<a name="kms_UpdateAlias_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateAlias`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_alias_name = 'alias/my-key-alias'
        " iv_target_key_id = 'arn:aws:kms:us-east-1:123456789012:key/5678dcba-56cd-78ef-90ab-5678901234cd'
        lo_kms->updatealias(
          iv_aliasname = iv_alias_name
          iv_targetkeyid = iv_target_key_id
        ).
        MESSAGE 'Alias updated successfully.' TYPE 'I'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Alias or key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateAlias](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `Verify`
<a name="kms_Verify_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Verify`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/kms#code-examples). 

```
    TRY.
        " iv_key_id = 'arn:aws:kms:us-east-1:123456789012:key/1234abcd-12ab-34cd-56ef-1234567890ab' (asymmetric key)
        " iv_message contains the original message
        " iv_signature contains the signature to verify
        " iv_signing_algorithm = 'RSASSA_PSS_SHA_256'
        oo_result = lo_kms->verify(
          iv_keyid = iv_key_id
          iv_message = iv_message
          iv_signature = iv_signature
          iv_signingalgorithm = iv_signing_algorithm
        ).
        DATA(lv_valid) = oo_result->get_signaturevalid( ).
        IF lv_valid = abap_true.
          MESSAGE 'Signature is valid.' TYPE 'I'.
        ELSE.
          MESSAGE 'Signature is invalid.' TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_kmsdisabledexception.
        MESSAGE 'The key is disabled.' TYPE 'E'.
      CATCH /aws1/cx_kmsnotfoundexception.
        MESSAGE 'Key not found.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinvalidsigex.
        MESSAGE 'Invalid signature.' TYPE 'E'.
      CATCH /aws1/cx_kmskmsinternalex.
        MESSAGE 'An internal error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Verifikasi](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

# Contoh Lambda menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Lambda.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_sap-abap_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/lmd#code-examples). 

```
    TRY.
        "Create an AWS Identity and Access Management (IAM) role that grants AWS Lambda permission to write to logs."
        DATA(lv_policy_document) = `{` &&
            `"Version":"2012-10-17",		 	 	 ` &&
                  `"Statement": [` &&
                    `{` &&
                      `"Effect": "Allow",` &&
                      `"Action": [` &&
                        `"sts:AssumeRole"` &&
                      `],` &&
                      `"Principal": {` &&
                        `"Service": [` &&
                          `"lambda.amazonaws.com"` &&
                        `]` &&
                      `}` &&
                    `}` &&
                  `]` &&
                `}`.
        TRY.
            DATA(lo_create_role_output) = lo_iam->createrole(
                    iv_rolename = iv_role_name
                    iv_assumerolepolicydocument = lv_policy_document
                    iv_description = 'Grant lambda permission to write to logs' ).
            DATA(lv_role_arn) = lo_create_role_output->get_role( )->get_arn( ).
            MESSAGE 'IAM role created.' TYPE 'I'.
            WAIT UP TO 10 SECONDS.            " Make sure that the IAM role is ready for use. "
          CATCH /aws1/cx_iamentityalrdyexex.
            DATA(lo_role) = lo_iam->getrole( iv_rolename = iv_role_name ).
            lv_role_arn = lo_role->get_role( )->get_arn( ).
          CATCH /aws1/cx_iaminvalidinputex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_iammalformedplydocex.
            MESSAGE 'Policy document in the request is malformed.' TYPE 'E'.
        ENDTRY.

        TRY.
            lo_iam->attachrolepolicy(
                iv_rolename  = iv_role_name
                iv_policyarn = 'arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole' ).
            MESSAGE 'Attached policy to the IAM role.' TYPE 'I'.
          CATCH /aws1/cx_iaminvalidinputex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_iamnosuchentityex.
            MESSAGE 'The requested resource entity does not exist.' TYPE 'E'.
          CATCH /aws1/cx_iamplynotattachableex.
            MESSAGE 'Service role policies can only be attached to the service-linked role for their service.' TYPE 'E'.
          CATCH /aws1/cx_iamunmodableentityex.
            MESSAGE 'Service that depends on the service-linked role is not modifiable.' TYPE 'E'.
        ENDTRY.

        " Create a Lambda function and upload handler code. "
        " Lambda function performs 'increment' action on a number. "
        TRY.
            lo_lmd->createfunction(
                 iv_functionname = iv_function_name
                 iv_runtime = `python3.9`
                 iv_role = lv_role_arn
                 iv_handler = iv_handler
                 io_code = io_initial_zip_file
                 iv_description = 'AWS Lambda code example' ).
            MESSAGE 'Lambda function created.' TYPE 'I'.
          CATCH /aws1/cx_lmdcodestorageexcdex.
            MESSAGE 'Maximum total code size per account exceeded.' TYPE 'E'.
          CATCH /aws1/cx_lmdinvparamvalueex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_lmdresourcenotfoundex.
            MESSAGE 'The requested resource does not exist.' TYPE 'E'.
        ENDTRY.

        " Verify the function is in Active state "
        WHILE lo_lmd->getfunction( iv_functionname = iv_function_name )->get_configuration( )->ask_state( ) <> 'Active'.
          IF sy-index = 10.
            EXIT.               " Maximum 10 seconds. "
          ENDIF.
          WAIT UP TO 1 SECONDS.
        ENDWHILE.

        "Invoke the function with a single parameter and get results."
        TRY.
            DATA(lv_json) = /aws1/cl_rt_util=>string_to_xstring(
              `{`  &&
                `"action": "increment",`  &&
                `"number": 10` &&
              `}` ).
            DATA(lo_initial_invoke_output) = lo_lmd->invoke(
                       iv_functionname = iv_function_name
                       iv_payload = lv_json ).
            ov_initial_invoke_payload = lo_initial_invoke_output->get_payload( ).           " ov_initial_invoke_payload is returned for testing purposes. "
            DATA(lo_writer_json) = cl_sxml_string_writer=>create( type = if_sxml=>co_xt_json ).
            CALL TRANSFORMATION id SOURCE XML ov_initial_invoke_payload RESULT XML lo_writer_json.
            DATA(lv_result) = cl_abap_codepage=>convert_from( lo_writer_json->get_output( ) ).
            MESSAGE 'Lambda function invoked.' TYPE 'I'.
          CATCH /aws1/cx_lmdinvparamvalueex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_lmdinvrequestcontex.
            MESSAGE 'Unable to parse request body as JSON.' TYPE 'E'.
          CATCH /aws1/cx_lmdresourcenotfoundex.
            MESSAGE 'The requested resource does not exist.' TYPE 'E'.
          CATCH /aws1/cx_lmdunsuppedmediatyp00.
            MESSAGE 'Invoke request body does not have JSON as its content type.' TYPE 'E'.
        ENDTRY.

        " Update the function code and configure its Lambda environment with an environment variable. "
        " Lambda function is updated to perform 'decrement' action also. "
        TRY.
            lo_lmd->updatefunctioncode(
                  iv_functionname = iv_function_name
                  iv_zipfile = io_updated_zip_file ).
            WAIT UP TO 10 SECONDS.            " Make sure that the update is completed. "
            MESSAGE 'Lambda function code updated.' TYPE 'I'.
          CATCH /aws1/cx_lmdcodestorageexcdex.
            MESSAGE 'Maximum total code size per account exceeded.' TYPE 'E'.
          CATCH /aws1/cx_lmdinvparamvalueex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_lmdresourcenotfoundex.
            MESSAGE 'The requested resource does not exist.' TYPE 'E'.
        ENDTRY.

        TRY.
            DATA lt_variables TYPE /aws1/cl_lmdenvironmentvaria00=>tt_environmentvariables.
            DATA ls_variable LIKE LINE OF lt_variables.
            ls_variable-key = 'LOG_LEVEL'.
            ls_variable-value = NEW /aws1/cl_lmdenvironmentvaria00( iv_value = 'info' ).
            INSERT ls_variable INTO TABLE lt_variables.

            lo_lmd->updatefunctionconfiguration(
                  iv_functionname = iv_function_name
                  io_environment = NEW /aws1/cl_lmdenvironment( it_variables = lt_variables ) ).
            WAIT UP TO 10 SECONDS.            " Make sure that the update is completed. "
            MESSAGE 'Lambda function configuration/settings updated.' TYPE 'I'.
          CATCH /aws1/cx_lmdinvparamvalueex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_lmdresourceconflictex.
            MESSAGE 'Resource already exists or another operation is in progress.' TYPE 'E'.
          CATCH /aws1/cx_lmdresourcenotfoundex.
            MESSAGE 'The requested resource does not exist.' TYPE 'E'.
        ENDTRY.

        "Invoke the function with new parameters and get results. Display the execution log that's returned from the invocation."
        TRY.
            lv_json = /aws1/cl_rt_util=>string_to_xstring(
              `{`  &&
                `"action": "decrement",`  &&
                `"number": 10` &&
              `}` ).
            DATA(lo_updated_invoke_output) = lo_lmd->invoke(
                       iv_functionname = iv_function_name
                       iv_payload = lv_json ).
            ov_updated_invoke_payload = lo_updated_invoke_output->get_payload( ).           " ov_updated_invoke_payload is returned for testing purposes. "
            lo_writer_json = cl_sxml_string_writer=>create( type = if_sxml=>co_xt_json ).
            CALL TRANSFORMATION id SOURCE XML ov_updated_invoke_payload RESULT XML lo_writer_json.
            lv_result = cl_abap_codepage=>convert_from( lo_writer_json->get_output( ) ).
            MESSAGE 'Lambda function invoked.' TYPE 'I'.
          CATCH /aws1/cx_lmdinvparamvalueex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_lmdinvrequestcontex.
            MESSAGE 'Unable to parse request body as JSON.' TYPE 'E'.
          CATCH /aws1/cx_lmdresourcenotfoundex.
            MESSAGE 'The requested resource does not exist.' TYPE 'E'.
          CATCH /aws1/cx_lmdunsuppedmediatyp00.
            MESSAGE 'Invoke request body does not have JSON as its content type.' TYPE 'E'.
        ENDTRY.

        " List the functions for your account. "
        TRY.
            DATA(lo_list_output) = lo_lmd->listfunctions( ).
            DATA(lt_functions) = lo_list_output->get_functions( ).
            MESSAGE 'Retrieved list of Lambda functions.' TYPE 'I'.
          CATCH /aws1/cx_lmdinvparamvalueex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
        ENDTRY.

        " Delete the Lambda function. "
        TRY.
            lo_lmd->deletefunction( iv_functionname = iv_function_name ).
            MESSAGE 'Lambda function deleted.' TYPE 'I'.
          CATCH /aws1/cx_lmdinvparamvalueex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_lmdresourcenotfoundex.
            MESSAGE 'The requested resource does not exist.' TYPE 'W'.
        ENDTRY.

        " Detach role policy. "
        TRY.
            lo_iam->detachrolepolicy(
                iv_rolename  = iv_role_name
                iv_policyarn = 'arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole' ).
            MESSAGE 'Detached policy from the IAM role.' TYPE 'I'.
          CATCH /aws1/cx_iaminvalidinputex.
            MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
          CATCH /aws1/cx_iamnosuchentityex.
            MESSAGE 'The requested resource entity does not exist.' TYPE 'W'.
          CATCH /aws1/cx_iamplynotattachableex.
            MESSAGE 'Service role policies can only be attached to the service-linked role for their service.' TYPE 'E'.
          CATCH /aws1/cx_iamunmodableentityex.
            MESSAGE 'Service that depends on the service-linked role is not modifiable.' TYPE 'E'.
        ENDTRY.

        " Delete the IAM role. "
        TRY.
            lo_iam->deleterole( iv_rolename = iv_role_name ).
            MESSAGE 'IAM role deleted.' TYPE 'I'.
          CATCH /aws1/cx_iamnosuchentityex.
            MESSAGE 'The requested resource entity does not exist.' TYPE 'W'.
          CATCH /aws1/cx_iamunmodableentityex.
            MESSAGE 'Service that depends on the service-linked role is not modifiable.' TYPE 'E'.
        ENDTRY.

      CATCH /aws1/cx_rt_service_generic INTO lo_exception.
        DATA(lv_error) = lo_exception->get_longtext( ).
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [CreateFunction](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteFunction](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [GetFunction](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [Memohon](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [ListFunctions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [UpdateFunctionCode](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [UpdateFunctionConfiguration](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/lmd#code-examples). 

```
    TRY.
        lo_lmd->createfunction(
            iv_functionname = iv_function_name
            iv_runtime = `python3.9`
            iv_role = iv_role_arn
            iv_handler = iv_handler
            io_code = io_zip_file
            iv_description = 'AWS Lambda code example' ).
        MESSAGE 'Lambda function created.' TYPE 'I'.
      CATCH /aws1/cx_lmdcodesigningcfgno00.
        MESSAGE 'Code signing configuration does not exist.' TYPE 'E'.
      CATCH /aws1/cx_lmdcodestorageexcdex.
        MESSAGE 'Maximum total code size per account exceeded.' TYPE 'E'.
      CATCH /aws1/cx_lmdcodeverification00.
        MESSAGE 'Code signature failed one or more validation checks for signature mismatch or expiration.' TYPE 'E'.
      CATCH /aws1/cx_lmdinvalidcodesigex.
        MESSAGE 'Code signature failed the integrity check.' TYPE 'E'.
      CATCH /aws1/cx_lmdinvparamvalueex.
        MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourceconflictex.
        MESSAGE 'Resource already exists or another operation is in progress.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourcenotfoundex.
        MESSAGE 'The requested resource does not exist.' TYPE 'E'.
      CATCH /aws1/cx_lmdserviceexception.
        MESSAGE 'An internal problem was encountered by the AWS Lambda service.' TYPE 'E'.
      CATCH /aws1/cx_lmdtoomanyrequestsex.
        MESSAGE 'The maximum request throughput was reached.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateFunction](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/lmd#code-examples). 

```
    TRY.
        lo_lmd->deletefunction( iv_functionname = iv_function_name ).
        MESSAGE 'Lambda function deleted.' TYPE 'I'.
      CATCH /aws1/cx_lmdinvparamvalueex.
        MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourceconflictex.
        MESSAGE 'Resource already exists or another operation is in progress.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourcenotfoundex.
        MESSAGE 'The requested resource does not exist.' TYPE 'E'.
      CATCH /aws1/cx_lmdserviceexception.
        MESSAGE 'An internal problem was encountered by the AWS Lambda service.' TYPE 'E'.
      CATCH /aws1/cx_lmdtoomanyrequestsex.
        MESSAGE 'The maximum request throughput was reached.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteFunction](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetFunction`
<a name="lambda_GetFunction_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/lmd#code-examples). 

```
    TRY.
        oo_result = lo_lmd->getfunction( iv_functionname = iv_function_name ).       " oo_result is returned for testing purposes. "
        MESSAGE 'Lambda function information retrieved.' TYPE 'I'.
      CATCH /aws1/cx_lmdinvparamvalueex.
        MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
      CATCH /aws1/cx_lmdserviceexception.
        MESSAGE 'An internal problem was encountered by the AWS Lambda service.' TYPE 'E'.
      CATCH /aws1/cx_lmdtoomanyrequestsex.
        MESSAGE 'The maximum request throughput was reached.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetFunction](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `Invoke`
<a name="lambda_Invoke_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/lmd#code-examples). 

```
    TRY.
        DATA(lv_json) = /aws1/cl_rt_util=>string_to_xstring(
          `{`  &&
            `"action": "increment",`  &&
            `"number": 10` &&
          `}` ).
        oo_result = lo_lmd->invoke(                  " oo_result is returned for testing purposes. "
                 iv_functionname = iv_function_name
                 iv_payload = lv_json ).
        MESSAGE 'Lambda function invoked.' TYPE 'I'.
      CATCH /aws1/cx_lmdinvparamvalueex.
        MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
      CATCH /aws1/cx_lmdinvrequestcontex.
        MESSAGE 'Unable to parse request body as JSON.' TYPE 'E'.
      CATCH /aws1/cx_lmdinvalidzipfileex.
        MESSAGE 'The deployment package could not be unzipped.' TYPE 'E'.
      CATCH /aws1/cx_lmdrequesttoolargeex.
        MESSAGE 'Invoke request body JSON input limit was exceeded by the request payload.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourceconflictex.
        MESSAGE 'Resource already exists or another operation is in progress.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourcenotfoundex.
        MESSAGE 'The requested resource does not exist.' TYPE 'E'.
      CATCH /aws1/cx_lmdserviceexception.
        MESSAGE 'An internal problem was encountered by the AWS Lambda service.' TYPE 'E'.
      CATCH /aws1/cx_lmdtoomanyrequestsex.
        MESSAGE 'The maximum request throughput was reached.' TYPE 'E'.
      CATCH /aws1/cx_lmdunsuppedmediatyp00.
        MESSAGE 'Invoke request body does not have JSON as its content type.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Memanggil](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListFunctions`
<a name="lambda_ListFunctions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/lmd#code-examples). 

```
    TRY.
        oo_result = lo_lmd->listfunctions( ).       " oo_result is returned for testing purposes. "
        DATA(lt_functions) = oo_result->get_functions( ).
        MESSAGE 'Retrieved list of Lambda functions.' TYPE 'I'.
      CATCH /aws1/cx_lmdinvparamvalueex.
        MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
      CATCH /aws1/cx_lmdserviceexception.
        MESSAGE 'An internal problem was encountered by the AWS Lambda service.' TYPE 'E'.
      CATCH /aws1/cx_lmdtoomanyrequestsex.
        MESSAGE 'The maximum request throughput was reached.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListFunctions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/lmd#code-examples). 

```
    TRY.
        oo_result = lo_lmd->updatefunctioncode(     " oo_result is returned for testing purposes. "
              iv_functionname = iv_function_name
              iv_zipfile = io_zip_file ).

        MESSAGE 'Lambda function code updated.' TYPE 'I'.
      CATCH /aws1/cx_lmdcodesigningcfgno00.
        MESSAGE 'Code signing configuration does not exist.' TYPE 'E'.
      CATCH /aws1/cx_lmdcodestorageexcdex.
        MESSAGE 'Maximum total code size per account exceeded.' TYPE 'E'.
      CATCH /aws1/cx_lmdcodeverification00.
        MESSAGE 'Code signature failed one or more validation checks for signature mismatch or expiration.' TYPE 'E'.
      CATCH /aws1/cx_lmdinvalidcodesigex.
        MESSAGE 'Code signature failed the integrity check.' TYPE 'E'.
      CATCH /aws1/cx_lmdinvparamvalueex.
        MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourceconflictex.
        MESSAGE 'Resource already exists or another operation is in progress.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourcenotfoundex.
        MESSAGE 'The requested resource does not exist.' TYPE 'E'.
      CATCH /aws1/cx_lmdserviceexception.
        MESSAGE 'An internal problem was encountered by the AWS Lambda service.' TYPE 'E'.
      CATCH /aws1/cx_lmdtoomanyrequestsex.
        MESSAGE 'The maximum request throughput was reached.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateFunctionCode](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/lmd#code-examples). 

```
    TRY.
        oo_result = lo_lmd->updatefunctionconfiguration(     " oo_result is returned for testing purposes. "
              iv_functionname = iv_function_name
              iv_runtime = iv_runtime
              iv_description  = 'Updated Lambda function'
              iv_memorysize  = iv_memory_size ).

        MESSAGE 'Lambda function configuration/settings updated.' TYPE 'I'.
      CATCH /aws1/cx_lmdcodesigningcfgno00.
        MESSAGE 'Code signing configuration does not exist.' TYPE 'E'.
      CATCH /aws1/cx_lmdcodeverification00.
        MESSAGE 'Code signature failed one or more validation checks for signature mismatch or expiration.' TYPE 'E'.
      CATCH /aws1/cx_lmdinvalidcodesigex.
        MESSAGE 'Code signature failed the integrity check.' TYPE 'E'.
      CATCH /aws1/cx_lmdinvparamvalueex.
        MESSAGE 'The request contains a non-valid parameter.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourceconflictex.
        MESSAGE 'Resource already exists or another operation is in progress.' TYPE 'E'.
      CATCH /aws1/cx_lmdresourcenotfoundex.
        MESSAGE 'The requested resource does not exist.' TYPE 'E'.
      CATCH /aws1/cx_lmdserviceexception.
        MESSAGE 'An internal problem was encountered by the AWS Lambda service.' TYPE 'E'.
      CATCH /aws1/cx_lmdtoomanyrequestsex.
        MESSAGE 'The maximum request throughput was reached.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateFunctionConfiguration](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Organizations menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_organizations_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP with Organizations.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AttachPolicy`
<a name="organizations_AttachPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/org#code-examples). 

```
    TRY.
        lo_org->attachpolicy(
          iv_policyid = iv_policy_id
          iv_targetid = iv_target_id ).
        MESSAGE 'Policy attached to target.' TYPE 'I'.
      CATCH /aws1/cx_orgaccessdeniedex.
        MESSAGE 'You do not have permission to attach the policy.' TYPE 'E'.
      CATCH /aws1/cx_orgpolicynotfoundex.
        MESSAGE 'The specified policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_orgtargetnotfoundex.
        MESSAGE 'The specified target does not exist.' TYPE 'E'.
      CATCH /aws1/cx_orgduplicateplyatta00.
        MESSAGE 'The policy is already attached to the target.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AttachPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreatePolicy`
<a name="organizations_CreatePolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/org#code-examples). 

```
    TRY.
        oo_result = lo_org->createpolicy(       " oo_result is returned for testing purposes. "
          iv_name        = iv_policy_name
          iv_description = iv_policy_description
          iv_content     = iv_policy_content
          iv_type        = iv_policy_type ).
        MESSAGE 'Policy created.' TYPE 'I'.
      CATCH /aws1/cx_orgaccessdeniedex.
        MESSAGE 'You do not have permission to create a policy.' TYPE 'E'.
      CATCH /aws1/cx_orgduplicatepolicyex.
        MESSAGE 'A policy with this name already exists.' TYPE 'E'.
      CATCH /aws1/cx_orgmalformedplydocex.
        MESSAGE 'The policy content is malformed.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreatePolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeletePolicy`
<a name="organizations_DeletePolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/org#code-examples). 

```
    TRY.
        lo_org->deletepolicy(
          iv_policyid = iv_policy_id ).
        MESSAGE 'Policy deleted.' TYPE 'I'.
      CATCH /aws1/cx_orgaccessdeniedex.
        MESSAGE 'You do not have permission to delete the policy.' TYPE 'E'.
      CATCH /aws1/cx_orgpolicynotfoundex.
        MESSAGE 'The specified policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_orgpolicyinuseex.
        MESSAGE 'The policy is still attached to one or more targets.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeletePolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribePolicy`
<a name="organizations_DescribePolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribePolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/org#code-examples). 

```
    TRY.
        oo_result = lo_org->describepolicy(     " oo_result is returned for testing purposes. "
          iv_policyid = iv_policy_id ).
        DATA(lo_policy) = oo_result->get_policy( ).
        MESSAGE 'Retrieved policy details.' TYPE 'I'.
      CATCH /aws1/cx_orgaccessdeniedex.
        MESSAGE 'You do not have permission to describe the policy.' TYPE 'E'.
      CATCH /aws1/cx_orgpolicynotfoundex.
        MESSAGE 'The specified policy does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribePolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetachPolicy`
<a name="organizations_DetachPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/org#code-examples). 

```
    TRY.
        lo_org->detachpolicy(
          iv_policyid = iv_policy_id
          iv_targetid = iv_target_id ).
        MESSAGE 'Policy detached from target.' TYPE 'I'.
      CATCH /aws1/cx_orgaccessdeniedex.
        MESSAGE 'You do not have permission to detach the policy.' TYPE 'E'.
      CATCH /aws1/cx_orgpolicynotfoundex.
        MESSAGE 'The specified policy does not exist.' TYPE 'E'.
      CATCH /aws1/cx_orgtargetnotfoundex.
        MESSAGE 'The specified target does not exist.' TYPE 'E'.
      CATCH /aws1/cx_orgpolicynotattex.
        MESSAGE 'The policy is not attached to the target.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetachPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListPolicies`
<a name="organizations_ListPolicies_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/org#code-examples). 

```
    TRY.
        oo_result = lo_org->listpolicies(       " oo_result is returned for testing purposes. "
          iv_filter = iv_filter ).
        DATA(lt_policies) = oo_result->get_policies( ).
        MESSAGE 'Retrieved list of policies.' TYPE 'I'.
      CATCH /aws1/cx_orgaccessdeniedex.
        MESSAGE 'You do not have permission to list policies.' TYPE 'E'.
      CATCH /aws1/cx_orgawsorgsnotinuseex.
        MESSAGE 'Your account is not a member of an organization.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListPolicies](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Amazon Pinpoint contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_pinpoint_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Pinpoint.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `SendMessages`
<a name="pinpoint_SendMessages_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessages`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ppt#code-examples). 
Kirim pesan email.  

```
    " Build the addresses map from the list of to_addresses
    DATA lt_addresses TYPE /aws1/cl_pptaddressconf=>tt_mapofaddressconfiguration.
    LOOP AT it_to_addresses INTO DATA(lo_address).
      INSERT VALUE /aws1/cl_pptaddressconf=>ts_mapofaddressconf_maprow(
        key = lo_address->get_value( )
        value = NEW /aws1/cl_pptaddressconf( iv_channeltype = 'EMAIL' )
      ) INTO TABLE lt_addresses.
    ENDLOOP.

    " Send the email message
    DATA(lo_result) = lo_ppt->sendmessages(
      iv_applicationid = iv_app_id
      io_messagerequest = NEW /aws1/cl_pptmessagerequest(
        it_addresses = lt_addresses
        io_messageconfiguration = NEW /aws1/cl_pptdirectmessageconf(
          io_emailmessage = NEW /aws1/cl_pptemailmessage(
            iv_fromaddress = iv_sender
            io_simpleemail = NEW /aws1/cl_pptsimpleemail(
              io_subject = NEW /aws1/cl_pptsimpleemailpart(
                iv_charset = iv_char_set
                iv_data = iv_subject
              )
              io_htmlpart = NEW /aws1/cl_pptsimpleemailpart(
                iv_charset = iv_char_set
                iv_data = iv_html_message
              )
              io_textpart = NEW /aws1/cl_pptsimpleemailpart(
                iv_charset = iv_char_set
                iv_data = iv_text_message
              )
            )
          )
        )
      )
    ).

    " Extract message IDs from response
    DATA(lo_message_response) = lo_result->get_messageresponse( ).
    ot_message_ids = lo_message_response->get_result( ).

    MESSAGE 'Email message sent successfully.' TYPE 'I'.
```
Kirim pesan SMS.  

```
    " Build the addresses map for the destination number
    DATA lt_addresses TYPE /aws1/cl_pptaddressconf=>tt_mapofaddressconfiguration.
    INSERT VALUE /aws1/cl_pptaddressconf=>ts_mapofaddressconf_maprow(
      key = iv_destination_number
      value = NEW /aws1/cl_pptaddressconf( iv_channeltype = 'SMS' )
    ) INTO TABLE lt_addresses.

    " Send the SMS message
    DATA(lo_result) = lo_ppt->sendmessages(
      iv_applicationid = iv_app_id
      io_messagerequest = NEW /aws1/cl_pptmessagerequest(
        it_addresses = lt_addresses
        io_messageconfiguration = NEW /aws1/cl_pptdirectmessageconf(
          io_smsmessage = NEW /aws1/cl_pptsmsmessage(
            iv_body = iv_message
            iv_messagetype = iv_message_type
            iv_originationnumber = iv_origination_number
          )
        )
      )
    ).

    " Extract message ID from response
    DATA(lo_message_response) = lo_result->get_messageresponse( ).
    DATA(lt_results) = lo_message_response->get_result( ).
    LOOP AT lt_results INTO DATA(ls_result).
      IF ls_result-key = iv_destination_number.
        ov_message_id = ls_result-value->get_messageid( ).
        EXIT.
      ENDIF.
    ENDLOOP.

    MESSAGE 'SMS message sent successfully.' TYPE 'I'.
```
Kirim pesan email dengan template email yang ada.  

```
    " Build the addresses map from the list of to_addresses
    DATA lt_addresses TYPE /aws1/cl_pptaddressconf=>tt_mapofaddressconfiguration.
    LOOP AT it_to_addresses INTO DATA(lo_address).
      INSERT VALUE /aws1/cl_pptaddressconf=>ts_mapofaddressconf_maprow(
        key = lo_address->get_value( )
        value = NEW /aws1/cl_pptaddressconf( iv_channeltype = 'EMAIL' )
      ) INTO TABLE lt_addresses.
    ENDLOOP.

    " Send the email message using a template
    DATA(lo_result) = lo_ppt->sendmessages(
      iv_applicationid = iv_app_id
      io_messagerequest = NEW /aws1/cl_pptmessagerequest(
        it_addresses = lt_addresses
        io_messageconfiguration = NEW /aws1/cl_pptdirectmessageconf(
          io_emailmessage = NEW /aws1/cl_pptemailmessage(
            iv_fromaddress = iv_sender
          )
        )
        io_templateconfiguration = NEW /aws1/cl_ppttemplateconf(
          io_emailtemplate = NEW /aws1/cl_ppttemplate(
            iv_name = iv_template_name
            iv_version = iv_template_version
          )
        )
      )
    ).

    " Extract message IDs from response
    DATA(lo_message_response) = lo_result->get_messageresponse( ).
    ot_message_ids = lo_message_response->get_result( ).

    MESSAGE 'Templated email message sent successfully.' TYPE 'I'.
```
Kirim pesan teks dengan template SMS yang ada.  

```
    " Build the addresses map for the destination number
    DATA lt_addresses TYPE /aws1/cl_pptaddressconf=>tt_mapofaddressconfiguration.
    INSERT VALUE /aws1/cl_pptaddressconf=>ts_mapofaddressconf_maprow(
      key = iv_destination_number
      value = NEW /aws1/cl_pptaddressconf( iv_channeltype = 'SMS' )
    ) INTO TABLE lt_addresses.

    " Send the SMS message using a template
    DATA(lo_result) = lo_ppt->sendmessages(
      iv_applicationid = iv_app_id
      io_messagerequest = NEW /aws1/cl_pptmessagerequest(
        it_addresses = lt_addresses
        io_messageconfiguration = NEW /aws1/cl_pptdirectmessageconf(
          io_smsmessage = NEW /aws1/cl_pptsmsmessage(
            iv_messagetype = iv_message_type
            iv_originationnumber = iv_origination_number
          )
        )
        io_templateconfiguration = NEW /aws1/cl_ppttemplateconf(
          io_smstemplate = NEW /aws1/cl_ppttemplate(
            iv_name = iv_template_name
            iv_version = iv_template_version
          )
        )
      )
    ).

    " Extract message ID from response
    DATA(lo_message_response) = lo_result->get_messageresponse( ).
    DATA(lt_results) = lo_message_response->get_result( ).
    LOOP AT lt_results INTO DATA(ls_result).
      IF ls_result-key = iv_destination_number.
        ov_message_id = ls_result-value->get_messageid( ).
        EXIT.
      ENDIF.
    ENDLOOP.

    MESSAGE 'Templated SMS message sent successfully.' TYPE 'I'.
```
+  Untuk detail API, lihat [SendMessages](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Amazon Pinpoint SMS dan Voice API contoh menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_pinpoint-sms-voice_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Pinpoint SMS dan Voice API.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateConfigurationSet`
<a name="pinpoint-sms-voice_CreateConfigurationSet_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateConfigurationSet`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/pps#code-examples). 

```
    TRY.
        " Create a new configuration set
        lo_pps->createconfigurationset(
          iv_configurationsetname = iv_configuration_set_name    " e.g., 'my-config-set'
        ).

        MESSAGE 'Configuration set created successfully.' TYPE 'I'.

      CATCH /aws1/cx_ppsalreadyexistsex INTO DATA(lo_already_exists_ex).
        MESSAGE lo_already_exists_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_already_exists_ex.
      CATCH /aws1/cx_ppsbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_ppsinternalsvcerrorex INTO DATA(lo_internal_error_ex).
        MESSAGE lo_internal_error_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_internal_error_ex.
      CATCH /aws1/cx_ppslimitexceededex INTO DATA(lo_limit_exceeded_ex).
        MESSAGE lo_limit_exceeded_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_limit_exceeded_ex.
      CATCH /aws1/cx_ppstoomanyrequestsex INTO DATA(lo_too_many_requests_ex).
        MESSAGE lo_too_many_requests_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many_requests_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateConfigurationSet](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateConfigurationSetEventDestination`
<a name="pinpoint-sms-voice_CreateConfigurationSetEventDestination_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateConfigurationSetEventDestination`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/pps#code-examples). 

```
    TRY.
        " Create event destination for the configuration set
        lo_pps->createconfseteventdst(
          iv_configurationsetname = iv_configuration_set_name    " e.g., 'my-config-set'
          iv_eventdestinationname = iv_event_destination_name    " e.g., 'my-event-dest'
          io_eventdestination = io_event_destination
        ).

        MESSAGE 'Event destination created successfully.' TYPE 'I'.

      CATCH /aws1/cx_ppsalreadyexistsex INTO DATA(lo_already_exists_ex).
        MESSAGE lo_already_exists_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_already_exists_ex.
      CATCH /aws1/cx_ppsnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found_ex.
      CATCH /aws1/cx_ppsbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_ppsinternalsvcerrorex INTO DATA(lo_internal_error_ex).
        MESSAGE lo_internal_error_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_internal_error_ex.
      CATCH /aws1/cx_ppslimitexceededex INTO DATA(lo_limit_exceeded_ex).
        MESSAGE lo_limit_exceeded_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_limit_exceeded_ex.
      CATCH /aws1/cx_ppstoomanyrequestsex INTO DATA(lo_too_many_requests_ex).
        MESSAGE lo_too_many_requests_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many_requests_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateConfigurationSetEventDestination](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteConfigurationSet`
<a name="pinpoint-sms-voice_DeleteConfigurationSet_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteConfigurationSet`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/pps#code-examples). 

```
    TRY.
        " Delete the configuration set
        lo_pps->deleteconfigurationset(
          iv_configurationsetname = iv_configuration_set_name    " e.g., 'my-config-set'
        ).

        MESSAGE 'Configuration set deleted successfully.' TYPE 'I'.

      CATCH /aws1/cx_ppsnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found_ex.
      CATCH /aws1/cx_ppsbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_ppsinternalsvcerrorex INTO DATA(lo_internal_error_ex).
        MESSAGE lo_internal_error_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_internal_error_ex.
      CATCH /aws1/cx_ppstoomanyrequestsex INTO DATA(lo_too_many_requests_ex).
        MESSAGE lo_too_many_requests_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many_requests_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteConfigurationSet](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteConfigurationSetEventDestination`
<a name="pinpoint-sms-voice_DeleteConfigurationSetEventDestination_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteConfigurationSetEventDestination`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/pps#code-examples). 

```
    TRY.
        " Delete the event destination
        lo_pps->deleteconfseteventdst(
          iv_configurationsetname = iv_configuration_set_name    " e.g., 'my-config-set'
          iv_eventdestinationname = iv_event_destination_name    " e.g., 'my-event-dest'
        ).

        MESSAGE 'Event destination deleted successfully.' TYPE 'I'.

      CATCH /aws1/cx_ppsnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found_ex.
      CATCH /aws1/cx_ppsbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_ppsinternalsvcerrorex INTO DATA(lo_internal_error_ex).
        MESSAGE lo_internal_error_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_internal_error_ex.
      CATCH /aws1/cx_ppstoomanyrequestsex INTO DATA(lo_too_many_requests_ex).
        MESSAGE lo_too_many_requests_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many_requests_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteConfigurationSetEventDestination](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetConfigurationSetEventDestinations`
<a name="pinpoint-sms-voice_GetConfigurationSetEventDestinations_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetConfigurationSetEventDestinations`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/pps#code-examples). 

```
    TRY.
        " Get event destinations for the configuration set
        oo_result = lo_pps->getconfseteventdestinations(
          iv_configurationsetname = iv_configuration_set_name    " e.g., 'my-config-set'
        ).

        " Process the event destinations
        LOOP AT oo_result->get_eventdestinations( ) INTO DATA(lo_event_dest).
          DATA(lv_dest_name) = lo_event_dest->get_name( ).
          DATA(lv_enabled) = lo_event_dest->get_enabled( ).

          MESSAGE |Event destination: { lv_dest_name }, Enabled: { lv_enabled }| TYPE 'I'.

          " Check for CloudWatch Logs destination
          DATA(lo_cloudwatch_dest) = lo_event_dest->get_cloudwatchlogsdst( ).
          IF lo_cloudwatch_dest IS NOT INITIAL.
            DATA(lv_log_group_arn) = lo_cloudwatch_dest->get_loggrouparn( ).
            MESSAGE |  CloudWatch Logs destination: { lv_log_group_arn }| TYPE 'I'.
          ENDIF.

          " Check for Kinesis Firehose destination
          DATA(lo_firehose_dest) = lo_event_dest->get_kinesisfirehosedst( ).
          IF lo_firehose_dest IS NOT INITIAL.
            DATA(lv_delivery_stream) = lo_firehose_dest->get_deliverystreamarn( ).
            MESSAGE |  Kinesis Firehose destination: { lv_delivery_stream }| TYPE 'I'.
          ENDIF.

          " Check for SNS destination
          DATA(lo_sns_dest) = lo_event_dest->get_snsdestination( ).
          IF lo_sns_dest IS NOT INITIAL.
            DATA(lv_topic_arn) = lo_sns_dest->get_topicarn( ).
            MESSAGE |  SNS destination: { lv_topic_arn }| TYPE 'I'.
          ENDIF.
        ENDLOOP.

      CATCH /aws1/cx_ppsnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found_ex.
      CATCH /aws1/cx_ppsbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_ppsinternalsvcerrorex INTO DATA(lo_internal_error_ex).
        MESSAGE lo_internal_error_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_internal_error_ex.
      CATCH /aws1/cx_ppstoomanyrequestsex INTO DATA(lo_too_many_requests_ex).
        MESSAGE lo_too_many_requests_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many_requests_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [GetConfigurationSetEventDestinations](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListConfigurationSets`
<a name="pinpoint-sms-voice_ListConfigurationSets_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListConfigurationSets`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/pps#code-examples). 

```
    TRY.
        " List all configuration sets
        oo_result = lo_pps->listconfigurationsets(
          iv_nexttoken = iv_next_token    " Optional: Token for pagination
          iv_pagesize = iv_page_size      " Optional: Number of results per page, e.g., '10'
        ).

        " Process the configuration sets
        LOOP AT oo_result->get_configurationsets( ) INTO DATA(lo_config_set).
          DATA(lv_config_set_name) = lo_config_set->get_value( ).
          MESSAGE |Configuration set: { lv_config_set_name }| TYPE 'I'.
        ENDLOOP.

        " Check if there are more results
        DATA(lv_next_token) = oo_result->get_nexttoken( ).
        IF lv_next_token IS NOT INITIAL.
          MESSAGE |More results available. Next token: { lv_next_token }| TYPE 'I'.
        ENDIF.

      CATCH /aws1/cx_ppsbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_ppsinternalsvcerrorex INTO DATA(lo_internal_error_ex).
        MESSAGE lo_internal_error_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_internal_error_ex.
      CATCH /aws1/cx_ppstoomanyrequestsex INTO DATA(lo_too_many_requests_ex).
        MESSAGE lo_too_many_requests_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many_requests_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [ListConfigurationSets](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SendVoiceMessage`
<a name="pinpoint-sms-voice_SendVoiceMessage_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendVoiceMessage`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/pps#code-examples). 

```
    TRY.
        " Create SSML message type object with voice parameters
        DATA(lo_ssml_message) = NEW /aws1/cl_ppsssmlmessagetype(
          iv_languagecode = iv_language_code    " e.g., 'en-US'
          iv_voiceid = iv_voice_id              " e.g., 'Matthew'
          iv_text = iv_ssml_message             " SSML formatted message text
        ).

        " Create voice message content with the SSML message
        DATA(lo_content) = NEW /aws1/cl_ppsvoicemessagecont(
          io_ssmlmessage = lo_ssml_message
        ).

        " Send the voice message
        DATA(lo_result) = lo_pps->sendvoicemessage(
          iv_originationphonenumber = iv_origination_number  " e.g., '+12065550110'
          iv_callerid = iv_caller_id                         " e.g., '+12065550199'
          iv_destinationphonenumber = iv_destination_number  " e.g., '+12065550142'
          io_content = lo_content
        ).

        " Retrieve the message ID from the response
        ov_message_id = lo_result->get_messageid( ).

        MESSAGE 'Voice message sent successfully.' TYPE 'I'.

      CATCH /aws1/cx_ppsbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_ppsinternalsvcerrorex INTO DATA(lo_internal_error_ex).
        MESSAGE lo_internal_error_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_internal_error_ex.
      CATCH /aws1/cx_ppstoomanyrequestsex INTO DATA(lo_too_many_requests_ex).
        MESSAGE lo_too_many_requests_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many_requests_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [SendVoiceMessage](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateConfigurationSetEventDestination`
<a name="pinpoint-sms-voice_UpdateConfigurationSetEventDestination_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateConfigurationSetEventDestination`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/pps#code-examples). 

```
    TRY.
        " Update the event destination
        lo_pps->updateconfseteventdst(
          iv_configurationsetname = iv_configuration_set_name    " e.g., 'my-config-set'
          iv_eventdestinationname = iv_event_destination_name    " e.g., 'my-event-dest'
          io_eventdestination = io_event_destination
        ).

        MESSAGE 'Event destination updated successfully.' TYPE 'I'.

      CATCH /aws1/cx_ppsnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_not_found_ex.
      CATCH /aws1/cx_ppsbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_ppsinternalsvcerrorex INTO DATA(lo_internal_error_ex).
        MESSAGE lo_internal_error_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_internal_error_ex.
      CATCH /aws1/cx_ppstoomanyrequestsex INTO DATA(lo_too_many_requests_ex).
        MESSAGE lo_too_many_requests_ex->get_text( ) TYPE 'I'.
        RAISE EXCEPTION lo_too_many_requests_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateConfigurationSetEventDestination](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon Polly menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_polly_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Polly.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `DeleteLexicon`
<a name="polly_DeleteLexicon_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteLexicon`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        lo_ply->deletelexicon( iv_name ).
        MESSAGE 'Lexicon deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_plylexiconnotfoundex.
        MESSAGE 'Lexicon not found.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteLexicon](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeVoices`
<a name="polly_DescribeVoices_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeVoices`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        " Only pass optional parameters if they have values
        IF iv_engine IS NOT INITIAL AND iv_language IS NOT INITIAL.
          oo_result = lo_ply->describevoices(
            iv_engine = iv_engine
            iv_languagecode = iv_language ).
        ELSEIF iv_engine IS NOT INITIAL.
          oo_result = lo_ply->describevoices(
            iv_engine = iv_engine ).
        ELSEIF iv_language IS NOT INITIAL.
          oo_result = lo_ply->describevoices(
            iv_languagecode = iv_language ).
        ELSE.
          oo_result = lo_ply->describevoices( ).
        ENDIF.
        MESSAGE 'Retrieved voice metadata.' TYPE 'I'.
      CATCH /aws1/cx_plyinvalidnexttokenex.
        MESSAGE 'The NextToken is invalid.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeVoices](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetLexicon`
<a name="polly_GetLexicon_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetLexicon`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        oo_result = lo_ply->getlexicon( iv_name ).
        DATA(lo_lexicon) = oo_result->get_lexicon( ).
        IF lo_lexicon IS BOUND.
          DATA(lv_lex_name) = lo_lexicon->get_name( ).
          MESSAGE |Retrieved lexicon: { lv_lex_name }| TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_plylexiconnotfoundex.
        MESSAGE 'Lexicon not found.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetLexicon](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetSpeechSynthesisTask`
<a name="polly_GetSpeechSynthesisTask_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSpeechSynthesisTask`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        oo_result = lo_ply->getspeechsynthesistask( iv_task_id ).
        DATA(lo_task) = oo_result->get_synthesistask( ).
        IF lo_task IS BOUND.
          DATA(lv_status) = lo_task->get_taskstatus( ).
          MESSAGE |Task status: { lv_status }| TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_plyinvalidtaskidex.
        MESSAGE 'Invalid task ID.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
      CATCH /aws1/cx_plysynthesistsknotf00.
        MESSAGE 'Synthesis task not found.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetSpeechSynthesisTask](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListLexicons`
<a name="polly_ListLexicons_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListLexicons`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        oo_result = lo_ply->listlexicons( ).
        DATA(lt_lexicons) = oo_result->get_lexicons( ).
        DATA(lv_count) = lines( lt_lexicons ).
        MESSAGE |Found { lv_count } lexicons| TYPE 'I'.
      CATCH /aws1/cx_plyinvalidnexttokenex.
        MESSAGE 'Invalid NextToken.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListLexicons](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListSpeechSynthesisTasks`
<a name="polly_ListSpeechSynthesisTasks_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSpeechSynthesisTasks`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        " Only pass optional parameters if they have values
        IF iv_max_results IS NOT INITIAL AND iv_status IS NOT INITIAL.
          oo_result = lo_ply->listspeechsynthesistasks(
            iv_maxresults = iv_max_results
            iv_status = iv_status ).
        ELSEIF iv_max_results IS NOT INITIAL.
          oo_result = lo_ply->listspeechsynthesistasks(
            iv_maxresults = iv_max_results ).
        ELSEIF iv_status IS NOT INITIAL.
          oo_result = lo_ply->listspeechsynthesistasks(
            iv_status = iv_status ).
        ELSE.
          oo_result = lo_ply->listspeechsynthesistasks( ).
        ENDIF.
        DATA(lt_tasks) = oo_result->get_synthesistasks( ).
        DATA(lv_count) = lines( lt_tasks ).
        MESSAGE |Found { lv_count } synthesis tasks| TYPE 'I'.
      CATCH /aws1/cx_plyinvalidnexttokenex.
        MESSAGE 'Invalid NextToken.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListSpeechSynthesisTasks](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutLexicon`
<a name="polly_PutLexicon_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutLexicon`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        lo_ply->putlexicon(
          iv_name = iv_name
          iv_content = iv_content ).
        MESSAGE 'Lexicon created successfully.' TYPE 'I'.
      CATCH /aws1/cx_plyinvalidlexiconex.
        MESSAGE 'Invalid lexicon.' TYPE 'E'.
      CATCH /aws1/cx_plylexiconsizeexcdex.
        MESSAGE 'Lexicon size exceeded.' TYPE 'E'.
      CATCH /aws1/cx_plymaxlexemelengthe00.
        MESSAGE 'Maximum lexeme length exceeded.' TYPE 'E'.
      CATCH /aws1/cx_plymaxlexiconsnoexc00.
        MESSAGE 'Maximum number of lexicons exceeded.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
      CATCH /aws1/cx_plyunsuppedplsalpha00.
        MESSAGE 'Unsupported PLS alphabet.' TYPE 'E'.
      CATCH /aws1/cx_plyunsuppedplslangu00.
        MESSAGE 'Unsupported PLS language.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutLexicon](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartSpeechSynthesisTask`
<a name="polly_StartSpeechSynthesisTask_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartSpeechSynthesisTask`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        " Only pass optional parameters if they have values
        IF iv_lang_code IS NOT INITIAL AND iv_s3_key_prefix IS NOT INITIAL.
          oo_result = lo_ply->startspeechsynthesistask(
            iv_engine = iv_engine
            iv_outputformat = iv_audio_format
            iv_outputs3bucketname = iv_s3_bucket
            iv_outputs3keyprefix = iv_s3_key_prefix
            iv_text = iv_text
            iv_voiceid = iv_voice_id
            iv_languagecode = iv_lang_code ).
        ELSEIF iv_lang_code IS NOT INITIAL.
          oo_result = lo_ply->startspeechsynthesistask(
            iv_engine = iv_engine
            iv_outputformat = iv_audio_format
            iv_outputs3bucketname = iv_s3_bucket
            iv_text = iv_text
            iv_voiceid = iv_voice_id
            iv_languagecode = iv_lang_code ).
        ELSEIF iv_s3_key_prefix IS NOT INITIAL.
          oo_result = lo_ply->startspeechsynthesistask(
            iv_engine = iv_engine
            iv_outputformat = iv_audio_format
            iv_outputs3bucketname = iv_s3_bucket
            iv_outputs3keyprefix = iv_s3_key_prefix
            iv_text = iv_text
            iv_voiceid = iv_voice_id ).
        ELSE.
          oo_result = lo_ply->startspeechsynthesistask(
            iv_engine = iv_engine
            iv_outputformat = iv_audio_format
            iv_outputs3bucketname = iv_s3_bucket
            iv_text = iv_text
            iv_voiceid = iv_voice_id ).
        ENDIF.
        MESSAGE 'Speech synthesis task started.' TYPE 'I'.
      CATCH /aws1/cx_plyinvalids3bucketex.
        MESSAGE 'Invalid S3 bucket.' TYPE 'E'.
      CATCH /aws1/cx_plyinvalidssmlex.
        MESSAGE 'Invalid SSML.' TYPE 'E'.
      CATCH /aws1/cx_plylexiconnotfoundex.
        MESSAGE 'Lexicon not found.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
      CATCH /aws1/cx_plytextlengthexcdex.
        MESSAGE 'Text length exceeded maximum.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartSpeechSynthesisTask](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SynthesizeSpeech`
<a name="polly_SynthesizeSpeech_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SynthesizeSpeech`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ply#code-examples). 

```
    TRY.
        " Only pass optional language code if it has a value
        IF iv_lang_code IS NOT INITIAL.
          oo_result = lo_ply->synthesizespeech(
            iv_engine = iv_engine
            iv_outputformat = iv_output_fmt
            iv_text = iv_text
            iv_voiceid = iv_voice_id
            iv_languagecode = iv_lang_code ).
        ELSE.
          oo_result = lo_ply->synthesizespeech(
            iv_engine = iv_engine
            iv_outputformat = iv_output_fmt
            iv_text = iv_text
            iv_voiceid = iv_voice_id ).
        ENDIF.
        MESSAGE 'Speech synthesized successfully.' TYPE 'I'.
      CATCH /aws1/cx_plyinvalidssmlex.
        MESSAGE 'Invalid SSML.' TYPE 'E'.
      CATCH /aws1/cx_plylexiconnotfoundex.
        MESSAGE 'Lexicon not found.' TYPE 'E'.
      CATCH /aws1/cx_plyservicefailureex.
        MESSAGE 'Service failure occurred.' TYPE 'E'.
      CATCH /aws1/cx_plytextlengthexcdex.
        MESSAGE 'Text length exceeded maximum.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SynthesizeSpeech](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon RDS menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon RDS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateDBParameterGroup`
<a name="rds_CreateDBParameterGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBParameterGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_dbparametergroupname   = 'mydbparametergroup'
    " iv_dbparametergroupfamily = 'mysql8.0'
    " iv_description            = 'My custom DB parameter group for MySQL 8.0'
    TRY.
        oo_result = lo_rds->createdbparametergroup(
          iv_dbparametergroupname   = iv_dbparametergroupname
          iv_dbparametergroupfamily = iv_dbparametergroupfamily
          iv_description            = iv_description ).
        MESSAGE 'DB parameter group created.' TYPE 'I'.
      CATCH /aws1/cx_rdsdbparmgralrexfault.
        MESSAGE 'DB parameter group already exists.' TYPE 'I'.
      CATCH /aws1/cx_rdsdbprmgrquotaexcd00.
        MESSAGE 'DB parameter group quota exceeded.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Membuat DBParameter Grup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteDBParameterGroup`
<a name="rds_DeleteDBParameterGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBParameterGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_dbparametergroupname = 'mydbparametergroup'
    TRY.
        lo_rds->deletedbparametergroup(
          iv_dbparametergroupname = iv_dbparametergroupname ).
        MESSAGE 'DB parameter group deleted.' TYPE 'I'.
      CATCH /aws1/cx_rdsdbprmgrnotfndfault.
        MESSAGE 'DB parameter group not found.' TYPE 'I'.
      CATCH /aws1/cx_rdsinvdbprmgrstatef00.
        MESSAGE 'DB parameter group is in an invalid state.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Menghapus DBParameter Grup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeDBEngineVersions`
<a name="rds_DescribeDBEngineVersions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_engine                 = 'mysql'
    " iv_dbparametergroupfamily = 'mysql8.0' (optional - filters by parameter group family)
    TRY.
        oo_result = lo_rds->describedbengineversions(
          iv_engine                 = iv_engine
          iv_dbparametergroupfamily = iv_dbparametergroupfamily ).
        DATA(lv_version_count) = lines( oo_result->get_dbengineversions( ) ).
        MESSAGE |Retrieved { lv_version_count } engine versions.| TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeDBParameterGroups`
<a name="rds_DescribeDBParameterGroups_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameterGroups`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_dbparametergroupname = 'mydbparametergroup'
    TRY.
        oo_result = lo_rds->describedbparametergroups(
          iv_dbparametergroupname = iv_dbparametergroupname ).
        MESSAGE 'DB parameter group retrieved.' TYPE 'I'.
      CATCH /aws1/cx_rdsdbprmgrnotfndfault.
        MESSAGE 'DB parameter group not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

### `DescribeDBParameters`
<a name="rds_DescribeDBParameters_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameters`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_dbparametergroupname = 'mydbparametergroup'
    " iv_source               = 'user' (optional - filters by parameter source)
    TRY.
        oo_result = lo_rds->describedbparameters(
          iv_dbparametergroupname = iv_dbparametergroupname
          iv_source               = iv_source ).
        DATA(lv_param_count) = lines( oo_result->get_parameters( ) ).
        MESSAGE |Retrieved { lv_param_count } parameters.| TYPE 'I'.
      CATCH /aws1/cx_rdsdbprmgrnotfndfault.
        MESSAGE 'DB parameter group not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

### `DescribeOrderableDBInstanceOptions`
<a name="rds_DescribeOrderableDBInstanceOptions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_engine        = 'mysql'
    " iv_engineversion = '8.0.35'
    TRY.
        oo_result = lo_rds->descrorderabledbinstoptions(
          iv_engine        = iv_engine
          iv_engineversion = iv_engineversion ).
        DATA(lv_option_count) = lines( oo_result->get_orderabledbinstoptions( ) ).
        MESSAGE |Retrieved { lv_option_count } orderable DB instance options.| TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `ModifyDBParameterGroup`
<a name="rds_ModifyDBParameterGroup_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBParameterGroup`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rds#code-examples). 

```
    " iv_dbparametergroupname = 'mydbparametergroup'
    " it_parameters - table containing parameter objects with:
    "   - parametername = 'max_connections'
    "   - parametervalue = '100'
    "   - applymethod = 'immediate' or 'pending-reboot'
    TRY.
        oo_result = lo_rds->modifydbparametergroup(
          iv_dbparametergroupname = iv_dbparametergroupname
          it_parameters           = it_parameters ).
        MESSAGE 'DB parameter group modified.' TYPE 'I'.
      CATCH /aws1/cx_rdsdbprmgrnotfndfault.
        MESSAGE 'DB parameter group not found.' TYPE 'I'.
      CATCH /aws1/cx_rdsinvdbprmgrstatef00.
        MESSAGE 'DB parameter group is in an invalid state.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [Memodifikasi DBParameter Grup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon Redshift menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_redshift_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Redshift.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateCluster`
<a name="redshift_CreateCluster_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCluster`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rsh#code-examples). 
Buat cluster.  

```
    TRY.
        " Example values: iv_cluster_identifier = 'my-redshift-cluster'
        " Example values: iv_node_type = 'ra3.4xlarge'
        " Example values: iv_master_username = 'awsuser'
        " Example values: iv_master_password = 'AwsUser1000'
        " Example values: iv_publicly_accessible = abap_true
        " Example values: iv_number_of_nodes = 2
        oo_result = lo_rsh->createcluster(
          iv_clusteridentifier = iv_cluster_identifier
          iv_nodetype = iv_node_type
          iv_masterusername = iv_master_username
          iv_masteruserpassword = iv_master_password
          iv_publiclyaccessible = iv_publicly_accessible
          iv_numberofnodes = iv_number_of_nodes
        ).
        MESSAGE 'Redshift cluster created successfully.' TYPE 'I'.
      CATCH /aws1/cx_rshclustalrdyexfault.
        MESSAGE 'Cluster already exists.' TYPE 'I'.
      CATCH /aws1/cx_rshclstquotaexcdfault.
        MESSAGE 'Cluster quota exceeded.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateCluster](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteCluster`
<a name="redshift_DeleteCluster_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCluster`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rsh#code-examples). 
Hapus klaster .  

```
    TRY.
        " Example values: iv_cluster_identifier = 'my-redshift-cluster'
        lo_rsh->deletecluster(
          iv_clusteridentifier = iv_cluster_identifier
          iv_skipfinalclustersnapshot = abap_true
        ).
        MESSAGE 'Redshift cluster deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_rshclustnotfoundfault.
        MESSAGE 'Cluster not found.' TYPE 'I'.
      CATCH /aws1/cx_rshinvcluststatefault.
        MESSAGE 'Invalid cluster state for deletion.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteCluster](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeClusters`
<a name="redshift_DescribeClusters_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeClusters`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rsh#code-examples). 
Jelaskan cluster.  

```
    TRY.
        " Example values: iv_cluster_identifier = 'my-redshift-cluster' (optional)
        oo_result = lo_rsh->describeclusters(
          iv_clusteridentifier = iv_cluster_identifier
        ).
        lt_clusters = oo_result->get_clusters( ).
        lv_cluster_count = lines( lt_clusters ).
        MESSAGE |Retrieved { lv_cluster_count } cluster(s).| TYPE 'I'.
      CATCH /aws1/cx_rshclustnotfoundfault.
        MESSAGE 'Cluster not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeClusters](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeStatement`
<a name="redshift_DescribeStatement_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStatement`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rsd#code-examples). 

```
    TRY.
        " Example values: iv_statement_id = 'xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx'
        oo_result = lo_rsd->describestatement(
          iv_id = iv_statement_id
        ).
        lv_status = oo_result->get_status( ).
        MESSAGE |Statement status: { lv_status }| TYPE 'I'.
      CATCH /aws1/cx_rsdresourcenotfoundex.
        MESSAGE 'Statement not found.' TYPE 'I'.
      CATCH /aws1/cx_rsdinternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeStatement](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ExecuteStatement`
<a name="redshift_ExecuteStatement_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ExecuteStatement`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rsd#code-examples). 

```
    TRY.
        " Example values: iv_cluster_identifier = 'redshift-cluster-movies'
        " Example values: iv_database_name = 'dev'
        " Example values: iv_user_name = 'awsuser'
        " Example values: iv_sql = 'SELECT * FROM movies WHERE year = :year'
        " Example values: it_parameter_list - SQL parameters for parameterized queries
        
        " Only pass parameters if the list is not empty
        IF it_parameter_list IS NOT INITIAL.
          oo_result = lo_rsd->executestatement(
            iv_clusteridentifier = iv_cluster_identifier
            iv_database = iv_database_name
            iv_dbuser = iv_user_name
            iv_sql = iv_sql
            it_parameters = it_parameter_list
          ).
        ELSE.
          oo_result = lo_rsd->executestatement(
            iv_clusteridentifier = iv_cluster_identifier
            iv_database = iv_database_name
            iv_dbuser = iv_user_name
            iv_sql = iv_sql
          ).
        ENDIF.
        
        lv_statement_id = oo_result->get_id( ).
        MESSAGE |Statement executed. ID: { lv_statement_id }| TYPE 'I'.
      CATCH /aws1/cx_rsdexecutestatementex.
        MESSAGE 'Statement execution error.' TYPE 'I'.
      CATCH /aws1/cx_rsdresourcenotfoundex.
        MESSAGE 'Resource not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ExecuteStatement](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetStatementResult`
<a name="redshift_GetStatementResult_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetStatementResult`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rsd#code-examples). 
Periksa hasil pernyataan.  

```
    TRY.
        " Example values: iv_statement_id = 'xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx'
        " Handle pagination for large result sets

        DO.
          lo_result_page = lo_rsd->getstatementresult(
            iv_id = iv_statement_id
            iv_nexttoken = lv_next_token
          ).

          " Collect records from this page
          lt_page_records = lo_result_page->get_records( ).
          APPEND LINES OF lt_page_records TO lt_all_records.

          " Check if there are more pages
          lv_next_token = lo_result_page->get_nexttoken( ).
          IF lv_next_token IS INITIAL.
            EXIT. " No more pages
          ENDIF.
        ENDDO.

        " For the last call, set oo_result for return value
        oo_result = lo_result_page.
        lv_record_count = lines( lt_all_records ).
        MESSAGE |Retrieved { lv_record_count } record(s).| TYPE 'I'.
      CATCH /aws1/cx_rsdresourcenotfoundex.
        MESSAGE 'Statement not found or results not available.' TYPE 'I'.
      CATCH /aws1/cx_rsdinternalserverex.
        MESSAGE 'Internal server error.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetStatementResult](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListDatabases`
<a name="redshift_ListDatabases_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListDatabases`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rsd#code-examples). 

```
    TRY.
        " Example values: iv_cluster_identifier = 'redshift-cluster-movies'
        " Example values: iv_database_name = 'dev'
        " Example values: iv_database_user = 'awsuser'
        oo_result = lo_rsd->listdatabases(
          iv_clusteridentifier = iv_cluster_identifier
          iv_database = iv_database_name
          iv_dbuser = iv_database_user
        ).
        lt_databases = oo_result->get_databases( ).
        lv_db_count = lines( lt_databases ).
        MESSAGE |Retrieved { lv_db_count } database(s).| TYPE 'I'.
      CATCH /aws1/cx_rsddatabaseconnex.
        MESSAGE 'Database connection error.' TYPE 'I'.
      CATCH /aws1/cx_rsdresourcenotfoundex.
        MESSAGE 'Cluster not found.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListDatabases](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ModifyCluster`
<a name="redshift_ModifyCluster_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyCluster`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rsh#code-examples). 
Memodifikasi cluster.  

```
    TRY.
        " Example values: iv_cluster_identifier = 'my-redshift-cluster'
        " Example values: iv_pref_maintenance_wn = 'wed:07:30-wed:08:00'
        lo_rsh->modifycluster(
          iv_clusteridentifier = iv_cluster_identifier
          iv_preferredmaintenancewin00 = iv_pref_maintenance_wn
        ).
        MESSAGE 'Redshift cluster modified successfully.' TYPE 'I'.
      CATCH /aws1/cx_rshclustnotfoundfault.
        MESSAGE 'Cluster not found.' TYPE 'I'.
      CATCH /aws1/cx_rshinvcluststatefault.
        MESSAGE 'Invalid cluster state for modification.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ModifyCluster](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Rekognition Amazon menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_rekognition_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Rekognition.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CompareFaces`
<a name="rekognition_CompareFaces_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CompareFaces`.

Untuk informasi selengkapnya, lihat [Membandingkan wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-comparefaces.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        " Create S3 object reference for the source image
        DATA(lo_source_s3obj) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_source_s3_bucket
          iv_name = iv_source_s3_key ).

        " Create source image object
        DATA(lo_source_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_source_s3obj ).

        " Create S3 object reference for the target image
        DATA(lo_target_s3obj) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_target_s3_bucket
          iv_name = iv_target_s3_key ).

        " Create target image object
        DATA(lo_target_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_target_s3obj ).

        " Compare faces
        oo_result = lo_rek->comparefaces(
          io_sourceimage = lo_source_image
          io_targetimage = lo_target_image
          iv_similaritythreshold = iv_similarity ).

        DATA(lt_face_matches) = oo_result->get_facematches( ).
        DATA(lt_unmatched_faces) = oo_result->get_unmatchedfaces( ).

        " Get counts of matched and unmatched faces
        DATA(lv_matched_count) = lines( lt_face_matches ).
        DATA(lv_unmatched_count) = lines( lt_unmatched_faces ).

        " Output detailed comparison results
        DATA(lv_message) = |Face comparison completed: | &&
                           |{ lv_matched_count } matched face(s), | &&
                           |{ lv_unmatched_count } unmatched face(s).|.
        MESSAGE lv_message TYPE 'I'.
      CATCH /aws1/cx_rekinvalids3objectex.
        MESSAGE 'Invalid S3 object.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CompareFaces](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateCollection`
<a name="rekognition_CreateCollection_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCollection`.

Untuk informasi selengkapnya, lihat [Membuat koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/create-collection-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        oo_result = lo_rek->createcollection(
          iv_collectionid = iv_collection_id ).
        MESSAGE 'Collection created successfully.' TYPE 'I'.
      CATCH /aws1/cx_rekresrcalrdyexistsex.
        MESSAGE 'Collection already exists.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateCollection](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteCollection`
<a name="rekognition_DeleteCollection_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCollection`.

Untuk informasi selengkapnya, lihat [Menghapus koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-collection-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        lo_rek->deletecollection(
          iv_collectionid = iv_collection_id ).
        MESSAGE 'Collection deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_rekresourcenotfoundex.
        MESSAGE 'Collection not found.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteCollection](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteFaces`
<a name="rekognition_DeleteFaces_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFaces`.

Untuk informasi selengkapnya, lihat [Menghapus wajah dari koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/delete-faces-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        oo_result = lo_rek->deletefaces(
          iv_collectionid = iv_collection_id
          it_faceids = it_face_ids ).

        DATA(lt_deleted_faces) = oo_result->get_deletedfaces( ).
        DATA(lv_deleted_count) = lines( lt_deleted_faces ).
        DATA(lv_msg6) = |{ lv_deleted_count } face(s) deleted successfully.|.
        MESSAGE lv_msg6 TYPE 'I'.
      CATCH /aws1/cx_rekresourcenotfoundex.
        MESSAGE 'Collection not found.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteFaces](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeCollection`
<a name="rekognition_DescribeCollection_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeCollection`.

Untuk informasi selengkapnya, lihat [Menjelaskan koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/describe-collection-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        oo_result = lo_rek->describecollection(
          iv_collectionid = iv_collection_id ).
        DATA(lv_face_count) = oo_result->get_facecount( ).
        DATA(lv_msg) = |Collection described: { lv_face_count } face(s) indexed.|.
        MESSAGE lv_msg TYPE 'I'.
      CATCH /aws1/cx_rekresourcenotfoundex.
        MESSAGE 'Collection not found.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeCollection](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectFaces`
<a name="rekognition_DetectFaces_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectFaces`.

Untuk informasi selengkapnya, lihat [Mendeteksi wajah dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/faces-detect-images.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        " Create S3 object reference for the image
        DATA(lo_s3object) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_s3_bucket
          iv_name = iv_s3_key ).

        " Create image object
        DATA(lo_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_s3object ).

        " Detect faces in the image with all attributes
        DATA(lt_attributes) = VALUE /aws1/cl_rekattributes_w=>tt_attributes( ).
        DATA(lo_attr_wrapper) = NEW /aws1/cl_rekattributes_w( iv_value = 'ALL' ).
        INSERT lo_attr_wrapper INTO TABLE lt_attributes.

        oo_result = lo_rek->detectfaces(
          io_image = lo_image
          it_attributes = lt_attributes ).

        DATA(lt_face_details) = oo_result->get_facedetails( ).
        DATA(lv_detected_count) = lines( lt_face_details ).
        DATA(lv_msg8) = |{ lv_detected_count } face(s) detected in image.|.
        MESSAGE lv_msg8 TYPE 'I'.
      CATCH /aws1/cx_rekinvalids3objectex.
        MESSAGE 'Invalid S3 object.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectFaces](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectLabels`
<a name="rekognition_DetectLabels_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi label dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/labels-detect-labels-image.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        " Create S3 object reference for the image
        DATA(lo_s3object) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_s3_bucket
          iv_name = iv_s3_key ).

        " Create image object
        DATA(lo_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_s3object ).

        " Detect labels in the image
        oo_result = lo_rek->detectlabels(
          io_image = lo_image
          iv_maxlabels = iv_max_labels ).

        DATA(lt_labels) = oo_result->get_labels( ).
        DATA(lv_label_count) = lines( lt_labels ).
        DATA(lv_msg9) = |{ lv_label_count } label(s) detected in image.|.
        MESSAGE lv_msg9 TYPE 'I'.
      CATCH /aws1/cx_rekinvalids3objectex.
        MESSAGE 'Invalid S3 object.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectLabels](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectModerationLabels`
<a name="rekognition_DetectModerationLabels_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectModerationLabels`.

Untuk informasi selengkapnya, lihat [Mendeteksi gambar yang tidak pantas](https://docs.aws.amazon.com/rekognition/latest/dg/procedure-moderate-images.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        " Create S3 object reference for the image
        DATA(lo_s3object) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_s3_bucket
          iv_name = iv_s3_key ).

        " Create image object
        DATA(lo_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_s3object ).

        " Detect moderation labels
        oo_result = lo_rek->detectmoderationlabels(
          io_image = lo_image ).

        DATA(lt_moderation_labels) = oo_result->get_moderationlabels( ).
        DATA(lv_mod_count) = lines( lt_moderation_labels ).
        DATA(lv_msg10) = |{ lv_mod_count } moderation label(s) detected.|.
        MESSAGE lv_msg10 TYPE 'I'.
      CATCH /aws1/cx_rekinvalids3objectex.
        MESSAGE 'Invalid S3 object.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectModerationLabels](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectText`
<a name="rekognition_DetectText_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectText`.

Untuk informasi selengkapnya, lihat [Mendeteksi teks dalam gambar](https://docs.aws.amazon.com/rekognition/latest/dg/text-detecting-text-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        " Create S3 object reference for the image
        DATA(lo_s3object) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_s3_bucket
          iv_name = iv_s3_key ).

        " Create image object
        DATA(lo_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_s3object ).

        " Detect text in the image
        oo_result = lo_rek->detecttext(
          io_image = lo_image ).

        DATA(lt_text_detections) = oo_result->get_textdetections( ).
        DATA(lv_text_count) = lines( lt_text_detections ).
        DATA(lv_msg11) = |{ lv_text_count } text detection(s) found.|.
        MESSAGE lv_msg11 TYPE 'I'.
      CATCH /aws1/cx_rekinvalids3objectex.
        MESSAGE 'Invalid S3 object.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectText](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `IndexFaces`
<a name="rekognition_IndexFaces_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`IndexFaces`.

Untuk informasi selengkapnya, lihat [Menambahkan wajah ke koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/add-faces-to-collection-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        " Create S3 object reference for the image
        DATA(lo_s3object) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_s3_bucket
          iv_name = iv_s3_key ).

        " Create image object
        DATA(lo_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_s3object ).

        " Index faces in the image
        oo_result = lo_rek->indexfaces(
          iv_collectionid = iv_collection_id
          io_image = lo_image
          iv_externalimageid = iv_external_id
          iv_maxfaces = iv_max_faces ).

        DATA(lt_face_records) = oo_result->get_facerecords( ).
        DATA(lv_indexed_count) = lines( lt_face_records ).
        DATA(lv_msg2) = |{ lv_indexed_count } face(s) indexed successfully.|.
        MESSAGE lv_msg2 TYPE 'I'.
      CATCH /aws1/cx_rekresourcenotfoundex.
        MESSAGE 'Collection not found.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalids3objectex.
        MESSAGE 'Invalid S3 object.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [IndexFaces](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListCollections`
<a name="rekognition_ListCollections_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCollections`.

Untuk informasi selengkapnya, lihat [Daftar koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-collection-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        oo_result = lo_rek->listcollections(
          iv_maxresults = iv_max_results ).

        DATA(lt_collection_ids) = oo_result->get_collectionids( ).
        DATA(lv_coll_count) = lines( lt_collection_ids ).
        DATA(lv_msg7) = |{ lv_coll_count } collection(s) found.|.
        MESSAGE lv_msg7 TYPE 'I'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListCollections](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListFaces`
<a name="rekognition_ListFaces_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFaces`.

Untuk informasi selengkapnya, lihat [Daftar wajah dalam koleksi](https://docs.aws.amazon.com/rekognition/latest/dg/list-faces-in-collection-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        oo_result = lo_rek->listfaces(
          iv_collectionid = iv_collection_id
          iv_maxresults = iv_max_results ).

        DATA(lt_faces) = oo_result->get_faces( ).
        DATA(lv_face_count2) = lines( lt_faces ).
        DATA(lv_msg3) = |{ lv_face_count2 } face(s) found in collection.|.
        MESSAGE lv_msg3 TYPE 'I'.
      CATCH /aws1/cx_rekresourcenotfoundex.
        MESSAGE 'Collection not found.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListFaces](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `RecognizeCelebrities`
<a name="rekognition_RecognizeCelebrities_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RecognizeCelebrities`.

Untuk informasi selengkapnya, lihat [Mengenali selebriti dalam sebuah gambar](https://docs.aws.amazon.com/rekognition/latest/dg/celebrities-procedure-image.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        " Create S3 object reference for the image
        DATA(lo_s3object) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_s3_bucket
          iv_name = iv_s3_key ).

        " Create image object
        DATA(lo_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_s3object ).

        " Recognize celebrities
        oo_result = lo_rek->recognizecelebrities(
          io_image = lo_image ).

        DATA(lt_celebrity_faces) = oo_result->get_celebrityfaces( ).
        DATA(lv_celeb_count) = lines( lt_celebrity_faces ).
        DATA(lv_msg12) = |{ lv_celeb_count } celebrity/celebrities recognized.|.
        MESSAGE lv_msg12 TYPE 'I'.
      CATCH /aws1/cx_rekinvalids3objectex.
        MESSAGE 'Invalid S3 object.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [RecognizeCelebrities](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SearchFaces`
<a name="rekognition_SearchFaces_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchFaces`.

Untuk informasi selengkapnya, lihat [Mencari wajah (ID wajah)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-id-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        oo_result = lo_rek->searchfaces(
          iv_collectionid = iv_collection_id
          iv_faceid = iv_face_id
          iv_facematchthreshold = iv_threshold
          iv_maxfaces = iv_max_faces ).

        DATA(lt_face_matches) = oo_result->get_facematches( ).
        DATA(lv_match_count2) = lines( lt_face_matches ).
        DATA(lv_msg5) = |Face search completed: { lv_match_count2 } match(es) found.|.
        MESSAGE lv_msg5 TYPE 'I'.
      CATCH /aws1/cx_rekresourcenotfoundex.
        MESSAGE 'Collection or face not found.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SearchFaces](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SearchFacesByImage`
<a name="rekognition_SearchFacesByImage_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SearchFacesByImage`.

Untuk informasi selengkapnya, lihat [Mencari wajah (gambar)](https://docs.aws.amazon.com/rekognition/latest/dg/search-face-with-image-procedure.html).

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/rek#code-examples). 

```
    TRY.
        " Create S3 object reference for the image
        DATA(lo_s3object) = NEW /aws1/cl_reks3object(
          iv_bucket = iv_s3_bucket
          iv_name = iv_s3_key ).

        " Create image object
        DATA(lo_image) = NEW /aws1/cl_rekimage(
          io_s3object = lo_s3object ).

        " Search for matching faces
        oo_result = lo_rek->searchfacesbyimage(
          iv_collectionid = iv_collection_id
          io_image = lo_image
          iv_facematchthreshold = iv_threshold
          iv_maxfaces = iv_max_faces ).

        DATA(lt_face_matches) = oo_result->get_facematches( ).
        DATA(lv_match_count) = lines( lt_face_matches ).
        DATA(lv_msg4) = |Face search completed: { lv_match_count } match(es) found.|.
        MESSAGE lv_msg4 TYPE 'I'.
      CATCH /aws1/cx_rekresourcenotfoundex.
        MESSAGE 'Collection not found.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalids3objectex.
        MESSAGE 'Invalid S3 object.' TYPE 'E'.
      CATCH /aws1/cx_rekinvalidparameterex.
        MESSAGE 'Invalid parameter value.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SearchFacesByImage](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon S3 menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_sap-abap_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    DATA(lo_session) = /aws1/cl_rt_session_aws=>create( cv_pfl ).
    DATA(lo_s3) = /aws1/cl_s3_factory=>create( lo_session ).

    " Create an Amazon Simple Storage Service (Amazon S3) bucket. "
    TRY.
        " determine our region from our session
        DATA(lv_region) = CONV /aws1/s3_bucketlocationcnstrnt( lo_session->get_region( ) ).
        DATA lo_constraint TYPE REF TO /aws1/cl_s3_createbucketconf.
        " When in the us-east-1 region, you must not specify a constraint
        " In all other regions, specify the region as the constraint
        IF lv_region = 'us-east-1'.
          CLEAR lo_constraint.
        ELSE.
          lo_constraint = NEW /aws1/cl_s3_createbucketconf( lv_region ).
        ENDIF.

        lo_s3->createbucket(
            iv_bucket = iv_bucket_name
            io_createbucketconfiguration  = lo_constraint ).
        MESSAGE 'S3 bucket created.' TYPE 'I'.
      CATCH /aws1/cx_s3_bucketalrdyexists.
        MESSAGE 'Bucket name already exists.' TYPE 'E'.
      CATCH /aws1/cx_s3_bktalrdyownedbyyou.
        MESSAGE 'Bucket already exists and is owned by you.' TYPE 'E'.
    ENDTRY.


    "Upload an object to an S3 bucket."
    TRY.
        "Get contents of file from application server."
        DATA lv_file_content TYPE xstring.
        OPEN DATASET iv_key FOR INPUT IN BINARY MODE.
        READ DATASET iv_key INTO lv_file_content.
        CLOSE DATASET iv_key.

        lo_s3->putobject(
            iv_bucket = iv_bucket_name
            iv_key = iv_key
            iv_body = lv_file_content ).
        MESSAGE 'Object uploaded to S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.

    " Get an object from a bucket. "
    TRY.
        DATA(lo_result) = lo_s3->getobject(
                   iv_bucket = iv_bucket_name
                   iv_key = iv_key ).
        DATA(lv_object_data) = lo_result->get_body( ).
        MESSAGE 'Object retrieved from S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.

    " Copy an object to a subfolder in a bucket. "
    TRY.
        lo_s3->copyobject(
          iv_bucket = iv_bucket_name
          iv_key = |{ iv_copy_to_folder }/{ iv_key }|
          iv_copysource = |{ iv_bucket_name }/{ iv_key }| ).
        MESSAGE 'Object copied to a subfolder.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.

    " List objects in the bucket. "
    TRY.
        DATA(lo_list) = lo_s3->listobjects(
           iv_bucket = iv_bucket_name ).
        MESSAGE 'Retrieved list of objects in S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
    DATA text TYPE string VALUE 'Object List - '.
    DATA lv_object_key TYPE /aws1/s3_objectkey.
    LOOP AT lo_list->get_contents( ) INTO DATA(lo_object).
      lv_object_key = lo_object->get_key( ).
      CONCATENATE lv_object_key ', ' INTO text.
    ENDLOOP.
    MESSAGE text TYPE'I'.

    " Delete the objects in a bucket. "
    TRY.
        lo_s3->deleteobject(
            iv_bucket = iv_bucket_name
            iv_key = iv_key ).
        lo_s3->deleteobject(
            iv_bucket = iv_bucket_name
            iv_key = |{ iv_copy_to_folder }/{ iv_key }| ).
        MESSAGE 'Objects deleted from S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.


    " Delete the bucket. "
    TRY.
        lo_s3->deletebucket(
            iv_bucket = iv_bucket_name ).
        MESSAGE 'Deleted S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [CopyObject](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [CreateBucket](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteBucket](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteObjects](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [GetObject](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [ListObjectsV2](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [PutObject](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        lo_s3->copyobject(
          iv_bucket = iv_dest_bucket
          iv_key = iv_dest_object
          iv_copysource = |{ iv_src_bucket }/{ iv_src_object }| ).
        MESSAGE 'Object copied to another bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CopyObject](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateBucket`
<a name="s3_CreateBucket_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " determine our region from our session
        DATA(lv_region) = CONV /aws1/s3_bucketlocationcnstrnt( lo_session->get_region( ) ).
        DATA lo_constraint TYPE REF TO /aws1/cl_s3_createbucketconf.
        " When in the us-east-1 region, you must not specify a constraint
        " In all other regions, specify the region as the constraint
        IF lv_region = 'us-east-1'.
          CLEAR lo_constraint.
        ELSE.
          lo_constraint = NEW /aws1/cl_s3_createbucketconf( lv_region ).
        ENDIF.

        lo_s3->createbucket(
            iv_bucket = iv_bucket_name
            io_createbucketconfiguration  = lo_constraint ).
        MESSAGE 'S3 bucket created.' TYPE 'I'.
      CATCH /aws1/cx_s3_bucketalrdyexists.
        MESSAGE 'Bucket name already exists.' TYPE 'E'.
      CATCH /aws1/cx_s3_bktalrdyownedbyyou.
        MESSAGE 'Bucket already exists and is owned by you.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateBucket](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteBucket`
<a name="s3_DeleteBucket_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.

        lo_s3->deletebucket(
            iv_bucket = iv_bucket_name ).
        MESSAGE 'Deleted S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteBucket](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteBucketCors`
<a name="s3_DeleteBucketCors_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketCors`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        lo_s3->deletebucketcors(
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Bucket CORS configuration deleted.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteBucketCors](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteBucketLifecycle`
<a name="s3_DeleteBucketLifecycle_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketLifecycle`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        lo_s3->deletebucketlifecycle(
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Bucket lifecycle configuration deleted.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteBucketLifecycle](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteBucketPolicy`
<a name="s3_DeleteBucketPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucketPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        lo_s3->deletebucketpolicy(
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Bucket policy deleted.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteBucketPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteObject`
<a name="s3_DeleteObject_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        lo_s3->deleteobject(
            iv_bucket = iv_bucket_name
            iv_key = iv_object_key ).
        MESSAGE 'Object deleted from S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteObject](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteObjects`
<a name="s3_DeleteObjects_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->deleteobjects(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name
          io_delete = NEW /aws1/cl_s3_delete( it_objects = it_object_keys ) ).
        MESSAGE 'Objects deleted from S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteObjects](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetBucketAcl`
<a name="s3_GetBucketAcl_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketAcl`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->getbucketacl(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Retrieved bucket ACL.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetBucketAcl](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetBucketCors`
<a name="s3_GetBucketCors_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketCors`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->getbucketcors(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Retrieved bucket CORS configuration.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetBucketCors](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetBucketLifecycleConfiguration`
<a name="s3_GetBucketLifecycleConfiguration_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketLifecycleConfiguration`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->getbucketlifecycleconf(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Retrieved bucket lifecycle configuration.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetBucketLifecycleConfiguration](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetBucketPolicy`
<a name="s3_GetBucketPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetBucketPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->getbucketpolicy(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name ).
        DATA(lv_policy) = oo_result->get_policy( ).
        MESSAGE 'Retrieved bucket policy.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetBucketPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetObject`
<a name="s3_GetObject_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->getobject(           " oo_result is returned for testing purposes. "
                  iv_bucket = iv_bucket_name
                  iv_key = iv_object_key ).
        DATA(lv_object_data) = oo_result->get_body( ).
        MESSAGE 'Object retrieved from S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetObject](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetObjectAcl`
<a name="s3_GetObjectAcl_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectAcl`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->getobjectacl(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name
          iv_key = iv_object_key ).
        MESSAGE 'Retrieved object ACL.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetObjectAcl](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetObjectLegalHold`
<a name="s3_GetObjectLegalHold_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLegalHold`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->getobjectlegalhold(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name
          iv_key = iv_object_key ).
        MESSAGE 'Retrieved object legal hold status.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetObjectLegalHold](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetObjectLockConfiguration`
<a name="s3_GetObjectLockConfiguration_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObjectLockConfiguration`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->getobjectlockconfiguration(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Retrieved object lock configuration.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetObjectLockConfiguration](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `HeadBucket`
<a name="s3_HeadBucket_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`HeadBucket`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->headbucket(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Bucket exists and you have access to it.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [HeadBucket](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListObjectVersions`
<a name="s3_ListObjectVersions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectVersions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->listobjectversions(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name
          iv_prefix = iv_prefix ).
        MESSAGE 'Retrieved object versions.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListObjectVersions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        oo_result = lo_s3->listobjectsv2(         " oo_result is returned for testing purposes. "
          iv_bucket = iv_bucket_name ).
        MESSAGE 'Retrieved list of objects in S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListObjectsV2](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutBucketAcl`
<a name="s3_PutBucketAcl_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketAcl`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example: Grant log delivery access to a bucket
        " iv_grantwrite = 'uri=http://acs.amazonaws.com/groups/s3/LogDelivery'
        lo_s3->putbucketacl(
          iv_bucket = iv_bucket_name
          iv_grantwrite = iv_grantwrite ).
        MESSAGE 'Bucket ACL updated.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutBucketAcl](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutBucketCors`
<a name="s3_PutBucketCors_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketCors`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example: Allow PUT, POST, DELETE methods from http://www.example.com
        lo_s3->putbucketcors(
          iv_bucket = iv_bucket_name
          io_corsconfiguration = NEW /aws1/cl_s3_corsconfiguration(
            it_corsrules = it_cors_rules ) ).
        MESSAGE 'Bucket CORS configuration set.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutBucketCors](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutBucketLifecycleConfiguration`
<a name="s3_PutBucketLifecycleConfiguration_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketLifecycleConfiguration`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example: Expire objects with prefix 'logs/' after 30 days
        lo_s3->putbucketlifecycleconf(
          iv_bucket = iv_bucket_name
          io_lifecycleconfiguration = NEW /aws1/cl_s3_bucketlcconf(
            it_rules = it_lifecycle_rule ) ).
        MESSAGE 'Bucket lifecycle configuration set.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutBucketLifecycleConfiguration](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutBucketPolicy`
<a name="s3_PutBucketPolicy_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketPolicy`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example policy JSON string
        " iv_policy = '{"Version":"2012-10-17",		 	 	 "Statement":[{"Effect":"Allow","Principal":{"AWS":"arn:aws:iam::123456789012:user/user"},"Action":["s3:GetObject"],"Resource":["arn:aws:s3:::bucketname/*"]}]}'
        lo_s3->putbucketpolicy(
          iv_bucket = iv_bucket_name
          iv_policy = iv_policy ).
        MESSAGE 'Bucket policy set.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutBucketPolicy](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutBucketVersioning`
<a name="s3_PutBucketVersioning_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutBucketVersioning`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example: Enable versioning on a bucket
        " iv_status = 'Enabled'
        lo_s3->putbucketversioning(
          iv_bucket = iv_bucket_name
          io_versioningconfiguration = NEW /aws1/cl_s3_versioningconf(
            iv_status = iv_status ) ).
        MESSAGE 'Bucket versioning enabled.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutBucketVersioning](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutObject`
<a name="s3_PutObject_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    "Get contents of file from application server."
    DATA lv_body TYPE xstring.
    OPEN DATASET iv_file_name FOR INPUT IN BINARY MODE.
    READ DATASET iv_file_name INTO lv_body.
    CLOSE DATASET iv_file_name.

    "Upload/put an object to an S3 bucket."
    TRY.
        lo_s3->putobject(
            iv_bucket = iv_bucket_name
            iv_key = iv_file_name
            iv_body = lv_body ).
        MESSAGE 'Object uploaded to S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutObject](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutObjectAcl`
<a name="s3_PutObjectAcl_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectAcl`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example: Grant read access to an AWS user
        " iv_grantread = 'emailAddress=user@example.com'
        lo_s3->putobjectacl(
          iv_bucket = iv_bucket_name
          iv_key = iv_object_key
          iv_grantread = iv_grantread ).
        MESSAGE 'Object ACL updated.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutObjectAcl](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutObjectLegalHold`
<a name="s3_PutObjectLegalHold_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLegalHold`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example: Set legal hold status to ON
        " iv_status = 'ON'
        lo_s3->putobjectlegalhold(
          iv_bucket = iv_bucket_name
          iv_key = iv_object_key
          io_legalhold = NEW /aws1/cl_s3_objlocklegalhold(
            iv_status = iv_status ) ).
        MESSAGE 'Object legal hold status set.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutObjectLegalHold](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutObjectLockConfiguration`
<a name="s3_PutObjectLockConfiguration_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectLockConfiguration`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example: Enable object lock with default retention
        " iv_enabled = 'Enabled'
        lo_s3->putobjectlockconfiguration(
          iv_bucket = iv_bucket_name
          io_objectlockconfiguration = NEW /aws1/cl_s3_objectlockconf(
            iv_objectlockenabled = iv_enabled ) ).
        MESSAGE 'Object lock configuration set.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutObjectLockConfiguration](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `PutObjectRetention`
<a name="s3_PutObjectRetention_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObjectRetention`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 

```
    TRY.
        " Example: Set retention mode to GOVERNANCE for 30 days
        " iv_mode = 'GOVERNANCE'
        " iv_retain_date should be a timestamp in the future
        lo_s3->putobjectretention(
          iv_bucket = iv_bucket_name
          iv_key = iv_object_key
          io_retention = NEW /aws1/cl_s3_objectlockret(
            iv_mode = iv_mode
            iv_retainuntildate = iv_retain_date )
          iv_bypassgovernanceretention = abap_true ).
        MESSAGE 'Object retention set.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
      CATCH /aws1/cx_s3_nosuchkey.
        MESSAGE 'Object key does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [PutObjectRetention](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Skenario
<a name="scenarios"></a>

### Membuat URL yang telah ditetapkan sebelumnya
<a name="s3_Scenario_PresignedUrl_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat URL presigned untuk Amazon S3 dan mengunggah objek.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/s3#code-examples). 
Buat permintaan yang telah ditetapkan sebelumnya ke objek GET S3.  

```
    " iv_bucket_name is the bucket name
    " iv_key is the object name like "myfile.txt"

    DATA(lo_session) = /aws1/cl_rt_session_aws=>create( cv_pfl ).
    DATA(lo_s3) = /aws1/cl_s3_factory=>create( lo_session ).

    "Upload a nice Hello World file to an S3 bucket."
    TRY.
        DATA(lv_contents) = cl_abap_codepage=>convert_to( 'Hello, World' ).
        lo_s3->putobject(
            iv_bucket = iv_bucket_name
            iv_key = iv_key
            iv_body = lv_contents
            iv_contenttype = 'text/plain' ).
        MESSAGE 'Object uploaded to S3 bucket.' TYPE 'I'.
      CATCH /aws1/cx_s3_nosuchbucket.
        MESSAGE 'Bucket does not exist.' TYPE 'E'.
    ENDTRY.

    " now generate a presigned URL with a 600-second expiration
    DATA(lo_presigner) = lo_s3->get_presigner( iv_expires_sec = 600 ).
    " the presigner getobject() method has the same signature as
    " lo_s3->getobject(), but it doesn't actually make the call.
    " to the service.  It just prepares a presigned URL for a future call
    DATA(lo_presigned_req) = lo_presigner->getobject(
      iv_bucket = iv_bucket_name
      iv_key = iv_key ).

    " You can provide this URL to a web page, user, email etc so they
    " can retrieve the file.  The URL will expire in 10 minutes.
    ov_url = lo_presigned_req->get_url( ).
```

# SageMaker Contoh AI menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_sagemaker_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan AI. SageMaker 

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateEndpoint`
<a name="sagemaker_CreateEndpoint_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEndpoint`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    DATA lt_production_variants TYPE /aws1/cl_sgmproductionvariant=>tt_productionvariantlist.
    DATA lo_production_variants TYPE REF TO /aws1/cl_sgmproductionvariant.
    DATA oo_ep_config_result TYPE REF TO /aws1/cl_sgmcreateendptcfgout.

    "Create a production variant as an ABAP object."
    "Identifies a model that you want to host and the resources chosen to deploy for hosting it."
    lo_production_variants = NEW #( iv_variantname = iv_variant_name
                                    iv_modelname = iv_model_name
                                    iv_initialinstancecount = iv_initial_instance_count
                                    iv_instancetype = iv_instance_type ).

    INSERT lo_production_variants INTO TABLE lt_production_variants.

    "Create an endpoint configuration."
    TRY.
        oo_ep_config_result = lo_sgm->createendpointconfig(
          iv_endpointconfigname = iv_endpoint_config_name
          it_productionvariants = lt_production_variants ).
        MESSAGE 'Endpoint configuration created.' TYPE 'I'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
    ENDTRY.

    "Create an endpoint."
    TRY.
        oo_result = lo_sgm->createendpoint(     " oo_result is returned for testing purposes. "
            iv_endpointconfigname = iv_endpoint_config_name
            iv_endpointname = iv_endpoint_name ).
        MESSAGE 'Endpoint created.' TYPE 'I'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateEndpoint](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateModel`
<a name="sagemaker_CreateModel_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateModel`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    DATA lo_primarycontainer TYPE REF TO /aws1/cl_sgmcontainerdefn.

    "Create an ABAP object for the container image based on input variables."
    lo_primarycontainer = NEW #( iv_image = iv_container_image
                                 iv_modeldataurl = iv_model_data_url ).

    "Create an Amazon SageMaker model."
    TRY.
        oo_result = lo_sgm->createmodel(        " oo_result is returned for testing purposes. "
          iv_executionrolearn = iv_execution_role_arn
          iv_modelname = iv_model_name
          io_primarycontainer = lo_primarycontainer ).
        MESSAGE 'Model created.' TYPE 'I'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateTrainingJob`
<a name="sagemaker_CreateTrainingJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTrainingJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    DATA lo_hyperparameters_w TYPE REF TO /aws1/cl_sgmhyperparameters_w.
    DATA lt_hyperparameters TYPE /aws1/cl_sgmhyperparameters_w=>tt_hyperparameters.
    DATA lt_input_data_config TYPE /aws1/cl_sgmchannel=>tt_inputdataconfig.
    DATA lo_trn_channel TYPE REF TO /aws1/cl_sgmchannel.
    DATA lo_trn_datasource TYPE REF TO /aws1/cl_sgmdatasource.
    DATA lo_trn_s3datasource TYPE REF TO /aws1/cl_sgms3datasource.
    DATA lo_val_channel TYPE REF TO /aws1/cl_sgmchannel.
    DATA lo_val_datasource TYPE REF TO /aws1/cl_sgmdatasource.
    DATA lo_val_s3datasource TYPE REF TO /aws1/cl_sgms3datasource.
    DATA lo_algorithm_specification TYPE REF TO /aws1/cl_sgmalgorithmspec.
    DATA lo_resource_config  TYPE REF TO /aws1/cl_sgmresourceconfig.
    DATA lo_output_data_config TYPE REF TO /aws1/cl_sgmoutputdataconfig.
    DATA lo_stopping_condition TYPE REF TO /aws1/cl_sgmstoppingcondition.

    "Create ABAP internal table for hyperparameters based on input variables."
    "These hyperparameters are based on the Amazon SageMaker built-in algorithm, XGBoost."
    lo_hyperparameters_w = NEW #( iv_value = iv_hp_max_depth ).
    INSERT VALUE #( key = 'max_depth' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_eta ).
    INSERT VALUE #( key = 'eta' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_eval_metric ).
    INSERT VALUE #( key = 'eval_metric' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_scale_pos_weight ).
    INSERT VALUE #( key = 'scale_pos_weight' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_subsample ).
    INSERT VALUE #( key = 'subsample' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_objective ).
    INSERT VALUE #( key = 'objective' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_num_round ).
    INSERT VALUE #( key = 'num_round' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    "Create ABAP objects for training data sources."
    lo_trn_s3datasource = NEW #( iv_s3datatype = iv_trn_data_s3datatype
                                 iv_s3datadistributiontype = iv_trn_data_s3datadistribution
                                 iv_s3uri = iv_trn_data_s3uri ).

    lo_trn_datasource = NEW #( io_s3datasource = lo_trn_s3datasource ).

    lo_trn_channel = NEW #( iv_channelname = 'train'
                            io_datasource = lo_trn_datasource
                            iv_compressiontype = iv_trn_data_compressiontype
                            iv_contenttype = iv_trn_data_contenttype ).

    INSERT lo_trn_channel INTO TABLE lt_input_data_config.

    "Create ABAP objects for validation data sources."
    lo_val_s3datasource = NEW #( iv_s3datatype = iv_val_data_s3datatype
                                 iv_s3datadistributiontype = iv_val_data_s3datadistribution
                                 iv_s3uri = iv_val_data_s3uri ).

    lo_val_datasource = NEW #( io_s3datasource = lo_val_s3datasource ).

    lo_val_channel = NEW #( iv_channelname = 'validation'
                            io_datasource = lo_val_datasource
                            iv_compressiontype = iv_val_data_compressiontype
                            iv_contenttype = iv_val_data_contenttype ).

    INSERT lo_val_channel INTO TABLE lt_input_data_config.

    "Create an ABAP object for algorithm specification."
    lo_algorithm_specification = NEW #( iv_trainingimage = iv_training_image
                                        iv_traininginputmode = iv_training_input_mode ).

    "Create an ABAP object for resource configuration."
    lo_resource_config = NEW #( iv_instancecount = iv_instance_count
                                iv_instancetype = iv_instance_type
                                iv_volumesizeingb = iv_volume_sizeingb ).

    "Create an ABAP object for output data configuration."
    lo_output_data_config = NEW #( iv_s3outputpath = iv_s3_output_path ).

    "Create an ABAP object for stopping condition."
    lo_stopping_condition = NEW #( iv_maxruntimeinseconds = iv_max_runtime_in_seconds ).

    "Create a training job."
    TRY.
        oo_result = lo_sgm->createtrainingjob(    " oo_result is returned for testing purposes. "
          iv_trainingjobname           = iv_training_job_name
          iv_rolearn                   = iv_role_arn
          it_hyperparameters           = lt_hyperparameters
          it_inputdataconfig           = lt_input_data_config
          io_algorithmspecification    = lo_algorithm_specification
          io_outputdataconfig          = lo_output_data_config
          io_resourceconfig            = lo_resource_config
          io_stoppingcondition         = lo_stopping_condition ).
        MESSAGE 'Training job created.' TYPE 'I'.
      CATCH /aws1/cx_sgmresourceinuse.
        MESSAGE 'Resource being accessed is in use.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcenotfound.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateTrainingJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateTransformJob`
<a name="sagemaker_CreateTransformJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTransformJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    DATA lo_transforminput TYPE REF TO /aws1/cl_sgmtransforminput.
    DATA lo_transformoutput TYPE REF TO /aws1/cl_sgmtransformoutput.
    DATA lo_transformresources TYPE REF TO /aws1/cl_sgmtransformresources.
    DATA lo_datasource  TYPE REF TO /aws1/cl_sgmtransformdatasrc.
    DATA lo_s3datasource  TYPE REF TO /aws1/cl_sgmtransforms3datasrc.

    "Create an ABAP object for an Amazon Simple Storage Service (Amazon S3) data source."
    lo_s3datasource = NEW #( iv_s3uri = iv_tf_data_s3uri
                             iv_s3datatype = iv_tf_data_s3datatype ).

    "Create an ABAP object for data source."
    lo_datasource = NEW #( io_s3datasource = lo_s3datasource ).

    "Create an ABAP object for transform data source."
    lo_transforminput = NEW #( io_datasource = lo_datasource
                               iv_contenttype = iv_tf_data_contenttype
                               iv_compressiontype = iv_tf_data_compressiontype ).

    "Create an ABAP object for resource configuration."
    lo_transformresources = NEW #( iv_instancecount = iv_instance_count
                                   iv_instancetype = iv_instance_type ).

    "Create an ABAP object for output data configuration."
    lo_transformoutput = NEW #( iv_s3outputpath = iv_s3_output_path ).

    "Create a transform job."
    TRY.
        oo_result = lo_sgm->createtransformjob(     " oo_result is returned for testing purposes. "
            iv_modelname = iv_tf_model_name
            iv_transformjobname = iv_tf_job_name
            io_transforminput = lo_transforminput
            io_transformoutput = lo_transformoutput
            io_transformresources = lo_transformresources ).
        MESSAGE 'Transform job created.' TYPE 'I'.
      CATCH /aws1/cx_sgmresourceinuse.
        MESSAGE 'Resource being accessed is in use.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcenotfound.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateTransformJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteEndpoint`
<a name="sagemaker_DeleteEndpoint_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEndpoint`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    "Delete an endpoint."
    TRY.
        lo_sgm->deleteendpoint(
            iv_endpointname = iv_endpoint_name ).
        MESSAGE 'Endpoint configuration deleted.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_endpoint_exception).
        DATA(lv_endpoint_error) = |"{ lo_endpoint_exception->av_err_code }" - { lo_endpoint_exception->av_err_msg }|.
        MESSAGE lv_endpoint_error TYPE 'E'.
    ENDTRY.

    "Delete an endpoint configuration."
    TRY.
        lo_sgm->deleteendpointconfig(
          iv_endpointconfigname = iv_endpoint_config_name ).
        MESSAGE 'Endpoint deleted.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_endpointconfig_exception).
        DATA(lv_endpointconfig_error) = |"{ lo_endpointconfig_exception->av_err_code }" - { lo_endpointconfig_exception->av_err_msg }|.
        MESSAGE lv_endpointconfig_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteEndpoint](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteModel`
<a name="sagemaker_DeleteModel_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteModel`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    TRY.
        lo_sgm->deletemodel(
                  iv_modelname = iv_model_name ).
        MESSAGE 'Model deleted.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeTrainingJob`
<a name="sagemaker_DescribeTrainingJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTrainingJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    TRY.
        oo_result = lo_sgm->describetrainingjob(      " oo_result is returned for testing purposes. "
          iv_trainingjobname = iv_training_job_name ).
        MESSAGE 'Retrieved description of training job.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeTrainingJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListAlgorithms`
<a name="sagemaker_ListAlgorithms_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAlgorithms`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    TRY.
        oo_result = lo_sgm->listalgorithms(         " oo_result is returned for testing purposes. "
          iv_namecontains = iv_name_contains ).
        MESSAGE 'Retrieved list of algorithms.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListAlgorithms](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListModels`
<a name="sagemaker_ListModels_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListModels`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    TRY.
        oo_result = lo_sgm->listmodels(           " oo_result is returned for testing purposes. "
          iv_namecontains = iv_name_contains ).
        MESSAGE 'Retrieved list of models.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListModels](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListNotebookInstances`
<a name="sagemaker_ListNotebookInstances_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListNotebookInstances`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    TRY.
        oo_result = lo_sgm->listnotebookinstances(        " oo_result is returned for testing purposes. "
          iv_namecontains = iv_name_contains ).
        MESSAGE 'Retrieved list of notebook instances.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListNotebookInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTrainingJobs`
<a name="sagemaker_ListTrainingJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTrainingJobs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    TRY.
        oo_result = lo_sgm->listtrainingjobs(       " oo_result is returned for testing purposes. "
          iv_namecontains = iv_name_contains
          iv_maxresults = iv_max_results ).
        MESSAGE 'Retrieved list of training jobs.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception).
        DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|.
        MESSAGE lv_error TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTrainingJobs](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Skenario
<a name="scenarios"></a>

### Memulai dengan model dan titik akhir
<a name="sagemaker_Scenario_GettingStarted_sap-abap_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulai pekerjaan pelatihan dan buat model SageMaker AI.
+ Buat konfigurasi titik akhir.
+ Buat titik akhir, lalu bersihkan sumber daya.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sgm#code-examples). 

```
    DATA lo_hyperparameters_w TYPE REF TO /aws1/cl_sgmhyperparameters_w.
    DATA lo_trn_channel TYPE REF TO /aws1/cl_sgmchannel.
    DATA lo_trn_datasource TYPE REF TO /aws1/cl_sgmdatasource.
    DATA lo_trn_s3datasource TYPE REF TO /aws1/cl_sgms3datasource.
    DATA lo_val_channel TYPE REF TO /aws1/cl_sgmchannel.
    DATA lo_val_datasource TYPE REF TO /aws1/cl_sgmdatasource.
    DATA lo_val_s3datasource TYPE REF TO /aws1/cl_sgms3datasource.
    DATA lo_algorithm_specification TYPE REF TO /aws1/cl_sgmalgorithmspec.
    DATA lo_resource_config  TYPE REF TO /aws1/cl_sgmresourceconfig.
    DATA lo_output_data_config TYPE REF TO /aws1/cl_sgmoutputdataconfig.
    DATA lo_stopping_condition TYPE REF TO /aws1/cl_sgmstoppingcondition.
    DATA lo_primarycontainer TYPE REF TO /aws1/cl_sgmcontainerdefn.
    DATA lo_production_variants TYPE REF TO /aws1/cl_sgmproductionvariant.
    DATA lo_ep_config_result TYPE REF TO /aws1/cl_sgmcreateendptcfgout.
    DATA lo_training_result TYPE REF TO /aws1/cl_sgmdescrtrnjobrsp.
    DATA lt_production_variants TYPE /aws1/cl_sgmproductionvariant=>tt_productionvariantlist.
    DATA lt_input_data_config TYPE /aws1/cl_sgmchannel=>tt_inputdataconfig.
    DATA lt_hyperparameters TYPE /aws1/cl_sgmhyperparameters_w=>tt_hyperparameters.
    DATA lv_model_data_url TYPE /aws1/sgmurl.

    lv_model_data_url = iv_s3_output_path && iv_training_job_name && '/output/model.tar.gz'.

    "Create ABAP internal table for hyperparameters based on input variables."
    "These hyperparameters are based on Amazon SageMaker built-in algorithm - XGBoost"
    lo_hyperparameters_w = NEW #( iv_value = iv_hp_max_depth ).
    INSERT VALUE #( key = 'max_depth' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_eta ).
    INSERT VALUE #( key = 'eta' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_eval_metric ).
    INSERT VALUE #( key = 'eval_metric' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_scale_pos_weight ).
    INSERT VALUE #( key = 'scale_pos_weight' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_subsample ).
    INSERT VALUE #( key = 'subsample' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_objective ).
    INSERT VALUE #( key = 'objective' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    lo_hyperparameters_w = NEW #( iv_value = iv_hp_num_round ).
    INSERT VALUE #( key = 'num_round' value = lo_hyperparameters_w )  INTO TABLE lt_hyperparameters.

    "Create ABAP internal table for data based on input variables."
    "Training data."
    lo_trn_s3datasource = NEW #( iv_s3datatype = iv_trn_data_s3datatype
                                 iv_s3datadistributiontype = iv_trn_data_s3datadistribution
                                 iv_s3uri = iv_trn_data_s3uri ).

    lo_trn_datasource = NEW #( io_s3datasource = lo_trn_s3datasource ).

    lo_trn_channel = NEW #( iv_channelname = 'train'
                            io_datasource = lo_trn_datasource
                            iv_compressiontype = iv_trn_data_compressiontype
                            iv_contenttype = iv_trn_data_contenttype ).
    INSERT lo_trn_channel INTO TABLE lt_input_data_config.

    "Validation data."
    lo_val_s3datasource = NEW #( iv_s3datatype = iv_val_data_s3datatype
                                 iv_s3datadistributiontype = iv_val_data_s3datadistribution
                                 iv_s3uri = iv_val_data_s3uri ).

    lo_val_datasource = NEW #( io_s3datasource = lo_val_s3datasource ).

    lo_val_channel = NEW #( iv_channelname = 'validation'
                            io_datasource = lo_val_datasource
                            iv_compressiontype = iv_val_data_compressiontype
                            iv_contenttype = iv_val_data_contenttype ).
    INSERT lo_val_channel INTO TABLE lt_input_data_config.

    "Create an ABAP object for algorithm specification based on input variables."
    lo_algorithm_specification = NEW #( iv_trainingimage = iv_training_image
                                        iv_traininginputmode = iv_training_input_mode ).

    "Create an ABAP object for resource configuration."
    lo_resource_config = NEW #( iv_instancecount = iv_instance_count
                                iv_instancetype = iv_instance_type
                                iv_volumesizeingb = iv_volume_sizeingb ).

    "Create an ABAP object for output data configuration."
    lo_output_data_config = NEW #( iv_s3outputpath = iv_s3_output_path ).

    "Create an ABAP object for stopping condition."
    lo_stopping_condition = NEW #( iv_maxruntimeinseconds = iv_max_runtime_in_seconds ).

    TRY.
        lo_sgm->createtrainingjob(
          iv_trainingjobname           = iv_training_job_name
          iv_rolearn                   = iv_role_arn
          it_hyperparameters           = lt_hyperparameters
          it_inputdataconfig           = lt_input_data_config
          io_algorithmspecification    = lo_algorithm_specification
          io_outputdataconfig          = lo_output_data_config
          io_resourceconfig            = lo_resource_config
          io_stoppingcondition         = lo_stopping_condition ).
        MESSAGE 'Training job created.' TYPE 'I'.
      CATCH /aws1/cx_sgmresourceinuse.
        MESSAGE 'Resource being accessed is in use.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcenotfound.
        MESSAGE 'Resource being accessed is not found.' TYPE 'E'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
    ENDTRY.

    "Wait for training job to be completed."
    lo_training_result = lo_sgm->describetrainingjob( iv_trainingjobname = iv_training_job_name ).
    WHILE lo_training_result->get_trainingjobstatus( ) <> 'Completed'.
      IF sy-index = 30.
        EXIT.               "Maximum 900 seconds."
      ENDIF.
      WAIT UP TO 30 SECONDS.
      lo_training_result = lo_sgm->describetrainingjob( iv_trainingjobname = iv_training_job_name ).
    ENDWHILE.

    "Create ABAP object for the container image based on input variables."
    lo_primarycontainer = NEW #( iv_image = iv_training_image
                                 iv_modeldataurl = lv_model_data_url ).

    "Create an Amazon SageMaker model."
    TRY.
        lo_sgm->createmodel(
          iv_executionrolearn = iv_role_arn
          iv_modelname = iv_model_name
          io_primarycontainer = lo_primarycontainer ).
        MESSAGE 'Model created.' TYPE 'I'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
    ENDTRY.

    "Create an endpoint production variant."
    lo_production_variants = NEW #( iv_variantname = iv_ep_variant_name
                                    iv_modelname = iv_model_name
                                    iv_initialinstancecount = iv_ep_initial_instance_count
                                    iv_instancetype = iv_ep_instance_type ).
    INSERT lo_production_variants INTO TABLE lt_production_variants.

    TRY.
        "Create an endpoint configuration."
        lo_ep_config_result = lo_sgm->createendpointconfig(
          iv_endpointconfigname = iv_ep_cfg_name
          it_productionvariants = lt_production_variants ).
        MESSAGE 'Endpoint configuration created.' TYPE 'I'.

        "Create an endpoint."
        oo_ep_output = lo_sgm->createendpoint(        " oo_ep_output is returned for testing purposes. "
            iv_endpointconfigname = iv_ep_cfg_name
            iv_endpointname = iv_ep_name ).
        MESSAGE 'Endpoint created.' TYPE 'I'.
      CATCH /aws1/cx_sgmresourcelimitexcd.
        MESSAGE 'You have reached the limit on the number of resources.' TYPE 'E'.
    ENDTRY.

    "Wait for endpoint creation to be completed."
    DATA(lo_endpoint_result) = lo_sgm->describeendpoint( iv_endpointname = iv_ep_name ).
    WHILE lo_endpoint_result->get_endpointstatus( ) <> 'InService'.
      IF sy-index = 30.
        EXIT.               "Maximum 900 seconds."
      ENDIF.
      WAIT UP TO 30 SECONDS.
      lo_endpoint_result = lo_sgm->describeendpoint( iv_endpointname = iv_ep_name ).
    ENDWHILE.

    TRY.
        "Delete an endpoint."
        lo_sgm->deleteendpoint(
            iv_endpointname = iv_ep_name ).
        MESSAGE 'Endpoint deleted' TYPE 'I'.

        "Delete an endpoint configuration."
        lo_sgm->deleteendpointconfig(
          iv_endpointconfigname = iv_ep_cfg_name ).
        MESSAGE 'Endpoint configuration deleted.' TYPE 'I'.

        "Delete model."
        lo_sgm->deletemodel(
                  iv_modelname = iv_model_name ).
        MESSAGE 'Model deleted.' TYPE 'I'.
      CATCH /aws1/cx_rt_service_generic INTO DATA(lo_endpointconfig_exception).
        DATA(lv_endpointconfig_error) = |"{ lo_endpointconfig_exception->av_err_code }" - { lo_endpointconfig_exception->av_err_msg }|.
        MESSAGE lv_endpointconfig_error TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [CreateEndpoint](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [CreateEndpointConfig](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [CreateModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [CreateTrainingJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteEndpoint](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteEndpointConfig](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DeleteModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DescribeEndpoint](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [DescribeTrainingJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

# Contoh Secrets Manager menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_secrets-manager_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Secrets Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `BatchGetSecretValue`
<a name="secrets-manager_BatchGetSecretValue_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetSecretValue`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/smr#code-examples). 

```
    TRY.
        " iv_filter_name = 'mySecret'
        DATA(lo_result) = lo_smr->batchgetsecretvalue(
          it_filters = VALUE /aws1/cl_smrfilter=>tt_filterslisttype(
            (
              NEW /aws1/cl_smrfilter(
                iv_key = 'name'
                it_values = VALUE /aws1/cl_smrfiltvalsstrlist_w=>tt_filtervaluesstringlist(
                  ( NEW /aws1/cl_smrfiltvalsstrlist_w( iv_value = iv_filter_name ) )
                )
              )
            )
          )
        ).
        ot_secret_values = lo_result->get_secretvalues( ).
        MESSAGE 'Secrets retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_smrresourcenotfoundex.
        MESSAGE 'One or more requested secrets were not found.' TYPE 'E'.
      CATCH /aws1/cx_smrdecryptionfailure.
        MESSAGE 'Failed to decrypt one or more secrets.' TYPE 'E'.
      CATCH /aws1/cx_smrinvalidparameterex.
        MESSAGE 'Invalid parameter provided.' TYPE 'E'.
      CATCH /aws1/cx_smrinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [BatchGetSecretValue](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetSecretValue`
<a name="secrets-manager_GetSecretValue_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetSecretValue`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/smr#code-examples). 

```
    TRY.
        " iv_secret_name = 'MySecretName'
        DATA(lo_result) = lo_smr->getsecretvalue( iv_secretid = iv_secret_name ).
        ov_secret_value = lo_result->get_secretstring( ).
        MESSAGE 'Secret value retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_smrresourcenotfoundex.
        MESSAGE 'The requested secret was not found.' TYPE 'E'.
      CATCH /aws1/cx_smrdecryptionfailure.
        MESSAGE 'Failed to decrypt the secret.' TYPE 'E'.
      CATCH /aws1/cx_smrinvalidparameterex.
        MESSAGE 'Invalid parameter provided.' TYPE 'E'.
      CATCH /aws1/cx_smrinvalidrequestex.
        MESSAGE 'Invalid request.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetSecretValue](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon SES menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_ses_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon SES.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateReceiptFilter`
<a name="ses_CreateReceiptFilter_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptFilter`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    " iv_allow = abap_true means 'Allow', abap_false means 'Block'
    DATA(lv_policy) = COND /aws1/sesreceiptfilterpolicy(
      WHEN iv_allow = abap_true THEN 'Allow'
      ELSE 'Block'
    ).

    DATA(lo_ip_filter) = NEW /aws1/cl_sesreceiptipfilter(
      iv_policy = lv_policy
      iv_cidr = iv_ip_address_or_range
    ).

    DATA(lo_filter) = NEW /aws1/cl_sesreceiptfilter(
      iv_name = iv_filter_name
      io_ipfilter = lo_ip_filter
    ).

    TRY.
        lo_ses->createreceiptfilter( io_filter = lo_filter ).
        MESSAGE 'Receipt filter created successfully' TYPE 'I'.
      CATCH /aws1/cx_sesalreadyexistsex INTO DATA(lo_ex1).
        DATA(lv_error) = |Filter already exists: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateReceiptFilter](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateReceiptRule`
<a name="ses_CreateReceiptRule_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptRule`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    " Create S3 action for copying emails to S3
    DATA(lo_s3_action) = NEW /aws1/cl_sess3action(
      iv_bucketname = iv_bucket_name
      iv_objectkeyprefix = iv_prefix
    ).

    " Create receipt action with S3 action
    DATA(lo_action) = NEW /aws1/cl_sesreceiptaction(
      io_s3action = lo_s3_action
    ).

    " Create list of actions
    DATA lt_actions TYPE /aws1/cl_sesreceiptaction=>tt_receiptactionslist.
    APPEND lo_action TO lt_actions.

    " Create receipt rule
    DATA(lo_rule) = NEW /aws1/cl_sesreceiptrule(
      iv_name = iv_rule_name
      iv_enabled = abap_true
      it_recipients = it_recipients
      it_actions = lt_actions
    ).

    TRY.
        lo_ses->createreceiptrule(
          iv_rulesetname = iv_rule_set_name
          io_rule = lo_rule
        ).
        MESSAGE 'Receipt rule created successfully' TYPE 'I'.
      CATCH /aws1/cx_sesinvalids3confex INTO DATA(lo_ex1).
        DATA(lv_error) = |Invalid S3 configuration: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateReceiptRule](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateReceiptRuleSet`
<a name="ses_CreateReceiptRuleSet_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateReceiptRuleSet`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        lo_ses->createreceiptruleset( iv_rulesetname = iv_rule_set_name ).
        MESSAGE 'Receipt rule set created successfully' TYPE 'I'.
      CATCH /aws1/cx_sesalreadyexistsex INTO DATA(lo_ex1).
        DATA(lv_error) = |Rule set already exists: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateReceiptRuleSet](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateTemplate`
<a name="ses_CreateTemplate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTemplate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    DATA(lo_template) = NEW /aws1/cl_sestemplate(
      iv_templatename = iv_name
      iv_subjectpart = iv_subject
      iv_textpart = iv_text
      iv_htmlpart = iv_html
    ).

    TRY.
        lo_ses->createtemplate( io_template = lo_template ).
        MESSAGE 'Template created successfully' TYPE 'I'.
      CATCH /aws1/cx_sesalreadyexistsex INTO DATA(lo_ex1).
        DATA(lv_error) = |Template already exists: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_sesinvalidtemplateex INTO DATA(lo_ex2).
        lv_error = |Invalid template: { lo_ex2->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex2.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateTemplate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteIdentity`
<a name="ses_DeleteIdentity_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteIdentity`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        lo_ses->deleteidentity( iv_identity = iv_identity ).
        MESSAGE 'Identity deleted successfully' TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteIdentity](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteReceiptFilter`
<a name="ses_DeleteReceiptFilter_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptFilter`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        lo_ses->deletereceiptfilter( iv_filtername = iv_filter_name ).
        MESSAGE 'Receipt filter deleted successfully' TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteReceiptFilter](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteReceiptRule`
<a name="ses_DeleteReceiptRule_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptRule`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        lo_ses->deletereceiptrule(
          iv_rulesetname = iv_rule_set_name
          iv_rulename = iv_rule_name
        ).
        MESSAGE 'Receipt rule deleted successfully' TYPE 'I'.
      CATCH /aws1/cx_sesrulesetdoesnotexex INTO DATA(lo_ex1).
        DATA(lv_error) = |Rule set does not exist: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteReceiptRule](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteReceiptRuleSet`
<a name="ses_DeleteReceiptRuleSet_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteReceiptRuleSet`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        lo_ses->deletereceiptruleset( iv_rulesetname = iv_rule_set_name ).
        MESSAGE 'Receipt rule set deleted successfully' TYPE 'I'.
      CATCH /aws1/cx_sescannotdeleteex INTO DATA(lo_ex1).
        DATA(lv_error) = |Cannot delete rule set: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteReceiptRuleSet](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteTemplate`
<a name="ses_DeleteTemplate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTemplate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        lo_ses->deletetemplate( iv_templatename = iv_template_name ).
        MESSAGE 'Template deleted successfully' TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteTemplate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeReceiptRuleSet`
<a name="ses_DescribeReceiptRuleSet_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeReceiptRuleSet`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        oo_result = lo_ses->describereceiptruleset(
          iv_rulesetname = iv_rule_set_name
        ).
        MESSAGE 'Receipt rule set described successfully' TYPE 'I'.
      CATCH /aws1/cx_sesrulesetdoesnotexex INTO DATA(lo_ex1).
        DATA(lv_error) = |Rule set does not exist: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeReceiptRuleSet](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetIdentityVerificationAttributes`
<a name="ses_GetIdentityVerificationAttributes_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetIdentityVerificationAttributes`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    DATA lt_identities TYPE /aws1/cl_sesidentitylist_w=>tt_identitylist.
    APPEND NEW /aws1/cl_sesidentitylist_w( iv_value = iv_identity ) TO lt_identities.

    TRY.
        DATA(lo_result) = lo_ses->getidentityverificationattrs(
          it_identities = lt_identities
        ).

        DATA(lt_attrs) = lo_result->get_verificationattributes( ).
        IF lt_attrs IS NOT INITIAL.
          LOOP AT lt_attrs ASSIGNING FIELD-SYMBOL(<ls_attr>).
            ov_status = <ls_attr>-value->get_verificationstatus( ).
            EXIT.
          ENDLOOP.
        ELSE.
          ov_status = 'NotFound'.
        ENDIF.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [GetIdentityVerificationAttributes](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetTemplate`
<a name="ses_GetTemplate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTemplate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_ses->gettemplate( iv_templatename = iv_template_name ).
        oo_template = lo_result->get_template( ).
        MESSAGE 'Template retrieved successfully' TYPE 'I'.
      CATCH /aws1/cx_sestmpldoesnotexistex INTO DATA(lo_ex1).
        DATA(lv_error) = |Template does not exist: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [GetTemplate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListIdentities`
<a name="ses_ListIdentities_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentities`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_ses->listidentities(
          iv_identitytype = iv_identity_type
          iv_maxitems = iv_max_items
        ).
        ot_identities = lo_result->get_identities( ).
        MESSAGE 'Identities retrieved successfully' TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [ListIdentities](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListReceiptFilters`
<a name="ses_ListReceiptFilters_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListReceiptFilters`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_ses->listreceiptfilters( ).
        ot_filters = lo_result->get_filters( ).
        MESSAGE 'Receipt filters retrieved successfully' TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [ListReceiptFilters](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTemplates`
<a name="ses_ListTemplates_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTemplates`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_ses->listtemplates( iv_maxitems = iv_max_items ).
        ot_templates = lo_result->get_templatesmetadata( ).
        MESSAGE 'Templates retrieved successfully' TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTemplates](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SendEmail`
<a name="ses_SendEmail_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    " Create message object
    DATA(lo_subject) = NEW /aws1/cl_sescontent( iv_data = iv_subject ).
    DATA(lo_text_body) = NEW /aws1/cl_sescontent( iv_data = iv_text ).
    DATA(lo_html_body) = NEW /aws1/cl_sescontent( iv_data = iv_html ).
    DATA(lo_body) = NEW /aws1/cl_sesbody(
      io_text = lo_text_body
      io_html = lo_html_body
    ).
    DATA(lo_message) = NEW /aws1/cl_sesmessage(
      io_subject = lo_subject
      io_body = lo_body
    ).

    TRY.
        " Send email
        DATA(lo_result) = lo_ses->sendemail(
          iv_source = iv_source
          io_destination = io_destination
          io_message = lo_message
          it_replytoaddresses = it_reply_tos
        ).
        ov_msg_id = lo_result->get_messageid( ).
        MESSAGE 'Email sent successfully' TYPE 'I'.
      CATCH /aws1/cx_sesacctsendingpause00 INTO DATA(lo_ex1).
        DATA(lv_error) = |Account sending paused: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_sesmessagerejected INTO DATA(lo_ex2).
        lv_error = |Message rejected: { lo_ex2->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex2.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SendTemplatedEmail`
<a name="ses_SendTemplatedEmail_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTemplatedEmail`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        " Send templated email
        DATA(lo_result) = lo_ses->sendtemplatedemail(
          iv_source = iv_source
          io_destination = io_destination
          iv_template = iv_template_name
          iv_templatedata = iv_template_data
          it_replytoaddresses = it_reply_tos
        ).
        ov_msg_id = lo_result->get_messageid( ).
        MESSAGE 'Templated email sent successfully' TYPE 'I'.
      CATCH /aws1/cx_sestmpldoesnotexistex INTO DATA(lo_ex1).
        DATA(lv_error) = |Template does not exist: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [SendTemplatedEmail](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateTemplate`
<a name="ses_UpdateTemplate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateTemplate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    DATA(lo_template) = NEW /aws1/cl_sestemplate(
      iv_templatename = iv_name
      iv_subjectpart = iv_subject
      iv_textpart = iv_text
      iv_htmlpart = iv_html
    ).

    TRY.
        lo_ses->updatetemplate( io_template = lo_template ).
        MESSAGE 'Template updated successfully' TYPE 'I'.
      CATCH /aws1/cx_sestmpldoesnotexistex INTO DATA(lo_ex1).
        DATA(lv_error) = |Template does not exist: { lo_ex1->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex1.
      CATCH /aws1/cx_sesinvalidtemplateex INTO DATA(lo_ex2).
        lv_error = |Invalid template: { lo_ex2->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex2.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex_generic).
        lv_error = |An error occurred: { lo_ex_generic->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex_generic.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateTemplate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `VerifyDomainIdentity`
<a name="ses_VerifyDomainIdentity_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyDomainIdentity`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_ses->verifydomainidentity( iv_domain = iv_domain_name ).
        ov_token = lo_result->get_verificationtoken( ).
        MESSAGE 'Domain verification initiated' TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [VerifyDomainIdentity](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `VerifyEmailIdentity`
<a name="ses_VerifyEmailIdentity_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifyEmailIdentity`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ses#code-examples). 

```
    TRY.
        lo_ses->verifyemailidentity( iv_emailaddress = iv_email_address ).
        MESSAGE 'Email verification initiated' TYPE 'I'.
      CATCH /aws1/cx_rt_generic INTO DATA(lo_ex).
        DATA(lv_error) = |An error occurred: { lo_ex->get_text( ) }|.
        MESSAGE lv_error TYPE 'I'.
        RAISE EXCEPTION lo_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [VerifyEmailIdentity](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon SES API v2 menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_sesv2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon SES API v2.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateContact`
<a name="sesv2_CreateContact_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContact`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 

```
    TRY.
        lo_se2->createcontact(
          iv_contactlistname = iv_contact_list_name
          iv_emailaddress = iv_email_address ).
        MESSAGE 'Contact created successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2alreadyexistsex.
        MESSAGE 'Contact already exists.' TYPE 'I'.
      CATCH /aws1/cx_se2badrequestex.
        MESSAGE 'Bad request.' TYPE 'E'.
      CATCH /aws1/cx_se2notfoundexception.
        MESSAGE 'Contact list not found.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateContact](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateContactList`
<a name="sesv2_CreateContactList_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateContactList`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 

```
    TRY.
        lo_se2->createcontactlist(
          iv_contactlistname = iv_contact_list_name ).
        MESSAGE 'Contact list created successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2alreadyexistsex.
        MESSAGE 'Contact list already exists.' TYPE 'I'.
      CATCH /aws1/cx_se2badrequestex INTO DATA(lo_bad_request).
        MESSAGE 'Bad request - contact list limit may be reached.' TYPE 'I'.
        " Re-raise the exception so the caller can handle it
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_se2limitexceededex INTO DATA(lo_limit_exceeded).
        MESSAGE 'Limit exceeded - contact list limit reached.' TYPE 'I'.
        " Re-raise the exception so the caller can handle it
        RAISE EXCEPTION lo_limit_exceeded.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateContactList](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateEmailIdentity`
<a name="sesv2_CreateEmailIdentity_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailIdentity`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 

```
    TRY.
        lo_se2->createemailidentity(
          iv_emailidentity = iv_email_identity ).
        MESSAGE 'Email identity created successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2alreadyexistsex.
        MESSAGE 'Email identity already exists.' TYPE 'I'.
      CATCH /aws1/cx_se2badrequestex INTO DATA(lo_bad_request).
        MESSAGE lo_bad_request TYPE 'I' DISPLAY LIKE 'E'.
      CATCH /aws1/cx_se2limitexceededex INTO DATA(lo_limit_exceeded).
        MESSAGE lo_limit_exceeded TYPE 'I' DISPLAY LIKE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateEmailIdentity](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateEmailTemplate`
<a name="sesv2_CreateEmailTemplate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateEmailTemplate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 

```
    TRY.
        DATA(lo_template_content) = NEW /aws1/cl_se2emailtmplcontent(
          iv_subject = iv_subject
          iv_html = iv_html
          iv_text = iv_text ).

        lo_se2->createemailtemplate(
          iv_templatename = iv_template_name
          io_templatecontent = lo_template_content ).
        MESSAGE 'Email template created successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2alreadyexistsex.
        MESSAGE 'Email template already exists.' TYPE 'I'.
      CATCH /aws1/cx_se2badrequestex.
        MESSAGE 'Bad request.' TYPE 'E'.
      CATCH /aws1/cx_se2limitexceededex.
        MESSAGE 'Limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateEmailTemplate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteContactList`
<a name="sesv2_DeleteContactList_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteContactList`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 

```
    TRY.
        lo_se2->deletecontactlist(
          iv_contactlistname = iv_contact_list_name ).
        MESSAGE 'Contact list deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2notfoundexception.
        MESSAGE 'Contact list not found.' TYPE 'I'.
      CATCH /aws1/cx_se2badrequestex INTO DATA(lo_bad_request).
        MESSAGE 'Bad request.' TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteContactList](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteEmailIdentity`
<a name="sesv2_DeleteEmailIdentity_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailIdentity`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 

```
    TRY.
        lo_se2->deleteemailidentity(
          iv_emailidentity = iv_email_identity ).
        MESSAGE 'Email identity deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2notfoundexception.
        MESSAGE 'Email identity not found.' TYPE 'I'.
      CATCH /aws1/cx_se2badrequestex INTO DATA(lo_bad_request).
        MESSAGE 'Bad request.' TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteEmailIdentity](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteEmailTemplate`
<a name="sesv2_DeleteEmailTemplate_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteEmailTemplate`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 

```
    TRY.
        lo_se2->deleteemailtemplate(
          iv_templatename = iv_template_name ).
        MESSAGE 'Email template deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2notfoundexception.
        MESSAGE 'Email template not found.' TYPE 'I'.
      CATCH /aws1/cx_se2badrequestex INTO DATA(lo_bad_request).
        MESSAGE 'Bad request.' TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteEmailTemplate](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListContacts`
<a name="sesv2_ListContacts_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListContacts`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 

```
    TRY.
        oo_result = lo_se2->listcontacts(
          iv_contactlistname = iv_contact_list_name ).
        DATA(lv_count) = lines( oo_result->get_contacts( ) ).
        MESSAGE |Retrieved { lv_count } contacts from list.| TYPE 'I'.
      CATCH /aws1/cx_se2badrequestex INTO DATA(lo_bad_request).
        MESSAGE 'Bad request.' TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_se2notfoundexception INTO DATA(lo_not_found).
        MESSAGE 'Contact list not found.' TYPE 'I'.
        RAISE EXCEPTION lo_not_found.
    ENDTRY.
```
+  Untuk detail API, lihat [ListContacts](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SendEmail`
<a name="sesv2_SendEmail_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendEmail`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/se2#code-examples). 
Mengirim pesan.  

```
    TRY.
        " Create destination with recipient address
        DATA lt_to_addresses TYPE /aws1/cl_se2emailaddresslist_w=>tt_emailaddresslist.
        APPEND NEW /aws1/cl_se2emailaddresslist_w( iv_value = iv_to_email_address ) TO lt_to_addresses.
        DATA(lo_destination) = NEW /aws1/cl_se2destination(
          it_toaddresses = lt_to_addresses ).

        " Create message content
        DATA(lo_subject) = NEW /aws1/cl_se2content( iv_data = iv_subject ).
        DATA(lo_text_body) = NEW /aws1/cl_se2content( iv_data = iv_text_body ).
        DATA(lo_html_body) = NEW /aws1/cl_se2content( iv_data = iv_html_body ).
        DATA(lo_body) = NEW /aws1/cl_se2body(
          io_text = lo_text_body
          io_html = lo_html_body ).
        DATA(lo_message) = NEW /aws1/cl_se2message(
          io_subject = lo_subject
          io_body = lo_body ).

        DATA(lo_content) = NEW /aws1/cl_se2emailcontent(
          io_simple = lo_message ).

        " Send the email
        lo_se2->sendemail(
          iv_fromemailaddress = iv_from_email_address
          io_destination = lo_destination
          io_content = lo_content ).
        MESSAGE 'Email sent successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2accountsuspendedex INTO DATA(lo_account_suspended).
        MESSAGE 'Account suspended.' TYPE 'I'.
        RAISE EXCEPTION lo_account_suspended.
      CATCH /aws1/cx_se2badrequestex INTO DATA(lo_bad_request).
        MESSAGE 'Bad request.' TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_se2messagerejected INTO DATA(lo_message_rejected).
        MESSAGE 'Message rejected - check email verification.' TYPE 'I'.
        RAISE EXCEPTION lo_message_rejected.
    ENDTRY.
```
Mengirim pesan menggunakan template.  

```
    TRY.
        " Create destination with recipient address
        DATA lt_to_addresses TYPE /aws1/cl_se2emailaddresslist_w=>tt_emailaddresslist.
        APPEND NEW /aws1/cl_se2emailaddresslist_w( iv_value = iv_to_email_address ) TO lt_to_addresses.
        DATA(lo_destination) = NEW /aws1/cl_se2destination(
          it_toaddresses = lt_to_addresses ).

        " Create template reference
        DATA(lo_template) = NEW /aws1/cl_se2template(
          iv_templatename = iv_template_name
          iv_templatedata = iv_template_data ).

        DATA(lo_content) = NEW /aws1/cl_se2emailcontent(
          io_template = lo_template ).

        " Create list management options
        DATA(lo_list_mgmt) = NEW /aws1/cl_se2listmanagementopts(
          iv_contactlistname = iv_contact_list_name ).

        " Send the email using template
        lo_se2->sendemail(
          iv_fromemailaddress = iv_from_email_address
          io_destination = lo_destination
          io_content = lo_content
          io_listmanagementoptions = lo_list_mgmt ).
        MESSAGE 'Email sent using template successfully.' TYPE 'I'.
      CATCH /aws1/cx_se2accountsuspendedex INTO DATA(lo_account_suspended).
        MESSAGE 'Account suspended.' TYPE 'I'.
        RAISE EXCEPTION lo_account_suspended.
      CATCH /aws1/cx_se2badrequestex INTO DATA(lo_bad_request).
        MESSAGE 'Bad request.' TYPE 'I'.
        RAISE EXCEPTION lo_bad_request.
      CATCH /aws1/cx_se2messagerejected INTO DATA(lo_message_rejected).
        MESSAGE 'Message rejected - check email verification.' TYPE 'I'.
        RAISE EXCEPTION lo_message_rejected.
    ENDTRY.
```
+  Untuk detail API, lihat [SendEmail](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon SNS menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateTopic`
<a name="sns_CreateTopic_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        oo_result = lo_sns->createtopic( iv_name = iv_topic_name ). " oo_result is returned for testing purposes. "
        MESSAGE 'SNS topic created' TYPE 'I'.
      CATCH /aws1/cx_snstopiclimitexcdex.
        MESSAGE 'Unable to create more topics. You have reached the maximum number of topics allowed.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateTopic](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteTopic`
<a name="sns_DeleteTopic_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        lo_sns->deletetopic( iv_topicarn = iv_topic_arn ).
        MESSAGE 'SNS topic deleted.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteTopic](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetTopicAttributes`
<a name="sns_GetTopicAttributes_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTopicAttributes`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        oo_result = lo_sns->gettopicattributes( iv_topicarn = iv_topic_arn ). " oo_result is returned for testing purposes. "
        DATA(lt_attributes) = oo_result->get_attributes( ).
        MESSAGE 'Retrieved attributes/properties of a topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetTopicAttributes](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListSubscriptions`
<a name="sns_ListSubscriptions_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListSubscriptions`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        oo_result = lo_sns->listsubscriptions( ).                " oo_result is returned for testing purposes. "
        DATA(lt_subscriptions) = oo_result->get_subscriptions( ).
        MESSAGE 'Retrieved list of subscribers.' TYPE 'I'.
      CATCH /aws1/cx_rt_generic.
        MESSAGE 'Unable to list subscribers.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListSubscriptions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTopics`
<a name="sns_ListTopics_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        oo_result = lo_sns->listtopics( ).            " oo_result is returned for testing purposes. "
        DATA(lt_topics) = oo_result->get_topics( ).
        MESSAGE 'Retrieved list of topics.' TYPE 'I'.
      CATCH /aws1/cx_rt_generic.
        MESSAGE 'Unable to list topics.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTopics](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `Publish`
<a name="sns_Publish_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        oo_result = lo_sns->publish(              " oo_result is returned for testing purposes. "
          iv_topicarn = iv_topic_arn
          iv_message = iv_message ).
        MESSAGE 'Message published to SNS topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
    ENDTRY.
```
Publikasikan pesan dengan atribut ke topik.  

```
    TRY.
        oo_result = lo_sns->publish(              " oo_result is returned for testing purposes. "
          iv_topicarn = iv_topic_arn
          iv_message = iv_message
          it_messageattributes = it_msg_attrs ).
        MESSAGE 'Message with attributes published to SNS topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
    ENDTRY.
```
Publikasikan pesan multi-format ke suatu topik.  

```
    " Build JSON message structure for multi-format message
    DATA(lv_json_message) = |\{ "default": "{ iv_default_message }", "sms": "{ iv_sms_message }", "email": "{ iv_email_message }" \}|.

    TRY.
        oo_result = lo_sns->publish(              " oo_result is returned for testing purposes. "
          iv_topicarn = iv_topic_arn
          iv_message = lv_json_message
          iv_subject = iv_subject
          iv_messagestructure = 'json' ).
        MESSAGE 'Multi-format message published to SNS topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

### `SetSubscriptionAttributes`
<a name="sns_SetSubscriptionAttributes_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetSubscriptionAttributes`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        lo_sns->setsubscriptionattributes(
            iv_subscriptionarn = iv_subscription_arn
            iv_attributename  = 'FilterPolicy'
            iv_attributevalue = iv_filter_policy ).
        MESSAGE 'Added filter policy to subscription.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Subscription does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SetSubscriptionAttributes](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SetTopicAttributes`
<a name="sns_SetTopicAttributes_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetTopicAttributes`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        lo_sns->settopicattributes(
            iv_topicarn = iv_topic_arn
            iv_attributename  = iv_attribute_name
            iv_attributevalue = iv_attribute_value ).
        MESSAGE 'Set/updated SNS topic attributes.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SetTopicAttributes](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `Subscribe`
<a name="sns_Subscribe_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
    TRY.
        oo_result = lo_sns->subscribe(                      "oo_result is returned for testing purposes."
                iv_topicarn = iv_topic_arn
                iv_protocol = 'email'
                iv_endpoint = iv_email_address
                iv_returnsubscriptionarn = abap_true ).
        MESSAGE 'Email address subscribed to SNS topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
      CATCH /aws1/cx_snssubscriptionlmte00.
        MESSAGE 'Unable to create subscriptions. You have reached the maximum number of subscriptions allowed.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Berlangganan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

### `Unsubscribe`
<a name="sns_Unsubscribe_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    TRY.
        lo_sns->unsubscribe( iv_subscriptionarn = iv_subscription_arn ).
        MESSAGE 'Subscription deleted.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Subscription does not exist.' TYPE 'E'.
      CATCH /aws1/cx_snsinvalidparameterex.
        MESSAGE 'Subscription with "PendingConfirmation" status cannot be deleted/unsubscribed. Confirm subscription before performing unsubscribe operation.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Berhenti berlangganan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi SAP ABAP* API. 

## Skenario
<a name="scenarios"></a>

### Buat dan publikasikan ke topik FIFO
<a name="sns_PublishFifoTopic_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mempublikasikan ke topik FIFO Amazon SNS.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 
Buat topik FIFO, berlangganan antrian Amazon SQS FIFO ke topik tersebut, dan publikasikan pesan ke topik Amazon SNS.  

```
    " Creates a FIFO topic. "
    DATA lt_tpc_attributes TYPE /aws1/cl_snstopicattrsmap_w=>tt_topicattributesmap.
    DATA ls_tpc_attributes TYPE /aws1/cl_snstopicattrsmap_w=>ts_topicattributesmap_maprow.
    ls_tpc_attributes-key = 'FifoTopic'.
    ls_tpc_attributes-value = NEW /aws1/cl_snstopicattrsmap_w( iv_value = 'true' ).
    INSERT ls_tpc_attributes INTO TABLE lt_tpc_attributes.

    TRY.
        DATA(lo_create_result) = lo_sns->createtopic(
               iv_name = iv_topic_name
               it_attributes = lt_tpc_attributes ).
        DATA(lv_topic_arn) = lo_create_result->get_topicarn( ).
        ov_topic_arn = lv_topic_arn.                                    " ov_topic_arn is returned for testing purposes. "
        MESSAGE 'FIFO topic created' TYPE 'I'.
      CATCH /aws1/cx_snstopiclimitexcdex.
        MESSAGE 'Unable to create more topics. You have reached the maximum number of topics allowed.' TYPE 'E'.
    ENDTRY.

    " Subscribes an endpoint to an Amazon Simple Notification Service (Amazon SNS) topic. "
    " Only Amazon Simple Queue Service (Amazon SQS) FIFO queues can be subscribed to an SNS FIFO topic. "
    TRY.
        DATA(lo_subscribe_result) = lo_sns->subscribe(
               iv_topicarn = lv_topic_arn
               iv_protocol = 'sqs'
               iv_endpoint = iv_queue_arn ).
        DATA(lv_subscription_arn) = lo_subscribe_result->get_subscriptionarn( ).
        ov_subscription_arn = lv_subscription_arn.                      " ov_subscription_arn is returned for testing purposes. "
        MESSAGE 'SQS queue was subscribed to SNS topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
      CATCH /aws1/cx_snssubscriptionlmte00.
        MESSAGE 'Unable to create subscriptions. You have reached the maximum number of subscriptions allowed.' TYPE 'E'.
    ENDTRY.

    " Publish message to SNS topic. "
    TRY.
        DATA lt_msg_attributes TYPE /aws1/cl_snsmessageattrvalue=>tt_messageattributemap.
        DATA ls_msg_attributes TYPE /aws1/cl_snsmessageattrvalue=>ts_messageattributemap_maprow.
        ls_msg_attributes-key = 'Importance'.
        ls_msg_attributes-value = NEW /aws1/cl_snsmessageattrvalue( iv_datatype = 'String'
                                                                    iv_stringvalue = 'High' ).
        INSERT ls_msg_attributes INTO TABLE lt_msg_attributes.

        DATA(lo_result) = lo_sns->publish(
             iv_topicarn = lv_topic_arn
             iv_message = 'The price of your mobile plan has been increased from $19 to $23'
             iv_subject = 'Changes to mobile plan'
             iv_messagegroupid = 'Update-2'
             iv_messagededuplicationid = 'Update-2.1'
             it_messageattributes = lt_msg_attributes ).
        ov_message_id = lo_result->get_messageid( ).                    " ov_message_id is returned for testing purposes. "
        MESSAGE 'Message was published to SNS topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [CreateTopic](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [Publikasikan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [Berlangganan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

### Publikasikan pesan teks SMS
<a name="sns_PublishTextSMS_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara mempublikasikan pesan SMS menggunakan Amazon SNS.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 

```
    " iv_phone_number = '+12065550101' - Phone number in E.164 format
    TRY.
        oo_result = lo_sns->publish(              " oo_result is returned for testing purposes. "
          iv_phonenumber = iv_phone_number
          iv_message = iv_message ).
        MESSAGE 'Message published to phone number.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Phone number does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [Publikasikan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) di *AWS SDK untuk referensi API SAP ABAP*. 

# Contoh Amazon SQS menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `CreateQueue`
<a name="sqs_CreateQueue_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 
Buat antrian standar Amazon SQS.  

```
    TRY.
        oo_result = lo_sqs->createqueue( iv_queuename = iv_queue_name ).        " oo_result is returned for testing purposes. "
        MESSAGE 'SQS queue created.' TYPE 'I'.
      CATCH /aws1/cx_sqsqueuedeldrecently.
        MESSAGE 'After deleting a queue, wait 60 seconds before creating another queue with the same name.' TYPE 'E'.
      CATCH /aws1/cx_sqsqueuenameexists.
        MESSAGE 'A queue with this name already exists.' TYPE 'E'.
    ENDTRY.
```
Buat antrean Amazon SQS yang menunggu pesan tiba.  

```
    TRY.
        DATA lt_attributes TYPE /aws1/cl_sqsqueueattrmap_w=>tt_queueattributemap.
        DATA ls_attribute TYPE /aws1/cl_sqsqueueattrmap_w=>ts_queueattributemap_maprow.
        ls_attribute-key = 'ReceiveMessageWaitTimeSeconds'.               " Time in seconds for long polling, such as how long the call waits for a message to arrive in the queue before returning. "
        ls_attribute-value = NEW /aws1/cl_sqsqueueattrmap_w( iv_value = iv_wait_time ).
        INSERT ls_attribute INTO TABLE lt_attributes.
        oo_result = lo_sqs->createqueue(                  " oo_result is returned for testing purposes. "
                iv_queuename = iv_queue_name
                it_attributes = lt_attributes ).
        MESSAGE 'SQS queue created.' TYPE 'I'.
      CATCH /aws1/cx_sqsqueuedeldrecently.
        MESSAGE 'After deleting a queue, wait 60 seconds before creating another queue with the same name.' TYPE 'E'.
      CATCH /aws1/cx_sqsqueuenameexists.
        MESSAGE 'A queue with this name already exists.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateQueue](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteMessage`
<a name="sqs_DeleteMessage_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessage`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 

```
    TRY.
        lo_sqs->deletemessage(
           iv_queueurl = iv_queue_url
           iv_receipthandle = iv_receipt_handle ).
        MESSAGE 'Message deleted from SQS queue.' TYPE 'I'.
      CATCH /aws1/cx_sqsinvalididformat.
        MESSAGE 'The specified receipt handle is not valid.' TYPE 'E'.
      CATCH /aws1/cx_sqsreceipthandleisinv.
        MESSAGE 'The specified receipt handle is not valid for the current version.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteMessage](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteMessageBatch`
<a name="sqs_DeleteMessageBatch_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessageBatch`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 

```
    TRY.
        oo_result = lo_sqs->deletemessagebatch(       " oo_result is returned for testing purposes. "
           iv_queueurl = iv_queue_url
           it_entries = it_entries ).
        MESSAGE 'Messages deleted from SQS queue.' TYPE 'I'.
      CATCH /aws1/cx_sqsbtcentidsnotdist00.
        MESSAGE 'Two or more batch entries in the request have the same ID.' TYPE 'E'.
      CATCH /aws1/cx_sqsemptybatchrequest.
        MESSAGE 'The batch request does not contain any entries.' TYPE 'E'.
      CATCH /aws1/cx_sqsinvbatchentryid.
        MESSAGE 'The ID of a batch entry in a batch request is not valid.' TYPE 'E'.
      CATCH /aws1/cx_sqstoomanyentriesin00.
        MESSAGE 'The batch request contains more entries than allowed.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteMessageBatch](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 

```
    TRY.
        lo_sqs->deletequeue( iv_queueurl = iv_queue_url ).
        MESSAGE 'SQS queue deleted' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteQueue](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetQueueUrl`
<a name="sqs_GetQueueUrl_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueUrl`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 

```
    TRY.
        oo_result = lo_sqs->getqueueurl( iv_queuename = iv_queue_name ).        " oo_result is returned for testing purposes. "
        MESSAGE 'Queue URL retrieved.' TYPE 'I'.
      CATCH /aws1/cx_sqsqueuedoesnotexist.
        MESSAGE 'The requested queue does not exist.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetQueueUrl](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListQueues`
<a name="sqs_ListQueues_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 

```
    TRY.
        oo_result = lo_sqs->listqueues( ).        " oo_result is returned for testing purposes. "
        MESSAGE 'Retrieved list of queues.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListQueues](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 
Menerima pesan dari antrian Amazon SQS.  

```
    TRY.
        oo_result = lo_sqs->receivemessage( iv_queueurl = iv_queue_url ).    " oo_result is returned for testing purposes. "
        DATA(lt_messages) = oo_result->get_messages( ).
        MESSAGE 'Message received from SQS queue.' TYPE 'I'.
      CATCH /aws1/cx_sqsoverlimit.
        MESSAGE 'Maximum number of in-flight messages reached.' TYPE 'E'.
    ENDTRY.
```
Menerima pesan dari antrian Amazon SQS menggunakan dukungan polling panjang.  

```
    TRY.
        oo_result = lo_sqs->receivemessage(           " oo_result is returned for testing purposes. "
                iv_queueurl = iv_queue_url
                iv_waittimeseconds = iv_wait_time ).    " Time in seconds for long polling, such as how long the call waits for a message to arrive in the queue before returning. " ).
        DATA(lt_messages) = oo_result->get_messages( ).
        MESSAGE 'Message received from SQS queue.' TYPE 'I'.
      CATCH /aws1/cx_sqsoverlimit.
        MESSAGE 'Maximum number of in-flight messages reached.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ReceiveMessage](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SendMessage`
<a name="sqs_SendMessage_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessage`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 

```
    TRY.
        oo_result = lo_sqs->sendmessage(              " oo_result is returned for testing purposes. "
           iv_queueurl = iv_queue_url
           iv_messagebody = iv_message ).
        MESSAGE 'Message sent to SQS queue.' TYPE 'I'.
      CATCH /aws1/cx_sqsinvalidmsgconts.
        MESSAGE 'Message contains non-valid characters.' TYPE 'E'.
      CATCH /aws1/cx_sqsunsupportedop.
        MESSAGE 'Operation not supported.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SendMessage](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SendMessageBatch`
<a name="sqs_SendMessageBatch_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendMessageBatch`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sqs#code-examples). 

```
    TRY.
        oo_result = lo_sqs->sendmessagebatch(         " oo_result is returned for testing purposes. "
           iv_queueurl = iv_queue_url
           it_entries = it_messages ).
        MESSAGE 'Messages sent to SQS queue.' TYPE 'I'.
      CATCH /aws1/cx_sqsbtcentidsnotdist00.
        MESSAGE 'Two or more batch entries in the request have the same ID.' TYPE 'E'.
      CATCH /aws1/cx_sqsbatchreqtoolong.
        MESSAGE 'The length of all the messages put together is more than the limit.' TYPE 'E'.
      CATCH /aws1/cx_sqsemptybatchrequest.
        MESSAGE 'The batch request does not contain any entries.' TYPE 'E'.
      CATCH /aws1/cx_sqsinvbatchentryid.
        MESSAGE 'The ID of a batch entry in a batch request is not valid.' TYPE 'E'.
      CATCH /aws1/cx_sqstoomanyentriesin00.
        MESSAGE 'The batch request contains more entries than allowed.' TYPE 'E'.
      CATCH /aws1/cx_sqsunsupportedop.
        MESSAGE 'Operation not supported.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SendMessageBatch](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Skenario
<a name="scenarios"></a>

### Buat dan publikasikan ke topik FIFO
<a name="sns_PublishFifoTopic_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat dan mempublikasikan ke topik FIFO Amazon SNS.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sns#code-examples). 
Buat topik FIFO, berlangganan antrian Amazon SQS FIFO ke topik tersebut, dan publikasikan pesan ke topik Amazon SNS.  

```
    " Creates a FIFO topic. "
    DATA lt_tpc_attributes TYPE /aws1/cl_snstopicattrsmap_w=>tt_topicattributesmap.
    DATA ls_tpc_attributes TYPE /aws1/cl_snstopicattrsmap_w=>ts_topicattributesmap_maprow.
    ls_tpc_attributes-key = 'FifoTopic'.
    ls_tpc_attributes-value = NEW /aws1/cl_snstopicattrsmap_w( iv_value = 'true' ).
    INSERT ls_tpc_attributes INTO TABLE lt_tpc_attributes.

    TRY.
        DATA(lo_create_result) = lo_sns->createtopic(
               iv_name = iv_topic_name
               it_attributes = lt_tpc_attributes ).
        DATA(lv_topic_arn) = lo_create_result->get_topicarn( ).
        ov_topic_arn = lv_topic_arn.                                    " ov_topic_arn is returned for testing purposes. "
        MESSAGE 'FIFO topic created' TYPE 'I'.
      CATCH /aws1/cx_snstopiclimitexcdex.
        MESSAGE 'Unable to create more topics. You have reached the maximum number of topics allowed.' TYPE 'E'.
    ENDTRY.

    " Subscribes an endpoint to an Amazon Simple Notification Service (Amazon SNS) topic. "
    " Only Amazon Simple Queue Service (Amazon SQS) FIFO queues can be subscribed to an SNS FIFO topic. "
    TRY.
        DATA(lo_subscribe_result) = lo_sns->subscribe(
               iv_topicarn = lv_topic_arn
               iv_protocol = 'sqs'
               iv_endpoint = iv_queue_arn ).
        DATA(lv_subscription_arn) = lo_subscribe_result->get_subscriptionarn( ).
        ov_subscription_arn = lv_subscription_arn.                      " ov_subscription_arn is returned for testing purposes. "
        MESSAGE 'SQS queue was subscribed to SNS topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
      CATCH /aws1/cx_snssubscriptionlmte00.
        MESSAGE 'Unable to create subscriptions. You have reached the maximum number of subscriptions allowed.' TYPE 'E'.
    ENDTRY.

    " Publish message to SNS topic. "
    TRY.
        DATA lt_msg_attributes TYPE /aws1/cl_snsmessageattrvalue=>tt_messageattributemap.
        DATA ls_msg_attributes TYPE /aws1/cl_snsmessageattrvalue=>ts_messageattributemap_maprow.
        ls_msg_attributes-key = 'Importance'.
        ls_msg_attributes-value = NEW /aws1/cl_snsmessageattrvalue( iv_datatype = 'String'
                                                                    iv_stringvalue = 'High' ).
        INSERT ls_msg_attributes INTO TABLE lt_msg_attributes.

        DATA(lo_result) = lo_sns->publish(
             iv_topicarn = lv_topic_arn
             iv_message = 'The price of your mobile plan has been increased from $19 to $23'
             iv_subject = 'Changes to mobile plan'
             iv_messagegroupid = 'Update-2'
             iv_messagededuplicationid = 'Update-2.1'
             it_messageattributes = lt_msg_attributes ).
        ov_message_id = lo_result->get_messageid( ).                    " ov_message_id is returned for testing purposes. "
        MESSAGE 'Message was published to SNS topic.' TYPE 'I'.
      CATCH /aws1/cx_snsnotfoundexception.
        MESSAGE 'Topic does not exist.' TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [CreateTopic](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [Publikasikan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [Berlangganan](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

# Contoh Step Functions menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_sfn_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Step Functions.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateActivity`
<a name="sfn_CreateActivity_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateActivity`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_sfn->createactivity(
          iv_name = iv_name
        ).
        ov_activity_arn = lo_result->get_activityarn( ).
        MESSAGE 'Activity created successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfnactivityalrdyex.
        MESSAGE 'Activity already exists.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidname.
        MESSAGE 'Invalid activity name.' TYPE 'E'.
      CATCH /aws1/cx_sfnactivitylimitexcd.
        MESSAGE 'Activity limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateActivity](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateStateMachine`
<a name="sfn_CreateStateMachine_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateStateMachine`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_sfn->createstatemachine(
          iv_name = iv_name
          iv_definition = iv_definition
          iv_rolearn = iv_role_arn
        ).
        ov_state_machine_arn = lo_result->get_statemachinearn( ).
        MESSAGE 'State machine created successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfnstatemachinealrex.
        MESSAGE 'State machine already exists.' TYPE 'E'.
      CATCH /aws1/cx_sfninvaliddefinition.
        MESSAGE 'Invalid state machine definition.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidname.
        MESSAGE 'Invalid state machine name.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidarn.
        MESSAGE 'Invalid role ARN.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateStateMachine](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteActivity`
<a name="sfn_DeleteActivity_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteActivity`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        lo_sfn->deleteactivity(
          iv_activityarn = iv_activity_arn
        ).
        MESSAGE 'Activity deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfninvalidarn.
        MESSAGE 'Invalid activity ARN.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteActivity](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteStateMachine`
<a name="sfn_DeleteStateMachine_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteStateMachine`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        lo_sfn->deletestatemachine(
          iv_statemachinearn = iv_state_machine_arn
        ).
        MESSAGE 'State machine deleted successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfninvalidarn.
        MESSAGE 'Invalid state machine ARN.' TYPE 'E'.
      CATCH /aws1/cx_sfnvalidationex.
        MESSAGE 'Validation error occurred.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteStateMachine](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeExecution`
<a name="sfn_DescribeExecution_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeExecution`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        oo_result = lo_sfn->describeexecution(
          iv_executionarn = iv_execution_arn
        ).
        MESSAGE 'Execution described successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfnexecdoesnotexist.
        MESSAGE 'Execution does not exist.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidarn.
        MESSAGE 'Invalid execution ARN.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeExecution](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeStateMachine`
<a name="sfn_DescribeStateMachine_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeStateMachine`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        oo_result = lo_sfn->describestatemachine(
          iv_statemachinearn = iv_state_machine_arn
        ).
        MESSAGE 'State machine described successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfnstatemachinedoes00.
        MESSAGE 'State machine does not exist.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidarn.
        MESSAGE 'Invalid state machine ARN.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeStateMachine](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetActivityTask`
<a name="sfn_GetActivityTask_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetActivityTask`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        oo_result = lo_sfn->getactivitytask(
          iv_activityarn = iv_activity_arn
        ).
        MESSAGE 'Activity task retrieved successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfnactivitydoesnotex.
        MESSAGE 'Activity does not exist.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidarn.
        MESSAGE 'Invalid activity ARN.' TYPE 'E'.
      CATCH /aws1/cx_sfnactivityworkerlm00.
        MESSAGE 'Activity worker limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetActivityTask](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListActivities`
<a name="sfn_ListActivities_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListActivities`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_sfn->listactivities( ).
        DATA(lt_activities) = lo_result->get_activities( ).
        LOOP AT lt_activities INTO DATA(lo_activity).
          IF lo_activity->get_name( ) = iv_name.
            ov_activity_arn = lo_activity->get_activityarn( ).
            EXIT.
          ENDIF.
        ENDLOOP.
        MESSAGE 'Activities listed successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfninvalidtoken.
        MESSAGE 'Invalid pagination token.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListActivities](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListStateMachines`
<a name="sfn_ListStateMachines_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListStateMachines`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_sfn->liststatemachines( ).
        DATA(lt_state_machines) = lo_result->get_statemachines( ).
        LOOP AT lt_state_machines INTO DATA(lo_state_machine).
          IF lo_state_machine->get_name( ) = iv_name.
            ov_state_machine_arn = lo_state_machine->get_statemachinearn( ).
            EXIT.
          ENDIF.
        ENDLOOP.
        MESSAGE 'State machines listed successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfninvalidtoken.
        MESSAGE 'Invalid pagination token.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListStateMachines](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SendTaskSuccess`
<a name="sfn_SendTaskSuccess_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendTaskSuccess`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        lo_sfn->sendtasksuccess(
          iv_tasktoken = iv_task_token
          iv_output = iv_task_response
        ).
        MESSAGE 'Task success sent successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfninvalidtoken.
        MESSAGE 'Invalid task token.' TYPE 'E'.
      CATCH /aws1/cx_sfntaskdoesnotexist.
        MESSAGE 'Task does not exist.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidoutput.
        MESSAGE 'Invalid task output.' TYPE 'E'.
      CATCH /aws1/cx_sfntasktimedout.
        MESSAGE 'Task timed out.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [SendTaskSuccess](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartExecution`
<a name="sfn_StartExecution_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartExecution`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/sfn#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_sfn->startexecution(
          iv_statemachinearn = iv_state_machine_arn
          iv_input = iv_input
        ).
        ov_execution_arn = lo_result->get_executionarn( ).
        MESSAGE 'Execution started successfully.' TYPE 'I'.
      CATCH /aws1/cx_sfnstatemachinedoes00.
        MESSAGE 'State machine does not exist.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidarn.
        MESSAGE 'Invalid state machine ARN.' TYPE 'E'.
      CATCH /aws1/cx_sfninvalidexecinput.
        MESSAGE 'Invalid execution input.' TYPE 'E'.
      CATCH /aws1/cx_sfnexeclimitexceeded.
        MESSAGE 'Execution limit exceeded.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartExecution](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Systems Manager menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_ssm_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Systems Manager.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateDocument`
<a name="ssm_CreateDocument_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDocument`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        lo_ssm->createdocument(
            iv_name = iv_name
            iv_content = iv_content
            iv_documenttype = 'Command' ).
        MESSAGE 'Document created.' TYPE 'I'.
      CATCH /aws1/cx_ssmdocalreadyexists.
        MESSAGE 'Document already exists.' TYPE 'I'.
      CATCH /aws1/cx_ssminvaliddoccontent.
        MESSAGE 'Invalid document content.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateDocument](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateMaintenanceWindow`
<a name="ssm_CreateMaintenanceWindow_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateMaintenanceWindow`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        oo_result = lo_ssm->createmaintenancewindow(
            iv_name = iv_name
            iv_schedule = iv_schedule
            iv_duration = iv_duration
            iv_cutoff = iv_cutoff
            iv_allowunassociatedtargets = iv_allow_unassociated_targets ).
        MESSAGE 'Maintenance window created.' TYPE 'I'.
      CATCH /aws1/cx_ssmresrclimitexcdex.
        MESSAGE 'Resource limit exceeded.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateMaintenanceWindow](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `CreateOpsItem`
<a name="ssm_CreateOpsItem_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateOpsItem`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        oo_result = lo_ssm->createopsitem(
            iv_title = iv_title
            iv_source = iv_source
            iv_category = iv_category
            iv_severity = iv_severity
            iv_description = iv_description ).
        MESSAGE 'OpsItem created.' TYPE 'I'.
      CATCH /aws1/cx_ssmopsitemlimitexcdex.
        MESSAGE 'You have exceeded your open OpsItem limit.' TYPE 'I'.
      CATCH /aws1/cx_ssmopsitemalrdyexex.
        MESSAGE 'OpsItem already exists.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateOpsItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteDocument`
<a name="ssm_DeleteDocument_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDocument`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        lo_ssm->deletedocument( iv_name = iv_name ).
        MESSAGE 'Document deleted.' TYPE 'I'.
      CATCH /aws1/cx_ssminvaliddocument.
        MESSAGE 'Invalid document.' TYPE 'I'.
      CATCH /aws1/cx_ssmassocdinstances.
        MESSAGE 'Document has associated instances.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteDocument](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteMaintenanceWindow`
<a name="ssm_DeleteMaintenanceWindow_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMaintenanceWindow`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        lo_ssm->deletemaintenancewindow( iv_windowid = iv_window_id ).
        MESSAGE 'Maintenance window deleted.' TYPE 'I'.
      CATCH /aws1/cx_ssminternalservererr.
        MESSAGE 'Internal server error occurred.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteMaintenanceWindow](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteOpsItem`
<a name="ssm_DeleteOpsItem_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteOpsItem`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        lo_ssm->deleteopsitem( iv_opsitemid = iv_ops_item_id ).
        MESSAGE 'OpsItem deleted.' TYPE 'I'.
      CATCH /aws1/cx_ssmopsiteminvparamex.
        MESSAGE 'Invalid OpsItem parameter.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteOpsItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeDocument`
<a name="ssm_DescribeDocument_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDocument`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_ssm->describedocument( iv_name = iv_name ).
        DATA(lo_document) = lo_result->get_document( ).
        IF lo_document IS BOUND.
          rv_status = lo_document->get_status( ).
          MESSAGE |Document status: { rv_status }| TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_ssminvaliddocument.
        MESSAGE 'Invalid document.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeDocument](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DescribeOpsItems`
<a name="ssm_DescribeOpsItems_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOpsItems`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        " Create filter for OpsItem ID
        DATA(lt_filters) = VALUE /aws1/cl_ssmopsitemfilter=>tt_opsitemfilters(
          ( NEW /aws1/cl_ssmopsitemfilter(
              iv_key = 'OpsItemId'
              it_values = VALUE /aws1/cl_ssmopsitemfiltvals_w=>tt_opsitemfiltervalues(
                ( NEW /aws1/cl_ssmopsitemfiltvals_w( iv_value = iv_ops_item_id ) )
              )
              iv_operator = 'Equal'
            ) )
        ).

        " Use paginator to get all results
        DATA(lo_paginator) = lo_ssm->get_paginator( ).
        DATA(lo_iterator) = lo_paginator->describeopsitems(
          it_opsitemfilters = lt_filters ).

        rv_found = abap_false.

        WHILE lo_iterator->has_next( ).
          DATA(lo_result) = CAST /aws1/cl_ssmdescropsitemsrsp( lo_iterator->get_next( ) ).
          LOOP AT lo_result->get_opsitemsummaries( ) INTO DATA(lo_item).
            DATA(lv_title) = lo_item->get_title( ).
            DATA(lv_status) = lo_item->get_status( ).
            MESSAGE |The OpsItem title is { lv_title } and the status is { lv_status }| TYPE 'I'.
            rv_found = abap_true.
          ENDLOOP.
        ENDWHILE.
      CATCH /aws1/cx_ssminternalservererr.
        MESSAGE 'Internal server error occurred.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeOpsItems](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListCommandInvocations`
<a name="ssm_ListCommandInvocations_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListCommandInvocations`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        " Use paginator to get all results
        DATA(lo_paginator) = lo_ssm->get_paginator( ).
        DATA(lo_iterator) = lo_paginator->listcommandinvocations(
          iv_instanceid = iv_instance_id ).

        DATA lv_count TYPE i VALUE 0.

        WHILE lo_iterator->has_next( ).
          DATA(lo_result) = CAST /aws1/cl_ssmlistcmdinvcsresult( lo_iterator->get_next( ) ).
          LOOP AT lo_result->get_commandinvocations( ) INTO DATA(lo_invocation).
            lv_count = lv_count + 1.
            DATA(lv_requested_datetime) = lo_invocation->get_requesteddatetime( ).
            MESSAGE |Command invocation requested at: { lv_requested_datetime }| TYPE 'I'.
          ENDLOOP.
        ENDWHILE.

        MESSAGE |{ lv_count } command invocation(s) found for instance { iv_instance_id }.| TYPE 'I'.
      CATCH /aws1/cx_ssminvalidinstanceid.
        MESSAGE 'Invalid instance ID.' TYPE 'I'.
      CATCH /aws1/cx_ssminvalidcommandid.
        MESSAGE 'Invalid command ID.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListCommandInvocations](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `SendCommand`
<a name="ssm_SendCommand_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SendCommand`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        DATA(lo_result) = lo_ssm->sendcommand(
            it_instanceids = it_instance_ids
            iv_documentname = iv_document_name
            iv_timeoutseconds = 3600 ).
        DATA(lo_command) = lo_result->get_command( ).
        IF lo_command IS BOUND.
          rv_command_id = lo_command->get_commandid( ).
          MESSAGE 'Command sent successfully.' TYPE 'I'.
        ENDIF.
      CATCH /aws1/cx_ssminvaliddocument.
        MESSAGE 'Invalid document.' TYPE 'I'.
      CATCH /aws1/cx_ssminvalidinstanceid.
        MESSAGE 'Invalid instance ID.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [SendCommand](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateMaintenanceWindow`
<a name="ssm_UpdateMaintenanceWindow_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateMaintenanceWindow`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        lo_ssm->updatemaintenancewindow(
            iv_windowid = iv_window_id
            iv_name = iv_name
            iv_enabled = iv_enabled
            iv_schedule = iv_schedule
            iv_duration = iv_duration
            iv_cutoff = iv_cutoff
            iv_allowunassociatedtargets = iv_allow_unassociated_targets ).
        MESSAGE 'Maintenance window updated.' TYPE 'I'.
      CATCH /aws1/cx_ssmdoesnotexistex.
        MESSAGE 'Maintenance window does not exist.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateMaintenanceWindow](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateOpsItem`
<a name="ssm_UpdateOpsItem_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateOpsItem`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ssm#code-examples). 

```
    TRY.
        lo_ssm->updateopsitem(
            iv_opsitemid = iv_ops_item_id
            iv_title = iv_title
            iv_description = iv_description
            iv_status = iv_status ).
        MESSAGE 'OpsItem updated.' TYPE 'I'.
      CATCH /aws1/cx_ssmopsitemnotfoundex.
        MESSAGE 'OpsItem not found.' TYPE 'I'.
      CATCH /aws1/cx_ssmopsiteminvparamex.
        MESSAGE 'Invalid OpsItem parameter.' TYPE 'I'.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateOpsItem](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon Texttract menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_textract_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Textract.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AnalyzeDocument`
<a name="textract_AnalyzeDocument_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AnalyzeDocument`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tex#code-examples). 

```
    "Detects text and additional elements, such as forms or tables,"
    "in a local image file or from in-memory byte data."
    "The image must be in PNG or JPG format."


    "Create ABAP objects for feature type."
    "Add TABLES to return information about the tables."
    "Add FORMS to return detected form data."
    "To perform both types of analysis, add TABLES and FORMS to FeatureTypes."

    DATA(lt_featuretypes) = VALUE /aws1/cl_texfeaturetypes_w=>tt_featuretypes(
      ( NEW /aws1/cl_texfeaturetypes_w( iv_value = 'FORMS' ) )
      ( NEW /aws1/cl_texfeaturetypes_w( iv_value = 'TABLES' ) ) ).

    "Create an ABAP object for the Amazon Simple Storage Service (Amazon S3) object."
    DATA(lo_s3object) = NEW /aws1/cl_texs3object( iv_bucket = iv_s3bucket
      iv_name   = iv_s3object ).

    "Create an ABAP object for the document."
    DATA(lo_document) = NEW /aws1/cl_texdocument( io_s3object = lo_s3object ).

    "Analyze document stored in Amazon S3."
    TRY.
        oo_result = lo_tex->analyzedocument(      "oo_result is returned for testing purposes."
          io_document        = lo_document
          it_featuretypes    = lt_featuretypes ).
        LOOP AT oo_result->get_blocks( ) INTO DATA(lo_block).
          IF lo_block->get_text( ) = 'INGREDIENTS: POWDERED SUGAR* (CANE SUGAR,'.
            MESSAGE 'Found text in the doc: ' && lo_block->get_text( ) TYPE 'I'.
          ENDIF.
        ENDLOOP.
        MESSAGE 'Analyze document completed.' TYPE 'I'.
      CATCH /aws1/cx_texaccessdeniedex.
        MESSAGE 'You do not have permission to perform this action.' TYPE 'E'.
      CATCH /aws1/cx_texbaddocumentex.
        MESSAGE 'Amazon Textract is not able to read the document.' TYPE 'E'.
      CATCH /aws1/cx_texdocumenttoolargeex.
        MESSAGE 'The document is too large.' TYPE 'E'.
      CATCH /aws1/cx_texhlquotaexceededex.
        MESSAGE 'Human loop quota exceeded.' TYPE 'E'.
      CATCH /aws1/cx_texinternalservererr.
        MESSAGE 'Internal server error.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidparameterex.
        MESSAGE 'Request has non-valid parameters.' TYPE 'E'.

      CATCH /aws1/cx_texinvalids3objectex.
        MESSAGE 'Amazon S3 object is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texprovthruputexcdex.
        MESSAGE 'Provisioned throughput exceeded limit.' TYPE 'E'.
      CATCH /aws1/cx_texthrottlingex.
        MESSAGE 'The request processing exceeded the limit.' TYPE 'E'.
      CATCH /aws1/cx_texunsupporteddocex.
        MESSAGE 'The document is not supported.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [AnalyzeDocument](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DetectDocumentText`
<a name="textract_DetectDocumentText_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetectDocumentText`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tex#code-examples). 

```
    "Detects text in the input document."
    "Amazon Textract can detect lines of text and the words that make up a line of text."
    "The input document must be in one of the following image formats: JPEG, PNG, PDF, or TIFF."

    "Create an ABAP object for the Amazon S3 object."
    DATA(lo_s3object) = NEW /aws1/cl_texs3object( iv_bucket = iv_s3bucket
      iv_name   = iv_s3object ).

    "Create an ABAP object for the document."
    DATA(lo_document) = NEW /aws1/cl_texdocument( io_s3object = lo_s3object ).
    "Analyze document stored in Amazon S3."
    TRY.
        oo_result = lo_tex->detectdocumenttext( io_document = lo_document ).         "oo_result is returned for testing purposes."
        LOOP AT oo_result->get_blocks( ) INTO DATA(lo_block).
          IF lo_block->get_text( ) = 'INGREDIENTS: POWDERED SUGAR* (CANE SUGAR,'.
            MESSAGE 'Found text in the doc: ' && lo_block->get_text( ) TYPE 'I'.
          ENDIF.
        ENDLOOP.
        DATA(lo_metadata) = oo_result->get_documentmetadata( ).
        MESSAGE 'The number of pages in the document is ' && lo_metadata->ask_pages( ) TYPE 'I'.
        MESSAGE 'Detect document text completed.' TYPE 'I'.
      CATCH /aws1/cx_texaccessdeniedex.
        MESSAGE 'You do not have permission to perform this action.' TYPE 'E'.
      CATCH /aws1/cx_texbaddocumentex.
        MESSAGE 'Amazon Textract is not able to read the document.' TYPE 'E'.
      CATCH /aws1/cx_texdocumenttoolargeex.
        MESSAGE 'The document is too large.' TYPE 'E'.
      CATCH /aws1/cx_texinternalservererr.
        MESSAGE 'Internal server error.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidparameterex.
        MESSAGE 'Request has non-valid parameters.' TYPE 'E'.
      CATCH /aws1/cx_texinvalids3objectex.
        MESSAGE 'Amazon S3 object is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texprovthruputexcdex.
        MESSAGE 'Provisioned throughput exceeded limit.' TYPE 'E'.
      CATCH /aws1/cx_texthrottlingex.
        MESSAGE 'The request processing exceeded the limit' TYPE 'E'.
      CATCH /aws1/cx_texunsupporteddocex.
        MESSAGE 'The document is not supported.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DetectDocumentText](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetDocumentAnalysis`
<a name="textract_GetDocumentAnalysis_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDocumentAnalysis`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tex#code-examples). 

```
    "Gets the results for an Amazon Textract"
    "asynchronous operation that analyzes text in a document."
    TRY.
        oo_result = lo_tex->getdocumentanalysis( iv_jobid = iv_jobid ).    "oo_result is returned for testing purposes."
        WHILE oo_result->get_jobstatus( ) <> 'SUCCEEDED'.
          IF sy-index = 10.
            EXIT.               "Maximum 300 seconds.
          ENDIF.
          WAIT UP TO 30 SECONDS.
          oo_result = lo_tex->getdocumentanalysis( iv_jobid = iv_jobid ).
        ENDWHILE.

        DATA(lt_blocks) = oo_result->get_blocks( ).
        LOOP AT lt_blocks INTO DATA(lo_block).
          IF lo_block->get_text( ) = 'INGREDIENTS: POWDERED SUGAR* (CANE SUGAR,'.
            MESSAGE 'Found text in the doc: ' && lo_block->get_text( ) TYPE 'I'.
          ENDIF.
        ENDLOOP.
        MESSAGE 'Document analysis retrieved.' TYPE 'I'.
      CATCH /aws1/cx_texaccessdeniedex.
        MESSAGE 'You do not have permission to perform this action.' TYPE 'E'.
      CATCH /aws1/cx_texinternalservererr.
        MESSAGE 'Internal server error.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidjobidex.
        MESSAGE 'Job ID is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidkmskeyex.
        MESSAGE 'AWS KMS key is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidparameterex.
        MESSAGE 'Request has non-valid parameters.' TYPE 'E'.
      CATCH /aws1/cx_texinvalids3objectex.
        MESSAGE 'Amazon S3 object is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texprovthruputexcdex.
        MESSAGE 'Provisioned throughput exceeded limit.' TYPE 'E'.
      CATCH /aws1/cx_texthrottlingex.
        MESSAGE 'The request processing exceeded the limit.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [GetDocumentAnalysis](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartDocumentAnalysis`
<a name="textract_StartDocumentAnalysis_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDocumentAnalysis`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tex#code-examples). 

```
    "Starts the asynchronous analysis of an input document for relationships"
    "between detected items such as key-value pairs, tables, and selection elements."

    "Create ABAP objects for feature type."
    "Add TABLES to return information about the tables."
    "Add FORMS to return detected form data."
    "To perform both types of analysis, add TABLES and FORMS to FeatureTypes."

    DATA(lt_featuretypes) = VALUE /aws1/cl_texfeaturetypes_w=>tt_featuretypes(
      ( NEW /aws1/cl_texfeaturetypes_w( iv_value = 'FORMS' ) )
      ( NEW /aws1/cl_texfeaturetypes_w( iv_value = 'TABLES' ) ) ).
    "Create an ABAP object for the Amazon S3 object."
    DATA(lo_s3object) = NEW /aws1/cl_texs3object( iv_bucket = iv_s3bucket
      iv_name   = iv_s3object ).
    "Create an ABAP object for the document."
    DATA(lo_documentlocation) = NEW /aws1/cl_texdocumentlocation( io_s3object = lo_s3object ).

    "Start async document analysis."
    TRY.
        oo_result = lo_tex->startdocumentanalysis(      "oo_result is returned for testing purposes."
          io_documentlocation     = lo_documentlocation
          it_featuretypes         = lt_featuretypes ).
        DATA(lv_jobid) = oo_result->get_jobid( ).

        MESSAGE 'Document analysis started.' TYPE 'I'.
      CATCH /aws1/cx_texaccessdeniedex.
        MESSAGE 'You do not have permission to perform this action.' TYPE 'E'.
      CATCH /aws1/cx_texbaddocumentex.
        MESSAGE 'Amazon Textract is not able to read the document.' TYPE 'E'.
      CATCH /aws1/cx_texdocumenttoolargeex.
        MESSAGE 'The document is too large.' TYPE 'E'.
      CATCH /aws1/cx_texidempotentprmmis00.
        MESSAGE 'Idempotent parameter mismatch exception.' TYPE 'E'.
      CATCH /aws1/cx_texinternalservererr.
        MESSAGE 'Internal server error.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidkmskeyex.
        MESSAGE 'AWS KMS key is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidparameterex.
        MESSAGE 'Request has non-valid parameters.' TYPE 'E'.
      CATCH /aws1/cx_texinvalids3objectex.
        MESSAGE 'Amazon S3 object is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texlimitexceededex.
        MESSAGE 'An Amazon Textract service limit was exceeded.' TYPE 'E'.
      CATCH /aws1/cx_texprovthruputexcdex.
        MESSAGE 'Provisioned throughput exceeded limit.' TYPE 'E'.
      CATCH /aws1/cx_texthrottlingex.
        MESSAGE 'The request processing exceeded the limit.' TYPE 'E'.
      CATCH /aws1/cx_texunsupporteddocex.
        MESSAGE 'The document is not supported.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartDocumentAnalysis](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartDocumentTextDetection`
<a name="textract_StartDocumentTextDetection_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartDocumentTextDetection`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tex#code-examples). 

```
    "Starts the asynchronous detection of text in a document."
    "Amazon Textract can detect lines of text and the words that make up a line of text."

    "Create an ABAP object for the Amazon S3 object."
    DATA(lo_s3object) = NEW /aws1/cl_texs3object( iv_bucket = iv_s3bucket
      iv_name   = iv_s3object ).
    "Create an ABAP object for the document."
    DATA(lo_documentlocation) = NEW /aws1/cl_texdocumentlocation( io_s3object = lo_s3object ).
    "Start document analysis."
    TRY.
        oo_result = lo_tex->startdocumenttextdetection( io_documentlocation = lo_documentlocation ).
        DATA(lv_jobid) = oo_result->get_jobid( ).             "oo_result is returned for testing purposes."
        MESSAGE 'Document analysis started.' TYPE 'I'.
      CATCH /aws1/cx_texaccessdeniedex.
        MESSAGE 'You do not have permission to perform this action.' TYPE 'E'.
      CATCH /aws1/cx_texbaddocumentex.
        MESSAGE 'Amazon Textract is not able to read the document.' TYPE 'E'.
      CATCH /aws1/cx_texdocumenttoolargeex.
        MESSAGE 'The document is too large.' TYPE 'E'.
      CATCH /aws1/cx_texidempotentprmmis00.
        MESSAGE 'Idempotent parameter mismatch exception.' TYPE 'E'.
      CATCH /aws1/cx_texinternalservererr.
        MESSAGE 'Internal server error.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidkmskeyex.
        MESSAGE 'AWS KMS key is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidparameterex.
        MESSAGE 'Request has non-valid parameters.' TYPE 'E'.
      CATCH /aws1/cx_texinvalids3objectex.
        MESSAGE 'Amazon S3 object is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texlimitexceededex.
        MESSAGE 'An Amazon Textract service limit was exceeded.' TYPE 'E'.
      CATCH /aws1/cx_texprovthruputexcdex.
        MESSAGE 'Provisioned throughput exceeded limit.' TYPE 'E'.
      CATCH /aws1/cx_texthrottlingex.
        MESSAGE 'The request processing exceeded the limit.' TYPE 'E'.
      CATCH /aws1/cx_texunsupporteddocex.
        MESSAGE 'The document is not supported.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartDocumentTextDetection](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Skenario
<a name="scenarios"></a>

### Memulai dengan analisis dokumen
<a name="textract_Scenario_GettingStarted_sap-abap_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulai analisis asinkron.
+ Dapatkan analisis dokumen.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tex#code-examples). 

```
    "Create ABAP objects for feature type."
    "Add TABLES to return information about the tables."
    "Add FORMS to return detected form data."
    "To perform both types of analysis, add TABLES and FORMS to FeatureTypes."

    DATA(lt_featuretypes) = VALUE /aws1/cl_texfeaturetypes_w=>tt_featuretypes(
      ( NEW /aws1/cl_texfeaturetypes_w( iv_value = 'FORMS' ) )
      ( NEW /aws1/cl_texfeaturetypes_w( iv_value = 'TABLES' ) ) ).

    "Create an ABAP object for the Amazon Simple Storage Service (Amazon S3) object."
    DATA(lo_s3object) = NEW /aws1/cl_texs3object( iv_bucket = iv_s3bucket
      iv_name   = iv_s3object ).

    "Create an ABAP object for the document."
    DATA(lo_documentlocation) = NEW /aws1/cl_texdocumentlocation( io_s3object = lo_s3object ).

    "Start document analysis."
    TRY.
        DATA(lo_start_result) = lo_tex->startdocumentanalysis(
          io_documentlocation     = lo_documentlocation
          it_featuretypes         = lt_featuretypes ).
        MESSAGE 'Document analysis started.' TYPE 'I'.
      CATCH /aws1/cx_texaccessdeniedex.
        MESSAGE 'You do not have permission to perform this action.' TYPE 'E'.
      CATCH /aws1/cx_texbaddocumentex.
        MESSAGE 'Amazon Textract is not able to read the document.' TYPE 'E'.
      CATCH /aws1/cx_texdocumenttoolargeex.
        MESSAGE 'The document is too large.' TYPE 'E'.
      CATCH /aws1/cx_texidempotentprmmis00.
        MESSAGE 'Idempotent parameter mismatch exception.' TYPE 'E'.
      CATCH /aws1/cx_texinternalservererr.
        MESSAGE 'Internal server error.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidkmskeyex.
        MESSAGE 'AWS KMS key is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texinvalidparameterex.
        MESSAGE 'Request has non-valid parameters.' TYPE 'E'.
      CATCH /aws1/cx_texinvalids3objectex.
        MESSAGE 'Amazon S3 object is not valid.' TYPE 'E'.
      CATCH /aws1/cx_texlimitexceededex.
        MESSAGE 'An Amazon Textract service limit was exceeded.' TYPE 'E'.
      CATCH /aws1/cx_texprovthruputexcdex.
        MESSAGE 'Provisioned throughput exceeded limit.' TYPE 'E'.
      CATCH /aws1/cx_texthrottlingex.
        MESSAGE 'The request processing exceeded the limit.' TYPE 'E'.
      CATCH /aws1/cx_texunsupporteddocex.
        MESSAGE 'The document is not supported.' TYPE 'E'.
    ENDTRY.

    "Get job ID from the output."
    DATA(lv_jobid) = lo_start_result->get_jobid( ).

    "Wait for job to complete."
    oo_result = lo_tex->getdocumentanalysis( iv_jobid = lv_jobid ).     " oo_result is returned for testing purposes. "
    WHILE oo_result->get_jobstatus( ) <> 'SUCCEEDED'.
      IF sy-index = 10.
        EXIT.               "Maximum 300 seconds."
      ENDIF.
      WAIT UP TO 30 SECONDS.
      oo_result = lo_tex->getdocumentanalysis( iv_jobid = lv_jobid ).
    ENDWHILE.

    DATA(lt_blocks) = oo_result->get_blocks( ).
    LOOP AT lt_blocks INTO DATA(lo_block).
      IF lo_block->get_text( ) = 'INGREDIENTS: POWDERED SUGAR* (CANE SUGAR,'.
        MESSAGE 'Found text in the doc: ' && lo_block->get_text( ) TYPE 'I'.
      ENDIF.
    ENDLOOP.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [GetDocumentAnalysis](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [StartDocumentAnalysis](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

# Contoh Amazon Transcribe menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_transcribe_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Transcribe.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateVocabulary`
<a name="transcribe_CreateVocabulary_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateVocabulary`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        IF it_phrases IS NOT INITIAL.
          oo_result = lo_tnb->createvocabulary(
            iv_vocabularyname = iv_vocabulary_name
            iv_languagecode = iv_language_code
            it_phrases = it_phrases ).
        ELSEIF iv_vocab_file_uri IS NOT INITIAL.
          oo_result = lo_tnb->createvocabulary(
            iv_vocabularyname = iv_vocabulary_name
            iv_languagecode = iv_language_code
            iv_vocabularyfileuri = iv_vocab_file_uri ).
        ENDIF.
        MESSAGE 'Custom vocabulary created.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_tnblimitexceededex INTO DATA(lo_limit_ex).
        MESSAGE lo_limit_ex TYPE 'I'.
        RAISE EXCEPTION lo_limit_ex.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
      CATCH /aws1/cx_tnbconflictexception INTO DATA(lo_conflict_ex).
        MESSAGE lo_conflict_ex TYPE 'I'.
        RAISE EXCEPTION lo_conflict_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [CreateVocabulary](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteTranscriptionJob`
<a name="transcribe_DeleteTranscriptionJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTranscriptionJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        lo_tnb->deletetranscriptionjob( iv_job_name ).
        MESSAGE 'Transcription job deleted.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_tnblimitexceededex INTO DATA(lo_limit_ex).
        MESSAGE lo_limit_ex TYPE 'I'.
        RAISE EXCEPTION lo_limit_ex.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteTranscriptionJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `DeleteVocabulary`
<a name="transcribe_DeleteVocabulary_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteVocabulary`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        lo_tnb->deletevocabulary( iv_vocabulary_name ).
        MESSAGE 'Vocabulary deleted.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
      CATCH /aws1/cx_tnblimitexceededex INTO DATA(lo_limit_ex).
        MESSAGE lo_limit_ex TYPE 'I'.
        RAISE EXCEPTION lo_limit_ex.
      CATCH /aws1/cx_tnbnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex TYPE 'I'.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [DeleteVocabulary](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetTranscriptionJob`
<a name="transcribe_GetTranscriptionJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTranscriptionJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        oo_result = lo_tnb->gettranscriptionjob( iv_job_name ).
        DATA(lo_job) = oo_result->get_transcriptionjob( ).
        MESSAGE 'Retrieved transcription job details.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_tnbnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex TYPE 'I'.
        RAISE EXCEPTION lo_not_found_ex.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [GetTranscriptionJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `GetVocabulary`
<a name="transcribe_GetVocabulary_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetVocabulary`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        oo_result = lo_tnb->getvocabulary( iv_vocabulary_name ).
        MESSAGE 'Retrieved vocabulary details.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_tnbnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex TYPE 'I'.
        RAISE EXCEPTION lo_not_found_ex.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [GetVocabulary](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTranscriptionJobs`
<a name="transcribe_ListTranscriptionJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTranscriptionJobs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        IF iv_job_filter IS NOT INITIAL.
          oo_result = lo_tnb->listtranscriptionjobs( iv_jobnamecontains = iv_job_filter ).
        ELSE.
          oo_result = lo_tnb->listtranscriptionjobs( ).
        ENDIF.
        MESSAGE 'Retrieved transcription jobs list.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTranscriptionJobs](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListVocabularies`
<a name="transcribe_ListVocabularies_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListVocabularies`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        IF iv_vocab_filter IS NOT INITIAL.
          oo_result = lo_tnb->listvocabularies( iv_namecontains = iv_vocab_filter ).
        ELSE.
          oo_result = lo_tnb->listvocabularies( ).
        ENDIF.
        MESSAGE 'Retrieved vocabularies list.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [ListVocabularies](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartTranscriptionJob`
<a name="transcribe_StartTranscriptionJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTranscriptionJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        DATA(lo_media) = NEW /aws1/cl_tnbmedia( iv_mediafileuri = iv_media_uri ).
        DATA(lo_settings) = NEW /aws1/cl_tnbsettings( ).
        IF iv_vocabulary_name IS NOT INITIAL.
          lo_settings = NEW /aws1/cl_tnbsettings( iv_vocabularyname = iv_vocabulary_name ).
        ENDIF.

        oo_result = lo_tnb->starttranscriptionjob(
          iv_transcriptionjobname = iv_job_name
          io_media = lo_media
          iv_mediaformat = iv_media_format
          iv_languagecode = iv_language_code
          io_settings = lo_settings ).

        MESSAGE 'Transcription job started.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
        RAISE EXCEPTION lo_bad_request_ex.
      CATCH /aws1/cx_tnblimitexceededex INTO DATA(lo_limit_ex).
        MESSAGE lo_limit_ex TYPE 'I'.
        RAISE EXCEPTION lo_limit_ex.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
      CATCH /aws1/cx_tnbconflictexception INTO DATA(lo_conflict_ex).
        MESSAGE lo_conflict_ex TYPE 'I'.
        RAISE EXCEPTION lo_conflict_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [StartTranscriptionJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `UpdateVocabulary`
<a name="transcribe_UpdateVocabulary_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateVocabulary`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/tnb#code-examples). 

```
    TRY.
        IF it_phrases IS NOT INITIAL.
          oo_result = lo_tnb->updatevocabulary(
            iv_vocabularyname = iv_vocabulary_name
            iv_languagecode = iv_language_code
            it_phrases = it_phrases ).
        ELSEIF iv_vocab_file_uri IS NOT INITIAL.
          oo_result = lo_tnb->updatevocabulary(
            iv_vocabularyname = iv_vocabulary_name
            iv_languagecode = iv_language_code
            iv_vocabularyfileuri = iv_vocab_file_uri ).
        ENDIF.
        MESSAGE 'Vocabulary updated.' TYPE 'I'.
      CATCH /aws1/cx_tnbbadrequestex INTO DATA(lo_bad_request_ex).
        MESSAGE lo_bad_request_ex TYPE 'I'.
      CATCH /aws1/cx_tnblimitexceededex INTO DATA(lo_limit_ex).
        MESSAGE lo_limit_ex TYPE 'I'.
        RAISE EXCEPTION lo_limit_ex.
      CATCH /aws1/cx_tnbnotfoundexception INTO DATA(lo_not_found_ex).
        MESSAGE lo_not_found_ex TYPE 'I'.
      CATCH /aws1/cx_tnbinternalfailureex INTO DATA(lo_internal_ex).
        MESSAGE lo_internal_ex TYPE 'I'.
        RAISE EXCEPTION lo_internal_ex.
      CATCH /aws1/cx_tnbconflictexception INTO DATA(lo_conflict_ex).
        MESSAGE lo_conflict_ex TYPE 'I'.
        RAISE EXCEPTION lo_conflict_ex.
    ENDTRY.
```
+  Untuk detail API, lihat [UpdateVocabulary](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

# Contoh Amazon Translate menggunakan SDK untuk SAP ABAP
<a name="sap-abap_1_translate_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk SAP ABAP dengan Amazon Translate.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `DescribeTextTranslationJob`
<a name="translate_DescribeTextTranslationJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeTextTranslationJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/xl8#code-examples). 

```
    "Gets the properties associated with an asynchronous batch translation job."
    "Includes properties such as name, ID, status, source and target languages, and input/output Amazon Simple Storage Service (Amazon S3) buckets."
    TRY.
        oo_result = lo_xl8->describetexttranslationjob(      "oo_result is returned for testing purposes."
          iv_jobid        = iv_jobid ).
        MESSAGE 'Job description retrieved.' TYPE 'I'.
      CATCH /aws1/cx_xl8internalserverex.
        MESSAGE 'An internal server error occurred. Retry your request.' TYPE 'E'.
      CATCH /aws1/cx_xl8resourcenotfoundex.
        MESSAGE 'The resource you are looking for has not been found.' TYPE 'E'.
      CATCH /aws1/cx_xl8toomanyrequestsex.
        MESSAGE 'You have made too many requests within a short period of time.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [DescribeTextTranslationJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `ListTextTranslationJobs`
<a name="translate_ListTextTranslationJobs_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTextTranslationJobs`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/xl8#code-examples). 

```
    "Gets a list of the batch translation jobs that you have submitted."

    DATA lo_filter TYPE REF TO /aws1/cl_xl8textxlationjobfilt.

    "Create an ABAP object for filtering using jobname."
    lo_filter = NEW #( iv_jobname = iv_jobname ).

    TRY.
        oo_result = lo_xl8->listtexttranslationjobs(      "oo_result is returned for testing purposes."
          io_filter        = lo_filter ).
        MESSAGE 'Jobs retrieved.' TYPE 'I'.
      CATCH /aws1/cx_xl8internalserverex.
        MESSAGE 'An internal server error occurred. Retry your request.' TYPE 'E'.
      CATCH /aws1/cx_xl8invalidfilterex.
        MESSAGE 'The filter specified for the operation is not valid. Specify a different filter.' TYPE 'E'.
      CATCH /aws1/cx_xl8invalidrequestex.
        MESSAGE 'The request that you made is not valid.' TYPE 'E'.
      CATCH /aws1/cx_xl8toomanyrequestsex.
        MESSAGE 'You have made too many requests within a short period of time.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [ListTextTranslationJobs](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StartTextTranslationJob`
<a name="translate_StartTextTranslationJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartTextTranslationJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/xl8#code-examples). 

```
    "Starts an asynchronous batch translation job."
    "Use batch translation jobs to translate large volumes of text across multiple documents at once."

    DATA lo_inputdataconfig  TYPE REF TO /aws1/cl_xl8inputdataconfig.
    DATA lo_outputdataconfig TYPE REF TO /aws1/cl_xl8outputdataconfig.
    DATA lt_targetlanguagecodes TYPE /aws1/cl_xl8tgtlanguagecodes00=>tt_targetlanguagecodestrlist.
    DATA lo_targetlanguagecodes TYPE REF TO /aws1/cl_xl8tgtlanguagecodes00.

    "Create an ABAP object for the input data config."
    lo_inputdataconfig = NEW #( iv_s3uri = iv_input_data_s3uri
                                iv_contenttype = iv_input_data_contenttype ).

    "Create an ABAP object for the output data config."
    lo_outputdataconfig = NEW #( iv_s3uri = iv_output_data_s3uri ).

    "Create an internal table for target languages."
    lo_targetlanguagecodes = NEW #( iv_value = iv_targetlanguagecode ).
    INSERT lo_targetlanguagecodes  INTO TABLE lt_targetlanguagecodes.

    TRY.
        oo_result = lo_xl8->starttexttranslationjob(      "oo_result is returned for testing purposes."
          io_inputdataconfig = lo_inputdataconfig
            io_outputdataconfig = lo_outputdataconfig
            it_targetlanguagecodes = lt_targetlanguagecodes
            iv_dataaccessrolearn = iv_dataaccessrolearn
            iv_jobname = iv_jobname
            iv_sourcelanguagecode = iv_sourcelanguagecode ).
        MESSAGE 'Translation job started.' TYPE 'I'.
      CATCH /aws1/cx_xl8internalserverex.
        MESSAGE 'An internal server error occurred. Retry your request.' TYPE 'E'.
      CATCH /aws1/cx_xl8invparamvalueex.
        MESSAGE 'The value of the parameter is not valid.' TYPE 'E'.
      CATCH /aws1/cx_xl8invalidrequestex.
        MESSAGE 'The request that you made is not valid.' TYPE 'E'.
      CATCH /aws1/cx_xl8resourcenotfoundex.
        MESSAGE 'The resource you are looking for has not been found.' TYPE 'E'.
      CATCH /aws1/cx_xl8toomanyrequestsex.
        MESSAGE 'You have made too many requests within a short period of time.' TYPE 'E'.
      CATCH /aws1/cx_xl8unsuppedlanguage00.
        MESSAGE 'Amazon Translate does not support translation from the language of the source text into the requested target language.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StartTextTranslationJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `StopTextTranslationJob`
<a name="translate_StopTextTranslationJob_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopTextTranslationJob`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/xl8#code-examples). 

```
    "Stops an asynchronous batch translation job that is in progress."

    TRY.
        oo_result = lo_xl8->stoptexttranslationjob(      "oo_result is returned for testing purposes."
          iv_jobid        = iv_jobid ).
        MESSAGE 'Translation job stopped.' TYPE 'I'.
      CATCH /aws1/cx_xl8internalserverex.
        MESSAGE 'An internal server error occurred.' TYPE 'E'.
      CATCH /aws1/cx_xl8resourcenotfoundex.
        MESSAGE 'The resource you are looking for has not been found.' TYPE 'E'.
      CATCH /aws1/cx_xl8toomanyrequestsex.
        MESSAGE 'You have made too many requests within a short period of time.' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [StopTextTranslationJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

### `TranslateText`
<a name="translate_TranslateText_sap-abap_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TranslateText`.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/xl8#code-examples). 

```
    "Translates input text from the source language to the target language."
    TRY.
        oo_result = lo_xl8->translatetext(      "oo_result is returned for testing purposes."
          iv_text        = iv_text
            iv_sourcelanguagecode = iv_sourcelanguagecode
            iv_targetlanguagecode = iv_targetlanguagecode ).
        MESSAGE 'Translation completed.' TYPE 'I'.
      CATCH /aws1/cx_xl8detectedlanguage00.
        MESSAGE 'The confidence that Amazon Comprehend accurately detected the source language is low.' TYPE 'E'.
      CATCH /aws1/cx_xl8internalserverex.
        MESSAGE 'An internal server error occurred.' TYPE 'E'.
      CATCH /aws1/cx_xl8invalidrequestex.
        MESSAGE 'The request that you made is not valid.' TYPE 'E'.
      CATCH /aws1/cx_xl8resourcenotfoundex.
        MESSAGE 'The resource you are looking for has not been found.' TYPE 'E'.
      CATCH /aws1/cx_xl8serviceunavailex.
        MESSAGE 'The Amazon Translate service is temporarily unavailable.' TYPE 'E'.
      CATCH /aws1/cx_xl8textsizelmtexcdex.
        MESSAGE 'The size of the text you submitted exceeds the size limit. ' TYPE 'E'.
      CATCH /aws1/cx_xl8toomanyrequestsex.
        MESSAGE 'You have made too many requests within a short period of time.' TYPE 'E'.
      CATCH /aws1/cx_xl8unsuppedlanguage00.
        MESSAGE 'Amazon Translate does not support translation from the language of the source text into the requested target language. ' TYPE 'E'.
    ENDTRY.
```
+  Untuk detail API, lihat [TranslateText](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)di *AWS SDK untuk referensi SAP ABAP* API. 

## Skenario
<a name="scenarios"></a>

### Memulai dengan menerjemahkan pekerjaan
<a name="translate_Scenario_GettingStarted_sap-abap_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Mulai pekerjaan terjemahan batch asinkron.
+ Tunggu pekerjaan asinkron selesai.
+ Jelaskan pekerjaan asinkron.

**SDK for SAP ABAP**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/xl8#code-examples). 

```
    DATA lo_inputdataconfig  TYPE REF TO /aws1/cl_xl8inputdataconfig.
    DATA lo_outputdataconfig TYPE REF TO /aws1/cl_xl8outputdataconfig.
    DATA lt_targetlanguagecodes TYPE /aws1/cl_xl8tgtlanguagecodes00=>tt_targetlanguagecodestrlist.
    DATA lo_targetlanguagecodes TYPE REF TO /aws1/cl_xl8tgtlanguagecodes00.

    "Create an ABAP object for the input data config."
    lo_inputdataconfig = NEW #( iv_s3uri = iv_input_data_s3uri
                                iv_contenttype = iv_input_data_contenttype ).

    "Create an ABAP object for the output data config."
    lo_outputdataconfig = NEW #( iv_s3uri = iv_output_data_s3uri ).

    "Create an internal table for target languages."
    lo_targetlanguagecodes = NEW #( iv_value = iv_targetlanguagecode ).
    INSERT lo_targetlanguagecodes  INTO TABLE lt_targetlanguagecodes.

    TRY.
        DATA(lo_translationjob_result) = lo_xl8->starttexttranslationjob(
          io_inputdataconfig = lo_inputdataconfig
            io_outputdataconfig = lo_outputdataconfig
            it_targetlanguagecodes = lt_targetlanguagecodes
            iv_dataaccessrolearn = iv_dataaccessrolearn
            iv_jobname = iv_jobname
            iv_sourcelanguagecode = iv_sourcelanguagecode ).
        MESSAGE 'Translation job started.' TYPE 'I'.
      CATCH /aws1/cx_xl8internalserverex.
        MESSAGE 'An internal server error occurred. Retry your request.' TYPE 'E'.
      CATCH /aws1/cx_xl8invparamvalueex.
        MESSAGE 'The value of the parameter is not valid.' TYPE 'E'.
      CATCH /aws1/cx_xl8invalidrequestex.
        MESSAGE 'The request that you made is not valid.' TYPE 'E'.
      CATCH /aws1/cx_xl8resourcenotfoundex.
        MESSAGE 'The resource you are looking for has not been found.' TYPE 'E'.
      CATCH /aws1/cx_xl8toomanyrequestsex.
        MESSAGE 'You have made too many requests within a short period of time. ' TYPE 'E'.
      CATCH /aws1/cx_xl8unsuppedlanguage00.
        MESSAGE 'Amazon Translate does not support translation from the language of the source text into the requested target language.' TYPE 'E'.
    ENDTRY.

    "Get the job ID."
    DATA(lv_jobid) = lo_translationjob_result->get_jobid( ).

    "Wait for translate job to complete."
    DATA(lo_des_translation_result) = lo_xl8->describetexttranslationjob( iv_jobid = lv_jobid ).
    WHILE lo_des_translation_result->get_textxlationjobproperties( )->get_jobstatus( ) <> 'COMPLETED'.
      IF sy-index = 30.
        EXIT.               "Maximum 900 seconds."
      ENDIF.
      WAIT UP TO 30 SECONDS.
      lo_des_translation_result = lo_xl8->describetexttranslationjob( iv_jobid = lv_jobid ).
    ENDWHILE.

    TRY.
        oo_result = lo_xl8->describetexttranslationjob(      "oo_result is returned for testing purposes."
          iv_jobid        = lv_jobid ).
        MESSAGE 'Job description retrieved.' TYPE 'I'.
      CATCH /aws1/cx_xl8internalserverex.
        MESSAGE 'An internal server error occurred. Retry your request.' TYPE 'E'.
      CATCH /aws1/cx_xl8resourcenotfoundex.
        MESSAGE 'The resource you are looking for has not been found.' TYPE 'E'.
      CATCH /aws1/cx_xl8toomanyrequestsex.
        MESSAGE 'You have made too many requests within a short period of time.' TYPE 'E'.
    ENDTRY.
```
+ Untuk mengetahui hal detail mengenai API, silakan lihat topik-topik berikut di *referensi API AWS SDK untuk ABAP SAP*.
  + [DescribeTextTranslationJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)
  + [StartTextTranslationJob](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)

# Contoh kode untuk SDK untuk Swift
<a name="swift_1_code_examples"></a>

Contoh kode berikut menunjukkan cara menggunakan AWS SDK untuk Swift dengan. AWS

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Beberapa layanan berisi kategori contoh tambahan yang menunjukkan cara memanfaatkan pustaka atau fungsi khusus untuk layanan.

**Sumber daya lainnya**
+  **[SDK untuk Panduan Pengembang Swift - Selengkapnya](https://docs.aws.amazon.com/sdk-for-swift/latest/developer-guide/home.html)** tentang menggunakan Swift dengan. AWS
+  **[AWS Pusat Pengembang](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23swift)** - Contoh kode yang dapat Anda filter berdasarkan kategori atau pencarian teks lengkap. 
+  **[AWS Contoh SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** — GitHub repo dengan kode lengkap dalam bahasa pilihan. Termasuk instruksi untuk mengatur dan menjalankan kode. 

**Topics**
+ [Amazon Bedrock](swift_1_bedrock_code_examples.md)
+ [Runtime Amazon Bedrock](swift_1_bedrock-runtime_code_examples.md)
+ [Identitas Amazon Cognito](swift_1_cognito-identity_code_examples.md)
+ [Penyedia Identitas Amazon Cognito](swift_1_cognito-identity-provider_code_examples.md)
+ [DynamoDB](swift_1_dynamodb_code_examples.md)
+ [Amazon EC2](swift_1_ec2_code_examples.md)
+ [AWS Glue](swift_1_glue_code_examples.md)
+ [IAM](swift_1_iam_code_examples.md)
+ [Lambda](swift_1_lambda_code_examples.md)
+ [Amazon RDS](swift_1_rds_code_examples.md)
+ [Amazon S3](swift_1_s3_code_examples.md)
+ [Amazon SNS](swift_1_sns_code_examples.md)
+ [Amazon SQS](swift_1_sqs_code_examples.md)
+ [AWS STS](swift_1_sts_code_examples.md)
+ [Streaming Amazon Transcribe](swift_1_transcribe-streaming_code_examples.md)

# Contoh Amazon Bedrock menggunakan SDK untuk Swift
<a name="swift_1_bedrock_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Amazon Bedrock.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon Bedrock
<a name="bedrock_Hello_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon Bedrock.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock#code-examples). 

```
import ArgumentParser
import AWSClientRuntime
import Foundation

import AWSBedrock

struct ExampleCommand: ParsableCommand {
    static var configuration = CommandConfiguration(
        commandName: "ListFoundationModels",
        abstract: """
        This example demonstrates how to retrieve a list of the available
        foundation models from Amazon Bedrock.
        """,
        discussion: """
        """
    )

    /// Construct a string listing the specified modalities.
    /// 
    /// - Parameter modalities: An array of the modalities to list.
    ///
    /// - Returns: A string with a human-readable list of modalities.
    func buildModalityList(modalities: [BedrockClientTypes.ModelModality]?) -> String {
        var first = true
        var str = ""

        if modalities == nil {
            return "<none>"
        }

        for modality in modalities! {
            if !first {
                str += ", "
            }
            first = false
            str += modality.rawValue
        }

        return str
    }

    /// Construct a string listing the specified customizations.
    /// 
    /// - Parameter customizations: An array of the customizations to list.
    /// 
    /// - Returns: A string listing the customizations.
    func buildCustomizationList(customizations: [BedrockClientTypes.ModelCustomization]?) -> String {
        var first = true
        var str = ""

        if customizations == nil {
            return "<none>"
        }

        for customization in customizations! {
            if !first {
                str += ", "
            }
            first = false
            str += customization.rawValue
        }

        return str
    }

    /// Construct a string listing the specified inferences.
    /// 
    /// - Parameter inferences: An array of inferences to list.
    /// 
    /// - Returns: A string listing the specified inferences.
    func buildInferenceList(inferences: [BedrockClientTypes.InferenceType]?) -> String {
        var first = true
        var str = ""

        if inferences == nil {
            return "<none>"
        }

        for inference in inferences! {
            if !first {
                str += ", "
            }
            first = false
            str += inference.rawValue
        }

        return str
    }

    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        // Always use the Region "us-east-1" to have access to the most models.
        let config = try await BedrockClient.BedrockClientConfiguration(region: "us-east-1")
        let bedrockClient = BedrockClient(config: config)

        let output = try await bedrockClient.listFoundationModels(
            input: ListFoundationModelsInput()
        )

        guard let summaries = output.modelSummaries else {
            print("No models returned.")
            return
        }
        
        // Output a list of the models with their details.
        for summary in summaries {
            print("==========================================")
            print(" Model ID: \(summary.modelId ?? "<unknown>")")
            print("------------------------------------------")
            print(" Name: \(summary.modelName ?? "<unknown>")")
            print(" Provider: \(summary.providerName ?? "<unknown>")")
            print(" Input modalities: \(buildModalityList(modalities: summary.inputModalities))")
            print(" Output modalities: \(buildModalityList(modalities: summary.outputModalities))")
            print(" Supported customizations: \(buildCustomizationList(customizations: summary.customizationsSupported ))")
            print(" Supported inference types: \(buildInferenceList(inferences: summary.inferenceTypesSupported))")
            print("------------------------------------------\n")
        }
        
        print("\(summaries.count) models available.")
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+  Untuk detail API, lihat referensi [ListFoundationModels AWS](https://sdk.amazonaws.com/swift/api/awsbedrock/latest/documentation/awsbedrock/bedrockclient/listfoundationmodels(input:))*SDK untuk Swift API*. 

## Tindakan
<a name="actions"></a>

### `ListFoundationModels`
<a name="bedrock_ListFoundationModels_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFoundationModels`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock#code-examples). 

```
import AWSBedrock

        // Always use the Region "us-east-1" to have access to the most models.
        let config = try await BedrockClient.BedrockClientConfiguration(region: "us-east-1")
        let bedrockClient = BedrockClient(config: config)

        let output = try await bedrockClient.listFoundationModels(
            input: ListFoundationModelsInput()
        )

        guard let summaries = output.modelSummaries else {
            print("No models returned.")
            return
        }
        
        // Output a list of the models with their details.
        for summary in summaries {
            print("==========================================")
            print(" Model ID: \(summary.modelId ?? "<unknown>")")
            print("------------------------------------------")
            print(" Name: \(summary.modelName ?? "<unknown>")")
            print(" Provider: \(summary.providerName ?? "<unknown>")")
            print(" Input modalities: \(buildModalityList(modalities: summary.inputModalities))")
            print(" Output modalities: \(buildModalityList(modalities: summary.outputModalities))")
            print(" Supported customizations: \(buildCustomizationList(customizations: summary.customizationsSupported ))")
            print(" Supported inference types: \(buildInferenceList(inferences: summary.inferenceTypesSupported))")
            print("------------------------------------------\n")
        }
```
+  Untuk detail API, lihat referensi [ListFoundationModels AWS](https://sdk.amazonaws.com/swift/api/awsbedrock/latest/documentation/awsbedrock/bedrockclient/listfoundationmodels(input:))*SDK untuk Swift API*. 

# Contoh Amazon Bedrock Runtime menggunakan SDK untuk Swift
<a name="swift_1_bedrock-runtime_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Amazon Bedrock Runtime.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Amazon Nova](#amazon_nova)
+ [Kanvas Amazon Nova](#amazon_nova_canvas)
+ [Amazon Nova Reel](#amazon_nova_reel)
+ [Antropik Claude](#anthropic_claude)
+ [Meta Llama](#meta_llama)

## Amazon Nova
<a name="amazon_nova"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AmazonNovaText_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock.  

```
// An example demonstrating how to use the Conversation API to send 
// a text message to Amazon Nova.

import AWSBedrockRuntime

func converse(_ textPrompt: String) async throws -> String {

    // Create a Bedrock Runtime client in the AWS Region you want to use.
    let config =
        try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
            region: "us-east-1"
        )
    let client = BedrockRuntimeClient(config: config)

    // Set the model ID.
    let modelId = "amazon.nova-micro-v1:0"

    // Start a conversation with the user message.
    let message = BedrockRuntimeClientTypes.Message(
        content: [.text(textPrompt)],
        role: .user
    )

    // Optionally use inference parameters
    let inferenceConfig =
        BedrockRuntimeClientTypes.InferenceConfiguration(
            maxTokens: 512,
            stopSequences: ["END"],
            temperature: 0.5,
            topp: 0.9
        )

    // Create the ConverseInput to send to the model
    let input = ConverseInput(
        inferenceConfig: inferenceConfig, messages: [message], modelId: modelId)

    // Send the ConverseInput to the model
    let response = try await client.converse(input: input)

    // Extract and return the response text.
    if case let .message(msg) = response.output {
        if case let .text(textResponse) = msg.content![0] {
            return textResponse
        } else {
            return "No text response found in message content"
        }
    } else {
        return "No message found in converse output"
    }
}
```
+  Untuk detail API, lihat [Converse](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/converse(input:)) di *AWS SDK untuk referensi Swift* API. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AmazonNovaText_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Amazon Nova, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// An example demonstrating how to use the Conversation API to send a text message
// to Amazon Nova and print the response stream

import AWSBedrockRuntime

func printConverseStream(_ textPrompt: String) async throws {

    // Create a Bedrock Runtime client in the AWS Region you want to use.
    let config =
        try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
            region: "us-east-1"
        )
    let client = BedrockRuntimeClient(config: config)

    // Set the model ID.
    let modelId = "amazon.nova-lite-v1:0"

    // Start a conversation with the user message.
    let message = BedrockRuntimeClientTypes.Message(
        content: [.text(textPrompt)],
        role: .user
    )

    // Optionally use inference parameters.
    let inferenceConfig =
        BedrockRuntimeClientTypes.InferenceConfiguration(
            maxTokens: 512,
            stopSequences: ["END"],
            temperature: 0.5,
            topp: 0.9
        )

    // Create the ConverseStreamInput to send to the model.
    let input = ConverseStreamInput(
        inferenceConfig: inferenceConfig, messages: [message], modelId: modelId)

    // Send the ConverseStreamInput to the model.
    let response = try await client.converseStream(input: input)

    // Extract the streaming response.
    guard let stream = response.stream else {
        print("No stream available")
        return
    }

    // Extract and print the streamed response text in real-time.
    for try await event in stream {
        switch event {
        case .messagestart(_):
            print("\nNova Lite:")

        case .contentblockdelta(let deltaEvent):
            if case .text(let text) = deltaEvent.delta {
                print(text, terminator: "")
            }

        default:
            break
        }
    }
}
```
+  Untuk detail API, lihat referensi [ConverseStream AWS](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/conversestream(input:))*SDK untuk Swift API*. 

## Kanvas Amazon Nova
<a name="amazon_nova_canvas"></a>

### InvokeModel
<a name="bedrock-runtime_InvokeModel_AmazonNovaImageGeneration_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara memanggil Amazon Nova Canvas di Amazon Bedrock untuk menghasilkan gambar.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples). 
Buat gambar dengan Amazon Nova Canvas.  

```
// Use the native inference API to create an image with Amazon Nova Canvas

import AWSBedrockRuntime
import AWSSDKIdentity
import Foundation

struct NovaImageOutput: Decodable {
    let images: [Data]
}

func generateImage(_ textPrompt: String) async throws {
    // Create a Bedrock Runtime client in the AWS Region you want to use.
    let config =
        try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
            region: "us-east-1"
        )
    config.awsCredentialIdentityResolver = try SSOAWSCredentialIdentityResolver()

    let client = BedrockRuntimeClient(config: config)

    // Set the model ID.
    let modelId = "amazon.nova-canvas-v1:0"

    //  Format the request payload using the model's native structure.
    let input = InvokeModelInput(
        accept: "application/json",
        body: """
            {
                "textToImageParams": {
                    "text": "\(textPrompt)"
                },
                "taskType": "TEXT_IMAGE",
                "imageGenerationConfig": {
                    "seed": 42,
                    "quality": "standard",
                    "width": 512,
                    "height": 512,
                    "numberOfImages": 1
                }
            }
            """.data(using: .utf8),
        modelId: modelId
    )

    // Invoke the model with the request.
    let response = try await client.invokeModel(input: input)

    // Decode the response body.
    let output = try JSONDecoder().decode(NovaImageOutput.self, from: response.body!)

    // Extract the image data.
    guard let data = output.images.first else {
        print("No image data found")
        return
    }

    // Save the generated image to a local folder.
    let fileURL = URL.documentsDirectory.appending(path: "nova_canvas.png")
    print(fileURL)
    try data.write(to: fileURL)
    print("Image is saved at \(fileURL)")
}
```
+  Untuk detail API, lihat referensi [InvokeModel AWS](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/invokemodel(input:))*SDK untuk Swift API*. 

## Amazon Nova Reel
<a name="amazon_nova_reel"></a>

### T ext-to-video
<a name="bedrock-runtime_Scenario_AmazonNova_TextToVideo_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan Amazon Nova Reel untuk menghasilkan video dari prompt teks.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples). 
Gunakan Amazon Nova Reel untuk menghasilkan video dari prompt teks.  

```
// This example demonstrates how to use Amazon Nova Reel to generate a video from a text prompt.
// It shows how to:
// - Set up the Amazon Bedrock runtime client
// - Configure a text-to-video request
// - Submit an asynchronous job for video generation
// - Poll for job completion status
// - Access the generated video from S3

import AWSBedrockRuntime
import Foundation
import Smithy

func startTextToVideoGenerationJob(
    bedrockRuntimeClient: BedrockRuntimeClient, prompt: String, outputS3Uri: String
) async throws -> String? {
    // Specify the model ID for text-to-video generation
    let modelId = "amazon.nova-reel-v1:0"

    // Configure the video generation request with additional parameters
    let modelInputSource: [String: Any] = [
        "taskType": "TEXT_VIDEO",
        "textToVideoParams": [
            "text": "\(prompt)"
        ],
        "videoGenerationConfig": [
            "durationSeconds": 6,
            "fps": 24,
            "dimension": "1280x720",
        ],
    ]

    let modelInput = try Document.make(from: modelInputSource)

    let input = StartAsyncInvokeInput(
        modelId: modelId,
        modelInput: modelInput,
        outputDataConfig: .s3outputdataconfig(
            BedrockRuntimeClientTypes.AsyncInvokeS3OutputDataConfig(
                s3Uri: outputS3Uri
            )
        )
    )

    // Invoke the model asynchronously
    let output = try await bedrockRuntimeClient.startAsyncInvoke(input: input)
    return output.invocationArn
}

func queryJobStatus(
    bedrockRuntimeClient: BedrockRuntimeClient, 
    invocationArn: String?
) async throws -> GetAsyncInvokeOutput {
    try await bedrockRuntimeClient.getAsyncInvoke(
        input: GetAsyncInvokeInput(invocationArn: invocationArn))
}

func main() async throws {
    // Create a Bedrock Runtime client
    let config =
        try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
            region: "us-east-1"
        )
    let client = BedrockRuntimeClient(config: config)

    // Specify the S3 location for the output video
    let bucket = "s3://REPLACE-WITH-YOUR-S3-BUCKET-NAM"

    print("Submitting video generation job...")
    let invocationArn = try await startTextToVideoGenerationJob(
        bedrockRuntimeClient: client,
        prompt: "A pomegranate juice in a railway station",
        outputS3Uri: bucket
    )
    print("Job started with invocation ARN: \(String(describing:invocationArn))")

    // Poll for job completion
    var status: BedrockRuntimeClientTypes.AsyncInvokeStatus?
    var isReady = false
    var hasFailed = false

    while !isReady && !hasFailed {
        print("\nPolling job status...")
        status = try await queryJobStatus(
            bedrockRuntimeClient: client, invocationArn: invocationArn
        ).status
        switch status {
        case .completed:
            isReady = true
            print("Video is ready\nCheck S3 bucket: \(bucket)")
        case .failed:
            hasFailed = true
            print("Something went wrong")
        case .inProgress:
            print("Job is in progress...")
            try await Task.sleep(nanoseconds: 15 * 1_000_000_000)  // 15 seconds
        default:
            isReady = true
        }
    }
}

do {
    try await main()
} catch {
    print("An error occurred: \(error)")
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [GetAsyncInvoke](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/getasyncinvoke(input:))
  + [StartAsyncInvoke](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/startasyncinvoke(input:))

## Antropik Claude
<a name="anthropic_claude"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_AnthropicClaude_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock.  

```
// An example demonstrating how to use the Conversation API to send 
// a text message to Anthropic Claude.

import AWSBedrockRuntime

func converse(_ textPrompt: String) async throws -> String {

    // Create a Bedrock Runtime client in the AWS Region you want to use.
    let config =
        try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
            region: "us-east-1"
        )
    let client = BedrockRuntimeClient(config: config)

    // Set the model ID.
    let modelId = "anthropic.claude-3-haiku-20240307-v1:0"

    // Start a conversation with the user message.
    let message = BedrockRuntimeClientTypes.Message(
        content: [.text(textPrompt)],
        role: .user
    )

    // Optionally use inference parameters
    let inferenceConfig =
        BedrockRuntimeClientTypes.InferenceConfiguration(
            maxTokens: 512,
            stopSequences: ["END"],
            temperature: 0.5,
            topp: 0.9
        )

    // Create the ConverseInput to send to the model
    let input = ConverseInput(
        inferenceConfig: inferenceConfig, messages: [message], modelId: modelId)

    // Send the ConverseInput to the model
    let response = try await client.converse(input: input)

    // Extract and return the response text.
    if case let .message(msg) = response.output {
        if case let .text(textResponse) = msg.content![0] {
            return textResponse
        } else {
            return "No text response found in message content"
        }
    } else {
        return "No message found in converse output"
    }
}
```
+  Untuk detail API, lihat [Converse](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/converse(input:)) di *AWS SDK untuk referensi Swift* API. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_AnthropicClaude_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Anthropic Claude, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// An example demonstrating how to use the Conversation API to send a text message
// to Anthropic Claude and print the response stream

import AWSBedrockRuntime

func printConverseStream(_ textPrompt: String) async throws {

    // Create a Bedrock Runtime client in the AWS Region you want to use.
    let config =
        try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
            region: "us-east-1"
        )
    let client = BedrockRuntimeClient(config: config)

    // Set the model ID.
    let modelId = "anthropic.claude-3-haiku-20240307-v1:0"

    // Start a conversation with the user message.
    let message = BedrockRuntimeClientTypes.Message(
        content: [.text(textPrompt)],
        role: .user
    )

    // Optionally use inference parameters.
    let inferenceConfig =
        BedrockRuntimeClientTypes.InferenceConfiguration(
            maxTokens: 512,
            stopSequences: ["END"],
            temperature: 0.5,
            topp: 0.9
        )

    // Create the ConverseStreamInput to send to the model.
    let input = ConverseStreamInput(
        inferenceConfig: inferenceConfig, messages: [message], modelId: modelId)

    // Send the ConverseStreamInput to the model.
    let response = try await client.converseStream(input: input)

    // Extract the streaming response.
    guard let stream = response.stream else {
        print("No stream available")
        return
    }

    // Extract and print the streamed response text in real-time.
    for try await event in stream {
        switch event {
        case .messagestart(_):
            print("\nAnthropic Claude:")

        case .contentblockdelta(let deltaEvent):
            if case .text(let text) = deltaEvent.delta {
                print(text, terminator: "")
            }

        default:
            break
        }
    }
}
```
+  Untuk detail API, lihat referensi [ConverseStream AWS](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/conversestream(input:))*SDK untuk Swift API*. 

## Meta Llama
<a name="meta_llama"></a>

### Bercakap-cakap
<a name="bedrock-runtime_Converse_MetaLlama_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock.  

```
// An example demonstrating how to use the Conversation API to send 
// a text message to Meta Llama.

import AWSBedrockRuntime

func converse(_ textPrompt: String) async throws -> String {

    // Create a Bedrock Runtime client in the AWS Region you want to use.
    let config =
        try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
            region: "us-east-1"
        )
    let client = BedrockRuntimeClient(config: config)

    // Set the model ID.
    let modelId = "meta.llama3-8b-instruct-v1:0"

    // Start a conversation with the user message.
    let message = BedrockRuntimeClientTypes.Message(
        content: [.text(textPrompt)],
        role: .user
    )

    // Optionally use inference parameters
    let inferenceConfig =
        BedrockRuntimeClientTypes.InferenceConfiguration(
            maxTokens: 512,
            stopSequences: ["END"],
            temperature: 0.5,
            topp: 0.9
        )

    // Create the ConverseInput to send to the model
    let input = ConverseInput(
        inferenceConfig: inferenceConfig, messages: [message], modelId: modelId)

    // Send the ConverseInput to the model
    let response = try await client.converse(input: input)

    // Extract and return the response text.
    if case let .message(msg) = response.output {
        if case let .text(textResponse) = msg.content![0] {
            return textResponse
        } else {
            return "No text response found in message content"
        }
    } else {
        return "No message found in converse output"
    }
}
```
+  Untuk detail API, lihat [Converse](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/converse(input:)) di *AWS SDK untuk referensi Swift* API. 

### ConverseStream
<a name="bedrock-runtime_ConverseStream_MetaLlama_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara mengirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan memproses aliran respons secara real-time.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples). 
Kirim pesan teks ke Meta Llama, menggunakan API Converse Bedrock dan proses aliran respons secara real-time.  

```
// An example demonstrating how to use the Conversation API to send a text message
// to Meta Llama and print the response stream.

import AWSBedrockRuntime

func printConverseStream(_ textPrompt: String) async throws {

    // Create a Bedrock Runtime client in the AWS Region you want to use.
    let config =
        try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
            region: "us-east-1"
        )
    let client = BedrockRuntimeClient(config: config)

    // Set the model ID.
    let modelId = "meta.llama3-8b-instruct-v1:0"

    // Start a conversation with the user message.
    let message = BedrockRuntimeClientTypes.Message(
        content: [.text(textPrompt)],
        role: .user
    )

    // Optionally use inference parameters.
    let inferenceConfig =
        BedrockRuntimeClientTypes.InferenceConfiguration(
            maxTokens: 512,
            stopSequences: ["END"],
            temperature: 0.5,
            topp: 0.9
        )

    // Create the ConverseStreamInput to send to the model.
    let input = ConverseStreamInput(
        inferenceConfig: inferenceConfig, messages: [message], modelId: modelId)

    // Send the ConverseStreamInput to the model.
    let response = try await client.converseStream(input: input)

    // Extract the streaming response.
    guard let stream = response.stream else {
        print("No stream available")
        return
    }

    // Extract and print the streamed response text in real-time.
    for try await event in stream {
        switch event {
        case .messagestart(_):
            print("\nMeta Llama:")

        case .contentblockdelta(let deltaEvent):
            if case .text(let text) = deltaEvent.delta {
                print(text, terminator: "")
            }

        default:
            break
        }
    }
}
```
+  Untuk detail API, lihat referensi [ConverseStream AWS](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/conversestream(input:))*SDK untuk Swift API*. 

# Contoh Identitas Amazon Cognito menggunakan SDK untuk Swift
<a name="swift_1_cognito-identity_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Identitas Amazon Cognito.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `CreateIdentityPool`
<a name="cognito-identity_CreateIdentityPool_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateIdentityPool`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity/FindOrCreateIdentityPool#code-examples). 

```
import AWSCognitoIdentity


    /// Create a new identity pool and return its ID.
    ///
    /// - Parameters:
    ///     - name: The name to give the new identity pool.
    ///
    /// - Returns: A string containing the newly created pool's ID, or `nil`
    ///   if an error occurred.
    ///
    func createIdentityPool(name: String) async throws -> String? {
        do {
            let cognitoInputCall = CreateIdentityPoolInput(developerProviderName: "com.exampleco.CognitoIdentityDemo",
                                                           identityPoolName: name)
            
            let result = try await cognitoIdentityClient.createIdentityPool(input: cognitoInputCall)
            guard let poolId = result.identityPoolId else {
                return nil
            }
            
            return poolId
        } catch {
            print("ERROR: createIdentityPool:", dump(error))
            throw error
        }
    }
```
+  Untuk informasi selengkapnya, lihat [AWS panduan pengembang SDK untuk Swift](https://docs.aws.amazon.com/sdk-for-swift/latest/developer-guide/getting-started.html). 
+  Untuk detail API, lihat referensi [CreateIdentityPool AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentity/latest/documentation/awscognitoidentity/cognitoidentityclient/createidentitypool(input:))*SDK untuk Swift API*. 

### `DeleteIdentityPool`
<a name="cognito-identity_DeleteIdentityPool_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteIdentityPool`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity/FindOrCreateIdentityPool#code-examples). 

```
import AWSCognitoIdentity


    /// Delete the specified identity pool.
    ///
    /// - Parameters:
    ///   - id: The ID of the identity pool to delete.
    ///
    func deleteIdentityPool(id: String) async throws {
        do {
            let input = DeleteIdentityPoolInput(
                identityPoolId: id
            )
            
            _ = try await cognitoIdentityClient.deleteIdentityPool(input: input)
        } catch {
            print("ERROR: deleteIdentityPool:", dump(error))
            throw error
        }
    }
```
+  Untuk informasi selengkapnya, lihat [AWS panduan pengembang SDK untuk Swift](https://docs.aws.amazon.com/sdk-for-swift/latest/developer-guide/getting-started.html). 
+  Untuk detail API, lihat referensi [DeleteIdentityPool AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentity/latest/documentation/awscognitoidentity/cognitoidentityclient/deleteidentitypool(input:))*SDK untuk Swift API*. 

### `ListIdentityPools`
<a name="cognito-identity_ListIdentityPools_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListIdentityPools`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity/FindOrCreateIdentityPool#code-examples). 

```
import AWSCognitoIdentity


    /// Return the ID of the identity pool with the specified name.
    ///
    /// - Parameters:
    ///   - name: The name of the identity pool whose ID should be returned.
    ///
    /// - Returns: A string containing the ID of the specified identity pool
    ///   or `nil` on error or if not found.
    ///
    func getIdentityPoolID(name: String) async throws -> String? {
        let listPoolsInput = ListIdentityPoolsInput(maxResults: 25)
        // Use "Paginated" to get all the objects.
        // This lets the SDK handle the 'nextToken' field in "ListIdentityPoolsOutput".
        let pages = cognitoIdentityClient.listIdentityPoolsPaginated(input: listPoolsInput)

        do {
            for try await page in pages {
                guard let identityPools = page.identityPools else {
                    print("ERROR: listIdentityPoolsPaginated returned nil contents.")
                    continue
                }
                
                /// Read pages of identity pools from Cognito until one is found
                /// whose name matches the one specified in the `name` parameter.
                /// Return the matching pool's ID.

                for pool in identityPools {
                    if pool.identityPoolName == name {
                        return pool.identityPoolId!
                    }
                }
            }
        } catch {
            print("ERROR: getIdentityPoolID:", dump(error))
            throw error
        }
        
        return nil
    }
```
Dapatkan ID dari kumpulan identitas yang ada atau buat jika belum ada.  

```
import AWSCognitoIdentity


    /// Return the ID of the identity pool with the specified name.
    ///
    /// - Parameters:
    ///   - name: The name of the identity pool whose ID should be returned
    ///
    /// - Returns: A string containing the ID of the specified identity pool.
    ///   Returns `nil` if there's an error or if the pool isn't found.
    ///
    public func getOrCreateIdentityPoolID(name: String) async throws -> String? {
        // See if the pool already exists. If it doesn't, create it.
        
        do {
            guard let poolId = try await getIdentityPoolID(name: name) else {
                return try await createIdentityPool(name: name)
            }
            
            return poolId
        } catch {
            print("ERROR: getOrCreateIdentityPoolID:", dump(error))
            throw error
        }
    }
```
+  Untuk informasi selengkapnya, lihat [AWS panduan pengembang SDK untuk Swift](https://docs.aws.amazon.com/sdk-for-swift/latest/developer-guide/getting-started.html). 
+  Untuk detail API, lihat referensi [ListIdentityPools AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentity/latest/documentation/awscognitoidentity/cognitoidentityclient/listidentitypools(input:))*SDK untuk Swift API*. 

# Contoh Penyedia Identitas Amazon Cognito menggunakan SDK untuk Swift
<a name="swift_1_cognito-identity-provider_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK for Swift dengan Penyedia Identitas Amazon Cognito.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `AdminGetUser`
<a name="cognito-identity-provider_AdminGetUser_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminGetUser`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
import AWSClientRuntime
import AWSCognitoIdentityProvider

    /// Get information about a specific user in a user pool.
    /// 
    /// - Parameters:
    ///   - cipClient: The Amazon Cognito Identity Provider client to use.
    ///   - userName: The user to retrieve information about.
    ///   - userPoolId: The user pool to search for the specified user.
    ///
    /// - Returns: `true` if the user's information was successfully
    ///   retrieved. Otherwise returns `false`.
    func adminGetUser(cipClient: CognitoIdentityProviderClient, userName: String,
                      userPoolId: String) async -> Bool {
        do {
            let output = try await cipClient.adminGetUser(
                input: AdminGetUserInput(
                    userPoolId: userPoolId,
                    username: userName
                )
            )

            guard let userStatus = output.userStatus else {
                print("*** Unable to get the user's status.")
                return false
            }

            print("User status: \(userStatus)")
            return true
        } catch {
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [AdminGetUser AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/admingetuser(input:))*SDK untuk Swift API*. 

### `AdminInitiateAuth`
<a name="cognito-identity-provider_AdminInitiateAuth_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminInitiateAuth`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
import AWSClientRuntime
import AWSCognitoIdentityProvider

    /// Begin an authentication session.
    ///
    /// - Parameters:
    ///   - cipClient: The `CongitoIdentityProviderClient` to use.
    ///   - clientId: The app client ID to use.
    ///   - userName: The username to check.
    ///   - password: The user's password.
    ///   - userPoolId: The user pool to use.
    ///
    /// - Returns: The session token associated with this authentication
    ///   session.
    func initiateAuth(cipClient: CognitoIdentityProviderClient, clientId: String,
                         userName: String, password: String,
                         userPoolId: String) async -> String? {
        var authParams: [String: String] = [:]

        authParams["USERNAME"] = userName
        authParams["PASSWORD"] = password

        do {
            let output = try await cipClient.adminInitiateAuth(
                input: AdminInitiateAuthInput(
                    authFlow: CognitoIdentityProviderClientTypes.AuthFlowType.adminUserPasswordAuth,
                    authParameters: authParams,
                    clientId: clientId,
                    userPoolId: userPoolId
                )
            )

            guard let challengeName = output.challengeName else {
                print("*** Invalid response from the auth service.")
                return nil
            }

            print("=====> Response challenge is \(challengeName)")

            return output.session
        } catch _ as UserNotFoundException {
            print("*** The specified username, \(userName), doesn't exist.")
            return nil
        } catch _ as UserNotConfirmedException {
            print("*** The user \(userName) has not been confirmed.")
            return nil
        } catch {
            print("*** An unexpected error occurred.")
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [AdminInitiateAuth AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/admininitiateauth(input:))*SDK untuk Swift API*. 

### `AdminRespondToAuthChallenge`
<a name="cognito-identity-provider_AdminRespondToAuthChallenge_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AdminRespondToAuthChallenge`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
import AWSClientRuntime
import AWSCognitoIdentityProvider

    /// Respond to the authentication challenge received from Cognito after
    /// initiating an authentication session. This involves sending a current
    /// MFA code to the service.
    /// 
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - userName: The user's username.
    ///   - clientId: The app client ID.
    ///   - userPoolId: The user pool to sign into.
    ///   - mfaCode: The 6-digit MFA code currently displayed by the user's
    ///     authenticator.
    ///   - session: The authentication session to continue processing.
    func adminRespondToAuthChallenge(cipClient: CognitoIdentityProviderClient, userName: String,
                                     clientId: String, userPoolId: String, mfaCode: String,
                                     session: String) async {
        print("=====> SOFTWARE_TOKEN_MFA challenge is generated...")

        var challengeResponsesOb: [String: String] = [:]
        challengeResponsesOb["USERNAME"] = userName
        challengeResponsesOb["SOFTWARE_TOKEN_MFA_CODE"] = mfaCode

        do {
            let output = try await cipClient.adminRespondToAuthChallenge(
                input: AdminRespondToAuthChallengeInput(
                    challengeName: CognitoIdentityProviderClientTypes.ChallengeNameType.softwareTokenMfa,
                    challengeResponses: challengeResponsesOb,
                    clientId: clientId,
                    session: session,
                    userPoolId: userPoolId
                )
            )

            guard let authenticationResult = output.authenticationResult else {
                print("*** Unable to get authentication result.")
                return
            }

            print("=====> Authentication result (JWTs are redacted):")
            print(authenticationResult)
        } catch _ as SoftwareTokenMFANotFoundException {
            print("*** The specified user pool isn't configured for MFA.")
            return
        } catch _ as CodeMismatchException {
            print("*** The specified MFA code doesn't match the expected value.")
            return
        } catch _ as UserNotFoundException {
            print("*** The specified username, \(userName), doesn't exist.")
            return
        } catch _ as UserNotConfirmedException {
            print("*** The user \(userName) has not been confirmed.")
            return
        } catch let error as NotAuthorizedException {
            print("*** Unauthorized access. Reason: \(error.properties.message ?? "<unknown>")")
        } catch {
            print("*** Error responding to the MFA challenge.")
            return
        }
    }
```
+  Untuk detail API, lihat referensi [AdminRespondToAuthChallenge AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/adminrespondtoauthchallenge(input:))*SDK untuk Swift API*. 

### `AssociateSoftwareToken`
<a name="cognito-identity-provider_AssociateSoftwareToken_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateSoftwareToken`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
import AWSClientRuntime
import AWSCognitoIdentityProvider

    /// Request and display an MFA secret token that the user should enter
    /// into their authenticator to set it up for the user account.
    /// 
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - authSession: The authentication session to request an MFA secret
    ///     for.
    ///
    /// - Returns: A string containing the MFA secret token that should be
    ///   entered into the authenticator software.
    func getSecretForAppMFA(cipClient: CognitoIdentityProviderClient, authSession: String?) async -> String? {
        do {
            let output = try await cipClient.associateSoftwareToken(
                input: AssociateSoftwareTokenInput(
                    session: authSession
                )
            )

            guard let secretCode = output.secretCode else {
                print("*** Unable to get the secret code")
                return nil
            }

            print("=====> Enter this token into Google Authenticator: \(secretCode)")
            return output.session
        } catch _ as SoftwareTokenMFANotFoundException {
            print("*** The specified user pool isn't configured for MFA.")
            return nil
        } catch {
            print("*** An unexpected error occurred getting the secret for the app's MFA.")
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [AssociateSoftwareToken AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/associatesoftwaretoken(input:))*SDK untuk Swift API*. 

### `ConfirmSignUp`
<a name="cognito-identity-provider_ConfirmSignUp_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ConfirmSignUp`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
import AWSClientRuntime
import AWSCognitoIdentityProvider

    /// Submit a confirmation code for the specified user. This is the code as
    /// entered by the user after they've received it by email or text
    /// message.
    ///
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - clientId: The app client ID the user is signing up for.
    ///   - userName: The username of the user whose code is being sent.
    ///   - code: The user's confirmation code.
    /// 
    /// - Returns: `true` if the code was successfully confirmed; otherwise `false`.
    func confirmSignUp(cipClient: CognitoIdentityProviderClient, clientId: String,
                       userName: String, code: String) async -> Bool {
        do {
            _ = try await cipClient.confirmSignUp(
                input: ConfirmSignUpInput(
                    clientId: clientId,
                    confirmationCode: code,
                    username: userName
                )
            )

            print("=====> \(userName) has been confirmed.")
            return true
        } catch {
            print("=====> \(userName)'s code was entered incorrectly.")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [ConfirmSignUp AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/confirmsignup(input:))*SDK untuk Swift API*. 

### `ListUsers`
<a name="cognito-identity-provider_ListUsers_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
        do {
            let output = try await cognitoClient.listUsers(
                input: ListUsersInput(
                    userPoolId: poolId
                )
            )
            
            guard let users = output.users else {
                print("No users found.")
                return
            }

            print("\(users.count) user(s) found.")
            for user in users {
                print("  \(user.username ?? "<unknown>")")
            }
        } catch _ as NotAuthorizedException {
            print("*** Please authenticate with AWS before using this command.")
            return
        } catch _ as ResourceNotFoundException {
            print("*** The specified User Pool was not found.")
            return
        } catch {
            print("*** An unexpected type of error occurred.")
            return
        }
```
+  Untuk detail API, lihat referensi [ListUsers AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/listusers(input:))*SDK untuk Swift API*. 

### `ResendConfirmationCode`
<a name="cognito-identity-provider_ResendConfirmationCode_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ResendConfirmationCode`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
import AWSClientRuntime
import AWSCognitoIdentityProvider

    /// Requests a new confirmation code be sent to the given user's contact
    /// method.
    ///
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - clientId: The application client ID.
    ///   - userName: The user to resend a code for.
    ///
    /// - Returns: `true` if a new code was sent successfully, otherwise
    ///   `false`.
    func resendConfirmationCode(cipClient: CognitoIdentityProviderClient, clientId: String,
                                userName: String) async -> Bool {
        do {
            let output = try await cipClient.resendConfirmationCode(
                input: ResendConfirmationCodeInput(
                    clientId: clientId,
                    username: userName
                )
            )

            guard let deliveryMedium = output.codeDeliveryDetails?.deliveryMedium else {
                print("*** Unable to get the delivery method for the resent code.")
                return false
            }

            print("=====> A new code has been sent by \(deliveryMedium)")
            return true
        } catch {
            print("*** Unable to resend the confirmation code to user \(userName).")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [ResendConfirmationCode AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/resendconfirmationcode(input:))*SDK untuk Swift API*. 

### `SignUp`
<a name="cognito-identity-provider_SignUp_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SignUp`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
import AWSClientRuntime
import AWSCognitoIdentityProvider

    /// Create a new user in a user pool.
    /// 
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - clientId: The ID of the app client to create a user for.
    ///   - userName: The username for the new user.
    ///   - password: The new user's password.
    ///   - email: The new user's email address.
    ///
    /// - Returns: `true` if successful; otherwise `false`.
    func signUp(cipClient: CognitoIdentityProviderClient, clientId: String, userName: String, password: String, email: String) async -> Bool {
        let emailAttr = CognitoIdentityProviderClientTypes.AttributeType(
            name: "email",
            value: email
        )

        let userAttrsList = [emailAttr]

        do {
            _ = try await cipClient.signUp(
                input: SignUpInput(
                    clientId: clientId,
                    password: password,
                    userAttributes: userAttrsList,
                    username: userName
                )

            )

            print("=====> User \(userName) signed up.")
        } catch _ as AWSCognitoIdentityProvider.UsernameExistsException {
            print("*** The username \(userName) already exists. Please use a different one.")
            return false
        } catch let error as AWSCognitoIdentityProvider.InvalidPasswordException {
            print("*** Error: The specified password is invalid. Reason: \(error.properties.message ?? "<none available>").")
            return false
        } catch _ as AWSCognitoIdentityProvider.ResourceNotFoundException {
            print("*** Error: The specified client ID (\(clientId)) doesn't exist.")
            return false
        } catch {
            print("*** Unexpected error: \(error)")
            return false
        }

        return true
    }
```
+  Untuk detail API, lihat referensi [SignUp AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/signup(input:))*SDK untuk Swift API*. 

### `VerifySoftwareToken`
<a name="cognito-identity-provider_VerifySoftwareToken_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`VerifySoftwareToken`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 

```
import AWSClientRuntime
import AWSCognitoIdentityProvider

    /// Confirm that the user's TOTP authenticator is configured correctly by
    /// sending a code to it to check that it matches successfully.
    /// 
    /// - Parameters:
    ///   - cipClient: The `CongnitoIdentityProviderClient` to use.
    ///   - session: An authentication session previously returned by an
    ///     `associateSoftwareToken()` call.
    ///   - mfaCode: The 6-digit code currently displayed by the user's
    ///     authenticator, as provided by the user.
    func verifyTOTP(cipClient: CognitoIdentityProviderClient, session: String?, mfaCode: String?) async {
        do {
            let output = try await cipClient.verifySoftwareToken(
                input: VerifySoftwareTokenInput(
                    session: session,
                    userCode: mfaCode
                )
            )

            guard let tokenStatus = output.status else {
                print("*** Unable to get the token's status.")
                return
            }
            print("=====> The token's status is: \(tokenStatus)")
        } catch _ as SoftwareTokenMFANotFoundException {
            print("*** The specified user pool isn't configured for MFA.")
            return
        } catch _ as CodeMismatchException {
            print("*** The specified MFA code doesn't match the expected value.")
            return
        } catch _ as UserNotFoundException {
            print("*** The specified username doesn't exist.")
            return
        } catch _ as UserNotConfirmedException {
            print("*** The user has not been confirmed.")
            return
        } catch {
            print("*** Error verifying the MFA token!")
            return
        }
    }
```
+  Untuk detail API, lihat referensi [VerifySoftwareToken AWS](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/verifysoftwaretoken(input:))*SDK untuk Swift API*. 

## Skenario
<a name="scenarios"></a>

### Mendaftar pengguna dengan kumpulan pengguna yang membutuhkan MFA
<a name="cognito-identity-provider_Scenario_SignUpUserWithMfa_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Daftar dan konfirmasikan pengguna dengan nama pengguna, kata sandi, dan alamat email.
+ Siapkan otentikasi multi-faktor dengan mengaitkan aplikasi MFA dengan pengguna.
+ Masuk dengan menggunakan kata sandi dan kode MFA.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/cognito-identity-provider#code-examples). 
`Package.swift`Berkas.  

```
// swift-tools-version: 5.9
//
// The swift-tools-version declares the minimum version of Swift required to
// build this package.

import PackageDescription

let package = Package(
    name: "cognito-scenario",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13),
        .iOS(.v15)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/awslabs/aws-sdk-swift",
            from: "1.0.0"),
        .package(
            url: "https://github.com/apple/swift-argument-parser.git",
            branch: "main"
        )
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "cognito-scenario",
            dependencies: [
                .product(name: "AWSCognitoIdentityProvider", package: "aws-sdk-swift"),
                .product(name: "ArgumentParser", package: "swift-argument-parser")
            ],
            path: "Sources")

    ]
)
```
File kode Swift.  

```
// An example demonstrating various features of Amazon Cognito. Before running
// this Swift code example, set up your development environment, including
// your credentials.
//
// For more information, see the following documentation:
// https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
//
// TIP: To set up the required user pool, run the AWS Cloud Development Kit
// (AWS CDK) script provided in this GitHub repo at
// resources/cdk/cognito_scenario_user_pool_with_mfa.
//
// This example performs the following functions:
//
// 1. Invokes the signUp method to sign up a user.
// 2. Invokes the adminGetUser method to get the user's confirmation status.
// 3. Invokes the ResendConfirmationCode method if the user requested another
//    code.
// 4. Invokes the confirmSignUp method.
// 5. Invokes the initiateAuth to sign in. This results in being prompted to
//    set up TOTP (time-based one-time password). (The response is
//    “ChallengeName”: “MFA_SETUP”).
// 6. Invokes the AssociateSoftwareToken method to generate a TOTP MFA private
//    key. This can be used with Google Authenticator.
// 7. Invokes the VerifySoftwareToken method to verify the TOTP and register
//    for MFA.
// 8. Invokes the AdminInitiateAuth to sign in again. This results in being
//    prompted to submit a TOTP (Response: “ChallengeName”:
//    “SOFTWARE_TOKEN_MFA”).
// 9. Invokes the AdminRespondToAuthChallenge to get back a token.

import ArgumentParser
import Foundation

import AWSClientRuntime
import AWSCognitoIdentityProvider

struct ExampleCommand: ParsableCommand {
    @Argument(help: "The application clientId.")
    var clientId: String
    @Argument(help: "The user pool ID to use.")
    var poolId: String
    @Option(help: "Name of the Amazon Region to use")
    var region = "us-east-1"

    static var configuration = CommandConfiguration(
        commandName: "cognito-scenario",
        abstract: """
        Demonstrates various features of Amazon Cognito.
        """,
        discussion: """
        """
    )

    /// Prompt for an input string of at least a minimum length.  
    /// 
    /// - Parameters:
    ///   - prompt: The prompt string to display.
    ///   - minLength: The minimum number of characters to allow in the
    ///     response. Default value is 0.
    ///
    /// - Returns: The entered string.
    func stringRequest(_ prompt: String, minLength: Int = 1) -> String {
        while true {
            print(prompt, terminator: "")
            let str = readLine()

            guard let str else {
                continue
            }
            if str.count >= minLength {
                return str
            } else {
                print("*** Response must be at least \(minLength) character(s) long.")
            }
        }
    }

    /// Ask a yes/no question.
    /// 
    /// - Parameter prompt: A prompt string to print.
    ///
    /// - Returns: `true` if the user answered "Y", otherwise `false`.
    func yesNoRequest(_ prompt: String) -> Bool {
        while true {
            let answer = stringRequest(prompt).lowercased()
            if answer == "y" || answer == "n" {
                return answer == "y"
            }
        }
    }

    /// Get information about a specific user in a user pool.
    /// 
    /// - Parameters:
    ///   - cipClient: The Amazon Cognito Identity Provider client to use.
    ///   - userName: The user to retrieve information about.
    ///   - userPoolId: The user pool to search for the specified user.
    ///
    /// - Returns: `true` if the user's information was successfully
    ///   retrieved. Otherwise returns `false`.
    func adminGetUser(cipClient: CognitoIdentityProviderClient, userName: String,
                      userPoolId: String) async -> Bool {
        do {
            let output = try await cipClient.adminGetUser(
                input: AdminGetUserInput(
                    userPoolId: userPoolId,
                    username: userName
                )
            )

            guard let userStatus = output.userStatus else {
                print("*** Unable to get the user's status.")
                return false
            }

            print("User status: \(userStatus)")
            return true
        } catch {
            return false
        }
    }

    /// Create a new user in a user pool.
    /// 
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - clientId: The ID of the app client to create a user for.
    ///   - userName: The username for the new user.
    ///   - password: The new user's password.
    ///   - email: The new user's email address.
    ///
    /// - Returns: `true` if successful; otherwise `false`.
    func signUp(cipClient: CognitoIdentityProviderClient, clientId: String, userName: String, password: String, email: String) async -> Bool {
        let emailAttr = CognitoIdentityProviderClientTypes.AttributeType(
            name: "email",
            value: email
        )

        let userAttrsList = [emailAttr]

        do {
            _ = try await cipClient.signUp(
                input: SignUpInput(
                    clientId: clientId,
                    password: password,
                    userAttributes: userAttrsList,
                    username: userName
                )

            )

            print("=====> User \(userName) signed up.")
        } catch _ as AWSCognitoIdentityProvider.UsernameExistsException {
            print("*** The username \(userName) already exists. Please use a different one.")
            return false
        } catch let error as AWSCognitoIdentityProvider.InvalidPasswordException {
            print("*** Error: The specified password is invalid. Reason: \(error.properties.message ?? "<none available>").")
            return false
        } catch _ as AWSCognitoIdentityProvider.ResourceNotFoundException {
            print("*** Error: The specified client ID (\(clientId)) doesn't exist.")
            return false
        } catch {
            print("*** Unexpected error: \(error)")
            return false
        }

        return true
    }

    /// Requests a new confirmation code be sent to the given user's contact
    /// method.
    ///
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - clientId: The application client ID.
    ///   - userName: The user to resend a code for.
    ///
    /// - Returns: `true` if a new code was sent successfully, otherwise
    ///   `false`.
    func resendConfirmationCode(cipClient: CognitoIdentityProviderClient, clientId: String,
                                userName: String) async -> Bool {
        do {
            let output = try await cipClient.resendConfirmationCode(
                input: ResendConfirmationCodeInput(
                    clientId: clientId,
                    username: userName
                )
            )

            guard let deliveryMedium = output.codeDeliveryDetails?.deliveryMedium else {
                print("*** Unable to get the delivery method for the resent code.")
                return false
            }

            print("=====> A new code has been sent by \(deliveryMedium)")
            return true
        } catch {
            print("*** Unable to resend the confirmation code to user \(userName).")
            return false
        }
    }

    /// Submit a confirmation code for the specified user. This is the code as
    /// entered by the user after they've received it by email or text
    /// message.
    ///
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - clientId: The app client ID the user is signing up for.
    ///   - userName: The username of the user whose code is being sent.
    ///   - code: The user's confirmation code.
    /// 
    /// - Returns: `true` if the code was successfully confirmed; otherwise `false`.
    func confirmSignUp(cipClient: CognitoIdentityProviderClient, clientId: String,
                       userName: String, code: String) async -> Bool {
        do {
            _ = try await cipClient.confirmSignUp(
                input: ConfirmSignUpInput(
                    clientId: clientId,
                    confirmationCode: code,
                    username: userName
                )
            )

            print("=====> \(userName) has been confirmed.")
            return true
        } catch {
            print("=====> \(userName)'s code was entered incorrectly.")
            return false
        }
    }

    /// Begin an authentication session.
    ///
    /// - Parameters:
    ///   - cipClient: The `CongitoIdentityProviderClient` to use.
    ///   - clientId: The app client ID to use.
    ///   - userName: The username to check.
    ///   - password: The user's password.
    ///   - userPoolId: The user pool to use.
    ///
    /// - Returns: The session token associated with this authentication
    ///   session.
    func initiateAuth(cipClient: CognitoIdentityProviderClient, clientId: String,
                         userName: String, password: String,
                         userPoolId: String) async -> String? {
        var authParams: [String: String] = [:]

        authParams["USERNAME"] = userName
        authParams["PASSWORD"] = password

        do {
            let output = try await cipClient.adminInitiateAuth(
                input: AdminInitiateAuthInput(
                    authFlow: CognitoIdentityProviderClientTypes.AuthFlowType.adminUserPasswordAuth,
                    authParameters: authParams,
                    clientId: clientId,
                    userPoolId: userPoolId
                )
            )

            guard let challengeName = output.challengeName else {
                print("*** Invalid response from the auth service.")
                return nil
            }

            print("=====> Response challenge is \(challengeName)")

            return output.session
        } catch _ as UserNotFoundException {
            print("*** The specified username, \(userName), doesn't exist.")
            return nil
        } catch _ as UserNotConfirmedException {
            print("*** The user \(userName) has not been confirmed.")
            return nil
        } catch {
            print("*** An unexpected error occurred.")
            return nil
        }
    }

    /// Request and display an MFA secret token that the user should enter
    /// into their authenticator to set it up for the user account.
    /// 
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - authSession: The authentication session to request an MFA secret
    ///     for.
    ///
    /// - Returns: A string containing the MFA secret token that should be
    ///   entered into the authenticator software.
    func getSecretForAppMFA(cipClient: CognitoIdentityProviderClient, authSession: String?) async -> String? {
        do {
            let output = try await cipClient.associateSoftwareToken(
                input: AssociateSoftwareTokenInput(
                    session: authSession
                )
            )

            guard let secretCode = output.secretCode else {
                print("*** Unable to get the secret code")
                return nil
            }

            print("=====> Enter this token into Google Authenticator: \(secretCode)")
            return output.session
        } catch _ as SoftwareTokenMFANotFoundException {
            print("*** The specified user pool isn't configured for MFA.")
            return nil
        } catch {
            print("*** An unexpected error occurred getting the secret for the app's MFA.")
            return nil
        }
    }

    /// Confirm that the user's TOTP authenticator is configured correctly by
    /// sending a code to it to check that it matches successfully.
    /// 
    /// - Parameters:
    ///   - cipClient: The `CongnitoIdentityProviderClient` to use.
    ///   - session: An authentication session previously returned by an
    ///     `associateSoftwareToken()` call.
    ///   - mfaCode: The 6-digit code currently displayed by the user's
    ///     authenticator, as provided by the user.
    func verifyTOTP(cipClient: CognitoIdentityProviderClient, session: String?, mfaCode: String?) async {
        do {
            let output = try await cipClient.verifySoftwareToken(
                input: VerifySoftwareTokenInput(
                    session: session,
                    userCode: mfaCode
                )
            )

            guard let tokenStatus = output.status else {
                print("*** Unable to get the token's status.")
                return
            }
            print("=====> The token's status is: \(tokenStatus)")
        } catch _ as SoftwareTokenMFANotFoundException {
            print("*** The specified user pool isn't configured for MFA.")
            return
        } catch _ as CodeMismatchException {
            print("*** The specified MFA code doesn't match the expected value.")
            return
        } catch _ as UserNotFoundException {
            print("*** The specified username doesn't exist.")
            return
        } catch _ as UserNotConfirmedException {
            print("*** The user has not been confirmed.")
            return
        } catch {
            print("*** Error verifying the MFA token!")
            return
        }
    }

    /// Respond to the authentication challenge received from Cognito after
    /// initiating an authentication session. This involves sending a current
    /// MFA code to the service.
    /// 
    /// - Parameters:
    ///   - cipClient: The `CognitoIdentityProviderClient` to use.
    ///   - userName: The user's username.
    ///   - clientId: The app client ID.
    ///   - userPoolId: The user pool to sign into.
    ///   - mfaCode: The 6-digit MFA code currently displayed by the user's
    ///     authenticator.
    ///   - session: The authentication session to continue processing.
    func adminRespondToAuthChallenge(cipClient: CognitoIdentityProviderClient, userName: String,
                                     clientId: String, userPoolId: String, mfaCode: String,
                                     session: String) async {
        print("=====> SOFTWARE_TOKEN_MFA challenge is generated...")

        var challengeResponsesOb: [String: String] = [:]
        challengeResponsesOb["USERNAME"] = userName
        challengeResponsesOb["SOFTWARE_TOKEN_MFA_CODE"] = mfaCode

        do {
            let output = try await cipClient.adminRespondToAuthChallenge(
                input: AdminRespondToAuthChallengeInput(
                    challengeName: CognitoIdentityProviderClientTypes.ChallengeNameType.softwareTokenMfa,
                    challengeResponses: challengeResponsesOb,
                    clientId: clientId,
                    session: session,
                    userPoolId: userPoolId
                )
            )

            guard let authenticationResult = output.authenticationResult else {
                print("*** Unable to get authentication result.")
                return
            }

            print("=====> Authentication result (JWTs are redacted):")
            print(authenticationResult)
        } catch _ as SoftwareTokenMFANotFoundException {
            print("*** The specified user pool isn't configured for MFA.")
            return
        } catch _ as CodeMismatchException {
            print("*** The specified MFA code doesn't match the expected value.")
            return
        } catch _ as UserNotFoundException {
            print("*** The specified username, \(userName), doesn't exist.")
            return
        } catch _ as UserNotConfirmedException {
            print("*** The user \(userName) has not been confirmed.")
            return
        } catch let error as NotAuthorizedException {
            print("*** Unauthorized access. Reason: \(error.properties.message ?? "<unknown>")")
        } catch {
            print("*** Error responding to the MFA challenge.")
            return
        }
    }

    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        let config = try await CognitoIdentityProviderClient.CognitoIdentityProviderClientConfiguration(region: region)
        let cipClient = CognitoIdentityProviderClient(config: config)

        print("""
              This example collects information about a user, then creates that user in the
              specified user pool. Then, it enables Multi-Factor Authentication (MFA) for that
              user by associating an authenticator application (such as Google Authenticator
              or a password manager that supports TOTP). Then, the user uses a code from their
              authenticator application to sign in.

              """)

        let userName = stringRequest("Please enter a new username: ")
        let password = stringRequest("Enter a password: ")
        let email = stringRequest("Enter your email address: ", minLength: 5)

        // Submit the sign-up request to AWS.

        print("==> Signing up user \(userName)...")
        if await signUp(cipClient: cipClient, clientId: clientId,
                        userName: userName, password: password,
                        email: email) == false {
            return
        }

        // Check the user's status. This time, it should come back "unconfirmed".

        print("==> Getting the status of user \(userName) from the user pool (should be 'unconfirmed')...")
        if await adminGetUser(cipClient: cipClient, userName: userName, userPoolId: poolId) == false {
            return
        }

        // Ask the user if they want a replacement code sent, such as if the
        // code hasn't arrived yet. If the user responds with a "yes," send a
        // new code.

        if yesNoRequest("==> A confirmation code was sent to \(userName). Would you like to send a new code (Y/N)? ") {
            print("==> Sending a new confirmation code...")
            if await resendConfirmationCode(cipClient: cipClient, clientId: clientId, userName: userName) == false {
                return
            }
        }

        // Ask the user to enter the confirmation code, then send it to Amazon
        // Cognito to verify it.

        let code = stringRequest("==> Enter the confirmation code sent to \(userName): ")
        if await confirmSignUp(cipClient: cipClient, clientId: clientId, userName: userName, code: code) == false {
            // The code didn't match. Your application may wish to offer to
            // re-send the confirmation code here and try again.
            return
        }

        // Check the user's status again. This time it should come back
        // "confirmed".

        print("==> Rechecking status of user \(userName) in the user pool (should be 'confirmed')...")
        if await adminGetUser(cipClient: cipClient, userName: userName, userPoolId: poolId) == false {
            return
        }
        // Check the challenge mode. Here, it should be "mfaSetup", indicating
        // that the user needs to add MFA before using it. This returns a
        // session that can be used to register MFA, or nil if an error occurs.

        let authSession = await initiateAuth(cipClient: cipClient, clientId: clientId,
                                                userName: userName, password: password,
                                                userPoolId: poolId)
        if authSession == nil {
            return
        }

        // Ask Cognito for an MFA secret token that the user should enter into
        // their authenticator software (such as Google Authenticator) or
        // password manager to configure it for this user account. This
        // returns a new session that should be used for the new stage of the
        // authentication process.

        let newSession = await getSecretForAppMFA(cipClient: cipClient, authSession: authSession)
        if newSession == nil {
            return
        }

        // Ask the user to enter the current 6-digit code displayed by their
        // authenticator. Then verify that it matches the value expected for
        // the session.

        let mfaCode1 = stringRequest("==> Enter the 6-digit code displayed in your authenticator: ",
                                    minLength: 6)
        await verifyTOTP(cipClient: cipClient, session: newSession, mfaCode: mfaCode1)

        // Ask the user to authenticate now that the authenticator has been
        // configured. This creates a new session using the user's username
        // and password as already entered.

        print("\nNow starting the sign-in process for user \(userName)...\n")
        
        let session2 = await initiateAuth(cipClient: cipClient, clientId: clientId,
                                    userName: userName, password: password, userPoolId: poolId)
        guard let session2 else {
            return
        }

        // Now that we have a new auth session, `session2`, ask the user for a
        // new 6-digit code from their authenticator, and send it to the auth
        // session.

        let mfaCode2 = stringRequest("==> Wait for your authenticator to show a new 6-digit code, then enter it: ",
                                    minLength: 6)
        await adminRespondToAuthChallenge(cipClient: cipClient, userName: userName,
                                          clientId: clientId, userPoolId: poolId,
                                          mfaCode: mfaCode2, session: session2)
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [AdminGetUser](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/admingetuser(input:))
  + [AdminInitiateAuth](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/admininitiateauth(input:))
  + [AdminRespondToAuthChallenge](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/adminrespondtoauthchallenge(input:))
  + [AssociateSoftwareToken](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/associatesoftwaretoken(input:))
  + [ConfirmDevice](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/confirmdevice(input:))
  + [ConfirmSignUp](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/confirmsignup(input:))
  + [InitiateAuth](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/initiateauth(input:))
  + [ListUsers](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/listusers(input:))
  + [ResendConfirmationCode](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/resendconfirmationcode(input:))
  + [RespondToAuthChallenge](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/respondtoauthchallenge(input:))
  + [SignUp](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/signup(input:))
  + [VerifySoftwareToken](https://sdk.amazonaws.com/swift/api/awscognitoidentityprovider/latest/documentation/awscognitoidentityprovider/cognitoidentityproviderclient/verifysoftwaretoken(input:))

# Contoh DynamoDB menggunakan SDK untuk Swift
<a name="swift_1_dynamodb_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Swift dengan DynamoDB.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="dynamodb_Scenario_GettingStartedMovies_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat tabel yang dapat menyimpan data film.
+ Masukkan, dapatkan, dan perbarui satu film dalam tabel tersebut.
+ Tulis data film ke tabel dari file JSON sampel.
+ Kueri untuk film yang dirilis pada tahun tertentu.
+ Pindai film yang dirilis dalam suatu rentang tahun.
+ Hapus film dari tabel, lalu hapus tabel tersebut.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 
Kelas Swift yang menangani panggilan DynamoDB ke SDK untuk Swift.  

```
import AWSDynamoDB
import Foundation

/// An enumeration of error codes representing issues that can arise when using
/// the `MovieTable` class.
enum MoviesError: Error {
    /// The specified table wasn't found or couldn't be created.
    case TableNotFound
    /// The specified item wasn't found or couldn't be created.
    case ItemNotFound
    /// The Amazon DynamoDB client is not properly initialized.
    case UninitializedClient
    /// The table status reported by Amazon DynamoDB is not recognized.
    case StatusUnknown
    /// One or more specified attribute values are invalid or missing.
    case InvalidAttributes
}

/// A class representing an Amazon DynamoDB table containing movie
/// information.
public class MovieTable {
    var ddbClient: DynamoDBClient?
    let tableName: String

    /// Create an object representing a movie table in an Amazon DynamoDB
    /// database.
    ///
    /// - Parameters:
    ///   - region: The optional Amazon Region to create the database in.
    ///   - tableName: The name to assign to the table. If not specified, a
    ///     random table name is generated automatically.
    ///
    /// > Note: The table is not necessarily available when this function
    /// returns. Use `tableExists()` to check for its availability, or
    /// `awaitTableActive()` to wait until the table's status is reported as
    /// ready to use by Amazon DynamoDB.
    ///
    init(region: String? = nil, tableName: String) async throws {
        do {
            let config = try await DynamoDBClient.DynamoDBClientConfiguration()
            if let region = region {
                config.region = region
            }

            self.ddbClient = DynamoDBClient(config: config)
            self.tableName = tableName

            try await self.createTable()
        } catch {
            print("ERROR: ", dump(error, name: "Initializing Amazon DynamoDBClient client"))
            throw error
        }
    }

    ///
    /// Create a movie table in the Amazon DynamoDB data store.
    ///
    private func createTable() async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = CreateTableInput(
                attributeDefinitions: [
                    DynamoDBClientTypes.AttributeDefinition(attributeName: "year", attributeType: .n),
                    DynamoDBClientTypes.AttributeDefinition(attributeName: "title", attributeType: .s)
                ],
                billingMode: DynamoDBClientTypes.BillingMode.payPerRequest,
                keySchema: [
                    DynamoDBClientTypes.KeySchemaElement(attributeName: "year", keyType: .hash),
                    DynamoDBClientTypes.KeySchemaElement(attributeName: "title", keyType: .range)
                ],
                tableName: self.tableName
            )
            let output = try await client.createTable(input: input)
            if output.tableDescription == nil {
                throw MoviesError.TableNotFound
            }
        } catch {
            print("ERROR: createTable:", dump(error))
            throw error
        }
    }


    /// Check to see if the table exists online yet.
    ///
    /// - Returns: `true` if the table exists, or `false` if not.
    ///
    func tableExists() async throws -> Bool {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = DescribeTableInput(
                tableName: tableName
            )
            let output = try await client.describeTable(input: input)
            guard let description = output.table else {
                throw MoviesError.TableNotFound
            }

            return description.tableName == self.tableName
        } catch {
            print("ERROR: tableExists:", dump(error))
            throw error
        }
    }


    ///
    /// Waits for the table to exist and for its status to be active.
    ///
    func awaitTableActive() async throws {
        while try (await self.tableExists() == false) {
            do {
                let duration = UInt64(0.25 * 1_000_000_000) // Convert .25 seconds to nanoseconds.
                try await Task.sleep(nanoseconds: duration)
            } catch {
                print("Sleep error:", dump(error))
            }
        }

        while try (await self.getTableStatus() != .active) {
            do {
                let duration = UInt64(0.25 * 1_000_000_000) // Convert .25 seconds to nanoseconds.
                try await Task.sleep(nanoseconds: duration)
            } catch {
                print("Sleep error:", dump(error))
            }
        }
    }


    ///
    /// Deletes the table from Amazon DynamoDB.
    ///
    func deleteTable() async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = DeleteTableInput(
                tableName: self.tableName
            )
            _ = try await client.deleteTable(input: input)
        } catch {
            print("ERROR: deleteTable:", dump(error))
            throw error
        }
    }


    /// Get the table's status.
    ///
    /// - Returns: The table status, as defined by the
    ///   `DynamoDBClientTypes.TableStatus` enum.
    ///
    func getTableStatus() async throws -> DynamoDBClientTypes.TableStatus {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = DescribeTableInput(
                tableName: self.tableName
            )
            let output = try await client.describeTable(input: input)
            guard let description = output.table else {
                throw MoviesError.TableNotFound
            }
            guard let status = description.tableStatus else {
                throw MoviesError.StatusUnknown
            }
            return status
        } catch {
            print("ERROR: getTableStatus:", dump(error))
            throw error
        }
    }


    /// Populate the movie database from the specified JSON file.
    ///
    /// - Parameter jsonPath: Path to a JSON file containing movie data.
    ///
    func populate(jsonPath: String) async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            // Create a Swift `URL` and use it to load the file into a `Data`
            // object. Then decode the JSON into an array of `Movie` objects.

            let fileUrl = URL(fileURLWithPath: jsonPath)
            let jsonData = try Data(contentsOf: fileUrl)

            var movieList = try JSONDecoder().decode([Movie].self, from: jsonData)

            // Truncate the list to the first 200 entries or so for this example.

            if movieList.count > 200 {
                movieList = Array(movieList[...199])
            }

            // Before sending records to the database, break the movie list into
            // 25-entry chunks, which is the maximum size of a batch item request.

            let count = movieList.count
            let chunks = stride(from: 0, to: count, by: 25).map {
                Array(movieList[$0 ..< Swift.min($0 + 25, count)])
            }

            // For each chunk, create a list of write request records and populate
            // them with `PutRequest` requests, each specifying one movie from the
            // chunk. Once the chunk's items are all in the `PutRequest` list,
            // send them to Amazon DynamoDB using the
            // `DynamoDBClient.batchWriteItem()` function.

            for chunk in chunks {
                var requestList: [DynamoDBClientTypes.WriteRequest] = []

                for movie in chunk {
                    let item = try await movie.getAsItem()
                    let request = DynamoDBClientTypes.WriteRequest(
                        putRequest: .init(
                            item: item
                        )
                    )
                    requestList.append(request)
                }

                let input = BatchWriteItemInput(requestItems: [tableName: requestList])
                _ = try await client.batchWriteItem(input: input)
            }
        } catch {
            print("ERROR: populate:", dump(error))
            throw error
        }
    }


    /// Add a movie specified as a `Movie` structure to the Amazon DynamoDB
    /// table.
    ///
    /// - Parameter movie: The `Movie` to add to the table.
    ///
    func add(movie: Movie) async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            // Get a DynamoDB item containing the movie data.
            let item = try await movie.getAsItem()

            // Send the `PutItem` request to Amazon DynamoDB.

            let input = PutItemInput(
                item: item,
                tableName: self.tableName
            )
            _ = try await client.putItem(input: input)
        } catch {
            print("ERROR: add movie:", dump(error))
            throw error
        }
    }


    /// Given a movie's details, add a movie to the Amazon DynamoDB table.
    ///
    /// - Parameters:
    ///   - title: The movie's title as a `String`.
    ///   - year: The release year of the movie (`Int`).
    ///   - rating: The movie's rating if available (`Double`; default is
    ///     `nil`).
    ///   - plot: A summary of the movie's plot (`String`; default is `nil`,
    ///     indicating no plot summary is available).
    ///
    func add(title: String, year: Int, rating: Double? = nil,
             plot: String? = nil) async throws
    {
        do {
            let movie = Movie(title: title, year: year, rating: rating, plot: plot)
            try await self.add(movie: movie)
        } catch {
            print("ERROR: add with fields:", dump(error))
            throw error
        }
    }


    /// Return a `Movie` record describing the specified movie from the Amazon
    /// DynamoDB table.
    ///
    /// - Parameters:
    ///   - title: The movie's title (`String`).
    ///   - year: The movie's release year (`Int`).
    ///
    /// - Throws: `MoviesError.ItemNotFound` if the movie isn't in the table.
    ///
    /// - Returns: A `Movie` record with the movie's details.
    func get(title: String, year: Int) async throws -> Movie {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = GetItemInput(
                key: [
                    "year": .n(String(year)),
                    "title": .s(title)
                ],
                tableName: self.tableName
            )
            let output = try await client.getItem(input: input)
            guard let item = output.item else {
                throw MoviesError.ItemNotFound
            }

            let movie = try Movie(withItem: item)
            return movie
        } catch {
            print("ERROR: get:", dump(error))
            throw error
        }
    }


    /// Get all the movies released in the specified year.
    ///
    /// - Parameter year: The release year of the movies to return.
    ///
    /// - Returns: An array of `Movie` objects describing each matching movie.
    ///
    func getMovies(fromYear year: Int) async throws -> [Movie] {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = QueryInput(
                expressionAttributeNames: [
                    "#y": "year"
                ],
                expressionAttributeValues: [
                    ":y": .n(String(year))
                ],
                keyConditionExpression: "#y = :y",
                tableName: self.tableName
            )
            // Use "Paginated" to get all the movies.
            // This lets the SDK handle the 'lastEvaluatedKey' property in "QueryOutput".

            let pages = client.queryPaginated(input: input)

            var movieList: [Movie] = []
            for try await page in pages {
                guard let items = page.items else {
                    print("Error: no items returned.")
                    continue
                }

                // Convert the found movies into `Movie` objects and return an array
                // of them.

                for item in items {
                    let movie = try Movie(withItem: item)
                    movieList.append(movie)
                }
            }
            return movieList
        } catch {
            print("ERROR: getMovies:", dump(error))
            throw error
        }
    }


    /// Return an array of `Movie` objects released in the specified range of
    /// years.
    ///
    /// - Parameters:
    ///   - firstYear: The first year of movies to return.
    ///   - lastYear: The last year of movies to return.
    ///   - startKey: A starting point to resume processing; always use `nil`.
    ///
    /// - Returns: An array of `Movie` objects describing the matching movies.
    ///
    /// > Note: The `startKey` parameter is used by this function when
    ///   recursively calling itself, and should always be `nil` when calling
    ///   directly.
    ///
    func getMovies(firstYear: Int, lastYear: Int,
                   startKey: [Swift.String: DynamoDBClientTypes.AttributeValue]? = nil)
        async throws -> [Movie]
    {
        do {
            var movieList: [Movie] = []

            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = ScanInput(
                consistentRead: true,
                exclusiveStartKey: startKey,
                expressionAttributeNames: [
                    "#y": "year" // `year` is a reserved word, so use `#y` instead.
                ],
                expressionAttributeValues: [
                    ":y1": .n(String(firstYear)),
                    ":y2": .n(String(lastYear))
                ],
                filterExpression: "#y BETWEEN :y1 AND :y2",
                tableName: self.tableName
            )

            let pages = client.scanPaginated(input: input)

            for try await page in pages {
                guard let items = page.items else {
                    print("Error: no items returned.")
                    continue
                }

                // Build an array of `Movie` objects for the returned items.

                for item in items {
                    let movie = try Movie(withItem: item)
                    movieList.append(movie)
                }
            }
            return movieList

        } catch {
            print("ERROR: getMovies with scan:", dump(error))
            throw error
        }
    }


    /// Update the specified movie with new `rating` and `plot` information.
    ///
    /// - Parameters:
    ///   - title: The title of the movie to update.
    ///   - year: The release year of the movie to update.
    ///   - rating: The new rating for the movie.
    ///   - plot: The new plot summary string for the movie.
    ///
    /// - Returns: An array of mappings of attribute names to their new
    ///   listing each item actually changed. Items that didn't need to change
    ///   aren't included in this list. `nil` if no changes were made.
    ///
    func update(title: String, year: Int, rating: Double? = nil, plot: String? = nil) async throws
        -> [Swift.String: DynamoDBClientTypes.AttributeValue]?
    {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            // Build the update expression and the list of expression attribute
            // values. Include only the information that's changed.

            var expressionParts: [String] = []
            var attrValues: [Swift.String: DynamoDBClientTypes.AttributeValue] = [:]

            if rating != nil {
                expressionParts.append("info.rating=:r")
                attrValues[":r"] = .n(String(rating!))
            }
            if plot != nil {
                expressionParts.append("info.plot=:p")
                attrValues[":p"] = .s(plot!)
            }
            let expression = "set \(expressionParts.joined(separator: ", "))"

            let input = UpdateItemInput(
                // Create substitution tokens for the attribute values, to ensure
                // no conflicts in expression syntax.
                expressionAttributeValues: attrValues,
                // The key identifying the movie to update consists of the release
                // year and title.
                key: [
                    "year": .n(String(year)),
                    "title": .s(title)
                ],
                returnValues: .updatedNew,
                tableName: self.tableName,
                updateExpression: expression
            )
            let output = try await client.updateItem(input: input)

            guard let attributes: [Swift.String: DynamoDBClientTypes.AttributeValue] = output.attributes else {
                throw MoviesError.InvalidAttributes
            }
            return attributes
        } catch {
            print("ERROR: update:", dump(error))
            throw error
        }
    }


    /// Delete a movie, given its title and release year.
    ///
    /// - Parameters:
    ///   - title: The movie's title.
    ///   - year: The movie's release year.
    ///
    func delete(title: String, year: Int) async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = DeleteItemInput(
                key: [
                    "year": .n(String(year)),
                    "title": .s(title)
                ],
                tableName: self.tableName
            )
            _ = try await client.deleteItem(input: input)
        } catch {
            print("ERROR: delete:", dump(error))
            throw error
        }
    }
}
```
Struktur yang digunakan oleh MovieTable kelas untuk mewakili film.  

```
import Foundation
import AWSDynamoDB

/// The optional details about a movie.
public struct Details: Codable {
    /// The movie's rating, if available.
    var rating: Double?
    /// The movie's plot, if available.
    var plot: String?
}

/// A structure describing a movie. The `year` and `title` properties are
/// required and are used as the key for Amazon DynamoDB operations. The
/// `info` sub-structure's two properties, `rating` and `plot`, are optional.
public struct Movie: Codable {
    /// The year in which the movie was released.
    var year: Int
    /// The movie's title.
    var title: String
    /// A `Details` object providing the optional movie rating and plot
    /// information.
    var info: Details

    /// Create a `Movie` object representing a movie, given the movie's
    /// details.
    ///
    /// - Parameters:
    ///   - title: The movie's title (`String`).
    ///   - year: The year in which the movie was released (`Int`).
    ///   - rating: The movie's rating (optional `Double`).
    ///   - plot: The movie's plot (optional `String`)
    init(title: String, year: Int, rating: Double? = nil, plot: String? = nil) {
        self.title = title
        self.year = year

        self.info = Details(rating: rating, plot: plot)
    }

    /// Create a `Movie` object representing a movie, given the movie's
    /// details.
    ///
    /// - Parameters:
    ///   - title: The movie's title (`String`).
    ///   - year: The year in which the movie was released (`Int`).
    ///   - info: The optional rating and plot information for the movie in a
    ///     `Details` object.
    init(title: String, year: Int, info: Details?){
        self.title = title
        self.year = year

        if info != nil {
            self.info = info!
        } else {
            self.info = Details(rating: nil, plot: nil)
        }
    }

    ///
    /// Return a new `MovieTable` object, given an array mapping string to Amazon
    /// DynamoDB attribute values.
    /// 
    /// - Parameter item: The item information provided to the form used by
    ///   DynamoDB. This is an array of strings mapped to
    ///   `DynamoDBClientTypes.AttributeValue` values.
    init(withItem item: [Swift.String:DynamoDBClientTypes.AttributeValue]) throws  {
        // Read the attributes.

        guard let titleAttr = item["title"],
              let yearAttr = item["year"] else {
            throw MoviesError.ItemNotFound
        }
        let infoAttr = item["info"] ?? nil

        // Extract the values of the title and year attributes.

        if case .s(let titleVal) = titleAttr {
            self.title = titleVal
        } else {
            throw MoviesError.InvalidAttributes
        }

        if case .n(let yearVal) = yearAttr {
            self.year = Int(yearVal)!
        } else {
            throw MoviesError.InvalidAttributes
        }

        // Extract the rating and/or plot from the `info` attribute, if
        // they're present.

        var rating: Double? = nil
        var plot: String? = nil

        if infoAttr != nil, case .m(let infoVal) = infoAttr {
            let ratingAttr = infoVal["rating"] ?? nil
            let plotAttr = infoVal["plot"] ?? nil

            if ratingAttr != nil, case .n(let ratingVal) = ratingAttr {
                rating = Double(ratingVal) ?? nil
            }
            if plotAttr != nil, case .s(let plotVal) = plotAttr {
                plot = plotVal
            }
        }

        self.info = Details(rating: rating, plot: plot)
    }

    ///
    /// Return an array mapping attribute names to Amazon DynamoDB attribute
    /// values, representing the contents of the `Movie` record as a DynamoDB
    /// item.
    ///
    /// - Returns: The movie item as an array of type
    ///   `[Swift.String:DynamoDBClientTypes.AttributeValue]`.
    ///
    func getAsItem() async throws -> [Swift.String:DynamoDBClientTypes.AttributeValue]  {
        // Build the item record, starting with the year and title, which are
        // always present.

        var item: [Swift.String:DynamoDBClientTypes.AttributeValue] = [
            "year": .n(String(self.year)),
            "title": .s(self.title)
        ]

        // Add the `info` field with the rating and/or plot if they're
        // available.

        var details: [Swift.String:DynamoDBClientTypes.AttributeValue] = [:]
        if (self.info.rating != nil || self.info.plot != nil) {
            if self.info.rating != nil {
                details["rating"] = .n(String(self.info.rating!))
            }
            if self.info.plot != nil {
                details["plot"] = .s(self.info.plot!)
            }
        }
        item["info"] = .m(details)

        return item
    }
 }
```
Sebuah program yang menggunakan MovieTable kelas untuk mengakses database DynamoDB.  

```
import ArgumentParser
import ClientRuntime
import Foundation

import AWSDynamoDB


@testable import MovieList

extension String {
    // Get the directory if the string is a file path.
    func directory() -> String {
        guard let lastIndex = lastIndex(of: "/") else {
            print("Error: String directory separator not found.")
            return ""
        }
        return String(self[...lastIndex])
    }
}

struct ExampleCommand: ParsableCommand {
    @Argument(help: "The path of the sample movie data JSON file.")
    var jsonPath: String = #file.directory() + "../../../../../resources/sample_files/movies.json"

    @Option(help: "The AWS Region to run AWS API calls in.")
    var awsRegion: String?

    @Option(
        help: ArgumentHelp("The level of logging for the Swift SDK to perform."),
        completion: .list([
            "critical",
            "debug",
            "error",
            "info",
            "notice",
            "trace",
            "warning"
        ])
    )
    var logLevel: String = "error"

    /// Configuration details for the command.
    static var configuration = CommandConfiguration(
        commandName: "basics",
        abstract: "A basic scenario demonstrating the usage of Amazon DynamoDB.",
        discussion: """
        An example showing how to use Amazon DynamoDB to perform a series of
        common database activities on a simple movie database.
        """
    )

    /// Called by ``main()`` to asynchronously run the AWS example.
    func runAsync() async throws {
        print("Welcome to the AWS SDK for Swift basic scenario for Amazon DynamoDB!")

        //=====================================================================
        // 1. Create the table. The Amazon DynamoDB table is represented by
        //    the `MovieTable` class.
        //=====================================================================

        let tableName = "ddb-movies-sample-\(Int.random(in: 1 ... Int.max))"

        print("Creating table \"\(tableName)\"...")

        let movieDatabase = try await MovieTable(region: awsRegion,
                                                 tableName: tableName)

        print("\nWaiting for table to be ready to use...")
        try await movieDatabase.awaitTableActive()

        //=====================================================================
        // 2. Add a movie to the table.
        //=====================================================================

        print("\nAdding a movie...")
        try await movieDatabase.add(title: "Avatar: The Way of Water", year: 2022)
        try await movieDatabase.add(title: "Not a Real Movie", year: 2023)

        //=====================================================================
        // 3. Update the plot and rating of the movie using an update
        //    expression.
        //=====================================================================

        print("\nAdding details to the added movie...")
        _ = try await movieDatabase.update(title: "Avatar: The Way of Water", year: 2022,
                                           rating: 9.2, plot: "It's a sequel.")

        //=====================================================================
        // 4. Populate the table from the JSON file.
        //=====================================================================

        print("\nPopulating the movie database from JSON...")
        try await movieDatabase.populate(jsonPath: jsonPath)

        //=====================================================================
        // 5. Get a specific movie by key. In this example, the key is a
        //    combination of `title` and `year`.
        //=====================================================================

        print("\nLooking for a movie in the table...")
        let gotMovie = try await movieDatabase.get(title: "This Is the End", year: 2013)

        print("Found the movie \"\(gotMovie.title)\", released in \(gotMovie.year).")
        print("Rating: \(gotMovie.info.rating ?? 0.0).")
        print("Plot summary: \(gotMovie.info.plot ?? "None.")")

        //=====================================================================
        // 6. Delete a movie.
        //=====================================================================

        print("\nDeleting the added movie...")
        try await movieDatabase.delete(title: "Avatar: The Way of Water", year: 2022)

        //=====================================================================
        // 7. Use a query with a key condition expression to return all movies
        //    released in a given year.
        //=====================================================================

        print("\nGetting movies released in 1994...")
        let movieList = try await movieDatabase.getMovies(fromYear: 1994)
        for movie in movieList {
            print("    \(movie.title)")
        }

        //=====================================================================
        // 8. Use `scan()` to return movies released in a range of years.
        //=====================================================================

        print("\nGetting movies released between 1993 and 1997...")
        let scannedMovies = try await movieDatabase.getMovies(firstYear: 1993, lastYear: 1997)
        for movie in scannedMovies {
            print("    \(movie.title) (\(movie.year))")
        }

        //=====================================================================
        // 9. Delete the table.
        //=====================================================================

        print("\nDeleting the table...")
        try await movieDatabase.deleteTable()
    }
}

@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [BatchWriteItem](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/batchwriteitem(input:))
  + [CreateTable](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/createtable(input:))
  + [DeleteItem](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/deleteitem(input:))
  + [DeleteTable](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/deletetable(input:))
  + [DescribeTable](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/describetable(input:))
  + [GetItem](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/getitem(input:))
  + [PutItem](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/putitem(input:))
  + [Kueri](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/query(input:))
  + [Scan](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/scan(input:))
  + [UpdateItem](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/updateitem(input:))

## Tindakan
<a name="actions"></a>

### `BatchGetItem`
<a name="dynamodb_BatchGetItem_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchGetItem`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    /// Gets an array of `Movie` objects describing all the movies in the
    /// specified list. Any movies that aren't found in the list have no
    /// corresponding entry in the resulting array.
    ///
    /// - Parameters
    ///     - keys: An array of tuples, each of which specifies the title and
    ///       release year of a movie to fetch from the table.
    ///
    /// - Returns:
    ///     - An array of `Movie` objects describing each match found in the
    ///     table.
    ///
    /// - Throws:
    ///     - `MovieError.ClientUninitialized` if the DynamoDB client has not
    ///     been initialized.
    ///     - DynamoDB errors are thrown without change.
    func batchGet(keys: [(title: String, year: Int)]) async throws -> [Movie] {
        do {
            guard let client = self.ddbClient else {
                throw MovieError.ClientUninitialized
            }
            
            var movieList: [Movie] = []
            var keyItems: [[Swift.String: DynamoDBClientTypes.AttributeValue]] = []
            
            // Convert the list of keys into the form used by DynamoDB.
            
            for key in keys {
                let item: [Swift.String: DynamoDBClientTypes.AttributeValue] = [
                    "title": .s(key.title),
                    "year": .n(String(key.year))
                ]
                keyItems.append(item)
            }
            
            // Create the input record for `batchGetItem()`. The list of requested
            // items is in the `requestItems` property. This array contains one
            // entry for each table from which items are to be fetched. In this
            // example, there's only one table containing the movie data.
            //
            // If we wanted this program to also support searching for matches
            // in a table of book data, we could add a second `requestItem`
            // mapping the name of the book table to the list of items we want to
            // find in it.
            let input = BatchGetItemInput(
                requestItems: [
                    self.tableName: .init(
                        consistentRead: true,
                        keys: keyItems
                    )
                ]
            )
            
            // Fetch the matching movies from the table.
            
            let output = try await client.batchGetItem(input: input)
            
            // Get the set of responses. If there aren't any, return the empty
            // movie list.
            
            guard let responses = output.responses else {
                return movieList
            }
            
            // Get the list of matching items for the table with the name
            // `tableName`.
            
            guard let responseList = responses[self.tableName] else {
                return movieList
            }
            
            // Create `Movie` items for each of the matching movies in the table
            // and add them to the `MovieList` array.
            
            for response in responseList {
                try movieList.append(Movie(withItem: response))
            }
            
            return movieList
        } catch {
            print("ERROR: batchGet", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [BatchGetItem AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/batchgetitem(input:))*SDK untuk Swift API*. 

### `BatchWriteItem`
<a name="dynamodb_BatchWriteItem_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`BatchWriteItem`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb/#code-examples). 

```
import AWSDynamoDB


    /// Populate the movie database from the specified JSON file.
    ///
    /// - Parameter jsonPath: Path to a JSON file containing movie data.
    ///
    func populate(jsonPath: String) async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            // Create a Swift `URL` and use it to load the file into a `Data`
            // object. Then decode the JSON into an array of `Movie` objects.

            let fileUrl = URL(fileURLWithPath: jsonPath)
            let jsonData = try Data(contentsOf: fileUrl)

            var movieList = try JSONDecoder().decode([Movie].self, from: jsonData)

            // Truncate the list to the first 200 entries or so for this example.

            if movieList.count > 200 {
                movieList = Array(movieList[...199])
            }

            // Before sending records to the database, break the movie list into
            // 25-entry chunks, which is the maximum size of a batch item request.

            let count = movieList.count
            let chunks = stride(from: 0, to: count, by: 25).map {
                Array(movieList[$0 ..< Swift.min($0 + 25, count)])
            }

            // For each chunk, create a list of write request records and populate
            // them with `PutRequest` requests, each specifying one movie from the
            // chunk. Once the chunk's items are all in the `PutRequest` list,
            // send them to Amazon DynamoDB using the
            // `DynamoDBClient.batchWriteItem()` function.

            for chunk in chunks {
                var requestList: [DynamoDBClientTypes.WriteRequest] = []

                for movie in chunk {
                    let item = try await movie.getAsItem()
                    let request = DynamoDBClientTypes.WriteRequest(
                        putRequest: .init(
                            item: item
                        )
                    )
                    requestList.append(request)
                }

                let input = BatchWriteItemInput(requestItems: [tableName: requestList])
                _ = try await client.batchWriteItem(input: input)
            }
        } catch {
            print("ERROR: populate:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [BatchWriteItem AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/batchwriteitem(input:))*SDK untuk Swift API*. 

### `CreateTable`
<a name="dynamodb_CreateTable_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTable`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    ///
    /// Create a movie table in the Amazon DynamoDB data store.
    ///
    private func createTable() async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = CreateTableInput(
                attributeDefinitions: [
                    DynamoDBClientTypes.AttributeDefinition(attributeName: "year", attributeType: .n),
                    DynamoDBClientTypes.AttributeDefinition(attributeName: "title", attributeType: .s)
                ],
                billingMode: DynamoDBClientTypes.BillingMode.payPerRequest,
                keySchema: [
                    DynamoDBClientTypes.KeySchemaElement(attributeName: "year", keyType: .hash),
                    DynamoDBClientTypes.KeySchemaElement(attributeName: "title", keyType: .range)
                ],
                tableName: self.tableName
            )
            let output = try await client.createTable(input: input)
            if output.tableDescription == nil {
                throw MoviesError.TableNotFound
            }
        } catch {
            print("ERROR: createTable:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [CreateTable AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/createtable(input:))*SDK untuk Swift API*. 

### `DeleteItem`
<a name="dynamodb_DeleteItem_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteItem`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    /// Delete a movie, given its title and release year.
    ///
    /// - Parameters:
    ///   - title: The movie's title.
    ///   - year: The movie's release year.
    ///
    func delete(title: String, year: Int) async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = DeleteItemInput(
                key: [
                    "year": .n(String(year)),
                    "title": .s(title)
                ],
                tableName: self.tableName
            )
            _ = try await client.deleteItem(input: input)
        } catch {
            print("ERROR: delete:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteItem AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/deleteitem(input:))*SDK untuk Swift API*. 

### `DeleteTable`
<a name="dynamodb_DeleteTable_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    ///
    /// Deletes the table from Amazon DynamoDB.
    ///
    func deleteTable() async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = DeleteTableInput(
                tableName: self.tableName
            )
            _ = try await client.deleteTable(input: input)
        } catch {
            print("ERROR: deleteTable:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteTable AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/deletetable(input:))*SDK untuk Swift API*. 

### `GetItem`
<a name="dynamodb_GetItem_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetItem`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    /// Return a `Movie` record describing the specified movie from the Amazon
    /// DynamoDB table.
    ///
    /// - Parameters:
    ///   - title: The movie's title (`String`).
    ///   - year: The movie's release year (`Int`).
    ///
    /// - Throws: `MoviesError.ItemNotFound` if the movie isn't in the table.
    ///
    /// - Returns: A `Movie` record with the movie's details.
    func get(title: String, year: Int) async throws -> Movie {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = GetItemInput(
                key: [
                    "year": .n(String(year)),
                    "title": .s(title)
                ],
                tableName: self.tableName
            )
            let output = try await client.getItem(input: input)
            guard let item = output.item else {
                throw MoviesError.ItemNotFound
            }

            let movie = try Movie(withItem: item)
            return movie
        } catch {
            print("ERROR: get:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [GetItem AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/getitem(input:))*SDK untuk Swift API*. 

### `ListTables`
<a name="dynamodb_ListTables_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTables`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    /// Get a list of the DynamoDB tables available in the specified Region.
    ///
    /// - Returns: An array of strings listing all of the tables available
    ///   in the Region specified when the session was created.
    public func getTableList() async throws -> [String] {
        let input = ListTablesInput(
        )
        return try await session.listTables(input: input)
    }
```
+  Untuk detail API, lihat referensi [ListTables AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/listtables(input:))*SDK untuk Swift API*. 

### `PutItem`
<a name="dynamodb_PutItem_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutItem`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    /// Add a movie specified as a `Movie` structure to the Amazon DynamoDB
    /// table.
    ///
    /// - Parameter movie: The `Movie` to add to the table.
    ///
    func add(movie: Movie) async throws {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            // Get a DynamoDB item containing the movie data.
            let item = try await movie.getAsItem()

            // Send the `PutItem` request to Amazon DynamoDB.

            let input = PutItemInput(
                item: item,
                tableName: self.tableName
            )
            _ = try await client.putItem(input: input)
        } catch {
            print("ERROR: add movie:", dump(error))
            throw error
        }
    }


    ///
    /// Return an array mapping attribute names to Amazon DynamoDB attribute
    /// values, representing the contents of the `Movie` record as a DynamoDB
    /// item.
    ///
    /// - Returns: The movie item as an array of type
    ///   `[Swift.String:DynamoDBClientTypes.AttributeValue]`.
    ///
    func getAsItem() async throws -> [Swift.String:DynamoDBClientTypes.AttributeValue]  {
        // Build the item record, starting with the year and title, which are
        // always present.

        var item: [Swift.String:DynamoDBClientTypes.AttributeValue] = [
            "year": .n(String(self.year)),
            "title": .s(self.title)
        ]

        // Add the `info` field with the rating and/or plot if they're
        // available.

        var details: [Swift.String:DynamoDBClientTypes.AttributeValue] = [:]
        if (self.info.rating != nil || self.info.plot != nil) {
            if self.info.rating != nil {
                details["rating"] = .n(String(self.info.rating!))
            }
            if self.info.plot != nil {
                details["plot"] = .s(self.info.plot!)
            }
        }
        item["info"] = .m(details)

        return item
    }
```
+  Untuk detail API, lihat referensi [PutItem AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/putitem(input:))*SDK untuk Swift API*. 

### `Query`
<a name="dynamodb_Query_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Query`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    /// Get all the movies released in the specified year.
    ///
    /// - Parameter year: The release year of the movies to return.
    ///
    /// - Returns: An array of `Movie` objects describing each matching movie.
    ///
    func getMovies(fromYear year: Int) async throws -> [Movie] {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = QueryInput(
                expressionAttributeNames: [
                    "#y": "year"
                ],
                expressionAttributeValues: [
                    ":y": .n(String(year))
                ],
                keyConditionExpression: "#y = :y",
                tableName: self.tableName
            )
            // Use "Paginated" to get all the movies.
            // This lets the SDK handle the 'lastEvaluatedKey' property in "QueryOutput".

            let pages = client.queryPaginated(input: input)

            var movieList: [Movie] = []
            for try await page in pages {
                guard let items = page.items else {
                    print("Error: no items returned.")
                    continue
                }

                // Convert the found movies into `Movie` objects and return an array
                // of them.

                for item in items {
                    let movie = try Movie(withItem: item)
                    movieList.append(movie)
                }
            }
            return movieList
        } catch {
            print("ERROR: getMovies:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat [Kueri](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/query(input:)) di *Referensi API AWS SDK untuk Swift*. 

### `Scan`
<a name="dynamodb_Scan_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Scan`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    /// Return an array of `Movie` objects released in the specified range of
    /// years.
    ///
    /// - Parameters:
    ///   - firstYear: The first year of movies to return.
    ///   - lastYear: The last year of movies to return.
    ///   - startKey: A starting point to resume processing; always use `nil`.
    ///
    /// - Returns: An array of `Movie` objects describing the matching movies.
    ///
    /// > Note: The `startKey` parameter is used by this function when
    ///   recursively calling itself, and should always be `nil` when calling
    ///   directly.
    ///
    func getMovies(firstYear: Int, lastYear: Int,
                   startKey: [Swift.String: DynamoDBClientTypes.AttributeValue]? = nil)
        async throws -> [Movie]
    {
        do {
            var movieList: [Movie] = []

            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            let input = ScanInput(
                consistentRead: true,
                exclusiveStartKey: startKey,
                expressionAttributeNames: [
                    "#y": "year" // `year` is a reserved word, so use `#y` instead.
                ],
                expressionAttributeValues: [
                    ":y1": .n(String(firstYear)),
                    ":y2": .n(String(lastYear))
                ],
                filterExpression: "#y BETWEEN :y1 AND :y2",
                tableName: self.tableName
            )

            let pages = client.scanPaginated(input: input)

            for try await page in pages {
                guard let items = page.items else {
                    print("Error: no items returned.")
                    continue
                }

                // Build an array of `Movie` objects for the returned items.

                for item in items {
                    let movie = try Movie(withItem: item)
                    movieList.append(movie)
                }
            }
            return movieList

        } catch {
            print("ERROR: getMovies with scan:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat [Scan](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/scan(input:)) di *Referensi API AWS SDK untuk Swift*. 

### `UpdateItem`
<a name="dynamodb_UpdateItem_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateItem`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/dynamodb#code-examples). 

```
import AWSDynamoDB


    /// Update the specified movie with new `rating` and `plot` information.
    ///
    /// - Parameters:
    ///   - title: The title of the movie to update.
    ///   - year: The release year of the movie to update.
    ///   - rating: The new rating for the movie.
    ///   - plot: The new plot summary string for the movie.
    ///
    /// - Returns: An array of mappings of attribute names to their new
    ///   listing each item actually changed. Items that didn't need to change
    ///   aren't included in this list. `nil` if no changes were made.
    ///
    func update(title: String, year: Int, rating: Double? = nil, plot: String? = nil) async throws
        -> [Swift.String: DynamoDBClientTypes.AttributeValue]?
    {
        do {
            guard let client = self.ddbClient else {
                throw MoviesError.UninitializedClient
            }

            // Build the update expression and the list of expression attribute
            // values. Include only the information that's changed.

            var expressionParts: [String] = []
            var attrValues: [Swift.String: DynamoDBClientTypes.AttributeValue] = [:]

            if rating != nil {
                expressionParts.append("info.rating=:r")
                attrValues[":r"] = .n(String(rating!))
            }
            if plot != nil {
                expressionParts.append("info.plot=:p")
                attrValues[":p"] = .s(plot!)
            }
            let expression = "set \(expressionParts.joined(separator: ", "))"

            let input = UpdateItemInput(
                // Create substitution tokens for the attribute values, to ensure
                // no conflicts in expression syntax.
                expressionAttributeValues: attrValues,
                // The key identifying the movie to update consists of the release
                // year and title.
                key: [
                    "year": .n(String(year)),
                    "title": .s(title)
                ],
                returnValues: .updatedNew,
                tableName: self.tableName,
                updateExpression: expression
            )
            let output = try await client.updateItem(input: input)

            guard let attributes: [Swift.String: DynamoDBClientTypes.AttributeValue] = output.attributes else {
                throw MoviesError.InvalidAttributes
            }
            return attributes
        } catch {
            print("ERROR: update:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [UpdateItem AWS](https://sdk.amazonaws.com/swift/api/awsdynamodb/latest/documentation/awsdynamodb/dynamodbclient/updateitem(input:))*SDK untuk Swift API*. 

# Contoh Amazon EC2 menggunakan SDK untuk Swift
<a name="swift_1_ec2_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Amazon EC2.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Ayo Memulai](#get_started)
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Memulai
<a name="get_started"></a>

### Halo Amazon EC2
<a name="ec2_Hello_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon EC2.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 
`Package.swift`Berkas.  

```
// swift-tools-version: 5.9
//
// The swift-tools-version declares the minimum version of Swift required to
// build this package.

import PackageDescription

let package = Package(
    name: "hello-ec2",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13),
        .iOS(.v15)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/awslabs/aws-sdk-swift",
            from: "1.0.0"),
        .package(
            url: "https://github.com/apple/swift-argument-parser.git",
            branch: "main"
        )
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "hello-ec2",
            dependencies: [
                .product(name: "AWSEC2", package: "aws-sdk-swift"),
                .product(name: "ArgumentParser", package: "swift-argument-parser")
            ],
            path: "Sources")

    ]
)
```
`entry.swift`Berkas.  

```
// An example that shows how to use the AWS SDK for Swift to perform a simple
// operation using Amazon Elastic Compute Cloud (EC2).
//

import ArgumentParser
import Foundation

import AWSEC2

struct ExampleCommand: ParsableCommand {
    @Option(help: "The AWS Region to run AWS API calls in.")
    var awsRegion = "us-east-1"

    @Option(
        help: ArgumentHelp("The level of logging for the Swift SDK to perform."),
        completion: .list([
            "critical",
            "debug",
            "error",
            "info",
            "notice",
            "trace",
            "warning"
        ])
    )
    var logLevel: String = "error"

    static var configuration = CommandConfiguration(
        commandName: "hello-ec2",
        abstract: """
        Demonstrates a simple operation using Amazon EC2.
        """,
        discussion: """
        An example showing how to make a call to Amazon EC2 using the AWS SDK for Swift.
        """
    )

    /// Return an array of strings giving the names of every security group
    /// the user is a member of.
    ///
    /// - Parameter ec2Client: The `EC2Client` to use when calling
    ///   `describeSecurityGroupsPaginated()`.
    ///
    /// - Returns: An array of strings giving the names of every security
    ///   group the user is a member of.
    func getSecurityGroupNames(ec2Client: EC2Client) async -> [String] {
        let pages = ec2Client.describeSecurityGroupsPaginated(
            input: DescribeSecurityGroupsInput()
        )

        var groupNames: [String] = []

        do {
            for try await page in pages {
                guard let groups = page.securityGroups else {
                    print("*** Error: No groups returned.")
                    continue
                }

                for group in groups {
                    groupNames.append(group.groupName ?? "<unknown>")
                }
            }
        } catch {
            print("*** Error: \(error.localizedDescription)")
        }

        return groupNames
    }

    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        let ec2Config = try await EC2Client.EC2ClientConfiguration(region: awsRegion)
        let ec2Client = EC2Client(config: ec2Config)

        let groupNames = await getSecurityGroupNames(ec2Client: ec2Client)

        print("Found \(groupNames.count) security group(s):")

        for group in groupNames {
            print("    \(group)")
        }
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+  Untuk detail API, lihat referensi [DescribeSecurityGroups AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describesecuritygroups(input:))*SDK untuk Swift API*. 

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="ec2_Scenario_GetStartedInstances_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat pasangan kunci dan grup keamanan.
+ Memilih Amazon Machine Image (AMI) dan tipe instans yang kompatibel, lalu membuat instans.
+ Menghentikan dan memulai ulang instans.
+ Kaitkan alamat IP Elastis dengan instans Anda.
+ Menghubungkan instans Anda dengan SSH, lalu membersihkan sumber daya.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 
`Package.swift`Berkas.  

```
// swift-tools-version: 5.9
//
// The swift-tools-version declares the minimum version of Swift required to
// build this package.

import PackageDescription

let package = Package(
    name: "ec2-scenario",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13),
        .iOS(.v15)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/awslabs/aws-sdk-swift",
            from: "1.4.0"),
        .package(
            url: "https://github.com/apple/swift-argument-parser.git",
            branch: "main"
        )
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "ec2-scenario",
            dependencies: [
                .product(name: "AWSEC2", package: "aws-sdk-swift"),
                .product(name: "AWSSSM", package: "aws-sdk-swift"),
                .product(name: "ArgumentParser", package: "swift-argument-parser")
            ],
            path: "Sources")

    ]
)
```
`entry.swift`Berkas.  

```
// An example that shows how to use the AWS SDK for Swift to perform a variety
// of operations using Amazon Elastic Compute Cloud (EC2).
//

import ArgumentParser
import Foundation
import AWSEC2

// Allow waiters to be used.

import class SmithyWaitersAPI.Waiter
import struct SmithyWaitersAPI.WaiterOptions

import AWSSSM

struct ExampleCommand: ParsableCommand {
    @Option(help: "The AWS Region to run AWS API calls in.")
    var awsRegion = "us-east-1"

    @Option(
        help: ArgumentHelp("The level of logging for the Swift SDK to perform."),
        completion: .list([
            "critical",
            "debug",
            "error",
            "info",
            "notice",
            "trace",
            "warning"
        ])
    )
    var logLevel: String = "error"

    static var configuration = CommandConfiguration(
        commandName: "ec2-scenario",
        abstract: """
        Performs various operations to demonstrate the use of Amazon EC2 using the
        AWS SDK for Swift.
        """,
        discussion: """
        """
    )

    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        let ssmConfig = try await SSMClient.SSMClientConfiguration(region: awsRegion)
        let ssmClient = SSMClient(config: ssmConfig)

        let ec2Config = try await EC2Client.EC2ClientConfiguration(region: awsRegion)
        let ec2Client = EC2Client(config: ec2Config)

        let example = Example(ec2Client: ec2Client, ssmClient: ssmClient)

        await example.run()
    }
}

class Example {
    let ec2Client: EC2Client
    let ssmClient: SSMClient

    // Storage for AWS EC2 properties.

    var keyName: String? = nil
    var securityGroupId: String? = nil
    var instanceId: String? = nil
    var allocationId: String? = nil
    var associationId: String? = nil

    init(ec2Client: EC2Client, ssmClient: SSMClient) {
        self.ec2Client = ec2Client
        self.ssmClient = ssmClient
    }

    /// The example's main body.
    func run() async {
        //=====================================================================
        // 1. Create an RSA key pair, saving the private key as a `.pem` file.
        //    Create a `defer` block that will delete the private key when the
        //    program exits.
        //=====================================================================

        print("Creating an RSA key pair...")

        keyName = self.tempName(prefix: "ExampleKeyName")
        let keyUrl = await self.createKeyPair(name: keyName!)

        guard let keyUrl else {
            print("*** Failed to create the key pair!")
            return
        }

        print("Created the private key at: \(keyUrl.absoluteString)")

        // Schedule deleting the private key file to occur automatically when
        // the program exits, no matter how it exits.

        defer {
            do {
                try FileManager.default.removeItem(at: keyUrl)
            } catch {
                print("*** Failed to delete the private key at \(keyUrl.absoluteString)")
            }
        }

        //=====================================================================
        // 2. List the key pairs by calling `DescribeKeyPairs`.
        //=====================================================================

        print("Describing available key pairs...")
        await self.describeKeyPairs()

        //=====================================================================
        // 3. Create a security group for the default VPC, and add an inbound
        //    rule to allow SSH from the current computer's public IPv4
        //    address.
        //=====================================================================

        print("Creating the security group...")

        let secGroupName = self.tempName(prefix: "ExampleSecurityGroup")
        let ipAddress = self.getMyIPAddress()

        guard let ipAddress else {
            print("*** Unable to get the device's IP address.")
            return
        }

        print("IP address is: \(ipAddress)")

        securityGroupId = await self.createSecurityGroup(
            name: secGroupName,
            description: "An example security group created using the AWS SDK for Swift"
        )

        if securityGroupId == nil {
            await cleanUp()
            return
        }

        print("Created security group: \(securityGroupId ?? "<unknown>")")

        if !(await self.authorizeSecurityGroupIngress(groupId: securityGroupId!, ipAddress: ipAddress)) {
            await cleanUp()
            return
        }

        //=====================================================================
        // 4. Display security group information for the new security group
        //    using DescribeSecurityGroups.
        //=====================================================================

        if !(await self.describeSecurityGroups(groupId: securityGroupId!)) {
            await cleanUp()
            return
        }

        //=====================================================================
        // 5. Get a list of Amazon Linux 2023 AMIs and pick one (SSM is the
        //    best practice), using path and then filter the list after the
        //    fact to include "al2023" in the Name field
        //    (ssm.GetParametersByPath). Paginate to get all images.
        //=====================================================================

        print("Searching available images for Amazon Linux 2023 images...")

        let options = await self.findAMIsMatchingFilter("al2023")

        //=====================================================================
        // 6. The information in the AMI options isn't great, so make a list
        //    of the image IDs (the "Value" field in the AMI options) and get
        //    more information about them from EC2. Display the Description
        //    field and select one of them (DescribeImages with ImageIds
        //    filter).
        //=====================================================================

        print("Images matching Amazon Linux 2023:")

        var imageIds: [String] = []
        for option in options {
            guard let id = option.value else {
                continue
            }
            imageIds.append(id)
        }
        
        let images = await self.describeImages(imageIds)

        // This is where you would normally let the user choose which AMI to
        // use. However, for this example, we're just going to use the first
        // one, whatever it is.

        let chosenImage = images[0]

        //=====================================================================
        // 7. Get a list of instance types that are compatible with the
        //    selected AMI's architecture (such as "x86_64") and are either
        //    small or micro. Select one (DescribeInstanceTypes).
        //=====================================================================

        print("Getting the instance types compatible with the selected image...")

        guard let arch = chosenImage.architecture else {
            print("*** The selected image doesn't have a valid architecture.")
            await cleanUp()
            return
        }

        let imageTypes = await self.getMatchingInstanceTypes(architecture: arch)

        for type in imageTypes {
            guard let instanceType = type.instanceType else {
                continue
            }
            print("    \(instanceType.rawValue)")
        }

        // This example selects the first returned instance type. A real-world
        // application would probably ask the user to select one here.

        let chosenInstanceType = imageTypes[0]

        //=====================================================================
        // 8. Create an instance with the key pair, security group, AMI, and
        //    instance type (RunInstances).
        //=====================================================================

        print("Creating an instance...")

        guard let imageId = chosenImage.imageId else {
            print("*** Cannot start image without a valid image ID.")
            await cleanUp()
            return
        }
        guard let instanceType = chosenInstanceType.instanceType else {
            print("*** Unable to start image without a valid image type.")
            await cleanUp()
            return
        }

        let instance = await self.runInstance(
            imageId: imageId,
            instanceType: instanceType,
            keyPairName: keyName!,
            securityGroups: [securityGroupId!]
        )

        guard let instance else {
            await cleanUp()
            return
        }

        instanceId = instance.instanceId
        if instanceId == nil {
            print("*** Instance is missing an ID. Canceling.")
            await cleanUp()
            return
        }

        //=====================================================================
        // 9. Wait for the instance to be ready and then display its
        //    information (DescribeInstances).
        //=====================================================================

        print("Waiting a few seconds to let the instance come up...")
        
        do {
            try await Task.sleep(for: .seconds(20))
        } catch {
            print("*** Error pausing the task.")
        }
        print("Success! Your new instance is ready:")

        //=====================================================================
        // 10. Display SSH connection info for the instance.
        //=====================================================================

        var runningInstance = await self.describeInstance(instanceId: instanceId!)

        if (runningInstance != nil) && (runningInstance!.publicIpAddress != nil) {
            print("\nYou can SSH to this instance using the following command:")
            print("ssh -i \(keyUrl.path) ec2-user@\(runningInstance!.publicIpAddress!)")
        }

        //=====================================================================
        // 11. Stop the instance and wait for it to stop (StopInstances).
        //=====================================================================

        print("Stopping the instance...")

        if !(await self.stopInstance(instanceId: instanceId!, waitUntilStopped: true)) {
            await cleanUp()
            return
        }

        //=====================================================================
        // 12. Start the instance and wait for it to start (StartInstances).
        //=====================================================================

        print("Starting the instance again...")

        if !(await self.startInstance(instanceId: instanceId!, waitUntilStarted: true)) {
            await cleanUp()
            return
        }

        //=====================================================================
        // 13. Display SSH connection info for the instance. Note that it's
        //     changed.
        //=====================================================================

        runningInstance = await self.describeInstance(instanceId: instanceId!)
        if (runningInstance != nil) && (runningInstance!.publicIpAddress != nil) {
            print("\nYou can SSH to this instance using the following command.")
            print("This is probably different from when the instance was running before.")
            print("ssh -i \(keyUrl.path) ec2-user@\(runningInstance!.publicIpAddress!)")
        }

        //=====================================================================
        // 14. Allocate an elastic IP and associate it with the instance
        //     (AllocateAddress and AssociateAddress).
        //=====================================================================

        allocationId = await self.allocateAddress()

        if allocationId == nil {
            await cleanUp()
            return
        }

        associationId = await self.associateAddress(instanceId: instanceId!, allocationId: allocationId)

        if associationId == nil {
            await cleanUp()
            return
        }

        //=====================================================================
        // 15. Display SSH connection info for the connection. Note that the
        //     public IP is now the Elastic IP, which stays constant.
        //=====================================================================

        runningInstance = await self.describeInstance(instanceId: instanceId!)
        if (runningInstance != nil) && (runningInstance!.publicIpAddress != nil) {
            print("\nYou can SSH to this instance using the following command.")
            print("This has changed again, and is now the Elastic IP.")
            print("ssh -i \(keyUrl.path) ec2-user@\(runningInstance!.publicIpAddress!)")
        }

        //=====================================================================
        // Handle all cleanup tasks
        //=====================================================================

        await cleanUp()
    }

    /// Clean up by discarding and closing down all allocated EC2 items:
    /// 
    /// * Elastic IP allocation and association
    /// * Terminate the instance
    /// * Delete the security group
    /// * Delete the key pair
    func cleanUp() async {
        //=====================================================================
        // 16. Disassociate and delete the Elastic IP (DisassociateAddress and
        //     ReleaseAddress).
        //=====================================================================

        if associationId != nil {
            await self.disassociateAddress(associationId: associationId!)
        }

        if allocationId != nil {
            await self.releaseAddress(allocationId: allocationId!)
        }

        //=====================================================================
        // 17. Terminate the instance and wait for it to terminate
        //     (TerminateInstances).
        //=====================================================================

        if instanceId != nil {
            print("Terminating the instance...")
            _ = await self.terminateInstance(instanceId: instanceId!, waitUntilTerminated: true)
        }

        //=====================================================================
        // 18. Delete the security group (DeleteSecurityGroup).
        //=====================================================================

        if securityGroupId != nil {
            print("Deleting the security group...")
            _ = await self.deleteSecurityGroup(groupId: securityGroupId!)
        }

        //=====================================================================
        // 19. Delete the key pair (DeleteKeyPair).
        //=====================================================================

        if keyName != nil {
            print("Deleting the key pair...")
            _ = await self.deleteKeyPair(keyPair: keyName!)
        }
    }

    /// Create a new RSA key pair and save the private key to a randomly-named
    /// file in the temporary directory.
    ///
    /// - Parameter name: The name of the key pair to create.
    ///
    /// - Returns: The URL of the newly created `.pem` file or `nil` if unable
    ///   to create the key pair.
    func createKeyPair(name: String) async -> URL? {
        do {
            let output = try await ec2Client.createKeyPair(
                input: CreateKeyPairInput(
                    keyName: name
                )
            )

            guard let keyMaterial = output.keyMaterial else {
                return nil
            }

            // Build the URL of the temporary private key file.

            let fileURL = URL.temporaryDirectory
                                  .appendingPathComponent(name)
                                  .appendingPathExtension("pem")

            do {
                try keyMaterial.write(to: fileURL, atomically: true, encoding: String.Encoding.utf8)
                return fileURL
            } catch {
                print("*** Failed to write the private key.")
                return nil
            }
        } catch {
            print("*** Unable to create the key pair.")
            return nil
        }
    }

    /// Describe the key pairs associated with the user by outputting each key
    /// pair's name and fingerprint.
    func describeKeyPairs() async {
        do {
            let output = try await ec2Client.describeKeyPairs(
                input: DescribeKeyPairsInput()
            )

            guard let keyPairs = output.keyPairs else {
                print("*** No key pairs list available.")
                return
            }

            for keyPair in keyPairs {
                print(keyPair.keyName ?? "<unknown>", ":", keyPair.keyFingerprint ?? "<unknown>")
            }
        } catch {
            print("*** Error: Unable to obtain a key pair list.")
        }
    }

    /// Delete an EC2 key pair.
    /// 
    /// - Parameter keyPair: The name of the key pair to delete.
    /// 
    /// - Returns: `true` if the key pair is deleted successfully; otherwise
    ///   `false`.
    func deleteKeyPair(keyPair: String) async -> Bool {
        do {
            _ = try await ec2Client.deleteKeyPair(
                input: DeleteKeyPairInput(
                    keyName: keyPair
                )
            )

            return true
        } catch {
            print("*** Error deleting the key pair: \(error.localizedDescription)")
            return false
        }
    }

    /// Return a list of AMI names that contain the specified string.
    /// 
    /// - Parameter filter: A string that must be contained in all returned
    ///   AMI names.
    ///
    /// - Returns: An array of the parameters matching the specified substring.
    func findAMIsMatchingFilter(_ filter: String) async -> [SSMClientTypes.Parameter] {
        var parameterList: [SSMClientTypes.Parameter] = []
        var matchingAMIs: [SSMClientTypes.Parameter] = []

        do {
            let pages = ssmClient.getParametersByPathPaginated(
                input: GetParametersByPathInput(
                    path: "/aws/service/ami-amazon-linux-latest"
                )
            )

            for try await page in pages {
                guard let parameters = page.parameters else {
                    return matchingAMIs
                }

                for parameter in parameters {
                    parameterList.append(parameter)
                }
            }

            print("Found \(parameterList.count) images total:")
            for parameter in parameterList {
                guard let name = parameter.name else {
                    continue
                }
                print("    \(name)")

                if name.contains(filter) {
                    matchingAMIs.append(parameter)
                }
            }
        } catch {
            return matchingAMIs
        }

        return matchingAMIs
    }

    /// Return a list of instance types matching the specified architecture
    /// and instance sizes.
    /// 
    /// - Parameters:
    ///   - architecture: The architecture of the instance types to return, as
    ///     a member of `EC2ClientTypes.ArchitectureValues`.
    ///   - sizes: An array of one or more strings identifying sizes of
    ///     instance type to accept.
    /// 
    /// - Returns: An array of `EC2ClientTypes.InstanceTypeInfo` records
    ///   describing the instance types matching the given requirements.
    func getMatchingInstanceTypes(architecture: EC2ClientTypes.ArchitectureValues = EC2ClientTypes.ArchitectureValues.x8664,
                          sizes: [String] = ["*.micro", "*.small"]) async
                          -> [EC2ClientTypes.InstanceTypeInfo] {
        var instanceTypes: [EC2ClientTypes.InstanceTypeInfo] = []    

        let archFilter = EC2ClientTypes.Filter(
            name: "processor-info.supported-architecture",
            values: [architecture.rawValue]
        )
        let sizeFilter = EC2ClientTypes.Filter(
            name: "instance-type",
            values: sizes
        )

        do {
            let pages = ec2Client.describeInstanceTypesPaginated(
                input: DescribeInstanceTypesInput(
                    filters: [archFilter, sizeFilter]
                )
            )

            for try await page in pages {
                guard let types = page.instanceTypes else {
                    return []
                }

                instanceTypes += types
            }
        } catch {
            print("*** Error getting image types: \(error.localizedDescription)")
            return []
        }

        return instanceTypes
    }

    /// Get the latest information about the specified instance and output it
    /// to the screen, returning the instance details to the caller.
    /// 
    /// - Parameters:
    ///   - instanceId: The ID of the instance to provide details about.
    ///   - stateFilter: The state to require the instance to be in.
    ///
    /// - Returns: The instance's details as an `EC2ClientTypes.Instance` object.
    func describeInstance(instanceId: String,
                          stateFilter: EC2ClientTypes.InstanceStateName? = EC2ClientTypes.InstanceStateName.running) async
                          -> EC2ClientTypes.Instance? {
        do {
            let pages = ec2Client.describeInstancesPaginated(
                input: DescribeInstancesInput(
                    instanceIds: [instanceId]
                )
            )

            for try await page in pages {
                guard let reservations = page.reservations else {
                    continue
                }

                for reservation in reservations {
                    guard let instances = reservation.instances else {
                        continue
                    }

                    for instance in instances {
                        guard let state = instance.state else {
                            print("*** Instance is missing its state...")
                            continue
                        }
                        let instanceState = state.name

                        if stateFilter != nil && (instanceState != stateFilter) {
                            continue
                        }

                        let instanceTypeName: String
                        if instance.instanceType == nil {
                            instanceTypeName = "<N/A>"
                        } else {
                            instanceTypeName = instance.instanceType?.rawValue ?? "<N/A>"
                        }

                        let instanceStateName: String
                        if instanceState == nil {
                            instanceStateName = "<N/A>"
                        } else {
                            instanceStateName = instanceState?.rawValue ?? "<N/A>"
                        }

                        print("""
                        Instance: \(instance.instanceId ?? "<N/A>")
                                • Image ID: \(instance.imageId ?? "<N/A>")
                                • Instance type: \(instanceTypeName)
                                • Key name: \(instance.keyName ?? "<N/A>")
                                • VPC ID: \(instance.vpcId ?? "<N/A>")
                                • Public IP: \(instance.publicIpAddress ?? "N/A")
                                • State: \(instanceStateName)
                        """)

                        return instance
                    }
                }
            }
        } catch {
            print("*** Error retrieving instance information to display: \(error.localizedDescription)")
            return nil
        }

        return nil
    }

    /// Stop the specified instance.
    /// 
    /// - Parameters:
    ///   - instanceId: The ID of the instance to stop.
    ///   - waitUntilStopped: If `true`, execution waits until the instance
    ///     has stopped. Otherwise, execution continues and the instance stops
    ///     asynchronously.
    ///
    /// - Returns: `true` if the image is successfully stopped (or is left to
    ///   stop asynchronously). `false` if the instance doesn't stop.
    func stopInstance(instanceId: String, waitUntilStopped: Bool = false) async -> Bool {
        let instanceList = [instanceId]

        do {
            _ = try await ec2Client.stopInstances(
                input: StopInstancesInput(
                    instanceIds: instanceList
                )
            )

            if waitUntilStopped {
                print("Waiting for the instance to stop. Please be patient!")

                let waitOptions = WaiterOptions(maxWaitTime: 600)
                let output = try await ec2Client.waitUntilInstanceStopped(
                    options: waitOptions,
                    input: DescribeInstancesInput(
                        instanceIds: instanceList
                    )
                )

                switch output.result {
                case .success:
                    return true
                case .failure:
                    return false
                }
            } else {
                return true
            }
        } catch {
            print("*** Unable to stop the instance: \(error.localizedDescription)")
            return false
        }
    }

    /// Start the specified instance.
    /// 
    /// - Parameters:
    ///   - instanceId: The ID of the instance to start.
    ///   - waitUntilStarted: If `true`, execution waits until the instance
    ///     has started. Otherwise, execution continues and the instance starts
    ///     asynchronously.
    ///
    /// - Returns: `true` if the image is successfully started (or is left to
    ///   start asynchronously). `false` if the instance doesn't start.
    func startInstance(instanceId: String, waitUntilStarted: Bool = false) async -> Bool {
        let instanceList = [instanceId]

        do {
            _ = try await ec2Client.startInstances(
                input: StartInstancesInput(
                    instanceIds: instanceList
                )
            )

            if waitUntilStarted {
                print("Waiting for the instance to start...")

                let waitOptions = WaiterOptions(maxWaitTime: 60.0)
                let output = try await ec2Client.waitUntilInstanceRunning(
                    options: waitOptions,
                    input: DescribeInstancesInput(
                        instanceIds: instanceList
                    )
                )
                switch output.result {
                case .success:
                    return true
                case .failure:
                    return false
                }
            } else {
                return true
            }
        } catch {
            print("*** Unable to start the instance: \(error.localizedDescription)")
            return false
        }
    }

    /// Terminate the specified instance.
    ///
    /// - Parameters:
    ///   - instanceId: The instance to terminate.
    ///   - waitUntilTerminated: Whether or not to wait until the instance is
    ///     terminated before returning.
    /// 
    /// - Returns: `true` if terminated successfully. `false` if not or if an
    ///   error occurs.
    func terminateInstance(instanceId: String, waitUntilTerminated: Bool = false) async -> Bool {
        let instanceList = [instanceId]

        do {
            _ = try await ec2Client.terminateInstances(
                input: TerminateInstancesInput(
                    instanceIds: instanceList
                )
            )

            if waitUntilTerminated {
                print("Waiting for the instance to terminate...")

                let waitOptions = WaiterOptions(maxWaitTime: 600.0)
                let output = try await ec2Client.waitUntilInstanceTerminated(
                    options: waitOptions,
                    input: DescribeInstancesInput(
                        instanceIds: instanceList
                    )
                )

                switch output.result {
                case .success:
                    return true
                case .failure:
                    return false
                }
            } else {
                return true
            }
        } catch {
            print("*** Unable to terminate the instance: \(error.localizedDescription)")
            return false
        }
    }

    /// Return an array of `EC2ClientTypes.Image` objects describing all of
    /// the images in the specified array.
    /// 
    /// - Parameter idList: A list of image ID strings indicating the images
    ///   to return details about.
    ///
    /// - Returns: An array of the images.
    func describeImages(_ idList: [String]) async -> [EC2ClientTypes.Image] {
        do {
            let output = try await ec2Client.describeImages(
                input: DescribeImagesInput(
                    imageIds: idList
                )
            )

            guard let images = output.images else {
                print("*** No images found.")
                return []
            }

            for image in images {
                guard let id = image.imageId else {
                    continue
                }
                print("   \(id): \(image.description ?? "<no description>")")
            }

            return images
        } catch {
            print("*** Error getting image descriptions: \(error.localizedDescription)")
            return []
        }
    }

    /// Create and return a new EC2 instance.
    /// 
    /// - Parameters:
    ///   - imageId: The image ID of the AMI to use when creating the instance.
    ///   - instanceType: The type of instance to create.
    ///   - keyPairName: The RSA key pair's name to use to secure the instance.
    ///   - securityGroups: The security group or groups to add the instance
    ///     to.
    ///
    /// - Returns: The EC2 instance as an `EC2ClientTypes.Instance` object.
    func runInstance(imageId: String, instanceType: EC2ClientTypes.InstanceType,
                        keyPairName: String, securityGroups: [String]?) async -> EC2ClientTypes.Instance? {
        do {
            let output = try await ec2Client.runInstances(
                input: RunInstancesInput(
                    imageId: imageId,
                    instanceType: instanceType,
                    keyName: keyPairName,
                    maxCount: 1,
                    minCount: 1,
                    securityGroupIds: securityGroups
                )
            )

            guard let instances = output.instances else {
                print("*** Unable to create the instance.")
                return nil
            }

            return instances[0]
        } catch {
            print("*** Error creating the instance: \(error.localizedDescription)")
            return nil
        }
    }

    /// Return the device's external IP address.
    /// 
    /// - Returns: A string containing the device's IP address.
    func getMyIPAddress() -> String? {
        guard let url = URL(string: "http://checkip.amazonaws.com") else {
            print("Couldn't create the URL")
            return nil
        }

        do {
            print("Getting the IP address...")
            return try String(contentsOf: url, encoding: String.Encoding.utf8).trim()
        } catch {
            print("*** Unable to get your public IP address.")
            return nil
        }
    }

    /// Create a new security group.
    /// 
    /// - Parameters:
    ///   - groupName: The name of the group to create.
    ///   - groupDescription: A description of the new security group.
    ///
    /// - Returns: The ID string of the new security group.
    func createSecurityGroup(name groupName: String, description groupDescription: String) async -> String? {
        do {
            let output = try await ec2Client.createSecurityGroup(
                input: CreateSecurityGroupInput(
                    description: groupDescription,
                    groupName: groupName
                )
            )

            return output.groupId
        } catch {
            print("*** Error creating the security group: \(error.localizedDescription)")
            return nil
        }
    }

    /// Authorize ingress of connections for the security group.
    /// 
    /// - Parameters:
    ///   - groupId: The group ID of the security group to authorize access for.
    ///   - ipAddress: The IP address of the device to grant access to.
    ///
    /// - Returns: `true` if access is successfully granted; otherwise `false`.
    func authorizeSecurityGroupIngress(groupId: String, ipAddress: String) async -> Bool {
        let ipRange = EC2ClientTypes.IpRange(cidrIp: "\(ipAddress)/0")
        let httpPermission = EC2ClientTypes.IpPermission(
            fromPort: 80,
            ipProtocol: "tcp",
            ipRanges: [ipRange],
            toPort: 80
        )

        let sshPermission = EC2ClientTypes.IpPermission(
            fromPort: 22,
            ipProtocol: "tcp",
            ipRanges: [ipRange],
            toPort: 22
        )

        do {
            _ = try await ec2Client.authorizeSecurityGroupIngress(
                input: AuthorizeSecurityGroupIngressInput(
                    groupId: groupId,
                    ipPermissions: [httpPermission, sshPermission]
                )
            )

            return true
        } catch {
            print("*** Error authorizing ingress for the security group: \(error.localizedDescription)")
            return false
        }
    }

    func describeSecurityGroups(groupId: String) async -> Bool {
        do {
            let output = try await ec2Client.describeSecurityGroups(
                input: DescribeSecurityGroupsInput(
                    groupIds: [groupId]
                )
            )

            guard let securityGroups = output.securityGroups else {
                print("No security groups found.")
                return true
            }

            for group in securityGroups {
                print("Group \(group.groupId ?? "<unknown>") found with VPC \(group.vpcId ?? "<unknown>")")
            }
            return true
        } catch {
            print("*** Error getting security group details: \(error.localizedDescription)")
            return false
        }
    }

    /// Delete a security group.
    /// 
    /// - Parameter groupId: The ID of the security group to delete.
    /// 
    /// - Returns: `true` on successful deletion; `false` on error.
    func deleteSecurityGroup(groupId: String) async -> Bool {
        do {
            _ = try await ec2Client.deleteSecurityGroup(
                input: DeleteSecurityGroupInput(
                    groupId: groupId
                )
            )

            return true
        } catch {
            print("*** Error deleting the security group: \(error.localizedDescription)")
            return false
        }
    }

    /// Allocate an Elastic IP address.
    ///
    /// - Returns: A string containing the ID of the Elastic IP.
    func allocateAddress() async -> String? {
        do {
            let output = try await ec2Client.allocateAddress(
                input: AllocateAddressInput(
                    domain: EC2ClientTypes.DomainType.vpc
                )
            )

            guard let allocationId = output.allocationId else {
                return nil
            }

            return allocationId
        } catch {
            print("*** Unable to allocate the IP address: \(error.localizedDescription)")
            return nil
        }
    }

    /// Associate the specified allocated Elastic IP to a given instance.
    /// 
    /// - Parameters:
    ///   - instanceId: The instance to associate the Elastic IP with.
    ///   - allocationId: The ID of the allocated Elastic IP to associate with
    ///     the instance.
    ///
    /// - Returns: The association ID of the association.
    func associateAddress(instanceId: String?, allocationId: String?) async -> String? {
        do {
            let output = try await ec2Client.associateAddress(
                input: AssociateAddressInput(
                    allocationId: allocationId,
                    instanceId: instanceId
                )
            )

            return output.associationId
        } catch {
            print("*** Unable to associate the IP address: \(error.localizedDescription)")
            return nil
        }
    }

    /// Disassociate an Elastic IP.
    /// 
    /// - Parameter associationId: The ID of the association to end.
    func disassociateAddress(associationId: String?) async {
        do {
            _ = try await ec2Client.disassociateAddress(
                input: DisassociateAddressInput(
                    associationId: associationId
                )
            )
        } catch {
            print("*** Unable to disassociate the IP address: \(error.localizedDescription)")
        }
    }

    /// Release an allocated Elastic IP.
    /// 
    /// - Parameter allocationId: The allocation ID of the Elastic IP to
    ///   release.
    func releaseAddress(allocationId: String?) async {
        do {
            _ = try await ec2Client.releaseAddress(
                input: ReleaseAddressInput(
                    allocationId: allocationId
                )
            )
        } catch {
            print("*** Unable to release the IP address: \(error.localizedDescription)")
        }
    }

    /// Generate and return a unique file name that begins with the specified
    /// string.
    ///
    /// - Parameters:
    ///   - prefix: Text to use at the beginning of the returned name.
    ///
    /// - Returns: A string containing a unique filename that begins with the
    ///   specified `prefix`.
    ///
    /// The returned name uses a random number between 1 million and 1 billion to
    /// provide reasonable certainty of uniqueness for the purposes of this
    /// example.
    func tempName(prefix: String) -> String {
        return "\(prefix)-\(Int.random(in: 1000000..<1000000000))"
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [AllocateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/allocateaddress(input:))
  + [AssociateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/associateaddress(input:))
  + [AuthorizeSecurityGroupIngress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/authorizesecuritygroupingress(input:))
  + [CreateKeyPair](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/createkeypair(input:))
  + [CreateSecurityGroup](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/createsecuritygroup(input:))
  + [DeleteKeyPair](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/deletekeypair(input:))
  + [DeleteSecurityGroup](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/deletesecuritygroup(input:))
  + [DescribeImages](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeimages(input:))
  + [DescribeInstanceTypes](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeinstancetypes(input:))
  + [DescribeInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeinstances(input:))
  + [DescribeKeyPairs](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describekeypairs(input:))
  + [DescribeSecurityGroups](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describesecuritygroups(input:))
  + [DisassociateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/disassociateaddress(input:))
  + [ReleaseAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/releaseaddress(input:))
  + [RunInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/runinstances(input:))
  + [StartInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/startinstances(input:))
  + [StopInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/stopinstances(input:))
  + [TerminateInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/terminateinstances(input:))
  + [UnmonitorInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/unmonitorinstances(input:))

## Tindakan
<a name="actions"></a>

### `AllocateAddress`
<a name="ec2_AllocateAddress_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AllocateAddress`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Allocate an Elastic IP address.
    ///
    /// - Returns: A string containing the ID of the Elastic IP.
    func allocateAddress() async -> String? {
        do {
            let output = try await ec2Client.allocateAddress(
                input: AllocateAddressInput(
                    domain: EC2ClientTypes.DomainType.vpc
                )
            )

            guard let allocationId = output.allocationId else {
                return nil
            }

            return allocationId
        } catch {
            print("*** Unable to allocate the IP address: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [AllocateAddress AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/allocateaddress(input:))*SDK untuk Swift API*. 

### `AssociateAddress`
<a name="ec2_AssociateAddress_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssociateAddress`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Associate the specified allocated Elastic IP to a given instance.
    /// 
    /// - Parameters:
    ///   - instanceId: The instance to associate the Elastic IP with.
    ///   - allocationId: The ID of the allocated Elastic IP to associate with
    ///     the instance.
    ///
    /// - Returns: The association ID of the association.
    func associateAddress(instanceId: String?, allocationId: String?) async -> String? {
        do {
            let output = try await ec2Client.associateAddress(
                input: AssociateAddressInput(
                    allocationId: allocationId,
                    instanceId: instanceId
                )
            )

            return output.associationId
        } catch {
            print("*** Unable to associate the IP address: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [AssociateAddress AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/associateaddress(input:))*SDK untuk Swift API*. 

### `AuthorizeSecurityGroupIngress`
<a name="ec2_AuthorizeSecurityGroupIngress_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AuthorizeSecurityGroupIngress`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Authorize ingress of connections for the security group.
    /// 
    /// - Parameters:
    ///   - groupId: The group ID of the security group to authorize access for.
    ///   - ipAddress: The IP address of the device to grant access to.
    ///
    /// - Returns: `true` if access is successfully granted; otherwise `false`.
    func authorizeSecurityGroupIngress(groupId: String, ipAddress: String) async -> Bool {
        let ipRange = EC2ClientTypes.IpRange(cidrIp: "\(ipAddress)/0")
        let httpPermission = EC2ClientTypes.IpPermission(
            fromPort: 80,
            ipProtocol: "tcp",
            ipRanges: [ipRange],
            toPort: 80
        )

        let sshPermission = EC2ClientTypes.IpPermission(
            fromPort: 22,
            ipProtocol: "tcp",
            ipRanges: [ipRange],
            toPort: 22
        )

        do {
            _ = try await ec2Client.authorizeSecurityGroupIngress(
                input: AuthorizeSecurityGroupIngressInput(
                    groupId: groupId,
                    ipPermissions: [httpPermission, sshPermission]
                )
            )

            return true
        } catch {
            print("*** Error authorizing ingress for the security group: \(error.localizedDescription)")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [AuthorizeSecurityGroupIngress AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/authorizesecuritygroupingress(input:))*SDK untuk Swift API*. 

### `CreateKeyPair`
<a name="ec2_CreateKeyPair_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateKeyPair`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Create a new RSA key pair and save the private key to a randomly-named
    /// file in the temporary directory.
    ///
    /// - Parameter name: The name of the key pair to create.
    ///
    /// - Returns: The URL of the newly created `.pem` file or `nil` if unable
    ///   to create the key pair.
    func createKeyPair(name: String) async -> URL? {
        do {
            let output = try await ec2Client.createKeyPair(
                input: CreateKeyPairInput(
                    keyName: name
                )
            )

            guard let keyMaterial = output.keyMaterial else {
                return nil
            }

            // Build the URL of the temporary private key file.

            let fileURL = URL.temporaryDirectory
                                  .appendingPathComponent(name)
                                  .appendingPathExtension("pem")

            do {
                try keyMaterial.write(to: fileURL, atomically: true, encoding: String.Encoding.utf8)
                return fileURL
            } catch {
                print("*** Failed to write the private key.")
                return nil
            }
        } catch {
            print("*** Unable to create the key pair.")
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [CreateKeyPair AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/createkeypair(input:))*SDK untuk Swift API*. 

### `CreateSecurityGroup`
<a name="ec2_CreateSecurityGroup_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateSecurityGroup`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Create a new security group.
    /// 
    /// - Parameters:
    ///   - groupName: The name of the group to create.
    ///   - groupDescription: A description of the new security group.
    ///
    /// - Returns: The ID string of the new security group.
    func createSecurityGroup(name groupName: String, description groupDescription: String) async -> String? {
        do {
            let output = try await ec2Client.createSecurityGroup(
                input: CreateSecurityGroupInput(
                    description: groupDescription,
                    groupName: groupName
                )
            )

            return output.groupId
        } catch {
            print("*** Error creating the security group: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [CreateSecurityGroup AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/createsecuritygroup(input:))*SDK untuk Swift API*. 

### `DeleteKeyPair`
<a name="ec2_DeleteKeyPair_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteKeyPair`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Delete an EC2 key pair.
    /// 
    /// - Parameter keyPair: The name of the key pair to delete.
    /// 
    /// - Returns: `true` if the key pair is deleted successfully; otherwise
    ///   `false`.
    func deleteKeyPair(keyPair: String) async -> Bool {
        do {
            _ = try await ec2Client.deleteKeyPair(
                input: DeleteKeyPairInput(
                    keyName: keyPair
                )
            )

            return true
        } catch {
            print("*** Error deleting the key pair: \(error.localizedDescription)")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteKeyPair AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/deletekeypair(input:))*SDK untuk Swift API*. 

### `DeleteSecurityGroup`
<a name="ec2_DeleteSecurityGroup_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteSecurityGroup`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Delete a security group.
    /// 
    /// - Parameter groupId: The ID of the security group to delete.
    /// 
    /// - Returns: `true` on successful deletion; `false` on error.
    func deleteSecurityGroup(groupId: String) async -> Bool {
        do {
            _ = try await ec2Client.deleteSecurityGroup(
                input: DeleteSecurityGroupInput(
                    groupId: groupId
                )
            )

            return true
        } catch {
            print("*** Error deleting the security group: \(error.localizedDescription)")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteSecurityGroup AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/deletesecuritygroup(input:))*SDK untuk Swift API*. 

### `DescribeImages`
<a name="ec2_DescribeImages_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeImages`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Return an array of `EC2ClientTypes.Image` objects describing all of
    /// the images in the specified array.
    /// 
    /// - Parameter idList: A list of image ID strings indicating the images
    ///   to return details about.
    ///
    /// - Returns: An array of the images.
    func describeImages(_ idList: [String]) async -> [EC2ClientTypes.Image] {
        do {
            let output = try await ec2Client.describeImages(
                input: DescribeImagesInput(
                    imageIds: idList
                )
            )

            guard let images = output.images else {
                print("*** No images found.")
                return []
            }

            for image in images {
                guard let id = image.imageId else {
                    continue
                }
                print("   \(id): \(image.description ?? "<no description>")")
            }

            return images
        } catch {
            print("*** Error getting image descriptions: \(error.localizedDescription)")
            return []
        }
    }
```
+  Untuk detail API, lihat referensi [DescribeImages AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeimages(input:))*SDK untuk Swift API*. 

### `DescribeInstanceTypes`
<a name="ec2_DescribeInstanceTypes_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeInstanceTypes`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Return a list of instance types matching the specified architecture
    /// and instance sizes.
    /// 
    /// - Parameters:
    ///   - architecture: The architecture of the instance types to return, as
    ///     a member of `EC2ClientTypes.ArchitectureValues`.
    ///   - sizes: An array of one or more strings identifying sizes of
    ///     instance type to accept.
    /// 
    /// - Returns: An array of `EC2ClientTypes.InstanceTypeInfo` records
    ///   describing the instance types matching the given requirements.
    func getMatchingInstanceTypes(architecture: EC2ClientTypes.ArchitectureValues = EC2ClientTypes.ArchitectureValues.x8664,
                          sizes: [String] = ["*.micro", "*.small"]) async
                          -> [EC2ClientTypes.InstanceTypeInfo] {
        var instanceTypes: [EC2ClientTypes.InstanceTypeInfo] = []    

        let archFilter = EC2ClientTypes.Filter(
            name: "processor-info.supported-architecture",
            values: [architecture.rawValue]
        )
        let sizeFilter = EC2ClientTypes.Filter(
            name: "instance-type",
            values: sizes
        )

        do {
            let pages = ec2Client.describeInstanceTypesPaginated(
                input: DescribeInstanceTypesInput(
                    filters: [archFilter, sizeFilter]
                )
            )

            for try await page in pages {
                guard let types = page.instanceTypes else {
                    return []
                }

                instanceTypes += types
            }
        } catch {
            print("*** Error getting image types: \(error.localizedDescription)")
            return []
        }

        return instanceTypes
    }
```
+  Untuk detail API, lihat referensi [DescribeInstanceTypes AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeinstancetypes(input:))*SDK untuk Swift API*. 

### `DescribeKeyPairs`
<a name="ec2_DescribeKeyPairs_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeKeyPairs`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Describe the key pairs associated with the user by outputting each key
    /// pair's name and fingerprint.
    func describeKeyPairs() async {
        do {
            let output = try await ec2Client.describeKeyPairs(
                input: DescribeKeyPairsInput()
            )

            guard let keyPairs = output.keyPairs else {
                print("*** No key pairs list available.")
                return
            }

            for keyPair in keyPairs {
                print(keyPair.keyName ?? "<unknown>", ":", keyPair.keyFingerprint ?? "<unknown>")
            }
        } catch {
            print("*** Error: Unable to obtain a key pair list.")
        }
    }
```
+  Untuk detail API, lihat referensi [DescribeKeyPairs AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describekeypairs(input:))*SDK untuk Swift API*. 

### `DescribeSecurityGroups`
<a name="ec2_DescribeSecurityGroups_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeSecurityGroups`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 
Menggunakan pagination dengan`describeSecurityGroupsPaginated()`.  

```
import AWSEC2

    /// Return an array of strings giving the names of every security group
    /// the user is a member of.
    ///
    /// - Parameter ec2Client: The `EC2Client` to use when calling
    ///   `describeSecurityGroupsPaginated()`.
    ///
    /// - Returns: An array of strings giving the names of every security
    ///   group the user is a member of.
    func getSecurityGroupNames(ec2Client: EC2Client) async -> [String] {
        let pages = ec2Client.describeSecurityGroupsPaginated(
            input: DescribeSecurityGroupsInput()
        )

        var groupNames: [String] = []

        do {
            for try await page in pages {
                guard let groups = page.securityGroups else {
                    print("*** Error: No groups returned.")
                    continue
                }

                for group in groups {
                    groupNames.append(group.groupName ?? "<unknown>")
                }
            }
        } catch {
            print("*** Error: \(error.localizedDescription)")
        }

        return groupNames
    }
```
Tanpa pagination.  

```
import AWSEC2

    func describeSecurityGroups(groupId: String) async -> Bool {
        do {
            let output = try await ec2Client.describeSecurityGroups(
                input: DescribeSecurityGroupsInput(
                    groupIds: [groupId]
                )
            )

            guard let securityGroups = output.securityGroups else {
                print("No security groups found.")
                return true
            }

            for group in securityGroups {
                print("Group \(group.groupId ?? "<unknown>") found with VPC \(group.vpcId ?? "<unknown>")")
            }
            return true
        } catch {
            print("*** Error getting security group details: \(error.localizedDescription)")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [DescribeSecurityGroups AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describesecuritygroups(input:))*SDK untuk Swift API*. 

### `DisassociateAddress`
<a name="ec2_DisassociateAddress_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DisassociateAddress`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Disassociate an Elastic IP.
    /// 
    /// - Parameter associationId: The ID of the association to end.
    func disassociateAddress(associationId: String?) async {
        do {
            _ = try await ec2Client.disassociateAddress(
                input: DisassociateAddressInput(
                    associationId: associationId
                )
            )
        } catch {
            print("*** Unable to disassociate the IP address: \(error.localizedDescription)")
        }
    }
```
+  Untuk detail API, lihat referensi [DisassociateAddress AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/disassociateaddress(input:))*SDK untuk Swift API*. 

### `ReleaseAddress`
<a name="ec2_ReleaseAddress_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReleaseAddress`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Release an allocated Elastic IP.
    /// 
    /// - Parameter allocationId: The allocation ID of the Elastic IP to
    ///   release.
    func releaseAddress(allocationId: String?) async {
        do {
            _ = try await ec2Client.releaseAddress(
                input: ReleaseAddressInput(
                    allocationId: allocationId
                )
            )
        } catch {
            print("*** Unable to release the IP address: \(error.localizedDescription)")
        }
    }
```
+  Untuk detail API, lihat referensi [ReleaseAddress AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/releaseaddress(input:))*SDK untuk Swift API*. 

### `RunInstances`
<a name="ec2_RunInstances_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`RunInstances`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Create and return a new EC2 instance.
    /// 
    /// - Parameters:
    ///   - imageId: The image ID of the AMI to use when creating the instance.
    ///   - instanceType: The type of instance to create.
    ///   - keyPairName: The RSA key pair's name to use to secure the instance.
    ///   - securityGroups: The security group or groups to add the instance
    ///     to.
    ///
    /// - Returns: The EC2 instance as an `EC2ClientTypes.Instance` object.
    func runInstance(imageId: String, instanceType: EC2ClientTypes.InstanceType,
                        keyPairName: String, securityGroups: [String]?) async -> EC2ClientTypes.Instance? {
        do {
            let output = try await ec2Client.runInstances(
                input: RunInstancesInput(
                    imageId: imageId,
                    instanceType: instanceType,
                    keyName: keyPairName,
                    maxCount: 1,
                    minCount: 1,
                    securityGroupIds: securityGroups
                )
            )

            guard let instances = output.instances else {
                print("*** Unable to create the instance.")
                return nil
            }

            return instances[0]
        } catch {
            print("*** Error creating the instance: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [RunInstances AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/runinstances(input:))*SDK untuk Swift API*. 

### `StartInstances`
<a name="ec2_StartInstances_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartInstances`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Start the specified instance.
    /// 
    /// - Parameters:
    ///   - instanceId: The ID of the instance to start.
    ///   - waitUntilStarted: If `true`, execution waits until the instance
    ///     has started. Otherwise, execution continues and the instance starts
    ///     asynchronously.
    ///
    /// - Returns: `true` if the image is successfully started (or is left to
    ///   start asynchronously). `false` if the instance doesn't start.
    func startInstance(instanceId: String, waitUntilStarted: Bool = false) async -> Bool {
        let instanceList = [instanceId]

        do {
            _ = try await ec2Client.startInstances(
                input: StartInstancesInput(
                    instanceIds: instanceList
                )
            )

            if waitUntilStarted {
                print("Waiting for the instance to start...")

                let waitOptions = WaiterOptions(maxWaitTime: 60.0)
                let output = try await ec2Client.waitUntilInstanceRunning(
                    options: waitOptions,
                    input: DescribeInstancesInput(
                        instanceIds: instanceList
                    )
                )
                switch output.result {
                case .success:
                    return true
                case .failure:
                    return false
                }
            } else {
                return true
            }
        } catch {
            print("*** Unable to start the instance: \(error.localizedDescription)")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [StartInstances AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/startinstances(input:))*SDK untuk Swift API*. 

### `StopInstances`
<a name="ec2_StopInstances_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StopInstances`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Stop the specified instance.
    /// 
    /// - Parameters:
    ///   - instanceId: The ID of the instance to stop.
    ///   - waitUntilStopped: If `true`, execution waits until the instance
    ///     has stopped. Otherwise, execution continues and the instance stops
    ///     asynchronously.
    ///
    /// - Returns: `true` if the image is successfully stopped (or is left to
    ///   stop asynchronously). `false` if the instance doesn't stop.
    func stopInstance(instanceId: String, waitUntilStopped: Bool = false) async -> Bool {
        let instanceList = [instanceId]

        do {
            _ = try await ec2Client.stopInstances(
                input: StopInstancesInput(
                    instanceIds: instanceList
                )
            )

            if waitUntilStopped {
                print("Waiting for the instance to stop. Please be patient!")

                let waitOptions = WaiterOptions(maxWaitTime: 600)
                let output = try await ec2Client.waitUntilInstanceStopped(
                    options: waitOptions,
                    input: DescribeInstancesInput(
                        instanceIds: instanceList
                    )
                )

                switch output.result {
                case .success:
                    return true
                case .failure:
                    return false
                }
            } else {
                return true
            }
        } catch {
            print("*** Unable to stop the instance: \(error.localizedDescription)")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [StopInstances AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/stopinstances(input:))*SDK untuk Swift API*. 

### `TerminateInstances`
<a name="ec2_TerminateInstances_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`TerminateInstances`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). 

```
import AWSEC2

    /// Terminate the specified instance.
    ///
    /// - Parameters:
    ///   - instanceId: The instance to terminate.
    ///   - waitUntilTerminated: Whether or not to wait until the instance is
    ///     terminated before returning.
    /// 
    /// - Returns: `true` if terminated successfully. `false` if not or if an
    ///   error occurs.
    func terminateInstance(instanceId: String, waitUntilTerminated: Bool = false) async -> Bool {
        let instanceList = [instanceId]

        do {
            _ = try await ec2Client.terminateInstances(
                input: TerminateInstancesInput(
                    instanceIds: instanceList
                )
            )

            if waitUntilTerminated {
                print("Waiting for the instance to terminate...")

                let waitOptions = WaiterOptions(maxWaitTime: 600.0)
                let output = try await ec2Client.waitUntilInstanceTerminated(
                    options: waitOptions,
                    input: DescribeInstancesInput(
                        instanceIds: instanceList
                    )
                )

                switch output.result {
                case .success:
                    return true
                case .failure:
                    return false
                }
            } else {
                return true
            }
        } catch {
            print("*** Unable to terminate the instance: \(error.localizedDescription)")
            return false
        }
    }
```
+  Untuk detail API, lihat referensi [TerminateInstances AWS](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/terminateinstances(input:))*SDK untuk Swift API*. 

# AWS Glue contoh menggunakan SDK untuk Swift
<a name="swift_1_glue_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Swift with. AWS Glue

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="glue_Scenario_GetStartedCrawlersJobs_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat crawler yang merayapi bucket Amazon S3 publik dan membuat database metadata berformat CSV.
+ Daftar informasi tentang database dan tabel di Anda AWS Glue Data Catalog.
+ Buat pekerjaan untuk mengekstrak data CSV dari bucket S3, mengubah data, dan memuat output berformat JSON ke bucket S3 lain.
+ Buat daftar informasi tentang menjalankan pekerjaan, melihat data yang diubah, dan membersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Tutorial: Memulai AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 
`Package.swift`Berkas.  

```
// swift-tools-version: 5.9
//
// The swift-tools-version declares the minimum version of Swift required to
// build this package.

import PackageDescription

let package = Package(
    name: "glue-scenario",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13),
        .iOS(.v15)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/awslabs/aws-sdk-swift",
            from: "1.0.0"),
        .package(
            url: "https://github.com/apple/swift-argument-parser.git",
            branch: "main"
        )
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "glue-scenario",
            dependencies: [
                .product(name: "AWSGlue", package: "aws-sdk-swift"),
                .product(name: "AWSS3", package: "aws-sdk-swift"),
                .product(name: "ArgumentParser", package: "swift-argument-parser")
            ],
            path: "Sources")

    ]
)
```
File kode Swift,`entry.swift`.  

```
// An example that shows how to use the AWS SDK for Swift to demonstrate
// creating and using crawlers and jobs using AWS Glue.
//
// 0. Upload the Python job script to Amazon S3 so it can be used when
//    calling `startJobRun()` later.
// 1. Create a crawler, pass it the IAM role and the URL of the public Amazon
//    S3 bucket that contains the source data:
//    s3://crawler-public-us-east-1/flight/2016/csv.
// 2. Start the crawler. This takes time, so after starting it, use a loop
//    that calls `getCrawler()` until the state is "READY".
// 3. Get the database created by the crawler, and the tables in the
//    database. Display them to the user.
// 4. Create a job. Pass it the IAM role and the URL to a Python ETL script
//    previously uploaded to the user's S3 bucket.
// 5. Start a job run, passing the following custom arguments. These are
//    expected by the ETL script, so must exactly match.
//    * `--input_database: <name of the database created by the crawler>`
//    * `--input_table: <name of the table created by the crawler>`
//    * `--output_bucket_url: <URL to the scaffold bucket created for the
//      user>`
// 6. Loop and get the job run until it returns one of the following states:
//    "SUCCEEDED", "STOPPED", "FAILED", or "TIMEOUT".
// 7. Output data is stored in a group of files in the user's S3 bucket.
//    Either direct the user to their location or download a file and display
//    the results inline.
// 8. List the jobs for the user's account.
// 9. Get job run details for a job run.
// 10. Delete the demo job.
// 11. Delete the database and tables created by the example.
// 12. Delete the crawler created by the example.

import ArgumentParser
import AWSS3
import Foundation
import Smithy

import AWSClientRuntime
import AWSGlue

struct ExampleCommand: ParsableCommand {
    @Option(help: "The AWS IAM role to use for AWS Glue calls.")
    var role: String

    @Option(help: "The Amazon S3 bucket to use for this example.")
    var bucket: String

    @Option(help: "The Amazon S3 URL of the data to crawl.")
    var s3url: String = "s3://crawler-public-us-east-1/flight/2016/csv"

    @Option(help: "The Python script to run as a job with AWS Glue.")
    var script: String = "./flight_etl_job_script.py"

    @Option(help: "The AWS Region to run AWS API calls in.")
    var awsRegion = "us-east-1"

    @Option(help: "A prefix string to use when naming tables.")
    var tablePrefix = "swift-glue-basics-table"

    @Option(
        help: ArgumentHelp("The level of logging for the Swift SDK to perform."),
        completion: .list([
            "critical",
            "debug",
            "error",
            "info",
            "notice",
            "trace",
            "warning"
        ])
    )
    var logLevel: String = "error"

    static var configuration = CommandConfiguration(
        commandName: "glue-scenario",
        abstract: """
        Demonstrates various features of AWS Glue.
        """,
        discussion: """
        An example showing how to use AWS Glue to create, run, and monitor
        crawlers and jobs.
        """
    )

    /// Generate and return a unique file name that begins with the specified
    /// string.
    ///
    /// - Parameters:
    ///   - prefix: Text to use at the beginning of the returned name.
    ///
    /// - Returns: A string containing a unique filename that begins with the
    ///   specified `prefix`.
    ///
    /// The returned name uses a random number between 1 million and 1 billion to
    /// provide reasonable certainty of uniqueness for the purposes of this
    /// example.
    func tempName(prefix: String) -> String {
        return "\(prefix)-\(Int.random(in: 1000000..<1000000000))"
    }

    /// Upload a file to an Amazon S3 bucket.
    /// 
    /// - Parameters:
    ///   - s3Client: The S3 client to use when uploading the file.
    ///   - path: The local path of the source file to upload.
    ///   - toBucket: The name of the S3 bucket into which to upload the file.
    ///   - key: The key (name) to give the file in the S3 bucket.
    ///
    /// - Returns: `true` if the file is uploaded successfully, otherwise `false`.
    func uploadFile(s3Client: S3Client, path: String, toBucket: String, key: String) async -> Bool {
        do {
            let fileData: Data = try Data(contentsOf: URL(fileURLWithPath: path))
            let dataStream = ByteStream.data(fileData)
            _ = try await s3Client.putObject(
                input: PutObjectInput(
                    body: dataStream,
                    bucket: toBucket,
                    key: key
                )
            )
        } catch {
            print("*** An unexpected error occurred uploading the script to the Amazon S3 bucket \"\(bucket)\".")
            return false
        }

        return true
    }

    /// Create a new AWS Glue crawler.
    /// 
    /// - Parameters:
    ///   - glueClient: An AWS Glue client to use for the crawler.
    ///   - crawlerName: A name for the new crawler.
    ///   - iamRole: The name of an Amazon IAM role for the crawler to use.
    ///   - s3Path: The path of an Amazon S3 folder to use as a target location.
    ///   - cronSchedule: A `cron` schedule indicating when to run the crawler.
    ///   - databaseName: The name of an AWS Glue database to operate on.
    ///
    /// - Returns: `true` if the crawler is created successfully, otherwise `false`.
    func createCrawler(glueClient: GlueClient, crawlerName: String, iamRole: String,
                       s3Path: String, cronSchedule: String, databaseName: String) async -> Bool {
        let s3Target = GlueClientTypes.S3Target(path: s3url)
        let targetList = GlueClientTypes.CrawlerTargets(s3Targets: [s3Target])

        do {
            _ = try await glueClient.createCrawler(
                input: CreateCrawlerInput(
                    databaseName: databaseName,
                    description: "Created by the AWS SDK for Swift Scenario Example for AWS Glue.",
                    name: crawlerName,
                    role: iamRole,
                    schedule: cronSchedule,
                    tablePrefix: tablePrefix,
                    targets: targetList
                )
            )
        } catch _ as AlreadyExistsException {
            print("*** A crawler named \"\(crawlerName)\" already exists.")
            return false
        } catch _ as OperationTimeoutException {
            print("*** The attempt to create the AWS Glue crawler timed out.")
            return false
        } catch {
            print("*** An unexpected error occurred creating the AWS Glue crawler: \(error.localizedDescription)")
            return false
        }

        return true
    }

    /// Delete an AWS Glue crawler.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - name: The name of the crawler to delete.
    ///
    /// - Returns: `true` if successful, otherwise `false`.
    func deleteCrawler(glueClient: GlueClient, name: String) async -> Bool {
        do {
            _ = try await glueClient.deleteCrawler(
                input: DeleteCrawlerInput(name: name)
            )
        } catch {
            return false
        }
        return true
    }

    /// Start running an AWS Glue crawler.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use when starting the crawler.
    ///   - name: The name of the crawler to start running.
    ///
    /// - Returns: `true` if the crawler is started successfully, otherwise `false`.
    func startCrawler(glueClient: GlueClient, name: String) async -> Bool {
        do {
            _ = try await glueClient.startCrawler(
                input: StartCrawlerInput(name: name)
            )
        } catch {
            print("*** An unexpected error occurred starting the crawler.")
            return false
        }

        return true
    }

    /// Get the state of the specified AWS Glue crawler.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - name: The name of the crawler whose state should be returned.
    ///
    /// - Returns: A `GlueClientTypes.CrawlerState` value describing the
    ///   state of the crawler.
    func getCrawlerState(glueClient: GlueClient, name: String) async -> GlueClientTypes.CrawlerState {
        do {
            let output = try await glueClient.getCrawler(
                input: GetCrawlerInput(name: name)
            )

            // If the crawler or its state is `nil`, report that the crawler
            // is stopping. This may not be what you want for your
            // application but it works for this one!
            
            guard let crawler = output.crawler else {
                return GlueClientTypes.CrawlerState.stopping
            }
            guard let state = crawler.state else {
                return GlueClientTypes.CrawlerState.stopping            
            }
            return state
        } catch {
            return GlueClientTypes.CrawlerState.stopping
        }
    }

    /// Wait until the specified crawler is ready to run.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - name: The name of the crawler to wait for.
    ///
    /// - Returns: `true` if the crawler is ready, `false` if the client is
    ///   stopping (and will therefore never be ready).
    func waitUntilCrawlerReady(glueClient: GlueClient, name: String) async -> Bool {
        while true {
            let state = await getCrawlerState(glueClient: glueClient, name: name)

            if state == .ready {
                return true
            } else if state == .stopping {
                return false
            }
            
            // Wait four seconds before trying again.

            do {
                try await Task.sleep(for: .seconds(4))
            } catch {
                print("*** Error pausing the task.")
            }
        }
    }

    /// Create a new AWS Glue job.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name to give the new job.
    ///   - role: The IAM role for the job to use when accessing AWS services.
    ///   - scriptLocation: The AWS S3 URI of the script to be run by the job.
    /// 
    /// - Returns: `true` if the job is created successfully, otherwise `false`.
    func createJob(glueClient: GlueClient, name jobName: String, role: String,
                   scriptLocation: String) async -> Bool {
        let command = GlueClientTypes.JobCommand(
            name: "glueetl",
            pythonVersion: "3",
            scriptLocation: scriptLocation
        )

        do {
            _ = try await glueClient.createJob(
                input: CreateJobInput(
                    command: command,
                    description: "Created by the AWS SDK for Swift Glue basic scenario example.",
                    glueVersion: "3.0",
                    name: jobName,
                    numberOfWorkers: 10,
                    role: role,
                    workerType: .g1x
                )
            )
        } catch {
            return false
        }
        return true
    }

    /// Return a list of the AWS Glue jobs listed on the user's account.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - maxJobs: The maximum number of jobs to return (default: 100).
    /// 
    /// - Returns: An array of strings listing the names of all available AWS
    ///   Glue jobs.
    func listJobs(glueClient: GlueClient, maxJobs: Int = 100) async -> [String] {
        var jobList: [String] = []
        var nextToken: String?

        repeat {
            do {
                let output = try await glueClient.listJobs(
                    input: ListJobsInput(
                        maxResults: maxJobs,
                        nextToken: nextToken
                    )
                )

                guard let jobs = output.jobNames else {
                    return jobList
                }

                jobList = jobList + jobs
                nextToken = output.nextToken
            } catch {
                return jobList
            }
        } while (nextToken != nil)

        return jobList
    }

    /// Delete an AWS Glue job.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name of the job to delete.
    ///
    /// - Returns: `true` if the job is successfully deleted, otherwise `false`.
    func deleteJob(glueClient: GlueClient, name jobName: String) async -> Bool {
        do {
            _ = try await glueClient.deleteJob(
                input: DeleteJobInput(jobName: jobName)
            )
        } catch {
            return false
        }
        return true
    }

    /// Create an AWS Glue database.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - databaseName: The name to give the new database.
    ///   - location: The URL of the source data to use with AWS Glue.
    ///
    /// - Returns: `true` if the database is created successfully, otherwise `false`.
    func createDatabase(glueClient: GlueClient, name databaseName: String, location: String) async -> Bool {
        let databaseInput = GlueClientTypes.DatabaseInput(
            description: "Created by the AWS SDK for Swift Glue basic scenario example.",
            locationUri: location,
            name: databaseName
        )

        do {
            _ = try await glueClient.createDatabase(
                input: CreateDatabaseInput(
                    databaseInput: databaseInput
                )
            )
        } catch {
            return false
        }

        return true
    }

    /// Get the AWS Glue database with the specified name.
    ///
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - name: The name of the database to return.
    ///
    /// - Returns: The `GlueClientTypes.Database` object describing the
    ///   specified database, or `nil` if an error occurs or the database
    ///   isn't found.
    func getDatabase(glueClient: GlueClient, name: String) async -> GlueClientTypes.Database? {
        do {
            let output = try await glueClient.getDatabase(
                input: GetDatabaseInput(name: name)
            )

            return output.database
        } catch {
            return nil
        }
    }

    /// Returns a list of the tables in the specified database.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - databaseName: The name of the database whose tables are to be
    ///     returned.
    ///
    /// - Returns: An array of `GlueClientTypes.Table` objects, each
    ///   describing one table in the named database. An empty array indicates
    ///   that there are either no tables in the database, or an error
    ///   occurred before any tables could be found.
    func getTablesInDatabase(glueClient: GlueClient, databaseName: String) async -> [GlueClientTypes.Table] {
        var tables: [GlueClientTypes.Table] = []
        var nextToken: String?

        repeat {
            do {
                let output = try await glueClient.getTables(
                    input: GetTablesInput(
                        databaseName: databaseName,
                        nextToken: nextToken
                    )
                )

                guard let tableList = output.tableList else {
                    return tables
                }

                tables = tables + tableList
                nextToken = output.nextToken
            } catch {
                return tables
            }
        } while nextToken != nil

        return tables
    }

    /// Delete the specified database.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - databaseName: The name of the database to delete.
    ///   - deleteTables: A Bool indicating whether or not to delete the
    ///     tables in the database before attempting to delete the database.
    /// 
    /// - Returns: `true` if the database (and optionally its tables) are
    ///   deleted, otherwise `false`.
    func deleteDatabase(glueClient: GlueClient, name databaseName: String,
                        withTables deleteTables: Bool = false) async -> Bool {
        if deleteTables {
            var tableNames: [String] = []

            // Get a list of the names of all of the tables in the database.

            let tableList = await self.getTablesInDatabase(glueClient: glueClient, databaseName: databaseName)
            for table in tableList {
                guard let name = table.name else {
                    continue
                }
                tableNames.append(name)
            }

            // Delete the tables. If there's only one table, use
            // `deleteTable()`, otherwise, use `batchDeleteTable()`. You can
            // use `batchDeleteTable()` for a single table, but this
            // demonstrates the use of `deleteTable()`.

            if tableNames.count == 1 {
                do {
                    print("    Deleting table...")
                    _ = try await glueClient.deleteTable(
                        input: DeleteTableInput(
                            databaseName: databaseName,
                            name: tableNames[0]
                        )
                    )
                } catch {
                    print("*** Unable to delete the table.")
                }
            } else {
                do {
                    print("    Deleting tables...")
                    _ = try await glueClient.batchDeleteTable(
                        input: BatchDeleteTableInput(
                            databaseName: databaseName,
                            tablesToDelete: tableNames
                        )
                    )
                } catch {
                    print("*** Unable to delete the tables.")
                }
            }
        }

        // Delete the database itself.

        do {
            print("    Deleting the database itself...")
            _ = try await glueClient.deleteDatabase(
                input: DeleteDatabaseInput(name: databaseName)
            )
        } catch {
            print("*** Unable to delete the database.")
            return false
        }
        return true
    }

    /// Start an AWS Glue job run.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name of the job to run.
    ///   - databaseName: The name of the AWS Glue database to run the job against.
    ///   - tableName: The name of the table in the database to run the job against.
    ///   - outputURL: The AWS S3 URI of the bucket location into which to
    ///     write the resulting output.
    ///
    /// - Returns: `true` if the job run is started successfully, otherwise `false`.
    func startJobRun(glueClient: GlueClient, name jobName: String, databaseName: String,
                     tableName: String, outputURL: String) async -> String? {
        do {
            let output = try await glueClient.startJobRun(
                input: StartJobRunInput(
                    arguments: [
                        "--input_database": databaseName,
                        "--input_table": tableName,
                        "--output_bucket_url": outputURL
                    ],
                    jobName: jobName,
                    numberOfWorkers: 10,
                    workerType: .g1x
                )
            )

            guard let id = output.jobRunId else {
                return nil
            }

            return id
        } catch {
            return nil
        }
    }

    /// Return a list of the job runs for the specified job.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name of the job for which to return its job runs.
    ///   - maxResults: The maximum number of job runs to return (default:
    ///     1000).
    ///
    /// - Returns: An array of `GlueClientTypes.JobRun` objects describing
    ///   each job run.
    func getJobRuns(glueClient: GlueClient, name jobName: String, maxResults: Int? = nil) async -> [GlueClientTypes.JobRun] {
        do {
            let output = try await glueClient.getJobRuns(
                input: GetJobRunsInput(
                    jobName: jobName,
                    maxResults: maxResults
                )
            )

            guard let jobRuns = output.jobRuns else {
                print("*** No job runs found.")
                return []
            }

            return jobRuns
        } catch is EntityNotFoundException {
            print("*** The specified job name, \(jobName), doesn't exist.")
            return []
        } catch {
            print("*** Unexpected error getting job runs:")
            dump(error)
            return []
        }
    }

    /// Get information about a specific AWS Glue job run.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name of the job to return job run data for.
    ///   - id: The run ID of the specific job run to return.
    ///
    /// - Returns: A `GlueClientTypes.JobRun` object describing the state of
    ///   the job run, or `nil` if an error occurs.
    func getJobRun(glueClient: GlueClient, name jobName: String, id: String) async -> GlueClientTypes.JobRun? {
        do {
            let output = try await glueClient.getJobRun(
                input: GetJobRunInput(
                    jobName: jobName,
                    runId: id
                )
            )

            return output.jobRun
        } catch {
            return nil
        }
    }

    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        // A name to give the Python script upon upload to the Amazon S3
        // bucket.
        let scriptName = "jobscript.py"

        // Schedule string in `cron` format, as described here:
        // https://docs.aws.amazon.com/glue/latest/dg/monitor-data-warehouse-schedule.html
        let cron = "cron(15 12 * * ? *)"

        let glueConfig = try await GlueClient.GlueClientConfiguration(region: awsRegion)
        let glueClient = GlueClient(config: glueConfig)

        let s3Config = try await S3Client.S3ClientConfiguration(region: awsRegion)
        let s3Client = S3Client(config: s3Config)

        // Create random names for things that need them.

        let crawlerName = tempName(prefix: "swift-glue-basics-crawler")
        let databaseName = tempName(prefix: "swift-glue-basics-db")

        // Create a name for the AWS Glue job.

        let jobName = tempName(prefix: "scenario-job")

        // The URL of the Python script on S3.

        let scriptURL = "s3://\(bucket)/\(scriptName)"

        print("Welcome to the AWS SDK for Swift basic scenario for AWS Glue!")

        //=====================================================================
        // 0. Upload the Python script to the target bucket so it's available
        //    for use by the Amazon Glue service.
        //=====================================================================

        print("Uploading the Python script: \(script) as key \(scriptName)")
        print("Destination bucket: \(bucket)")
        if !(await uploadFile(s3Client: s3Client, path: script, toBucket: bucket, key: scriptName)) {
            return
        }

        //=====================================================================
        // 1. Create the database and crawler using the randomized names
        //    generated previously.
        //=====================================================================

        print("Creating database \"\(databaseName)\"...")
        if !(await createDatabase(glueClient: glueClient, name: databaseName, location: s3url)) {
            print("*** Unable to create the database.")
            return
        }

        print("Creating crawler \"\(crawlerName)\"...")
        if !(await createCrawler(glueClient: glueClient, crawlerName: crawlerName,
                                 iamRole: role, s3Path: s3url, cronSchedule: cron,
                                 databaseName: databaseName)) {
            return
        }

        //=====================================================================
        // 2. Start the crawler, then wait for it to be ready.
        //=====================================================================

        print("Starting the crawler and waiting until it's ready...")
        if !(await startCrawler(glueClient: glueClient, name: crawlerName)) {
            _ = await deleteCrawler(glueClient: glueClient, name: crawlerName)
            return
        }

        if !(await waitUntilCrawlerReady(glueClient: glueClient, name: crawlerName)) {
            _ = await deleteCrawler(glueClient: glueClient, name: crawlerName)
        }

        //=====================================================================
        // 3. Get the database and table created by the crawler.
        //=====================================================================

        print("Getting the crawler's database...")
        let database = await getDatabase(glueClient: glueClient, name: databaseName)

        guard let database else {
            print("*** Unable to get the database.")
            return
        }
        print("Database URI: \(database.locationUri ?? "<unknown>")")

        let tableList = await getTablesInDatabase(glueClient: glueClient, databaseName: databaseName)

        print("Found \(tableList.count) table(s):")
        for table in tableList {
            print("  \(table.name ?? "<unnamed>")")
        }

        if tableList.count != 1 {
            print("*** Incorrect number of tables found. There should only be one.")
            _ = await deleteDatabase(glueClient: glueClient, name: databaseName, withTables: true)
            _ = await deleteCrawler(glueClient: glueClient, name: crawlerName)
            return
        }

        guard let tableName = tableList[0].name else {
            print("*** Table is unnamed.")
            _ = await deleteDatabase(glueClient: glueClient, name: databaseName, withTables: true)
            _ = await deleteCrawler(glueClient: glueClient, name: crawlerName)
            return
        }

        //=====================================================================
        // 4. Create a job.
        //=====================================================================

        print("Creating a job...")
        if !(await createJob(glueClient: glueClient, name: jobName, role: role,
                             scriptLocation: scriptURL)) {
            _ = await deleteDatabase(glueClient: glueClient, name: databaseName, withTables: true)
            _ = await deleteCrawler(glueClient: glueClient, name: crawlerName)
            return
        }

        //=====================================================================
        // 5. Start a job run.
        //=====================================================================

        print("Starting the job...")

        // Construct the Amazon S3 URL for the job run's output. This is in
        // the bucket specified on the command line, with a folder name that's
        // unique for this job run.

        let timeStamp = Date().timeIntervalSince1970
        let jobPath = "\(jobName)-\(Int(timeStamp))"
        let outputURL = "s3://\(bucket)/\(jobPath)"

        // Start the job run.

        let jobRunID = await startJobRun(glueClient: glueClient, name: jobName,
                                         databaseName: databaseName,
                                         tableName: tableName,
                                         outputURL: outputURL)

        guard let jobRunID else {
            print("*** Job run ID is invalid.")
            _ = await deleteJob(glueClient: glueClient, name: jobName)
            _ = await deleteDatabase(glueClient: glueClient, name: databaseName, withTables: true)
            _ = await deleteCrawler(glueClient: glueClient, name: crawlerName)
            return
        }

        //=====================================================================
        // 6. Wait for the job run to indicate that the run is complete.
        //=====================================================================

        print("Waiting for job run to end...")

        var jobRunFinished = false
        var jobRunState: GlueClientTypes.JobRunState

        repeat {
            let jobRun = await getJobRun(glueClient: glueClient, name: jobName, id: jobRunID)
            guard let jobRun else {
                print("*** Unable to get the job run.")
                _ = await deleteJob(glueClient: glueClient, name: jobName)
                _ = await deleteDatabase(glueClient: glueClient, name: databaseName, withTables: true)
                _ = await deleteCrawler(glueClient: glueClient, name: crawlerName)
                return
            }
            jobRunState = jobRun.jobRunState ?? .failed

            //=====================================================================
            // 7. Output where to find the data if the job run was successful.
            //    If the job run failed for any reason, output an appropriate
            //    error message.
            //=====================================================================

            switch jobRunState {
                case .succeeded:
                    print("Job run succeeded. JSON files are in the Amazon S3 path:")
                    print("    \(outputURL)")
                    jobRunFinished = true
                case .stopped:
                    jobRunFinished = true
                case .error:
                    print("*** Error: Job run ended in an error. \(jobRun.errorMessage ?? "")")
                    jobRunFinished = true
                case .failed:
                    print("*** Error: Job run failed. \(jobRun.errorMessage ?? "")")
                    jobRunFinished = true
                case .timeout:
                    print("*** Warning: Job run timed out.")
                    jobRunFinished = true
                default:
                    do {
                        try await Task.sleep(for: .milliseconds(250))
                    } catch {
                        print("*** Error pausing the task.")
                    }
            }
        } while jobRunFinished != true

        //=====================================================================
        // 7.5. List the job runs for this job, showing each job run's ID and
        // its execution time.
        //=====================================================================

        print("Getting all job runs for the job \(jobName):")
        let jobRuns = await getJobRuns(glueClient: glueClient, name: jobName)

        if jobRuns.count == 0 {
            print("    <no job runs found>")
        } else {
            print("Found \(jobRuns.count) job runs... listing execution times:")
            for jobRun in jobRuns {
                print("    \(jobRun.id ?? "<unnamed>"): \(jobRun.executionTime) seconds")
            }
        }

        //=====================================================================
        // 8. List the jobs for the user's account.
        //=====================================================================

        print("\nThe account has the following jobs:")
        let jobs = await listJobs(glueClient: glueClient)

        if jobs.count == 0 {
            print("    <no jobs found>")
        } else {
            for job in jobs {
                print("    \(job)")
            }
        }

        //=====================================================================
        // 9. Get the job run details for a job run.
        //=====================================================================

        print("Information about the job run:")
        let jobRun = await getJobRun(glueClient: glueClient, name: jobName, id: jobRunID)

        guard let jobRun else {
            print("*** Unable to retrieve the job run.")
            _ = await deleteJob(glueClient: glueClient, name: jobName)
            _ = await deleteDatabase(glueClient: glueClient, name: databaseName, withTables: true)
            _ = await deleteCrawler(glueClient: glueClient, name: crawlerName)
            return
        }

        let startDate = jobRun.startedOn ?? Date(timeIntervalSince1970: 0)
        let endDate = jobRun.completedOn ?? Date(timeIntervalSince1970: 0)
        let dateFormatter: DateFormatter = DateFormatter()
        dateFormatter.dateStyle = .long
        dateFormatter.timeStyle = .long

        print("    Started at: \(dateFormatter.string(from: startDate))")
        print("  Completed at: \(dateFormatter.string(from: endDate))")

        //=====================================================================
        // 10. Delete the job.
        //=====================================================================

        print("\nDeleting the job...")
        _ = await deleteJob(glueClient: glueClient, name: jobName)

        //=====================================================================
        // 11. Delete the database and tables created by this example.
        //=====================================================================

        print("Deleting the database...")
        _ = await deleteDatabase(glueClient: glueClient, name: databaseName, withTables: true)

        //=====================================================================
        // 12. Delete the crawler.
        //=====================================================================

        print("Deleting the crawler...")
        if !(await deleteCrawler(glueClient: glueClient, name: crawlerName)) {
            return
        }
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [CreateCrawler](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/createcrawler(input:))
  + [CreateJob](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/createjob(input:))
  + [DeleteCrawler](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/deletecrawler(input:))
  + [DeleteDatabase](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/deletedatabase(input:))
  + [DeleteJob](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/deletejob(input:))
  + [DeleteTable](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/deletetable(input:))
  + [GetCrawler](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getcrawler(input:))
  + [GetDatabase](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getdatabase(input:))
  + [GetDatabases](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getdatabases(input:))
  + [GetJob](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getjob(input:))
  + [GetJobRun](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getjobrun(input:))
  + [GetJobRuns](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getjobruns(input:))
  + [GetTables](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/gettables(input:))
  + [ListJobs](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/listjobs(input:))
  + [StartCrawler](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/startcrawler(input:))
  + [StartJobRun](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/startjobrun(input:))

## Tindakan
<a name="actions"></a>

### `CreateCrawler`
<a name="glue_CreateCrawler_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateCrawler`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Create a new AWS Glue crawler.
    /// 
    /// - Parameters:
    ///   - glueClient: An AWS Glue client to use for the crawler.
    ///   - crawlerName: A name for the new crawler.
    ///   - iamRole: The name of an Amazon IAM role for the crawler to use.
    ///   - s3Path: The path of an Amazon S3 folder to use as a target location.
    ///   - cronSchedule: A `cron` schedule indicating when to run the crawler.
    ///   - databaseName: The name of an AWS Glue database to operate on.
    ///
    /// - Returns: `true` if the crawler is created successfully, otherwise `false`.
    func createCrawler(glueClient: GlueClient, crawlerName: String, iamRole: String,
                       s3Path: String, cronSchedule: String, databaseName: String) async -> Bool {
        let s3Target = GlueClientTypes.S3Target(path: s3url)
        let targetList = GlueClientTypes.CrawlerTargets(s3Targets: [s3Target])

        do {
            _ = try await glueClient.createCrawler(
                input: CreateCrawlerInput(
                    databaseName: databaseName,
                    description: "Created by the AWS SDK for Swift Scenario Example for AWS Glue.",
                    name: crawlerName,
                    role: iamRole,
                    schedule: cronSchedule,
                    tablePrefix: tablePrefix,
                    targets: targetList
                )
            )
        } catch _ as AlreadyExistsException {
            print("*** A crawler named \"\(crawlerName)\" already exists.")
            return false
        } catch _ as OperationTimeoutException {
            print("*** The attempt to create the AWS Glue crawler timed out.")
            return false
        } catch {
            print("*** An unexpected error occurred creating the AWS Glue crawler: \(error.localizedDescription)")
            return false
        }

        return true
    }
```
+  Untuk detail API, lihat referensi [CreateCrawler AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/createcrawler(input:))*SDK untuk Swift API*. 

### `CreateJob`
<a name="glue_CreateJob_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateJob`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Create a new AWS Glue job.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name to give the new job.
    ///   - role: The IAM role for the job to use when accessing AWS services.
    ///   - scriptLocation: The AWS S3 URI of the script to be run by the job.
    /// 
    /// - Returns: `true` if the job is created successfully, otherwise `false`.
    func createJob(glueClient: GlueClient, name jobName: String, role: String,
                   scriptLocation: String) async -> Bool {
        let command = GlueClientTypes.JobCommand(
            name: "glueetl",
            pythonVersion: "3",
            scriptLocation: scriptLocation
        )

        do {
            _ = try await glueClient.createJob(
                input: CreateJobInput(
                    command: command,
                    description: "Created by the AWS SDK for Swift Glue basic scenario example.",
                    glueVersion: "3.0",
                    name: jobName,
                    numberOfWorkers: 10,
                    role: role,
                    workerType: .g1x
                )
            )
        } catch {
            return false
        }
        return true
    }
```
+  Untuk detail API, lihat referensi [CreateJob AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/createjob(input:))*SDK untuk Swift API*. 

### `DeleteCrawler`
<a name="glue_DeleteCrawler_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteCrawler`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Delete an AWS Glue crawler.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - name: The name of the crawler to delete.
    ///
    /// - Returns: `true` if successful, otherwise `false`.
    func deleteCrawler(glueClient: GlueClient, name: String) async -> Bool {
        do {
            _ = try await glueClient.deleteCrawler(
                input: DeleteCrawlerInput(name: name)
            )
        } catch {
            return false
        }
        return true
    }
```
+  Untuk detail API, lihat referensi [DeleteCrawler AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/deletecrawler(input:))*SDK untuk Swift API*. 

### `DeleteDatabase`
<a name="glue_DeleteDatabase_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDatabase`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Delete the specified database.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - databaseName: The name of the database to delete.
    ///   - deleteTables: A Bool indicating whether or not to delete the
    ///     tables in the database before attempting to delete the database.
    /// 
    /// - Returns: `true` if the database (and optionally its tables) are
    ///   deleted, otherwise `false`.
    func deleteDatabase(glueClient: GlueClient, name databaseName: String,
                        withTables deleteTables: Bool = false) async -> Bool {
        if deleteTables {
            var tableNames: [String] = []

            // Get a list of the names of all of the tables in the database.

            let tableList = await self.getTablesInDatabase(glueClient: glueClient, databaseName: databaseName)
            for table in tableList {
                guard let name = table.name else {
                    continue
                }
                tableNames.append(name)
            }

            // Delete the tables. If there's only one table, use
            // `deleteTable()`, otherwise, use `batchDeleteTable()`. You can
            // use `batchDeleteTable()` for a single table, but this
            // demonstrates the use of `deleteTable()`.

            if tableNames.count == 1 {
                do {
                    print("    Deleting table...")
                    _ = try await glueClient.deleteTable(
                        input: DeleteTableInput(
                            databaseName: databaseName,
                            name: tableNames[0]
                        )
                    )
                } catch {
                    print("*** Unable to delete the table.")
                }
            } else {
                do {
                    print("    Deleting tables...")
                    _ = try await glueClient.batchDeleteTable(
                        input: BatchDeleteTableInput(
                            databaseName: databaseName,
                            tablesToDelete: tableNames
                        )
                    )
                } catch {
                    print("*** Unable to delete the tables.")
                }
            }
        }

        // Delete the database itself.

        do {
            print("    Deleting the database itself...")
            _ = try await glueClient.deleteDatabase(
                input: DeleteDatabaseInput(name: databaseName)
            )
        } catch {
            print("*** Unable to delete the database.")
            return false
        }
        return true
    }
```
+  Untuk detail API, lihat referensi [DeleteDatabase AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/deletedatabase(input:))*SDK untuk Swift API*. 

### `DeleteJob`
<a name="glue_DeleteJob_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteJob`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Delete an AWS Glue job.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name of the job to delete.
    ///
    /// - Returns: `true` if the job is successfully deleted, otherwise `false`.
    func deleteJob(glueClient: GlueClient, name jobName: String) async -> Bool {
        do {
            _ = try await glueClient.deleteJob(
                input: DeleteJobInput(jobName: jobName)
            )
        } catch {
            return false
        }
        return true
    }
```
+  Untuk detail API, lihat referensi [DeleteJob AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/deletejob(input:))*SDK untuk Swift API*. 

### `DeleteTable`
<a name="glue_DeleteTable_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTable`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

                do {
                    print("    Deleting table...")
                    _ = try await glueClient.deleteTable(
                        input: DeleteTableInput(
                            databaseName: databaseName,
                            name: tableNames[0]
                        )
                    )
                } catch {
                    print("*** Unable to delete the table.")
                }
```
+  Untuk detail API, lihat referensi [DeleteTable AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/deletetable(input:))*SDK untuk Swift API*. 

### `GetCrawler`
<a name="glue_GetCrawler_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetCrawler`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Get the state of the specified AWS Glue crawler.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - name: The name of the crawler whose state should be returned.
    ///
    /// - Returns: A `GlueClientTypes.CrawlerState` value describing the
    ///   state of the crawler.
    func getCrawlerState(glueClient: GlueClient, name: String) async -> GlueClientTypes.CrawlerState {
        do {
            let output = try await glueClient.getCrawler(
                input: GetCrawlerInput(name: name)
            )

            // If the crawler or its state is `nil`, report that the crawler
            // is stopping. This may not be what you want for your
            // application but it works for this one!
            
            guard let crawler = output.crawler else {
                return GlueClientTypes.CrawlerState.stopping
            }
            guard let state = crawler.state else {
                return GlueClientTypes.CrawlerState.stopping            
            }
            return state
        } catch {
            return GlueClientTypes.CrawlerState.stopping
        }
    }
```
+  Untuk detail API, lihat referensi [GetCrawler AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getcrawler(input:))*SDK untuk Swift API*. 

### `GetDatabase`
<a name="glue_GetDatabase_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetDatabase`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Get the AWS Glue database with the specified name.
    ///
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - name: The name of the database to return.
    ///
    /// - Returns: The `GlueClientTypes.Database` object describing the
    ///   specified database, or `nil` if an error occurs or the database
    ///   isn't found.
    func getDatabase(glueClient: GlueClient, name: String) async -> GlueClientTypes.Database? {
        do {
            let output = try await glueClient.getDatabase(
                input: GetDatabaseInput(name: name)
            )

            return output.database
        } catch {
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [GetDatabase AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getdatabase(input:))*SDK untuk Swift API*. 

### `GetJobRun`
<a name="glue_GetJobRun_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRun`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Get information about a specific AWS Glue job run.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name of the job to return job run data for.
    ///   - id: The run ID of the specific job run to return.
    ///
    /// - Returns: A `GlueClientTypes.JobRun` object describing the state of
    ///   the job run, or `nil` if an error occurs.
    func getJobRun(glueClient: GlueClient, name jobName: String, id: String) async -> GlueClientTypes.JobRun? {
        do {
            let output = try await glueClient.getJobRun(
                input: GetJobRunInput(
                    jobName: jobName,
                    runId: id
                )
            )

            return output.jobRun
        } catch {
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [GetJobRun AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getjobrun(input:))*SDK untuk Swift API*. 

### `GetJobRuns`
<a name="glue_GetJobRuns_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetJobRuns`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Return a list of the job runs for the specified job.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name of the job for which to return its job runs.
    ///   - maxResults: The maximum number of job runs to return (default:
    ///     1000).
    ///
    /// - Returns: An array of `GlueClientTypes.JobRun` objects describing
    ///   each job run.
    func getJobRuns(glueClient: GlueClient, name jobName: String, maxResults: Int? = nil) async -> [GlueClientTypes.JobRun] {
        do {
            let output = try await glueClient.getJobRuns(
                input: GetJobRunsInput(
                    jobName: jobName,
                    maxResults: maxResults
                )
            )

            guard let jobRuns = output.jobRuns else {
                print("*** No job runs found.")
                return []
            }

            return jobRuns
        } catch is EntityNotFoundException {
            print("*** The specified job name, \(jobName), doesn't exist.")
            return []
        } catch {
            print("*** Unexpected error getting job runs:")
            dump(error)
            return []
        }
    }
```
+  Untuk detail API, lihat referensi [GetJobRuns AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/getjobruns(input:))*SDK untuk Swift API*. 

### `GetTables`
<a name="glue_GetTables_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetTables`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Returns a list of the tables in the specified database.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - databaseName: The name of the database whose tables are to be
    ///     returned.
    ///
    /// - Returns: An array of `GlueClientTypes.Table` objects, each
    ///   describing one table in the named database. An empty array indicates
    ///   that there are either no tables in the database, or an error
    ///   occurred before any tables could be found.
    func getTablesInDatabase(glueClient: GlueClient, databaseName: String) async -> [GlueClientTypes.Table] {
        var tables: [GlueClientTypes.Table] = []
        var nextToken: String?

        repeat {
            do {
                let output = try await glueClient.getTables(
                    input: GetTablesInput(
                        databaseName: databaseName,
                        nextToken: nextToken
                    )
                )

                guard let tableList = output.tableList else {
                    return tables
                }

                tables = tables + tableList
                nextToken = output.nextToken
            } catch {
                return tables
            }
        } while nextToken != nil

        return tables
    }
```
+  Untuk detail API, lihat referensi [GetTables AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/gettables(input:))*SDK untuk Swift API*. 

### `ListJobs`
<a name="glue_ListJobs_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListJobs`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Return a list of the AWS Glue jobs listed on the user's account.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - maxJobs: The maximum number of jobs to return (default: 100).
    /// 
    /// - Returns: An array of strings listing the names of all available AWS
    ///   Glue jobs.
    func listJobs(glueClient: GlueClient, maxJobs: Int = 100) async -> [String] {
        var jobList: [String] = []
        var nextToken: String?

        repeat {
            do {
                let output = try await glueClient.listJobs(
                    input: ListJobsInput(
                        maxResults: maxJobs,
                        nextToken: nextToken
                    )
                )

                guard let jobs = output.jobNames else {
                    return jobList
                }

                jobList = jobList + jobs
                nextToken = output.nextToken
            } catch {
                return jobList
            }
        } while (nextToken != nil)

        return jobList
    }
```
+  Untuk detail API, lihat referensi [ListJobs AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/listjobs(input:))*SDK untuk Swift API*. 

### `StartCrawler`
<a name="glue_StartCrawler_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartCrawler`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Start running an AWS Glue crawler.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use when starting the crawler.
    ///   - name: The name of the crawler to start running.
    ///
    /// - Returns: `true` if the crawler is started successfully, otherwise `false`.
    func startCrawler(glueClient: GlueClient, name: String) async -> Bool {
        do {
            _ = try await glueClient.startCrawler(
                input: StartCrawlerInput(name: name)
            )
        } catch {
            print("*** An unexpected error occurred starting the crawler.")
            return false
        }

        return true
    }
```
+  Untuk detail API, lihat referensi [StartCrawler AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/startcrawler(input:))*SDK untuk Swift API*. 

### `StartJobRun`
<a name="glue_StartJobRun_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartJobRun`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/glue#code-examples). 

```
import AWSClientRuntime
import AWSGlue

    /// Start an AWS Glue job run.
    /// 
    /// - Parameters:
    ///   - glueClient: The AWS Glue client to use.
    ///   - jobName: The name of the job to run.
    ///   - databaseName: The name of the AWS Glue database to run the job against.
    ///   - tableName: The name of the table in the database to run the job against.
    ///   - outputURL: The AWS S3 URI of the bucket location into which to
    ///     write the resulting output.
    ///
    /// - Returns: `true` if the job run is started successfully, otherwise `false`.
    func startJobRun(glueClient: GlueClient, name jobName: String, databaseName: String,
                     tableName: String, outputURL: String) async -> String? {
        do {
            let output = try await glueClient.startJobRun(
                input: StartJobRunInput(
                    arguments: [
                        "--input_database": databaseName,
                        "--input_table": tableName,
                        "--output_bucket_url": outputURL
                    ],
                    jobName: jobName,
                    numberOfWorkers: 10,
                    workerType: .g1x
                )
            )

            guard let id = output.jobRunId else {
                return nil
            }

            return id
        } catch {
            return nil
        }
    }
```
+  Untuk detail API, lihat referensi [StartJobRun AWS](https://sdk.amazonaws.com/swift/api/awsglue/latest/documentation/awsglue/glueclient/startjobrun(input:))*SDK untuk Swift API*. 

# Contoh IAM menggunakan SDK untuk Swift
<a name="swift_1_iam_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Swift dengan IAM.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AttachRolePolicy`
<a name="iam_AttachRolePolicy_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AttachRolePolicy`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func attachRolePolicy(role: String, policyArn: String) async throws {
        let input = AttachRolePolicyInput(
            policyArn: policyArn,
            roleName: role
        )
        do {
            _ = try await client.attachRolePolicy(input: input)
        } catch {
            print("ERROR: Attaching a role policy:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [AttachRolePolicy AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/attachrolepolicy(input:))*SDK untuk Swift API*. 

### `CreateAccessKey`
<a name="iam_CreateAccessKey_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateAccessKey`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func createAccessKey(userName: String) async throws -> IAMClientTypes.AccessKey {
        let input = CreateAccessKeyInput(
            userName: userName
        )
        do {
            let output = try await iamClient.createAccessKey(input: input)
            guard let accessKey = output.accessKey else {
                throw ServiceHandlerError.keyError
            }
            return accessKey
        } catch {
            print("ERROR: createAccessKey:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [CreateAccessKey AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/createaccesskey(input:))*SDK untuk Swift API*. 

### `CreatePolicy`
<a name="iam_CreatePolicy_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreatePolicy`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func createPolicy(name: String, policyDocument: String) async throws -> IAMClientTypes.Policy {
        let input = CreatePolicyInput(
            policyDocument: policyDocument,
            policyName: name
        )
        do {
            let output = try await iamClient.createPolicy(input: input)
            guard let policy = output.policy else {
                throw ServiceHandlerError.noSuchPolicy
            }
            return policy
        } catch {
            print("ERROR: createPolicy:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [CreatePolicy AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/createpolicy(input:))*SDK untuk Swift API*. 

### `CreateRole`
<a name="iam_CreateRole_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateRole`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func createRole(name: String, policyDocument: String) async throws -> String {
        let input = CreateRoleInput(
            assumeRolePolicyDocument: policyDocument,
            roleName: name
        )
        do {
            let output = try await client.createRole(input: input)
            guard let role = output.role else {
                throw ServiceHandlerError.noSuchRole
            }
            guard let id = role.roleId else {
                throw ServiceHandlerError.noSuchRole
            }
            return id
        } catch {
            print("ERROR: createRole:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [CreateRole AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/createrole(input:))*SDK untuk Swift API*. 

### `CreateServiceLinkedRole`
<a name="iam_CreateServiceLinkedRole_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateServiceLinkedRole`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func createServiceLinkedRole(service: String, suffix: String? = nil, description: String?)
                    async throws -> IAMClientTypes.Role {
        let input = CreateServiceLinkedRoleInput(
            awsServiceName: service,
            customSuffix: suffix,
            description: description
        )
        do {
            let output = try await client.createServiceLinkedRole(input: input)
            guard let role = output.role else {
                throw ServiceHandlerError.noSuchRole
            }
            return role
        } catch {
            print("ERROR: createServiceLinkedRole:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [CreateServiceLinkedRole AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/createservicelinkedrole(input:))*SDK untuk Swift API*. 

### `CreateUser`
<a name="iam_CreateUser_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateUser`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func createUser(name: String) async throws -> String {
        let input = CreateUserInput(
            userName: name
        )
        do {
            let output = try await client.createUser(input: input)
            guard let user = output.user else {
                throw ServiceHandlerError.noSuchUser
            }
            guard let id = user.userId else {
                throw ServiceHandlerError.noSuchUser
            }
            return id
        } catch {
            print("ERROR: createUser:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [CreateUser AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/createuser(input:))*SDK untuk Swift API*. 

### `DeleteAccessKey`
<a name="iam_DeleteAccessKey_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteAccessKey`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func deleteAccessKey(user: IAMClientTypes.User? = nil,
                                key: IAMClientTypes.AccessKey) async throws
    {
        let userName: String?

        if user != nil {
            userName = user!.userName
        } else {
            userName = nil
        }

        let input = DeleteAccessKeyInput(
            accessKeyId: key.accessKeyId,
            userName: userName
        )
        do {
            _ = try await iamClient.deleteAccessKey(input: input)
        } catch {
            print("ERROR: deleteAccessKey:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteAccessKey AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/deleteaccesskey(input:))*SDK untuk Swift API*. 

### `DeletePolicy`
<a name="iam_DeletePolicy_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeletePolicy`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func deletePolicy(policy: IAMClientTypes.Policy) async throws {
        let input = DeletePolicyInput(
            policyArn: policy.arn
        )
        do {
            _ = try await iamClient.deletePolicy(input: input)
        } catch {
            print("ERROR: deletePolicy:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeletePolicy AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/deletepolicy(input:))*SDK untuk Swift API*. 

### `DeleteRole`
<a name="iam_DeleteRole_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteRole`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func deleteRole(role: IAMClientTypes.Role) async throws {
        let input = DeleteRoleInput(
            roleName: role.roleName
        )
        do {
            _ = try await iamClient.deleteRole(input: input)
        } catch {
            print("ERROR: deleteRole:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteRole AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/deleterole(input:))*SDK untuk Swift API*. 

### `DeleteUser`
<a name="iam_DeleteUser_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUser`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func deleteUser(user: IAMClientTypes.User) async throws {
        let input = DeleteUserInput(
            userName: user.userName
        )
        do {
            _ = try await iamClient.deleteUser(input: input)
        } catch {
            print("ERROR: deleteUser:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteUser AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/deleteuser(input:))*SDK untuk Swift API*. 

### `DeleteUserPolicy`
<a name="iam_DeleteUserPolicy_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteUserPolicy`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    func deleteUserPolicy(user: IAMClientTypes.User, policyName: String) async throws {
        let input = DeleteUserPolicyInput(
            policyName: policyName,
            userName: user.userName
        )
        do {
            _ = try await iamClient.deleteUserPolicy(input: input)
        } catch {
            print("ERROR: deleteUserPolicy:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteUserPolicy AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/deleteuserpolicy(input:))*SDK untuk Swift API*. 

### `DetachRolePolicy`
<a name="iam_DetachRolePolicy_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DetachRolePolicy`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func detachRolePolicy(policy: IAMClientTypes.Policy, role: IAMClientTypes.Role) async throws {
        let input = DetachRolePolicyInput(
            policyArn: policy.arn,
            roleName: role.roleName
        )

        do {
            _ = try await iamClient.detachRolePolicy(input: input)
        } catch {
            print("ERROR: detachRolePolicy:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DetachRolePolicy AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/detachrolepolicy(input:))*SDK untuk Swift API*. 

### `GetPolicy`
<a name="iam_GetPolicy_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetPolicy`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func getPolicy(arn: String) async throws -> IAMClientTypes.Policy {
        let input = GetPolicyInput(
            policyArn: arn
        )
        do {
            let output = try await client.getPolicy(input: input)
            guard let policy = output.policy else {
                throw ServiceHandlerError.noSuchPolicy
            }
            return policy
        } catch {
            print("ERROR: getPolicy:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [GetPolicy AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/getpolicy(input:))*SDK untuk Swift API*. 

### `GetRole`
<a name="iam_GetRole_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetRole`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func getRole(name: String) async throws -> IAMClientTypes.Role {
        let input = GetRoleInput(
            roleName: name
        )
        do {
            let output = try await client.getRole(input: input)
            guard let role = output.role else {
                throw ServiceHandlerError.noSuchRole
            }
            return role
        } catch {
            print("ERROR: getRole:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [GetRole AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/getrole(input:))*SDK untuk Swift API*. 

### `GetUser`
<a name="iam_GetUser_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetUser`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func getUser(name: String? = nil) async throws -> IAMClientTypes.User {
        let input = GetUserInput(
            userName: name
        )
        do {
            let output = try await iamClient.getUser(input: input)
            guard let user = output.user else {
                throw ServiceHandlerError.noSuchUser
            }
            return user
        } catch {
            print("ERROR: getUser:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [GetUser AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/getuser(input:))*SDK untuk Swift API*. 

### `ListAttachedRolePolicies`
<a name="iam_ListAttachedRolePolicies_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListAttachedRolePolicies`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3



    /// Returns a list of AWS Identity and Access Management (IAM) policies
    /// that are attached to the role.
    ///
    /// - Parameter role: The IAM role to return the policy list for.
    ///
    /// - Returns: An array of `IAMClientTypes.AttachedPolicy` objects
    ///   describing each managed policy that's attached to the role.
    public func listAttachedRolePolicies(role: String) async throws -> [IAMClientTypes.AttachedPolicy] {
        var policyList: [IAMClientTypes.AttachedPolicy] = []

        // Use "Paginated" to get all the attached role polices.
        // This lets the SDK handle the 'isTruncated' in "ListAttachedRolePoliciesOutput".
        let input = ListAttachedRolePoliciesInput(
            roleName: role
        )
        let output = client.listAttachedRolePoliciesPaginated(input: input)

        do {
            for try await page in output {
                guard let attachedPolicies = page.attachedPolicies else {
                    print("Error: no attached policies returned.")
                    continue
                }
                for attachedPolicy in attachedPolicies {
                    policyList.append(attachedPolicy)
                }
            }
        } catch {
            print("ERROR: listAttachedRolePolicies:", dump(error))
            throw error
        }

        return policyList
    }
```
+  Untuk detail API, lihat referensi [ListAttachedRolePolicies AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/listattachedrolepolicies(input:))*SDK untuk Swift API*. 

### `ListGroups`
<a name="iam_ListGroups_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListGroups`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func listGroups() async throws -> [String] {
        var groupList: [String] = []

        // Use "Paginated" to get all the groups.
        // This lets the SDK handle the 'isTruncated' property in "ListGroupsOutput".
        let input = ListGroupsInput()

        let pages = client.listGroupsPaginated(input: input)
        do {
            for try await page in pages {
                guard let groups = page.groups else {
                    print("Error: no groups returned.")
                    continue
                }

                for group in groups {
                    if let name = group.groupName {
                        groupList.append(name)
                    }
                }
            }
        } catch {
            print("ERROR: listGroups:", dump(error))
            throw error
        }
        return groupList
    }
```
+  Untuk detail API, lihat referensi [ListGroups AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/listgroups(input:))*SDK untuk Swift API*. 

### `ListPolicies`
<a name="iam_ListPolicies_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListPolicies`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func listPolicies() async throws -> [MyPolicyRecord] {
        var policyList: [MyPolicyRecord] = []

        // Use "Paginated" to get all the policies.
        // This lets the SDK handle the 'isTruncated' in "ListPoliciesOutput".
        let input = ListPoliciesInput()
        let output = client.listPoliciesPaginated(input: input)

        do {
            for try await page in output {
                guard let policies = page.policies else {
                    print("Error: no policies returned.")
                    continue
                }

                for policy in policies {
                    guard let name = policy.policyName,
                          let id = policy.policyId,
                          let arn = policy.arn
                    else {
                        throw ServiceHandlerError.noSuchPolicy
                    }
                    policyList.append(MyPolicyRecord(name: name, id: id, arn: arn))
                }
            }
        } catch {
            print("ERROR: listPolicies:", dump(error))
            throw error
        }

        return policyList
    }
```
+  Untuk detail API, lihat referensi [ListPolicies AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/listpolicies(input:))*SDK untuk Swift API*. 

### `ListRolePolicies`
<a name="iam_ListRolePolicies_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRolePolicies`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func listRolePolicies(role: String) async throws -> [String] {
        var policyList: [String] = []

        // Use "Paginated" to get all the role policies.
        // This lets the SDK handle the 'isTruncated' in "ListRolePoliciesOutput".
        let input = ListRolePoliciesInput(
            roleName: role
        )
        let pages = client.listRolePoliciesPaginated(input: input)

        do {
            for try await page in pages {
                guard let policies = page.policyNames else {
                    print("Error: no role policies returned.")
                    continue
                }

                for policy in policies {
                    policyList.append(policy)
                }
            }
        } catch {
            print("ERROR: listRolePolicies:", dump(error))
            throw error
        }
        return policyList
    }
```
+  Untuk detail API, lihat referensi [ListRolePolicies AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/listrolepolicies(input:))*SDK untuk Swift API*. 

### `ListRoles`
<a name="iam_ListRoles_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListRoles`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func listRoles() async throws -> [String] {
        var roleList: [String] = []

        // Use "Paginated" to get all the roles.
        // This lets the SDK handle the 'isTruncated' in "ListRolesOutput".
        let input = ListRolesInput()
        let pages = client.listRolesPaginated(input: input)

        do {
            for try await page in pages {
                guard let roles = page.roles else {
                    print("Error: no roles returned.")
                    continue
                }

                for role in roles {
                    if let name = role.roleName {
                        roleList.append(name)
                    }
                }
            }
        } catch {
            print("ERROR: listRoles:", dump(error))
            throw error
        }
        return roleList
    }
```
+  Untuk detail API, lihat referensi [ListRoles AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/listroles(input:))*SDK untuk Swift API*. 

### `ListUsers`
<a name="iam_ListUsers_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListUsers`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    public func listUsers() async throws -> [MyUserRecord] {
        var userList: [MyUserRecord] = []
        
        // Use "Paginated" to get all the users.
        // This lets the SDK handle the 'isTruncated' in "ListUsersOutput".
        let input = ListUsersInput()
        let output = client.listUsersPaginated(input: input)

        do {
            for try await page in output {
                guard let users = page.users else {
                    continue
                }
                for user in users {
                    if let id = user.userId, let name = user.userName {
                        userList.append(MyUserRecord(id: id, name: name))
                    }
                }
            }
        }
        catch {
            print("ERROR: listUsers:", dump(error))
            throw error
        }
       return userList
    }
```
+  Untuk detail API, lihat referensi [ListUsers AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/listusers(input:))*SDK untuk Swift API*. 

### `PutUserPolicy`
<a name="iam_PutUserPolicy_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutUserPolicy`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSIAM
import AWSS3


    func putUserPolicy(policyDocument: String, policyName: String, user: IAMClientTypes.User) async throws {
        let input = PutUserPolicyInput(
            policyDocument: policyDocument,
            policyName: policyName,
            userName: user.userName
        )
        do {
            _ = try await iamClient.putUserPolicy(input: input)
        } catch {
            print("ERROR: putUserPolicy:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [PutUserPolicy AWS](https://sdk.amazonaws.com/swift/api/awsiam/latest/documentation/awsiam/iamclient/putuserpolicy(input:))*SDK untuk Swift API*. 

# Contoh Lambda menggunakan SDK untuk Swift
<a name="swift_1_lambda_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Lambda.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="lambda_Scenario_GettingStartedFunctions_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat peran IAM dan fungsi Lambda, lalu unggah kode handler.
+ Panggil fungsi dengan satu parameter dan dapatkan hasil.
+ Perbarui kode fungsi dan konfigurasikan dengan variabel lingkungan.
+ Panggil fungsi dengan parameter baru dan dapatkan hasil. Tampilkan log eksekusi yang dikembalikan.
+ Buat daftar fungsi untuk akun Anda, lalu bersihkan sumber daya.

Untuk informasi selengkapnya, lihat [Membuat fungsi Lambda dengan konsol.](https://docs.aws.amazon.com/lambda/latest/dg/getting-started-create-function.html)

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/lambda/basics#code-examples). 
Tentukan fungsi Lambda pertama, yang hanya menambah nilai yang ditentukan.  

```
// swift-tools-version: 5.9
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
//
// The swift-tools-version declares the minimum version of Swift required to
// build this package.

import PackageDescription

let package = Package(
    name: "increment",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/swift-server/swift-aws-lambda-runtime.git",
            branch: "main"),
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "increment",
            dependencies: [
                .product(name: "AWSLambdaRuntime", package: "swift-aws-lambda-runtime"),
            ],
            path: "Sources"
        )
    ]
)

import Foundation
import AWSLambdaRuntime

/// Represents the contents of the requests being received from the client.
/// This structure must be `Decodable` to indicate that its initializer
/// converts an external representation into this type.
struct Request: Decodable, Sendable {
    /// The action to perform.
    let action: String
    /// The number to act upon.
    let number: Int
}

/// The contents of the response sent back to the client. This must be
/// `Encodable`.
struct Response: Encodable, Sendable {
    /// The resulting value after performing the action.
    let answer: Int?
}


/// The Lambda function body.
///
/// - Parameters:
///   - event: The `Request` describing the request made by the
///     client.
///   - context: A `LambdaContext` describing the context in
///     which the lambda function is running.
///
/// - Returns: A `Response` object that will be encoded to JSON and sent
///   to the client by the Lambda runtime.
let incrementLambdaRuntime = LambdaRuntime {
        (event: Request, context: LambdaContext) -> Response in
    let action = event.action
    var answer: Int?

    if action != "increment" {
        context.logger.error("Unrecognized operation: \"\(action)\". The only supported action is \"increment\".")
    } else {
        answer = event.number + 1
        context.logger.info("The calculated answer is \(answer!).")
    }

    let response = Response(answer: answer)
    return response
}

// Run the Lambda runtime code.

try await incrementLambdaRuntime.run()
```
Tentukan fungsi Lambda kedua, yang melakukan operasi aritmatika pada dua angka.  

```
// swift-tools-version: 5.9
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
//
// The swift-tools-version declares the minimum version of Swift required to
// build this package.

import PackageDescription

let package = Package(
    name: "calculator",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/swift-server/swift-aws-lambda-runtime.git",
            branch: "main"),
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "calculator",
            dependencies: [
                .product(name: "AWSLambdaRuntime", package: "swift-aws-lambda-runtime"),
            ],
            path: "Sources"
        )
    ]
)

import Foundation
import AWSLambdaRuntime

/// Represents the contents of the requests being received from the client.
/// This structure must be `Decodable` to indicate that its initializer
/// converts an external representation into this type.
struct Request: Decodable, Sendable {
    /// The action to perform.
    let action: String
    /// The first number to act upon.
    let x: Int
    /// The second number to act upon.
    let y: Int
}

/// A dictionary mapping operation names to closures that perform that
/// operation and return the result.
let actions = [
    "plus": { (x: Int, y: Int) -> Int in
        return x + y
    },
    "minus": { (x: Int, y: Int) -> Int in
        return x - y
    },
    "times": { (x: Int, y: Int) -> Int in
        return x * y
    },
    "divided-by": { (x: Int, y: Int) -> Int in
        return x / y
    }
]

/// The contents of the response sent back to the client. This must be
/// `Encodable`.
struct Response: Encodable, Sendable {
    /// The resulting value after performing the action.
    let answer: Int?
}


/// The Lambda function's entry point. Called by the Lambda runtime.
///
/// - Parameters:
///   - event: The `Request` describing the request made by the
///     client.
///   - context: A `LambdaContext` describing the context in
///     which the lambda function is running.
///
/// - Returns: A `Response` object that will be encoded to JSON and sent
///   to the client by the Lambda runtime.
let calculatorLambdaRuntime = LambdaRuntime {
        (_ event: Request, context: LambdaContext) -> Response in
    let action = event.action
    var answer: Int?
    var actionFunc: ((Int, Int) -> Int)?

    // Get the closure to run to perform the calculation.

    actionFunc = await actions[action]

    guard let actionFunc else {
        context.logger.error("Unrecognized operation '\(action)\'")
        return Response(answer: nil)
    }

    // Perform the calculation and return the answer.

    answer = actionFunc(event.x, event.y)

    guard let answer else {
        context.logger.error("Error computing \(event.x) \(action) \(event.y)")
    }
    context.logger.info("\(event.x) \(action) \(event.y) = \(answer)")

    return Response(answer: answer)
}

try await calculatorLambdaRuntime.run()
```
Tentukan program utama yang akan memanggil dua fungsi Lambda.  

```
// swift-tools-version: 5.9
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
//
// The swift-tools-version declares the minimum version of Swift required to
// build this package.

import PackageDescription

let package = Package(
    name: "lambda-basics",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/awslabs/aws-sdk-swift",
            from: "1.0.0"),
        .package(
            url: "https://github.com/apple/swift-argument-parser.git",
            branch: "main"
        )
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "lambda-basics",
            dependencies: [
                .product(name: "AWSLambda", package: "aws-sdk-swift"),
                .product(name: "AWSIAM", package: "aws-sdk-swift"),
                .product(name: "ArgumentParser", package: "swift-argument-parser")
            ],
            path: "Sources"
        )
    ]
)

//
/// An example demonstrating a variety of important AWS Lambda functions.

import ArgumentParser
import AWSIAM
import SmithyWaitersAPI
import AWSClientRuntime
import AWSLambda
import Foundation

/// Represents the contents of the requests being received from the client.
/// This structure must be `Decodable` to indicate that its initializer
/// converts an external representation into this type.
struct IncrementRequest: Encodable, Decodable, Sendable {
    /// The action to perform.
    let action: String
    /// The number to act upon.
    let number: Int
}

struct Response: Encodable, Decodable, Sendable {
    /// The resulting value after performing the action.
    let answer: Int?
}

struct CalculatorRequest: Encodable, Decodable, Sendable {
    /// The action to perform.
    let action: String
    /// The first number to act upon.
    let x: Int
    /// The second number to act upon.
    let y: Int
}

let exampleName = "SwiftLambdaRoleExample"
let basicsFunctionName = "lambda-basics-function"

/// The ARN of the standard IAM policy for execution of Lambda functions.
let policyARN = "arn:aws:iam::aws:policy/service-role/AWSLambdaBasicExecutionRole"

struct ExampleCommand: ParsableCommand {
    // -MARK: Command arguments
    @Option(help: "Name of the IAM Role to use for the Lambda functions")
    var role = exampleName
    @Option(help: "Zip archive containing the 'increment' lambda function")
    var incpath: String
    @Option(help: "Zip archive containing the 'calculator' lambda function")
    var calcpath: String
    @Option(help: "Name of the Amazon S3 Region to use (default: us-east-1)")
    var region = "us-east-1"

    static var configuration = CommandConfiguration(
        commandName: "lambda-basics",
        abstract: """
        This example demonstrates several common operations using AWS Lambda.
        """,
        discussion: """
        """
    )

    /// Returns the specified IAM role object.
    /// 
    /// - Parameters:
    ///   - iamClient: `IAMClient` to use when looking for the role.
    ///   - roleName: The name of the role to check.
    ///
    /// - Returns: The `IAMClientTypes.Role` representing the specified role.
    func getRole(iamClient: IAMClient, roleName: String) async throws
                 -> IAMClientTypes.Role {
        do {
            let roleOutput = try await iamClient.getRole(
                input: GetRoleInput(
                    roleName: roleName
                )
            )

            guard let role = roleOutput.role else {
                throw ExampleError.roleNotFound
            }
            return role
        } catch {
            throw ExampleError.roleNotFound
        }
    }

    /// Create the AWS IAM role that will be used to access AWS Lambda.
    /// 
    /// - Parameters:
    ///   - iamClient: The AWS `IAMClient` to use.
    ///   - roleName: The name of the AWS IAM role to use for Lambda.
    ///
    /// - Throws: `ExampleError.roleCreateError`
    ///
    /// - Returns: The `IAMClientTypes.Role` struct that describes the new role.
    func createRoleForLambda(iamClient: IAMClient, roleName: String) async throws -> IAMClientTypes.Role {
        let output = try await iamClient.createRole(
            input: CreateRoleInput(
                assumeRolePolicyDocument:
                """
                {
                    "Version":"2012-10-17",		 	 	 
                    "Statement": [
                        {
                            "Effect": "Allow",
                            "Principal": {"Service": "lambda.amazonaws.com"},
                            "Action": "sts:AssumeRole"
                        }
                    ]
                }
                """,
                roleName: roleName
            )
        )

        guard let role = output.role else {
            throw ExampleError.roleCreateError
        }

        // Wait for the role to be ready for use.

        _ = try await iamClient.waitUntilRoleExists(
            options: WaiterOptions(
                maxWaitTime: 20,
                minDelay: 0.5,
                maxDelay: 2
            ),
            input: GetRoleInput(roleName: roleName)
        )

        return role
    }

    /// Detect whether or not the AWS Lambda function with the specified name
    /// exists, by requesting its function information.
    ///
    /// - Parameters:
    ///   - lambdaClient: The `LambdaClient` to use.
    ///   - name: The name of the AWS Lambda function to find.
    ///
    /// - Returns: `true` if the Lambda function exists. Otherwise `false`.
    func doesLambdaFunctionExist(lambdaClient: LambdaClient, name: String) async -> Bool {
        do {
            _ = try await lambdaClient.getFunction(
                input: GetFunctionInput(functionName: name)
            )
        } catch {
            return false
        }

        return true
    }

    /// Create the specified AWS Lambda function.
    /// 
    /// - Parameters:
    ///   - lambdaClient: The `LambdaClient` to use.
    ///   - functionName: The name of the AWS Lambda function to create.
    ///   - roleArn: The ARN of the role to apply to the function.
    ///   - path: The path of the Zip archive containing the function.
    /// 
    /// - Returns: `true` if the AWS Lambda was successfully created; `false`
    ///   if it wasn't.
    func createFunction(lambdaClient: LambdaClient, functionName: String,
                                roleArn: String?, path: String) async throws -> Bool {
        do {
            // Read the Zip archive containing the AWS Lambda function.

            let zipUrl = URL(fileURLWithPath: path)
            let zipData = try Data(contentsOf: zipUrl)

            // Create the AWS Lambda function that runs the specified code,
            // using the name given on the command line. The Lambda function
            // will run using the Amazon Linux 2 runtime.

            _ = try await lambdaClient.createFunction(
                input: CreateFunctionInput(
                    code: LambdaClientTypes.FunctionCode(zipFile: zipData),
                    functionName: functionName,
                    handler: "handle",
                    role: roleArn,
                    runtime: .providedal2
                )
            )
        } catch {
            print("*** Error creating Lambda function:")
            dump(error)
            return false
        }

        // Wait for a while to be sure the function is done being created.

        let output = try await lambdaClient.waitUntilFunctionActiveV2(
            options: WaiterOptions(
                maxWaitTime: 20,
                minDelay: 0.5,
                maxDelay: 2
            ),
            input: GetFunctionInput(functionName: functionName)
        )

        switch output.result {
            case .success:
                return true
            case .failure:
                return false
        }
    }

    /// Update the AWS Lambda function with new code to run when the function
    /// is invoked.
    /// 
    /// - Parameters:
    ///   - lambdaClient: The `LambdaClient` to use.
    ///   - functionName: The name of the AWS Lambda function to update.
    ///   - path: The pathname of the Zip file containing the packaged Lambda
    ///     function.
    /// - Throws: `ExampleError.zipFileReadError`
    /// - Returns: `true` if the function's code is updated successfully.
    ///   Otherwise, returns `false`.
    func updateFunctionCode(lambdaClient: LambdaClient, functionName: String,
                            path: String) async throws -> Bool {
        let zipUrl = URL(fileURLWithPath: path)
        let zipData: Data

        // Read the function's Zip file.

        do {
            zipData = try Data(contentsOf: zipUrl)
        } catch {
            throw ExampleError.zipFileReadError
        }

        // Update the function's code and wait for the updated version to be
        // ready for use.

        do {
            _ = try await lambdaClient.updateFunctionCode(
                input: UpdateFunctionCodeInput(
                    functionName: functionName,
                    zipFile: zipData
                )
            )
        } catch {
            return false
        }

        let output = try await lambdaClient.waitUntilFunctionUpdatedV2(
            options: WaiterOptions(
                maxWaitTime: 20,
                minDelay: 0.5,
                maxDelay: 2
            ),
            input: GetFunctionInput(
                functionName: functionName
            )
        )

        switch output.result {
            case .success:
                return true
            case .failure:
                return false
        }
    }

    /// Tell the server-side component to log debug output by setting its
    /// environment's `LOG_LEVEL` to `DEBUG`.
    ///
    /// - Parameters:
    ///   - lambdaClient: The `LambdaClient` to use.
    ///   - functionName: The name of the AWS Lambda function to enable debug
    ///     logging for.
    ///
    /// - Throws: `ExampleError.environmentResponseMissingError`,
    ///   `ExampleError.updateFunctionConfigurationError`,
    ///   `ExampleError.environmentVariablesMissingError`,
    ///   `ExampleError.logLevelIncorrectError`,
    ///   `ExampleError.updateFunctionConfigurationError`
    func enableDebugLogging(lambdaClient: LambdaClient, functionName: String) async throws {
        let envVariables = [
            "LOG_LEVEL": "DEBUG"
        ]
        let environment = LambdaClientTypes.Environment(variables: envVariables)

        do {
            let output = try await lambdaClient.updateFunctionConfiguration(
                input: UpdateFunctionConfigurationInput(
                    environment: environment,
                    functionName: functionName
                )
            )

            guard let response = output.environment else {
                throw ExampleError.environmentResponseMissingError
            }

            if response.error != nil {
                throw ExampleError.updateFunctionConfigurationError
            }

            guard let retVariables = response.variables else {
                throw ExampleError.environmentVariablesMissingError
            }

            for envVar in retVariables {
                if envVar.key == "LOG_LEVEL" && envVar.value != "DEBUG" {
                    print("*** Log level is not set to DEBUG!")
                    throw ExampleError.logLevelIncorrectError
                }
            }
        } catch {
            throw ExampleError.updateFunctionConfigurationError
        }
    }

    /// Returns an array containing the names of all AWS Lambda functions
    /// available to the user.
    ///
    /// - Parameter lambdaClient: The `IAMClient` to use.
    ///
    /// - Throws: `ExampleError.listFunctionsError`
    ///
    /// - Returns: An array of lambda function name strings.
    func getFunctionNames(lambdaClient: LambdaClient) async throws -> [String] {
        let pages = lambdaClient.listFunctionsPaginated(
            input: ListFunctionsInput()
        )

        var functionNames: [String] = []

        for try await page in pages {
            guard let functions = page.functions else {
                throw ExampleError.listFunctionsError
            }

            for function in functions {
                functionNames.append(function.functionName ?? "<unknown>")
            }
        }

        return functionNames
    }

    /// Invoke the Lambda function to increment a value.
    /// 
    /// - Parameters:
    ///   - lambdaClient: The `IAMClient` to use.
    ///   - number: The number to increment.
    ///
    /// - Throws: `ExampleError.noAnswerReceived`, `ExampleError.invokeError`
    ///
    /// - Returns: An integer number containing the incremented value.
    func invokeIncrement(lambdaClient: LambdaClient, number: Int) async throws -> Int {
        do {
            let incRequest = IncrementRequest(action: "increment", number: number)
            let incData = try! JSONEncoder().encode(incRequest)

            // Invoke the lambda function.

            let invokeOutput = try await lambdaClient.invoke(
                input: InvokeInput(
                    functionName: "lambda-basics-function",
                    payload: incData
                )
            )

            let response = try! JSONDecoder().decode(Response.self, from:invokeOutput.payload!)

            guard let answer = response.answer else {
                throw ExampleError.noAnswerReceived
            }
            return answer

        } catch {
            throw ExampleError.invokeError
        }
    }

    /// Invoke the calculator Lambda function.
    /// 
    /// - Parameters:
    ///   - lambdaClient: The `IAMClient` to use.
    ///   - action: Which arithmetic operation to perform: "plus", "minus",
    ///     "times", or "divided-by".
    ///   - x: The first number to use in the computation.
    ///   - y: The second number to use in the computation.
    ///
    /// - Throws: `ExampleError.noAnswerReceived`, `ExampleError.invokeError`
    ///
    /// - Returns: The computed answer as an `Int`.
    func invokeCalculator(lambdaClient: LambdaClient, action: String, x: Int, y: Int) async throws -> Int {
        do {
            let calcRequest = CalculatorRequest(action: action, x: x, y: y)
            let calcData = try! JSONEncoder().encode(calcRequest)

            // Invoke the lambda function.

            let invokeOutput = try await lambdaClient.invoke(
                input: InvokeInput(
                    functionName: "lambda-basics-function",
                    payload: calcData
                )
            )

            let response = try! JSONDecoder().decode(Response.self, from:invokeOutput.payload!)
            
            guard let answer = response.answer else {
                throw ExampleError.noAnswerReceived
            }
            return answer

        } catch {
            throw ExampleError.invokeError
        }

    }

    /// Perform the example's tasks.
    func basics() async throws {
        let iamClient = try await IAMClient(
            config: IAMClient.IAMClientConfiguration(region: region)
        )

        let lambdaClient = try await LambdaClient(
            config: LambdaClient.LambdaClientConfiguration(region: region)
        )

        /// The IAM role to use for the example.
        var iamRole: IAMClientTypes.Role
        
        // Look for the specified role. If it already exists, use it. If not,
        // create it and attach the desired policy to it.

        do {
            iamRole = try await getRole(iamClient: iamClient, roleName: role)
        } catch ExampleError.roleNotFound {
            // The role wasn't found, so create it and attach the needed
            // policy.
            
            iamRole = try await createRoleForLambda(iamClient: iamClient, roleName: role)

            do {
                _ = try await iamClient.attachRolePolicy(
                    input: AttachRolePolicyInput(policyArn: policyARN, roleName: role)
                )
            } catch {
                throw ExampleError.policyError
            }
        }

        // Give the policy time to attach to the role.

        sleep(5)

        // Look to see if the function already exists. If it does, throw an
        // error.

        if await doesLambdaFunctionExist(lambdaClient: lambdaClient, name: basicsFunctionName) {
            throw ExampleError.functionAlreadyExists
        }

        // Create, then invoke, the "increment" version of the calculator
        // function.

        print("Creating the increment Lambda function...")
        if try await createFunction(lambdaClient: lambdaClient, functionName: basicsFunctionName, 
                                  roleArn: iamRole.arn, path: incpath) {
            print("Running increment function calls...")
            for number in 0...4 {
                do {
                    let answer = try await invokeIncrement(lambdaClient: lambdaClient, number: number)
                    print("Increment \(number) = \(answer)")
                } catch {
                    print("Error incrementing \(number): ", error.localizedDescription)
                }
            }
        } else {
            print("*** Failed to create the increment function.")
        }
        
        // Enable debug logging.

        print("\nEnabling debug logging...")
        try await enableDebugLogging(lambdaClient: lambdaClient, functionName: basicsFunctionName)

        // Change it to a basic arithmetic calculator. Then invoke it a few
        // times.

        print("\nReplacing the Lambda function with a calculator...")

        if try await updateFunctionCode(lambdaClient: lambdaClient, functionName: basicsFunctionName, 
                                    path: calcpath) {
            print("Running calculator function calls...")
            for x in [6, 10] {
                for y in [2, 4] {
                    for action in ["plus", "minus", "times", "divided-by"] {
                        do {
                            let answer = try await invokeCalculator(lambdaClient: lambdaClient, action: action, x: x, y: y)
                            print("\(x) \(action) \(y) = \(answer)")
                        } catch {
                            print("Error calculating \(x) \(action) \(y): ", error.localizedDescription)
                        }
                    }
                }
            }
        }

        // List all lambda functions.

        let functionNames = try await getFunctionNames(lambdaClient: lambdaClient)

        if functionNames.count > 0 {
            print("\nAWS Lambda functions available on your account:")
            for name in functionNames {
                print("  \(name)")
            }
        }

        // Delete the lambda function.

        print("Deleting lambda function...")
        
        do {
            _ = try await lambdaClient.deleteFunction(
                input: DeleteFunctionInput(
                    functionName: "lambda-basics-function"
                )
            )
        } catch {
            print("Error: Unable to delete the function.")
        }
        
        // Detach the role from the policy, then delete the role.

        print("Deleting the AWS IAM role...")

        do {
            _ = try await iamClient.detachRolePolicy(
                input: DetachRolePolicyInput(
                    policyArn: policyARN,
                    roleName: role
                )
            )
            _ = try await iamClient.deleteRole(
                input: DeleteRoleInput(
                    roleName: role
                )
            )
        } catch {
            throw ExampleError.deleteRoleError
        }
    }
}

// -MARK: - Entry point

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.basics()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}


/// Errors thrown by the example's functions.
enum ExampleError: Error {
    /// An AWS Lambda function with the specified name already exists.
    case functionAlreadyExists
    /// The specified role doesn't exist.
    case roleNotFound
    /// Unable to create the role.
    case roleCreateError
    /// Unable to delete the role.
    case deleteRoleError
    /// Unable to attach a policy to the role.
    case policyError
    /// Unable to get the executable directory.
    case executableNotFound
    /// An error occurred creating a lambda function.
    case createLambdaError
    /// An error occurred invoking the lambda function.
    case invokeError
    /// No answer received from the invocation.
    case noAnswerReceived
    /// Unable to list the AWS Lambda functions.
    case listFunctionsError
    /// Unable to update the AWS Lambda function.
    case updateFunctionError
    /// Unable to update the function configuration.
    case updateFunctionConfigurationError
    /// The environment response is missing after an
    /// UpdateEnvironmentConfiguration attempt.
    case environmentResponseMissingError
    /// The environment variables are missing from the EnvironmentResponse and
    /// no errors occurred.
    case environmentVariablesMissingError
    /// The log level is incorrect after attempting to set it.
    case logLevelIncorrectError
    /// Unable to load the AWS Lambda function's Zip file.
    case zipFileReadError

    var errorDescription: String? {
        switch self {
        case .functionAlreadyExists:
            return "An AWS Lambda function with that name already exists."
        case .roleNotFound:
            return "The specified role doesn't exist."
        case .deleteRoleError:
            return "Unable to delete the AWS IAM role."
        case .roleCreateError:
            return "Unable to create the specified role."
        case .policyError:
            return "An error occurred attaching the policy to the role."
        case .executableNotFound:
            return "Unable to find the executable program directory."
        case .createLambdaError:
            return "An error occurred creating a lambda function."
        case .invokeError:
            return "An error occurred invoking a lambda function."
        case .noAnswerReceived:
            return "No answer received from the lambda function."
        case .listFunctionsError:
            return "Unable to list the AWS Lambda functions."
        case .updateFunctionError:
            return "Unable to update the AWS lambda function."
        case .updateFunctionConfigurationError:
            return "Unable to update the AWS lambda function configuration."
        case .environmentResponseMissingError:
            return "The environment is missing from the response after updating the function configuration."
        case .environmentVariablesMissingError:
            return "While no error occurred, no environment variables were returned following function configuration."
        case .logLevelIncorrectError:
            return "The log level is incorrect after attempting to set it to DEBUG."
        case .zipFileReadError:
            return "Unable to read the AWS Lambda function."
        }
    }
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [CreateFunction](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/createfunction(input:))
  + [DeleteFunction](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/deletefunction(input:))
  + [GetFunction](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/getfunction(input:))
  + [Memohon](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/invoke(input:))
  + [ListFunctions](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/listfunctions(input:))
  + [UpdateFunctionCode](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/updatefunctioncode(input:))
  + [UpdateFunctionConfiguration](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/updatefunctionconfiguration(input:))

## Tindakan
<a name="actions"></a>

### `CreateFunction`
<a name="lambda_CreateFunction_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateFunction`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/lambda/basics#code-examples). 

```
import AWSClientRuntime
import AWSLambda
import Foundation

        do {
            // Read the Zip archive containing the AWS Lambda function.

            let zipUrl = URL(fileURLWithPath: path)
            let zipData = try Data(contentsOf: zipUrl)

            // Create the AWS Lambda function that runs the specified code,
            // using the name given on the command line. The Lambda function
            // will run using the Amazon Linux 2 runtime.

            _ = try await lambdaClient.createFunction(
                input: CreateFunctionInput(
                    code: LambdaClientTypes.FunctionCode(zipFile: zipData),
                    functionName: functionName,
                    handler: "handle",
                    role: roleArn,
                    runtime: .providedal2
                )
            )
        } catch {
            print("*** Error creating Lambda function:")
            dump(error)
            return false
        }
```
+  Untuk detail API, lihat referensi [CreateFunction AWS](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/createfunction(input:))*SDK untuk Swift API*. 

### `DeleteFunction`
<a name="lambda_DeleteFunction_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteFunction`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/lambda/basics#code-examples). 

```
import AWSClientRuntime
import AWSLambda
import Foundation

        do {
            _ = try await lambdaClient.deleteFunction(
                input: DeleteFunctionInput(
                    functionName: "lambda-basics-function"
                )
            )
        } catch {
            print("Error: Unable to delete the function.")
        }
```
+  Untuk detail API, lihat referensi [DeleteFunction AWS](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/deletefunction(input:))*SDK untuk Swift API*. 

### `GetFunction`
<a name="lambda_GetFunction_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetFunction`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/lambda/basics#code-examples). 

```
import AWSClientRuntime
import AWSLambda
import Foundation

    /// Detect whether or not the AWS Lambda function with the specified name
    /// exists, by requesting its function information.
    ///
    /// - Parameters:
    ///   - lambdaClient: The `LambdaClient` to use.
    ///   - name: The name of the AWS Lambda function to find.
    ///
    /// - Returns: `true` if the Lambda function exists. Otherwise `false`.
    func doesLambdaFunctionExist(lambdaClient: LambdaClient, name: String) async -> Bool {
        do {
            _ = try await lambdaClient.getFunction(
                input: GetFunctionInput(functionName: name)
            )
        } catch {
            return false
        }

        return true
    }
```
+  Untuk detail API, lihat referensi [GetFunction AWS](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/getfunction(input:))*SDK untuk Swift API*. 

### `Invoke`
<a name="lambda_Invoke_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Invoke`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/lambda/basics#code-examples). 

```
import AWSClientRuntime
import AWSLambda
import Foundation

    /// Invoke the Lambda function to increment a value.
    /// 
    /// - Parameters:
    ///   - lambdaClient: The `IAMClient` to use.
    ///   - number: The number to increment.
    ///
    /// - Throws: `ExampleError.noAnswerReceived`, `ExampleError.invokeError`
    ///
    /// - Returns: An integer number containing the incremented value.
    func invokeIncrement(lambdaClient: LambdaClient, number: Int) async throws -> Int {
        do {
            let incRequest = IncrementRequest(action: "increment", number: number)
            let incData = try! JSONEncoder().encode(incRequest)

            // Invoke the lambda function.

            let invokeOutput = try await lambdaClient.invoke(
                input: InvokeInput(
                    functionName: "lambda-basics-function",
                    payload: incData
                )
            )

            let response = try! JSONDecoder().decode(Response.self, from:invokeOutput.payload!)

            guard let answer = response.answer else {
                throw ExampleError.noAnswerReceived
            }
            return answer

        } catch {
            throw ExampleError.invokeError
        }
    }
```
+  Untuk detail API, lihat [Memanggil](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/invoke(input:)) di *AWS SDK untuk referensi Swift* API. 

### `ListFunctions`
<a name="lambda_ListFunctions_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListFunctions`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/lambda/basics#code-examples). 

```
import AWSClientRuntime
import AWSLambda
import Foundation

    /// Returns an array containing the names of all AWS Lambda functions
    /// available to the user.
    ///
    /// - Parameter lambdaClient: The `IAMClient` to use.
    ///
    /// - Throws: `ExampleError.listFunctionsError`
    ///
    /// - Returns: An array of lambda function name strings.
    func getFunctionNames(lambdaClient: LambdaClient) async throws -> [String] {
        let pages = lambdaClient.listFunctionsPaginated(
            input: ListFunctionsInput()
        )

        var functionNames: [String] = []

        for try await page in pages {
            guard let functions = page.functions else {
                throw ExampleError.listFunctionsError
            }

            for function in functions {
                functionNames.append(function.functionName ?? "<unknown>")
            }
        }

        return functionNames
    }
```
+  Untuk detail API, lihat referensi [ListFunctions AWS](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/listfunctions(input:))*SDK untuk Swift API*. 

### `UpdateFunctionCode`
<a name="lambda_UpdateFunctionCode_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionCode`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/lambda/basics#code-examples). 

```
import AWSClientRuntime
import AWSLambda
import Foundation

        let zipUrl = URL(fileURLWithPath: path)
        let zipData: Data

        // Read the function's Zip file.

        do {
            zipData = try Data(contentsOf: zipUrl)
        } catch {
            throw ExampleError.zipFileReadError
        }

        // Update the function's code and wait for the updated version to be
        // ready for use.

        do {
            _ = try await lambdaClient.updateFunctionCode(
                input: UpdateFunctionCodeInput(
                    functionName: functionName,
                    zipFile: zipData
                )
            )
        } catch {
            return false
        }
```
+  Untuk detail API, lihat referensi [UpdateFunctionCode AWS](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/updatefunctioncode(input:))*SDK untuk Swift API*. 

### `UpdateFunctionConfiguration`
<a name="lambda_UpdateFunctionConfiguration_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`UpdateFunctionConfiguration`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/lambda/basics#code-examples). 

```
import AWSClientRuntime
import AWSLambda
import Foundation

    /// Tell the server-side component to log debug output by setting its
    /// environment's `LOG_LEVEL` to `DEBUG`.
    ///
    /// - Parameters:
    ///   - lambdaClient: The `LambdaClient` to use.
    ///   - functionName: The name of the AWS Lambda function to enable debug
    ///     logging for.
    ///
    /// - Throws: `ExampleError.environmentResponseMissingError`,
    ///   `ExampleError.updateFunctionConfigurationError`,
    ///   `ExampleError.environmentVariablesMissingError`,
    ///   `ExampleError.logLevelIncorrectError`,
    ///   `ExampleError.updateFunctionConfigurationError`
    func enableDebugLogging(lambdaClient: LambdaClient, functionName: String) async throws {
        let envVariables = [
            "LOG_LEVEL": "DEBUG"
        ]
        let environment = LambdaClientTypes.Environment(variables: envVariables)

        do {
            let output = try await lambdaClient.updateFunctionConfiguration(
                input: UpdateFunctionConfigurationInput(
                    environment: environment,
                    functionName: functionName
                )
            )

            guard let response = output.environment else {
                throw ExampleError.environmentResponseMissingError
            }

            if response.error != nil {
                throw ExampleError.updateFunctionConfigurationError
            }

            guard let retVariables = response.variables else {
                throw ExampleError.environmentVariablesMissingError
            }

            for envVar in retVariables {
                if envVar.key == "LOG_LEVEL" && envVar.value != "DEBUG" {
                    print("*** Log level is not set to DEBUG!")
                    throw ExampleError.logLevelIncorrectError
                }
            }
        } catch {
            throw ExampleError.updateFunctionConfigurationError
        }
    }
```
+  Untuk detail API, lihat referensi [UpdateFunctionConfiguration AWS](https://sdk.amazonaws.com/swift/api/awslambda/latest/documentation/awslambda/lambdaclient/updatefunctionconfiguration(input:))*SDK untuk Swift API*. 

# Contoh Amazon RDS menggunakan SDK untuk Swift
<a name="swift_1_rds_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Amazon RDS.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="rds_Scenario_GetStartedInstances_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat grup parameter basis data kustom dan mengatur nilai parameter.
+ Membuat instans basis data yang dikonfigurasikan untuk menggunakan grup parameter. Instans basis data juga berisi basis data.
+ Mengambil cuplikan instans.
+ Menghapus instans dan grup parameter.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 
`Package.swift`Berkas.  

```
// swift-tools-version: 5.9
//
// The swift-tools-version declares the minimum version of Swift required to
// build this package.

import PackageDescription

let package = Package(
    name: "rds-scenario",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13),
        .iOS(.v15)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/awslabs/aws-sdk-swift",
            from: "1.4.0"),
        .package(
            url: "https://github.com/apple/swift-argument-parser.git",
            branch: "main"
        )
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "rds-scenario",
            dependencies: [
                .product(name: "AWSRDS", package: "aws-sdk-swift"),
                .product(name: "ArgumentParser", package: "swift-argument-parser")
            ],
            path: "Sources")

    ]
)
```
File kode Swift,`entry.swift`.  

```
// An example that shows how to use the AWS SDK for Swift to perform a variety
// of operations using Amazon Relational Database Service (RDS).
//

import ArgumentParser
import Foundation
import AWSRDS

struct ExampleCommand: ParsableCommand {
    @Option(help: "The AWS Region to run AWS API calls in.")
    var awsRegion = "us-east-1"
    @Option(help: "The username to use for the database administrator.")
    var dbUsername = "admin"
    @Option(help: "The password to use for the database administrator.")
    var dbPassword: String

    static var configuration = CommandConfiguration(
        commandName: "rds-scenario",
        abstract: """
        Performs various operations to demonstrate the use of Amazon RDS Instances
        using the AWS SDK for Swift.
        """,
        discussion: """
        """
    )

    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        let example = try await Example(region: awsRegion, username: dbUsername, password: dbPassword)

        await example.run()
    }
}

class Example {
    let rdsClient: RDSClient

    // Storage for AWS RDS properties

    let dbUsername: String
    let dbPassword: String
    var dbInstanceIdentifier: String
    var dbSnapshotIdentifier: String
    var dbParameterGroupName: String
    var dbParameterGroup: RDSClientTypes.DBParameterGroup?
    var selectedEngineVersion: String?

    init(region: String, username: String, password: String) async throws{
        let rdsConfig = try await RDSClient.RDSClientConfiguration(region: region)
        rdsClient = RDSClient(config: rdsConfig)

        dbUsername = username
        dbPassword = password
        dbParameterGroupName = ""
        dbInstanceIdentifier = ""
        dbSnapshotIdentifier = ""
    }

    /// The example's main body.
    func run() async {
        var parameterGroupFamilies: Set<String> = []

        //=====================================================================
        // 1. Get available database engine families for MySQL.
        //=====================================================================

        let engineVersions = await getDBEngineVersions(engineName: "mysql")

        for version in engineVersions {
            if version.dbParameterGroupFamily != nil {
                parameterGroupFamilies.insert(version.dbParameterGroupFamily!)
            }
        }

        if engineVersions.count > 0 {
            selectedEngineVersion = engineVersions.last!.engineVersion
        } else {
            print("*** Unable to find a valid database engine version. Canceling operations.")
            await cleanUp()
            return
        }

        print("Found \(parameterGroupFamilies.count) parameter group families:")
        for family in parameterGroupFamilies {
            print("    \(family)")
        }

        //=====================================================================
        // 2. Select an engine family and create a custom DB parameter group.
        //    We select a family by sorting the set of family names, then
        //    choosing the last one.
        //=====================================================================

        let sortedFamilies = parameterGroupFamilies.sorted()

        guard let selectedFamily = sortedFamilies.last else {
            print("*** Unable to find a database engine family. Canceling operations.")
            await cleanUp()
            return
        }

        print("Selected database engine family \(selectedFamily)")

        dbParameterGroupName = tempName(prefix: "rds-example")
        print("Creating a database parameter group named \(dbParameterGroupName) using \(selectedFamily)")
        dbParameterGroup = await createDBParameterGroup(groupName: dbParameterGroupName,
                                                        familyName: selectedFamily)

        //=====================================================================
        // 3. Get the parameter group's details.
        //=====================================================================

        print("Getting the database parameter group list...")
        let dbParameterGroupList = await describeDBParameterGroups(groupName: dbParameterGroupName)
        guard let dbParameterGroupList else {
            await cleanUp()
            return
        }

        print("Found \(dbParameterGroupList.count) parameter groups...")
        for group in dbParameterGroupList {
            print("    \(group.dbParameterGroupName ?? "<unknown>")")
        }
        print()

        //=====================================================================
        // 4. Get a list of the parameter group's parameters. This list is
        //    likely to be long, so use pagination. Find the
        //    auto_increment_offset and auto_increment_increment parameters.
        //=====================================================================

        let parameters = await describeDBParameters(groupName: dbParameterGroupName)
        
        //=====================================================================
        // 5. Parse and display each parameter's name, description, and
        //    allowed values.
        //=====================================================================

        for parameter in parameters {
            let name = parameter.parameterName
            guard let name else {
                print("*** Unable to get parameter name!")
                continue
            }

            if name == "auto_increment_offset" || name == "auto_increment_increment" {
                print("Parameter \(name):")
                print("          Value: \(parameter.parameterValue ?? "<undefined>")")
                print("      Data type: \(parameter.dataType ?? "<unknown>")")
                print("    Description: \(parameter.description ?? "")")
                print(" Allowed values: \(parameter.allowedValues ?? "<unspecified")")
                print(String(repeating: "=", count: 78))
            }
        }

        //=====================================================================
        // 6. Modify both the auto_increment_offset and
        //    auto_increment_increment parameters in one call in the custom
        //    parameter group. Set their parameterValue fields to a new
        //    permitted value.
        //=====================================================================

        print("Setting auto_increment_offset and auto_increment_increment both to 5...")
        await modifyDBParameters(groupName: dbParameterGroupName)

        //=====================================================================
        // 7. Get and display the updated parameters, specifying a source of
        //    "user" to get only the modified parameters.
        //=====================================================================

        let updatedParameters = await describeDBParameters(groupName: dbParameterGroupName, source: "user")

        for parameter in updatedParameters {
            let name = parameter.parameterName
            guard let name else {
                print("*** Unable to get parameter name!")
                continue
            }

            print("Parameter \(name):")
            print("          Value: \(parameter.parameterValue ?? "<undefined>")")
            print("      Data type: \(parameter.dataType ?? "<unknown>")")
            print("    Description: \(parameter.description ?? "")")
            print(" Allowed values: \(parameter.allowedValues ?? "<unspecified")")
            print(String(repeating: "=", count: 78))
        }

        //=====================================================================
        // 8. Get a list of allowed engine versions using
        //    DescribeRDSEngineVersions.
        //=====================================================================

        await listAllowedEngines(family: selectedFamily)

        //=====================================================================
        // 9. Get a list of micro instance classes available for the selected
        //    engine and engine version.
        //=====================================================================

        let dbInstanceClass = await chooseMicroInstance(engine: "mysql", engineVersion: selectedEngineVersion)
        guard let dbInstanceClass else {
            print("Did not get a valid instance class. Canceling operations.")
            await cleanUp()
            return
        }

        //=====================================================================
        // 10. Create an RDS database that contains a MySQL database and uses
        //     the parameter group we created.
        //=====================================================================
        
        print("Creating the database instance...")

        guard let instanceClass = dbInstanceClass.dbInstanceClass else {
            print("Instance class name is unknown. Canceling operations.")
            await cleanUp()
            return
        }

        dbInstanceIdentifier = tempName(prefix: "sample-identifier")
        let dbInstanceArn = await createDBInstance(
            name: "SampleDatabase\(Int.random(in: 1000000..<1000000000))",
            instanceIdentifier: dbInstanceIdentifier,
            parameterGroupName: dbParameterGroupName,
            engine: "mysql",
            engineVersion: selectedEngineVersion!,
            instanceClass: instanceClass,
            username: dbUsername,
            password: dbPassword
        )

        if dbInstanceArn == nil {
            await cleanUp()
            return
        }

        //=====================================================================
        // 11. Wait for the database instance to be ready by calling
        //     DescribeDBInstances repeatedly until it reports
        //     dbInstanceStatus as "available". This can take upwards of 10
        //     minutes, let the user know that.
        //=====================================================================

        guard let endpoint = await waitUntilDBInstanceReady(instanceIdentifier: dbInstanceIdentifier) else {
            print("\nDid not get a valid endpoint from AWS RDS.")
            await cleanUp()
            return
        }
        
        guard let endpointAddress = endpoint.address else {
            print("\nNo endpoint address returned.")
            await cleanUp()
            return
        }
        guard let endpointPort = endpoint.port else {
            print("\nNo endpoint port returned.")
            await cleanUp()
            return
        }

        //=====================================================================
        // 12. Display connection information for the database instance.
        //=====================================================================

        print("\nTo connect to the new database instance using 'mysql' from the shell:")
        print("    mysql -h \(endpointAddress) -P \(endpointPort) -u \(self.dbUsername)")

        //=====================================================================
        // 13. Create a snapshot of the database instance.
        //=====================================================================

        dbSnapshotIdentifier = tempName(prefix: "sample-snapshot")
        await createDBSnapshot(instanceIdentifier: dbInstanceIdentifier, snapshotIdentifier: dbSnapshotIdentifier)

        //=====================================================================
        // 14. Wait for the snapshot to be ready.
        //=====================================================================

        await waitUntilDBSnapshotReady(instanceIdentifier: dbInstanceIdentifier, snapshotIdentifier: dbSnapshotIdentifier)

        // That's it! Clean up and exit!

        print("Example complete! Cleaning up...")
        await cleanUp()
    }

    /// Clean up by discarding and closing down all allocated EC2 items. 
    func cleanUp() async {
        print("Deleting the database instance \(dbInstanceIdentifier)...")
        await deleteDBInstance(instanceIdentifier: dbInstanceIdentifier)
        await waitUntilDBInstanceDeleted(instanceIdentifier: dbInstanceIdentifier)

        print("Deleting the database parameter group \(dbParameterGroupName)...")
        await deleteDBParameterGroup(groupName: dbParameterGroupName)
    }

    /// Get all the database engine versions available for the specified
    /// database engine.
    /// 
    /// - Parameter engineName: The name of the database engine to query.
    /// 
    /// - Returns: An array of `RDSClientTypes.DBEngineVersion` structures,
    ///   each describing one supported version of the specified database.
    func getDBEngineVersions(engineName: String) async -> [RDSClientTypes.DBEngineVersion] {
        do {
            let output = try await rdsClient.describeDBEngineVersions(
                input: DescribeDBEngineVersionsInput(
                    engine: engineName
                )
            )

            return output.dbEngineVersions ?? []
        } catch {
            return []
        }
    }

    /// Create a new database parameter group with the specified name.
    /// 
    /// - Parameters:
    ///   - groupName: The name of the new parameter group.
    ///   - familyName: The name of the parameter group family.
    /// - Returns: 
    func createDBParameterGroup(groupName: String, familyName: String) async -> RDSClientTypes.DBParameterGroup? {
        do {
            let output = try await rdsClient.createDBParameterGroup(
                input: CreateDBParameterGroupInput(
                    dbParameterGroupFamily: familyName,
                    dbParameterGroupName: groupName,
                    description: "Created using the AWS SDK for Swift"
                )
            )
            return output.dbParameterGroup
        } catch {
            print("*** Error creating the parameter group: \(error.localizedDescription)")
            return nil
        }
    }

    /// Get descriptions of the database parameter groups matching the given
    /// name.
    ///
    /// - Parameter groupName: The name of the parameter group to describe.
    /// 
    /// - Returns: An array of [RDSClientTypes.DBParameterGroup] objects
    ///   describing the parameter group.
    func describeDBParameterGroups(groupName: String) async -> [RDSClientTypes.DBParameterGroup]? {
        do {
            let output = try await rdsClient.describeDBParameterGroups(
                input: DescribeDBParameterGroupsInput(
                    dbParameterGroupName: groupName
                )
            )
            return output.dbParameterGroups
        } catch {
            print("*** Error getting the database parameter group's details: \(error.localizedDescription)")
            return nil
        }
    }

    /// Returns the detailed parameter list for the specified database
    /// parameter group.
    /// 
    /// - Parameters:
    ///   - groupName: The name of the parameter group to return parameters for.
    ///   - source: The types of parameters to return (`user`, `system`, or
    ///     `engine-default`).
    /// 
    /// - Returns: An array of `RdSClientTypes.Parameter` objects, each
    ///   describing one of the group's parameters.
    func describeDBParameters(groupName: String, source: String? = nil) async -> [RDSClientTypes.Parameter] {
        var parameterList: [RDSClientTypes.Parameter] = []

        do {
            let pages = rdsClient.describeDBParametersPaginated(
                input: DescribeDBParametersInput(
                    dbParameterGroupName: groupName,
                    source: source
                )
            )

            for try await page in pages {
                guard let parameters = page.parameters else {
                    return []
                }

                parameterList += parameters
            }
        } catch {
            print("*** Error getting database parameters: \(error.localizedDescription)")
            return []
        }

        return parameterList
    }

    /// Demonstrates modifying two of the specified database parameter group's
    /// parameters.
    /// 
    /// - Parameter groupName: The name of the parameter group to change
    ///   parameters for.
    func modifyDBParameters(groupName: String) async {
        let parameter1 = RDSClientTypes.Parameter(
            applyMethod: RDSClientTypes.ApplyMethod.immediate,
            parameterName: "auto_increment_offset",
            parameterValue: "5"
        )
        let parameter2 = RDSClientTypes.Parameter(
            applyMethod: RDSClientTypes.ApplyMethod.immediate,
            parameterName: "auto_increment_increment",
            parameterValue: "5"
        )

        let parameterList = [parameter1, parameter2]

        do {
            _ = try await rdsClient.modifyDBParameterGroup(
                input: ModifyDBParameterGroupInput(
                    dbParameterGroupName: groupName,
                    parameters: parameterList
                )
            )

            print("Successfully modified the parameter group \(groupName).")
        } catch {
            print("*** Error modifying the parameter group \(groupName): \(error.localizedDescription)")
        }
    }

    /// Output a list of the database engine versions supported by the
    /// specified family.
    /// 
    /// - Parameter family: The family for which to list allowed database
    ///   engines.
    func listAllowedEngines(family: String?) async {
        do {
            let output = try await rdsClient.describeDBEngineVersions(
                input: DescribeDBEngineVersionsInput(
                    dbParameterGroupFamily: family,
                    engine: "mysql"
                )
            )

            guard let engineVersions = output.dbEngineVersions else {
                print("No engine versions returned.")
                return
            }

            print("Found \(engineVersions.count) database engine versions:")
            for version in engineVersions {
                print("    \(version.engineVersion ?? "<unknown>"): \(version.dbEngineDescription ?? "")")
            }
        } catch {
            print("*** Error getting database engine version list: \(error.localizedDescription)")
            return
        }
    }

    /// Print a list of available database instances with "micro" in the class
    /// name, then return one of them to be used by other code.
    /// 
    /// - Parameters:
    ///   - engine: The database engine for which to list database instance
    ///     classes.
    ///   - engineVersion: The database version for which to list instances.
    /// 
    /// - Returns: An `RDSClientTypes.OrderableDBInstanceOption` describing
    ///   the selected instance type.
    func chooseMicroInstance(engine: String = "mysql", engineVersion: String? = nil) async -> RDSClientTypes.OrderableDBInstanceOption? {
        do {
            let pages = rdsClient.describeOrderableDBInstanceOptionsPaginated(
                input: DescribeOrderableDBInstanceOptionsInput(
                    engine: engine,
                    engineVersion: engineVersion
                )
            )

            var optionsList: [RDSClientTypes.OrderableDBInstanceOption] = []

            for try await page in pages {
                guard let orderableDBInstanceOptions = page.orderableDBInstanceOptions else {
                    continue
                }

                for dbInstanceOption in orderableDBInstanceOptions {
                    guard let className = dbInstanceOption.dbInstanceClass else {
                        continue
                    }
                    if className.contains("micro") {
                        optionsList.append(dbInstanceOption)
                    }
                }
            }

            print("Found \(optionsList.count) database instances of 'micro' class types:")
            for dbInstanceOption in optionsList {
                print("    \(dbInstanceOption.engine ?? "<unknown>") \(dbInstanceOption.engineVersion ?? "<unknown>") (\(dbInstanceOption.dbInstanceClass ?? "<unknown class>"))")
            }

            return optionsList[0]
        } catch {
            print("*** Error getting a list of orderable instance options: \(error.localizedDescription)")
            return nil
        }
    }

    /// Create a new database instance.
    /// 
    /// - Parameters:
    ///   - name: The name of the database to create.
    ///   - instanceIdentifier: The identifier to give the new database
    ///     instance.
    ///   - parameterGroupName: The name of the parameter group to associate
    ///     with the new database instance.
    ///   - engine: The database engine to use.
    ///   - engineVersion: The version of the database given by `engine` to
    ///     use.
    ///   - instanceClass: The memory and compute capacity of the database
    ///     instance, such as `db.m5.large``.
    ///   - username: The admin user's username to establish for the new
    ///     instance.
    ///   - password: The password to use for the specified user's access.
    /// 
    /// - Returns: A string indicating the ARN of the newly created database
    ///   instance, or nil if the instance couldn't be created.
    func createDBInstance(name: String, instanceIdentifier: String, parameterGroupName: String,
                          engine: String, engineVersion: String, instanceClass: String,
                          username: String, password: String) async -> String? {
        do {
            let output = try await rdsClient.createDBInstance(
                input: CreateDBInstanceInput(
                    allocatedStorage: 100,
                    dbInstanceClass: instanceClass,
                    dbInstanceIdentifier: instanceIdentifier,
                    dbName: name,
                    dbParameterGroupName: parameterGroupName,
                    engine: engine,
                    engineVersion: engineVersion,
                    masterUserPassword: password,
                    masterUsername: username,
                    storageType: "gp2"
                )
            )

            guard let dbInstance = output.dbInstance else {
                print("*** Unable to get the database instance.")
                return nil
            }

            return dbInstance.dbInstanceArn
        } catch {
            print("*** An error occurred while creating the database instance: \(error.localizedDescription)")
            return nil
        }
    }

    /// Wait until the specified database is available to use.
    ///
    /// - Parameter instanceIdentifier: The database instance identifier of the
    ///   database to wait for.
    func waitUntilDBInstanceReady(instanceIdentifier: String) async -> RDSClientTypes.Endpoint? {
        do {
            putString("Waiting for the database instance to be ready to use. This may take 10 minutes or more...")
            while true {
                let output = try await rdsClient.describeDBInstances(
                    input: DescribeDBInstancesInput(
                        dbInstanceIdentifier: instanceIdentifier
                    )
                )

                guard let instanceList = output.dbInstances else {
                    continue
                }

                for instance in instanceList {
                    let status = instance.dbInstanceStatus

                    guard let status else {
                        print("\nUnable to determine the status.")
                        continue
                    }

                    if status.contains("available") {
                        return instance.endpoint
                    } else {
                        putString(".")
                        do {
                            try await Task.sleep(for: .seconds(15))
                        } catch {
                            print("*** Error pausing the task!")
                        }
                    }
                }
            }
        } catch {
            print("*** Unable to wait until the database is ready: \(error.localizedDescription)")
            return nil
        }
    }

    /// Create a snapshot of the specified name.
    /// 
    /// - Parameters:
    ///   - instanceIdentifier: The identifier of the database instance to
    ///     snapshot.
    ///   - snapshotIdentifier: A unique identifier to give the newly-created
    ///     snapshot.
    func createDBSnapshot(instanceIdentifier: String, snapshotIdentifier: String) async {
        do {
            let output = try await rdsClient.createDBSnapshot(
                input: CreateDBSnapshotInput(
                    dbInstanceIdentifier: instanceIdentifier,
                    dbSnapshotIdentifier: snapshotIdentifier
                )
            )

            guard let snapshot = output.dbSnapshot else {
                print("No snapshot returned.")
                return
            }

            print("The snapshot has been created with ID \(snapshot.dbiResourceId ?? "<unknown>")")
        } catch {
            print("*** Unable to create the database snapshot named \(snapshotIdentifier): \(error.localizedDescription)")
        }
    }

    /// Wait until the specified database snapshot is available to use.
    /// 
    /// - Parameters:
    ///   - instanceIdentifier: The identifier of the database for which the
    ///     snapshot was taken.
    ///   - snapshotIdentifier: The identifier of the snapshot to wait for.
    func waitUntilDBSnapshotReady(instanceIdentifier: String, snapshotIdentifier: String) async {
        var snapshotReady = false

        putString("Waiting for the snapshot to be ready...")

        do {
            while !snapshotReady {
                let output = try await rdsClient.describeDBSnapshots(
                    input: DescribeDBSnapshotsInput(
                        dbInstanceIdentifier: instanceIdentifier,
                        dbSnapshotIdentifier: snapshotIdentifier
                    )
                )

                guard let snapshotList = output.dbSnapshots else {
                    return
                }

                for snapshot in snapshotList {
                    guard let snapshotReadyStr = snapshot.status else {
                        return
                    }

                    if snapshotReadyStr.contains("available") {
                        snapshotReady = true
                        print()
                    } else {
                        putString(".")
                        do {
                            try await Task.sleep(for: .seconds(15))
                        } catch {
                            print("\n*** Error pausing the task!")
                        }
                    }
                }
            }
        } catch {
            print("\n*** Unable to wait for the database snapshot to be ready: \(error.localizedDescription)")
        }
    }

    /// Delete the specified database instance.
    /// 
    /// - Parameter instanceIdentifier: The identifier of the database
    ///   instance to delete.
    func deleteDBInstance(instanceIdentifier: String) async {
        do {
            _ = try await rdsClient.deleteDBInstance(
                input: DeleteDBInstanceInput(
                    dbInstanceIdentifier: instanceIdentifier,
                    deleteAutomatedBackups: true,
                    skipFinalSnapshot: true
                )
            )
        } catch {
            print("*** Error deleting the database instance \(instanceIdentifier): \(error.localizedDescription)")
        }
    }

    /// Wait until the specified database instance has been deleted.
    /// 
    /// - Parameter instanceIdentifier: The identifier of the database
    ///   instance to wait for.
    func waitUntilDBInstanceDeleted(instanceIdentifier: String) async {
        putString("Waiting for the database instance to be deleted. This may take a few minutes...")
        do {
            var isDatabaseDeleted = false
            var foundInstance = false

            while !isDatabaseDeleted {
                let output = try await rdsClient.describeDBInstances(input: DescribeDBInstancesInput())
                guard let instanceList = output.dbInstances else {
                    return
                }

                foundInstance = false

                for instance in instanceList {
                    guard let foundInstanceIdentifier = instance.dbInstanceIdentifier else {
                        continue
                    }

                    if instanceIdentifier == foundInstanceIdentifier {
                        foundInstance = true
                        break
                    } else {
                        putString(".")
                        do {
                            try await Task.sleep(for: .seconds(15))
                        } catch {
                            print("\n*** Error pausing the task!")
                        }
                    }
                }
                if !foundInstance {
                    isDatabaseDeleted = true
                    print()
                }
            }
        } catch {
            print("\n*** Error waiting for the database instance to be deleted: \(error.localizedDescription)")
        }
    }

    /// Delete the specified database parameter group.
    /// 
    /// - Parameter groupName: The name of the parameter group to delete.
    func deleteDBParameterGroup(groupName: String) async {
        do {
            _ = try await rdsClient.deleteDBParameterGroup(
                input: DeleteDBParameterGroupInput(
                    dbParameterGroupName: groupName
                )
            )
        } catch {
            print("*** Error deleting the database parameter group \(groupName): \(error.localizedDescription)")
        }
    }

    /// Generate and return a unique file name that begins with the specified
    /// string.
    ///
    /// - Parameters:
    ///   - prefix: Text to use at the beginning of the returned name.
    ///
    /// - Returns: A string containing a unique filename that begins with the
    ///   specified `prefix`.
    ///
    /// The returned name uses a random number between 1 million and 1 billion to
    /// provide reasonable certainty of uniqueness for the purposes of this
    /// example.
    func tempName(prefix: String) -> String {
        return "\(prefix)-\(Int.random(in: 1000000..<1000000000))"
    }

    /// Print a string to standard output without a trailing newline, and
    /// without buffering.
    /// 
    /// - Parameter str: The string to output.
    func putString(_ str: String = "") {
        if str.length >= 1 {
            let data = str.data(using: .utf8)
            guard let data else {
                return
            }
            FileHandle.standardOutput.write(data)
        }
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [Buat DBInstance](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/createdbinstance(input:))
  + [Buat DBParameter Grup](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/createdbparametergroup(input:))
  + [Buat DBSnapshot](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/createdbsnapshot(input:))
  + [Hapus DBInstance](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/deletedbinstance(input:))
  + [Hapus DBParameter Grup](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/deletedbparametergroup(input:))
  + [Jelaskan DBEngine Versi](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbengineversions(input:))
  + [Jelaskan DBInstances](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbinstances(input:))
  + [Jelaskan DBParameter Grup](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbparametergroups(input:))
  + [Jelaskan DBParameters](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbparameters(input:))
  + [Jelaskan DBSnapshots](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbsnapshots(input:))
  + [DescribeOrderableDBInstancePilihan](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describeorderabledbinstanceoptions(input:))
  + [Ubah DBParameter Grup](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/modifydbparametergroup(input:))

## Tindakan
<a name="actions"></a>

### `CreateDBInstance`
<a name="rds_CreateDBInstance_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBInstance`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Create a new database instance.
    /// 
    /// - Parameters:
    ///   - name: The name of the database to create.
    ///   - instanceIdentifier: The identifier to give the new database
    ///     instance.
    ///   - parameterGroupName: The name of the parameter group to associate
    ///     with the new database instance.
    ///   - engine: The database engine to use.
    ///   - engineVersion: The version of the database given by `engine` to
    ///     use.
    ///   - instanceClass: The memory and compute capacity of the database
    ///     instance, such as `db.m5.large``.
    ///   - username: The admin user's username to establish for the new
    ///     instance.
    ///   - password: The password to use for the specified user's access.
    /// 
    /// - Returns: A string indicating the ARN of the newly created database
    ///   instance, or nil if the instance couldn't be created.
    func createDBInstance(name: String, instanceIdentifier: String, parameterGroupName: String,
                          engine: String, engineVersion: String, instanceClass: String,
                          username: String, password: String) async -> String? {
        do {
            let output = try await rdsClient.createDBInstance(
                input: CreateDBInstanceInput(
                    allocatedStorage: 100,
                    dbInstanceClass: instanceClass,
                    dbInstanceIdentifier: instanceIdentifier,
                    dbName: name,
                    dbParameterGroupName: parameterGroupName,
                    engine: engine,
                    engineVersion: engineVersion,
                    masterUserPassword: password,
                    masterUsername: username,
                    storageType: "gp2"
                )
            )

            guard let dbInstance = output.dbInstance else {
                print("*** Unable to get the database instance.")
                return nil
            }

            return dbInstance.dbInstanceArn
        } catch {
            print("*** An error occurred while creating the database instance: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat [Membuat DBInstance](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/createdbinstance(input:)) di *AWS SDK untuk referensi Swift API*. 

### `CreateDBParameterGroup`
<a name="rds_CreateDBParameterGroup_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBParameterGroup`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Create a new database parameter group with the specified name.
    /// 
    /// - Parameters:
    ///   - groupName: The name of the new parameter group.
    ///   - familyName: The name of the parameter group family.
    /// - Returns: 
    func createDBParameterGroup(groupName: String, familyName: String) async -> RDSClientTypes.DBParameterGroup? {
        do {
            let output = try await rdsClient.createDBParameterGroup(
                input: CreateDBParameterGroupInput(
                    dbParameterGroupFamily: familyName,
                    dbParameterGroupName: groupName,
                    description: "Created using the AWS SDK for Swift"
                )
            )
            return output.dbParameterGroup
        } catch {
            print("*** Error creating the parameter group: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat [Membuat DBParameter Grup](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/createdbparametergroup(input:)) di *AWS SDK untuk referensi Swift API*. 

### `CreateDBSnapshot`
<a name="rds_CreateDBSnapshot_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateDBSnapshot`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Create a snapshot of the specified name.
    /// 
    /// - Parameters:
    ///   - instanceIdentifier: The identifier of the database instance to
    ///     snapshot.
    ///   - snapshotIdentifier: A unique identifier to give the newly-created
    ///     snapshot.
    func createDBSnapshot(instanceIdentifier: String, snapshotIdentifier: String) async {
        do {
            let output = try await rdsClient.createDBSnapshot(
                input: CreateDBSnapshotInput(
                    dbInstanceIdentifier: instanceIdentifier,
                    dbSnapshotIdentifier: snapshotIdentifier
                )
            )

            guard let snapshot = output.dbSnapshot else {
                print("No snapshot returned.")
                return
            }

            print("The snapshot has been created with ID \(snapshot.dbiResourceId ?? "<unknown>")")
        } catch {
            print("*** Unable to create the database snapshot named \(snapshotIdentifier): \(error.localizedDescription)")
        }
    }
```
+  Untuk detail API, lihat [Membuat DBSnapshot](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/createdbsnapshot(input:)) di *AWS SDK untuk referensi Swift API*. 

### `DeleteDBInstance`
<a name="rds_DeleteDBInstance_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBInstance`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Delete the specified database instance.
    /// 
    /// - Parameter instanceIdentifier: The identifier of the database
    ///   instance to delete.
    func deleteDBInstance(instanceIdentifier: String) async {
        do {
            _ = try await rdsClient.deleteDBInstance(
                input: DeleteDBInstanceInput(
                    dbInstanceIdentifier: instanceIdentifier,
                    deleteAutomatedBackups: true,
                    skipFinalSnapshot: true
                )
            )
        } catch {
            print("*** Error deleting the database instance \(instanceIdentifier): \(error.localizedDescription)")
        }
    }
```
+  Untuk detail API, lihat [Menghapus DBInstance](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/deletedbinstance(input:)) di *AWS SDK untuk referensi Swift API*. 

### `DeleteDBParameterGroup`
<a name="rds_DeleteDBParameterGroup_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteDBParameterGroup`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Delete the specified database parameter group.
    /// 
    /// - Parameter groupName: The name of the parameter group to delete.
    func deleteDBParameterGroup(groupName: String) async {
        do {
            _ = try await rdsClient.deleteDBParameterGroup(
                input: DeleteDBParameterGroupInput(
                    dbParameterGroupName: groupName
                )
            )
        } catch {
            print("*** Error deleting the database parameter group \(groupName): \(error.localizedDescription)")
        }
    }
```
+  Untuk detail API, lihat [Menghapus DBParameter Grup](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/deletedbparametergroup(input:)) di *AWS SDK untuk referensi Swift API*. 

### `DescribeDBEngineVersions`
<a name="rds_DescribeDBEngineVersions_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBEngineVersions`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Get all the database engine versions available for the specified
    /// database engine.
    /// 
    /// - Parameter engineName: The name of the database engine to query.
    /// 
    /// - Returns: An array of `RDSClientTypes.DBEngineVersion` structures,
    ///   each describing one supported version of the specified database.
    func getDBEngineVersions(engineName: String) async -> [RDSClientTypes.DBEngineVersion] {
        do {
            let output = try await rdsClient.describeDBEngineVersions(
                input: DescribeDBEngineVersionsInput(
                    engine: engineName
                )
            )

            return output.dbEngineVersions ?? []
        } catch {
            return []
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBEngine Versi](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbengineversions(input:)) di *AWS SDK untuk referensi Swift API*. 

### `DescribeDBInstances`
<a name="rds_DescribeDBInstances_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBInstances`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Wait until the specified database is available to use.
    ///
    /// - Parameter instanceIdentifier: The database instance identifier of the
    ///   database to wait for.
    func waitUntilDBInstanceReady(instanceIdentifier: String) async -> RDSClientTypes.Endpoint? {
        do {
            putString("Waiting for the database instance to be ready to use. This may take 10 minutes or more...")
            while true {
                let output = try await rdsClient.describeDBInstances(
                    input: DescribeDBInstancesInput(
                        dbInstanceIdentifier: instanceIdentifier
                    )
                )

                guard let instanceList = output.dbInstances else {
                    continue
                }

                for instance in instanceList {
                    let status = instance.dbInstanceStatus

                    guard let status else {
                        print("\nUnable to determine the status.")
                        continue
                    }

                    if status.contains("available") {
                        return instance.endpoint
                    } else {
                        putString(".")
                        do {
                            try await Task.sleep(for: .seconds(15))
                        } catch {
                            print("*** Error pausing the task!")
                        }
                    }
                }
            }
        } catch {
            print("*** Unable to wait until the database is ready: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBInstances](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbinstances(input:)) di *AWS SDK untuk referensi Swift API*. 

### `DescribeDBParameterGroups`
<a name="rds_DescribeDBParameterGroups_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameterGroups`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Get descriptions of the database parameter groups matching the given
    /// name.
    ///
    /// - Parameter groupName: The name of the parameter group to describe.
    /// 
    /// - Returns: An array of [RDSClientTypes.DBParameterGroup] objects
    ///   describing the parameter group.
    func describeDBParameterGroups(groupName: String) async -> [RDSClientTypes.DBParameterGroup]? {
        do {
            let output = try await rdsClient.describeDBParameterGroups(
                input: DescribeDBParameterGroupsInput(
                    dbParameterGroupName: groupName
                )
            )
            return output.dbParameterGroups
        } catch {
            print("*** Error getting the database parameter group's details: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBParameter Grup](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbparametergroups(input:)) di *AWS SDK untuk referensi Swift API*. 

### `DescribeDBParameters`
<a name="rds_DescribeDBParameters_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBParameters`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Returns the detailed parameter list for the specified database
    /// parameter group.
    /// 
    /// - Parameters:
    ///   - groupName: The name of the parameter group to return parameters for.
    ///   - source: The types of parameters to return (`user`, `system`, or
    ///     `engine-default`).
    /// 
    /// - Returns: An array of `RdSClientTypes.Parameter` objects, each
    ///   describing one of the group's parameters.
    func describeDBParameters(groupName: String, source: String? = nil) async -> [RDSClientTypes.Parameter] {
        var parameterList: [RDSClientTypes.Parameter] = []

        do {
            let pages = rdsClient.describeDBParametersPaginated(
                input: DescribeDBParametersInput(
                    dbParameterGroupName: groupName,
                    source: source
                )
            )

            for try await page in pages {
                guard let parameters = page.parameters else {
                    return []
                }

                parameterList += parameters
            }
        } catch {
            print("*** Error getting database parameters: \(error.localizedDescription)")
            return []
        }

        return parameterList
    }
```
+  Untuk detail API, lihat [Menjelaskan DBParameters](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbparameters(input:)) di *AWS SDK untuk referensi Swift API*. 

### `DescribeDBSnapshots`
<a name="rds_DescribeDBSnapshots_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeDBSnapshots`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Wait until the specified database snapshot is available to use.
    /// 
    /// - Parameters:
    ///   - instanceIdentifier: The identifier of the database for which the
    ///     snapshot was taken.
    ///   - snapshotIdentifier: The identifier of the snapshot to wait for.
    func waitUntilDBSnapshotReady(instanceIdentifier: String, snapshotIdentifier: String) async {
        var snapshotReady = false

        putString("Waiting for the snapshot to be ready...")

        do {
            while !snapshotReady {
                let output = try await rdsClient.describeDBSnapshots(
                    input: DescribeDBSnapshotsInput(
                        dbInstanceIdentifier: instanceIdentifier,
                        dbSnapshotIdentifier: snapshotIdentifier
                    )
                )

                guard let snapshotList = output.dbSnapshots else {
                    return
                }

                for snapshot in snapshotList {
                    guard let snapshotReadyStr = snapshot.status else {
                        return
                    }

                    if snapshotReadyStr.contains("available") {
                        snapshotReady = true
                        print()
                    } else {
                        putString(".")
                        do {
                            try await Task.sleep(for: .seconds(15))
                        } catch {
                            print("\n*** Error pausing the task!")
                        }
                    }
                }
            }
        } catch {
            print("\n*** Unable to wait for the database snapshot to be ready: \(error.localizedDescription)")
        }
    }
```
+  Untuk detail API, lihat [Menjelaskan DBSnapshots](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describedbsnapshots(input:)) di *AWS SDK untuk referensi Swift API*. 

### `DescribeOrderableDBInstanceOptions`
<a name="rds_DescribeOrderableDBInstanceOptions_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DescribeOrderableDBInstanceOptions`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Print a list of available database instances with "micro" in the class
    /// name, then return one of them to be used by other code.
    /// 
    /// - Parameters:
    ///   - engine: The database engine for which to list database instance
    ///     classes.
    ///   - engineVersion: The database version for which to list instances.
    /// 
    /// - Returns: An `RDSClientTypes.OrderableDBInstanceOption` describing
    ///   the selected instance type.
    func chooseMicroInstance(engine: String = "mysql", engineVersion: String? = nil) async -> RDSClientTypes.OrderableDBInstanceOption? {
        do {
            let pages = rdsClient.describeOrderableDBInstanceOptionsPaginated(
                input: DescribeOrderableDBInstanceOptionsInput(
                    engine: engine,
                    engineVersion: engineVersion
                )
            )

            var optionsList: [RDSClientTypes.OrderableDBInstanceOption] = []

            for try await page in pages {
                guard let orderableDBInstanceOptions = page.orderableDBInstanceOptions else {
                    continue
                }

                for dbInstanceOption in orderableDBInstanceOptions {
                    guard let className = dbInstanceOption.dbInstanceClass else {
                        continue
                    }
                    if className.contains("micro") {
                        optionsList.append(dbInstanceOption)
                    }
                }
            }

            print("Found \(optionsList.count) database instances of 'micro' class types:")
            for dbInstanceOption in optionsList {
                print("    \(dbInstanceOption.engine ?? "<unknown>") \(dbInstanceOption.engineVersion ?? "<unknown>") (\(dbInstanceOption.dbInstanceClass ?? "<unknown class>"))")
            }

            return optionsList[0]
        } catch {
            print("*** Error getting a list of orderable instance options: \(error.localizedDescription)")
            return nil
        }
    }
```
+  Untuk detail API, lihat [DescribeOrderableDBInstanceOpsi](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/describeorderabledbinstanceoptions(input:)) di *AWS SDK untuk referensi Swift API*. 

### `ModifyDBParameterGroup`
<a name="rds_ModifyDBParameterGroup_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ModifyDBParameterGroup`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/rds#code-examples). 

```
import AWSRDS

    /// Demonstrates modifying two of the specified database parameter group's
    /// parameters.
    /// 
    /// - Parameter groupName: The name of the parameter group to change
    ///   parameters for.
    func modifyDBParameters(groupName: String) async {
        let parameter1 = RDSClientTypes.Parameter(
            applyMethod: RDSClientTypes.ApplyMethod.immediate,
            parameterName: "auto_increment_offset",
            parameterValue: "5"
        )
        let parameter2 = RDSClientTypes.Parameter(
            applyMethod: RDSClientTypes.ApplyMethod.immediate,
            parameterName: "auto_increment_increment",
            parameterValue: "5"
        )

        let parameterList = [parameter1, parameter2]

        do {
            _ = try await rdsClient.modifyDBParameterGroup(
                input: ModifyDBParameterGroupInput(
                    dbParameterGroupName: groupName,
                    parameters: parameterList
                )
            )

            print("Successfully modified the parameter group \(groupName).")
        } catch {
            print("*** Error modifying the parameter group \(groupName): \(error.localizedDescription)")
        }
    }
```
+  Untuk detail API, lihat [Memodifikasi DBParameter Grup](https://sdk.amazonaws.com/swift/api/awsrds/latest/documentation/awsrds/rdsclient/modifydbparametergroup(input:)) di *AWS SDK untuk referensi Swift API*. 

# Contoh Amazon S3 menggunakan SDK untuk Swift
<a name="swift_1_s3_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Amazon S3.

*Dasar-dasar* adalah contoh kode yang menunjukkan kepada Anda bagaimana melakukan operasi penting dalam suatu layanan.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Hal-hal mendasar](#basics)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Hal-hal mendasar
<a name="basics"></a>

### Pelajari dasar-dasarnya
<a name="s3_Scenario_GettingStarted_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Membuat bucket dan mengunggah file ke dalamnya.
+ Mengunduh objek dari bucket.
+ Menyalin objek ke subfolder di bucket.
+ Membuat daftar objek dalam bucket.
+ Menghapus objek bucket dan bucket tersebut.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/basics#code-examples). 

```
import AWSS3

import Foundation
import AWSS3
import Smithy
import ClientRuntime

/// A class containing all the code that interacts with the AWS SDK for Swift.
public class ServiceHandler {
    let configuration: S3Client.S3ClientConfiguration
    let client: S3Client

    enum HandlerError: Error {
        case getObjectBody(String)
        case readGetObjectBody(String)
        case missingContents(String)
    }

    /// Initialize and return a new ``ServiceHandler`` object, which is used to drive the AWS calls
    /// used for the example.
    ///
    /// - Returns: A new ``ServiceHandler`` object, ready to be called to
    ///            execute AWS operations.
    public init() async throws {
        do {
            configuration = try await S3Client.S3ClientConfiguration() 
         //   configuration.region = "us-east-2" // Uncomment this to set the region programmatically.
            client = S3Client(config: configuration)
        }
        catch {
            print("ERROR: ", dump(error, name: "Initializing S3 client"))
            throw error
        }
    }


    /// Create a new user given the specified name.
    ///
    /// - Parameters:
    ///   - name: Name of the bucket to create.
    /// Throws an exception if an error occurs.
    public func createBucket(name: String) async throws {
        var input = CreateBucketInput(
            bucket: name
        )
        
        // For regions other than "us-east-1", you must set the locationConstraint in the createBucketConfiguration.
        // For more information, see LocationConstraint in the S3 API guide.
        // https://docs.aws.amazon.com/AmazonS3/latest/API/API_CreateBucket.html#API_CreateBucket_RequestBody
        if let region = configuration.region {
            if region != "us-east-1" {
                input.createBucketConfiguration = S3ClientTypes.CreateBucketConfiguration(locationConstraint: S3ClientTypes.BucketLocationConstraint(rawValue: region))
            }
        }

        do {
            _ = try await client.createBucket(input: input)
        }
        catch let error as BucketAlreadyOwnedByYou {
            print("The bucket '\(name)' already exists and is owned by you. You may wish to ignore this exception.")
            throw error
        }
        catch {
            print("ERROR: ", dump(error, name: "Creating a bucket"))
            throw error
        }
    }

    /// Delete a bucket.
    /// - Parameter name: Name of the bucket to delete.
    public func deleteBucket(name: String) async throws {
        let input = DeleteBucketInput(
            bucket: name
        )
        do {
            _ = try await client.deleteBucket(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Deleting a bucket"))
            throw error
        }
    }

    /// Upload a file from local storage to the bucket.
    /// - Parameters:
    ///   - bucket: Name of the bucket to upload the file to.
    ///   - key: Name of the file to create.
    ///   - file: Path name of the file to upload.
    public func uploadFile(bucket: String, key: String, file: String) async throws {
        let fileUrl = URL(fileURLWithPath: file)
        do {
            let fileData = try Data(contentsOf: fileUrl)
            let dataStream = ByteStream.data(fileData)

            let input = PutObjectInput(
                body: dataStream,
                bucket: bucket,
                key: key
            )

            _ = try await client.putObject(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Putting an object."))
            throw error
        }
    }

    /// Create a file in the specified bucket with the given name. The new
    /// file's contents are uploaded from a `Data` object.
    ///
    /// - Parameters:
    ///   - bucket: Name of the bucket to create a file in.
    ///   - key: Name of the file to create.
    ///   - data: A `Data` object to write into the new file.
    public func createFile(bucket: String, key: String, withData data: Data) async throws {
        let dataStream = ByteStream.data(data)

        let input = PutObjectInput(
            body: dataStream,
            bucket: bucket,
            key: key
        )

        do {
            _ = try await client.putObject(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Putting an object."))
            throw error
        }
    }

    /// Download the named file to the given directory on the local device.
    ///
    /// - Parameters:
    ///   - bucket: Name of the bucket that contains the file to be copied.
    ///   - key: The name of the file to copy from the bucket.
    ///   - to: The path of the directory on the local device where you want to
    ///     download the file.
    public func downloadFile(bucket: String, key: String, to: String) async throws {
        let fileUrl = URL(fileURLWithPath: to).appendingPathComponent(key)

        let input = GetObjectInput(
            bucket: bucket,
            key: key
        )
        do {
            let output = try await client.getObject(input: input)

            guard let body = output.body else {
                throw HandlerError.getObjectBody("GetObjectInput missing body.")
            }

            guard let data = try await body.readData() else {
                throw HandlerError.readGetObjectBody("GetObjectInput unable to read data.")
            }

            try data.write(to: fileUrl)
        }
        catch {
            print("ERROR: ", dump(error, name: "Downloading a file."))
            throw error
        }
    }

    /// Read the specified file from the given S3 bucket into a Swift
    /// `Data` object.
    ///
    /// - Parameters:
    ///   - bucket: Name of the bucket containing the file to read.
    ///   - key: Name of the file within the bucket to read.
    ///
    /// - Returns: A `Data` object containing the complete file data.
    public func readFile(bucket: String, key: String) async throws -> Data {
        let input = GetObjectInput(
            bucket: bucket,
            key: key
        )
        do {
            let output = try await client.getObject(input: input)
            
            guard let body = output.body else {
                throw HandlerError.getObjectBody("GetObjectInput missing body.")
            }

            guard let data = try await body.readData() else {
                throw HandlerError.readGetObjectBody("GetObjectInput unable to read data.")
            }

            return data
        }
        catch {
            print("ERROR: ", dump(error, name: "Reading a file."))
            throw error
        }
   }


    /// Copy a file from one bucket to another.
    ///
    /// - Parameters:
    ///   - sourceBucket: Name of the bucket containing the source file.
    ///   - name: Name of the source file.
    ///   - destBucket: Name of the bucket to copy the file into.
    public func copyFile(from sourceBucket: String, name: String, to destBucket: String) async throws {
        let srcUrl = ("\(sourceBucket)/\(name)").addingPercentEncoding(withAllowedCharacters: .urlPathAllowed)

        let input = CopyObjectInput(
            bucket: destBucket,
            copySource: srcUrl,
            key: name
        )
        do {
            _ = try await client.copyObject(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Copying an object."))
            throw error
        }
    }

    /// Deletes the specified file from Amazon S3.
    ///
    /// - Parameters:
    ///   - bucket: Name of the bucket containing the file to delete.
    ///   - key: Name of the file to delete.
    ///
    public func deleteFile(bucket: String, key: String) async throws {
        let input = DeleteObjectInput(
            bucket: bucket,
            key: key
        )

        do {
            _ = try await client.deleteObject(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Deleting a file."))
            throw error
        }
    }

    /// Returns an array of strings, each naming one file in the
    /// specified bucket.
    ///
    /// - Parameter bucket: Name of the bucket to get a file listing for.
    /// - Returns: An array of `String` objects, each giving the name of
    ///            one file contained in the bucket.
    public func listBucketFiles(bucket: String) async throws -> [String] {
        do {
            let input = ListObjectsV2Input(
                bucket: bucket
            )
            
            // Use "Paginated" to get all the objects.
            // This lets the SDK handle the 'continuationToken' in "ListObjectsV2Output".
            let output = client.listObjectsV2Paginated(input: input)
            var names: [String] = []
            
            for try await page in output {
                guard let objList = page.contents else {
                    print("ERROR: listObjectsV2Paginated returned nil contents.")
                    continue
                }
                
                for obj in objList {
                    if let objName = obj.key {
                        names.append(objName)
                    }
                }
            }
            
            
            return names
        }
        catch {
            print("ERROR: ", dump(error, name: "Listing objects."))
            throw error
        }
    }
}
```

```
import AWSS3

import Foundation
import ServiceHandler
import ArgumentParser

/// The command-line arguments and options available for this
/// example command.
struct ExampleCommand: ParsableCommand {
    @Argument(help: "Name of the S3 bucket to create")
    var bucketName: String

    @Argument(help: "Pathname of the file to upload to the S3 bucket")
    var uploadSource: String

    @Argument(help: "The name (key) to give the file in the S3 bucket")
    var objName: String

    @Argument(help: "S3 bucket to copy the object to")
    var destBucket: String

    @Argument(help: "Directory where you want to download the file from the S3 bucket")
    var downloadDir: String

    static var configuration = CommandConfiguration(
        commandName: "s3-basics",
        abstract: "Demonstrates a series of basic AWS S3 functions.",
        discussion: """
        Performs the following Amazon S3 commands:

        * `CreateBucket`
        * `PutObject`
        * `GetObject`
        * `CopyObject`
        * `ListObjects`
        * `DeleteObjects`
        * `DeleteBucket`
        """
    )

    /// Called by ``main()`` to do the actual running of the AWS
    /// example.
    func runAsync() async throws {
        let serviceHandler = try await ServiceHandler()

        // 1. Create the bucket.
        print("Creating the bucket \(bucketName)...")
        try await serviceHandler.createBucket(name: bucketName)

        // 2. Upload a file to the bucket.
        print("Uploading the file \(uploadSource)...")
        try await serviceHandler.uploadFile(bucket: bucketName, key: objName, file: uploadSource)

        // 3. Download the file.
        print("Downloading the file \(objName) to \(downloadDir)...")
        try await serviceHandler.downloadFile(bucket: bucketName, key: objName, to: downloadDir)

        // 4. Copy the file to another bucket.
        print("Copying the file to the bucket \(destBucket)...")
        try await serviceHandler.copyFile(from: bucketName, name: objName, to: destBucket)

        // 5. List the contents of the bucket.

        print("Getting a list of the files in the bucket \(bucketName)")
        let fileList = try await serviceHandler.listBucketFiles(bucket: bucketName)
        let numFiles = fileList.count
        if numFiles != 0 {
            print("\(numFiles) file\((numFiles > 1) ? "s" : "") in bucket \(bucketName):")
            for name in fileList {
                print("  \(name)")
            }
        } else {
            print("No files found in bucket \(bucketName)")
        }

        // 6. Delete the objects from the bucket.

        print("Deleting the file \(objName) from the bucket \(bucketName)...")
        try await serviceHandler.deleteFile(bucket: bucketName, key: objName)
        print("Deleting the file \(objName) from the bucket \(destBucket)...")
        try await serviceHandler.deleteFile(bucket: destBucket, key: objName)

        // 7. Delete the bucket.
        print("Deleting the bucket \(bucketName)...")
        try await serviceHandler.deleteBucket(name: bucketName)

        print("Done.")
    }
}

//
// Main program entry point.
//
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [CopyObject](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/copyobject(input:))
  + [CreateBucket](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/createbucket(input:))
  + [DeleteBucket](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/deletebucket(input:))
  + [DeleteObjects](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/deleteobjects(input:))
  + [GetObject](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/getobject(input:))
  + [ListObjectsV2](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/listobjectsv2(input:))
  + [PutObject](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/putobject(input:))

## Tindakan
<a name="actions"></a>

### `CopyObject`
<a name="s3_CopyObject_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CopyObject`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/basics#code-examples). 

```
import AWSS3

    public func copyFile(from sourceBucket: String, name: String, to destBucket: String) async throws {
        let srcUrl = ("\(sourceBucket)/\(name)").addingPercentEncoding(withAllowedCharacters: .urlPathAllowed)

        let input = CopyObjectInput(
            bucket: destBucket,
            copySource: srcUrl,
            key: name
        )
        do {
            _ = try await client.copyObject(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Copying an object."))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [CopyObject AWS](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/copyobject(input:))*SDK untuk Swift API*. 

### `CreateBucket`
<a name="s3_CreateBucket_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateBucket`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/basics#code-examples). 

```
import AWSS3

    public func createBucket(name: String) async throws {
        var input = CreateBucketInput(
            bucket: name
        )
        
        // For regions other than "us-east-1", you must set the locationConstraint in the createBucketConfiguration.
        // For more information, see LocationConstraint in the S3 API guide.
        // https://docs.aws.amazon.com/AmazonS3/latest/API/API_CreateBucket.html#API_CreateBucket_RequestBody
        if let region = configuration.region {
            if region != "us-east-1" {
                input.createBucketConfiguration = S3ClientTypes.CreateBucketConfiguration(locationConstraint: S3ClientTypes.BucketLocationConstraint(rawValue: region))
            }
        }

        do {
            _ = try await client.createBucket(input: input)
        }
        catch let error as BucketAlreadyOwnedByYou {
            print("The bucket '\(name)' already exists and is owned by you. You may wish to ignore this exception.")
            throw error
        }
        catch {
            print("ERROR: ", dump(error, name: "Creating a bucket"))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [CreateBucket AWS](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/createbucket(input:))*SDK untuk Swift API*. 

### `DeleteBucket`
<a name="s3_DeleteBucket_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteBucket`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/basics#code-examples). 

```
import AWSS3

    public func deleteBucket(name: String) async throws {
        let input = DeleteBucketInput(
            bucket: name
        )
        do {
            _ = try await client.deleteBucket(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Deleting a bucket"))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteBucket AWS](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/deletebucket(input:))*SDK untuk Swift API*. 

### `DeleteObject`
<a name="s3_DeleteObject_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObject`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/basics#code-examples). 

```
import AWSS3

    public func deleteFile(bucket: String, key: String) async throws {
        let input = DeleteObjectInput(
            bucket: bucket,
            key: key
        )

        do {
            _ = try await client.deleteObject(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Deleting a file."))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteObject AWS](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/deleteobject(input:))*SDK untuk Swift API*. 

### `DeleteObjects`
<a name="s3_DeleteObjects_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteObjects`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/DeleteObjects#code-examples). 

```
import AWSS3

    public func deleteObjects(bucket: String, keys: [String]) async throws {
        let input = DeleteObjectsInput(
            bucket: bucket,
            delete: S3ClientTypes.Delete(
                objects: keys.map { S3ClientTypes.ObjectIdentifier(key: $0) },
                quiet: true
            )
        )

        do {
            _ = try await client.deleteObjects(input: input)
        } catch {
            print("ERROR: deleteObjects:", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [DeleteObjects AWS](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/deleteobjects(input:))*SDK untuk Swift API*. 

### `GetObject`
<a name="s3_GetObject_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetObject`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/basics#code-examples). 

```
import AWSS3

    public func downloadFile(bucket: String, key: String, to: String) async throws {
        let fileUrl = URL(fileURLWithPath: to).appendingPathComponent(key)

        let input = GetObjectInput(
            bucket: bucket,
            key: key
        )
        do {
            let output = try await client.getObject(input: input)

            guard let body = output.body else {
                throw HandlerError.getObjectBody("GetObjectInput missing body.")
            }

            guard let data = try await body.readData() else {
                throw HandlerError.readGetObjectBody("GetObjectInput unable to read data.")
            }

            try data.write(to: fileUrl)
        }
        catch {
            print("ERROR: ", dump(error, name: "Downloading a file."))
            throw error
        }
    }
```

```
import AWSS3

    public func readFile(bucket: String, key: String) async throws -> Data {
        let input = GetObjectInput(
            bucket: bucket,
            key: key
        )
        do {
            let output = try await client.getObject(input: input)
            
            guard let body = output.body else {
                throw HandlerError.getObjectBody("GetObjectInput missing body.")
            }

            guard let data = try await body.readData() else {
                throw HandlerError.readGetObjectBody("GetObjectInput unable to read data.")
            }

            return data
        }
        catch {
            print("ERROR: ", dump(error, name: "Reading a file."))
            throw error
        }
   }
```
+  Untuk detail API, lihat referensi [GetObject AWS](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/getobject(input:))*SDK untuk Swift API*. 

### `ListBuckets`
<a name="s3_ListBuckets_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListBuckets`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3#code-examples). 

```
import AWSS3

    /// Return an array containing information about every available bucket.
    ///
    /// - Returns: An array of ``S3ClientTypes.Bucket`` objects describing
    ///   each bucket.
    public func getAllBuckets() async throws -> [S3ClientTypes.Bucket] {
        return try await client.listBuckets(input: ListBucketsInput())
    }
```
+  Untuk detail API, lihat referensi [ListBuckets AWS](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/listbuckets(input:))*SDK untuk Swift API*. 

### `ListObjectsV2`
<a name="s3_ListObjectsV2_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListObjectsV2`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/basics#code-examples). 

```
import AWSS3

    public func listBucketFiles(bucket: String) async throws -> [String] {
        do {
            let input = ListObjectsV2Input(
                bucket: bucket
            )
            
            // Use "Paginated" to get all the objects.
            // This lets the SDK handle the 'continuationToken' in "ListObjectsV2Output".
            let output = client.listObjectsV2Paginated(input: input)
            var names: [String] = []
            
            for try await page in output {
                guard let objList = page.contents else {
                    print("ERROR: listObjectsV2Paginated returned nil contents.")
                    continue
                }
                
                for obj in objList {
                    if let objName = obj.key {
                        names.append(objName)
                    }
                }
            }
            
            
            return names
        }
        catch {
            print("ERROR: ", dump(error, name: "Listing objects."))
            throw error
        }
    }
```
+  Untuk detail API, lihat [ListObjectsV2](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/listobjectsv2(input:)) di *AWS SDK untuk referensi Swift API*. 

### `PutObject`
<a name="s3_PutObject_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`PutObject`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/basics#code-examples). 

```
import AWSS3
import Smithy

    public func uploadFile(bucket: String, key: String, file: String) async throws {
        let fileUrl = URL(fileURLWithPath: file)
        do {
            let fileData = try Data(contentsOf: fileUrl)
            let dataStream = ByteStream.data(fileData)

            let input = PutObjectInput(
                body: dataStream,
                bucket: bucket,
                key: key
            )

            _ = try await client.putObject(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Putting an object."))
            throw error
        }
    }
```

```
import AWSS3
import Smithy

    public func createFile(bucket: String, key: String, withData data: Data) async throws {
        let dataStream = ByteStream.data(data)

        let input = PutObjectInput(
            body: dataStream,
            bucket: bucket,
            key: key
        )

        do {
            _ = try await client.putObject(input: input)
        }
        catch {
            print("ERROR: ", dump(error, name: "Putting an object."))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [PutObject AWS](https://sdk.amazonaws.com/swift/api/awss3/latest/documentation/awss3/s3client/putobject(input:))*SDK untuk Swift API*. 

## Skenario
<a name="scenarios"></a>

### Unduh aliran dengan ukuran yang tidak diketahui
<a name="s3_Scenario_DownloadStream_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara mengunduh aliran dengan ukuran yang tidak diketahui dari objek Amazon S3.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/binary-streaming#code-examples). 

```
import ArgumentParser
import AWSClientRuntime
import AWSS3
import Foundation
import Smithy
import SmithyHTTPAPI
import SmithyStreams


    /// Download a file from the specified bucket.
    ///
    /// - Parameters:
    ///   - bucket: The Amazon S3 bucket name to get the file from.
    ///   - key: The name (or path) of the file to download from the bucket.
    ///   - destPath: The pathname on the local filesystem at which to store
    ///     the downloaded file.
    func downloadFile(bucket: String, key: String, destPath: String?) async throws {
        let fileURL: URL

        // If no destination path was provided, use the key as the name to use
        // for the file in the downloads folder.
        
        if destPath == nil {
            do {
                try fileURL = FileManager.default.url(
                    for: .downloadsDirectory,
                    in: .userDomainMask,
                    appropriateFor: URL(string: key),
                    create: true
                ).appendingPathComponent(key)
            } catch {
                throw TransferError.directoryError
            }
        } else {
            fileURL = URL(fileURLWithPath: destPath!)
        }
                
        let config = try await S3Client.S3ClientConfiguration(region: region)
        let s3Client = S3Client(config: config)

        // Create a `FileHandle` referencing the local destination. Then
        // create a `ByteStream` from that.

        FileManager.default.createFile(atPath: fileURL.path, contents: nil, attributes: nil)
        let fileHandle = try FileHandle(forWritingTo: fileURL)

        // Download the file using `GetObject`.
        
        let getInput = GetObjectInput(
            bucket: bucket,
            key: key
        )

        do {
            let getOutput = try await s3Client.getObject(input: getInput)

            guard let body = getOutput.body else {
                throw TransferError.downloadError("Error: No data returned for download")
            }

            // If the body is returned as a `Data` object, write that to the
            // file. If it's a stream, read the stream chunk by chunk,
            // appending each chunk to the destination file.

            switch body {
            case .data:
                guard let data = try await body.readData() else {
                    throw TransferError.downloadError("Download error")
                }

                // Write the `Data` to the file.

                do {
                    try data.write(to: fileURL)
                } catch {
                    throw TransferError.writeError
                }
                break

            case .stream(let stream as ReadableStream):
                while (true) {
                    let chunk = try await stream.readAsync(upToCount: 5 * 1024 * 1024)
                    guard let chunk = chunk else {
                        break
                    }

                    // Write the chunk to the destination file.

                    do {
                        try fileHandle.write(contentsOf: chunk)
                    } catch {
                        throw TransferError.writeError
                    }
                }

                break
            default:
                throw TransferError.downloadError("Received data is unknown object type")
            }
        } catch {
            throw TransferError.downloadError("Error downloading the file: \(error)")
        }

        print("File downloaded to \(fileURL.path).")
    }
```

### Mengunggah aliran ukuran yang tidak diketahui
<a name="s3_Scenario_UploadStream_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara mengunggah aliran dengan ukuran yang tidak diketahui ke objek Amazon S3.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/s3/binary-streaming#code-examples). 

```
import ArgumentParser
import AWSClientRuntime
import AWSS3
import Foundation
import Smithy
import SmithyHTTPAPI
import SmithyStreams


    /// Upload a file to the specified bucket.
    ///
    /// - Parameters:
    ///   - bucket: The Amazon S3 bucket name to store the file into.
    ///   - key: The name (or path) of the file to upload to in the `bucket`.
    ///   - sourcePath: The pathname on the local filesystem of the file to
    ///     upload.
    func uploadFile(sourcePath: String, bucket: String, key: String?) async throws {
        let fileURL: URL = URL(fileURLWithPath: sourcePath)
        let fileName: String

        // If no key was provided, use the last component of the filename.
        
        if key == nil {
            fileName = fileURL.lastPathComponent
        } else {
            fileName = key!
        }
                
        let s3Client = try await S3Client()

        // Create a FileHandle for the source file.

        let fileHandle = FileHandle(forReadingAtPath: sourcePath)
        guard let fileHandle = fileHandle else {
            throw TransferError.readError
        }

        // Create a byte stream to retrieve the file's contents. This uses the
        // Smithy FileStream and ByteStream types.

        let stream = FileStream(fileHandle: fileHandle)
        let body = ByteStream.stream(stream)

        // Create a `PutObjectInput` with the ByteStream as the body of the
        // request's data. The AWS SDK for Swift will handle sending the
        // entire file in chunks, regardless of its size.
        
        let putInput = PutObjectInput(
            body: body,
            bucket: bucket,
            key: fileName
        )

        do {
            _ = try await s3Client.putObject(input: putInput)
        } catch {
            throw TransferError.uploadError("Error uploading the file: \(error)")
        }

        print("File uploaded to \(fileURL.path).")
    }
```

# Contoh Amazon SNS menggunakan SDK untuk Swift
<a name="swift_1_sns_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Amazon SNS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon SNS
<a name="sns_Hello_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SNS.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sns/basics#code-examples). 
File Package.swift.  

```
import PackageDescription

let package = Package(
    name: "sns-basics",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13),
        .iOS(.v15)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/awslabs/aws-sdk-swift",
            from: "1.0.0"),
        .package(
            url: "https://github.com/apple/swift-argument-parser.git",
            branch: "main"
        )
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "sns-basics",
            dependencies: [
                .product(name: "AWSSNS", package: "aws-sdk-swift"),
                .product(name: "ArgumentParser", package: "swift-argument-parser")
            ],
            path: "Sources")

    ]
)
```
Program Swift utama.  

```
import ArgumentParser
import AWSClientRuntime
import AWSSNS
import Foundation

struct ExampleCommand: ParsableCommand {
    @Option(help: "Name of the Amazon Region to use (default: us-east-1)")
    var region = "us-east-1"

    static var configuration = CommandConfiguration(
        commandName: "sns-basics",
        abstract: """
        This example shows how to list all of your available Amazon SNS topics.
        """,
        discussion: """
        """
    )
    
    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        let config = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: config)

        var topics: [String] = []
        let outputPages = snsClient.listTopicsPaginated(
            input: ListTopicsInput()
        )

        // Each time a page of results arrives, process its contents.

        for try await output in outputPages {
            guard let topicList = output.topics else {
                print("Unable to get a page of Amazon SNS topics.")
                return
            }

            // Iterate over the topics listed on this page, adding their ARNs
            // to the `topics` array.

            for topic in topicList {
                guard let arn = topic.topicArn else {
                    print("Topic has no ARN.")
                    return
                }
                topics.append(arn)
            }
        }

        print("You have \(topics.count) topics:")
        for topic in topics {
            print("   \(topic)")
        }
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+  Untuk detail API, lihat referensi [ListTopics AWS](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/listtopics(input:))*SDK untuk Swift API*. 

## Tindakan
<a name="actions"></a>

### `CreateTopic`
<a name="sns_CreateTopic_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateTopic`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sns#code-examples). 

```
import AWSSNS

        let config = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: config)

        let output = try await snsClient.createTopic(
            input: CreateTopicInput(name: name)
        )

        guard let arn = output.topicArn else {
            print("No topic ARN returned by Amazon SNS.")
            return
        }
```
+  Untuk detail API, lihat referensi [CreateTopic AWS](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/createtopic(input:))*SDK untuk Swift API*. 

### `DeleteTopic`
<a name="sns_DeleteTopic_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteTopic`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sns#code-examples). 

```
import AWSSNS

        let config = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: config)

        _ = try await snsClient.deleteTopic(
            input: DeleteTopicInput(topicArn: arn)
        )
```
+  Untuk detail API, lihat referensi [DeleteTopic AWS](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/deletetopic(input:))*SDK untuk Swift API*. 

### `ListTopics`
<a name="sns_ListTopics_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListTopics`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sns/basics#code-examples). 

```
import AWSSNS

        let config = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: config)

        var topics: [String] = []
        let outputPages = snsClient.listTopicsPaginated(
            input: ListTopicsInput()
        )

        // Each time a page of results arrives, process its contents.

        for try await output in outputPages {
            guard let topicList = output.topics else {
                print("Unable to get a page of Amazon SNS topics.")
                return
            }

            // Iterate over the topics listed on this page, adding their ARNs
            // to the `topics` array.

            for topic in topicList {
                guard let arn = topic.topicArn else {
                    print("Topic has no ARN.")
                    return
                }
                topics.append(arn)
            }
        }
```
+  Untuk detail API, lihat referensi [ListTopics AWS](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/listtopics(input:))*SDK untuk Swift API*. 

### `Publish`
<a name="sns_Publish_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Publish`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sns#code-examples). 

```
import AWSSNS

        let config = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: config)

        let output = try await snsClient.publish(
            input: PublishInput(
                message: message,
                topicArn: arn
            )
        )

        guard let messageId = output.messageId else {
            print("No message ID received from Amazon SNS.")
            return
        }
        
        print("Published message with ID \(messageId)")
```
+  Untuk detail API, lihat [Menerbitkan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/publish(input:)) di *AWS SDK untuk referensi Swift API*. 

### `Subscribe`
<a name="sns_Subscribe_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Subscribe`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sns#code-examples). 
Berlangganan alamat email ke suatu topik.  

```
import AWSSNS

        let config = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: config)

        let output = try await snsClient.subscribe(
            input: SubscribeInput(
                endpoint: email,
                protocol: "email",
                returnSubscriptionArn: true,
                topicArn: arn
            )
        )

        guard let subscriptionArn = output.subscriptionArn else {
            print("No subscription ARN received from Amazon SNS.")
            return
        }
        
        print("Subscription \(subscriptionArn) created.")
```
Berlangganan nomor telepon ke topik untuk menerima pemberitahuan melalui SMS.  

```
import AWSSNS

        let config = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: config)

        let output = try await snsClient.subscribe(
            input: SubscribeInput(
                endpoint: phone,
                protocol: "sms",
                returnSubscriptionArn: true,
                topicArn: arn
            )
        )

        guard let subscriptionArn = output.subscriptionArn else {
            print("No subscription ARN received from Amazon SNS.")
            return
        }
        
        print("Subscription \(subscriptionArn) created.")
```
+  Untuk detail API, lihat [Berlangganan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/subscribe(input:)) di *AWS SDK untuk referensi Swift API*. 

### `Unsubscribe`
<a name="sns_Unsubscribe_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`Unsubscribe`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sns#code-examples). 

```
import AWSSNS

        let config = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: config)

        _ = try await snsClient.unsubscribe(
            input: UnsubscribeInput(
                subscriptionArn: arn
            )
        )

        print("Unsubscribed.")
```
+  Untuk detail API, lihat [Berhenti berlangganan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/unsubscribe(input:)) di *AWS SDK untuk referensi Swift* API. 

## Skenario
<a name="scenarios"></a>

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs/scenario#code-examples). 

```
import ArgumentParser
import AWSClientRuntime
import AWSSNS
import AWSSQS
import Foundation

struct ExampleCommand: ParsableCommand {
    @Option(help: "Name of the Amazon Region to use")
    var region = "us-east-1"

    static var configuration = CommandConfiguration(
        commandName: "queue-scenario",
        abstract: """
        This example interactively demonstrates how to use Amazon Simple
        Notification Service (Amazon SNS) and Amazon Simple Queue Service
        (Amazon SQS) together to publish and receive messages using queues.
        """,
        discussion: """
        Supports filtering using a "tone" attribute.
        """
    )

    /// Prompt for an input string. Only non-empty strings are allowed.
    /// 
    /// - Parameter prompt: The prompt to display.
    ///
    /// - Returns: The string input by the user.
    func stringRequest(prompt: String) -> String {
        var str: String?

        while str == nil {
            print(prompt, terminator: "")
            str = readLine()

            if str != nil && str?.count == 0 {
                str = nil
            }
        }

        return str!
    }

    /// Ask a yes/no question.
    /// 
    /// - Parameter prompt: A prompt string to print.
    ///
    /// - Returns: `true` if the user answered "Y", otherwise `false`.
    func yesNoRequest(prompt: String) -> Bool {
        while true {
            let answer = stringRequest(prompt: prompt).lowercased()
            if answer == "y" || answer == "n" {
                return answer == "y"
            }
        }
    }

    /// Display a menu of options then request a selection.
    /// 
    /// - Parameters:
    ///   - prompt: A prompt string to display before the menu.
    ///   - options: An array of strings giving the menu options.
    ///
    /// - Returns: The index number of the selected option or 0 if no item was
    ///   selected.
    func menuRequest(prompt: String, options: [String]) -> Int {
        let numOptions = options.count

        if numOptions == 0 {
            return 0
        }

        print(prompt)

        for (index, value) in options.enumerated() {
            print("(\(index)) \(value)")
        }

        repeat {
            print("Enter your selection (0 - \(numOptions-1)): ", terminator: "")
            if let answer = readLine() {
                guard let answer = Int(answer) else {
                    print("Please enter the number matching your selection.")
                    continue
                }

                if answer >= 0 && answer < numOptions {
                    return answer
                } else {
                    print("Please enter the number matching your selection.")
                }
            }
        } while true
    }
    
    /// Ask the user too press RETURN. Accepts any input but ignores it.
    /// 
    /// - Parameter prompt: The text prompt to display.
    func returnRequest(prompt: String) {
        print(prompt, terminator: "")
        _ = readLine()
    }

    var attrValues = [
        "<none>",
        "cheerful",
        "funny",
        "serious",
        "sincere"
    ]

    /// Ask the user to choose one of the attribute values to use as a filter.
    /// 
    /// - Parameters:
    ///   - message: A message to display before the menu of values.
    ///   - attrValues: An array of strings giving the values to choose from.
    /// 
    /// - Returns: The string corresponding to the selected option.
    func askForFilter(message: String, attrValues: [String]) -> String? {
        print(message)
        for (index, value) in attrValues.enumerated() {
            print("  [\(index)] \(value)")
        }

        var answer: Int?
        repeat {
            answer = Int(stringRequest(prompt: "Select an value for the 'tone' attribute or 0 to end: "))
        } while answer == nil || answer! < 0 || answer! > attrValues.count + 1

        if answer == 0 {
            return nil
        }
        return attrValues[answer!]
    }

    /// Prompts the user for filter terms and constructs the attribute
    /// record that specifies them.
    /// 
    /// - Returns: A mapping of "FilterPolicy" to a JSON string representing
    ///   the user-defined filter.
    func buildFilterAttributes() -> [String:String] {
        var attr: [String:String] = [:]
        var filterString = ""

        var first = true

        while let ans = askForFilter(message: "Choose a value to apply to the 'tone' attribute.",
                                    attrValues: attrValues) {
            if !first {
                filterString += ","
            }
            first = false

            filterString += "\"\(ans)\""
        }

        let filterJSON = "{ \"tone\": [\(filterString)]}"
        attr["FilterPolicy"] = filterJSON

        return attr
    }
    /// Create a queue, returning its URL string.
    ///
    /// - Parameters:
    ///   - prompt: A prompt to ask for the queue name.
    ///   - isFIFO: Whether or not to create a FIFO queue.
    ///
    /// - Returns: The URL of the queue.
    func createQueue(prompt: String, sqsClient: SQSClient, isFIFO: Bool) async throws -> String? {
        repeat {
            var queueName = stringRequest(prompt: prompt)
            var attributes: [String: String] = [:]

            if isFIFO {
                queueName += ".fifo"
                attributes["FifoQueue"] = "true"
            }

            do {
                let output = try await sqsClient.createQueue(
                    input: CreateQueueInput(
                        attributes: attributes,
                        queueName: queueName
                    )
                )
                guard let url = output.queueUrl else {
                    return nil
                }

                return url
            } catch _ as QueueDeletedRecently {
                print("You need to use a different queue name. A queue by that name was recently deleted.")
                continue
            }
        } while true
    }

    /// Return the ARN of a queue given its URL.
    ///
    /// - Parameter queueUrl: The URL of the queue for which to return the
    ///   ARN.
    ///
    /// - Returns: The ARN of the specified queue.
    func getQueueARN(sqsClient: SQSClient, queueUrl: String) async throws -> String? {
        let output = try await sqsClient.getQueueAttributes(
            input: GetQueueAttributesInput(
                attributeNames: [.queuearn],
                queueUrl: queueUrl
            )
        )

        guard let attributes = output.attributes else {
            return nil
        }
        
        return attributes["QueueArn"]
    }

    /// Applies the needed policy to the specified queue.
    /// 
    /// - Parameters:
    ///   - sqsClient: The Amazon SQS client to use.
    ///   - queueUrl: The queue to apply the policy to.
    ///   - queueArn: The ARN of the queue to apply the policy to.
    ///   - topicArn: The topic that should have access via the policy.
    ///
    /// - Throws: Errors from the SQS `SetQueueAttributes` action.
    func setQueuePolicy(sqsClient: SQSClient, queueUrl: String,
                        queueArn: String, topicArn: String) async throws {
        _ = try await sqsClient.setQueueAttributes(
            input: SetQueueAttributesInput(
                attributes: [
                    "Policy":
                        """
                        {
                            "Statement": [
                                {
                                    "Effect": "Allow",
                                    "Principal": {
                                        "Service": "sns.amazonaws.com"
                                    },
                                    "Action": "sqs:SendMessage",
                                    "Resource": "\(queueArn)",
                                    "Condition": {
                                        "ArnEquals": {
                                            "aws:SourceArn": "\(topicArn)"
                                        }
                                    }
                                }
                            ]
                        }
                        """

                ],
                queueUrl: queueUrl
            )
        )
    }

    /// Receive the available messages on a queue, outputting them to the
    /// screen. Returns a dictionary you pass to DeleteMessageBatch to delete
    /// all the received messages.
    /// 
    /// - Parameters:
    ///   - sqsClient: The Amazon SQS client to use.
    ///   - queueUrl: The SQS queue on which to receive messages.
    /// 
    /// - Throws: Errors from `SQSClient.receiveMessage()`
    ///
    /// - Returns: An array of SQSClientTypes.DeleteMessageBatchRequestEntry
    ///   items, each describing one received message in the format needed to
    ///   delete it.
    func receiveAndListMessages(sqsClient: SQSClient, queueUrl: String) async throws
                                -> [SQSClientTypes.DeleteMessageBatchRequestEntry] {
        let output = try await sqsClient.receiveMessage(
            input: ReceiveMessageInput(
                maxNumberOfMessages: 10,
                queueUrl: queueUrl
            )
        )

        guard let messages = output.messages else {
            print("No messages received.")
            return []
        }

        var deleteList: [SQSClientTypes.DeleteMessageBatchRequestEntry] = []

        // Print out all the messages that were received, including their
        // attributes, if any.

        for message in messages {
            print("Message ID:     \(message.messageId ?? "<unknown>")")
            print("Receipt handle: \(message.receiptHandle ?? "<unknown>")")
            print("Message JSON:   \(message.body ?? "<body missing>")")
            
            if message.receiptHandle != nil {
                deleteList.append(
                    SQSClientTypes.DeleteMessageBatchRequestEntry(
                        id: message.messageId,
                        receiptHandle: message.receiptHandle
                    )
                )
            }
        }

        return deleteList
    }

    /// Delete all the messages in the specified list.
    /// 
    /// - Parameters:
    ///   - sqsClient: The Amazon SQS client to use.
    ///   - queueUrl: The SQS queue to delete messages from.
    ///   - deleteList: A list of `DeleteMessageBatchRequestEntry` objects
    ///     describing the messages to delete.
    ///
    /// - Throws: Errors from `SQSClient.deleteMessageBatch()`.
    func deleteMessageList(sqsClient: SQSClient, queueUrl: String,
                           deleteList: [SQSClientTypes.DeleteMessageBatchRequestEntry]) async throws {
        let output = try await sqsClient.deleteMessageBatch(
            input: DeleteMessageBatchInput(entries: deleteList, queueUrl: queueUrl)
        )

        if let failed = output.failed {
            print("\(failed.count) errors occurred deleting messages from the queue.")
            for message in failed {
                print("---> Failed to delete message \(message.id ?? "<unknown ID>") with error: \(message.code ?? "<unknown>") (\(message.message ?? "..."))")
            }
        }
    }

    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        let rowOfStars = String(repeating: "*", count: 75)

        print("""
              \(rowOfStars)
              Welcome to the cross-service messaging with topics and queues example.
              In this workflow, you'll create an SNS topic, then create two SQS
              queues which will be subscribed to that topic.

              You can specify several options for configuring the topic, as well as
              the queue subscriptions. You can then post messages to the topic and
              receive the results on the queues.
              \(rowOfStars)\n
              """
        )

        // 0. Create SNS and SQS clients.

        let snsConfig = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: snsConfig)

        let sqsConfig = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: sqsConfig)

        // 1. Ask the user whether to create a FIFO topic. If so, ask whether
        //    to use content-based deduplication instead of requiring a
        //    deduplication ID.

        let isFIFO = yesNoRequest(prompt: "Do you want to create a FIFO topic (Y/N)? ")
        var isContentBasedDeduplication = false

        if isFIFO {
            print("""
                  \(rowOfStars)
                  Because you've chosen to create a FIFO topic, deduplication is
                  supported.

                  Deduplication IDs are either set in the message or are automatically
                  generated from the content using a hash function.

                  If a message is successfully published to an SNS FIFO topic, any
                  message published and found to have the same deduplication ID
                  (within a five-minute deduplication interval), is accepted but
                  not delivered.

                  For more information about deduplication, see:
                  https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.
                  """
            )

            isContentBasedDeduplication = yesNoRequest(
                prompt: "Use content-based deduplication instead of entering a deduplication ID (Y/N)? ")
            print(rowOfStars)
        }

        var topicName = stringRequest(prompt: "Enter the name of the topic to create: ")
        
        // 2. Create the topic. Append ".fifo" to the name if FIFO was
        //    requested, and set the "FifoTopic" attribute to "true" if so as
        //    well. Set the "ContentBasedDeduplication" attribute to "true" if
        //    content-based deduplication was requested.

        if isFIFO {
            topicName += ".fifo"
        }

        print("Topic name: \(topicName)")

        var attributes = [
            "FifoTopic": (isFIFO ? "true" : "false")
        ]

        // If it's a FIFO topic with content-based deduplication, set the
        // "ContentBasedDeduplication" attribute.

        if isContentBasedDeduplication {
            attributes["ContentBasedDeduplication"] = "true"
        }

        // Create the topic and retrieve the ARN.

        let output = try await snsClient.createTopic(
            input: CreateTopicInput(
                attributes: attributes,
                name: topicName
            )
        )

        guard let topicArn = output.topicArn else {
            print("No topic ARN returned!")
            return
        }

        print("""
              Topic '\(topicName) has been created with the
              topic ARN \(topicArn)."
              """
        )
        
        print(rowOfStars)

        // 3. Create an SQS queue. Append ".fifo" to the name if one of the
        //    FIFO topic configurations was chosen, and set "FifoQueue" to
        //    "true" if the topic is FIFO.

        print("""
              Next, you will create two SQS queues that will be subscribed
              to the topic you just created.\n
              """
        )

        let q1Url = try await createQueue(prompt: "Enter the name of the first queue: ",
                                          sqsClient: sqsClient, isFIFO: isFIFO)
        guard let q1Url else {
            print("Unable to create queue 1!")
            return
        }
        
        // 4. Get the SQS queue's ARN attribute using `GetQueueAttributes`.

        let q1Arn = try await getQueueARN(sqsClient: sqsClient, queueUrl: q1Url)

        guard let q1Arn else {
            print("Unable to get ARN of queue 1!")
            return
        }
        print("Got queue 1 ARN: \(q1Arn)")

        // 5. Attach an AWS IAM policy to the queue using
        //    `SetQueueAttributes`.

        try await setQueuePolicy(sqsClient: sqsClient, queueUrl: q1Url,
                                 queueArn: q1Arn, topicArn: topicArn)

        // 6. Subscribe the SQS queue to the SNS topic. Set the topic ARN in
        //    the request. Set the protocol to "sqs". Set the queue ARN to the
        //    ARN just received in step 5. For FIFO topics, give the option to
        //    apply a filter. A filter allows only matching messages to enter
        //    the queue.

        var q1Attributes: [String:String]? = nil

        if isFIFO {
            print(
                """

                If you add a filter to this subscription, then only the filtered messages will
                be received in the queue. For information about message filtering, see
                https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html
                For this example, you can filter messages by a 'tone' attribute.

                """
            )

            let subPrompt = """
                Would you like to filter messages for the first queue's subscription to the
                topic \(topicName) (Y/N)? 
                """
            if (yesNoRequest(prompt: subPrompt)) {
                q1Attributes = buildFilterAttributes()
            }
        }

        let sub1Output = try await snsClient.subscribe(
            input: SubscribeInput(
                attributes: q1Attributes,
                endpoint: q1Arn,
                protocol: "sqs",
                topicArn: topicArn
            )
        )

        guard let q1SubscriptionArn = sub1Output.subscriptionArn else {
            print("Invalid subscription ARN returned for queue 1!")
            return
        }

        // 7. Repeat steps 3-6 for the second queue.

        let q2Url = try await createQueue(prompt: "Enter the name of the second queue: ",
                                sqsClient: sqsClient, isFIFO: isFIFO)
    
        guard let q2Url else {
            print("Unable to create queue 2!")
            return
        }

        let q2Arn = try await getQueueARN(sqsClient: sqsClient, queueUrl: q2Url)

        guard let q2Arn else {
            print("Unable to get ARN of queue 2!")
            return
        }
        print("Got queue 2 ARN: \(q2Arn)")

        try await setQueuePolicy(sqsClient: sqsClient, queueUrl: q2Url,
                                 queueArn: q2Arn, topicArn: topicArn)

        var q2Attributes: [String:String]? = nil

        if isFIFO {
            let subPrompt = """
                Would you like to filter messages for the second queue's subscription to the
                topic \(topicName) (Y/N)? 
                """
            if (yesNoRequest(prompt: subPrompt)) {
                q2Attributes = buildFilterAttributes()
            }
        }

        let sub2Output = try await snsClient.subscribe(
            input: SubscribeInput(
                attributes: q2Attributes,
                endpoint: q2Arn,
                protocol: "sqs",
                topicArn: topicArn
            )
        )

        guard let q2SubscriptionArn = sub2Output.subscriptionArn else {
            print("Invalid subscription ARN returned for queue 1!")
            return
        }

        // 8. Let the user publish messages to the topic, asking for a message
        //    body for each message. Handle the types of topic correctly (SEE
        //    MVP INFORMATION AND FIX THESE COMMENTS!!!

        print("\n\(rowOfStars)\n")

        var first = true

        repeat {
            var publishInput = PublishInput(
                topicArn: topicArn
            )

            publishInput.message = stringRequest(prompt: "Enter message text to publish: ")

            // If using a FIFO topic, a message group ID must be set on the
            // message.

            if isFIFO {
                if first {
                    print("""
                        Because you're using a FIFO topic, you must set a message
                        group ID. All messages within the same group will be
                        received in the same order in which they were published.\n
                        """
                    )
                }
                publishInput.messageGroupId = stringRequest(prompt: "Enter a message group ID for this message: ")

                if !isContentBasedDeduplication {
                    if first {
                        print("""
                              Because you're not using content-based deduplication, you
                              must enter a deduplication ID. If other messages with the
                              same deduplication ID are published within the same
                              deduplication interval, they will not be delivered.
                              """
                        )
                    }
                    publishInput.messageDeduplicationId = stringRequest(prompt: "Enter a deduplication ID for this message: ")
                }
            }

            // Allow the user to add a value for the "tone" attribute if they
            // wish to do so.

            var messageAttributes: [String:SNSClientTypes.MessageAttributeValue] = [:]
            let attrValSelection = menuRequest(prompt: "Choose a tone to apply to this message.", options: attrValues)

            if attrValSelection != 0 {
                let val = SNSClientTypes.MessageAttributeValue(dataType: "String", stringValue: attrValues[attrValSelection])
                messageAttributes["tone"] = val
            }

            publishInput.messageAttributes = messageAttributes
            
            // Publish the message and display its ID.

            let publishOutput = try await snsClient.publish(input: publishInput)

            guard let messageID = publishOutput.messageId else {
                print("Unable to get the published message's ID!")
                return
            }

            print("Message published with ID \(messageID).")
            first = false

            // 9. Repeat step 8 until the user says they don't want to post
            //    another.
        
        } while (yesNoRequest(prompt: "Post another message (Y/N)? "))

        // 10. Display a list of the messages in each queue by using
        //     `ReceiveMessage`. Show at least the body and the attributes.

        print(rowOfStars)
        print("Contents of queue 1:")
        let q1DeleteList = try await receiveAndListMessages(sqsClient: sqsClient, queueUrl: q1Url)
        print("\n\nContents of queue 2:")
        let q2DeleteList = try await receiveAndListMessages(sqsClient: sqsClient, queueUrl: q2Url)
        print(rowOfStars)

        returnRequest(prompt: "\nPress return to clean up: ")

        // 11. Delete the received messages using `DeleteMessageBatch`.

        print("Deleting the messages from queue 1...")
        try await deleteMessageList(sqsClient: sqsClient, queueUrl: q1Url, deleteList: q1DeleteList)
        print("\nDeleting the messages from queue 2...")
        try await deleteMessageList(sqsClient: sqsClient, queueUrl: q2Url, deleteList: q2DeleteList)

        // 12. Unsubscribe and delete both queues.

        print("\nUnsubscribing from queue 1...")
        _ = try await snsClient.unsubscribe(
            input: UnsubscribeInput(subscriptionArn: q1SubscriptionArn)
        )

        print("Unsubscribing from queue 2...")
        _ = try await snsClient.unsubscribe(
            input: UnsubscribeInput(subscriptionArn: q2SubscriptionArn)
        )

        print("Deleting queue 1...")
        _ = try await sqsClient.deleteQueue(
            input: DeleteQueueInput(queueUrl: q1Url)
        )

        print("Deleting queue 2...")
        _ = try await sqsClient.deleteQueue(
            input: DeleteQueueInput(queueUrl: q2Url)
        )
        
        // 13. Delete the topic.

        print("Deleting the SNS topic...")
        _ = try await snsClient.deleteTopic(
            input: DeleteTopicInput(topicArn: topicArn)
        )
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [CreateQueue](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/createqueue(input:))
  + [CreateTopic](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/createtopic(input:))
  + [DeleteMessageBatch](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/deletemessagebatch(input:))
  + [DeleteQueue](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/deletequeue(input:))
  + [DeleteTopic](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/deletetopic(input:))
  + [GetQueueAttributes](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/getqueueattributes(input:))
  + [Publikasikan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/publish(input:))
  + [ReceiveMessage](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/receivemessage(input:))
  + [SetQueueAttributes](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/setqueueattributes(input:))
  + [Berlangganan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/subscribe(input:))
  + [Berhenti berlangganan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/unsubscribe(input:))

# Contoh Amazon SQS menggunakan SDK untuk Swift
<a name="swift_1_sqs_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Amazon SQS.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Memulai](#get_started)
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Memulai
<a name="get_started"></a>

### Halo Amazon SQS
<a name="sqs_Hello_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara memulai menggunakan Amazon SQS.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs#code-examples). 
`Package.swift`Berkas.  

```
import PackageDescription

let package = Package(
    name: "sqs-basics",
    // Let Xcode know the minimum Apple platforms supported.
    platforms: [
        .macOS(.v13),
        .iOS(.v15)
    ],
    dependencies: [
        // Dependencies declare other packages that this package depends on.
        .package(
            url: "https://github.com/awslabs/aws-sdk-swift",
            from: "1.0.0"),
        .package(
            url: "https://github.com/apple/swift-argument-parser.git",
            branch: "main"
        )
    ],
    targets: [
        // Targets are the basic building blocks of a package, defining a module or a test suite.
        // Targets can depend on other targets in this package and products
        // from dependencies.
        .executableTarget(
            name: "sqs-basics",
            dependencies: [
                .product(name: "AWSSQS", package: "aws-sdk-swift"),
                .product(name: "ArgumentParser", package: "swift-argument-parser")
            ],
            path: "Sources")

    ]
)
```
Kode sumber Swift,`entry.swift`.  

```
import ArgumentParser
import AWSClientRuntime
import AWSSQS
import Foundation

struct ExampleCommand: ParsableCommand {
    @Option(help: "Name of the Amazon Region to use (default: us-east-1)")
    var region = "us-east-1"

    static var configuration = CommandConfiguration(
        commandName: "sqs-basics",
        abstract: """
        This example shows how to list all of your available Amazon SQS queues.
        """,
        discussion: """
        """
    )
    
    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        let config = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: config)

        var queues: [String] = []
        let outputPages = sqsClient.listQueuesPaginated(
            input: ListQueuesInput()
        )

        // Each time a page of results arrives, process its contents.

        for try await output in outputPages {
            guard let urls = output.queueUrls else {
                print("No queues found.")
                return
            }

            // Iterate over the queue URLs listed on this page, adding them
            // to the `queues` array.

            for queueUrl in urls {
                queues.append(queueUrl)
            }
        }

        print("You have \(queues.count) queues:")
        for queue in queues {
            print("   \(queue)")
        }
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+  Untuk detail API, lihat referensi [ListQueues AWS](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/listqueues(input:))*SDK untuk Swift API*. 

## Tindakan
<a name="actions"></a>

### `CreateQueue`
<a name="sqs_CreateQueue_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`CreateQueue`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs#code-examples). 

```
import AWSSQS

        let config = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: config)

        let output = try await sqsClient.createQueue(
            input: CreateQueueInput(
                queueName: queueName
            )
        )

        guard let queueUrl = output.queueUrl else {
            print("No queue URL returned.")
            return
        }
```
+  Untuk detail API, lihat referensi [CreateQueue AWS](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/createqueue(input:))*SDK untuk Swift API*. 

### `DeleteMessageBatch`
<a name="sqs_DeleteMessageBatch_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteMessageBatch`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs#code-examples). 

```
import AWSSQS

        let config = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: config)

        // Create the list of message entries.

        var entries: [SQSClientTypes.DeleteMessageBatchRequestEntry] = []
        var messageNumber = 1

        for handle in handles {
            let entry = SQSClientTypes.DeleteMessageBatchRequestEntry(
                id: "\(messageNumber)",
                receiptHandle: handle
            )
            entries.append(entry)
            messageNumber += 1
        }

        // Delete the messages.

        let output = try await sqsClient.deleteMessageBatch(
            input: DeleteMessageBatchInput(
                entries: entries,
                queueUrl: queue
            )
        )

        // Get the lists of failed and successful deletions from the output.

        guard let failedEntries = output.failed else {
            print("Failed deletion list is missing!")
            return
        }
        guard let successfulEntries = output.successful else {
            print("Successful deletion list is missing!")
            return
        }

        // Display a list of the failed deletions along with their
        // corresponding explanation messages.

        if failedEntries.count != 0 {
            print("Failed deletions:")

            for entry in failedEntries {
                print("Message #\(entry.id ?? "<unknown>") failed: \(entry.message ?? "<unknown>")")
            }
        } else {
            print("No failed deletions.")
        }

        // Output a list of the message numbers that were successfully deleted.

        if successfulEntries.count != 0 {
            var successes = ""

            for entry in successfulEntries {
                if successes.count == 0 {
                    successes = entry.id ?? "<unknown>"
                } else {
                    successes = "\(successes), \(entry.id ?? "<unknown>")"
                }
            }
            print("Succeeded: ", successes)
        } else {
            print("No successful deletions.")
        }
```
+  Untuk detail API, lihat referensi [DeleteMessageBatch AWS](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/deletemessagebatch(input:))*SDK untuk Swift API*. 

### `DeleteQueue`
<a name="sqs_DeleteQueue_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`DeleteQueue`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs#code-examples). 

```
import AWSSQS

        let config = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: config)

        do {
            _ = try await sqsClient.deleteQueue(
                input: DeleteQueueInput(
                    queueUrl: queueUrl
                )
            )
        } catch _ as AWSSQS.QueueDoesNotExist {
            print("Error: The specified queue doesn't exist.")
            return
        }
```
+  Untuk detail API, lihat referensi [DeleteQueue AWS](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/deletequeue(input:))*SDK untuk Swift API*. 

### `GetQueueAttributes`
<a name="sqs_GetQueueAttributes_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`GetQueueAttributes`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs#code-examples). 

```
import AWSSQS

        let config = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: config)

        let output = try await sqsClient.getQueueAttributes(
            input: GetQueueAttributesInput(
                attributeNames: [
                    .approximatenumberofmessages,
                    .maximummessagesize
                ],
                queueUrl: url
            )
        )

        guard let attributes = output.attributes else {
            print("No queue attributes returned.")
            return
        }
        
        for (attr, value) in attributes {
            switch(attr) {
            case "ApproximateNumberOfMessages":
                print("Approximate message count: \(value)")    
            case "MaximumMessageSize":
                print("Maximum message size: \(value)kB")
            default:
                continue
            }
        }
```
+  Untuk detail API, lihat referensi [GetQueueAttributes AWS](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/getqueueattributes(input:))*SDK untuk Swift API*. 

### `ListQueues`
<a name="sqs_ListQueues_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ListQueues`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs#code-examples). 

```
import AWSSQS

        let config = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: config)

        var queues: [String] = []
        let outputPages = sqsClient.listQueuesPaginated(
            input: ListQueuesInput()
        )

        // Each time a page of results arrives, process its contents.

        for try await output in outputPages {
            guard let urls = output.queueUrls else {
                print("No queues found.")
                return
            }

            // Iterate over the queue URLs listed on this page, adding them
            // to the `queues` array.

            for queueUrl in urls {
                queues.append(queueUrl)
            }
        }
```
+  Untuk detail API, lihat referensi [ListQueues AWS](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/listqueues(input:))*SDK untuk Swift API*. 

### `ReceiveMessage`
<a name="sqs_ReceiveMessage_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`ReceiveMessage`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs#code-examples). 

```
import AWSSQS

        let config = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: config)

        let output = try await sqsClient.receiveMessage(
            input: ReceiveMessageInput(
                maxNumberOfMessages: maxMessages,
                queueUrl: url
            )
        )

        guard let messages = output.messages else {
            print("No messages received.")
            return
        }
    
        for message in messages {
            print("Message ID:     \(message.messageId ?? "<unknown>")")
            print("Receipt handle: \(message.receiptHandle ?? "<unknown>")")
            print(message.body ?? "<body missing>")
            print("---")
        }
```
+  Untuk detail API, lihat referensi [ReceiveMessage AWS](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/receivemessage(input:))*SDK untuk Swift API*. 

### `SetQueueAttributes`
<a name="sqs_SetQueueAttributes_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`SetQueueAttributes`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs#code-examples). 

```
import AWSSQS

        let config = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: config)

        do {
            _ = try await sqsClient.setQueueAttributes(
                input: SetQueueAttributesInput(
                    attributes: [
                        "MaximumMessageSize": "\(maxSize)"
                    ],
                    queueUrl: url
                )
            )
        } catch _ as AWSSQS.InvalidAttributeValue {
            print("Invalid maximum message size: \(maxSize) kB.")
        }
```
+  Untuk detail API, lihat referensi [SetQueueAttributes AWS](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/setqueueattributes(input:))*SDK untuk Swift API*. 

## Skenario
<a name="scenarios"></a>

### Publikasikan pesan ke antrian
<a name="sqs_Scenario_TopicsAndQueues_swift_1_topic"></a>

Contoh kode berikut ini menunjukkan cara untuk melakukan:
+ Buat topik (FIFO atau non-FIFO).
+ Berlangganan beberapa antrian ke topik dengan opsi untuk menerapkan filter.
+ Publikasikan pesan ke topik.
+ Polling antrian untuk pesan yang diterima.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/sqs/scenario#code-examples). 

```
import ArgumentParser
import AWSClientRuntime
import AWSSNS
import AWSSQS
import Foundation

struct ExampleCommand: ParsableCommand {
    @Option(help: "Name of the Amazon Region to use")
    var region = "us-east-1"

    static var configuration = CommandConfiguration(
        commandName: "queue-scenario",
        abstract: """
        This example interactively demonstrates how to use Amazon Simple
        Notification Service (Amazon SNS) and Amazon Simple Queue Service
        (Amazon SQS) together to publish and receive messages using queues.
        """,
        discussion: """
        Supports filtering using a "tone" attribute.
        """
    )

    /// Prompt for an input string. Only non-empty strings are allowed.
    /// 
    /// - Parameter prompt: The prompt to display.
    ///
    /// - Returns: The string input by the user.
    func stringRequest(prompt: String) -> String {
        var str: String?

        while str == nil {
            print(prompt, terminator: "")
            str = readLine()

            if str != nil && str?.count == 0 {
                str = nil
            }
        }

        return str!
    }

    /// Ask a yes/no question.
    /// 
    /// - Parameter prompt: A prompt string to print.
    ///
    /// - Returns: `true` if the user answered "Y", otherwise `false`.
    func yesNoRequest(prompt: String) -> Bool {
        while true {
            let answer = stringRequest(prompt: prompt).lowercased()
            if answer == "y" || answer == "n" {
                return answer == "y"
            }
        }
    }

    /// Display a menu of options then request a selection.
    /// 
    /// - Parameters:
    ///   - prompt: A prompt string to display before the menu.
    ///   - options: An array of strings giving the menu options.
    ///
    /// - Returns: The index number of the selected option or 0 if no item was
    ///   selected.
    func menuRequest(prompt: String, options: [String]) -> Int {
        let numOptions = options.count

        if numOptions == 0 {
            return 0
        }

        print(prompt)

        for (index, value) in options.enumerated() {
            print("(\(index)) \(value)")
        }

        repeat {
            print("Enter your selection (0 - \(numOptions-1)): ", terminator: "")
            if let answer = readLine() {
                guard let answer = Int(answer) else {
                    print("Please enter the number matching your selection.")
                    continue
                }

                if answer >= 0 && answer < numOptions {
                    return answer
                } else {
                    print("Please enter the number matching your selection.")
                }
            }
        } while true
    }
    
    /// Ask the user too press RETURN. Accepts any input but ignores it.
    /// 
    /// - Parameter prompt: The text prompt to display.
    func returnRequest(prompt: String) {
        print(prompt, terminator: "")
        _ = readLine()
    }

    var attrValues = [
        "<none>",
        "cheerful",
        "funny",
        "serious",
        "sincere"
    ]

    /// Ask the user to choose one of the attribute values to use as a filter.
    /// 
    /// - Parameters:
    ///   - message: A message to display before the menu of values.
    ///   - attrValues: An array of strings giving the values to choose from.
    /// 
    /// - Returns: The string corresponding to the selected option.
    func askForFilter(message: String, attrValues: [String]) -> String? {
        print(message)
        for (index, value) in attrValues.enumerated() {
            print("  [\(index)] \(value)")
        }

        var answer: Int?
        repeat {
            answer = Int(stringRequest(prompt: "Select an value for the 'tone' attribute or 0 to end: "))
        } while answer == nil || answer! < 0 || answer! > attrValues.count + 1

        if answer == 0 {
            return nil
        }
        return attrValues[answer!]
    }

    /// Prompts the user for filter terms and constructs the attribute
    /// record that specifies them.
    /// 
    /// - Returns: A mapping of "FilterPolicy" to a JSON string representing
    ///   the user-defined filter.
    func buildFilterAttributes() -> [String:String] {
        var attr: [String:String] = [:]
        var filterString = ""

        var first = true

        while let ans = askForFilter(message: "Choose a value to apply to the 'tone' attribute.",
                                    attrValues: attrValues) {
            if !first {
                filterString += ","
            }
            first = false

            filterString += "\"\(ans)\""
        }

        let filterJSON = "{ \"tone\": [\(filterString)]}"
        attr["FilterPolicy"] = filterJSON

        return attr
    }
    /// Create a queue, returning its URL string.
    ///
    /// - Parameters:
    ///   - prompt: A prompt to ask for the queue name.
    ///   - isFIFO: Whether or not to create a FIFO queue.
    ///
    /// - Returns: The URL of the queue.
    func createQueue(prompt: String, sqsClient: SQSClient, isFIFO: Bool) async throws -> String? {
        repeat {
            var queueName = stringRequest(prompt: prompt)
            var attributes: [String: String] = [:]

            if isFIFO {
                queueName += ".fifo"
                attributes["FifoQueue"] = "true"
            }

            do {
                let output = try await sqsClient.createQueue(
                    input: CreateQueueInput(
                        attributes: attributes,
                        queueName: queueName
                    )
                )
                guard let url = output.queueUrl else {
                    return nil
                }

                return url
            } catch _ as QueueDeletedRecently {
                print("You need to use a different queue name. A queue by that name was recently deleted.")
                continue
            }
        } while true
    }

    /// Return the ARN of a queue given its URL.
    ///
    /// - Parameter queueUrl: The URL of the queue for which to return the
    ///   ARN.
    ///
    /// - Returns: The ARN of the specified queue.
    func getQueueARN(sqsClient: SQSClient, queueUrl: String) async throws -> String? {
        let output = try await sqsClient.getQueueAttributes(
            input: GetQueueAttributesInput(
                attributeNames: [.queuearn],
                queueUrl: queueUrl
            )
        )

        guard let attributes = output.attributes else {
            return nil
        }
        
        return attributes["QueueArn"]
    }

    /// Applies the needed policy to the specified queue.
    /// 
    /// - Parameters:
    ///   - sqsClient: The Amazon SQS client to use.
    ///   - queueUrl: The queue to apply the policy to.
    ///   - queueArn: The ARN of the queue to apply the policy to.
    ///   - topicArn: The topic that should have access via the policy.
    ///
    /// - Throws: Errors from the SQS `SetQueueAttributes` action.
    func setQueuePolicy(sqsClient: SQSClient, queueUrl: String,
                        queueArn: String, topicArn: String) async throws {
        _ = try await sqsClient.setQueueAttributes(
            input: SetQueueAttributesInput(
                attributes: [
                    "Policy":
                        """
                        {
                            "Statement": [
                                {
                                    "Effect": "Allow",
                                    "Principal": {
                                        "Service": "sns.amazonaws.com"
                                    },
                                    "Action": "sqs:SendMessage",
                                    "Resource": "\(queueArn)",
                                    "Condition": {
                                        "ArnEquals": {
                                            "aws:SourceArn": "\(topicArn)"
                                        }
                                    }
                                }
                            ]
                        }
                        """

                ],
                queueUrl: queueUrl
            )
        )
    }

    /// Receive the available messages on a queue, outputting them to the
    /// screen. Returns a dictionary you pass to DeleteMessageBatch to delete
    /// all the received messages.
    /// 
    /// - Parameters:
    ///   - sqsClient: The Amazon SQS client to use.
    ///   - queueUrl: The SQS queue on which to receive messages.
    /// 
    /// - Throws: Errors from `SQSClient.receiveMessage()`
    ///
    /// - Returns: An array of SQSClientTypes.DeleteMessageBatchRequestEntry
    ///   items, each describing one received message in the format needed to
    ///   delete it.
    func receiveAndListMessages(sqsClient: SQSClient, queueUrl: String) async throws
                                -> [SQSClientTypes.DeleteMessageBatchRequestEntry] {
        let output = try await sqsClient.receiveMessage(
            input: ReceiveMessageInput(
                maxNumberOfMessages: 10,
                queueUrl: queueUrl
            )
        )

        guard let messages = output.messages else {
            print("No messages received.")
            return []
        }

        var deleteList: [SQSClientTypes.DeleteMessageBatchRequestEntry] = []

        // Print out all the messages that were received, including their
        // attributes, if any.

        for message in messages {
            print("Message ID:     \(message.messageId ?? "<unknown>")")
            print("Receipt handle: \(message.receiptHandle ?? "<unknown>")")
            print("Message JSON:   \(message.body ?? "<body missing>")")
            
            if message.receiptHandle != nil {
                deleteList.append(
                    SQSClientTypes.DeleteMessageBatchRequestEntry(
                        id: message.messageId,
                        receiptHandle: message.receiptHandle
                    )
                )
            }
        }

        return deleteList
    }

    /// Delete all the messages in the specified list.
    /// 
    /// - Parameters:
    ///   - sqsClient: The Amazon SQS client to use.
    ///   - queueUrl: The SQS queue to delete messages from.
    ///   - deleteList: A list of `DeleteMessageBatchRequestEntry` objects
    ///     describing the messages to delete.
    ///
    /// - Throws: Errors from `SQSClient.deleteMessageBatch()`.
    func deleteMessageList(sqsClient: SQSClient, queueUrl: String,
                           deleteList: [SQSClientTypes.DeleteMessageBatchRequestEntry]) async throws {
        let output = try await sqsClient.deleteMessageBatch(
            input: DeleteMessageBatchInput(entries: deleteList, queueUrl: queueUrl)
        )

        if let failed = output.failed {
            print("\(failed.count) errors occurred deleting messages from the queue.")
            for message in failed {
                print("---> Failed to delete message \(message.id ?? "<unknown ID>") with error: \(message.code ?? "<unknown>") (\(message.message ?? "..."))")
            }
        }
    }

    /// Called by ``main()`` to run the bulk of the example.
    func runAsync() async throws {
        let rowOfStars = String(repeating: "*", count: 75)

        print("""
              \(rowOfStars)
              Welcome to the cross-service messaging with topics and queues example.
              In this workflow, you'll create an SNS topic, then create two SQS
              queues which will be subscribed to that topic.

              You can specify several options for configuring the topic, as well as
              the queue subscriptions. You can then post messages to the topic and
              receive the results on the queues.
              \(rowOfStars)\n
              """
        )

        // 0. Create SNS and SQS clients.

        let snsConfig = try await SNSClient.SNSClientConfiguration(region: region)
        let snsClient = SNSClient(config: snsConfig)

        let sqsConfig = try await SQSClient.SQSClientConfiguration(region: region)
        let sqsClient = SQSClient(config: sqsConfig)

        // 1. Ask the user whether to create a FIFO topic. If so, ask whether
        //    to use content-based deduplication instead of requiring a
        //    deduplication ID.

        let isFIFO = yesNoRequest(prompt: "Do you want to create a FIFO topic (Y/N)? ")
        var isContentBasedDeduplication = false

        if isFIFO {
            print("""
                  \(rowOfStars)
                  Because you've chosen to create a FIFO topic, deduplication is
                  supported.

                  Deduplication IDs are either set in the message or are automatically
                  generated from the content using a hash function.

                  If a message is successfully published to an SNS FIFO topic, any
                  message published and found to have the same deduplication ID
                  (within a five-minute deduplication interval), is accepted but
                  not delivered.

                  For more information about deduplication, see:
                  https://docs.aws.amazon.com/sns/latest/dg/fifo-message-dedup.html.
                  """
            )

            isContentBasedDeduplication = yesNoRequest(
                prompt: "Use content-based deduplication instead of entering a deduplication ID (Y/N)? ")
            print(rowOfStars)
        }

        var topicName = stringRequest(prompt: "Enter the name of the topic to create: ")
        
        // 2. Create the topic. Append ".fifo" to the name if FIFO was
        //    requested, and set the "FifoTopic" attribute to "true" if so as
        //    well. Set the "ContentBasedDeduplication" attribute to "true" if
        //    content-based deduplication was requested.

        if isFIFO {
            topicName += ".fifo"
        }

        print("Topic name: \(topicName)")

        var attributes = [
            "FifoTopic": (isFIFO ? "true" : "false")
        ]

        // If it's a FIFO topic with content-based deduplication, set the
        // "ContentBasedDeduplication" attribute.

        if isContentBasedDeduplication {
            attributes["ContentBasedDeduplication"] = "true"
        }

        // Create the topic and retrieve the ARN.

        let output = try await snsClient.createTopic(
            input: CreateTopicInput(
                attributes: attributes,
                name: topicName
            )
        )

        guard let topicArn = output.topicArn else {
            print("No topic ARN returned!")
            return
        }

        print("""
              Topic '\(topicName) has been created with the
              topic ARN \(topicArn)."
              """
        )
        
        print(rowOfStars)

        // 3. Create an SQS queue. Append ".fifo" to the name if one of the
        //    FIFO topic configurations was chosen, and set "FifoQueue" to
        //    "true" if the topic is FIFO.

        print("""
              Next, you will create two SQS queues that will be subscribed
              to the topic you just created.\n
              """
        )

        let q1Url = try await createQueue(prompt: "Enter the name of the first queue: ",
                                          sqsClient: sqsClient, isFIFO: isFIFO)
        guard let q1Url else {
            print("Unable to create queue 1!")
            return
        }
        
        // 4. Get the SQS queue's ARN attribute using `GetQueueAttributes`.

        let q1Arn = try await getQueueARN(sqsClient: sqsClient, queueUrl: q1Url)

        guard let q1Arn else {
            print("Unable to get ARN of queue 1!")
            return
        }
        print("Got queue 1 ARN: \(q1Arn)")

        // 5. Attach an AWS IAM policy to the queue using
        //    `SetQueueAttributes`.

        try await setQueuePolicy(sqsClient: sqsClient, queueUrl: q1Url,
                                 queueArn: q1Arn, topicArn: topicArn)

        // 6. Subscribe the SQS queue to the SNS topic. Set the topic ARN in
        //    the request. Set the protocol to "sqs". Set the queue ARN to the
        //    ARN just received in step 5. For FIFO topics, give the option to
        //    apply a filter. A filter allows only matching messages to enter
        //    the queue.

        var q1Attributes: [String:String]? = nil

        if isFIFO {
            print(
                """

                If you add a filter to this subscription, then only the filtered messages will
                be received in the queue. For information about message filtering, see
                https://docs.aws.amazon.com/sns/latest/dg/sns-message-filtering.html
                For this example, you can filter messages by a 'tone' attribute.

                """
            )

            let subPrompt = """
                Would you like to filter messages for the first queue's subscription to the
                topic \(topicName) (Y/N)? 
                """
            if (yesNoRequest(prompt: subPrompt)) {
                q1Attributes = buildFilterAttributes()
            }
        }

        let sub1Output = try await snsClient.subscribe(
            input: SubscribeInput(
                attributes: q1Attributes,
                endpoint: q1Arn,
                protocol: "sqs",
                topicArn: topicArn
            )
        )

        guard let q1SubscriptionArn = sub1Output.subscriptionArn else {
            print("Invalid subscription ARN returned for queue 1!")
            return
        }

        // 7. Repeat steps 3-6 for the second queue.

        let q2Url = try await createQueue(prompt: "Enter the name of the second queue: ",
                                sqsClient: sqsClient, isFIFO: isFIFO)
    
        guard let q2Url else {
            print("Unable to create queue 2!")
            return
        }

        let q2Arn = try await getQueueARN(sqsClient: sqsClient, queueUrl: q2Url)

        guard let q2Arn else {
            print("Unable to get ARN of queue 2!")
            return
        }
        print("Got queue 2 ARN: \(q2Arn)")

        try await setQueuePolicy(sqsClient: sqsClient, queueUrl: q2Url,
                                 queueArn: q2Arn, topicArn: topicArn)

        var q2Attributes: [String:String]? = nil

        if isFIFO {
            let subPrompt = """
                Would you like to filter messages for the second queue's subscription to the
                topic \(topicName) (Y/N)? 
                """
            if (yesNoRequest(prompt: subPrompt)) {
                q2Attributes = buildFilterAttributes()
            }
        }

        let sub2Output = try await snsClient.subscribe(
            input: SubscribeInput(
                attributes: q2Attributes,
                endpoint: q2Arn,
                protocol: "sqs",
                topicArn: topicArn
            )
        )

        guard let q2SubscriptionArn = sub2Output.subscriptionArn else {
            print("Invalid subscription ARN returned for queue 1!")
            return
        }

        // 8. Let the user publish messages to the topic, asking for a message
        //    body for each message. Handle the types of topic correctly (SEE
        //    MVP INFORMATION AND FIX THESE COMMENTS!!!

        print("\n\(rowOfStars)\n")

        var first = true

        repeat {
            var publishInput = PublishInput(
                topicArn: topicArn
            )

            publishInput.message = stringRequest(prompt: "Enter message text to publish: ")

            // If using a FIFO topic, a message group ID must be set on the
            // message.

            if isFIFO {
                if first {
                    print("""
                        Because you're using a FIFO topic, you must set a message
                        group ID. All messages within the same group will be
                        received in the same order in which they were published.\n
                        """
                    )
                }
                publishInput.messageGroupId = stringRequest(prompt: "Enter a message group ID for this message: ")

                if !isContentBasedDeduplication {
                    if first {
                        print("""
                              Because you're not using content-based deduplication, you
                              must enter a deduplication ID. If other messages with the
                              same deduplication ID are published within the same
                              deduplication interval, they will not be delivered.
                              """
                        )
                    }
                    publishInput.messageDeduplicationId = stringRequest(prompt: "Enter a deduplication ID for this message: ")
                }
            }

            // Allow the user to add a value for the "tone" attribute if they
            // wish to do so.

            var messageAttributes: [String:SNSClientTypes.MessageAttributeValue] = [:]
            let attrValSelection = menuRequest(prompt: "Choose a tone to apply to this message.", options: attrValues)

            if attrValSelection != 0 {
                let val = SNSClientTypes.MessageAttributeValue(dataType: "String", stringValue: attrValues[attrValSelection])
                messageAttributes["tone"] = val
            }

            publishInput.messageAttributes = messageAttributes
            
            // Publish the message and display its ID.

            let publishOutput = try await snsClient.publish(input: publishInput)

            guard let messageID = publishOutput.messageId else {
                print("Unable to get the published message's ID!")
                return
            }

            print("Message published with ID \(messageID).")
            first = false

            // 9. Repeat step 8 until the user says they don't want to post
            //    another.
        
        } while (yesNoRequest(prompt: "Post another message (Y/N)? "))

        // 10. Display a list of the messages in each queue by using
        //     `ReceiveMessage`. Show at least the body and the attributes.

        print(rowOfStars)
        print("Contents of queue 1:")
        let q1DeleteList = try await receiveAndListMessages(sqsClient: sqsClient, queueUrl: q1Url)
        print("\n\nContents of queue 2:")
        let q2DeleteList = try await receiveAndListMessages(sqsClient: sqsClient, queueUrl: q2Url)
        print(rowOfStars)

        returnRequest(prompt: "\nPress return to clean up: ")

        // 11. Delete the received messages using `DeleteMessageBatch`.

        print("Deleting the messages from queue 1...")
        try await deleteMessageList(sqsClient: sqsClient, queueUrl: q1Url, deleteList: q1DeleteList)
        print("\nDeleting the messages from queue 2...")
        try await deleteMessageList(sqsClient: sqsClient, queueUrl: q2Url, deleteList: q2DeleteList)

        // 12. Unsubscribe and delete both queues.

        print("\nUnsubscribing from queue 1...")
        _ = try await snsClient.unsubscribe(
            input: UnsubscribeInput(subscriptionArn: q1SubscriptionArn)
        )

        print("Unsubscribing from queue 2...")
        _ = try await snsClient.unsubscribe(
            input: UnsubscribeInput(subscriptionArn: q2SubscriptionArn)
        )

        print("Deleting queue 1...")
        _ = try await sqsClient.deleteQueue(
            input: DeleteQueueInput(queueUrl: q1Url)
        )

        print("Deleting queue 2...")
        _ = try await sqsClient.deleteQueue(
            input: DeleteQueueInput(queueUrl: q2Url)
        )
        
        // 13. Delete the topic.

        print("Deleting the SNS topic...")
        _ = try await snsClient.deleteTopic(
            input: DeleteTopicInput(topicArn: topicArn)
        )
    }
}

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.runAsync()
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}
```
+ Untuk detail API, lihat topik berikut di *Referensi API AWS SDK untuk Swift*.
  + [CreateQueue](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/createqueue(input:))
  + [CreateTopic](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/createtopic(input:))
  + [DeleteMessageBatch](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/deletemessagebatch(input:))
  + [DeleteQueue](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/deletequeue(input:))
  + [DeleteTopic](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/deletetopic(input:))
  + [GetQueueAttributes](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/getqueueattributes(input:))
  + [Publikasikan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/publish(input:))
  + [ReceiveMessage](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/receivemessage(input:))
  + [SetQueueAttributes](https://sdk.amazonaws.com/swift/api/awssqs/latest/documentation/awssqs/sqsclient/setqueueattributes(input:))
  + [Berlangganan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/subscribe(input:))
  + [Berhenti berlangganan](https://sdk.amazonaws.com/swift/api/awssns/latest/documentation/awssns/snsclient/unsubscribe(input:))

# AWS STS contoh menggunakan SDK untuk Swift
<a name="swift_1_sts_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan mengimplementasikan skenario umum dengan menggunakan AWS SDK for Swift with. AWS STS

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)

## Tindakan
<a name="actions"></a>

### `AssumeRole`
<a name="sts_AssumeRole_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`AssumeRole`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/iam#code-examples). 

```
import AWSSTS

    public func assumeRole(role: IAMClientTypes.Role, sessionName: String)
        async throws -> STSClientTypes.Credentials
    {
        let input = AssumeRoleInput(
            roleArn: role.arn,
            roleSessionName: sessionName
        )
        do {
            let output = try await stsClient.assumeRole(input: input)

            guard let credentials = output.credentials else {
                throw ServiceHandlerError.authError
            }

            return credentials
        } catch {
            print("Error assuming role: ", dump(error))
            throw error
        }
    }
```
+  Untuk detail API, lihat referensi [AssumeRole AWS](https://sdk.amazonaws.com/swift/api/awssts/latest/documentation/awssts/stsclient/assumerole(input:))*SDK untuk Swift API*. 

# Contoh Streaming Amazon Transcribe menggunakan SDK untuk Swift
<a name="swift_1_transcribe-streaming_code_examples"></a>

Contoh kode berikut menunjukkan cara melakukan tindakan dan menerapkan skenario umum dengan menggunakan AWS SDK untuk Swift dengan Amazon Transcribe Streaming.

*Tindakan* merupakan kutipan kode dari program yang lebih besar dan harus dijalankan dalam konteks. Sementara tindakan menunjukkan cara memanggil fungsi layanan individual, Anda dapat melihat tindakan dalam konteks dalam skenario terkait.

*Skenario* adalah contoh kode yang menunjukkan kepada Anda bagaimana menyelesaikan tugas tertentu dengan memanggil beberapa fungsi dalam layanan atau dikombinasikan dengan yang lain Layanan AWS.

Setiap contoh menyertakan tautan ke kode sumber lengkap, di mana Anda dapat menemukan instruksi tentang cara mengatur dan menjalankan kode dalam konteks.

**Topics**
+ [Tindakan](#actions)
+ [Skenario](#scenarios)

## Tindakan
<a name="actions"></a>

### `StartStreamTranscription`
<a name="transcribe-streaming_StartStreamTranscription_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara menggunakan`StartStreamTranscription`.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/transcribe-streaming#code-examples). 

```
        let client = TranscribeStreamingClient(
            config: try await TranscribeStreamingClient.TranscribeStreamingClientConfiguration(
                region: region
            )
        )

        // Start the transcription running on the audio stream.

        let output = try await client.startStreamTranscription(
            input: StartStreamTranscriptionInput(
                audioStream: try await createAudioStream(),
                languageCode: TranscribeStreamingClientTypes.LanguageCode(rawValue: lang),
                mediaEncoding: encoding,
                mediaSampleRateHertz: sampleRate
            )
        )
```
+  Untuk detail API, lihat referensi [StartStreamTranscription AWS](https://sdk.amazonaws.com/swift/api/awstranscribestreaming/latest/documentation/awstranscribestreaming/transcribestreamingclient/startstreamtranscription(input:))*SDK untuk Swift API*. 

## Skenario
<a name="scenarios"></a>

### Transkripsikan file audio
<a name="transcribe-streaming_Scenario_StreamEvents_File_swift_1_topic"></a>

Contoh kode berikut menunjukkan cara membuat transkripsi file audio sumber menggunakan streaming Amazon Transcribe.

**SDK para Swift**  
 Ada lebih banyak tentang GitHub. Temukan contoh lengkapnya dan pelajari cara mengatur dan menjalankannya di [Repositori Contoh Kode AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/transcribe-streaming#code-examples). 
Gunakan streaming Amazon Transcribe untuk mentranskripsikan bahasa lisan dalam file audio.  

```
/// An example that demonstrates how to watch an transcribe event stream to
/// transcribe audio from a file to the console.

import ArgumentParser
import AWSClientRuntime
import AWSTranscribeStreaming
import Foundation

/// Identify one of the media file formats supported by Amazon Transcribe.
enum TranscribeFormat: String, ExpressibleByArgument {
    case ogg = "ogg"
    case pcm = "pcm"
    case flac = "flac"
}

// -MARK: - Async command line tool

struct ExampleCommand: ParsableCommand {
    // -MARK: Command arguments
    @Flag(help: "Show partial results")
    var showPartial = false
    @Option(help: "Language code to transcribe into")
    var lang: String = "en-US"
    @Option(help: "Format of the source audio file")
    var format: TranscribeFormat
    @Option(help: "Sample rate of the source audio file in Hertz")
    var sampleRate: Int = 16000
    @Option(help: "Path of the source audio file")
    var path: String
    @Option(help: "Name of the Amazon S3 Region to use (default: us-east-1)")
    var region = "us-east-1"

    static var configuration = CommandConfiguration(
        commandName: "tsevents",
        abstract: """
        This example shows how to use event streaming with Amazon Transcribe.
        """,
        discussion: """
        """
    )

    /// Create and return an Amazon Transcribe audio stream from the file
    /// specified in the arguments.
    /// 
    /// - Throws: Errors from `TranscribeError`.
    ///
    /// - Returns: `AsyncThrowingStream<TranscribeStreamingClientTypes.AudioStream, Error>`
    func createAudioStream() async throws
                -> AsyncThrowingStream<TranscribeStreamingClientTypes.AudioStream, Error> {

        let fileURL: URL = URL(fileURLWithPath: path)
        let audioData = try Data(contentsOf: fileURL)

        // Properties defining the size of audio chunks and the total size of
        // the audio file in bytes. You should try to send chunks that last on
        // average 125 milliseconds.

        let chunkSizeInMilliseconds = 125.0
        let chunkSize = Int(chunkSizeInMilliseconds  / 1000.0 * Double(sampleRate) * 2.0)
        let audioDataSize = audioData.count

        // Create an audio stream from the source data. The stream's job is
        // to send the audio in chunks to Amazon Transcribe as
        // `AudioStream.audioevent` events.

        let audioStream = AsyncThrowingStream<TranscribeStreamingClientTypes.AudioStream,
                                Error> { continuation in
            Task {
                var currentStart = 0
                var currentEnd = min(chunkSize, audioDataSize - currentStart)

                // Generate and send chunks of audio data as `audioevent`
                // events until the entire file has been sent. Each event is
                // yielded to the SDK after being created.

                while currentStart < audioDataSize {
                    let dataChunk = audioData[currentStart ..< currentEnd]
                    
                    let audioEvent = TranscribeStreamingClientTypes.AudioStream.audioevent(
                        .init(audioChunk: dataChunk)
                    )
                    let yieldResult = continuation.yield(audioEvent)
                    switch yieldResult {
                        case .enqueued(_):
                            // The chunk was successfully enqueued into the
                            // stream. The `remaining` parameter estimates how
                            // much room is left in the queue, but is ignored here.
                            break
                        case .dropped(_):
                            // The chunk was dropped because the queue buffer
                            // is full. This will cause transcription errors.
                            print("Warning: Dropped audio! The transcription will be incomplete.")
                        case .terminated:
                            print("Audio stream terminated.")
                            continuation.finish()
                            return
                        default:
                            print("Warning: Unrecognized response during audio streaming.")
                    }

                    currentStart = currentEnd
                    currentEnd = min(currentStart + chunkSize, audioDataSize)
                }

                // Let the SDK's continuation block know the stream is over.

                continuation.finish()
            }
        }

        return audioStream
    }

    /// Run the transcription process.
    ///
    /// - Throws: An error from `TranscribeError`.
    func transcribe(encoding: TranscribeStreamingClientTypes.MediaEncoding) async throws {
        // Create the Transcribe Streaming client.

        let client = TranscribeStreamingClient(
            config: try await TranscribeStreamingClient.TranscribeStreamingClientConfiguration(
                region: region
            )
        )

        // Start the transcription running on the audio stream.

        let output = try await client.startStreamTranscription(
            input: StartStreamTranscriptionInput(
                audioStream: try await createAudioStream(),
                languageCode: TranscribeStreamingClientTypes.LanguageCode(rawValue: lang),
                mediaEncoding: encoding,
                mediaSampleRateHertz: sampleRate
            )
        )

        // Iterate over the events in the returned transcript result stream.
        // Each `transcriptevent` contains a list of result fragments which
        // need to be concatenated together to build the final transcript.
        for try await event in output.transcriptResultStream! {
            switch event {
            case .transcriptevent(let event):
            for result in event.transcript?.results ?? [] {
                guard let transcript = result.alternatives?.first?.transcript else {
                    continue
                }

                // If showing partial results is enabled and the result is
                // partial, show it. Partial results may be incomplete, and
                // may be inaccurate, with upcoming audio making the
                // transcription complete or by giving more context to make
                // transcription make more sense.

                if (result.isPartial && showPartial) {
                    print("[Partial] \(transcript)")
                }

                // When the complete fragment of transcribed text is ready,
                // print it. This could just as easily be used to draw the
                // text as a subtitle over a playing video, though timing
                // would need to be managed.

                if !result.isPartial {
                    if (showPartial) {
                        print("[Final  ] ", terminator: "")
                    }
                    print(transcript)
                }
            }
            default:
                print("Error: Unexpected message from Amazon Transcribe:")
            }
        }
    }

    /// Convert the value of the `--format` command line option into the
    /// corresponding Transcribe Streaming `MediaEncoding` type.
    ///
    /// - Returns: The `MediaEncoding` equivalent of the format specified on
    ///   the command line.
    func getMediaEncoding() -> TranscribeStreamingClientTypes.MediaEncoding {
        let mediaEncoding: TranscribeStreamingClientTypes.MediaEncoding
        
        switch format {
        case .flac:
            mediaEncoding = .flac
        case .ogg:
            mediaEncoding = .oggOpus
        case .pcm:
            mediaEncoding = .pcm
        }

        return mediaEncoding
    }
}

// -MARK: - Entry point

/// The program's asynchronous entry point.
@main
struct Main {
    static func main() async {
        let args = Array(CommandLine.arguments.dropFirst())

        do {
            let command = try ExampleCommand.parse(args)
            try await command.transcribe(encoding: command.getMediaEncoding())
        } catch let error as TranscribeError {
            print("ERROR: \(error.errorDescription ?? "Unknown error")")
        } catch {
            ExampleCommand.exit(withError: error)
        }
    }    
}

/// Errors thrown by the example's functions.
enum TranscribeError: Error {
    /// No transcription stream available.
    case noTranscriptionStream
    /// The source media file couldn't be read.
    case readError

    var errorDescription: String? {
        switch self {
        case .noTranscriptionStream:
            return "No transcription stream returned by Amazon Transcribe."
        case .readError:
            return "Unable to read the source audio file."
        }
    }
}
```
+  Untuk detail API, lihat referensi [StartStreamTranscription AWS](https://sdk.amazonaws.com/swift/api/awstranscribestreaming/latest/documentation/awstranscribestreaming/transcribestreamingclient/startstreamtranscription(input:))*SDK untuk Swift API*.